Gene ID	Length(bp)	Gene name	COG	Product	Nucleotide seq	Protein seq	PGPT:Locus Tag	PGPT:Effect	PGPT:L1	PGPT:L2	PGPT:L3	PGPT:L4	PGPT:L5	PGPT:L6
D1-17_00001	264			hypothetical protein	ATGCCGGAACTCCGGGGCATGACGCGCGCCGAAGCCGAGGGCGCGCTGAAGGCCCTGGGCCTGCCGGTAATCATCAACGAGGTGGAAAACTCCCAGGTGGCGCCAGGCAAGGTCACGGGCCAGAGCGATCCCCTCAATGCCCTTATCGAACAAGGCAAGACCGTCAGCATCACTGTGGCCAAGGCACCAGCACCAGAGCCCACCCCGACGCCGACCCCGACATCGAAGCCCACGCCCTCGGCCAGCGCGAAGCCGAAACCTTAG	MPELRGMTRAEAEGALKALGLPVIINEVENSQVAPGKVTGQSDPLNALIEQGKTVSITVAKAPAPEPTPTPTPTSKPTPSASAKPKP				NA	NA	NA	NA	NA
D1-17_00002	642	trpG	COG0512	Anthranilate synthase component 2	ATGAGTACAACCAAGATCCTCGTCGTGGACAACTACGACAGCTTTGTCTACACCCTGGTCGGATACCTCCAGGAGCTGGGCGCCGAAACCACCGTGGTACGCAACGATGACGTCACGCTCGCCGAAGCAATCGAAATGGCGGAAATGCGCGACGGCGTTCTCATCTCGCCCGGTCCCGGCTCACCCTCGGAGGCGGGCGTCTGCATCGAGCTGATCAAATGGTGCGGAGACAGCAGCAAGCCCATGTTCGGCGTCTGCCTCGGCCACCAGGCCCTTGCGGAGGCCTACGGCGGCACCGTGACCCACGCGCCGGAACTGATGCATGGCAAGACTTCCCTGGTCCAGCACGACGGCGGCAGCGTTTTCGCTGGCCTGCCCTCCCCTGTCACAGCAACCCGGTACCACTCGCTGGCCGCGGTGCGGCAGTCCATCCCCGACGTCCTCGAGATCACCGCGGAGACCGCCAGCGGCGTGGTCATGGGGCTGGCCCACCGCACTGCTCCGCTCTGCGGCGTGCAGTTCCACCCCGAATCGGTCCTCACGGAGGGCGGCTACCAGATGCTGGGCAACTGGCTCGAGTCACTCGGCATGGCGGGCGCCGCTGAACGCGCAGCGAAGCTCAGCCCGCTGATCCAGCACTAG	MSTTKILVVDNYDSFVYTLVGYLQELGAETTVVRNDDVTLAEAIEMAEMRDGVLISPGPGSPSEAGVCIELIKWCGDSSKPMFGVCLGHQALAEAYGGTVTHAPELMHGKTSLVQHDGGSVFAGLPSPVTATRYHSLAAVRQSIPDVLEITAETASGVVMGLAHRTAPLCGVQFHPESVLTEGGYQMLGNWLESLGMAGAAERAAKLSPLIQH	PGPT0008000_356	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
D1-17_00003	171			hypothetical protein	GTGTACGGCTGGATTTTTCGGAACCTCCCGGGCCCGCTCTGGATCCGTATCCTCACATCCGTGGCGCTGGTCGCCGTGGCCCTGTTCCTGATGGTCGAGTTCCTCTTCCCCTGGATGTCACAGTTCACCCAATTCAACGACTCAACGATTGGTGCGGCAAGTAACCCATGA	MYGWIFRNLPGPLWIRILTSVALVAVALFLMVEFLFPWMSQFTQFNDSTIGAASNP				NA	NA	NA	NA	NA
D1-17_00004	780	srtE1	COG3764	Sortase SrtE1	GTGGTACTGCAGGAGAAGGTGACTCCCCCTGCCGCGCCGGCAGCCGGCGTCGTAATCCTGCGGAAGACCGTGCAGATCGCCGGTGAGCTGCTCATGACTGCCGGTGTCATCCTCCTGCTGTTCGTCGCGTGGCAGCTGTGGTGGACGAACGTCGCGTCCGATGCGAGGCAAAGCGAAGTCGTCAAGAACTTCGCCCAGGAGCTCGGCGGTCCGGTGACTCCCAAGCCCGCTCCGGAAAGAGCGGTGCCGGATTACGGCGCCCCCGCGGTGGCCGCGGCGCCCGGCCACGGCGGCACCATCGGTATCATGTACGTTCCGAGGTTCGGGCAGAACTACGCCCGGCCCATCGTCGAGGGAACTACATCCGACGTCCTGGACACGCTGGGCCTGGGACACTACGGGAGCACGGCCATGCCCGGCGCTGTGGGGAACTTCGCCGTCGCCGGACACCGGCAGACGCACGGCGCGGTGCTGGACAACATCCACACGCTGGTTCCCGGGGACAAGATCTACGTCCAGACGAAGGACGGCTATTATGTCTACGTATTCCGCAACAACCGCATCGTGATGCCCTCCGATGCCGGTGTCCTGCTTCCGGTGCCATCGAAGCCCGGGGCGAGGCCCACGGAAAGAATGCTGACCATGACCAGCTGCAACCCCCGCTTCGGCTCAGAGGAACGGATCATCGCGTACTCCCTGCTCGACCACTGGCAGCCGGCCTCCGTGGGACCCCCGCCGGAGATTGCCGCTCAAGTGGCGCGCGCACGAGGGGAGGGCTGA	MVLQEKVTPPAAPAAGVVILRKTVQIAGELLMTAGVILLLFVAWQLWWTNVASDARQSEVVKNFAQELGGPVTPKPAPERAVPDYGAPAVAAAPGHGGTIGIMYVPRFGQNYARPIVEGTTSDVLDTLGLGHYGSTAMPGAVGNFAVAGHRQTHGAVLDNIHTLVPGDKIYVQTKDGYYVYVFRNNRIVMPSDAGVLLPVPSKPGARPTERMLTMTSCNPRFGSEERIIAYSLLDHWQPASVGPPPEIAAQVARARGEG	PGPT0024075_1278	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
D1-17_00005	255	crgA		Cell division protein CrgA	GTGCCCGAGTCAAAGCCACGTAAGAAGACTGCCCGTGCGGCTGAACCGGCCTCCTCGGCGCAGGCGTACAAGCCCAACCCGGTCTGGTTCAAGCCAGTTATGTTCGGCCTCATGATCATTGGGCTGTTCTGGATCATCACCTTTTACATCAGCGAAGGCACCCTGCCCGTAAGGGACTGGGGGTCATGGAACATCGTCGCCGGTTTCGGCATCGCGATCATGGGCTTCCTCATGACCACGCGCTGGCGGTCCTGA	MPESKPRKKTARAAEPASSAQAYKPNPVWFKPVMFGLMIIGLFWIITFYISEGTLPVRDWGSWNIVAGFGIAIMGFLMTTRWRS				NA	NA	NA	NA	NA
D1-17_00006	597	tag	COG2818	DNA-3-methyladenine glycosylase 1	ATGGACCAGCAGGGGATCATCATCGGTGATGACGGTCTGGGGCGCCCGGTGTGGGCGTCCAGCAATCCCTTGCTGCGGGAGTACTACGACACCGAATGGGGTTTGCCTGTCCGGGATGAACACGGGCTGTACGAGCGTATTAGCCTGGAAGCGTTTCAGGCAGGCCTGTCCTGGGTGACCATCCTGCGCAAGCGGCCTGCCTTCCGTGCAGCTTTTGCTGGCTTTAACCCGGACGCCGTTGCCGCATTCACTGAGAACGATGTCGAACGGCTGCTGCAGGACCCGGGGATCGTGAGGAACCGGCTGAAGATCCGTGCCGCCATCACCAACGCCCAAGCCACCATCGCCCTCCGCAATGAAGGCGGGCTGGTGGACTTCGTATGGCAGTTTCAGCCCTCGTCCAGTCCGGCCCCTCTGACCTACGCTGACGTCCCCACGCAGTCACCCGAGTCTGTTGCCCTCTCCAAAGCGCTCAGGAAGAAGGGCTTCGCCTTCGTCGGACCCACCACGATGTTCGCCCTTATGGAGGCCATCGGCATGGTGGACACCCATCTCGTGGACAGCCACCGCAGAGGTTCCTCCGGGATATGGCTCTGA	MDQQGIIIGDDGLGRPVWASSNPLLREYYDTEWGLPVRDEHGLYERISLEAFQAGLSWVTILRKRPAFRAAFAGFNPDAVAAFTENDVERLLQDPGIVRNRLKIRAAITNAQATIALRNEGGLVDFVWQFQPSSSPAPLTYADVPTQSPESVALSKALRKKGFAFVGPTTMFALMEAIGMVDTHLVDSHRRGSSGIWL				NA	NA	NA	NA	NA
D1-17_00007	468			hypothetical protein	GTGAGCACCACAGAACACATCTACCTGGACAAGTACCACCCGGCGTCGTGGCGGGCCCTGAATGGTCTGGGCCTGAAGGTCAGGGAGGCGGCGGTTGAAGCGGGCCTTACCCGCACGCTTATCGAGCTGCTGAACGTCCGCACATCCCAGCTCAACGGCTGCGCCTATTGCCTGGACATGCACGTAGCCGACGCCCTCAAGGCAGGCGAATCGAATCAGCGGCTTGCAGTACTTCCCGCGTGGCGGGACACAGACCTCTTTGACGGTGTGGAGCGGGCCGCCTTGGCGCTTGCAGAGAGCATCACGGGGCTTCCCGACGCCTCCATCCGTGAGCAGGAGGATGCGTATGCCCGGGACCATCTGAGCGCTGAGCAGTATTCTGCCGTGAGCTGGCTGGTGATCACCATGAACGCGTTCAACCGCGTCTCAATCACGAGCCGGCACCCGGTGCGGCCGGCCAAAAGCTAG	MSTTEHIYLDKYHPASWRALNGLGLKVREAAVEAGLTRTLIELLNVRTSQLNGCAYCLDMHVADALKAGESNQRLAVLPAWRDTDLFDGVERAALALAESITGLPDASIREQEDAYARDHLSAEQYSAVSWLVITMNAFNRVSITSRHPVRPAKS				NA	NA	NA	NA	NA
D1-17_00008	879	gluP	COG0705	Rhomboid protease GluP	ATGAGTTACGGAATTCCGTCGGCAGAGCCGTCCGCGCAGGTACCCGTGTGCCCCCGGCACCCGGACCGGCCCTCCTACGTGAGCTGCCAGCGCTGTGGGCGTCCCGCATGCCCAGAATGCCAGCGGGCGGCCGCCGTCGGATTCCAATGCGTTGATTGCGTCAACGAAACAAAACGTGCGACGCCGGCAGTCCGGACCGTCTACGGCGGCGCCGTCGCGTCGGGCAAGCCCATGGTGACGTTTGCGATCATCGCCGTATGTGCCCTGCTGTTTGTGTTGCAGTGGGTGGTTCCAAACGACTCCATCTTCCGTAATCTCGCCTACGCCTCGGTGTTTGCGACTCCCGACTACGGTCTTTTTCAGCCCTGGCGCATGATCACGGCGGCTTTTCTCCATTCCCAGAGCTTCCTTCTCCATATCGTGCTCAACATGTACACGCTGTGGATTTTCGGCCAGGCGCTGGAGCCTTTGTTGGGCCGTATCAGGTTCCTTGCCGTCTACCTGCTCTCTGCCATCGGCGGATCCGTGGGATACCTGCTCCTGACGCCCATCCTTCCTGAAGGCGGTCCCGTTGGAGTTGTGGGCGCTTCCGGCGCCATCTTCGGGCTCTTCGGAGCCATGCTTGTGGTGCAGCGCCACAGGGGCGGTGAAACCAGGCAGCTGTGGGTCCTGATCGCCATTAACGGCGTTATCGGCTTCATGGTCCCCCAAATCGCCTGGCAGGCCCACCTCGGTGGCCTCGTCACAGGAGCCCTGTGCGCCGCCGCCATCGCCTATGTGCCTCGTGGGCCCCGACAGCACTTGCTGCAGTTTGCCGGCCTTGCAGCTGTCCTGGCCCTGCTGGTGGCGCTTACCTGGTACCGAATCACCGCCGGCTGA	MSYGIPSAEPSAQVPVCPRHPDRPSYVSCQRCGRPACPECQRAAAVGFQCVDCVNETKRATPAVRTVYGGAVASGKPMVTFAIIAVCALLFVLQWVVPNDSIFRNLAYASVFATPDYGLFQPWRMITAAFLHSQSFLLHIVLNMYTLWIFGQALEPLLGRIRFLAVYLLSAIGGSVGYLLLTPILPEGGPVGVVGASGAIFGLFGAMLVVQRHRGGETRQLWVLIAINGVIGFMVPQIAWQAHLGGLVTGALCAAAIAYVPRGPRQHLLQFAGLAAVLALLVALTWYRITAG				NA	NA	NA	NA	NA
D1-17_00009	546	cypB		Peptidyl-prolyl cis-trans isomerase B	ATGACTGCCACAGCAACTGCAAAAGCAACCATCCACACAAGCCTCGGCGACATCGTCGTGAACCTCTTCGGCAACCACGCGCCGAAGACCGTTAAGAACTTCATTGGACTGGCCACCGGCGAACAGCAGTGGACGCATCCGGAGACCGGCGAGGACAAGACCGGCACGCCGCTGTACAGTGGCACCATCTTCCACCGCATCATCAAAGACTTCATGATCCAGGCCGGCGATCCCCTCGGCCGTGGCACCGGCGGACCCGGCTACCGCTTCGACGACGAGATCCACCCTGAACTGAGCTTCAACGCCCCCTACAAGCTGGCCATGGCCAACGCCGGTATCCAGATGGGCAAGGGAACCAACGGTTCGCAGTTCTTCATCACCACCATCCCCACGGATTGGCTGCAGGGTAAGCACACCATCTTCGGTGAAGTGGCTGACGATGACTCCCGCAAGGTTGTGGACGCCATTGAGGGAGTCCGCACGGGAATGGGCGACCGTCCGGTTGAAGACGTGACCATCAACAGCATCGACGTCGAGCAGCTCTAA	MTATATAKATIHTSLGDIVVNLFGNHAPKTVKNFIGLATGEQQWTHPETGEDKTGTPLYSGTIFHRIIKDFMIQAGDPLGRGTGGPGYRFDDEIHPELSFNAPYKLAMANAGIQMGKGTNGSQFFITTIPTDWLQGKHTIFGEVADDDSRKVVDAIEGVRTGMGDRPVEDVTINSIDVEQL	PGPT0015110_1921	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
D1-17_00010	939			hypothetical protein	GTGAAGAAATCGGATCGTATTGCCCGCGAACTGGAGTTGTCGGTCAGTTCAGCTGTCGAGAATGCCAAAGACCGGGTTGAAGCGGCTGTGGATTGGGCCGTGCCGCGGCTGCAGCAGAGCATTGACACCGCTTCCCCCAAAATCCAGGAGGGGCTCAAGTCAGCGGCCCACAACCTGGCTGACGGAGTTGCCACGGTAACCCCCCGCATTCAGGACGGAATTGCACAACTGGCACCCAAGATCCAGGACGCCGTTGACGGCGCAACTCCGAAACTGCACGACGCGCTGGACAAGGCCAGTCCGGTGATTGCCTCGGCGCGTGACCGCGTCGTGGTGGAGTACCTGCCCAAGCTCTCTGACCAGATCGGAACCGCCTCCGATGTGGTCCACCGCACGCTCGAAGGCACCCCGGCACGCGTTGATGCAGTCGCGCAGAAGTTGGGCGACGTCGGAATCATCCACGCCCTCCAGGAGCAGGCCCAGGTTGCCGGCACGCAGCTGAAGTCTGCCGCTTCTGAGGCAGGCCGCGTCATCACCCGCCAGCCAATTGTCGTTGAGCCGGAGAAGCCCAAGAAGCGCGGCCTGCTGATCGTGGGAGTGATCGCAGCTGCCGTTGCCGCCGGCGTCGCGGCCTGGAAGGCCTCCAAGCCTGTTGAAGACCCATGGAAGACTCCGTCGCCCGTCACCCCGGCTCCGCCCACTCCGGCAGCTGAAACTCCAGCACCGGTGCCGGCCACCACGGTTACCGAAACCGTCACAGAGTCTGACACGGCCCCGGTTGCTTCCACGTCAGACGAATCCCTCCAGGGCTCGTCCGACAAGGCCAAGCACGTCGCCGAGGATTCCGACGCCGGAACGGTCGCCGCCGATGCCAGGGACGCCGTCGAAGACCTCTCCACCAAGATAGGCGAGGACGCCGGAAAGCAGTCCGGGAAGTAA	MKKSDRIARELELSVSSAVENAKDRVEAAVDWAVPRLQQSIDTASPKIQEGLKSAAHNLADGVATVTPRIQDGIAQLAPKIQDAVDGATPKLHDALDKASPVIASARDRVVVEYLPKLSDQIGTASDVVHRTLEGTPARVDAVAQKLGDVGIIHALQEQAQVAGTQLKSAASEAGRVITRQPIVVEPEKPKKRGLLIVGVIAAAVAAGVAAWKASKPVEDPWKTPSPVTPAPPTPAAETPAPVPATTVTETVTESDTAPVASTSDESLQGSSDKAKHVAEDSDAGTVAADARDAVEDLSTKIGEDAGKQSGK				NA	NA	NA	NA	NA
D1-17_00011	876	arnC_1		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGTCACCCGATAGATCCTCCCAGGATGCCTCCTTTGACGCTCCGCAGCAGCCGGGCGTATCAATAGTTATTCCGGCGTACAACGAGGAAAGCGTCATAAGACAGTGCCTGATCGCCGCGATCTATCAGTCCGTTCCGGCACACGAAGTCATCGTCGTGGACAACATGTCCAAGGACCGCACGGCGGAGATTGTGCGCCAGATGCAGCAGGAGTATCCGGAGAGCCCGATCATCCTGCTCCGCCAGGACAAAGAGCAGGGGCTCATTCCCACGCGTAACTTCGGCCTAGACCACGCCACCGGAGACATTTTGGGCCGCATTGATGCCGACTCCGTTGTCGAGCCGGACTGGGTGGAGCAGGTTCAGAAGGCATTCGAGGACCCCTCCACCCAGGCTGCGACAGGACCGGTGGTCTATTACGACATGCCGATGCGCCGGTTCGGGCTCAAAGCGGATGACAAGATGCGCCAGCTGATGCTCAAGCTGGCCAAGCACCAATACCATTTCCTCTTCGGCTCGAACATGGCGCTTCGGCGTACAGCGTGGGAGACCATCCGCGGGGAAGCCTGCCGGGACGAGAAGGACGAGATGCATGAGGACATCGACCTCTCCCTGCACCTCGCCGACCATGACCTGAAGATCCAGTACTGGCCGCAGATGGTTTCAGGAATGTCCGCCCGCCGCCTTGAGGACTCGCCCCGGGACTACCGCTACTACGTGACCCGCTTCGACCGCACGTACAAGGCCCACAACGTCAAGAAAATGGCCCTCAAGGCCCCGATGGTGGTCTTCTTCTCCGTTTACTTCCCCGCGAAGCTGCTACGGGCCATCCACACGGTGAACACCAGCCAGCCTGCCCGCCGCGGCGGGCAGTAG	MSPDRSSQDASFDAPQQPGVSIVIPAYNEESVIRQCLIAAIYQSVPAHEVIVVDNMSKDRTAEIVRQMQQEYPESPIILLRQDKEQGLIPTRNFGLDHATGDILGRIDADSVVEPDWVEQVQKAFEDPSTQAATGPVVYYDMPMRRFGLKADDKMRQLMLKLAKHQYHFLFGSNMALRRTAWETIRGEACRDEKDEMHEDIDLSLHLADHDLKIQYWPQMVSGMSARRLEDSPRDYRYYVTRFDRTYKAHNVKKMALKAPMVVFFSVYFPAKLLRAIHTVNTSQPARRGGQ				NA	NA	NA	NA	NA
D1-17_00014	675			putative protein	GTGAGCAATCCCGACTCATTTCCCAAGCCGAGCAGTAATGGTCCCGGCGGGGTAAGGCAGCCGGCAGCCGCTCCACGAGTGAACGCCCCGGTGCGTCCGCAGCAGAGCCCTGCCGCATCGGCGGGCAGTCCTGGGCCGGCAGCACCCCGGCAGGCTCCGGCACAGCCACCGCAGGGCCAGCGGCCAGCAGCTCCCGGCCAGCGGCCCGTTCAGGGCCCGCGCCCCCAGGCTCCCGGCCAGCGGCCGCCCGCACCCGGGCAGCGCCCGGGCCAGGGAGCTCCGGGACTCGTCAAGCCTGCACCAAAGGCCAAGGTCCGCCGGGCGCGCCTGCTCGTCAGCAAGGTGGACCCCTGGTCCGTCCTGAAAATGGCTTTCCTGCTCTCCGTGGCCTTGGGTATCGTCACCGTGGTAGCCGCCATCGTGCTGTGGACCGTCCTGGACCTAACAGGAATCTTCGACCAGGTGGACAGCCTCCTGGGTACTCTGGCCGGCTCCGAGGGCGGCGGGTTCGAGCTGAAAAAGATTGCCTCCCTCGGACAGGTGGCATCCTTTGCCACGATCATTGCCGTCGTCAACGTGGTGCTGCTGACGGCCCTGTCCATGCTGTCCGCCGTCCTCTATAACATCTCAGCCACGCTCGTCGGTGGCATCGGTGTCACCCTCACGGACGACTAA	MSNPDSFPKPSSNGPGGVRQPAAAPRVNAPVRPQQSPAASAGSPGPAAPRQAPAQPPQGQRPAAPGQRPVQGPRPQAPGQRPPAPGQRPGQGAPGLVKPAPKAKVRRARLLVSKVDPWSVLKMAFLLSVALGIVTVVAAIVLWTVLDLTGIFDQVDSLLGTLAGSEGGGFELKKIASLGQVASFATIIAVVNVVLLTALSMLSAVLYNISATLVGGIGVTLTDD				NA	NA	NA	NA	NA
D1-17_00015	2694	gyrA_1	COG0188	DNA gyrase subunit A	ATGAGTGACGAAACCCCCGAGGTTCCCGCGGACTCGGCAGAAAACCCCGAGACGGTGCTGGAGGGCGACCTGCTGACCGACCGCGTTGAGCAGGTGGATCTCCAGACCGAAATGCAGCGGTCCTATCTGGACTATGCCATGGCCGTGATCGTGGGCCGTGCCCTTCCGGACGTGCGTGACGGACTCAAGCCCGTGCACCGTCGCGTGCTGTACGCGATGTTCGATGGCGGGTATCGCCCCGACCGCTCCTTTAACAAGTGTGCCCGCGTCGTGGGCGAGGTCATGGGCCAGTACCACCCGCACGGTGACACTGCGATTTACGATGCGCTTGTCCGCCTCATCCAGGACTGGACGATGCGGTACCCGCTGGCGCTGGGACAGGGCAACTTCGGTTCCCCGGGCAACGACGGCGCCGCAGCACCGCGATACACCGAAACCAAGATGGCGCCCCTGGCGATGGAAATGGTCCGCGACATCGATGAGGAGACCGTCGATTTCCAGGACAACTACGACGGCAAAAACCAGGAACCGACCATCCTGCCGGCTCGGTTCCCGAACCTGCTGGTCAACGGCTCCTCGGGGATCGCCGTCGGCATGGCCACCAACATTCCGCCGCACAACCTCCGTGAGGTGGCGGACGGCGTCCAGTGGTACCTGGCCAACCCGAACGCCAGCCGGGAGCAGCTGCTCGAGGAGCTGTTGCTCCGCATCAAGGGGCCGGATTTCCCCACCGGTGCCACCATTCTTGGCCACAAGGGCATCGAGGATGCCTACCGCACCGGCCGGGGCTCCATCACCATGCGCGCGGTGGTCAACGTCGAGGAACTCCAGGGGCGCACGTGCCTGGTCGTGACGGAACTGCCCTACCAGGCCAACCCGGACAACCTGGCCATCAAGATCGCCGAGCTCGTCAAGGACGGCAAGGTCCAGGGCATCGCCGACCTCCGGGATGAAACCTCCGGACGCACCGGTCAGCGCCTCGTTATTGTCCTGAAGCGCGACGCAGTGGCCAAGGTGGTACTGAACAACCTCTACAAGCACACCCAGCTGCAGGAGAACTTCGGCGCCAACATGCTGGCCATCGTTGACGGCGTGCCACGCACGCTCAGCCTCGATGCCTTCATCCGCCACTGGGTCACGCACCAGTTGGACGTCATCGCCCGCCGCACCCGTTACCGCCTGCGCAAGGCCGAAGAGGAAGCGCACATCCTGCGTGCCCTGTTGAAGGCCCTGGACATGCTGGATGAAGTCATCGCCCTGATCCGCGCGTCCAACACCACAGAGGCTGCGCGTGACGGCCTGATGGAGCTCCTGGACATCGACGAGTTGCAGGCCCGGGCCATCCTGGACATGCAACTGCGCCGCCTCGCAGCCCTGGAACGCCAGAAGATCCAGGACCGCCACGCCGAGCTCGAAGCCCTGATCGCAGAGTACAACGCGATCCTGGCATCCGAAGAGCGCCAGCGCGGCATCATCAGCGAGGAACTCGGCGAGATCGTTGCCAAGCACGGCGATGACCGGCGAACTAAGATCCTGATGGGCTACGACACCGACATGTCCATGGAAGACCTCATTCCCGAAGAGGAAATGGTGGTTACCATCACCCGCGGCGGCTACGTCAAGCGGACACGGAGCGACAATTACCGGTCCCAGCAGCGCGGCGGCAAGGGCATCAGGGGCGCTCAGCTGCGCGGGGACGACGTCGTCGAGCACTTCTTCGTCACGACCACCCACCACTGGTTGCTTTTCTTCACCAACCTCGGCCGGGTCTACCGTGCCAAAGCCTATGAACTTGCCGAGGGCAGCCGTGACTCCAAGGGCCAGCACGTAGCCAATCTGCTCGCATTCCAGCCGGACGAGCATATCGCCCAGGTACTGGACCTGAAGGACTATCAGCACGCGCCGTACCTTGTCCTGGCCACCAAGCGGGGCCTTGTGAAGAAGACACGGCTGGAGGACTACGACACGAACCGGTCCGCCGGTGTCATCGCGATCAACTTGCGCGACGGCGACGAGCTCGTGTCCGCACAGCTTGTCTCCGAAACGGACGACCTCATGCTGGTCTCCCGCAAGGGCCAGTCCATCCGCTTTACCGCGACGGATGACGCGCTTCGCCCCATGGGCCGTGCCACATCCGGTGTGACGGGCATGAAGTTCCGTGAGGAAGACGAACTCCTGGCGGCGAACGTGGTCACTGACGGCTCTTACGTCTTCATCGTGACGGAAGGCGGTTACGCCAAGCGCACCGCTTCCGAGGAATACCGGCTGCAGGGCCGTGGCGGCCTGGGCATCAAGGTGGCCAAGCTTGCCGAGGACCGCGGTGACCTGGTCGGGGCACTCATCGTCCAAGAAGAGGACGAAGTCCTCGTGGTCATGGAGGGCGGCAAGGTGGTCCGATCCGCCGTCGCCGGTGTTCCCGCCAAGGGCCGGGACACTATGGGCGTCATCTTCGCGAAACCTGACAAGAACGACCGCATCATTGAGGTTGCGCGCAACAGCGAACGCGGACTCGAGGGAGAAGAATCTCCGGAGAATGACGTAACGTTGGCTGAAGATAACGGACCGGCAGACGGGTCCGCAGAGGCAGAAACAGCAGAGACAGAGTCGGCAGCCCCCGCCGCATCCGAGGATGCAGACTCTGTCGCTGAGTTGAATGCTGAGTTGAACGAAGACAACACCGGAGGTAACGAGTGA	MSDETPEVPADSAENPETVLEGDLLTDRVEQVDLQTEMQRSYLDYAMAVIVGRALPDVRDGLKPVHRRVLYAMFDGGYRPDRSFNKCARVVGEVMGQYHPHGDTAIYDALVRLIQDWTMRYPLALGQGNFGSPGNDGAAAPRYTETKMAPLAMEMVRDIDEETVDFQDNYDGKNQEPTILPARFPNLLVNGSSGIAVGMATNIPPHNLREVADGVQWYLANPNASREQLLEELLLRIKGPDFPTGATILGHKGIEDAYRTGRGSITMRAVVNVEELQGRTCLVVTELPYQANPDNLAIKIAELVKDGKVQGIADLRDETSGRTGQRLVIVLKRDAVAKVVLNNLYKHTQLQENFGANMLAIVDGVPRTLSLDAFIRHWVTHQLDVIARRTRYRLRKAEEEAHILRALLKALDMLDEVIALIRASNTTEAARDGLMELLDIDELQARAILDMQLRRLAALERQKIQDRHAELEALIAEYNAILASEERQRGIISEELGEIVAKHGDDRRTKILMGYDTDMSMEDLIPEEEMVVTITRGGYVKRTRSDNYRSQQRGGKGIRGAQLRGDDVVEHFFVTTTHHWLLFFTNLGRVYRAKAYELAEGSRDSKGQHVANLLAFQPDEHIAQVLDLKDYQHAPYLVLATKRGLVKKTRLEDYDTNRSAGVIAINLRDGDELVSAQLVSETDDLMLVSRKGQSIRFTATDDALRPMGRATSGVTGMKFREEDELLAANVVTDGSYVFIVTEGGYAKRTASEEYRLQGRGGLGIKVAKLAEDRGDLVGALIVQEEDEVLVVMEGGKVVRSAVAGVPAKGRDTMGVIFAKPDKNDRIIEVARNSERGLEGEESPENDVTLAEDNGPADGSAEAETAETESAAPAASEDADSVAELNAELNEDNTGGNE	PGPT0027705_771	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621	NA	NA
D1-17_00016	2091	gyrB_1	COG0187	DNA gyrase subunit B	GTGGCTAACGACAATACAGACATCCAGGCAGGGGAAGCCGAGATCGAGGATGCCCCTACACCGGAGACCCCGGCAGAGGCCACGACGCAGCGGGAATACGGTGCCAGCGACATCACAGTCCTGGAGGGCCTCGAAGCTGTACGGAAGCGCCCTGGTATGTATATCGGTTCGACCGGCCTCCGCGGGCTGCACCACCTGGTGTATGAAGTGGTGGACAACTCCGTTGATGAGGCGTTGGCCGGTTACTGCACGCACATCGAAATAGTCCTGCAGGCCGACGGCGGCGTCAAGGTCACGGATGACGGCCGCGGCATCCCTGTGGACATCCATCCCAGCGAAGGGAAGCCGACCGTTGAAGTGGTCATGACCATCCTGCATGCCGGGGGAAAGTTCGGCGGCGGCGGATACGCCGTGTCAGGCGGTCTCCACGGCGTGGGCATCTCCGTGGTCAATGCACTTTCGAGCCGTGTGGATACAGAGGTGCGCCGTCAGGGTCACGTCTGGCGCATGTCCTTTGCGGACGGCGGCAAGCCCCAGGGCGGGCTGGTTAAGGGCGAGGAAACGGATGAAACCGGTACCAGCCAGACGTTCTATCCGGACCCCACCATTTTCGAGTCCGTCGAGTTTGATTTCGAGACCCTCCGCGCACGCTTCCAGCAGATGGCCTTCCTTAACAAGGGCCTGAAGATCACCCTTACCGACGAGCGGCAGGCAGCCGCCGGCGTCGACGAAGCCGGCGATCTCGACCTCGATGCCGTTGTCACTGAAGGCGAAGTCCGCGCCGAGCACCGCACGGTGATTTACCAGTACAACGATGGCCTCTTGGACTACGTCAAGCACCTGAATTCGAGCAAGAAGGTGGACGTTGTTCACCAGGACGTGATCGCCTTCGAAACTGAAGACACCGAACGGCACATCGCAGTGGAGATGGCCATGCAGTGGACCACTGCCTACTCGGAGAGCGTCCATACCTACGCGAACACCATTAACACCCATGAAGGCGGCACCCACGAAGAAGGTTTCCGTGCCGCCATGACCTCGCTGATCAACCGCTATGCGCGGGAGAAGAGCATCATCAAGGAAAAGGAAGAAAACCTTACCGGTGATGACATCCGTGAGGGCCTCACAGCCGTCATTTCCGTGAAACTGGCGGAGCCGCAGTTCGAGGGCCAGACAAAGACCAAGCTCGGCAACTCCGAAGTCAAGGGCTTCGTCCAGCGGGTGGTTACCGACCAACTGGGCGACTGGCTGGAACGCAATCCCGGTCCTGCACGCGACGTCATCCGGAAGGCCATTTCAGCCGCCCAGGCCCGCATGGCCGCACGCAAGGCGCGCGACAACGCTCGCCGCAAGAGCCCGCTGGAATCTTTCGGTATGCCAGGAAAGCTTTCTGACTGCTCCTCCAAGGACCCGTCGAAGTGTGAGGTCTACATCGTAGAGGGTGACTCGGCCGGCGGTTCGGCCAAGCGCGGACGCAACCCTGAGACGCAGGCCATCCTGCCACTGCGCGGCAAGATTCTGAACGTGGAGCGTGCGCGCCTGGACAAGGCTCTCGGCAACAACGAAGTCCAGTCCATGATCACGGCTTTCGGCACCGGTATCGGTGAGGACTTCGACCTTGCCAAGCTGCGTTACCACAAAATCGTCCTGATGGCCGATGCCGATGTTGATGGCCAGCACATCACCACCCTGCTGATGACACTCCTGTTCCGCTACATGCGCCCGCTGATCGAAAACGGTTACGTGTACCTGGCGCAGCCGCCCCTGTACCGCATCAAGTGGTCGAACGCGCCGCACGACTATGTCTACAGCGACCGGGAACGGGACGCCCGGCTCGTCGCAGGCCAGGCTGCCGGGCGCCGGATCCCCAAGGACAACGGAATCCAGCGTTACAAGGGCCTCGGCGAGATGGACTACACGGAACTGTGGGACACCACCATGGACCCGGACAACCGGACGCTGCTCCAGGTCACCATGGAGGACGCCGCCGCTGCCGACCAAATCTTCACGGTACTGATGGGCGAGGATGTGGAGTCCCGCCGCAACTTCATTCAGCAGAACGCCAAGGATGTCAGGTTCCTCGATATTTAG	MANDNTDIQAGEAEIEDAPTPETPAEATTQREYGASDITVLEGLEAVRKRPGMYIGSTGLRGLHHLVYEVVDNSVDEALAGYCTHIEIVLQADGGVKVTDDGRGIPVDIHPSEGKPTVEVVMTILHAGGKFGGGGYAVSGGLHGVGISVVNALSSRVDTEVRRQGHVWRMSFADGGKPQGGLVKGEETDETGTSQTFYPDPTIFESVEFDFETLRARFQQMAFLNKGLKITLTDERQAAAGVDEAGDLDLDAVVTEGEVRAEHRTVIYQYNDGLLDYVKHLNSSKKVDVVHQDVIAFETEDTERHIAVEMAMQWTTAYSESVHTYANTINTHEGGTHEEGFRAAMTSLINRYAREKSIIKEKEENLTGDDIREGLTAVISVKLAEPQFEGQTKTKLGNSEVKGFVQRVVTDQLGDWLERNPGPARDVIRKAISAAQARMAARKARDNARRKSPLESFGMPGKLSDCSSKDPSKCEVYIVEGDSAGGSAKRGRNPETQAILPLRGKILNVERARLDKALGNNEVQSMITAFGTGIGEDFDLAKLRYHKIVLMADADVDGQHITTLLMTLLFRYMRPLIENGYVYLAQPPLYRIKWSNAPHDYVYSDRERDARLVAGQAAGRRIPKDNGIQRYKGLGEMDYTELWDTTMDPDNRTLLQVTMEDAAAADQIFTVLMGEDVESRRNFIQQNAKDVRFLDI	PGPT0027710_1317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
D1-17_00017	552			hypothetical protein	ATGAGTAACACCGAAGGCGGCCTGCAGCCGGGCCGCGACCCCGATAAAATCGACGCCGCACAGGCCGCACTGAACCGCATGCGTGAGGCCGCGGCAGCGCGTGGCGAAGTGCGCCGGGCCGCTCCGCGGGCGGGCGGGGCCCAAAAACAGCGGGCTGCGCGGGGAACACGAGGCTTCAGCCAGTTCCACGCCACCGGACGCGACCCCTTGGGGCTGGGCAAGGTGGTGGGACGCCTTGTGGCGGAACGCGGCTGGACGTCCCCGGTGGCTGTCGGCTCCGTCATGGCCCAGTGGGCAACACTTGTGGGACCTGAGATCGCGGCCCACTGCACTCCTGAAAGCTTTACCGACACCACACTGCAGGTCCGGTGTGATTCCACCGCATGGGCTACCCAGCTTCGCCTGCTCAGCGCCAGCTTGTTGGAAAAGTTCCGGAATGACCTGGGCGACGGGGTAGTGACCAGTATCCAGGTGCTGGGTCCGGCCGCGCCGAACTGGCGCAAGGGCGGCCGGAGCGTTCAGGGCCGTGGTCCTCGGGACACCTACGGCTAA	MSNTEGGLQPGRDPDKIDAAQAALNRMREAAAARGEVRRAAPRAGGAQKQRAARGTRGFSQFHATGRDPLGLGKVVGRLVAERGWTSPVAVGSVMAQWATLVGPEIAAHCTPESFTDTTLQVRCDSTAWATQLRLLSASLLEKFRNDLGDGVVTSIQVLGPAAPNWRKGGRSVQGRGPRDTYG				NA	NA	NA	NA	NA
D1-17_00018	1209	recF	COG1195	DNA replication and repair protein RecF	GTGTACCTACAACACCTTTCGCTGACTGACTTCCGCAGCTACGCCCACGTGGATTTGGCGCTCGAACCGGGGGTCACCGTGCTGGTCGGTTCCAACGGGATCGGCAAGACCAACCTGATGGAGGCCATCGGCTACCTCGCGACGCTCAGTTCGCACCGCGTCAGCTCTGACGGCCCGCTCTTGCGTTTTGGCACGGACCGCGCGCTGATCCGGGCAAGACTGGTGCGCGGCGACCAGTCCACCGTGCTGGAACTTGAAATCAACGGCGGCCGCGCCAACCGGGGGCGCATCAACCGCAGCAATCCGGTCCGTGCGCGGGACTTGCTCGGGATCTGCCACACCGTTCTTTTCGCGCCCGAGGACCTTGCCCTTGTGAAAGGCGATCCGTCGAGCCGGCGGCGCTTCCTCGATGAACTGCTCGTCAGCCTGGTTCCGCGGCATGCCGCCACCCGCAGTGACTATGACCGCGTCCTCAAGCAGCGCAATGCCCTGCTTAAATCCGCCAGGGCAGGCAAATTGACTGCCGGCCATGAGGCCACCCTCGACGTGTGGGACCAGCACATGGCGCGCGCCGGGGCGGAACTGCTGCATGCCCGCCTGCAGCTTGTGGAACTGCTTCGCCCCCACCTCGCGCGTGCCTACGCGCAGCTGACTGACGGAACCAAAGCGGCTGACGCTGTCTACCGGTCAACGCTGCAGACCCTGGTTGACGACGACGGCGCGCCCGCCGCCGCCGTCGGGGAACCTTCACAGAACGAACAGTTGACCGAGGACCTTCGGCTGCTTTCCGTGGAACAGCTCACCGAGCGCCACCTGCGTGCCTTCGCGGCCTCCCGCCGGAAAGAACTCGAACGCGGTATCTCACTCGTCGGTCCGCACCGTGACGAACTCGAGCTCGTCCTCGGCCAGGCGCCGGCGAAGGGCTATGCCTCGCACGGGGAAACCTGGTCAATGTGCCTGTCGCTGCGGCTTGCCTCGTACTACGTCATGCTCGACGATGCAAGGACCGGCGGCACGGCACCGATCCTGATCCTGGATGACGTTTTTGCCGAGCTTGATGTGCAGCGTCGGCGTAAACTGGCCGCAATAGTTTCAGGAGCCGAACAGGTCCTGGTGACTGCCGCCGTCGACGCCGACATCCCTGACGAACTAACCGGGCGGCGGGTGAAGGTAATCCCGGGAGGAATCGATGATTCGGAATCTCGATGA	MYLQHLSLTDFRSYAHVDLALEPGVTVLVGSNGIGKTNLMEAIGYLATLSSHRVSSDGPLLRFGTDRALIRARLVRGDQSTVLELEINGGRANRGRINRSNPVRARDLLGICHTVLFAPEDLALVKGDPSSRRRFLDELLVSLVPRHAATRSDYDRVLKQRNALLKSARAGKLTAGHEATLDVWDQHMARAGAELLHARLQLVELLRPHLARAYAQLTDGTKAADAVYRSTLQTLVDDDGAPAAAVGEPSQNEQLTEDLRLLSVEQLTERHLRAFAASRRKELERGISLVGPHRDELELVLGQAPAKGYASHGETWSMCLSLRLASYYVMLDDARTGGTAPILILDDVFAELDVQRRRKLAAIVSGAEQVLVTAAVDADIPDELTGRRVKVIPGGIDDSESR				NA	NA	NA	NA	NA
D1-17_00019	885		COG1023	6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating	GTGCACATCGGACTGATCGGTCTCGGAAAAATGGGTTTCAACATGCGCGAACGGCTGCGCAAGGGAGGCATGGACGTGACCGGCTACGACCGGAATCCGGACGTGACGGACGTTGCCTCTGTGGAGGAGCTGATCGGCGCCGTTCCTGCACCGCGGCTGATCTGGGTCATGGTTCCTGCAGGGGAAATCACGGACGCGGTTATCACCGACCTGGGCAATAAACTTGATGCCGGGGACCTGGTGATCGATGGCGGGAACTCCCGTTTCACCGAAGATCAGAAGCATGGGGCTCTCCTGGCGGAGAAGGGAATCCGCTTCCTGGACTGCGGCGTTTCCGGCGGCGTCTGGGGACTTCAGAACGGTTATGGGCTTATGGCCGGCGGGGACGCCGAGGACATCGAGCGCGCGCTGCCGGTCTTTGACGCCCTGCGCCCTGAAGGCGATCGGGCGGACAGCTTCGTCCACGTCGGCGGCGTTGGTGCAGGCCATTACGCCAAGATGGTCCACAACGGCATCGAGTACGGATTGATGCAGGCGTACGCCGAGGGCTACCAGCTGCTCGCTTCCAAAGACATCATTACCGATCTCCCCGGCACCTTCCGCGCCTGGCAAAAGGGCACGGTCGTCCGGTCATGGCTCCTTGACCTGCTGGTCAAGGCCCTGGACGAAGATCCGGGACTGCAGAACATTGACGACTACGTCGAGGACTCCGGCGAGGGCAGGTGGACCGTGGAGGAGGCCATTGCCAACGCCATTCCCGCACCGGCGATCACAGCTGCGCTGTTCGCCCGTTTTGAATCCCGTGAGGACAGTTCCCCCGCAATGAAGATGGTTTCTGCCCTCCGGCATCAGTTCGGCGGCCACGCCACCCGTCCTGCCAAGTAA	MHIGLIGLGKMGFNMRERLRKGGMDVTGYDRNPDVTDVASVEELIGAVPAPRLIWVMVPAGEITDAVITDLGNKLDAGDLVIDGGNSRFTEDQKHGALLAEKGIRFLDCGVSGGVWGLQNGYGLMAGGDAEDIERALPVFDALRPEGDRADSFVHVGGVGAGHYAKMVHNGIEYGLMQAYAEGYQLLASKDIITDLPGTFRAWQKGTVVRSWLLDLLVKALDEDPGLQNIDDYVEDSGEGRWTVEEAIANAIPAPAITAALFARFESREDSSPAMKMVSALRHQFGGHATRPAK	PGPT0017385_4875	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017385-gnd|gntZ-K00033	NA	NA
D1-17_00020	1125	griR		Beta sliding clamp GriR	GTGAAGTTCAGAGTCGAACGGGACGTCCTGGCAGAAGCCGTCACATGGACAGCCCGATCGTTGTCTCCGCGGCCGCCGGTCCCGGTCCTCTCGGGACTGCTGCTGAAAGCTGAAGCTGGAACCGTCAGCCTCTCGAGCTTCGATTACGAGACCTCAGCGAGGCTCGAAATACCCGCCGACATCAGGGAAGAAGGCACCATCCTGGTATCCGGCCGGCTCTTGGCTGACATCTGCCGCAGCCTGCCCTCCGCGCCCGTGGACCTCGAGACTGAGGGCAGCAAAGTCACCCTGACGTGCCGCCGAAGCAGCTTCCATCTCGCCACCATGCCTGAGGCCGAATACCCGCCGCTCCCTGCACTGCCTGCGATCAGCGGCACAGTCGCCGGAGATGCCTTTGCCCAGGCCGTATCGCAGGTCATCATCGCAGCCAGCAAGGACGACACCCTCCCCATCCTCACAGGCGTTCGGATGGAAATCGAGGACGACCTGATTACGCTCCTGGCTACCGACCGTTACCGGCTGGCCATGCGCGAAGTGCCTTGGAAGCCCGTCACTCCGGGCATCTCCACGAGTGCACTGGTCAAGGCCAAGACCCTCAACGAGGTTGCCAAAACACTTGGCGGCAGCGGCGAGATCAGCCTTGCCATCGCCGATGATGATTCCCGCCTCATCGGATTCGAAAGCGGCGGACGCACCACTACCTCGCTTCTGGTCGACGGCGACTATCCCAAGATCCGCTCGCTGTTCCCGGAGTCGACGCCGATCCACGCGACTGTCCAGACCCAGGAACTTGTCGAAGCCGTCCGCCGTGTCTCGTTGGTTGCCGAACGCAACACCCCTGTGCGCCTGGCCTTCACCCAAGGCCAGCTCCAACTGGACGCCGGCACCGGCGAAGACGCACAGGCTTCCGAAGAACTCGAGGCACAGCTTTCCGGAGACGAGATCACGGTAGCGTTCAACCCGCACTACCTTGTTGAGGGCCTGAGCGTGATTGAGACCAAGTACGTTCGGTTCTCCTTTACCACAGCGCCGAAGCCCGCCATGATCACTGCACAGTCTGACATTGACGGTGAGGACCAGGACGATTACCGCTACCTCGTGATGCCGGTCCGGCTCCCGAACTAA	MKFRVERDVLAEAVTWTARSLSPRPPVPVLSGLLLKAEAGTVSLSSFDYETSARLEIPADIREEGTILVSGRLLADICRSLPSAPVDLETEGSKVTLTCRRSSFHLATMPEAEYPPLPALPAISGTVAGDAFAQAVSQVIIAASKDDTLPILTGVRMEIEDDLITLLATDRYRLAMREVPWKPVTPGISTSALVKAKTLNEVAKTLGGSGEISLAIADDDSRLIGFESGGRTTTSLLVDGDYPKIRSLFPESTPIHATVQTQELVEAVRRVSLVAERNTPVRLAFTQGQLQLDAGTGEDAQASEELEAQLSGDEITVAFNPHYLVEGLSVIETKYVRFSFTTAPKPAMITAQSDIDGEDQDDYRYLVMPVRLPN				NA	NA	NA	NA	NA
D1-17_00021	1422	dnaA		Chromosomal replication initiator protein DnaA	ATGACAGTAGACGAAGCAAACCACGCCAACACTGTCGGAAGTTCCTGGCGGCGCGTGGTGAATCTTCTCGAGCAGGATGACCGGGTATCCCCACGTCAGCGCGGCTTCGTGATCCTGGCTCAGGCCCAGGGCCTCATTGGATCCACCCTTCTGGTGGCTGTGCCCAATGAACTCACCAGGGAAGTGCTGCAGACCCAGGTAAAGGACGCCCTCGATGACGCCCTGCACAACGTCTTTTCCGACGACATCCGCTGCGCCATCGACGTGGACACCGATCTGGTGCCCATCCACCGCGAGCCGGAACCCGTCGTCGAGCTTTCCCTCGGAACGGACCACTCCGTTGAGCTGAAGCCGCAGCCGATGCTGCCGAGCACGTCCCACGAGTTCGGCCGGCTCAACCCCAAGTACGTCTTTGACACATTCGTCATCGGATCCTCGAACCGGTTTGCACACGCGGCGGCCGTGGCCGTGGCCGAAGCGCCGGCCAAGGCCTACAACCCGCTGTTTATCTACGGCGACTCCGGACTTGGCAAGACGCACCTGCTGCACGCCATCGGCCACTACGCCCGCCGGCTCTACAGCGGCATCCGGGTCCGCTACGTGAACTCCGAAGAGTTCACCAACGACTTCATCAACTCCATCCGCGATGATGAAGGCGCCAGCTTCAAGACCACCTATCGCAACGTGGATGTGCTGCTCATCGACGATATCCAGTTCCTGGCCGGCAAAGACCGGACGCTGGAGGAGTTCTTCCACACGTTCAATTCGCTGCACAATAACAACAAGCAGGTGGTCATCACCTCGGACCAGCCGCCCAAGCTGCTGGCCGGTTTCGAAGACCGCATGAAATCGCGCTTCGAATGGGGCTTGCTGACGGACATCCAGCCGCCGGAACTCGAGACCCGCATCGCCATCCTCCGCAAGAAGGCACTCAGCGAAGGCCTTTCCGCTCCGGACGACGCCCTGGAATACATTGCATCCAAGATCGCCAGCAACATCCGCGAGCTCGAGGGCGCCCTGATCCGGGTGACTGCCTTTGCCAGCCTGAACCGCCAGCCGGTGGATGTTGCCCTTGCCGAGATGGTCCTCAAGGACCTCATCACCGATGACAATGCCCAGGAAATCACCTCCAGCCAGATCCTCACGCAGACCGCGGAGTACTTCAAGCTGAGCATGGAAGAGCTGTGCAGCAAGTCCCGGACCCGCACGCTTGTCACCGCACGGCAGATCGCGATGTACCTCTGCCGGGAGCTGACCGACATGTCCCTGCCCAAAATCGGACAAGAGCTCGGCGGCCGCGACCACACCACGGTGATCCACGCAGACCGCAAGATCCGCGAACTCATGGCCGAGCGCCGTGTGATCTACAACCAAGTCACCGAGCTGACAAACCGGATTAAGCAGCAGCAGCGCGACTCCTGA	MTVDEANHANTVGSSWRRVVNLLEQDDRVSPRQRGFVILAQAQGLIGSTLLVAVPNELTREVLQTQVKDALDDALHNVFSDDIRCAIDVDTDLVPIHREPEPVVELSLGTDHSVELKPQPMLPSTSHEFGRLNPKYVFDTFVIGSSNRFAHAAAVAVAEAPAKAYNPLFIYGDSGLGKTHLLHAIGHYARRLYSGIRVRYVNSEEFTNDFINSIRDDEGASFKTTYRNVDVLLIDDIQFLAGKDRTLEEFFHTFNSLHNNNKQVVITSDQPPKLLAGFEDRMKSRFEWGLLTDIQPPELETRIAILRKKALSEGLSAPDDALEYIASKIASNIRELEGALIRVTAFASLNRQPVDVALAEMVLKDLITDDNAQEITSSQILTQTAEYFKLSMEELCSKSRTRTLVTARQIAMYLCRELTDMSLPKIGQELGGRDHTTVIHADRKIRELMAERRVIYNQVTELTNRIKQQQRDS	PGPT0014800_1986	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
D1-17_00022	138	rpmH	COG0230	50S ribosomal protein L34	GTGAGCAAGCGGACTTTTCAGCCGAATAACCGCCGTCGGGCCAAGAAGCACGGCTTCCGCCTTCGTATGCGCACCCGTGCCGGCCGCGCCATCCTGGCTGCCCGCCGCGGCAAGGGCCGCGTCGAGCTGTCGGCCTAA	MSKRTFQPNNRRRAKKHGFRLRMRTRAGRAILAARRGKGRVELSA				NA	NA	NA	NA	NA
D1-17_00023	324	rnpA		Ribonuclease P protein component	GTGTTATATACGGCAACTATCGGAGCCGATGAACCCAGCAGGATCGGCTTCATCGTTTCCAAAAGCGTCGGGAACGCTGTTGCCAGGAACCTCGTTAAGAGGAGACTTAGAGAAGCCGGTGCCATCTCGCTGCGCGAGCATGGTGCCGGGTTCGCTATTGTGGTGCGTGCATTGCCCGCAGCAGCTACTGCCAGTTGGCAGGAACTGCTGGCGGACTACAACGCTGCGTTGGATACCACTATGAAGCGGCTGCAGAGCCGCCAGCAACGCTCGGCTGGAACCGGTTCGAACGGAATAACACAGGAAGGGACACAGCGTGCTTGA	MLYTATIGADEPSRIGFIVSKSVGNAVARNLVKRRLREAGAISLREHGAGFAIVVRALPAAATASWQELLADYNAALDTTMKRLQSRQQRSAGTGSNGITQEGTQRA				NA	NA	NA	NA	NA
D1-17_00024	396	yidD		Putative membrane protein insertion efficiency factor	GTGCTTGACCTGACTGCCGCCGTCGTCCGTTCCACAAAGTCCGCACCAGCGGCCGCTGGCACCTTCCTCTGGAACCTGCCGCGCAACATCCTCATTCTTTTGCTGGTGGCCTACCGCAAGGTGATTTCGCCCTTGTACGGCCAGGTCTGCCGTTTCTTTCCCTCGTGCTCCGCGTACGCGCTCGAGGCCATCACCGTGCACGGTGCCGTGAAGGGAAGCTGGCTGGCGGCGAAACGCCTGGCGCGCTGCCACCCCTGGAATGCCGGTGGCGTGGACCATGTCCCCGCCGGCCACCGGTGCTGGCCTGAAAACCAGACGCCCACAATTGTTGTGCTGAACAATCCGGACAAATACCTGGCTGCTCAGACTGATGGAGAAGGCCGCGCTGCGGCCTGA	MLDLTAAVVRSTKSAPAAAGTFLWNLPRNILILLLVAYRKVISPLYGQVCRFFPSCSAYALEAITVHGAVKGSWLAAKRLARCHPWNAGGVDHVPAGHRCWPENQTPTIVVLNNPDKYLAAQTDGEGRAAA				NA	NA	NA	NA	NA
D1-17_00025	975	yidC_1	COG0706	Membrane protein insertase YidC	ATGGACTTCTTTGAAACACTTATGTTTCCGTTCAAATGGCTTGTGTCCATCATCATGGTGGGCTTCCATGAGGGCCTGAGTGGCATCGGCCTGCCCGAGGCTTCCGGCTGGACGTGGACCCTGTCCATCATCGGTCTGGTGCTGGTCATCCGGGCAGCCCTCATTCCCGTCTTCGTCAAGCAGATCAAGGCCCAGCGCGGCATGCAGCTGCTGCAGCCTGACCTGAAAAAGCTTCAGGACAAGTACAAGGGCAAGACCGACCAGCTGTCCCGCCAAGCCATGGCGCAGGAACAGATGGCGATGTACAAGAAGCACGGCACTAATCCATTCTCGGCCTGCCTGCCCATGCTGATCCAGATGCCGTTCTTCTTCGCACTCTTTACGGTACTTTCCGGCATCAGCACCGCCCGGGACAGGGGCGAGGGTATCGGCGCTATGAGCCACGAGCAGGTGACCCAGTTCGACGAATCCACGATCTTCGGCGCCACGTTGTCTGCCTCGCTCCTGCATGGCGGCGAGGGCAACCTCACTGCCGTCTGGATCCTCTCGATCATCATGATCCTGGCGATGACCGCGTCGCAGTTCATCACGCAGAAACAGATTATGGCCAAGAACATGTCAGAAGAGGCCATGGCCAGCCCCTTCATGCGCCAGCAGAAGATGATGCTCTACATCCTGCCGATCGTCTTCGGCGTTGGCGGCATCAACTTTCCCATTGGTGTCCTGATCTACTGGACCACCACCAACCTGTGGACCATGGGCCAGCAGTTCTTCGTCATCCGCCGCATGCCGACGCCGGGTTCCCCTGCCGCCAAGGCCCTCGCTGAGCGCCGTGCCGCCAAAGGGCTTCCGGCCCTGCCGGTTCTGGGCGGCAAGAAGGTCGACGCCGAGGCTGAGGCAGCTGCAGCCGCTGCGGTAGCGCAGGCCAAGAGCCAGCGCATCCAGCCACAACGCAAGAACAGGAAGAAGAAGTAA	MDFFETLMFPFKWLVSIIMVGFHEGLSGIGLPEASGWTWTLSIIGLVLVIRAALIPVFVKQIKAQRGMQLLQPDLKKLQDKYKGKTDQLSRQAMAQEQMAMYKKHGTNPFSACLPMLIQMPFFFALFTVLSGISTARDRGEGIGAMSHEQVTQFDESTIFGATLSASLLHGGEGNLTAVWILSIIMILAMTASQFITQKQIMAKNMSEEAMASPFMRQQKMMLYILPIVFGVGGINFPIGVLIYWTTTNLWTMGQQFFVIRRMPTPGSPAAKALAERRAAKGLPALPVLGGKKVDAEAEAAAAAAVAQAKSQRIQPQRKNRKKK	PGPT0024530_4902	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0024530-yidC|spoIIIJ|oxaA|ccfA-K03217	NA	NA
D1-17_00026	579			hypothetical protein	ATGTCTGTCGAAAGCTCAGAGCAAGCCCTTTCCGCCGAAACCGGCGATGACCAGTCTGCCGATGCCCAGGACCATGGCGGGTCGGCCGCAGCCACTGACAAGAGCAGCACGGTAAGCCGTCTCGAGGAAGAGGGCGACGTCGCTGCGGACTATCTCGAAGAGCTGCTCGACATCGCCGATATCGACGGCGACATTGACATCGAGGTGCGCAACGGCCGGACCTATATCTCCATCGTTACCGAGGAAGAGTCCGCCGGACTGGATAGCCTCGTCGGCCGTGACGGTGAAGTGCTTGAAGCGCTGCAGGAACTGACCCGGCTATCCGTGCTGTCGGCGACGGAAAACCGCTCCCGTCTTGTGCTGGATATCAACGGGTACCGCAAGGAGCGTGCTGGCCACCTGCAGAAGATCGCAGAGGACGCAGTAGCCACCGCGAAGGAAACCGGCGAGGCTGTCGCCCTGGAGCCGATGAGCGCCTACGAACGCAAGATTGTTCACGATGCCGTCGCCGACCTGGGATTCGTCAGTGAATCCGAGGGTGAGGGCGCGGGACGCCACATCGTCGTTTCTGCTGACTGA	MSVESSEQALSAETGDDQSADAQDHGGSAAATDKSSTVSRLEEEGDVAADYLEELLDIADIDGDIDIEVRNGRTYISIVTEEESAGLDSLVGRDGEVLEALQELTRLSVLSATENRSRLVLDINGYRKERAGHLQKIAEDAVATAKETGEAVALEPMSAYERKIVHDAVADLGFVSESEGEGAGRHIVVSAD	PGPT0024530_1367	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0024530-yidC|spoIIIJ|oxaA|ccfA-K03217	NA	NA
D1-17_00027	708	rsmG	COG0357	Ribosomal RNA small subunit methyltransferase G	GTGAATCCGAGGGTGAGGGCGCGGGACGCCACATCGTCGTTTCTGCTGACTGACCCCATGGTTGAAATCACGGCTGCTGAGCGCCAGGCTGCGGAGAAGATTTTCGGTGAGCGTCTGGGCTTGGCGGAACGGTATGTAGAGCACCTTGCCACCTCCGGAATGGAGCGCGGCCTCATCGGTCCGCGGGAGATACCCCGGCTCTGGAGCCGGCACGTGCTGAACTGCGCTGTCATTGAGAGTGAAATTGCGCAGGGTAGCCATGTTGCCGACGTCGGAAGCGGTGCGGGGCTGCCCGGGCTGTGTCTCGCCATTGCCCGTCCGGATCTGGAACTGACACTTATTGACCCCTTGGAGCGCCGGGTGATCTGGCTTCAGGAGGTTGTCGATGACCTGGGGTTGGACAACGTCACCGTCATGCGCACCCGGGCGGAGCTCGCTGTCGGCCTCGTGAAGGCTGATGTTGTCACCGCCCGTGCTGTCTCAGCCCTGACCAATCTGGCAGGACTGACCATTCCCCTCCTTGACGGAGAAGGCGAAGTCGTGGCCATCAAGGGCAGGAGTGCTGCGGAGGAAATCGAGAAGGCCGCGAAGGCGATCCGTAAGCTTGGCGGTGTCCAGACCTCCGTTGTGACGGTCGGCCAGGATCTGCTCGAAGAACCCACCACAGTAGTTCGCATCGTTGTGAAGAAGTCCCAAAAGATCGCCTAG	MNPRVRARDATSSFLLTDPMVEITAAERQAAEKIFGERLGLAERYVEHLATSGMERGLIGPREIPRLWSRHVLNCAVIESEIAQGSHVADVGSGAGLPGLCLAIARPDLELTLIDPLERRVIWLQEVVDDLGLDNVTVMRTRAELAVGLVKADVVTARAVSALTNLAGLTIPLLDGEGEVVAIKGRSAAEEIEKAAKAIRKLGGVQTSVVTVGQDLLEEPTTVVRIVVKKSQKIA				NA	NA	NA	NA	NA
D1-17_00028	1047	nifH		Nitrogenase iron protein	GTGACCAGTAGCGAAACCTCCACACAGCGGATCCCCCCGTTCGTGTCATTGGGGTCGGCACGCGCCGTTGCTGCACCGTCCGTCGCTACGACCTCCGGCCAACTGAATGTGGTTGGCGTCAAGGCGAGCGGGACCAAAGTTTCACGTGAAACGTCCAACGTGCTGGACACCTTGGACGACTCCAGCCCCATCGCCAGGGAGTTGGCGCACGAGAACAAGCGCCGGGAAAAGCTCCTGGGCCGCACCCTCCCGAAGCCGGAGAAAACCCGGGTCTTCACCGTCTCCAACCAGAAGGGCGGGGTGGGAAAGACCACCACCACCGTCAACATTGCAGCGGCCCTGGCAGCAGCCGGCCTGAACGTCCTGGTCATTGATATCGACCCCCAGGGCAACGCTTCCACTGCCCTGGGCATTGAGCACCACGCGGAGGTCGACAGCATCTACGACGTCCTCATCAATGACGTTCCGCTCGAGGATGTCGTTGCTCCCTGCCCTGACATCAACAACCTCATCTGCGCCCCGGCAACGATTCATTTGGCTGGCGCCGAAATTGAGCTGGTATCGCTCGTCGCCCGGGAGCAGCGGCTCCGCCGTGCCATCGACGTCTATGCGAAGGTTCGCGAGAAGAAGGGCGAAGCCCAGCTAGACTACATCTTCATCGACTGCCCGCCGAGCCTCGGGCTGCTGACCGTCAACGCATTCTGCGCCGCGGGTGAGGTCCTGATTCCGATTCAGTGCGAGTACTACGCACTGGAGGGACTGAGTCAGCTCCTCAAGAACATTGAGATGATACAGAAGCACCTCAACGCCGACCTTGTGGTCTCAACGATCCTGCTCACCATGTACGACGGCCGCACCAACCTCGCCGCCCAGGTGGCAGCAGAAGTTCGCCAGCATTTCCCTGACCAAGTACTCAGTGCGGTTGTCCCGCGCTCCGTCAGGATCTCTGAGGCGCCGAGTTACCAGCAGACTGTCATGACCTACGACCCGTCCTCCAGCGGTGCACTTTCCTACCTGGAAGCCGCAGCCGAAATCGCTGAGCGTTAG	MTSSETSTQRIPPFVSLGSARAVAAPSVATTSGQLNVVGVKASGTKVSRETSNVLDTLDDSSPIARELAHENKRREKLLGRTLPKPEKTRVFTVSNQKGGVGKTTTTVNIAAALAAAGLNVLVIDIDPQGNASTALGIEHHAEVDSIYDVLINDVPLEDVVAPCPDINNLICAPATIHLAGAEIELVSLVAREQRLRRAIDVYAKVREKKGEAQLDYIFIDCPPSLGLLTVNAFCAAGEVLIPIQCEYYALEGLSQLLKNIEMIQKHLNADLVVSTILLTMYDGRTNLAAQVAAEVRQHFPDQVLSAVVPRSVRISEAPSYQQTVMTYDPSSSGALSYLEAAAEIAER				NA	NA	NA	NA	NA
D1-17_00029	1374	noc		Nucleoid occlusion protein	ATGAGCGATAAGCGACGCGGGCTCGGCCGCGGTCTTGGCGCACTCATTCCAAGTTCCGCCGCAGCCAGCTCTTCCGGCAACGGAGCTGCGCCGTCACGCCCAGTGGATCTTTTCTTTCCGGAATCCCGTAAGCTAGCCAGCCCTGAAGGTCCTGCCTCAGAGGCTTCGGTGGATCAGTCCACCCGGACCGGCAGCGTCCCGTCTCCTGAAAATGTCGAAGCCGCCGACTCCGCTTCCGCCGGTCCGGCCCGTAGCAAGGATGTTTCTGCCGGTGCCGCCGGAAAGGCTCCTGCAAAATCTTCCGCTGGACTCTCTGCCGGCACGAAGACCGGCGCCAAGACCGATAGGCCTGGTGGCGAAGGAGCGGATGCTCATTCCGGAGAAGCCGAAGAGTCAGCCACTGCCACTGCGGGCACAGCCACTGATTTGTATGCGGCGCCGGACTCTGCCGGCTCAGCGAATGACACTTCGGCTTCAGCCGATGGTTCCGCACCCGGCCGTCGTTCGCCGGCAGGGCGGCGCTCCGCTGCGGCCGAAGATGTCGAACTCGTCGACGTTCCGGGCGCTCGTTTCGCGGAAATCCCCGTGACTGACATTCACCCGAACCGCAAGCAGCCCCGCAGCGTCTTCGACGAAGACGACATGGCGGAGCTGATCCACTCGGTTCGCGAAATCGGCGTCCTCCAGCCAATTGTGGTGCGCGCATCAACCGAAGAAGGTGGAGAACCTTACGAGCTGGTGATGGGTGAACGCCGCTGGCGGGCAGTCCAGGCCGCTGGTCTGGCTACCATCCCTGCAATCGTCCGCGATACAACGGATGACGACCTTCTCCGGGACGCGCTGCTGGAAAACCTGCACCGTAGCCAGCTCAATCCTTTGGAAGAGGCTGCCGCCTACCAGCAGCTCTTGGAGGATTTCGGAACCACGCACGAACAGTTGGCCGACCGGATTGGCCGGTCCCGTCCCCAGGTGTCGAACACGCTCCGCCTGCTCAAACTGCCTCCCTTGGTGCAAAGGCGGGTCGCCGCTAACGTCCTTTCAGCAGGTCACGCCCGTGCCCTCCTTTCACTGCCCGATGCGGCTGCCATGGAACGGCTCGCGCAGCGGATCGTCGCGGAGGGCATGTCAGTTCGGGCCACCGAGGAAGCGGTGACCCTACACCGGGAGCCTGCCGCCCAGTCTAAAAACAACATTCCTCGCCCCGGTGCCCGGCATGAGCGTCTGGACTACCTCGCCTCGTCGCTCTCCGACCGCTTGGATACAAACGTGAAGATCTCCCTAGGTGCCCGCAAGGGACGGGTGAGCATTGAGTTCGCCAGCGTTGAAGACCTCAACCGGATTATGGACGTATTGGCGCCTGGTTCAGACAACTGA	MSDKRRGLGRGLGALIPSSAAASSSGNGAAPSRPVDLFFPESRKLASPEGPASEASVDQSTRTGSVPSPENVEAADSASAGPARSKDVSAGAAGKAPAKSSAGLSAGTKTGAKTDRPGGEGADAHSGEAEESATATAGTATDLYAAPDSAGSANDTSASADGSAPGRRSPAGRRSAAAEDVELVDVPGARFAEIPVTDIHPNRKQPRSVFDEDDMAELIHSVREIGVLQPIVVRASTEEGGEPYELVMGERRWRAVQAAGLATIPAIVRDTTDDDLLRDALLENLHRSQLNPLEEAAAYQQLLEDFGTTHEQLADRIGRSRPQVSNTLRLLKLPPLVQRRVAANVLSAGHARALLSLPDAAAMERLAQRIVAEGMSVRATEEAVTLHREPAAQSKNNIPRPGARHERLDYLASSLSDRLDTNVKISLGARKGRVSIEFASVEDLNRIMDVLAPGSDN	PGPT0014815_1491	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
D1-17_00030	435			IS481 family transposase ISMysp5	GTGCACACGGTCATTGACGACCATTCCCGGGTCGCCCACGCCGAGATCCACGGCGACGAAACCGCGGCCACCGCAGTAGCCGTCCTGAAAAGGGCCGTGTCCTGGCTCGCCGTCCTCGGAGTCACCGTTGAAAGGGTCCTCTCCGACAACGGATCCGCCTACAAATCCCACCCCTGGCGGGATGCCTGCCGGGAACTGAATATCAAGGCCAAGAAAACCCGCCCCTATCGGCCACAGACCAACGGCAAAATCGAGCGGTTCCACCGCACCCTCGCCGACGGATGGGCCTTCCAACGCTTCTACGCCACAGAATCAGCCCGAAGGAATGCCCTCCCCACCTGGCTGCACAACTACAATCACCACAGGCCCCACACCGCAATCGGAGGCCAACCGCCGATCAGCCGGTTAACCAACCTGCCCGGGCAGGACGCCTAG	MHTVIDDHSRVAHAEIHGDETAATAVAVLKRAVSWLAVLGVTVERVLSDNGSAYKSHPWRDACRELNIKAKKTRPYRPQTNGKIERFHRTLADGWAFQRFYATESARRNALPTWLHNYNHHRPHTAIGGQPPISRLTNLPGQDA				NA	NA	NA	NA	NA
D1-17_00031	336			hypothetical protein	ATGTCCCACGCTAATGCCGCTTTGACTCCACGCCAACGTTTGCGCGTCGCGCGTCTGGTCGTGGACTACGGCTGGCCGGTGTCCCGGGCTGCCGAGCAGTTCAACTGCTCCTGGCCCACGGCCAAACGCTGGGCCGAGCGGTACGCCGCGATGGGGCAGGCGGGCATGTCCGACAGGTCCTCTCGCCCGCACCGGGTCGCGAACCGGACTCCGCAGCGGCTCGTCCGCAAGGTCGTGCACCTTCGCTGGAAGCAACGGCTGGGACCGGTCGCGATCGGAGCGAAGCTGGCCATGCCGCCTCGACCGTGCATGCGGTCCTGGTCCGGTGCCGACTGA	MSHANAALTPRQRLRVARLVVDYGWPVSRAAEQFNCSWPTAKRWAERYAAMGQAGMSDRSSRPHRVANRTPQRLVRKVVHLRWKQRLGPVAIGAKLAMPPRPCMRSWSGAD				NA	NA	NA	NA	NA
D1-17_00032	174			hypothetical protein	ATGCTTCCCGAGGGAGTTCGCTTCGTTTCACGTGAAACACGCGGCCCGGCGATTGCCCGCAGAGGGCTTGAGATATTCGTCGATGCCGCCGTCCAGGAACTTTCCGTTGCGCGCACACACTTGCTGGCCGCTAGCAGCACCGGGATTCGGGAAGCGCTGGTCGGTGCTGCCTGA	MLPEGVRFVSRETRGPAIARRGLEIFVDAAVQELSVARTHLLAASSTGIREALVGAA				NA	NA	NA	NA	NA
D1-17_00033	576			hypothetical protein	ATGCCGGCCGCGAGCGACACCCCTTCCGAAATTCGATCCGGTGTTCATGAATTCACCATCATCGCGCGCCGACAGGGGTGTCGAGGGACCGGACCAAACCTCCCTGATGACACATCCGCACAAAAGGTGATCGGTGCTTCCCAGATTCCCCTTGGCCACGCCTGCTGTCCTCGTTTCCATGCAGCCGCAGGCGACGTTTCCCGTGAAACGAGGCAGCCCCACCACCGAAGCATCCTCGGAAGCCCCAGCCTGAAGGGCTACGCACCAGTTGACTGGTCGCCTAGCGCCAATGCGCCCGTGAGCCTCTTACGTTTCTCGGGCTGGTGGGGTAGGACACCTGCCCTGCTAGCAGTCACCCTACAACCTCGAGGGCTGCAACACTGTGGATGGAGACCCGAGCCCGTATTCCTTCTGAACACATCCTCAGGTAACTGTCGGAGCGAAGCCCCTCTAATAGAACACGTTTCACGTGCAACACGAACACCCGCTGCGCTACAGCAGATGCGGCTCGTATCTCGGAACGTATTTCGCGGGTTTCGCTTCCCGGTCGCTCTCAACCTTTGGTCCGCATCCTGA	MPAASDTPSEIRSGVHEFTIIARRQGCRGTGPNLPDDTSAQKVIGASQIPLGHACCPRFHAAAGDVSRETRQPHHRSILGSPSLKGYAPVDWSPSANAPVSLLRFSGWWGRTPALLAVTLQPRGLQHCGWRPEPVFLLNTSSGNCRSEAPLIEHVSRATRTPAALQQMRLVSRNVFRGFRFPVALNLWSAS				NA	NA	NA	NA	NA
D1-17_00034	174			hypothetical protein	GTGGACTATGAGCGCCTTCCAGAGCCGCTCATGGCACGGCAAGCGTCTACAAAACAGACAGTCCGGGGAGACGCGGCCTCAGATGAGCGCCTCGCTAGCTGGGCCGGCAATGAGATTATTCACACCCTTATCCACAGCTCAATCCACAGGCTTTTCCACAGCACCTGTGGGTAA	MDYERLPEPLMARQASTKQTVRGDAASDERLASWAGNEIIHTLIHSSIHRLFHSTCG				NA	NA	NA	NA	NA
D1-17_00035	327	trxA	COG0526	Thioredoxin 1	ATGAGCAACGCTAAAGACGTAACAGACGCCAGTTTCAGCACCGACGTGCTCGCCGCGGACAAGCCGGTAATCGTCGACTTCTGGGCTGAATGGTGCGGCCCGTGCCGCAAGCTCGGTCCTATCTTGGATGAGATCTCAGTGGAGTACAGCGAGAAGGTGGAGGTCGTGAAGGTGAACGTGGACGATAACCCCTCCATTGCAGCTGAGTACGGCATCACCTCCATCCCAGCGGTTTACCTGTTCCAGGGCGGCGAGGTGAAGAGCACAGTCATCGGTGCCAAGCCGAAGCAGTTCTTCGAAAAAGAATTCGCCGACGTCCTGTCCTAA	MSNAKDVTDASFSTDVLAADKPVIVDFWAEWCGPCRKLGPILDEISVEYSEKVEVVKVNVDDNPSIAAEYGITSIPAVYLFQGGEVKSTVIGAKPKQFFEKEFADVLS	PGPT0013055_7158	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
D1-17_00036	957	trxB_1	COG0492	Thioredoxin reductase	GTGAGCAACGCAGAAAGCACCGCGTCAGACGTACGTGATGTCATCATCGTCGGCTCCGGTCCGGCAGGGTACACGGCAGCGGTTTATACGGCACGGGCCAACCTGAAGCCGCTGCTCCTGGCAGGTTCGGTAACCGCCGGCGGCGAATTGATGAACACCACTGACGTCGAAAACTACCCCGGCTTCCCTGAGGGCATCATGGGTCCGGACCTGATGGAGAACTTCGAAAAGCAGGCCGTGCGTTTCGGCACGGAAATCCAGTTCGAAGACGTTACCGCAGTGGATTTCGAGGGTGACATTAAGACTGTCACGATCGCCACGGGGGAGACCTTTCGGGCCCGAGCCATTATCCTCTCCACCGGTTCGGCCTACCGCGAGCTTGGCCTGGCCAACGAAAAGCGGCTCTCGGGTCATGGTGTCAGCTGGTGTGCAACCTGCGACGGCTTCTTTTTCAAGGACCAGGACATCGCCGTCATCGGCGGCGGGGATTCTGCGATGGAAGAGGCCCTGTTCCTCACCAAGTTCGCCAAGTCCGTCACCGTCGTCCACCGGCGCGACACCTTGAAGGCTTCCAAGATCATGGGTGACCGCGCGCAGGCGCACGAGAAGATCAGCTTCATCTGGAACACGGCGGTGGAAGATGTGCTGGGCCAGAACAAGGTCACCGGTTTGAAGCTGAAGAACCTGCTGGACGGCTCAGAGTCCGAACTCCCCGTCACCGGCGTCTTTGTCGCTATCGGCAATGATCCCCGTACTGAGCTGGTCAAGGATACCCTCGACATCACTGACGCCGGGACCATCGCCGTGGAGGGACGCAGCTCTCGGACTAGCATCAAGGGAGTTTTCGCAGCCGGCGATGTCGTAGACCCGACGTATCGTCAGGCCATCACGGCATCAGGTTCCGGCTGTGTCGCTGCAATTGATGTCGAGCACTACCTCGCCGGACAGCACGCCTGA	MSNAESTASDVRDVIIVGSGPAGYTAAVYTARANLKPLLLAGSVTAGGELMNTTDVENYPGFPEGIMGPDLMENFEKQAVRFGTEIQFEDVTAVDFEGDIKTVTIATGETFRARAIILSTGSAYRELGLANEKRLSGHGVSWCATCDGFFFKDQDIAVIGGGDSAMEEALFLTKFAKSVTVVHRRDTLKASKIMGDRAQAHEKISFIWNTAVEDVLGQNKVTGLKLKNLLDGSESELPVTGVFVAIGNDPRTELVKDTLDITDAGTIAVEGRSSRTSIKGVFAAGDVVDPTYRQAITASGSGCVAAIDVEHYLAGQHA	PGPT0013060_5711	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-17_00037	1824			hypothetical protein	GTGTCCCACCCGATCGATGTCGGATCAGTACTCGGCGGCCGCTACAAGGTCACGGCCACCGTACTGACCTCGCATGACCAGGATCTGGTGCTGGATGGTGTGGATCAGGTGCTGAACCGGCCTGTCAGCATCCTCGTTGCAGGTCCGCACAACGCGGACCAGGTTGCACAGAGTGCCCGGGAGGTGGCTACGGGAGAACGCCCAGGCAGTGTGCAGATCCTCGATCTTGGCGTTAGCGACTCCACCACGTACCTCATCACCAATCACACGTCCGCGGCGGACCTGCTGGACCTCGTGGTCGCGTCGAATCCTCCCTACGTCGAGCCGTTCTTTACCGACACCCTGGGCAGCGAGATCTTTGGCCAGCCCCGTTCCCATGAGCCGGAAATCTACGACGATGAAGAAGAAGTAGACGCAGGCTATATTGACTACGGCAACGGACATCGGAGTCATGGCAGCCCTTACCCGGCGGCAGTTCCCGGCCACGCCCACGCCACAGCAGGGCAACCCGGTGCTGAGCGGACCGCAGATGGCCGCGGACAGGGTGCCGATGACGACGTGACTGCTTCTGGAGCTGTTACCCCCGGACGGGCGCCGACGGCCGGTGGCAAGGCTGCAAGTGCCCCCGTCCGCAGGGCGCCGGTCGTGCCGCCTCTTCCGTCTGTGCGCCCTGGTGCTTCGGCCGCAGGTGCATCTTCGTCCTCCGGCGCAGGTGCGGCCGGTGCAGCAGCGGGTACAGCTGCGGCCGCCGCAGGACTCTCCGCGGCTAACCAGGGACGGCAGCGCACAGGCGCTCCTGAGCACACCGGTGACCGCGACAACACCGCTGTTCCAGAAAACACGGCTCCGCAGCCGGTGCAGCGCGAGAACGTTGAACAGGCGCTCCTTCACCGTGAAGCTAACCGTTCCGGCGATTCCACCGGTGCTTCCAATCACCCCGGCGGCACGGGCCCCGGAAAAGGCCCCGAGCAGCCCAAGGTCTCGCTGTGGTCGCAGGACGACTATGGCTACGCGCCTGAGGACGAATACACGGAGGACCAGTACACCCAGAACGGCGGGCACGGTCACCCAGAGAGGCGTTCCGGCAGTTTCCCGGCGGCTGCCCGCACTGGCGGTGCTGCCACCGCGGCTGGCCATGACTACACCGACGATGATGACGAGCGCCGTACTGAACCTCGTTCAATGCGGTGGCTGGTCGGCGGACTGCTCGCCGCGGTACTGGTGGTCGGCCTGATCTTTGCCGTGACCAACCTGGGCAGCCTGTTCAGGACGGCACCGCAGTCGCAGGGTACTCAGGATGCCCCCGCAACGGCCTCTGCCCCCGAAACCCCGGCAGGAACGCCGTCGCCGAGCCCAAGCACAACAGCGGCGGCCGGACCGCCGGCGGTGGAGGGTGTCACGCGCATCGGGGCCTTCGACTTCGCCTCCAACTACGACAACGATCTCGCCAAGACTTTCGACGGCAACGGCGCCAGCTACTGGTCGGACATGGAGTTCGCGACGGATAACTGGGGTGGTTTGGCTCCGGAGGGCGTTCCGCTTGTCGTCAAGCTCAAGGAACCGTCCAAGATCTCCTCGATCACCCTCAACCAGCTGGGTGCATCCGGAGGAAACATCAGCGTGTTCACTAACGACCAGCCGTCCCTCGATGGCGCCAAGCCGGTGGGCACCAACAGCTTCACCTCGCCCGACCTCACCATGCCGCTTGCTGAGCCTGTCACGGCCGAATACGTGATCGTCTCCATCAAGAACCTGCCAAGGCTCGCGGCCCCGAAGACCCGCTATGGCTTCGGCCTGCGCTTGGCGGAAATCAAGGTTCAGTAG	MSHPIDVGSVLGGRYKVTATVLTSHDQDLVLDGVDQVLNRPVSILVAGPHNADQVAQSAREVATGERPGSVQILDLGVSDSTTYLITNHTSAADLLDLVVASNPPYVEPFFTDTLGSEIFGQPRSHEPEIYDDEEEVDAGYIDYGNGHRSHGSPYPAAVPGHAHATAGQPGAERTADGRGQGADDDVTASGAVTPGRAPTAGGKAASAPVRRAPVVPPLPSVRPGASAAGASSSSGAGAAGAAAGTAAAAAGLSAANQGRQRTGAPEHTGDRDNTAVPENTAPQPVQRENVEQALLHREANRSGDSTGASNHPGGTGPGKGPEQPKVSLWSQDDYGYAPEDEYTEDQYTQNGGHGHPERRSGSFPAAARTGGAATAAGHDYTDDDDERRTEPRSMRWLVGGLLAAVLVVGLIFAVTNLGSLFRTAPQSQGTQDAPATASAPETPAGTPSPSPSTTAAAGPPAVEGVTRIGAFDFASNYDNDLAKTFDGNGASYWSDMEFATDNWGGLAPEGVPLVVKLKEPSKISSITLNQLGASGGNISVFTNDQPSLDGAKPVGTNSFTSPDLTMPLAEPVTAEYVIVSIKNLPRLAAPKTRYGFGLRLAEIKVQ				NA	NA	NA	NA	NA
D1-17_00038	2106	murJ		lipid II flippase MurJ	ATGTCAGCAACCAATTCCTCACCTGAGCAGCCCGGACCTTCCGCGGACGGCACCCCCGGCGGCGGTGCGGCCGGTGCCCAGCCCGGCGAGGCCCGGTCCAGCGCCATCATGGCTGCCGGAACGCTCGTGTCGCGCATTCTGGGCTTCGGCAAGACCTGGATGCTGGGCGCAGCCCTGGGCCTGGGGTCCACAGTCAATGACACCTTCATCAACGCCAACAACCTTCCCAACCTGATCTTCCTGCTCGTAGCCGGCGGCGTCTTCAACGCCGTGCTGGTGCCGCAGATCATCAAGGCAAGCAAGGCGCCAGACAGGGGAGCGGACTACATCAGCCGGCTCCTCACCCTGGCCGTGCTCGTGCTGCTGTCGCTGACATTGCTGGTGACGCTGCTGGCACCGCTCGTCATTGAGCTGACAACACAGGGCTATTCGCCCCAGCAGAAGGCGCTTGCCGTCACCTTCGCGTTCTGGTGCCTTCCGCAGATCTTCTTCTACGGCCTCTATGCGCTTCTCACACAGGTCCTCAATGCCAACGGAGCCTTCGGTCCGGCCATGTGGGCACCCATCCTGAACAACATCGTGGCCATACTCGGCCTGGGCATGTTCATCTGGCTTTTTGGTGCCAACGTTGCCAACCCGCACACGCTGGACAACTGGGGCGACACCCAGACGTTCCTTGTGGCGGGTTTCTCCACCCTCGGCGTCATCGCCCAGACCGCCATCCTGCTCATCCCCGTTTTCCGCCTGAAGCTGGGTCTGCGGCCACGCTTCGGCTGGCGTGGAGTGGGACTGGGCCACGCAGCAAAGCTGAGCGTCTGGACGCTCCTGACTGCCGCCGTCGGGCAGCTGGCCTTCCTGTACGTGATGCGCATCGCCACCATCCCGGGTGCGGAGCGGCTCCGTCTCCAGAAGGCGGGTAATCTCGACGCCGCGGCACTGCTGCCCGGTAACGCGGTGCTTGAGGTGGCCAGCCAGCTATACCTGCTGCCGCACTCGATCATCGCGCTCTCACTCGCCACGGTGCTGTTCAACCGCATGACCCGCGCCTCGCAGGACGGAAACCGGGACGAGCTGCGCAATGCCCTCTCCCAGGGCCTGCGGACCATGGCCGTAGCCACCGTCTTCGGTGCCCTGGCCCTCTTCGCCCTGGCCGGACCGCTCGGCATGTTCTTCTCCGGCGGCCTCCGAACGGACGGCGTCATGCTGGCCCAGACACTGACCATCCTGGCGCTCAGCACACCCTTCATGAGCGCCAACTTCATGATGTCGCGGGTGTTTTACGCTAATGAGGATGCCCGGACACCGTTCTACATCCAGCTGGTTCTAGCGCTGGTGAACGTCGTTGCGGCCTTTTTTATCCAGTTCCTTCCGATCAACCAGATCATTTTCGCCATCGCCATCCTCTACACCGGCGGAAACATCCTCTCGGTGATCGTCAGCGCATTCTTCCTGCGCCGCCTCCTGGGACACCTCGACGGGCCACGGATTGCCAACGCGTACATCCGGATGGGATATGCCGCGCTCGGGTCGGCTATAGCCGGCGCCGGCGCACTGTGGCTGCTCGGAAACTACAGCCCGGTCGGCTTTGTCTGGACTAACCGACTGACAGCGCTGGTCACCGTCGTCGTCGTCGGCCCTGTCATGCTGGCCGTCTACCTGCTGCTCCTCAAGCTGTTCCGGGTCACCGAGCTGCAGGACCTCCTCCGGCCGCTGCTCGGACGGCTACACCGAGGCACTGCCGCACCCGCTGCCGCATCCGGCGGGGATTCACGCGGTGCAGCTTCGGCTTCCGGTCCGGATTCTGCTCCGGCTTCCCCGGGGCGTCCGACGGCGGAACGCGCCACCGTCTCCATGGACACCGGTTTGATTCCCCGGATCTCAGGCGAATTCGACTCAGCCTCCTTCCGGGCAGGTCCGGCGGCGCTGCCCGAGCGGGAAGAGACCGATGGCCGGGGCCCGATGAAATACTTGCCGGAGGAAGAGGTGCCCGGGAGTGCACGGGGAGGCACGCTTGGGGACGAAATCCCGCTGCCGGGGCGGCGGACCTTCCAGGGCAAGCCCGGACAAAACCCGTACTTCAGGACGGGTCGCAAGAGGAAAAAGTGA	MSATNSSPEQPGPSADGTPGGGAAGAQPGEARSSAIMAAGTLVSRILGFGKTWMLGAALGLGSTVNDTFINANNLPNLIFLLVAGGVFNAVLVPQIIKASKAPDRGADYISRLLTLAVLVLLSLTLLVTLLAPLVIELTTQGYSPQQKALAVTFAFWCLPQIFFYGLYALLTQVLNANGAFGPAMWAPILNNIVAILGLGMFIWLFGANVANPHTLDNWGDTQTFLVAGFSTLGVIAQTAILLIPVFRLKLGLRPRFGWRGVGLGHAAKLSVWTLLTAAVGQLAFLYVMRIATIPGAERLRLQKAGNLDAAALLPGNAVLEVASQLYLLPHSIIALSLATVLFNRMTRASQDGNRDELRNALSQGLRTMAVATVFGALALFALAGPLGMFFSGGLRTDGVMLAQTLTILALSTPFMSANFMMSRVFYANEDARTPFYIQLVLALVNVVAAFFIQFLPINQIIFAIAILYTGGNILSVIVSAFFLRRLLGHLDGPRIANAYIRMGYAALGSAIAGAGALWLLGNYSPVGFVWTNRLTALVTVVVVGPVMLAVYLLLLKLFRVTELQDLLRPLLGRLHRGTAAPAAASGGDSRGAASASGPDSAPASPGRPTAERATVSMDTGLIPRISGEFDSASFRAGPAALPEREETDGRGPMKYLPEEEVPGSARGGTLGDEIPLPGRRTFQGKPGQNPYFRTGRKRKK	PGPT0024200_445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LIPID_II_FLIPPASE_ACTIVITY,PGPT0024200-murJ|mviN-K03980	NA	NA
D1-17_00039	549			hypothetical protein	ATGGCCCACCCAGTACCGAGCGCCCCCGGCAGGAGGACAAACCCACCGTTGCCGTCGGCAATCGGTGCTCATGTCGCGCCTGCACCGCACTCGGCACCGGCGTCCCTGCCCACGGTTGAGGAAATCTCCGCCGGCGGCGTCGTGGTGGACACGTCAGACGACGAACTGAGGGTTGCGATCATTGCCCGCCTTAATAGGGGCGGCCGTCTGGAATGGTGCCTGCCGAAGGGCCACCCGGAGGGGCGGGAGAACAACGAGCAGGCCGCCGTCCGTGAGATCGCCGAAGAGACTGGAATTGACGGCAGGATTCTGGCCCCGCTGGGCAGCATCGACTACTGGTTCACGGTGAGCGGCCACCGGGTCCACAAGACGGTGCACCACTACCTGCTGCGCGCAACAGGGGGAGAGCTCACCATCGAAAACGATCCTGACAAGGAAGCGGTGGATGTCGCTTGGGTACCCATTCACGAACTCGCCCGGAAACTCTCCTTTCCGAATGAGCGCCGCATTGCGGACCTGGCCCGCGAAGTACTGCCCGAACACCTCTAG	MAHPVPSAPGRRTNPPLPSAIGAHVAPAPHSAPASLPTVEEISAGGVVVDTSDDELRVAIIARLNRGGRLEWCLPKGHPEGRENNEQAAVREIAEETGIDGRILAPLGSIDYWFTVSGHRVHKTVHHYLLRATGGELTIENDPDKEAVDVAWVPIHELARKLSFPNERRIADLAREVLPEHL	PGPT0021680_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021680-ndx1-K18445	NA	NA
D1-17_00040	1464		COG0617	A-adding tRNA nucleotidyltransferase	GTGGTCCTGGAGCTCGGCCAGCGCTTCGTGGACGCGGGGCATGAGCTGTCGCTCGTCGGCGGACCGGTCCGTGACCTCTTTCTCGGCCGCATCTCTCCGGACCTCGATTTCACCACCGACGCCACTCCGGACCAGACGGTGGCCCTGATCAAGAAATGGGCCGACAATTTTTGGGAGATCGGGCGCGCTTTCGGAACGATCGGGATGCGCAAGGCCGGTTTTCAAATCGAAATCACCACCTACCGCGCCGAGGCCTATGACCCGGAATCCCGCAAGCCCGTGGTGGCTTTCGGAACCTCGCTGACGGATGATCTGCTGCGCCGCGACTTCACCATTAACGCCATGGCCCTGCGGCTTCCCACCATGGAGCTGGTTGATCCCTTCGGCGGCGTCCGCGACCTCCACGCGTCCGTGCTGGCCACGCCGGGAGCGCCAGAGGCTTCCTTCTCCGATGACCCCCTGCGCATGATGCGTGCCGCCCGCTTTGCGTCCCAGCTCGGTGTGTCCGTCCGTGACGACGTCCGGCTCGCGATGACCCAGATGGCCGAGCGGATCACCATCATCTCTTCCGAGCGCGTGCGCGACGAACTCGTGAAACTCATCTGCGGCCGCCACCCCCGCGTGGGTGTGAATCTGCTCGTGGACACCGGCCTGGCCGAATTCGTGCTGCCCGAAGTCTCCGCGCTCCGCCTTGAAGCCGATGAACACCACCGCCATAAGGACGTGTACCAGCACTCCCTCCAGGTTTTGGAGCAGGCCGCTGCCTTGGAGACGGACGACGACGGCGCCGTGCCGGGTCCCGATTTCGTGCTGCGATTCGCGGCACTGATGCACGACATCGGCAAACCGGCGACGCGCCGTTTCGAACCGGGCGGCGCGGTCAGCTTTCGCCACCACGACATGGTGGGAGCCAAACTCACGGCTAAGCGCATGCGGACTCTTCGCTTCGACAACGACACGATCAAGGCAGTGGCCCGCCTGGTTGAGCTCCATATGCGCTTTTACGGCTACGGTGACGCCGGATGGACTGATTCCGCCGTGCGCCGGTACATCACCGATGCAGGACCGCAGCTGGAGCGTCTTCACCGGCTGACACGGTCTGACGTCACTACACGCAACCAGCGCAAGGCTGAACGGCTGGCCTTCGCCTATGACGACCTCGAGGCCAGGATCGCGGCCCTGCGCGAGCAGGAGTCGTTGGACGCAGTGCGCCCGGACCTTAACGGCGCGCAGATTATGGCTCTGCTGGGGCTCAAGCCCGGTCCGGTGGTGGGCAGGGCCTACAAGTTCCTGCTGGAGGAGCGGATGGAAAACGGTCCGTTGGAGCCGGCGGATGCAGAGGACAAGCTGCGCGCTTGGTGGGCGAAACAGCCCGAATCCGCCTTACCAGAACTGCAGCCGCCGGCGACCGGCCCCGCATCGCCTGCCACCGCCGTCGAACCGTCCCAATCCGAGGAGTCCTAA	MVLELGQRFVDAGHELSLVGGPVRDLFLGRISPDLDFTTDATPDQTVALIKKWADNFWEIGRAFGTIGMRKAGFQIEITTYRAEAYDPESRKPVVAFGTSLTDDLLRRDFTINAMALRLPTMELVDPFGGVRDLHASVLATPGAPEASFSDDPLRMMRAARFASQLGVSVRDDVRLAMTQMAERITIISSERVRDELVKLICGRHPRVGVNLLVDTGLAEFVLPEVSALRLEADEHHRHKDVYQHSLQVLEQAAALETDDDGAVPGPDFVLRFAALMHDIGKPATRRFEPGGAVSFRHHDMVGAKLTAKRMRTLRFDNDTIKAVARLVELHMRFYGYGDAGWTDSAVRRYITDAGPQLERLHRLTRSDVTTRNQRKAERLAFAYDDLEARIAALREQESLDAVRPDLNGAQIMALLGLKPGPVVGRAYKFLLEERMENGPLEPADAEDKLRAWWAKQPESALPELQPPATGPASPATAVEPSQSEES				NA	NA	NA	NA	NA
D1-17_00041	582	gpm2	COG0406	Acid phosphatase	GTGAATTCCGTCCACATCGCACGTCCCCAGCTTTGGATTTTGCGGCACGGTGAGACTGAGTGGTCCAAGAGCGGCCAGTACACGGGGCTGACCGACCTTCCGCTGACGGTTGAGGGAGAGCAGCAGGCGGTGGAGGCCCGCAAGGTCCTGGAGGGCGTGGACTTTGATCTGGTGCTGACGTCCCCGCTCCGCCGGGCCCGGCGGACCGCCGAACTGGCCGGCTTCCCTGACGCAGTCCACGAACCGCTGGCCGTCGAATGGGACTACGGCGATTACGAGGGCATCAGCTCTGATCTGATCCGCAAGGACAACCCGGACTACCTGATCTGGACTCACGGGGTTCCCAACGGTGAGGCCCTGCAGGATGTGGCCGCGCGGGCGGACAAGATCGTGGGGCGCGTCCTTGAGTCGGGGCTGGACAACGTTCTGATCGTGGCGCACGGGCATTTCTCGCGCATCCTCACGGCGCGGTGGCTGGAACTCCCTCCGGAAGAAGGCCGGCACTTCATCCTCGGCACCGCAAAAGTTTGCACGCTGGGCTGGGATAAGAGGACCCCCGCCATTCTCCGCTGGGGCCTCTAG	MNSVHIARPQLWILRHGETEWSKSGQYTGLTDLPLTVEGEQQAVEARKVLEGVDFDLVLTSPLRRARRTAELAGFPDAVHEPLAVEWDYGDYEGISSDLIRKDNPDYLIWTHGVPNGEALQDVAARADKIVGRVLESGLDNVLIVAHGHFSRILTARWLELPPEEGRHFILGTAKVCTLGWDKRTPAILRWGL	PGPT0017735_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017735-pgi-K01810	NA	NA
D1-17_00042	96			hypothetical protein	ATGATTACTTTGATTACCGGATGGAAGATGGCAATCGCCGCGTTCCCGGCTTCCGTCGCCGGCCTGCACCCTCTTCGCGGCCGCAGCGCTTCCTGA	MITLITGWKMAIAAFPASVAGLHPLRGRSAS				NA	NA	NA	NA	NA
D1-17_00043	213			hypothetical protein	ATGCCCGAATTCCGCAAGAACCGTCTGTCCGAATCCAGCAATATCATTCCTCGCCAGAAGGAGGTGAATGCAATGCTCCGTTACCTTGTGACGCTCCTCTCCAGCCTCAGTTTCGGTCACCGGCCCGAGCAGCAGTTCAATGGCCAGTTGCTGGACGAGAACCGGGAAGATGTCTATGCCCTGATGCAGCAGCAGATGAGCAGCCTGCGCTGA	MPEFRKNRLSESSNIIPRQKEVNAMLRYLVTLLSSLSFGHRPEQQFNGQLLDENREDVYALMQQQMSSLR				NA	NA	NA	NA	NA
D1-17_00044	1527			hypothetical protein	ATGGTCCAGCATCTTGGGTCATCCGATGCGTGGCGCGCTCCCGGTAAGCTCAAAGCCATGCAGGAGACTCAGCCGCCGCCCCATCGAAAGCGTGCGCGCCTGGTGGTGCCAAGCCGCAGCGACGGACTGCTGCAAAATTTCACGGAACTGGTCGGTGGCCCCCTGGGAAAGCGGTCGGCGCCTGGACTCATCGCCCCCGGTTTTTTCACGGTGGAAAGGGTCCTCGTCATCCTTACGGTGCTTGCCGCGCTGGCCGCGATCGCCGTCAAGAACTACTGCCGCGTCAACGGCTGGGACACGCCGTCGCAGTATTACGCCACCTGCTACTCGGACTTTCCCGTGCTGTTCCGCGACCGCGGGCTGGGCGACGGCGCCTTCCCGTTTTTTACTGCCGGCACGGTGTTTGAGTATCCGGTCCTGATGGGGCTGATTGCAGGCGCAACGGCGTGGCTGCTGCCCGGATCCGGCGTCAGCGATGAGCGGGTGCTGGCATATTTCGACCTCAATGCGACGCTGGTAGCTGCTGTCTGGATCGTCACAGTGCTGGCCACCGCCCGCATGGCAGGGCGTCGCCCCTGGGATGCAGCCATGGTGGCTCTGGCGCCCGGCATAATTTTGGCCGGCATGATCAATTGGGACATGTGGGCGGTGGCCCTGCTGGCGCTTGGGATGTATTTCTTCTCAAAGGAGCAGCTTCTGCTGGCCGGGATTCTCATCGGGCTGGGGACTGCCACCAAGCTCTATCCAGTGCTGGTTTTCGGTGCGATCTTCGTGTTGGCTCTGCGTAGCGGCAGGATCAGGGCTTTTCTTATCCCCGCCGCTGCTGCAGCCGTGACATGGCTGGCCGTCAACGTTCCCTTCGCAGTCAGGGATTCAGGCGCCTGGAGATACTTTTTCGAGTTCACACAGGATCGGCAGGCGGGATTCAGTTCGCCGTGGTTCGCCTACAACCTTGTGGCGGAGCGGTTGCGTGGGAGCGTCCTTACGCCCGAGACGATCAACACACTCGCCTTGAACCTGTTCCTCCTGGCGTGCGTGGCCATCGCGGTGCTGGCGCTGACAGCACCATCGCGGCCACGGCTGGCCCAACTCACCTTCCTGATCGTGGCAGCTTTCATTTTGACCAACAAGGTGTACTCACCGCAGTTCGTGGTCTGGCTGATCCCGCTGCTGGCATTGGCCCGCCCCCGGTGGCGCGATTTCCTGATCTGGCAGGCAGTCGAAGGGCTGCACTGGGCCGCGATCTGGATGTATCTTGGCCAAGTGACCAGCGGCGGGCTTTCACAGCACAACATCGACATGCCTTACTACGTCCTCGCCGTCGTAGCCCACATGTTGGCCACGGCATATCTGATGCTGCGCGTGGTCTTCGACATCTGGGATCCGCGCACTGACCCCGTCCGCCGTCACTTCGCCGATGATCCCCAAGGCGGGCCGTTTGACGGTACACCGGACCGCCTTCGGCTCGATATCCTGCGTCCTTCAGCCTCGGTACTTCCCTGGCAGAAGGCGGAGCGCAATGCCTGA	MVQHLGSSDAWRAPGKLKAMQETQPPPHRKRARLVVPSRSDGLLQNFTELVGGPLGKRSAPGLIAPGFFTVERVLVILTVLAALAAIAVKNYCRVNGWDTPSQYYATCYSDFPVLFRDRGLGDGAFPFFTAGTVFEYPVLMGLIAGATAWLLPGSGVSDERVLAYFDLNATLVAAVWIVTVLATARMAGRRPWDAAMVALAPGIILAGMINWDMWAVALLALGMYFFSKEQLLLAGILIGLGTATKLYPVLVFGAIFVLALRSGRIRAFLIPAAAAAVTWLAVNVPFAVRDSGAWRYFFEFTQDRQAGFSSPWFAYNLVAERLRGSVLTPETINTLALNLFLLACVAIAVLALTAPSRPRLAQLTFLIVAAFILTNKVYSPQFVVWLIPLLALARPRWRDFLIWQAVEGLHWAAIWMYLGQVTSGGLSQHNIDMPYYVLAVVAHMLATAYLMLRVVFDIWDPRTDPVRRHFADDPQGGPFDGTPDRLRLDILRPSASVLPWQKAERNA				NA	NA	NA	NA	NA
D1-17_00045	1440			hypothetical protein	ATGCCTGACGCCGCCGTCGTCGGTTCCGGCCCCAACGGGCTCGCAGCTGCCGTCGTCATGGCGCGCGCGGGACTGAAAGTGCATGTCTACGAGGCGGCGGCCGAGATCGGCGGCGGTACCCGGACCACCCAGCTCATTGAGGATGGCCACTGGCACGACATCTGCTCGGCTGTGCATCCCATGGCGCTGGCCTCCCCGTTTTTCAAGGCCTTTGAACTGCCCCGGCGCATAGAGCTTGCCCTGCCGAAGGTCCAGTTCGCTTCGCCGCTGGACCACGGGCGGACCGCGCTGGCCTATCGTTCCCTGGATCGCACCGCGGACGAGCTGGGCCGTGACGGCCGTGCCTACCGCAGGCTTCTGGCTCCACTGGTCCGGCGTTTGGACGGCGTTGTGGAAACCACGTCCGACCAGTTGCTGCGCATGCCCGCCGATCCCTTGTCCGCCGCGATCCTGGGCCTCCGAACGCTTGAACAAGGCTCGCCGTTGTGGAACCTCAGGTTCCGGGGCGACCTGGCGCCAGCCCTCATCAGCGGCGTCGCTGCCCACGCCGTCGGACGGCTGCCGTCCGTCGCTGCCGCCGGCGCCGGTCTGCTGCTGAACTCCCTCGCTCACGCGGGCGGTTGGCCCATACCCATCGGGGGATCTGCGGTGATAGCCACGGCGATGGCGAATGACATTGAGGCGCATGGTGGAGTCATTGAGACAGGTTTCAAGGTCTCGTCGCTGGCCGAGCTGGAGCCGGCCAAGGCGGTCCTGCTGGACGTGGCTCCGCCAGCACTGGCCCGGCTGGCAGGCAATCGGCTGCCCCCCTCATACCGCCGCTCACTGGAGTCCTTCCGTTTCGGCAACGCCGCCTGCAAGGTCGATTTCATCTTGTCAGGGCCCGTGCCATGGGCAGGCGCAGGAATCGCCGACGCGGGTACGGTCCACGTTGGGGGCACTCGGGCCGAGATAGCCCAGGCCGAACACGAGGTTTCCCAGGGCAGGCACCCGGAGCGGCCATACGTGCTCGTATCGCAGCCCTCGCCCATCGATCCCGGCAGGGCGCCCCAAGGCCGGCACATTCTTTGGAGCTATTGCCATGTTCCCGCAGGGTCCACCATGGACATGGGCGAGGCGGTGATCCGCCAGCTGGAGCGGTTCGCACCCGGTTTCCGCGACGTCATCATCCATTACAGGGTCACCACCGCCGCCGGGCTCGCTGCGTACAACGAGAACTACATCGGAGGCGATTTCAGTGCAGGGCTGCTCGACGCCCGCGGCCTGCTGCAGCGGCCCGTCGTTTCCCCTGTGCCGTGGAGAACTCCCGCCAGGGGCGTGTACTTGTGCTCTTCATCCACCCCTCCAGGCCCGGGTGTAACAGGGATGCCCGGGTTTCATGCAGCGGAATATGCATTGAAGGACATATTCGGCATGGGAGTCCCCCGGCTCGGCGTCTGA	MPDAAVVGSGPNGLAAAVVMARAGLKVHVYEAAAEIGGGTRTTQLIEDGHWHDICSAVHPMALASPFFKAFELPRRIELALPKVQFASPLDHGRTALAYRSLDRTADELGRDGRAYRRLLAPLVRRLDGVVETTSDQLLRMPADPLSAAILGLRTLEQGSPLWNLRFRGDLAPALISGVAAHAVGRLPSVAAAGAGLLLNSLAHAGGWPIPIGGSAVIATAMANDIEAHGGVIETGFKVSSLAELEPAKAVLLDVAPPALARLAGNRLPPSYRRSLESFRFGNAACKVDFILSGPVPWAGAGIADAGTVHVGGTRAEIAQAEHEVSQGRHPERPYVLVSQPSPIDPGRAPQGRHILWSYCHVPAGSTMDMGEAVIRQLERFAPGFRDVIIHYRVTTAAGLAAYNENYIGGDFSAGLLDARGLLQRPVVSPVPWRTPARGVYLCSSSTPPGPGVTGMPGFHAAEYALKDIFGMGVPRLGV				NA	NA	NA	NA	NA
D1-17_00046	2016	mrdA		Peptidoglycan D,D-transpeptidase MrdA	ATGGGGAACACCAGAACACTTGCTCTTGCCCTCATCGGGTTCATACTCGGTACGGCTTTGGTTGCCTGCGATGACGGACGTGGCGGGGCTGAGGCTGCCGCCAAGCAACTGGCCTCTGCCGTGGCCGGACTCGATGTGCGGCCTGTCGCGTTTGATGGCCGGGACTCTGCCGTGGCTAATGACCAGCTGAACCAGGTTTTCAAGGCTTTGCAGCCGGTCAAGCCATCAGTCGATACAGGCGAGCTGCAGCTCGATGGGGACACGGCCAGCGTCCCCTTGAACTACAGCTGGAAGATCGAATCGGCGGAATGGAAATACACCGTCAATGCCCAGCTTCGGAAGTCCGGAGACAAGTGGGTGACCGTCTGGTCTCCCGGCATTCTGGTGCCGGATCTGGCCGAAGGCGAGATCCTCAGCAAGTCGACACAATCCCCGCCGCGGGCAGATATCCTCGGCGCCCAAGACGTCCAGCTCGTCACGTACCGCCCCGTGGTCAACGTGGGTATCGACAAGCCACAACTCGGCGGTGCTGACGCGGCTGCCTCCGCAAGAAAGCTGGCGGAACTCGTGGGAATTGATCCTGCCGCGTATGTCCAGCAGGTGGAGGCGTCCGGAGCGGAAGCATTTGTTCCGGCCATCACGTTACGCGACAACAGCAGCCGCACCGTGACGGATGCGGAGATCGAAGCCATTCCGGGTGGACGGGCCATCCCCGGCAAGCTTCCGCTGGCCCCCACGCGCACCTTCGCCCGGGCTGTTCTGGGAACCGTGGGTGAAGCCAGCGCAGAACAGATCGAAAAGTCCGACGGCGCCCTGACCGCCGGCGATGTCATCGGTACCGGCGGCTTGCAGCAGCAATACGACGCCCAGCTCCGTGGCAAGGACGGCATTGTCATCCGGGTCCAGCGCGCCGATCTCACCGCGGCAGAGATCCGGGACGCTCCCTCCGACCCCCGCCGCATCGTGTTCGAGATACAAGGCTCTGCCGGTACACCGCTCAAGACCACGCTGGAGCCGAAACTGCAGCAAATTGCGGAAGACACCCTTGCCGAGGTGAAGCCGGCCTCCGCCATTGTCGCCCTCCGGCCGTCCACGGGCGCCGTGCTTGCCGCGGCTTCCGGTCCTGGCAGCAACGGTTACAACACGGCGATGCTCGGACAGTACGCACCCGGTTCCACCTTCAAGGTAGTGGACTCGCTGGCGATGCTGCGCAACGGGCTGACTCCCGAATCGAAGGTGGAATGCACGCCTACCCTGACCGTGGACGGACGCACGTTCAAGAACGCCGAGGGGTATCCCAAGGATTCGCTGGGGTCAGTAACCCTTCGCGACGCCTTTGCACACTCATGCAATACCGCGTTCATCGCGGCCCGTGACAAGGTGACGCAGGCCCAGCTGGAATCTGCTGCCACGTCCCTCGGCGTCGCAGTTGAGGCGCCGAAGCTGGGAGCCGAGGCCTTCCTTGGCTCAGTGCCTGGGGAGGCTGAAGGCACCGAGCACGCCGCCGCAATGATCGGCCAGGGCAGGGTCCTGATGTCCCCGCTGGCTGCCGCCGTCATGGCCGGATCCGTCGCGAAGGGTGCGCCGGTGTCGCCGGTGCTGGTCCTCAATCCGGAGGCGGCCTCCGGCACTGCCGGTCCGGCAGCGGAGGGTACGCCGTCGGCAGAAGGTCCAGCTTCCGCAGAAGGTGAAGGGCAGTCCACCGTCACTGCCGAGGCCCCCGCCCCGGCGGCGGAAAAACCTGTCACCAAGGCGGAGGCGGCGTCGCTCGCTGACCTGATGCGCGCAGTAGTGACATCAGGCCACGCAGGATTCCTGGCCGAGGTGCCCGGCGGACCCGTAGGGGCGAAAACCGGCACGGCTGAATTCGGCAAGGAAGACCCGCCCAAGACCCACGCTTGGATTATCGCGACCCAGGGCGACCTTGCCGTGGCTGTCTTCGTCGAAGACGGCGGACTGGGCGCCACCACATCCGGGCCGCTCCTGAAGAAGTTCCTCGCTGCCGCCGCAGGCTGA	MGNTRTLALALIGFILGTALVACDDGRGGAEAAAKQLASAVAGLDVRPVAFDGRDSAVANDQLNQVFKALQPVKPSVDTGELQLDGDTASVPLNYSWKIESAEWKYTVNAQLRKSGDKWVTVWSPGILVPDLAEGEILSKSTQSPPRADILGAQDVQLVTYRPVVNVGIDKPQLGGADAAASARKLAELVGIDPAAYVQQVEASGAEAFVPAITLRDNSSRTVTDAEIEAIPGGRAIPGKLPLAPTRTFARAVLGTVGEASAEQIEKSDGALTAGDVIGTGGLQQQYDAQLRGKDGIVIRVQRADLTAAEIRDAPSDPRRIVFEIQGSAGTPLKTTLEPKLQQIAEDTLAEVKPASAIVALRPSTGAVLAAASGPGSNGYNTAMLGQYAPGSTFKVVDSLAMLRNGLTPESKVECTPTLTVDGRTFKNAEGYPKDSLGSVTLRDAFAHSCNTAFIAARDKVTQAQLESAATSLGVAVEAPKLGAEAFLGSVPGEAEGTEHAAAMIGQGRVLMSPLAAAVMAGSVAKGAPVSPVLVLNPEAASGTAGPAAEGTPSAEGPASAEGEGQSTVTAEAPAPAAEKPVTKAEAASLADLMRAVVTSGHAGFLAEVPGGPVGAKTGTAEFGKEDPPKTHAWIIATQGDLAVAVFVEDGGLGATTSGPLLKKFLAAAAG				NA	NA	NA	NA	NA
D1-17_00047	1683	ybiT	COG0488	putative ABC transporter ATP-binding protein YbiT	GTGGCTCATATTGACGTTTCCGGCATCGACTACTTCCTCTCCGACGGCACCCAGCTGCTGAACGGAGTGACCTTCAAGGTCCCGGACGGCACTAAAACTGCGTTAATCGGACCCAACGGCACCGGCAAGACAACGCTGTTCCGCATCATCGCCGGCGACCTCACGCCGGATGAAGGTGTGATCGGACGGTCCGGCAACATGGGGATCATGCGCCAGTTCGTCGGGCAGGTCCGCGACGACTCCACAGTCAAGGACCTTCTCGTCTCGGCCGCGCCGGCGGGGCTCGCCGCCGCCGCCCGCGCCGTGGACGAGGCGGAACTGGCCATGATGGAGCACGACGATGAACCAACCCAGATGCGGTACGCCCAAGCCATCGTGGACTGGGGAGATGCAGGCGGCTACGACGTCGAGACGGTCTGGGACGAAGTGTGCATGGCCGCGCTGGGGCTCCCGTTTGACCGGGCACAGCACCGTCCGGCGTCGAGCCTTTCCGGCGGTGAGCAAAAGCGCCTGGTGCTGGAGGCGCTGTTCGCCGGACCGGATGAACTGCTGCTCCTGGACGAACCCGACAACTACCTTGACGTCCCCGGCAAGCGCTGGCTCGAGATCAAGCTCAACGAGTCAAAGAAAACCGTGTTCTTCATCAGCCACGACCGCGAGCTGTTGAACAACGCTGCCGGCCGCATCGTCACTCTGGAGCCAGGTATTAACGGCGCCGGGGCGTGGGTGCACGGTGGCGGCTTCGAGTCCTATGTGGAGGCCCGTGCCGACCGCAACGCCCGCTTTGAGGAGCTGCGCAAACGCTGGGATGAGGAGCACATCAAGCTCAAGGAACTCGTCAACATGTACAAGAACAAAGCCGCGTTCCGCTCTGACATGGCTAACCGCTACCACGCCGCGCAGACGCGACTTGCGAAGTTCCTCGAGGTCGGCCCGCCCGAGGCTCTGCCCATCGAACAGAACGTGCAGATGCGGCTCAAGGGCGGCCGTACCGGGAAGCGGGCCGTCGTCGCAGAAAAGCTCGAGCTGACCGGCCTCATGAAGCCGTTCTCCACGGAAATCTGGTTCGGTGACCGGGTGGGCGTGCTGGGGTCGAACGGTTCCGGGAAGTCACATTTCCTGCGCCTGCTCGCCACCGGCGGCACAGACCCGGAACGGGAACACCTGCCGGTGTCAGACGTCGAAATCGCCGAAGTGCCGCACGAGGGCACCGTGAAACTCGGGGCCCGCATCCGGCCGGGTTTTTTTGCGCAGACCCATGTCCGTCCCGACCTGCTCGGAAAGACCCTGCTCGAAATCCTGCACCGCGGCGATGAGCACCGTTCCGGCCTGGCGCGTGAAGCTGCTGCCGGAGCACTGGATGGCTACGGACTGGCAGGCCAGTCGGAGCAGAAGTACGAGTCCCTTTCGGGAGGCCAGCAGGCGCGCTTCCAGATCCTGCTGCTGCAGCTCTCCGGGGCCACTCTCCTCCTGCTCGACGAACCAACGGACAACCTGGACCTGCATTCGGCCGAGGCGCTCGAGCGGGCCATCGACCACTTCGAGGGCACGGTCCTTGCCGTGACGCATGACCGCTGGTTCGCCCGGACATTCGACCGGTTCCTGGTGTTCGGATCCGACGGCCGGGTCTACGAGTCCGATGAGCCCGTGTGGGATGAGAAGCGCGTCGAGCGCACCCGCTGA	MAHIDVSGIDYFLSDGTQLLNGVTFKVPDGTKTALIGPNGTGKTTLFRIIAGDLTPDEGVIGRSGNMGIMRQFVGQVRDDSTVKDLLVSAAPAGLAAAARAVDEAELAMMEHDDEPTQMRYAQAIVDWGDAGGYDVETVWDEVCMAALGLPFDRAQHRPASSLSGGEQKRLVLEALFAGPDELLLLDEPDNYLDVPGKRWLEIKLNESKKTVFFISHDRELLNNAAGRIVTLEPGINGAGAWVHGGGFESYVEARADRNARFEELRKRWDEEHIKLKELVNMYKNKAAFRSDMANRYHAAQTRLAKFLEVGPPEALPIEQNVQMRLKGGRTGKRAVVAEKLELTGLMKPFSTEIWFGDRVGVLGSNGSGKSHFLRLLATGGTDPEREHLPVSDVEIAEVPHEGTVKLGARIRPGFFAQTHVRPDLLGKTLLEILHRGDEHRSGLAREAAAGALDGYGLAGQSEQKYESLSGGQQARFQILLLQLSGATLLLLDEPTDNLDLHSAEALERAIDHFEGTVLAVTHDRWFARTFDRFLVFGSDGRVYESDEPVWDEKRVERTR				NA	NA	NA	NA	NA
D1-17_00048	801			IS3 family transposase ISBli34	TTGGACGTCGCCGGGCTGGCCAGATCCACGTTTTTCTATCACCAGCTCCGGCTCCAGGCGCCGGACCCGAAAGAGAAGCTCAAAGCGGCGATCACGGAGATCTTTGAAACGAACCATGGCCGGTACGGGCACCGCCGGGTCCACACGGAGCTACTCAAGCACGGGTGGACGGTCGCGAAGAAGACCGTGCTGAAGCTAATGGAGGCCCTTGGGTTGGCCTGCAAGGTCCGGCGCAGGAAGCGCTACAACTCCTACCAGGGCGAACAGGGCGCGGTAGCGCCCAACGTGCTGAACCGGGAGTTCGAGGCTGATGCGCCGAACCGGAAGTGGGTTACGGATGTGACGGAGTTCAGCGTCGGCGGCGGGAAGCTCTACCTCTCACCGGTGATGGACCTCTTTGACCGGCAGATCATTTCTTGCTCGCTGGGCTTATCCCCGAACCTGGCGCTCACCAACGATTCCCTGCGTGAGGCCCTGACCTGTCTGCAGCCCGGTCAGCAGCCGCTGGTGCACTCGGACCAAGGTTTCCAATACCGTCACGCGTCCTGGCGCACCCTCATCCAGAACGCCGGCGCGGTCCAATCCATGTCCCGCAAGGGCAATTGCTACGACAACGCCGTCATGGAGAACTTCTTCGGCCACCTCAAGGAAGAACTCTTCCACCGCGTCCGATTCCTCAACACCGACGCACTGGCAGCTGCAATAGAGGAATACATCCACTGGTACAACAACAAAAGAATCTCCACAAAGCTCAAGGGCCTGAGCCCGGTGCAATACCGGGCCCAGACCCTTGCAGCCTAG	MDVAGLARSTFFYHQLRLQAPDPKEKLKAAITEIFETNHGRYGHRRVHTELLKHGWTVAKKTVLKLMEALGLACKVRRRKRYNSYQGEQGAVAPNVLNREFEADAPNRKWVTDVTEFSVGGGKLYLSPVMDLFDRQIISCSLGLSPNLALTNDSLREALTCLQPGQQPLVHSDQGFQYRHASWRTLIQNAGAVQSMSRKGNCYDNAVMENFFGHLKEELFHRVRFLNTDALAAAIEEYIHWYNNKRISTKLKGLSPVQYRAQTLAA				NA	NA	NA	NA	NA
D1-17_00049	486			hypothetical protein	ATGCGTGCACGTAGTTCATTGGCTGAGGCGCAGCGCGAGGCAGCTGTAGCGTTGTTTGAGAAGGGCATCGGCTATCGGGCGGCGGCCCGGTTGCTGGATGCGCCTTGGGTACCGGTCAGGGCACTGTATGGGCGGTGGAGGATTCATGGGCAAGGAGTGCTGGTGAGCAGGCCTGCGAAGTCCTACTCTTTCGAGTTCAAGCTGGCCTTGGTGCAGCGGTTCCTCGCGGGCGAGTCCGGCCCGGAGTTGGCGGTGGAGGCCGGTTTGGCCTCCCGTGAGCTGCTGCAAAAGTGGGTCCGGGCGTATCGAATGGACGGTGAGGACGGGTTGCGGCCAAAGCCCAAGGGCAGACCGCGGAAACCCGATTCCCCGCCGACTGGGGAGCTGCCGGAGCTTGAGCGGTTGCGGCGGGAGAACGAGCGGCTGCGCGCTGAGGTGGCGTACCTGGGAAAACTGCGGGCCTTGAGGGAACAGGGACGACGGTAA	MRARSSLAEAQREAAVALFEKGIGYRAAARLLDAPWVPVRALYGRWRIHGQGVLVSRPAKSYSFEFKLALVQRFLAGESGPELAVEAGLASRELLQKWVRAYRMDGEDGLRPKPKGRPRKPDSPPTGELPELERLRRENERLRAEVAYLGKLRALREQGRR				NA	NA	NA	NA	NA
D1-17_00050	1197	ybjJ_1		Inner membrane protein YbjJ	ATGACTACCACCCAGCAGCATGCCGAGCGGCAAGTATCCGCCGCAGCCGTAGCCACCTTCATCATTTTCGGCACCAACGGCCTGGTTTTCGCCAGCTGGGCAGCCCGTATTCCCGCGGTCACAGAAATCCTCAACATTTCGTCGGGCCAGATGGGGACGCTGCTGCTGTGCACCGCCGTGGGCTCGCTGATCGCCCTGCCCACCGCCGGACACGTCATCAGCAGGATCGGCACGTCGAACAGCGTGCGGGCAAGCGGATTTCTGGCCGCCTTGGCGGGAGTGGCCATCGCCGTCTCGCTGCTGGCGGAGTCAGTTCCCGGCACGGCGGTTGCACTGTTCTTTTTCGGCATAGGGATCGGGTTGTGGGACGTTTCCCAGAACGTGGAGGGGGCCGACGTCGAACACCGCCTCAAGCGCACGATCATGCCGAAGTTTCATGCGGCGTTCAGCGGCGGTGCCTTTGTGGGCGCGCTCATCGGGGCCGGGCTGTCCGGGTTGGGCGTCGGACTGCCGCAGCACCTTCTGGTCATTGCGGGAGTTGTGGCCATCCTGACTTTCATCACGCCGCGCTACTTTCTCCCGCACGAGGTTCCTGAAGTCCGGCCCGACGGCGAGCCCAAGCCTTCACGCGGTCCCTCCGCCTGGCGTGACTCCCGGACCCTGCTGATCGGCGTGGTGGTCCTTGGTGCCACGCTGACTGAGGGGGCCGGCAACGACTGGATCGCGAAGGCCGCCGTGGACGGTCTGGGCACCTCCGAGTCCACGGGTGCGCTGCTCTTTGCCCTGTTTGTCCTGGCCATGACCGCCATGCGCTTCTTCGGCGGGGGTGCAATTGACCGGTACGGGCGGGTGGCGGTGCTGCGGGCAAGCATGGCAGCGGCCGCAGCAGGACTTGGATTGTTCGTCTTCGCCGGCAACGTCGGGCTGGCCGCCGTAGGAGCGGCGCTGTGGGGAGCCGGTGCGGCGCTGGCCTTCCCGATGGGAATGTCCGCGGCGGCAGACGATCCCAAGCATGCCGCGGCAAGGGTATCCGTGGTTTCGACGATCGGCTACGTGGCATTCCTCGCCGGTCCGCCCCTCCTCGGCTACCTGGGCGACCTCACCGGAATACATCTGGCACTTCTCGCCATCGTGGCACCGATCCTCGTGGCACTGTTCCTTGCCGGGGTCGCCAAGCCGCTCTCGTCCCGGCAATAA	MTTTQQHAERQVSAAAVATFIIFGTNGLVFASWAARIPAVTEILNISSGQMGTLLLCTAVGSLIALPTAGHVISRIGTSNSVRASGFLAALAGVAIAVSLLAESVPGTAVALFFFGIGIGLWDVSQNVEGADVEHRLKRTIMPKFHAAFSGGAFVGALIGAGLSGLGVGLPQHLLVIAGVVAILTFITPRYFLPHEVPEVRPDGEPKPSRGPSAWRDSRTLLIGVVVLGATLTEGAGNDWIAKAAVDGLGTSESTGALLFALFVLAMTAMRFFGGGAIDRYGRVAVLRASMAAAAAGLGLFVFAGNVGLAAVGAALWGAGAALAFPMGMSAAADDPKHAAARVSVVSTIGYVAFLAGPPLLGYLGDLTGIHLALLAIVAPILVALFLAGVAKPLSSRQ				NA	NA	NA	NA	NA
D1-17_00051	1503	yegS_1		lipid kinase YegS	ATGCGAAGGATGCTCAGAACCGGCCACGGCTGGGTGGCTGACATGGACCGCGCGCTTTTGCGGGCTGTCTCGGCATTTCCCGGCGGCCATCATGACACCTTCTTCCGGCGCCTGTCCGCGTCTGCCAACAAGGGAATGCTCTGGTTCGGGGTCGCAGCCGGGGCCGCGCTCATGCCCGGCCGCATGCGCCGTGCTGCCGTCCACGGCCTTCTCGCGCAGGGGGTGGCGTCGGCTGTCACCAACCTGGCCTTCAAGACTCTGCTTCCCCGCACCCGCCCCCTGCCCGAGCACCTTCCCGTATTCCGTTTCGTCCATCCGCAGCCTACGAGTTCGTCGATGCCGTCCGGCCATTCGGCATCGGCGGTGGCCTTCGCCCTCGGAGCAGGCATGGTCCAACCGGCTCTTGGCGCCGCGATCGCCCCTGTGGCTGCGGGCGTTGCATACTCCAGGGTGCATACGGGGGCGCACTGGCCTTCCGATGTTCTTTTCGGTTCAGCCATTGGGGCCGCCGCTGCACTCGCGACGAGATGGTGGTGGCCGGTGCGTCCTCCGTTTCCGCCCACCTCCCGGACCTGGGCAGAGGCCCCGAAACTCGCCGACGGCGAAGGCCTGAGCATCGCCGTCAACACACTTGGCGGCTCCTTTACCGAGGAAACGGCGTCAGCACTGCGGGAAGTATTCTCAGCGGCGTATATCAAGACCATCGAGCCCGATCACGATGTTGCGGAACAAGTGGAGACGGTCGCCACCCGTCCAGGCACCCGGGCCCTCGGGGTATGGGGAGGGGACGGAACCGTTGGCACTGCGGCGGCCGCCGCCGTCGAACATGGCCTGCCCCTGCTGGTGCTGGCGGGTGGAACACTCAATCACTTTGCCCGAGACGCCAGAACATCCTCGCTCAGGGAAGCGGCCGCGGCCGCGAGCGAAGGGACAGCAGCCCTGGCCGATGTGGGCATCGTCAAGGTCGAACGGGGGCTGGCAGATGATCCCGAGAGGGTGGAGCTTCTCATGCTGAACACCGCCAGCATCGGGCTGTACCCGAACCTGGTGCGACGGCGTGAACAGCTCCAGCCGGCGCTGGGCAGGCCGCTTGCCGGTGTCATCGCGATGTTCCGCACCTTTGCCGTCGAGAAGCCGATCACACTCCTCGTGGACGGCAAACGGCACAAGGTGTGGATCATGTACCTCGGGCGCGGCCGCTACTACCCGCGGGATCATGCGCCGCTGTTCCGCCCCGTCCTGGATGACGGAATGCTGGACATCAGGATGATCACGGCTGATGAATCTTTTGCCCGCCTTCGGATGCTGTGGTCCGTGCTGACCGGCACCGTGGGCACGTCTAAAATCACCCACCTCCGGGAGGCTGCCCGTACCCGGATTGAGACGGATTCCGGCCCCATGGTGCTCGCCGTCGACGGCGAAACCATAACTGGTGTCAGGGTGGCGGAATTTACGCTGGAGCACAGGGCCCTGACCTACTACTCACCACGGAACGCGGACTAA	MRRMLRTGHGWVADMDRALLRAVSAFPGGHHDTFFRRLSASANKGMLWFGVAAGAALMPGRMRRAAVHGLLAQGVASAVTNLAFKTLLPRTRPLPEHLPVFRFVHPQPTSSSMPSGHSASAVAFALGAGMVQPALGAAIAPVAAGVAYSRVHTGAHWPSDVLFGSAIGAAAALATRWWWPVRPPFPPTSRTWAEAPKLADGEGLSIAVNTLGGSFTEETASALREVFSAAYIKTIEPDHDVAEQVETVATRPGTRALGVWGGDGTVGTAAAAAVEHGLPLLVLAGGTLNHFARDARTSSLREAAAAASEGTAALADVGIVKVERGLADDPERVELLMLNTASIGLYPNLVRRREQLQPALGRPLAGVIAMFRTFAVEKPITLLVDGKRHKVWIMYLGRGRYYPRDHAPLFRPVLDDGMLDIRMITADESFARLRMLWSVLTGTVGTSKITHLREAARTRIETDSGPMVLAVDGETITGVRVAEFTLEHRALTYYSPRNAD				NA	NA	NA	NA	NA
D1-17_00052	945	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGATTGAGGCACAAGGCCTGACGAAGGTCTATGGCGACAAAACCGCCGTTGACTCGGTCAACTTCACCGTCCAGCCCGGGCGGGTCACCGGCTTCCTGGGCCCTAACGGGGCCGGCAAATCGACCACCATGCGGATGATCATGGGGCTGGACCGGCCGACAGCGGGAACCGTCACCGTCAACGGGGAGCCTTTCGCCCGCCACGTGGCGCCGCTGCGGGAAATCGGGGCTCTGTTGGACGCGAAGGCAGTCCACACCGGCCGCTCGGCCTACAACCACCTGCTCGCCATGGCAGCAACCCACAGCATCCCCAAGAAGCGTGTCCGGGAAGTCATCGAGATCACCGGCCTTACAGATGTTGCCAGCAAGAAAGTCAAAGGCTTCTCCCTCGGCATGGGCCAGCGGCTCGGCATCGCGGCGGCGCTTCTCGGTGACCCGCAGACCATCATCCTGGACGAACCCGTCAACGGCCTGGATCCCGAGGGCGTGGTCTGGGTGCGGACCATGGTCAGGTACTTGGCTTCAGAGGGGCGGACGGTTTTCCTGTCCAGCCATCTAATGAGTGAAATGGCACTGACGGCGGACCATCTGATCGTGATCGGACGGGGCAAGATCATCGCAGACGCCCCCATCAACGAGATCATTACCGGTAAGGGCCAGAGCCGCACCCGCGTCCGCACGGACGAGCCGGACAGGCTGATGAACGCCCTGGCTGGAGACGGCGTCGCCGTCGAGGTGCAGGACCGGGGGCTCATCGAAGTAAAGGGCACCGATCCGCGCCGGATTGCCCACGCCGCCCTGGAGCACCAGATTCTCATCTACGAACTCACGCCCCTGCAGGCCAGCCTGGAAGAGGCATACATGGAGCTGACCAAGGACGCGGTCGAATACCACTCGCTGACCACCACGGGAGCCCCCGTTCCTACCCAGCCCGGAGGCAAGTAA	MIEAQGLTKVYGDKTAVDSVNFTVQPGRVTGFLGPNGAGKSTTMRMIMGLDRPTAGTVTVNGEPFARHVAPLREIGALLDAKAVHTGRSAYNHLLAMAATHSIPKKRVREVIEITGLTDVASKKVKGFSLGMGQRLGIAAALLGDPQTIILDEPVNGLDPEGVVWVRTMVRYLASEGRTVFLSSHLMSEMALTADHLIVIGRGKIIADAPINEIITGKGQSRTRVRTDEPDRLMNALAGDGVAVEVQDRGLIEVKGTDPRRIAHAALEHQILIYELTPLQASLEEAYMELTKDAVEYHSLTTTGAPVPTQPGGK	PGPT0006725_7052	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-17_00053	882			hypothetical protein	ATGAGCATTTTGACACTTAGCCAGCCGGGCGGCGCAGGCGCGGAACCGGTCCGTACAACCCCCGGGTCCGCACCGGGGCCGGGCCCCAGCTTTTTCCGCGTCCTCAACTCTGAATTCATCAAATTCCGCACACTGTTGTCCACCCTGATTCTGCTCGCCTCCACTGCGGTGGTTATGGTTGGATTCGGCGCCCTGTCCGCGTGGGGAACGGGGTCCCTCGCCGATGCGGCCAGCTCCGATCCTCAGGCTGCCGAGGCCATGGCGGCGCAGGGCGGGGATCTGGCTGTCACTGTCCCAACGTCGGGCATCGGGTTCGCACAGCTGATCCTCGGCTCCCTGGGCGTGCTGCTCATGAGCTCGGAGTTCACCACGGGAATGGCACGCTCCACCTTCGCCGCAGTGCCCAAGAGGACTCCCGCGTTCCTGGCAAAGCTCGTGGTGATCCTGATCAGCACATTCCTTTTGACGGCCGCCTCGACATACATAGCCGGGCTGGTGGCCGTTCCGATTCTGGACAACTACGGGCTCATGCTGGACCCGGCCAGTTCGCAGTCGGTGAAGCTGTTGCTTGTCAGCAGCCTCTATGTTGCTGCAGTAGCAACGATCGGCATGGCGCTGGGAACCCTTATCCGCAACTCGGCTGGAGGCATCATGAGCTTGGTCGGGCTGTTCTTCGTGGCTCCCATCGCCTTCCAGCTGATCCCCGGAGACTTCTTCGAGGAAGCCCGCAAGTACCTGCCCAGCAACACCATCAACCCGATGACTGCCGTGGAACATGTCCCGGATACGCTCGAAGCGTGGCAGGCCGCGCTTGTGCTCGGCGCCTGGGCAGTGGTGCCGGTGGTCCTGGCTATGGTCCTGCTGAAAAAGCGGGACGTCTAG	MSILTLSQPGGAGAEPVRTTPGSAPGPGPSFFRVLNSEFIKFRTLLSTLILLASTAVVMVGFGALSAWGTGSLADAASSDPQAAEAMAAQGGDLAVTVPTSGIGFAQLILGSLGVLLMSSEFTTGMARSTFAAVPKRTPAFLAKLVVILISTFLLTAASTYIAGLVAVPILDNYGLMLDPASSQSVKLLLVSSLYVAAVATIGMALGTLIRNSAGGIMSLVGLFFVAPIAFQLIPGDFFEEARKYLPSNTINPMTAVEHVPDTLEAWQAALVLGAWAVVPVVLAMVLLKKRDV	PGPT0006730_10275	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-17_00054	963			hypothetical protein	GTGGCGTTACATGGATCCATGACCTCTTCACCCCGCACCCCGGATGGGCCGCAGGACTCCCGCCTCCCCCATCCCAACCACGACCGCGGCCTCGAATTCGACCTCTCCACGATCATGTCCCGCCGCTCGCTGGGCATGTTCCTCGGGGCGGGGTCGGCTGCAGCCGCAATGGCCGCCTGCACGCCTGGCACCTCCGGCCCTGCAGCTTCCTCCCCCGGGGCAACACCGCCTGCCGCCACGCCATCGTCAGCTGCCGGGTCCACAGCGGGTACGACGACGGCCCCCGCGGCTTCCGCTCCCGCGTCACCTACCGTCACCCGCGCCATCGCCGAATGCGGCGCTGAGATTCCTGCGGAAGCTGCAGGACCCTTTCCCGGAGACGGCACCAATGGTCCCAACGTCCTGGAGGCCTCCGGAGTAGTGCGGCAGGACATCACGTCCAGCTTCGGGACATCCGCCACGAAGGCCGAAGGCGTGCCCCTGACTTTGACGCTGACCCTTTTGGACAACGCCAACGGCTGCGTGCCCCTTGCCGGCGCCGCTGTTTACGCCTGGCACTGCGACCGGGAGGGCCGATACTCGCTGTACGATTCCGGGCTCTCAAACGAGAACTACCTCAGGGGCGTCCAGGAAGCTGACGCCAACGGCCATGTCACCTTCAAGACGACCTTTCCCGGCGCCTACAACGGACGCTGGCCGCACATCCACTTCGAAGTCTTCGAGTCTATGAGCAATGCAACGGCAGCCGGGCAGATCCTTGCAGTCTCGCAGGTCGCCCTGACCGACGCCGCCTGCAAGGAGGTCTACTCTTCCTCGGGCTACGAAACCAGCGCCCGGAACTTCCCCAACACCACGCTCCAGTCGGACAACGTCTTCGGCGACGACGGCGGCATCTACCAGCTGGCCACCATGTCCGGTTCGGTGGCGAACGGCTACACCGCGGGGCTCAACGTTACGGTCTAG	MALHGSMTSSPRTPDGPQDSRLPHPNHDRGLEFDLSTIMSRRSLGMFLGAGSAAAAMAACTPGTSGPAASSPGATPPAATPSSAAGSTAGTTTAPAASAPASPTVTRAIAECGAEIPAEAAGPFPGDGTNGPNVLEASGVVRQDITSSFGTSATKAEGVPLTLTLTLLDNANGCVPLAGAAVYAWHCDREGRYSLYDSGLSNENYLRGVQEADANGHVTFKTTFPGAYNGRWPHIHFEVFESMSNATAAGQILAVSQVALTDAACKEVYSSSGYETSARNFPNTTLQSDNVFGDDGGIYQLATMSGSVANGYTAGLNVTV				NA	NA	NA	NA	NA
D1-17_00055	1326	apeB	COG1362	putative M18 family aminopeptidase 2	ATGCCTCTGCATTCCACTGCTACAGACCACATCCGGGACCTGGGCGACTATGTCAGCGCCTCGCCGTCGAGCTTCCATGCCGTGCACGAAGCGGCGCGGAAGCTGGATGAGGCGGGGTTCACCGGCCTGAATGAACAGGTGTCGTGGGATCCAGCGGCGGGAAGTTTTTATGTCATCCGGGACGGCGCGCTTATCGCCTGGGTGACACCTGAGAGCGCAAATCCCACCACGGGTTTCAGCATTCTGGGAACCCACACCGATTCACCTTCCTTCAAGCTCAAGCCCAAACCGACCACGGGCAAATTCGGCTGGCTGCAGGCCGGCGTGGAAGTGTATGGCGGCCCGCTCCTGAACTCCTGGCTGGACCGGGAACTGCAGCTTGCCGGACGGCTCGTGCTGCTCGACGGCAGCCAGCATCTCACCGCCACCGGGCCGTTGTTGCGTTTTCCGCAGCTGGCAATCCATCTGGACCGTGCTGTGAATGAGGGCCTTGCCTTGGACAAACAGCAGCACATGAATCCGATAATCGGCCTCGGGGATCCCGCCGGCGAGGACCTGCTGGGGCTGCTGGCCGAGCACGCCGGCGGCAACGGTCCTGTTGATCCGGAGCAGATCGGCGGGTACGACGTCGTCGTTGCGGACACGCAGGCCCCTGCGGCTTTCGGGGCCAAGAGCGAGTTTTTTGCATCCGGGCGGCTCGACAACCTGTCCGCGACGCATGCAGGACTGACTGCCCTCATCGCGCACAGTGAAGGCACTGGTGGGCACTCCGAGGGGGCCAACGGATCAGCGCCCATCGCCGTGCTGGCAGCATTCGACCATGAGGAAATCGGCTCCGCATCCCGCTCCGGAGCATGCGGACCGGTGCTTGAGGACGTCCTTGTCCGCATTTCCGACGGCCTCGGCGCCTCGGTGAGTCAGCGGCGGCAGGCCTTTGCGGCGTCGTTTTGCGTTTCCGCCGACGCCGGTCACGCTGTCCACCCGAACTATCCGGAGCGGCACGATCCGGTCAACCGGCCGGTCCTCAATGGTGGACCGCTATTGAAGATCAACGCCAACCAGCGCTATGCGACGGATGCTGCCGGCGCGGCATTGTGGGCGCGGCTTTGCCGGGACGCGGGGGTCCCCTATCAGGAATTCGTTTCCAACAACGTGATGCCGTGCGGCTCCACCATTGGGCCGCTGACAGCCACGCGGCTGGGCATCAGGACCGTTGACGTGGGCGTGCCCCTGCTGTCGATGCACTCTGCCAGGGAGTTGTGCGGTGTGGAAGACCCGTACTCGCTGGCCAAAGTAACAGAGCGGTTTTTTGTTGCCGGGGGGTAG	MPLHSTATDHIRDLGDYVSASPSSFHAVHEAARKLDEAGFTGLNEQVSWDPAAGSFYVIRDGALIAWVTPESANPTTGFSILGTHTDSPSFKLKPKPTTGKFGWLQAGVEVYGGPLLNSWLDRELQLAGRLVLLDGSQHLTATGPLLRFPQLAIHLDRAVNEGLALDKQQHMNPIIGLGDPAGEDLLGLLAEHAGGNGPVDPEQIGGYDVVVADTQAPAAFGAKSEFFASGRLDNLSATHAGLTALIAHSEGTGGHSEGANGSAPIAVLAAFDHEEIGSASRSGACGPVLEDVLVRISDGLGASVSQRRQAFAASFCVSADAGHAVHPNYPERHDPVNRPVLNGGPLLKINANQRYATDAAGAALWARLCRDAGVPYQEFVSNNVMPCGSTIGPLTATRLGIRTVDVGVPLLSMHSARELCGVEDPYSLAKVTERFFVAGG				NA	NA	NA	NA	NA
D1-17_00056	1422	gabP_1	COG1113	GABA permease	ATGCACGCTGACCAACAGCTCTCTAAATCTTTGAAACCCCGCCACCTGTCGATGATTGCCATTGCCGGCGTCATCGGTGCAGGTCTGTTTGTCGGGTCCGGTGCCGCGATCCAGCAGGCCGGCCCGGGCATCCTCTTGGCCTACATGGCCGCGGGGATCGTGGTGATCCTGGTGATGCGGATGCTGGGTGAAATGGCTGCCGCCAACCCCGAAACGGGATCGTTCTCGACCTATGCCGACAAAGCACTGGGCAGCTGGGCAGGGTTCAGCATCGGCTGGCTGTATGCCTGGTTCTGGATCATCGTGCTCGGCATCGAGGCAACCGCAGGGGCTGCGATCATGCACCGCTGGGTGCCCGGCATCGACCAATGGATCTGGGCACTCGTGCTCATGGTGCTGTTGACGCTGACAAACCTTGGCTCGGTGAAGTCCTACGGTGAGTTCGAATTCTGGTTTGCTTCCATCAAAGTCACTGCCATTGTCCTGTTTCTCCTCTTCGGCGCTGCGGCCATCCTGGGCCTCGTTCCCGGCGTGCCGGCGCCGGGCCTGAGCAACCTGCTCGAGAACGGCGGCTTCCTGCCCAACGGTCCCGGCGCAGTGCTAGCCGGCATCCTGGTGGTCGTGTTCTCCTTCTTCGGCGCCGAAATCGCCACGATCGCCGCCGGGGAGTCCGAGAACCCCGTCGACGCCGTCAAGAAGGCCGTTAAGTCCACAGTGTGGCGCATCCTGGTCTTCTACATCGGCTCCATCGCCATCGTGGTCACCCTCCTGCCGTGGAACTCGGCCAGTGTTGCCAAGAGCCCGTACGTGGCTGTCATCGAGTTGTTCGGCATCCCCGGCGCGGGCACCATCATGGACATCGTGGTGCTCACCTCCGTACTGTCCTGCCTGAACTCGGGTCTGTACACGGCGAGCCGCATGCTGTTCTCGCTCTCCAAACGTGGAGATGCACCGAAGTCCTGGACCAGGATCTCCAAGCGCGGAGTTCCCGTTGCGCCCGTGCTGGCGTCCACCGTGGTCGGGTTCATCACGGTCGGCCTAAACTACATCGCCCCGGACACCGTGTTCCTGTTCCTGGTGAACACCTCAGGCGCCATCGCGCTGTTTGTGTGGCTCGTGATCGCGGCATCCCAGCTCATCCTGCGCCGCCGGATGGGTGCCGCGGCCAAGGACCTGTCCCTGAAGATGTGGCTGTTCCCCTACCTAACGTGGCTCGCGATCGGCAGCATCGTGGCCTTGATCATCGGCATGGTGATCCTCGAATCAACCCGCGAATCCCTGCTGCTGTCCGTTGCCCTGGCCGCTGTTGTGGTGGGCATCGGAGTATGGCGCTACCGCAAGGGCGGAACCGGCGCCGGGACCCCCGTCGGAACCGCTCCGGAATCAGTCCCCGCCGGAGCAGGCGCCGGGCCGGCTTCGTAG	MHADQQLSKSLKPRHLSMIAIAGVIGAGLFVGSGAAIQQAGPGILLAYMAAGIVVILVMRMLGEMAAANPETGSFSTYADKALGSWAGFSIGWLYAWFWIIVLGIEATAGAAIMHRWVPGIDQWIWALVLMVLLTLTNLGSVKSYGEFEFWFASIKVTAIVLFLLFGAAAILGLVPGVPAPGLSNLLENGGFLPNGPGAVLAGILVVVFSFFGAEIATIAAGESENPVDAVKKAVKSTVWRILVFYIGSIAIVVTLLPWNSASVAKSPYVAVIELFGIPGAGTIMDIVVLTSVLSCLNSGLYTASRMLFSLSKRGDAPKSWTRISKRGVPVAPVLASTVVGFITVGLNYIAPDTVFLFLVNTSGAIALFVWLVIAASQLILRRRMGAAAKDLSLKMWLFPYLTWLAIGSIVALIIGMVILESTRESLLLSVALAAVVVGIGVWRYRKGGTGAGTPVGTAPESVPAGAGAGPAS	PGPT0007665_305	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007665-gabP-K11735	NA	NA
D1-17_00057	369			hypothetical protein	GTGGAAAACCGCCGCCAGCGAAATACTGTAGCCATGACGATCCTGAAATCGGTGCTGCTGTTCGCGCTGGCCGCTGCCGCAGAGATCGGCGGCGCCTGGCTGATCTGGCAGGCGGTGCGGGAGGACAAGGCCTGGTGGTGGGCCGGGCTCGGCGTGCTGGCCCTGGGTCTCTACGGCTTTGTGGCAGCCTTCCAGCCCGACGCCCACTTCGGCCGGGTCCTGGCTGCCTACGGCGGGGTGTTCATCGTGGGGTCACTGGTCTGGGGCGTGGTCCTTGACGGCTTCAGGCCGGACCGCTGGGATCTCATCGGAGCTGCGGTGTGCTTGGCAGGCGTTGCGCTGATCATGTTCGCGCCCCGGCAGGGGTGA	MENRRQRNTVAMTILKSVLLFALAAAAEIGGAWLIWQAVREDKAWWWAGLGVLALGLYGFVAAFQPDAHFGRVLAAYGGVFIVGSLVWGVVLDGFRPDRWDLIGAAVCLAGVALIMFAPRQG	PGPT0029120_481	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029120-TC_SMR3-K09771	NA	NA
D1-17_00058	306	rpsF	COG0360	30S ribosomal protein S6	ATGCGTCCTTACGAATTGATGGTAATCATCGACCCCGAGGTCGAAGAGCGTACCGTAGAGCCGTCGCTTCAGAAGTTCCTGAATGTCATCACCAACGATGGTGGAACCATCGAAAAGGTTGACATCTGGGGCCGCCGTCGCCTCGCCTACGACATCAAGAAGAAGTCCGAAGGTATCTACGCCGTGGTGAATTTCACCGCCAAGCCGGAAACCGCCAAGGAGCTTGACCGCCAGCTGGGTCTCAACGAGACCATCATGCGCACCAAGATCATCCGCCCCGAAGAGCAGAAGGTTGTTGCTGAGTAA	MRPYELMVIIDPEVEERTVEPSLQKFLNVITNDGGTIEKVDIWGRRRLAYDIKKKSEGIYAVVNFTAKPETAKELDRQLGLNETIMRTKIIRPEEQKVVAE				NA	NA	NA	NA	NA
D1-17_00059	591	ssb	COG0629	Single-stranded DNA-binding protein	ATGGCAGGCGAAACCACTATTACGGTCATCGGTAATCTCACCAATGACCCCGAACTGAGGTTCACACCGTCAGGTTCGGCAGTAGCGAACTTCACCATCGCTTCTACGCCCCGCACGTTCGACCGCCAGTCTAATGAGTGGAAGGACGGGGAGACCCTGTTCCTCCGTGCATCGGTGTGGCGCGAAGCAGCCGAGAACGTCGCCGAGTCCCTGACAAAGGGCATGCGCGTGATCGTTTTCGGCAGGCTCAAGAGCCGTTCCTACGAAACAAAAGAAGGCGAAAAGCGCACCGTTATCGAGCTCGAGGTCGATGAAATCGGCCCGAGCCTGCGCTATGCCAACGCCAAGGTCAACCGCACCCAGCGCTCCGGCGGTGGGGGTGCCGGAAACGGCGCGCAGGGCGGCTTCGGCGGCGGCAACAGCGGCGGCGGTGGGTTCGGTGGCGGCCAGGGTGGAAACTTTGGCGGCGGCAACACCGGTGGAAACTGGGGCGGCAACCAGCCCGCGGCGCAGGACGACCCCTGGGCTACGCCCGGGGTCAGCAATGCCGGCGGCTGGGGCAATGGCCCGGATTCCGAACCTCCCTTCTAA	MAGETTITVIGNLTNDPELRFTPSGSAVANFTIASTPRTFDRQSNEWKDGETLFLRASVWREAAENVAESLTKGMRVIVFGRLKSRSYETKEGEKRTVIELEVDEIGPSLRYANAKVNRTQRSGGGGAGNGAQGGFGGGNSGGGGFGGGQGGNFGGGNTGGNWGGNQPAAQDDPWATPGVSNAGGWGNGPDSEPPF				NA	NA	NA	NA	NA
D1-17_00060	240	rpsR1	COG0238	30S ribosomal protein S18 1	ATGGCTAAGGCTGAACTCCGTAAGCCCAAACCAAAGTCCAACCCCTTGAAGGCCGCTGACATCACCGTCATCGACTACAAGGACGTAGCATTGCTGCGCAAGTTCATCTCCGATCGCGGCAAGATCCGCGCCCGTCGCGTCACTGGCGTCACGGTGCAGGAACAGCGCAAGATCGCCCAGGCAATCAAGAATGCCCGCGAAGTTGCTCTGCTGCCTTACTCCGGCGCTGGCCGCGGCTAA	MAKAELRKPKPKSNPLKAADITVIDYKDVALLRKFISDRGKIRARRVTGVTVQEQRKIAQAIKNAREVALLPYSGAGRG				NA	NA	NA	NA	NA
D1-17_00061	453	rplI	COG0359	50S ribosomal protein L9	ATGGCAAAGCTCATTCTGACCCACGAAGTCACCGGTCTCGGTGCTGCAGGCGACATCATCGAGGTCAAGGACGGTTACGCACGTAACTACCTGCTGCCCCGCGGCTTCGCCCTGACCTGGTCCAAGGGTGGCGAGAAGCAGGTTGAGTCCATCAAGGCTGCCCGCGCCGCCCGCGAGCACGCTTCCCTGGAAGATGCTCAGAAGCAGGCCGCCGCTCTGTCCGCCAAGCCGGTCAAGCTGGTCGTCAAGGCCGGCGAAAGCGGCCGCCTGTTCGGCACGGTCAAGCAGGCCGACGTGGCCGACGCTGTTGAGGCTGCCGGCCTCGGCCGGATTGACAAGCGCAAGGTTGAACTGCCGGCGCACATCAAGTCGGTCGGTTCCTACCAGGCCAACGTCCGTCTGCACGACGACGTTGCCGCTGTGATCGAACTCGACGTAGTCGCAGGCAAGTAG	MAKLILTHEVTGLGAAGDIIEVKDGYARNYLLPRGFALTWSKGGEKQVESIKAARAAREHASLEDAQKQAAALSAKPVKLVVKAGESGRLFGTVKQADVADAVEAAGLGRIDKRKVELPAHIKSVGSYQANVRLHDDVAAVIELDVVAGK				NA	NA	NA	NA	NA
D1-17_00062	627	sfnF	COG0431	NADH-dependent FMN reductase SfnF	GTGGAGACCCGCCGCATAACCGTACTGTCCGCCGGCCTGGGGGTGCCCTCGTCGAGCCGTCTGTTGGCGGATCAGCTCGCCGGTGCCGTGACACAGCAGCTTGCGGCGGCAGGCTACGAGGCAAGGCTTGAGGTTGTGGAGCTACGCGACCTTGCCGTGGACATTGCCAACAACTTTGTCGCCGGGTATGCAGCACCGCGGCTGGCTAAGGTCATCACCGGGGTCGAGGAGTCGGACGGCATCATCGCAGTAACGCCCGTCTTCAGCGCCTCCTACAGCGGGCTCTTCAAGTCCTTCATCGACGTGCTGGATCCCAAGTCCCTGGACGGAAAAGCCGTGCTGCTGGGCGCCACCGGCGGAACGGACCGCCATCAGATGGTGCTCGACTATGCCATGCGTCCGCTCTTCAGTTACCTGCGTACGCGGATTGCTGCCACTGCTGTCTTCGCCGGACCCCAGGACTGGGGAGACGCGGACGACGGCGGCACACCCCTGTCGGGGCGCGTTAAGCGGGCGGCGGGCGAGTTCGCCCGGCTGCTTGAAGGCGCGCAGCCCGGCCCGAAGGAAGAGTCCCTGGCGACCCGGCCGTTTGAAGAACTGCTTGCTGGGATCTCGGCGCGCGGCTGA	METRRITVLSAGLGVPSSSRLLADQLAGAVTQQLAAAGYEARLEVVELRDLAVDIANNFVAGYAAPRLAKVITGVEESDGIIAVTPVFSASYSGLFKSFIDVLDPKSLDGKAVLLGATGGTDRHQMVLDYAMRPLFSYLRTRIAATAVFAGPQDWGDADDGGTPLSGRVKRAAGEFARLLEGAQPGPKEESLATRPFEELLAGISARG	PGPT0003045_439	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0003045-ssuE-K00299	NA	NA
D1-17_00063	351			hypothetical protein	ATGAAATGTCCTGTGGATTCTGCTGACCTGATCATGAGTGAACGTAGCGGCGTGGAGATCGACTACTGTCCCCAGTGCCGGGGGGTGTGGCTGGACCGCGGCGAGCTGGACAAGATCATCGACCGCGCCGAGTCATTCGGGGGAGCGGCTGCGTCTCCGCAGGCTTCTCCGCCGCCGCCGGGCATGGTTCCGCCGCCTCTGTACTCTGAACATGACCTTCGGCGGGAACCGGCCCGCTACGACCGGCCCCGGTATGACGACCGCGGCCACGGCAAAGGCTACGACCGCGACTACGACCGCCGTCAGCCGAAAAAGAAGGAAGGCTGGCTGGGTGACCTCTTCGACTTCTAA	MKCPVDSADLIMSERSGVEIDYCPQCRGVWLDRGELDKIIDRAESFGGAAASPQASPPPPGMVPPPLYSEHDLRREPARYDRPRYDDRGHGKGYDRDYDRRQPKKKEGWLGDLFDF	PGPT0003045_6	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0003045-ssuE-K00299	NA	NA
D1-17_00064	648			hypothetical protein	ATGCTGTGGATAACGGGCATCGGGCTTAAGCTCTATATATGCGTGGCGGCAAGCAATATGCAGATTGGCTTTAGAACCATGGAATCGCTCCTAATCCCCCTCTTGATCCTCGTGGCCGTCACGGTCGCCGTGGTCCTGGCTGCGCGCGCCTGGAGCCGCAGTCAGCAGAAATCGGGGGGGCCTGAGCAGGCACCCCCCGATTCGGCAGAACTGGCAAGGTCGGCTGCGGCGAGGCTGTCGGAGGACGAGCACCGCAGGCTGTACGCCCTTATCGCTCAGGGGCAGGCCATGGCCGCCATCAAGCTTTTCTACGAGGTGTCCGGCCTTGGCCTCCGCGCCTCGCGGGATGCTGTGGCTGCGCTGGCGGCCCATCCGCAGCCGTTCCGTTTGGCGCCTGAGAAACCCGGTGAGCCTGAGGCGGACGATGACGAGACCCCGCAGCGCTTCCCGTACCGATACCGGGCCATCGCCAGCAAAGGCGACGTCACCCGCGAAGTCAGCAGCAACATGCTGAACGACGAGATATATGGCCGGATCCGGACGCTGGCGAAAAGCGGCGACATCGAAGCCGCCGCCACCGCCCTTACCAAGCACTCGGATATCACCATGAAGCAGGCCCGCGAGTTCCTGGCCCTGCTAGATGACTAG	MLWITGIGLKLYICVAASNMQIGFRTMESLLIPLLILVAVTVAVVLAARAWSRSQQKSGGPEQAPPDSAELARSAAARLSEDEHRRLYALIAQGQAMAAIKLFYEVSGLGLRASRDAVAALAAHPQPFRLAPEKPGEPEADDDETPQRFPYRYRAIASKGDVTREVSSNMLNDEIYGRIRTLAKSGDIEAAATALTKHSDITMKQAREFLALLDD				NA	NA	NA	NA	NA
D1-17_00065	1488			hypothetical protein	GTGTTTTCCCAGCGGCGCAACAGCACCGCTGACGTGCGCGCCGACGGCACACGGCACAAGGCTGCACCCCTGCACGGGGTGCGGCGACTATGGAGGACGGCAGCTTTGTCAGTTACGCACTTGGATACAATCGAGGTCTCGCGCGGATCCGAGGGCAGCCGCAAACCTCCGCAGGATATTGCCGCCGAGCAGTCGGTGTTGGGGGGCATGATGCTTTCCAAGGACGCCATTGCGGACGTCGTGGAGATTCTCCGGGGACAGGACTTCTACCGGCCCGCCCACGAGACCATCTACGAGGCTGTCATCGACCTTTATGGCCGCGGGGAGCCAGCGGATGCGGTGACTGTTTCGGATGAGCTGACCAAGCGCGGAGAGATCAACAGGATCGGCGGCCCTGCCTACCTGCACGAGCTCATCCAGACAGTGCCCACAGCGGCCAACGCCGGGTACTACGCAGAGATCGTGGCCGAACGCGCCGTCCTCAGGCGGCTGGTCAATGCCGGCACCAAGATTGTCCAGCTCGGCTACGGCCAGGACGGCGAGGTCGAAGACCTCGTCAACCAGGCGCAGGCCGAGGTTTATGCTGTGGCCGAGCGCCGGACAGCTGAGGACTATGTGGTCCTGAAGGACGTCATGGAGTCCACTGTGGACGAGATTGAGGCGTCCGGCCACCGCGGAGAAGGAATGGTGGGTGTTCCCACCGGCTTTTACGAGCTGGATGAACTCACGCATGGCCTCCACCCCGGCCAGATGATCGTCATCGCGGCGCGTCCGGCCGTGGGTAAGTCCACCTTCGCTCTGGATTTCGCGCGCTCAGCCGCGATCAAAAACAACCTCGCTACCGTCATGTTTTCACTGGAAATGGGTCGCAACGAGATTGCCATGCGCCTCCTCTCAGCGGAGGCCACCATTGGTCTTCAGGACCTGCGCAAGGGCACCATTAAGGACGAACAGTGGTCGAAGATCGCGACCACCATGGGCCGAATGAATGATGCTCCGTTGTTTATCGATGACAGCCCCAATATGTCCCTGATGGAAATCCGGGCGAAGTGCCGTCGGCTGAAACAGCAGCATGACCTCAAGCTCGTAATCCTCGACTACCTGCAGCTGATGAGCTCCGGCAAGAAGGTGGAATCCCGCCAGCAGGAGGTTTCGGAATTCTCGCGTGCGCTTAAGCTGCTGGCCAAGGAGCTGCAGGTCCCCGTCATTGCCCTCTCACAGCTGAACCGTGGCTCTGAGCAGCGGCAGGACAAGCGTCCGATGGTCTCTGACCTCCGTGAATCCGGATCCATTGAGCAGGATGCTGACATGGTCATCCTGCTGCACCGTGAGGACGTCTACGACAAAGAATCGCCCCGTGCCGGCGAAGCCGACATCCTCGTCGCCAAGCACCGTAACGGCCCCACAAAAGACATCGTGGTGGCCTTCCAGGGGCACTACTCCCGCTTTGCCAACATGGCGGCGGACGCCGGAGGCGGCGGGTTCTAG	MFSQRRNSTADVRADGTRHKAAPLHGVRRLWRTAALSVTHLDTIEVSRGSEGSRKPPQDIAAEQSVLGGMMLSKDAIADVVEILRGQDFYRPAHETIYEAVIDLYGRGEPADAVTVSDELTKRGEINRIGGPAYLHELIQTVPTAANAGYYAEIVAERAVLRRLVNAGTKIVQLGYGQDGEVEDLVNQAQAEVYAVAERRTAEDYVVLKDVMESTVDEIEASGHRGEGMVGVPTGFYELDELTHGLHPGQMIVIAARPAVGKSTFALDFARSAAIKNNLATVMFSLEMGRNEIAMRLLSAEATIGLQDLRKGTIKDEQWSKIATTMGRMNDAPLFIDDSPNMSLMEIRAKCRRLKQQHDLKLVILDYLQLMSSGKKVESRQQEVSEFSRALKLLAKELQVPVIALSQLNRGSEQRQDKRPMVSDLRESGSIEQDADMVILLHREDVYDKESPRAGEADILVAKHRNGPTKDIVVAFQGHYSRFANMAADAGGGGF				NA	NA	NA	NA	NA
D1-17_00066	972			hypothetical protein	ATGAGCGAGACTGCCGCCAATTCCGTGACCCTCCGCTTCCTCGCGGCCCCCACCGACGTCGGTCACAGCGGCTCCGTGGATGCAGGCACTGTCCTGGAGTGGGTGGACAAGGCGGCGTATGCGGCCGCCGTCGGCTGGGCCAAGTCTTACTGCGTCACCGCCTACGTTGGCAACATCCACTTCGCGGACCCTGTCAACAGCGGGGACATGGTGGAGGTCACCGCCACGATCGTGTACACGGGCCGGTCCTCCATGCACATCCGCACCGTGGTGTCCTCCGGTGACGCCAAGGGCGGAGCCGCCACCATGCGGAGCCAGTGCATGGTGATCTTCGTGGCAGTTGGTGAAGACGGCAAGCCGATTCCGGTCCAGCAGTTTGAGCCTTCCACTGCCGAGGAAGTGGAACAGCGCGAGCATGCCCTGGCACGGATCAAGATCCGCGAACAGATCGTGGAAGCCATGAGTGCGCAGGAATATACCGACGCCGGCACGGCGGAACGCGTGGTGCTCCGGTTCATGGCAGCACCCACGGATGTCAACTGGGGCGGGAAGGTCCACGGCGGGACCGTCATGAAGTGGATCGACGAGGCAGCCTACGTCTGCGCATCACGCCATTGCGGCATGGATACGGTGGCGGTGTTCTCCGGGGGTGTCCGGTTCTACCGCCCGCTGCTGATAGGACACGTGGTGGAAGTGGAAGCGCGCCTCGTCTACACGGGCACCAAAGGCATGCACGTGGCGGTACACGTCCGGTCAGGAGACCCGAAAGGCCGGGAACTGAATCTGACTACCTACTGCCTCACGGTCATGGTCGCCCGGGACTCCGAGGGCAACTCGGTCCCGATTCCCCAGTGGGTGCCGGTCTCCGATGAGGACGAGCGCCTGCACGCCCACGCCCGGCACCTCTTGGAAATACGTGCGGCCGCCCCCGGAAACCGGCTGCCCAACCACCTGCTGCATTCCGGAGCGTAG	MSETAANSVTLRFLAAPTDVGHSGSVDAGTVLEWVDKAAYAAAVGWAKSYCVTAYVGNIHFADPVNSGDMVEVTATIVYTGRSSMHIRTVVSSGDAKGGAATMRSQCMVIFVAVGEDGKPIPVQQFEPSTAEEVEQREHALARIKIREQIVEAMSAQEYTDAGTAERVVLRFMAAPTDVNWGGKVHGGTVMKWIDEAAYVCASRHCGMDTVAVFSGGVRFYRPLLIGHVVEVEARLVYTGTKGMHVAVHVRSGDPKGRELNLTTYCLTVMVARDSEGNSVPIPQWVPVSDEDERLHAHARHLLEIRAAAPGNRLPNHLLHSGA				NA	NA	NA	NA	NA
D1-17_00067	435	catD	COG2259	Putative oxidoreductase CatD	ATGAACCAGTCCTCCCTGACCACCGCCGCACTGACCATCCTGCGTATTGTTGCAGGATTCCTGTTTGCCGCTCACGGCTGGCAAAAGTTCAACGAGTTCACCATCGCCGGCACGCAGGCCGCCTTCTCGAAGATGGGTGTTCCCGCAGCCGAGGCCGTGGCTCCGGTCATCGCCACACTCGAGCTGGTGGGCGGCATCGCCCTGATTCTGGGCGTCCTGACCCGCGTTTTCTCCGCCCTCCTGGCTCTCAACATGCTGGGCGCCTTTTTCCTGGTGCACGCCCCGGCGGGCGTCTTCGCCGCCAACGGCGGCTTCGAACTGGTCCTCCTGCTGGCCGCCGCCGCCGCCGCTGTTGCCCTGGCCGGAGCCGGCCGCCTTTCCGTTGACCGCGCCCTCTTCGGCCGGACGAACTCCAAGCTGAGCGTTCTCGCCTAG	MNQSSLTTAALTILRIVAGFLFAAHGWQKFNEFTIAGTQAAFSKMGVPAAEAVAPVIATLELVGGIALILGVLTRVFSALLALNMLGAFFLVHAPAGVFAANGGFELVLLLAAAAAAVALAGAGRLSVDRALFGRTNSKLSVLA	PGPT0028505_3378	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
D1-17_00068	1353	yeeO	COG0534	putative FMN/FAD exporter YeeO	GTGTCTGATTCCCCTGCCGCCGCCGTCCCGGTGGTCAAGCCTGGCAGCCATGCCCGCGAGATTCTGCGGCTGGCCGTGCCCGCGTTCGGTGCCCTGATCGCGGAGCCGCTGTTCCTGCTTGCCGATTCAGCCATCGTGGGCCACCTGGGCGTGGCGCAGTTGGCCGGTGTCGGGCTCGCGTCCGCAGTGCTGCACACCGCCGTTGGGCTCATGGTGTTCCTCGCCTACTCCACCACGCCGGCCGTGGCGCGGGCGGTCGGCGACGGGCAACTTGCCAAGGCACTTGCGGCCGGACGCGACGGCGTATGGCTGGCCCTGCTCCTCGGCACGGCGCTGGCGGCCGCAGGCTTCCTCGCCGCCGAGCCTCTGGTGACCCTGATGGGTGCAGGCGGGGAGGTCCATGCATTCGCCGTGGACTACCTGCGCTGGTCCATGCCGGGACTGGTGGCGATGCTCCTGACCTTCGCGGGAACGGGCGTCCTCCGGGGACTGCAGGACACCCGCACCCCGCTGGTGGTCGCTACCGCGGGTTTCACCCTGAATATCCTGCTGAACCTGTTCCTGGTTTATGGGCTCGCCTGGTCTGTGACCGGCTCGGCTGTCGGTACCAGCATTGCCCAATGGGCCATGGCAGCTGTTTACCTGGCGATGGTCCAGCGCAACGCCCGGCGCCACGGGGTTTCCCTGATGCCCGACTGGCACGGAATCCGGGCGATGACAAAAGTCGGGTCCTGGCTGATGCTCAGGACGCTGAGCCTGCGGATTGCCATCCTGGCCACCGTGCTGGTGGTCACCGGGCAGGGTGCGGTAAACCTCGCGGCGCATCAGCTGGCCATGACCGTGTTTACCTTCCTTGCCTTCGCACTGGACGCCCTGGCGATTGCCGCGCAGGCCCTTATCGGCAAGGAGCTGGGCGCTTCCAATCCTGGGAAGGCCCGGCAGCTGACGCGCACCATGATCCGGTGGGGCACCGGTTTCGGTGTCGTTACCGGTGCGCTGCTCGCGCTGGCAGCTCCCGTTGCCGGCGCCCTGTTTACCCCCGACGCCGGCGTGCAGTCCGTCCTCACGGTTACGCTTTGGGTCCTCGCGGCGGGACAGCCGGTGGCCGGTTACGTTTTCGTGCTCGACGGTGTGCTGATCGGTGCGGGGGACGCCAAGTATCTGGCGGTTGCCGGCGTGGTGAACCTGGCGGCGTATCTGCCCCTACTCTTCGCGGTTCCGCTTGCAGGGATGTCGGGAGGGGAGGCCCTGGTATGGGTGTGGGCGGCCTTTTCGCTGGGCTACATGCTGGCGCGTGCTGTGACTTTGGGACTGAGGGCCGGGACCGACCGCTGGATGGTGCTCGGCTCCTGA	MSDSPAAAVPVVKPGSHAREILRLAVPAFGALIAEPLFLLADSAIVGHLGVAQLAGVGLASAVLHTAVGLMVFLAYSTTPAVARAVGDGQLAKALAAGRDGVWLALLLGTALAAAGFLAAEPLVTLMGAGGEVHAFAVDYLRWSMPGLVAMLLTFAGTGVLRGLQDTRTPLVVATAGFTLNILLNLFLVYGLAWSVTGSAVGTSIAQWAMAAVYLAMVQRNARRHGVSLMPDWHGIRAMTKVGSWLMLRTLSLRIAILATVLVVTGQGAVNLAAHQLAMTVFTFLAFALDALAIAAQALIGKELGASNPGKARQLTRTMIRWGTGFGVVTGALLALAAPVAGALFTPDAGVQSVLTVTLWVLAAGQPVAGYVFVLDGVLIGAGDAKYLAVAGVVNLAAYLPLLFAVPLAGMSGGEALVWVWAAFSLGYMLARAVTLGLRAGTDRWMVLGS				NA	NA	NA	NA	NA
D1-17_00069	561			hypothetical protein	GTGACGGCCCACCCGTTGGAGTTGTGGAAGCCGGTGCTGTTCCGGGCGCTTGCCGCGCTGGTTTTTGGCGCCGTGACAATATTCTGGTCCACGCCCTCGGAGCCCGGCATGGGAATCGCCGGCGGACTGTACCTCCTGGCCACCGGCGCCGTGCTGTTCTGGGGCATTCCCCCGGCAGGCCTCCGGCGCGACGCGCAGCCCGGCCAGATCCTGTCCGCTGCCGCATCCGTCCTGACCGGCGCGGGCTTCACGCTGATGATCCTGCCGGGGAGCCTGCTGTTCGCCGTCATCGCGGCCCTCGGCCTCGGCCTCCTCGCAGCGGCCGAGCTCTACCTCGGCCTGCGGTTCCGGGGGCGGCATGTCCTCGCACGCGACTGGCTTGCCTCGGGCGTCATCGGGCTGGGTACAGCGGTTGCCTTGCCCTTCTTTGTTTCGCTGGGTCCGCACGCCTTGCTGGGTGTGGCGGGCGGAGGGGCCATCATCTCGGGCGTGCTCTGGATCCTGGCCGGCCTCTCGCTCAGGCATGATGCGCTGAAGGGCGCCGAAAAGGCCGTAAACTAG	MTAHPLELWKPVLFRALAALVFGAVTIFWSTPSEPGMGIAGGLYLLATGAVLFWGIPPAGLRRDAQPGQILSAAASVLTGAGFTLMILPGSLLFAVIAALGLGLLAAAELYLGLRFRGRHVLARDWLASGVIGLGTAVALPFFVSLGPHALLGVAGGGAIISGVLWILAGLSLRHDALKGAEKAVN				NA	NA	NA	NA	NA
D1-17_00070	309			hypothetical protein	ATGTTCTCCGCCTTCTGGGCAGTGGTGGCCTTTTTCGCCGTGCTGATTTTCGCCTCCGGCGGCAGCTCCCGCGTTCCGCGGTTCGACCTTGCCTTTACCGCCGCAGGCATCGCCTTCATCGTCACGCTGGTTATCGCGGCCATGCTGTCCATGAGCTACAAAGACAACGCGGAGCACTTGGGCAAAGGCTCCGGCGTGAACCTCAGCTCCGCCAAGCGGGCGCCGCGCGGGTACAGCCAGGGAACCCAGGCTCCGCCAAGCGCTCCCGGTGCAGCCGGTGAGTCAAAGCCCGACGGCGACACCCCCTAG	MFSAFWAVVAFFAVLIFASGGSSRVPRFDLAFTAAGIAFIVTLVIAAMLSMSYKDNAEHLGKGSGVNLSSAKRAPRGYSQGTQAPPSAPGAAGESKPDGDTP				NA	NA	NA	NA	NA
D1-17_00071	555			hypothetical protein	ATGGTTTTTGCCCCTGACGCAGAGGTGGCACTGCGGACCGCCGTGCATCTGATTAACAGCGCCGCAAATGGGCAAGAAAAGCTGGCTACACAAGCGGACCTCGACCGCTTCTTAGAGGCCGAGGGCTTCACCGGATCGCGGATCCGGGACGCCGCCGAACTGGCAAGCGTCCACGCCCTTCGGGCTGAGCTGGCAAGGCTTTGGACGGCGGACGAGGACACGGCGGTGGAAGGCGTCAACCGGCTCCTGCGCGAGGCACACGCCCTTCCCCAGCTCCTCAAACACGACGGGTGGGACTGGCATCTGCATGCCACTGCACGGGACGCCCCGCTGGCGGACCGAATGGGAACGGAGGCAGCCATGGCGCTGGTGGATGTGATCCGCAGCAAGGAGATGGACCGGATGCTGGTTTGCGCGGCAGACGACTGCGATGCCGTGGTGCTGGACCTGAGCCGCAACCGGTCAAAGCGGTACTGCGATACCGGAAACTGTGCCAACCGCGCACATGTCGCCGCGTATCGGGCCCGCCGGGCGACCGAAGAGAAAGCGGGCTGA	MVFAPDAEVALRTAVHLINSAANGQEKLATQADLDRFLEAEGFTGSRIRDAAELASVHALRAELARLWTADEDTAVEGVNRLLREAHALPQLLKHDGWDWHLHATARDAPLADRMGTEAAMALVDVIRSKEMDRMLVCAADDCDAVVLDLSRNRSKRYCDTGNCANRAHVAAYRARRATEEKAG				NA	NA	NA	NA	NA
D1-17_00072	1065			hypothetical protein	ATGACTGCCGCCAGCAACCGCTCCAAGATGCCTGCCGAGGTTGGGCAGGCATCCCCTACGGCTGCTCCTGAACTTACGGCTGCAACGAATTTCCTGGCCTCCGGGCTGGGTGTCGCGTTGTTCTCCTCGGCCGTGTTCGGTCTTTCAGGGTCCTTCGCAAAGGCCCTCCTGGAAACTGGCTGGACACCGGGAGCGGCGGTGACAGCCCGGCTGACCGGGGCAGCCCTCATCCTGGCGATACCGGCCGTGTTTGCACTCCGCGGACGCTGGCACCAGTTGCGGGAGAACTGGCTGACCATCGTTCTGTTCGGCCTGATCGGCGTGGCTGCCTGCCAGCTGTTCTACTTCAACGCGGTGTCACTGCTGTCCGTGGGAGTGGCACTGCTGCTGGAATACCTCGCCCCGGTGCTGATCGTGCTGTGGCTCTGGGCGGCCAGCAGGAAGCGGCCGCGGCCACTGACCGTCGCGGGGACACTGCTGTCCCTGGGAGGTTTGGTGTTGGTGCTGGACCTCACGGGCGCGGTGAAGGTCGACGTTGTCGGCGTGCTGTGGGGCATGGCGGCAGCAGTCTGCCTGGCCATCTACTTTTTCATCACCGCCAAGGAAAATGACACTCTCCCCCCGATCGTCCTCGCTTCGGGCGGTCTGCTGGTCGGTGCCGCGGTGATGTGGCTGGCCGGGGCCAGCGGCCTCCTCCCCATGGCGTTCACCATGACTGATACGAAGCTTGGGCCTTGGACGACGCCTTGGTGGCTTCCGCTGGCAGGACTGATCGTCCTGGCCACTGTCCTGGCGTACGTTTCGGGAATCATGGCCGCGCGTGCCCTCGGTTCCAAGGTCGCGTCCTTCGTCTCCCTGACCGAGGTGCTGTTCGCCGTGATCTGGGCTTGGCTGCTGCTCGGTGAACTGCCGGCAGCCATCCAGCTGGCAGGCGGTGTCCTGATCGTGGGCGGCGTGGTCCTTGTCCGGTTGGATGAGCTGCGGGGAACCCGTTCCGGAACTCAACCGGGGACTGTAGCGTCCGCACCGCTGGACCACCCGAACGACGTCGAACCCGTTCCCTAA	MTAASNRSKMPAEVGQASPTAAPELTAATNFLASGLGVALFSSAVFGLSGSFAKALLETGWTPGAAVTARLTGAALILAIPAVFALRGRWHQLRENWLTIVLFGLIGVAACQLFYFNAVSLLSVGVALLLEYLAPVLIVLWLWAASRKRPRPLTVAGTLLSLGGLVLVLDLTGAVKVDVVGVLWGMAAAVCLAIYFFITAKENDTLPPIVLASGGLLVGAAVMWLAGASGLLPMAFTMTDTKLGPWTTPWWLPLAGLIVLATVLAYVSGIMAARALGSKVASFVSLTEVLFAVIWAWLLLGELPAAIQLAGGVLIVGGVVLVRLDELRGTRSGTQPGTVASAPLDHPNDVEPVP				NA	NA	NA	NA	NA
D1-17_00073	273			hypothetical protein	ATGTGCCGGAACATCCGAACCCTCCACAACTTCAAACCGCACGCCACCTCCGAGGAGATTCATGCAGCGGCGCTGCAGTACGTGCGCAAGATCAGCGGCAGCACCAAGCCGTCCAAAGCCAACGAGGAGGCTTTCGAGCGGGCCGTGCATGAGGTGGCGCATGCGACGCAGCATCTGCTCGAATCCCTCGTGGCCCACGCACCGGCCAAGGACCGGGACGAGGAGGCCGCGAAGGCCAAGGCCAGGGCAGCAGTCCGCTTCGGCGCCGCCTAG	MCRNIRTLHNFKPHATSEEIHAAALQYVRKISGSTKPSKANEEAFERAVHEVAHATQHLLESLVAHAPAKDRDEEAAKAKARAAVRFGAA				NA	NA	NA	NA	NA
D1-17_00074	2298	ctpA_1	COG2217	Copper-exporting P-type ATPase	ATGAGCACCGAACAGCTCCCGGGCCGCCCGGACACCAGGATTATCGAGCTCGACATCGAGGGCATGACCTGCGCGTCCTGCGTGAACCGGGTGGAAAAGAAGCTCGGCAAGCTCGAGGGTGTCCATGCCTCGGTCAATCTCCCCCTCGAGTCCGCCCAGGTCATGGTCCCGGCCGGAATCACGGACCGGCAGATCACAGACCAGGTGGAAGCCGCCGGGTACAAAGCCCGGATCAAGCGCCCGGTGCACATCACGCCGCCTGCGGAGCAGGGGACGCCCGGACAGGAAGCGACTCACCACACCGGCCTGAAGCCGAGGCTCATCGTTGCGGCCGTCCTGACGGTCCCGGTCTTCCTGATCTCCATGCTGCCGGGATTCCAGTTCCCGCACTGGGGCTGGGCCGCCGCAGCGCTGGCGCTGCCCGTGGTCAGTTGGGCCGCCTGGCCGTTCCACCGTGCCGCCGCCGTCAATGCCCGGCACCTGGCCTCCACCATGGACACCTTGGTTTCCCTGGGGGTCATCGCCGCCTACACCTTCTCCGTAGGGCAGCTGATCGCGGACCCGCGTCTTACCGAACACCCCGGCATGGAAGGAATGAGCGGCTCCGGCGGACTTTACTTCGAGGTTGCCGCCGTGGTCACTACCTTCCTGCTGCTGGGCCGTTACCTTGAGGCGAATGCCAAGGCGAAGGCGGGCGACGCTCTCAAAGCGCTGCTCAACCTCGGGGCCAAGGACGCCACGGTGCTGGTTGACGGCTCGGAAGTGAAGGTCCCGGCCGAGCAACTTGCCGTCGGCGACGTCATCGTGGTTCGCCCCGGTGAAAAAATAGCGACGGACGGCGTCGTGATTGAGGGTGCATCCGCCGTCGACGCCTCCCTGGTGACGGGGGAATCAGTACCGGTGGAAGTCGGCCCGGAAAGCCCGGTCATAGGTGCCACCATCAACACCTCCGGCCGCCTGCTGGTACAAGCCACCCGCGTCGGCGCTGAAACTACGCTCGCCCAGATGGGGCGGCTCGTTGCCCAGGCACAGACCGGCAAGGCCCCCATCGCACGGCTCGCGGACCGCATCAGCGCAGTCTTCGTCCCCATCGTGCTGGCTGTTGCCGTGCTCACCTTCGCCGGCTGGCTGCTGGCTGCAGCTCCCGGGATCACCGCGCCGGAACTCCGCTCCGCATTCACTGCCGCGGTGGCCGTGCTGGTGATTGCATGCCCCTGCGCCCTGGGTTTGGCCACACCCGTGGGACTCCTCACCGGTACCGGCCGCGGCGCACAGCTCGGCATTCTCATCAGGGGCCCGCAGGTCCTGGAGGACACGCGCACGGTAGACACGATCCTGCTGGACAAGACGGGCACGGTCACCAGCGGACAGCTGGCAGTCGATTCGACGGTTAACTTTGCGCCCTTCAGCGATACCGACGTCCTGCGGCTCGCCGGGGCGGTGGAAGCCGCCTCCGAGCACCCAATTGCGCACGCCATCGCTGCCGCCGCCCGGGCCGCGTTGCCCGCCCTGAGTGTAGGGACGGACGACGGCGGAAAGCTTCCTGGCGTTGTCGGGTTCCGGTCCGCCCCGGGCGGCGGAGTGGCCGGTACCGTGGAAGGGCGGTCGGTTGTTGCTGGCCGCACGGGGTGGCTGCAGGACAATGGCATTGCCCTGCGGCCGGACCAGCAGCAGGCCCTGCGGGACGCGGAGAACTCAGGCGCCACGGCCATCTGGGTCGCGGTGGACGGCGAGCCGGCGGGCATCATCTGCCTGCGCGACACCATCAAGCCCGGCTCGAAGGCGGCGGTCACCAGGCTCCGGCGGCTGGGCCTGCGGCCTGTCCTGCTGACCGGTGACAACGGCGCTGTGGCCGCCCAGGTGGCCGCCGCCGTCGGAATCCATCCGGACGACGTATTCGCGGGAGTTCTGCCCGACGGCAAAGTGGACGCAGTCCGCCGGCTTCAGGCCGACGGACTCACGGTGGCCATGGCGGGGGACGGCGTGAACGACGCCCCGGCCCTGGCGCAGGCCGATCTTGGGATCGCGATGGGATCCGGCACGGATGTGGCCATCGAGGCCGCGGACCTGACCGTCATGGGCAACGACCTGGGCCAGGTGGCAACTGCCATCGAGCTCTCCCGCCGCACCCTGGCCACGATCAAGACCAACCTGTTCTGGGCGTTCTTCTACAACGCCGTGGGCATCCCGGTGGCAGCTCTCGGACTGCTCAATCCGATGATCGCCGGCGTCGCCATGGCAGCCAGCTCCGTGCTGGTGGTGGCCAATTCACTCCGGCTGCGCCGCTTCGGAAAGTAG	MSTEQLPGRPDTRIIELDIEGMTCASCVNRVEKKLGKLEGVHASVNLPLESAQVMVPAGITDRQITDQVEAAGYKARIKRPVHITPPAEQGTPGQEATHHTGLKPRLIVAAVLTVPVFLISMLPGFQFPHWGWAAAALALPVVSWAAWPFHRAAAVNARHLASTMDTLVSLGVIAAYTFSVGQLIADPRLTEHPGMEGMSGSGGLYFEVAAVVTTFLLLGRYLEANAKAKAGDALKALLNLGAKDATVLVDGSEVKVPAEQLAVGDVIVVRPGEKIATDGVVIEGASAVDASLVTGESVPVEVGPESPVIGATINTSGRLLVQATRVGAETTLAQMGRLVAQAQTGKAPIARLADRISAVFVPIVLAVAVLTFAGWLLAAAPGITAPELRSAFTAAVAVLVIACPCALGLATPVGLLTGTGRGAQLGILIRGPQVLEDTRTVDTILLDKTGTVTSGQLAVDSTVNFAPFSDTDVLRLAGAVEAASEHPIAHAIAAAARAALPALSVGTDDGGKLPGVVGFRSAPGGGVAGTVEGRSVVAGRTGWLQDNGIALRPDQQQALRDAENSGATAIWVAVDGEPAGIICLRDTIKPGSKAAVTRLRRLGLRPVLLTGDNGAVAAQVAAAVGIHPDDVFAGVLPDGKVDAVRRLQADGLTVAMAGDGVNDAPALAQADLGIAMGSGTDVAIEAADLTVMGNDLGQVATAIELSRRTLATIKTNLFWAFFYNAVGIPVAALGLLNPMIAGVAMAASSVLVVANSLRLRRFGK	PGPT0004090_3994	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
D1-17_00075	231			hypothetical protein	ATGAGCACCATCTCCACCACTGTCCACGTCTCCGGCATGACCTGCGGGCATTGCGTATCAGCCGTTAGCGAAGAAATCGAAGCGCTCGACGGCGTCGAGGAGATCGACATCGACCTTAACTCCGGCGGCCTTTCCAGGGTCACCATCACCTCAACAAAGGAACTCTCCCCGTCCGAGATCGGCGAAGCCGTGGCTGAAGCCGGTTACCTCATGGTGGGCGACGAGGCGTAA	MSTISTTVHVSGMTCGHCVSAVSEEIEALDGVEEIDIDLNSGGLSRVTITSTKELSPSEIGEAVAEAGYLMVGDEA	PGPT0004125_951	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
D1-17_00076	345	ricR_1	COG1937	Copper-sensing transcriptional repressor RicR	ATGAAAACGCCTGAGGATTCCTTGCCGGCAGCGGCTGATGCACCCGAGCCCCAGCACGGCTACACGGCGGACAAGGAAGCCTACCTGCGCAGGCTCCGCCGTATCGAGGGCCAGGTGCGGGGCATCGCACGCATGGTCGAGGAAGACAAGTACTGCATCGACATCCTGACCCAGGTGTCTGCCGTCACGAAGGCCCTCCATGCGGTCAGTCTGGGGCTCGTGGAAGAACATATCGGCCATTGCGTGATCGGCGCGGCCTCCGAACCGGATCCCGAACTCCGCGCCGAGGCCATAGACATCAAAGTCAAGGAAGCTGCAGACGCCATCGGCCGTCTGCTCCGATAA	MKTPEDSLPAAADAPEPQHGYTADKEAYLRRLRRIEGQVRGIARMVEEDKYCIDILTQVSAVTKALHAVSLGLVEEHIGHCVIGAASEPDPELRAEAIDIKVKEAADAIGRLLR	PGPT0004175_355	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
D1-17_00077	510			hypothetical protein	ATGGCTCCAGAGCACTTCAGCGGTCCTCCTCCTCTGCTCGTCGGGGTCGTTCCCAACCAGCATCCCGAAGTCCTCCGGACAGCCGCCTCCCTTGCCCAGCGGCTGACGGCCCCGCTGCTGTGCGCCTACGTGGACGAGGCCAGCTACCTCGTGGAGTGGGACCCTGCCCGCTCGACGCACCGGCTTTCGCTGCATCCCGAGAAGGACGACGAGGACATCCGCTCCGTGACAGAGAACCTGAAGTCCGTCATTGGCGACGCGGTCCGCGCGGGCACTCCCGTTGAATGGACCCTCCGCACCCTCGCCGGGGACCCCGCAAGGGCACTCGGACGGCTGGCAGCTGAGGTCGATGCCCCGATGATCATTGTGGGCACCCCGGAGCGGGGTTTCGGGCACCGCATCACGGAACTGCTTAACGGCTCCGTCGCGGCTTGGCTCACCCACCACCAAAGCCGCCCGGTCCTGGTGGTGCCTTACCGGAAGCCGGCCCACGAAGACCGCGCCGACTGA	MAPEHFSGPPPLLVGVVPNQHPEVLRTAASLAQRLTAPLLCAYVDEASYLVEWDPARSTHRLSLHPEKDDEDIRSVTENLKSVIGDAVRAGTPVEWTLRTLAGDPARALGRLAAEVDAPMIIVGTPERGFGHRITELLNGSVAAWLTHHQSRPVLVVPYRKPAHEDRAD				NA	NA	NA	NA	NA
D1-17_00078	201			hypothetical protein	ATGCAAATTTTCATGTGGTGGCTTGATCTGGACCTGAAGAGCAAGGAGTGGCTCCGGGAACACCTCCGGGCCGAGGAGCTTCCGCTCTTTGTGCTGCAGGGAATCGCAGAGGCGGGAGGTCCGCATCCGGAGAGCCCGCAGGCAGTGTTGACTGAAGCCGACTGGGATTTCATCGAAACCCAGTCCGAATTCGTGGACTGA	MQIFMWWLDLDLKSKEWLREHLRAEELPLFVLQGIAEAGGPHPESPQAVLTEADWDFIETQSEFVD				NA	NA	NA	NA	NA
D1-17_00079	309			hypothetical protein	ATGAGAACTGTGATGAAAGTCGTGCGGAATGAGTACTTTCCCGCGGCTGCCGTGCTGGTGCTGGTGGTGCTGTTCTGGACGGCTGGTCTCTTCGGCGGCCTCTCGCTGCTGAGCAGGAGCCAGCCGCCCCTCGCAACGCTGACGTGGCTGCTGTTTGTCTACGCTGTTGCGGTTCTGTCGCCCCTGGCCGGCCTGCTTGCCGCCGTTGACCTCGCCCGCCGCTGGTGGCGCAGTCGCCGGCGAAGTGAGCTGCGGACAGCGGCGCGGACCCGTTTTGCTTCGAGGCGGAGTCCCGCCTCGAAGGGGTGA	MRTVMKVVRNEYFPAAAVLVLVVLFWTAGLFGGLSLLSRSQPPLATLTWLLFVYAVAVLSPLAGLLAAVDLARRWWRSRRRSELRTAARTRFASRRSPASKG				NA	NA	NA	NA	NA
D1-17_00080	1131			hypothetical protein	ATGGGGTGCATGGCTACCCCAGAGACGTACCTTTTAGCGATCGGAACCAAAAAGGGACTGTGGCTGGCGACCAGCCAGGACCGCCGGGAGTGGTCCTTCTCCGGCCCCCATTTCCTGATGAGCGAGATACCGAGTATCGGAATCGACACGAGGGACGGCCGGACCAGGATCATGGTGGGGGTGCGCTCCGAGCATTGGGGCCCGACCGTTGCCCATTCCGATGATCTCGGCGCGAGCTGGACTGAACCCGAACAGGGTGCCATCAAATTCCCCGACGGGACGGATGCCGCCGTCGAGCGCATCTGGCAGATCCACCCGGATGCCGACGCCCGGCCGGGCGTGGTCTGGGCCGGGGCCGAGCCGATTTCTGTATGGAAGTCCATGGACGGCGGCGAGCACTTCGAGCTGAACCGCGGACTGTGGGACCACCCGCACCGCAGCGCATGGGGCGCCGGCTACGGCGGCGCCGCCGCGCACTCGATCGTCGTCGGCTCCTCCGGAGAAAACGTGCACGTCGCCATGAGCACCGGCGGCGTCTACCGATCGCTCGATGGCGGCACCTCCTGGGAGCCCCGGAACCGGGGAATTTCTGCGTACTTCATGCCGGATCCCAACCCGGAATTCGGCCAGTGCGTGCACAAAATTGCGGCGGATGCCGCCGTCGATGGCCGCCTGTATGCGCAGAACCACCACGGCGTGTACCGCAGTGATGACAATGGCGAGAGCTGGCAGTCCATAGCCGAGGGGCTGCCGGCCGACTTTGGGTTCGTCATGCTGACCCATCCGCGCCGGGCAGGAACGGCCTGGGTGATTCCCTTAAAGGCCGACGGCGAGCGGATCCCGCCCGATGGAAAGCTCGCCGTGCACCGCACAGACGACGCCGGCGGAAGCTGGAAGCGGCTGGACTCGGGGTTGCCGCAGTCCGAATACAACGCAGTGCTCCGTGACGCGGCCGCCGTGGATTCTGCTGAACCCGCCGGGGTGTACTTCGGAACGCGCGGCGGTGCCGTGTACGCCAGCGGCGATGAGGGTGAAACCTTCACAGAGGTCGCCTCGCACCTGCCGGACGTGCTGTGTGTCCGGGCCGCCGCCGTGGCGGATTCCCGGGTGCCGGCGACGGCGTCCCCCTGA	MGCMATPETYLLAIGTKKGLWLATSQDRREWSFSGPHFLMSEIPSIGIDTRDGRTRIMVGVRSEHWGPTVAHSDDLGASWTEPEQGAIKFPDGTDAAVERIWQIHPDADARPGVVWAGAEPISVWKSMDGGEHFELNRGLWDHPHRSAWGAGYGGAAAHSIVVGSSGENVHVAMSTGGVYRSLDGGTSWEPRNRGISAYFMPDPNPEFGQCVHKIAADAAVDGRLYAQNHHGVYRSDDNGESWQSIAEGLPADFGFVMLTHPRRAGTAWVIPLKADGERIPPDGKLAVHRTDDAGGSWKRLDSGLPQSEYNAVLRDAAAVDSAEPAGVYFGTRGGAVYASGDEGETFTEVASHLPDVLCVRAAAVADSRVPATASP				NA	NA	NA	NA	NA
D1-17_00081	288	cysO	COG1977	Sulfur carrier protein CysO	GTGGCTGAGATCAGCGTGGTGCTTCCCAGCGTCCTTCAGCCGCTCGCCGGCGGGCAGTCCTTCCTGACTGCGCCCGCCGACGGGACGGTGACTGTGGGGTGGTTGCTTGGTGCCGTGACCGGGGATTACCCGGTGCTTGCCAGGCGCCTGCGCGACGAAACGGGTGCCCTCCGCCGCTACGTGAATATTTACGTGAACGGTGACGAGGTCCGGCGCCTGCAAGGCCTGGATACGGAGGTTTCTGCCGGCGAGGAAGTGCTGGTCATCCAGTCCGTGGCCGGAGGATAG	MAEISVVLPSVLQPLAGGQSFLTAPADGTVTVGWLLGAVTGDYPVLARRLRDETGALRRYVNIYVNGDEVRRLQGLDTEVSAGEEVLVIQSVAGG				NA	NA	NA	NA	NA
D1-17_00082	237			hypothetical protein	ATGTTGAAGGAAGCCAAATCCCACATAACGCGCGTCCGCGCTTTGGACCAGCTCCACCGCGGGGACGAGATTGAAGCACGTCTGTCGGTCGGCCCCAACTACGACGACGTCATCATCCGCCGCGGCAGCGTCCAGGAGACAGCGCCCGGGATCGGCGTGGTCTGGATCATGGATCATCACAGCGGCATGCGCAAGGCCATCAATGCCGACGAGTGCAGCGTCTGGCGGGTCGCCTGA	MLKEAKSHITRVRALDQLHRGDEIEARLSVGPNYDDVIIRRGSVQETAPGIGVVWIMDHHSGMRKAINADECSVWRVA				NA	NA	NA	NA	NA
D1-17_00083	1746	malL_1	COG0366	Oligo-1,6-glucosidase	ATGACCATTGAGGAAACCGAAGCAGAAACGGACTATCGGGCCGGGCGGGAGTGGTTCAAGAGCGCCGTGGTCTACCAGATCTATCCGCGCAGTTTTGCCGATTCCGACGGCGACGGCATCGGCGACCTTCGCGGAATCATCGGCAAGCTGGACTACCTGCACAAGCTGGGTGCCGACGTCGTCTGGCTGTCCCCGGTGTACCGCTCGCCGCAGGATGACAACGGCTATGACATCAGTGATTACCGGGACATCGACCCCGTCTTCGGGGACCTGGAAACCCTCGATGAGCTTCTGGAAGGCCTGCACGCACGGGGCATGAAGCTGGTGATGGACCTCGTGGTCAACCACACCTCCGATGAGCACCCCTGGTTCGTGGAGTCCCGCTCCAGCAAGGACAACCCAAAGCGGGACTGGTACTGGTGGCGCCCGCCGCGCGCGGGAGCCGGGACAACAAGAGCCGAGCCCGGAACGGCAGGGGCGGAACCGAACAATTGGGGCTCTGCTTTTTCCGGCCCGGCCTGGGAGTACGACGCCGCGACGGGGGAGTACTACCTCCACCTGTTCTCGAAAAAGCAGCCGGACCTCAACTGGGAGAACCCGGAGGTGCGTGCGGCCGTCTACGACATGATGAACTGGTGGCTGGACCGCGGCGTGGACGGCTTCCGCATGGACGTCATCAACTTCATCTCCAAGGAGCCATCACTGCCGGACGGCCCCATCGCCGAGGGCAAGCTCTACGGTGACGGCAGCCCGTACTTCATCTGCGGCCCCCGCATCCATGAATTCCTGCAGGAGATGCACCGGGAGGTGTTCGCCGGACGGGACAAGGAACTGCTCACTGTCGGCGAGATGCCCGGGGTGACGGTGGATGATGCGGTGCTGTTCACCGACCCGGGCCGCCGCGAGGTGGACATGGTGTTCCAGTTCGAGCACGTGGCCCTGGACCAAGAGAACGGCAACAAATGGCGCCCCAGGAAACTCCGGCTCACCGACCTGAAACAGTCGCTGGGGCGCTGGCAGGAAGCCCTGGGGGAGCGCGGCTGGAACAGCCTCTACTGGGGCAACCATGACCAGGCCCGCGCTGTCTCCCGCTTCGGCGACGACGGTGAGTACCGCGAGCAGTCGGCCAAGATGCTCGCTGCCGTCCTCCACCTGCACCGCGGCACGCCCTACGTCTACCAGGGCGAAGAGCTGGGCATGACCAACATGTCCTTCGGCGCGATCAGCGACTACCGCGACATTGAGGTCCTGAACCACCACCGGGAAGCCACCACGCATCTCGGCCACACCGATGCCGAAGTCCTCGCAGCCCTGGCCCCGTTGAACCGTGACAACGCACGGACCCCCGTGCAATGGGACGCCAGCCGCCACGGCGGCTTCACGACAGGGGCGCCGTGGATCGCGGTCAATCCGAACGCCAACACTATCAATGCAGCGGCCCAGGTGGACGATCCCGAGTCCGTCTTCAGCTTCTACCGGCAGGTGATCGCCCTCCGGCACACGGATCCGGTGGTCGCCTACGGCGACTTCACCATGCTGCTTCCCGACGACGAACACGTCTACGCGTTCCGGCGCTGCCTTCCGGACACCGAGATGCTGGTCCTCGGAAACTTTTCAGGCAGCGGGCAGCCGGTGGACCTCGACGGCTCCTGGGCGGGCGCGGAGCTGGTGTTGGGAAACTACCCACCCGCACCGGGGCTGGTGTTGCGCCCCTGGGAGGTGAAGGTGCTGCGCCGCAGCCTGTAG	MTIEETEAETDYRAGREWFKSAVVYQIYPRSFADSDGDGIGDLRGIIGKLDYLHKLGADVVWLSPVYRSPQDDNGYDISDYRDIDPVFGDLETLDELLEGLHARGMKLVMDLVVNHTSDEHPWFVESRSSKDNPKRDWYWWRPPRAGAGTTRAEPGTAGAEPNNWGSAFSGPAWEYDAATGEYYLHLFSKKQPDLNWENPEVRAAVYDMMNWWLDRGVDGFRMDVINFISKEPSLPDGPIAEGKLYGDGSPYFICGPRIHEFLQEMHREVFAGRDKELLTVGEMPGVTVDDAVLFTDPGRREVDMVFQFEHVALDQENGNKWRPRKLRLTDLKQSLGRWQEALGERGWNSLYWGNHDQARAVSRFGDDGEYREQSAKMLAAVLHLHRGTPYVYQGEELGMTNMSFGAISDYRDIEVLNHHREATTHLGHTDAEVLAALAPLNRDNARTPVQWDASRHGGFTTGAPWIAVNPNANTINAAAQVDDPESVFSFYRQVIALRHTDPVVAYGDFTMLLPDDEHVYAFRRCLPDTEMLVLGNFSGSGQPVDLDGSWAGAELVLGNYPPAPGLVLRPWEVKVLRRSL	PGPT0019145_166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019145-malL-K01182	NA	NA
D1-17_00084	1695	treS_1	COG0366	Trehalose synthase/amylase TreS	ATGAAAATCGCGGAGACCTCAGACCTTTGGTGGAAGAACGCGGTGGTCTACTGCCTCGACGTCGAGACTTTTTTCGACCACGACGGCGACGGCACCGGCGATTTCGTTGGGCTCACCCAGCGAGTGGACTATCTGGCCGCCCTCGGGGTGAGCTGCATCTGGCTCATGCCGTTCTACCCCTCGCCTGACCGCGACGACGGGTACGACGTCACAGATTTCTTCAGCGTGGACAGCCGCCTGGGCACGATGGGTGACCTCGTGGAGTTCATCCGCACCGCCAAGGACCGCGGCATCAGGGTCATCGCGGACTTCGTGGTCAACCACACCTCAGTCCAGCATCCCTGGTTCCAGGAAGCCAGGAAGTCCGTGGACAACCCCTACCGCGAGTACTACGTGTGGCGCAAGGACACCCCGCCGGACACCTCCTCCGAGGTGGTTTTTCCGGGGGAGCAAACGTCCATCTGGACGCAGGATGACGCCACCGGCGAGTGGTACCTGCATATGTTCAACGAGCACCAGCCGGACCTCAACGTGACCAACCCCAAGGTCCGGAATGAGATCGCCAAGGCCATGGGGCTCTGGCTGGAACTGGGGCTGGAGGGGTTCCGGCTCGATGCCGTGCCGTTTTTCCTGGAGACGCGGGGGCAGCCGAAGGACGAAGCCGCGAACATCGACCCGCATGACTACCTGTCCGCACTGCGCAGTTTCCTGAACCGGCGCAACGGCAGCGCGGTGCTGCTGGGCGAGGTGAACCTGCCGTACAAGGAACAGCTGGAGTATTTCGGCGGCGCTGAGGGCAACGAGCTGAACATGCAGTTCGACTTCATGACCATGCAGCACCTTTACCTGTCACTGGCCCGCCAGGACGCCCGCCCGCTGGCAGAGACCCTGAAGAGCAGGCCGCCGCTGCACCCCGACAACCAGTGGGCCATGTTCGTACGCAACCACGACGAGCTCACGCTGGACAAGCTCAGTGACGGCGAACGCGAGGAGGTTTTCGCCGCGTTCGGCCCGGAAAAGACCATGCAGGTGTACGGCCGGGGCCTCCGGCGCCGGCTGCCGCCGATGCTGGCGGGCGACGCCGGCCGCATCCGGATGGTGTATTCGCTGATGTTCTCCTTGCCTGGCACTCCGGTGTTGTACTACGGCGAAGAGATCGGCATGGGCGAGGACCTGCGGCAGAAGAGCCGGGCTGCCGTCCGTACCCCCATGCAGTGGACCGACCAGGAGAACGGCGGCTTCTCCGACGCCAAAGCATCCGATCTGGTGGCGCCGCTGGTCCGCGGGGAATTTGGCCCGGAAAAGGTCAACGCTGCTGCGGCGAAGCGGGATCCCGAGTCGCTCTGGAACTTCATGGCGACCCTCATGCAGCGCTACCGCGAATCGCCGGAGCTGGGCTGGGGCGAGTTTGCCGTTATTGACCAGCCCGAGCCTGCCGTCTTCGCGCACACCTGCAGCTCCGCCGGGGCCACCCTGGTGCTGCTGCACAACTTCAGTGAGGAGACGGTGAAGGTCAGCGGCAACGTCGGGCCGGACGACGGCGCGACGGACGCCTTCAAGGGCGCGCTGCTGCTGGACCTGTTCGACGGCGGGCACGAGGAACTGGAACCCGACGGCGGCTTCACGGTTGAGCTGGGACGCTACGGTTACCGCTGGTTCCGGGTCCACAAACCCGGGGACCGGCTGGCGCCATAG	MKIAETSDLWWKNAVVYCLDVETFFDHDGDGTGDFVGLTQRVDYLAALGVSCIWLMPFYPSPDRDDGYDVTDFFSVDSRLGTMGDLVEFIRTAKDRGIRVIADFVVNHTSVQHPWFQEARKSVDNPYREYYVWRKDTPPDTSSEVVFPGEQTSIWTQDDATGEWYLHMFNEHQPDLNVTNPKVRNEIAKAMGLWLELGLEGFRLDAVPFFLETRGQPKDEAANIDPHDYLSALRSFLNRRNGSAVLLGEVNLPYKEQLEYFGGAEGNELNMQFDFMTMQHLYLSLARQDARPLAETLKSRPPLHPDNQWAMFVRNHDELTLDKLSDGEREEVFAAFGPEKTMQVYGRGLRRRLPPMLAGDAGRIRMVYSLMFSLPGTPVLYYGEEIGMGEDLRQKSRAAVRTPMQWTDQENGGFSDAKASDLVAPLVRGEFGPEKVNAAAAKRDPESLWNFMATLMQRYRESPELGWGEFAVIDQPEPAVFAHTCSSAGATLVLLHNFSEETVKVSGNVGPDDGATDAFKGALLLDLFDGGHEELEPDGGFTVELGRYGYRWFRVHKPGDRLAP	PGPT0014120_1300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
D1-17_00085	972	fgd1	COG2141	F420-dependent glucose-6-phosphate dehydrogenase	ATGGCAGCCATCGGATTTCACGCGTCGCATGAACAAATCAGCCCCGGACAGCTCCTGAAGGATGTGCAGCACGCCGAGGAGGCGGGCTTCGACGCCGCCATGTGCTCGGACCACATCGAGCCCTGGTCTGCCCGGCAAGGACATTCGGGATTTGCTTGGTCCTGGCTGGGCGCCGCGCTGGCGACCACTTCGCTGCCGTTCGGCGTGGTCAACGCCCCTGGCCAGAGGTATCACCCCGCCGTCGTCGCCCATGCCTCGGCCACGCTGGCCTCGATGTTTCCCGGCCGGTTCTGGGTGGCGCTGGGAAGCGGGGAGAACATGAATGAGCACATCACCGGCGATCCGTGGCCGCAAAAGGAAACCCGCCAAAGACGGCTGGAGGAATGCGTGAGTGTCATCCGGCGCCTGCATGCCGGCGAGGAGGTCACGCACCACGGCCTGGTCACGGTGGAGCAGGCAAGGATCTGGGACGTCCCTCAGCCTGCGCCGCCGCTCATCGCCCCGGCCATCAGTGTGGAAACGGCGCGCCGCTCTGCCGCCTGGGCCGAGGGGCTGGTCACGGTGAACCAGCCGCCGGCCAAGCTCCGGGAGATGCTCAGCGCGTACCGTGACAATGGCGGCCGCGGCAAGGCGGTGCTGCAGATCCACCTGTCCTGGGCGCCCGGCGAGAAGGAAGCCGAGGACATTGCCGTGGACCAGTGGCGGTCCAACGTCTTCGCCCCGCCCATCCCGTGGGACCTCCCCACGGCGGCCCACTTCGACGGGGTCAGCGCCGACGTGGGAGTTGAACAGGTCCGCAAAGCGGTCAACGTCTCGTCCAGCCTGGACCAGCACGCCGAGTGGCTCGGGGAATACCTCGGCCTCGGCTTCGACGAGCTGTACCTGCACTTCGTCGGACAGGAGCAGGCACCGTTCATCGACGCCTTCGCGGACAAGGTGCTGCCCCAGCTCCGGGATGTGCGGGCGGCATGA	MAAIGFHASHEQISPGQLLKDVQHAEEAGFDAAMCSDHIEPWSARQGHSGFAWSWLGAALATTSLPFGVVNAPGQRYHPAVVAHASATLASMFPGRFWVALGSGENMNEHITGDPWPQKETRQRRLEECVSVIRRLHAGEEVTHHGLVTVEQARIWDVPQPAPPLIAPAISVETARRSAAWAEGLVTVNQPPAKLREMLSAYRDNGGRGKAVLQIHLSWAPGEKEAEDIAVDQWRSNVFAPPIPWDLPTAAHFDGVSADVGVEQVRKAVNVSSSLDQHAEWLGEYLGLGFDELYLHFVGQEQAPFIDAFADKVLPQLRDVRAA				NA	NA	NA	NA	NA
D1-17_00086	1068	ligC_1	COG1793	DNA ligase C	ATGCAGCTGCCCGTCATGCCTCCCCTTGCCCCCATGCTCGCCAAGTCAGTGGCCGCGATCCCGGACGGGGCGTTGAGCTACGAGCCGAAGTGGGACGGGTTCAGGTCCATCATCTTCCGGGACGGCGACGACGTGGAGATCGGCAGCCGCAACGAAAAACCCATGACCCGGTACTTTCCTGAACTCGTGGAGGCAGTGAAGGAGAACCTGCCGCCGAGATGCGTGCTCGACGGCGAGATTGTCCTGGTGGGTGCCTCCGGCGACCGGCTCGACTTCGATGCGCTGCAGCAGCGGATCCACCCCGCCGCCAGCCGCGTGAAACTGTTGTCCCAGCAGACGCCCGTGAAGTTCGTGGCGTTCGATCTGCTGGCTTTGGGTGACGAGGACTTCAGCGGCCGGCCCTTTGCCGAGCGCCGTGCTGCCCTGGAGAAGGTCTTCGCCTCCGTGAAAGCGCCGGTCCACCTGACCGCAGCCACGCAGGACCGGGAGCTGGCCGGGAAGTGGTTCCACCAGTTTGAGGGGGCAGGCCTGGACGGGATCATCGCCAAACCCCTCGACGGGCCCTACCAGCCGGACAAGCGCGTCATGTTCAAGGTCAAGCATGAGCGCACGGCCGACTGCGTCGTCGCGGGATACCGCGTGCACAAAAGTAGCTCACGTGCCATCGGGTCGCTCCTGCTGGGCCTGTACAGGCCCGACGGCGGGCTCGCCAGCATTGGTGTGGTGGGGGCCTTTCCGATGCAGCGACGCAGGGAGCTCTTCGAGGAGCTGCAGCCGCTGGTCACAGACTTTGACAGCCATCCGTGGGCCTGGGGCAAGCAGGAGGAAGGCGCGCGTACGCCGCGCAACGCCGAGGGCAGCCGCTGGAGCGCCGGCAAGGACCTGTCCTTCACACCGCTGCGTCCGGAGCGGGTGCTCGAGGTGAAGTACGACCACATGGAGGGCGAGCGGTTCCGCCACACTGCCCAATTCGTTCGCTGGCGCCCCGACCGCGACCCGGAATCCTGCACGTACGAGCAGCTTGAGGAGCCGGTAAAGTTCGACCTCGCCGAGGTGCTGGCCACCTGA	MQLPVMPPLAPMLAKSVAAIPDGALSYEPKWDGFRSIIFRDGDDVEIGSRNEKPMTRYFPELVEAVKENLPPRCVLDGEIVLVGASGDRLDFDALQQRIHPAASRVKLLSQQTPVKFVAFDLLALGDEDFSGRPFAERRAALEKVFASVKAPVHLTAATQDRELAGKWFHQFEGAGLDGIIAKPLDGPYQPDKRVMFKVKHERTADCVVAGYRVHKSSSRAIGSLLLGLYRPDGGLASIGVVGAFPMQRRRELFEELQPLVTDFDSHPWAWGKQEEGARTPRNAEGSRWSAGKDLSFTPLRPERVLEVKYDHMEGERFRHTAQFVRWRPDRDPESCTYEQLEEPVKFDLAEVLAT	PGPT0014910_1126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-17_00087	1320	abaF_1		Fosfomycin resistance protein AbaF	ATGAGCCAGACACTTCCGTCCGCCGCGCCGGACACTGTTGCCCCGGCCGGGACACCGAAGAAGGCAGCCCTTGCCAGCTTCCTCGGCAGCGCCGTCGAGTACTACGACTTCTTTATCTTCGGCTCGGCAGCCGCACTGATCTTCCCGCATGTGTTTTTCCCGAGCGCTGATGCCAATGCCGCCATCATGTCCTTCGCCACCTTCGGTTTCGCCTATGTGGCACGTCCCGTCGGCGCAGTCGTGCTGGGCCACTTCGGTGACCGCGTTGGCCGGCAGAAGGTCCTGATGTTCACCCTGCTGCTCATGGGTGCCTCCACCTTCCTGATCGGCTGCCTGCCTGACTTCAACACTGTTGGCTGGTGGGCACCGGCCCTGCTGGTGCTTGCCCGCCTCTGCCAGGGTCTGTCAGCCGCCGGCGAGCAGGCCGGCGCTTCCTCCATGACGCTCGAGCACGCGCCGGACAACCGCCGCTCCTTCTTCACCTCGTGGACCCTCACCGGCACCCAGGGCGGCCAGATCCTCGCCGCGCTCGTCTTCATCCCCGTTCTTGCCCTGCCTGACGAGATCAAGTACGGCATCGGCTGGCGCGTTCCGTTCTGGCTCAGCGCCGTGGTCGTTGTCGTGGCCTTCTTCATCCGCCGCACGCTGCACGAGCCGCCGGCATTCGCTGAGGCCAAGAAGAGCGCCGAGATCTCCAAGCTGCCTGTGGCCGACCTGCTCAAAACGCACTGGCGCGACGTCCTTCGCGTCATCTGCTGCGCGTTCATCGCGGCCGTCTCCACTGTGTTCGGCACCCTCGCCATCAGCTATGCCAAGACCGTCGCGGGCGTGGACGGCACCACCACCCTTTGGCTGGTGGTGGGCGCCAACCTGGTGGCCCTGGGCACCCAGCCGCTGTTCGGCATGCTCTCGGACAGAATCGGACGCAAGCCCGTCTTCATCTACGGTGCCGTGTCCAGTGCAATCCTCACCCCCGTCTTCCTGCTGAGCCTCGAATCCGGCAGCGTCCCGCTGATGTTCCTGGCAGCCATCGGGTTCTTCTCCTGCGGCTACGCGGCGTCCAATGCCGTCTGGCCGTCCTTCTACGCCGAGATGTTCAGCACCAAAGTCCGCTTCTCCGGCCTCGCCATCGGTACCCAGCTTGGCTTCCTGATGGCCGGTTTTGCGCCCGCCATCGTGGCAGCCATGGGCGGCATCAAACCAGGCGGCTGGGTCCAGATCAGCATCTTCAGCGCGATCATCTGCGGCGTTGCAGCTGTCTCTGCCCTCACTGCCAAGGAATCCTTCAAGATCCCCACCCGCGAGCTGGGCCTCAAGTAG	MSQTLPSAAPDTVAPAGTPKKAALASFLGSAVEYYDFFIFGSAAALIFPHVFFPSADANAAIMSFATFGFAYVARPVGAVVLGHFGDRVGRQKVLMFTLLLMGASTFLIGCLPDFNTVGWWAPALLVLARLCQGLSAAGEQAGASSMTLEHAPDNRRSFFTSWTLTGTQGGQILAALVFIPVLALPDEIKYGIGWRVPFWLSAVVVVVAFFIRRTLHEPPAFAEAKKSAEISKLPVADLLKTHWRDVLRVICCAFIAAVSTVFGTLAISYAKTVAGVDGTTTLWLVVGANLVALGTQPLFGMLSDRIGRKPVFIYGAVSSAILTPVFLLSLESGSVPLMFLAAIGFFSCGYAASNAVWPSFYAEMFSTKVRFSGLAIGTQLGFLMAGFAPAIVAAMGGIKPGGWVQISIFSAIICGVAAVSALTAKESFKIPTRELGLK	PGPT0002956_293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_00088	789	kdgR_1	COG1414	Transcriptional regulator KdgR	GTGAAAGAAGCCACAGTAAACACCGCGAAGGAAGACTCCCGGACCGACATGGTGGGCAAGGCCCTGGGGCTGCTGGTCCTGCTGGGCGACGAGCCGCGCGGCGCAAGCGCCTCGGAGCTTTCCCGCCGGGCAGAACTGCCGTTCAGCACCACCTACCGTCTGCTCGGTTCCCTGACGCGGGACGGCTTTGTGGACTACGAACCGGACGGCCGCCGCTACCACCTCGGGCTGCGGATCTTCCAGCTCGGCCAGCGGGTTTCCAACCATCACGGCTTTGCCGGCACGGCGCTGCCCATCCTGAGGCGCGTCACGGAGCAGACGAAGGAAGCCACCATCCTGTCCGTCCGCGACGGCATCCACCACCTCACCGTGAACAAGGTGGACGGGCCGCAGACCTTCCGGGTGACCAGCGACCCGGGCCACCTCGGTGCGCTGCACACCACCTCCGTGGGCAAGGCGCTTGTTGCCTTCGCTGAGGACGAAGAGCGCGAGCGGCTGCTCGAGGAACTCCCGCTGGAACCTTTGACCAGCCTCTCCATTACCGACCGCGACGCCTTCCGCGCTGAAATCGAACAGGTGCGCCGCCAGGGCTACGCGGTCATGGATGAGGAGAATGAGCTCGGCATGCGCGCCGTGGCCGTCCCGGTCTTCAACGCCCACGGGGTGGCCTTCGCCTCCCTCGCTACCGCGGTTCCCGTGTTCCGCCTCGACATGGAGACCCTCATTGCCCTGGTGCCACTGCTTCAGGAGGCCGCGGCCGAGCTTGCCGCGCGCCTTCCGCAGCGCTAG	MKEATVNTAKEDSRTDMVGKALGLLVLLGDEPRGASASELSRRAELPFSTTYRLLGSLTRDGFVDYEPDGRRYHLGLRIFQLGQRVSNHHGFAGTALPILRRVTEQTKEATILSVRDGIHHLTVNKVDGPQTFRVTSDPGHLGALHTTSVGKALVAFAEDEERERLLEELPLEPLTSLSITDRDAFRAEIEQVRRQGYAVMDEENELGMRAVAVPVFNAHGVAFASLATAVPVFRLDMETLIALVPLLQEAAAELAARLPQR	PGPT0018213_45	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018213-kdgR-K19333	NA	NA
D1-17_00089	882	aroE_1		Quinate/shikimate dehydrogenase (NAD(+))	ATGAGCAACCGAACCGAGTCCTACCTCATTGGGCTTGTCGGCGATGGCGTGATGCCGTCCCTCTCACCCCATATGCATGAACGTGAAGGCGACCTGCAGGGCCTGCGGTACCTGTACCGCCCCATCGACCTGCAGGAACTCGACCTGCCTGCCGCCGCCATCGGTGACCTGCTGCAGAGCGCCTCCCGCCTGGGCTTCAATGGGCTCAACATCACCCACCCGTGCAAGCAGCTGGTCCTGCAGCACCTGGACGAGATCACTCCGGACGCGGCAAAGCTTGGTGCCGTCAACACTGTGGTGATCCAGGACGGACGCTTCATAGGCCACAACACCGACTTCTCCGGCTTTGCCGCAGCGCTCGCAGCCGGACTTCCCCACGCCAGGCTCAGCCGCGTCGTGCAGCTGGGAGCGGGCGGCGCCGGATCCGCCGTCGCATACGCCCTGCTCACCGCAGGGGTGCAGACGCTGGACCTGGTGGACATGGACCCGGCGCGCAGCGCAGAACGCGCTGACGAACTGGCCGGCTTCTTCCCGGACCACACCATCACGGCCCGTACGACGGCGGAGCTGCCGCAGCTGATGCCCCTCGCTGACGGTCTGGTGCACTGCACGCCGGTGGGCATGGCGGCGCACCCCGGCCTGCCGCTGGACATCGAACTCGTGGAGTCCCGGCACTGGGTGGCTGACATCGTCTACCGGCCCATCGAAACGGAGCTCGTCCGCGAGGCGCGCGCCAAGGGCTGCGACGTGCTCGACGGCGGACGCATGGCCGTCGGTCAGGCAGCCGACGCCTTCCGCATCTTTACCGGCCTCGATGCCGACGCCGACCGCATGCGCGCCCACTTCCTGGAGCTCATCGCCGCCGAAGAGGTGGCCGTCTGA	MSNRTESYLIGLVGDGVMPSLSPHMHEREGDLQGLRYLYRPIDLQELDLPAAAIGDLLQSASRLGFNGLNITHPCKQLVLQHLDEITPDAAKLGAVNTVVIQDGRFIGHNTDFSGFAAALAAGLPHARLSRVVQLGAGGAGSAVAYALLTAGVQTLDLVDMDPARSAERADELAGFFPDHTITARTTAELPQLMPLADGLVHCTPVGMAAHPGLPLDIELVESRHWVADIVYRPIETELVREARAKGCDVLDGGRMAVGQAADAFRIFTGLDADADRMRAHFLELIAAEEVAV	PGPT0012890_702	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
D1-17_00090	1914			hypothetical protein	ATGCGCACCGGGATCGCGACCGTGTGCCTCGCCGGTACGCTGAAGGAAAAGATGCAGGCCTGCGCCATCGCGGGCTTCGACGGCATCGAAATCTTCGAGCAGGACCTCGTCACCTCCCCGTTGAGCCCGGAGGACGTCCGGAAAATGGCCGCCGATCTTGGCCTCACCCTGGACCTCTACCAGCCGTTCCGTGACTTAGACAGTGTGGGGCAGGACCTGCTCGCCGCCAACCTGCGCAGGGCGGAGGCCAAGTTCCGGCTTATGTCCCGGCTGGGGATGGACACCATCCTTGTCTGCACCAACGTTGCCACCGCCACCATCGACGACGACGGCCTCCGCGCCGAACAGCTCGCCGCCCTGGCCCGCCTGGCTGGCGAACACGGCATCAAGGTCGCGTATGAGGCGCTCGCCTGGGGCAAGTACGTGAACGACTACGAGCACGCGCACCGCCTCGTGCAGATGGTGGACCACCCCAACCTCGGCACCTGCCTGGACTCCTTCCATATCCTGTCCCGCGACTGGGACACCGCTCCGATCGCCTCCATCAACCCGGACAAGATTTTCTTCGTCCAGGTGGCCGACGCCCCCAGGCTCTCTATGGACGTGCTTTCCTGGAGCCGGCACTACCGCGTCTTCCCCGGGGAGGGCCAGTTCGAGCTCGCCAAATTCATGGGCCACGTGGTCCGGGCCGGTTACACCGGGCCGGTGTCCCTGGAGGTATTCAATGACGTCTTCCGCCAGTCAGATGTCGAACGCACCGCGGTGGACGCGATGCGCTCGCTGATCTGGCTCGAGGAGCAGAGCGCGAAGTGGCTGGAGGCAGGAGCCGGAGGCACGGCAGGGGGCGGCGGCAGCAAAGCCGCAGGCCGCCGTCGTTACCCCATGGAACTGGCAACGCTGCCGCAGGTCGCGGAACCGGCAGGCTTCAACTTCGCCGAGGTCAAGGCAGCCGATACCGCCGCCCTGGAGTCCGTCCTGGGCCAGCTCGGCTTCGCATTCAACGGCCGGCACCGCACCAAGGACGTGCAGCTGTGGACCATGGGCCAGGCGCGGGTCATCATCAACGAACAGGCTCCGGACGGCGCCGCTGCGCCGGCCATCGCCGCCGGTATTGCTGCCATTGGCTTTGACGTCGATTCGCCGGTCATCGCCTCGGCCCGCGCCCAGCAGCTCAAGGCCCCCGTGGTGCCACGCAAGAGCCAGGCCAACGAGGAGGTGTTTCAGGGCTTCGCCGCCCCGGACTCCACCGAGATCTTCCTGTGCCAGGGCAATCCGGACGGCACCGCCGCCTGGACTGGCGAATTCGGCGAGGCTCCTGAGTTCGGCGAGGGATCTGAGACACGCGCCGGCGGCGGAAACGCCGTAATTGACCACGTCAACCTTGCCCAGCCGTGGCAGCACTTCGATGAGGCCGTCCTCTTCTACACCAGCGCCCTGGCGCTGGAGCCGCAGCCGTATGCCGAGGTGGCAAGCCCCAGCGGACTGGTCCGCTCCCAGGTCATGCAGACCTCCGACCGCGCGGTCCGCCTGGTGCTGAACCTGGCGCCGCTGATCCAGCAGGACGGCGCGCAGACCTACCAGGAGCACATCGCCTTCGCGGTGGATAACCTGGTGGCCGCCGCCCGCGCCGCACGGGACCGGGGGCTGGCGTTCCTGCAGATCCCTGAGAACTACTACGAGGACCTGGACGCCCGCTTTGACCTCGAACCCGGCTTCCTGGACACGCTCCGGGACCTTAATTTGCTCTATGACCGCGATGCCGACGGCGAGTTCCTGCACTTCTACACGGACACCGTGGGCAGCGTCTTTTTTGAAATGGTGGAACGCCGCGGCAACTACGACGGCTACGGTGCCCCTAATGCACCGGTGCGCCACGCCGTCCAGTACGACCACCTGCACGAACTGACCAAGTGA	MRTGIATVCLAGTLKEKMQACAIAGFDGIEIFEQDLVTSPLSPEDVRKMAADLGLTLDLYQPFRDLDSVGQDLLAANLRRAEAKFRLMSRLGMDTILVCTNVATATIDDDGLRAEQLAALARLAGEHGIKVAYEALAWGKYVNDYEHAHRLVQMVDHPNLGTCLDSFHILSRDWDTAPIASINPDKIFFVQVADAPRLSMDVLSWSRHYRVFPGEGQFELAKFMGHVVRAGYTGPVSLEVFNDVFRQSDVERTAVDAMRSLIWLEEQSAKWLEAGAGGTAGGGGSKAAGRRRYPMELATLPQVAEPAGFNFAEVKAADTAALESVLGQLGFAFNGRHRTKDVQLWTMGQARVIINEQAPDGAAAPAIAAGIAAIGFDVDSPVIASARAQQLKAPVVPRKSQANEEVFQGFAAPDSTEIFLCQGNPDGTAAWTGEFGEAPEFGEGSETRAGGGNAVIDHVNLAQPWQHFDEAVLFYTSALALEPQPYAEVASPSGLVRSQVMQTSDRAVRLVLNLAPLIQQDGAQTYQEHIAFAVDNLVAAARAARDRGLAFLQIPENYYEDLDARFDLEPGFLDTLRDLNLLYDRDADGEFLHFYTDTVGSVFFEMVERRGNYDGYGAPNAPVRHAVQYDHLHELTK	PGPT0009480_68	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
D1-17_00091	906			hypothetical protein	GTGCCTGAAGACGTGAACCTTGAGACGTACAACGCTGACGCGCTCACGGAGGACCTCGCCGACGCAGTGACCGATCTGCACACGCCGGCTCCCGAGGCTGCGCCCGCGCCGGCGCCCCGCGTCGAGACCCAGCAGGATCTCAGCGCGGAGATCAAGGCGATCGGGGAAGCCTATGCGGAGGCCCTGAAGAACGGTGCTCCGAAGGAGACCCAGCCGCGGCTGGACTTTGCTCCCTACCGCAGCAGCATCCTGCGCCACCCCACCAAGAGCCTGCACCACGCTGACCCGGAGACCATTGAGCTGCACTCCCCGGCGTTCGGGCACCAGGATGTGCACGCACTGGAGTCCGACCTGACCATCCAGCACAACGGCGAACCGCAGGGCGAACGCATCATCGTCGCTGGCCGCGTGCTGGACGGTGACGGCCGTCCCGTAGCAGGCCAGCTCGTGGAGATCTGGCAGGCCAACTCCTCCGGCCGCTACATCCACAAGCGCGACCAGCACCCCGCGCCACTGGACCCCAATTTCACCGGCGTGGGCCGCTGCATCACCGGACCCGACGGCTCCTACCGCTTCGTCACCATCAAGCCTGGCGCCTATCCGTGGAAGAACCACCTCAACGCCTGGCGTCCCGCGCATATCCACTTCTCGCTGTTCGGCACGGATTTCACCCAGCGCATCATCACCCAGATGTACTTCCCCGGCGATCAGCTTTTCCCGCTGGATCCGATCTATCAGTCGATCGTGGACCAGGACGCGCGCGACCGGCTTGTGGCCACCTATGACCACGACCTCACTGAACCTGAATGGGCGCTGGGCTACAACTGGGACATCGTCCTGACGGGCTCCAAGCGGACCTGGACCGAAAACGAGGCGCTGGGCGCGGAAGGCGACGACCATGAGTAA	MPEDVNLETYNADALTEDLADAVTDLHTPAPEAAPAPAPRVETQQDLSAEIKAIGEAYAEALKNGAPKETQPRLDFAPYRSSILRHPTKSLHHADPETIELHSPAFGHQDVHALESDLTIQHNGEPQGERIIVAGRVLDGDGRPVAGQLVEIWQANSSGRYIHKRDQHPAPLDPNFTGVGRCITGPDGSYRFVTIKPGAYPWKNHLNAWRPAHIHFSLFGTDFTQRIITQMYFPGDQLFPLDPIYQSIVDQDARDRLVATYDHDLTEPEWALGYNWDIVLTGSKRTWTENEALGAEGDDHE	PGPT0005015_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005015-pcaH-K00449	NA	NA
D1-17_00092	591	pcaG	COG3485	Protocatechuate 3,4-dioxygenase alpha chain	ATGAGTAACTCCACCAAACCAGTTCCCACCCCGGCCCAGACCGTGGGCCCCTTCTACGGCTATGCCCTGCCCTACGATAAGGACCGCGAGCTGCTGGCTCCCGGATCCCCGGGTTCCATCCGCCTCCAGGGAACCGTGTACGACGGCGCCGGGCATCCGGTCCCCGACGCCATCCTTGAGATCTGGCAGCCGGACCCCGAAGGCAAGATCGTCAGCAAAACAGGCTCGCTGGTCCGCGACGGCTACACCTTCACCGGCTGGGGCCGCAGCGCGGTGGGCAACTCCGGCGTCTACACCTTCACCACCGTGAACCCCGGCCCCACCAAGCCGGGCGCCGCCGCGTTCATCTCGGTCGCCGTCTTTGCCCGCGGCCTCATGAACCGCCTCTTCACGCGCATCTACCTGCCCGAGAATGGGGAAGCGCTGGCAAAGGATCCGCTGCTGTCATCCGTGGATCCGGAACGCCGCGAGACCCTTATCGCCCGGCGCGACGCGGACGGCGGACTCACCTTCGACATCCGCCTCCAAGGTGAAGATGAGACCGTCTTCCTCGACTTCGAGGGAACCGAAACCGGGGGCCCCGCACAGTGA	MSNSTKPVPTPAQTVGPFYGYALPYDKDRELLAPGSPGSIRLQGTVYDGAGHPVPDAILEIWQPDPEGKIVSKTGSLVRDGYTFTGWGRSAVGNSGVYTFTTVNPGPTKPGAAAFISVAVFARGLMNRLFTRIYLPENGEALAKDPLLSSVDPERRETLIARRDADGGLTFDIRLQGEDETVFLDFEGTETGGPAQ	PGPT0005010_353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005010-pcaG-K00448	NA	NA
D1-17_00093	1488	pcaB	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	GTGACCGCCACCCAGCCAGCCGCCGGCTACGGCGACGTCGGACTGCTGAGCCCCGTTTCGGCGTCGCCCCTCGTGGCGGCCCTGACCGGAGACCGCGCGGTCCTGGCGGCAATCCTCGCCGTCGAGGCCGGCTGGGCGGCTGTGCTGGAAAAGCACGACCTGGCTCCCGCCGGGTCCGCCGCAGTGGTTGCCCACGCTGCCGACGCCTCCCGCTACGACGCCGCAGACATCGCCCGGCGCGGGCAGGGCGGCGGCAACCCGGTCATCCCGCTGCTGGTGGACCTCCGTGCCCAGGTTAAGGCCCTGGACCCGGCGGGAATCGGTGCGCTGCGTGCGGTGCACACCTCGCTGACCAGCCAGGACGTGCTGGACACCGCCCTGATGCTGCTCGCCCGGAACACCGTCGGGGCGCTGCTGGCGGACGTGAAAGGCACGACGGCGGCGCTTGCCCGCCTGGCGCAACAGCATGCGGAGACCCTGTGCGTGGGCAGGAGCCTGACCCAGCATTCGCTCCCGTTCACGTTCGGGCTCCGGACAGCGCAGTGGTTCTCGGGGCTGGCCGGCGCGGCCTGCCGGCTCGACGCCCTTGAGCTGCCGGTGCAAGCCGGCGGGGCCGCCGGAACGCTGGCGGCGGGCACGGTGCTGACCGCGGGTACGTCCACGAACCCCTTCGGGCTTGCGGATGACCTAGCCGCCCAGCTCGGACTCGCCGCGGCCCCGGCACCGTGGCACACCAACCGGCTGGCAATCACGTCGCTCGGCGACGCGCTGGCGGGAGTAGTCGATGCGCTGGGCAAGATCGCCGCGGACGTCCTGTTCCTGAGCCGCCCGGAGGTGGCGGAGGTGGCGGAGCCCCGCGCACCCGGCCGCGGCGTTTCCTCGGCAATGCCCCAGAAACAGAACCCGGTGCTCTCCGTTCTGGTCCGCAGCGCCGCCCTGCAGGCCCCGGCGCTCGCCGCCCAGCTGCACCTGGCTGCCGCCACCTTCAACGACGAGCGCCCGGACGGCGCCTGGCACACCGAGTGGCCGGCCCTGCGCCAGCTGCTCGCACTGGCCCTGGGGGCAGCAGGCCACGTGCGCGAATTGGCCGAAGGGCTGCAGGTCTTCCCGGATGCCATGCACCGCAACCTCGACCTGTCCGGTCCGCTCCTCCTCAGTGAGGGCGTGAGCGCCGCCGTGGCGCCGCTGCTTTCCGTCGACGAAGCCGGTGCCGACGGCAAGCAGCAGCTGCAGGCCGTCGTCGATCGGACGATGCAGGCCCCTGCCGCCGAACAGGCCGCCACCTATCGCCGGCTGCTCCGTCAGGCGGTTCCGGCGGACAAGCTGTCCGGCGAGGAGCTGGAGCGCCTGCTCGACCCGGCGAGCTACCTCGGCCAGGCCGCAGAGATTTCGCGCCGGATTGTCGCAGCCTTCCCGGACTATGTGCGTCCTTCAACCGAACCTGGTCCTTCAACCGAACCTGAACGAAACGGAGATCCCCGTGGCTAG	MTATQPAAGYGDVGLLSPVSASPLVAALTGDRAVLAAILAVEAGWAAVLEKHDLAPAGSAAVVAHAADASRYDAADIARRGQGGGNPVIPLLVDLRAQVKALDPAGIGALRAVHTSLTSQDVLDTALMLLARNTVGALLADVKGTTAALARLAQQHAETLCVGRSLTQHSLPFTFGLRTAQWFSGLAGAACRLDALELPVQAGGAAGTLAAGTVLTAGTSTNPFGLADDLAAQLGLAAAPAPWHTNRLAITSLGDALAGVVDALGKIAADVLFLSRPEVAEVAEPRAPGRGVSSAMPQKQNPVLSVLVRSAALQAPALAAQLHLAAATFNDERPDGAWHTEWPALRQLLALALGAAGHVRELAEGLQVFPDAMHRNLDLSGPLLLSEGVSAAVAPLLSVDEAGADGKQQLQAVVDRTMQAPAAEQAATYRRLLRQAVPADKLSGEELERLLDPASYLGQAAEISRRIVAAFPDYVRPSTEPGPSTEPERNGDPRG	PGPT0005000_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005000-pcaB-K01857	NA	NA
D1-17_00094	819	rutD_1		Putative aminoacrylate hydrolase RutD	GTGGCTAGACCAACAGTGAAGGCCGTGCTGCTTTCGCCCCAGCGCGACTTGGGCAGCAGGCCACTCCTTGTCGTCGGGCCGTCGCTCGGCACCTCCTCCGTGCTGTGGGCCCAGACCGGTTCCGTGCTCGGCCACGATTTCGATGTGGTGGCCTGGGACCTTCCCGGCCACGGTGTCTCGCCCGCAGCTGCGGAGACGTTCACCGTCGCGGATCTGGCGGACGCCGTCGTCGAGCTTGTCGACTCGATTGCCCCCGGCGAAGCGTTCCACTACGCCGGGGTGTCCCTGGGCGGGGCCACCGGCCTGCAGCTCGGCATCAAGCACGGCGACCGGCTCAGGAGCCTGTCGGTGCAGTGCACCGGTGCCAAACTCGGCACGCCCGAGGCCTGGCTGGAGCGCGCCGAAACTGTCCGCGCCCAGGGCACTCCCGTGATGATCCAGGGGTCCGCCGAGCGCTGGTTTGCCCCGGGCTTCATGGACCGCGAGCCCGAAGTCAGCAGCAGCCTCCTGCACGCCCTGCGCGACGCCGACCGCTTCAGCTACGCCTTCTGCTGCGAAGCCCTCGCCGGTTTTGACGTCCGGGACCAGCTCGGCAGCATCAGCGTTCCCACGCAGGCAGTGGCCGGAGCGCTGGACACCGTTGCGCCGCCGTCGTTCGCCGAAGAGGTGGCAACCGGGATCACCGCCGGCGGGGGCACCGCCTCGGCCGCGACGCTGGAAGGCGTGGCGCACCTCGCGCCCGCCGAAGCGCCGGGCCACGTTGCCGAACTCCTGCGGAGCCTGATTGTCTGGAGCGAAGCCCGCGGAGCCACGAAATGA	MARPTVKAVLLSPQRDLGSRPLLVVGPSLGTSSVLWAQTGSVLGHDFDVVAWDLPGHGVSPAAAETFTVADLADAVVELVDSIAPGEAFHYAGVSLGGATGLQLGIKHGDRLRSLSVQCTGAKLGTPEAWLERAETVRAQGTPVMIQGSAERWFAPGFMDREPEVSSSLLHALRDADRFSYAFCCEALAGFDVRDQLGSISVPTQAVAGALDTVAPPSFAEEVATGITAGGGTASAATLEGVAHLAPAEAPGHVAELLRSLIVWSEARGATK	PGPT0004995_537	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
D1-17_00095	477			hypothetical protein	ATGAGCGCACTGGAAGGCGCCGAGCGCCACGGTGTCGTGCAGCCGGACGCCACGAGCCAGGAAATTTACGACGGCGGCATGGCGGTCCGGCGCGAAGTGCTGGGCGACGCGCACGTGGACCGGGCCAACGCGAACAAGGACCCGTTCACCGAGGACTTCCAGGACATGATCACCCGCATTGCGTGGGGCGGCATCTGGACCAGGCCGGGCCTGTCCCGGAAGATGCGCTCCGCCGTCACCATTACGGCGATGGTGGCTCACGGGCACTGGGAAGAGCTGGCGATGCACATTCGCGCCGCCGTCCGCAACGGCCTGAGCAGGGACGAAATCAAGGAAATCCTGCTGCAGACCGCCATCTACTGCGGGGTCCCCTCCGCCAACACCGCCTTTAAAACTGCCCAGCAGGTCTTTCAGCAGATGGACAACGCTGCAATGGACAAGCCAGGGCTCGACGAAGCCCCCACCCCGCCCAACTAG	MSALEGAERHGVVQPDATSQEIYDGGMAVRREVLGDAHVDRANANKDPFTEDFQDMITRIAWGGIWTRPGLSRKMRSAVTITAMVAHGHWEELAMHIRAAVRNGLSRDEIKEILLQTAIYCGVPSANTAFKTAQQVFQQMDNAAMDKPGLDEAPTPPN	PGPT0005005_1530	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
D1-17_00096	1233	pcaF	COG0183	Beta-ketoadipyl-CoA thiolase	ATGAATCAGGCTTTTGTGTACGACGCCGTGCGCACTCCCTTCGGGAAGTTCGGCTCCGGCCTTGCCGCCGTCCGTCCGGATGACCTCGCCGCGCACGTGATTAAGGAATCGGTGAAGCGTGTTCCCGGTTTGGATCCTGAGCGGATCGATGAGGTGGTGTTCGGCAACGCCAACGGCGCCGGCGAGGAGAACCGCAACATCGCCCGCATGGGGACCCTGCTCGCGGGCCTGCCGGTATCGATCCCCGGCACAACCGTCAATCGGCTGTGCGGGTCTTCCTTGGATGCGGCCATCATCGCCTCGCGGCAGATTAATGCCGGTGACGCCGATCTGGTCCTGGTGGGCGGCGCCGAGTCCATGTCGCGGGCGCCGTGGGTGCTGCCCAAGACGGAGAAGCCCTACCCGGCCGGCGATCTGACCCTCGCCTCCACCACGCTCGGCTGGCGCCTGGTGAACAAGGCCATGCCGAAGGAATGGACCATTTCCCTGGGTGAGGCCACCGAGCGGCTGCGTGAGAAGTACAAGGTGACCCGCCAGGCGCAGGACGAGTTCGCGGCTAACTCCCACAACCTGTCGGCCGCGGCTTGGGACGAGGGGTTTTACGACAACCTGGTGGCTCCGGTTCCCGGCACTGACCTGGTGCGGGACGAGGGCATCCGGCCCGGTTCCACCGCGGAGAAGCTCGCCTCGCTGAAGACCGTGTTCCGGTCTGAGCCCGAAGGCGCCGAGGTCGGCGGCACTGTCACCGCGGGCAACGCCTCGCCACTGTCCGATGGCGCCTCCGCAGCCTGGATCGGATCCGAGGGCGCTTCTTCCATCCTGGGACTGGAACCGCTGGCCCGCATCGCCGGCCGCGGCGCCCACGCCAACGACCCCCAGTACTTCGGCTTCGCCCCGGTGGAGGCGGCGAACAAGGCCCTCCAAAAGGCGGGCATCGGCTGGGACCAGGTGGGCGCCGTCGAACTTAACGAAGCGTTCGCCGCGCAGTCCCTGGCCTGCATCAACGCCTGGGGCATCGACTCTACGATCGTTAACCGGCACGGCGGCGCGATTGCCATGGGCCATCCGCTGGGTGCCTCCGGAACGCGCATCCTCGGCACCCTGGCGCGCAGTCTGCAGGCCTCCGGCGAACGCTGGGGCGTGGCGGCGATCTGCATCGGCGTCGGGCAGGGCCTGGCCGTGGTGCTCGAAAACGTCACCGCTTCCTCCGGCACCACCACAGGAAAGGCATAG	MNQAFVYDAVRTPFGKFGSGLAAVRPDDLAAHVIKESVKRVPGLDPERIDEVVFGNANGAGEENRNIARMGTLLAGLPVSIPGTTVNRLCGSSLDAAIIASRQINAGDADLVLVGGAESMSRAPWVLPKTEKPYPAGDLTLASTTLGWRLVNKAMPKEWTISLGEATERLREKYKVTRQAQDEFAANSHNLSAAAWDEGFYDNLVAPVPGTDLVRDEGIRPGSTAEKLASLKTVFRSEPEGAEVGGTVTAGNASPLSDGASAAWIGSEGASSILGLEPLARIAGRGAHANDPQYFGFAPVEAANKALQKAGIGWDQVGAVELNEAFAAQSLACINAWGIDSTIVNRHGGAIAMGHPLGASGTRILGTLARSLQASGERWGVAAICIGVGQGLAVVLENVTASSGTTTGKA	PGPT0001565_928	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001565-fadA|fadI-K00632	NA	NA
D1-17_00097	699	pcaI	COG1788	3-oxoadipate CoA-transferase subunit A	ATGCTGAATTTCATTGACACGGTTGGCGAGGCCGTCGCGGCCGTCAAGGATGGCTCCACGGTGATGATCGGCGGGTTCGGGAACGCCGGCCAACCGTTCGAACTGATCGACGCGCTGCTGGACGGCGGCGCCACGGACCTGACCGTGGTGAACAACAACGCAGGCCAGGGTGACCAGGGTCTGGCGCTGCTGATCAAGGAAGGCCGGGTCCGCAAGATGATCTGCTCCTTCCCGCGGCAGTCCGACTCCTGGCACTTCGACGCCAAGTACAAGGCCGGGGAGATCGAGCTGGAGCTCGTTCCGCAGGGCAACCTGGCCGAGCGCATCCGGGCCGCCGGCGCGGGTATCGGGGGCTTCTTCACCCCGACCGGCTACGGCACCATGCTCGCCGAGGGCAAGGAAACCCGCATCATCGACGGCCGCGGGCAGGTCTTCGAAACACCCATCCACGCCGATGTAGCCCTGATCAAGGCGCTGAAGGCGGACGGTGTGGGAAACCTGGTGTACCGCAAGACCGCCCGGAACTTCGGCCCGATCATGGCCGCCGCCGCCAGGCACACCATCGTCCAGGTCTCCGAAATCGTGCCCACCGGCGCGCTGGACCCGGAAAACGTCGTGACCCCCGGCATTTACGTCAACAGCATCGTCCGTATCGATTCCAGCGGCGCTGCCGCCGGCGCAGCAGAAAAGGTGGCCTGA	MLNFIDTVGEAVAAVKDGSTVMIGGFGNAGQPFELIDALLDGGATDLTVVNNNAGQGDQGLALLIKEGRVRKMICSFPRQSDSWHFDAKYKAGEIELELVPQGNLAERIRAAGAGIGGFFTPTGYGTMLAEGKETRIIDGRGQVFETPIHADVALIKALKADGVGNLVYRKTARNFGPIMAAAARHTIVQVSEIVPTGALDPENVVTPGIYVNSIVRIDSSGAAAGAAEKVA	PGPT0005025_203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005025-pcaI-K01031	NA	NA
D1-17_00098	684	pcaJ	COG2057	3-oxoadipate CoA-transferase subunit B	ATGAGCCTTGTTGAAACAAGCATCCAGACGTCCGAGACCCCGCTGGGCCGGGACGACCTCGCCCGCCTCGTGGCCCGCGACATTGCACCGGGTTCCTTCGTGAACCTCGGGATCGGCCAGCCCACCCTGGTGTCGAACTATCTGGTGCCGGAGCAGAACATCACGCTCCACACCGAAAACGGCATGCTGGGCATGGGACCGGTGGCCACAGGGGACCAGATCGACGAGGACCTCATCAACGCCGGCAAGATCCCCGTGACCGAGCTGCCCGGGGCGTCCTATTTCCACCACGCGGACTCGTTCGCGATTATGCGCGGCGGGCACCTGGATATCTGCGTCCTGGGCGCGTTCCAGGTTTCCGCCACCGGCGACCTTGCCAACTGGCACACCGGAGCTCCGGACGCCATCCCTGCCGTCGGCGGCGCGATGGACCTGGCCACCGGCGCGAAGGACGTGTTCGTGATGATGACACTCCTGACCAGGGAAGGTGCCTCGAAGATCGTTGAGGCCTGCACCTACCCGCTGACCGGGGTGGGCTGCGTGACCCGCGTGTACACCGACAAGGCAGTGTTCCTCACCGGCCCCGGCGGCGTCCGCGTCCGGGAAACCTTCGGCTGCACCCTCGAGGAACTCCAGGAACTGGTCCCTGTCCCCCTCGCAGCAGCCCCCGCCGTCGAACACTGA	MSLVETSIQTSETPLGRDDLARLVARDIAPGSFVNLGIGQPTLVSNYLVPEQNITLHTENGMLGMGPVATGDQIDEDLINAGKIPVTELPGASYFHHADSFAIMRGGHLDICVLGAFQVSATGDLANWHTGAPDAIPAVGGAMDLATGAKDVFVMMTLLTREGASKIVEACTYPLTGVGCVTRVYTDKAVFLTGPGGVRVRETFGCTLEELQELVPVPLAAAPAVEH	PGPT0005030_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005030-pcaJ-K01032	NA	NA
D1-17_00099	840	pcaR_1	COG1414	Pca regulon regulatory protein	ATGACCGACGCAGCAGCAGGGACCGCACCGAGGGCAGGCCGCACGCCGAAAACTGACGCAGCCCCTGCAGCCAGCGACCAGTATGTGCAGTCGCTGGCGCGCGGGCTGGCGGTCATCCGGGCCTTCGACACTGATCACGCCGACATGACCCTTACCGAAGTGGCTGCCCGGACCGGCCTTACCCGGGCCACGGCGCGGCGCTTCCTGCACACGCTTGTGGAGCTGGGCTACGTCCGGACTGACGGCAAAACCTTCGCGCTCACTGCCCAGGTGCTGCAGCTCGGATACGCCTATCTTTCGGGCCTGTCACTTCCGCAGCTCGCCCAGCCGCACCTCGAGGAGCTGTCCCTCAAGCTGGGGGAGTCCACCTCCGCGGCCGTGCTGGACGGCACCGACATCGCCTACATCGCCCGCGTCACCACGCGCCGAATCATGACCATCGGCATCACTGTCGGCACGCGGTTCCCCGCCTACGCGACGTCTATGGGCAGGGTGCTCCTCGCTGCCCTTCCGCCGGAGAAACTGAAGGAGTACCTGGCTGCCGCCGAGATCAAACCTCTCACTCCGCGGGCGATTGGCAGTGTTAAGGAGCTCCTCGCAGTTCTGGATACCGTCCGTACCCAAGGCTGGTGCCTGCTGGACCAGGAGCTGGAGCTCGGCCTGATGTCCGTGGCCGCTCCGGTCTACCACGGGAAGAAGGTGGTGGCAGCCGTCAACGTCTCCCTGCAGGCCCAGTCCGTGGCTGCCAAACCCGATCGCGAGGCTTACTTGGACTCGGTGCGCAAGGAGATCGTGGCGACGGCTGAAAAGATCTCCGCAGACTTCTCCGCCGGACGGTAA	MTDAAAGTAPRAGRTPKTDAAPAASDQYVQSLARGLAVIRAFDTDHADMTLTEVAARTGLTRATARRFLHTLVELGYVRTDGKTFALTAQVLQLGYAYLSGLSLPQLAQPHLEELSLKLGESTSAAVLDGTDIAYIARVTTRRIMTIGITVGTRFPAYATSMGRVLLAALPPEKLKEYLAAAEIKPLTPRAIGSVKELLAVLDTVRTQGWCLLDQELELGLMSVAAPVYHGKKVVAAVNVSLQAQSVAAKPDREAYLDSVRKEIVATAEKISADFSAGR				NA	NA	NA	NA	NA
D1-17_00100	1242	pntAA	COG3288	NAD(P) transhydrogenase subunit alpha part 1	GTGAGGCTGGGCATAGCGCGGGAACGCCGGGAGGGCGAGCGGCGGGTCGCCGCGACGCCAGAGACCGTGAAGCAGCTGCGGGGACTGGGCCTGGAAGTGCTCGTGGAATCCAGGGCCGGGGTGTTCGCAGGCCACGGTGACGAGGATTACCAGCAGGCCGGCGCCCTGGTGGTGCAGGATCTCGACGTCGGGACCCTCGACGTCTACGGTCACGTCCGCCCGTTGGAGCACCAGACGGCAACAGCGTTGCGCCGGGGCGCCATCACCGTGGGCCTGGCCTCGCCGTCGTCTGAACTCGCCGTCGTCATGGAGCTCGCGCAGCGCGGCATCACGTCCTTCGCCCTGGAACTTGTGCCGCGTATCTCCCGTGCCCAATCGATGGACGCCCTCTCCTCGCAGGCCCTCGTTGCCGGTTACCGCTGCGTGCTCGAAGCTGCGATCCGCCTCCCGCGGTTCTTTCCGCTTTACATGACCGCCGCGGGAACCGTTCCGCCCGCCCGGGTGCTGGTGCTCGGCGTCGGTGTGGCGGGACTCCAGGCCATTGGCACGGCAAAGAGACTCGGCGCCCGGGTTTCGGCAAACGACATCCGGCCTTCCTCGGCGGAGGAAGTCACCTCGATGGGTGGCACCTTCATCAAGCTGGACCTAGAAACTGCGGAGGCATCCGGAGGCTACGCCCGCGAGCTCAGCGCCGACCGCGGTGCCCTGCAGCGCCGGCTCCTGGCACCGCACGTCGCCGAAGCGGACGTGTTAATCACGACGGCGGCCGTCCCTGGACGGCGCGCGCCGCTCCTGGTGACCCGGGACATGGTGGAGGCGATGCGCCCCGGATCGGTCGTCGTCGACCTCGCCGCAGAGTCCGGCGGCAACGTGGAGGGGTCGGTTCCCGGCCGCGACATCCACGTGACCACGGCCGACGGCAAGGGGACCGTGACCCTGGTGGGGCTGAAGGATGCGCCGTCCGCGATGCCCACGGACGCTTCCCGCCTGTACGCGAAGAACGTGTCGAACCTGCTGACGCTCATGACAAGGGACGGGATAGTGGTGCCGGACTTTGAAGACGACGTCATCGCTGGTGCGTGCCTGACGCATGACGGCGTGGTGCGGCATGCGCCGACGGCGGAGGCATTGGCGGCACTCACTGCTGAGAACGCGCCGGACAACGGTGCCGGGAACGCCGAGGCCGGCGTACAGCACGCGTCCCAAACGCAGCGGGCGTCCGAGAACGAGGGGGTGGCCTGA	MRLGIARERREGERRVAATPETVKQLRGLGLEVLVESRAGVFAGHGDEDYQQAGALVVQDLDVGTLDVYGHVRPLEHQTATALRRGAITVGLASPSSELAVVMELAQRGITSFALELVPRISRAQSMDALSSQALVAGYRCVLEAAIRLPRFFPLYMTAAGTVPPARVLVLGVGVAGLQAIGTAKRLGARVSANDIRPSSAEEVTSMGGTFIKLDLETAEASGGYARELSADRGALQRRLLAPHVAEADVLITTAAVPGRRAPLLVTRDMVEAMRPGSVVVDLAAESGGNVEGSVPGRDIHVTTADGKGTVTLVGLKDAPSAMPTDASRLYAKNVSNLLTLMTRDGIVVPDFEDDVIAGACLTHDGVVRHAPTAEALAALTAENAPDNGAGNAEAGVQHASQTQRASENEGVA	PGPT0013500_1165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-17_00101	375			hypothetical protein	ATGGATGGCATCAGCTTGTTGACCATTACGGTACTCGCGGTCTTCGTGGGTTTCGAGGTGGTTTCCAAAGTCTCGAGCACGCTGCACACGCCGCTGATGTCGGGGGCCAATGCGATCCACGGCATCATCCTGGTCGGCGCCATCATCGTGGCCGGCCAGGCCGCGCACCCGTGGGAGCTCGCCGTGGCCCTGCTGGCCGTGGTGCTTGCGACGGCGAACCTCGTGGGCGGCTTCGTGGTGACGGACCGGATGCTGGAAATGTTTCGCGGAAACAAGGCCAAGAAACAGCGGGCGGAACTGCCCGCCGGGGAAACTTCAAGTGGAACCCGGACACGGGAAATCCACGCGCGCGGAAGCAAGGGGAGCGTCCAGTGA	MDGISLLTITVLAVFVGFEVVSKVSSTLHTPLMSGANAIHGIILVGAIIVAGQAAHPWELAVALLAVVLATANLVGGFVVTDRMLEMFRGNKAKKQRAELPAGETSSGTRTREIHARGSKGSVQ	PGPT0013500_2860	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-17_00102	1374	pntB	COG1282	NAD(P) transhydrogenase subunit beta	GTGAGCCTGCTCGACCCCACGATCGTCGCGCTTCTCTACCTGGCCGCCGCCGTCTTTTTTATTCTGGCGCTGAAAGGCCTCAACTCGCCCCGTACTGCCCGTCGGGGTAACCTTATCGGCGCCTTCGGTGCGCTGGTCGCCGTCGTGACGGTCTTTTTCTCGACAAGGTTGGACAACATCCCGTGGATCCTGGGCGCCATCGCGGTGGGAGCAGGGGTGGCTGCGCCAGTCGCCCGGCGGGTGAAGATGACCCAGATGCCGCAGCTCGTGGCCCTATTTAACGGTGTGGGCGGCGGGGCGGCGGCTCTCGTGGCGCTGCTCGAGCTGCCCCACGCGGAGGACACGTGGGTGCGCGTCGCCGTCGTCTTCACCCTGCTCGTCGGCGCCCTGTCCTTCGCAGGATCCGCCGTGACTTTCGCGAAACTGCAAGAGTTGATGACCACGCGTCCCGTGGTGTTTCCGGGGCTGCCGGCCCTGATGGGCGCCGTGCTGCTCGCGGCGGTGGGTGCGGCTGCCGCCGTCGTGCTGGGCGGGTGGCTCGCTCTCGCGCTGGTGCTTTTGCTGCTGGGGCTGGTCGCCGGAGTGCTGCTGGTCCTGCCGGTGGGCGGCGCGGACGTTCCGATCGTCATCTCCCTGCTGAACGCCTTTACCGGGCTGGCCGTGGCCGCATCGGGGCTGGTGCTGGGCAACGTGCTCCTGGTGGTGGCCGGTACCCTTGTCGGCGCGTCCGGCACCATCCTCACCCGCGCCATGGCGGCCGCGATGGGACGCAGTGTTGCTGGCATCCTGTTCGGCGCGTTTAGGGGAGGTTCGACGGCGGGATCCACCGCGGTGAGCGACCGCCCAGTGCGCTCCTCCAGCCCGGAGGATGTCGCAGTGCTGCTGGGCTACGCGCAGCGGGTGATCATCGTTCCGGGGTATGGCCTCGCGGTGGCGCAGGGCCAGCACACGGCGGCGGAACTGGCGCAGGCGCTCGAAGCCCGCGGTGTCAGGGTGGACTTCGCTATCCACCCAGTGGCCGGCCGCATGCCGGGGCACATGAACGTGCTGCTCGCCGAGGCCAATGTGCCTTACGAGTCACTGAAGGAAATGAGCGAGATCAACTCCGAATTCCGCACCGCGGACGTGGCCCTGGTGGTGGGCGCGAACGACGTTGTCAATCCGGCCGCCAAGACCACTGCCGGCTCGCCGATCTACGGAATGCCGATCCTCGAGGTGGCGGATGCCCGGCAGGTCGTCTTTCTTAAGCGCTCCATGCGCCCGGGCTTCGCCGGGATCGAAAATGACCTCATGTTCGAACCGCAGACCACCCTGCTGTTCGGTGATGCGAAGGAGTCCCTGACCAAGGTGCTGGGGTCTGTGAAGGCGCTGTAG	MSLLDPTIVALLYLAAAVFFILALKGLNSPRTARRGNLIGAFGALVAVVTVFFSTRLDNIPWILGAIAVGAGVAAPVARRVKMTQMPQLVALFNGVGGGAAALVALLELPHAEDTWVRVAVVFTLLVGALSFAGSAVTFAKLQELMTTRPVVFPGLPALMGAVLLAAVGAAAAVVLGGWLALALVLLLLGLVAGVLLVLPVGGADVPIVISLLNAFTGLAVAASGLVLGNVLLVVAGTLVGASGTILTRAMAAAMGRSVAGILFGAFRGGSTAGSTAVSDRPVRSSSPEDVAVLLGYAQRVIIVPGYGLAVAQGQHTAAELAQALEARGVRVDFAIHPVAGRMPGHMNVLLAEANVPYESLKEMSEINSEFRTADVALVVGANDVVNPAAKTTAGSPIYGMPILEVADARQVVFLKRSMRPGFAGIENDLMFEPQTTLLFGDAKESLTKVLGSVKAL	PGPT0013505_2411	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
D1-17_00103	918	dagK	COG1597	Diacylglycerol kinase	ATGTCAGCCGAGAACGCATCCTCCCCGCGGCGGGCAGCCGTGGTCATCAACCCGTCCAAGTCCGTGGGTCCTGAACTCCGTGCTTCACTCATCAGGCTGTGCGACACGCAGGGCTGGGCCGAACCGCTGTGGCTTGAAACCACTATCGAGGACCCCGGCGTGGGACAGGCGCGCCAGGCGCTCGAGGCTGGGGTCGACGTCGTCATCGCGGCAGGCGGTGACGGCACTGTGCGCTGCGTTGCCGAGGTGCTCGCAGGAACGGACACACCCCTGGGCCTTGTGCCCCTTGGGACCGGCAACCTGCTCGCGCGCAACATGGGCATAGACATCAACGATCCCGTCTCCGCAGCCTACGACGTCCTGAACGGCACGGAACGCACGGTGGACGTGATCAGGTGCCGACTGAACCGCTCCGAGGAGGAGAACGTGTTCCTGGTGATGGCAGGGGTGGGCTATGACGCGGCGATCATGGCCGACACCGTCGACGTGCTCAAGGACCGCATGGGCTGGCTCGCCTACGTTGAAGCGGGAATCCGCAAGCTGCCCGGCAAACCGGTCCGGGCCACGGTCAAAGTCGATGATAGGCATCCGGTGAGGCGCCGCATCCGCAGCGTCATGATCGGCAACTGCGGCCGGATCATGGGCGGCATCGAGATTTTTCCGGAGGCGAAGATCGACGACGGCGTGATGGACCTTCTTGTCCTCGCACCCCGCGGCCGCTTCGGCTGGCTTGGCGTGATTGCCGGCATCTTTGGCCGTAAGAAGAACAAGCGCGAATCCGCCGAGTATTTCAAAGGCAAAACCGCCGAAGTGACCTTGGAGGTTGACGAGGAATTCCAGCTAGACGGTGATCACGTCGGGACGGGGAAACACCTCTCCATCCGCCTGGACCCCGGGGCGCTCAAGGTCCGCGCGTAG	MSAENASSPRRAAVVINPSKSVGPELRASLIRLCDTQGWAEPLWLETTIEDPGVGQARQALEAGVDVVIAAGGDGTVRCVAEVLAGTDTPLGLVPLGTGNLLARNMGIDINDPVSAAYDVLNGTERTVDVIRCRLNRSEEENVFLVMAGVGYDAAIMADTVDVLKDRMGWLAYVEAGIRKLPGKPVRATVKVDDRHPVRRRIRSVMIGNCGRIMGGIEIFPEAKIDDGVMDLLVLAPRGRFGWLGVIAGIFGRKKNKRESAEYFKGKTAEVTLEVDEEFQLDGDHVGTGKHLSIRLDPGALKVRA	PGPT0024345_1348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-17_00104	729			Arylmalonate decarboxylase	ATGGCTTCCGCAGCACGCAAGACCCGCATCGGCATGATCGTGCCGTCCTCCAACACCTGCCTGGAACCGCAGAGCTACCGCATCCTGGGTGACCGGGACGACGTCACCATCCACTTCACCCGGATCCCGGTGGTCCGGATCGCCCTCGATGATTCCTCGGACAAACAGTTCGACCCCGCCGTAATGCGCGAGGCGGCCCGGCTGCTCGCGACGGCGGACGTGGACGTCATCGCCTGGAACGGCACCTCGGGATCATGGCTCGGGGCCGGGCACGACCGCGAACTCGTACGCGAAATTGTAGACGCCACCGGCATTCCCGCCACCACGTCCACCCTGGCCTACCTGGAGGCGTTCCGGGCGTTCGGCATCGAGCGGATCGGACTGTTCACCCCGTACACGGAGGACGTCAACCGCGCCGTGATCGCAGCCTACGAGCGGGATGGCATCAAGACACTGGACCACCGCTTCCTGGGCTTGAGCGACAATGAATCCTTCGGCCGGGTGACCGACGACGAAATGCGCCCCGGCTCCCTGGAACTGGCGGCAGCCGCCCCGGACGCCCTGGTCTACCTCTGCACCAACCTGTACGGGGCCAACATCGCCGCTGAAATCGAAGCCGGAGCTGGCGTCCCCGTATTGGATTCGGTGGCCGTGACACTGTGGCACTCCCTCAAACTCGCCGGTGCCCCCTTGCTCGCGCCGAAGTGGGGGAGGTTGCTGGCGGGCTGA	MASAARKTRIGMIVPSSNTCLEPQSYRILGDRDDVTIHFTRIPVVRIALDDSSDKQFDPAVMREAARLLATADVDVIAWNGTSGSWLGAGHDRELVREIVDATGIPATTSTLAYLEAFRAFGIERIGLFTPYTEDVNRAVIAAYERDGIKTLDHRFLGLSDNESFGRVTDDEMRPGSLELAAAAPDALVYLCTNLYGANIAAEIEAGAGVPVLDSVAVTLWHSLKLAGAPLLAPKWGRLLAG	PGPT0019700_991	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_NICOTINATE_DEGRADATION,PGPT0019700-nicE-K01799	NA	NA
D1-17_00105	1443	hyuA_1		D-hydantoinase	ATGTCCCACATCCCAGAACTCGTCATCGCCAACGGCACCGTGGTGAACAGCTTCGGCCGACGGCAAGCCCACATCGTCATTCGGGACGGCAGGATCAGCCGGCTGGTTGATGCCTCCGGGCAGGTTCCCGACGCCGGGCGGACAGTGGACGCGGCAGGTCACCTCGTGATCCCGGGTGGCGTGGACGGCCACTGCCATGTGGCCCAGGTGACCGGACGCTTCCGGACCCTCGATGACTACCGCACCACCTCCACAGCGGCGCTCTGGGGCGGCACCACCACCATCATCGACTTCGGCATCCCCCGCGACTCTTCGGAAACGCCGCTCGCTGCCGTCCTGAACAAAAAGGAGCTGGCCCGGGAGTCACGCTGCGATGTCGCACTGCACGGCTCGGTGATCCGCTGGGACGAGACGGTGCCGTGGCAGCTGGAACAGCTCGCCGCCGAGGGGGTGCGGTCGGTCAAGATGTACACCACCAACCGTGGGACCACCATGGCCGACGGCGACACCATGCTGAAGGTGATGCGCGAGATGGTGCGTCTCGACGGCCTGACCTATATCCACGCCGAGCACGACCCCATCATCGTGGACTGCACGGAACAGCACTCCGACGACGGCAGGATCGGCATTGAACACCTGCACCGGACGCGCCCGGAACTCGCTGAGGAGGTTTCAGTCAAGGAAACCCTGGCCATGGCCCAGTACACGGGTGCGCCGGTCTACTTCGTGCACCAGTCAACGCCCGGCGCCGTGGACCTCGTGACTGACGCCCGAGCCCGCGGCCACGAGGCGTACTCCGAGACCTGCCCGCACTACCTCACCCTTGATGATTCGGTCTACGGCTCGGGCTTCCCCGAGTGGTACGCCTGCTGCCCGCCGATGCGGAGCGCTGAAACGGTCGCCGCGCTGAAGGAACGCCTGAGCGACGGCGCCATACACACGGTCTCCTCGGACCACTCCTGCTACGACCTCTCGCAGAAGCGCGAGCGGACCGACGACATCCGGGCCATGCCGCACGGCCTGCCGGGCGTGGAAACGCGGATGCCGGTGACCTTCACAGCCATGGCTGCATCCGGCAGCCGCGTTGAGGACTTCGTGGAGGTCTTCGCCGCCGGTCCCGCCAGGATCAACGCCGTCCCGGGCAAGGGGACCATCGCAGAAGGCTTCGACGCGGACCTCGTGATTTTCGATCCCCTGGAAGAGCGCACGGTGGACGGCGCCGGCCTGCACATGGGGACGGACTTCTCACCGTTCGACGGCAGAAAGCTCACGGGCTGGCCCGCCGTCGTGGTTTCTGCCGGGCGCGTCGTGCTGGACGCAGGAGGCTTCCACGATCCCGGGCCTGCTGGGCGTTACATTGCACGCAACGGCTTCCGCGAACACGCCGCAGCAGCTGCCGCTCCCGCCGTCGCCCCACCCGCCCCCACCCCCGCTACGTTTTAG	MSHIPELVIANGTVVNSFGRRQAHIVIRDGRISRLVDASGQVPDAGRTVDAAGHLVIPGGVDGHCHVAQVTGRFRTLDDYRTTSTAALWGGTTTIIDFGIPRDSSETPLAAVLNKKELARESRCDVALHGSVIRWDETVPWQLEQLAAEGVRSVKMYTTNRGTTMADGDTMLKVMREMVRLDGLTYIHAEHDPIIVDCTEQHSDDGRIGIEHLHRTRPELAEEVSVKETLAMAQYTGAPVYFVHQSTPGAVDLVTDARARGHEAYSETCPHYLTLDDSVYGSGFPEWYACCPPMRSAETVAALKERLSDGAIHTVSSDHSCYDLSQKRERTDDIRAMPHGLPGVETRMPVTFTAMAASGSRVEDFVEVFAAGPARINAVPGKGTIAEGFDADLVIFDPLEERTVDGAGLHMGTDFSPFDGRKLTGWPAVVVSAGRVVLDAGGFHDPGPAGRYIARNGFREHAAAAAAPAVAPPAPTPATF	PGPT0008880_949	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008880-dht|hydA-K01464	NA	NA
D1-17_00106	840	hyuA_2		Hydantoin racemase	ATGAAACTGCTCGTCATCAACCCCAACATCAGCGGCGACGTCACCGCCCTCATCGAGTCCGAGGCGCGCCGCTCCGCCGCCGAAAACACAGAACTGATGATGCGCACCGCCGGCTCCGGCGTGGAGTACATCGAGACCCGCTTCGAGTCGCTGATTGCCGCCGGCGCCGTCGCCGAAATCATCGCCGAATACTCCGCGGGAGCGGGCGCTGCCGACGGTCCTGCTCCCGACGGTCCTGCCGCAGAGGACACCACTATCGACGGCATCGTGGTCGCTGCCTTCGGGGACCCCGGCATGCCGGCCCTGAAGGAACTCGCCGACCTGCCGGTCATCGGCATCACCGAAGCGGCCCTCTGCGCGGCGGCCCTGCAGGGGCACCGTTTTTCCATCGTCGCCATCTCGGACCGCATCCGGCCCTGGTACCTGGACTGCGTGGAGCGCTTCGGCCTCACCGGCCGGCTGGCGTCCATTCGTTCCATCAACGAAGCGCTCAGCGCGATCAGTTCCATCCAGCAGGACTTCAGAGAAACACTGTTGACCCTCAGCCGGCAGGCCGTAACAGAGGACGGGGCCGACGTCGTCATCCTGGCAGGCGCGCCCCTCGCCGGGCTTGCCCGGGAACTTCGCGGCCAGATCCCGGTCCCGGTGGTGGACGGCATCTCGGCGGGCATCCGTATGGCCGAGGCCGTGGTGGGGATGCAGCCAGGAGCACAACGTGCCGGCGCCTTCAGCGCGCCGCCCGTCAAAGCCCGCAAGGGGCTCTCCGAAAACCTCGACGCCGCCCTCACCGCCGCGCAAACGGCGGCGCTTGCCGCCGCTCCCGCGGCTCCCGCCGGCTAG	MKLLVINPNISGDVTALIESEARRSAAENTELMMRTAGSGVEYIETRFESLIAAGAVAEIIAEYSAGAGAADGPAPDGPAAEDTTIDGIVVAAFGDPGMPALKELADLPVIGITEAALCAAALQGHRFSIVAISDRIRPWYLDCVERFGLTGRLASIRSINEALSAISSIQQDFRETLLTLSRQAVTEDGADVVILAGAPLAGLARELRGQIPVPVVDGISAGIRMAEAVVGMQPGAQRAGAFSAPPVKARKGLSENLDAALTAAQTAALAAAPAAPAG	PGPT0000895_133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000895-hpxA-K16841	NA	NA
D1-17_00107	714	rspR_1	COG1802	HTH-type transcriptional repressor RspR	ATGCCATACAAGAATCCGAAATGGAGCACCATGCTTGCCGCAGAAGAGACCCAGGACAAGGAACGCCCCCTCCGCGAGGCGGTCCGGGACACGCTCCGAAGCCGGATTTTTGAAGGGCATTACGCTCCCGGCACCCGGCTGGTGGAACGCGATCTGGCAGCGGAGTTCAACGTTTCGCGGCTCCCGGTCCGTGAGGCGCTGCGCATGCTGCGGCAGGAAGGCCTGATCAGCGACCGCGGCGCGCGCGGGGCCGAAGTCAGCACGCTCAGCCCCAAGGACGTTGAGGACCTGTTCGACGTCCGGCAGTCGCTCGAGGTGCTGGCCTGCAGGCTGGCCGCCGTCCGGGCGACCCCGGAGGACCTCGCCCACCTCAAAGGCCTGCTCGATGAGGCGGAGCATTGCCTCGCCAAGGGCGCCGTGATGGAAGCACACCGCGCCAACAGCGAATTCCACGATGCCATCACCGGCATCGCCGACAACAACTTCCTCAAATCCGCCCTTGAACCCCTGCAGGGACGCATGCACTGGCTGTTCCGCCACGTCAGCGACCTGCCGGAACTGATCCAGGAACACCGCGACCTCTACGACGCGATCGCCAGCGGCGACCCCGACCGTGCCGCCGCCCAGTCGGCCTCGCACATCGGCAAGTACCGCGAACAGTTCCCCGAAGACTTCCAGAAAACCGAACCAACGCTGCATCGGAAGAAAAAATGA	MPYKNPKWSTMLAAEETQDKERPLREAVRDTLRSRIFEGHYAPGTRLVERDLAAEFNVSRLPVREALRMLRQEGLISDRGARGAEVSTLSPKDVEDLFDVRQSLEVLACRLAAVRATPEDLAHLKGLLDEAEHCLAKGAVMEAHRANSEFHDAITGIADNNFLKSALEPLQGRMHWLFRHVSDLPELIQEHRDLYDAIASGDPDRAAAQSASHIGKYREQFPEDFQKTEPTLHRKKK				NA	NA	NA	NA	NA
D1-17_00108	1359	sauU_1		putative sulfoacetate transporter SauU	GTGTCCATCCCCAATACCAATGCAGTGACCGCAGAGGCTGAAGACGCTGAAGTCCCAGGCGGCAAAACCGGCAAGGACGGCGTGCAACGGCGCACCAACGTCCGGTGGAAGCTCTTTCTGCTGCTGCTCGTCCTGGTCGCCGTCAACTACATCGACCGCGGCTCCATATCTGTCGCACTGCCCATCATCCAAAAGGAGTTCAACCTGGCCCCCGAGCTCGTGGGCCTCCTGCTCTCCGCCTTCTTTTGGACCTACGCCCTCATGCAGATTCCCGTGGGCTGGCTGATCGACAGGTTCGGTCCGCGCAAGGTCATGACAGCTTCCTGCGTCGGCTGGGGCGCCGCCACTGCAGCCTCGGGCCTGGCCGGCGGATTCCTCAGCATGTTCATCGCCCGCCTGGGCATCGGGGTGACGGAAGCAGGCGTCATGCCCGCCGGCGGCAAGCTGAATGCCATCTGGATGCACAAGTCCGAACGCGGCCGCGGCGCCACCATTCTGGACGCCGGGGCTCCCCTTGGCGCCGGTCTTGGCGGCATCATCATCGCCGGCCTTATCGCCTCCACGGGCAGCTGGCGCTTGGCCTTCATCATCGCCGGTGCCGCCACCGTGCTCATGGGCCTGGCCGTCTGGTGGTACGTCCGCGACAACCCCCGCCAGCACCCCGGCGTCAATGCTGCGGAAGCCGAATACGTCGAAGCCTCCCATGCAGCCGAGGATGCCGAGGCCGAACTGGACGGCAGCAAGGGCAAGCGCGCGCTGCTTCCCTACCTGAAGTTCCGTTCCTTCTGGGCCATGTGCTTCGGCTGGCTGGGTTTCAACGGAGTCTTTTACGGACTGCTGACCTGGGGCCCGTTGTACCTCGCCCAGGACAAAGGCTTTGACCTGAAGACCATCGGCTGGTCCACCTTCGTGATCTTTGGCGCAGGCTTCGTCGGGGAAATCCTGGGCGGAACCATCGCCGACAAGTGGCGGGCTGCCGGAGCGTCAGCGAACCGCGTCATGCGCACGCTGCTGGGCATTTCCAGCGTCGTGGTGGTTGGCGGCCTCATAGGGGTGACCGTCATTGCCGACCCGATCACCGCCGTCGTACTTCTCTCCGTGGTGATGTTCTTCCTCCGGTGGGTAGGGCTCTTCTGGAGCATCCCCTCCATCCTTGGCGGCCGCACCAACGCGGGTGTCCTCGGCGGGGCCATGAACTTCAGCGGCAACATCTCCGGATTTGTCACGCCGATCGCCGTCGGCCTGATCGTCGGCGCCACGGGCTCCTACACCTGGGCCCTGCTCTACTTCGTGGGCTCCGCGATCATCATGGGCGCCTCCGTACTGACCTTGAACTACAACAAGCGGCTGCCTGTCTAA	MSIPNTNAVTAEAEDAEVPGGKTGKDGVQRRTNVRWKLFLLLLVLVAVNYIDRGSISVALPIIQKEFNLAPELVGLLLSAFFWTYALMQIPVGWLIDRFGPRKVMTASCVGWGAATAASGLAGGFLSMFIARLGIGVTEAGVMPAGGKLNAIWMHKSERGRGATILDAGAPLGAGLGGIIIAGLIASTGSWRLAFIIAGAATVLMGLAVWWYVRDNPRQHPGVNAAEAEYVEASHAAEDAEAELDGSKGKRALLPYLKFRSFWAMCFGWLGFNGVFYGLLTWGPLYLAQDKGFDLKTIGWSTFVIFGAGFVGEILGGTIADKWRAAGASANRVMRTLLGISSVVVVGGLIGVTVIADPITAVVLLSVVMFFLRWVGLFWSIPSILGGRTNAGVLGGAMNFSGNISGFVTPIAVGLIVGATGSYTWALLYFVGSAIIMGASVLTLNYNKRLPV	PGPT0002190_134	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
D1-17_00109	996			hypothetical protein	ATGAAGCCTAAAGCGCCCCTCCCTGCCGTGGCTGACTTGAGCTGCGAAGTCTGCGGCCAGATGCCCGAACCTCCCAAGAGCCGCCTCACCGCAGCCAACGTGGCCGTCATGCTTCCCATCGAACTGCTCGTGCACGCACTCGTGGTGCAGACGGATTTACCCTACGTGGCCAAGGTCCTGGTCCTGACACTGACCGCCACCGTACTGGTGATCTGGGTGGCAGAACCGTCAGCGGCGCGCATCCTGCGGCGCTGGATCCATGCGCCGGCACTCCGGCACCGGCGCCGGCTCGGCAACGCGCCCGCCCTCTGGAGGGCACGGACCATTCTGCGGGATCAGCCCGGCTCCCTGAAGAGAATCACCCGATCGCTGTCCTTGCTGGACACCAACATCCTCAGCATCCACGTCCATCCGATCCGCGGCGGCGTCCTGGATGAGTTCGTGCTGGCCGCACCGGGCGAACTCAGCGAGCGCCAGCTCCTGGAGGCGCTGAGGGACGGAGGCGGCAGGCAGCCGCAGGTATGGCCCACCACTGCCCTTGCGATGGCCGACGGCCAGACCAGGGCGCTTAGCCTCGCCGCCCGCATCGCCGCGGCTCCGGAGGAACTGCCGCTGGCTGTTGCTGAGCTGCTGTCCGCCCGGATCCTCGACCCGGCCTCCGAAACGGCCCGGATTCCCGGTGAGACGAACGACGCCGGGACGCTCCTTAAGATTCCCAGCGCATGGCACGGACCCATCACCTTCTACCGCCCCGGGGAGCCGTTCACGCCGGCAGAGTCCGCGAGAGCGCACAGGCTCGCGGAACTCGCGGAGATCACCGCCATCAGCATGGCTGCCGGCCGCGGGCTCCAGGACGGGCTCACGCCGCGGGCGGACGCGCAGGCTAATGGGCCGGAGGCTAATGGGCCGGAGGCTAATGGGCCGGAGGCTAATGGGCCGGAGGCTGATGCGTCGCGGGCTGCCTCGCAGCATCGGGCAAGGCCCGCACGCCGGTAG	MKPKAPLPAVADLSCEVCGQMPEPPKSRLTAANVAVMLPIELLVHALVVQTDLPYVAKVLVLTLTATVLVIWVAEPSAARILRRWIHAPALRHRRRLGNAPALWRARTILRDQPGSLKRITRSLSLLDTNILSIHVHPIRGGVLDEFVLAAPGELSERQLLEALRDGGGRQPQVWPTTALAMADGQTRALSLAARIAAAPEELPLAVAELLSARILDPASETARIPGETNDAGTLLKIPSAWHGPITFYRPGEPFTPAESARAHRLAELAEITAISMAAGRGLQDGLTPRADAQANGPEANGPEANGPEANGPEADASRAASQHRARPARR				NA	NA	NA	NA	NA
D1-17_00110	966			hypothetical protein	ATGCGCCTCAGTACAAAAAATCCAGGTTCCGCACGCCGTCGTGCCGCCGCCGGACTGGTCGCCGTCGCGGCGCTCCTTGTCCCGGCACTGCCGGCACTGCCGGCGTCAGCCGGTGAGGACCACGCAAGGGACAGGCACGCGGTCATTGTCCTTCCGGGCGCCAAGGGCGCGGAAGGCATCGCCGCCGGTGAAGGCAGCACCTTCTTCGCGGGCGACCTGGCAACAGGGGACATCTTCCGCGGTGACATCCGCAAGGGATCAGCCAAGAAGTTCATCGACGCGCCTGCCGGCAGGATGGCCGTGGGCATGAAGGCCGACAACCGCAATGATCTCCTCTTCGTGGCCGGGGGTCCTGCAGGCAAGGCTTATGTCTACGACACCGACGACCGCAAGACCATCAAAACCATCCAACTGACCACCAAGGCATCGTTCATCAACGACGTCGCCCTCACCGACCGCGGCGCCTGGTTCACCAATTCGCGGCAGGCTGAGCTCTACTTCGTACCCGTGGACGAGGACGGTGACCTAGGCAAGGTCCGCACCCTGCAGCTGAAGGGCCCCGCAGCTGACGCAGGGGATCAGTTCAACCTGAACGGGATCGCCAGCGCCCGGAACCACCGCACCCTCGTGGTGGCGCATTCCGGCAACCAGGCCCTCTACACCGTCAACCCCAGGACCGGCGACAGTGCCCGAATCGCGGGGGTGACCCTTCCGAACGTCGACGGCATCGTGGTAAAGGGCGATACCGTTTGGGCGGTCCAGAACTTCCTCAACCAGATCAGCCGCCTCCACGTTGATTTCCGGGATTCTTCGGGAACGGTACGGGAAGTCCTCAGGAGCAGGAACTTCAACATTCCGACGACGGCGGCCCTGTTCGGGGAGAAGCTCGCCGCGGTGAACGCCAAGTTCGGGGTCACCAACCCAAAGACGTTCGACGTGGTGGTGCTTAAGGCGCGCACCCGCTGA	MRLSTKNPGSARRRAAAGLVAVAALLVPALPALPASAGEDHARDRHAVIVLPGAKGAEGIAAGEGSTFFAGDLATGDIFRGDIRKGSAKKFIDAPAGRMAVGMKADNRNDLLFVAGGPAGKAYVYDTDDRKTIKTIQLTTKASFINDVALTDRGAWFTNSRQAELYFVPVDEDGDLGKVRTLQLKGPAADAGDQFNLNGIASARNHRTLVVAHSGNQALYTVNPRTGDSARIAGVTLPNVDGIVVKGDTVWAVQNFLNQISRLHVDFRDSSGTVREVLRSRNFNIPTTAALFGEKLAAVNAKFGVTNPKTFDVVVLKARTR				NA	NA	NA	NA	NA
D1-17_00111	1365	genK_1	COG0477	Gentisate transporter	ATGACTACGCTCCCGGCCACCCGTCGTTCACAATGGCCCGTTTGGCTTTGCTGGCTCGCCATGGTGCTGGACGGATTCGACCTGGTGGTGCTTGGCACCGTAATTCCAACTCTAATCAAGACCCAGGATCTCGGGTTCGACGCTGTCGGAGCCACCTATGCCGCCACCATTTCGCTGGTCGGCGTAGGCATCGGCGCGCTGTTCATCGCACCGCTCTCCGACCGCTTCGGACGCCGCCGCCTGCTCGTGGCCTGCGTGGCATGGTTCTCCCTCTTCACCCTCGCTGTGGTGTTTGCCCCCAATGTGGCCGTGTTTGGCATCTTCCGGCTTCTCGCCGGCGTGGGCCTGGGGGCCTGCCTGCCCGCCGCACTGGCCTACATGAATGACTACGCACCCGCCGGCACCGCAGGAAAATCCACCACACGGACAATGACCGGGTACCACGTGGGCGCCGTCGCCACCGCGTTCCTCGCGATCCTTGTGGTCCCGGACTGGCGCATCATGTTCGTGGTCGGCGGCGTGGCCGGCTTCGTGCTCGTGCCGTTCCTGTGGTTCCGGCTCCCGGAAACCCTGCCCCCTGTCCACGCGGAACACGGCAAGGACACCAGGGACACAACGGCTCCACCGGCACCTGCACCAGCTTCGGTCCACGCTGCGCGGACACACCGCCCGATTGCCGTCCCGGCAGCCGAGCCGGAAGCCTCGCCCGCGTCACTCGTGCCGGCTGACGCCTCCGGAGAACGCGCCAGCTTCCGTGACCTCACGAAAAAGCCCTACCCGCTGGTGGCGCTGGGCATTGCCGTGGCATCCTTCATGGGCCTCCTGCTCGTATACGGCCTCAACACCTGGCTGCCGCAGCTCATGTCCTCAGCCGGCTACACCGTGAGCACCGGCCTGGTCCTCCTGCTCGTACTCAACGTGGGCGCCGTCGTAGGCCTGATCATCGCCGGCATCCTGGCTGACAAGCACGGGACGAAGAAGATCGTGCTGCTGTGGTTCGGCCTCTCCGCCGTGTTCCTCGCCGTGCTCAGCGTCAAGATCCAGAACGAATTCCTGCTCAACGCCGCCGTCTTCGTCACCGGCGTCTTCGTCTTCAGCTCCCAGGTCCTGGTCTACGCCTGGGTCAGCCAACTCTTTCCGGCCCGGCTACGCGCAACCGCGCTCGGCTTCGCAGCCGGCGTCGGCCGCCTGGGGGCCATCATGGGCCCGGCCGTCACCGGATCCCTCGTGGCCGCCGGCATCGCCTACCCTTGGGGCTTCTACGTCTTCGGCGCCGCTGCCCTGCTTGCCGTCATTGCCCTGGCGACCGTCCCCCACACCATCGCCCCGGCACCCAACCAGGCACCCGCCGTCGGGCACTCCTGA	MTTLPATRRSQWPVWLCWLAMVLDGFDLVVLGTVIPTLIKTQDLGFDAVGATYAATISLVGVGIGALFIAPLSDRFGRRRLLVACVAWFSLFTLAVVFAPNVAVFGIFRLLAGVGLGACLPAALAYMNDYAPAGTAGKSTTRTMTGYHVGAVATAFLAILVVPDWRIMFVVGGVAGFVLVPFLWFRLPETLPPVHAEHGKDTRDTTAPPAPAPASVHAARTHRPIAVPAAEPEASPASLVPADASGERASFRDLTKKPYPLVALGIAVASFMGLLLVYGLNTWLPQLMSSAGYTVSTGLVLLLVLNVGAVVGLIIAGILADKHGTKKIVLLWFGLSAVFLAVLSVKIQNEFLLNAAVFVTGVFVFSSQVLVYAWVSQLFPARLRATALGFAAGVGRLGAIMGPAVTGSLVAAGIAYPWGFYVFGAAALLAVIALATVPHTIAPAPNQAPAVGHS	PGPT0005390_742	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005390-benK-K05548	NA	NA
D1-17_00112	783	xynR_1	COG1414	HTH-type transcriptional regulator XynR	GTGGCCAATTCCGTCTCCGGCGACTCTGTGGTGGACCGCGTGGTGCGCGTCATCGCCGCTTTTCCTGAAGGGGTTTCTGTTCTGCAGCTCTCCGAACTTGCCGTCCGCGCGCAGCTTCCGCTGACCACCGCGCATCGGCTGGTCCGGCAGCTGGCGGGGCACGGGCTCCTGGAAACGACTCCCGGTGGTTCCGTTCGGCTGGGCCTGCGGCTGTGGGAAATCGTGAACCGCAATTCACCGACGCTCGCTCTGCGGCAGGCCGCGATGCCGTTCATGGAGGACATCCAGCACGTCCTTAATCAGAACGTGAACCTCGCGGTGCTCGACGGTTGGGAGGCCCTCTTCGTGGAGCGGCTCTCCCGCCGCGGTTCCGTCGCCAACCGCGCGCAGATCGCCGGGCGCCTCGCGGTGCACGTCTCCTCTGCCGGCCTGGCACTGATGTCCCACCAGCCGCCGTCCGTGCAGGCCGGGTACCTTGGGCAGTTCAAGGATCCGGCCGGAAAGGTGACTGTGGAGAACCTCCGCGCGCTGCTCGCCGAAGCGCACCACGTGGGCTACGCCCAGCTCGCAGGCGTGATCGACCCCGACACCTGGGGTATTGCTGTTCCCGTGCTGGACGGCAAGAAGCGCTCGGTGGCCGCCCTCGGCGTCGTCGTTCCGCTGAAGGAGGAGGTGCGCCTGCAGGCCCTGGTGCCGGCGCTGCAGACGGCAGCCAGGGGCATCGCACGGCGCCTGGGCGACGTCGAATCTGGAACCGAGTTCCGTTCAATGGAATCGGCGTAA	MANSVSGDSVVDRVVRVIAAFPEGVSVLQLSELAVRAQLPLTTAHRLVRQLAGHGLLETTPGGSVRLGLRLWEIVNRNSPTLALRQAAMPFMEDIQHVLNQNVNLAVLDGWEALFVERLSRRGSVANRAQIAGRLAVHVSSAGLALMSHQPPSVQAGYLGQFKDPAGKVTVENLRALLAEAHHVGYAQLAGVIDPDTWGIAVPVLDGKKRSVAALGVVVPLKEEVRLQALVPALQTAARGIARRLGDVESGTEFRSMESA				NA	NA	NA	NA	NA
D1-17_00113	1188	praI_1		4-hydroxybenzoate 3-monooxygenase (NAD(P)H)	GTGGCAGCACGCAAGATCATTAAAACCCAGGTCGCCATCATGGGCGCCGGCCCGGCCGGCCTCATGCTCTCCCATCTGCTGGCAAAGGCGGGCATCGAATCCACCGTCATCGAGATCCGCAGCCGCCAGGAGATCTCCGAGACCGTGCGCGCGGGCATCCTCGAGCATGGAACCGTGAACATGCTGGTGAACAGAGGCGTCTCAGACCGGGTGCTGCGCGAAGGCGACCGGCACGACGGCATCGAACTGCGCTTCAACGGCGAAAGCCACCGCATCGACTTCAAGGAACTGGTGGGGGAGTCGGTCTGGCTCTACCCGCAGACCGACGTCTTCATGGACCTCGCCGCACGGCGTGAGGCCGACGGCGGCGACGTCCGGTACAGCGTCACGGACACCAGCGTGCACGACCTGGAAGGCTCCCCCAAGGTCTGGTTCACCGATGCCGATGGCATCGACTGCGAACTGCAGGCCGATTTCATTGCCGGCGCGGATGGCTCCCGCAGCCACTGCCGCCTCCAGATCCCCGAGGCCCACCGCAAGTGGTACTTCCACGAATACCCGTTTGCCTGGTTCGGCATCCTGGCAGAAGCGCCCCGCAGCGCCGACGAACTCATCTACGCCAACTCCGAGAACGGCTTCGCGCTGATCAGCCAGCGCACCGAGACCGTGCAGCGGATGTACTTCCAGTGTGACCCGAACGAGGACGTGAACGACTGGAGCGAGGAACGCATCTGGGAGGCGTTCCGGAGCCGGGTCAACGGCAACGGCTTCGAGCTGAAAGAGGGACCGGTCATCGACAAGATGGTCCTGAAGTTCCGCAGCTTCGTGCACACTCCCATGCGGCACGGGAAGCTGTTCCTGGCAGGGGACGCCGCGCACACCGTCCCGCCGACCGGCGCCAAGGGCCTGAACCTGGCCATCCACGACGTCAAGGTGCTCTTCGAAGGCCTGGACAGCTACTACAGCACCGGCGCCACGGCTCTCCTGGATTCCTACAGCGACCGCGCCCTGGAGCGCGTGTGGAAAGCACAACAGTTTTCCTACTGGATGACCTCCATGCTGCACACCCCCGCCGACGCCGACGACTTCTCCCGGGCACGCCAGCTCGGCGAGCTCAACTCCGTGGTCTCATCACGTCACGGCCAGGCCTACCTCGCCGAAGCCTACACCGGCTGGCCGTCTGCCTAG	MAARKIIKTQVAIMGAGPAGLMLSHLLAKAGIESTVIEIRSRQEISETVRAGILEHGTVNMLVNRGVSDRVLREGDRHDGIELRFNGESHRIDFKELVGESVWLYPQTDVFMDLAARREADGGDVRYSVTDTSVHDLEGSPKVWFTDADGIDCELQADFIAGADGSRSHCRLQIPEAHRKWYFHEYPFAWFGILAEAPRSADELIYANSENGFALISQRTETVQRMYFQCDPNEDVNDWSEERIWEAFRSRVNGNGFELKEGPVIDKMVLKFRSFVHTPMRHGKLFLAGDAAHTVPPTGAKGLNLAIHDVKVLFEGLDSYYSTGATALLDSYSDRALERVWKAQQFSYWMTSMLHTPADADDFSRARQLGELNSVVSSRHGQAYLAEAYTGWPSA	PGPT0005065_349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005065-pobA-K00481	NA	NA
D1-17_00114	252			hypothetical protein	ATGGAGGCCATAAGCATCATTGGTGGCGGCGTGGCCGGTCTCGCATTCGCGGCGGGCCTTGATCCGGAGCGCTTCGATGTCACCCTGTACGAGCAGCGTCCCGGGCTGCCGCTGGTGGAGGCGTCGCTTGCCATGTGGCCGGACGCACACGCTGCCTTGGCAGTGCTCGGGATCCTGCCGGATATCCGGCGGGCCGGTGCCGGCTTTGGCGGCATGGTCCTGCGGGAACCTGCCCGAGAGTGCGGGCAATGA	MEAISIIGGGVAGLAFAAGLDPERFDVTLYEQRPGLPLVEASLAMWPDAHAALAVLGILPDIRRAGAGFGGMVLREPARECGQ				NA	NA	NA	NA	NA
D1-17_00115	528			hypothetical protein	GTGCCGGCTTTGGCGGCATGGTCCTGCGGGAACCTGCCCGAGAGTGCGGGCAATGACGAAGGCGGCGAGTACTGGGGCCGCGGGGCGCTCTTCGGAATCGCCCCGGCGTCGGGCGGCCGTACCTACTGGTACGCGTCATTCCGCTCAGAGGAGGGCCCCGTCCGCCTGGACGTAGCCGAGGCTATGCGGCAGACACGTAAGCGCTTCGCCGGCGGCGCTCCTGCCATCCTGCGTGTGCTGGAAGCCGCCACACCCGAGACGTCCCTGGCCCAACGCATTTGGACGGTGCCCATGCTCACAAGCTACGTCCGGCCGGGAGCCGTGCTCGTGGGAGACGCCGCGCACGGCATGACGCCGAACCTAGGCCGGGGTGCCTGGGAGGCACTCGTGGACGCTGTCACGCTCGCCGAGCTGCTGAACACGCAGTCCCGCTCCGGCGGCGCTCAGGGCCTACGACAGCCAGCGCGTCGCCCGGACACAGCTTCTCCGCCTGGCCTCCTCGGGCATGACACGCCTTGCGCTCGCTGA	MPALAAWSCGNLPESAGNDEGGEYWGRGALFGIAPASGGRTYWYASFRSEEGPVRLDVAEAMRQTRKRFAGGAPAILRVLEAATPETSLAQRIWTVPMLTSYVRPGAVLVGDAAHGMTPNLGRGAWEALVDAVTLAELLNTQSRSGGAQGLRQPARRPDTASPPGLLGHDTPCAR				NA	NA	NA	NA	NA
D1-17_00116	435			hypothetical protein	ATGGCAACCGCAGACATTACCTTCCGCACCCGCAAATGGGTGCGCCCTGAAGACCTCAACGCGAACGGCACACTCTTCGGAGGGAGCCTGCTGAAGTGGATTGACGAGGAAGCCGCCATCTACGCCATCCTCCAGCTGGGCAACGGCCGGGCTGTCACCAAGTACATCTCCGAAATCAACTTTGTTAGCTCGGCGGTCCAGGGCGATCTGATCGAAATGGGTTTGACGGCCACCCGTTTCGGACGCACGTCGCTGACCATGAGGGCCGAAGTGCGGAACATGATCACGCGCCAGAGCATCCTCACCATCGAGGAGATTGTGTTCGTGAACCTGAGCCCCGGCGGCAAGCCGGAGCCGCACGGCTACACCGAAATCACCTACGACCGCGACCGCATCCCCACCCACCATCTGACGGAAACGGTTCCGCAGAACTGA	MATADITFRTRKWVRPEDLNANGTLFGGSLLKWIDEEAAIYAILQLGNGRAVTKYISEINFVSSAVQGDLIEMGLTATRFGRTSLTMRAEVRNMITRQSILTIEEIVFVNLSPGGKPEPHGYTEITYDRDRIPTHHLTETVPQN	PGPT0001830_10	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001830-yciA-K10806	NA	NA
D1-17_00117	504			hypothetical protein	ATGCAGACCAATCCCAGGCTCAACATCCGGAAAGTCAGCTGGTCCAATCCCGTGGGGGCCGACCTGCGCGCTGCACAGCAGGCGGAACTCGACGCCCGCTTCGGCTGCGCCGACCACGAGCCCGGGCCCAAACCCTCGGAAGTGGATACCGCCGTCTTCCTGGTCGCCTACGACAAGGGGTCGGGCCAGCCCGTTGGCTGCGGAGGGCTCCGCCTGCTCGACTCCACCACCGCCGAGATCAAGAGGCTCTACGTCCTCCCTTACACCCGGGGCTCCGGGATTGCCAGCTCCGTTCTTGCGGCCCTTGAGGCAGAGGCGCATGCGCTGGGCATCACCCGGATGACGGCAGAAGCAGGCTCGGCCCAGCCCGACGGCCGGAACTTCTACCAGAACGCTGGCTTCGAACCGGTGCCCAACTTCGGTCCCTACGTCGGCGTCGAGCACTCGTACTGCTATGCCAAGCCCATCAACGCCCGCAGTGCGGCCCACACCGCCATGGCCTAG	MQTNPRLNIRKVSWSNPVGADLRAAQQAELDARFGCADHEPGPKPSEVDTAVFLVAYDKGSGQPVGCGGLRLLDSTTAEIKRLYVLPYTRGSGIASSVLAALEAEAHALGITRMTAEAGSAQPDGRNFYQNAGFEPVPNFGPYVGVEHSYCYAKPINARSAAHTAMA	PGPT0007180_327	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007180-iaaT|yedL|ysnE-K03829	NA	NA
D1-17_00118	675		COG0406	PE-PGRS family protein PE_PGRS11	ATGCGGCTGCTGCTCATCCGCCACGGTGAAACTCCCGGCAACGTGCTGGGACAGCTGGACACAGCCCACCCCGGCCCCGGCCTGACCAGGTTGGGGGAGCGCCAGGCTGAAGCCCTTCCCCGGGCACTGGTAAACGAGCCCATCGGCGCGTTGTACGCGTCGACACTTGTCCGCACCCAGATCACTGCCCGCCCCCTGAGCCGGGAGCTCGGGCTGGACGTCCAGGTCCTGGACGGCATTCATGAAATCGAGGCCGGCGCCTTGGAAAAGCTCACCGACCACGAGTCCCACCGCCGGTACATGAGCACCGTCTTCGCATGGGCTGACGGTGACTTTGACCGCCGGATGCCTGCCGGGCCGAACGGGTATGAGTTCTTCGAACGCTACGATGCCGCCATTGCCAAAGTGGCAGCCGAGGCTGCGGGAGCTCCGGACTCAGCCGCTGTTGCCGTCGTGAGCCACGGCGCCGCCATTCGTACCTGGGCAGGGCGCAGGGCGGGCAACATCGACATGGAATTCGCAGCCCGGCACGTGCTCGCGAACACCGGCATCGTGGCGCTGGATGGCGATCCCGACGCCGGCTGGAACCTGATCCACTGGGACGCCAGCCCGGTGGGCGGCCTGGCTTTGGCTGATCCCGCGGCCGAAGACCCGATGGGGAAGACCACCGGGTGA	MRLLLIRHGETPGNVLGQLDTAHPGPGLTRLGERQAEALPRALVNEPIGALYASTLVRTQITARPLSRELGLDVQVLDGIHEIEAGALEKLTDHESHRRYMSTVFAWADGDFDRRMPAGPNGYEFFERYDAAIAKVAAEAAGAPDSAAVAVVSHGAAIRTWAGRRAGNIDMEFAARHVLANTGIVALDGDPDAGWNLIHWDASPVGGLALADPAAEDPMGKTTG				NA	NA	NA	NA	NA
D1-17_00119	1443	purB	COG0015	Adenylosuccinate lyase	ATGCCTGAAACTGCCGCCACAGCTGACACCCGTACGCCTTCCGGACGCCTGGCCCTCGCCGCCTCCGAGGAACACATTGCGCTCGGCCCGCTGGACGGCCGCTACCAGTCCGCCGTCGCTCCCCTCGTCGACTACCTGTCCGAGGCGGCTCTCAACCGGGACCGCGTCGCTGTCGAAGTGGAGTGGCTTATCCACCTGACCAGCAACAACGTCCTGCCGGGGGCCGGTCCGCTGACAGAGGAGCAGCAGCAGCAGCTGCGCGCCATCGTCACCGAATTCGACGCCCGCTCCGTGGCCGAACTGGCCGAAATCGAGGCCGTCACGGTGCACGACGTCAAGGCCGTCGAGTACTACATCGGCCGCCGCCTGCCCGCGGTCGGCATCGAGAACCTCACCGCGATGGTGCACTTCGGCTGCACGTCGGAGGACATCAACAACCTCTCCTACGCCCTCGGCGTGAAGGGCGCTGTGGAGGACGTGTGGCTGCCCGCCGCGCGTGCCCTTGTGGCCCAGATCAGCAAGATGGCCGAGGACAACCGCTCGGTACCGATGCTGTCCCGCACCCATGGCCAGCCGGCAACGCCAACAACACTGGGCAAGGAACTCGCCGTCATCGCGCACCGCCTGGGCCGCCAGCTGGACCGGATCGCTAAGACGGAGTATCTCGGCAAGATCAACGGCGCCACGGGCACTTACGCTGCGCACGTGGCTTCCGTCCCGGGCGCGGACTGGCAGCAGGTTGCCAGGTCCTTCGTGGAGAACCTGGGCCTGACGTGGAACCCGCTCACCACGCAGATTGAAAGCCACGACTGGCAGGCCGAGCTGTACGCCGACGTCGCCCGCTTCAACCGGATCCTGCACAACGTCTGCACGGACATCTGGAGCTACATCTCGATCGGCTACTTCGCGCAGGTTCCCGTTGCAGGCGCCACCGGCTCCTCAACAATGCCGCACAAGGTCAACCCGATCCGCTTCGAAAACGCCGAGGCCAACCTCGAGATCTCCTGCGCACTGCTGGACGTGCTGGGTTCCACGCTCGTAACCTCCCGCTGGCAGCGGGACCTCACGGACTCCTCCAGCCAACGCAATATCGGCGTGGCTTTCGGCCACTCCCTGCTGGCCATCTCCAACGTAGCCAAGGGCCTGGAGCGCCTCGACGTCGCGGAAAGCGTGCTCGCCGAAGACCTTGACACCAACTGGGAGGTCCTGGGGGAGGCCATCCAGATGGTCATGCGCGCAGAGGCCATCGCCGGCGTCGCGGGCATGGAAAACCCGTACGAGCGCCTCAAGGACCTCACTCGCGGGCAGCGCGTGGACGCCGCCCGCATGCAGGAGTTCGTCCAGAGCCTGGGCCTGTCCCCGGAAGCCGAGGCGCGGCTGCTTGCCCTCACGCCGGGCAAGTACACGGGCATTGCCGACCAGCTGGTGGACCATCTGAAGTAA	MPETAATADTRTPSGRLALAASEEHIALGPLDGRYQSAVAPLVDYLSEAALNRDRVAVEVEWLIHLTSNNVLPGAGPLTEEQQQQLRAIVTEFDARSVAELAEIEAVTVHDVKAVEYYIGRRLPAVGIENLTAMVHFGCTSEDINNLSYALGVKGAVEDVWLPAARALVAQISKMAEDNRSVPMLSRTHGQPATPTTLGKELAVIAHRLGRQLDRIAKTEYLGKINGATGTYAAHVASVPGADWQQVARSFVENLGLTWNPLTTQIESHDWQAELYADVARFNRILHNVCTDIWSYISIGYFAQVPVAGATGSSTMPHKVNPIRFENAEANLEISCALLDVLGSTLVTSRWQRDLTDSSSQRNIGVAFGHSLLAISNVAKGLERLDVAESVLAEDLDTNWEVLGEAIQMVMRAEAIAGVAGMENPYERLKDLTRGQRVDAARMQEFVQSLGLSPEAEARLLALTPGKYTGIADQLVDHLK	PGPT0021555_682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
D1-17_00120	306			hypothetical protein	ATGAGCACCAACATCACCGACGCGGATGCGGCCGCGTGCTCATCGCGGAGCTTTGAGGTACAGCTCCTGGCAGCGCAGGCCGAGACGTGCGTGGGGGAGGTCGACGCAGTCCTGGCCAGACTTTCGCAGCTGCAACTGGCGGATTGGCAGTCCCCCGCAGGCGTGGCATACAGGATGAACATCGGGCTGCAAGCCGCCGCCTTGCGGAGGGCCAAGGAGCGAATGGAGATCGCGGCGCAAAGCATCCGCCAGCACGCCCGGAACGTGACGTTGTCCTCCCTCCCGACGAGGGCGGCGGACTACTGA	MSTNITDADAAACSSRSFEVQLLAAQAETCVGEVDAVLARLSQLQLADWQSPAGVAYRMNIGLQAAALRRAKERMEIAAQSIRQHARNVTLSSLPTRAADY				NA	NA	NA	NA	NA
D1-17_00121	1572			hypothetical protein	ATGCCCGAAGTGACGCCGTTGGGGAGCGGCGGTCCCCTTCGGCCGCAGGAGCCTGTGCAGGACGGACATCTGCTGGTTCGGGGCGGCGTAGCCGGCATCTCGTTCCAATTAGAGGAACTCGGCGCGGGAGCACGAGGGCTGGGTGGCCTGGCGCGGGACCTGGCAGCAGTGGAGGCGGCTGCCTACAGGATCTGGTCGGAGCTCGGGCAGTACCAAAACGATCCGCCGTCCAGCGGCGTCGAATCCGTCACGGCAATCTGGGAGGGGCGGCGCGCTGTCGCGGCTGTGCGGGCAGAACTGCAGGACATTGGAAGCCAGGTGCAGGCTTGTCTGCAGGAGTATGAGGAGGCTGAATACGAGGCCGCGTCCCAGTTGCGGCTCAGCACCGACTCATTGAAGCTCGTGCCCCCACAGCTGCAGGATGCGTTCCCCGGCGGAGCGGCCGACCCGCTCAGTCTGGATGTCGGCCGGTTGCTCAACAGGGACAGCTCCGAGGCGCTGACGGGCAGCTACCCGCTGATGCTGGTGGCCCTGACCGGAACGAATCCGATGTTGATGGGTGAGGCCCTCGCCATGGCTGCTGAGACCGGAATGAAAGGGACGGGTATCCCCATCGTGACCCGTGCGCTGGTCGAGGGAGTGAGGCCTGATCTCATGCCCCGCCCGGTTGCCGCCTTCCCCGGCACGAGCGCAGACGTCGATCTGGACGCCTCCCCCGCCGGGCTGCTCGCCCGTGCCCGCACGCTGGATGCAGGCAATCCTGGAACCATCGAAGTCATCAGGACGGCCGGTGGTGGGAGCGAAGCATTTATCGTGGTTGTCCCCGGAACGCAGCCCGGAAACACCGGCGGGCCCAACCCGTTTGACGAGGCCGGCATTGCAGAGGCGCTTGGATTCGGGTCCGAGCATACGAGTGCGGCTATCAGGTCCGCTTTGCGGCAGGCGGGGGCGGAGGCAGGCGCGCAGGTGGTGGCCGTTGGTTATAGCCAGGGCGGGATTCATGCGATGAACCTGAGCCAGGACAAGGCGTTCCTCACAGAGTACGACCTTAGATACGTGTTGACGGCGGGGTCCCCCGTGGGCGGCATTACCCCAGCACCGGGAATTACCAGCCTGCATCTGGAACACCGGCAGGACTGGGTGCCGGGCGCCGACGGAGCGCCGAATCCTGATACTCGGGACCGTGTCACCGTGACGCTCCAGGACCGTCTGCTGACGCCGCCCGGCGAGGATCCGGGGCTCGGGCCGGGCCATCGGCTCATCAATTATGAAGACGGAGCCCGCGCGGTCGCAGCCAGCAGCGATCCGTCCCTCATGGCATCCACAGCGGCTCTCGCTGCCGTCGTGGGGGCAGGGGGAGGGGCAACGGCAACACGCTTTCAGCTGGTCCGCACTCCGAAGACCCAGCATCCGTTCGCGGGGCAAATCCCTGCGATTGAACCGGGCATCCGCACCCTTGAAGGCAAATCATCGGAAGAAGGCAAGTCAACGGAAGGAAAGGTGGCGGCTGGGAAGACATCCGCGGAGAAGACACCGGGGGAAAAGGGATCAGCTGCCAGGCAGGGCCGGTAG	MPEVTPLGSGGPLRPQEPVQDGHLLVRGGVAGISFQLEELGAGARGLGGLARDLAAVEAAAYRIWSELGQYQNDPPSSGVESVTAIWEGRRAVAAVRAELQDIGSQVQACLQEYEEAEYEAASQLRLSTDSLKLVPPQLQDAFPGGAADPLSLDVGRLLNRDSSEALTGSYPLMLVALTGTNPMLMGEALAMAAETGMKGTGIPIVTRALVEGVRPDLMPRPVAAFPGTSADVDLDASPAGLLARARTLDAGNPGTIEVIRTAGGGSEAFIVVVPGTQPGNTGGPNPFDEAGIAEALGFGSEHTSAAIRSALRQAGAEAGAQVVAVGYSQGGIHAMNLSQDKAFLTEYDLRYVLTAGSPVGGITPAPGITSLHLEHRQDWVPGADGAPNPDTRDRVTVTLQDRLLTPPGEDPGLGPGHRLINYEDGARAVAASSDPSLMASTAALAAVVGAGGGATATRFQLVRTPKTQHPFAGQIPAIEPGIRTLEGKSSEEGKSTEGKVAAGKTSAEKTPGEKGSAARQGR				NA	NA	NA	NA	NA
D1-17_00122	429			hypothetical protein	ATGCGGTCTTTCATTGTGCGGGTGCTCATCAACGGACTGGCTCTCTGGATCGCCAGCTGGATTCTTCCCGGGCTGGACATCACCACGTCTGCGGCCACTGAAGCCATTGCGAAGACCGGAGTCACACAAGGAACGGACGCAGCGGGCATCGTCCTGGCATACCTGTTCGTCGGCCTGATCTTCGGCCTGGTCAATGCCTTCGTGCGCCCGATCGTCAGCTTCCTGTCGTTGCCCATCACCATCCTCACCTTGGGCCTGTTCACCATCGTCATCAACGCGGCCATGCTGTACCTGACGTCATGGATCAGCAGCCACACCCCGATCAACTTCACCATCGATTCCCTCTTCTGGACCGCGGTGCTGGCGGCCATCCTTATCACTCTCATTTCCCTTGTGGCCGACAGGATCCCCGGTGCACGCCACCGCTGA	MRSFIVRVLINGLALWIASWILPGLDITTSAATEAIAKTGVTQGTDAAGIVLAYLFVGLIFGLVNAFVRPIVSFLSLPITILTLGLFTIVINAAMLYLTSWISSHTPINFTIDSLFWTAVLAAILITLISLVADRIPGARHR				NA	NA	NA	NA	NA
D1-17_00123	1119	pat_1	COG0079	Putative phenylalanine aminotransferase	ATGACTTCATCAGAGACCATGGCGGGCGGCGTCAGGCCGCGGCCGGTCGTTGACCGGTTGCCCCGCTACGCCGCGGGCAGGCCCCCCGTCGCCGTTGAGGGCCTGGCGAGCTATAAGCTGTCCTCGAATGAAAACCCGCTCCCGCCGATCCCGGCGGTGGCCCAGGCAATCGCCTCGCAAACGGACTTCAACCGCTACCCCGATCCGCTAAGCACCAAGCTCCGGACCGCTCTGGCCGGCTTCCTGGATGTGCCCGCTGAGGACATCGTCACCGGCGCCGGCAGCCTCGGGGCGCTCAACCAGCTCCTGGCCGCCTTCGCAGGACAGAACGAGGACGGGAAGGCCGACGAAGTCATCTATGGCTGGCGGTCCTTCGAGGCATATCCCATCTCCGTAGGCCTCGCCGGGGCCCACAGCGTTCAGATCCCCCTGACCTCCGATGGCAGGCATGATCTTGACGCCATGGCGGCGGCCGTCACGGTGCGCACCAAGGTGATTCTCCTGTGCACCCCGAACAACCCCACGGGCCCCATCCTGACAACCGAGGAGACCGAGCGGTTCATCAACGCAGTTCCATCCGACGTCGTGGTGGTCATCGACGAGGCGTACCAGGAGTTCGTGCGTGCAGACGATGCAGTCGACGGCATCCGGATGTACCGGAAGTACCCGAATGTGGCGGTGCTCCGGACCTTCTCCAAAGCCCATGGGCTGGCGGGCCTTCGCGTTGGTTACAGCATCTCCCAGCCCGGGCTAACCCAGCACCTTCGGGTCGCCGCCACCCCCTTCGCCGTGTCGCAAATTGCCGAGCAGGCTGCTGTCGTGTCGCTCGAGCATTTCGACCAGGTTGTAGAAAGGGTACAAAGCCTGGTGGACGAGCGGGAGCGCGTAACGGCAGGTCTGCGCGACCTGGGCTGGTTCGTTCCGGAGGCGCAGGGGAACTTCGTCTGGCTGGGTCTCGGTGCGAACAGTGCCGAATTCGCCGAGTTGGCTGGGGAACGGGCGCTGTCGGTCCGTGCCTTTGGGGATGAGGGCGTGCGGGTCAGTATCGGTGAGCCCGAGGCGAACGCCCGATTCCTTGAGCTCTGTGCGGTCTATACAAAACCGGCACGGCGTTCCTAG	MTSSETMAGGVRPRPVVDRLPRYAAGRPPVAVEGLASYKLSSNENPLPPIPAVAQAIASQTDFNRYPDPLSTKLRTALAGFLDVPAEDIVTGAGSLGALNQLLAAFAGQNEDGKADEVIYGWRSFEAYPISVGLAGAHSVQIPLTSDGRHDLDAMAAAVTVRTKVILLCTPNNPTGPILTTEETERFINAVPSDVVVVIDEAYQEFVRADDAVDGIRMYRKYPNVAVLRTFSKAHGLAGLRVGYSISQPGLTQHLRVAATPFAVSQIAEQAAVVSLEHFDQVVERVQSLVDERERVTAGLRDLGWFVPEAQGNFVWLGLGANSAEFAELAGERALSVRAFGDEGVRVSIGEPEANARFLELCAVYTKPARRS	PGPT0020305_605	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-17_00124	1254	bkdA_1	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	ATGGGCGCAACACATCTGCCCACCACCGAGTTCGAAGGAACCGGGGTGGACGACCAGCTAGAGGCCGAGGCCGAGGCTGCCCTGGGAGAACCCCCGGCGGAGATGGTCCAGCTGCTTGGACCTGACGGAAAGCTCAGCAGCGACACGGTGTTCTCTGAATACGCCGACCGCCTGGACGCGGAAACGCTGCGGGGCTTTTATGCTGACATGGCAGCCATCCGGCGCTTCGACCAGGAGGCCACCGCCCTCCAGCGGCAGGGCCAGCTGGCACTCTGGGTGCCTCTGACCGGACAGGAAGCCGCTCAGATAGGGTCCGGCAGGGCCAGCCAGCCGCAGGACTATATTTTTCCCACATACCGCGAACACGGTGTGGCCCTTACGCGGAACGTGGACCTGGCAGAGCTCCTCCGGCAGTTCCGCGGGATCTCCAACGGCGGCTGGAACCCGAAGGACACCAACTTCCACCTGTACACGCTGGTGCTCGCTGCCCAGACGCCGCACGCGGTGGGGTACGCCATGGGGATTCAGCGCGACCAGCGGCTGGCTGAGGCCCGGAGGGCCGCCGAGGGGTTCGAGGCCCAAGGAGTGGACGGGTCTGCCGAACCGAAAGCCGCCGTCATGGTCTACTTCGGTGACGGTGCCAGCTCCGAGGGCGACGTCCACGAATCGATGGTGTTTGCCTCCTCCTACAAGGCTCCGGTTGTCTTCTTCTGCCAGAACAACCACTGGGCCATCTCCGTGCCCACCACGGTGCAGACGCGGATTCCGCTGTCCAACCGCGCCAAGGGCTATGGCTTCCCCGGCATCCGGGTGGACGGCAACGACGTCATTGCCGTGCACGCTGTCACCGAATGGGCTCTCGAGCACGCCCGGCAGGGCAACGGCCCGGTGCTGATCGAGGCCTTCACCTACCGTGTGGGTGCGCACACCACCGCAGATGACCCCACGAAGTACCGTGAGTCGTCCGAGGAGGCGCTGTGGCGGACCAAGGATCCGCTGGAGCGGCTGGAGAAGTACCTCCGAGCAGAAAACATGGCCGACGATGCCTTCTTCAAGCAGGTGGCAGCTGACGGTGATGAACTGGCCGCCTACATCCGCAAATCCACCTACGATTCGGACACGCCGGACATCCGGACGGCCTTCGCCAACACCTACGTCGAGGCGCACCCGCTGGTAGCCGAGGAGCTGGCCTGGTTCGAGGAGTACAGCGCAGGATTTGCCGGCGAGGGGACTGCAGAAGGGGCTGGCCACTGA	MGATHLPTTEFEGTGVDDQLEAEAEAALGEPPAEMVQLLGPDGKLSSDTVFSEYADRLDAETLRGFYADMAAIRRFDQEATALQRQGQLALWVPLTGQEAAQIGSGRASQPQDYIFPTYREHGVALTRNVDLAELLRQFRGISNGGWNPKDTNFHLYTLVLAAQTPHAVGYAMGIQRDQRLAEARRAAEGFEAQGVDGSAEPKAAVMVYFGDGASSEGDVHESMVFASSYKAPVVFFCQNNHWAISVPTTVQTRIPLSNRAKGYGFPGIRVDGNDVIAVHAVTEWALEHARQGNGPVLIEAFTYRVGAHTTADDPTKYRESSEEALWRTKDPLERLEKYLRAENMADDAFFKQVAADGDELAAYIRKSTYDSDTPDIRTAFANTYVEAHPLVAEELAWFEEYSAGFAGEGTAEGAGH	PGPT0008861_1041	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-17_00125	981	bkdB_1	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	ATGACCACCATGACGATCGCAAAGGCCATCAACGAAGGCTTGCGCGCCACCCTCAGCAACAACCCCAAGACGCTGCTGATGGGCGAGGACATTGGGCCGCTTGGCGGCGTTTACCGAGTGACGGACGGATTGATCGCTGAGTTCGGCGAGGACCGCGTTGTGGACACACCGCTCGCCGAGTCTGGAATCATCGGTACGGCAATCGGCCTGGCGCTGCGTGGGTACCTGCCCGTGGCCGAGATTCAGTTCGACGGCTTCGTTTTCCCCGGCTTCAACCAGATCACCACGCAGCTAGCGAAGATGCATTCACGCAGCAACGGCAACCTTACGGTGCCCGTGGTCATCCGCATTCCTTACGGCGGCGGGATCGGATCCATTGAGCATCACTCGGAATCCCCGGAAGCGCTGTTCGCACACACCGCCGGCATCCGCATCATCACACCGTCCAACCCGCACGACGCCTACTGGATGATCCAGCAGGCGGTGACATGCCAGGATCCTGTGATCTTCTTCGAGCCCAAACGGCGCTACTGGCTCAAGGGCGAGGTGGACATCGAATCCGCCGGCCTGGCCGAGGACCCGTTCAAGGCGCACGTTGTTCGGGAAGGTACTGACGCCACAGTCGTGGTGTACGGGCCCCTGGTTCCTGTGGCCCTTGCGGCGGCAAACGCCGCTGAGGAGGACGGGCGCAGCATCGAGGTCATCGACCTGCGGTCCCTCTCGCCGATCGACTTCGACACCATCGAAGCATCCGTGAAGAAGACCGGCAGGCTGATCGTGTCACACGAGGCCCCGACGTTTGGCGGAATCGGCGGGGAAATCGCCGCCCGCATCAGTGAGCGCGCCTTCCACTCCCTCGAGGCCCCGGTCATCCGCGTGGGCGGCTTCCACATGCCCTACCCCGTGGCCAAGGTTGAAGAGGACTATCTGCCGGACATCGACCGCATCCTTGAGGCGCTGGACCGTGCCTTCAGTTACTGA	MTTMTIAKAINEGLRATLSNNPKTLLMGEDIGPLGGVYRVTDGLIAEFGEDRVVDTPLAESGIIGTAIGLALRGYLPVAEIQFDGFVFPGFNQITTQLAKMHSRSNGNLTVPVVIRIPYGGGIGSIEHHSESPEALFAHTAGIRIITPSNPHDAYWMIQQAVTCQDPVIFFEPKRRYWLKGEVDIESAGLAEDPFKAHVVREGTDATVVVYGPLVPVALAAANAAEEDGRSIEVIDLRSLSPIDFDTIEASVKKTGRLIVSHEAPTFGGIGGEIAARISERAFHSLEAPVIRVGGFHMPYPVAKVEEDYLPDIDRILEALDRAFSY	PGPT0008862_2150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
D1-17_00126	1518			hypothetical protein	ATGACTCTCAACAAGTTCAACCTCCCCGATGTGGGGGAAGGCCTGACCGAGGCCGAGATCGTTTCGTGGAAGGTCAAGCCGGGCGACTCCGTCGCCATCAACGATGTCCTCTGCGAGATCGAGACGGCCAAGTCCCTGGTGGAACTGCCGTCCCCGTTCGCCGGGACCGTCCGGGAACTGCTCGTACCCGAAGGAGTGACGGTCGACGTCGGTACTCCCATCGTGAGCGTTTCGGACGACGTTGCGGGTGATCCGACTCCGGCCGACGTCCCGCTGCCCCCTTTGCAGGAGGCTGAGCCCGAGCCGCTCATGTATGGGAAGCTGCACCAGCACGGCCACGAAACGCTGTCCGACGGCGGCGCTGCTGCCGGTGCGCCGCCGGGTGGCCCGCTGGTGGGTTCCGGCCCGAAGGCCGACGCCGTGAAGCGACGCCCGCGGAAGCCTTCCGCCCGGCCCGTTCCAGTGGCCGAGCCCGGCCTTCCGCCAAGACCATCCAGCGGTGGGGTTTCGGCGGACGGGGCCTCGGCTTCGACCAGCATAACCAACCCCGAGGTTGCAGCGGGCGCCATGAACGGTCCGACGGCGGAAAAACCCACCTTCGGGGGTGCCATCACCGGGCTGGTGAACAAGGTTCTCGCCAAGCCCCCGGTCCGCAAGATTGCACGGGACCTGGGGATTGACCTCGCGGACGTAATCCCCACTGGAGCCCGCGGCGAGGTGACGAGGGAGGACCTGGTCAGCTACCAGGCACAGCGGGACGCGGAACTGGACAAGGCGGACACGTTCTGGGGCAAGTCCGGCCGGCCGCAGGAACAGCGGATCGAACGGGTTCCGGTCAAGGGCGTCCGCAAGGCCACAGCGAAGGCGATGGTGGATTCAGCCTTCTCCGCCCCGCACGTCAGCATTTTCGTTGACGTGGATGCCAGCCGCACCATGGAATTCGTCAAGCGGCTCAAGGCCTCACGCGACTTCGAGGGGATCAGGGTCTCCCCGCTTCTGATCCTGGCCAAGGCAGTCATATGGGCTGCGGCGCGCAACCCCAGCGTCAACGCGACATGGGTGGACAGCCCGGACGGGTCCGCCGAGATCCAGGTCAAGCACTTCATGAACCTCGGCATCGCCGCGGCCACTCCGCGGGGCCTGATGGTTCCGAATATCAAGAACGCGCAGGACCTGTCCCTCAAGGAGCTGGCCCTGGCGCTGAACGACCTGGCCACCACGGCACGCGCCGGCAAGACGCAGCCCGCGCAGATGCAGGGAGGCACGTTGACCATCACGAACATAGGCGCCCTGGGCATTGATACGGGAACGCCCATCATCAACCCGGGCGAAGTGGCGATCGTGGCGTTCGGCACGATCAAGCAGAAGCCGTGGGTGTTGGACGGCGAGGTCATTCCGCGCTGGATCACCACGCTTGGGGGGTCGTTTGACCACCGGGTGGTGGACGGCGACCTGTCCGCCCGGTTCATGGCCGACGTTGCCGCCATCCTGGAAGAGCCCGCCCTGCTGCTGGACTGA	MTLNKFNLPDVGEGLTEAEIVSWKVKPGDSVAINDVLCEIETAKSLVELPSPFAGTVRELLVPEGVTVDVGTPIVSVSDDVAGDPTPADVPLPPLQEAEPEPLMYGKLHQHGHETLSDGGAAAGAPPGGPLVGSGPKADAVKRRPRKPSARPVPVAEPGLPPRPSSGGVSADGASASTSITNPEVAAGAMNGPTAEKPTFGGAITGLVNKVLAKPPVRKIARDLGIDLADVIPTGARGEVTREDLVSYQAQRDAELDKADTFWGKSGRPQEQRIERVPVKGVRKATAKAMVDSAFSAPHVSIFVDVDASRTMEFVKRLKASRDFEGIRVSPLLILAKAVIWAAARNPSVNATWVDSPDGSAEIQVKHFMNLGIAAATPRGLMVPNIKNAQDLSLKELALALNDLATTARAGKTQPAQMQGGTLTITNIGALGIDTGTPIINPGEVAIVAFGTIKQKPWVLDGEVIPRWITTLGGSFDHRVVDGDLSARFMADVAAILEEPALLLD				NA	NA	NA	NA	NA
D1-17_00127	339			hypothetical protein	ATGCTTACGCTTCAGCGACGCCAGCTTGTCGGCCACGACATTCTTCTTGCCCGCCACGGCAACCACATCTGCTCGATGCGGCTCGACCGCAGCGCCGGCCGGGTCATCGCGCTGCTGGACGATGGCTCGGTGGACAGCGCCCCGAACGTCATCTCCCCTGACCTGCAGCTTCCTGAGACCATCCAGAGCGTGATGCGGGAGGACTGGAAGTTCCTGGCCACCGTCACCGGCTCCGTGGCCGCCCTCGCCGGCCTCATGATCGCGGCCGCGTTCAGCCTCGCCGGCGTTTCGGCCGATCCCGCACTGGCCGAGCTGATGACCACATACCCGGCGTACTAG	MLTLQRRQLVGHDILLARHGNHICSMRLDRSAGRVIALLDDGSVDSAPNVISPDLQLPETIQSVMREDWKFLATVTGSVAALAGLMIAAAFSLAGVSADPALAELMTTYPAY				NA	NA	NA	NA	NA
D1-17_00128	432			hypothetical protein	ATGAGCGGAATCATTGTTGTAGGCGTGGACGCCAGCGGCACTGCACGCAAGGCGGCAGAGACCGCCCGGGACTTGGCGGTGGCGCTGGACGCGACCCTGCATGTGGTCTCGGCCTTCGACACCGACCGGACCGAAGTGTACGGCAGCGGCAGCGACAAATGGATCGTTTCCGATGCCGGAGAAGCGGAGAAGGTGGCCCGCGACATCGCTGCCAGCCTTGCGGTTGCCGGACTTCCTGTTACCTACTCGTCTGCGCGCGGCAAGCCTGCTGACGCCCTCGTCAGGGAAGCCGAACGGCTGGAGGCCCGCATGATCGTGGTGGGCAACCGCCGCATGCACGGCCTGGGCCGCGTACTGGGCAGCATCGCCAACAGCGTTGCCCACAGCGCCTCCTGTGACGTGTACATCGCCAACACATACGGCGCCGACTAA	MSGIIVVGVDASGTARKAAETARDLAVALDATLHVVSAFDTDRTEVYGSGSDKWIVSDAGEAEKVARDIAASLAVAGLPVTYSSARGKPADALVREAERLEARMIVVGNRRMHGLGRVLGSIANSVAHSASCDVYIANTYGAD				NA	NA	NA	NA	NA
D1-17_00129	1380	lysN_1	COG1167	2-aminoadipate transaminase	GTGGGTCCTCGTTCTTTGTCAACAGTCGTTGCCTGCGCGGCAACAGTTCGTTGTATCCTTGGCTTTGTGACCCACGAAACAATTGACGGCGCCGAAGCCGTCCTCCCTGCCGAAGCCATTGACGCGATCGAACGGGCGGCCACGTCGGCCCACCGCCACGAGCAGCTGTTTTCCGCGCGGGCGGCAAACATCAAGCAGTCGGCCGTCCGGGACGTCTTCGACATCTCGCTCCGGCCGGGGCTCGTCTCCCTGGCCGGCGGCAGCCCCTACCTGCAGTCGCTCCCGCTGGACCGGCTGGCCCGGACCGCTGCCGACATCATCGCCGCAGACGGGCTGACTGCCCTGCAGTACGGCGCAGGCCAGGGCAGGGAGGAACTCCGGGCCCAGATCTGCGAAGTGATGGCCGCCGAGGGCATTCTGGATGCCGTCCCCGAGAACGTGGTGATCACTGCGGGTTCGCAGTCAGCGCAGGACATTGCCACTAAAGTGTTCTGCAATCCGGGCGACGTCGTGCTCGTGGAGGAACCCACGTACGTCGGGGCCCTGAACACCTTCGAGTCGTACCAGGTGCAGGTCGAGGCCGTGGAAATGGACGACGACGGCCTGGTGCCTGAGCTTCTCGAGGCCCGGATTGCGTCGCTCCAGACCGTCGGAAAGAACATCAAATTCCTTTACACGATCCCCAACTTCAACAACCCCTCAGGCATCACCCTCGCGCAGGAACGCCGGCAACAGATTATGGACATCTGCCGCCGCGCCAACATCCTGGTGCTGGAAGACAACCCCTACGGCCTCCTGCGTTACGAGGGTCAGTCACTGGAACCACTGCGCGCACACAACCCGGACGACGTTATCTACATGGGATCGTTCTCCAAAATCTTCGCCCCGGGGCTGCGTATCGGCTGGGCACTGGTACCCGCGCATCTGCAGCGCCGGTACTACCTCGCGGCGGAGGCCGTGACGCTCTGCCCGCCCACCTTCAACCAGATGCTGGTCTCGGCCTACCTCCGGGAGTACGACTGGAAGGGCCAGATCGAGACCTACCGCGGCCTGTATGCGGAACGGTGCCACGCCATGCTGGCGGCCCTGGAAGCATACATGCCCGCAGGCCTGAGCTGGACGCGGCCGGAGGGTGGCTTCTTCGTGTGGGTCACGCTTCCCGCGGGTGTGGACACCTACCCCCTGCTGCACAAGGCGATCGATGCCGGGGTCGTCTTCATCCCGGGTGCGGCCTTCAGCCATTTGGATGAGCCGTCCAACAAGCTGCGGCTGGCGTTCAGCGCTGTGCCCCCTGATGCCATCACCGAGGGCGTACGGCGGCTCGCTCCTGTGCTGCAAGAAGCCATAGATGCACTCCGGTCAGGGCATACTGGGCTCTGA	MGPRSLSTVVACAATVRCILGFVTHETIDGAEAVLPAEAIDAIERAATSAHRHEQLFSARAANIKQSAVRDVFDISLRPGLVSLAGGSPYLQSLPLDRLARTAADIIAADGLTALQYGAGQGREELRAQICEVMAAEGILDAVPENVVITAGSQSAQDIATKVFCNPGDVVLVEEPTYVGALNTFESYQVQVEAVEMDDDGLVPELLEARIASLQTVGKNIKFLYTIPNFNNPSGITLAQERRQQIMDICRRANILVLEDNPYGLLRYEGQSLEPLRAHNPDDVIYMGSFSKIFAPGLRIGWALVPAHLQRRYYLAAEAVTLCPPTFNQMLVSAYLREYDWKGQIETYRGLYAERCHAMLAALEAYMPAGLSWTRPEGGFFVWVTLPAGVDTYPLLHKAIDAGVVFIPGAAFSHLDEPSNKLRLAFSAVPPDAITEGVRRLAPVLQEAIDALRSGHTGL	PGPT0007135_322	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007135-lysN-K05825	NA	NA
D1-17_00130	885	prpB		2-methylisocitrate lyase	ATGACCAGTTCGCCGTCTTTTCCTGCCTCCTCCGACAAAGCCGCAGTTTTCCGCGGACTCCATGCAGAAGGGCCCGAGCCCCTGGTGCTCGTGAACGTGTGGGATGCGGCGTCGGCGAAATTGGTGGAGCAGGCCGGAGCACATGCGCTGGCCACATCAAGTTCAGCCATCTCCTGGAGCCTGGGCTTTCCGGACGGCAATCAGCTGCCGCCTGCGCTGGCCTTGGAGGCGCTAGCCAGGATCGTCGCTGCCACGGACCTGCCGGTAACGGCGGACGTTGAAGCCGGTTACGCGGGACAGGACGGCACCTTTGACGACACCCTGCTGGAGCGGACCATACAGGCAGTGCTGGCGGCCGGTGCCGTGGGCGTCAACATCGAGGACTCCGGTGGTGAGACCCTGACTGACGCAGCCGAACAAGCGCGCCGGATCGCCATTATCAGGACGGTCGCAGAGGAATCGGGAGTCCGGCTTTTCATCAATGCCCGGACCGACACCTACCTCTCGGGCCACTTCCCCGATTCGGCGTTCGAGGAGACGCTCCGGCGCGTGCCGGCGTACCTGGCGGCCGGCGCGGACGGTATCTTCGTTCCCGGCGTCACCGACCTGCACGTGCTGCACGAGCTCTCCCGGCGGATACCGGCGCCGCTGAACGCGCTCGCCGGCGTGGGCGCGCCGTCGGTGGGGGAACTGCACGACGCCGGTGTGCGGCGAATCAGCATCGGCGGCAATACGGCGAAGGCGGCTTATGCAACGGTCTCCCGGGTAGCCGAGGAAGTCCTCGGCTACGGCAACTGGTCCGAACTGGCCGGAGCCCCCAGCCATGCCGAGATGGATGCCCTGTTTGCGCCGAAGCCCGGAACCGGGGCTGCCAGCGACACCTAG	MTSSPSFPASSDKAAVFRGLHAEGPEPLVLVNVWDAASAKLVEQAGAHALATSSSAISWSLGFPDGNQLPPALALEALARIVAATDLPVTADVEAGYAGQDGTFDDTLLERTIQAVLAAGAVGVNIEDSGGETLTDAAEQARRIAIIRTVAEESGVRLFINARTDTYLSGHFPDSAFEETLRRVPAYLAAGADGIFVPGVTDLHVLHELSRRIPAPLNALAGVGAPSVGELHDAGVRRISIGGNTAKAAYATVSRVAEEVLGYGNWSELAGAPSHAEMDALFAPKPGTGAASDT				NA	NA	NA	NA	NA
D1-17_00131	372			hypothetical protein	GTGGCGCTGGACGACGGCGGCAGCTCCGGCGTGCGTTTCGGCTGCAATGACAGCCTCGTTCCCGTCCACCACGCCGACCCCGTCGTTCGTGAACCACTGCAAGCCGCCATGGGCCGTTTGCTGTCCGGAGGCGCACCGCCGGCCGGCCTGTACAACGCACTGTCATCCTCCACGTTGCAGTACGTATCCGGTTACCTCGACGGCGCCACGGTGGTGGTTAATCTCACCGGCGCCGTTCAGCCCGGCGGAACCTGCGACATTCCCCGGATCGACGCCCAGCTGACCCACACTGCCGTTACCGCTGTTGGCGCCATCCGCGCAGAAATCTACGTCGATGGCGTCCGGCTGGCCGATGTCCTGGGCCTGCGCTAG	MALDDGGSSGVRFGCNDSLVPVHHADPVVREPLQAAMGRLLSGGAPPAGLYNALSSSTLQYVSGYLDGATVVVNLTGAVQPGGTCDIPRIDAQLTHTAVTAVGAIRAEIYVDGVRLADVLGLR				NA	NA	NA	NA	NA
D1-17_00132	567			hypothetical protein	ATGTCCAAGAACACCGTCCTCGCCCTGGTGGGCAGCCTTCGGGCCGATTCCATCAACCGCAAGCTCGCCGAAGCCATCCAGCTCAACGCTCCCGAGGATCTCGAGATCGTGATCTGGGAGAGCCTTGGCAACCTCCCGTTCTACAACGAAGACATTGACGTCGAGGGCCAGGTCCCCCCTGCCGCCGCCGCGCTCCGCACCGCGGCCGGTGAGGCCGACGCCCTGCTCCTGGTCACCCCCGAGCACAACGGCACCATGCCCGCCTCCCTGAAGAACGCCATCGATTGGCTGTCCCGCCCGTACGGGGCCGGCGCCCTGACGGGCAAGCCCACCGCCGTCGTCGGAACCGCCTTCGGTCAGTTTGGCGGCGTCTGGGCGCAGGACGAGGCCCGCAAGGCTGCCGGCATTGCCGGCGCCCGCGTCCTTGAGGACGTCAAGCTCGCCGTCCCCGGCTCCATGGTCCGCTTCGCGGAGACTCACCCCAAGGACGACGCCGAGGTTGTCGAGCAGATCAAGGGCATCTTCAGCGCCCTCGAAGCAGCCGAGAAGGCTGAGGCTGCAGCCTAG	MSKNTVLALVGSLRADSINRKLAEAIQLNAPEDLEIVIWESLGNLPFYNEDIDVEGQVPPAAAALRTAAGEADALLLVTPEHNGTMPASLKNAIDWLSRPYGAGALTGKPTAVVGTAFGQFGGVWAQDEARKAAGIAGARVLEDVKLAVPGSMVRFAETHPKDDAEVVEQIKGIFSALEAAEKAEAAA	PGPT0004195_1005	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
D1-17_00133	660			hypothetical protein	ATGATTGTGAGCCTCATCCCAATCCGCTCCGCAGCCCCCGCCGCTGCGGGCCAGGAACGCCGCGACGCCGCGCGCAACCGGGAGTTGCTGCTGTGCGCCGCCCGCCAGCTGATCGAGGAATGCGGTGCTGATGGACTCACCATGGACAAGCTTGCTGAGCGGGCCGGCGTCGGCAAGGGGACGGTGTTTCGCCGCTTCGGCAGCCGGGCAGGGCTGATGATGACGCTGCTCAGCGACGCCGAGGCTGAGTTCCAAAGCCGTTTTATGTTCGGCCCGCCGCCGCTGGGTCCGGGCGCGCCGCCTCTCGAGCGGTTGGTCGCCTTCGGTGCGGGTCGCATTGGTTACGTGCTGGAATACGGTGACCTGGCCAGGGCTGCCGACCATTCGGTGTACAACCGCTTCGAGGTGCCGGCGGTCGTGCTGTGGCATCGGCACATCGAGTATCTCTTGCGTGAGGCCGGTTTCGACGCGGACCCGTGGCTCATGGCCATGTCGCTGAGCGCCACCCTCGACCCCGAACGCCTGCTCCACGCCGTCCGTGTGCACGGCGTTTCTCCGAAGCGGCTGGAGGCGTCATGGCGGGAACTCGTTACGCGCCTGGTCGGTTCTGGGTTGGGATCCGCCTCTGGGTCTGGCTCCGGGGCGGCAAACGCGGAGTAG	MIVSLIPIRSAAPAAAGQERRDAARNRELLLCAARQLIEECGADGLTMDKLAERAGVGKGTVFRRFGSRAGLMMTLLSDAEAEFQSRFMFGPPPLGPGAPPLERLVAFGAGRIGYVLEYGDLARAADHSVYNRFEVPAVVLWHRHIEYLLREAGFDADPWLMAMSLSATLDPERLLHAVRVHGVSPKRLEASWRELVTRLVGSGLGSASGSGSGAANAE				NA	NA	NA	NA	NA
D1-17_00134	1110	ydgJ	COG0673	putative oxidoreductase YdgJ	ATGAGCACCGAATCCTCCTCGCCTATGTCCCGCCCGGAACAGCCGCCCGGTGAACGCGCGCCCATCCGGACCGCCGTCGTCGGTTTTGGCCTTGCCGGAAGCGTCTTTCACGCTCCGCTGATCGCTGCCGATGCCCGGTACTCGCTGGACGTCATCGCGACGTCGGACGCCGTCCGCCAGGCTGCCGCCGCCGAACGTTATCCCGGCGTAAAAACAGTGCCCGACGGCGATGGTGTCCTGGCGCTGGCGGCCGACCTTGACCTTGTGGTCCTTGGAACCCCTCCGGCGACGCACTATCCGCTGTCGAAGGCGGCGCTGGAAGCGGGGCTTGACGTCGTGGTGGACAAGCCGTTCGCCGTGACGAGCGTGGAAGGCGAGGAGCTGATTGGGCTGGCGCAGCGCCATCGCCGCGTTCTGACCGTGTTCCAGAACCGGCGCTGGGACGGCGACTTTCTGACCGTCCAAAAGCTGCTCGACGCCGGGGCGCTGGGCCAGGTGACGCGGTTCGAATCCCGGTTCGAGCGCTGGTCGCCGGACGTGTCCAAGGCATGGAAGGCGGAAGCGACCGCGGCGACCGGCGGCGGCGTCCTGTTCGATCTCGGCACCCATCTCATCGACCAGGCGCTGGAACTGTTCGGCCCCGGCCAGATTGTCCACGCGGAGCTGGAGGCCCGGCGGCCCGGTGAAAACACGGACGATGACTGCTTTCTGGTTTTGAGGCACGGGTCGGGCGTGCTGAGCCACCTCTGGATGAACATGCTCTGCGCGCAGCAGGGCCCCCGGTACCGGCTGCTTGGCACCGAGGGCGCCTTCACAAAGCATGGCGTGGATCCGCAGGAGCCGTACATCGTGGCCGGCGGCAGCCCCCTGGACGCCGACTACGGGGTGGAAGCCCGCGAATGGGCCGGGCAGCTGGGGCGCGACGGACACCTCGACCGGCTGTCCACCGAACGCGGCGCCTACCCGGAGTTCTACCGGATCCTCGCCGACAAGATTTCCGACGGCGGCAGCGCCTCCGCGCTGCCGCTCCCGGTGGACCCGGCCGGTCCGGTGGAAGTCCTCAAATTAATAGAAAAGGCGCGCCAGCTGGCATCGGCGCAGCTCGGGTAA	MSTESSSPMSRPEQPPGERAPIRTAVVGFGLAGSVFHAPLIAADARYSLDVIATSDAVRQAAAAERYPGVKTVPDGDGVLALAADLDLVVLGTPPATHYPLSKAALEAGLDVVVDKPFAVTSVEGEELIGLAQRHRRVLTVFQNRRWDGDFLTVQKLLDAGALGQVTRFESRFERWSPDVSKAWKAEATAATGGGVLFDLGTHLIDQALELFGPGQIVHAELEARRPGENTDDDCFLVLRHGSGVLSHLWMNMLCAQQGPRYRLLGTEGAFTKHGVDPQEPYIVAGGSPLDADYGVEAREWAGQLGRDGHLDRLSTERGAYPEFYRILADKISDGGSASALPLPVDPAGPVEVLKLIEKARQLASAQLG	PGPT0018530_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018530-iolW-K16044	NA	NA
D1-17_00135	1119	ald_1	COG0686	Alanine dehydrogenase	ATGATCATCGGTGTCCCCAAAGAAATCAAGAACAACGAATTCCGCGTCGCCATCACCGCCGCCGGCGTCCACGAGTTCCGCACGCACGGCCACACGGTCCTGGTAGAGCGTGGCGCCGGCCTGGGCTCGGGCATCACCGACGAGGAGTACGCCATCGCCGGCGCCGAGATCGTCGCCGACGCGGACGACGTCTGGGGCCGTGCCGACATGGTCATGAAGGTCAAGGAACCCATCAAGGCCGAATACCACCGCTTCCGCAAGGGCCTGATCCTCTTCACCTACCTCCACCTCGCCGCCGAACCGGAACTGACCCGGGAGCTCATCAACTCCGGCGTCACCGCCATCGCCTACGAAACGGTCCAGGAAGGCCGCACCCTTCCGCTGCTCGCCCCGATGTCCGAGGTAGCCGGCCGGCTCTCGGTGCAGGTCGGAGCCACCTCCCTCATGGCCCCCGCCGGCGGCAAGGGCGTGCTCCTGGGCGGGGTCCCCGGCGTCCGCCCGGCCAAGGTCGTGGTCCTGGGCGCCGGCGTGGCCGGCACCAACGCCGCCGCGATGGCCCTGGGCCTCGGCGCCGACGTGACCATCCTGGACATCAACATCCACCGCCTGCGCGAACTCGACGCCCAGTACCAGGGCCGCCTAAAGACCGTGGCCTCCAACAAGTACGAGATCGAAAAGTCAGTGGTCGACGCCGACCTCGTCATCGGTTCCGTCCTGATCCCGGGCGCCAAGGCGCCCAAACTCGTCACCAACGAACTCGTGGCCCGGATGAAGCCCGGTTCCGTGCTCGTGGACATCGCGGTGGACCAGGGCGGCTGCTTCGAAGACACCCGCCCCACCACGCACCAGGAACCCACCTACAAGGTCCACAACACGATCTTCTACTGCGTGGCCAACATGCCCGGCGCCGTCCCGAACACCTCCACCTACGCCCTGACCAACGTCACGCTCCGCTACGGCGTGGCACTGGCCAACCTCGGCGTCAAAGCCGCCTTCGAGAAGGACCCTGCCCTCGCGGCCGGCCTGAACATCGCAGCAGGCCATGTGGCACACCACTCCGTCTCCGAGGCCCACAACCTGCCCCTGGTAGCGGACTGGCACAAGCTGGTCACCGCGTAA	MIIGVPKEIKNNEFRVAITAAGVHEFRTHGHTVLVERGAGLGSGITDEEYAIAGAEIVADADDVWGRADMVMKVKEPIKAEYHRFRKGLILFTYLHLAAEPELTRELINSGVTAIAYETVQEGRTLPLLAPMSEVAGRLSVQVGATSLMAPAGGKGVLLGGVPGVRPAKVVVLGAGVAGTNAAAMALGLGADVTILDINIHRLRELDAQYQGRLKTVASNKYEIEKSVVDADLVIGSVLIPGAKAPKLVTNELVARMKPGSVLVDIAVDQGGCFEDTRPTTHQEPTYKVHNTIFYCVANMPGAVPNTSTYALTNVTLRYGVALANLGVKAAFEKDPALAAGLNIAAGHVAHHSVSEAHNLPLVADWHKLVTA	PGPT0020070_1520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
D1-17_00136	1218			hypothetical protein	ATGCAGCAGGACGTGGAACAGCTCGTGGAACGGGTGGCGCAGAAGCTTGGCCGCGGACTGTCGCTCGAGGACCTGGACGGGCTCCTGCTCGCCTACAGCTCCAACCAGTCCCACGCCGACCGGGTCCGCGTGAACTTCCTCCTCAGCAAGCGGGTGCCGGTCGACGTCAAGGCGTGGCAGCTCTCGCACGGCATCGCCACCGCCGTGCGTCCCGTCGTCGTTCCCGCCAACGAGGAGCTGGGAATGCTCGGACGCGTGTGCGTCCCGCTGATGGTCCGCGGCTTCCGCGTCGGCTACCTCTGGGTGCAGCAGGACCTGGAGGAGGAAAGCGCGACGGCGATACTCAGCCAGCTGCCCGACGTCCGGGAGGAGCTTGAGCTGCTCTCCGGCCTGCTGCTGGATTCGAACACGGCCGAGTCCGAATTCCGGCGGAGCCGCGAACGCGAGTTCCTGGCGGCCTGCGCAGGGGAGGCCAACGCCGTGGCCGCCGTGGCGGGCTGGAAGGAAGTGCAGGACCGCGGTCCGTGGCAGCTGGTGACGGTCCTCGACGCCGACGGCTGGGCAGCCGGGCCGGACCCGATCGCGGCGACGCTGATCCACCGCTCCGCAGCCCTGCAGGCAACCATCGGAGTAGACGCGGCCCTGTTCAGCGCCGGAACCGAAACCCATTCCGTGGTGCTGTTCCGGGAATCGTCAGGCCGGGCCAGCCACGCGCAGGTGCTGGTGCACTACCAGCTGGAACTGGCCAAACGTGCGGGGCGCCCGGTGCAGCGCATCATCCTCGGCATCAGCGAGGGCTTTAGCCGACCGAAGGAGCTGTCCGAGGCGTACCGGCAGTCGAAGGTGGCCGCCCAGGCAGCGGCAGTCGATGCCCAGCTTGGCGAACTGGTGGAATGCCGGGCGACGGGCGTCTATCAGCTTTTGGCCTCGTCCGGCGCCGGTGCAGGCGTGTGGGGCGACGCCGGTTCCGTGAATTTCCGGGCACTGGAGGACCATGACCGCAACGGCGAGCTGCTGCCCGTCCTGGAGCTGTTCTACGACAACGACGGCTCCGTCCAGGAAGTCGCCGCGAAACTGCACCTGCACCGCAGCAGCATCTACAACCGGCTGGGCCGGATCCGGCAGCTGCTGGGCGTGGACCCTTTGCGGGGCATGGTCCGGCTGGAGCTGCATGCAGCGCTTAAGGCGCGGCGCTGGGCGGGCAGGCCCAGAATCTAG	MQQDVEQLVERVAQKLGRGLSLEDLDGLLLAYSSNQSHADRVRVNFLLSKRVPVDVKAWQLSHGIATAVRPVVVPANEELGMLGRVCVPLMVRGFRVGYLWVQQDLEEESATAILSQLPDVREELELLSGLLLDSNTAESEFRRSREREFLAACAGEANAVAAVAGWKEVQDRGPWQLVTVLDADGWAAGPDPIAATLIHRSAALQATIGVDAALFSAGTETHSVVLFRESSGRASHAQVLVHYQLELAKRAGRPVQRIILGISEGFSRPKELSEAYRQSKVAAQAAAVDAQLGELVECRATGVYQLLASSGAGAGVWGDAGSVNFRALEDHDRNGELLPVLELFYDNDGSVQEVAAKLHLHRSSIYNRLGRIRQLLGVDPLRGMVRLELHAALKARRWAGRPRI				NA	NA	NA	NA	NA
D1-17_00137	291			hypothetical protein	ATGGCGGGCATTGGCGCCATGGGCGTGGCTGCCCTACTCGGAATGCTCATGGAACTGAGCAACACGGCGATCTTCACATCCAGCTGCGTGGTGTACGTCGCGGTCTCAATGTGGACGGAAAGCCGGATCGCCCGGCGCCGCAGCCAACTTCAGGGTCCTCCGCCGGCCGAATCCGCCGTACCGCATCCCACTCCTGAAACAGGCGCCAGACAGCTGTCCGCACAGGAACAGAATCCTCATGAGTCCCGCCAGCAGCGCCGGCGGGAAACCAGGGGCGGCAACGCCGCCTGA	MAGIGAMGVAALLGMLMELSNTAIFTSSCVVYVAVSMWTESRIARRRSQLQGPPPAESAVPHPTPETGARQLSAQEQNPHESRQQRRRETRGGNAA				NA	NA	NA	NA	NA
D1-17_00138	477			hypothetical protein	ATGGCACTGATAGCTCCCAGGGTGGCGGGCGCACTCCCTGCTGAGGACGCGAGGAAACTCCAGCAAGCGCTCGACGGCGGCACGGACATCACCGTCTTCGTGGACGGCACTGTCCACCGGCTGCCGCCCCAGGCGAGGGACGCCGTCGTCGACCTTCTCTCCAGGTTCAGCCGCGGTGAGGCGGTGACGGTCAGCAGCGTCGAGGAAATGCTGACGACGTCGCAGGCGGCGGAGCTCGCGGGCATCTCCCACACCTATCTGCGGAACATGACAGACCGCGGCGAGATCCCCGTGGAGTATCGCGGCACGCACCGGCGGATCCGGCTGGCGGCCATCATGGCGTGGCTGGAGGGGCAGCGCAAGAGAGAGGCGGCCGCGGAGCTGGCCGCCGACGCTGCTACTGACGCCTCTCCCGGAGGTGGAGGTCACCGTGGCGGAGGCAAAACAGGAACGGGCGGGAAGCCAGGGCGAACATGA	MALIAPRVAGALPAEDARKLQQALDGGTDITVFVDGTVHRLPPQARDAVVDLLSRFSRGEAVTVSSVEEMLTTSQAAELAGISHTYLRNMTDRGEIPVEYRGTHRRIRLAAIMAWLEGQRKREAAAELAADAATDASPGGGGHRGGGKTGTGGKPGRT				NA	NA	NA	NA	NA
D1-17_00139	948	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	GTGCTTCCCCAGGCAAGCACGCGGGTCAGGTATGCTCGGCGGATGCAGCTGCAAGGCGGACGGGACATTACGGTGAACGGCCTGACAGGCCGCCTTTACTCATCAGTAGTGGACCCCGGGCCGGGTACCGGCGCGGCCAGCGCGGCCGGAAATGCCGCCGCCACAATGCCGGCCGGACCCGCAGCCCGGCCCGCGGCCCGATGCGCGGCCGGCAGAGCGGAGACCGGGCGCCAGGCCTACGTGCTGCTCCACGGCATCGGGGTCTCGCACCGCTATCTGTCAAAGCTGCACCAGGAACTGGCCCGGAGCATTGCCGCCGGTACTCTGGCGCGTGACGCCGTCGTCCATACGTTCGATCTGCCGGGCTACGGCGCCACGCCGCGCCCCGGACACCAGGTGTCCGTCGCTGAATATGCCGCTTTCGTTGCAGCCGTCCTCGCCGATGAGGGCGTCCAGTCCTGCGTGGTGGTGGGCCACTCCATGGGCGTGCAGTTCGCCGTCGAGCTCGCACTGCTGCAGCCGGACCTCGTGAGCCGTGTTGTACTCATGGGCCCGGTGGTGGATCCTGCCAGGAAAAGTACAGCCTGGCATGCCCTCGCGCTCACCCGCGACGCGCTGTTCAGTGAAAAGCCGTCCACCAACATCGTGGTGTTCGGCGACTATTTCAGGACCGGACTGCGCTGGTACCTAACACAGTTGCCGGTGATGCTCGGTTATCCGATGGAGCAGCGGACGCGTGAAGTGACCCAGCCCGTGCTTGTGCTGCGAGGCGCGAGGGACCCCATTGCCCGCCGGCCGTGGTGTGAAAAACTCGCGAACCAGCCGCGCCTTGGGTCATTGGTGGAAGTGCCGGGCTGCGGCCACGTGGCGCAGGACAGTGCACCTGAGGCTGTTGCCCGGGCTATCCTCACCTGGGCGAGCACCGCGGACGACGGCGTCACCGCTTAG	MLPQASTRVRYARRMQLQGGRDITVNGLTGRLYSSVVDPGPGTGAASAAGNAAATMPAGPAARPAARCAAGRAETGRQAYVLLHGIGVSHRYLSKLHQELARSIAAGTLARDAVVHTFDLPGYGATPRPGHQVSVAEYAAFVAAVLADEGVQSCVVVGHSMGVQFAVELALLQPDLVSRVVLMGPVVDPARKSTAWHALALTRDALFSEKPSTNIVVFGDYFRTGLRWYLTQLPVMLGYPMEQRTREVTQPVLVLRGARDPIARRPWCEKLANQPRLGSLVEVPGCGHVAQDSAPEAVARAILTWASTADDGVTA				NA	NA	NA	NA	NA
D1-17_00140	1686	ptsI	COG1080	Phosphoenolpyruvate-protein phosphotransferase	GTGCAGAACTTCCCAGGAGTTGGCGTCAGCCCCGGCCGCGTCATCGGCACCATCCGCCAGATGCCCAAGCCCATCAGCGAACCTCCGGCCGGCGAACAGCTGCCTGCCGGCACCACGCCGGAAGAGGCCACAGCCGCATTGAAGGCGGCCGCCAACGCCGTCCATGATGAGCTGCGGGCCCGCGCCGATCACGCAAGCGGTGACGGCAAGGCCGTCCTGGAAGCCACCGCCCTGATGGCGAAGGACACCATGCTGATTAAGGGCGCCGCGAAGCTCGTCGCCCGCGGGGTATCCGCCCAGCGGGCCATCTGGGAATCCGGGTCCTCGGTTTCCGAGATGCTGCATAACCTTGGCGGCTACATGGCAGAGCGTGCCACCGACGTGCTGGACGTACGCGCGCGCATCGTCGCCGAATTGAGGGGCGTGCCTGCCCCGGGCATCCCGTCGTCGGAAACGCCGTTCATCCTCGTGGCCGAGGACCTCGCGCCCGCCGACACCGCCACCCTGGACCCGAACAAGGTCCTCGCGCTGGTGACCGCCGGCGGGGGTCCCCAGTCGCACACTGCAATCATCGCCCGCTCACTCGGACTCCCGGCAGTGGTGGCAGCGGTGGGCGTGGATGAACTGCCCGAGGGCACCGAGGTCTACGTCGACGGCGCCGCAGGTTCGATCACCGCTCACCCGGACGAGTCGCTGCGTGCTGCAGCCGAGGCCTGGGCCACGACGGCGTCCCTCCTTGCGGACTTCAGCGGTACGGGCACGACGGCGGACGGCCACGAGGTCCCGCTGCTCGCCAATGTGGGCGGTGCCAAGGATGCGGAGGCTGCCGCGAAGCTCGGGGCCCAGGGCGTAGGCCTGTTCCGCACCGAGTTCTGCTTCCTGGAGCGTGATACCGAACCGAGCGTCGAGGAGCAGGCCGCCGCGTACAAGGGCGTCTTTGATGCCTTCCCCGGCAAGAAGGTGGTTCTCCGCACGCTGGATGCCGGAGCGGACAAGCCGCTCCCCTTCCTTACCGACTCCACGGAGCCCAACCCGGCCCTGGGCGTCCGCGGCTACCGCACCGACTTCACCACTCCGGGCGTCCTGGAGCGGCAGCTCGAGGCGATCGCCCTGGCCGAAAAGCAGTCCGGAGCTGACGTCTGGGTCATGGCCCCGATGATCTCCACAGCAGAAGAAGCCGCCCGGTTTGCCACCATGTGCGCGGAAGCCGGCATCAAGACTCCGGGTGTCATGGTAGAGGTCCCGTCTGCCGCCCTCACCGCCGACGCCATCCTGCGCGAAGTTGCCTTCGCCAGCTTGGGCACCAACGACCTCACGCAATACGCCATGGCAGCGGACCGCCAGCTCGGACCTCTCGCGGGACTGAACACACCGTGGCAGCCTGCCGTCCTGCGCCTCGTGGGACTGACCGTGGAAGGTTCCAGGGCTGAAGGCCACAACAAACCGGTGGGCGTGTGCGGCGAGGCCGCGGCGGACCCGGCCCTGGCCGTCGTCCTGACCGGACTCGGCGTGACCACGCTGTCCATGACCGCCCGGTCCCTGGCGGCCGTGGCCGCCGTCCTCAAGACGGTAACGCTGGCCGAGGCGCAGGAGCTGGCCAAGCTGGCCCTCTCCGCACCCAGTGCCACCGAGGCGCGCGCCTGGGTCCGCGAAAAGCTGCCCGTGCTGGAGGAGCTCGGCCTGTAA	MQNFPGVGVSPGRVIGTIRQMPKPISEPPAGEQLPAGTTPEEATAALKAAANAVHDELRARADHASGDGKAVLEATALMAKDTMLIKGAAKLVARGVSAQRAIWESGSSVSEMLHNLGGYMAERATDVLDVRARIVAELRGVPAPGIPSSETPFILVAEDLAPADTATLDPNKVLALVTAGGGPQSHTAIIARSLGLPAVVAAVGVDELPEGTEVYVDGAAGSITAHPDESLRAAAEAWATTASLLADFSGTGTTADGHEVPLLANVGGAKDAEAAAKLGAQGVGLFRTEFCFLERDTEPSVEEQAAAYKGVFDAFPGKKVVLRTLDAGADKPLPFLTDSTEPNPALGVRGYRTDFTTPGVLERQLEAIALAEKQSGADVWVMAPMISTAEEAARFATMCAEAGIKTPGVMVEVPSAALTADAILREVAFASLGTNDLTQYAMAADRQLGPLAGLNTPWQPAVLRLVGLTVEGSRAEGHNKPVGVCGEAAADPALAVVLTGLGVTTLSMTARSLAAVAAVLKTVTLAEAQELAKLALSAPSATEARAWVREKLPVLEELGL	PGPT0002025_2603	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0002025-ptsI-K08483	NA	NA
D1-17_00141	729			hypothetical protein	ATGAGTTTCGATGGCCAGTTGCCGCCCAAAATGAGGCTGCTGCGCGCAGCGGCCGAATTGCTGGCCAAGTCCGGGGGCGCGCCGGTTTCCACCCGGCAGATCACGCAGCTGGCCGGTGTGTCAGCACCTACCCTTTACCACCACTTTGGTGACAAGGAAGGCCTGTTTGACGCGGTCGTCTCCGCGGGTTTTGAAGAATATGTCGCCGGTGAGAGGGACTTCGCCCCGTCAGGGCATCCGCTGGAAGACATCCGTCGGATGTGGGACAACCACGTGCAGTTCGGCCTCAATCAGCCGGAACTGTATCTGGTCATGTTCGGTAATATCCGCCCAGAAAGCCGCCCGGCCATTGTGGCCGATGCCGAAGCCCTGATGGAGGAGATGCTGAACAAGGCCGCCGCGGCCGGACAGCTGAACGTCCAGCCGCGGGAAGCCGCCAGGAGCATCCTGGCAGCGAACGTCGGCGTCACGCTCATGCTGATTTCGGAAGCCGCGGCCGACCGGAATCTTGAACTTTCCACCATGACCCGGGACGCCATGATCTTTGCCGTGTCCACGGACCAGGCAAGGACAACCGGCCAGGACGAATCAGGGAAGTCCTCAGTGGTGGTGGCCGCCATCGCCCTGAACGCGGCACTGCAGGCATCCCACTCGGACCAGCTCTCCAGCTCGGAACTCAAGCTCTTTCTCGAATGGCTCCACCGGATCTCCACCAGTTCCACCAGCTAG	MSFDGQLPPKMRLLRAAAELLAKSGGAPVSTRQITQLAGVSAPTLYHHFGDKEGLFDAVVSAGFEEYVAGERDFAPSGHPLEDIRRMWDNHVQFGLNQPELYLVMFGNIRPESRPAIVADAEALMEEMLNKAAAAGQLNVQPREAARSILAANVGVTLMLISEAAADRNLELSTMTRDAMIFAVSTDQARTTGQDESGKSSVVVAAIALNAALQASHSDQLSSSELKLFLEWLHRISTSSTS				NA	NA	NA	NA	NA
D1-17_00142	2019	mtlA	COG2213	PTS system mannitol-specific EIICBA component	ATGGCAACAGAGACAGTTGCAAAACCCAAGACCAGCGCACGGGTGCACGTCCAGAAGTTCGGGACGTTCCTCTCCGGCATGATCATGCCCAACATCGGCGCGTTCATCGCCTGGGGCATCATTACTGCGCTCTTCATAGAAAAGGGCTGGGTCCCCGTCCCGCAGCTTGGCGGCTTCGGCACGAATGCCGAGGGTGTGCCGAACACCGGGCTCGTGGGTCCCATGATCACTTACCTGCTGCCTCTCCTGATTGCGTACACGGGCGGCCGGATGGTGTACGACGTCCGCGGCGGTGTCGTGGGGGCCATCGGCACCATGGGCGTAATCGTCGGCGCCGGCATCCCGATGTTTATCGGGGCAATGATCATGGGGCCGCTGGGCGGCTGGACCATGAAGAAGATCGACTCCATCTGGGAGGGCAAGATCCGGCCGGGCTTCGAGATGCTGGTGAATAACTTCTCGGCCGGCATTTGGGGCGCCCTGCTGGCCATGCTCGGCTTCTATGGCATCTCCCCGCTGGTCACCGCCTTCAGCACCGGGGCCGGCAACGTGGTCCAGTTCCTGGTCAACAACGGCCTGCTGCCGCTGACCAGCATCTTCATCGAACCGGCCAAGGTGCTCTTCCTCAATAACGCCATCAACCACGGCGTGCTGACCCCGCTGGGCGTCCAGCAGTCCCTGGAGCAGGGCAAGTCGATCCTGTTCCTGCTTGAAGCCAACCCCGGCCCGGGCCTGGGCATCCTCCTCGCCTACATGTTCTTCGGCAAGGGCCTGGCCAAAGCATCGGCTCCCGGCGCGGCCATCATCCACTTCTTCGGCGGCATCCACGAGATCTACTTCCCCTATGTGCTGATGAAGCCGATCCTCATCCTCGCCGCAATCGCCGGTGGCATGACCGGCATCGCGACCCTGGCTGTCACCAATTCCGGGCTCGTGGCGCCGGCGGCTCCAGGGTCCATCATCGCCGTGGTCGCCCAGACTTCCCGCGACAGCTACGTCGGAGTGATCCTCTCGGTCCTGCTCGCTGCCACCGTCTCCTTCCTGATCGCCGCGGTACTCCTGAAGGCCAGCAAGACTCCGGTGGGTGAAACCGAGGAAGATGCCCTCAGCACTGCCACCTCCAAGATGGAAGCCATGAAAGGCAAGAAGAGCTCCGTCTCCTCCGCCCTGACAGGCGCGGGTGCAGGTGCAGGCGGCGTTGCAGTCATGGCGGGCCCCATCAAGAACATCGTCTTTGCCTGCGACGCCGGCATGGGTTCGAGCGCGATGGGCGCCTCTGTGCTGCGAAACAAGATCAAGGATGCCGGGTTCCCGGACGTCAAGGTCACTAATGCCTCCATCGCCAACCTCAGCGACACCTACGACGTGGTGGTCACCCACCAGGACCTCACCGAACGCGCCAAGCCTGCCACGTCCGGTGCCCTCCATGTCTCCGTGGACAACTTTATGAACAGCCCGCGGTATGACGAGATCGTGGAACTGGTCCAGCGCAGCAACGCCGCCGGAACGTCTGCTTCCGCCGCGGACGCGGCCGCCCCGGCTCCCGCAGCGGAAGCCGGGGCCGCCCCCGAAACCGGCACCGCGCCGTCGGACATTCTGGTAGCGGAGAGCGTGGTCCTCAGCGGTTCCGCCACCACGCGGGACGCGGCCATCGACGAAGCGGGGCAGCTCCTGCTGGCACGCGGCGCGGTGGACACTGACTACATCCGCGCCATGCACGAGCGTGAGGAATCCGTGTCCACATACATGGGCAGCTTCCTTGCTATCCCGCACGGAACCAACGCGGCCAAGGACCACATCAGGAAGTCTGCCGTCTCGGTAATCCGGTACCCGGAGGGCATCGACTGGAACGGCAAGCAGGTGAAGTTCGTGGTGGGCGTCGCCGGCGTCAACAATGAGCACCTGCATATCCTGTCCTCGATTGCCAAGGTCTTCACGAACAAGGCGCAGGTGGCGCAGCTTGAGGCGGCGACCTCCGTGGACGAAGTCCTGGAGCTCTTCGGAAAGGTCAACGCATAG	MATETVAKPKTSARVHVQKFGTFLSGMIMPNIGAFIAWGIITALFIEKGWVPVPQLGGFGTNAEGVPNTGLVGPMITYLLPLLIAYTGGRMVYDVRGGVVGAIGTMGVIVGAGIPMFIGAMIMGPLGGWTMKKIDSIWEGKIRPGFEMLVNNFSAGIWGALLAMLGFYGISPLVTAFSTGAGNVVQFLVNNGLLPLTSIFIEPAKVLFLNNAINHGVLTPLGVQQSLEQGKSILFLLEANPGPGLGILLAYMFFGKGLAKASAPGAAIIHFFGGIHEIYFPYVLMKPILILAAIAGGMTGIATLAVTNSGLVAPAAPGSIIAVVAQTSRDSYVGVILSVLLAATVSFLIAAVLLKASKTPVGETEEDALSTATSKMEAMKGKKSSVSSALTGAGAGAGGVAVMAGPIKNIVFACDAGMGSSAMGASVLRNKIKDAGFPDVKVTNASIANLSDTYDVVVTHQDLTERAKPATSGALHVSVDNFMNSPRYDEIVELVQRSNAAGTSASAADAAAPAPAAEAGAAPETGTAPSDILVAESVVLSGSATTRDAAIDEAGQLLLARGAVDTDYIRAMHEREESVSTYMGSFLAIPHGTNAAKDHIRKSAVSVIRYPEGIDWNGKQVKFVVGVAGVNNEHLHILSSIAKVFTNKAQVAQLEAATSVDEVLELFGKVNA	PGPT0016945_35	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0016945-mtlA|cmtA-K02800	NA	NA
D1-17_00143	1164	mtlD	COG0246	Mannitol-1-phosphate 5-dehydrogenase	GTGAAGGCTGTACATTTCGGAGCCGGCAACATCGGCCGCGGCTTCGTGGGACTGCTCCTGCACGATGCCGGGTACGAGGTGGTCTTCGCCGATGTTGCGGAGGCTCTCATCGCCCAGCTTTCCGATGCGGAGAGCTACCAGGTGCACGAGGTGGGGGAGAACCCCGCGGTGCGCACGGTGGACAACTTCCGGGCGGTGAACTCCGGCATCCAGGAGGCGCAGCTGATCGAGGAAATTGCAACGGCGGATATCGTCACCACCGCTGTGGGGCCGCACATCCTGAAGTTCGTGGCTCCGGCGATCACCAAGGGCATCGCCGCACGGGCCCCGGGTTCGGCACCGCTTCAGGTGATGGCCTGCGAGAACGCCATCAACGCCACGGACATCCTGCGCGAGGCCATCGTCTCGTCCTGGGATGACGCCGCGGGCTCTCTGTCAGAGGCCGCAGTGTTCGCCAACACCGCGGTGGACCGGATCGTGCCCAACCAGGAACCCGGGCAGGGCCTCGATGTCACGGTGGAAACGTTCTACGAGTGGGTCATCGACCGGACTCCGTTCGGCGGGGCGGCGCCGGTGATTCCCGGTGCCACTTTCGTGGACGAGCTGGGGCCCTACATTGAGCGCAAGCTGTTCACGGTCAATACCGGCCACGCCTCCGCTGCCTACTTTGGTTTCGAAGCCGGTTTCGAGAAGATTTCCGATGCCATGGCGGACCAGGATGTGGCCGCTGACGTGCGGGCGGTGCTTGATGAGACCAAGCAGCTGCTCGTGACCAAGCACGGGTTCACCCATGACGAGCAGGAAGCCTACGTGCAAAAAATCCTGGGCCGCTTCACAAACCCGTACCTGCCTGACACGGTGCACCGCGTGGGCCGGGCACCGCTGCGCAAGCTCAGCCGGCACGAACGCTTTATCGGCCCGGCCGCCGAGTTGGCCGAGCGCGGCATCGTGCCCGAGGCCCTGCTGGGGGCGATCGCTTCTGCCCTCCGCTTCAACGACCCTGCCGATACCGAGGCAGTTGAACTTGGGCAGATCCTCACCTCCACCGAACCTGCTGAGGCGACCGAGCGGATCACCGGGCTCACCCCCGACCACCCGCTCTTCGCGCCGGTCTGCGGCCTCGTTGAGGAGCGCAAGGCGGAGGGCGTGACAGCCGCGCTCTAG	MKAVHFGAGNIGRGFVGLLLHDAGYEVVFADVAEALIAQLSDAESYQVHEVGENPAVRTVDNFRAVNSGIQEAQLIEEIATADIVTTAVGPHILKFVAPAITKGIAARAPGSAPLQVMACENAINATDILREAIVSSWDDAAGSLSEAAVFANTAVDRIVPNQEPGQGLDVTVETFYEWVIDRTPFGGAAPVIPGATFVDELGPYIERKLFTVNTGHASAAYFGFEAGFEKISDAMADQDVAADVRAVLDETKQLLVTKHGFTHDEQEAYVQKILGRFTNPYLPDTVHRVGRAPLRKLSRHERFIGPAAELAERGIVPEALLGAIASALRFNDPADTEAVELGQILTSTEPAEATERITGLTPDHPLFAPVCGLVEERKAEGVTAAL	PGPT0013700_198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0013700-mtlD-K00009	NA	NA
D1-17_00144	873	qorB	COG0702	Quinone oxidoreductase 2	ATGACTTTTGTTATCACCGGTGTCACTGGCAGCCTCGGCCGCCTCGTCGTCGAGGCACTCCTCGACCAGGAAGTTCCTGCTGGCCGGATTGTGGCCACCGGGCGGGACGTCGCCAAGATTGCGGATCTGGCCGATCGGGGCGTTCAGGTGCGCCCGATCGACTACAACGACCCCAGTTCTCTCCGGAAAGCGTTCCAGGGTGCCGAGAAGCTGCTCCTGATCTCAGGCAGTGAAGTAGGCCAGCGGATTGAGCAGCACCGCAACGCCATCAATGCCGCGAAAGAGGCCGGCGTTGCGTTCGTCGCCTATACCAGTGTGGCCAAGGCGGACAGCACCGGGATGCAGCTGGCAGCAGAACACCAGGCAACGGAAGAGCTCCTGCGTGCTTCCGGCGTCCCGTTTACCCTGCTTCGCAACAGCTGGTACCTGGAAAACTATACTGAGCAGCTGGCCGTGCACCTCCAGCACGGAGCCGTTCTGGGCAGCGCCGGCGTGGGACAGGTCAGCGCTGCCACCCGGGCCGACTACGCCCAGGCAGCGGCAGCGGTACTACTCAAGGATGGACACGCCGGGAAGGTCTACGAGCTCGGCGGCGACCAAGCCTTCACCCTCGACGACCTCGCCGAGGCGATCACCGCCGTCACGGGACAGCCGGTCAAGTACCAGAACCTGCCGGCCGAGCAGTATGCGAAGGTGCTTCAGGACGCCGGACTGCCGGAGGCCTATGCCGCCATTCTGGCGGACAGCGACCTCGGCATAGCCCGCGGCGACCTGCTCGTCACCGGCCGCGACCTCAGCTCCCTCATCGGCCGGCCCACCACGCCGTTGCGGGAAGCAGTGCAGGCAGCGGCCAACGGCCTCTCCGGCCGGTAA	MTFVITGVTGSLGRLVVEALLDQEVPAGRIVATGRDVAKIADLADRGVQVRPIDYNDPSSLRKAFQGAEKLLLISGSEVGQRIEQHRNAINAAKEAGVAFVAYTSVAKADSTGMQLAAEHQATEELLRASGVPFTLLRNSWYLENYTEQLAVHLQHGAVLGSAGVGQVSAATRADYAQAAAAVLLKDGHAGKVYELGGDQAFTLDDLAEAITAVTGQPVKYQNLPAEQYAKVLQDAGLPEAYAAILADSDLGIARGDLLVTGRDLSSLIGRPTTPLREAVQAAANGLSGR	PGPT0009465_674	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009465-qorB-K19267	NA	NA
D1-17_00145	381			hypothetical protein	ATGATGAAAGTAAGCACTTCCGCCGTTATGCCTGTCTTCCCTTCCGTGGGCGGCATTTTTCCGGCAGGTTGTCCGAGCCGGACGGTCCTGGACCACGTCACCAGCAAATGGGGCGTCTTGATTCTGGTCGCTCTGTCCGAGCGGCCCCACCGCTGGAGTGAGTTGCGCCGGCGGGCTGAGGGCATCAGCGAGAAGATGCTTGCGCAGACGCTGAAGACGCTCGAAGGCGACGGCTTTGTGCAGCGTGATGCCCAGGCGACGATTCCTCCCAGGGTTGATTACAGCCTTACCGGGCGCGGCCGGGAGCTTGCCGCCCTGATGTTGCCCTTGGTGGCCTGGATAGCCGAGCACGCCGGCGACATCGTTCGGGAGCCCGCGTAA	MMKVSTSAVMPVFPSVGGIFPAGCPSRTVLDHVTSKWGVLILVALSERPHRWSELRRRAEGISEKMLAQTLKTLEGDGFVQRDAQATIPPRVDYSLTGRGRELAALMLPLVAWIAEHAGDIVREPA				NA	NA	NA	NA	NA
D1-17_00146	1002			hypothetical protein	ATGAGCAACACCGAAGCCGTCCCTCGGGAAATGCTGTGCGAAGCAGCAGAGGCAGCGAGCGACATCGAAATCCTCGTTCCCCGGGCTGTGCCGCTGGGCGGCCCGCGCGCCATGGACGTCCGCCGCACCCTGCCCCAGCGCCAGCGCAGCCTCATCGGTGCCTGGTGCTTCCTTGACCACTACGGCCCGGACCGGGTGGGTGCTACCGGAGGCATGCAGGTTCCCCGCCACCCGCACACCGGCCTTCAGACCGTCAGCTGGCTGTTCACCGGCGAGGTTGAGCACCGCGACTCCGCGGGATACCACGCCATGGTCCGGCCCGGGGAGATCAACCTCATGACGGCCGGCAGGGGCATCAGCCACTCGGAGTTTTCCACGCCCAACACAGAGATCCTGCACGGCGCCCAGCTCTGGGTGGCCCTGCCTGACACCGCCCGGCACATGGAGCCAACCTTCGAAAGCTACCGGCCTGAACCCGTTGCGGGAGAAGGATGGGCGCTGCGGGTCTTCCTGGGCACGCTCGCCGGCAGCACGTCCCCCGTCACCACCCACAGCCCGTTGCTTGGCGCCGAAATCCTGCTCGAACCCGGGGCGAGCCTCGAACTGGCACTTGACTCCGCCTTTGAGCACGGCGTTCTGCTGGATGCAGGAATCCTGCAGCTGGACGGAAATCTGCTGGAGAAAGACCACTTGGCATTCCTGCCGGTGGGACGCACCGCCTTGACTCTCACCGCCAGCGGGGAGCCGGTGCGGATGCTCCTCATCGGAGGGGAACCACTGGGCGAACAGATCCTCATGTGGTGGAACTTCGTCGGCCGCAGCCATGAGGAGATCGTCAGCTACCGGGAGCAGTGGCAGGCCGAGATTGGGGCGGAGCCCGCGCCCGGGAATCCAGCAGAGGAGCTCCCGGGCACGCTGCGCTTCGGCAGGTTCCCTCCCGGCCAGCCCGCACCGCTTCCTGCTCCGGCACTGCCGACCACCCGCCTGCGGCCCCGGGGGTAA	MSNTEAVPREMLCEAAEAASDIEILVPRAVPLGGPRAMDVRRTLPQRQRSLIGAWCFLDHYGPDRVGATGGMQVPRHPHTGLQTVSWLFTGEVEHRDSAGYHAMVRPGEINLMTAGRGISHSEFSTPNTEILHGAQLWVALPDTARHMEPTFESYRPEPVAGEGWALRVFLGTLAGSTSPVTTHSPLLGAEILLEPGASLELALDSAFEHGVLLDAGILQLDGNLLEKDHLAFLPVGRTALTLTASGEPVRMLLIGGEPLGEQILMWWNFVGRSHEEIVSYREQWQAEIGAEPAPGNPAEELPGTLRFGRFPPGQPAPLPAPALPTTRLRPRG	PGPT0019980_531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
D1-17_00147	1440	xylE		D-xylose-proton symporter	ATGTCCACCGCCCATGAGCACATCACCGCCAAGATCCCGAAAAGGGTCATTTGGCTGGCGCTTGCCGGCGCCGTGGGGGGCTTCCTCTTCGGCTTTGACTCCTCGGTGGTGAACGGTGCCGTCGACGCCATGAAGGACGAATTCGCACTGAGCGAAGCGGTGACCGGCTTTGCCGTGGCCGTTGCCCTGCTGGGATGCGCGGCCGGCGCGTACATGGCCGGAAAGGTCGCGGACCGCTACGGCCGCATTCCCGCCATGAAGCTGGGTGCCCTGCTGTTCCTGGTCAGCGCACTCGGCACCGGTTTCGCCTTCAGTGTCTGGGACCTCATCTTCTGGCGTCTCGTCGGCGGCCTGGGCATCGGCCTCGCCTCGGTGATTGCCCCGGCCTACATCTCCGAGATCTCCCCGCGCCACGTCCGCGGCCGCCTCGCTTCCCTGCAGCAGCTGGCCATCACCACCGGTATCTTCGCCGCCCTGCTGTCTGATGCACTTTTCGCAACCTCCGCCGGCGGTGCCGACCAGCCGTTCTGGCTCGGCATCGAGGCCTGGCGCTGGATGTTCCTGGGCGCCGTGCTGCCCGCCGTCGTCTACGGCTGGATCTCCTACACCCTGCCCGAATCACCGCGCTTCCTCGTGATCCAGGGCAATGAAGCCGAAGCACGGAAGGTCTTTGATTCCATCGCCCCTGACGAGGACACCGACCGCCATCTCCGCGAGATCCGCGAGGCCATCGAGGAAGACGAACTGGCCGGGCTGAAGGGATCGCTGCGCGGCAAGACCTTCGGCCTGCAGGCGGTCGTCTGGATCGGCATCACGCTGTCCGTCCTGCAGCAGTTCGTGGGCATCAACGTGATTTTCTACTACTCCACCACCCTGTGGAAGGCCGTGGGCTTCGAGGAGAAGGACTCGCTCACCATCTCGGTAGCCACCTCCATCACCAACATCCTGGTGACCCTCGTAGCGATCGCCCTCGTCGACCGCATCGGCCGCCGCCCCATCCTGCTGGCCGGCTCCATCGGCATGGCCGTCTCGCTGGCCGCCATGGCCGTCGCCTTCGCCTCGGCACGGGGCACAGGATCAGAGATCTCGCTGCCCGGTGCATGGGGCCCCGTCGCCCTCGTTGCCGCCAACGTCTTCGTTATCAGCTTCGGCGCGTCCTGGGGCCCGCTGGTGTGGGTCCTGCTCGGTGAAATCTTCCCGTCCCGCATCCGCGCCCGCGCCCTGGGCCTGGCGGCAGCCGCCCAATGGATCGCCAACTTCGCCATCACCCTGAGTTTTCCCGTGATGGCAGCAGCTTCCCTGCCGCTGACGTACGCGATGTACGCGCTGTTCGCCGCAGCGTCATTCTTCTTCGTCATGTACAAGGTGCCGGAGACAAACGGCATGTCGCTGGAACAGGCTGAAACCCTGTTTGTTCCGAAGGGGTCCGTTAAGGTCTGA	MSTAHEHITAKIPKRVIWLALAGAVGGFLFGFDSSVVNGAVDAMKDEFALSEAVTGFAVAVALLGCAAGAYMAGKVADRYGRIPAMKLGALLFLVSALGTGFAFSVWDLIFWRLVGGLGIGLASVIAPAYISEISPRHVRGRLASLQQLAITTGIFAALLSDALFATSAGGADQPFWLGIEAWRWMFLGAVLPAVVYGWISYTLPESPRFLVIQGNEAEARKVFDSIAPDEDTDRHLREIREAIEEDELAGLKGSLRGKTFGLQAVVWIGITLSVLQQFVGINVIFYYSTTLWKAVGFEEKDSLTISVATSITNILVTLVAIALVDRIGRRPILLAGSIGMAVSLAAMAVAFASARGTGSEISLPGAWGPVALVAANVFVISFGASWGPLVWVLLGEIFPSRIRARALGLAAAAQWIANFAITLSFPVMAAASLPLTYAMYALFAAASFFFVMYKVPETNGMSLEQAETLFVPKGSVKV	PGPT0014440_736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0014440-hxt-K08139	NA	NA
D1-17_00148	1185			hypothetical protein	ATGCTCAACAATAAAAAATGTTCGCCTGTTGCGGCCATTTTGCTGGGTTCACTGCTGCCCGGCATGATCATCGCAACGCCGGCAGTAGCTGCCGTTTCAGTTTCCAAGGCGGAGGTCAGCGGTTCAGCGCTGCGTATCGAGGGAACCGCTATTGCCTCCCGCGACATCAGCGTCGATAACGTGGTGATGGGCCGCAGCGACAGCTCGGGTAAGTTCCGCATCGAGCGTGACCCGTACACAGCGCCCGGAGATTGCACTGTGGATCTGCGGGACGGCTCAACGACTGTGACCACCAGGACCTTGGCCGGGTGCACCGTGACCCAACCGCCGACGTCGGACAGCACTCCTCCCAGCACACCTACTAATCTCACCGCAGCACTTTCGGGCACCACCGCGAACCTCACGTGGACTGCCAGCAGCGATAACGTGGGCGTCACCGGGTATCGCGTGACCCGTAACGGAACCGTGCTAGCTGGCACCGTCACTGGCACGTCCTTCTCCAACTCCGGTCTTGCTGCAGGAACGTACACCTACACCGTGGCCGCGGTAGACGGTGCGGGCAATGTTTCTGCGGCCAGCAACAGCGCATCGGTGACGGTGCCGGAACCTCCGGCCACGGACACCACCGCCCCCTCGGTACCGACAAACCTGAACACCACTATTGTCGGCTCCACCGTCAGCCTCAGCTGGGCAGACAGTACGGATGACACACGGGTGGCCGGTTACCGGGTCAACCGAAACGGCGCCCTCCTGGCTACGACGGATTCGGCAAGCTTCACCGACTCCGGCCTCGCCGCTGGCACCTATACGTACACCGTCGCCGCTTTCGACGCCGCCGGGAATACCTCCGCCGCTTCCAGTAGCGCTTCGGCGACGGTAGCAGCATCCGAGCAACTGACTTTCCTGACTCCGGCACAAATGCCAGATGCCACGGTGGGACAGGCCTACTTGGGCTATATCGTATGCAGTGATCCGCCCGGACCCTCGACGTTCAAGTTCAAACTAACCTCCGGCAGTGTTCCCGACGGAACGCGCTTCGTCGGAAACACTCTCGAGAACAGGCCTGAGGCCAGGGTCACCGGCACACCGACGAGGACCGGTACGTTCACCTTTACCGTGGAGGTCAAGGACAACACCGGCGCGACGGCGCGCAGGACCTTTACGATCAGGGTCCTGCCCGCATAG	MLNNKKCSPVAAILLGSLLPGMIIATPAVAAVSVSKAEVSGSALRIEGTAIASRDISVDNVVMGRSDSSGKFRIERDPYTAPGDCTVDLRDGSTTVTTRTLAGCTVTQPPTSDSTPPSTPTNLTAALSGTTANLTWTASSDNVGVTGYRVTRNGTVLAGTVTGTSFSNSGLAAGTYTYTVAAVDGAGNVSAASNSASVTVPEPPATDTTAPSVPTNLNTTIVGSTVSLSWADSTDDTRVAGYRVNRNGALLATTDSASFTDSGLAAGTYTYTVAAFDAAGNTSAASSSASATVAASEQLTFLTPAQMPDATVGQAYLGYIVCSDPPGPSTFKFKLTSGSVPDGTRFVGNTLENRPEARVTGTPTRTGTFTFTVEVKDNTGATARRTFTIRVLPA				NA	NA	NA	NA	NA
D1-17_00149	1689	mdtD_1		Putative multidrug resistance protein MdtD	ATGTCCACAACCACTGCCGGACGAGCGCCCGGAGATACGCTGACCAAACGCCAGACCATCACCGTCATGGTGGGCCTGATGCTTGGCATGTTCCTGTCCTCGCTGGACCAGACCATCGTGTCGACCTCCATCTACACCATCGCCAATGACCTCGACGGGCTCTCCCTGCAGGCCTGGGCCACCACGGCGTACCTGATCACGTCCACGGTGACCACGCCGCTGTACGGCAAGCTCAGCGACATCTTCGGCCGCCGCCCGCTCTACCTTGCAGCCATCGTGATCTTCCTGGCCGGCTCGCTGTACGCAGGGTCCGTGCACTCGATGACGGAACTCGCCATCGCCCGCGGCCTCCAAGGCATGGGCGCCGGCGGCCTGCTGGCCCTTGCGCTGACCATCATCGGCGACATCGTCTCGCTGAAGGACCGGGCCAAGTTCCAGGGCTACTTCATGTCCGTTTTCGGCATCTCCTCGGTACTCGGCCCCGTGGTGGGCGGCGCGTTTGCGGGTTCCGCCAACATCCTCGGCTTCGACGGCTGGCGCTGGGTGTTCTTCATCAACCTGCCCATCGGCCTGGCCGCCCTGGTGGTGGTGTACCTCTACCTCCACCTGCCCGCCAAGCACGTCAAGCAGAAGATCGACTACTGGGGCGCGGCGGCCATCACCCTGGCCATCGTCCCGCTGCTCCTCGTGGCCGAGCAGGGCCGCAGCTGGGGCTGGTCTTCGGCCGCATCCATCCTTTGCTACGGCCTCGGCATCATCGGCATCATCGCGTTCCTGCTGGCCGAGAAGCGGGCCGGGGACTACGCACTGATCCCGCTGCGCCTCTTCCGCAACATGACGTTCGGCCTGTCTTCGGTGCTGAACTTCATCATCGGCATCGGCATGTTCGGCGCGATCGCCATGCTCCCGATGTACCTGCAGCTGGTCAAGGGCCTCACTCCCACCGAGGCCGGCCTGATGATGATCACCTTCACCATCGGCATTCTCTCCGGCTCCATCACCGCAGGCCGCACCATTTCGGCATCGGGAACCTACCGCATCTTCCCGATCCTCGGAACCGCGATCCTGACCACCGCCGCCGCCGTCATGGGCCTGTCCCTCGGGGCCGACACGGAGCTCTGGGTGCCGGGACTGATCGCCGTTTTCTTCGGCCTGGGCCTGGGCTTCTGCATGCAGCCGCTCACCCTGGCCATGCAGGTCTCCGTGCCGCCAAAGGACATGGGCGTGGGCACCTCCTCCGCCGCGTTCTTTCGATCCATGGGCGGCGCGGTAGGCACGGCAGTGTTCATCTCCATGCTCTTCAGCCTGGCCGCCGACAAAATCGCCGCCGCCATGAAGGACGCGACCCGGAACGCCGACTACCTGAAGGTGCTTAATGATCCTGCGGTGGCGGCGGACCCCGCCAACGCCAAGCTCTACGAGTTCTTCAAGAACGGCGCCAGCAACGACTCGCTCAACGACACCAGCTGGCTGCACGCGGCGGACCCGGTACTCACCCGGCCGATCACCGAGGGCTTTGCGCAATCTATCGACGCCGTGATGCTCACCGCCGCCGCCCTGACCGGCATCGCCTTCCTGATCAGCTTCGCCCTGCCGAACAAGAAGCTGACAGACCCGAAAGCTGCCAGGGCCGCTGAGGCTGGGAAGGGCGCTTCTGCCGCCAAGGCCGAGGCCGTACGCCCGCAGTAA	MSTTTAGRAPGDTLTKRQTITVMVGLMLGMFLSSLDQTIVSTSIYTIANDLDGLSLQAWATTAYLITSTVTTPLYGKLSDIFGRRPLYLAAIVIFLAGSLYAGSVHSMTELAIARGLQGMGAGGLLALALTIIGDIVSLKDRAKFQGYFMSVFGISSVLGPVVGGAFAGSANILGFDGWRWVFFINLPIGLAALVVVYLYLHLPAKHVKQKIDYWGAAAITLAIVPLLLVAEQGRSWGWSSAASILCYGLGIIGIIAFLLAEKRAGDYALIPLRLFRNMTFGLSSVLNFIIGIGMFGAIAMLPMYLQLVKGLTPTEAGLMMITFTIGILSGSITAGRTISASGTYRIFPILGTAILTTAAAVMGLSLGADTELWVPGLIAVFFGLGLGFCMQPLTLAMQVSVPPKDMGVGTSSAAFFRSMGGAVGTAVFISMLFSLAADKIAAAMKDATRNADYLKVLNDPAVAADPANAKLYEFFKNGASNDSLNDTSWLHAADPVLTRPITEGFAQSIDAVMLTAAALTGIAFLISFALPNKKLTDPKAARAAEAGKGASAAKAEAVRPQ	PGPT0010360_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0010360-otrB|tcr-K19542	NA	NA
D1-17_00150	495	rraA_1	COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGACCGCTTCGCCTGCCAGCCCTTCCGCCGCCGTCAACACGGCCGACCTTTACGACGAACGCGGTGAGGAACTGAACTCCCTGTCCCTGCAGTTTCAGTCTTTGGGCGGCCACTCACATTTCAGCGGACCGGTCAGGACCATCCGCTGCTTCGAGGACAACGGGCTGGTCAAGTCCACCCTGGCCACGCCCGGCAACGGTGCTGTTCTGGTAGTGGACGGTTCCGGCTCCCTGCGCACCGCCCTGATGGGGGACATGATCGCGGCGAGCGCCGTGGCGAACGGCTGGGCCGGCGTCGTGATCAATGGCGCCATCCGCGACCGGGCGGCGGTCGCAGACATGCCCCTCGGCGTCAAGGCCCTGGGCAGCAACCCACGCAAAAGTTCAAAGGCGGGTGCCGGGGAGACCGACGTTGACGTGCTGATCGACGGCGTGACCATCCGTACGGGCGTCATGATCTGGTGCGACCCGGACGGCATCCTCATAGAGCGCTGA	MTASPASPSAAVNTADLYDERGEELNSLSLQFQSLGGHSHFSGPVRTIRCFEDNGLVKSTLATPGNGAVLVVDGSGSLRTALMGDMIAASAVANGWAGVVINGAIRDRAAVADMPLGVKALGSNPRKSSKAGAGETDVDVLIDGVTIRTGVMIWCDPDGILIER				NA	NA	NA	NA	NA
D1-17_00151	1302			hypothetical protein	ATGAGTCTGTCCGACATTCCGGGTGCAGTTCCCGAGCCCGGCCTGATAGCTGCGCGGCAGGCCGGTGCGCTCGCCGAGCCGACAACCCGCGTCAGGCCCTTGTGGATCAGCGGAGTGGTGCTGGTCAACCTGGGAATCAATGCGGCCTTCTTCGGGCCCATCCAGGTCTTGCTTGGGCAGCAGGCCGAGCATTTCGATCCCGGCCAGAAGGAAGCAATCCTCGCCCTGGTGACTGGAGCCGGAGCCGCGGTGTCGCTCGTAGTGAACCCCCTGTTTGGCGCCTTTAGTGACCGGACTACGTCCCGCTACGGCCGCCGCGTGCCTTGGGTGCTGGCCGGCGCCGTGCTGGGTGCGGTTGCGCTGGTGGGTTTGGCCGGAGCCCCGAACGTGGCGGCCATGACCCTGCTGTGGTGCCTCGTGCAGGCAGGCTGCAACGGCGCCTACGCAGCCATTACCGCTGCCGTTCCTGACCGTGTTCCTGTTCCGCAGCGTGCCACGGTCGGCGGGCTGGCGGCGATGGGCCAGACGGTGGGCATCCTGCTCGGCGCGGTGATTGCCGCCGTCGTCAGCGGAAACTTCGCGCTGGGTTACGTAGTGTGTGCGGCAGCGCTGGTGGCCGGCGTCGTTATGTACCTCTTCAAGAGCGACGACGCGCCGCTACCGGCCGCCGCCCGCCCCGGGCTGAACTGGGCCGAGTTCCTGATCGGCTTTGTCCGGCCGCTGCGCCACCCCGACTTTGCCTGGGCGTGGATCACCCGGCTGCTGGTCAACATCGGCAACCACATGGTCACCCTGTATCTGCTGTTCTTCCTCGCGGATGCTGTGCGCCTGAAGGAAACTGCAGGCCTCGAGCCGGCAGTTGGAGTGCTGGTGCTGACCGGTCTCTACGCCGTCTTCGTCATCATCACCAGCGTGCTGGGAGGCCGGCTTAGTGACCGGATGGGCAAGCGCAAGCCGCTGGTCATCGCATCCTCCGGAATCATCGCGCTGGCATCCCTGATCCTGGCCTTCGCTCCCACCTGGGTCGGAGGCATTGTGGGCGCCAGCGTGCTGGGCATCGGCTTCGGCGCGTACCTTGCCGTGGACTTCGCCCTCATCACCCAGGTGCTGCCCAGCGCGGGTGACCGGGGCAAGGACCTCGGCGTCATCAATATTGCAAATTCCCTGCCCCAGGTCATTGCCCCGGTGCTGGCCTGGCCCTTCGTCACGCTGTGGGGCGGCTACGTCTCTCTCTACGTCGCCGCCGCGGTTATCGGGCTGCTGGGCGCCGTGTTCGTAGTCAAGATCAAGGGCGTCGACTGA	MSLSDIPGAVPEPGLIAARQAGALAEPTTRVRPLWISGVVLVNLGINAAFFGPIQVLLGQQAEHFDPGQKEAILALVTGAGAAVSLVVNPLFGAFSDRTTSRYGRRVPWVLAGAVLGAVALVGLAGAPNVAAMTLLWCLVQAGCNGAYAAITAAVPDRVPVPQRATVGGLAAMGQTVGILLGAVIAAVVSGNFALGYVVCAAALVAGVVMYLFKSDDAPLPAAARPGLNWAEFLIGFVRPLRHPDFAWAWITRLLVNIGNHMVTLYLLFFLADAVRLKETAGLEPAVGVLVLTGLYAVFVIITSVLGGRLSDRMGKRKPLVIASSGIIALASLILAFAPTWVGGIVGASVLGIGFGAYLAVDFALITQVLPSAGDRGKDLGVINIANSLPQVIAPVLAWPFVTLWGGYVSLYVAAAVIGLLGAVFVVKIKGVD				NA	NA	NA	NA	NA
D1-17_00152	600			hypothetical protein	ATGCTTGAATTTAATCCAGATCTTCCGCCCATGGCCGCTCCGCCCTCCCTTCCCCGGCAGCAGGCCCGCTATGCCCGCATCCTCGACGTAGCGGCCGGCTTCGCCCGCAAGGGACTCAAAGCGGTGACCCTTTCCGAGGTCGCTGCCCAGGCCAACGTCCCCCTCAGCACGCTGTACCGTTACTTTCCCTCGCCCGCCCATCTGATGCTTGCTCTCTACCGGCACCAGCTGAGCGAACTGAAGGTGAACACCTGGCCGGGCGGCGGCACCGTGCGCGTCCATGCCCTGTCCGGGGTGGTGATGGAAATATTCCACATGCGCGTCATGCAGCCCGCCGTCGAGCAGTGCCTCAGCAAGGGCGTCTACGTCGGGAACCGGGACACCACTGCCTTGTTGCGGGAGATAGACGCCCTGTCTGAGCGGGCCGTGACGGCCGCCAGCGGCGATGAAGCCATCTCCAAGGTGCTGCTCCTGGCGGTCACTGGTCTAGTCCAGTCGGTGCGGTGCCGGCGGCTCTCGCTGCTCGAAGCGGAGGAAGACCTCAAGAAAGCATGCTCGGTGCTGGTCCCTAAGCCCCGTGCCCTGCGCCATACAGCGTAA	MLEFNPDLPPMAAPPSLPRQQARYARILDVAAGFARKGLKAVTLSEVAAQANVPLSTLYRYFPSPAHLMLALYRHQLSELKVNTWPGGGTVRVHALSGVVMEIFHMRVMQPAVEQCLSKGVYVGNRDTTALLREIDALSERAVTAASGDEAISKVLLLAVTGLVQSVRCRRLSLLEAEEDLKKACSVLVPKPRALRHTA				NA	NA	NA	NA	NA
D1-17_00153	1206			NAD-dependent malic enzyme	ATGTCAACCGAAACGATCGCCTCTATCGACAACACTGCGGCCGAAGCCCTGACTGAGCAGGAAATCTTCACAGCCCACGAGGGCGGCAAGCTCTCCATCGCAAGTAGCGTCCCGCTGGCGAACAAGCGTGACCTGTCCATTGCCTACACCCCCGGCGTTGCCGAGGTCAGCCGGGCCATCCACGCTGACCCGGAACTCGCCAAGACCCACACTTGGGCCCAGCGCCTCGTGGCCGTGGTCAGCGACGGCACCGCCGTACTCGGCCTTGGTAACATCGGTGCCAGCGCTTCCCTCCCGGTGATGGAGGGCAAGTCCGCCCTGTTCAAGGCCTTCGGCGAGCTGGACTCGATTCCGTTGGTCCTGAACACCACTGACGTAGACGAGATCGTGGAAACGCTGGTCCGGTTGCGCCCCAGTTTCGGTGCCGTCAACCTCGAGGACGTATCAGCCCCCCGCTGCTTCGAGCTGGAAGAAAAGCTCATCGAGGCGCTCGACTGCCCCGTCATGCATGACGACCAGCACGGCACCGCCGTCGTCGTCCTGGCCGCGCTGACCGGAGCCGCCAAGGTCACCGGGCGCGACATTGAAGGCCTGCGTGTTGTGGTTTCCGGTGCCGGCGCCGCCGGTATCGCCGTCGCGGAAATCCTGCTCACCGCCGGCATCACGGACGTGGTCCTGCTCGACTCCCGCGGTGTCATCAACAGCGAGCGTGCCGACATCGCCGCCGACCCAGCCAGCAAGAAGGCGCAGATGGCGCAGCGGAGCAACCCGCGCGGCATCACAGGCGGCCCGGGCGAAGCCCTGCTGAACGCTGACGTTTTCGTGGGCGTCTCCTCCTCGAAGCTGGACGAGGAACACCTGAAGCTGATGAACCACAGCTCCATCGTGTTCGCACTCTCCAACCCGGACCCCGAAGTGCTGCCCGAGGTCGCCGCAAAGTATGCGGCCGTCGTCGCCACCGGCCGCAGCGACTTCCCCAACCAGATCAATAACGTCCTGGCCTTCCCCGGAATCTTCCGCGGCGCCCTGGACGCCGGGGCGCGCCGCATCACCCCGGCCATGAAGCTGGCCGCCGCCCGCGCCATCGCAGAACTGGCCGCTGAGGATCTGTCCGCGGACTACATTGTGCCGAGCCCGCTTGACCCGCGCGTGGCGCCGGCCGTCACGGCCGCTGTCGCGGCAGTGGCAGCGGCAGAAGCGCTCTGA	MSTETIASIDNTAAEALTEQEIFTAHEGGKLSIASSVPLANKRDLSIAYTPGVAEVSRAIHADPELAKTHTWAQRLVAVVSDGTAVLGLGNIGASASLPVMEGKSALFKAFGELDSIPLVLNTTDVDEIVETLVRLRPSFGAVNLEDVSAPRCFELEEKLIEALDCPVMHDDQHGTAVVVLAALTGAAKVTGRDIEGLRVVVSGAGAAGIAVAEILLTAGITDVVLLDSRGVINSERADIAADPASKKAQMAQRSNPRGITGGPGEALLNADVFVGVSSSKLDEEHLKLMNHSSIVFALSNPDPEVLPEVAAKYAAVVATGRSDFPNQINNVLAFPGIFRGALDAGARRITPAMKLAAARAIAELAAEDLSADYIVPSPLDPRVAPAVTAAVAAVAAAEAL	PGPT0001350_2657	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001350-maeA|sfcA|ywkA-K00027	NA	NA
D1-17_00154	504			hypothetical protein	ATGAACCCCGAGACCGTAGTGACTGTCCTGTGCGGCGCGGCCATCCTCGTGGGTGTGGCCGGCACCGTCATCCCTGTCCTGCCGGGCAGCTTCCTGATCGGCCTCAGTCTGCTGGCCTGGGCCATCTGGGGAGGTGAAGGCACCACCGGGTGGGTGGTTTTCGGCATCGGCATGGTGTTCGTGCTTGCAGGCATGGCTGCCAGTGCCGTGTTGGCTGGACGAAAGCTCAAGCAGCACCGGATTCCCAACCGAAGCGTTGCGCTGGGCATCGTCCTGGGCATCGCGGGCATGTTCGTCATCCCCGTGGTGGGCCTTTTCGTTGGGTTCGCCGCCGGACTGCTGCTGAGCGAGGTCCAGCGTACACGGAACGCCCGTACCGCTATGATCACCAGCTGGGCTGCCCTCAAGGCCACCGGCCTGGGCATCCTGGTGGAATTCGGACTGGCTTGCCTTGCCGCAAGTACCTGGTTGGTCGGCGTGTGGGTGGGCGCGGCTTCGGGCTAG	MNPETVVTVLCGAAILVGVAGTVIPVLPGSFLIGLSLLAWAIWGGEGTTGWVVFGIGMVFVLAGMAASAVLAGRKLKQHRIPNRSVALGIVLGIAGMFVIPVVGLFVGFAAGLLLSEVQRTRNARTAMITSWAALKATGLGILVEFGLACLAASTWLVGVWVGAASG				NA	NA	NA	NA	NA
D1-17_00155	936			hypothetical protein	ATGTACCGCGACAGCCGTGACCTCACTCCGTTCGGCGCCGGACAGGTCCGGACGCCCGTGCGCGAGATCGCCGAAGGCGTGGGCGGGATGATCCACGGCGTACTGGGCGGGCGGCATTCCGACCTGATCGGCGTGGAAGGCACCGTCCCCAGGCTCAAACTCCTGCCGGGGAAGCCCGCCAAGGCGGTTTACGATGCAATCTTCACCAGCACCGAACCCAACCGGCTCATTGCGCTGGGCCGGGAATACCCCGGCTGGGCCGGACTTTGCTATGTGATGGCCGGCCTGTTGTCCCACAAGCAGGGCGGATACCTGCGTGCCGTGGAGCTGCTGCAGCGCGGCCTCAGCATCAGGAACGACGACGAAGCGAACCAGTTCGCCGCCAGTTATCTCACGCGTGTGCTCACCCGCGTTGAGGTCGCGGAGCGCATCGAGGTTCCGGTGCTGTTCAGCGAGGAGGCGGTGTTCCTGGCGCTGTCCCAGTCCCTGCGTGAGACGGGCCAGACGGAAGCCGCTCTTGAAGCGCTGACCATGCTGCCGCCGTCGTTGCCTACCGCGCTGGCCAAATGCTCGCTGGCCTACACCCTCGGACGCGACCAGGAGGTGGTGATCTGGACGGAGGGCCTGCTCAACGCCGATGACCTGTCCGCCGCACTGCTGCTGGTGCGCGCCCGCTCGCTCCGCCGCCTGGGCGCGCACGAGCATGCTCAGCGGGCGCTAAGGGAGGTGCTGCGGCGACGGAAAACCAGCATGGCGCTGCGCAATGACGCCATCACCGACCGCGCCATGCTGGCGCTGGACAATGGCCGCAAATCCCTGAACCCGCGCGACTGGCGGCGCAGGCGCGCGGAGTTGGAAACATTTGAGGTCATCCGCAAGGACGTGGAGGCACGCAGGCTCTGGGAACAGGAGTGGAAGCGGCTGGACGGGGACTGA	MYRDSRDLTPFGAGQVRTPVREIAEGVGGMIHGVLGGRHSDLIGVEGTVPRLKLLPGKPAKAVYDAIFTSTEPNRLIALGREYPGWAGLCYVMAGLLSHKQGGYLRAVELLQRGLSIRNDDEANQFAASYLTRVLTRVEVAERIEVPVLFSEEAVFLALSQSLRETGQTEAALEALTMLPPSLPTALAKCSLAYTLGRDQEVVIWTEGLLNADDLSAALLLVRARSLRRLGAHEHAQRALREVLRRRKTSMALRNDAITDRAMLALDNGRKSLNPRDWRRRRAELETFEVIRKDVEARRLWEQEWKRLDGD				NA	NA	NA	NA	NA
D1-17_00156	387			hypothetical protein	ATGTGGCCGCCGGAGTACAACGGACAAATGACTGATGCAATCCGGCAGTGGATGGAAAAGTACATTGCTGCATGGGAAACGAATGAACCCGAGGACATCCGGGCGCTCTTCACCGAGGATGCCGTGTACGCCACTCGCCCCTACGACCCTGATGCCTGGCGCGGCCGTGAGCAGATCGTGGACCGGTGGATCGCCTCCGCTGACGAGCCCGAGGACTGGAGGTTCGAATGGTCCGTGCTGGGCACCGACGGCGACCTCGCCTTTGTCCAAGGGCGGACTACCTACCTGGATGACCGGCCCAGCTACGAGAACCTGTGGGTGGTCCGGCTTGCCCCGGACGGACGTGCCAGTGCCTTCACCGAATGGTTCATGGAGCGCAAACCCTGA	MWPPEYNGQMTDAIRQWMEKYIAAWETNEPEDIRALFTEDAVYATRPYDPDAWRGREQIVDRWIASADEPEDWRFEWSVLGTDGDLAFVQGRTTYLDDRPSYENLWVVRLAPDGRASAFTEWFMERKP				NA	NA	NA	NA	NA
D1-17_00157	642	rhtB_1	COG1280	Homoserine/homoserine lactone efflux protein	GTGAACCCCGAGTTATTCCTAGCGTTCGTGCTGGTCGCTGCGGCCCTGGCCTGCACTCCCGGGGTGGACTGGGCGTACTCCATAGCGGCCGGGCTGGGGCGCCGCAGCTTCGTTCCCGCAGTGGCGGGGTTGTGCAGCGGCTATGTGCTGCACACAGCGCTCATGGTGGCCGGGCTGGCTGCCGTGCTTGCAGCTTCACCGGAGATCCTCGGATGGCTCACTGTGGCCGGGTCGGCCTACCTGCTGTGGCTGGGGGTTGCGACCATACGGTCGTGGCGGGGTGCAAGCTTCACTGTGGCAGACGACCTCAGCACCGGCAGGAACCAGCTGCGGACGTTCTTCCAGGGCATGGGGACAAGCGGCATCAATCCCAAGGGCCTGTTGTTTTTCGTGGCCCTGGTGCCCCAGTTCGTCAGCGCGGAGGCTGCCCTGCCCGTCCCAGTGCAGTCTGGCCTCCTCGGACTGACCTTCGTGCTGCTGGCCGCCGTCGTCTACACCGCTGTGGCCCTGTTGGCCCGCAGGCTACTGCAGTCCAGGCCGGGTGCGGCCCGGCGGGTGACCCTGGCCAGCGGAATCATCATGGTTGGCCTCGGCGCCGCACTCCTCTCCGAACAGCTTCTGCCGCTGGTCCCAAGTCTCTGA	MNPELFLAFVLVAAALACTPGVDWAYSIAAGLGRRSFVPAVAGLCSGYVLHTALMVAGLAAVLAASPEILGWLTVAGSAYLLWLGVATIRSWRGASFTVADDLSTGRNQLRTFFQGMGTSGINPKGLLFFVALVPQFVSAEAALPVPVQSGLLGLTFVLLAAVVYTAVALLARRLLQSRPGAARRVTLASGIIMVGLGAALLSEQLLPLVPSL				NA	NA	NA	NA	NA
D1-17_00158	402	decR_1	COG1522	DNA-binding transcriptional activator DecR	ATGACCGCCACGGCGCTCGCTGCGAAGGTCGGGCTCACTGTCGCTCCCTGCCATCGGCGACTCCGCGACCTGGAGAGCGCCGGGGTGATCCGCGGGTACAAAGCGGACATCGACCCGAGTGCTGTGGGACTGGGGTTTGAGGCGATTGTCTTCGTGACGCTGCGGCAGGTTGACCAGTCCACCATGGAGATTTTCGAGAACCGCGTGGCCGGGAACCCGAATATTGTGGAAGCGCAGCGGCTCTTCGGTTCGCCGGATTACCTGCTCAAGGTGATTGCCGAGGACCTTCCGGCCTATCAGCGGTTTTACGACACCGAGCTCACGGTCCTGCCCGGCGTCGAACGGCTGACGTCGACGCTGGTGATGAAGAACCTCAAGTCGAATGCCGGTCCGCCCGTATAG	MTATALAAKVGLTVAPCHRRLRDLESAGVIRGYKADIDPSAVGLGFEAIVFVTLRQVDQSTMEIFENRVAGNPNIVEAQRLFGSPDYLLKVIAEDLPAYQRFYDTELTVLPGVERLTSTLVMKNLKSNAGPPV				NA	NA	NA	NA	NA
D1-17_00159	2730			hypothetical protein	ATGCGCTCTTTTTCCCGTTCAATTGCCGCAGCGACCGGGCTGCTGGTCTTCGCCGCCGGACTTGTTTCGCTTCCGGCCAGCCCCACGTTTGCCGCGTCGGATCCCGCAGCGGAGGGCACCGCACTGACGGTGGAATCCCCTGAAGACTTCGAGCACCACTCATACGAGTCGGCGCCGGGCGTCCCTATGGACGGTCCGCCGGAGGGGCTGGCCCTGGATACCGAGGCCGGCACAATGGCTACCGCACCCATCAAGGTCAGGCTAGTCACCGCGAAACTTGCTGACACTGGCACCAGCATTGTCGACGTTGAGGCGGGGAAGCGCGCCATAGCCGCCACCAGCAACTACTGGAAGGCGATGTCAGGCGGCCGTGTCTCCATGACTGTGGAGCCGGCATGGACAAAGGTCGGGCACGTTTCCAAGGCCACGTCCACGCAACCGTACTGGGACGTCATCAACACGATCACCGCGGAGTTGAAGTGGTCCTACAGCACCAACACGGCTCTGGTCATCTTCGTCCCGACAGAGCGGCTGGGAGGCTGGGCCCTCGGCGTCGCCTACAGCAGCAGCGGTAACAGCGGCCGGGTCCTGATGCCAAAAATCAGCGGCTTCACGAATCCAGTGATGACGCACGAGTTCGGACATGTGCTGGGCGCCATGCATGCGGACTCTCTGCAGTGCCGCAGCGGCATTTCCGACGTCGGCACAACGAGCACAGGGCAGTTCCAGGACTCGACCTGCTCCATCCGCGAATACGGTGACAGCACCGACCTGATGGGGATGTCCAGCTACAGCATGCCGGTCATCAGCTCGCCCTCCTGGGAGGCCCGGGGGCTCGGCAACGGCAGGGAAGTACGGAACGTCGGCGTGGCCACGGGTATTAGGACCTACACGCTCCTGCCGTGGGGCGGAACATCTGATTACAGGGCGCTCAAATTCACCGACCCCATCAGTCGGGAGACCTACTACCTCGAGTTGCGTCAGCCTGTGGGCTATGACAACTACTTGAGCAATGACTATGCAGGCAACCGTGGCGTCAAAATCGTCCAGCGCGGCGGGGCCACTGCTGCATCATCGCTGATCCTGATGCCGTCAACCCGGCCGTTCCCGGGTTCGTACGCAACGAATCACACCTGGCAGGCCGGGCAGACATTTGTGACCCATGCCGGAACGCGCGTCACCGTCAAGACTGTCACGGCCACGTCAGCCACCGTCACCATCAACGCCGATCCGGGCACATGGACAAAGATCCAGTTCTCTGCCGGTGATTTCAACGGCGACGGCCGGCCAGACGTCATTTCCCGCGAAGGGGACGGCTCGCTCATGCTGCTCGCCGGCCAGGCCGGAAACAAGATCGGGTCACCGACCCGCTTTGCCGGCGGCTGGAACATCTTCAACACGGTGGTCGGCAATGCCGACTTCACTGGAGACGGAATACCGGACATCTTCGGCCGCACCTCAGGGGGCGAACTGTGGCTGTACCCGGGCAACGGCAACGGCCACTTCCTTCCCCGGATCCGCATCGGCGGCGGCTGGCAGATCTTCCAGCGCATCGTCACTCCCGGTGACGTCACCGGCGACGGCAAGGCGGATCTGGCGGGCATCAAGTCCGATGGGACGTTGTGGGTGTATCCGGGCAATGGCCGGGGCGGCCTGCTGCTTTCAAGCAACGTCGGCTCAGGGTGGGGGGGCTTCAACGCCGTCGCTCCTGCCAGCGGTTTCAGCGGTGCCCGCGGCGGTCTGTTTGCCCGCAATTCGACCGGATCCCTCTTCTTCTATCCGGGCAACGGGAACGGTGGATTCCTGCCGCCCACCGCGCTGGGAGGCGGCTGGGGACCCTTCAAGGACCTGATCGGCGGACAGGACTTTACCGGCGACGGACAGAAGGACCTGCTCGTCACCACGGCAACCGGTCCCGCCGCACTGTACCCCGGAAACCAGAGCGGCAAGTTTGCAACCCGGGTCACCATCGGCACTGGCTGGGACAAGTTCCGCCAGGTCTGGGAAGCCGGCGACGCGACCGGCGACGGCCGATCGGACATTTTCGCGCTCACACCCCAAGGCACCCTGTGGCTCTACCCCGGCAACGGGTCCGGCGCTTTCCAGACCGCACGGCAGCTGAACTCCGGATGGCAGACGTATGACCAGATCTTCAGCGCCGGCAATTTCAACGGAAGCGGCGGGATTGATCTCATAGCACGGGATGCTTCAGGCGTGCTCTGGGTTTACCCCACCGACGGGACAGGCAGGTTGCTGCCGAGAAAGCTGCTGAGCACCACGCTGAAGGGCTTTACCCGATTCCTGTCTCCCGGCGATTTCACCGGCGACGGCAAGAGCGACCTCCTCGCACTGGCACCCGACGGACGTCTCTGGCTCTATCCGGGAAATGGTGTGGGCGGGCTGCAGAGCCCCCGCTCACTGGGGCACGGCTGGAACGCGTTCAACCAGATTGTCAGTGCCGATGACTTCACGGGAGATGGCCGCAATGATCTGATGGCCAGGACCGTGGAAGGCAGGCTGTGGCTTTACCCAGGAAACGGCACAGGCGGTGTTCTTGCCAGGAGGGATCTGGGTGGCAACTGGAACATCTACAAGTCCATAGCCAACGTGGGCCGGTTCGCCGGAACCGCCAGCCCCGGCCTTATCGGGACGGCGCACGATGGCACGCTCTGGCTCTATGCCGGCGACAGGCGGGGCGGCTTCCAGGCGTCCATTCTTAACCCGCGCTGA	MRSFSRSIAAATGLLVFAAGLVSLPASPTFAASDPAAEGTALTVESPEDFEHHSYESAPGVPMDGPPEGLALDTEAGTMATAPIKVRLVTAKLADTGTSIVDVEAGKRAIAATSNYWKAMSGGRVSMTVEPAWTKVGHVSKATSTQPYWDVINTITAELKWSYSTNTALVIFVPTERLGGWALGVAYSSSGNSGRVLMPKISGFTNPVMTHEFGHVLGAMHADSLQCRSGISDVGTTSTGQFQDSTCSIREYGDSTDLMGMSSYSMPVISSPSWEARGLGNGREVRNVGVATGIRTYTLLPWGGTSDYRALKFTDPISRETYYLELRQPVGYDNYLSNDYAGNRGVKIVQRGGATAASSLILMPSTRPFPGSYATNHTWQAGQTFVTHAGTRVTVKTVTATSATVTINADPGTWTKIQFSAGDFNGDGRPDVISREGDGSLMLLAGQAGNKIGSPTRFAGGWNIFNTVVGNADFTGDGIPDIFGRTSGGELWLYPGNGNGHFLPRIRIGGGWQIFQRIVTPGDVTGDGKADLAGIKSDGTLWVYPGNGRGGLLLSSNVGSGWGGFNAVAPASGFSGARGGLFARNSTGSLFFYPGNGNGGFLPPTALGGGWGPFKDLIGGQDFTGDGQKDLLVTTATGPAALYPGNQSGKFATRVTIGTGWDKFRQVWEAGDATGDGRSDIFALTPQGTLWLYPGNGSGAFQTARQLNSGWQTYDQIFSAGNFNGSGGIDLIARDASGVLWVYPTDGTGRLLPRKLLSTTLKGFTRFLSPGDFTGDGKSDLLALAPDGRLWLYPGNGVGGLQSPRSLGHGWNAFNQIVSADDFTGDGRNDLMARTVEGRLWLYPGNGTGGVLARRDLGGNWNIYKSIANVGRFAGTASPGLIGTAHDGTLWLYAGDRRGGFQASILNPR				NA	NA	NA	NA	NA
D1-17_00160	459	decR_2	COG1522	DNA-binding transcriptional activator DecR	TTGCAGCAGCTGGACTCGACGGACAGACGGATCCTGGCAGCCCTGGACGAGGACCCGCGGCTCCCCATCATGGTGCTCGCCCAACGTCTCGGCCTGGCGCGCGGGACTGTCCAGTCCCGGCTGGAGCGGATGACGGCGTCGGGGGCCTTGCGGCCCAACAGCAGCCGCGTGCTTCCGGCCGCGCTGGGCCGGGGGGTCGCCGCGGCGGTCAGCGCCGAACTGGACCAGAGCCACCTCAATGAGGCTATTGCAGCCCTCCGGGAGATTCCCGAAGTGCTGGAGTGCCATGCCCCTGCCGGGGACACAGACCTGCTGATCAGGGTAGTGGCCACGAGCCCGGATGATCTCTACAGGGTCTCGGAGGAGATTCGGCTGTGCCCCGGGATCGTTCGTACGTCAACCAGCATGTTTCTCCGCGAGGTCATTCCTTACCGGACCACCGGGCTGCTGCGCACCTGA	MQQLDSTDRRILAALDEDPRLPIMVLAQRLGLARGTVQSRLERMTASGALRPNSSRVLPAALGRGVAAAVSAELDQSHLNEAIAALREIPEVLECHAPAGDTDLLIRVVATSPDDLYRVSEEIRLCPGIVRTSTSMFLREVIPYRTTGLLRT				NA	NA	NA	NA	NA
D1-17_00161	909	gltX1		Glutamate--tRNA ligase 1	GTGGTGTTCGGCTTTAGGCTGGAGGGCATGACCCACGCCGGCCGTTTCGCCCCCAGCCCGTCCGGTGAGCTGCACGTCGGGAACCTGCGCACCGCCGTGTTGGCCTGGCTGTTCGCGAGGTCCACTGGCCGGCGCTTCCTCTTGCGGGTCGAGGACCTGGACCGTGCCCGCGCCGGTGCCGAGGCGCAGCAGTTGCGGGACCTGGCCGCGATAGGGGTGACATGGGACGGGCCCGTGGTCCACCAGACCGACCGTGGGCGCCTTTACCAGGAAGCGATCAGCAGGCTCGACGCTGCCGGGCTGACATACGAATGCTTCTGTACCCGCCGGGAGATTCAGGAGGCCCCGTCCGCGCCGCATGCGCCTCAGGGCGCCTACCCGGGAACCTGCCGGAACCTGTCCATGGCAGAACTCCAGGCTAAGCGGCATATCCGGCCTGCCGCCATCAGGCTCCGCTCCGCGGTGAACCACTGGATGGTGGAGGACGCGCTGCACGGGAGCTTTACCGGGGTGGTGGATGACTTCGTGCTGCGCCGGAACGACGGGGTCACGGCGTATAACTTGGCCGTCGTGGTGGATGATGCGGCGCAGGGCGTAGACCAGGTGGTCAGGGGCGATGACTTGCTGCCTTCCACCCCCAGGCAGGCATATCTCGCCTCTCTCCTGAATATTCCCGCGGTGGAATATGCTCACGTGCCCCTCGTGCTGAATTCCCGCGGCGTCCGGCTGGCCAAGCGTGACGGAGCGGTCACGCTCGCCGACCTCGCCGCCGTCGGGATCGCTGCCACCGAAGCGCGCCGGAGAATTCTGGTGTCGCTCGGCTTGCCCGGCGACGGCCTGGAAGCTGCGCTGCGCGTGTTCAGTCCGGCAATCTTGCCGCGTGAGGCGTGGGTCTGGCCGGGCGTGTAG	MVFGFRLEGMTHAGRFAPSPSGELHVGNLRTAVLAWLFARSTGRRFLLRVEDLDRARAGAEAQQLRDLAAIGVTWDGPVVHQTDRGRLYQEAISRLDAAGLTYECFCTRREIQEAPSAPHAPQGAYPGTCRNLSMAELQAKRHIRPAAIRLRSAVNHWMVEDALHGSFTGVVDDFVLRRNDGVTAYNLAVVVDDAAQGVDQVVRGDDLLPSTPRQAYLASLLNIPAVEYAHVPLVLNSRGVRLAKRDGAVTLADLAAVGIAATEARRRILVSLGLPGDGLEAALRVFSPAILPREAWVWPGV	PGPT0008460_6220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
D1-17_00162	1317	ftsH_1		ATP-dependent zinc metalloprotease FtsH	ATGACCAACTGGCGGATCAGGGATTTTCACACGTCGGACCTGGACGGCATCCTGCACCTCTGGGAGTCGCTCAAGGCCAACAACGTCGAACCCGTCTACGCGCTCTCCGAGGTGCTGGCATCCTGCGAGAAGGACCACGCCGTGGTGGCCGTGCAGGGAGACCTCGTAGTGGGTGCCGCCGTCGGCCGCGCCGCCCATGACCAGGGCTGGATCGTCTTCCTCGCGACCCTTCCGGAATACCGTGGCCGCGGAATCGGCACCTCGCTGCTGGCCGGCGTCGAAAACCGGATGGCCCCGCTCGGGCTGAACAAACTCTCGGCCCTCATGCCCGAATCGGAGACCCGGGTGGAAGCCTTCCTGAGCCAGGGTTTCCTGCTGAAGAAGAACCTGCGCTACTTCGAGCGGACCATTCCCGTGCAGCGCCAGGAACTCGAGCCGCTCAGCCTGCTCGGCGGCCGGGTCCTCGCACGGGACCTGTGGGAAAACGTGGCCGGCATGCGCCGCGAGAAGGAACTACTGGAGCGCCGCCTGGTCCTCCCCCTGGCGGAGGCCGACCTCGCTGATGAGTACGGCGTGGTGCCGCCGCGTGCCGTCGTGCTGTTCGGTCCGCCCGGCACGGGCAAGACGACCTTCGCGAAGGCGATCGCCTCGCGACTGGAGTGGCCCTTCGTGGAGGTGTTCCCCTCCCGGCTGGCTTCCGACCCCAAGGGCCTGGCCGGCGCGCTTCGGGAAACATTCCTGGAGATTGCCGAGCTCGAGCATGCCGTGGTCTTCATCGACGAGGTGGAGGAAATCGCGGCCCAGCGGTCCGGCGAGCCTCCGTCGCCGCTGCAGGGCGTCACCAATGAGCTCCTCAAAATCATCCCGGCTTTCCGTGAACAGCCCGGGCGGCTGCTGGTCTGCGCCACCAACTTCATCCGTGCGCTCGACTCGGCGTTCCTGCGCCACGGCCGCTTCGACTACGTCATCCCCATCGGCCTGCCAGACCGCCAGGCCCGCGAAGCCATGTGGCAGCGCTTCATCCCGGCCACCGTCGTGGATGACGTAGACGTCGAGCTGCTTGTCGACCGCACCGAGGGTTTCTCCCCGGCAGATATCGAGTTCGCGGCACGCAGCGCCTCCCAGCGCGCTTTGGAGAAGGCAGTGTACGACGACGGCGGGCTGGCGTCCGGAGGCACCGTTGCCGTCCGCGATGCTGTCCGCAAAGGACCCGCGACCCAGGATTACCTTGATGCCGTCGCCGAAACTCGGACCACAGTGAGCAAAGAGGTGCACGAGCAGTTCCTCGAGGACATCGACGCCCTGGGCCGCGTGTAG	MTNWRIRDFHTSDLDGILHLWESLKANNVEPVYALSEVLASCEKDHAVVAVQGDLVVGAAVGRAAHDQGWIVFLATLPEYRGRGIGTSLLAGVENRMAPLGLNKLSALMPESETRVEAFLSQGFLLKKNLRYFERTIPVQRQELEPLSLLGGRVLARDLWENVAGMRREKELLERRLVLPLAEADLADEYGVVPPRAVVLFGPPGTGKTTFAKAIASRLEWPFVEVFPSRLASDPKGLAGALRETFLEIAELEHAVVFIDEVEEIAAQRSGEPPSPLQGVTNELLKIIPAFREQPGRLLVCATNFIRALDSAFLRHGRFDYVIPIGLPDRQAREAMWQRFIPATVVDDVDVELLVDRTEGFSPADIEFAARSASQRALEKAVYDDGGLASGGTVAVRDAVRKGPATQDYLDAVAETRTTVSKEVHEQFLEDIDALGRV				NA	NA	NA	NA	NA
D1-17_00163	486			Universal stress protein	ATGGCAACGGAAGGAAAAGTAGTCGTCGGCGTCGACGGCTCGGAATCGTCCATACAGGCACTGCGCCTGGCGGCGCGGCTGGCGCCCGCCCTCGATGCCAGGGTCCACGTGGTCGCGTGCTGGGACTTCCCGCAAATGTATGCCGGCTATGTTCCGCCGGACTTCGAGGCGTTCGAGACGGCAGCGGCGAAAACCCTGGCCGAAACCCTCGACAAGGCCTTTGGTTCCGACACTCCTGAGGGCATCACCCAGGACCTGATTCGTGGACCGGCGCCGGCAAAGCTCGTCGAGGCCGGGGCAGGTGCTGCGATGCTGGTTGTGGGACGGCGCGGCCACGGCGGGTTCCTCGGCATGCACCTGGGATCGGTGAGCTCGGCGTGCGTCTCACACGCTGACTGCCCCGTGCTGGTGGTTCACACAGACGGCAGCCACCGCACCCACCATCTGTGGAAGGGCTCGAAGGGCCACAGACAGCCCGACGCTTGA	MATEGKVVVGVDGSESSIQALRLAARLAPALDARVHVVACWDFPQMYAGYVPPDFEAFETAAAKTLAETLDKAFGSDTPEGITQDLIRGPAPAKLVEAGAGAAMLVVGRRGHGGFLGMHLGSVSSACVSHADCPVLVVHTDGSHRTHHLWKGSKGHRQPDA				NA	NA	NA	NA	NA
D1-17_00164	1425	gloB_1		Hydroxyacylglutathione hydrolase	ATGGACGTCGTCGTCATCGAAACCCCGCAGCTCGGGGACCGCAGCTATCTGGTGCACGACGGCCACGTGGCCCTGGTGATTGACGCACAGCGGGACACCGACCGGATCGAGGAAGCGGCGAGCGCGGCGGGAGTGCGCATCACCCACGTTGCCGAGACCCACATCCACAACGACTACCTCACCGGCGGACTGGTCCTCGCCCGTGCCCATAGCGCAAAGTACCTGGTCAACGCTGCAGACGCAGTCGGCTTCGAGCGGGAACCCATCTCGGACGGCCAGACCCTGCAGATCGGCCGTCTTTCCCTCCGCGCCCTGGCCACTCCCGGCCATACGCACACCCATTTGTCCTATATCGTCACATCCGATGATGGAAAGCAGGCTGTATTCTCGGGGGGCAGCCTGCTGTACGGGTCGGTGGGTCGGACGGACCTGCTCGGACCCGGGGATACTGACGGGCTGACGAGGGACCAGTACGCGTCGGTGCGCCGCCTCGCCGATGAGGCCGGACCGGAAGCCGGCCTGTTCCCCACCCACGGATTCGGATCGTTCTGCTCGGTGGGACCATCGACTTCCGCCACGGCCTCCACCATCGGTGAGCAGCTCGAGGTCAACCACGCGCTCAAGGATCCCGATCCGGACCACTTCGTCGCTGAACTCCTCGCAAACCTCGCGGCCTATCCCTCCTATTACGCCCACATGGCACCGATCAACTTCACCGGCCCGCGGGAGGCAGACCTGGGCCTGCCCGAACCGCTGGATCCTGAGGAACTGACCGGCCGGCTGGCCAGGGGCGAATGGGTGGTGGACCTGCGCCGCCGCATAGCGTTCGCCAGCAGCCATCTAAAGGGCACCGTGAGCTTCGAATACGGCTCGGGATCGTCGTTCAGCTCCTACCTAGGCTGGGTCCTGCCCTGGGGGGAGAAGCTGACGCTGGTGGGCAGCCGGGACGACGTGCAGAGCGCCATCCGCGACCTCTCCCGCATCGGCATTGACCGGCCCGGCGCCGCCATCGGAACGGACCCGGCAACACTCGCGCCCGGCGCTCCGGTGGCTTCGTACCCTCGGGTTGACTGGGCGGCAGTGATGCATGAAAAGCCTGCAGGAGACACGGTCCTGGACGTCCGGCGGGAGGATGAGTATGCCAAGTCCCATGTCTCCGGAGCTGTGAACGTGCCGCTGCACGAGCTGCTGGGCCGGCTCGGCGAACTGCCGAAAGGCCGGCTCTGGGTCCACTGCGCCTCTGGATACCGTGCCGCGGTAGCAGCCAGCCTCCTGCAGCGGGAGGGCCGGGACGTGGTGCAGATTGACGCCCGGTTTGGTGATGCCGCGGCAGCCGGCATGCGGCTGGAAGCGGCCCGGTTGGAAAAGGTTCGGCTGCATGCGCACGGGGCCCCGGAGGATCAACACGTCGAAGGAGAACAGTGA	MDVVVIETPQLGDRSYLVHDGHVALVIDAQRDTDRIEEAASAAGVRITHVAETHIHNDYLTGGLVLARAHSAKYLVNAADAVGFEREPISDGQTLQIGRLSLRALATPGHTHTHLSYIVTSDDGKQAVFSGGSLLYGSVGRTDLLGPGDTDGLTRDQYASVRRLADEAGPEAGLFPTHGFGSFCSVGPSTSATASTIGEQLEVNHALKDPDPDHFVAELLANLAAYPSYYAHMAPINFTGPREADLGLPEPLDPEELTGRLARGEWVVDLRRRIAFASSHLKGTVSFEYGSGSSFSSYLGWVLPWGEKLTLVGSRDDVQSAIRDLSRIGIDRPGAAIGTDPATLAPGAPVASYPRVDWAAVMHEKPAGDTVLDVRREDEYAKSHVSGAVNVPLHELLGRLGELPKGRLWVHCASGYRAAVAASLLQREGRDVVQIDARFGDAAAAGMRLEAARLEKVRLHAHGAPEDQHVEGEQ	PGPT0001770_946	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
D1-17_00165	249			hypothetical protein	ATGCCGGAATTCATGGATGTCCACCACAATATGAAGGGGATTACCAAGGAGGACCTGCTGGCAGCTCACAATGCCGATCTCGCTATTCAGGACGAGGAAAAGGTCAACTTCAAGAGCGCCTGGGCAGACCCCGAATCAGGACTTGTCTACTGCCTCTCCGAGGCGCCTTCCGCAGACGCGGTGCAGCGCATTCACGAGCGCGCAGGCCACCGCGCGGACGAGGTTCACCCCGTCCCCCTGAAGGTCTGA	MPEFMDVHHNMKGITKEDLLAAHNADLAIQDEEKVNFKSAWADPESGLVYCLSEAPSADAVQRIHERAGHRADEVHPVPLKV				NA	NA	NA	NA	NA
D1-17_00166	1542	ansP2_1	COG1113	L-asparagine permease 2	ATGTCCAATTCCCAACAGGGCACTGCTAGCCCGACGGCCGTCACGGACCACACGGTCCCGGCGCAGGCGCATGCCACCGAGACCCTCCTGCACGCCGAGGATAAGGGTTACCACAAGAGCCTGAAGCCGCGGCAGATCCAGATGATCGCGATCGGCGGTGCGATCGGCACCGGCCTGTTCCTGGGCGCCGGCGGGCGCCTGAACGCCGCGGGCCCCTCCCTCGTGATCGCCTACGCGGTGTGCGGGTTCTTCGCGTTCCTGATCCTGCGCGCCCTGGGCGAGCTGGTCCTGCACCGGCCCTCCTCGGGCTCGTTCGTCTCCTACGCCCGCGAGTTCTACGGCGAGAAGGCCGCGTTCGTCTCGGGCTGGTTCTACTGGATCAACTGGGCCACCACCACCATCGTGGACATCACCGCCGCAGCCCTGTACATGAACTTCTTCGGCAACTACGTCCCCTGGATCGCCGCCGTGCCGCAATGGGCCTGGGCGCTGATCGCACTCGTCATCGTGCTGTGCCTGAACCTCGTCTCCGTGAAAGTCTTTGGCGAGATGGAATTCTGGTTCGCCCTGATCAAGGTCGCAGCCCTGGTCGCGTTCCTGATCGTGGGCACCTACTTCGTCATCTTCGGCACCCCCGTCCCCGGGGCCGAAACCGGCTTCAGCCTCATCACCGACAACGGCGGGATCTTCCCCACCGGCCTGCTGCCCATGATCATCCTGATGCAGGGCGTGCTGTTCGCCTACGCCTCCATCGAACTCGTCGGCACCGCCGCCGGCGAAACCGAAAACCCCGAAAAGATCATGCCCAAAGCCATCAACTCCGTGGTCTTCCGCATCGCGGTGTTCTACGTCGGCTCCGTGATCCTGCTGGCCCTGCTGCTGCCCTACACCTCCTACGAAAAAGGCGTCAGCCCCTTCGTGACCTTCTTCGGCTCCATCGGCATCCAGGGCGTGGACGTCATCATGAACCTCGTCGTGCTCACCGCGGCCCTGTCCTCCCTGAACGCCGGGCTCTACTCCACCGGCCGGATCCTGCGCTCCATGTCCGTCGCCGGCTCCGCCCCCAAATTCGCCCAGCGCATGAACAAAGCAGGCGTCCCCTACGGCGGCATCGCCATCACCGCCGGAGTGTCCCTGCTCGGCGTGCCGCTAAACTACCTCGTCCCCTCCCAGGCCTTCGAAATCGTCCTGAACGTCGCCTCCGTAGGCATCATCGTCACCTGGGCCACCATCGTGCTGTGCCAAATGCAGCTCAAACGCTGGGCCGACAAGGGCTGGCTGAAACGCCCCTCCTTCCGCATGTTCGGCGCCCCCTACACCGGCTACCTCTCCCTGCTCTTCCTCCTCGGCGTGCTGGTCATGGTCTTCATCGACTCCCCCCTGACCCTGCTCGTCACCCTCGTCGCCTGCGCCCTCATGACCGCCGGCTGGTACGCCTGCCGCAAACAAATCCACGACATCGCCCAAACCCGCGAAGGCTTCACCGGCATGTCCCCCGTCATCGCCAACCGCCCCGGCCCGGGCGGAGCCGACCGCATCTGA	MSNSQQGTASPTAVTDHTVPAQAHATETLLHAEDKGYHKSLKPRQIQMIAIGGAIGTGLFLGAGGRLNAAGPSLVIAYAVCGFFAFLILRALGELVLHRPSSGSFVSYAREFYGEKAAFVSGWFYWINWATTTIVDITAAALYMNFFGNYVPWIAAVPQWAWALIALVIVLCLNLVSVKVFGEMEFWFALIKVAALVAFLIVGTYFVIFGTPVPGAETGFSLITDNGGIFPTGLLPMIILMQGVLFAYASIELVGTAAGETENPEKIMPKAINSVVFRIAVFYVGSVILLALLLPYTSYEKGVSPFVTFFGSIGIQGVDVIMNLVVLTAALSSLNAGLYSTGRILRSMSVAGSAPKFAQRMNKAGVPYGGIAITAGVSLLGVPLNYLVPSQAFEIVLNVASVGIIVTWATIVLCQMQLKRWADKGWLKRPSFRMFGAPYTGYLSLLFLLGVLVMVFIDSPLTLLVTLVACALMTAGWYACRKQIHDIAQTREGFTGMSPVIANRPGPGGADRI	PGPT0000815_1640	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
D1-17_00167	1431	aspA	COG1027	Aspartate ammonia-lyase	ATGACCGAAACCCAAACCCTCCCGGACGCGCAAGACCTGCACGTCAGGTCCGAGCATGACCTGCTGGGTGACCGCGACGTCCCCGCGGGCGCCTATTGGGGCGTCCACACGCTCCGGGCGGTGGAGAACTTCCCCATCACAGGACAGCCGCTCTCCACCAACATGCACCTGGTCCGCGGCCTGGCGGCAGTGAAGATGGCCGCCGCCCGGACGAACCTGGAACTGGGGCTGCTGGACGCTGAGCGCGCTGCCGCCATTGAGCAGGCATGCAAGGACGTTCTAAACGGCCAGCTCCATGACCAGTTCGTGGTGGACGTCATCCAGGGCGGCGCCGGTACGTCGTCGAACATGAACGCCAACGAGGTCATCGCCAACCGCGCCCTGGAAATCCTCGGCCACCCCAAGGGTGACTACGCGCGGCTGCACCCTAATGACCACGTGAACCTCAGCCAGTCCACCAACGACGTCTACCCCACCGCCGTGAAGCTTGGCACTATCTTCGCCGCGCGGGAACTCCTCGAAGCCCTGACCGAGCTGGAAGACGCCTTCGCGGAAAAGGCACTGGAGTTCCGCGCTGTGGTGAAGATGGGGCGCACCCAGCTGCAGGACGCCGTCCCCATGACACTGGGCCAGGAATTTGGCACTTATGCGGTGACCATTGGTGAGGACCGGCTGCGGCTGGCCGAGGCGGACCTGCTCATCCACGAGATCAACCTCGGCGCCACAGCCATCGGCACCGGCCTCAATGCCCCCGCCGGCTACGCTGAAACCGCCTGCCGGCATCTTGCCGAGATCACCGGCCTGCCGCTCGTGACCGCCGTCGACCTCATCGAGGCAACCCAGGACGTCGGCGCGTTCGTCCACCTCTCCGGCGTGCTCAAGCGCGTAGCCGTCAAGCTCTCCAAGATCTGCAATGACCTCCGCCTGCTCTCCTCCGGTCCCCGCGCCGGGCTCGGCGAGATCAATCTTCCCGCCGTCCAGTCCGGATCGTCCATTATGCCCGGCAAGATCAACCCGGTGATCCCGGAAGTAGTCAGCCAGGTGGCCTACGAAGTCATCGGCAACGACGTCACCATCACCATGGCCGCCGAAGCCGGGCAGCTGCAGCTCAACGCCTTCGAGCCCATCATCGTGCACAGCCTGCATAAGAGCATCTCCCACCTCGAGGCCGCCTGCCGCACCCTTACGGTACGGTGCGTCCGGGGCATCACCGCCAACACTGAACGGCTCCGCCTCACGGTGGAACAGTCCATCGGACTGGTCACCGCGCTGAACCCGCACCTGGGCTACGCCACTGCCACAGCCATCGCCCAGGAAGCCCTTGCCACCGGCCGGGGCGTCGCCGAACTCGTCCTTGAACACGGCCTCCTCACGGCAGAGCAGCTCCAGGAGCTCCTCAGCCCCGAGCGCCTGGCCAACCTCAGCAAGTAA	MTETQTLPDAQDLHVRSEHDLLGDRDVPAGAYWGVHTLRAVENFPITGQPLSTNMHLVRGLAAVKMAAARTNLELGLLDAERAAAIEQACKDVLNGQLHDQFVVDVIQGGAGTSSNMNANEVIANRALEILGHPKGDYARLHPNDHVNLSQSTNDVYPTAVKLGTIFAARELLEALTELEDAFAEKALEFRAVVKMGRTQLQDAVPMTLGQEFGTYAVTIGEDRLRLAEADLLIHEINLGATAIGTGLNAPAGYAETACRHLAEITGLPLVTAVDLIEATQDVGAFVHLSGVLKRVAVKLSKICNDLRLLSSGPRAGLGEINLPAVQSGSSIMPGKINPVIPEVVSQVAYEVIGNDVTITMAAEAGQLQLNAFEPIIVHSLHKSISHLEAACRTLTVRCVRGITANTERLRLTVEQSIGLVTALNPHLGYATATAIAQEALATGRGVAELVLEHGLLTAEQLQELLSPERLANLSK	PGPT0020125_861	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
D1-17_00168	1086			hypothetical protein	ATGCCCTCCCCCGCCATGCCCGCAAGCCCCCCGTTCACCGCGCCCGCAGACGCTGCCTCTTCCGCCGCCCGCCTCCCTCAGCACGAACCGCTTGCCGTCCAGACCCGTGACGGCCTCGTGGAAAGCATCCATTACGGCTCGCTCGTCGCCACCGCACCGGACGGCAGCATCCTGCTCTCCGCCGGCGAGCCGGCGGCAGCCTTCTATCCGCGGTCCTCACTCAAGCCGCTGCAGGCCGTGGCATTGGTCCGGGCCGGGCTGGACCTTCCGGCGGACCTGCTGGCCCTCACTGCCGCAAGCCACTCGGGAGCTGCCGAACACCGCGACGGTGCCGCCCGAATCCTGGAAATGCACGGGCTCACGGACGCGGCCCTCGAGAACAGCACCGACCTGCCCTACGGCATCCTTGAGCGCGAGGACTGGCTGCGCGCCGGCGGGCGGGCCACCCGGATCACCCAGAACTGCTCAGGCAAGCATGCCGCGATGGCCGCCACCTGCGTAATCAACGGCTGGCCGGTGCAGGGCTATCTGGACCCGTCCCATCCCCTGCAGCAGCTTGTCGCCGCAGCCGTGGCGGACCTGACCGGCGAGGAGCCTGCCGGCATCAGCACCGACGGCTGCGGGACCCCGCTCTTCGCCCTGACACTGGCGGGAATGGCCCGCGCTTTCGGCCGGCTCGCCGCGACTGGATTTCTGGAAGGCACCTCCGGCACCACTCCAGCCGCCACCCAAAGCCCGGAAGCCGCCGTCGCACATGCGATGCGGCGCCACCCGGCGATGGTTGCCGGCGAAGACCGCGACGTCACCGAGCTCATGCGCCGCATGCCCGGCCTCCTCGCAAAGGACGGCTTTGAGGGCATCCAGGCGGTAGGTCTGCCGGACGGCCGGGGCGTCGTCATCAAGATTTCCGACGGCGGGGACCGGGCGCGCATGCCGGTCACCGTCCGCGCGCTGGAGGTGCTCGACGTCGACACAGCACCGCTCCAGGACATCGCCGCCGGCATTGTCCTGGGGGGCGGCAAGCCTGTCGGCCTGCTCCAGGCCCTTGATTTTCCTCGCTCTGTCCCTGCCAACGACGCCAACTAA	MPSPAMPASPPFTAPADAASSAARLPQHEPLAVQTRDGLVESIHYGSLVATAPDGSILLSAGEPAAAFYPRSSLKPLQAVALVRAGLDLPADLLALTAASHSGAAEHRDGAARILEMHGLTDAALENSTDLPYGILEREDWLRAGGRATRITQNCSGKHAAMAATCVINGWPVQGYLDPSHPLQQLVAAAVADLTGEEPAGISTDGCGTPLFALTLAGMARAFGRLAATGFLEGTSGTTPAATQSPEAAVAHAMRRHPAMVAGEDRDVTELMRRMPGLLAKDGFEGIQAVGLPDGRGVVIKISDGGDRARMPVTVRALEVLDVDTAPLQDIAAGIVLGGGKPVGLLQALDFPRSVPANDAN				NA	NA	NA	NA	NA
D1-17_00169	669	lutR_1	COG2186	HTH-type transcriptional regulator LutR	TTGCCACTCGCCCGCCTAAGCGCCGCCGAAGCTGTCTTTAACGCTATCCGGGGCGACATCGAATCCGGGAAGGTTGCGGTCGGCGACAAGCTGAATTCCGAGGCGGCGCTCGCACAGGAGTACGGCGTCAGCCGCTCTGTAATCCGCGAAGCTCTGCGGTCCTGCAACGCCCTGGGCCTGACCGTCACCCGCACCGGCCGCGGCACCTTCGTCGTCGCCGACCACGTCGCAAACGATCTGGTCCTGGGCCAGTTCTCCGCCCGCGACCTGAATGAGGCACGTCCGCATATCGAAATCCCCGCCGCCGGCCTGGCAGCCGAACGCCGCACTGCCGATGACCTGGACATCCTGCGCGCCATGGTGGCGTCAATGGCCGTCGAAACCGATCCCGAAGCCTGGGTGGTGCTCGACTCCGGCTTCCACGCGGCCATCGCCCGCGCCAGTGGCAACAAAGTCTTCGAAAGCGTGGTTGCAGACATCAGGGACGCCCTCACCCACCAGTCCGAAACCCTGAACATGGTCACGGAAGACCGCCAGCACGCCTCAAACATGGAACACCAGCGCATCCTCGCTGCCATCGAGACCGGCTCAGCCGCGGAGGCCAGTGCCGCCATGAGCGATCACCTGCGCGCAGTCGGCGACGCCCTCGACTCCATCCTCAAGCAGTAA	MPLARLSAAEAVFNAIRGDIESGKVAVGDKLNSEAALAQEYGVSRSVIREALRSCNALGLTVTRTGRGTFVVADHVANDLVLGQFSARDLNEARPHIEIPAAGLAAERRTADDLDILRAMVASMAVETDPEAWVVLDSGFHAAIARASGNKVFESVVADIRDALTHQSETLNMVTEDRQHASNMEHQRILAAIETGSAAEASAAMSDHLRAVGDALDSILKQ				NA	NA	NA	NA	NA
D1-17_00170	348			hypothetical protein	GTGGTTGCCTCCTTTCCAGAAGCCCTCGGTGCAGAAGTCCGCGCCCGCAGAGCCGCGCTGCGGCTGAACCAGCAGGACGTTGCGGACATGGCCGGAGTCTCCGAACGCTTCGTCCGGTTCGTGGAGCAGGGCAAGCCAAGCATCCAGCTGGACTCGCTGCTGGCCGTTCTGGAAACACTCGGCCTGGAGCTGAGGCTCGGCACCAGGTCCAGGGACGCCGCCCACGCGACGGTGCCCCAGCCGCCGCCGGCGCGGCCGTCACCCCAGCCGCCGGCCGCCCCGCCGTCGTCCCCGCAGGCGAAAGCCGGCCAAAAAGTCAGCAGCAGCCCGGGGGACAACCGGCCATGA	MVASFPEALGAEVRARRAALRLNQQDVADMAGVSERFVRFVEQGKPSIQLDSLLAVLETLGLELRLGTRSRDAAHATVPQPPPARPSPQPPAAPPSSPQAKAGQKVSSSPGDNRP				NA	NA	NA	NA	NA
D1-17_00171	1236			hypothetical protein	ATGAGGCACCGCGTCGCCGATATCTACAAGCAGGGCGTGCTCGCGGCACGCTTGGAACGGCACGAGGGCGGCACCAGGTTCAGCTATGTGCCGGCCTATCTGCAGAGCGGCCGCCCCGCCGTCGCGAGTTCGCTGCCGCTGTCACCGGAACCGGTGATCTCCGGGGCAGGGGCAGCCCCGCCGTACTTCACGGGGCTGCTCCCCGAGGGGCGCCGGCTGAACGCGCTGCGCCGGTCCATCAAGACCAGCGCCGACGACGACCTTTCCCTCCTGATCGCCGCGGGCGGCAACCCTGTCGGCGACGTGCAGATCGTGGGGCACGGCGAGCTGCTGGACCCGGAGGAGCACGCGGTGGAGGTGGACCCGCGAAAGCCCGTGGACTTCGACGAGCTGCTGGGGGACTCGGGCCTGATCGACCCGGTGGCGCTCGCGGGTGTGCAGGACAAACTGTCCGCGGGAATGATCTCCATGCCGGTGGCCAGTGCGGGCCGGCGGTTCATCCTAAAGCTCAATGCCCCGGAGTTCCCGCACGTGGTGGAGAACGAGTTCATCATGTTCCGGTATGCGGCCAGGCTGCGGATTCCGTTGAGCCGGGTGCAGCTGATGCGGGACGTTGCCGGCCGGCCTGGGCTGCTGGTGGAGCGGTTCGACCGGGTGCCGTTGGTGGGAGGGCCAGGTGACGGTGACCGCGTGGCCCGCCTGGCCGTCGAGGACGGAGCGCAGGTGCTGAAGCTGTATCCGGCCGACAAGTACAACGTTGGTTTTGGGACGGTGTGCCGTGCCCTCGCCGAATACTGCGCCGCGCCGCTGCCTGCGCTGCGGAACCTGGCCATCCAGGTGGCTTTCGCATGGCTCAGCGGCAACGGTGACCTGCACGCGAAGAACGTGTCTATGGTGCAGCAGCCGCAGGGGGAATGGTCCATCGCCCCCGTGTACGACATCCCCTCCACGGTGGTTTACGGGGACAGGACTCTCGCCCTGACGCTCGGCGGCAAGCGTAACGGCATCTCGCGGAAGCACTTCGTGGGCTGGGCCATTGGCCTGGGGCTGACCGAACGCGCCGCGGTCCAGGCGGTGGAGCTCGCACTGAAAGCGGCAGGCCCGCTGCTTGCGGATTTGGAGGCCGGGACCGCGTTCGGACCAACAAACGACGACGGCGGCTCGCCATTTCCGGACATGGTCACCAGAGCGTGGGTCAAGGAGCTCAGGCACCGGCGGAGGCTGCTGGAGGGGTGA	MRHRVADIYKQGVLAARLERHEGGTRFSYVPAYLQSGRPAVASSLPLSPEPVISGAGAAPPYFTGLLPEGRRLNALRRSIKTSADDDLSLLIAAGGNPVGDVQIVGHGELLDPEEHAVEVDPRKPVDFDELLGDSGLIDPVALAGVQDKLSAGMISMPVASAGRRFILKLNAPEFPHVVENEFIMFRYAARLRIPLSRVQLMRDVAGRPGLLVERFDRVPLVGGPGDGDRVARLAVEDGAQVLKLYPADKYNVGFGTVCRALAEYCAAPLPALRNLAIQVAFAWLSGNGDLHAKNVSMVQQPQGEWSIAPVYDIPSTVVYGDRTLALTLGGKRNGISRKHFVGWAIGLGLTERAAVQAVELALKAAGPLLADLEAGTAFGPTNDDGGSPFPDMVTRAWVKELRHRRRLLEG	PGPT0027480_1585	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
D1-17_00172	618			hypothetical protein	GTGACGATTGACTGGGACGAAAAAAAGGCCCTGCTACAGGAACCGAACATCGCTGCAGTGACGCAGCTGTGCGACGAACTCATGGAAAAGAAGCCGGGATCCGTCGTTCCCTACATCGACCCGATCCACGACGAGGACGAATGCCGGATCGTGAGCCTGCACGTCAGTCCGGGCAAGGGCACCGAGTCGGGGTTCGTATCTCATTTCAATGATGACGAAGCCGCGCGCCGGGCCACGCAGATCTACGACCTCGCGGAGCTTGACCCGCGTTACGTCATGCCATGGAACGCCTACCCCTGGGTGCGCGACCCGGACATGCCGTCCGCACTCAGTGTCCAGGAGAAGACCGACGGGCTGCGCCCCTTCCGCCAGTTCCTGAAAATCAACAAACGTGTCTCCGCCATCATCGCCCACGGCACAGACGCCGCGACGTTCCTGACCCTCTTCGAGAAGACCTACCATTACTCACTGAAAAACAGCGGCATCAAAATCTACAAGGCCAGCGCGCTCGGCGGGCGGGCCTTTGCTGTTTCCGAAGCCAAGCAGGAAGAGCTCCTCACCAAGAGCGTGGCCATCTACAAGGACGCGATGCAGCGGGCGGGCATCCAGCACCTCTAA	MTIDWDEKKALLQEPNIAAVTQLCDELMEKKPGSVVPYIDPIHDEDECRIVSLHVSPGKGTESGFVSHFNDDEAARRATQIYDLAELDPRYVMPWNAYPWVRDPDMPSALSVQEKTDGLRPFRQFLKINKRVSAIIAHGTDAATFLTLFEKTYHYSLKNSGIKIYKASALGGRAFAVSEAKQEELLTKSVAIYKDAMQRAGIQHL				NA	NA	NA	NA	NA
D1-17_00173	2127	copB		Copper-exporting P-type ATPase B	ATGCGTGATTCACAGAAGGACCTCGGGCTGGCGGAGTCCCGCTCCTCCGCCGGACACGCCCACGAAGAACACGGCCACCAAGAACAGGGCCACGGCCACACCGGTCATCAGCTGGACGACGACCACGTTGTACATACGCATGGCCAGCACGCCGGGCACAGCACGGCCATGTTCAAGGACAGGTTCTGGCTGACCCTGGCCCTGTCCGTCCCCGTCGTCTTCTTCAGTCCCATGTTTGGGCACTTACTCGGCTACACCGCGCCCCGGTTCCCAGGGTCGACGTGGATACCGCCGGTCCTCGGGACGGTGATCTTCCTTTACGGGGGCCAGCCGTTCCTCCGGGGCGGATTGAGCGAACTCAAGGCGCGGCGCCCCGGCATGATGCTGCTGATCGGCATGGCCATCACGGTCGCATTCATCGCGTCCTGGGTAACCACCCTGGGCATCGGCGGCTTTGACCTGGACTTCTGGTGGGAGCTTGCCCTGCTCGTGGCCATCATGCTCCTGGGCCACTGGATCGAGATGCGCGCCCTCGGCTCCGCCCAGGGTGCCCTCGACGCCTTGGCGGCATTGCTGCCGGACGAAGCGGAAAGGATTACCGACACCGGCACCGAAACGGTCAGCGTCTCCGCGCTTAGGGCAGGGGACGTGGTGCTGGTCCGCTCGGGTGCGCGGATGCCGGCGGACGGCACCATAACCGACGGGCAGGCCGAGTTCGACGAGTCCATGATCACCGGCGAGTCTAAAACGGTGCCCCGCTCGGCCGGGGATGCAGTGGTCGCGGGCACCATAGCAACGGACAACACGGTCCGGGTCCGGATCACCGCCGTCGGCGATGACACTGCGCTGGCGGGCATCCAGCGCCTGGTGGCAGAGGCCCAGGCCTCGTCCTCAAGGGCGCAGGCCCTGGCGGACCGGGCCGCCGCATTCCTCTTCTACTTTGCAGCCGGGGTGGGTGTCCTGACATTCATCGCCTGGACCCTCTTGGGCAGCCTTCCGGAGGCGGTAACCCGCACGGTCACCGTCCTGGTGATCGCTTGCCCGCACGCCCTCGGCCTGGCCATCCCGCTCGTGATCGCGATCTCCACAGAGCGCGCAGCCCGCGCCGGCGTACTGATCAAGAACCGGATGGCGCTGGAGCGCATGCGCACCGTCGACGTCGTGCTGTTCGACAAGACCGGCACCCTTACCAAGGGTGAACCGGAACTGATGGACGCCGCCGCCGTCGATGGCACCAGCCAGGAGGAGCTGCTGGCGCTGGCCGCGGCGGTCGAATCGGACAGCGAACACCCTGTTGCGCGAGCGATCGTGCGCGCCGCCAAGAACCAGGCCTTGGACATCCCCCGGGCATCAGACTTTAACTCGATGACGGGCAGGGGCGTCCGCGCAAGCGTTGCCGGCCGGGCCCTGCAGGTCGGCGGACCGGCATTGCTGCGGGAGCTGGCCGTCAGCGAACCTCCTGCCTTGGCGGAAACAACCCGGGCGTGGAGGGACCGCGGCGCGGCCGTGCTCCACGTCCTGGCGGACGGCAAGGTACTCGGCGCCGTCAGCCTCGAAGACGCCATCCGGCCCGAGTCCCGCCAGGCGGTGGCCGCCCTCCAGGAGCGGGGCATCAAGGTGGCCATGATCACCGGCGATGCCCGGCAGGTCGCCCAGGCGGTCGCCGACGAACTGAACATCGATGAGGTCTTCGCCGAAGTCCTGCCCGCCGACAAGGACAAGAAGGTCACCGAGCTGCAGCACCGCGGGCTGAAAGTAGCCATGGTCGGCGACGGCGTCAACGACTCCCCCGCCCTTGCCAGGGCAGAGGTTGGTATCGCCATCGGAGCGGGAACCGACGTCGCCATGGAGTCGGCGGGAGTTGTGCTGGCCGGCAATGACCCCCGGGCCGTGCTCTCCATGGTGGACCTGTCCCGCGCCAGCTATCGGAAGATGTGGCAGAACCTGATCTGGGCCACCGGCTACAACATCCTCGCCGTCCCGCTCGCAGCAGGTGTCCTGGCCTTCGCCGGCGTCGTGCTCTCCCCGGCGGCGGGCGCGGTGCTGATGTCAGCCTCCACGATCGTGGTCGCCCTCAACGCCCAGCTGCTGCGGCGGCTGAAACTGAACCCGGCTCAGGTTCACTAA	MRDSQKDLGLAESRSSAGHAHEEHGHQEQGHGHTGHQLDDDHVVHTHGQHAGHSTAMFKDRFWLTLALSVPVVFFSPMFGHLLGYTAPRFPGSTWIPPVLGTVIFLYGGQPFLRGGLSELKARRPGMMLLIGMAITVAFIASWVTTLGIGGFDLDFWWELALLVAIMLLGHWIEMRALGSAQGALDALAALLPDEAERITDTGTETVSVSALRAGDVVLVRSGARMPADGTITDGQAEFDESMITGESKTVPRSAGDAVVAGTIATDNTVRVRITAVGDDTALAGIQRLVAEAQASSSRAQALADRAAAFLFYFAAGVGVLTFIAWTLLGSLPEAVTRTVTVLVIACPHALGLAIPLVIAISTERAARAGVLIKNRMALERMRTVDVVLFDKTGTLTKGEPELMDAAAVDGTSQEELLALAAAVESDSEHPVARAIVRAAKNQALDIPRASDFNSMTGRGVRASVAGRALQVGGPALLRELAVSEPPALAETTRAWRDRGAAVLHVLADGKVLGAVSLEDAIRPESRQAVAALQERGIKVAMITGDARQVAQAVADELNIDEVFAEVLPADKDKKVTELQHRGLKVAMVGDGVNDSPALARAEVGIAIGAGTDVAMESAGVVLAGNDPRAVLSMVDLSRASYRKMWQNLIWATGYNILAVPLAAGVLAFAGVVLSPAAGAVLMSASTIVVALNAQLLRRLKLNPAQVH	PGPT0004090_4300	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
D1-17_00174	210			hypothetical protein	ATGAGCGAAAACCGCAGCGCCCGCGACGACGATTCCGTTCCAGCAACCGGAGTGAATGACCACGCGTGGGAACGGGAGCACCGCCATCCCACTGCTGCCCAGGCAAGGGCCATTGGCTACCGCCGCCGGGATGCCGAAGCGAAGCTGGAGCAGCACCTGCAGGACGCCCGGCACAAAACCGAGGAAGAGACGCAGGGGCAGCACGAGTAG	MSENRSARDDDSVPATGVNDHAWEREHRHPTAAQARAIGYRRRDAEAKLEQHLQDARHKTEEETQGQHE				NA	NA	NA	NA	NA
D1-17_00175	978	trxB_2	COG0492	Thioredoxin reductase	ATGCCCGAGAACCAGCATCACGTCTATGACGTTATCGTTATTGGTGGCGGAGCCGCCGGGTTGAGTGCAGCTGTCACTCTCGCCTCCGCACGCCGTTCTGTGCTGGTCGTCGACGCCGGGAGCCCCCGGAATGCTGCATCGTCCGCCGTGCATGGCTTCCTGTCCCGCGAGGGAACGTCACCCCTGGAACTGCTTGCCGCAGGCCGGGAGGAACTCCATGGCCGGGGCGGGGAGTTCATTGAAGGCACGGCGGTCGCGGCCAGCGGCAACGCGGGAGAATTCACGGTGCGCCTGCAGGACGGGCGGTCGCTGACCTCGCGCAGGCTGTTAATTGCTTCCGGTTTCGGCGACGAGCTGCCCGACGTGGCGGGGGTTAAGGAGCGGTGGGGCCGGGATGTGGTGCACTGCCCGTACTGCCACGGCTGGGACCTTCAGGACCGGGCCGTAGGCGTTTTGGCCACAGAACCGGCGGCAGTGCAGGAGGCGCTATTGTTTCGGCAGTGGGCCGAGGACGTCACTCTTTTCCAGCACACCATGCCTGAACCAAGCGACGTGGAGCGCAAACAGCTCGCAGCCCGGTCCATAAGGATCATTGAGGGCAGGGTGAAAGCCCTTCATATCGTTGAGGACGCGCTCACCGGTGTGATTTTGGAATCAGGCCGGCTGGTTCCCTGCGGGGCCTTGGCGGTCAGTCCAAAGCCGATCACAGAGTCGCCCCTGCTGCAGTCGCTCGGCCTGCAGGAACATGATCCCGGCCACGCCTCCAATCAACATGTGAAGACCGACGAAAGCGGAGGAACCCCCATAGCCGGCGTGTGGGCCGCGGGTAACATCACGGATCCAGAGGCGCAGGTCATCACGGCAGCCGCCTCAGGACTGAAAGCGGCAAGCGCAATAAATACAGACCTGGTGGCAGAGGACACGCGGTGCGCGATCATGGCCGCACAAGGCGGCCTGACTTCTGGTGGAAGCCTGTGA	MPENQHHVYDVIVIGGGAAGLSAAVTLASARRSVLVVDAGSPRNAASSAVHGFLSREGTSPLELLAAGREELHGRGGEFIEGTAVAASGNAGEFTVRLQDGRSLTSRRLLIASGFGDELPDVAGVKERWGRDVVHCPYCHGWDLQDRAVGVLATEPAAVQEALLFRQWAEDVTLFQHTMPEPSDVERKQLAARSIRIIEGRVKALHIVEDALTGVILESGRLVPCGALAVSPKPITESPLLQSLGLQEHDPGHASNQHVKTDESGGTPIAGVWAAGNITDPEAQVITAAASGLKAASAINTDLVAEDTRCAIMAAQGGLTSGGSL	PGPT0013060_7501	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-17_00176	861	hcaC_1		3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit	ATGAACCCGTTGCTTGCCTTAGTGGATGCCATTGAACGATTTGACCGCCTCGACGGGGTCGCATCCTCCGTTTCAAAGGTTGTGGGACAGGCGGTGCAGCCGCAGTTCGTCCGCAACCTGCTGAGCGGGACACCCATCGGACATCCCCTGCATCCAATCATGACCGACTTGCCTATTGGGGCGTGGAGCATGTCGACCGTGCTGGACTCGATAGGCGGGAAAGATTCCGAGCCTGCTGCCGACATCCTCGTGGCGGTGGGAATTGCGACAGCCATTCCCACCGCTGCCTCAGGGCTCAATGACTGGTCGGACACGACGGGGAAAGCGCGCAGGGTGGGCACGGTTCATGCCTTGGCGAACAGCACGGCGCTGTGCCTCTTCACCTCATCAGCAGTTGCGCGGGCCAAGGGCAGCCGGTCGGTCGGGAAAATCCTGGGGCTGGCGGGCTTCGGCATTCTGATGTTTGGCGGGTTCTTGGGCGGCCATCTCAGCTACAGCAACGCAGTCAACATCAACAAAACGGCCGGCAGGGCGGGGCCGAAGGAGTGGACGGCTGTCCTGGCGGAATCGGAACTCGCCGACGGCGAGCACCGGAAAGTGGACGCCGGCAAGGTAACCGTTCTGGTGCACCGTGCGGGCTCCAGATTTCTGGCGCTGGACAGCGTTTGCAGCCACATGGGCGGCCCTCTGGAAGAGGGAAACATCGAGGCCGGTTGCGTCACCTGCCCCTGGCACGGAAGCACGTTCCGGCTCGAGGACGGCGGGATAGTCCGCGGGCCCGCAAGCAACCCGCAGCCCAGCTACGAAACGCGGGCAAATGACGGCCAGATCGAGGTTCGCCGGCGCCGGTCCGTGAGCTGA	MNPLLALVDAIERFDRLDGVASSVSKVVGQAVQPQFVRNLLSGTPIGHPLHPIMTDLPIGAWSMSTVLDSIGGKDSEPAADILVAVGIATAIPTAASGLNDWSDTTGKARRVGTVHALANSTALCLFTSSAVARAKGSRSVGKILGLAGFGILMFGGFLGGHLSYSNAVNINKTAGRAGPKEWTAVLAESELADGEHRKVDAGKVTVLVHRAGSRFLALDSVCSHMGGPLEEGNIEAGCVTCPWHGSTFRLEDGGIVRGPASNPQPSYETRANDGQIEVRRRRSVS				NA	NA	NA	NA	NA
D1-17_00177	285			hypothetical protein	ATGACAACGCACGTCGCAGACTGCAGCGTAACGAACTGTTCCTTCAACGACCACACCAACTGCAACGCCGCCGCCATCACCGTCGGCGGAGACGAAAACCATGCCCACTGCGCCACCTTCATCGACACCGGCTCCCACGGCGGACTCCCCAAGGTCCTCGCCGACGTCGGAGCCTGCCAGCGCTCCGAATGCGTCCACAACGACCACCTCATGTGCGGAGCCTCCGAGGTACACGTGGGCCCCGGCCGCGACAACGCCGACTGCCTCACCTACGCCCACCGGTAA	MTTHVADCSVTNCSFNDHTNCNAAAITVGGDENHAHCATFIDTGSHGGLPKVLADVGACQRSECVHNDHLMCGASEVHVGPGRDNADCLTYAHR				NA	NA	NA	NA	NA
D1-17_00178	1002	lipA_1	COG0320	Lipoyl synthase	GTGACACTGGCACCAGAAGGCCGGAAGATGCTGCGCATCGAGCAGCGCAATGCGGCCACCCCGGTGGAGCGCAAGCCGGAGTGGATCAAGGCCAAGGTCCAGATGGGCCCGGAGTTCGTCCAGCTCAAGAACCTGGTGAAGAAGGAAGGCCTGCACACCGTCTGCGAGGAAGCCGGGTGCCCGAACATCTTCGAGTGCTGGGAAGACAAGGAAGCGACGTTCCTGATCGGCGGCTCCGAATGCACCCGGCGCTGTGACTTCTGCCAGATCGACACCGGCAAGCCCTCCCCCGTAGACAGGTTCGAACCGACCAAGGTGGCCCGCTCGGTGCAGACCATGGCCCTGCGCTACGCCACCGTCACCGGCGTCGCCCGCGACGACCTCGCCGACGAGGGCGTCTGGCTCTACGCCGAAACGGTCCGCAAGATCCACGAACTGAACCCGGGCACCGGCGTCGAACTTTTGATCCCGGACTTCTCCGGCAAACCCGACCACATCGCCGCGATCTGCGACTCGGCCCCCGAGGTGTTCGCCCACAACGTCGAAACCGTGCCGCGGATCTTCAAGCGCATCCGCCCGGCGTTCCGCTACGAACGCTCCCTGGACGTCATCACCCAGGGACGGAACCTGGGCATGGTCACCAAATCCAACCTCATCCTGGGCATGGGCGAGACCCGCCAGGAAATCTCCGAAGCCCTGCAGGACCTGCACGAGGCCGGCTGCGACCTGATCACCATCACCCAGTACCTGCGCCCCTCCGAACGGCACCTGCCGGTGGACCGCTGGGTCAAGCCGCAGGAATTCGTGGACCTGCAGCAGGAAGCGGACGAGATCGGCTTCCTCGGCGTCATGTCCGGCCCCCTGGTCCGCTCCTCCTACCGCGCCGGCCGGCTCTGGGCCACCGCAATGCGCAAGAAAGGCCGGGAAATCCCCGCCGAACTCGCCCACATCGAATCCTCCGGAACCACCCGCCAGGAAGCCAGCACCCTGCTCGCGGGATAA	MTLAPEGRKMLRIEQRNAATPVERKPEWIKAKVQMGPEFVQLKNLVKKEGLHTVCEEAGCPNIFECWEDKEATFLIGGSECTRRCDFCQIDTGKPSPVDRFEPTKVARSVQTMALRYATVTGVARDDLADEGVWLYAETVRKIHELNPGTGVELLIPDFSGKPDHIAAICDSAPEVFAHNVETVPRIFKRIRPAFRYERSLDVITQGRNLGMVTKSNLILGMGETRQEISEALQDLHEAGCDLITITQYLRPSERHLPVDRWVKPQEFVDLQQEADEIGFLGVMSGPLVRSSYRAGRLWATAMRKKGREIPAELAHIESSGTTRQEASTLLAG	PGPT0003935_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003935-lipA-K03644	NA	NA
D1-17_00179	1407	sdaA_1	COG1760	L-serine dehydratase	ATGGCTGTTGGTGTCTTTGACCTTTTCTCCATCGGAATCGGCCCGTCGAGTTCGCACACTGTGGGGCCGATGCGTGCTGCTGCGGTGTTTGCGGAGGAGCTTAGGGCGTCCGGGGTGTTGGAGCGGGTGGCGTCGTTGCGGGTGGATCTGTACGGTTCGCTGGCTGCGACGGGTTACGGGCACGGGACGATGACCGCGGTCCTGTTGGGCCTGGAGGGCTTTCATCCGGAGTTGATCCTGCCGGAGGAGGTGGAGTCCCGGCTGGCGGACATCGCGGAGACCGGGATGCTGCAGCTGGCCGGCGCGGGCGGCGGTGTGCGGTTGCCGTATGGGGTGGAGGATATGGTGTTGCGGCCCTTGACCGTGCTGCCCCGGCACACCAACGGGATGACGTTTACCGTGTCCGACGCCGCCGGCGAGGTGCTGCACAGGGCGACGATCTTCTCGGTCGGGGGCGGGTTCATTGTCCGGGAGGGCGAGGAGGACGCGGCGCTGCAGGAGCTGGAGGAGTCCAAGAAGGAGCTGCCGCTGCCGTTCCGCACGGCCGCGGAGCTGCTGGAGCATTGCCGCGCCCAGGGCCTGTCGATCAGCGAGGTCATGCTCGTCAATGAACGCGCTTCCCGTTCGGAGGAGGAGATCCGGGAGGGGCTGGGGCGCATCTACTCCGTGATGGAGGAGTGTGTGCAGACCAGCCTGAAGCGGGAGGGACTGTTGCCGGGCGGGCTGAAGGTCCGCCGCCGCGCCCCGGACTGGCATGAGCGGCTGCTGAAGGAAGACACGGACCGGGACGGCCGGTATTGGCAGGAATGGGTGAACCTGATCGCGCTGGCGGTCAATGAGGAGAACGCTTCGGGCGGGCGGGTGGTCACCGCCCCGACGAACGGGGCCGCGGGCATCATCCCGGCGGTGCTGTATTACGCGCTGCACTACGCCCCCGGCATGGACCAGGCGACCCAGGCCGACCGGGACGATGTGGTGGTGAAGTTCCTGCTCGCCGCCGGCGCGGTCGGGGTGCTGTACAAGGAACAGGCGTCCATTTCCGGGGCGGAGGTCGGCTGCCAGGGCGAGGTCGGGTCGGCGTCCTCGATGGCCGCCGCGGGCCTGGCCGAGGTGATGGGCGGGTCCCCGGCGCAGGTGGAGAACGCCGCGGAGATCGCGATGGAACACAACCTGGGCCTGACGTGTGACCCGATCGGGGGCCTGGTGCAGGTGCCCTGCATCGAACGCAACGCGATCGCCGCGGCGAAGGCCATCAACGCCGCGAAAATGGCGCTCTGGGGCGACGGCACCCACCGCGTCTCACTGGACGAGGTCATCATCACCATGCGCGAAACCGGCAAGGACATGAGCGATAAGTACAAGGAAACCGCCATGGGCGGCCTCGCCGTCAACGTCGTCGCATGCTAG	MAVGVFDLFSIGIGPSSSHTVGPMRAAAVFAEELRASGVLERVASLRVDLYGSLAATGYGHGTMTAVLLGLEGFHPELILPEEVESRLADIAETGMLQLAGAGGGVRLPYGVEDMVLRPLTVLPRHTNGMTFTVSDAAGEVLHRATIFSVGGGFIVREGEEDAALQELEESKKELPLPFRTAAELLEHCRAQGLSISEVMLVNERASRSEEEIREGLGRIYSVMEECVQTSLKREGLLPGGLKVRRRAPDWHERLLKEDTDRDGRYWQEWVNLIALAVNEENASGGRVVTAPTNGAAGIIPAVLYYALHYAPGMDQATQADRDDVVVKFLLAAGAVGVLYKEQASISGAEVGCQGEVGSASSMAAAGLAEVMGGSPAQVENAAEIAMEHNLGLTCDPIGGLVQVPCIERNAIAAAKAINAAKMALWGDGTHRVSLDEVIITMRETGKDMSDKYKETAMGGLAVNVVAC	PGPT0001975_821	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-17_00180	1305	glyA2_1	COG0112	Serine hydroxymethyltransferase 2	ATGGCCTTCCAGCAGGTTCTCTCCCCGAGCCTCAACGCCGAACTTGGCGAGCTGGACCCGGAGATCGCAGCGAAGATCGACGACGAGCTCGTCCGCCAGCGCGACGGCCTGGAGATGATCGCCTCTGAGAACCACACCGCTGCCGCGGTGATGCAGGCTCAGGGATCGGTTCTGACGAACAAGTACGCCGAGGGTTACCCGGGCAAGCGCTACTACGGCGGTTGCGAGCATGTGGACGTCGTCGAGCAGCTTGCGATCGACCGGGTGAAGTCCCTCTTTGGCGCCGAATTCGCCAATGTCCAGCCGCACTCGGGCGCGCAGGCCAACGCCTCGGTGATGCATGCGCTGATCAAGCCGGGGGACACCATCATGGGCCTGAACCTGGCCCACGGCGGCCACCTGACCCACGGCATGCGGATTAACTTCTCCGGACGTCTGTACAACGTGATCCCGTACCAGGTCCGCGAGGAGGACCACCGGATCGACATGGCCGAAGTGGAGCGCCTGGCGCAGGAGCACAAGCCGCAGCTGATCGTTGCCGGCTGGTCCGCCTATGCCCGGCAGCTCGACTTCGCTGAGTTCCGCCGCATCGCGGATTCGGTAGGCGCGTACCTGATGGTGGACATGGCTCACTTCGCCGGCCTGGTGGCAGCAGGCCTGCACCCGTCCCCCGTGCCGCACGCGCATGTCACCACCTCCACCACGCACAAGACCCTCGCCGGTCCGCGCGGCGGAATCATCCTGACCAATGATGCCGGCATCGCCAAGAAGATCAACTCGGCCGTGTTCCCGGGCCAGCAGGGCGGCCCGCTGGAACACGTCATCGCCGGCAAGGCCGTGGCATTCAAGATCGCAGCCTCAGCCGAGTTCAAGGAGCGCCAGGAGCGCGTGCTTGCCGGCGCCAGGATCCTCGCCGAACGTCTGGTCCAGCCGGACGTCACCGCCAAGGGAATCTCCGTGGTCTCCGGCGGAACCGACGTGCACCTCGTGCTCGTGGACCTCCGCGACTGCGAACTCGACGGGCAGCAGGCCGAGGACCGCCTCGCCTCCATCGACATCACGGTCAACCGCAACGCCGTGCCGTTTGATCCGCGCCCGCCGATGGTCACCTCCGGGCTCCGCATCGGTACCCCGGCCCTCGCGACGCGGGGCTTCGGCGAAGCCGCGTTCGCTGAGGTCGCGGACATCATCGCCGAGGCTTTGACTGCCGGCGCCGGTGCTGACCTCTCGGGCCTGCGCACCCGCGTCGAGGCTCTCGCCGCCGCCCACCCCCTCTACCCGGGCATGGCCAACCTCTCTCATTGA	MAFQQVLSPSLNAELGELDPEIAAKIDDELVRQRDGLEMIASENHTAAAVMQAQGSVLTNKYAEGYPGKRYYGGCEHVDVVEQLAIDRVKSLFGAEFANVQPHSGAQANASVMHALIKPGDTIMGLNLAHGGHLTHGMRINFSGRLYNVIPYQVREEDHRIDMAEVERLAQEHKPQLIVAGWSAYARQLDFAEFRRIADSVGAYLMVDMAHFAGLVAAGLHPSPVPHAHVTTSTTHKTLAGPRGGIILTNDAGIAKKINSAVFPGQQGGPLEHVIAGKAVAFKIAASAEFKERQERVLAGARILAERLVQPDVTAKGISVVSGGTDVHLVLVDLRDCELDGQQAEDRLASIDITVNRNAVPFDPRPPMVTSGLRIGTPALATRGFGEAAFAEVADIIAEALTAGAGADLSGLRTRVEALAAAHPLYPGMANLSH	PGPT0008090_1854	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-17_00181	384	gcvH_1	COG0509	Glycine cleavage system H protein	ATGGCAAAAGTCGCCCCTGAACTTCAGTACTCCGACGAGCACGAATGGGTGTCCCGTGATGGCGGGAACCTGATGTCGATCGGCATTTCCGCCGTGGCCACGGACGCCCTCGGCGACATTGTTTACGTGGACCTGCCCGAGGTCGGCTCCACTGTGACTGCCGGCGAGACCTGCGGCGAGGTGGAGTCCACCAAGTCGGTCTCCGACCTGTACTCCCCCGTGTCGGGCGAGGTCACGGAAGTCAACGACGTTGTTGTTTCCGATCCGGCTGTCATCAACAACGACCCGTACGGTGCAGGATGGCTCTTCAAGGTTGCAGTTGAGTCCGAGGGCCCCCTGCTGTCCGCCGAGGAGTACGCGTCCAAGAACGGCGGCGAGCTGTGA	MAKVAPELQYSDEHEWVSRDGGNLMSIGISAVATDALGDIVYVDLPEVGSTVTAGETCGEVESTKSVSDLYSPVSGEVTEVNDVVVSDPAVINNDPYGAGWLFKVAVESEGPLLSAEEYASKNGGEL				NA	NA	NA	NA	NA
D1-17_00182	1134	gcvT_1	COG0404	Aminomethyltransferase	ATGACTGAGAACTACACCGCGCTCTATGACGCGCATAAAGCGGCCGGCGCCTCCTTCACCGACTTCGGCGGCTGGCAGATGCCGCTCAAATACACCTCCGAGCTGGCCGAGCACCACGCCGTCCGCAACGCCGCCGGCATCTTCGACCTCTCCCACATGGGCGAAGTCTGGGTCACCGGGCCGGACGCCGGAGCCTTCCTGGACTACGCCCTCGCGGGAAAGCTCTCTTCCATTGCTGTCGGCAAGGCCAAGTACTCGCTGATCTGCAACGAGGACGGCGGCATCATCGATGACCTCATCTCGTACCGCCGGAGCGACGACAAGTATCTGGTGGTGCCGAACGCGGGCAACGCTGCCACCGTCGCCGCCGCCCTCGTCGAGCGCGCGGCAGGATTCGACGTCGTCGTGGACGACGTCTCCGCCGAAACCTCGCTCATCGCGGTCCAGGGACCCAACGCCGAGGCCATCCTGCTGGGACTGGTCCCGGCCGAACAGCACGAGCTCGTCACCGGGCTGAAGTATTACGCTGCCGTGGAGGTAGGAATATCCGTCAACAGCACCGTCCACACCCTGTTGCTGGCCCGCACCGGCTACACGGGAGAGGACGGCTTCGAAATCTACGTTCCCAACGCTGACGCATCCGGATTGTGGGAAGCGCTGCTGGACGCGGGCGCTGTGCACGGGCTCATTCCGGCCGGCCTGGCCTGCCGCGATTCCCTCCGTCTGGAGGCCGGCATGCCGCTCTACGGCAACGAACTGTCCCTCGACGGCGACCCCTTCGCCGCGGGCCTGGGTCCCGTCGTCGCGCTGTCCAAGGAAGGCGACTTCGTCGGCAAGGCAGCCCTGGCGGCCAAGAAGGAAGCCGGAGCCGGAACCAGCACGGGACGGAAGCTCGTAGGCCTCAAGGGCCTCGGCCGCCGCGCCGGCCGGGCACACTACCCCGTACTCAAGGACGGCAACGTCGTCGGTGAAGTGACCTCCGGCCAGCCCAGCCCCACCCTGGGTTACCCCGTCGCTATGGCCTACGTCGACGTCGAATACACCGAGCCCGGCACGCCCTTGGACATCGACCTCCGCGGCAAGGCAGAACCCTTCGAAGTCGTGGCACTCCCGTTCTACAAACGCGCCACGTAG	MTENYTALYDAHKAAGASFTDFGGWQMPLKYTSELAEHHAVRNAAGIFDLSHMGEVWVTGPDAGAFLDYALAGKLSSIAVGKAKYSLICNEDGGIIDDLISYRRSDDKYLVVPNAGNAATVAAALVERAAGFDVVVDDVSAETSLIAVQGPNAEAILLGLVPAEQHELVTGLKYYAAVEVGISVNSTVHTLLLARTGYTGEDGFEIYVPNADASGLWEALLDAGAVHGLIPAGLACRDSLRLEAGMPLYGNELSLDGDPFAAGLGPVVALSKEGDFVGKAALAAKKEAGAGTSTGRKLVGLKGLGRRAGRAHYPVLKDGNVVGEVTSGQPSPTLGYPVAMAYVDVEYTEPGTPLDIDLRGKAEPFEVVALPFYKRAT	PGPT0008130_2019	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
D1-17_00183	2847	gcvP_1	COG0403	putative glycine dehydrogenase (decarboxylating)	ATGACGATTCAATCGCTTCCGTCAACTTTTGCCGACCGGCACATCGGTGCCCGGCGCCAGGCCGACGTTGACATCATGCTCAAGAGCATCGGTTACGACTCGGTCGATGGCCTCGTTGAAACGGCCGTCCCGGCCTCCATCCGCCAAGAGAACGCCCTGCAACTCACCGCCGCGCTCAGCGAAGTCGAGGTCCTCGCCGAGCTCCGCAGGCTGGCCGCGAAGAACAAGACCGCGGTTCAGATGATCGGTCAGGGCTACTACGACACCGTGACGCCTCCGGTGATCCGCCGCAACATCCTGGAGTCCCCTGCGTGGTACACGGCCTACACCCCGTACCAGCCGGAGATCTCCCAGGGCCGCCTTGAGGCGCTGCTGAACTTCCAGACCATGGTCCAGGACCTCGTTGGCCTGCCAATCGCCAATGCCTCGCTGCTGGATGAAGCAACGGCGGTGGCCGAGGCGGTGCTGCTGATGCGCCGGGCCAACAAGAACAAGCAAGCCCGCGAGGGCAAGACCGTCCTGGACGCTGACTGCCTGCCGCAGACCATCGCCATCGTCAAGGGTCGCGCCGAGGCGCTGGGCTTCGAGGTCGAGGTCGCGGATTTGTCCTACGGACTGCCTGACGGTGACATCAACGGCGTCGTCCTGCAGCAGCCCGGAGTCTCCGGCCGGGTCTGGGACCAGTCCCCCGTGATTGCCGCCGCCAAGGAACGTGGTGCCCTGGTCACGGTCTCAGCTGACCTGCTGGCCCTGACCCTGATCACGCCTCCCGGCGAGCAGGGCGCGGATATCGCCGTCGGGTCCGCGCAGCGGCTGGGTGTGCCGCTGTTCTTCGGCGGACCCCACGCCGCCTACATGGCCGTGCGCACCGGCATGGAGCGCACGCTCCCCGGCCGCATCGTCGGCGTCTCCAAGGACAACGCCGGTGCCACCGCTTACCGGCTGGCGCTGCAGACCCGGGAGCAGCACATCCGCCGTGAAAAGGCGACGTCCAACATCTGCACCGCGCAGGCGCTGCTGGCCATCGTGTCCTCCTTTTACGCCGTCTACCACGGCCCTGACGGCCTCAAGGCGATCGCTGAGACGGTCCACAACAACACGCGCGTCCTGGCCGCCGCCCTGAAAACGGCAGGCCGCGAACTGGTCAGCGAGTCCTTTTTCGATACCCTCACCGTGCGCGTCCCGGGCAAGGCCCGCAGGGTCATCACCGCCGCGGAAGCCCTCGGCATCAATCTGCGCTTCGTTGACGAGGACACCGTGGGCGTCTCCGTTGATGAGACCACGACGCCGGCAACCCTGTCCGCTGTTGCCGTCGCCTTCGGCGCCGGGCCCGTGCGTGACGCAGCAGGCTTTGACCTGCCCAAGTCCGTCCTGCGCACCTCCGGTTACCTGGAGCATCCGGTGTTCAATACGCACCGGTCCGAGACGCAGCTGCTGCGTTATATCCGGCGGTTGTCGGACCGTGACCTGGCGCTGGACCGCACGATGATTCCGTTGGGGTCCTGCACGATGAAGCTGAATGCGACGGCCGAGATGGAGGCCATTTCCTGGCCGGAGTTCGCCTCGATTCACCCGTTCGCGCCGGATTCCCAGACGGCGGGCTGGCGTGAGCTGATCGCTGATCTGGAGGCGCAGCTGACCGAGATCACCGGCTATGACCAGGTCTCGATCCAGCCCAATGCCGGGTCCCAGGGTGAGCTGGCGGGTCTGCTGGCGATCCGCGGTTACCACCGGTCCCGTGGCGAGGGACAGCGGAACATTTGCCTGATTCCGGCCTCGGCGCACGGCACGAACGCTGCCTCGGCGGTGCTGGCGGGCATGAAGGTCGTGGTGGTGGCCACCGCGGCGGACGGCACCATTGACCACGCGGACCTGTACGCGAAGATCGAGGCGCACAAGGACGCGCTGTCGTGCATCATGATCACCTACCCCTCCACCCACGGGGTGTACGACGGGGACGTCCGTGAGGTCTGCGACGCGGTGCACGCCGCGGGCGGGCAGGTCTACGTTGACGGCGCGAACCTTAACGCCCTGGTGGGGCTGGCCCAGCCGGGCAAGTTCGGCGGGGACGTGTCGCACCTGAACCTGCACAAGACCTTCTGCATCCCGCACGGCGGTGGCGGGCCCGGCGTCGGCCCGGTCGCGGCCAAGGCGCACCTGGCACCGTTCATGCCCGGCAACGCGGCGTCCTGGAGTGAGGGTGATGACGTGCCGATCTCGGCCTCGCGCTTCGGCTCCGCCGGGGTGCTGCCGATCTCCTGGGCGTACGTGAAGCTGATGGGCGGGGACGGGCTGACCGAGGCCACGAAGTCGGCGCTGCTCGCGGCGAACTACGTCGCTGCGCGCCTGGATGAGCACTTCCCGGTGCTGTACACCGGTGAGGGCGGCCTGGTGGCGCACGAGTGCATCCTGGACCTGCGCGAACTCACGGCCCGGACCGGTGTCACGGCCGAGGACGTGGCCAAGCGCCTGATCGACTACGGCTTCCACGCCCCCACCCTGGCGTTCCCGGTGGCCGGGACCCTGATGGTGGAGCCGACCGAGTCCGAGGACCTGGCCGAGATCGACCGGTTCATCGAGGCCATGGTTTCCATCCGCCGCGAGATCGACCAGGTCGCCAACGGTGACTTCACTGTGGAGAACAGCCCGCTGCGTAACGCCCCGCACACCGCGGCCGCGGTCATCAGCTCCGACTGGAACCGTGACTACCCCCGCGAGCAGGCCGTGTTCCCCGTGCACTCCCTCAAGCAGGACAAGTACTTCGCGCCCGTGGGCCGCATCGACGGCGCAGCCGGGGACCGGAACCTGGTCTGTTCCTGCCCGCCGCTTTCCGAATTTGAGAGCTAA	MTIQSLPSTFADRHIGARRQADVDIMLKSIGYDSVDGLVETAVPASIRQENALQLTAALSEVEVLAELRRLAAKNKTAVQMIGQGYYDTVTPPVIRRNILESPAWYTAYTPYQPEISQGRLEALLNFQTMVQDLVGLPIANASLLDEATAVAEAVLLMRRANKNKQAREGKTVLDADCLPQTIAIVKGRAEALGFEVEVADLSYGLPDGDINGVVLQQPGVSGRVWDQSPVIAAAKERGALVTVSADLLALTLITPPGEQGADIAVGSAQRLGVPLFFGGPHAAYMAVRTGMERTLPGRIVGVSKDNAGATAYRLALQTREQHIRREKATSNICTAQALLAIVSSFYAVYHGPDGLKAIAETVHNNTRVLAAALKTAGRELVSESFFDTLTVRVPGKARRVITAAEALGINLRFVDEDTVGVSVDETTTPATLSAVAVAFGAGPVRDAAGFDLPKSVLRTSGYLEHPVFNTHRSETQLLRYIRRLSDRDLALDRTMIPLGSCTMKLNATAEMEAISWPEFASIHPFAPDSQTAGWRELIADLEAQLTEITGYDQVSIQPNAGSQGELAGLLAIRGYHRSRGEGQRNICLIPASAHGTNAASAVLAGMKVVVVATAADGTIDHADLYAKIEAHKDALSCIMITYPSTHGVYDGDVREVCDAVHAAGGQVYVDGANLNALVGLAQPGKFGGDVSHLNLHKTFCIPHGGGGPGVGPVAAKAHLAPFMPGNAASWSEGDDVPISASRFGSAGVLPISWAYVKLMGGDGLTEATKSALLAANYVAARLDEHFPVLYTGEGGLVAHECILDLRELTARTGVTAEDVAKRLIDYGFHAPTLAFPVAGTLMVEPTESEDLAEIDRFIEAMVSIRREIDQVANGDFTVENSPLRNAPHTAAAVISSDWNRDYPREQAVFPVHSLKQDKYFAPVGRIDGAAGDRNLVCSCPPLSEFES	PGPT0020480_2761	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
D1-17_00185	558	azr	COG0431	FMN-dependent NADPH-azoreductase	ATGGTGAAAATAGCAGTGGTCGTCGGCAGCACACGGCCCCAGCGCCGCAGCAAACAAGTTGCCGACTGGGTGCTTTCAAGGGCTTCTGCCCGGGGCGGTGCAGAGTTCGAAATGCTCGACCTCGCAGATTATGACCTTCCGCTGCTGGATGAACCAATGCCGCCTTCTATGGGGAATTACACGCAACCGCATACGAAAGTCTGGGCCGGGGCCGTCTCAAGGTTCGACGGTTTTATCTTCGTGACGGCCGAATATAACCACTCCGTTCCCGGTGCTTTGAAAAATGCTTTGGATTACCTCTACGCGGAATGGAACAACAAGGCTGCGGGGTTTGTCAGTTACGGCAGCGCCGGCGGGGTGCGTGCTGTCGAGAACCTCCGGCTGATCACTGCCGAACTACAAATGGCCGGAGTGCGCGCTCAGGTGGCGTTGCCCTTCACCACCGAATTCGAGAATTTCACCACCTTCACCCCGAGTGAAAGCGCCGAAGAAGCTTTGGAGCCGCTCCTGGAGCAGCTCATCTCCTGGTCGACGGCGCTCAAGACGACACGCCTCTGA	MVKIAVVVGSTRPQRRSKQVADWVLSRASARGGAEFEMLDLADYDLPLLDEPMPPSMGNYTQPHTKVWAGAVSRFDGFIFVTAEYNHSVPGALKNALDYLYAEWNNKAAGFVSYGSAGGVRAVENLRLITAELQMAGVRAQVALPFTTEFENFTTFTPSESAEEALEPLLEQLISWSTALKTTRL				NA	NA	NA	NA	NA
D1-17_00186	429			hypothetical protein	ATGTCCTTCATATCCAATGGACACAGGCCAGGGGACCCGCGGCCGCCCAAGCCGCACCGCCTCCGCTGCGAAGAATGCGGCACCGAGCACAACCTGGCCATCCGGGCAATAACGGCATTGGCAGCCGGTGACGGCGACTTGGTCACGGTCGCCTACACCTGCATGGACTGCCTGCACTTTCATGAACATACCGCGTACATGGGCGACGTCACGGCAGCTTTGCGGCAAGTGCTCTGGACCCCGGACGTACTCATTTTCGGTGAGGAGTACATCCACTGCGGCTGCCCCATGGAGATAACCGGCCACGAGCTCGAGGTGCTGCATTACTGGTTCAGCAACGGCCCTTTTCCCGGCCGGCTGCGCAGCGTCTTGCTCCCCGTTCAGATGCTGGACTGCACCTGCGGCTTCCGGCTGGAAATTCCGGAGTGA	MSFISNGHRPGDPRPPKPHRLRCEECGTEHNLAIRAITALAAGDGDLVTVAYTCMDCLHFHEHTAYMGDVTAALRQVLWTPDVLIFGEEYIHCGCPMEITGHELEVLHYWFSNGPFPGRLRSVLLPVQMLDCTCGFRLEIPE				NA	NA	NA	NA	NA
D1-17_00187	498			hypothetical protein	GTGGACCGCAACGTTATCCAGCACCGGCTTAAGATCCACGTTCACATCGATGAGCGCCTGCAGACCGCCAGCATCGAGGTGCGCGGTACGCTGACGGTGGCCAACCTGCGCGCACTGTACGTCATCGCGCGCAGGACCAGTGCCTTGCTGCCCGGCCGGGAAATCGTCATTGACCTCACCCATGCGAGGGCTGCAACCGAAGCCGTCAACGTTCTTCACGACCCCGTCCAGCTCAACAATCTCGCCGTCTCGTCCGGCAACAAGGGGCTGCTGTGCCCGCTGCGGATCCTGGATCCGCCGCACCCGCATGGCAGCAATACCAATGGCGGCCATGCACCCGCAGCCCTGGACCACACCCGCAAGAGCTATCCGCTCAAAGGAGAGCCCCTGCGAACCCAGCCTGTAAAGGGCGAGCAGACCAAGAGGCGGCGCACCGGGGCCCCGCCAGCCAACCCGGTCGGCACTGGGCGTGCCGACGCATCGAAAGGCCAATCATGA	MDRNVIQHRLKIHVHIDERLQTASIEVRGTLTVANLRALYVIARRTSALLPGREIVIDLTHARAATEAVNVLHDPVQLNNLAVSSGNKGLLCPLRILDPPHPHGSNTNGGHAPAALDHTRKSYPLKGEPLRTQPVKGEQTKRRRTGAPPANPVGTGRADASKGQS				NA	NA	NA	NA	NA
D1-17_00188	651	yyaP_1	COG0262	putative protein YyaP	ATGAAACTCACCGTCCATACGTTCGTGACCCTCGACGGCGTCATGCAGGGTCCCGGCGGCAGGGAGGAGGACACCAGCGGCGGGTTCGAATTCGGCGGTTGGCTGGTCCCGTACGTGGATGACGATTTTGGCCGCCTCGTCGACGGCTGGTTCGCTGCGGCCGACGCAATCCTGCTTGGCCGCACGACGTACCAGATGTTTCAGCCCTACTGGGAGCAGGTCACCGACCCGGACGACGCCGTGGCCGCCGCCCTGAACTCACTGCCTAAGTACGTGGTCTCAAACACCATCAGCAACCCGACGTGGAGCAACACCAGCGTCCTCTCCGGCAACTTCCTCGAGGCGATTGATGACCTCAAGTCCGGGCCGGGCCGGGAGCTGCAAGTGCATGGCAGCCACCGCCTTGCCCGGGCGCTGCATGACGCAGGGCTCGTGGACGAATACCGGATCCTTGTCTTTCCCTTGGTGCTGGGTCAAGGGAAACGGCTCTTCGACGGCGGCGCCATGCCCTCCGCTTACACCCTGGCCGGGCACAAAGCCACATCGGCCGGCGCCGTCCACCTCACCTTGGTTCCTGCGGCTTTCGGAGCCGCCGAGCTGGAAGTGGGGGAATTCGAAGTGCGGGAGGGGCGGGAGCAGATCAAGGAATAG	MKLTVHTFVTLDGVMQGPGGREEDTSGGFEFGGWLVPYVDDDFGRLVDGWFAAADAILLGRTTYQMFQPYWEQVTDPDDAVAAALNSLPKYVVSNTISNPTWSNTSVLSGNFLEAIDDLKSGPGRELQVHGSHRLARALHDAGLVDEYRILVFPLVLGQGKRLFDGGAMPSAYTLAGHKATSAGAVHLTLVPAAFGAAELEVGEFEVREGREQIKE				NA	NA	NA	NA	NA
D1-17_00189	474			hypothetical protein	ATGGAACGTCCCGCTCCTGCCTGCGGGGCGTTCCGTAAGGGCGCTATTATCGGCGCCACCGACCCCGGCGGTGGGAATATACTCGGCAGAAGCATGAGCAGTCTTCCTTCAGCCCCAGCAACCGTCCGGATAGATGCCTGGCTGTGGGCAATCCGTGCCTACAAAACCCGGTCTGCGGCTACCGCCGCCTGCCGGGCAGGGCATGTCCGGCTGAACGGCAACCCGGCCAAGGCCTCCCAGTCCGTCGTGCCTGGAGACACGGTCCGTGTACGGCAGCCGGGCTACGAGCGGATCCTCGAAGTGCGCCGGCTGATCGCCAAGAGAGTGGGCGCCGAGGCCGCTTCACACTGCTTCACCGACCACACACCTCCGCGCCCGGTCCCTGCCGAGCTCGGCCTGCCGCTGCGGGACCGCGGTGCCGGCCGGCCCACCAAGAAGGACCGGCGGGAAATGGAACGGCTTCGCAGGAGTTAG	MERPAPACGAFRKGAIIGATDPGGGNILGRSMSSLPSAPATVRIDAWLWAIRAYKTRSAATAACRAGHVRLNGNPAKASQSVVPGDTVRVRQPGYERILEVRRLIAKRVGAEAASHCFTDHTPPRPVPAELGLPLRDRGAGRPTKKDRREMERLRRS	PGPT0014620_1705	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
D1-17_00190	195			hypothetical protein	ATGAGCGAGACCCCCAACCCGATCCAGATCCAGAAATTCCTCGGCGGCATCGATTACCCGGCCACCCGCGACACGCTCGTCGAACGTGCTCAGGAATCCGGCGCCGACGGCAATGTGATCAGCGCCCTTGAGAACCTTCCAGACAAGGAATACGACAGCCCGACGGCGGTCAGTTCCGCCATCTCGGATTCCTAG	MSETPNPIQIQKFLGGIDYPATRDTLVERAQESGADGNVISALENLPDKEYDSPTAVSSAISDS				NA	NA	NA	NA	NA
D1-17_00191	888			hypothetical protein	GTGAATCGCCGCACATCTGCCCAATGGGCAACAGGACCAGCGTCCGAGGATTCCGCCATTGACGTCCTCATCCCTACCTGCAACAGGACGGCCGAACTCGCCGTCACGCTCGCTGGCCTCGCAGCGCAGGACAGCCCGGCATTCCGCGTCGTTGTCAGCGACCAGTCAGACGGATCGCCCGCCTGGGACCTGGCGCCGGTCCCGGCCATGGTCCGGCTGCTCAGGGCGCAGGGCACGGAAGTCGAACTGCTCCAGCATCTGCCGCGGCGGGGCATGGCAGAACAGCGCCAGTTCCTCCTTGACCATGCCCGCGCGGACAAAGTGCTCTTCTTGGACGACGACGTGTGGCTGGAGCCCGGTGCTCTGGCCAGGATGAGCGAGGCCCTGGACCAGCTCGGCTGCGGCTTCGTGGGGATGGCACCCCAGGGCCTCTCCTACCTTTCCGACCGCAGGCCTCAGCAGACCGAGGTATTTGAGCCCTGGGAGGGGACGGTCAGGCCGGAACGGATCCGGCCGGATGAGCCCGCCTTCCAGCGGTGGCCCCTGCACAGTGCAGCCAACTTGACCCATGTGAGTGCTGACCTGCACCTGGAGCCCGGGCGGTGGCTGCCCTACAAGATTGCGTGGCTGGGCGGCTGCACGATGTTCCGGCGCCAGGCGCTGGAGGAAACCGGCGGCTTCCGCTTCTGGGAGCAGCTGCCGCCCGAGCACTGCGGCGAGGACGTAGTGGCCCAGTGGCGGGTCATGGAATCCTTTGGCGGCGCCGGAATCCTTCCTGCAGGTGCAGTGCACCTCGAGTCTCCGACCACGGTTCAGGACCGCCGGGTGGAGGCCTTCGAAGTAGTCCTCTCCGATACCCCGCATGAAAACGGCCTAACCCATCATTAA	MNRRTSAQWATGPASEDSAIDVLIPTCNRTAELAVTLAGLAAQDSPAFRVVVSDQSDGSPAWDLAPVPAMVRLLRAQGTEVELLQHLPRRGMAEQRQFLLDHARADKVLFLDDDVWLEPGALARMSEALDQLGCGFVGMAPQGLSYLSDRRPQQTEVFEPWEGTVRPERIRPDEPAFQRWPLHSAANLTHVSADLHLEPGRWLPYKIAWLGGCTMFRRQALEETGGFRFWEQLPPEHCGEDVVAQWRVMESFGGAGILPAGAVHLESPTTVQDRRVEAFEVVLSDTPHENGLTHH				NA	NA	NA	NA	NA
D1-17_00192	660	gntR_1		putative D-xylose utilization operon transcriptional repressor	ATGGCCGCGACGACAGCGTCCCTCCTGGGACTGCAAAAGAAGAGCCTTCGCGAGCAGGCCCTGGCCGCACTGCGCGCCGCCATCACCAGCGGCGCCTTGGAGCCCGGCCGCCATTTGGTGGAGACCGAACTTTCCGAGATGCTGCAGATCAGTCGCGGAACCCTTCGCGAGGCCCTGCGCCAGCTCGAGCAGGAAGGCCTTGTGTCCCCAGGTCCCCGCGGGCGGCTGTCGGTCCGGCACCTGGACGCCAAGGAAATCCGCGACATCTACTCAGTCCGGGCTGCGCTGGAATCCCTGGCCGCCCGTACCCTCTGCGAGCTTCCTGACCGCCAGCGCGTCATCGATTCGCTCCGGTCGGCCATCCAGGCGATGGAAGAGGCCACCCACGGCAGCCTCGAGGAGCGTGTGGAATCCGACCTCGAATTCCATCGCACCATGTGCCGGCTCACCGGCAATGAGACGCTGCTCCACTCGTGGGAGTCGCTGGAGGGGTCCATCCGGATGTCGATCATGTTCGCCGGGCTGGAAAAGGGCGTCAAGAACATGAGCGTGGCCCGCCATCACGACATTGTGGCCGCCATCGAAACGGGCGACGCGTCCCTTGCCCGCAAAACCATCCGCGAACACATGGACACTGCAGCAGCCGTCCTGGTGGCGTAG	MAATTASLLGLQKKSLREQALAALRAAITSGALEPGRHLVETELSEMLQISRGTLREALRQLEQEGLVSPGPRGRLSVRHLDAKEIRDIYSVRAALESLAARTLCELPDRQRVIDSLRSAIQAMEEATHGSLEERVESDLEFHRTMCRLTGNETLLHSWESLEGSIRMSIMFAGLEKGVKNMSVARHHDIVAAIETGDASLARKTIREHMDTAAAVLVA				NA	NA	NA	NA	NA
D1-17_00193	1008	aptB	COG3958	Apulose-4-phosphate transketolase subunit B	ATGAGCACCACCACCGCAGTGAAGGGTACCGCCCCCAAGCTCAAAACCTCCGCCATGATCGCCTCCTTCGCCGATCCCGGCCAGAAAACCGCCCCGGCGCCGTTCGGGCACGCCCTCGTCAAAGCTGCGCAGGACAACGACAAAATCGTCGGCCTCACCGCGGACCTGGGCAAGTACACCGACATGCACATCTTCGCCAAGGCCTTCCCGGAACGCTTCTTCCAGATGGGCATGGCCGAACAGCTGCTCTTCGGCGCAGCGGCCGGCCTCGCCGAAACCGGCCTGGTGCCTTTCGCCTCCACCTACTCCGTGTTCGCCGCGCGCCGCGCCTATGACTTCCTCTGCCTCGACGCCGCCGAACCCAACCTGAACGTCAACATCGTCGGCGGCCTGCCCGGGCTCACCACCGGCTACGGTCCCAGCCACCAGGCCACCGAGGACATGGCGATCTTCCGGGGCATGCCCAACCTGACCATCGTTGATCCCTGTGACTCCCTGGATATCGAGCAGGCCGTCCCGCAGCTCGCCGCCAGCGACGGACCCACCTACCTGCGGCTGCTGCGCGGCAACGTCCCCACCGTCCTGGACGAATACGATTACACCTTCGAACTCGGCAAAGCCAAGGTCCTCCGGGGCGGCAACGACGTCGTGTTTATCTCCTCCGGACTCATGACCATGCGGGCCCTGCAGGCAGCCAAAGCCCTGGCCGAACACAACGTGGACGTCGCCGTCGTCCACACCCCCACCATCAAACCCTTCGACGCCGCCACAGTCCTGGCCGAAATCAACACCGACAGGCTCGCGGTGACTTTGGAGAACCACAGCGTGGTGGGCGGCCTGTTCGAAACCGTCGCCTCCACTGTGGTCACCGCCGGCCTGGGAAAGCGTGTGGTACCCGTGGCGCTGCCGGACCAGTTCCTGGACGCCGGCGCCCTGCCCACCCTCCACGAACGCTACGGCCTCACCGTCCAACGGATCGTGGCCAAGGTCCTCGCCGAACTCAGCTGA	MSTTTAVKGTAPKLKTSAMIASFADPGQKTAPAPFGHALVKAAQDNDKIVGLTADLGKYTDMHIFAKAFPERFFQMGMAEQLLFGAAAGLAETGLVPFASTYSVFAARRAYDFLCLDAAEPNLNVNIVGGLPGLTTGYGPSHQATEDMAIFRGMPNLTIVDPCDSLDIEQAVPQLAASDGPTYLRLLRGNVPTVLDEYDYTFELGKAKVLRGGNDVVFISSGLMTMRALQAAKALAEHNVDVAVVHTPTIKPFDAATVLAEINTDRLAVTLENHSVVGGLFETVASTVVTAGLGKRVVPVALPDQFLDAGALPTLHERYGLTVQRIVAKVLAELS	PGPT0011200_6725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
D1-17_00194	900	aptA	COG3959	Apulose-4-phosphate transketolase subunit A	GTGGTCCTCACACAGGAAACAACGTCCACGGGCACGGCGCCTGAACTAAGCGCAGAACGCCTCGAGCGGGTCAGTGCCGCCGCCTACCGCATCCGGCACCACGCCCTGAACATGGGCGAAGTCCAGGGCCAGGGGTATGTGGGCCAGGCCCTCGGGGCAGCGGACATGTTCGCCGCGGTCTACGCCGACCAGCTCCGCTACAAGGCCCAGGACCCGCACTGGGAAGCCCGGGACCGGTTCCTTCTCTCCACCGGCCACTACGCCATCGGCCACTACGCAGCCCTCGCCGAGGCCGGCGTCGTCCCGGTCCAGGAACTCGAAACCTACGGCTCCGATGATTCCCGGCTGCCCATGTCCGGCATGTCCACCTATACCCCCGGCATGGAAATCTCCGGCGGCTCCCTGGGCCACGGACTGACCATCGCCGTGGGCATGGCCCTGGGCCTGCGCTACCAGGGCTCCAACGCCCGGGTCTATAACTTCCTCTCCGACGGGGAACTGGACGAAGGCTCCACTTGGGAAGCGGCCATGGGCGCCCACCACCACCAGCTCGGGAACCTCACCGCCATGGTGGACATCAACGCCCTGCAGGCCGACGGCAAAACGGACACCGTGCTGCGGACCGAGCCGGTCACCGAGAAATGGGAATCCTTCGGCTGGTACACCCAGCGGGTGGACGGGAACAATATGGGCGCGCTGCTGGCCGCGTTCGACAACGCCGCCGCGCAGGCCGCCGCCAAGGGACGTCCCTCCGTGATCCTCTGCGACACCAAGGTCGGCCGCGGCGTGCCGCTGCTGGAAGAACGCGAGAAGGCGCACTTCATGCGCATCGAAGAACACGAATGGCAGAGCTGCCGCGAGCAGCTGACCGCAGGATACGAAGGAAAGGCTGCCCGATGA	MVLTQETTSTGTAPELSAERLERVSAAAYRIRHHALNMGEVQGQGYVGQALGAADMFAAVYADQLRYKAQDPHWEARDRFLLSTGHYAIGHYAALAEAGVVPVQELETYGSDDSRLPMSGMSTYTPGMEISGGSLGHGLTIAVGMALGLRYQGSNARVYNFLSDGELDEGSTWEAAMGAHHHQLGNLTAMVDINALQADGKTDTVLRTEPVTEKWESFGWYTQRVDGNNMGALLAAFDNAAAQAAAKGRPSVILCDTKVGRGVPLLEEREKAHFMRIEEHEWQSCREQLTAGYEGKAAR	PGPT0011200_8870	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
D1-17_00195	1338	abaF_2		Fosfomycin resistance protein AbaF	ATGAGCAACGAAGCTCTGAAAATGCGGGGCCATGTCCATGGCACCAAGGACGCCAAGCGGGTCGCGATCGGCTCTGGCGTCGGCGCCGTCATTGAGACGTATGACTTCATCGGCTTCGGCACCGCGGCCGCGCTGTACTTCGGTACGGCGTTCTTCCCGACCGGCGACCCGGTCACCGGAACGCTGGCCGCATTCGCCACGCTGGGTGTTGGCTTCGCAGCCCGTCCGATCGGCGGCATCATCGGCGGTCACCTGGGCGACAAGGTCGGGCGTAAGCCCGTCCTGGTCACCTCACTCATCCTGATGGGTATCGCCACCTTCTTTATCGGCCTGCTGCCCACGTACGAGCAGGTCGGGCTGCTGGCTCCGGCGCTGCTGGTCTTCGTCCGCATCGTCCAGGGCCTGGCCTTCGGCGCCGAGTGGGGCGGCGCCATCCTGATGAGCTACGAGCACGCACCCTGGAAGTCGAAGGGCAAATACACCGGCATCGTCCAGGCCGGCTTCCCCGTCGGCCTGCTCCTGGCAAACCTGGTCTTCCTGGTCAGCGTGAACCTTGGCGGCGAGCTCGCCTGGCGCGTCCCCTTCCTCGCCAGCATCGTTCTGGTGGTTGTCGGCCTGATCATCCGCTCCAAGGTCCCCGAGTCCCCCGTGTTTGACGAGGTCAAGGACAGTGGCTCGATCGTTAAGAACCCGATCATCGAGGTCATCAAGACGGACTGGCGCAGCATTGTCCGGGGCATCGGCCTGCGCATCGCGGAGACCGCCGGTTACGCCGTCTCCATCACGTACATGATTTCCTACCTTCACACCCAGCAGCTGGCTGACAAGACCGAGACCCTCGTGGCACTCTGCATCGCCTCCGCCGTCGGTATCTTCGCCACCATGGCCTGGGCACGGCTTACCGACAGGATCGGCCGCCGCCCCCTCTACATCTGGTCCTGCCTTTTTGCCGCACTGTTCGGCATCCCCATGTTCCTGCTCGTGAACACCGGAATGTTCATCTTCGTCATCGCCACCATTGTCATCTCCTACGCCGTCTGCCAGAACTCCCTCGCCGGAACCCAGGGCCCGTGGTTCCCCGAACTGTTCCAGGCCAAGACCCGCTCCTCCGGAGCCTCCCTCGCCTACCAGATCTCCGCCATGGTCTCCGGCTTCACCCCCTTCATCACCACCCTGCTGTTCGTGTCACTGGGCTGGATGGGCCCGGCCCTGCTCTTCAGCTTCTACGCAGCCATCGGCCTCTGGGCGGCCCTGGTCACCCGGGAAACCTGGGGCAAGCGCGAACGCCAGCTCGCTGACGAAGCCACCAAAAGCACCCCTGTACCCGCAGGCGTATAG	MSNEALKMRGHVHGTKDAKRVAIGSGVGAVIETYDFIGFGTAAALYFGTAFFPTGDPVTGTLAAFATLGVGFAARPIGGIIGGHLGDKVGRKPVLVTSLILMGIATFFIGLLPTYEQVGLLAPALLVFVRIVQGLAFGAEWGGAILMSYEHAPWKSKGKYTGIVQAGFPVGLLLANLVFLVSVNLGGELAWRVPFLASIVLVVVGLIIRSKVPESPVFDEVKDSGSIVKNPIIEVIKTDWRSIVRGIGLRIAETAGYAVSITYMISYLHTQQLADKTETLVALCIASAVGIFATMAWARLTDRIGRRPLYIWSCLFAALFGIPMFLLVNTGMFIFVIATIVISYAVCQNSLAGTQGPWFPELFQAKTRSSGASLAYQISAMVSGFTPFITTLLFVSLGWMGPALLFSFYAAIGLWAALVTRETWGKRERQLADEATKSTPVPAGV	PGPT0002956_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_00196	825			hypothetical protein	ATGTTCCATTCCAGACTTGGGTGCTCATCCATCAGCTTTAGGCACCAGGACCTGCCCACCGCCCTGCGGACCATCGTCGGCCTTGGTTTCGAGGAGATCGACCTGGGCGCCCTTCCTGGCGTCTGCGATCACGTTCCTTACGAGCTGGACGCGGACGCAGTGACGGCAGTAGCCCAGGACGTGGGCGAGTCCGGGCTACGGGTCCGCTCCGTCAACGGGGACATCGGAGATCTTAACGCAGTGCTCGACGCCGGCGGGCAGGATGCGCGAGACCGTCACCTTGAGGCACTGCTTACCCTGACGGCCACAACCGGAGCCAGAGCACTGGTTCTTCCCTGTGGCGGCCTGAGCCATGGACCGGTCCGGAGCCTCGAGGAGGATCTGGACGAAATAGCTACCCAGCTGATCCGGGCCGAGCGTCGGGCTGCGGAGTTCGGCGTCGGGCTCTGGACCGAATCGCTGCACTTCCTGAGGTTTTGCTGGAACCTGGACCGTGCGGACCTGCTGGCACAGCGGCTGGCAGGCTCCGGCGTCGGAATCGTCATGGACTTCAGCCACATCGTTGCGGCCGGCGAGGATCCGCAGGAGTACCTGCGGCGCCACGTCGGCCGCATTGCCCACGTCCACCTCCGCGACGCCGTGCCGGGCAACATCAACCTCAGCATAGGCAACGGCCAGGCTGATTTCGCCGCAGGGCTGCGCTCACTGGCTGAGCAGGGCTATACCGGTCATTTCAGCCTGGAACTCGAGACCCGCGACGTAACCCATGACGAACGTCCGGCCGCCGCCGCCAAGGCAGCCAGCTTCATCACCGACGTCATCTGA	MFHSRLGCSSISFRHQDLPTALRTIVGLGFEEIDLGALPGVCDHVPYELDADAVTAVAQDVGESGLRVRSVNGDIGDLNAVLDAGGQDARDRHLEALLTLTATTGARALVLPCGGLSHGPVRSLEEDLDEIATQLIRAERRAAEFGVGLWTESLHFLRFCWNLDRADLLAQRLAGSGVGIVMDFSHIVAAGEDPQEYLRRHVGRIAHVHLRDAVPGNINLSIGNGQADFAAGLRSLAEQGYTGHFSLELETRDVTHDERPAAAAKAASFITDVI	PGPT0016785_1810	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
D1-17_00197	774	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACCACCAGTCAGCGCACCGCCGTCCTCACCGGGGCAACCTCCGAGCGGGGCATCGGCCTCAACACCGCCCGCCGCTACGCCAGCCTGGGCTGGGGCGTGGTGATCCTGGACCTCGACGGCGAGAAATCCGCGAAGGTCGCAGCCGCAATCGGCAACGAATTCAACGTCCCGGCATTCGGATACGAGATTGACGTCGCCAACGAGGACTCCGTAAACGCCGCCTACAAGGCCGTGGCCACCGAAGTCAGCTCCGGCAGCCTGCCCGCAGTCGGCGCCCTTGCCAACATCGCCGGAATTACCTCGCCGCTGCCGTTCCTGGAGACCACCCTTGAGCTCTGGCACAAGGTGATGGACGTCAACGCCACCGGCACGTACCTCGTTACCAAGGCCTTCCTGCCGGACATGATCGACAACGGCTGGGGCCGGATCGTGAACATGTCCTCCGTCTCCGCCCAGCGTGGCGGCGGCGTGTTCGGCAAGGTCCCCTACTCCTCAGCCAAGGCCGCCATCCTCGGCTTCACCAAGGCCCTGGCCCGCGAGCTTGGCGACACCGGCGTGACCGTCAATGCCATCACCCCGGGCGCCGTGGACACCAACATCCGCGTCGGCAGCACCGAGGAGCAGGAAGCCGCCATCAATGCCGGCATTCCCTTGGGCCGCAACGCCACCACCGAAGAAGTCGCTGCCGTCATCACCTTCCTGTCCTCCGAAGACTCGGCGTACCTGACCGGCACCACCATCGACATCAACGGCGGAAGCCACATGCACTGA	MTTSQRTAVLTGATSERGIGLNTARRYASLGWGVVILDLDGEKSAKVAAAIGNEFNVPAFGYEIDVANEDSVNAAYKAVATEVSSGSLPAVGALANIAGITSPLPFLETTLELWHKVMDVNATGTYLVTKAFLPDMIDNGWGRIVNMSSVSAQRGGGVFGKVPYSSAKAAILGFTKALARELGDTGVTVNAITPGAVDTNIRVGSTEEQEAAINAGIPLGRNATTEEVAAVITFLSSEDSAYLTGTTIDINGGSHMH	PGPT0005315_299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CYCLOHEXANECARBOXYLIC_ACID_DEGRADATION,PGPT0005315-badH-K07535	NA	NA
D1-17_00198	333	derK	COG2376	D-erythrulose kinase	GTGACCAGAATCTTCAGCAATCCCGCGGACTTCGCCGAGGAAGCCCTCGCCGGGTTCTGCGATTTTCACTCCGGACTGGTCCGCCAGGTCCCCGGCGGCGCAGCCCGCCGCCGTCGGCCGGCGACACCCAAGGTGGCGGTCCTCGCCGGGGGAGGCTCGGGCCACTATCCGGCCTTCGCCGGGCTCGTCGGTCCGGGCTTCGCCGACGGCGCCGTCGTGGGGAACATCTTCACCTCACCGTCCGCGCAACAGGCGTACACCGTGGCCAAAGCCGCCGAGAGTGGAGCCGGTGTGGTGTTCACGTACGGCAACTACGCCGTTAGTCCACCGTGA	MTRIFSNPADFAEEALAGFCDFHSGLVRQVPGGAARRRRPATPKVAVLAGGGSGHYPAFAGLVGPGFADGAVVGNIFTSPSAQQAYTVAKAAESGAGVVFTYGNYAVSPP	PGPT0018355_41	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0018355-derK-K20902	NA	NA
D1-17_00199	1143	msrP_1		Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGCCCGTCCGCATCGAGCAGAATCGCAATGCCATGTCCAAGCTGACCTACCGTCGCCGCCAATCCACCAGACCCTCCCCGCATTCCGGGGAGCCAACCTACGGGCCACTCACGCCTGAGGAACTGCAGCTCGCGGTGCGGAACCACTCGCTGCCCCTGGAAGCACTCCGTTACGACGTGACGCCGCCCGGGCTGCACTATGTCCTGACGCACTTTGACATTCCGCACATCGATCCCTCGGCGTGGCATCTGAGGATCGGCGGCGCCGTGGAGCGGTCACTGGAACTTGGCATGGGCGCCCTCAGGAGGGACCCGGCCATCAGCGTTCAGGTGACGCTGGAGTGCGCAGGCAACGGACGGTCGCTGCTGAAGCCGAGACCGCTCAGCCAGCCCTGGACGGCCGAGGGCGTCGGCACTGCGGTGTGGACCGGGGTTCCGCTGGCCTACCTGCTCGCTCAGGCAGGCGTCGGGCCCGACGCCGTTGAGGTCGTTTTCACGGGAATGGATGAGGGGATCCAGGGCGGCATCCGGCACCAGTTCGCACGCAGCCTCCCGATCGCAGAGGCGATGCGCGGCGACGTCGTGGTGGCGTACAAGATGAACGGCAGCGAGCTGCCGCCGCAGCACGGTTACCCGCTGCGGCTGGTGGTTCCCGGCTGGTACGGCATGGCCAGCGTCAAGTGGCTGCAGTCCATCCAAGTGGTGACGGCGCCGTTCCTCGGCTTCCAGCAGTCGGTTGCATACCGCTACCAGCACAACGCGGACGACGTTGGCACACCCGTCACGCGCATCAGGGTCCGTTCGCTGATGGTCCCGCCGGGCATTCCCGACTTCTACACGCGGCGACGGCATCTGGCCCGGGGCCCGGTCATGCTGCACGGCCGCGCCTGGTCCGGTGAGGGCGCTGTGACAGGCGTGGAAGTGGGCATCGACGGCAAGTGGGCACCCGCCCAGCTGGACAAGCCGGCGGGTGCGTTCGCTTGGCGCGCCTGGACCTTCCCGTGGGTAGCCGACCCGGGTGAGCACGAGCTGCTGTGTCGGGCCAAGGACGCCACCGGGGCCGTCCAGCCGCTCGAACAGCACTGGAACTACCAGGGCATGGGCAACAACGTGGCCCAGTGCGTCCGCGTCACGGTGGACTAA	MPVRIEQNRNAMSKLTYRRRQSTRPSPHSGEPTYGPLTPEELQLAVRNHSLPLEALRYDVTPPGLHYVLTHFDIPHIDPSAWHLRIGGAVERSLELGMGALRRDPAISVQVTLECAGNGRSLLKPRPLSQPWTAEGVGTAVWTGVPLAYLLAQAGVGPDAVEVVFTGMDEGIQGGIRHQFARSLPIAEAMRGDVVVAYKMNGSELPPQHGYPLRLVVPGWYGMASVKWLQSIQVVTAPFLGFQQSVAYRYQHNADDVGTPVTRIRVRSLMVPPGIPDFYTRRRHLARGPVMLHGRAWSGEGAVTGVEVGIDGKWAPAQLDKPAGAFAWRAWTFPWVADPGEHELLCRAKDATGAVQPLEQHWNYQGMGNNVAQCVRVTVD				NA	NA	NA	NA	NA
D1-17_00200	1059	yajO_1	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGATGCTCAGGAATCCCTTACCCCGAGCAACCATCTCCGCTAGCGTGAAACCCATGGACTTCAGATACCTCGGAAACAGCGGCTTCAAGATTTCGGAAATCACGTTCGGCAACTGGCTGACGCACGGCTCGCAGGTGGAGAACGACGTCGCCACCCAATGCGTGCGGGCAGCGCTGGATGCCGGCATCAGCACCTTTGACACCGCCGATGTCTACGCCAACACGGCCGCCGAGACCGTGCTGGGTGAAGCGCTGAAAGGCGAACGCCGCCAGTCCGTCGAAATCTTCACCAAGGTCTTCGGTCCCACCGGCCCGAAGGGTAAGAACGACCTCGGGCTGTCCCGCAAGCACATCATGGAATCCATCGACGGCTCGCTTAGCAGGCTGCAGACGGACTACGTGGACCTCTACCAGGCACACCGCTACGACTTCGAGACGCCGCTGGAAGAGACCATGCAGGCGTTCGCGGACATCGTGCGGCAGGGCAAGGCGCTGTACATCGGCGTCAGCGAATGGACGGCGGAGCAGCTACGGAACGGACACGCACTGGCCACGGAGCTGGGATTCCAGCTGATCTCCAACCAGCCGCAGTACTCCATGCTCTGGCGTGTCATCGAAGAAGAGGTGGTCCCGGCCTCGGAGGAGCTGGGCGTCTCCCAGATCGTGTGGTCCCCCATGGCGCAGGGCGTGCTGAGCGGCAAGTACCTGCCCGGCAAGCCGGTGCCGGAGGGCAGCCGCGCGACCGATGACAAGGGCGGAGCCAAGACGATCCAGCGCTGGATGCGCGACGACGTCCTGGCCGCGGTGCAGGAACTGCGGCCGGTGGCCAGGGAAGCCGGCTTGACGATGCCGCAGCTTGCCGTGGCCTGGGTGCTGCAGAACCCGAACGTGGCCTCGGCCATCATCGGCGCGTCCCGTCCGGAGCAGATCGCGGATACTGTGGCGGCTTCCGGAGTCAGGCTCGAGCCGGAAATCATGAAGAAGATCGATGATGCGGTGGGTGCCCTGGCCGAGCGCGATCCGGCCCAGACCAAATCCCCGGCCAAGCGCGAGGCATAG	MMLRNPLPRATISASVKPMDFRYLGNSGFKISEITFGNWLTHGSQVENDVATQCVRAALDAGISTFDTADVYANTAAETVLGEALKGERRQSVEIFTKVFGPTGPKGKNDLGLSRKHIMESIDGSLSRLQTDYVDLYQAHRYDFETPLEETMQAFADIVRQGKALYIGVSEWTAEQLRNGHALATELGFQLISNQPQYSMLWRVIEEEVVPASEELGVSQIVWSPMAQGVLSGKYLPGKPVPEGSRATDDKGGAKTIQRWMRDDVLAAVQELRPVAREAGLTMPQLAVAWVLQNPNVASAIIGASRPEQIADTVAASGVRLEPEIMKKIDDAVGALAERDPAQTKSPAKREA	PGPT0010570_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-TYPE_II_POLYKETIDE-MITHRAMYCIN_METABOLISM,PGPT0010570-mtmW-K15967	NA	NA
D1-17_00201	876			hypothetical protein	GTGGAAGATCCGGCAACAATTGCACTGAACCTGACCTTTTTCGGCACCGTGTTCGTGGCTTTCCTCATGTTTCTTGGGCTGTTCATTGCCTTCATCGTGATGCTGGTGCTCGCCGGGGTGAGCCGCCTGCTCGCGTTGGCCGTCATGGCCCTGTTCGGCAGGTTCCCCAGGAATGAGACCATCGAGGTTGTCCGTCTGCCGGCCCCCGGGCAACAGGCTGCGGTGTCACCCGAAGCCGGGCAGTCTGGGCCGGCCAAGGAACGGCCCGCCAACGCCAGACCTGCCAAGCAACGTACCGCCAAGCAGCCACGCCCGCCCCGGCCAGTGCTGGCACCCCGTGCGGCAGTGGACTGGAAGGCGCTGCTGACCCGGGCGGGACTGCGGGAGGCGCTGCGCAACGCCGTCGCACATCACCCCCTGCTGACGGCGGCGCGGCCTGTGCCCCCGGTCCTGGCCAGGGACTGGGCAGAGGCGGTCGCCGCCGCCGACGCCCGTGCCGTGGCACGGGCCAGGGCTACCGCTCCCGTGCTCGGCAATCCCGTGCCGGAAGCGCCCATTACAGGGGTGGTCGAAGTGGTGAAGGTTGCGCCGCTCGTCAAGACCGCGCTGAACGAGGGTCTGCACGACGGCAGCCGCGCGCCCGTCGTTCAGGTCCCGCCGCAGCCCGCCCGCCTGCCGGGTGCTGCGACGCCGAGCCGCGCGGCTCAGGACGCCGAGGCTCCGAAGCAGGTCCAGCCCGTCAGCTCCTCACTCGCGAAGCCGGCTGAGCCGGCGCGCCCTGAGAAGAAGCCGGCGGACGCCGGGCACATGGCCATTCTGGACACGGGCTCCATGGTCTCGCTCGCCCAGCACACGGAAGCCCGCGTCCGTTCCTGA	MEDPATIALNLTFFGTVFVAFLMFLGLFIAFIVMLVLAGVSRLLALAVMALFGRFPRNETIEVVRLPAPGQQAAVSPEAGQSGPAKERPANARPAKQRTAKQPRPPRPVLAPRAAVDWKALLTRAGLREALRNAVAHHPLLTAARPVPPVLARDWAEAVAAADARAVARARATAPVLGNPVPEAPITGVVEVVKVAPLVKTALNEGLHDGSRAPVVQVPPQPARLPGAATPSRAAQDAEAPKQVQPVSSSLAKPAEPARPEKKPADAGHMAILDTGSMVSLAQHTEARVRS				NA	NA	NA	NA	NA
D1-17_00202	408			hypothetical protein	GTGACTCGCATCCAGTCCTATTCGGGCAACTGCCCGTGCCTCTCGGGCGAGCAGTACGTCCATTGCTGCGGCCGCTTCCACAGTGCAGCCGCGAAGGCAGCGACTGCAGAACAGCTGATGCGTTCCCGCTATACCGCCTTCGTCCTCCTGGATGCCGCATACCTCATGAACACGTGGCATCCGGATACCCGGCCCTCGGAGCTTGAACTGGATCCCGGCATTGAGTGGCGGCGGCTGGACATTCTTTCCACGCACCGCGGCGGTCCGCTGGACCACCAAGGCACCGTGGAGTTCAAGGCCCATTTCAGGCAGAACGGCGAACGGGGCGTCCAACACGAAACCAGCCGCTTCCTCAAGGCGCACGGCCAGTGGTACTACATTGATGCCGTCGTCCTTCACCAGCGTTGA	MTRIQSYSGNCPCLSGEQYVHCCGRFHSAAAKAATAEQLMRSRYTAFVLLDAAYLMNTWHPDTRPSELELDPGIEWRRLDILSTHRGGPLDHQGTVEFKAHFRQNGERGVQHETSRFLKAHGQWYYIDAVVLHQR				NA	NA	NA	NA	NA
D1-17_00203	3324			hypothetical protein	GTGGTGCCGGTCCCGGCGTCGGCCGCCCCGGGTGACGTTGGGGTTGAGGGTCCCTCGCATACGGGGACGGGGACGCCGACGGGTTCGAAGCGGGCGACGAGTGGCCTGTGGTTCAACGACGGGTCCTGGTGGGGGAACCTGTGGGACACTGCCAGCTCGGATTTTCATATCTTCCGGTTCAATGCCGCGACCAGCTCGTGGGTTGATACCGGTGTGGCGACAGACACGCGGGCGAACACCCATCATGACGTGCTGTGGGACGGGACAACGCTGTACGTGGCGAGCTACCGGTTCGTCAACGACGGCCTGCCGGCCGAGCCGAACTATCCGACGACGATGCGGCGTTACAGCTACAACGCGACGAGCAAGACGTACACGCTGCGGGGTTCGTCAACCATCAACAACCACCGTGTTGAGGCCCTGACCATCGATAAGGACTCCACGGGCCGGGTGTGGGCTACCTGGCAGCAGGGGAACCGGATCTACCTGAACGTCACCGGCACGGACGGAGCAACGTGGGGGACGCCGTTCCCGCATCCTGCGGCATTGAGCAACGTGTCGGTGGATGACACCTCGGCTGTGATCGCGTTCGGGCCGGGCAAGATCGGGGTGATGTGGAGCCGGCAGGTCGGTGACGCCACCGACGGCATGTACTGGAGCTACCACGTCGACGGAGCGGCGAACACCGCCTGGACCACTCCTGTGGCGGCGGTGGACGGGCAGCGCAGCGGTGATGACCATATGAACCTGAAGTGGCTGGATTCCTCCGGCGGCCGGGTGTTCGCGGCCATTAAGACGTCGTTCACGTCGGCGTCCCAGCCGCTGATCCAGCTGTTGGCCTTGAATAATGCGACCTCGGCATGGTCGGCGCACACGATCGCGACGGTGGCGGAGTGCCCGAACCGGGTGATTGTCCTGATTGATGAGAGCACGCAGAGGCTGCGGACCTTCGCTACCTATCCGAAGCCCAGCGGCACGACCAACGCCGGTGTCTGCACCACCTCGGGCGGTGCGATCTACGAGAAGTCCGCGTCACTGAGCGACATCACCGGCAACTTCAGCTTCACCACCACGAAGACGGCTCATATCGTGGACGCCGACCAGTATGTCCACAACGTGACCTCGACGAAGCAAAACCTGAACAGCGCGGCGCGGGGCACCGCGAACAGCGGTCTGCTGCTGCTGGCCGATGTGAACGCCACCAGCCGGTACTGGCACGCTTACGACCCCAGCGGCGGCAGCGGCGGCGGCGACACAACGGCTCCGACAGTGACGGGTACTTCTCCGGCTGATGGTGCGACCGGTGTGGCGGTGTCGGCGAATGTGACGGGGACCTTTTCGGAGGCGATGGACACCTCGACGATCACTCCGGCCACGTTCACGTTGCGGACGGGGACGGCGACGGGAACGGGGACAGCGGTGTCGGCCGCTGTGACGTACGACAGCACGAACCGGGTTGCGACGTTGAACCCGAATGCGGAGCTGGCAGCGGGCACGGTGTACACGGCGACGATCAAGGGCGGCTCCACTGGGGTGAAGGACGCTGCCGGTAACGCGCTGGCGGCGGATAGGACGTGGACGTTCACCACGGCTACCGCCGGCGGTGGTGATACGACGGCTCCGACGGTGACGGGTACGTCTCCGGCTGATGGTGCGACGGGTGTGGCGGTGTCGGCGAATGTGACGGGGACCTTTTCGGAGGGGATGGATACCTCGACGGTCACGCCGGGTACATTCACGTTGCGGACGGGGACGGCGACGGGGACGGGGACAGCGGTGTCGGCCGCTGTGTCGTACGACAGCACTAGCCGGGTTGCGACCTTGAACCCTGATGCTGACCTGGCAGCGGGCACGACGTACACGGCGACGATCAAGGGCGGCTCCGCCGGGGTGAAGGATGTTGCCGGTAACGCGCTGGCGGCGGATAGGACGTGGACGTTCACCACGGCTGCCGCGGGCGGCGGCACGTCGGAGACTGTCACGCTCACGGCCACCGCTGACAGCTACGTTTCCAGCGGGGCGACGACGACGAACTACGGCACGAGCACCGTGCTGGGCGTGGACAGCAGTCCGGTGGAGGTCGCGTACCTGAAGTTCGACCTGTCGGCCTACGCGGGCAGGACGCTGGAGAGCGCGACGCTGCAGCTGCGCAGCGCCGGGAGCGGCTCCACAGGTACGCAGAACGTCAAGCTGGTCGCTGATGACACCTGGACCGAAACCGGAATCACGTACAGCAACCGCCCGGCGCTCGGCACCAGCATCGGCACGCTCGGTCCGACAACGACCAATACCAACTACAGCGTTCCCCTGACGGCCAGCGGCCTGGCCGGTGAGCTCGGCCAACAGCTCTCACTGGGCTTGGATTCCAGCAGCAGCGACGGCCTGGACCTCAACTCCAAGGAAGCCGGCAGCACGGCCGCACCCAAACTGGTGATCACGCTGGGCGGCGGCGGTGGCGGTGGTGGCGGCACCCCTGGTGATACGACCGCCCCGACGGTGACGGGTACGTCTCCGGCTGCCGGTGCAACCGGCGTGGCGGTGACGGCGAACGTGACCGGGACCTTCTCCGAGGCGATGGATGCCGCGACGGTCACGACGGACACGTTCACGCTGACGACGGGGACGGGCACGGGAACGACGACGGTGCCGGCCGCTGTGACGTACACCGGCACGGACCGGACCGCGACGCTGAACCCCAACGCCGATCTGGCAGCAGGTACGACGTACACGGCGACGATCAAGGGCGGCTCCGCCGGGGTGAAGGATGTTGCCGGTAACGCGCTGGCGGCGGATAGGACGTGGACGTTCACCACGGCTGCCGCGGGCGGCGGCACGTCGGAGACCGTCACGCTCACGGCCACCGCTGACAGCTACGTTTCCAGCGGGGCGACGACGACGAACTACGGCACGAGCACCCTGCTGGGCGTGGACAACAGTCCGGTGGAGGTCGCGTACCTGAAGTTCGACCTGTCCGCCTACGCGGGCAGGACCCTGGAGAGCGCAACGCTGCAGCTGCGCAGCGCCGGGAGCGGCTCCACGGGTACGCAGAACGTCAAGCTGGTCACCACCGACACCTGGACCGAGAGCGGGACCGGTGCGATCACGTACAGCAACCGCCCGGCGCTCGGCACCAGCATCGGCACGCTCGGCCCGACAACGACCAACACCAACTACAGCGTTCCTCTGACCGTCAGCGGCCTGACCGGTGAACTCGGCCAACAGCTCTCACTGGGCTTGGATTCCAGCAGCAGCGACGGCCTGGACCTCAACTCCAAGGAAGCCGGCAGCACAGCCGCACCCAAACTGGTGATCACAGTGAAGTAG	MVPVPASAAPGDVGVEGPSHTGTGTPTGSKRATSGLWFNDGSWWGNLWDTASSDFHIFRFNAATSSWVDTGVATDTRANTHHDVLWDGTTLYVASYRFVNDGLPAEPNYPTTMRRYSYNATSKTYTLRGSSTINNHRVEALTIDKDSTGRVWATWQQGNRIYLNVTGTDGATWGTPFPHPAALSNVSVDDTSAVIAFGPGKIGVMWSRQVGDATDGMYWSYHVDGAANTAWTTPVAAVDGQRSGDDHMNLKWLDSSGGRVFAAIKTSFTSASQPLIQLLALNNATSAWSAHTIATVAECPNRVIVLIDESTQRLRTFATYPKPSGTTNAGVCTTSGGAIYEKSASLSDITGNFSFTTTKTAHIVDADQYVHNVTSTKQNLNSAARGTANSGLLLLADVNATSRYWHAYDPSGGSGGGDTTAPTVTGTSPADGATGVAVSANVTGTFSEAMDTSTITPATFTLRTGTATGTGTAVSAAVTYDSTNRVATLNPNAELAAGTVYTATIKGGSTGVKDAAGNALAADRTWTFTTATAGGGDTTAPTVTGTSPADGATGVAVSANVTGTFSEGMDTSTVTPGTFTLRTGTATGTGTAVSAAVSYDSTSRVATLNPDADLAAGTTYTATIKGGSAGVKDVAGNALAADRTWTFTTAAAGGGTSETVTLTATADSYVSSGATTTNYGTSTVLGVDSSPVEVAYLKFDLSAYAGRTLESATLQLRSAGSGSTGTQNVKLVADDTWTETGITYSNRPALGTSIGTLGPTTTNTNYSVPLTASGLAGELGQQLSLGLDSSSSDGLDLNSKEAGSTAAPKLVITLGGGGGGGGGTPGDTTAPTVTGTSPAAGATGVAVTANVTGTFSEAMDAATVTTDTFTLTTGTGTGTTTVPAAVTYTGTDRTATLNPNADLAAGTTYTATIKGGSAGVKDVAGNALAADRTWTFTTAAAGGGTSETVTLTATADSYVSSGATTTNYGTSTLLGVDNSPVEVAYLKFDLSAYAGRTLESATLQLRSAGSGSTGTQNVKLVTTDTWTESGTGAITYSNRPALGTSIGTLGPTTTNTNYSVPLTVSGLTGELGQQLSLGLDSSSSDGLDLNSKEAGSTAAPKLVITVK				NA	NA	NA	NA	NA
D1-17_00204	1092			hypothetical protein	ATGCGCACCAGGCAGACCAAGGCACTGCACTTCGACATCCACGGCCGCGTCGCGATCCGCGTTGACGCAAAGGCGCCGGCAGCGACCCAGCTTCAGAGCATGTTGGCCTGCTTCGCCACCGACATCGAACGCCCGGCCGACATCGTCGTCGATGACGGGCCCGAGCCGATGCCGGACGCCGGTCTGCTAGAGCACGAACTCGCGTACACGGGGAACAGCGTGCGTTTCGAAGACGATCGGGTCCAGGTCGTGAGGGATGCAGAGCAATGGCGCATTCATGGACCCGGCGAGCTGTTGACCTCCGTGGTCCCTGTCCTCGATGCTGCCATGGTCGGACGGGGAGCCGGCATGATCCACGCGGCAACGATGGCGTACCGGGGTCACGCGATCGCGCTTCCCGCTGCCGGAGGGACCGGGAAGACGAGCACTGTCGCCAAGCTGATGCGGCGCGAGGGGTGGTCGTTCATGGGCGACGACTGGGCCTTCCTCGCCGAGGACGCCACGCTGCTTGGATACGCAAAGCCGATGTTCATCAAACCGCACCACAGGGCCATCTACCCGCACCTGTTCCAGGGGGTCCGGAAGCCCCTCATCCCGTCACGGCTCTCAAACAGCGTCGGCCGTCTCACCACGGTGGTGCACCCGTACGTCATCCGTTATCCGCGACTCGCGGACTTCTCCCGGCGATGGTCGCCGGAGCACCGCATGGTCGCCCCGGGGACCGCGTTCCCGGACCGGGAAGTAACGACGTCGGCCCCGCTCGCGGCCGCCATCTACGTCGAGCGCTTCGAGGGCGCCCGGTCCCGGATTGCCGAGCGGACGAGCGAGTGGATGGTCGACCGCATGCTTGGAAACTTCCACATTGAGATGGCGGGATTCTCGCAGCAGGTCGTGACCGGTCTGGCGGCCACATCCGTCCTCCCGTGGCGGGAGCACTTCGTGGCGAAGGGGATCGTGCTGAGCAAGGCGCTCGACGGACGGCCCTGCCACCTGCTGCAGGTGCCCTCCGCATACACGGCCGACGAGGCGTCGGACGACATCGTCCGGTATCTCGAGCAGCTGCTGCCGTCGGTCCTCGAAGAGCAAGCCTGA	MRTRQTKALHFDIHGRVAIRVDAKAPAATQLQSMLACFATDIERPADIVVDDGPEPMPDAGLLEHELAYTGNSVRFEDDRVQVVRDAEQWRIHGPGELLTSVVPVLDAAMVGRGAGMIHAATMAYRGHAIALPAAGGTGKTSTVAKLMRREGWSFMGDDWAFLAEDATLLGYAKPMFIKPHHRAIYPHLFQGVRKPLIPSRLSNSVGRLTTVVHPYVIRYPRLADFSRRWSPEHRMVAPGTAFPDREVTTSAPLAAAIYVERFEGARSRIAERTSEWMVDRMLGNFHIEMAGFSQQVVTGLAATSVLPWREHFVAKGIVLSKALDGRPCHLLQVPSAYTADEASDDIVRYLEQLLPSVLEEQA				NA	NA	NA	NA	NA
D1-17_00205	813			hypothetical protein	GTGGACCACAGCCCTGCCGAAGTCACCGCCGTCGTTCCTGCCCGTAACGCGGAGCACCTGCTACCGCGCTGCCTGGAGGCCCTGCGTCAGTCCGGCGTCGCCGAGATCATCGTGGTGGACGGATGCTCCACCGACAACACGGTCAGCATCGCCCTCGCGGCCGGTGCCCGGGTCCTGAGTGACGAGGGCCGCGGCCTGCCATTGGCGCGAACGCTCGGAGTGCAGAGCAGCAGCACCCGCTGGGTCCTACTCGTCGACGCCGACGTCGTGTTCGGGCCCACGGGGGTCGCCGACCTGCTCACCGAGCTGGTCGAGGGCGGCTACGACGCCCTCCAGGCGGGCCTGGAAAGTGTCGCCGGGCCGGGCTACTGGGGGCAGGCGCTGGCACATCACCATCGCACCGGGCGCAGCCGCAACTGGTTCGGGCTCGTGGCGACGCTCGTCGACCGAGACCTGATGCTGGGCGTGGGTTTTGACGACGCGTTCAAGTCAGGGGAGGACATCGAGCTGCGTTGGCGGATGCGGGACTCGGGGCTGCGAACGGCTGTGTCACGCCGGGTCTTCGTCGAACATCGCTTCGCCGCAGACGACTTCAATTTCGCGCTCGACCAGTTCCTCATGGACGGAACGGGACTGGGAAGGATGATCCGCAAGCACGGCTGGCGCGGTGCGAGGTTGGCGCTGCTGCCCGCCGCCGCGGCAGTCCGGGGCAGCGCCTTGAGCCTGGCCGCTGGCCAGCCTCGGTGGCTGCGCTACTACGTCGCCTTCTGCTGGTACAACTACGTGGGCCTGGCCAGGGGTGTCGCGTCATGA	MDHSPAEVTAVVPARNAEHLLPRCLEALRQSGVAEIIVVDGCSTDNTVSIALAAGARVLSDEGRGLPLARTLGVQSSSTRWVLLVDADVVFGPTGVADLLTELVEGGYDALQAGLESVAGPGYWGQALAHHHRTGRSRNWFGLVATLVDRDLMLGVGFDDAFKSGEDIELRWRMRDSGLRTAVSRRVFVEHRFAADDFNFALDQFLMDGTGLGRMIRKHGWRGARLALLPAAAAVRGSALSLAAGQPRWLRYYVAFCWYNYVGLARGVAS				NA	NA	NA	NA	NA
D1-17_00206	1284			hypothetical protein	ATGAGGGCTAAGCGGGAGACCGCTGTCACGGACGCCCCGACCGTCCGGCACTCCCCCCTGCACAGCTCGCTCGGTCTCGTTGCGGGCAAGGCCGCACAGACCGGCGCGGGCTTCGCCTTCTGGATCGTGGCCGCGCACGCGGCGTCCGACCGTGAGGTCGGGCTCACCACGGCCGCAGTCTCGGCGGTGATGATCTGCACGCAGCTCGCGGTGTTGGGCGCCGGGTCGGCCGTGATCGTCGCGGTGGGGCGAGGGGAGCCGCCTGCGCGGGTGCTGGACGCAGCATTCGCCATTGTGGGTGTAGCCGGCACCGTGCTGGCCCTCGGCTACCTCGTGCTGCAGTCAGCCGTGATGCCGGACACGGGCTCGGCATCGGTGCTCTTCTGGCTCACGTTCCTCGTGGCTGCCGTCACCGGCACCCTGGTCATCGTGCTGGATCAGGCGCTCGTGGCGTTGGGACACGGTGCCAGCGCGTCCTTGAGGTATGCGTTGGGCGGCACGGTCGCATTCGGGGCTGCAGCGATCGTGGCCTGGCAGGCGCACGGCGCCTCCGCCGACGTGCTGCTGGCCTGCTGGACCCTGGGGGCGACGGTGGCGTGCGTCGTCGGTGCGGTCCAGCTGCGAAGACTTGTCGGCTACCGGCCGCGACCGTCCTTGCGCCCGGCGCGCGGCCGTCCACTGCTTGCGCTGGGCCTTCCGCACCAGCTTCTTACCCTTAGCGAGCGCGCCCCCGGGTTGGTGCTGCCCCTCCTGCTCGCGCACATGGTGGCGCCGGAGGCCGCCGCCTATTGGTATCCGGCGTGGATGATGGCATGGGCCGCTTATACCGCTCCGACGCTGATGGGCATCGTCCAGTTCTCCGAGGGTGTCCGGGACGCGGACCGCCTGGTGTCGACCACCTGGGCGAGTCTTCGTTGGTCGCTCACTGTAGGAGGTCTGGCAGCCGTCGTACTCGTCATCTTCGCCCACCCGCTGCTCAGTCTGCTGGGGGAGCGGTACGCCGACGCGTCCTCCGGCGCTCTGCGGTGGCTGGCGGCCGGACTGGTGCCGTACGCGGTGCTGCAGGCCTACAACGCCGTGTGCAGGGCCCGCGGCCTCTACACGGAGGCGATTGTGGTTGGCGTGACGCTCGGCGTGGCCCTTTGCGCCTCAGCGCTGTCGGCCGCCGACCGGGGCGCCAGCGCCATGGCCCTTGCCTGGCTGGTAGTGCTCTCCATCGGGGCCGCGGCGGCCGGTCTCCGGCTGGTCGCAGTCCTTCGGCACGTTACTCAGGAGGAGCGATGA	MRAKRETAVTDAPTVRHSPLHSSLGLVAGKAAQTGAGFAFWIVAAHAASDREVGLTTAAVSAVMICTQLAVLGAGSAVIVAVGRGEPPARVLDAAFAIVGVAGTVLALGYLVLQSAVMPDTGSASVLFWLTFLVAAVTGTLVIVLDQALVALGHGASASLRYALGGTVAFGAAAIVAWQAHGASADVLLACWTLGATVACVVGAVQLRRLVGYRPRPSLRPARGRPLLALGLPHQLLTLSERAPGLVLPLLLAHMVAPEAAAYWYPAWMMAWAAYTAPTLMGIVQFSEGVRDADRLVSTTWASLRWSLTVGGLAAVVLVIFAHPLLSLLGERYADASSGALRWLAAGLVPYAVLQAYNAVCRARGLYTEAIVVGVTLGVALCASALSAADRGASAMALAWLVVLSIGAAAAGLRLVAVLRHVTQEER				NA	NA	NA	NA	NA
D1-17_00207	1839			hypothetical protein	ATGAGTCGCGCAATGATCGACACGCTTGATGCGACAAGCCGCAACGAGGGACGCTGGAAGCCCCGTGACGTATGGTGCGCAGTGGCGGGCATCGTGTCGCTGGCGCTTGCCGCGGGGGCCGCCTCTACGGTGGCCGTGCCCGTGAACAGCGACTTGGGACTCGTCGCCGTGCTGCCCTACCCGTTCTGGGTGGGGGTCCTGCTTTTGAACGTCGCCTTCGTGGTGGCGCTGCGGGGGGATGCCACAGGACCTGCGCGCCGACCAGTCATGATGGGGCTCGTCGTGGTGCTCGTGCTCATGCTCTTTGGGACCGCAGCCTTCGTGACGGACGTACCGCGGGGTGAGGTCGCATTCCGTCATCTCGGTATCGCCGACGCCCTCTCGCGCATGCAAGGGATCGACCCGGAGATCGACGGGTACTTCAACTGGCCGGGTTTCTTCGCCCTCCTGGCAACGGTGCTCAGGGCGACCGGTCTCGACCCTGTGGCCGTTGCCCTCTGGGCACCGGTGCTCAACATGGGTCTCTGGCTCGCTGCCCTGGGCGTGCTGACGGGATACCTGACGCGCGACCCGCGACGGCGCTGGCTCGCCCTCTGGCTCTTCTGCCTCGGCAACTGGCATGACCAGGACTACCTGTCTCCCCAGGCCTTCGGTTTTTTCCTGTACCTTGTCGTGATCGCGCTGCTCGTCGGCCCGCTGGCCGCGCGGGCTCCCGGGATCCGGAGCTTCCGGCGCCCCGACCTGGCGGCGTGGTGGCAAGGGCGGTCACCCGCCGAGTCACGGCCCCGGCACCGGGCAAGCGCACTCGCGGTGGCCCTCCTGCTCGTGGCGGTCATCTGCGCGAGCCATCAGCTGACACCGTTCGTGGTGCTCATCGCCATGACGGCTCTCACCCTGAGCGGGCGTGTCTGGCCCAGCCGGCTGCCCCTGATCACCGCCGTCATGCTGTCACTATGGCTCGCCTACCCCGCCAGTGAATACCTCCTCGGGCACCCACCCCTGGCGGAGGCAGGACTGCAGGCCGCGGCTGAGGCGAACGTCGTCGACCGCTGGAGCGGGACCGATGGGCACGTGCTCGTGGTGCAGCTCCGGGTTGTTCTCACCCTCGCGCTGTGGGCGCTCGCCGCAGCGGGGGCGGTGCGCGACTGGCGCAGAGGGCGCCTCGACATCCGGGTGGTTCTCCTCGCCGTCACCCCATTGCTGCTCTTCCCTGCGCAGGTGTACGGCGGGGAAATGCTCATCCGCGTCTCGCTGTTCGCGCTGCCCTTCATCGCCCTGCAGGCATGCTCCGTCCTGCTTCCCACGGACGGCAACACACGCCCCTCCTCCCTTTCCCCGGACGCCCTTCCCACGAGCGGCAGCACACGCTCGTCCGTCCTTGCCGCGGGAGGCCTTGCGCTCACCTGCTTCCTGCTGGCTGTACTGACAGTGACGGGCCGGTTCGGAAACGCGCAGTATGACGTCTTTAGCGACGATGAGATTGCCGCTGTCGCGGCCGTGCAGGGCCTCGCGCCCCCCGGCTCGGCGATGATCTCGGTTGCCCATCCGACCCCGTGGCGCAGCGAGGCCTACCTCGAACACCGGTATCGGACGATCGATGACCTGTGCCAGTCCGACTTTTCGACGGCGACATGCGGCCCCGTCGTGTACGACTACGCCCGGAAGAACTCTGCCGGTGCGCTGGTGCTGCTCACACGCTCGTCGGAGGCGAGTCTTGTGCTCCAGGGCGCCAGCAGCGAGCACGACCTCGCTGAGCTGGAGAAATGGCTCAGTGCACAGGACGGCGTGGAGCTCGCCTTCAGCAACGTCGATGCACGCGCTTACCGGGTGACGCCATGA	MSRAMIDTLDATSRNEGRWKPRDVWCAVAGIVSLALAAGAASTVAVPVNSDLGLVAVLPYPFWVGVLLLNVAFVVALRGDATGPARRPVMMGLVVVLVLMLFGTAAFVTDVPRGEVAFRHLGIADALSRMQGIDPEIDGYFNWPGFFALLATVLRATGLDPVAVALWAPVLNMGLWLAALGVLTGYLTRDPRRRWLALWLFCLGNWHDQDYLSPQAFGFFLYLVVIALLVGPLAARAPGIRSFRRPDLAAWWQGRSPAESRPRHRASALAVALLLVAVICASHQLTPFVVLIAMTALTLSGRVWPSRLPLITAVMLSLWLAYPASEYLLGHPPLAEAGLQAAAEANVVDRWSGTDGHVLVVQLRVVLTLALWALAAAGAVRDWRRGRLDIRVVLLAVTPLLLFPAQVYGGEMLIRVSLFALPFIALQACSVLLPTDGNTRPSSLSPDALPTSGSTRSSVLAAGGLALTCFLLAVLTVTGRFGNAQYDVFSDDEIAAVAAVQGLAPPGSAMISVAHPTPWRSEAYLEHRYRTIDDLCQSDFSTATCGPVVYDYARKNSAGALVLLTRSSEASLVLQGASSEHDLAELEKWLSAQDGVELAFSNVDARAYRVTP				NA	NA	NA	NA	NA
D1-17_00208	342			hypothetical protein	ATGAGCGGCGGCGGCGTCAGCCGGCTCACTGCGGCGCTCGGTCTCGCGGCCGTCGCGCTGTCGCTGGTGACACTCATCGGGCTGCCGACACCACTGCAGACTGTCGCCGCGATAGCGGTCCTCGTCCTGCTTCCGGGGCAGGCACTGACCCGGCTCACGCAGGTGACCGATCTCGCGCTCGGCGCGCTGCTCGTCCTGGTACTTGGCCTTGCCACGCTCACGGCAGTGTCCACGGCGATGTTCTACCTCGCTGTGTGGTCGTGGCAGGCGTGCGTCGTCACGATGGGCATCATAACCGTCCTCGCGTGCATGGCACGCGCAAGGCAGGAGGCTGCGTCATGA	MSGGGVSRLTAALGLAAVALSLVTLIGLPTPLQTVAAIAVLVLLPGQALTRLTQVTDLALGALLVLVLGLATLTAVSTAMFYLAVWSWQACVVTMGIITVLACMARARQEAAS				NA	NA	NA	NA	NA
D1-17_00209	246			hypothetical protein	ATGATCAACGTGCTGATCGACTTGGCGGGACTGCTCGCCGCTGCCGCCCTGCTCATCACCCTGATCGCGCTCGAGGTGCGCCGCGCCGGAGCAAACACCGCCGGAGCAAACACCGCGGGAGCAAACACCGGGCAGCCCCCGCGCCAAAGGCTGCTCGGACGAACGGTGAGCCGCGGGGTCGTCGCCGTGATGTGGGTCATGTACTTCGTCCTCTTCATGCCACGCGTGCTGGGATTGCTCGCGTGA	MINVLIDLAGLLAAAALLITLIALEVRRAGANTAGANTAGANTGQPPRQRLLGRTVSRGVVAVMWVMYFVLFMPRVLGLLA				NA	NA	NA	NA	NA
D1-17_00210	1053			hypothetical protein	GTGAGCCGCGCGGCCCGGTGGTGGCTCCTCAGCGACATCCATCTGGGTTTATCGGATGATGACCCCCGGTGCCCTGGCAGAATGCTGCCCGAGTTCCTGCGCTGCGAAGTGCTCGCTGCCTCCGGACCGCAGCAGCACGTCGCCTTCGTTGGTGACACGTTCGAGCTGGTCGGGTTCGGGGAGGACGAGAGTCTGGCCCGGCTCGAGGCCATCCTTACCCGTCATCCGGATACCTTCCAGACGCTGGAGGAGTGTGCGGCACGCGGCGTGCTGCTGCACTTCGTGTGCGGCAATCACGACGTGGAGCTGGCCCGGCCCTCGGTTGCCGCGCGGCTGGCGGCGTTGCTGTCACCCGCCGACCGGACGCGGGTCCGGGTGTACCCGTGGTTCCTCCACGTGCCCCGCGTGCTGGTGGCCGAGCATGGGCACCAGCACCACGCGCTGCATCGGATCCCCGAAGTGCTCCGCGCGGCGGTCAACGGCACGGACGAGCTGGACCTGCCTCCGCTCGCTGCGTGGAATGCCCATCCGTCGGGGTCGCGCCTGAGCCGTGCCCGGGCCGTTGCGCGGGCCTGCCTGGCGTCGGAGCGCGCGGAACGCCGTGTCCGCGAACTGGCATACGACGAGCTGCTGCAGACCGAGTCACTGAGGCTCGCGCTGGACGGGCTGGCCGTTCGGGACCTGGCGCGCCTGTCCCGGTTCCGGACAGTGTCGGCGCTTCCGGTCGCCGCGACCCGCATGGCGCTCGCGGCCGCGGGGCGCAGGGTCGGCGGCGCGGAGGCTCCTGCTGCAGCGGGCCGGTTCGCACGCACCCTCGAGGCGCATGGTTTCGGGGTGGCCTGGTACGTCTCGGCCCACACCCACCGGGCCTTCGAGTCGACGCTTGAGGAGTGCCCCACCCGGTACGTCAACACCGGCACGTGGTCTTCGGATGTCCGCGGTCGCGGACCTGACCAGTCGGACCGTCGTGCGTTTCCTTACGCCGTGGTTGACGTCGCTCCGGACGGCACCACCAGCGGCGGACTGCGGTACTGGCGTCCGGACGGTGGCTGA	MSRAARWWLLSDIHLGLSDDDPRCPGRMLPEFLRCEVLAASGPQQHVAFVGDTFELVGFGEDESLARLEAILTRHPDTFQTLEECAARGVLLHFVCGNHDVELARPSVAARLAALLSPADRTRVRVYPWFLHVPRVLVAEHGHQHHALHRIPEVLRAAVNGTDELDLPPLAAWNAHPSGSRLSRARAVARACLASERAERRVRELAYDELLQTESLRLALDGLAVRDLARLSRFRTVSALPVAATRMALAAAGRRVGGAEAPAAAGRFARTLEAHGFGVAWYVSAHTHRAFESTLEECPTRYVNTGTWSSDVRGRGPDQSDRRAFPYAVVDVAPDGTTSGGLRYWRPDGG				NA	NA	NA	NA	NA
D1-17_00211	948			hypothetical protein	GTGGGGCCGCGGTTCGGTCCCAGCATTGCGTTGCCCGGCTTAGACCTTAAGCCAGGTCCGTTCAGTGAAAGTGAGATGTTCATGAGCAGCCCGATCGGTTCCGAGGAAAGACGGCCGCGGCATAACCAGCCCGAGCACAGCGCCGAGGACACTCCCGTGTACGACGCCACGCACTCACGCGATGCGGATGCGCGGAACAGCGGCAGCAGCGGACGGGACACCGACACAAGCACCAGAGCCATGACCACCCCGGTTCCCCGCTCTGAGCGGGAGAACGATGCCGACAGGGCGTACACGGCCGAGCGGGACTACACCCCCGACACGGGCAGTGATGGCACGCGGCCGCACTCCGACCCCAATCTCGCCTCACGCGAGACCGCGATCGCCCGCGAGAAGCAGGCATTCGGAGGGGTCAAAGTCGGCTCGGCATTCTTCGGCTGGCTGGCGGCCACAGGCATGGCAGTCCTGCTGACAGCCCTCGTTGCGGCAGCGGGAACGGCTGTGGGACTGGCCACCAACCCTGACATCAACTCCGCCCTGGGGCAGGCGGCCTCAAACCAGACGGTGAGCCTCGTGGGCATCATCGTGCTTCTCGTGATCCTCTTCGTATCCTATTACAGTGGGGGCTATGTGGCAGGCCGGATGGCGAGGTTCAATGGTGCGAAGCAGGGCATGATGGTCTGGATCTGGGCGCTTATCGCCGCGGTCATCATCGCCGTTCTGGGAATGATCGCCGGTGAACAGTTTAATATCCTGGCCCAGCTGAACAGTTTCCCGCGGATTCCGGTCAATGAAGGCCAGCTCACTACCACCAGCATCATCGCCGCGGTTGTGGTCGCGGCAGTTGCGCTCGTGGGCGCCGTCGTCGGAGGAATGGCCGGCATGCGCTTCCATCGCAAAGTGGACCGCGCCGGATTTACACCAACAGCAGACTACGAAGAGCACTAG	MGPRFGPSIALPGLDLKPGPFSESEMFMSSPIGSEERRPRHNQPEHSAEDTPVYDATHSRDADARNSGSSGRDTDTSTRAMTTPVPRSERENDADRAYTAERDYTPDTGSDGTRPHSDPNLASRETAIAREKQAFGGVKVGSAFFGWLAATGMAVLLTALVAAAGTAVGLATNPDINSALGQAASNQTVSLVGIIVLLVILFVSYYSGGYVAGRMARFNGAKQGMMVWIWALIAAVIIAVLGMIAGEQFNILAQLNSFPRIPVNEGQLTTTSIIAAVVVAAVALVGAVVGGMAGMRFHRKVDRAGFTPTADYEEH				NA	NA	NA	NA	NA
D1-17_00212	2040		COG1960	putative acyl-CoA dehydrogenase FadE10	ATGAGCTCCGCCACCGAGAGTCCCGCCACTGAAGACCAGGCCGGACAGACCCGAACCGTTCGGCCCGTCGACAGCCCAGCCTCCGAGACTCCGGTCGCTGCTGAGAATATCGGGGCGGGTGCTTCCGCCGAGGATGCCCGGGCAGTCGCCGAGGCGGCCCGTGAAACAGCGTGGGAACGGCCCAGCTTTGCCAAGGGGCTGTACCTCGGCAACTTCGACGTGGGCCTCGTCCACCCTTGGCCCGCCGCCAAACCCGATGACGTGGAGCGCGGCGAGGCCTTCATGGAACGGCTCACCGCCGCGTGCCGGACGATGTCCGGCCGCGTGATCGAACGTGATGACAAAATTCCGGACGAGTATCTCAAACTGCTGGCAGACCTTGGCGTCTTCGGGATGAAGATTCCGCAGGACTACGGCGGCTTGGGGCTGTCCCTCGTGTATTACGGCCGGGCCCTTGGGTTGCTGGGATCGGTGCATCCCAGCCTCGGGGCCCTGCTCTCCGCCCATCAGTCCATCGGCGTGCCTGAGCCGGTCAAGGTCTTCGGCACCACCGAACAGAAGCAGGAGTACCTGCCCCGCTGTGCGGCAGGCGCCATCACTGCATTCCTCCTCACGGAACCCGATGTCGGCAGCGACCCCGCCCGGATGGGCAGTACAGCAGTTCCCACGGACGACGGCGAGGCGTACCTTCTGGACGGCGTGAAGCTTTGGACCACCAACGGCGTGATCGCCGAACTTGTGGTGGTGATGGCCGTGGTGCCGCGACACACCGATTCCGGTGGCGCCGTGCACAAGGGAGGCATCACGGCTTTCGTTGTCGAGATGGATTCGCCGGGCATCACCGTGGAAAACAGGAATGCCTTCATGGGCCTGCGCGGCATTGAGAACGGCGTCACCCGCTTCCACCAAGTGAGGGTTCCGGCAGCAAACCGGCTGGGCCGCGAGGGTCAGGGCCTGAAGATTGCCCTCACCACCCTCAACACCGGGCGGCTCTCCATTCCCGCACTCTGCGTTGCATCGGGCCGCTGGAGCCTGAAGATCGCCCGTGAATGGTCCAATGCGCGCACCCAATGGGGCCGGCCGGTGGGCAAGCACGAGGCCGTGGGCAAGAAGATTGCCTTTATCGCCGCATCGGCCTTCGCGCTGGACGCCGTCTTTGAGCTGTCCGCCGAGATGGCTGATGCCGGGCAGAAGGACGTCCGGATCGAAGCAGCACTGGCCAAGCTGTGGTCCACGGAGATCAGCTGCCGGATCGCGGACGAGCTTGTGCAGATCCGCGGCGGTCGCGGCTTCGAGACCGCCGACTCGCTGGAGGCGCGCGGAGAACGCGCTGTCCCCGCAGAGCAGCAGCTGCGCGATCTTAGGATCAACAGGATTTTCGAAGGCTCCTCGGAGATCATGAGGCTGCTCATCGCCCGGGAAGCCGTAGACGCCCACCTCACTGCAGCCGGCGATCTGGCATCGGCGGAAGCGAGCCTGCAGGACAAGGCCCGGGCCGCCGTCGGGGCTTCAGGCTTCTACGCAAAATGGCTGCCCAAGCTGGTGGCGGGCCCCGGCATGGACCCCCGGTCCTACAGCGGGTTCGGCCGGCTTGCCCGGCACCTGCGCTTCGTGGAGCGGTCCTCGCGGCGGCTCGCCCGCCAGACGTTCTACGGCATGGGACGGTGGCAGGCCGGGCTCGAACACAAGCAGGCATTCCTGGGACGGATCGTGGATATCGGCGCGGAGCTTTTCGCCATGGCCGCGTGCTGCTCCCGCGCGGAGATGCTGCTGCGCACCGCACCCGAGCGGGGCGCCGCCGCCTTCGAGCTCGCCGGGGCCTACTGCGATCAGGCCCGCGTCCGCGTGGACGAATACTTTGACCAGCTGTGGCGCAACACCGACGACGGCGACCGCGGGCTGTCGCGGAAGGTCCTAGCCGGGGATTACATGTGGCTGGAGGCCGGCGTGCTGGACCAGTCCGAGGGCACCGGACCCTGGATCGCGGACACCACACCCCGGGCTTCCGACAGGGAGAACCTGCACCGCAAATACCGCTGA	MSSATESPATEDQAGQTRTVRPVDSPASETPVAAENIGAGASAEDARAVAEAARETAWERPSFAKGLYLGNFDVGLVHPWPAAKPDDVERGEAFMERLTAACRTMSGRVIERDDKIPDEYLKLLADLGVFGMKIPQDYGGLGLSLVYYGRALGLLGSVHPSLGALLSAHQSIGVPEPVKVFGTTEQKQEYLPRCAAGAITAFLLTEPDVGSDPARMGSTAVPTDDGEAYLLDGVKLWTTNGVIAELVVVMAVVPRHTDSGGAVHKGGITAFVVEMDSPGITVENRNAFMGLRGIENGVTRFHQVRVPAANRLGREGQGLKIALTTLNTGRLSIPALCVASGRWSLKIAREWSNARTQWGRPVGKHEAVGKKIAFIAASAFALDAVFELSAEMADAGQKDVRIEAALAKLWSTEISCRIADELVQIRGGRGFETADSLEARGERAVPAEQQLRDLRINRIFEGSSEIMRLLIAREAVDAHLTAAGDLASAEASLQDKARAAVGASGFYAKWLPKLVAGPGMDPRSYSGFGRLARHLRFVERSSRRLARQTFYGMGRWQAGLEHKQAFLGRIVDIGAELFAMAACCSRAEMLLRTAPERGAAAFELAGAYCDQARVRVDEYFDQLWRNTDDGDRGLSRKVLAGDYMWLEAGVLDQSEGTGPWIADTTPRASDRENLHRKYR				NA	NA	NA	NA	NA
D1-17_00213	303			hypothetical protein	ATGGAGTTTGACCTAAGTGCAGTGGAAACAGCCACATTGGTGTTCATCGGGACTTTGGTGTTCGCCGTGGCCCTGGTTTTGTTCGTGACGGTAGCGGCTATGGCCGCTCTTGTCCTGGTGGGGGTCGGACGGCTCGCCTGGCTGATCGTCGCAGGCAGTCTGCTGGGCTTGGTGCACGGTATCAACCACCTGTGGGACCGGCTGGTGCACCACGCTTCCGGGGTGGAACTTCCGGCCGATTTTCAGGGCCAGCATTCCCCTAGCACGGGTACTTACCCGCGGGTAGCATTGAGGGACAGCTGA	MEFDLSAVETATLVFIGTLVFAVALVLFVTVAAMAALVLVGVGRLAWLIVAGSLLGLVHGINHLWDRLVHHASGVELPADFQGQHSPSTGTYPRVALRDS				NA	NA	NA	NA	NA
D1-17_00214	1458			hypothetical protein	GTGCCCCGGTCCGCTACGTCCTCCGCTGATGCCATCAGCGCACGGCTCCGGGACCTCGAGCTCCTGACCAAGGGACCCGCCTGGGCGCTCACCCGCTCCGCACCCTGGGTTATTGCGGTGCTTCAGGCCTCCTTCACCCGCGTCCGGCCGCAGCTCCCGCTGGAAGAGTTCCATGCCGACGTCGACTCTTTCCTTGAGCAGCTCCGGCGCCACGACCCTGGGCTGGGCGGCGCCGCAAGCGGCAAGGCCTTCGGCGATGAATGGACGCGGAAGCAGTTCCTGACGAGGCGGAACCAGTCCGGACAGATCGTCTACGAAGTCACCGAGCCCGCCGCCCGCGTGCTCGCCTTCCTGGATAGCCTGTCCAGCGAACGTTCGACCCTGAATGGATCCCGCCTGGGCACGCTGCTTGGCGATGTGGAAAAGCTCGCCAATGAGACCAATCCGGATCAGAGTGCCCGCCTGGAGGCGCTTGAGGAGGAGATCGAGGAGCGGCAACAGCTTATCCACGACATCAGTTCCGGCGACTTTGATGGGCTGCTCGACGACGATGAAGCCGTGGAAGCCGCCGGCAACATTCTGGATCTCGCCGCCGGTCTCCCCGCCGACTACAAGAAGATGCGTGACCGCATCGAGGAGCTTGTGGGTGAGCTCCGGAACCAGATCATCGAGGAATCCCTGACCAAGGGCGCCACCATGGCTCAGGTCCTCGAAGCCGACAAAAGGCTGCGGCAAAGCCCCGAGGGCAGGACCTTCCGCTCCTTCACGGCCTTCCTTGAGGACCCGCAGCAGCAGCTGCGCTTCCGGTCGGCCATCGGGGAGGTGCTCAGCCGCCAGTTCGCGGACGATCTGTCTCCGGAGGACCGGGAGACCCTGAAGAACCTCGTCGCGGAGCTCCGCCAGCAGCACAGCCAGATCCAGCGCATTTACGGCAAGCTCAGCGAGAGCCTGAACACGTATGTTCAAAGCGATGACTTCCGCCAGTCCGTCCGGCTCCGCAAGGTGCTGCGTGAAGCTGAGCAGGCCATCCGCTCCCTGCCGTACGAACGCGAACGCTCCGGCCTGGTTCCGGGTCCGGTGCTCTATAACGCCGGCTTCGAATCCCTGGCCATGGTGAAGCTGTTTGATCCCGATGAGTTCGCGGCCCCGCCCAAGCTCGCCGACCCGATCGCGTTCAGCGACTCCGACCGCGTGCGGTCGCCCCGCACGGCAAAAGCCCGTCCCGAGGCCATCAGGACCGCTATGGCCGGAGCCTCGACCCTGGCAGAGGCCTGGCAGCAGCTCCCTTCAGAGGAACGGCACATCAACTCCATCAGGGCATTGCTCTCGCACGCCCTCCACGACGGCGCCGGTTTCAACCGCGAAGTTTGGGACCTCGTCGAGTTTGAACAGATCGACGGGACCACGCGCAAGGCCTACCTGCCGGCGGTCACCCTCACGAAGGACTCTGATGACTGA	MPRSATSSADAISARLRDLELLTKGPAWALTRSAPWVIAVLQASFTRVRPQLPLEEFHADVDSFLEQLRRHDPGLGGAASGKAFGDEWTRKQFLTRRNQSGQIVYEVTEPAARVLAFLDSLSSERSTLNGSRLGTLLGDVEKLANETNPDQSARLEALEEEIEERQQLIHDISSGDFDGLLDDDEAVEAAGNILDLAAGLPADYKKMRDRIEELVGELRNQIIEESLTKGATMAQVLEADKRLRQSPEGRTFRSFTAFLEDPQQQLRFRSAIGEVLSRQFADDLSPEDRETLKNLVAELRQQHSQIQRIYGKLSESLNTYVQSDDFRQSVRLRKVLREAEQAIRSLPYERERSGLVPGPVLYNAGFESLAMVKLFDPDEFAAPPKLADPIAFSDSDRVRSPRTAKARPEAIRTAMAGASTLAEAWQQLPSEERHINSIRALLSHALHDGAGFNREVWDLVEFEQIDGTTRKAYLPAVTLTKDSDD				NA	NA	NA	NA	NA
D1-17_00215	843			hypothetical protein	ATGACTGAAGAAACCCCGCTGGTTGACCCTGGACCCACACCTGCCGGGTTTCCTGGCCAAGCTGGCGAGGTGAGGGGGGAGGTGGGGAGCGATACCCGAACCGACCCCTTCCCGGTCCGCCCGAGGGACACCTTCGTCGATGGCGCTGCCCTGTTCCCCGGTGACACCGGGGTGCTCCCGATGAAGGTGCGCCAGGCGCTGGTGAAGCTGCTGAAAGGCCCGTACGTCGACGGCGGCCGGGACGAAAAACTGTGGACCACCCTGTTGGACAACCAGCTCATCCTCCGCAGCCGGCTTTCCGAACTGTTCCTCACCCTGCAGCTGGACCATGAGCGCAAGGTCGCCGTGCTGCGTCCGGTCGACCCTGAAGCCATCGGCGGCAGCACCCGCTCCAGCATTCTGCGCCAGCAGCGTGCCCTGAGCCGGGTGGAAACAATTGTGCTGCTCCGCCTCCGGCTGCTGTTGGACCGTCATGTCACTGCCCAGACCGACCCGACGATCACCCGTGAGGAGATCGGCGAGCTCGTGGCGCACTATCAGCCCGCAGGCCAGCAGGATGCGCTCCGTGACACGGATGTGGTCAACCGTGCCATTGCCAAGCTCCTGGCCCGCCAACTCCTGCTCACTACCGGACTGGATGACGTCTACACAATCTCCAACGCCCTCCCGTTGGCCCTCCCGTACGAGAACATCGGTGACATCCCGTCCCAAATCGAGGCCCTCATGGCAGCCACAGCGGACCAGTCAGGAACAGAACCGCTGATAGAGCTCGACGGCGATAACGCTTCAGAAGACACCGAGACCGACGGCCCGGCAACCAAGGAAGCGGAGGAGGCCAGATGA	MTEETPLVDPGPTPAGFPGQAGEVRGEVGSDTRTDPFPVRPRDTFVDGAALFPGDTGVLPMKVRQALVKLLKGPYVDGGRDEKLWTTLLDNQLILRSRLSELFLTLQLDHERKVAVLRPVDPEAIGGSTRSSILRQQRALSRVETIVLLRLRLLLDRHVTAQTDPTITREEIGELVAHYQPAGQQDALRDTDVVNRAIAKLLARQLLLTTGLDDVYTISNALPLALPYENIGDIPSQIEALMAATADQSGTEPLIELDGDNASEDTETDGPATKEAEEAR				NA	NA	NA	NA	NA
D1-17_00216	3471			hypothetical protein	ATGAGCATCGCAACCATGCTGCCGATGAGCGAGCTGGTGAACCCGGGCCAGATGCGCCTGGCCTTGGTTCAGGTGGTCAACTGGGGCACGTTCCACGGGGCGCACACAATGCACGTGGACCGGAACGGCACGTTGCTGACCGGCAACTCGGGCGTCGGCAAGTCGACGCTGTTCGACGCCATGCTGCGCGTCTTCGACGCAAGGCCGCGCTCCAACGAGGCCGCCGCCCAGCGTTCCGGTGGTGCCGTGGAGGACAAGAGGACCACATTCACCTACATGCGGGGGAAGGTGGGCGACAAGGCTGTCGGTGAAGGCTCCGCGAGTGCCTTCCAGCGTCCGGGGGCGACGTGGTCCGCCGTCGCCCTGACGTTCGATAACGCCGCCGGTACGAAGGTGACGGTTTCGGCGTTGTTTGACCTGCCAAAGAACGGCACGGAGTCGAGCGTCGGCAGGTACTACCTGATCGATAACAAGCCGCTGGACCTCCCGGCGATCGAGGGCATCGCCGGGAAGCGGTTCACGAAGGCAGCCCTGGAGGGCATTTTTCCCGAGGCCCAGGTCTTCGACGTGCACAAGGCCTTCGCTGAACGCTTCCGCCGGCTCCTGGGCATCAACTCGGACCAGGCGCTTCCGCTGCTCCGCGTCATCCAGGCCGGCAAGGGCCTGGGCGGCAGCGTCAACACCTTCTTTCGCGACCAGGTCCTGGATGCGCCGGCGACGCTTGCCGCCGCGGACGACGTGGTCGAGGAATTCAGCAACCTGATGTCCATCCGGCAGCGCCTCGAGGACGTCCGCCAGCAGCGTGACCAGCTGGCTCCGGTGCCTGAGCTTAACCGCGAGTATGCGCAGGCGCTGCTCGATGCCAACCGGCTCCGGGAACTGGCCGGCGAGGAATTTGAGGCGTACCGGCAGCAGCTCGCGGTCGGAGTCCACGAGAAGACGCTGGACCGGTTCAAGGCGCTCGCGCAGGCGAAAGCGAAGGAGCTCAGTGCCGAACGGGCTGTCCGTGACGGCCTGGCCAAGGAACTGCGCCAGCTGGAAGCCGAGTACAACAACCAGGGCGGCAACGCCATCTCCTCCATCGAACAGTCGCTGGAGAATGCGCGGGTCGGGCTGAAGCTGAGGCAGCAGGTGGAGGAGGCGGCCCGCCAGGCGCTCACCGAGGCCGGTCTGGAGCTTGACTGGACGGCTGGGGGCTGGGAGCAGGCGCACGAGCAGGCGGCTGCCCGGTCGGCGGAGCTCCAGGACGACTCGGAGGCCCTGAAGGAGCTCCGGTTCGAAGCCTTCGACCTCCACGCGACGAAAAAGCGCGAGCTGGCGGCCGCGGAGCAGGAGCTCGTGTCGCTGAGGACACGGAAGTCCCTGCTGCCGCCGTCGAGCATTGAAAACCGTGCCGCCATCGCGGCAGCGACGGGTGTCCCGGAGGAGCTGATGCCCTTCGGGGGCGAGCTCATCGACGTGGCCGAGGGGGAGGAACGGTGGCGGCCCGCCGCCGAGCGTGCGCTGCGCAGCCTCGCCACCACGCTGCTGGTGCCCGGGGAGCACTTCGCCGCCGTCACGCGGTACCTGAACGACCACGCGGTCCGCGGCGCCCTGCGTGCTGTGGACGTGTCCAAGCCGCTCTCGGGTGGCGCGCTCGCTGTTGAGGACGTGGCCGACGGCGACCTGCTGACCAAGCTGGACATCCTCACCACCGGGCACAAGGACGGCTCGGCCGCCCACGCCAGCACCTGGATCCGTGAACGCATCGCCTTGGACTTCGCCTACCCCTGCGTCGAAAACCCGGACGAGCTCGCCGGGCTCGACAAGGGCCTGAGTCTGGGCGGCGTGGTCAAGCGCAACCGGCACACCGTAGAGAAGGACGACCGCTTCACAAGCCGCCAGGACTACGTCCTCGGCTTCGACAACGCCTCCAAACTGGAGCTCGTGGCCGCGCGGGTGGCGGACCTGCAGCAGGAGCTCGCCAAATCCGCCGAGCTGGCCCAGAGCCGGGAGGAGTCCCACCAGGGCATGACCCGCCAGCTCGAGGCGTTGCGGCGGGTTGCCGGTGACAACCGGCCCTGGGAACAGGTCTCTGCCGCCGTCGCCGCGGACGAGCTGGCGAAGATCGAACAGCGGCTCAAGGACGCCCTGGCGGCACAGGCCGACCTCGAACCGCTGCGCGCCAACATTGAGGCGGTGCGCCAGAAGCATCAGACCAGCACCGAAGCGGCCGCGGTGCTGCAGAGCGAATACAAGGCGCTGGACCACCACCTCACCACCGCCGATTCACTGCTGGAAGCGGCACGCATCCGCCTGAACCAGGCGCCGCCGTCGTCCTCCACCGTCGCGACCCTGGAGCCGTACTTCGAGGGGCTGGGCGACGTGACCGAGATGCACGAGCTGGACAATCTTGCGGCGCGGGTCAAGACCCGGCTGCTGGGGGAGTTGCACGCCGCGGAATCACGGGGCCAGGCCACCGCGGAACGCCTGACCCGGATCTTCGAGGGCTTCGTGCGCGAATGGGGCTCGGCGATCTCGGCCGACCACGGCACCTCGATCGGCGCCGCCGGCGAATTCGAGGCCCGCTACCACGCCATCGTCAGCGACGGCCTGCCCGCGCAGGAGGCCGAGTTCCGGCAGTTCTTCAATCAGCGCACCCACGAGTCATTCAGCACGCTGCTGCACCTGCTCGACGAGGAGCGGCGCTCCATCACGAGCCGCATCCTGCCGCTCAACGGCATTCTGTCGGAGGTCAACTTCCATGAGGGCAGCTTCCTGGAACTGGACATCAAACAGACGCTGCCGGCTTCCGCGAAGCAGTTCAAGGACGCCATCCAGAATGCGCTCAAGACCCGCCACACGCGCCATAGCAAGGCGGATGCCGCTCCCGCTGGCCAGGACGACGACGCCGAGCTCACCGCCCGCTACAAGTCGCTGGAAACGCTCGTGAAGCGGCTGGGTTCACAGACGCCGGAGGACCGGCGGTGGCGCGCCGAGGTGCTGGACGTGCGCGGCCACCTGTTCATTCAGTGCAAGGAGCACCGCGAGGTGGACGTGCCCACGGCGAACAAGGGCGGCAAGCGGACGGAAGTCTTCATGCACGCCGACACCGGGTCCATGTCCGGGGGCGAGCGGCAGCGCTTCACGGCGTTCATCATGGCGGCCGCCCTGAGCTACCAGCTGGGGATCGCCGAACAGGGCTTCACGACATATGGCACGGTGATGATGGACGAGGCCTTCGTCCTGGCTTCGGAGGAATTCGCCGGTGCAGGCATCAAGGCGCTGCACGAGTTCGGCTTCCAGCTGCTCCTCGCTGCCCCGGAGAACGTGATCGACCTGTCCAGGCATCTTGGTTCCGTCACGGAGATCCTGCGGGACAAGCGCACCAACCGTTCAGGGGTGCTTACGGCCCCGGTCATTTCGCCCAAGGCCGGGCTGGGAGGCCAGTGGCGGTCGGAGGCCAACCCGGTTGACATCGTGCTGCGCTGA	MSIATMLPMSELVNPGQMRLALVQVVNWGTFHGAHTMHVDRNGTLLTGNSGVGKSTLFDAMLRVFDARPRSNEAAAQRSGGAVEDKRTTFTYMRGKVGDKAVGEGSASAFQRPGATWSAVALTFDNAAGTKVTVSALFDLPKNGTESSVGRYYLIDNKPLDLPAIEGIAGKRFTKAALEGIFPEAQVFDVHKAFAERFRRLLGINSDQALPLLRVIQAGKGLGGSVNTFFRDQVLDAPATLAAADDVVEEFSNLMSIRQRLEDVRQQRDQLAPVPELNREYAQALLDANRLRELAGEEFEAYRQQLAVGVHEKTLDRFKALAQAKAKELSAERAVRDGLAKELRQLEAEYNNQGGNAISSIEQSLENARVGLKLRQQVEEAARQALTEAGLELDWTAGGWEQAHEQAAARSAELQDDSEALKELRFEAFDLHATKKRELAAAEQELVSLRTRKSLLPPSSIENRAAIAAATGVPEELMPFGGELIDVAEGEERWRPAAERALRSLATTLLVPGEHFAAVTRYLNDHAVRGALRAVDVSKPLSGGALAVEDVADGDLLTKLDILTTGHKDGSAAHASTWIRERIALDFAYPCVENPDELAGLDKGLSLGGVVKRNRHTVEKDDRFTSRQDYVLGFDNASKLELVAARVADLQQELAKSAELAQSREESHQGMTRQLEALRRVAGDNRPWEQVSAAVAADELAKIEQRLKDALAAQADLEPLRANIEAVRQKHQTSTEAAAVLQSEYKALDHHLTTADSLLEAARIRLNQAPPSSSTVATLEPYFEGLGDVTEMHELDNLAARVKTRLLGELHAAESRGQATAERLTRIFEGFVREWGSAISADHGTSIGAAGEFEARYHAIVSDGLPAQEAEFRQFFNQRTHESFSTLLHLLDEERRSITSRILPLNGILSEVNFHEGSFLELDIKQTLPASAKQFKDAIQNALKTRHTRHSKADAAPAGQDDDAELTARYKSLETLVKRLGSQTPEDRRWRAEVLDVRGHLFIQCKEHREVDVPTANKGGKRTEVFMHADTGSMSGGERQRFTAFIMAAALSYQLGIAEQGFTTYGTVMMDEAFVLASEEFAGAGIKALHEFGFQLLLAAPENVIDLSRHLGSVTEILRDKRTNRSGVLTAPVISPKAGLGGQWRSEANPVDIVLR				NA	NA	NA	NA	NA
D1-17_00217	765			hypothetical protein	ATGCGTTCTGCTCACCGCGCCACCTACGTCACCGCCCTCGCTGCGGCTGCCGCCCTCAGCCTCGCCGGCTGCGGGGCAGTTGCAGAGTCGGCGTCCACCAACGCGACACCGCCGGCAGCGGCTGCCGGCGCCTCGGCTCCCGCCACGTCCGCACCCGCCACTGCCAAGCCGGCACCTGCAAGCGCAAAGCCGTCAGATGCCGCAGCGCCGGAGGCTGCTGCTCCGGGTGCTGCCGGGGCCGGCACCGCCGCGCCAGGCTCTACTGACCTGGCCACCTTCACGTTCCCGGGAGACAAGGTGTCGTTCAAATACCCGTCCACGTGGAGGGTGGAACTCTTCACCGGTCTAACAACGCTTCCGGTGTCCGGCACAGCTACTGTCTACGACGCCGACGGGAACAGGCAGGCCATGATCTACTCGGGGCACATTGCCGACGGCGTGGCCCACCCGGTCACCAGGGATGTTTTTGAAACCCAGCCGGTTCCGGGCCTGCAGCAACAGCCGGCTCCCGTAGCCCACTACTCCTTCTATGCTGACCGGATGGAGGACGCCTCCGTCTACCGCATGCACCTGACGGCCGGGGCGCCGCCGTCCGGCGCCGACCTGGCACAGGACGGCATCATCCGCGTCGGAAAGGATGTGCTTGTGGCGGAGGTCCAGTTCATCGAGAAGCCGTTTGCCAGCGACGCAGCCGCCAGGGCCTGGCTGGCAGGAGCCGAGGGGCAGGCCCTGAAGGCACTCCTGCTGAGCATCTCCTACCGCTAG	MRSAHRATYVTALAAAAALSLAGCGAVAESASTNATPPAAAAGASAPATSAPATAKPAPASAKPSDAAAPEAAAPGAAGAGTAAPGSTDLATFTFPGDKVSFKYPSTWRVELFTGLTTLPVSGTATVYDADGNRQAMIYSGHIADGVAHPVTRDVFETQPVPGLQQQPAPVAHYSFYADRMEDASVYRMHLTAGAPPSGADLAQDGIIRVGKDVLVAEVQFIEKPFASDAAARAWLAGAEGQALKALLLSISYR				NA	NA	NA	NA	NA
D1-17_00218	1110			hypothetical protein	GTGATTTCCCCCCTCTTCTCCGGCTCCGGCCGTGTGCCCGGTGCCGCCACTACCCGCCGCGGCCTGCTCAAGACCGCCGGCAAGGCCGCCGCCGTCATGGCCGCCGCAGCCCTGGCCCTGACCGGCTGCTCCACCGGCCCGGCCGCCTCCTCCTCGGTCTCATCCGCCGCCGAGTCCTCCAGCGCACAGTTTCCCGTGACCATCAAGCACGCCTTCGGTGAGACCAAGATCGACAAGCAGCCGCAGCGTGTCGCCACGATTTCCTGGGTCAATGACGACGTCGCCATTGCCCTCGGGGTGGTTCCCGTCGGTGTCCCCAAGAACGAGTGGGGCGGCAACGACAAGGGCTCCACTCCGTGGAAGGACGCCGCCCTCGAAAAGCTCGGCGCCAGCTTCGGCTCGGAAAAGGCCCCTGTGCAGTACTCCGAGGCCGATGGCATCAACTTCACCGAGATTGCCAAGCTCAACCCGGACGTCATCCTGGGCGCCTACTCCGGCCTGACCGCCGAGGACTACAAGAAGCTCAGCGAAATTGCTCCCGTTGTTGCCCACCCCGAGGTCGCCTACGGCACCTCCTGGCAGGACTCCACGAACATTATCGGCAAGGCACTCGGCAAGGAAGCCGAAGCCGCCAAGCTGGTCTCCGACACCGAGGCCACCATCAAGGAGAAGGCGTCCAAGTACCCGCAGATCGAGGGCAAGACTTTCATCTACGGCAACCTTGAGCCCGCCAAGGGTGACGGCGTCAACGTATACACCACGAATGACAACCGCCCTCGCTTCCTGTCCTCCATCGGGATGGAGCTCGCCCCCGTTGTGGAGGAGAAGTCCAAGGGTTCCAAGGAATTCTTCCTGCCCTGGTCTGCGGAGAAGGCCAACGAACTGGAATCCGACGTCTTCGTGACCTGGGTCCCGGATGCCAAGACCAGCGACGCCATCAAGAAGGATCCGCTGCTCGGCCAGATTCCCGCCATCAAGAATGGCGCACTGGTTGCCGACTCTGACAACACGCTGACCCTCTCGATCTCGGCCGCCTCGCCCCTGAGCCTGCCCTGGTCACTGGACACCTTCCTGCCGCAGCTCGGTAAAGCTGCCGACGCGGTCAAGTAG	MISPLFSGSGRVPGAATTRRGLLKTAGKAAAVMAAAALALTGCSTGPAASSSVSSAAESSSAQFPVTIKHAFGETKIDKQPQRVATISWVNDDVAIALGVVPVGVPKNEWGGNDKGSTPWKDAALEKLGASFGSEKAPVQYSEADGINFTEIAKLNPDVILGAYSGLTAEDYKKLSEIAPVVAHPEVAYGTSWQDSTNIIGKALGKEAEAAKLVSDTEATIKEKASKYPQIEGKTFIYGNLEPAKGDGVNVYTTNDNRPRFLSSIGMELAPVVEEKSKGSKEFFLPWSAEKANELESDVFVTWVPDAKTSDAIKKDPLLGQIPAIKNGALVADSDNTLTLSISAASPLSLPWSLDTFLPQLGKAADAVK	PGPT0003765_2114	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003765-feuA|yvrC|ABC_FEV_S|fatB-K02016	NA	NA
D1-17_00219	1026	yfiZ	COG0609	putative siderophore transport system permease protein YfiZ	GTGCCCGTTCGCGCTCCCCGGTCGGGGAGCCCATCAGGCAAGCAAGCGGCGTGGCTGCTGGCCGCCGTCGTCGTACTTTTCATCGTCTGCGCAGTGTCGCTGGCCGTGGGCGCCCGCGGCCTGCCGCTTGCCACCGTCTGGCAGGCACTGACGGAGTTCAACCCGGACAACGGCGACCATGCCGTCGTCCACGCCCGGATTCCGCGCACCGTCCTGGGGCTGCTCGCCGGCGCGGCCCTCGGCCTGGCAGGTGCAGCAATGCAGGGCGTCACCCGCAACCCGCTGGCCGATCCCGGCATCATCGGCGTTAACGCCGGCGCCGCCCTGGCCGTGGTCACGGGCATCTACCTTTTCGGCGTTTCCTCCCTCGGCGGGTACATCTGGTTCGCGTTTGGCGGCGCCGCGGCAGCCGCCGTCGCTGTTTACCTCATTGCTTCCATGGGCAGGGCCGGGGCGACGCCGGTCAAGCTCGCCCTCGCAGGGGCCGCCCTGAGTGCGGGGCTGTACTCGCTGATGAACGTCATCCTGGTTTCCAGCCAGGACACCCTGGACCGCTTCCGCTTTTGGCAGGTGGGCGGCATCGCCGGGCGCGACTGGTCCGTCATCCTGCCCGGCCTCCCCTTCCTGGCCGCAGGGGCGCTGATCGTGCTCTGCACCGGCCGCATCCTGAACAGCCTGGCCCTTGGCGACGACCTTGCCCGTGGGCTCGGCCAGCGCGTGGGCCTCACCCGAGGCGTGACGGCGCTGGGCATCGTGCTGCTCTGCGGATCCGCCACCGCACTAGCCGGGCCGATCGCGTTCGTCGGCCTCGTCATACCGCATGCCGTCCGCTTCCTCACGGGGCCGGACTACCGCTGGATCCTGCCGTTTTCCCTGGTGCTCGCGCCGGGCCTGCTCCTGCTGTCCGACGTGATCGGGCGCGTGGTTTTGCTCCCCGGCGAGGTTCCGGCCGGCATCATGACCGCCCTCGTTGGCGCCCCAGTCTTCGTGTGGCTCGTTCGCCGCGGCAAGGGGGCCGGGCTGTGA	MPVRAPRSGSPSGKQAAWLLAAVVVLFIVCAVSLAVGARGLPLATVWQALTEFNPDNGDHAVVHARIPRTVLGLLAGAALGLAGAAMQGVTRNPLADPGIIGVNAGAALAVVTGIYLFGVSSLGGYIWFAFGGAAAAAVAVYLIASMGRAGATPVKLALAGAALSAGLYSLMNVILVSSQDTLDRFRFWQVGGIAGRDWSVILPGLPFLAAGALIVLCTGRILNSLALGDDLARGLGQRVGLTRGVTALGIVLLCGSATALAGPIAFVGLVIPHAVRFLTGPDYRWILPFSLVLAPGLLLLSDVIGRVVLLPGEVPAGIMTALVGAPVFVWLVRRGKGAGL	PGPT0003770_678	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
D1-17_00220	1203	btuC		Vitamin B12 import system permease protein BtuC	GTGACACCCCTCCGGACTTCCGCCGCCACCACAGACCAGCGCGAACGGAGATGTGAGGCCCCCCGCCCTGAGCGCGAATCGACTCAGCGCGCCCGACCTGAGCGCGAACGGGCAGGTAAGGCCCTCAAAACCGCCGAAACAGGGCATTATCTGCCCGTTCGCGCATCATTGCTGCGCCGGACGCTGCCGAACCGCACCGCGATCCTGGCACTCGCTGTCGTTCTTCTTTTCGCCGCAAGCATCCTGCTCGGCAACTACACCGTGACCGTCCCGGACTTCTTCCGGATCCTCACCGCACACTTCAGCGGCGGCGAGAAGATTCCTGGCGCCAGCTTCATCGTCATGGAGAGCAAACTGCCGCGCGCGGTGATCGGGGCGATGATCGGGCTGGCCTTCGGCCTTTCCGGCGGGCTGTTCCAGACGATGCTCCGCAACCCGCTGGCCAGCCCGGACGTGATCGGCATCAGCAACGGCGCCAGCGCCGCCGCGGTTACGGCCATCGTGGTTTTCGGCGCCACCGGTCCGGCCGTTTCGGCGTCCGCCCTTGGCGGAGCCCTTGCCGTCGCGGCCCTGATCTACGCCATCTCCCGCGGCGGCCCGGCCTGTTCCCGGACCACCGGCGCCGGCGCCGGCAACCGCCTCATCCTCGCGGGCGTCGGCCTTGCCGCTGCCCTCGGTGCCGTAGTCAACTTCCTGCTGACCCGAGCGGACATCCGCACTGCGGCCGACGCGCTGGTCTGGCTCAACGGTTCGCTCAACTCGGCGAGCTGGGACCGCGCCGGCGTGCTGGCAGGGGCCCTCCTGGTCCTCGTTCCGGCAGTCGCCGTCCTCGCCGGCCCGCTGCGGATGATCGAACTCGGTGACGATACGGCTGCCGGACTCGGCATTCGCGTGAACCTCACGCGTCTGGGCATCGTGCTCACCGCCGTCGCGCTGGCAGCCGTAGCGACGTCGGCAGCCGGTCCGGTCTCGTTCGTCGCGTTCCTTGCCGGGCCCATAGCCCGGCGCTTCACCCGCAAAGCCAGCCTCCCGGCGTCGGCCCTCACAGGTGCCCTGATTGTCCTGGCCGCCGACTACTTCGCCGGCAACCTCGCCCCGCTGCTGCTGAACGGCGCGGTGCTGCCGGTCGGCGTGGTCACCGGTGCCCTCGGCGCCCCCTTCTTGCTGTGGCTTCTGGTCACTTCCAACCGAAAGGATGCCTGA	MTPLRTSAATTDQRERRCEAPRPERESTQRARPERERAGKALKTAETGHYLPVRASLLRRTLPNRTAILALAVVLLFAASILLGNYTVTVPDFFRILTAHFSGGEKIPGASFIVMESKLPRAVIGAMIGLAFGLSGGLFQTMLRNPLASPDVIGISNGASAAAVTAIVVFGATGPAVSASALGGALAVAALIYAISRGGPACSRTTGAGAGNRLILAGVGLAAALGAVVNFLLTRADIRTAADALVWLNGSLNSASWDRAGVLAGALLVLVPAVAVLAGPLRMIELGDDTAAGLGIRVNLTRLGIVLTAVALAAVATSAAGPVSFVAFLAGPIARRFTRKASLPASALTGALIVLAADYFAGNLAPLLLNGAVLPVGVVTGALGAPFLLWLLVTSNRKDA	PGPT0003770_707	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_TRANSPORT,PGPT0003770-feuB|feuC|chuU|yfhA|hmuU|ABC_FEV_P|fatC|fatD-K02015	NA	NA
D1-17_00221	921	yusV	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGGCCGTTCTCAAAGCGAAGGACCTGACGCTGCAGTACGATCAGCGCCGCGTGGTCGAAGGGTTGACAGCGGACATTCCGGAGGGCAGAGTGACCATGATTGTAGGCGCCAACGCCTGCGGCAAGTCCACCCTCCTGCGCGGGCTTTCCCGGCTGCTTAAACCCGCCGCTGGAGCGGTCACCCTCGACGGGAAGGACATCCACTCCCTCCCGGCACGCGAACTGGCCCGCACGCTCGGGCTGCTGCCGCAGCACCCCACCGCGCCGGACGGCATCACCGTCCGGGACCTGGTGGGCCGCGGCAGGTACCCGCACCAGGGCTTCTTCCGCAGCTGGACTGAGAAGGACGACGCCGCGGTACAGCGCGCGCTCGAAGCCACCGAAACGCTGGAGCTCGCCGGGCGGAATGTCGACGAGCTCTCCGGCGGGCAGCGCCAGCGCGTATGGATCGCGATGGCCCTTGCGCAGGAAACAGACGTTCTTCTCCTGGATGAGCCCACCACATACCTCGACCTCGCGCACCAGGTGGAGGTGCTCGACCTCATTACCGACCTCAACAGGCAGCGCGGCACCACCGTGGCGATCGTGCTGCACGACCTCAACCTTGCCGCCCGCTACGCGGACCACGTCATTGCCTTGAAGGGCGGACGGATCGTAGCCGAAGGCGGCGCTTCCGACGTGATCACCGAACAGCTCGTCCTGGATGTTTTCGGGCTCGATTCCCGCGTGCTGCCGGATCCCGTTTCCGGAACGCCGCTGATCATTCCGATCGGCCGCCACCATGCGGTCCCGGCGTCTCCCGCTGCTGGTGGTGCTGATTCCCGCGGCGAAGCAAGTACCGAAATGGGCGTGGCGGCAGATACCGGCGAAGGTGCCAGCGCCCCAAAAGCCGTAACCGCGATTCTGGAGTTGGCCTCATGA	MAVLKAKDLTLQYDQRRVVEGLTADIPEGRVTMIVGANACGKSTLLRGLSRLLKPAAGAVTLDGKDIHSLPARELARTLGLLPQHPTAPDGITVRDLVGRGRYPHQGFFRSWTEKDDAAVQRALEATETLELAGRNVDELSGGQRQRVWIAMALAQETDVLLLDEPTTYLDLAHQVEVLDLITDLNRQRGTTVAIVLHDLNLAARYADHVIALKGGRIVAEGGASDVITEQLVLDVFGLDSRVLPDPVSGTPLIIPIGRHHAVPASPAAGGADSRGEASTEMGVAADTGEGASAPKAVTAILELAS	PGPT0003760_1668	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
D1-17_00222	1098			hypothetical protein	ATGAGCTCAGTCAGCAAGCCGGCAACAACCGCCTCGCAGACAGCAGCGCGGGAACGTCCACAAGGCGTGCAGCAGTTCGCCACTGAGCCGATGACTCTCGCGTTCGATGTGACGGTCAGCGCCATCCAGGACCTCGGCGCCAATTTCCGCCGCGTGACCTTTGGCGGCTACTCGCTGCGGGACTTCGGTGTGCACGGCGGCACCCTGGACCTGCGCGTCAAGCTGGTGATTCCGTCCGTGAACGAGGACGGCACGCAGCGCGAACTGCCGCCCTTCACCATGGAGAACCCCGGCTGGTACAGGGAGTGGCTCGCCATGGACCCGGCCGTCCGGGGCGCGATGCGTACGTACACGGTCCGGCATGCCCGGCTCGACGCCGTGTATCCAGAGATCGATATTGACTTCGTGATGCACTTCGACGCCGACGGGCACGGCGGTCCCGCAGCCAACTGGGCTCGCAATGCCCGCCCCGGCGGCTCCCTGACCATCATCGGTCCCAACAACCGTGCGGCACACTGCGTCACGGCCGAGATTTACTCCGGCATCGAGTGGCGGCCTGGTCTTGCACAGCGCGTCCTCCTTGCAGGCGACGAAACGGCCGTTCCAGCCATCAGCGCCATCTTGGAGAGCCTGCCGGAGTACATGACCGGCCATGCCTTCCTGGAAGTCCCGGAAGCCCGCGACTTCCTCGACCTCAAAACCGCCGCCAATATCGAGATCACCTGGCTCGCCCGCGGTGCCGCCATCGGCCGTTCGCGTCCCCATGGGCAGCTGCTCCAGGAGGCGGTCCAGGCTGCGGTGCCGGTGCCGGGCTGGGTAGGCATCAAATCGCCCGACTCCACCGCCGGCCCGGAACCGGAGGACGTCAATGTGGACCAGGAAATCCTGTGGGAAACACCTGCCCGCATGAACTCCGCGGCCATCGGCGCCACCAAGAACCCGACCGTGCCTGCAGGTGCCATGCCCTTCTACGCCTGGATAGCGGGGGAGGCCGGCGTCATTAAGGACATGCGGCGCTACCTCGTCCGCGACGTCGGCATTGACCGGAAACAGGTCGCCTTCATGGGCTACTGGCGCCAGGGAAAGGCCGAGCTCTAA	MSSVSKPATTASQTAARERPQGVQQFATEPMTLAFDVTVSAIQDLGANFRRVTFGGYSLRDFGVHGGTLDLRVKLVIPSVNEDGTQRELPPFTMENPGWYREWLAMDPAVRGAMRTYTVRHARLDAVYPEIDIDFVMHFDADGHGGPAANWARNARPGGSLTIIGPNNRAAHCVTAEIYSGIEWRPGLAQRVLLAGDETAVPAISAILESLPEYMTGHAFLEVPEARDFLDLKTAANIEITWLARGAAIGRSRPHGQLLQEAVQAAVPVPGWVGIKSPDSTAGPEPEDVNVDQEILWETPARMNSAAIGATKNPTVPAGAMPFYAWIAGEAGVIKDMRRYLVRDVGIDRKQVAFMGYWRQGKAEL	PGPT0003760_87	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
D1-17_00223	843			hypothetical protein	GTGTACCTTGTCCGGATGGGTTCTCATCCTTTACTTCCGGAGAGGGACGGACGACGCCGGTTCGTCGCCTTGGGTGACTCGTTTACCGAGGGGGTGGGGGACCGGAACACGTACCTGCCTAACGGCGTGCGCGGCTGGGCAGACAGGGTGGCTGAACGGCTGGCGAAAGCCGAACCGGGATGGGAGTACGCCAACCTCGCCATCAGGAGCAAACGGCTGCGCCACATCATCGCGGAACAGCTGGAACCGGCACTTGCCATGGAACCGACACTCATCACGCTGTATGCGGGCGGCAACGACATCCTGGACTTCGGCACCGACATGGACGAGCTGATGGCCCAGTATGAAGGGCTCGTTGCGGCACTTGCCGGCACCGGTGCAACGCTTGTGCTCTTCACCGGCTTCGACGTCAGGGTATCGGCGCTGCTGGAGCCGCTGAAAAAGAGAAACGCCGCCTACAACCGGGAGGTGCGCGAGCTGGCAGCGAAATACGGAGCTGTGCTGGTGGATTACTGGTGCTTCGATGCCCTGCATGACCGCCGGATGTGGGACTCGGACCGGCTGCATATGTCGAAGGCCGGCCACAAATATGTGGCGGCTCAGGTCTTGGACCACCTAGGCGTGCCGCACAAGATCAGCCTCAAGGAGTGGGAGCCCCCCGCCAGGATGACGCTCCGCGACTGGGAGAGGCGGCAGCGCCGCTGGGTGAACGACTGGGTGCTCCCGCTCTTCGGGCGGAAACTGCGCGGCGTGACACTCGGGGACAACCTCAGCCCCCGCTGGCCCGAGCCCGTGAAAGTGCCTCGGAAGGGCGGCCTGAAGAAGCTGATGGAAAAGGGCTAG	MYLVRMGSHPLLPERDGRRRFVALGDSFTEGVGDRNTYLPNGVRGWADRVAERLAKAEPGWEYANLAIRSKRLRHIIAEQLEPALAMEPTLITLYAGGNDILDFGTDMDELMAQYEGLVAALAGTGATLVLFTGFDVRVSALLEPLKKRNAAYNREVRELAAKYGAVLVDYWCFDALHDRRMWDSDRLHMSKAGHKYVAAQVLDHLGVPHKISLKEWEPPARMTLRDWERRQRRWVNDWVLPLFGRKLRGVTLGDNLSPRWPEPVKVPRKGGLKKLMEKG				NA	NA	NA	NA	NA
D1-17_00224	294			hypothetical protein	ATGTACGTAGTTTCCCTGACCTACAAGGTTGCCCAGGACATCGTGGATTACCACCTGGATGCTCACGTGGAATGGCTCAAGGACGCGTTCGACCAGGACGTGTTCATTGCGGCCGGCCGGAAGGTCCCGCGCACCGGCGGACTCCTGCTTTCCAAGGCCGACCGGCAGACGCTGGACGCTTCCCTTGCCAAGGATCCGTTCTACGTCAATGGCGTCGCGGAGTTCGAAGTCATGGAATTTGCTGCGAACCGAGTGGCTCCGGGCTTCGAAAATCTCCTGGACCAGCCGAGCTAG	MYVVSLTYKVAQDIVDYHLDAHVEWLKDAFDQDVFIAAGRKVPRTGGLLLSKADRQTLDASLAKDPFYVNGVAEFEVMEFAANRVAPGFENLLDQPS				NA	NA	NA	NA	NA
D1-17_00225	528			hypothetical protein	ATGACCGAACCGCGCTGGCTCAACGCCAATGAACGTCGTGCCTGGCTGGCCCAGCTCAGCATCAACACCATGCTGCCCGCGGCGTTGGACACCCAGTTGCACGCGGCCGGAAAGGTCTCGCTGTTCGATTACCACGTGCTGGCCATGCTGTCAGAAGCAGAAGGGCACTTCCTGCCCATGAGTGAGCTTGCAGCCCGGACCAGCGCCTCGCTTTCCCGGCTTTCCCACGTGGTCACCAAACTGCAGGGCCGCGGCTGGGTGGAACGGCGCCCGCACCCGGGCGACGCCCGTGTAACCACCGCCCACCTGACAGACCAGGGAATGGCCACGATTGTGGGGTTGGCTCCGGGCCACGTGGAAACCGTCCGGTCACTCTTCCTGGACGCGCTGACTGAGCAGGATGTGTCCGACCTCGCCCGCATTGGTGAGAAAATTGTGGCGGGTCTGGACAGCAATCACTGGATTCTCCGCGAGCGGTCCGGCGGGCAGCAGGCATTAAGCAACGGGCAGCAGCCCTCGAAGAAGTAA	MTEPRWLNANERRAWLAQLSINTMLPAALDTQLHAAGKVSLFDYHVLAMLSEAEGHFLPMSELAARTSASLSRLSHVVTKLQGRGWVERRPHPGDARVTTAHLTDQGMATIVGLAPGHVETVRSLFLDALTEQDVSDLARIGEKIVAGLDSNHWILRERSGGQQALSNGQQPSKK				NA	NA	NA	NA	NA
D1-17_00226	762			hypothetical protein	ATGAACTTCACGTCGCGTTTCGTTGCTTTGGGAGACTCCTTCACCGAAGGCGTCGGTGATGACGATCCCACGCGTCCCAACGGTGTCAGGGGCTGGGCCGACCGTGTGGCCGAGCAGCTCTGTGCGGCGGATCCCGGGTTTGGCTACGCTAATTTTGCTATCCGCGGGAGAAAGCTCCGCCAGATCATGGCAGAACAGGTGGACGCCGCCGTCGAGCTTAAACCGACACTCGTCAGCATCTATGCGGGCGCCAACGATATCCTCAGGCCGAAAATCGACATTGATGACCTGCTTGAGGAGTACGACGCCGGCGTGCGGAAACTCGCGGCCACCGGTGCCACAGTGGTGATGTTTACGGGCTTCGATGCCCGGGGCTCCAAGGTATTTGGCACCATGCGGGGACGGACCGCCATTTACAACGAGCTCGTCCGGGGCATTGCCGGTGACCACGGGGCTTTGCTGGTGGATTACTGGCGTTTCAACGAGTACTACGACTGGGGCATGTGGGCCAGGGACAGGATGCACATGTCGGCCGCAGGCCACGCGAACATGGCTCAGCGTTTTCTCACGGTCCTGGAGTACGACCACTCGATCCAAGTTCCGCCGATGACCCCGGTGCCCGAGCTGAGCGGAGTGGATGCGATGAGGGCCAACGCGCTGTGGTTCCGGGAGTTTGCCGCCCCATGGGTGGTTCGGCGTGTCACGGGCAAGTCCTCCGGAGACAGCCTCCAGCCGAAGTACGGGCAGCTGACCCGGCTCTGA	MNFTSRFVALGDSFTEGVGDDDPTRPNGVRGWADRVAEQLCAADPGFGYANFAIRGRKLRQIMAEQVDAAVELKPTLVSIYAGANDILRPKIDIDDLLEEYDAGVRKLAATGATVVMFTGFDARGSKVFGTMRGRTAIYNELVRGIAGDHGALLVDYWRFNEYYDWGMWARDRMHMSAAGHANMAQRFLTVLEYDHSIQVPPMTPVPELSGVDAMRANALWFREFAAPWVVRRVTGKSSGDSLQPKYGQLTRL				NA	NA	NA	NA	NA
D1-17_00227	237	rpmB	COG0227	50S ribosomal protein L28	ATGGCAGCACACTGCCAGGTGACCGGAGCCGAGCCGGGCTTTGGACACAGCATTTCGCACTCGCACCGCCGCAACAAGCGCCGGTTCGACCCGAACATCCAGAAGAAGCGCTACTGGGTTCCTTCCCTGCGCCGTAATGTCACCCTGCAGGTCTCTGCAAAGGGCATCAAGACCATCGACGTGCGCGGTATCGACGCAGTCGTCGCCGGCATTCTTGCACGAGGGGTGAAGCTCTAG	MAAHCQVTGAEPGFGHSISHSHRRNKRRFDPNIQKKRYWVPSLRRNVTLQVSAKGIKTIDVRGIDAVVAGILARGVKL				NA	NA	NA	NA	NA
D1-17_00228	168	rpmG2	COG0267	50S ribosomal protein L33 2	GTGGCTAAGGACAAGGACGTACGTCCGATCATCAAGCTCAAGTCGACCGCGGGCACGGGCTACACCTACGTAACCCGTAAGAACCGTCGTAACGACCCGGACCGTCTGGTTCTGAAGAAGTACGACCCCAAGATCCGCCAGCACGTCGAATTCCGAGAGGAGCGCTAA	MAKDKDVRPIIKLKSTAGTGYTYVTRKNRRNDPDRLVLKKYDPKIRQHVEFREER				NA	NA	NA	NA	NA
D1-17_00229	306	rpsN	COG0199	30S ribosomal protein S14	ATGGCTAAGAAGTCCAAGATTGCTCGCAACGAGCAGCGCAAGGTCATCGTTGAGCGTTACGCTTCAAAGCGCCTCGAGCTGAAGAAGACCCTGGTTGACCCGAACGCGACTGACGAAGCACGCGAAGCTGCACGCCTCGGCCTGCAGAAGCTGCCCCGCGACGCATCCCCGATCCGTCTGCGTAACCGCGACATCATCGACGGTCGTCCCCGCGGCACGCTCCAGAAGTTCGGTATCTCCCGTGTTCGCTTCCGCGACATGGCTCACCGTGGTGAGCTCCCCGGCATCAGCAAGTCTTCCTGGTAA	MAKKSKIARNEQRKVIVERYASKRLELKKTLVDPNATDEAREAARLGLQKLPRDASPIRLRNRDIIDGRPRGTLQKFGISRVRFRDMAHRGELPGISKSSW				NA	NA	NA	NA	NA
D1-17_00233	594			hypothetical protein	ATGCAAATCCTGTTCCCAAGACCCACACCAGCAACCAAACCAGCCCCACCCGAAACCAGCACGCCACAAAGACGACCATTTCCAGGCTGTTCACAAAGGGGATCCGCCACCCACAAGAACCAGCATCCCGCCAGTCCCCCTCGCGGCGACTTAGAAAACAATACACCCACCACACCCCCACCGCCAACCCACCCAAACAAGCCCTCCCTGGCACCACAGCGGCGCCCAAAACCCCCGGATTTCCAGGGGTTTTCGTACCCCGGCATCGCCTCAAAGGCCCCCTGGAGGGACGTTTGGGCTCTTATGGAGCGCGTCACATTTCCCGTCGCAAATCTCCACCCGGCTGGGCTGGACGTGCATGCCTGCCTCTGCAGACCCCGGGAGAGCCGGTTCTCTGGCACGGAAGCAGCCGGTGCGCACGTCGCAACCCCAGACCCCCATACCCAAGGAGAGTCACGGGAACCGGCCAGGCCCACAGGCTTGAACCACGCGCATCCCCGGCATACTCCGGGGGATACCCGGGGGCAACTGCCGAACTTCCTTCTCGCCCGCACCGGGGACCTGGCGCACCCCCGAGCCTTGACATGCCCCTGA	MQILFPRPTPATKPAPPETSTPQRRPFPGCSQRGSATHKNQHPASPPRGDLENNTPTTPPPPTHPNKPSLAPQRRPKPPDFQGFSYPGIASKAPWRDVWALMERVTFPVANLHPAGLDVHACLCRPRESRFSGTEAAGAHVATPDPHTQGESREPARPTGLNHAHPRHTPGDTRGQLPNFLLARTGDLAHPRALTCP				NA	NA	NA	NA	NA
D1-17_00237	594			hypothetical protein	ATGCAAATCCTGTTCCCAAGACCCACACCAGCAACCAAACCAGCCCCACCCGAAACCAGCACGCCACAAAGACGACCATTTCCAGGCTGTTCACAAAGGGGATCCGCCACCCACAAGAACCAGCATCCCGCCAGTCCCCCTCGCGGCGACTTAGAAAACAATACACCCACCACACCCCCACCGCCAACCCACCCAAACAAGCCCTCCCTGGCACCACAGCGGCGCCCAAAACCCCCGGATTTCCAGGGGTTTTCGTACCCCGGCATCGCCTCAAAGGCCCCCTGGAGGGACGTTTGGGCTCTTATGGAGCGCGTCACATTTCCCGTCGCAAATCTCCACCCGGCTGGGCTGGACGTGCATGCCTGCCTCTGCAGACCCCGGGAGAGCCGGTTCTCTGGCACGGAAGCAGCCGGTGCGCACGTCGCAACCCCAGACCCCCATACCCAAGGAGAGTCACGGGAACCGGCCAGGCCCACAGGCTTGAACCACGCGCATCCCCGGCATACTCCGGGGGATACCCGGGGGCAACTGCCGAACTTCCTTCTCGCCCGCACCGGGGACCTGGCGCACCCCCGAGCCTTGACATGCCCCTGA	MQILFPRPTPATKPAPPETSTPQRRPFPGCSQRGSATHKNQHPASPPRGDLENNTPTTPPPPTHPNKPSLAPQRRPKPPDFQGFSYPGIASKAPWRDVWALMERVTFPVANLHPAGLDVHACLCRPRESRFSGTEAAGAHVATPDPHTQGESREPARPTGLNHAHPRHTPGDTRGQLPNFLLARTGDLAHPRALTCP				NA	NA	NA	NA	NA
D1-17_00241	288	hup	COG0776	DNA-binding protein HB1	ATGGCTAAGAACCGTAGTGAACTTGTTGCAGAGGTAGCAGGCAAGGCCGGCACCAGCCAGGCAGCCGTCAACTCCGTGCTCGATGCACTGTTCGAGGTTTTCGAATCTTCCGTCGCCGCCGGCGAGAAGATCACCATCCCGGGCTGGCTCGCCGTCGAGCGTACCGACCGCGCAGCCCGCACTGGCCGCAACCCGCAGACTGGCGAGACCATTCAGATCGCAGCAGGCCACAGCGTCAAGCTGACCGCCGGCTCCAAGCTGAAGGCCGCTGTCTCCAACAAGAAGTAG	MAKNRSELVAEVAGKAGTSQAAVNSVLDALFEVFESSVAAGEKITIPGWLAVERTDRAARTGRNPQTGETIQIAAGHSVKLTAGSKLKAAVSNKK				NA	NA	NA	NA	NA
D1-17_00242	2157			hypothetical protein	GTGCTCGGCATCCCCCGGTCCTGGCAGCTGGCAGGCCTGGCTGCGCTGTTCCTCGGACTGGTTGCGGCCTTGCTCTTCTCGGGTGCGGCCGTCGTGCGCGATGTCTCCGATCCGGGAGCGATGGTCCGCTGGGGCCTTCCCGCCAGCAAGGCGATCCATAACGTTTCTCTGGCCACCGTGATCGGCGGTCTTATTTTCGCCGCCGGCATCCTGCCGCCCACGGTCGGCCGCCGGCGCTCCACGGACCGGCTTAAGGAAGAGCCCGCCCCAGAGCACCCGGCGTTTGCGAGGGCCTTGGCTATCGCGGCTGCCGGCGGCGTGGCGTGGACCCTGTCATCCATCGCCGTCCTGGTTCTCACGTATGCCGATGTGGCTGGACAAAGCGTGTCCGGCGACGCGGAGTTCACCAGGGCGCTCGTCTTCTTCATGACTGACATCCCGGCCGGGCGTGCCTGGCTCGCTGTCATCATCATCGCGGCCGTGGTCACAACCGCGCTGTTCGGCGTCCGGTCACTGACGGCCTTGGCGCTGACTCTGGTGCTCGCCCTGATCGGTCTTGTCCCCACGGCACTGATCGGCCACTCGGCAAGCTCCAACGACCACGAGGGCGCCATCAGCTCCCTGGGGATGCATCTCGTGGGGGTCAGCCTCTGGGTAGGCGGCATCGTTGTGCTGGCCCTCCTCTCCGGTTTGCTGTCCGGATCCAGCAACGCCAGAGGTGCCGCCAGCAAAGCAGGAGGCCCCGGCTCCGGCACAGCAGGCGACAGTTCCGCTGGCAAGGCAGCAGCCCACATCAGCACAAGGGACATCACCGAACCCACGCTGCGCCGCTTTTCCTCCCTCGCAGGCTTCGCCTTCGTCCTGGTCCTTGCCTCGGGCGTCATCAACGCCACCGTCCGGATCAGCAGCTGGGGCGACCTGTTCGGCTCGCCGTACGGCCAGCTGATCCTGGCGAAGACCGCGGCCACCTTCGTGCTCGGCGGCATCGGCTTCATGCACCGGCAATGGGTGATCCCGCAGCTGACCCGCAAGGGCACATCCTCCCGCCGCGTGCTGTGGCAGCTGATCCTGATGGAACTGCTCATTATGGGGGCCACCTCCGGAATCGCCGTGGCGCTCGGCCGCTCCTCACCGCCCGAGCCGACTTCCTACGCCCCTGATGCCTCCCCCGCCTTCATCCTGACCGGCTACGAGCTGCCACCGGAGCTGACGTCGGAACGCTGGCTTACCGAATGGCGCCCGGACTGGATCTGGGTGGCAGTTGCCGCGTTCGGCCTCGTGGCCTACTTCCTGGGGGTGGCCAAGGTCCGGGCACGCGGGGACAGGTGGCCGATCTTCCGCACAGTGCCCTGGGTGATTGGCCTGCTGGTGCTGACCTACATCACGTCCGGACCGCCGGCGGTCTATGGCCGCGTGCTGTTTTCCGCGCACATGGTGGACCACATGGCCCTGACCATGGTGGCCCCGCTCTTCCTGGTCCTCGGCGCACCCGTCACACTTGCGCTTCGCGCGTTCCCCGCCAGGACGGACGGCTCCCGGGGTCTTCGCGAATGGCTCCTGCTCTTCGTTCATTCGGGGTTCTCGCAACTCGTCACGCACCCCCTGTTCGCTGCCGCAAACTTCGCTGGCTCCATCGTGCTCTTCTACTACTCGGACGCCTTCGGCTTCGCCATGCGGGAGCATGTGGGCCACGAGTTGATGATTCTGCACTTCGCGCTGACCGGGTACATCTTCGTTCTTACGATGATCGGCACCGACCCCCTGCCGCGCCGCGCGCCGTACCCACTCCGGCTCCTGCTGTTGCTGGCCACGATGGGCTTCCACGCATTCTTCGGGGTTGCCATCATGGGCGGCACCGGACTGCTGGCCGCGGACTACTTCGGCAACCTTGGCCGGGAGTGGGGCCCGTCGGCTCTGGCGGACCAGCAACTGGGCGGCGCCGTGGCCTGGGGCATCGGGGAAGTGCCCACCCTCCTGGTGGCGATCGGCGTCGCCATCATTTGGTCCCGGTCCGATGAACGGGAAACCCGCCGCACCGACCGGGCAGCGGACAGGAATAACGACGCCGATCTCACCGCTTACAACGATATGTTTGCCAAATTGGCCGAACGCGACGCCAAGCTGGCTGACCGCAACTCAAAGCTGGAAGGACGCTGA	MLGIPRSWQLAGLAALFLGLVAALLFSGAAVVRDVSDPGAMVRWGLPASKAIHNVSLATVIGGLIFAAGILPPTVGRRRSTDRLKEEPAPEHPAFARALAIAAAGGVAWTLSSIAVLVLTYADVAGQSVSGDAEFTRALVFFMTDIPAGRAWLAVIIIAAVVTTALFGVRSLTALALTLVLALIGLVPTALIGHSASSNDHEGAISSLGMHLVGVSLWVGGIVVLALLSGLLSGSSNARGAASKAGGPGSGTAGDSSAGKAAAHISTRDITEPTLRRFSSLAGFAFVLVLASGVINATVRISSWGDLFGSPYGQLILAKTAATFVLGGIGFMHRQWVIPQLTRKGTSSRRVLWQLILMELLIMGATSGIAVALGRSSPPEPTSYAPDASPAFILTGYELPPELTSERWLTEWRPDWIWVAVAAFGLVAYFLGVAKVRARGDRWPIFRTVPWVIGLLVLTYITSGPPAVYGRVLFSAHMVDHMALTMVAPLFLVLGAPVTLALRAFPARTDGSRGLREWLLLFVHSGFSQLVTHPLFAAANFAGSIVLFYYSDAFGFAMREHVGHELMILHFALTGYIFVLTMIGTDPLPRRAPYPLRLLLLLATMGFHAFFGVAIMGGTGLLAADYFGNLGREWGPSALADQQLGGAVAWGIGEVPTLLVAIGVAIIWSRSDERETRRTDRAADRNNDADLTAYNDMFAKLAERDAKLADRNSKLEGR				NA	NA	NA	NA	NA
D1-17_00243	2037	resA_1		Thiol-disulfide oxidoreductase ResA	ATGAGCGAAACCGTACGCACCCACCACCGGGTCCGCGCCTCCGAACTGGTGGGCCGTAACTGGCTGAACACCGGCGGCAAGTCCCTGGACCTGGAAGCCCTGCGCGGCAAGATTGTGCTCCTGGACTTCTGGACCTTCTGCTGCATCAACTGCCTGCACGTGCTGGACGAACTGCGTCCGCTTGAGGAAAAGTACTCCGACGTCCTCGTCACCGTGGGCGTGCACTCCCCGAAGTTCGAGCACGAGGCCGACCCCGTGGCCCTCGCCGCGGCCGTGGAGCGGTACGAAATCCACCACCCCGTCCTTGACGACCCCGAGCTGGATACCTGGAAGGCCTACACGGCCCGTGCCTGGCCCACGCTGGTGGTCATCGATCCAGAGGGCTACATTGTGGCCCACCTGTCCGGCGAAGGCCACGCAGACGGGCTCGGTGTGCTGATTCCTGAGCTCATCGCCCAGCACGAGGCTCGCGGCACCCTGCATCGCGGCACCGGCCCGTACGTGGCCCCGGAGCCGACGTCGGGCACCTTGCGCTTTCCGGGCAAGGCCCTGTACCTTCCCGCCGGGCGGGGTTCCGCTGCAAGAGCGGCCGCTGCAAAGTCCGACGCCGGTGCTGCCGCCAGCGCGGAAGGCGCCGCTGATAGCGCCGGTACCTGGCTTGTTACCGACACCGGACACCACCGCGTCGTGGAGCTCGACACTGACTTCCACACGGTGCTCGGCGCCTTCGGCACCGGGACCAGGGGCCACGCCGACGGCCCGGGTGCGGCCATCGACTCCCGCGAGCCCGTCGCGGAATTCAACGAGCCGCAGGGTCTTGTCCTGCTGCCGGAAGACGTGGCAGCAAAGACGGGCTACGACGTCGTGATTGCCGACTCCGTCAACCACCGCCTCAGGGGACTGTCCCTCAAGGACGGCACCGTGACCACGCTCGTCGGCAACGGCGTGCAGCGCCTGCTGGAGACAGGGCCTGCCCGCGTGGACGAGGACGCCGCCGGGTTCACCGGACGCCTCAGCGACCACCCGCTGGACGTCTCCCTCAGCTCGCCGTGGGACGTCGTGTGGTCCAGCAAGCTCAACGCCGTCGTGGTTGCTATGGCAGGCGTACACCAGATCTTCAGCTTCGAGCCGCTGTCCGGGGAGGTTTCCATCATCGCCGGCAACGGCCTTGAAGGCCTGCTCGACGGGACCGCCCATGAATCCTGGTTCGCGCAGCCATCCGGTCTTGCCGAGGACGCTGACGGCAACATCTGGGTTGCCGATTCAGAGACCTCCGCGCTGCGGAAGCTCGTGATTGACGACGACGGCACCGTCACCGTTGAGTCGGCCGTCGGCAAGGGCCTCTTCGATTTCGGCTTCCGCGACGGCGAGGCCTCCGAGGCCCGCCTCCAGCATCCGCTCGGTGTCACAGTGCTCCCCGACGGTTCAGTGGCGGTTGCCGACACGTACAACGGTGCCGTACGCCGCTACGATCCGGCGACCAAGACGGTGTCCACGCTCGCCCGCGGCCTTCTGGAGCCCTCCGACGTGATCGTGGACCACACCCAGGTGGCTGGCAAGGAGCCGCTGCTCGTGGTGGTCGAGGCCAACAAGCACCAGCTTGTCTACGTTCCTATTCCCAAGGAGGCGCAGCAGGTGGATGAGGGCGCCGTCCAGACCCACCGGCCCAAGAGCCCTGTGGCTCCGGGCCCGTTGGAGCTGACGGTCCGCTTCACCGCGCCCACCGGGCAGAAGCTGGATGACCGCTGGGGCGACCCGACGCAGCTGAAAATCTCTTCCACCCCGCCGGAACTGCTCGTGTCCGGAGCCGGGACCTCGGTCGGCCTCCTCCGCACCCTTGTGCTGGCGTCGGACGTGCCCGAGGGCGTGCTGCACATTACCGCGCGTGCGGCCGCCTGCGACGGCCCCGAAACCGAAGACGGCGAGATACCCGACCACGCCGCGTGCCACCTGTACCAGCAGGACTGGGGCATCCCGGTTGTGCTGCAGGCCGACGGCGACGCGGAGCTGGTGCTGGACCTGCGCGGCATGGACTAG	MSETVRTHHRVRASELVGRNWLNTGGKSLDLEALRGKIVLLDFWTFCCINCLHVLDELRPLEEKYSDVLVTVGVHSPKFEHEADPVALAAAVERYEIHHPVLDDPELDTWKAYTARAWPTLVVIDPEGYIVAHLSGEGHADGLGVLIPELIAQHEARGTLHRGTGPYVAPEPTSGTLRFPGKALYLPAGRGSAARAAAAKSDAGAAASAEGAADSAGTWLVTDTGHHRVVELDTDFHTVLGAFGTGTRGHADGPGAAIDSREPVAEFNEPQGLVLLPEDVAAKTGYDVVIADSVNHRLRGLSLKDGTVTTLVGNGVQRLLETGPARVDEDAAGFTGRLSDHPLDVSLSSPWDVVWSSKLNAVVVAMAGVHQIFSFEPLSGEVSIIAGNGLEGLLDGTAHESWFAQPSGLAEDADGNIWVADSETSALRKLVIDDDGTVTVESAVGKGLFDFGFRDGEASEARLQHPLGVTVLPDGSVAVADTYNGAVRRYDPATKTVSTLARGLLEPSDVIVDHTQVAGKEPLLVVVEANKHQLVYVPIPKEAQQVDEGAVQTHRPKSPVAPGPLELTVRFTAPTGQKLDDRWGDPTQLKISSTPPELLVSGAGTSVGLLRTLVLASDVPEGVLHITARAAACDGPETEDGEIPDHAACHLYQQDWGIPVVLQADGDAELVLDLRGMD				NA	NA	NA	NA	NA
D1-17_00244	633			hypothetical protein	ATGGACCCTGCGGACATCATCAAATCAGCCGGAGGCGTGCTGCTGACGCGCGACGTGCTGGCCAGGGGCGGTACCGGATCCGGTATTCGGGCGGCGATCCGGTCCGGCGATGTGGTCCGGGTGGAGCGAGGGCTGCTGGCCGCCAGCGGCGCCGACCCGGAGCTCGTGGCCGCCGGACGCTCGCGAGGCCTCCTCACCTGTGTGTCCGCGGCCCCCAGATTCGGGCTCTGGCAACTGCACCCGGCCGCTCAACCCCATTACTGGCACAGCAACGGCCGGAATGCGGTCCAATGCATCAGCCACAAGGCAGGCATCGCCACCGAAACGCAGGTGTGGCTGGACGGAATCGGCCGCGTGGACTTCCTGCTTGAGGGATTTCTGATTGTCGAACTGGACGGAATCGCGTTTCACCTGGAGCCGCGGCAGTTCAAGAAGGACCGGAGGCGGGACAATTCTGCGACAGTCTGCGGGCTTCCCGTGCTGCGCTTCTTCTATGACGACGTTGTTCACGCGCCCGAAACCATGTTGGCCCAGGTGCGGGACGTGCTGGCCAGGGGGTCGCTCCGCTGGCCGCAGCCGGACCAGCCCGGTTTTGGAGCTTCCGGCCGGCTGATGTGGCCCCTGATGCCGTGA	MDPADIIKSAGGVLLTRDVLARGGTGSGIRAAIRSGDVVRVERGLLAASGADPELVAAGRSRGLLTCVSAAPRFGLWQLHPAAQPHYWHSNGRNAVQCISHKAGIATETQVWLDGIGRVDFLLEGFLIVELDGIAFHLEPRQFKKDRRRDNSATVCGLPVLRFFYDDVVHAPETMLAQVRDVLARGSLRWPQPDQPGFGASGRLMWPLMP				NA	NA	NA	NA	NA
D1-17_00245	993			hypothetical protein	ATGAGTCAAGCGTTGGTGAAGACAGCGGCCGGGTGGCTGCTGGGCCTCATGCTTGCCGTCGCCGGAGCGGTCGTTTCGGTCAATCTGGTCAACAATTCTGTAGGCAGCCCGCAGCAGCCTGTCCGCGATTATCTGGAAGCCCTGCAGAAGGGTGAAGGCGAGCGCGCACTGGGTCTCCTTCGGGCCAAGGTGCCGGACGCAGACGCTGCCATGCTCGACGGCACAGCGCTGCAAACCTCCGCGGCCAGGATTGGCAACGTCAAGATCGGCGAAGCGGAGGCGCGCGGCGGAAAGCGGGTGATGGTGCCCATGGAGTACACCATTGACGGCAGCCGGCTGCGCACCGAGTTCCTCCTGGAGAGCACAGGCACGGAATGGCTGTTCTTCCACAAGTGGTCCTTCGTTCCGTCCACCCTGCCCACCCTTGACGTGACGGTTGTCAATGCGAACGAGGCCACGCTGAACGGCGTCCCGGTCAACATGCCCAGCGGCCGCAACACCTTCGCCGTCTTCTATCCAGGCGAGTATGAAGCGTCACTGAACGGACAGTACTTCTCGGCGCCCCCAACCCGGGCTACGGTCGCCAGCAGGGACGTCCCCGCCGCGCCGCTGAACCTGCTCACGCAGGCCAACGACGAACTGAACCAGGCCGTCGCGTCCAGGGTCAAGGAATTCCTGGACACCTGCGCCGCCGAGGCTGTCAAGCAGCAGCGACTCCAGCCCGACTGCCCGTTCTACCACGCCACGCCCAACAGGGTGGTGGACGGCACCATCAAGTGGAGCATCACGGAGTACCCGCAGATCACCATCGAGCCGTTCGACGGCAAATGGGTGGTGGCGCCGCTGGACGGCAAAGCACGCATCACCGCCGAACAGGTGGACCTGTTCTCCGGCGCGGTCTCCCCCCTGAACGTGGAACACAACTTCAGTTTCACCACACGCCTGGACATCAAGGGCGACACCATCAGCGTCACACCGGTCCTGAGCTTCTAG	MSQALVKTAAGWLLGLMLAVAGAVVSVNLVNNSVGSPQQPVRDYLEALQKGEGERALGLLRAKVPDADAAMLDGTALQTSAARIGNVKIGEAEARGGKRVMVPMEYTIDGSRLRTEFLLESTGTEWLFFHKWSFVPSTLPTLDVTVVNANEATLNGVPVNMPSGRNTFAVFYPGEYEASLNGQYFSAPPTRATVASRDVPAAPLNLLTQANDELNQAVASRVKEFLDTCAAEAVKQQRLQPDCPFYHATPNRVVDGTIKWSITEYPQITIEPFDGKWVVAPLDGKARITAEQVDLFSGAVSPLNVEHNFSFTTRLDIKGDTISVTPVLSF				NA	NA	NA	NA	NA
D1-17_00246	1707			hypothetical protein	ATGGCCATCAAACCGACAGCAGACAAAGTCGCCACGATCCAAGAGGGCTACGCGCTCGAAGGCCCTACGATCGAGCTGGGAGCGGCCATCGTCGACGGCGAACTCCACAAGGATGCTCCGGTCCGGCTGCCGCTGTCGATGATGAACCGGCACGGCCTGGTCGCCGGGGCCACCGGCACCGGCAAAACGGTCACGCTGCACATGATGGCCGAGCAGCTTTCGACGGCGGGCGTCCCTGTTTTCCTGGCGGACATCAAAGGGGATCTCTCCGGCCTGGCGACCGCAGCCACCGGGAGCGGCAAGCTCGCGGAGAGGACCAAAAGCATCGGCCAGCAGTGGGCCGGCAAGGCGTTTCCGGTGGAGTTCCTTGCCCTCGGCGGCGACGGCAACGGCATCCCCGTCCGCGCCACCATCACCTCCTTCGGCCCCATCCTGCTGTCGCGGATTATGGAACTTAACGACACCCAGGAGTCCAGCCTCCAGCTCATCTTCCATTTCGCGGACAAGAACAGCCTCGAGCTGGTCGATCTCAAGGACCTCCGTGCGGTCATCCAGTACCTGACGTCCCATGAGGGCAAGGCAGCCCTGCAGGAGCTGGGCGGCCTGTCCAAGGCGACGGCCGGCGTCATCCTTCGTGAACTCGTCACCCTTGAGGCGCAGGGCTTGGAACGCTTCTTTGGGGAGCCGGAATTCGACACGGCCGAACTGCTCCGCACCTCCCCCGACGGCCGCGGCGTCATCACGTGCCTGGAACTGCCCACGCTTCAGGCCAAGCCCCTGGTGTTCTCCACCTTCCTGATGTGGCTGCTGGCTGACCTGTTCGAAGACCTCCCCGAGGCAGGCGATCTGGACAAGCCCAAGCTCGTCTTCTTCCTCGATGAGGCCCACCTGCTTTTCAACGACGCCTCGGAGGCCTTCCTCGACGCCATCACCATGACCGTCCGGCTGATCCGCTCGAAGGGCGTCGGCATCTTCTTCGTGACGCAAACCCCGAAGGACGTCCCTGCCGATGTGCTCGGCCAGCTGGCCAACCGTGTGCAGCATGCCCTCAGGGCCTTCACCCCGGAGGATGCCAAGGCCCTCAAGGCGACAGTTTCCACGTTTCCCCGCAGCGACTATGACCTTGAGGAAACACTCACCTCCGCGGGCATCGGTGAGGCCGTTGTCACTGTCATGAACGAGGAGGGCGCACCCACGCCCGTTGCCCTGACGCGCCTGCGGGCCCCCGAATCCGTGATGGGTCCGAGCTCGGACGACCTGATCAAGAGTACGGTTGCAGGCTCGGCGCTGCTCGCGAAATACGGTACGGCCGTGGACAACCTGTCTGCCTACGAGAAACTGTCCGGCAAGGCCGCCGCTCCTACCGGACCCGCGGCGGCCGGCCAGCCGCCGGTTCCGTCCAGCGGCGTCTTCGTCCCCGGAGGCTTGGGTCCGGGCGGAGCGGAACCCCACGGTGTGGACGCGGAGGCCCGGCGCATCGAGGAGGAGATCCTCGGACGTCCCAGCACCAGGCCCGCCCCGCAACGCCGGCACGAACCGGCCCCCAGCCCTGCTCCCCCGGCCGGCGGCATGATGGATAACCTCAGCGGAGCACTGGGCGGAGCCCTCGGCGCAGGCCTGAAAAGCATGGCCCGGTCAGTGGGGACCCAGCTGGGCCGTGAACTTTTGCGGGGCGTTTTCGGCACGTCCTCCCGGCGCCGCCGCTAG	MAIKPTADKVATIQEGYALEGPTIELGAAIVDGELHKDAPVRLPLSMMNRHGLVAGATGTGKTVTLHMMAEQLSTAGVPVFLADIKGDLSGLATAATGSGKLAERTKSIGQQWAGKAFPVEFLALGGDGNGIPVRATITSFGPILLSRIMELNDTQESSLQLIFHFADKNSLELVDLKDLRAVIQYLTSHEGKAALQELGGLSKATAGVILRELVTLEAQGLERFFGEPEFDTAELLRTSPDGRGVITCLELPTLQAKPLVFSTFLMWLLADLFEDLPEAGDLDKPKLVFFLDEAHLLFNDASEAFLDAITMTVRLIRSKGVGIFFVTQTPKDVPADVLGQLANRVQHALRAFTPEDAKALKATVSTFPRSDYDLEETLTSAGIGEAVVTVMNEEGAPTPVALTRLRAPESVMGPSSDDLIKSTVAGSALLAKYGTAVDNLSAYEKLSGKAAAPTGPAAAGQPPVPSSGVFVPGGLGPGGAEPHGVDAEARRIEEEILGRPSTRPAPQRRHEPAPSPAPPAGGMMDNLSGALGGALGAGLKSMARSVGTQLGRELLRGVFGTSSRRRR				NA	NA	NA	NA	NA
D1-17_00247	990			hypothetical protein	GTGACCGTTCCCCTCTCCATCCTTGACCTTGCCACCATTGGCAGGGGCCAGACGGCGGCGGACAGCTTCGCCGGAAGCGTGGCCATGGCGCAGAGCGCCGAGGAGCTTGGCTACCGCCGGGTCTGGTACGCCGAGCACCACAACATGTCCTCGATTGCGTCCTCGGCCACGAGTGTCCTGATCGCCCACGTGGCGGCCCATACCGAGAGCATCCGGCTGGGGGCGGGCGGCGTGATGCTGCCCAACCACTCGCCGCTTACCATCGCGGAGCAGTTCGGAACCCTCGAAACCCTGCACCCGGGCCGCATCGACCTGGGCCTCGGCCGGGCCCCCGGCAGCGACCAGAACACCCTGCGGGCCTTGCGGCGCGACCCGTCTTCGGCCGACACCTTTCCCCAGGACGTCCTCGAACTGCAGGGCTACCTGACCGGGCCCACCCGCATCCAGGGCGTCGAGGCGACACCGGGCAAGGGAACCAACGTGCCGCTCTACATTCTGGGGTCTTCGCTGTTCGGTGCCCGGCTCGCAGCGCAGCTGGGCCTGCCCTACGCCTTCGCCTCCCACTTCGCGCCCAACGCACTCCAGGACGCTGTCGCCGTCTACCGCAGGGAGTTCCGGCCCTCAGAACAGCTCACCGCCCCGTACGTCATGGCCGGCGCCAACGTCATCGCGGCTGACTCGGCTGCCGAAGCGCAGGAGATGCTCCGGGCAACCTTGCGTGCCCGCGTCTCACTGTTCTTCGGCGGGGGCCGCGAATTTACCGACGACGAGGCCGACATGATCCTGGACTCGCCGCAGGGACAGCACGTCTCGCAGATGATGAAGTACTCGGCCGTCGGAACACCGGATGTGGTGCTGGAGTACCTCGACGGGTTCGCCAGGCACGCCGATGCCGACGAACTCATCGTCGCGCACCAGAGCACCAGCACGGCGGCGCGGCTCCGGTCCGTGGAACTGCTGGCCCACGAAGCCGGTCTGGCCCGGGTTTAG	MTVPLSILDLATIGRGQTAADSFAGSVAMAQSAEELGYRRVWYAEHHNMSSIASSATSVLIAHVAAHTESIRLGAGGVMLPNHSPLTIAEQFGTLETLHPGRIDLGLGRAPGSDQNTLRALRRDPSSADTFPQDVLELQGYLTGPTRIQGVEATPGKGTNVPLYILGSSLFGARLAAQLGLPYAFASHFAPNALQDAVAVYRREFRPSEQLTAPYVMAGANVIAADSAAEAQEMLRATLRARVSLFFGGGREFTDDEADMILDSPQGQHVSQMMKYSAVGTPDVVLEYLDGFARHADADELIVAHQSTSTAARLRSVELLAHEAGLARV	PGPT0030680_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
D1-17_00248	1131	soxA_1		Monomeric sarcosine oxidase	TTGAACACCACCGCGGACACCGTGGTCATTGGTGGCGGGGCGATGGGCTCCGCCGCAGCCTGGGCTCTGGCCCGGCGCGGCCGGCAGGTCACGCTGCTGGAGCAATTCGGCCCCGGGCACCGCTATGGCGCGTCCCATGGCGCAACCCGGAACCTCAGCCTGGCCTATTCGGAGCCGGACTACGTCGCCATGCTCGCGGAGTCCCTGCAGCTGTGGAGCGAAGTCGAGCACGAGAGCGGCGAGCAACTGCTGGCGCGCACCGGCGTCGTAAATCACGGCCCTGACCCCGCGCTGAGGGCAATGCATGAGGCGCTGAACCGGGCCGGCCTTAAGGCCGAATTCCTGCCGACGGCGGAAGCCGGCGAGCGCTGGCACGGCATCCGCTTCGACACGCAGGTGCTGTACATGCCGGACGGCGGGCAGCTAAATCCCGAACTCGTGCTGCCGGCCCTCCAGCGGCTGGCGGCCGGGAACGGAGCGGAGGTACGGCACCACGTGAAGGTGCTGGAGCTGCAGATTCTCGACGACGGCGTCCGGCTCACCCTCGACGGCGGCGGGTCCACTGAGGTGCTCACCGCGCGGCAGGTGGTGGTCACCGCCGGCGGCTGGACGTCCAAGCTGCTCGGGGGCGTAGCGGCTTTGCCACGGCTCACCGTGACGCAGGAGCAGCCGGCGCACTTCGGAATCGCCGACCCCGGTGCAGACTGGCCAGGGTTTAACCACTTTCCGGGAACCGGGGCTGACTACGCGGACTGGTATTCCCCCGTGTACGGCATGCAGACGCCCGGCGAGGGCATCAAGGCGGGCTGGCACGGCGTGGGGCCGGTGGTCGATCCGGACCGGCGGTCGTTCCAGCCGGAACCGCAGCAGCGGGCTGCCCTGCAGCGCTACGCGAGGCGCTGGCTCCCCGGAGCCGATGCGGGCTCGATGGCTGACATCAGCTGCACGTACACCACGGCGGCGGACCACCACTTCATCCTGGACCGACTGGGCCCGGTGGTGATCGGGGCGGGATTCGCCGGCCACGGCTTCAAGTTCACGCCGGTGGTGGGCCGGATCCTGGCCGACCTCGCCACCGGCGCCGGCCCGGCGCCCGCCATGTTCTCCGCGTCCCGCCCCGGGCTTCGTTAA	MNTTADTVVIGGGAMGSAAAWALARRGRQVTLLEQFGPGHRYGASHGATRNLSLAYSEPDYVAMLAESLQLWSEVEHESGEQLLARTGVVNHGPDPALRAMHEALNRAGLKAEFLPTAEAGERWHGIRFDTQVLYMPDGGQLNPELVLPALQRLAAGNGAEVRHHVKVLELQILDDGVRLTLDGGGSTEVLTARQVVVTAGGWTSKLLGGVAALPRLTVTQEQPAHFGIADPGADWPGFNHFPGTGADYADWYSPVYGMQTPGEGIKAGWHGVGPVVDPDRRSFQPEPQQRAALQRYARRWLPGADAGSMADISCTYTTAADHHFILDRLGPVVIGAGFAGHGFKFTPVVGRILADLATGAGPAPAMFSASRPGLR	PGPT0013530_496	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
D1-17_00249	957			hypothetical protein	TTGTACATCCGAACCCTCAGTGACGGCCGGATGCTAGGCGTTCTTGCGGGCTTCTTCGTGGTCTGGTCCATCATTCTGGTGGGCATGTTCGTTGGCCGCAGGGACATTCTTGGCGACAACGCGCGCCAGGTCCTGAGCGGGCTGACCTTCTTTGTGGCCAGTCCGGCGCTGCTTTTCGAGACCCTGAGCAAAGCGCGGTTCCAGGACGTTTTTGCTGCTCCGTTGCTGGTCGCCGCGGTGGGCGCCGCCGCCACCGCCGTCATTTTCTTCGTCATCGTCAAGTTCCTGCTCAAGCGCAGCATGCCGGAATCTCTCATGTCATCGATGAGCGCTTCCCTCGCCAACTCCGCCAACCTCGGCATCCCCATTGCCGTGTACGTGCTGGGCGATGCGAGCCATGTTGCGCCCCTCCTTATCTTTCAGCTGGCGTTTTTCACACCGCTGTTCCTCATGGCGCTCGATGCGACGACCAGCAAGCACCGCACCACACCGCTGCGGTTCATCCTCATGATCCTGAAAAACCCCATGATCGTGGGTTCTGCGCTAGGCCTTGTGGTGGCCGGAACCGGCTGGCAGGTACCGGAGCTGATCCTGCAGCCGATCCACCTGATTGGCGGAGCCGCCATCCCCGCCATGCTGATGGCCTTTGGTATGAGCCTGAACGGGTCCCGCCCCCTGCAGGCCGCTGCCGGGCGCCGGCTTGATACCCTGTTGGCGAGCGCCTTTAAGCTCATCGTCCACCCGGCGATCGCCTACGTCTTTGCGCGGTTCGCGCTCGGTATGGAGGGCGCGGCGCTCTTCGCTGTCGTCGTGACGTCATCTCTGCCGACGGCGCAGAACGTGTTCGTGGCTGCCAGCCGCTACCGCACGGGCATCACCGTCGCCAAGGACACCGTGCTGATCACCACAGTTGTGGCCGTTCCGGCCATGATCGGCGTGGCATTGCTGCTGACGTGA	MYIRTLSDGRMLGVLAGFFVVWSIILVGMFVGRRDILGDNARQVLSGLTFFVASPALLFETLSKARFQDVFAAPLLVAAVGAAATAVIFFVIVKFLLKRSMPESLMSSMSASLANSANLGIPIAVYVLGDASHVAPLLIFQLAFFTPLFLMALDATTSKHRTTPLRFILMILKNPMIVGSALGLVVAGTGWQVPELILQPIHLIGGAAIPAMLMAFGMSLNGSRPLQAAAGRRLDTLLASAFKLIVHPAIAYVFARFALGMEGAALFAVVVTSSLPTAQNVFVAASRYRTGITVAKDTVLITTVVAVPAMIGVALLLT	PGPT0001720_2274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
D1-17_00250	429	panD	COG0853	Aspartate 1-decarboxylase	ATGAATCGCACAATGTTCAAGTCCAAAATCCACCGCGCCACAGTCACGCACGCGGACCTGCATTACGTGGGCTCCGTCACCGTGGACTTGGACCTGCTGGATGCTGCCGATATCCTGCCCGGCGAGCTCGTAGCCATTGTGGACGTCACCAACGGTGCCCGCCTCGAGACCTACACCATCGCCGGTGAGCGCGGCTCGGGCGTGATCGGGATCAACGGCCCGGCAGCACATCTCGTGCAGGAAAACGACATCGTTATCCTCATCACCTACGCGGAGATGACCACGGAGGAAGCCAAGGCCTACGAGCCGAAGGTGGTCCACGTGGATAAGGACAACCGCGTCATCCAGTTGGGCAATGACCCCGCCGAAGGGCTTACTCCCGGTCTTATGCGCCCGCCGTTCGCGCTGAACAAGGCCACCCTGAGCTGA	MNRTMFKSKIHRATVTHADLHYVGSVTVDLDLLDAADILPGELVAIVDVTNGARLETYTIAGERGSGVIGINGPAAHLVQENDIVILITYAEMTTEEAKAYEPKVVHVDKDNRVIQLGNDPAEGLTPGLMRPPFALNKATLS	PGPT0008890_468	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
D1-17_00251	933	gltC_1		HTH-type transcriptional regulator GltC	GTGCTCGATGTACGTCGCCTGCGACTGCTCCGCGAGCTGAAAATCCGGGGAACCCTCGCAGAGGTGGCCGCAGCCCTGCAGTACAGCCCGTCCTCAGTCTCCCAGCAATTGGCCCTTCTTGAGAAGGAAGTGGGCGTGGAACTGCTAAGGAAAACCGGACGGAAAGTCCAGCTGACGCCGCAGGCGGAGGTCCTGGTCAGCCACACCGCCCAGCTGCTCGAGACGCTGGAGCAGGCGGAAGCTGACCTGGCCGCCTCCCTCACCACCGTGTCCGGCACGGTCCGGATCGCCGTCTTCCAGTCGGCAGCGCTCGCCCTCATGCCGGAAACCCTGACCCGCATGGCAGCGACCTATCCGGAAGTCCGGATTGAAATGACGCAGCGGGAGCCGGAAACGGCGCTGCACGAAACGTGGGCCCGGGACTTCGACATCGTCATCGCAGAGCAGTATCCGGGGCACGCCGCTCCCCGCTATCCGGAGCTGGACCGGATCCGGCTTACCACCGATGCCATCCGTCTGGCGGTTCCTCCCGCATCAGATGCAGGGCCGGCCATCACGTCACTGGCGGACACGGCGGAGATGGCATGGGTCATGGAGCCGCGTGGCGCCGCTTCACGTCATTGGGCGGAACAGGCCTGCAGGAGTGCCGGGTTCGAGCCCGACGTGCGTTTCGAGACCGCCGATCTCCAGGCGCAAATCCGGTTGATCGAATCCGGAAACGCCGTGGGCCTCATGCCTGATCTCGTCTGGACGGGACGCGGCACCACCGCGGAGCTGATTGAACTGCCTCAGAAGCCGCACAGGACGGTGTTCACTTCGGTGCGCCGCTCAAGCGCCCGGCGCCCGGCCATTCTCGCTGCCCGTGAGATCCTGGCGGCCACCGCCTCTTCCATAGCGGCGTCTAAGGACCACGAGATGGAAGCGCCCGCGTAG	MLDVRRLRLLRELKIRGTLAEVAAALQYSPSSVSQQLALLEKEVGVELLRKTGRKVQLTPQAEVLVSHTAQLLETLEQAEADLAASLTTVSGTVRIAVFQSAALALMPETLTRMAATYPEVRIEMTQREPETALHETWARDFDIVIAEQYPGHAAPRYPELDRIRLTTDAIRLAVPPASDAGPAITSLADTAEMAWVMEPRGAASRHWAEQACRSAGFEPDVRFETADLQAQIRLIESGNAVGLMPDLVWTGRGTTAELIELPQKPHRTVFTSVRRSSARRPAILAAREILAATASSIAASKDHEMEAPA				NA	NA	NA	NA	NA
D1-17_00252	1461	yhdG_1	COG0531	putative amino acid permease YhdG	ATGACAAGCAAAGATCCCACCCAGTCGATCCTGAGGCGCAAGCCCATTGAAGACATTGACGTCGAGAACAAGCACAGCGGCCTCTTCAAGTCCCTCGGCCTGTGGCAGCTAACAGCGATCGGAGTCGGCGGCATTATCGGCGTCGGCATCTTTTCGCTGGCGGGACTCGTAGCCCACGGCAGCGAAACCACCCCGGGCGTCGGTCCCGCGGTCCTGTTTTCCTTCCTGATTGCCGGCTTGGCGTCAGCCGCCGCCGCCTTGTCCTACGCCGAGTTCGCAGGGATGATCCCCCGCGCTGGCTCCGCCTACACGTACGGCTACGTGGCCATGGGTGAAATCATCGGCTGGTTCATCGGCTGGGACCTCCTGCTGGAATACATTGCCATCGTCGCCGTGGTGGCCATCGGCATCTCCGGCTACTTCGATGCCTTCCTCTCCGGCATCGGCATCCATATGCCAGTCTGGATGACGTCGACTCCGGATGAAGGCAAGGGCGGCATCGTCAACATCCCCGCCATCCTGGTCTGCCTGCTGGTCACGTGGATCCTCTCGCGCGGCACGAAGGCCTTTGGGCGGTTCGAACTCGTGGCCGTGGCGATCAAGGTGATCCTGATCCTGTTCATCATCGGTCTCGGTGTCTTCTACATCAACCCCGATAACTACAACCCGTTCATGCCCAGCGGCATAGGCCCGGTCTTTGCCGGCGCTGCCACCGTATTCTTTGCCGTCTTCGGCTACGACGCCATGAGTACGGCAGCGGAAGAGGCAACGGACGGCAAGAAGCACATGCCCAAGGCCATCATTCTTTCCCTCATTATCGCCATGTTGCTGTACGTTGCCGCCACGCTGGTTCTGACCGGCATGCAGAACTACCGCGATATAGATCCGACTGCCGGCTTCGCCTCGGCCTTCACCGGAGTGGGCCTGCCGGTCATCGCCACCATAATTTCGATCTTTGCTGTGCTGTCCATCCTCACAGTCATGCTGACCTTCCTCTTGGGCGTCACCCGCGTATGGTTCTCCATGAGCCGCGACGGCCTGCTTCCCGGCTGGTTTTCCAAGACGGACAGTCACGGCACGCCCCAGCGCGTGACATGGATCGCGGGCATCGGCTCCGCTCTGCTGGCGGGCGTCTTCCCGATCAAGGCGGTGGCGGACTTGACCAACATTGGTATCCTTGCCGCCTTCGTGGTGGTCTGCCTGGCGGTCATCATCTTCCGCTACAAGAGGCCTGACGCTCCCCGCGAGTTCCGCCTGCCGCTGATGCCCCTGGTTCCGGCCTTCGGCGTCCTGGCGTCAGCCTTCCTCATGTTCCAACTCCACTGGGAGACGTGGATGCGCTTCGGCATCTGGCTCGTCATTGGCCTGGTGATTTACTTCGCCTATGGCCGCAGGCATTCCCTGATGAACCCGAACAGCCCACGGCATGACGAAGCAGTGGAGATGCACACTCCCGTGTAA	MTSKDPTQSILRRKPIEDIDVENKHSGLFKSLGLWQLTAIGVGGIIGVGIFSLAGLVAHGSETTPGVGPAVLFSFLIAGLASAAAALSYAEFAGMIPRAGSAYTYGYVAMGEIIGWFIGWDLLLEYIAIVAVVAIGISGYFDAFLSGIGIHMPVWMTSTPDEGKGGIVNIPAILVCLLVTWILSRGTKAFGRFELVAVAIKVILILFIIGLGVFYINPDNYNPFMPSGIGPVFAGAATVFFAVFGYDAMSTAAEEATDGKKHMPKAIILSLIIAMLLYVAATLVLTGMQNYRDIDPTAGFASAFTGVGLPVIATIISIFAVLSILTVMLTFLLGVTRVWFSMSRDGLLPGWFSKTDSHGTPQRVTWIAGIGSALLAGVFPIKAVADLTNIGILAAFVVVCLAVIIFRYKRPDAPREFRLPLMPLVPAFGVLASAFLMFQLHWETWMRFGIWLVIGLVIYFAYGRRHSLMNPNSPRHDEAVEMHTPV	PGPT0020810_2296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
D1-17_00253	3537	rocA		1-pyrroline-5-carboxylate dehydrogenase	ATGACCCAAACAGCTACGGATCACCGCGTTTTTGCAGGCAAGGACGCCGCTGAAACCGGCGCCGTTGCCTCCCTGCCGGACGGCGCCAGCGTCGCCGAAGCCACCGCGCTCGCCGGCGAAACCGTCGCGCTCGTACGCCACTGGCTCACCGAGGCCGCCAAGATCCCCGCCGACGCTTCCGCGGAGCAGCTCGCCGGTGTCCTGAAGGACCCGAACGGACTGGAGTTCACAGTTGGCTTCGTGGACGGCGTGGTCCGCCCCGAAGACCTCAAGGTCGCCGCCCGCAACCTCGCGGAACTCGCACCGAAGGTTCCCGCCTTCCTGCCCTGGTACATGCGCCGTGCAGTGCAGGTGGGCGGCCTCATGGCCCCGGTCCTGCCGCAGGTTGTCATCCCGGTGGCCCGCAAGGTCCTGCGCGAAATGGTGGGCCACCTCATCGTTGACGCCACGGACGCCAAGCTGGGCCCGGCCATCGCCAAGATCCGCAAGGACGGCATCAACCTGAACGTGAACCTGCTCGGCGAGGCTGTTCTCGGCGAGCACGAGGCGTCCCGCCGGCTCGAAGGAACCCACACCCTGCTGGCCCGCCCGGACGTGGACTACGTCTCCATCAAGGTTTCCTCCACTGTGGCGCCGCACTCCCCCTGGGCTTTTGATGAGGCCGTGGAGCATGTCGTCGAGAAGCTCACTCCGCTGTTCGCCAAGGCGGCGTCCTACGGCGCTGCCGGGCAGAAGGCGAAGTTCATCAACCTGGACATGGAGGAATACAAGGACCTGGACATGACCATTGCGGTCTTCACCAGGATTCTGGATAAGCCCGAGTTCAACAACCTCGAGGCCGGCATCGTGCTGCAGGCCTACCTCCCGGACGCCCTCGACGCCATGATCCGGCTGCAGGACTGGGCCGCAGCCCGCCGCGCAAAGGGCGGCGCCGGCATCAAGGTCCGCGTGGTCAAGGGCGCGAACCTGCCCATGGAACAGGTCGAAGCTTCCCTTCATGACTGGCCGCTGGCCACCTGGGGCACCAAGCAGGACTCGGACACCAACTACAAGCGTGTCATCAACTACTCGCTGCACCCGGACCGGATCCGCAACATCCGCATCGGCGTGGCCGGCCACAACCTCTTCGACATCGCATTCGCATGGCTGCTGGCCAAGAAGCGCGGCGTGGAATCCGGCATCGAGTTCGAGATGCTGCTGGGTATGGCCCAGGGCCAGGCCGAGGCCGTGAAGAAGGACGTCGGTTCCCTGCTGCTCTACACACCGGTGGTGCACCCTGCCGAGTTCGACGTCGCTATCGCTTACCTGATCCGCCGCCTCGAAGAGGGCGCGAGCCAGGAAAACTTCATGTCTGCCGTGTTCGAGCTCAGCGAGAACGAAGCACTGTTCGCCCGTGAAGAGGACCGGTTCCTGCGGTCGCTGGAGGACCTCGACGAGTCCGTGCCGGCGCCAAACCGCCAGCAGAACCGCAACCTCCCGCCCGTGCCCATGCCGCACGACCACTTCGAGAACACCGCGGACACCGACCCTTCCCTGCCCGCCAACCGCGACTGGGGCCGGGCCATCCTGGATCGCGTTCCCACGTCCACCTTGGGGAACGCATCCGTCGAGGCTGCCATGATCACCGACGCCGGCACCCTGAACACGGTCATTGAAACCGCCGTCGAAAAGGGCAAGGCCTGGGGCGCGCTGTCCGGCGCCGAACGAGCAGAAATTCTGCACCGCGCCGGTGACGTCCTGGAAGCACGCCGTGCCTGCCTCCTCGAGGTCATGGCCAGCGAAACGGGCAAAACCCTGGACCAGGGCGACCCGGAGGTCAGCGAGGCCGTTGACTTCGCGCACTACTACGCCGAGTCCGCCCGCAAGCTGGACGACGTCGACGGTGCCGCCTTCATTCCAGCCAAGCTCACCGTCGTGACCCCGCCGTGGAACTTCCCGGTGGCCATTCCCGCCGGCTCCGTCCTGGCGGCACTTGCCGCAGGGTCCGCCGTCGTCGTCAAGCCCGCCAAGCAGGCAAAGCGCAGCGGCGCCGTGATGATCGAGGCGCTGTGGGAGGCCGGCGTGCCCCGCCACGTGCTGACCATGGTCCAGCTCGGCGAGCGGGAGCTCGGCAAGCAGCTGATCGCCCACCCGGCCGTGGACCGCGTGATCCTGACCGGCGGTTACGAGACCGCTGAGCTGTTCCGCTCCTTCCGCAAGGACCTGCCGCTGCTCGCGGAGACCAGCGGCAAGAACGCCATTATCGTCACGCCGAGCGCTGACCTCGACCTCGCCGCGAAGGATGTTGCCTACTCGGCCTTCGGCCACGCCGGACAGAAGTGCTCCGCGGCCTCCCTGGTGATACTTGTGGGCTCGGTCGCCAAGTCCAAGCGCTTCCGCAACCAGCTGATCGACGCCGTCACCTCGCTGAAGGTCGGCTACCCCGAAGACCCTACGAGCCAGATGGGCCCGATCATCGAGCCCGCCAACGGCAAGCTCCTCAACGCGCTCACCACCTTGGGCGAGGGCGAAAACTGGGCCGTCGAGCCCAAGAAGCTCGATGACACCGGCCGGCTGTGGAGCCCGGGCGTGCGCTACGGCGTCAAGCGCGGTTCCTACTACCACCTGACTGAATTCTTCGGGCCCGTGCTCGGCGTCATGACGGCGGACACCCTCGAAGAGGCCATCGCCATCCAGAACCAGATCGAGTATGGCCTCACCGCGGGCCTGCACTCGCTCAACACTGAAGAACTCGGCATTTGGCTGGACAGCATCCAGGCCGGCAACCTCTACGTGAACCGCGGCATCACCGGTGCCATCGTGCAGCGCCAGCCCTTCGGCGGCTGGAAGAAGTCTGCCGTCGGTGCCGGCACCAAGGCAGGCGGCCCGAACTACCTCGTCGGCCTGGGCGACTGGACGAGCAAGGAAAGCGCAGAGGGTGCAGCGGCACTTGCCACGCACCCCGGCGTGCAGCGGCTCGTCAACGCCGTGCAGGGTGAGCTCGACTCCGCAGAACTGGAAACGCTGCAGCGCTCCGTCGGCTCGGACGCCGTGGCCTGGGCAGGTGAATTCGGTGTGACCAAGGACGTGTCGGGGCTGAGTGCCGAGCGCAACATCTTCCGGTACCGCAACCTTCCGGTCACCATCCGGCTTTCCGACGGCGAATCCCTCCGTGCCCTCGTCCGTACAGTAGCCGCCGGCGTACTGGCCGGTTCACGGCTGACCGTCTCCACCGGCGTCGGGCTCCCGGCCCAGCTGCGTGCGGTGCTGACCGGACTGGACATCCATGTCACGGTGGAGGACGACGCCGCGTGGCTGGCCTCCGCCGGCCGGCTCGCTGCCGCCGGCAAACTGTCCAACGGCCGCATCCGCCTGATCGGCGGTTCCGCCGCTGACCTCGCCGAGGCAACCGGCGGCCGCCCTGACATCGCCATCTACCCGCACGAGGTCACTGAAGCAGGCCGCGTTGAACTGCTGCCCTTCCTGCACGAGCAGGCTGTCAGCATCACCGCACACCGCTTCGGAACGCCCAACCATCTGTCCGATTCGCTGATCTAA	MTQTATDHRVFAGKDAAETGAVASLPDGASVAEATALAGETVALVRHWLTEAAKIPADASAEQLAGVLKDPNGLEFTVGFVDGVVRPEDLKVAARNLAELAPKVPAFLPWYMRRAVQVGGLMAPVLPQVVIPVARKVLREMVGHLIVDATDAKLGPAIAKIRKDGINLNVNLLGEAVLGEHEASRRLEGTHTLLARPDVDYVSIKVSSTVAPHSPWAFDEAVEHVVEKLTPLFAKAASYGAAGQKAKFINLDMEEYKDLDMTIAVFTRILDKPEFNNLEAGIVLQAYLPDALDAMIRLQDWAAARRAKGGAGIKVRVVKGANLPMEQVEASLHDWPLATWGTKQDSDTNYKRVINYSLHPDRIRNIRIGVAGHNLFDIAFAWLLAKKRGVESGIEFEMLLGMAQGQAEAVKKDVGSLLLYTPVVHPAEFDVAIAYLIRRLEEGASQENFMSAVFELSENEALFAREEDRFLRSLEDLDESVPAPNRQQNRNLPPVPMPHDHFENTADTDPSLPANRDWGRAILDRVPTSTLGNASVEAAMITDAGTLNTVIETAVEKGKAWGALSGAERAEILHRAGDVLEARRACLLEVMASETGKTLDQGDPEVSEAVDFAHYYAESARKLDDVDGAAFIPAKLTVVTPPWNFPVAIPAGSVLAALAAGSAVVVKPAKQAKRSGAVMIEALWEAGVPRHVLTMVQLGERELGKQLIAHPAVDRVILTGGYETAELFRSFRKDLPLLAETSGKNAIIVTPSADLDLAAKDVAYSAFGHAGQKCSAASLVILVGSVAKSKRFRNQLIDAVTSLKVGYPEDPTSQMGPIIEPANGKLLNALTTLGEGENWAVEPKKLDDTGRLWSPGVRYGVKRGSYYHLTEFFGPVLGVMTADTLEEAIAIQNQIEYGLTAGLHSLNTEELGIWLDSIQAGNLYVNRGITGAIVQRQPFGGWKKSAVGAGTKAGGPNYLVGLGDWTSKESAEGAAALATHPGVQRLVNAVQGELDSAELETLQRSVGSDAVAWAGEFGVTKDVSGLSAERNIFRYRNLPVTIRLSDGESLRALVRTVAAGVLAGSRLTVSTGVGLPAQLRAVLTGLDIHVTVEDDAAWLASAGRLAAAGKLSNGRIRLIGGSAADLAEATGGRPDIAIYPHEVTEAGRVELLPFLHEQAVSITAHRFGTPNHLSDSLI	PGPT0020210_1435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
D1-17_00254	255			hypothetical protein	GTGACCACAGCCGCAAACCGCCATTTCCCCCGCCATTCCATGACAGTGGACTCCGCCTACGTCGCCAAGCCTAACTGCGACAAGTGCGGAACCGACGAGTTCATTTACCTTGAGTCTTTTGTCCCGCCCAAGTACCGCCACGACGGCACCGTCAGAACACTGGGCGAAGTCGCATACACCTGTACCCGGTGCGAAGAGTTTTCCGCCCATAACGTTCCCTCATCCTGGGCACCGCCCGGTTGGTACTTGGGCTAG	MTTAANRHFPRHSMTVDSAYVAKPNCDKCGTDEFIYLESFVPPKYRHDGTVRTLGEVAYTCTRCEEFSAHNVPSSWAPPGWYLG				NA	NA	NA	NA	NA
D1-17_00255	309			hypothetical protein	ATGCCGTCCCCGAGCCTTAGCCGCAAACTCGCGATCGATGCCCTCGAAGCGGCCGGACGGACCTGGCGGATCACCTGCACCACAAAGCAGATCAGCGGCGTGCTCGCAGCCGTCCGCGCGGGTATCGGCATCGCCGTCATGCCGTCATCGCTGGTGCCGGACGGCCTGAAGATCATCACCCGCCGCTTCGGGTTGCCACCGGTGGGTGATGTGGATTTCACCCTGATCCGGAACCCGTTGGCGAACGCAGAGGTCGTTGACGCCCTGACCGAAGCCATCATGGGGAGGACGATAAAGAAGCAGGTTTGA	MPSPSLSRKLAIDALEAAGRTWRITCTTKQISGVLAAVRAGIGIAVMPSSLVPDGLKIITRRFGLPPVGDVDFTLIRNPLANAEVVDALTEAIMGRTIKKQV				NA	NA	NA	NA	NA
D1-17_00256	1164	ceo		N(5)-(carboxyethyl)ornithine synthase	GTGACCGGCTCGTCGAACCACCTCACCCTGGGGATTGTTTCCTCCTCCCGCAAACCCGACGAGCGCCGCCTGGCCCTGCACCCCCGTCACCTTGAACGGATAGCACCCGAGCTGCGCCAGCGCATGATCCTAGAGCGCGGCTACGGCGAGCGCTTCGGCTTTTCCGACGCGCGGCTGGCCGTGCTGGTGGGCAGCCTGGCCAGCCGCGATGAGCTGTTGGCGAAAGCCGACGTCGTTCTGCTGCCCAAGCCGCAGCCGCAGGATCTCGCCGAGCTCCGCGATGGCCAGACCCTGTGGGGGTGGCCGCATTGTGTCCAGGACCGTGCCATCACACAGCTGGCTATCGACAAGAAACTCACTCTCATCGCTTTCGAGGCTATGAACCACTGGGCCAGCGACGGCGGCTTCGGCCTCCACGTGTTCCACAAGAACAACGAACTCGCGGGCTATTGCTCGGTGATCCACTCCCTTGCCCTGACCGGCTCCACCGGTGACTACGGCCGCCGGCTCAGCGCCGTGGTGATTGGCTTCGGTGCCACGGCGCGCGGCGCAGTTACCGCCCTGAACGCGCACGGCATCCACGACGTCCAGGTCCTCACCAACCGGGGCGTGGCCGCGGTGGGGTCTCCCATCCACTCGGTGCGGATCACGCAATTCGATCACGATGACCAGGCGCCCTTCCTCAGCCAGGTGATCACCGAGCGCGGACGAGTACCCTTGGCACCGTTCCTCGCCGAAAGCGACATCGTGGTGAACTGCACCTTGCAGGACCCGAACAATCCACTGACGTACCTGCAGGCCGACGACCTGGCGTTGTTCAGGCCGGGCAGCCTCATCGTGGACGTCTCCTGCGACGAGGGCATGGGTTTCAGCTGGGCCAAGACCACCACGTTCACAAACCCGATATTTACCGTGGGCGACAACATCGATTACTACGCGGTGGACCACAGCCCGTCCTACCTGTGGGACTCCTCCAGCTGGGAAATCAGCGAGGCACTCCTGCCGTTCCTGGAGACCGTGATGTCCGGACCGGCGGCCTGGGACGGCAACGAGACCATCAGCCGTGCCATCGAAATCCGGGACGGCGTGGTACTCAACGAGGACGTATTGAAGTTCCAGGGGCGCGGGGCCAAGCACCCGCATCCGGTACTGGCGGCAAGCTAG	MTGSSNHLTLGIVSSSRKPDERRLALHPRHLERIAPELRQRMILERGYGERFGFSDARLAVLVGSLASRDELLAKADVVLLPKPQPQDLAELRDGQTLWGWPHCVQDRAITQLAIDKKLTLIAFEAMNHWASDGGFGLHVFHKNNELAGYCSVIHSLALTGSTGDYGRRLSAVVIGFGATARGAVTALNAHGIHDVQVLTNRGVAAVGSPIHSVRITQFDHDDQAPFLSQVITERGRVPLAPFLAESDIVVNCTLQDPNNPLTYLQADDLALFRPGSLIVDVSCDEGMGFSWAKTTTFTNPIFTVGDNIDYYAVDHSPSYLWDSSSWEISEALLPFLETVMSGPAAWDGNETISRAIEIRDGVVLNEDVLKFQGRGAKHPHPVLAAS	PGPT0020070_360	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
D1-17_00257	147			hypothetical protein	ATGGCTGACAAGTCCCCCCGTCAAACAGCATCCAAGAAATCCGGCAAATCCATCAAGGAAAAGCGCGCCGACAAAAGGGCAGCCGAAGCGCCTGCCAGCTCACTGGACAAGACGAGCGCGAAACCGATGCCGGCAAAGAAGAAGTGA	MADKSPRQTASKKSGKSIKEKRADKRAAEAPASSLDKTSAKPMPAKKK				NA	NA	NA	NA	NA
D1-17_00259	576	dcd	COG0717	dCTP deaminase, dUMP-forming	GTGCTGATCTCTGACCGCGACATTCGTGCCGAAATTGATTCCGAACGGATCGTCCTGGACCCGTACGACTCTGTGATGGTGCAGCCGTCCTCCGTTGATGTCAGGATAGACCGCTTCTTCAGGCTGTTCGACAACCACAAGTACGCGCACATCGACCCGGCCGAGGAGCAGCCCGAGCTGACCCGCCTGGTGGAGGTGGAGGAAGGCGAGCCGTTCATCCTGCACCCTGGTGAATTCGTGCTCGGTTCCACCTATGAGACCGTCACGCTGCCCGACGACATCGCGGCCCGCCTCGAAGGCAAGTCCTCCCTCGGCCGCCTTGGTCTTCTCACACACTCGACCGCGGGTTTCATCGACCCCGGTTTCTCCGGCCACGTCACCCTCGAGCTGTCCAACATGGCAACCCTGCCTATCAAGCTATGGCCTGGCATGAAGATCGGCCAGCTCTGCTTCTTCCGGCTGACCTCGGCCGCGGAATACCCCTACGGCTCGGGCGCATACGGCAACCGCTACCAGGGCCAGCGCGGACCCACCGCAAGCCGCAGCCACCTCAACTTCCACCGCACCGACATCTAG	MLISDRDIRAEIDSERIVLDPYDSVMVQPSSVDVRIDRFFRLFDNHKYAHIDPAEEQPELTRLVEVEEGEPFILHPGEFVLGSTYETVTLPDDIAARLEGKSSLGRLGLLTHSTAGFIDPGFSGHVTLELSNMATLPIKLWPGMKIGQLCFFRLTSAAEYPYGSGAYGNRYQGQRGPTASRSHLNFHRTDI	PGPT0021225_1539	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
D1-17_00260	1185	khtU	COG0475	K(+)/H(+) antiporter subunit KhtU	ATGGATGAGCTGGCCCTGACCCTCATTGAACTGGGGGCCGTCGTGTTCTGTCTGGGCCTGCTGGCGCGGCTCGCCGGACGGATCAACATGTCGCCCATCCCGTTGTACCTCGTGGGAGGCCTGTTCTTCGGCGCCGGCGGCCTCATGAAGCTGGAGGGCATCCAGAGCTTCGCCCATCTGTCCGCTGAGATCGGCGTGATCCTGCTGCTGTTGATGTTGGGGCTGGAATATTCAGCGCCGGAGCTGGTCACCGGCATGCGCCGCTCCTGGCAGGGCGGCGTGCTTGACCTTGTCCTGAATTTCCTTCCCGGGGCCGGCATCGCCGTATTGCTGGGATGGGGCCCGGTAGGCGCAATGGTGATGGGGGGAATCACCTACATCTCCTCGTCCGGCATAGCGGCCAAGGTCATCACCGACCTTGGCCGCATCGGCAACAGGGAAACGCCCGTTGTGCTCTCGATCCTGGTGTTCGAGGACCTCACCATGGCCCTGTACCTGCCGATTCTCACAGCAACACTCGCCGGGATTAGCTTCCTCGAGGGCCTGCTGACCGTCGGCGTTTCACTTGCGGTGGTGACGGTGGTGCTGGCGGTCGCGCTCCGGCACGGCCACCAGGTTTCAAAGGGCTTGCACAGCGAAAATTCCGAGGTCTTTCTGCTCAATCTGCTGGGCGCCGCGCTTCTGGTCTCAGGTCTGGCACAGGCGCTGCAGGTTTCGGCCGCTGTGGGTGCCTTCATGCTCGGCATTGCGATCTCAGGAGCCACAGCCCATAGCGCCACCCGGATCCTCGAACCGTTGCGTGACCTGTTTGCCGCCATCTTTTTCGTGGCATTCGGGCTGAACACCGATCCTGCATCCATCCCTCCCGTCCTTGCCTGGGCGGTCGTCCTGGCCGTGGTCACCACCGTCACAAAAATAATCACCGGGGTGTGGGCGGCCAAAAGGGCCGGCATCGCACGGCGCGGCCGCTTCCGTGCGGGAGCGGCCCTCGTGGCCCGCGGCGAGTTCTCGATCGTCATCGCCGGGCTGGCTGTCGCGTCGGGCGCGGTCTCCGTGGAACTGGCGGCGCTCGCCACGGCCTATGTCCTGCTGATGGCCATCACCGGCCCGCTCGCAGCCCGCTATGTGGAGCCTGTGCTCGCGAGGTTCACCCGCCCGGCAGCCCCCGAACCTGTGCGCGCGTAA	MDELALTLIELGAVVFCLGLLARLAGRINMSPIPLYLVGGLFFGAGGLMKLEGIQSFAHLSAEIGVILLLLMLGLEYSAPELVTGMRRSWQGGVLDLVLNFLPGAGIAVLLGWGPVGAMVMGGITYISSSGIAAKVITDLGRIGNRETPVVLSILVFEDLTMALYLPILTATLAGISFLEGLLTVGVSLAVVTVVLAVALRHGHQVSKGLHSENSEVFLLNLLGAALLVSGLAQALQVSAAVGAFMLGIAISGATAHSATRILEPLRDLFAAIFFVAFGLNTDPASIPPVLAWAVVLAVVTTVTKIITGVWAAKRAGIARRGRFRAGAALVARGEFSIVIAGLAVASGAVSVELAALATAYVLLMAITGPLAARYVEPVLARFTRPAAPEPVRA	PGPT0014395_3875	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
D1-17_00261	483	khtT	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGAACGTGGAAGAGACGGACCTCCCCGGTCTTGGCAGGCGCAAGGACTTCATGACGGCCTCCGGCCGGAGGATCGGCGTGGTGGAACTGCGCGAGGGCCAGACGGAACTGTTTGTTTCCACGTGGGACGACCCGGACACGTGCCAGGCATCGATCCCCCTGACCGGTGATGAAGCGGCCACCCTGGGAAATCTGCTGGGCGGGCAGCATCTGGCCATGAAACTTACCGAGGCACATAAAGAGGTTCCCGGGATCGTCACGAGGCAGTTCTCGATCGCTCCGGACTCGCCGTTCCAGAACCAGCCCATGGGCAAGGCGTGCATCCGCACCCGGTGCGGCGTTTCGATCGTCGCGATCATGCGCGAAGGCGAGGTAGTCCCCTCGCCGGGGCCCGACGTCGTTCTTCACGCCGGCGACCTCCTTGTCGCGGTGGGAACACAAGAAGGGCTCGATACGGCAGCCGATATTCTCCGCAACGGCTGA	MNVEETDLPGLGRRKDFMTASGRRIGVVELREGQTELFVSTWDDPDTCQASIPLTGDEAATLGNLLGGQHLAMKLTEAHKEVPGIVTRQFSIAPDSPFQNQPMGKACIRTRCGVSIVAIMREGEVVPSPGPDVVLHAGDLLVAVGTQEGLDTAADILRNG				NA	NA	NA	NA	NA
D1-17_00262	1404			hypothetical protein	ATGAACTCCGCCACCGTGCCCGAGGCCATGCAGCCGTCGTCGGAACTCGAGGCCGGGGAAACGCCCTCAAATAAGGGGCGCATCCTCGCCTGGGCTGCCTGGGACTGGGGGTCTGCAGCCTTCAACGCCGTCATGACCACGTTCGTTTTCACTGTCTATCTGACCTCCGACGCATTCGGCGGCGAAGACCACGCCTCGGCTGTGCTCGGTGCGGCATTGGCCATCGCCGGCGCCGCGATCGCGCTGCTGGCGCCGGTCACGGGGCAGCGCTCGGATACCGGCGGAAGGCGGAAGCTGTGGCTGGGAGTGAACAGCGTCGTCGTCGCGGTTCTGACTGCACTGTGCTTTTTCGTGTTTCCCCGCCCCGAGTTTTTGCTGGTCGGGGTTTCGCTGATTGCGCTGGCCAATGTCTTTTTCGAGTTCGCCGGGGTGAATTACAACGCCATGCTGGCCCAGATCTCCACCCCGCGGAATATCGGGAAGGTGAGCGGTTTCGGCTGGGGCATGGGATATCTCGGCGGCATTGTTGCACTACTGATTGTGCTCCAGCTCTTCATCCAGCCCCGGTTCGAGTGGTTTGGCGCCTCCACCCAGGACGGACTGAACATCCGTCTGGTGGCGGTGTTCTCGGCCTTGTGGTTCTTCATCTTCGCGCTGCCGGTCATGTTCGCAGTGCCCGAACTGGCCCGGCCCCGGCGCACGGTGAAGGCGGGCATCCTCGCCTCCTACCGGCTATTGGCCCGCCGCATCAAGGCAATTTACCGGACCAGCCCGCACACCATTTACTTCCTGCTGGCCAGCGCCATCTTCCGTGACGGCCTGGCCGCCGTGTTTACTTTCGGCGGCATTATCGCCGCAGGGACGTTCGGCTTCGAGCTTTCACAGGTGATCTTCTTCGCCATCTTCGGCAACATTGTGGCGGCGGTCGGGGCAATCATCGGGGGGTTCCTGGACGACAGGATCGGCCCGAAGGCGGTGATCATCGGATCGCTAGTCGGCCTGCTTGTGGCCGGGACCGTGATCCTGGTGCTCGGCAACGGCGACTACGTCTTTTTCGGCACGGCCTGGGCGGGCAGCACCACCTTCTGGGTGTTCGGACTGTTCCTCTGCCTGTTCGTGGGGCCGGCGCAGTCATCCTCCCGGGCTTATCTCGCCCGGCTGGCTCCGCAGGGTGAATCGGGCGAGCTCTTCGGCCTGTACGCTACCACCGGCCGCGCCGTCAGCTTCCTGGCGCCTGCGCTCTTCACGCTGTGCATCGCCGTGGCCACCCCTCTCGTGGCGGAAGGGGAAGCGCAGCGCTGGGGCATCCTCGGGATCATGGTGGTGCTCCTGGCCGGGCTGCTGGTCCTGCTTCCCGTCAAGGCACCCGGCGAAGCCCGGATCGCCGTCATCCCCGCCTCCTAG	MNSATVPEAMQPSSELEAGETPSNKGRILAWAAWDWGSAAFNAVMTTFVFTVYLTSDAFGGEDHASAVLGAALAIAGAAIALLAPVTGQRSDTGGRRKLWLGVNSVVVAVLTALCFFVFPRPEFLLVGVSLIALANVFFEFAGVNYNAMLAQISTPRNIGKVSGFGWGMGYLGGIVALLIVLQLFIQPRFEWFGASTQDGLNIRLVAVFSALWFFIFALPVMFAVPELARPRRTVKAGILASYRLLARRIKAIYRTSPHTIYFLLASAIFRDGLAAVFTFGGIIAAGTFGFELSQVIFFAIFGNIVAAVGAIIGGFLDDRIGPKAVIIGSLVGLLVAGTVILVLGNGDYVFFGTAWAGSTTFWVFGLFLCLFVGPAQSSSRAYLARLAPQGESGELFGLYATTGRAVSFLAPALFTLCIAVATPLVAEGEAQRWGILGIMVVLLAGLLVLLPVKAPGEARIAVIPAS				NA	NA	NA	NA	NA
D1-17_00263	3090	ndhB		NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic	GTGATCACAGTCCTTGCCGTGCACTTTGCGGTTGCTGCTGTGGCGCCGTTCATCTTCCGGAAATTCGGCCGGAGCTCGTTTTACGGGCTGGCCGCAGTTCCTGCCGGGTCTTTCATCTGGCTGCTGCTCCAGCACGGCGCGGTCTATTCCGCAGGTCCGCACGGCAATCCAGGTGGCGGTCAGGCCAGCGAAGTCACGCCCTGGATCCCTAACCTCGGCATTGAGTTCGCCTTCCGCCTGGACGCACTGGCCTGGGTCATGTGCTTGCTGGTGCTCGGCGTGGGTGCCCTTGTCCTGGTGTACTGCGCCCGGTATTTCAAGGACAAGGACGACCACCTCGGGGGCTTCGGCGCCCAGCTGCTCGCGTTTGCCGGCGCGATGTTCGGCCTGGTCACGGCGGATGACCTGCTGCTGCTGTTCATCTTCTGGGAACTCACTACAGTCCTGTCCTACCTGCTGATCGGCTACGCCAGAACCCGGCTCGCCGCGCGCCGCTCGGCCCTGCAGGCGCTCATGGTCACCACGGCCGGCGGGCTGGCCATGCTCATTGGCCTGATCATGCTCGGCTCCGCCGCCGGCACTTACCGCATCTCGGCCATCCTCGAACAGGCGCCCGAATTGAACGCCGGCCCGGCTGCAGGCGCCGTAAGCGCCGCCGTCGTGCTGATCCTGGTCGGCGCGGTGACCAAGTCGGCGCTGGTTCCGTTCCATTTCTGGCTGCCCGGGGCCATGGCCGCTCCCACTCCCGTAAGCGCCTACCTCCACGCAGCCGCAATGGTGAAAGCCGGTGTCTACATCGTGGCGCGGCTGGCGCCCGGCTTCACGGAGACGGCGTACTGGCTGCCCATGGTCTTGGGTCTGGGCCTGGCCACCATGCTCGTCGGCGGCTACCGGGCCCTCCGGCAGACCGACATCAAGCTCATCCTGGCATACGGCACCGTCAGCCAGCTCGGTTTCCTCACCATGGTGGTCGGCCTCGGCAAGCCGGACGCGGCGCTCGCAGGCCTTGCCATGCTGCTGGCCCACGGCCTGTTCAAGGCAACGCTCTTCCTCGTGGTGGGAATCATCGACCACCAGGCCGGCACCCGCGACATCCGCGAACTCTCCGGTGTCTTCCAGTCCTCCCGCGCCCTCGGCATCGTCGCCGGCATCGGTGCGGCATCCATGGCGGGCATCCCGCTGCTGGGCGGCTTTGTGGCCAAGGAATCGGTGCTCGAGGCTTTCGTCCACTTCGCCGGCGAGCCGGGCTACGGGCCCTGGGGATCGGTGATCCTGGCCGGTATCGTGATCGGATCCGTGCTGACCTTCGCCTACAGTGCCAGGTTCCTCTGGGGAGCCTTCGCCGTGAAGCCGGGCGTGGACCGAACACCCTTCAAGGCCATCAGGCCGTCCTTCCTGGCGGCGCCCGCAGTTTTGAGCTTCCTGACCATCCTCTACGGTCTGTGGCCGGTGCCGGTGGATGGCTGGGTTCAGCCTTACGCTGCCCTCTTCACCGCGTCCGACGGCGGAACTGGCGCTGGTGCCGCCGGGCACCTGGCGCTGTGGCACGGATTTACCCCGGCCCTCGGGCTGACCGCCGTCACGTTCGCCCTCGGTATGGCCATGTTCCTCGCCCGCGGAGCGGTGGCCCGAGCCCAGGCCCTCGTCCCCGACTGGATCGACGCCGACCGCGGCTACCGGCTGACCATCGGCGCCCTTGACGACGTCGCCGTCTGGCTAACGGGCCGCACCCAGCGCGGTTCGCTGTACTTCTACCTGGCCGTCATCCTGACCGTCGCCTTCGTGCTTCCCCTGGCCGCGCTGGTTACTGCAGGGAAACCACTGCCCGAGGGGCTGTACTTCATCGATCCTTCTTCTCCGCTGCAGGCTGTAGCGGGTGCGGGAATTGTGATCGGTGCGCTGGCAGCCGTCCGTGCCAACAAGCGGTTCCTGGCTGTGCTCATGGTGTCCGTGACCGGCTACGGGATCGCCCTGATGTTCGCCCTGCAGGGCGCCCCGGACCTGGCGCTGACCCAGATGCTGGTTGAAACCATCATCCTCGTGGCGTTCGTGCTGGCCATGCGCAGCCTTCCAGCCGAACTTCGGGACAGAACGGGCGGCAAGTACCGGGTGGTCCGTGTCATCATCGGGCTGGCTTTCGGTACCACGATGGTTTTCGCCGCGATCCACGCCATGGGTGCGCGCATTGCCACTCCGGTGTCCCTGGAGTTCCCGAAACTCGCCTATGAGGGCGGGGGCGGGCTGAACATCGTCAACGTTACGCTCGTGGACATCCGCGCGTGGGACACCTTCGGCGAGATCGCCGTGCTCGCGCTCGCCGCCACGGGCGTGGCCAGCCTCATCTTCATCCGTGGCCGCGGCGACGGCATCAAGGTGTCCTCCACAGTGGCTGAGGGCACCGTGGGCCGGCGCAGGGGAGTGGACAAGTCCTCGCGGGACGGCGCCGCCCTCGCGCTGGCCCGCAAGTTCGCCACCGCCAACCGCGATGCCTGGCTGGTGGCCGGCAGAACGCTGGCTCCGGAGCGGCGCTCCATCATCTTTGAAGTGATCACGCGGCTGATCTTCCACTCCATGATCATCTTCTCGCTGTACCTGCTGCTGGCCGGGCACAACTTCCCCGGCGGGGGGTTCGCCGGCGGGCTCATGGCAGGGCTGGCTCTCACCGTCCGGTACCTCGCCGGCGGCCGCTATGAACTCCGCGAGGCCACCCCCATCAGCGCCGGAACCCTGCTGGGCATCGGTCTGGCGGCGGCGGCTGCCACCGGCGTGGCACCCCTGCTGTTCGGCGGCCAGGTGTTCCAAAGCGCGATCGTAGAGTTCTGGCTGCCGGTTTTCGGGGACATCAAGTTCGTCACGTCCACGATCTTCGACATCGGCGTGTACATCGTGGTCGTAGGGCTGGTGCTCGACGTCCTGCGCACCCTCGGGGCTGAAATTGATGAGCACTTCGAAGAACAGCCCCAAACTCCGTCCGGCGGCCGGCCGTCCGATACCAAGTTGTCGGGGGTTGAGGTGTCCGGCAGTCCGCTGTCCGGGGCTCAGATGTCCGGCGGCATACCCGCTGAAACCGCCGGAAGGGGCCAGGCATGA	MITVLAVHFAVAAVAPFIFRKFGRSSFYGLAAVPAGSFIWLLLQHGAVYSAGPHGNPGGGQASEVTPWIPNLGIEFAFRLDALAWVMCLLVLGVGALVLVYCARYFKDKDDHLGGFGAQLLAFAGAMFGLVTADDLLLLFIFWELTTVLSYLLIGYARTRLAARRSALQALMVTTAGGLAMLIGLIMLGSAAGTYRISAILEQAPELNAGPAAGAVSAAVVLILVGAVTKSALVPFHFWLPGAMAAPTPVSAYLHAAAMVKAGVYIVARLAPGFTETAYWLPMVLGLGLATMLVGGYRALRQTDIKLILAYGTVSQLGFLTMVVGLGKPDAALAGLAMLLAHGLFKATLFLVVGIIDHQAGTRDIRELSGVFQSSRALGIVAGIGAASMAGIPLLGGFVAKESVLEAFVHFAGEPGYGPWGSVILAGIVIGSVLTFAYSARFLWGAFAVKPGVDRTPFKAIRPSFLAAPAVLSFLTILYGLWPVPVDGWVQPYAALFTASDGGTGAGAAGHLALWHGFTPALGLTAVTFALGMAMFLARGAVARAQALVPDWIDADRGYRLTIGALDDVAVWLTGRTQRGSLYFYLAVILTVAFVLPLAALVTAGKPLPEGLYFIDPSSPLQAVAGAGIVIGALAAVRANKRFLAVLMVSVTGYGIALMFALQGAPDLALTQMLVETIILVAFVLAMRSLPAELRDRTGGKYRVVRVIIGLAFGTTMVFAAIHAMGARIATPVSLEFPKLAYEGGGGLNIVNVTLVDIRAWDTFGEIAVLALAATGVASLIFIRGRGDGIKVSSTVAEGTVGRRRGVDKSSRDGAALALARKFATANRDAWLVAGRTLAPERRSIIFEVITRLIFHSMIIFSLYLLLAGHNFPGGGFAGGLMAGLALTVRYLAGGRYELREATPISAGTLLGIGLAAAAATGVAPLLFGGQVFQSAIVEFWLPVFGDIKFVTSTIFDIGVYIVVVGLVLDVLRTLGAEIDEHFEEQPQTPSGGRPSDTKLSGVEVSGSPLSGAQMSGGIPAETAGRGQA	PGPT0013895_43	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565	NA	NA
D1-17_00264	609			hypothetical protein	ATGAGCGTAAACCTCACCCTTCTGACAGTGATGGGTGCCCTGTACGCGTGCGGCATCTACCTGATCCTCGAACGCAGCCTAACGCGCGTGCTGCTTGGGCTGATGCTGCTGGCCAACGCCACCAACCTGCTGATTCTGGCCACAGGCGGCTACGCGGGGCTGGCCCCGTTGTTCAGCAAGGAAACGGACCCGGGCGCCTACAACGATCCGCTGCCGCAGGCGCTGATCCTGACCTCCATCGTGATCTCCTTCGCCGTCACAGCGTTCATGCTCGGCATCATCTACCGGACCTGGGTGCTGGCCCGCCAGGACGAAATCCAGGACGACCTCGAAGACCGCCGCGTGGCGGCCACCCCGAGTTTCGACGCCGAGGACGACGCCGTGATCCCGGCCGAGACCTCCGAATTCCCGCTCACCATGCTCGGCGCTGACGGCACCGAAGTGTCAGATTCCCCTGCCCCCGATGCTTTCGTCCGGGACAGGTCCCCGTCTGGACTTCCTGCCACTGTCCCGGCTGGCGGCCGGGCAATCCCTGGCGAGACCGCGGTGCATGAAGAGAAACCCGGTTCCGCCAACATCGACACCACCCCGGAAGGAGGCGGAAAGTGA	MSVNLTLLTVMGALYACGIYLILERSLTRVLLGLMLLANATNLLILATGGYAGLAPLFSKETDPGAYNDPLPQALILTSIVISFAVTAFMLGIIYRTWVLARQDEIQDDLEDRRVAATPSFDAEDDAVIPAETSEFPLTMLGADGTEVSDSPAPDAFVRDRSPSGLPATVPAGGRAIPGETAVHEEKPGSANIDTTPEGGGK	PGPT0013905_56	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
D1-17_00265	1635	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	GTGAGCCTCGCTGCCCTGGCCCCGCTCGCCGTCGTTCTTCCCATCCTGGGGGCCGCCCTGACCTTCGTGCTGATCCGGCATTCCCGGGCACAGCGCGTGGTGAGCATCGCCCTGCTGTCCCTGACCCTGCTGCTCGAGTGCCTGCTGCTCGCCTCCGTGTGGGGCGGCGGCACCGAGGCGGTCAACATCGGCGGCTGGCTGCCGCCCTGGGGAATCGTCCTGGTGGTAGACCAGTTCTCCTCACTGATGCTGGTGGTTTCCTCTGCCGTCAGCCTCGCCGTGCTCGTTTACGCGACCGGGCAGGGCATGGCCGACGGCGATCACGACGCACCGCTGTCGGTCTTTCACCCCACCTATCTGATCCTGGTCGCCGGGGTCTCCAACGCCTTCCTGTCGGGTGACCTGTTCAACCTGTACGTCGGCTTTGAGATCCTTCTGACAGCCAGCTATGTGCTGATGACCCTGGCCGGGACCGGCCCCAGGATCCGGGCGGGCGTCACCTACGTGGTGGTGTCCGTGGTTTCCTCCGTGTTGTTCCTCATTGCCATTGCGATGATCTATGGCGCCACGGGCACTATCAACATGGCGGATCTGGCCATCAAGCTGGCCGAGCTGGACCAGGGCACCAAGACGCTGCTGCACGTCATGTTGCTGGTGGCCTTCGGCATCAAGGCCGCCGTATTCCCGCTTTCGTTCTGGCTGCCTGACTCCTATCCCACCGCACCGGCCCCCGTCACGGCCGTGTTCGCCGGCCTGCTGACCAAGGTGGGCGTATATGCCATGGTGCGCACCGAGACGCTGCTGTTCCCGGGTGATTCGCTGAACACTCCGCTGATGATCGCCGCCCTGCTGACCATGGTGGTGGGAATCCTCGGCGCACTGGCCCAGAGTGACATCAAGCGCCTGCTCTCCTTCACCCTCGTCAGCCACATCGGATACATGGTCTTCGGGCTGGCCATGTCCTCGGCGGCAGGGCTCGCCGCTGCCGTGTTCTACGTGGCGCACCACATCACCATCCAGACCAGCCTCTTCCTGGTGACCGGCCTGATTGAGCGCCGCGGCGGAAGTTCCTCCATGGACCGGGTGGCAGGGCTGGCCAAGCTCTCCCCGATCCTGGCGCTGCTGTTCTTCGTCCCCGCCATGAACCTGGCCGGCATTCCTCCGTTCTCCGGTTTCCTCGGGAAGCTTGGCCTGCTGCAGGCCGGGGTCCAGCTCGGGACGCCCCTGGCGTATGCCCTGGTGATCGGCGGGGTGCTGACCAGCCTGCTGACGCTGCTGGCCGTGGCACGCGTGTGGAACCGCGCGTTCTGGCGGAAGCCCGAGGACGCAGAGCATCCCGCTCCCGTGCTGCTCGCCGAGGCCAAGGATTCCCCGGCAGGCCTCCGGGCAGGCAAGCGGGGCATGATTCTGCTGCCCCGGACCATGGTGGGTTCCACGCTGGGGCTCGTGCTGCTGGGCGTGGCCCTCACGGTTTTTGCGGGCCCGCTGTTCAGGGTGGCCGGACAGTCCGCAGAAGCCATGCTTGACAGGTCCGCGTACATCCACGCCGTGCTCGGCCAGCAGGCAACGGTCCCGGAGCTGACGCTGAACGGCAGCACAGCTGAAGCTGGCTCACCGGGCGGTGGAGGGAAATGA	MSLAALAPLAVVLPILGAALTFVLIRHSRAQRVVSIALLSLTLLLECLLLASVWGGGTEAVNIGGWLPPWGIVLVVDQFSSLMLVVSSAVSLAVLVYATGQGMADGDHDAPLSVFHPTYLILVAGVSNAFLSGDLFNLYVGFEILLTASYVLMTLAGTGPRIRAGVTYVVVSVVSSVLFLIAIAMIYGATGTINMADLAIKLAELDQGTKTLLHVMLLVAFGIKAAVFPLSFWLPDSYPTAPAPVTAVFAGLLTKVGVYAMVRTETLLFPGDSLNTPLMIAALLTMVVGILGALAQSDIKRLLSFTLVSHIGYMVFGLAMSSAAGLAAAVFYVAHHITIQTSLFLVTGLIERRGGSSSMDRVAGLAKLSPILALLFFVPAMNLAGIPPFSGFLGKLGLLQAGVQLGTPLAYALVIGGVLTSLLTLLAVARVWNRAFWRKPEDAEHPAPVLLAEAKDSPAGLRAGKRGMILLPRTMVGSTLGLVLLGVALTVFAGPLFRVAGQSAEAMLDRSAYIHAVLGQQATVPELTLNGSTAEAGSPGGGGK	PGPT0013910_591	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568	NA	NA
D1-17_00266	564			hypothetical protein	ATGAGCCGGAGACGAATTTCCGTGCGGCAGGAACTGCCGCTGCTCGTATGGCTCGTCATTGTCTGGGGTGCCCTCTGGCAGGATTTCAGCCCGGGCAACCTGTTGTTCGGCACGATGCTCGCCGTAGTGGTGGCCCGCCTCTTCTACCTGCCGCCCGTGGAGCTCAGCGGACGCTTCAGCGTCCTCCGGGCCATCCCGTTTGCCCTGCAGTTCATTGGCAAGGTGGTGCTTGCCAGCTTCCAGGTTTTCTACCTTGCTGTCGCGCGGGGGCCCAAGGTGACCAACGCCGTCGTCGCCGTCCCGCTCCGGAGCCATTCAGATCTGATGGTGACCGCAACAGGACACGTGATCTCCCTGATCCCGGGCTCGCTCGTGGTGGAGGTGGACAGGTCGACCTCGACGCTCTACATCCACGGACTCAATGTGCGGAATGCGGACGATGTGCTGAAGCTCCGAAAGGAAGTGCGCGACACGGAGGCCGGGCTGATCCGCGTCATGGGAACGAAAGAAGAACTCGCAGCATTGAATCAGGAGACAGTACTGAGCCAGGAGACAGGCGCATGA	MSRRRISVRQELPLLVWLVIVWGALWQDFSPGNLLFGTMLAVVVARLFYLPPVELSGRFSVLRAIPFALQFIGKVVLASFQVFYLAVARGPKVTNAVVAVPLRSHSDLMVTATGHVISLIPGSLVVEVDRSTSTLYIHGLNVRNADDVLKLRKEVRDTEAGLIRVMGTKEELAALNQETVLSQETGA	PGPT0013915_405	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569	NA	NA
D1-17_00267	279			hypothetical protein	ATGATGCAATTCGTGCTGACGGTCACCGCTGTGGTGCTGTCCCTCGCCGCCGCGGGTGCGATTGTGCGCATCGCCCGCGGCCCGTCGCTGCTGGACCGCGTGCTCGCCGCCGACGTGCTGTTGGCCATCCTCGGTGCCGCGCTGTGCATTGATATGGCCGTGAACAGGCATCTGAACAATCTGATGCTGCTGGTGGCCGTGTCCGTCATCGGATTCATCGGCTCGGTGACCGTGGCGCGCTTCGTAGCGGACAGGCGGGAGCAGCCCAGTGAGTCCTGA	MMQFVLTVTAVVLSLAAAGAIVRIARGPSLLDRVLAADVLLAILGAALCIDMAVNRHLNNLMLLVAVSVIGFIGSVTVARFVADRREQPSES	PGPT0013920_887	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570	NA	NA
D1-17_00268	402	mnhG1	COG1320	Na(+)/H(+) antiporter subunit G1	GTGAGTCCTGACCCAAATGCAGTGGATACCATGATCGATGCAGTGTCCGCCGTCTTCATGATCGTGGGGGCTGTGATGTCCCTGGCCGCAGCAATTGGCCTGCTGCGGTTCCCGGACCTGATGAGCCGGATGCACGCCGCCACCAAGCCGCAGGTGCTCGGGCTGTTCCTGCTCCTGGCGGCTTTGGGACTGCAGATGCGCACCTGGTGGGTATGGCCGGTGCTGCTGGTGGCCTGGATCTTCCAGCTGCTGACGGTACCGGTGTCTGCGCACATGGTCGGCCGCGCGGGCTACCGCACCAAGCACCTCCACAAGGAGCTGCTGAGCACCGACGAGCTGGAAGCCGTCGTGGTGAAGGCCGCTGAGGCAGCCAGGGAACGGGATTCAGACGGCGGACGCTGA	MSPDPNAVDTMIDAVSAVFMIVGAVMSLAAAIGLLRFPDLMSRMHAATKPQVLGLFLLLAALGLQMRTWWVWPVLLVAWIFQLLTVPVSAHMVGRAGYRTKHLHKELLSTDELEAVVVKAAEAARERDSDGGR	PGPT0013925_194	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571	NA	NA
D1-17_00269	1350			hypothetical protein	ATGAGCGCAGGCACGGCAGTGCTTGCCGCCTATGCTTCTGGAATGCACGGCGCTTCCGGAATGCACGGCGACGGCCCGATGATTTCTGCCAGTCCTGCATCCGCCCAGGCACCGGACAGTGTTGCCGTCAGCATGTCCGCCGGCTCCGCTGTCGCTGCGGGCGGTGCTCGGGATGCCGTCTCGGGCGCTGCCGTTTCAGCCCCTGTCGCCGCGCCCGCTTCTTCCCCTGTCTCTGCGTCGGCCGGAGTGGCGCTCTCCTACAGCCGTTCCGTGGTCCTCACCGGGGCGAAGGAATGGACACGAGAGCTTGACGCTTCGTCAGCTCGGTCGCGGCGTCCCGCCGCCGGGACCCTGATGTCACCGTTGGAGGTCCTGCATCCCAGCTCTGCCTTCGGCGTGCGGAGGAGCCCGATCACTGGCGATGCCGGGGAGTTCCACTGGGGCCGGGACTTTGCCGCTGCCTGCGGGACCCGCGTTTACTCTGTGGACGCCGGGGTGGTGCGGGCAGTGGGATGGCATCAGTGGGGCGGCGGCAACCGAGTGGAAGTCGACCATGGCAACGGCCTGATCACCACTTACAACCACCTTGAGGGCATCGGGGTCGGGAAGGGCGAGTCGGTGCAGGCCGGGGACGTCATCGCCAAAGTCGGGACCACGGGCGCTTCAACGGGATGCCACCTTCACTTCGAAACGATCCTGAACGGCAGCCACACGGACCCTGAGGAGTGGACTCTGGTGCCGCTCGATCCGGCGGATCCTGCTGCTGCCGTGACGATGACCGACTACCGGAAGCCCGGGACGGCGAAGGACACGCCTGCCTGGGCCGTCCCGGCGGCGGAAGCCCACAACCATGAGGTGAACCACGCTGAGCGTAAGCCGTCACGGTCCAAGACCGCCAAGGCTCCTTCGCGTTCCAACGCCCGCGTCTCCAATGCCGCTGCTTCTCCGGCAAAGAAAGCCGTGGCACTTTCAAAGAAGGCAGTGGCACCTGCGAAGACTGTGGCACCTGCGAAGAGTGTGGCGGCCGCCAGGCCTGTTGCGCCCGTGAAGCCGGCTGTGCCGGCAAGGACGGCGGCTCCTGCCCCACGGCCTACGCCTTCCCCTGCTCCGTTGCCGGTGAAGACCGCCGCTCCGGCTCCACGGCCCACGCCTTCCCCTGCTCCGTCGCCCGCGAAGACGGCCACTCCGGCGCCTGCTGCGGCCCCGAAGCCCACCTCTTCGCCCACCTCTTCGCCCAGTGCTGCGCCGACGTCCGCGCCGGTTTCAGTTCCCGTTCCTGCCCGGAACGTGACACAGGAGCAAGCTACGGAACCTGACGCGGCAGCAACGGCGGCGCCTGCTGCCGGTTAA	MSAGTAVLAAYASGMHGASGMHGDGPMISASPASAQAPDSVAVSMSAGSAVAAGGARDAVSGAAVSAPVAAPASSPVSASAGVALSYSRSVVLTGAKEWTRELDASSARSRRPAAGTLMSPLEVLHPSSAFGVRRSPITGDAGEFHWGRDFAAACGTRVYSVDAGVVRAVGWHQWGGGNRVEVDHGNGLITTYNHLEGIGVGKGESVQAGDVIAKVGTTGASTGCHLHFETILNGSHTDPEEWTLVPLDPADPAAAVTMTDYRKPGTAKDTPAWAVPAAEAHNHEVNHAERKPSRSKTAKAPSRSNARVSNAAASPAKKAVALSKKAVAPAKTVAPAKSVAAARPVAPVKPAVPARTAAPAPRPTPSPAPLPVKTAAPAPRPTPSPAPSPAKTATPAPAAAPKPTSSPTSSPSAAPTSAPVSVPVPARNVTQEQATEPDAAATAAPAAG				NA	NA	NA	NA	NA
D1-17_00270	264			hypothetical protein	ATGAGTTTTTTCATCAAGCTGCTTGGCACCGGCATCAGTCTGCTCGCCGGATACGCCGGCACTAGGGCCGTGGACGCCGTCTGGGAAAAAACCACAGGCCGCAAGCCTCCGAAGGGCGGCAAGGACGACGTTCCCACGACATTGCGCTCAGCCCTGACCTTCGCCTTGGTTTCAGCCTCAGTCAGCGCCGTCATCCAGGTTCTGACCAACCGCGGCACGCAGCGCGCAATCACCCGCTTCGCCAAAACCCAGGACATCGTCTAG	MSFFIKLLGTGISLLAGYAGTRAVDAVWEKTTGRKPPKGGKDDVPTTLRSALTFALVSASVSAVIQVLTNRGTQRAITRFAKTQDIV				NA	NA	NA	NA	NA
D1-17_00271	576			hypothetical protein	ATGGCAATAGCCACGGAGTACATTGGGGCAATGACCGCAGAGGACTCCGGAACTCCGGCCCTATTTGATCCCGACGCCGCCGACGAACAGCCGGCGGGGGCGCTTGAGTCGCTGATCTCAGAGATTGAATCGCAGATCTCGGAACTCCAGTTCCCCCGGTTCAGCAAAGATGACGCCCTCAGCCTGGGCCTTCTGCTGGTTGAGCTCGGAAAGGACGGCCGCCTGCCCATCGCCATCGACATCTCCAAGGGCGAGCAGATGCTTTTTCATGCTGCCCTGGAAGGTGCCACCCCGGATAACGGGCATTGGGTCAAGGCCAAACGGCGCACGGCGGCACGGTATGAGGAACCGTCCCTGCTGGTTGGCCTGCGCGGCAGGGTGGGCGGAGGCCGCATTGAGGACAACGCGTGGTTCGACCAGACCACGTACGCGGCCCACGGGGGCTCCTTTCCCGTCTATGTGCAGGGCGTGGGGGCCGTGGCGACCGTGACGGTCTCGGGGCTGCCGCAGAAGGCGGACCACGACCTGGTGGTGCGGGCCCTGCGGGAAATCCTCGGGTCCATGCGGCTAGGCTAG	MAIATEYIGAMTAEDSGTPALFDPDAADEQPAGALESLISEIESQISELQFPRFSKDDALSLGLLLVELGKDGRLPIAIDISKGEQMLFHAALEGATPDNGHWVKAKRRTAARYEEPSLLVGLRGRVGGGRIEDNAWFDQTTYAAHGGSFPVYVQGVGAVATVTVSGLPQKADHDLVVRALREILGSMRLG				NA	NA	NA	NA	NA
D1-17_00273	621	ykoE	COG4721	Putative HMP/thiamine permease protein YkoE	ATGACAACAGCAACAGCTAAGAAGTCCGGCAACACCTGGCGCGTGGCCGACATCGTGGTGGCGGCGCTGATCGCCGTCGCCGGTGGTGTGATTTTCTGGGCTTGGTCCCAGGGCGCCAACCTCATCTCTGCACCGCTGAACGCGGTCTACCCGCCCCTGACCGGCCTGTACGCCGGCGGCTGGATGATTCCGGCGGTGCTGGGCATGCTCATCATCCGCAAGCCCGGCGCTGCGCTGTTCTGCGAATCCGTGGCCGCCACCGGTGAGCTGATCATGGGCTCGCAGTACGGCACCACGGTGCTGATCTCAGGCCTGCTGCAGGGCCTGGGTGCGGAGCTCGTGTTCGCCGCGTTCCGGTACAAGAAGTTCAACCTGCCCGTCTCGCTGCTGGCCGGCGCCGGCGCCGGGCTGTTCTGCGGCCTGAACGATTCGTTCGCCCCGTGGGGTTGGAACATCGCCTACGCGGCCGGGGACAAGCTGGCGTACATCATCTTTACCGCCGTCTCCGGTGCCATCATTGCCGGCGCGCTGTCCTGGATCGCCACCCGCGGCCTGGCCAGGACCGGCGTGCTGAGCTCCTTCCCCTCCCGCAAGGCAGCCACGGAGCCCGTGTTTAACTGA	MTTATAKKSGNTWRVADIVVAALIAVAGGVIFWAWSQGANLISAPLNAVYPPLTGLYAGGWMIPAVLGMLIIRKPGAALFCESVAATGELIMGSQYGTTVLISGLLQGLGAELVFAAFRYKKFNLPVSLLAGAGAGLFCGLNDSFAPWGWNIAYAAGDKLAYIIFTAVSGAIIAGALSWIATRGLARTGVLSSFPSRKAATEPVFN				NA	NA	NA	NA	NA
D1-17_00274	1617	ykoD_1	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGCCCGCACAGCAGGACGCCGGCGTCCGCCCGGCCGCGGTTACCGCCCGCGGCTGGGGTTGGCGCCACGCCGGACGCACCAAACCTGCAGTCAACGCCCTCGACCTGGATATCCGGCCGGGGGAGCGGGTGCTGCTGCTGGGGCCCTCAGGCGCCGGCAAATCCACGCTGCTCCACGCGCTTGCCGGGGTGCTTGGCGACAGCACCGCCGACGACAGCGGCACGGCGGCGGGCGACGACGCGGACGAAAGCGGCAGCCTCCTGATCGACGGCGAACCTCCCCGCGCCCAGCGCGGCCGTGCCGGCCTCATGCAGCAGGACCCGGAGACGCAGGTGGTTCTCTCCCGCCTCGGCGACGATGTCGCCTTTGGTGCCGAAAACCTCTCGGTGCCCCGGGAACGGATCTGGCCCCGGGTGCACGAGGCGTTGGACGACGTCGGACTCGGACATTTCCCGCTGGACCATCCGACGTCGGTCCTGTCCGGCGGGCAGAAACAGCGCCTCGCGCTGGCCGGCATCCTGGCGATGCGCCCCGGGCTCATTTTGCTGGACGAGCCCACGGCCAACCTTGACCCTGCCGGAGTCCTGGAGGTCCGGGACGCCGTGGCCCGCTGCCTCGACAAGACCGGCGCCACGCTGGTGGTCGTGGAGCACCGGGTTGCCGTGTGGAAGGACCTCGTGGACCGGATCGTTGTGCTGCAGCCGGGCAGTGACACGCAACCGGCGGTGCTCATTGACGGGGCCCCGAACCAGGTCCTCCAGCAGGCCCGCACGATGCTGATCCGCGCGGGCGTCTGGGTTCCCGGTTACGTTCCACCCACCCGCGAACGGTCGCTGACCGGGCAAGCCGGCAGCGAGGGGGGTCTTGCGCCAGGCCAGCTGCTACTCGCCGCTGAGAGACTTGCCGTCTCAAGGGAACGGCCCCGCCGGCGCGGCTTCACATCCCTTCCGCCGGTTCCGGTGCAGCGCGACGTCACGGCACAGGTCCGCGCGGGGGAAGCCCTCACCATCACCGGGCCAAACGGCGCCGGCAAATCGACGTTCGCTCTGACCCTGGCCGGGCTGATTCCGCCTGTCGAGGGCAGGGTGTCCGCGACCCTGGAGCTAAGCGGCGGAGCCGGCATCGACCCGTACAAGTGGCGGGCCGAGCACCTGATCGCCAGGATCGGCACGGTCTTCCAGGAACCCGAGCACCAGTTCGTCACCGGCAGGGTACTGGACGAACTGCAGTTCGGCCCCCGGCACCTGGGACACGGCGAGGAGCGCGTGGACGAGCTGCTGGAGCGGCTTCGCCTCACCGGCCTCGTGGATGCCAACCCCTACACACTCTCCGGCGGCGAGAAGCGCAGGCTCTCCGTGGCCACCGTTCTGGCCGCCCATCCGCAGGTCCTGGTGCTCGACGAGCCGACCTTCGGCCAGGACGCCAACACCTGGGCCGAACTCGCCTCCTTCCTGTCCGAACTGCTCGATGCCGGAATCGCCGTCGTGTCGGTGACGCACGACCAGGAATTCACGCAGGTGCTCGGCGGCACCGAGCTCAAACTCGGCGCCGCGGACCTTCAGCCCCCAGGCGTCGATGCACCAGGCGTGGGAACACCGGAAGCGGCCGCATCATGA	MPAQQDAGVRPAAVTARGWGWRHAGRTKPAVNALDLDIRPGERVLLLGPSGAGKSTLLHALAGVLGDSTADDSGTAAGDDADESGSLLIDGEPPRAQRGRAGLMQQDPETQVVLSRLGDDVAFGAENLSVPRERIWPRVHEALDDVGLGHFPLDHPTSVLSGGQKQRLALAGILAMRPGLILLDEPTANLDPAGVLEVRDAVARCLDKTGATLVVVEHRVAVWKDLVDRIVVLQPGSDTQPAVLIDGAPNQVLQQARTMLIRAGVWVPGYVPPTRERSLTGQAGSEGGLAPGQLLLAAERLAVSRERPRRRGFTSLPPVPVQRDVTAQVRAGEALTITGPNGAGKSTFALTLAGLIPPVEGRVSATLELSGGAGIDPYKWRAEHLIARIGTVFQEPEHQFVTGRVLDELQFGPRHLGHGEERVDELLERLRLTGLVDANPYTLSGGEKRRLSVATVLAAHPQVLVLDEPTFGQDANTWAELASFLSELLDAGIAVVSVTHDQEFTQVLGGTELKLGAADLQPPGVDAPGVGTPEAAAS				NA	NA	NA	NA	NA
D1-17_00275	804	ykoC		Putative HMP/thiamine permease protein YkoC	ATGAGGGCCGCCTTGATCATTTCCGGCAACCAGGCGGTGCTGACCCGGGCCAATCCGCTGGCCAAGCTTGCCGCCGTCTTCCTCATCACGCTGGTCCTCGCCCTGTCCATCGACTGGATGTCCGCCACCGTAGCGCTGGTCTGCGAGCTGCTGCTCTTCCCGCTCGCCGGCCTGACGGTGACTTTGCTCTGGCAACGTGGCTGGCCCCTGATCCTCGCGGCCGCCGTGGGCGGCTGGAGCACCGCCATTCTGGCGCCGGACAGCGGAAGGATACTGATCGACGTCGGCATCTGGTCCATGAGCGAAGGTTCGCTTGAGCTGGGGCTGGGTTTCCTGCTCCGGGGCCTGGCGATTGCCCTGCCGGCGGTGCTGCTGATGAGCTGCACCGATCCGACCGACCTCGCCGATGCCCTGGCACAGAAAGCCCGTCTGCCGCACCGCTTCGTGCTCGGAACACTGGCGGCAATGCGCCTGGTGGGCCTGATGGCTGAGGAATGGCAGACCATCGGGATGGCCCGGCGGGCCCGTGGCGTCGGAGCCCGCGGCAACCCGTGGCAGCGGCTGCGCGCCACCCTCGGGCAAAGCTTCGGGTTGCTGGTTCAAGCCATCAGGCGCGCGACCCGCCTTGCCGTCACCATGGAGGCCCGCGGTTTCGGCAGCACAGGCCGGACCTGGGCCCGCGAATCGGTTTACAGCCGGTTGGACATCTGGGTGCTGCTAGGGGGAACGGCCATCGCGGCCGGTGCCGTGGCCGCCGCGGTCTGGGCCGGAACCTGGAACATGGTGTGGCTGGAAGGCTCCTAG	MRAALIISGNQAVLTRANPLAKLAAVFLITLVLALSIDWMSATVALVCELLLFPLAGLTVTLLWQRGWPLILAAAVGGWSTAILAPDSGRILIDVGIWSMSEGSLELGLGFLLRGLAIALPAVLLMSCTDPTDLADALAQKARLPHRFVLGTLAAMRLVGLMAEEWQTIGMARRARGVGARGNPWQRLRATLGQSFGLLVQAIRRATRLAVTMEARGFGSTGRTWARESVYSRLDIWVLLGGTAIAAGAVAAAVWAGTWNMVWLEGS	PGPT0004015_1724	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
D1-17_00276	993			hypothetical protein	ATGTCCATTTTTAGATCCGCCGCGTTCCGCAGAACGCGCCCGTCCAGGCAGCAGGTCAGCGCCCTGGTGTCATTCGTTGTCGCGACTACTGTTGGATTCGTCCCCGGTCCCCGCCTGGACGACGGAACGCCCCCGGCCCCGCCGTCATCCATCACCCAGCCGTCGGCCATCATCCCGCCGTCGGCACCCTCTTCCGCTCCTTCGTCGACGGCCTCCGGTCCTTCGCCTTCCGCTACTGGCGCGCCCACCCCGACCCTGCAAGCGCAGCCGACTGCCCCCAGGGAACGGAATCCGAGAGCGCTCGGAAACGACGTGTCCTGGCCGCAGTGCAACAAGACGCTTCCCGAGAACCCCGCCTTCGCAATCATCGGCGTGAACAACGGGCTGGCGAACACCACCAACTCCTGCCTGGCTGAGCAGCTGGAATGGGCCAACAAGATCCCGGACGACATCACCGGCCAGCCCAGCGTGGCCCTGTACGTGAATACTGCCAACCCGGAAACGGATGGATCCTGGTGGCCTACCGGCAACGATTACGGCGGCAAACCCGTAGCGAACCCGTACGGCACCTGCGAAGGTGAACCGGATGCTGCATGCGCCTACATGTACGGCTGGGCCAAGGCCTTTGACGACGCCTATATGCGGGGCATCAGCGAGCCGGACGATTACCTCTGGTGGCTGGACGTGGAGACGGAGAACAGCTGGAACGGCAGCCATGAGGAGAACAGGGCGGTCCTGGAAGGCATGACGGACTTTTTCCACAGCATCGACGCCGAGGTGGGCATCTACTCCTCGGGCTACCAGTGGTGGCAGATCATCGGCACCGTCCCGGAAGGCAGCAGCCTGTATGGACTGCCGAGTTGGCTGGCCGGAGCCAGCACTGTGGACGGAGCCAGGAGCAACTGCGCCCTGCCTCCACTGACAGCCGGCGGCAAAGTAACAGTGACCCAGTTCGTTTCCAAGGGCTTTGACTACGACTACTCCTGCATCTAG	MSIFRSAAFRRTRPSRQQVSALVSFVVATTVGFVPGPRLDDGTPPAPPSSITQPSAIIPPSAPSSAPSSTASGPSPSATGAPTPTLQAQPTAPRERNPRALGNDVSWPQCNKTLPENPAFAIIGVNNGLANTTNSCLAEQLEWANKIPDDITGQPSVALYVNTANPETDGSWWPTGNDYGGKPVANPYGTCEGEPDAACAYMYGWAKAFDDAYMRGISEPDDYLWWLDVETENSWNGSHEENRAVLEGMTDFFHSIDAEVGIYSSGYQWWQIIGTVPEGSSLYGLPSWLAGASTVDGARSNCALPPLTAGGKVTVTQFVSKGFDYDYSCI				NA	NA	NA	NA	NA
D1-17_00277	1524	murA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGACTCAGCAGACAGCCGAACAAGTTGGCCTCATGCTCCGCGACGCCCGCGGGCAAAAGGGCTGGACCCAGGAACAGCTCGCTTCCGAACTGGGAACCAGCCAAAGCGCCGTTGCCCGCATGGAACAGGGCAAGCAGAACCTGAGCCTGAAAATGCTCCAGCGGCTGGAGGCAATCTTCGGCCAAAGCATCGTGCAGCTGGGTAAGTCCCAGATGACCCACCTCCGCGTGGAAGGCGGCCAAACCCTCTCCGGCTCTGTTGACGTCAACACCAGCAAGAACGCCGGGGTGGCGCTTCTGTGTGCCAGCCTCATCAACCGCGGCACCACCACCTTGCGCCGCCTGGCACGCATCGAGGAGGTCAACAGGATCGTTGAGGTGCTCTCGAGCATCGGCGTCGAATGCACCTGGCTCAATGACAACAGCCTCCGGCTCCGCCGGCCCGCCATCCTGGACCTGGAGTCCATGGACGTTGAGGCCGCCCGGCGTACCCGCAGCGTGATCATGCTTCTCGGTCCGCTGCTGGACGAGGCCGAGGAATACCGGCTGCCCTATGCCGGCGGATGCGACCTCGGGATCCGGACCGTAGAGCCGCACATGCAGGCGCTGCGCCAGTTTGGACTGTCCGTCCAGGCCAGCGCCGGTTTCTACACGGTGCAGGCGCCGGTGGCGGACGGCGTCGACCGTTCTTTTGTGCTCACTGAACGTGGCGACACTGTCACCGAGAACGCCATCATGGCTGCCGCCCACCGCAGCGGCACCACCGTTATCCGCAATGCCAGCCCCAATTACATGGTCCAGGACCTCTGCTTCTACCTCGAGCGGCTCGGCGTCAAGATCGACGGCGTCGGCACCACGACGCTGAAGATCACCGGCAAGCCGTCCATCGACGATGACATCGAGTACTTCCCTTCCGAGGATCCCATCGAGGCGATGAGCCTCATCACCGCCGGCGTCGTCACCAATTCCGAGGTGACCATCCGCCGGGTGCCGATTGAGTTCATGGAGATCGAGCTGGCCACTCTGGAACAGATGGGCCAGAAGCTTGAGGTTTCGGGCGAGTACGTGGCCCGCAACGGCCGGACCCGGTTGGTGGACGTCACCACCAGGCCCTCCGAGCTGCGGGCACCCGAAGACAAGATCCACCCCATGCCCTTCCCCGGGCTGAACATTGATAACCTGCCGTTCTTCGCCGTGATCGCCGCCAACGCGGAGGGCCAGACTATGATCCACGACTGGGTCTATGAGAACCGGGCCATATATCTTACGGAACTGAACAAGCTCGGGGCGCGGGTGCAGCTGCTGGATCCGCACCGGATCTACGTGAACGGCCCCACCCGTTGGCGTGCCGCCGAGGTGGGCTGCCCGCCTGCGCTCCGGCCGGCGGCGTGCCTGCTGCTGGCCATGCTCGCGGCCCGGGGCGTGTCCGAGCTGCGCAACATCTACGTCATCGAGCGCGGCTACGAGGACCTGGCCGAGCGGCTCAACACAATCGGCGCAAAGATCGAGTACTTCCAGGACTGA	MTQQTAEQVGLMLRDARGQKGWTQEQLASELGTSQSAVARMEQGKQNLSLKMLQRLEAIFGQSIVQLGKSQMTHLRVEGGQTLSGSVDVNTSKNAGVALLCASLINRGTTTLRRLARIEEVNRIVEVLSSIGVECTWLNDNSLRLRRPAILDLESMDVEAARRTRSVIMLLGPLLDEAEEYRLPYAGGCDLGIRTVEPHMQALRQFGLSVQASAGFYTVQAPVADGVDRSFVLTERGDTVTENAIMAAAHRSGTTVIRNASPNYMVQDLCFYLERLGVKIDGVGTTTLKITGKPSIDDDIEYFPSEDPIEAMSLITAGVVTNSEVTIRRVPIEFMEIELATLEQMGQKLEVSGEYVARNGRTRLVDVTTRPSELRAPEDKIHPMPFPGLNIDNLPFFAVIAANAEGQTMIHDWVYENRAIYLTELNKLGARVQLLDPHRIYVNGPTRWRAAEVGCPPALRPAACLLLAMLAARGVSELRNIYVIERGYEDLAERLNTIGAKIEYFQD	PGPT0024090_207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
D1-17_00278	1236		COG2170	Putative glutamate--cysteine ligase 2	ATGCGGACTTTTGGGGTCGAGGAAGAACTGCTGATCGTAGATCCCCGGACCGGCGAGCCACTTGCGCTCGCCGATGCGCTGCTCGCCGGCCGAAAACTTGCAGCCGATGATGCGCCGGACAAGCCCCGGCTGCTGGAGCCAGACGGTGGGGCCCCCTTCGACGAGGACGAAATGGGCTTGAGCGCTGAACTCAAACTCGAGCAGATCGAGACGCAGACCCGTCCGTGTCTGGACCGGGAGGAGCTGCTCCGCCAGATCCGTGCCGGCCGGGCCATGGCGGACCAGGCGGCGCTCAAACAGGGAGCCCGTGTCGCTGCGCTGGCCACCTCGCCGCTGGCGCTGGCGAGCCATACCACGCCGGATGCCCGCTATGCCCGCATGCTGGAGCGGTTCGGGCTTACAGCGCAGGAACAGCTGACCTGTGGATTCCACGTCCACACCTACATTGAGTCGCCGGAGGAAGGTGTGGCGGTCCTGGACCGGATCCGGGACAAGCTGGCCGTGCTCATGGCCCTCAGCGTCAACTCCCCGTTCTGGAACTCCATGGAAACGGGGTTCGAGAGTTACCGGACACAGGCGTGGAACCGGTGGCCGACGTCGGGCCCGTCCGCCATCTTCGGCAGTATTTCCGCCTATCGCAGGGTGGTGAAGCGCCTGCTGGAGAGCGGCGTCATGCTGGACGAAGGGATGATCTATTTCGACGCCCGGCTCTCCCGCAACCATCCCACAGTCGAGGTCCGGGTGGCCGATGTCTGCCTCCGCGCTGAGGATGCGGCCCTCATAGCCGTTCTGGTACGCGCCCTCGTGGAAACTGCGGTACGGGAATGGCGTGCAGGGGTCGAGCCTTGCCCCGTTCCTACCGTTCTCCTGCGGATGGCATCCTGGCAGGCGAGTAAATTCGGTCTGTGCGGCGAGCTGCTGGACTTCGGCAGTTTCCGCCCGGCGCCTGCCGCCGACGTGGTGAATTCCCTGGTGGACTACGTCGAACCCGTGCTGGCCGAGCAGGGTGAAGTTGAACTTGTGCGCAACGGGATCGCCGCAGTCTTTGAGCGCGGCACCGGGGCTGAGGAGCAGCGGCGCGTCCGGCAGGTTGTGACTGAGAAAGCATCGCCCGACGACGGCGGGCTGGGTGCCGTCGTCGCGCACGCTGTGCGGGCCACCATGCGGGGAACGGGCAGCGACCCGGAGGCGGATCCCGCTCCGGTGCCCGAGCTGGTGCACGTGCGCCAGTCCTGA	MRTFGVEEELLIVDPRTGEPLALADALLAGRKLAADDAPDKPRLLEPDGGAPFDEDEMGLSAELKLEQIETQTRPCLDREELLRQIRAGRAMADQAALKQGARVAALATSPLALASHTTPDARYARMLERFGLTAQEQLTCGFHVHTYIESPEEGVAVLDRIRDKLAVLMALSVNSPFWNSMETGFESYRTQAWNRWPTSGPSAIFGSISAYRRVVKRLLESGVMLDEGMIYFDARLSRNHPTVEVRVADVCLRAEDAALIAVLVRALVETAVREWRAGVEPCPVPTVLLRMASWQASKFGLCGELLDFGSFRPAPAADVVNSLVDYVEPVLAEQGEVELVRNGIAAVFERGTGAEEQRRVRQVVTEKASPDDGGLGAVVAHAVRATMRGTGSDPEADPAPVPELVHVRQS	PGPT0026300_126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-17_00279	306			hypothetical protein	GTGGCGACTTGGTACTCATTCCGCGCAGAGGTGTGGCTTTACCCGGGCGAGGCAGGGTGGCACTTCCTGACGCTGCCCGTGGAGGTCGCCGAGGAAATCCGGGAGGAGTCCGCGGCGTTCCGGAAGGGGTTCGGGTCGGTGAAGGTTAGCGCCGAGGCCGGGGGCCAGTCCTGGCAGACCTCCCTGTTCCCCGACGCTCACAGCGGTTCCTATCTGCTGCCCGTAAAAAAATCCGTCCGGGCGGCTGCACAGCTTGCCGCCGGCGACGAGGTAGAGGTAAGGCTCACTGTCCAGGCCGAGCCCTGA	MATWYSFRAEVWLYPGEAGWHFLTLPVEVAEEIREESAAFRKGFGSVKVSAEAGGQSWQTSLFPDAHSGSYLLPVKKSVRAAAQLAAGDEVEVRLTVQAEP				NA	NA	NA	NA	NA
D1-17_00280	1209	metZ	COG0626	O-succinylhomoserine sulfhydrylase	GTGTCCTTCAATCAGGATGCTGCCGGCTGGAGCCCCGAGACCCAGGCCGTACGCGGCGGGCTGGACCGCACCAACTTTCAGGAGACCACGGAGCCGATCTTCCTCAACTCCGGCTTCGTTTACGAATCGGCGGCGGCAGCTGAGCGGGCATTCACCGGCGAGGACGAACGCTTCGTCTATTCCCGCTACGGCAACCCGTCCGTCGCCACCTTCCAGGAGCGTCTGCGCCTCCTCGAAGGAACGGAGGCATGCTTCGCAACCGCCTCGGGCATGTCCGCGGTGTTCACCGCCCTGGGCGCGCTGCTCGGAGCGGGAGACCGTGTGGTGGCTGCCCGGTCGCTGTTCGGCTCCTGCTTTGTCATTTTGAACGAAATCCTGCCGCGCTGGGGCGTGGAAACCGTCTTCGTGGACGGGCCGGACCTCGAGCAGTGGCGGGACGCCCTGTCCACCCCGGCGACGGCCGTCTTTTTCGAGTCTCCCTCCAACCCCATGCAGGAGATCGTGGACATCGCCGCGGTCAGCGAACTGGCCCACGCCGCCGGCGCGAAAGTCGTCGTCGACAACGTCTTCGCCACGCCGCTGCTGCAGCGCTGCGGCGAACTCGGAGCGGATGTGGTGGTCTACTCAGGCACCAAGCACATCGACGGCCAGGGCCGCGTGCTGGGCGGCGCCATCCTGGGCACCAAGGAGTTCATCGACGGGCCAGTCAAGCAGCTCATGCGGCACACCGGCCCGGCCCTCTCGGCGTTCAACGCATGGGTGCTCACCAAGGGCCTTGAGACCATGGCGCTGCGGGTCAACCACTCGTCGGCCACGGCGCTGCGCCTGGCCGAATGGCTGGAGGGCCAGCCCGCCGTCAGCTGGGTCAAGTACCCGCTGCTCAAGTCCCACCCGCAGTACGGGCTCGCCGCGAAGCAGATGAAGGCCGGCGGCACCGTGCTCACCCTGGAACTCGCGACGACGGCCGGCCGGTCAGGCAAGGACGCCGCCTTTGCGCTGCTGGACTCCCTGAAGATCATCGACATCTCCAACAACCTCGGCGACGCCAAGACCCTCATCACCCACCCTGCCACCACAACCCACCGGGCCATGGGTCCTGAGGGCCGGGCAGCCATCGGGTTGAGCGACGGCGTGGTGCGGCTGTCAGTGGGGCTGGAGGATCCGGAGGACCTGATCGCGGACCTCGAGCAGGCGCTCAAACAGGTCTGA	MSFNQDAAGWSPETQAVRGGLDRTNFQETTEPIFLNSGFVYESAAAAERAFTGEDERFVYSRYGNPSVATFQERLRLLEGTEACFATASGMSAVFTALGALLGAGDRVVAARSLFGSCFVILNEILPRWGVETVFVDGPDLEQWRDALSTPATAVFFESPSNPMQEIVDIAAVSELAHAAGAKVVVDNVFATPLLQRCGELGADVVVYSGTKHIDGQGRVLGGAILGTKEFIDGPVKQLMRHTGPALSAFNAWVLTKGLETMALRVNHSSATALRLAEWLEGQPAVSWVKYPLLKSHPQYGLAAKQMKAGGTVLTLELATTAGRSGKDAAFALLDSLKIIDISNNLGDAKTLITHPATTTHRAMGPEGRAAIGLSDGVVRLSVGLEDPEDLIADLEQALKQV	PGPT0020020_1157	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
D1-17_00281	411			hypothetical protein	ATGAGCTACGCCGGCGACCTCACCCCGCAGGAGGCATGGGCAAAGCTCGAGGAAGGCGCCGTCCTGGTGGACGTGCGCACCGAGGGCGAATGGGCCCACATCGGCATCCCGGAAACCAAGGCTACCGAGAATGACCCGCTGTTCATCCAGTGGACCTTCCCCGGCGGCATCCCCAACCCCCACTTCATCGAGCAGCTCCGGCAGCAGGCGCCGGAGGACCCGGGCACGGAGCTCGTGTTCCTGTGCCGTTCCGGCCAGCGCTCCGTCGCCGCAGCCATCGCCGCCACCCAAGCGGGCTTCATCTCCTACAACGTCCTTGAGGGGTTTGAGGGCGAACCGGACCGCTATGGCGAGCGCACCGTGAACGGCTGGAAGAACCGCGGCCTGCCGACCAATTTGGGAAAAATCTAA	MSYAGDLTPQEAWAKLEEGAVLVDVRTEGEWAHIGIPETKATENDPLFIQWTFPGGIPNPHFIEQLRQQAPEDPGTELVFLCRSGQRSVAAAIAATQAGFISYNVLEGFEGEPDRYGERTVNGWKNRGLPTNLGKI				NA	NA	NA	NA	NA
D1-17_00282	309			hypothetical protein	ATGACGGAAGCCCCCGCCAGCATCACCCTGCCATCCCAGCAGGGTACATCTGAGGACAAGCTTGCCTACCGCCTGATTACAGGACCGGACAACCGTGCCTTCTGTGAACGCATTTCCCAGGCGCTGGCTGAAGGCTATGTGCTGCACGGCAGCCCTACGGCCGCCTTCAACGGCAGGGACGTGATCGTGGCGCAGGCCGTCATCCTCCCGCTCGCCGTCGCCACCGCCGACGCTGCGTTCGCCACGGCAGTAGACCAGCTGGACTCTGACGAGAACCTGGACGCGGAAGCATTCGAGGGGCACGCATGA	MTEAPASITLPSQQGTSEDKLAYRLITGPDNRAFCERISQALAEGYVLHGSPTAAFNGRDVIVAQAVILPLAVATADAAFATAVDQLDSDENLDAEAFEGHA				NA	NA	NA	NA	NA
D1-17_00284	1329	dmoA		Dimethyl-sulfide monooxygenase	GTGAATGAGTCGAACATCGCTGCAGTCGGACCCATGCTGCACTTTGGGTGGTTTGTGGGCCACGGGTTCGGGGTTCAGGGCTGGGGGACGCCGGGCTACGGGATCGGCTACGACTGGAAAAAACCGGCGCTGTACCAGCACGCCGTCCGGGAATTCGAGCGGGCCGGGCTGGACCTGTTCATCATCGAGGATTCCCTGACCGTGCCGGACACCTACGGTGGAACAGCCGAGGTGTCCTTGGCGCAGGCCTCCTTTGCGCCCAAGCACGATCCGCTGGCCCTCGTGCCCTACCTGCTGTCCGCCACGGAGCACCTGGGCATCGTTCCCACCGTCAGTGCGTCTTTTTACCCGCCGTTCACGGCGGCCCGGCTGCTGGCCACGCTGCAGCATTTCTCCAACTGCCGGCTCGGCTGGAATGTGGTGACCTCCGGCAGCGACCTCGCCGCCCAGAACTACGGGCTGGACCAGCAGATCGAGCACGACCTCCGCTATGAGAAGGCGGAGGAGTTTGTGGAGGTGGTACGGAAACTGTGGCGCAGCTGGGCACCGGACGCGATCAGTGAGGATTCCCGGGCCGGAATCTTCGCCGACTACACCAAGGTGCGCCCCATTCACCACAGCGGCCAATTCTTTAAGGTGCGCGGGCCGCTGAACACGGCGCCCCTGCCCGAGGAGCCCGTGCTGGTGCAGGCCGGGGCGTCGCCGCGGGGCAAAGCGTTCGCGGGAGGGAACGCGGACGTCGCTATTGCGCTCGCCCGCGGGGCAGACGGCATGAAGTCCTACCGCGACTCCATCCGGGCTGAGGCAGCCAGGGCAGGCCGGAACCCGGATGACGTCAAGGTGCTGTTCGTGCTCAAACCCACGGTCGTCGGTTCCACGGCGGAAGCAGAGGAACTGCGGACCGCGCGGAAGGAACTGACGCAGCGGGACATCGACAGCCAGCTCAACTCCATCTCCTACCTCTCCGTCATCGACTTCAAGCAGTTTGACCTGGACGAGCCGCTCCCAGAGCTGACCACCAACAGCAACCAGGGCACCCTGGAGCACTTCTCCAAAGCGGCCCCGCCCGGCTCCACCCTCCGCGAGATCCTGCAGGCACGCAGCGGCGGAGCCGGCGACAGCATCATTGGCACGGCCGGGGAAATCGCAGACTACCTGGCGGAAACCGGCGCAGCGGTGGGCGGCGACGGCTTCCTGTTTTCCGGCTTCGTGGATCCTGCCACCGTGCACGGAGTGCTGGACAAACTGGCACCGGAGCTGCGCCGGCGCAACCTGCTGCGGACAAGCTACGGCGACGGCGGCCTCCGCCGGAACCTGTTGGACTTCTAG	MNESNIAAVGPMLHFGWFVGHGFGVQGWGTPGYGIGYDWKKPALYQHAVREFERAGLDLFIIEDSLTVPDTYGGTAEVSLAQASFAPKHDPLALVPYLLSATEHLGIVPTVSASFYPPFTAARLLATLQHFSNCRLGWNVVTSGSDLAAQNYGLDQQIEHDLRYEKAEEFVEVVRKLWRSWAPDAISEDSRAGIFADYTKVRPIHHSGQFFKVRGPLNTAPLPEEPVLVQAGASPRGKAFAGGNADVAIALARGADGMKSYRDSIRAEAARAGRNPDDVKVLFVLKPTVVGSTAEAEELRTARKELTQRDIDSQLNSISYLSVIDFKQFDLDEPLPELTTNSNQGTLEHFSKAAPPGSTLREILQARSGGAGDSIIGTAGEIADYLAETGAAVGGDGFLFSGFVDPATVHGVLDKLAPELRRRNLLRTSYGDGGLRRNLLDF				NA	NA	NA	NA	NA
D1-17_00285	1653	hutH_1	COG2986	Histidine ammonia-lyase	ATGACAGAGACCGGAGGACCCGAAGACCTGAAGCCGGGAACTGGAACCGGCACCTTCCTGTCCGGCATGTTCCTGATCGGCACGGCGCATGTGCGGGCTGCGGATGTGGCCAGGGCGGCGTCCGATCCCTCGGTCGAGGTTGTCCTGAGCGCCGACGCGCTGGACCTGATCAGCCTGTCCCGTGAAGTGGTGCAGGCCGCCATCGACTCCGGACACAGCGTGTACGGGCTCAACACACTGCTGGGCTCTGGCAGGGACACTGCTGTGGAGGAAGAGTCCATCCTCGACTATCAGGTTCAGGTGGTCCGGTACCACCACAGCGGAATCGGCGCCTTGCTTGCCCCGGAAGAACTCCGTGCCGTGATCCTGGCGCGGCTGATCGGCTTCACCCGCGGCGGCTCCGGTGTCCGCCCGGAAACGGCCCGTTTCTACGCCGAGCTGCTCAACCGTGGAGTGGTGCCCGCCGTCCCCCGCGCGGGCTCGGTGGGATCCTCCGACCTCACGCAGCTGGCCGCTGTTGCCGCCGTCGCCATCGGGGAAGGCCAGGCGCTGGCGCCCGACGGCAGCACCATTTCCGGCGCCGCGGCGCTCGCCGCGGCGGGACTGCAGCCGCTGGTGCTTGCGCCCGGCGAGGCCCTCGCCCTCGTTAGCGCCAACTCATATTCCATCGGCGCCGGAGCGCTGGCGCTCGGCCGCCTGCAGCAGCTGGCGGACCTTGCGGACACCGCCCTCGCGTTGTCGCTGGAGGCGACCGGAAGGTACGACGGCGGCGCGAACCTCAGTCCCTTTTCGCCGGCGGTGCAGTCGGCCAAGGCGGTAGACGGCCAGCGCATCGCGGCGGCGAACGTGCGGAACCTGGTACGGGGTGGCTGGCTCGAAGATCCCGATCGTCAGGCCTCCGTGCAGGATGCGCTGTCATTCCGTGCCGCACCGCAGACGCATGGAGCGTTCCGTGCCCAGGTCACAGCCCTCGCCGAAGCCCTTGAGGTGGAGCTGAACGGCCGCGGCGACAATCCGTTGACCGACCTGGACTCGGGTCGGATGATCTCCGGCGGGAATTTTCAGCCGATGCAGCTGGCGCTGGCCTTCGAGGCGCTGCGGCTGGGGCTGGCGCATCTGGGCATCAGCAGCGAGCGGCGCATCGCCAAGCTCTACCCGCCGCAGCGGCTCATCCGGCAACTGAACCTGGCGGCGGCCCGGAGCGGCATGCCTTTGGCTTTCGAGGAGCTGCCGGGCCTGCTGTGGTACTCCGCCGCCGGGCTGCTTGCCGAGCTGAAGTTCCTTGCCGCGCCGGCCACACTCGGTGCACCCACCCTCTCCGCCGACGTGGAGGACCACTCGACGCTGGCGCCGTTGGCGCTCCAGCAGCTGGACCGGTCGGTACAGGCCGCCGAAGAGCTGCTCGTCATCGAGGCCCTGACGGCGGCGTACCTGCTGGACCGGGCCCGGGAGGCGGAAACCGGAGGAAGGGGGTCCGGCGCCGAGGTGCGGCCGCTTGGCACGGGGACGGCCGCCGTCGTGGACTGCCTGTCCGGGCTTCTCACGGAGCACCTGCCGGCGGCAGTGCTGCTGGAGCGCGGACAAGAGGCGCTGCGGAAACTCCTGCCGAACCTGCCTGCGCTTCGGCTGGCGCCTCATGAAGAAAGTCACTGA	MTETGGPEDLKPGTGTGTFLSGMFLIGTAHVRAADVARAASDPSVEVVLSADALDLISLSREVVQAAIDSGHSVYGLNTLLGSGRDTAVEEESILDYQVQVVRYHHSGIGALLAPEELRAVILARLIGFTRGGSGVRPETARFYAELLNRGVVPAVPRAGSVGSSDLTQLAAVAAVAIGEGQALAPDGSTISGAAALAAAGLQPLVLAPGEALALVSANSYSIGAGALALGRLQQLADLADTALALSLEATGRYDGGANLSPFSPAVQSAKAVDGQRIAAANVRNLVRGGWLEDPDRQASVQDALSFRAAPQTHGAFRAQVTALAEALEVELNGRGDNPLTDLDSGRMISGGNFQPMQLALAFEALRLGLAHLGISSERRIAKLYPPQRLIRQLNLAAARSGMPLAFEELPGLLWYSAAGLLAELKFLAAPATLGAPTLSADVEDHSTLAPLALQQLDRSVQAAEELLVIEALTAAYLLDRAREAETGGRGSGAEVRPLGTGTAAVVDCLSGLLTEHLPAAVLLERGQEALRKLLPNLPALRLAPHEESH	PGPT0020230_310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
D1-17_00286	1038	cbs_1	COG0031	Putative cystathionine beta-synthase	ATGGGCATCACCACAGGCGGGAACCGACAGCCACGGCATACTGCCCCGGCCACTGATGGAGGGGTCGACGCCGAAGCGGTGCTGGCCCGCGTGGGCTCAACGCCCCTCGTGCCCCTGGAAACCCTCAGCCGGGGACTTCCCGGAACTGTCTTCGTGAAGCTGGAATCGGAGAACCCGGGCGGTTCCATCAAGGACCGGACGGCGCTGAGCATGGTGCGGTCGGCCGAGCGCAGCGGGGACCTGCAGCCAGGCGGCACCATCGTGGAAAGCACGTCGGGGAACACCGGGATCGGGCTGGCGCTGATCGGGGCCCTGACCGGGCATCCCGTGGTGGTGGTGACGGGGGATTCCATCTCATCCGAAAAACTCGAGGCGCTGCAGCGGTACGGGGCGCAGGTGGTGTTCACCGACTGGAGCGCGCCCTCGGACTCTCCGGCCAATGCAAGAGCTGTGGCCGCCCGCATCACGGCCGAGACTCCGGGCGCCTGGCGTCCCCTGCAGTTCGACAACCCGGCCAACCCGAGGGCGCACTACGAGGGGACCGCGCCGGAAATCTGGGACCAGACGGCAGGCAAAATCACGCATTTCGTGGCCGGGGTGGGCACGGGAGGAACCATCACCGGGAACGGGCGGTACCTGAAGGAGATGTCGGCCGGCCACGTGGAGGTGATCGGCGCCGATCCCTACGGCTCGGTGTACAGCGGCGGGCACCCGGGCAGGATCCTGGTGGACGGCGTGGGCAACTCCTGGCCAAAGCCCGACTGGCCAAAGGTCTTCGACCCGGGGCTGCTGGACAGGTTCCTCCGGATTCCGAACGACGAGGTGTACACAACCGTGCACCGGCTGCTCAACGAGGAGGGGTTGTCCCTCGGCCCGTCCTCGGGGCTGAGCGTGGCGGCAGCCCTCCGCGTGGCCAGGGCAGCCGCGCGTGGATCCGTGGTGGTGGCCATCGCGCCCGACACCGGACTGAACTACCTGAGCAAGGCGTTCAACCCGGACTGGCTTGCCGACAACCACATCCGCCTGGATGCGGACTAA	MGITTGGNRQPRHTAPATDGGVDAEAVLARVGSTPLVPLETLSRGLPGTVFVKLESENPGGSIKDRTALSMVRSAERSGDLQPGGTIVESTSGNTGIGLALIGALTGHPVVVVTGDSISSEKLEALQRYGAQVVFTDWSAPSDSPANARAVAARITAETPGAWRPLQFDNPANPRAHYEGTAPEIWDQTAGKITHFVAGVGTGGTITGNGRYLKEMSAGHVEVIGADPYGSVYSGGHPGRILVDGVGNSWPKPDWPKVFDPGLLDRFLRIPNDEVYTTVHRLLNEEGLSLGPSSGLSVAAALRVARAAARGSVVVAIAPDTGLNYLSKAFNPDWLADNHIRLDAD	PGPT0020005_1613	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
D1-17_00287	1086			hypothetical protein	ATGTCCAGGGATGAAACCTCCCTTCCTGCATTGTTAGACTCACTACCCAAGGGCTTGGGGGCCCAGGCAGCGTTGCCGGGGGACGTGGGTGAAATCAGCGTGCGCTGGCAGGCCCAGGAAATTATCGATCTGCTCCTGGCTGAGTCCGATCCGGACAGCGCCTGGAGCCGCGCGCGCCTTCGCGAGGCGGCTACGTCCCATCCGGACAATCCCGAGCTCGTGCTCCTCGAACACCTCCGTACGGTCACGGCCATCGTTAATGCGGTGGACGACGCCCTGGAGCCGGTCCCCACCGACATGGACTCGGTTCCGGTTCCGTTCACCAGGCGCAGCAGAAACAGAATCGAAGCGGTCCTCGGGGACAAGATGCTCATGACGGCCTTCCAGCCGGTGCGGCAGCTGCCCGACGGTTACGTCATCGGCGTCGAAGCCTTGACCCGCTTTGTGAGCGATGACGGTGCCAGCGCGGATCACTGGTTCAGCGAAGCGGAGTCCGTCGGCCTCGGCACGGATCTCGAGGTAGCCGCCCTGCTCAGGGCGCTCACCGCAGCCCAGTCTGTTCCCGAGCCCCTCTTCATCGCCCTGAACCTCACACCGGCCACGTGCATGGACCCCCGCATCCAGGGGCTGCTGGAACACTCCCAGCTGGCGATGGACCGGTTCGTCATCGAGCTCACCGGCCAAATAGCCGCCGACCAGTACGCTCCGTTGACCGCATCCCTGCAGCCTCTCCGCCGCCGCGGGCTGAGGGTTGCCGTGGACGGGGCTGGTGCGGGCTTCACGTCCATCGACCAGATCCTCGAACTGCGGCCGGACATCATCAAACTGGACCGCCGCTTCATCGAGAACATCGAGCATTCGGAAGGCCAGCGGCTCCGGGGCGCCGCGATGGCAGCCCTGGCGCAGTCCGTTGGCGCCGAACTCGCGGCAGAAGGCGTGGAAACTGTTGCGGAACTGACGGCCGTCACGGCCCTCGGGATGGCCGCCGCCCAGGGCTACCTCCTGGGCAGGCCGTCGGTGCACCCGCTGGACTGGACTGCGTGGATCCGTTCGGACGAAGCCGCCGCGCGCGGCCCGGTCTCCTGA	MSRDETSLPALLDSLPKGLGAQAALPGDVGEISVRWQAQEIIDLLLAESDPDSAWSRARLREAATSHPDNPELVLLEHLRTVTAIVNAVDDALEPVPTDMDSVPVPFTRRSRNRIEAVLGDKMLMTAFQPVRQLPDGYVIGVEALTRFVSDDGASADHWFSEAESVGLGTDLEVAALLRALTAAQSVPEPLFIALNLTPATCMDPRIQGLLEHSQLAMDRFVIELTGQIAADQYAPLTASLQPLRRRGLRVAVDGAGAGFTSIDQILELRPDIIKLDRRFIENIEHSEGQRLRGAAMAALAQSVGAELAAEGVETVAELTAVTALGMAAAQGYLLGRPSVHPLDWTAWIRSDEAAARGPVS				NA	NA	NA	NA	NA
D1-17_00288	930			hypothetical protein	ATGACTGCTCCTGCCTCCGCCACCGTGCTGGTCTTCCTTGACCCGGACTACGAATACGGCCGGATTGCCGACCCCACCCAGCCGCAGCTGATGGCCACCGACCTGGGCGCCACCCGGGGTGACGGCGTCTTCGAGTCCATGCTGGCGGTGGCCGGCCGTACCCGGAAGCTCGAGGCGCACCTGGACCGGCTGGCCGGCTCTGCACGTGCCCTCGACCTCGACATCTCGAACCGGGAAGTCTGGCAGCGGGCGATCGCGACGGGCGTCGCGGCGTTCCGGTCCGATTACCCGCCGGCTTCCCGTGAAGAGGACGAGTGCGTGGTCAAACTCCTGGTTACGCGCGGCGTCGAAGGCGCCGAACGGCCCACGTGCTGGGTGCAGGTTTCGCCGGTCGGGGCAGCCGGCCGCCGGCAGCGCGAAGCCGGCATCGACGTCATTCTGCTGGACCGCGGCTATGACAGCACCGTCGGCGAGCGCGCACCGTGGCTCCTGCTCGGCGCCAAGACCCTCTCCTACGCGGTGAACATGGCTGCCCTCCGCCATGCCCACAAGCAGGGCGCCGACGACGTCATCTTCACCTCGTCTGATGGCCGGGTGCTGGAGGGCCCGACGTCAACAGTTTTGCTGGCGCACGTCGAGGAGTCCAACGGCACCAGGGTCAAGCGCCTCATCACGCCACAGCTGGACAGCGGCATCCTCCCGGGCACCTCGCAGGGGGCACTGTTCGCAGCCGCCAAGGCGGCCGGCTGGGAGTTGGGATACGGTCCCCTCGAACCGCAGGACCTGCTCGACGCCGACGCGGTGTGGCTGATTTCCAGCATCCGCCTGCTGGCGCCCGTAAATTCGATCGATGGAAAAGAGATCGGCACGCCGGCTCTACGGAAGCAGCTGACCGGGGAACTGGCTGAGCTGTTCGCCGGGATCGAGTAA	MTAPASATVLVFLDPDYEYGRIADPTQPQLMATDLGATRGDGVFESMLAVAGRTRKLEAHLDRLAGSARALDLDISNREVWQRAIATGVAAFRSDYPPASREEDECVVKLLVTRGVEGAERPTCWVQVSPVGAAGRRQREAGIDVILLDRGYDSTVGERAPWLLLGAKTLSYAVNMAALRHAHKQGADDVIFTSSDGRVLEGPTSTVLLAHVEESNGTRVKRLITPQLDSGILPGTSQGALFAAAKAAGWELGYGPLEPQDLLDADAVWLISSIRLLAPVNSIDGKEIGTPALRKQLTGELAELFAGIE	PGPT0008020_112	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
D1-17_00289	1488	clsA	COG1502	Cardiolipin synthase A	GTGCTGTGGCCATTTCCGCTTACGGAAACCCTGCCTACCTGGCTGGTTTTCGTCTTAGGCGCCGCGGACTTCATTATCCGTGTCCTTGCACTGGGCATCATCCCCGGCAACCGCAGGCCCACCACTGCCATGGCCTGGCTCCTGGGGATCTTCTTCATACCCGTCATCGGCCTGATCCTTTTCCTGCTGTTCGGCAACTTCCGGTTGTCCAGGCGGCGGGTCGAGCAGCAGCAGCTCGTCAGCGAAAGGGTCAGGTCACGCACCTCTGTGCTGTCCGACGTCGGAAGCACGTACCCCGGCCCGGAATGGGTCTTGTCGGCTGCGGAACTCAACCGGCGGCTGGGGTCCATCCCCATGGTGGACGGGAACTCCGTGGAACTCATCCCGGGATACCCGGACTCCATCAAAGCCATGACCGAGGAAGTCCGGAAGGCCAAGCGCTTCATTAACGCCGAGTTCTACATCATGAGTACGGACCACGTCACCGATGAGCTTTTCACGGCGCTCGAAGAAGCGGCCGACCGGGGCGTGGAGGTCCGCGTCCTCTTCGACCACATCGGAACCCTCCGTATCAAGGGGTACAGCAGGCTCCTCAAACGCCTCAAAGCCAGCAGGATCCAGTGGCGGCGCATGCTCCCGCTGCTGCCCATCCACGGTCAGTGGCGCCGCCCCGACCTCCGCAACCACCGCAAGATCATGGTGATCGACGGTGAGGTGGCTTTCACGGGTTCGCAGAACCTGATCGAGCCGTCCTATAACAACCCGCGGCACCGAAAGGTAGGCCGCGAATGGGTGGAGCTGATGGCGAGGCTGCGCGGGCCCATCGTGCCCACCCTTAACGTGGTCTTCGCGACCGACTGGCTCAGCGAAACGGACGAATCGCTCGAGGCCCAGCTGGACGAGCAGATGGTGCTGCCTGCAGGATCGGCCCCGGGCACCATCACCGCGCAGGTTGTCCCCAGCGGGCCCGGCTTCAGCACGGAAAACAACCTCCGGCTGTTCAACACCCTTATCTACTCCGCCCAGCATCGGATCTCCATCTGCAGCCCGTACTTCGTGCCGGACGACTCACTGCTTTACGCGATCACCACAGCCGCGCAGCGGGGCGTCGACGTCGAGCTCTTCGTCTCCGAAAAGGGCGACCAGTTCCTGGTCCACCACGCCCAGCAGTCGTATTACCAGGCGCTGATGGAGGCGGGTGTGCGGATCTACCTGTACAAGGCGCCGTTCGTGCTGCATGCCAAGCACTTCACCGTGGACGACAAGGTGGCGGTGCTCGGCTCCAGCAACATGGACATGCGCTCCTTCTCCCTGAACATGGAGGTGTCGGTGATGCTCCTCGGCGCCGAAATTGTGAACAGCATGCGGGCCGTGGAGGACACGTACCGGGACATCTCCCACGAACTCAAGCTCGAGGACTGGATGCACCGCCCCCTTGCCGCAAGGTATGTGGACAACGTGGCCCGGCTGACGGCCACAGTTCAATAA	MLWPFPLTETLPTWLVFVLGAADFIIRVLALGIIPGNRRPTTAMAWLLGIFFIPVIGLILFLLFGNFRLSRRRVEQQQLVSERVRSRTSVLSDVGSTYPGPEWVLSAAELNRRLGSIPMVDGNSVELIPGYPDSIKAMTEEVRKAKRFINAEFYIMSTDHVTDELFTALEEAADRGVEVRVLFDHIGTLRIKGYSRLLKRLKASRIQWRRMLPLLPIHGQWRRPDLRNHRKIMVIDGEVAFTGSQNLIEPSYNNPRHRKVGREWVELMARLRGPIVPTLNVVFATDWLSETDESLEAQLDEQMVLPAGSAPGTITAQVVPSGPGFSTENNLRLFNTLIYSAQHRISICSPYFVPDDSLLYAITTAAQRGVDVELFVSEKGDQFLVHHAQQSYYQALMEAGVRIYLYKAPFVLHAKHFTVDDKVAVLGSSNMDMRSFSLNMEVSVMLLGAEIVNSMRAVEDTYRDISHELKLEDWMHRPLAARYVDNVARLTATVQ	PGPT0007725_1379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
D1-17_00290	1122			IS110 family transposase ISSfr2	ATGTTCGAGCGTACAAGCGTCGGCTTGGATGTCCATGCCCGCACCGTTGTCGCATGCGCATTGGACGCGCAGACCGGTGAGATCATCCTCCACCGGATGACTCCGGATCATGGCGAGATTCTTGCCTGGATCCTCTCCCTGCCATCGCCGGTGCGAGTCGTTTACGAGGCGGGACCAACGGGTTTCGGCCTTGCCAGGTTCCTGCTCGCCGCCCGGATCGACACGGTCGTCGCAGCGCCGTCCAAGCTCCAGCGCCCGTCTGGGGACCGGGTAAAGACCGATGCGAAGGATGCGCTGCATCTGGCCCGGTTACTAAAGCTGGGTGAGGTCGCCGGTATCCGGGTGCCTTCAGAAGACCAGGAAGCGGCGCGGGATCTGGTCCGCTCACGCGAAGACGTCCGGGGAGACCTCATGCGTTCCCGGCACCGGATCTCCAAACTCCTCTTACGCCAAGGCATCGTGTATTCGGGCGGGCAGGCCTGGACCGGCACCCATGAACTCTGGCTGGCCCGCCAGCGTTTCGACGCTCCGGCCCGGCAGCTGACCTACGAGTCCTCTCTAGAGGCGATGCATGAGATCTCGGACCGCCGTGACCGCCTCGACCAAGCGATCACCGCGATGGCATACAGCAGTGAATACACCCCCGTGGTCCGGGCACTGCAGTGCCTGCGCGGCATCTCGACGCTGACCGCTTTCGGCCTGGCCGTGGAGATCGGCGACTGGGAGCGGTTCACCGGCTCCACAATCGGCGCTTACCTGGGCCTGGTCCCGACAGAGCATTCCTCGGGGGCATCCCGGTCCCTGGGCTCCATCACAAAAACCGGCAACAGCCACGCCCGCCGGCTGCTGGTCGAGGCCGCATGGCACCACCGCAGACCCTACAACAACCCGTCCCGGCTGATGCGGTCCCGCTGGGAAGAAGCCACTTCAGAGGCCAGAACCCGGGGTCATGCCGGGAACCGGCGCCTGCACGAACGCTGGATCGGCTACCTCGAACGCCGCAAGCGTCCGGTCATCGCCAATGTCGCCATCGCCCGTGAGCTCTCCGGCTGGTGCTGGTCCCTGGCCACCGGCACACATCCGGCAACCAGCTCCCCAAAATCGATAGCTACCGTGCACTGA	MFERTSVGLDVHARTVVACALDAQTGEIILHRMTPDHGEILAWILSLPSPVRVVYEAGPTGFGLARFLLAARIDTVVAAPSKLQRPSGDRVKTDAKDALHLARLLKLGEVAGIRVPSEDQEAARDLVRSREDVRGDLMRSRHRISKLLLRQGIVYSGGQAWTGTHELWLARQRFDAPARQLTYESSLEAMHEISDRRDRLDQAITAMAYSSEYTPVVRALQCLRGISTLTAFGLAVEIGDWERFTGSTIGAYLGLVPTEHSSGASRSLGSITKTGNSHARRLLVEAAWHHRRPYNNPSRLMRSRWEEATSEARTRGHAGNRRLHERWIGYLERRKRPVIANVAIARELSGWCWSLATGTHPATSSPKSIATVH	PGPT0030635_2053	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-17_00291	2160	menF_1		Isochorismate synthase MenF	ATGACCCCCGCACCTGTGATCATCGCCATTGACGGGCGGTCAGGTGCAGGGAAAACCACGCTGGCAATCGAGCTCGCAGCCCGGCTGCGGAGCCACCACAAAGTCGCACTGTTCCACCTTGAGGACATCTACCCCGGCTGGAACGGACTGGCTGCCGGCATTGACCGCTATGTCAGCAGCGTCCTGATACCCCTGAGTAAGGGTGAACCGGCGACGTGGACCAGTTGGAACTGGGAACGGCATTACGACGGCGATGCCCGGGTCACGCTGCCCGCCGAGATCGTCATCGTAGAAGGTGTGGGTGCCGCCGCGGCCGCCGCCCGGCCGCTGCTGGACGCCGTCATCTGGGCTGATTCCCCGGACGACGAACGCCGGAACCGGGCCCTGGCCCGCGACGGCCAGACCTACGAGCCCTATTGGGACCAGTGGGCCGCCCAGGAAGCCGAACTCCTCGCCTCGGATGACGTGCGCGGCCAGGCAGACATCCGGGTGATGAACCGCGCTGATGACAGTGCCCCGGGCGACGTCCTGCAGGCGCTCACCTACCTCCCTGCCCTGGCTGCGGTGCTGGTTCCTGAGCTCCGCGCGCGCCGCGGCCTCCGGCTCCTGGCTGAGCGGCTCGATGCCCGGCCGAATGCCGCCGCCCTGTTCCAGGCGCTGTACGGGGCATCCGCGAATGCGGTCTGGCTGGATTCGTCGCTGGTCCCCCCGACACCCGCACCTCCGACGCCCGCACCGCCAACGCCAACGCCAACGCCCCAAGGCAAGCACAGCGCACCGGACAGGGACGCTGCGGTCGCCGCCGGGCGCAGCCGCTTCAGCATCCTCGCGGACGACGGCGGCAGCTTCGGGCAGTATGTCCAGCACGGGTCCGGAACCACTCTGGTCACCACCGGGTGCGCCACCGCCGAAGTGCCCGGCACCTTCTTCCGCTGGCTGGAGACCGTCTGGGGACAGCCGACGGTCGTCCGGCCCAAAGGCTATTCCTGTGACTTCACTCTGGGCTGGCTGGGCTACCTCGGCTATGAGCTCAAACGCGAAACCGGCGGTTCCGACATTCCTGCCGAGACTCCGGACGCCTCACTGGTTTTCGCGGGCCGGGCCGTGGTGCTGGACCACGCCGAGGGCACCGTGTGGCTGCTGGCACTCGATGCCCCTGATGCAGCCGGCTGGATCGCCCACGCCTGCAGCGCCGTGGAAGCAGCCGAAGCAGCTGCCGCCGGCGCCGGTGCCACTGCCGCTGAAGCCGGTGGCAGCACCGCCGTCGGACTTCCTGCTGCCCCGGCATTTGACTGCCGCGACACCGAGACGGACTACAAGGCGAAGATCGCCGAAGCCCAGCACGAGATTGCCGAGGGCAATTCCTACGAGGTGTGCCTCACCACCGCGCTCACCGCCGCGATGCCGGCCGACGGCCTGGATTCCTGGCCCATCTACCTCGCGCTGCGGAAGCGGAACCCGGCGCCATTTGCGAGCTACCTGCGCTTCGGCGGGCTCTCTGTGGCGAGCACCTCACCAGAGCGGTTCCTGCGGATAGCGTCCGACGGCGGCATGCGCGCCGAGCCGATCAAGGGCACGCGGCGCCGGGCTGCCGATCCGGAAACCGACGCGGCGCTGCGGCACGACCTGGCGACGTCGCTGAAGGACCGGGCCGAGAACATCATGATTGTCGACCTTCTCAGGAACGACCTCAGCCACTTCGCCGAGCCCGGATCAGTGACTGTCAGCCGGCTCTGCGAGATCGAAAGCTACGCCACGGTCCACCAGCTGGTGAGCACCATCGACGCCCAACTCCTGCCCGGAGCGCCCCGGGCGGAGGCCGTGGCGGCATGCTTCCCTGCCGGCTCCATGACCGGGGCACCGAAAATCAGCACCATGGCCATCCTCGACCGGCTTGAGGAGGCACCCCGCGGCGTGTACTCCGGCGCGATCGGATACTTCTCACTGAACGGCGCCACAGACCTCGCGGTGGCGATCCGTACGCTCGTCATCCAGACCCGGGACGAGGCCGGCCATGCGACGGCCACGCTGAGCCTCGGCGTCGGCGGTGCGATCACGGCTGACTCCGTGGCGCAGGATGAATACGAAGAAATCCGCACCAAGGCCTTCGGCGTACTCTCAACCCTCGGTTCGGAATTCCCCGCGCGAACGGACAGTTAA	MTPAPVIIAIDGRSGAGKTTLAIELAARLRSHHKVALFHLEDIYPGWNGLAAGIDRYVSSVLIPLSKGEPATWTSWNWERHYDGDARVTLPAEIVIVEGVGAAAAAARPLLDAVIWADSPDDERRNRALARDGQTYEPYWDQWAAQEAELLASDDVRGQADIRVMNRADDSAPGDVLQALTYLPALAAVLVPELRARRGLRLLAERLDARPNAAALFQALYGASANAVWLDSSLVPPTPAPPTPAPPTPTPTPQGKHSAPDRDAAVAAGRSRFSILADDGGSFGQYVQHGSGTTLVTTGCATAEVPGTFFRWLETVWGQPTVVRPKGYSCDFTLGWLGYLGYELKRETGGSDIPAETPDASLVFAGRAVVLDHAEGTVWLLALDAPDAAGWIAHACSAVEAAEAAAAGAGATAAEAGGSTAVGLPAAPAFDCRDTETDYKAKIAEAQHEIAEGNSYEVCLTTALTAAMPADGLDSWPIYLALRKRNPAPFASYLRFGGLSVASTSPERFLRIASDGGMRAEPIKGTRRRAADPETDAALRHDLATSLKDRAENIMIVDLLRNDLSHFAEPGSVTVSRLCEIESYATVHQLVSTIDAQLLPGAPRAEAVAACFPAGSMTGAPKISTMAILDRLEEAPRGVYSGAIGYFSLNGATDLAVAIRTLVIQTRDEAGHATATLSLGVGGAITADSVAQDEYEEIRTKAFGVLSTLGSEFPARTDS	PGPT0008010_423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008010-pabAB-K13950	NA	NA
D1-17_00292	576	ptpA	COG0394	putative low molecular weight protein-tyrosine-phosphatase	ATGCTTAGCAACATGTTCTCAACGTCCAGCCCCTACCGGATCATCGCGGTCTGCACCGGCAACATCTGCCGGTCCCCGATGGCCGAGCTGATACTGACGGAAGCGTTCGCAGCGGCGGGGCTGGCAGATGCCGTCACGGTTGATTCCGCAGGCACCACGGCATACGAGGCGGGACGCCCCATAGATCCCCGTGCCGCGCGCAAGCTGACCGCCCACAAGCTCGCTTCGGACCGGCACATTGCCCGGGAATGGCAGCCGGAGTGGTACGCGGAACGTCACCTGATCCTGGCCCTCGACGTGGACCATTACGGCTGGCTCCGGGCGTCTGCCCCTGACCTCGAATCGGCCGCACGGGTCCGTATGCTGCGCAGTTTCGACCCCTCACTCGAATCGGACGACCCCCTGGACCAGGGCATCGAGGACCCCTGGTACGGGGACCACAGCGACTTTGAGTCTGTGTGGGACCAGATCCAGGCGGCAGTCCCGGGAATCGTAGAATTCGTGCGGTCCGCGCTCGAAGCAGAACAGGCCCGGCTCAAAATTCAGGACGCTCAGCAGGTACGCTCTATCCCATGA	MLSNMFSTSSPYRIIAVCTGNICRSPMAELILTEAFAAAGLADAVTVDSAGTTAYEAGRPIDPRAARKLTAHKLASDRHIAREWQPEWYAERHLILALDVDHYGWLRASAPDLESAARVRMLRSFDPSLESDDPLDQGIEDPWYGDHSDFESVWDQIQAAVPGIVEFVRSALEAEQARLKIQDAQQVRSIP	PGPT0014530_4003	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0014530-yfkJ|wzb-K01104	NA	NA
D1-17_00293	624	rhtB_2	COG1280	Homoserine/homoserine lactone efflux protein	GTGCAATTTTCCCTGTGGCTGGCCCTCCTTGGCGCCGGCGTCCTCATCAGTTTCACCCCCGGCGCCGGTGCCATCAACACCATGAGCAACTCCCTCACGTCGGGGTTCCGGCGCTCCATCTGGGGAATCCTTGGGCAGCAGGCCGCGCTGATCGTGCATGTGGCCGTCGTGGCCCTCGGCGTCGGCGTCCTGGTGGCGGGGTCGGCGGTGGCGTTCAACGCCATCCGCTACGCCGGGGCTGCCTACCTGGTGTACCTCGGAATCAGGCAGTTCCTGCACAAGCCCGACCTGGACCAGGAGAAAGCGGCCGCACTCAGGAACGAGCCGGCATGGTCCATGTTCCGGCGGGGCCTGTGGGTCAACCTGCTCAACCCGAAGGCCATCGTGTTCTTCCTCGCGTTCACGCCGCAGTTCATCCGGCCCGAACAACCGCTGCTGCCGCAGTACGCCGTCCTCATCACCACAGTGGTGGTCATCGACATCCTGGTGATGTGGTTCTTCTTTGCAGCGGCGGCAAAGTCCTTCCAGCGCTTCACCCACAACGCCCGCGGCCAGACCGTTCTCAACCGGGCCTTCGGCGTCCTGTTTGTCGCCGTCGGTGTCCTGCTGGCGCTCGTGCACTAA	MQFSLWLALLGAGVLISFTPGAGAINTMSNSLTSGFRRSIWGILGQQAALIVHVAVVALGVGVLVAGSAVAFNAIRYAGAAYLVYLGIRQFLHKPDLDQEKAAALRNEPAWSMFRRGLWVNLLNPKAIVFFLAFTPQFIRPEQPLLPQYAVLITTVVVIDILVMWFFFAAAAKSFQRFTHNARGQTVLNRAFGVLFVAVGVLLALVH	PGPT0021036_604	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-PUTATIVE_TRANSPORTER,PGPT0021036-rhtB-K05834	NA	NA
D1-17_00294	1401	abaF_3		Fosfomycin resistance protein AbaF	ATGGCCGTACAGACTTCTCTCCGCCCCGAGAACGGAGCCTCCATGCCCAGCGCAAGCACGCCCGGTGCAAAAACCATGACACCTGAGCAGGTCCGCCGCCGGACCCTGGTGTCCGGCACCATCGGCGCCATTGTCGAATGGTACGAGTACACCGTGTACGCCACCGCAGCGGCGCTGGTCTTCGGACCGCTCTTCTTCCCGGCCATGGATGCCAGCCTTTCGCAGATCGCTGCGCTTGCCACCTTCGGCGTCGGTTTCGTTGCCCGTCCCCTTGGTGCATTTGTCGCCGGGCATCTGGGTGACCGCATCGGCCGTAAGTCCACCCTTATCCTGACCTTCGCCATCATGAGCGTCTCCACCGCCCTGATAGGCCTGCTCCCGACCTACGAGACTGTCGGAATCCTGGCTCCGGTTCTGCTGTGTGTGCTCCGTCTTGCCCAGGGATTCGCCGTCGGCGGAGAATGGGGCGGCGCAGCGATCATCGCGGTCGAGAACGCCCCGAAGGGCCGCCGCGGCTTCTACGGTTCCTGGCCGCAGATCGGCGTGTCCTGTGGCCTGCTCTTCGGCACCGGGGCTGTGGCCCTCGCGGGCGCACTCACCGGTGACGCCTTCAACACCTGGGGCTGGCGGATTCCCTTCCTGCTGAGCATCGTCCTGGCCGCCGTCGGTCTCTACATCCGCCTAAATGCGGCAGAGAGCCCGGAGTTCCTGGTTGAAAAGGAAAAGATGGCCAAGGAAGCCGCGCACCGCAAAGCTCCGATCGCCGAGCTTATGGCCAACCACCGCAAGCCGCTGCTGATTGCGATCTTCGGCCGCTTCGCGGAGGCAGGCAACTACTACCTGTTCACGGTCTTCGTGCTTTCCTACGTCACCACAACCCTGCAGGTGCCGAAGCACTTTGGCCTCACCGCTGTCATGATCGGTTCGGCCCTGAACATCATCATGATCCCGGTCTTTGGCCGGCTTTCAGACAACATCGGCCGGAAGCGCACCTTCCTGCTTGGTGGCAGCGCAATCGTGCTGACTGCCTGGCCGATTTTTGCCCTCATTGGCACCGGGCAGCAGTTTGCAATCATCCTCGGCGTTGCGCTGTTCCTGGCTCTTGGCCATGCGCTGGTCTACGCCCCCCTCCCTGCGTTGTACTGCGAACTGTTCCCCACCGCCGTACGGTACTCAGGAATCTCCATCGGTTACCAGATGGCATCCATCCTGCTCGCGGGATTCATGCCGGCACTGGCCAGCGCGCTCGTGCTCTGGAGCGGAGGCACCTGGCCTGTCATAGCGATCATCATTGCGTCTACAGTTGTGGCGATGGTGTCCGTTTCCTTCGCCAGGGAGACCAAAGACGTTGACCTGGCAGATATCGGCAAAGTGGAGACCTTGGCCACGACAAAGGCCTAA	MAVQTSLRPENGASMPSASTPGAKTMTPEQVRRRTLVSGTIGAIVEWYEYTVYATAAALVFGPLFFPAMDASLSQIAALATFGVGFVARPLGAFVAGHLGDRIGRKSTLILTFAIMSVSTALIGLLPTYETVGILAPVLLCVLRLAQGFAVGGEWGGAAIIAVENAPKGRRGFYGSWPQIGVSCGLLFGTGAVALAGALTGDAFNTWGWRIPFLLSIVLAAVGLYIRLNAAESPEFLVEKEKMAKEAAHRKAPIAELMANHRKPLLIAIFGRFAEAGNYYLFTVFVLSYVTTTLQVPKHFGLTAVMIGSALNIIMIPVFGRLSDNIGRKRTFLLGGSAIVLTAWPIFALIGTGQQFAIILGVALFLALGHALVYAPLPALYCELFPTAVRYSGISIGYQMASILLAGFMPALASALVLWSGGTWPVIAIIIASTVVAMVSVSFARETKDVDLADIGKVETLATTKA	PGPT0002956_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_00295	1347	hpsN		Sulfopropanediol 3-dehydrogenase	ATGACCGTTGTAACTGCAGTGAGCTCCGCGGTGAAGTCCTTGATGCTGAAGGAGCCCGCCGGCAACAGTGTGGCCCGGGGCAGCACTCCGGAGGTCCGTGCCACGGTGGAGGCCGTGATCGCGGACATCCGCGAACGCGGCGACGAGGCCGTGAGTGAATACTCGCAGAAGTTTGACAGGTACGCCCCGGAATCGTTCCTGCTCAGTGCCGTCCAGCTGGATGAGATCATGGCCCGGGTCCCGGAGCAGGTCATCGAGGACATCAGGTTCGTCCAGGAGCAGGTCCGTGTGATGGCGCGCAGGCAGCTTGATTCCCTGTCCGATTTCGAGATCGAGACCCTGCCCGGGGTGTTCCTGGGCCAGAAGAACGTGCCGGTCCAGGCTGCCGGGGCTTACATTCCGGGCGGGAAGTACCCGCTGCTGGCCAGCGCCCACATGACCATCGTGACCGCGAAGGTCGCCGGTGTGGAACGTGTCGCGGCCTGCACCCCGCTGATCCAGGGCGAGGTCCCGGACGCCACCGTCGCCGCGATGCACCTGGCCGGGGCGGACGAGATCTACCTTCTGGGCGGCATCCAGGCGGTCGCGGCCCTGGCCATCGGCACCGAAACCATCAAGCCGGTGAACATGCTGGCCGGCCCGGGCAACGCGTTCGTGGCCGAGGCCAAGCGCCAGCTCTTCGGGGAGGTCGGCATCGACCTCTTCGCCGGGCCCACCGAGGTCCTGATCGTGGCCGACGAGCACGCTGACCCGTTCATCGTCGCCGTTGACCTCCTCTCCCAGGCCGAGCACGGCCCCGATTCCCCGGCCGTGCTGATCACCACCAGCGAGGAGCTGGGCCGTGAGGTCATCGGGCACATCGACACGATCCTGACGGACATGCCGACCCGCGACTACGCCGGACCCGCCTGGCGGGACTGGGGCGCGGTCCACGTCGTGGAGACCCTCGATGACGCCTACGCCCTGGCCGATGAATACGCCTACGAGCACGTGCAGATCCTCACCCGGAACCCGCGGGAGGCCCTGGAGAAAATGCACGACTACGGCGCCCTGTTCCTGGGTGAAGGAACCTGCGTCTCCTACGGCGACAAGGTCATCGGCACCAACCACGTCCTGCCCACCCGCGGCGCGGCCCGCTACACCGGCGGCCTCTGGGTCGGGAAGTACCTGCGCACCGTCACCTACCAGGAAGTGACCAACACCGAATCCAGCGCCTTCTTCGGCGAGCTCTGCGGCCGCGCCTCCAGGGTCGAACGCTTCGAAGGCCACGCACGCTCCGGAGACGTCCGTGCAGCAAAATACCGCGGCACCTCCCTGCCCTGGTCCGACCACACCTTCGGGAACTGA	MTVVTAVSSAVKSLMLKEPAGNSVARGSTPEVRATVEAVIADIRERGDEAVSEYSQKFDRYAPESFLLSAVQLDEIMARVPEQVIEDIRFVQEQVRVMARRQLDSLSDFEIETLPGVFLGQKNVPVQAAGAYIPGGKYPLLASAHMTIVTAKVAGVERVAACTPLIQGEVPDATVAAMHLAGADEIYLLGGIQAVAALAIGTETIKPVNMLAGPGNAFVAEAKRQLFGEVGIDLFAGPTEVLIVADEHADPFIVAVDLLSQAEHGPDSPAVLITTSEELGREVIGHIDTILTDMPTRDYAGPAWRDWGAVHVVETLDDAYALADEYAYEHVQILTRNPREALEKMHDYGALFLGEGTCVSYGDKVIGTNHVLPTRGAARYTGGLWVGKYLRTVTYQEVTNTESSAFFGELCGRASRVERFEGHARSGDVRAAKYRGTSLPWSDHTFGN				NA	NA	NA	NA	NA
D1-17_00296	792	COQ5_1		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	GTGTACACGCACGGCCACCATGAGTCGGTGGTCCGCGCCCATGCCTCGCGGACCGCGGAAAATTCTGCCGCGTTCGTCATTGCGTACCTCACCGCGGGGGCCAACGTGCTGGACGTCGGCTGCGGACCCGGAAGCATCACTTGCGACTTCGCCGTGCTTGTGGCGCCCGGAACCGTGACCGGGCTGGACCGCTCCCCGGACGTGATCAACCACGCCAGGGAGCTTGCCGCTGATCGGGGTGTGGACAATGTCGAGTTCGTGGCCGGCAATATCTACGATCTGGATTTTGAGGACGACACCTTCGACGTCGTCCATGCCCACCAGGTGCTGCAACATCTGACAGATCCCGTGGAGGCGTTGCGGGAAATGCGGCGGGTGGCCAAGCCCGGTGGCATTGTGGCAGTGCGCGACGCCGACTTCCACGGCATGAGCTGGTACCCCGCCATTCCGGAGCTGGATGAGTGGATGGAGCTGTACCAGCGGATCGCACGCCGGAACGGGACCGAGCCCGACGCCGGCCGCCGCCTCGTGTCGTGGGCCCAGGCAGCCGGCTTCACCGACATCGCCCCGACCAGCAGCAACTGGCTCTACGCCACCGGGCAGCAGCGTCGATGGCAGGCCCGTGTGTGGGGTGAACGCGTGCTGCATTCAGCCTTCGCCGAGCAGGCCCTTGAATACGGCTTCGCGCAGGAGGCGGACCTGACGCGCATCTCTGCCGGCTGGCACCGCTGGGGATCCACCGATGACGGCTGGTTCCTTATTCCGAACGGCGAGGTCATCGCCCGCGCTTGA	MYTHGHHESVVRAHASRTAENSAAFVIAYLTAGANVLDVGCGPGSITCDFAVLVAPGTVTGLDRSPDVINHARELAADRGVDNVEFVAGNIYDLDFEDDTFDVVHAHQVLQHLTDPVEALREMRRVAKPGGIVAVRDADFHGMSWYPAIPELDEWMELYQRIARRNGTEPDAGRRLVSWAQAAGFTDIAPTSSNWLYATGQQRRWQARVWGERVLHSAFAEQALEYGFAQEADLTRISAGWHRWGSTDDGWFLIPNGEVIARA				NA	NA	NA	NA	NA
D1-17_00297	423			hypothetical protein	ATGACCGAGAACAGCGAGTCCAGCAGCGAGGGAAAGGCCCATACCGGCAGCCGGAACCCTGCGCTCGAAGGCGACAGCGGACAGTATGTGGAAGGTGACTACGGCGATGCCGGAGTTGCCGGGGAAGAACCTGCCACTGAAAAGGGCGAATACGCCGCGGGCGACTACGGCGACGCCGGTGTGGCCGGTAATGTGCCTGCCGAGACAGAGGAGGGCCAATATTCTGAAGGTGATTACGGCAAGGTCGGCGGTGTAAGCCAGGAGCGGCCCAGCGACGAGGAGGGCGAATACCCCGAGGGCGACTACGGGGCTGCCGGCACCACGTCAGGGCAGGCCTCGGATGACGACCTCCGGGACAGGCTGACGGAGGGACAGGTCAATGCCCCAAGGAATGACGACGGTGGCAGGTCCGCCGGCGGCTGA	MTENSESSSEGKAHTGSRNPALEGDSGQYVEGDYGDAGVAGEEPATEKGEYAAGDYGDAGVAGNVPAETEEGQYSEGDYGKVGGVSQERPSDEEGEYPEGDYGAAGTTSGQASDDDLRDRLTEGQVNAPRNDDGGRSAGG				NA	NA	NA	NA	NA
D1-17_00298	1863	dnaK	COG0443	Chaperone protein DnaK	ATGTCACGTGCAGTAGGTATCGACCTCGGAACCACCAACTCCGTCGTCTCCGTTCTCGAAGGTGGCGAGCCCGCCGTTATTGCCAACGCCGAGGGCGGCCGCACCACGCCGTCCGTCGTTGCGTTCTCCAAGTCCGGCGAGGTCCTGGTCGGCGAGATCGCCAAGCGCCAGGCCGTCAACAACATTGAGCGCACCATCTCCTCCGTCAAGCGCCACATGGGCACCGACTGGAAGGTCGACATTGACGGCAAGAAGTACACACCGCAGGAGATCTCCGCGCGTATCCTCATGAAGCTGAAGAACGACGCCGAGTCCTACCTCGGTGAAAAGGTCACCGACGCTGTGATCACCGTTCCCGCCTACTTCAACGACGCCGAGCGCCAGGCCACGAAGGAAGCCGGAGAAATTGCCGGCCTGAACGTCCTGCGCATTGTCAACGAGCCCACCGCGGCCGCCCTGGCCTACGGCCTGGACAAGGGCAAGGAAGACGAACTCATCCTGGTCTTCGACCTCGGTGGCGGTACCTTCGACGTCTCCCTGCTGGAAGTCGGCAAGGATGAGGACGAATTCTCGACCATCCAGGTGCGCGCGACTGCCGGTGACAACCGGCTCGGCGGCGATGACTGGGACAACCGCGTCGTGGAGTACCTGCTGAACCAGCTCAAGGTCAAGGGCATGGATCTGTCCAAGGACAAGATTGCACTGCAGCGCCTCCGTGAAGCGGCTGAGCAGGCCAAGAAGGAGCTGTCATCCTCCTCCAGCACCAACATCTCCCTCCAGTACCTCTCCGTCACCCCTGACGGCCCGGTCCACCTGGACGAGCAGCTCACCCGTGCGAAGTTCCAGGACCTGACCAAGGATCTGCTGGAGCGCACCAAGAAGCCGTTCCACGACGTCATCAAAGAAGCGGGCATCAAGCTCACCGACATCGATCACATCGTGCTCGTCGGCGGTTCCACCCGCATGCCCGCCGTGTACGAGCTGGTGAAGGAACTGGCTGGTGGCAAGGAGCCCAACAAGGGTGTCAACCCGGACGAGGTTGTGGCCGTCGGTGCGGCCCTGCAGGCCGGTGTCCTGAAGGGTGAGCGCAAGGACGTCCTGCTCATCGACGTCACCCCGCTGTCCCTCGGCATCGAAACCAAGGGCGGTGTGATGACGCACCTGATCGAGCGCAACACGGCCATCCCCACCAAGCGGTCCGAGACCTTCACCACCGCGGATGACAACCAGCCCTCCGTGGCTATCCAGGTCTTCCAGGGCGAGCGTGAATTTACCCGCGACAACAAGCCGCTGGGCACGTTCGAGCTGACCGGAATCGCGCCGGCTCCGCGCGGCGTGCCGCAGATCGAGGTCACCTTCGACATCGACGCCAACGGCATCGTGCACGTCTCCGCCAAGGACAAGGGCACCGGCAAGGAACAGTCGATGACCATTACCGGCGGCACCGCACTCTCCAAGGAAGACATTGACCGCATGGTCCGTGACGCCGAGGAACACGCAGCCGAGGACAAGGCCCGCCGCGAGGCAACCGACACCCGCAACACCGCCGAGCAGCTTGCCTACTCCGTGGACAAGCTGATTGCGGACAACGCGGACAAGCTGCCCGAAGAGGTCAAGACCGAGGTTCAGGGCGACGTCGACTCCCTCAAGAAGGCGCTCGAAGGCACCGACGATGCCGCTGTGAAGGCTGCGTTTGAGAAGCTGCAGGCTTCCCAGACCAAGCTCGGCGAAGCCATCTACGCCCAGGCCGGTTCGCCGGACGGCGCTACCGGAGCTGCAGGTGCTGAAGGTGCCGCAGGCGGGGGCAAGGCTGATGAAGACATCGTGGACGCCGAGATCGTTGACGAAGAAGAGAAGAAGTAA	MSRAVGIDLGTTNSVVSVLEGGEPAVIANAEGGRTTPSVVAFSKSGEVLVGEIAKRQAVNNIERTISSVKRHMGTDWKVDIDGKKYTPQEISARILMKLKNDAESYLGEKVTDAVITVPAYFNDAERQATKEAGEIAGLNVLRIVNEPTAAALAYGLDKGKEDELILVFDLGGGTFDVSLLEVGKDEDEFSTIQVRATAGDNRLGGDDWDNRVVEYLLNQLKVKGMDLSKDKIALQRLREAAEQAKKELSSSSSTNISLQYLSVTPDGPVHLDEQLTRAKFQDLTKDLLERTKKPFHDVIKEAGIKLTDIDHIVLVGGSTRMPAVYELVKELAGGKEPNKGVNPDEVVAVGAALQAGVLKGERKDVLLIDVTPLSLGIETKGGVMTHLIERNTAIPTKRSETFTTADDNQPSVAIQVFQGEREFTRDNKPLGTFELTGIAPAPRGVPQIEVTFDIDANGIVHVSAKDKGTGKEQSMTITGGTALSKEDIDRMVRDAEEHAAEDKARREATDTRNTAEQLAYSVDKLIADNADKLPEEVKTEVQGDVDSLKKALEGTDDAAVKAAFEKLQASQTKLGEAIYAQAGSPDGATGAAGAEGAAGGGKADEDIVDAEIVDEEEKK	PGPT0014555_4555	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
D1-17_00299	675	grpE	COG0576	Protein GrpE	ATGCCTCATCACGGTAACGAAGAAGAGCACAGCTCTTCCCGCGACCAGGGAAGCAAGCGCGACGAGCCCGTGATCCGGGACCACCGGAAGGTGGACCCGGTGACGGGGCAGGCCCGGCACCCCGAGGGAACCCCCGCGGAGCCGGCTGATGCAGCCGATTCCGACGGCGATGCCCTCGCCCAGGCTGAGGAGATCCTCAACCAGGTGGAGGTGCCGGCGGAGGAATCCGTGGCGCAGGGAGTTCAGGCAGGCTCAACCACCGCTGAAGCGGCCGAGCTGAAGAACGACCTGCTCCGCCTGCAGGCCGAGTACGTCAACTACCGCAAGCGCGTCGAGCGCGACCGTGCCGTGGCAGGGGAGATGGCCGTTATCGGTGTCCTGAACTCCCTGCTGCCGGTGCTGGACGACGTCGACGCCGCCCGCCAGCACGGTGATCTCGCGGACGGTCCGTTCGCTGCAATTGCCGCGAAGCTGGAAAATGCGCTAAAGACGTATGGCCTGACCCGTATCGATGAGACCGGCGTGGAATTCGACCCGACTATCCACGAGGCCCTCATCCAGCAGCCCGGCGAGGACGTTGAGGTTGACACTGTCAGCCAGGTGCTCCGCTCCGGCTACAAATCTGGCGATCGGGTTCTCCGCGCAGCACAGGTCATCGTCGCTGTACCTGCGTAG	MPHHGNEEEHSSSRDQGSKRDEPVIRDHRKVDPVTGQARHPEGTPAEPADAADSDGDALAQAEEILNQVEVPAEESVAQGVQAGSTTAEAAELKNDLLRLQAEYVNYRKRVERDRAVAGEMAVIGVLNSLLPVLDDVDAARQHGDLADGPFAAIAAKLENALKTYGLTRIDETGVEFDPTIHEALIQQPGEDVEVDTVSQVLRSGYKSGDRVLRAAQVIVAVPA	PGPT0014650_1657	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
D1-17_00300	990	dnaJ_1	COG0484	Chaperone protein DnaJ	TTGGCTAGCCAGGATTGGGTGGACAAGGACTTCTATAAGATCCTTGGTGTCGCCAAGGACGCTTCCGACGCTGACATCAAGAAGGCCTACCGGAAGCTGGCGCGCCAGTATCACCCGGATACCAATTCAGGTGATGCTGTCTCGGAGAAGAAGTTTAAGGACATCTCCGAGGCGTACTCCGTGCTGTCCGACCCCGAGGAGCGCCAGCAGTATGACGCTATCCGGGCGATGGGCGGAGGAGCCCGCTTCGCTCCGCACGGTGCCGGAAGCACCGCCAACGGGGGCTTCGAGGACCTGTTCGGTGGGCTGTTCACGGGCGGCGGAGGACGTCACTCGGGCGGCTTCAGTACTGCAGGCCCGGGGGGCATCCCTCCCGAGTTTGCCGACTTGTTCGGTGGCGGTTTCGGCGGTGCCGGCGGCCCGGCAGGCTACCAGCGCGCGCCGCAGAAGGGCGCCGACCGTACTGCGACCACCAGCATTTCCTTCGCCGGATCCATCCGCGGAACCACGATCGGCCTGCGTGAGCCGGACGGCGAAGTCATCGATGTCCGCATCCCGCCCGGCATCAAGGACGGCCAGAAGGTCCGTGTCCGCGGCAAGGGCCAATACGGCCCCGCCGGCAACGGCGACCTGATGGTCACCGTCCACGTCAAGCCGCACGATTTCTACACGCGCGACGGCGACAACCTCCGTATCCACGTCCCGGTCACCTTCCCTGAGGCTGCTCTGGGCGCCGATATCGAAGTGCCGACGATCGACGGCGACACAGTCCGGGTCCGCGTGCCGGCAGGCACGCCCTCCGGGCGCACGCTCCGCGTTAAAGGCCGCGGAGTGAAAACGCCGAAGGGGACCGGGGACCTGCTCGTGACGATCGATGTTGCCGTTCCGAAGAACCTGAACAAGGACGCCGAGGCGGCCGTGAAGGCTTTCGCGGAGGCCACGAACGGCGCCGATGTCCGCCAGGGCCTGGCAGCCAAGGCCCGGCTCTAG	MASQDWVDKDFYKILGVAKDASDADIKKAYRKLARQYHPDTNSGDAVSEKKFKDISEAYSVLSDPEERQQYDAIRAMGGGARFAPHGAGSTANGGFEDLFGGLFTGGGGRHSGGFSTAGPGGIPPEFADLFGGGFGGAGGPAGYQRAPQKGADRTATTSISFAGSIRGTTIGLREPDGEVIDVRIPPGIKDGQKVRVRGKGQYGPAGNGDLMVTVHVKPHDFYTRDGDNLRIHVPVTFPEAALGADIEVPTIDGDTVRVRVPAGTPSGRTLRVKGRGVKTPKGTGDLLVTIDVAVPKNLNKDAEAAVKAFAEATNGADVRQGLAAKARL	PGPT0014545_6462	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
D1-17_00301	423	hspR	COG0789	Putative heat shock protein HspR	GTGAACATCAACTTCGATCAGCCGATCTTCGTGATCTCGGTGGCGGCGGAGCTGGCGGACATGCATCCGCAAACGCTTCGCCAGTACGACCGGCTGGGCATCGTCAAGCCCAGCCGGGCGCCCGGCAAATCCCGCCGGTACTCGCAGCGGGACGTGAACATGCTCCGTGAGGTGCAGCGGCTCTCGCAGGAAGGCGTTTCCCTCGAGGGCATCAAACGCATCCTCGATCTGGAGAACCAGGTGGCCGCACTGCAGGCCCGGGTGAGTGAACTGACGGATGAACTGGTCCGCCGTCGTGAATCATTCGACTCCAGGGTTTTCGCGGCCGGACCCGCCGGTGACGTCGTCAGCCTGGCCCGCGGCCAGCGCCCCCGGCCGCGCTCCCAGGCGCTGGTGGTCTGGCGGCCGCGGTCTGGCCAGTAA	MNINFDQPIFVISVAAELADMHPQTLRQYDRLGIVKPSRAPGKSRRYSQRDVNMLREVQRLSQEGVSLEGIKRILDLENQVAALQARVSELTDELVRRRESFDSRVFAAGPAGDVVSLARGQRPRPRSQALVVWRPRSGQ	PGPT0014625_462	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014625-hspR-K13640	NA	NA
D1-17_00302	963	hpr	COG1052	Hydroxypyruvate reductase	ATGCAGCGACTTGTCATTCTCGACGACTACCAGGGCGTTGCAGACGGTTTCGCACCCTGGAGCTCCCTCGCCGGGCGTGGGGTCAGCGTCAGTGTGCTGCGCCACCATCTGCCCTCCGAAGCAGATGTCGTGGCGACGCTGGCGGACGCCGACATCGTCATTGCCATGCGGGAACGCACACCCTTTCCCCGCCGGGTGATCGAGCAGCTGCCCCAGCTGAAACTGCTGGTGACCACCGGAGCGGCGAACGCCTCGATCGACCTGCAGGCCGCAGCCGAGAGCGGGATCGTGGTCTGCGGCACGGGAGGCTCACCGGCCGCGGCGCCCGAGCTGACGTGGGCGCTGCTCCTGGCGTTCGCCCGGAACCTCACGGCGGAGGAGAACTCCCTGCGGGCCGGACGGTGGCAGGGGTCGGTTGGCTTTGAGCTCTCCGGCAAGACCCTGGGAATCGTCGGGCTGGGCAAAATCGGCCGCCGCATGGCGGGCTACGCTCAGGCGTTCGGCATGGAGGTGCTGGCTTGGAGCCAGAACCTGACCGCGGAGACAGCCGCCGCGGCCGGCGCGCGCAAGGTCAGCAAGGATGAGCTGTTCCAAAACTCCGACGTCGTATCCCTGCATCTGCGTCTGTCGGAGCGTTCCGAGGGGACGGTCGGTGAACGCGAGCTGCGGCTCCTCGGCCCCGAAGGTGTCCTGGTGAATACGGCCCGCGGCCCCCTGGTGGACCAGGATGCCCTGGTCACCGCCCTGCACGAAGGCTGGATCCGCGGAGCCGCGCTGGATGTCTACGACCAGGAGCCCCTGCCGCCGGGCCATCCGCTGTTGAATGCACCCCGGACCCTGCTGACCCCGCACTTGGGATACGTCACGGACGAAAGCTACCGGGCATTCTTCGGCGGCGCACTTGAAGACGTCACCGCGTGGCTCGACGGGGCGCCGATCCGGACGCTGACACCCCGGCGCTGA	MQRLVILDDYQGVADGFAPWSSLAGRGVSVSVLRHHLPSEADVVATLADADIVIAMRERTPFPRRVIEQLPQLKLLVTTGAANASIDLQAAAESGIVVCGTGGSPAAAPELTWALLLAFARNLTAEENSLRAGRWQGSVGFELSGKTLGIVGLGKIGRRMAGYAQAFGMEVLAWSQNLTAETAAAAGARKVSKDELFQNSDVVSLHLRLSERSEGTVGERELRLLGPEGVLVNTARGPLVDQDALVTALHEGWIRGAALDVYDQEPLPPGHPLLNAPRTLLTPHLGYVTDESYRAFFGGALEDVTAWLDGAPIRTLTPRR	PGPT0009155_6807	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-17_00303	396			Universal stress protein	GTGAGCATCATCGTCGGTTATGTCCCCACGCCGGAAGGCGCAGCCGCCCTTGACCGGGCGATCAGCGAGGCCCGGCAACACGACAGCAGGCTGGTCATCATCAACTCCTCCCGCGGTGACGCGCTAGTGGACAAGCGGTACGCCCAGGCCGAGGACCTCAACGAGGTCACCGCACGGCTGCAGCAGGAAGGCGTGGAACACCTCGTCCTGCAACGGGTCCGCGGGAACGATGCCGCCAACGAAGTACTGGATGCCGCTGAGGAATACCAGGCAGAGCTGATTGTCATCGGCCTCCGCAAGCGGACCCCCGTGGGAAAGCTCATCATGGGCAGCACCGCCCAGCAGATCCTGCTTGAAGCATCCTGCCCGGTGCTGGCAGTCAAGGCCCGTTCGTAG	MSIIVGYVPTPEGAAALDRAISEARQHDSRLVIINSSRGDALVDKRYAQAEDLNEVTARLQQEGVEHLVLQRVRGNDAANEVLDAAEEYQAELIVIGLRKRTPVGKLIMGSTAQQILLEASCPVLAVKARS				NA	NA	NA	NA	NA
D1-17_00304	1686			hypothetical protein	ATGGACATCCTGTCCTCACTCATGGACGGGTTCGCGACAGCGCTGACCCCCATGAACCTCCTGTACGCCCTGATCGGCGTCATCCTGGGCACCGCCGTCGGCGTCCTGCCCGGCATCGGCCCGGCCATGACCGTTGCGCTGCTGCTCCCGGTGGCCACCGTCCTCGAACCGACCAGCGCGTTCATTATGTTTGCCGGCATCTACTACGGCGGCATGTTCGGCGGTTCCACCACCTCCATCCTGCTCAACACCCCCGGCGAATCCTCCTCAGTGATCACCGCCATCGAGGGCAACATGATGGCCAAGGCCGGCAAAGCCGCCCAGGCACTGGCGACGGCGGCCATCGGCTCGTTCGTCGCCGGCACCATCGGCACCACGCTCCTCGTGGTCTTTGCACCGATTGTCGTCCAGTTCGCCGTGAGCCTTGGCTCGCCGAGCTACTTCGCCATCATGGTCCTGGCCCTGCTGGCCGTCACCGCGGTCCTGGGCTCCTCCCGGCTGCGCGGCTTCGCGTCCCTCGGACTGGGCTTGGCGATCGGCCTCGTCGGCCTGGACATCGTCTCCGGCCAGGCCCGCCTCACCTTCGGCCTGCCGCTGCTCGCCGACGGCCTCGACGTCGTCGTGGTCGCCGTGGCGATCTTCGCCGTCGGTGAAGCCCTGTGGGTGGCGGCGCACCTGCGCCGCACGCCGCTGCAGATCATTCCGGTCGGCACACCGTGGATGGGCAAGAAGGAGTGGAAGCGGTCCTGGAAGCCATGGCTGCGCGGCACGGCCTTCGGATTCCCGTTCGGAGCCCTGCCCGCCGGCGGCGCAGAAATCCCAACGTTCCTCTCCTACGTGACGGAAAAACGGCTCACCAAGCACCCCGAGGAGTTCGGCAAGGGCGCCATCGAGGGCGTCGCCGGGCCGGAGGCTGCCAACAACGCCGCCGCGGCCGGCACCCTGACTCCGATGCTGGCACTCGGCCTGCCGACAAACGCCACCGCCGCCGTCATGCTCGCTGCATTCGTGCAGTTCGGCATCCAGCCCGGACCGCTGCTGTTCGAAAACGAAGGCCCGCTGGTCTGGGCACTGATCGCCAGCCTCTTCATCGGCAACTTCCTGCTGCTGCTGGTCAACCTTCCCCTGGCCCCGGTCTGGGCGAAGCTGCTCCGGCTGCCCCGCCCCTACCTGTACGCAGGCATCCTCTTCTTTGCCACCCTGGGCGCCTACTCGGTGAACCTGCAGGCGTTCGACCTGGCAATCCTGCTGGTCCTGGGCGCACTGGGCTTCCTGATGCGCCGCTACGGACTTCCGGTCCTGCCGCTCATCCTCGGCGTGATCCTTGGGCCGCGCCTTGAGAAGCAGCTGCGCCAGACGCTGCAGCTGAGCGCGGGCGACGTCTCCGGGTTGTGGAGCGAGCCGATCGCCGTCGTGGTCTACATCATCGTGGCACTCGTGCTCCTCTGGCCGTTCCTGTTCAAGATGTGGCGGCGTACGCGTCCCGGCGGGGTGGCAGTTGCCGGCGGCCTTGCTCAGCCTCTGGCCGCCGGCGGTCCTGCTGACGCTTACTCGGCCGGCAGCCCTGTCAAGGACAGCCCGACGGCGGCAGGTTCCACTGCGGCCAACGAGCCGTCTGACCCCGCCGACATCCGCCAAGACGCCCACAAGGTTGGCCATGCCAACCATGGACAGGAGAAACAGTGA	MDILSSLMDGFATALTPMNLLYALIGVILGTAVGVLPGIGPAMTVALLLPVATVLEPTSAFIMFAGIYYGGMFGGSTTSILLNTPGESSSVITAIEGNMMAKAGKAAQALATAAIGSFVAGTIGTTLLVVFAPIVVQFAVSLGSPSYFAIMVLALLAVTAVLGSSRLRGFASLGLGLAIGLVGLDIVSGQARLTFGLPLLADGLDVVVVAVAIFAVGEALWVAAHLRRTPLQIIPVGTPWMGKKEWKRSWKPWLRGTAFGFPFGALPAGGAEIPTFLSYVTEKRLTKHPEEFGKGAIEGVAGPEAANNAAAAGTLTPMLALGLPTNATAAVMLAAFVQFGIQPGPLLFENEGPLVWALIASLFIGNFLLLLVNLPLAPVWAKLLRLPRPYLYAGILFFATLGAYSVNLQAFDLAILLVLGALGFLMRRYGLPVLPLILGVILGPRLEKQLRQTLQLSAGDVSGLWSEPIAVVVYIIVALVLLWPFLFKMWRRTRPGGVAVAGGLAQPLAAGGPADAYSAGSPVKDSPTAAGSTAANEPSDPADIRQDAHKVGHANHGQEKQ	PGPT0017350_141	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-17_00305	504			hypothetical protein	GTGACCTCCTTGGCCTCCCGCCTCAAAGGCCGCTCCGAGCTGGGCATCGCAGCCCTGCTCGGGGCGGTCGGCGCCCTGGTCCTCATTGACGCAGCGCGCCTGGTTGTGCCGTACTCCCAGTCGGACCCGGTAGGCCCCAAGGCCCTGCCGATGATCGTGGGAGCACTCCTGCTCGTCTGCGCCGTGCTGCTGGCAGTGAACGTTCTCCGGGGCGGAAGCGGTGAGGCCGAGGGCGGCGAGGATGTCGATCTGAGCCACCCGAGTGACTGGAAGACCGTCCTCCCCCTGGCCGGCGCCTTCATCGCCAACATCCTCCTGATCGACTGGGCCGGCTGGGTCATCTCCGGAACGGTGCTCTTCTGGGGCAGCGTCTGGGCGCTCGGAAGCCGCCACTACGTCCGTGACGGTCTGATCTCCCTGGTTCTGGCGCTCCTGACCTTCTACGGCTTCTACCTCGGCCTGGGCATCGCCCTTCCCGCCGGGCTCCTTGAAGGGATTCTCTAG	MTSLASRLKGRSELGIAALLGAVGALVLIDAARLVVPYSQSDPVGPKALPMIVGALLLVCAVLLAVNVLRGGSGEAEGGEDVDLSHPSDWKTVLPLAGAFIANILLIDWAGWVISGTVLFWGSVWALGSRHYVRDGLISLVLALLTFYGFYLGLGIALPAGLLEGIL	PGPT0017355_764	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
D1-17_00306	1011			hypothetical protein	ATGCGCGGATTCAGCGCATTGCGCGTAGCAGCCGTGGCCGCAGGCATCGCCCTGATGGCTTCAGGGTGCGGAGCGACAGGCAAGACGGACGCAGGCACCGCCACCACCGGAGCAAGCAACGCACCCCTTACCGGGCTGCGCATCATGGTGCCCAACACCGCCGGCGGCGGGTACGACACCACTGCCCGCGCCGCGGCAAAGGTTCTCGAAGACGAGAAGCTCGCCACCAACCCCGAGGTCTTCAACCTCCCCGGCGCGGGCGGCACAGTCGGCCTGGCCCGTGTGGTCAACGAAAAGGGCAACGGCGACCTGGCCATGCTCATGGGCCTCGGCGTCGTCGGCGCAAGCTACACCAACAAGTCAGAGTCCAAGCTGACCGAGACCACCCCGCTGGCGAAGCTCATCGAAGAGCCGGGCGCCATCATGGTTTCCAAGGATTCGCCGTACAAGACCATCGACGACCTTGTGGCTGCCTGGAAGAAGGACCCGTCCAAGGTCAGCGTCGGCGGCGGCTCCTCGCCCGGCGGCCCCGACCACCTCCTGCCCATGCAGCTTGCCGGTGCGGTGGGCATCGACGCAACCAAGGTCAACTTCGTCTCCTACGACGGCGGCGGGGACCTGCTGCCGGCCATCCTTGGCAACAAGCTCGGCTTCGCGGCCTCCGGCGCAGGCGAATACATGCAGCAGATCAAGTCCGGGGCCATCCGCGTCCTCGCCACCAGCGGTGAGAACCGGCTCGAAGGCGTCGACGCCCCCACGCTGAAGGAATCCAACATCGACCTCGTCTTCACCAACTGGCGCGGCATTGTGGCCCCTCCGGGCATCAGCGACGCCGACCGCGACGCAATCATCGCCACACTGGAGAAGATGCACGAATCGGCTTCGTGGAAGGAAACCCTGAAGACCCGCGGCTGGACTGACGCCTTCATCACCGGTGACGAGTTCAAGACCTTCCTCACCGACCAGGACAAGCGCGTCGCAGACGTTCTGACGAAGCTCGGCCTGGCGTGA	MRGFSALRVAAVAAGIALMASGCGATGKTDAGTATTGASNAPLTGLRIMVPNTAGGGYDTTARAAAKVLEDEKLATNPEVFNLPGAGGTVGLARVVNEKGNGDLAMLMGLGVVGASYTNKSESKLTETTPLAKLIEEPGAIMVSKDSPYKTIDDLVAAWKKDPSKVSVGGGSSPGGPDHLLPMQLAGAVGIDATKVNFVSYDGGGDLLPAILGNKLGFAASGAGEYMQQIKSGAIRVLATSGENRLEGVDAPTLKESNIDLVFTNWRGIVAPPGISDADRDAIIATLEKMHESASWKETLKTRGWTDAFITGDEFKTFLTDQDKRVADVLTKLGLA	PGPT0017360_527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-17_00307	1203			hypothetical protein	ATGTCAGATGACGAGTTCACCTTTCCCGACTCGGCGCGTGCCTCACCCCCGCCACGCCAGGGCGGACCCGGGGCGCGCCCAGGTGCGGGCGCCGGCAGGAGCCTGAACAGGCAGGTGATGGAGGTGATTCGGCATGTCCTTGCGGATCCCGACCCTGAAGGCGAATGGGCCAGAAGTCAGCTGCGTGAACGCCTCGCAGCTTACCCGGAACATCCTGAGCGGGCGCTGCTGGAACATCTGATCCTGACCAGAAGCCTGACGGGTGCTGCCGAGGATGCCACCGCCCCGCACCCCGGGGAGGACTTTGCCGGGGCGCCGCTTTCCGCCGGCGCCGGCGCCGACGCCGCAGACTCCCTGGATGCCGGCCGGATCCATCGTATTGAAGAAGTGCTTGAGAACCGGATGGTGCTCACAGCCCTGCAGCCTGTGAGACGGCTGCCTGCCGGAGGACTCCTGGGATTTGACGCGCTGGCCAGGTTCGTGAGCACGGACGGTTCCCACGCGGCCACCTGGTTCCGGGATGCGGCTGCCCTCGGCCTCGGCATGGATCTGGAAATCGCAGCCCTTGAAAGTGCGATCACGGCAGGGCAGGAGATCCCGGCTCCACTGCTTATCACCGTGAAGCTCAGCCCAGCGGCAATCACCGACGCCAGGGCCCAATACCTGCTACTCACATCCGCCTTGGCGCCTGACAGAATTGTCATCGACTTCATGGGACAGGAAGTTCCAGGCCAGGACGTTGCAGGACAAGACGGTTTAGGACCGGACGGTTTAGGACCGGGCGGCGAGGGGGACCGGGAAGCCTTTCAGGGGGCCCTGGACACGCTTCGCCGCTACGGCGTGCGCTTCTCCGTGGACTTCCCCGGAGAGGGTTCTTCCGCCGGGCGGCGGCGCCGCATTCGCGAAGTCCGTCCGGACGTGATCAAACTTGGCCGCGATTTTTTTGGTGGTTTGGTTGACGGTCAGGCCGGCGATTCCGCCGCTGTAGTGCGCGGACTGGCCCGTGAAACAGGGGCAGTGCTGGTGGCTGAAGGAATTGAAACGCGCGCAGAACTCGACGCCACCCTGGAAGCGGGCGTGACTGCCGGGCAGGGTTTCCTGCTGGGCCGTCCTTCAGCTAACCCCGATGACTGGACCTCATGGGTCGCGGAAGCGGACGGCCTCTCCGGTGGCTCGTCCAGGCTCCCCGGCGGCGGCTTCTAG	MSDDEFTFPDSARASPPPRQGGPGARPGAGAGRSLNRQVMEVIRHVLADPDPEGEWARSQLRERLAAYPEHPERALLEHLILTRSLTGAAEDATAPHPGEDFAGAPLSAGAGADAADSLDAGRIHRIEEVLENRMVLTALQPVRRLPAGGLLGFDALARFVSTDGSHAATWFRDAAALGLGMDLEIAALESAITAGQEIPAPLLITVKLSPAAITDARAQYLLLTSALAPDRIVIDFMGQEVPGQDVAGQDGLGPDGLGPGGEGDREAFQGALDTLRRYGVRFSVDFPGEGSSAGRRRRIREVRPDVIKLGRDFFGGLVDGQAGDSAAVVRGLARETGAVLVAEGIETRAELDATLEAGVTAGQGFLLGRPSANPDDWTSWVAEADGLSGGSSRLPGGGF				NA	NA	NA	NA	NA
D1-17_00308	93			hypothetical protein	ATGTTTTGCATCGGAGGAAACGTCTCGCTGCCAGGCTCGCTACGCGCGCTCGAACCCGCTGTCCTCAGCGAGTCCATCGAGCTGAGTAAGTAG	MFCIGGNVSLPGSLRALEPAVLSESIELSK				NA	NA	NA	NA	NA
D1-17_00309	822			hypothetical protein	GTGCATAGCCCTCTTGTCGTCATGGGCGTGTCGGGCTCGGGCAAGACTGCGGTCGGCGCTGCCCTCGCAGCCCGGCTCGGAGCAACCTTCAAGGACGCTGATGACCTGCACCCCTTGCCGAACGTCCAAAAAATGACAGCCGGCGTACCGCTCACGGATGAAGACAGATGGCCCTGGCTTCGCCTGGTCGGCGCAGAACTCGCGGCCGAACACCCCCATGGGATCGTGGTTGCCTGTTCAGCCCTCAAACGCGCCTACCGCGACGCTATCCGCGCAACCGCTCCCTCCACCACATTCATCCTCTTAAAGGTCGACCCTTCCGTACTGATGGAGCGGCTGGTCCAGCGCCCAGGACACTTCATGCCTCCATCCCTCCTCACCTCACAGCTGGAGACACTCGAGGCCCTGGAAACAGCCGAAGCCGGAATGACCGTGACATCCGAAGGCGGCATCGAAGCACTCACCGATCAGATCCTCGCAAATCTGCGCCCAAGGTATTGGGCACCGCCGCACTCGCGTCCGGCGCCTCCGCGGTCCTGTTGCTTGGCTCCTCCGGAGCAGCCGTTGCTGACCACACACACGCTAAGGTGGTGGGCAACGGCGGTTGCGTCGTCATCGCCCAGGGCTCGGGAGAAGCGCGGGTTGATCTTCCTTCGTCCGTTTTTTACCGGTAATCCCAACGTGGACATTGCAGAAGCTCAAGGGCGGACTCATCCGCTGCAAGTGCTGGTCCACCAGGGCGTCCCAGGAGAAAATATGGCGCTGTATGTCGTGGGGCCGGCCACTGACGCCGCCTGTCCGGCAGGCTTCCGCAACAGGTAA	MHSPLVVMGVSGSGKTAVGAALAARLGATFKDADDLHPLPNVQKMTAGVPLTDEDRWPWLRLVGAELAAEHPHGIVVACSALKRAYRDAIRATAPSTTFILLKVDPSVLMERLVQRPGHFMPPSLLTSQLETLEALETAEAGMTVTSEGGIEALTDQILANLRPRYWAPPHSRPAPPRSCCLAPPEQPLLTTHTLRWWATAVASSSPRAREKRGLIFLRPFFTGNPNVDIAEAQGRTHPLQVLVHQGVPGENMALYVVGPATDAACPAGFRNR				NA	NA	NA	NA	NA
D1-17_00310	312			hypothetical protein	ATGACCATCGTCGTCACCGCTGCTTTCATCCCGAAGGAAGGCGCCTTCGACCAGGTCGTCGCCGCCCTCTCCCCCGCAATCAGCGAAGTCCACCAGGAACCCGGCTGCCTGCTCTACGCGATACACGAAACCCCGGACAAGCAGATCCTCATGATCGAGAAATGGGAATCAGCTGCGCTGCTGGACGCCCACGGCGAAGGTGAACCGGTCAAACGCCTGAACGCCTCCCTCGAAGGCCTGCTGGAAAAACCCGTCGAAGTGACCCGGATGGTTCCGATCCCCGCCGGAACAGCACAACAGGGAGCGCTGTAG	MTIVVTAAFIPKEGAFDQVVAALSPAISEVHQEPGCLLYAIHETPDKQILMIEKWESAALLDAHGEGEPVKRLNASLEGLLEKPVEVTRMVPIPAGTAQQGAL				NA	NA	NA	NA	NA
D1-17_00311	1365			hypothetical protein	ATGAATCTGCACCATCTCCTGACCCAGCGCGAGGCCGACGGAAAGCCCATCCGGGTCGGCCTGATCGGCGCCGGACGCTACGGGACCATGTACCTGGCCCAGGCCAACAACATTCCGGGCATCCACGTCGTCGCCATCGCAGACATCAACGTCAAGCGCGCTGAAGGTGCTTTCGAACTCGTTGGATGGCCCAAAGACCAGATCGCCCCCGACATAGCAACCGCCCTAAGGGAGCGCTCAACCGCGATCGTGGCCAACGCTGACGAGTTGTTCGACGTCGACATCGACATCATCGTCGAAGCCACCGGCAACCCCATCGTGGGTGTCAAGCACGCGCTGCGCGCCATCGAAACCAAAAAGCACATCATCATGGTCACGGTCGAAGCCGACGCCTTGGCAGGGCCCGCTCTTGCCAAGCGGGCAGAAGCAGCCGGCGTTGTCTACTCAATGGCATACGGCGACCAGCCAGCCCTCATCATGGAACTTGTCGACTGGGCCCGCACCAGCGGCTTCGACGTCGTCTGCGCCGGCAAGGGCGCTAAATTCCTCGAGCACTACCACGAGATGAACCCCGACAACGTCTGGGAAAACTGGGAATTCTCCAAGGAACTCACCGACTCCGGGCAGCTGAACCCGAACATGCACACCTCCTTCCGCGACGGCACCAAAGCCGCCATCGAAATGGCCGCCGTCGCCAACGCGGCAGGACTGGTCCCCTCTGACACCGGGCTGACGTTCACGCCGGGAGACGTGGAAGAAATCGCCTCAATCTGCCGCCCCGCCGACGTCGGAGGAGCCCTCGCACACGAAGGCACTGTCGACGTCATGTCCAGTGTCAACCGCGACGGCACCTGGATCCCCCACAACACCCAGGAAGGCGTCTTCGTCGTCGTGAAAGCCACGAACGACTACGTCTCCGGCTGCTTCAACGAATACCCCTGGCACCCGGACCCCACCGGCCAGTACGCCGCCCTGTACCGCCCCTACCACTACGTCGGTCTGGAACTGAACGTATCCATCGCCAACGCCGTCCTCCGCGGAATCCCCACCGGTTCACCCATCGGTTTCTTCGGCGACGTTGTCGCCACCGCCAAGAAAGACCTCAAAGCCGGTGAATTCCTTGACGGCGAAGGCGGATACACCGTCTGGGGCCAACTCGTCTCCGCGAAGCACTCCGTCACTACCGGAGCCCTGCCGGTCGCGCTGGCCCACCACGTGGAACTGCGCAATGACGTGCCCAAGGGCGGCATCGTCCGCTGGGAAGACGTCATCATGGACGACTCGCTCGCCCAGGCCCTCGAACTGCGCCGCGAAACCGAAGCCCTTGCCCTTGCCCTTGAGGAAAACCTCGCCGTTCGCAGCTAA	MNLHHLLTQREADGKPIRVGLIGAGRYGTMYLAQANNIPGIHVVAIADINVKRAEGAFELVGWPKDQIAPDIATALRERSTAIVANADELFDVDIDIIVEATGNPIVGVKHALRAIETKKHIIMVTVEADALAGPALAKRAEAAGVVYSMAYGDQPALIMELVDWARTSGFDVVCAGKGAKFLEHYHEMNPDNVWENWEFSKELTDSGQLNPNMHTSFRDGTKAAIEMAAVANAAGLVPSDTGLTFTPGDVEEIASICRPADVGGALAHEGTVDVMSSVNRDGTWIPHNTQEGVFVVVKATNDYVSGCFNEYPWHPDPTGQYAALYRPYHYVGLELNVSIANAVLRGIPTGSPIGFFGDVVATAKKDLKAGEFLDGEGGYTVWGQLVSAKHSVTTGALPVALAHHVELRNDVPKGGIVRWEDVIMDDSLAQALELRRETEALALALEENLAVRS				NA	NA	NA	NA	NA
D1-17_00312	1029	degA	COG1609	HTH-type transcriptional regulator DegA	GTGCAGAAACAACCGACCATCCGCGATGTTGCCCAGGCGGCCGGGGTTTCCGTTGCGGTCGTCTCCCGGGTGCTGAACCCGGGGTCAGGTCCGGTCGCCGCAGCTACCCGCGGCAGAGTAAACGACGTGATGAAGGACCTCGGCTACCACCCCCGCACGGCAGCCAGGGAGCTCAAGTACGGCCCGCCTACAACGCTGGGGCTGCTGCTCGCCGATGTGTCCAACCCCTTTTTCGCCCGACTCGCCGACCAGGTGGTGCAGGAGGCGCACTCGCGCGGAATCCAGGTGCTGCTGATGACCACGCAAGAGGATGACCAGCTGGAGTCAGAACGTCTGGCGACACTTATCGAACGCAGGGTCAGCGGGATTATCGCGACCCCGACCGGCAACAACCTGGCAACCTGGAAGCAGCTCCAGGATCTGGGCACTGAGGTGGTTTTTGTCGACCGGTCAATACCGTCGCTCCCGGAAGTTGATGTTGTCAGCATCGATAACTTTGAATCCGCCCGGTCCGCAACGGCGCTTCTCGCTGCCCACGGCCACCGCCGCATCGGGATCATCTCCGGGCCGGCTTCCTCCACGACCGGAAGGGAGCGGATTGCCGGCTATCGGCAAGCCTTGGAAACAGCCGGCTTGGAGCAGGATGAGCTCCTCATACGGCACGCCGCTTTCCGCGGGCCTGCGGGAGGAGATGCCGCGTCGGCGCTGCTCGGCATCGAGGAGCCGCCCACCGCTTTGGTGGTGGCAAATACCGCCCAGGTAACCGAAGTTCTGCGGCGCCTGTCCCACGCTGGAATCGACATCCCCGGGACGCTGTCCGTCATCGTCTTTGAAGATTCGCCCTGGACCGAACTCATGACCCCTCCCCTGACAATCGTCAGGCAACCCATAGATCTGCTCGCCCGGCATTCCGTGCAGCTCGCTTTGTCCAACACGCAGGGCAAGACGTCGGGAGAACCCCACGTCATCCGCGTAGCCGCCGAACTCCTTGAACGGTCCAGCGTTGCCCGGCTGCAGTTCTCGAAGTAA	MQKQPTIRDVAQAAGVSVAVVSRVLNPGSGPVAAATRGRVNDVMKDLGYHPRTAARELKYGPPTTLGLLLADVSNPFFARLADQVVQEAHSRGIQVLLMTTQEDDQLESERLATLIERRVSGIIATPTGNNLATWKQLQDLGTEVVFVDRSIPSLPEVDVVSIDNFESARSATALLAAHGHRRIGIISGPASSTTGRERIAGYRQALETAGLEQDELLIRHAAFRGPAGGDAASALLGIEEPPTALVVANTAQVTEVLRRLSHAGIDIPGTLSVIVFEDSPWTELMTPPLTIVRQPIDLLARHSVQLALSNTQGKTSGEPHVIRVAAELLERSSVARLQFSK	PGPT0017992_6834	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_00313	1023		COG1638	putative protein	ATGCCAAAGCGCATCCTGGCCGCCGCAGCTGTGGCCGTTGCACTCACCGTTACTACTGCCCTCACCGGTTGCGGCGGGGGCGCGGCGCCTGGCGCGTCCAGCACCACCATCCGCCTCGGTATCGGCGACCCCGCAACCTCTTCCATGGGCGTGACCGCTAAGCACTTCGCCGACAAGGTTGCCGAGCTGAGCGACGGCAAGGTCAAGGTCGAGACGTTCCCCGACGGCACCCTCTTCGGCGGAGACCAGAACGCCGCCGTCAACCTGCTTGGAAACGGCACGCTGGACTCGACCATCATGTCCACCTCGGTGTACGCGTCCTTCGAGCCGAAGATGAATGCCGTCAGCCTTCCCTACCTCTTCAAGGACTCGGAGGAGGTCACCAAGTACTTCAAAGGCGAGCCGGGCAAGGAACTGCTGGGCTCACTGGACAAGCTGGGCATCAAGGGCGTGACCATGCTGTCCCGTACTCCGCGGCACACCACCAACTCGGTGCGTCCCATCACCCAGCCCGAGGACTTCAAGGACCTGAAGCTGCGCGTACCGCAGAATGACCTCTGGGTTAAGTTCTTTGGCTCACTGGGCGCCAACCCGACGCCGATGGACTTCAAAGAGGTTTACACCGCCCTGCAGCTCGGCACTATCCACGGCCAGGAAAACCCTTTGGAAGTTCCAGTGAACAACAAGTTCTTCGAAGTCCAGGACTACCTCTCCCTGACGGGCCACATCTCCGACGGCCTCGTCCTGGGGTTCAGCAAGAAGAAGTGGGACTCCTTCGATGAGGACACCCGGAAAGTCCTGCAGGAAGCTGCAGACGAGACCGCTGGCTTCAAGACAAAGTACGACAACGACGAAGCCACCAAAACCCTCGACAAGCTCAAGGGCGAAGGCGTGAAAATCAACGAGCTGACGCCCGAAGCCAGGGAAAAGTTTCAGGCGGCAGCGCAGAAGGTCTACCCCGAGCTTGAGGGCAACGTGGGCAAGGAATTCGTCCAGTCAAGCCTTGAATTCCTCGGGCGTTAA	MPKRILAAAAVAVALTVTTALTGCGGGAAPGASSTTIRLGIGDPATSSMGVTAKHFADKVAELSDGKVKVETFPDGTLFGGDQNAAVNLLGNGTLDSTIMSTSVYASFEPKMNAVSLPYLFKDSEEVTKYFKGEPGKELLGSLDKLGIKGVTMLSRTPRHTTNSVRPITQPEDFKDLKLRVPQNDLWVKFFGSLGANPTPMDFKEVYTALQLGTIHGQENPLEVPVNNKFFEVQDYLSLTGHISDGLVLGFSKKKWDSFDEDTRKVLQEAADETAGFKTKYDNDEATKTLDKLKGEGVKINELTPEAREKFQAAAQKVYPELEGNVGKEFVQSSLEFLGR				NA	NA	NA	NA	NA
D1-17_00314	582			hypothetical protein	GTGCATGATGATGGAACCACCCCAACCCGGGGGGCCGAACACCAGGAGGCCGAAGATAGCATCAAGGTGCTTCCGGTAAGCGAAGTCTCAGAACCTCAGGGTCTGATCTGGAAGGCCGTGGATGCTCTCCTCTTCGTCGGAATCTGCGCGATGCTGCTCAGCCTTGCTGCCCAGATGGTCAGCCGGCAGATGGGAGCCTCGCTGCCTTGGACCGAGGAACTGACCCGTTTCCTGTTCATGGACACCACCTTCCTGGGGATGGCAGCAGGCTTCCGGGCCGCCGTGCACCCGCGGGTGAACTTCGCGGTGGCGTGGGGACCGGCCTGGCTTAAGCAAGTCAGCATGCATCTCTACGCCATTTGCGGCACCGTGTTCTTCAGTGTCCTGCTCTACAAGACGTGGGAGTTGATGCTGCAGCAGTACGCCGCCGGAGAGTCCAGTCCTGCCCTGGGACTGAAGATGTTCCTGGTAACCCTGCCCCTTGTGATCAGCGCGGCACTCGCGATCGTCGCCCATATCACGACCGTCTACTTCTCCCCGTATATGCGTAAGAGGATCCTCGAAGGAGAGATGATCGCATGA	MHDDGTTPTRGAEHQEAEDSIKVLPVSEVSEPQGLIWKAVDALLFVGICAMLLSLAAQMVSRQMGASLPWTEELTRFLFMDTTFLGMAAGFRAAVHPRVNFAVAWGPAWLKQVSMHLYAICGTVFFSVLLYKTWELMLQQYAAGESSPALGLKMFLVTLPLVISAALAIVAHITTVYFSPYMRKRILEGEMIA				NA	NA	NA	NA	NA
D1-17_00315	1278	siaT	COG1593	Sialic acid TRAP transporter permease protein SiaT	ATGAGCTTGACCCTGCTGGGCATTTTCCTCCTCCTGCTGCTGCTGGGGGTTCCGCTCTCGATCTCACTGGGCATTGGCGTCATCGCCACGCTGCTGATCTTCGATATCCCCCTCGAACTGTTGCCGCAGTCGATGATGAGCTCCATGAACAGCTTCCTGCTGGTTGCTGTCCCCTTGTTCGTTTTGGCCGGCAACCTCATGGCGGGAGGGGGTATTTCGGACCGCATCTTCCGTGGCGCCGAAGTCATGTTCGGCCGCTTCCGTGGCGGCCTTGGCCAAGTGAACATCGCATCGAGCGCGATCTTCGGCGGCATCTCCGGTTCCTCGGTTGCCGACATCGTCAGCCTTGGCAAGATCGAGATCAAGGCCATGACTGACCATAAGTACCCGCGGCCCTATGCGGCAGCGATGACCATGGTCACCGCTACCCTGTCCTCACTGATACCGCCGAGCATCCTCATGATCATCGCCGCCTCGACCGCGAACGTCTCGGTAGGCGCGGCACTCGCGGGAGGATTTGGACCGTCCATTGTCCTGATCCTCGTCCTGATGCTTGTGAATTTCTTCCTGTCGGCACGCGGTGGTTACGGCGAGGTCTCAAGGACGCCTTTCAAGAAGGGCCTTGGGATCGTCCTCGGGGGAATCCCGGCCATGGGCGGCCCGGTGATTATCCTGGTGGGCATGTTCAGCGGGCTCGTCACGCCCACGGAGGCGGCCGCCGTCGCTGTCTTCTACAGCCTGTTGGTCGGCGTCTACGTCTACCGGGACATGAAGTGGCGCCAGGTGCCCAAGATGATCGTGGACGCCGGCCTCACCACCGGCACCATCCTGTTCATCGCCATGATCGCCGGCGTCGCCTCTTACATCTTCACCATTGACGGGCTGCCGGCAAAGGTCAGCAGCTGGCTGCTGGGAGTCAGCACTGACCCCACCATCGTCATGCTACTGATCGGCCTGATCCTGATCATCATCGGAACAGTGATGGATAAAGTCGCTGCCATCCTGCTTTGCACACCGGTGCTCATGCCTGCGGCCGTGTCTTCCGGTGTGGATCCCATTCACTTCATCGTCTTCCTCGTTGCTGCCCTTGCCGTTGGCCTGGTCGTGCCACCTGTCGGCGTCTGCCTGTTCGCAGCGTCCTATGTCAGCGGGCTGCCGATGGAGAAGATTGTGAAGGCCGCGGTGCCGCTCTACGTGGTCATGGTGGTTGCCATCGTCATGCTGGCCATCTTCCCGCAGCTCATCCTGTGGCCGGCTGATCTCCTGACCAGCCAGTAA	MSLTLLGIFLLLLLLGVPLSISLGIGVIATLLIFDIPLELLPQSMMSSMNSFLLVAVPLFVLAGNLMAGGGISDRIFRGAEVMFGRFRGGLGQVNIASSAIFGGISGSSVADIVSLGKIEIKAMTDHKYPRPYAAAMTMVTATLSSLIPPSILMIIAASTANVSVGAALAGGFGPSIVLILVLMLVNFFLSARGGYGEVSRTPFKKGLGIVLGGIPAMGGPVIILVGMFSGLVTPTEAAAVAVFYSLLVGVYVYRDMKWRQVPKMIVDAGLTTGTILFIAMIAGVASYIFTIDGLPAKVSSWLLGVSTDPTIVMLLIGLILIIIGTVMDKVAAILLCTPVLMPAAVSSGVDPIHFIVFLVAALAVGLVVPPVGVCLFAASYVSGLPMEKIVKAAVPLYVVMVVAIVMLAIFPQLILWPADLLTSQ	PGPT0017335_1740	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017335-dctM-K11690	NA	NA
D1-17_00316	912	glxR	COG2084	2-hydroxy-3-oxopropionate reductase	ATGCCTGAAAACGACCACCCAGCGCTTGCCCTGATGGGATTAGGGCCGATGGGGGACCCCATGGCGCGCCGGCTGCTGAAGGGCTACGGCGAGCTGACAGTCTGGAACCGGACTGCTTCGAAGGCCGAAGCCTTGGTGGGCTTGGGCGCGCGCGTTGCGACCTCACCTTTTGAGGCGGCCGCCGACATCGTTCTCACCGTGTTGCCGGACCTAAGCCACGTCGAATCGTTGCTTCCGGGAGAAGAGGGCCTGATAGCCGGATGGACAGCCCGGGGCATTGCCCGGCCGATACTCGTCGTGCACGGGACCGTCTCGCCGGGGGCAGTGGCGGCCTTTGGCGAACGGATGCTTCGCGAACATGGCGTCCGGGTCCTGGACGCCCCTGTCAGTGGCGGCACCGTGGGCGCCGAAAACGGCACCCTGAGCATCATGGTGGGCGGGGACGAGGACACGTTTCGCTCGGTCACCCCGGCGTTCGGGTTCATGGGCAGCACCATCCGGCACATGGGCCCGGGAGGTTCAGGCGCACTCGCCAAAGCTTGCAACCAGATCGTAGTCGCCGGCACGGTCACGGCAGTTTCCGAAGCCATGCTTCTCGCCCGCGGCGGGGGACTGGATCCATCGGTCATGCTTGAACTGCTTCGGGGTGGGCTAGCCGACTCCGAGGTGCTGCGCCAAAAAGGGCACAGATGGATTGACGGCGACTTCACAGGTGGCGGCAGCGCCCAAAACCAGCTGAAAGACCTCAACTTCGTGCTGGGGGCGGCCAGAACAGCACACCTGGAGCTACCCCTGAGCACGGTAATCCAGGATCTTTTCGAGGACATGGTCGCCCGGGGCGACGGCGCCCTTGACCACACAGGAATCCTCCGGACCCTTGCTCAGCGCAACAACGCTCTCACTGAGACCTGA	MPENDHPALALMGLGPMGDPMARRLLKGYGELTVWNRTASKAEALVGLGARVATSPFEAAADIVLTVLPDLSHVESLLPGEEGLIAGWTARGIARPILVVHGTVSPGAVAAFGERMLREHGVRVLDAPVSGGTVGAENGTLSIMVGGDEDTFRSVTPAFGFMGSTIRHMGPGGSGALAKACNQIVVAGTVTAVSEAMLLARGGGLDPSVMLELLRGGLADSEVLRQKGHRWIDGDFTGGGSAQNQLKDLNFVLGAARTAHLELPLSTVIQDLFEDMVARGDGALDHTGILRTLAQRNNALTET	PGPT0018170_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
D1-17_00317	198			hypothetical protein	ATGGCTCCCGACCTCCAGCCGTGGATAACCCGAATTGACCCCAACTGTGGACGGAACAGGGTTACCGAGGGCAACGTGTCCGAGCCTCGCAGTGACTGCATATCCCTCATCGGCCTTGAGAAATGGCCGCAGAAGGGTATTCTCGCGCTTTTCGTGAGGGTTTTCGCGCCTTTCGTGAGGGTTTTCAGGTCTCAGTGA	MAPDLQPWITRIDPNCGRNRVTEGNVSEPRSDCISLIGLEKWPQKGILALFVRVFAPFVRVFRSQ				NA	NA	NA	NA	NA
D1-17_00318	489			hypothetical protein	GTGGATAACCCGAAGGAATTGTCCCCGGCTGTGGGGCGGCGGCGGGGCCGAGACTCTCAGTGGACCCCTGAACTAAGTCCTTACTTCTGGCCCAAGCCGACGCACCCTGTGTCCGGTTTGGGCGTATTTCACCCTGACGCTGATTCCGCAGTCGATCTGGCCGATGAGATAGCTACGATCAGGCGCGACGGTGGCGAGGTGGTCTACGATGCCCGGATCAACGGAACCACCTTCCAGACTTGGTCGCCGCTCCAAAAGGGCTTCCAGGAGGGGGTCTTCGTCGGCTCGCCGGACTACCTGGTGCTGCACGCCGAGCTCCACCGACGCGCAAACAAGTACCAGGTGACGCTGAAGGCGATCACGGTAGCGTGGATCACCTCGCACCGGGGGATGCAAGGCCTGTGCCCGGAACCACGAAGCCGCAGTGCGTCGCCGACGCTGCGGCGGCCCTCCGACATGCGCTGCCCCGCAGCGAGGGGTACGGCCTGA	MDNPKELSPAVGRRRGRDSQWTPELSPYFWPKPTHPVSGLGVFHPDADSAVDLADEIATIRRDGGEVVYDARINGTTFQTWSPLQKGFQEGVFVGSPDYLVLHAELHRRANKYQVTLKAITVAWITSHRGMQGLCPEPRSRSASPTLRRPSDMRCPAARGTA				NA	NA	NA	NA	NA
D1-17_00319	771	lvr_1		Levodione reductase	ATGACCGAACTAACCTATGATTTCACCGGCAAGACCGCCTTCGTCACCGGCGGCAGCTCCGGCATGGGCGAGGCCACCGTCCGCGCCTTCGCCGAGGCCGGCGCGAGCGTCGCCATCGTCGACCGCGACGCCGATGCCGCCAAGGCCCTGGCCGACAAGCTTGCCGCAAAGGGGCAGAAGGCCATCGGCATCGCATGTGACGTCACCGACGAGGACCAGGTCGCCGCCGCCGTCCGCACCACGGTCGAAGCATTCGGCAGCCTGGACATGGCCTTCAACAACGCTGGCATCATGCTGCCCCCGGTCGACTCCGCCGACGAGACCGAAGAAGCGTTCGACAAGCTCGTCGCGGTCAACCTCAAAGGTGTCTGGGCCTCCATGAAGCACGAGCTGAAGCAGATGCGCGAGCAGGGATCCGGCGCGATTGTGAACTGTTCTTCCCTCGGCGGACTTGTCGGTGGCGACGGACGCAGCACCTACCACGCCACCAAGCACGGTGTCATCGGTGCCACGAAGAGCGTGGCCCTGCAGTACGGGAAGCACGGCGTTCGCTGCAACGCCGTCTGCCCGGGAACCATCGAGACCCCGATGGTCGCCCGGATGGTCGACGGCGGCGAGCTCGACCGCGACCAGGCCGCCGCCGGGGTGCCGCTTGGCCGCCTCGGCCGCACCGAGGAGATCGCCGCAGCGGTGCTGTGGCTGTGCTCGGACGCCGCCAGCTATGTCACCGGCGTGGCCCTACCCGTCGACGCCGGACACACCGCTCAGTAA	MTELTYDFTGKTAFVTGGSSGMGEATVRAFAEAGASVAIVDRDADAAKALADKLAAKGQKAIGIACDVTDEDQVAAAVRTTVEAFGSLDMAFNNAGIMLPPVDSADETEEAFDKLVAVNLKGVWASMKHELKQMREQGSGAIVNCSSLGGLVGGDGRSTYHATKHGVIGATKSVALQYGKHGVRCNAVCPGTIETPMVARMVDGGELDRDQAAAGVPLGRLGRTEEIAAAVLWLCSDAASYVTGVALPVDAGHTAQ				NA	NA	NA	NA	NA
D1-17_00320	495			hypothetical protein	ATGCCTGAATGGCTCGAACCAATCCTGCGCTGGCTGCAGGATTCCGCGCTCGGTGATGCCGTGCGCTCCACTCCCTTCATGTATCCGACGCTCGAGAGCCTCCACATCCTCGGGATTGCCGTGCTCGTCGGCCCGGCCTTCGCGTTCGACCTCCGGCTGCTGGGCGCTGGGCGTTCTCTGGTATCCGTCACAAGGGCCGCACGCTATCTCCTGCCAGTGTCCCACCTCGGACTGGCCATCGCCGTCTTCACGGGCATACTGCTTTTCAGCGCGCAGGCCATCGGCGTCGCCGGCTCAAATGCTGCTCCGTGGAAGCTCGGACTCCTGCTCCTGGCCGGGCTGAACGTCATCGTGTTCCACCGCGGCGTCCACCGTCGAGTCGACGAGTGGGCGGACGCCGACGCGACGCCGGTCGCGGCCCGCGTCTCGGCGGTCATGTCGATGACGACGTGGACGGGCGTGATCTTCGCAGGACGATTCCTGGCCTACGTCTGA	MPEWLEPILRWLQDSALGDAVRSTPFMYPTLESLHILGIAVLVGPAFAFDLRLLGAGRSLVSVTRAARYLLPVSHLGLAIAVFTGILLFSAQAIGVAGSNAAPWKLGLLLLAGLNVIVFHRGVHRRVDEWADADATPVAARVSAVMSMTTWTGVIFAGRFLAYV				NA	NA	NA	NA	NA
D1-17_00321	765			hypothetical protein	ATGAGCGTCTCCACACACACCGACCGACCACTCCGCCGCGGCCTTATGGCCACCGCGGCTCTCCTCGCCGCGGCAGCGATCGCGCTGGTCCCGGCGTCACCGGCCGCCGCGCACCACGGCTGGGACGGCTTCGAGACCAACGACCTCGTCTACATCGCCGGCACCGTCTCATCCGAGGGGAGCTGGGGCGATCCGCATTCACTTTTCGATGTAGCACTGGATGCCCAGCTCCCGGCCAGCACGCCCGATATACCCATCCCCCAAGAGCTGTCGGGACCGGAAGACAGCATCCGGGTCGAAGCGGCTCCCGCGTATGACGGCCCCCACGACGAGTTCGAGGTCATCATCGCTCCGCCATGGTGGTCGCGCAGCAACGGATTGGACCGCACCCTGGAGGTCGGAGAGCGCTTCCAGGCCGTCGGATACATCCACCGCACCGACGACGGGCTCTTCCGTCCGGTCGCCTTCTGGTACGGAGAAGACCATGCGCCCGTCAACCAGGTGATCGGCAACACGCTACCGGTCAGGGCACCACTGCCAGGCGATACGAAGGCAGGCGGCCAGCCTGCCGCCGCGCCGTCCGAGGCGGAGGACCCCCTAGAGACGGACCTTCCGGCAGAGGATGCCAGCATCGCCAATGACAGCGGCTCGCAGACGTGGGTCGTCTGGGCGGTGTTCGCTGCCGTCATCGTCATGGCGGTCGTGGGCGGCGTCCTCTACGTGCGCCGCCGCACCCGCCAGGACGAACGGAGCCCGAATGCCTGA	MSVSTHTDRPLRRGLMATAALLAAAAIALVPASPAAAHHGWDGFETNDLVYIAGTVSSEGSWGDPHSLFDVALDAQLPASTPDIPIPQELSGPEDSIRVEAAPAYDGPHDEFEVIIAPPWWSRSNGLDRTLEVGERFQAVGYIHRTDDGLFRPVAFWYGEDHAPVNQVIGNTLPVRAPLPGDTKAGGQPAAAPSEAEDPLETDLPAEDASIANDSGSQTWVVWAVFAAVIVMAVVGGVLYVRRRTRQDERSPNA				NA	NA	NA	NA	NA
D1-17_00322	1023			hypothetical protein	ATGAAGCTCAATACGACTCCTGTGACCAGGCGCGGCCTCCTGTTGACCGGAGCGGCGTTTGGCGTAGTGGCCCTGGCAGGCTGCAGCAGTGCTCCCCCGCAGGACGCCTCGACGCATACGCCGGCGGGAACAGCACTCGAGCGCACCGAGACCTCCGGAAACGCCGTCCAGGCCCAAGGCGGCCTGTACGGCGTCGGCGTGTACAACACCCAGCAGGTCGCCGACGAGCTGGTGTGGATCGACGAGAACGTCCAACCGCTCGACGGCGACAGGAAGCGCATCCTCATCACCGGTTCCACCGCCGGTGCCGGGCAGCTCGCCGCTGCCCATTTCCTCAAGCGCGGGCACTCGGTCGTCGCGCACGCCCGGAACGAGCAACGCGCCGCCGACGTGCGTCGCGACCTGCCGGGCCTCGAGGACGTGGTGACCGGCGATCTGCTCGACCTTGACCAGACGAGAGCGCTGGCCGAGCAGATCAACACCCTCGGCGAGTTCGACGTCATCGTCCACAACGCCGGCGAGTACGGGCTCCCCGACGGCGACCTGCTCAACTCCAACTCCCTCTCGCCGTACCTCCTCACCGCGCTGGTGACCCCACCGCGGCAGCTGAGCTACCTCACCTCCGACCTGCACCTCGGCGGGGACCTGAGGCTGGACGAGGTGCGCTCGGGCGGCGGCATCGGCTACGGCGACAGCAAGCTGCACATGGCGATGATCGCCACGGCAGCGGCCCGCCTCTGGCCGAACCGGCAGGTGAACGCCGTCGCACCCGGCTGGATCCCGACCCTGATGGGCTTCCACAACGGGAACACCAGCACGCCCGACAGCCTTCGCGACGGCTACCTGACCCAGGTCTGGCTGGCCGAGGGCGTCGAGCCCGGCAGCGACGTCACCGGCAAGTTCCTCTTCCACCAGCAGGTCGAGACGCGCGTGAACGATCTCGTGCACGACACCCAGGCGCAGGACCGGCTACTGGCCGCCTACGCCGAGCAGACCGGCGTCGCGTTCCCCACAGAAAGCTGA	MKLNTTPVTRRGLLLTGAAFGVVALAGCSSAPPQDASTHTPAGTALERTETSGNAVQAQGGLYGVGVYNTQQVADELVWIDENVQPLDGDRKRILITGSTAGAGQLAAAHFLKRGHSVVAHARNEQRAADVRRDLPGLEDVVTGDLLDLDQTRALAEQINTLGEFDVIVHNAGEYGLPDGDLLNSNSLSPYLLTALVTPPRQLSYLTSDLHLGGDLRLDEVRSGGGIGYGDSKLHMAMIATAAARLWPNRQVNAVAPGWIPTLMGFHNGNTSTPDSLRDGYLTQVWLAEGVEPGSDVTGKFLFHQQVETRVNDLVHDTQAQDRLLAAYAEQTGVAFPTES				NA	NA	NA	NA	NA
D1-17_00323	357			hypothetical protein	ATGAGCACGGTCGTGCGCTTCACCGCCGACGACGCGGTCCTCGAGGTCGTCATCGACGAGGACAACCCCACGACCCGCTCGTTCCTTCCGATGTTACCGATGACCCTGGCGTTCTCGGATTACGGCGGCAAGGAGAAGGTCGCCACCCCGACCCGGGAATGGAACTTCACCGACACCGAGGGCTTAGATCCAAAAGTCGGCGACCTCTTCTCCTACAAGCCGTGGGGCAACCCCGGGTTCTTCTACAACACCGACGGGAACTCCTTCTCGAACGACCTGACCAGGATCGGCAAGACCGAGGACATCGGCCAGATCGAGCTGCTGGACGGGCAGCAGGTCACCATCGTCGCCGGCTGA	MSTVVRFTADDAVLEVVIDEDNPTTRSFLPMLPMTLAFSDYGGKEKVATPTREWNFTDTEGLDPKVGDLFSYKPWGNPGFFYNTDGNSFSNDLTRIGKTEDIGQIELLDGQQVTIVAG				NA	NA	NA	NA	NA
D1-17_00324	624			hypothetical protein	ATGGAAGCAAAGCGCGGTTGCGCTATCCCAGTGGAGGACGGCTCGCGACCGTCCGTTGATCTCATCAGCGGCGAAGAGGACTTCAGCTTGTTCTACCGTGCTGAGGTCTGCACCCTTACGAAAGTACTGGCGGAGCAGGCCATTGGCATTCTCGTTCGAAGCACGCTGCCAAGGGCTGGCGGGGTCACAGAAGTACACGAGCGTCCCCAGCGTCGCGGTGACTTCGGCGTGCTTGGCCATCTCGGGGCCACGGTCCCACGTCAAGTCCTCCGCAGCGTGGCCGGCATGACCCCCAGGGCCTCAATGAGCTGGTCACGCATGTTGTCGGACCTGTTTCCTGGGCGGAGCGCGAACGCAATGAGGAGCCGGGATGAGCGCGGGTTCGCATCACCGTGTGCTGCGTTTTTCAGCTCCCAACTGCCAGCAACCCCGCATGGCACCCGCCGATCGCCGCTGTGGGAGTCCCTCTTAGTACCCCTCACGGCAGGGACTCCCGCAACCTCGATTTCCTGTGTTGCATTGATGGAGTACTCCTCGGACCGACCCGGAAGGCCTCCACGATGCGACTGCCCCGAACAGCCACCGGCGCGTCCGAGTCCCCTTCCTCAGACCAGGGAGTCATGA	MEAKRGCAIPVEDGSRPSVDLISGEEDFSLFYRAEVCTLTKVLAEQAIGILVRSTLPRAGGVTEVHERPQRRGDFGVLGHLGATVPRQVLRSVAGMTPRASMSWSRMLSDLFPGRSANAMRSRDERGFASPCAAFFSSQLPATPHGTRRSPLWESLLVPLTAGTPATSISCVALMEYSSDRPGRPPRCDCPEQPPARPSPLPQTRES				NA	NA	NA	NA	NA
D1-17_00325	1689	treS_2	COG0366	Trehalose synthase/amylase TreS	ATGAGCGAGCAGAACTTGGGCACTGTGATGAGCAAAGAGGTGCCTGCGGGCAGCCCTGAAGCTCCCGACTGGCTGGCGAACGCCGTGATTTACGAGATCTATCCGCAGTCGTTCGCGGACTTTAACGGCGACGGGATCGGTGACCTTCCCGGCGTGCGGGAACACCTGGACTATCTGCAGTGGCTGGGGGTGAACGTCATATGGTTCAACCCGTGCTTCGCCTCGCCCTTCCGCGATGCCGGCTACGACGTTTCGGACTACCTCACCATCGCACCTCGTTACGGGACCAATGACGACATGACCGCGCTCATCCAAGAAGCGAATGCGCGCGGAATCCGGGTGCTGCTCGACCTGGTCGCCGGTCACACCTCTGTTGACCACCCTTGGTTCCGCGCGTCCATGAACGATGAATCCGATCACCGTTACATCTGGTCGAACCGTGCCGGTGATGGGTTTGTTGCTTCGCCGTGCAGCCGCCCCGGCTGGTACCTGAAGAACTTCTTTCCCGAACAGCCCGCACTGAATTTCGGCTACGCGCGGCTGGCTCCGGAAGAACCGTGGCGCCAACTGCCGGATGCGGCCGGCCCCCAGGCGAACCGACGCGCTCTGAGGGAGATCATTGGGTACTGGCTCGGTCGGGGCGTTGCGGGTTTCCGGGTCGATATGGCCTTCTCGCTGATCAAGGACGATCCGGGCCTAGTCGAAACCACAGCTCTGTGGCGAGAGCTGGCGGAGTGGATGCACGGATCGTATCCGGACGCCGTCCTCCTCCCCGAGAGCGACGAGCTCAGAACAGTAGACGCCGGAGTGCGCGGTGGCTTCGATGCGGACTTCTCGCTGGTCATTCATGAGGAGCACAGCGCACTCTTCAATAACGGAGGCGCCGGCCTGCTGCCCTGGCAGCACAGCACCGAGGCCTGCTACTTTGATGCGGATGCTGACGCCGCGGAAGGCACCCGCGCTTTTGAGAGGTTCCTCAATCTCTGGAATCACCACCTCGAAACGAACGGGGCCGACCGCCTCGTCGTGCTGCCTTCCGCCGACCACGATTTTTCGCGGCTGGCCTGCGGGAGCAGAACGGCGGAACAACTCCCCGCGGCCTTCACGTTTTTGCTGACGTGGGGCTCCATTCCGTCGATCTACTACGGCGATGAGATCGGCATGCGCTACCAGGAAGGGGTTCCCGAAAGGGAAGGCAGCATCTGGACACCCACCTTCAACCGGGCAGGATGCCGAACACCAATGCAGTGGGACAGCTCCCTTCCCAACGCAGGTTTCTCGGCCGCACCCCCCGACAGGCTGTATCTCCCTCAAGATCCCGACGCCAACCGGCCAACCGTAACGGCGCAAAAAGACGATCCACACTCGCTCCTGAACTTCGTCCAAGGCCTGGTTCAACTACGTCAATCAACACCGGCGCTGGGAACCAAGGCGTCCACAAGACTGCTCTCCGTCGGTTATCCCCTCGTTTACCTCAGGAACGAAACGCACCTTATCGTCATCAACCCGCTTCGGCGCGCAACCCGAATATCGGTCGAGCTTCCTGAGGGCTGCACCGCGCGGCACCTCTTCGGCAACCACGTAGGAGTCGATGAAGGAACGGTTCACGCCGGCGGCTTCGGCTGCGGCGTCTTTGAACTCACCCGCCCCAAAGCCAAAGAGCTGAGGACTGAGACGTCGCATGGCTGA	MSEQNLGTVMSKEVPAGSPEAPDWLANAVIYEIYPQSFADFNGDGIGDLPGVREHLDYLQWLGVNVIWFNPCFASPFRDAGYDVSDYLTIAPRYGTNDDMTALIQEANARGIRVLLDLVAGHTSVDHPWFRASMNDESDHRYIWSNRAGDGFVASPCSRPGWYLKNFFPEQPALNFGYARLAPEEPWRQLPDAAGPQANRRALREIIGYWLGRGVAGFRVDMAFSLIKDDPGLVETTALWRELAEWMHGSYPDAVLLPESDELRTVDAGVRGGFDADFSLVIHEEHSALFNNGGAGLLPWQHSTEACYFDADADAAEGTRAFERFLNLWNHHLETNGADRLVVLPSADHDFSRLACGSRTAEQLPAAFTFLLTWGSIPSIYYGDEIGMRYQEGVPEREGSIWTPTFNRAGCRTPMQWDSSLPNAGFSAAPPDRLYLPQDPDANRPTVTAQKDDPHSLLNFVQGLVQLRQSTPALGTKASTRLLSVGYPLVYLRNETHLIVINPLRRATRISVELPEGCTARHLFGNHVGVDEGTVHAGGFGCGVFELTRPKAKELRTETSHG	PGPT0018560_5373	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-17_00326	1035	ccpA_1	COG1609	Catabolite control protein A	ATGGCTGAAGTGAATCGCGCGACGATCAAAGACGTCGCAACACTGGCGGGACTCTCCATATGTACGGTGTCACGGGCGCTCAGAGGACTGCCGAAGGTCTCGGCGTCCGCCCAGGCCAAAGTGGAAGACGCGGCCGAGAAACTCGGATACCGGCCCTCAGCCGCGGCGTCCCGGTTGAAGGGCGGCCGCACTGGTGCCGTGGCGATCGTCGTTCCCAAGGCCACGACCTGGTACTTCTCCCAGGCCGCGGAGGCGGCTGAGGAAATACTCGCCGACGGAGGCCTCGATCCAATACTCGTCAGTCTCCGCGGGCAGGACCATGTCCAGTCGCGGATATTTGATGACCCCGCGGATCTGGCCCAAAGGGTCGACGGCATGCTCATGATCGACGTCGACCTCACCGCCCAGCAGACCGCAGCACTTACCTCAAGCGGCCTCGAAGTGGCGAGCGTTGGCATGCACGACGTCCCCTGGGACAACGTCGGCATCGACAATGTCGCTGCCGCTAAAGAAGCGACCACCCGGCTACTGGCGCTAGGACACTGGGACATCGCCTTCCTGGCAGGCACTCAAACCGGCAACGGTAAGACCCGCGCGACCGAAGAGCGCAAACGGGGATTTGAGTTGGCCCTAGCCGAACACGACGCCGTCGTGCACCCTGACTGGGTCATCGAGGCCGGGTACACGATTGAAGGCGGACGCCAGGCCATGTCCGAACTGATCCAGCACCGCGGGGACCTCCCCACAGCTGTCTTCGCCGGATGCGACGAGGTAGCCTTCGGCGCGCTCATGGCACTCAAGGAACACGGACTCTCATGCCCTGAAGACATCTCCATGATCGGCATCGACGATCATCCGATGAGCTGGGTCCTCGGCCTGACCACTATCTCCCAACCCGTCGCGGACGAAGCGGCATTCGCCGCCTCCCTTCTCCTCGACCGGCTGCAGAAACCCGACGTATCCGCCAACCCCACCAACCACCACCTCCCCACAACCCTGGCCGACCGCGCCACCATCCGGCGCAATCGCACCTAA	MAEVNRATIKDVATLAGLSICTVSRALRGLPKVSASAQAKVEDAAEKLGYRPSAAASRLKGGRTGAVAIVVPKATTWYFSQAAEAAEEILADGGLDPILVSLRGQDHVQSRIFDDPADLAQRVDGMLMIDVDLTAQQTAALTSSGLEVASVGMHDVPWDNVGIDNVAAAKEATTRLLALGHWDIAFLAGTQTGNGKTRATEERKRGFELALAEHDAVVHPDWVIEAGYTIEGGRQAMSELIQHRGDLPTAVFAGCDEVAFGALMALKEHGLSCPEDISMIGIDDHPMSWVLGLTTISQPVADEAAFAASLLLDRLQKPDVSANPTNHHLPTTLADRATIRRNRT	PGPT0021075_523	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-17_00327	153			hypothetical protein	ATGGCCGCCGAGCCGGGACTGACGCTGACGATCTGCACTGCCGAGCCCGGATCAGCCTCGGCAGAGCGCATGCAGCTCCTCGCCTCCTGGGCCGCGAGCGAATACACAAAGCCGGGCAAGCACACCCGGCAGAAGACCTGGACCGAGGGCTGA	MAAEPGLTLTICTAEPGSASAERMQLLASWAASEYTKPGKHTRQKTWTEG				NA	NA	NA	NA	NA
D1-17_00328	1140		COG1073	putative protein	ATGAGCGCACACTTCAACCACAATGAAACGACCTCGACTGCCCGCACGGGCAAAACGGGCGTGACCCGCCGCAGCCTGCTCGAGCTGGCAGGCGCAGGCGCAGCAGCAATGGCGTTCACGGGTGCGGTCGGGCTTGCGGGAGCGGAACAGGCCTTCGCGGCCCCGGCTGCCCGCAAGGACCTGGCACCGGGGGATACCTCGAACGGGGCCGACAACTTCTACACCAGCGACCAGGTCACGGTGAAGAAGATCTCGTTCAAGAACAAGTACGAGATGAAGGTCGTCGGCAACCTGTTCGTCCCCAACAACCTGAACCGAGGGACCACCCACCCCGCACTGGTGGTCGGCCACCCCATGGGCGCCGTGAAGGAACAGAGCGCAAACCTCTACGCGACCAAGATGGCCGAACAGGGGTACGTCACGCTCTCCTTTGACCTCTCATTCTGGGGTGAGAGCGCCGGCAAGCCCGGAAACTCGGTTTCACCTGACATTTACGCCGAGGACTTCAGCGCCGCCGTCGACTACCTGCGCACACAGGCCTTCGTCGATAGGGAACGCGTCGGCGCCATCGGGATCTGCGGCAGCGGCAGCTTCGTCATCAGCGCGGCCAAAATTGACCCCCGGATCAAGGCCATCGCCACTGTGAGCATGTACGACATGGGCGCCGCCAACCGGGACGGGCTCAACAAATCCGTGACTTTGGAGCAGCGCAAGGCCTTCATCGCCCAGGCCGCCGCCCAGCGTGACGTCGAGTTCGCCGGCGGGGCGATCAAGTACACCGGCGGAACCCCTGAAGTACTGACGGCAGAATCAACCGCCGTGGACCGGGAGTTCTACGACTTCTACCGGACCGCCCGCGGATACCACCCGAACACCACCACGCATCCCGCGTTGGCTACGAACACCAAGTTTATGAACTTTCACCCGTTCAACGACCTGGACCTGGTCGCGCCGCGGCCGCTGCTGTTCATCGCCGGCGACCAGGCACACTCTAGGGAGTTCAGCGAAGAGGCCTACCGGCTCGCCACCGGGCCCAAGGAACTCTTCTGGGTTCCCGGAGCCGGCCATGTGGACCTCTACGACCGCACGGGCCTCATTCCGTTCGGCAAGCTCACGGACTTCTTCCGGACACAGCTCTAG	MSAHFNHNETTSTARTGKTGVTRRSLLELAGAGAAAMAFTGAVGLAGAEQAFAAPAARKDLAPGDTSNGADNFYTSDQVTVKKISFKNKYEMKVVGNLFVPNNLNRGTTHPALVVGHPMGAVKEQSANLYATKMAEQGYVTLSFDLSFWGESAGKPGNSVSPDIYAEDFSAAVDYLRTQAFVDRERVGAIGICGSGSFVISAAKIDPRIKAIATVSMYDMGAANRDGLNKSVTLEQRKAFIAQAAAQRDVEFAGGAIKYTGGTPEVLTAESTAVDREFYDFYRTARGYHPNTTTHPALATNTKFMNFHPFNDLDLVAPRPLLFIAGDQAHSREFSEEAYRLATGPKELFWVPGAGHVDLYDRTGLIPFGKLTDFFRTQL				NA	NA	NA	NA	NA
D1-17_00329	969			hypothetical protein	ATGGCGCGACCAGTGGCCCGCTCGAGCAGGAGTGTCCGTCCGCTGCTGCGTGCTGTGGCGTGCGGCATCTGCTTCGGCATCGCCGGCCTGGTGTGGTCCTTGCCACGGCTGCGGGTGCGGCGGTTGCGGCGGGCGGCCACGTGCCGAACTTGCGCGGCTCACATGAGGGTGCGCAACGTGACGGTTTTCCTGGCCGCGGCGCTGCTTCTCGCGGGAGCTGTTGCCCGCACCATCGAGGGGTTGACACCGCAGGTTATCTGCCACAGCCACATCACTCCTGACGGGCAGGTGCAACCGGAGCCGTACCTGGAGATTTCGCCACCTGCCCCATGGAGTATTACCCGCAACTTCCTGGTTGCGCCCATCAGCGGAGTCGGCGTCCTGGCCGGCGGGGTGATGGGAATGGAGTCCTGCTCGGGGCCGCCGCTGCTGGTCATGTTCTGGCCGCCTCCCCGGACAAGCGGCGGCGGAAGCGTCCTGGGCGACGTGTTCGTTGCGTGGATGCCCCCCGGGGAAACGCAGGCCGGACCCTTGAACATCAACGGGTACGGGACCGAAGGGGAGCGGCTGTACATCAGGTATGGGCCGAACATCTCGCAGGCCCGGGACGATGAGGAGGAGCTGGGGCTTCACGAGTCGCGGCACGTGGATCAGTGGGCTATTGCCAACTTCCTGGCGGGCCCCTTGGCCTTCCCCGCCGCCTACTTCCTCGACGACGCGCTCTTTCCCGGGTCGCGCAACCACTTTGAGCGCGACGCCGGCCTGTCCCGGGGCGGATACCCGCCCGCACCGGACGATTGGCCGGCGCCTCAATGGCCCGAGACTGCGGCTATTGCCGTGCTGGGTCTGATCATTTTCCGGAGACGGCTGCGGTGGGCTGTCCGGGCATTCCGGGGCGGCCAAGGGCAGCGCACGGCACACACAACAGGCGAGTGTCCTGTCCACACCCGTGGCTGGAACCCCAACTAG	MARPVARSSRSVRPLLRAVACGICFGIAGLVWSLPRLRVRRLRRAATCRTCAAHMRVRNVTVFLAAALLLAGAVARTIEGLTPQVICHSHITPDGQVQPEPYLEISPPAPWSITRNFLVAPISGVGVLAGGVMGMESCSGPPLLVMFWPPPRTSGGGSVLGDVFVAWMPPGETQAGPLNINGYGTEGERLYIRYGPNISQARDDEEELGLHESRHVDQWAIANFLAGPLAFPAAYFLDDALFPGSRNHFERDAGLSRGGYPPAPDDWPAPQWPETAAIAVLGLIIFRRRLRWAVRAFRGGQGQRTAHTTGECPVHTRGWNPN				NA	NA	NA	NA	NA
D1-17_00330	906			hypothetical protein	GTGGAAGACATGGACAACCGAGCGGAAGTACGCGACTTCCTTATCTCGCGACGCGGCCAAGTCTCGCCGGAGCAAGTTGGCTTGCCCGCCGGAGCGAACCGGCGCGTAAAGGGTTTACGCCGAAGCGAAGTAGCCACCCTGGCCGGTTTAAGCGTGGAGTATTACACCCGCCTGGAGCGCGGCGCAATCAGCGGCGCCTCTCCCCAGGTGCTCGCGAGCATCGCCAAGGCCTTGCGCCTGGACGACGCCGAACGGGCCCACCTGTTCAACCTCGCCAACGCGGCCAGCCCGGCCGCCCGGCCACCGCGGCGCCGCACGTCCAAGTCCTATGTGCCGCACCAGAGCCTGCAATGGGCGCTCGATGCGATCACGGCCGGCCCCGCGTTCGTTCGCAACGGCCGGATGGATCTGCTGGCGGCCAATCCCTTGATGCGGGCGTTCTACAAGGACTGCTACGAGATGCCCGGCCAACCTCCCAACATCGCCAGGTACACGTTCCTGGACGAACGTGCGCACGAGTTCTACCCGGACTGGAACGCCTTCGCGGAGGTCACCGTTTCCATCCTGCGGACGGAAGCCGGCCGGGACCCCCATAACAAGGAACTCCACGACCTCATCGGTGAGCTGGGAACCCGCAGCGAGGAGTTCCGCCGCCGCTGGGGTTCACACAACGTCCGCCACCACGGCACTGGTTTCAAAACCTTCAACCACCCCATCGTGGGCGAAATGATCCTCGCCTTCGAGGGGCTGGAAATGGCCGCTGAGCCGGGACTGACTCTCACGATCTACACTGCAGAGCCCGGGTCCCCGTCAGCTGAACGCATGCAGCTACTCGCCTCGTGGGCGGCCAGCGAGTACGGAAATGCCATCCAGGGTGCATCCGAGAGGACACGGACGGACAGCTGA	MEDMDNRAEVRDFLISRRGQVSPEQVGLPAGANRRVKGLRRSEVATLAGLSVEYYTRLERGAISGASPQVLASIAKALRLDDAERAHLFNLANAASPAARPPRRRTSKSYVPHQSLQWALDAITAGPAFVRNGRMDLLAANPLMRAFYKDCYEMPGQPPNIARYTFLDERAHEFYPDWNAFAEVTVSILRTEAGRDPHNKELHDLIGELGTRSEEFRRRWGSHNVRHHGTGFKTFNHPIVGEMILAFEGLEMAAEPGLTLTIYTAEPGSPSAERMQLLASWAASEYGNAIQGASERTRTDS				NA	NA	NA	NA	NA
D1-17_00331	693			hypothetical protein	ATGTACGTCCACGAAAGAAAGAACACTGTGAAAACTACTGTCGCGATCATCGGTGCCGGACCCGGCTTGGGGCTTGCCTCTGCCCGCCGCTTCGGAGCCGAAGGCTTCAACATTGCCCTTCTTTCCCGTACCCAGGAACACGTCGATGTACTGGCTGCGGAACTGGCCGGTGCCGGTATCACCGCCCGGGGTTACGCCGCCGACGTCCGTGACCAGGAAGGGCTCACCACCGCTCTTGCCCAGGCGGCAGGAGACCTGGGGCCTGTTGAAATTCTCCAGTACAGCCCGGTGCCGTCCAAGGAATATCTCCGGCCCGTTCTTGAGACAACGCCCGAAGATCTGCGCTCGGCGCTTGAGTTCTCAGCGCTGGGAGCCGCCGCCGCCATCAATTCGGTGCTTCCCGGCATGCGTGCCCTTGGCCGCGGAACCGCGCTGTTTATCAACGGCTCCAGCGCCGTCCGTCCCAACCACAACTACGCCGGCACCTCCGCCGCGTTCGCCGCCGAATCCGCGTACGCCCAGATGCTCCATGACGCCCTGGCACCGGAAGGAATCCACGTAGCGCAGCTCATTATTCCGTTGGGCATCGGCGGAGGCGACCCTGCGCACGAACCGGCGGCCCTGGCCGAAACTCTTTGGAGCATCTACAGGGACGGGAGGGACTTCCGTTCCTTCGTGACGCCTCTCGACTGA	MYVHERKNTVKTTVAIIGAGPGLGLASARRFGAEGFNIALLSRTQEHVDVLAAELAGAGITARGYAADVRDQEGLTTALAQAAGDLGPVEILQYSPVPSKEYLRPVLETTPEDLRSALEFSALGAAAAINSVLPGMRALGRGTALFINGSSAVRPNHNYAGTSAAFAAESAYAQMLHDALAPEGIHVAQLIIPLGIGGGDPAHEPAALAETLWSIYRDGRDFRSFVTPLD				NA	NA	NA	NA	NA
D1-17_00332	543			hypothetical protein	ATGCGCCTGAAAAAGCGGGCCCTGGCTGCGATCATCGTGCTTGCCTTGCCCCTGGCGGGGTGCAGCACCTCGTCGAACGGCCCGGCCTCCACAACCGAGCCGCCGTCCTCCACGACGGAAACATCTACGGCACCCGAGGGGGCGTCGTCGCAGCCTGCACCTGTCCCGTCCTCGGCGGGTGCGGCAGACAGCACCCCGATCACGATCAACATCGATGGCGGGACCGTGACAGGCACCCTTTCCAGCAACGCAACTGCACGCTCCCTGATCGGGCAGCTTCCCTTGACGCTCTCCTTCAGGGACTACGGCGGCCAGGAAAAGATCGCAGAACTGCCGGAGCCGCTTTCGCTCGACGGCGTACCCGCCGGCGACAGCGCAGACCCACTGACCATCGGCTACTACGCGCCCGACCAAGCCCTCGTCCTCTATTACGAGCGCGTCGGGTACTCCCGCGGAATTGTGCGGATCGGATCCTTCGATGACCTCGCGGCGATCCGGGACCGAACAAGCGGCTTTAACGCCAGGCTGGCTCCCGCGAACTGA	MRLKKRALAAIIVLALPLAGCSTSSNGPASTTEPPSSTTETSTAPEGASSQPAPVPSSAGAADSTPITINIDGGTVTGTLSSNATARSLIGQLPLTLSFRDYGGQEKIAELPEPLSLDGVPAGDSADPLTIGYYAPDQALVLYYERVGYSRGIVRIGSFDDLAAIRDRTSGFNARLAPAN				NA	NA	NA	NA	NA
D1-17_00333	1272	pbuE	COG2814	Purine efflux pump PbuE	TTGACTCGAGCAACCCTTGAGGATGGCCCCCGCCAAGCGCCCGTCAACGCCCAGCCCCACGAAAACATCAACATCATCGAAGAAACAAAGGTTCCCGCCCCGGCAAGCGATCCTTCCGTTCAGGCCGGGCCCTTTCCCGGGGCGGCCCTGCTGGTAATGGCCCTGATGGGATTCCTTCTGATCGCCACCGAGACCATGCCCGCCGGCCTGTTGCCGCAGATCGCTTCGGGACTGGACATCACCGAGGGGACCGCCGGACAGTTTGTCAGCGCCTACGCCCTGGGAACAGTCATAGCGGCAATGCCCGCAATCGCCTTAACCCGTGGCCTGCGCCGGAAGCCCGTTTTCCTTGTCGGGATCCTCGGCTTCCTGGCCGCGAACCTCATCACGGCATTCTCCACCGACATCATCCTCTCCCTCGGAGCACGGCTCCTGGCCGGTGCATTCTCCGGCCTGCTGTGGGGAATGACGGCAGGCTACGCCCGGCGTATCACGGCTCCGCACCATGCCGGCCGCGCCTTGTCCGTGGCATCAGTAGGAACGCCCATCGGGCTGGCAGTGGGGACGCCCTTCGGCTCCTGGCTGGGCACGGCATTTGACTGGCGCTGGTCCTTCGGAGTGCTCACAATCCTCACGGCGGTCACCGTGCTGCTGGCGGTCTTCCTGGTCCCGGACGCACCCGGCCAACGGGCCGGCACACGCGTACCCCTCACACGTGTCGTCGCCATCCCGGGCGTCGCGGTTGTCCTCGGCGTCATCGTCAGCTGGATGCTGGGGCACAACATCATGTACACCTACATCGGCTCCTACCTCCGCGGGGCAAACCTTGACCTCTCGGTGGACGTCGCGCTCGTAACCTTCGGCGCGGCCGCCATCGCGGGGATCGCCATCACCGGCGCCGTAATCGACAAGGGCCTTCGGCGCCTGGTCCTGCTCAGCCTCGGGAGCTTCCTTGTGGCCGGCGCGATCTTCGTCGTTGGGCAGGCGTCACTGGTGGCAGTCCTCGTCGCGATTATCCTGTGGGGCATCGCCTTCGGCGGCGCGGCAGCACAACTCCAGACCGCCATCAGCGCCGCAAGCGGGGAAAACGCCGACGTAGCCAACTCGATGCTCGGCGTCGCCTTCAACCTCGCGATCTTCGCCGCGGGTGTGGCGGGCGCGGTCGTGATCAGCACCTTCGACGGGATAGTCCTGCCAGCCGCCCTGGCGGGACTTGCCGCCGTCGCCCTCGCCGTCACTGCTGCCGGACGCCGCACAGCATTCCCCACCTAG	MTRATLEDGPRQAPVNAQPHENINIIEETKVPAPASDPSVQAGPFPGAALLVMALMGFLLIATETMPAGLLPQIASGLDITEGTAGQFVSAYALGTVIAAMPAIALTRGLRRKPVFLVGILGFLAANLITAFSTDIILSLGARLLAGAFSGLLWGMTAGYARRITAPHHAGRALSVASVGTPIGLAVGTPFGSWLGTAFDWRWSFGVLTILTAVTVLLAVFLVPDAPGQRAGTRVPLTRVVAIPGVAVVLGVIVSWMLGHNIMYTYIGSYLRGANLDLSVDVALVTFGAAAIAGIAITGAVIDKGLRRLVLLSLGSFLVAGAIFVVGQASLVAVLVAIILWGIAFGGAAAQLQTAISAASGENADVANSMLGVAFNLAIFAAGVAGAVVISTFDGIVLPAALAGLAAVALAVTAAGRRTAFPT				NA	NA	NA	NA	NA
D1-17_00334	1131			hypothetical protein	TTGAAAGCCACCCGCACGCCAGCCCTGCTGGCAGCGACTATCGGAGCGGGCCTGATGTTGGCCTCCTGCGCTGCCACGGCACCGGCATCCACACCACAGCTCGAGTCCGCTGTTCCGTCCCCCGCCCCCTCCTCAGCCGAGGCATCGACGACGGCGGGAAATGCCACTCCGACGGGCGCACCCCAGGTCGTGGCCACCGGGCTGGAGGCTCCATGGTCCGTGGTTTTCCGCAACGGCACCCCGCTGGTCAGCGAGCGGGACAGCGGGCGGGTCCTCGAGCTCGGCCCCGACGGCACCACCCGCAGCATTGGAGAAATTCCCGGCGTGGCCGGCGTCGGGGAAGGAGGGCTGCTGGGCCTGGCTGTAGACAGCCAAGGCCGCCTGTACGCGTACTCCACCGGGACGGACGGAAACAGGCTCCAGCGCTTCGACGTCACCGGAGCACCAGGGTCCTTGGCACTGGGGCAGCCCGAAACGCTCCTCGACAGGATCGCGTCCGCGAGCTATCACAACGGCGGCCGGATCGCCTTCGGGGCGGACGGCATGCTCTACGTGACAATCGGAGATGCCGGTAGGCGCGACAGTGCCCAAGACCTCGATTCCCTGAACGGGAAGATCCTGAGGATGACCCCCGACGGCGACGTCCCCGATGACAACCCCTTCCCGGACTCACTCGTCTACAGTTACGGACACCGCAACCCCCAGGGCCTGGCCTGGGCGGAGGATGGCACCATGTTCGCCACCGAGTTCGGGCAGAACACCTGGGACGAGCTGAACATCATCACGGCGGGAGCAAACTACGGCTGGCCGACCGTTGAAGGAATAGCCACCACAGGAGACTTCACCGACCCGGTGCAGCAGTGGGAGCCCTCCGAGGCCAGCCCCAGCGGCATGACACACACTGACGGGACCCTGTTCATCGCCAACCTGCGCGGACAGGTCCTCCGGGCAGTGCCCATTGCCGACCAGACCACCTCGACCACCTACCACAGCCGCGAATTCGGACGCATCCGCGATGTCACGGAGGGGCCGGACGGGAAGCTCTGGTTCGTCACCAACAACACCGACGGCCGGGGGACCCCCGGACCCGACGACGACCGCGTCCTGAGCGTGGAGCCGACCCGGCAGTGA	MKATRTPALLAATIGAGLMLASCAATAPASTPQLESAVPSPAPSSAEASTTAGNATPTGAPQVVATGLEAPWSVVFRNGTPLVSERDSGRVLELGPDGTTRSIGEIPGVAGVGEGGLLGLAVDSQGRLYAYSTGTDGNRLQRFDVTGAPGSLALGQPETLLDRIASASYHNGGRIAFGADGMLYVTIGDAGRRDSAQDLDSLNGKILRMTPDGDVPDDNPFPDSLVYSYGHRNPQGLAWAEDGTMFATEFGQNTWDELNIITAGANYGWPTVEGIATTGDFTDPVQQWEPSEASPSGMTHTDGTLFIANLRGQVLRAVPIADQTTSTTYHSREFGRIRDVTEGPDGKLWFVTNNTDGRGTPGPDDDRVLSVEPTRQ	PGPT0017700_901	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
D1-17_00335	519			hypothetical protein	ATGGAGGCCCCGGACACCTCAGGCATCGATGAGGCGGTGATGCAGCGGCTGGCCGACGGGCCAGCTGAAGACGCTGGTCCTAGCCTGACCTGCAGGGGTTCGGCCGCCACTGACCTGCAGGAACAGCAGCTGAGTGCCACCGGCCTGACACCGCGCGCCGAGCAGTTGCGGGTGACGATGGCCGAGGTGTTCGGTGACCAGAGCCTGGGCGGGTTTGCCCCGGGTGGCGTCGGCCAGGGACACGGAACGGATTCGACACATTACGACGGCCGGGCGATCGACATCTTTTTCCGCCCGGTGAGTCAGGAGAACCGGCGGGAGGGATGGATCCTGGCCCAATGGCTCGTCGCTCATGGCGAGGACCTGGACATCCAGTACGTTATCTTCGACGACCGGTTCTGGAGTGTCCATAGCTCGCGAGGGCTATGGCATTACTACGACGCACCCGAGCCTGGCAACGAGATCCTGCGTCACGTCGACCACGTGCACGTTGATGTGCTGGGCGGAGGTTCTGCGTGA	MEAPDTSGIDEAVMQRLADGPAEDAGPSLTCRGSAATDLQEQQLSATGLTPRAEQLRVTMAEVFGDQSLGGFAPGGVGQGHGTDSTHYDGRAIDIFFRPVSQENRREGWILAQWLVAHGEDLDIQYVIFDDRFWSVHSSRGLWHYYDAPEPGNEILRHVDHVHVDVLGGGSA				NA	NA	NA	NA	NA
D1-17_00336	915	rhaR		HTH-type transcriptional activator RhaR	ATGACTGCCGCCGACGGAGCAACGGCGAGGCTCGCCGAAAGACTATTGGGGATGCGGGCCAACCGGGAGGTTATCCCGCCTGATCCCAACCACTCCGTCCGGTGGCATCAGCACAGTTACCCCAGCCCGGTGGCACGATGGAATTACCATCCCGAGTACGAGATCCATCTCATCCGGAAGGGCACGGGAAAGTTCATCGTGGGCGACCACATCGGCACCTTCGAGGCAGGCCACGTATCCCTGATTGGATCAGGGCTGCCGCACGACTGGGTCAGCGACCTTGAGCCCGGCGAAGTGCTCGACAACCGGGACGCAGTTATTCAGTTCGAGGGAACCTGGGTTGAGAACGCCGCCTCCTTGGTTCCCGAGCTGGCCGAGGTCAAGCCGTTGCTGGAACAGTCGGCACGAGGCATCGAATTCCTTGGAACTTCGGCCAGGGATGCGGCAACAGCTATCGAGGCCATGGGCGCCTCGACCGGGTTGGAGCGTCTTCAGCACCTGTTCGCCCTGTTCCGGGTCCTGACCAGCGCCCCCGAGGAAAACCGCCGCTACCTGGCCGAGGAATGGTTCAGGCCGCAGCTGGATGGGCGGGCTGCCGCAGTGGTGGACATCGTCCTGGAGTACGTTTTCAGCAACCATGCCGGCAGCGTCAAGATGTCTGAGGCAGCATCGATGGTAGGAATGCAGGAAGCTTCCTTCTCGAAATACTTCAAACGCGCCACCGGCCAAAACTTCAGCGATTTGGTCCGCAAACTGCGCCTGGCCCACGCCCGGCGCCTGCTGGAACGCACCGACAAGCCCATCTCCGACATCTGCTATGAAGTTGGCTTTACAAACCTCTCCAATTTCAACCGGCATTTCCTCAACGATGCAGGAGAAACCCCGCGGCATTACCGCCAACGCATTCAGACGTGA	MTAADGATARLAERLLGMRANREVIPPDPNHSVRWHQHSYPSPVARWNYHPEYEIHLIRKGTGKFIVGDHIGTFEAGHVSLIGSGLPHDWVSDLEPGEVLDNRDAVIQFEGTWVENAASLVPELAEVKPLLEQSARGIEFLGTSARDAATAIEAMGASTGLERLQHLFALFRVLTSAPEENRRYLAEEWFRPQLDGRAAAVVDIVLEYVFSNHAGSVKMSEAASMVGMQEASFSKYFKRATGQNFSDLVRKLRLAHARRLLERTDKPISDICYEVGFTNLSNFNRHFLNDAGETPRHYRQRIQT				NA	NA	NA	NA	NA
D1-17_00337	1353			hypothetical protein	ATGCGCCCAAAAATGCGTGCTGCGACCCTGGCCGCCGGCGCTTTGTGTGTCGCGCTGAGTGCCTCGGCCTGTGCAGGAGCCGGCGGCGGCAACTCCGCCGGAGACCCCAACAGCATCAGTGTCCTGATGGTGAACAACCCTCAGATGGAGGACCTGCAGCGGCTCACCGCAGAGAACTTCACCAAGGAAACCGGGATCAGGGTCAATTACACGATCCTGCCGGAGAACGACGTCCGGGCCAAGATCAGCCAGGAGTTCTCCAGCCAGGCCGGCCAGTACGACGTCGCCTCCCTGTCCAACTACGAAATCCCCTTCTATTCCGCCAACGGCTGGCTCGCCCCGCTGGACGACGTGGCCAACGACCCTGAGTTTGACCAGGACGACATCCTGCCGGCCTACACTGCGTCGCTCACCGGCGGGGACGGCAAGCTCTACGGTGAACCGTTCTACGGTGAGTCCTCATTTCTGATGTACCGCAAGGACATCCTGGAGGCCAAGGGCCTGAGCATGCCGGAGAAGCCCACCTGGGACGAGGTCGCTGACATAGCGGCGAAGGTCGACGGCGCTGCGCCGGGCATGAAGGGTATCTGCCTGCGCGGCCAGCCGGGCTGGGGTCAGGTCTTCGCGCCGTTGACCACCGTGGTGAACACCTTCGGCGGGACCTGGTTCGATAAGGACTGGAATGCCCAGGTCAATTCTCCGGAGTTCAAGGAAGCGGTGGAGTTCTACGTGGACCTGGTCCGGAAGCACGGTGAGGCGGGCGCCGCGCAGGCCGGGTTCACCGAGTGCCTGAACAACATGAGCCAGTCCAAGGTGGCCATGTGGTACGACGCAACGTCGGCCGCCGGCGCCTTGGAAGCCGAGGACTCCCCGGTGAAGGGCAAGATCGGCTACGCCCAGGCCCCGGTGAAGGAAACCAAGTCCTCCGGCTGGCTGTGGACCTGGTCCTGGGCCATGCAGGCCGCCTCCAAGAAGCAGGACGCTGCCGAGAAATTCATCGCCTGGGCCAGCTCCAAGGACTACGAGCAGCTCGTGGCCTCCGAGCTCGGCTGGGCGAAGGTTCCCTCCGGCAAGCGCATCTCCACCTATGAGAACGCCGAGTTCCAGAAGGCCGCCCCGTTCTTCGAAGCCGAGCGCTTCGCTATTGAGAACGCTGACCCGAAGAACCCCGGCGTGCAGGAACGCCCCGCCGTGGGGATCCAGTTTGTGGGCATTCCCGAGTTCGCTGCCCTGGGGACCAGTGTCTCCCAGGGGGTCAGCTCCGCCATCGCCGGTCAGGGCAGCGTGGCCGACGCGCTGGCCAAAGGCCAGGAAGCCGCCCAAAAGGTCGGCAACAAGTACAAGCAGCCGTAA	MRPKMRAATLAAGALCVALSASACAGAGGGNSAGDPNSISVLMVNNPQMEDLQRLTAENFTKETGIRVNYTILPENDVRAKISQEFSSQAGQYDVASLSNYEIPFYSANGWLAPLDDVANDPEFDQDDILPAYTASLTGGDGKLYGEPFYGESSFLMYRKDILEAKGLSMPEKPTWDEVADIAAKVDGAAPGMKGICLRGQPGWGQVFAPLTTVVNTFGGTWFDKDWNAQVNSPEFKEAVEFYVDLVRKHGEAGAAQAGFTECLNNMSQSKVAMWYDATSAAGALEAEDSPVKGKIGYAQAPVKETKSSGWLWTWSWAMQAASKKQDAAEKFIAWASSKDYEQLVASELGWAKVPSGKRISTYENAEFQKAAPFFEAERFAIENADPKNPGVQERPAVGIQFVGIPEFAALGTSVSQGVSSAIAGQGSVADALAKGQEAAQKVGNKYKQP	PGPT0016380_185	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016380-smoE|mtlE-K10227	NA	NA
D1-17_00338	969	sugA_1	COG1175	Trehalose transport system permease protein SugA	ATGACTACCGCAACGGCGCGCATCTCCCGCCCGGGACGCAATGCAGCCGCACCTTCACGAAATGCCCGGTCGCGGGAACGCGCCGCGGCTTGGGCGCGGCGGGCACCGCTGCTGCCGGCCCTGGTCTTCCTCATCCTGGTCACGCAGCTGCCGTTCGTGGTGACGCTGATCATCTCGTTTATGAACTGGAACAGCCTGAGCCCGGACAAAACGGCCTTCGCGGGCCTGGAAAACTATGTCACGGTCCTGACCGACCCGGACCTGCGCCAGGCGATCTTCACCACCATTGTCCTGACCGTCTCGGTGGTCCTGGCGAGCCTGCTCATCGGCCTGGGACTGGCGCTGCTGCTGGATAAGAAGTTCATCGGCCGCGGCCTGGCCCGGACCCTGCTGATCGCACCGTTCCTCGTGGTCCCGGTCGCGGCGGCGCTGATCTGGAAGCATGCGTTACTGAACCCGACCTACGGGCTGATCAACGGGATCCTGACCTGGGTCTGGTCACTGTTCGGCAACGCTGCCGCGCCCCAGCTGGACCTGCTCTCCCAAGCCCCGCTGATGGCCGTGATCGTGTCCCTGGTGTGGCAGTGGACCCCGTTCATGATGCTCATCCTGCTCGCGGGCCTGCAGTCCCGGCCCATGGACACCGTGGAAGCGGCCCAGATGGACGGCGCCACACCCTGGGGCATCTTCCGCCACCTGACCCTGCCGCACCTGCGCCAGTACCTGGAACTTGGGGGACTGCTCGGCGCGATCTACATCGTGCAAAACTTCGACGCGGTCTTCACCCTCACCGCCGGCGGGCTCGGCACCGCGAACCTGCCCTACGCCGTCTATCAGACGTTCTACTTCGCCAACGAATACGGCCTGGCCTCCGCCGCCGGCGTCGTGGTGGTCATCGGCACCATCATCGTGGCGACCTTCGCCCTGCGCACCGTCTTTTCACTCTTCAAGAAGGAGGCAGCACGATGA	MTTATARISRPGRNAAAPSRNARSRERAAAWARRAPLLPALVFLILVTQLPFVVTLIISFMNWNSLSPDKTAFAGLENYVTVLTDPDLRQAIFTTIVLTVSVVLASLLIGLGLALLLDKKFIGRGLARTLLIAPFLVVPVAAALIWKHALLNPTYGLINGILTWVWSLFGNAAAPQLDLLSQAPLMAVIVSLVWQWTPFMMLILLAGLQSRPMDTVEAAQMDGATPWGIFRHLTLPHLRQYLELGGLLGAIYIVQNFDAVFTLTAGGLGTANLPYAVYQTFYFANEYGLASAAGVVVVIGTIIVATFALRTVFSLFKKEAAR	PGPT0016385_59	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016385-smoF|mtlF-K10228	NA	NA
D1-17_00339	951	dasC_1	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCACCCTCACCCCTGCCACGCCCCAAAGCACACCCCCCGGCCCCACCGCCCTTAACACCGGAACCCGGCGCCGCGGCTTTACCTGGTTCGGCTTCAAGATGTCCGGCGGAAAGACCCGCATGGATCCAACCCGGAACAACACCGCCGCCGGCATCGCCGCCTGGCTGCTCGCCCTGCTCTTCGCCACCCCGGTGCTGTGGATGATCCTGACCTCGTTCCACTCCGAAACCGACGCAGCCACCAACCCGCCATCGATCGCCGCGAACCTCACCCTGGACGCCTACAAGGAGTTCTTCGGGGAAACCTCCGGCGTCAGCCCCTGGCCGTCCCTGATCAACTCCGCCACCGCCTCGATCCTCTCCACCATCCTGGTGCTGGCCCTGGCCATCCCGGCTGCGTACGCGCTGTCCATCCGGCCGGTGAAGAAGTGGACGGACGTCATGTTCTTCTTCCTCTCCACGAAAATGATGCCCGTGGTGGCCGCGATCCTGCCGCTGTACCTGTTCGCCCGGACCGTCGGGGCGCTGGATAACATCTGGTTCCTGATCCTGATGTACACCTCCATGAACCTGCCCATCGCGGTATGGATGATGCGCTCCTTCCTCGCCGAAGTCCCCGAGGAAATGCTCGAAGCCGCCCAGATCGACGGCGCCAACCTCCTGCTCATCCTGCGCAAAATCATCGCCCCCGTCGCCATGCCCGGCATCGCCGCCACCGCCCTGATCTGCTTCATCTTCAGCTGGAACGAACTGCTCCTGGCCCGCGTCCTCACCGGCGTCGTCGCCGGCACCGCCCCGGTCTTCCTCACCGGCTTCGTCTCCGGCCAGGGCCTCTTCCTCGCCCAGGTCTGCGCCGCCGCCGTCGTGATCTCCCTGCCCGTGCTGTTCGCCGGCTTCGCCGCCCAGGACAAACTCGTTCAGGGCCTCTCCCTCGGCGCCGTCAAGTAG	MSTLTPATPQSTPPGPTALNTGTRRRGFTWFGFKMSGGKTRMDPTRNNTAAGIAAWLLALLFATPVLWMILTSFHSETDAATNPPSIAANLTLDAYKEFFGETSGVSPWPSLINSATASILSTILVLALAIPAAYALSIRPVKKWTDVMFFFLSTKMMPVVAAILPLYLFARTVGALDNIWFLILMYTSMNLPIAVWMMRSFLAEVPEEMLEAAQIDGANLLLILRKIIAPVAMPGIAATALICFIFSWNELLLARVLTGVVAGTAPVFLTGFVSGQGLFLAQVCAAAVVISLPVLFAGFAAQDKLVQGLSLGAVK	PGPT0016390_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016390-smoG|mtlG-K10229	NA	NA
D1-17_00340	1059	gutB_1	COG1063	Sorbitol dehydrogenase	ATGACAACATCAACCGCACAGTCACCTGCCACCGGCTCCGGACTGCCCGCCACCATGCGCGCCAACATCCTCAAGAGCCAGGGCGACATGGCAATGGAAACCCTGCCCCTCCCGCAGCTCGACCCGGACCAGGTCCTAGTGCAGGTCGCCGCCGTCGGCGTCTGCGGCAGCGACGTCCACTACTACGAACACGGCCGCATCGGTGACTACGTCGTGGACCACCCGCTCATCCTCGGCCACGAACTCTCCGGCCGGATCGCCGCCGTCGGAAGCGCCGTGGATCCTGCCCGCATCGGCAAGCGCGTCGCGGTCGAGCCTCAGCGCCCGTGCCGCACCTGCAAACAGTGCAAAGCCGGACGCTACAACCTCTGCCCGGACATCGAGTTCTACGCCACCCCGCCGATCGACGGCGCGTTCGCGGAATACGTCACCATCCAGTCCGACTTCGCCTACGACATCCCCGACACCGTCAGCGACGAAGCCGCCGCGCTCATCGAACCGCTCTCCGTCGGCCTCTGGGCCTGCGAACGCGCCGGGATCAAGCCCGGCAGCCGAGTGCTGATCGCCGGTGCCGGGCCGATCGGCATCATCGCCGCCCAGGCCGCCCGCGCGTACGGCGCCACCGAGATCCACATCAGCGACATCGCCGAGGACCGGCTCGCGTTCGCCCTCGAACACGGCGCCACCCACGCCCTCAACGCCAGAACCGACAGCGTGGAAGGGCTCGACGTCGATGCCTTCATTGACGCTTCCGGCGCCGCGCAGGCGGTCCGTTCCGGCATCAAAGCCGTCGCACCCGCCGGGAGGGTCATCCTCGTCGGGCTCGGGGCGGACGACGTCGAACTCCCCGTCTCCTACATCCAGAACCGCGAGATCTGGCTCTCCGGCGTCTTCCGCTACACCAACACCTGGCCCCTGGCCATCCAGCTCATCGCCGACGGCAAAGTCGACCTCGACATCCTGGTCACCGGCAAGTTCACCCTCGCCGAATCCGAAGAAGCGCTCAAGGCCGGTAAACAGCCCCGACAGCTCAAAGCCGTCGTCTACCCGGGCCGCTGA	MTTSTAQSPATGSGLPATMRANILKSQGDMAMETLPLPQLDPDQVLVQVAAVGVCGSDVHYYEHGRIGDYVVDHPLILGHELSGRIAAVGSAVDPARIGKRVAVEPQRPCRTCKQCKAGRYNLCPDIEFYATPPIDGAFAEYVTIQSDFAYDIPDTVSDEAAALIEPLSVGLWACERAGIKPGSRVLIAGAGPIGIIAAQAARAYGATEIHISDIAEDRLAFALEHGATHALNARTDSVEGLDVDAFIDASGAAQAVRSGIKAVAPAGRVILVGLGADDVELPVSYIQNREIWLSGVFRYTNTWPLAIQLIADGKVDLDILVTGKFTLAESEEALKAGKQPRQLKAVVYPGR	PGPT0017541_1104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017541-gutB-K00008	NA	NA
D1-17_00341	666			hypothetical protein	ATGAAGGTCGGAGAGACTGTGCTGCCGGGGTCCCAGGTCCTCCTTGCCCCGCAAGTTCAGCAGGCAGTTGCTGAGCTTCGGCTCCGTGCCACGGCTTCGACCCGAACGATCCTCGGCATCAGCGGGGCCCCGGGGTCAGGGAAGTCGACCTTCGCAGCGCTCCCGGGCGAGCTTCTGGGCCCGGCCGTTGCCGTTGTAGTTCCGATGGACGGCTTCCACCTTAGTAACGCCGTCCTCGACGGACATTCGTTGCGGGAGCGTAAGGGCGCCATCGACACTTTCGATGTCGGCGGTTACGTTTCGCTGCTTAAGCGTCTGGCACGGTGCGCCGAGCCGGTCGTCTACGCACCGGATTTCAGCCGCTCACTGGACGAACCAGTGGCCGCGTCCATCGCAGTTCCCGCAAGTATCCCGCTCGTCATCACGGAAGGAAACTACCTGCTGGCGAACAGTCTTGGTTGGGAGGACGTCCGGGAACACCTGGACGAAGTGTGGTTCCTGGAAAGCCCCGAAGCGCTGCGCCCCACCCGACTGATGGAACGGCACATGCTGTTCGGTAAGGACCGCGCCAGCGCCGAAAGGTGGACGAACGGAACTGACCAAACCAACGCCGAGTTCATCCAGGCCACCCGGGACAGGGCGGACAGAATCATCTCCTGGTCCTGA	MKVGETVLPGSQVLLAPQVQQAVAELRLRATASTRTILGISGAPGSGKSTFAALPGELLGPAVAVVVPMDGFHLSNAVLDGHSLRERKGAIDTFDVGGYVSLLKRLARCAEPVVYAPDFSRSLDEPVAASIAVPASIPLVITEGNYLLANSLGWEDVREHLDEVWFLESPEALRPTRLMERHMLFGKDRASAERWTNGTDQTNAEFIQATRDRADRIISWS	PGPT0021595_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
D1-17_00342	1002	RBKS_1		Ribokinase	ATGCAATCGCAAGACTTGGTACCCGAACCCCATGCCGCCACCGGGGGCACAGTCCTGACTGTAATCGGCGAGTCCCTCGTTGACATCATCAGCGACCCGCGCCTGGCGGCGCCCACCAAGGCGCACCCGGGAGGCAGCCCCCTGAATGTTGCTGTGGGGGCCGCGCGGCTAGACTTGCCGGCGAACCTGGTAACGCATTACGCCGATGACCGGTACGGGCTCATGATTGAAGAGCACCTGCAGTCCAACGGCGTCACCGCGATCAGAGGCGGCGCATCACCGACATCAACGGCGACCGCCGCGCTCGGTTCCGACGGGGCAGCCACCTATGCTTTCGACATTAGCTGGGACCTCAACGGCGCTTCCCTGCCTGCCCTCGCCGCCGTCCAGGGTTCCACGCACGTGCACACGGGATCGATCGCTACCGTCCTGTCACCGGGGGACCAGGCTGCCCTTGCCTTGGTGGAGGCAGCGCGGGAGCAGGCGACCATCAGCTACGACCCCAACTGCCGGCCGGCGATCAGCCCCGATGCAGCCGCTGCCCGGGCACAGGCGGAACGCTTCGTGACTGTCAGCGACATCGTCAAGGCCAGCGATGAAGACCTGGCATGGCTTTACCCTGGCCGCGCCCCGGAGGACACCCTGCAAGCCTGGCTGGAGCTCGGTCCGGCCATCGTTGCCCTGACACGTGGTGCCTCCGGCCCGGTCATCCTCGCCAGTCAAGGCAGGGTGGAGATGGCAGCCGAAGCGATCACGGTGGCGGACACCGTGGGCGCCGGCGACTCGTTCATGGCCGCCCTCATCTCCGGCCTCGCGCAGCTCGAAGCGCTCGGGGCTCGAGGAAGGCAACGGCTGCGAACACTGGCCCTTGATGAAATTCACGTCCTGGCTGCGTACGCCAACCGCGCCGCGGGAATCACCTGCTCCAGGCCGGGGGCAAACCCTCCCACGTCCGCTGAGCTTGGCCCGCTGCCAGTCCCTTCGACGGCGAAGGACCGCTGA	MQSQDLVPEPHAATGGTVLTVIGESLVDIISDPRLAAPTKAHPGGSPLNVAVGAARLDLPANLVTHYADDRYGLMIEEHLQSNGVTAIRGGASPTSTATAALGSDGAATYAFDISWDLNGASLPALAAVQGSTHVHTGSIATVLSPGDQAALALVEAAREQATISYDPNCRPAISPDAAAARAQAERFVTVSDIVKASDEDLAWLYPGRAPEDTLQAWLELGPAIVALTRGASGPVILASQGRVEMAAEAITVADTVGAGDSFMAALISGLAQLEALGARGRQRLRTLALDEIHVLAAYANRAAGITCSRPGANPPTSAELGPLPVPSTAKDR	PGPT0017625_471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017625-scrK-K00847	NA	NA
D1-17_00343	186			hypothetical protein	ATGTATCTGGACCGGCTAATGAATGCCGGAAAGGCCCACGACTGGGCAATTTGCGGGGTCGGTGTCCTGCCGGGCGACGCCCGCATGAAGCAGGTCATGGACGACCAGGACCGTTCCCCCTCAGCCTACGGCGATTTTCTCGGCCAGTTCGGCAGGAACGGTTGGGGCAATCAAGGCCCTGCGTGA	MYLDRLMNAGKAHDWAICGVGVLPGDARMKQVMDDQDRSPSAYGDFLGQFGRNGWGNQGPA				NA	NA	NA	NA	NA
D1-17_00344	222			hypothetical protein	ATGAACGGCTCAATCGCACTCATCGGCTTTGACGACTTTGCTGCTGCTGACCTTGTTGACCCTGGAGTTACGGTCATGGCACAGGACGCGGAAGCGATCGGACGAATCGCGGCAGAAAGGCTGTTTGCAAGGATGGACGGATGCGCCGAAGAACCCGAAACACACCGGGTCCCGGCAACACTGAAAGAACGTGGCAGCGGGGAAATCCGTCCGGCATCCTGA	MNGSIALIGFDDFAAADLVDPGVTVMAQDAEAIGRIAAERLFARMDGCAEEPETHRVPATLKERGSGEIRPAS	PGPT0017992_13364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_00345	459	purR_1		HTH-type transcriptional repressor PurR	ATGTCATTCCGGATGTGGGAAGAAATCCAAGCCGCATGTCAGTGGCCCAGCCTTGAAACCGTCCGGATAGCATCAACGGAACCGACAGCCGAAGAAGGACGGTGGACGGCACGCGAGGTTCTCGGCAGCGGCGCAACACCCGTCCTGGCGTACAACGACCTGCTGGCCGTCGGTCTCCTGGGTGAACTTCAGGCCGCGTCCCTCACCGTGCCCGATCGCATCAGCATCGTTGGATTCGGCGACATTATCGGCGCGGCTTTCACTACTCCCTCACTCACCACCGCCCGGGCACAGGGAAGGCAAGGCGGCACGACCGCACCGGCCTCGCTCATACAAATGATTCAAGGGAATCCTCCCTCATCCCCCACCACCCTGGTCGAAACCGAGCTCGTCGTCAGAGCCTCTACCGGGACGAGGACCATGACGGTGCTAGAAGCCCCTGACCGCTGCACCATTTAG	MSFRMWEEIQAACQWPSLETVRIASTEPTAEEGRWTAREVLGSGATPVLAYNDLLAVGLLGELQAASLTVPDRISIVGFGDIIGAAFTTPSLTTARAQGRQGGTTAPASLIQMIQGNPPSSPTTLVETELVVRASTGTRTMTVLEAPDRCTI	PGPT0017992_16119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_00346	327			hypothetical protein	GTGAGGCCCTTTCCCACCTCAGACGGGACCGGCACCCTCGGCTTGATCCTTGCTGATCTCGCTGATCCCTCATGCATGGACATCATCCGCGGCGTAGAAGCAACGGCAGATAACAACGGATACGCTCTGATGCTCACCAGAGGATTCGAAATCTCCGGCAGGGAAACGGCGGCCGCTCGGACCGCAGCGCTGGACGGGATCATTCTGGTTCCTCCAGCGGGCGGAGAGGGCTGCCTCCGCGGACTGGCAAGTCAGAAACCGGTTGTCCTTGTCAACTGCGAGATTGAAGGCATCCCAGTGTGGTGCCGGACCTTAAAAGGGGCATAG	MRPFPTSDGTGTLGLILADLADPSCMDIIRGVEATADNNGYALMLTRGFEISGRETAAARTAALDGIILVPPAGGEGCLRGLASQKPVVLVNCEIEGIPVWCRTLKGA	PGPT0021075_222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-17_00347	573	gntK	COG3265	Thermoresistant gluconokinase	ATGCACAACAACGCTCCCAGCGCTGCAGCGCACTCCGCGCCGAGTGCCGCCGCCGGCCCCCGTGTGATCGTCATGGGCGTGTCCGGCTGCGGCAAAACCACCATCGGTGACCTCGTGGCCCGCGAACTCGGTGTCCGTTTCCTCGACGGCGATACCCTCCACCCCGTGGAGAACGTCGCCAAGATGGCCGTCGGCACGCCGCTGACAGACGAGGACCGCTGGCCCTGGCTCGCGATCGTGGGCAGTGAACTGGCAGCAGCCGGCCCGGACGGCCTGGTCCTCGCCTGTTCCGCCCTGCGTCGGAGATACCGGAACGCTATCCGCGCCCAGGCCCCCGACACCGTGTTCCTGCACCTGCACGGCAGCAGGGAAGTGCTGGGCTCCCGGCTGGAGGGCCGCAGCGGCCACTTCATGCCCGCGGCCCTGCTCGAATCGCAGCTGGCAACCCTGGAACCACTGGAAGAGGATGAGCCCGGCGTTGTCGTGGACATCGACTCCCCCGTGCAACAGGTGGTCAGGGACGCCCTGACCAAGCTGAATAAGGCTGCCGCGCCTGGGCACACAGGAACATGA	MHNNAPSAAAHSAPSAAAGPRVIVMGVSGCGKTTIGDLVARELGVRFLDGDTLHPVENVAKMAVGTPLTDEDRWPWLAIVGSELAAAGPDGLVLACSALRRRYRNAIRAQAPDTVFLHLHGSREVLGSRLEGRSGHFMPAALLESQLATLEPLEEDEPGVVVDIDSPVQQVVRDALTKLNKAAAPGHTGT	PGPT0012175_355	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
D1-17_00348	1230	rspA	COG4948	D-galactonate dehydratase family member RspA	ATGAAAATTGTTGCCGCGGAAGTCTTCGTGACCAGTCCCTCCCGTAACTTCGTCACGCTTCGGATCACCACCGAGGACGGTGTGACCGGGATCGGGGACGCCACGTTGAACGGGCGTGAGCTCGCGGTCGCCGCGTACCTGAAGGAGCACGTGGCGCAGCTGCTGATCGGCAAGGACCCGCACCGGATCGAGGACACTTGGCAGTTCCTGTACCGCTCCTCGTACTGGCGCCGCGGGCCGGTGACCATGGCGGCGATCGCCGCCGTGGACATGGCCCTGTGGGACATCAAGGGCAAAATGGCCGGCATGCCGGTCTACCAGCTCCTGGGCGGGGCGTCCCGGAACGGGCTGCGGGCGTACGGCCACGCCTCGGGTTCAAACCTGCCGTCGCTGTTTGATTCGGTCCGGGAGCACCTGGAACTGGGGTACAAGTCCATCCGGATCCAGACTGCCGTCCCGGGCATCAAAGCCGTCTACGGGGTGGCCGCCCAGGCGCAGGCCTCCGGGGAGCGCTACGACTACGAACCCGCCGGCCGCGGAGCCTTCCCGCTGGAAGAGGACTGGGACACCCGTGCCTACCTCCGCCACCTGCCCACCGTCTTCGAAGCGGTCCGGAACGAGTTCGGCCCGGAAATCCCGCTGCTGCACGACGGCCACCACCGGATGACGCCGATCCAGGCCGCGAAGCTCGGCAAATCACTGGAGCCGTATGACCTGTTCTGGCTGGAGGACTGCACCCCTGCCGAGAACCAGGAGGCCCTGCGCCTGGTCCGCCAGCACACCACCACCCCGCTGGCGATCGGCGAGATCTTCAACACGGTGTGGGACTACCAGACGATCATCAAGGAACAGCTCATCGACTACGTGCGAGCGGCGTCCACGCACTTTGGCGGGATCTCGCCACTGAAGAAGGTCATGGACTTCGCCGCGCAGTACCAGATCAAATCCGGCTTCCACGGCCCCACGGACATCTCCCCGGTCGGGTTCGCCGCGCAGCTGCATGTGGGCCTGGCGATCCATAACTACGGCATCCAGGAATACATGCAGCACTCGGCCGCCACGAACGAGGTCTTCGAGCAGTCCATGACCTTCACCGACGGGTACCTGCACCCCGGGGACAAGCCCGGCATCGGCGTCGAGTTCAACGAAGAAGCCGCGGCGGCATACCCCTACCAGCAGGCCTACCTGCCCTACAACCGCCTCATCGACGGAACGGTCCACGACTGGTGA	MKIVAAEVFVTSPSRNFVTLRITTEDGVTGIGDATLNGRELAVAAYLKEHVAQLLIGKDPHRIEDTWQFLYRSSYWRRGPVTMAAIAAVDMALWDIKGKMAGMPVYQLLGGASRNGLRAYGHASGSNLPSLFDSVREHLELGYKSIRIQTAVPGIKAVYGVAAQAQASGERYDYEPAGRGAFPLEEDWDTRAYLRHLPTVFEAVRNEFGPEIPLLHDGHHRMTPIQAAKLGKSLEPYDLFWLEDCTPAENQEALRLVRQHTTTPLAIGEIFNTVWDYQTIIKEQLIDYVRAASTHFGGISPLKKVMDFAAQYQIKSGFHGPTDISPVGFAAQLHVGLAIHNYGIQEYMQHSAATNEVFEQSMTFTDGYLHPGDKPGIGVEFNEEAAAAYPYQQAYLPYNRLIDGTVHDW	PGPT0018285_232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018285-rspA|manD-K08323	NA	NA
D1-17_00349	1467	mtlK_1	COG0246	Mannitol 2-dehydrogenase	ATGACGCCTGCGGGGCCTCAGCAGCGCAACAATGCCTTGCATATCAATGAATCGAAGGGAACAACGACCGTGGAGACCCAACTGCGAACCAAGAACCTGCTCTCTGCGCAGACCATCCAACTTCCCCAGCGCCCTCCCGTCCGCATGGTCCACATAGGCCTCGGGGCGTTTCACCGGGCACACCAGGCCTGGTACACGTGGAAAGCTGACCCCGAAGCCCAATGGGGCATTGCAGCGTTCACCGGCCGCAGCGCGGCCGCGGCCACTGTCCTGTCAGCACAGGACGGCCTGTACACCCTCATTGTCCGCTCCGCCACCGAGGACACCTTCCACATCATCTCCTCCATCGTGGAGGCCCGGGACGGCGCCGACCTGGCCCGCCTCAAGGAGCTCCTGAGCGCGGAAACAACAGCAATCGTTACCCTGACAATCACCGAAGCCGGCTACCACCTCCTGCCGGACGGGACGCTGGACCTTCATCATCCCGCCGTGCAGGCGGACATCGGGACACTGCGCGAAACCGATGACCCCCATAAGGCGGCCCCAGCCACCCCCATCGGCCGCCTGGTCCACGGCCTGCGCGCGCGCAGAAATGCCGCCGCCGGAAAGGTCGCCATAGTTTCCTGCGACAATCTCGCCGCCAACGCCGCAGCAACCCGCAACGCCGTGTCAGGAATGGCAGGGGCCGCAGATCCCCTCCTGGCTTCCTGGATCCTGGAGAATGTCAGCTTCGTGGGAACGTCCGTGGACCGCATCACACCCCGCACCACTACCGAAGAACTGCATCTGGTGCGTGAACACTCCGGCCTCGAAGACCACTCCCCCGTGGTCACAGAACCGTTCACCAACTGGATCCTCAGCGGCAGCTTCCCTGCCGGCAGACCCCGCTGGGAGGATGCAGGCGCCGTTTTCGTTGACGACATAGAACCGTACGAAAACCGCAAACTGTGGCTCCTCAACGGTGCACACTCCCTCCTCGCCTACACAGGACTCCAACGCGGGCACAACACCGTCGCCGAGGCCCTCTCCGACCCTCTCTGCGCCCAATGGGTCCAGGAGTTTTGGGACGAAGCCGAACGAAATCTCCCCGCGGAGGGTCTGGACATCCCCACCTACCGGAATGCACTCCTGGAAAGATTCAGCAACAAACGAATCAGCCACCACCTGAACCAGATCGCCGCTGACGGCACCACCAAGCTCAGGATGCGCGCACTGCCGGTACTGACAGCAGAACTGGCCGCCGGAAGGCCGGCCACGGGAGCGGCGCGCATCTTCGCCGCATGGCTCACATGGGCTCAAAACGCCCAAGAAATCCAGGACCCCGCAATGACCGACATCCAGCAGGCCCTGCAGCTGAACGGAAGACAGCGCACCGCAGCACTCATTGCAGCCATCGACGCTCAACTTTCAGATGACACCTCCACACTGAACCACATCGAAGAACTCGCCAAATCACTACGAGCCTGA	MTPAGPQQRNNALHINESKGTTTVETQLRTKNLLSAQTIQLPQRPPVRMVHIGLGAFHRAHQAWYTWKADPEAQWGIAAFTGRSAAAATVLSAQDGLYTLIVRSATEDTFHIISSIVEARDGADLARLKELLSAETTAIVTLTITEAGYHLLPDGTLDLHHPAVQADIGTLRETDDPHKAAPATPIGRLVHGLRARRNAAAGKVAIVSCDNLAANAAATRNAVSGMAGAADPLLASWILENVSFVGTSVDRITPRTTTEELHLVREHSGLEDHSPVVTEPFTNWILSGSFPAGRPRWEDAGAVFVDDIEPYENRKLWLLNGAHSLLAYTGLQRGHNTVAEALSDPLCAQWVQEFWDEAERNLPAEGLDIPTYRNALLERFSNKRISHHLNQIAADGTTKLRMRALPVLTAELAAGRPATGAARIFAAWLTWAQNAQEIQDPAMTDIQQALQLNGRQRTAALIAAIDAQLSDDTSTLNHIEELAKSLRA	PGPT0018275_1197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
D1-17_00350	1113	idnD_1	COG1063	L-idonate 5-dehydrogenase (NAD(P)(+))	ATGCCCCACATGAGCAATGCGCTTGTTATCAGAGGTCCGGGCCAGCTCGACCTCGAAGTCCGCCCTCTCCCGGCCCCGGCCGAGAACGAACTCATCGTAGAGATCAAGCTGGGCGGAATCTGCGGGAGCGACCTGCATTACTGGAAGCACGGTTCTTCAGGCACCTCGGTCCTGCAGGATCCCATGATTCTTGGGCACGAGGTCGTAGGTGTAGTCAGGCAAGAGGCCGCCGACGGAGCCGGCGCCGCAGAAGGAACCCCCGTGGCCATTCACCCGGCGACGTCCTGCGGAAGTTGCCGGCAGTGCACGGCAGGGCGCCGTCATCTCTGCCTGAGCGGACGGTACCTGGGAAGCGCAGCACACCGCCCCCACACCCACGGCGGTTTTGCCAGCCTGATGGTGGTCCCCCGCGACAGCGTACGTCCCCTGCCTGAAGGGGTTCCTTTGGAACATTTTGCGCTGGCAGAACCGGCCAGCGTGGCATGGCACGCAGTGATCCGGGCAGGATCCATCGCAAACAAGCGCGTCCTGGTCATTGGGGCCGGGCCAATTGGACTGGCGGTCGTCGCCGTTCTCAGACTGCGGGGAGCCGGCCAGATCGTGGTCAGCGACCTTCATGCACAACCCCTGGAAACAGCACGCCGCATGGGCGCTCATCGCACCATCAACCCGGGAACACCGAACAGAGAAGAAGCAGACGCTGACTTTGATGTGACGTTTGAATGCTCAGGCACAGCGGCCGGGCTTTCCTTCGCCGTCGATGCCACACGTGGCGGCGGCGACGTCGTGATGGTCGGGAACCAAAGAGTCGGAGACATTCCCTTTCCGGCGTCCCGGGCGATTACCAAGGAACTGCGGGTCAGCGGGTCATACCGTTTCCTGGATGAGTTCGATGACGTTGTGAATGCCCTGGCTACCGGGGAACTGGACCTGACTCCGATCATCTCCCACATCATCGACTGGCGTGACTTCAGCCGTGCCTTCGAACTGGCGGCGTTGCCGGGCCAGTCCAGCAAGGTTCTGCTGGCCATCAACCCCTTGGATGAAGAAGGCATCAGCGCCCCCGATCACAGCGTCCACGCCGCGGGCCATCACGCCAACCGCGTTCCCTAA	MPHMSNALVIRGPGQLDLEVRPLPAPAENELIVEIKLGGICGSDLHYWKHGSSGTSVLQDPMILGHEVVGVVRQEAADGAGAAEGTPVAIHPATSCGSCRQCTAGRRHLCLSGRYLGSAAHRPHTHGGFASLMVVPRDSVRPLPEGVPLEHFALAEPASVAWHAVIRAGSIANKRVLVIGAGPIGLAVVAVLRLRGAGQIVVSDLHAQPLETARRMGAHRTINPGTPNREEADADFDVTFECSGTAAGLSFAVDATRGGGDVVMVGNQRVGDIPFPASRAITKELRVSGSYRFLDEFDDVVNALATGELDLTPIISHIIDWRDFSRAFELAALPGQSSKVLLAINPLDEEGISAPDHSVHAAGHHANRVP	PGPT0018190_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
D1-17_00351	1056			hypothetical protein	GTGCAGAACCACAAGAAATCAGCAGTTACAGGAATTGTGCTCATTGCAGGGGCAGCTCTTGCCCTCAGCGGGTGCTCCCCGCAGAGCCAAGCCGGGCAGGAAACTGGAGCAACTTCGCTCGATCAGGTGTCCGTTGCCCTCGTACCGGGAGGCGCGCACCCGTACTTCCAGCCATGGAAGCAGGGAGGCGAGGCGGCGGTGAAGGACTTTGGTATCGGCAAGGTGACCTTCAACGAAACCGGCGAATGGGACCAAACCAAACAGAACTCCGCCATTGACTCACTCGGCGCCCAGGGCTACAACGCGTTCGGTGTGTTCGGGGTCTCCGCAACCGATATCGACAGCACTTTTAAGGACCTGAAACAGCAGGGCTTCGCCGTTGGTGCTCTGGCTGCCTGCCCCGCCGGGGATACTAACAGCGCAGACTTTTGCCTCAGCACGGACACCGGAACGGCCGCCTATAAGGCCGCAAAGGCCGCCATTGATGCGATGGGCGGTTCAGGAAACCTTGTCCACCTGACCGGTAACGCGGTCGACACGAACACCCAGCGTCGCATCACCGGAGTCCAGAAAGCCGTCGACGAAACCAACGGCGGGGTGAAACTGCTGACCACAGTCACGGACATCGACAAGGATCTCCAGAGTGCTCAGAAGGCCGTCAGCGACCTCCTGGCAACGAGGGGATCCGAAATCGACGGCATGGTCACCACCGCAGGCAACCCGGCCGTGGCTGCCACCCAGGGCGTCGCGGACGCGAAGCTGCCGATCAAGGTGATTGCGACCGACAATGACCCCATTGTTGTGCGCGCGGTCAAGGACGGGACCATCGCCGGGACCGTGGTGCAGAACCCGTACGGCCAGGGATACGTCGGAACCTGGGCCCTGGCCAATCTTCAGGCCGGAATCTGCGAGCCGGCTGAACCCGGTTTCTCCATCGACTCAGGCTCTTTCCTCGTTACCAAAAAGAACGTGGAAACCTACGACCAGGAGCGCCTGGCAAAAACAAAGGAGCTCCTCAACGAGTTCCAGACGAAGCTGTTCAACTGCAAGAAGTGA	MQNHKKSAVTGIVLIAGAALALSGCSPQSQAGQETGATSLDQVSVALVPGGAHPYFQPWKQGGEAAVKDFGIGKVTFNETGEWDQTKQNSAIDSLGAQGYNAFGVFGVSATDIDSTFKDLKQQGFAVGALAACPAGDTNSADFCLSTDTGTAAYKAAKAAIDAMGGSGNLVHLTGNAVDTNTQRRITGVQKAVDETNGGVKLLTTVTDIDKDLQSAQKAVSDLLATRGSEIDGMVTTAGNPAVAATQGVADAKLPIKVIATDNDPIVVRAVKDGTIAGTVVQNPYGQGYVGTWALANLQAGICEPAEPGFSIDSGSFLVTKKNVETYDQERLAKTKELLNEFQTKLFNCKK	PGPT0015740_1086	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
D1-17_00352	1074	lsrD		Autoinducer 2 import system permease protein LsrD	ATGACGATCGCAGAAAAAAAACCCGCACTGCGCGCCGTGACTCCAAACCGTCCCGGGCGATCACCGCTCCAACTACTCACCAGCCAACGCACCCTGCTGGCCTTGCTGACCGCAGCCCTTTTCATCGGGTTCGGCCTCATGAATCCGCAGTTCTTCAATGAAAGGTTCGTTGTTTTTCCCCTGCTTCGCGATGCCTCAGTCTTCGCTGTCGTGGGGCTGGCCCAAATGTGCGTTCTGTCCATCGGGCAGATGAACCTGGCCGTTGGCCGCATGGCGGCGGTGGGTGCCATGGCTTCCGGGGCCTGCTACCAGTTCCTGGGGATGTCTCTGCTTTCCGGCGCGGTTGTCGGCATGGTCGTGGGAGGACTGCTTGGCCTGCTCGCCGGCTGGATCATCGTCAGGTCCCATGTGAACGCATTCGTGGTCACCCTGGCCCTGGACTTCGCCCTGCTGGGCCTGGTGACCCTGGTGTACACCGCACTGACAGAAAACGCGGCGTTCAGCACAAAACCTGAAGGCATGGACGTATTCCGGAACGGTTCTTTCGCTGACATTTGCGCCTTCGGCTACTGCGGACCCCGGGCCATTCCCTTGCTCGCCATTCCCGCGCTGCTGGCCGTCCTGCTCATGCACCATCTCTACGTCCGGTCACGGATAGGCAGGGAAATCCTCGCCACCGGAGCCAACCTCAGAGCAAGCGAACTCTCCGGCATCCCGGCCGGCAAGCGGATCCTGCTCGCCCACGCCCTCTCGGGCATCCTCGCCGCCCTGGCCGGGATCATGCTGGCCACCACCACCGGATCCTTCTCAGCGGCCATTGGCTCCGAATTCATGATCCCCTCATTCCTCGGCCCGGTTCTGGGCGGAACTCTGCTCATCGGCGGCGTCGTCTCCGTGATAGGAACCGTGCTCGGCACGTTACTGACGCTGGTGATCCGCATGGGACTCAGTGTCGCCGGAGCAGGACTGGACACACTCAACATCGCGCTGGGCAGTGTTCTGCTGCTGGCACTTTCAGTGCAGCGCTTCCAGCGCATCCGCCGGAGGAAGAAAGACAAGGAAGCCGCCGCATGA	MTIAEKKPALRAVTPNRPGRSPLQLLTSQRTLLALLTAALFIGFGLMNPQFFNERFVVFPLLRDASVFAVVGLAQMCVLSIGQMNLAVGRMAAVGAMASGACYQFLGMSLLSGAVVGMVVGGLLGLLAGWIIVRSHVNAFVVTLALDFALLGLVTLVYTALTENAAFSTKPEGMDVFRNGSFADICAFGYCGPRAIPLLAIPALLAVLLMHHLYVRSRIGREILATGANLRASELSGIPAGKRILLAHALSGILAALAGIMLATTTGSFSAAIGSEFMIPSFLGPVLGGTLLIGGVVSVIGTVLGTLLTLVIRMGLSVAGAGLDTLNIALGSVLLLALSVQRFQRIRRRKKDKEAAA	PGPT0016590_1918	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
D1-17_00353	990	alsC	COG1172	D-allose transport system permease protein AlsC	ATGAAAAACCTGATCTCCAAACTCCCGATTCACGGCTCAGAAGGCACCCTGACCCTGATCGTCTGCGTAGGCTTCCTCATCCTGGGCATCTCCTCGGGCGGCAGCCTCTTCAGCCAGCAGGGGCTGCTGAGCTTCCTGGCATACCTCTCGGTGCCCATCCTCATCGGACTCTCCCAGATGACGGTGCTGGCCGTGGGCCAGCTGAACCTGGCCATCGGCGCAATGGGGGGCGCCGTCTGCGGACTCATGGCAGTGCTGATGGCCGACGGCGCAGTCCCGGTCTGGGCCGCACTGCTCATCGGACTGGCCACCGCGACAATCATCGGCGCAATCAACGGCCTTCTTGTCATCATCACCGGCCTCCACGGCTTCATCGTCACCCTCGGAACGATGACCATCCTGCTGGGCGTCCAATTCTCCCTCGTACGGTCCTTCACGATCGATGCCTACTCCGACTCGCTAAAATCCTTTGGACGCGAGAATATTGCGGGAATTCCCTGGCTCTTTCTGGCCACGATCGCAGTAAGTATCCTCGTCTACTTTTTCTTCTCCCGCTCCGTAGCGGGCAGAAATCTCCTGGCAACCGGGGGAAGTGAAGTAGCAGCCCGCCTCTCAGGCATATCCAACGCCCGGTCCATGATCCTGGCCTACACCGTCTCGGGATTTCTGACCGGACTGGCCGCCCTGGCGACCATGGCATCCCTGACGGGAATCAACCGCTCAATCGGCGTGGACTGGCTGCTGCCAAGCTTCGCCGCCCCCATCATTGCCGGGGTCCTGCTCACCGGCGGATCCGTCGCCATCTACGGAACAATCATCGCCGCGTGCCTGCTCCGGATCGTGGACGTCGCCCGCGCGCAGTTCCTGCTTGATCCAAGCTGGACCAGCTTCGTCATCGGGGCCGTCGTTCTCTCCACAGTCGCCATCAGCGAATACCGCAAGCGCCGCGCAGCATCCGTCATGCAGAAAAGAGAGGGACTGGCAGCATGA	MKNLISKLPIHGSEGTLTLIVCVGFLILGISSGGSLFSQQGLLSFLAYLSVPILIGLSQMTVLAVGQLNLAIGAMGGAVCGLMAVLMADGAVPVWAALLIGLATATIIGAINGLLVIITGLHGFIVTLGTMTILLGVQFSLVRSFTIDAYSDSLKSFGRENIAGIPWLFLATIAVSILVYFFFSRSVAGRNLLATGGSEVAARLSGISNARSMILAYTVSGFLTGLAALATMASLTGINRSIGVDWLLPSFAAPIIAGVLLTGGSVAIYGTIIAACLLRIVDVARAQFLLDPSWTSFVIGAVVLSTVAISEYRKRRAASVMQKREGLAA	PGPT0016590_3612	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
D1-17_00354	1515	mglA	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGAAAAACCGCCTCACCGCCACAGGGCTGACCAAGGAATACCCTGGAGTAAAAGCGCTCTCCGCCGCCCGGCTCACCTTGCAAGAAGGCAGCATTCATGCCCTGCTCGGAGAAAACGGAGCCGGAAAGTCGACGCTGGTAAAAATCCTCACCGGCGTGCACTCACCGGACGCCGGCACGCTACTCGTGGACGACGCCGAAAGGCACTTCGGCAGCCCCATCGACGCCGCGAGGGCAGGGATCGGCGTCGTCCACCAGGAAAGGAACGTCGTTCCACTGTTCTCGGTCGCGGAAAACATCACGCTGCAGGACCCGCCGTCCCGAAGGGGACTGATCGACCAACAGCGCAGGGCCGAAATCGTGCAGAACGTCCTGGAAACTCTGGAATTCGATGTCAACCCTGCGACTCCTGTTTCCGAATTGTCCGTCGCCCAGATCCAGCTGGTCGAAATCGGCAAAGCCCTCGCGCTGAACTCCAGGGTGCTGATCCTGGACGAACCGACAGCGTCCCTGACGGACAACGAAACGAGCAGGCTTTTCACCGTGCTGAGGAGACTGCGCGATGCAGGAACGGCGATCGTGTTCGTCAGCCACAAGCTGGAAGAGGTCTTTGACCTCTGCGACACAGTCACCATCCTCCGGGACGGCGTGACCGTCGTCGAATCAGAACCGCTCGCCAACTACACCCAGCGCGACATCGTCAACCTGATGGTCGGGCGCATCCTCGCCGAGCGGGACGTCCGGCTTCGCGTTATTGAGCGGACCGGCACTCCAAAGCTCGCCGTGCGGGACCTCTCCACCGACCTCGGACACACCAACATTTCCTTCGAGGTGTACCCGGGCGAAGTCCTCGGTCTCTACGGACTCGTCGGGGCCGGCCGCAGCGAACTGGCCCGCTCCATCCTGGGGCTGAACAAGGTGACCGGAGGCGAGATTCTCCTCAACGGCCGGCCAGTCACCATCGGCAGCATGGGCGAAGCCCTCCACCGCTACCGCATGGGGTACGTGACGGAGGACCGGAAGGGCGAGGGCCTTTTCCTGGACATGACCGTGCGGTACAACGTCGCCGCTACTATCTGGCGCCGCATCTCAGGCTGGTTCGGCGTCAAAACACGGCTCGAAGAAGAAGCCGCCGCGAAGGCAATCAAGAACCTCAGCATCAAAGTTTCCTCCGACCAACAACTGGTGGGCCAGCTCTCGGGCGGCAACCAGCAAAAAGTCAGTCTCTCCAAGTGGCTCGCCGCGAACACAGACGTGCTCATCATTGACGAGCCCACCGTCGGCGTGGATGTCCGGACAAAGGAAGATTTCCAGGAACTTATCCTCGACCTCGCGGACTCAGGCCTGACGATACTACTGATTGACAGCGATCTTCCGGAGATGATCAACCTGGCAGACCGCATAGCCGTTGTCCATGACTACCGGCTGGTCAACATCGTCGATAACACCAAGAACTACGCGGACGTCAGCGCAACGGTGATCCGCAGCATCCACGACTCCTCGGTGGCAGCATGA	MKNRLTATGLTKEYPGVKALSAARLTLQEGSIHALLGENGAGKSTLVKILTGVHSPDAGTLLVDDAERHFGSPIDAARAGIGVVHQERNVVPLFSVAENITLQDPPSRRGLIDQQRRAEIVQNVLETLEFDVNPATPVSELSVAQIQLVEIGKALALNSRVLILDEPTASLTDNETSRLFTVLRRLRDAGTAIVFVSHKLEEVFDLCDTVTILRDGVTVVESEPLANYTQRDIVNLMVGRILAERDVRLRVIERTGTPKLAVRDLSTDLGHTNISFEVYPGEVLGLYGLVGAGRSELARSILGLNKVTGGEILLNGRPVTIGSMGEALHRYRMGYVTEDRKGEGLFLDMTVRYNVAATIWRRISGWFGVKTRLEEEAAAKAIKNLSIKVSSDQQLVGQLSGGNQQKVSLSKWLAANTDVLIIDEPTVGVDVRTKEDFQELILDLADSGLTILLIDSDLPEMINLADRIAVVHDYRLVNIVDNTKNYADVSATVIRSIHDSSVAA	PGPT0016600_3191	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
D1-17_00355	858			hypothetical protein	ATGAGGATCGACGCCCACCACCACGTCTGGACCCTTGCCGATCACCCCCAGACGTGGATGACCCCCGTGCAGGCAGAGACCATCGGCCGTGACTTCACACTCCAGGACTGGGCGGATGCCGCCAGCCCGTCGGGCATAAGCCACTCTGTCGTTGTGCAGACCGTGGAAGACGCGACCGAGACACTTGGGCTGCTCGCCCTGGCAAGGGAATCATCGACCGTGCTCGGTGTCGCGGGTTGGATCGACGCTGGAACCAACCCGGAAGGGCAGCTGGACCGGGTGCTGGATCATCCCGGCAGCGAAAAGCTCGTGTCCGTGCGCGATCTTACGGAGTACCGGCGAGACCTCGCGTGGCTGGCAGGGGAGGAGGCTGCCCGGTTTTTCAAGGCAGCAGGAAAAGCCGCCCTCTCCGTGGACCTCCTGATCAGACCGGAGCACCTGCCTGCCGCCGCGCAGGCGGTGGCAGCCCATCCCGCGGTCCGATTCATAGTCAACCATCTGGGTAAGCCGGATCTCGATGTGACGCCCGCTGCTGACTGGGGCCGAAGCATGTCAACGATTGCTGGCTCGCCCAACGCGGCAATCAAGGTCTCCGGGTTCGCCACGCTCGCACACGACTTCAGCACAGTAAAGGCCCGCCTGCCCGAATATGTGGACGAATGCCTGCGCCTCTTCGGTCCGGACAGGATGATGTTCGGCAGTGACTGGCCCGTCTCACTCATGGGCGCCTCCTACGCTGATCTCGTAGCCGCCCTCCAGGCGGCGGTAGCGAGCCTCAGCCGAAGCGAACAGGAATCAATCTGGCACAGCACGGCATCCCGCTGGTACGGGCTACAGGTGAAAGAGGGAATCAAGTGA	MRIDAHHHVWTLADHPQTWMTPVQAETIGRDFTLQDWADAASPSGISHSVVVQTVEDATETLGLLALARESSTVLGVAGWIDAGTNPEGQLDRVLDHPGSEKLVSVRDLTEYRRDLAWLAGEEAARFFKAAGKAALSVDLLIRPEHLPAAAQAVAAHPAVRFIVNHLGKPDLDVTPAADWGRSMSTIAGSPNAAIKVSGFATLAHDFSTVKARLPEYVDECLRLFGPDRMMFGSDWPVSLMGASYADLVAALQAAVASLSRSEQESIWHSTASRWYGLQVKEGIK				NA	NA	NA	NA	NA
D1-17_00356	969	fdh		D-threo-aldose 1-dehydrogenase	GTGAAAACACGCACGACCCGCGGCGGCCTCAGACTCACGGAAGTCGGACTGGGTACATCCCAGCTCGGCAACCTGTACACGGAAACCAGCGACGAAGACGCCGCAGAAGTGATCAGTACCGCCTGGCGCGGGGGAGTGCGCTATTTCGACACCGCCCCGCACTACGGCCTGGGCCTTTCCGAGCGGCGGCTGGGTTCACTCCTGCAGCCGTACCCGCGGGATGAATACGTACTCTCCACCAAAGTTGGTCGGCTGCTCACCCCCCATGTCGGAGGAGCGGGCAAGCAGGACACAGAGGGATTTGCTGTCCCGGCAACTCACGTCCGGCAATGGGATCTCAGCAGGGACGGCATCAGGCGCTCCATTGAAGAAAGCCTGATCCGCCTTGGCCTCGACAGGATTGATATCGCATATCTGCACGACCCCGACGGCAGAGAAGAAGAAGCGATCCGCACCGCGCTGCCTGCCCTGATCGAACTGCGTGATGAGGGCATCCTCCGAGCTGTCGGGGCCGGGATGAACCATGCACCTCCCCTCACCCGGTTCGTGAAGGAGACTGACATCGATATCGTCATGGTCGCCGGAAAATTGACCCTGCTGGACAAGTCAGCGGCCGATGAACTGGTCCCTGCGGCGATGGAGCACGGCGTCAGCATTGTGGCGGCAGGTGTCTATAACTCCGGAATCCTGGCAACCCGGCGGCCAAAGGCGGATGCACGCTTCGACTACGTGCAGGCAGATCAGGAGCTGATTTCCCTGGCTTGTGAAATGGCCGATGTGTGTGAGGCGAACGGGGTGGAACTCCCGGCGGCAGCCTTGCAGTTCCCTCTCGGGCAACCGGCTGTCGCCTCCGTTGTCGTGGGAGCCAGAAACGGCGCGCAGGTCAGCAGTGCCTTGGACCGCTACAAGACGGAAATCCCCGAACGGCTCTGGCGGATGCTCGCAGGTAAGGATCTGGCGCGCCGCTAG	MKTRTTRGGLRLTEVGLGTSQLGNLYTETSDEDAAEVISTAWRGGVRYFDTAPHYGLGLSERRLGSLLQPYPRDEYVLSTKVGRLLTPHVGGAGKQDTEGFAVPATHVRQWDLSRDGIRRSIEESLIRLGLDRIDIAYLHDPDGREEEAIRTALPALIELRDEGILRAVGAGMNHAPPLTRFVKETDIDIVMVAGKLTLLDKSAADELVPAAMEHGVSIVAAGVYNSGILATRRPKADARFDYVQADQELISLACEMADVCEANGVELPAAALQFPLGQPAVASVVVGARNGAQVSSALDRYKTEIPERLWRMLAGKDLARR	PGPT0017915_990	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
D1-17_00357	696			hypothetical protein	ATGTCCAGCAGTCCCGAAGTAGAAGCGAGAACACCCGACACGGCCCCCATGTTCAAGAAGAACGTGCTGGCGGACGATGTTTACGAGCACTTCAAATCCCTGATCATGGACCACTCCCTGGAACCGGAGACCTCCCTCAAGATCGAGATTCTCGCCCGGGAGCTGGGTGTTTCCCCTACCCCTGTGCGGGAGGCGCTTCTCCGCCTGGAGACCGACTCACTGGTCACGAAGCGCGGCAACCGCTATTTCACCAATCCCGTCATTAACCGTGCAGAATTTGAAGACCTCTGGGAATTCCGGCTCTGCATTGAACCATGGGCAGCCGCCCTTGCCGCCCGCCGTGCCACGCAGGCGGACATCGACCGCCTACGGAAAGAAGTCGAGCACCCGGCTGGCATCGGCAAGGCAATGGACTTCAGCAAGTACAAGGCAATGCAAGAACACGACCAACGTTTCCACAGCCTGATATTCCAAATTGCAGGCAACGACTCAGCCAGTGACGCCTTCACGCGCGCCCACGTCCACTTGAGAACATTCCGCATCCTGTACGCATCCCAACTCGGCCACGCTGCCGTGGACGAGCACGGCGCCATAGCAGAAGCGATATCAATCAAAGACCCTGTCGCCAGCCAGACAGCGATGAGGGAGCATCTCGAACATTCGCTCGAGCGCCTTCGCCCATTCGTCAAAGATTAG	MSSSPEVEARTPDTAPMFKKNVLADDVYEHFKSLIMDHSLEPETSLKIEILARELGVSPTPVREALLRLETDSLVTKRGNRYFTNPVINRAEFEDLWEFRLCIEPWAAALAARRATQADIDRLRKEVEHPAGIGKAMDFSKYKAMQEHDQRFHSLIFQIAGNDSASDAFTRAHVHLRTFRILYASQLGHAAVDEHGAIAEAISIKDPVASQTAMREHLEHSLERLRPFVKD				NA	NA	NA	NA	NA
D1-17_00358	213			hypothetical protein	ATGGCCATCCGCGTGCTCTCCGTGGTGGGTGCCTTCGCTGATTTCGAACGCTCCCTCCGGGAGCGGCAGCGGAAGGCATCGCACGGGCGAAGCAGCGGGGCGTCTACCGGGGACGGAAAAAGACCCTTTACCGGAACGGGCGGCCGACCTGGTCCAGCGGGCGGCCCGTGGAATTCCCAAATCATCCTCGCCAGCGATTACGGCATCAGCTAG	MAIRVLSVVGAFADFERSLRERQRKASHGRSSGASTGDGKRPFTGTGGRPGPAGGPWNSQIILASDYGIS				NA	NA	NA	NA	NA
D1-17_00359	1317	ftsH_2		ATP-dependent zinc metalloprotease FtsH	ATGACCAACTGGCGGATCAGGGATTTTCACTCCTCGGACCTGGACGGAATCCTGCACCTCTGGGAGACCCTGAAGGCGAGCAACGTGGAACCCGTCTATGCCCTCTCCGAGGTCCTGGCATCCTGCGAAAAGGACCACGCCGTGGTGGCGGTACAGGGCGACCAGGTGGTGGGTGCCGCCGTCGGACGCGCCGCGCACGATCAGGGCTGGATCGTTTTCCTGGCCACCCTGCCCGAATACCGCGGCCGGGGAATCGGCACCTCGCTGCTGGCCGCCGTCGAAAACCGCATGGCACCGCACGGCCTCAACAAGCTCTCTGCACTGATGCCGGAATCGGAAACCCGGGTGGAGGCGTTCCTGGGCCGCGGCTTCGCACTGAAAAAGAACCTGCGCTACTTCGAACGGACCATTCCCGTCCAGCGCCAGGAACTCGGCGCGCTGGGCCAGCTCGGCGGCCGCGTCCTGGCCCGCGACCTGTGGGAAAACGTGGCCGGCATGCGCAAGGAAAAGGAACTGCTCGAACGCCGCCTGGTCCTCCCCTTGGCCGAGGCCGACCTCGCCGACGAATTCGGCGTGGTGCCGCCCCGCGCTGTGGTGCTTTTCGGACCGCCCGGCACCGGCAAGACCACCTTCGCCAAAGCCATCGCCTCCCGCCTCGAATGGCCTTTCGTGGAGGTGTTTCCCTCCCGGCTGGCCGCGGACCCGCAGGGTCTGGCCGGGGCGCTCCGCGAGACCTTCCTGGAGATCGCAGAGCTGGAACACGCCGTGGTGTTCATCGACGAGGTGGAAGAAATCGCCTCCCAGCGCTCGGGCGAGCCGCCGTCACCGCTGCAGGGCGTCACCAACGAACTGCTCAAGATCATCCCTGCCTTCCGCGAACAGCCCGGCCGCCTGCTTGTCTGCGCCACCAACTTCATCCGCGCCCTGGACACCGCCTTCCTGCGCCACGGCCGGTTCGACTACGTCATCCCCATCGGCCTTCCCGACCGGCAGGCCCGCGAAGCGATGTGGCAGCGCTTCATCCCCGCCCCCGTTCTGGACGCCGTTGATGTTGACCTGCTGGTGGAGCACACCCAGGGCTTCTCCCCCGCCGACATCGAGTACGCCGCCCGCAGCGCCTCCCAGCGCGCCCTGGAAAAAGCAGTGTACGACGACGGCGGGCTGGCCTCCGCAGGTCAGCTTTCCGTCCGGGAGGCGGTCCGAAAAGGCCCCGCCACCCAGGATTACCTCGACGCCATCGCCGAAACCCGCACCACCGTCAGCGAGGAAGTCCACCAGGACTTCCTCGAAGACATCGACGCCCTGGGCCGCGTGTAA	MTNWRIRDFHSSDLDGILHLWETLKASNVEPVYALSEVLASCEKDHAVVAVQGDQVVGAAVGRAAHDQGWIVFLATLPEYRGRGIGTSLLAAVENRMAPHGLNKLSALMPESETRVEAFLGRGFALKKNLRYFERTIPVQRQELGALGQLGGRVLARDLWENVAGMRKEKELLERRLVLPLAEADLADEFGVVPPRAVVLFGPPGTGKTTFAKAIASRLEWPFVEVFPSRLAADPQGLAGALRETFLEIAELEHAVVFIDEVEEIASQRSGEPPSPLQGVTNELLKIIPAFREQPGRLLVCATNFIRALDTAFLRHGRFDYVIPIGLPDRQAREAMWQRFIPAPVLDAVDVDLLVEHTQGFSPADIEYAARSASQRALEKAVYDDGGLASAGQLSVREAVRKGPATQDYLDAIAETRTTVSEEVHQDFLEDIDALGRV				NA	NA	NA	NA	NA
D1-17_00360	498	rraA_2	COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGAGCGCTGTGTCCGAGCCGCTGGACAACACCACTGTTAATACTGCGGACCTTTACGATGAGCGTGGGGACACGCTGGCGTCTGTATCGCTCCAGTTCCAGTCCCTGGGCGGGCGGTCACACTTCAGGGGACGGACCCGGACCATCCACTGCTATCAGGACAACGTCCTGGTTAAGTCCACCCTGGCCACCCCTGGCAACGGCAACGTGCTGGTAGTGGACGGCGGTGGTTCCTTGGGCACAGCCCTGATGGGGGACATGATCGCCGCTAGCGCAGCGGCCAACGACTGGGCCGGCGTCGTCATTTACGGTGCAGTAAGGGACCGCGAGGCTATCGCCCAACTGGACCTCGGCGTAAAGGCCTTGGGCAGCAACCCCAAAAAGAGCGCAAAGGCCGGCGTCGGCAAGGTGAACGTCGATGTCGTGATCGACGGCGTGACCTTCCGGCCTGGGGCCATGGTCTGGTGCGATCCAGACGGCATCCTCGTGGAGCGGTAA	MSAVSEPLDNTTVNTADLYDERGDTLASVSLQFQSLGGRSHFRGRTRTIHCYQDNVLVKSTLATPGNGNVLVVDGGGSLGTALMGDMIAASAAANDWAGVVIYGAVRDREAIAQLDLGVKALGSNPKKSAKAGVGKVNVDVVIDGVTFRPGAMVWCDPDGILVER				NA	NA	NA	NA	NA
D1-17_00361	915	citE_1	COG2301	Citrate lyase subunit beta-like protein	ATGACAGCTGCACCGTCAGTTCCGGGCCGCGACAGGGACCAACAGGGCGGCGACGGCACATCCGAAATTCCTGGTTCGACGCCAAGGGAAAATTGGTCACCGCCCGGTCCTGCCTGGTTATTCTGCCCAGCGGACCGCCCGGACCGCTACCAGAAAGCCGTGGATGCAGCGGACGTTGTGATCATAGATTTGGAAGATGCAGTCGCGGCTCCCGACAAACCCGCTGCCCGGCAGGCCCTTCTTGCCTCGAGGCTCGACCCCGAACGTACGATCATTCGGATCAATCCCTTAGGTACGGCCGATGCCCGGTTCGATCTCGAAGTCCTGGCTAAGACCGACTATCAGATTCTCATGGTGCCCAAATGCGAGTCCGCGGAACAACTGGAAAGTGTCGAGGGATATGCTCTGGTGGCCCTCCTGGAAACTCCCCGCGGAATACTCCATGCGGAATCCATCATTGCCGTGTCTTCCGTGGTCGCCGTCATGTGGGGGGCTGAAGACCTTGTCGCCACTCTTGGGGGGAATTCCAGCCGATTGAGGACGGGACAGTACCGGGCGGTGGCTACCCATGCCCGTTCCCATGTGCTGCTGGCAGCCGCGACACACGGACGTGTTGCAGTCGACTCGGTCTACATGAACATCCCCGACGAGCGTGGCTTGGCGGAGGAATCGGACGATGCTGTGGCCGTAGGATTCTCGTCCAAGGCTGCCATCCACCCAAGCCAAATCCGTACAATCCGCAAAGCGTTCGAGCCGACAGAAGAGGAAGTAGCATGGGCCCTGAGCGTCCTCGCGGCCGCTGGTGAAAACCGCGGAGTCTTTCAATTCGAAGGCCAGATGGTGGACTCCCCCGTCCTCCGCCATGCTGAACGTCTTCTTTCCAGACGTACTCCCGCCCGCGTATCCCCGCATTGA	MTAAPSVPGRDRDQQGGDGTSEIPGSTPRENWSPPGPAWLFCPADRPDRYQKAVDAADVVIIDLEDAVAAPDKPAARQALLASRLDPERTIIRINPLGTADARFDLEVLAKTDYQILMVPKCESAEQLESVEGYALVALLETPRGILHAESIIAVSSVVAVMWGAEDLVATLGGNSSRLRTGQYRAVATHARSHVLLAAATHGRVAVDSVYMNIPDERGLAEESDDAVAVGFSSKAAIHPSQIRTIRKAFEPTEEEVAWALSVLAAAGENRGVFQFEGQMVDSPVLRHAERLLSRRTPARVSPH	PGPT0019480_3041	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019480-citE-K01644	NA	NA
D1-17_00362	570			hypothetical protein	GTGGTGACCATGGAAAGTACGCTCGAAGCAACTGATTCGGCCCCTGACCGGTCCGGAGCCGGCGGTGGTGCACCAACGGAGATCAAGCAGCGGGGCCTGTTCTTTGAAGAACTTGAGGAAGGCGTGCGCTACATCCATGCTCCGGGGCGCACCCTTACGGAGACCGACAACGTTCTGTTCACCACCATGACAATGAATACCCAGGCCTTGCACCTGGACGCGGCCTGGAGCGCAACCCAGCCCTTCGGTCAGAGACTGGTCAACTCGATGTTCACGTTGGCCACGATGGTGGGGCAGTCCGTGCCCCAACTGACCCAGGGCACCATCGTCGCCCAATTGGGCCTGACCGACATCGCCTTTCCCCACCCGCTGTACCACGGTGACACCCTCTATTCAGAGACCATAATTACCGGAAAACGGCTATCGTCCTCGCGACCCGGACAGGGAATCGTGACCATGCAGCACACCGGGAAAAACCAGGATGGGACGACGGTCGCTGTTGCTACCCGCACAAGTCTCTTCTGGACCAAACAAGGACACCAGGAATTGGCAGACAGGAAAGAACGATGA	MVTMESTLEATDSAPDRSGAGGGAPTEIKQRGLFFEELEEGVRYIHAPGRTLTETDNVLFTTMTMNTQALHLDAAWSATQPFGQRLVNSMFTLATMVGQSVPQLTQGTIVAQLGLTDIAFPHPLYHGDTLYSETIITGKRLSSSRPGQGIVTMQHTGKNQDGTTVAVATRTSLFWTKQGHQELADRKER				NA	NA	NA	NA	NA
D1-17_00363	1164	acdA_1	COG1960	Acyl-CoA dehydrogenase	ATGCCTGATTTCGAGCTCAGCGAGGACTACCAGGACCTCAGCAAGACCGTTCGCGAATTCGCTGACGAAGTCGTAGCCCCCGTTTCGACCAAGCACGATGAGGAACACAGCTTTCCTTACGACGTCGTTTCGCAGATGGCGGACATGGGACTCTTTGGCCTTCCGTTTCCTGAGGAGTTCGGGGGCATGGGCGGTGACTATTTCGCCCTGGCACTGGCCCTTGAGCAACTGGCCAGGGTTGACCAGTCCGTGGCCATCACCCTCGAGGCCGGTGTCTCGTTGGGAGCCATGCCTATTTACCGGTTCGGTAACGACGAACAGAAGCAGGAATGGCTGCCGAAACTCGCCTCCGGCAAGGCTCTCGCAGGCTTTGGACTGACGGAGCCTGAAGCCGGTTCAGACGCCGGGGGCACCAAGACCACCGCAAAGCTGGACGGTGGGCAGTGGGTTATCAACGGCAACAAGGAGTTCATTACGAACTCCGGCACCGACATAACGCGCCTGGTCACTGTCACCGCAGTGACGGGGCAGCAGGAACGCCCCGACGGCACTATCAAGAAAGAGATTTCGACCATCCTGGTCCCTACCAACACGCCGGGGTTCAAAGCTGAAAAGGCCTACAACAAGGTCGGCTGGAACGCCTCGGACACGCACCCCCTCACCCTGAACGACGTCCGGGTGCCCGAAGCGAACCTGCTCGGGGAAAGGGGCCGCGGCTACGCAAACTTCCTTTCCATCCTGGATGAGGGGCGCATCGCCATCGCCGCTTTGGCTGTCGGCGCAGCCCAGGGCTGCGTGGAGCAGTCGGTAAGGTACGCCAAGGAACGCAGCGCGTTCGGGCAGAGCATTGGCAAGAACCAGGCGATTGCCTTCAAAATCGCACGCATGGAAGCACGCGCTCATACAGCGCGCCTTGCCTACTATGATGCCGCTGCCAGGATGCTCGCCGGGCGGCCATTCAAGACTCAGGCCGCAATTGCGAAAATGGTTGCCGGTGAAGCCGCCATGGACAACGCTCGCGATGCCACCCAGGTATTCGGCGGTTACGGTTTCATCAATGAGTTCACCGTAGCGCGCCACTACCGCGACTCGAAGATTTTGGAGGTCGGCGAAGGCACCACCGAGGTCCAGTTGATGCTGATCGCCCGCGAGCTCGGACTGTAG	MPDFELSEDYQDLSKTVREFADEVVAPVSTKHDEEHSFPYDVVSQMADMGLFGLPFPEEFGGMGGDYFALALALEQLARVDQSVAITLEAGVSLGAMPIYRFGNDEQKQEWLPKLASGKALAGFGLTEPEAGSDAGGTKTTAKLDGGQWVINGNKEFITNSGTDITRLVTVTAVTGQQERPDGTIKKEISTILVPTNTPGFKAEKAYNKVGWNASDTHPLTLNDVRVPEANLLGERGRGYANFLSILDEGRIAIAALAVGAAQGCVEQSVRYAKERSAFGQSIGKNQAIAFKIARMEARAHTARLAYYDAAARMLAGRPFKTQAAIAKMVAGEAAMDNARDATQVFGGYGFINEFTVARHYRDSKILEVGEGTTEVQLMLIARELGL	PGPT0002285_547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-17_00364	2097	accA1_1	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGAATCAGACGTTCAGTTCTGTACTGATAGCGAACCGCGGCGAGATCGCCTGCCGGATCATCTCTACCTTGAGGAAGATGGGAATCCGTTCCATCGCCGTCTATTCCGAGGCGGACGCCGGGGCCAAACATGTACACCTTGCCGATGAGGCGATTCTCCTCGGGCCTGCTCCGGCCGTTGACAGTTACCTGAACATTGACGCCCTCCTGTCCGCTGTCAAAGCCAGCGGTGCAGAGGCAGTGCATCCCGGTTACGGCTTCCTTTCCGAAAACGAAGCCTTCGCCCGTGCGTTGGCAGATGCCGGTGTGGTTTTCATCGGTCCGGGAATCCATGCGCTGAACATGATGGGTGACAAGATCCGTTCCAAGAACCACGTCATGGAGCACGGAGTGCCCGTGGTGCCGGGCATCGCCCAACCCGGCCTGAGCAATGAGATGCTGGAAGCCGCAGCAGCTGACATCGGCTATCCCCTGCTGATCAAACCGTCAGCAGGCGGAGGCGGCAAGGGCATGCACGTCGTCAATGATCCCGGCACCCTTACAGCGACCCTCGTTGCTGCCCGACGCGTGGCCGCAGCCGCGTTCGGCGATGACACGCTCTTCCTTGAACGGCTGGTAGCAACGCCCCGGCATATCGAAGTCCAGGTGCTGGCAGACAACCACGGCAACGTGATCCACCTGGGCGAACGTGAATGTTCTTTGCAGCGACGCCACCAGAAGGTGATCGAAGAGGCGCCGTCATCGCTGCTCGATGCAGTCACCCGAGCAAGGATCGGCGAGGCGGCCTGCAACGCTGCCCGCAGTGTCGGGTACTCCGGGGCCGGGACTGTGGAGTTCCTTGTTTCCGATTCAGCTCCCGACGAGTTTTTCTTCATGGAAATGAACACCCGGCTGCAGGTAGAACATCCCGTCACTGAGATGGTGACAGGAGTTGACCTCGTGGAATGGCAGGTTCGCATAGCGGCCGGCCAGGTACTGGATCTGTTCCAGGATGACATCGTCCTCAAGGGTCATTCCGTGGAAGCGCGGGTCTATGCCGAAAATCCCGAGCACGGATTCCTGCCTACCAGCGGCACAGTCCTCGACCTGCGTGAACCGACAGGGCCGGGCATCCGGGTGGACTCTGCCTTGGAAAAAGAACTTGAAATTACCCCGCATTATGACCCGATGCTCTCTAAAATCATTGCCTGGGGCGAGGACCGGGATGAGGCTCTCGACAGGTTGGACCAGGCCCTCAGCGACAGCATGGTTCTTGGCCTGAGAACGAACATCGAATACCTGCGTCTGCTGCTGGCCGATGAAGACGTGCGTGCCGGGCGGCTGGACACCACAATGATTGAGCGCAAAATGCCTGCGTTCAGCTTCAAGCATGTGGACGACGCATGGCTGGCCGCGGCTGCCTTTTCCGTTCACGGGAACCGGCTGCAGGCCGGCGGCAATCCATGGCGGACCCTGTCGGGATGGCGTGTGGGCCTTCATGCACCGGTGCTGTACCACTTTGCTGATGAAACAGGTGCGGAAACTTCCGTTGAGTTGTCATCTTGTACGGCGGGACCGCGGGGATCCTTGCGCGGCGACGTCGTCCTACGCCGCGAGAACGGCGACGGCGGTACCGTTCATGCCGAGTTCTGTCCCACACCGCCTTCGGTAACTTCGCGGCAGGGTGCGATGATCCAGTTCGCGGGAGTGCTTCGATCCGTAGACATCGCCCGGAACGAATCATCCCTCTGGGTGGGTGAGGAGGGAACCGCCTGCGAGCTACAGCTCCTGAGCCGCCAAGACAGGCTGGACAAGATTCTCGCCGGCTTGGGCAGGGAAGAAGGCAGCGCCGACCCCGATGTCCGTTCGCCCATGCCAGGCACCGTCGTCGCTGTCAGCGTCCACAACGGTGACAGCGTTGCCGCAGGTCAAGTCCTGCTCGCTGTGGAGGCCATGAAGATGGAGCACCAGCTGGTCGCCTCCACAACCGGGACGGTCAACATCGCCGTGAAACCCGGCGACTTGGTGAAGGCCAACCAAATTGTCGCCTCGATACACCCTGCCGCACCCTCGTCCGAAGGTGCGGCGACACACGAAGGAGAACCCAGTAATGCCTGA	MNQTFSSVLIANRGEIACRIISTLRKMGIRSIAVYSEADAGAKHVHLADEAILLGPAPAVDSYLNIDALLSAVKASGAEAVHPGYGFLSENEAFARALADAGVVFIGPGIHALNMMGDKIRSKNHVMEHGVPVVPGIAQPGLSNEMLEAAAADIGYPLLIKPSAGGGGKGMHVVNDPGTLTATLVAARRVAAAAFGDDTLFLERLVATPRHIEVQVLADNHGNVIHLGERECSLQRRHQKVIEEAPSSLLDAVTRARIGEAACNAARSVGYSGAGTVEFLVSDSAPDEFFFMEMNTRLQVEHPVTEMVTGVDLVEWQVRIAAGQVLDLFQDDIVLKGHSVEARVYAENPEHGFLPTSGTVLDLREPTGPGIRVDSALEKELEITPHYDPMLSKIIAWGEDRDEALDRLDQALSDSMVLGLRTNIEYLRLLLADEDVRAGRLDTTMIERKMPAFSFKHVDDAWLAAAAFSVHGNRLQAGGNPWRTLSGWRVGLHAPVLYHFADETGAETSVELSSCTAGPRGSLRGDVVLRRENGDGGTVHAEFCPTPPSVTSRQGAMIQFAGVLRSVDIARNESSLWVGEEGTACELQLLSRQDRLDKILAGLGREEGSADPDVRSPMPGTVVAVSVHNGDSVAAGQVLLAVEAMKMEHQLVASTTGTVNIAVKPGDLVKANQIVASIHPAAPSSEGAATHEGEPSNA	PGPT0019850_208	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
D1-17_00365	1611	pccB_1	COG4799	Propionyl-CoA carboxylase beta chain	ATGCAAACCATCGAAAGCCACGTGGATCCCTCCACAGGCGAGTTCGCAGCCAACGACGCCATGCAAAGGGAACTGGCCGCTGAACTTGAAAAGCACCTGGCAGCCGCCGCCCTCGGTGGTCCGTCCCACGCCCGGCAGCGCCACCTCACGCGCGGAAAATTGCTGCCCAGGGAACGTGTCGAAGCCCTGCTCGACGACGGAAGCCCCTTCCTTGAAATAGCTCCCCTGGCGGCCCATGAAATGTACGATGGCGACTGTCCCGGCGCCGGAGTCATTGCAGGGATTGGCCTGGTCCATGGCCGGCAGGTTTTGGTGATCTCCAACGACGCCACGGTCAAGGGTGGCACGTACTACCCGATGACCATCAAGAAGCACCTTCGGGCGCAGGAGATCGCTCTCGAAAACCGGTTGCCCTGCATCTACTTGGTGGACTCCGGAGGAGCATTCCTCCCCAAGCAGGACGAAGTCTTCCCGGACAAGGAACACTTCGGGAGGATCTTCTACAACCAAGCCAAGATGTCCGCTGCGGGAATCCCGCAGATCGCTTCCGTTATGGGCTCCTGCACCGCCGGCGGCGCCTATATGCCGGCGATGAGCGATGAGACAGTAATAGTTAGGAACCAGGGCACTATTTTCCTGGGTGGGCCTCCGCTGGTTAAAGCTGCCATCGGCGAGATTGTCACTGCCGAGGAGCTCGGCGGCGGCGAAGTCCATTCCCGGATTTCAGGTGTGACTGACCACCTGGCCGAGAACGACGAGCACGCACTCCAAATTGTTAGGGACATCGTGTCCACCCTGCCCGCACCGACGCAGCCGGTGTGGGACGTGGACACAGTAGTTGAAGAACCCGCCGCTGACCCTCAAGAGCTGTACGGAGCGGTACCCACGGATGTCAACGCGCAGTACGACGTCCACGAGGTGATTGCCAGGCTTGTCGACGGCAGCCGGTTCCACGAATTCAAGAAGGAATACGGCACCACCCTTGTGGCGGGCTTTGCAAAACTTCACGGCCACCCCGTGGGGATCATTGCCAACAACGGCGTGCTGTTGAGCGAATCGGCGCTCAAGGGTGCCCATTTCATTGAGTTGTGTGACCAGCGCGGCATTCCGCTGGTCTTCCTGCAAAACCTGTCCGGGTTCATGGTGGGCAAGGACTACGAGCAAGGCGGTATCGCCAAGAACGGCGCCAAAATGGTGACGGCTGTCGCGACGGCGCGGGTGCCAAAGTTGACCGTGGTCATAGGTGGAGCATTCGGCGCAGGAAACTACTCGATGTGCGGCAGGGCGTACTCCCCGCGTTTCCTTTGGATGTGGCCCGCGTCCCGCATATCCGTGATGGGTGGCAACCAGGCGGCCAGTGTCCTCGCAACGGTCAAGAGGGATCAATATGAGGCCCGCGGGGAAGAATGGTCCGCCGATGCGGAAGAAGCATTCAAGGCCCCCATCAAGGCGCAGTTCGAGGAGCAGGGAAGCCCGTACTACTCCACCGCCCGCCTTTGGGATGACGGCGTGATTGACCCTGCCGACACCCGTACCGTCCTGGGACTGGCGCTTGACGTTGTCTCCCGAACTCCCCTGCCGGAGACCTCCTTCGGCCTGTTCCGAATGTGA	MQTIESHVDPSTGEFAANDAMQRELAAELEKHLAAAALGGPSHARQRHLTRGKLLPRERVEALLDDGSPFLEIAPLAAHEMYDGDCPGAGVIAGIGLVHGRQVLVISNDATVKGGTYYPMTIKKHLRAQEIALENRLPCIYLVDSGGAFLPKQDEVFPDKEHFGRIFYNQAKMSAAGIPQIASVMGSCTAGGAYMPAMSDETVIVRNQGTIFLGGPPLVKAAIGEIVTAEELGGGEVHSRISGVTDHLAENDEHALQIVRDIVSTLPAPTQPVWDVDTVVEEPAADPQELYGAVPTDVNAQYDVHEVIARLVDGSRFHEFKKEYGTTLVAGFAKLHGHPVGIIANNGVLLSESALKGAHFIELCDQRGIPLVFLQNLSGFMVGKDYEQGGIAKNGAKMVTAVATARVPKLTVVIGGAFGAGNYSMCGRAYSPRFLWMWPASRISVMGGNQAASVLATVKRDQYEARGEEWSADAEEAFKAPIKAQFEEQGSPYYSTARLWDDGVIDPADTRTVLGLALDVVSRTPLPETSFGLFRM	PGPT0008345_313	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008345-accD-K01970	NA	NA
D1-17_00366	1344	pdhC_1		Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGAGCACAATGATCAAGGAATTCCTGCTTCCCGATCTGGGCGAGGGTCTAACAGAATCGGAGATCCTCGACTGGAAAGTGTCAGTCGGCGACGTCGTCGAATTGAACCAGACCATTGCAGAGGTTGAGACGGCCAAAGCGGTTGTGGAACTTCCGTCGCCCTATGCCGGCGTCATCTCTGAACTGCACGAAGAAGCTGGAACAGTCGTAGCCGTCGGCACCCGTATCATCTCCTTTGAGTTGCCTGCCGACAAGAGTGCCACGCAGGACGAGCCGGCAGTCAAGTCCTCCTCGAACGACGGCCGCGAACCAGCGAAGCGTATTCCCACGCTTGTGGGATATGGAGCGGAAGCCGAAAAGTCGGGAAGGCCCCAGCGCAGGCCGAGAAGCTTGGGCCGCGACATTGCCACACAGCCAGTTACTGAGGCGGCAGCAACCTCGGCTGCGCCGGCGGCGGGACCAGAAAAGACCCAGGTTCGGTCCACCCCCCCAGTCCGCAAACTTGCCCGCGACCTTGGACTGGACCTGGACGCCTTGACTGGCACCGGCAAGGACGGCCTCGTCACCCGTGCGGACGTTTTGGCCGCAGCAGAAAAGCAGGAGGTCACGGGTTCGCCCGACTTGTCCGCTGCGATGAAGACAGCCTCCGAGACCCGAACGCCAATCAAGGGAGTGCGCAAGCACACCGCCGCCGCCATGGTGGCCAGCGCCTTTACCGCCCCGCACGTGACCGAGTTCCTGACCATCGACGTGTCGGCGATGATGGAGCTGCTGGCGCAGCTGAAGAAAAGCCGCGAATTCAATGGATACAAACTCACGCCTCTGACATTGGTCGCCAAGGCCCTGTGCATAGCCGTTGCACGGCAACCTTCGCTCAATTCCCGCTGGGACGAGGAAAACGCCGAGATTGTCACCATGAACTACATCAATCTTGGAATTGCCGCTGCCACACCGCGTGGCCTGATGGTTCCCAACATCAAAGACGCGCAAACCCTGAGCCTGTTGCAGCTTTCCGCAGCCATTACGGAACTGACGGACCGTGCCCGGGGCGGCAAGACCAGCCCAAATGAACTCTCGGCGGGAACCATCAGCATCACCAACATTGGCGTCTTCGGCATCGACGCCGGAACACCGATCCTCAACCCCGGAGAGGCTGCGATTCTGGCGATGGGAGCCGTACGCAGACAACCATGGGAGCACAAAGGGGAGGTCGCCCTGCGTGATGTCATGACACTCAGCCTGTCATTTGATCACCGGCTTGTGGATGGCGAACAGGGATCACGCTTCCTGGCAGACATCGGTGCCATCCTCACCCAGCCGGGCATGACCCTCGCTCTGCTCTAG	MSTMIKEFLLPDLGEGLTESEILDWKVSVGDVVELNQTIAEVETAKAVVELPSPYAGVISELHEEAGTVVAVGTRIISFELPADKSATQDEPAVKSSSNDGREPAKRIPTLVGYGAEAEKSGRPQRRPRSLGRDIATQPVTEAAATSAAPAAGPEKTQVRSTPPVRKLARDLGLDLDALTGTGKDGLVTRADVLAAAEKQEVTGSPDLSAAMKTASETRTPIKGVRKHTAAAMVASAFTAPHVTEFLTIDVSAMMELLAQLKKSREFNGYKLTPLTLVAKALCIAVARQPSLNSRWDEENAEIVTMNYINLGIAAATPRGLMVPNIKDAQTLSLLQLSAAITELTDRARGGKTSPNELSAGTISITNIGVFGIDAGTPILNPGEAAILAMGAVRRQPWEHKGEVALRDVMTLSLSFDHRLVDGEQGSRFLADIGAILTQPGMTLALL				NA	NA	NA	NA	NA
D1-17_00367	1014	bkdB_2	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	ATGATCGAGACAATGACGTTTGGCGGCGCAATAAACACAGGCCTGCGCAAAGCAATGGAGGAAGACCCCAAAGTCATCCTGATGGGCGAGGACATCGGCAAGCTCGGCGGCGTTTTCCGGATCACCGAGGGCCTCCAGAAGGACTTCGGCCCCGCGCGCGTCCTCGACACGCCGCTTGCTGAGGCTGCCATTATGGGCACCGCCGTGGGCCTTGCCTACCGCGGGTACCGTCCGGTGGTTGAAATCCAGTTCGATGGCTTCATTTACCCGGCATTCGACCAGATCGTCTGCCAGGTCGCAAAGCTGCACTACCGGACCCAGGGCAAGGTCAAGATGCCCATAACTGTCCGGGTGCCGTTCGGGGGAGGCATCGGGTCGCCGGAACACCACTCTGAGTCCCCTGAGGCCTATTTCACCCATACTTCAGGTTTGCGCGTGGTCAGCGTAGCCAACCCGCAGGATGCGCACACCGTGATCCGCCAGGCGATTGCCTCCGATGACCCGGTCCTCTACTTCGAACCCAAGCGCCGCTATCACACAAAGGGCGAGGTGGATCAGTCCATTGATCCGCACAAGGCTCTCCCGATGGAGCGTGCCCGGGTACTCACCCAGGGCTCGGACGTCACGCTGGTGACCTACGGACCGTTGGTCACCACTGCCCTTGAGGCGGCGGTTGCTGCGGGCGACGAAGGCACTTCCGTGGAAGTCATCGATCTCTGCTCGCTGGCACCAATCGATTTCGAGAGGGTCGAGGCCTCAGTACGCAAGACGGGCCGCTTGGTCATCACACACGAAGCTGCCCGGTCCGGGGGCCTCGGCGCGGAGATAGCGGCAAGCATCACCGAGCACTGTTTCAATTACCTGGAGACACCCCCCGTCCGGGTGACAGGTTTCGACATCCCCTACCCGGCTTCCAAGCTTGAATCGCATCACCTGCCAGATCTTGACAGGATCCTGGACGGCGTCGACCGCGCCCTCGGACGCCTCAACGTCGCGAGCGGGGTAACGGCATGA	MIETMTFGGAINTGLRKAMEEDPKVILMGEDIGKLGGVFRITEGLQKDFGPARVLDTPLAEAAIMGTAVGLAYRGYRPVVEIQFDGFIYPAFDQIVCQVAKLHYRTQGKVKMPITVRVPFGGGIGSPEHHSESPEAYFTHTSGLRVVSVANPQDAHTVIRQAIASDDPVLYFEPKRRYHTKGEVDQSIDPHKALPMERARVLTQGSDVTLVTYGPLVTTALEAAVAAGDEGTSVEVIDLCSLAPIDFERVEASVRKTGRLVITHEAARSGGLGAEIAASITEHCFNYLETPPVRVTGFDIPYPASKLESHHLPDLDRILDGVDRALGRLNVASGVTA	PGPT0008862_1180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
D1-17_00368	1143	bkdA_2	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	TTGCTAACCAAGGAGTTGGGCCCTGCCGAGAGCGTGAACGGGACCGCGGCGCAGCCGGAACACGACATCCTTCAACTCATCACCCCCGACGGCGCCCGGATAGCCAACCAGGAATACGACCAGTGGGTCGAGGACATCACGGATGACGGGCTCGCACGACTGTACGAAGACATGGTGGTGATCCGCCGCATTGACACCGAAGCTACCTTCCTTCAGCGCCAAGGCGAACTGGCACTGTGGCCACCGCTTCTCGGACAGGAAGCTGCGCAGATCGGTTCCGGCCGCGCTTTGCGCGACGATGACTTCGTCTTTTCAAGCTACCGGGAGAACGGCGTTGCCTACTGCCGTGGGGTGAAGTCGGAGGACATCCTCCGGGTGTGGCGGGGCAACGCCCACTCCGGATGGGACCCATACAGCATCAATATGGCCACCCCCCAGGTCATCATCGGCGCGCAGTCCCTGCACGCTGCCGGCTATGCCATGGGAATTAAGTACGACGGCGCTAGCTCGGTCGCTGTCGCCTATTTCGGCGACGGCGCCACCAGCCAGGGCGACGTTAATGAGTCTCTGGTATTCGCCGCCAGCTTCCAGGCGCCTGTCATTTTCTTCTGCCAGAACAATCACTGGGCTATCTCCGAACCGGTCGGCCTTCAGACAACGGTCCCGATCGCAGACCGTGCCCCCGGCTTTGGCATTCCCAGCATCCGCGTTGACGGCAATGACGTTCTGGCGGTCATGGCGGCGACCCGGGCGGCTCTGGACCGGGCACGCACCGGGGGCGGCCCAACGTTCATCGAGGCTGTTACCTACCGGATGGGCCCGCACACCACCGCGGATGACCCCAAGAAATACCGTGATGCCAATGAGCTGCAGGACTGGGCGGAAAAGGACCCCATTAAGCGTGTGGAGGCCCTGCTCACACACCAAGGAAAATTCACAGACGACTTCCGGGCGAAAGTAAAGGCAACGGCCGACAAGGTGGCTGCAGACATGCGTTCCGGCTGCATTTCCATGGCCGAACCGGCAGCCATGGATGTTTTTGCGAACGTCTATAGCTCGCCAAACTCCACGCTGGACAGGCAACGGGACCAGTACGCCAGTTATCTTGCGTCCTTCGAGGCCGCCGGGGAAGGTACGAAATGA	MLTKELGPAESVNGTAAQPEHDILQLITPDGARIANQEYDQWVEDITDDGLARLYEDMVVIRRIDTEATFLQRQGELALWPPLLGQEAAQIGSGRALRDDDFVFSSYRENGVAYCRGVKSEDILRVWRGNAHSGWDPYSINMATPQVIIGAQSLHAAGYAMGIKYDGASSVAVAYFGDGATSQGDVNESLVFAASFQAPVIFFCQNNHWAISEPVGLQTTVPIADRAPGFGIPSIRVDGNDVLAVMAATRAALDRARTGGGPTFIEAVTYRMGPHTTADDPKKYRDANELQDWAEKDPIKRVEALLTHQGKFTDDFRAKVKATADKVAADMRSGCISMAEPAAMDVFANVYSSPNSTLDRQRDQYASYLASFEAAGEGTK	PGPT0008861_1234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-17_00369	771	etfB_1	COG2086	Electron transfer flavoprotein subunit beta	ATGAAGATCGTCGTCTTGGTCAAGCAGGTTCCCGACACGGAAGAGGAGCGCACAATTGCGCCCAACGGGACCTTGGACCGGAAGTCTGCCTCGGGGGTGGCCGACGAAATCAACGAGCGGGCATTGGAAGTCGCCCTGTCCTATAAAGATGCCAACAAGGGGACCGAAGTAGTCCTGGTCTCCATGGGTCCTGGAGAGGCGGGCACCGCCCTGCGAAAGGGCCTGCAAATGGGTGCTGATTCGGCAGTCCATGTAAACGATGAGCGCCTTTCCGGTGCGGACGCGGTGCAGACGGCCCATGTCCTGGCTGCAGCCCTGCAGGACACCGGTTTCGACCTGGTGGTTGCCGGAAACGAGTCCACGGACGGCGGTGGCGGCGTCGTCCCGGCTATGATTTCAGAACTCCTGGGCGTGCCGCTGCTAGGTGCACTGAACCAGGTGACGCTAACCGCTGACACTGTCCTCGGCGAACGCCAGGAAGAGATTGGGACCGCGACGGTCCGGGCGGCGCTGCCCGCCGTTTTTTCCGTCACTGAGCGCGCCGCAGAAGCCCGGTTCCCAAATTTCAAGGGGATCCTGACGGCGAAGCGGAAGACGGTGCGTGAGGTAACGCTGAACGACCTGGGCGTCCCCCAAGACGCACTGAAGGCCCGCTCCCGTGTGCTGTCGGTACAGGACAGGCCCGCGCGTGCCACCGGATCCAAGATCGTCGATGACGGCAACGCGGGCAGGCAGCTGGCCGAGTTCCTCGTCTCCAGCCGTCTCGTTTGA	MKIVVLVKQVPDTEEERTIAPNGTLDRKSASGVADEINERALEVALSYKDANKGTEVVLVSMGPGEAGTALRKGLQMGADSAVHVNDERLSGADAVQTAHVLAAALQDTGFDLVVAGNESTDGGGGVVPAMISELLGVPLLGALNQVTLTADTVLGERQEEIGTATVRAALPAVFSVTERAAEARFPNFKGILTAKRKTVREVTLNDLGVPQDALKARSRVLSVQDRPARATGSKIVDDGNAGRQLAEFLVSSRLV	PGPT0001035_2024	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-17_00370	969	etfA_1	COG2025	Electron transfer flavoprotein subunit alpha	ATGGCAAACATTCTGACATTCACCGAACTCTCAGCATCCGGAACCATCCACGCTTCGGCCGCGGAACTACTCGGCGCAGCTGCCAAGCTCGGTCGGCCCACCGCGGTTGTCGTGGTGCCTCCGGGATCGGGTCCGGAAATCTCTCAGCAGTTAGCTGCCCTTGGCGCGGAAGAGGTTTTTGTAGCTGAGTCTGAGCAGGTGGGGGCCACCCTGGTCACCCCCCAGCTGGACGGCGTGCAGGCCGCCCTTGAAGCACTAAAGCCGGCCGCGGTCCTGACGGCCCACTCGGTGGAAGGCCGCGAAGTAGCCGCACGGCTGGCTATCCGCACAGGAGGTGGGGTCTGCATGGATGCCGTGGACGTTCAAAACGTGCAGGGCAAGATAGTTGCGTCCCATTCCGTCTACGGCGGCTCATATAACGTCGAGTCCACAGTGGAAGGCCTGCCGATCATAACCATCCGCCAGGGCTCCATTGAAGACCGGGCGCCGGCAACGACGTGCCGGACCAGCACTGCACCTTTAACTCCCTCCGCAGGGCAGGCCGCCACCATCGAGTCGAGAGACGAGGCAACCACAGCCTCCGCACGGCCCTCACTGCGCGGGGCGGCACGGGTCGTTTCCGGAGGAAGGGGTTTGGCTTCGAGGGAGAATTTCGCCCTCGTCGAGAACCTTGCCGATGTCCTGGGTGCTGCGGTTGGTGCTTCGCGGGCGGCAGTGGACGCCGGATACACCGCGCAGTCCAGCCAAGTTGGCCAAACCGGAATCACCGTCTCCCCTCAGCTGTATGTCGCGCTGGGGATTTCCGGAGCCATCCAGCACCGGGCCGGCATGCAGACCGCCAAGACCATCGTGGCAATAAACAAGGATCCTGATGCTCCCATTTTCGATGTTGCTGACTTCGGTGTGGTGGGGGACGTCTTCACCGTGGTACCGCAGCTCATTGAGGCCCTCGAAAAGCGGTCCAACTAA	MANILTFTELSASGTIHASAAELLGAAAKLGRPTAVVVVPPGSGPEISQQLAALGAEEVFVAESEQVGATLVTPQLDGVQAALEALKPAAVLTAHSVEGREVAARLAIRTGGGVCMDAVDVQNVQGKIVASHSVYGGSYNVESTVEGLPIITIRQGSIEDRAPATTCRTSTAPLTPSAGQAATIESRDEATTASARPSLRGAARVVSGGRGLASRENFALVENLADVLGAAVGASRAAVDAGYTAQSSQVGQTGITVSPQLYVALGISGAIQHRAGMQTAKTIVAINKDPDAPIFDVADFGVVGDVFTVVPQLIEALEKRSN	PGPT0001040_2033	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-17_00371	936			hypothetical protein	ATGTCACTGGCAACGAAGCCACCATCGAAGCGGAGGAACGCCTGGGCCAAGTGGGGCGCGGCCACAGGGGCCCTCGTAGCGGTGTTGTTCCTGGTTGTCCTAGCGGCCAAGGGACTCCGGGAACTGCCTGCGGTCCAGGAATTCCTGGCTGCGTATCCCGGCCAGGCGCCGCTGCCCGAGGATGCCCCCATCGGTTTACCCGCCTGGCTCGGGTGGCAGCACTTCCTGAACGCTTTCTTCCTGGTGCTCATCATCCGTTCAGGTTGGCTGCTGCGTACTACAACGCGTCCCAAGGCGTACTGGACCCGGCGCAACCAGGGCACATTCAAGACACGCGGCAAGCCAACAAAGATCAGCCTGGACCTGTGGCTCCACCTCAGTCTTGACGCACTATGGGCGCTGAATGGAGCAATCTTCATTGTCCTGCTGTTCGTCACCGGACAATGGACGCGGATAGTCCCAACAAGTCTTGATGTCCTTCCCAATGCCCTGTCTGCACTGCTCCAGTACGCTTCCCTGGACTGGCCACACGAAAACGGCTGGGTCAACTACAACTCCCTGCAATTGCTCGCATACTTTACGGTGGTGTTCATAGCAGCGCCGTTGGCCATCATCACGGGGCTGCGCATGTCCGCCGCGTGGCCCAAGAAGGCGGGTCCGATCAATAAGCTGTTTCCGATCGAAGTTGCCCGTGCAGTCCACTTTCCCACGATGATCTTCTTTGTGCTGTTCGTCATCGCCCACGTGACGCTGGTACTCACGACGGGGGCCCTGCGGAACTTGAACCATATGTACGCTGCACGGAACGACGACGGCTGGGCCGGCTTCTGGTTTTTCGCCGCTTCCCTGGTCATCACCACAGCGGCCTGGTTCCTGGCGCGGCCCCTGTGCCTGCGGCCGGTCGCCTCCCTCAGCGGATCGGTCACGCGCTCATAG	MSLATKPPSKRRNAWAKWGAATGALVAVLFLVVLAAKGLRELPAVQEFLAAYPGQAPLPEDAPIGLPAWLGWQHFLNAFFLVLIIRSGWLLRTTTRPKAYWTRRNQGTFKTRGKPTKISLDLWLHLSLDALWALNGAIFIVLLFVTGQWTRIVPTSLDVLPNALSALLQYASLDWPHENGWVNYNSLQLLAYFTVVFIAAPLAIITGLRMSAAWPKKAGPINKLFPIEVARAVHFPTMIFFVLFVIAHVTLVLTTGALRNLNHMYAARNDDGWAGFWFFAASLVITTAAWFLARPLCLRPVASLSGSVTRS	PGPT0013075_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013075-msrP|yedY-K07147	NA	NA
D1-17_00372	1344	citS	COG3493	Citrate-sodium symporter	ATGGCAACGAAGCTAGCGTCCGAATCCCAAGGCGCCACCGAAACACCCACCCCGGAAAGGAAGAGGCTCGAGATCCTGGGAATCCCCTGGCCCTGGTATCTCCTCCTCGTGGGCCTCTGCCTGGCGGCCATCTTCACTGAAACCCTGCCCGACAATGTCTTCATGGCCCTGGCAGCCACCATGCTCCTCGGGTGCGGGCTGTTCTTCGCCGGAGAACGCACCCGCGGCCTTTCGGCCGTCGGCGGCGGACCGCTTCTGTGCATCTTCGTCCCCGCCTTAGTAGCTCACTTCGGATTGCTCCCCGCGTCGTTCCTGGAAATCGTGAAGGACTGGTTCACCGGTTACGGCTTTGTCGAAGTCATTATTGCCGCCATCATCACCGGCAGCATCCTCGGCATGGACCGCCGGTTCCTCATCAAAGCCGGTGGCCGTTTCGTCATCGTGATGCTGGCCGCCATTGTCATCGTGGTCGGTGTCGTCGGTGCCGTGGCAGCACTCACCGGCTTCGGTTTCAAGAACGCCGCCCTGAATATCGCTTTACCAGTCATGGCGGGAGGCATTTCCGGCGGTGCCATCCCCCTGTCGCAAATGTATGCCGACACATTGGGCGGGGATCCGCAACAGTACATGAGCATCCTCGTTCCACCGATCGTCTTTGCAAACCTGTTGTGCATACTCATCGCAGCCATCTACGCTGCCCTGACCCGCCGCGGGACCCAGCTTTTTGTGGGGTTCAACGGGAACGGCGACATGGTCCGAGTGACAACGACGAAAGCTAAGGTAGACGCCGTAACCAAGAAGGGCGCTCTGACGCTGAGTACGCTGGGGGCAGGTCTCCTCGTGACTGGCGGCATCTATATGGCCAGCGCCATGGTTGAAACGCTCGTCCCCGACGTGCACCTCTACGCCTGGCTGATCTTGTTCACCGTCGGCCTCAAATTGACCGGGGTACTTCCCGCACACGTCGAGGAATCGGCGACCAACTGGTACGAAGCAGTGACCAAACTTTGGATTCCGGCAGCGTTGGTGGCCATCGGCCTGGGCCTCATCAGCATCAATCAGATGCTCGAGCTGTTTGCGCGCCCCGACTACCTCTTCTTCACAGTCGCCGCGGTGGTTGTGGCCGCCCTGGCAGCCGGCGGGGTGGGATGGCTTCTTCGACTGAACTTCATCGAGTCCTCGATCACAGGCGGCCTTTGCTCGGCAGACATGGGGGGATCAGGGGACATCGCCACACTCGGCACTTCCGGCCGCATGCACCTGATGCCGTTCGCACAAATCGCGTCCCGCCTTGGCGGCGGTGTTGTACTGCTCCTGGCTTCACTGCTCCTCGCCATTCTCTGA	MATKLASESQGATETPTPERKRLEILGIPWPWYLLLVGLCLAAIFTETLPDNVFMALAATMLLGCGLFFAGERTRGLSAVGGGPLLCIFVPALVAHFGLLPASFLEIVKDWFTGYGFVEVIIAAIITGSILGMDRRFLIKAGGRFVIVMLAAIVIVVGVVGAVAALTGFGFKNAALNIALPVMAGGISGGAIPLSQMYADTLGGDPQQYMSILVPPIVFANLLCILIAAIYAALTRRGTQLFVGFNGNGDMVRVTTTKAKVDAVTKKGALTLSTLGAGLLVTGGIYMASAMVETLVPDVHLYAWLILFTVGLKLTGVLPAHVEESATNWYEAVTKLWIPAALVAIGLGLISINQMLELFARPDYLFFTVAAVVVAALAAGGVGWLLRLNFIESSITGGLCSADMGGSGDIATLGTSGRMHLMPFAQIASRLGGGVVLLLASLLLAIL	PGPT0001690_139	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001690-maeN-K11616	NA	NA
D1-17_00373	1401	leuC_1	COG0065	3-isopropylmalate dehydratase large subunit	ATGGGAAAGACACTCGCTGACAAGGTCTGGGACGCCCACGTTGTCCGGGCCTCCCCTGGAGAACCGGACCTTTTATACATCGACGTGCATTTGCTGCACGAACTTAACACCCCGCAGGCGTTCGAGGCACTGCGCGCCAGCGGGCGCACGGTTCGCCGCCCGGACTTAACTGTTGGCACCGAAGACCACAACACGCCCACGCTGTCGCTCACCAAGATGATCCAGGACCCCGAAGCCCGGGAGCAGATCGCGCTGATGCGCAAGAATTGCGCCGACTTTGGCATCGAACTCTTCCCGCTGGGAAGCGAACATCAAGGCATTGTCCACGTAATCGGACCAGAGCTGGGCCTCAGCCACCCCGGAACCAGCATCGTTTGTTGTGACTCGCATACTGCAACCCAAGGCGCGTTCGGGGCTTTGGCCTTCGGTATCGGCACCAGCCAGGTGGAACACGTGCTGGCGACACAAACGCTGCCAATGAACCGCCTCAAGAACATGGCAGTTACTGTCAACGGCTCCCTTCCCCACGGGGTCACTGCCAAAGACCTTATTCTTGCAATCATTGCCAAAATCGGGACGGCCGGCGGCCAGGGGCACATCATCGAGTACCGTGGACAGGCAATCCGGGAGCTGACCATGGAAGGCCGCATGACTGTCTGCAACATGTCGGTCGAGGCAGGATCCCGTGCGGGCATGATCGCACCCGATGAAAAAACCTTCGAGTACCTCAAAGGCCGCCCGGCGGCCCCGTCCGAAGCGGACTGGGACAACGAGATTGAGCACTGGAAGACCTTCTACACCGATGAGGACGCAGTTTTCGACAAGGAAGTCATCATCGATGCCACGGAACTGGCACCCTTCGTATCGTGGGGAACAAATCCCGCACAGAGCAGCCCGATGAACGGCCTCGTTCCTGATCCGGCTACCATGACTGACGACACCGAGCGGCGGGCAGCCGAACGGGCCTTGGAATACATGGGGCTGACCCCCGGGCAGCCGCTGCAGGGACTGCCAATCGACACCGTTTTCGTAGGGTCCTGCACCAACAGCCGCATCGAAGACCTCCGGGAAGTCGCCAAGATCCTGGACGGGCGCAAGATCGCTCCCGGGGTGGACATGATGATTATTCCCGGATCCATGACCGTGCGGAAACAGGCAATGGAGGAGGGCCTCGACGACATATTCAAGAGCGCCGGAACATCCATGAGGTTCTCCGGATGCTCAATGTGTGCAGCAGTCAATGAAGATCGTCTGAAGCCTGGGCAACGTGCCGCTTCAACCATCAACCGGAACTTCGAGGGCAGGCAAGGCAAAGGCTCCCGCACACACATCGTGTCACCGGCTGTAGCGGCTGCGACCGCCGTTGTCGGCAGGCTCAGCACACCCGCAGATCTCACCTAA	MGKTLADKVWDAHVVRASPGEPDLLYIDVHLLHELNTPQAFEALRASGRTVRRPDLTVGTEDHNTPTLSLTKMIQDPEAREQIALMRKNCADFGIELFPLGSEHQGIVHVIGPELGLSHPGTSIVCCDSHTATQGAFGALAFGIGTSQVEHVLATQTLPMNRLKNMAVTVNGSLPHGVTAKDLILAIIAKIGTAGGQGHIIEYRGQAIRELTMEGRMTVCNMSVEAGSRAGMIAPDEKTFEYLKGRPAAPSEADWDNEIEHWKTFYTDEDAVFDKEVIIDATELAPFVSWGTNPAQSSPMNGLVPDPATMTDDTERRAAERALEYMGLTPGQPLQGLPIDTVFVGSCTNSRIEDLREVAKILDGRKIAPGVDMMIIPGSMTVRKQAMEEGLDDIFKSAGTSMRFSGCSMCAAVNEDRLKPGQRAASTINRNFEGRQGKGSRTHIVSPAVAAATAVVGRLSTPADLT	PGPT0001442_2890	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
D1-17_00374	600	leuD_1	COG0066	3-isopropylmalate dehydratase small subunit	ATGGAACCCTTCACCGCCCACCACGGAATCGCCGCCCCGCTGCGCCGCAGCAACGTCGACACTGACCAGATCATTCCCGTACGGTTCCTGACCCGCAGCTCCAAGACAGGCTTTTCCGACGCGCTCTTCCACGACTGGAGGGAAAATCCGGACTTCGTTCTGAACGACCCTGCATATGAAGGGTCCACCATCCTCGTGGCAGGCGAAGATTTCGGCACCGGCTCATCACGGGAACACGCTGTCTGGGCACTGAAAAACTACGGATTCCGGGCAATTATCGCCCCTCGCTTCGGCGACATCTTTCGGGGAAACGCGCTCACCAACGGGCTCCTGGTGGTCACACTGCCTGCCCACGTCATCGAGGAGCTGTGGGACGGGATAGAGGCGCAGCCCCATGCCGGGATTACTGTCGACCTGGCGGCCCTTGAAGTCCGTACCGCCACCGCCGCCTTTCCGTTTGAACTGGAAGAACATACCCGGAACAGCCTGATGGAAGGCCTGGACCATATCGACCTTTCAATGAGGCACGCGGAGCACATCGCTGCCTTCGAAGCGCGTCGTCGTCCTGCCCTTCCATCGACGCGAACCATGAAGGTCTGA	MEPFTAHHGIAAPLRRSNVDTDQIIPVRFLTRSSKTGFSDALFHDWRENPDFVLNDPAYEGSTILVAGEDFGTGSSREHAVWALKNYGFRAIIAPRFGDIFRGNALTNGLLVVTLPAHVIEELWDGIEAQPHAGITVDLAALEVRTATAAFPFELEEHTRNSLMEGLDHIDLSMRHAEHIAAFEARRRPALPSTRTMKV	PGPT0001443_2812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
D1-17_00375	492			hypothetical protein	ATGCATCGCACAGACAAACTGGACGTCGATCTCTTGAAGTTGCTGGTTGAAGCACCGAAAGCAGGAGTGCGGGAGTATGCCCGTCGCCTCAACATCGCACGTGGTACAGCCCAAAGCCGAATTGACGGGTTTTCCCGGGCCGGAGTAATCACCAGTTACCGACCACAGATGCAACCAGCGGCACTGGGCTATGTCATCTTGGCGTTTGTCCATGTTCACGTCGCGCAGACGATGCTTGATGCCACCTGCGCCCGGCTGGGCAACATACCTGAAGTCCTGGAAGTGAACAGCGTAGCCGGCGAAGGAGATCTGCTGTGCCGTGTCGTGGGTCGTGACAACGCTGACTTCGAACGGGTGCTTCAGCAGATCATCGGAACGGAAGGTGTCCGCCGCACGCGCAGCGAACTGGTCCTGAGCCGCCGCATCGAGCCGAGAATTGTTCCCCTGTTGGAAAAAATCCGCAGGGACCTGGGCGCCGCCCGCGACGACTGA	MHRTDKLDVDLLKLLVEAPKAGVREYARRLNIARGTAQSRIDGFSRAGVITSYRPQMQPAALGYVILAFVHVHVAQTMLDATCARLGNIPEVLEVNSVAGEGDLLCRVVGRDNADFERVLQQIIGTEGVRRTRSELVLSRRIEPRIVPLLEKIRRDLGAARDD				NA	NA	NA	NA	NA
D1-17_00376	102			hypothetical protein	ATGATTGATTTTCAGATACTAGGCTTGGTGGTCATCGGTGGAGAAGAGCTCGAGGAGGAGCAAGTATGCATCGCACAGACAAACTGGACGTCGATCTCTTGA	MIDFQILGLVVIGGEELEEEQVCIAQTNWTSIS				NA	NA	NA	NA	NA
D1-17_00377	780			hypothetical protein	GTGCCCGAACTTGCAAAGAAATCCGTACCCGAGACTGCCGCCGCAGAGGGGCAGACCCGGCCGGAAAGCCTCAATCGCCACAGCCAAGATCTGGTTCGGGCCCTCTTGTCGATTGCCGATTTGAGCTCGACTGTCGCTGACGTCCTGGCCGACTTGGGGGTGCCGGGCGTGGTCGCTGCCCCCGGCCTCCACCCTCTAACCAGCGGTACCAGGCTCTGCGGACCCGCTGTTACCTTGAAGTACGAACGCGTTGACGTGGATACCCGCGGCCCAATGGAGCACGGCGGGTCATCCATGGGGTACGGGGAGCTCTGCGCAAGCAGCTCACCAAACGATATAGCTGTCATCGATTGCGGCGGTGATACGACTGCGGCGGTTCTTGGCGGGATGACGGCCGGCCGGCTCAATCTTGCCGGGCTGGGCGGATGCGTCGTCAATGGCGCCATTCGGGACACCTCCTCTATCAAGGACATGTCGCTGCCGCTTTGGTCGCTCGCCAACACCCCACAGTCGGGGTTGCGCAGGTTCCGTGTTGCCGCCCTTAATGCGCCCGTGAATGTCGGGAATGCGCTCGTAAGGGCCGGAGACTATATCGTCGCGGATGAGGACGGCATATGCGTCATTCCCAATGCTCTTTTCTCCGAGGTAGCGCGCGTTTGCCTCCAGGCGGAGGCGGCAGAAAAGGAAATCAACCTTCTCCTTAGCCGCTGCGCCTCAGTCCAGGAATTTGATGAAGCACTCGCTGAGCACAAGCTGAAAAGCTCCACATCTACACAATGA	MPELAKKSVPETAAAEGQTRPESLNRHSQDLVRALLSIADLSSTVADVLADLGVPGVVAAPGLHPLTSGTRLCGPAVTLKYERVDVDTRGPMEHGGSSMGYGELCASSSPNDIAVIDCGGDTTAAVLGGMTAGRLNLAGLGGCVVNGAIRDTSSIKDMSLPLWSLANTPQSGLRRFRVAALNAPVNVGNALVRAGDYIVADEDGICVIPNALFSEVARVCLQAEAAEKEINLLLSRCASVQEFDEALAEHKLKSSTSTQ	PGPT0002085_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
D1-17_00378	330			hypothetical protein	ATGGGTAGCGATCACGTGGAACAAGTCCTCGACCAGGCGAGCGACTTTGCCCGCCCGATCCAGCAGCTCGTCACCGAGTTCGCGTGGGGCGAGATCTGGGGCAGGCCCGGATTGGACCTGAAAACGCGCAGCATGCTTAACCTGGCGATGCTGGCCGCTTTGAATCGTTCCCACGAATTGGCGGGCCACGTTTCCGGTGCGCTTAACAACGGCGTCTCGGAGGAGGAAATTCAGGAAGTCCTGCTGCAAACAATGATTTATTGTGGGGCACCAGCCGCACTCGAATCATTTCGAATAGCTGAGAAGGCAATCGCCTCACATAAGGCGTAA	MGSDHVEQVLDQASDFARPIQQLVTEFAWGEIWGRPGLDLKTRSMLNLAMLAALNRSHELAGHVSGALNNGVSEEEIQEVLLQTMIYCGAPAALESFRIAEKAIASHKA	PGPT0005005_2112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005005-pcaC-K01607	NA	NA
D1-17_00379	1653	aceB_1		Malate synthase	ATGAACAGCTTTACTGACGTTTTCACTATCAATTGCATCACTTTCAAAGCCCAGCCGGTTTCCCGGCAGCATGAGTTGCTAACTCCCGATGCTCTGGAGTTCGTTACGAAACTGCACCGGGCTACTGCTGAGCGGCGGCAGGAACTGCTCCAGGCGCGCCGGATGCGGCGTGTCGACATCGCGGCGGGGCAGGATCCTAGGTTCTTGCCTGAGACCGAGCACATCCGCAACGATCCGTCCTGGCGGGTCGCTCCCCCGGCGCCGGGTCTGGAGGACCGCCGCGTGGAGATCACCGGCCCGGTGGATAAGAAGATGACCATCAACGCCCTGAACTCCGGCGCCAAGGTCTGGCTGGCGGACATGGAGGATTCCTCCACCCCCACCTGGCGGAACGTGATCAAGGGCCAGCTGAACCTCACCGACGCCCTGGAACGCCGCATCGATTTCACCAGCCCGGAGGGCAAGGAATACAAGCTCCGCCCGGCCGGGGAACTGCCCACCATTGTGGTGCGGCCCCGCGGCTGGCACCTGCCGGAGAAGCACATGCTCATCGACGGCACCCCGATCGCCGGCGGCATCGTGGACTTCGGCCTGTACTTCTTTCACAACGCCCGCCGCCTGCTGGCCCAGGGCAAGGGCCCGTACTTCTACCTGCCCAAGATCGAAAACCACCTCGAAGCCCGGCTGTGGAACGACATCTTCATCCTCGCCCAGGACCTGCTCGACATCCCGCAGGGCACCATCCGCGCCACGGTACTGATCGAAACCATCACCGCAGCCTTCGAAATGGAGGAAATCCTGTACGAACTGCGGGACCACGCATCAGGCCTGAACGCCGGCCGCTGGGATTACATCTTCTCCCTGATCAAGAACTTCCGCACCCGCGGCCCCCGCTTCGTCCTGCCGGACCGCGCCCAGGTGACCATGACCCAGCCCTTCATGCGGGCCTACACCGAACAGCTCGTGCGCGCCTGCCACAAGCGAGGCGCCATGGCCATTGGCGGCATGGCCGCCGCCGTACCCAACCGCAAAGACGAGGCTGCCAACGCCAACGCCTTCGAAAAGGTCCGCGCCGACAAGACCCGCGAAGCCAACGACGGCTTCGACGGCTCCTGGGTGGCCCACCCGGACCTGGTGCCGGTCTGCCGCGAGGTGTTCGACAGCATCCTTGGTGACCGTCCTAACCAGCTGGACCGGCTCCGCGAGGACGTCACCCCGGACGACAGTGCCCTGATCAACGTGGCCGCCACCACCGGCACCATCACCCAACAGGGCATCCGGAACAACATCGAAGTGGGGATCCGCTACATCGAATCCTGGTTGCGCGGCAACGGTGCGGTAGCCATTCATAACCTCATGGAAGACGCAGCCACGGCCGAAATATCCCGCTCCCAGCTCTGGCAGTGGATCTACGCCTCGGCTATCACCGACCACGGCGAAATCGTCACCCACGAACTGGTCGAGGAGCTTCTGGACGAGGAATTTGTCCGGCTGGAACGCTTCGACGGCGACCGCTTCGAGGACGCCCGCGACATCTTCGAAGAAGTCACCCTCGCCCGCGACTTCCCGTCCTTCCTCACCCTCCCCGCCTACGCCCGCTACCTGACGGAGGCCCGCGAAAAGGCAACCGAGGAAGAGCTCGCCACGGCGTAG	MNSFTDVFTINCITFKAQPVSRQHELLTPDALEFVTKLHRATAERRQELLQARRMRRVDIAAGQDPRFLPETEHIRNDPSWRVAPPAPGLEDRRVEITGPVDKKMTINALNSGAKVWLADMEDSSTPTWRNVIKGQLNLTDALERRIDFTSPEGKEYKLRPAGELPTIVVRPRGWHLPEKHMLIDGTPIAGGIVDFGLYFFHNARRLLAQGKGPYFYLPKIENHLEARLWNDIFILAQDLLDIPQGTIRATVLIETITAAFEMEEILYELRDHASGLNAGRWDYIFSLIKNFRTRGPRFVLPDRAQVTMTQPFMRAYTEQLVRACHKRGAMAIGGMAAAVPNRKDEAANANAFEKVRADKTREANDGFDGSWVAHPDLVPVCREVFDSILGDRPNQLDRLREDVTPDDSALINVAATTGTITQQGIRNNIEVGIRYIESWLRGNGAVAIHNLMEDAATAEISRSQLWQWIYASAITDHGEIVTHELVEELLDEEFVRLERFDGDRFEDARDIFEEVTLARDFPSFLTLPAYARYLTEAREKATEEELATA	PGPT0001445_1708	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-17_00380	1332	icl_1	COG2224	Isocitrate lyase	ATGACTGCAGCTTTTGAGCCCACCCAGCAGACGCCCGAGCAGCAGGCCGCCGCCCTGGAGCTCGAGTGGGCCGCCAACCCCCGCTGGGAAGGTGTGACCCGGGACTACTCAGCCTCCGACGTCGTCCGCCTCCGCGGCCGCGTCTCCGAAGAACACACCCTGGCCCGCCGCGGCGCCGAGAAGCTGTGGAAGCAGCTGACCGAAGAGCACAAGGAAGGCAAGTACACCAACGCCCTGGGCGCGCTGACCGGCAACCAGGCGGTCCAGCAGGTCAAGGCCGGCCTCCGGGCCATTTACCTTTCCGGCTGGCAGGTAGCTGCGGACGCGAACAACTCCGGCCACACCTACCCGGACCAGTCCCTCTACCCGGCCAATTCGGTTCCCACGGTGGTCCGCCGGATCAACAACGCCCTGCTCCGGGCAGACCAGATTGAGTTCTCTGAGGGTGTCGAGACGGTTGAGGACTGGATGGTCCCGATCGTCGCCGATGCCGAGGCAGGGTTCGGCGGCCCGCTGAATGCCTACGAACTCATGAAATCCATGATTCAGGCCGGCGCCTCAGGCGTTCACTGGGAAGACCAGCTCGCCTCGGAGAAGAAGTGCGGGCACCTGGGTGGCAAGGTCCTGATCCCCACCCAGCAGCACGTCCGGACCCTGAACGCGGCCCGCCTCGCGGCCGACGTCGCCGGCACCCCGTCGGTGGTCATCGCCCGCACCGACGCCGAGGCAGCAACCCTGATCACGTCCGACGTGGACGAACGCGACCAGGAATTCATCCTCCGCGAAGGCGGACAGCCCGTCCGCACCGCCGAGGGCTTCTACAAGGTCCGCAACGGCATCGAGCCCTGCATCGCCCGCGCCAAGGCCTACGCCCCGTATTCGGACCTGATCTGGATGGAGACCGGCACCCCGGACCTGGAGCTGGCCCGTAAGTTCGCCGAAGCGGTCAAGGCCGAGTTCCCGGACCAGATGCTCTCCTACAACTGCTCACCGTCGTTCAATTGGCGCAAGCACCTGGATGATGCCACGATCGCGAAGTTCCAGCGTGAACTGGGCGCCATGGGCTTTACGTTCCAGTTCATCACCCTGGCCGGTTTCCACGCCCTGAACTACTCGATGTTCGATCTCGCCCACGGCTACGCCCGGGAAGGCATGAGCGCCTACGTCGAGCTCCAGGAAAAGGAATTTGCCTCCGAATCCCGCGGCTACACCGCAACCAAGCACCAGCGCGAAGTCGGCACCGGCTACTTCGACACCATCGCTACTGCGCTCAACCCGAACGCGTCCACCCTGGCCCTGGTGGGATCCACCGAAGAAGGCCAGTTCCACTAA	MTAAFEPTQQTPEQQAAALELEWAANPRWEGVTRDYSASDVVRLRGRVSEEHTLARRGAEKLWKQLTEEHKEGKYTNALGALTGNQAVQQVKAGLRAIYLSGWQVAADANNSGHTYPDQSLYPANSVPTVVRRINNALLRADQIEFSEGVETVEDWMVPIVADAEAGFGGPLNAYELMKSMIQAGASGVHWEDQLASEKKCGHLGGKVLIPTQQHVRTLNAARLAADVAGTPSVVIARTDAEAATLITSDVDERDQEFILREGGQPVRTAEGFYKVRNGIEPCIARAKAYAPYSDLIWMETGTPDLELARKFAEAVKAEFPDQMLSYNCSPSFNWRKHLDDATIAKFQRELGAMGFTFQFITLAGFHALNYSMFDLAHGYAREGMSAYVELQEKEFASESRGYTATKHQREVGTGYFDTIATALNPNASTLALVGSTEEGQFH	PGPT0001550_1059	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
D1-17_00381	729	scoA_1	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGAAATTTCAGCCATCTGCAGCCAGTGCCCTGAAGGACGCCCTGCAGGACGGAATGACCCTCGCGGTGGGAGGCTTCGGCTTGAGCGGCATTCCGGCCGACCTCATCGAAGCCGTCCGCGATTCCGGCGTCAAGGACCTGACTGTGGTTTCCAACAACATGGGCGTGGACGGAAAGGGCCTGGGCATCCTGATCGAAGCCGGCCAGGTCCGGAAGGTCATTGCCTCGTACGTTGGGGAAAACAAGCTGTTTGCAGAGCAGTACATTGCCGGCCGGCTCGAAGTTGAGTTCACCCCGCAGGGCACCCTGGCCGAGCGCCTCCGCGCCGGCGGCGCCGGCATCCCCGCCTTCTACACAAAAACGGGCGTGGGCACCCTGGTTGCCGAAGGCAAGCCGCACGAGGTGTTCGACGGCGAAACGTATGTCCAGGAGCGCGCCATCACTGCCGACGTCGCACTGGTCCACGCCCACACCGCAGACACCGACGGCAACCTCATTTACCGCTACACCGCGCGCAACTTCAACCCCGTGGTGGCCACGGCAGGGAGCCTGACCATCGCGGAGGCCGAGGTCATCCTCCCGCCCGGCGCCCTGGACCCGAACCACATCGTCACGCCCGGCGTCTTCGTCCAGCGCCTGGTGCAGGCCACAGCCCGGACCAAGGACATCGAGCAGCGCACCGTGCGCCCTGCACCCAACCGGACCAGCGCCCAAGCACTGTCCGTCTAA	MKFQPSAASALKDALQDGMTLAVGGFGLSGIPADLIEAVRDSGVKDLTVVSNNMGVDGKGLGILIEAGQVRKVIASYVGENKLFAEQYIAGRLEVEFTPQGTLAERLRAGGAGIPAFYTKTGVGTLVAEGKPHEVFDGETYVQERAITADVALVHAHTADTDGNLIYRYTARNFNPVVATAGSLTIAEAEVILPPGALDPNHIVTPGVFVQRLVQATARTKDIEQRTVRPAPNRTSAQALSV	PGPT0008325_653	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
D1-17_00382	672	scoB_1	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGCCTGGACCAGGGATGAAATGGCCGCGATCGCGGCCGAGGAACTGAACGACGGCGACTACGTGAACCTGGGCATCGGCATCCCCACGCTGGTGGCCAACAACCTCCCCGAGGGCGTCCGGGTTGTCCTGCAGAGCGAAAACGGGCTGCTTGGTATGGGCCCCTTCCCGTTCGAGGGCGAGGAGGACGCGGACCTGATCAACGCCGGGAAGCAGACCGTGACCGTGCTGGCCGGCGGCAGCATCTTCGACTCGGCTACGTCCTTCGGCATGATCCGCGGCGGCCACGTCAAGGTAGCCATCCTGGGGGCAATGCAGGTCTCCGGCAACGGGGACCTAGCCAACTGGACCATCCCGGGCAAGATGGTCAAGGGCATGGGCGGTGCCATGGACCTGGTGGCTGGAACACCGCGTGTAGTGGTCCTCACCGAACACAACGCCAAGGACGGCACCCCGAAGATCGTGCGCGAATGCACGCTTCCGCTGACCGGGCTGAGCTGCGTGGACCGGATCATCAGCGACCTTGCCGTCTTCGACCTTGTCAAAAGGGACGACGGCGGGCGGCAGCTCACGCTCACCCGCCTGGCGCCGGGCGTGATGCTGGGCGAGATCCACGACAAAACCGGCACAAAATTCGACATCGCCCTCGAGTGCGAAGGAGCCATCGCATGA	MAWTRDEMAAIAAEELNDGDYVNLGIGIPTLVANNLPEGVRVVLQSENGLLGMGPFPFEGEEDADLINAGKQTVTVLAGGSIFDSATSFGMIRGGHVKVAILGAMQVSGNGDLANWTIPGKMVKGMGGAMDLVAGTPRVVVLTEHNAKDGTPKIVRECTLPLTGLSCVDRIISDLAVFDLVKRDDGGRQLTLTRLAPGVMLGEIHDKTGTKFDIALECEGAIA	PGPT0008330_137	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
D1-17_00383	1170		COG0183	putative acetyl-CoA acetyltransferase	ATGAGCGTGTGGATAGCGGGTTATGCCCGGACCCCTTTTTCCAAGTTCAACGGACGTTTCGCCTCAGTGCCCGCTACCACTCTGGGTGCGCATGCAATCAGTGCGGCACTCGGCCGTGCCGGCATTCAAACAACAGACGTGCAGTACGTATTTGCTGGACAAGTACTCCAAGGCGGGGCTGGTCAGAACCCTGCGCGACAGTCAGCGGTGGCAGCCGGCATCCCATTGTCGGCGCGGGCAATAACGCTGAATGCGGTGTGTTTGTCTGGCATGGAGGCAGTCGTTTCAGCTGCCCGTTTAATTTCCACGGGTGAGGCAGACGTCGTCGTAGCTCTGGGCCAGGAATCTATGTCATTGGCACCACATGTTTTCCCCGCCCGCAACGGAACTAAGTACGGTTCAATGCAGGTGCTGGACACGCTCGAATACGACGGGCTGACAGATGCGTTCGAACAGCGCTCGATGGGTGAATCAACGGAGGAGGGGAACCTTGAATACGGGCTGGACAGACTCAGCCAAGACGCCTGGGCCGCAGCGTCCCACCAACGGGCCGAGGCAAACTCCGTCTTCCTCGCGGGCGAAATCGAACCCTTCAAATTGGTGACACGGAAGGGTACGACATTGGTGACCGACGATGACGGAGTCCGCTTAGGGACGACGGTTGACTCCCTTGCTCCCCTTCGGCCGGCCTTCGGCGGGGGTGGAACAATCACTGCCGGAAACTCGTCCCAGATCACGGACGGCGCGGCGGCCGTTGTCCTGGTCAGTGATGCCGCGGCCCAGCGACTAAACGTTGCACCGTTGGCCGTTTTTGAGTCGCATGCCTTTGTGGCCGGCCCGGATGTTCGTCTGCATGATCAACCAGCCAATGCAATCATGGCCGCACTCAAAGGGATGGAGGCAGGCGTAGGAGACCTTGCGGCTGTGGAAATCAATGAAGCTTTTGCAGCCGTAGCAGTTCGATCTGTCCAGAAGCTGGGTATTGATGCAGGCATCGTGAATGTCCGTGGCGGTGCCATTGCACTTGGCCATCCGATTGGAGCTTCCGGCGCACGAATCGTTGGCACTCTGGCACGGCAGGTGGCGCAACTGGGGCCTGGGCGTCTGGGGGCCGCCGCTATCTGTGGGGGAGGGGGACAGGGATCCGCGGTCATCCTTCGGTCCGTTTAG	MSVWIAGYARTPFSKFNGRFASVPATTLGAHAISAALGRAGIQTTDVQYVFAGQVLQGGAGQNPARQSAVAAGIPLSARAITLNAVCLSGMEAVVSAARLISTGEADVVVALGQESMSLAPHVFPARNGTKYGSMQVLDTLEYDGLTDAFEQRSMGESTEEGNLEYGLDRLSQDAWAAASHQRAEANSVFLAGEIEPFKLVTRKGTTLVTDDDGVRLGTTVDSLAPLRPAFGGGGTITAGNSSQITDGAAAVVLVSDAAAQRLNVAPLAVFESHAFVAGPDVRLHDQPANAIMAALKGMEAGVGDLAAVEINEAFAAVAVRSVQKLGIDAGIVNVRGGAIALGHPIGASGARIVGTLARQVAQLGPGRLGAAAICGGGGQGSAVILRSV	PGPT0008320_12291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-17_00384	507			hypothetical protein	ATGACCATCTCCACCACGCAACCGCTGGACACCCCGGACCCCGAAACCGCGGGCGAGTCAACCCATGGCTACATCACTGACAAGGACCGGTACCTGGCCCGGGTGAAACGGATTGAGGGACAGGCACGGGGCATCCACCGGATGATCGAGGAGGAGCAGTACTGCATCGACATCCTCACCCAGATCTCAGCTCTAACCGCTGCTCTGCGCGGCGTCGCCCTGGGACTACTCGATGACCATATGAAGCACAGTTCCCGGCGCCGGCTCCCGACTGTCGGGATGCGTGTTGCGGTGGCGCTGCCAGCGCCGGGAAGTTTTGCAGGGTTAAGCGTCGTGTTGGCTGCTGCGTCCCGCGCGCCTTACATTTCACGAGTGACCGCTTGGACCGACCGCCAGTTTGTCGTGTCCCGCGAAAGTGCTTTGGTCGATGTGCTCGACGGTGAACGTTCAGGTTTCATGGCTCCAAAGATTTTTTGTGTGTCATCCTGTAGCCGTACTCACCGCTGA	MTISTTQPLDTPDPETAGESTHGYITDKDRYLARVKRIEGQARGIHRMIEEEQYCIDILTQISALTAALRGVALGLLDDHMKHSSRRRLPTVGMRVAVALPAPGSFAGLSVVLAAASRAPYISRVTAWTDRQFVVSRESALVDVLDGERSGFMAPKIFCVSSCSRTHR				NA	NA	NA	NA	NA
D1-17_00385	213			hypothetical protein	ATGACCATCACTGAATACCAAGTGACCGGGATGACCTGCGGGCATTGCGCACTCTCTGTCCGGGAAGAAGTTCAGGAGATTCCCGGGGTCGAATCAATTGAGGTAAGCCACCGGACGGGCAAGTTGACCGTGACCAGCACCGAGCCCTTGGAGCAGGGCGCGGTCATCGCCGCCGTCGAGGAGGCCGGCTACCGGGCGGTGCAGGCAGGATGA	MTITEYQVTGMTCGHCALSVREEVQEIPGVESIEVSHRTGKLTVTSTEPLEQGAVIAAVEEAGYRAVQAG	PGPT0004125_1743	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
D1-17_00386	987			hypothetical protein	ATGAACGCTGCCGGACGCCTGGGGGTGTATGCCGCGGGGTTGGCGGTGGTGTTTGCCGGTGCCTTCACTGCGGCGGGAGCAGCCGTACCGGAAGAGACGGTAACGGCATGGACACAGACAGCGGAAGGACATGAAGTGGACCAGCACAACGGCGGACATCAAGCCTCGCCCGCCCAGACTGCCACCCAAGCGGCCGAGTCAATGGTCCCGGGTGTGGCGGTGGAGCAGGACGGTTACCTGCTTCAGGAGGTTTCAGCACCGGGCGCAGTGGGGCAGCCCGGGCGCCTCTCGTTCTCGATCACCGGTCCTGACGGGGCGTCGGTCACCGAATTCGAGACGGAGCACGGAAAGGATCTGCACCTGATCGTGGTGCGCTCCGACGGTACCCGGTACCGGCACGTCCACCCCGTCATGGACGAAGGCGGCCGCTGGTCCCTGCCGTGGCAGTGGGACGCAGCGGGCACCTATCGGATTTATGCCGACGGCATGCCAGCAGGCGCCGGGAAGAGCCTGACGCTGACCCGCACGGTGGATGTGGCGGGGGCGTTTGATCCTGCCGCCCCGGCACCAATGACCACTGACGACGTTGATGGCTTCCGGGTTTCCCTGAACGGTGACCTGTCGGCCGGTGCGGCCTCGGCATTGACGGTGAGCGTCGCCCGTGACGGCAAGCCCGTCACTAACCTGGAACCCTATCTGGGCGCCTACGGCCACCTGGTGGCCTTGCGTTCCGGGGACCTGGCCTACCTGCACGTTCACCCCGAAGGGCCCGAACCGGTCAAGGGCAAGGTTTCAGGACCGGAGGTCCAGTTTGCCGCAACGGCCCCCACTCCGGGGCGCTACTACCTCTACTTCGATTTCCAGGTCGATGGGCAGGTCCACAGCGCCCGGTTCGTCCTCGACACCACCGGATCATCCGCCCACACCGCACCGAATGGCAGCACCGGCACTCCCGGCAGCGCCGATCACGGTCACGGCGGTCACTGA	MNAAGRLGVYAAGLAVVFAGAFTAAGAAVPEETVTAWTQTAEGHEVDQHNGGHQASPAQTATQAAESMVPGVAVEQDGYLLQEVSAPGAVGQPGRLSFSITGPDGASVTEFETEHGKDLHLIVVRSDGTRYRHVHPVMDEGGRWSLPWQWDAAGTYRIYADGMPAGAGKSLTLTRTVDVAGAFDPAAPAPMTTDDVDGFRVSLNGDLSAGAASALTVSVARDGKPVTNLEPYLGAYGHLVALRSGDLAYLHVHPEGPEPVKGKVSGPEVQFAATAPTPGRYYLYFDFQVDGQVHSARFVLDTTGSSAHTAPNGSTGTPGSADHGHGGH				NA	NA	NA	NA	NA
D1-17_00387	2313	ctpA_2	COG2217	Copper-exporting P-type ATPase	ATGTCTGAATCCTCGGCCCCCTATCAGGTGCTGGGCACCGGCATCGAACTCGAGATCGGGGGCATGACCTGCGCCTCGTGCGCTAACCGGATCGAGAAAAAGCTCAACAAGCTCGAGGGCGTCACCGCCACGGTGAACTACGCCACCGAGAAGGCACGCGTCAACGTCCCGCCCGGGTACGATGCGCAGGCACTCCTCGCGGAGGTCCAGAAGGCCGGCTACACCGCGACCCTGCCCGCCCCGAGGCAGGAACAGGAGATCGAAGCAGCCGACCGGCCCGACAAGGAGCTGCCGGCCCTGAAGCACCGCCTGATCGGCAGTGTCCTGCTGGCCGTCCCGGTGATCGTGCTGGCGATGGTCCCTGCCCTGCAGTTCACCTACTGGCAGTGGCTGTCCCTCGCCCTGGCAGCGCCGGTGATCGTCTGGGCGGGCTGGCCGTTCCACAAGGCAGCGTTCACTAACCTGCGCCAGGGCACCGCGACCATGGACACCCTGGTCTCCATGGGAACGGCCGCGGCGTTCCTGTGGTCGCTCTATGCCCTGTTCTTGGGCACCGCCGGGGCCCGGGGCATGACGCACCCCTTCGAATTGACCGTGGCGTCTACCGATGGTGCAGCGAACATCTACCTTGAGGTCGCCGCCGGGGTTATCATGTTCATCCTGGCCGGCCGGTACTTTGAGAAGCGGTCCAAGCGCCAGGCCGGTGCCGCGTTGCGCGCCCTGCTGGAACTGGGTGCCAAGGACGTAGCCGTTCTGCGGGACGGGGCCGAGACCCGCCTCCCCACCGACCAGCTCACCGTCGGCGACCAGTTTGTGGTCCGCCCGGGGGAGAAGATCGCCACCGACGGGATCGTCGTCAGCGGCCGCAGCGCCGTAGATGAGTCCATGCTCACGGGTGAATCCGTGCCCGTCGAGGTCGGTGAAGGCGACGCGGTGACCGGGGCGACGGTGAACGCCGGCGGCAGGCTGGTGGTTCGCGCCACCCGGATCGGATCCGATACGCAGCTGGCGCAGATGGCCCGGCTCGTGGAAAACGCCCAGTCCGGCAAAGCCGAGGTCCAGCGCATGGCCGACAAGGTCTCCGGGGTGTTCGTGCCCGTCGTCATCGCCATCGCCGTGGCCACGCTCGGCGCTTGGCTCGGCGCGGGATTCCCGGTAACGGCGGCGTTCACCGCGGCCGTGGCCGTGCTCATCATCGCCTGCCCCTGCGCCCTGGGCCTGGCCACCCCGACCGCGCTGCTGGTCGGAACGGGACGCGGCGCGCAGCTCGGCATCCTCATCAAGGGCCCGGAAGTGCTGGAATCCACCCGCAAGGTCGACACCATCGTGCTGGACAAGACCGGCACCGTCACCACCGGCAAAATGTCCCTGCAAGGCGTGCACACCGCACACGGTACCGACAGCGATGAGCTGCTCCGCGTCGCCGGGGCACTGGAGGACGCCTCCGAGCACCCCATCGCCCAGGCCATCGCCCGCGGCGCCACCGAACGCGTCGGCGCCCTGCCAACCCCGGAATCCTTCACCAACCACGAAGGACGCGGCGTACAGGGCATCGTCGACGGCCACCTCGTCGTCGTCGGACGCGACACCCTGCTGACGGAATGGTCCCTGGCCATGCCGGCAGACCTGGCCCGTGCCAAGGCCGACGCGGAAGCCGCAGGGGAGACCGCGGTGGTGGTGGCATGGGACGGCGAAGTCCGCGGCGTGCTCACCGTCGCCGATGCCATTAAGGACACCAGCGCCGAAGCCATTACCCGGTTCCGGTCCCTCGGCCTGACCCCCGTCCTGCTGACCGGTGACAACCGGGCGGTGGCCGAACAGGTCGCCGCGAAGGTCGGCATCGAACGTGTCATCGCCGAAGTCCTGCCCCAGGACAAGGTGGACGTCATCACCCGGCTCCAAAAGGACGGCAAGGTCGTTGCCATGGTCGGCGACGGCGTCAACGACGCCGCCGCACTGGCCCAGGCCGACCTGGGCCTGGCCATGGGCACCGGCACCGATGCAGCCATCCAAGCCGCCGACCTGACCCTGGTCCGCGGGGACCTGCGCGCCGCCGCCGACGCCATCCGGCTGGCCCGCAAGACCCTGGGCACCATCAAAACCAACCTGTTCTGGGCCTTCGCCTACAACGTAGCCGCGGTTCCGCTGGCTGCTCTCGGGCTGCTCAACCCGATGCTCGCCGGTGCGGCGATGGCGTTCTCCAGCGTCTTCGTCGTCAGCAACAGCCTCCGCCTACGCACCTTCACCAGCGAGGCAGCCAGATTCCCACGGGCAACCACCAGCCCGCGGGTGCACCAGCCTCTCGACGCCTAA	MSESSAPYQVLGTGIELEIGGMTCASCANRIEKKLNKLEGVTATVNYATEKARVNVPPGYDAQALLAEVQKAGYTATLPAPRQEQEIEAADRPDKELPALKHRLIGSVLLAVPVIVLAMVPALQFTYWQWLSLALAAPVIVWAGWPFHKAAFTNLRQGTATMDTLVSMGTAAAFLWSLYALFLGTAGARGMTHPFELTVASTDGAANIYLEVAAGVIMFILAGRYFEKRSKRQAGAALRALLELGAKDVAVLRDGAETRLPTDQLTVGDQFVVRPGEKIATDGIVVSGRSAVDESMLTGESVPVEVGEGDAVTGATVNAGGRLVVRATRIGSDTQLAQMARLVENAQSGKAEVQRMADKVSGVFVPVVIAIAVATLGAWLGAGFPVTAAFTAAVAVLIIACPCALGLATPTALLVGTGRGAQLGILIKGPEVLESTRKVDTIVLDKTGTVTTGKMSLQGVHTAHGTDSDELLRVAGALEDASEHPIAQAIARGATERVGALPTPESFTNHEGRGVQGIVDGHLVVVGRDTLLTEWSLAMPADLARAKADAEAAGETAVVVAWDGEVRGVLTVADAIKDTSAEAITRFRSLGLTPVLLTGDNRAVAEQVAAKVGIERVIAEVLPQDKVDVITRLQKDGKVVAMVGDGVNDAAALAQADLGLAMGTGTDAAIQAADLTLVRGDLRAAADAIRLARKTLGTIKTNLFWAFAYNVAAVPLAALGLLNPMLAGAAMAFSSVFVVSNSLRLRTFTSEAARFPRATTSPRVHQPLDA	PGPT0004090_5396	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
D1-17_00388	264			hypothetical protein	ATGGGAGACACCACCGGAAGCTGCTGCGGCGGCAACACGACCAGGAACACCATGCCCCAGGACCTGACCCTGACCGCCCGGCCCGCGCAGACCGATGACACCATCGCCGAATGCCAGGTCATGCCCGGCACGCCCGTGGTCAAGTCCGTCGCCGAAGCAAAAGGCCTCTACCGCGACTACCAAGGCAAGCGCTACTGGCTCTGCTGCCCCGGATGCGGACCGGCCTTCGACGCCGACCCCGCCAGATACGCCAAGGCCGGCTGA	MGDTTGSCCGGNTTRNTMPQDLTLTARPAQTDDTIAECQVMPGTPVVKSVAEAKGLYRDYQGKRYWLCCPGCGPAFDADPARYAKAG				NA	NA	NA	NA	NA
D1-17_00389	558			hypothetical protein	ATGAGTGCCCTTGCCCCGCTGGTTGGGGAGCCGTTGGCTCTGGACCTGGTCAATACCCGTTACGCGCAGGGTGACTTCCTCGTCACGCCTGAGGATCTGCTCGCTTGGCTTGCCTTACAGGCCGGTCGCTGCCCGGAAGGCCTCTCCGAGAACATCGGCCGTGCGGAGCTGGCCGTTGTGCGGTGCGTCCGGGAGCGCTCGGCGCGGGCAATCGAGTGCGCCCGGAGCGGAACCGGGCTCAGCCAGGAGGACCTGGACGCCATCAACCAGGTGCTGCGTGGGGCTCCCTGCATCCTCGAGGTTGCTGATGGCCCCTCCGGGATTACTGCCAACCGACGACGTCTGGGCTCCACAGCGGAGCGCCTGGGCGCATGGCTGGCCGAAGGCGTCGTCGAGCTCCTCACAGACCCGGCGGTTTCCCGGATCCGCCAGTGCGAGGCTGAAGACTGCGTCCTGCTCTTCCTCCCGTCCAATCCGCGTCGTCGCTGGTGCTCGGCCAGCCGCTGCGGAAATCGGATGCGGGTCGCCCGTCACTATCAACGGCGCAAGGCGGAATAG	MSALAPLVGEPLALDLVNTRYAQGDFLVTPEDLLAWLALQAGRCPEGLSENIGRAELAVVRCVRERSARAIECARSGTGLSQEDLDAINQVLRGAPCILEVADGPSGITANRRRLGSTAERLGAWLAEGVVELLTDPAVSRIRQCEAEDCVLLFLPSNPRRRWCSASRCGNRMRVARHYQRRKAE				NA	NA	NA	NA	NA
D1-17_00390	492			hypothetical protein	GTGGTACAGAACGGCAACGCCTACGAGGAAGGCCTGTCAGAGGCGGCCCGCGGGCTCCTCACGCTGGACCCCGGCGACCCCGCCGCCGTGCAGACACTCCAGGACGTCCTCACCCTGCCCGGAACCCGCAGCCAGTACGAAACGGGGGTTGCCGACCCCGGCATGATCGCCCCGGACGGATGGACACTCGACCAGCACTTCCTGGAGCTCCCGGGCCGGAAGGACGCCCAGCTCTCCCTGCTGTTCGACTACCACACGAACATCGCAAGCTATGACCGCTGGCAGGAATGGCTGCGCCGGTACGCTCCGCCAACCCTCATTGTCTGGGGGCGGAACGACCCCTTCTTCATTGAGCCGGGAGCCCGGGCATACCTCCGCGACCTGCCCCGCGCGGAGCTTCATCTTTTCGACACCGGCCACTTCGCCCTCGAGACGCACGTGGTGGAGATCGCACAGCTTATCGACGGTTTTCTCGACCGGTCCTGGAGCTGA	MVQNGNAYEEGLSEAARGLLTLDPGDPAAVQTLQDVLTLPGTRSQYETGVADPGMIAPDGWTLDQHFLELPGRKDAQLSLLFDYHTNIASYDRWQEWLRRYAPPTLIVWGRNDPFFIEPGARAYLRDLPRAELHLFDTGHFALETHVVEIAQLIDGFLDRSWS				NA	NA	NA	NA	NA
D1-17_00391	429			hypothetical protein	ATGCATCCCATCATCGATACGCCGCCCGTCCAGCCGACCCTCCGGCGGAGCCCCTGGTCCCTCGTTTTCGGCCTCTGCGCCGCAGCCCTGGCCGGCGTCGGGGCCAACGCGGTGATCGCACTGCTGGCACGCATCACCGGCGTGCCCGGCAACTTCCAGCCCCTTAACCCGCCCTCGTACACGCTCCTGACGGTACTCGGAGTGCTGCTGGGCACCCTGGGTTGGGCCATAACACGCGCGGTTTCGAAAAACCCGCGGAAACTACTCAGCTGGCTCGTGCCGGTGGTCGTCCTGGCCTCCTGCATCCCGGACCTGTTCCTGCTCGAGCAGGGCGGGGCGGCCGGCGTCCTCGCTGCAGCCCTCATGCATGCGGCACCGGCAGCGATTGCCGTCCCGGTCTATAAGCGGCTCCTGCCGCTTCCGTCCTGA	MHPIIDTPPVQPTLRRSPWSLVFGLCAAALAGVGANAVIALLARITGVPGNFQPLNPPSYTLLTVLGVLLGTLGWAITRAVSKNPRKLLSWLVPVVVLASCIPDLFLLEQGGAAGVLAAALMHAAPAAIAVPVYKRLLPLPS				NA	NA	NA	NA	NA
D1-17_00392	1422	merA_1		Mercuric reductase	ATGAAGACCCCCATCATAAACCAGATGTACGACCTGGCAGTCGTCGGCGCCGGCTCCGCCGCAAAGGCCGCAGCCACGGAAGCCCGCCGCCGCGGAAAATCCGTCGTTATGATCGAGCGCGGCCATCCCGGCGGCACCTGCCTCAACGTGGGCTGCGTGCCCTCAAAGCACCTCCTGGCAGCTGCGGCGGCCCGCGCAGGAGCCGGCAGCAGCCGATTCCCCGGCATCACCTCCTCCGCCGGCCCTGTGGACCTGGCATCACTGATCAGCGACAAGGACGCATTCATTTCCCAGCTGCGGGAACGCGACCACGTCCGCGCGACAGCACAGGCCGGCATCAGTTTGCGCCGGGGCACCGCATCGTTCATTGGTGCCGACGATACCGGCGTTTCTCTCAGCATCACCGGTGAGGACGGCAGCGTCGGAAAGATCGTTGCCGATCATGTCCTCATCGCGACAGGCGCCCAACCCTTTGTCCCGCCCATTCCAGGGATCCACACAGTTGATTATTTGACCTCCTTGACTTCAATGTCCCTGCACCAGTTGCCCGCATCGCTCGTAGTGGTCGGGGCCAACGCGATCGGACTGGAGCAGGCACAGCTTTTTTCCAGACTGGGCGCCAAGGTCACCGTCATCGAAGTTGCGGACAGGATCGCCCCCTTCGAGGACCCGGCGATTTCTGCCGCGCTGCAGGAGGCTCTCGAGGCGGAAGATATCGAGATACTGACAGCGGCCAACCTGATACAGGTCCAGCCGGACGGCGAAGGTGTCCTCGCCACGGTCGAGTTCAACGCCACCACTATCCACATTTCGGCTGAACGGCTGCTCATCGCCACAGGACGACGCCCCATCACCGATGGGCTGGACCTGGACGCCGTCGGGCTCGCCGTCGGCGCGCGCCGGGAAGTGCCTGTGGACGAGCATCTGCGCACCTCCCACCCGCGCATTTGGGCCGCTGGCGACGTCACGGGACACCCGCAGTTCGTCTACATCGCAGCAACACAGGGCGCCGCCGTCGTGTCCAACGCCTTCGGGGATGCTCCCCAGGCTCTCGACTACACCGTGCTGCCCCGCGTTACCTTTACCTCCCCGGCCGTGGCATCGGTCGGACTGACCCCCGCCCAAGCCGACGCCGCCGGCCGCCCATTCGAGACACGCGAACTGCCGCTCAACTTCGTGCCCCGGGCACTGATCAACCGCAAGACCTCCGGCCTGCTCAAGCTGATCTCAGACCCGGACACCGACCGGCTCCTGGGCGTCCACATGGTCGGGGAGGAAGCAGGAGAGGTCATCACGGCCGCGACGTACGCGCTGTCCGCCGGCCTCACCGTCCAACAGCTCGCAACCACCTGGGCCCCCTTCCTCACCATGGCCGAAGCCCTCCGGATCGCCGCGCAAATGCCCGCCGCAACACAGAACTGA	MKTPIINQMYDLAVVGAGSAAKAAATEARRRGKSVVMIERGHPGGTCLNVGCVPSKHLLAAAAARAGAGSSRFPGITSSAGPVDLASLISDKDAFISQLRERDHVRATAQAGISLRRGTASFIGADDTGVSLSITGEDGSVGKIVADHVLIATGAQPFVPPIPGIHTVDYLTSLTSMSLHQLPASLVVVGANAIGLEQAQLFSRLGAKVTVIEVADRIAPFEDPAISAALQEALEAEDIEILTAANLIQVQPDGEGVLATVEFNATTIHISAERLLIATGRRPITDGLDLDAVGLAVGARREVPVDEHLRTSHPRIWAAGDVTGHPQFVYIAATQGAAVVSNAFGDAPQALDYTVLPRVTFTSPAVASVGLTPAQADAAGRPFETRELPLNFVPRALINRKTSGLLKLISDPDTDRLLGVHMVGEEAGEVITAATYALSAGLTVQQLATTWAPFLTMAEALRIAAQMPAATQN	PGPT0004775_248	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MERCURY_RESISTANCE	MERCURY_RESISTANCE-MERCURY_HOMEOSTASIS,PGPT0004775-merA-K00520	NA	NA
D1-17_00393	330			hypothetical protein	ATGCACGACCACCAGGCAGAAGTACAGTACATGACCGATCTCAAAGAGGGCGCGCCGGAAATGGTCTCCGCGTTCTTCGCGTTCGACAAGGCGGTATTCGACAAGAACACCGGCAACCTCGATCTGGCCACTCGCGAGCTCATCGCAGTGGGCGTAGCTGTCACCACGCAGTGCGCCTACTGCATCGAAGATCACGCCAAACGCGCCATCACCGCAGGAGCCACCAAGACCGACGTTGCAGAAGCCGTTATGGTCGCTGCCGCGCTGCGCGCCGCCGGAGGAGTGACCCACGGATGGAAGGCGATGAAGAGCATCGCCGAGATGGACTAA	MHDHQAEVQYMTDLKEGAPEMVSAFFAFDKAVFDKNTGNLDLATRELIAVGVAVTTQCAYCIEDHAKRAITAGATKTDVAEAVMVAAALRAAGGVTHGWKAMKSIAEMD				NA	NA	NA	NA	NA
D1-17_00394	1443	efpA_1		putative MFS-type transporter EfpA	GTGAGACCCGAAACAGGACAGCGAAGCGGTCTGATACCTCTGCTGGTCATCGCAACTACCCAGATGATGCTGGTACTGGACGACTCGATTGTGAACATCGCGCTACCCAGCATCCAGCGGGAACTGGGCGTGGAAGCCATTCACCTGCCGTGGGTCGTAAACGCCTATATTCTGGCGTTCGGTGCACTTCTCCTGCTGGGCGGGCGCATCGGCGACCTGTGGGGTCGGCGCCGCACCCTGCAGCTCGGGATCGCAATCTTCGTAGTGGCCTCCTTGGCCGGAGGACTCGGGCAGAATACGGAAATGCTCATCATCGCCAGGGCCGCCCAAGGTCTGGGTGCAGCCATGGCGGCCCCCAACGCCCTGGCGCTGATCTCGACCACGTTCCCTGACCGCAAGATGCGCGACAGGGCCTTGTCCCTCTACGGGGCAATGTCCGCCGTCGGCATCGTCATAGGCCTGCTCCTTGGAGGCGTCCTGACGGACACCCTGGGCTGGCGCTGGGTGTTCTTCATCAACATTCCCATCGGTCTGCTCGTTCTCCTGGGCAGCCGAGCCCTCCCAGCCACGGGCGGCCATCAAGGACAGCTCGGCATCCTCGGCGCAGTCCTGGGCACCGGCGGGATGGTCGCGCTCGTGTACGCGATCACAAGGCTCGGAGAGGCCGGATTCACCGACCCAGCGGCATTGGTCCTCTTCGGCGCTGCCGCCGTTCTGCTCCTGGTGTTCACGCTCACCCAAGCGCACAGCAAAAACCCCCTAGTGCCCCTAAGCCTCTTCAGTGACCGAAACCGTGCCGGCGCCTACGGCACAATGCTGCTGCTGGCCATAGGCCCGATGGGCACTTTCTACGTCATCACCCTCTACCTCCAGCAGGTTCAGCACTTCACCCCGCTCCAGACCGGTGCTGCATGGTTGCCGTTCGCCGCGGGACTCATACTGGGCGCCGGTACCGGCCCGAAACTTCTGCTGAAGATAGCACCACGTCTTGTCGCTGCAAAGGGGGCGTCTCTCAGCGCGGTTGCGGCGCTCTGGTTTTCCGCCATCGCCGAGGATGCCAGCTACTGGCTGCACCTGGCACCAGCCATGTTTGTGTTGGCCCTCGGATTCGGCCTCGGCGTCATCGCGCTCACACAAGCGGCCCTCTACCACGTTGACCAGGACAAGGCAGGAATCGCCTCGGCACTGCTCAACTCAGCCCAGCAGATTGGCGTCGCTCTCGGTCTAGCCGTGCTGGCCGCTGTCGCGGCCACCATCTCTGCGCCGCAGGAACACGCGGGCGTCGGCCCCGGGGCAGCTCTCACAGCGGGATACAGTACAGCGTTGCTAGTCGCCGCCGCTATTCTCGTCATCGCCGGGGTACTGGCCCTAACAACACTCAATGGACATCCAACACCCGAAGCCCAAAACTCCGACACAAGCACTGACGAACTAACGGTCTGA	MRPETGQRSGLIPLLVIATTQMMLVLDDSIVNIALPSIQRELGVEAIHLPWVVNAYILAFGALLLLGGRIGDLWGRRRTLQLGIAIFVVASLAGGLGQNTEMLIIARAAQGLGAAMAAPNALALISTTFPDRKMRDRALSLYGAMSAVGIVIGLLLGGVLTDTLGWRWVFFINIPIGLLVLLGSRALPATGGHQGQLGILGAVLGTGGMVALVYAITRLGEAGFTDPAALVLFGAAAVLLLVFTLTQAHSKNPLVPLSLFSDRNRAGAYGTMLLLAIGPMGTFYVITLYLQQVQHFTPLQTGAAWLPFAAGLILGAGTGPKLLLKIAPRLVAAKGASLSAVAALWFSAIAEDASYWLHLAPAMFVLALGFGLGVIALTQAALYHVDQDKAGIASALLNSAQQIGVALGLAVLAAVAATISAPQEHAGVGPGAALTAGYSTALLVAAAILVIAGVLALTTLNGHPTPEAQNSDTSTDELTV				NA	NA	NA	NA	NA
D1-17_00395	966	cdhR_1	COG4977	HTH-type transcriptional regulator CdhR	ATGCGGATAGCGGTGTATGCCTTCGATGACGCGACGATGTTTCACCTTGCTGTTCCGCAGATGGTGTTCGACGAGGTCACGCGCCAGGGACTCGCTGAATGGAAGACCGTTCTTTTCTCCGACCAGGCCGGCCAGGTTCGAACGACAGAGGGCTATCTGCTGGGAGAGGTGCAAGGACCCAAAGCCGCGGAAGAGGCGGATGTCGTCGTGGTGCCCTCATGGTTCGATGACGGACGCGCTCCCGGCGAATCACTGCGCCTGGTGCTTCAACAGGCACACCAGCGGGGCGCGGCTGTCCTGGGGCTCTGTCTTGGCGCCATCCCCGTTGCAGATGCTGGACTGCTTTCCGGACGCCGGGCAGTCACGCACTGGCAAGCCTTCGATTCCCTCGCTCTCCGGCACCCCGATGTTTCCCTGGATAAAACCGTGCTCTACATCGATCATGGTGACGTACTGACCTCGGCCGGCACGGCATCGGCACTGGATGCCTGCCTGCATCTCGTGCGGACCCGCCTCGGGGCGGACGCGGCGAACAAGGTAGCACGCAGTCTCGTCATCGCCCCGCACCGCGAAGGCGGACAGGCCCAGTACATCGAACACCCCGTTCCCCCGCGCTCCTCCGACGACCCGATCGCGCGCTTGCTCGAATGGGCCTTGGGCCGTCTGGGTGAGCCCCTCAGTATCGATCGCCTCGCCGCCCAAGCGCACATGAGTCGCCGGACCTTCGTGCGCGCCTTCCGGGCTTCAACAGGGACGACGCCGTCGGCCTGGATACGAACCCAGCGGCTCGACGCGGCCCGGCGGCTGCTGGAAACCACCGACCTGTCCGTTGAGCAGGTTGCAGCCGACTGCGGCTTCGGCAGCGCGGTGACCCTCCGACAAAGCTTCGCAACAGCCTTTTCCACCAATCCGACGGAATACAGACGCCACTTCGACGCCCGACTCAAGCAGGGACCCTCACGCTGA	MRIAVYAFDDATMFHLAVPQMVFDEVTRQGLAEWKTVLFSDQAGQVRTTEGYLLGEVQGPKAAEEADVVVVPSWFDDGRAPGESLRLVLQQAHQRGAAVLGLCLGAIPVADAGLLSGRRAVTHWQAFDSLALRHPDVSLDKTVLYIDHGDVLTSAGTASALDACLHLVRTRLGADAANKVARSLVIAPHREGGQAQYIEHPVPPRSSDDPIARLLEWALGRLGEPLSIDRLAAQAHMSRRTFVRAFRASTGTTPSAWIRTQRLDAARRLLETTDLSVEQVAADCGFGSAVTLRQSFATAFSTNPTEYRRHFDARLKQGPSR	PGPT0014658_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
D1-17_00396	564			hypothetical protein	ATGAGCACCCCTCGTCGCGCCCTTATTCTCATCGACGTCCAGCAGCAGTACTTCGATGGACCCTTCGAGATCCAGTACCCGCCGCACCAGGAGTCCCTGCCGGTGATCGCGCGGGCTGTGGACGCTGCGGCCGCCGCCGGCATCCCCGTTGTGGCCGTACAGCACAGTGCAGGCGAAGGGGCACCGGTCTTCGCACCGGGCACACCCGGCTTTGACCTTCACCTCGAGATCGAATGCCGCAGGACCGATGCATGGAAGGGTCTCGTCAAGCAGTACGGCTCCGTCTACGCAAACACTGACCTCGCCGGTTGGCTGCGCCAGCAGGACATCGACACCGTCACCCTCGTCGGCTACATGAACAACAACTGCATCCTCGCCTCAGCCGTGGAAGCCGAATTCCTCGGCTTCACCACCGAAGTTCTCTCAGACGCCACCGGGGGCGATCAACCTCGCCAACGACGCAGGTTTCGCCGACGCAAAAACAGTGCACACCACCCTGCTCGCACTGCTGAACTCAAACTGGGCCGCCGTCAGCACCACCGACGCCTGGACCGCTGCCCTTAA	MSTPRRALILIDVQQQYFDGPFEIQYPPHQESLPVIARAVDAAAAAGIPVVAVQHSAGEGAPVFAPGTPGFDLHLEIECRRTDAWKGLVKQYGSVYANTDLAGWLRQQDIDTVTLVGYMNNNCILASAVEAEFLGFTTEVLSDATGGDQPRQRRRFRRRKNSAHHPARTAELKLGRRQHHRRLDRCP				NA	NA	NA	NA	NA
D1-17_00397	747	iclR_1	COG1414	Transcriptional repressor IclR	GTGAATCTCGGGAGATCAGAGCGCTTGCAATCAAGTGCAACAGTAAACTCGCTGCGGATTCTTGAAACAATTGCCCGCCTAGGTCCCGGTACAACCGCTAAAGATATTACTGATGCGTTATCGATGCCACCAGCTACCGCTTATCGGCTGCTCAATGCGCTTGTCGGAGACGAATACCTGGCAAGAACGGCCGATTTGCGCGGCTTCGCTTTAGGGCACGCAATTACCGGCTTGATCTCTGCAAGTGCGGTCCCATCAGTTCCAACATCGGCCCGCGGTGTCCTAGAAGAATTTCGAGGGCAAACACGATTTGCCGTTCACCTAGTTGTGTTTCAACTTGCGTGCATTAAAATCGCCGATTCTGATCCTGACCATCCTCCGCGTTCTGAGGCTGAGATGACGCGATATCTCCACGCGTCGGCCGCAGGCAAATTGTTTCTTTCGCAACTTGAAGATCTGTTGACGGTTCTTCCCGAGGGTTCACTCAAGAAATTGACGCCCAAAACGATCACGAACCTCGCGTCCCTGGAAGGCGACCTTGAGGAAGTCAACAAGAGGGGCTACGCGATGCAGGTCGATGAACTGGAGGAAGGTCGTTGCTGTCTTGCAGTTCCCATAGCCTTACCGGGTTCACCACCAGGAGGCGCATTATGCCTTGGCGGTACATCGGAACGATTGGACGCGATCAGGGCGCACGTCACATCGGCGCAGCAGGCAGCCACGCGGCTGGCTCCCCTCCTATTCTGA	MNLGRSERLQSSATVNSLRILETIARLGPGTTAKDITDALSMPPATAYRLLNALVGDEYLARTADLRGFALGHAITGLISASAVPSVPTSARGVLEEFRGQTRFAVHLVVFQLACIKIADSDPDHPPRSEAEMTRYLHASAAGKLFLSQLEDLLTVLPEGSLKKLTPKTITNLASLEGDLEEVNKRGYAMQVDELEEGRCCLAVPIALPGSPPGGALCLGGTSERLDAIRAHVTSAQQAATRLAPLLF				NA	NA	NA	NA	NA
D1-17_00398	1470			hypothetical protein	GTGTCCGTTCCTCGCAAACGCTTGATATCCGCCCATTCGCCCGTCGCCGGGCTCAGTCGCCGGAAGCTGCCGTTTATACCCGTCTTCGCGCAAGCGGTGGCGGCGGTTGCTCCAGCCGGCGGTATGTCGGTTGTTCCTGCTCTGGTGTTCGGCGCTACGGGCACCAACCTCGTCATGTCCTTCCTGATCGCTATGGCAGTGATGCTGCTGGTCTCGTCCTGTCTGCGCCCGATGGCGCAAAGAATGGCAGCTGTCAGTGGCCTGTACAGCTACACAGCAAAGGGGCTCGGCCCCAGCGCCGCCATCACTGCGGGGTGGTCGATGATCTTCGGCTATGGTCTGATCGCGATGGCGAGCCTGCTGGCCGCCGGGACATACGGGGCCAAAATTGTGGAGAGTCTGTGGGGTTCCGCCGGCGGCGGAACCCTGGTCGTAACCTTGATCATCATTGCTGCCGCTGCCCTGGCGGGTTTCTTCATGGTCCGCGGCATCCGCATATCAGCAAAGGTGACCCTCCTGGTGGAGTGCGTTTCGATCCTGTTGCTGGCCTCTTTGCTTACGGCCTATTTCGTACTGGCCCGACCACATGTGGACCTCGGTTCGCTCATTGCACTGAAGGGAAATATTGGTTCGCTCTCCCTCGGGGTGGTTGTGGCGGTTAGCGCTTTTGTCGGTTTCGAAAGCTCAACGACTTTGGGAGGAGAGGCGCAGCGGCCCTTTATCAACATCCCGCGCACGATCCGTTGGACTCCGATAGTCACCGGGGTGCTCTACCTTCTTGCGGTAACGGGACAGGACATCGCACTGAAGGACGCACCCGGTTTCATCGCATCAAGCCCAACGCCGCTATCTGACATGTTCTACTTCAAGACTTCGGCCCTCATGGCGGTCATGCTGGATGTCGGAATCGCCGGATCTTTTTTTGCCTGTGCTGTTGCCTCAGTCAACGCGCTGGCCAGAACTCTTTTTTGCATGGGAAGGGAGGGCGTTGCACCAGCAATAATTGGGCACGCTCATCCAACCTTTAGAACGCCGTGGGCGGCGATTTTGACGGCCATGCCCATTATTACCGCCGTACCCATCGTCATGGTCCTGTCCGGCGTATCACCCGAAAAGGGGCTCACCCACCTCTTCACCTTGGCCGCCTACGGCTATCTCGGTGCTTACGTTCTGGCATGCGCATCCCTGCCCTTTTTCCTGAGGCGGATCGGGGAAGGAACCTGGCTTTCCTGGGCTCTGGGAGGGTTGACGGTTGGCGTCGTAGCTTTCGTGGTCTGGAATGCGGTTTCGCTTTCAGCTCAGGAAGGCAACATCCAGGCGGGCGTTTATGGCTCCCTTGTCACCCTCAGCGTCCTCTATGCCAAGTTTCTCCGGTGGCGCTCCCCCGCTCTCATGGATGAGGTCGGTATATACGATGAAACAAGGGAATCCGATCTTCACTACTCGGCGAACTCCGGGCGGAAAGCGTGA	MSVPRKRLISAHSPVAGLSRRKLPFIPVFAQAVAAVAPAGGMSVVPALVFGATGTNLVMSFLIAMAVMLLVSSCLRPMAQRMAAVSGLYSYTAKGLGPSAAITAGWSMIFGYGLIAMASLLAAGTYGAKIVESLWGSAGGGTLVVTLIIIAAAALAGFFMVRGIRISAKVTLLVECVSILLLASLLTAYFVLARPHVDLGSLIALKGNIGSLSLGVVVAVSAFVGFESSTTLGGEAQRPFINIPRTIRWTPIVTGVLYLLAVTGQDIALKDAPGFIASSPTPLSDMFYFKTSALMAVMLDVGIAGSFFACAVASVNALARTLFCMGREGVAPAIIGHAHPTFRTPWAAILTAMPIITAVPIVMVLSGVSPEKGLTHLFTLAAYGYLGAYVLACASLPFFLRRIGEGTWLSWALGGLTVGVVAFVVWNAVSLSAQEGNIQAGVYGSLVTLSVLYAKFLRWRSPALMDEVGIYDETRESDLHYSANSGRKA				NA	NA	NA	NA	NA
D1-17_00399	1524	thcA	COG1012	EPTC-inducible aldehyde dehydrogenase	ATGACTGTTTACGCACAGCCCGGTACCGAGGGTTCGAAGGTCGTCTTCAAAAACCGCTACGAGAACTGGATCGGTGGCGAATGGGTGGCCCCCGTCAAGGGCCAGTACTTCGAAAACATCACCCCCGTCACCGGTAAGGCCTTCTGTGAGGTAGCCAGGAGCACGGTCGAGGACATCGATCTGGCCCTGGATGCCGCGCATAAAGCCGCGCCTGCCTGGGGTAAAGCATCGGCGGCCGAGCGCGCTGCGGTACTGAACAAGGTGGCCGACCGGATTGAGCAGAACCTGGAGCTGCTGGCCGTGGCCGAGACCTGGGACAACGGCAAGCCGGTGCGCGAGTCACTCGCGGCGGACATCCCGTTGGTAGCAGACCATTTCCGCTACTTCGCCTCAGCCATTCGCGCGCAGGAAGGCCGCCTGTCACAGCTCGACGACAACACCACCGCCTACCACTACCACGAGCCGCTCGGGGTAGTGGGACTAATCGTTCCGTGGAACTTCCCGATACTGATGGCCGTCTGGAAGCTCGCCCCCGCTTTGGCTGCGGGTAACGCCGTGGTCCTCAAGCCGGCCGAACAGACCCCGGCATCGATCCTGGTGCTGATGGAGCTGCTGGCCGACATCCTGCCCGCGGGCGTGGTCAACGTCGTCAACGGCTTCGGTGTCGAAGCCGGCAAGCCACTCGCGTCCAGCCCGCGGATCCGCAAGATCGCCTTCACCGGCGAGACAACCACGGGCCGTCTGATCAGCCAGTACGCCAGCCAGAACCTCATCCCGGTCACGCTCGAACTCGGCGGTAAGAGCCCCAACCTCTTCTTCAACGACGTCGCCGACTCCAGCGACGCCTTTTACGACAAGGCGCTCGAAGGCTTCACCCTCTTCGCCTTAAACCAGGGCGAGGTCTGCACCGCCCCGTCCCGCGCACTCGTCCAGGAGGACATCTACGAGTCCTTCATGGCCGACGCCGTGGCACGGGTAGAGACAATCATTCAGGGCAACCCGCTGGACACCGAAACCCAGCTCGGAGCCCAGGCCTCCAACGACCAGCTCGAAAAGATCCTCTCCTACATCGACATCGGCAAGCAGGAAGGCGCCAAACTGCTCACCGGCGGCGCCCGCGCCCAGCTCCCCGGCGACCTCGCCGGCGGCTACTACGTCCAGCCCACGGTCTTTGAAGGCCACAACAAGATGCGGATCTTCCAAGAGGAAATCTTCGGACCTGTCCTCTCGGTCGCAAAGTTCAGCGACTACAACGACGCCATGGAGATCGCGAACGACACCCTCTACGGACTCGGCGCCGGCGTCTGGTCACGCAACGGCAACATCGCCTACCGCGCCGGCCGCGAAATCCAGGCCGGCCGCGTCTGGGTCAACAACTACCACGCCTACCCGGCCGGCGCCGCCTTCGGCGGCTACAAGTCCTCCGGCATCGGACGCGAAAACCACGCCATGATGCTGGACCACTACCAGCAGACCAAGAACCTGCTGGTCAGCTACAACGAAAACAAACTCGGCTTCTTCTAA	MTVYAQPGTEGSKVVFKNRYENWIGGEWVAPVKGQYFENITPVTGKAFCEVARSTVEDIDLALDAAHKAAPAWGKASAAERAAVLNKVADRIEQNLELLAVAETWDNGKPVRESLAADIPLVADHFRYFASAIRAQEGRLSQLDDNTTAYHYHEPLGVVGLIVPWNFPILMAVWKLAPALAAGNAVVLKPAEQTPASILVLMELLADILPAGVVNVVNGFGVEAGKPLASSPRIRKIAFTGETTTGRLISQYASQNLIPVTLELGGKSPNLFFNDVADSSDAFYDKALEGFTLFALNQGEVCTAPSRALVQEDIYESFMADAVARVETIIQGNPLDTETQLGAQASNDQLEKILSYIDIGKQEGAKLLTGGARAQLPGDLAGGYYVQPTVFEGHNKMRIFQEEIFGPVLSVAKFSDYNDAMEIANDTLYGLGAGVWSRNGNIAYRAGREIQAGRVWVNNYHAYPAGAAFGGYKSSGIGRENHAMMLDHYQQTKNLLVSYNENKLGFF	PGPT0007176_686	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
D1-17_00400	510			hypothetical protein	ATGACAAAAGCTCGCCTTGACGCCGCGGTAACACTCCCTGGCGAGGATTTCTCCAGAGTTGCGCTGACATCGGATGCAGTGGAGTTACTGAGAAAACTTTGGGCGAGGCATGGAGCGTTGATGTTCCACCAGTCCGGTGGCTGCTGCGATGGATCGGCTCCCATGTGCTATCCCGCAGGTGAATTTCAGACCGGAGCGGCCGACGTCCTGCTGGGACGATTCAACATTGCCCCCGCTGAAGCTGAGAGCGACGGCGCTGACACTGAACACCAGCCAGTGGATTTTTGGATCTCCCGAGAGCAGTTCGGCTACTGGAGCCATACCCATCTGACGGTGGACGTGGTGCAGGGCAGAGGGAGCGGGTTTTCACTGGAATCACCCGACGGAGTGCGCTTCCTCATCCGTTCCACACTCATGAACTGGCCCGCCTTGACAGCACTGCCAGCTGCACAGGCAGCCGCACTCCCCAACCCAACGGACCATCAATTCGGAATTGAGCACGGGGAATGA	MTKARLDAAVTLPGEDFSRVALTSDAVELLRKLWARHGALMFHQSGGCCDGSAPMCYPAGEFQTGAADVLLGRFNIAPAEAESDGADTEHQPVDFWISREQFGYWSHTHLTVDVVQGRGSGFSLESPDGVRFLIRSTLMNWPALTALPAAQAAALPNPTDHQFGIEHGE	PGPT0017992_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_00401	177			hypothetical protein	ATGACCCTCACTAGTGAAGCCCAGACTTTCATCAGAACAGTCCATCCTTTGAACCTGCTTTACCAGGACGAAATCCTGCCCGTCCTGCACGAAGGACATGATGCTGCCGAACATTCCGACTTGTCAGCCTTTGAACATCGCGAACCATCCAAGGAAGCAAAGCCCGATGACTTTTGA	MTLTSEAQTFIRTVHPLNLLYQDEILPVLHEGHDAAEHSDLSAFEHREPSKEAKPDDF				NA	NA	NA	NA	NA
D1-17_00402	771	fcbB2		4-chlorobenzoyl coenzyme A dehalogenase-2	ATGACTTTTGAAAACCTCCAGTTCCGGTGCAACGGCGGAGTTGCCTGGATCATGCTGGACCGACCCGCTGCTGCCAACGCACTGAGCATCGCCCTCGCCGAAGAGTTCTGCGCGGCAGTAGACCGCGCAGAAAACAACCCTGACGTTCATGTGGTCGTTCTCCAGGGTGCCGGTAAGTTCTTCTGCGCAGGCGGCGACGTGGCGGCCATGGCCGAGGCTGAGGACCCCGCCGAATTCCTTCGCATTCTGGCCGGAAAGATGAGCGAAGGGCTGCTCGCCTTGGCCCGGTCCCGGCTGGTGACGATTGCAGCCGTGCATGGGGCAGCCGCAGGGGCAGGGCTCGCCCTGGTCCTGAACTCCGATCTGGTCCTGGCCTCCTCAAACGCGTCCTTCCAAAGTGCCTATGCCAAGGTGGGGCTTACCCCTGACTGCGGCGTCTCATACCTGCTGCCCCAAGCGGTAGGTCCGCGCCGGGCAGCCGAGATCTGCCTGTCGGGCCGGGTAGTTACGGCACCCGAGGCACTCCAGTGGGGTCTGGTCAATGAGGTCGTGGACGAATTCGCACTTCAGCTCCGGACCGAAGACCTGGCCCTCCGCCTCGCCGGCTCTGCCGCCCAGACGCTGGGGCCGACCAAACGCCTGCTAACCACGGCCGCTGTCGCCGCCTACAGCAAACATCTGGACGATGAAGTGGCGACCATTTCAACCATTGTCGCCCACGAGAACACCAGGAACCGCATAGCCTCCTTTGCGGGCCGCAGCAAAGCCTGA	MTFENLQFRCNGGVAWIMLDRPAAANALSIALAEEFCAAVDRAENNPDVHVVVLQGAGKFFCAGGDVAAMAEAEDPAEFLRILAGKMSEGLLALARSRLVTIAAVHGAAAGAGLALVLNSDLVLASSNASFQSAYAKVGLTPDCGVSYLLPQAVGPRRAAEICLSGRVVTAPEALQWGLVNEVVDEFALQLRTEDLALRLAGSAAQTLGPTKRLLTTAAVAAYSKHLDDEVATISTIVAHENTRNRIASFAGRSKA	PGPT0006070_2962	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
D1-17_00403	1995			Histamine oxidase	ATGACCATCCCCGTTGTTGAAAGTTCCGCTCATCACCCAGGTCATCCTGCCCAGTCTCCGTTAGCACCACTGTCGGATCTGACAGCCGACGAGTTTGTCAAGATTCGGGAGATCATTTCGGCCGAACCTACCTTCACACTCACCACCCGTTTTGCCTATGTGGGGTTGGAGGAACCCCACAAGCGGGAAGTCCTTGCCTACAAAGAAGGTGCCGGACCCCGACCGGAACGCCGGGCCCGGGTGATGTTGCTGGACATGGCCACCGGTGCTTCCACGGACAACATCGTCTCCCTGGACCAGGCCCGGGTGTTGACCTCCGTGGCCATCGACCCAGCCGAGGGCCAAACCCCCATCCTGCTGGAGGAGTTCGATGCCATTGCCGGGATCTGCGCCGAAGACCCGCGCTGGGTGCAGTCCCTAGCTGACCGGGGAACGGAGCCGCAGAAGGTCGTATGCATTCCGTTGTCCGCCGGCTCCTACGGCTTCGAGGAGGAAGCAGGGCGTCGCATCGTGCGAGTGCTGGCCTTCCGCCAGGACTATCCCGAAGACCATCCATGGGCACACCCGCTGGAAGGGCTCTGCGCTTATGTTGACACCATCGGCCGCAAAATCACCCGCCTCATCGATACCGGGGCCGTGCCGGTTCCGGCCGAGTCCGGCAACTTTGATGACCCCGCCGTGCAGGGCGAACCGCTAAGCACACTCAAGCCCATAGAAATCACCCAGCCCGAAGGCCCCAGCTTCACTGTTGAAGAGCGGTCGGTCACCTGGGCTAACTGGAAATTCGACATCGGCTTCGATGCCCGCGAAGGCCTGATCCTGCGCAATCTGTCCTTCACTGACGGGGGCGAGGAACGGCCGGTCATGTATCGGGGCTCCATCGCGGAAATGGTCGTGCCGTACGGGGACCCTTCCCCCATCCGGTTCTGGCAAAACTACTTTGACCTTGGCGAGTACCTCTTCGGCCGCTTCACAAACTCACTGGAACTGGGCTGCGACTGTGTAGGTGAAATCCAGTACTTCGACGCTGTCCTCAGCGACGAACTAGGAACGCCCTTCACCATCAAAAACGGCATCTGCATGCACGAAGAGGACTTCGGAACCCTCTGGAAGCATAGCGATATGTTCACCAACTCCAGCGAGGTACGGCGCTCCCGCCGTCTGGTGATCAGCAGCTTCACCACCGTAGGTAACTACGACTACGGGTTCTACTGGTACCTCTACCTCGACGGGACCATCGAGCTGGAAGCCAAACTCACCGGCATCCTCTTCACCTCCGGTTACGCCGAGGCCGACGCCCCGTTCACTTCCGAGGTCGCCCCCGGACTGGGCGCCCCCTATCACCAGCATCTCTTCAGCGCCCGACTGGACATGATGGTGGACGGCGTAAAAAACGCCGTCGATGAAGTCGATGCCGTGCGCTTGCCGTTCAGCGACACCAACGACCGGGGAGAGGCCTTCACCAAGTCGGTAACCCGGCTGGCCACAGAACAAACAGCGGCCCGTGAAGCCAAAGGATCAGTAGGCCGCGCCTGGCACATCGTGAACACTGAGAAGACAAACCGACTGGGCCAGCCCACCGGATACGTCCTTTATCCCGGCGACCAGCCCACCCTCATGGCCGACCCGGCATCCTCGCTTGCCGCCCGCGCCGCATTCGCCACCAAGCACCTGTGGGTTACCCAGTACGACCCGACCGAGCGCTACGCTGCCGGAGACTTCGTCCACCAGAGCACCGGCGGCGGTGGTTTGCCGGCCTTCACCGCTGAGGACAAGTCCGTGGACGGCGAAGACATCGTGCTGTGGCACACCTTCGGACCCACCCACTTCCCGCGGCCCGAGGACTGGCCGGTTATGCCAACCGACTACGCCAAGTTCAGCCTCAAACCCTACGGCTTCTTTGGTAAGAACCCGGCGCTGAACGTCCCGCCGAACCAGGCCGCAGGGCACTGCGCCAACCCCACGGCCGGCGAGGCCCACGGGTGCCATGGTTAA	MTIPVVESSAHHPGHPAQSPLAPLSDLTADEFVKIREIISAEPTFTLTTRFAYVGLEEPHKREVLAYKEGAGPRPERRARVMLLDMATGASTDNIVSLDQARVLTSVAIDPAEGQTPILLEEFDAIAGICAEDPRWVQSLADRGTEPQKVVCIPLSAGSYGFEEEAGRRIVRVLAFRQDYPEDHPWAHPLEGLCAYVDTIGRKITRLIDTGAVPVPAESGNFDDPAVQGEPLSTLKPIEITQPEGPSFTVEERSVTWANWKFDIGFDAREGLILRNLSFTDGGEERPVMYRGSIAEMVVPYGDPSPIRFWQNYFDLGEYLFGRFTNSLELGCDCVGEIQYFDAVLSDELGTPFTIKNGICMHEEDFGTLWKHSDMFTNSSEVRRSRRLVISSFTTVGNYDYGFYWYLYLDGTIELEAKLTGILFTSGYAEADAPFTSEVAPGLGAPYHQHLFSARLDMMVDGVKNAVDEVDAVRLPFSDTNDRGEAFTKSVTRLATEQTAAREAKGSVGRAWHIVNTEKTNRLGQPTGYVLYPGDQPTLMADPASSLAARAAFATKHLWVTQYDPTERYAAGDFVHQSTGGGGLPAFTAEDKSVDGEDIVLWHTFGPTHFPRPEDWPVMPTDYAKFSLKPYGFFGKNPALNVPPNQAAGHCANPTAGEAHGCHG				NA	NA	NA	NA	NA
D1-17_00404	540			hypothetical protein	GTGCCATGGTTAACGATGGTTGAAGCCCTCCACCTGGGGACTGTCGGACTGGCCGCGGTCGGCACATCCTGTGCGGCCGCGGCCAAAGGCCGGGGGAAAGCTCTCGCTGTCACCAATTCGACTGTCATGCTCATCGCGATGGTTGAGGCGGTGGCCGGGTTCAACCTCCTTCCGGCCCTGGGATGGTCTCTTGCCATGCTTACTCTGGCCATGGCCTCGGGTGTGCAGCAAAGTATCATCCGCAACGGCACTGCCAGCCATGGTTGCGGTGGGATGACCGTTCACCGCAACATCGGCGCCATATTGATGGCCGCGCTGCTCATTTGCATGGATTCGGTCCACGCTCACTTACCGGAGACAGGACACAGCATGCACGGCTCCACAAACCCGCTGGAAATCCTTCTTGGAGCAGGGGCGGCGGCTTATGCCGTCGCCAGCCTTTGGCAAGCCTGCAAAGTCCATACCAATCGGCAGCTTGACCGGATTGAGACGGCGGCCATGGGACTCTCTGTCCTAATCATGGCCGTCATAGCCTTCTAG	MPWLTMVEALHLGTVGLAAVGTSCAAAAKGRGKALAVTNSTVMLIAMVEAVAGFNLLPALGWSLAMLTLAMASGVQQSIIRNGTASHGCGGMTVHRNIGAILMAALLICMDSVHAHLPETGHSMHGSTNPLEILLGAGAAAYAVASLWQACKVHTNRQLDRIETAAMGLSVLIMAVIAF				NA	NA	NA	NA	NA
D1-17_00405	1605	acsA_1	COG0365	Acetyl-coenzyme A synthetase	ATGCCCGCACCCGTCCACACTGCCGAGGCCGTTCTTGGCCGCTACTCCGCTCCCGACGCCTGTGCCGCGGAGCTTCTTTGCGACGCACATGACCCCGACACCATTGCCTTTTCCATCATCGAAGCCGATCTCTCCAGCGAGGACATCACCTACGGCCAACTCCGCGAACGTTCGGAACGGGGAGCGGCCGCCCTGGCTGAGCTGGGAGTCGGGCCCGGTGACACGGTCGCAACTCTGATGGGCAAATCCGCCGACCTCGTCGTCATGCTCCTGGCTATCTGGCGGCGTGGGGCAGTCCATGTACCCCTGTTCACGGCCTTCGCGTGGCCAGCAATTGAGCTGCGGCTCACAGCATCTGGCGCCAAGGTCGTCATCACCGACGCTGACCAGCGCGAAAAAATCAAAAACACTTCAGCCACGATCCTGGTCGCCGGGGACCAGGCAACGGCGCCGGACCTTGCCCTGGCTCCGATGCTAAACGTCCAGCTGCCCGGTATCCCGGCCGAAACCCTCGGAGGCGAGGGAACCTTGGTGATGCTCTTTACGTCCGGGACCACCGGCACGCCCAAAGGCGTGCCCGTTCCGGTCCGCGCGCTGGCGGGCTTCCGTCAATACATCGAACTCGGCCTGGATGTACGCGAAGATGATGTGTTCTGGAACGCCTCGGACCCGGGTTGGGCCTACGGCCTGTATTTCGGGATCCTCGGCCCCCTCGCCGCGGGCCGGCGCACCCTGCTGCTGCATGCACCGTTCTCCCCGGAGCTCAGCTTTGCTGTGCTCGACTTGTTCAAGGTAACCAATTTCACTGCCGCCCCCACCGTCTACCGGACCATGCGTGCCAAGTCCGGGTCAATGCCGAAGGACCTGAGCCTGCGCAGGGCATCTTCATGTGGAGAGCCGCTGACACCTGAAGTGGTTGCCTGGGCCGAAGAAGCCCTTGGTGTGCCGGTCCGGGACCACTACGGACAGACCGAGCACGGCATGATAATCGTCAACGCCTGGCACGATGACGTACGCAAGGACGTGCGCCCGGGCTCGATGGGGCATCCCCTGCCGGGCTGGACCTGCTCTGTACTAAAAGACGAATCTGACGAATTGGCCGCTGTCGATGAGATGGGGCGGGTTGCCGTGAGCGTCCCCGAAAGCCCAATGATGTGGTTTACCGGATACCAGGACGCCCCCGAAAAAACAGCCGAGCACTTCACCCAGGACGGGCGCTGGTACCTCACCGGCGACGCCGGAAAAACCGACGCCGACGGGTACTACTACTTCTCATCCCGGGATGACGACCTCATCATCATGGCCGGATACCGCATTGGACCCTTCGACGTTGAAAGCGTCCTGTCCACCCACCCGGCAGTCCTCGAAAGCGGTGTCATCGGAGCCCCCGACGAACTCCGTGGAGAAGTCCTCGAAGCCTATGTCGTCCTCAAAGAAGGCGTCACAGGCAATGAAAACCTCGTGTCCGAACTGCAGAACCACGTCAAAACCCAGTACGCGGCGCACGCCTTTCCACGGCGGATCCATTTCGTTGAGGATCTGCCCAAAACACCCTCAGGGAAAATCCAGCGATACATCCTCCGGAAACAGCGCGCCACCCAGTAG	MPAPVHTAEAVLGRYSAPDACAAELLCDAHDPDTIAFSIIEADLSSEDITYGQLRERSERGAAALAELGVGPGDTVATLMGKSADLVVMLLAIWRRGAVHVPLFTAFAWPAIELRLTASGAKVVITDADQREKIKNTSATILVAGDQATAPDLALAPMLNVQLPGIPAETLGGEGTLVMLFTSGTTGTPKGVPVPVRALAGFRQYIELGLDVREDDVFWNASDPGWAYGLYFGILGPLAAGRRTLLLHAPFSPELSFAVLDLFKVTNFTAAPTVYRTMRAKSGSMPKDLSLRRASSCGEPLTPEVVAWAEEALGVPVRDHYGQTEHGMIIVNAWHDDVRKDVRPGSMGHPLPGWTCSVLKDESDELAAVDEMGRVAVSVPESPMMWFTGYQDAPEKTAEHFTQDGRWYLTGDAGKTDADGYYYFSSRDDDLIIMAGYRIGPFDVESVLSTHPAVLESGVIGAPDELRGEVLEAYVVLKEGVTGNENLVSELQNHVKTQYAAHAFPRRIHFVEDLPKTPSGKIQRYILRKQRATQ	PGPT0002265_7606	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-17_00406	2106	fadJ	COG1024	Fatty acid oxidation complex subunit alpha	ATGGGAGACAACACTCATCAGACAAGAGCCCAGGACCCGACCTCCGGGGAGTCTCTGACGAATGTCCGTACTGACTACCTTGGTCACGCCGGTTACCGCTTCGCCATCCTGACGCTGGAGAATTCCGACCGTCGTCCGGTCACGATGGGACCGGCGTCCCTGAACAATTTTGCGGCCGCGGTGCGCCGCCTGGACCTGTCCGGGGTGGATGCAGTGGCGGTGACCGGCACGGGCCCTGTGTTCTGCGCCGGCGCTGACATGAAGAAAATGACGGAGGCGTCCACGGCCGAACAGGCCGAGGACGTCGCACGCCGGGGTCTCGAGGCTTTCGGCCTGCTGGAGGCGCTTCCCGTGCCCACCTTTGCTTTCATCAACGGTCTTGCACTGGGCGGAGGGCTGGAGCTGGCCCTGCACGCCGGCCACCGCACCGCTGCGGACTCGGTCCGGGCCCTGGGCTTTCCCGAGGTGCGCCTGGGCCTGATTCCGGGCTGGGGCGGTATCCCGCGCACGGTAGCTCTTGTCGGCCCTGCCGTCACGGCCCGGCTGATGGTTACAGATTCCCTTGCTGGGAAGAACCTCTCGGCGCGGGCTGCCGCTGACCTGGGCCTGGTTGATGCTGTCCTTCCACAGGACGGGTTCCTGGCCGCCTCCCTGGATTTCGCGGCCGGCATCCTCGCCAGCGGGGCCACGGCCGCGGTTCCGTCCCCGCTGCAGTCCCATACCGCCAGCGATTCAAAGTCCGAAGCCTGCGCCGGGGTGCCTGTGGCGCTGGAGGACATCCGGACCCGGCTCGATGCCCGTCTGCACGGGGCGGCGCCGGCGCCCTACCGCGCACTGGAACTCATTGCAGAAGGTGCGACGGCCTCCGCCGGACAAGCTGACCCGACGGCCGAGATGCGGGCCTTCGGTGAGCTGCTGCTCTCGGACGAGGCCCGGGCGAGCATCTACGCCTTCCACCTGACACAGTCACTGGCGAAAAAGCCCGTGGGTGGCCCCGCCGCCGACCCGCTGCCGGTGCGCGCCGTCGGCGTCATCGGGGCGGGACTGATGGCCAGCCAGCTCGCCCTCGTCTTCGCGCAGCACCTGCGCGTGCCGGTGCGGATCACGGATCTGTCGGAGGAGCGCATAGACACGGCACTGGGCTGGATAGCGGCTCAGCTGGATAAGCCCGTGGGCCGCGGGCGCCTGGACCAGGCCGGGGCCGAGGCTATCCGCGCCCTGGTGACGGGCGGCACTGACAAGACCGCGTTCGCCGACTGTGACGTGGTCATCGAGGCCGTCTTCGAGGAGCTGGACGTTAAGCGGGCGGTCTTCGCCGAACTGGAAACCCTGGTCAGGCCGGACGCCCTGTTGCTGACCAATACGTCCTCGCTGTCCATCGAGGCCATGGGCGCGGGCCTGGCACATCCCCAGCGGCTGATCGGTTTCCACTTCTTCAACCCCGTGGCCGTGCTGCCCTTGGTGGAAATCATCACCACCCCCCAGACGGACGAGACCACGCTCGCGACGGCATTCGAGCTGGCCCGGCGTCTGAGCAAGACGGCTGTGCTCGTCACGGACACGGCAGGTTTCGTGGTCAACCGGATACTGACCCGGCTCTTCAGCGAGGTCCTCTCCCTGCTTGATGGCGGGGCGGATCCGGAGACCGTGGACCATGCCCTGGACCCGTTGGGCCTGCCCATGACGCCACTGCAGCTGCTGCAGTTCATCGGCCCGTCCGTGCAGCTGCACATCTGCGAGACCATGCACCAGGCCTATCCGCAGCGGTTCAGCGTCAGTACCAGCCTGAAGAGGCTTGTGGCCGCGGGGCTGCCCGGTTACCTGGACGACAACGGCCGTATGTCCGCTGAGGCGGCCTCGTTGCTCGGGTCGCCCGTCCCGGCAGATGCCGGTACCGTCCGTGCCCGTATCGTGGCCGCGCTGGCAGAAGAAATCATGGAAATGCTGGATGAGGGCGTGGTGGCCGGGCCGGAACAGATCGACCTGTGCATGATCCTCGGGGCAAACTACCCCCTCCACACCGGGGGACTGACCCCCTTGCTGGACCGGGAAACCGGCACCGCATTCCAGCCGGGACTGCGCGTACCCCTTCCCGCCGCCCGCTAG	MGDNTHQTRAQDPTSGESLTNVRTDYLGHAGYRFAILTLENSDRRPVTMGPASLNNFAAAVRRLDLSGVDAVAVTGTGPVFCAGADMKKMTEASTAEQAEDVARRGLEAFGLLEALPVPTFAFINGLALGGGLELALHAGHRTAADSVRALGFPEVRLGLIPGWGGIPRTVALVGPAVTARLMVTDSLAGKNLSARAAADLGLVDAVLPQDGFLAASLDFAAGILASGATAAVPSPLQSHTASDSKSEACAGVPVALEDIRTRLDARLHGAAPAPYRALELIAEGATASAGQADPTAEMRAFGELLLSDEARASIYAFHLTQSLAKKPVGGPAADPLPVRAVGVIGAGLMASQLALVFAQHLRVPVRITDLSEERIDTALGWIAAQLDKPVGRGRLDQAGAEAIRALVTGGTDKTAFADCDVVIEAVFEELDVKRAVFAELETLVRPDALLLTNTSSLSIEAMGAGLAHPQRLIGFHFFNPVAVLPLVEIITTPQTDETTLATAFELARRLSKTAVLVTDTAGFVVNRILTRLFSEVLSLLDGGADPETVDHALDPLGLPMTPLQLLQFIGPSVQLHICETMHQAYPQRFSVSTSLKRLVAAGLPGYLDDNGRMSAEAASLLGSPVPADAGTVRARIVAALAEEIMEMLDEGVVAGPEQIDLCMILGANYPLHTGGLTPLLDRETGTAFQPGLRVPLPAAR				NA	NA	NA	NA	NA
D1-17_00407	1539			hypothetical protein	ATGAATCACAGTACAGAAGTACAGGCTGTCCAGACAGAAGGACGGGTTGTCCAGGAGTTTCGCAGGAAACTCGGACTCAAGGATGTTCTTGCTCAAAGCTTGTCGGTAATTGCACCGGCAATGTCAGGCGCATTTCTGACCTACTTGGCCGCCACGCAAGCCGGGGGAGCAACGCCGCTCTCCTTCTTGCTGGGGGCGCTGGGTATGTTGTGCGTGGGGTCCGTGGTCGCCTTGTTCGCAGGAAGCCTCTCCTCAGCCGGATCGATTTACACCTACCTGAGCAAGGGCGCAAGTCGTACCACCGGTTTTGTTGGAGGTTGGGCCTATGTGAGCGCATACCTTCTCTTCGGTGCAGGCGTACTGGGCGGCTTCGGCTTTTTTATGTCTCAGCTCGTCGAAGTACTCTTTGGTGGTGCAGTGCAGTGGTACTGGTTCACCTTGCTCGGTATCGCGATCATCACCCTCCTCAACTTCTTCAACATTGCTGTGTCAACGAGGAACCAGCTCATCTTCCTTGTGCTGAGCATGTCAGCCATGCTCGTGGTCGCCTTCATTGTTATCGCTATTGGATCGCCTGAAGTCAGCCTTGTCGATGGCGAGACACCGATTGCAGCAGCCGGCACAAGCTGGGACCCGACAGCCTTCTGGCCACCCGCCGCAGGAACCCCGTGGATAGGTGTCTTCTTCGGCATGAGCTTCGCCATGCTGTCTTTCGTAGGTTCGGAGTCAAGCGCGTCCCTCTCTGAGGAGACGCGTGATTCAAAGCGCAACATACCCCGCGCAATTATCGGTTCGATCCTCATCGCCGGGATCTTCTACGTAATTATCAGCTACGCGACCGCCATTGGCTTCGGAGTGGAACAAGCCAAGATTGACTGGCCCGCTTCGGCAACCGGTCTCGCCGCAGTCGCTCCGAACACACTCACCTCGGCACTGGTCCTCGCTGCCGCTGGTGGGTCAAGCCTGTTCTGCGCTTTGGGATTCCACACCGCATCGTCACGAGTCCTGTTCGCCATGGGGCGCGAGGGCGTGCTGCCGAAGCGACTCGGACGACTGCACCCGCATTGGAACACCCCGTGGAACTCGATGATCCTGGCTATTGTGATCTGGATCCTCCTGATCGGCGGATCAGTGCTCTTCGTGGCAAAGGACGCGCAAGTCGAGCTCGCGGGAACTGATAACCATGTCACGGGAGGCGTGTTCGTCTTTACGCTTCTGCTCAACTTCGGAACCCCCGTGGTGATGTTCGTGTACCTGATGCTCGGTATCACCGGGATCATTCACGGCATGCGAAATCGCATGCGGAAGTTCATCCTTGCTGGAGTGGGAGCTGGGATGTTCGCTATGGTCGCGATCCTCGCCGGTCTCTACTTCTCGTTCGTTCCGGACGAGCCCGGGGGAGACATTCCGATGGCCCTTCGTGTCATCCCATGGGTCTTAGTCGCGATCGTTGTGGCCGGTTGGGCGTTGGCCGCCTGGACGAAGCGTGCCCGCGCTCAGGCCTGGGCCGACATGGGTCGAGTATTCGATGAACTGTAG	MNHSTEVQAVQTEGRVVQEFRRKLGLKDVLAQSLSVIAPAMSGAFLTYLAATQAGGATPLSFLLGALGMLCVGSVVALFAGSLSSAGSIYTYLSKGASRTTGFVGGWAYVSAYLLFGAGVLGGFGFFMSQLVEVLFGGAVQWYWFTLLGIAIITLLNFFNIAVSTRNQLIFLVLSMSAMLVVAFIVIAIGSPEVSLVDGETPIAAAGTSWDPTAFWPPAAGTPWIGVFFGMSFAMLSFVGSESSASLSEETRDSKRNIPRAIIGSILIAGIFYVIISYATAIGFGVEQAKIDWPASATGLAAVAPNTLTSALVLAAAGGSSLFCALGFHTASSRVLFAMGREGVLPKRLGRLHPHWNTPWNSMILAIVIWILLIGGSVLFVAKDAQVELAGTDNHVTGGVFVFTLLLNFGTPVVMFVYLMLGITGIIHGMRNRMRKFILAGVGAGMFAMVAILAGLYFSFVPDEPGGDIPMALRVIPWVLVAIVVAGWALAAWTKRARAQAWADMGRVFDEL				NA	NA	NA	NA	NA
D1-17_00408	1188		COG0183	putative acetyl-CoA acetyltransferase	ATGAACCGCAGTACAGATGTTGTCATTGTCGGGGCAGCCCGCACACCGCAGGGCAGGCTGATGGGCCAGCTCGCTCCGTTGTCCGCTGTCGAGCTCGGGGGTGCAGCTGTCGCCGCAGCGGTGGATAGGGCAGGTATCGAACCTGGCGCCGTCGAGGCGGTCATAATGGGACACGTGCTTCAGGCCGGGTCCGGACAAAATCCTGCCCGGCAGGCTGCCGTCGTCGGGGGCGTCCCGTTGAGCGCCCACGCAGCCACCGTGAACAAGGTGTGTCTGTCCGGGCTGAGCGCCATCATCGAGGCGAGCCGGCTGCTGCGGCTGGGAGAGGCCGCGGTGGCGGTTGCCGGGGGACAGGAATCCATGAGCAACGCCCCGCACCTGCTGTCGGGTTCCCGGGCCGGGCACCTCTACGGCGACGCAGTGCTGATTGACTCCGCCGCCCACGACGGCCTCACGGATGCCTTCGACCATGAGGCGATGGGACTCGCCACCGACCGTGCCAATGATGCCCTGGGCATCCTTCGTGCCCAGCAGGACAAAGCCGCCGCCGACTCCCACAGGCGTGCCGCAGCGGCCCAGGCTGGCGGGCTCTTCGACGCCGAGATCGTCCCGGTCAAAGTGCCGCGGCGCCGCGGGGACGTCGACCTCGTAAGAATCGACGAGGGTGTGCGTCCCGATAGCACGGCGGAGTCCCTCGCCATGCTTCGGCCGGCGTTTTCCCCGACCGGTACGGTCACCGCCGGCAATGCCTCCCCACTGAACGACGGCGCTGCCGCCGTCGTCCTGACCACCCGCAGCTACGCGGAGGCCCACGACCTCGAAATCCTCGCCACGGTCGGTTCCCCGGGACAGACCGCAGGACCGGACACCTCGCTGCCGGACAAACCGGCCCTCGCCATCGGCAAAGCACTCCAGACGGCAGGCTGGACAGCAGAGGACCTGGACTTCGTGGAGATCAACGAGGCGTTCGCCTCCGTGGCTCTGCAATCGGCGGCACAGCTGGGCCTCGACATGGACCGCGTTAACGTCAACGGGGGTGCGATCGCCCTCGGCCATCCTATTGGGGCTTCCGGCGCACGGGTAGTCGTCTCGGCCGTACATGAGCTCATGCGCCGCGGGACCGGCAAAGCGGCCGTGGCACTGTGCGGCGGCGGCGGCCAGGGCGAGGCGCTGCTGCTATCCCGCTGA	MNRSTDVVIVGAARTPQGRLMGQLAPLSAVELGGAAVAAAVDRAGIEPGAVEAVIMGHVLQAGSGQNPARQAAVVGGVPLSAHAATVNKVCLSGLSAIIEASRLLRLGEAAVAVAGGQESMSNAPHLLSGSRAGHLYGDAVLIDSAAHDGLTDAFDHEAMGLATDRANDALGILRAQQDKAAADSHRRAAAAQAGGLFDAEIVPVKVPRRRGDVDLVRIDEGVRPDSTAESLAMLRPAFSPTGTVTAGNASPLNDGAAAVVLTTRSYAEAHDLEILATVGSPGQTAGPDTSLPDKPALAIGKALQTAGWTAEDLDFVEINEAFASVALQSAAQLGLDMDRVNVNGGAIALGHPIGASGARVVVSAVHELMRRGTGKAAVALCGGGGQGEALLLSR	PGPT0008320_7131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-17_00409	249			hypothetical protein	ATGATTTTCGATCCAGACCTTATCGTCCACGAGTGCGCCGATCTTTCCGTGGGCGACCAGATAAATGCCTGGCAGGGCGGCCATTTGCTTCATACAGGGATCATCACCGATCGCTCACCCGCCTTAGGCCTGTTCTGGATCCGGGAACCGGCGTTGGGCGAACGGCGGCTGATGGACATGAGCGAATTTCAGATTACCCGCGTACCGCATCCTGTGCGTCAACAGGAATCCAAGCCCGCAGCAGCCTGA	MIFDPDLIVHECADLSVGDQINAWQGGHLLHTGIITDRSPALGLFWIREPALGERRLMDMSEFQITRVPHPVRQQESKPAAA				NA	NA	NA	NA	NA
D1-17_00410	1332	icl_2	COG2224	Isocitrate lyase	ATGACTGCAGCATTTGAGCCCACCCAGCAGACGCCCGAACAGCAGGCTGCCGCCCTGGAGCTCGAGTGGGCCGCCGACCCGCGTTGGGAAGGCGTCACCCGGGACTACTCAGCGGCCGACGTCGTCCGCCTCCGCGGCCGCGTTTCCGAAGAGCACACCCTGGCATGCCGGGGTTCGGAGAAGCTGTGGAAGCAGCTCACCGAGGAGCACAAGACCGGCGGGTACACCAACGCCCTCGGCGCGCTGACCGGCAACCAGGCCGTCCAGCAGGTCAAGGCGGGCCTGCGCGCCATCTACCTTTCGGGCTGGCAGGTGGCAGCGGACGCCAACAACTCCGGCCACACCTACCCGGACCAGTCCCTCTACCCGGGCAACTCCGTCCCCACCGTGGTGCGCCGGATCAACAACGCCCTGCTCCGGGCGGACCAGATCGAGTTTTCCGAGGGCGTTCAGAGCGTTGAGGACTGGCTGGTCCCGATCGTCGCCGACGCCGAAGCAGGCTTCGGCGGGCCGCTGAACGCGTACGAGCTGATGAAGTGCATGATCGCCGCCGGCGCCTCCGGCGTTCACTGGGAGGACCAGCTCGCCTCGGAGAAGAAGTGCGGCCACCTCGGCGGCAAGGTCCTGATCCCCACCCAGCAGCACATCCGGACCCTCAACGCCGCCCGCCTGGCCGCCGACGTCGCCGGCACCCCGTCTGTCATCATCGCCCGCACCGACGCCGAGGCCGCCACCCTGATCACCTCCGACGTCGACGAGCGGGACCAGGAATTCATCCTCCGCGAAGGGGGACAGCCGGTTCGCACTGCGGAGGGCTTCTACAAGGTCCGCAACGGCATCGAACCCTGCATCGCCCGCGCCAAGGCCTACGCCCCGTACTCGGACCTGATCTGGATGGAAACCGGCACCCCGGACCTGGAACTGGCCCGCACGTTCGCCGAAGCGGTCAAGGCCGAGTTCCCGGACCAGATGCTCTCCTACAACTGCTCCCCGTCGTTCAACTGGAAGAAGCACCTGGACGACGCCACCATCGCGAAGTTCCAGCGCGAACTCGGCGCCATGGGCTTCACCTTCCAGTTCATCACCCTGGCCGGCTTCCACGCCCTGAACTACTCGATGTTCGACCTCGCCCACGGCTACGCCCGCGAAGGCATGAGCGCCTACGTCGAACTCCAGGAGAAGGAATTCGCCTCCGAATCCCGCGGCTACACCGCCACCAAGCACCAGCGCGAAGTCGGCACCGGCTACTTCGACGACATTGCAACCGCGCTCAACCCGAACGCATCCACCCTGGCCTTGGTGGGATCCACCGAAGAAGGCCAATTCCACTAA	MTAAFEPTQQTPEQQAAALELEWAADPRWEGVTRDYSAADVVRLRGRVSEEHTLACRGSEKLWKQLTEEHKTGGYTNALGALTGNQAVQQVKAGLRAIYLSGWQVAADANNSGHTYPDQSLYPGNSVPTVVRRINNALLRADQIEFSEGVQSVEDWLVPIVADAEAGFGGPLNAYELMKCMIAAGASGVHWEDQLASEKKCGHLGGKVLIPTQQHIRTLNAARLAADVAGTPSVIIARTDAEAATLITSDVDERDQEFILREGGQPVRTAEGFYKVRNGIEPCIARAKAYAPYSDLIWMETGTPDLELARTFAEAVKAEFPDQMLSYNCSPSFNWKKHLDDATIAKFQRELGAMGFTFQFITLAGFHALNYSMFDLAHGYAREGMSAYVELQEKEFASESRGYTATKHQREVGTGYFDDIATALNPNASTLALVGSTEEGQFH	PGPT0001550_1059	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
D1-17_00411	1641	aceB_2		Malate synthase	ATGAACGGCTTCACTATCAATGGCATTACCCTGACTGCACAGCCGATCTGCCGGCAGAACGAGGTGCTCACTCCGGACGCTTTGGAGTTCGTCGGGAAGCTGCACCGGTCGACGGCGGCGCGGCGGCAGGAGCTGCTGCAGGCCCGCCGGGCACGGCGGGCTGAGATCGCTTCCGGGCAGGATCCGCGGTTCCTCCGCGAGACCGAAGAGATCCGCAACGATCCGTCGTGGCGGGTCGCTCCCCCGGCACCCGGGCTGGAGGACCGCCGCGTGGAAATCACCGGGCCGGTGGACAAGAAGATGACCATCAACGCCCTTAACTCGGGTGCGAAGGTGTGGCTCGCTGACATGGAGGACTCCTCCACCCCCACCTGGCGGAACGTCATCAAAGGCCAGCTGAACCTCACGGATGCCCTGGAGCGCAGGATCGACTTCACCAGCCTGGAAGGCAAGGAATACAAGCTCCGCCCGGCCGGTGACCTGCCCACCGTCGTGGTCCGTCCCCGCGGCTGGCACCTGCCCGAGAAGCACATGCTCATCGATGGCACCCCGATCGCCGGCGGCATCGTGGACTTCGGCCTGTACTTCTTCCACAACGCCCGCCGCCTGCTGGCCCAGGGCAAGGGTCCGTACTTCTACCTGCCCAAGATCGAGAACCACCTCGAAGCCCGGCTGTGGAACGACATCTTCATCCTGGCCCAGGACCTGCTCGGCATCCCGCAGGGCACCATCCGCGCCACGGTGCTGATCGAAACCATCACCGCCGCCTTCGAAATGGAGGAAATCCTGTACGAACTGCGCGACCACGCCTCGGGCTTGAACGCCGGCCGCTGGGACTACATCTTCTCCCTGATCAAGAACTTCCGCACCCGCGGACCCCGGTTCGTCCTGCCGGACCGCGGCCAGGTCACCATGACCCAGCCCTTCATGCGGGCCTACACCGAACAGCTCGTGCGCGCCTGCCACAAGCGCGGTGCCATGGCCATCGGAGGCCCTGCCGCTTATGTTCCCAGCAGGAGGGATCCAGCGATAAACGCTGAGGCTTTGCTAAAGACCCGTGCCGACAAGCTACGGGAGGCCAACGACGGCTTCGACGGCTCCTGGGTTGCACACCCCGACCTGGTACCGGTCTGCCGCGAGGTGTTCGACAGCATCCTCGGCGAGAAACCGAACCAGCTGGACAGGCTCCGCGAGGACGTCATCCCCGATGACCAAGCCCTGATCAACGTGGCCGCCACCGAAGGGACCATCACCGAACAAGGAATCCGGAACAACATCGAAGTGGGCATCCGCTACCTCGAATCCTGGCTCCGGGGCAACGGCGCGGTAACGATCCACAACCTGATGGAAGATGCCGCCACCGCGGAAATCTCTCGTTCGCAACTGTGGCAGTGGATCTACGCTCGCTCCATCACCGACCAGGGCGAAATCGTCAGCCACTACTGGGTGGAGCAGCTCCTGGACGAGGAATTCACCCGACTGGAACGCTTCGACGGCGACCGCTTCGAAGACGCCCGGGACATCTTCGAGGAAGTCACACTGGCTCGCGACTTCCCGTCCTTCTTCACCCTCCCCGCCTACGCCCGCTACCTCACGGAGACCCGAGAAAGGGCATCGGTAGAAGAGCTCTCGATGGCCTAG	MNGFTINGITLTAQPICRQNEVLTPDALEFVGKLHRSTAARRQELLQARRARRAEIASGQDPRFLRETEEIRNDPSWRVAPPAPGLEDRRVEITGPVDKKMTINALNSGAKVWLADMEDSSTPTWRNVIKGQLNLTDALERRIDFTSLEGKEYKLRPAGDLPTVVVRPRGWHLPEKHMLIDGTPIAGGIVDFGLYFFHNARRLLAQGKGPYFYLPKIENHLEARLWNDIFILAQDLLGIPQGTIRATVLIETITAAFEMEEILYELRDHASGLNAGRWDYIFSLIKNFRTRGPRFVLPDRGQVTMTQPFMRAYTEQLVRACHKRGAMAIGGPAAYVPSRRDPAINAEALLKTRADKLREANDGFDGSWVAHPDLVPVCREVFDSILGEKPNQLDRLREDVIPDDQALINVAATEGTITEQGIRNNIEVGIRYLESWLRGNGAVTIHNLMEDAATAEISRSQLWQWIYARSITDQGEIVSHYWVEQLLDEEFTRLERFDGDRFEDARDIFEEVTLARDFPSFFTLPAYARYLTETRERASVEELSMA	PGPT0001445_1702	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-17_00412	180			hypothetical protein	ATGGTTTCCTCTGCAACCTCGAACGAAAGTTCGGAGCATGGCAACCCGACACCTACAAGGTCGGTAAACGTTGAGAAAGAGCAGCAACGTACTGCAGAAAGCACCCTTCGATCTGAAATCGAAGACGCCGACGCGACAACACGTGTGAGATTCGACTGGCTCCAAGAAGTGCCCTGCTGA	MVSSATSNESSEHGNPTPTRSVNVEKEQQRTAESTLRSEIEDADATTRVRFDWLQEVPC				NA	NA	NA	NA	NA
D1-17_00413	1230			hypothetical protein	TTGGCAGATATGAAACGACCACGAAAGTCACGGGGCGCCCCTCCAAAGAACGCTGCACGGGCTCACTATGATCAGCTGATGAAACAGGGAATGGGCAATTCCGAAGCGTGTCGAATCATCGGAATCAGCCGCAGTTCCGGCACTCGATGGCGGCACGGTCACACCGTTGTTCTGAAATCCGGCGACATCAAAACGATCCCTCCCATCTCCCGTCTAAGACCAGCCACGATTTCTGCCCGATTTCTCTCCGAGCCCGAGCGGATCACGATCGCGGACCTCCTGCATGCTGGGCGGAGCATTCGCGCCATCGCAATGGAACTCGGGCGCAGTCCATCCACCGTGAGTAGAGAGATCCGCCGCAATGTTCACGAACCCTCTGGGAACTACCGTCCGCGGACAGCACAGCGCAGCGCCGAACGTAGACGGAGCCGCCAGCGGACCGGAAAGATCGCGGCCAACCCGGAGCTGCAGGAGTTCGTGCGTGAACATCTGAAGCAGCGCTGGAGTCCCCGCCAGATCAGCAACCGTCTACGCGCTAATTTCCCGGGACAACCCGAGATGCACGTCGTGCCCGAGACTGTTTATCAAGCCCTCTATGGGCGCGGAAGCCTGGACCTAGCCGTGGACCCGGCCGTCTCGCTGCGCAGCGGACGGACCGGTCGCCGGCCACGCCGCCGAAAGGAGCACCGGACCAGTCGTTTCCCGGACATGGTCATGATCCGGGACAGGCCCCCGGAAGTGATCGGCAGATTAGTACCAGGCCACTGGGAGGGCGATTTAATCATTGGGAAGGGCGGTCGCTCGGCCATCGCCACTCTGGTCGGACGCACCTCTCGCTTCATCATCCTCGTGCACCTGGCAGGAAACCGCGGTGCTGAGAACCTACGCGATCGGCTAGCTGATTCGATGAGCCCACTCCCGCCGCACCTGCGCCGTTCTTTGACCTGGGATCAGGGCACTGAAATGGCTTGCCACCAGAGTTTCACGCGGCAGACGCTGATTCCGGTGTATTTCTGTGACCCCGCGAGCCCTTGGCAGCGCGGATCCAACGAGAACACTAATGGCCTGCTCCGCCAGTACTTCCCGAAAGGAACAGATCTCGGCGTCCACAGCCCCGAACAACTCACCAGGGTCGCCGATGAAATCAATCGCAGGCCACGTGAAATCCTTGGCTGGCAGAGTCCCATGGAGCACCTGGCTAGACTGACTTCCCCGGCGATAAAACCATAA	MADMKRPRKSRGAPPKNAARAHYDQLMKQGMGNSEACRIIGISRSSGTRWRHGHTVVLKSGDIKTIPPISRLRPATISARFLSEPERITIADLLHAGRSIRAIAMELGRSPSTVSREIRRNVHEPSGNYRPRTAQRSAERRRSRQRTGKIAANPELQEFVREHLKQRWSPRQISNRLRANFPGQPEMHVVPETVYQALYGRGSLDLAVDPAVSLRSGRTGRRPRRRKEHRTSRFPDMVMIRDRPPEVIGRLVPGHWEGDLIIGKGGRSAIATLVGRTSRFIILVHLAGNRGAENLRDRLADSMSPLPPHLRRSLTWDQGTEMACHQSFTRQTLIPVYFCDPASPWQRGSNENTNGLLRQYFPKGTDLGVHSPEQLTRVADEINRRPREILGWQSPMEHLARLTSPAIKP				NA	NA	NA	NA	NA
D1-17_00414	204	cspA_1	COG1278	putative cold shock protein A	ATGGCAACAGGTACGGTCAAGTGGTTCAACGCCGAAAAGGGCTTCGGTTTCATCGCCCCCGACGACGGAAGCGCTGACGTGTTCGCACACTTTTCGGCAATCGCCTCCAGCGGTTACCGCTCCCTCGACGAGAACCAGAAGGTTCAGTTCGACGTCACCCAGGGCCCTAAGGGTCCGCAGGCGGAGAACATCCAGCCGCTCTAA	MATGTVKWFNAEKGFGFIAPDDGSADVFAHFSAIASSGYRSLDENQKVQFDVTQGPKGPQAENIQPL	PGPT0014675_6558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-17_00415	651			hypothetical protein	ATGGGTTGCATGGGCAAATTTCACGCCGGGACCAGGGGTGGCCAGGATTCCGTCCTGGAGGTTCGTGTGGAGCTGGTCGACAGCGTGCCTGGCATCTGGCGTCAGGTCGGAATCCGGAGCTCCCTGGCTTTGAATCAGATACACCAGATACTGCAGGCAGCCCTTGGCTGGGAGGACGCGCACCTGCACAGGTTCACACCAGACGCTCCGTTCGCGCCGCTGCGGCCGGTCGACGGCGAAATTCCGGAAGTCCTGCAATGGCTTCCCGGGCAGGAATGTGAGGAACCGACTGACAGGCCTGAGGAGGATTGCTCCCTGGATCAGCTGCTCGCGCTGGGCTCAGGCAAAGCGTTCTATGAATACGACTTTGGTGACAGCTGGCTTCACCGGCTCGAGCTGGTTTCCCGCCGGCCCACGGACGACGACAGTCCGTCGGCCCGACTGATGGACTGCGCCCGGCGCGGCCCGCTCGAAGACTCCGGAGGATTCCCCGGCTACGAGGAGATCATGGACGCGCTGGCCGATCCATCGCATCCTGACCATGCTGAACACGCAGCATGGATTGCCGAAATGACCGGTTCCGATGCGTCTTTTGACCCTGCCTTCCTGAACATTCACGCCGTGAACCGGGCGCTGGCTGAGCAGTTCTGA	MGCMGKFHAGTRGGQDSVLEVRVELVDSVPGIWRQVGIRSSLALNQIHQILQAALGWEDAHLHRFTPDAPFAPLRPVDGEIPEVLQWLPGQECEEPTDRPEEDCSLDQLLALGSGKAFYEYDFGDSWLHRLELVSRRPTDDDSPSARLMDCARRGPLEDSGGFPGYEEIMDALADPSHPDHAEHAAWIAEMTGSDASFDPAFLNIHAVNRALAEQF				NA	NA	NA	NA	NA
D1-17_00416	786	hel	COG2503	Lipoprotein E	ATGAGCATTGCCTGCACGAGTATCGCCATCGTGTCCCTGCTGGCCGCCGCCGGCTGCGCCGCAGACAGCCAGGGCGGTGAGCGTGCGGAGGAGAGCCCTAACTCCGAGAACTGTGCGGTACAGGAACACGCGATGGGTCTGCGCTGGCAGCAGCAAAGCGCCGAGGCGCAGGCACTGCAGTCCCAGACCTACCGGATCGCTGCCGAGCGCCTCGAGGAGAAGGTCAAGCAGGCGAAGTCTAAGGACGTTGCGATTATCACCGATCTGGACGAGACCGCGATCGACAACACCGAGCTGTTGGCCCGCGACATGACCGCCTGCCACGACTACAGCGTCTGGGATACCTGGGGCCACTGGGAGCTCGAGGGCTCGCCGTCCGCGATCCCGGGCGCCGCCGAGTTCTTCCGGATTGCCGATGAGATGGGCGTCTCGATCTACTACCTCTCCGACCGGACCGAGGAGAACCTCGATGCCACCATCGCCTCGCTGAAGGAGCTGGACTTCCCCCAAGTCTCAAAGGACCAGGTGAGGTTGCTAGGCCCGTCGAAGGAGGAGCGGCGCACCAAAATCCAGGAGGAACACGAGGTCATCATGCAACTGGGAGATACACTACATGACTTCGCTGGGGACTATGCCAACGCCGATCTAGACCAGCAGCGGCAGCTCGTCGAAGAAGATGCTGAGCACTTCGGCGACGACTGGTTCATCCTGCCCAATCCTACCTACGGCTCCTGGGAGGATGCCCATCTCGACACGTGGAACGCCGAGCTGGAAGTCAATAAGTGA	MSIACTSIAIVSLLAAAGCAADSQGGERAEESPNSENCAVQEHAMGLRWQQQSAEAQALQSQTYRIAAERLEEKVKQAKSKDVAIITDLDETAIDNTELLARDMTACHDYSVWDTWGHWELEGSPSAIPGAAEFFRIADEMGVSIYYLSDRTEENLDATIASLKELDFPQVSKDQVRLLGPSKEERRTKIQEEHEVIMQLGDTLHDFAGDYANADLDQQRQLVEEDAEHFGDDWFILPNPTYGSWEDAHLDTWNAELEVNK				NA	NA	NA	NA	NA
D1-17_00417	144			hypothetical protein	GTGAGCTGGAAGTCAATAAGTGATCTTCCTGCAGGCATTACCCCGAGCCTTCGCACTGTCAGCGAAGAGGACGCGCTGATCGGCGTAATCATCGGTGCGCCCTTCTACTCGCCGACGTCCGAGATGCACGGAGTCACTCGCTAG	MSWKSISDLPAGITPSLRTVSEEDALIGVIIGAPFYSPTSEMHGVTR				NA	NA	NA	NA	NA
D1-17_00418	1233		COG3268	Putative trans-acting enoyl reductase	ATGGACAACGCATCTCGGGAACATGACCTCGTTCTTTACGGAGCGACGGGTTTCGTTGGCCGGCTGATCGCCGTCTACGTCGCGGAGCATGCACCGGCCGGTATGCGAGTCGGACTCGCGGGCCGGTCGAGGTCCAGACTCGGGGCGGTTCGGTCGCAGTTGCCGGTCGCGGCGCACGGATGGGCCCTCATCGAAGCCGACTCGGAGGACACGGAATCGATCGCCGCCCTGGCCGCGGGTACACGCGTGCTCTTCACAACCGTCGGTCCATACGCGAAACATGGACTACCTGTGGTCGAGGCCTGCGCACGGGCCGGTACCCACTACGCCGACCTCGCCGGTGAGGTGTCCTTCATTCGGGAGGCGATCGATCGCTACGATGCTCTGGCCAGGATGAGCGGGGCTAGGATCGTGCACTCCTGCGGCTACGACTCGGTGCCGTCCGACCTTGCCGTACTGCTGCTTCATCAGGCGGCAGAAGCCGATGGCGCTGGTGGTTTGGTCGAGGTCCAACTCGTTGCTAGGGCCAAGGGTGGCATCAGCGGAGGCACGCTCGAATCGATGCGCGGGCAGCTTGACGCGATGCGATCGAGCACCGCCCTGCGGTCATTAGCCGCGGACCCCTACGCTCTGAGCCCCGACCGGGCAAAGGAGCCGACAACACAACAGCCTCTTGACGCCGGTCCTGTGCGTCGTTCCGATGACGGCACCTGGACCGCGCCTTTCATCATGGCCGCGGTCAACACTCGGATAGTGCGCCGCAGCAACGCATTGCAGGGCTGGGCCTACGGCCGCTCCCTTCAGTACGGCGAGGTGATGGGGGTGGCCCCCGGACCGGCAGGAGCGGTCATCGCCAGGGCAATGGCGCTCGGGCTCCGGGCATTCACGGGCGCGATGGCGTTCCCGCCGACCCGGAGGGTGCTCGACCGCTGTCTTCCGGCACCAGGTTCGGGTCCGAGCACCAGCACCCAGCGCGCGGGCTGGTTCCACTCCCAGGTGACCGCCCGCACCGAGAACGGGCACCGATACCAGGCGGTTGCTGCTGGCCCCGGTGATCCCGGCTATGCCGCCACCGCCGTGATGGCAGGCGAGACTGCACTCGCTCTTGCCCTCGACGGTGACCGGCTGCCGACCGCGAAAGGGTCGCTGACACCGGCCACTGCACTCGGCAACGTGCTCATGCAGCGACTCCGTGCGGCCGGCCACACCTACCAGGTAACCAAACTCGTCTGA	MDNASREHDLVLYGATGFVGRLIAVYVAEHAPAGMRVGLAGRSRSRLGAVRSQLPVAAHGWALIEADSEDTESIAALAAGTRVLFTTVGPYAKHGLPVVEACARAGTHYADLAGEVSFIREAIDRYDALARMSGARIVHSCGYDSVPSDLAVLLLHQAAEADGAGGLVEVQLVARAKGGISGGTLESMRGQLDAMRSSTALRSLAADPYALSPDRAKEPTTQQPLDAGPVRRSDDGTWTAPFIMAAVNTRIVRRSNALQGWAYGRSLQYGEVMGVAPGPAGAVIARAMALGLRAFTGAMAFPPTRRVLDRCLPAPGSGPSTSTQRAGWFHSQVTARTENGHRYQAVAAGPGDPGYAATAVMAGETALALALDGDRLPTAKGSLTPATALGNVLMQRLRAAGHTYQVTKLV				NA	NA	NA	NA	NA
D1-17_00419	558			hypothetical protein	TTGAACAGCATTGCTGATGAGTACCACCCGGACGCAACGCCTCAGCCGGAGGGAGAAGTCACCGGAAAACGACTGCACGTCGCCCGGCGCGAAGCCCAGGAGACGGTCGCGTCGTCACCCTCGCTGGGAGCCAATATCTGGACGAACGTCCGGGACGGCCTGCTGATGGCCATGGCTATTCTGCCCTCCATCCTCTCGATCGGTCTGCTTGGATTGGTGCTCGCCTCGTTCACTCCAGTCTTTGACTGGCTGGGGTATGTGTTCTACCCGTTCACGTGGACGCTTCAACTGCCGGAACCAATGCTCGTAGCTAAGGCCAGTGCGGTGGGCATCGCCGAGATGTTCCTGCCGGCCCTGCTGGCTGCTGAAGCGGCCCCGGTGGTGAAGTTTGTGCTCGGCGTGGTTTCTGTCTCGGGGATCATCTTCTTCTCCGCCCTGGTGCCATGCATCATGGCCACAGATATTCCCATTCCCGTCTGGAAGCTGGTGATCATCTGGTTCCAGCGCGTGGTGCTGACTCTGATCTTGGTGACGCCCCTCGCGTTCCTGCTCTTCTAG	MNSIADEYHPDATPQPEGEVTGKRLHVARREAQETVASSPSLGANIWTNVRDGLLMAMAILPSILSIGLLGLVLASFTPVFDWLGYVFYPFTWTLQLPEPMLVAKASAVGIAEMFLPALLAAEAAPVVKFVLGVVSVSGIIFFSALVPCIMATDIPIPVWKLVIIWFQRVVLTLILVTPLAFLLF				NA	NA	NA	NA	NA
D1-17_00420	201			hypothetical protein	ATGCAGCAACTGGTCCGCGTGTTTATTGGCGACGGCACCTACTGCCCCGGCTTCCAGTTCCTTCCCGGCGGGCAACTGCACTCCAAGGTGACGGCGCTGTTCGTCAGGGCCATGGAGCTGCAGGTTTCAGACAGCTACTTCACGCCCCGGATGGTCACGCCCTCAAGGCAGTTGGGCGGCTCCCGCCCGTGGACTTCCTGA	MQQLVRVFIGDGTYCPGFQFLPGGQLHSKVTALFVRAMELQVSDSYFTPRMVTPSRQLGGSRPWTS				NA	NA	NA	NA	NA
D1-17_00421	300			hypothetical protein	GTGGCAACTGATTACGACGAAGTCCGATCCGACGTCAAAGAATCGCAGGACACCTCCCTAGAGGCATTCCGCTCCGCGAACACCCCCGACGCCCGCAGCGTGGTCCGTGAGCTGGACGAGGCAGACACGGTCGAGGGCATCGAGCTGCCCGGCGACTTCATCGCCGAAGAGCTCATCGTTCAGGTCATCCCCCAGGCCGACGACGAGTTCACCTGCTGGTCCTGCTTTCTGGTCCGCCACCGATCACAGGTGGCCAAGGAGAAGAACGGCAACGCCTACTGCGTCGACTGTGAGGGCTAA	MATDYDEVRSDVKESQDTSLEAFRSANTPDARSVVRELDEADTVEGIELPGDFIAEELIVQVIPQADDEFTCWSCFLVRHRSQVAKEKNGNAYCVDCEG				NA	NA	NA	NA	NA
D1-17_00422	267			hypothetical protein	GTGCTCACGACCACAATCAACACGTCCGGTGGCCACGTCCATGACCGTTCGCCGGTTATCATCCCGCGGGACCACTTTGCCGAGTGGCTCGACCCGGACCTGACGGACAATGCCGACATTCAGCACCTGCTGGACTCGCTGCCGAAACCGACCCTGACGTCGAGGATCGTCAGCGACCGGGTGAACAGTATCCGGAACAACGGGCCTGAACTTCTTGAACCTACCGAAACTAGGTGCCCCCCAAGCACCAGCAGGAACGTCAGGTGA	MLTTTINTSGGHVHDRSPVIIPRDHFAEWLDPDLTDNADIQHLLDSLPKPTLTSRIVSDRVNSIRNNGPELLEPTETRCPPSTSRNVR				NA	NA	NA	NA	NA
D1-17_00423	1209			hypothetical protein	GTGCAAGCAACGACGGGCTACAACATCCAGACCAACGGCAACGGCAAGGGCCGCGGCGGCTCCTGCACAGCTGACTCCGGCGGGCCGCTGTTCTACGGCTCCTTCAGTTCAAACACCATCACCGGCATCGCCTCGTTCGGCCACAACCGCTATTGCAAGGGGACTTGTTTTTCCTACCGCACGGACCGGCAGGACGTGATCGACTTGGATAAAGTCAAAAGCCGGAAGCGAATCCACGAAGATCATCATGGAAGCACCCTGCCAAGCGGGGAAACTGGAGGGATCAAAGGAGGAAAACGTATGGGCTCAGAACTCATGATTGGCCGGCTGGAGCGCCTCTTCAACGGCACAGCCTGGGCCGAAGGCCCGGTGTGGGTGCCCTCATCCCAGGCCGTGCGCTGGAGCGACATACCAAACAACCGCATACTCGAGTTCTACCCCGCAACCGGAGCAACCCGGGAATACGCAACGGGAGTCGAGTTCACCAATGGGCGGACGCTGGACGCCGATGGGAGCGTTGTGCAGTGCAGCCATGGACGGCGCCGGGTTGAGCGCGACCGTCAAGGAACTGTAACCGCTTTGGTCCATTCCTTCGAGGGCAGGAGGCTGAACTCACCCAACGATGTGGTGACGGCACGGGATGGAACGATCTGGTTCACCGACCCGCCCTACGGGATCCTGCCCGGCACCAGGGAGGGGCACGAGGGCGAACAAGAGTATGGCGGTTGCTACGTCTTCCGCTACGAGCCGACGACCGGCACACTAACCGCTGTAATCCGGGACCTGGTCCACCCCAACGGTCTCGCCTTTTCACCCGATGAGTCCGTGCTGTATGTCACCGACACCGCCGGCCCCACCCATGGCCTGCCGCTAAAAATTGCAGCGTACGCGGTGAGTCACGGCGCCTGCAGCCCCGCCGGCACCTTTATCGAGTTCGACGACGACCGCCCGGCTGACGGCCTTCGAGTGGATGTTTACGGCAGGATCTGGGCTTCCGCGGGGCCTTCGGTGCAGGTCTACTCACTGTCCGCTGAGCTTCTTGCAACCCTTCCCCTGCCCGAAAGGGTTTCCAACCTTTGCTTCGGCGGCCCAGATGGACAGGATCTCTTCATCACGGCAACCACCAGCCTGTACCGGATCCGCACCACCACACGCGACGCTGCCCATACCAAAACATCAAATGGATCCGGTCTGGGCGCACGAAGGTAA	MQATTGYNIQTNGNGKGRGGSCTADSGGPLFYGSFSSNTITGIASFGHNRYCKGTCFSYRTDRQDVIDLDKVKSRKRIHEDHHGSTLPSGETGGIKGGKRMGSELMIGRLERLFNGTAWAEGPVWVPSSQAVRWSDIPNNRILEFYPATGATREYATGVEFTNGRTLDADGSVVQCSHGRRRVERDRQGTVTALVHSFEGRRLNSPNDVVTARDGTIWFTDPPYGILPGTREGHEGEQEYGGCYVFRYEPTTGTLTAVIRDLVHPNGLAFSPDESVLYVTDTAGPTHGLPLKIAAYAVSHGACSPAGTFIEFDDDRPADGLRVDVYGRIWASAGPSVQVYSLSAELLATLPLPERVSNLCFGGPDGQDLFITATTSLYRIRTTTRDAAHTKTSNGSGLGARR	PGPT0001285_2187	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION_D_GLUCONATE_BIOSYNTHESIS,PGPT0001285-gnl-K01053	NA	NA
D1-17_00424	324			hypothetical protein	GTGTACCTCCAGCGGGATGCCGGCGCGGACTGGAGTGCTGGAACAGGAACGGATCCGGACACCGGCTATCCGAACACCTGCGCAGCGGCAACGCTGGGAACCCTGTGCGCGGTTTCTGACGAGATGTACAACTACGGCCATACGGGTCTGGACGAGATCCCCGAAACCAGGGATGCCGGGCTTGTGATCCTGAAGCAACCCATAGACCTCGATGAGTACGCCAGCCTCGCGGCCCCGGGAACTCTGGACGCGCTGGCCGCGAAACGTGGACAGCAGGAAACGACGTTCACCGCCAGCGGCTACGGCGTTACTGAAGTGAAGTGA	MYLQRDAGADWSAGTGTDPDTGYPNTCAAATLGTLCAVSDEMYNYGHTGLDEIPETRDAGLVILKQPIDLDEYASLAAPGTLDALAAKRGQQETTFTASGYGVTEVK				NA	NA	NA	NA	NA
D1-17_00425	261			hypothetical protein	GTGAGTACAGAACCTACGGACACGAACAACATTCCAAAAGACGGGCTCAGTCCTTCGGCGGAACCGGTGCCCCGGGAGCCGGGATCTGCACCCGAAGCAGAGGCAGCGGCACAAACCGATTCCCCGGACGATCCCGCAGACAACAGCTCTGCACGTGAGGACGTCCCAGGGCTAAACAAGGCCGTCGGGCCTGCTGAAGAATCGGACGATCAGATGAAGGACGACAGGTCCCTCACCACCGATATCAGCCCAACCGATTAG	MSTEPTDTNNIPKDGLSPSAEPVPREPGSAPEAEAAAQTDSPDDPADNSSAREDVPGLNKAVGPAEESDDQMKDDRSLTTDISPTD				NA	NA	NA	NA	NA
D1-17_00426	261			hypothetical protein	ATGAGCTATGGAGGGGCAGGCGCTTTCGAGAAAGACGCCGGAGGGCGCGAGCGCTCCGGAGCGCGCCGCTACCGGATTTTCCGCCCTACGGGCCGGGACCACGAGGTAATGCTGGACATCGACTTCGACTCGGTGGGCGAAGCCGACGCGTTCCTCGACACCCTGCGCACTAGGGTCTGGCCCTCGCGGGAGAAGGCCCCGGCCAAGACCGGCGAGGTGAAAACACACATTCTTGAGTTGATCGAGGCTCGGGAGTACTGA	MSYGGAGAFEKDAGGRERSGARRYRIFRPTGRDHEVMLDIDFDSVGEADAFLDTLRTRVWPSREKAPAKTGEVKTHILELIEAREY				NA	NA	NA	NA	NA
D1-17_00427	663	ttgR		HTH-type transcriptional regulator TtgR	ATGGGAACCGTGGTCAAGAGCAGGAAGTATGACTCACCCCGCCGCCGCGCGCAGGCTGAGGCGACCCGCAAGGCGATCCTCGACGCCGCGCAACGGCTCTTTTTGCGCCAGGGCTACCCGGCGACGTCAATGCCTGCCATTGCCGAAGAAGCAGGCGTAGCGCTCAAGACGATTTACGTCCACTTCGACACCAAGGCTGCTCTCGTGCAGACGTTGTGGGGCGCCCGCCTCGGCGGCGAAGAAGCGAAGCTGCCCGTGCTGGAGCGGGAGTGGTACCTCGCCGTGGTCAAGGAACCCGATCCTGAGCGAAAGCTCCGTCTGGTCGCAGCGCAGGCGCGCCGCGTCAAAGCCCGCTCGGGGGCGTTACTGGAAATGATCCGCACCGCCGCCTCTGCCGACCCCGAGATCGCCGACCTCTGGGCAAGCATCGAGGCGAAACTCCTTGACGTGCAGCGCGCTATCATCGAGCAACTTTATGCCAGCGGATCCCTCGCACCGTCCCTGGACATCTCACGGGGAACCGACATCCTCTGGACTCTTAACCACCCGAACGTGTGGCAACTCCTGGTTCCGAATCGCGGCTGGACCGACCAAGATTACGAGCAATGGCTTGGCGATGCCTTTTGCTCCCAACTCCTCAATGCCTACCGTGTCCCGCGATGA	MGTVVKSRKYDSPRRRAQAEATRKAILDAAQRLFLRQGYPATSMPAIAEEAGVALKTIYVHFDTKAALVQTLWGARLGGEEAKLPVLEREWYLAVVKEPDPERKLRLVAAQARRVKARSGALLEMIRTAASADPEIADLWASIEAKLLDVQRAIIEQLYASGSLAPSLDISRGTDILWTLNHPNVWQLLVPNRGWTDQDYEQWLGDAFCSQLLNAYRVPR				NA	NA	NA	NA	NA
D1-17_00428	957			hypothetical protein	ATGGTGGTGCTTGACGCATTGGAGCGGCAGATTGTTGCTGCGCTCCAACTGGACCCACGTTGTCCGTGGCGCAAGGTAGCAGCCGTGCTTGGTGAGGCTGAGCGGACTGTCGCTCGTCGCGGGTCCCAACTGCTGGAATCGGGCGTGGTCGCCGTGGTGGGGGTGCGGCCCAGACCGGCGGCGGTGCTCGTGGAGATGCGCTGCACCCCGGGGACGGTGCGTGCGGCCGCCCACGCACTCGCACAGCGAGCCGACACTACTTTCGTTTACACCACAACCGGCACGGGCGACTGTGTGGCTGAAATCCTGACCGAACAAATGCGCATGGGCGATGTGTTGTCCGATGAACTACCTTCCACCATCGGACTGCGGGACTCCACCAGCTACCCCGTACTGCGCTACTTCCGGACCATCCGGGGTTGGCGACCGGAGATCCTGAGTAAGGACCGTGCCGAGTCCCTGCGAACTGGCCTGTCAGCTGACTCGGGTGTCCTCGAGGCGCGGCAGGAGCTGAATCGACAGGACACTGAGCTGGTCGAGGCATTGTGTGCCGACGGCCGGATGAGCTATGAAGCGTTAGGGCGCCGGGTCGGTATCTCCGAAGCCACGGCCCGGCGCCGCAGTGAATGGCTGTTGGCCAACAACCAGGTGCAGCTGAGGACCGTCGTCGAACCCGCGGCTTTTGGGCTTGCCGTCGAGGCCCTGCTCTGGATTCGGGCATCGCCGCAACACGTGGAACAGTTGGGCAAAGGCCTGGCTGAGCTTCCGATGATCCGCTATGCGGCAGCAATTGCAGGCGATTACCAGATCATCGCGGATGTCACCGTGGAGGACATGTCCTCCCTCTACCGCTTCATCACCGGATCGGACTGGGCCCAGTACGCCGCCGGGGTGGACGTCTCCGTCCTGCTCGATGCCCGGAAACGCGGCGGACGGTTCATGCGGACATCGTCCTAA	MVVLDALERQIVAALQLDPRCPWRKVAAVLGEAERTVARRGSQLLESGVVAVVGVRPRPAAVLVEMRCTPGTVRAAAHALAQRADTTFVYTTTGTGDCVAEILTEQMRMGDVLSDELPSTIGLRDSTSYPVLRYFRTIRGWRPEILSKDRAESLRTGLSADSGVLEARQELNRQDTELVEALCADGRMSYEALGRRVGISEATARRRSEWLLANNQVQLRTVVEPAAFGLAVEALLWIRASPQHVEQLGKGLAELPMIRYAAAIAGDYQIIADVTVEDMSSLYRFITGSDWAQYAAGVDVSVLLDARKRGGRFMRTSS				NA	NA	NA	NA	NA
D1-17_00429	1494	aam_1	COG0154	Acylamidase	ATGCCTGACACCATTGGCGAGCTGTCCGCCGTCGAGCTCACCGCGGCCATCCGTGACAAGAAAATCTCGGCGCGAGAGGCCCTGACAGATCACTTGGAACGGATCGCAGAGGTCAACCCCGTCATCAACGCCGTCGTCACGCTCGACGCCGAAGGGGCACGGTCGCAGGCTGAACGCGCCGACCAGCTCACTGCCTCCGGCGGCGAGTTGCCACCGCTCCATGGCCTGCCCATGACGCACAAGGACACCAACAACACGGCGGGGATGCGCACCACGCAAGGCTCGCTGGCATTGAGGGACTTCATTCCTGACTCCGACGACCTGATCGTCGCGCGGTTGAAGGCGGCCGGCGTGGTTACCACGGGCAAGTCCAACGTGCCAGAGTTCGGGGCGGGGTCACACACGTTCAACGACCTCTTCGGGACTACCACCAACCCGTATGCCCCCACGCTGAGCGCGGGCGGAAGCAGTGGCGGGGTGGCTGCCGCCATCGCTTCCCGCATTCAAAGTATCGGTGACGGCAGCGACATGGGCGGCTCACTGCGCATCCCGGCTTCGTTCTGCAACGTGGCCGGTTTCCGGCCCTCGACGGCCGTCATACCCATGCCGTCGGCCGTGAACGCATACGCCTGGCTGGGAAGGACCGGTCCGATGGCCCGGAGCGTTGAGGACATTGCGCTGTTCATGTCGGTCACTGCCGGTAAGGATCCCCGTGTCCCCCACCCTCAGGGGCTTGACCCGACAGTTTTCCGGTCTTCGTTGGAGACCGATATGCGCGGCGTGCGGATTGGCTGGTCCCGTGACTTTGGCATTGGTGTGCCTGTTGAACCGGAAATCCTGGACCATCTGGAACGGGAGCTGGCCGTGTTCGAGGAGCTCGGAGCGATCGTGGAAGAAGCCACACCGGACTTCAGCGAAGCGGATCTGGTGTTCGGCAATACCCGCGCCATGGACTTCGCCGCCGGGCTCGGACCGATCCTGGAGCGCTCCGGCGAGCGTATCAAGCCAGAGGTCCATTGGAACGTGGCCAAGGGTTTCGCCCTGACTGCCCAGGATCTGATCGAGACCGCCGCCGCACGTACGCGGCTTGAACTCAGTGTGCAGGAGTTCTTTGGCCGCTACGACCTCTTCGCCAGCCCCTGCGCCCAGGTGCTGCCGTTCAATGCAACACTGCGCTACCCATTGGAGGTGGCCGGTGTGGCCTCTGAGACATACCTGGACTGGATGCGCTCTGCCTGCCTGTTGTCCGCTGCCGGGCTGCCCGTCCTCAGCGTGCCCGCCGGATTCAGCTCCGCCGGCCTGCCCATTGGCCTCCAGCTCGCCAGCAACCACTACACAGACATGCAACTGCTTCGCTGGGGCCACGCCTTCGAGCAGCGGACGCGGTACGCCGCCGTCGCGCCATCTATTGGGGCGGGCGCCGGGTACGGCGCTGACACTGGTGCTGACGCGGGATCCACCACCACAGCAGCTCTTAGGACGATGTCCGCATGA	MPDTIGELSAVELTAAIRDKKISAREALTDHLERIAEVNPVINAVVTLDAEGARSQAERADQLTASGGELPPLHGLPMTHKDTNNTAGMRTTQGSLALRDFIPDSDDLIVARLKAAGVVTTGKSNVPEFGAGSHTFNDLFGTTTNPYAPTLSAGGSSGGVAAAIASRIQSIGDGSDMGGSLRIPASFCNVAGFRPSTAVIPMPSAVNAYAWLGRTGPMARSVEDIALFMSVTAGKDPRVPHPQGLDPTVFRSSLETDMRGVRIGWSRDFGIGVPVEPEILDHLERELAVFEELGAIVEEATPDFSEADLVFGNTRAMDFAAGLGPILERSGERIKPEVHWNVAKGFALTAQDLIETAAARTRLELSVQEFFGRYDLFASPCAQVLPFNATLRYPLEVAGVASETYLDWMRSACLLSAAGLPVLSVPAGFSSAGLPIGLQLASNHYTDMQLLRWGHAFEQRTRYAAVAPSIGAGAGYGADTGADAGSTTTAALRTMSA	PGPT0006115_4234	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426	NA	NA
D1-17_00430	762			hypothetical protein	ATGCACCAACCCCTGGCAACACAACCCTTGGCAACAAACAATGCAACTGACATCCTGGCCATTGCCAACAACCCCGTCTTGTGGATCTGCGTTATAGGGGTCTTCGGCGTCATCATCATCCAGTCCGTGATCTTCATGAAGGCAGCGTGCCGGGCCGCTCCGTCCGTGCAGATGAGCGCCAAGGACATCAAGACCTCGTTCCGGTCCGGTGCCGTTTCGGCCATAGGGCCCTCCTTGGCCGTTTCCCTCGTGGCCATTGCACTGCTGGGCTTGTTTGGCGCCCCGGCGGTGCTGACTAGGATCGGCCTGATTGGTTCGGCGGCGTACGAAGTTTCCGCAGCCGGTATTGCGGCGGGGTCGATGGGAGCCAAGCTCGGCGATGCCAGTTACACCCAAAGCGTGTTTGCGGTGGCCTTCTTCGTGATGAGCATGGGCGGGGCAATGTGGATGCTCGCCACCCTGATCCTGACTCCGCTGCTTAGCAAGGGTGACGCCAAGATCCGCTCGGTGAATCCCGCTGCCATGGCGATCGTGCCGGCGGCGGCATTGATCGGCGCCTTCGCCTGCCTGGGACTGAGCGAATTGCCGAAGTCCGGGATTCACGTCGTGTCCTTCCTCGCTTCCGCAGCGGTCATGGGGCTTTGCCTCCTGCTGGCCAAGAAGCTCGGCAAGAGCTGGCTGCGCGAGTGGGGCCTCGGGTTCTCGATCGTCATCGGCCTCAGCGCCGCCTACCTGGCAGCCGGCCCCGCCCTCGGTGCCTGA	MHQPLATQPLATNNATDILAIANNPVLWICVIGVFGVIIIQSVIFMKAACRAAPSVQMSAKDIKTSFRSGAVSAIGPSLAVSLVAIALLGLFGAPAVLTRIGLIGSAAYEVSAAGIAAGSMGAKLGDASYTQSVFAVAFFVMSMGGAMWMLATLILTPLLSKGDAKIRSVNPAAMAIVPAAALIGAFACLGLSELPKSGIHVVSFLASAAVMGLCLLLAKKLGKSWLREWGLGFSIVIGLSAAYLAAGPALGA				NA	NA	NA	NA	NA
D1-17_00431	735			hypothetical protein	ATGACATCCATCACCACCACCCCCGCCACCAGCAACTCCGCGATGGCAGACTTCAACCGCACCACCTCCCGCTGGGGCCAGATCACAATGATCGGCGGCCTGCTGATCTCCGTGGCCGGTCCGCTGTATCTGGTCTTTGCCACCGGACTCGACATTGGCCCTGCGCAACTCTGGATCGCTTTCGCCGCCGTCGCGGCCACATTCGGCATCATCTGGATCGTTGAACCGCTGACGTACTACCCAGTCCTGGGTCCGGCCGCGATGTACCAGGCGTTTATGATCGGCAACATCTCCAACAAGCTCCTGCCCGCTGCCCTTATCGCCCAGACCAACATCGGCGCAAAGCCGGGCACCAAGCGTGCCGAGCTCGCCGCCGTCGTCGCCATCTGTGGGGCCGCCGTGGTCCATCTGGTCTCCCTGGCGGTCTTCGTCGGGTTCCTCGGTAGCTGGCTGATCAGCGTCATTCCGCCCTCGGTTCTGATGGTGACCCGCCTGTATGTGGTGCCGGCAGTCCTCGGCGCGGTGCTGGTGCAGGCCATTGTGTCCATGAAGCAGCCCCGCACCACAGTGTTTGCGCTCGTGGTGTCAGCCGTCGTCGTGTTCATTCTTCTGCCCCTGGTGCCGTCACTTGCCTTGGTGTCCACGGCAATCGTTGTGCTGGCCACGATCCTGCTGGCCTGGTTCTTCCGGGGCAGGAGAGCCATGACTGAAGCCAGTCCCATCCACATCGAGTAG	MTSITTTPATSNSAMADFNRTTSRWGQITMIGGLLISVAGPLYLVFATGLDIGPAQLWIAFAAVAATFGIIWIVEPLTYYPVLGPAAMYQAFMIGNISNKLLPAALIAQTNIGAKPGTKRAELAAVVAICGAAVVHLVSLAVFVGFLGSWLISVIPPSVLMVTRLYVVPAVLGAVLVQAIVSMKQPRTTVFALVVSAVVVFILLPLVPSLALVSTAIVVLATILLAWFFRGRRAMTEASPIHIE				NA	NA	NA	NA	NA
D1-17_00432	669			hypothetical protein	TTGTTCCGCAGCACTAGACAGACCGGTCTGTCTTGGCCTCGCGGCATTGTGTATTATCCGTGTGTGGAAACTTCAGAAAGCGGCACTGAACAGTCAGCGAGCCCTGCCAAAGGCGGTCCTCGGGAAAAGATCGTTGCCGCGGCTTACCAGCTGTTCGCCCGTCGCGGGATTCGCGACGTCGGAGTCGACGAACTGATCCGCGCATCAGGGGTGGCCAAGGCAACCTTCTACAGGCACTTTCGCTCGAAGGACGATGTCGTGCTGGCCTTCCTCGAACAGTGGTACCTGGAACGCACGGTCGCGATCGAGATCGCAATCGCCCGCCGCGGGACCAGTGACGAGGCAGCCATGCTGACCATCTTCGATGTCTTCGACGACTGGTTCCGCGAGGGCGCGGCCCAGGTCAGCTCGTTCCTGCACGTGTTAATGGAAATGGGTTCCGACCACCCCCTCGGGAAAGCCAGCATCCAGTACCTGGACAGGACGCGGCAACAGATCGAGGAACTTGCAGAATCGGCCGGGCTCAAAGACCCGCACGATTTCGCCTGGTCCATTCACATCTTGATCAAGGGAGCCATCGTCGCCGCAGCCGAGGGCGACTCCCGCGCCGCTGGCCGCGCCAGGACCATGGCCCAGCTGCTCATGGACCACCAGCGGTCGCAGAAGTAG	MFRSTRQTGLSWPRGIVYYPCVETSESGTEQSASPAKGGPREKIVAAAYQLFARRGIRDVGVDELIRASGVAKATFYRHFRSKDDVVLAFLEQWYLERTVAIEIAIARRGTSDEAAMLTIFDVFDDWFREGAAQVSSFLHVLMEMGSDHPLGKASIQYLDRTRQQIEELAESAGLKDPHDFAWSIHILIKGAIVAAAEGDSRAAGRARTMAQLLMDHQRSQK				NA	NA	NA	NA	NA
D1-17_00433	780			hypothetical protein	TTGAAAACCTCCGCCGATCCGACGGGGAAAAGCCTGCTGGTGGTGCAAGCAGCCGCATGTATCCAGGTGATAACCCTTGGAGCTACTATGACCACATCACGTCTGTCCATTCGTCTATGGGGAGAAATGAATACTTCTCGGGTCAGTGCCGGCATCGCGCTCTTGGCGCTAATGCTCACTGCATGCTCCGGCCAGCAACCCCAGGCAGCACCGACCGTCCCAGTTGCACCCGCATCGGCGCCGAGCGTAAGACCTACCCCTGATGGGGGCGCTGCCGGCTATGAAAACGAACGCGGCCAGGTGGTCCAGGAGATTGGTGAGACGGCCGTACTCGTTACCGACGGATATGACGCCCCTCCTACAATGACTTTCAAGGTGACGTCCATTGAGCCGGTCACATGCGACGCACCTAACGCACCCCGGCCACATGGAATTGCCATCGCGGTAGCCCTTGAGATCGTCACCTCCCCGACGTTTTCGGGACCACTGGTAGTCAATGGCCAGCCAGGGATGATCAGTTTCCGCCCGCACTACTGGAAGGGCTATGCCTCCAACGGCACCCAGATGGACACCGTTGGTTCCTCCATCGAGCACGGCTGTCTTGCCGACAGAAGCAAGCTGCTGCCCGATTATTTTGGTAAAGACCGAAAGCTGGACGGGTTGGTCATCCTTGATGTGACGACGTCGACCGGCGAGGTTGCCTTCATTCCGAACGGCATTGGGGGCTGGGCCTGGGAGTACCCCGGGGATGATTCGGGAACCAGAATCGGACCAGCCTGA	MKTSADPTGKSLLVVQAAACIQVITLGATMTTSRLSIRLWGEMNTSRVSAGIALLALMLTACSGQQPQAAPTVPVAPASAPSVRPTPDGGAAGYENERGQVVQEIGETAVLVTDGYDAPPTMTFKVTSIEPVTCDAPNAPRPHGIAIAVALEIVTSPTFSGPLVVNGQPGMISFRPHYWKGYASNGTQMDTVGSSIEHGCLADRSKLLPDYFGKDRKLDGLVILDVTTSTGEVAFIPNGIGGWAWEYPGDDSGTRIGPA				NA	NA	NA	NA	NA
D1-17_00434	1584	pucI_1	COG1953	putative allantoin permease	GTGTCCCATCAACACGGTCCCGGCTCGCACGACGAGCACGGGCGTCCGCATCTGATCGACCCCGAGCCCTGGGGGACCGGTGACCCCGCAGTCGAGGAGATCCTGAAGGGAGAGCCAGCCAGCCCGGTCCGGTTACCCCCGGGCGTGAGCCCCCGACTCTACAATGAGGACCTGGCGCCCACCACGCGCAAAGGCCGCACCTGGCACGCCTACAGCATCTTCACGCTGTGGGCCAACGACGTGCACTCGCTGGGCAACTACGTCTTTGCCATCGGACTGTTCGCCCTGGGGTTGGGTGCCTGGCAGATCATGCTTGCCTTCCTGCTCGGCGCGGTCCTGCTGTTCCTGCTCCTGAACCTTTCAGGGTTCATGGGCGAGCGGACGGGCGTGCCGTTCCCGGTCATGAGCAGGATCGCGTTCGGCATCCGGGGCTCCAACATCCCGGCCATCATCCGCGGCGCCGTGGCCGTGGCCTGGTTCGGCATCCAGACCTATCTGGCTTCGGTGGTGCTCAGGGTGCTCATCTTGGCTCTCGCACCGTCCCTGGCACCGCTCGACACAGACTCATTCCTCGGACTTTCCACTCTGGGCTGGATCTCATTCGTTGCGCTGTGGGCGCTGCAGACCGTGATAGTGAGCTTCGGGATGGAGATGATCCGCAGGTACGAGGCCTTCGCCGGCCCCGTAATCCTGGCCACCATGCTCGCGCTGGCCATCTGGATGCTGATGGAAGCCGGCGGAAGCATCGCCTGGTCCACTGCCGACTCGCTGACCGGCGCCGAAATGTGGGTGCGGATTTTCCAGTCCGCGGCGCTATGGGTGGTTGTGTACGGGACATTCGTGCTGAACTTCTGTGACTTCACCCGGGGTGCTCCCTCCGAGCGGTCGGTGGTTCGCGGCAACTTTTTCGGCATCCCCATCAACATGCTCTTCTTCGCCGCAATCGTGATCGTCCTCGCCGGAGCCCAATACAAGATCGACGGTACGGTCATCGAATCGCCCACCGACGTCGTCAACGCCATACCGAACACGTTCCTGCTGGTGCTCGCCTGTCTGGCCCTGATCATCCTGACGGTGGCCGTGAACCTCATGGCCAACTTCGTGGCACCCGTCTACACACTGGCCCACCTTTTCCCGCGAACCCTGAACTTCCGCCGCGCAGCCATCATCTCCGCGGTGATCGGCCTCGTGATCCTGCCGTGGAACCTGTACAACTCGCCCCTGGTCATCGTCTACTTCCTCGGCGGGCTGGGCGCCCTCCTGGGACCGCTGTTCGGCGTGATCATGGCCGATTACTGGCTGGTCAGGAAGGGCAAGGTCAACATTCCGGAGTTGTACTCGGAGTCCCCCGACGGGGAGTACGCCTACACCCGCGGCGTCAACCGGAAGGCTGTCATTGCGGGCACTCCGGCGGCGGCCGTCGCCCTGGTACTGGCCCTCGTCCCTGCGTTCACCTACATTTCCGGCTTCTCCTGGTTCGTCGGCGCGATTCTGGCCGCCGTCACCTACCTGATGATCATGGACCGCCGTGCGCCGTTTCACGCGGTCGACGGCGAGGCGATCGCCGTCGCCCCCAAGCACTGA	MSHQHGPGSHDEHGRPHLIDPEPWGTGDPAVEEILKGEPASPVRLPPGVSPRLYNEDLAPTTRKGRTWHAYSIFTLWANDVHSLGNYVFAIGLFALGLGAWQIMLAFLLGAVLLFLLLNLSGFMGERTGVPFPVMSRIAFGIRGSNIPAIIRGAVAVAWFGIQTYLASVVLRVLILALAPSLAPLDTDSFLGLSTLGWISFVALWALQTVIVSFGMEMIRRYEAFAGPVILATMLALAIWMLMEAGGSIAWSTADSLTGAEMWVRIFQSAALWVVVYGTFVLNFCDFTRGAPSERSVVRGNFFGIPINMLFFAAIVIVLAGAQYKIDGTVIESPTDVVNAIPNTFLLVLACLALIILTVAVNLMANFVAPVYTLAHLFPRTLNFRRAAIISAVIGLVILPWNLYNSPLVIVYFLGGLGALLGPLFGVIMADYWLVRKGKVNIPELYSESPDGEYAYTRGVNRKAVIAGTPAAAVALVLALVPAFTYISGFSWFVGAILAAVTYLMIMDRRAPFHAVDGEAIAVAPKH	PGPT0009075_630	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457	NA	NA
D1-17_00435	1098	pucG	COG0075	(S)-ureidoglycine--glyoxylate transaminase	ATGCCAGAGACTCTGACCTCACGGTTCCTGTTCGGCCTGGGGCCGAGCAACTGCTATCCGGAAGTGACCGCTGCGCTCGCGCATCCGGTGATCGGGCACCTGGATCCGGTCTTCATCGAACGGCTCGACAACACCTGCGAGGGTCTACGGGCCGTCTGGGGGACTCGAAATGCCCGCACGCTGCCACTGAGCGCCACCGGTTCCGGCGGCATGGAAGCGGCTTTCGTGAACACAGTGGACGACGGCGATGTAGCAGTCATCGCCGTCAACGGCCTTTTCGGGGAGCGCATGTGTGAGGTGGCCCGCCGCTGCGGCGCGACCGTGGTCCGTGTAGACCACGAGTGGGGCACGCCCGTGGACGTCGAACGGGTTCTGGCGGCGCATCCGCAGCCGAAGGTGATTGCAGCCGTCCACGCAGAAACCTCGACCGGAGTATTGTCCGATGTCGCATCGCTCGGCCAAAACAAGGGGGAAGCGCTGCTCATCGTCGACGCCGTGACGTCCATCGGGGGACTGGAACTCCTTGCAGACGACTGGGGCATTGACGTGGGCTACGCCGGCACCCAGAAGTGCCTCGGCGTGCCGCCGGGTCTATCACCTTTCACCATGTCGGATAGGGCCTTTGAACGAAGGATTGAGAATCCCCGCTCCTGGTACCTGGACGTAGGTCTGCTCGGCGGCTATGCCGGGGCTGCCAGCGGCAGTGGCCGAACTTACCATCACACGGCGCCGGTCACCATGATCGCCGGACTCGAAGCGGGCTTGCGCCGGATCCTGGCCGAGGGGCTGGGCGCGGTCCAGGCGCGGCACCGGGCGGCTGGTGCTGCATTGCAGGCGGGACTCCAGGAGATGGGCCTTGAGCTGTTCGCGGCCGAGGGACACCGGCTCCCCAGCCTCACCACCGTCAAGGTCCCCGACGGCGTCGACTCCGCGGCCGTGCGCCGTCACCTTCTGGATAGCTACAGCATCGAGATCGGTGCAGGGGCAGGCAACTATGCTTCCAGCGTTTGGCGGATCGGAATGATGGGCCCAAATGCCAATGCCGCATCGGTGACTCTGGTGCTGGGGGCCCTCAAGGACGCCATCTCCGCGGCCTAG	MPETLTSRFLFGLGPSNCYPEVTAALAHPVIGHLDPVFIERLDNTCEGLRAVWGTRNARTLPLSATGSGGMEAAFVNTVDDGDVAVIAVNGLFGERMCEVARRCGATVVRVDHEWGTPVDVERVLAAHPQPKVIAAVHAETSTGVLSDVASLGQNKGEALLIVDAVTSIGGLELLADDWGIDVGYAGTQKCLGVPPGLSPFTMSDRAFERRIENPRSWYLDVGLLGGYAGAASGSGRTYHHTAPVTMIAGLEAGLRRILAEGLGAVQARHRAAGAALQAGLQEMGLELFAAEGHRLPSLTTVKVPDGVDSAAVRRHLLDSYSIEIGAGAGNYASSVWRIGMMGPNANAASVTLVLGALKDAISAA	PGPT0001920_1736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0001920-sgaA-K00830	NA	NA
D1-17_00436	1623	dcuS_1	COG3290	Sensor histidine kinase DcuS	ATGACTCGACGGCGAGGGATGTCCCTTGCGGGGCAGTATCTCCGCCTGCAGCTGCTGATCGTATTTGCCGTCCTCGTGGCGGTGGTCGCAATCTCGCTGGCCCAGTCCGCGGCATCTTTTGAACGGATTGAGGGGCGCCGGGCGCTGTCGGCCGCCGAGACCCTTGCCGCCAACCCGACGGTCCGCGGCCTCCTGAAGGATGCCCAGCCGGGCGGCGGCTCGGCCCTTCCCTCTGTCGCCGAATCAGTGCGAACCATTTCCGGCTCCTCCCATGTTGCGCTGGCGCGGGCCGACCGGACGGTTGTGACGTCGTCGGACCCCTCGCAGCAAGGCCGGCAACTCGAGCTCGGCGACAGCGTGGTGATGACCGGGCGGGCTTGGACCGGAGTAGTCAGCACCGGGACAGGGGATGCGCTCTCCGCCCATGTGCCGGTGCTGGACGACTCCGGCGAGATGGTGGGAATTGCCACCGTCGGCAGAAATTACCCGTCCATCATCGAACGGCTCGCGGATGCGGTACCGAACCTGCTGACCTACCTGGGAGTCGCAAGCGTCCTGGGCGTGGCCGGGTCGCTGCTGCTGGCGCGCCGCGTCAAGCGCCAGACCCTGGGCATGGAGCCGGACGAGATCACCGGGCTTGTTGAGAACCGCGAGGCCATGCTGCACGGACTCAAGGAGGGCGTGGTGGCGCTGGATCCGGAGCAGCGGATTACGGTGGCCAACGGCAGCGCGAGGCGGCTGCTGGGCTTGCCCCACGACTGCGTGGGCAAGGACCTGGCCGCCCTTGATGTGGAGCCGTCGCTGAAGGAGGTGCTCACCGAGGACCAGCCTGTTAATGACCGGCTGGTGCTTGTGGGGGAGAGCCTGGTGGTCCTGAACCGGGTGCCCATCCTGTCCCGGGGACGCGTCATCGGCTCGGTCACCACGCTGCGGGACCGCACGGAGCTGGCGTCCCTGGAGCGTGAACTGGGCACCACCCGCACGGCCACCGACACCCTCCGTGCCCAGGCGCACGAATTCGCCAACCAGCTCCACACGATTTCCGGCCTGATCCAGATTGGTGAGTATGACGCCGTCGTACAGTTCGTCAACGGCACCACGTCCAACCGCACACGCCTGAATGACGAGGTCACCAGCAGGATCGCGGACCCGGCGCTGGCCGCGCTGCTGATCGCCAAGTCAAGCCTCGCTGCCGAGCGGGGCGTCACTCTGGAACTCGCGCCGGAGTCCCGGCTGGACCGCGTGGATGAAGAGCTGTCCCGGGACCTCACCACCGTGGTGGGGAACCTCGTGGACAACGCGCTCGACGCGGTCACCAACACGGCCGGCGCCGAGGTTGAGGTGCTGATCGAAGAGGCCGACGGCGGCATCGCAGTTGTGGTGCACGATTCCGGACCGGGGGTCCCGGAAGAAATGATGGAAGACATTTTCCGGCAGGGGTTCAGCACCAAGTCGTCGTCCGAGGGGGGTCGGGGGTACGGCCTGGCGCTCGCGCGGGTGGTGTGCCGCCGCCATGGCGGGCAGCTGACGGTGCACAACGACGCCGGAGCCGTGTTCACGGCGGAACTGTTCCGTGCGCGACAGCCGGGAAACGAAAAGCCAGGCAAGGTAAGGCAGCAATGA	MTRRRGMSLAGQYLRLQLLIVFAVLVAVVAISLAQSAASFERIEGRRALSAAETLAANPTVRGLLKDAQPGGGSALPSVAESVRTISGSSHVALARADRTVVTSSDPSQQGRQLELGDSVVMTGRAWTGVVSTGTGDALSAHVPVLDDSGEMVGIATVGRNYPSIIERLADAVPNLLTYLGVASVLGVAGSLLLARRVKRQTLGMEPDEITGLVENREAMLHGLKEGVVALDPEQRITVANGSARRLLGLPHDCVGKDLAALDVEPSLKEVLTEDQPVNDRLVLVGESLVVLNRVPILSRGRVIGSVTTLRDRTELASLERELGTTRTATDTLRAQAHEFANQLHTISGLIQIGEYDAVVQFVNGTTSNRTRLNDEVTSRIADPALAALLIAKSSLAAERGVTLELAPESRLDRVDEELSRDLTTVVGNLVDNALDAVTNTAGAEVEVLIEEADGGIAVVVHDSGPGVPEEMMEDIFRQGFSTKSSSEGGRGYGLALARVVCRRHGGQLTVHNDAGAVFTAELFRARQPGNEKPGKVRQQ				NA	NA	NA	NA	NA
D1-17_00437	669	citT	COG4565	Transcriptional regulatory protein CitT	ATGATCAATGTCCTGATTGTCGACGACGACTTTATGGTGGCGAAGGTACACGCGGGTTTCATTCAGCGCACGTCCGGCTTCCAGGTTGTGGGAGTGGCGCACACCGGGGCGCAGGCGGTGCTGGAGACCCAGCGGCTGCAGCCGGACCTGGTCCTGCTGGACATCCACCTGCCCGACATCAACGGGCTGGACCTGATCCACAAGCTCCGGGAAGTGGCGCCGGAGCTGGATGTCCTGGTGATCAGCGCGGCCAGGGAAGTGGAGACGGTCCGCCGGGCGCTTCGCGGCGGAATCGTCCACTATCTCATCAAGCCGTTTTCCCAGACGGATCTGCAGGAGCGCCTGGAGCACTACCGGAACACGTACCGGAGCCTGGATTCCTCCAAGGACGTCGCGGAGCAGGCCGACGTCAACCGGGTCTTCGGCCTGGAGGGCGGCGACCGCCCGCTGCCCAAGGGCTGCAGCGCGGAAACCCTGCAGGTGGTGGAGCGGGCGCTGCGTGAGGCGGACGGTGATGTTTCCGCGGCTGAGTTGGCCGTCCTGGTGGGAACGTCCCGGGTGAGCGCCCGGCGCTACCTTGAGTACCTCAACGACGAGGCGCTGGTGGAGGTCACCCTGAAGTACGGCGTCGGACGCCCGGAACGGCGCTACGCATGGAAGCGCGCCTGA	MINVLIVDDDFMVAKVHAGFIQRTSGFQVVGVAHTGAQAVLETQRLQPDLVLLDIHLPDINGLDLIHKLREVAPELDVLVISAAREVETVRRALRGGIVHYLIKPFSQTDLQERLEHYRNTYRSLDSSKDVAEQADVNRVFGLEGGDRPLPKGCSAETLQVVERALREADGDVSAAELAVLVGTSRVSARRYLEYLNDEALVEVTLKYGVGRPERRYAWKRA	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
D1-17_00438	285			hypothetical protein	ATGGCCACCCCAGACGAACAGCGGGCACCCGGCGTTGACGATGTCATCCTTCCCCAGGAGGACGCGCTGCCAGGCCCGACCCGCACAGGTCACGGGAAAATGCCGGAAGACATAGACGACGACGCGTTCGAGAGGGCCGCGGAGCAGGAGCGCGTTGCGGCCGGTCTTGCCGACTATGCCCCCAGCGATGTTCCGCCGGCCACCGACCCCCTGCCCGCGGAAGCGTCCGAGGCCGCAGACGCCGCCCAGCGCGGACTGCTGGAGGACGAAGGCAAAACGGAATAG	MATPDEQRAPGVDDVILPQEDALPGPTRTGHGKMPEDIDDDAFERAAEQERVAAGLADYAPSDVPPATDPLPAEASEAADAAQRGLLEDEGKTE				NA	NA	NA	NA	NA
D1-17_00439	402			hypothetical protein	ATGAGCTCCGGGCTTGCCCCTGCCGTGCAGTTCGCCGCCTCCCTGCCGGGTGCGGTTTTGCTGGTCCTGGGGCAGACCCTCGTCCTCGTCTGCGTCTGCTCCGACATGCTCCGGCTGCTCTCTGTGCCCCGCTCGCACGGACGCTACGTGGCCAACACTGTGTTCCGGACCCTGGCGCTCCCGGCGATTCTGGTCCTGGCCTGCACCGTACTGCTCGACGCCGCCGCCGGCGTGTGGGGGGATGTCACCCTCGGCATGTTTGTGCTGGTCGTGGTGACGTACCGGTGGCGTACCGACTCAGACGAGGACAACTGGTGGAAAGGCAAAGGCAAGGCACTGGGCCGGTGGCTCACGAAGCAGAACGCGGCCGGGTTCCGGCCTTCTCCGGCTGCAGCTATCTGA	MSSGLAPAVQFAASLPGAVLLVLGQTLVLVCVCSDMLRLLSVPRSHGRYVANTVFRTLALPAILVLACTVLLDAAAGVWGDVTLGMFVLVVVTYRWRTDSDEDNWWKGKGKALGRWLTKQNAAGFRPSPAAAI				NA	NA	NA	NA	NA
D1-17_00440	3420			hypothetical protein	ATGCCATCCAGACCGGACGAGAGTGCGGCACTGGCAATCCAGACCCCCGCGATCAACGACCGCTCCCTTGCGGCCGGGCTCGCCTATGCCATGGGCAGCCGCGTCACCGGCATTTCCTTTGACGCCGCCACCGGACTGATGCTGGGCAAGGTGCGCGGCGGCGCCGACGCACCGTATTCCACCACCGCCAAGCTGGTGCGGAGGGCGGGCGGCTGGAGCTGCACCGTGGGCGTCTGCAGCTGCCCGGTGCGCAAGGACTGCAAGCATGTGGCCGCCCTGCTGTTCGCCGCAGAGGACAACCCCGCCGTCCGCAGGCAGCTGCTGGCACCCGCCGATGTCTCCCGGCTCGTCAGGGAACCTTCATCGGCTGAACCTGCTGGTTGGGAGCAGGCGCTCAGCCCGCTGATTTCCCAGCCGGGAATCGCGCCCTCCGCCGGCGGCACCCCGCTGGCGCTGCAGTTCGAGGTGGAGGAGGCTGCCCCGCATTTTTCCTACACCGGCCGGCGGGATCCCCTGCGCAGCGTCCGGCAGCTCAAGGCCCGTCCGGTGATCATGGGCGCCAAGGGCAACTGGATCCGCGGGGACGTATCGTGGAACACGCTCAGCTATCTGAGCTTCAAGCGGGAGTGCAACCAGACCCATGTGGAGTGGATGCAGGCCTTCCTCGCCGCGCACACGTCTGCTGCCAACCGGGCGCATTCTTCCTCCGCCCTTTGGCTGGGAATGAACACGTTCGCAGGCAAGAACCTATGGGCCCTGCTGGAAGAGGCCAGAAAGATGGGCCTTGCCCTGGTCCACAGCCGGGGGCAGGAGCCGGTGCGCGTCGCGGAGTCTCCCGCCGCCGTCGGCCTTGATTTGAGCCGCCACGGCGACGGGCTGGAGCTCGCCCCCACCATCACCGTTGCGGGCGACAGTGTTGATCCGGCGTCCGTGGGCACCATCGGCAGGCCGGCCCACGGCATCTTCGTCACCTCCGACGGGGACGGGCTGCCCGGCGTCAACGGCGAATCCGCCATTACGCTGGCGCCGCTGGAAAGCGGACTCAGCGAGGAACTGCTGGCGTTCGTGACGGCCGGCAGCACCCTGCACATTCCGGCCCGGGACGAAAGCCGCTTCCTCACCGGCTTCTACCCGAAACTGAAGCAATCAGCGCGGGTGACCACATCTGACGAGTCCGTGGAGCTGCCCGACCTCGCGGTCCCCACCCTGTCCCTGCTGGCCAATTACGGTGCCGACCACCGGGTGCGGCTGCACTGGGAATGGCACTACACGTCGGGGAACCTCGTCACCGCGCAGCCGCTGTGGCGCCATCCCGGCGACCACGGCTACCGGGACGATGCCGCCGAGGCCCGCATCCTGGAGGCGGTCGGCCAGCCGTGGGATGTGGTGCCGAAGCTGGGCGAATCAGCTGCCGGAGGCTGGGGCACGCCGCGCCTTGCCGCATCCGCCGAACTGAGCGGGCTGGACACGCTTGCCTTTACGGAAGAGGTCCTTCCCCGCCTGCAGAACACTCCCGGTGTGGAGGTTGACACCTCCGGGGACATCGCCGACTACCGCGAGGCCGAGGAGGCCCCCGTGGTCGCGATCTCCACCAAGGCGACCGACCAGCGGGACTGGTTCGACCTCGGCATCGTGATCACGCTGGAAGGCCAGCCCGTCTCATTTGCCGCGCTGTTTTCGGCGCTCGCGGCCGGCCAGACGCGGATGCTGCTGCCCAGCGGTGCATACTTCTCGCTGGACCTGCCGGAGCTGCACCAGCTGCGGGCGCTGATCGACGAAGCGCGCTCGCTGCAGGACAACAAGGACGGCCCGCTGCAGATCAGCCGCTTCCAGGCCGGGCTGTGGGACGAGCTGGCGCAGCTGGGAATCGTGGACGAACAGGCAGCCGCCTGGCGTGAAGCGGTTGGCGGACTGCTTGAGGGCGAAGTGCAGGGACTGCCCCTTCCTGCCAGCCTGGATGCCGAGCTGCGCCCATATCAGCTGGAAGGCTATAACTGGCTCAGTTTCCTGTACCGGCACGGCCTCGGCGGTGTGCTGGCGGACGACATGGGCCTCGGCAAGACCGTCCAGGCATTGGCCCTGATGTGCGCCGCCAAAGAGCACGCGTCCGGCACGGTTACTGAAGCCGGCGCGACTGAAAACAGCGCAACCGCTGGAAACAGCGCCGCGTCCGACGGCGGCGCGCCCTTTTTGGTGGTGGCCCCCACGAGCGTTGTGGGCAACTGGGCGGCGGAGACGGCGCGCTTCGCTCCCGGGCTCACAGTGCGCGTGATCAGCGAAACGTTTGCAAAAAGCGCAGCTGACCCGGCCGAGGCCATGGCCGGGGCGGACATCGTCATCACCTCCTATGCCCTCTTCCGGATCGACTACGAGGCATATGCCGGACGCCGGTGGGCCGGGCTTGTGCTGGACGAGGCCCAGTTCGTGAAGAACCACCAGTCCAAGGCCTACCAGTGCGCGCGCAAGCTTCCGGCTGCCTTCAAGCTCGCCATTACGGGCACACCGCTGGAGAACAACCTCATGGAGTTCTGGGCACTGACCTCCATTGTCGCGCCGGGGCTCTTTGCCAGCCCCTCGCGGTTCGCCGAGTATTACCAGAAGCCGGTGGAAAAGAACGGTGACAAGGGGCAGCTGGACAAGCTCCGGCGTCGGGTCCGCCCCCTGATGATGCGCCGTACCAAAGAGCAGGTCATCAAGGACCTGCCGCCGAAGCAGGAGCAGATCCTGGAGGTGGTGCTCAACCCGCGCCACCAGAAGGTGTACCAGACGCACCTGCAGCGTGAGCGGCAGAAGATCCTGGGCCTGATCGAAGACGCCAACAAGAACCGCTTCACGATTTTCCAGTCGCTGACGCTGCTGCGGCAGCTCAGCCTGGACGCGTCCCTCGTTGATGCCTCCCTGTCGGGCGTGCGGTCCAGCAAGCTGGACGTGCTCTTTGAACAGCTCGAGGACCTGGTGGCGGAAGGCCACCGCGCATTGATCTTCAGCCAGTTCACGGGTTTCCTGGGCAAGGTCCGCGAGCGCCTGGTCGAGGAGAACATCGAGTTCTGCTATCTCGACGGCGGGACACGGAACCGTGCGGACGTGGTGAACGAGTTCAAGAACGGCGCAGCGCCGGTGTTCCTGATCAGCCTCAAAGCCGGCGGTTTCGGTCTGAACCTCACCGAGGCCGACTATGTGTTCCTGCTCGACCCGTGGTGGAACCCGGCCTCGGAGGCGCAGGCGGTGGACCGTACGCACCGCATCGGCCAGGAGCGGAACGTCATGGTGTACCGGCTCGTGGCCAAGGACACCATCGAGGAAAAGGTCATGGCGCTCAAGGCGAAGAAATCCCAGCTGTTCGCCGATGTGATGGAAGGCGATGCGCTCTCAGGCGGCGCGCTCACGGCTGAGGACCTCGCCGGGCTCTTCAACGACTGA	MPSRPDESAALAIQTPAINDRSLAAGLAYAMGSRVTGISFDAATGLMLGKVRGGADAPYSTTAKLVRRAGGWSCTVGVCSCPVRKDCKHVAALLFAAEDNPAVRRQLLAPADVSRLVREPSSAEPAGWEQALSPLISQPGIAPSAGGTPLALQFEVEEAAPHFSYTGRRDPLRSVRQLKARPVIMGAKGNWIRGDVSWNTLSYLSFKRECNQTHVEWMQAFLAAHTSAANRAHSSSALWLGMNTFAGKNLWALLEEARKMGLALVHSRGQEPVRVAESPAAVGLDLSRHGDGLELAPTITVAGDSVDPASVGTIGRPAHGIFVTSDGDGLPGVNGESAITLAPLESGLSEELLAFVTAGSTLHIPARDESRFLTGFYPKLKQSARVTTSDESVELPDLAVPTLSLLANYGADHRVRLHWEWHYTSGNLVTAQPLWRHPGDHGYRDDAAEARILEAVGQPWDVVPKLGESAAGGWGTPRLAASAELSGLDTLAFTEEVLPRLQNTPGVEVDTSGDIADYREAEEAPVVAISTKATDQRDWFDLGIVITLEGQPVSFAALFSALAAGQTRMLLPSGAYFSLDLPELHQLRALIDEARSLQDNKDGPLQISRFQAGLWDELAQLGIVDEQAAAWREAVGGLLEGEVQGLPLPASLDAELRPYQLEGYNWLSFLYRHGLGGVLADDMGLGKTVQALALMCAAKEHASGTVTEAGATENSATAGNSAASDGGAPFLVVAPTSVVGNWAAETARFAPGLTVRVISETFAKSAADPAEAMAGADIVITSYALFRIDYEAYAGRRWAGLVLDEAQFVKNHQSKAYQCARKLPAAFKLAITGTPLENNLMEFWALTSIVAPGLFASPSRFAEYYQKPVEKNGDKGQLDKLRRRVRPLMMRRTKEQVIKDLPPKQEQILEVVLNPRHQKVYQTHLQRERQKILGLIEDANKNRFTIFQSLTLLRQLSLDASLVDASLSGVRSSKLDVLFEQLEDLVAEGHRALIFSQFTGFLGKVRERLVEENIEFCYLDGGTRNRADVVNEFKNGAAPVFLISLKAGGFGLNLTEADYVFLLDPWWNPASEAQAVDRTHRIGQERNVMVYRLVAKDTIEEKVMALKAKKSQLFADVMEGDALSGGALTAEDLAGLFND				NA	NA	NA	NA	NA
D1-17_00441	234			hypothetical protein	ATGGTTGAGCGAGGAAACACCAAACACGGGTCCGAACTGGACGATCAAATGAAGCACGAGACGCAGGCCCTGCGTCAAAGCAGTCGTTCAGGGCACGCCGAGGAATTCCGGGAGACCGAACCGTTTCCGGACGACACTGACAGCCAGGAGGTCCGGGAGGCCGTACGTGAGAACCCGCCGGCGGAAGCGCCGGAGCCAGGCAACGGCGGCGCTGCATCTGACCGGGAAGCGTGA	MVERGNTKHGSELDDQMKHETQALRQSSRSGHAEEFRETEPFPDDTDSQEVREAVRENPPAEAPEPGNGGAASDREA				NA	NA	NA	NA	NA
D1-17_00442	1188			hypothetical protein	ATGAGTGCGGCGCTTTCCAAGTACTCCAAGCTGTTCGAAGGAAACGGAACCTGGTGCACAGTGCTGGCCGATGCCGGCACGGGCACGGTCGATTCCCTCGAAGCCGCGGACCTCAGACCGGAACGCATTAGGGATGAGTTGCTGGCGGCGGGGGCTTCAAAGGAGGACGCGCAGGCGGTTGAGCAGGCCGTAAAGCCGCTGGAGGGGGTGCCGAATCCTGTAGCCCGCTTCCTGGTTGCCCATGGCGGTCGGGTGGAGGTGGACCAGGTTCTCGCCGGTGAGCGGGTGGACAGGCCGTATGTGAACGTGGGCGTCATTCCTGACCTGCTGCCCCTCATCCGGCATGCTGACCTGGATATGGCCGTCGTGACGGCCAGCGTGGACCGCACGGGTGCGGACATCACCTTGTCCTTTGCCCGAGCCGCCGGCGGCGAGGCTTTCAGCGAAACCACTGAGGGGAGCACGGAGAACATCAAAAAGGTCCCCGTTGGGGGATGGGCGCAAGGCAAGTTCCAGCACCGCACCGAGGAGATTTGGCGGAGGAATACCGAAGAGGTGGCTGCGGAAATCGACCGTCTTGTGGAACAGGAACGGCCGGTTGCGGTGGTGATCGGCGGTGACATCCGCGCACGCGACATGGTTCTTGACCAGTTGTCCAAGCGCAGCCGCGCCATCGCGGCGACCGTCGACGTCCATACCCGGGCCGGCGGTGCCGATCCAGAGGTGATGAACACAGCCGTCGAGAAGGCGCTGGCCGAAGCGCAGGCGCGCTCCCAGCAGCAGCTTCTGGAAAAGCTGGCAGAGGAAAAGGGGCAGAACAGCGCCGGCGCGGCGTTTGGTGTCGGGTCTGTTGTCCGGGCACTGCAGCAGGCACAGGTTCAGACCCTTGTTCTTAGCGACCAGCTGACAGCTGATCCCGGTGCAGGCAACACGGCCACGGACCCGGAAAGCCACCCGGCGCGTGCCTTGCTCGTCCTCAGCGCGAGTCCGTGGGTTTCCACGGTGCCGGAGGAAGCTGTTGGCGCCGAGGTCCTGGGCGAGGCGCCGGCGGCTGCAGCCCTCATCAGGGCGGCGGTTCTCACCGACGCAGAGGTGGAGGTGGTGCCTGCTGCCGCCATTCCCGGTGGGGCCCCTGCTGCTGCCCTGCTGCGGTGGGAAACAGGTCCCGCTGTTCCGGGCGGGCAATAG	MSAALSKYSKLFEGNGTWCTVLADAGTGTVDSLEAADLRPERIRDELLAAGASKEDAQAVEQAVKPLEGVPNPVARFLVAHGGRVEVDQVLAGERVDRPYVNVGVIPDLLPLIRHADLDMAVVTASVDRTGADITLSFARAAGGEAFSETTEGSTENIKKVPVGGWAQGKFQHRTEEIWRRNTEEVAAEIDRLVEQERPVAVVIGGDIRARDMVLDQLSKRSRAIAATVDVHTRAGGADPEVMNTAVEKALAEAQARSQQQLLEKLAEEKGQNSAGAAFGVGSVVRALQQAQVQTLVLSDQLTADPGAGNTATDPESHPARALLVLSASPWVSTVPEEAVGAEVLGEAPAAAALIRAAVLTDAEVEVVPAAAIPGGAPAAALLRWETGPAVPGGQ				NA	NA	NA	NA	NA
D1-17_00443	864			hypothetical protein	ATGACGTCCAACGAGTACCCCGTCGTCCTGACCCTTGAAGGCACCGATGCCAGGGATGAAGAGGTCGTTGACGCCAACGTCGCCGTCATCAACGCCATGTTCCGTGAACTCCTCGGCCCGGGGGAAATCGCCCCCAACGCGCTGCGCAGCTACTTCGTCGACTTCTATCTCACCCAGGCTCTTGCTGGTGGTTTTGCGCAGTACGTTTACACGGCCGCGGACCGGGACGCGGTCGACAACTACGTCCGTGAAGGCCTCGAGGCCATGGGCGCTACCGCGCACCTGGCGTTGTTCGACCGTGCCGCCCAAGCCTTCAATGCCCTCACCGAGGAGGAAGCGGAGATCTATCTGGATGGTGAGTGGGACGCAGCCACGGACGGGGTCCTGCCGAATGCCGTCCAGGCTATGGAAGACCTTGACGCCGCCTTTGAGGCGCTGCTCGAAAACGAGGACATCACTGCTCTGAACGCCACCTGGCTGCGTGAACAGGAGGGCCTGGTGCTGCTGCAGGGGGAAGAGCTCAACGCCCACATCACACGGCGGCTGGAGCAGGTCCCTGACCTCGAACAGCGCCTTGCTGAAGCCGAGCAGGCAGCCCTCGAAACGGCGCCGGAATTCGAACTGATTATCCGCGAGCTCTGCGACATCGCCGGGTATACGCTGCAGGGCATCACGATGGGCGATCCCAACTACGAGCACAATGGCGAGATCGTCCTGGCCTGGAAGTTCAGCACCGACCACGGAGAGTTCCTCATGATCGAGGATGACGACGAGGCCTTCATGCTCAACCCGGAAACCAGGGAGATCATTGCCGCAGTCGAATTCGAGGACGCCGACGAACCGCTGGCGGATCTTCTCCGCTAG	MTSNEYPVVLTLEGTDARDEEVVDANVAVINAMFRELLGPGEIAPNALRSYFVDFYLTQALAGGFAQYVYTAADRDAVDNYVREGLEAMGATAHLALFDRAAQAFNALTEEEAEIYLDGEWDAATDGVLPNAVQAMEDLDAAFEALLENEDITALNATWLREQEGLVLLQGEELNAHITRRLEQVPDLEQRLAEAEQAALETAPEFELIIRELCDIAGYTLQGITMGDPNYEHNGEIVLAWKFSTDHGEFLMIEDDDEAFMLNPETREIIAAVEFEDADEPLADLLR				NA	NA	NA	NA	NA
D1-17_00444	312			hypothetical protein	GTGTGTACGCGGCGCCGTCCGGCCTGTGCTGCGGTCGCCGCCCGGCCCATTCTTGGGAAACTTCCGGGCGACCTCGCCGAAGGTGCCCACGTTCGGTCTCCTTTGCAGGTGGACTGCGGGACGTACATCAGTGTCGGCAAAGGCACGTTCATCAAGTGCAACCGCACGGCGCTCGGCGTCGGGCCAATCACCATCGGCGAAAGCAGTGTGATCGGCGCCGGCGCAGTGGTCACACGGGACGTGCCGCCCAACGTCGTACAGTGCTCGAGCGGCACTTCGACCCGGAAACTGCCCGGATGCTCGATACGCTGA	MCTRRRPACAAVAARPILGKLPGDLAEGAHVRSPLQVDCGTYISVGKGTFIKCNRTALGVGPITIGESSVIGAGAVVTRDVPPNVVQCSSGTSTRKLPGCSIR				NA	NA	NA	NA	NA
D1-17_00445	2340			hypothetical protein	GTGCGGGAATCAAGCACCACCGACGAGAGAATTTCAGGACCGGAGGCAGTTGCCGCCGAGGCAGTCGCCGCCGGCGCGAAAGAAGTAGCGGCCGAAGAAGCAGATTCGGCCGGGGCCGGCTCTGCGCCTGCCGACGCTGCAGCCGAACCGGCGGACATCACTTACGATGAGCAGTTTTATCCCGCCCGCCCCAAGGCTTTGAGGCCGATCGCCCGCCGGCGCCAGTACCTGGCCTCCAGGCCATCCCTTGAGTTTGACGGGCGCAACGCGGCATATGTCGAATGGCTGCGAAACCAGGCGATGCTGGGGGATGCCAACACGTTGGCCCGGCAACTGTCGGGGCAGGCCAGCATGTGGCAGAACTCCTATGCGCATCCCAACCCTAGGGCCGCCGTCGAGCGTGCTCCCGTCTGGTTTACCGCTTACCCACTGTCCTTCATCACACAGCCTAGCCAGTCCTTCCTCTCAGCCCTGGGCGACCAAGGCATGTGGGAAGCCTTCAGGGAGATCGGGATCAGGGCACTCCACACCGGTCCCGTTAAGCTGGCAGGAGGCATCAGCGGGTGGACCCAGACTCCCAGCGTCGACGGACACTTTGACCGGATCAGCATGGCGATCGACCCCGTGTTTGGCACCGAGGACGAATTCCGGCAGATGTGCCAGGTCGCCGCGGACCACGGCGGAACGGTCATTGATGACATCGTTCCCGGGCACACCGGCAAGGGAGCCGACTTCCGCCTTGCCGAGATGAACTTCCGGGACTATCCGGGCATCTATCACATGATCGATATCCCGGAGGAGGACTGGCACCTGCTTCCGGATGTACCCGAAGGGCAGGATTCGGCAAATCTGAGTCTCGAGTCTGAACAGGCGCTGCAGGCTGCCGGATACATCATCGGCCGGCTCCAGCGGGTCATCTTCTACGAACCGGGTGTCAAGGAAACCAACTGGAGTGCAACGCGGCCGGTCGTTGACACTACCGGAAAGACCCGCCGCTGGGTTTACCTGCACTACTTCAAGGCAGGCCAGCCATCCATCAACTGGCTGGACCCCACCTTCGCCGGAATGCGCCTGGTGGTCGGGGACGCTTTGCATTCTTTGGTTGACCTGGGCACCGGCGCGCTGCGCCTGGACGCCAACGGCTTCCTGGGCGTGGAAAAAAGCGCTGAGGAGCAGCCGGGCTGGTCCGAGGGGCACCCCCTCTCCGAGGCAGCCAACCAGCTCATCGGGTCCATGATCCGCAAAGTCGGGGGGTTCTCGTTCCAGGAACTGAACCTGACGATCGACGACATCAAGGCGACCTCCGAGTCCGGTCCTGACCTTTCCTACGATTTCATCACCCGGCCCGCGTACCATTACGCGCTTGTCACCGCTGACACCGAGCTGCTGCGGCTGACGCTTCGCCTGTCGATGGAAATCGGTGTCGATCAGGCCTCGCTGGTCCACGCCCTGCAGAACCACGACGAACTGACCTACGAACTGATGCACTTCGCCTCGGGGCACAGAGACGAGCTGTTTGAGTTCAACGGCCAGGAGCTTACGGGCGCCCAGCTCGCCGAGCAGGTGCAGCAGACCATGAGGGAGCGCCTGACCGGAGAGAGTGCACCCTACAATGCTGTGTTCACGACCAACGGCATCGCCTGCACCACGGTCAGCTTCATCATGGCCGTGCTCGGTATCCGCGAGCCTGAAGCAATAACGCCGGAACAGGAGGGCCAGGTCCTGGACGCCCACATCCTGCTGTCGATGTACAACGCCCTGCAACCGGGCGTCTTTGCCCTTTCGGGATGGGACCTCACCGGCATAACGGCCCTCGACCGAAAGCACGTCGAGGAGCTCACCTCCCAGGGTGACACCCGCTGGATCAACCGCGGAGCCCACGACATCATGGGCACCAGCCCTGACGCGGAGACCTCGTCGTCAGGGATGCCCCGCGCCCGCAGCCTGTACGGTTCCCTCCCGGAGCAGCTTAAGGATTCCTCCTCCTTCGCCCGGAGGCTGCAGCGGATCCTTGAGGTGCGGGAAAACACTGGAATAGCCACCGGCACCTTGCTGGATGTTCCGGACGTCTCCAACCGCGGGCTGCTCGTCATGGTCAACCGGCTGGGGGACGGGGCGCTGCAGGTCACCGTGCTTAACTTCTCAGGCCAGGACATCGCCGGCACCATCCAGTCCACGCACCTGCCCCCAGGCGCCAGCGTGCAGGATCTGTTCAGCGGCGAGACCGTGGGGCAGGTGGATGACCTGCACAGCTTCTTCATCGAGCTTTCCGCCTATCAGGGCACAGCCCTGCTCCTACACGAAGAGGAACCTGCAGACGAGGAGGCACCCGGCCTGTAG	MRESSTTDERISGPEAVAAEAVAAGAKEVAAEEADSAGAGSAPADAAAEPADITYDEQFYPARPKALRPIARRRQYLASRPSLEFDGRNAAYVEWLRNQAMLGDANTLARQLSGQASMWQNSYAHPNPRAAVERAPVWFTAYPLSFITQPSQSFLSALGDQGMWEAFREIGIRALHTGPVKLAGGISGWTQTPSVDGHFDRISMAIDPVFGTEDEFRQMCQVAADHGGTVIDDIVPGHTGKGADFRLAEMNFRDYPGIYHMIDIPEEDWHLLPDVPEGQDSANLSLESEQALQAAGYIIGRLQRVIFYEPGVKETNWSATRPVVDTTGKTRRWVYLHYFKAGQPSINWLDPTFAGMRLVVGDALHSLVDLGTGALRLDANGFLGVEKSAEEQPGWSEGHPLSEAANQLIGSMIRKVGGFSFQELNLTIDDIKATSESGPDLSYDFITRPAYHYALVTADTELLRLTLRLSMEIGVDQASLVHALQNHDELTYELMHFASGHRDELFEFNGQELTGAQLAEQVQQTMRERLTGESAPYNAVFTTNGIACTTVSFIMAVLGIREPEAITPEQEGQVLDAHILLSMYNALQPGVFALSGWDLTGITALDRKHVEELTSQGDTRWINRGAHDIMGTSPDAETSSSGMPRARSLYGSLPEQLKDSSSFARRLQRILEVRENTGIATGTLLDVPDVSNRGLLVMVNRLGDGALQVTVLNFSGQDIAGTIQSTHLPPGASVQDLFSGETVGQVDDLHSFFIELSAYQGTALLLHEEEPADEEAPGL				NA	NA	NA	NA	NA
D1-17_00446	1023	cytR_1	COG1609	HTH-type transcriptional repressor CytR	ATGGCGACAAGGGTCGGTATACGCGAGGTGGCGAAAGCTGCCGGGGTCTCGGTGACCACGGTCTCGCACGCGCTCAACGAAGCCACCAGCTTCCGGGTCAAAGCGGAAACCCAGCAGCACATCCGGGACGTAGCCAAAGACCTTGGCTACGCACCCAACAGGCTCGCCAGCGGTCTGCGCAACCAGCGGTCCCAGATCCTTGGGCTTGTCAGTGATGAAATCACCACCACCCCCTTCGCCGGCGCCATGATCCGGGGAGCGCAGGACGCAGCCTACGACCGCGGCTACGTGGTGATGGTGGTCAACTCCGGCCTGGACAGCGAGCTGGAGGCGCGGGAAATCCGGATGCTCCAGCAGCACCAGGTGGACGGTGTGGTGTACGCGAGGCTGTACCACCAGGGAGTGGAGCTGCCGCGTGAACTGGCCGGTCTGCCCACCGTGCTGCTGGACGCTGTCACCGCGGACAGCTCCGTCTCGTCGGTTGTTCCGGACGAGGTGGGGGCCGCTGAAACCGCTGTGGCAGCTCTTATCCGGGCGGGCCACAGCCGGATCGGCATGATCAACAACCAGGATGACATTCCCGCTACCCACGGCCGGCTCGAAGGGTTCCTCAACACGCTCCAGAAGCATGGTCTGGAGCACGACCCCCGGCACCTGGTTATCGGACAGGCAGAAACAGCAGGTGGCCGGGAAGCAGCGCTGGCCCTGCTCAGCCAGGAACAGCGTCCCACGGCTTTGTTCTGCTTCAGCGACAGGGTTGCCATGGGGGCCTATCAGGCTGCAGCCGCCCTGGGCCTGAGCATTCCCCGGGACGTTTCAATCGTGGGCATCGACAATCTCGAGCTTATTGCCGACGCCCTCTGGCCTGGCCTCACCACGGTGGCCCTGCCGCACTACGAGATGGGGCGTTGGGCGGTCAACCGCATTCTGGACGATATTGAACATCCGGGGACTCCCGCAGTGCAAGCGCAGCTGGACTGTCCACTGATCGAGCGGGGCTCGGTAGGCCCGCCGCCGGCATAG	MATRVGIREVAKAAGVSVTTVSHALNEATSFRVKAETQQHIRDVAKDLGYAPNRLASGLRNQRSQILGLVSDEITTTPFAGAMIRGAQDAAYDRGYVVMVVNSGLDSELEAREIRMLQQHQVDGVVYARLYHQGVELPRELAGLPTVLLDAVTADSSVSSVVPDEVGAAETAVAALIRAGHSRIGMINNQDDIPATHGRLEGFLNTLQKHGLEHDPRHLVIGQAETAGGREAALALLSQEQRPTALFCFSDRVAMGAYQAAAALGLSIPRDVSIVGIDNLELIADALWPGLTTVALPHYEMGRWAVNRILDDIEHPGTPAVQAQLDCPLIERGSVGPPPA	PGPT0017992_8978	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_00447	1296			hypothetical protein	ATGAACAAGCGATTCACTCGGATCCTGGGCACCAGCATAGCTGCGGCCGCACTCGTGGGCACCCTGGGCGCCTGCGGCAAGGGCAGCGCATCCGCGACGTCCGAGGGCTCTAACGAGATCACCATGTGGACCCACAATGCCGGCAACCCGGACGAGCTCAAGGCCATACAGGGAATCGTTGACTCCTACAACAAGAGCAGCGGCGCCAAGGCCCAGATCAAGGTCCAGGCTTTCCCACAGGAGTCCTACAACGATTCCGTGGTCTCGGCCGCTGCCGCCGGAAAGCTTCCCTGCATCGTGGACATCGACGGCCCCAACGTGCCGAACTGGGCGTGGGCGCAGTACCTGGCCCCGCTCAAGCTCTCGACCGACCTGTCCAAGCACCTGCCCAGCACCGTGGCGAAGTGGGAAGGTGAGACGTACGCCGTCGGTTATTACGACGTCGCGCTGGCGATGCTCGCCCGGACCTCCGACCTCAAGGCTGCCGGCGTCCGCGCTGCGACCGTTGAGGAGCCTTGGACGAAGGAAGAATTCCAGGAGGCCCTGACCAAGCTCAAGGCCCTGGGCAAGTGGCAGTTCCCCCTCGACATGGGAACGGCGGGCGCCGGTGAATGGCTGCCCTACGCCTACTCTCCGCTGCTGCAGTCCTTCGGCGGGGACCTCATCAACCGCGATGGCTTCCAGTCAGCCGACGGTGCCCTCAATGGCGAGAAGGCCGTTGAGTGGGCCACGTGGTTCCGCGGTCTCGCGGACCAGGGCTTCATGGCCAAGAAGAGCGGCAAGGATTCCACGCAGGACTTCCTGAACAACAAGAGCGCCATCGTGTACACGGGCTCCTGGGCCGCGGACAAGGCGCGCAAGGCACTTGGCAAGGACCTGGCGGTCATGCCCACCGTTGACCTCGGCAACGGCCCGAAGATCGGCGGCGCCTCCTGGCAATGGGGCGTGACCAGCGGCTGCAGTAACTCCGAGGCCGCCATGGACTACCTCTCCTACTCCCTGAAGCCGGAGAACATCGCTGCCGTGGCCAAGGCAACCGGAACCATCCCCGCCACCGACGAGGCTGCCGCGCTTCTCCCGGAGTTCGCAGAAGGCGGCGCCAACCGCGCGTTCATGGAGTTCTCCCGCCAGCAGGCTGTTATGCGGCCCGAGACCCCGGCCTACCCCTTCATCGCCACCGAATACGGCAAGGCCGTCCAGGACATCCTGGCCGGGGCCGACCCCAAGACCGTCCTGGACAAGGCGGTCAAGGCGATTGACGCCAACATCAAGTCCAACGGCGGCTACAAGAACTAG	MNKRFTRILGTSIAAAALVGTLGACGKGSASATSEGSNEITMWTHNAGNPDELKAIQGIVDSYNKSSGAKAQIKVQAFPQESYNDSVVSAAAAGKLPCIVDIDGPNVPNWAWAQYLAPLKLSTDLSKHLPSTVAKWEGETYAVGYYDVALAMLARTSDLKAAGVRAATVEEPWTKEEFQEALTKLKALGKWQFPLDMGTAGAGEWLPYAYSPLLQSFGGDLINRDGFQSADGALNGEKAVEWATWFRGLADQGFMAKKSGKDSTQDFLNNKSAIVYTGSWAADKARKALGKDLAVMPTVDLGNGPKIGGASWQWGVTSGCSNSEAAMDYLSYSLKPENIAAVAKATGTIPATDEAAALLPEFAEGGANRAFMEFSRQQAVMRPETPAYPFIATEYGKAVQDILAGADPKTVLDKAVKAIDANIKSNGGYKN	PGPT0016545_6630	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
D1-17_00448	966	lacF_1		Lactose transport system permease protein LacF	ATGACAACCACCCAGCTTCCTCCCCGACGCCGCTCCGGCGTCCCCGCACCCGCGGCGCCTGTACCCTCCGCCACTCCGCGGCACCGCCGCCCGGGCTACCTGCGCGAACAGCTCAGCGGCTGGGGAATGATCGCTCCGGCAGCGGTCCTCCTGCTCGCCTTCGTGTTCCTCCCCGCCATCCTCGGCTTCGGCCTCGCGTTCACGAACGCCCGGCTCATTTCACCCCGGCCCGTGGAGTTCGTAGGAACAGACAACTTCGCCAGGCTGTTCACCGACCCCACGTTCTGGCGGGCGCTGCTGAACGTCAGCTACTTCGCCGTCGTGGTGGTCCCGGTCCAGTCGGCCCTGGCCCTGGCCATGGCGCTGCTGATCAACAAGAAATTCCGCGGCGTAAATTTCTTCCGCACCGTCTACTTCCTTCCCGTGGTCACCTCGATGGTGGTGGTCTCCCTGCTGTGGCTGTTCATGTACCGCAAGGACGGCCTGATCAACGAGATCCTGTCCACCGTGAGCTTCGGCCTCATTCCGGGAGCTGACTGGCTCAACGACCCCGCCACCGCCATGCCGGCCATCATCGCCCTCTCCATCTGGCAGGCCGCCGGCTTCCACATGATCATCTGGCTCGCCGGCCTGCAGAGCATCTCGGGCGAACTGTACGAGGCCGCGCAGCTCGACGGCGCAAGCCGCTGGCACCAGTTCCGCTACGTGACCTGGCCCGGCCTGAAGCACACCCGCAGCCTGGTCCTGGTGACCATCACCATCCAGGCGCTCGGGCTCTTCGACCAGGTCAGCGTGATGACCCAGGGCGGCCCGCTCGACTCCACCACCACCATCATCTATGAGGCAGTCCGCTCCGGCTTTAAGCAGCAGGAGACGTCCTACGCCTCGGCCATCTCCCTCGTATTCTTCGTCCTCGTGCTGCTGATTTCCGCGGTGCAGCGCTACCTGACCCGAGAGAAGGACTGA	MTTTQLPPRRRSGVPAPAAPVPSATPRHRRPGYLREQLSGWGMIAPAAVLLLAFVFLPAILGFGLAFTNARLISPRPVEFVGTDNFARLFTDPTFWRALLNVSYFAVVVVPVQSALALAMALLINKKFRGVNFFRTVYFLPVVTSMVVVSLLWLFMYRKDGLINEILSTVSFGLIPGADWLNDPATAMPAIIALSIWQAAGFHMIIWLAGLQSISGELYEAAQLDGASRWHQFRYVTWPGLKHTRSLVLVTITIQALGLFDQVSVMTQGGPLDSTTTIIYEAVRSGFKQQETSYASAISLVFFVLVLLISAVQRYLTREKD	PGPT0016535_1683	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
D1-17_00449	879	araQ_1	COG0395	L-arabinose transport system permease protein AraQ	GTGAAGAACGCAATTCGCATCAGCAGTGCAGGGGCCATGGCCGTGCGCATCCTGTTCGCCGCCGTCGCCGCCTTTCCCATCGTTTTCATGCTCGTTTCCTCGCTCAAGCCGGACCAGCAGATCTTCGGGGACATGTCCTCGGTGGCCGCGTTCCTGCCCATTGGGAACATCTCGCTGGACAACTACGCGGCGGTCTTCGACAGGGTGCCGGCCGCCCGCTTCCTTATCAACTCCATCGGCATTTCCGCGGTCACCGTGGTGCTGGGCATCTTCATCAACAGCCTCTGCGCCTTTGCCCTCTCCCGCATGGAGGTCCGTGGCAAGCGCATCGTGTTCACCGCGATCCTCGCCACCCTGATCGTGCCCTTCCAGACCCTGGCGCTGCCGCTGGTGTGGTGGGTCAACCAGCTCCCGTACTTCGAGCTCAACGGCTTCAGCCTCGAGATCTCCAAAGGCTGGCTGGACACCTACCAGGTCCAGATCATCCCGTTCATCGCCAACGCCTTCTCCATTTACCTGTACCACCAATACTTCGAATCCATTCCGAAGGAACTGGACGAAGCCGCGCGGATCGACGGCGCCGGCTGGTTCAAGATCTACCGCCAGGTGGTGATGCCGCTGGCGGGTCCTGCCACCGCAACCGTCGCCATCCTGACCTTCCTGCCCGCCTGGAACTCGTACCTGTGGCCGCTCATGGTGGTCCAGTCCGAGGAACTGCGCCCGGTGATGATCGGCATCCAGTACTTCTTCCAGCTCAACGTCTCCTGGGGCGAAGTGATGGCCTATGCCTCCCTCATCACGGTTCCCGTGGTGGTCCTGTTCATCGCGTTCCAGCGGTCCTTCATCAACAGCATCGCCTCCAGCGGCGTCAAAGGCTGA	MKNAIRISSAGAMAVRILFAAVAAFPIVFMLVSSLKPDQQIFGDMSSVAAFLPIGNISLDNYAAVFDRVPAARFLINSIGISAVTVVLGIFINSLCAFALSRMEVRGKRIVFTAILATLIVPFQTLALPLVWWVNQLPYFELNGFSLEISKGWLDTYQVQIIPFIANAFSIYLYHQYFESIPKELDEAARIDGAGWFKIYRQVVMPLAGPATATVAILTFLPAWNSYLWPLMVVQSEELRPVMIGIQYFFQLNVSWGEVMAYASLITVPVVVLFIAFQRSFINSIASSGVKG	PGPT0016540_2832	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
D1-17_00450	1539	sacC	COG1621	Levanase	ATGAATCCAACAGCCGAACTCGGCTGCCGTTACCGGCCGCGATGGCACTACGCCGCAGAGCGCAATTGGCTCAACGACCCCAACGGCCTCGTTTACTCCAACGGCGTCTACCACCTCTTCTACCAGCACAACCCCTCCGGTGACGTCTGGGGCAACATGTCCTGGGGCCATGCCACCTCGGCCGACCTGCTGACCTGGGACGAGCAGCCCGTCGCGATTCCCTGCGACGGGCAGGAGGCCATCTTCTCCGGCTCGGCCGTGGTGGACATCCATAACACCAGCGGTTTCGGGGTGGGGGGAGTTTCGCCGCTCGTGGCCATCTACACCAGCGCGTACGCGCCGGGCTCGCCCCTCGCCGGCCGGCAGGCGCAGTCCCTCGCGTACAGCACCGACGACGGCGCCACCTGGACCAAGTACGCCGGAAACCCGGTCCTGGACCGGGCGTCCGCGGAGTTCCGTGACCCCAAGGTCTTTTGGTACGACGGCGGCGCCGGAAGCTACTGGGTGATGGCGGCGGTTGAGGCACGCGACCACGAGGTGGTCCTGTACAAGTCCGACGACCTCAAGACGTGGGAGTACCTGAGCACCTTCGGCCCGGCCAATGCCACCGGCGGCGTCTGGGAATGCCCGGACCTGTTCGAGCTGCCGGTGGACGGCGATCCGTCAAGCACCCGGTGGGTCCTCGTCGTGAACCTCAGCCCCGGCGGCATCGCCGGCGGCTCGGCCGGCCAATATTTTGTGGGAACGTTCGACGGCGTGGCGTTCAGGTCCGAGAGCACCGTTACCGAGGGGTTGCAGACGGACGGGGACCGGATGGCCGAGTACGGCTGGCTGGACTGGGGCCGGGACTACTATGCTGCCGTGTCCTTCAGCAATGCCCCAGACGGACGCCGCCTGATGATCGGCTGGATGAGCAACTGGCAATACGCCGCTGCCACACCTTCAGACGGATGGCGCAGCGCCATGTCCCTGGTCCGTGAGGTCAGGCTGGAATCCCGGGGCGGGCGTCCCGTGCTGATCCAGGACGCCGTGGATCCTTTCGCAACCTCCGGAGCGGAGCTGTACACGCTGGGCTCTTTGGAACTGCAGGAGGGTGTCACCTGGCTGCCGTCCGAAGCGTCGGGCGACGTGCTCCGGATCGATGCCGAGTTTGAGCCCGCAGGGACGGGGAAAACGGGCCTGGTGCTCCATGCCTCCGGCCGCCCCACAGGGGAACTGGGCGCCCCAGAGGAACAGGGGAGCGAGCAGACCGTGCTGGCCTACGATTGCGGGACCGGGGAGCTCACCCTGGACCGGACCTCGTCCGGCAACGTCAGCTTCCACGACACGTTTCCGTCCGTGGAGCGGGTGGCCGTTCCGCTGATCGACGGCCGGCTGCGGCTGCGGATCTTCCTGGACCGGTGCTCCGTGGAGGTCTTCGCGCAGGACGGGCTGGCCACCATCACGGACCAGGTGTTCCCCTCAGACTCCAGCACCGCCGTCGGCCTCCTGGCAGACGGCGACGGCGGCACCCTGGTAAGCCTCACCGTCACTGGCTGA	MNPTAELGCRYRPRWHYAAERNWLNDPNGLVYSNGVYHLFYQHNPSGDVWGNMSWGHATSADLLTWDEQPVAIPCDGQEAIFSGSAVVDIHNTSGFGVGGVSPLVAIYTSAYAPGSPLAGRQAQSLAYSTDDGATWTKYAGNPVLDRASAEFRDPKVFWYDGGAGSYWVMAAVEARDHEVVLYKSDDLKTWEYLSTFGPANATGGVWECPDLFELPVDGDPSSTRWVLVVNLSPGGIAGGSAGQYFVGTFDGVAFRSESTVTEGLQTDGDRMAEYGWLDWGRDYYAAVSFSNAPDGRRLMIGWMSNWQYAAATPSDGWRSAMSLVREVRLESRGGRPVLIQDAVDPFATSGAELYTLGSLELQEGVTWLPSEASGDVLRIDAEFEPAGTGKTGLVLHASGRPTGELGAPEEQGSEQTVLAYDCGTGELTLDRTSSGNVSFHDTFPSVERVAVPLIDGRLRLRIFLDRCSVEVFAQDGLATITDQVFPSDSSTAVGLLADGDGGTLVSLTVTG	PGPT0018745_463	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOSIDASE,PGPT0018745-fruA-K03332	NA	NA
D1-17_00451	546			hypothetical protein	ATGGTGGACAGCAATCAGGCCCTGCTGCTTCGGAAGTCCGGCCACGATGTGCGTTGGTGGGCGGAGGAGGGGCGCAGAGCCGGTGTGAGGAACGACGGCGAGCTCCGCGACTGGATGCGCGACGAGCACGGCATCACCGGGTATGCCCAATATGCCGTGTCCTGGGAGATGTTCGGTTATCCGGAGTTCATGCTGCGGGACGCGGACGAACTTATTGACGGCCAGTACGCGTCCCACCCGCACCTGCGGCCCATAGCCGATGCCCTTCTGGCATGGGCCGCAGGCACCGAGGGAGTGGAAATCCAGATGCGAAAGGGATACGTCTCGCTCCACAGTCCCCGGCGCAAGTTCGCACAAGTGACCCGCGCCAACAACACGGCAGTAGACGTCACGCTGCGGATCGAGAAGCCCATTGGGGGGCGTCTCGCAGCCGCCACCGTCCGCGGCGGTGATTTCTTCGATCGCAAGGTCCGGCTCACCGCCGTGGAACAGGTGGACCAGGAGCTGCTCGATCTGCTGGAAACAGCGCTGGATCAGAACAGCTGA	MVDSNQALLLRKSGHDVRWWAEEGRRAGVRNDGELRDWMRDEHGITGYAQYAVSWEMFGYPEFMLRDADELIDGQYASHPHLRPIADALLAWAAGTEGVEIQMRKGYVSLHSPRRKFAQVTRANNTAVDVTLRIEKPIGGRLAAATVRGGDFFDRKVRLTAVEQVDQELLDLLETALDQNS				NA	NA	NA	NA	NA
D1-17_00452	537			hypothetical protein	ATGAACAAGCACTTGAGCGTTGGCATCGCAGTTTTGGCCCTTGCCGCGTCGCTGACAGCGTGCGGGGGCGGTACGGGCACCACGCCTGCCCCAGCGACCACCGCGGCGGAAACCGCCGCCGAAACCACTGCCCCCGCGTCGCCCACGGCCACGGGCACGGAAACCGCGACCGGCGGCGAAACCGCCACCGTGGACCTGAAGACCGCAACGTCGGACAAGGGCGAAATTGTGGTGGACGGCAAAGGCATGAGTGTCTACTACTTCACAAAGGACGTGAAGGACTCGGGCAAGAGCAACTGCACCGGTGACTGCCTGGTTGCCTGGCCGCCGGTCTTCACCACCAATGACACCCCCACCGTTGAGGGCGTCACCGGAAAGGTCGGGACCATCGACACTCCTGACGGCAAGAAGCAGGTAACCATCGAAGGTATGCCCGTGTACCTGTGGGAGAAGGACAAGGCCCCCGGTGACACCACGGGCCAGGGCGTAGGGAACGTCTGGTACCTCGTTGCCCCGGATGGCACGATGATCAAGTGA	MNKHLSVGIAVLALAASLTACGGGTGTTPAPATTAAETAAETTAPASPTATGTETATGGETATVDLKTATSDKGEIVVDGKGMSVYYFTKDVKDSGKSNCTGDCLVAWPPVFTTNDTPTVEGVTGKVGTIDTPDGKKQVTIEGMPVYLWEKDKAPGDTTGQGVGNVWYLVAPDGTMIK				NA	NA	NA	NA	NA
D1-17_00453	501	sigL	COG1595	ECF RNA polymerase sigma factor SigL	GTGCCGCTGGACGAGGATGTGGTTGCAACCATCTACCGCGATCACGGGCCGGCCCTGCGCCGGTTCGTGATCAGTGCCTCCCATGATCCGCTGCTCGCCGACGACATTGTCCAGGAAACGGTGTTGCGCGTCTGGCAGCAGGCGCCGACGATCACCGGGAGCCTGCGGAGCTACCTGTTCCGGACGGCCCGGAACATCATGATCGACAACTACCGGAAGTCCCAGCGCAGGCCGCAGGAAACCGAGGAACGCGATCTTGCCGACCCCGCCGAGGCCATGGGAAGAGTCGACGACCTCCTTACCAGGGTGTTGATGGAGGAGGCGCTGCTCCGGCTGAGCCACGAGCACCGGGACGTTCTCGTGGCATTGCACTACCGGCGCTTCACAGTGAATGAGGCCGCGGTCCAGCTCAATATTCCGAGCGGCACAGTTAAATCCAGGGCCTTCTACGCGGTGAAGGCGCTGCGGACAGTTCTTGACGAAATGGGTGTGGAACGGTGA	MPLDEDVVATIYRDHGPALRRFVISASHDPLLADDIVQETVLRVWQQAPTITGSLRSYLFRTARNIMIDNYRKSQRRPQETEERDLADPAEAMGRVDDLLTRVLMEEALLRLSHEHRDVLVALHYRRFTVNEAAVQLNIPSGTVKSRAFYAVKALRTVLDEMGVER	PGPT0014960_11755	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-17_00454	675			hypothetical protein	GTGAACGGCAAGGAACTCCATGAGTTGCTGGGAGCGTACGTGCTGGGGGGCCTCGACGACGCGGACAAGGCGCGTTTCGAGGACCATCTGCAGCAGTGCGGAATGTGCCGCGACGAACTGGCCGATCTGGAATCACTTCCGGGGCTTCTGGCTGCCGTTCCGGTTCCGGACGCCGTAGCGCTTGCCGTTCCGGCGGCCCGGATGCCCGCCGCCGCTGATATTCCGCCCGCTGTTCCACAACCGGTGCTGGACGAGCTCGCGGCCAGGCGCCGGACTTCCCGACGGCGGCTCACCGCCTTCGTCGGAGTGGTCGCCGCGGCTTGTCTCGCCTTGGGATTCGCGGCCGCGCCGCTGCTGGCGCCGGCCAACAAACCCGACGCAAGCTACTCGGTTGAAGCGGATACCGGCATCGAGGTCACAGTCGGCCTGGTCAAGAAAACCTGGGGTACGGAACTGGCGGTGGACGGCAGGAGCCTGCCGAACAAGGGCAAGCTCTCGCTGTGGGTCAAGGACCGGGAAGGGACAGAAGACCGTGCCTGTGCCTGGATGGCAACCCCCAGCGGCCGGGCAAGGGTCACCAGCGCAACCCCCCTGCCGTTCGCGAGCATCGCCAGCGTCGAGCTGCGGAACGAACAGCAGCAGACGATTGCGGTGATCGCCGTGCCAGGCGGCTGA	MNGKELHELLGAYVLGGLDDADKARFEDHLQQCGMCRDELADLESLPGLLAAVPVPDAVALAVPAARMPAAADIPPAVPQPVLDELAARRRTSRRRLTAFVGVVAAACLALGFAAAPLLAPANKPDASYSVEADTGIEVTVGLVKKTWGTELAVDGRSLPNKGKLSLWVKDREGTEDRACAWMATPSGRARVTSATPLPFASIASVELRNEQQQTIAVIAVPGG				NA	NA	NA	NA	NA
D1-17_00455	759			hypothetical protein	GTGCTGGCCAGGGCAGGATTCGCCGTGAGCGGCCTGCTGCATTTCCTGGTTGGAACCATCGCCATCGGCCTGGCCCTGGGCAAGGGTGGCAGGGCCGATGTCAGCGGCGCTGTGGCCGAACTGGCCAGCCAGCCCGCGGGACCTCTGCTGCTGTGGTCCAGCTTCGGGGCGTGCGTGGCGCTGGCCCTGTGGCAAGCGAGTGATGCCGTCTTCGACTACCGGCACCTGCCGGCCAAGGACAAGACGGCCAAGAAGACCAAGGCTGCGGCCCAGGCAGTGGCATATTCTGCAATGGCCGTTACACTCGCCGCGTTCGCTCAGGGCAGTGACAAGGACAGCCGGGAATCGGCGAGTGACATGACGGTGGGCCTCCTGCAGGCACCCGGCGGCCTCCTGCTGCTGGTCGTGATCGGAGCGGCGATAGCTGTCACCGGGGTCGTGTACGTGGTCCGCGGGCTCCAAAAGGCGTTCAAGAAACACCTCCGAATGCCCGCATCCCCCGCCGCGCGCAAAGGCGTTGAGGGCTTGGGCATCGCTGGCTATGTTGCCAAGGGGGTTGCCCTGTTCGTGACGGGCCTGCTCGTCATCATCGCCGCAGTCACGCTTCGCCCGGAACAGTCGACCGGACTCGATGGCGGACTCAGGGCACTGCGCGAACAGCCGTTTGGCGTCTACGTGCTCGGGGCTGTGGGCGTAGGGCTCATCTGTTACGGCGCGTTTATGGTGGTCCGGGCCCGGCTTGCCCGCATGGAATCGTAG	MLARAGFAVSGLLHFLVGTIAIGLALGKGGRADVSGAVAELASQPAGPLLLWSSFGACVALALWQASDAVFDYRHLPAKDKTAKKTKAAAQAVAYSAMAVTLAAFAQGSDKDSRESASDMTVGLLQAPGGLLLLVVIGAAIAVTGVVYVVRGLQKAFKKHLRMPASPAARKGVEGLGIAGYVAKGVALFVTGLLVIIAAVTLRPEQSTGLDGGLRALREQPFGVYVLGAVGVGLICYGAFMVVRARLARMES				NA	NA	NA	NA	NA
D1-17_00456	966	trmB	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGCCTCTTAAAACCGCCGGTATTCTGGAAGGGATGAGTGAATCTCCCGAATCCCCGCAGCCCCCGGCAAATCCGAACCAGCCCCGTCCCGTCACGCCGGGCAGCCAGGCCTCGTACGGGACCTATGGCGGCAGGCCGGTCAGCTTCGTCCGCCGTGGTACCCGCCTCCAGGGCCGCCGCCAGGCTGCCTGGGAAGAGCACTCAGAGCGGTGGGCCCTGAATGTGCCGCGCCACGTCGCCAACACCTCTGTGCATCCGGACTACACCTTCGATGCCGTGGCTGAGTTCGGGCGCAAGGCTCCGCTGATCGTCGAGGTCGGATCCGGACTCGGCGACGCCGTCTGCCACGCCGCCGAGGAAAACCCCGACACGGACTTTCTCGCGGTGGAGGTATACACCCCCGGCTTGGCCAACACCATGATCAAGATCAACAGCAGGGGCCTGACCAACGTCCGCGTCGTGGAGGCTAACGCGCCCGAGGTGCTCGCCACCATGCTCCCGCCGGGGTCGGTCAGTGAACTGTGGATCTTCTTCCCAGACCCGTGGCACAAGTCCAGGCACCACAAGCGCCGTCTCATTCAGCCTGAGTTCGCAACTCTTGCTGCCCGGGCGCTGAAGCCGGGCGGGCTCTGGCGTATCGCAACCGACTGGTCCAACTACGCTGTGCACGTGCGGGACGTGCTCGCAGGCTCAGCTGATTTCGTCAATATGCACGACGGCGAGCGCAGGGGGCCGGAGAGTCCGCTCACCCACGTCTGGCAGACCGGCGTGGAGTCGGTCGTCGGTGGGGCGCCTGTCCGGGAAGGCCGTGCCCCAGTCAGCACCGAGCACACCGGGCCAAACGAAGGCGTCGATGAGACCGGCGGCTGGGCACCGCGGTTCGAAGGGCGGATCCGCACCAGCTTCGAAAACAAGGCCCACGAGGCCGGGCGCATGATCTTCGACCTCTGCTACCGCCGGGTCTGA	MPLKTAGILEGMSESPESPQPPANPNQPRPVTPGSQASYGTYGGRPVSFVRRGTRLQGRRQAAWEEHSERWALNVPRHVANTSVHPDYTFDAVAEFGRKAPLIVEVGSGLGDAVCHAAEENPDTDFLAVEVYTPGLANTMIKINSRGLTNVRVVEANAPEVLATMLPPGSVSELWIFFPDPWHKSRHHKRRLIQPEFATLAARALKPGGLWRIATDWSNYAVHVRDVLAGSADFVNMHDGERRGPESPLTHVWQTGVESVVGGAPVREGRAPVSTEHTGPNEGVDETGGWAPRFEGRIRTSFENKAHEAGRMIFDLCYRRV				NA	NA	NA	NA	NA
D1-17_00457	201			hypothetical protein	ATGGCAAACCCGGTCTTCCTCAGCCTGCCACTGCTGTTCAAACTGCTCTCCGTAATTTTCGGCCTCGCTGCATTACGACGGGCGCCACGCGGTACCAACGGGTGGCGCCCGGGTGTTGCCGGGCTCATAGTGGTGGGAGTAGAGGCCGTCGTCATAGCTCTACCAGCCGTGCTGCGCGGCGGTTTCGATGTTTTCTATTGA	MANPVFLSLPLLFKLLSVIFGLAALRRAPRGTNGWRPGVAGLIVVGVEAVVIALPAVLRGGFDVFY				NA	NA	NA	NA	NA
D1-17_00458	1341	yycB_1	COG2807	putative transporter YycB	GTGGGCAGGCTTGTGCTTTCCGACTGTAAGAATGGGCGGGTGACCGATGCGAAGAATTCAGCAGCACCCAACCAGCTCCGGCGGGTAGGCCGCGGCGCCGGCGCGAGCACCCTCGTGGACGCCGAGATCGACGAGATCCCCGCCGCCGAACCCACGCAGGTCGGCAGCCCGCGGGCACTGGCCTACCTCGGCCTGTGCCTGGTACTGATCGGCCTCAACCTGCGCACGGTGTTCTCCAGTTTTTCGGCCTTGCTTCCCGAAATAACGTCCAGCACCGGCCTCCCCGGCTGGTCAGTAGTGGTCCTGACCACTGTCCCGGTAACGCTGCTCGGCGTGTTCGCGCCACTGGCTCCGGTCCTGGCGAGACGGTTCGGGGCCGAACGCGTGCTGCTCGGGGCGATGGTGCTCTTGACGGCGGGGCTCCTCCTGCGGCCGGTGGACGTCCCCGCAGCGGGACACCTACCGGCCCTGCTGGCCGGGACAGCCGCATGCGGTGCGGCCATTGCGTTGTGCAACGTGCTGCTGCCTGGGCTGGTGAAGCGGGACTTCCCCCACCGGCTCGGCCTCATGGGCGGCCTTTACACGACTGCTATCTGCGCGTCGGCTGCCCTCGGCGCGGGCTTTACCTACCCGGTTTTCCAAACGAGGGGGGAGTGGACTTCCGCACTGTGGTTCTGGGCGGTGCCGGCCGCCGTCGTCCTTCTTCTTTTCCTGCCCGTTGCCGTCAGGCAGCGGCACGTCAGGCACAACTCCGTGCATGACGGCGTGAACGTCTGGCGCTCGGCCATAGCGTGGCAGGTCACGCTCTTCATGGTGCTGCAGGCCATGATGTCCTTCAGCGTCTTCGCGTGGCTCGCGCCGATCCTTCGTGAACGCGGCATCGACGGCGGAACGGCGGGGCTGATGGTGTCCGTCTCAATCGTGCTGCAGATGCTGGGCTCCCTGTTCGCCCCGGCGTTGGCGGCCAAATTCCGGGACCAGCGGGCCATCAATACAGTGGTGGCGCTGATGACGGGCGGCGGCTTCGCGCTCAGCATCTTCGGCCCCCAGGAGCTGATCTGGGTGTGGACCGGCATCCTGGGGCTGGGCCAGGGGAGCCTGACGGCAGTGGCCCTGACAATGATCATGCTGCGGACCCGGGACGGTCACACGGCAGCCCACCTCTCCGGCATGATGCAGGGGGTGGGTTACGGGGTGGGGTCCACGGGGACCCTGATGGTGGGTCACCTCTACCAGTCCACCGGCTCCTTCGCTTCCGCGGGGGTGCTGTTCCTGGCTGTCGGCCTGCTGGCTGCCGTCTTCGGTTTCCGTGCAGGGCGCAGCCGCTTCATCGGCGGCTGA	MGRLVLSDCKNGRVTDAKNSAAPNQLRRVGRGAGASTLVDAEIDEIPAAEPTQVGSPRALAYLGLCLVLIGLNLRTVFSSFSALLPEITSSTGLPGWSVVVLTTVPVTLLGVFAPLAPVLARRFGAERVLLGAMVLLTAGLLLRPVDVPAAGHLPALLAGTAACGAAIALCNVLLPGLVKRDFPHRLGLMGGLYTTAICASAALGAGFTYPVFQTRGEWTSALWFWAVPAAVVLLLFLPVAVRQRHVRHNSVHDGVNVWRSAIAWQVTLFMVLQAMMSFSVFAWLAPILRERGIDGGTAGLMVSVSIVLQMLGSLFAPALAAKFRDQRAINTVVALMTGGGFALSIFGPQELIWVWTGILGLGQGSLTAVALTMIMLRTRDGHTAAHLSGMMQGVGYGVGSTGTLMVGHLYQSTGSFASAGVLFLAVGLLAAVFGFRAGRSRFIGG	PGPT0005211_104	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-17_00459	1122			IS110 family transposase ISSfr2	ATGTTCGAGCGTACAAGCGTCGGCTTGGATGTCCATGCCCGCACCGTTGTCGCATGCGCATTGGACGCGCAGACCGGTGAGATCATCCTCCACCGGATGACTCCGGATCATGGCGAGATTCTTGCCTGGATCCTCTCCCTGCCATCGCCGGTGCGAGTCGTTTACGAGGCGGGACCAACGGGTTTCGGCCTTGCCAGGTTCCTGCTCGCCGCCCGGATCGACACGGTCGTCGCAGCGCCGTCCAAGCTCCAGCGCCCGTCTGGGGACCGGGTAAAGACCGATGCGAAGGATGCGCTGCATCTGGCCCGGTTACTAAAGCTGGGTGAGGTCGCCGGTATCCGGGTGCCTTCAGAAGACCAGGAAGCGGCGCGGGATCTGGTCCGCTCACGCGAAGACGTCCGGGGAGACCTCATGCGTTCCCGGCACCGGATCTCCAAACTCCTCTTACGCCAAGGCATCGTGTATTCGGGCGGGCAGGCCTGGACCGGCACCCATGAACTCTGGCTGGCCCGCCAGCGTTTCGACGCTCCGGCCCGGCAGCTGACCTACGAGTCCTCTCTAGAGGCGATGCATGAGATCTCGGACCGCCGTGACCGCCTCGACCAAGCGATCACCGCGATGGCATACAGCAGTGAATACACCCCCGTGGTCCGGGCACTGCAGTGCCTGCGCGGCATCTCGACGCTGACCGCTTTCGGCCTGGCCGTGGAGATCGGCGACTGGGAGCGGTTCACCGGCTCCACAATCGGCGCTTACCTGGGCCTGGTCCCGACAGAGCATTCCTCGGGGGCATCCCGGTCCCTGGGCTCCATCACAAAAACCGGCAACAGCCACGCCCGCCGGCTGCTGGTCGAGGCCGCATGGCACCACCGCAGACCCTACAACAACCCGTCCCGGCTGATGCGGTCCCGCTGGGAAGAAGCCACTTCAGAGGCCAGAACCCGGGGTCATGCCGGGAACCGGCGCCTGCACGAACGCTGGATCGGCTACCTCGAACGCCGCAAGCGTCCGGTCATCGCCAATGTCGCCATCGCCCGTGAGCTCTCCGGCTGGTGCTGGTCCCTGGCCACCGGCACACATCCGGCAACCAGCTCCCCAAAATCGATAGCTACCGTGCACTGA	MFERTSVGLDVHARTVVACALDAQTGEIILHRMTPDHGEILAWILSLPSPVRVVYEAGPTGFGLARFLLAARIDTVVAAPSKLQRPSGDRVKTDAKDALHLARLLKLGEVAGIRVPSEDQEAARDLVRSREDVRGDLMRSRHRISKLLLRQGIVYSGGQAWTGTHELWLARQRFDAPARQLTYESSLEAMHEISDRRDRLDQAITAMAYSSEYTPVVRALQCLRGISTLTAFGLAVEIGDWERFTGSTIGAYLGLVPTEHSSGASRSLGSITKTGNSHARRLLVEAAWHHRRPYNNPSRLMRSRWEEATSEARTRGHAGNRRLHERWIGYLERRKRPVIANVAIARELSGWCWSLATGTHPATSSPKSIATVH	PGPT0030635_2053	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-17_00460	1293	kgtP		Alpha-ketoglutarate permease	ATGACCGCAGCTGCAGGCGTCGCAACGGACGTCCACGTTCATAAGTCCCATGTGCGGACCCTCGTCGGGACCGGCATCGGCAACGCCGTTGAATGGTACGACTGGGCCATCTACGCCACGTTCTCGCCCTTCATCGCGAGCGCGCTCTTCAGCAAGGAAGATCCGACGTCGGCCTTCCTCGCTACGCTGGCCATCTTCGCCGTCGGTTTTGTCGCCCGTCCGTTCGGCGGCTTCGTGTTCGGCTGGATCGGTGACCGGGTGGGCCGCAAGACGTCCATGACGTTCGCGGTGGGGCTCGCCGCGCTGGGGAGCCTGCTGATCGGCATTGCCCCCACCTTCGAAGCTGTCGGAGCCTTCGCCTCGGTCCTGCTGCTGGTGGCCCGCCTCATCCAAGGCCTTGCCCACGGTGGTGAGTTGCCGTCCTCGCAGACCTACTTGTCCGAAATGGCCCCCAAGGAAAAGCGCGGGTTCTGGGCAACACTGATCTACACCTCCGGCACGGTCGGCATTCTGGCCGGGACCATGCTCGGCGCCACCCTGTCCAACGTCCTGAGCAAGACCGACATGAACACCTGGGGCTGGCGGGTGCCCTTCGTGATTGGTGGCGTCATGGGACTCTACGCCCTGATCATGCGGGCCCGCATGAAGGAGACGGCGGCGTTTGAGGCAGAATCCCCCAAGGAAAAGCACGAGCCGATGTGGCCGCAAATTTACCGGCACCGCAAGCAGGCCCTGCAGGTCATCGGCCTGACCGTCGGCCTGACCGTGTCCTACTACATCTGGGGCGTCGTGACGCCCAGCTACGCCGCATCAGTATTGAAAATGGACCGCGGAGAAGCCCTCTGGGCCAGCGTGATTGCCAATGTCCTGTTCATCGCCGCCCTGCCGTTCTGGGGCAAGCTGTCCGACCGTATCGGCCGCAAGCCGGTCATGATCATGAGCGCTGCCGGCGCCGCGCTGTTCCACTTCCCCATGACCTGGCTGCTGAAGGATTCCCCCTGGCAGCTCGCGGTCACCATGTCCGTCATGCTGTTCTTCATCGCGGGCAGCGCAGCGATCGTCCCGGCCGTTTACGCTGAGCTGTTCCCCACCAAGATCCGTACGGTGGGTGTCGGGATCCCGTACTCCATCTGCGTCGCAGCCTTCGGAGGCACGGCACCGTACCTTCAGTCATGGTTGGGCTCCATTGGACAGGCCAACCTGTTCAACGTCTACGCGGTGGTCCTGCTGGTCATCAGCATCGCGTTCGTCTTTACCATCCCCGAAACCAAGGGCAAGGACCTGACGCACTAG	MTAAAGVATDVHVHKSHVRTLVGTGIGNAVEWYDWAIYATFSPFIASALFSKEDPTSAFLATLAIFAVGFVARPFGGFVFGWIGDRVGRKTSMTFAVGLAALGSLLIGIAPTFEAVGAFASVLLLVARLIQGLAHGGELPSSQTYLSEMAPKEKRGFWATLIYTSGTVGILAGTMLGATLSNVLSKTDMNTWGWRVPFVIGGVMGLYALIMRARMKETAAFEAESPKEKHEPMWPQIYRHRKQALQVIGLTVGLTVSYYIWGVVTPSYAASVLKMDRGEALWASVIANVLFIAALPFWGKLSDRIGRKPVMIMSAAGAALFHFPMTWLLKDSPWQLAVTMSVMLFFIAGSAAIVPAVYAELFPTKIRTVGVGIPYSICVAAFGGTAPYLQSWLGSIGQANLFNVYAVVLLVISIAFVFTIPETKGKDLTH	PGPT0001525_1167	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETO-|OXOGLUTARATE_TRANSPORT,PGPT0001525-kgtP-K03761	NA	NA
D1-17_00461	1287	hipO_1	COG1473	Hippurate hydrolase	GTGCCCATCGCCGCAGACGCCAAGGAAATGCAGGGCGACCTCGCCCGGTTCCGCCACGACCTGCATCGGGAACCGGAAATCGGCCTGCAGCTGCCGCGGACGCAGGAAAAAGTCCTCAAGGCGCTGGACGGGCTCCCCTACGAAATCACCCTGGGCAAGGACACGACGTCAGTCACAGCAATTCTCCGCGGCGGCGCGGCAGGGAGGGCTGCCGGGTCGGCTGCAGGCAGCACCGTTGCCGGATCGGCTGCAGGCAGCACCGCTGCCATATCAGGCCGCCCTGCTGTCCTCCTCCGGGCAGACATGGACGGGCTGCCCGTGCAGGAGAAGACCGGAGTCGATTACACCTCCCGGATCGACGGCGCCATGCATGCCTGCGGCCACGACCTGCACACCGCGATGCTGGCCGGCGCCGCCACCCTGCTCGCCGAACGGCAGCACCAGCTCCCCGGCGACGTCGTGCTGATGTTCCAGCCGGGCGAGGAAGGCTTCGACGGCGCAAGCTACATGATCCGGGAAGGCGTCCTTGATGCTCCGGGCCGCCGGGTTGATGCCGCCTACGGCATGCACGTGTTCTCCTCCCTCGAGCCCCATGGGATGTTTTGCACCAAGCCCGGCGTCATGCTGAGCGCCTCGGACGGGCTCGTCGTCACAGTGCTCGGGGCCGGCGGCCACGGTTCTGCACCGCACTCAGCCAAGGATCCGGTGACTGCCGCCGCGGAAATGGTGACGGCACTGCAGGTCATGGTCACCCGGCAGTTCAACATGTTCGACCCCGTGGTCCTCTCCGTGGGCGTCCTTCATGCCGGCACCAAGCGCAACGTCATTCCGGAAACGGCCCGGATCGAGGCCACCATCCGGACCTTCTCGGAAGAATCCCGGCAGAAGATGATGGACTCCGTGCCCCGGCTGCTCAAGGGCATCGCAGCTGCCCACGGCCTCGAGGTCGATGTCGACTACCAGCAGGAATACCCCCTCACAGTCACGGACGAGGACGAAACGCACACCGCCGAGAAGGTCATCTCCGGGTTGTTCGGCGACTCCCGGCTCTCACGCTGGGCCACCCCGCTCAGCGGTTCCGAGGACTTCTCCCGGGTACTCGCCGAAGTGCCGGGCACCTTCGTTGGGCTGAGCGCCGTGCCTCCGGGCAAGGACCCGGCGCTCTCCCCGTTCAACCACTCCCCCTATGCAACGTTTGACGACGGCGTGCTGGCGGACGGCGCCGCACTGTACACGGAACTCGCCGTTTCACGGCTCGCTGCGCTCGACGCGGCCTCCGCCAACTGA	MPIAADAKEMQGDLARFRHDLHREPEIGLQLPRTQEKVLKALDGLPYEITLGKDTTSVTAILRGGAAGRAAGSAAGSTVAGSAAGSTAAISGRPAVLLRADMDGLPVQEKTGVDYTSRIDGAMHACGHDLHTAMLAGAATLLAERQHQLPGDVVLMFQPGEEGFDGASYMIREGVLDAPGRRVDAAYGMHVFSSLEPHGMFCTKPGVMLSASDGLVVTVLGAGGHGSAPHSAKDPVTAAAEMVTALQVMVTRQFNMFDPVVLSVGVLHAGTKRNVIPETARIEATIRTFSEESRQKMMDSVPRLLKGIAAAHGLEVDVDYQQEYPLTVTDEDETHTAEKVISGLFGDSRLSRWATPLSGSEDFSRVLAEVPGTFVGLSAVPPGKDPALSPFNHSPYATFDDGVLADGAALYTELAVSRLAALDAASAN				NA	NA	NA	NA	NA
D1-17_00462	1035			hypothetical protein	ATGGAACTCAGCGAGGAGGACCTTGCCCTCATCAATGCACTTCAGATCGCCCCGCGGCTCAGCTGGTCCGATGCCGCAGACGTCCTTGGCGTCCACGCCACCACCCTGGCAGGCCGCTGGGAGAAGCTGCGGGCGGCCGGGGCTTCCTGGACCACTGCGCACCTGATCGGTGACCCCAAGCAGATGTGCCTCGCCTTCGTGGCCGTGGACTGTGAAATGAACCGGCGCGAGCAGGTCACCGCCAGCCTGGCCGCGGTACCGGAGATCGTGACCGTGGAGGAAGCCGCCAGCAACCGGGACCTCATGCTCACTGTCATCACCCGGTCGTTAGAGGACTTCAGCACTAAGGTCGTGTCCCGGCTGAAAGAAACCGAGGGCCTGGTGAAGTACCAGACGGCGCTGTGCACCCGGCTGCACATGGGCGCCGACGCCTGGCGGCTCAACGTGCTGAGCCGGGCCCAGCAGGCGGCCCTGCAGGGCGCGGCGCGGCCGGCGTCGCTGGAGCCGGACCGCGGTGGCGCCGCCCAGGAAACGCTGCCGGCCAGCCATCTGGACCTGCTGCCGTATCTGGCAAGAGACGGCCGCGCAACGGCTGCCGATATTGCCCGGGGCCTGGGCCGCAACCCGGCCACAGTCCAGCGCCAGCTGAACCGGGTGCTGGCCAGCGGCATCCTGTCCCTGCGGTGCGAGGTGGCGCAGCGGTATTCGTCGTTCCCGGTCACCTGCCAGTGGTTCGTCAACGTCCCCGCCGGGCAGCACGAAGCCGCCGCGGCCAGCCTGCGGTCCATCCGGAACGTGCGGCTCAGCGCATCGACCACGGGTCCAACCAACTTTGTGATCATCATGTGGCTGCAGTCCCTGGCCTCCGTTATGGATGCCGAACTTGCCCTGCAGCAGAAGGTCCCAGGCATCGAGCTGGTGGAAAGCGTCGTCATGCTGTCTACAGTGAAGCGGGTGGGCTGGATGCTGAACAAGGACTCCACGGCGAGCGGCGCCGTCGTCGTTGATGCCCGGGGGCTGAAGCTCCCGGGGTAG	MELSEEDLALINALQIAPRLSWSDAADVLGVHATTLAGRWEKLRAAGASWTTAHLIGDPKQMCLAFVAVDCEMNRREQVTASLAAVPEIVTVEEAASNRDLMLTVITRSLEDFSTKVVSRLKETEGLVKYQTALCTRLHMGADAWRLNVLSRAQQAALQGAARPASLEPDRGGAAQETLPASHLDLLPYLARDGRATAADIARGLGRNPATVQRQLNRVLASGILSLRCEVAQRYSSFPVTCQWFVNVPAGQHEAAAASLRSIRNVRLSASTTGPTNFVIIMWLQSLASVMDAELALQQKVPGIELVESVVMLSTVKRVGWMLNKDSTASGAVVVDARGLKLPG				NA	NA	NA	NA	NA
D1-17_00463	1362	sdrM		Multidrug efflux pump SdrM	GTGCACGAATCCGCTCCGCCGCTCTCCGCCGCCCCCGCCGCAGGGATCCTTCAGCGCCCCTACCTCCTGGTGACCGTGGGGTCCTGCGCACTCGTGTTCCTGGCTGCCTTCGAGTCGCTGGCGGTCACCACTGTCATGCCGCTGGTGAGCAGGGAACTCGACGGGGCCAGCCTGTACGCCCTCGCGTTCGCCGGACCGCTGGCCACGGGGGTCATCGGCATGGTCGGCGCCGGCAACTGGTCGGACCGCCGAGGCCCCCTCGCGCCGCTCTACGTGTCCGTGGTCGTGTTCGTGCTCGGCCTGCTGATTGCCGGAACCTCCAGCGCCATGGAGGTGCTGGTAGCCGGCCGGCTTGTGCAGGGCCTTGGCGGCGGGGCGATGACCGTCGCCCTCTATGTTGTGGTGGCCCGCGCGTATCCCGCCGGACTGCATCCCAAGATCTTCGCGGCGTTTTCCGCAGCATGGGTCATCCCCTCCCTGGTGGGGCCGTTTGCCGCCGGCCTCGTGGCCCAGGCGGTCGGTTGGCAGTGGGTGTTCCTGGGCGTGGTGGGCCTCGTCCTTCCCGCCCTGGCCATGCTGGTTCCCTCGCTGCGGGGCGTCCGCTCCGGCGCCGCGGACCTGCCGGCGCCGTGGGCTTTCAGGCGGCTGGCCTGGGCTGCGCTCGCGGCCCTCGCCGTCCTGGCCCTGAACCTGTCCGCCCGGATCCCGGCCGTGGGCACCCTCCTCGCGGGCGCCGCCGTCGTGGTCGCGCTGCTGGCCGTCAGGCCGCTCGTGCCGCCCGGCACCCTGCTTGCACGCCGCGGCCTGCCAACTGTGATCCTGACCCGTGGACTGGCATCGGCCGGGTTTTTCGGCGCCGAGGTCTACCTGCCCTACCTGCTTATAGAGCGCTATGCCTTCTCGCCGACATTCGCGGGCCTGACCCTGACCGCAGGAGCCCTTTCGTGGGCTGCCGCGTCCGCCGCCCAAGGGCGGCTTGGCACGCGGCTCACCAGTCCGGCTGCCGTGCGGATGGGATCCTTGCTCGTGCTCTCCGCGATTCTGCTCGCGCTGATGACCACCGCGTTCGGCTGGCCCGCCGCCGTCGCGATTGCCGGCTGGGTCCTCGCGGGCGGGGGCATGGGCCTAATGTATCCGCGGCTGAGCGTCATGATGCTCGCGCTCTCCACGCCGGACACCGAGGGGTTCAACAGTTCGGCCGTGTCCATTGCGGACTCACTCGGCGGAGCCCTCGCGCTTGCCGCCACTGGCATCGTGTTTACCGCTTTTACGACGACGGCGGCCTCATTCGCCGGCGTCTTCGCCCTGACGGCGGTGATCGCCGCAGCCGCGGGCGCCACAGCACCCCGCGTCGGGACTTAG	MHESAPPLSAAPAAGILQRPYLLVTVGSCALVFLAAFESLAVTTVMPLVSRELDGASLYALAFAGPLATGVIGMVGAGNWSDRRGPLAPLYVSVVVFVLGLLIAGTSSAMEVLVAGRLVQGLGGGAMTVALYVVVARAYPAGLHPKIFAAFSAAWVIPSLVGPFAAGLVAQAVGWQWVFLGVVGLVLPALAMLVPSLRGVRSGAADLPAPWAFRRLAWAALAALAVLALNLSARIPAVGTLLAGAAVVVALLAVRPLVPPGTLLARRGLPTVILTRGLASAGFFGAEVYLPYLLIERYAFSPTFAGLTLTAGALSWAAASAAQGRLGTRLTSPAAVRMGSLLVLSAILLALMTTAFGWPAAVAIAGWVLAGGGMGLMYPRLSVMMLALSTPDTEGFNSSAVSIADSLGGALALAATGIVFTAFTTTAASFAGVFALTAVIAAAAGATAPRVGT				NA	NA	NA	NA	NA
D1-17_00464	708	cmoM		tRNA 5-carboxymethoxyuridine methyltransferase	ATGTACCGCAGCCGCCCGCGCGTTTGGAGCGGCAGGCCCAACCCGCAACTTGTTGCCGAAGCCGCTGGCCTTGCGCCGGGAACGGCACTGGACCTGGGCTGCGGCGAGGGTGCCGACGCGCTCTGGCTGGCAGAGCACGGCTGGACGGTGACCGCCGTCGACGTCTCCGCCGTCGCGCTTGAACGCGCGGCCGGGCACGCCGCGGAATCAGAGGCCGGCCATCGCGTCACGTGGCTGCAGCGCGACCTGGAAACGTGGCAGCCCGACACGGGCTATGATCTGGTCTCCGCGCAGTTTCTCCACTCCACGGAAATGCCCTGGCAGCTGTCGCATCGGATTGCGGCGGATGCCGTGGGCCCGGGCGGGATACTCCTCGTGGTGGGGCACCATCCGGACGGGCTCCCGCCCTGGTCGGGTCACAGCCAGGCGGGCCACACCCGGCCCAGCGGCCAGTCGGGCCACGGCCAGTCCAGCGGCCCGGCGAATCACAACGCGGATCACAACACCGGTCACGGCGGCGCCGCGAAGTACTACACGCCCAGGCAGCTCGTGGATGAACTGGGCCTCACACCGCCGGAGTGGACGGTGGAAGTGGCGGAAAGCCGGGAGCGGGAAGCCACTGGCCCGGACGGGCAGGTGGCCATTCTGGTGGACGCCGTCGTCCGCGCCGTCCGCCGCGGCTCCCCCGATCAGGACACCCCGCTGTAG	MYRSRPRVWSGRPNPQLVAEAAGLAPGTALDLGCGEGADALWLAEHGWTVTAVDVSAVALERAAGHAAESEAGHRVTWLQRDLETWQPDTGYDLVSAQFLHSTEMPWQLSHRIAADAVGPGGILLVVGHHPDGLPPWSGHSQAGHTRPSGQSGHGQSSGPANHNADHNTGHGGAAKYYTPRQLVDELGLTPPEWTVEVAESREREATGPDGQVAILVDAVVRAVRRGSPDQDTPL				NA	NA	NA	NA	NA
D1-17_00465	402			hypothetical protein	ATGGATTACGCCGCCGATCCGCGCGTTGATGCCTACATTGATGCCCTCCCCGAGTGGCAGCAGGCCGTGTGCCGGCAGGTCCGCGAACTTGTCCACGCCGCCGACCCCGAGGTGACCGAGACAATCAAGCGGACCCGTCAGCCGTATTTCGAACTCCACGGCAACGTCTGTGCGGTGCTGGCTGCCAAGGACCACGTCAACGTCTTCCTGTACGACGGCGGGCTGACCCCCGATCCTCAACACCTCATCACCGGCGGGCACGGGAACAAGACCGGCCGGACCGTTGCCTTTTATGAGGGTCAGGAGATCAACGGACCGGCGCTGACCGACATGTTCAGATCGATCATCGCCACCAACCGCGCCGGAGGCTGGCGCAGGATCCAGAAAGGCGCAGACCATTGA	MDYAADPRVDAYIDALPEWQQAVCRQVRELVHAADPEVTETIKRTRQPYFELHGNVCAVLAAKDHVNVFLYDGGLTPDPQHLITGGHGNKTGRTVAFYEGQEINGPALTDMFRSIIATNRAGGWRRIQKGADH				NA	NA	NA	NA	NA
D1-17_00466	1083	nasD_1	COG1251	Nitrite reductase [NAD(P)H]	ATGACAACCGTGGTGAACCGGGCTTCCCGGACCAAGAGCGTCGATGTGCACCGCCGGCTCGTCGTGATCGGCAACGGCATGGCTGGAGCACGCGCCGTCGAGGAAATCCTGGCCCGCGGCGGCGGAGTTCAGTTCAGGATCACGATGTTCGGCGACGAGCCTTACGGCAACTACAACCGGATCATGCTCAGCGATGTTCTCTCCGGCCAGGAGGACACCGGCAACATCTTCCTCAACTCCATCGCCTGGTACCAGGACAACGGCATCACCCTCCACGCCGGGGTCCGCGTCGAAAGGATTGACCGGTTCGCCAAGCTGGTCTTTTCCGACGACCGCCGGGCAACGCCGTACGACGTCCTGGTGATCGCCACCGGCAGCCGGCCCCATCTGCCTCAGATGGACGGCATGTACACTCCTGGCGGCCGGCTGCTGCCCGGGATCTTCGCCTTCCGCACCATCGACGACACATGCCGCATGGCCGCGCACGCGCAGCAGGACCACCATCACAGCGCTGTCGTCATCGGCGGCGGACTGCTGGGGCTGGAAGCGGCGCGGGGGCTGCAGAGCCATGGCATCGGCGTCGACGTGGTGCACTCCGGCGGGCACCTGATGAACACACGCCTGGGGCCCGACGGCGGTGCTGTCCTCCGTCGCAGTGTGGAAGCGCTTGGAGTCCGGGTTCACACGGGCAGCCGCACCACAGCGGTCCTGGGCAAGGACAAGGTGCGCGGCGTCCGGCTTCGGGACGGGGACAGCCACCGGGACATCGAGTGCGACATCGTGGTGGTCGCCGCCGGCATCCGCCCTAACGTGGAGGTGGCGGTCACCAGCGGTCTGCCGGTGGAGCGGGCCATCATCGTGGACGATTCGATGCGTGTTCCGGATGAGGACGAGATTTACGCTGTCGGCGAGTGCGTGCAGCACCGCGGCGAGGTCTACGGCCTGGTGGCACCCCTGTGGGAGCAAGCCGCCGTGCTCGCGGACCACGTGACCGGCGCCAACCCCAAGGCCGCTTACCTGGGCACCCGGACTGCCACCAAACTCACGGTGGCCGGCATCGACGTCCCGTCCATGGGGCTGTAG	MTTVVNRASRTKSVDVHRRLVVIGNGMAGARAVEEILARGGGVQFRITMFGDEPYGNYNRIMLSDVLSGQEDTGNIFLNSIAWYQDNGITLHAGVRVERIDRFAKLVFSDDRRATPYDVLVIATGSRPHLPQMDGMYTPGGRLLPGIFAFRTIDDTCRMAAHAQQDHHHSAVVIGGGLLGLEAARGLQSHGIGVDVVHSGGHLMNTRLGPDGGAVLRRSVEALGVRVHTGSRTTAVLGKDKVRGVRLRDGDSHRDIECDIVVVAAGIRPNVEVAVTSGLPVERAIIVDDSMRVPDEDEIYAVGECVQHRGEVYGLVAPLWEQAAVLADHVTGANPKAAYLGTRTATKLTVAGIDVPSMGL	PGPT0000450_1391	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-17_00467	348			hypothetical protein	GTGATCTTGAAGAACCTTTTCCTCCAGGGCATCTTCCCCTTCCACGGAGCCGGGCTGGAAAAGCCGCTCCCCATCCACAGCCAGCTCTCCCGCTATGTGCCCGATGGCGTGATCAACCAGACGTTGTATTTCCGCGGCGGAAACTCTTCGACCGAGCTGATCACCGTGGTGCTGATGCGTGACGGGATCCCCATGCGCTACTTCCCCATCGGAGCAAAGGGGAACATCCACGTTCCGCTCCGCGTGGTGGAGGACATCGAGGGCGGCTCCCTGATCGAACTCAGGCTGCTGGCGGAGGCAGGCGTGAGTGGCTCCGTCGTGGTGGACCTCGGCATGGTGGAGCACTGA	MILKNLFLQGIFPFHGAGLEKPLPIHSQLSRYVPDGVINQTLYFRGGNSSTELITVVLMRDGIPMRYFPIGAKGNIHVPLRVVEDIEGGSLIELRLLAEAGVSGSVVVDLGMVEH	PGPT0000390_1037	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
D1-17_00468	1887	rhlE_1		ATP-dependent RNA helicase RhlE	ATGACTACTTTTGCTGCCCTCGGCACGCCCAAGGCCCTCGCCGACACCCTGACAGCACAGGGGATCGAGACCCCGTTCCCCATCCAGGTCAAGACCCTCCCCGACACCCTGGCAGGACGCGACGTCCTGGGCCGCGGCCGTACCGGTTCCGGCAAGACCATCGCCTTCGCGATCCCGCTGGTAGCGCGTCTCGCTGAGCGCGAAGCCGCGTACTTCCGCAAGCCGGGCCGCCCAATGGGCCTGGTCCTCGCACCCACCCGCGAACTGGCCACCCAGATCAACGCCACGATCGAACCGCTGGCCAAGGCTGCCGGCCTGACCACTACCGTCATCTACGGTGGCATCTCCCAGGCACGCCAGGAGAAGGCACTGCGCGCCGGCGTCGACATCGTCATCGCCTGTCCGGGCCGCCTGGAGGACCTGATCCGCCAGCGCATCCTGACCCTCGAAGCCGTGGAGATCACCGTCCTGGACGAGGCCGACCACATGGCGGACCTCGGCTTCCTGCCCGTGGTCAAGAAGCTCATGGACATGACCCCGAGCCAGGGCCAGCGGCTGCTGTTCTCGGCCACCCTGGACAACGGCGTGGACAAGATCGTCCAGCGCTACCTGTCTAACCCGCTAACGCACTCCGTCGATGACCCGCAGGCCGCGGTGACCACCATGGAACACCACGTGCTGGTGGTCAACGACCAGACCGTCAAGAAGCAGCTGATCGTCGAGCTCGCCTCGGGTGCCGGCCGCCGCGTGCTCTTCATGCGCACCAAGCACCACGCCCGAAAGCTGGCCAAGATCCTGACCGACGCCGGGATTCCCGCCGTCGACCTGCACGGCAACCTCTCGCAGAACGCCCGCGACCGCAACCTGGCAGAGTTCTCCTCCGGTGACGTCCGCGTCCTGGTGGCCACCGACGTCGCCGCCCGCGGCGTCCACGTGGACGACGTCGAACTGGTTATCCACGTCGACCCGCCCACAGAGCACAAGGCGTACCTGCACCGCTCCGGCCGTACCGCACGCGCCGGTTCGGACGGTACCGTGGTCACGCTGACCCTGCCCGAGCAGCAGACCGACGTCAAGAAGCTCATGAAGGCCGCCGGCGTCGAGGTCAGTTTCGAGCGGGTCACTGCCAACTCGCCGATCGTGGCCGAACTGGTGGGCGAAATCGCTGACAAGGTTGATCCCAGGACCCGCGCTGCGCTGTTGGCGGCCAAGGGTCCCCAGCAGGGCGGCGGCTCCTCCACGGGTGCCAACGCCGAGCGCAAGCGCGCACGTCGCCAGGCCTCTCCCACCGCGGGCGGCCGCGGCGGGCGTGGTGGCCGAGGCCGGGTATCGGCCGAGGCGCCCCGCACGGACGCTCCCCGCGCCGAGCGCCGGGCCGCAGCCTTCGAAGGCCGCACGGAGGCCCGTGCGTCATTCGACCGCGTCGCTGAGCAGAACGAGGACCGCGCCATTGCGGCAGCTGCGGCCCGCCGCAATGCCCGTGGGCGCGGCGCCGCTGCCAGCACCCACCGCAACGACGTCCCCGCGGCAGGCGGCCGCACATCGGCCGGCCGCGGTTCGGACGGACGCGCGGCGGAGGGCCGTACTGACTCCCGCATCACCCGCAGCGGGGCTCCCCGCGGCGGCACCGGCCGTCCCGCAGCCACGGGCCGTCCCGCCGCCGGCGGCGGCCAGCGCAGCGGTCGTCCGGCGACAGGGCAGCGCGCAGCGGCAGGCACCAAGGCCGGCGGCAACGCTCCGGTCTGGTCCTCCAGCACCGGTGGCAACTCCGGCGGATCCTACGGTTCGGGCTCCAACGGTGCAGGCCATGGCGGCTCCGGTCGCCCCGCCCGCAGCGGCCCCCGCCGCGCGTCCGCTCCGGCCTCGAACGAACGCCGCGGCCGCTAA	MTTFAALGTPKALADTLTAQGIETPFPIQVKTLPDTLAGRDVLGRGRTGSGKTIAFAIPLVARLAEREAAYFRKPGRPMGLVLAPTRELATQINATIEPLAKAAGLTTTVIYGGISQARQEKALRAGVDIVIACPGRLEDLIRQRILTLEAVEITVLDEADHMADLGFLPVVKKLMDMTPSQGQRLLFSATLDNGVDKIVQRYLSNPLTHSVDDPQAAVTTMEHHVLVVNDQTVKKQLIVELASGAGRRVLFMRTKHHARKLAKILTDAGIPAVDLHGNLSQNARDRNLAEFSSGDVRVLVATDVAARGVHVDDVELVIHVDPPTEHKAYLHRSGRTARAGSDGTVVTLTLPEQQTDVKKLMKAAGVEVSFERVTANSPIVAELVGEIADKVDPRTRAALLAAKGPQQGGGSSTGANAERKRARRQASPTAGGRGGRGGRGRVSAEAPRTDAPRAERRAAAFEGRTEARASFDRVAEQNEDRAIAAAAARRNARGRGAAASTHRNDVPAAGGRTSAGRGSDGRAAEGRTDSRITRSGAPRGGTGRPAATGRPAAGGGQRSGRPATGQRAAAGTKAGGNAPVWSSSTGGNSGGSYGSGSNGAGHGGSGRPARSGPRRASAPASNERRGR				NA	NA	NA	NA	NA
D1-17_00469	729	gloC	COG0491	Hydroxyacylglutathione hydrolase GloC	GTGAGTGTGCCTAAGCGGCTCTCCACGAGCGCCAGCCCGGTCTCCGGGGCTGAGGCCCGTCTCCGTAGACTGAGGCGCATGAACACGCTCATTCATTCACTCCGTGACATCACCATCCGGCGCATTTCGGTCAGCGAGATGGACAACAATGTATATCTGCTGACGGCCAAGGAGTCCGGCGCGCAGCTGCTGATCGACGCCGCCGACGACCTGCCCGCAATTCAATCGCTGCTCGCGGAGGCAGCCGCGGACACTGCGGCAACGCCACGGTTAGAGCTGATCGCCACCACGCACCAGCATTGGGACCACGTCCGCGCGCTTCCGGAGCTGGTGGAGGCCACCGGCGCCAAGACGGCGGCCGGCAGGGACGACGCCCCGGAGCTGCCGGTGCCGGTGGATATGCTGCTGGACCACGGGGATGTGGGCAACTTCGACGGCTTCGACGTGAGCGCCGTGCACCTCCGCGGGCATACCCCGGGCTCGGTGGCGCTGATTTATCAGGACCTGCAGGGACCGGCACATATCTTTTCCGGCGATTCGCTGTTCCCAGGGGGCGTGGGCAACACCCAGAACGACCCGGCCCGGTTCAACCAGCTCATTACGGACGTGAGCGAGCGGCTATTCGACGTCTACCCGGACGACACAATTGTGCACCCCGGCCATGGCAAGCCCACCACCCTGGGCGCGGAGCGCCCGCACCTTGAGGAGTGGCGCGACCGGGGCTGGTGA	MSVPKRLSTSASPVSGAEARLRRLRRMNTLIHSLRDITIRRISVSEMDNNVYLLTAKESGAQLLIDAADDLPAIQSLLAEAAADTAATPRLELIATTHQHWDHVRALPELVEATGAKTAAGRDDAPELPVPVDMLLDHGDVGNFDGFDVSAVHLRGHTPGSVALIYQDLQGPAHIFSGDSLFPGGVGNTQNDPARFNQLITDVSERLFDVYPDDTIVHPGHGKPTTLGAERPHLEEWRDRGW				NA	NA	NA	NA	NA
D1-17_00470	1023	iolS_1	COG0667	Aldo-keto reductase IolS	ATGAAAAGGGAGATTGGGATGACGAACAATTCGGCAGCAGCTGTTCACTTGGGTAACGGTCTCAAGGTCAGCCCCTTGGGATTCGGCGGCATGGCGCTCACACCGGTGTACGGCGAGGTGGACCCTGCGGAGTCACTGCAGACGCTGCACCATGCCGTGGACGCCGGAATGAGCTTCATAGACACTGCCGACATCTACGGCGGGGGCAGCAACGAGGAACTGATCGCCCACCTGCTCAGAGACCGCCGCGGCGAAGTCCAGCTGGCTACGAAATTCGCACTGGTGGGAACCCCGTCGGCCGGCTACAGCGATATCCGCGGGGATGCACCGTATATCAAGTCGGCCGTTGAGCGCAGCCTGCAGCGGCTCGGCACGGACATCATCGACCTCTACTACATGCACCGCCGGGACGTCCGGGTTCCGATCTCCGAGACCGTGGGCGCCATGGCCGAGCTGGTGCGTGAGGGCAAGGTCCGGCATCTGGGGCTGTCAGAAGTCACCGCCGAGGAACTCCGCGAGGCCAGCAGAGTCCACCCGATCGCCGCCGTCCAGAGCGAATGGTCCATCTGGAGCCGGGATGTGGAACGCAAGGTGGTACCGGCTGCGGCGGAGCTGGGTGTGGGCTTCGTGCCCTACTCCCCGCTGGGCCGCGGATTCCTCACGGGGACCGTGGATGCCTCCCGGCTCGGGGACAACGATTTCCGGCGTAAGATCCCCCGCTTTGCCGGCGACGCAATGGACGCCAACCAGGCAGTGGTATCAGCCATCCGTTCTGTCGCCTCGGAGCTGGACGCGTCCCCCGCCCAGGTGGCGCTGGCTTGGCTGCTCGAACAGGGACAACGGCTTGGACTGCCGGTCGTTCCGATTCCAGGCACCCGCAAAACCTCCCGAATCGATGAGAACCTGGGGGCGTTGGCGCTGAATCTGACCCCGGAACAACTGCAGGCACTCGACACGGCTGCGGACGCCGTCGTCGGCTCCCGGTCCGCGGACCCGCAGTGGGTGTCGCAGGGCCGCGAGTAG	MKREIGMTNNSAAAVHLGNGLKVSPLGFGGMALTPVYGEVDPAESLQTLHHAVDAGMSFIDTADIYGGGSNEELIAHLLRDRRGEVQLATKFALVGTPSAGYSDIRGDAPYIKSAVERSLQRLGTDIIDLYYMHRRDVRVPISETVGAMAELVREGKVRHLGLSEVTAEELREASRVHPIAAVQSEWSIWSRDVERKVVPAAAELGVGFVPYSPLGRGFLTGTVDASRLGDNDFRRKIPRFAGDAMDANQAVVSAIRSVASELDASPAQVALAWLLEQGQRLGLPVVPIPGTRKTSRIDENLGALALNLTPEQLQALDTAADAVVGSRSADPQWVSQGRE	PGPT0009140_364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
D1-17_00471	429			hypothetical protein	ATGTCTTCGACACGTTCGGGCACGGCAGGTTCGGGCACGGCAGGTTCACGCACGGCAGGTTCACGCACGGCAGGTTCAGGCACGGCATGGGCCATCCTGCTTGCCTCCGCCGTCCTTGAGGCGGTGTGGGCTACGGCCCTTGGAATGTCGGACGGCCTGACCCGGCAAGGTCCGTCGCTGGTTTTTTTCGCGGCCGCGGCGTTAAGCATGTATGGCCTCGGCCTGGCTCTGAAACGCATCCCCCTTGGTACCGCCTATGCCGTATGGGTGGGGATCGGCGCGGCGCTGACCGTCGGCTGGGCCATGGCGGTGGGCGCCGAAACAATCAGCGCGCTCAAGGTGCTCTTCATGGCCGGGATTGTCGGCTGCGTAGTGGGCCTTAAGCTGCTCCCCGGGAAGTCCTCGGACAAGCAAACAGCAGGGTCATGA	MSSTRSGTAGSGTAGSRTAGSRTAGSGTAWAILLASAVLEAVWATALGMSDGLTRQGPSLVFFAAAALSMYGLGLALKRIPLGTAYAVWVGIGAALTVGWAMAVGAETISALKVLFMAGIVGCVVGLKLLPGKSSDKQTAGS	PGPT0028785_79	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUATERNARY_AMMONIUM_COMPOUND_RESISTANCE_,PGPT0028785-sugE-K11741	NA	NA
D1-17_00472	324	gdx		Guanidinium exporter	ATGTCGTGGTTGATCCTCATTCTTTCGGGCGCCCTTGAGGCGGTGTGGGCTGCCGCGCTGCACCGTGCCTCCCATGTTTCGGGCCGCCGCCGCATCGCCCCCGCTTTGCTGTTCCTTACCTCCCTGACGGCAAGCATGGTTGGTCTGGCCGTCGCCATGCAGTCCATTCCCACCGGCACTGCCTATGCGGTATGGGTGGGCGTCGGAGTTGTGCTTACCTCTGCTTACGCAATTATCACCAAGGTTGAACGCCCGACGGCGGCGCGGTTGCTCCTGCTTGGCGGGATCGCTGCGTGCGTGGTCGGCTTGAAGGCGGTGGCGTGA	MSWLILILSGALEAVWAAALHRASHVSGRRRIAPALLFLTSLTASMVGLAVAMQSIPTGTAYAVWVGVGVVLTSAYAIITKVERPTAARLLLLGGIAACVVGLKAVA	PGPT0028785_874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-QUATERNARY_AMMONIUM_COMPOUND_RESISTANCE_,PGPT0028785-sugE-K11741	NA	NA
D1-17_00474	531	bfrB	COG1528	Ferritin BfrB	ATGACGAAATCAAAGTTCAATGATCTGCTCGCGATCCAGATCGGCAACGAATTCGCAGCCTCGCAGCAGTACGTAGCCGTGGCAGTTTGGTTTGCCGGCCAGGACCTCCCGCAGCTGGCCAAGTACTTCTACCGGCAGTCCGTGGAAGAACGGAACCATGCCATGATGATGGTCCAGTACATGCTGGACCGGGACCTTCCCGTCGCCATCCCGGGCGTCCCCCATGTGCAGAACAGCTTCTCCAAGGTGACCGAGCCGCTGGCCCTCGCCCTGCAGCAGGAGAAAGACGTCACCAAAAGCATCGAGAGCCTCTTCAGGGCGGCCAGGGCGGAGGACGACGCGCTGGGCGAGCAGTTCATGCTGTGGTTCCTGAAGGAACAGGTCGAGGAAGTCGCGTCGATGAGCACCCTGTACAACATCGCCGAACGGGCCGAGAACCTGTTCGATATCGAGAACTTCGTCGCCCGGGAAACCATCGGAGACAGCGGGCATGACTCGTCCGCCCCGGAAGCCGCCGGCGGCTCGCTTTAG	MTKSKFNDLLAIQIGNEFAASQQYVAVAVWFAGQDLPQLAKYFYRQSVEERNHAMMMVQYMLDRDLPVAIPGVPHVQNSFSKVTEPLALALQQEKDVTKSIESLFRAARAEDDALGEQFMLWFLKEQVEEVASMSTLYNIAERAENLFDIENFVARETIGDSGHDSSAPEAAGGSL	PGPT0003960_203	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003960-bfrB-K22336	NA	NA
D1-17_00475	657	ves		Protein Ves	ATGGAGATCATTCGCTTTGCAGACCTCAAACCGCAACCCTGGCGCAACGGCGGCGGCATCACGAGGGAGCTCGCCAGCCATCCTCGGGCCGCGTCCGAACAGGACTTTGCCTGGGACTGGCGGGTCAGCATCGCGGATCTCACCAAAGCAGGTGACTTCTCACCCTTCCCCGGAATGGAACGGGTACTGACAGTAGTGGAAGGGGAACTCCTGCTGCTGAAAGTCGGCGCCAACGAACACCCACTCGAGAAATACAGGCCGTTCCGCTTCCCCGGTGACGCAGCGTCCTCGGCTGTCCTGCCAACCGGTGACATCCGGAACCTCAATGTCATCACCCGGGCCGGGGCATACAGGGGATACACCTCGATCGTGGAGCTGTCGAAAAAGCGGCCGCACCCGCTGTTCGCGGGCCAGCTGGGCATCCTGCTTCAGGGCGAGGCGACGGCAAGGCCCGGCGCGGCTCTGGATGAGAATGCCTCGGGGGTGGCGGCTCCGGCGGTGGACTCGGTCATGGGGAAAGCGGATGTGGACGCCGGCCTGGGCGCGGCCGAGCCACTCAGCCGTTATGACGCGGTGGTCGGCTCCGACACCCGGACGCCGGAAATCTTGGGCCGAGGGTTCCTCGGCGTCGTATCCATCGACGCGCTTCCCGCCTGA	MEIIRFADLKPQPWRNGGGITRELASHPRAASEQDFAWDWRVSIADLTKAGDFSPFPGMERVLTVVEGELLLLKVGANEHPLEKYRPFRFPGDAASSAVLPTGDIRNLNVITRAGAYRGYTSIVELSKKRPHPLFAGQLGILLQGEATARPGAALDENASGVAAPAVDSVMGKADVDAGLGAAEPLSRYDAVVGSDTRTPEILGRGFLGVVSIDALPA	PGPT0020255_159	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MAINTENANCE	CE-BACTERIAL_FITNESS-HISTIDINE_REPLETION_RELATED_FITNESS,PGPT0020255-hutD|ves-K09975	NA	NA
D1-17_00476	597	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGTTCGTCAAAGTGTGCGGGCTGAGCACGCCTGAATCAATCCGGGAGGCCACGGATGCCGGGGCGGACGCCGTGGGCTTCGTCCTGACGGCGAGTCCCCGGGTGGTGTCCCCTGCGAATGTCGCCCAGCTGCTGGCCAACGTCCCGGGAGGTGTTGCCGCCGTCGGCGTTTTCCGCCATGAACCGGTTGCCGACGCCGTAGCCATCGCGCGTGCGGCCAGTCTGGAATGGATCCAGCTTCACGGCGAACGGACACGCGACGATGTCAAAACCGCGCACGACGCCGGCATGAAGGTCATCCGGGCCGTCACCATGGATGCGGCCCCGGATGTCTTCGAGGACTGGGGCGAAGACGTGCTGCTCGTGGACGCCGCGGTACCCGGATCGGGGGAGAGCTGGGACTACGGTTCGATGCGCGGCAAGGGCCTGGGCGGGCGGAAGTGGCTGCTGGCAGGAGGGTTGGATTCGGCAAACGTCGCAGCAGCAGCCAGGGCGGCCGGGGCGTGGGGCGTCGACGTCTCTTCCGGCGTCGAACAGTCCCGCGGCATCAAGGATCTGGCAAAGATCCGCGCCTTCGTGACAGCTGCCAAGTCCTGA	MFVKVCGLSTPESIREATDAGADAVGFVLTASPRVVSPANVAQLLANVPGGVAAVGVFRHEPVADAVAIARAASLEWIQLHGERTRDDVKTAHDAGMKVIRAVTMDAAPDVFEDWGEDVLLVDAAVPGSGESWDYGSMRGKGLGGRKWLLAGGLDSANVAAAARAAGAWGVDVSSGVEQSRGIKDLAKIRAFVTAAKS	PGPT0007115_3404	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007115-trpF-K01817	NA	NA
D1-17_00477	402	yccF	COG3304	Inner membrane protein YccF	ATGAAGACACTCCTGAATATCATTTGGCTCGTGTTCGGCGGCCTCTGGCTGGCCATCGGTTACTTCGTGGCGGGCCTGATCTGCTGCGTGCTGATCGTCACCATTCCCTGGGGCATCGCGTCCTTCCGGATCGCCGCCTATACCCTGTGGCCTTTCGGCCGCATGGTCGTGGACAAGCCCGGAGGGAACGGCGTGTTTGCGCTGCTCGGCAACGTGATTTGGCTCCTGGTGGCAGGCATCTGGATTGCCATCGGACATGTGATCACGGCGGTGGCCATGGCCCTGACGATTATCGGCATCCCGCTGGCCATCGCGAACCTGAAGCTCATTCCTGTCTCACTCATGCCGCTGGGCAAGCAGATAGTTCCCACGAACGCGCCTTTTGCGGCAAGCTACCGCTGA	MKTLLNIIWLVFGGLWLAIGYFVAGLICCVLIVTIPWGIASFRIAAYTLWPFGRMVVDKPGGNGVFALLGNVIWLLVAGIWIAIGHVITAVAMALTIIGIPLAIANLKLIPVSLMPLGKQIVPTNAPFAASYR				NA	NA	NA	NA	NA
D1-17_00478	882			hypothetical protein	ATGGCCATTTATCTGGATCCGCCTTTGTGGCCGGCGCACGGAACCCTGTTTTCACACCTGATCTCGGACACTTCCCTCACGGAACTGCACGCCTTCGCCGCGGCCGCCGGAATTCCTGATCGGGCCTTCGACGGCGACCACTACGACGTTCCGGAGAGCCGCTACGGATCGCTGGTGGCCGCGGGCGCCGTTCCCGTGGAAGCCCGGATCCTGGTGCGCAAACTCATCGCCAGCGGGCTGCGGATTCCCGCTCGTGAACGCAATTCGTCGCTGAAGGTGCCGCTGCTGAACCGCTGGAACGCCATGCTGCCCGGCCACGAAGCACTGTTCCTGGACCTTCTGGAACGCTGGGGCGAACCCCACCGCAGGTACCACGGATGCACCCACCTGCTGGCGGTGCTCGAGGCGCTGGATCTGCTCACCGAACCTGCGGAACCGCCGCGGGCGGTGCTGCTGGCCGCCTGGTTTCATGACGCCGTTTATCACGGGATCCCGGGCCAGGACGAGGAAGAGTCCGCGCGGCTGGCCGAAGACAGGCTTTCCGAGGCGGGACTGCCCGCCACGGAAGTCGCTGAGGTGGCGCGCCTGATCAGGATAACCTCCAGTCACCGGCCCGCTCCCGGGGATGACGGCGGCGCCCTCCTCTGTGATGCCGATCTTTCCGTTCTCGGCGGCGAACCCAGCCAGTACGCACGGTACCTGGCGGCCGTCCGGCAAGACTATGCGCACGTCGGCGACGCCGACTTCGCTGCCGGAAGGGCCGCCGTCGTCCGCCACCTGCTGGATCTGGATCCGCTGTTCCACACAGACCGCGCCCGCCGGCTGTGGCTGGAGGCCGCACAGCGTAACCTCGCCGCCGAACTGGAGACAGCCAGACTTTAA	MAIYLDPPLWPAHGTLFSHLISDTSLTELHAFAAAAGIPDRAFDGDHYDVPESRYGSLVAAGAVPVEARILVRKLIASGLRIPARERNSSLKVPLLNRWNAMLPGHEALFLDLLERWGEPHRRYHGCTHLLAVLEALDLLTEPAEPPRAVLLAAWFHDAVYHGIPGQDEEESARLAEDRLSEAGLPATEVAEVARLIRITSSHRPAPGDDGGALLCDADLSVLGGEPSQYARYLAAVRQDYAHVGDADFAAGRAAVVRHLLDLDPLFHTDRARRLWLEAAQRNLAAELETARL				NA	NA	NA	NA	NA
D1-17_00479	2091			hypothetical protein	GTGGGCGCCCACGTTGGCGACCTTGACGTCTCCGTGGTGGTTCCGGCGCGGAATGCTGCGCACTGGTTGGGCGAATGCCTGGACTCCATCCGGGCGGAGAAACCGCGGGAAATCATTGTGGTGGACGGCTGCTCCACGGATAACACCGTGGAGATCGCACGTACCCTCGGGGCACGCGTCATATCGGATGAGGGCCGGGGGTTGCCGGCAGCGAGGATGCTTGGCGTGCAGAGCGCCTGCAGCAACCTTGTGGCGTTGATCGATGCCGACGTCGTTCTCCCAGCCGGCGCTTTGGGCGGACTCTTGGACGAGTTCAATGCCTGCGGCTACGACGGGCTGCAGTTCGCCCTGGTCAGCGAGGCGGACGGGCGCGGATATTGGGGCGCCGCCCTTGCCTGGCACCACCTTCACAGCCGGGTGCGCTCATGGTTCGGCGTGTCCGCCACTTTGATGCGGAGGAACATCCTGCTGTCCGTGGCGTTCGATGACACCTTCCGGTCCGGCGAAGACATCGAGCTGAGAATCAGGCTGGAAGGGGCCGGCTACCGGCTTGGCGTCTCCCGCACCACGGCAGTGCGGCACCGGTTCATGGATTCGTTCGATGCCGCCCGTGACCAATGGCTCCAGGACGGCGCCGGTTTGGCCCGCACCATCCGCAAGCACCCGGGCCGTGCGGGTTGGCTTGTGGTCCTGCCGCTGCTGGCCACCATCCGCGGCGTCGGCCTGTCGTTGCTGCACGCTCCGCGTTTCCTGCCTTACTGGGTCTGTTTCCTCGTTTACAACTACAGGTCCATGTTCGGCGAATTCCTGCGTCCCCCAGGGACCGGCTACTCCGTCGGCGGCAATGCGGCCTGGCTGAGCGCTGCCAGGATCGCGCCGATGCTCACCGGATTTGTGTTCTGGGCGCTGGCGGCGATCATGCTGCCGCCAGCGCAGCTCGGGATGGGCTCCGCCGTAGTGGCCGCTGCTCTCCTCACCGTGCAGCTCGGGATGCTGGGGATCGGCCAGGCAACCCTCACGCTGCTCCCTGAGCAGCGTGATGGCGGACGGGGCCTCATCGCCAGCAGCCTCTTCACCGTGGGGGTGTCCACGGTCGTCCTGGCATGCGCAGTCGCTGCTGTGACCTACGCGATGGGGTCCGGCGTCGGCCTGGCTTGGAAGGACCCGCTCCTGACGGGGATATTCGTGGCCACAGCGCTGTTTGCCGCGGCCGCCTACCAGCTGGATCATGTGGGCGTCGCGCAGGAACGCTCCGACCGGGCCCTGGTCAGGAGCCTCGCCCAGAGCCTCGTACAGCTCGCCATACTGGCTCTGGCTTTGGCCGCCGGGGTCCGGGAAGTGGCCATGGTGGTCGCAGCGGTGGCAGCCGGTGGACTGGCGAGCGTGATCCTCGGGCTGCACCAGCTCAACCGCAACGGCGCAGCACCGGACTGGAGGCACGCGCTCAGGCCGGGACCAGTACTGCGGCTGCTGCGACCGGGTTTGCCCAACCACGCGCTGATGCTCGCAGACCGCGCCCCCGGCTATCTCCTTCCGCTGGTCGTTGCCGCTACCCTCGGCCCGGCTGCAACCGCGTCCTGGTACATGGTGTGGATGATGGCCGCAGCGGTCTTTTTCTTCGCCCAGTCTTCCGGGTTCTCCCTGCAGACCGCGCTGGCCGGGGGCAGGTCCAGGCCAGGGCTGGTGTCCTCCGCACTCAAGGCGAGCCTCGCCCTCACGTTCGTCGCCGGAACGATGCTGCTCATAGCCGGCCCCTACCTTCTCCGGTTCCTTGGCCCGGTGTACGGGGAGACAGCCATTCTGCTTCCTGTCCTGGTGCCGGCACTGCTGCTGGGCTGCATAACCCAGGTCTACTTCGGTCTGTGCCGTGCCCAAGGCCGCCGAGCGGAGGCCACAGCCGTAGCCGTGTTCGCTGCCGTCGTTATTGTGGGACCAGCCGCCCTTGCCGCCCGCGAATTCGGCCTCCTCGGCGTCGCAGCCCTCTGGTCCACCGCCCAGGCGGCCGCGGCCCTGATTGCCATCTGGCGTCTCAGGATACTGCTGCCAGCAACTCCCGACGGGGAACGGGTCCGGGCCGCGCCCAGACCATAA	MGAHVGDLDVSVVVPARNAAHWLGECLDSIRAEKPREIIVVDGCSTDNTVEIARTLGARVISDEGRGLPAARMLGVQSACSNLVALIDADVVLPAGALGGLLDEFNACGYDGLQFALVSEADGRGYWGAALAWHHLHSRVRSWFGVSATLMRRNILLSVAFDDTFRSGEDIELRIRLEGAGYRLGVSRTTAVRHRFMDSFDAARDQWLQDGAGLARTIRKHPGRAGWLVVLPLLATIRGVGLSLLHAPRFLPYWVCFLVYNYRSMFGEFLRPPGTGYSVGGNAAWLSAARIAPMLTGFVFWALAAIMLPPAQLGMGSAVVAAALLTVQLGMLGIGQATLTLLPEQRDGGRGLIASSLFTVGVSTVVLACAVAAVTYAMGSGVGLAWKDPLLTGIFVATALFAAAAYQLDHVGVAQERSDRALVRSLAQSLVQLAILALALAAGVREVAMVVAAVAAGGLASVILGLHQLNRNGAAPDWRHALRPGPVLRLLRPGLPNHALMLADRAPGYLLPLVVAATLGPAATASWYMVWMMAAAVFFFAQSSGFSLQTALAGGRSRPGLVSSALKASLALTFVAGTMLLIAGPYLLRFLGPVYGETAILLPVLVPALLLGCITQVYFGLCRAQGRRAEATAVAVFAAVVIVGPAALAAREFGLLGVAALWSTAQAAAALIAIWRLRILLPATPDGERVRAAPRP				NA	NA	NA	NA	NA
D1-17_00480	1101			hypothetical protein	ATGAGCCAGTCCGAAAAAGACGTTCTGAGTGACTCGGCACCGTCTACAGGCACCAGTTTCGATGTCCACGGACTCGTAGGTATCGATGTCGCTCCCGGCACGCCCGGCGAAGCCCAGTTGAGGGACATGCTCGCACCGTTCCTGGGTCCGTCCCGGGCGCCGCTGCGTCTGCGTGTCAGTGCGGCGATGACGGAAGTGGCCGAGCAGTCACACGCCGAGGATGCCTACCGTTTCACGGCGGACTCGCTTTACATTCCGGCGGACCGCGTCCAGGTCGAGGAAATCCGCGACGGTTACTCCGTGCAGGGCAGCGGAGAGCTGCTCACTGCAGTTATCCCCTTGCTGGATTGGCTCTCCACTAAGCAGAACGCCGCCATGATCCACGCTGCGGTGGTTGACTTCCGGGGGTCAGGAGTCCTGCTTCCGGCCTGGGGCGGTGTCGGCAAGACCAGCACGGTCGCCAAACTGGTAGCCATGCCCGGTGTGCGTTTCATGGCGGATGATTGGGCTTTCCTGGACGCCGACGGCATGCTCATGGGTTATGCCAAACCGATGTTCCTTAAGCCCCATCACCGGAGGATCTATCCGGAGGTCTTCAGCGGGGTCCGCAAACCGTTGGCTCCGGGCTGGCTCACAAATTCGGTTGCCCGCCTGGCCACGGCCGTCCACCCGGTCATCGTCCGGTATCCAAGAACAGCGGCGTTCACGCGCCGCTGGTCCCCGGAACACCGGATGGTCCATCCCGAAGAGGTCTTCGGTCAGGACGGCATCTCCTCGGCCGCGCTCACCCGGCTGGCTATTTTCCTGGAACGCTACGACGGTTCCGACGCCCGGCTGGAGAAGAGGAGCCGCGAATGGATGACCTCCCGCATTGTCGGAAATTTCCATTCGGAGCTCCCAGCGGTGTCACGTCGGCTGATTGAAGCCCTCGGCGCGACGGGCCTGGTTCCCCTGGAGGAATTCTTCAGCCAGAAGGCAGCCGTGGTGCGACGGGCGCTTGATGACGTTCCATGCTTCCTGCTGCGTATTCCGGCATCGTGGTCCGCCGACCGGACCTCGGATTACGTAGCCGGCCAGATCGGCTCCAAGCTGGAGGAGTGA	MSQSEKDVLSDSAPSTGTSFDVHGLVGIDVAPGTPGEAQLRDMLAPFLGPSRAPLRLRVSAAMTEVAEQSHAEDAYRFTADSLYIPADRVQVEEIRDGYSVQGSGELLTAVIPLLDWLSTKQNAAMIHAAVVDFRGSGVLLPAWGGVGKTSTVAKLVAMPGVRFMADDWAFLDADGMLMGYAKPMFLKPHHRRIYPEVFSGVRKPLAPGWLTNSVARLATAVHPVIVRYPRTAAFTRRWSPEHRMVHPEEVFGQDGISSAALTRLAIFLERYDGSDARLEKRSREWMTSRIVGNFHSELPAVSRRLIEALGATGLVPLEEFFSQKAAVVRRALDDVPCFLLRIPASWSADRTSDYVAGQIGSKLEE				NA	NA	NA	NA	NA
D1-17_00481	999			hypothetical protein	ATGCATCCCTCAGAAGGACTCCCGGCTGTTTCCGTAGTGATTTGCTCCTACACCGAAGACCGGTGGGACCGGCTGTTGGCCGCCATCCAGTCCGTCCACGCCCAAACGGTCCCACCCCAGCAGACGATCGTAGTGGTCGACTACAACGTGGAACTCTATAAGCGCCTGATCTTCACGGTTTCGGACGTTGTGATCCTTGAAAACACCGGCCCCAAAGGCCTTTCCGGTGCCCGGAACACCGGAGCTGCAGCCGCAAGCGCAGGGATTGTCGCCTTTCTGGACGACGATGCCGAGGCTGCCCCGGACTGGCTGGAACGGCTGACGGCCCTCTACGACGACCCTGATGTCCTTGCCGTGGGCGGGCGCGTTGTGCCGGAATGGGAAACCGGCCGTCCGGACTACTTCGGGGAGGAACTGGACTGGATCGTTGGCTGTACGCACCGAGGGATGCCAAAGGTGGCTGCCGAGGTGCGCAACGTTATCGGCGCCAACATGTCCTTCCGTTCTCAGGTTCTGGAAGTCGTAGGCGGTTTCAACACCTCACTCGGCCGGCAAAATTCTCTGCCCCTGGGCTGTGAGGAGACGGAAATCTGCATCAGGGCGGTCATAGGTGCGCCGGGAGGCCGCGTGGTGTACGAACCGGCTGCCCTGGTCCGCCACTTCGTTCCCGCGCAGCGCGGAACCCTGAACTACATGCTGCGGCGCGCGTGGTCCGAGGGGATATCCAAAGCCATGGTCAGCAAGATTGTCGGCCACAAGCGTGCTCTCGGGCCTGAACGGCGGTACGTCCGTAGCGTGTTGCCGCGCGCGGTGGCCGGGGGAATAGTGGGCCGGCTCCGCGGTACGGACGCCGCCGGCTTCCGCCGGGCGATGGCCGTGATCGCAGTGCTGACCGTAACTACCTCCGGGTACATCCGGGGACGCCGCCTGCCCCTTGACCCGACGGACGCGGGACTCGAGCCGCACGAGCCGCACGCCAGTTGGAGGGAAGTCAAATGA	MHPSEGLPAVSVVICSYTEDRWDRLLAAIQSVHAQTVPPQQTIVVVDYNVELYKRLIFTVSDVVILENTGPKGLSGARNTGAAAASAGIVAFLDDDAEAAPDWLERLTALYDDPDVLAVGGRVVPEWETGRPDYFGEELDWIVGCTHRGMPKVAAEVRNVIGANMSFRSQVLEVVGGFNTSLGRQNSLPLGCEETEICIRAVIGAPGGRVVYEPAALVRHFVPAQRGTLNYMLRRAWSEGISKAMVSKIVGHKRALGPERRYVRSVLPRAVAGGIVGRLRGTDAAGFRRAMAVIAVLTVTTSGYIRGRRLPLDPTDAGLEPHEPHASWREVK	PGPT0024600_44	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_S-LAYER_GLYCOPROTEIN_DECORATION,PGPT0024600-aglG-K22844	NA	NA
D1-17_00482	852	arnC_2		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	GTGACCATCCCTATACAAGTTTCGACTGTCCACGCACAGAACCCGGTGCCGGTTCCCCTAGCCTCCATCAGCGTGGTGATTCCCACACTGAATGAAGCCATGAACCTTCCGTGGGTTTTGCGCCGTATGCCCTCGTATGTGGACGAAGTGGTGATCATCGACGGGCGCTCGCTGGACAGCACTGTCGACGTCGCCAGGGCACTGCGCATGGACGTAGTGGTGGTCTCAGAACCCAATCCCGGCAAGGGGTTTGCGGTGCGGGCGGGGCTCGCTGCGGCCACCGGAGATATCATCGTCATGCTGGACGCAGACGGGAGCATGGATCCGCAGGAAATTGGCTGGTTCGTCACGCCGCTCCAGCACGAATTCGATTTCGTCAAGGGCTCCCGCTACGTGACGGGTGGAGGGTCAGAAGACATAACTCTGCTCCGCAGCGCCGGCAATCGCGCCCTGACCCGCCTGGCCAACATTGTGCTCCACAGCAACTATTCCGACCTGTGCTACGGCTACATCGCGATGCGGCGGGAGTGCCTGCAAATCCTCGAACTGCAGTCGGAAGGGTTCGAGATTGAAACCGAACTGATCGTCCGGGCTTCCCGGGCCGGCCTGCGAATCGCCGAGGTGCCCAGCAACGAGCTTAATCGGATTTCCGGCAATTCAAACCTCCATACCTTCCGCGACGGATGGCGCGTGCTGCGAACCCTTGCCCGTGAATGCGTGGGATGGGAAGCGCCCACGGCAGGCGCCCGGCCCGAGGCGCTCAGACGGGTGAAATACAGGTACCCCAGCAGGTCCCTGCCCCACATTCCGACTGACCCGGCCACGGTCCTTGGCCTGATGGCGGGTGATTGA	MTIPIQVSTVHAQNPVPVPLASISVVIPTLNEAMNLPWVLRRMPSYVDEVVIIDGRSLDSTVDVARALRMDVVVVSEPNPGKGFAVRAGLAAATGDIIVMLDADGSMDPQEIGWFVTPLQHEFDFVKGSRYVTGGGSEDITLLRSAGNRALTRLANIVLHSNYSDLCYGYIAMRRECLQILELQSEGFEIETELIVRASRAGLRIAEVPSNELNRISGNSNLHTFRDGWRVLRTLARECVGWEAPTAGARPEALRRVKYRYPSRSLPHIPTDPATVLGLMAGD	PGPT0017834_1059	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017834-DPM1_like|arnC|ppm1|wcaA-K00721	NA	NA
D1-17_00483	789			hypothetical protein	GTGGACGAGCAGCAGCCTTCCGTCGATCCGATCCACAAAATGCCGAGAGGCGATCTGCCTGGCTGGAAGCAAGTATTCCGGGAGGAATTCGACAAAGGCGATGTACCAATCGGCGCTTTTCCAGGTGCGGCTTACTCCGCTAAATGGAGTGAGGGGTACAAGGACGGAACACCGGATACCGCCGGTCAAAGAGGAACGAAGTCCCGTTATTACCCGTCCAAAGTGCTGAGTGTTAAGAACGGCATGCTGGACTGGTACCTCCACTCAGAGAACGGCATCTCAATGGGTGCGGCGCCCTCTCCCAAGATTCCGAACAGCAGTGCCAAGGAATATCGCGACAAGAACCTGCTGCCGCGACACAACAGCCTGCTCTACGGGAGGATTTCCGTGCGGTTCAAGGCCGACTCCCTGCGCGGCTTCAAAGTCGCTTGGCTCCTTTGGCCGGATAGCGGCGAATGGCCCAGGGATGGGGAGATCGATTTCCCCGAGGGGGACCTCGCAACAACCTTCTATGGCGCTGCCCATTTCCGGGGAAATGATCCTCGGGCGCAAGATGTGTTCCGGTCACACACCACCGTCACTGATTGGCATGTCGCCACGATTGAGTGGAGTCCGGGCAAGGTCGAATTTATCCTCGACGGCCGGTCACTCGGAGTTAGTACAACGGCGACCCCGAACACACCCATGCACTATATTCTGCAGACCGAGTCGTGCACTCCTTTCTGTCCGTTGCCGCAGACGGCCGGACATGTCTACCTGGACTGGATCGCAATCTGGAAGCGGGCCTAG	MDEQQPSVDPIHKMPRGDLPGWKQVFREEFDKGDVPIGAFPGAAYSAKWSEGYKDGTPDTAGQRGTKSRYYPSKVLSVKNGMLDWYLHSENGISMGAAPSPKIPNSSAKEYRDKNLLPRHNSLLYGRISVRFKADSLRGFKVAWLLWPDSGEWPRDGEIDFPEGDLATTFYGAAHFRGNDPRAQDVFRSHTTVTDWHVATIEWSPGKVEFILDGRSLGVSTTATPNTPMHYILQTESCTPFCPLPQTAGHVYLDWIAIWKRA				NA	NA	NA	NA	NA
D1-17_00484	411			hypothetical protein	ATGACCACGATTCGCGTTTCCGAGGCTGCCCGTTTCCTGGGTGTCAGCGACGACACCATACGCCGCTGGACGGAGAACGGCAGCCTCACGCCCCGCAAGGACCCGTCAGGGCGGCTTGCGGTGGACGGGCTGGAACTGGCCCGGCTGGCCGGCAGGCAGGCGCACCTGCCGGATGACCCGTCCGCAGCAGCCAGCTCGGCGCGCAACCGTTTCATGGGACTGGTGACCGGGATTACGGCCGACAAGGTCATGGCGCAGGTGGAGCTGCAGTGCGGACCCTTCCGGGTGGTGTCCCTGATGAGCACAGAAGCCGTGCGCGAACTGGGACTCGAACTCGGATCAGTGGCCACTGCCGTGGTCAAAGCCACCACGGTCATTGTGGAAACGCCCAAGGGAAGGAGCATCCTGTGA	MTTIRVSEAARFLGVSDDTIRRWTENGSLTPRKDPSGRLAVDGLELARLAGRQAHLPDDPSAAASSARNRFMGLVTGITADKVMAQVELQCGPFRVVSLMSTEAVRELGLELGSVATAVVKATTVIVETPKGRSIL				NA	NA	NA	NA	NA
D1-17_00485	834	modA	COG0725	Molybdate-binding protein ModA	GTGAATGCCGCCGGCACGCTCCTCCGCGCGCTGCTGGCCGCCGCCACGATGGCGGCTGGATTGTCGGGCTGCGCCCCCGGTCCATCCGGCGGTGGGGAAGGCGGCGCAACGTCCCGGTCTTCCGGAACGTTGACGGTGTTTGCCGCCGCTTCCCTGAAAGAAACGTTCACCAGTCTCGCCGCAGAGTTTGAACGCCGTAATCCCGGGACCAAGGTGAATCTGAATTTTGGCGGGTCCTCGGATCTGGCAACCCAGATCACGCAGGGCGCCCCCGCCGATGTTTTTGCCTCCGCGGACACACGTACCATGGGCCAGGTGTCTGATGCGGCGCTGATCCGGGGCCGTGCAACGCTTTTCGCCAGCAATATCCTGGAAATCGCAGTCCCCCCGGCCAATCCGGCATCGGTTTCGTCCTTTTGGGACCTTGCCGGTCAAGGGGTGAAGGTAGTGGTCTGCGCCAGCCAGGTGCCGTGCGGCGCAGCGGCCGAAGTAGCCGAAAGGGAAACAGGCGTGGTGTTGACCCCCGTCAGTGAGGAAGCGTCCGTGGCCGACGTCCTCGGCAAGGTCTCATCGGGGGAGGCGGACGCCGGCCTCGTCTACGCCACCGATGTGAAAAGTGCCGGCGGCAAGGTCAGCGGCATTCCGTTCCCCGAAGCGCACAAGGCCGTCGTTGCCTACCCCATCGCTGCCCTCGACAACAGCCGGCAGCAGGAGTTGGCGGCGGAGTTCATCTCCCTGGTCGTCAGCAAAGAGGGGCAGCAAACGCTGCAGGCTGCCGGTTTCGGTGCCCCTCCGAGCGCTTCCACCGGTCCGGAAGGAGCCTCCCGCCGATGA	MNAAGTLLRALLAAATMAAGLSGCAPGPSGGGEGGATSRSSGTLTVFAAASLKETFTSLAAEFERRNPGTKVNLNFGGSSDLATQITQGAPADVFASADTRTMGQVSDAALIRGRATLFASNILEIAVPPANPASVSSFWDLAGQGVKVVVCASQVPCGAAAEVAERETGVVLTPVSEEASVADVLGKVSSGEADAGLVYATDVKSAGGKVSGIPFPEAHKAVVAYPIAALDNSRQQELAAEFISLVVSKEGQQTLQAAGFGAPPSASTGPEGASRR	PGPT0008435_839	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
D1-17_00486	885			hypothetical protein	ATGAATACTGGTTTACGGCACGGCTCCGTACCCTACTCCGGCATTCCGTACTGGGTCTATCTCATCGCGGCCGCCGGCGCGCTGCTCGTGCTGCTCCCGCTGGCGGCCATGGCTGCCCGCGTCAACTGGGCACAGTTCGTTCCGCTGGTAACGTCCCAGTCGTCGCTGGATGCGCTTGGGCTCAGCCTGCGGACATCGGCCGTCAGCACGCTCCTGTGCATCATCCTCGGCGTTCCGCTGGCCCTGGTGCTGGCGCGCGGCAGCTTCCCGGGCCAGCGGCTGCTCCGGTCCTTTGTGCTGCTGCCTCTCGTTCTCCCGCCCGTGGTGGGAGGCATCGCCCTCCTGTACACCTTCGGCCGCCAGGGCCTCCTCGGCCGCAACCTGGAGGTCCTGGGAATCCACATCGCCTTCTCCACTGCTGCCGTAGTCATCGCCCAGACATTTGTCGCACTGCCGTTTCTCGTGGTGAGCCTGGAAGGCACGCTCCGGACTGCTGGCAGTCGCTACGAAGCGGTCGCGGCGACTCTCGGCGCCAGCCCTGCCATAGTTCTGCGCCGGGTCACGCTGCCGCTGGTCCTGCCTGGCGTGGCCTCGGGAGCGGTGCTGTCCTTTGCCCGGAGCCTGGGAGAGTTCGGTGCCACCCTCACCTTCGCGGGCAGCCTCCAGGGTGTCACCCGTACCCTCCCGCTTGAGATATATCTCCAGCGCGAAACCGACGCCGACTCCGCCGTCGCCTTGTCCCTTGTCCTCGTGGCGGTCGCGGTTACAGTAGTAGCGGTGTCACACCGCGGTCCCCGGCGATCCGCGGCCCTCGGTTTTGATTCGGGGCCAGTCCCGGGAGAACGCACGACGGCGGTGCCCGCCCCGGCCGGGGACGTCCGGTGA	MNTGLRHGSVPYSGIPYWVYLIAAAGALLVLLPLAAMAARVNWAQFVPLVTSQSSLDALGLSLRTSAVSTLLCIILGVPLALVLARGSFPGQRLLRSFVLLPLVLPPVVGGIALLYTFGRQGLLGRNLEVLGIHIAFSTAAVVIAQTFVALPFLVVSLEGTLRTAGSRYEAVAATLGASPAIVLRRVTLPLVLPGVASGAVLSFARSLGEFGATLTFAGSLQGVTRTLPLEIYLQRETDADSAVALSLVLVAVAVTVVAVSHRGPRRSAALGFDSGPVPGERTTAVPAPAGDVR	PGPT0008440_306	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
D1-17_00487	1089	modC	COG1118	Molybdenum import ATP-binding protein ModC	GTGACCTTCACATTGGAGGCCGCCGTTGCGGCGCGCGGTTTTGACGTGTCCCTCACCGTGGGACCCTCGGAAACTGTGGCCGTCATGGGTCCCAATGGTGCCGGGAAATCCACGCTGCTGGCCGTCATCGCAGGGTTACTGCGTCCGGACGCCGGCAGGGCTGAATTGGACGGCAGGCTGCTGTTTGACCTCGCCGCCGGCCGGACTGCATGGACCGCTCCGCATCACCGCGGCACGGCACTGCTGGCGCAGGAGCCGCTGCTGTTCCCGCACCTGACGGCTCTGGAAAATGTGGCTTTCGGTCCGCGCAGCCGTGGCCTTTCAAGGCGCAGGGCGCGGGATGCTGGACGCCACTGGCTCGATGCCGCGGAGGCGTCCGAACTTGAAACCCGGCGCCCGGCGGAGCTGTCAGGAGGGCAGGCGCAGCGGGTGGCCGTCGCCAGGGCGCTGGCTGCCGACCCCGGCCTGCTGCTGCTCGATGAGCCCATGGCAGCCCTGGACATCCATGCCGCTCCGCTGCTGCGCCGGATGCTCAGAAGGGTGCTCGAGGGACGGAGGGCCATCATCATCACCCACGACGTCCTGGACGCGCTCATGCTGGCAGACCGCGTGGTGGTCCTGGAGAACGGCCGCATTTCAGAGTCCGGGCCCACGCGTGACGTGCTCCAGCGGCCAAAGAGCAGGTTCGCGGCCGGGCTGGCAGGCCTCAACCTGATAGCGGGCACGCTCACCGGCCTGGGCATCAGGACCGCCGACGGCCAGGACATCGCCGGCCTGCACGACCCCCAGCTGGACGTTCAAGGTCCGGAAACCGGAAATGCCCGCCTCCTCGATTCCGGACTGGACGGCGTTGCGGTGTTCCCGCCGTCGGCCGTTTCCGTTTTCCTGGCAGAGGCGCACGGCAGCCCCCGGAACTCATTTCCCGTGACCATCACGGATCTCGAGCCCCATGGGGACCAGGTCCGCGTCCGCGCCGCCGGGCTGTCTGCGGACGTGACGCCGGCCGCATCTGCGGACCTCGGCCTCGCGCCCGGCATGACGGTGTTCTTCGTGATCAAGGCGGGAGCGGTATCCGTCTACCCCGCATGA	MTFTLEAAVAARGFDVSLTVGPSETVAVMGPNGAGKSTLLAVIAGLLRPDAGRAELDGRLLFDLAAGRTAWTAPHHRGTALLAQEPLLFPHLTALENVAFGPRSRGLSRRRARDAGRHWLDAAEASELETRRPAELSGGQAQRVAVARALAADPGLLLLDEPMAALDIHAAPLLRRMLRRVLEGRRAIIITHDVLDALMLADRVVVLENGRISESGPTRDVLQRPKSRFAAGLAGLNLIAGTLTGLGIRTADGQDIAGLHDPQLDVQGPETGNARLLDSGLDGVAVFPPSAVSVFLAEAHGSPRNSFPVTITDLEPHGDQVRVRAAGLSADVTPAASADLGLAPGMTVFFVIKAGAVSVYPA	PGPT0008445_1404	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017	NA	NA
D1-17_00488	336			hypothetical protein	ATGAAGAAGTTCGTGGTTCTTTACAACGCTCCGCAGTCGGCTCAGGCCCAGATGGCAGAGAGCAGCCCGGAAGCCGCCCAGGAGGGCATGAAGGCGTGGATGGAATGGGCGCAACGGGCCGGCGACGGAATTGTGGACATCGGCAATCCGCTGGGCACCGGCAAGGAAGTTACTGCGACCGGCACGTCCGACGCCGCAAGCCACGTAGCCGGGTATGGCATCCTCCAGGCCGAGGACATGGACGCGGCTCTCGCCCTCCTTGACCGTCATCCGCACCTGATGATGCCGGACGCCAGCATCCAGGTGTACGAGTCCCTCGATATCCCCGGTTTGTAG	MKKFVVLYNAPQSAQAQMAESSPEAAQEGMKAWMEWAQRAGDGIVDIGNPLGTGKEVTATGTSDAASHVAGYGILQAEDMDAALALLDRHPHLMMPDASIQVYESLDIPGL				NA	NA	NA	NA	NA
D1-17_00489	2655	clpB	COG0542	Chaperone protein ClpB	TTGGACGTCAAATTCACCACCAAGAGCCAGGAGGCTCTTTCGGCGGCAGCCATGAACGCATCAACGGCAGGTAATCCCCAGGTGGAGCCTGCCCATCTGCTGAAGGCGCTGATGGACCAGCGGGAGGGGGTGGCCGTTGCGCTGCTGCGCGCCACGGGCGCGGATCCCGACGCCGTCAGCACGCAGGCGAGCACGGCCATCAAGGCGATGCCCGCGACCTCGGGCAGTTCTGTGCAGCAGGCCCAGCTTTCCCGTACCGCATTGCAGGCCATCCAGAACGCGCAAAACGAGGCCGACAAGCTCGGTGACTCCTTCGTCTCCACGGAGCATCTGCTGATGGGCCTTGCGGCAGGGAGCGAAGCCGCAGGCAGGATCCTGCGGGACTCCGGCGCCTCGCACGAAGCGCTGGTTGCCGCCCTGCCAGGCGTCCGGGGAGACCGGAAGGTCGACAGCCCGGACCCGGAAAACACATTCCAGGCATTGGAGAAGTTCGGCTCCGACCTCACCGCCATGGCACGCGCCGGCAAGCTGGACCCCGTGATCGGCCGCGACTCCGAGATCCGTCGCGTCATCCAGGTCCTGTCCCGGCGCACGAAGAACAACCCGGTCCTGATCGGTGAACCCGGCGTCGGCAAGACAGCGGTAGTGGAAGGGCTCGCCCAGCGCATGGTGGCCGGGGACGTGCCGGAGAGCCTGCGCGGCAAGACGCTCATCTCCCTGGACCTCGGCTCCATGGTTGCAGGAGCCAAATACCGGGGTGAGTTCGAGGAGCGGCTGAAGGCGGTTCTCGAGGAGATCAAGAATTCCGAAGGCCAGATCGTCACCTTCATCGACGAAATTCACACCGTCGTGGGAGCCGGTGCCACCGGCGATTCGTCCATGGACGCGGGCAATATGCTCAAGCCCATGCTGGCACGCGGCGAACTGCGGCTGATCGGTGCCACCACCCTGGATGAGTACCGCGAAAACATCGAGAAGGACGCCGCCCTCGAACGCCGCTTCCAGCAGGTCTATGTGGGCGAGCCCAGCGTGGAGGACACCATCGGCATCCTCCGCGGCCTGAAGGAACGCTACGAGGCCCACCACAAGGTATCCATCGCGGACTCCGCGCTCGTGGCCGCCGCCACCTTGTCCAACCGGTACATTTCCGGGCGCCAGCTGCCCGATAAGGCCATCGACCTCGTGGACGAGGCCGCGTCCCGCCTGCGCATGGAGATCGATTCCGCTCCGGAGGAAATTGACCAGCTGCGGCGCCAGGTGGACCGGCTCACCATGGAGGAGCTGGCCCTGAGCGGGGAGACAGACCCTGCTTCGGTTGAACGGCTTGCCGCGCTGCGGGCCGACATGGCAGACAAGAAAGAGCAGCTGGCTGCCCTGAACGCCCGGTGGGAAGCGGAAAAGGCGGGACTGAACCGTGTAGGTGACCTGAAGGCCAAGCTCGATGGACTGCGGTCCGCCGCCGACAAGGCCCAGCGCGAAGGCGATCTCGAGACCGCCTCCAGGATTCTCTACGGGGAGATCCCGGCCCTCGAACGCGAGCTGAACGCCGCTGCGGAGGCTGAAGCCGCCGTCGAGGACAAGTCCGGCCAGATGGTGGCGGAGGAAGTGACGGCCAACGATATCGCAGAGGTCATCTCCGCCTGGACCGGCATCCCGGCGGGGCGGATGCTGCAGGGCGAAAGCCAGAAGCTCCTGCACATGGAGGAGGAGCTGGGCCGACGGCTGATCGGGCAGTCCAAAGCCGTGGCCGCGGTCTCCGATGCCGTACGGCGGGCACGTGCCGGCATCAGCGACCCCAACCGTCCAACCGGCTCCTTCCTGTTCCTTGGCCCTACCGGCGTCGGCAAGACCGAACTCGCCAAGTCCCTGGCGGACTTCCTCTTCGACGACGAACGGGCCATGGTGCGGATCGACATGTCCGAGTACTCAGAGAAGCATTCGGTGGCCCGCCTCGTTGGTGCACCTCCGGGATACGTGGGCTACGAGGAGGGCGGACAGCTCACCGAGGCCGTCCGGCGTCGCCCGTACTCGGTAGTTCTGCTGGACGAGGTTGAAAAGGCGCATCCGGAAGTTTTCGACATCCTCCTGCAGGTGCTCGATGACGGCCGCCTCACCGACGGCCAGGGGCGGACTGTGGACTTCCGCAACGTGATCCTGGTGCTGACGTCCAACCTGGGCAGCCAGTTCCTGGTGGACCAGAGCCTGGACGAGCAGGCCAAGCGGGACGCCGTGATGGCCACGGTCAACGCGTCCTTCAAGCCGGAGTTCCTGAACCGGCTGGACGAGGTGGTGCTCTTCGAGGCCCTCACCCTGGACGAGCTCGCCCGGATTGTGGAACTGCAGGTGGCCGAACTCTCCCAGCGGCTGCATGATCGGCGGCTCTCCCTTGAGGTCACCGAAAGTGCGCGTGCCTGGCTGGCGATGTCTGGGTTCGACCCCGCCTACGGCGCCCGGCCGCTGCGGCGGCTGGTCCAGCGCGAAATCGGCGACCGGCTGGCCAAGGCCATTCTCGCCGGTGAGATCTCGGATGGCGACACGGTCCTGGTGGACACCGCGGCCGACGTCGACGAGCTCACGGTCGAAGGGCTGGAAACGATGGCCCGGGCCGGGGGAGCTCCTGCCGGCAACGGGCTCTCAGTCCGGCGCAAGGGATAG	MDVKFTTKSQEALSAAAMNASTAGNPQVEPAHLLKALMDQREGVAVALLRATGADPDAVSTQASTAIKAMPATSGSSVQQAQLSRTALQAIQNAQNEADKLGDSFVSTEHLLMGLAAGSEAAGRILRDSGASHEALVAALPGVRGDRKVDSPDPENTFQALEKFGSDLTAMARAGKLDPVIGRDSEIRRVIQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQRMVAGDVPESLRGKTLISLDLGSMVAGAKYRGEFEERLKAVLEEIKNSEGQIVTFIDEIHTVVGAGATGDSSMDAGNMLKPMLARGELRLIGATTLDEYRENIEKDAALERRFQQVYVGEPSVEDTIGILRGLKERYEAHHKVSIADSALVAAATLSNRYISGRQLPDKAIDLVDEAASRLRMEIDSAPEEIDQLRRQVDRLTMEELALSGETDPASVERLAALRADMADKKEQLAALNARWEAEKAGLNRVGDLKAKLDGLRSAADKAQREGDLETASRILYGEIPALERELNAAAEAEAAVEDKSGQMVAEEVTANDIAEVISAWTGIPAGRMLQGESQKLLHMEEELGRRLIGQSKAVAAVSDAVRRARAGISDPNRPTGSFLFLGPTGVGKTELAKSLADFLFDDERAMVRIDMSEYSEKHSVARLVGAPPGYVGYEEGGQLTEAVRRRPYSVVLLDEVEKAHPEVFDILLQVLDDGRLTDGQGRTVDFRNVILVLTSNLGSQFLVDQSLDEQAKRDAVMATVNASFKPEFLNRLDEVVLFEALTLDELARIVELQVAELSQRLHDRRLSLEVTESARAWLAMSGFDPAYGARPLRRLVQREIGDRLAKAILAGEISDGDTVLVDTAADVDELTVEGLETMARAGGAPAGNGLSVRRKG	PGPT0014580_796	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
D1-17_00490	663			hypothetical protein	GTGAAAGACGAGAAAGCAGTCCCAGATGCCGGGCGACGGAACATCCCGCCGCCGCCCGCAAGCCCGCCTAAAAGCGCGTCCCCACCCGCCGCCTCTTTTGACCTGCCGGAGGAACCCTCCGGAGAGTCCGGCCCACAACGGATTCTTGCCAAGGCGGGTTTCCTGGTGCTTCTGCTCGTCCTGGGCGGCATGCTGGTATGGGCGCTCGGTGCCATGCTGGCCACAGCCACTCTTCAGACCATCGGTGAGCCCGGTCCTGCGGCAACATCACCGTCGGACGCTGCCCCCTCCGCAGCACCCAGGGCAAGCCTCCCGATGAAAGGAGTCAGTTCGTTGGATTTCAGGATTGGTGACTGCTTCAAGGACTTTGACCCCTCAGCGCCGGACGCCGAAATAGTGGCATGCGCTTCGCCGCATTCGGCCCAGCTCGTGGCCGTCCACCAATACGCGGCCGCGGATTCTTACCCGGGCAGCAGAGCCATGAAGGCGAAAGGCCGTGAAGCCTGCCAGGCTGCACCCTTGAGCAGCAAAACCACAGGGTACGAGCTGAAGTACCGCGTGGCCTACCCCAGCCCGGACAGTTGGCGCCGGGGCGACCGCCGTGTGGACTGCTACGTAGTCTCGGCGTCCGGAAACATCATCAAAAGCTCCCTGCTCCCCTAG	MKDEKAVPDAGRRNIPPPPASPPKSASPPAASFDLPEEPSGESGPQRILAKAGFLVLLLVLGGMLVWALGAMLATATLQTIGEPGPAATSPSDAAPSAAPRASLPMKGVSSLDFRIGDCFKDFDPSAPDAEIVACASPHSAQLVAVHQYAAADSYPGSRAMKAKGREACQAAPLSSKTTGYELKYRVAYPSPDSWRRGDRRVDCYVVSASGNIIKSSLLP				NA	NA	NA	NA	NA
D1-17_00491	234			hypothetical protein	ATGGGGCGCGGCCGTCAAAAGGCAAAAGCTACCAAGCAGGCTCGGGACATCAAGTACTACTCCCCGAATACTGACTATTCGGCCCTTCAGCGTGAGCTCACGGGTCCGGGAAGTCGTGCCTCGAGTCATTTCGTGAATGAACCGGCGGAGCCGGATTATTCGGCCTACGTGGATAAGTACGCGGACGAATTGGAAGACGACGACGACGAGGTGGATACCCGTCGTATCGGTTAG	MGRGRQKAKATKQARDIKYYSPNTDYSALQRELTGPGSRASSHFVNEPAEPDYSAYVDKYADELEDDDDEVDTRRIG				NA	NA	NA	NA	NA
D1-17_00492	903		COG3324	Putative glyoxylase CFP32	ATGGTTCAGCGCACCAGGTATGCCCACGGGGAATTGTGCTGGGCGGACGTCCAAACGCCTGACGTTGCCGCGGCCAAGTCGTTCTACGCCGCGGTGTTCGGCTGGCGGTTTGAGGACCTTCCGACGCCGGACGGGCGCAGCTACGCGCAGGCCTTTATCGACAGCGACATCGTGGCCGTTGTGGCCCCGCAGAACCCGGCCCAGCAAGAGGCCGGCACGCCGGCCCAATGGAATGTCTATATTGCGGCGGATAACGCCCGGGACGTGGCCGAAGAAACCCCGCACGCCGGCGGAGCGGTAGAGTTCGGCCCCGAGGACGTGGGCAACAGCGGAGTCATAGTGTTCCTGCACCCGCCGGGCGGCGGGACCACCGGCGTCTGGCAGGCCGGCACGCACGCCGGCTGCAGGCGGTGGAACGAGCCCGGCGCGTTCGCTTGGGCGGAGCTCCTCACACCGGAGCCCGAGGCCGCCGTCGGCTTTTTCCAACAACTGTTCGGCCACGAGGTGATGGAGTATCCGCAGGACGACGGCGGCACCTACACCACCCTCATAGCCAACGGAGCCGAAGTGGCGGGGATCGCCCCTGAGCCTCTCATCGGGGATGAGGGCACGGAACAGGAAGGCACGGAACAGGAAAAGGCCGGTGAAGGTGCTGGAGAGGCAGTGGGCCCCGACAGCGCTGAGGTCCGTGCCCGCCGGGGCTGGCAGGTCTACTTCGGTGTTTCCAGCCTCAAGGAGGCAGTCCTGGCAGCTGTGGCGGCGGGCGCCGAAGTCCTGGTGGAGCCGGAGTTCGCCGAGGACGGCGGGACCATCGCCACCCTCAAGGATCCACAGGGCGGTGTGTTCAGCGTCCTCGAGGTTGAGCTGCCGGGGGAGCAGCCGGGGGTTAGGCGTAGCTGTTGA	MVQRTRYAHGELCWADVQTPDVAAAKSFYAAVFGWRFEDLPTPDGRSYAQAFIDSDIVAVVAPQNPAQQEAGTPAQWNVYIAADNARDVAEETPHAGGAVEFGPEDVGNSGVIVFLHPPGGGTTGVWQAGTHAGCRRWNEPGAFAWAELLTPEPEAAVGFFQQLFGHEVMEYPQDDGGTYTTLIANGAEVAGIAPEPLIGDEGTEQEGTEQEKAGEGAGEAVGPDSAEVRARRGWQVYFGVSSLKEAVLAAVAAGAEVLVEPEFAEDGGTIATLKDPQGGVFSVLEVELPGEQPGVRRSC				NA	NA	NA	NA	NA
D1-17_00493	1176	purM	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGACTTCCGCCTCCCCCACTGCCGACATGAACGCCGCCCAGAACAACGCAGGCATCACGTACGCGTCGGCGGGCGTAGATGTCGAAGCGGGAGACCGCGCCGTCGAACTGATGAAGGACGCCGTCAAGGCGACGCACAATGCTTCGGTGATTGGCGGCGTCGGCGGTTTCGCCGGACTGTTCGATGTCTCCAAGCTGCTGACCTACAAGCGTCCGCTGCTTGCCACGTCCACGGACGGTGTGGGCACCAAGGTAGCCATCGCCCAGGCCATGGATATCCACGACACCATTGGGTACGACCTCGTGGGCATGGTGGTTGACGACATCGTGGTGGTGGGCGCCGAGCCGCTCTACATGACCGACTACATCGCCTGCGGCAAGGTTGTTCCGGAGCGCATCGCGGACATTGTCCGGGGCATTGCGGCAGCCTGTTCCGTAGCGGGCACCGCCCTGGTGGGCGGCGAGACTGCCGAGCACCCCGGACTGCTGGGCGAGCACGAATACGACGTCGCCGGTGCCGCCACAGGTGTTGTCGAGGCCGACTCCCTGCTGGGCCCGGACCGCGTCCGCGCCGGCGACGTGGTGATCGGCATGGCCTCCTCCGGCCTGCACTCCAACGGGTACTCCCTGGTGCGCCGGGTCATCAACCACGCCGGCTGGGCCCTGGACCGCCAGGTCTCCGAACTCGGACGCACCTTGGGCGAGGAACTGCTCGAGCCCACCCGCGTCTACGCCGCCGACTGCCTTGATCTGGCCCGCACCTTCCCGGTGTCCAGTGGCTCTGCTACCGGCGGGGCGGTGCACGGCTTCAGCCACGTCACCGGCGGCGGCCTCGCAGCCAACCTCGCCCGTGTCCTGCCGCAGGGCCTCGTAGCCACCGTGGACCGCGCCACGTGGGAGCTACCGGCCATCTTCAAACTCGTGTCCGAGCTCGGCCGTGTCCCGCTGGCCGACCTCGAGCGTACCCTCAACCTCGGAGTGGGCATGGTAGCGATCGTGTCCGCAGATGTCGCCGACGCAGCTGTTGCCCGCCTGAACGAGCGCGGCCTGCCGTCCTGGATCATGGGCACAGTCAGCGCCGACTCCGACTCCGTCCTCAAGACCGGCCCTGACTACGTGCAGGGCGCCAAGGGTGTGGACGGCGGAGCGGTTTGGATGGTCAACAGCTACGCCTAA	MTSASPTADMNAAQNNAGITYASAGVDVEAGDRAVELMKDAVKATHNASVIGGVGGFAGLFDVSKLLTYKRPLLATSTDGVGTKVAIAQAMDIHDTIGYDLVGMVVDDIVVVGAEPLYMTDYIACGKVVPERIADIVRGIAAACSVAGTALVGGETAEHPGLLGEHEYDVAGAATGVVEADSLLGPDRVRAGDVVIGMASSGLHSNGYSLVRRVINHAGWALDRQVSELGRTLGEELLEPTRVYAADCLDLARTFPVSSGSATGGAVHGFSHVTGGGLAANLARVLPQGLVATVDRATWELPAIFKLVSELGRVPLADLERTLNLGVGMVAIVSADVADAAVARLNERGLPSWIMGTVSADSDSVLKTGPDYVQGAKGVDGGAVWMVNSYA	PGPT0021570_443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
D1-17_00494	1743	purF	COG0034	Amidophosphoribosyltransferase	GTGGCACGCGGCGATGGAAAACTTTCTCATGATCTTCTCCCTGGCGAAAAGGGCCCCCAGGACGCTTGCGGCGTCTTCGGGGTTTGGGCTCCAGGTGAAGAAGTAGCAAAACTCACCTACTACGGGCTGTACGCGCTGCAGCACCGCGGTCAGGAGTCGGCTGGTATAGCCACCAGCGACGGCAAGCGGATCAACGTCTACAAGGACATGGGCCTCGTATCCCAGGTCTTCGACGAGACCACGCTGAACACCCTCACCGGGCATCTCGCCGTCGGCCACTGCCGCTACTCCACCACGGGCGCCAGCCACTGGGCCAACGCCCAGCCAACGCTGGGTGCCACGGCCACCGGGACGGTCGCCCTGGCCCATAACGGCAACCTGACCAACACGGCCGAGCTCAACGCCATGATCACTGAACGCAATGGCGGCCAGCTCAGCGGCGAAATGAAGCAGGGCAACACTTCCGACACCGCGCTCGTCACGGCACTTCTCGAGGGCGAAGAGGGCAAGACCCTCGAAGAGACCGCCATGGAGCTGCTCCCGAAGATCCGCGGCGGATTCTGCTTCGTCTTCATGGACGAGGGAACACTGTACGCCGCCCGCGACACCTTCGGCATCCGCCCGCTGTGCCTCGGCAGGCTGGAACGCGGCTGGGTAGTCGCCTCCGAGCAGTCCGCCCTCGCCACTGTCGGCGCCAGCTTCATCCGCGAGATCGAGCCGGGCGAGTTCATCGCCATCGACGAGCAGGGCGTGCGGTCCCAGCGCTTTGCCGAGCCGACGCCGGCAGGCTGCGTGTTCGAATACGTTTACCTTGCGCGCCCCGACGCTTCAATTTCCGGGCGCTCCGTGTACGAGTCCCGGGTGGAGATGGGCCGGCAGCTCGCCCGCGAGAATACCCAGGCCGCGGACATCGTCATCCCCGTCCCCGAGTCCGGCACTCCCGCCGCTGTGGGCTACGCCGAGGAATCCGGCATTCCGTTCGCCCACGGCTTCGTCAAGAACTCCTACGTGGGCCGCACGTTCATTCAGCCCTCCCAGACCCTCCGCCAGCTGGGCATCCGGCTCAAGCTCAACGCCCTGGAATCCGTCATCCGCGGCAAGCGCGTAGTGGTGGTGGATGACTCGATCGTCCGCGGCAACACCCAACGCGCCATCGTGCGGATGCTCCGCGAAGCCGGCGCGGCCGCCGTCCACGTGAAAATCTCCTCCCCGCCCGTTAAGTGGCCCTGCTTCTATGGCATCGACTTCGCCTCCCGTGCCGAGCTGATCGCCAACGGCGCCACCATCGAGGAGATTTCCCAGGCCATCGGCGCGGATTCCCTGGCCTACATCTCAGAGGACGGCATGATCGGAGCGACGCAGCAGCCCCGCGAAAAGCTCTGCACCGCCTGCTTCACCGGCAAGTACCCCATCGAACTGCCCGACGCCGACAAGCTCGGCAAGAACCTGCTCGAGCGCAAGGATCTGGGCGGCCTGGCTGCTGCCACCGGCACCGCCCCTGTTTCTACTGGTGGAGCTACCGCTGATGCTGCCGCGGTAGCTGCCACCGAGTCGGCCGCGGACGCCCCCGGAAACCCAGACAGCATCCCCGTCACCGAGGATCCTGCAGAGAAGCCCGGAGCAACCGGCTGCGACCCGGGGCCGGACTCCGAACTCGAGAACCTGCTCACCGAAGCCGACCGTGTGCCCGATCTCCATCCCGGCGCTGCAACCGTCGGTGCTGACAAGAAAGAGTCCCTATGA	MARGDGKLSHDLLPGEKGPQDACGVFGVWAPGEEVAKLTYYGLYALQHRGQESAGIATSDGKRINVYKDMGLVSQVFDETTLNTLTGHLAVGHCRYSTTGASHWANAQPTLGATATGTVALAHNGNLTNTAELNAMITERNGGQLSGEMKQGNTSDTALVTALLEGEEGKTLEETAMELLPKIRGGFCFVFMDEGTLYAARDTFGIRPLCLGRLERGWVVASEQSALATVGASFIREIEPGEFIAIDEQGVRSQRFAEPTPAGCVFEYVYLARPDASISGRSVYESRVEMGRQLARENTQAADIVIPVPESGTPAAVGYAEESGIPFAHGFVKNSYVGRTFIQPSQTLRQLGIRLKLNALESVIRGKRVVVVDDSIVRGNTQRAIVRMLREAGAAAVHVKISSPPVKWPCFYGIDFASRAELIANGATIEEISQAIGADSLAYISEDGMIGATQQPREKLCTACFTGKYPIELPDADKLGKNLLERKDLGGLAAATGTAPVSTGGATADAAAVAATESAADAPGNPDSIPVTEDPAEKPGATGCDPGPDSELENLLTEADRVPDLHPGAATVGADKKESL	PGPT0020225_359	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
D1-17_00495	459			hypothetical protein	ATGGCTTCTGAAGACCGCACCCCCGACCGGGATGGCATGAACGACCGGGATGGCATGAACGAACGGGACGGCATGACTGAACGGCGCGAAATCACTGTCCGCAGGGCGCCCAAGTACGTCCCGTTCCTCATCCTGGGTGGACTCGTGGGCATTGCTGTGGCCGCGGTCATCGCTTACGGCCGTCCCGGCAACGAGACCTACGACCCGGGGACCGTGTTCGGCTTTTTCATGGTGCTGTGCGCGGCAGGCGGTGTGATCATTGGCGCAATTACGGCGCTGATCCTCGACCGGCTGAGCGTCAGCCGCGCCCAGCAGGCCGTCGTTGAGGCTGTACCCGAGGCCGAACCTGACGCGGGACAGACCCTTCCTGGCGCGGAACGGCGGGATCTGGAAGGCGAAGCCCCGCCGGCTCCGGAGCACCCGCAGGACAACGGCAATGAGGCCGGGCCCCGGTCATAA	MASEDRTPDRDGMNDRDGMNERDGMTERREITVRRAPKYVPFLILGGLVGIAVAAVIAYGRPGNETYDPGTVFGFFMVLCAAGGVIIGAITALILDRLSVSRAQQAVVEAVPEAEPDAGQTLPGAERRDLEGEAPPAPEHPQDNGNEAGPRS				NA	NA	NA	NA	NA
D1-17_00496	858			Ureidoglycolate lyase	ATGCGGCTGATGCGCATTGGCACACCCGGCAACGAAACACCCGTGATAGTTGACGATGAGGGCCAGGCATACGATCTGCGGCCCGTCACCGCCGACATCGGAGGCGCCTTTTTGGAGACCTGGGCCCACCAGCTGGATGAGCTTGACCTGACGGGCCTGCCCCGGGTCTCCCTCGAGGGCAAGCGGATCGGGGCACCCATTGCCCGCCCGGGGGCTGTGATCGGCATCGGACTCAACTACGCCGCCCATGCTGAGGAGTCAGGTCTTCCCGCACCGGAGCGGCCCATCATCTTTTTCAAGCACCCCAACACCGTGGTGGGGCCGAACGATGACGTCGTCATCCCACCCGGCGCCAGCCGTGTGGACTGGGAGGTGGAGCTGGGCGTCGTGATTGGCCGGCGGGCAAGCTACCTGGACTCGGACGCCGATGCCGCCTCCTGCATCGCAGGGTTTGTCCTGTCGAACGACGTGTCCGAGCGGGAGTTCCAGCTGGAGCACTCCGGGCAGCAGTGGTCGTTGGGCAAGTCCTGCCCCACCTTCAATCCGGTCGGCCCGTGGCTGGTGCCTGCTTCGGCAACGGACGCCGGAAACATCGAGCTAGCGTCCTGGGTCAACGGCGAGCCGCGTCAGAAGAGCTCCACGCAGGACATGATTTTCGGCGCTTCCAACCTCGTGCGCCGCCTGTCGCACTATATGGTCCTCGAGCCCGGGGACCTCATCACCACCGGCACCCCGGCCGGCGTGGCGCTCTCCGGCCGTTTTCCCTACCTGAAGTCCGGGGACCGCATGCGGATGTCGGGCGGGGAACTCCTCGGCGAACAGGAGCAGCGGCTCGTGGACGCAGGGATTCCGGCCTGA	MRLMRIGTPGNETPVIVDDEGQAYDLRPVTADIGGAFLETWAHQLDELDLTGLPRVSLEGKRIGAPIARPGAVIGIGLNYAAHAEESGLPAPERPIIFFKHPNTVVGPNDDVVIPPGASRVDWEVELGVVIGRRASYLDSDADAASCIAGFVLSNDVSEREFQLEHSGQQWSLGKSCPTFNPVGPWLVPASATDAGNIELASWVNGEPRQKSSTQDMIFGASNLVRRLSHYMVLEPGDLITTGTPAGVALSGRFPYLKSGDRMRMSGGELLGEQEQRLVDAGIPA	PGPT0001745_186	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
D1-17_00497	339	hiuH	COG2351	5-hydroxyisourate hydrolase	ATGACCGTTTCCCACGTCACCACCCACATTCTGGACACAGGCGCCGGCCGCCCGGCGGCGGATGTCGCCGTCGTGCTCTATGCGCAGGACAGCAGCGGCTGGAGCAGGCTGGCAGACAGCACCACCGACGCGGACGGCCGTGCCAAAGATCTTGGCCCCGAGGAGCTGGCCCCCGGCACCTACCGGCTGAATTTTTCCACCGGCGACTACTACGCACGGCAGGGCACCGCCACGTTTTTTCCCGAGGTCGACCTCATCTTCCAGGTGACCGGCGTGGAGCACTATCACGTCCCCCTGCTCCTGAGCCCCTTCGCCTACTCCACCTACCGCGGAAGCTGA	MTVSHVTTHILDTGAGRPAADVAVVLYAQDSSGWSRLADSTTDADGRAKDLGPEELAPGTYRLNFSTGDYYARQGTATFFPEVDLIFQVTGVEHYHVPLLLSPFAYSTYRGS	PGPT0021125_1700	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021125-uraH|pucM|hiuH-K07127	NA	NA
D1-17_00498	498	uao		Uric acid degradation bifunctional protein	ATGAGGCTTGCCGAATTCAATGAAGCAGACCGGGCGGACGCCAGTGAAGTCCTCCGGCCCTGCATCGACGCCCAGCGTTGGATAGACGAAATCACCAACGCACGCCCCTTCGCCACCGGTGAGGACCTGCTCGGCTTCGCCCGCGCCGCCGCCTCGCCGTTCACGTCGGAGGAAGTCGCCGCCGCACTGGCACATCACCCCAGGATCGGTGAACGCCCGACGGCGGCGAGCACCGAGGCGGCGATGTCACGCTCCGAGCAGGCCGGCGTCGACCCTGCCGATGCGGCTGTCGCTGACGCCCTTGCGGCCGGAAACCGCGCCTATGAGGAAAAGTTCGGCCGGGTCTTCCTCATCCGGGCGGCGGGCCGCACCGCTCCCGAAATCCTGGCCGCGCTCAACGAGCGCCTGGACAACACCCCTGCCCAAGAAGACGCCATCGTGGCCCAGCAGCTGCGCGAAATCGCCCTGCTGCGACTCCAAGGAGTGATCAGCGAATGA	MRLAEFNEADRADASEVLRPCIDAQRWIDEITNARPFATGEDLLGFARAAASPFTSEEVAAALAHHPRIGERPTAASTEAAMSRSEQAGVDPADAAVADALAAGNRAYEEKFGRVFLIRAAGRTAPEILAALNERLDNTPAQEDAIVAQQLREIALLRLQGVISE	PGPT0021135_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021135-hpxQ-K16840	NA	NA
D1-17_00499	600			hypothetical protein	ATGAGAACACGATCAGCCTTAGCCCTATCCATTGCAGGGATTCTGGTCACAGGGTCCACCGCCCTCGCCGTGAACACCCAGACCTTGAACAATTCCCCAACCGGGACCACCGGCAACGCCAGCGTCCTTCTCCCGGACGGCTCGGCCACCAGTACTCCTGCCACCGTTGCTCCTGCCGCCGTTAGGGGGCAGGCCACCAGCACGGACACGACGGCGGCCGCGCCGCTGCGTGCGAAACAGAAGGCGTCCCCCTCCCCCACTTCAAGGGCGAAGCAGGAAGCGGGCGACGACAAAGGCGGACTCACCAACACCATCGAACCCGGCGACGACAAAGGCGGACTCACCAACACCATCGAACCCGGCGACGACAAAGGCGGATTCACCAACACCATCGAACCCGGCGACGACAAAGGCGGACTCACCAACACCATCGAACCCGGCGACGACAAAGGCGGACTCACCAACACCATCGAACCCGGCGACGACAAAGGCGGACTGACCAACACCATCGAACCCGGCGACGACAAAGGCGGCTTGCGGGCCCCGGAGCCCGGCGACGACAGCGGCGGCCATGGCGGAAAGGGCCGGGATGACGACTGA	MRTRSALALSIAGILVTGSTALAVNTQTLNNSPTGTTGNASVLLPDGSATSTPATVAPAAVRGQATSTDTTAAAPLRAKQKASPSPTSRAKQEAGDDKGGLTNTIEPGDDKGGLTNTIEPGDDKGGFTNTIEPGDDKGGLTNTIEPGDDKGGLTNTIEPGDDKGGLTNTIEPGDDKGGLRAPEPGDDSGGHGGKGRDDD				NA	NA	NA	NA	NA
D1-17_00500	744	regX3_1	COG0745	Sensory transduction protein regX3	ATGGACAGGATAGGTGCTACGAAAATCCAAGGATTGTCCAAGATTGGTGGCGCATTATCAGGTATGCAAATCCTGGTCGTTGAAGATGATGAATCCGTCGCCGCCGGTGTCCTTGAAGGATTGGCGCGGGCCGGTTTCCAAGCCGGCCATGTAGCGGACGGCGCGGGAGCACTTACCGAAGTACGCGCGTCCGGTCCCGATTTCATCCTGCTGGACCTGGGGTTGCCGGACATGGACGGCACAGATCTTTGCCGTGCCATCCGTGCATTGACCACGACCCCGATCATCGTGGTCAGCGCCCGCGATGAGGAAATCGACCGCGTACTGGCTCTGGAGCTCGGCGCCGACGATTACTTGGTCAAGCCATTCGGAATGCGCGAACTGGTAGCCCGGATCAGGGCCGTGGCCCGGCGCTCGGAGGACCACAGCGGGGACGGCCAGTCTGCAGGCAGTATCAGGCAGATCGGTCCGCTGAGCATCAACCAGCGGTCCCGGCGGGTGCTCCTGGATGGCGGCGAAATCCACATGACAGTCAAGGAGTTCGAGCTCCTTTACTACCTCGCCGAAGACCCGGGAGCGGTGTGCCCGAGAAGCGACATTCTGCGCGCCGTCTGGAACGGCAACTGGTACGGAACCACCAAGACGCTGGACGCCCATGTGGCGGCCATCCGGAAGAAACTCGGGGACCCCCGCTGGATCGAGGCCGTACGCGGGGTTGGATTCAGGCTGGACGTCCCTGGATGA	MDRIGATKIQGLSKIGGALSGMQILVVEDDESVAAGVLEGLARAGFQAGHVADGAGALTEVRASGPDFILLDLGLPDMDGTDLCRAIRALTTTPIIVVSARDEEIDRVLALELGADDYLVKPFGMRELVARIRAVARRSEDHSGDGQSAGSIRQIGPLSINQRSRRVLLDGGEIHMTVKEFELLYYLAEDPGAVCPRSDILRAVWNGNWYGTTKTLDAHVAAIRKKLGDPRWIEAVRGVGFRLDVPG	PGPT0002675_842	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
D1-17_00501	1407	sasA_1		Adaptive-response sensory-kinase SasA	ATGAGATGGCGGCTTATTTCCGCGTTCATGGTCATCACCCTCCTTGTGGTGTTGGTTCAGGACATCCCTCTGGGGAATTACCTGATCCGCGTGGAACGGGACCGCCTCACCACGTCCCTGGAGCGGGATGCATTTCTCCTGGGCGGAAGGGCCAGGCAGCTGCTGGAGGGCCGCAGCGGTGTCCCCGCGGGCGTCGAGGACGTTGTGCGCGAATACAGGCAGGCGAGCGGAGCGCGGGTGGTAATCGTCAACACTGCGGGCACCGCAGTGGCCACCTCCGACGACGACCAGTCCGCCACCGGATCCTCCTACCTCTCCCGCCCGGAAATTGCTGCCGCCCTGACGGGCCAGATCAATTCCGGCCAGCGGCACTCCGAGACCTTGGGACTTGACCTGCTCTACGTGACCGTCCCCGTCCTCAGCGGGGACAAAATCACCGGCGCCGTCCGGCTCACCTACCCGGCGTCAGAAGTCACAGACCGGGTATCAGGCCAATTGACGGTGCTGTGGACGGTCGCGGGCACCACGGTGCTCCTCGCCGGCATGCTGGCCTACCTCATGGCAAGTGCTGTCACCCGGAGGATCAAGAGACTTCAGAAAGCCACGGAGGTCCTGGCCGGGGGCGATTTATCCGCCCGGACCGAAGAGGAGGAGGGTGCCCCGGAGCTGCGTGCCCTGGCCCGCTCGTTCAACCGCATGGCCGACAGGCTGGAACTTCTGCTGCAGCAGCAGAAGGGCTTCGCCAGTGACGCCTCACACCAGCTCCGCACGCCGCTGACCGGCCTGCGGCTCCGGTTGGAGAATGCGGTCGAGACTCTCGGGAGCGATCCGGACAGCGCACGGGCCATGGTGGCGGACTCCCTGGCGGAGACCTACCGGCTGCAGCGCATTATTGACGGGCTGTTGCTCCTGAGCAGGTCTGACAGCCGCCACGTGGCTCTCACCAGCGTGGACCTGACTGACGTTGCCTCGAACCGGGCCGAGCAGTGGGAGGCGCTCGCGGAGGAAAGCGGTGTGCGGATCGCACTGAATGCTCCTCCGCAGGCGCGGGTCAAGGCCATGCCTGGGGCAGCGGAACAGATCATCGACAATCTGATCGATAACGCCCTGGCGGTTGCTCCTCCGGGATCACAGGTCCGGCTGGAAGTTTCGCGGCCGGAGAATGACGGGAGGGTAGAGCTGCACATCCTCGATGAAGGCCCCGGGCTCTCCGCCGATGACTGTCAGCGGGCCTTCAACCGGTTCTGGCGGGGCCAGGCGAGCACCGAGGGAAGCGGCCTGGGTCTGGCCATTGTGCAGCAGCTTGCCGAGGCAAGCGGAGCCAGAGCATCGCTCGCACCAAGGACCGACGGTGCCGGTACAGGACTGGATGCCGGCGTGGCCTTCAGGGCCGCGGGCCCTGCCTAG	MRWRLISAFMVITLLVVLVQDIPLGNYLIRVERDRLTTSLERDAFLLGGRARQLLEGRSGVPAGVEDVVREYRQASGARVVIVNTAGTAVATSDDDQSATGSSYLSRPEIAAALTGQINSGQRHSETLGLDLLYVTVPVLSGDKITGAVRLTYPASEVTDRVSGQLTVLWTVAGTTVLLAGMLAYLMASAVTRRIKRLQKATEVLAGGDLSARTEEEEGAPELRALARSFNRMADRLELLLQQQKGFASDASHQLRTPLTGLRLRLENAVETLGSDPDSARAMVADSLAETYRLQRIIDGLLLLSRSDSRHVALTSVDLTDVASNRAEQWEALAEESGVRIALNAPPQARVKAMPGAAEQIIDNLIDNALAVAPPGSQVRLEVSRPENDGRVELHILDEGPGLSADDCQRAFNRFWRGQASTEGSGLGLAIVQQLAEASGARASLAPRTDGAGTGLDAGVAFRAAGPA				NA	NA	NA	NA	NA
D1-17_00502	816	iclR_2	COG1414	Transcriptional repressor IclR	ATGGTAACCACCATGAGCCCAGCAGAATCTCCGGAAGTCACCGGCAACGGCGACACCAAAGGCACGTCCGTCATTGTCAATGCGATTGCCGTCTTGCGGACATTCACGGCGGACGAGCCGCTGCTCGGCGTCACGGAGATCGCCAACCGGGTGGGGCTGCACAAGAGCACCGTTTCCCGGATCCTGGCCACCTTCGAGCAGGAGCGCCTGGTGGAGCGCGATCCTGAAACACGGCGCTTCCGTCTCGGACTGGGCCTTATCGCGGTGGCCGGCCCGCTGCTCGCAGAACTCGAGGAACGGCGCGTGGCTTACCCTGTGCTGCGTGAACTCGCAGAACAAACCGGCGAAACCAGCGCGCTGATGGTGTGGAACGGGTCCGAGTCGATGTGCGTAGAGCAGATTGCCAGCCACCACCAGATCAAGCATTCGACCCCCCTCGGCGCCCGCTACCATGACGCACTAAGCGCTTCGGTGCAGGTTTTCCTCGCCGCCGAATCGCCTGACCGGGTGCGGACATTGCTGCGCAGCGGGGCGATCACCTACCCGGGGCTTGATGAGACCGGCCTGCAGGACTATCTGATCCGCCTCAAGGACGCCACCCGGCGCGGATGGGCCATCAACTACGGCGAATCCTCCCTTGATGAGGTAGGCGTGGCTGCCCCTGTTTATGACCACCGCGGTGACGTCGTTGCCGCCGTCCTCATCCCGGCTCCCCGCTTCCGGGTCTCCCCGGATACCCTGCAGAGCCTGGGCGAATCGTGCCTGGCCGCGGCCCGCCGGGTCACCTCGCGTCTTGGCGGGGCTGCTCCGGCCTAG	MVTTMSPAESPEVTGNGDTKGTSVIVNAIAVLRTFTADEPLLGVTEIANRVGLHKSTVSRILATFEQERLVERDPETRRFRLGLGLIAVAGPLLAELEERRVAYPVLRELAEQTGETSALMVWNGSESMCVEQIASHHQIKHSTPLGARYHDALSASVQVFLAAESPDRVRTLLRSGAITYPGLDETGLQDYLIRLKDATRRGWAINYGESSLDEVGVAAPVYDHRGDVVAAVLIPAPRFRVSPDTLQSLGESCLAAARRVTSRLGGAAPA	PGPT0000860_41	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ALLANTOIN_USAGE	N-AQUISITION-ALLANTOIN_METABOLISM,PGPT0000860-allR-K10973	NA	NA
D1-17_00503	1257			Creatinase	ATGACGACCACAGCATCCGAGAACGCCACGTCCATCGCCGAACTGGAGCGCCTGAAGGTCCTGCACAACGGCCAGAAGGAAAAGCTGACTTTCTCGAACGCCGAGTTCGAACGCCGGCTCGCCGGTCTGCGCAGCATCATAGCGGAGAAGGACCTGGACGCCGTCGTCCTGACCAGCTACCACTCCATCAAGTACTACTCCGATTTCCTCTTCACCTACTTCGGCCGGTCCTATGCCATGGTCGTCACCAAGGACGACACCGTCACCGTTACGGCGAACATCGACGCCGGCATGCCGTGGCGCCGCAGCTACGGCGACAACATCGTCTACACCGACTGGCGCCGGGACAACTTCATCCACGCCATCCAGGAAGCGCTGCGCACGCGCGGCGTCTCGGTCCGCCGCCTCGGCGTCGAGGACGATGCCCTGCCGCTGGAGAACCGCAATAAGATTCAGGCCGCCTTCGAAACCGCGGCGCTCGTCGACGTCTCGAGGGCAGCCATGCGCCAGCGCATGATCAAGTCGGCGGAGGAGATCGAGGTCATCAAGCACGGTGCACGGATCGGCGATCTCGGTGGTGAAGCCATCCGCAATGCCATCACGGCGGGCATCACGGAATACGAGGTTGCACTGATCGGCACCGAAGCCATGGTCCACGAGATCGCCCGCACGTTCCCCGACTCGGAAATCCGGGACACGTGGGTGTGGTTCCAGTCCGGAATTAACACCGACGGTGCACACAACTGGGCCACCACCCGCAAGATCCAGGAACACGACATCCTGTCCCTGAACTGCTTTCCGATGACCTCCGGCTACTACACCGCGCTGGAACGGACCCTGTTCTACGGCGAGCCCGATGCCCGTTCCCTTGAGCTGTGGAACATCAACGTGCAGGTCCACAGGCGGGGACTCGAGCTCATCAAGCCCGGCGCCGTCTGCAAGGACATCGCCGCGGAACTGAACGAGATCTACATCAGCCACGGACTGCTCGCCAACCGCACGTTCGGCTACGGACACTCCTTCGGCGTCCTCAGCCACTACTACGGCCGCGAGGCTGGACTCGAACTCCGCGAGGACATCGACACCGTGCTCGAGCCCGGAATGGTGGTCTCCATGGAGCCGATGATCACGGTCCTCGACGGTGTGCCAGGTGCCGGCGGATACCGCGAGCACGACATCCTGGTGGTCGGCGAGGACGGCGCAGAAAACATCACGAAGTTCCCGTTCGGACCCGAGTACAACATCATCGGGGTCTGA	MTTTASENATSIAELERLKVLHNGQKEKLTFSNAEFERRLAGLRSIIAEKDLDAVVLTSYHSIKYYSDFLFTYFGRSYAMVVTKDDTVTVTANIDAGMPWRRSYGDNIVYTDWRRDNFIHAIQEALRTRGVSVRRLGVEDDALPLENRNKIQAAFETAALVDVSRAAMRQRMIKSAEEIEVIKHGARIGDLGGEAIRNAITAGITEYEVALIGTEAMVHEIARTFPDSEIRDTWVWFQSGINTDGAHNWATTRKIQEHDILSLNCFPMTSGYYTALERTLFYGEPDARSLELWNINVQVHRRGLELIKPGAVCKDIAAELNEIYISHGLLANRTFGYGHSFGVLSHYYGREAGLELREDIDTVLEPGMVVSMEPMITVLDGVPGAGGYREHDILVVGEDGAENITKFPFGPEYNIIGV	PGPT0013580_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013580-CREATINASE-K08688	NA	NA
D1-17_00504	1407	proP_1		Proline/betaine transporter	ATGAGTAACGAAACTTCCTCTCCCGCTGCTCTTGCGGGAGGGCCTGGCCCGGAGTCCAATGACGGACATGACGGGCCGCCCTCCGCAGACAGCTCGTTGAACAATCACAACCTTGACCTGGCCAGCAGCGATGTCAGCAGGGACACGCGACGACGCGTCGTTGCTGCCAGCTTCATCGGCAATTTCGTTGAGTGGTTCGACTACGCCGTGTATGGCTACCTGGCCGTCACGATTTCCGTGGTCTTTTTCCCCGAATCCGATCCTCAGACCGGGCTTCTGCTGACCTTCGCCCTGTTCGCAATATCGTTCCTGGTGCGGCCCCTTGGCGGCTTCGTCTGGGGCCACATCGGGGACAAGGTCGGCAGGCGTACCGCGTTGTCCCTGTCGATCCTGATCATGTCCGGGGCGACGTTCTGCATCGCGCTGATTCCGGGATATGACACGATCGGCATCTGGGCTCCGATTCTGCTGCTGCTCATCAGGGTCGTCCAAGGCTTCTCCGCCTCCGGTGAATACGCCGGCGCGTCAGCCTTCCTGGTGGAATACGCGCCGTCTAACAAGCGCGGCCTGTACGCCGCCGTCGTTCCCGCCAGCACCGCCGCCGGCCTGCTCCTCGGTTCCCTGTTCGCGGGTGTGCTGACGGCTCTGCTGAGTTCCGAGGCAATGCAAAGCTGGGGTTGGCGCCTGCCGTTCCTGCTGGCCGCTCCGATGGGACTGATTGGGCGGTACATCCGGACCAAGCTCGAGGACACCCCGGTGTTCCGCGAGCTGGCAGCCGAGGACGAGACCGTCAAGGCGCCGGTCAGCGCTCTGTTCCGGAACCACTGGCGGCAGCTGCTGCAGGCCGTCGGTGCCGTGCTGCTCAACGCCGTCGGCTTTTACGTGATTCTCAGCTACATGCCGACGTACCTGTCCGCGGAACTGGGCCTGGGTGAAACCGAATCGTTCCTGGCTACCACCATCGCCTTGCTCACGTACATCGGGTTCATCTTCCTGACCGGGATGCTCTCTGACCACTACGGCCGCAAGAAGGTGCTCATCTCTGCGTCCGTAACCTTCATCGTGCTGACGGTGCCCGCGTTCGCGCTGCTGGGCACCGGGAACTTCCTGGTGATCGTTCTTATCCAGATCCTGCTGGGCGCCATGCTGACGCTCAATGACGGCACACTGCCAAGCTTCCTGGCCGAGATGTTCCCAACCCGCGTCCGCTACAGCGGCTTCGCTGTCAGCTTCAACCTCTCCAACGCCCTCTTCGGCGGCACGGCTCCGTTCATGGCCACCCTGCTCATAGCGGCCACTGCCAATGACCTGGCCCCGGCCTGGTACCTGGTCGGCGCGGCTGCCATCTCCCTGATCGCCGTCGCCCTCTCCCGCGAAACCTGCAAAGAACCGCTCCGCTCTGAATAG	MSNETSSPAALAGGPGPESNDGHDGPPSADSSLNNHNLDLASSDVSRDTRRRVVAASFIGNFVEWFDYAVYGYLAVTISVVFFPESDPQTGLLLTFALFAISFLVRPLGGFVWGHIGDKVGRRTALSLSILIMSGATFCIALIPGYDTIGIWAPILLLLIRVVQGFSASGEYAGASAFLVEYAPSNKRGLYAAVVPASTAAGLLLGSLFAGVLTALLSSEAMQSWGWRLPFLLAAPMGLIGRYIRTKLEDTPVFRELAAEDETVKAPVSALFRNHWRQLLQAVGAVLLNAVGFYVILSYMPTYLSAELGLGETESFLATTIALLTYIGFIFLTGMLSDHYGRKKVLISASVTFIVLTVPAFALLGTGNFLVIVLIQILLGAMLTLNDGTLPSFLAEMFPTRVRYSGFAVSFNLSNALFGGTAPFMATLLIAATANDLAPAWYLVGAAAISLIAVALSRETCKEPLRSE	PGPT0013645_908	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-17_00505	1689			hypothetical protein	ATGGCTGGGACTCGCGACGACGATGCGGGGGGTATGGGTGAGTTTGGCTATGCCCAGACCCTGGATCGCAGCATTGGCAAGTTCGCGAGTTTTGCTGCCGGTGTGAGCTATATTTCCATTCTTACCGGTGTTTTCCAGTTGTTTTACTTTGGTTTTTCGATGGCCGGGCCGGCGTATGCGTGGTCCTGGCCTTTGGTGTTCGCGGGCCAGTTGATGGTGGCGTTGTGTTTTGCTGAGCTGGCCGGGCGGTACCCGGTGGCCGGGTCGGTGTATAACTGGGCCAAGCAGCTCTCGTCCGGGACGTTCGCCTGGCTGGCGGGGTGGCTGCTGCTGATCTCCTCGATCGTGGCGCTTGGCGCGGTGGCCCTGGCGCTGCAGCTGACGCTGCCGCAGATCTGGTCGGGTTTCCAGGTCATCGGTGACGGCACGGGCCCGTATGATTTCGCGGTGAACGGGGTGCTGCTGGCCAGCATCATGATCACCCTCTCCACGCTGATCAATGCCTTCGGTGTGAAGCTGATGACCAGGATCAACAGCGTGGGCGTGTTCGTGGAGCTCGCCGCCGCGGTGCTCCTGATCCTGGCCCTGGCCTGGCATGTGGTGCGCGGCCCGGAGGTCCTGTTCGACACCGCAGGCTTTGGTGAGGGCCATGACCTGGGCTTCTTCGGGGTGTTCCTCATCGGGGCGATGGCCTCGGGCTATGTGATGTACGGCTTTGACACCGCCAGTTCCCTGGGCGAGGAGACGAAGGACCCGAAAAAGACCGCCCCCCGGGCGATCCTGCGGGCGATCACGGCCTCCTTCGTCCTGGGCGGGCTGATCCTGCTGGGCGGGCTCCTGGCCGCCCCTGACCTGAAGGACCCCAAGCTCGGCGCGGCCGACGGCGGGCTGCAGTACATCGTGCTCTCCGTCCTGGGCGGCCCGTTCGGGAAGGCCTTCCTGGTGTGCATCGTGGTGGCCGTGGCCGTGTGCACGCTCGCCGTCCACGCCGCGGCGATCCGCATGATGTTCGCCATGGCCCGGGACAACAACCTGCCCTTCAGCCGCCAGCTCTCCAAGGTCCACCCCGAGCGGAAGACCCCCACCGTCGCGGCCATCGTCATCGGACTCATCGCGATCGTTCCGCTGATCGTGAACATCTCCCAGCCGGCGATCTTCACCATCCTCTCCAGCATCAGCATCGTCCTGATTTACCTCTCCTACCTGCTGGTCACCGTGCCGATGCTGCGGCGCCGCTTCGCCAGGAAATGGCCCCTGCCCGACACAGGAGGAAGCACCAGCGGAGGAAGCACCAGCGGCACAGAAGCGGGCTTCAGCCTGGGCAGATGGGGTCTGCCCGTGAACATCCTCGCAGTGCTCTGGGGCGCGGCCATGACCCTGAACCTGATCTGGCCGCGGCCGGAAATCTACAACTCGGTCCCGCCCTTCCACTGGTACCTGCAGTGGGGCGGCGTCATCTTCGTCGCCGCCGTCACCACATGCGGAACCCTGCTCTACCGCCTGCGGATCCGCCACCACACCGGAGTCCTCGCCGAACACGCGGTCCACGCGGAAGCCATGTTCGACGGGGGAGCTGCTGGTGCAGAGACTGCTTCCGGTGCGCCTCCTATCGGCCGAGGGAGCGGGAACACCCCGGTCCCCGCCACTCATTCCGGGGGCGGGGATCTTGTAACCCAAGGCATCAGCTAG	MAGTRDDDAGGMGEFGYAQTLDRSIGKFASFAAGVSYISILTGVFQLFYFGFSMAGPAYAWSWPLVFAGQLMVALCFAELAGRYPVAGSVYNWAKQLSSGTFAWLAGWLLLISSIVALGAVALALQLTLPQIWSGFQVIGDGTGPYDFAVNGVLLASIMITLSTLINAFGVKLMTRINSVGVFVELAAAVLLILALAWHVVRGPEVLFDTAGFGEGHDLGFFGVFLIGAMASGYVMYGFDTASSLGEETKDPKKTAPRAILRAITASFVLGGLILLGGLLAAPDLKDPKLGAADGGLQYIVLSVLGGPFGKAFLVCIVVAVAVCTLAVHAAAIRMMFAMARDNNLPFSRQLSKVHPERKTPTVAAIVIGLIAIVPLIVNISQPAIFTILSSISIVLIYLSYLLVTVPMLRRRFARKWPLPDTGGSTSGGSTSGTEAGFSLGRWGLPVNILAVLWGAAMTLNLIWPRPEIYNSVPPFHWYLQWGGVIFVAAVTTCGTLLYRLRIRHHTGVLAEHAVHAEAMFDGGAAGAETASGAPPIGRGSGNTPVPATHSGGGDLVTQGIS				NA	NA	NA	NA	NA
D1-17_00506	1164			S-(hydroxymethyl)mycothiol dehydrogenase	ATGGTTCATAAAGTCAAGGCAGTGGTTGCCATGGAGAAGGATGCTCCGGTGTCGGTGGAGACGATTCTGGTGCCGGATCCGGGCCCGGGTGAGGCTTTGGTGGATATCCTTACGTGCGGGGTGTGCCACACGGATCTGCATTACAAGCAGGGCGGCATCGGGGATGAGTTCCCGTATCTGCTGGGCCATGAGGCCACCGGTGTGGTCTCCGCTGTCGGGCCGGGGGTGACCGAGGTCGCCCCGGGTGACCGGGTGATTTTGAACTGGCGTGCGGTGTGCGGGCAGTGCCGGGCGTGCGCGAAGGGCCAGGCGCAGTACTGCTTCAACACCGCCAACGCCACCCAGAAGATGACGCTGGAGGATGGCACCGTGCTGTCCCCGGCGCTGGGGATCGGCGCGTTCGCGGAAAAGACCCTGGTCGCCGCGGGGCAGTGCACCAAGGTCGATGAGGACGCCGACCCGGCCGCGGTCGGTTTGCTGGGCTGCGGTGTGATGGCCGGCATCGGCGCGGCGATCAACACCGGCGAGGTCAAGCGCGGGGAGTCCGTGGCCGTGATCGGCTGCGGCGGGGTCGGGATCGCCGCGATCGCCGGCGCGAAGCTGGCCGGGGCGACCACGATCATCGCGGTGGACATCGATGAGAACAAGATCGAAATGGCCAAGACCCTGGGCGCCACGCACGGGGTGAACTCCCGCGAAGTCGATCCGGTCGAGGCGATCCGGGACCTCACCGGCGGCAACGGTGCCGACGTTGTGATCGAGGCCGTCGGCCGGCCCGAAACCTACAAGCAGGCCTTCTACGCCCGCGACCTCGCCGGCCGCGTGGTCCTGGTCGGGGTCCCGACCCCGGAGATGGTCCTGGAACTGCCGCTTTTGGATGTCTTTGGCCGGGGCGGGTCGCTGAAGTCCTCCTGGTACGGGGACTGCCTGCCCTCCCGGGACTTCCCCATGCTCGTCTCCCACTACAAGCAGGGCAACCTGGACCTGGACGCGTTCGTGACCGAACGCATCACCATCGACCAAATCGAGGAAGCCTTCGACAAAATGCACGAAGGCAAAGTCCTGCGCTCCGTCGTCGAAATCGAACCCGCACCCGGTGCCTCCACACCAGCCGGTGCACCAGCCAGTGCAGCGGCCGGAAACCAGACGGCGGTGTCGGTATGA	MVHKVKAVVAMEKDAPVSVETILVPDPGPGEALVDILTCGVCHTDLHYKQGGIGDEFPYLLGHEATGVVSAVGPGVTEVAPGDRVILNWRAVCGQCRACAKGQAQYCFNTANATQKMTLEDGTVLSPALGIGAFAEKTLVAAGQCTKVDEDADPAAVGLLGCGVMAGIGAAINTGEVKRGESVAVIGCGGVGIAAIAGAKLAGATTIIAVDIDENKIEMAKTLGATHGVNSREVDPVEAIRDLTGGNGADVVIEAVGRPETYKQAFYARDLAGRVVLVGVPTPEMVLELPLLDVFGRGGSLKSSWYGDCLPSRDFPMLVSHYKQGNLDLDAFVTERITIDQIEEAFDKMHEGKVLRSVVEIEPAPGASTPAGAPASAAAGNQTAVSV	PGPT0006355_3737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
D1-17_00507	621	gloB_2		Hydroxyacylglutathione hydrolase	ATGAGTCTCACGATCGAGAACCTGGTCACCTCGGGCACGTTTTCCCTGGACGGCGGGACCTGGGAGGTGGATAACAACGTCTGGATCATCGGCAACGACACCGAATGCGTGATCATCGATTCCCCGCACGACGCGACCGCAATCATCAACCAGGTCAAGGGCCGGACGGTGAAGGCGATCCTGCTCACCCACGCGCACAACGACCACATCGGCGCCGCCCGCGACGTCGCGCGCGCCGTGGGCGCCCCGATCCACCTGAACCCCGAAGACCTGGTCCTCTGGGAGCAGGTCTACCCTGACACCAAACCCGACGCCGGAATTGCCGACGGGGACGTATTCGAGATCGCCGGCGCCAGGCTGGAAGCCATCCACACCCCCGGCCACTCACCCGGTTCCACCTGTTTCTACCTGCACAGCGAGGGCACGGTCTTCAGCGGGGACACCCTCTTCAACGGCGGCCCCGGCGCGACCGGGAGGTCCTACAGCGACTACCCCACCATCCTGACCTCCATCCGCGAACGCCTCCTGCCCCTCCCACCCGAAACAGTGGTCCGCACCGGCCACGGCGAGAACACCACCATCGCCGCCGAACGCGAAACCCTGGCCAGGGTTTCGCAGTAG	MSLTIENLVTSGTFSLDGGTWEVDNNVWIIGNDTECVIIDSPHDATAIINQVKGRTVKAILLTHAHNDHIGAARDVARAVGAPIHLNPEDLVLWEQVYPDTKPDAGIADGDVFEIAGARLEAIHTPGHSPGSTCFYLHSEGTVFSGDTLFNGGPGATGRSYSDYPTILTSIRERLLPLPPETVVRTGHGENTTIAAERETLARVSQ	PGPT0001770_7680	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
D1-17_00508	2325		COG0243	putative oxidoreductase	GTGAAGTTCGGCATACAGCCCGCCCCCGTTGCGGATATCAACGAAGACTCCCTCGCCGTCGGCAAACCGAAAACGGAAGCTGCCGGCGTGAAGGCCGTAATGGTGGCACTGGAGCGGGCTGTGGCGCAGGCGGGCGTGACCCGGACGGCACAGTCGCTGCTGCGGCTGAACCAGCGCGGCGGCTTCGACTGCCCGGGCTGCGCCTGGCCGGAATCGGACAAGAAACGCAAGGCTGCCGAATTCTGCGAAAACGGCGCCAAGGCCGTGGCCGAGGAGAACACCCTCCGAACCGTCGGTGCGGAGTTCTGGGCCAGGCATTCCATCGCCGAGCTCTCAACCAAGAGTGAGTACTGGCTGGGCAACCAGGGCCGGCTCAGCGAACCGGTGGTGATCCGGGAAGGGGAGACCCACTATTCGCCGATCTCCTGGGCCGAGGCCTTCGGGCTCATCGGTGAACACATCCGGGCCACCACGCCGGAGCGCTGCGTCTTCTACACCTCCGGCCGCACGGCGAATGAGACTGCGTTCATGTACCAGCTGTTCGCCCGGGCCCTGGGCACCAACAACCTCCCGGACTGCTCCAACATGTGCCACGAGTCCTCCGGCTCGGCGCTGAATCCCACGATCGGCATCGGCAAGGGCACGGTGTCGCTGGATGACATCCACGATTCCGAGCTGATCTTTGTCGTCGGGCAGAATCCCGGCACCAACCACCCCCGCATGCTCTCCGCGTTGAAGGAGTGCAAGGACAAGGGCGGCAAGGTGGTGGCGGTGAACCCGCTGCCCGAGGCCGGCCTGTTCAACTTCAAGGACCCGCAGACCGTCTCCGGTGTGGTCGGCGGCGGCACGCCGCTGGCCGATGAATACCTGCAGATCAAGGTCGGCGGGGACCTGGCGCTGTTCCAGGCGCTGGGCCACCTGCTCCTGGGGGAGGAAGAGCGGAACCCGGGGACCGTCGTCGACCGTTCCTTCATCGACGCGCAGACCGACGGTTTCGATGCCTACCGTCAGGCGCGCCGGGACCTGGACTGGGAGGAAACCGAGAAGGCCACCGGCCTGACCCGGGCCCAGATTGAGACAGTGGCCGGGATGCTCATCCGGTCCAAGGCCACCATCTTCTGCTGGGCACTGGGCGTGACCCAGCAGCCGCACTCGGTGGACACTATCAAGGAAATGGTTAACGTCCTGCTGCTGCAGGGCAACTTCGGCAAGCCCGGCGCAGGCGCCTGCCCGGTGCGCGGGCACTCGAACGTGCAGGGCGACCGGACCATGGGCATCTGGGAAAAACCGAAGGAATGGCTCCTGGAAGCCCTCGACAATGAGTTCGGCATCCAATCCCCGCGGCACCACGGCTACGACGCCGTGGAGTCCATGGAAGCGTTCGAACGCGACGAGGTGGACGTCTTCGTCTCGATGGGCGGGAACTTCTCCCTCGCGTGTTCCGACACCGAGACGCTGGAAGCGGGGATGCAGCGGATCGGGTTGACCGTACACATCTCCACCAAGCCGAACCGCTCCCACGTGGTGCACGGCCGCACCTCACTGATCCTGCCCACGCTGGGCCGGACGGACAAGGACGACAAGCACCCCAAGGGCGCCCAGTTCCTGTCCGTGGAGGACTCCATGTCCGTGGTCCACTCCACCCAGGGCAGGCTGACCCCGGTCTCCGAGCACCTGCTCGCCGAACCGGTGATCGTGGCCCGCATGGCCGAGGCCACCTTCGGGCCGGACCATTTCGTGAACTGGAAAGCCATGGCCGAGGACTACGACGTGATCCGGGACCACATCTCCCGCGTTCTTCCGGGTTTCGAGGACTTCAACACCCGCGTCCGGACGAAGAACGGCTTCGTGCTGCCCAACCCGCCGCGCGACACCCGCTCCTTCGCCACCGACATCGGGCGGGGCCGCTTCACGGTCAGCCCGCTGGAATACCTCACCCCGCCCGAGGGACACCTGGTGCTGCAGACCATCCGCAGCCACGACCAGTACAACACCACCTTTTACGGCCTGGACGACCGCTACCGGGGTATCTCCGGCGGCCGCCGCGTGATCCTGGTCCACCCCGAGGACCTCGCCGAGCGGGGCTTCAAGGACCGGGACCTCGTGGACGTAGTGAGCACCTTCCAGGGCCAGGACCGGCACGCCGAGAAATTCCGGCTCGTGGCCTACCCCACGGCAAAGGGCTGCGCGGCGGCGTACTTCCCCGAGGCCAACGCCCTGGTCCACAAGGAAAACGTCGCCCGGGAGTCGAACACCCCCGGCTTCAAGGCGATGTTCGTCCGCTTCGTGCCACACGTTCCTGCGGACTCCGCGGAGGCACAGTAA	MKFGIQPAPVADINEDSLAVGKPKTEAAGVKAVMVALERAVAQAGVTRTAQSLLRLNQRGGFDCPGCAWPESDKKRKAAEFCENGAKAVAEENTLRTVGAEFWARHSIAELSTKSEYWLGNQGRLSEPVVIREGETHYSPISWAEAFGLIGEHIRATTPERCVFYTSGRTANETAFMYQLFARALGTNNLPDCSNMCHESSGSALNPTIGIGKGTVSLDDIHDSELIFVVGQNPGTNHPRMLSALKECKDKGGKVVAVNPLPEAGLFNFKDPQTVSGVVGGGTPLADEYLQIKVGGDLALFQALGHLLLGEEERNPGTVVDRSFIDAQTDGFDAYRQARRDLDWEETEKATGLTRAQIETVAGMLIRSKATIFCWALGVTQQPHSVDTIKEMVNVLLLQGNFGKPGAGACPVRGHSNVQGDRTMGIWEKPKEWLLEALDNEFGIQSPRHHGYDAVESMEAFERDEVDVFVSMGGNFSLACSDTETLEAGMQRIGLTVHISTKPNRSHVVHGRTSLILPTLGRTDKDDKHPKGAQFLSVEDSMSVVHSTQGRLTPVSEHLLAEPVIVARMAEATFGPDHFVNWKAMAEDYDVIRDHISRVLPGFEDFNTRVRTKNGFVLPNPPRDTRSFATDIGRGRFTVSPLEYLTPPEGHLVLQTIRSHDQYNTTFYGLDDRYRGISGGRRVILVHPEDLAERGFKDRDLVDVVSTFQGQDRHAEKFRLVAYPTAKGCAAAYFPEANALVHKENVARESNTPGFKAMFVRFVPHVPADSAEAQ	PGPT0019635_3096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
D1-17_00509	1725			hypothetical protein	ATGACTACCTCGTCCCTGGTGCTCGGCCCGATCATGCGGTACGTGGATGAGACCTCGGCAAGCATCTGGGTAGAAACCCGGAACAGTGCCCGCGTCACCGTCCGCGCGGGCAGGCAAACCTGGGAGGCCCGGACCTTCGCTGTGCACGGACACCACTACGCCTTGGTGGAGGCCGAAGGGCTGGAACCGGGAGCCGTGGTGCCCTACACGTTGGAGATCAACGGGACTCACTCCTGGCCTGATCCGGATTCCAAATTTCCGCCGCCGGTGATCGCCACGTTGAACCCGGGCAAGCCCCTGCGGCTGGCCTACGGCTCCTGCCGCACCAGCGTCCCGCACGACGAATCCGGCAACAGCACCCACGGCGTGGACTCGCTGCGGGCCTACGCCCTGGCGCTGGCCGCGGGGCGCGGGACCGCCAGCGGCGGCACCGCCCATGGATTAGCATGGCCCGATCTGCTGGTCTTCCTCGGAGACCAGGTGTACGCGGACTCAACCAGCGAGCAGATGCAGGAGTTTATCCGGACCCGCCGGGACATTGATGAACCGCCTGGCGAGGAACTCAAGGACTACGAGGAATACGCCCATCTGTACCACCTGGCGTGGTCCGACCCCGCAAACAGGTGGCTGCTCTCCACCCTGCCCAGCGCCATGATCTTCGATGACCACGACATCAGGGACGACTGGAACGCTTCACTGAGCTGGAAGAAAAAGATGGAGGCCACGTCCTGGTGGCATGGGCGGATTGTCGCAGGGCTGTCCTCATACTGGGTCTACCAGCATCTGGGAAACCTCTCACCGCAGGAGCGGGCGGCCGACGCTATCTGGCAGCGGATCGCGCGGCACCGGGGCGGGGATGAGCCCGACCTGAGCGCCGAGATGGACCGCTTCGCCGAGCGCGCAGACCAGGACCCGGCCTCGTACCGGTGGAGCTTCTGCCGGGACTTTGGAGACACGAGGCTTATCGTTGTTGATTCCCGCGCCGCCCGGAACCTGGATCCGGAACACCGTGCCCTGCTCGACGGTCCGGAAATGGACTGGCTCGACGGCCGGATGCGGGGAGGCTTCCGCCACCTGCTGGTGGCGACGTCGCTGCCCTTCCTGCTGCCGATGGGCCTGCACCACGTGGAAGCGTGGAACGAAGCCATTTCGAAGGGCGCCTGGGGCAAACTCGCCGCCCGGGCAGGCGAGACGCTGCGCCAGATAGTGGACCTGGAACACTGGGCCGCCTTCCAGGGCAGCTTCCAGGAAGTGGCCGCGATGGCGGTTGAGGTCGCCGACGGCAAGCGCGGATCTACGCCGGAGACGGTCACGTTTCTCTCCGGCGACGTGCACTATTCCTATGTTGCTGAAGTGGATCGTTCCTCAGGCAGCCGCATCCTGCAGGCTGTGTGCTCCCCGATCCGCAACCCGCTCCCCAGGCTCATGCGGTCCTTCGGGGCCATCATGTCCTACGGCCTGGCCGTGCCCGTTGGTGCCCTGGTTGCCCGCTCGGCCCGTGTTCCGGACCCGCCCTTCCGTTGGTCCCGTGTCAGGGGACCATGGTTCGACAACAACCTGGCCTGCCTCGAGGTGTCGGACGACGGCCTGAGCCTATGGTGGCAGACTGGCGTGGTGGACGACGGCGACGAACTGAACCCGCGGCTCGAGAACGTGGCTTCCCTTACTGTGCCTCCGCGGAGTCCGCAGGAACGTGTGGCACGAAGCGGACGAACATCGCCTTGA	MTTSSLVLGPIMRYVDETSASIWVETRNSARVTVRAGRQTWEARTFAVHGHHYALVEAEGLEPGAVVPYTLEINGTHSWPDPDSKFPPPVIATLNPGKPLRLAYGSCRTSVPHDESGNSTHGVDSLRAYALALAAGRGTASGGTAHGLAWPDLLVFLGDQVYADSTSEQMQEFIRTRRDIDEPPGEELKDYEEYAHLYHLAWSDPANRWLLSTLPSAMIFDDHDIRDDWNASLSWKKKMEATSWWHGRIVAGLSSYWVYQHLGNLSPQERAADAIWQRIARHRGGDEPDLSAEMDRFAERADQDPASYRWSFCRDFGDTRLIVVDSRAARNLDPEHRALLDGPEMDWLDGRMRGGFRHLLVATSLPFLLPMGLHHVEAWNEAISKGAWGKLAARAGETLRQIVDLEHWAAFQGSFQEVAAMAVEVADGKRGSTPETVTFLSGDVHYSYVAEVDRSSGSRILQAVCSPIRNPLPRLMRSFGAIMSYGLAVPVGALVARSARVPDPPFRWSRVRGPWFDNNLACLEVSDDGLSLWWQTGVVDDGDELNPRLENVASLTVPPRSPQERVARSGRTSP				NA	NA	NA	NA	NA
D1-17_00510	2508	dmg_1		Dimethylglycine oxidase	ATGAGCGCATCACCACGGGTCGTCATCATCGGCGCCGGCATTGTCGGCACCAACCTTGCAGACGAACTGGCCAGCCGCGGCTGGAACAACATCACCGTCGTCGAACAGGGCCCGCTGGAGCTCGCCGGTGGTTCCACCTCCCACGCCCCCGGGCTGGTATTCCAGACCAACCCGTCCAAGACCATGACGGAATTCGCCACCTACACGGTCAACAAGCTCCTGTCCCTCAGCGCCGAGGGGACCTCCTGCTTCAACCAGGTGGGCGGGCTGGAACTTGCCACCACCGAGGCACGCCTGCAGGACCTCAAGCGCAAGCTCGGCTACGCCACCTCCTGGGGCGTTGAAGGCCGGATCATCGACGCGGACGAATGCGAGAAGTACTGGCCGCTGCTGAATAAGGGGCAGTTCAGGGACGGACGCCAGATCCTGGGCGGCCTCCTCGTTCCCTCGGACGGACTCGCCTCCGCTGCCCGGGCGGTCCAGCTCCTGATCAGCCGGGCCCGCGAAGCCGGCGTGACGTTCCTCGGCTCCACTGCGGTCACCGGCATCGAACAGGCCGGCGGCAAGGTCACCGGCGTCGAAACCTCCTCCGGCGTGATCCCCGCCGACATCGTCGTTTCCTGCGCCGGGTTCTGGGGCCGCGAGGTGGGCAAGCTGGTTGGCATGAAGGTGCCGCTGCTTCCGCTCGCCCACCAGTACGTCAAGACCACTGCCCTTGACGAACAGAAGGGCCTGAACGAGCTGCCCAACGGCGCCCGCTCACCCATCCTCCGCTACCAGGACAGGGACCTGTACTTCCGCGAGCACGGCGACCGGATCGGCATCGGCAGCTACGCCCACCGCCCCCTGCCCGTCGACATGGAGCTCCTCCCCCGCGTCGCCGCAGACCAGATGTCCGAGCACCGCATGCCGTCCCGCCTGGACTTCACCCTGGAGGACTTCGCTCCGTCATGGGAGGACTGCCAGGACCTGTTGCCGGCCCTGCACCGAACCCAGATCCAGGACGGCTTCAACGGCATCTTCTCCTTCACCCCCGACGGCGGCCCCCTCATGGGCGAGTCGCCCGACGTCGAAGGCTTCTTCGTTGCCGAAGCCGTGTGGGTCACGCACTCCGCCGGCGTGGCCAAGGCCATGGCCGAACTGCTGGTCGAGGGACAGTCCCGCACCGACCTGCACGGCTGCGAAATCGAACGGTTCGAGAAGGTTCAGACCAGCGACGAATACGTCAGCGAAACGTCGCAGCAGAACTTCGTCGAGATCTACGACATCCTGCACCCGCTGCAGCCCAAGGAATCCCCGCGCGACCTGCGCGTGAGCCCGTTCAACGTCCGGCAGAAGGAACTCGGGGCGTTCTTCCTGGAGTCCGCCGGCTGGGAGCGCCCGCACTGGTTCGAGGCCAACCGCGGCCTGCTGGAGGAACTCCCGGCCGAGTGGCAGACCCCGGAACGCGAACCGTGGGCTGCCATGTTCTCCTCCCCCATCTCGGCGGCCGAAGCGTGGAAGACGCGCACCGCCGTCGGACTTTACGACATGACGCCGCTCAAGCGGCTCTCGGTGGACGGCCCGGGTGCGCTGGCGCTGCTGCAGCGTCTCAGCACCGGCAACATCACCAAAAAGCCCGGCGCCGTGACGTACTGCCTCCTGCTGGCGGACGACGGCGGCATCCGCAGTGACGTGACTGTGGCCAGGCTCGGGGAGGAGACTTTCCAGCTTGGCGTGAACAGCAACGTCGACTTCGACTACCTCCGCGTGGAGGCCAGGAAGCAGTCAGCCGCAGACCCCAGCCAGTGGGCGCACGTCGCCGACATCACCGGCAGCACCTGCTGCATCGGCCTGTGGGGACCTTTGGCGCGCGAAGTAATCGGCAAGGTCAGCACGGACGACCTGTCCAACGACGGCCTCAAGTACTTCCGCACCAAGGAAATCTCGGTAGGCGGCATCCCGGTCACGGCCATGCGGCTCTCCTACGTCGGCGAGCTCGGCTGGGAGCTCTACACCACCGCGGAGTACGGGCTCAAGCTCTGGGACCTGCTGTACGAGGCCGGGCAGGAGCACGGCATCGTCGCGGCCGGACGCGGCGCGTTCAACAGCATGCGCCTCGAGAAGGGCTACCGGCTGTGGGGCACGGACATGACCTCCGAGCACCACCCGTACCAGTCCGGCCTGGGCTTCTCGGTCGCAAAGGACAAGGTGGGCTTCGTCGGGGCCGAGGCGCTGGCCGTCCGCAAGGAACAGCCCGCCGCGAAGGTCCTCCGCTGCCTGACGGTGGACGACGGCACCTCCATCGTGCTGGGCAAGGAGCCGGTGTACGTGAACGGCGAGGCTGCCGGGTACGTCACCAGCGCCGCCTACGGCTACTCCGTCCGCAAGCCAATCGCGTACGCCTGGCTGCCTGCCGCCGTCGAGGTCGGGGACTCCGTGGAGATTGAGTACTTCGGCGAGCGTGTAGCCGCGACCGTCACCGCCGAGCCGCTGTTCGACCCGGGCATGGAGCGCCTCCGCGGCTAA	MSASPRVVIIGAGIVGTNLADELASRGWNNITVVEQGPLELAGGSTSHAPGLVFQTNPSKTMTEFATYTVNKLLSLSAEGTSCFNQVGGLELATTEARLQDLKRKLGYATSWGVEGRIIDADECEKYWPLLNKGQFRDGRQILGGLLVPSDGLASAARAVQLLISRAREAGVTFLGSTAVTGIEQAGGKVTGVETSSGVIPADIVVSCAGFWGREVGKLVGMKVPLLPLAHQYVKTTALDEQKGLNELPNGARSPILRYQDRDLYFREHGDRIGIGSYAHRPLPVDMELLPRVAADQMSEHRMPSRLDFTLEDFAPSWEDCQDLLPALHRTQIQDGFNGIFSFTPDGGPLMGESPDVEGFFVAEAVWVTHSAGVAKAMAELLVEGQSRTDLHGCEIERFEKVQTSDEYVSETSQQNFVEIYDILHPLQPKESPRDLRVSPFNVRQKELGAFFLESAGWERPHWFEANRGLLEELPAEWQTPEREPWAAMFSSPISAAEAWKTRTAVGLYDMTPLKRLSVDGPGALALLQRLSTGNITKKPGAVTYCLLLADDGGIRSDVTVARLGEETFQLGVNSNVDFDYLRVEARKQSAADPSQWAHVADITGSTCCIGLWGPLAREVIGKVSTDDLSNDGLKYFRTKEISVGGIPVTAMRLSYVGELGWELYTTAEYGLKLWDLLYEAGQEHGIVAAGRGAFNSMRLEKGYRLWGTDMTSEHHPYQSGLGFSVAKDKVGFVGAEALAVRKEQPAAKVLRCLTVDDGTSIVLGKEPVYVNGEAAGYVTSAAYGYSVRKPIAYAWLPAAVEVGDSVEIEYFGERVAATVTAEPLFDPGMERLRG	PGPT0013545_65	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013545-dmg_like-K00309	NA	NA
D1-17_00511	993	purU_1	COG0788	Formyltetrahydrofolate deformylase	GTGACCACAACTCTTGAAGCCCGCCCCGCGGGCGCCGCAGCATCCCTTACGACCGACACCGTGGCCACCCCGCGCTCCCTGCCCAAGACCCGCGCCGCAGAGTTCGTCCTCACCCTGGCCTGCCCGGAACGGCCCGGCATCGTCCGGGCGGTGACCACCTTCCTGGCCGACCGCGGCTTCGACATCGTGGAGCACCAGCAGTTCGATGACCACGTCAGCGGCAAACTGTACCTGCGCACCGCCTTCACAGGCAGCGCAACAGAAACCCGTGACCGGGCACATCGGGATTTCACGGGTCCCGACGCAGTTGACCAGCAGACCGCGGAAGGCCTCACTGCCGAGTTCGCCGCCACGGCTGCCGAGTTCGGCATGGATTTCGCCTTCCATGACGGCCAGCCCCCGCGCTTGCTGGTCATGGTCTCAAAGTTCGGCCACTGCCTCAATGACCTGATTTTCCGCTGGCGGGCCGGCAGCCTCGGTGCCGAGATCGCCGTCGTGGTTTCCAACCATGAGGATCTGCGCCCCATGGCGGAAAACGCAGGGCTGCCTTTCATCCACGTTCCGGTGACCGGCGCAACCAAGCCTGAGGCCGAGGCCCGGCTGCTGGAACTCGTCAAAGAGTACGACGCGGACCTTGTGGTCCTGGCGCGCTACATGCAGGTCCTCTCCGACGGCCTGTGCAATGAACTGCGCGGCCGGGCCATCAACATCCACCATTCCTTCCTGCCCGGCTTCAAGGGTGCGAAGCCCTACCACCAGGCCTATGACCGCGGCGTCAAGCTCGTCGGGGCTACCGCGCATTACGTGACCGCGGACCTCGACGAGGGACCGATCATCGAGCAGGAGGTCTTTCGGGTGGACCACAGCCTGGATCCGGATGCCCTTGTCACAGTGGGCAGGGACGCCGAATCGCAGGCCCTGTCCCGGGCCGTGAAGTGGCACTGCCAGCACCGCGTCCTGCTCAACAACACCCGCACCGTCGTATTCCGCTGA	MTTTLEARPAGAAASLTTDTVATPRSLPKTRAAEFVLTLACPERPGIVRAVTTFLADRGFDIVEHQQFDDHVSGKLYLRTAFTGSATETRDRAHRDFTGPDAVDQQTAEGLTAEFAATAAEFGMDFAFHDGQPPRLLVMVSKFGHCLNDLIFRWRAGSLGAEIAVVVSNHEDLRPMAENAGLPFIHVPVTGATKPEAEARLLELVKEYDADLVVLARYMQVLSDGLCNELRGRAINIHHSFLPGFKGAKPYHQAYDRGVKLVGATAHYVTADLDEGPIIEQEVFRVDHSLDPDALVTVGRDAESQALSRAVKWHCQHRVLLNNTRTVVFR	PGPT0008155_166	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-17_00512	2007	betP_1	COG1292	Glycine betaine transporter BetP	ATGGCTCAAAACAGCGATACCCGATATAGCAGCGACAATCTCAGCAGCGAACCAAATCTGAACACCGGCGGCAACGCCACAGAAGCTCCCTTTTCTTCCAGCCGGTCCGTAGGCGTCGATGAAGCCGCCCCTGACCGCCCTCAGGACACCGCCGCGCCTTCCCTGGAACCGGCGCCGGAACCGCCGTCGGACCCTCTGACTGAGCTGGAGGATTACGAACAGATCCTGCAGGAACTCCGCCAGACCAAAACCGAGCAGGCCGTGACAGAACGCCGGAACCGCAAACTCACCCTCGACAAAGTGACCTTCGGGATCACCGGGGTTTTCGCCGTAGCCTTCGTCATGTGGGGCTTCCTCGGGAGCGACAGCCTCTCGGCCACCTCACAGAGCGTCCTTGGCTGGGTCATGCAGTACACCGGCTGGCTGTTCATGGGACTGGCCTCGCTCTTCGTCGTTTTCGTCCTGTGGCTTGCCCTGGGCAAGTTCGGCAATATTCCGCTGGCCAAGGACGGCGAAAAGCCCGAGTTCCGCACCATCTCCTGGATCGCCATGATGTTTGCGGCCGGCATGGGCATCGGGCTCATGTTCTACGGTGTGGCGGAGCCTCTTTACCACTACGTCTCGCCCCCGCCCGGAACCGTGGACGGACGCACCCCCGAAGCCATCCAGACCGCCATGGCCACCTCGATCTTCCACTGGACCCTGCATCCCTGGGCAATGTACGCCGTGGTGGGCATCGCCATGGCCTACGGCACCTACCGGCTGGGCCGCAAGCAGCTGATCTCCGCCGCCTTCACCTCACTGTTCGGCGTCAGAATGGTTGAAGGGCCGGTGGGGAAGTTCATCAACATCCTGGCCATCTTCGCCACCCTGTTCGGCACCGCCGCATCGCTGGGCCTTGGCGCGCTCCAGATCGGCAGTGGACTGACGTCCAACGGCTGGGCTGGGGAAATCGGCACGCCTGTGCTCGTGGTGATCGTCGCCATCCTGACTTCCTGCTTCGTGGCCTCCGCTGTGTCGGGGATCAGCCGCGGCATCCAGTGGCTCTCCAACATCAACATGGTGCTGGCCGTCATCCTGGCCCTCATCGTCTTCGTCGCCGGGCCCACCATGTTCATCCTCAACCTGATTCCTTCCGCAGTGGGCGACTACGCCCGCGACCTGGCGGAAATGTCGTCCCGTACGGAGGCCGTCGGAGACGAAGCCCTGCGCACCTGGATGTCCGGCTGGACCATCTTCTACTGGGCCTGGTGGGTGTCCTGGACACCGTTCGTCGGCATGTTCATTGCACGCATCAGCCGCGGCCGCACCATCCGGCAGTTCGTCACCGGCGTACTGCTCGTGCCGAGTGTTGTCAGTGTCATCTGGTTCGGCATCTTCGGCGGCACCGCCTTCAGCATCCAGGCCGCAGCTGACAAGACGGACAACCCGGCAGACGGACTCGCCAAAATGGTCGACGGCGTGCCCACCATTTCGTTCGACGGCGCCCTCTTCGACCTGGTCAAGAACCTCCCCATGGCTGGCTGGGCCATCGCGGCCGTGATCGCATTGGCCATGGTGCTCGTGGCGATCTTCTTCATCACCGGAGCTGATTCGGCCTCAATCGTTATGGCCTCCCTGAGCTCCAACGGCTCCAACGAACCCCGCCGCGGGCTGGTGATCTTCTGGGGCACCCTGACCGGAGCCGTCGCCGCCGTCATGCTCCTGGCCGGTGGAGATGAACCCTCAGAAGCCCTGTCCGGCTTGCAACGGATCACCATTGTTGCCGCCCTGCCGTTCGTGCTTGTCATGCTCCTGCTCTGCGTCGCCCTGGCGCGGGACCTGCGCCGGGACCCGCTGGCCCTGCGGCGCAGGCTCGCCACGACCGTCGTGGAACGGGCCATCCGCACCGGCGTCGACCAGCACGGCGGCGTCCAGTTCGACCTTGTAACCAAGCATGAATGCGGCGAACGCTGCGCCGGTGACGCCCCTTGTCCCGGCGGTGCCAGCGCCGTCACCCCCAAGTAG	MAQNSDTRYSSDNLSSEPNLNTGGNATEAPFSSSRSVGVDEAAPDRPQDTAAPSLEPAPEPPSDPLTELEDYEQILQELRQTKTEQAVTERRNRKLTLDKVTFGITGVFAVAFVMWGFLGSDSLSATSQSVLGWVMQYTGWLFMGLASLFVVFVLWLALGKFGNIPLAKDGEKPEFRTISWIAMMFAAGMGIGLMFYGVAEPLYHYVSPPPGTVDGRTPEAIQTAMATSIFHWTLHPWAMYAVVGIAMAYGTYRLGRKQLISAAFTSLFGVRMVEGPVGKFINILAIFATLFGTAASLGLGALQIGSGLTSNGWAGEIGTPVLVVIVAILTSCFVASAVSGISRGIQWLSNINMVLAVILALIVFVAGPTMFILNLIPSAVGDYARDLAEMSSRTEAVGDEALRTWMSGWTIFYWAWWVSWTPFVGMFIARISRGRTIRQFVTGVLLVPSVVSVIWFGIFGGTAFSIQAAADKTDNPADGLAKMVDGVPTISFDGALFDLVKNLPMAGWAIAAVIALAMVLVAIFFITGADSASIVMASLSSNGSNEPRRGLVIFWGTLTGAVAAVMLLAGGDEPSEALSGLQRITIVAALPFVLVMLLLCVALARDLRRDPLALRRRLATTVVERAIRTGVDQHGGVQFDLVTKHECGERCAGDAPCPGGASAVTPK	PGPT0013600_324	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-17_00513	351	hcaC_2	COG2146	3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit	ATGCACAAGGCATGCCCGCTCAGTGAACTGGCACCAGGGGAAGCGCTCCGTCTGGACACGTCTCCTCCCATCGCCGTCTTCCACACAGAGGAGGGCGAACTCTTTGCCATTGACGACACGTGCACACACCAGGACGCCTCTCTGGCCGACGGCTGGGTTGAGGACTGCTGGGTTGAATGTCCACTCCATGCATCCCGCTTTAACCTGCGCACCGGAGGCGTGGATGCCCCGCCGGCCAAGCTCCCGGTCCGTGTCCACGAAGTTTCAGTGATTGATGGCGACATCATGATCACCGAATCCGACGAGGTCCCCAACCTCCCCCCTGGCCTGACAGTTAACGGCCACATCTAA	MHKACPLSELAPGEALRLDTSPPIAVFHTEEGELFAIDDTCTHQDASLADGWVEDCWVECPLHASRFNLRTGGVDAPPAKLPVRVHEVSVIDGDIMITESDEVPNLPPGLTVNGHI	PGPT0019745_169	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,PGPT0019745-hcaC-K05710	NA	NA
D1-17_00514	1257	thcD		Rhodocoxin reductase	ATGGAGACGCTTGCAATTGTGGGAGCCTCCCTGGCAGGCCTCTCGGCCGCCAGGGCCGCCCGCGCTCAAGGCTTCACCGGACGGCTTGTGGTGATCGGCGATGAGCCGCACCGCCCGTACGACCGGCCGCCGCTGTCCAAAGACTTCCTGCTCGGTGCCATCACAGCAGAGGACCTGTACCTGGAGTCCGAAACCGACGAGCTGCAGGCCGAGTGGCTGCTTGGAGGCGGTGCTGTATCCCTGGACGCCGAATCGCGTACTATCCGTCTCAAGGACGGCCAGGTCATCAAGGCCGACGGCATTGTCATCGCCACAGGCGCCCGGGCACGCCAGTTGCCCACGCTTGCGGGACTGAGCAACGTGTTCTCACTGCGCACCCTTGCGGACGCCCAGGCCCTGGCCCCCGAACTGCTGCCGGGCAGCAGGATGGCTGTCATCGGCGCAGGCTTCATCGGTGCGGAGGTCGCCTCTGCCGCCGTGTCCCGTGGCATGGAAGTCACCATCATCGACACCAAGCCTGTGCCCTTCGCCGGGCAGTTGGGTACGGAGATGGGGGCAGTGGTGGCCGGGCTGCATGCGGCAAACGGCGTTGAGCTGATCCCGTCCGCTACCGTAGAGGATTTCTACAGCTGTGAAGGGAATGTCTCCGGGTTGCGGCTCTCTGGCGGCCGGTACGTGGGTGCGGACGTCGTCGTCGTCGGCATTGGGGCGCAGCCAAATACAGACTGGCTGTCCGGTTCCGGGCTCGAGCTGAATCCGGGCGTCGTTTGTGACGCCATGGGCCGCACCAATGTTCCCGGGATCGTAGCGGTGGGTGACTGTGCCGCGTGGTTCGACCCTGCGGCCGGAATCCACCGCCGGGTAGAGCATTGGACCGGCGCCCTGGAGCGTGCGGCTCTGGCTGTCCGGTCCTTGCTGGACTCCGACGCTCCAGAACAGCCCGCCAAACCCGCCTACTTCTGGTCGGACCAGCACGGCGTCAAGATTCAGTTTGCCGGGCACTCCGCCGGTTACGACCGCCTCGAGGTTGAGGCCGGTGACCCGCTCGCCCACAGTTTCCTCGCCGTCTACTACCGGCTGGGCGCGCCGGTGGCGGTCCTGGGAATGAACCAGCCCCGGCTTTTCACCAAATGGCGCCGGAGCCTGGCATCGCCGGCCCCGGCAGCGGTATCGCCGCTGCTTGCCGAGCCAGCCCTGCTGCCGCTACCGGCACGGGCGGAATCACGTGCACTCGTGGGGGCCGCCGCCGTGTCCTGA	METLAIVGASLAGLSAARAARAQGFTGRLVVIGDEPHRPYDRPPLSKDFLLGAITAEDLYLESETDELQAEWLLGGGAVSLDAESRTIRLKDGQVIKADGIVIATGARARQLPTLAGLSNVFSLRTLADAQALAPELLPGSRMAVIGAGFIGAEVASAAVSRGMEVTIIDTKPVPFAGQLGTEMGAVVAGLHAANGVELIPSATVEDFYSCEGNVSGLRLSGGRYVGADVVVVGIGAQPNTDWLSGSGLELNPGVVCDAMGRTNVPGIVAVGDCAAWFDPAAGIHRRVEHWTGALERAALAVRSLLDSDAPEQPAKPAYFWSDQHGVKIQFAGHSAGYDRLEVEAGDPLAHSFLAVYYRLGAPVAVLGMNQPRLFTKWRRSLASPAPAAVSPLLAEPALLPLPARAESRALVGAAAVS	PGPT0019730_2354	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,PGPT0019730-hcaD|cndC1-K00529	NA	NA
D1-17_00515	1227	cntA_1	COG4638	Carnitine monooxygenase oxygenase subunit	TTGTCTGTTGAGGTAAGCACGCCGAGTCTGATCCCGACCCTGGGGGGTCATTTGTATACGGATCCGGCTATTTTCCGGGCGGAGCAGGAGCGTATTTTCGAGCAGATGTGGTTCTGCGCGATCCGTTCGGCGGATCTGGAGAAGCCCGGGGCGTGGCAGACGGTGCAGGTGGGGCGGGAGAGCGTGCTGATCTCGCGGACCCGCAAGGGTGAGATCCGTGCGTTCTACAACGTTTGCCGGCACCGCGGGGTGAAGCTGTGCATGGAGGAAAAGGGTGAAGCGGCACGCAACTTCCAGTGCCCGTACCACGCGTGGACGTATGACTTCGAAGGCAAGCTGATCGCGGCGCCGAACCTGACGAAGATGCCTGACATTGACCGGGATGAGTACGGCCTGTCCAAGGTCCACATCCGCGAATACCTGGGCTATGTGTGGGTGTGCCTGGCCGAGGAGCCGCCGTCCTTCGAAGAGGACGTCATGGGCGCGATCGAGGAGCGTCTGGGCGATGTGCACGCCATTGACGGGTACGACGTGGCGAACCTGGCCCTGGGCCGGCGGATCCGGTATGACGTGAAGGCGAACTGGAAGCTCATCATTGAGAACTTCATGGAGTGTTACCACTGCGCGACGATCCACCCGGAGCTGACCGAGGTGCTGCCGGAGTTCGCTGACGGGCTGGCCGCGCAGTACTTCGTGGGCCACGGCGCGGAGTTCGGTGAGGACATCAAGGGCTTCACGGTGGACGGCTCCGAGGGCCTGGATGTCATCCCGGGTGTGGGCGAGGATCAGGACCGGCGTTACTACGCGATCACGATCAAGCCGACCGTGTTCGTGAACCTGGTTCCGGACCACGTGATCATCCACCGCATGTTCCCGATGTCCGCGGACCACACGATCGTCGAATGTGACTGGCTGTACCTGCCCTCCGTGGTGGAGTCCGGCAAGGATGTCAGCGCCTCGGTGGAGCTGTTCCACCGGGTGAACATGCAGGACTTTGATGCCTGCGAGCGTTGCCAGCCGGGCATGGCCTCCAAGTCCTACGCCAAGGGCGGCGTGCTCGTGCCCAGCGAACACCACATCGGCGCTTTCCACGACTGGGTCCAGGAGAAGGTCGGCGATGTCCAGCTCTCCGGAGAGGCACTGCTGGGCCTCACCCAGGACACCCCGCCGCTGGAGGAACGGGCCGAAACCCTGCAGCGCAGAGAAACCCCAACCCCGGCCTCCTAA	MSVEVSTPSLIPTLGGHLYTDPAIFRAEQERIFEQMWFCAIRSADLEKPGAWQTVQVGRESVLISRTRKGEIRAFYNVCRHRGVKLCMEEKGEAARNFQCPYHAWTYDFEGKLIAAPNLTKMPDIDRDEYGLSKVHIREYLGYVWVCLAEEPPSFEEDVMGAIEERLGDVHAIDGYDVANLALGRRIRYDVKANWKLIIENFMECYHCATIHPELTEVLPEFADGLAAQYFVGHGAEFGEDIKGFTVDGSEGLDVIPGVGEDQDRRYYAITIKPTVFVNLVPDHVIIHRMFPMSADHTIVECDWLYLPSVVESGKDVSASVELFHRVNMQDFDACERCQPGMASKSYAKGGVLVPSEHHIGAFHDWVQEKVGDVQLSGEALLGLTQDTPPLEERAETLQRRETPTPAS	PGPT0013680_548	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
D1-17_00516	1500	katA_1	COG0753	Catalase	ATGACCTTGAACATCTCTGCGCCTGCCGTGTCCACCACCCAGTCAGGTGCCCCGGTCACGTCCGATGCCCACTCGAAGTCCGTCGGCGCCGACGGCGCCATCATTCTCACGGACCACTACCTGGTGGAGAAGCTCGCGCAGTTCAACCGTGAGCGGGTTCCGGAGCGTGTGGTGCACGCCAAGGGCGGCGGCGCGTTCGGTACGTTCAAGACCACCGAGGACATCTCCAAGTACACCAAGGCCGCGTTCCTGCAGCCCGGCGTCGAGACCGAGATGCTGATCCGTTTCTCCTCCGTTGCCGGTGAGAACGGCTCCCCCGACACCTGGCGTGACCCGCGCGGTTTCGCCGTGAAGTTCTACACCTCCGAGGGCAACTACGACCTGGTGGGCAACAACACCCCGGTGTTCTTCATCCGCGACGGCATCAAGTTCCCGGACTTCATCCACTCCCAGAAGCGCCTGCCGGGCACGCACCTGCGTGACGCTGACATGCAGTGGGACTTCTGGACCCTCTCCCCCGAGTCCGCGCACCAGGTCACCTGGCTGATGGGTGACCGCGGCCTGCCGGCGTCCTGGCGCGAAATGCAGGGCTACGGCTCGCACACCTACCAGTGGATCAACGCCGAAGGCGAGCGGTTCTGGGTGAAGTACCACTTCAAGTCCAACCAGGGCGTGAAGAACATGACGTCCGAGCAGGCCGAGGCCCTCGCCGGTTCGGACGCGGACTACTACATCCGGGACCTGCACGAAAACATCGAAGCCGGCAACCTGCCCTCCTGGGACCTGCACGTGCAGGTCATGCCCTACGAGGACGCCAAAACCTACCGCTTCAACCCCTTTGACCTGACCAAGGTCTGGCCGCACGCGGACTACCCGCTGATCAAGGTCGGCACCATGGAACTGAACCGGAACCCGGAGAACTACTTCGCACAGATCGAACAGGCCACCTTCGCGCCGTCGAACTTCGTGCCCGGCATCGCCGCGTCCCCGGACAAGATGCTGCAGGCCCGCATCTTCTCCTACGCCGACGCGCACCGCTACCGGGTGGGAACCAACCACGCCCAGATCCCGGTGAACCAGCCCAAGAGCCAGGTCAACAACTACAGCCAGGACGGCGCCGGACGCTACCTGTTCAACGCCCCCTCCGTGCCGGTCTACGCACCGAACACAATGGGCGGACCGGCCGCCGTGGAGCCGCAGAACCCCGCCGGCGGGTGGGAGAACGACGGCGAGCTGACCCTCGCCGCGCACTCCCTGCACGCCGAGGACGGCGACTTCGTCCAGGCCGGCACCCTCTACCGCGAAGTCTATGACGACGCCGCCAAGGCCCGTCTGCTGGAAACCATCACCGGCGCCGTGGGCGGCGTGAAGAGCCCCGGCATCAAGGAACGCGCCATCCAGTACTGGACCAACGTCGACGCCGACCTCGGAGCCAAGCTCCGCGCCAACCTCGGCGCAGCCACCCTCTCCGAGGCAGAAGCGGCCAACAAAATCGGCTAA	MTLNISAPAVSTTQSGAPVTSDAHSKSVGADGAIILTDHYLVEKLAQFNRERVPERVVHAKGGGAFGTFKTTEDISKYTKAAFLQPGVETEMLIRFSSVAGENGSPDTWRDPRGFAVKFYTSEGNYDLVGNNTPVFFIRDGIKFPDFIHSQKRLPGTHLRDADMQWDFWTLSPESAHQVTWLMGDRGLPASWREMQGYGSHTYQWINAEGERFWVKYHFKSNQGVKNMTSEQAEALAGSDADYYIRDLHENIEAGNLPSWDLHVQVMPYEDAKTYRFNPFDLTKVWPHADYPLIKVGTMELNRNPENYFAQIEQATFAPSNFVPGIAASPDKMLQARIFSYADAHRYRVGTNHAQIPVNQPKSQVNNYSQDGAGRYLFNAPSVPVYAPNTMGGPAAVEPQNPAGGWENDGELTLAAHSLHAEDGDFVQAGTLYREVYDDAAKARLLETITGAVGGVKSPGIKERAIQYWTNVDADLGAKLRANLGAATLSEAEAANKIG	PGPT0014380_3411	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-17_00517	186			hypothetical protein	GTGGATGATTGCGAAGTAACCGGGGCCATCCTTACCGACGATCCCATCTCTGAGGATGACGCCATTGCCGCCGTTGAAGGTGCTGAGGCAGGCGCCATAGTCAGCTTCCGCGGCGTCGTCCGCATCCACGACGAGGGTAAGGCCGAAAACGTAACTGACCAGCCCTCGGCAGACGTCGAAAACTGA	MDDCEVTGAILTDDPISEDDAIAAVEGAEAGAIVSFRGVVRIHDEGKAENVTDQPSADVEN				NA	NA	NA	NA	NA
D1-17_00518	873	fdhD_1	COG1526	Sulfur carrier protein FdhD	ATGGCACGCATGACCCAACGGCGGAAGGTCCACCGGTATCTTCTGGATGGCTCCGCCGCCGCGATTGAATACCCCGTGCGGATCAGGGAGGACGTGCTGGCGGCCGAGGAGCCGCTGGAGATCCGTTTCGGCACCATGTCCTTTGCCGTGACCATGCGGACGCCGGGAGACGACTTCGACCTCGTTGCCGGTTTTCTCGTCTCTGAAGGCATCATCCGTGACCAGTCGGATCTCGTATCGCTGCGCTTTTGCGCAGGCGAGGATGAAGACGGCAGGCAGACCTTCAACGTCGTTGAAGCCCAGTTCCGCCCCGGCCTGTCGCTGCCGGACAACGGCCGCCACATTTACACCTCCAGCTCCTGCGGCATCTGTGGCACGACGTCCATTGAAGCCGTGCGCAAGACCCTCGCATTCAGCGCCCAGGAGGACCAGCTGCGCGTGCCGGTCAACGTACTGGCACGGCTCCCCGAACAGTTGCGCGAAGCTCAGGCGCTGTTCGATAAAACAGGGGGGGTCCATGCGGCAGGGCTGTTCAAAATTACTGACAGCGGTGAGGCCGAGCTCCTTTGCCTGCGCGAAGATGTGGGCCGCCACAATGCGGTGGACAAGGTGGTCGGGTGGGCTCTGCGCGAAGGGCTCCTGCCCCTCCGCGGAACCGTCCTCCAGGTCTCGGGCCGGGCGTCATTTGAACTCGTCCAGAAGGCTGCCCTGGCAGGCATCCCTGTTTTGGCGGCAGTCAGCGCACCATCAAGCCTGGCGGCGGACCTAGCCACTGATGCCGGCGTTACCCTTGTGGGTTTCAGCCGGGGCAAGAGCCTCAATGTGTATGTGGGCGAAGAACGGGTGGCACCCGTCGCCGCTGTGAACATCTGA	MARMTQRRKVHRYLLDGSAAAIEYPVRIREDVLAAEEPLEIRFGTMSFAVTMRTPGDDFDLVAGFLVSEGIIRDQSDLVSLRFCAGEDEDGRQTFNVVEAQFRPGLSLPDNGRHIYTSSSCGICGTTSIEAVRKTLAFSAQEDQLRVPVNVLARLPEQLREAQALFDKTGGVHAAGLFKITDSGEAELLCLREDVGRHNAVDKVVGWALREGLLPLRGTVLQVSGRASFELVQKAALAGIPVLAAVSAPSSLAADLATDAGVTLVGFSRGKSLNVYVGEERVAPVAAVNI				NA	NA	NA	NA	NA
D1-17_00519	1278			hypothetical protein	GTGGTAACTCAAGCCCTTCCAATCGCCGACAGACCGGGCAAGGACAGTGGGCGGGCCGCGGACGGGGAACACAGCTGGGCGGAAGCCCGCCGGTTGGCTTTTGATTGCGCCGAACCCCTCGCACCAGTGCGGGTGCCACTTGTGGAGGCGAACGGCAGAACACTTGCCGTTGATGTGACCGCGCTTCAGGAACTGCCCCACTACGCCTCGTCGGCAATGGACGGCTGGACAGTTAATGGTGCCGGCCCTTGGGTGCTGACCGAACCTGGGAAACCCCTCGACAGCGGACAGGCCAGCCCGGTCGTCACGGGCGGAGTAATACCCCCGGGCTCCCAGGCTGTGCTCCGTGTCGAGAGCGGACACGTTGCGGCCAGTGCGGGCGGCCGGGACATCCTGATGATGGCGGAGGGGGCATCACCTGGTGAACCACGTCATGGCCAGCACATCCGAAAGTCAGGCGAGGAAGCGGCAGCCGGTGAAGTCCTCATCCCCGCAGGGACGGCTTTGAACCCTGCCCACATCGCCCTGGCCGCGGTGGCCGGCTTCGACCAGTTGGAAGTGCTCGGCAAACCACTGGTCAAAATGCTGGTCACCGGTTCAGAGGTCGTGACGGCCAAGGTCCCCGCACCGGGCCAGGTCAGGGATGCTTTCGGGCCACAGATCAGTACACTCATCCAAATGCTTGGCGGTGTCCCGGGGCCGCTGATCCGCATCGGCGACTCGTACGAATCATGGCTGACAGCGCTGGGGGCTTCTGAAGCACCCATGGGTCAGTGGTCCGACGTGATCGTTACCACTGGCGGTACAGGGCGTTCAGGCGCGGATCATTTCCGGGCTGCCGTCGCCGCGCTCGGCGGACGGCTCCTGATTGATGGCATCGCCATGCGGCCCGGCCACCCCGCAGCCTTGGCCAAGCTGCCAAATGGCCGTTTCGTCGTCGGACTCCCGGGCAACCCGCTGGCCGCCTTAATGGCCCTGTTCACCATCGGCGGGCCGCTCCTGGCCGCACTGGGCCACCAGCCCCTTGCCGACATCAGCCGCCTGCCCTGCGGCACGGTCATCGACGCCCACCCGGCATCCACGCGGCTCATGCCCTTCCGTTGGGTCGATGGCCTGGCGACTCCGGCCCACTACACCGGACCGGGCATGATGCGCGGCCTGGCTTTCGCCGATGGTGTCCTGGTGGTCCCCTCCCGCGGCGTCCAGTTGGGGGAGCCGGTTCCGGCATTCGCCCTCCCGTGGTGCCCGGCACCGCAAAGCACCCGGACATGGCCATGA	MVTQALPIADRPGKDSGRAADGEHSWAEARRLAFDCAEPLAPVRVPLVEANGRTLAVDVTALQELPHYASSAMDGWTVNGAGPWVLTEPGKPLDSGQASPVVTGGVIPPGSQAVLRVESGHVAASAGGRDILMMAEGASPGEPRHGQHIRKSGEEAAAGEVLIPAGTALNPAHIALAAVAGFDQLEVLGKPLVKMLVTGSEVVTAKVPAPGQVRDAFGPQISTLIQMLGGVPGPLIRIGDSYESWLTALGASEAPMGQWSDVIVTTGGTGRSGADHFRAAVAALGGRLLIDGIAMRPGHPAALAKLPNGRFVVGLPGNPLAALMALFTIGGPLLAALGHQPLADISRLPCGTVIDAHPASTRLMPFRWVDGLATPAHYTGPGMMRGLAFADGVLVVPSRGVQLGEPVPAFALPWCPAPQSTRTWP	PGPT0008430_960	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-17_00520	600	folE_1	COG0302	GTP cyclohydrolase 1	GTGCTTGAGGAAGCGGCTTTAGCAGTAGGCAGCAAAGGGGTAGACCGTCCGCGGGTGGAGCGGGCGGTCCGTGAGTTCCTTCTCGCCGTCGGCGAAGACCCTGACCGGCCTGGCCTGACTGAGACTCCAGCGCGCGTTGCCCGCGCTGCGGTGGAAATGTACGGTGGGCTCCACGAGGATCCCGCAACGGTACTCGATAAGACTTTCGACCTCGGACACGAGGAGTTGGTCCTCGTCAAGGACATTCCCTTCTACTCAACCTGCGAGCACCACCTGGTGCCCTTCCACGGTGTGGCGCACGTCGGGTATATCCCCTCGGCAGACGGGCTGGTCACAGGCCTGAGCAAGCTCGCGAGGCTGGTGGATGCCTTCGCGCGCAGACCGCAAGTACAGGAACGCCTGACAACCCAAGTGGTGGATGCGCTGGTTTCGGCCCTGCGACCCCTCGGCGCAATAGTTGTGGTGGAATGCGAACACCTCTGCATGTCCATGAGGGGAGTCAGAAAGCCGGGGGCAAAAACCATTACCTCCGCAGTGCGCGGAGAGCTGCGGCTGCCGGCGGCACGCGCTGAGGCACTCAGCCTCATCATGGGCCGCTAG	MLEEAALAVGSKGVDRPRVERAVREFLLAVGEDPDRPGLTETPARVARAAVEMYGGLHEDPATVLDKTFDLGHEELVLVKDIPFYSTCEHHLVPFHGVAHVGYIPSADGLVTGLSKLARLVDAFARRPQVQERLTTQVVDALVSALRPLGAIVVVECEHLCMSMRGVRKPGAKTITSAVRGELRLPAARAEALSLIMGR	PGPT0007875_3590	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
D1-17_00521	2340		COG0243	putative oxidoreductase	ATGGCCTCTAAAGCCCCCCGCCAGAACATCGATGAGTCAAAGCTGACTGTCGGCAAACCCAAAACCAAGGCCGTGGGCATTCCCGCAGTCGCCAATGCGCTCAAGATATCCCTTGAGCAGATGGGCCCGCTCCGGAGCGTGCAGACTCTTTTGGCGGTCAACCAGATCGACGGCTTTGACTGCATGGGCTGCGCGTGGCCGGAGCACGAAAAGCGCAATGCTGCGGAGTTCTGTGAGAACGGTGCGAAGGCGGTGGCCGAGGAGGCCACCCGCCGCCGCGTTACACCTGAATTCTTCGCCAAACACTCCGTTGCCGACTTGAAGACGCGTGACGACTACTGGCTCGGGCAGCAGGGCAGGCTGACCCACCCGATGGTCCTGGATGAGGGAGCAACCCACTACCGGCAGATTGACTGGGACGACGCCCTGGAAATGATTGCCCAGGAACTCAGGGACATGGATGACCCTGACCAGAGTGTTTTCTACACGTCCGGCAGGACATCCAACGAGGCTGCCTTTGTATACCAATTGCTCGTGCGCGGGGTGGGCACCAACAACCTCCCGGACTGCTCGAACATGTGCCACGAGTCTTCCGGGTCAGCCCTGGTGGAGACCATAGGCATCGGCAAAGGGTCGGTCAGCCTCAAGGACCTGGAGACGGCGTCCCTGATTTTTGTGGCCGGCCAAAACCCGGGAACAAATCATCCGCGCATGCTCAGCGCACTGGAAAAGGCCAAGAAAAACGGTGCCGCCATCGTTTCCATCAACCCGCTCCCCGAGGCCGGGCTGTTTCATTTCGAAAATCCGCAAACCGTCGCAGGCACGCTGCTTGGCACCCAGCTGACCGATGATTTCCTGCAGATCAGGGCCGGCGGGGACCAGGCACTGTTCCAAGGCCTGGGCAAATACCTCCTGGAAGCAGAACGCGCAGGCAGGAACAGCCCCGGCCTGTCCACGGTTTTTGACCACGGTTTCATCAATAACCACACGGTCGGCATCGAGTCCTACCTCTCCCAGTTGGAACAGGTCCGCTGGGACGACATCATCGAAGCCAGCGGCCTCACTAAAGAACAGATCGCAGCCACTGGAGAACGTCTCTTGGCGTCAGGCTCAACCATCGTCTGCTGGGCGATGGGACTGACACAGCACAAGCATTCAGTGCCGACACTCCGTGACGTCGTCAATGTCCTGCTGCTGCAGGGCAACATCGGGAAGCCAGGAGCCGGGGTATGCCCCGTTCGGGGACACTCCAACGTCCAGGGCGACCGCACGATGGGTATCTTCGAACGGATGCCGGAGAGTTTCCACGACAGGCTCGATCAGGAATTCCAGTTCCGTTCACCTCGGGCCCACGGCTACGACACCGTCGCTGCCATCCGGGCCATGCGGGACGGCAAAGTCCGCCTCTTCGTGGGCATGGGCGGGAACTTCGTCCGGGCTGCTCCGGATTCGGATGTTACCGAGCAGGCCCTGGCCAACACCCGCCTGACGGTGCAGATCTCGACCAAGCTGAACCACTCCCACCTGGCAACAGGAAAACGGGCTCTGATTCTCCCGACTCTGGGCCGCACGGAGAGGGATAGCCAGCAGTCCGGCGACCAGAGGGTGACGGTGGAGGACTCGATGAGCGCTGTCCATGCATCCCGCGGCCGCCTCAAACCGGCAAGCGAACAGTTGATGTCCGAAGTAGCCATCGTCTGCAACCTTGCCCATAAGGTGTTCACGGACGACTCCGGGCTTCCCCTCCCCAACACCCCGGCAACCAACTGGCTCTCGCTTAGGGACGACTACTCCCTGATCAGGAGGCATATCGAAGCCGTCATCGATGGCTTCGAGAATTTCGAGGAGAGAATCCAGAACCCGGGCGGTTTCGTTCTGCCCCACGCGCCCAGGGACAAAAGGGAATTCGATACCCAATCAGGCAAGGCGCACTTTACGTCGAATGCCCTGGAGTACCTTCGGATCCCGCCCGGCCGGTTGATCCTGCAAACCCTTCGTTCCCATGACCAGTACAACACCACCATCTACGGCAAGGACGACCGCTACCGCGGAATACACGGAGGGCGGCGTGTAGTGCTGGTCAACGAGGCGGACATAGCCGAGATGGGCTACGTGGACGGGGACATGGTCGATCTGGTCTCGGAGTTCCGCGGTACAGAACGCAGGGCGGAGAATTTCAGAATCGTGTCTTACTCGACGCCCAAGGGTTGCGCAGCCTCCTATTACCCTGAAACCAACGTGCTGGTGCCGCTCGACTCGGTGGCGGACACCAGCGGAACCCCAACGTCCAAGTCCGTCGTCGTGCGTCTGGAGCCAGTGGGAGCAGGGAGTCGTGCTTGA	MASKAPRQNIDESKLTVGKPKTKAVGIPAVANALKISLEQMGPLRSVQTLLAVNQIDGFDCMGCAWPEHEKRNAAEFCENGAKAVAEEATRRRVTPEFFAKHSVADLKTRDDYWLGQQGRLTHPMVLDEGATHYRQIDWDDALEMIAQELRDMDDPDQSVFYTSGRTSNEAAFVYQLLVRGVGTNNLPDCSNMCHESSGSALVETIGIGKGSVSLKDLETASLIFVAGQNPGTNHPRMLSALEKAKKNGAAIVSINPLPEAGLFHFENPQTVAGTLLGTQLTDDFLQIRAGGDQALFQGLGKYLLEAERAGRNSPGLSTVFDHGFINNHTVGIESYLSQLEQVRWDDIIEASGLTKEQIAATGERLLASGSTIVCWAMGLTQHKHSVPTLRDVVNVLLLQGNIGKPGAGVCPVRGHSNVQGDRTMGIFERMPESFHDRLDQEFQFRSPRAHGYDTVAAIRAMRDGKVRLFVGMGGNFVRAAPDSDVTEQALANTRLTVQISTKLNHSHLATGKRALILPTLGRTERDSQQSGDQRVTVEDSMSAVHASRGRLKPASEQLMSEVAIVCNLAHKVFTDDSGLPLPNTPATNWLSLRDDYSLIRRHIEAVIDGFENFEERIQNPGGFVLPHAPRDKREFDTQSGKAHFTSNALEYLRIPPGRLILQTLRSHDQYNTTIYGKDDRYRGIHGGRRVVLVNEADIAEMGYVDGDMVDLVSEFRGTERRAENFRIVSYSTPKGCAASYYPETNVLVPLDSVADTSGTPTSKSVVVRLEPVGAGSRA	PGPT0019635_3102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
D1-17_00522	258			hypothetical protein	ATGGCCCCTCCTGCTGCGCCTCATTCCGAGGGCACTAAAACCAGCACGAAGGTCGTTTCAGACTGGACAGCGCTCGTCCCAGGGGACTTCGTTACAGTGCGGGAAAACTACTCGGTCCCGCACAGCGGCTGGATTGATGACGTGACGGAGGACGGCAGGATCATCTGGCTGGTTCTGGCCCTCGGGCGGGGCCGTCGTATGTTCTTCCGCGAGGATGGGGACTTTATCTCGGTCGAAGTTCCACATCCCGGGCGTTGA	MAPPAAPHSEGTKTSTKVVSDWTALVPGDFVTVRENYSVPHSGWIDDVTEDGRIIWLVLALGRGRRMFFREDGDFISVEVPHPGR				NA	NA	NA	NA	NA
D1-17_00523	879	folD_1		Bifunctional protein FolD protein	ATGACGGCATCTTTGCTCTCCGGCAAGCCGCTCGCCAAACTCATACAGCAGCAGGCACAGGCCGAAGCCAAAGTCCTGGCGGAAGAGGGCTTGCGCCCGACCCTTGCCGTCGTAGTTGCCACCGAGGACAGTTCGACCCACTGGTACGTGCGCTCCATCGAGCGTGCGTCGGAAAATGCAGGCATCGATTGCAGGATTGTCGACCTCGGCCATGACGCTACCGAGCAGGTGCTCATTACCGTGCTGAAAGACCTCAGCGCCGAGCCTACCGTCAATGGAATCATTTTGCAGACCCCCCTGCCCCCCGGCGTTAGAAGCCAGGAACTGGTCAGGCACATCGCCCCGGAAAAGGACATCGATGGCGCCAACCCTTTGAGCCTGGGGCTTCTTGCCGTCGGGCAGCGCGCCTTCGCCCCTGCTACAGCACGTGCAGTCGTAGAGATCCTGGACCACTTCGACATCCCGGTAGCGGGCCGCAGCGTGGTAGTGGTGGGCCGCTCAGCCGTGGTTGGCAAGCCGCTGTCTCTCCTGCTGCTGCAGAAGGACGCCACCACCACCGTCTGCCACTCGCGGTCAGGCTCCCTTGCGAAGTACACCAAGACTGCGGATATCGTGGTTGTTGCTGCCGGCCGCACAGGGCTGCTCACAGGGACCGACGTTTCTGACCACTCTGTGGTCATCGATGTCGGCACCAATGTGCTTTCCGATGGTTCACTCGTTGGGGATGTGGACGAAGCCAGCGTCCAGGCCGTTGCTGCCGCTCTGACACCCGTGCCCGGCGGTGTGGGCTCAGTAACCACGTCGCTGCTTCTTCTCCACACCGCCGAAGCCGCACGCGACCAGTCCCGCGCGGCCCGAATGCCAGCACTCACGCCGTGA	MTASLLSGKPLAKLIQQQAQAEAKVLAEEGLRPTLAVVVATEDSSTHWYVRSIERASENAGIDCRIVDLGHDATEQVLITVLKDLSAEPTVNGIILQTPLPPGVRSQELVRHIAPEKDIDGANPLSLGLLAVGQRAFAPATARAVVEILDHFDIPVAGRSVVVVGRSAVVGKPLSLLLLQKDATTTVCHSRSGSLAKYTKTADIVVVAAGRTGLLTGTDVSDHSVVIDVGTNVLSDGSLVGDVDEASVQAVAAALTPVPGGVGSVTTSLLLLHTAEAARDQSRAARMPALTP	PGPT0008075_2010	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
D1-17_00524	627	fchA	COG3404	Methenyltetrahydrofolate cyclohydrolase	ATGATCGGTTCAGAAACACTAAATGACTACCTCGGCAGGCTTGCCTCGCGGAACCCGACCCCGGGCGGCGGCGCAGCCGCGGCGTTGCACGCAGCGCAGGGTGCGGCCCTGGTGGCCATGGTGGCAAGATTCAGCACCGGCGGGAAATATGAACAGCACGGACAGACGACCTCCAGGATCATTTCCGCCGCTGACCACCTCATTGACGAGGCGTTGCGACTGGCCGACGCCGATGAGGTCGCCTTTAAAGATGTGATTACCTCCTACAAACTGCCCGCCGCGGACGACTCTGAGCGTGCGGCGCGTGCGGCCGCCATTCAAAGCGCACTAGTTCAGGCTGCCCAACCGCCCGCCCAGCTGATCAAGCTCTCGGGCGCAGTGGTGGAACTCGCCGCCGAACTTTTGGATATTGCCAACCCCAATGTCATCAGCGACATTGCCGCGGCCGCCGACGCGGCCAGGGCGGCTGCCACTACCGCGCGCGTCAACATAGACATCAACGTGGTGGCGATAAAAGACACCCACGCGCGTGCCGCGCTGGCCGAACAAACTGACGGGCTCGAAGAAAAAGTCATTCTGGCTGCTGACTCGCTCTCACAGCACGTACGGGAAAGGATCCTCCGATGA	MIGSETLNDYLGRLASRNPTPGGGAAAALHAAQGAALVAMVARFSTGGKYEQHGQTTSRIISAADHLIDEALRLADADEVAFKDVITSYKLPAADDSERAARAAAIQSALVQAAQPPAQLIKLSGAVVELAAELLDIANPNVISDIAAAADAARAAATTARVNIDINVVAIKDTHARAALAEQTDGLEEKVILAADSLSQHVRERILR	PGPT0008080_328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008080-fchA-K01500	NA	NA
D1-17_00525	2493	dmg_2		Dimethylglycine oxidase	ATGGCATCGACACCACGCATTGTCATTATCGGCGCCGGAATAGTCGGCACTAATGTCGCGGACGAACTGGTGGCCCGTGGGTGGAACAACATCACGGTCCTGGATCAGGGTCCCTTGAACATGCCCGGCGGTTCCACGTCCCACGCCCCCGGCCTGGTCTTCCAGACAAACCCCTCCAAGACCATGACCACTTTCGCGACATACACTGTCGAAAAGCTGCTCTCGCTGAGCGAGGATGGCGTCAGCTGTTTCAACCAGGTAGGCGGTCTGGAAGTTGCAACCACCGAGACGCGCCTCGCCGACCTGAAAAGGAAGTTGGGCTATGCAGCTTCCTGGGGTATCGAGGGAACGATCCTGTCCCCAGCTGAATGCAAGGAGCTCTACCCGCTTTTGAACGATGAGGACGTTCTCGGCGGTCTCCACGTGCCGAGCGACGGCCTGGCCAGCGCTGCCCGTGCAGTGCAGTTGCTCATCAAGCGCACGGAGGCCGCGGGAGTCAGGTATCTGGGCTCCACCACGGTTACCGGGATACAGCAGACGGACGGGCGCGTTACTGGCGTAGAAACTTCGGGGGGCGTTCTTCCCGCCGATATCGTAGTCTCCTGCGGCGGATTCTGGGGCGCAAAGATCGGCTCCCTGATCGGGATGGCGGTGCCTCTCCTGCCGCTGGCGCACCAGTATGTCAAGACCGCTCCGGTGCCCGCCTTGAAGGGACGCAACGAACTGCCGAACGGCGCCACGCTGCCCATCCTCCGCCACCAGGACCAGGACCTTTACTACCGGGAGCACGGCGATCGCTACGGCATTGGTTCTTATGCCCACCGCCCAATGCCCGTTGACCTCGACGATCTCGCGACCTTTACCCCGGACGCCGTCAACGAACACAACATGCCCTCCCGCCTGGACTTCACCCTGGAAGACTTCCTGCCGGCGTGGGAAGCATCCAAGCAGCTGCTCCCCGGACTGGCCGAAAGCGACATCGAAGATGGTTTCAACGGCATCTTCTCGTTCACCCCGGACGGCGGACCGCTCATTGGTGAATCCAAGGAGCTTGACGGCTTCTTCGTGGCAGAGGCGGTGTGGGTTACGCACTCCGCTGGCGTGGCCAAAGCGGTGGCGGAGCTGCTCACGACCGGAAAGTCAGAAACCGACCTGGGCGAATGCGACATCACCCGCTTCGAGGACGTCCAGCTCACGCCGGACTACGTCAGCGAGACCTCGCAGCAGAACTTCGTGGAAATCTACGATGTGCTCCACCCACTCCAGCCCCGGCTCTCCCCGCGGAACCTCCGCGTCAGCCCGTTCCATGCACGGCAGAAGGAACTGGGAGGCTTTTTCCTGGAATCCGGCGGATGGGAACGGCCCTATTGGTTTGAAGCCAATGCTGGTCTCCTCAAAGAGATGCCGACGGAATGGCTGCCCCCGGCCCGTGACGCCTGGGCGCAGATGTTCAGTTCCCCGATCGCAGCCGCTGAGGCCTGGAAGACCCGCACGGCCGTGGCCATGTACGACATGACCCCGCTCAAACGGCTGGAAGTATCGGGTCCTGGAGCCCTGAAGCTGCTTCAGGAATTGACCACGGCGGACCTGGACAAGAAGCCGGGAGCGGTCACCTACACGCTGCTGCTCGACCACGCCGGCGGCGTGCGGAGTGACATCACTGTTGCACGCCTCAGCGAGGACCGCTTCCAGCTCGGAGCCAACGGCAACATCGATACGGCGTACTTCACCAGGGCAGCCCGGCACCAGACCCGGGGCGGATCTGCCACGGACTGGGTCCAGGTTCGGGACATCACGGGCGGCACGTGCTGCATCGGGCTTTGGGGCCCCCTGGCCCGGGACCTCGTCGGCGGCGTCAGCGACGACGACTTCTCCAACGACGGTCTCCGGTACTTCCGGGCAAAGGAAGTTGTCATCGGTGGCGTGCCTGTCACGGCCATGCGCTTGTCCTACGTCGGCGAACTGGGCTGGGAGCTTTACACGAGCGCCGAATACGGCCAGCGACTCTGGGATGTGCTGTGGAAGGCCGGGCAGCCGCTCGGCGTCATCGCGGCCGGACGTGCGGCCTTCAGTTCCCTCCGCCTGGAAAAGGGATACCGCTCGTGGGGAGCGGATATGACCACCGAGCATGACCCGTTTGAGGCGGGTCTCGCCTTCGCGGTAAAGATGTCCAAGGACAGCTTTATCGGCAAGGGCGCACTCGAAGGCAGGACGGAGGAAGGTTCTGCCCGCCGCCTGCGGTGCCTGACCATCGACGACGGCCGGTCCATCGTCCTCGGCAAGGAACCTGTGTACTACAAGGAGCAGACGGTCGGCTATGTGACCAGCGCGGCCTACGGCTACACGGTCGCCAAGCCGATCGCCTACGCCTACCTGCCGGCGACCGTTTCCATCGGCGATTCTGTCGAGATTGAATACTTCGGACGACGCATCAGGGCCACTGTTACTGAAGATCCTCTTTACGACCCGAAAATGACCAGGCTCCGCGGCTAA	MASTPRIVIIGAGIVGTNVADELVARGWNNITVLDQGPLNMPGGSTSHAPGLVFQTNPSKTMTTFATYTVEKLLSLSEDGVSCFNQVGGLEVATTETRLADLKRKLGYAASWGIEGTILSPAECKELYPLLNDEDVLGGLHVPSDGLASAARAVQLLIKRTEAAGVRYLGSTTVTGIQQTDGRVTGVETSGGVLPADIVVSCGGFWGAKIGSLIGMAVPLLPLAHQYVKTAPVPALKGRNELPNGATLPILRHQDQDLYYREHGDRYGIGSYAHRPMPVDLDDLATFTPDAVNEHNMPSRLDFTLEDFLPAWEASKQLLPGLAESDIEDGFNGIFSFTPDGGPLIGESKELDGFFVAEAVWVTHSAGVAKAVAELLTTGKSETDLGECDITRFEDVQLTPDYVSETSQQNFVEIYDVLHPLQPRLSPRNLRVSPFHARQKELGGFFLESGGWERPYWFEANAGLLKEMPTEWLPPARDAWAQMFSSPIAAAEAWKTRTAVAMYDMTPLKRLEVSGPGALKLLQELTTADLDKKPGAVTYTLLLDHAGGVRSDITVARLSEDRFQLGANGNIDTAYFTRAARHQTRGGSATDWVQVRDITGGTCCIGLWGPLARDLVGGVSDDDFSNDGLRYFRAKEVVIGGVPVTAMRLSYVGELGWELYTSAEYGQRLWDVLWKAGQPLGVIAAGRAAFSSLRLEKGYRSWGADMTTEHDPFEAGLAFAVKMSKDSFIGKGALEGRTEEGSARRLRCLTIDDGRSIVLGKEPVYYKEQTVGYVTSAAYGYTVAKPIAYAYLPATVSIGDSVEIEYFGRRIRATVTEDPLYDPKMTRLRG	PGPT0013545_101	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013545-dmg_like-K00309	NA	NA
D1-17_00526	915	purU_2	COG0788	Formyltetrahydrofolate deformylase	ATGACCCTGGTGCAGACTTTCCAAGAGACACGCCCCGCTCCACAGGCGGAAGCCTCCGGAAAACCAGCCAGCCGGAAGTTCGTACTCACACTGTCGTGCGTCGAACGTGCCGGCATCGTTCAGGCAGTCACCACGTTCCTGTTTGAGCGCGGATTCAACATCGAGGAGCACCAGCAGTTCGACGACGGCCTCCGCCAGACTCTTCACCTGCGTACCGCTTTTTCCGGGCCGACACACTTCGAAGCGGCCAGGCTGGAGGAGGAGTTCCGTCCCATAGCGGATCGTTTCGAGATGACGTTCAGCTTTCACGACGAGACCAAAGAACGCGTTCTGGTGATGGTCTCCAAGTTCGGGCACTGCCTGAATGACCTGATCTTCCGGTGGCGCGGTGGGAGCCTGGGTGGAGAACTTGTAGCCGTCGTTTCCAACCACGAAACACACCGCGCCATGGCCGAGGCCGCCGGCCTTCCATTCGTGTACATTCCGGTGACTCCCGAGACCAAAGAAGACGCCGAGCGTAGGCTGCTCGAGCTGGTCGACGAGTACAACGTGGACCTCGTGGTCCTCGCCCGGTACATGCAGGTACTTTCCAATGACCTGTGCCGCGCTCTCGAGGGAAGGGCGATCAACATCCACCACTCGTTCCTGCCGGGGTTCAGGGGCGCGCGTCCGTACCACCAGGCCTATGACCGCGGGGTCAAGCTGGTGGGGGCGACCGCCCACTACGTGACCGCGGACCTCGATGAAGGTCCGATCATCGAGCAGGAAGTCATCCGCGTCGACCATAGCTTTGGGCCGACCGCCCTCTCCACGGTGGGACAGGATGCAGAGGCTTTGGCGCTGGCACGCGCAGTCCGTTGGCACTGCGAGCACCGTGTCCTGCTGGACCAGTCCAGCACGGTCGTCTTCCGTTGA	MTLVQTFQETRPAPQAEASGKPASRKFVLTLSCVERAGIVQAVTTFLFERGFNIEEHQQFDDGLRQTLHLRTAFSGPTHFEAARLEEEFRPIADRFEMTFSFHDETKERVLVMVSKFGHCLNDLIFRWRGGSLGGELVAVVSNHETHRAMAEAAGLPFVYIPVTPETKEDAERRLLELVDEYNVDLVVLARYMQVLSNDLCRALEGRAINIHHSFLPGFRGARPYHQAYDRGVKLVGATAHYVTADLDEGPIIEQEVIRVDHSFGPTALSTVGQDAEALALARAVRWHCEHRVLLDQSSTVVFR	PGPT0008155_350	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-17_00527	681	rspR_2	COG1802	HTH-type transcriptional repressor RspR	GTGGCGTTTGAAGCACTGGCGGTGACCGAGGACGTTGGCTCGAAATCCTTGGCCGACGTGGCCTACGAACGGATACGTGACAGCCTGCTGACCTTGGAAATCAAGCCGGGTGAGCCGCTGTATGACGAAGGGCTTGCAAAGGAACTTGGCGTGGGACGGACTCCTGTTAGGGAGGCCCTGAAGCGGCTTGAACTGGACCGGCTCGTCGTGACCTACCCCCGCCGCGGCACCTTTGCAACACGCGTGGAGGTCACGGACCTCGCCTTCATCTCGGAGATTCGAGCGCAGCTGGAACCGCTGGCGGCTTCCCGTGCTGCAAGGGTCGCCACCGCGGCGGCCCGGGAGCGTCTGCGGCTTATTGTGAATGCAGTGGAGTCCTTCGACGTGGACAACGCATCCATCGTGGAGACCCTGCAGCTGGACGCCCGCGTCCACCAGGGAATTTATGCCGCGGCGGGGAATCCGCACCTGGAGGACGTGCTGATCCGCTACGACAACCTGGCCACGCGCATCTGGTGCATGGTCCTGGATCGCCTGCCGGACCTTTCCCGGCACGTGCATGAGCACGTCGACCTGCTTCAAGCCGTGATCGATAAGGACGAGTCCCGTGCAGCAGAGCTGGCACGCGCTCACGTCAATGGCTTTGAGCAGGCCGTCCGTACAGCACTGTTCGCTGCGTAG	MAFEALAVTEDVGSKSLADVAYERIRDSLLTLEIKPGEPLYDEGLAKELGVGRTPVREALKRLELDRLVVTYPRRGTFATRVEVTDLAFISEIRAQLEPLAASRAARVATAAARERLRLIVNAVESFDVDNASIVETLQLDARVHQGIYAAAGNPHLEDVLIRYDNLATRIWCMVLDRLPDLSRHVHEHVDLLQAVIDKDESRAAELARAHVNGFEQAVRTALFAA				NA	NA	NA	NA	NA
D1-17_00528	1569	zwf2_1	COG0364	Glucose-6-phosphate 1-dehydrogenase 2	ATGCCAGATACTTTGAAGAGGCTTGTGTCCCGGGGCGGGAATCCGTTGCGGGATCCGCGGGATCGTCGTTTGAACCGTATTGCCGGTCCGTCCTCGCTTGTGCTGTTCGGGGTCACGGGTGATCTTGCCCGGAAGAAGCTGATGCCGGCGGTGTATGACCTTGCCAACCGGGGGTTGTTGCCGCCGAGTTTCGCGCTGGTCGGTTTCGGGCGGCGGGGCTGGGATGACGAGGAGTTCGCCGCGGAGGTCAAGGACGCGGTCATCTCGTATTCGCGGACGCCTTTTGATGAGGCGGTGTGGAACCAGCTTTCGGAGGGTATCCGTTTTGTGCAGGGCGAGTTCGACGATGACGCCGCGTTTGAGCGGTTGGGTGAGACGATCAAGGAACTGGACGAGAACCGGGGCACGCGGGGGAATCACGCGTTCTATTTGTCGATCCCGCCGAAGGCGTTTGAGCAGGTGTGCCGGCAGCTCTCGAAGCACGGGTTGGCGCAGGCTGAGGGTGAGACGTGGCGGCGGGTGGTGATCGAGAAGCCGTTCGGGCATGACCTGGAATCGGCGCGGGCGCTGAATGACATTGTGGAGTCGGTGTTCCCGCCGGATGCGGTGTTTAGGATCGATCATTACCTGGGCAAGGAGACGGTGCAGAACATCCTGGCGCTGCGGTTCGCGAACCAGCTGTTTGAGCCGTTGTGGAACGCGAACTACGTGGACCATGTCCAGATCACGATGGCCGAGGACATCGGCACCGGCGGCCGGGCGGGGTATTACGACGGGGTCGGCGCGGCGCGGGACGTGATCCAGAACCACCTTTTGCAGCTGCTGGCGTTGACGGCGATGGAGGAACCGATCTCCTTTAACGCCGATGATTTGCGGGCGGAGAAGGAAAAGGTCCTGGCCGCGGTGCGGTTGCCGGAGGATCTGTCCACGCACTCGGCGCGGGGGCAGTTCGCCGGCGGCTGGCAGGGCGGGGAGCAGGTGCTGGGGTACCTGGAGGAAGAGGGCATCCCGGCGGACTCGACGACTGAGACGTTTGCGGCGATCCGGGTGGACATCAACACCCGGCGCTGGTCCGGGGTGCCGTTCTACCTGCGTGCGGGCAAGCGGCTGGGTCGGCGGGTGACGGAGATCGCGGTGGTGTTCAAACGCGCCCCGAACCTGCTCTTCGGCGCTCACGGGGGCGTTGGCCACGGGGATGATGATTTCGGGCAGAACGCGGTGGTGATCCGGGTCCAGCCCGATGAGGGCGCGACGATCCGGTTCGGGTCCAAGGTCCCGGGCACCCAGATGGAAGTGCGGGACGTGACGATGGACTTCGGTTACGGGCATTCCTTTACCGAGTCTTCCCCGGAGGCGTATGAGCGGCTGATCCTGGACGTGCTGCTGGGCGAGCCGCCGTTGTTCCCGCGGCACGAGGAGGTGGAGCTGTCCTGGAAGATCCTGGACCCCTTCGAAGAGTACTGGGCGGCCCTGAACGAACAGCCCGAACCCTACGCCCCCGGCAGTTGGGGCCCGGCCAGCGCTGATGAGCTGCTCGCCCGTGACGGACGCACCTGGAGAAGGCCATGA	MPDTLKRLVSRGGNPLRDPRDRRLNRIAGPSSLVLFGVTGDLARKKLMPAVYDLANRGLLPPSFALVGFGRRGWDDEEFAAEVKDAVISYSRTPFDEAVWNQLSEGIRFVQGEFDDDAAFERLGETIKELDENRGTRGNHAFYLSIPPKAFEQVCRQLSKHGLAQAEGETWRRVVIEKPFGHDLESARALNDIVESVFPPDAVFRIDHYLGKETVQNILALRFANQLFEPLWNANYVDHVQITMAEDIGTGGRAGYYDGVGAARDVIQNHLLQLLALTAMEEPISFNADDLRAEKEKVLAAVRLPEDLSTHSARGQFAGGWQGGEQVLGYLEEEGIPADSTTETFAAIRVDINTRRWSGVPFYLRAGKRLGRRVTEIAVVFKRAPNLLFGAHGGVGHGDDDFGQNAVVIRVQPDEGATIRFGSKVPGTQMEVRDVTMDFGYGHSFTESSPEAYERLILDVLLGEPPLFPRHEEVELSWKILDPFEEYWAALNEQPEPYAPGSWGPASADELLARDGRTWRRP	PGPT0017380_888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-17_00529	930			hypothetical protein	ATGATTGTAGATTTGCCGAACACCACCACCTCCAAGGTTTCCAAGAAGATCATGGCCCTGCGCGAGCAGGGCGGGGTGATCGCGCTGGGCCGGGTCCTGACCCTGGTGGTGGTCACCAAGTCCGGCCTGGAGGAGGAAGCGATCGAGGCCGCGAACGACGCCAGCCGGGAACACCCCTGCCGGATCATCGTGCTCGCCGACGCCGGCTCGGCCGCCCCGAACCGGCTCGACGCGCAGATCCGGGTCGGCGGGGACGCCGGCGCCTCGGAGGTCATCGTGCTGCGCGGCTACGGCGAACTCGCCGAGGAAAGCGAGTCCCTGGTCGCGGCGCTGCTGCTGCCGGACGCACCGATCGTGGCCTGGTGGCCGCACGGGGCACCGAAAAACGCCTCCGAAACCTCCATCGGCCGCATCGCCCACCGCCGGATCACCGACTCGGCGAACGAAGCCGAACCCCAGGTCGCTTTGGAGAACATCCGCAACACCTACAAAGCCGGCGACACCGACCTCGCCTGGACCCGCCTGACCAACTGGCGCATCCAGCTCGCGGCCGTCCTGGACCAGGTCGATCCCTCCCCGGTCACGGCCGTCACCGTCGAAGGAGCCTCGGACTCACCCTCCACCATCCTCCTCGCAGCCTGGCTCACCCTGTCCCTGGACGCCCCCGTCACCATCGTCGCGGACCCCGCCGGCACCGGCATCCGCAGGGTCCGCCTCACCCGCGCCAGCGGAGACGTCCAGCTCTTCCGCCCCGGACTCTCCGTCGCCGAACTCACCCAACCCGGCCAACCCGCCCAACGCATCTCCCTCCCACGCCGCAGCCTCCGCGACTGCCTCGCCGAGGAACTCCGCCGCCTCGACCCCGACGTCGTCTTCGGCCTGACGCTTGAGAGCCTGAGCGCCGCACCCTTCACCTGCCCACTTGAGTAG	MIVDLPNTTTSKVSKKIMALREQGGVIALGRVLTLVVVTKSGLEEEAIEAANDASREHPCRIIVLADAGSAAPNRLDAQIRVGGDAGASEVIVLRGYGELAEESESLVAALLLPDAPIVAWWPHGAPKNASETSIGRIAHRRITDSANEAEPQVALENIRNTYKAGDTDLAWTRLTNWRIQLAAVLDQVDPSPVTAVTVEGASDSPSTILLAAWLTLSLDAPVTIVADPAGTGIRRVRLTRASGDVQLFRPGLSVAELTQPGQPAQRISLPRRSLRDCLAEELRRLDPDVVFGLTLESLSAAPFTCPLE				NA	NA	NA	NA	NA
D1-17_00530	1086	ino1_1	COG1260	Inositol-3-phosphate synthase	GTGTCTTCAAATCCGATTCGTGTCGCTATCGTCGGTGTGGGTAACTGCGCCGCTTCGCTGGTCCAGGGTGTCCATTATTACCGCGATGCCGACCCTCAGGCCACGATTCCGGGTCTGATGCATGTGGAGTTCGGCAAGTACCACGTCAATGATGTGCAGTTTGTTGCCGCGTTTGATGTGGACGGCAAGAAGGTCGGCGTTGACCTGGCCGATGCGATCCTGGCCAGCGAAAACAACACCATCAAGCTCACCGATGTGCCGCCCACGGGTGTGATGGTGCAGCGCGGGCCTACCCTGGACGGGCTGGGCCGGTATTACCTGGAGACGATCGAGCAGTCCGGCAAGGATCCGGTGGATGTGGTGCAGGCTTTGAAGGATGCCCGGGCGGATGTGATGGTGTGCTACCTGCCGGTCGGGTCCCAGGAGGCGGCGGAGTTTTATGCCCAGTGCGCTCTGGATGCCGGTGTGGCGTTCGTGAACGCGCTGCCGGTGTTCATTGCGGGTACGAAGGAATGGGCCGATAAGTTCACTGCGGCCGGTGTGCCGATCGTGGGTGATGACATCAAGAGCCAGATCGGTGCCACGATCACGCACCGGGTGATGGCGAAGCTGTTTGAGGACCGCGGGGTGACGCTGGACCGCACGTACCAGCTGAACGTGGGCGGGAACATGGACTTTAAGAACATGCTCGAGCGTGACCGGCTGGAGTCCAAGAAGATTTCCAAGACCCAGGCGGTGACCTCCAACGTCGAGGCGGAGCTGGCGGCGAAGGATGTCCACATCGGCCCGTCGGATTATGTGCAGTGGCTCGATGACCGCAAGTGGGCCTTCGTGCGCCTGGAGGGCCGGAACTTCGGTGACGCGCCGGTGTCGCTGGAGTACAAGCTGGAAGTCTGGGACTCGCCGAACTCGGCCGGGGTGATCATCGACGCGATCCGTGCGGCGAAGATCGGCCTGGACCGCGGCATCGGCGGCCCGCTGCTTTCGGCCTCGAGCTATTTCATGAAGTCACCGCCGGAGCAGTTCAACGATGACCTCGCCCGCGAGAAGGTCGAAGCCTTCATCCGCGGCGACCTCGAACGCTGA	MSSNPIRVAIVGVGNCAASLVQGVHYYRDADPQATIPGLMHVEFGKYHVNDVQFVAAFDVDGKKVGVDLADAILASENNTIKLTDVPPTGVMVQRGPTLDGLGRYYLETIEQSGKDPVDVVQALKDARADVMVCYLPVGSQEAAEFYAQCALDAGVAFVNALPVFIAGTKEWADKFTAAGVPIVGDDIKSQIGATITHRVMAKLFEDRGVTLDRTYQLNVGGNMDFKNMLERDRLESKKISKTQAVTSNVEAELAAKDVHIGPSDYVQWLDDRKWAFVRLEGRNFGDAPVSLEYKLEVWDSPNSAGVIIDAIRAAKIGLDRGIGGPLLSASSYFMKSPPEQFNDDLAREKVEAFIRGDLER				NA	NA	NA	NA	NA
D1-17_00531	387	mshA_1	COG0438	D-inositol 3-phosphate glycosyltransferase	ATGGCTCTGATCAGACGTGTGGCTTTCCTGTCGCTGCACACGTCACCACTGGAGCAGCCAGGCTCGGGTGATGCCGTCGGCATGAACGTCTACATCCGCAGCCTGGCCTCTGCCCTGGCCGCAAGCGGCGTCGAAGTGGGCATCTTCACCCGTTCGGTGCACGCCAACCGGCCCGCCGTCGAACACCCTGATACCGGCGTCCGCCTGCACAATATCGTGGCCGGGCCGGGGCGGACCGTTGCCAAAGAGGAACTGCCCGAGCTGCTGCCCAGCATGGTCGCCGAAATCGACAGGACCCGGCAGCGACAGTCATTCCGGCATTACGACCTCATCCACTCCCACTACTGGATCTCCGGTGTCGCCGGATTGGAGCTGTCCCGACAGTAG	MALIRRVAFLSLHTSPLEQPGSGDAVGMNVYIRSLASALAASGVEVGIFTRSVHANRPAVEHPDTGVRLHNIVAGPGRTVAKEELPELLPSMVAEIDRTRQRQSFRHYDLIHSHYWISGVAGLELSRQ	PGPT0024580_704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521	NA	NA
D1-17_00532	621	gloB_3		Hydroxyacylglutathione hydrolase	ATGAGTCTCACGATCGAGAACCTGGTCACCTCGGGCACGTTTTCCCTGGACGGCGGGACCTGGGAGGTGGATAACAACGTCTGGATCATCGGCAACGACACCGAATGCGTGATCATCGATTCCCCCCACGACGCGACCGCAATCATCAACCAGGTCAAGGGCCGGACGGTGAAGGCGATCCTGCTCACCCACGCGCACAACGACCACATCGGCGCCGCCCGCGACGTCGCGCGCGCCGTGGGCGCCCCGATCCACCTGAACCCCGAAGACCTGGTCCTCTGGGAGCAGGTCTACCCTGACACCAAACCCGACGCCGGAATTGCCGACGGGGACGTATTCGAGATCGCCGGCGCCAGGCTGGAAGCCATCCACACCCCCGGCCACTCACCCGGTTCCACCTGTTTCTACCTGCAAAGCGAGGGCACGGTCTTCAGCGGGGACACCCTCTTCAACGGCGGCCCCGGCGCGACCGGGAGGTCCTACAGCGACTACCCCACCATCCTGACCTCCATCCGCGAACGCCTCCTGACCCTCCCACCCGAAACAGTGGTCCGCACCGGCCACGGCGAGAACACCACCATCGCCGCCGAACGCGAAACCCTGGCACAGCTGAACCACTGA	MSLTIENLVTSGTFSLDGGTWEVDNNVWIIGNDTECVIIDSPHDATAIINQVKGRTVKAILLTHAHNDHIGAARDVARAVGAPIHLNPEDLVLWEQVYPDTKPDAGIADGDVFEIAGARLEAIHTPGHSPGSTCFYLQSEGTVFSGDTLFNGGPGATGRSYSDYPTILTSIRERLLTLPPETVVRTGHGENTTIAAERETLAQLNH				NA	NA	NA	NA	NA
D1-17_00533	1164			S-(hydroxymethyl)mycothiol dehydrogenase	ATGGTTCATAAAGTCAAGGCAGTGGTTGCCATGGAGAAGGATGCTCCGGTGTCGGTGGAGACGATTCTGGTGCCGGATCCGGGCCCGGGTGAGGCTTTGGTGGATATCCTTACGTGCGGGGTGTGCCACACGGATCTGCATTACAAGCAGGGCGGCATCGGGGATGAGTTCCCGTATCTGCTGGGCCATGAGGCCACCGGTGTGGTCTCCGCTGTCGGGCCCGGGGTGACCGAGGTCGCCCCGGGTGACCGGGTGATTTTGAACTGGCGTGCGGTGTGCGGGCAGTGCCGGGCGTGCGCGAAGGGCCAGGCGCAGTACTGCTTCAACACCGCCAACGCCACCCAGAAGATGACGCTGGAGGATGGCACCGTGCTGTCCCCGGCGCTGGGGATCGGCGCGTTCGCGGAAAAGACCCTGGTCGCCGCGGGGCAGTGCACCAAGGTCGATGAGGACGCCGACCCGGCCGCGGTCGGTTTGCTGGGCTGCGGTGTGATGGCCGGGATCGGCGCGGCGATCAACACCGGCGAGGTCAAGCGCGGGGAGTCCGTGGCCGTGATCGGCTGCGGCGGGGTGGGCATCGCCGCGATCGCCGGCGCGAAGCTGGCCGGGGCGACCACGATCATCGCGGTGGACATCGATGAGAACAAGATCGAAATGGCCAAGACCCTGGGCGCCACGCACGGGGTGAACTCCCGCGAAGTCGATCCGGTCGAGGCGATCCGGGACCTCACCGGCGGCAACGGTGCCGACGTTGTGATCGAGGCCGTCGGCCGGCCCGAAACCTACAAGCAGGCCTTCTACGCCCGCGACCTCGCCGGCCGCGTGGTCCTGGTCGGGGTCCCGACCCCGGAGATGGTCCTGGAACTGCCGCTTTTGGATGTCTTTGGCCGGGGCGGGTCGCTGAAGTCCTCCTGGTACGGGGACTGCCTGCCCTCCCGGGACTTCCCCATGCTCGTCTCCCACTACAAGCAGGGCAACCTGGACCTGGACGCGTTCGTGACCGAACGCATCACCATCGACCAAATCGAGGAAGCCTTCGACAAAATGCACGAAGGCAAAGTCCTGCGCTCCGTCGTCGAAATCGAACCCGCACCCGGCGCCTCCACAACAGCCGGTGCACCAGCCAGTGCAGCGGCCGGAAACCAGACGGCGGTGTCGGTATGA	MVHKVKAVVAMEKDAPVSVETILVPDPGPGEALVDILTCGVCHTDLHYKQGGIGDEFPYLLGHEATGVVSAVGPGVTEVAPGDRVILNWRAVCGQCRACAKGQAQYCFNTANATQKMTLEDGTVLSPALGIGAFAEKTLVAAGQCTKVDEDADPAAVGLLGCGVMAGIGAAINTGEVKRGESVAVIGCGGVGIAAIAGAKLAGATTIIAVDIDENKIEMAKTLGATHGVNSREVDPVEAIRDLTGGNGADVVIEAVGRPETYKQAFYARDLAGRVVLVGVPTPEMVLELPLLDVFGRGGSLKSSWYGDCLPSRDFPMLVSHYKQGNLDLDAFVTERITIDQIEEAFDKMHEGKVLRSVVEIEPAPGASTTAGAPASAAAGNQTAVSV	PGPT0006355_3737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
D1-17_00534	312			hypothetical protein	ATGGCTGTCAACAATGAAGCGGAAATACTGGCCCAATGGAGCGAGCAGCTGGCAAAGGCGCTTCAGATCCCGGACTTGAGGGTGGACCAGGAGCTACTCCTTGAACTGGCCAGGAGATCCGCTGATTCGGTGATTCACGCGTCTGCGCCGGTGACGGCTTTCATGGTGGGGTACGCGGCGGGTCAGGAAGCCGGCAAAGGAAACGCGGGTTTGCCGGTGACGCCCAGTGCAGCGACTACCAGGGCCGCGGACATTGCATTCTCGCTGTGCGAGAGCAGGGCAGGCGGCCGAGGTGCCGATCCGACGCCGTAA	MAVNNEAEILAQWSEQLAKALQIPDLRVDQELLLELARRSADSVIHASAPVTAFMVGYAAGQEAGKGNAGLPVTPSAATTRAADIAFSLCESRAGGRGADPTP				NA	NA	NA	NA	NA
D1-17_00535	267			hypothetical protein	TTGTTAGTACGATACTTTGCCGCTGCATGTTCCGCCGCCGGCGTAGAAGAGGAACATCATGAGCTGACAGACGGCGTGACACTCAGTGAACTACTGACGGCCGTGCTCGCAGTTGACCGTCCGGAGCCTCCGGCGGGAACGCCCCCGCTGGCAGGGATCATCGCCCGGAGCAGTTTTCTCCGCAACGAGGTTGCTGTACGGGACGTTGCCGTGTCCCTTGGGAGGGAGGATGTCATCGACGTGCTGCCGCCCTTCGCCGGCGGATGA	MLVRYFAAACSAAGVEEEHHELTDGVTLSELLTAVLAVDRPEPPAGTPPLAGIIARSSFLRNEVAVRDVAVSLGREDVIDVLPPFAGG				NA	NA	NA	NA	NA
D1-17_00536	1134	moaA_1		GTP 3',8-cyclase	GTGCAGAAAATTATGACTATTCAGCTGGGAATTCCCCGGCTTCCCGGCAGTAGCGGGGGCCTGCCCGTGCCTCCCACCCGTCCTTCCAGAGTTCCCGCCGGCCTGCTGGATCGGTTCGGGCGCCAGGCAACGGATCTCCGCCTGTCCCTCACCGACAAATGCAACCTGCGGTGCACATACTGCATGCCCGCACAGGGCCTGGAATGGCTGCCCAAACAAGCACTCATGACAGCAGACGAGATCGTGCGGGTAGTCGGTATCAGTGTCACCAAACTGGCCATCCGGGAACTCCGGCTTACAGGCGGCGAGCCCCTGGTCCGCCCCGACCTGGTGAATATCGTCCGCGCCCTCCGGAGGCAGCACCCCGACCTCCCTATATCCATGACAACGAACGGCGTCGGGCTGGACAAGAAAGCCCAGGCACTGAAGGACGCCGGGCTTACGCGCATCAATGTTTCACTCGACTCCCTGCACGGAGAGACGTTCGAGTTACTCACCCGGCGCCCATTCCTTAACAAGGTGCTGGCCGGAGTTGAAGCGGCAAGGACAGCAGGGTTGGGTCCGGTCAAAATCAATGCCGTTCTGATGCGGGGCATTAACGACGCCGAAGCGTCGGGGCTTCTCGCCTGGGCCCTCAAACACGGCTACGAGCTTCGTTTTATTGAACAGATGCCGCTGGATGCGGATCACGGCTGGACGCGGCGTGACATGATCACTGCCGCCGAAATTCGTGAGCTGCTCTCCGAGGATTTCATTCTCACGCCGGACCGTAGGGAGCGGGCAGGAGCGCCGGCCGAGCGGTTCCAGGTCAGGAAGCGAAACGCCGCTGCAGGCGAATCCTCCGGAGCTGTCCTGGGTACCGTGGGAATCATCGCTTCCGTCACCGAGCCGTTCTGCGGTGACTGCAGACGGACGCGCATCACCGCGGAAGGCAAGCTCATGAGCTGCCTGTTCTCCCGTGAGGAATTCGACATTCTGGGCCCGCTGCGCTCAGGGGCAGACGATGAAGAACTGACACGACTCTGGCAGGACGCCATGTGGATCAAGCCGCGGGCACACGGGATGGATCACTCCGGCCTGGATTCCGCAGACTTCATACAGCCGGACCGCAGCATGAGCACTATCGGAGGCTGA	MQKIMTIQLGIPRLPGSSGGLPVPPTRPSRVPAGLLDRFGRQATDLRLSLTDKCNLRCTYCMPAQGLEWLPKQALMTADEIVRVVGISVTKLAIRELRLTGGEPLVRPDLVNIVRALRRQHPDLPISMTTNGVGLDKKAQALKDAGLTRINVSLDSLHGETFELLTRRPFLNKVLAGVEAARTAGLGPVKINAVLMRGINDAEASGLLAWALKHGYELRFIEQMPLDADHGWTRRDMITAAEIRELLSEDFILTPDRRERAGAPAERFQVRKRNAAAGESSGAVLGTVGIIASVTEPFCGDCRRTRITAEGKLMSCLFSREEFDILGPLRSGADDEELTRLWQDAMWIKPRAHGMDHSGLDSADFIQPDRSMSTIGG	PGPT0008410_269	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
D1-17_00537	1959	betP_2	COG1292	Glycine betaine transporter BetP	ATGGCTATAAACACAACACCGGAGCAACTGCCCGGCGACGAAAATCGGGCAGACAACACAAACACGGCCCCCAGCACCAAAGAGACCAGCGAAGCGTTGACCCTGACTACTGTGGAAGACCCGGAAGAGGCGACCCTCAACCCGGGATCCACAGCACTCAACCTGCCGGATACGGAAGAAACCGAACAGATCCTCCAGGAGCTGCGGGAGACCGAGGCTGAGCAGGCGGCCAGCCTCGGTAGGCGCCGCTCTCTCCCCCTAGATAAAGCAACCTTCGGCATTACCGGTGTCCTGGCCCTCGCCTTCGTCATTTGGGGTTTTGCCGGTAGGGACAGCCTGGCAACAACGTCTCAAAACGCCCTCGACTGGGTCATGCAGTACACCGGCTGGCTGTTCATGGGACTGGCCTCGCTCTTCGTCGTTTTCGTCCTGTGGCTTGCCCTGGGCAAGTTCGGCACCATTCCGCTGGGGAAGGACGGCGAAAAGCCCGAGTTCCGCACCGTGTCCTGGGTGGCCATGATGTTCGCAGCCGGCATGGGCATCGGGCTCATGTTCTACGGTGTGGCAGAGCCTCTTTACCACTACGTCTCGCCCCCGCCCGGAACCGTGGACGGACGCACCCCCGAAGCTATCCAGACCGCCATGGCCACCTCGATCTTCCACTGGACCCTGCACCCCTGGGCAATGTACGCCGTGGTGGGCATCGCCATGGCCTACAGCACCTACCGGCTGGGCCGCAGACAGTTGATCTCCGCCGCCTTCACCTCACTGTTCGGCGTCAAAATAGTTGAAGGGCCGGTGGGGAAGTTCATCAACATCCTGGCCATCTTCGCCACGCTCTTCGGCACCGCCGCATCCCTGGGCTTGGGCACCCTCCAAATCGGCAGCGGCATGACCTCCAACGGCTGGGTAGGAGAAATCGGCACGCCATTCCTCGTGGTGATCGTCGCCATACTGACTTCCTGCTTCGTGGCCTCCGCTGTGTCGGGCATCAGCCGCGGCATCCAGTGGCTCTCCAACATCAACATGGTGCTGGCCCTCATCCTGGCCCTCATCGTCTTCGTCGCCGGCCCCACCCTCTTCATCCTGAACCTGCTCCCCGCCGCCGTCGGCAATTATGCCCGGGACCTAACGGAAATGGCGTCACGAACCGAGGCAGTCGGCGATGAGGCTCTGCGCGGCTGGATGTCCGGCTGGACCATCTTCTACTGGGCCTGGTGGATCTCCTGGACGCCGTTCGTGGGACTTTTCATTGCACGGATCAGCCGCGGCCGCACCATCCGGCAGTTCGTCACCGGCGTACTGCTCGTGCCGAGTGTTGTCAGTGTCATCTGGTTCTGCATCTTTGGAGGTGCCGCCTTCCACGTGCAGCAGGAAGCCGACAAGGCCAACACTCCCGGTCTGGTCACCATGGTCGACGGGGCCCCGTCCGTCAACTTTGACGGCGCCCTCTTCGACATGGTCAAGAACCTGGGCATGCCCGTCTGGGCCGCCGCCGCAGTCATCGTCCTGGCGATGGTCCTGGTCGCCATCTTCTTCGTCACAGGCGCAGATGCGGCCTCCATTGTGATGGGGTCACTCAGCTCCAACGGCGCCGAGGAACCCCGCCGCGGAGTGATCATCTTCTGGGGCACGCTGACCGGAGCTGTCGCCGCCGTCATGCTCCTGGCCGGCGGCAATGAACCTTCGGAAGCCTTGTCCGGCTTGCAACGGATCACCATCGTCGCCGCCCTGCCGTTCGTGCTGGTCATGCTCCTGCTCTGCTTCGCTATAACCCGCGACCTCCGCCGCGACCCGCTTTCCCTGCGGCGCAGGCTCGCCACAACAGTCATGGAACGGGCTATCCGTACCGGCGTCGACCAGCACGGCGGCATTCAGTTCGACCTCGTGACCACCAACGAAGGTGATGGACGACGCGCCGACGGCTCTCCACACCCTGGTGGAGACAAGCACGTCTAA	MAINTTPEQLPGDENRADNTNTAPSTKETSEALTLTTVEDPEEATLNPGSTALNLPDTEETEQILQELRETEAEQAASLGRRRSLPLDKATFGITGVLALAFVIWGFAGRDSLATTSQNALDWVMQYTGWLFMGLASLFVVFVLWLALGKFGTIPLGKDGEKPEFRTVSWVAMMFAAGMGIGLMFYGVAEPLYHYVSPPPGTVDGRTPEAIQTAMATSIFHWTLHPWAMYAVVGIAMAYSTYRLGRRQLISAAFTSLFGVKIVEGPVGKFINILAIFATLFGTAASLGLGTLQIGSGMTSNGWVGEIGTPFLVVIVAILTSCFVASAVSGISRGIQWLSNINMVLALILALIVFVAGPTLFILNLLPAAVGNYARDLTEMASRTEAVGDEALRGWMSGWTIFYWAWWISWTPFVGLFIARISRGRTIRQFVTGVLLVPSVVSVIWFCIFGGAAFHVQQEADKANTPGLVTMVDGAPSVNFDGALFDMVKNLGMPVWAAAAVIVLAMVLVAIFFVTGADAASIVMGSLSSNGAEEPRRGVIIFWGTLTGAVAAVMLLAGGNEPSEALSGLQRITIVAALPFVLVMLLLCFAITRDLRRDPLSLRRRLATTVMERAIRTGVDQHGGIQFDLVTTNEGDGRRADGSPHPGGDKHV	PGPT0013600_324	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-17_00538	351	hcaC_3	COG2146	3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit	ATGCACAAGGCCTGCCCGCTCAGCGAACTCGCTCCGGGGGATGCGCTACGGCTAAATACTGCCCCACCCATCGCCGTATTCCATACAGAAGAAGGCGAGCTTTTCGCCATTGACGACACGTGCACGCATCAGGATGCCTCTTTGGCCGATGGTTACGTCGAGGACTGTTGGGTGGAGTGCCCGCTGCACGCCTCCAAGTTCAACCTCCGCACCGGTGCAGTTGACGCGCCGCCGGCCAAACTGCCGGTCCGCCACCATGAGGTCAAGGTTGTTGACGGCGACATTATGGTTATCGAATCCGACGAGGCGCCCAACCTTCCTCCCGGTTTGACAGCCGAAGGCCATATCTAG	MHKACPLSELAPGDALRLNTAPPIAVFHTEEGELFAIDDTCTHQDASLADGYVEDCWVECPLHASKFNLRTGAVDAPPAKLPVRHHEVKVVDGDIMVIESDEAPNLPPGLTAEGHI	PGPT0019745_169	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,PGPT0019745-hcaC-K05710	NA	NA
D1-17_00539	1203	camA		Putidaredoxin reductase CamA	ATGCAGACGCTTGCGATCGTCGGAGCCTCCCTGGCCGGGCTTTCTGCCGCCAGGGCCGCCCGCGCCCAAGGCTTCACTGGACGGCTGGTCATCATTGGCGATGAGCATCACCGTCCCTATGACAGGCCGCCGCTGTCCAAGGACTTTCTGCTCGGCACCGTAACGTCGGAAGACCTCCTGCTGGAGACAGACGACGACGGGTTGCAGGCGGAGTGGCTTCTAGGGGGTGGGGCGGTCGGTTTGGACGCAGCTTCACGGACAGTCCGGCTGCGCGACGGAAGCTCGGTCAGCGCCGACGGCATCGTGGTAGCCACAGGCGCGCGAGCCCGGAAGCTTCCGGCCTTGGAGGGGCTTGACAACGTTTTTTACCTTCGGACCATCGCCGATGCACAGGGATTGGCGTCAAGGCTGGTGCCGGGGGCCCGAATGACTGTCATCGGCGCCGGTTTCATCGGTGCTGAAGTCGCCTCCGCCGCTGCCTCCCGCGGCATGGAGGTGACCATGATCAATAACGCACCAGTTCCGTTTACAGCACAGCTAGGTCGGGACATGGGCGACGTCGTCGCCAGGCTGCACCTGGCCAAAGGCGTCAATCTGATCTGCGGTGCCGTCATCCAAGAGTTCCATACGGGCGAAGACGCCGTTTCCGGGCTCACGCTGGCGGATGGACGTCACCTGGAAACGGATGTCGTCGTTGTAGGCATCGGCGCCGAGCCAAATACCGAGTGGCTGTCCGATTCCGGGGTTGAGCTGAATCCGGGCGTCGTTTGTGATGCCATGGGCCGAACCAATGTTCCCGGGATCGTAGCGGTGGGTGACTGTGCCGCGTGGTTCGACCCTGCGGCCGGAATCCACCGCCGGGTAGAGCATTGGACCGGCGCCCTGGAGCGCGCGGCTCTGGCTGTTCAGGCCCTCTTGGACAGCAACGCCCCGGAACAGCCACTGAAGCCTCCTTACTTCTGGTCCGATCAGCACGGCGTTAAGATTCAGTTCGCCGGGCACTCCGCCGGTTACGATCGGGTCGAAATAGAGACAGGTGATCCCCAGGAGCACAGCTTCGTTGCCGTGTACTACCGCGGCGATGACGCCGTGGCGGTCCTGGGCATGAACCAGCCCCGCCTTTTCACCAAGTGGCGCCGAAGCCTGGCGCCTTCAACAGTGAAGCCGGCGGCCAAGCCCACTTTGGTTCTGGCTGCGACCTAG	MQTLAIVGASLAGLSAARAARAQGFTGRLVIIGDEHHRPYDRPPLSKDFLLGTVTSEDLLLETDDDGLQAEWLLGGGAVGLDAASRTVRLRDGSSVSADGIVVATGARARKLPALEGLDNVFYLRTIADAQGLASRLVPGARMTVIGAGFIGAEVASAAASRGMEVTMINNAPVPFTAQLGRDMGDVVARLHLAKGVNLICGAVIQEFHTGEDAVSGLTLADGRHLETDVVVVGIGAEPNTEWLSDSGVELNPGVVCDAMGRTNVPGIVAVGDCAAWFDPAAGIHRRVEHWTGALERAALAVQALLDSNAPEQPLKPPYFWSDQHGVKIQFAGHSAGYDRVEIETGDPQEHSFVAVYYRGDDAVAVLGMNQPRLFTKWRRSLAPSTVKPAAKPTLVLAAT	PGPT0019730_2354	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,PGPT0019730-hcaD|cndC1-K00529	NA	NA
D1-17_00540	1227	cntA_2	COG4638	Carnitine monooxygenase oxygenase subunit	TTGTCTGTTGAGGTAAGCGCGCCGAGTCTGATCCCGACCCTGGGGGGTCATTTGTATACGGATCCGGCTATTTTCCGGGCGGAGCAGGAGCGTATTTTCGAGCAGATGTGGTTCTGCGCGATCCGTTCGGCGGATCTGGAGAAGCCCGGGGCGTGGCAGACGGTGCAGGTGGGGCGGGAGAGCGTGCTGATCTCGCGGACCCGCAAGGGTGAGATCCGTGCGTTCTACAACGTTTGCCGGCACCGCGGGGTGAAGCTGTGCATGGAGGAAAAGGGTGAAGCGGCACGCAACTTCCAGTGCCCGTACCACGCGTGGACGTATGACTTCGAAGGCAAGCTGATCGCGGCGCCGAACCTGACGAAGATGCCTGACATTGACCGGGATGAGTACGGCCTGTCCAAGGTCCACATCCGCGAATACCTGGGCTATGTGTGGGTGTGCCTGGCCGAGGAGCCGCCGTCCTTCGAAGAGGACGTCATGGGCGCGATCGAGGAGCGTCTGGGCGATGTGCACGCCATTGACGGGTACGACGTGGCGAACCTGGCCCTGGGCCGGCGGATCCGGTATGACGTGAAGGCGAACTGGAAGCTCATCATTGAGAACTTCATGGAGTGTTACCACTGCGCGACGATCCACCCGGAGCTGACCGAGGTGCTGCCGGAGTTCGCTGACGGGCTGGCCGCGCAGTACTTCGTGGGCCACGGCGCGGAGTTCGGTGAGGACATCAAGGGCTTCACGGTGGACGGCTCCGAGGGCCTGGATGTCATCCCGGGTGTGGGCGAGGATCAGGACCGGCGTTACTACGCGATCACGATCAAGCCGACCGTGTTCGTGAACCTGGTTCCGGACCACGTGATCATCCACCGCATGTTCCCGATGTCCGCGGACCACACGATCGTCGAATGTGACTGGCTGTACCTGCCCTCCGTGGTGGAGTCCGGCAAGGATGTCAGCGCCTCGGTGGAGCTGTTCCACCGGGTGAACATGCAGGACTTTGATGCCTGCGAGCGTTGCCAGCCGGGCATGGCCTCCAAGTCCTACGCCAAGGGCGGCGTGCTCGTGCCCAGCGAACACCACATCGGCGCTTTCCACGACTGGGTCCAGGAGAAGGTCGGCGATGTCCAGCTCTCCGGAGAGGCACTGCTGGGCCTCACCCAGGACACCCCGCCGCTGGAGGAACGGGCCGAAACCCTGCAGCGCAGAGAGACCCCAACCCCGGTCTCCTAA	MSVEVSAPSLIPTLGGHLYTDPAIFRAEQERIFEQMWFCAIRSADLEKPGAWQTVQVGRESVLISRTRKGEIRAFYNVCRHRGVKLCMEEKGEAARNFQCPYHAWTYDFEGKLIAAPNLTKMPDIDRDEYGLSKVHIREYLGYVWVCLAEEPPSFEEDVMGAIEERLGDVHAIDGYDVANLALGRRIRYDVKANWKLIIENFMECYHCATIHPELTEVLPEFADGLAAQYFVGHGAEFGEDIKGFTVDGSEGLDVIPGVGEDQDRRYYAITIKPTVFVNLVPDHVIIHRMFPMSADHTIVECDWLYLPSVVESGKDVSASVELFHRVNMQDFDACERCQPGMASKSYAKGGVLVPSEHHIGAFHDWVQEKVGDVQLSGEALLGLTQDTPPLEERAETLQRRETPTPVS	PGPT0013680_548	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
D1-17_00541	816	allR	COG1414	HTH-type transcriptional repressor AllR	ATGGCACCGAACACTGACCCTGAATCTGAGATCGAGATCGAGATCGAAGCTGCCCAGCACGGCGGCGTCCAGTCGGTAGACCGCGCCCTCGCAGTCCTGGAAATCCTGGCCCGGGAAGGTCATGCCGGCGTGAGCGAAATAGCCGAGGAAATGGGCATCCACAAGTCCACGGTTTCCCGGCTCCTGGGATCCCTCGTCAGCAGGGACATGGTCCACCAGAACAGCGAACGGGGAAAGTACCAGCTGGGCTTCGGCATCCTCCGGCTCGCCAGCTCCATCCCCGGCAGGTTGAGCTTGGTCCGCGAAGCCCGGCCTGTACTGGAGAGCCTCGCCGATGAGTTCAAGGAAACCGTGAACCTGGCCGTGCTGCGCTCGAACTACGCCGTGAACGTCGACCAGGCCATGGGCCCCTCCACGCTTGCCATGTATGACTGGGTGGGCAGCCTCACTCCGCTGCATGCCACCTCCAGCGGCAAGATTCTGCTGGCTGCGGTGTCCGTGGACGAACGCGACAGGATCCTCAAGGAGACGGGGCTTCCCGCCCGCACGCCGCTGACCATCACCGACAGGGACAAACTGGAAAAAGAGCTCCTGAAAATCTCCCATGACGGCTACTGCGTGAACCGTGAAGAGTTCGAGATCGGGCTCAACTCGATGGCGGTCCCGGTGTACAACCACGTTGGAACAGTCATCGGCGCCATCAGCATCTCCGGGCCTGCCTTCCGCTTCGACCCGGAAAAGACGCCGGGGCTTCTGGAGGCACTGAAAGAGGGCGGGCTGCAGATCAGCGCGAACATGGGGTACACGCGGCGATGA	MAPNTDPESEIEIEIEAAQHGGVQSVDRALAVLEILAREGHAGVSEIAEEMGIHKSTVSRLLGSLVSRDMVHQNSERGKYQLGFGILRLASSIPGRLSLVREARPVLESLADEFKETVNLAVLRSNYAVNVDQAMGPSTLAMYDWVGSLTPLHATSSGKILLAAVSVDERDRILKETGLPARTPLTITDRDKLEKELLKISHDGYCVNREEFEIGLNSMAVPVYNHVGTVIGAISISGPAFRFDPEKTPGLLEALKEGGLQISANMGYTRR	PGPT0018213_115	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018213-kdgR-K19333	NA	NA
D1-17_00542	573			hypothetical protein	ATGGCGATCATGATTCGCCCGGCACATCGGTTCGAGGACATGAAGGCGGTGCTGGGCCCGAAGCGGCCGGATGCCACCGTGTGCTGGTGCCTGAGCTACCGCATTCCCTCAAGGCAGAACCTGGAGCTGCGTGGCGCCGAACGCGGGGAGTTGGTAAGGCAGCTGGTCCAGGAGGACCCGCCACCGGGGGTGCTGGCGTACGACGGCGACGACGTGGTGGGCTGGGCCGCCGTCCATCCGCGCGCGGATACGAGCTTCGCCCGAAACCGGAAGATCCCGCATGTGGACGGCCTCGACGTTTGGTCAGTATGGTGCATCCGGGTGCGGCCCGGGCACCGCGGCCGCGGCATCTCACATCATCTGTTGACGGGTGCCGTCGACTTCGCCCGGAGGTACGGCGCACCCGCCATCGAGGGCTACCCCGTGGACAACCAAGGCAGGAAGGTCGACCTCACCATGGCATACGTCGGCACACGGGCGCTCTTCGAACGTGCCGGATTCAGGAAGGCAGCGGACACGGACTCCGTGCTCAACGGCTTTCCGCGCGTGCTGATGCGCCTTAACCTGCGCTGA	MAIMIRPAHRFEDMKAVLGPKRPDATVCWCLSYRIPSRQNLELRGAERGELVRQLVQEDPPPGVLAYDGDDVVGWAAVHPRADTSFARNRKIPHVDGLDVWSVWCIRVRPGHRGRGISHHLLTGAVDFARRYGAPAIEGYPVDNQGRKVDLTMAYVGTRALFERAGFRKAADTDSVLNGFPRVLMRLNLR				NA	NA	NA	NA	NA
D1-17_00543	1404	malT		HTH-type transcriptional regulator MalT	GTGGTATTTCCCCTCGAAGCTTCCGAAACCGGTCGCCTTGCCCCGCTGGACGCCGGGCTGCCGGACCTGAACACGCTCGTGCTCCACGCGCAGCCGCTGCTTCAGGCAATCGCCGCAGTGTCCACTGCGACTCTGGCCACCATCGCCGCACAGCTGCGGGAGGCGACGCTCCCCTATGTCGGCAGCAGCGCCCTCATCATCTTCACCGAAGACTGCACCGGCCGGCCCCAAAAGAAGGCCGGTGACGAAGCCATCATCAGCCGCGTCTCGATCGCCGAGCTCGACAACATTCGGTCGTCCCTGGCCGAAGACGGCGTCATGGGCGACGGGGAGGCGGGCGAAGGAGCCGGGATCCCGGGTAACGGCAGCTCCAGCTCGCCCTGGCTCGGCGAGGCGGTGCTCGGCGGCAAGAAACGCCCGGTCCTGGCCCTGTCCTCACCGAGCAATGCGCTGCTGGTCCTCGCCGATCCCCGGCCCCTGCCGCATCCTGCTGACCGGGGCCCGGCGGAACGGCTGCTCCGTTACCTGTGGACACTGGCGGCGGAGCGCATCCGGGAGAAGGTGGCGGATGCACCGCCGTCGTACCTCATTGAATCCCGCGCGGCCTCCGCCGAGCGGGTGAGGGTGACGGCCGAACTCGTAGACCGGCACTCCACCACCCTCGAAACCCTCCTCGCCGCGCTGCGTTCACCGGCCCTCACCGATGGAGCCGCCCGCACGGCGGCAACCGAAACCGCCGCCAGGGCCCTGGTGGGACTCCGTACGCTCAACGACCGCACCACCGAGTTGGTGGAGGAACCGGTGTCCTCGGCATTCCAGCGCCTCCGCGACGATCTGAAACCGCTGATGCACTTCAGCGGCATCGACGTCCAGTTCATCGAGCCTCCCGTCGACGGCCGCGCTCTGCCAGGCGAAGTGGCCCATGCTGCCCGGGCGATCGTCCGGGGCCTCGTCCTCGCCATGGTGGACCAGGGTGGAGTCCACCGGATCCGTACACAATGGGATTGCGACGGCGAGAACCTGCTGGTCAACGTGCGCGACGACGGCCCGGGAGAACTGTCGGAAGAGTCACCGAACATAGCCCGCCTGGGTCACCGCGTGGAAGCCCTGAACGGCCGCATGTCGGTCGATGTGATGCCAGGCTGGGGTGCCGATGTCGCCGTCGCAATTCCCCTCGATCCGCCGGCGCGGCAGATGGCTGACGTCTCCGAATGGAAGCTCGGCGACCGCGAGCTGGAGGTGCTCCAGCTACTGGCCGCCGGGCAGCGGAACCGGGCCATCGCCACGAAACTGCACATCAGCGAGAACACGGTGAAGTTCCACCTGCGGAATATCTTCCGGAAGGTGGGCGCGTCCTCCCGCACCGAAGCCATCGCGATGGCCCACAGCAAGGGGCTGCGGTAG	MVFPLEASETGRLAPLDAGLPDLNTLVLHAQPLLQAIAAVSTATLATIAAQLREATLPYVGSSALIIFTEDCTGRPQKKAGDEAIISRVSIAELDNIRSSLAEDGVMGDGEAGEGAGIPGNGSSSSPWLGEAVLGGKKRPVLALSSPSNALLVLADPRPLPHPADRGPAERLLRYLWTLAAERIREKVADAPPSYLIESRAASAERVRVTAELVDRHSTTLETLLAALRSPALTDGAARTAATETAARALVGLRTLNDRTTELVEEPVSSAFQRLRDDLKPLMHFSGIDVQFIEPPVDGRALPGEVAHAARAIVRGLVLAMVDQGGVHRIRTQWDCDGENLLVNVRDDGPGELSEESPNIARLGHRVEALNGRMSVDVMPGWGADVAVAIPLDPPARQMADVSEWKLGDRELEVLQLLAAGQRNRAIATKLHISENTVKFHLRNIFRKVGASSRTEAIAMAHSKGLR				NA	NA	NA	NA	NA
D1-17_00544	603	rmpB		3-hexulose-6-phosphate isomerase	ATGAGCGTCGTCTCAGAAACCGATCCGGCCGCCCTGGCCGATGTGTCCCGGTCCTTTGACCGCAACCGGAGCCTTGTCCAGGACGAAATCAGCGGTGTGCTCCAGAGCGTCGATCCGGCGCAGGTCGCAGCCCTGGTAACCGAACTGAGGCTGGCTGACAGGATCTTCGTGACCGGAGCGGGGCGAAGCGGCCTCGTCCTGAAAATGGCGGCAATGCGGCTGATGCACCTCGGGCTGACCGTACACGTCGTTGGGGAGATCACCGCGCCCGCCATCCGCTCAGGCGACCTGCTCCTGGCGGCATCCGGCTCCGGCACCACTGCCGGCGTCGTCAAGGCCGCGGAAACTGCCGCCGCCCAGGGTGCAAGGATCGCCGCGTACACCACGAACGCCGGTTCCCCGCTCGCGAAGGCGGCCTCCGCCGTCGTAATCATCCCCGCTGCGCAGAAAACGGACCATGGCTCTAGCCTCTCCCGGCAGTACTCGGGGAGCCTGTTCGAGCAGGTGCTGTTTGCCACCACCGAAGCGGTGTTCCAAAGCCTCTGGGACGAGGACGCCGCAACGCCCGAGGAACTTTGGCAGCGCCACGCGAACCTCGAATAA	MSVVSETDPAALADVSRSFDRNRSLVQDEISGVLQSVDPAQVAALVTELRLADRIFVTGAGRSGLVLKMAAMRLMHLGLTVHVVGEITAPAIRSGDLLLAASGSGTTAGVVKAAETAAAQGARIAAYTTNAGSPLAKAASAVVIIPAAQKTDHGSSLSRQYSGSLFEQVLFATTEAVFQSLWDEDAATPEELWQRHANLE	PGPT0013290_112	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013290-hxlB|yckF-K08094	NA	NA
D1-17_00545	624	rmpA		3-hexulose-6-phosphate synthase	ATGAAACTGCAAGTCGCCATGGATGTCCTGACCGTTGAAGCCGCCCTGGAGCTCGCCGGGCAGGTCGCCGAATACGTGGACATCATCGAGCTCGGCACCCCGCTGGTGAAGAACGCCGGGCTGTCCGCCGTGACCGCGGTGAAGACCGCGCACCCGGACAAGATCGTCTTCGCCGACCTAAAGACCATGGACGCCGGTGAACTGGAAGCCGACATCGCGTTCAAGGCCGGTGCAGACCTCGTCTCCGTCCTCGGCGGTGCCGATGACTCCACCATCGCTGGTGCGGTCAAGGCAGCGAAGGCCCACAACAAGGGAGTTGTGGTTGACCTGATCGGCGTGCAAGACAAGGTGACCCGGGCCAAGGAAGCCCGTGCGCTGGGTGCTAAGTTCGTCGAGATGCACGCTGGTCTGGATGAGCAGGCCAAGCCGGGCTACAACCTGGACGTGCTGCTCAGCGCCGGCGAGGAAGCGCGCGTGCCGTTCTCCGTGGCCGGTGGCGTAAACCTTTCCACCATCAACGCGGTGCAGCGTGCAGGCGCCGACGTCGCCGTCGTCGGTGGCTCCATCTACAGCGCTGCAGACCCCGCCGTTGCAGCCAAGGAACTGCGCGCAGCGATCATCTAG	MKLQVAMDVLTVEAALELAGQVAEYVDIIELGTPLVKNAGLSAVTAVKTAHPDKIVFADLKTMDAGELEADIAFKAGADLVSVLGGADDSTIAGAVKAAKAHNKGVVVDLIGVQDKVTRAKEARALGAKFVEMHAGLDEQAKPGYNLDVLLSAGEEARVPFSVAGGVNLSTINAVQRAGADVAVVGGSIYSAADPAVAAKELRAAII	PGPT0013295_507	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013295-hxlA|yckG-K08093	NA	NA
D1-17_00546	1257	xyoA	COG0277	putative xylitol oxidase	ATGAAGAACTGGGCAGGAAATCTGGACTACGCGTCAACAGACGTGCAGCGGCCAGAATCGGTGGCCGAACTCGCCAAACTGGTAGCAGGCAGCAGCCGGATCAAGGCGCTGGGCTCGCGGCACTCGTTCAACCGGGTGGCGGACACTGACGGCGTGCACGTGCTGCTGGACGCCCTGCCGCAGCGTATCGAACTGACCCCCGAACGGCAGACGGTGCAGGTCAGCGGTGGCGTCAGCTACGGTGCCCTGTGCCGCGCCCTGGAAGAGTCTGGCTTGGCCATCCATAATTTAGCGTCGCTTCCCCATATCTCGGTAGCAGGAGCAGTTCAAACCGGCACTCACGGCTCTGGCGTGAACAATCCCTCCCTGGCCGGAGCGGTAGTGGGCATTGACATGGTCCGGCCCTCCGGTGAGGAGGTGTCGCTCTCCCGCGCCGACGGGGACGAGTTCCTGGGAAGCGTGGTGGGCCTGGGAGCCATGGGCATCATCACCGGCCTCGAGCTCTCCGTTACGCCGAGCTTCGGGATGCGCCAGCGCGTTTTGGAGAACCTGCCGTGGGAGCGGGCGCTGGCGGACTTCACCCAGCTGGTTTCCAGCGCCTACAGCGTCAGCCTGTTCACTGACTTCGCCGGCGATTCCATCAGCCAGGTCTGGCTCAAGGCGCTGGACTCGGAGCCCGCCGTGAATGACGTCTTTGGCGCCACGCCTGCCATGCGCCCGCGGCATCCCCTGCCCGGCATGTCAGCCGAGAACTGCACGATCCAGCTGGATCAGCCCGGGCGTTGGCTGGACCGGCTGCCGCACTTCCGGCACGAGTTTACGCCCAGCAAGGGCGAGGAACTGCAGAGCGAATTCATCCTGCCGCTACAGCATGCGCCTGCCGCGCTCGAGGCAGTCCGGAGTCTGGCGGACAGGATTGCGCCGCTGCTTTTTGTCTCTGAGATCCGGACCGGCGCCGCTGACGAGTTCTGGCTAAGCCCGTTCTACCGCCAGCAGAGCGTAGCCCTGCACTTCACGTGGAAGCCGCTGCAGCCTGAGGTGGAGGCGGTGCTGCCGCAGCTCGAAGGCGTGCTTCGGCCGTTTGGAGCCAGACCCCACTGGGGCAAGCTCTTCACGCCCGGCGGCCACTACTGGGAGTCGCTGTACCCCCGCTTTGCCGATTTCCGCCTGCTGGCAGCGGCGCACGATCCGGAGGGCAAATTCCGCAACGGGCTGCTGGACACCGTCCTCGGCGAGCCGGCAGTAAGCGCACGTTAA	MKNWAGNLDYASTDVQRPESVAELAKLVAGSSRIKALGSRHSFNRVADTDGVHVLLDALPQRIELTPERQTVQVSGGVSYGALCRALEESGLAIHNLASLPHISVAGAVQTGTHGSGVNNPSLAGAVVGIDMVRPSGEEVSLSRADGDEFLGSVVGLGAMGIITGLELSVTPSFGMRQRVLENLPWERALADFTQLVSSAYSVSLFTDFAGDSISQVWLKALDSEPAVNDVFGATPAMRPRHPLPGMSAENCTIQLDQPGRWLDRLPHFRHEFTPSKGEELQSEFILPLQHAPAALEAVRSLADRIAPLLFVSEIRTGAADEFWLSPFYRQQSVALHFTWKPLQPEVEAVLPQLEGVLRPFGARPHWGKLFTPGGHYWESLYPRFADFRLLAAAHDPEGKFRNGLLDTVLGEPAVSAR				NA	NA	NA	NA	NA
D1-17_00547	1002	cytR_2	COG1609	HTH-type transcriptional repressor CytR	GTGCGCGCAACCGTCAAGGACGTCGCGCGTCGCGCGGGCGTTTCCCCCAAGACCGTCTCGAACGTGATGAACGGCGTCGTTCCGGTCAGCGGATCCACCAGGCTCAAGGTGGAACAGGCAATGCTCGAGCTGGACTACGTGCCCAACCTCTCCGCCCGCGGCCTCCGCAACGGCAGGTCAGGGGTCATCGCCCTGGCACTGCCCGACCTGGCCACCCCCTACTCCGCCGAAATCGCGCACAATGTAGTGGAAGTTGCCCACGAGCAGGGCTGGAGCGTCCAGATCGAAGAAACCGGATCCGATCCGCAGCGCGAATACGAACTCATGTCCCGGGCTCGGTCCAATCTCGTGGACGGCCTTATCCTCAATCCGGTAGTGCTGGACGAGAGCGCCGTCAAGGTGGGCGTTTCGCTGCCCCCGGTGGTCCTGCTCGGGGAAGTGTCCCAAAAGCTGGCCGACCGCGTGTGGGTGGACAGTGTTGCCGCTGCCCGCGACATGACGTTGGCACTTGCTCGAACCGGACGACGTCGCATAGCGGTCCTCGGAACTGCCGAGGGCAGGAGCTCGGCCGCGGCAGTCCTGCGGACACGCGGCTACCACGCGGCGCTTGATGAGCTCGGCATTGACCGCGACGATTCCCTGCTGATCCCTTGCGAGAAGTGGACGCCGCAGACGGCCGCCGGCGCGCTTGTCTCGTATCTGGATTCGCACCCGCTCCCGGAGGCGCTGTTCTGCTTCACCGACTCCATGGCCATCGGAGCGCTGAGTGTGCTGTGGAAGAGGGGGATCAGCGTTCCGGATGATGTGGCTGTAGCAGGCTTTGACGACATCGCCGACGGCCAATATGCCGTGCCGTCGTTGACCACCGTTGCCTTCGATAAGCGGCGCATAGCCAGTGAGGCGCTGCGGCTGCTGACGGAACGCATGGCAGACCGCACGGGCGGGCAAAGGATGGCCACCGTGGACTACAGAATCGTCGAGCGGGACAGTACCCGCAGCTAA	MRATVKDVARRAGVSPKTVSNVMNGVVPVSGSTRLKVEQAMLELDYVPNLSARGLRNGRSGVIALALPDLATPYSAEIAHNVVEVAHEQGWSVQIEETGSDPQREYELMSRARSNLVDGLILNPVVLDESAVKVGVSLPPVVLLGEVSQKLADRVWVDSVAAARDMTLALARTGRRRIAVLGTAEGRSSAAAVLRTRGYHAALDELGIDRDDSLLIPCEKWTPQTAAGALVSYLDSHPLPEALFCFTDSMAIGALSVLWKRGISVPDDVAVAGFDDIADGQYAVPSLTTVAFDKRRIASEALRLLTERMADRTGGQRMATVDYRIVERDSTRS	PGPT0021075_1436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-17_00548	1332			hypothetical protein	GTGAAGCAGTTTGATTCTTTTGCCGGGAAACAAGTGACCCGGCGGCAGTTACTGGCAGGTTCGGCCGTCCTAGGAAGCATGTTCGCGGCAGCCGGCCTCACGGGCTGCGGTGGAAGTGCCAACGCCGCCATGCAGGACATCGACTTCTGGCATCTGCTGTCCGGCGGTGACGGCATCAAGATGCAGGCATTGATCAGCAAGGCGACCGAGGGCAATCCCGGTTTCACCGTTCATCCCACAGTTCTGGCGTGGGGGCCTCCCTACTACACGAAGTTGGCCATGGCCTCCGCCGGCGGCCGTCCCCCGGAACTGGCCATCATGCACGCCAGCCGGGTCCCGGGCTACGCGCCGGGCGGACTCATCGACCCGTGGGACATGTCCCTGCTGGCCGAACATGGCGTGACGCGGCAGAGCTTCGCACCGAGGATCTGGGACAAAAGTCAACAGAATGGCCAGGTTTTCTCCATCGCCCTGGACTCCCATCCCTTCGTGATGTTCTACAACACCGATGTCGCCGATAAAGCCGGAGTTCTCGCCCCGAACGGACAGCTGCAGGCGGCCACTTCGCCGCAGGAGTTCATCGGGATGGCCCGCGAGATGCAGAAAGTGACCAAAGTGCACGGCCTGTCCTTTGGCTACCTGGGCAGCGGGTCCCAGATGTGGCGTCTCTTCTACACGCTTTACAAGCAGCACGGCGTGGACATGGAACTCACTCCAGGGCAACCGATGAAGGCCGACAGAGAGGCGGCGGTCGAGTCCCTACAGTTCATGGCGTCCCTGTTCGACGACACCATCGCAGCCAAGAGCGGGGACATCAGTACGGGCATTGCCGAATTTGCCCGGGGCAGCTCCGGAATGCTCTTCAGCGGGGTCTGGGAACTGCCCACACTCCAAAAGGCAGGTTTGCCGGTCGATGCGGCAACGATCCCCACGCTCTACGGAACCCCCGCGGCCTATGCCGACTCGCATTCCTTCGTCCTGCCCCGCCAGCTGAACGACGACGATGAGAAGCGGCGCAATGTGTACAAATTTGTCAGCGATGTCCTCAAGGGATCGCTGTCCTGGGCCGAGGCCGGGCACATTCCGGCCTTCCAGCCCGTCGTGCAGTCACAGGCCTACCGGCAACTCACGCCGCAGATCCACTACGCCAACGCCGCCGACATCATCACCTATGACCCGGAGTCCTGGTTCAGCGGCTCCGGCTCGGACTGGCAAACGTACTTCGCGGAGAACGTACAGAACGTACTCCTTGGCCGGGACAAGGCAGCCGACGGCTGGGATGCCTTCGTGCACCGTACGAACACCCTTCTTTCCCGGCCGAACCCGGTCTGA	MKQFDSFAGKQVTRRQLLAGSAVLGSMFAAAGLTGCGGSANAAMQDIDFWHLLSGGDGIKMQALISKATEGNPGFTVHPTVLAWGPPYYTKLAMASAGGRPPELAIMHASRVPGYAPGGLIDPWDMSLLAEHGVTRQSFAPRIWDKSQQNGQVFSIALDSHPFVMFYNTDVADKAGVLAPNGQLQAATSPQEFIGMAREMQKVTKVHGLSFGYLGSGSQMWRLFYTLYKQHGVDMELTPGQPMKADREAAVESLQFMASLFDDTIAAKSGDISTGIAEFARGSSGMLFSGVWELPTLQKAGLPVDAATIPTLYGTPAAYADSHSFVLPRQLNDDDEKRRNVYKFVSDVLKGSLSWAEAGHIPAFQPVVQSQAYRQLTPQIHYANAADIITYDPESWFSGSGSDWQTYFAENVQNVLLGRDKAADGWDAFVHRTNTLLSRPNPV	PGPT0016545_2915	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
D1-17_00549	981	lacF_2		Lactose transport system permease protein LacF	ATGAGTTCCTTAGCAACATCCCAAAGCGCCGCCGGTGAAGAATCATCACGCCTGCACCAGTCCCGTAAGGATCCGACCAACCCGGCATCCTCCACAACAGTCCGGCCCCGTCCACGCCACACCAGGGACAACCTGGCCGGCTGGGGTTTCGCCGCCCCGTTCCTGGCGTTCTTCCTGGTCTTTCTCGTCTGGCCCATCCTTTACGGCCTGTTCATGAGCATGACCGGAAAGTCCCTCACCGGTGCCAACGACAGCCTGATAGGCCTGGCCAACTACGCTGAGGCGCTCGCCGACGCGGACATGTGGCGCTCTCTCGGCAACACCCTGTACTTCACGGTGATCAGCACCGTTCCCCTCGTGCTCGTTGCCCTGGTGATGGCGGCACTGCTTAATGTCGGGCTGCCAGCGCAGTGGCTGTGGCGGCTCTCCTACTTTGCTCCCTACCTGCTCGCCTCGACGGTGGTCTCGCTCTTCTTCACCTGGATGTACAACCCGCAGCTGGGGCTGATCAACGACTCCCTGTCGAAGATCGGGCTGCCCAGGGTGGCCTGGCTGAATGACCCGAATGTGGCCATGTGGGCGATCGTGATTGCCACGCTGTGGTGGACGGTCGGATTCAACTTTCTGTTGTACCTGGCGGCCATGCAGAACATCCCCCACCAGCACTACGAGGCGGCATCCCTTGACGGGGCCGGAGCCTGGCGGCAGTTCTTCTCCATCACCCTGCCGCAGTTGGCGCCGACCACTGTGATGATCGTCCTCCTCCAGATCCTGGCATCACTGAAGATTTTCGATCAGGTGTACCAGATGACGGCGGGCGGCCCCAGCGGCTCCACCCGGCCGGTGGTGCAGTACATCTTCGAAACCGGGTTTACCGGCTACCGGCTGGGCTACTCCGCAGCCGTTTCCTACATTTTCTTCGGGCTGATCGTGATCGTCTCGGTCATGCAGTTCTTCGTCACCCGCCGCAGGAGTGCATAA	MSSLATSQSAAGEESSRLHQSRKDPTNPASSTTVRPRPRHTRDNLAGWGFAAPFLAFFLVFLVWPILYGLFMSMTGKSLTGANDSLIGLANYAEALADADMWRSLGNTLYFTVISTVPLVLVALVMAALLNVGLPAQWLWRLSYFAPYLLASTVVSLFFTWMYNPQLGLINDSLSKIGLPRVAWLNDPNVAMWAIVIATLWWTVGFNFLLYLAAMQNIPHQHYEAASLDGAGAWRQFFSITLPQLAPTTVMIVLLQILASLKIFDQVYQMTAGGPSGSTRPVVQYIFETGFTGYRLGYSAAVSYIFFGLIVIVSVMQFFVTRRRSA	PGPT0016535_8280	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
D1-17_00550	897	araQ_2	COG0395	L-arabinose transport system permease protein AraQ	ATGGCAACCCAGACACTCACCCGCCCCGCTCCGCACACGGCCGCCGTATCGGCGGCCCGAAAGCCCCGCAGGAAGATCACCGTCGGCAAGGCAGCCGTGACCGCGGTCGCCGCGGTCCTGGCAGTCCTGTGGCTCGTTCCCTTCGCCTGGGCCACGGTCACCGCCTTCAAGAGCGAGACCGATGCGGCAGCACCGGAAGTCAGCTGGTTCCCGCCGTCGGGCTTTACCGCGGATGCCTTCGTCAAAGTGTTCCAGGACGGCAACATTCCGCTGTGGACGTGGAATTCGCTCTATACCTCAGGTGCCATCACTGTGATCACGCTGGTCATCTCCGCGCTGGTCGCCTATGCCCTGTCGCGGATCGACTTCCGGGGCAAGAAAGTCCTGATGACGGTGATCATCGCCTCCATCATCATCCCGCCGCCGGTGCTGATGATTCCGCTGTTCTATCAAATGGTCGCCATGCGCATGATCGACACATCGTGGGCGGTCATCCTGCCGCAGGTCATCCATCCGGCCATGGTGTTTGTGCTCAAGAAGTTCTTTGACCAGATCCCGCGTGAACTCGAGGAAGCTGCGGTCATGGACGGCGCCAGCCGGATGAGGGTTTTCCTGCAGATCATCCTGCCGCTCTCCCGGCCGATCCTCGCCGCCGTCGCCATTTTCGTTTTCATCAGCGCATGGAACAACTTCCTCTGGCCCTTCATCTCCACCAGCGACGGGTCCATCCTGACCCTTCCGGTGGGGCTGCAGACGATCAAGAGCGCCTACGGCATCCAATATGCACAGAACATGGCATCCGCACTGCTCGCAGCCCTGCCGCTCATCCTGGTTTTCCTGTTCTTCCAGCGCCAGATCATCAAAGGCGTGGCGACGACGGGACTCGCCGGCACGTGA	MATQTLTRPAPHTAAVSAARKPRRKITVGKAAVTAVAAVLAVLWLVPFAWATVTAFKSETDAAAPEVSWFPPSGFTADAFVKVFQDGNIPLWTWNSLYTSGAITVITLVISALVAYALSRIDFRGKKVLMTVIIASIIIPPPVLMIPLFYQMVAMRMIDTSWAVILPQVIHPAMVFVLKKFFDQIPRELEEAAVMDGASRMRVFLQIILPLSRPILAAVAIFVFISAWNNFLWPFISTSDGSILTLPVGLQTIKSAYGIQYAQNMASALLAALPLILVFLFFQRQIIKGVATTGLAGT	PGPT0016540_2313	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
D1-17_00551	1539	abfA		Intracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGTCCCGCGCACGAATCACCCTGGACCGAGACTTCACCATCGGGGAGGTACCCCGCCGCCTTTTCGGCTCCTTCGTTGAGCACATGGGCCGCTGCGTGTACACCGGCATCTACGAACCGGGGCACCCGGAGGCCGACGACAACGGCTTCCGGCAAGACGTGCTCAAGCTCGTCAAGGAACTCGGAGCCACCGTCATCCGCTACCCCGGTGGGAACTTCGTTTCCGGCTACAACTGGGAAGACGGGGTAGGTCCCCGGGAAAACCGCCCCCGGCGGCTCGACGGCGCCTGGCACACCCTGGAAACCAACGCCTTCGGACTCCACGAGTTCGTGGACTGGTCCCGGCAGGCCGGCACCGAAATCATGGAAGCCGTCAACCTGGGCACCAGGGGAGTGGATGCCGCACGCGAGATCGTGGAGTACGCCAATCATCCGGGCGGAACCCATCTTTCGGACCTGCGCGCTAAGAACGGGCACAAGGACCCGTTCAACATCAAGCTGTGGTGCCTCGGCAATGAAATGGACGGGCCGTGGCAGATCGGCCACAAAACCGCCGACGAGTACGGCCGTCTGGCCCAGGAGGCAGCCAAGGCAATGCGGTTTGTGGATCCTGACATCGAACTCGTGGCCTGCGGAAGCTCCAGCTCCCGCATGCCCACCTTCGGGGCCTGGGAACAGACGGTGCTGACCCACACCTACGACGAAGTCGATTATGTCTCGCTGCATGCCTACTACCAGGAGCATGAGGGCGACGTCGGAAGTTTCCTCGCCAGCGCGGTGGACACCGACTATTTCATCGAATCAGTCATCGCCACCGCTGATGCCGTCCGCGCCAAGGGAAAACACAAGAAGCACATCAACCTGTCCTTTGACGAGTGGAACGTCTGGTACCAGCGCGGCCTCGACACCGAGGACCAGCCCCACCAGGTGGCCAAGGCCGGCTGGCGCGAGCACCCCCGTGTCATCGAGGACAAGTACAACGTGACGGACGCCGTCGTCGTGGGAACCCTGCTCAACTCACTGCTCCGCCACGGCGACCGGGTCAAGATCGCCAACCAGGCACAGCTGGTGAACGTCATCGCCCCGATCTTCAGCGAGGAAAACGGTCCGGCCTGGCGCCAGACCATCTTCCACCCCTTCGCCCGCATGGCTGAGCTGGCGAAAGGGCAGATCCTGCGCCTTTCCGTTGACTCCGACAAGTACGAGAATGCCCGGTTTGGGGGCACCGATCTTGTTGATGTCAGTGCGACCTGGAATGAGGAGACGGGCCGCCTGGCGCTCTTCCTCGCAAACCGCGGGCTGGAGGAAGCTGCAGAGATCGACGTCGCCCTACGGGGTTTTGATGCCCGCGAGGTGCTTCGGGCGGAGGTCCTGGAAATCCCCGAAGAAGGGGACCGCTTCACAGTGAACACCCAGGGCAGCCCGGACAGGGTCGGGCTCAAGCCGCTGGAAGACGCGAAGGCGAGTGGCTCTGAACTCCGTGCCACCCTGCCGGCGCTGTCCTGGGCCGTGATCGAACTGGACGTGGTCAAGAACTGA	MSRARITLDRDFTIGEVPRRLFGSFVEHMGRCVYTGIYEPGHPEADDNGFRQDVLKLVKELGATVIRYPGGNFVSGYNWEDGVGPRENRPRRLDGAWHTLETNAFGLHEFVDWSRQAGTEIMEAVNLGTRGVDAAREIVEYANHPGGTHLSDLRAKNGHKDPFNIKLWCLGNEMDGPWQIGHKTADEYGRLAQEAAKAMRFVDPDIELVACGSSSSRMPTFGAWEQTVLTHTYDEVDYVSLHAYYQEHEGDVGSFLASAVDTDYFIESVIATADAVRAKGKHKKHINLSFDEWNVWYQRGLDTEDQPHQVAKAGWREHPRVIEDKYNVTDAVVVGTLLNSLLRHGDRVKIANQAQLVNVIAPIFSEENGPAWRQTIFHPFARMAELAKGQILRLSVDSDKYENARFGGTDLVDVSATWNEETGRLALFLANRGLEEAAEIDVALRGFDAREVLRAEVLEIPEEGDRFTVNTQGSPDRVGLKPLEDAKASGSELRATLPALSWAVIELDVVKN	PGPT0018655_1048	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
D1-17_00552	660			hypothetical protein	ATGGATGATTCTGCGGCAGTAACAACACAAGACTCAACCGTTGACGATTGGACGCGGGCTCTGGCGGAGTCCGTCGGTTCGCCTGGTGGTGGTGCCGGGACGGGCGTGATGCTCGCCATCGCGGCGTCACTGACGTCCATGGTGGCCGGATATACCGACGCTGACGGGCAGGAGCGCAGCGAGGTCGCCAGCATACAGGCGCGGTCACGTTCTCTCCGGGAAACCGCTCTGCAGCTGGCCGATGACGACGCCTCCGCATCACAGGCCTTCGGCGCCGCATTCCGGCTGGAGCCCGGGCCGGAACGGGAAGAGGCAATACACCGGGCATCCGTGGACGCCGCCAAAGCATCCGCGGTGCTGGGTGAGCGGGCCATCGACGCCATTGGTGACTTGGAGTGGCTGGCTTCCAATGGGAATCCTGCGCTGATTGCCGATATCGTCGTCGCGTTCGGGGCACTGAGGGCGGCGCTGACCGGGGCCCGCACTAACGTGAGCTTCGACCTCGCCTCGCTGAAATCTGCGGGCTCCACCCTCGAGGAGGTTCGGGAACAGCATCCGGCCCTGTGGGCTACGGTCCAGGAGCTCAACGCAGCCCTTGAGCGGATCGATGAAGTAACCTCGCGGATAGATCACCGCGCCGCCCCGACCGATGCCGTCTGA	MDDSAAVTTQDSTVDDWTRALAESVGSPGGGAGTGVMLAIAASLTSMVAGYTDADGQERSEVASIQARSRSLRETALQLADDDASASQAFGAAFRLEPGPEREEAIHRASVDAAKASAVLGERAIDAIGDLEWLASNGNPALIADIVVAFGALRAALTGARTNVSFDLASLKSAGSTLEEVREQHPALWATVQELNAALERIDEVTSRIDHRAAPTDAV				NA	NA	NA	NA	NA
D1-17_00553	486			hypothetical protein	ATGCGTGCACGTAGTTCATTGGCTGAGGCGCAGCGCGAGGCAGCTGTAGCGTTGTTTGAGAAGGGCATCGGCTATCGGGCGGCGGCCCGGTTGCTGGATGCGCCTTGGGTACCGGTCAGGGCACTGTATGGGCGGTGGAGGATTCATGGGCAAGGAGTGCTGGTGAGCAGGCCTGCGAAGTCCTACTCTTTCGAGTTCAAGCTGGCCTTGGTGCAGCGGTTCCTCGCGGGCGAGTCCGGCCCGGAGTTGGCGGTGGAGGCCGGTTTGGCTTCCCGTGAGCTGCTGCAAAAGTGGGTCCGGGCGTATCGAATGGACGGTGAGGACGGGTTGCGGCCAAAGCCCAAGGGCAGGCCGCGGAAACCCGATTCCCCGCCGACTGGGGAGCTGCCGGAGCTTGAGCGGTTGCGGCGGGAGAACGAGCGGCTGCGCGCTGAGGTGGCGTACCTGGGAAAACTGCGGGCCTTGAGGGAACAGGGACGACGGTAA	MRARSSLAEAQREAAVALFEKGIGYRAAARLLDAPWVPVRALYGRWRIHGQGVLVSRPAKSYSFEFKLALVQRFLAGESGPELAVEAGLASRELLQKWVRAYRMDGEDGLRPKPKGRPRKPDSPPTGELPELERLRRENERLRAEVAYLGKLRALREQGRR				NA	NA	NA	NA	NA
D1-17_00554	801			IS3 family transposase ISBli34	TTGGACGTCGCCGGGCTGGCCAGATCCACGTTTTTCTATCACCAGCTCCGGCTCCAGGCGCCGGACCCGAAAGAGAAGCTCAAAGCGGCGATCACGGAGATCTTTGAAACGAACCATGGCCGGTACGGGCACCGCCGGGTCCACACGGAGCTACTCAAGCACGGGTGGACGGTCGCGAAGAAGACCGTGCTGAAGCTAATGGAGGCCCTTGGGTTGGCCTGCAAGGTCCGGCGCAGGAAGCGCTACAACTCCTACCAGGGCGAACAGGGCGCGGTAGCGCCCAACGTGCTGAACCGGGAGTTCGAGGCTGATGCGCCGAACCGGAAGTGGGTTACGGATGTGACGGAGTTCAGCGTCGGCGGCGGGAAGCTCTACCTCTCACCGGTGATGGACCTCTTTGACCGGCAGATCATTTCTTACTCGCTGGGCTTATCCCCGAACCTGGCGCTCACCAACGATTCCCTGCGTGAGGCCCTGACCTGTCTGCAGCCCGGTCAGCAGCCGCTGGTGCACTCGGACCAAGGTTTCCAATACCGTCACGCGTCCTGGCGCACCCTCATCCAGAACGCCGGCGCGGTCCAATCCATGTCCCGCAAGGGCAATTGCTACGACAACGCCGTCATGGAGAACTTCTTCGGCCACCTCAAGGAAGAACTCTTCCACCGCGTCCGATTCCTCAACACCGACGCACTGGCAGCTGCAATAGAGGAATACATCCACTGGTACAACAACAAAAGAATCTCCACAAAGCTCAAGGGCCTGGGCCCGGTGCAATACCGGGCCCAGACCCTTGCAGCCTAG	MDVAGLARSTFFYHQLRLQAPDPKEKLKAAITEIFETNHGRYGHRRVHTELLKHGWTVAKKTVLKLMEALGLACKVRRRKRYNSYQGEQGAVAPNVLNREFEADAPNRKWVTDVTEFSVGGGKLYLSPVMDLFDRQIISYSLGLSPNLALTNDSLREALTCLQPGQQPLVHSDQGFQYRHASWRTLIQNAGAVQSMSRKGNCYDNAVMENFFGHLKEELFHRVRFLNTDALAAAIEEYIHWYNNKRISTKLKGLGPVQYRAQTLAA				NA	NA	NA	NA	NA
D1-17_00555	1080	rbn_1		Ribonuclease BN	GTGTCAGCGACTTCCCTCAAACCCTATGTAGTTACCCTCGGCACGGCCGGCGGACCCCGATGGTGGAGCGGCGCCAATGCAGGCAAACGTTCCGGCATCGCCACAGCCGTTGTGGTCGGGAAAGCCGTTTACCTGGTGGATGCCGGAAGCGGTGTTGGAAATCAGCTCATGAAGGCCGGCTTCTCCGTGGCCGACCTGCGCGGCATCTTCCTCACTCACCTGCACTCGGACCACTGCATCGACCTGGCCGGCTTGGCCATCTTCGGGCTGTTCACCCTAAGGCCCGGCCAGGCGCCCATCAGGATCATCGGACCGGGCGACCGCGGTGATCTGCCGCCGGTTTCGCCCCGCGCCGCCGTTTCGCCGACACCGATTTTCGCCGAGCAGCCGACGCCTGGAACCACGGCGATGTTTGAGCATCTGATGCGCGCCTACGGAACCGATCTTAATGACCGGATCATCGACGCGCTGCGGCCGTCCCCGCTGGATCACTTCATCGCCTCGGACATCGAGCTTCCAACTGGCCTCGGATATGACCCCAATTCAAATCCGACACCGGAAGGGATGGTTCCCTTCGAAATCTATCGTGATGAGCTGGTGACGGTGACCGCCATTTTGGTGCAGCATCCGCCGGTTGCCCCCGCTTTCGCCTTCCGGTTCGACACCGCCGAAGGATCCGTAACCATCTCCGGGGACACTGCCCCCTGCGAGAATCTGGTCACACTGGCCCGCGGCACGGATCTGCTGCTCCACGAGGCCATCGACTTCGAGTGGGTTTCCCGTGCCTACGGCAATGTGGCAACTGAAGAAGCACAGGCCTCCATGGACCACCACCGCCGTTCGCACACCTCTGTTCAGGATGCGATCGTGCTGGCTGAAAAAGCTGGCGCTGCACGGCTGGCGCTCCACCACCTGGTGCCCGGCACCACCCCGAAGTCCGTGTGGGTTTCCAAGGCCGAAGAATTCTCCGGCACTTTCCTGGTTCCCGACGACCTCGATGTAATTCCTTTCTCCCCTGCTGCCCGCAACGACGCGGCCAGTGTTACCAGCACTAAGATGGAAATGGCTACCTCCCTATGA	MSATSLKPYVVTLGTAGGPRWWSGANAGKRSGIATAVVVGKAVYLVDAGSGVGNQLMKAGFSVADLRGIFLTHLHSDHCIDLAGLAIFGLFTLRPGQAPIRIIGPGDRGDLPPVSPRAAVSPTPIFAEQPTPGTTAMFEHLMRAYGTDLNDRIIDALRPSPLDHFIASDIELPTGLGYDPNSNPTPEGMVPFEIYRDELVTVTAILVQHPPVAPAFAFRFDTAEGSVTISGDTAPCENLVTLARGTDLLLHEAIDFEWVSRAYGNVATEEAQASMDHHRRSHTSVQDAIVLAEKAGAARLALHHLVPGTTPKSVWVSKAEEFSGTFLVPDDLDVIPFSPAARNDAASVTSTKMEMATSL				NA	NA	NA	NA	NA
D1-17_00556	1356	abaF_4		Fosfomycin resistance protein AbaF	ATGAAAACACGCGCAGAAATGCCCTCATCGACCGGACAGCAGGCTCAGGAGTCCCTTAAAGAAACGGGCTTCAACACCCCGCAGATGCGGCGGATTCTCGCCTCATCGTTCATTGGAAGCGCAATAGAGTTTTACGACTTCATCCTCTATGCCACAGCTGCTTCGTTAGTCTTCAACAAAGTCTTCTTCGCCAGCCTCGATCCGGCTGTGGCCATTTTCGCCTCGTTTTCCACCCTGGCTGTCGGATACCTGGCCCGCCCCATTGGTGGCGTAGTGTTCGGCCACTTCGGTGACAAACTCGGCCGCAAGGGCGTTCTCATCACCTCGATGCTCATGATGGGTATAGCCACCACGCTGATCGGGCTCCTGCCTACGACCGCGCAGGTGGGCATGTTGGCTCCTATCGCGCTGATCGTGCTGCGCATCGTGCAGGGCTTGGCCGTCGGGGGAGAGTGGGGCGGGGCCATGCTCATGGCACTGGAACATTCTCCCAAGGAGCGCCGCGGTTTCGCAGCGAGCTTCGCGAACATGGGCGGGCCGGCTGGCGCGGTACTGGCCACGCTCGCCGTCTCCGCAGTATCCGTGCTGCCCGGCGACCAGTTCCTCAGCTGGGGTTGGCGCATTCCATTCCTCATCAGCATCGTCCTGATCGCCATCGGCTTAGTGATCCGGCTCAAGGTCGCCGAATCCCCGCTATTCCTGGCACTGGAAAACAAGGCCGAGGAAAAGAAGATTCCGCTCATGGAGGTCCTCACCAGGTACCCGATGAGCGTTATCAAGGGCACGCTCGTGGGCATGAGCTCGTACACTGTGCAGGGCCTCATGACGGTCTGGGCCATCTCGTTCGTAGTGGAGAACGTCGGTATGGACCGCACCGGGGTACTGAACGTCAAGGCGGTCGGCGCGGCCCTGACCGTGGTGGGTATCTGGTTTGCCGCGCGCTACAGTGACAAACTCGGCCGCCGGCCCGTGATGTTCGCGGGCATCATCGCTGGCGCCGTCCTTGCCCTGCCCATGATGTGGATGCTGGAACTCGGTGAACTCTGGTTGTTCGCCATTGCGCTTTTCGTGGCCAACGGCGTCATCCAGGCAGCAATCTTCGGGCCGTTTGGGGCATTCTCAGCCGAACTGTTCCCCACCCGGATCCGTTACACAGGCGCCTCCTTGGTCTACCAGCTCTCCTCGACCCTGGGCGCCGGCTTCACACCCATGATTGTTAGCGGGCTGGTGCTCGCAACTGGCGGATCGCTCTGGCTTACGGGTGTTGTTTGGGCGGCAAGCTTTGTGGTTGCCGGCCTGTGCCTGCTCACCGTCAAGGAAGGCAAGAACCAGGACCTCTCAGCCGAGGACATCTAA	MKTRAEMPSSTGQQAQESLKETGFNTPQMRRILASSFIGSAIEFYDFILYATAASLVFNKVFFASLDPAVAIFASFSTLAVGYLARPIGGVVFGHFGDKLGRKGVLITSMLMMGIATTLIGLLPTTAQVGMLAPIALIVLRIVQGLAVGGEWGGAMLMALEHSPKERRGFAASFANMGGPAGAVLATLAVSAVSVLPGDQFLSWGWRIPFLISIVLIAIGLVIRLKVAESPLFLALENKAEEKKIPLMEVLTRYPMSVIKGTLVGMSSYTVQGLMTVWAISFVVENVGMDRTGVLNVKAVGAALTVVGIWFAARYSDKLGRRPVMFAGIIAGAVLALPMMWMLELGELWLFAIALFVANGVIQAAIFGPFGAFSAELFPTRIRYTGASLVYQLSSTLGAGFTPMIVSGLVLATGGSLWLTGVVWAASFVVAGLCLLTVKEGKNQDLSAEDI	PGPT0002956_231	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_00557	963	argP_1		HTH-type transcriptional regulator ArgP	GTGCTCGACTACACGCTCAAGCAGTTGCAGTATTTTGTGGCCGTCGCCAATCAGGGGTCGATCTCTGCCGCGGCGGCCGCCTCCCATATTTCTCAGGCTGCCATGTCCCAGGCGATAACGGAGCTGGAGCGTGTAGTCGGTTCCCAGTTAGTGGTTCGTCACCGGGCACGCGGAGTCGTGCTGACCGCCGTCGGGTCCTATTTTCTACGTGACGCCCAGGCTTTGGTGCGTCATGCGGAAGAGGTTCAGGGGCGGGTTATCGAACGGCAGCAAGGGCTGGTGGGGCCCTTGGTGATCGGTTGCTACACCGGCCTGTCGGCGTTTTGGCTCCCGGAAGTTGGCCATGGTTTCGTGAAGGCGAACCCGGGCCTGGACGTGACCCTGGTTGAGGGAGATGGGGCGGAACTTCAGGAACGCATGCTGAATGGCTATCTGGATGCAGTGTTGACACACACGCGGCATCTGATTCCCGGCGTCGGATCCACAACAGTCATGGGCGGCAGGCCGTATGTGCTGGTAGCCGGGGACCACTGGGCGGCCCAGCGGAAGAGCGTGCACCTCAGGGAGCTGGCTGACGAGGACTTCGTTTCCCTCGACATTCCCTCGGTACGTGAAAACCAGCTGGTCAATCTGCGCATGTCCGGTTTGGAGCCAAAAATCGCGTGGAAGTCCAGCAGCCTTGAGGCCGTCCGTGGCATGGTGGCGCGTGGCCTTGGCTATACGGTGCTGGTCCAGCGGCCACCCGTGGATCTGAGCTATGACGGCCTTCCGCTGGTGGCGCTGGAGATCGAGGACAATGTGGGTCACAGCGACATCTGCGTCGCCTATATCCCGTCTGACCGGCTCAGTCTCCGTCTGCGGGCGTTCATCGAATTCTGCGTAGAAGCTGGGGTCAGAAAGGAAAGGGAGTCGGCCAACCGAAGGGCTGCCCGACTCCCGCATCATCCTGTGACTGACGCTTAG	MLDYTLKQLQYFVAVANQGSISAAAAASHISQAAMSQAITELERVVGSQLVVRHRARGVVLTAVGSYFLRDAQALVRHAEEVQGRVIERQQGLVGPLVIGCYTGLSAFWLPEVGHGFVKANPGLDVTLVEGDGAELQERMLNGYLDAVLTHTRHLIPGVGSTTVMGGRPYVLVAGDHWAAQRKSVHLRELADEDFVSLDIPSVRENQLVNLRMSGLEPKIAWKSSSLEAVRGMVARGLGYTVLVQRPPVDLSYDGLPLVALEIEDNVGHSDICVAYIPSDRLSLRLRAFIEFCVEAGVRKERESANRRAARLPHHPVTDA				NA	NA	NA	NA	NA
D1-17_00558	672	rspR_3	COG1802	HTH-type transcriptional repressor RspR	ATGAATGCAATAGCCGCTCTGCTTCCCGCCGAGGAAGAAGCACCCTCCCAAGCGGAGGCTGCCTACCGGCAGCTGCGCGACAAGCTGATCATGCTCGACATCCGCCCGGGTGAACCCATTAACGACGGGCAACTGGCGGTAGAGCTGGGCTTCAGCCGGACGCCTGTCCGCGAGGCTATCAAGCGGCTGGAGGTGGACCACCTGGTGGTTTCCTATCCACGCCGGGGAACCTTCGCCACCACGGTTGACTTCACAGAGTTGGCCGACGTCTCAGAAATCCGGGAACTGCTCGAACCGCTGGCGGCGCGCCGTGCCGCAACACGGGCAAGCGCTTCCATGCGCAAGGAGCTACTGGACGTCGCGGACACGATTGCGGGGCTGGCACCGGACCCCGCCGAGTCGCGGGAGCTGATGCGGTATGACCTCACCGTGCACCGCCTGATTTACCGTGCGGCCGCCAACCCGCACCTGGAGGACACCCTGATCCGCTACGACAACCTGGCAACCCGCATCTGGTGCCTGGTCCTGGACAAGGTACCGTCGGTCAGCGGCCACATCACTGAGCACGTGGACCTGCTGAAGGCTGTTGCAGAGGGTGACGCGGACAAAGCCGGCGAGCTGGCCCTGCACCACGTCACGAGCTTCGAAGAAACCATCCGCAAGGTCCTGTAA	MNAIAALLPAEEEAPSQAEAAYRQLRDKLIMLDIRPGEPINDGQLAVELGFSRTPVREAIKRLEVDHLVVSYPRRGTFATTVDFTELADVSEIRELLEPLAARRAATRASASMRKELLDVADTIAGLAPDPAESRELMRYDLTVHRLIYRAAANPHLEDTLIRYDNLATRIWCLVLDKVPSVSGHITEHVDLLKAVAEGDADKAGELALHHVTSFEETIRKVL				NA	NA	NA	NA	NA
D1-17_00559	1350	glyA2_2	COG0112	Serine hydroxymethyltransferase 2	GTGGTTGAGCAGTTGAACGAGCGACTTTCCGCAGTCGATCCCGAGATCCAGCAGGCAGTTGACCGCGAGCTGGTTCGCCAGCAGTCCACCCTGGAGATGATCGCCTCGGAGAACTTCGCTCCGTCCGCCGTCATGGAGGCGCAGGGCTCGGTCCTCACCAACAAGTACGCCGAGGGCTACCCCGGCAAGCGCTACTACGGCGGCTGCGAACACGTTGATGTGGTCGAACAGCTCGCCATTGACCGCGTGAAAGCACTCTTCGGCGCCGAATTCGCCAACGTCCAGCCGCACTCCGGCGCCCAGGCCAACGCCGCCGCAATGTTCGCACTGCTGAACCCCGGCGACACCATCATGGGCCTGGACCTGGCCCACGGCGGCCACCTCACCCACGGCATGCGCATCAACTTCTCCGGCAAGCTCTACAACGTGGTCCCCTACCGGGTCCGTGAATCCGACTTCCGCGTGGACATGGCTGAGGTCGAGGCCCTGGCCCTGGAGCACAAGCCGAAGCTGATCGTCGCCGGCTGGTCCGCCTACTCCCGCCAGCTCGATTTTGCCGAGTTCCGCCGGATCGCGGACCTCGTGGGCGCCTACCTCATGGTGGACATGGCCCACTTCGCCGGCCTGGTCGCTGCAGGGCTGCACCCCAACCCCGTGCCGTACGCCGATGTCGTCACCACCACCACCCACAAGACCTTGGGCGGACCGCGCGGCGGAGTCATCCTCGCCAAGGAGCAGTACGCCAAGAAGATCAACAGCGCCGTCTTCCCGGGCCAGCAGGGCGGCCCGCTGGAGCACGTCATCGCCGCCAAGGCCGTGGCCTTCAAGCTCGCCGGCAGCCCCGAATTCAAGGAACGCCAGGAACGCGTCCTGCAGGGTGCCAAGCTGCTCGCCGACCGCTTCCTGCAGCCCGACGTCGAGGCCGCCGGCATCACCGTAGTCAACGGCGGCACGGACGTGCACCTGGTCCTGGTGGACCTGCGGAACTCCGAACTGGACGGCCAGCAGGCAGAGGACACGCTGCACAAGATCGGCATCACGGTCAACCGCAATGCTGTTCCGTTCGACCCGCGCCCGCCGATGGTTTCCTCCGGCCTCCGGATCGGCACCCCGGCCCTCGCCACCCGCGGCTTCGGCGCCACGGAATTCACCGAGGTAGCAGACATCATCGCGACGGCGCTCGTCGCCGCCGCCGGTGCCGGCACCCTCGATGACGCCACCGCCGTCGAACTCCGTGCCCGCGTGACCGCTCTCGCCGACCAGTTCCCCCTCTACCCCCACCTGAACGGTGAAGCCGAGACGGCCGAGCTCAGCGAACTCGATGCAGCAATGATTGGAGCAGCCCAGTGA	MVEQLNERLSAVDPEIQQAVDRELVRQQSTLEMIASENFAPSAVMEAQGSVLTNKYAEGYPGKRYYGGCEHVDVVEQLAIDRVKALFGAEFANVQPHSGAQANAAAMFALLNPGDTIMGLDLAHGGHLTHGMRINFSGKLYNVVPYRVRESDFRVDMAEVEALALEHKPKLIVAGWSAYSRQLDFAEFRRIADLVGAYLMVDMAHFAGLVAAGLHPNPVPYADVVTTTTHKTLGGPRGGVILAKEQYAKKINSAVFPGQQGGPLEHVIAAKAVAFKLAGSPEFKERQERVLQGAKLLADRFLQPDVEAAGITVVNGGTDVHLVLVDLRNSELDGQQAEDTLHKIGITVNRNAVPFDPRPPMVSSGLRIGTPALATRGFGATEFTEVADIIATALVAAAGAGTLDDATAVELRARVTALADQFPLYPHLNGEAETAELSELDAAMIGAAQ	PGPT0008090_1817	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-17_00560	1221	soxB		Sarcosine oxidase subunit beta	GTGAGCACCCACCATCTTCCGGAACACCCGGACTTCCTGTGGCGCAACCCGGAGCCCAAGTCCTCCTACGACGCTGTGATCGTCGGCGGCGGCGGGCACGGCCTGGCTACGGCTTACTTCCTCGCCAAGAACCACGGCATGACCAACATCGCCGTCCTGGAAAAGGGCTGGCTGGCCGGCGGCAACATGGCCCGCAACACCACCATCATCCGTTCCAACTACCTCTGGGACGAGAGCGCCGCCATCTACGAGCACGCCCTGAAGCTCTGGGAGATCCTGCCCGAGGAGCTGGAGTACGACTTCCTCTTCAGCCAGCGCGGTGTGATGAACCTGGCCCACACCCTCGGCGACGTCCGCGAGAGCATCCGCCGCGTGGGTGCGAACAAGCTCAACGGTGTCGACGCCGAATGGCTGGAACCGGAGCAGGTCAAGGAACTCTGCCCCATCCTGAACATCAGCGACAACATCCGCTACCCCGTCATGGGCGCGACCTACCAGCCGCGCGCCGGCATCGCCAAGCACGACCACGTCGCCTGGGCCTTCGCCCGCAAGTGCGACGAAATGGGCGTGGACATCATCCAGAACTGCGAAGTCACTGGCTTCCTCAAGGACGGCGAGCGCGTGGTGGGCGTCAAGACTAACCGCGGCACCATCAACACCGAAAAGGTGGGCCTCTGCGCCGCCGGGCACAGCTCGGTCCTGGCCGAGATGGCCGGGTTCCGCCTCCCCATCCAGTCCCACCCGCTGCAGGCACTAGTGTCCGAACTGCACGAGCCGGTCCACCCGACGGTCGTGATGTCCAACCACGTGCACGTCTACGTCTCCCAGGCGCACAAGGGCGAGCTGGTCATGGGCGCCGGCGTGGACTCCTACAACGGCTACGGCCAGCGCGGGTCCTTCCACGTGATCGAGCACCAGATGGCGGCCGCCGTCGAACTGTTCCCCATCTTCGCCCGGGCACACGTGCTGCGGACCTGGGGCGGCATCGTGGACACCACGCTGGACGCCTCGCCCATCGTGGGACTTACCCCCGTGGAGAACATGTTCGTCAACTGCGGCTGGGGAACCGGCGGCTTCAAGGGCACTCCCGCTGCCGGACTGACCTTCGCGCACACCATCGCTACGGGTGCACCGCACAAGCTCAACAAGCCGTTTGCCCTGGAGCGCTTTGAAACCGGGGCCCTGATCGACGAGCACGGCGCTGCCGCCGTCGCCCACTAG	MSTHHLPEHPDFLWRNPEPKSSYDAVIVGGGGHGLATAYFLAKNHGMTNIAVLEKGWLAGGNMARNTTIIRSNYLWDESAAIYEHALKLWEILPEELEYDFLFSQRGVMNLAHTLGDVRESIRRVGANKLNGVDAEWLEPEQVKELCPILNISDNIRYPVMGATYQPRAGIAKHDHVAWAFARKCDEMGVDIIQNCEVTGFLKDGERVVGVKTNRGTINTEKVGLCAAGHSSVLAEMAGFRLPIQSHPLQALVSELHEPVHPTVVMSNHVHVYVSQAHKGELVMGAGVDSYNGYGQRGSFHVIEHQMAAAVELFPIFARAHVLRTWGGIVDTTLDASPIVGLTPVENMFVNCGWGTGGFKGTPAAGLTFAHTIATGAPHKLNKPFALERFETGALIDEHGAAAVAH	PGPT0013510_787	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
D1-17_00561	423			hypothetical protein	ATGCTGCTTATCTCCTGCCCCAACTGCGGCCCGCGGGACGAAACCGAATTCCACTACGGCGGACAGGCCCACGTGGCCTACCCGGACAACCCGAACGAGCTGAATGACCGGGAATGGGCCGAGTACCTGTTCTACCGTGAGAACACCAAGGGCACCTTCGCCGAGCGGTGGGTGCACAGCACCGGCTGCCGCCAGTGGTTCAACATGCTCCGCGACACGGTCACCTACGACATCCAGGCCGTCTACCCCATGGGCACCTCCCGGCCGGACGCAGCCGGCAAGGTAACCGCGGAAACCGGAACTGCCAGCACCGCCGCTGACAGCACCACCACCGGGGACGACGCGCCCAGCATTTCTGGTACCAGCCTCGCCCCGGCCGCTTCAACAGCCAGCACCACCGCCCCGAAGGGAGCAACCAAATGA	MLLISCPNCGPRDETEFHYGGQAHVAYPDNPNELNDREWAEYLFYRENTKGTFAERWVHSTGCRQWFNMLRDTVTYDIQAVYPMGTSRPDAAGKVTAETGTASTAADSTTTGDDAPSISGTSLAPAASTASTTAPKGATK	PGPT0013520_16	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013520-soxD-K00304	NA	NA
D1-17_00562	2949	soxA_2		Sarcosine oxidase subunit alpha	ATGACTTCCCAGAACGCGCGCCTCAGCACCGGCGGACGCATCGACCGCAGCATCTCCTGGCGCTTCACGGTGGACGGCGAGGAATTCACCGGACACCCGGGTGACACGCTGGCCTCTGCGCTGCTCGCCAACGGCCGGGTCGCCGTCGGTAACTCGCTGTACGAGGACCGTCCCCGCGGCATCATGGCCGCCGGGGTGGAAGAGCCCAACGCCCTGGTCCGGATCGAGGCCCGCTTCCCGGGCGATGTGGCAGAGTCCATGCTTCCCGCCACCACCGTTTCACTGGTGGACGGCCTGAAGGCTGACCTGCTGAACGGGCTGGGCCGGCTGGACCCGGCCGAGGACAAGGCGGAGTACGACAAGAAGTACGTCCACACCGATGTCCTGGTGATCGGTGGCGGCCCCGCGGGCCTGGCCGCTGCCCGCGAAGCAGTCCGCACCGGCGCCCGGGTCATCCTGATGGACGACCAGCCGGAACTGGGCGGATCGCTGCTGTCCGGATCCACCGCGCCCGAACTGGCGGACACCATCGAGGGCAAGCCCGCCCTGGAATGGGTGGCTGATGTCGAGGCCGAGCTCGTCTCCGCCGCCGAATGCACGGTGCTTAACCGCACCACGGCATTCGGCGCCTACGACGCCAACTACGTCATCGCCGTCCAGAACCGCACCGACCACCTCTCCAGCCCCGCCGCCGCCGGCGTCTCCCGCCAGCGGATCTGGCACGTCCGTGCCAAGCAGGTTGTCCTCGCCCCCGGCGCCCACGAGCGGCCCCTGGTGTTCGAGAACAACGACCGCCCCGGCGTCATGCTCGCCTCGGCAGTCCGCAGCTACCTCAACCGCTACGCGGTGGCCGCCGGGCAGCGCGTCGTCATCAGCACCACCAACGACAGCGCCTACGCCCTGGCCGCGGACCTCCGCGCCGCCGGCGTCAAGGTCGCCGCCGTCGTGGACGCCCGTCCCGCTCTGACCCCGGTGGCTGCCGCCGCCGTCGAAGCCGGTACCCGCGTGCTGATCGGCAGCGCGGTGGCCAACACCGCTTCCGGAACAGAAACAGATGGCCGGCTGAACAGCGTCACCGTGCGCAGCATCAACAATGACGGCGAACTCACCTCCGGCATCGAAGAGATCACCTGCGACCTGCTGGCAGTGTCCGGCGGCTGGAGCCCGCTGGTCCACCTGCACTCGCAGCGGCAGGGCAGGCTGCGCTGGGACGAGGAACTGGCGGCTTTCGTGCCGGCCACCGTCGTCCCGAACCAGCAGACCATCGGCTCGGGCCGCGGCAGCTTCGAACTCGCGGACTGCCTCGCCGAAGGTATCTCGGCCGGAGCTTCGGCGGCCATCGCGGCCGGCTTCGAGTCCGCCGTCGAGCCCTCCGCCCTGGCGGAGCCGAAGGCATCGGGCCCGACCCGCCAGCTGTGGCTGGTTCCGGGCCAGGGCGGCACCCCTGACGACTGGCACAACCACTTCGTCGACTTCCAGCGCGACCAGTCCGTGGCAGACGTCCTGCGTTCAACGGGCGCAGGCATGCGCTCGGTGGAGCACATCAAGCGCTACACCTCCATCAGCACCGCCAACGACCAGGGCAAGACCTCCGGCGTCAACGCGATCGGCGTCATTGCCGCTGCGCTCCGCACAGCCGGCGAAGCAGCCCGGGGGATCGGCGACATCGGCACCACCACCTACCGCGCACCGTTTGCCCCCGTCGCCTTCGCAGCGCTGGCCGGACGCCAACGCGGCGAACTGTTCGACCCCGCCCGCGTCACCTCGATCCACCCGTGGCACGTCGCCCAGGGCGCACTGTTCGAGGATGTCGGGCAGTGGAAGCGCCCCTGGTACTACCCGCAGAACGGGGAGGACATGGATGAAGCGGTGCTCCGCGAGTGCGCCGCCGTCCGCGAGTCCGTTGGGTTCATGGACGCCACGACCCTCGGCAAGATCGAAATCCGTGGCAAGGACGCCGGTGAGTTCCTCAACCGGATCTACACCAACGCGTTCAAGAAGCTTGCCCCGGGTTCCGCCCGCTACGGCGTCATGTGCTTTCCGGACGGCATGATCTTCGACGACGGCGTGACCCTCCGTCTCGACGAGGACCGCTACTTCATGACCACCACCACCGGCGGCGCGGCCAAGGTGCTGGACTGGCTGGAGGAATGGCTGCAGACCGAATGGCCGGAACTCGATGTGCACTGCACCTCGGTGACCGAACAGTGGAGCACCATCGCCGTCGTCGGGCCCAAGTCCCGTGAGGTGATCGCCAAGGTTGCCCCCGAACTCGCCGCCAACGGCGGCTTGGATGCCGAGGCCTTCCCGTTCATGACCTTCCGTGAAACCACCCTCGCCTCCGGCGTGCGGGCGCGGATCTGCCGCATCTCGTTCTCCGGTGAACTCGCCTACGAGATCAACGTGCCGTCCTGGTACGGGCTGAACACCTGGGAAGCCGTGGCCGCCGCGGGCGCCGAATTCAACATCACCCCGTACGGCACCGAAACCATGCACGTGCTCCGCGCCGAGAAGGGCTACCCGATCGTCGGTCAGGACACGGACGGCACGGTCACCCCGCAGGACGCCGGCATGGAATGGATCGTCTCCAAGGCCAAGGACTTCATCGGCAAGCGCTCCTACGCCCGGACAGACGCCCAGCGCGAAGACCGGAAGCACCTGGTCAGCGTCCTGCCCGTGGACGGCGGCCTGCGGTTGCCGGAAGGCACCCAGCTGGTGGAAAAGGGCATCCCGGTGAACCCGGCCTACGGCCCCGTGCCCATGCAGGGCTTCGTCACCTCGAGCTACCACAGCGCCGCACTCGGCAGGTCGTTCGGGCTGGCCCTGATCAAGAACGGCCGGAACCGCATCGGGGAGACCCTCGTGGCCGCCGCCGGCGATCAGCTCGTCGACGTCGTTGTCGCAGAAACCGTACTTTTTGACCCCGAAGGGACCCGCAAAGATGGCTAA	MTSQNARLSTGGRIDRSISWRFTVDGEEFTGHPGDTLASALLANGRVAVGNSLYEDRPRGIMAAGVEEPNALVRIEARFPGDVAESMLPATTVSLVDGLKADLLNGLGRLDPAEDKAEYDKKYVHTDVLVIGGGPAGLAAAREAVRTGARVILMDDQPELGGSLLSGSTAPELADTIEGKPALEWVADVEAELVSAAECTVLNRTTAFGAYDANYVIAVQNRTDHLSSPAAAGVSRQRIWHVRAKQVVLAPGAHERPLVFENNDRPGVMLASAVRSYLNRYAVAAGQRVVISTTNDSAYALAADLRAAGVKVAAVVDARPALTPVAAAAVEAGTRVLIGSAVANTASGTETDGRLNSVTVRSINNDGELTSGIEEITCDLLAVSGGWSPLVHLHSQRQGRLRWDEELAAFVPATVVPNQQTIGSGRGSFELADCLAEGISAGASAAIAAGFESAVEPSALAEPKASGPTRQLWLVPGQGGTPDDWHNHFVDFQRDQSVADVLRSTGAGMRSVEHIKRYTSISTANDQGKTSGVNAIGVIAAALRTAGEAARGIGDIGTTTYRAPFAPVAFAALAGRQRGELFDPARVTSIHPWHVAQGALFEDVGQWKRPWYYPQNGEDMDEAVLRECAAVRESVGFMDATTLGKIEIRGKDAGEFLNRIYTNAFKKLAPGSARYGVMCFPDGMIFDDGVTLRLDEDRYFMTTTTGGAAKVLDWLEEWLQTEWPELDVHCTSVTEQWSTIAVVGPKSREVIAKVAPELAANGGLDAEAFPFMTFRETTLASGVRARICRISFSGELAYEINVPSWYGLNTWEAVAAAGAEFNITPYGTETMHVLRAEKGYPIVGQDTDGTVTPQDAGMEWIVSKAKDFIGKRSYARTDAQREDRKHLVSVLPVDGGLRLPEGTQLVEKGIPVNPAYGPVPMQGFVTSSYHSAALGRSFGLALIKNGRNRIGETLVAAAGDQLVDVVVAETVLFDPEGTRKDG	PGPT0013515_585	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0013515-soxA-K00302	NA	NA
D1-17_00563	636	soxG		Sarcosine oxidase subunit gamma	ATGGCTAACACCGCAGCTTTCACAGGCATCAATGGACTCCGGGAAATCCGCCGCAGCCCGGCCTCACACCTGGCCGAAGCATTCGAAACCGGCTCCATTCCGGGAACCGTGGAGCTGAAAGAGGGCCAGTTCCAGACCATGGCCGGGGTCCGTGTAGATCCCAGCTCAGAGGCGGGGGCACGGATCGCGTCCGTCGCCGGCGGCCTGCCGGTGCGGTGCGGCGAGGTCCGCGGCACGGACGACGTCAGTGTCCTGTGGCTGGGCCCGCAGGAGTTCCTCATCGTGGCTCCGGAAGAAGCCCACGACTCCCTGGGCGGAGACCTGATCGGCTCCCTCCTGGCAGCCCTGGGCGACGCCCCGGGGCAGGTAGTGGACCTGTCCGCCAACCGCACCACGTTCGAGCTGTCCGGCCCGCGGGCCAAGGCAGTGCTGGAGAAGGGCTGCTCCCTTGACCTGCACCCCCGCAGCTTCACGGCCGGGACTGCCCTGAACACCGAGGTCGGCAACATCCCGGTGGTCCTGTTCAAGACCGGGGAGGAAAGCTTCCGCCTGTTCCCCCGCGCCTCCTTTGCCGACTTCCTGGGCCGCTGGCTCCTGGACGCCATGAGGGAGTTCGCTTCCCCCGAGGTGCCCTGA	MANTAAFTGINGLREIRRSPASHLAEAFETGSIPGTVELKEGQFQTMAGVRVDPSSEAGARIASVAGGLPVRCGEVRGTDDVSVLWLGPQEFLIVAPEEAHDSLGGDLIGSLLAALGDAPGQVVDLSANRTTFELSGPRAKAVLEKGCSLDLHPRSFTAGTALNTEVGNIPVVLFKTGEESFRLFPRASFADFLGRWLLDAMREFASPEVP	PGPT0013525_165	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013525-soxG-K00305	NA	NA
D1-17_00564	1374	sdaA_2	COG1760	L-serine dehydratase 1	ATGGCGCTCAGCGCCCTCGATCTGTTCTCTGTTGGCATCGGGCCGTCGTCGTCACACACGGTCGGCCCGATGCGGGCAGCAAAACAGTTCGCCGACGGACTGAAGGGGGCCGGACTCCTGAGCTCCACTGTCCGTGTCCAGGCAGAGCTCTTCGGCTCGCTTGGGGCCACCGGCCGGGGCCACGGATCGGACAAGGCCGTAGTGCTGGGGCTGCAGGGCCTGGAGCCGGAGACCGTTGACACGTCCACCGCAGATGACCAGGTGGCTGCCGCCGCCCTGGACGCTGAACTCCGGATCGCCGGGGACCACCGGGTGGACTTCAACTGGGACGAGGACGTGGTGCTGCACCGCCGCAAGTCGCTGCCCGCACACCCGAACGGCATGACCTTCCGGGCGCTGGACCACAGGGGAGCGGTGCTGAGCGAACGGAGCTTTTACTCCATCGGCGGCGGCTTCGTCGTCGACGGCGACGCGGAAGGCGCCGACAGGATCGTGGCGGATGACACCGTGCTCCCGTACCCGTTCAGCAGCGCTGACGAACTCCTGGAGATCTGCCGCCGCGAAGGCATGTCGATCTCCGACGTGATGCTGGCTAACGAGCTGGTGTGGCGCAGTGAAGCGGAGCTCCGGGGGGAACTGCTGAAGCTGTGGGCCGTCATGCGCGAATGCGTGGACAACGGCTGCTCCGCCGAAGGAATCCTTCCCGGCGGGTTGAAGGTGAAGCGCCGGGCGCCGCAGCTCTTCCGGACCCTGACGGCGGACACCGGCGTTACCGATCCGCTCCGGGCGATGGAGTGGGTGAACCTGTTCGCGCTGGCCGTGAACGAGGAGAACGCGGCCGGTGGCCGCATCGTCACCGCCCCCACCAACGGTGCGGCCGGAATCGTCCCGGCCGTCCTGCACTACTACGCGAAGTTTGTACCGGGAGCGAACGACGACGGTGTGGTGCGCTTCCTGCTGGCGGCAGCCGCCGTCGGAATTCTGTTCAAGATCAACGCCTCCATCTCCGGCGCCGAGGTGGGTTGCCAGGGCGAGGTCGGTTCGGCCTGTTCCATGGCCGCTGCCGGGCTGTGCGAGGTGCTGGGCGGCACGCCCGAGCAGGTTGAGAATGCTGCCGAGGTGGGGATCGAACACAACCTCGGGCTGACCTGCGACCCGGTGGGCGGCCTGGTGCAGATCCCGTGCATCGAGCGGAACGCGATCGCCAGCGTCAAGGCCATCAACGCCGCCCGCCTCGCGCTGCACGGGGACGGCAGCCACAAGGTCTCGCTGGACAAAGCCATCAAAACCATGCGTGAAACAGGAGCTGACATGAAAACCAAGTACAAGGAGACGTCCCGCGGGGGCCTCGCCGTGAATGTGATCGAGTGCTGA	MALSALDLFSVGIGPSSSHTVGPMRAAKQFADGLKGAGLLSSTVRVQAELFGSLGATGRGHGSDKAVVLGLQGLEPETVDTSTADDQVAAAALDAELRIAGDHRVDFNWDEDVVLHRRKSLPAHPNGMTFRALDHRGAVLSERSFYSIGGGFVVDGDAEGADRIVADDTVLPYPFSSADELLEICRREGMSISDVMLANELVWRSEAELRGELLKLWAVMRECVDNGCSAEGILPGGLKVKRRAPQLFRTLTADTGVTDPLRAMEWVNLFALAVNEENAAGGRIVTAPTNGAAGIVPAVLHYYAKFVPGANDDGVVRFLLAAAAVGILFKINASISGAEVGCQGEVGSACSMAAAGLCEVLGGTPEQVENAAEVGIEHNLGLTCDPVGGLVQIPCIERNAIASVKAINAARLALHGDGSHKVSLDKAIKTMRETGADMKTKYKETSRGGLAVNVIEC	PGPT0001975_2029	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-17_00565	897	purU_3	COG0788	Formyltetrahydrofolate deformylase	ATGACTGCCATACAGACTGAATCCTTCTCCGGCCAGCCCGTGACCACCGTCGAGCATGTCCTGACCCTGGACTGCCGGGAGTCCCCGGGCATCGTCCACGCGGTCTCCGGCTTCCTGCTGGAACACGGCTGCGACATCATCGATAACCAGCAGTTCGGCGAACGCTCCGAAGGCCATTTCTTCATGCGGGTGCATTTTGCGTCCGACGGCGATGCCTCCACTGCTGACACCTTGCGGGCCGCCTTTGCCCCAGTAGCGGAACGCTTTGGGATGAGCTGGCGGCTTGAGCCGCACGGCGCCAAGCGCCGGGTGCTGATCATGGTCTCCAAGTTCGGGCACTGCCTCAACGACCTGCTGTTCCGCGCCAGGATCGGCGAACTGCCGGTGGACGTGGCGGCCGTGGTCTCCAACCACACGGACCACCAGGCGCTGGTGGAATGGCACGGCATCCCGTTCTTCCACGTGCCCGTCACCCCCGACACCAAGCCCGAAGCCGAGGCCCGGCTGCTGGAGCTCGTGGATGAGCTGGACGTCGAGCTCGTGGTGCTGGCCCGCTACATGCAGGTCCTCAGCGACAACCTCACCCGGAAACTCGAAGGGCGGGCCATCAACATCCACCACTCGTTCCTGCCGAGCTTCAAGGGCGCGAAGCCGTACCACCAGGCCTACGCCCGGGGTGTGAAGACCGTGGGCGCCACCGCGCACTACGTCAACGCCGAGCTCGACGAGGGACCCATCATCTCCCAGCAGACGGTGGAGGTGGACCACACCTATGGCCCCGAGGACCTCGTGGCCGCCGGGCGCGACACCGAATGCAAGGCCCTCAGCAACGCTGTCCGCTGGCACTGCGAAGGCCGGGTCATCCTCCGCGGCAACAGGACAGTGGTGCTCCGCTAA	MTAIQTESFSGQPVTTVEHVLTLDCRESPGIVHAVSGFLLEHGCDIIDNQQFGERSEGHFFMRVHFASDGDASTADTLRAAFAPVAERFGMSWRLEPHGAKRRVLIMVSKFGHCLNDLLFRARIGELPVDVAAVVSNHTDHQALVEWHGIPFFHVPVTPDTKPEAEARLLELVDELDVELVVLARYMQVLSDNLTRKLEGRAINIHHSFLPSFKGAKPYHQAYARGVKTVGATAHYVNAELDEGPIISQQTVEVDHTYGPEDLVAAGRDTECKALSNAVRWHCEGRVILRGNRTVVLR	PGPT0008155_597	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-17_00566	1542			hypothetical protein	ATGCCAGTCTTACTTAGTGAGGTCCTCACCCACCCCACGCTCTCCGCGGCCGATCCCGTACTCCGCGCCGGAGCGGCCGTCGCCGCAGGAACTCAGCTGCGGTGGGTCCACTCAAGCGAAGTTTTGGACATCGCGCCGTTGCTCAGTGGCGGCGAACTTCTTCTTACCGGGGGTGACGCCCTGGTATCGGCTTCGGACGCGCGCCGCGTCGACTACGTCCGTCAACTGGCTGGCCGTGGCGTCGGCGCCCTCGCCGTGGAAAGCGGGCAGACCCTGCCCTCACTGCCGTCGTCGATGATCCGCGCCGCGGAAGAAGTGGGACTGCCCCTCATCGAGTTGCGCAAAGTGGTGCCCTTCGTCGGCATCATGCAGGCCATTAATTCGATGCTGGTCAGCGAATCAGTGGCGCACCTGCGCCGTGCCGACGAGGCCAGCCACGCCATGGCGGTGGAACTCGCCCATGGCAGCAGCCTGGACCAGATGCTTGCCGTACTCGCCGGCATCATTGACGCGGGCCTGGAGCTGATGACCGTGTCCGGCGTGATGCTTGGGAGTGCCCTGGCCCCCGGCGGAGATGCCGTTGGAGCGCATGCCGGCGGGGCAGCAGGTGACGGGACGCTGATCAACATCGATGTCCCTGTCCGAGGCGTGCCGTCAGCGCGACTGGCCATCAGCGTCCCTCCGCACGGCGATGTCAACCTGGCCCGCGTTGCAGGAGGGCGCTGCGTTGACATTCTGTCCCTGGCACTGCTCCAGCGGATGCCCCCGGGGTTGAAAGAAGTGGCCGGCACCGCTTTGCTGCGCGCGGTCAGCTCCGGCAGCCAGCCCTGGCGGCTTCAGCAGTTGGCGCCCGCCGCCGGGATCCAGCCCTCAGCGACGGTGGTGGCGGTGGCGGTTCGGACGTCCACCTCGCAACAGCTGCGCGCGGCTATGGACAAAATCCTGAAAAAATCGGGGCTGCCAAGTGCCAGCTACGTGGACAATTCCGAGCTCCTTGCCCTTTCCGTTCTGCCTCATGGCAAGGAGGCTTCGGCCCGTGCAGACCTCGTGGACGCCCTTCGCGGACTTCCCGTCGAGACCGGAACGATGACGGCCGTAGGCCCGCTCGCGGCCGGGATCAAGGACGCACCGTGGTCACTCGCCGAGGCCAGGTGCGCGCTCGACCTCGCCGGAGGCGTGTCCCCTGGTGCCGCCGAACATGCGGTTACGCCGGCCGCAGGACTGGTGGTCGACGTCGAAGAGCTCGCCGTGGAGCGGTTGGCGGCGCAGCACCTGGACCAGGCCGCGCGGCAGGCCTATGTGCGTCAGCAGCTGGGTCCCGTTCTGGAGCACGACGAGCGCCGGAACTCCCAACTGCTGGCCACCCTTGCAACGTGGCTGGATTCCGGCTGCAACACCGCCCAGGCCGCCAGGGAACTGCACGTGGAGCGGCAGTCGATGCATCACCGGCTGCAGCGGATCTTTGAGTTGTGCGGCGGGGATCCACGGGGCACGGGCAGGCTCGTGGCTCTGCATCTGGCGACCCGGCTGGCCGCCCTGTAG	MPVLLSEVLTHPTLSAADPVLRAGAAVAAGTQLRWVHSSEVLDIAPLLSGGELLLTGGDALVSASDARRVDYVRQLAGRGVGALAVESGQTLPSLPSSMIRAAEEVGLPLIELRKVVPFVGIMQAINSMLVSESVAHLRRADEASHAMAVELAHGSSLDQMLAVLAGIIDAGLELMTVSGVMLGSALAPGGDAVGAHAGGAAGDGTLINIDVPVRGVPSARLAISVPPHGDVNLARVAGGRCVDILSLALLQRMPPGLKEVAGTALLRAVSSGSQPWRLQQLAPAAGIQPSATVVAVAVRTSTSQQLRAAMDKILKKSGLPSASYVDNSELLALSVLPHGKEASARADLVDALRGLPVETGTMTAVGPLAAGIKDAPWSLAEARCALDLAGGVSPGAAEHAVTPAAGLVVDVEELAVERLAAQHLDQAARQAYVRQQLGPVLEHDERRNSQLLATLATWLDSGCNTAQAARELHVERQSMHHRLQRIFELCGGDPRGTGRLVALHLATRLAAL				NA	NA	NA	NA	NA
D1-17_00567	1524			hypothetical protein	ATGCACAACAAATCCACTGCAGTGCCGGCTGGCCCGGCGACAGTAGCCGACGAAGATGTCGAAGCCTGGCTGCAGCCCATCCCTGAATCACAGCGAACCCGTAAGGTGTCCGGCCAGTTTTGGATCTGGGCCGGAGCCAACCTGGCGCCGATCAACTGGGTACTGGGTGCGCTGGGCATCCATCTCGGGCTCGGCTTTGCCGACACTGTCACCGTTCTGGTGCTGGGGAACCTCATCGGAATGCTGCTTTTCGGCTGTTTCGTCCTGCTCGGCCAGAAGACCGGCGCCACAGGCATGGTACTGGCCCGGGCAGCCTTCGGCCGGCGCGGAAACTACCTGCCGGCCGCCATCCAGGCACTGCTGGTCATCGGTTGGTGTGCCGTCAACACGTGGATCATCCTCGACCTGGTGATGGCACTTTTCGGCACACTCGGATGGGTCGATCCTGCAGCCCACAACTACGGCTGGAAGATCGGCGTCGCCACCGGCATCATGGCCGCACAGGTGGCCATTGCCTGGTTCGGGTACAAGGCAATCGCAGCGTTCGAAAAGTGGACAGTGCCGCCCACGATCCTCATCCTCGCCGTGATGTCCGCCGTCGCCTGGTTCGGCATCAAAATTGACTGGGGCTATGCGGGCCCGGCCGGCAATATCCTCGAAGGCTCCGAGCGCATCGCCGCTATGAGCGCCGTCATGACGGCGATCGGCATCGGCTGGGGCATCACCTGGTTCACCTACGCCGCCGACTACTCCCGCTTTGTCAGCACCGAAGTCCCCAAGCGCAAGGTCTACCTGGCTTCAGTTCTGGGCCAGTTCATACCGGTCGTCTGGTTGGGCGTTCTCGGTGCAAGCCTGGCCACTAACAGCGGTGAGATCGATCCCGGAAAGCTCATCGTCCAGAACTTCGGTGTCCTTGCCCTGCCGGTCCTGCTCATGGTTCTGCACGGCCCCATCGCCACGAACATCCTGAACATCTACACCTTCTCCGTCGCCACCCAGGCTTTGGACATCACCATCAGCCGGCGCAAGCTCAACCTGTTCGTCGGCGTGTTCTCGCTCATCGCCGTCGTCTTCTTCATCTTCCAGGAGGATTTCGCCGCGGTGCTCGACGCCTGGCTGATCGGGCTCGTGGCCTGGGTGGCTGCATGGGGCGGCGTGATGCTGGTGCACTACTTCTGGATTGAGAAGCGCTGGCCGGGCGAGACGGCAAGGCTCTTCGATGGCGTAGGCACCAGGCGCCTGCCGGGCGTCAACTGGGCCGGCGTCGTGTCCCTTCTGGTGGGCATCTTCTCCACTTGGCTGTTCATGTACGGGCTGGTACCGGCAATGCAGGGACCCGTCGCAGTTGCACTGGGGGGCTGGGATCTGTCCTGGCTTGCCGGCGGTGTCAGCAGCGCCGCCAGCTACGCCATCCTGGGACCCCGGGTGCACCGCAGGTTTTTGGCAGCTGGAGCTGGACCGGAATTGCTCTCCGTAACAGTGACCGAGGCAGCAGACCGTCCCTCCGCCGCCCCCGCACTCTAA	MHNKSTAVPAGPATVADEDVEAWLQPIPESQRTRKVSGQFWIWAGANLAPINWVLGALGIHLGLGFADTVTVLVLGNLIGMLLFGCFVLLGQKTGATGMVLARAAFGRRGNYLPAAIQALLVIGWCAVNTWIILDLVMALFGTLGWVDPAAHNYGWKIGVATGIMAAQVAIAWFGYKAIAAFEKWTVPPTILILAVMSAVAWFGIKIDWGYAGPAGNILEGSERIAAMSAVMTAIGIGWGITWFTYAADYSRFVSTEVPKRKVYLASVLGQFIPVVWLGVLGASLATNSGEIDPGKLIVQNFGVLALPVLLMVLHGPIATNILNIYTFSVATQALDITISRRKLNLFVGVFSLIAVVFFIFQEDFAAVLDAWLIGLVAWVAAWGGVMLVHYFWIEKRWPGETARLFDGVGTRRLPGVNWAGVVSLLVGIFSTWLFMYGLVPAMQGPVAVALGGWDLSWLAGGVSSAASYAILGPRVHRRFLAAGAGPELLSVTVTEAADRPSAAPAL	PGPT0027745_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027745-toxin_cptA|ygfX-K19168	NA	NA
D1-17_00568	966			hypothetical protein	ATGGACTTCCCCGCTTTCGCAGACTCCGCCCACCCCATCTCCTGGCCTGAGGGGTACCGCGCCGCCGCCTCGTTCACGTTCGACGTCGACGCGGAATCATGCACCATCGCCCACGACCCCAGCAGCACCCGCCGCATGTCCCTCATGACCCACCAGTCATACGGGCCCAAGGTCGCGGTTCCCCGACTGCTGCAGATCCTGCAGCGGCAGGATATCCAAGCCACCTTCTTCATCCCCGGTTTCACCGCCGAGAGCTACCCCGACGTGGTGCGACGGATCGTTGACGGCGGCCACGAGATCGCCCACCACGGCTACCTCCACGAACCGATGCAGTGCATCGATGCCGCCACGGAGGCACGCTACATCGACCGGGGTTTGGAGGCGCTGGCCAAAGTAGCCGGCGTCCGGCCGACCGGCTACCGCGCTCCCTGGTGGGAGCTGAACTGGCACTCACCGGCGCTGCTGGCAGACCGCGGTTTCCTCTATGACTCCAGCCTGCTCGACGGCGATGCACCGTACCGATTCAGCGTCGCCGACGGCGATCCCCGGGATCTCGTCGAAATACCCGTCGACTGGGCACTGGATGATTGGGAACAATACGCCTTCTACCCGGGGGTGACCGGCAGCGGCGTCATCGAAAGTCCCGCAAAGGTCCTGGAAATGTGGACGCTGGAGGCCGAGGCGCATCATGCGGCAGGGAGCTGCTTCGTGCTGACGAACCACCCGTTCATTTCAGGCAGGCCCTCGAAAGCCGCCGCACTCGAGCAGCTGATCAGCCGGGTGAAGGCCATGGACGGAATGTGGGTCACCACACTCGAGAGGATCGCCGAGCACACCCGGGATACGGTCACGGAAGTCCACACCCACGCACGGATCGAGGTGCCCGGCTTCCCGGACGCCGGCGCACGTTTCACCCCCGCCCAGGTCCGCCAGCCCGAGTTGACTGCCGGCCCGTCCCGGCTCTAA	MDFPAFADSAHPISWPEGYRAAASFTFDVDAESCTIAHDPSSTRRMSLMTHQSYGPKVAVPRLLQILQRQDIQATFFIPGFTAESYPDVVRRIVDGGHEIAHHGYLHEPMQCIDAATEARYIDRGLEALAKVAGVRPTGYRAPWWELNWHSPALLADRGFLYDSSLLDGDAPYRFSVADGDPRDLVEIPVDWALDDWEQYAFYPGVTGSGVIESPAKVLEMWTLEAEAHHAAGSCFVLTNHPFISGRPSKAAALEQLISRVKAMDGMWVTTLERIAEHTRDTVTEVHTHARIEVPGFPDAGARFTPAQVRQPELTAGPSRL	PGPT0018645_1283	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-17_00569	480	bcp_1	COG1225	Putative peroxiredoxin	ATGAGCACCTACCTGACCACGAAGCTCCAGCCCGGAACCCAGGCGCCGGACTTCACCCTGCCGGACGCCGAGGGCAAGCAGACCTCGCTGGCTGACTACCGCGGCAAGAACGTCATTGTCTACTTCTACCCCGAGGCGGCCACTCCCGGCTGCACCACCGAAGCCTGCGACTTCCGCGACAACCTTGCCAGCCTGCAGGGCTCTGGCTACGAAGTGCTCGGGGTCTCCCCCGATGCTCCGGAAAAGCTGGCGAACTTCACCGGCGACTTTGGCCTCACTTTCCCGCTACTCGCCGACGAGGACCATGCCGTGGCCCTGGCCTACGGCGCGTGGGGCGAAAAGCTGGTCGACGGTGAGGTCCGCGAAGGCATCGTGCGCTCCACCGTTGTCCTAGATCCCGAGGGCAAGGTCAAGCTGGCCCAGTACCAGGTCAAGGCCCAGGGCCACGTGGCGGCGCTGAAGGAAACCCTCGGCCTCTAA	MSTYLTTKLQPGTQAPDFTLPDAEGKQTSLADYRGKNVIVYFYPEAATPGCTTEACDFRDNLASLQGSGYEVLGVSPDAPEKLANFTGDFGLTFPLLADEDHAVALAYGAWGEKLVDGEVREGIVRSTVVLDPEGKVKLAQYQVKAQGHVAALKETLGL	PGPT0013120_1915	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
D1-17_00570	777			hypothetical protein	ATGGCTGTCCATGCCCATACGCCCGCACCGAGAACACAGTGTGTGCCAGTCCCCGGCGCACTGCGCCGCGGTGGCCGTGTGCCCGGGGTGCCGGGGCCCGCGTCCGGTCCTGTGCCTGCGTCCGGTCCTGTTTCTGCGCCGTTGCAGGCCCGGGGGCTGGCGGTATGGGTGGCGGTCGGGGCCGAGCAGGACATTGATGACGCCGTACTGGCCCGCGCCGCCGAACTCGTGCTGGCACGCGCCCTGAAGATCGCTCCGGAGGCGGAAGTCCATTGGCCTGCCGCCGGAGCCGCCACGTCCGACGCCGGGACCTCCCCCGCCGGGACGCCCCCTGGGGAGGGGGCACCGGCGGGGCCCGCCGCCGGCACTCCCGCGCCGCCGTCGTCCTCTCCGGAGGACTCCCCGCACACGGACGACGGCGGCGCCTCCCTCCTTCCACCGTCACCCGGCCCAGTCAGCCGGGTGACCGTGGACCTCGCCAAGGGCCACGTGCTGCTGGACGGTCAAGCAGTGTCACTTACCGGCGTCGAATTCACGCTCCTGCGCTACCTCGTGGAGAATTGTTCACGCACCATCAGCCGGGAGGAACTGCAGCGGTTCCTGGAGCGGTTCGACAATCCCGGCGCTGCGCCCCGCTCGATTGACGTTTATGTGGGGCGTGTCCGGCGGAAGCTGCTGGGCGGCCGGCACGCTATCGCCACCGTCCGCGGCGGCGGCTACCGCTTCGTTCCCGGTCCCGCTGCAACTGTCCGCGGCCCGGCGGAATACAGCATCTGA	MAVHAHTPAPRTQCVPVPGALRRGGRVPGVPGPASGPVPASGPVSAPLQARGLAVWVAVGAEQDIDDAVLARAAELVLARALKIAPEAEVHWPAAGAATSDAGTSPAGTPPGEGAPAGPAAGTPAPPSSSPEDSPHTDDGGASLLPPSPGPVSRVTVDLAKGHVLLDGQAVSLTGVEFTLLRYLVENCSRTISREELQRFLERFDNPGAAPRSIDVYVGRVRRKLLGGRHAIATVRGGGYRFVPGPAATVRGPAEYSI				NA	NA	NA	NA	NA
D1-17_00571	1344	allB	COG0044	Allantoinase	ATGTCTGAAGAACAGTTTGACCTGGTCATCCGGGGCCGGCGCATCCTCACCACCGCCGGCATCGCACCGCGGGAAGTGGGTGTCCGCGGCGGCAAGATCGTCGCCCTCGAGCCCCTCGGCAACGGTCTTTCCGGCCGTGAGGTCGTTGAGCTCGGCGACGACGAAACGCTCATCCCCGGCCTGGTGGACACCCACGTCCACGTCAACGAGCCCGGCCGCACGGAGTGGGAGGGCTTCGCTTCCGCCACGCGCGCCGCTGCCGCCGGCGGTGTCACCACCATCATCGACATGCCGTTGAACTCGATCCCTCCCACCACCACCGTGGAAGGCCTCAAGCTCAAGCGCGAAGTCGCCGAGGACCAGGCGTTCGTGGACGTCGGGTTCTGGGGCGGGGCCGTTCCCGGCAACAAGTCCGACCTGCGCCCGCTCCACGACGAGGGCGTGTTCGGTTTCAAGTGCTTCCTGCTGCACTCGGGCGTGGACGAGTTCCCCCACCTCGAAGCGGACGAGATGGAGGAGGACATGCGCGAGCTGAAGTCCTTCGACTCGCTCATGATCGTCCATGCCGAGGATTCGCACGCGATCGACCACGCACCGCACCCGGGCGGCGACAAGTACGCCACCTTCCTCGCCTCCCGCCCCCGCGGCGCCGAGAACAAGGCCATCGCCGAGGTCATCGAGCGCGCCCGCTGGACCGGGGCCCGGGCCCATATCCTGCACCTGTCCTCCTCGGACGCGCTGCCGATGATCGCCTCCGCCAAGCGCGACGGCGTCCACCTCACCGTTGAGACGTGCCCGCACTACCTCACGCTCATGGCCGAGGAAATCCCCAACGGCGCCACCGCATACAAGTGCTGCCCGCCCATCCGCGAGGCATCCAACCGCGAGCTGCTGTGGCAGGGCCTGCAGGACGGCACCATCGACTGCATCGTCTCGGACCATTCCCCTTCCACGCTTGACCTGAAGGACCTCGAAAACGGCGACTTTGCCGTGGCCTGGGGCGGAGTCTCCTCGCTGCAGCTGGGCCTGTCGCTGATCTGGACTGAGGCCCGGCACCGCGGTATCCCTTTGGAACAGGTGGTTTCCTGGATGTCCGAGAAGCCCGCGGCCCTCGCCCGCCTCACCAACAAGGGCCAGCTCGCCCTGGGGTACGACGCCGACTTCTCCGTCTTCGCGCCTGACGAGGCCTTCGTGGTGGACGTTTCCAAACTCAAGCATAAGAACCCCATCACTCCCTACGACGGCAAGGCACTCTCCGGCGTCGTCCGCAGGACCTACCTGCGCGGCAGCGTGGTGGACGGCCAGACCCCCGGCGGCAAACTGATCCGCCGCGGCGGCATCTAG	MSEEQFDLVIRGRRILTTAGIAPREVGVRGGKIVALEPLGNGLSGREVVELGDDETLIPGLVDTHVHVNEPGRTEWEGFASATRAAAAGGVTTIIDMPLNSIPPTTTVEGLKLKREVAEDQAFVDVGFWGGAVPGNKSDLRPLHDEGVFGFKCFLLHSGVDEFPHLEADEMEEDMRELKSFDSLMIVHAEDSHAIDHAPHPGGDKYATFLASRPRGAENKAIAEVIERARWTGARAHILHLSSSDALPMIASAKRDGVHLTVETCPHYLTLMAEEIPNGATAYKCCPPIREASNRELLWQGLQDGTIDCIVSDHSPSTLDLKDLENGDFAVAWGGVSSLQLGLSLIWTEARHRGIPLEQVVSWMSEKPAALARLTNKGQLALGYDADFSVFAPDEAFVVDVSKLKHKNPITPYDGKALSGVVRRTYLRGSVVDGQTPGGKLIRRGGI	PGPT0000870_1008	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000870-allB-K01466	NA	NA
D1-17_00572	1209	glxK	COG1929	Glycerate 3-kinase	ATGCGCATTGTGATCGCGCCGGATAAGTTCAAGGGCTCACTCTCCGCTCCGGAGGTGGCCCGGCACTTGGAGAACGGGCTGACAAAACAGTGGGCGCCGTCAGCCGCGTTCGCCGCCCTTGAGGTCCTCCGCATTCCCGTGGCCGACGGCGGTGAAGGCACCTTGGATGCTGCCGTCGGCTCAGGCTTCACCCGGCGAAGCGCCGTGGTCACCGGCCCCATGGGGCGGCCATTGACGGCAGACTTCGCCGTCCGCGGGCGGGAGGCAGTCATCGAAATGGCGGCTGCCTCCGGCCTGGCGGCTCTGCCCGGAGGGCCTGATGCCACGACCGTCAAAGCAGCCAGCAGTCTGGGCACCGGCGAACTCATCCGCGCAGCTCTCGACGCCGGATGCCGGCAGGTAGTCCTGGGCGTCGGCGGCAGCGCCAACACCGACGGCGGTGCCGGGCTCCTGCAGGGACTCGGCGCCAGGCTCCTCGACGCCGCGGGCAACGAACTGCCTCCGGGCGGCGCGGCCCTCGCCGGCCTGGCGAGCATTGACTTCTCCAACTTCGACGCCCGGCTGGACGAAGCCCGGTTTGTCCTGGCCAGCGACGTGGACAACCCGCTGCTGGGCGGCCAGGGAGCGGCAGCGGTCTTCGGGCCGCAGAAGGGTGCCTCGCCTGGGGACGTCGCAGTACTCGAGAGCGCGCTGGACACCTTCGTGCAGGTGCTCGCCGAGGAAATCGGGCCACGCGCGCTGAAGGCCGCTGACGCTCCGGGGGCAGGCGCGGCCGGCGGCGTCGGCTACGCTGCCATCGCGGTCCTGGCTGCAACACGCAGGCCGGGCATCGACGTCGTTCTCGAGTTTACGGAACTGGCGGACCGGCTGGCCGGCGCCGACCTGGTGATCACGGGCGAAGGCAGCCTGGACGAACAGAGCCTGCTCGGAAAGACGCCCATGGGTGTGGCCCGCGCGGCACGGACCGCCGGCGTGCCGGTGGTCGCCGTCTGCGGCCGCACCACCCTGACTGCGGCACAACAGCAGCAATCCGGCTTCCGGCAGGTCTACCCCCTGACCGCGTTGGAGGCCAAGGTAGAAGTATGCATAGCTCAAGCAGGACCGCTGCTTGAAGAATTGGGACAGCACATCGGTGCCGGACTGGCAGATCTCACCGCAGAGACAATCCCGGCACACACCCCACGCACAAAGGAGCCCCTGAATGTCTGA	MRIVIAPDKFKGSLSAPEVARHLENGLTKQWAPSAAFAALEVLRIPVADGGEGTLDAAVGSGFTRRSAVVTGPMGRPLTADFAVRGREAVIEMAAASGLAALPGGPDATTVKAASSLGTGELIRAALDAGCRQVVLGVGGSANTDGGAGLLQGLGARLLDAAGNELPPGGAALAGLASIDFSNFDARLDEARFVLASDVDNPLLGGQGAAAVFGPQKGASPGDVAVLESALDTFVQVLAEEIGPRALKAADAPGAGAAGGVGYAAIAVLAATRRPGIDVVLEFTELADRLAGADLVITGEGSLDEQSLLGKTPMGVARAARTAGVPVVAVCGRTTLTAAQQQQSGFRQVYPLTALEAKVEVCIAQAGPLLEELGQHIGAGLADLTAETIPAHTPRTKEPLNV	PGPT0018175_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-17_00573	1779	gcl	COG3960	Glyoxylate carboligase	ATGACGAAGATGCGTACCGTAGACGCAGCCGTCGCCATCCTGGAGAAGGAGGGCGCCATAGAGGCGTTCGGCCTGCCGGGCGCGGCAATCAACCCCTTCTACTCGGCCATGCGGGCCCACGGCGGCATCCGCCACACGCTGGCCCGGCACGTTGAAGGCGCCAGCCACATGGCCGACGGTTACAGCCGGGCCGCGGACGGCAACATCGGCATCTGCGTCGGCACGTCCGGCCCCGCCGGCACCGACATGATCACCGGCCTGTACGCCGCGTGGGCCGATTCCATCCCCATGCTGTGCATCACCGGCCAGGCCCCCGTAGCGAAGCTGCACAAGGAAGACTTCCAGGCCGTGGACATCGAGTCCATCGCCAAGCCGGTCACCAAGATGGCGATGACCATCCTCGAGCCCGGCCAGGTTCCCGGCGCGTTCCAGAAGGCGTTCCAGCTGATGCGCTCCGGCCGCCCCGGCCCGGTGCTGCTGGACCTGCCCATCGACGTGCAGATGGCCGAGATCGAATTCGACATCGACACCTACGAGCCGCTGCCCGTTGAGAAGCCCAAGGCCAGCCGCAAGCAGCTGGAAAAGGCCCTGGACATGTTGACGGCCGCCACGCACCCGCTGATCGTTGCCGGCGGCGGCATCATCAACGCCGGTGCCTCCGCCCGGCTGGTGGAACTGGCGGAAACGCTGAACATCCCGGTCATCCCCACCCTGATGGGCTGGGGCGCCATTGCCGATGACCACCCGCTGATGGCGGGCATGGTTGGTCTGCAGACCTCGCATCGCTACGGCAACGAGAACTACCTGCAGAGCGACTTCGTGATCGGCATCGGCAACCGCTGGGCCAACCGCCACACAGGCGGGCTGGAGACCTACACCGCCGGCCGCAAGTTCGTGCACATCGACATCGAGCCCACCCAGATCGGCCGCGTGTTCTCCCCGGACCTGGGCATCGCCTCCGACGCCGGCGCCGCACTGGACGGCCTGCTGGAGCTGGCCAGGGAACGCCGGGATGCCGGAAGCCTGCCGGACTACTCCGCGTGGGTGGCCGAGTGCGCCGGGCGCAAGGCGTCGATGCACCGCAAGACGCACTTCGACAACGTCCCCATCAAGCCGCAGCGCGTTTACGAGGAGATGAACCGGTCCTTCGGCCGCGACACCACCTACGTGTCCACCATCGGCCTGTCCCAGATCGCCGGCGCCCAGATGCTGCACGTCTTCGGCCCGCGCAAGTGGATCAACGCCGGCCAAGCCGGTCCGCTGGGCTGGACGGCCCCTGCAGCCCTCGGGGTGGTGCGCGGCAAGCCGGACGAGACCGTGGTTGCCCTGTCCGGGGACTACGACTTCCAGTTCATGATCGAGGAGCTCGCGGTGGGCGCGCAGTTCAACCTGCCCTACATCCACGTGGTGGTGAACAACTCGTACCTGGGCCTCATCCGCCAGTCCCAGCGCGGGTTCAAGATGGAACAGAACGTGTCCCTGGCCTTCGAGAACATCAATTCTCCGGAAACAAATGGCTACGGTGTGGACCACGTCAAGGTGGCCGAGGGCCTGGGCTGCAAGGCCATCCGCGTGGAGAACCCCAACGACATGGGCGCCGCCTTCGACAAGGCCAAGGCCCTCGCTGGCGAATTCCAGGTTCCCGTGGTGGTGGAAGTGATTCTGGAGAAGGTCACCAACATCTCCATGGGCACCGAGATCAACGCGATCAACGAGTTCGAGGAGCTGGCCGAGACCAGCGGCGACGCTCCCACCGCAATTCTCGCCCTGCAGCCGTAA	MTKMRTVDAAVAILEKEGAIEAFGLPGAAINPFYSAMRAHGGIRHTLARHVEGASHMADGYSRAADGNIGICVGTSGPAGTDMITGLYAAWADSIPMLCITGQAPVAKLHKEDFQAVDIESIAKPVTKMAMTILEPGQVPGAFQKAFQLMRSGRPGPVLLDLPIDVQMAEIEFDIDTYEPLPVEKPKASRKQLEKALDMLTAATHPLIVAGGGIINAGASARLVELAETLNIPVIPTLMGWGAIADDHPLMAGMVGLQTSHRYGNENYLQSDFVIGIGNRWANRHTGGLETYTAGRKFVHIDIEPTQIGRVFSPDLGIASDAGAALDGLLELARERRDAGSLPDYSAWVAECAGRKASMHRKTHFDNVPIKPQRVYEEMNRSFGRDTTYVSTIGLSQIAGAQMLHVFGPRKWINAGQAGPLGWTAPAALGVVRGKPDETVVALSGDYDFQFMIEELAVGAQFNLPYIHVVVNNSYLGLIRQSQRGFKMEQNVSLAFENINSPETNGYGVDHVKVAEGLGCKAIRVENPNDMGAAFDKAKALAGEFQVPVVVEVILEKVTNISMGTEINAINEFEELAETSGDAPTAILALQP				NA	NA	NA	NA	NA
D1-17_00574	879	garR	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAGCAACGTTGCAGTCATCGGACTCGGAATCATGGGCCTGCCCATGGCCATCAACCTCGTCAAGGCCGGCCACACCGTCACCGGCTTTAACCGCAGCCAGGACAAGATCGACAAGCTCGTCTCCGAAGGCGGCAAGGGTGCCGCCAGCATCGCGGATGCCGTCAAGGATGCCGACGTCGTGATCACCATGGTGCCGGACTCCCCCGACGTCGAAGGCGTCGTCAGCGGCCCCGAGGGCGTCTTCGCCAACGCTAAGCAGGGCACCCTCTGGATCGACGCTTCCAGCATCCGCCCCGACGTCGCCAAGCGCCTTGCGGACGGCGCCAAGGCAGCCGGGATCCGCCCCCTTGACGCCCCGGTCTCCGGCGGTGAACAGGGCGCCATCGACGCCATCCTGTCCATCATGGTCGGCGGCGACAAGGAGGATTTCGAGGCGGCCCAGGACGTCCTGAACGCCGTCGGCAAGACCATCGTCCACGTCGGCCCCTCGGGCTCCGGCCAGACGGTCAAGGCTGCAAACCAACTGATCGTTGCCGTCAACATCGAAGTTCTCGGTGAAGCCATCGCCTTCCTTGAGGCCTACGGTGTGGACACCGACGCCGCCCTCAAGGTCCTCGGCGGCGGCCTGGCCGGATCCAAGGTTCTGGACCAGAAGGGCCAGAAGATGCTCGACCGCAACTTCGACCCCGGATTCCGCCTCGCCCTCCACCATAAGGACCTGGGCATCGTTACCTCCGCCGCCCGCGAAGCCAATGTCTCCATCCCGCTCGGCGCCGTCGTCGCCCAGCTCGTCGCCGCCACCGTCAACCAGGGGGACGGCGGCCTGGACCACTCGGGACTTTTCAAGCAGGTCCTCCAGCTCAGCGGCCGGAAGTAA	MSNVAVIGLGIMGLPMAINLVKAGHTVTGFNRSQDKIDKLVSEGGKGAASIADAVKDADVVITMVPDSPDVEGVVSGPEGVFANAKQGTLWIDASSIRPDVAKRLADGAKAAGIRPLDAPVSGGEQGAIDAILSIMVGGDKEDFEAAQDVLNAVGKTIVHVGPSGSGQTVKAANQLIVAVNIEVLGEAIAFLEAYGVDTDAALKVLGGGLAGSKVLDQKGQKMLDRNFDPGFRLALHHKDLGIVTSAAREANVSIPLGAVVAQLVAATVNQGDGGLDHSGLFKQVLQLSGRK	PGPT0018170_835	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
D1-17_00575	801	hyi	COG3622	Hydroxypyruvate isomerase	ATGACGTACACAGTGAACTGCTCCATCCTGCTGACGGAACTGCCGCTCTTGGAGCGCCCCGCCGCAGCCAAGGCTGCCGGCTTCGACGCCGTCGAGTTCTGGTGGCCCTTCGAGAGCTCCGTTCCTTCCGACGCCGAGACCACGGCCTTCGAGCGTGCCATCACCGATGCCGGCGTCCAGCTCACCGGCCTGAACTTCAACGCCGGCAACATGCCCGGCGGTGACCGCGGGCTGGTCTCCTGGCCCGCCCGCTCCACAGAATTCCAAGACAACATCGACGTCGTCGCAGGCATCGGCGAGCGCCTTGGCTGCAAGGCCTTCAACGCCCTCTACGGAAACCGCGTCGACGGCGAATCGGCCGAGAAGCAGGACGCCACCGGCGCCGAAAACCTTGCCGCTGCGGCCCGGGGTGTCGCCCGCATTGGCGGCACAGTCCTCCTCGAACCGGTTAGCGGAGCACCGAGGTATCCGCTGCTCACGGCTGAAGACGCGCTCAGGGTGATCGCCCGTGTCAAGGCGGAGGCCGGCGTCAACAACATCAAGCTCCTCGCCGACTTCTACCACCTGGCTGTCAACGGAGACGACGTCGAATCCGTCATCGAGAACCACGCCAAAGACTTCGGCCACATCCAGATCGCCGACAACCCCGGCCGCGGGGCTCCCGGAACCGGGCAGCTTCCCCTGGGTGAGTGGATTGCCCGCAGCCGCGAGCTCGGCTACGACGGCTACATCGGCCTCGAGTACAAGGAACCGCAGGAAACGGCCTTCGCCTGGGCCATCCGGGAACACGCCTCCCGTTAG	MTYTVNCSILLTELPLLERPAAAKAAGFDAVEFWWPFESSVPSDAETTAFERAITDAGVQLTGLNFNAGNMPGGDRGLVSWPARSTEFQDNIDVVAGIGERLGCKAFNALYGNRVDGESAEKQDATGAENLAAAARGVARIGGTVLLEPVSGAPRYPLLTAEDALRVIARVKAEAGVNNIKLLADFYHLAVNGDDVESVIENHAKDFGHIQIADNPGRGAPGTGQLPLGEWIARSRELGYDGYIGLEYKEPQETAFAWAIREHASR				NA	NA	NA	NA	NA
D1-17_00576	1302			hypothetical protein	ATGACAGCGGAGTCCCGGCCCAAGCACGCCGATCTGTCCCTTGCCAGCCGTGACGCGGCGATGCCGGGCCTGCCCTACCTGCTGGACAGCCACCGCCTGTCGAACCTGCTCGGCGAACAGGTCCACGTCACGCGGGTCCGGTATAAACCGCGCACTTCGCTGCTGGTGGCTTTTCGGCGCACACGCAACGGCAGCTTCGACTACGGCTGGGCCATGACCAGAGCATCGGCCGGCAAACTCCTCAGGCGCGAGGAGGCCGCCCGGCTGCGCGGCGGGGATGTCCGGATCCTGCATCCCGACCTCGACTCAGATGAAATGCTTGTGGCGACCGGCGGGGTGGAGGATGACTGGGGGCTGCACAAGAATCTCATCTGGCTTCGCGAGCATGGCCTGGCGCGGCTCGGCCTGCACCGCCCGGCCGGGGCCAGCTTGCTCAGCGGCTCCACCGCCGTGCTGCGCTACAAGCCCGGACGCTGCCTGGTCCTGCTGCTGCAGAATGGCGGGCCACCGCTGGTGGTCAAAATTGTCGCCAAACCTCACCACTCCGGGCGGCGGGAATTCCACGAACTGTTGCAGGTGAACGGCGTGCCCGTCCTGCCCCAGCTGGGCGACGCTGATTTCGCCCGCCACGGAATCACGGCCTCCGCCGCCTGGGGTGGGGGTGACTTGTCGGGCCTGGAGGAGGCTGGCGGAGCGCAGCGTGCCGGGCAGGCCCTGGCACGGGTCCATGACATTCCCGCTTCTTCGGGTTCCGGCACGGCTCCTTCGGGTTCCGGCGCGGACGGACCTCCGCTTTTCAACCCTGCCGAGCGCCTCGCTAAAACGCGGTCCATGGTCGCCTGGCTGCACCCGGAGCTGGAGAAGCGGGCGCGCCGGCTTGAGAGCGCCCTGGCAGGGCGACTCGCGGAGCGGGGATTGCAGGAGGTTTTGCTTCACGGCAATTTCTCTCCGGAGCAGGTGCTGGTAAAGGCCTCCGAAGTGCGGATCCGCGACTTTGACCAGGCCCGCAGCGGAGACCGCGAAGCCGACTTGGGGTCGTTTGCTGCGGCGGAGGAAGCAGGGAGCCGGGTCTCCAGTGCATCCGCGGCATCCGGGGGTGGTTGCGCCGGCGGCTCGGTGACAGCTTCCTTGTCTGAAGGATACGCTTCGGCCGGCGGTCGTTTCACCCGTGCCGGCGTGAATGCCTGGGCAGCGTTCCGCCTGTTTACAGATTGCGTGGAGCCGTTCAACGACCGGTCGCCGGAGTGGGCCGCCAGCATGGACTGGCATCTGCGCAGGGCCGGCGAGCTGGTCGGCCTCTAA	MTAESRPKHADLSLASRDAAMPGLPYLLDSHRLSNLLGEQVHVTRVRYKPRTSLLVAFRRTRNGSFDYGWAMTRASAGKLLRREEAARLRGGDVRILHPDLDSDEMLVATGGVEDDWGLHKNLIWLREHGLARLGLHRPAGASLLSGSTAVLRYKPGRCLVLLLQNGGPPLVVKIVAKPHHSGRREFHELLQVNGVPVLPQLGDADFARHGITASAAWGGGDLSGLEEAGGAQRAGQALARVHDIPASSGSGTAPSGSGADGPPLFNPAERLAKTRSMVAWLHPELEKRARRLESALAGRLAERGLQEVLLHGNFSPEQVLVKASEVRIRDFDQARSGDREADLGSFAAAEEAGSRVSSASAASGGGCAGGSVTASLSEGYASAGGRFTRAGVNAWAAFRLFTDCVEPFNDRSPEWAASMDWHLRRAGELVGL				NA	NA	NA	NA	NA
D1-17_00577	981			hypothetical protein	GTGAGCACGAGGGTAGAAAAACGAATTCTGGTCAACGTACCGGTAAGCACGGCCTACAACCAGTGGACGCAGTTCGAAGACTTTCCGCACTTCATGGGCGGAGTGAAGAGTGTGACCCAGCTCAGCGACGACCGCCTCGAATGGGTCGCTGAAATCGGGGGCGTCAAGCGGAAGTGGGAAGCCAGGATTCTGGAACAGATCCCCGACCGCAAGGTGGCTTGGGCCGCCACAGAGGGCGCCACCAACGCAGGATCAGTCGAATTCGAGGATGTGGGCGGCGGGCAGACGTCCGTCAAGCTCTTCATCGACTACGAGCCCGAGGGCATCGTGGAGAAGGTGGGCGACAAGCTCAACGTGGTGGAGCACCAGGCCGAATCCGACCTTCAGAAGTTCAAGGAATTCATCGAGGACGAAGGATATGCCAGCGGCGCCTGGCGTGGATCCGTCAACGAGGGTGCGTCAGTGGGCACCCCCGGCGTCGAGCAGGCGGCGGCATCACGCGGCGACAGCGGCAAGGCCGGGGTGTCCGGCAAGCTTGCAGCCGGAGTCGGTGTGGCCGCAGCGGCTGCCGCCGGCGCCGCCGTGGCCGCGGGCCGCAGCAGCTCCGACACGGACACCACTGCGACGGTTGCGGGAGACGCCGCAACTCCTGCCGTCGTCGCCCCCACTTCCACAGACACCGCCTACACGGAAACCTCCGGAACCGCCGGCACGGCTGGAACAGCCGATATTCCCGGAGCAACCAGCACTATTGGAACCAGCGGCGCGGCCGGCACCACCGGCGCAGCTGCCGGCGGATCAGCTCTGTCGGATGATGCCATCGCGCATCCCTTCGACCAGACCAACGGCCTGATCGACGACGAGGGCGATTCAGACGAAACGGCGGTCAGCGACACGCTGAGCGAGGCTGACCGCGAGGAAGCCGCCGACCGCGGCCCCGGCACCCTTCCGCCCACCGGCGGGACGCTGGGCCAACACTAG	MSTRVEKRILVNVPVSTAYNQWTQFEDFPHFMGGVKSVTQLSDDRLEWVAEIGGVKRKWEARILEQIPDRKVAWAATEGATNAGSVEFEDVGGGQTSVKLFIDYEPEGIVEKVGDKLNVVEHQAESDLQKFKEFIEDEGYASGAWRGSVNEGASVGTPGVEQAAASRGDSGKAGVSGKLAAGVGVAAAAAAGAAVAAGRSSSDTDTTATVAGDAATPAVVAPTSTDTAYTETSGTAGTAGTADIPGATSTIGTSGAAGTTGAAAGGSALSDDAIAHPFDQTNGLIDDEGDSDETAVSDTLSEADREEAADRGPGTLPPTGGTLGQH				NA	NA	NA	NA	NA
D1-17_00578	603	tmk_1		Thymidylate kinase	GTGCTGATTGTGCTGGCAGGCATCGATGGCTCCGGCAAGACCACCGCGGCCGAGGCGCTGGTATCGTCGACTCTCGCCGAGGGCCGGAAGGCCCTGTTTCTGAGCAATTACGCCGGCCGGCGCAGGATGTCCCTGCTCGCCGACCGATTCGGCGTGCACCTTCCGCCGCGGCTGGCCGACGGCGTCGAAACCATCATCCGGGGTGCCAACGTCCTGATCTCCCATGTCCGCGCCCGGCGCTTCCGCGGCCTGACGGTGATGGACCGCCATCTGCTCTGCCAGCTGGCATTGCGGGAGTCCCGGGGCCTGCCGCGCGGCCGTCTGCTCCCCTGGCTTCTGCGGAAGCTGCCGGCTCCGGACCTCGTGGTCTATCTCGACGTCGAGCCGCAGCAGGCCCATGACAGAATCGTGGCCCGAGGGACCGACAAGGAATCCCTGGCCGATCTCACCTCGCTGCGGGACGCCTACCGCTCCCTTCCAGAATTCGCCTACTTCACTATTGTTGACGCCGGCGTCCCCGAGCACGAGGTCCTTGCGGGGCTGCAACGGGTCATCGCCGCAGCGGAAAAAGCGCGCCTCAGCGCCGCCAGGCTCAAGGTTTAA	MLIVLAGIDGSGKTTAAEALVSSTLAEGRKALFLSNYAGRRRMSLLADRFGVHLPPRLADGVETIIRGANVLISHVRARRFRGLTVMDRHLLCQLALRESRGLPRGRLLPWLLRKLPAPDLVVYLDVEPQQAHDRIVARGTDKESLADLTSLRDAYRSLPEFAYFTIVDAGVPEHEVLAGLQRVIAAAEKARLSAARLKV	PGPT0021395_5249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
D1-17_00579	237			hypothetical protein	ATGAGCTGCTGGCATTCGAGCCTACGCGGTCCCGCTGGACAAAAGCTGAAAGTGTCAAAAGAAGAGGACGACGGCGGCGCTGAGCTCCCGCCGTCGTCCTCGGTCCTGCTTGAGGCTCCCGAGCCCCTAGCCGCGGCGGGTGTAGCTGCCTTCGGCTTCGTCCAAGGGCGCTGTGTGCAGCGTCACGTAACGGCCCCGGACCTTTTCGCCGTTGCCGGCAAGCCCGCCGGGCAGTGA	MSCWHSSLRGPAGQKLKVSKEEDDGGAELPPSSSVLLEAPEPLAAAGVAAFGFVQGRCVQRHVTAPDLFAVAGKPAGQ				NA	NA	NA	NA	NA
D1-17_00580	267			hypothetical protein	ATGACCCTGCAGATCGAACGCCCCGTCACCCATGAGGCCGCCGCAACGCGCAGCAACAGCACGGCCACGCTCACCACCAGGGCACCGCGCGGCGGAAGCTACGTCACGGCGCCCGAGACCCGGCAGGATGCACTCCGCACCGAAGGGACCTATGTTTCACTGCCCGGCGGGCTTGCCGGCAACGGCGAAAAGGTCCGGGGCCGTTACGTGACGCTGCACACAGCGCCCTTGGACGAAGCCGAAGGCAGCTACACCCGCCGCGGCTAG	MTLQIERPVTHEAAATRSNSTATLTTRAPRGGSYVTAPETRQDALRTEGTYVSLPGGLAGNGEKVRGRYVTLHTAPLDEAEGSYTRRG				NA	NA	NA	NA	NA
D1-17_00581	921			Formate dehydrogenase, mitochondrial	ATGACCCGGAAGATTACGGTGAGCCTGCCCGATGCGGCGCTGCGTGAATACCTGAAGCCGCACGACGACGTCACCCTGCTTGAGTGGGACTTGGCGAGCGAGCCGCCACAGCCGGATATCGACATCGTGGTGCAGCCCTACATGAGCGGGCCCACGGTGCTGCGGAAGCTGGAAGCGGTAGAGACGGTCCTGGTACAGAGCCAATCGATCGGGTACGACGGCGTTGTGGAGTCACTGCCCGCCGGCAGGGTCTTCGCGAATGCAGCGGGTGTGCACGAGACATCCACCGCCGAGCTCGCTTTGGCCATGATGCTGGCGAGCCAGCGGGAGTTCCCGCGCCTTCTGCGCAACCAGCAGGAAGGCTTTTGGGAAACGAAGCCTACTGCCAGCCTCGCCGACCGCCGGGTCCTGATAGTGGGCTACGGAGGCGTAGGCAAAGCGATCGAGCAGCGGCTCATTCCGTTCGAAACAAGCGTCACGAGGGTGGCCAGCCGCGCGCGGACGGATGTCAACGGCGCGGTCCACGGCATTGACGAACTGCCCGCGCTGCTGCCTGAGCACGACATCGTGGTGGTGGGCGTCCCGCTCAGCGACGCCACTCGGCACCTCATCGACGACGCTTTCCTCTCGGCAATGCCCGACGGGGCGCTGCTGGTGAACGTGGCCCGTGGACCGGTTGCAAACACCGAAGCCCTGGTCCGGCACACGGCGTCGGGCCGGATCCGCGCCGCCCTGGACGTCACCGACCCGGAGCCGCTGCCGCGGGACCACCCGCTGTGGTCGACACCCGGCGTGATCATTACCCCGCACATAGGCGGCGCGAGCTCAGCGATGCGCCCCAGAATGGGACGGCTGCTGCAGCGGCAAATCGACCTCATGCTGGCAGGGGAGCCACCGGTGAATGTCGTGCTGGGCGGCTAA	MTRKITVSLPDAALREYLKPHDDVTLLEWDLASEPPQPDIDIVVQPYMSGPTVLRKLEAVETVLVQSQSIGYDGVVESLPAGRVFANAAGVHETSTAELALAMMLASQREFPRLLRNQQEGFWETKPTASLADRRVLIVGYGGVGKAIEQRLIPFETSVTRVASRARTDVNGAVHGIDELPALLPEHDIVVVGVPLSDATRHLIDDAFLSAMPDGALLVNVARGPVANTEALVRHTASGRIRAALDVTDPEPLPRDHPLWSTPGVIITPHIGGASSAMRPRMGRLLQRQIDLMLAGEPPVNVVLGG	PGPT0009155_7891	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-17_00582	849	phzF		Trans-2,3-dihydro-3-hydroxyanthranilate isomerase	ATGGCCGCCGTCGTCAATGAACTTCCCTTCAGCCAAGTGGACGTCTTCGCCCCTGGCCCCAGGCCCGGCAACCCGGTCGCGGTCGTGCACGATGCGGACGGCCTCTCCGCCGAGCAGATGCAAACCTTCGCCAACTGGACCAATCTCTCCGAGACCACGTTCTTGCTGCAGCCCACCGATCCTGCTGCTGACTACAGGCTGCGGATTTTCACGCCCCGCGCCGAACTGCCGTTCGCCGGGCATCCCACGCTTGGTTCGGCCCATTCCTGGCTTGAAAACGGGGGTAAGCCCCGCAACGAGGGGCAGCTCATCCAGGAGTGCGGCGGCGGCATGGTCAGCATCACGCGGCATGGCCCAGACCTCGCCTTCGCAGCACCGCCCCTGCGCAGGTCGGGGCCGGTGGAACAGTCAGTGCTTGACCAGGCGCTCTCGGGCCTGCGCATCGGCCCGGAACGCGTTTTGGGCAGCAACTGGGTGGACAACGGCCCCGGCTGGCTTGGCATCCGGCTGGCCTCCGCCCAGGAGGTGCTGGCCCTCCAGCCTGACTTCACCGCCATGGGCGATCTTCTGGTCGGCGTCATCGGCCCCTTCGGCGGGGACGGACCTGCAGACTTCGAGGTCCGCGCCTTCGCTCCCGGCGTCGATATCCCCGAGGACCCGGTGACGGGCAGCGTCAACGCCGGGCTGGCCCAGTGGCTGTTCGCCGAAGGCCAGGTGGACCGAAGCTACACGGTCCGGCAAGGAACCGTGCTGGGCCGCGGCGGGCGGCTCAGTATCTCCCGCGAAGGGGACATCATCTGGGTAGGCGGCGCCTCCCGCACTGTCATCCGCGGCCGCGTTTTGTTCTAA	MAAVVNELPFSQVDVFAPGPRPGNPVAVVHDADGLSAEQMQTFANWTNLSETTFLLQPTDPAADYRLRIFTPRAELPFAGHPTLGSAHSWLENGGKPRNEGQLIQECGGGMVSITRHGPDLAFAAPPLRRSGPVEQSVLDQALSGLRIGPERVLGSNWVDNGPGWLGIRLASAQEVLALQPDFTAMGDLLVGVIGPFGGDGPADFEVRAFAPGVDIPEDPVTGSVNAGLAQWLFAEGQVDRSYTVRQGTVLGRGGRLSISREGDIIWVGGASRTVIRGRVLF	PGPT0024545_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024545-pmt-K00728	NA	NA
D1-17_00583	519			hypothetical protein	GTGACCGACTCGATCCTGATGGCCGAGGTGGCCGACGCCCTGAAGCTCCACGACGTCCGCCACGAAGTGCTCGAGTGCTCTCCTGACCTCGCAGACACCGCAGCGTTCTGTGAGCACTATGGCTTCACGCTCGAGGAAGCGGCCAACACCATCCTCGTGGCATCCAAGAAGATTGAGCCGCCCACGTATGCAGTCTGCGTGGTGCTCGGCACTACGCGCCTCGACGTGAACCGCACGGTCCGCAGCCTCCTGGACGTCAAACGGGCATCCTTCGCCGACGCCGAGACCACTACCTTGCTGACCGGCATGCTGGTAGGCGGCGTCACCGCGCCAGGCATCGACGGCCTCCCGATCTACGTGGACAGTGCGGTGATGAAAGCCGACAGAGTGGTCATGGGCGGCGGAAACCGCTCCAGCAAGATTGTCCTGGCGCCGGCCGAGCTCCTCAAGCTGCCCGGCGTCGAAATAGTGGACGGCCTGGCCGCACCTCGCAATCCTGCAGACATGCGGCAGGACTAA	MTDSILMAEVADALKLHDVRHEVLECSPDLADTAAFCEHYGFTLEEAANTILVASKKIEPPTYAVCVVLGTTRLDVNRTVRSLLDVKRASFADAETTTLLTGMLVGGVTAPGIDGLPIYVDSAVMKADRVVMGGGNRSSKIVLAPAELLKLPGVEIVDGLAAPRNPADMRQD				NA	NA	NA	NA	NA
D1-17_00584	705			hypothetical protein	ATGGAAGGTTCACGGGGATGGTTATGGGAACGATCAGCTCTGAGCGCCCGGCCAGGAAAAGCACTGTCCGAGCAGTTTCCGGACACGGGCAAACTGATCGCGTTGGGTGTGGAGCGGACACGGGATGCATTGCTCTACGTTCCCGAGGGCCTCAAGCCTGGACAGCAAACCCCGCTCATCCTTCTGCTTCACGGGGCCGGCGGCGACGCGGCCGGCGGCTTATCCTTGCTGCTGCCTCTCGCCGACACCTACGGTTTTGTACTGGCGGCTCCTTCATCCCGCGGCTCGACCTGGGACGGCGTTCGGGGAGGATATGGACCGGACGTTGATGTCATCAACAGCTCCTTGGAACGCATATTCCACCTGGTTACCGTGGATCCCCTCCGCATAGCCGTCAGTGGCTTTTCCGATGGCGCCTCCTACGCCTTGGGCCTTGGCCTGGCCAACGGAGACTTGTTTTCCAACATCGTCGCTTTCTCGCCCGGATTCGTGCCACCCGGGCCGCGCGTTGGAAAACCCGGCATCTTCGTTGCGCACGGCGATGCTGATGCTGTCCTCCCAATTGGCCAGACGAGCCGAAGGCTTGTGCCCGCCTTAAGGGAAGGGGGGCTTGACGTCACTTACCGTGAGTTCAACGGTCCGCATGCAGTACCTGCGCACATTGCCGAGGAGGCCCTCCACTGGCTGGGTGGACGGACCACGTGA	MEGSRGWLWERSALSARPGKALSEQFPDTGKLIALGVERTRDALLYVPEGLKPGQQTPLILLLHGAGGDAAGGLSLLLPLADTYGFVLAAPSSRGSTWDGVRGGYGPDVDVINSSLERIFHLVTVDPLRIAVSGFSDGASYALGLGLANGDLFSNIVAFSPGFVPPGPRVGKPGIFVAHGDADAVLPIGQTSRRLVPALREGGLDVTYREFNGPHAVPAHIAEEALHWLGGRTT	PGPT0028515_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028515-mhqD-K06999	NA	NA
D1-17_00585	264			hypothetical protein	GTGGTTGCGGCCGTTCCGGGCGCGTGGTTCGCTGGATGCATGACAGCTCAAGAGCACTCCGGCAATAGTGACCTTCCCGCTGACAAGCACCTGCGGGACGACGTGGCGCCCGCTTCCGGGGAGGAGGACGCCAGTTCCCCCGGCACGCATTTCACGCCAGGCCAGACGAACGCCGGCCAGCAGGTTGCCGGACTCGCCTCGGCCACCGGCTACGGAGAGAACGAGGACCCGGAGGCGCAGCCGGACGGGAACAACCCGCTCTGA	MVAAVPGAWFAGCMTAQEHSGNSDLPADKHLRDDVAPASGEEDASSPGTHFTPGQTNAGQQVAGLASATGYGENEDPEAQPDGNNPL				NA	NA	NA	NA	NA
D1-17_00586	750	ephD	COG1028	putative oxidoreductase EphD	GTGCCCTCGCTGCTTCTCGTGCACGGCTACCCTGATGACCATCGGTTCTATCTGCCGCTCATCACGGAGCTTGCCGCCACCCATCATGTGGTTGCCTACGACACCCGAAATGCCGGGCTGTCCGCAGTGACCAAAACCCCCGGGAATTACACTCTGGAGGCCCTGGTCAACGATCTGTTTGCGGTCCTCGAATCCAGGGACGTAGCGGACGTTCACCTCGTGGGGCACGATTGGGGATCAATTCAGGGCTGGGCCGCCATACAGCATCCCCGTGCCGCAGGCCTTATTGCGCAGTACACCAGCATCTCCGGCCCGGACCTCGGGCACTTCATCCGTTGGATTGTTTCCCGTGCCCGCACCCCCCAAGGCTGGCCGCAGTTGGCGGGGCAACTCCTCCGCAGCAGCTACGTGGCCGGCTTTCAAATACCGGTGCTGCCGGAGGCGATATGGCGCCTCTTCCTTACACGCTTCTACGAAAGGTCAGCCGGACGCCGGGTTAATGACGATCCCGCCCGCGGGCTGGCCCTGTACCGCCAGAACCTCTTCCCCCGGGTTCGCCGGCCTTCCCCGGCACCGGTCAACGTGCCTGTGAACGTGGTGGTCCCGCTGAAGGATCCCTTTCTGTCACCGCACCTGGCTGACGGGCTCGACAGTTGGCTGCCTGACCTGAACGTGATCCGCGTTGATGGCGGGCACTGGTGGCCGGCCACGCATCCGAAGGAATTGGCGCAGCTGCTGCGGGCCGCGTAG	MPSLLLVHGYPDDHRFYLPLITELAATHHVVAYDTRNAGLSAVTKTPGNYTLEALVNDLFAVLESRDVADVHLVGHDWGSIQGWAAIQHPRAAGLIAQYTSISGPDLGHFIRWIVSRARTPQGWPQLAGQLLRSSYVAGFQIPVLPEAIWRLFLTRFYERSAGRRVNDDPARGLALYRQNLFPRVRRPSPAPVNVPVNVVVPLKDPFLSPHLADGLDSWLPDLNVIRVDGGHWWPATHPKELAQLLRAA				NA	NA	NA	NA	NA
D1-17_00587	231			hypothetical protein	ATGTTTTTCCTTTTCGGACTCAGTACTAAGCTCAAGGCCCTACCTTCGCGGCCGGCGACCTGCCAGTACTGCGGGGCCTTCACCCAGCACTACCTTGAAGAACGCGCCACGAGGTTCACGCTGTTTTTTATCCCCGTCTTCACGACCTCAAGGTCATACCAGATAACCTGCTCAAACTGCGGCCAGCGCTCACGCATCAACTCGCGGCAAAAACGCGCCCTGGTACCGTAA	MFFLFGLSTKLKALPSRPATCQYCGAFTQHYLEERATRFTLFFIPVFTTSRSYQITCSNCGQRSRINSRQKRALVP				NA	NA	NA	NA	NA
D1-17_00588	459			hypothetical protein	ATGGTGACTGCCAGCCACACCGGAGCTAAATCGAAACTTCAGAAAGCAAGTCAGGCCGTAGGCGCCGTATTCCTGCTGGTCGGCATCCTCGGATTCATCCCTGGGATCACGAGCAACTACGACTCCCTGGCCTTCGCAGGACACGGATCGGAAGCCCTCCTGCTGGGCATCTTCCAGGTATCCGTGCTGCACAACATCGTCCACCTGCTGTTCGGTGCGGCGGGCCTCGCGATGGCCCGCACGCACTCTCAGGCCAAGAACTTCCTGCTGTACGGCGGCATTATCTACCTGGTGCTTTGGCTGTACGGACTGCTCGTCGGCCACGACACCCCCGCGAACTTTGTCCCGCTCAACGGCGCGGACAACTGGCTGCACCTCATTCTGGGACTCGGCATGATCGCTCTGGCAGTACTCCTGTCCCGGGACACTACACCCCGAAGCACATCCGCAGCCGGCTAA	MVTASHTGAKSKLQKASQAVGAVFLLVGILGFIPGITSNYDSLAFAGHGSEALLLGIFQVSVLHNIVHLLFGAAGLAMARTHSQAKNFLLYGGIIYLVLWLYGLLVGHDTPANFVPLNGADNWLHLILGLGMIALAVLLSRDTTPRSTSAAG				NA	NA	NA	NA	NA
D1-17_00589	657			hypothetical protein	ATGAGCAGCGAGAACCCGGACGCCATCCGCGCCGACATCGAAGCCACCCGCGCCCGGCTGGGCACCAACGTGGACGCCGTCGCGGACAAAGTCACCCCCTCAAACATCGTCCACCGCCAAACGGACAAGGTGAAAAACGCCATGTTTGGAGTGAAGGAGAAAGTCATGGGAGCAGCCGACCACGCCACCCACAGCGCCTCCGGCGGCATGCACTCCGCCGCCGGCAACGCAGGCTCAGCCCTGCACGACGCCCGCACCAACGTCACCTCCAGCCTGCAGGACGCCGGCTCCACCGTCGGCTCCGCCGTGGCGGACGCACCGCACCAGGCCGCGGTAAAGACCCAGGGCAACCCCCTGGCCGCGGGCCTGATCGCCTTCGGCGCCGGACTGCTCGTCTCCTCGCTGATCCCGCCAAGCCAGAAGGAACGCGAAGCAGCCGAAGCCCTCAAGAGCGCCGCCGAGCCCATGACCAGCCAGCTCACCGAAGCGGCCAAGGACATGGCCCAAGGCATGAAGGAACCCGCACAGGAAGCCATGGAAAACGTCAAGGCCACCGCCACCGACGCCGTCCAGAACGTCAAGGACGAAGGCCAGACCGCCGCCACCGACGTCAAAACCAGCGCCACCGACGCCACAGACCACGTCCGAAACACCTAA	MSSENPDAIRADIEATRARLGTNVDAVADKVTPSNIVHRQTDKVKNAMFGVKEKVMGAADHATHSASGGMHSAAGNAGSALHDARTNVTSSLQDAGSTVGSAVADAPHQAAVKTQGNPLAAGLIAFGAGLLVSSLIPPSQKEREAAEALKSAAEPMTSQLTEAAKDMAQGMKEPAQEAMENVKATATDAVQNVKDEGQTAATDVKTSATDATDHVRNT				NA	NA	NA	NA	NA
D1-17_00590	429			hypothetical protein	GTGAGCAGCCAGATACCCGACACTCCCCCGACGGCCGCGCACGCCAAAGCGGACTCGACCTCGCTGGGTGACCTGCTCGGTGACGTCACCCGGGACCTGTCCACCCTGATGCGCCAGGAACTGGAGCTCGCCAAGGTTGAAGCGAAGCAGTCAGCCACCCGCGCCGGCAAAGGCTCGGGCATGTTCGCCGGCGCCGGCGTGGCCGGGCACTTCGTGCTCCTGTTCCTCTCCCTCGCCCTCTGGTACGCCCTGGGCGAGCTGATGGGCCTGGGCTGGTCCGCCGTCGTCGTCGCCCTGATCTGGGGCATCATCGCCGCGGTCCTCGCCACCACCGGCCGCAAGGAATTCAAGCGGATCAAGGGCATGCCCCAGACCGCAGAAACCGTCCAGGAAATCCCACCCACCCTCAAACCCAACGGAGGCCACTAA	MSSQIPDTPPTAAHAKADSTSLGDLLGDVTRDLSTLMRQELELAKVEAKQSATRAGKGSGMFAGAGVAGHFVLLFLSLALWYALGELMGLGWSAVVVALIWGIIAAVLATTGRKEFKRIKGMPQTAETVQEIPPTLKPNGGH				NA	NA	NA	NA	NA
D1-17_00591	837			hypothetical protein	ATGATGAGCGAAAACCAATGGCCGCAGGCCGCCGACCCGTACCCCGCAGACCCCTATGGCACCGCAGGAACAACCGGCACCACAGGAACAACCGGGACGTTCGCCGAGCAGGGCGGGGCATCCTCCAAGAAGGAAGCCGCCAGGGAAGAAGCCTCGAACGTCGCAGGCCAGGCCAGGGGCGCAGCCCAGGACGTGGCGGGCACCGCCAAGGCCGAGGCCGCGAATGTCGCCGCCGAAGTCAAGACCAACACCAGGGACCTGCTCAACCAGGCCAGGTCCGGGCTGACCGAGCAGGCAGGGGCCCAGCAGCAGAAGGCCGCCGAGGGCGTCCGCACCATCTCCTCGCAACTGCGCTCCATGGCCGATGCCCCCGAGCAGCAGGGCGTGGCCTCGGACCTCATCCGCCAGGCCGCCGAGCGTTCCGAATCCGTCGCGTCCTGGCTGGAAAACCGGGATCCGGGCTCGCTGCTGAACGAGGTTAGGTCCTTCGCCCGCCAGCGCCCCGGCACCTTCCTGCTCCTTGCCGCCGGCGCAGGCCTGCTCGCCGGACGCCTCGGCCGCAGCCTCCAAGCCGGAACCCCGGAAACCGGACCTGGCTCAGGCAACGTTCCCCCGTATCCCGCCCAGCCGCCGGTCACGGAGAGCAGCCTCACTGCAGCCCCGGCTGCACCTCTATATGACGCACCACAGCCAACTCCCACCACCTATGCAGAGACTGTGTATGGCGAGCCAGCGCGCCCGGGCTTTGAGAGCCCCGGTTCGGCAGGTGTGCCACTGCGCGACCCCAACGACCCCTATACCGGAAGTTATACCGAGGGTGGAGGACGTCCCCTGTGA	MMSENQWPQAADPYPADPYGTAGTTGTTGTTGTFAEQGGASSKKEAAREEASNVAGQARGAAQDVAGTAKAEAANVAAEVKTNTRDLLNQARSGLTEQAGAQQQKAAEGVRTISSQLRSMADAPEQQGVASDLIRQAAERSESVASWLENRDPGSLLNEVRSFARQRPGTFLLLAAGAGLLAGRLGRSLQAGTPETGPGSGNVPPYPAQPPVTESSLTAAPAAPLYDAPQPTPTTYAETVYGEPARPGFESPGSAGVPLRDPNDPYTGSYTEGGGRPL				NA	NA	NA	NA	NA
D1-17_00592	255			hypothetical protein	ATGGCAGATACCCAGTACGACCAGTTCCTCCGGGAGGCCACCACGTGCGAACCCGAATCCGAGTGCACGCTGAAGCCCGATGCCCTTTACGGCCTCTACACCAGTTGGTGCCATCTCACCTTGCAGGAACCGCGGCCGGAGAGAGCCTTCTGGGCAGCAATGCGGGAACGGATTGATCCCGGAGCCAACGGACTGCGCATGACAGGCCCGGCTGCCGCAGATTACATCCTCAGCAGCTATCCCGCGCTGGTCTGA	MADTQYDQFLREATTCEPESECTLKPDALYGLYTSWCHLTLQEPRPERAFWAAMRERIDPGANGLRMTGPAAADYILSSYPALV				NA	NA	NA	NA	NA
D1-17_00593	1746		COG1132	putative ABC transporter ATP-binding protein	ATGCTCTGGAAGCTGCTTGTGCAGTACTTGCGGCCGCATCGGCGGCTGCTGGCCGCCGTCGTGGTTTTCCAGCTGGCGCAGTCCATTGCCTCCCTTTATCTCCCCACCCTGAACGCGGACATCATCGACGAGGGCGTGGCCAAGGGAAACATCGGGTACATCCTGAGCCTGGGCGGCGTGATGCTGGGGATCACGCTGCTGCAGATCGTGTGCGCGGTCATCGCGGTGTACTTCGCGGCGAAGGCGGCCATGAGCGTGGGCCGGGACCTGCGCGGCGCCATTTTCCAGCGGGTGGGCGACTTCTCCGAGCAGGAGGTTACCAAGTTCGGAGCCCCCAGCCTGATCACCCGGTCCACCAACGACGTCCAGCAGGTCCAGCAGCTGGTGCTGATGTCCGCCACCATGCTGGTCACCGCGCCCATGCTCAGCATCGGCGGGGTGGTCATGGCCGTGCGGCAGGACGCCCAGCTGTCCTGGCTGATCGCCGTCGCGGTCCCGGTGCTGCTGATCGCCGTCGGCCTCATCACCGTCCGGATGGTGCCGCTGTTCAAGAAGATGCAGAAGCGGATCGACACCGTGAACCGGGTCCTCCGCGAGCAGCTCACCGGCATCCGCGTGGTCCGCGCCTTCGTCCGCGAAGACATCGAAACCGAGCGCTTTGCCCGCGCCAACGAGGATGTCACGGACACGGCCCTGCGCGCCGGCCGGCTCATGGCGCTGGCGTTCCCGGCGGTAATGCTGGTGCTGAACGTCTCCAGCGTGGCCGTGATCTGGTTCGGCTCGTTCCGGATCCAGGACGGCTCCATGCAGGTGGGCACGCTCATCGCGTTCCTGAGCTACCTGCTGCAGATCCTGATGTCGGTCATGATGGCCACGTTCATGGCCGTGATGATCCCGCGTGCAGCGGTATCCGGCGACAGGATCGGGGAGGTGCTGCGCACGGAGTTGAGCGTCCGGCCGCCCGCACACCCGGTCAGCCCAGCCGCGCGGGACGGGCACCGCCGCGGCGAGCTGGAAATGCGCGACGTCGGATTCGCCTACCCGGGTGCCGACCAGCCCGTCCTCACCGGGATCAGCTTCACCGCCAGGGCAGGGCAGACGACGGCGATCATCGGCAGCACCGGCGCTGGCAAGACCACCCTGGTGAACCTCATGCCCCGGCTGTTCGACGCCACCTCCGGGTCTGTCCGGATGAACGGTGTGGACGTCCGCGAGCTGCACCCGGACCTGCTGTGGGGGCACATCGGCCTGGTCCCGCAGCGGCCCTACCTGTTCAGCGGCACCGTGCGCAGCAACCTGCAGTACGGTAAGCCGGACGCCACCGAGGACGAGCTCTGGACCGCTCTGGAGATCGCCCAGGCCCGCGACTTCGTGGAGCGGATGGAGGAGGGACTGGACGCGCCCATCAGCCAGGGCGGCACCAACGTCTCCGGCGGGCAGCGGCAGCGGCTGGCCATCGCCCGGGCCCTGGTGAAACGGCCCGGGCTGTACATCTTCGATGACTCGTTCTCCTCGCTGGATACCGGCACGGACGCCCGCCTCCGGCAGGCCCTCAAGCGCAGCACCGCCGGCGCCACGCTGGTGATCATCGCCCAGCGCGTGTCCAGCATCGTGGATGCGGACCAGATTTTAGTGCTCGACGGCGGCAGGGTTGTCGGGCGCGGAACGCACCGGGAGCTGCTGGAGACCTCGGAGACGTACCGCGAGATCGTCTCCTCCCAGCTGGCAGCGGAGGAGACGGTATGA	MLWKLLVQYLRPHRRLLAAVVVFQLAQSIASLYLPTLNADIIDEGVAKGNIGYILSLGGVMLGITLLQIVCAVIAVYFAAKAAMSVGRDLRGAIFQRVGDFSEQEVTKFGAPSLITRSTNDVQQVQQLVLMSATMLVTAPMLSIGGVVMAVRQDAQLSWLIAVAVPVLLIAVGLITVRMVPLFKKMQKRIDTVNRVLREQLTGIRVVRAFVREDIETERFARANEDVTDTALRAGRLMALAFPAVMLVLNVSSVAVIWFGSFRIQDGSMQVGTLIAFLSYLLQILMSVMMATFMAVMIPRAAVSGDRIGEVLRTELSVRPPAHPVSPAARDGHRRGELEMRDVGFAYPGADQPVLTGISFTARAGQTTAIIGSTGAGKTTLVNLMPRLFDATSGSVRMNGVDVRELHPDLLWGHIGLVPQRPYLFSGTVRSNLQYGKPDATEDELWTALEIAQARDFVERMEEGLDAPISQGGTNVSGGQRQRLAIARALVKRPGLYIFDDSFSSLDTGTDARLRQALKRSTAGATLVIIAQRVSSIVDADQILVLDGGRVVGRGTHRELLETSETYREIVSSQLAAEETV	PGPT0029025_1895	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029025-efrA-K18887	NA	NA
D1-17_00594	2055		COG1132	Fatty acid ABC transporter ATP-binding/permease protein	ATGAGCGCACCGGACCGCCCGCCGTCGTCCGCTTCTTCCGGAACCGGTACTTCCACAACCGCCGCGGCAACCGCACCTGCCGGCGGCAAAACGGCAAGCGCCGACGTCGCCCGCATTCCCCGTCCGGCAGGCGGGCCGGGACGCGGCGGACCGTTCGCGGGGATGAACGTCCCGGCGGAGAAGGCGATGAACTTCTGGCCGTCGGCCAAGCGGCTGCTGGGGACGCTGCGGCCGGAACGGGCGTGGCTGCTGCTGGTGTTCGCGACGGCGGTGGCCGGGGTGGCGCTCTCGGTGATCGGGCCGCGGCTGCTGGGGGAGGGCACCAACCTGATCTTCGCCGGGGTGGTGTCCCGCGAGCTGCAGGCCGGGGTGAGCAAGGAGCAGGTGATTGCGCAGCTGCGGGCGTCCGGGGAGGGGCAGCGCGCGGACATGCTCAGCGCGATGGATCTGGTGCCGGGGCAGGGGATCGACTTCGCGGCGCTGGGCACTGTGCTGACGTGGGCGCTGGTGCTGTATGTGCTGTCGTCGGCGTTTATGTGGGTGCAGGCGTATGTGCTGAACGGGGTGGTGCAGCGGACGGTGTTCGGACTGCGGGAGCGGATCGAGGCGAAGATCCACCGGCTGCCGCTGCGGTATTTCGACTCGGTCCAGCGCGGCGAGCTGCTCAGCCGGGTCACGAACGACGTGGACAACATTTCCCAGAGCCTGCAGCAGACCATCAGCCAGGCGGTGACGTCGGTGCTGACCGTGGTGGGCGTGCTGGTGATGATGGTGATTCTCTCGCCCACGCTGGCGCTGATCGCGCTGGTGACCATTCCGCTGACGCTGGGGCTGACGGCGCTGATCGCCAAGCGCTCCCAGAAGCTGTTTGTGGCCCAGTGGAAGCACGCAGGGGAGCTGAACGGGCAGATCGAGGAGACGTACACCGGGCATGCGCTGGTGAAGGTGTTCGGCCGGCAGCAGGAGGTGGGGGAGCGGTTCCGGCAGAAGAACGCGGAGCTGTATGAGGCGAGTTTCGGCGCGCAGTTCATCTCCGGGCTGATCATGCCGGCCATGACGTTCATCGGGAACCTGGTGTACGTGGGGATCGCCGTCGTGGGCGGGCTGCAGGTGGCCTCCGGGGCGATGCAGCTGGGCGACGTGCAGGCGTTCATCCAGTACTCCCGGCAGTTCACCATGCCGCTGGCGCAGCTGGGGTCCATGGCCAACGTGCTGCAATCCGGTGTGGCGTCCGCCGAACGGGTGTTCTCGTTGCTGGATGAGGACGAGGAGTCTGTTGAGCCTGCCCCGTCTGCCGGGCCTGCATTTGGGAAGGGGCGGCTGGTGTTCGAGGACGTCTCGTTCTCCTATTCGCCGGACAAGCCGCTGATCTCCTCGTTGTCCCTGGTGGCGGAGCCGGGGCAAACGGTGGCGATTGTCGGGCCCACCGGGGCGGGGAAAACCACGCTGGTGAACCTGATGATGCGGTTCTACGAGCTGGACGCCGGGCGGATAACGCTCGACGGCGTGGACGTCACCTTTGTGCCCCGGCGTGAGCTGCGCTCGCGGATGGGGATGGTGCTGCAGGATACGTGGCTGTTTGCCGGGACGATCCGGGACAACATTGCGTATGGCCGGCCCGGAGCTACTGAGGCCGAAATTCTTGAGGCTGCCCAGGCGACGTATGTGGACCGGTTCGTGCGGTCACTGCCTGACGGGTACGACACGCTTCTGGAGGACGAGGGCTCGAATGTGTCCGCGGGGGAAAAGCAGTTGCTGACGATTGCGCGGGCGTTCCTGGCCCGGCCGTCGGTGCTGATTTTGGACGAGGCGACTTCTTCAGTTGACACCCGGACTGAGGTGCTGGTGCAGAAGGCGATGAGTGCTTTGCGGTCGGACCGGACTTCTTTTGTGATCGCGCACCGCCTGTCCACGATCCGCGACGCCGACCTCATCCTGGTGATGGAGGCCGGCCAGATCGTGGAGCAGGGCACGCACGCTTCGCTGTTGGCCGCGGGCGGGGCTTACGCGCGGTTGTATGAGGCGCAGTTCGCGGCTCCCGTGGCGGAGGTTTAG	MSAPDRPPSSASSGTGTSTTAAATAPAGGKTASADVARIPRPAGGPGRGGPFAGMNVPAEKAMNFWPSAKRLLGTLRPERAWLLLVFATAVAGVALSVIGPRLLGEGTNLIFAGVVSRELQAGVSKEQVIAQLRASGEGQRADMLSAMDLVPGQGIDFAALGTVLTWALVLYVLSSAFMWVQAYVLNGVVQRTVFGLRERIEAKIHRLPLRYFDSVQRGELLSRVTNDVDNISQSLQQTISQAVTSVLTVVGVLVMMVILSPTLALIALVTIPLTLGLTALIAKRSQKLFVAQWKHAGELNGQIEETYTGHALVKVFGRQQEVGERFRQKNAELYEASFGAQFISGLIMPAMTFIGNLVYVGIAVVGGLQVASGAMQLGDVQAFIQYSRQFTMPLAQLGSMANVLQSGVASAERVFSLLDEDEESVEPAPSAGPAFGKGRLVFEDVSFSYSPDKPLISSLSLVAEPGQTVAIVGPTGAGKTTLVNLMMRFYELDAGRITLDGVDVTFVPRRELRSRMGMVLQDTWLFAGTIRDNIAYGRPGATEAEILEAAQATYVDRFVRSLPDGYDTLLEDEGSNVSAGEKQLLTIARAFLARPSVLILDEATSSVDTRTEVLVQKAMSALRSDRTSFVIAHRLSTIRDADLILVMEAGQIVEQGTHASLLAAGGAYARLYEAQFAAPVAEV	PGPT0029030_193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
D1-17_00595	3651	metH	COG0646	Methionine synthase	ATGCCTCGTTTCGCGCTTGATATTGAGTCCGTCCCCCGCCCCGTCCGTTCGCAGGAGCTGCTGGATGCGGTGAACCACCGGGTCGTCATCGCCGACGGCGCGATGGGCACCATGCTGCAGGGCCGGGACCTCTCGCTGGACGAAGACTTCCTGGGGCTGGAAGGCTGCAACGAGATCCTCAACGACACGCGGCCCGATGTTCTCGCGGACATTCACGACGCCTACTTCGCCACGGGCATCGATGCGGTCGAAACCAACACCTTCGGCGCCAACTGGTCCAACCTCTCGGACTACGGCATCGACGACCGCATCGAAGAGCTCGCCCGCAAGGGCGCCGAAATCGCCCGCGAACGTGCAGAAGCGGCAGAAAAAACAGACGGGCGCATGCGCTGGGTCCTCGGCTCCATGGGGCCCGGCACTAAGCTCCCCAGCCTCGGGCACACCACCTACGACTACCTCAAGCAGACCTTCGCGCTGCAGGCTGAGGGCCTCATCGACGGGGGAGCGGACGCCTTCCTCATCGAGACCAGCCAGGACCTCCTGCAGACCAAAGCCGCGGTCAACGGCTGCAAGCAGGCCATCGTGTCCCGCGGTATCCGCCTCCCCATCTTCGTCGAGGTGACCGTCGAAACCACCGGAACCATGCTGATGGGCTCCGAGATCGGCGCCGCGCTCACCGCGCTCGAGCCGCTCGGCGTCGACGCCATCGGCCTGAACTGTGCCACCGGGCCGGACGAGATGAGCGAGCACCTGCGCCACCTCTCCAAGCAGTCCTCCGTCGCCATCGCCTGCATGCCCAACGCCGGCCTGCCGGTGCTTGGCGCCAACGGTGCGCACTATCCGCTCTCGCCCGCCGAACTCGCCACCGCGCACGAGCAGTTCGTGCGGGAATTCGGGCTGGGCCTCGTGGGCGGATGCTGCGGTACGACGCCGGAACACATGGCCGCCGTCGTCGAACGTCTTGCCCCCTTCCGCACCTCCGCCGCCGTCACCAGCGGCGGGAGGGGATCTGACGGTGCCCGCCTCCCCACCGAGCGGGAAGCCGGCATCGCCTCCCTCTACCACCACGTGCCGTTCGACCAGGATTCCGCCTACCTCGCCATCGGTGAGCGCACCAACGCCAACGGTTCCAAGGCGTTCCGCCAGGCCATGCTGGAAGAGCGCTGGGACGATTGCGTGGACATTGCCCGCGAGCAGGTCCGCGTCGGCGCGCACCTGCTCGACGTCTGCATCGACTACGTGGGGCGCGACGGCGTGGCCGACATCAAGGAGGTCGTCTCACGTTTCGCGTCGGCCTCCACCCTCCCGCTCGTCATCGACTCCACAGAACCGCCCGTGCTGCAGGCCGGGCTCGAACTCATCGGCGGGCGCCCGGTGGTCAACTCCGTCAACTACGAGGACGGCGACGGCCCGGACAGCCGCTTCGCGCGCATCATGCCGCTTGTGAAGGAACACGGCACCGCCGTGATCGCCCTGACCATCGACGAGCAGGGCCAGGCCCGCACCACCGACGGCAAGGTGGCCATCGCCTCCCGCCTCGTTGACGCCCTGGTGGGCGAATGGGGGATGCGCGTCGAGGACATCATCGTCGACTGCCTGACCTTCCCCATCGCCACCGGCCAGGAAGAGACGCGCCGGGACGGCATCGAAACCATCGAGGCCATCCGCCAGATCACCGCGAAGTACCCCGGCATCAACACCACACTCGGCGTCTCCAACGTGTCCTTCGGTCTGAACCCCGCGGCGCGCGTTGTCCTGAACTCGGTCTTCCTGCACGAGGCCGCACAGGCCGGCCTGACCAGCGGCATCATTGACGCCGCCAAGATCGTGCCGCTCGCCTCGCTGCCGGAAGAGCAACGCAAGGTGGCACTGGATCTCGTCTGGGACCGCCGCGAATACGACGCCGACGGCAACACCACCTACGACCCCCTGAACATCATGCTGGACATGTTCGCGGGCGTCGACACCGCAGCGCTCAAGGACCAGCGCGCCGCTGAACTCGCGGCGCTGCCCACCGGCCAGCGCCTGGAGCGGCGCATCATCGACGGCGAAGGCAAGGGCCTCGAAGAGGACCTCGACCTGGCCCGCAGCGAGGGACTGACCCCGCTCGGCATCATCAACGACCACCTGCTCGAAGGCATGAAGGTGGTGGGCGAGCGCTTCGGCGCCGGCGAGATGCAGCTGCCTTTCGTGCTGCAGTCCGCCGAGGTGATGAAGAACGCGGTGGCCCTGCTCGAGCCGCACATGGAGAAGTCGGACGCGTCGGGCAAGGGCACCATGGTGATCGCCACCGTGCGCGGCGACGTGCATGACATCGGCAAGAACCTGGTGGACATCATCCTCACCAACAATGGCTACAGGGTCATCAACCTCGGCATCAAGCAGCCGATAGCCGACATCATCGCCGCCGCCGAGGAACACGACGCCGACGTGATCGGCATGTCCGGGCTGCTCGTGAAATCCACCGTGGTGATGAAGGAGAACCTCGCGGAACTGCAGTCCCGGGGGCTTGCGAAGAAGTGGCCGATCATCCTCGGCGGGGCCGCCCTGACTCGTGCCTACGTGGAGCAGGACCTGGCTGAGATCTTCGACGGCGAAGTGCGCTACGCGAAGGATGCTTTCGAGGGCCTCTCCCTCATGGAGCCGCTGGTCCAGGTAGCCCGCGGCGCGGACCCCGCAGAGGTGGGCCTGCCCGCGCTGAAGAAGCGGATTCACAAGGGCGGCCCGAAGTTTACGGTGACGGAGCCGGAGGCCATGCCCGGCCGGTCCGACGTCGCCGCCGACAACCCCGTGCCTGCGCCGCCGTTCTGGGGCACCCGAATTGTGCGCGGCGTCGCGCTCCACGACTACGCGGCCTTGCTCGACGAGCGCGCCACCTTCATGGGGCAGTGGGGGCTCAAGCCCGGCCGCGGCGATGACGGCGCCTCCTACGAGGAACTGGTGGAACGCGAGGGCCGGCCGCGCCTGCGCTACTGGCTGGACCGCATCCTCGCCGAGGGAATGCTTGACGCGTCCGTCGCGTACGGCTATTTCCCGGTGGTCTCCGAAGGGGAACAGGTGGTGGTGCTGCACCACGGGGAGGACCACGACGGCGTCCTCGGCACCGCGGGTCTCCTCGCCCCGGATGGCGGTTCAGGTGGCCCGATCGGGACCGAGCGGCTGCGCTTCGATTTCCCGCGCCAGCGCCGGGACCGGCACCTGTGCCTGGCCGACTTCGTGCGGTCGCGCGAGTCGGGGCAGATCGACGTGCTGCCGGTGCAGCTGGTCACGGCCGGCTCGAAGATCGATGAGGTGACCGCGGAGCTGTTCAAGGGGAACCACTACCGCGACTACTACGAGCTCAACGGCCTGGTCATGCAGCTCACCGAGGCGCTTGCCGAGTTTTGGCATGCGCGCATCCGCTCCGAGCTCGGCTTTGCGGCCGAGGAGCCTAAGGACAAGGCAGGGTATTTTAAGCTCGACTACCGAGGTGCCCGCTTCTCGCTCGGGTATCCGGCGTGCCCGGACATGGAGGACCGCCGCAAGGTGACGGAGCTGCTGAAACCCGAGCGGATGGGCGTGATCCTCAGCGACGAGCTGATGCTGCACCCCGAACAGTCCACCGACCCGTTCGTGTTCCACCACCCGGAGGCGAAGTACTTCAAGGTGTGA	MPRFALDIESVPRPVRSQELLDAVNHRVVIADGAMGTMLQGRDLSLDEDFLGLEGCNEILNDTRPDVLADIHDAYFATGIDAVETNTFGANWSNLSDYGIDDRIEELARKGAEIARERAEAAEKTDGRMRWVLGSMGPGTKLPSLGHTTYDYLKQTFALQAEGLIDGGADAFLIETSQDLLQTKAAVNGCKQAIVSRGIRLPIFVEVTVETTGTMLMGSEIGAALTALEPLGVDAIGLNCATGPDEMSEHLRHLSKQSSVAIACMPNAGLPVLGANGAHYPLSPAELATAHEQFVREFGLGLVGGCCGTTPEHMAAVVERLAPFRTSAAVTSGGRGSDGARLPTEREAGIASLYHHVPFDQDSAYLAIGERTNANGSKAFRQAMLEERWDDCVDIAREQVRVGAHLLDVCIDYVGRDGVADIKEVVSRFASASTLPLVIDSTEPPVLQAGLELIGGRPVVNSVNYEDGDGPDSRFARIMPLVKEHGTAVIALTIDEQGQARTTDGKVAIASRLVDALVGEWGMRVEDIIVDCLTFPIATGQEETRRDGIETIEAIRQITAKYPGINTTLGVSNVSFGLNPAARVVLNSVFLHEAAQAGLTSGIIDAAKIVPLASLPEEQRKVALDLVWDRREYDADGNTTYDPLNIMLDMFAGVDTAALKDQRAAELAALPTGQRLERRIIDGEGKGLEEDLDLARSEGLTPLGIINDHLLEGMKVVGERFGAGEMQLPFVLQSAEVMKNAVALLEPHMEKSDASGKGTMVIATVRGDVHDIGKNLVDIILTNNGYRVINLGIKQPIADIIAAAEEHDADVIGMSGLLVKSTVVMKENLAELQSRGLAKKWPIILGGAALTRAYVEQDLAEIFDGEVRYAKDAFEGLSLMEPLVQVARGADPAEVGLPALKKRIHKGGPKFTVTEPEAMPGRSDVAADNPVPAPPFWGTRIVRGVALHDYAALLDERATFMGQWGLKPGRGDDGASYEELVEREGRPRLRYWLDRILAEGMLDASVAYGYFPVVSEGEQVVVLHHGEDHDGVLGTAGLLAPDGGSGGPIGTERLRFDFPRQRRDRHLCLADFVRSRESGQIDVLPVQLVTAGSKIDEVTAELFKGNHYRDYYELNGLVMQLTEALAEFWHARIRSELGFAAEEPKDKAGYFKLDYRGARFSLGYPACPDMEDRRKVTELLKPERMGVILSDELMLHPEQSTDPFVFHHPEAKYFKV	PGPT0008135_1708	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
D1-17_00596	2862	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGACCTTTCGGCCCGCGCCGTTACGTGCAGCGGCGGCTCTCGCCGTCGTCTTCATCGCGGCGCGGGTCATCTACCGCTTCCTCTTCAACGGAGCGGGCATTGGTGAGCCCGTTCTGCTCGACATACAGCCGGTGCCGCTGCCTGCCCCGTACGCCCACGTGGTCCTCCTTGGTCCGGTCTCGGCGCCGGGGCTCTGGGAGGCGGTCCTGTCAGCCCTGCCGATCGCCGGGACGATCCTTGCTTTCGGCCTGCTCAATGCCTGCGTGGACGTGGCCCGCGGCTTCGTGCATTTGGCCCGCGGCGGTCCTATGCAGGGCCTGGCCCGGACGCTTGTGGTGGCGTGGGCGGCGCTCCCTGCGCTTTCCGACGCCGTGGCCTCCGTGCGCCTGGCGTTCCGGTTGCGGGGCGAACGGTTCGGACCCCGCGCCCTGGTTCCGGTGCTCGAGCGCACCCTCGAGCACGCGGGCCGCGTTGCCGCGGCCCTGGAGCTGCGCGGCTTCGGGAGCCGGGCAGCACAACCACCCAGCCCGCACCCAACTGGCCACAGTACCGAAGCACCGGTCCTTGTCCGGGACGCACAGTTCCGCATTGGTGACGCGCAGGTGCGCGTTCCGGAATTCGCGCCCGCGAGCGGATCCATCTCGGTCATTACCGGGCCGACCGGCTCCGGCAAGTCCACCATCCTGCGGGGCATTGCCGGCCTCCTCTCACATGTTGACGGTGGAGAAATCTCCGGCACCGTCCACGTCGCCGGAACGGACCGCGCCGGCACCCCACCGCGCGATACCGCCCGCCTTATCGGCGTCGTACTGCAGAACCCCCGGGCCGCATTCGCCACCACCCGCGTCCGGGACGAAATCGCCCTCGCACTTGAGCTGCGCGGCATGGCACCCGCTATCGTCAAGGCCCGGGTGCTGGAGGTCGCGGAGAGTATCGGAATATCGGCGCTGCTGGACCGGGATGTCAGCACTCTTTCGGCAGGTGAAGCAACGCTCGTAGCCATCGCCGCCGCAGTGGTGGAGCACCCGGTTCTGCTCTTGGTTGATGAGCCCCTGGCCGACCTTGATACCAACGCCCGCGGTCACGTTATCTCCGTGCTCAACGCCCTCTCCTGCGATGCCGGTGTCTGCGTCATCGTGGCGGAGCACCGTGCGGAAGCGCTCGTACCCTGTGCGGACTCATGGTGGACCATCGACGACGGCGCCCTGGTGCCGGGTGCTGCGCCGTCCGCGCCTACGCACTCTGTCGCACATCCGCCGCCGGCACGGCCGGCAGAGCACGCGCCCGTGCTGACGGCGACGAACCTTGCGGTGCACCCCAAGGGCAAGTTGCTCGTGCGCGACGCATCCCTGACCCTGCACCGCGGTGAAGTGGTCGCCCTGGTCGGGCCGAACGGGGCCGGGAAGTCGTCCCTCCTGGTGGCGCTCGCCCTCGGTGAAGGAACGGTCGACGGCGGGACATTCGACAGCGCCCGCGTCGCCCTGGTGCCGGATGCCTCGGACGACCTCTTCACGAGGGATACAGTCGCAGGAGAGCTCCGAGCGGCGGAGCGGCGGCACGCGCGCCGAAAGAACGGCGGACAGCCTGAGCCTGGTTCCGCAGCTGCGCGCCTTGCCCGTTTGCGGGGTGACGTTCGAATTCCCATCGGGCACGAGCATCCCCGGGACCTCTCTGCAGGGGAGCGCCGGATCCTTGCCATCGCGCTGCAGACCATGGATGATCCACAGGTCCTCATGATCGATGAGCCCACCCGCGGACTCGATCCTGCGGCGGGCACAGCAGTCGCGGCGGCATTGCGGGCCGCAGCGGAGGCCGGCGCGGCGATCCTGATCGCCACCCACGACCGCGATTTTGCGCACAGCCTCGGGGCCCGGATCCTCCCGATGCGCGATGGCGTCGCGCCCGCTTCCGAGACAGAAGCAGCCCCGGAAGTGTACCTCCCGCCTCCCCGGCAGGCAGGTGCCGGACCAAGACCACGGGTCCTCGACGAACCAACAGCCTCACAGGGAGCGGCAAGGCAGCACCGTCTCCGGCTGCCGCGCAGCGTCGAGCTCGCAGTTCTTGCAGCGGCAAACCTTCTGGCCCTCGGCGCCTTCTGCTGGCCGCTGCTCGCTGCGGCCCTCCCGCAGGATGCCGCCGCCGCCCTGCCCTACGCGGCGCTGGCCATCGCGCCCATCGCCGCAGTCACCGTTGTGGTCTCCCTCGACGGCTCTGTCCGCTCCGCGCATATGGTGGCGTTGCTCGGCGTCCTGGCCGCCGTCGGCTCCGCGGTGCGGGTGGCGAGCACGGGCGTCGGGGGCGTGGAGGCGGTCTTTATCCTGCTGATCCTGGCCGGCCGGGCGTTCGGCGCCCGTTTCGGCCTGCTCCTCGGCGCCGCCACCATCGCCGTCTCGAGCGTCTTGTGGGGCGGTATCGGGCCCTGGACACCGTTCCAGATCTTCGCCTGCGCGTGGGTGGGCGCGGGGGCCGGGCTGCTCCCCCGCCGGGTGCGCGGGCGGGCAGAAGTGTGGATGTTGTGCGGCTACGGCGCCGTGGCGTCCTACCTGTTCGGACTGCTGACCAACCTGTGGTTCTGGCCCTTCGCAGTCGGCGCCGGCACCGGCATCTCCTACATGCCCGGCGCGCCGCTGGAGACCAACCTCTCCAGCTTCCTGCTGTACTCACTCGTGACGTCGACGGCGGGCTGGGACACCCTGCGTGCCGCCACCACAATCATCGGAATCGTTGTGGTGGGGCGGGCCGTTCTCGCCGCGTTCCGGCGGGTAAAGCCGGTGGCCAGCGTGGGCACTCAAGCCGCGAAGGCTTCATCCATTCAGGCTGCATCCGTTCAAGACAGGGACCGGCTTCAACTCACACCTTGA	MTFRPAPLRAAAALAVVFIAARVIYRFLFNGAGIGEPVLLDIQPVPLPAPYAHVVLLGPVSAPGLWEAVLSALPIAGTILAFGLLNACVDVARGFVHLARGGPMQGLARTLVVAWAALPALSDAVASVRLAFRLRGERFGPRALVPVLERTLEHAGRVAAALELRGFGSRAAQPPSPHPTGHSTEAPVLVRDAQFRIGDAQVRVPEFAPASGSISVITGPTGSGKSTILRGIAGLLSHVDGGEISGTVHVAGTDRAGTPPRDTARLIGVVLQNPRAAFATTRVRDEIALALELRGMAPAIVKARVLEVAESIGISALLDRDVSTLSAGEATLVAIAAAVVEHPVLLLVDEPLADLDTNARGHVISVLNALSCDAGVCVIVAEHRAEALVPCADSWWTIDDGALVPGAAPSAPTHSVAHPPPARPAEHAPVLTATNLAVHPKGKLLVRDASLTLHRGEVVALVGPNGAGKSSLLVALALGEGTVDGGTFDSARVALVPDASDDLFTRDTVAGELRAAERRHARRKNGGQPEPGSAAARLARLRGDVRIPIGHEHPRDLSAGERRILAIALQTMDDPQVLMIDEPTRGLDPAAGTAVAAALRAAAEAGAAILIATHDRDFAHSLGARILPMRDGVAPASETEAAPEVYLPPPRQAGAGPRPRVLDEPTASQGAARQHRLRLPRSVELAVLAAANLLALGAFCWPLLAAALPQDAAAALPYAALAIAPIAAVTVVVSLDGSVRSAHMVALLGVLAAVGSAVRVASTGVGGVEAVFILLILAGRAFGARFGLLLGAATIAVSSVLWGGIGPWTPFQIFACAWVGAGAGLLPRRVRGRAEVWMLCGYGAVASYLFGLLTNLWFWPFAVGAGTGISYMPGAPLETNLSSFLLYSLVTSTAGWDTLRAATTIIGIVVVGRAVLAAFRRVKPVASVGTQAAKASSIQAASVQDRDRLQLTP				NA	NA	NA	NA	NA
D1-17_00597	558			hypothetical protein	GTGACATTGACTAAGATTCGCACCGCCGCCGCGAGCTCCCTCGCCGCCGCCGGTCTCCTGTTTTCCCTTGCCGCCTGCTCCACGCCCGGCACTACCCAGCCAACCACGTCTGCGCCCGCATCCACGGCAACGGCGTCATCCAGCGCCGCCGCAGGGCCCTGCGACGGGGTGAAGGTCATCGTCGACTCGGGCGCCCTGAAGCAGGAGGCCGCTGAGACGTCGGTTTGCGTGCCCGTGGACGGGCCAACTCCCGCATCCAAGGTGCTTGATGAGGCAAAGGTGAAAACAGAGGGAACTGACCAATATCCCAAGGAACTGGTGTGCCGCGTGAACGGTGTGCCGGCCGCAGACTTCGACATCGTCCACAAGGGCGGCACTTACCGGGAAGATTGCAAGAAGACGCCCGCCGCTTTTGCCTACTGGTCACTCTGGGTTAAGCCGGCCTCCGGTAAGTGGGCATACGCCCAGGAAGGCCTCGCCACCCTGAAGGTGAGCCCCGGAGAGAGCCTGGAACTGCTCTTCACCGTCGACGGCGCACCGGCCACCCCCGCGGCATGA	MTLTKIRTAAASSLAAAGLLFSLAACSTPGTTQPTTSAPASTATASSSAAAGPCDGVKVIVDSGALKQEAAETSVCVPVDGPTPASKVLDEAKVKTEGTDQYPKELVCRVNGVPAADFDIVHKGGTYREDCKKTPAAFAYWSLWVKPASGKWAYAQEGLATLKVSPGESLELLFTVDGAPATPAA				NA	NA	NA	NA	NA
D1-17_00598	924	catM_1		HTH-type transcriptional regulator CatM	ATGGATATTGATCCGCGTCGGCTGCGCGTTCTCCTTGCTGTTGCCCGCACAGGCGGAGTGCTCGCCGCGGCTGACGAGTTGGGGATCACGCCGTCGGCCGTGTCCCAGCAGCTCAACAAGCTGGAGGACGAAACGGGGCATGCTCTGGTGGTGCGCACCCCCAAAGGCTCGGTTTTGACACCCGCCGGCCTGGCCGTTGCAGAAGCCGGCGAGGAGATCGAACGCGCACTCAGCGTCGCCCGCGCCCGTATGGAGGGCGGGGCCACGGTCGCAGGGGTGGTGCGGGTTGGCGGATTCACCAGCTTCATCCGGACAGTGGTGATCCCGCGCCTGCCAGAGTGGCGCAGCCAGTACCCGCAGTTGCAGATCCGAATCGTTGAGGACGACTTTCCTGCCCTCATGCGGCTGCTCCGTCAGCGCCAACTCGATGCCATCGTCGTCGAGCTTGATTCAACGACCGCCGAGCAACGTTCCCTCTCAGCCGGCACGACCGAGGAACCCCTGCTGGACGAGCCATGGAAGCTGGTAGTTCCGGCGGGCGCCCTGCTCAGCACCGAGAACATCGACCTCGGCCACCTGCCGCTTCCGTGGCTCGGCGTTGAGTCCTCAGCCGCCAACGCTTCCGTTCTCGTCCGGCTCCGTCAGTCAGCGGGTGCCCGGATGGAGACGGTGCATCAGTACCAGGAGACGCTGACCGCGCTGGCACTCGTCGCGGCGGGTGAGGGCGCCGCAGTCGTACCCACCTTGGCGTTGAGCGGCGTCAGCCATGACGGGGTGGACGTACTGGACGTCCCTGGACTGGGCACGCGGCGCATCGTCCTGCGGCGGTTCGACCGGCGGCGGGCAGCCAGCACGCCCGTGGACACCGTTGCGCGCCTTCTCCGGGAATCGGCGGCGGCCTTCGACACGCGGTCAACATCCTGA	MDIDPRRLRVLLAVARTGGVLAAADELGITPSAVSQQLNKLEDETGHALVVRTPKGSVLTPAGLAVAEAGEEIERALSVARARMEGGATVAGVVRVGGFTSFIRTVVIPRLPEWRSQYPQLQIRIVEDDFPALMRLLRQRQLDAIVVELDSTTAEQRSLSAGTTEEPLLDEPWKLVVPAGALLSTENIDLGHLPLPWLGVESSAANASVLVRLRQSAGARMETVHQYQETLTALALVAAGEGAAVVPTLALSGVSHDGVDVLDVPGLGTRRIVLRRFDRRRAASTPVDTVARLLRESAAAFDTRSTS				NA	NA	NA	NA	NA
D1-17_00599	339			hypothetical protein	ATGGAACTGCTGTTTGAAATTTCCGGCTGGGCGGGCGCGGTTGCGATACTCGGCGCGTTCCTTGCTGTGTCCATGGGATGGATGAAGGCCGGCAAGGGCTTTCAGACGGCGAATCTGCTCGGTGCTTGTGCCTTTATTGTCAATGGCGCATTCCACGAAGCGTGGCCCTCCGTTGTCACGAATATCGCCTGGTTTCTCATTTCCGCGGTAGCGCTGCTTCGCATGCGTTCCCGGCAGGAGTCGCCGGCGGCCGCTGCCGAGGCGCCGCAGGTCCAGTTTCCTGGAGTCCCTGACACAACCGGCCAACTGGCCATCGTCGAAGCGCGCCGCTTCACCTAA	MELLFEISGWAGAVAILGAFLAVSMGWMKAGKGFQTANLLGACAFIVNGAFHEAWPSVVTNIAWFLISAVALLRMRSRQESPAAAAEAPQVQFPGVPDTTGQLAIVEARRFT				NA	NA	NA	NA	NA
D1-17_00600	276			hypothetical protein	TTGCCTACAGCCTTCATCCCGTTCACCATGTGCGCCACGGTCCGCGACGACCACAGGCGGTCCTTCAGTACGGACCTGGAGCAGCTCACCTCGACCCATCGTGGCTGGGCGCCGTTGGACGTGGTCAAGTCCACCAACTCCAAAGCACTCCTCCGCGGAGCAATTCCGCAAGGCGCTCACACCGCCACCGATGCGAGTCTTGCACGCTACCTCCAGGAACGCCTTGCCGCCGACACGGACATCCACATCGATCTCACGGTAAGCATCGAGCGGTAA	MPTAFIPFTMCATVRDDHRRSFSTDLEQLTSTHRGWAPLDVVKSTNSKALLRGAIPQGAHTATDASLARYLQERLAADTDIHIDLTVSIER				NA	NA	NA	NA	NA
D1-17_00601	369			hypothetical protein	ATGAAAATCACGGATCCGGCTAACGTGCACCCCGCCTGGGCGGAATGCTTCAATCGTCAGGACTTCAACGGGATGGCCGGCTTCATGGAGACAAATGCCGTTTTCGCCCCTCAGCCCGGATTGGCCCTCACAGGTGAGGACAACCTCACAGCCCAGCGGCAGTTCCTAGCAATGGGACTGCCGATTGACCTGACTGTCCGCCATGTGCTGCAGGAAGGACAAATAGCACTCGCGATCGTTGATTGGACCATCAAAGGCACTGCTGCCGATGGCAATGAAGTCGACCTGAAAGGCACCGCTGCTGACGTTCTTCGGCTGGGTGACGAAGGGTGGAAACTCATTATTGATAACCCGTTCGGCACTGCCTGA	MKITDPANVHPAWAECFNRQDFNGMAGFMETNAVFAPQPGLALTGEDNLTAQRQFLAMGLPIDLTVRHVLQEGQIALAIVDWTIKGTAADGNEVDLKGTAADVLRLGDEGWKLIIDNPFGTA				NA	NA	NA	NA	NA
D1-17_00602	369			hypothetical protein	ATGCGCATGACATGGATGAGGGCCGCTGTTGTCGCCGCCCTCATTGGAAGTATGTTCTGGATTCCCGCTGCCGCAGGGGCCGCTGAAGGCCCCGGAACCGCTACCGTTCAGGTCCTGGCAGCCTCGCCGGGTGTCACCCAGGGACAGCAGCCTTCTCCTACTGATGCTCCGACGGGGCCCACTCCCGCGCCGACCGGAACAGCAACTCCGGCTGAATCATCGCCGCCTCCCCCAGGAGGTCCAAGCGACACAGGAACGGCCCAGACGAACGACAGCACGCCACTCGTGATCGGGGCGGCGATCATCCTGCTCGTATTGCTCGTGGCGTTTTTCCTGTGGCGACGGCGGGGGGCTGTGAAAGACCTGTAA	MRMTWMRAAVVAALIGSMFWIPAAAGAAEGPGTATVQVLAASPGVTQGQQPSPTDAPTGPTPAPTGTATPAESSPPPPGGPSDTGTAQTNDSTPLVIGAAIILLVLLVAFFLWRRRGAVKDL				NA	NA	NA	NA	NA
D1-17_00603	1215	atzC		N-isopropylammelide isopropyl amidohydrolase	ATGCTCATCACCAACGTCCGCCCCTGGGGCGGGGGCGCCGTCGACCTTGAGGTCCGCGAGGGACGGATTGCCGCCGTTCACCCGGCGGGTTCTGCCGTCGTCGTCCCCGAAACAGTGGTTGACGGGCGGGGTCGGATCGCTTTGCCCGCGTTCACGGACGTGCACGTCCACCTGGATTCGACCCGGATCGGGCTGCCGTTCCGGGAGCACACCGGCTCGCCCGGCGTGTGGAACATGATGCGCAACGACCGGGACAACTGGCGCGACACCCCTGTCCCCTACAGCGACGTCGTCGCCGGAACGCTCGAGCGAATGATTGCGCGGGGCACCACGCGCGTCCGTTCCTACGCCCAGATCGACGTGGACTGCAAGCTTGAGCGCTTCGAGGCAGTCATGGCCGCCAAGGAACGCTTCGCCCACGCGGCCACCGTAGAGGTCATGGCCTTTCCCCAGGCCGGCCTCCTGCTGGAGGAGGGCACCGTTCCGCTCCTCGAGGAGGCCCTCCGCGCGGGCGCAACAACGGTGGGCGGCATCGACCCATGCCAGCTGGACCGCGACCCGGTCCACCATCTGGACATCGTCTTCGGGCTGGCAGAGAAGTACGGGGTCGACGTTGACATCCACCTGCACGAGCCGGGCCATCTGGGGGTCTTCAGCGCGGAACTCATCTTCGAACGCACCCGGGCGCTGGGTATGCAGGGACGCGTCTCCCTGTCCCACGCTTACGACCTGGCGAATGTCCACCCCGACGTCACCGCCGGGCTCGTGGAGCAGATGGCCGAGCTCGACGTTGCCTGGGCGACAGTCGCCCCGGCAAGTGGCGGGACGCAGTTCGACTTGGCCCAGATGACCGAGGCCGGGATCCGTGTCGGTTTGGGCGAGGACGGCCAGCGGGACTACTGGAGCCCGTATGGCAATTGCGACATGCTCGACCGCACGTGGCAGCTGGCCTTCACGCACCGACTGCGCAAGGACCTGCTAATCGAGCACTGCGCAGCGATAGCCACCATGGGAGGTGCGTCCATCATGGACCGCACCGTCCAGCGACTCACCAGCTCCGATGACCGGCCCGGCCTGGCCCTGGGAGACCGGGCCGACCTCGTCCTGGTTGACGGCGAAACCGTCACGAGCACCGTCATGGACCGAGGCGCCGACCGCACGGTCATCCATGACGGAAGGCTGGTCGCCGACGGGCTGGCCGTCCTTGGCCAGTAG	MLITNVRPWGGGAVDLEVREGRIAAVHPAGSAVVVPETVVDGRGRIALPAFTDVHVHLDSTRIGLPFREHTGSPGVWNMMRNDRDNWRDTPVPYSDVVAGTLERMIARGTTRVRSYAQIDVDCKLERFEAVMAAKERFAHAATVEVMAFPQAGLLLEEGTVPLLEEALRAGATTVGGIDPCQLDRDPVHHLDIVFGLAEKYGVDVDIHLHEPGHLGVFSAELIFERTRALGMQGRVSLSHAYDLANVHPDVTAGLVEQMAELDVAWATVAPASGGTQFDLAQMTEAGIRVGLGEDGQRDYWSPYGNCDMLDRTWQLAFTHRLRKDLLIEHCAAIATMGGASIMDRTVQRLTSSDDRPGLALGDRADLVLVDGETVTSTVMDRGADRTVIHDGRLVADGLAVLGQ	PGPT0021315_1691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
D1-17_00604	1473			hypothetical protein	ATGCGCAATGAAGCGAAGACCACAGACGGCTCCCTGTTCACCCTGACGGACACCCCTCCCTCCCGTTCCTTCCGTGCACGACCCGCCATGTGGTTCGCGATGATCGCGATCTCCACCGCGATCTGTGCCGTGGCCATCACGATCGGAACCCACAAGTTCCACCTCGGCCCGGCCGCCATCGTCCTGATGCCCATCCTGTGGACCGTGCTCATCGGCGGCTTCCTCGGAGTCCAGAGATGGAAACCCATCGAAGGACGCTCCCGTGCGGTGTCCACGCACCTGATGGACGTATCCATTGTTTTCTTCCTAGCAGGGCTTGGCACCCAAATTGGTCCGTCGCTGACGAAGTTCACCGGCCTCGGCCCCGCGATCCTCCTGCAGGAGGTGGGGCACGTGGTCGGCACGGTGATCCTGGCCCTGCCGGTCGCTGTCGCCCTTGGAATGGGGCGCTCCGCGATCGGCGCCACCTGGTCAATCGACCGTGAGTCCTACCTGGCCTTCGCCATCCAGCGCTTCGGTGTCCGCTCCCCCGAGTACCGCGGAGTGTTCGCTGTATGGGTGCTGGGCAGCGTCTTTGGCGCCGTGTTTATCTCCCTGCTGGCCGGACTTCTCGGCGGACTCGACTTCTTTGATCCCCGGGCTCTCGCCTTGGGCCTCGGACTGGGCTCTGCCTCCATGATGCTGGGCGGTGTCGGTGCCTTGTCCATCCTCTACCCGGAGATGGCCGGTGAGATCATGGCCCTCGCCGCACTCTCCAACCTGGTCACCAATATCGTCGGCTTCTACGCCGGTGTCTTCATCGCGCTGCCCATGTGCCAGAAGCTCTACAAGATGTGGTCCCGCATTTTTGGAAGGGACGACCTCGGCCGCCGCGTGCGCCGCGGCACTCTTGTTGGTGCTGCAGCTGAAGCCCGGGCCGGCGGATCGGGGTCGGCACGCGCAGGCGGGGCAGTAATTGAAACGGCAACGCCCGAGGCAGCTGACGCGTCGGGCGCCGACACCGTGGATGTCAACGGCATCGAAGAGGATCCCGTTGTTGTCAGGACCCCCAGGACGTGGCTCCTCGCCTTCGCCGCGACAGGAGTAGCAGGCATCCTGCTCAATGCCCTCGGCACCGGTGCGGCGCGGCCGCTGGATGTCGTCGGCGTGCTCATCCTGCTGGCCCTCACCGCCGTCGCGCTGGTACTTGCCAAGCTCGTCCCGGCGGTCCCGTCCAGCATCTGGGTCCTGGCTCTGGCCACCATTGCCTCGGCAACGTTCCTGCCCGTCGGCCCCTTCATCGCCTCCTCCACGCAGCACATCAACGTCCTCTTCGCGGGCCTCCCCATGATCGCCCTGATCGGCATGTCACTGGGCCGGGACGTCAAGGCGTTGCGCTCACTGAGCTGGAAGATCGTGATCGTCGCCCTCATGACGTTCACGTCCAGCTTCCTCGCCGCCGCGGTCATCGCCCAGATTGCTTTCCAGTTCTAA	MRNEAKTTDGSLFTLTDTPPSRSFRARPAMWFAMIAISTAICAVAITIGTHKFHLGPAAIVLMPILWTVLIGGFLGVQRWKPIEGRSRAVSTHLMDVSIVFFLAGLGTQIGPSLTKFTGLGPAILLQEVGHVVGTVILALPVAVALGMGRSAIGATWSIDRESYLAFAIQRFGVRSPEYRGVFAVWVLGSVFGAVFISLLAGLLGGLDFFDPRALALGLGLGSASMMLGGVGALSILYPEMAGEIMALAALSNLVTNIVGFYAGVFIALPMCQKLYKMWSRIFGRDDLGRRVRRGTLVGAAAEARAGGSGSARAGGAVIETATPEAADASGADTVDVNGIEEDPVVVRTPRTWLLAFAATGVAGILLNALGTGAARPLDVVGVLILLALTAVALVLAKLVPAVPSSIWVLALATIASATFLPVGPFIASSTQHINVLFAGLPMIALIGMSLGRDVKALRSLSWKIVIVALMTFTSSFLAAAVIAQIAFQF				NA	NA	NA	NA	NA
D1-17_00605	1488		COG0402	8-oxoguanine deaminase	GTGTACAGGAAAATTTCGGCCCGGTACGTTCTGGGGTTTGACGGCACACGGCACACTCTCATCGAGGACGGCGAGGTGGTCTTCAACGGCGATGCAATCGTCTTCGTAGGGCGCAACTATGCGGGTCCGGTCGACGAGGAGCACAATTATGGCCAGAGCCTGGTCGTGCCCGGCCTGATAGACCTCGATGCCCTCGCCGACATCGATCACCTCATCCTGGACTCGTGGCCCTCGCGCCATGTGGCCGCCGGCCACCTGTGGTCGGACGACTACTTTGCCCACCGCCGCCGGGACGTGTTCACGCAGGCCGAGCGTGCCACGGTCCGCGAATTCGCCTTGGCGCAGCTCGCCCTGCACGGCATCACGACCTACATGCCGATCGCTTCGGAGATTCACAGCTCGTGGGCTGAGGGCTTCGATGAGCTCGTGGACATGGCCGAGACCAGCCGCCGGATCGGGTTGCGCGGCTACCTCGGACCGGCCTACCGGTCCGGAGTCCACGTCACCACTGCCGCCGGCGGCCGCGAGGTCCACTTCGACGAGGACCGGGGGCTTGCGGGCCTGCGCGACGCCGAACGCTTCCTAGACCACGCCGCCCGTCTCGCAGACCCGCTCGTCACCGGGGCCCTGCTGCCGTGCCGCATCGAGACGCTGTCCGAAGGCCTCATACGGGAGACGGCCCGGATCGCCCGGGAACGGGACGCGCTCGTCCGGCTCCACTGCCTCCAGTCCCCACTGGAGGACGGGCTGCTGCAGCGTTCCGCCGGACGCGGCATGTGGGAACTGCTCGAATCCTCAGGCCTGTTCGGCACCCGGCTTCTCATCCCGCACGGCGTGGTGATCGACGCCAAGGACCCGGCGGCATCAGCGCCCGGTGGCCCGCTCGACACACTCGCCCGCCACGGCGTCAGCATTGTCCACTGCCCGTTAACATCGTTCCGCTACCAGAAGCAGCTTGTCTCCTTTGACCGCTTCCGCGAGGCAGGCATCAACCTGTGCCTGGGTACGGATTCCTTCCCGCCGGATCTGGTGCGCGGCATCGACGTCGGCATGCATGTGGCGCGGCTGGTCGAGGGGAGGCCCGACGCCGGGACCCTGGCCGACTACTTCGACGCCGCCACCGTCGGCGGAGCACGGGCCCTGGGCCGGGCCGACCTCGGAAGGCTTGCCCCGGGGATGCAAGCCGACATCACGGTAGTTTCCCTGGGCAATTTCCGCGACGGCGCCGTTGAAGACCCCTTGCGAACGCTGGTGCTCAACGGAACGGCGCGCCAGGTGACCGATACGTTCGTGGCAGGGCGTCCTGTCGTCGTCGGCGGTGCCCTGCCCGGCATCGACCTCGACGCACTGAAGGCGGAGGGGCAGCGGCTCTTCGACCAGATGCGGGCGGCATACTCCGAACGGGACATTCAGCGCCGGGAGCCTGACGAGCTGTTTCCTCCCGTCTATCCGCGCGCCGACATCCTTAGTCCGGCCGCAACTCCCTAG	MYRKISARYVLGFDGTRHTLIEDGEVVFNGDAIVFVGRNYAGPVDEEHNYGQSLVVPGLIDLDALADIDHLILDSWPSRHVAAGHLWSDDYFAHRRRDVFTQAERATVREFALAQLALHGITTYMPIASEIHSSWAEGFDELVDMAETSRRIGLRGYLGPAYRSGVHVTTAAGGREVHFDEDRGLAGLRDAERFLDHAARLADPLVTGALLPCRIETLSEGLIRETARIARERDALVRLHCLQSPLEDGLLQRSAGRGMWELLESSGLFGTRLLIPHGVVIDAKDPAASAPGGPLDTLARHGVSIVHCPLTSFRYQKQLVSFDRFREAGINLCLGTDSFPPDLVRGIDVGMHVARLVEGRPDAGTLADYFDAATVGGARALGRADLGRLAPGMQADITVVSLGNFRDGAVEDPLRTLVLNGTARQVTDTFVAGRPVVVGGALPGIDLDALKAEGQRLFDQMRAAYSERDIQRREPDELFPPVYPRADILSPAATP	PGPT0023665_273	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960	NA	NA
D1-17_00606	1338	ade		Adenine deaminase	ATGTGCCTTCACGATCACACCCCCGCTGCCCCGCCTGCCGCTGCGCTTCCACGCCGCGGCGTCCTGGCGGGGGCGGCCGCCCTGGCGGGAATCTCAGCGGCAAGCCTGGCTGCCCAGCTTGGAGGTGCTCCGACCGCGCGGGCGGAGGACAACGCCTCAATCCCCGGCCACCCTGAACGCCCCGCTTCCCCGGCGCCCATGTTGATTGAGGGCGGCACCATTGTGGACCCGAAAACGGGCGATGCCCTGGCAGACGGGGTCCTAGTGCTGGAAGGAGGCAAGGTAACCGCCGTCGGCAGCCGGAAGGAAACACGGCGTGCGGTGGCTGCTCTTGGCGGCCGTGCACACATCGTGAATGCCGCCGGGCGCTGGGTGCTGCCAGGCCTCATCGACGTGCATGTCCATGCGAACGCACTGTCGGATGCGCGGGCCATCCTGCAGGGCGGAGCAACCAGCGTCAGGAGCGGTTCGAGCAGCTTCTATCAGGACGTCGCCCTCGCTGCCCTGCCCGCCTGGGCCGCCGGTGCCTCGCCCCGGGTAAGCCCGGCCGGGCTGTTTATTTCGCCCGAACTGGGGGACTCGCTCCTGGCAGACCCTGACCTTGCACCGCTCGCGTCCCTGTCCGGGGGAGTCACGGAACCGGCGGACCTTGGCTACCTCACCCGCGTCAACCTGAAGCGCGGTGCCCAGGTGATCAAGACCCGGGCCAACCCCCGGGCGGGCCTGCCGGAACAGGACCCCCGCGAACTCGTCTACAACTACGAACAGCTCTCTGCCGTGGTCAAGGCCGCAGGCAAAGCGGGCGTGCTGTGCCACGCGTACAGCGCAGAGGGGATAGACGGCGCAGTCCGGGCCGGTGTGCGCAGCATCGAGCACGGCGTCTTCGTCAGCGAAGAGACTATCCACCGCATGGCCAGCCGCGGCACGTACTTCACACCCACAACGGACGCCATCACGAGCATGGCACGCTCTTCCAACCCGCTCCTGGCTGCCCGTGGCAAGGAGTACACGCCCATCATCAAAGCCGCAGTCCGGGCAGCCCATGAAGCCGGTGTGACGGTAGTGGCGGGAACGGACTCCTTCGGATCCGACGTGACCCCGATCGGCACAGAAGTGCGTCTGCTTGCTGAGGCCGGCCTGTCGCCGCTGGATGCGCTGAGGGCCGCAACCGTCAATGCCGCCGCCCTGCTCGGCTGGGGCGAGACAGCCGGACGCCTGGTGCGCGGTTCCTTTGCAGACGCGGTCATCGTCAACTCCGATCCCTTGAACAGCGCCTCGGCCCTGGAAGAGATCGGCGCCGTGGTGGCGCAGGGAGTCCTTGTACGGAATGACCTGTGA	MCLHDHTPAAPPAAALPRRGVLAGAAALAGISAASLAAQLGGAPTARAEDNASIPGHPERPASPAPMLIEGGTIVDPKTGDALADGVLVLEGGKVTAVGSRKETRRAVAALGGRAHIVNAAGRWVLPGLIDVHVHANALSDARAILQGGATSVRSGSSSFYQDVALAALPAWAAGASPRVSPAGLFISPELGDSLLADPDLAPLASLSGGVTEPADLGYLTRVNLKRGAQVIKTRANPRAGLPEQDPRELVYNYEQLSAVVKAAGKAGVLCHAYSAEGIDGAVRAGVRSIEHGVFVSEETIHRMASRGTYFTPTTDAITSMARSSNPLLAARGKEYTPIIKAAVRAAHEAGVTVVAGTDSFGSDVTPIGTEVRLLAEAGLSPLDALRAATVNAAALLGWGETAGRLVRGSFADAVIVNSDPLNSASALEEIGAVVAQGVLVRNDL				NA	NA	NA	NA	NA
D1-17_00607	987		COG2423	Delta(1)-pyrroline-2-carboxylate reductase	ATGACCCTGATTCTTAATGCCTCCGAGCTGCAGTCCCTGGCCGATATGCCCGCGACCATTGCCGCCGTCGAACTCGCCTTTGCCGGCCTCAGCCGGGGCACGGCTGTTCAACCGGCGCCGGATTCCCTCCTCCTGCCGTCCTCGGATGCGAGGTTCCTGCCGATGGCGGCACTGTCCGGCGCGGAGGAGCTGGCGTCCGTGAAGCTGCTGGCGGACATTCCGGCGAACCGGGAATCGAACCTGCCCACGCAACGGTCCACGATCATGCTCGTCTCCCAGCTGACCGGCGAAACCCTGGCGATCCTGGACGGCAAAGTTCCAACTCGGGTCCGCACTGCCGCCGCCAGCGCCGTAGCCACGAAGCTCCTCGCGAGGCCGGCCAGCACCACCCTGGGGCTGGTGGGCGCCGGCGCCCTGGCCGTGGCACACGTGGAAGCCATGCTGGCCGTCCTTCCAATCGAAAACGTGGTGGTGTGGTCCCGTTCCAAGGACACGGTAACGGCATTCTGCGGTGAGATCTCCCATCACGGCCTCAATATCAGGCGGGCGTCCAGCGTGCGGGAAGTCGTAGAGGCAGCGGACGTGCTGTGCACCCTCACCCCGGCCGTTGAGCCTCTGGTCAAGGGCGAGTGGTTCAGGCCGGGACTGCATGTAAACGCCGTCGGATCCCGTCCCCGCTCCGATCACCGGGAGATTGACTCGGAGGGGATGGTGCGGGCGAGGGTCTTCGTGGACAGCCTGGCCACGGCCAGAGCCAAGTCCGGCGGGCTGATCATCCCGGTCGCCGAAGGAGTGATGAGCTTTGAGGACGTGGAAGCCGAACTTGGTGACCTGGCTGCGGGGATAAGAGCAGGGCGCCTTGGTGATGACGAAGTAACCTTGTTCAATTCGGTTGGTATCGGTCTGCAGGATCTTGCCATCGGGCGGCTTCTGTACGACGCTGCCCTCGATCAGGGGCTCGGCATCCACGTGGAGCTGAATAACTGA	MTLILNASELQSLADMPATIAAVELAFAGLSRGTAVQPAPDSLLLPSSDARFLPMAALSGAEELASVKLLADIPANRESNLPTQRSTIMLVSQLTGETLAILDGKVPTRVRTAAASAVATKLLARPASTTLGLVGAGALAVAHVEAMLAVLPIENVVVWSRSKDTVTAFCGEISHHGLNIRRASSVREVVEAADVLCTLTPAVEPLVKGEWFRPGLHVNAVGSRPRSDHREIDSEGMVRARVFVDSLATARAKSGGLIIPVAEGVMSFEDVEAELGDLAAGIRAGRLGDDEVTLFNSVGIGLQDLAIGRLLYDAALDQGLGIHVELNN				NA	NA	NA	NA	NA
D1-17_00608	669			hypothetical protein	ATGACAGTCCAGGCGGAATCTCCCGCGTCGTCGGCGGATACTGCACGGGAACGGATCCGGGAACTGATCATCTCCGGTGACTTCGCGCCAGGGTCCCGGCTCAGGGAACGCGACCTGTCCCAAACGCTGGCTGTCTCCCGTGTCCCCGTCCGGGAAGCCCTCCAGCAACTCGAGGCCGAAGGCTTCATTGACACCTCCCCCCGGCGTGGTGCCACCGTCAAGCAGATCACGTTGCGCGACGTTAATGAACTCTTCGATGTGCGGCTCAGCCTGGAAGTCCTCGCCGCGCGCCTCGCTGCCCAAGCAGCGGCAAGAGGGGAGCCGTCATCGCGGCTGCAGCAGATGATGGACCAGGCGGAAGAAGCAACCCTGCGCCACGACCACGCTCAGATCCCGCTCATCAATACAGCCCTGCATGCGGAGATCGTGGCGATGGGAGGCAACACACTGTTGGAGTACTCCATGAAGCCTCTGCTGGGCAGGATGCAGTGGCTCTTCACGCTGACCGGGCACCGCGACCCTCAGGTCCAGTGCGCCGAGCACCTGAGCTTGTGCCGGGCCATTTATGACGGCAAGGCGGAGTTGGCGGCGGCGCTGGCTTTCGCGCATGTGGAGCTGGGCCGTGAACCGTCGCTCCAGGGACTGGCCGGGCGCCTGCCTGAACGCTGA	MTVQAESPASSADTARERIRELIISGDFAPGSRLRERDLSQTLAVSRVPVREALQQLEAEGFIDTSPRRGATVKQITLRDVNELFDVRLSLEVLAARLAAQAAARGEPSSRLQQMMDQAEEATLRHDHAQIPLINTALHAEIVAMGGNTLLEYSMKPLLGRMQWLFTLTGHRDPQVQCAEHLSLCRAIYDGKAELAAALAFAHVELGREPSLQGLAGRLPER				NA	NA	NA	NA	NA
D1-17_00609	891			hypothetical protein	GTGAACCGTCGCTCCAGGGACTGGCCGGGCGCCTGCCTGAACGCTGAACCCACGGTCAGAGAAGCGGCCTTTCCACGCGCCGTTGTGGCCACTGCTCAACTGCGCCACCATGAAGATATGAGCGCGGAAACACCCAAGGCGGAGCAACTAAGCCTTCCCCAGGCGTTCCTCCTTCTGGCGACGAACGACAAGGACGGCGCGCCCGAACTGCCTGCCTACGTACTCAGGACCACTCTGGCAGGGGCGATACTTGCTGAGTTGGAGCTGCTTGGCGCCATCACCCTGGAGGGCAAGTACGTCAAGGTAACCGGCACAGCACCGGAAACGGGGTTCCAGCGCGAGCTGGAACTGATCCGGGATAAACCACGCCCCCACAAACCCAAGCGGTGGGTCTCGATGCTGGAGGGACGCGGCGAGGTGCAGCGTGTGTACGAACGGATGGCTTCGCTGGGCATCGTGGAACATGTCGGCGAAAAGCACCTCGGACTATTCAGGTCTGCGCGCTATCCGGAGAAAGACCATGGGCCGGAAGCGGCACTGCTGAAAAGTATCGAAGCAGTGCTTAGCCCTGCACCTCCCGCGACGGCGCCTCCCGAGACAACCCAGTCCGACACACTCCAGTCCAAGACCGCACCGTCCAAGACCACACCGTCCGATACCGCTCAGCCGGATGCTGCTTCGTCCGGTGCGGCTTCGTCCGGTGCTGCGGCCCCCGACGCCAGGACCGTAGCACTGATCGCCCTGCTGCAGGCGGCAGAACTGCTCGGACGTCTTTTCCCGGAGGCAGATCTCAGCAAGGCGCGCGAACTGGCCAGGGACTATTGGCCGTCCAGGGCTGTGGAGGACGAACTGCGCATGATCCGGATCACCTTGGCCGAGATGGCACCTTAA	MNRRSRDWPGACLNAEPTVREAAFPRAVVATAQLRHHEDMSAETPKAEQLSLPQAFLLLATNDKDGAPELPAYVLRTTLAGAILAELELLGAITLEGKYVKVTGTAPETGFQRELELIRDKPRPHKPKRWVSMLEGRGEVQRVYERMASLGIVEHVGEKHLGLFRSARYPEKDHGPEAALLKSIEAVLSPAPPATAPPETTQSDTLQSKTAPSKTTPSDTAQPDAASSGAASSGAAAPDARTVALIALLQAAELLGRLFPEADLSKARELARDYWPSRAVEDELRMIRITLAEMAP				NA	NA	NA	NA	NA
D1-17_00610	1422			6-hydroxy-D-nicotine oxidase	ATGACCAGAGTTCATCAAGGCGTACCGGGATACGAGATCCAACAGGCACTGCAGGACTTGCGAGCGCGGTTGTCCGGGTCGCTGATCGAACCGCAGGATCCGCTCTACGACGAAGCCCGCGCGATGTGGAACGGCATGATAGATGTCCGTCCTCTGGCGGTCGCCCGGGCAGGTGCTGTTTCGGATATCGATGTGGTGCTGGACGTCGCACGGCGCAGCGATCTGGCGCTGGCCGTCCGTGGCGGAGGGCACAACATCGCCGGGCACGGCTCGGTTGAGGGCGGCCTCGTTCTGGATCTCGGACCTCTAAAAGGTGTCGGTGTCGACGCCCCGAACAGGCTCGTCAGAGTCGGGCCGGGGGCGACCCTGGCCGACGTCGACCGGGCGACCGCCGCCCACGGCCTGGCCGTACCTCTGGGAGTGATCAGTGCAACGGGGGTGGCCGGGCTTACTCTTGGTGGTGGCGTCGGCTGGCTGACGCGTTCGCACGGTTTGAGCCTGGACAACCTGGACTCTGTCGATGTCGTCACCGCCAGCGGGGAGCACCTGCATGCCAGCGGGCAGGAGAATCCGGAGTTGTTTTGGGGGCTGCGCGGCGGAGGCGGGAATTTCGGAGTTGCGTCCTCCTTCACCTTCCGTGCCGTCCCGCTTCCGCTGACACCCCTGGGCGGGAATCTCTTTTACCGGCCCGAGCACTGGAGGGACTCGCTTCTCGCGTTCTCTGCATGGACCCGGGACTTGCCTGATGAGATGAACCCGATCGTCTCGTTCCTGGTACTCCCGCCCGAGTTCGGAATGGGAGACGAGCCCTGGATGATTATCGGATGCGCTTGGGTTGCCGAAGACCAGCAGGCCGGCCTCAACCTCCTTGAGGAACTGCGGGCCGCGGCTCCTCCAGACGAACAGGAGGTTGGCCCCACTTCCTGGCCGGATTGGCAGAGTGCCATGGATGCGGTGTTCCCTAAGGGCTCACGCGGCTACTGGAAGAACGTTTCGTTCTCCCGCCTGGACGAGGAGGTCGTTGACGTGCTGGTTGGATTTGCTTCCGAGGTCTCATGGTACGGAACCGGGATAGACATCCACCATCTGGAAGGCTCGTTTGGACGAGTACCGGACGAGGCGACAGCCTTCCCGAACAGGTCTGCGCGCTACTGGCTCAACGTCTACGGGTTCTGGCAGGACCCATCCGAGGACGAACGGCTAACAGCCTTCGCCCGCAAGGCATATGCGCTCATGCGCCCGTTCTCCGAGCACGGCGAATACGTTAACTTCCTGGGGGCCGAACTCGGACATCAGGACTCTGACGCCGCGCGCCAGGCCTACGGAAGGGAAAAATACCAGCGCCTCGCCGCGCTCAAGGACCGCTACGACCCCCGGAACCTCTTCCGCCATAACCACAACATACCGCCCACGCCCGTCTAG	MTRVHQGVPGYEIQQALQDLRARLSGSLIEPQDPLYDEARAMWNGMIDVRPLAVARAGAVSDIDVVLDVARRSDLALAVRGGGHNIAGHGSVEGGLVLDLGPLKGVGVDAPNRLVRVGPGATLADVDRATAAHGLAVPLGVISATGVAGLTLGGGVGWLTRSHGLSLDNLDSVDVVTASGEHLHASGQENPELFWGLRGGGGNFGVASSFTFRAVPLPLTPLGGNLFYRPEHWRDSLLAFSAWTRDLPDEMNPIVSFLVLPPEFGMGDEPWMIIGCAWVAEDQQAGLNLLEELRAAAPPDEQEVGPTSWPDWQSAMDAVFPKGSRGYWKNVSFSRLDEEVVDVLVGFASEVSWYGTGIDIHHLEGSFGRVPDEATAFPNRSARYWLNVYGFWQDPSEDERLTAFARKAYALMRPFSEHGEYVNFLGAELGHQDSDAARQAYGREKYQRLAALKDRYDPRNLFRHNHNIPPTPV				NA	NA	NA	NA	NA
D1-17_00611	951			hypothetical protein	ATGACGTTTTCCTTCACCGCAACCAGGAAGGGCACTCGCGACTGGGGCCACCCTGACACCGCCAAGCGCCGTAGAATCCGGTTCATGACTCCCCAGCCCGGCACCACCGCACGAAGCACCGCACGAACCACCCACGCCGTCTTCCTGGACGTGGACGGTACCTACGCAGACTACGGTGTGGTTCCTGCTGGTCATGTGCGGGCTGTCCGTGCGGCGCGGCAGGCCGGGCACAAGGTGTTCCTCTGCACGGGGCGGCCCGTGTCGATGCTCTCCGCGCACATCCTCGGTGCGGGATTTGACGGGCTCGTGGCGAGTGCCGGGGCATACGTCGAGGTGGCGGGCGAAGTGCTGCTGGACCGGCGGTTTCCCACCGACCTCGCCTCCAGCACGGTGGCCGCGCTCGACCAGCATGACGCCGTCTACGTCCTTGAAGCACAGGAATGCCTGCACGTGCCGCCGGCGGCTGTGGCGCGACTACGGCAGATCATCGAGGGACACTTCCGGCGCGGACCGGACGGCCACGGCACCGGATCCTCGGCCATTCTTGACTCGATACGGCCCATCACAAACCCCAAAGCCGTGTCCTTCGCCAAGGTCTCGGTCTTTGACGCCGCAGTCCCCATGGAGCGCCTTGCCGCGCAAATCGGCGACGCGATCGCCGTCGTCGAAAATTCCATCGCCGACGAGGGCCGGCACGCCGGTGAGCTGTACCAGCGCGGCATCAGCAAAGCTGATGGTGTCGCCGCCGTCGCCGCCCACCTAGGCATCAAGCGCGGCCAGACCATCGCCATCGGCGACGGGCAGAATGACCTCGAGATGATCGCTTATGCCGGCATGGGAATCGCCATCGAAGGGTCCTCCCCCGAGCTCCTGGCGCTCGCGGACCGGACCGCTGCGCCGCCGCAGCGTGAAGGCCTCGTTGCTGCCTTCGCCGAGCTCGGACTCTGCTGA	MTFSFTATRKGTRDWGHPDTAKRRRIRFMTPQPGTTARSTARTTHAVFLDVDGTYADYGVVPAGHVRAVRAARQAGHKVFLCTGRPVSMLSAHILGAGFDGLVASAGAYVEVAGEVLLDRRFPTDLASSTVAALDQHDAVYVLEAQECLHVPPAAVARLRQIIEGHFRRGPDGHGTGSSAILDSIRPITNPKAVSFAKVSVFDAAVPMERLAAQIGDAIAVVENSIADEGRHAGELYQRGISKADGVAAVAAHLGIKRGQTIAIGDGQNDLEMIAYAGMGIAIEGSSPELLALADRTAAPPQREGLVAAFAELGLC				NA	NA	NA	NA	NA
D1-17_00612	2538	uvrA_1	COG0178	UvrABC system protein A	ATGCCCCCGCCCGCTCTTGCCTCCGATGACTCCACAGACGGCTTTGTCCGGGTCCGCGGCGCCCGCGAAAACAACCTGCGCAACGTGGATGTGGCCGTTCCCCGCGACGCGATCGTCGCCTTCACCGGCGTCTCGGGCTCGGGCAAGTCCTCACTGGCATTCGGGACCATTTACGCCGAAGCCCAGCGCCGGTACCTGGAATCCGTGGCGCCCTACGCCCGCCGCCTCATCCAGCAGGGCCACAATCCCAAGGTGGAAATGATCACTGGGCTGCCTCCCGCCGTCGCGCTTCAACAGCGCCGCGGCACGCCCAGCAGCCGGTCCACGGTGGGAACGGTGACCACGCTGTCCAACTCCCTCCGCATGCTTTTCTCACGCTCAGGCAGCTATCCCGCCGGCGCCAGCCCGCTGGACTCGGACGCTTTCTCGCCCAACACAGCCGCCGGGGCTTGTCCCGAGTGCCACGGCCTCGGTGTTTCGCACACGGTGAGCGAAGCCTCCATGGTCCCCGATCCTTCCCTGAGCGTCCGGGAAGGAGCCATCGCCGCCTGGCCGACTGCATGGCAGGGCAAGAACCTGCGCGACATCCTCAGCCACCTGGGCTACGACGTCGACACGCCGTGGCGGAAGCTGCCCCGGAAGCACCGCGACTGGATCCTATTCACCGAGGAACAGCCAGTAGTGGAGATCATTCCTGAGCGCGACCGCGTGGCCAAGCCGTACAAGGGCAGGTTCTGGAGTGCGAAGAGCTACGTGCTGCACACCTTGGCAGATTCCAAGAGCAACACCATGCGTGAGCGCGTCCTCCGGTTCATGGAAACCGGCCCCTGCCGGCAATGCGCAGGCAGCGGACTCATGCCCGATGCTCTCGCCGTGACCTTTGCCGGCAGGACCATCGCCGAGCTCAACGCGGTGCCCCTTGCCGAACTGGCGGACATTATCCGTCCCACGACGGAGTTGCAGGACGCCGGCACCGCCTCACGTAGGCAGTCCTCGGGTGAGAGCAACGAGGTGGCTGTCACGATCACACGCGACCTCCTTCAGCGGGTCACGGTCCTGCTGGAGCTGGGGCTCGGCTATCTGGCCCTCGGCAGGTCGACTCCCACCCTTTCCCCGGGGGAGATGCAGCGCCTCCGGATTGCCACCCAGCTCCGGTCGGGGCTGTTCGGAGTGGTGTATGTGCTGGACGAGCCTTCCGCCGGATTGCACCCAGCCGACGCCGAGCCCCTCCTGGCGGTGCTGGAGCAGCTCAAGTCTTCCGGCAACTCCGTGTTCGTGGTGGAGCACAACATGGACGTCGTCCGCAGCGCCGACTGGCTCGTGGACGTGGGACCGAGGGCAGGGGAGGGCGGCGGTGAAGTGCTGTACAGCGGCCCCGTTGCCGGCCTTGCCGCCATCGAAGCCTCCGTTACCCGCCCGTTCCTGGTTCCCGACGGCACCAGCACCGAGCAGGAAAGCCGCAGCAGTGACCGGGAAAGTCGCCGTCGGGAACCAGTGGGCTGGCTGGAACTGGAGGACATCACCCGCCACAACCTCCGGAGCCTCGTCGCCTCCTTCCCGCTGCAGGTCCTAACGGCGGTCACCGGAGTCTCCGGTTCGGGCAAGTCGACGCTTGTCAGCCACGTGCTGGCCGAGGTGGTTGGAGCGGAACTGCACGGTGACGCGGGCGGGGCAGACATCGACGAGGACCAGCCTGTGGACGCTGATGACCCCAGCTCACCGCTGAATATAGGAGCCGTTGCCGGCCTGCACCACGTGGACCGGCTTGTGAAAGTGGACCAGAAACCCATCGGCCGCACTCCCCGGTCCAATCTGGCCACCTATACCGGGCTTTTCGATGCAGTGCGCAAGGAGTTCGCAGCCACGGAGGAAGCGCGGGAGCGGGCATACGGGGCGGGACGCTTTTCCTTCAACGTGGCCGGCGGACGCTGCGACACCTGCCAGGGCGAGGGATTCGTGGCTGTGGAACTGCTGTTCCTGCCGGGCAGCTACGGGCCCTGTCCGGAATGCGGCGGCTCACGCTACAATCCCGAAACGCTTGACGTCACCTACCGGGGCAAGAACGTGGCCGACGTCCTGGGCATGACCGTAAATGCAGCCGCTGACTTCCTGTCAGGCGTCCCCGCGGCCGCCCGCAGCCTCCAGACGCTGCGGGACGTCGGACTCGGCTACCTGCGGCTGGGGCAGCCTGCCACCGAACTGTCCGGCGGAGAGGCCCAGCGCATCAAACTCGCCACGGAACTGCAGCGCGCACGCCGTGGCCACACGCTGTACCTGCTGGACGAGCCCACCACGGGACTGCACCCGGCGGACGTCCAACTCCTGATGGTGCAGCTGCACCGGCTGGTCGACGCCGGCAACACCGTCATTGTGGTTGAACACGACATGGATGTGGTGGCTGAGGCGGACTGGGTGATCGATCTGGGACCTGGCGGTGGCGACGCGGGCGGACAGATCATCGCGGCCGGTACCCCGGACATGGTCGCGGGATCCAAGAAGAGCCGGACGGCGCCGTATCTCGCCGCTGCATGCCGCTGA	MPPPALASDDSTDGFVRVRGARENNLRNVDVAVPRDAIVAFTGVSGSGKSSLAFGTIYAEAQRRYLESVAPYARRLIQQGHNPKVEMITGLPPAVALQQRRGTPSSRSTVGTVTTLSNSLRMLFSRSGSYPAGASPLDSDAFSPNTAAGACPECHGLGVSHTVSEASMVPDPSLSVREGAIAAWPTAWQGKNLRDILSHLGYDVDTPWRKLPRKHRDWILFTEEQPVVEIIPERDRVAKPYKGRFWSAKSYVLHTLADSKSNTMRERVLRFMETGPCRQCAGSGLMPDALAVTFAGRTIAELNAVPLAELADIIRPTTELQDAGTASRRQSSGESNEVAVTITRDLLQRVTVLLELGLGYLALGRSTPTLSPGEMQRLRIATQLRSGLFGVVYVLDEPSAGLHPADAEPLLAVLEQLKSSGNSVFVVEHNMDVVRSADWLVDVGPRAGEGGGEVLYSGPVAGLAAIEASVTRPFLVPDGTSTEQESRSSDRESRRREPVGWLELEDITRHNLRSLVASFPLQVLTAVTGVSGSGKSTLVSHVLAEVVGAELHGDAGGADIDEDQPVDADDPSSPLNIGAVAGLHHVDRLVKVDQKPIGRTPRSNLATYTGLFDAVRKEFAATEEARERAYGAGRFSFNVAGGRCDTCQGEGFVAVELLFLPGSYGPCPECGGSRYNPETLDVTYRGKNVADVLGMTVNAAADFLSGVPAAARSLQTLRDVGLGYLRLGQPATELSGGEAQRIKLATELQRARRGHTLYLLDEPTTGLHPADVQLLMVQLHRLVDAGNTVIVVEHDMDVVAEADWVIDLGPGGGDAGGQIIAAGTPDMVAGSKKSRTAPYLAAACR	PGPT0014915_6051	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
D1-17_00613	678			hypothetical protein	GTGAAACACAATCCTTTGGTGACCAACGGCTTGAGCATCGCGTTCGGGCTGCTGTTCCTGTTCTCCCTGGCCGGCCAAGCATTCTCCGGAGTGGCGTACTTCAATGAGGAGCAGATCTCTTCCGGCCTCGAGGAAATCAGCTTCTGGCAATATGTCACCTCTTCCAGTTTCGCCGTCGACGTTTCGGAGAACTGGCAGTCTGAGTATCTGCAGTTTCTGCTGTTCATCGTGCTGACCGTATGGCTGGTCCAAAAGGGTTCGCCTGAAGGCAAAGAAATTGAAAAACGCGGAGTGCAGTCTGACGAGGAGGAATTCGTCGGCCAGTTTGCAAAGCAAGAGTCACCTGCATGGGCGAAAGCTGGCGGATTCAGAACCTTGCTTTTTTCCAATTCACTGGGCCTGGTCATGGGTGCCGTCTTCGTGCTCTCGTGGCTGGTCCAGTCCGTCACCGGCTACAGCGCGTATGCCGAACAACAGCTCGCCAACCTACAGGATCCCGGAACGTGGGGAGAGTACGTGGTGTCGCCCGAATTCTGGAACCGCACGCTTCAGAACTGGCAGTCCGAATTCCTGGCGGTCTGGTCGATGGTGATCCTTTCGGTGTATCTGCGCCAGCGCAGTTCGCCTGAATCGAAACCGGTCGGTGAAGCGCACGACGCCACCGGGGCAAGCAACTGA	MKHNPLVTNGLSIAFGLLFLFSLAGQAFSGVAYFNEEQISSGLEEISFWQYVTSSSFAVDVSENWQSEYLQFLLFIVLTVWLVQKGSPEGKEIEKRGVQSDEEEFVGQFAKQESPAWAKAGGFRTLLFSNSLGLVMGAVFVLSWLVQSVTGYSAYAEQQLANLQDPGTWGEYVVSPEFWNRTLQNWQSEFLAVWSMVILSVYLRQRSSPESKPVGEAHDATGASN				NA	NA	NA	NA	NA
D1-17_00614	456			hypothetical protein	ATGACACTTAGTAAGGATGCTTGGCTTTTGGCACGCCAGCTGCCGAAGGCTGGAATCACGCTTGGCACGACCGTGGTGGCCGGCGTCCTGCTGGCAACGGTTTCAGGATGCGCTGGCTCAAATCCGGGAACATCCGAAGCTGCCAGTACTGCTTTGGATTTCCATCGTGCCCTGGATTCCGGTGATTACCCCCGCGCCTGTGGACTACTGATCCCGGCTGCTGTCGAAAAGCTGGAGACCGGCGCCCCAGGAACCTGCGCGGAAAAGCTGGAGCAACTCGATGTTCCGGTGGCCGCCTCCGTCCAAGACAGCGCCTCCTATGGCAGGAACGCCCAGGTGGTCATGGACGGGGACACGCTGTTCCTGGCCCGTTCCGGCGAAGGGTGGAAGATCACGGCGGCTGGATGCACTGCACGGGGTGAACGGCCGTATGACTGTGAAGTAGAGGGAGATTGA	MTLSKDAWLLARQLPKAGITLGTTVVAGVLLATVSGCAGSNPGTSEAASTALDFHRALDSGDYPRACGLLIPAAVEKLETGAPGTCAEKLEQLDVPVAASVQDSASYGRNAQVVMDGDTLFLARSGEGWKITAAGCTARGERPYDCEVEGD				NA	NA	NA	NA	NA
D1-17_00615	714			hypothetical protein	ATGGCCAAGGACGGCATAACGACTCCTGACCAGCTTCAGGACCTGCTGCTCGAAAGTCCCGGTTTCACTGAGTTTCTCTTAAGCCTGACCACTATTTCAGCTTCCCTGCTGGCTGTGGGTCAGCAGCTCTCCTGCGCCATCACGGTTGAGCGGGATGGCGGCCTCTCGACTGTGGCCAGCAGCGACGACGAAGCCCGGCGGCTCGATGAAAAGCAATACGAGTTCAACGACGGGCCGTGCCTGACGGCGCTGCGCGAGCAGCACCCCGTCCTGGTTGAGGACCTCTCGGCCGACGACCGATGGCAGGGCTATCTAAGGGAAATATCGGGGGAAGGAATCCGGTCCGTGTTGGCCATGCCGATACCGACAGATCCCTCAGTCCGTGCTGCGTTGAACTGCTACGCACGGACCACAGCGGCTTTTGGTCCGGACATGATCACCGCTGCGAAAGACCATGCCGGATCGATCTCCAGGATCCTGAGACTGGCCCTTCGCCTGTACGCTCCGAATGACTACCCGGAGCACCTGCGGGCAGCACTGAAATCACGGGCTGTGGTGGACGCGGCAGTCTCCCTGATCATGCTTCAGAGCCACAATGGCCGGGACAACGCCGTGGAGCTCCTTCACCGTGCTGCAGAAGACAGCAATAGGAAAATCCAGGACATTGCCAACGACATTATCCAGGGTGCTGATCTTCCCTCAGCGAGGGAATAG	MAKDGITTPDQLQDLLLESPGFTEFLLSLTTISASLLAVGQQLSCAITVERDGGLSTVASSDDEARRLDEKQYEFNDGPCLTALREQHPVLVEDLSADDRWQGYLREISGEGIRSVLAMPIPTDPSVRAALNCYARTTAAFGPDMITAAKDHAGSISRILRLALRLYAPNDYPEHLRAALKSRAVVDAAVSLIMLQSHNGRDNAVELLHRAAEDSNRKIQDIANDIIQGADLPSARE				NA	NA	NA	NA	NA
D1-17_00616	327			hypothetical protein	ATGGGCTTCGACCCTAACGAACCGGAACAGCGGCGCCGGCTACGGGCAGCGTTGAAGGCGGCCGACATCACCGTCGGGGAACTGTGGCTCAAGTATTTCAGCGTCGCAGGAGACGCGGGCGAATATGAAGTAGAGGCCTATCTTCAGGGTCTCCTCTCCCTGCCGCCCCTTCAGCGGGACCTGCTGGCCCTGGCCGCCAATGAACTGATCGATGAACTCCCCCGGCCGCATGCGCCATACTCGGACGATTTGACGACCAGGTCCGACATCCCAGAAACCGACAATGAACCAAGCAAAGCGGACCCTCGCCTGGACGGCGGCGAATAG	MGFDPNEPEQRRRLRAALKAADITVGELWLKYFSVAGDAGEYEVEAYLQGLLSLPPLQRDLLALAANELIDELPRPHAPYSDDLTTRSDIPETDNEPSKADPRLDGGE				NA	NA	NA	NA	NA
D1-17_00617	720			hypothetical protein	ATGGCGCAGCAACTTCCCCTTGACGAACTGACCACCGCCATTGCCCGCATCCAGGGCCTCCTGCTGACTCAGGAAAAAGTCGATGACGCGGTGCACCTGTTGGCCCAGGCAATTAAGGACGCCGTCCCCGGAACCATCGGTGCTGGGGTATCGCTGCTGGACTCCCGGGGGCGCAGGACGAGCAGCGGTTACACCGACTCGCTGGTGAAGCAGGCCGATGCAGCGCAGTACGAAACCGGGCAAGGCCCTTGCCTTACGGCTTGGGCAGCGGAGGAGTCCGTCCTGATTGACGATCTTGCCGACGACACGCGGTGGCCAGACTGGCGCAGAGCCGTGGCGGAGCTGCCCATTGGCTCGGTGGTCAGCGCTCCTTTGGTGGCTGCAAAGGAATGTGTGGGCGCGCTGAAACTGTACGCGGCCCTGCCCCACACGTATGACAGCTCGAGTGCGAGGCTGCTGGAACGGTTCGCCAGCCCTGCGGCAACCTTGCTCTCCCACATTCAAACGAGCGAAGCGCCGCTCAGGATGAGTGAAAGGCTCCAGGCGTCCCTCTACAGCCGGGACCTGGTGAACCGCGCTTGCGGCATTCTCATGGAACGTCACGGGCTCAGCTATCAGGCGGCGTTGCAGGACCTGATGCGGCAGGCACTTGACAGGAAGACGACGCTGCGCGAGGCCAGTGAAAATACGATCGGCGGGATGCCGGCTGCCGGGAACTGA	MAQQLPLDELTTAIARIQGLLLTQEKVDDAVHLLAQAIKDAVPGTIGAGVSLLDSRGRRTSSGYTDSLVKQADAAQYETGQGPCLTAWAAEESVLIDDLADDTRWPDWRRAVAELPIGSVVSAPLVAAKECVGALKLYAALPHTYDSSSARLLERFASPAATLLSHIQTSEAPLRMSERLQASLYSRDLVNRACGILMERHGLSYQAALQDLMRQALDRKTTLREASENTIGGMPAAGN				NA	NA	NA	NA	NA
D1-17_00618	702			hypothetical protein	GTGGAACTGCAGGACATCCTGATCGGGGCCGAGTCAGTCGACAGTTTCTTGGCAGGCCTGAGTAAATTTGCCGCCTCCACCCTTAGCCAGTCCCTCGGAACAGACATCGAATGTGCTGTAACGCTGAAGCGGCGACGGGTGACCGCTACCGTCGCAGGAAGCAGCCCCCGGGCAGTCCAGCTGGATCACATCGAGCAGAGCGTGGGTGACGGTCCTTGCATCCGCGCACTATCGACCATGACACCTCAGCATATCGAGGACGTTGCCAGCGACACGCGCTGGCTTAATTACCAGCGGCACCTGGCGGAGGTCGGCATTTACAGCACCCTTGGTGTTCCCTTGGAGATTGGAAACGACGCCAGCGCGGCGTTCAACTTCTTTGCGTCCAAGCCACGGGCTTTCACCGCCGAGGCTTACGACAAGGCAGTAGGGTTCGGGGACACCGCCGCCCGAACGCTGCATTTGGCAGTCCGCATCGGAACAGCACAGAAAAGGGCCCAAGACCTGGAAAACGCCATGCAGAGCCGGACATCCATAGATCTGGCCTGCGGTGTCATCATGGCCCAGAACAGGTGCTCCCAGGACGATGCGATGGCCATTCTCGCCAAAGTCTCCAGCAACCGCAACCAGAAACTCCGCGACGTGGCCGCCGAACTGCTGCTGAAAATCTCAGGCAGCGGAGTCCACACGCACTTCGAATAG	MELQDILIGAESVDSFLAGLSKFAASTLSQSLGTDIECAVTLKRRRVTATVAGSSPRAVQLDHIEQSVGDGPCIRALSTMTPQHIEDVASDTRWLNYQRHLAEVGIYSTLGVPLEIGNDASAAFNFFASKPRAFTAEAYDKAVGFGDTAARTLHLAVRIGTAQKRAQDLENAMQSRTSIDLACGVIMAQNRCSQDDAMAILAKVSSNRNQKLRDVAAELLLKISGSGVHTHFE				NA	NA	NA	NA	NA
D1-17_00619	789	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACAGCATCAGGGCTGCTCAAGGACACCGTGGTACTCATCAGCGGCGGAACCCAGGGCCTTGGCGCCGCCATTGCAAGGCAGGCAGCGGCCGAGGGAGCCGCCGGCATCGCCATCACCGGACGCTCCGCGGAGGCCGGGGCGAAAATCGCCGAAGACCTCACCGGACTCGGCGTGCCTGCCGTTTTCCTGCAGGCAGACCTCGCGGACACGCAGCAGGCAAGCAACACGGTCATCAGAGCCATCGACCACTTCGGACGCCTCGATGCTGTGGTCAATGCCGCCGGCCTGACAACCCGGGGCAGCATGACCGACACAACCCCCGAACTGTTCGACCAACATATTACCGTCAACCTCAAAGCGCCGTTCTTCATCATGTCCGAGGCCATCAAGCACTTCAAGGAACATGAAGCTCCGGGGAACATCGTCAACATCATCACCATGTCCTCACACGGAGGCCAGCCCTACCTGGCGCCATACGTCGCGTCCAAAGCCGGGCTCGCCGGGCTCACCCGGAACGCAGCCCACGCCCACCGCTGGGACAGGATCAGAATCAACGGCATCAACATCGGCTGGACAGCAACGGAGGGCGAAGACCTCATTCAGCGCCGGTTCCACGGCGCCGGCGATGACTGGCTCGAAAAAGCCAACGCCTCCGTCCCGATGGGCAAGCTCGGCCAGGTCGATGAGATCGCTGAGTTTGTGGTTTTCCTGCTCTCTGCCCGGAGCGGCGTAGTCACCGGTTCTATTATTGACTGGGACCAGAACGTGGTGGGCGGCTCGGGCTGA	MTASGLLKDTVVLISGGTQGLGAAIARQAAAEGAAGIAITGRSAEAGAKIAEDLTGLGVPAVFLQADLADTQQASNTVIRAIDHFGRLDAVVNAAGLTTRGSMTDTTPELFDQHITVNLKAPFFIMSEAIKHFKEHEAPGNIVNIITMSSHGGQPYLAPYVASKAGLAGLTRNAAHAHRWDRIRINGINIGWTATEGEDLIQRRFHGAGDDWLEKANASVPMGKLGQVDEIAEFVVFLLSARSGVVTGSIIDWDQNVVGGSG				NA	NA	NA	NA	NA
D1-17_00620	885	iolG_1	COG0673	Myo-inositol 2-dehydrogenase	GTGGCAGCCCAGTACGGGGCCCGCCCTACCCGCTCCACTGCCGAGGTCTTCGCCGACCCCTCACTGGACGCCGTCGTGATCTGTTCGCCGACCCCCACACACGTCGAGCTGATTGAAGCTGCCGCCGTCCGGGGCATCGCAGTGCTTTGTGAGAAACCGATCGATCTCGACATCGGGCGGGTACGGAGCTGCCGGGAGAATTTGGGCACAGCCGGCATCCCGCTCATGATGGGCTTCAACCGGCGGTTTGATCCCGCCTTCTCGGCGGTTCAGCAGCGTGTAGCCGCCGGAGAGATTGGACGGCTCGAGCATCTGTCCATTATCAGCCGGGACCCTGCGCCCGCCCCTGCAGCCTATATCGCCACGTCCGGAGGAATCTTCCGGGACATGACCATCCACGACCTGGACATGGCACGGTTCTTCATTCCCGACATTGTGGAGGTTACCGCGCATGGTGCGAACCTCTTTAGCGACTACATAGCCGAGGCTGGAGACTTCGACTCCGCCGTCGTGATCCTCCGTGGCCGGAACGGGGAACTCGCCAGCATCACCAACTCCCGGCACAGCGCCTACGGATACGACCAGAGGCTTGAGGCCTTCGGAAACGGGGGGATGCTGCGGGCTGACAACATTTCACCCACCACCGTTCGCAGTTTCGGTAGCCATGCTGTGGAGGCGGCGGATCCGTACCTGCCGTTCTTCCTGGAGCGCTACGCCGCCGCGTACCGCAGTGAGCTCGATCATTTTGTCCAGGCCGTCCACGCGGGCACCCCTTGTTCGCCTGGATTCGACGATGGCATGGCCGCGCTGATTCTGGCCGATGCAGCGGCGGAATCGGCGGCAACCGGCAGGACAGTCCCTATCGAAGGAGCATTGGAGACATGA	MAAQYGARPTRSTAEVFADPSLDAVVICSPTPTHVELIEAAAVRGIAVLCEKPIDLDIGRVRSCRENLGTAGIPLMMGFNRRFDPAFSAVQQRVAAGEIGRLEHLSIISRDPAPAPAAYIATSGGIFRDMTIHDLDMARFFIPDIVEVTAHGANLFSDYIAEAGDFDSAVVILRGRNGELASITNSRHSAYGYDQRLEAFGNGGMLRADNISPTTVRSFGSHAVEAADPYLPFFLERYAAAYRSELDHFVQAVHAGTPCSPGFDDGMAALILADAAAESAATGRTVPIEGALET				NA	NA	NA	NA	NA
D1-17_00621	1203			hypothetical protein	ATGACCACCACCGCATCGTCACACGCACCCGGAACCCACGCTCCACAGTGGTTCGGCCATGACAGCTGCCGGCTCGAGGATTTCGTTGCCGTCGTCGGCGAAAAGACGAAGCTGGAGGACTACGCGTACGCTGACGCCGTCGAGCAGAACGTGCTCATTTACGGCAAGCGCCTGCACAGCTATCTGGAGTCTCCCGATGAGCGCGCTGACGTTCAGGCTGAACTGATCCGTGCCTTGACGGCCGGGCCGGGCATCGTCGTTTTCAAGGGCGCCTTCGGCGACACCGCCGTCGTGGACCGCGCCACCGAGGCGTTCAACAGCATCATCGCCGAGCAGAGGGCTTCCGGCGCCGCCGCCGGAGACCACTTTGCCAAACCGGGCGCAAACGACCGAATCTGGGGCGCGCTGGACAAGCTGGCCCTGCGCGACCCGCAGGTGTTCGCCGATTACTATTCCAACGACGTCCTGGCCCTCATTGCCGAAGCCTGGCTGGGCCCCAACTACCAGGTCACGTCACAGGTCAACGTCGTGAATCCCGGCGGTGCGGCACAGACCGCCCACCGCGACTACCACCTTGGATTCATGTCCAGCGACCAGGCGGCCCGCTACCCCGCTCACATCCATCTGCTCTCCCCTGCGCTGACGCTGCAGGGTGCCGTCGCCCACTGCGACATGCCCGTGGAGTCCGGGCCCACCCTTTACCTGCCGCACTCCCACAAGTACGACGCCGGGTACCTCGCCTTCCACCGGCCGGAGTTTACCCGCTACTTCGAGGAGAACTACGTGCAACTGCCGCTTGAGAAGGGCGATGCTGCCTTCTTCAATCCCGCCCTTTTCCACGGCGCAGGCCACAACAAATCCACCGATATCCGCCGAATGGCAAACCTGCTGCAGGTCTCCTCCGCGTTCGGCCGCGCCATGGAATCCGTGGACCGCACGGCCATGTCCGTTGCCCTGTACCCGACGCTGCGCCAGCTCAAGACGGACGGCGCCAGTGATGAGTTCCTGCGCAACGTCATCGCCGCGTCCGCTGAAGGCTACGGCTTTCCGACGAACCTTGACCGCGACCAGCCGGTGGGAGGAATCGCCCCTGAGTCCCAGGCTGAGTTGGTCTGGCGGAGCCTGCAGGAAGACGCCGCACCTGATGCCGTGCTCCAGGACCTGGAGGCCGCCGCCCGGGGCCGTCTCACCGGTCGTCGGTAG	MTTTASSHAPGTHAPQWFGHDSCRLEDFVAVVGEKTKLEDYAYADAVEQNVLIYGKRLHSYLESPDERADVQAELIRALTAGPGIVVFKGAFGDTAVVDRATEAFNSIIAEQRASGAAAGDHFAKPGANDRIWGALDKLALRDPQVFADYYSNDVLALIAEAWLGPNYQVTSQVNVVNPGGAAQTAHRDYHLGFMSSDQAARYPAHIHLLSPALTLQGAVAHCDMPVESGPTLYLPHSHKYDAGYLAFHRPEFTRYFEENYVQLPLEKGDAAFFNPALFHGAGHNKSTDIRRMANLLQVSSAFGRAMESVDRTAMSVALYPTLRQLKTDGASDEFLRNVIAASAEGYGFPTNLDRDQPVGGIAPESQAELVWRSLQEDAAPDAVLQDLEAAARGRLTGRR				NA	NA	NA	NA	NA
D1-17_00622	1026			hypothetical protein	ATGGCGCACCCGTACTCGGTTAGGGAAATCGCCCGCCAGGCAGGGGTCAGTGACGCGACCGTGGACCGCGTCCTTCACAATCGTCCGGGCGTGCGGCAAAGCACCGCCGGCCAGGTGCGCCAGGCCATCAGGGATCTAGAGGCCCAGCGGCTCCAGCTGGAGCTGATCGGACGGCGGTTCATGGTGGACGTCGTTGCTGACGCCCCCGTCAGGTTCACCACCTCGGTGAAAGACGCACTGCAATCGGTGCTTCCGCTGCTGCGGCCTGCAGTGTTCAGGGCCAGGTTCCACCTCCACGAGCACTGGAACGCCGGGGAATGCGCAGCCGAACTGGACAGGATCGGCAAACGGGGTAGCCACGGCGTCATCCTCAAGGCGCCGGACGTGCCAGTGGTTAGAGCTGCTGTGAACCGGCTTGCAGGGGCCGGGATCCCGGTAGTCACTCTGGTCACGGACCTCCCCGCCAGCAGCAGGGTGGCCTATTTAGGCATGGACAACCGGTCCGCGGGGGCCACGGCGGCTTACCTGATCCACCAGTGGTTAGGGATGAGCCCGGGAGCGGTTGCCGTCACGGTGAGCAACGACTTCTTTCGGGGGGAGGAGGAACGGGAGATGGGGTTCCGTTCGGCCATGCGGGCCCTGGACCCCGGTCGGGCGGTCCTGTATCTGCCCGGCAGCGACGGACTGGATCGGACGACGCTACGGCTGATGGGCGAAGCCTTGGACGCCCATTCCGACCTCAACGCCGTCTACTCGATAGGCGGAGGTAACGCCGGCATCAGCGAAGCCTTCGAAGCGGCGGGCCGGAAGCCGCACGTGTTCATCGGCCACGACCTTGCCCCTGATAACATCGCCCTGCTGCGGTCAGGCACCATGTCGGCCCTGCTCCATCACGATCTCAAACAGGACATCCAACGCTGCTGCCGGATCATCATGCACGCCCACGGTGCCCTGCCTGGGGCCGACTCCGGCCACGCGTCCCAGATCGAGGTCATCACGCCCTTCAACATCCCGCACGGATTCTGA	MAHPYSVREIARQAGVSDATVDRVLHNRPGVRQSTAGQVRQAIRDLEAQRLQLELIGRRFMVDVVADAPVRFTTSVKDALQSVLPLLRPAVFRARFHLHEHWNAGECAAELDRIGKRGSHGVILKAPDVPVVRAAVNRLAGAGIPVVTLVTDLPASSRVAYLGMDNRSAGATAAYLIHQWLGMSPGAVAVTVSNDFFRGEEEREMGFRSAMRALDPGRAVLYLPGSDGLDRTTLRLMGEALDAHSDLNAVYSIGGGNAGISEAFEAAGRKPHVFIGHDLAPDNIALLRSGTMSALLHHDLKQDIQRCCRIIMHAHGALPGADSGHASQIEVITPFNIPHGF	PGPT0017992_7597	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_00623	381			hypothetical protein	ATGGCAATCACCGAAGTCATTCCGTACCTGCACTACGAAGGGGCGGACGCCGCGCTCGACTGGATGGAGAAGGTGCTCGGGTTCGGCCCCTCCACCCGCTGGCGCAACGCGGACGGCGTGACCGAGGAAGCGGAGATCATGGCCGGCCGCAGCCGGATCGCAGTCTCCGGGAGCCCCGCGGACCCGGGCAACGGCGGCGGGCTGTTGCTGATCGTGCACGTGGACGACGTCAACGCCAAGTACGCGAGCGTCACAGCTGCGACCGACGTGGACATCGAGCCGCCCGTCAACAAGCCATATGGGCCACGCACCTTCACGATCGTCGACCCGTGGGGCTACCAGTGGAACTTCTGGCAGGGAGAGGCGACGCCGCCTTCGTAA	MAITEVIPYLHYEGADAALDWMEKVLGFGPSTRWRNADGVTEEAEIMAGRSRIAVSGSPADPGNGGGLLLIVHVDDVNAKYASVTAATDVDIEPPVNKPYGPRTFTIVDPWGYQWNFWQGEATPPS				NA	NA	NA	NA	NA
D1-17_00624	1374			hypothetical protein	ATGAGTACCAGCACCAAAGCGGCGCGGATCGACAAGGCTGGTACGCGGCTGACGCTGCCCATCGCCGCGTTGGCGTTCGTCATTGCCGTCGCAGTCCAGCTGATTGGGCAGGCGAAAATTGATGTCGGCATCGGCTCAATCGTCATCTTCCCCATGGTCTGGGGCCTCATCCTCGGGCTCCTGGTTTCGGTCCAAAAGTTCAAGCCCCTGGGTCTGGATCTGCAACGGGTCGCAGCCGCCCTGGTCGGTGTGGCTGTACTGCTCCTGGTGGCCAGGCTGGTGTTCAACATCGGCCCGAGCCTCCCCACCCTCATCACGGCCGGGCCGGCACTGCTGTTACAGGAGGTGGGCCACTTGCTGGGCACGATTGCCCTGGCGCTCCCCCTGGCCGTGCTGCTCCGAATGGGCAAGGCGACGGTGGGGGCCACGTTCTCCCTTGACCGCGAGCCGTCCTTCGCCATGGTCTCGGAAAAGTACGGCCCCGACTCGGACCAGTACCGGGGCGTGCTGGCCATGTACGTTTTCGGAACCCTTTTCGGCGCCGTGTACATCACCCTGCTGACCTCTTTGGTGGCCAACTGGAAGATCTTCGATCCGCTGGCACTCGCCATGGGCGCGGGCGTGGGATCCGGCTCTATGATGGCGGCATCGTCAGCCAGCATCGTCGAGGCGTACCCGGGCGACCAGGAGGCCATCCTCGGCATGGCGGCAATCTCGAACCTGATCACCACGATCCTGGGCGTGTATGTCGGCATCTACCTCGCCCTGCCGCTGGCGGACCGCTTCTACAAGGCGCTGACCCGCAAGCAGAGCCGGGAGGCTGCCGCCGTGGCGGCCGGAGCGGCCAGCGAGCGCGGCCCTGCTGACATCGAGCGGGAGCAAGCCCAGGCGGAAGAAAACCGCCGCTTCCGCGAGCAGGTGGCCGAGTCGTCGGCTGCCATCCATCTCCCGCTGTGGCTGTCGCTGTCGGTTCTTACCGTCCTCGGCCTTGGCACTGCTACCGTGGCGGCGAAGGGATTCAATCCGTCGATCCTTGCCGGGTACGGCATCATGCTCGCACTCGTCCTGGTCAGCCTTGGCCTGGCGAAGGTCACCAGGAAAATTTCGGCCATCGTTTACGTCACCACCATCGGCGCCTACATCTCCAGCCCCTGGTTCTTCGCAGCCGAAGCACTGAACGCGGCCGTCAAGACTGTGGACTTCCTGTCCATCGCCACCGTGATGCTGACGCTCGCAGGCCTGTCGCTGGGCAAGGACATCCCGTTGCTGAAGAACATCGGGTGGAAGATCATCCCCGTCGGGCTGGTCGCCATCACGGCATCGTTCCTGCTGTCCACCATCATTGCGGAGTTCGCCCTGGGGCTCTGGCACTAG	MSTSTKAARIDKAGTRLTLPIAALAFVIAVAVQLIGQAKIDVGIGSIVIFPMVWGLILGLLVSVQKFKPLGLDLQRVAAALVGVAVLLLVARLVFNIGPSLPTLITAGPALLLQEVGHLLGTIALALPLAVLLRMGKATVGATFSLDREPSFAMVSEKYGPDSDQYRGVLAMYVFGTLFGAVYITLLTSLVANWKIFDPLALAMGAGVGSGSMMAASSASIVEAYPGDQEAILGMAAISNLITTILGVYVGIYLALPLADRFYKALTRKQSREAAAVAAGAASERGPADIEREQAQAEENRRFREQVAESSAAIHLPLWLSLSVLTVLGLGTATVAAKGFNPSILAGYGIMLALVLVSLGLAKVTRKISAIVYVTTIGAYISSPWFFAAEALNAAVKTVDFLSIATVMLTLAGLSLGKDIPLLKNIGWKIIPVGLVAITASFLLSTIIAEFALGLWH				NA	NA	NA	NA	NA
D1-17_00625	1227			N-acetyldiaminopimelate deacetylase	ATGGAACTGACAGAGACCCCATCCGCCACACCCGCTCTCCGCGCTGCCCTTGCCGAGGGAGTCGAGGACTGGAAACGGCGGGTCCATGCCGTAGCGCACGAAATCCACATGTACAAGGAGCTGGCGTTCGAAGAGGTCCGGTCGGCCGAGGCAATAGCTGCCCTGCTCGCCGACGGCGGCTTTGACGTTGAACGCGGCACTGCAGATCTGCCGACGGCGTTCACTGCCACCGCCGGCAGTGGAGAACTGACGGTCGCTCTCTGCGTGGAATACGATGCGCTCCCCGGCATCGGGCATGCCTGCGGTCACAACCTTATCGCCGGCGCCTCTGTAGCCGCCGCCCTTGCCCTGCAGCCGCATGTGGACGAGCTGGGTATCACGCTGAAGGCCATCGGAACGCCTGCCGAGGAACACGGTGGCGGCAAGGTGCTCATGCTGGAGCGCGGAGCGTTCGACGGCGTCAGCCTCGCCCTCATGGTCCATCCAGTCCAGGACGGGATCACCTACAACCCTGCAGGCACCAGCGCCCAGGCGGTGGGCCGTTATAAGGCGACGTTCACGGGCAAAGCGGCACATGCGGCTGCAGCCCCGCACCTTGGCGTGAACGCCGCGGACGCTGCCGTCCTGAGCCAGGTCGCCGTCGGGCTGCTGCGCCAGCAGATACCGGGCGATCACCGCATCGCCCTCTACGTCGCCGAGGCCGGACACGTCACGAACATCATTCCGGAACGGGCAGTGGTGGAGTTCGAATGCCGGGCATTCTCCCTCAGGGAGTATGAAGCCCTGCTGGAACGCGTCCGCCGCTGCTTCGAAGGAGCCGCCCTCGCCACCGGTACAACACTGACCGTCGAGTCGACGGAACCGCTGTACGAGCCCCTGCTCCAGGACGACGCCCTGGCTGCGCACTGGACGGAGGCGATGGATGAATTCGGCAAGGACACTTCGCCCTCGGCGGGCATCAGCGGCGGCTCAACGGACATGGGCAACATCTCCCAGGTCATCCCGAGCCTGCATCCCTGGCTCAGCATTCCGGGCGCGGATGTCCCCATTCATTCACATGCGTTCGCGGCCTTGGCAGATTCCCCGGAAGCATACGGCGTGATGTTCGAGGCAGCCACCGCGCTGGCCTGGACTGTCGGCGCCGCTGCCAGCAGCCCCGGCGAAAGAGAGCGTTTCATCAAAGCGGCATACCGCCGTCGTACTTTTACAAAGGAAGGCACATCATGA	MELTETPSATPALRAALAEGVEDWKRRVHAVAHEIHMYKELAFEEVRSAEAIAALLADGGFDVERGTADLPTAFTATAGSGELTVALCVEYDALPGIGHACGHNLIAGASVAAALALQPHVDELGITLKAIGTPAEEHGGGKVLMLERGAFDGVSLALMVHPVQDGITYNPAGTSAQAVGRYKATFTGKAAHAAAAPHLGVNAADAAVLSQVAVGLLRQQIPGDHRIALYVAEAGHVTNIIPERAVVEFECRAFSLREYEALLERVRRCFEGAALATGTTLTVESTEPLYEPLLQDDALAAHWTEAMDEFGKDTSPSAGISGGSTDMGNISQVIPSLHPWLSIPGADVPIHSHAFAALADSPEAYGVMFEAATALAWTVGAAASSPGERERFIKAAYRRRTFTKEGTS				NA	NA	NA	NA	NA
D1-17_00626	1548	gbsA_1	COG1012	Betaine aldehyde dehydrogenase	TTGACCATTACAACAGCACCTACATCGTCCTCGGCGGCAACCGCCCGGGCTGCCCTGGACGCAGCTTTTCCTGCAGGCCTTGGAGCTTTTCTTGACGGCAGGACCGTTCCCGGCGGCGGAGCGGGCATCACACTGACCGCGGCGGCCACCGGGGAAGCATTCGCAACATACTCAGACCCGGGGGCAGAGGGCGCCAACGCCATCCTCGAAAGCTCGACCGCCGGCGCAGCTGCCTGGGGTGAGCTGAACGGGTTCGAACGGGCAGCGATTCTGCGCAACGTGAGCCGCGTTGTTGAGGCGCACGCGGAGGAACTGGCAATCCTCGAGTCCGCGACAACCGGCAAGCCGATCCGGGATGCACGGGTGGAAGCCGCCAAGGTAGCTGAGATGTTCGGCTACTACGCGGGATGGGCAGACAAGCTGATCGGGCAGACCATTCCTGTCCCCGGCCCCTGGCACACCTACACGGAGCGCGTTCCCTGGGGCGTGGTCGTCGCCATCACTCCGTGGAACGCTCCCCTGTTCACCGCGGGCTGGAACTCCGCCGCGCCGCTCGCGGCCGGCAACGCCGTGATCATCAAGCCCAGTGAATTCACGCCGGCTTCAACGGTTCGCCTTGCCCGGCTCGCCCACGAGGCGGGACTGCCGGCAGGGGTGTTCAACGTTGCGGCCGGGCTGGGTCAGACTGTCGGCGCGGCGCTCACAACGGACCGACGGGTCGGGAAGGTGAGCTTCATCGGCTCCGTCCCTACCGGACGCCGCGTGGCTGTCGCGGCTGCGCAGGCAGGGATACCGGCCCTTCTGGAACTGGGCGGGAAGAGCGCAAACATAGTCTTCGCGGACGCCGACCTGGAACGCGCCGCGGACGGCGCCATCGCGGCGATCTTCTCCGGCGCCGGGCAGTCTTGTGTGGCGGGATCGCGCCTACTGGTGGAGCGCACCGTGCATGCCCGCTTCGTTGAACTCGTGGCTGAGCGCGCCGCACGGCTCCGCGTCGGCGACCCGCTGAATGCCGACACCGAAGTGGGTCCGATTATTACGGCGCAGCAGTTCGCCACCGTCACCTCCCTCATCGAGGCAGGAATGCACGACGGCGGCCGGCGGGTCACCGGGGCAGCGCTTCCTGACGCTCTGGCCGGTTCCGCCCTGGCCGGCGGCCATTGGGTCATGCCCACCTTGCTGGACGGGGTAACGCCGCAAAACCGCCTTGAAACCACGGAGGTCTTTGGGCCCGTCGTCGGCGCTGACGCCTTCGACACGGAGGAGGAGGCGATCGCCCGCGCTAACAGCACTAACTTTGGCCTGGCCGGCGCGGTGTGGACGTCCGATGTTTCCCGGGCCCATCATGTGGCACGCAAGGTGAAGGCCGGCACGTTCTGGATCAACTCCTACAAAACCATCCATGTGGCCGTTCCGTTTGGCGGGTTCGGTGACTCCGGCCACGGGCGCTCCTCCGGCCCCGGGGTCCTTGACGAGTACACGCAGACAAAGGCGGTCTGGGTGCCCACCCGCGCAGCCGGTGCGCCCTTCCCATCCCTCTCCTACTAA	MTITTAPTSSSAATARAALDAAFPAGLGAFLDGRTVPGGGAGITLTAAATGEAFATYSDPGAEGANAILESSTAGAAAWGELNGFERAAILRNVSRVVEAHAEELAILESATTGKPIRDARVEAAKVAEMFGYYAGWADKLIGQTIPVPGPWHTYTERVPWGVVVAITPWNAPLFTAGWNSAAPLAAGNAVIIKPSEFTPASTVRLARLAHEAGLPAGVFNVAAGLGQTVGAALTTDRRVGKVSFIGSVPTGRRVAVAAAQAGIPALLELGGKSANIVFADADLERAADGAIAAIFSGAGQSCVAGSRLLVERTVHARFVELVAERAARLRVGDPLNADTEVGPIITAQQFATVTSLIEAGMHDGGRRVTGAALPDALAGSALAGGHWVMPTLLDGVTPQNRLETTEVFGPVVGADAFDTEEEAIARANSTNFGLAGAVWTSDVSRAHHVARKVKAGTFWINSYKTIHVAVPFGGFGDSGHGRSSGPGVLDEYTQTKAVWVPTRAAGAPFPSLSY	PGPT0006875_1542	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-17_00627	921	Hgd		2-(hydroxymethyl)glutarate dehydrogenase	ATGAACACCAACACCGACCGCCGCATCGCCGTCATTGGCCTCGGCGCCATGGGCGGAGCGATGGCCGCCGCGCTCCGCCGGGCCGGTTGGCAGGTCACAGGCTTTGACCCGGCCGAGATTGCGAGGGCAGCCTCGTCCGAAGCCGGAATCACGACCACCGGAGACCTCGCCGACCTCGCAGGCACCCCTTACGCCGTCCTCTCCCTGCCCTCCGCGGGCATCGTCGAATCGACCGTGCCCTTGCTTCTGGCAGCGCCGGGAACGGTGGCGATCGTCGACACCACCACCTCGGAACCGGCCACCAGCAAACGCATGGCCGCCCTGGCCCAGGAACAGGGCGCGGCCTTCATCGATGCCCCGGTTTCCGGCGGCCGGGACGGCGCGGCGACCGGAACGCTAAGTGCCTTCGTCGGAGCCACCGACGAAGCCCTCGCGGCTGCCGAACCGGTCCTGCTCGCCCTCACCGGGGGCAAGTACAGCCACATCGGCGGTCCGGGCGCCGGCAACGTCGTCAAGCTCCTCAACAACATCCTGGCTGCCGCCAACCTGGTCTCAGTGGGCGAGGCCCTTGGCATCGCGAAGGCCTACGGCATTGACCCTGCCACGGCGGCTGCGAGCATCAGCGAAGCCTCCGGCGGCAGCAGAGTCTCCGCGAACATGTATCCGAAGTGGGTGCTTTCCGGAACCCACGATTCCGGCTTTTCCCTGGGGCTGATGGCACGGGACGCCGCCCTCGCCGTCGAAATCGCCGCACAGATCGGTGAGAACCCGGCGCTGCTGGCAGCGGCAGCTGACCAATGGCAGGAGGCCCTCGCCGTCCTGGGGCCCCGGGCCGACTTCACGGAAATAGCAAGGACAGTAGCTCCGGCAGTGACACCCGCCGGCGCCCCCACCACGGACACGGCCAGCACCGCCGGCTGA	MNTNTDRRIAVIGLGAMGGAMAAALRRAGWQVTGFDPAEIARAASSEAGITTTGDLADLAGTPYAVLSLPSAGIVESTVPLLLAAPGTVAIVDTTTSEPATSKRMAALAQEQGAAFIDAPVSGGRDGAATGTLSAFVGATDEALAAAEPVLLALTGGKYSHIGGPGAGNVVKLLNNILAAANLVSVGEALGIAKAYGIDPATAAASISEASGGSRVSANMYPKWVLSGTHDSGFSLGLMARDAALAVEIAAQIGENPALLAAAADQWQEALAVLGPRADFTEIARTVAPAVTPAGAPTTDTASTAG				NA	NA	NA	NA	NA
D1-17_00628	915	murR	COG1737	HTH-type transcriptional regulator MurR	TTGAACGCCAACGCGGTCGGCCTCGCTGCCGACGCCGCGGGGCTCAACGGTTCCGGCAGCGAGTCAGCCGGCACCGCTGCGCATGCCTGGCTCGGTGACGCGCTTCCGGACGTTCCGCTGACCAAGGCGCAAACCCGGGTGGTGGATGTCATCGCCCGCAACCCGCAGCTTTCCTCCTATGCGGACATCGCAGAAATCGCCCAGCGGGCGGACGTCAACAATTCGACTGTTGTGCGTGCAGCCCAACATCTGGGCTACCGGGGCTGGCCCGACCTCCAGCGGGAACTCCGTTCCCGGTACCTCGTGATGATCTCGACCGAGGACACGCTGACGGAACACGGGGAACACCGGAGTCCCCTTCATGACGCGCTCAACCACGACATCGAGAACCTGCGCCTGACGCTGGACTCCAATACGGCCGACGACGCCGAGGCCGCCATCGCTGCGATGGCCGGCGCCAAGTCCATCACCGTTGTCGGCCTGGGTTCCTTCGCGGGCCCCGCCAGCGTGATGGCGCACCTGGGCTCGACCATGGGCTACCCCATCACTCTGGAGAACCGCGGGGGCGTCCATCTCGCCTCCAGCGCCAACTCCCTCGGGCAAGGTGACGTCCTGGTGGTCATCAACATGTGGCGCTCGGTCAGGCAGATCATCGTCACCGCCGAAGCTGCCAAGCAGGCCGGCGCGAAGGTCATTGCCATCACCGACATGCGGCGCGGCCGCCTTGCTGCCGCCGCCGACCACCTCCTGGTGGTGGCCTCGGAGGGGATCTCCTTTTTCCAGTCCGTCACCGCCGCCAACTCGCTCGTCTACGGACTGCTCGCAGGAATGGAGGCGGCACACCCCCAGCGCAGCCGCGCCGCCATCCGCCGCACCCAGCAGCTGTGGAAAGACCTCGACATCTACCTCGACTGA	MNANAVGLAADAAGLNGSGSESAGTAAHAWLGDALPDVPLTKAQTRVVDVIARNPQLSSYADIAEIAQRADVNNSTVVRAAQHLGYRGWPDLQRELRSRYLVMISTEDTLTEHGEHRSPLHDALNHDIENLRLTLDSNTADDAEAAIAAMAGAKSITVVGLGSFAGPASVMAHLGSTMGYPITLENRGGVHLASSANSLGQGDVLVVINMWRSVRQIIVTAEAAKQAGAKVIAITDMRRGRLAAAADHLLVVASEGISFFQSVTAANSLVYGLLAGMEAAHPQRSRAAIRRTQQLWKDLDIYLD				NA	NA	NA	NA	NA
D1-17_00629	639			hypothetical protein	ATGACCGCCGAAACTCCCAACGCAGACAAGCTGAATCTTCCGCAGGCTTTCCTGCTTTTGGCCACCAACGACAAGGACGGGGAACCGGAAGTTCCGCAGAGCGTACTCAGGGCCGCTGTGGCAGGGGCGATACTGGCTGAACTGGACCTGCTCGGTGCCATCCAGCTGCAGGGGAAGCACGTCAAAGCAACCGGTGCCCCTCCGGAGACCGATTTCCGGCACCAGTGGGAGATGATCCACGACAAATCACGGCCCCACAGCCCCAGACGGTGGGTCTCGATGCTGGAAAGCCGAGCGGAACTGCACCGCATCTATGAGGAGATGGCCGCTCTCGGCATCGTGAACCACGTCGGTGAAAGGCACCTCGGCCTTTTCAGGACAACCCGTTACCCTGAGAAGGACCATGCTCCGGAGGCCGCACTCATCAAGAGGATAGAAGCGGCACTCAACGGCGCGCCGACGGACGCCAGAACTACGGCGCTGATAGGCCTGCTCCAGGCCGCAGGGCTGCTCGAAAAGCACTTCCCCGCGGCAGATTCCAGTCGCGTCCGGGAACTGACTTACGGCCACTGGCCTTCCCGGGCGGTAGTGGACGAACTGCGCATGATCCGACTCGCCGAGTCGGAGGCCGCCACCTGA	MTAETPNADKLNLPQAFLLLATNDKDGEPEVPQSVLRAAVAGAILAELDLLGAIQLQGKHVKATGAPPETDFRHQWEMIHDKSRPHSPRRWVSMLESRAELHRIYEEMAALGIVNHVGERHLGLFRTTRYPEKDHAPEAALIKRIEAALNGAPTDARTTALIGLLQAAGLLEKHFPAADSSRVRELTYGHWPSRAVVDELRMIRLAESEAAT				NA	NA	NA	NA	NA
D1-17_00630	2505			hypothetical protein	ATGTCGGGGGAACATCGCGACGATTTGGTGATGCAGTCGCTGCTGCTGGACGAGATCGGACAGTCAGTGATCGGCATGGACGGCGGCTGGCGGATCACCTATTGGAACCGCGCGTCGGAGCGCCTGTACGGGTTCCGCCCGGACGAGGTTCTGGGGGCAAAGATCACGGATCTTGGAATCATCGGCGGCGTTGAGGCGCGGGGCGGCGGCACCACGGACATGGAGATAGCAAACAGGGTTGCCCGGGGCGGGGACTGGGCAGGGGAGCTCTGGGTCCGCCACAGCACAAGCCGGGAGTTCCCGGTCCACGCAACAGTCAGCCGTATCAGGGGCCGGCATACCGTGCCTGTTGCTGTGGTCGCGATCTCGAAGGACATCACCGACCGGAAACACAGCGAGGCCATCCTGCGCAGGCTCTCGGCCATGGTCGAGTCCTCCGGCGATGCAATCATCGGAGCGGACCTCACCGGGAAGATCACCAGCTGGAATGCGGGGGCCGCGAGGATGCTCGGCTGGAGTTCCCGGGAGGCGGTGGGACAGAGCTACCGGCTTCTGACGGCCGACGGCGGTGGTTACTTTGGCGCTGAAGTCGCCTCACGTACGGGGGGCGAGGCGTTTGTCACCGGCGTGGAGGCGCGGTGGAAGTGCAGGGACGGGACGGTGATCGATGTCGAACTGACGGTGTCTCCTGTCTACGACCAGGACGGCGTCCCGGTGGGGGCCTCGGCCATCGCTCGCGATATCACCGAAATCCAGCGCCTGAAGGCCGCAGCCGAAGCGGAGCGCGAACGTCTTTTGGCAGCCCAGGAGATGGCCCACGTAGGAAGCGTCGAGCATACGGTCGCGACTGGGGAAACGTGGCACTCAGAGGAATTCGACCGCATCCTCGGGTTGACCGCTGGGGACCGGAAGGACCGGGAATCCATCCTGGAGCTGACGCATCCCGAGGACCGGGACCTTGTCCGCGGGATGTGGAAGAGCCTGGACGGGGGGCTCGGCTTTGCGGACTTCGAATACCGCATCATCAGGCCCAGCGGCGAACAGCGCTGGCTGCACTCCCGAATCCGGAGCATCAACAGTGCGGACGGCCGGCCCCTCCGGTTCCTGGACACAGTCCTCGACATCACCGACCGGAAGAACGCTGAACAGATTCTGGAGTGGCAGGCGCGCCATGACGCCCTGACCGGCCTGCCGAACAGGTACCTGGTCACCGAAGTCCTTCAGGGCTTCCTTGACCGGGCCGCCCTGCCCGTGGTGATGTTCGTCGACGTGGACCGGTTCAAACTGATTAATGACGGCATCGGACACGGCGCCGGAGACACGATTCTGGTGCAGTTGGGTGAGCGGCTGAAGGCGGCCGTCAGACATGGCGATATGGTGGGCCGGTTCGGTGGCGACGAGTTCGTGGTGATCTGCGACAACCTTCAGAAGTGCGGGGCCCAGGCCTTGGCCGAACGGATCAGGGATGCGACTCGGGACCCTTTCGACGTGGACGGCCGGCAGATTTACCTCAACGTCAGCGTCGGTATTGCCCTTGCTGACGCGGAGGACACTGCCGAATCGATGCTCCAGGGCGCTGACGCCGCCATGTACCGGGCCAAGTCAGCCGGCGGGGACTCATCCGCGCTGTACGACGTGCGCATGACGGGCAGGGCGTCGGGCCGCATCGACTTGGAGTCTGACTTGCGGCTTGCCATGGAACGCGGAGAGCTGACGCTGAACTACCAGCCGATCCTCGACGTCACCAGCGAGGAAACAGTCGGCTTCGAAGCACTGTTGCGTTGGCATCACCGGGAGCACGGGCCAATCATGCCGGATGCCTTCATCCCCATTGCAGAAGAGACGGGCCTGATCCTTCCCATCGGCAGCTGGGTGCTGCGGGAAGCGCTGCGGCAGGTGCAGCAATGGCGTAGCCAGTTGCCGGGGGCGGGAAACTTTACGGCGGCCGTAAATATTTCCGGCCGCCAGCTCGTGGCGAGCGATTTTCCAGACGTTGTGGAGGCCGCCATCCTCGATGCGGGCATCGATCCTGCAGCCGTCCACCTGGAGATCACCGAAACCGTGCTCATGGATCAGCCGGACCTCCCCAAAGAAACGCTGCAGCGGCTTGCCCGCTTGGGCGTAGGGCTGTCCATCGACGACTTCGGCACCGGGTACTCGTCCCTGAGCTACCTTAAATGGCTATCGGCCCGAACCCTCAAAATCGACCGCACGTTTGTTGAAGAGCTGGGGACGGACCCCCATGGGGCCACCATCATCGAACTGGTCCTGGGCATGGCTGAGAGCCTGCGGCTTGATGTCGTGGCTGAAGGCGTGGAAACAGCCGTCCAGCTCGCCGAGCTCCGCCGCCTTGGCGTGCGACTCGCACAGGGGTACCTGTGGAGCAGGCCGCTGCCTCCCGAACAAATCGCTGCCTGGCTTGAGGCGCATCCTGCAGGCATTCCTGCCGGGACTCAGGGCAGCGGTCGGAGCGGTGTCCGGAGCTACCTGGAATCAACTTCCTGA	MSGEHRDDLVMQSLLLDEIGQSVIGMDGGWRITYWNRASERLYGFRPDEVLGAKITDLGIIGGVEARGGGTTDMEIANRVARGGDWAGELWVRHSTSREFPVHATVSRIRGRHTVPVAVVAISKDITDRKHSEAILRRLSAMVESSGDAIIGADLTGKITSWNAGAARMLGWSSREAVGQSYRLLTADGGGYFGAEVASRTGGEAFVTGVEARWKCRDGTVIDVELTVSPVYDQDGVPVGASAIARDITEIQRLKAAAEAERERLLAAQEMAHVGSVEHTVATGETWHSEEFDRILGLTAGDRKDRESILELTHPEDRDLVRGMWKSLDGGLGFADFEYRIIRPSGEQRWLHSRIRSINSADGRPLRFLDTVLDITDRKNAEQILEWQARHDALTGLPNRYLVTEVLQGFLDRAALPVVMFVDVDRFKLINDGIGHGAGDTILVQLGERLKAAVRHGDMVGRFGGDEFVVICDNLQKCGAQALAERIRDATRDPFDVDGRQIYLNVSVGIALADAEDTAESMLQGADAAMYRAKSAGGDSSALYDVRMTGRASGRIDLESDLRLAMERGELTLNYQPILDVTSEETVGFEALLRWHHREHGPIMPDAFIPIAEETGLILPIGSWVLREALRQVQQWRSQLPGAGNFTAAVNISGRQLVASDFPDVVEAAILDAGIDPAAVHLEITETVLMDQPDLPKETLQRLARLGVGLSIDDFGTGYSSLSYLKWLSARTLKIDRTFVEELGTDPHGATIIELVLGMAESLRLDVVAEGVETAVQLAELRRLGVRLAQGYLWSRPLPPEQIAAWLEAHPAGIPAGTQGSGRSGVRSYLESTS	PGPT0023624_635	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-17_00631	1548			hypothetical protein	TTGGACGGGTTGACGGGGCTGGCCGGGATGGAAGCACGGATGGCCGCATTGAAGGTTCATTTGACGGACGGGTATGCAGCCGCTGCCGAGGCGCTGGCCGTAGGGGCCGGTTCGGCGCAGGAGCGCAGGGCCCGGGAGATGGCGGTGAGGGCCGAGGTTGCCTGTGCTTTGACGGTGAGTGAACGCAGCGCCGATGCGCTGCTGGGCGAGGCCCGGACCTTGGTGTGGGGGTTGCCGTTGACGCTGGCCGCGCTGGGCGCCGGGAGCATTTCGTGGCAGCACGCGCGGATTCTGTGTGATGAAACAGCCAACTTGGACCCGGTGGCCGCGGCGGCCCTGGAATCCCATTTCCTGGAGCCCTATTTCCCGGGCCCCTCCGCGCCGGACGCGGCGGGGGCTGGGCGGGGTTGCCTGGCGGGGGATGTGGTGCCGGGCAGGTTCCGGGCCAGGGCGCGTGCCTGGCGGGAGCGGCACCATCCGGTGAGCATCGAAACCCGCCACCGTCGGACCGCCAGGGACCGCCGGGTGGAGTACCTCCCGGACCGGGACGGGATGGCGTGGCTGTCGGCGTACCTGCCCGCGGACACCGCGGCCGGGATCTGGAGCCGGACCAGCGCAGCCGCCCGCGGCCTGCAGGGCCCGAAGGAGCCGCGGACGCTGGCGCAGCTGCGCGCGGACCTCGCCGCCGGCTGGCTCCTGGCAGGCACGGCCGACGGGATCCCTGCACCCAAAGCCCAGGTCCTGGTCACGGTTCCGGTGCTCTCACTGCTGGGCGCCGGTGAGGAACCGGCCGTGCTGGACGGGTACGGGCCGGTCCCGGCGTCGATGGCCCGGAAGCTGACCGCCGAAGGGGCCACGTCGTTCCTGCGGGTGCTGACCGATCCCAGGGACGGGGCGCCGCTGGAAATCGGGCGCACCGGCTACCGGCTCACGACCACGATGCGGCAATGGCTGCGGCTTCGGGACGCGCGGTGTTCCTTTCCCGGGTGCAACAACCACTCACTGGATAACGAAGCGGACCATGTTCTGGCCTGGTCCGCCGGCGGCGGCACGGGTGTCAGCAACCTTGGCCAGGCATGCCCACGCCACCATCGCCTCAAACACAGCTCAGCCTGGCGGCCAGTCAACGCGTCCCGGGACAGTCCGCCCGGCTGGATCTCACCGGCAGGGCGCTATTACCCCTGCGAACAACAGGACTGGGAACCACCCCACTGGCCCGGTATAGGGCCCGAGGACCTTGGGCGCCTCGGGTGGCCCGACAGCCTCCGACCCGACAACCCGGACTGCCTAAACAGCCTTGAGGAACCGGGCCAGCCAGACACGCCTAAGGAACCGGGCCGGCCAGACACGCTTGGGGAATCGGGCTGGCCAGACACGCTTGAGGAACAGGACGGGTCCACCTGGCCGGACAACGCCGACTGGCGCAACAGCCCCAATTGGCCGCATGACTTCGAGCTGGACAACCTCGAGGGCCTTGACCCACCACCGCCGGTGGAACTCCTGCCCGTGGATCCCTTCCCAGAGTGGGCACAATTCACAGCAGCGTAG	MDGLTGLAGMEARMAALKVHLTDGYAAAAEALAVGAGSAQERRAREMAVRAEVACALTVSERSADALLGEARTLVWGLPLTLAALGAGSISWQHARILCDETANLDPVAAAALESHFLEPYFPGPSAPDAAGAGRGCLAGDVVPGRFRARARAWRERHHPVSIETRHRRTARDRRVEYLPDRDGMAWLSAYLPADTAAGIWSRTSAAARGLQGPKEPRTLAQLRADLAAGWLLAGTADGIPAPKAQVLVTVPVLSLLGAGEEPAVLDGYGPVPASMARKLTAEGATSFLRVLTDPRDGAPLEIGRTGYRLTTTMRQWLRLRDARCSFPGCNNHSLDNEADHVLAWSAGGGTGVSNLGQACPRHHRLKHSSAWRPVNASRDSPPGWISPAGRYYPCEQQDWEPPHWPGIGPEDLGRLGWPDSLRPDNPDCLNSLEEPGQPDTPKEPGRPDTLGESGWPDTLEEQDGSTWPDNADWRNSPNWPHDFELDNLEGLDPPPPVELLPVDPFPEWAQFTAA				NA	NA	NA	NA	NA
D1-17_00632	570			hypothetical protein	ATGCAGGTGAGTGGACGCAAACGCGTCTGGATTGCGGCAGCGGTGATTACCGCCGTCGTGCTGGCTGTAGGACTGGTTCTGTTCAAGCCATGGCTGCTGTTTATCGACGTACGGGTGGAGGAACAGCTGCCAACGGCGGCTGCCCCGGCAGAGCCCGCACAGCAGGCCGCGCCTAAAGGTCCGTCTCCCTCCAAGGAACCTGCAAAGGCGCCGACCAGTCCGGTACAGCTTGCCCGGGGAACCCTGATCAGCCATGAACACGCCACGACCGGAACTGTACGGATAATCCGGCAGCCGGACGGGTCAAGGCTCCTGACGTTGGAGAATCTCGACACGTCCAATGGGCCGGATGTGCACGTGTGGCTCAGCGCCGCAGACGTGGTGGAGGGGACTGCCGGATGGTTCACGGCTGGTTCAGCTGATTACTACGACCTGGGCCTGATCAAAGGGAACCAAGGCAACCAGGTCTACTCCATCCCCACCGAAGTTGACCTGTCCAAATACAGGTCCGTCGATCTATGGTGCGTCCAGTTCAGCGTCTCGTTCGGAGCCGCTCAACTCATCACCTGA	MQVSGRKRVWIAAAVITAVVLAVGLVLFKPWLLFIDVRVEEQLPTAAAPAEPAQQAAPKGPSPSKEPAKAPTSPVQLARGTLISHEHATTGTVRIIRQPDGSRLLTLENLDTSNGPDVHVWLSAADVVEGTAGWFTAGSADYYDLGLIKGNQGNQVYSIPTEVDLSKYRSVDLWCVQFSVSFGAAQLIT				NA	NA	NA	NA	NA
D1-17_00633	486			hypothetical protein	ATGACAGTTCGCAGCGCAGGCATTTTGCTGTACCGGCGGAGCCCGGAAAGGCACCTGGAGGTCTGGGTCGCCCACATGGGCGGGCCTTTCTGGGCCGGAAAGGACGCCCGCGCCTGGTCGATTCCGAAAGGAATCTATCTCGACAGCGAGGATCCCATGGTGGCTGCGCTGCGCGAGTTTGCCGAGGAAATGGGGACGCCGGCGCCGCAGGCCGACTACTTTGAGCTGGGCGCCTTCAGGCAACCGTCGGGCAAGCTAATCACCGCTTTTGCCGCGGAGTCGGACTTTCGACCTGCGCAGGTCACAAGCAACACGTTTCCGCTGGAATGGCCCAAAGGTTCTGGTGTTGTCCGGGAGTATCCGGAAATCGATGATGCCAGATGGTTCAGCGAGTCCGACGCGCGCACCAAACTGGTGAAAGGGCAAGTACCCATCCTCGATGCCCTTGCTGAATACGTCGGGACACGGGACTCAGGGCATCAGTAA	MTVRSAGILLYRRSPERHLEVWVAHMGGPFWAGKDARAWSIPKGIYLDSEDPMVAALREFAEEMGTPAPQADYFELGAFRQPSGKLITAFAAESDFRPAQVTSNTFPLEWPKGSGVVREYPEIDDARWFSESDARTKLVKGQVPILDALAEYVGTRDSGHQ				NA	NA	NA	NA	NA
D1-17_00634	570			hypothetical protein	ATGCCGTATACAGCAGGCAAGCCGCAGCCCAAGGAGTCGCAAGAGCAACTGCGCGCCCGGATCCCGGGATGGGGCGCGGATCTGGACCCGAAGGACCGGCCGTCATATCCGCGGGAGCAACCCGGCATCGAGACCGGCGCCCACTGGGACTTTCCGGAGCGCCAGCCGGAAAGGTGGCCGCGCGAAATGTCCATCGAGCACAAGTTCCTCACTCCCGTGTTCGGCACGTCCACACCTCCCTCGGGGCTCTCCGGCGTGATGCGGAAGTACGCCTACACATACAGTGAAGGCCGGGCGGCGCATTGGCTGATCCTGCTGGCCGCAGACCGTGTAAATGCCTGGGAAAGCCATCTCCGCTCGTTCGCAACCCTTCGCCCAGACAACCCGGTCACGGAAACCGGCGTGCTCAGCGAGTTCTCCCGCCACGGCATTGGCTCCAGGTTCGGCCGGAAACGCGCGGACCTGAGCCACCAATGGCTGGACCCCGTGATTGTGGGTGCGCCGTGGATTCTTGCCGGCGCCGGCGCGCTCGCCGCGCTGCGGGCCCTGCGCCTGAGGCGCCGCGGCTGA	MPYTAGKPQPKESQEQLRARIPGWGADLDPKDRPSYPREQPGIETGAHWDFPERQPERWPREMSIEHKFLTPVFGTSTPPSGLSGVMRKYAYTYSEGRAAHWLILLAADRVNAWESHLRSFATLRPDNPVTETGVLSEFSRHGIGSRFGRKRADLSHQWLDPVIVGAPWILAGAGALAALRALRLRRRG				NA	NA	NA	NA	NA
D1-17_00635	1149		COG1063	putative zinc-binding alcohol dehydrogenase	ATGCGAGCAATGGTGTACCGCGGGCCGTATAAGGTCCGCGTTGAAGAAAAAGACCTTCCGAAAATTGAGCATCCGAATGACGCCATTGTGCGGGTTTCCCTCGCCGCCATCTGCGGTTCCGACCTGCACCTTTATCACGGCATGATGCCCGATACCCGTGTTGGAATGACGTTCGGTCATGAGTTTGTTGGGGTGGTCCATGAGGTTGGACCGTCGGTTCAGAACCTGAAGGTCGGGGACCGGGTGATGGTGCCGTTCAACATCTTCTGCGGCTCGTGCTATTTCTGTTCGCGGGGCCTGTATTCGAATTGCCACAATGTCAATGCGAATGCGACGGCGGTGGGCGGCATTTACGGCTACTCCCACACCTGCGGAGGGTACGACGGCGGCCAGTCCGAGTTTGTGCGCGTCCCCTTCGCCGACGTGGGCCCGTCGCTCATTCCCGAATGGATGGACGAAGAGGACGCCGTGCTGCTCACCGACGCGCTCGCCACCGGCTACTTCGGCGCTCAGCTCGGTGACATCACCGAAGGTGACACCGTGGCGGTATTTGGCGCAGGTCCGGTAGGGCTGTTTGCCGCGAAGTCGGCATGGCTGATGGGTGCGGGCCGGGTCATCGTGATCGACCATTTGGAGTATCGGCTGGAGAAGGCCCGCAGCTTCGCCCACGCGGAAACGTACAACTTCCGGGAGTACGACGACATCGTGGTCCAGCTGAAGAAAGCCACCGACCACTTTGGGGCCGACGCCGTGATCGATGCTGTAGGCGCCGAAGCTGACGGAAGCTTCATACAGCACGTCGCTGCCTCACAGCTGAAGCTGCAGGGCGGATCACCGGTAGCCCTGAACTGGGCGATCGATTCGGTACGCAAGGGCGGCACCGTGTCCGTGATGGGTGCATACGGGCCAGTGTTCAGCGCGGTGAAATTTGGCGACGCCGTTAACAAGGGACTGACGCTGCGGATGAACCAGTGCCCGGTCAAGCGGCAGTGGCCGCGGCTGTTCGAGCACATCCGCAACGGCTACCTCAAGCCCAGTGACATAGTCACCCACCGCATTCCGCTGGAGCACATCGCCGAGGGCTACCACATGTTCTCGGCCAAGCTCGACAACATCATCAAACCCCTCATCGTGCCCAACGCCGGCTGA	MRAMVYRGPYKVRVEEKDLPKIEHPNDAIVRVSLAAICGSDLHLYHGMMPDTRVGMTFGHEFVGVVHEVGPSVQNLKVGDRVMVPFNIFCGSCYFCSRGLYSNCHNVNANATAVGGIYGYSHTCGGYDGGQSEFVRVPFADVGPSLIPEWMDEEDAVLLTDALATGYFGAQLGDITEGDTVAVFGAGPVGLFAAKSAWLMGAGRVIVIDHLEYRLEKARSFAHAETYNFREYDDIVVQLKKATDHFGADAVIDAVGAEADGSFIQHVAASQLKLQGGSPVALNWAIDSVRKGGTVSVMGAYGPVFSAVKFGDAVNKGLTLRMNQCPVKRQWPRLFEHIRNGYLKPSDIVTHRIPLEHIAEGYHMFSAKLDNIIKPLIVPNAG	PGPT0006375_428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
D1-17_00636	333			hypothetical protein	ATGGTTGTAGATCAGCTGGGTGATGCGGAGCTTGACCGCCTGTTCCAGGCGTTCGCCGATGGCACACGTCGGGACATCATGCGCCGGGTGGCAGTGGATGAGTACTCGGTCTCCGGCCTCGCTGGCCTCTACGCCATGAGTTTCGCCGCCGTTCAGAAGCATGTGGCGGTATTGGAGCGCGCGTCTCTCGTCTCCAAGGAGAAGCGCGGAAGGGAGCAGATCGTGCGGGGCAATCAGGAAGGACTGGAAAAGGCCCGGCGGCTGCTTGATGAGTTCGAAGCGATCTGGCGGCAGCGCGCCGAACGGATTGCAGACATCCTCGCTGAAGAATAG	MVVDQLGDAELDRLFQAFADGTRRDIMRRVAVDEYSVSGLAGLYAMSFAAVQKHVAVLERASLVSKEKRGREQIVRGNQEGLEKARRLLDEFEAIWRQRAERIADILAEE				NA	NA	NA	NA	NA
D1-17_00637	498			hypothetical protein	ATGACGGTTATCAGTTCGACCAAGAACGTTGACGCACTGAGCTTCACCCTCGTCGCCGAGTTTGACGCCAGTGTTGAGCGTGTCTGGCAGATATGGGAGGACCCGCGGCAACTGGAGCGGTGGTGGGGACCGCCCACCTGGCCCGCCACCTTTGAGAAGCACGAATTCACCCCCGGCGGAGAGGCTTCCTACTACATGACCGGCCCCGAAGGTGAAAGGGCCGGCGGCTGGTTGCGGATCACAGACATCCAGGCACCAAACCGCCTCGAGTTTGACGACGGGTTCGCCGACGAAAATGGTGCACCGGTCGACGCCATGGGTACAACGCACGCATCCGTGATGCTTGAGGACATCGGCGGCCGCACGCGGATGACAGTGAATTCCGTCTTTGAGTCCGAAGAACAGATGGACAAGATGTTGGAGATGGGCATGGAGGAGGGGATGCAGGAGGCCGCCGGCCAGATCGACGCCATCCTCGCAGAACACTCTCACGCCTGA	MTVISSTKNVDALSFTLVAEFDASVERVWQIWEDPRQLERWWGPPTWPATFEKHEFTPGGEASYYMTGPEGERAGGWLRITDIQAPNRLEFDDGFADENGAPVDAMGTTHASVMLEDIGGRTRMTVNSVFESEEQMDKMLEMGMEEGMQEAAGQIDAILAEHSHA				NA	NA	NA	NA	NA
D1-17_00638	1341	ftsH_3		ATP-dependent zinc metalloprotease FtsH	ATGACGGCACCGGCAGCAACCGCAGCAGGCACATCAACGGGAGCCAGACCCGGCACCCAGCCCTGGAGCGTCCGCGACTTTCAAGCAGACGACCTCGACCAGCTCATCAGCGTCTGGCAGGATTCGAGGACGCCCGGTGCGCACCCCGTCTACAGTCTCTCCGAGATCATCGACGCCTGCTCCAATGGAGTGGCCGTGGTCGCCGCGAGACAAGGAACGGTCGTCGGGGCAGCAGCATGTCGAATCCACGACGGCCGTGCCTGGATTATCCTGCTGGCCCAAGACCGGCAGTGGCGGGAACAGGGGCTGGGAAGCGCTCTCCTGGCGGGCATGGAGGACAGGCTCACCAGCCAGGGCATACGGGGCATCTCCGCTCTCCTGCCTGCCTCCGAAACCAGGGTCCGCGCCTTCCGCAACAGTGAATACCGGGTGGAAGAGGACCTGCACTACTTCGAGCGGACTATCCCGCTCCAGCCCCGGGAGATGGAACCCCTGAGCCAGTTGGGCGGACGGCTTCTCCCCCACGGGCTGTGGAGTGCCTTGGCCGGCATGCAGCGCGAGAAGGACCTGATCGAACAGCGGCTGATCCTGCCGCTGGCCCGCACCGAACTTGCCAAGTCCCTGGGCGTGACTCCGCCGCGATCCGTGGTCCTGTTCGGTCCGCCCGGCACAGGAAAGACCACCTTCGCCAAGGCCGTGGCTTCGCGCCTCGACTGGCCTTTCGTCGAAGTCTTTCCGTCCCGCCTCGCCTCCGACCCCCAAGGCCTCGCCGGCGCCCTGCGTGCGGTTTTTCAGGAAATCAGCCGCCTCGAACACGCCGTCGTGTTCATCGACGAAGTCGAAGAAATCGCCTCCGCCCGAACCGGGGAAGCAACGTCAGCGCTCCAGGGCGTCACGAACGAACTCCTCAAGATCATTCCGGCATTCAGGGAGAAGGAGGGCCGCCTGCTGATCTGCGCCACCAACTTCATCCGCTCGCTGGATAAGGCCTTCCTCCGCCACGGCCGCTTCGACTACGTGATTCCGATCGGCCCGCCGGACTTGGACGCCCGCAAAGCCATCTGGCACCGCTACATTCCGCCGGCCGTGTCACCGCACATCGATCTGGATACCTTAGCCCTGGCCAGCGAGCGTTTCTCCCCCGCGGACATCGAGTTTGCGGCCAGAAAAGCCTCGCAGCAGGCCCTCGAACGCGCTGTCGATGCCCTGCAGCCGGTGCCGGAGGACGAGACACTCACCACCGGCGACTACCTGCAGGCCATCGCAGGGACCCGCGCCACCGTCACCGAACCAGTTGTGAAGGAATTCCTGGAAGACATCGAACGGATAGCCAGGGTTTAG	MTAPAATAAGTSTGARPGTQPWSVRDFQADDLDQLISVWQDSRTPGAHPVYSLSEIIDACSNGVAVVAARQGTVVGAAACRIHDGRAWIILLAQDRQWREQGLGSALLAGMEDRLTSQGIRGISALLPASETRVRAFRNSEYRVEEDLHYFERTIPLQPREMEPLSQLGGRLLPHGLWSALAGMQREKDLIEQRLILPLARTELAKSLGVTPPRSVVLFGPPGTGKTTFAKAVASRLDWPFVEVFPSRLASDPQGLAGALRAVFQEISRLEHAVVFIDEVEEIASARTGEATSALQGVTNELLKIIPAFREKEGRLLICATNFIRSLDKAFLRHGRFDYVIPIGPPDLDARKAIWHRYIPPAVSPHIDLDTLALASERFSPADIEFAARKASQQALERAVDALQPVPEDETLTTGDYLQAIAGTRATVTEPVVKEFLEDIERIARV				NA	NA	NA	NA	NA
D1-17_00639	204			hypothetical protein	ATGACGTTCGAAACCACTGACTCCGTAACGCTGAAGATCTGGGACCGGTCCGCACTCGACCACACACTGGACACCGTCGTGCACGACCTTTCCGCCCGGACCAACGCTCCGCGCCACAGTATTGCGGTCACGTGCAGCGGCCCCAACACCTTCACGGTCAGCCTGAACCGCAGCGCCCCGACCTTCGAGGACGTTACGCGCTAG	MTFETTDSVTLKIWDRSALDHTLDTVVHDLSARTNAPRHSIAVTCSGPNTFTVSLNRSAPTFEDVTR				NA	NA	NA	NA	NA
D1-17_00640	786			hypothetical protein	ATGTCGCTGCTTTTCGGCGTGGTGGCTTCGAGCGCACTAATCGTGGGCGCTCTCATCGGCGTTCGTTTTGAGTTGCCAAAGCGGCTCCTGGCAATCCTGCTGTCCTTCGCCGCCGGTGCACTCATCACTGCTTTGAGCTTCGAGCTGTTCGAGGATGCGTACCGGCAGGGCGGGATCTGGCGAGCCGCGCTGGGGCTGCTCACCGGGGCGGTCGTCTTTACATCCCTGAGCGCACTGCTGGACCGCTGGGCACAGCCCGGTGCCGGGGCAACACCGCCAGACGAGTTCCAGGGAAGCGCGAAACTGGACACGGATGCCGCCGCCGCTGAGAAGGCAGCGGGTTCAGTGTCCACCCGCGGAGCTGCCGGTATGGCACTGCTGGCCGCGGTAACGCTTGACGGCGTGCCGGAGAACGTCGCCCTCGGTGTGGCCCTTGGGGAGGGTACCGGCGGCCTCGCCCTCCTCGCGGCCATCTTCGTGTCCAACCTGCCGGAAGCCCTGGTGGGCGCTGCATCCATGCGCAGCCAAGGCAAGTCCCCCGGAGCCGTCATGGGTCTGTGGGCCGTCTGCGCAGCACTGCTCGTGGCCGCCGTGGTGGTGGGTGCCGGCCCCCTGTCAGGCGCTGAGCCGGAAACCATCTCCCTGCCGCTGGCCTTCGCGGCCGGGGCAGTCATCGCCTCCCTCGCAGACACTCTGATGCCCGAGGCCTACGAGCACGGCGGGCCGGCAGTTGCCCTCAGTACGGCGGCGGGCTTCGTGCTCTCGTTCGTGCTGTCACTCGCGTGA	MSLLFGVVASSALIVGALIGVRFELPKRLLAILLSFAAGALITALSFELFEDAYRQGGIWRAALGLLTGAVVFTSLSALLDRWAQPGAGATPPDEFQGSAKLDTDAAAAEKAAGSVSTRGAAGMALLAAVTLDGVPENVALGVALGEGTGGLALLAAIFVSNLPEALVGAASMRSQGKSPGAVMGLWAVCAALLVAAVVVGAGPLSGAEPETISLPLAFAAGAVIASLADTLMPEAYEHGGPAVALSTAAGFVLSFVLSLA	PGPT0004250_1695	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK-NICKEL_TRANSPORT,PGPT0004250-TC_ZIP|zupT|ZRT3|ZIP2-K07238	NA	NA
D1-17_00641	153			hypothetical protein	ATGCTTTGGAACACCCTGAACCTGTTTTTCAATTCCCAGCTCAACGACGGGAATTCCCATTCAGGGGATGCTCAGTCGAACCCTGAATTTCCGAAGGGCCAGCTCACGTCCACGGCCTGGGAGGGCTGGTGGGACAACCCGGCGCAGGCCTGA	MLWNTLNLFFNSQLNDGNSHSGDAQSNPEFPKGQLTSTAWEGWWDNPAQA				NA	NA	NA	NA	NA
D1-17_00642	252			hypothetical protein	GTGGATCAGGTGTCACTCGTAAATTTCGCATCCGGTTACCTCGTCACGATGATCGCAATCTTCATCTTGTTCCTGCCTGCCATCATCACCGTTGTCGTTCTGCTCCTCCTGGCGGGAGTGCTGCGACTGCTGGGCCTCCTTGCCACGGTCGCGGCACTGCGTCCGCTGAGAAAGCTGGGACGGCACGTCAGAACGTCACTGCATGAATTCCGGGCGCGGCCGCACCACCCGTCCCGACTGTTGCCGCACTGA	MDQVSLVNFASGYLVTMIAIFILFLPAIITVVVLLLLAGVLRLLGLLATVAALRPLRKLGRHVRTSLHEFRARPHHPSRLLPH				NA	NA	NA	NA	NA
D1-17_00643	615			hypothetical protein	ATGGCCGAGAACAAGGGAAACGAGACGCCGAACACGCCGGATGTCAGTGAAACTGGACTCCGTGAGATGAGAGTGGACGAACTGCGGCAGGAGGCCCGCGACGAGGAAATCAGCGGAGCCTCGAACATGCGCAAGGAGGAACTTGTCCAGGAAGTGGCGAAGGCCAAGTCCGCAAACGGCGCGGCGGGCGCCGGCAGCGGGGACCCGGATTCTGATGCTGAGGACCTGGGGGCCGGACCCGACGGCGGGAGGGTCCGCCGTGGGCCTGACTCCTCGAAGTCCCTGGAGTACTCTCAGGAGGTGACCTCAACGGAGGACGAACCCGAACGTGAAGGCCGCAGCCTCGTCACCACACATCATGAGGTGATCAGGCAGTGGGCTGAAGAACGCGACGGTGTTCCCGCCACCGTAGAGGGTACGGAACACGGTGACCACCTCGGAGTACTGAGAATAGATTTCGGAGGCGAGGACGCCAACCTGCGGCATGTGAGCTGGGACGAGTGGTTTGCCACCTTCGACGAACGCGGCCTGAATTTCATATATCAGGAACAGCGCAGCGACGGGCAGCAGTCCAACTTTTTCCGGTTGGAAAATCCGCAACGCGAAGACGCCTGA	MAENKGNETPNTPDVSETGLREMRVDELRQEARDEEISGASNMRKEELVQEVAKAKSANGAAGAGSGDPDSDAEDLGAGPDGGRVRRGPDSSKSLEYSQEVTSTEDEPEREGRSLVTTHHEVIRQWAEERDGVPATVEGTEHGDHLGVLRIDFGGEDANLRHVSWDEWFATFDERGLNFIYQEQRSDGQQSNFFRLENPQREDA				NA	NA	NA	NA	NA
D1-17_00644	888			hypothetical protein	ATGGCAGCCGTCCGGGAAATTGTTGTTCAAGACCTGCAAGAACTGATTGCCGTGCTTACCCAGGATGACTGGCAGCCGTCCGAATCCAAGTACCGGATGAATATCGCCTACCGCGGCCTGTCCACAGCGGACTACGAACTGGAGACCGGTCTTGCCCGGCTCCAGAACGGATCAACCGCCGCCCTGGAGGAACACCTGCTGCGGAACTTCCGGAAGTACGCCCACCGCGATGCCGCTCCCGGGGACTCCATCTGGAACTGGCTCAGTCTTGCCCAGCATCACGGACTGCCAACCCGCCTGCTGGATTGGACCTTTTCTCCATACATTGCCTTGCACTTTGCAACCTCGGATCCTGCTTCCTATTCACGTTCGGGCGTCATCTGGTGTGTGGACTATGTTGCGGCGCATGTGCTGCTTCCCGAAGCCCTGGGAAGCCGGGTCAAACCGCTGGACTACGGCCTGTTCACCACCGAGATCCTGCAGGCGGCGGCCGGGACGCTTGCCGAATTCGACGAGTACACCGCCGGCTCCCCCGGAGCCCCGCTCTTCTTCGAACCGCCGTCCCTGGACGACAGGATCATCAATCAGTCCGCCGTGTTTTCCATCATGACCGGCGCTGATGAGTCGCTGGCACGCTGGTTCGAGAACCATCCGGAAGTGTGCCGGAAGGTGGTCATCCCGGCACAGCTCAAGTGGGCGATCCGAAACCATCTTGATCAGGCGAACGTCACCGAGCGCGTCCTGTTTCCGGGCCTGGATGGTCTCTGCCGGTGGCTCACCCGCTACTACGGGGACCGGCCGGAGAAGGTGTATCCCGACTCCCAAATATCGCCCAGCGAACCGACCACTGAAGACCTTGACAAAGCTGCCAAGGCACGAGATAGATAA	MAAVREIVVQDLQELIAVLTQDDWQPSESKYRMNIAYRGLSTADYELETGLARLQNGSTAALEEHLLRNFRKYAHRDAAPGDSIWNWLSLAQHHGLPTRLLDWTFSPYIALHFATSDPASYSRSGVIWCVDYVAAHVLLPEALGSRVKPLDYGLFTTEILQAAAGTLAEFDEYTAGSPGAPLFFEPPSLDDRIINQSAVFSIMTGADESLARWFENHPEVCRKVVIPAQLKWAIRNHLDQANVTERVLFPGLDGLCRWLTRYYGDRPEKVYPDSQISPSEPTTEDLDKAAKARDR				NA	NA	NA	NA	NA
D1-17_00645	216			hypothetical protein	TTGAACAGAGCTGCGAACAAGGTTTACGTCCGGGACGCCCTGACCATGGCGGAGGGGAAGCTCCGAGCGAGGGGAGGGGCCTCCAGGATTACGTGGATGGTCCTGGGCATCGTGGCTGCCGCGGTCACGGGGGCCGTGATCGTCTGGCAGGTCGTCGACCACAGCGACGAGCCGGACGCTGGGCCGGACAAGGAGCCCAACGCAGAACACATGTAG	MNRAANKVYVRDALTMAEGKLRARGGASRITWMVLGIVAAAVTGAVIVWQVVDHSDEPDAGPDKEPNAEHM				NA	NA	NA	NA	NA
D1-17_00646	615			hypothetical protein	GTGACGATGATGGGCGGCGGGGCATCCGAGGAGTTCAGGCGGAGGATGGAACGGCTGTCGGAGCTGCGTGCCGCAAGGGGTGCGGGCATCACTGCCGAGGAAGAGGCCGCGCTTGACGCTGCTGAGGAAGAGGAGCGGCAGAAACGCCGGAAGGTCTCCGACTCGGCGAGAGCCGAATACCTCATCCGGGATGCCATGGCCCAAGGGAAGTTTGACAACCTGAAATACGCCGGCAAACCCATTCCCGGGCTGGGAGAGCGGTACGATCCCGACTGGTGGGTGAAGGGGCTTATCCAGCGTGAACAGCTCTCAGGTGTGGGACCGAAAGCCATCCTCCTCCGGAAGGAGGACGCGGAGTTGGATGCCCGGCTGGATACGCAGTACTCCGAGAAACAGGTACGGGACATGGTCGAGGATTTCAACGCGCGCGTCATCGAAGCGCGGCGCCAGCTTCAGGGCGGCCCGCCGGTGATCACCAAGACCAGAGACCCCGATGCCGAGGTGCAGCGCTGGCGGAAACGCCGCGCCTCCGCCGCTGCAGCCCGCGCTGAAACACCCGCTGAGCCCGAACCCAGGAAATCGTGGTGGCGGCGTCTCTGGACAGGTGAGTCCTAG	MTMMGGGASEEFRRRMERLSELRAARGAGITAEEEAALDAAEEEERQKRRKVSDSARAEYLIRDAMAQGKFDNLKYAGKPIPGLGERYDPDWWVKGLIQREQLSGVGPKAILLRKEDAELDARLDTQYSEKQVRDMVEDFNARVIEARRQLQGGPPVITKTRDPDAEVQRWRKRRASAAAARAETPAEPEPRKSWWRRLWTGES				NA	NA	NA	NA	NA
D1-17_00647	342			hypothetical protein	GTGGACATCGTCGAATTCCTGTCCGTGCGCATTGCGGAGGACGAGGCCGCGGCCAGACGCCTTCTCCGCGACCAGACGCTGTCCAAGTCTGCGCAGTGGTACGAGGAGCGGCTCCTGCTGGAGTGCGCGGCAAAACGCAGGATCATCGGCATCGTCGAGAACGCACGGCAGACAGCCCTGGCGGCGTTCGTGAGCAACCCGTACGCCGAGGGCACGCAGTGGATTCCTGAGGCTCTTGAATGGACCACCCTGTCGCTGAATGCCTTGGCTCTGCCGTATTCCGACCATCCTGAATTTGAGCCGCACTGGCTGTCCGAGGGCCGGGACCGGGACGGGTCTTAG	MDIVEFLSVRIAEDEAAARRLLRDQTLSKSAQWYEERLLLECAAKRRIIGIVENARQTALAAFVSNPYAEGTQWIPEALEWTTLSLNALALPYSDHPEFEPHWLSEGRDRDGS				NA	NA	NA	NA	NA
D1-17_00648	951	mutT1	COG0406	putative 8-oxo-dGTP diphosphatase 1	ATGAGTAAGACCAAGCTGCCCACCTACGGCGCACTGCCTTGGCGTATTGGGCCCAAAGGGGCGGTCGAGGTGCTCCTGATCCATCGCCCCCGTCACCGCGACTGGTCCATCCCCAAAGGCAAAGCAGAACCCGGGGAAACCGGCCGAGAATGCGCGGCACGGGAGGTCCGGGAGGAAACCGGGTTTGAATGCCGCCTCGGCGCGGAATTGCCGCCGATCCGGTATGAGGACAGCAAGAACCGAACCAAAACGATCCGCTACTGGGCGGCGGCCGCCGAATCGGGGCATTTCACCGCCAATGAGGAGGTGGACGCCATCCGCTGGCTTTCACTGCCGGCGGCGCTGCGGACGGTGACTGAGCCGCGGGACAGACCCCCGATCGTGGCGCTGGGCACTCAGCTACACCTGCAGCTAGGGGCCAGTCCCGTGCCGGAACGGGAAAAGATGCTGCTGCTCGTCCGCGGGGCCCACATCATCAGGAACGATAGGGGCAGTACAGGTAACGGCGGTACAGGTAACACCGCACCGTTGGGGGTCAACGGACCTGCTGACACGTCGCTCGCTGCCCTGGGATCCATGTTCGAAATCGAGCGTGTCCTGTCCGCGCCGTCTCCCCGCTGCATCGGCACGGTCGCAGAATTGGCGCGTCGGGAGTCCCTCGAAGTGGAGCCTTCAGACCACCTGGCCGGAGGCAGCCTGGAGGCCACGCTCGACCTGGTGGGGCAGCTGCGCGGGAAGGGCACGGTACTGTGCACCCACGAGGACATCATGGCAGGTATCCTCGCCCACCTCAGCCGTCACGAGCGTACTGTCCTGAACAAGCGCTTCCGCGTCCGAAAGGGGTCGGCATGGGTTGTGACCGGTGATGGCAGCCGCTACCACTCCGCCTACTACCTTCCCCTCTCCGTCCCGGCTCTTGCAGGCAGCGGGGACGGAGACTCCCCCCAGTAG	MSKTKLPTYGALPWRIGPKGAVEVLLIHRPRHRDWSIPKGKAEPGETGRECAAREVREETGFECRLGAELPPIRYEDSKNRTKTIRYWAAAAESGHFTANEEVDAIRWLSLPAALRTVTEPRDRPPIVALGTQLHLQLGASPVPEREKMLLLVRGAHIIRNDRGSTGNGGTGNTAPLGVNGPADTSLAALGSMFEIERVLSAPSPRCIGTVAELARRESLEVEPSDHLAGGSLEATLDLVGQLRGKGTVLCTHEDIMAGILAHLSRHERTVLNKRFRVRKGSAWVVTGDGSRYHSAYYLPLSVPALAGSGDGDSPQ				NA	NA	NA	NA	NA
D1-17_00649	1839		COG1132	Putative multidrug export ATP-binding/permease protein	ATGTTTCGCACTTTTTGGCGATTCCGGAAGGCGGCTGCTCCACACCGCTGGGCAATGGGGGGCGGTGCGCTGCTGATTATTTTCGTGGCAGCACTGCAAGTGGCGCTGCCTTGGCCTATGAAGATCATTGTTGATGATGTTCTGCAGCCGCTGGGCAAATCGGGCGCGGAAACCACGCCGGAGTTCCTGGGCCTCGGCAGCCTCGGCCCGCTCCAGCTGTTGCTGCTGGCCGCATCGGCGCTGCTCGTCCTGACGGTGATGAATGCCGCTGCGGACTATCTGGGCACCCGGCTGCTCAACGGCGTCGGTGAGAAGACTATGGCGACCATCAGGGCGGATGTCTTCGTGCACCTTCAGCGCCTGTCGCTGTCGTTCCATGACAAACAACGCTTGGGCGACCTCGTCACCCGGACCACCACGGACGTGGATTACGTCCGTTCCCTAATGGTGTCCATGCTTTCCGTGCTGCTGCCAAACGTTTTCATTCTGGGCTTCATCACCACTATCTGCGTCCTCGTGGACCCGACCTTCGCCTTGATCGGCTTGGCGGTTGCTCCGCTGATGTTCGTTACCGTCCTTGTGTACCGGAGGCGCATCAAGAGCGCTTCCAGGGAGGCCCGCAGCAAGGACAGCGACATCGCTGCGGCCATGTCCGAGACGTTCGCTTCCGTTCGGGTGATGCACACGTACACGAGCGAAAGGCATCACGAGGAGGCCTTCCGGGTCCGGAACGACGGCCGCATGTATGCGGGCCTGAGGGTCATCAGGCTGCAGTCGATGTTCTCTCCCCTGGTGGACGTGATTGCCACACTGGGCACCGTACTGGTGCTGTGGATCGGGGCGCAGCGAGTGCTGGACGGAAGCATGACACTGGGCCTGCTGCTTGTCTTCATCGCCTACCTCAAAGCGATGTATGCGCCCATGAAATCCTTGGCGAAACTGACCACCGTGATCAGCCGCGGCCAAGCGAGCGCTGAACGCATCCAGGAAATCCTGGACACCGCTCCTGCCATAACGGACACACCGGGCGCTGTTCCAGCCCCGCGCCTGACTGGACGAATGGAGCTGCGGAATGTCAGCTTCGGCTATCAGGAGCGGGACGTCCTGCGCGGGATTAGCCTGAAGGCGGAACCGGGGAGCCTGGTGGCCATTACGGGTCCGACGGGTGCCGGAAAATCGTCCCTTGTGAGTCTGATTCCGCGGCTCTACGACGTCACCGAGGGGGCCGTGCTGCTCGACGGGACTGATGTCCGGAAGCTGCAAATTCCCTCTGTCCGCAAACAGGTTTCGATGGTTCTGCAGGAGTCCATCCTGTTCCGCGGCAGCATCTACGACAACATCGCCTATGGCTGCGAAGGCGCCACCCGGGAGCAGGTGCTCGCAGCAGCAGAGGCGGCATACGTGGACGAGTTCGTCCGCGATCTGCCCCATGGATACGACACGCCGGTGGCAGAGCGGGGCGTCACGCTCTCAGGCGGACAACGCCAGCGCATCGCGATAGCCCGCGCGCTCATGCGGGATTCACCAATCGTCATCCTCGACGAACCGACTTCAGGCCTGGACGCGATCTCCGAGCAGTACGTCATGCACGGGCTCGACCGGCTCATGGCCGGACGCACCGTGATCGTCATCGCCCACAGGCTTTCCACGCTCAAGCGTGCCGACAGGATCTACGTCCTCGACCATGGCCGGATCATCGAAAGCGGCCGGCACGAAGAGTTGGTCGCAGCGGGCGGCCTGTACAGCCGGCTCGATGAAATTCAGCACCCCCAGGAACCCGCTATTCCGGCCATGGCCCCGGTACGGGCTCAAAGCATGCAGACGGAGGCAAGAGTATGA	MFRTFWRFRKAAAPHRWAMGGGALLIIFVAALQVALPWPMKIIVDDVLQPLGKSGAETTPEFLGLGSLGPLQLLLLAASALLVLTVMNAAADYLGTRLLNGVGEKTMATIRADVFVHLQRLSLSFHDKQRLGDLVTRTTTDVDYVRSLMVSMLSVLLPNVFILGFITTICVLVDPTFALIGLAVAPLMFVTVLVYRRRIKSASREARSKDSDIAAAMSETFASVRVMHTYTSERHHEEAFRVRNDGRMYAGLRVIRLQSMFSPLVDVIATLGTVLVLWIGAQRVLDGSMTLGLLLVFIAYLKAMYAPMKSLAKLTTVISRGQASAERIQEILDTAPAITDTPGAVPAPRLTGRMELRNVSFGYQERDVLRGISLKAEPGSLVAITGPTGAGKSSLVSLIPRLYDVTEGAVLLDGTDVRKLQIPSVRKQVSMVLQESILFRGSIYDNIAYGCEGATREQVLAAAEAAYVDEFVRDLPHGYDTPVAERGVTLSGGQRQRIAIARALMRDSPIVILDEPTSGLDAISEQYVMHGLDRLMAGRTVIVIAHRLSTLKRADRIYVLDHGRIIESGRHEELVAAGGLYSRLDEIQHPQEPAIPAMAPVRAQSMQTEARV				NA	NA	NA	NA	NA
D1-17_00650	336			hypothetical protein	ATGGGAGGCGTGTGGCTTCGCACGATCAGCCACAGTATGGTCCGTGCGGACAGGGTCACCGAAATCGCGTCCTCCCGTGGCTCAGTTCACGAGGAGACGGGTTATTCCCTGAAGGTGGTGGTCGACGGCAAGGCCCACATCCTTGTCGACAACAGCACCCTTCCGGGCACCATGGAGGAAAGACTCGCGCATGCCCAGCAAATGCAGGATACGCTGCTGGCCGCGATCGATGCAGCCAACAGTGAAAGCACCTCCGTTGTGATCAGTCACGAACCGGACGGCGAGCGGTGGATGCTGGCTGCGACGGCTGACCTGGCCGGCGAACCGGCCACTTAG	MGGVWLRTISHSMVRADRVTEIASSRGSVHEETGYSLKVVVDGKAHILVDNSTLPGTMEERLAHAQQMQDTLLAAIDAANSESTSVVISHEPDGERWMLAATADLAGEPAT				NA	NA	NA	NA	NA
D1-17_00651	222			hypothetical protein	ATGAACCATCACGAAAAAAGCGCCTCAGAAAATTCCCTGCAAGCCGTGCGCGCCGATGAACGGCCGGACCTCAGAAGCATTCACGTGCGCGAGGACGTGGCACGGGCAGGCCGCTGCGGCAACGTGCATCTGGCCACGGGCCGCACGTGCATCCTGCCCGAACGACATCACGGTTCCTGCGAGTTCGTCCGGCCGGATGATGCCAGCGGCCTCGCCCAATAA	MNHHEKSASENSLQAVRADERPDLRSIHVREDVARAGRCGNVHLATGRTCILPERHHGSCEFVRPDDASGLAQ				NA	NA	NA	NA	NA
D1-17_00652	144			hypothetical protein	ATGACCGAGAACCTGGAAGGGATGCCGCGCATCCACAGCGAGGCTCCTGCCGAAGGGGATGAGACCGCTGATCCGACAGATATCCGCATGCATTCGCAGGATCCGGCCGAAGGCGCTGACTCCCCGGAACGGCCGGTCACGTAA	MTENLEGMPRIHSEAPAEGDETADPTDIRMHSQDPAEGADSPERPVT				NA	NA	NA	NA	NA
D1-17_00653	1545	accD3_1	COG0777	Putative acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	GTGAGCACCCTGACGCAGCAGAAGCCCCGGCACCTGGATGCCACCGAACTCATCACCGCCGTGCTCGATCCCGGCTCCTACAAGAGCTGGGACACCCCGGTGGCGGACCCCGACCCGGCCCCCGAGTACCGGCAGGAGCTGGCCGCTGCCCGGGAAAAGACCGGCGTGGACGAATCCGTCCTGACCGGTGAAGGGCTTATCCGCGGCCGGCGGGTAGCCGTCATCGTCAGCGAATTCCGTTTCCTGGCCGGCTCCATCGGGCTCGCCGCAGCCGAACGGATCGTGAACGCCGTCGAACGCGCCACCAGGGAGGGCCTGCCCCTCCTGGCGGGACCGGCGTCGGGCGGTACCCGCATGCAGGAAGGCACCATCGCGTTCCTCTCCATGGTGAAGATCAGCGCGGCGGTCCGGGCCCACCGGCAGGCCGGACTGCCCTACCTCGTCTACCTGCGCCACCCCACCACCGGCGGCGTCATGGCCTCCTGGGGCTCCCTGGGGCACATCACCGTGGCCGAGCCCGGCGCCCTCCTCGGATTCCTGGGTCCGCGGGTGTATGAGGCGCTGCATGGTTCGCCCTTTCCCGAGAACGTCCAGGTCGCCGAAAACCTCTTTGACAAGGGACTCGTGGACGCTGTGGTCCCGCCCTGGCAGCTGTCCGACGTCGTGGACCGCGCCCTGAGCATTCTGGTCGCGGGACCGCACGCTCAGGTCCGTCCGCCAAGGACGCTGTCCGTGGGGCCGTCCGGCTCCGGCGCCTGGGAATCCATCGAGATCTCCCGCAACCCGCGCCGCCCCGACCTCCGGCAGCTCCTCGCGCACGGAGCCCGCGACGTGCTTCCCCTCAACGGAACAGGCCAGGGCGAAAAGGATCCCGGACTGCTCCTGGCACTGGCCCGCTTCGGACAGAAGTCCTGCGTGGTGATCGGCCACACCCGGCCGCGGCCCTCCCAGCAGACGGCGATGGGGCCGGCTTCACTCCGCGAGGCACGGCGCGGCATGCGCCTGGCCGAGGAGCTCGGCCTTCCCCTGGTGACAGTGATTGACACCGGCGGTGCAGCACTGTCCAAGGAGGCCGAGGAGGGCGGGCTTGCCGGCGAGATCGCCCGGTCCCTTCACGATCTGATCGGCCTGACCTCGCCCACAGTGTCGGTGCTGCTGGGCCAGGGCACCGGAGGCGGCGCCCTGGCCCTGTTCCCGGCCGACCGCACCATCGCCGCCCAGCACGGCTGGCTGTCCCCGCTGCCGCCCGAGGGAGCAAGCGCCATCGTCCACCGCAGCACCGACTTCGCCCCCGCCATGTCCGAGGCGCAGGGCGTCAACGTCGCCTCGCTCTACGCGCACGGCATGGTGGAACACATTGTGGACGAGCGCCCCGACGCGGCCCTCGAAGGCCGGGCGTTTTGCCAACGGATGGGACAGGCCATCGAATACGAACTTGCTGCGCTCTCAGCGTCCGGAGTGGCAGAGCTCCTTCCCCGGAGGCTCGAAAAGTACCACCGCCTGGGCGTGCCATTCCCAGCCGGTGCCGTAGCGGCTGACGGCTAG	MSTLTQQKPRHLDATELITAVLDPGSYKSWDTPVADPDPAPEYRQELAAAREKTGVDESVLTGEGLIRGRRVAVIVSEFRFLAGSIGLAAAERIVNAVERATREGLPLLAGPASGGTRMQEGTIAFLSMVKISAAVRAHRQAGLPYLVYLRHPTTGGVMASWGSLGHITVAEPGALLGFLGPRVYEALHGSPFPENVQVAENLFDKGLVDAVVPPWQLSDVVDRALSILVAGPHAQVRPPRTLSVGPSGSGAWESIEISRNPRRPDLRQLLAHGARDVLPLNGTGQGEKDPGLLLALARFGQKSCVVIGHTRPRPSQQTAMGPASLREARRGMRLAEELGLPLVTVIDTGGAALSKEAEEGGLAGEIARSLHDLIGLTSPTVSVLLGQGTGGGALALFPADRTIAAQHGWLSPLPPEGASAIVHRSTDFAPAMSEAQGVNVASLYAHGMVEHIVDERPDAALEGRAFCQRMGQAIEYELAALSASGVAELLPRRLEKYHRLGVPFPAGAVAADG				NA	NA	NA	NA	NA
D1-17_00654	1269	yfdE_1	COG1804	Acetyl-CoA:oxalate CoA-transferase	ATGAGCACCGAATCAATGACACCGGCCGAGGGTCCCCTCTCCGGCTACCTCGTGGTGGATCTAAGCCGCGCGCTGGCAGGCCCGCATGCCGGAATGATGCTGGCCGACCTCGGCGCGCGGGTCATCAAGGTGGAAAGCCCGGGCACGGGAGACGACACGCGCGGCTGGGGGCCGCCGTTCGTCGGCCCGGAGGATGATCCCCAGGCCACCTATTTCCTGTCGTGCAACCGCAACAAGGAATCGATCGCACTGGATCTGAAGAGTGATGACGGCCGGACGGTCCTGCGCGAGCTGCTGGAGCGGGCGGACGTGGTGATCGAGAACTTCCGGCCCGGGGTCCTGGACCGGCTCGGTTTCTCGGCTGCTGAGATGCACGCGCTGAACCCTTCGCTGGTGGTCCTGTCCATCACCGGTTTCGGGCACGACGGGCCCGAGTCCCGGCGCAGCGGCTACGACCAGATCCTCCAGGGCGAGGCCGGGCTGATGTCCCTGACCGGTTCCGGGCCCGATGACCCGCAGCGGGTGGGCGTGCCCATCGCGGACCTGCTCTCGGGCATGTACGGGGCGTTCGGCACGCTCGCGGCGCTGCTGCAGCGCGAGCGGACGGGCCAGGGCCAGATCGTGCGGACCTCACTCCTCGCGGCGCTGATCGGGGTCCACGCCTTCCAGGGCACCCGGGCCACCGTCGCCGGCGAGGTCCCGAAGGCCCAGGGCAACCACCACCCGTCCATCGCGCCCTACGGCCTGTTCCACTGCCGGCAGGGCCGGGTGCAGATCAGCGTGGGCAGCGAGAAGCTGTGGGCCGCTTTCGCCTCGGCCTTCGGGATCGATGCCGGCCGTCCGGAATTCGCCTCCAACGCCGACCGGGTGCGGAACCGGGAGAAAGTCATCGAAGAGGTGGAACGCGTCTTCGCCGATTACGAGGCGGAAGCGCTGCTCACGAAACTGAACGAGGCCGGAATCCCGGCAGGCAAGGTCCGGACCCTGGACGAGGTCTACGAATGGGAGCAGGTCCACTCACAGGGCCTGGTGATCGACGTCGACCACAAACTCCTCGGCAACGTTAGCCTCCCGGGCCCGCCGCTGCGCTTCTTCACCGCCGCGGACACCGCGGAAACCACCCTCAAAAGCCACACCGCCCCGCCGCTGCTGGACCAGGACGGAGCGCAAATCCGGCAATGGCTCGGCCTGGTTCCCGCCGATGCCGCAGCCTCCGCGGGGGTTTCAGCCACTGCCGGAGCCGCAGCTTCTACCGGGGAGGGCCGGTGA	MSTESMTPAEGPLSGYLVVDLSRALAGPHAGMMLADLGARVIKVESPGTGDDTRGWGPPFVGPEDDPQATYFLSCNRNKESIALDLKSDDGRTVLRELLERADVVIENFRPGVLDRLGFSAAEMHALNPSLVVLSITGFGHDGPESRRSGYDQILQGEAGLMSLTGSGPDDPQRVGVPIADLLSGMYGAFGTLAALLQRERTGQGQIVRTSLLAALIGVHAFQGTRATVAGEVPKAQGNHHPSIAPYGLFHCRQGRVQISVGSEKLWAAFASAFGIDAGRPEFASNADRVRNREKVIEEVERVFADYEAEALLTKLNEAGIPAGKVRTLDEVYEWEQVHSQGLVIDVDHKLLGNVSLPGPPLRFFTAADTAETTLKSHTAPPLLDQDGAQIRQWLGLVPADAAASAGVSATAGAAASTGEGR	PGPT0014505_473	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0014505-uctC|yfdE-K18702	NA	NA
D1-17_00655	1410			hypothetical protein	ATGTCCGCTCCCGTCCTATCCATCATCGTCCTGGCGGTGATGTTCCTGCTGGCCACGGTGCTGCCCCTCAACATGGGCGCCCTGGCTTTCGTGGGCGCATTCCTGCTGGGATCGGTCTTCCTCGGAATGTCTACCAGCGATATCCTCGCCAACTTCCCAGGCGGCCTGTTCCTGACCATCGTCGGCGTCACCTACCTGTTCGCGATCGCGCAGAACAACGGCACCATTGACCTCTTGGTGCGCGGCGCGGTCCGACTGGTCGGCAACAAAGTTGCCCTCATCCCCTGGGTGATGTTCGCCATCACCGCGCTGATCACCGCAGTGGGCGCCCTGTCTCCCGCCGCCGTCGCCATCATCGCGCCCATAGCGCTGAGCTTCGCCGCGAAGCACAAGATCAACCCGCTCATGATGGGCATGATGGTCATCCACGGCGCACAGGCGGGCGGCTTCTCCCCCATTGCCGTATACGGCGTCACGGTCAACGGCATCATTGCCAAAACGGATCTGGAAGCCAGCCCCGTGGCGATCTTCCTGGCCAGCTTCATCTTCAACCTCGCCATCGCCGTGGTGCTGTCCGTCGTGCTGGCCGGCACCAGGTTCCGCTCCACCAAGGCTGGCCGGCTGGTTGAGCAGGCCGCCGAGACCCGGATGTCCGTCAGTGTCGGCGCCCGCGCGGCCGGCGCCACCCTGCAGGGTTCCGGTTCGGACATCTCGACCGCCGGCGGCTCAGCCAAGGGCACCTCTGACGGCTCCGCGGCATCTTCGTCCTCAGCTGCCGGTGACAGCACTGTAGGTCCTCACGGTGCCCGCGCCAACGCCGCCCAGCTCGTCACCATGGCCGGACTGATTGCCCTGGCGGTCATCTCCCTCGGCTTCAAGGTGGACGTCGGCTTCGTCTCCATCACGATCGCCATCGTCCTTGCCCTCGTGTCCCCTGCCGCCCAGAAGGGAGCCGTGAACAAGATCAGCTGGTCCACCGTACTGCTCATCTGCGGCATGCTGACCTTCGTAGGCGTCCTGGAGGAAGCAGGCACCATCAAGTTCGTCTCCGACGGCGTGGCGCAGCTGGGCATGCCGCTGCTGGCGGCGCTGCTGATCTGCTACATCGGTGCCATCGTTTCGGCGTTCGCCTCCTCCACCGCCATCCTCGCCGCCCTCATCCCGCTGGCGGTTCCGTTCCTGGCCAGCGGCGAGATCGGCGCAGTCGGCGTTATCGCCGCCCTGGCAGTTGCCTCCACCATCGTTGACGTCTCGCCCTTCTCCACCAACGGCGCCCTGGTACTGGCCAACGCCCCCGAGGACGTGGACAAGGACAAGTTCTACAAGCAGATCCTGGCCTACAGCGGCGTCGTCGTTGCTGTAGGACCGGCCGTCGCCTGGCTCGTCATGGTCGTGCCGGGCTGGATGTAG	MSAPVLSIIVLAVMFLLATVLPLNMGALAFVGAFLLGSVFLGMSTSDILANFPGGLFLTIVGVTYLFAIAQNNGTIDLLVRGAVRLVGNKVALIPWVMFAITALITAVGALSPAAVAIIAPIALSFAAKHKINPLMMGMMVIHGAQAGGFSPIAVYGVTVNGIIAKTDLEASPVAIFLASFIFNLAIAVVLSVVLAGTRFRSTKAGRLVEQAAETRMSVSVGARAAGATLQGSGSDISTAGGSAKGTSDGSAASSSSAAGDSTVGPHGARANAAQLVTMAGLIALAVISLGFKVDVGFVSITIAIVLALVSPAAQKGAVNKISWSTVLLICGMLTFVGVLEEAGTIKFVSDGVAQLGMPLLAALLICYIGAIVSAFASSTAILAALIPLAVPFLASGEIGAVGVIAALAVASTIVDVSPFSTNGALVLANAPEDVDKDKFYKQILAYSGVVVAVGPAVAWLVMVVPGWM	PGPT0031365_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ERYTHROCHELIN_TRANSPORT,PGPT0031365-etcK-NA	NA	NA
D1-17_00656	708	lutR_2	COG2186	HTH-type transcriptional regulator LutR	ATGCCGAAGAAAACAGCTACACAACAGATCTCGCGCGTCGCAAGGCCGCGGCTCTATGAGCAGCTGGTGGAGCAGCTCATGGACTTCATCGAGTCGGCCCAGTTGGGCCCTGGGGACACCCTGCCGGCAGAGCGTGACCTCGCCGAGCGGCTGGGGGTGTCGCGGGCAACGTTGGCCCAGGCGCTCGTGGCTCTGGAAGTGCTCGGCGTCATCGATGTCCAGCACGGGACAGGCGCCGTGCTGGTGTACCGCCCGAATGTCCCGTCCGTGATCAAAGGACTGCGCGAGCACCGCAGCAGGCTTCCGGAAATTGTTGAAGCGAGGAGCACCCTTGAGGTGAAGCTGGCGGAACTTGCCGCCGCCAGGCGGACCGCTGCGGACATGAAGGCCATCGACAAGGCGCTGGACGCGATGGCCGAGGAAGTGGCCTCCGGAGATAAGGGGGCACGTGGCGACGAGCTGTTCCATCAGGCGGTCACCGCGGCCGCGCACTCCGCTGTCCTCGCCCAGCTCATGACCTTCATCGCCGGAATGATCCTCGAAACGCGCCTCGAGTCGCTCGGACAGCCGGGCCGGCCTGAGCAGTCGCTTGCGTCCCACGGGAAAATCGCCGATGCCATCCGGGCCCAGGATCCCGCGGCGGCAGCGGCGGCGATGCTGGAGCACATTGACCTCGTCTCCGACGTTGCCCTCCTTAAGCAGTCATGA	MPKKTATQQISRVARPRLYEQLVEQLMDFIESAQLGPGDTLPAERDLAERLGVSRATLAQALVALEVLGVIDVQHGTGAVLVYRPNVPSVIKGLREHRSRLPEIVEARSTLEVKLAELAAARRTAADMKAIDKALDAMAEEVASGDKGARGDELFHQAVTAAAHSAVLAQLMTFIAGMILETRLESLGQPGRPEQSLASHGKIADAIRAQDPAAAAAAMLEHIDLVSDVALLKQS				NA	NA	NA	NA	NA
D1-17_00657	738			hypothetical protein	ATGAAGCCGTTTCTGTTGCTCGCGTCGAGGGCAGAGGATGTTGCCGCCGATGACGAGTACGAGGCCTATCTGCGGTACGGAGGGCTGGAACCGTCGCAGCTGAAGCGGATCCGCATGGAGCAGGGCCCGCTGCCGGAGCTGGACCTGGACGACTACTCAGGGGTGATCGTTGGCGGCAGCCCCTTCACCTCCAGCGATCCGCCGGAGAAGAAGTCGGAGACGCAGCAACGCGTGGAACGGGAACTCGCGGCACTGCTGGACCGCATTGTCGCCGAGGACTTCCCGTTCCTCGGTGCCTGCTATGGCGTCGGCACCCTTGGTTTGCACCAAGGGGCGGTCATAGACGGGACGTACGGGGAGCAGTTGGGCGGGGTGACCATCAGCCTGAGCCCGGAGGGGCTGGAGGATCCGCTGCTGGCAGGGCTGCCGGCGCAGTTCACTGCCTTCACCGGCCACAAGGAAGGCTGTACAACCCTTCCCTCCCATGCGGTGCTGCTGGCGAGCTCGGAGGCCTGCCCGGTGCATATGTTCCGCATCAAGAAGAATCTGTATGCGACGCAGTTCCACCCGGAACTGGATGCGGAGGGCCTTGTAACGCGGATCGACATCTACCGCCACGCAGGGTATTTCCCGCCTGAGTCCGCCGAAGAGCTGATGGCTGCCGCCCGCACCTTCACCGCCACCGAGCCGATGAAGATCCTGCGGAACTTCGTCAAGCTTTACGCCAGCGATCACTGA	MKPFLLLASRAEDVAADDEYEAYLRYGGLEPSQLKRIRMEQGPLPELDLDDYSGVIVGGSPFTSSDPPEKKSETQQRVERELAALLDRIVAEDFPFLGACYGVGTLGLHQGAVIDGTYGEQLGGVTISLSPEGLEDPLLAGLPAQFTAFTGHKEGCTTLPSHAVLLASSEACPVHMFRIKKNLYATQFHPELDAEGLVTRIDIYRHAGYFPPESAEELMAAARTFTATEPMKILRNFVKLYASDH	PGPT0021580_6479	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
D1-17_00658	399			hypothetical protein	ATGACAGCCAACTACGTTACAGCTTTTTCAGTAAAATCATTCGACGTTCCGGATAAAAAGAGGCACCCGGATAAGGCGCAGGTGGATCTCGTCAGCGTCAACGACTATTCCGTCGCCCGGCTCATCCTGGCCCCCGGCTGGCGCTGGTCTGAAAGCTCCCAGCCCACGGAGAAGACGGATTTCTGCCAGCACAACCACCTCGGATTCTGCATCTCCGGAACGTTGGAGATCACCACCCCCGACGGCCTCACGAAGATCATCCGCGCCAACGACATCTACGCCATTCCTCCCGGACACGACGAATGGGTGGTGGGTTCCGAACCTTTCGTAGCTGTCGAGTTCCTGGGCGCGGCCTCGTTCGGCAGGGTCTCAAGCCACGGACAGCACGCCCGCATCTGA	MTANYVTAFSVKSFDVPDKKRHPDKAQVDLVSVNDYSVARLILAPGWRWSESSQPTEKTDFCQHNHLGFCISGTLEITTPDGLTKIIRANDIYAIPPGHDEWVVGSEPFVAVEFLGAASFGRVSSHGQHARI				NA	NA	NA	NA	NA
D1-17_00659	1950			hypothetical protein	GTGGCCATAAAGCGTGGCCACTCCCACCGGTCCTCCGTCTCCAAGGAACCCAAAATTCGTTCTTCACTGCGAACCCGCCCGGCATTGGCCACGCTCCTCCTCACGGCACTCGCCGTGACCTCGGCGGGCGTCACCTCCGCAACCGCGGAGGCTGCCGCTGATTCCGCCGCCGATTCGTCAGCGATCGGTGCCACCGATTCCGGGAAGCAGGCCGGAACTGCCCGCTACCTGGTGCGCTACATCTCCGGAACGGATGTGGTTAAGGAGGCCGGCAAACTGCGCTCACGGAAGATCGCCGTCGGACGGACTTTCGAGAAGGCGCTGGCCGGCGCCGTAGTGACCGCGACGCCCTCGCAGGCTGCTGAACTAAAGCGCTCCAGCCAGGTGGCCGCCGTCGAGATCGACACTCCCGTGACGACCTCCGAGACCCAGCAAACGGCACCCTGGGGCCTGGACCGCATCGACCAGCGCAGCCTGCCCCTCTCCGGCTCGTACACGGCGGCCGCGCCGGGCTCAGGAGTGAACGCCTACGTGATCGACACCGGCATCCTCGCATCCCACGCCGACTTTGGCGGCCGCGTCGGCGCCGGGTGGAGCGCCGTCGCCGACGGCCGAGGGACTGGAGACTGCAACGGCCACGGAACGCATGTGGCCGGCACCATCGCGGGCAAGACGTACGGCGTGGCAAAGGCAACCACTCTCATCCCCGTGCGCGTCCTGGACTGCGCAGGGTCCGGCTTCAACTCCGACGTCATCGCAGCCCTGGAGTGGGTGGCCGCGCACCACCAGCCCGGCACGCCCGCCGTCGCCAACATGAGCCTTGGGGGCACCGCCAGCAACATGGTGGACACCGCCGTGCAGGCGCTCGTCAATGACGGGGTGACAGTAGTGGCTGCAGCAGGCAATTCCGCTGCCGATGCATGCACCAGCTCACCTGCCCGCGTTCCTGACGCGCTTACCGTAGCCGCGAGCGACGCATCGGACCGCCAGGCGTCCTTTTCAAACTCCGGCGCCTGCGTTGACCTGTATGCGCCGGGCGTAGGAATTGCGTCGGCCGGGACAGCTTCGACAACGGCCACGGCCTCGATGAGCGGCACCTCCATGGCGGCTCCGCACGTGGCGGGCGCCGCTGCCGCCATTCTCTCGCGGTCTCCTCAAGCAGAACCCGCCGCGGTAGCCGCCCAGCTGCTCTCCGGCGCAACCCCCGCCGCCATCACCGCTGCCGCCGCCGGTACGCCGAACCGTCTGCTGTATTTGGACCCGGCTACGGGAACGGTCGCAGCACCCGTGACTACTCCGCCCGCAACCTCAGCGCCGACGGTTACGGCCCGCACTCCGGGAGCGGGAGGCACCGGCGTTGCCGGCGGAAGCAACGTCACTGCCACCTTCAGCACCGCCGTCCAAGGCGTCGCCGGCAGCAGCTTCCTGCTGAAGAACGCGGCGGGGACCCTGGTGCCGGCTGCTGTCACCTACAACGCCACCACCCGCACTGCCACGCTCGATCCCGCCTCCACACTCCTGAACGACACCAAGTACACGGTGACCCTTGTCGGCGGAAGCTCGGCCATCCGTGACGCTGCAGGCACTCCGCTCACCACCACCAGCTGGACATTCACCACTGGCCCTGCGCCGGTGATCACCGCAGTGACCCCGAAGCCCGGGGCCAGCCTGGTCCGTCGCGCCAACAACATTGCCGTCACGTTCAGCGAGGCGATCCAGGGAGCGGGTACTGGCACCATCTTCGTGAAGAACGCCGCTACCGGTGCCACCATGGCAGCGACGGTGTCCCGCTACGGGACCACGAATCAGTGGATCCTGAACCCCGCAGCTACGCTGGCCGCCAAAACCCGATACACGGTCACTGTCGCCGGCGGGTCGGCAGGCATCCGCGACCTCGCCGGCAACAGCCTGACGACCTACACCTGGACCTTCACTACCGGGTCGTTCTAG	MAIKRGHSHRSSVSKEPKIRSSLRTRPALATLLLTALAVTSAGVTSATAEAAADSAADSSAIGATDSGKQAGTARYLVRYISGTDVVKEAGKLRSRKIAVGRTFEKALAGAVVTATPSQAAELKRSSQVAAVEIDTPVTTSETQQTAPWGLDRIDQRSLPLSGSYTAAAPGSGVNAYVIDTGILASHADFGGRVGAGWSAVADGRGTGDCNGHGTHVAGTIAGKTYGVAKATTLIPVRVLDCAGSGFNSDVIAALEWVAAHHQPGTPAVANMSLGGTASNMVDTAVQALVNDGVTVVAAAGNSAADACTSSPARVPDALTVAASDASDRQASFSNSGACVDLYAPGVGIASAGTASTTATASMSGTSMAAPHVAGAAAAILSRSPQAEPAAVAAQLLSGATPAAITAAAAGTPNRLLYLDPATGTVAAPVTTPPATSAPTVTARTPGAGGTGVAGGSNVTATFSTAVQGVAGSSFLLKNAAGTLVPAAVTYNATTRTATLDPASTLLNDTKYTVTLVGGSSAIRDAAGTPLTTTSWTFTTGPAPVITAVTPKPGASLVRRANNIAVTFSEAIQGAGTGTIFVKNAATGATMAATVSRYGTTNQWILNPAATLAAKTRYTVTVAGGSAGIRDLAGNSLTTYTWTFTTGSF				NA	NA	NA	NA	NA
D1-17_00660	540			hypothetical protein	ATGACCAATACTTCAGCGACCCCACAACGCCGCCCCCTGGCTAAGCTCGCCTTGGTTTCCGTGGCATCCTTGGGCCTCATCGGTGGTTCCGTGGCGGTAGCAGGACCGGCATCAGCCGGGGGTTACGACTATAAAGAGAGAGAGAAGAAGGTTGAGTGTTGGGTCGACGCCAAGAAGGTTGACCACAAAGAGAATTACGGCCATTACTCAGACAACCGGAAGAAGAGGGACAAGGCTGACGTCAAATTCGAGTTCAAAGTCTGGTGCGACAAGAAGACCGATGTGAAGTTCGAGCATTGGATCTTCCAGAAGAGGCCCAACGGCAAATGGGTCCTGATCAAGCACAAAGACGGCAAGATTGACAACGTTAATAAGGAAGGCGTACGGAAGCACACCAAGGCTGAGGTCAAGGATTTGGGCCGCAAGGGCGGCGAGGAAAAAGTCTTCCATGTGGTGAAGATCAAGTTCCACACCGGCAAGCACCACGTGACCAAGGCTGACCACGAATATGGAACGGTCGATTTCGGTCGCCGATACTGA	MTNTSATPQRRPLAKLALVSVASLGLIGGSVAVAGPASAGGYDYKEREKKVECWVDAKKVDHKENYGHYSDNRKKRDKADVKFEFKVWCDKKTDVKFEHWIFQKRPNGKWVLIKHKDGKIDNVNKEGVRKHTKAEVKDLGRKGGEEKVFHVVKIKFHTGKHHVTKADHEYGTVDFGRRY				NA	NA	NA	NA	NA
D1-17_00661	1077			hypothetical protein	ATGAAACGTATCGGCTTCCTCTCATTCGGGCACTGGGGACCTGTGCAGGGTTCGCGCACCCGGTCTGCACGCGACTCCCTGCTGCAGGGGATCGAGCTGGCAGGCGCCGCCGAGGAGCTGGGCCTCGACGGGGCGTTTTTCCGCGTACACCACTTCGCGCGGCAGCAGGCTTCGCCCTTCCCGCTCCTGGCTGCCATCGCTGCCAGGACAAGCCGGATAGAGCTGGGCACCGCCGTGATAGACATGCGCTACGAAAATTCCCTATACATGGCGGAGGAAGCCGCCGCCACAGATCTCATCAGCGGCGGCCGGCTGCAGCTTGGCATCAGCCGGGGCTCACCCGAGCCCGCCAAGAACGGTGCCGCTGCCTTTGGCTACGTTCCGCGGCCTGGCGAGTCCGACGCTGACATGGCACGCCGGCATGCGGCGGAGTTCCGAAGGGCCGTCGCCGGTGCGGGCGTGGTGGAGGCCGATCCGCGCTACTCCGGCGGAGCCACCGGCCTGCTGCCTATTCAGCCACGTTCGCAGGGCCTGGAAGAGCGGATCTGGTGGGGCGCCGGCACACGCAAGACCGCTGTCTGGGCAGCGGAACAGGGGATGAACCTCATGAGCTCCACGCTGCTGACGGAGGACACAGGGGTTCCTTTCGACGAGCTGCAGGCCGAACAGATCACGCTGTTCCGGGAAGCGTGGTCAACTGCAGGCCACAGCCGCCAGCCGCGCATTTCGGTCAGCCGCAGCATTATCCCGCTTGTCGATGACGAGGACCGGCAGTACTTCGCGCTCAGCGCCCTGCGTGAGAGCAGGGATCAGGTCGGTCCCCTTGACGGTGCCCTCGCCCGCTTCGGCAAGAGCTATATCGGTGAGCCCGACGCTATTGCCGCGGAACTGGCAGCGGACGCCGCGGTGCAGGCCGCGGACACTGTGCTCATGACCGTACCGAACCAGCTGGGCGTGGACTACAACAGCAAAATGCTGGAAACGATCGCCACCCATGTTGCCCCGGCCTTCGGATGGCGTCCAAAGATACCAATTTCGGACGAGCCTGTTCGCGGGGCATGGTGGACGCCAACATAG	MKRIGFLSFGHWGPVQGSRTRSARDSLLQGIELAGAAEELGLDGAFFRVHHFARQQASPFPLLAAIAARTSRIELGTAVIDMRYENSLYMAEEAAATDLISGGRLQLGISRGSPEPAKNGAAAFGYVPRPGESDADMARRHAAEFRRAVAGAGVVEADPRYSGGATGLLPIQPRSQGLEERIWWGAGTRKTAVWAAEQGMNLMSSTLLTEDTGVPFDELQAEQITLFREAWSTAGHSRQPRISVSRSIIPLVDDEDRQYFALSALRESRDQVGPLDGALARFGKSYIGEPDAIAAELAADAAVQAADTVLMTVPNQLGVDYNSKMLETIATHVAPAFGWRPKIPISDEPVRGAWWTPT				NA	NA	NA	NA	NA
D1-17_00662	246			hypothetical protein	ATGAGCGACTCCAACAACCCGGCACACGAGTCTCCCGAACTTCAGGGCCCCGGTGACCCTGACGCCGTCGAACCCGGTCAGCCCCAGCCCGGGGCGGGCAACGCGCACAACATCCGCGAAGAACAGCTGACGCAGGCCGCAGGTACGGTTCCCGCCAGCTATGTGGGCAGCGGAACATCCGGCTCCAGGCCAAAGCCTGAAGAAGCGGCGGATGAGTCGGGGATGCGGGACTCGGAGGAAAAGTAA	MSDSNNPAHESPELQGPGDPDAVEPGQPQPGAGNAHNIREEQLTQAAGTVPASYVGSGTSGSRPKPEEAADESGMRDSEEK				NA	NA	NA	NA	NA
D1-17_00663	666			hypothetical protein	ATGACCATGCGCAATATCCAGGCGCCTTCCGTGCCGGCTTTCAACTCCCCCGACATCAGCCAGGCGGTCGCCGCGCTGCGCCTTAGATTGTCCGACGGCGCCCGGATCCTGTTGGGCGTGGCAGGCGCTCCCGGGGCGGGGAAATCCACTTTCTCGGCCTGCCTCGCCAATGCGTTCGGTCAGGAAGGGGCCCTGGTGGTTCCCATGGATGGATTCCACCTTGGGAATGCGATCATCGACGGAACGCCGCTGAAGCAGCGCAAGGGCGCTCCGGACACGTTTGACGTCGGCGGTTACGTAACGCTGCTGCAGCGGCTGCGACGCCGGGACGAGGAAGTGGTGTACGCGCCCGACTTCCGGCGGTCCATCGATGAACCGGTAGCCGCGTCCATAGCGGTCCCGGCGGCCGTGCCGCTCATCATCACAGAGGGTAATTACCTGCTGAGTGACGATCCGGGATGGCAAATGGTGCGGGCACAGCTGGACGAGGTGTGGTTTATCGAGACCGTCCGTGAACTGAGGCTTTCCCGCCTTGTGGAACGCCACATGCTCTTCGGGATGGACCGGCCGGCAGCCGAGGCGTGGGCTGCCGGCTCGGACGAAGCAAATGCGCGGCTGATCGCCGGAACGCGGCAGCGGGCCGACCGGATCATCTCCTGGAGCTGA	MTMRNIQAPSVPAFNSPDISQAVAALRLRLSDGARILLGVAGAPGAGKSTFSACLANAFGQEGALVVPMDGFHLGNAIIDGTPLKQRKGAPDTFDVGGYVTLLQRLRRRDEEVVYAPDFRRSIDEPVAASIAVPAAVPLIITEGNYLLSDDPGWQMVRAQLDEVWFIETVRELRLSRLVERHMLFGMDRPAAEAWAAGSDEANARLIAGTRQRADRIISWS	PGPT0021595_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
D1-17_00664	474	liaS	COG4585	Sensor histidine kinase LiaS	ATGAACAGTGCAGCCATTCTCGATGAAGTGACCGAGCAGGAGCTCCTTGGGGAGCCGGAGCCGGCTGACTTTTACAGGCTCGGACTCGCGGGCTGTATTGACCGGCTGACGGTTCCGCTCCGGCGTCAGGGTACCTGCGTCCACTGGGAGACGCCGCACCACGGCCTTGAGATTTCGGCCAGTTGCGCGTCCCTCCTGTACCGGTCCGCGCAGGTCACACTCAAAAACGCGCTTCGGCATGCCCACGCCACCGACGTGACCGTGCGGCTTTCTGCCGTCTTCCACGGCATCCGGCTCACTGTTGCCGACAACGGAACGGGTATCCGGCAGGGCAGCGCGCCGCAGGGCGTCGCACGGCACCAGGCGGGTCTGCGGGCCATATCCGCGGAGGTTGAGGAGGCCGGCGGCACGGTCGCCATCGCTTCGGACCCTGGTGTAGGCACGGCTGTCACTGTCACCATTCCCCTCGATTAA	MNSAAILDEVTEQELLGEPEPADFYRLGLAGCIDRLTVPLRRQGTCVHWETPHHGLEISASCASLLYRSAQVTLKNALRHAHATDVTVRLSAVFHGIRLTVADNGTGIRQGSAPQGVARHQAGLRAISAEVEEAGGTVAIASDPGVGTAVTVTIPLD	PGPT0017175_1127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017175-uhpB-K07675	NA	NA
D1-17_00665	240			hypothetical protein	ATGGACGATGACGACATCCGGGCAGTGGCGGAGGCCGCCGCCACGCTGGAATCCGAGACCGCTGAGCACGAGCCCGCTGCTGTGACTCTTCAGACCGCAGTGGCAGCAGCCGTGACGCACGGCAAACCCATCCGGGAGGTGGCTGCAGCCGCCCACATGACAGCACTGGAGGTCCTGGATGCGGCTGATGCGGTGACCTATCCGCGGCAGGCGCTCCAACCCTCGGCATTCGCCGGGTAG	MDDDDIRAVAEAAATLESETAEHEPAAVTLQTAVAAAVTHGKPIREVAAAAHMTALEVLDAADAVTYPRQALQPSAFAG				NA	NA	NA	NA	NA
D1-17_00666	615			hypothetical protein	ATGAACGTACCTGAGTTGAACGAGGGCACACTGCTGCCTCAAGGGGTTCGTGCTGCCCAGAACGAGCCGCTGCACCGGATACTCTCCACTGCCTACGAGCTGTTCTCCCGTCGCGGCATCCGTGATGTCGGCATCAATGAACTTATTGAGCGGTCCGGCGTGGCCAAATCCACGTTCTACCGCCATTTCCCCTCGAAGGACGCTCTGGTTCTTGCTTTCCTCGCACTCCGCGACCAGGTCTGGACCGTCGACCTCATCGTCGCCGAGGCCAGACGCAGGGGCGCCACGCCCGAGGGGCGCCTGCTGGCTATTTTTGATGTCTTCGGTGACTGGTTCCAGCGAGACGATTTCGAAGCCTGCACTTTCATCAACGTTCTGCTCGAGATGGGTCCCGAACACCCCTTGGGTGAGGCCAGCATCGGCTACCTCGCCCGGATTCGCGGCCACCTCAAAGCGCTGGCCGAGGAGGCAGGGCTGCGCGATCCGGACGAGTTTGCCCGCTCGTGGCACATCCTGATGAAGGGATCGATCATTTCCGCTACGGAAGGCGACTTCCTGGCGTCCAAGCGGGCGCAGCAGATGGCCGGTTGGCTGATCGCACATCACCGAAACTGA	MNVPELNEGTLLPQGVRAAQNEPLHRILSTAYELFSRRGIRDVGINELIERSGVAKSTFYRHFPSKDALVLAFLALRDQVWTVDLIVAEARRRGATPEGRLLAIFDVFGDWFQRDDFEACTFINVLLEMGPEHPLGEASIGYLARIRGHLKALAEEAGLRDPDEFARSWHILMKGSIISATEGDFLASKRAQQMAGWLIAHHRN				NA	NA	NA	NA	NA
D1-17_00667	594			hypothetical protein	ATGATGACGGATACGCTGCACGGCGGGGGCTTGCGGCCGCACATTGCCTTGGGGCTGGTTGCCGCTGGCATCGCCGCGGCGGCTTCGGCCGGATGCTCTCCGGCTCCGCCGGACCTCGACCCCGCGGCCGGCCGCGAACTGCAGAGCCGCGTCCTGGCGGTCACATCAGCGGCCGCAAGCGGAGACCCGGGTGCCGGGCTGCGGAGCCTTGACGGGCTGGTGGATTTCGTGACCAGGGCTGCAGCTGACGGCGAGGTGTCGTTCAAGCGGCATCAGAGCATCCTGAAAGCGGTGGAAACCGTCAGGGCGGACTTGCGGGCAGCCGCCGCAGCAAAAGCCGCGTCCGCAAGGGCTGCGGCGGACAGGGCGGCAGCGGCGAAAGCTGCTGCCGAGAAGGCCGCGGCCGAAAAAGCCGCAGCAGACGCCGCAGCCCCAGGAGGCGAAGCTGTTCAGAACGTTCCCGCCCCGCCCGTTCCGGCTGATTCCGTAACAGCGGCACCACCACCCTCGCGCACTCCGCCGGCCGAAGAGCAGGCCGCTGAAGAAAACAGGGCCAAGGGTGCGGACAAGGGCAAAGGCAGGAAAGACGGATGA	MMTDTLHGGGLRPHIALGLVAAGIAAAASAGCSPAPPDLDPAAGRELQSRVLAVTSAAASGDPGAGLRSLDGLVDFVTRAAADGEVSFKRHQSILKAVETVRADLRAAAAAKAASARAAADRAAAAKAAAEKAAAEKAAADAAAPGGEAVQNVPAPPVPADSVTAAPPPSRTPPAEEQAAEENRAKGADKGKGRKDG				NA	NA	NA	NA	NA
D1-17_00668	354			hypothetical protein	ATGGTCGCCAGCATTCCTGAGCCCCAGCAGCCGCGAGGACAAGAGTTTGAGCCGCTACCGGAAGTTGCACCTGGGGAGGCCCGGCAAACGGGGTGCCGCTTGCGGCCCTCTACGGCTGCGGCCCCCTCCCCCGCTCCAAACATCCGGCCCGAGCTGACGGTGATGCGCCAGCAGGTTATCGATCTCATTCTGGACATCATTTCTGCCACAGACCCCCAATCCGAAGTCAGGCTCAGGTTGCTGCGCCACCTGGCTGCCCACCCCGGCTGTCCCGAGCAGGCGCTGCTGTGCCACCTGTTCGAAAACTCACGACGCCCCCTGCAACACAGCGCCTCCCGCATTGACGCTAAGTAG	MVASIPEPQQPRGQEFEPLPEVAPGEARQTGCRLRPSTAAAPSPAPNIRPELTVMRQQVIDLILDIISATDPQSEVRLRLLRHLAAHPGCPEQALLCHLFENSRRPLQHSASRIDAK				NA	NA	NA	NA	NA
D1-17_00669	225			hypothetical protein	ATGAAGAAGCTGTTGCTCCTGTGCTTTCCAGTGCTCGCCGTTGCCGGACTCCAGGCGTGGAGCCAGGCATTAGCGGAACCAGAACCTGTGCATAGACCGGGGATAGTGGTGCCTGGCGTGACTGTTGCCAGTCCGGCAACACACCTGCAGGGACCTTACCGATTGCCAGAGTTGCGGCGAGGACCCACCGCAGCGACCGGCACCAGCGACTTCAGGGGGCGATAA	MKKLLLLCFPVLAVAGLQAWSQALAEPEPVHRPGIVVPGVTVASPATHLQGPYRLPELRRGPTAATGTSDFRGR				NA	NA	NA	NA	NA
D1-17_00670	450			hypothetical protein	ATGGCCAACATTCTCCGCCGCGCCGGCGTTGACTTTCCAGAGCCGTTCCGCAGGTTCCTTGAAGGGGACTTGGATTCCTGGCTACGCGTGGAGGAGTACCGCGAGGCCGGGACGCTGGTGGTCAAGGCCGAGGTGCCCGGAATCGACCCGGACAAGGACGTGGACATCACCCTTGCCGGCAATCAGTTGCAGATCTCGGTCCGCCACGAAGAGAAGTCCGAGCACAAAGACAAAGAGGGCTACCGTTCCGAATTCCGCTACGGTACTTTTGCCCGCACGGTAACCCTGCCCGCGCCCGTCAAAGAGGACGACGTCCGGGCCGCCTACACCGACGGAATCCTCGAAGTCCGTATTCCGCTGCCGGAGGAACCTGAAGCCGGGGGGCGCAAGATCCATGTCTCCCGCGGCGCCGGTGCTGCACAAGGCGCTGCATCAGGCCCTGTTGAATAG	MANILRRAGVDFPEPFRRFLEGDLDSWLRVEEYREAGTLVVKAEVPGIDPDKDVDITLAGNQLQISVRHEEKSEHKDKEGYRSEFRYGTFARTVTLPAPVKEDDVRAAYTDGILEVRIPLPEEPEAGGRKIHVSRGAGAAQGAASGPVE	PGPT0014635_1614	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-17_00671	261			hypothetical protein	ATGCTGGTGCGTTCCTTCACTTACTTTGGCGCCGGAGCGCTGATCGACACACGGGCCCACACCTGGGCCACTCAGCACCTGATCCCCTCACCCGCGGAGCGACACGTATCTCAAGGGCCTTCCCTGGGTGAGGGAGGCAGCGTCAACGGGTCCGCGATGAGGGACACGTTTTCCACACCGAGTCCTTCGTGGATCATCCTGGTTACGGAACTGCCCCGGGAGTTTCTTCCTGGGCTCCGGGCCGCCGGAGCAGCATATTGA	MLVRSFTYFGAGALIDTRAHTWATQHLIPSPAERHVSQGPSLGEGGSVNGSAMRDTFSTPSPSWIILVTELPREFLPGLRAAGAAY				NA	NA	NA	NA	NA
D1-17_00672	687			hypothetical protein	ATGGTGCTCGCCAGCTCCGATGTGGAGGAGTTCCTCCACGAGCTTGCAAAGGTTTCCGCCCGCAGCCTCTCGGAACCCGGCGATGAGGTCTTGTGCGGCATCACCCTGCTGCGCCACCGCAAGGCTGCGACGGTAGCCAGCAGCTCCCCTGAAGCCCAGGCCATGGATGAGATCCAGTATGACTTCGGCGATGGCCCTTGCATGACCGCATCGCGGGAACAGGTGACCATCCACATTTCCGACGTTGAGAATTATGAGCGCTGGCCACAGTATTCACGCACAGTGCGGAGCCATGGCGTGCGCTCCATCCTCGCCATCCCCTTCCAGCTGGAAGGCGAGACGCGGGCAGCCTTGAACCTTTACTCGCACCGTCCGGGCCGCTTCGAAGGACGGGTCCTGGCGTTGGCCCAGGACTTCGTCTCGCAGACATCGATGGCGCTGCGGCTCGCTGTGCGGTTTGCGCATTACAGCGATGCTGCTGCGAATCTCAAGGCCACACTGGAAACGCGGACGGTAATCGATGTCGCCGTCGGGGTCATCATGGCGCAAAACAGGTGCAGCCAGGAGGAGGCTTTCGCGTTGCTCAAGGCAGCTTCCAGCACGCGGAACACCAAACTCCGCACGGTAGCGGCAACCATAGTTGATTCACTGGGGCAGGGTCCGTTGAGGACCCACTACGAGGGGTAG	MVLASSDVEEFLHELAKVSARSLSEPGDEVLCGITLLRHRKAATVASSSPEAQAMDEIQYDFGDGPCMTASREQVTIHISDVENYERWPQYSRTVRSHGVRSILAIPFQLEGETRAALNLYSHRPGRFEGRVLALAQDFVSQTSMALRLAVRFAHYSDAAANLKATLETRTVIDVAVGVIMAQNRCSQEEAFALLKAASSTRNTKLRTVAATIVDSLGQGPLRTHYEG				NA	NA	NA	NA	NA
D1-17_00673	873	hldD		ADP-L-glycero-D-manno-heptose-6-epimerase	GTGAGAATTGCTGTAACTGGCGGAAGCGGAAAGCTTGGGCGCAGTGTGGTCCGCAGGCTCAGTGAGGACGGCCATTCCGTCCTGAACCTTGACCGGACAGGGGCGCCAAGCCCAACTTTGGCGCTTGTGGACCTGCGGAACTACGGCCAGGTCCTGGACGTGATTCTCGGCTTGGATGACCGGCACCAGGGATTCGATGCCATCGTCCATCTGGCTGCCATCCCTGCACCCGGACTGGTGCCGGACGCCGCCACCTTCGAAAACAACATGCTGACCACCTACAACGTGTTTCAGGCGGCCCGCAGGGCCGGCATCAAAAAGGTGGTGTATGCCTCCAGCGAGACGGTGCTGGGACTGCCGTTCGACGTCGACCCTCCCTACATCCCGGTGGACGAGGAGTACCCGGCCCGGCCGGAGAGCACATACTCGCTCGTGAAGCACCTGGAGGAGCAGATGGCAATCGAGATGACGCGCTGGGACTCTGAGCTCAGCATCACAGGCCTTCGCTTCTCCAACGTCATGGATCCCGAGGACTACGAAGACTTCCCGTCATTTGATGCTGATCCCGAACTGCGCAAGTGGAACCTGTGGGGCTACATCGACGGACGCGACGGGGCCCAGGCTGTGGCGCGCGCGCTGGAGTACGGCAAGCCGGGGTTCGAGGCGTTCGTCATCGCCAATGAGGACACCGTGATGTCCCGCTCCAGTGCAAGTCTCGCTGCAGAAGTCTTCCCCAACGTGACAGTGGTTAGGGAACTGGGGGAGCACGAAACCATGCTGTCCATCGACAAGGCCAAGCGGCTCCTCGGGTTCGCTCCCGAGCACAGTTGGCGGACCTATCACTCCAACCGGACCACGCCCACCGAGGACTGA	MRIAVTGGSGKLGRSVVRRLSEDGHSVLNLDRTGAPSPTLALVDLRNYGQVLDVILGLDDRHQGFDAIVHLAAIPAPGLVPDAATFENNMLTTYNVFQAARRAGIKKVVYASSETVLGLPFDVDPPYIPVDEEYPARPESTYSLVKHLEEQMAIEMTRWDSELSITGLRFSNVMDPEDYEDFPSFDADPELRKWNLWGYIDGRDGAQAVARALEYGKPGFEAFVIANEDTVMSRSSASLAAEVFPNVTVVRELGEHETMLSIDKAKRLLGFAPEHSWRTYHSNRTTPTED				NA	NA	NA	NA	NA
D1-17_00674	198			hypothetical protein	ATGAGGATCGTCGGAACGCTAGTGATTATCTGGCTTATCATCGGCGGCTTCGCCGCTTTTCAGCGGGGATATTTTGGTGGTTCTCCGGACTCCTGCGCAGAAGCTGGCACTGTAGCCATTACGGTCGTCGCAGGACCCCTGAACTATATGGGCGCCAACCCGAAAATCGACTGCCAGGTGCCGCAACCTTCCAAGTAG	MRIVGTLVIIWLIIGGFAAFQRGYFGGSPDSCAEAGTVAITVVAGPLNYMGANPKIDCQVPQPSK				NA	NA	NA	NA	NA
D1-17_00675	243			hypothetical protein	ATGAGCACTGAAGACACCGGCACCGGCGAGGATCGTCGACCCGACGCAGGGCGGCAGGCGTCCGGCGGCATACCCGGCCAGGAGAACGGGGCCGGGCTGGGCGCCGGGGAGCCCAATACTTTCGAACCGGAAGAAGTACCGGAGGACAGCGACAGTTCCGCTCCCCGGGAGACGTCCGTAGCGACCGCCGAGGACACTCCTGACGTAGCGGAAACGCCGGTAGAAACGGGCGAACCGAGCTGA	MSTEDTGTGEDRRPDAGRQASGGIPGQENGAGLGAGEPNTFEPEEVPEDSDSSAPRETSVATAEDTPDVAETPVETGEPS				NA	NA	NA	NA	NA
D1-17_00676	789			hypothetical protein	GTGGCAGACGGATCGGCAGGCAAGACCGGATGGCGGCGGGTTCTCCGTGACAAGTTTGCCGTCGAGGAACGCTATGTGGAAGCAAGCGTGCGGAGAAAGCTCTACATCGATTCCGCTGTCTTGGCGATGGTGGGTGCGGGCGTTTTCGTCCTGGCGTTGACGGGTGTGCTTGAGAGGGACGGTCTGGCAAGCGCCGACGAATCGGCACGTAGGTGGCTGCTTACCACGCGGTCAGAACCCTTGACGGATTTCATGATCATTCTTGCCATAATCTTTGGCCCAGTGGCGCTTCCTATCATCGTGCTGGTGGTCACTGCCGCCTGGGGGATCCTGGCGAAACAGGCCTGGCGGCCCGTCCTGCTGGCCGCCGCGATGCTCACCGGGGTCGGGCTCGCGCAGGTTATAAGCCATGCCGTGGAACGCGCCCGACCTCCAGTGGAGCTCATGCTGTTCGGGGCAGACCACACATTTTCCTTTCCGTCCGGGCACGTACTTGGGGCTTCCAACTTCTTGCTGGTCACCGCCTTCCTGGTGTTTTCCCGGCACAGGAAACCTGCCGTGGCCGCCACCGGCTTCGTCGTCGCCGTCTTGGGAGTGGCGCTGGCTGCTCTCAGCAGGCTGTACCTGGGCTATCACTGGGTGAGCGACGCCATCGCCTCTGTTGCGGTATCGCTTGTGGTGCTGGGAGCTGTGATTGCGGTGGACACATGGCGGACCGTACGCATTCCGGGCGAGTCCCGCACTGAAAGCGTCTCAAAGGCCGGCTCCCGGGAGGCTGAGGCGCCTTGA	MADGSAGKTGWRRVLRDKFAVEERYVEASVRRKLYIDSAVLAMVGAGVFVLALTGVLERDGLASADESARRWLLTTRSEPLTDFMIILAIIFGPVALPIIVLVVTAAWGILAKQAWRPVLLAAAMLTGVGLAQVISHAVERARPPVELMLFGADHTFSFPSGHVLGASNFLLVTAFLVFSRHRKPAVAATGFVVAVLGVALAALSRLYLGYHWVSDAIASVAVSLVVLGAVIAVDTWRTVRIPGESRTESVSKAGSREAEAP	PGPT0024170_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
D1-17_00677	315			hypothetical protein	GTGGCAGATCAAAGCGAAGACAGAGGGCTTTACGCCATTTCCGTGGTGGCGGAATTGCTCGGCACGGGCCAGCAGAACATCAGGCTCTATGAGCGGCGGGGGCTGCTGACGCCTGAGCGGACCTCTGGGGGCACCCGGCAATACAGCGAAGCGGACCTTTTGGTCCTGCGGCGGATCGGCGAACTCCTGGATGAGGGCCTGAACCTGGCGGGCGTGGCCAAGGTGCTGGAGCTTGAGGTGGACAACGCCAAGCTTCGCCGTCAGCTGGAACGCGCCCGGGCCCGTAACCAAAAGCAGTCAGACGACGGCGGGTAG	MADQSEDRGLYAISVVAELLGTGQQNIRLYERRGLLTPERTSGGTRQYSEADLLVLRRIGELLDEGLNLAGVAKVLELEVDNAKLRRQLERARARNQKQSDDGG	PGPT0014625_1086	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014625-hspR-K13640	NA	NA
D1-17_00678	426			18 kDa heat shock protein	ATGATGCTAATCCGTACCGACCCGTTCCGTGAACTGGACCGGCTCACCCAGCAGGTCTTGGGAACCGCTGCGCGTCCGGCCGCAATGCCGATGGACGCATGGCAGGAGGACGGCGAATTCGTTGCCGCATTTGATCTGCCAGGCGTCTTGCCGGAGAAGGTCGATCTTAGTGTGGAACGGAATGTGCTGACCGTCAGGGCTGAGCGGCAGGACCCGACGCAGCCCAATGCGGAACTGGCGGTGGCTGAGCGGCCGCGCGGCGTTTTCAGCCGCCAGCTAATCCTGGGTGACACCCTGGACGCCGAGAATATCAAGGCCACCTACGACGCAGGCGTCCTGACGCTTCGGATCCCGGTTGCCGAACAGGCCAAGCCGCGCAAGATCGAGATCGGGCGTAAGGAAGAAGCGCATCAGATCGGAACGTAG	MMLIRTDPFRELDRLTQQVLGTAARPAAMPMDAWQEDGEFVAAFDLPGVLPEKVDLSVERNVLTVRAERQDPTQPNAELAVAERPRGVFSRQLILGDTLDAENIKATYDAGVLTLRIPVAEQAKPRKIEIGRKEEAHQIGT	PGPT0014635_7338	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-17_00679	522	dnaJ_2		Chaperone protein DnaJ	ATGCCCAGCGATTTCCCGGACCACTACGCGGTGTTGCACGTTCCGCGGACGGCAACCCGACGGGAGATTGCGCGCGCCTACCGGTCCCTGATGCGGACGCACCACCCCGACCTGGACAACCCCACAGCTGTCCCGGCCGAACTGCAGCTCATCATGCAGGCTTTTGAGGTGCTGCGAGATCCGAACCGACGCCAGGCCTATGACCGGGAGTCCCTCATGAGGGATCGCCGCGCGGGAACAGCCGCTGCCAGGGCCGGCCCTGCACAGCAAGACAGGACCCGCGCCGGGCACCCCGTCGGAGACACAAGCGGAGACACAAGCGGAGACACAAGCGGAGCCGCAACGGCCAGGACTTCTCCCGGCGGCCGACGTGTACCCGTCAACTCCGAAGCCCCTTCCCGGGACATCCCCGTTCGGCGCGTGCAGCATGTGGAACCCCCGTTCCGGGTGACGCCGGTCCGGTGGGAAACCGGCCCTTGGGCCACTGGACGTGTTGACCCCCGAGGAGAACGAAAACGATGA	MPSDFPDHYAVLHVPRTATRREIARAYRSLMRTHHPDLDNPTAVPAELQLIMQAFEVLRDPNRRQAYDRESLMRDRRAGTAAARAGPAQQDRTRAGHPVGDTSGDTSGDTSGAATARTSPGGRRVPVNSEAPSRDIPVRRVQHVEPPFRVTPVRWETGPWATGRVDPRGERKR				NA	NA	NA	NA	NA
D1-17_00680	387			hypothetical protein	ATGAGCGATTGGCGCCGATACGACTCGCATCTGATCCCGGCCTTTTACGAGCGGTTTGAACAGCGCTGGGGCAAGGGCAACGCCCCCTTCCTGGATCCTGAAGCCCACGAGCAGCCGCTTCCAAGGGCACAATGGATCAACCCTGCAACCGGGGCTGCCCTCGCCGTGGTGCCCATCTGGAGCAACGACGACCGAGAGAACCGGTCGTTCGGGGTCTTCTACCTGCCGCCCTCGGGAGATATCTGGGTACTGCGCCCGGGATTCACGGGCTACCTTGAGCCAGCAGAGGAAGGCTCGGAGCACCTCGTTGCCCTCAGGAACGACGCCTTCAAGAAAGCCGTGGCCCACGCCAAGGATTTTCTGTTCGGCCCGGCCGTGATGCACTAG	MSDWRRYDSHLIPAFYERFEQRWGKGNAPFLDPEAHEQPLPRAQWINPATGAALAVVPIWSNDDRENRSFGVFYLPPSGDIWVLRPGFTGYLEPAEEGSEHLVALRNDAFKKAVAHAKDFLFGPAVMH				NA	NA	NA	NA	NA
D1-17_00681	1575	bglA_1	COG2723	Beta-glucosidase A	ATGCATACTTCCGCCAGAGAGTTGGCCGCCATGGTCCCGCCGGGTTTCACCCTGGGAGTTGCGACTGCCGCATTCCAAATCGAGGGCGCCCTTGATGAGGACGGCAGGGGGAAGGCAGGATGGGACGTTTTTTCTGCCAAGCCCGGAAACATCGTTGACGGCCACAGCCCCGCCGTGGCATGCGACCACTACCACCGCATGCCGCAGGACGTGGCGCTGATGAAGGAACTCGGGATCGATTCGTACAGGTTCTCGCTATCGTGGCCCCGCATCCAGCCGGACGGCAGCGGACCGCTGAACCGGGCCGGGATGGACTTTTATGACCGGCTGCTGGATGAGCTCCTCGCCAACGGCATTTCCCCCATGGTGACCCTCTACCACTGGGACACCCCCTTTGCCCTGGATGAGGCGGGCGGCTGGCTCAACAGGGACACGGCCTACCGGCTGGGGGAGTTCGCCGCCATCGCCGCGGCAGCCTACGGGGACCGGGTGGCACGCTGGGTAACCATCAACGAGCCGGCAACGGTAACGACCAACGGGTATGCCCTCGGCCTGCACGCGCCGGGGAAAGCGGACTTTGCGAACGGGCTGCCCACCGTCCACCACCAACTGCTGGGCCACGGCCTCGCACTGCAGGCGCTGCGGGCAGCCAAGGTGCCGGGGGAGATCGGTATATCCAACGTCTACTCGCCCATGGTGCCAAATTCCGGCAACCCGCTGGACTGGATCAGTGCAGGTGCCTTGGACGTGGCACAGAACCGCCTCTACGCCGACCCCGTCCTGACCGGAAAGTACCCCGACCTCGTCCGCCTCGGGAAGTTCTTCTCGTCCTTCGAGCACCCGGATGAGGATATGGCCGTGATTTCGCAGCCCCTGGATTTCTACGGGCTCAACTACTACATGCCCACGCGAGTGGCGGCAGGCGGTGGTGAACATCCTGTGCCCGCAGCCATGGCCGAAGCCCTGGGGGACGACCTCAGTGGCGCCACACCCGGCGCGCCGCTCCACATCGAGCCTTGGCCCGACACGGAAACCACCGCCTACGGCTGGCCGGTGAAGCCGGAGTACATGTCCGTTGCGCTGAAGGAAATGGCCGAACGCTACCCCAACCTTCCACCGGTCATCATCACCGAGGGCGGGGCGAGCTTCGAGGACATCATCGTGCGGGACAAGTCCACCGGCCGCAGTTTCATCCCGGACGAGCGCCGCCTGCGTTACCTTTCGGACCATATCGGCACGGCGCTGCGGGCTACAGCCCCGGGCGGCGACGCTGAGGCAGTGGACCTCCGCGGCTATTACGTCTGGTCCCTCATGGACAACTTCGAGTGGTCCGGCGGCTACAAGCAACCGTTCGGTCTGGTGCACGTGGACTTTGAGACGCTCCAGCGGACGCCCAAAGCCTCCTTCTACTGGTACCAGGAACTCCTCGAGGAGCGGAGGCTCCTTACGGCTGCAGGAACCGCCCTGGCGGCTGCGGCCGCCTCCGTTCCTGAGGAAGTGGCCACGGCGGGTGCTGTTGCCGAGGCTGCGGATGGTGGAATGCCGGACGGCGATGCGCAGCGGCTGGAGCTGTGA	MHTSARELAAMVPPGFTLGVATAAFQIEGALDEDGRGKAGWDVFSAKPGNIVDGHSPAVACDHYHRMPQDVALMKELGIDSYRFSLSWPRIQPDGSGPLNRAGMDFYDRLLDELLANGISPMVTLYHWDTPFALDEAGGWLNRDTAYRLGEFAAIAAAAYGDRVARWVTINEPATVTTNGYALGLHAPGKADFANGLPTVHHQLLGHGLALQALRAAKVPGEIGISNVYSPMVPNSGNPLDWISAGALDVAQNRLYADPVLTGKYPDLVRLGKFFSSFEHPDEDMAVISQPLDFYGLNYYMPTRVAAGGGEHPVPAAMAEALGDDLSGATPGAPLHIEPWPDTETTAYGWPVKPEYMSVALKEMAERYPNLPPVIITEGGASFEDIIVRDKSTGRSFIPDERRLRYLSDHIGTALRATAPGGDAEAVDLRGYYVWSLMDNFEWSGGYKQPFGLVHVDFETLQRTPKASFYWYQELLEERRLLTAAGTALAAAAASVPEEVATAGAVAEAADGGMPDGDAQRLEL	PGPT0019165_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
D1-17_00682	1059			hypothetical protein	ATGGACACGGCGTCACAGGAAATCTCTTTGTCAGGTACTCGCGTCTTCCGCCTGGCCCACTGGCTCTCGAACGCCGTCAACAACGGCCGCCTGAAGCTGGCCCGGCGGTGGAAGTTCGAACCCAAGACCATCGCCTACCAGGGCTATGGCTCCACGGAGTGGGTCCGGGTGCTCGGCAGGGTGGTGTTGGCAAGCAAGCCTGTACCGGGCAGCCGCGCCGAACATGCGGCAATGAACGGCAACCAAAACATCCGCGGCTGGCGCGCCTTCACCAGCGTCCCCATTCCGGGATCAGAGGTGGAGATCGAAATCGGCGGCACTGTCACAAAGGTCCGTGCCGACAGAGGCGGACTGGTCGATATCGACGTCGAGGTATCCCTCCCCCCCGGCTGGCATACAGCAGTACTACGGTCCCAGGACGCCGAGCCGGCAGAGGCGAAAATTTTCGTGATCGGGCCGGAGACCAAGTTTGGGATCGTCTCGGACATCGATGACACCGTCATGGTAACCGCACTGCCCCGGCCCTTCCTCGCCCTTTGGAATACCTTCGTCCTGAATGAACGGGCCAGGATGGCAACTCCGGGAATGGCCGTGCTGCTGGACCGGCTGCTCATCGAGCACCCGGATGCGCCGGTAATCTACCTTTCCACGGGTCCGTGGAATGCCGCGCCGACCCTTGGCCGGTTCCTGAGCCGGAACATGTATCCCTCCGGGGCACTGGTGCTCACTGACTGGGGCCTGACCCAGGACCGCTGGTTCCGCAGCGGCCAGGAGCACAAGCGCAAGAATCTGGAACGGCTGGCAGCGGAATTTCCCAACATGCGCTGGCTGCTGATCGGCGATAACGGCCAGCACGACGAGCAGATCTATTCCGACTTCACACGGAAACACGGAGACAAGGTGGCCGCGATCGCCATCCGGCAACTGTCTGTCAGTGAAGCGGTCTTCGCCGGCGGGCATACAGAAACCGGTGACCACAGCGCCTCCGCAGTGCCTTGGATCTATTCTCCGGACGGCGCAGGCATGGCCTGGCGGCTCAAGGAACTCAAGCTGATCTGA	MDTASQEISLSGTRVFRLAHWLSNAVNNGRLKLARRWKFEPKTIAYQGYGSTEWVRVLGRVVLASKPVPGSRAEHAAMNGNQNIRGWRAFTSVPIPGSEVEIEIGGTVTKVRADRGGLVDIDVEVSLPPGWHTAVLRSQDAEPAEAKIFVIGPETKFGIVSDIDDTVMVTALPRPFLALWNTFVLNERARMATPGMAVLLDRLLIEHPDAPVIYLSTGPWNAAPTLGRFLSRNMYPSGALVLTDWGLTQDRWFRSGQEHKRKNLERLAAEFPNMRWLLIGDNGQHDEQIYSDFTRKHGDKVAAIAIRQLSVSEAVFAGGHTETGDHSASAVPWIYSPDGAGMAWRLKELKLI				NA	NA	NA	NA	NA
D1-17_00683	732			hypothetical protein	GTGTCCGTGCACATTGGAACGTCCGGGTGGAGCTACGACCACTGGGAAAACGTGCTGTACCCGCCCGGGCTCCCCGCCCGTGACAGGCTTCAGCACTACGTCGCGAGATTCAGCACGGTGGAACTGAACGCCAGCTTCTACCGCTGGCCGCGTGATACCTCCTTTGCGAGCTGGCGCCGGCGGCTGCCGGCCGGCTTCGCTTTATCCGTCAAGGCACCGCGTGGCTTGACCCATGGCAGGAAACTTCACGGCCCGGAGGTCTGGATCGAGCGCATCGCCCGGTGCTGGCATGAACTGGGCGAAAAGCGTGCCGTGCTGCTGGTGCAGCTGCCGCCTGACTTTGGCCGGGATGACGCCCGGCTGGATTATTTTCTCTCCGCGCTACCGCCATGGATCAGGGTGAGCGTGGAATTCCGCCATTCCAGTTGGGACCACCCCGATGTCTACGGCCTGCTCGAAAGACACGGTGCTGCCTACTGCGTCATGAGCGGTGCCAGGCTGCCGTGCATTCTGAGAGCCACCGCACCCTTCGTCTACGTCCGGCTTCACGGCCCGGACCACGAGCACCTGTACGGCGGCTCATACTCCGAGGCGGACTTGCGCTGGTGGGCGGACAGAATCCGGGAGTGGCGCGCAGACGGCAAGGATGTGTACGCCTATTTCAATAACGACGGCGGCGGCAACGCCGTGCGGAACGCGGACACTTTGCGGTGGCTGCTGGGAGACGGTTAA	MSVHIGTSGWSYDHWENVLYPPGLPARDRLQHYVARFSTVELNASFYRWPRDTSFASWRRRLPAGFALSVKAPRGLTHGRKLHGPEVWIERIARCWHELGEKRAVLLVQLPPDFGRDDARLDYFLSALPPWIRVSVEFRHSSWDHPDVYGLLERHGAAYCVMSGARLPCILRATAPFVYVRLHGPDHEHLYGGSYSEADLRWWADRIREWRADGKDVYAYFNNDGGGNAVRNADTLRWLLGDG				NA	NA	NA	NA	NA
D1-17_00684	735			hypothetical protein	TTGGAAAGTCGCCTGGATGAGGCGGACGTACTCGGTTATGTTCAGGACCTCCTGCTGGACACCGAGGACGCGGAAGATTTCCTCAATGAGCTGGCATGCTACTCAGCCGAACAGCTGTCCGGACCGCATGGCCATATCTATTGCGGCATCACACTCCTCAGGAACCGTGCCGCGGCAACGGTGGCCAGCAGCAGCGAACGCGCCCAGGCCTTGGACGAGATCCAGTACGGGTTCGGCAAGGGGCCGTGCCTGCGATCCTGCCATGAAGGAGTCATCGTCCACGTTCCGGATTTTGAGCTGGACACGGAATTTCCCGACTACAACGAAGCCGTCCTCCACAACGGCGTCCGGTCAGTCCTGGCGGTGCCCTTCGACCTGCCCGGCGGCACTGCCCGCGCCGGCCTCAACCTTTACTCTGACAAACCGAACGCCTTCGACGCCGCCGCTGTTGAGAATGCCATCAGCTACGTCCGCCAGGCATCAAAGGGTCTGCGCCTCGCCATCCTTCTGGCCCGGCGCACGGACACGGCCACGAACCTGAGGGCGGCGATGGAGTCGCGCACCATCATCGACACCGCCGTGGGCATCATCATCGCGCAAAACCGCTGCAGCCAGGACGAAGCCGTCGCGCTGATCAAGTCCGCCTCTAGCAACCGCAACATGAAGCTCCGTGATGTGGCGGCCGCTATCGTCAAGTCAGCAGGCGGCGGAAACCTGTCCACGCACTTCGAGTGA	MESRLDEADVLGYVQDLLLDTEDAEDFLNELACYSAEQLSGPHGHIYCGITLLRNRAAATVASSSERAQALDEIQYGFGKGPCLRSCHEGVIVHVPDFELDTEFPDYNEAVLHNGVRSVLAVPFDLPGGTARAGLNLYSDKPNAFDAAAVENAISYVRQASKGLRLAILLARRTDTATNLRAAMESRTIIDTAVGIIIAQNRCSQDEAVALIKSASSNRNMKLRDVAAAIVKSAGGGNLSTHFE				NA	NA	NA	NA	NA
D1-17_00685	1809		COG3387	Trehalase	ATGGCACGCATTGAGGACTATGCGGTGGTGGGCGACCTGCACACCGCAGCCCTGATCAGCACCGAAGGTTCGATCGATTGGCTGTGTCTGCCGCGGTTTGATTCGCCGGCCTGCTTCAACGCCTTGCTGGACACGCCGGAGTCCGGCCGCTGGCTTCTTGCTCCCGCGGGTGCAGGGACATGCACGCGGCGGCATTACCGCCACCATACGCTGATCCTGGAGACCGAATGGGAAACACCGGACGGCGCAGTCCGGGTCGTTGACTTCATGCCCCCCAGGGATGAAGTGGCGGATATCGTCAGGATAGTTGTGGGCATAGCCGGCGAGGTCAGGATGCGCGGGGTGCTCGCCCTCCGCTTCGACTATGGCCATATCATGCCCTGGGTCCGCCGTGACAGTCACGGCCTTCATGCGATCGCAGGACCGGACTCAGCCTACCTGGTGACTACGGCGCCGCTTCGCGGTGAGCACATGCATACCGTTAGCGACTTCACCGTCAAGGCTGGTGACCGCGTACCTTTTGTGCTGACGTGGGCGCCGAGCCACGTTCGGCGCCCACGGGCGGTGGACGCTGAAGCTGTCCTCCAGTCCACGGAGGCATTCTGGCTGGAATGGGCCGGACAGTGCAACGTGGAGGGGCCGTACAAGGAAGCCGTGGAGCGGTCACTGATAACGCTCAAGGGGCTCACCTACGCACCCACCGGTGGCATTGTCGCAGCCGTGACCACGTCCCTGCCGGAGCAGCTGGGCGGGCCGAGGAACTGGGACTACCGCTACTGCTGGCTCCGCGATGCCACCCTGACGCTGCAGTCCTTGCTGGCGGTGGGCTATACGGCAGAGGCGGCTGCATGGCGGGACTGGCTGCTGCGGGCGGTGGCGGGTGACCCTGCAGATCTGCAGATCATGTACGGCATCCACGGTGAGCGCCGGCTGCCCGAGATGGAGCTTCCCTGGCTGGCGGGCTATGAAAACTCTGCGCCGGTCAGGATCGGCAACGGCGCCGCCGGGCAGCTGCAGCTGGACGTGTGGGGCGAGGTGCTGGACTGCCTCTCGCTCACCCGCAATTCCCTGCTCACGGATTCAGACGAGGCCTGGGACGTGCAGGTGGCGCTGATGGAGTACCTGGAAGGCGTGTGGGACCAGCCGGATAACGGACTGTGGGAAATGCGCGGACCAAAGCGCCATTTCACCCATTCAAAGGTGATGGCATGGGTTGCTGCTGACAGGATGGTCAAGGGCGTCCGTGAATCGGGACTGCCCGGGCCCGCCGGGCGCTGGGAGGCGTTGCGGGAGACCATCCGGGCCGACGTCATGGCCCATGGCTTTGACCCGGACCGGAACACCTTTACGCAGTCCTACGGCCGCCCCGAACTGGATGCCAGTCTCCTCCTCATTCCGCGCGTGGGATTCCTGCCGCCGGATGATCCCCGCGTCATTGGGACCATCGACGCCATTCAGCGTGAACTGACTGAGGACGGTTTTGTGCTGCGCTACCGCCCGGAAATCAGCGACGACGGTTTGCCCGGCGGGGAAGGAGTCTTCCTCGCGTGCTCCTTCTGGCTCGTTGAAGCACTCCTCGGTGCGGGCCGGCACCGCCAGGCAACAGAGTTATTCGAACGACTCCTGGTGCTGCGCAACGACGTCGGCCTGCTGAGTGAGGAGTGGGGGGTGCAGACGGCCCGGCATCTGGGTAACACTCCGCAGGCCTTCAGCCACTTCGCGCTCGTCACGAGTGCCTTGGAACTGCACCAGCACGAGACGCGGCAGAGCAACAGGCCACTGCCCTCCGGAGCGGGAACTGCGTCGTAG	MARIEDYAVVGDLHTAALISTEGSIDWLCLPRFDSPACFNALLDTPESGRWLLAPAGAGTCTRRHYRHHTLILETEWETPDGAVRVVDFMPPRDEVADIVRIVVGIAGEVRMRGVLALRFDYGHIMPWVRRDSHGLHAIAGPDSAYLVTTAPLRGEHMHTVSDFTVKAGDRVPFVLTWAPSHVRRPRAVDAEAVLQSTEAFWLEWAGQCNVEGPYKEAVERSLITLKGLTYAPTGGIVAAVTTSLPEQLGGPRNWDYRYCWLRDATLTLQSLLAVGYTAEAAAWRDWLLRAVAGDPADLQIMYGIHGERRLPEMELPWLAGYENSAPVRIGNGAAGQLQLDVWGEVLDCLSLTRNSLLTDSDEAWDVQVALMEYLEGVWDQPDNGLWEMRGPKRHFTHSKVMAWVAADRMVKGVRESGLPGPAGRWEALRETIRADVMAHGFDPDRNTFTQSYGRPELDASLLLIPRVGFLPPDDPRVIGTIDAIQRELTEDGFVLRYRPEISDDGLPGGEGVFLACSFWLVEALLGAGRHRQATELFERLLVLRNDVGLLSEEWGVQTARHLGNTPQAFSHFALVTSALELHQHETRQSNRPLPSGAGTAS	PGPT0018651_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-GLUCOAMYLASE_LIKE,PGPT0018651-glucoamylase_like-NA	NA	NA
D1-17_00686	297			hypothetical protein	ATGTCTGGATATTTCGAGCTCGTGGATGCCCCTGACGGCGGCTACCGGATCCGGCTGATGGACGGCACGGGCACGTTGATGGCAGTGTCCGTCACCTTCCCCACCAAACGGGCAGCGGTGGCCGGAGTAGCCCGTGCCCGTGAAATCGCCGGAACCGGTCTGATCCGCGACAGCTGCAGTGACGCAGTCAGGCGGCCAGCAGAGCGGCACACCAAGCCTGCCCGAAAGGCAGCCGGTACCGGATCCGCCAGTCCGTCGTCGGTCCTGTCCCCTGGCCGGTCCAAGGCAGAACGCTGA	MSGYFELVDAPDGGYRIRLMDGTGTLMAVSVTFPTKRAAVAGVARAREIAGTGLIRDSCSDAVRRPAERHTKPARKAAGTGSASPSSVLSPGRSKAER				NA	NA	NA	NA	NA
D1-17_00687	696	vldH		Validoxylamine A 7'-phosphate phosphatase	ATGCCACGGCATCAGACGCGTGACTTCCGCAAGGGTGTCCTGTTCGATGTTGACGGGACGCTGATCGATTCCGCCTATCTCCACACACTTGCCTGGTGGCAGGCGTTCCGGCAGGCAGGCTACGACGTTCCCATGGCGCGCATACACCGCCACGTGGGCATGGGAGGAGCCCGGCTGGTGGACAGCCTGCTGCCGGAGGGGCGCGATAGGGCCCTCGATCCCGAGATCCTGGCCGCTCATGCCGGAATCTTTGGCACTTTCTGGCCTTCCCTCAGGCCGCTTGACGGGGCGCGGGACCTGTTGGCGCAGTGCTGCGAAGGCGGCCTCGCCGTGGCGCTGGCATCCTCAGCCCGGGACGCGGACCTTAAGGCCCTCCGCTCCAGCCTGGCTGCTGATTCCTTCATCCATGCCGCCACCAGCGCCAACGACGCGGAACGGAGTAAACCCGAGCCGGACATCCTCATTGCAGCGCTGGCTGCGGTCGGTGTCGAAGCCTCTGATGCCGTCTATGTCGGGGATGCGGTTTGGGATGTGTACGCGGCTGACAGGCTCGGCATCCCCACGATCGGCGTCACCTGCGGCGGCACGAGCGAAGCTGAACTGCGGGAGGCAGGCGCAGTCGAAGTGTATTCAGGCCCCCGGGAACTCCTGGACGGACTGCGGGACAGCGCTATTGGGAAGCTCCTCGCGGACTAA	MPRHQTRDFRKGVLFDVDGTLIDSAYLHTLAWWQAFRQAGYDVPMARIHRHVGMGGARLVDSLLPEGRDRALDPEILAAHAGIFGTFWPSLRPLDGARDLLAQCCEGGLAVALASSARDADLKALRSSLAADSFIHAATSANDAERSKPEPDILIAALAAVGVEASDAVYVGDAVWDVYAADRLGIPTIGVTCGGTSEAELREAGAVEVYSGPRELLDGLRDSAIGKLLAD	PGPT0014525_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-17_00688	324			hypothetical protein	ATGACGCTGTACCAGCCTGAGCCCGTGGAGATCTCCACCCGGATGCGCCCCGGAGAATGGACGGAATCCAGCCTTGAGGAGCTGGTCTCCACCTACCGCGAAAAAATCCTGGCAATGGGGGCGGCGGCCTCGGAGGTGGTCACCGAGGTCTTGAGGAACGACGACGGGTCGGTAGTGGTAACGGTGTCCTGGAATAAGGGCGACTACGCCGATGAGCCGGCGGGGGGCGGGTTCAGAGGGGAAGCAGCGGGAGAACGACTGGCCGGCAAGCAGGCAGGTGAGCAGGGCGAACGGTTGGCGGGTGACCCGCGGGCGGGCGGCTGA	MTLYQPEPVEISTRMRPGEWTESSLEELVSTYREKILAMGAAASEVVTEVLRNDDGSVVVTVSWNKGDYADEPAGGGFRGEAAGERLAGKQAGEQGERLAGDPRAGG				NA	NA	NA	NA	NA
D1-17_00689	1176		COG1063	putative zinc-binding alcohol dehydrogenase	GTGAAGGCACTGACCTGGCAAGGCAAGCGCTCGATGAGCGTGCAGGAAGTTCCGGATCCCGTGATCCAGGAATCGACGGACACAATCATCAAAATCACCTCCACCGCTATCTGCGGCTCGGATCTTCACCTTTACGAAGTGCTGGGGCCCTACATGCACAAGGGCGATATCGTCGGCCACGAGCCGATGGGCATCGTGGAGGAGGTGGGAAGCGCGGTCACCAACCTCAAGAAGGGCGACAGGGTGGTGGTGCCCTTCAATATCGCCTGCGGCAGGTGCTTCATGTGTGAGCGCGGCCTGCAGTCCCAGTGCGAGACCACCCAGGTGAAGGACAAGGGATCGGGGGCTGCGCTGTTCGGCTACTCGGAACTGTACGGCTCCGTTGCCGGGGGACAGGCCGAGTACCTGCGCGTGCCGCATGCCGACTACGGGCCCATCAAGGTGGGACAGGACCTGCCGGACGAACGGTACCTGTTCCTCTCTGACATCCTGCCCACCGCTTGGCAGGCCGTGCAGTACGCTGATGCGCCCGACGCCGGGACCCTCGCCGTTTTCGGTTTGGGCCCTGTGGGCCAGTTCTCGGCAAGGATCGGAAAGCACCTCGGGCTGCGGGTGATTGGGGTGGATCCCGTGCCGGAACGCCGCGAGATGGCGGCGCGCCACGGAATTGAAGTGCTGGACTACTCCAGGCATGTGGCCGACGAGATGCGGGACATGAGCTCGGGCCGCGGCCCGGATGCCGTGGTGGACGCCGTCGGCATGGAGGCGCACGGTTCGCCGGTGGCGGGTTTCGCGCACCAGGCCCTCGGCCTGTTGCCGGACAAACTCGCCCAGAAGGCCATGGAAACAGCAGGTGTTGACCGCCTCGCGGCTCTTCACGCATCACTCGACGCCGTCCGCCGCGGTGGAACCGTCTCCCTGAGCGGGGTGTACGGCGGCCAGGCCAGCCCGATGCCGCTGCTCACGATGTTCGACAAGCAGATCCAGCTGCGTATGGGCCAGTGCAACGTCCGCCGGTGGACGGACGAGCTGCTTCCGCTGGTGGAGGACGACGCCGATCCGCTGGGTGTGACGGATCTGGTCACCCACCGCGCGGGGCTGGCTGAAGGCCCCGCGCTGTACGAGAAGTTCCAAAAGAAAGAGGACGGCTGCATCAAGGTTGTCCTGCAGCCTTAG	MKALTWQGKRSMSVQEVPDPVIQESTDTIIKITSTAICGSDLHLYEVLGPYMHKGDIVGHEPMGIVEEVGSAVTNLKKGDRVVVPFNIACGRCFMCERGLQSQCETTQVKDKGSGAALFGYSELYGSVAGGQAEYLRVPHADYGPIKVGQDLPDERYLFLSDILPTAWQAVQYADAPDAGTLAVFGLGPVGQFSARIGKHLGLRVIGVDPVPERREMAARHGIEVLDYSRHVADEMRDMSSGRGPDAVVDAVGMEAHGSPVAGFAHQALGLLPDKLAQKAMETAGVDRLAALHASLDAVRRGGTVSLSGVYGGQASPMPLLTMFDKQIQLRMGQCNVRRWTDELLPLVEDDADPLGVTDLVTHRAGLAEGPALYEKFQKKEDGCIKVVLQP	PGPT0006355_1825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
D1-17_00690	801	yohF	COG1028	putative oxidoreductase YohF	ATGATGGAGTTCTCCCCGCGCACTGCGATCGTCACTGGAAGTGATTCCGGAATTGGCCGGGCCACAGCCGTGGCCCTCGCGCAAGCCGGACTGGACGTTGGCATCACTTGGCACTCTGACAAGGGCGGGGCTGAAAAGACCGCGGAAGAGGTGCGCGCTGCAGGCCGCAATGCTATCGTCAGGCAGCTCGACACCACCGATCTCCTCGGTTGTGCCGGCGTCATCGACGGACTGGCGGAGGCACTGGGCGGTGTGGACGTGTTCGTCAACAACTCAGGCACCGGCGACGGCACGAAGTTCCTCGAGCTGAACTATCAGACGTGGGCCGGCACCCTGGACACCAACCTCAACGGCGCATTCCTGTGCATCCAGGCCGCCGCCCGCCGGATGGTGGACGCGGGCCGGGGCGGACGCATCATTGCCGTGACTAGCGTCCACGAAATCCAGCCGCGGGTCGGCGCCGCAGCCTACGATGCCTCCAAGCACGGGCTCGGCGGGCTCATCAAGACCATCGCACTGGAACTGGCCGAGTTCGGTATCACCGCGAACTCTGTGGCCCCGGGCGAGATCGCCACGCCCATGACGGGGCAGACCGACGAGGACCCTACGCGCACAGACCGGCCCGGAGTGCCGCTGGGACGTCCTGGTGATGCGAGGGAGGTGGCCGCCGTCATCGCCTTCCTGGCTTCCCCGGCCTCGAGTTATGTGACGGGAGCGTCCTGGGCCGTCGACGGCGGGATGCTGCAGATGGGCCCCCAGGCAGGCTCGCATATCACCACCAACGACTGGCGGGAGAACTAG	MMEFSPRTAIVTGSDSGIGRATAVALAQAGLDVGITWHSDKGGAEKTAEEVRAAGRNAIVRQLDTTDLLGCAGVIDGLAEALGGVDVFVNNSGTGDGTKFLELNYQTWAGTLDTNLNGAFLCIQAAARRMVDAGRGGRIIAVTSVHEIQPRVGAAAYDASKHGLGGLIKTIALELAEFGITANSVAPGEIATPMTGQTDEDPTRTDRPGVPLGRPGDAREVAAVIAFLASPASSYVTGASWAVDGGMLQMGPQAGSHITTNDWREN	PGPT0014705_820	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
D1-17_00691	438			hypothetical protein	GTGCGTTTCCAGCCGCTTCGCTCGCTGCGCAAGGAAGCCGCGCCCCTTGCATGGGGACTGGACACACGGAAACATGTAAGCATGCTGACGATCGGAACAACTGTCCTCGGCGTTAACGACCTCGCCCGGGCCGCCGCATTCTGGTGTGATGCCCTGGGTTACGTACCCCGGGAAGAGGGCGACGACACGTGGGTGGTGCTGGTCCCCCACAAAGGAGAGGGCGCCCATCTGGCCCTGATGCTCAGCGAGACACCGGCGCATCCGCGTCCGCGGGTCCACCTCGATCTCTATGCCGACAACCAGGCCGGCGAGGTGGCGCGCCTGCTGGACCTGGGGGCGTCGGAGGTGGACTGGGAGCTGTATCCGGAAGACCCGGACTTCATTGTCCTGGAAGACCCGGACGGCAACCGCTTCTGCGTCGTGGACGTCTCGGCTTGA	MRFQPLRSLRKEAAPLAWGLDTRKHVSMLTIGTTVLGVNDLARAAAFWCDALGYVPREEGDDTWVVLVPHKGEGAHLALMLSETPAHPRPRVHLDLYADNQAGEVARLLDLGASEVDWELYPEDPDFIVLEDPDGNRFCVVDVSA				NA	NA	NA	NA	NA
D1-17_00692	813	allE	COG3257	(S)-ureidoglycine aminohydrolase	ATGAGCAACTATTTCTACCCGGAAGGCGGCCTCCCGCCGCAGACCCAGCTCCTGACAGACCGGGCCGTGGTGAAGGAGGCCTACACAGTCATTCCCAAGGGCGTGCTGCGGGACATTGTTACCTCCAACCTGCCCGGCTGGACCAACACCCGCGCCTGGATCATCGCCCGGCCCATCGCGGGCTTCGCCACCACCTTCTCCCAGCTCATTGTTGAGGTGGCACCGGGCGGCGGCTCCCAGAAACCGGAGGCGGAGGCCGGCGTCGAAGGCGTCATCTTCCTCACCAAGGGCAAACTGGACCTGAGCCTCGACGGCGAGATCCACCACCTCGAGGAGGGCGGCTACGCCTACCTCGCGGCCGGTGCCGACTGGTCGGTGAAAAACGATTCCGATGACATCGCCAGCTTCCAGTGGATCCGCAAAGCCTACGAGCCACTGGAGGGATACACCGCCAAGTCCTTCGTGACCCGCGACCAGGACGTAGAGCCGCGGCCCATGCCCGGAACCAACGGGGCCTGGGCCACCACCCGGTTCGTGGACCCCGATGACCTCGCCCACGACATGCACGTCAACATCGTGACGTTCCAGCCGGGCGCTTCCATCCCGTTCGCTGAAACCCACGTCATGGAGCATGGCCTGTTCGTCCTGGAGGGCAAGGCCGTCTACCGGCTGAATGACGACTGGGTGGAGGTGGAGGCCGGTGACTTCATGTGGCTGCGAGCCTTCTGCCCCCAGGCCTGCTACGCCGGCGGCCCGGGGAACTTCCGATACCTGCTGTACAAGGACGTCAACCGCCAGATCCGCCTGACGTAG	MSNYFYPEGGLPPQTQLLTDRAVVKEAYTVIPKGVLRDIVTSNLPGWTNTRAWIIARPIAGFATTFSQLIVEVAPGGGSQKPEAEAGVEGVIFLTKGKLDLSLDGEIHHLEEGGYAYLAAGADWSVKNDSDDIASFQWIRKAYEPLEGYTAKSFVTRDQDVEPRPMPGTNGAWATTRFVDPDDLAHDMHVNIVTFQPGASIPFAETHVMEHGLFVLEGKAVYRLNDDWVEVEAGDFMWLRAFCPQACYAGGPGNFRYLLYKDVNRQIRLT	PGPT0021650_144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021650-ylbA-K14977	NA	NA
D1-17_00693	1302			hypothetical protein	ATGGCAGTGCCCGAACCGTCACTCGGCGCGTCCGACCTTGCGCGGATTGATGCGCAGCTGGCCGCCACTGACCGCCTGCTCGAACGCAGCTACCCCGGCGACGACGGCTCCCGCCAGCCCGTGCATACGGTGTACGTTCCCGCGGACCGGTTCACGCCGTCGCTCGTTGCTGACTGGGGCGCGGAGGCGCTGGCGACGGCCGAAGCCCATGGCGGGCTCGTCCGCCTCGGCCATCTGCTGGGCCAGGAGCGTGCCCTGGCTGCCGCCGTCGCTTCCCGCGTTGAAGCCAAGCTCTCGGCTGAACCTATCGAGGATCTTCGGCTCGACTTCGAAGACGGCTACGGGGACAGGGGCGACGACGCCGAGGACGCCGCCGCTGTTGCTGCGGCTTCCGCTGTGGCCGCCGCCGTTGCGGCCGGCTCGGCGCCTCCCTTTATTGGTATCCGCTTCAAGTGCTTTGAAGCGCCCACCCGCGCCCGTGGCCTGCGCACGCTGGACCTCTTTGTATCCGGGCTGGCTGCCGCCGGCGAGCTTCCCGAAGGTCTGGCGCTTACCCTGCCCAAGGTCACCACTGTGGCCCAGGTGGAAGCGATGGAGTATGCGGTCTCACGCCTGGAGGAAGTCCACTCGCTTCCCGCGGGCCGGCTCCGCTTTGAGGTGCAGGTGGAAACGCCGCAGCTCATCCTCGGTCCGGACGGCACTTCGCCCGTCGGGCAGCTCGCCCATGCGGTGCCCGGCAGGATCAGTGCGCTGCACTACGGGACCTACGACTACTCGGCATCCCTGCAGATCTCCGCCGAGTACCAGTCCATGGAGCACCCGGTGGCGGACTTCGCCAAGGAGGTCATGCAGCTGGCAGTGGCCGGCACCGGCATCCGCCTGTCGGACGGCTCCACGAACATCATCCCGGTGGGCGAGAACGTGGAAAACGCCTGGCAGCTGCACGGCCGCCTGGTGCGGCGTTCCCTCGAACGCGGCTACTACCAGGGCTGGGACCTGCACCCGGCCCAGCTGCCGAGCCGTTTCGCCGCCACCTATGCCTTCTACCGGCAGGGCCTTCCGGCGGCAGCGGGGCGCCTGCGCAACTACGTCGAGCAGACGGCCGGCGGCGTGATGGATGAACCGGCCACCGCCCGCGCGCTGGCCGCCTTCGTGCTGCGCGGCGTGCAGTGCGGTGCGGTCGGCGCCGAAGAGGTGCGGGCCCTGGCCGGCGTCGGGCTTCCGCAGCTCACCGCACTGGCCCATCCGCGACTGGCCGACAAGAATTCCATTACTTCCGCAAAGCAAGGAGCAACCTCATGA	MAVPEPSLGASDLARIDAQLAATDRLLERSYPGDDGSRQPVHTVYVPADRFTPSLVADWGAEALATAEAHGGLVRLGHLLGQERALAAAVASRVEAKLSAEPIEDLRLDFEDGYGDRGDDAEDAAAVAAASAVAAAVAAGSAPPFIGIRFKCFEAPTRARGLRTLDLFVSGLAAAGELPEGLALTLPKVTTVAQVEAMEYAVSRLEEVHSLPAGRLRFEVQVETPQLILGPDGTSPVGQLAHAVPGRISALHYGTYDYSASLQISAEYQSMEHPVADFAKEVMQLAVAGTGIRLSDGSTNIIPVGENVENAWQLHGRLVRRSLERGYYQGWDLHPAQLPSRFAATYAFYRQGLPAAAGRLRNYVEQTAGGVMDEPATARALAAFVLRGVQCGAVGAEEVRALAGVGLPQLTALAHPRLADKNSITSAKQGATS				NA	NA	NA	NA	NA
D1-17_00694	1599	aceB_3		Malate synthase	ATGGCTATCACAGTCACAGACCCCCGGCCGATCGAGCGTGCGGAGGAGATCCTCACCCCCGAAGCCCTCGCATTCGTTGAAGAGCTGCACAAACGCTTTGCGGGCACGCGCGCCGAGCTGCTCAAGGCCCGCATTGCCAAGCGCGAGCACGTAGCCAGGACCGGCAGCCTGGATTTCCTGCCGGAGACCAAGGACGTGCGCGACGGCGACTGGAAAGTTGCGCCCGCACCGGCGGCTCTGCAGGACCGCCGGGTTGAAATGACGGGGCCCGCTTCGCCGGCCAAGATGGCCATCAACGCGCTCAACTCGGGTGCGAAAGTGTGGCTGGCCGACCTCGAGGACGCCAGCACCCCCACGTGGGCCAACGTCATTGACGCCATTCTCAACCTGCGCGATGCCGCCAACGGCACCCTCAGCTACACGTCCCCTGAGGGTAAGGAATACCGCCTCCGCACGGACGCGCCGCTCGCCGTCGTGGTAGCCCGCCCCCGCGGCTGGCACATGGAGGAACGCCACCTGCTGATCGACGGCGAACCCGCCGTCGGTGCCCTGGTGGACTTCGGGCTCCACTTCTTCCACATTGCGAAGCAGCTGGTCCTCAACGGCCACGGCCCCTACTACTACCTGCCCAAGATGGAGAGCCACCTCGAGGCACGGCTGTGGAACGACGTCTTCGTGTTCGCGCAGGACTTCCTGGGCCTCGGCCAGGGCACCGTTCGCGCCACTGTGCTGATCGAAACCATCCCTGCGGCGTTTGAGATGGACGAGATCCTCTACGAACTGCGCGACCATGTCTCCGGACTGAACGCCGGCCGCTGGGACTACCTGTTCAGCATCATCAAGTACTTCCGGGACGCCGGCGCGAGCTTCGTGCTGCCGGACCGTGCCACCGTGGCCATGACCGCGCCGTTCATGCGCGCCTACACTGAGCTGCTGGTCAAAACCTGCCACCACCGCGGTGCCTTCGCGATGGGCGGCATGGCGGCCGTTATCCCCAACCGGCGCGAACCGGAAGTCACCGCCCAGGCCTTCGAGAAGGTCCGTGCGGACAAGACCCGCGAGGCGAACGACGGCTTCGACGGCTCCTGGGTGGCTCACCCGGACCTCGTTCCGATCTGCCAGGAGGTGTTCGATTCAGTCCTCGGCGACAAGCCCAACCAGCTGGACAAGCAGCGCCCGGAGGTTTCGGTCACCGCCGGACAGCTGCTGGACATCGCCTCCGCGGACGGACAGGTCACCGAGGCGGGCCTGCGCCTGAACCTCTACGTCGCCGTCGCCTACACGGCCGTGTGGATTTCAGGCAACGGCGCAGTGGCCATCCACAACCTGATGGAGGATGCCGCCACGGCGGAAATTTCCCGCTCCCAGGTCTGGCAGCAGATCCGCAACGGCGTGGTCCTGGCCGATACCGGCAACAAGGTCACCCGGGAGCTGGTCTCGAAGATCCTGGCCGAGGAGACGGAAAAACTGCGCGGCGAGGTGGGCGAGGAAGCCTTCGAGCGCTACTACCGGCCGGCGAGCAGCCTGATTGCGGACATCTGTCTCTCCGAGGACTACACAGATTTCCTCACCACTCCGGCCTACGAACTGGTGGGCTGA	MAITVTDPRPIERAEEILTPEALAFVEELHKRFAGTRAELLKARIAKREHVARTGSLDFLPETKDVRDGDWKVAPAPAALQDRRVEMTGPASPAKMAINALNSGAKVWLADLEDASTPTWANVIDAILNLRDAANGTLSYTSPEGKEYRLRTDAPLAVVVARPRGWHMEERHLLIDGEPAVGALVDFGLHFFHIAKQLVLNGHGPYYYLPKMESHLEARLWNDVFVFAQDFLGLGQGTVRATVLIETIPAAFEMDEILYELRDHVSGLNAGRWDYLFSIIKYFRDAGASFVLPDRATVAMTAPFMRAYTELLVKTCHHRGAFAMGGMAAVIPNRREPEVTAQAFEKVRADKTREANDGFDGSWVAHPDLVPICQEVFDSVLGDKPNQLDKQRPEVSVTAGQLLDIASADGQVTEAGLRLNLYVAVAYTAVWISGNGAVAIHNLMEDAATAEISRSQVWQQIRNGVVLADTGNKVTRELVSKILAEETEKLRGEVGEEAFERYYRPASSLIADICLSEDYTDFLTTPAYELVG	PGPT0001445_2622	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-17_00695	1476			NAD-dependent malic enzyme	ATGGCGAACCCGAGCCCCGGAAATTCGATCACCCTGCGCGTCGAGGCGCCGTCCAGCTTCACCGCTACGAGCGAACTTGCAGCAGCCGTTGGAGCTGCCGGTGCGGCGATCACGGCCCTGGACGTCACCGAGTCCCACCACGAGACCCTCGTAGTGGACGTCACCTGCAACACCACCGACGACGACCACGCCAACCGCGTGAAAGACGCCCTTAACGCACTGGACGGCGTCAAGGTCCGCAACGTTTCGGACCGCACCTTCCTGATGCACCTGGGCGGCAAGCTCGAAGTCGTCCCCAAGGTGGCCCTGCGCAACCGCGACGATCTCTCCCGCGCGTACACGCCCGGCGTTGCCCGCGTCTGCCTCGCCATCGCCGAAAACCCCGACGCCGCTCGGAACCTTACGGTCAAGCGCAACACGATCGCCGTGGTCACCGACGGCTCCGCCGTCCTGGGCCTCGGCAACATCGGCCCCGCCGCCGCGCTTCCGGTGATGGAAGGCAAGGCCGCGCTGTTCAAGCAATTCGCGAACGTCGATGCCTGGCCGGTGTGCCTGGACACGCAGGACACCGAGGAGATCATCCGGATCGTCAAGGCCCTGGCGCCTGTCTACGGCGGCGTGAACCTCGAGGACATCGCAGCTCCGCGCTGCTTCGAGATCGAAAACCGGCTGCGTGAAGAGCTCGATATCCCGGTCTTCCACGACGACCAGCACGGCACCGCCATTGTCACGCTCGCTGCCCTGGTCAACGCCCTGCGCGTCGTCGGCAAGAAGCTCGACGGGGTGAAGATTGTGGTCTCCGGCGTCGGCGCCGCGGGCTCCGCCATTATCCAGCTCCTCAAGGCCCAGGGTGCGCAGCACATCATCGCCGCCGGCCGTTCCGGCGCCATCCACGCCGGCGAGCAGTACAACGACGAACACCGCAGCTGGATTGCCGCCAACACCAATGAGGAAGGTTTCTCCGGCAGCCTGCATGAGGCGCTCGAGGGCGCGGATGTGTTCATCGGCGTCAGCGCCCCGCACGTCATCGGCGAGGAGCAGGTCGCCTCGATGGCCAAGGACGCTATCGTGTTTGCCATGGCGAACCCCACGCCGGAGATCGACCCCGCCGTCGCGTCACGGCACGCCGCCGTTGTTGCCACAGGGCGCAGCGACTTCCCCAACCAAATCAACAACGTGCTGGCCTTCCCCGGTTTCTTCCGCGGGCTGCTGGACGCCGGAGCCTCCGACATCACCGCGGAGATGCTCGTGGCGGCCGCCGAGGCCATCGCGAACCGTGTTGCTGACGAGGAACTCAATGCCAGCTACATCATCCCCAGCGTCTTCGACCCGCATGTGGCGGCAGACGTAGCAGCGGCAGTTGCAGCTGCAGCCCACGCAGCTGCGGGTGTGCGCACATCGCCGGCAGCTTCGGAGGACACAATGGAAGCAGCAGCACCTGCTGCTGCAGACACAACAGCCTTCGCCAACGCCTGA	MANPSPGNSITLRVEAPSSFTATSELAAAVGAAGAAITALDVTESHHETLVVDVTCNTTDDDHANRVKDALNALDGVKVRNVSDRTFLMHLGGKLEVVPKVALRNRDDLSRAYTPGVARVCLAIAENPDAARNLTVKRNTIAVVTDGSAVLGLGNIGPAAALPVMEGKAALFKQFANVDAWPVCLDTQDTEEIIRIVKALAPVYGGVNLEDIAAPRCFEIENRLREELDIPVFHDDQHGTAIVTLAALVNALRVVGKKLDGVKIVVSGVGAAGSAIIQLLKAQGAQHIIAAGRSGAIHAGEQYNDEHRSWIAANTNEEGFSGSLHEALEGADVFIGVSAPHVIGEEQVASMAKDAIVFAMANPTPEIDPAVASRHAAVVATGRSDFPNQINNVLAFPGFFRGLLDAGASDITAEMLVAAAEAIANRVADEELNASYIIPSVFDPHVAADVAAAVAAAAHAAAGVRTSPAASEDTMEAAAPAAADTTAFANA	PGPT0001350_1462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001350-maeA|sfcA|ywkA-K00027	NA	NA
D1-17_00696	756	iclR_3	COG1414	Transcriptional repressor IclR	ATGGCAGAGAAAGCCGCGGGAGGCGTGCAGTCCGTTGAGCGCGTCTTCGAACTTTTGGAACTCATCACGGATGCCGGGGGAGATGTCACGCTCAGCGAACTCTCCTCCTCCACGGACCTGCCTCTGCCGACCATCCATCGGCTCCTGCGCACGCTGGTCACGCTGGGCTACATCCGCCAGCTGCCCAACCGCCGGTACGCCCTGGGGCCGCGGCTGATCCGCCTGGGCGAAGGCGCCAACAAGCAGCTTGGCGCGCTGGCCCGGCCGCAGCTCAAGTCCCTGGTGGACCGGCTTGGTGAAACCTCCAACATGGCCGTGCTGGACTCGGACATGGTCATTTACGTGGCGCAGGTTCCTTCGCTGCACTCGATGCGCATGTTCACCGAGGTCGGCCGCCGCGCCCACACCCATGACACGGGCGTCGGCAAGGCCATCCTGGCGCAGCTCGACGACGAGGCCGTGCGCGGAATCGTGGCCCGCACAGGCATGCCCACCCCCACGCCCAAGAGCATCGGCGACATCGATGACCTTCTCGCCGACCTGAAGCTGATCCGCGAGCGGGGATACTCCATTGACGAGGAGGAGCAGGAGCTCGGGGTTCGCTGCTTCGCCATGGCTGTGCCGAACGCCCCCACCCCCGCCGCCATCTCCGTGTCCGGGCCGGTGTCGCGCGTCGATGAGTCCTTCGCCGAGCGTGCCGTCCCGCTGCTCCGCGAAGCAGCCCAGGCGATCTCGGACGAGTTCAACCAAAACTAA	MAEKAAGGVQSVERVFELLELITDAGGDVTLSELSSSTDLPLPTIHRLLRTLVTLGYIRQLPNRRYALGPRLIRLGEGANKQLGALARPQLKSLVDRLGETSNMAVLDSDMVIYVAQVPSLHSMRMFTEVGRRAHTHDTGVGKAILAQLDDEAVRGIVARTGMPTPTPKSIGDIDDLLADLKLIRERGYSIDEEEQELGVRCFAMAVPNAPTPAAISVSGPVSRVDESFAERAVPLLREAAQAISDEFNQN				NA	NA	NA	NA	NA
D1-17_00697	1482	uacT	COG2233	Uric acid transporter UacT	ATGAACACCAAGAAAAAAGTCCGCGCCGCGGCAGTACGCCCCGAAGACCAGAGACTGCCCCTGGGCGCGACCTTCGCCTACGGATTCCAGCATGTCCTCACGATGTACGGCGGCATCATCGCTCCGCCGCTGATTATCGGTGCCGCGGCCGGGATGTCATCGCAGGACATCGGCCTGCTCATCGCCGCCTGCCTTTTTGTCGGCGGACTGGCCACGATCCTGCAAACCGTCGGCATTCGTTTCTTCGGATCGCAGCTCCCGCTGGTGCAGGGCGTTTCCTTCGCCGGCGTGTCCACCATGGTCGCCATCGTCCATGGAGGCGGCGGAATCCAAGCGGTCTTTGGCTCTGTCATTGCTGCCTCGCTGATCGGCCTGCTCATTACCCCGCTGTTTTCGAAGATCATCCGTTTCTTCCCGCCCGTCGTGACCGGCACGGTGATCACCACCATTGGCCTGACGCTGATGCCGGTGGCGGCCAACTGGGCCATGGGCGGCAACAAGTCGGCAGCCAACTATGGCAGCATGGCCAACATCGGCCTCGCAGCGGCCACGATGGCAATCGTCCTCCTGCTCAGCAAGGTCGGTAGCGCCGCGATTTCCCGGCTCTCGATTCTGCTGGCGATGGTTCTGGGCACGGTCATCGCGTTCGTCTTCGGGATGGCGGACTTCTCGAAAGTAGCTCAGGGCGAAATCGTCGCCTTCCCCACGCCCTTCGCGTTCGGGGCACCCACCTTCGAGGTCGCCGCGATCATTTCCATGCTCATCGTCATCCTCGTGACCCTCACCGAAACCTCGGCGGACATCATTGCCGTGGGCGAAATCGTGGGCACGAAGGTCGACTCCAAGCGGATCGGCGACGGCCTCCGGGCGGACATGCTCTCCAGCGCCATCTCGCCACTGTTCAACTCCTTCACCCAGAGCGCCTTCGCCCAGAACGTGGGCCTCGTCGCCATTACCGGTGTCAAGAGCCGCTTCGTGGTGAGCGCCGGCGGCCTGATCCTCGTGATCCTCGGCCTGCTGCCGGTGCTTGGCCGTGTAGTCGCAGCGGTGCCCACTCCCGTCCTGGGAGGTGCCGGCGTCGTCCTCTTTGGAACTGTTGCCGCGAGCGGCATCCGGACGCTCTCGAAAGTGGAGTACCGCAACAACATGAACCTGATCATCGTGGCCGCGTCCATCGGATTCGGCATGATCCCGATCGCGGCCCCGGCGTTCTATGACCAGTTCCCGTCCTGGTTCGGCACGATCTTCCACTCCGGCATCAGCTCGGCGGCGATCATGGCCATCCTGCTGAACCTGCTCTTCAACCACCTCAAGGCAGGCAACTCGGAGAACCAGTCGGTGTTCGTGGCGGGCACCGGGCGGGTGGTCCGGGAGGAGGACCTGCAGTGCCTGGCCGACGGCGACCGCTTCGAAGGCGGGAAGCTGATCGACTGCGACGGCAAGGAAGTCCCGGTCCAGGCGTCGACGGCATCCGAGCACTGA	MNTKKKVRAAAVRPEDQRLPLGATFAYGFQHVLTMYGGIIAPPLIIGAAAGMSSQDIGLLIAACLFVGGLATILQTVGIRFFGSQLPLVQGVSFAGVSTMVAIVHGGGGIQAVFGSVIAASLIGLLITPLFSKIIRFFPPVVTGTVITTIGLTLMPVAANWAMGGNKSAANYGSMANIGLAAATMAIVLLLSKVGSAAISRLSILLAMVLGTVIAFVFGMADFSKVAQGEIVAFPTPFAFGAPTFEVAAIISMLIVILVTLTETSADIIAVGEIVGTKVDSKRIGDGLRADMLSSAISPLFNSFTQSAFAQNVGLVAITGVKSRFVVSAGGLILVILGLLPVLGRVVAAVPTPVLGGAGVVLFGTVAASGIRTLSKVEYRNNMNLIIVAASIGFGMIPIAAPAFYDQFPSWFGTIFHSGISSAAIMAILLNLLFNHLKAGNSENQSVFVAGTGRVVREEDLQCLADGDRFEGGKLIDCDGKEVPVQASTASEH	PGPT0007330_230	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
D1-17_00698	909	uox		Uricase	ATGAGCAACAAGATCATCCTCGGCCAGAACCAGTATGGCAAGGCCGAAGTCCGGGTCGTCAAAATCACCCGGGATACCCACCGCCACGAAATCGAAGACCTGAACGTCACCTCGCAGCTCCGGGGCGACTTTGCCGCTGCCCACCTCGAAGGCGACAACAGCCATGTTGTAGCAACGGATACCCAGAAGAACACCATTTACGCCCTCGCCAGGGACGGCATCGGCTCGCCCGAAGCGTTCCTGCTGCGCCTAGGTGAGCACTTCACCTCGAGTTTCGACTGGGTCTCCGGCGGACGCTGGGAAGCCGAGTCCTACAGCTGGGACCGCATCCAGGCGCACGGCAGCGAGCACGACCATTCCTTCGTTCGCACGGGCCAGGAAGTCCGCACCGCGGTCCTGGTGAAGGACGATGCGGCAACCCACCTCATCTCCGGCCTCAAGGACCTCACCGTCCTGAAGTCCACGCAGTCCGGCTTCGTGGGATACCCGAAGGACAAATACACCACCCTGCCCGAGACCACTGACCGCATTCTGGCCACCGATGTCTCCGCCCGCTGGCGGTTCAAGGCCGGCACGGATTTCAGCACCCTGGATTTCAACAAGAGCTACGAAGACATCAAGGCCCTGCTGCTGGAAGGGTTCACCGAGAAGTACTCGCACGCCCTGCAGCAGACCCTGTTCGACATGGGCACCAAAGTCCTGGAAGCTCATAGCGAAATCGACGAAATCAAATTCTCGATGCCGAACAAGCACCACTTCCTGGTGGACCTCGCGCCGTTCGGGCTCGACAACCCCAACGAGGTGTTCTTCGCTGCAGATCGGCCGTACGGCCTGATCGAGGCCACCGTACAGCGCGACGACGCCGCCCCCGCTGAGGCCGCCTGGTCCGGCATCGCCGGCTTCTGCTAA	MSNKIILGQNQYGKAEVRVVKITRDTHRHEIEDLNVTSQLRGDFAAAHLEGDNSHVVATDTQKNTIYALARDGIGSPEAFLLRLGEHFTSSFDWVSGGRWEAESYSWDRIQAHGSEHDHSFVRTGQEVRTAVLVKDDAATHLISGLKDLTVLKSTQSGFVGYPKDKYTTLPETTDRILATDVSARWRFKAGTDFSTLDFNKSYEDIKALLLEGFTEKYSHALQQTLFDMGTKVLEAHSEIDEIKFSMPNKHHFLVDLAPFGLDNPNEVFFAADRPYGLIEATVQRDDAAPAEAAWSGIAGFC	PGPT0021105_418	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021105-uaZ-K00365	NA	NA
D1-17_00699	198			hypothetical protein	ATGAACCAGCAGGACCATTCGCCCAGCACCCCGTCCACTGCACCGGCCCAGGCAACCGCGCCTTCAGCCCAGGAGTTCTACCTCCCCAGCGGAGGCGGAGCAGATCCGGATTTCTACCTTCCCGCAGACCGGGTCCACGCACCGGGCCGGATCTCGCGCTGGATCCACAGCCTGCCGGTGTTCGGCCGACGGCCCTAG	MNQQDHSPSTPSTAPAQATAPSAQEFYLPSGGGADPDFYLPADRVHAPGRISRWIHSLPVFGRRP				NA	NA	NA	NA	NA
D1-17_00700	1245			hypothetical protein	ATGAACCCGTCGAAGACCCCGGCCGAAATCCTCACCATCGACGGCGTTGAGGTTCGAATCTCCAGCCCCGACAAGGTGGTGTTCCCCGAGCCCGGGCTGACGAAACTCGATCTGGTGCACTACTACCTGACCGTCGCAGATGGCGCGCTGCGCGGGGCCGGCGGCCGGCCCATGGTGCTCAAGCGCTTCCCGAAGGGCATCGACGCGGAGCCGTTCTTCCAGAAGCGCGTGCCCGAAAACCATCCCGACTTCATTGACACGACGACGCTTCGCTACGCATCGGGGACGTCGGCGGAGGAGGCCGTGATTCGAAACGCCGCAGGCCTGGCATGGGTGGTGAATCTTGGATGCCTCGACCTCAACCCGCATCCGGTGCGCGCCGAAGACCTCGAGCACCCGGACGAGCTACGGGTGGACCTCGATCCCATGCCGGGGGTCGGGTGGTCCCAGGTCGTCGACGTCGCATCCGTCGCGCGGGAGGTCCTTGACGACGTGGGACTGGTGGGGTGGCCGAAGACGAGCGGGTCGCGTGGACTCCACATTCTCGTGCGCATTGCGCCCCAATGGTCCTACCGCGACGTGCGGCTCGCTGCCGAGACTCTCGCCCGGGAGGTCGAAAACCGTGCCCCGGGCCTCGCCACCGCCCGGTGGTGGAAGGAGGAACGCGGTGAGAGTGTTTTCGTCGACTTCAACCAGAACGCGAAAGACCGGACTGTGGCATCGGCGTACTCGGTCCGGCCCCTGCCCGATGCCCGGGTCTCAACGCCGCTCACCTGGGACGAGGTCCGCTCCATCCGGCCGGAGGAGTTCACCGTGCCGGCAGTGCTCAAGCGCTTCGCGGGCGTGGGCGACCCTCATGCCGGCATTGACGACGCCGTCGGCACACTCGACGGGCTGCTCGCCCTGGCGGACAAGCTCGGCCCGGCCGAGAAGCCGCCGCGCGGGGGCAATGGCTCCGGCCGCCGGCAATCGGTGATGCCGCTCATTGAAGTGGCCCGCACCAAGACCAAGCCCGAGGCACTCGCCGCGCTCGACGAGTGGAAGTCCCGGAATGCGGACGTGGTCCCTGCCCTGCACCCAGCCGATGTTCTTGTCGACGGGATGCGGGGATCGAGCTCCCTCTGGTACAGGGTGCGGGTGAATCTGCAGCACGTTCCCGAAGCGGACCGCCCGCCCCAGGAGGAGCTCATCGCCGACTACGACCCGTGGGCAGGCAGGGAGTGGCCGGGGAGCCCTGGGGCCTGA	MNPSKTPAEILTIDGVEVRISSPDKVVFPEPGLTKLDLVHYYLTVADGALRGAGGRPMVLKRFPKGIDAEPFFQKRVPENHPDFIDTTTLRYASGTSAEEAVIRNAAGLAWVVNLGCLDLNPHPVRAEDLEHPDELRVDLDPMPGVGWSQVVDVASVAREVLDDVGLVGWPKTSGSRGLHILVRIAPQWSYRDVRLAAETLAREVENRAPGLATARWWKEERGESVFVDFNQNAKDRTVASAYSVRPLPDARVSTPLTWDEVRSIRPEEFTVPAVLKRFAGVGDPHAGIDDAVGTLDGLLALADKLGPAEKPPRGGNGSGRRQSVMPLIEVARTKTKPEALAALDEWKSRNADVVPALHPADVLVDGMRGSSSLWYRVRVNLQHVPEADRPPQEELIADYDPWAGREWPGSPGA	PGPT0014910_1472	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-17_00701	1401		COG0402	8-oxoguanine deaminase	ATGCCCCCTACGTCCCCAGGTACATCCACAGCCCCCGTTCTATCCACACAACCCCGATCCCGGCTCTGGATCCGCCACCCCCTTGCAGCCTTCACGGGTAACAGCCTCGACGCGTCCGGCGGCATCGTAGTCGCCGGAGGGAGGATCCAGGAAGTCCTCGGCGCCGGAGAACGGCCATCGGCTCCCTGGGACGAGACATTCGACGCCGGCAGCTACGTCCTGCTCCCGGGCCTGATCAACACCCACCACCACTTCTACCAATCGCTGACCCGCGCCTGGGGACCGGTGGCGAACGCGCCGCTGTTCCCGTGGCTGCAGCACCTATACCCGGTGTGGGCCCGGCTCACGCCACGGGACCTGGAGCTCGCTGCGACGGCGGCCCTCGCCGAGCTGCTGCTGTCCGGTTGCACCACCGCGGCCGACCACCACTACGTGTTCCCCGCAGGGCTGGAAGATGCCATCGACATCGAGGTCGAGGCGGTCCGCCGGATGGGAATGCGGGCAACGCTCACCCGCGGCTCGATGAGCCTGGGAGAGAACGACGGCGGTCTGCCGCCCCAGTCAACGGTGCAGCGGCCGGAAGTGATCCTGGCCGACAGTGAGCGGCTGATCGGGCAGTATCACGAGCGCGGCGACGGCGCAGTGATCCAGATTGCGCTGGCTCCGTGCTCACCGTTTTCCGTGGCCAAGGAGCTGATGACCGAAACCGCGCTGATGGCCGAACGGCTCGATGTCCGGCTACATACACACTTGGCCGAGACGCTGGACGAGGAGGAGTTTTGCCGGGAGATGTACGGGCTCCGGACGGTGGACTATCTGGACAGCGTCGGCTGGCTGACGCAGCGGACATGGCTGGGTCACGGCATCCACTTCAGCGGCACCGAGATCGCCCGGCTGGGTGCCGCGGGCACCGCCGTCGCGCATTGCCCGACCTCCAACATGCGCCTGGCCTCAGGCACTGCCCGCGTCCTGGAACTTGAGGACGCGGGCGTTCCCGTGGGACTGGGAGTGGACGGATCGGCGTCGAACGATGCCTCCAACATGATCCTCGAGGCGAGGCAGGCGCTGTACCTGCAACGGCTGCGCTATGGAGCCGACGTGCCGGTGGAGCGCGCGCTGGGATGGGCCACCCGGGGGTCGGCGGCCGTGCTGGGACGGGGCGACCTCGGGCAACTGGCTCCTGGAATGCAGGCGGACCTTGCCCTGTTCAGATTGGACGACCTCCGCTTTTCGGGCAGCCATGACCCCATCGCCGCGCTGCTGCTGTGTGCGGCCGACCGTGCCGAGCGTGTAATGGTGGGCGGGCAGTGGCGGGTGGTGGACGGGCAAATCCCCGGGCTGGACCTCGGCCGGCTCATTGCAGAACACTCGGCAGCTGCGCGCAGGCTCGTTGCCGGCTGA	MPPTSPGTSTAPVLSTQPRSRLWIRHPLAAFTGNSLDASGGIVVAGGRIQEVLGAGERPSAPWDETFDAGSYVLLPGLINTHHHFYQSLTRAWGPVANAPLFPWLQHLYPVWARLTPRDLELAATAALAELLLSGCTTAADHHYVFPAGLEDAIDIEVEAVRRMGMRATLTRGSMSLGENDGGLPPQSTVQRPEVILADSERLIGQYHERGDGAVIQIALAPCSPFSVAKELMTETALMAERLDVRLHTHLAETLDEEEFCREMYGLRTVDYLDSVGWLTQRTWLGHGIHFSGTEIARLGAAGTAVAHCPTSNMRLASGTARVLELEDAGVPVGLGVDGSASNDASNMILEARQALYLQRLRYGADVPVERALGWATRGSAAVLGRGDLGQLAPGMQADLALFRLDDLRFSGSHDPIAALLLCAADRAERVMVGGQWRVVDGQIPGLDLGRLIAEHSAAARRLVAG				NA	NA	NA	NA	NA
D1-17_00702	495	guaD_1	COG0590	Guanine deaminase	ATGAGTACCACCGTCACGGCCGAACAATTCCTGGCCAGATCCATCGAGCTTGCAACCGCGAACGTGCTCAACAGCGGAGGACCATTCGGCGCGGTCGTCGTTACCGCTGATGGCCGGGCATTCGACGGCGTCAACCGCGTCACCGCCACCAACGACCCCACGGCCCATGCAGAGGTCACGGCCATCCGCCGCGCCTGCAGCGAGCTGGGCACCTTCGACCTTCACGGTGCCACCCTCTACAGCAGTTGCGAGCCGTGCCCCATGTGCCTCGCGTCCGCGCTCTGGGCCCGCATCGGCCGCGTTATTTTCGCGGCAGACCGGCACGACGCCGCTTCCGTCGGCTTCGACGATGCCGTCTTCTACGAGTATTTCGACAACGCCGACCGGGACGCCCTCATGCCGGTATCCAAACTGGAACTCGAGGACCCGCAGGCACCGGCCATTCTCGCGCCATTCACCACGTGGAACACGCTCGATTCCAGGATCGACTACTAG	MSTTVTAEQFLARSIELATANVLNSGGPFGAVVVTADGRAFDGVNRVTATNDPTAHAEVTAIRRACSELGTFDLHGATLYSSCEPCPMCLASALWARIGRVIFAADRHDAASVGFDDAVFYEYFDNADRDALMPVSKLELEDPQAPAILAPFTTWNTLDSRIDY	PGPT0021515_2147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
D1-17_00703	1527	pbuG_1	COG2252	Guanine/hypoxanthine permease PbuG	ATGTCCATTCTCGACAAGACCCCTGACGGCCCTGAAACCGTGGCCACGAAAGCCACGCACACTCCGGGAAAACAGCCTGCCCAGAAAACCACCCCGCCGCACGCCCTCCTGGACCGCTTCTTCCATATCAGCCAGCGCGGCTCAACGGTGGTACGCGAACTGCGCGGCGGCCTGGTTACCTTTTTCACCATGGCCTATATCGTCATCCTGAACCCGCTCATTCTTGGCGGCTTCAGCGCGGACAACGCCCCCACTGACGTCGCCGGCGGATGGCTCTCGGCGGCGCAGGTGGGTGCGGTCACCGGCCTCACCGCCGGCGTGATGACCATTCTCTTTGGACTCATCGCCAACCTGCCGTTCGGGCTCGCTGCCGGTCTCGGCATCAACTCCTTTCTCGCCGTGGCCGTCATCCAGGAGGTCACCTGGGCCGAGGCCATGGGCCTGGTGGTCATCAACGGCATCCTGATCGTCCTGTTCGGCGTCACCGGCGCACGGACAGCGATCTTCCGGGCCGTGCCCAAGGAACTCAAGGCCGCCATCACCGTGGGCATCGGCCTGTTCATTGCCTTCATCGGCTTCGTGGATTCCGGTTTCGTCCGCGCCACCACGGGCGGACCGCCGGTTCAGCTGGGGGACAACGGCTCCATCACCTCCATTCCCACCCTGGTGTTCATCGTCGGCCTGCTGGTCATGGGCATTCTGGTTGCCCGCAAGGTGCAGGGCGGACTGCTCATCGGCATCGTGGCCACTACCGTGCTGGCGGCCGTCGTCGAAGCGGTCCTCCACATCGGCCCGGGCGGCAAGGACAACCCCGGCGGCTGGCACCTGAACACGCCGGTCCTTGCAGGCCAGCTCGTGTCCGCCCCGGACCTGGGCCTGGTAGGCCAGTTCGACCTCTTCGGTGCGTTCGGCAGGATCGGCGCGCTCGCCGCCACCATGCTCGTCTTCACCCTGGTGTTCACTAACTTCTTCGACGCCATGGGCACCATGACGGGACTTGCCAAGAGCGCCGGCGTGGCCCATAAGGACGGCACCTTCCCGCGGCTCAAGTCTGCCTTCATCGTCGAAGGTGTCGGGGCTGTCGCCGGAGGCGCCACGTCCGGATCCTCCAACACCGTGTACATCGACTCTGCGGCAGGCATCGGGGAGGGCGCGAGGACGGGACTGGCCTCAGTGGTCACCGGAGTCCTGTTCCTCGGATCCATGTTCCTCACCCCGCTCACCAGCGTCGTGCCGCTCGAAGTGGCCGCCGCCGCCCTCGTGGTGGTTGGCGCGATGATGATGGCGCAGATACGGGAGATCAAATTCACCCGGTTTGCTGTGGCCCTGCCGGCCTTCCTGACCATCGTGACCATGCCGCTGACCTACTCGATCGCCAACGGCATCGGCGTCGGCTTCGTGTCCTGGGCAGTGATCGGGGCGGCGTCCGGCAAGGCGAAGAAGATCCACCCGCTCATGTGGGTGGTCACCGCGGGCTTCCTGGTCTACTTCGCCCGCGGACCGGTCAGCGCCCTGCTCGGCGCGTAA	MSILDKTPDGPETVATKATHTPGKQPAQKTTPPHALLDRFFHISQRGSTVVRELRGGLVTFFTMAYIVILNPLILGGFSADNAPTDVAGGWLSAAQVGAVTGLTAGVMTILFGLIANLPFGLAAGLGINSFLAVAVIQEVTWAEAMGLVVINGILIVLFGVTGARTAIFRAVPKELKAAITVGIGLFIAFIGFVDSGFVRATTGGPPVQLGDNGSITSIPTLVFIVGLLVMGILVARKVQGGLLIGIVATTVLAAVVEAVLHIGPGGKDNPGGWHLNTPVLAGQLVSAPDLGLVGQFDLFGAFGRIGALAATMLVFTLVFTNFFDAMGTMTGLAKSAGVAHKDGTFPRLKSAFIVEGVGAVAGGATSGSSNTVYIDSAAGIGEGARTGLASVVTGVLFLGSMFLTPLTSVVPLEVAAAALVVVGAMMMAQIREIKFTRFAVALPAFLTIVTMPLTYSIANGIGVGFVSWAVIGAASGKAKKIHPLMWVVTAGFLVYFARGPVSALLGA	PGPT0007325_638	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007325-pbuG|azgA|ghxP|ghxQ|adeQ-K06901	NA	NA
D1-17_00704	1317			hypothetical protein	ATGCTGGAGCTAATGCCGTCCCTTGCCGGCTGGCCGCCGGCGGCCGCCGGGCAACGCTGCGCCGTTGCCACGGTCGTGGGCACCAGCGGTTCTGTCCCGCGCCCGATGGGAACCTCGATGGTGGTCTCCGAAACCGGTGCCATCCTTGGCAGCCTCTCCGGCGGCTGCGTGGAGGGGGCCGTCGTCGAAGCCGCCCTGGAAGCAATGCGCGACGGCGGCGCCCGGCTTGAGCAGTTTGGCTACAGTGCCGCTGACGCCTTCGCCGCCGGGCTCACCTGCGGTGGTGAACTCGAGGTCCACATCGAACCCCTCGATGCGTTCCTCGGGACCTATAGCGAGTGGCTGCGCCAGGCTCCCGGGAGCCCGGTGGCACTCATCCGCAGGGTGGACCCGAACGGGAGCGGCGCCGTCGTGATCCCCGATCCCGCCACCTTCCGCGCGTCCGAGTCAGCCGCCCTGGCCGCCCTCCTTGGCATGCACGGGAGCGGGGGTGCCTCGCTGCACGGGAGCGGGGGTACCTCGCGCCGCAACACGAGTGACGGAGCGTCAGCAGCAGCCCTGGCGGCAGCCGGTGCCCAGCTCGAACCGCTGCTGCGGGGCGGGCGCACCGGGCTTGTCCGGCTCGCCCCCACCGGAGGCTGCTTCGCGGGCGGGTCCGGACGGACCGGGACACCAGCGCCGGAGGACGCAGGGATCGAGCAGCCCGAGCCTGTCGCGCTCCTCGTCGAAAGCCGTCTGCCGCCGCCGCGGATGATGCTGGTCGGCGCCAACGACTTCGGTGCCGCCCTGGTGCCGGCGGCGAAACTGCTCGGGTACCGGGTGACCCTTGTCGATGCGCGTCCCGCGTTTGCCGCCCAGTCGCGATTTGAGAGCGCGGACGACGTTGTCACAGACTGGCCGCACCGCTACCTGGCGGCCGAGGCAGCTGCCGGAAGGATCGACTCCCGCACGGCCGTTTGCGTCCTCACGCACGATCCCAAGTTCGACATTCCGCTGCTGCAGAAGGCGCTTGCCCTGGACGTGGCGTTCGTCGGAGCGATGGGCTCGAGGCGCAGCCACCGCCAGCGGGTGGACGAACTGCTGGCCGCGGGCGTTGCACCCGAACGGCTGGGCCGCCTCCATTCCCCGATCGGACTCGACCTCGGAGCCGTCACCCCGGCGGAGGTGGCCGTGTCCATCACGGCCGAGCTGATCGCAGCCAGCAGCGGTGTCAGCACCTGCGTGCCCCTGCGGGACGGCGCCGGCCCCATCCACCGCCCCTCCAGAGACTTCTCCGCAAACACCTCTACAGAAAACCGGGGGACGCCATGGACATGA	MLELMPSLAGWPPAAAGQRCAVATVVGTSGSVPRPMGTSMVVSETGAILGSLSGGCVEGAVVEAALEAMRDGGARLEQFGYSAADAFAAGLTCGGELEVHIEPLDAFLGTYSEWLRQAPGSPVALIRRVDPNGSGAVVIPDPATFRASESAALAALLGMHGSGGASLHGSGGTSRRNTSDGASAAALAAAGAQLEPLLRGGRTGLVRLAPTGGCFAGGSGRTGTPAPEDAGIEQPEPVALLVESRLPPPRMMLVGANDFGAALVPAAKLLGYRVTLVDARPAFAAQSRFESADDVVTDWPHRYLAAEAAAGRIDSRTAVCVLTHDPKFDIPLLQKALALDVAFVGAMGSRRSHRQRVDELLAAGVAPERLGRLHSPIGLDLGAVTPAEVAVSITAELIAASSGVSTCVPLRDGAGPIHRPSRDFSANTSTENRGTPWT	PGPT0007280_92	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_BIOSYNTHESIS,PGPT0007280-xdhC|paod|ygeB|pucA-K07402	NA	NA
D1-17_00705	954			hypothetical protein	ATGAACACCATAGAAGCCGTGGTCCGCACCACGGATCCGGCCGAGTGGCGCGCCGGCGACGCCTGGCTCGCCGGCGGCACCGTCCTCTTCTCATACGGCAGTTACGCCTTCGGCCCCGAGCCGCTCCGGCGGCTGCTGGACCTTGGCTCGGCGGACTGGCCAGCCATCGAGGTGACCGACGGAGGAATCGAACTGGCCGCAACCTGTACGGTCGCGGAACTTTACGCTCTTCCGGACTCGCCCCAACTAGCGGGCCGAGCCGATCAGTGGCCCGCGCTTGACCTCATCCGCCCCTGCTGCGATTCCTTCGTGGCCTCCTTCAAGGTGTGGAACATGTCCACGGTGGGCGGCAACCTCTGCACGTCCCTGCCGGCCGGGCCCATGATTTCGCTCTGCGCCGGACTTGACGGGAAGGCCACTATCCTCGGCATGGGCGGCATCAGCCGCGAGCTGCCCGTCGCCGATTTCATCACCGGGGACGGGCAGAACACCCTGGCGCCGGGTGAGCTGCTCCGCAGCATCCGGCTCCCGGCCGCGGCGCTGTCCGAGCGGGTGGCGTTCCGCCGCCTCTCGCTGAGCAACCTCGGACGTTCCGGGGTGTTGCTCATTGGAAGGCTCGACGCCGGACTGCAGCTGACGCTCACGGTCACCGCCGCAACGAAGCGGCCCGTGCAGCTCCGCTTCGGCCGTGTGCCGGACACTGCCGCACTCAGGCAGGGCCTGGACGAAGCCATTCCGGACACCCTCTACCACGACGACATCCACGGCCTGCCCGCCTGGCGCCGTGACATGACCTATCGGCTCGCGGAGGAGATCCGCGGGGAACTCGCGGCGCCGGATGGCGTCCTGCCCCTGCCGGACAACGCACTGCCGGTCAGCGGCGACTTCTGGCCGCCGGAACGCCACGCCGCCCGCAGCACCCCGACCACTCCGAAGAAAGACACCGGAGCATGA	MNTIEAVVRTTDPAEWRAGDAWLAGGTVLFSYGSYAFGPEPLRRLLDLGSADWPAIEVTDGGIELAATCTVAELYALPDSPQLAGRADQWPALDLIRPCCDSFVASFKVWNMSTVGGNLCTSLPAGPMISLCAGLDGKATILGMGGISRELPVADFITGDGQNTLAPGELLRSIRLPAAALSERVAFRRLSLSNLGRSGVLLIGRLDAGLQLTLTVTAATKRPVQLRFGRVPDTAALRQGLDEAIPDTLYHDDIHGLPAWRRDMTYRLAEEIRGELAAPDGVLPLPDNALPVSGDFWPPERHAARSTPTTPKKDTGA				NA	NA	NA	NA	NA
D1-17_00706	2889			hypothetical protein	ATGACCATCGACATCAACGGCGTACCTGCCGCAGCAGAACCCCGCCCGGGCCAGTGCCTGCGCACCTTCCTGCGGGAACAGGGAAACCTGGGAGTGAAGAAGGGCTGCGACGGCGGCGACTGCGGAGCCTGCACGGTGCACGTGGACGGCACCCCCGTCCACAGCTGCATCTACCCGGCTGTGCGTGCCGAGGGACATCAGGTCACCACCATCGAGGGACTGGCAGGTGGTGCCGGGCCGCATCCCATGCAGCAGCAATTCCTGGACCGGCAGGGCTTCCAATGCGGCTTCTGCACGGCGGGCATGGTCATGACCGCTGCGACCTTCGACGAGGCCCAAAAGCAGACCCTGCCCCGGAACCTCAAAGGCAATCTCTGCCGCTGCACCGGCTACCGCGCCATCGGGGACGCCATCTGCGGGCACGAGGGGCACCCGGACCCGCACGGCCAAGGGTCCGGCATGGCAGGGGAAAGCCAGCCCCAACCCAGCCCCGGGCAGCTCGGCGACGACGTGCCGGCTCCCGCGGGCCGCGCAGTGGTCACCGGCAAGGCCCGCTATACCCTGGACGTGCCGGCGGAGGACCTTCCGGGTTTGCTGCATATGAAGTTGCTGAGGTCTCCGCACCCGCACGCCCGGGTGGTCTCCGTCGACAGGACCGGCGCACTGAATGTGCCTGGCGTCGTTGCCGTCTTCACATCCCAGGATGCGCCGGACCAGCTGTTTTCCACCGCCCAGCACGAGCTCTACACCGATGATCCCGACGACACCCGGCTGCTGGACGACGTGGTGAGGTTCCGCGGCCAGCGCGTCGCCGCCGTCGTGGCTGAATCGGTGGGGGCCGCAGAAGCAGGCGTCCGTGCACTCCAGGTGCAGTACCAGGAACTCCCGGCCGTGTTCACGCCCCAGCAGGCCCTTCTTCCCGGAGCGCCGGCGATCCACGGGGACAAGGACAGCGCCACCGCAAGGATCAGCCGGCCGAAGGACAACGTGGTGGCTGAACTGCACTCCGAACTCGGCAGCGTGCAGGACGGCTTCGCCGAGGCCGACTTCATCCACGAACAGATTTACCGGACGCAGCGCGTGCAGCACGTGGCGCTCGAGACGCACTCGTCCATAGCTTCTGTGGACGAGGCGGGCAGGCTGCAGATCCGCACCTCGAGCCAGGTCCCGTTCCTGGTCCGGCGCACCCTGTGCCGGCTGTTCGGGCTGCCCGAGAAGCAGGTCCACGTCGTGGCGGGCCGGGTAGGGGGCGGCTTCGGCGGCAAGCAGGAGGTGCTCACCGAGGACATCGCAGCGCTCGCAGCACTCACCCTGAAGCGGCCGGTGCAGCTCGAGTTCACCCGCACGGAACAGTTCACGGCCACCACGACCCGGCACCCGTTCACCATCAAACTCAAGGCCGGAGCCAGCAGGGACGGCCGGCTCACAGCCCTCGAGCTGGACGTGCTGACAAACGCCGGCGCCTACGGAAACCATTCCCCGGGCGTGATGTTCCATGGCTGCGGCGAATCGCTGGCCGTGTACAAGTGCGCCAACAAGAAGGTTGATGCCCAGGCGGTCTACACCAACACTGTTCCCTCCGGCGCCTTCCGCGGCTACGGGTTGAGCCAGATGATCTTCGCCATCGAATCCGGAATTGACGAGCTGGCGGCAGGCATCGGGATGGACCCCCTGGAATTCCGCCGCCGCAACATGGTCCGTGAGGGCGACGATATGCTCTCCACCCACTCCGAGCCTGAGGAGGACGTCCTCTACGGCAGCTACGGGCTGGATGAGTGCACGCGCCTGGTGCAGGACGCGCTGGAGAGGGGCCGCGAACGGTACCGCGCCGCCGGGCTGGAGGACGGTGGACTGATGGGACCGGATTGGGTTATCGGGGAAGGCACCGCCCTGTCAATGATCGACACCGTCCCGCCGCGGGGGCACTTCGCCCACTCGAAACTCCGGCTCCTGCCCGACGGTACCTACGCGGCCGACGTTGGAACTGCCGAATTCGGCAACGGCACCACCACGGTGCACGCCCAGCTTGCGGCCACGGCGCTGTCCACGGATGCCGGGCGGGTCGCGGTACGGCAGTCGGACACGGACCTGATCGAACACGATACCGGCGCTTTTGGCTCGTCCGGGACGGTGGTCGCCGGCAAGGCGACGCTCGCCGCCGCCGAGGAGCTCGCAGTGCGGATCCGTGCCTTTGCCGCGGGCGTCCGCCAGGTCCAGTCCTCGGGCTGCGTGCTCGACGGCGACGCCGTGGTCTGCGAGGGAAGCCGCGTGCCGCTGACGGAACTGGCGCACCAGGCTGCGGAAGCCGGCGTCGAACTCGTTGCTGAGGGCCGCTGGGGCGGCACGCCCAGGTCCATTGCGTTCAACGTGCACGGTTTCCGGGTGGCCGTCAACACCGGCACTGGAGAGCTGCGGATCCTGCAGAGCGTGCAGGCGGCGGACGCAGGCGTGGTGGTCAACCCGCGGCAGTGCCGCGGCCAGATCGAGGGCGGGATAGCGCAGGCGCTGGGCGCCGCCCTGTACGAGGAGGTCAGGGTGGACGACGGCGGCCGGGTCACCACAGACATCCTGCGCCAGTACCACATCCCGTCGTTCGCGGACGTGCCGCGCAGTGAGGTGTACTTCGCCGAAACGAACGACTCGCTGGGCCCGCTGGGGGCCAAGTCGATGAGCGAAAGCCCGTTCAATCCGGTGGCACCGGCCCTGGCGAATGCCATCCGGAATGCCACGGGCGTGCGGTTTGCCGAGCTTCCCATCGCGCGGGACAAAATCTACCTGGGCCTGAAGGAGGCCGGCCTCGTCCCCGCAATGAATCAGTCAGAACGCGCGTCAACTGAGCCCGTGCAGGCCCGGCAACATATAGTCGGAGGATGGAACAGCGCACTTTAG	MTIDINGVPAAAEPRPGQCLRTFLREQGNLGVKKGCDGGDCGACTVHVDGTPVHSCIYPAVRAEGHQVTTIEGLAGGAGPHPMQQQFLDRQGFQCGFCTAGMVMTAATFDEAQKQTLPRNLKGNLCRCTGYRAIGDAICGHEGHPDPHGQGSGMAGESQPQPSPGQLGDDVPAPAGRAVVTGKARYTLDVPAEDLPGLLHMKLLRSPHPHARVVSVDRTGALNVPGVVAVFTSQDAPDQLFSTAQHELYTDDPDDTRLLDDVVRFRGQRVAAVVAESVGAAEAGVRALQVQYQELPAVFTPQQALLPGAPAIHGDKDSATARISRPKDNVVAELHSELGSVQDGFAEADFIHEQIYRTQRVQHVALETHSSIASVDEAGRLQIRTSSQVPFLVRRTLCRLFGLPEKQVHVVAGRVGGGFGGKQEVLTEDIAALAALTLKRPVQLEFTRTEQFTATTTRHPFTIKLKAGASRDGRLTALELDVLTNAGAYGNHSPGVMFHGCGESLAVYKCANKKVDAQAVYTNTVPSGAFRGYGLSQMIFAIESGIDELAAGIGMDPLEFRRRNMVREGDDMLSTHSEPEEDVLYGSYGLDECTRLVQDALERGRERYRAAGLEDGGLMGPDWVIGEGTALSMIDTVPPRGHFAHSKLRLLPDGTYAADVGTAEFGNGTTTVHAQLAATALSTDAGRVAVRQSDTDLIEHDTGAFGSSGTVVAGKATLAAAEELAVRIRAFAAGVRQVQSSGCVLDGDAVVCEGSRVPLTELAHQAAEAGVELVAEGRWGGTPRSIAFNVHGFRVAVNTGTGELRILQSVQAADAGVVVNPRQCRGQIEGGIAQALGAALYEEVRVDDGGRVTTDILRQYHIPSFADVPRSEVYFAETNDSLGPLGAKSMSESPFNPVAPALANAIRNATGVRFAELPIARDKIYLGLKEAGLVPAMNQSERASTEPVQARQHIVGGWNSAL	PGPT0004835_89	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004835-xdhD-K12528	NA	NA
D1-17_00707	981	iolS_2	COG0667	Aldo-keto reductase IolS	ATGGAACAGCGCACTTTAGGCAAGACCGGACGGGATGTTTCCGTCGTCGGACTCGGAACATGGCAGCTCGGCGCGGACTGGGGAAACGTCGATCCCGCACAGGCCCGGGCGGTCCTGGCTGCGTCCGCAGAGGCTGGTGTGACGTTCTTCGACACCGCTGACGTTTACGGGGACGGGCGCAGCGAGCAGGCCATCGGCGCATTCCTGGCCGACAACCCCGATCTGGATATCACCGTGGCCACGAAGATGGGCCGCAGGACGGACCAGAAGCCGGAGAACTACAGCCTCGCCAACTTCCGGCAGTGGGTAGACCGCTCCCGCCGGAACCTCCGCACCGATTCCCTGGACCTCGTCCAGCTGCACTGCCCGCCCACCGCGGTCTACAGCAACGCCGAAGTCTATGACGCTCTGGACACCCTCGTCTCCGAGGGAGCGATTCGGAACTACGGCGTCAGCGTCGAACGCACCGACGAGGCCCTGGAAGCCATCCGCCATGAGGGCACCGCGTCCGTGCAGATCATCCTCAACGCCTTCCGGCTCAAGCCGCTGGATGCGGTGCTCCCGGCGGCCAAGGCCGCCGGCGTGGGAATCATCGCCCGGGTGCCGTTGGCCTCGGGGCTGCTGTCCGGCAAATACAGCAAGGAGACGTCGTTCCCGGAGAGCGACCACCGGAACTACAACCGCACCGGCGGCTCCTTCGACGTCGGCGAAACCTTCTCCGGCGTGGATTATGAACTCGGACTGAAGGCCGTGGCTGAATTCGAGCAGCTGGTGCCGGAAGGAGCCACCACTGCCCAGGCCGCCATCGCCTGGATCATCGCCCAGGAGGGCGTCACTTCGGTGATTCCGGGTGCCCGGAACGTGGAGCAGGCCCGGGCCAACGCCGCGGCTGCCGGGGTCCAGCTTGGCGCGGAGTTCGACGAGGGTGTGCGCTGGATCTACGACCACTACTTCCGCGAGGCCATCCACCCCCGCTGGTGA	MEQRTLGKTGRDVSVVGLGTWQLGADWGNVDPAQARAVLAASAEAGVTFFDTADVYGDGRSEQAIGAFLADNPDLDITVATKMGRRTDQKPENYSLANFRQWVDRSRRNLRTDSLDLVQLHCPPTAVYSNAEVYDALDTLVSEGAIRNYGVSVERTDEALEAIRHEGTASVQIILNAFRLKPLDAVLPAAKAAGVGIIARVPLASGLLSGKYSKETSFPESDHRNYNRTGGSFDVGETFSGVDYELGLKAVAEFEQLVPEGATTAQAAIAWIIAQEGVTSVIPGARNVEQARANAAAAGVQLGAEFDEGVRWIYDHYFREAIHPRW				NA	NA	NA	NA	NA
D1-17_00708	672			hypothetical protein	ATGCCGTCGTCGTCCTTCCATGCCTTTGTTGACCGGCTCGCCGCCGTGGAAACCCCGCCCGGGTGCAATAACTTTTTTGACCACTCGGTTCCCGCGAATGAGCTGCGCCGGAACAACCTGACGGCTTATTTCGGGGAAATGCTGCAAAGGGCACCGACGCTGCTGCTGGTGGGGGAGGCTCCGGGTTTCCGGGGCATGAGGATCACGGGCGTTCCCTTTACCAACCGCACCATGTTCCAGGGGCCCGCCAACCATTTCGGGCTGTTCGGGGCCGGGAAGGGATATGTGCTGCCGCCGGAGGCCGCGGGCGTCGCTGCGGAGCCGACGGCGACCGTTATGTGGGAGGTCCTGGCCGAGCTCAATGTTCTGCCCGTGCTGTGGAGCGCTTGCCCGTGGCACACCCACGTGCCGGGACAGCCGCTGTCCAACCGCACGCCAACATCCGCGGAGGCAGCTTTGGGAATCCCGTTCTGGCAGGACCTGATCCGGCTGTTTCCCATCGAAGCCGTGGTGGCAGTGGGCAACATCGCCCACCAGAGCCTTCGCCGCAGCGGTGTCGACGTACCGAAAATCAGGCATCCCGCCCATGGCGGACGGGCCCGCTTCAAAGAGGGGCTGCAGGAACTGCTCGCCGCGGGCATGCTGCAGCAGCTGCGGTGGCGGTGCAACTAG	MPSSSFHAFVDRLAAVETPPGCNNFFDHSVPANELRRNNLTAYFGEMLQRAPTLLLVGEAPGFRGMRITGVPFTNRTMFQGPANHFGLFGAGKGYVLPPEAAGVAAEPTATVMWEVLAELNVLPVLWSACPWHTHVPGQPLSNRTPTSAEAALGIPFWQDLIRLFPIEAVVAVGNIAHQSLRRSGVDVPKIRHPAHGGRARFKEGLQELLAAGMLQQLRWRCN				NA	NA	NA	NA	NA
D1-17_00709	666	nboR		Nicotine blue oxidoreductase	ATGACGCGCCTTCCGGCTCCGTTCGGCCCCCTGGGCGGCGCCACTGCCGATACCACCGCTGTCCTCCTCGCCGCGGGTGCCGGCACGAGGCTGGGGCGCGGACCGAAGGCGCTTCTGCCGTTCCGGGGCCGCACCCTCGTTGAAGTGCTGGCAGACGTCCTGCTCGACGGCGGCTGCCGGGAAGTCGTGGTGGTCCTCGGGGCCGGGGCGGAGTCGGTGCGGAAAATACCCGGGCTGCAGCGGCACATCCTGGTGGAGAACCCTGCCTGGCAGACCGGCATGGGCAGCTCGTTCACGTTGGGGCTCAGCACCGCGCGCCCTCAGGACCATGTGCTCGTGGCCCTCGTAGACCAGCCGGGGCTCACACCGGAAACCGTCGGACGCCTGCTGAAGGCGCACAGGCACGGCCGGGTCACGGCCGCCGCCTACCGGAACGGCTCCGATGCTGCAGGGCGAGGCGAACTGCTGCGCGGGCATCCCCTGCTGCTGGATGTGACGCTGCGCGCCGAAGCCGCGGCCTCCGCAACAGGCGACGCCGGTGCCCGGCTTTTCCTGCACGCCCACCCCGAGCTGATCGACCTGGTGGACTGCAGCCCTGCACCGGGCTCGGGCCAGTCAGGCGGGGAAGACCTCGACACCCCGGACCAGCTGCACCTGCTGGACTAG	MTRLPAPFGPLGGATADTTAVLLAAGAGTRLGRGPKALLPFRGRTLVEVLADVLLDGGCREVVVVLGAGAESVRKIPGLQRHILVENPAWQTGMGSSFTLGLSTARPQDHVLVALVDQPGLTPETVGRLLKAHRHGRVTAAAYRNGSDAAGRGELLRGHPLLLDVTLRAEAAASATGDAGARLFLHAHPELIDLVDCSPAPGSGQSGGEDLDTPDQLHLLD				NA	NA	NA	NA	NA
D1-17_00710	195			hypothetical protein	ATGGCAGGCACATTCGAAATAGTAAGCGCGGGACAGGGATCGTTCCGCTTCCGGCTCAAGGCGGACGACGGCACTCTGGTAGCCGTCTCACCGAGTTTCCCGAGCATCAAAGCGGTCGTGGCGGGCATCACCGCCGTCCGTGAAAGCGCCGCTACCGGTTTTGTGGTGGACCGGAGATCCCTCACGGCAAGCTGA	MAGTFEIVSAGQGSFRFRLKADDGTLVAVSPSFPSIKAVVAGITAVRESAATGFVVDRRSLTAS				NA	NA	NA	NA	NA
D1-17_00711	2766	aceE_1	COG2609	Pyruvate dehydrogenase E1 component	GTGGCTGCAGGAGAAGATACCTCCCATATCCTTAGCGGGTTGACTAACCAGCTGCCTGATCGTGATCCGGAAGAGACTGCCGAGTGGGTTGAGTCGCTGGATTCGTTGATCAGGGAACAGGGCACGGAGCGTGCCCAATACATCATGCGCAGTCTCCTGCAGCGTGCCGGGGCGCAGAGCGTCGGGGTTCCGATGGTGACCACGACGGATTATGTGAACACGATCCCGGCGGACCAGGAGGCGGAGTTCCCGGGTAACGAGGAGTTCGAGCGCCGGTACCGGGCGTATATGCGGTGGAACGCGGCGGTGATGGTGCACCGGGCGCAGCGGCCGGATATTGGTGTTGGCGGGCACATTTCCACGTACGCGGGCGCGGCGACGCTGTACGAGGTCGGGTTTAACCATTTCTTCCGCGGTAAGGACGCCCCCGGCGGCGGGGACCAGGTCTTCTTCCAGGGCCACGCGTCCCCGGGGATGTATGCCAGGGCGTTTATGGAGGGCCGGCTGACCGAGCAGGACCTGGACGGGTTCCGGCAGGAGAAGTCCCGGGCCGGGCATGCCCTGTCCTCGTACCCGCACCCAAGGTTGATGCCGGAGTTCTGGGAGTTCCCGACGGTCTCGATGGGCATCGGTCCGATGAACGCGATCTACCAGGCCCAGTCCAACCGGTACCTGCACAACCGGGGCCTGAAAGACACGTCTGACCAGCAGGTCTGGGCGTTTTTGGGTGACGGGGAAATGGACGAGCCCGAGTCCCGCGGCCTGCTCCAGCTCGCCGCGAACGAGAACCTGGACAACCTGAACTTCGTGATCAACTGCAACCTTCAGCGCCTGGACGGGCCGGTGCGCGGCAACGGCAAGATCATGCAGGAACTGGAGGCGTTCTTCCGCGGCGCGGGCTGGAACGTGATCAAGGTCGTCTGGGGCCGGGAATGGGATGAGCTGCTCGCCAGGGACTCCGACGGGTCGCTGGTGAAGATCATGAACGAAACCCCCGACGGGGATTACCAGACCTACAAGGCCGAGTCCGGCGGGTTCGTCCGCGAGCACTTCTTCGGCAAGACCCCGCAGACCAAGGACATGGTCGCGGACCTCTCCGATGACCAGATCTGGAACCTCAAGCGCGGCGGCCACGACTACCGCAAGGTCTACGCCGCGTACAAGGCAGCGACGGAGTTCAAGGGCAAGCCCACCGTGATCCTGGCCAAAACGGTCAAGGGCTACGGCCTGGGCCCGCACTTCGAGGGCCGCAACGCGACCCACCAGATGAAGAAACTCACCCTCGATGACCTGAAAAAGTTCCGCGACCATCTGCGGATCCCGGTCACCGACGACCAGCTCGAGCAGGACCCGTACCGGCCGCCGTACTTCCACCCCGGCACCGACGCCCCCGAAATCCGGTACCTGCTCGAACGCCGCGCCGCGCTCGGCGGAGCCGTCCCGGAGCGCCGTGCCAAGCACGCGGACATCACACTGCCCGATCCGAAGTCCTTCGAGGTCGCCAAGCGCGGCTCGGGCAAGCAGCAGGCCGCCACGACCATGGCGTTCGTGCGGCTGCTGAAGGACCTGATGCGGGATAAGGACTTCGGCAAGCACATCGCCCCGATCATCCCGGACGAGGCCCGCACCTTCGGGATGGACGCGTTCTTCCCCACCGCGAAGATCTACAACCCCAAGGGCCAGAACTACCTCTCGGTGGACCGGGACCTGGTCCTGGCCTACAAGGAATCCGCCCAGGGCCAGCTGATCCACCCCGGCATCAACGAAGCCGGCGCCGTCGCGGCGTTCACCGCCGCCGGCACCGCCTACGCCACCCACGGGGTGCCGCTGATCCCGGTCTACGTCTTCTACTCCATGTTCGGCTTCCAGCGCACCGGGGACGCCTTCTGGGCAGCAGCGGACCAAATGACCCGCGGCTTCATCATCGGCGCCACCGCAGGACGGACCACCCTCACCGGCGAAGGCCTGCAGCACGCCGACGGGCACTCCCCCATCCTGGCCTCCACCAACCCCGCCGTGGTCACCTACGACCCCGCCTACGGCTACGAAATGGGCCACATCGTCCGCGACGGCATCGAACGCATGTACGGACCCTCCGCCGCCCCCGGCCCCGACGGGAAAGACGCGGACCGGAACCTGATGTACTACATCACCGTCTACAACGAACCCATCACCCAGCCCGCCGAACCCGAAAACCTCGACGTCAACGGCGTCCTGAAAGGCATCTACAAGCTCTCCGCCTCAACCGCCGAAGGACCCAAGAGCCAGATCCTGGCCTCCGGCGTCTCCGTCCCCTGGGCCCTGGAAGCCCAACGGATCCTCGCCCAGGACTGGGGCGTCTCGGCCGACGTCTGGTCCGTGACGTCCTGGAACGAACTGCGCCGCGACGGCCTGGCCGCCGAGGAAGAAGCGTTCCTGAACCCCGGCGAACAAGCCCGCGTGCCCTTCGTGGCGCAACAGCTCGCCGGAGCCACCGGACCGGTCATCGCCGTCTCGGACTACATGAAAGCCGTCCCGGACCAGATCCGCCAGTTCATCCCGAACCACTTCGCCTCCCTCGGCGCCGACGGCTTCGGCTTCTCCGACACCCGCGCAGCAGCCCGCCGGTTCTTCAAAAACGACACCCACTCCATCGTCACGAAAACCCTGCAACTGCTCGCCGCAAACGGCGAGGTCGAGGCGGGCGCGCCGTCGTACGCCCTGGACCGCTACAAACTCCTTGATGTCAATGCGGGCACCACCGGCGGAGCAGGCGGGGACGCCTAA	MAAGEDTSHILSGLTNQLPDRDPEETAEWVESLDSLIREQGTERAQYIMRSLLQRAGAQSVGVPMVTTTDYVNTIPADQEAEFPGNEEFERRYRAYMRWNAAVMVHRAQRPDIGVGGHISTYAGAATLYEVGFNHFFRGKDAPGGGDQVFFQGHASPGMYARAFMEGRLTEQDLDGFRQEKSRAGHALSSYPHPRLMPEFWEFPTVSMGIGPMNAIYQAQSNRYLHNRGLKDTSDQQVWAFLGDGEMDEPESRGLLQLAANENLDNLNFVINCNLQRLDGPVRGNGKIMQELEAFFRGAGWNVIKVVWGREWDELLARDSDGSLVKIMNETPDGDYQTYKAESGGFVREHFFGKTPQTKDMVADLSDDQIWNLKRGGHDYRKVYAAYKAATEFKGKPTVILAKTVKGYGLGPHFEGRNATHQMKKLTLDDLKKFRDHLRIPVTDDQLEQDPYRPPYFHPGTDAPEIRYLLERRAALGGAVPERRAKHADITLPDPKSFEVAKRGSGKQQAATTMAFVRLLKDLMRDKDFGKHIAPIIPDEARTFGMDAFFPTAKIYNPKGQNYLSVDRDLVLAYKESAQGQLIHPGINEAGAVAAFTAAGTAYATHGVPLIPVYVFYSMFGFQRTGDAFWAAADQMTRGFIIGATAGRTTLTGEGLQHADGHSPILASTNPAVVTYDPAYGYEMGHIVRDGIERMYGPSAAPGPDGKDADRNLMYYITVYNEPITQPAEPENLDVNGVLKGIYKLSASTAEGPKSQILASGVSVPWALEAQRILAQDWGVSADVWSVTSWNELRRDGLAAEEEAFLNPGEQARVPFVAQQLAGATGPVIAVSDYMKAVPDQIRQFIPNHFASLGADGFGFSDTRAAARRFFKNDTHSIVTKTLQLLAANGEVEAGAPSYALDRYKLLDVNAGTTGGAGGDA	PGPT0001385_295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
D1-17_00712	1569	pucI_2	COG1953	putative allantoin permease	ATGCAGACGACCCCATCAGTCGGCGTCGAGACGGCTCCCGCCCCGACAGCGTTGTCGGGCCAGCCGGTCCACCCTGCCACGGGCATTGATGCCCTCTGCGAAACAGCAAGCGCCGCGTCCGGGCTCACCATCAGCCCCAGCCTGTACAACATAGACCTTGCCCCGACGAAGCGGGAAGGCCGCCGCTGGACCGGCTACAGCATCTTCACGCTGTGGGCCAACGACGTCCACAGCCTTGGAAACTACGCCTTTGCCATCGGACTTTTTGCCCTCGGGCTCGGCGGCTGGCAGATTCTGCTGGCCCTCGGAGTAGGCGCGGTCCTGCTCTTCGCCCTGCTGAGCTTCTCAGGCTTCATGGGCGTTAAGACCGGTGTGCCGTTCCCGGTGATGAGCCGGATCAGCTTCGGGATCAGGGGCGCGCAGATTGCCAGCCTTCTCCGCGGGGCAGTGGCCGTGGCCTGGTTCGGCATCCAGACGTACCTCGCCTCCGTGGTGCTTCGCGTCATGCTTGTGGCCATGGTTCCTTCCCTGCAGGCTCTGGACTCCAACTCTATCCTCGGGCTGTCCACCCTGGGCTGGGCCGCTTTCGTGCTCCTCTGGGTTGTCCAGCTGGTCATCGTCAGCTTCGGCATGGAGATGATCCGCAAGTACGAGGCCTTCGCCGGCCCCGTCATCCTCGTGACCATGGCCGCCATCGCGGTATGGATCTTCGCCGAAGCCGGCGGCTCCATCGCATGGGCGCCGGACAACGCGCTTGAGGGTGCAGACATGTGGCGCACCATCTTCGCCGGCGGTGCACTCTGGGTCTCCATTTACGGAACCTTCGTCCTGAACTTCTGCGACTTCACCCGCTCGGCTGTTTCCAAGAAGGCAGTGGTGCGCGGCAACTTCTGGGGCATCCCCATCAACATGCTCCTCTTCGGCGCCATCGTCGTCGTCATGGCGGGCGGACAGTTCAAGATCAACGGGACAGTCATCGAGAGCCCGTCAGATATTGTCCAGACGATCCCGAACACCCTCTTCCTTGTCCTGGCCTGCCTCGCCCTGCTCATCCTGACCATCGCCGTCAACCTGATGGCCAACTTCGTGGCTCCCGTCTACGCCCTGACCAACCTCTTCCCGAAGCACCTGAACTTCCGCAAGGCGGCTTGGGTCAGCGGCACCATCGGACTCATCATCCTGCCGTGGAACATGTACAACAATCCGCTCGTTATCGTGTACTTCCTGGGTGGCCTCGGGGCGTTGCTCGGCCCATTGTTCGGCGTTGTCATGGCCGACTACTGGCTGCTGCGCCGCGGCCGGATCAACGTGCCCGAGCTCTACACGGATGAACCCTCCGGAGCCTACTACTACAGGAAGGGCTTCAATCCGCGGGCGATCGCCGCTATGGTGCCGGCTGCCGCCGTCGCGCTCCTGATCGCCTTCGTGCCGGCGCTCGCTGCAGCGGCTCCCTTCGCCTGGTTCTTCGCAGCCGGCATCGCAGCGGTGGTCTACTTCGTTATTGGAGACCGCTCACAACGCCTCGAGGACGTCGACGGTGAAGCCATTGCTGTGGCGAGCACCCACTAA	MQTTPSVGVETAPAPTALSGQPVHPATGIDALCETASAASGLTISPSLYNIDLAPTKREGRRWTGYSIFTLWANDVHSLGNYAFAIGLFALGLGGWQILLALGVGAVLLFALLSFSGFMGVKTGVPFPVMSRISFGIRGAQIASLLRGAVAVAWFGIQTYLASVVLRVMLVAMVPSLQALDSNSILGLSTLGWAAFVLLWVVQLVIVSFGMEMIRKYEAFAGPVILVTMAAIAVWIFAEAGGSIAWAPDNALEGADMWRTIFAGGALWVSIYGTFVLNFCDFTRSAVSKKAVVRGNFWGIPINMLLFGAIVVVMAGGQFKINGTVIESPSDIVQTIPNTLFLVLACLALLILTIAVNLMANFVAPVYALTNLFPKHLNFRKAAWVSGTIGLIILPWNMYNNPLVIVYFLGGLGALLGPLFGVVMADYWLLRRGRINVPELYTDEPSGAYYYRKGFNPRAIAAMVPAAAVALLIAFVPALAAAAPFAWFFAAGIAAVVYFVIGDRSQRLEDVDGEAIAVASTH	PGPT0009075_252	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009075-cytX-K03457	NA	NA
D1-17_00713	744	hyuE		Hydantoin racemase	ATGCGCATCCTTGTCGCCAACGTCAACACCACCCAGTCCATGACAGATTCCATCGCCGCCCAGGCCAGGAGCATCGCAGCCCCCGGAACCGAAATCATCGGCGTCACCCCGCGCTTCGGTGCGGACTCCTGTGAGGGCAATTTCGACAGCTATCTGGCGGCAATCGCCGTCATGGACCGCGTGGTGAATTACCCGGAGCCCTTCGACGCCGTCATCCAGGCGGGGTACGGGGAGCATGGCCGGGAAGGACTCCAGGAACTGCTGGATGTACCGGTGGTTGACATCACCGAGGCCGCGGCAAGCACGGCCATGTTCCTCGGACACAAGTACTCCGTGGTCACCACGCTGGACCGTGCCGTCCCGCTGATCGAGGACCGGCTGAAGTTGGCCGGCCTCGAGGCCAGGTGCGCATCGGTGCGGGCCAGCGGCATGGCGGTGCTGGAACTGGAGGAGGAGCCGGAGCGGGCCGTGGAAGCCATCATCGAGCAGGCGCTCCTGGCGGTCCGCGACGATAAGGCCGAGGTCATCGTGCTGGGTTGCGGCGGCATGGCCGGCCTGGACGAGGAGATCCGCCGCCGCGCCGGGGTTCCCGTGGTCGACGGCGTCGCTTCGGCCGTGACCATCGCCGAATCGCTCGTCAGGATGCGGCTCTCCACCTCGAAGGTCCGCACGTATGCACCGCCGCGGCCCAAGACCGTCATAGGCTGGCCCATGACGGGCGCGGACGTGCCCGCAGCCCAGTAA	MRILVANVNTTQSMTDSIAAQARSIAAPGTEIIGVTPRFGADSCEGNFDSYLAAIAVMDRVVNYPEPFDAVIQAGYGEHGREGLQELLDVPVVDITEAAASTAMFLGHKYSVVTTLDRAVPLIEDRLKLAGLEARCASVRASGMAVLELEEEPERAVEAIIEQALLAVRDDKAEVIVLGCGGMAGLDEEIRRRAGVPVVDGVASAVTIAESLVRMRLSTSKVRTYAPPRPKTVIGWPMTGADVPAAQ	PGPT0000895_500	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000895-hpxA-K16841	NA	NA
D1-17_00714	789	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGGCCGCAACGCGCCCCGCTGATGAACAGCCCGATGGACAACAGTCCGGACGCATCGCCGTCGTCACCGGGGTCGGCTCCGGCATCGGCAGGGCGGTGGCACGGCAAATGCTGGCGGAAGGGTACCGGGTGGCTCTCGCCGGGCGGCGGGAGGCGCAGCTGTTGGAAACGGCTGACGGCCACCCGGGCGCGTTGGCTGTGCCCTGCGACGTGACCCGGCCTGACGACGTCGAGCGCCTCTTCGCCAGGGTCCTCGAACAGTGGGGGAGAGTCGACGTCCTGTTCAACAACGCGGGTGTGTTCGGTCCGGCGGCCTCTGTGGACGAGATCAGTCTCGGCGACTGGGAGGCTACCGTGGCTGTGAACCTGACAGGCTCGATGCTCTGCGCCGGGGCTGCCGTCCGGGCCATGAAAGCTCAGCAGCCTCAGGGCGGGCGCATCATCAACAACGGGTCCATCTCGGCGCACTCGCCGCGGCCCCGGACCGTGGCCTATGCCGTCACCAAGCACGCCATGACCGGGCTGACCAAGAGCATCGAGCTCGACGGCCGCGCCTTCGGCATCACGTGCGGCCAGATCGACATCGGCAACACCGCCACAGAAATCATGGACACCATCGGGGTGGGCTCCGGGGCACTCCAGGCCGACGGCACACGCAAGGTCGAGCCCATGTTTCCGGTGGAGGATGCCGCCCGGGCGGTGCTCATGATGGCAGGAATGCCATCATCTGCCAGCGTGGGCTCGGTCGTCATCACGGCTGCCGGCATGCCTTTCATCGGCCGCGGCTGA	MAATRPADEQPDGQQSGRIAVVTGVGSGIGRAVARQMLAEGYRVALAGRREAQLLETADGHPGALAVPCDVTRPDDVERLFARVLEQWGRVDVLFNNAGVFGPAASVDEISLGDWEATVAVNLTGSMLCAGAAVRAMKAQQPQGGRIINNGSISAHSPRPRTVAYAVTKHAMTGLTKSIELDGRAFGITCGQIDIGNTATEIMDTIGVGSGALQADGTRKVEPMFPVEDAARAVLMMAGMPSSASVGSVVITAAGMPFIGRG				NA	NA	NA	NA	NA
D1-17_00715	876			hypothetical protein	ATGGTGACGGTGAGAGCTTTGGCACAACTAGCGTGCCGTCAGGGCCAACTGGCGCCCATCAGCTGCACAAACCTCTCAGCGCTGCCAGCCTTGCTGGCGCAGGGCCCGTTTGACCCTTGGAACCAGCCCGGCGGGACCACGACTCATGTCGATCCTGTTGATCCTGACCTGCCGCCAGCCGGCGTCCCTGACGCGCTGGTCTTGGCAGGCATCGAGTGCCTGCTGTTCCGGCGTCAGATGATGCAGCCGTCATACTCGATTCAGGTCCGGAACCCGCGACACCCCGGATCCGTCCGAACAGGCCTGTTCAGAACGTCATCCACACGGCAGTTGGGCGTGAATTCAGGGAGGCCAGCGGTGGTCCATCATCAGACGCGCGCGGCTCTCGGATGGCTGACAATCGCGTCACCTGCAACGCCAAAGATCGACGAGCGGCAAGACCGAGCCGACATCGACCCATGGGCGGGCTACCGAAGTCAGTCTCAAATTCTCCAGCTCAACGACGTCGCCTTCGCGGATGTTGAGCCGGTGACCGGCAATCCCCATCCGCCGCGGAAGCGGCCCGCCACTTTGCCTGGAAAGGTGCAGAAACCGGCCAGGCCCCTGGTAGTGCGGTCCGTTTTTCTTGCCTCATGGAACAGGGTTCAAGGATCGTGGTCACGGGTCCGACACAATCGGGCCCGGAACTGCGCCCACGGAGGCAATGGATGTTATCCACAGAAGGCACCCCGTCACGGAGTTTCTGCACAAATAATCCCGGTTCAGACCTGTTCACGCTCTTTGTTCGTACAAAAGCTCCAAGAGGCAGGGTCAGCCGCGGCCGATGAAAGGCATGCCGGCAGCCGTGATGACGACCGAGCCCACGCTGGCAGATGA	MVTVRALAQLACRQGQLAPISCTNLSALPALLAQGPFDPWNQPGGTTTHVDPVDPDLPPAGVPDALVLAGIECLLFRRQMMQPSYSIQVRNPRHPGSVRTGLFRTSSTRQLGVNSGRPAVVHHQTRAALGWLTIASPATPKIDERQDRADIDPWAGYRSQSQILQLNDVAFADVEPVTGNPHPPRKRPATLPGKVQKPARPLVVRSVFLASWNRVQGSWSRVRHNRARNCAHGGNGCYPQKAPRHGVSAQIIPVQTCSRSLFVQKLQEAGSAAADERHAGSRDDDRAHAGR				NA	NA	NA	NA	NA
D1-17_00716	1497	dctA_1	COG1301	Aerobic C4-dicarboxylate transport protein	ATGAAGATCCCAGATTCCTCGGCGCTGAAGGCGAGTTCGGCGCCGTCGAAGAAGAAGCCCCTGTACAGGTCGCTCTTCTTCCAAATTCTGATCGCCGTCGTGGCAGGTGTTCTCATAGGGCATTTCTGGCCGGATCTCGGCTCCCAGTTGAGGCCGCTCGGAGATGGCTTCATCAAACTGATCAAGATGATCATCGCGCCGCTGATTTTCCTGGTGATCGTGACGGGAATATCAGCCGTCGGCGACGTCAAAGCGGTCGGAAGGGTAGGAGTCAAGGCGCTGGTCTATTTCACGGCAGCCACGCTGTTCGCCCTGGTCTTCGGGCTGGTGGTCGGAAACCTCGTGCAGCCCGGTGCGGGATTGAACATCGATCCGGCAACCTTGTCACAGGCGGACCTGGATGCCAAGACCGGATCCGCTCCGCCTAAGGACGCTGCGTCATTCATTCTGGATGTCATCCCGGCCAGCATCATCGGAGCGTTTGCCAGCAACAGTCTCTTGCAGGTCCTCTTCTTCTCGGTCTTTTTCGGAGCCGCGATCGTAGTCATCGGCCGCGAGCGTTGCATGCCCGTCGTCAGCCTCATGGAAACCGTCCTCGAGCTCATCTTCAAGATCATGTCCTGGATCATGAAGGTGGCCCCTGTCGGTGCTTTCGGTGCCATGGCGTTCATCATCGGCCAGTACGGTCTGGACACGCTCGGTACCTATGCGATGCTGATCGCCGCCTGCTACGGTGCGGCAGTGGTCTTCATTGGACTGCTGTTCCTCGTCGCCTGGGGGTTCGCCCGGGTCCCGCTGTGGCAGTTCATGAAGTACACCCGCGAGGAGTTCCTTCTGGCCCTGGGCACGGCATCCACGGAGGCCGTCATGCCACGCATCATGACCAAGCTGACCAATGCCGGCTGCTCCCGCGCCACCACCGGACTGGTGGTTCCCACGGGCTATTCCTTCAACCTCGACGGCGCTGCGATCTACCTCTCGATCTCCCTGCTCTTCCTGGCTCAGGCATTCGGCCACAATCTTGACCTGGGCCAGCAGCTGGCTGCCCTCGGCGTCCTGCTGCTGACCTCCAAGGGCATGGCCGGTGTTCCAGGGTCCTCCTTCCTGGCACTCTCCGCCACGGCTGCAGCGCTGGGGATCTTCCCGGTGGCAGGTGTCGCCCTTCTGCTGGGCGCGGACCGGCTGATGGACTCCATGCGCGTGGTGGTCAACCTCCTCGGCAACTGCGTAGCTACCTTCGTCGTTTCCAAATGGGAGGGCCAGTTCGACCGCGGCGTCATGGTCCGGGCTTTCCAAGGCGAGATCACCAACCACGACTCGGCCATCATGCTCGGAGTCGAGGACGACTTCGAGGACCAGGAGCTTGAGCGGATCAGTGAAGGCGGCCAGCCCTCTCCGAAGTTCAGGGGCGGTCCCAACCCGGACGAGATTCCTGAATTCCAGATGACCAGGGCTGCTACGTCCACAGGAAGCTCTGCCGCCATCCACCACGAATAA	MKIPDSSALKASSAPSKKKPLYRSLFFQILIAVVAGVLIGHFWPDLGSQLRPLGDGFIKLIKMIIAPLIFLVIVTGISAVGDVKAVGRVGVKALVYFTAATLFALVFGLVVGNLVQPGAGLNIDPATLSQADLDAKTGSAPPKDAASFILDVIPASIIGAFASNSLLQVLFFSVFFGAAIVVIGRERCMPVVSLMETVLELIFKIMSWIMKVAPVGAFGAMAFIIGQYGLDTLGTYAMLIAACYGAAVVFIGLLFLVAWGFARVPLWQFMKYTREEFLLALGTASTEAVMPRIMTKLTNAGCSRATTGLVVPTGYSFNLDGAAIYLSISLLFLAQAFGHNLDLGQQLAALGVLLLTSKGMAGVPGSSFLALSATAAALGIFPVAGVALLLGADRLMDSMRVVVNLLGNCVATFVVSKWEGQFDRGVMVRAFQGEITNHDSAIMLGVEDDFEDQELERISEGGQPSPKFRGGPNPDEIPEFQMTRAATSTGSSAAIHHE	PGPT0001450_12	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-17_00717	384			hypothetical protein	ATGGCAGTGGCCCGGCGCAAAATTGACATCGACGAAGGCAAAGCGGCGCTGGAGACGTGGCGGGAAGCCGGCCAGCCGCCGTCGGACGTTCCGTTGCCCGTTCCGCGTAGCGTGATCGCGACGGCGGTAAGGTACTCCCTCGAAGAGGTCACCGCCCGCGCGCCCGGCAATTCCGTGGAGGTCAGGGTTCCGCCGTTCGGCGTGACGCAGTGCGTGGAAGGGCCGCGCCACACGCGAGGCACTCCCCCGAACGTCATCGAGTGCGACGCCGCCACCTGGCTGGCGATGGTGACCGGCCGGCTGAGCTGGACGGACGCGGTGGGCGCCGGACGGGTGGCCGCCTCCGGTCTCCGCGCAGACCTCTCCGCGCTGCTGCCCCTCTAA	MAVARRKIDIDEGKAALETWREAGQPPSDVPLPVPRSVIATAVRYSLEEVTARAPGNSVEVRVPPFGVTQCVEGPRHTRGTPPNVIECDAATWLAMVTGRLSWTDAVGAGRVAASGLRADLSALLPL				NA	NA	NA	NA	NA
D1-17_00718	1017			hypothetical protein	ATGCCCGTAAACCCTCATGCCACGTTCACTGTGGAGTCCGCCGTCGAACTCGCGGTCGTTGAACGCAGCGGCTTCATCGAGTCACGGCACATCGGAGCGGCGGTGGTCCTGGCAGGAGACGGCACTGTAGTCACGGAGCTTGGCGACATCACCACGCCGATTCTGGCCCGGTCCACGCTCAAACCGCTGCAGGCGTTGGCCTCCATGCAGTCCGGGGTTCCGCTCCGCGGCGCGCAGGTGGCACTTGCCTGCGCCAGCCACACCGGATCCCTGGACCATATGGACGTCGTCGAAGGCATGCTCAAGGCCGCAGGCGTCAAGGAGGACCAGCTGCTGTGCCCTGAAGCGTGGCCGCAGGATGAAACCGCCCGCATGTGGCTCACGCGTTCCGAGAAGGGCAAGTCCCGGCTGGCGTTCAACTGCTCCGGTAAACACGCCGCCTTCCTGTGGGCCTGTATGGAGAACGGCTGGGACACCCACAGCTACCTCGAACCGAACCACCCGCTGCAGCAGCGCATCCGCACGGTCATCGAGGAGTACTCGGACGAGAAAATCGCCCACCTCGGCATTGACGGCTGCGGCGCACCGGTGGCGGCCATTTCGCTGACGGGGTTGGCCCGAGCCTACTCGGGCCTGGCCAAGGCACCCGGCGACAAGAGCTCCAATGCGCGGGCAGCAACCATCGCAACATCCATGCTGGACTACCCTTGGGCAGTCCAGGGCAAGGGCGAGGCCAACACCATCGTGATGGAGGAGCTGGATATCATTGCCAAAATCGGCGCAGAGGGTGTGCTCGTCCTGGCGACACCGCAGGGCGCCGCGGTGGCTGTGAAGGTGCTGGACGGCAACCTGCGGGCCACGTCCCTCGTAGGTCTGACCCTGCTTGCGGCTGCTGGCGCCGTGGACATCCCGGGAGTCGCCAGCGTGCTGGAAAAGGTGGTGGAGCCCGTCCTTGGCGGCGGACGGCCCGTGGGCAAAATCCGGCTTGGCCACGCGGTCTCGGCACTGCTCGACTGA	MPVNPHATFTVESAVELAVVERSGFIESRHIGAAVVLAGDGTVVTELGDITTPILARSTLKPLQALASMQSGVPLRGAQVALACASHTGSLDHMDVVEGMLKAAGVKEDQLLCPEAWPQDETARMWLTRSEKGKSRLAFNCSGKHAAFLWACMENGWDTHSYLEPNHPLQQRIRTVIEEYSDEKIAHLGIDGCGAPVAAISLTGLARAYSGLAKAPGDKSSNARAATIATSMLDYPWAVQGKGEANTIVMEELDIIAKIGAEGVLVLATPQGAAVAVKVLDGNLRATSLVGLTLLAAAGAVDIPGVASVLEKVVEPVLGGGRPVGKIRLGHAVSALLD				NA	NA	NA	NA	NA
D1-17_00719	1578	msrP_2		Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGCAAAAGCTGTTGACGTTATTCAGAGGGCCCTCCGTTCTGGCGGCGCTGGCCGGGGTGGCCGCCGCCGCCGTCGTTCTTTCCGTTGCGGAACTGATCGGGGCGTTCTTTACGGCGCGGGCCACCCCTGTGATTGCGCTCGGCTCCACCTTCATCGATTTCACGCCACCGTGGCTCAAGGACTTTGCCATTGCCACGTTCGGCACTGGGGACAAGGCCGCGCTTTTCGTGGGCATGGGCCTGACCATTGCCCTGCTGGCCTGCGTACTGGGCGTGGTGGCGTACCGCAGCTGGCCGCTCGGGGCCGCCGGGGTCCTGCTGATGGGTGCCGTGATTGTGGCCAGCGTGGTGACCCGTGCCGGGGTCGAGCCACATGACGCACTGCCTTCCATCGCCGGAACGATCGCCGGGCTGATTGTCCTGCGTCTGCTTGTCACCCGGCTGTGGCGCCTCCAGTACTTTCCCGATGCTCCGGCCGGTGTCGCTGCGAAGGAGCCCGAACGTCCCGTTACTACCAGGAGGGCTTTTTTCACCGCCGCCGGCCTGGCTGCGGCAGGGGCCGGGATCGTAGGCGCCGGCGGCCGGCTGCTGAGCACAGCACGCAGCAATGTGGCCCAGGCCCGTGCGTCGCTGCGGCTCCCCGCCCCGGCCCAGCCTGCCCCGGGCATTCCCGCCGGAGTGCAGTCCGCGACGCCCGGCGTCACGCCGTGGCTGACGCCCAACGGTGAGTTCTACCGGATCGATACTGCCCTCAGCGTCCCTGAAATTAACGCCGATGAGTGGGAACTGCGCGTGCACGGACTCGTGGAAGAGGAAATCCGTCTCACCTTTCAAGACCTGCTCGACGCCGATCTGATCGAGGCCCATGTGACCCTCACCTGTGTTTCCAATCCGGTGGGCGGCAACCTGGCCGGCAACGCCAAGTGGCTGGGACTGCCCATTCGCGAAGTCCTTCGCCGGGCACGGCCCAAGGACGGTGCGGACATGGTCCTTTCGACCTCAATCGACGGATTCAGTGCCTCGACGCCGTTGGAGGTGCTTCAGGACGGCCGCGATGCCATGCTGGCCATCGGCATGAACGGGGAACCGCTGCCGCTCGAGCACGGTTACCCAGTGCGAATGGTGGTTCCCGGACTGTACGGCTTTGTGTCAGCCACGAAATGGGTGGTGGACCTCGAGGTCACCCGCTTCGCTGACAGCAAGGCGTACTGGACACAGCGCGGATGGTCCGAGCGGGGCCCGATTAAGACCATGGCTCGGGTGGAAGTCCCTCAGTCCTTCGCCGTGGTGCCCGCCGGACGGGTCGCGGTAGGCGGCACGGCGTGGGCACAGACGCGCGGCATCGAGAAGGTGGAGGTACAGATCGACGGCGGCGTCTGGGCGGCTGCGACCCTCTCCGAGGAGACCTCCGCAGTGACCTGGCGGCAATGGTCCTTTGAATGGGACGCCAAGCCCGGGCCGCACTACATCAAGGTGCGCGCAACGGACGGCACCGGTGAGGTGCAAACCGAAAAGCGGGCCGATCCCGTACCCGACGGCGCCTCCGGCTGGCAGTCGGTCATGGTCACCGTCGAGTAG	MQKLLTLFRGPSVLAALAGVAAAAVVLSVAELIGAFFTARATPVIALGSTFIDFTPPWLKDFAIATFGTGDKAALFVGMGLTIALLACVLGVVAYRSWPLGAAGVLLMGAVIVASVVTRAGVEPHDALPSIAGTIAGLIVLRLLVTRLWRLQYFPDAPAGVAAKEPERPVTTRRAFFTAAGLAAAGAGIVGAGGRLLSTARSNVAQARASLRLPAPAQPAPGIPAGVQSATPGVTPWLTPNGEFYRIDTALSVPEINADEWELRVHGLVEEEIRLTFQDLLDADLIEAHVTLTCVSNPVGGNLAGNAKWLGLPIREVLRRARPKDGADMVLSTSIDGFSASTPLEVLQDGRDAMLAIGMNGEPLPLEHGYPVRMVVPGLYGFVSATKWVVDLEVTRFADSKAYWTQRGWSERGPIKTMARVEVPQSFAVVPAGRVAVGGTAWAQTRGIEKVEVQIDGGVWAAATLSEETSAVTWRQWSFEWDAKPGPHYIKVRATDGTGEVQTEKRADPVPDGASGWQSVMVTVE				NA	NA	NA	NA	NA
D1-17_00720	1323	purD	COG0151	Phosphoribosylamine--glycine ligase	GTGAAGGTACTCGTCATTGGCCCCGGCGGCCGCGAACACGCCATTGTCCGCTCCCTCCTTGCAGACCCCAACGTTTCCGAAGTCCACGCGGCTCCGGGTAATGCCGGCATCAGCAAGCTCGTCCCGACTCATGCCATCGACGGGAACGATCCGGATGCCGTAGCGGCGCTCGCCGCCCGTCTTGATGTGGACCTGGTGGTGGTGGGACCCGAGGCGCCGCTGGCCGCAGGGGTTTCCGACGCCGTCCGTGCCGTTGGCATTCCCGTCTTCGGGCCCAGCAAGGCAGCAGCCCAGCTGGAAGCGTCCAAGGCCTTCGCAAAGCAGATTATGGCCGAAGCCGGCGTACCTACGGCGATGGCGCTCGTTGCCGCCAACGCCGAGGAAGCCGCCGCCGCTTTGGACACCTTCGGTGCACCGTACGTGGTCAAGGACGACGGACTCGCCGCCGGCAAGGGCGTGGTGGTCACGAGCAACCGCGATGAGGCCCTGGCCCACGCGCAGAGCTGCTTCGACGCCGGCGGGACGGTAGTGGTCGAGGAATTCCTGGACGGCCCCGAGGTCTCCGTGTTCGTCCTCTGCGACGGCCGCAACACAGTTGCCCTGTCCCCGGCCCAGGACTTCAAGCGAATCTACGACAACGATGAGGGCCCCAACACCGGCGGCATGGGTGCCTACACGCCGCTGGAGTGGGCTCCCGAAGGCCTGGTCCAGGAAGTCATCGACCGCGTGGCCCAGCCCACCATCAGCGAGATGGCCCGCCGCGGAACCCCGTTCGTGGGTGTCCTGTTCGTCGGCCTGGCCCTGACCTCGCGCGGCACGCGCGTCATCGAATTCAACGTCCGCTTCGGCGACCCGGAGACCCAGGCCGTACTCGCCCGGCTCAAGACGCCCCTCGGTTCCCTGCTCCTGGCGGCGGCCAAGGGCGAACTGGACAAGGCGGAAGAGCTGCGCTGGTCCAAGGAGACCGCGGTCGCCGTCGTGGTGGCCTCCGAAAACTACCCGGACACCCCGCGCATGGGCGACCGGATCCGCGGACTGAAGAAGGCAGACGAACTCGAAGGCGTCCACGTGATCCATGCTGGAACCAAGCTCGACGATCAGGGCAAGGTGGTCTCCGCCGGCGGCCGCGTCCTCGCGGTGGTGGCGCTGGGGTCCGACCTCGTCGAAGCCAGGGAAAGGGCGTACGACGGCGTGGAGCTGATCCAGCTCGAAGGCGCCCAGTTCCGCCGCGACATCGCCGGAAAGGCAGCCCGCGGCGAAATCAGGCTGGCACCCGGCAACCCCTCCGCCCAGACAGTTCCCGCCCCGAAAGCGAAGGCATGA	MKVLVIGPGGREHAIVRSLLADPNVSEVHAAPGNAGISKLVPTHAIDGNDPDAVAALAARLDVDLVVVGPEAPLAAGVSDAVRAVGIPVFGPSKAAAQLEASKAFAKQIMAEAGVPTAMALVAANAEEAAAALDTFGAPYVVKDDGLAAGKGVVVTSNRDEALAHAQSCFDAGGTVVVEEFLDGPEVSVFVLCDGRNTVALSPAQDFKRIYDNDEGPNTGGMGAYTPLEWAPEGLVQEVIDRVAQPTISEMARRGTPFVGVLFVGLALTSRGTRVIEFNVRFGDPETQAVLARLKTPLGSLLLAAAKGELDKAEELRWSKETAVAVVVASENYPDTPRMGDRIRGLKKADELEGVHVIHAGTKLDDQGKVVSAGGRVLAVVALGSDLVEARERAYDGVELIQLEGAQFRRDIAGKAARGEIRLAPGNPSAQTVPAPKAKA	PGPT0021575_411	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
D1-17_00721	954	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGGCAGAAGCAGTGAACACCGGCGGCGCTCCCAGCCGGGGACTGAACACCTCCGCGCTGGACCTGCCCGGCTGGAAGCACGTCTACTCGGGCAAGGTCCGCGACCTGTACGAACCCGCGGATGAGTCGGTCAACACGCAGTTCGGACAGGACTGCGTGCTCGTGGTGGCAAGCGACCGGATCAGCGCGTTCGACCACGTACTCAGCAGCGAAATCCCTGACAAGGGCCGCATTCTGACCCAGCTGAGCCTGTGGTGGTTCGACCAGCTGGACGTCGAGCACCATGTCCTGGCATCCTCCGTGGAGGAGGGCGTGCCCGCCGCTGTGGAAGGCCGCGCCATGATCTGCAAGAAACTGGAAATGTTCCCCGTGGAATGCATCGCCCGCGGTTACCTCACCGGTTCCGGCCTCGTGGAGTACCGGCAGTCCGGCACCGTGTGCAGCATTCCGCTGCCCGAGGGCCTGGTGGACGGTTCGCGCCTGGAGAAGGCTATCTTCACCCCCTCGGCCAAGGCAGAGGTCGGTGAGCACGACGAAAACATCACCTATGACGCTGTGGTGTCCATCGTCGGTGATGACATCGCCGCCCGCCTCAGCGAGCTGACCCTGGAGATCTACACCATGGCTGAAGAGGTAGCCCGCGAACGCGGCATCATCCTGGCCGACACCAAGGTGGAGTTTGGCTACGACGTGGTGAAGGGGACCATCGCCCTCGGCGACGAGGTCCTGACCCCGGACTCCTCGCGCTTCTGGGACGCCGCGACCTACAAGCCCGGGCAGGCCCAGCCCTCGTACGACAAGCAGTATGTGCGTGACTGGCTGACCTCTGCCGAGTCCGGCTGGGACAGGGCCTCAAATACCCCGCCGCCGGCGCTGCCTGCTGACGTCGTGGAGCGCACCCGTGCCCGCTATGTCGAGGCTTATGAAAAGCTCACCGGGCGCACCTTCGCCTGA	MAEAVNTGGAPSRGLNTSALDLPGWKHVYSGKVRDLYEPADESVNTQFGQDCVLVVASDRISAFDHVLSSEIPDKGRILTQLSLWWFDQLDVEHHVLASSVEEGVPAAVEGRAMICKKLEMFPVECIARGYLTGSGLVEYRQSGTVCSIPLPEGLVDGSRLEKAIFTPSAKAEVGEHDENITYDAVVSIVGDDIAARLSELTLEIYTMAEEVARERGIILADTKVEFGYDVVKGTIALGDEVLTPDSSRFWDAATYKPGQAQPSYDKQYVRDWLTSAESGWDRASNTPPPALPADVVERTRARYVEAYEKLTGRTFA	PGPT0021565_1017	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
D1-17_00722	1263			hypothetical protein	GTGGGGAGCGGATTCGGAGAGAAGCTCCGGGCCGAAAGGCTCGAACGCGGACTGACCCAGGCGGAACTGGGCAAAGACCTTTACTCTCCCAGCTACATCTCGCTGTTGGAAACCGGCCGGCGGGAACCCACAGCGGACGTGATCGAGGAGCTTGCCCGGCGCCTCGAGCTTGCACCCAAAGCGCTTGAGGCCTGGAGCCAGCCCATCTCGGTAAGCGACGCCGAATACGTTCTGGCCGGCCTGTATGCCCGGCAGGCCTGGGACCTCCGCGATTACCCGCTGGCGGCTGAGCACGCGGCAACGGCGGCGCGGATCGCACTGGAGGGTAAGAACACCAGCGCCTGGTGGAACATGACGTACATGCAGGCTGAGTGCCTCATGAAGCAGGGCCAGCTCAAGGAATGCCAGAAGATCATGGAGCACCTGCTGGAGCACCCCATGGCCAGCGAGTCTGCTGGTCTTGGAGTGCGTGCGCGGCAGATGCTCGCCGCGCTCTGCCACGGACAGGGCGATCTCACAGCCGCCGTCGGGCACGCCCAGCAGGCCGTGGAGCTGTGCGCGAAGCTGCCCAAGGGTTCCACCCTGATCATCGGCGCGCTCCGCGTCCTCATCGGCGCACTCGCCGAAAGCGGGCGGCTTGAGGAGGCCTGGAAGTACTGCCAGGAAATGAACGCCCAGATGGATGAGCACTCCATATCCCAGCTTGCCGGCGAAGTGGCCTGGGTGATCGGCAACGTTGCGTTCCTGCGGCACGACTATCCGGAAGGCATCAAGCACCACGAGCGTGCAGCCAAGCTGCTGTCCCCCGCCAATGACATTGACCTGTGGGCGCGCTTCAACAAGGCCTCGGCCGCCGTCCGGCTCTCCTCCGGGATCGTCGAGCCGGAGACCCTGTCCGCCATCGAACGCGCCGAGCTCGCACTGTCCATCGTTGGCGGCAACAAGACAGACCAGCTCGAGGTCGCTTTCATCCGCGCCCGCTGGCTCTATCTGACCGGTGACATCGTGGCTGCTGTGCAAAAGCTCCGCGAAATCCACGCAGAGCGCGCCGCCCTCGCCAAGCACACCGCCGGCGAGGTCTCCCTGCTCCTGGGCAAGTCACTAAAGGCGGCCGGCGAATCGGAGGAAGCCCTGGCGCTCCTGCAGGAGGCCCAAAAGGAGTTCACCGCCGCCGGCGCCCAGGACCGTGTGCAGCAGGCCCTGGACGCCATGCTGGAGATCAGGCTCGCGCAGCGCCGGGCAGAGGCGGCCGAAGCGGGCTAG	MGSGFGEKLRAERLERGLTQAELGKDLYSPSYISLLETGRREPTADVIEELARRLELAPKALEAWSQPISVSDAEYVLAGLYARQAWDLRDYPLAAEHAATAARIALEGKNTSAWWNMTYMQAECLMKQGQLKECQKIMEHLLEHPMASESAGLGVRARQMLAALCHGQGDLTAAVGHAQQAVELCAKLPKGSTLIIGALRVLIGALAESGRLEEAWKYCQEMNAQMDEHSISQLAGEVAWVIGNVAFLRHDYPEGIKHHERAAKLLSPANDIDLWARFNKASAAVRLSSGIVEPETLSAIERAELALSIVGGNKTDQLEVAFIRARWLYLTGDIVAAVQKLREIHAERAALAKHTAGEVSLLLGKSLKAAGESEEALALLQEAQKEFTAAGAQDRVQQALDAMLEIRLAQRRAEAAEAG				NA	NA	NA	NA	NA
D1-17_00723	195			hypothetical protein	ATGTTTAAGAAGATTGCGGCTGCTGCCGTGATGGCAGGGGCGCTCGCATTCTCCGTCACGGCCCCGGCCGTTCTATCCGCCGGTTCTATCGCTGACAACGGGGGCACAGCCGTTGCCATCGGGAATTGGCCGGATCCGATGAGCGTGGATGGCACCAACTACACGAACATCGGCAACTGGCCGGATCCGATGTAG	MFKKIAAAAVMAGALAFSVTAPAVLSAGSIADNGGTAVAIGNWPDPMSVDGTNYTNIGNWPDPM				NA	NA	NA	NA	NA
D1-17_00724	345			hypothetical protein	ATGAAACCGCCGGGAACCATCGGGCTGCAGCGGGCGTATCTTTTTTGGACCCTCGCCGGCGTTTCCCTCATAGCCGCTTCGGCCGCCGGGTCACCAGTCATCAGCCTGCTGAGTGGGACGGCCGACGCCGGTTCCACCGTTTGGGGGATCAGCGGCGTTGCGGCGCTTCTGGCGGCTCTGGCGCTTTTCGCGCTCGGCTTGCGGTTGCGCCACCGTTACATGAACACCGTCCAAAGTTATGAGAGCCGCGGAGCCTACCTGGAGGACGACGGTTCGCCCCGGCCCAACCTTCCCTTGGTTGGCGACGGGCAGGCAAGGCCCAACCTCACCAACCCGGGGCCCTGA	MKPPGTIGLQRAYLFWTLAGVSLIAASAAGSPVISLLSGTADAGSTVWGISGVAALLAALALFALGLRLRHRYMNTVQSYESRGAYLEDDGSPRPNLPLVGDGQARPNLTNPGP				NA	NA	NA	NA	NA
D1-17_00726	1833		COG1132	Fatty acid ABC transporter ATP-binding/permease protein	GTGAGCACCTCAGCGTTCGGCACAGCGAACGAGGACAACGCCCACCTGAGCAAGAGCGACAGCAAGGCAGTACGACGGCGGTCGCTCACCTTGCTGGCGTCGCTGGTCCGTCCCGTTCGGCTCCGGTTCTGGCTCACGGTTGCCACGGTGGTACTCTCCCAGGCTTCCAGGGTTTCCGGTCCGGCCCTGATCGCCTTCGGCATCGACCATGCACTTCCGGCGCTTCAGTCCGGGAACAACCTGCCGTTGGTCCTGACCGGCATTGCCTATGCCGCAGCGGCGGTGGCGGCCGCCGGCCTCACCGCGCTGTACGTGACCTCGACGGCGAAGCTCAGCCAGGCCATGCTGCTGGATCTGAGGCTTTGGGTCTTCCGCCACACACAGCGGCTGAGCCTGGAGTTCCACGAGAAGTACACCTCTGGCAGGATCATTGCCCGGCAGACGTCGGATCTGGAGGCCCTCCGCGAACTTCTCGACTCGGGCATCAGCTCCCTGGCCGCCGGAGCGCTGTTCATGGTCCTCACGGCCGCGACAGTCTTCGCCCTCGACTGGCGCAGCGGGCTGATTGTGCTGGGCGCCGGCGTTCCCATGTTCATGCTGGCGCGTTGGTACCAGAAACACTCCCAGATAACCTTTCGGGAGTCCCGGGTGGTGTCCGCCCGGCTGATCGTGCACTTCGTGGAAACCATGACCGGGATCCGCGCGGTGAAAGCCTTCCGGAAAGAGCGTGACAACGCCTCCCGGTACAAGGAACTCGCGGAGGACTACCGGAGGGCAACGGTCCGTTCCATCAACCTCAACGGCGTCTTCCAGCCCGGCCTGGTGCTGACCGGCAACGTCTGCGTGGCCGCGGTGCTGCTGTTCGGCGGTTTCCGCGTGCTCGGCGGCGATCTCGCCGTGGGTGTGCTGCTGGCGTTGATGTTGTCCACGAAGCGTTTCTTCCAGCCCGTCGACCAGATGGCGATGTTCTACAACTCGTTCCAAAGCGCCCAGGCTGCGCTGGAAAAGGTGTCCGGGCTGCTGGAAGAGGTACCGACCGTACGGCCGCCGAAAAACGCGGTGGCGCTTCCCGCTGCGGCGGGCCGGATCGGATTCAGGGACGTCGAGTTCCGGTACGGGCAGGGCCCCCTCATCATTCCGGCGCTTAACCTTACGATCCCCGCCGGACAGACAGTCGCCCTGGTGGGGCAGACTGGGGCGGGCAAGTCCACCATCGCGAAACTGATTGCACGCTTTTACGATGTCTCCTCCGGATCAGTTACCCTCGACGGCGTTGACCTGCGTCGGCTCGGCACCTCCGACCTGCGCCGGCACATAGTGATGGTCACCCAAGAAGCCTTCCTCTTCAGTGGCTCCGTGGCCGAGAACATTGCACTGGGCAGGCCGGAGGCGTCCCGGGAGGAGATTGAGTCCGCGGCCAAGGCCGTGGGTGCACACGGGTTCATCCTGGAGCTGCCCGAGGGCTATGACACCGACGTCAATAAACGCGGCGGCCGGGTCTCCTCGGGCCAGCGTCAGCTCATCAGCTTCGCCCGAGCTTTCCTCGCCCGGCCGGCGGTCCTGATACTTGATGAGGCCACATCGTCGCTGGACATCCCATCAGAACGGCTCGTGCAGAGCGGCCTGGCCCGGCTGCTCCAAGGAGCGGAACCCAACGGGACCCGGCGCACCGCGCTCATCATCGCCCACCGGCTGTCCACCGTGGAGACCGCGGACAGGGTGCTGGTAGTTCATGACGGCCGGGTGGTGGAAGACGGTACGCCAGAGGAGCTGATTGGGGGCGGCGGACGCTTTGCGCGGCTACATGCTGCCTGGAAGGACTCACTGATGTGA	MSTSAFGTANEDNAHLSKSDSKAVRRRSLTLLASLVRPVRLRFWLTVATVVLSQASRVSGPALIAFGIDHALPALQSGNNLPLVLTGIAYAAAAVAAAGLTALYVTSTAKLSQAMLLDLRLWVFRHTQRLSLEFHEKYTSGRIIARQTSDLEALRELLDSGISSLAAGALFMVLTAATVFALDWRSGLIVLGAGVPMFMLARWYQKHSQITFRESRVVSARLIVHFVETMTGIRAVKAFRKERDNASRYKELAEDYRRATVRSINLNGVFQPGLVLTGNVCVAAVLLFGGFRVLGGDLAVGVLLALMLSTKRFFQPVDQMAMFYNSFQSAQAALEKVSGLLEEVPTVRPPKNAVALPAAAGRIGFRDVEFRYGQGPLIIPALNLTIPAGQTVALVGQTGAGKSTIAKLIARFYDVSSGSVTLDGVDLRRLGTSDLRRHIVMVTQEAFLFSGSVAENIALGRPEASREEIESAAKAVGAHGFILELPEGYDTDVNKRGGRVSSGQRQLISFARAFLARPAVLILDEATSSLDIPSERLVQSGLARLLQGAEPNGTRRTALIIAHRLSTVETADRVLVVHDGRVVEDGTPEELIGGGGRFARLHAAWKDSLM				NA	NA	NA	NA	NA
D1-17_00727	1833		COG1132	Putative multidrug export ATP-binding/permease protein	ATGGCCAAGCAGTTATCGTTTTTCAGATCCGTCAGCCGTCTCTATCCCCACGTGAAGCCGGTCCTGCCCCGGCTTGTCATGGGACTGCTGAGTGCCCTGCTGGCCAGCGTCGTGGCGCTCACCATTCCCCAGGTCCTGCGCGTTCTGGTCAACGATTCACTCCGCCCGGGAGCCACGGCGGAAGCCGTCTGGTCATCCGCGGGCGTCATCCTCCTCCTTGGTATTGCCGAGGCCGTACTCGTGGCACTTCGCCGCACATTCGTCATCAATCCCGCCACCACCGTGGAGACCAGGATGCGCGTCTCCCTGTACAGCCACCTGCAGGACCTTCCGGTTTCCTTTCACGACCGTTGGGGCTCAGGGCAGCTGCTCTCCCGCGCCATGACAGACCTGAACTTTCTGCGGCGCTGGATGGCCTTCGGCGCCATCATGCTCGTGGTCACCACCCTGACCGTGATCATCGGGGTGGCCGTGATGTTCACCATGAGCTGGCAACTGGCGCTGATCTTCCTTGCCGCGGCGGTCCCCATCATGGTCTACGGCTTCCGTTTCCGGACCCGGTTCAGCAAGGTGGCGCGGCGCAGCCAGGACCAGGCCGGGGACCTCGCCACCACCGTGGAGGAGTCCGTCCACGGGATCCGCGTCCTGAAGGCCTTCGGCAGGAGCCGGGAGGCCTTGGAAAACTTCAACGGGCAGGCCGAGGAACTCCGGCGGACGGAGATCGCCAAGGCTAAACACCAGGCGACCTTCAGTTTGGTGGTGACGCTCCTGCCCGAGCTCGCGCTCGGTGCCGGGCTGGTGGTGGGCATCCTGCTGGTGTCCAGCGGACAGCTCAGCGTCGGTGGGCTCGTAGCATTCTTCGCCACTGCAGCGGTCATCGCAGCCCCCGTGGAGTTCTCGGGCATGCTGCTGGCCATGGCCCTAACGGCAAAGAGTGCCCTGGACCGCCACTTCGAAGTCATGGACGCCGCAGACACCATAACGGGCCCCGCCCATCCCGGACGGCCGGCTGAGCTGTGCGGCGCACTAAGTTTCAACGACGTCACCTTCGCTTTCGAGGACGCCCCGGATCAACCCATCCTCAAGGGCGTGACCCTGGCGATCCGGCCGGGTGAAACCATGGCGTTGGTGGGCATCACCGGCAGCGGCAAGAGCGCTCTGCTGCAGCTGGTTCCGCGCCTCTACGACGTTACCGAAGGCTCCATCACCATCGACGGCACGGATGTGCGCGCCTTCAGTATCGAGGAGCTGCGCAGCGTGGTGGGTATCGCTTTCGAGGACGCCACGCTCTTCTCCAGCTCCGTCCGGGACAATGTGCTTCTCGGTGCCCGGGCCGGTAGGGAGCCGTCCGATGACGGCGAGCCGGATACTGTCCTTGATGAAGCCCTCGACACCGCCCAGGCGCAGTTCGCGTACTCATTGCCGGACGGCCTTGACACGCTGATCGGCGACGAAGGCCTGAGCCTCTCCGGCGGCCAGCGGCAGCGGATCGCACTGGCGCGGGCCGTCGCGGCAAAGCCCAAGGTCCTGGTGCTGGACGATCCGCTGTCCGCCCTGGACGTCAATACGGAGGAACGGGTCCAAGCCAGGCTGCGGAAAGTACTGGCGGGCACGACCACCCTGATCGTGGCCCACCGTCCGTCCACCGTGGCGCTGGCCGACCGGGTGGCGTTGCTCGAGGAAGGCCGCATCGCCGCCGTCGGAACCCATGCCGAGCTGCTGGCAGCGAACGCCCACTACCGCTATGTCATCGCCAGCCTCGGGCGGGAGCCCCGGGACCTCGATACCGAATTGTCCGCACTGGAGGACGACGCCGAGGAGGTCATCCGGTGA	MAKQLSFFRSVSRLYPHVKPVLPRLVMGLLSALLASVVALTIPQVLRVLVNDSLRPGATAEAVWSSAGVILLLGIAEAVLVALRRTFVINPATTVETRMRVSLYSHLQDLPVSFHDRWGSGQLLSRAMTDLNFLRRWMAFGAIMLVVTTLTVIIGVAVMFTMSWQLALIFLAAAVPIMVYGFRFRTRFSKVARRSQDQAGDLATTVEESVHGIRVLKAFGRSREALENFNGQAEELRRTEIAKAKHQATFSLVVTLLPELALGAGLVVGILLVSSGQLSVGGLVAFFATAAVIAAPVEFSGMLLAMALTAKSALDRHFEVMDAADTITGPAHPGRPAELCGALSFNDVTFAFEDAPDQPILKGVTLAIRPGETMALVGITGSGKSALLQLVPRLYDVTEGSITIDGTDVRAFSIEELRSVVGIAFEDATLFSSSVRDNVLLGARAGREPSDDGEPDTVLDEALDTAQAQFAYSLPDGLDTLIGDEGLSLSGGQRQRIALARAVAAKPKVLVLDDPLSALDVNTEERVQARLRKVLAGTTTLIVAHRPSTVALADRVALLEEGRIAAVGTHAELLAANAHYRYVIASLGREPRDLDTELSALEDDAEEVIR				NA	NA	NA	NA	NA
D1-17_00728	948	ypbG	COG1408	putative protein YpbG	GTGATTGACACATCACAACTGGCAAGCCGCGCGCGAAGCATTGCGCGCGGCTTTGCCGTCACTGCTGCAACCGGCACGGCAGCAGGCCTGGCCGCCGCGGGCTACGGCCTCTGGGAGAAGAACCAGTTTGTTCTGCGGGAAGAAACACTGCCCATCCTGCCGGAGGGCCGCGGGCCGTTCCGGATACTCCACCTCAGTGATATCCACTTCGTTCCGAGGCAGAAGGCGAAGGGGGAATGGCTGCGTTCGCTCGCCCAGCTCAAACCCGACCTCGTGGTGAATACAGGTGACAACCTCAGCCATCCCAAAGCAGTGGATCCCCTGCTCGCAGCGCTGGCGCCGCTCATGGAGTTCCCGGGCGTCTTCGTTCCCGGCTCCAATGACTACTATGCCCCGAAGTTGAAGAACCCCGCCTCGTATTTGCTGGGACCCTCCAAAGCCACGCCTGACGCCGAGGAACTCGACTGGCCAAAGCTGCGCTCCGGCTTCGGCATGGGCGGCTGGGTGGATCTGACCAACCGGAACCAGTCGATTGTCCTCAAGGGCCTGCGGTTCGATTTCTCCGGAGTGGACGACCCCCACCTGAAGCGCGAACGGTATGCAGGCTGGCCTCGGGGCACCAGGGGCCAGGACAGCAACGACCATCTCCGCGTGGCCGTTATCCATGCCCCTTACCAGCGCGTGCTGGACCACTTTACAGAGTCAGGCGCCGACCTCCTCCTTGCGGGCCACACCCACGGCGGCCAGCTCTGCCTACCCGGTTACGGCGCTATCATTGCCAACTGCGACATCCCAACATGGCGGGCCAAGGGACTGCATGACTGGAACAGCAACGGATTCACGACGCCGGTCAACGTCTCGGGCGGCATCGGCACCTCGCGTTTTGCCCCCATCCGGATCGCCTGCAAGCCTGAAGCAGTCCTGCTGACGCTTACCGCCCGGGGTTAG	MIDTSQLASRARSIARGFAVTAATGTAAGLAAAGYGLWEKNQFVLREETLPILPEGRGPFRILHLSDIHFVPRQKAKGEWLRSLAQLKPDLVVNTGDNLSHPKAVDPLLAALAPLMEFPGVFVPGSNDYYAPKLKNPASYLLGPSKATPDAEELDWPKLRSGFGMGGWVDLTNRNQSIVLKGLRFDFSGVDDPHLKRERYAGWPRGTRGQDSNDHLRVAVIHAPYQRVLDHFTESGADLLLAGHTHGGQLCLPGYGAIIANCDIPTWRAKGLHDWNSNGFTTPVNVSGGIGTSRFAPIRIACKPEAVLLTLTARG	PGPT0022365_2337	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
D1-17_00729	2418	ponA	COG0744	Penicillin-binding protein 1A/1B	ATGATGAGCGGAATCGTCGCGTACTCCCATTTGGTCATGAACTCAAGCCTAATCGTTGCCGGTAAACTGGAGAACATGGTGACTCGTAGGAACCCCATATTCGACACGGCCACTACCCTCGGAAAGATTTTTGCTTTCCTTGGCGTGAGCGCTATTTGTGGCGTCCTCGTGGCCGGCCTCCTGGTTCCGGCAGCCGCCGTTTCCGGCAGCTCGGCGAGCAGCTCGATCGACTTCTTCGACACGCTCCCGGCTGAGCTGCAGGTTGATCCGCCCAGCCAATCCACGAAGGTGCTGGCCGCGGACGGGAGCCTGATTGCCAACCTGTACGCGGAAAACCGCACCCGCGTCCCGCTGGACCAGATCTCCCCGTACATGAAGGACGCGGTGATCGCCATCGAGGACAGCCGGTTCTATGAGCACGGGGGTGTTGACACCACCGGCATTCTGCGTGCCCTCGTGGCCACGGCGCGCGGTAACAAGCAGGGTGCGTCCACCATCACCCAGCAGTACGTCAACAACGTCCTTAATGCCTCGCTCGAGGCCGAGGGCCGCGGCGAAGACGTCAAGCTCAACGGTGTGAACAAGGGCGTGGGCGACAAACTGCGCGAAATGAAGCTTGCCATCGCCCTGGAAAAGAAGTTCAGCAAGGAAGAAATCCTTGAGGGCTATCTCAACATCGTGTTCTTCAACCGTGACGCCTACGGCATCGAAGCCGCTTCCAAGTTTTTCTTCAGCACCACGGCCAAGGACCTGACGCTCCCCCAGGCGGCGCTCCTCGCCGGCCTGGTCAACAGTCCCTCGGCGTTTGATCCCATCTCCAATCCGGAGAGCGCCAAGGCCCGCCGCGACCTCGTGCTGAACGTTATGCTCGGCCAAGGCAAGATCACCAAGGCCCAGCACACCGCTGCAGTGGCCACCCCGGTCGCCCCCAAGATCACGCCGGCACGGCAGGGCTGCGCCTATTCGCCGATCGCGCCGTACTTCTGCGACTACGTCCTGCACCTGCTGCTGAATAACCCGGCCTACGGCGCGGATCCCGAGGAACGTGAGAAGAAGGTCTTCCGTGGCGGCCTGACCATCAAGACCACGTTGGATGTGAAGGCGCAGAAGGCCGCGCAGGCGCAGGTGAATGCCGCCGCCGGCGCCAACCCGGACAAGTGGGGCGCTGCCCTCGTCTCCGTGGAGCCGGAGACCGGCAAGATCACCAACATGGCCCAGAACACCCAATGGTTCCCAGGCAAGGGCAAGTTCGACAGCCAGATCAACTTCAACGTGGATCAGTACGACGAAAACGGTGGTGATCTGAACGGCCTGGGCGGTGCCCAGCCGGGTTCTACCATGAAGCCGTTCACCTTTGCCCAGTGGCTGGACGAAGGCAAGTCGATGAACACGATCGTCGACGCCTCCCAGCGGCGCTACCCGCAGAACTTCCCGTGGCGGAACACCTGCCCCACGCCCACCGTCGGCTGGTACGACAGCACCAACGGCACAGACGATCTTCAGAACGCGGAAGAGGGCTACTACCGCCCCATGTCCGTGGTTGACGGACTGAAAAACTCCATCAACACCGCCACCTTTGCTTCGGCCGCCCAGGTTGACCTGTGCGGCATCCAGAAGATCGTGGACGCTGTTGGCCTGCACGGCGGTTTGCCCGTCCGGGACAAGGAAACCAACGCCGTGGTGGACGCGAACCCCAAGATCACCATGACCACCCTGGGCAACCTGCTCGGTTCCACGCAGACCGCACCGCTGACCATGGCCACCGCCTTCGCCACCTTCGCCAACGACGGCAAGTATTGCGCTCCCATCGCCGTCACGTCGGTGACGGACCACACGGGCGCCCAGTTGCCGGCGCAGTCCACCCAGTGCCGGGACGCCCTCAAGCCCGAGGTTGCCCGCGGTGTGAACTACGCGCTCCAGAAGGTCCTGAACGAGGGCTCCGGCTCGCTCATCCAGCCCAGGATTTCGACCGACACCACCTTCCCTGTTGCAGCGAAGACCGGTACGTCGAACAACAACGGATCCACCTGGGTTGTAGGACACACCATGGGCCTGGCCACCGCGGCCTGGTTCGGTGATGCACTCGGCGCCCAGGACCGGGCGGGCCAGAATGTCACGGTCAACGACAAGTTCTACACCGGTATCGATGGCTACATGATCGCCGGTCCAATGTTCTCGCAGTTCATGACGGAAATTGCTCCGGCCTACGGAACCGAGCCCTTCCCGGAACCGCCGTCCGAGCTGCTCTATGGAATCCCGCAGTTCCAGCCCCAGCCGAACAACCCGCAGCAGTTCCAGCCGCAGCCGAACAACCCGCAGCAGTTCCAGCCAGAGCCGAACAACCCACAGCCCCCTAGCGACACGGGCAACAACTCAGGGGACTCCGGCAATGGCAACGGCAACAGGGGGAATGACTGA	MMSGIVAYSHLVMNSSLIVAGKLENMVTRRNPIFDTATTLGKIFAFLGVSAICGVLVAGLLVPAAAVSGSSASSSIDFFDTLPAELQVDPPSQSTKVLAADGSLIANLYAENRTRVPLDQISPYMKDAVIAIEDSRFYEHGGVDTTGILRALVATARGNKQGASTITQQYVNNVLNASLEAEGRGEDVKLNGVNKGVGDKLREMKLAIALEKKFSKEEILEGYLNIVFFNRDAYGIEAASKFFFSTTAKDLTLPQAALLAGLVNSPSAFDPISNPESAKARRDLVLNVMLGQGKITKAQHTAAVATPVAPKITPARQGCAYSPIAPYFCDYVLHLLLNNPAYGADPEEREKKVFRGGLTIKTTLDVKAQKAAQAQVNAAAGANPDKWGAALVSVEPETGKITNMAQNTQWFPGKGKFDSQINFNVDQYDENGGDLNGLGGAQPGSTMKPFTFAQWLDEGKSMNTIVDASQRRYPQNFPWRNTCPTPTVGWYDSTNGTDDLQNAEEGYYRPMSVVDGLKNSINTATFASAAQVDLCGIQKIVDAVGLHGGLPVRDKETNAVVDANPKITMTTLGNLLGSTQTAPLTMATAFATFANDGKYCAPIAVTSVTDHTGAQLPAQSTQCRDALKPEVARGVNYALQKVLNEGSGSLIQPRISTDTTFPVAAKTGTSNNNGSTWVVGHTMGLATAAWFGDALGAQDRAGQNVTVNDKFYTGIDGYMIAGPMFSQFMTEIAPAYGTEPFPEPPSELLYGIPQFQPQPNNPQQFQPQPNNPQQFQPEPNNPQPPSDTGNNSGDSGNGNGNRGND				NA	NA	NA	NA	NA
D1-17_00730	534			hypothetical protein	ATGACAACTCCTCAGGAAACCGCTTCCGGCGCGGCAGCGGCGCCGATTTCCGCCGTGGAACAGCGGCTCGCCGAATTGGGCGTGACCCTTCCGGCCGTGGCGGCTCCGGTGGCCGCCTACGTGCCCGCCGTGATCTCGGGAAACCACGTATACACCTCGGGACAGCTGCCTTTTATTGACGGCAAGCTTCCGGCCGCCGGTAAGGTGTCCGCCGGTAACGAAGGCACCTCAGATGAGCCCACTGTTTCTCCCGAAGACGCCAAGGAATACGCGGCCGTCTGCGCCGTGAACGCGCTGGCCGCCGTCAAAAGCGTCATCGGCGACCTCGACCGCATTACCCGCATCGTCAAGGTTGTGGGCTTTGTCTCATCGGACCCGTCATTTACCGGCCAGCCGGGCGTCATCAACGGAGCGTCCGAGCTCCTGGGACGCGTCCTTGGCGACGCGGGCCAGCACGCCCGCTCCGCCGTCGGCGTCTCAGTCCTGCCGCTCGACTCACCTGTTGAGGTCGAACTGATCGCCGAATTCAGCTAA	MTTPQETASGAAAAPISAVEQRLAELGVTLPAVAAPVAAYVPAVISGNHVYTSGQLPFIDGKLPAAGKVSAGNEGTSDEPTVSPEDAKEYAAVCAVNALAAVKSVIGDLDRITRIVKVVGFVSSDPSFTGQPGVINGASELLGRVLGDAGQHARSAVGVSVLPLDSPVEVELIAEFS				NA	NA	NA	NA	NA
D1-17_00731	912			hypothetical protein	TTGCCGCAGCTTGCTCGCCGCCTCTTTGCCCTTCCGCCCGAACTCGAAGGGGCGGCGCAGAGCTGGCTCGAACACGGTGAACGGACGCCCAGGACGGCGCGGCTCGCGTCGTCGATAGTTCTGCTCCGTGATTCGCCCAACGGCCTGGAAACCTGGCTTGGCTACCGGCCAGGCCAGTCGCCGCTGGGCGTCCTCGCGTTCCCCGGAGGGTCACTGGAGGCGTCCGACGACGACGCCATCGGCTGGCTGGGTCCCTCGCCGCAGCATTGGGCTGAGCAGATGGGAACCGACGACGTCGGGCTGGCCCGCCGCCATGTGGTGGGCGGCATCCGCGAACTGTTCGAAGAAACCGGCGTGCTCCTGGCCGGCCCGGACTTGTCCTCCGCGGTTGAAGGCACCTCGACGCCGGAATGGATGAAGGTTCGCGAAGCTGTGGCTTCGCAGGAAAAGTCCTTCGTCGACGTTCTTGCCCGGCGCGGTCTATCGCTGCGCACGGATCTGCTCAAGCCGCTCGTGAACTGGCTGAGCCCGGACTTTGCTCACCACCGCTTCAATACGCGCTACTTCGCCGCGACGGTCCCGCTGAACCAGCAGCCGACCCTCTTGGAGAGCAAGGGCGTGTGGGGGAAGTGGGTGTCCGCCACGCAGGTCATCGCCGAACGGAACACTACGGCGCTGGGTGACGAAGTCGGGCAGGAGAACACGGTCGGGCTGACTTTGGGCCAACTCATGGTGCCGGGCTCTGAAATCATGCTCGAGAAAATGGCGGCCGCCAACGGCTGCATCGCCTACCTCAGCTACAAGCGCACCCCGCATGTCTATCAGCCACGCCTCGTCGAAGAGGACGGAAAGCTGATGCTCGAAGTCGAAGCAGCCAAAACGGTGGCTGGCGAACCCCAGCGCGAACGGTAA	MPQLARRLFALPPELEGAAQSWLEHGERTPRTARLASSIVLLRDSPNGLETWLGYRPGQSPLGVLAFPGGSLEASDDDAIGWLGPSPQHWAEQMGTDDVGLARRHVVGGIRELFEETGVLLAGPDLSSAVEGTSTPEWMKVREAVASQEKSFVDVLARRGLSLRTDLLKPLVNWLSPDFAHHRFNTRYFAATVPLNQQPTLLESKGVWGKWVSATQVIAERNTTALGDEVGQENTVGLTLGQLMVPGSEIMLEKMAAANGCIAYLSYKRTPHVYQPRLVEEDGKLMLEVEAAKTVAGEPQRER				NA	NA	NA	NA	NA
D1-17_00732	678	crp	COG0664	CRP-like cAMP-activated global transcriptional regulator	ATGGACATCGAGGTATTGCGCCGCGCACCCCTTTTCGCCACGCTGGACGACGAGGCTTTCCGCCTGCTGACGGATGAGCTCACGGAGGTTGACCTGTCACGTGGGGCCTCCGTCTTCCGTGAGGGCGACCAGGGTGACCAGCTTTACTTCATCGTCTCCGGCAAGGTGAAGCTCGGACGGACGTCCCCCGATGGCCGCGAATCGCTGCTGGCCATCCTCGGCCCCGGTGAGCTTTTCGGCGAGATGGCGCTGTTCGACCCCAGCCCCCGCACAGCTACCGCCACCGCCGTCTCCGAAACGCGCCTGGCCGGCCTCCGCAACGAGAGCCTGAACAACCTGCTGCGCACCCGCCCAGAGGTTTCCGCGCAGCTGCTGCAGGCTCTTGCCCGCCGCTTGCGCCGGACCAACGATTCCCTCTCGGACCTCGTCTTCTCCGACGTTCCTGGCCGCGTCGCCAAGGCTCTCCTGGATCTGGCAGACCGCTTCGGCCGCCCGGCCACGGACGGTGTCCTGGTAGCCCACGAGCTCACCCAGGAAGAACTGGCCCAACTCGTCGGTGCCTCGCGCGAGACCGTGAACAAGGCGTTGGCCGAGTTCGTCCAGCGCGGCTGGCTTCGCCTCGAGGCCCGCGCCGTGGTCATCCTGGACATGCAGCGCCTCCGCCAGCGCTCCCGCTAG	MDIEVLRRAPLFATLDDEAFRLLTDELTEVDLSRGASVFREGDQGDQLYFIVSGKVKLGRTSPDGRESLLAILGPGELFGEMALFDPSPRTATATAVSETRLAGLRNESLNNLLRTRPEVSAQLLQALARRLRRTNDSLSDLVFSDVPGRVAKALLDLADRFGRPATDGVLVAHELTQEELAQLVGASRETVNKALAEFVQRGWLRLEARAVVILDMQRLRQRSR	PGPT0015075_2774	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0015075-clp|crp-K10914	NA	NA
D1-17_00733	1185		COG0265	Serine protease	TTGTTTGGCCTGACTGTTCTGGACCTGGCGTTGATACTGATGCTGCTGTCCTACCTGATCTACGGTCTCCGTAACGGCTTCCTGGTGACGGTGGGCGGCATTGCCGGGTTCGCCGCCGGGGCAGTGGCAGCGTTTCTCTCCGTACCCGTGGTCAGCGACCTGGTCGAGGACAGCAGTTGGCGTCTCACCGCGACCATCGGGGTTGCCATCGTGCTGGTGGTGCTGGGCAACGCCGTGGGCACTGCCATCGGCAGGAGCATCCGCAGTGCTGTCCGGCTAAAACCCCTGCGGGCAGTGGACAGGATGATCGGCGGGGCGATGAATGTCGTGGTGACGGCGCTCGTCATGTCGATGTTGGCATTCAGCATCAGCGCCCTCGGAGTTCCTTTCGTTTCCCAGCAACTCGCGGATTCCAAAGTCATCCGTTTCATCGACAGCCTGACTCCGAACCCCGTCAAGGCCACCATGGCGCAGCTGCGGTCTACCGTCATCGGCGACGGAATTCCACGGCTTATCGAGGGCATCGGCCAGGAGCAACCTGCACCTGTCCCCAACACCAGCACGGACACTCCGGCGCTGAACCGGGCCGCGGGTTCGGTGCTCAAGATCGCAGGCACTGCATTCCAGTGCGGCCAGAACCAGACCGGCAGCGGGTTCGTAGTGTCGCCTGGGCGGGTGGTCACAAATGCGCATGTTGTGGCGGGCGTGTCGCAGCCCGTCGTCGAGCTTCCAAGCGGCGCGGCAATGCCCGGACGTGTCGTGTACTTCGACGGCAAACGCGACCTGGCGGTTCTCGCGGTCGACGGTCTGCCCATCGAACCCTTGCCTCTGAGTGCTGATCTTCCCGCCGGATCTGCCGCCGCATTCGCCGGATATCCCCATGGCGGCCCCTTCCAGTCGAAGCCCGCTACGGTCCAAGGCATCTCCACCGTGCTTGTCCCGAATATCTATGGAGACAACCCCGTTCCAGATGAGGTTTACAGGCTGTCGGGCGACATTCAGCCAGGAAACTCGGGCGGCCCGCTGCTGACGATTGGGGGCCAGGTGGCCGGGGTGATCTTCGCCAAGACCACGTCCGATGCCGCCGCAGGGTTCGCCATTCCCATGATCGACCTGCGGCCGGTAGTCTCCGAGGCGCCGGAACTCTCCACTGCTGTGTCGTCGGGACAGTGCATCCAGCAGTAG	MFGLTVLDLALILMLLSYLIYGLRNGFLVTVGGIAGFAAGAVAAFLSVPVVSDLVEDSSWRLTATIGVAIVLVVLGNAVGTAIGRSIRSAVRLKPLRAVDRMIGGAMNVVVTALVMSMLAFSISALGVPFVSQQLADSKVIRFIDSLTPNPVKATMAQLRSTVIGDGIPRLIEGIGQEQPAPVPNTSTDTPALNRAAGSVLKIAGTAFQCGQNQTGSGFVVSPGRVVTNAHVVAGVSQPVVELPSGAAMPGRVVYFDGKRDLAVLAVDGLPIEPLPLSADLPAGSAAAFAGYPHGGPFQSKPATVQGISTVLVPNIYGDNPVPDEVYRLSGDIQPGNSGGPLLTIGGQVAGVIFAKTTSDAAAGFAIPMIDLRPVVSEAPELSTAVSSGQCIQQ				NA	NA	NA	NA	NA
D1-17_00734	477	aroQ	COG0757	3-dehydroquinate dehydratase	ATGACTGACGCACCTTCCGCCGACGACGCCGGCCGCCGCACCATCCTTGTCCTGAATGGTCCGAACCTGAACCTCCTCGGGACACGTGAGCCGGAGAAGTACGGCACCGCGACTCTTGCCGACGTTGAGCAGCTCGCCAAAGACGCGGGAGCGGCTGCCGGCCTGGACGTCGAGTGCTTCCAGTCCAACCACGAGGGCGCACTCGTGGACGCCATCCATGACGCGCGCGGCAAGGCGATCGGCATCGTGATCAATGCCGGAGCCTACACCCACACGTCCGTGGCGATCCGCGACGCGATCTCGGCCGTGCAGCTGCCCGCCGTCGAGGTGCATATCACTAACGTCCATGCCCGCGAGGAGTTCCGGCACCACTCCTATCTTTCCGACATCAGCAAAGCCGTCATCGCCGGCGCCGGAGTCCTGGGTTATCGGTTCGCCGTCGAATACCTGGCAGACCTGAGTTCCGGCAAGGCCTGA	MTDAPSADDAGRRTILVLNGPNLNLLGTREPEKYGTATLADVEQLAKDAGAAAGLDVECFQSNHEGALVDAIHDARGKAIGIVINAGAYTHTSVAIRDAISAVQLPAVEVHITNVHAREEFRHHSYLSDISKAVIAGAGVLGYRFAVEYLADLSSGKA	PGPT0012905_391	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_QUINATE_CATABOLISM,PGPT0012905-aroQ|qutE-K03786	NA	NA
D1-17_00735	783	srlR_1	COG1349	Glucitol operon repressor	ATGCTTCCCGCAGCCCGCCACCAGTCGATCGTGGACGCCGTCCAGCGAGAGCGGGTGGTCCGCGTCTCGGACTTGGCCCAGCAACTGGGCGTGTCCGCCATGACCGTGCGCCGGGATATCGAACTCCTCGAGGAGAGCGGCCGGGTGGAGCGCATTCACGGCGGCGCGAAGCTTCCCGGTGATGCCAGCACCCATGAGCCCGGCTTTGAACTGAAGTCAACCCAGCTGACAGCCGAGAAGCGGGCCATCGCCGTGGAAGCGGCCACCCTCGTGCACGAAGGCATGGCCGTGGCGCTCAGCGCAGGGACCACCACGTGGGCCCTGGCGAAAGAACTCGTGAACGGGCCGCGCATCACCGTGGTGACCAATTCCATCCGCATCGCCGACCTCTTCCATCACGGCTCCTCCTCCGGTTCGGGACGGCAGCCCTCCACTGTGATCCTCATCGGCGGTGAACGGACGCCGTCGGACGCCCTGGTGGGACCCATCGCCACAGCAGCCCTCAAGCAGCTCAACCTGGACCTGCTCTTCCTCGGCGTGCACGGCATGGACGCCGAAGCGGGTTTCACCACACCGAACCTGCTGGAGGCTGAGACAGACCGTGCCTTCGTGGCTGCCGCGCGCAAGGTGGTGGTCCTGGCAGACCACACAAAGTGGGGCACCCAGGGCATCAGCACCATCGTGGACCTTGACGAGGCCGACGAGGTGATCAGCGACTCCGGACTCTCCGGTGACGCGCAGCGGATCCTGCGGGACAGGGTGAGCCGGCTCCGGCTCGTCTAA	MLPAARHQSIVDAVQRERVVRVSDLAQQLGVSAMTVRRDIELLEESGRVERIHGGAKLPGDASTHEPGFELKSTQLTAEKRAIAVEAATLVHEGMAVALSAGTTTWALAKELVNGPRITVVTNSIRIADLFHHGSSSGSGRQPSTVILIGGERTPSDALVGPIATAALKQLNLDLLFLGVHGMDAEAGFTTPNLLEAETDRAFVAAARKVVVLADHTKWGTQGISTIVDLDEADEVISDSGLSGDAQRILRDRVSRLRLV	PGPT0017590_229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
D1-17_00736	2028	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGTCCCAGGACACCCCCGGCTCGACGGCCACCGCCGCCGCCACCACCCAGCAGGGCGATGCTCTTGAAAACCTGCTGCATGAGAACCGTAAGTTTGCACCGTCCGCAGAATTCGCCGCGAACGCCGTCGTTGGCGCCGAGATCTATGCAGAGGCCGAGGCTGACCGGCCGGCGTTTTGGGCCAAACAGGCCCGCGAACTGCTCACCTGGAGCAAGGACTTCACCGAAACCCTCGACTGGACGGACCCGCCGTTCGCGAAATGGTTTGTCGGCGGGGAGGTCAACGCGGCCTACAACGCGCTGGACCGGCACGTGGAGAACGGCCTCGGGGACCGGGTCGCGATCTACTTCGAGGGCGAACCCGGTGATTACCGCACCTACACCTACGCCCAGCTCACCGAGGAAGTGAAGCAGGCCGCGAACGCCTTCGAATCCCTGGGCGTGGCCAAGGGCGACCGTGTTGCCGTGTACCTGCCGATGATCCCCGAAGCCGTGATCACGCTGCTCGCCTGCGCCCGGATCGGCGCCGTGCACTCCGTCGTGTTCGGCGGCTTCTCCGCTGACGCGCTGCGCTCGCGCATCGATGACGCCGAAGCCACGCTCGTCGTCACCGCCGACGGCACCTACCGCCGCGGCAAGCCCAGCGCCCTGAAACCGGCCGTGGACCAGGCGCTCTCCGCTGCCGGGCACACGGTGCAGAACGTCGTGGTGGTCAAGCGCAACGGCGAACCGGTGGACTGGACCGAGGGCCGGGACCACTGGTGGGAGGACACCGTCGGCGCCGCGTCCACCGAGCACAGCCCGGTGGGCCACGATTCCGAGCACCCGCTGTTCATCCTGTACACCTCCGGCACCACCGGTAAGCCCAAGGGCATCCTGCACACCACCGGCGGCTACCTCACCCAAACCGCGTTCACCCACAAGGCAGTCTTCGACCTGCACCCCGAAACGGACGTGTACTGGTGCACGGCCGACGTCGGATGGGTCACCGGCCACTCCTACGTCGCCTACGCGCCGCTGATCAACGGCGCCACCCAGGTCATGTACGAAGGCACCCCGGACTCCCCCCACCAGGGCCGCTGGTGGGAGATCGTGGAGAAGTACAAGGTCTCCATCCTCTACACCGCGCCCACCGCGATCCGGACCTTCATGAAGTGGGGCCGTTCCATCCCGGACGGGTACGACCTGTCCTCCATCCGGGTGCTGGGCTCCGTGGGTGAACCCATCAACCCCGAGGCGTGGATGTGGTACCGCGAGGTCATCGGCGCCAACGCCGGCAAGAACGGTGAAAAGAAGGAACACCCCGCCCCGATCGTGGACACCTGGTGGCAAACCGAAACCGGCGCGCAGATGATCGCCCCGCTGCCCGGCGTCACGGCCACCAAGCCCGGCTCCGCCCAGGTGCCCCTGCCCGGCATTGCCGTGGACGTCGTGGACGAGAACGGCGCCCCGGTCCCGAACGGGCACGGCGGGTTCCTGGTGATCCGCGAACCCTGGCCAGCCATGCTCCGCGGCATCTGGGGCGACCCCGAACGCTTCAAGGACACCTACTGGTCCCGGTTCGAAACCATGTACTTCGCCGGGGACGGGGCCAAAAAGGACGAAGACGGCGACATCTGGCTCCTGGGCCGGGTCGATGACGTCATGAACGTCTCAGGCCACCGCCTCTCCACCACCGAGATCGAATCCGCCCTGGTCTCCCACCCCGCCGTGGCCGAAGCCGCCGTCGTGGGCGCCACAGACGAAACCACCGGCCAGGCCGTCGTGGCGTTCGTCATCCTCCGCGGCGACGCCGTGGATTCCGGGGACGCAATCGTCCAGGAACTGCGCAACCACGTCGGCCGCGAAATCGGCCCGATCGCCAAACCCAAAACCGTCCTCGTGGTCCCGGAACTGCCCAAGACCCGCTCCGGCAAAATCATGCGCCGCCTCCTCAAAGACGTCGCCGAAGGCCGCGAAGCAGGCGACGCCACCACCCTGTCGGACAACACCGTCATGGCACAAATCGCGGCTTCCCTAAAGAAATAA	MSQDTPGSTATAAATTQQGDALENLLHENRKFAPSAEFAANAVVGAEIYAEAEADRPAFWAKQARELLTWSKDFTETLDWTDPPFAKWFVGGEVNAAYNALDRHVENGLGDRVAIYFEGEPGDYRTYTYAQLTEEVKQAANAFESLGVAKGDRVAVYLPMIPEAVITLLACARIGAVHSVVFGGFSADALRSRIDDAEATLVVTADGTYRRGKPSALKPAVDQALSAAGHTVQNVVVVKRNGEPVDWTEGRDHWWEDTVGAASTEHSPVGHDSEHPLFILYTSGTTGKPKGILHTTGGYLTQTAFTHKAVFDLHPETDVYWCTADVGWVTGHSYVAYAPLINGATQVMYEGTPDSPHQGRWWEIVEKYKVSILYTAPTAIRTFMKWGRSIPDGYDLSSIRVLGSVGEPINPEAWMWYREVIGANAGKNGEKKEHPAPIVDTWWQTETGAQMIAPLPGVTATKPGSAQVPLPGIAVDVVDENGAPVPNGHGGFLVIREPWPAMLRGIWGDPERFKDTYWSRFETMYFAGDGAKKDEDGDIWLLGRVDDVMNVSGHRLSTTEIESALVSHPAVAEAAVVGATDETTGQAVVAFVILRGDAVDSGDAIVQELRNHVGREIGPIAKPKTVLVVPELPKTRSGKIMRRLLKDVAEGREAGDATTLSDNTVMAQIAASLKK	PGPT0002265_1034	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-17_00737	1509			hypothetical protein	ATGAATCAGCAAAGCGACCAGCGGGGTCTTGACCAGCGGGGTCATGCTCAGCCGGGCCTTGACCAGCAGGGCCCGGCCAAACGGGATCCGGGTCATCAGGCCTCTGCCGCGCAGGGGCCATCCCATGCCGGAGGAGCGGCACTTGAGGATGCGCCTCGCAACGAGTCTCAAGGTGCCCCCCAAGGGCCGGCTCAGGGTGCCGGTAACGGCGCCCACGCAGTGAAGCCGGAAGGTGCGGACTCTGCTGCAGCGGTTGCGCAGCATTCGGTCTCCACCCCGGGCAAGGGCACGGGCGTCAAGAACGAGGCCGTCGTGGGTCCGTTCACCGTCCGTGACGTGACGGTCTTTGCGGCCACGCTGGTTCTCTTCGTGGCGTCCCTGATACCAATGTTTGCCCTCCGGTACAACCTGTGGAACCTGGGCAACCTGTTCTTCCTTGGGATAGGAATCGTCCTGCCGCTCGTCGTGTCGGCGCTGTTCGCAGCCCGCCGCCTGGCGCCGGAGACGAAAGTGCGTATTGGTTCGCTGTCAGTTGACCAGTTCGCCTCCGTGGTGGCCTCTTTCGCCGTCGCCTTCTTCTTCCTGTCCGCCGCTGTGGGATTCACCCCGGTGGCGCTGGTGGCCCTGATCGGTTCACTGGTGCTGCTCGCGGCCACTGTGCTGGCCCGCTTCATCCCGTTCTTCGCCGGAGACTTCCTGGACCGGGCCGAAGTGCCCGCCCATGTCATGGCCCGTGAGTCCGCCGTCCCGGTCCGCAAACCGAAGCCGGCAAAGGTGCCGAAGCCGGCAAAACCGTCTGCTGGAAAGCCCGCTGCGCAGGGACCGACGGCGGGCGGCCAGTACGCTCCCGGCCAGGCTTTTGATGCGCAAGCTTCCACCGGCCAGGCTTACGGTTCGCAGACGCCCGGCGGGCGGCCAGTCGGCAGCTCCGCGGTGGCCGCTACCGCTGGTGCAGCAGGAACTGCGGCGCCGACAGGGAACTGGCCGGGGACGAACACCGCCGACACCTCGCCTGCGACTGAAGCGGCCGCCGTCGTGCCTTCAGCTGCAGAAGCCGCCGGTGCCGGACACGGAACGCCGGCGGACGTGGAAACCCCCGCTGCTGAAGCGACCCAGCTAAACGGTGTTGCCGTCGCCGGTACCGCAGCACCCGCCGCAACGGCCACACACGCTGATGAGGCAGGGGCGGCCGCCGCCACCCCGGCCACGGCTGTACATCCGCAGGTGCAGGCACACCAGCCCGTGAAATCTCAAGAGCCGATCGGCGCCACCGTGGACCCCGCAAGCCGTCCCGAGGAACCGGAGCAGCAGCCCGTTCACGAGGCATTCTGGTTCGCCGTGGCGCAGCACCGCGTTGCTGTGGATGAGCGCACCGGGGCTCCGCTGTTCGGGATCGAGCCCGGCGGCTGGGTGCTGGCCCTCGAAGACCGAGGCGACGAGTTCCTGGTCCAGCACACGGACGGCCGGGTGGGTGTCCTGCGCGACCTCAGCAACATCGAGCGTGGCTAG	MNQQSDQRGLDQRGHAQPGLDQQGPAKRDPGHQASAAQGPSHAGGAALEDAPRNESQGAPQGPAQGAGNGAHAVKPEGADSAAAVAQHSVSTPGKGTGVKNEAVVGPFTVRDVTVFAATLVLFVASLIPMFALRYNLWNLGNLFFLGIGIVLPLVVSALFAARRLAPETKVRIGSLSVDQFASVVASFAVAFFFLSAAVGFTPVALVALIGSLVLLAATVLARFIPFFAGDFLDRAEVPAHVMARESAVPVRKPKPAKVPKPAKPSAGKPAAQGPTAGGQYAPGQAFDAQASTGQAYGSQTPGGRPVGSSAVAATAGAAGTAAPTGNWPGTNTADTSPATEAAAVVPSAAEAAGAGHGTPADVETPAAEATQLNGVAVAGTAAPAATATHADEAGAAAATPATAVHPQVQAHQPVKSQEPIGATVDPASRPEEPEQQPVHEAFWFAVAQHRVAVDERTGAPLFGIEPGGWVLALEDRGDEFLVQHTDGRVGVLRDLSNIERG				NA	NA	NA	NA	NA
D1-17_00738	852	pdg		Ultraviolet N-glycosylase/AP lyase	ATGGCGCCGGCGGCCCCTCGCCGAAAGGGGACGCCAGCCGCAGAGGGTTCCGCCGGCGCAGGGTGGATTTCCGGCGAATCGGCGCTGGCTTTGAAGCGGCGGGCGCGGCGGATCAACCGGGCACTCGCGGAGCAGTACCCGTACGCCCACGCCGAGTTGGACTTCAGGAACCCCTTCGAGCTGCTGGTAGCCACCGTGCTCTCGGCCCAGACCACGGACGTGACGGTGAACCTGATCACGCCGCTGCTCTTCGCCCGTTACCCGGACGCGCGCAGTATGGCGGAGGCCGACTCTGCTGAGCTCGAGGCAATCATCAAACCGACGGGCTTCTTCAGGGCGAAGGCAAGAAACCTGATGGCACTGGCCACCCGGCTGGTGGATGAGTTTGATGGAGTGGTTCCCAGCAGGCTTGAGGATCTGGTGACCCTTCCCGGTGTCGGACGAAAAACCGCCAACGTCGTGCTGGGGAATGCGTTCGGTGTCCCCGGCATCACCGTAGACACGCACTTCGGCCGCCTTGCGCGGCGTTTCGGCTGGACCGACTCTGATGACCCGGTGCGGATCGAATCGGACGTCGCCGAACTCTTCGAGCCGCGGGACTGGACCATGCTGTCCCACCGTGTGGTATTCCATGGCCGCAGGGTCTGCCACTCCCGGAAGCCGGCATGCGGCGCCTGTGCCGTGGCGAACTGGTGCCCCAGCTTCGGCCTGGGTGAAACCAATCCGGCAAAAGCCTCGAAACTCCTCAAATACGAATTGGCGCCGGGAAACGAGGAGCTCCTCAGTAAGCTCCTCGCGGAGACCCACCGGGCAGCGGAAATCCGAATGGAATCCCAGCGGAGGTCCCCGTGA	MAPAAPRRKGTPAAEGSAGAGWISGESALALKRRARRINRALAEQYPYAHAELDFRNPFELLVATVLSAQTTDVTVNLITPLLFARYPDARSMAEADSAELEAIIKPTGFFRAKARNLMALATRLVDEFDGVVPSRLEDLVTLPGVGRKTANVVLGNAFGVPGITVDTHFGRLARRFGWTDSDDPVRIESDVAELFEPRDWTMLSHRVVFHGRRVCHSRKPACGACAVANWCPSFGLGETNPAKASKLLKYELAPGNEELLSKLLAETHRAAEIRMESQRRSP	PGPT0013735_904	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
D1-17_00739	678	nudL		putative Nudix hydrolase NudL	GTGACGGCACGCCAGGACCTGCTGGACCTGGTGAGTGCCATCAGCGCCGGCGTCGGACCGCCCCGGAACCCCTACTGGCAAAAACTGACAGTCGACCCGTCACTGGCACGGAAAGCTGCAGTGCTGATCCTCTTCGGCACACTCGATGACGTTCCGGCTGCGTCGGGCAAGCCGCTGGCCCCGGCCGATCTGGACGTCCTCCTGCTGGAACGGGCGCACACCCTCGACGACCATCCCGGACAAGTGGCTTTCCCCGGAGGTGGCATCGACCCCGACGAATCTCCCATCGCAGCGGCCCTCCGCGAGGCCCACGAGGAGACAGGGGTGAACCCTGCAGGGGTGGACGTGCTCGGCGAGCTGCCGGAGCTGGCACTGCCGCGCGGCAATTACCTTGTCACGCCGGTCCTTGGCTGGTGGGCCTCGCCGTCCCCGGTCCGCGTGGTGGATTATGCCGAGTCAGCCCAGGTCTTCCGCGTCCCCGTCCGGGACCTGCTGGACCCGGAAAACCGTGCCATGGCCACAGCCACCAGGATGAACCAGACGTTCCAAAGCCCCGCGTTCATGGTAAACGGCGTCGTGGTGTGGGGCTTTACCGGCATGATCCTGAATGAACTTTTTGACCAGCTGGGCTGGTCGGTGCCTTGGGACCGGAGCCGGCTGCACCCGGTGAAGGTGTAA	MTARQDLLDLVSAISAGVGPPRNPYWQKLTVDPSLARKAAVLILFGTLDDVPAASGKPLAPADLDVLLLERAHTLDDHPGQVAFPGGGIDPDESPIAAALREAHEETGVNPAGVDVLGELPELALPRGNYLVTPVLGWWASPSPVRVVDYAESAQVFRVPVRDLLDPENRAMATATRMNQTFQSPAFMVNGVVVWGFTGMILNELFDQLGWSVPWDRSRLHPVKV				NA	NA	NA	NA	NA
D1-17_00740	192			hypothetical protein	GTGGCGGGCAAGTTTGAAGTACACCAGGACGACGAAAAGTTTTACAAGTTCCGGCTCAAAGACGGAGACGGCAACGTGGTGGCAGTGTCACCGCGGTTCAAGAGTCTTTCCGGCGTAGTGGACGGCATCAACGCAATGCGGGAAAGCGCAGCCACGGGCCTTGTTGTGGATCTGCGGGAACACCAGCGCTAG	MAGKFEVHQDDEKFYKFRLKDGDGNVVAVSPRFKSLSGVVDGINAMRESAATGLVVDLREHQR				NA	NA	NA	NA	NA
D1-17_00741	1734			hypothetical protein	ATGTTTCTGTTGCTGGCCGCCCATCCCGACGGCGCCGTCCTGCAGGAACTCACCCCCGAGGGCCTGCCCAGCCCCCGCAACCCGAATCCGCGCATCATCCTCCGGACAGCAGCGTCCAACAGCGCAAGTGCACTTCCCGCCGTCGTACGCGAGCTCGAAAACAGGCGGCCGCGCTGGATCTGGCACCGCACACATGACTGGTATCCAGCACTGCTGGAGGCGGGCGTCGAGCTGGAGCGGTGCTATGACCTCCAGCTCTGTGGCGCGATCCTGGCCCACTCTGAATTCATCGCCCACACGCCTTATGCGCAATATGCGCAATATGCTGAAAAGCTGACGCAGGACGACGAACTCCAGCCGCCGCGGATGCTGCAGCCCCCACCGCCGGCAGCAGAGCAGGGAGCGCTTTTCGACAGTCCCGAGCGCAGGGCCCAGCCGCGCCACACGATTGACGAACTGCGCGCAGAATACGCCGCCCAGCAGGAGGCGCTGGCCGGGGCTGGCCTCGACGGCAACCGCCGGCAGCGCCTCCAGTTGCTCCTGGCTGCGGAGAGCGCCGCGGCCATGATCGCGGTCGAAATGCAGCGAGCCGGCGTGCCCTGGCGTGAAGAACTGCACGAACAGATCCTCGTCGACAACCTGGGCCCCCGCCCGCCTGCAGGCCACCGTCCTGCGAAACTGGAGGAGCTCAACGCCGAAATTCGACGGCTGCTGAACGCACCGGCCCTTAACCCTGACTCCCCCCAGGAGCTCATGCGGGCCCTGCACCGGAACGGCATCGAGGTGAAGTCGACACGGAAGTGGGAGCTCAGGGAGTCCAGCCATCCTGCCATCGAGCCGCTGCTGGCCTACAAGCAACTGTCACGTCTGCACACGGCCAACGGCTGGGCGTGGCTGGACGCATGGGTAAGGAACGGCCGGTTCCGGCCGGAGTACGTGGTGGGCGGCGTCGTGTCGGGCAGGTGGGCGTCGCGCGGCGGGGGCGCGCTGCAGATCCCCCGGCAAATCCGGGCCGCAGTCCACGCAGACCCCGGCCACAAACTGATCGTGGCGGACGCGTCGCAGCTGGAGCCGCGCGTGCTTGTGGCGCTCGCGCAGGATTCCGTCATGGCCGAGGCCGCCCGGGACCAGGACCTTTACGCAAGCATCGCGGCCCGGGGATTCGGGGGTGACCGGGCTAAGGCCAAGATGGCGCTTCTGGGCGCTATGTACGGCGCCACTGCAGGGGAAGCGGGACGGTTGATGCCTCAGCTGGCACGCACCTATCCGCGCGCCGTGGACTTCGTGGGAAAGGCGGCACGGGCGGGTGAGGCCGGCAAAACGGTGACGTCTCGGCTCGGCCGCAGCAGCCCACCGCCCTCCGAAAGGTGGTTCCGCAGCCAACAGACCAGCACCGCAGAAGAACAGCGCCGTGCGGACTCGATCGCCCGCTCCCGGGGCCGCTTCACGCGCAACTTCGTCGTGCAGGGCTCGGCGGCAGACTGGGCGGCCTGCTGGCTAGCTGAACTGCGACGGCGGTTGCGCGGCATGCGTGCCGACGGGGCACCTTCCGGCGAGCTCGTGTTCTTCCTGCATGACGAAGTCATGGTGCACGCCCCGGATGACGCCGTGAACAACTGCATCCGCGCCATCGAGGACGCCGCAGCAGCAGCCAAGGAGCTCCTGTTCGGCCGGATTCCGGTCGAGTTCCCGGTGAGTGTGGCAGTGGTGGACTCGTACGATAACGCCAAGTGA	MFLLLAAHPDGAVLQELTPEGLPSPRNPNPRIILRTAASNSASALPAVVRELENRRPRWIWHRTHDWYPALLEAGVELERCYDLQLCGAILAHSEFIAHTPYAQYAQYAEKLTQDDELQPPRMLQPPPPAAEQGALFDSPERRAQPRHTIDELRAEYAAQQEALAGAGLDGNRRQRLQLLLAAESAAAMIAVEMQRAGVPWREELHEQILVDNLGPRPPAGHRPAKLEELNAEIRRLLNAPALNPDSPQELMRALHRNGIEVKSTRKWELRESSHPAIEPLLAYKQLSRLHTANGWAWLDAWVRNGRFRPEYVVGGVVSGRWASRGGGALQIPRQIRAAVHADPGHKLIVADASQLEPRVLVALAQDSVMAEAARDQDLYASIAARGFGGDRAKAKMALLGAMYGATAGEAGRLMPQLARTYPRAVDFVGKAARAGEAGKTVTSRLGRSSPPPSERWFRSQQTSTAEEQRRADSIARSRGRFTRNFVVQGSAADWAACWLAELRRRLRGMRADGAPSGELVFFLHDEVMVHAPDDAVNNCIRAIEDAAAAAKELLFGRIPVEFPVSVAVVDSYDNAK				NA	NA	NA	NA	NA
D1-17_00742	1461			hypothetical protein	GTGCCCGTCGTAGCTAGTTTTCGCCAGAGTTGGCCCATGAGCAGGCATCATGCACGGAACCCGGATACTGCGTCTGTACAGGACACCCCGGAACAGGACACGCCCGACCCCGAGACCTCGCGTCAGGAGACGGCAGGACTGGGCAGCTCAGGCCTGGGCACTCCAGACCAGGGCTCCACGGCCTCCGGTGTGCCCCCGGGGGCATGGCGTCCCGCCGACGGGAACCCGGACGACGCGGCACCCAAGCTGAGACGGGGCTCTGGTGCGGCCTCTGCGCGGACCGTTGTTGGCGGCGCCACTCCATCGATGGCTCCTGGCGCTGGGGCCGCTGCTGGCCGGGCGGCGGCCTGGCGTTCCTCGTCTCGACCATCCCCAGAGCCTGGGCCGCGGGCATGGCTGCCGGTCGAAGCCGATGAAGTGCTACTGGTGACGGGACTTGAGTTTCTGCAGGGCGAGGTTGAGCGCATCGTGGCAGCCGCGGGCGGGTTGCTTCGGGTTGTGGCTGACGTCTCGGAGGCCGCGCCCTTTTGGGACTCGGCCGCTGCGGTCCTGGTGGGAAGCGACATCCGCGAGCTGCCGCCGCGACGGCGTGCCCCTGCTGTTTTGGTAGGTCTTAGCGGGGAAGGAGACAGCCTGTGGCATCTGGGTGCGGCCATTGGGGCGCAGCGGGTAGCCGTTCTTCCTGATGCCGCAGCTTGGCTGGCGGAGTTCCTCAGCCGCTCGCGCTCGCCGGAGGCGGGCGGAGTCGTGCTCGGCGTTACGGGAGGCTGCGGCGGAGCGGGAGCCACCACTGCAGCGATCTGGATCAGCCAGGCAGCCGCGTGCCTCGGCGTGCGGGTACTGCTCGTGGATGCCGATCCTTGGGGCGGCGGGGTGGAGCTTGCCCTGGCCGCCGAGGAATCGCCGGGGTTGCGCTGGCCAGATCTCGCCGACGCCAGGGGCAGCATTGACCCCGGCCAGCTCGCCGATGCCCTGCCTGTGGCCGGGGGATTCTCATTTTTGTCCTGGCCAGGAAGCAGGGAACGGCCAGCCCCGGTCGACGCGTCCACGGTGGCCGGCGTCCTCGATGCCGCCAGACGGGGCTTTGAACTTGTCGTCGTGGACATCGGACGGAACGCCGAACCTTTGGGTACCTTTGCCTGGGACTGCGACCGGCTGCTCATGGTTGTCCCGGCACAGCTGAAGGCAGCCGTCGCATCAGCCCGCCTCCTTCAGGAGCTGCCGCCAGTAGACGCCGCCCTGGTCATCCGGGGCAAAGCAGGAGCCGCCCTGGACGGGACCCTGATCGCGGAATCGGTCGGACTGTCTCTGCACGCCATCATGCCGGAGATCAGGGGTACGGCAGGCGCTACCGAACTGGGCCGTCTGCTGGAGCACGGCCGGCGCAGGAGTGTGCGACGCTTTGCCGCGGTCGTATTGGAGCTGCTCGACGGCGAACTGCTGTCCAGGGAGGCGCAGTGA	MPVVASFRQSWPMSRHHARNPDTASVQDTPEQDTPDPETSRQETAGLGSSGLGTPDQGSTASGVPPGAWRPADGNPDDAAPKLRRGSGAASARTVVGGATPSMAPGAGAAAGRAAAWRSSSRPSPEPGPRAWLPVEADEVLLVTGLEFLQGEVERIVAAAGGLLRVVADVSEAAPFWDSAAAVLVGSDIRELPPRRRAPAVLVGLSGEGDSLWHLGAAIGAQRVAVLPDAAAWLAEFLSRSRSPEAGGVVLGVTGGCGGAGATTAAIWISQAAACLGVRVLLVDADPWGGGVELALAAEESPGLRWPDLADARGSIDPGQLADALPVAGGFSFLSWPGSRERPAPVDASTVAGVLDAARRGFELVVVDIGRNAEPLGTFAWDCDRLLMVVPAQLKAAVASARLLQELPPVDAALVIRGKAGAALDGTLIAESVGLSLHAIMPEIRGTAGATELGRLLEHGRRRSVRRFAAVVLELLDGELLSREAQ				NA	NA	NA	NA	NA
D1-17_00743	1293			hypothetical protein	GTGAAGCCGCCTTCCAGCTCCTCCGCTTCCGGTTCCCTGCTTGGCCAGAGGCAGGCGGCGGCGAGACCGGCCTTTCCTCAAGGTGCCGGCAGGCGGCGTGCGGTAAGAGGGCTCGATGCAGGATTGCTCGAGACAGTGCGGGAATCTGTTATGGCCGAGGCCGGACCCGTGACGCCATCGCGTGTTGCGGCGGCGGTGCAGGCGACAGGCAAACTGCTCGGTACCGCCGGCTCCCTCGCCGCTGTTGAGCGCATCAGCGCTGAGCTGAACGGACTCGGACCGCTGCAGCAGCTTGTCAGCGATCCATCCGTCACGGACATCTTCGTCAACGCTCCCGATTCCGTGTGGCTTGATCGCGGACGCGGGATCGAACGGGCGCCGGTGTACTTTGCCGGGGAGGCTCAGCTCCGTGCCCTCGCATCCAGGCTTGTGGCAGCGGGGGGACGGCGCCTCGATGACGGCTCGCCCTGCGTAGACGTGCGGCTCGACGGCGGCTACAGGGTCCACGCCGTGCTTCCACCTATATCAACGGCAGGCACGCTCCTTAGCATCCGCATCCACCGTGAGCAGGTCTTCTCCATGGAAGAACTGAGTCGCGGCGGGATGTTTGGGCCTCTTGTCCAGGCAGTACTGGAACGGGTGGTGGAACATCGGCTGAGCTTCCTGATCAGCGGGGCCACAGGGTCCGGAAAGACCACATTGCTGTCCACCCTGCTGGGTCTGTGCCATCCAGGGGAACGGCTGGTCCTCATTGAGGATGCCTCGGAGCTGAACCCCGTGCACCCGCACGTCGTCGCGCTGGAGTCCCGGCACGGCAACCTGGAAGGAGGGGGCGCGGTGGATCTGGGTGAGCTCGTACGCCAGGCGCTCAGAATGCGTCCGGACCGGCTCATCGTGGGGGAGTGCCGAGGTGCAGAAGTACGTGAACTACTGACAGCCATGAACACAGGGCACACTGGCGGCGGCGGAACCATCCACGCCAACGCGGCCAGCGCCGTCCCGGCCCGCCTCACTGCGCTGGGAGCGCTGGCGGGGCTGGGACAGGATGCCGTGCAGCTGCAGGTTGCCAGTGCGCTGGATGTCATCATTCATGTCGCGAGATCGCGGCAGGGACGGCAGGTGGACTGCATCGGGGTGCTGCAGCATGCTGACGGAAACCTCCTGGTTGCCACAGCGCTCGAGACCGTGGGCGGGCGGCTCATCATGGGTCCTGCTTGGGGGCCACTCGCGTCGCGGCTTGGTATTCCTCCCGGGCAGGCCATGCCCGGGGACTTTGGCGGAGCAGCGGCATGA	MKPPSSSSASGSLLGQRQAAARPAFPQGAGRRRAVRGLDAGLLETVRESVMAEAGPVTPSRVAAAVQATGKLLGTAGSLAAVERISAELNGLGPLQQLVSDPSVTDIFVNAPDSVWLDRGRGIERAPVYFAGEAQLRALASRLVAAGGRRLDDGSPCVDVRLDGGYRVHAVLPPISTAGTLLSIRIHREQVFSMEELSRGGMFGPLVQAVLERVVEHRLSFLISGATGSGKTTLLSTLLGLCHPGERLVLIEDASELNPVHPHVVALESRHGNLEGGGAVDLGELVRQALRMRPDRLIVGECRGAEVRELLTAMNTGHTGGGGTIHANAASAVPARLTALGALAGLGQDAVQLQVASALDVIIHVARSRQGRQVDCIGVLQHADGNLLVATALETVGGRLIMGPAWGPLASRLGIPPGQAMPGDFGGAAA	PGPT0016025_2201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-17_00744	870			hypothetical protein	ATGAGCGCTGTTCTCGTGACCGTCCTGATCCTGGCTGTGTGGCTGGTCCTGCGGCCACCGCGGGGACTGGGCCGCCGGGTCCGCAAGGCTTTTACAGGAAGCACCGGCCGGCACTCGAAGGCTCATTCCTTCAGAGTGCTGCTGCTCCGCGGCACTGCCTTCAAGGAGCAGCCGGAAGGCAGCGAAACTTTCCGGAACAACCGCCGCAATTTGCGGTCGGGGCACGGACGCGCTTCCCGCCCCAGCAATGGGTTCGTGCCACTCACAGTCGCCGTCCAGCAGCTCGCTGCCCTGCTGAAAGGCGGGCGGGCGCCGTCCCGGTTATGGGACGAGCTGTGGCTGGTCTACGCGGTACCCGACGGGTCCACCGGACAGGAAAGCCCACCTCATGGACAGAGGCTGGGTGCAGCATCGACCGCCATCCTCGCGGCTGCCCGCGGTGCCGCGTTGCGGGGAGCTCCCGTGGCGGAGGCAATACGCCTTGCGGTGCGGACGTCGGGGCTCCCGGCGGACAACGGGGAACCCCGGATCTGGACAGAACTCGCCGCCTGCTTTGAGATAGCAGAAGCCAGTGGCTGTCCGTTGGCTGACGTCCTGGCCAGGTTCGCCGCGCAGTTGGAGGTCGAAGACGATGCCGAGGCAGCCCGCCAGACTGCGCTGGCCGGCCCTAAAGCGACGGTCACCCTCCTCACATGGCTGCCGCTGCTCGGACTGGGGCTCGGGGTCTGCCTCGGGGTGGATCCCTTAGCGATGCTTGTTGGGACTCCGATTGGCATCGCGGCCCTTGTGGCAGGGATTCTGCTGACGGTCAGCGGCCGGATCTGGTCCGCCAGGCTGGTGCGGGCAGCAGCCGGAGCGGCAGTAGCGTGA	MSAVLVTVLILAVWLVLRPPRGLGRRVRKAFTGSTGRHSKAHSFRVLLLRGTAFKEQPEGSETFRNNRRNLRSGHGRASRPSNGFVPLTVAVQQLAALLKGGRAPSRLWDELWLVYAVPDGSTGQESPPHGQRLGAASTAILAAARGAALRGAPVAEAIRLAVRTSGLPADNGEPRIWTELAACFEIAEASGCPLADVLARFAAQLEVEDDAEAARQTALAGPKATVTLLTWLPLLGLGLGVCLGVDPLAMLVGTPIGIAALVAGILLTVSGRIWSARLVRAAAGAAVA	PGPT0022290_2552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-17_00745	615			hypothetical protein	ATGACGGGGCCGCTATCCGCCGCTGTGCTTGTCGGGACACTGCTGGCTATTGCCGCGGTGCTCGCCTTCTCTGAACGGTCACGCGTGAGACGACGATTCCTGGTCAGGGTCCGGCTGTTGCTCGACGCAGGGGCGCCGCCGGACGGCTCGGGCAAGCAGCCCTCCGTCCTGCCGGAGCCAGGTCTGCGTGACCCAGCGATGATGCTTGAACTGGTCGCTGCCATGCTGGAGGCAGGGTCCGGGATCGGCCGCTCCCTGGAGTTGGTCTCCGCGGCCGCATCACCCGATTATCAAAGCTCCCTTAGGCCGGTGGTTGCGGCGCTGACCATCGGAGCCGACTGGGAAACCTCGTGGCGGCGCCCGGAAGGCCACTCTGCCGAGATATTGGCGCTGCGAGATGCCCTCGGATTTGCCGCACTCACTGGTGCGCCGTCGTCCGCGATCCTTTACGCGCAGGCGGCCAGAATGCGGCGGGAACGGTTCCGTTCTGCCGAAAAGCGCGCCGCTGCACTCAGCGTCAAACTTGTCGTCCCCTTGGGTCTTTGCTCCCTTCCGGCCTTCATCTGCCTCGGCGTGGTCCCGGTACTGCTGGCACTCGTGCCCTCCGGGTCCTGA	MTGPLSAAVLVGTLLAIAAVLAFSERSRVRRRFLVRVRLLLDAGAPPDGSGKQPSVLPEPGLRDPAMMLELVAAMLEAGSGIGRSLELVSAAASPDYQSSLRPVVAALTIGADWETSWRRPEGHSAEILALRDALGFAALTGAPSSAILYAQAARMRRERFRSAEKRAAALSVKLVVPLGLCSLPAFICLGVVPVLLALVPSGS				NA	NA	NA	NA	NA
D1-17_00746	285			hypothetical protein	ATGTCCCTGAACCCAAGCAGTTTCGGCGCGACCCAGCATGAGTATGAGGAAAACAGCAAGGCAAACGTGCGGGAAATCTATCCGGGCGCCCGCACAGCACCACGCGTGAAGACGCGCAGCTGGAGGCGCCTGACAGGCTCCCAGGCGGGGATGGCCACGGCAGAATATGCCATCGCTACCTTGGCCGCGGTCGGCTTCGCAGGGATCTTGGTCTTCATCCTGCGCAGTGATGAAGTCCGCGGGTTTCTGCTCAACCTGATCCGCGCGGCGCTGGCCTTGCCATGA	MSLNPSSFGATQHEYEENSKANVREIYPGARTAPRVKTRSWRRLTGSQAGMATAEYAIATLAAVGFAGILVFILRSDEVRGFLLNLIRAALALP				NA	NA	NA	NA	NA
D1-17_00747	468			hypothetical protein	ATGACTCCCTTGCTGCAGACCCGGTCACCCGGAGCGATCAAGAGCCCTGCAGACAGGAGCCGCAGAACTGGCAGCCGCGGCGCAGTTACGGCTGAATTCGCCGTTGCACTGCCGGCAGTCCTGATGCTGCTGGCCATCCTCCTGGCCGGGTCTGCAGCAGGGGTCACGCAGCTCCGGCTGGAGGAAGCGGCGCGTGCCGGTGCCAGGGCACTTGCACGGGGCGAGGATCACGCAGTCGTTGACGGTATCGTCCGGAAGCTGGCCGGCGCCTCTGCATCATCCTTGGTGGCGGCCGACGGCGAGTGGCAGCGGGTCACGGTGTCGGACCGGATGGCCGGATTTTTAGGGAATGTGGTGCCATGGACACTGACCGCTCAGGCCGAGGCGCGAACGGAAACTGCGGAGTCGGCCAACGCTCCGGCGGATCCCCATGGCCCGGCAGCTGTCTGCGCGCGGACAGTCTGCTGA	MTPLLQTRSPGAIKSPADRSRRTGSRGAVTAEFAVALPAVLMLLAILLAGSAAGVTQLRLEEAARAGARALARGEDHAVVDGIVRKLAGASASSLVAADGEWQRVTVSDRMAGFLGNVVPWTLTAQAEARTETAESANAPADPHGPAAVCARTVC				NA	NA	NA	NA	NA
D1-17_00748	375			hypothetical protein	ATGAATAGGCCAGGGAGGTGGGGCTGCCGGCGGACGCGTTCTGAGCGGGGGTCCGGCACCGTCCTGGCAGCAGCCCTCGGCATGGTGCTTATCCTTGCGACGTCCTTCGTGCTTCTGCTGGCACAGTCCGCTGTGCTGGCCTCCCAAACTGCGGCGGCGGCCGACCTGGCTGCCTTGGCGGCGGCTGACGCGCTGCGGGGCGTCTCCGATGGAGATCCGTGCGCTGTTGCCGCTTCCGTCGCGGCCCGTCACAGCGCACGGCTGATCAGCTGTACTGAGGGAGGCGACCAGTCCGTTGAAGTACGTACCCAGTCGAGCACCAGTACTTTCCTCGGAGCGGCCACCGGCCGCGCCCGGGCCGGACCTCCGCCCTAG	MNRPGRWGCRRTRSERGSGTVLAAALGMVLILATSFVLLLAQSAVLASQTAAAADLAALAAADALRGVSDGDPCAVAASVAARHSARLISCTEGGDQSVEVRTQSSTSTFLGAATGRARAGPPP				NA	NA	NA	NA	NA
D1-17_00749	2397			hypothetical protein	GTGAACCCCTATGACTCGCTGATTCCCCTGTTGGGCCGCGGCCCGGATCCGGAGCAGCTGCGGCATGTGCGTACCATCCCGGCGCGCCGGGCGGTGCATGAGCCCTGGCCGCAGTGGGTCCACGCTGACCTGGTGGCGGCCTACGGCAACCTGGGAATACAGCAGCCGTACCGGCACCAGGTTCAGGCTGCCGACATCGCCCACGCCGGCGGCCACGTGGTGGTCGCCACCGGTACGGCCTCCGGAAAATCGCTCGCCTACCAGCTTCCCGCGCTCGATGCGGTCCACCGTTCCGAACTGCGTGTGCTCTCCGAGCCGGGCAAGATTCATGACGGCGGCGCGGTCGCCTTGTATCTCGCACCGACCAAGGCGCTGGCCGCGGACCAGCTGGCGGCCATTCGCTCGCTCAAGCTGCCCACTGTCAGGGCAGAGACCTACGACGGCGACACCGACCAGGCATCGCGGCGCTGGATCCGGGACCATGCCAACGTCATCCTGGCGAACCCCGACATGCTGCACTTTGGAATCCTGCCAAACCATGCGTGGTGGGCCGGTTTCTTCCGCCGTCTGAAGTATGTGATCGTCGATGAGGCGCACACCTACCGCGGGGTTTTCGGCTCGCATGTTGCCAACCTGATGCGCCGGCTTCGGCGCATCTGTGCCTATTACGCAGCGGGCAGCTCCCCGGGCCCGGTGTTCATCGCTGCGTCCGCCACGGCATCCGAACCGGAGGAGTCCTTCGGAAGGCTCATCGGCGCGCCAGTGCAGGCCGTAGCAGAAGATTCCTCACCCCACGGATCCACGACGGTCGCTTTCTGGGAACCTGCCCTGACGGAGGTGCGCGGTGAAAACGGTGCGAAGGAACGGCGGACGGCCGTGGCTGAAACCGCTGACCTGCTGGCCAACCTCGTTTCCTCACAGATCCGCACTATTGCCTTCATCAAGTCGAGGCGCGGCGCTGAAACCATTTCCTCCATCACGAAGCGGTTGCTCGATGAGGTTGACCCGAGCCTGCCCCAGCGGGTTGCCGCCTACCGGTCCGGGTACCTGCCCGAAGAACGCCGTGCGCTGGAGAAGGCCCTCCGCTCTGGGCAGCTGCTTGGCATTTCGAGCACTTCGGCGCTGGAGCTGGGCATCGACATCTCCGGACTGGATGCCGTGCTGGTTGCCGGCTGGCCCGGGACCCGAGCCTCCCTGTTCCAGCAGATCGGCAGGGCCGGCCGGTCCGGGCAGGAGGCAATCGCGGCGTTTGTTGCCAGTGATGACCCTCTCGACACTTACCTGGTGAATCATCCTGAGGCAATCTTCGACGTCTCGGTTGAGGCCACCGTCTTTGACCCTTCGAATCCATATGTTCTCGGGCCGCATCTCTGCGCCGCTGCTGCCGAGCTTCCCCTGGGCATTGGCGAGCTGCCGCTGTTCGGAAGCACCGCCGAGAACCTGCTCGGCCGGCTCGTCGATCGCGGATGTCTGAGGCGCCGGCCTGCCGGCTGGTTCTGGACCCATCCCCAAAATGCTGCCGCCATGGTGAGTCTTCGGGCCGACGGTGGCGGGCCGGTGAGCATAGTGGACGCGGACACGGGGTCGCTTCTCGGGACGATGGACTCCCCGCAGACCCACTATCAGGCACATACAGGTGCGGTGTACGTCCATCAGGGTGACAGCTACGTAGTGGAGGAGCTGAACGAAGACGAACACTGCGTGGTGGTGCGCCGCGCGAATCCGGACTACTACACGACAGCCCGGGACATAACGCAGATCGAGGTGCTGGAGACCGAACGTACCGTGCAGTGGGGTGACGTCGCTGTTCACTTCGGAGATGTGAAGGTAACAACCCAAGTGGTTTCCTTTCAACGCAAAGCCCTGATTTCCAATGAGGTGCTGGGTGAGGAGCCTCTGGACCTAGGAGCGAGGGAGCTGTTCACGAAGGCGGTGTGGTTCGTCGTTGACAACCGCTCCCTCACCGGCGCGGGGCTGATCGAGGCACAGTTCCCCGGCGCCCTTCATGCGGCAGAACATGCAGCGATCGGGCTCCTTCCCCTCGTAGCCTCCAGTGACCGCTGGGACATCGGCGGCGTTTCGACGGCGATTCACGCCGACACCGGAGTGCCCACCATCTTTGTCTATGACGGGCACCCCGGCGGAGCAGGCTTTGCCGAGCGCGGTTTCGAGAAGGCGAAAGTCTGGTTGACGGCAACGCGTGATGCCATCGAGGCCTGCGAGTGCGAGACCGGGTGCCCTTCGTGCGTGCAGTCGCCTAAATGCGGCAACAAAAACAACCCATTGGACAAGGACGCTGCCATCACCTTGATCGACGTTCTGCTGAAGGACGCGATGGACGCAGCCGCTGCGCCCAAGGAGTATGCGGCGAGCGCCGTCGTGCCCAGTGCCCGCTAG	MNPYDSLIPLLGRGPDPEQLRHVRTIPARRAVHEPWPQWVHADLVAAYGNLGIQQPYRHQVQAADIAHAGGHVVVATGTASGKSLAYQLPALDAVHRSELRVLSEPGKIHDGGAVALYLAPTKALAADQLAAIRSLKLPTVRAETYDGDTDQASRRWIRDHANVILANPDMLHFGILPNHAWWAGFFRRLKYVIVDEAHTYRGVFGSHVANLMRRLRRICAYYAAGSSPGPVFIAASATASEPEESFGRLIGAPVQAVAEDSSPHGSTTVAFWEPALTEVRGENGAKERRTAVAETADLLANLVSSQIRTIAFIKSRRGAETISSITKRLLDEVDPSLPQRVAAYRSGYLPEERRALEKALRSGQLLGISSTSALELGIDISGLDAVLVAGWPGTRASLFQQIGRAGRSGQEAIAAFVASDDPLDTYLVNHPEAIFDVSVEATVFDPSNPYVLGPHLCAAAAELPLGIGELPLFGSTAENLLGRLVDRGCLRRRPAGWFWTHPQNAAAMVSLRADGGGPVSIVDADTGSLLGTMDSPQTHYQAHTGAVYVHQGDSYVVEELNEDEHCVVVRRANPDYYTTARDITQIEVLETERTVQWGDVAVHFGDVKVTTQVVSFQRKALISNEVLGEEPLDLGARELFTKAVWFVVDNRSLTGAGLIEAQFPGALHAAEHAAIGLLPLVASSDRWDIGGVSTAIHADTGVPTIFVYDGHPGGAGFAERGFEKAKVWLTATRDAIEACECETGCPSCVQSPKCGNKNNPLDKDAAITLIDVLLKDAMDAAAAPKEYAASAVVPSAR				NA	NA	NA	NA	NA
D1-17_00750	693			hypothetical protein	ATGACGCCAGAAGCCATGGTTGGAGACATCACGCACCTGCTGGAAGTCTGGGTAGCCGGCTGGGCCGGATGCCGAGGCTACGAGACGGGGACTGAGGGACGGTTTCCCGCCGCCCTCCGAGCTGAGTCGACCGGGGAATGGCAGTACTTTGCTTCCGATCCCACTGACTCGGAATTTGCGGACCTGGCAGCCAAGACTGCCGAAGCACCCGCCCGGGTGCTGACCATCCTGACGAACGACGTGGAGCGGTACACCGCTCTGGCGCAACTGCACGGCCTCAACGTCACCTCCGCGTCCCAGAGCATGATGGTGGTGGACATGGAAACCCAGGACGCCGAGGACCCCTGGCTTTCCGATGACGAACTCTCCTTGGAAACGTCCGAGTCCAACGGCGTGCACCATGCTGTTGTCCGGTCCGGGGATACCGTCGCGGCCAGCGGCCAGGTGCTGGTCATCAACGGGACGGCTGTCTTCGACAAGATTGTTACCGAACCGGCGTTCCAGCGACGCGGGCTGGGCAGCTTCATCATGAAGGCCCTGGCGGCCCAGGCATTTGAGCACGACGTGGAGGACGGCCTCTTGCTGGCGTCGCTCGACGGGCAAAAGCTCTATTCACATCTGGGCTGGACCTCGGTATGCCACGTCCTGATGCTCTCCGCTTCGGATGAAGGGTCGGACCTCTCGGTCGCCTGA	MTPEAMVGDITHLLEVWVAGWAGCRGYETGTEGRFPAALRAESTGEWQYFASDPTDSEFADLAAKTAEAPARVLTILTNDVERYTALAQLHGLNVTSASQSMMVVDMETQDAEDPWLSDDELSLETSESNGVHHAVVRSGDTVAASGQVLVINGTAVFDKIVTEPAFQRRGLGSFIMKALAAQAFEHDVEDGLLLASLDGQKLYSHLGWTSVCHVLMLSASDEGSDLSVA				NA	NA	NA	NA	NA
D1-17_00751	876			hypothetical protein	GTGCTTTTTTATGGCTTTACCCCCATCGCCGACCCAGACGCAGTCATGCTCTGGCAGCGTGCCCTCTGTGAGAAGCTCCGGCTGACCGGGCGCATCCTTATCTCCAAAGACGGCATCAACGCCACTGTGGGCGGGGACATCAAAGCGGTCAAGCAGTACGTCAAGACCACCCGGGAATATAAGGGATTCCGTGGCATCGACGTGAAATGGTCGGAGGGCGGAGCGGACGACTTCCCGCGCTTGAGCGTCAAGGTCCGTGACGAGATCGTATCCTTCGGGGCTCCGGGGGAGTTGAAGGTTGACGAAAACGGCGTCGTGGGCGGCGGAAAGCACCTGAAACCCGAGGAACTCCACGAACTCGTTGATGCCAAGAAGGAAAGCGGCCAGGAAGTCGTTTTCTTCGACGGCCGGAACGCCTTCGAGGCGCAGATTGGCAAGTTCAAGGACGCAGTGGTCCCGGACGTCGCCACCACCCACGACTTCATCAAGGAGCTGGAGTCGGGCAAGTACGACGCCCTCAAGGACAAGCCCGTGGTCACGTACTGCACCGGCGGGATCCGCTGTGAAGTGCTCTCCAGCCTCATGGTGAACCGCGGGTTTAAAGAGGTGTACCAACTGGACGGCGGCATCGTCCGCTACGGCGAAACGTTCAAGGACCATGGGCTGTGGGAAGGCTCACTGTACGTCTTCGACAAGCGCATGCACCTCGAATTCAGCGAGGACGCGAAGACCATCGGTGAGTGCGTTCGGTGCGCAGCACCCACGAGCAAGTTCGAAAACTGCTCCAACCCGAGTTGCCGCACCCTAACCCTGTACTGCGGCGAATGCGCAGCCAGCCCGGAGACCTTGCGCTGCCCGGAAAGGTGCGCTGCCTGA	MLFYGFTPIADPDAVMLWQRALCEKLRLTGRILISKDGINATVGGDIKAVKQYVKTTREYKGFRGIDVKWSEGGADDFPRLSVKVRDEIVSFGAPGELKVDENGVVGGGKHLKPEELHELVDAKKESGQEVVFFDGRNAFEAQIGKFKDAVVPDVATTHDFIKELESGKYDALKDKPVVTYCTGGIRCEVLSSLMVNRGFKEVYQLDGGIVRYGETFKDHGLWEGSLYVFDKRMHLEFSEDAKTIGECVRCAAPTSKFENCSNPSCRTLTLYCGECAASPETLRCPERCAA	PGPT0013330_2087	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
D1-17_00752	582			hypothetical protein	ATGCCTTCTGTGCGGATGGTCTCCGTGCATTGCTCCGGGGGGGACTTCTCCAGGCGGGTGCCACCGGTGCGATCCTCGCGGAGCCCGGCAGCCGCCGTCGTACTTTTCCTTATGCTGGCTTCCGGCTCTGCCCTGAGCGGCTGTGAGTACAGCTACGACGACGGGCGCGGCGCCCTTCCCCCCGACAGTGCACCGCCACTGACGGATGCGGCGCTACCGCGCGATACGCGGTTCACCCGCCCCGTGTCAGGTGCTGAGCTCGACGCCTGGGCGCGCGAGGTGCTGCCCGACGCCGAGGGACAGGTGTTCTTGACCGACTACGGCACTGTGGAGGAGGACGAGGAGGAGGTCCTGTCCACATCTCGTCTGCCCAGCGGTACCTACACCCTGACGCTCGCGTGCCGCAGCGAACGGAGAGTTTCGTTTACAGTGCGCGACTCCGAATTCGCGTTGGTGGACTTGAGCCTGCGTTGCGGCACGTCACGGGTGAATGTCGTTCAAGTGGCGAAGGACTCCGTCCTGCAGATCACAGTCGAAGCGCGCAGGGACGCGAACTTCGCGCTGCGTGTAAGCCGCATCTAA	MPSVRMVSVHCSGGDFSRRVPPVRSSRSPAAAVVLFLMLASGSALSGCEYSYDDGRGALPPDSAPPLTDAALPRDTRFTRPVSGAELDAWAREVLPDAEGQVFLTDYGTVEEDEEEVLSTSRLPSGTYTLTLACRSERRVSFTVRDSEFALVDLSLRCGTSRVNVVQVAKDSVLQITVEARRDANFALRVSRI				NA	NA	NA	NA	NA
D1-17_00753	492			hypothetical protein	ATGCCGCGTGTACCCACGGCGCCTCTCGTTCCCACGGCGCTTCGCGTTTCCGCGGTGTTCCGTGGTTCTTCGCTGCTCCGTGTCCTGATGATCGTGACCGCGGGCGCCCTCTTGCTGGTGCTGCCGGCCTGCTCGCCGAGGGTGTCCATTGAAAACGCGGACGTCCCGGCCTGGAAGGCCACGGCCCTGCCTTCTGCCCAAAGTGCAGTTCTTGAGGATGCCGGCAAGATCCTTAACCGGGACAGGATCATCCAGGAAACGGGCTCCATTCCTGCTGGCCGTTACATATTGACGGCCACCTGCGAAGGCGGGGGCAAGGCGTTCTTTGCCGTGTCCGTCGATGGGAATCCGATAGCCGATACCGGGGCCGCCTGCAACGGCAGCCGCGAAATCTCGAAGCTGAATGTACCTAAAGCCGGTGCTCTCGAAATCAGCGCCTCGAGCGTTGACGCACCACTCATATATGCCTATCAACTGGTGCCGGCGAAGTAG	MPRVPTAPLVPTALRVSAVFRGSSLLRVLMIVTAGALLLVLPACSPRVSIENADVPAWKATALPSAQSAVLEDAGKILNRDRIIQETGSIPAGRYILTATCEGGGKAFFAVSVDGNPIADTGAACNGSREISKLNVPKAGALEISASSVDAPLIYAYQLVPAK				NA	NA	NA	NA	NA
D1-17_00754	609			hypothetical protein	ATGTTGGACACCAAAGCAGCGGCGCTTACTCCGGATGGCTCTGGCCCGGAGTGGCTGCAGTACGTCGCGGCCTTCGCTCCCCTCAGCACCCTGCTGGCGGCTTTGATCGCGGGCTGGATTGCGTGGCGGACGCTGGCCCAACGGCGGGAAGCAGACCGCCGGGACCAGTGGTGGCAGCGGACGCAGTGGGCCATCGGCCTGGCAATGGACCCTGATTTCAGCCGGGCCGTCGTGGGCCTGATTGCGCTTAGGCACTTGGCGGCAAGCGACCTGTGCACGGCAGAGGACTACGAGATGCTTGACAAGATCGGGGGCGCGAAAATCGATGCACTCACGCTCTCCGAGGAGAGCGCAGAGCGACGGAGACAACCAGGCCGGGCGGGGCACGCCGCGGCTGGGAATGGCGGAGCCGGAGCCGGGCAGGTCGGGGCGGAGAACCGCGAAGGGCAGGCCGGGGCGGGGCAGGCCCCGTCCGCCCGCGCCGACCTTATCCCCGTCGACCTGAAGTCCCGTGGCGAGAGGGTGTTCGTTGGTTCTCCGAAGATGGCGAACGCCCTAGAAGAGGCAGACAACCTGGTCTCTTTCGCGGCAGCCCGACGCAGCCGCTGA	MLDTKAAALTPDGSGPEWLQYVAAFAPLSTLLAALIAGWIAWRTLAQRREADRRDQWWQRTQWAIGLAMDPDFSRAVVGLIALRHLAASDLCTAEDYEMLDKIGGAKIDALTLSEESAERRRQPGRAGHAAAGNGGAGAGQVGAENREGQAGAGQAPSARADLIPVDLKSRGERVFVGSPKMANALEEADNLVSFAAARRSR				NA	NA	NA	NA	NA
D1-17_00755	1683	prmC_1		Release factor glutamine methyltransferase	ATGCTCTTTACTGCCGGCAACACTCCCGATGCACCACGCAGCGACCTCCCGGACCTCCTGCACTCCCTGGCTGCAGACCTGCGGGAGGTGGGCTACACCGTTGACGGCGTTGCCGCGCTGCTGGGGCCGTCGGCATTCGCGGCGCTGGACCGTGACCAGCTCATCCCCGCATTGATCGTCACTGAAGGAGCCGCCCAGGGTGAGGCGCGGGCGGCGGCGCTCGCCGCCGTCGTGCGCTTCTGGCTGCTGGCTGTCCCGCAGGACCCGGCGGTGCTTGACGCCGCCCTGCCGCGCACCCGGACGCAAGGGCTTATGGACCTTGGCCTCGCGGAGCCCGCGGAGCCCGCGGAAGCAGGGCAGCGGGCGGAAGCAGCGGAGCCCGCGGAAGCAGGGAGGGAGTTGATCAGGGCCGCGGCCGACCTGCGGCCGTACGGATGGAAGGGGGCTGCAGGGGAGGATGCCACCGGCAGCGACGGCGTGGAACTGTGGGTGGCCAGCGACCTCGCGGCACACCAGCGACCCGGCGTCCTCCGGCGCGACCATGTCCTGGGTATCGGGCAGGCCTCCACCACGCTGGTGCAGACCACCATCCGGCGCCATGCCAAAAGGGCTCTGGATCTGGGGACCGGCTGCGGCATCCAGACCTTCCACTTGCTGCACCACAGCGATCACGTCACAGCCACCGATATCTCCGAACGGGCGCTGGCGTTCACGCGCTTCAATGTCCTGCTCAACGCCGAGGCGCTGCAGGTTGACCCGGCGCGGCCCGCGGACCGCGTGGCCCTCAGGCTCGGCTCCCTGCTGGAGCCCGTAGCCGGAGAGAAGTTCGACCTCGTGGTGTCCAACCCACCCTTCGTCATTACACCGCGGAGCGCCGGAGAGGCGGCCGGAGACCAATTCACCTACCGTGACGGCGGCCTGCCAGGCGATGGCATCGTGGCCACCCTGGTGCAGTCCCTGCCCGACGTGCTGGCTCCGGGCGGCACAGCCCAGATGCTGGGCAACTGGGAGATCACCGCGGGGCTGTCATGGGAGGAGCGGCCGCAGCGCTGGGTCCGGGAGGACACCGATGCCTGGTTCATCCAGCGCGAACAGGTGGGGCCCGAACAGTACGCCGAAACGTGGCTGCAGGATGCCTCAGAGAACAGGGACCGCCGGCATTATCAGGAGGCCTACTCCGCGTACCTCGGCGATTTCGCTTCCCGGAACGTGGACGGGATCGGTTTCGGGATGATCTGGCTGCGGCGGCCCGACGCCGGTACACGCCGGGTCTACAGGTTCGAGGAGATCACGTACCCGATCGAGCAGCCGGTGGGCCCGCATTTGGATGCCGCCGTTGACCGGGCGGACTGGCTGGCCGCGAACGATCTGTCCGCGGCGCATCTCGTCGTGGCCGATGACGTCACGGAGGAGCGCCATCAGCGGCCCGGGGCGGAACATCCCGGCGTGATCCTGCTGCGGCAGGGTGCCAGTCTTCGCCGCACCAACCTCCTGAGCACCGAACTGGCCGGGTTTGTCTCGGCGTGCGACGGTGACCTCTCTGCCGGGCAGATTATCGGGGCCTTGGAGTCCCTCCTTGGAGGCTATGAGGACTTCGACGGCATTGCCTTCCGCAGCGCCCTGCTCAGCGATATTGCCAATCTGGTCCGGGACGGATTCCTCCTGCCGGCCCCGCAGGATTGA	MLFTAGNTPDAPRSDLPDLLHSLAADLREVGYTVDGVAALLGPSAFAALDRDQLIPALIVTEGAAQGEARAAALAAVVRFWLLAVPQDPAVLDAALPRTRTQGLMDLGLAEPAEPAEAGQRAEAAEPAEAGRELIRAAADLRPYGWKGAAGEDATGSDGVELWVASDLAAHQRPGVLRRDHVLGIGQASTTLVQTTIRRHAKRALDLGTGCGIQTFHLLHHSDHVTATDISERALAFTRFNVLLNAEALQVDPARPADRVALRLGSLLEPVAGEKFDLVVSNPPFVITPRSAGEAAGDQFTYRDGGLPGDGIVATLVQSLPDVLAPGGTAQMLGNWEITAGLSWEERPQRWVREDTDAWFIQREQVGPEQYAETWLQDASENRDRRHYQEAYSAYLGDFASRNVDGIGFGMIWLRRPDAGTRRVYRFEEITYPIEQPVGPHLDAAVDRADWLAANDLSAAHLVVADDVTEERHQRPGAEHPGVILLRQGASLRRTNLLSTELAGFVSACDGDLSAGQIIGALESLLGGYEDFDGIAFRSALLSDIANLVRDGFLLPAPQD				NA	NA	NA	NA	NA
D1-17_00756	2742	topA	COG0550	DNA topoisomerase 1	GTGCCAAGCAAGGCCAAAACCGGCAAGAAACTCGTGATTGTGGAGTCTCCGGCCAAGAGCAAGACCATCGCCAAGTATCTGGGCGAGGGCTTCATTGTCGAGGCCTCCATTGGTCACATCCGGGACCTGCCGCAGCCTTCAGAGCTCCCCGCGGAACTGAAGAAGACCTCGGTGGGCAAGTTCGCCGTCGACGTGGAAAATGACTTCAAGCCGTACTACGTCGTGTCCCCGGACAAGAAGAAAAAGGTCGCCGAACTCAAGGCCCAGCTCAAGGACGCCGACGCCCTCTATCTCGCAACCGATGGGGACCGCGAGGGCGAGGCCATCGCGTGGCACCTCCTGGAGGTCCTCAAGCCGAAGGTTCCCGTGTACCGCATGACCTTCGGTGAAATCACCAAGGAGGCCATCCACCGGGCCATGGACAACCTGCGCGATGTCGACGCCGCGCTCGTGGATGCCCAGGAGACGCGCCGCATCCTCGACCGCCTCTACGGCTACGAGATCTCCCCTGTGCTGTGGCGGAAGGTTGCACGCGGGCTCTCCGCAGGGCGTGTGCAGTCTGTGGTCACACGCATGGTGGTGGACCGCGAACGCGAACGCATGGCGTTCAAGGCGGCTTCCTACTGGGACCTGACCGGCCAGTTCGGTGCCGAAGCGGGTTCTGCTTCGTTCAAAGCCAAGCTCGCCGCGCTGGACAACGCCAAGGTGGCCAGCGGCCGGGACTTTAACGACGACGGCGTACTCACCGCACGCAACGCCGTGCACCTTAATGAGGAACTGGCCACGTCGCTGGCAGCAGGGCTGGAAGGCGCGGACTTCCGCGTCCGGTCCGTTGACACCAAGCCGTACACCCGCCGCCCTGCCGCTCCGTTCACCACGTCAACACTGCAGCAGGAGGCCGGGCGCAAGCTCCGCTTCTCGTCCAAGAGCACCATGCAGATCGCCCAGCGCCTGTATGAAAACGGCTACATCACCTACATGCGTACCGACTCCTCCGCGCTAAGCGATGAAGCCATCACGGCTGCACGCCGCCAGGCATCTGAGCTCTATGGCCCGGAGTACGTTCCGCAGTCCCCGCGCGTCTACTCGAACAAGGCAGCCAACGCCCAGGAAGCCCACGAGGCCATCCGTCCCGCCGGTGACTCCTTCCGCACACCGGCCCAGGTTGCTTCACAGCTCAGCGGCGACGAATTCAGGCTCTACGAACTGATTTGGAAGCGCACCGTCGCCTCCCAGATGGGCGATGCCAAGGGCTCCACCGCCACCATCCGCCTCGGTGCAGTGGCGGTTAGCGGCCCGGCCCAAGGCCGCGACGCCGAATTCTCGGCCTCCGGCACTGTCATCACCTTCCCCGGCTTCCTCGCAGCCTACGAGGAAGGCAAGGACGAAACCCGCGGTGACGAGGACTCCGAGGAAGCACGGCGCCTGCCGAACGTGGCCAAGGGCGACTCGCTGTCCGCCTCCGACATTGTTGCCGTCGGGCACGAGACATCCCCGCCACCGCGCTACACCGAAGCCTCCCTCACGGCCGAGCTGGAAAAGAAAGGCATCGGGCGCCCGTCCACCTACGCCTCCACGATTTCCACCATCCAGGACCGCGGCTACGTGCGGAAGCAGGGCTCAGCCCTGGTACCCAGCTGGATCGCCTTTTCCGTGGTCCGGCTGCTGGAGCAGCACTTCCACGACTACGTCGACTACGAGTTCACGGCCGACATGGAAGGCGACCTGGACAAGATCGCCAATGGCCAGGCCGTGGGTGCTGCCTGGCTCAAGCACTTCTACTATGGGGAAGACACCGATCCGGGCCTGCTCAGCATCGTGAACAACCTCGGTGAGATCGACGCGCGCGAAATCAACTCGGTGCCCATCGCCGAGGGCATCACCCTGCGCGTGGGCAAGTTCGGGCCGTACCTCGAGAGCTCTGTCCCCACCGTGGATCCGAAAACCGGCGAAGTGGTGGAGTCTGCCCGCGCCAATGTCCCCGAAGATCTCGCCCCTGATGAGCTCACCGCCGAGAAGGCCGTGGAGCTGATGGAAACCGCGGCGCCCGAGGAACGGGTGCTCGGCACTGATCCCCACACCGGCCACACCATTGTGGCCAAGAACGGCCGCTACGGCGCCTACGTCACCGAGATCATCCCGGAGATGACCGAGGAACAGCTCGCCAACCTGCCCGTGGAGTACTACAAGAACGGCAAACCGAAGCCGCCGAAGAAGCCCGTCAAGGCCAAGCCGCGCACCGGATCGCTGTTCAAGTCCATGTCGGTGGAGACCATAACCCTCGACGAGGCGCTCGCTCTCATGAGCCTGCCGCGGGTGCTCGGCCAGGACGCCGAGGGTAACGTCATCACCGTCCAGAACGGCCGCTTCGGTCCCTATCTGAAGAAGGGAACGGACTCGCGGTCCATCGGTTCGGAAGAGGAAATCTTCACGATTACGCTGGAACAGGCTCTGGAAATCTACTCGCAGCCGAAGCAGCGCGGCGCCCGCGCAGCCGTACCCCCGCTGGCCGAGTTCGGACCGGACCCGGTGTCCGAAAAGAACATCGTCGTGAAGGAAGGCCGCTTCGGTCCATACATCACGGACGGCGTCACCAACATCACGGTGCCGCGGAGCACTTCACTGGAGGAACTGACGCGGGAACAGGCCGTCGAACTCCTGGCCGAGAAGCGCGCCAAGGGACCAGTCAAACGCACCACCACCCGCAAGGCGCCGGCAAAGAAGGCAGCGGCGAAGAAGTAA	MPSKAKTGKKLVIVESPAKSKTIAKYLGEGFIVEASIGHIRDLPQPSELPAELKKTSVGKFAVDVENDFKPYYVVSPDKKKKVAELKAQLKDADALYLATDGDREGEAIAWHLLEVLKPKVPVYRMTFGEITKEAIHRAMDNLRDVDAALVDAQETRRILDRLYGYEISPVLWRKVARGLSAGRVQSVVTRMVVDRERERMAFKAASYWDLTGQFGAEAGSASFKAKLAALDNAKVASGRDFNDDGVLTARNAVHLNEELATSLAAGLEGADFRVRSVDTKPYTRRPAAPFTTSTLQQEAGRKLRFSSKSTMQIAQRLYENGYITYMRTDSSALSDEAITAARRQASELYGPEYVPQSPRVYSNKAANAQEAHEAIRPAGDSFRTPAQVASQLSGDEFRLYELIWKRTVASQMGDAKGSTATIRLGAVAVSGPAQGRDAEFSASGTVITFPGFLAAYEEGKDETRGDEDSEEARRLPNVAKGDSLSASDIVAVGHETSPPPRYTEASLTAELEKKGIGRPSTYASTISTIQDRGYVRKQGSALVPSWIAFSVVRLLEQHFHDYVDYEFTADMEGDLDKIANGQAVGAAWLKHFYYGEDTDPGLLSIVNNLGEIDAREINSVPIAEGITLRVGKFGPYLESSVPTVDPKTGEVVESARANVPEDLAPDELTAEKAVELMETAAPEERVLGTDPHTGHTIVAKNGRYGAYVTEIIPEMTEEQLANLPVEYYKNGKPKPPKKPVKAKPRTGSLFKSMSVETITLDEALALMSLPRVLGQDAEGNVITVQNGRFGPYLKKGTDSRSIGSEEEIFTITLEQALEIYSQPKQRGARAAVPPLAEFGPDPVSEKNIVVKEGRFGPYITDGVTNITVPRSTSLEELTREQAVELLAEKRAKGPVKRTTTRKAPAKKAAAKK				NA	NA	NA	NA	NA
D1-17_00757	450			hypothetical protein	ATGACTGAACAGACCGGACCCGCAGACACGACGCCGCTGAACGACCTCGAAGAGAAGCTGGCTCAGGGGGGTCAGCCGGACGCCGATCCGGTGGACGTCATCCTGTCCTTCCTGAACAACGAGGTTTACATCATCAGCGCCGACGCCCTGGAAGGCGAGGACTCCCAGGTCGAGCCGTTGGTGCTCGGGAACGAAGATGGGCAGCCTGTCCTGGCCGTTTTCTCTCACCCCAGCCGTGTCGACCCGGAGTACCTCGAGGCCGCGCCGAACGTGCTCGGAACGCAGGGGGCAGCCATCATCGCCAACATTGGCGACGAACTCGGGATGGTCATCAACCCCGGGGCAGCCTACGGGTTCGAAATCAACCCCGAGGGCATTGCGAACATCAGGCGCGATTTCAAGCGTGCTGATGACACCGACGCGAACCCGGCTGGCCTCGAAGGCGAGTAG	MTEQTGPADTTPLNDLEEKLAQGGQPDADPVDVILSFLNNEVYIISADALEGEDSQVEPLVLGNEDGQPVLAVFSHPSRVDPEYLEAAPNVLGTQGAAIIANIGDELGMVINPGAAYGFEINPEGIANIRRDFKRADDTDANPAGLEGE				NA	NA	NA	NA	NA
D1-17_00758	990	ppx1	COG0248	Exopolyphosphatase 1	ATGCGGCTAGGCGTCCTCGATATCGGATCCAACACTGTCCACCTTCTCCTCGTGGACGCCCACCCCGGTGCGCGTCCTGTGCCTTTCGCCTCGCACAAGCGGCCGTTGTCGCTTGTGCAGTATCTCGACGGCGACGGCAACATCAGCGATGCAGGCCAGCATGAGCTGACCGAGTTCGTCCTTGAGGCGTGGGAGTTCGCCGCGAGGCACAAGGCGGAGGACCTCCTGGCCTTCTGTACCTCTGCCATCCGCGAGGCCACTAACGGGCCGGCTGTGCTCGCCCGGGTGAAGCACGAAACAACGGTTACCCTTGAGGAGCTGACAGGCAGCGAGGAAGCGTCCATGACGTTCTTCGCGGTCCGCCGCTGGTACGGCTGGGGTGCGGGCCCGATCCTGAATCTGGACATCGGCGGTGGTTCCTTCGAGATGGCCACAGGCCAGGACGAGCTCCCGGAGCTTGCTACCTCCGTACCGCTCGGCGCCAGCCGCCTCACACGCGACTGGCTGAAGGAGGACCCTCCCTCCGCCAAGAGTGTGAAGGAGCTGCGGAGTTATATTCGTGACACACTCAAGCCCGTGGTCCGGAGCTTCGATGCCATCGGAAGGGCGAACCTCGTTGCCGGAACGTCCAAAACCTTCCGCTCGCTGGCACGGATTGGCGGTGCGGCCCCCAGTGCAGCCGGTCCCTACGTTAAACGCGAGCTGCACGCCACGGACCTGGGGATCTGGGCCCAGCGCCTAACAGCGATGAAGAGCGAGGACCGGCTGCATCTTCCCGGCGTCTCCGAAGCCCGCGCCAACCAGCTCCTCGCGGGCGCGCTGGTCGCAGAAGCGGCCCTGGAGCTGTTCGCCTTCAAGAAAATCAAGATTTGCCCTTGGGCCCTGCGCGAGGGCCTCATCCTGCGCCGTCTCGACCAGCTGGTCTTTGACGGGCCCTTGGAGCCCGCTCCGCATATTGGAATCCAGACGCAGCCCCTGACTGCCGGCTGA	MRLGVLDIGSNTVHLLLVDAHPGARPVPFASHKRPLSLVQYLDGDGNISDAGQHELTEFVLEAWEFAARHKAEDLLAFCTSAIREATNGPAVLARVKHETTVTLEELTGSEEASMTFFAVRRWYGWGAGPILNLDIGGGSFEMATGQDELPELATSVPLGASRLTRDWLKEDPPSAKSVKELRSYIRDTLKPVVRSFDAIGRANLVAGTSKTFRSLARIGGAAPSAAGPYVKRELHATDLGIWAQRLTAMKSEDRLHLPGVSEARANQLLAGALVAEAALELFAFKKIKICPWALREGLILRRLDQLVFDGPLEPAPHIGIQTQPLTAG	PGPT0002595_4060	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
D1-17_00759	783	proC	COG0345	Pyrroline-5-carboxylate reductase	ATGAGCGGCCTCCTCGACGCCGGCACTGACCCCATGGACGTGGTGGCCACAGTGCGCCGGGCAGAGCGCGCCGCCGAGCTGGCCGAGCGCCATCATGGCATAACAGCCATCGCAGGTGTGGAGGAGCCCGACAACAACAAGCAGGCCGCGAAGGGGTCCAGCGTGGTCATCCTTGGAGTGAAGCCCGTGGGCATCACCGAGCTGGCGCGCGAAATCAGCGGTTCGATCGCCCCAGACACCATCGTCATCAGCGTGGCTGCAGCCGTTTCCATCGCCCAGCTGGAGGCCGCCCTGCCGGAGGGTCAGCCGGTAATCCGGACCATGCCAAATACTCCCGCGAAGCTGGGCCGCGGCGTCGTCTCCGTCTCCGCAGGCACGCACTGCTCGCCGGAGCAGCTCCAGCGGGCGAAGGACATTCTCGCAGCGGTGGGAACCGTCGTCGAGATCCCCGAAGAGCAGGTCGACGCCCTCGGCGCCATCAGCGGGTCAGGCCCGGCGTACGCGTTCTATCTCGCTGAAGCGATGGCTGCTGCCGGTGTCGAACTTGGCCTCGATGAGGAGCTTGCCCTTCTGCTCGCCCGCGAGACCGTGGCCGGCGCCGGACTCATGCTCGCCGAGCCCGGAGCCAACCCCACTGCCCTGCGCAAGGCAGTGACCAGCCCCAACGGCACCACCGAACGCGCGATCGCGACCTTTGATGATCGCGGCATGCCTGCGATCATCACCGCCGGAGCTCGCGCCGCCGCCGACCGGGCAGCAGAGTTGACCAAGCAGCTCGGCTGA	MSGLLDAGTDPMDVVATVRRAERAAELAERHHGITAIAGVEEPDNNKQAAKGSSVVILGVKPVGITELAREISGSIAPDTIVISVAAAVSIAQLEAALPEGQPVIRTMPNTPAKLGRGVVSVSAGTHCSPEQLQRAKDILAAVGTVVEIPEEQVDALGAISGSGPAYAFYLAEAMAAAGVELGLDEELALLLARETVAGAGLMLAEPGANPTALRKAVTSPNGTTERAIATFDDRGMPAIITAGARAAADRAAELTKQLG	PGPT0014225_1617	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
D1-17_00760	687	ktrA_1	COG0569	Ktr system potassium uptake protein A	TTGGCTAGTTCCTCAAGCGCCCAAAACCGCCCCGCCCACAATGCTCCCGTACTGGTGGTCGGACTGGGTCGCTTCGGTTCAGCGACTGCTGAACAGCTCGTCAAGCAGGGACGCGAAGTGCTGGCCATCGAGCGGGACCGGAGCCTCGTGCAGAAATGGGCTGCCACCCTCACGCACGTCGTTGAGGCGGACGCCACCAACATCGACGCTCTCCGCCAGCTCGGGGCGCAGGAGTTCAGCTCCGCGGTCGTTGGTGTTGGCACGTCCATCGAATCTTCCGTGCTGATCACCGTGAACCTCGTGGACCTGGGCATCGAGCACCTGTGGGTCAAGGCCATCACCCCGTCCCACGGCAAAATTCTCACCCGCATCGGCGCCAACCATGTCATCTATCCGGAAGCGGACGCCGGTGTCCGGGCCGCCCACCTGGTGTCCGGGCGCATGCTGGACTTCATCGAGTTCGACGACGACTTCGCCATCGTCAAGATGTACCCGCCGCGTGAGACTGTGGGCTTCACCCTGGACGAATCAAAGGTGCGTTCCAAGTACGGCGTGACCATTGTGGGAGTGAAGTCCCCGGGCGAGGACTTTACCTACGCCCGCCCGGAGACCAAGGTGTCTTCCCGCGACATGCTGATTGTGTCGGGGCACGTGGACCTGCTGGAGCGCTTCGCGGCCCGGCCCTAA	MASSSSAQNRPAHNAPVLVVGLGRFGSATAEQLVKQGREVLAIERDRSLVQKWAATLTHVVEADATNIDALRQLGAQEFSSAVVGVGTSIESSVLITVNLVDLGIEHLWVKAITPSHGKILTRIGANHVIYPEADAGVRAAHLVSGRMLDFIEFDDDFAIVKMYPPRETVGFTLDESKVRSKYGVTIVGVKSPGEDFTYARPETKVSSRDMLIVSGHVDLLERFAARP	PGPT0002710_2633	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-17_00761	1434	ktrB_1	COG0168	Ktr system potassium uptake protein B	ATGACGCAGAGCCAGTCGAGGTCAAAGAGCCCGGCGAGCTGGCATCCCAACGTGCCGGAGCGTGAAGGCCTCGGGATTTTCACCCGACTCCGGGACTTCGTCGATGATATCGCCAACACCTCGCCTGCACGCCTGGCCTTGTCCGCCTTCGCCTCTGTTTGCTTGGTCTTCACCGCGCTGCTCACTCTGCCGGCAGCATCAGCCAGTGGCGAACCGACTCCGCTCCACCAGGCCATGTTCACCGCAGTTTCTGCCGTCTGCGTCACGGGGCTCACCGTTGTCACCACTGCCACTCATTGGTCCTTCCTCGGCCAGTTAATTATCCTCATAGGCATTTTTGTGGGTGGCCTCGGGACTCTGACGCTGGCGTCTCTGCTGGCGCTGATGGTGAGTAAACGGCTCGGAGTTCGCGGGAAGATCATTGCAGCGCAGTCAATGAACACTGCGGGACGCCTCGGCGAAGTAGGCACTCTCCTCCGCATCGTGATCACTACCTCCGTAGTGATTGAGGGTGTCTTGGCCCTGATCCTGATTCCGCGTTTCCTCGTATTGGGTGAGAGCTTCTGGAGCGCCGTCTGGCACGGCTTGTTTTACGCCATCTCCGCTTTCAACAACGCAGGGTTTACCGCACATGCCGAGGGCATCCTTCCGTTTGAGAACGACCTCTGGATCCTCGTTCCCATCATGGTCGGTGTCTTCCTGGGCAGTCTCGGCTTTCCGGTAGTCATGGTCCTGCTGCAGAACGGGCTGAACTGGAAGAAATGGAACCTGCACACCAAGCTGACCATCGAGGTCTCCCTCATCCTGTTGGCTGCGGGCACCCTGCTGTGGGCCATCATGGAGTGGGACAACGCCAGGACCATTGGGACCCTAAGTTTCAGTGACAAGGTCTTCCATTCACTTTTTGCGTCAGTTCAGGTCCGTTCCGGAGGCTTCAACCTGGTCGACCAGAACCAGATGGAGTCCACCACCATGCTGTTGACGGATGCCCTCATGTTCGCCGGCGGCGGTTCCGCATCAACGGCCGGCGGCATCAAGGTGACCACCATCGCCGTCATGTTCCTGGCCATTGCGGCCGAGGCGCGTGGAGATGCAGATGTGAAGGTCCACGGGCGTACCATTCCAGAGGGAGCCATGCGAGTGGCTATTTCCGTGATTGTGGCGGGAGCTACCCTGGTCTCGGTTGGGTCCTTCCTCCTTCTGTCCATAAGCGGTGAGTCTTTGGACAGGGTGCTCTTCGAAGCAATTTCAGCTTTCGCTACTTGTGGCTTAAGCACCAACCTCAGCGCCGAGGTAGCACCAGCCGGAGCGTACGTGCTGACAGCCCTCATGTTTATGGGGCGTGTCGGCACGGTCACCCTCGCCGCTGCCCTTGCCTTGCGCCAGCGCAGGCAGCTGTACCACTATCCGGAAGAGAGGCCCATCATTGGCTAG	MTQSQSRSKSPASWHPNVPEREGLGIFTRLRDFVDDIANTSPARLALSAFASVCLVFTALLTLPAASASGEPTPLHQAMFTAVSAVCVTGLTVVTTATHWSFLGQLIILIGIFVGGLGTLTLASLLALMVSKRLGVRGKIIAAQSMNTAGRLGEVGTLLRIVITTSVVIEGVLALILIPRFLVLGESFWSAVWHGLFYAISAFNNAGFTAHAEGILPFENDLWILVPIMVGVFLGSLGFPVVMVLLQNGLNWKKWNLHTKLTIEVSLILLAAGTLLWAIMEWDNARTIGTLSFSDKVFHSLFASVQVRSGGFNLVDQNQMESTTMLLTDALMFAGGGSASTAGGIKVTTIAVMFLAIAAEARGDADVKVHGRTIPEGAMRVAISVIVAGATLVSVGSFLLLSISGESLDRVLFEAISAFATCGLSTNLSAEVAPAGAYVLTALMFMGRVGTVTLAAALALRQRRQLYHYPEERPIIG	PGPT0002735_2978	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
D1-17_00762	1149	acuC		Acetoin utilization protein AcuC	ATGACCGCATACAACTTCGGTCCTGGGCACCCGATGGCGCCCCAGCGGCTGGACCTCACCGAGCGGTTGGCCCGCAGCCTGGGTCTGCTGGACCTGGGGCACGTCACCGTAGCGGCGCCCGAAGTCGCGGGCGACGACGAGCTGACTTCCGTCCACAGCCCCGAGTTCGTGGCGGCCGTCCGCCGGGTCAGTGAAGATCCGCTGGTCCCTGACGAAGCCCACGGACTGGGCACAGAGGACGACCCTGCCTTCGAGGGCATGCATGAGGCGGCCGCCCGCCTTGCCGGCGGCTCCCTGCTCGCGGCGAACTCCATCCTGGACGGCTCCGCCCTGCGGGCCGTGAACTTCGGCGGCGGCCTGCATCATGCCTCGCGGGACCGTGCCAGCGGCTTCTGCATCTACAACGATGCAGCGCTGGGAATTCAGAGGCTCCTCGACGGCGGTGTGCAGCGTGTGGCATATGTCGACGTCGACGCGCATCACGGTGACGGGACACAGAGCATTTTCTGGAACGACCCCCGGGTGCTCACCATCTCGCTGCATGAGAGCGGATTGACACTGTTTCCCGGCAGCGGATTCGCCAACGAGACCGGCGGTCCGGATGCCCCGGGCAGCGCCGTCAACGTCGCATTGCCCGCCGGTACGGGCGACGCCGGCTGGCTGCGTGCCTTCCACGCCGTGGTCCCGCAGTTGGTAGGCGCGTTCGAACCGGAGGTGATCGTGAGCCAGCACGGCTGCGACTCCCACCGGCAGGATCCGCTGACCCACCTCAACGTCAGCGTGGACGGCCAACGCGAGGCTGCCACCGCCGTCGGGAATCTCGCCGCCCGTCACTGTGACAACCGATGGATTGCGACGGGGGGCGGGGGGTACCACATCACGGGGGTGGTGCCGCGGGCATGGAGCCACCTTATTGCCATCGCGGCCGGCCGGCCCGTGCCCCTGCGCACTCCTGTCCCCGAGGCGTGGCGGGCCCACGTGCACGAGCGCTACGGCGTGGCTGCGCCAGCACTCATGGGCGACGGCGCTGATGTCTGGTGGCGCTCGTGGGAGGTCGGCTTCGACCCCAACGACGCCGTCGACCGGACAGTGATGGCCACACGCAAGGAAGTCTTTCCGGTGTACGGCCTCGACCCCTGGTTCGATTGA	MTAYNFGPGHPMAPQRLDLTERLARSLGLLDLGHVTVAAPEVAGDDELTSVHSPEFVAAVRRVSEDPLVPDEAHGLGTEDDPAFEGMHEAAARLAGGSLLAANSILDGSALRAVNFGGGLHHASRDRASGFCIYNDAALGIQRLLDGGVQRVAYVDVDAHHGDGTQSIFWNDPRVLTISLHESGLTLFPGSGFANETGGPDAPGSAVNVALPAGTGDAGWLRAFHAVVPQLVGAFEPEVIVSQHGCDSHRQDPLTHLNVSVDGQREAATAVGNLAARHCDNRWIATGGGGYHITGVVPRAWSHLIAIAAGRPVPLRTPVPEAWRAHVHERYGVAAPALMGDGADVWWRSWEVGFDPNDAVDRTVMATRKEVFPVYGLDPWFD	PGPT0008225_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008225-acuC-K04768	NA	NA
D1-17_00763	636			hypothetical protein	ATGGTGACAGACGACGTATTCGCCGTCATTGCTGAGGCAACGCGGCGTGACATTCTCGTGTCCCTCCAAAAGGGGGACAAAGCGGTGGGGGAGCTGGTCGAGGAGCTCGCCGCCAGTCAGCCCACCATCTCAAAGCACCTGAAGGTGCTCCGTGAAGCCGACCTCGTGAGCATGCGCGCGCAGGGACAGAAGCGCTACTACGCGCTGAACACCAAGCCGCTGGAAGGTGTCGCCAGCTGGCTGGGGACGTTCGACGTCGGAGGTTCGGCTGCCGCTGCCTCGCCGGACTCGTCCGAGATGCCCGCTGGCGACGAGCAGCAGCGAACCGATGCGCGGCACCAGGTGGGAACACCTGCCCGCGCCGGGGCTGCTGCGTCGGGGACGGCGGCCTCCCGCGCCGCTGGGACGGGACTGCCGGAAGCGTTTGCCGCTGCCGGCTCTGCGGGCCCAGGTGACACCGGGCGTTCCATCGGCGGGGAGCTGAGTCCCGCCGTCGTGGTTCCCGGCGGGCAAGTTTCAGGAAACCCGGCGCAGGACGGCACTGTTCCCCAGCAGATCGGCCGCACAGTGGGGCGCGGCGCGAAGAAAGCGGCCGACCTGCTGGCCAATCTGCCAAAGTTCGGCCGCAAGAAGTAG	MVTDDVFAVIAEATRRDILVSLQKGDKAVGELVEELAASQPTISKHLKVLREADLVSMRAQGQKRYYALNTKPLEGVASWLGTFDVGGSAAAASPDSSEMPAGDEQQRTDARHQVGTPARAGAAASGTAASRAAGTGLPEAFAAAGSAGPGDTGRSIGGELSPAVVVPGGQVSGNPAQDGTVPQQIGRTVGRGAKKAADLLANLPKFGRKK				NA	NA	NA	NA	NA
D1-17_00764	1332	lldD	COG1304	Putative L-lactate dehydrogenase	ATGACGCAAACTATCGAGTCGACCAACCCAGAGGTACCCACCACGCCCGAGGACGCCGCCCCGGCCGGCCGCGAGCCCCGTACTCCAGCAACCTCCGGGGTGCCGTCGGCGCTGAAGCGCCGGATTCCCAAATACTCCGACCTGGCCCCCCTGATGCAGTTCAAGAAGCCTGAGTTCAGCCGGGCCGCCAAGCTGCAGCGTGCCAGCACCATTTGGGAGTTGCGGGACATGGCTAAGCGCCGGACGCCGCAGGCACCGTTTGACTACACGGACGGCGCGGCGGAGTCTGAGATTACCCTGCGGCGCGCCCGTGAAGCCTTCCTGGACATCGAGTTCCGGCCCGGCATCCTTCGCAATGTTTCCAGCGTGGACCTGGGCACGGACATTCTGGGCAAGCCGTCCCGGCTTCCGGTCGGCATCGCGCCCACTGGCTTCACCCGCATGATGCAGTCCGAGGGCGAATACGCCGGCTCCCAGGCCGCTGAAGCGGCCGGAATCCCCTACACGCTCTCCACTATGGGCACCGCGTCCATCGAGGATGTTGCCGAGGCTGCACCCCACGGCCGGAACTGGTTCCAGCTCTACCTGTGGACCGACCGGGAGCGCTCCCTGGAGCTGATTGAGCGGGCTGCGAGGGCCGGCAATGACACCCTCATGGTCACCGTGGACACCGCCGTGGCCGGCGCCCGCCTCCGCGACGTGCGGAACGGCATGACCATCCCGCCGGCACTGACGCTGAAGACCGTCCTGGACGCCTCATACCGGCCTGCCTGGTGGTTCAACTTCCTTACCCATGAGCCGCTGACCTTCGCGTCGCTCTCCCGCTACACCGGCACGGTGGCGGACCTGATCAACTCCATGTTCGATCCCACCCTGACTTTCGAGGACCTCGACTGGCTCCGCGAGACCTGGCAGGGCAAGCTCGTGGTCAAGGGAATCCAGACCGTGGAGGACGCCCGCAAGGTGGTGGACCACGGCGCCGACGGAGTGGTCCTCTCCAACCACGGCGGACGCCAGCTGGACCGCGCGCCAATCCCGTTCCACCTGCTCCCGGAGGTAAAGCAGGCGTTCCAGGCTGACAACACCGATGCCGCCATCATGCTGGACACCGGCATCATGAGCGGGGCAGACATTATCGCTGCCCTGGCTCTTGGCGCGGACTTCACCCTGATCGGCAGGGCCTACCTCTACGGACTCATGGCCGGTGGCCGCGCCGGCGTGGACAGGGCCCTGCAGATCCTCGAGAAGGACATGGCGCGGACCATGGCGCTGCTAGGCGTGAGCAAGCTCTCCGAGCTGACGCCGGACCACGTGCGGATCCTCAAGAAGTAG	MTQTIESTNPEVPTTPEDAAPAGREPRTPATSGVPSALKRRIPKYSDLAPLMQFKKPEFSRAAKLQRASTIWELRDMAKRRTPQAPFDYTDGAAESEITLRRAREAFLDIEFRPGILRNVSSVDLGTDILGKPSRLPVGIAPTGFTRMMQSEGEYAGSQAAEAAGIPYTLSTMGTASIEDVAEAAPHGRNWFQLYLWTDRERSLELIERAARAGNDTLMVTVDTAVAGARLRDVRNGMTIPPALTLKTVLDASYRPAWWFNFLTHEPLTFASLSRYTGTVADLINSMFDPTLTFEDLDWLRETWQGKLVVKGIQTVEDARKVVDHGADGVVLSNHGGRQLDRAPIPFHLLPEVKQAFQADNTDAAIMLDTGIMSGADIIAALALGADFTLIGRAYLYGLMAGGRAGVDRALQILEKDMARTMALLGVSKLSELTPDHVRILKK	PGPT0001765_334	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
D1-17_00765	978	kdgK		2-dehydro-3-deoxygluconokinase	ATGAACACCACACTCGGCGCTGGACAGAGCCAGACCACCGACGTTGTCACCTTCGGGGAGACCATGGCCTTGTTCAAAGCCGACACGCCGGGCCCCCTGTCACACGTCCCCGGTTTGAGTTTGGGAATCGGAGGGGCAGAGAGCAACGTGGCCGTGGCTCTGCAGCGCCTCGGCACTTCCGTCACCTGGCTTGGACGCGTCGGGGCCGATAGCCTGGGAGATCTGGTCGTACGCGAACTGAGGGCAGAAGGGATTACCGTCGCCCCTATTCGCGATTCTGCTGCGCCCACTGGTTTGATGGTCAAAGAACGCCGCACCGCCGACGCCGTCAAGGTCTGGTACTACCGCTCAGCCAGTGCGGGGTCCCGTCTGCACCCAGACGATATCCCCTCAGACCTCATAGCGCGCTCACGACTGCTCCACGTCACAGGGATAACCCCCGCACTCTCAAGCTCGGCGGCCGACGCGACACGGCAAGCCATCGACTGTGCCAGGGCCGCCGGGGTACTGGTGTCGTTCGATCTCAACTACCGTGCGGCACTGTGGTCCGAAGAGGACGCAGGGCATCTATTCCGGCAGATCATCGCCAAAGCAGACATCGTCTTCGCCGGCGACGACGAAGCCGCGATCGCTGTCGGGCCTGCTCCCGAACCTCGGGAACTGGCCCGACGCATCGCCGCGCTTGGGCCCACCCAAGTCATTCTCAAACGCGGCGCGCAGGGGTGCCTGGCACTGATCGACGGCAAGGAATACTCCAGGGAAGCGGTGCCCGTACGCGTGGTGGACACGGTCGGGGCCGGAGACGCTTTCGTCGGCGGCTACCTCTCCGAGATGCTCCGTGAATCGGAGATCGACGATCGGCTCCTGACCGCTACCCAGGTCGGCGCCTTCGCTTGCCTGGTCCCAGGTGACTGGGAAGGGATGCCGCGCAGAGCAGAACTGCACCTGCTGGACCCCAGCGATCCAGTCTCCCGTTAA	MNTTLGAGQSQTTDVVTFGETMALFKADTPGPLSHVPGLSLGIGGAESNVAVALQRLGTSVTWLGRVGADSLGDLVVRELRAEGITVAPIRDSAAPTGLMVKERRTADAVKVWYYRSASAGSRLHPDDIPSDLIARSRLLHVTGITPALSSSAADATRQAIDCARAAGVLVSFDLNYRAALWSEEDAGHLFRQIIAKADIVFAGDDEAAIAVGPAPEPRELARRIAALGPTQVILKRGAQGCLALIDGKEYSREAVPVRVVDTVGAGDAFVGGYLSEMLRESEIDDRLLTATQVGAFACLVPGDWEGMPRRAELHLLDPSDPVSR	PGPT0018060_1571	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
D1-17_00766	639	eda_1	COG0800	Putative KHG/KDPG aldolase	ATGAGCGACACACTCTCCACCCTCTGCGCATCGCGCCTCGTACCCGTCGTCGTGCTCGACGAGGCTGCCCATGCCAAGCCTCTGGCCGCAGCCCTTGTGGCTGGGAATCTTCCCGTCGCGGAGGTGACCTTCCGGACCGCCGCGGCCGTTGAGGCCATCCGTATCATGGCTGATCACGGGGACATGCTCGTGGGAGCGGGTACGGTGCTGACCGGCCAGCAGGTCGACCAGGCGGTCAACGCTGGCGCTTCCTACATCGTTTCACCCGGCCTGAGCCGGGCCGTGGTGGAGCGGTGCCAGGAGCACGGCGTGCCCGTGCTGCCTGGGGCCGTGACCGCCACCGAAATCCAGGCGGCGCTGGAGTTGGGTTTGAGCACAGTCAAGTTTTTCCCGGCGGGCACATCCGGCGGCGCCGCGGCGATCTCCGCGCTCGCCGCGCCGTTTGGCGGTGTTCGCTTCGTCCCCACGGGTGGCATCGGCCCTAAGAACCTTCATGAGTACCTCGCGATTCCCGCTGTGGTGGCAGTGGGAGGCTCGTGGATGGTGTCCAAGGATCTGTTACGAGCCGGTGACTTTGCGCAGATCACCAGACTCGCCGCGGAGGCCGTGGCTGCGGCTAGACAGGGCGCATCCGCCTGA	MSDTLSTLCASRLVPVVVLDEAAHAKPLAAALVAGNLPVAEVTFRTAAAVEAIRIMADHGDMLVGAGTVLTGQQVDQAVNAGASYIVSPGLSRAVVERCQEHGVPVLPGAVTATEIQAALELGLSTVKFFPAGTSGGAAAISALAAPFGGVRFVPTGGIGPKNLHEYLAIPAVVAVGGSWMVSKDLLRAGDFAQITRLAAEAVAAARQGASA	PGPT0002060_1941	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0002060-eda-K01625	NA	NA
D1-17_00767	840	kduI		4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase	ATGCAACAGCGCTACGCAACCAGCCCGGACCAGCTCCCGACGTTTGACACAAAAGAGCTGCGAGAGAGGTTCCTGGTCGAGGATCTGTTCGTCCCCGGCGAGGTGAATGTCGTCTATACGCACCACGACCGGATTGTTCTCGGCGGCGCCGTTCCCGCGGGCAAACAGCTTCCACTGCCGGCATTCGACGAACTACGCGCGGAGTATTTCCTGGCCAACCGCGAGGTCGGGATCATCAACATAGGTGGCACCGGTACGGTCACCGCGGACGGCGAGACCTACACTCTGCCCAACGGGGCGTGCCTCTACATCGGCCGCGGCACCCGGAACATCATCTTCTCCGATGCCCCTGCCGCCGAGGAAACCGGAGGGGCACAGTTCTACCTGTTTAGCGCCCCTGCGCACACTACCTACGAAACCCAGCTGGTGCTCAAAGGGGAAGGCACGGTGCGCGAGCTGGGTGATCAACTCACCAGCAACCGGCGGACCCTGAATCAGTACATTCATGAGAAGGGGGTGCAGTCCTGCCAGATCGTCATGGGCGTGACCGAGCTGCACCCAGGATCAATGTGGAACACTATGCCGGCCCACCTTCACGACCGCCGCACTGAATGCTACCTGTACTTCGGCGTGCCGGACGACGCCCGGGTTATCCACCTGATGGGGCAGCCGGCTGAGACACGCCACCTTGTGGTCGCCGACCGGCAGGCGGTCATTTCACCGTCCTGGTCGTTGCACTCCGGCGTCGGCACCGCCTCCTACTCCTTCGTCTGGGCTATGGCCGGGGAGAACCAGTCCTTTGACGACATGGACCCCGCTCCCGTCACCTCGCTGCGCTGA	MQQRYATSPDQLPTFDTKELRERFLVEDLFVPGEVNVVYTHHDRIVLGGAVPAGKQLPLPAFDELRAEYFLANREVGIINIGGTGTVTADGETYTLPNGACLYIGRGTRNIIFSDAPAAEETGGAQFYLFSAPAHTTYETQLVLKGEGTVRELGDQLTSNRRTLNQYIHEKGVQSCQIVMGVTELHPGSMWNTMPAHLHDRRTECYLYFGVPDDARVIHLMGQPAETRHLVVADRQAVISPSWSLHSGVGTASYSFVWAMAGENQSFDDMDPAPVTSLR	PGPT0018245_501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815	NA	NA
D1-17_00768	765	kduD		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGGTTCTCGATTCGTTCCGACTGGACGGGAAAATTGCCCTGGTGACGGGTTCATCCCGTGGCCTGGGGCAGGGCGCTGCAGTGGCGCTGGCGGAGGCCGGAGCCGACGTTGCACTGCTGAACCGGGCCGGGGCCGAGGAAACAGCCGAGAAAGTCCACGCCCTCGGACGCAAGGTCCATGTGATTGAGCAGGACCTGGGGTTGGCAACCCCTCAGGAGCTGGACGAGTCTGTCCAGTCTGTGGTGGAGGCGCTGGGGCGGATCGACATATTGGTGAATAATGCCGGGATAATTCGGCGGGCACCGCTGCTGGAGCACCCCTCCTCGGACTGGGACGACGTGCTGGCGACCAACCTGGACGCTGTGTTCCACCTGTCGCAGGCCGCTGCAAAGCGCTACGTGGCCCAAGGCGGGGGAAAGATCATCAACGTCGCCTCGATGTTGTCTTTCCAGGGCGGCATCCTGGTGCCCGGGTACGCTGCCAGCAAGCATGCGGTGGCGGGACTCACAAAGTCGTTTGCGAATGAGCTGGCTGCCCATGGAGTGAACGTCAACGCGATCGCCCCGGGATACATGGCCACTGACAACACTGAGGCAATCCGTTCAGATGAGGCGCGCCAGAAGGCGATTCTGGACCGCATCCCCGCGGCACGGTGGGGAACTCCTGCCGACTTGCAGGGTTCGTTCGTATTTCTCGCCTCGCCCGCATCCGACTACGTAAACGGCGCGATCATTCCGGTCGACGGCGGCTGGCTCGTACGCTGA	MVLDSFRLDGKIALVTGSSRGLGQGAAVALAEAGADVALLNRAGAEETAEKVHALGRKVHVIEQDLGLATPQELDESVQSVVEALGRIDILVNNAGIIRRAPLLEHPSSDWDDVLATNLDAVFHLSQAAAKRYVAQGGGKIINVASMLSFQGGILVPGYAASKHAVAGLTKSFANELAAHGVNVNAIAPGYMATDNTEAIRSDEARQKAILDRIPAARWGTPADLQGSFVFLASPASDYVNGAIIPVDGGWLVR	PGPT0018065_576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
D1-17_00769	1161	yesR	COG4225	Unsaturated rhamnogalacturonyl hydrolase YesR	ATGACTGAAACGAAGAAAGAGCCACAGGCAGTGTGGGCAGTCAAGCACAGCCCGCTACTGCGGGCGCCGGAGAGGTTCATCTCCCGGGTGGAGCTCCAGAGAATGGTCCACCTCTTGACGGATAATCTGGTCAATATCACGGACGAGACAGGAGCGTTCCTCCTTCGCCTCGACGACGGCCGAGTGATTGATACTAAAGGCTGGGCCGGCTGGGAGTGGACTCACGGCGTCGGCCTGTACGGGATGTGGCAGTACTACGACCAGACCGGTGAAACGACGGTGCGGGACATCATTGACTCCTGGTTCACTGCACGGCTGGCCGAGGGCACCACGAAAAACGTCAACACAATGGCACCGTTCCTGACACTTGCCTGCCGGTACGAGGAGACGGGCGACCGCGCGCTCCTGCCGTGGCTCGACTCTTGGGGCGAGTGGGCTATGCGTGAGATGCCGCGGACACCTCACGGCGGCATGCAGCACATCACGTTGGCCGAGGAGAACCATCACCAGCTGTGGGACGACACCCTCATGATGACCGTCCTGCCGTTGACCAAGATCGGCCTGCTGCTAGGCCGGCCGCAGTATGTCAGCGAGGCAACCTTCCAGTTCCTCACCCATGTGGCGTACCTCATGGACCGGGAGACAGGGCTGTGGTTCCATGGCTGGTCGTTTGACGGCAACCACAACTTTGCTAAGGCCCGCTGGGCCCGTGGGAACTCGTGGCTGACCATGGTGATCCCAGACTTCCTGGAACTGGTGGACCTGCCCGAGTCCGACCCGGTGCGCCGGTTTCTGATTGAGGTCCTTGACGCCCAGGTCGCGGCCCTTGCTGAATTGCAGGATGCCTCAGGAATGTGGCACACGCTTCTGGATGACCCTTCCTCGTACCTTGAAGCGTCGGCGACTGCCGGATTCGCCTATGGAATCCTCAAGGCAGTGCGCAAAGGCTACCTCGACCGCAAGTACGCTGCCGTGGCGGAGAAGGCAATCAGGGCTGTCATCTCAAATATCTCGGCAGACGGCGAGCTGCAGCAAGTATCGTTCGGCACCGGTATGGGTTCTGACCTGGACTTTTATCGCGACATCCCGCGCACGTCGATGCCTTACGGTCAGGCGATGGCAATCCTGTGCCTCGCTGAGTATTTGCGGACCTACTACTGA	MTETKKEPQAVWAVKHSPLLRAPERFISRVELQRMVHLLTDNLVNITDETGAFLLRLDDGRVIDTKGWAGWEWTHGVGLYGMWQYYDQTGETTVRDIIDSWFTARLAEGTTKNVNTMAPFLTLACRYEETGDRALLPWLDSWGEWAMREMPRTPHGGMQHITLAEENHHQLWDDTLMMTVLPLTKIGLLLGRPQYVSEATFQFLTHVAYLMDRETGLWFHGWSFDGNHNFAKARWARGNSWLTMVIPDFLELVDLPESDPVRRFLIEVLDAQVAALAELQDASGMWHTLLDDPSSYLEASATAGFAYGILKAVRKGYLDRKYAAVAEKAIRAVISNISADGELQQVSFGTGMGSDLDFYRDIPRTSMPYGQAMAILCLAEYLRTYY	PGPT0018255_429	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
D1-17_00770	1386	abaF_5		Fosfomycin resistance protein AbaF	ATGAACATCAAATCCTCCGGGGATAACCTCCCCGACCTCGAAGCCAGCATCGGCCGGAGGGACCCGAAAAAGGCCGCAATGAGCGGCTGGATCGGAAGTGCTCTTGAGTACTACGACTTCGCGTTGTACTCGCTGGCCGCGGCACTTATCTTCCCCTCCATCTTCTTCCCGTCCGAGAACTCGACCGTCGCGATCATCGCCTCGCTCGCGACCTACGCGGTGGGCTATGTCTCTCGTCCGATCGGCGCTGTCGTCCTGGGCGCTTACGGCGACAGACATGGCCGCAAGCAGGTGCTCGTCTTCGCGATGCTGCTGATGGGTTTCGCGACCTTCGCGGTCGGACTCTTGCCCACGTACGGACAGGTCGGCATCCTCGCGCCCGTCCTTTTGGTAATCCTCCGCCTGATCCAGGGGTTCGCGGTCGCAGGCGAGCTCGGCGGTGCCAGCGCGATGATTGTGGAGCACTCTCCCGATGCCAGGCGCGGCTTCTTCGCGAGCTTCAGCCTTCAGGGCACGCAGGTCGGCTCAATCCTGGCCACCGCTGTCCTGCTCCCGCTCTCCGCCCTGCTCCCGAAGGACCAATTCGAGACCTGGGGCTGGCGCATCCCCTTCCTGCTCAGCGCCTTCGTGATCCTTGCCGGATACATCATTCGGCGTCGGGTGCAGGAGCCCCCGGCGTACCTGGCACAGGCCGAAAAAGGCAAGGCGAAGCGGCGGTTCCCGCTCATCGACCTCCTGCGCACCCACCCCTGGGGCCTGGTCCGGTGCGTCATCATGACATTCACCAACGTGATAGGCATGGCAACCCTCATCTTCGGCGTCTCCTACGCCACGCAAAAGGGCTACGGCATCGGCTACTCAAGCAGCGAGTTCCTCTGGGTAACCCTCGTGGCTAATTTGACTGCGGTAGTGACGATCCCGGTATTCGGCGCGCTCTCCGACAGGATCGGCCGCCGGGCTCTTATGGTGGCTGGCGGAATCGGCGGCGGCCTGCTGGCGGGCGGATACCTGTGGGCGATCGACCAGAGAAGCCTGGTTCTGGTCTTCGTGTGCGTCGTGGTCGTGCAGGGGATCTTCTTCCAGATGTGGAACGCGACATTCGCCACGTTCTTCCAGGAGCAGTTCCCTATGCGGATCCGAGTAACTGGATTCGCCGTGTCACAGAACGTCGGCCTCATGATCGCGTCGTTCTTCCCGAGCATCTTCACGGCAATCGCTCCCCCCGGATCGACGAACGTGCCGATGGTCATCGGGCTGACCACGTTCAGCATTTGCCTGGTCGCGGCGCTCGCTACCTTCCTGTCTCCCGACACTAAAGGCAAGTCGCTCGAGGACCTCGAAGGGCACAAGGCTGATTCGCAGCCACTTAAGAATGCACACGCGTGA	MNIKSSGDNLPDLEASIGRRDPKKAAMSGWIGSALEYYDFALYSLAAALIFPSIFFPSENSTVAIIASLATYAVGYVSRPIGAVVLGAYGDRHGRKQVLVFAMLLMGFATFAVGLLPTYGQVGILAPVLLVILRLIQGFAVAGELGGASAMIVEHSPDARRGFFASFSLQGTQVGSILATAVLLPLSALLPKDQFETWGWRIPFLLSAFVILAGYIIRRRVQEPPAYLAQAEKGKAKRRFPLIDLLRTHPWGLVRCVIMTFTNVIGMATLIFGVSYATQKGYGIGYSSSEFLWVTLVANLTAVVTIPVFGALSDRIGRRALMVAGGIGGGLLAGGYLWAIDQRSLVLVFVCVVVVQGIFFQMWNATFATFFQEQFPMRIRVTGFAVSQNVGLMIASFFPSIFTAIAPPGSTNVPMVIGLTTFSICLVAALATFLSPDTKGKSLEDLEGHKADSQPLKNAHA				NA	NA	NA	NA	NA
D1-17_00771	1056	cytR_3	COG1609	HTH-type transcriptional repressor CytR	ATGTCCCGGCCAACCAGCATCAAGGACGTCGCCAACCACGCACAGGTCGCAGTAGGAACGGTATCCAACGTCCTCAACAACCCCGACCGAGTCTCAGAACGCACGAGAAACAGGGTGCTGAAGGCCATCGATGAACTCGGCTTCATCCGCAACGATGCAGCACGGCAGCTGCGGGCCGGGCACAGCCGCACCATCGGCGTCGTAGTTCTAGATGTCGGCAACCCGTTCTTCACCGCCCTGGTCCGGGCCGCCGAGGACGCCGCGGCGGTGAACGGCAGCGCGGTCCTGCTCGGCGACAGCGGCCACGATGCAACCCGTGAATCGCACTACATCGACCTGTTCCAGGAACAGCGCGTCCAGGGGTTGCTCCTGTCCCCTGTGGGAGATGTGGCAGACAGGCTGGAGGCACTGCGGCAACGCGGCATCCCCACTGTCCTGGTGGACCGCCTCGCTGATGAAAACCGCTTCAGCTCTGTGTCGGTAGATGATGACGCCGGCGGCTACCTCGCCGCCCGCCACCTCCTCGACCTGGGGCGCCGGAAGCTCGCTTTCGTGGGCGGGCCGCTCTCCATCAGCCAGGTCCAGGACCGCCTCGCCGGCGCCCGCCGCGCTGTCGCCGAAGTACAGGGGGCGGCACTGGAAGTTCTCGACTCGGGTGGCCAGTCGGTCCTTGCTGGACGCGCAGCGGGAAACAGCGTGGTGGCGCGGCGCACCGGCGACATGCCGGACGCCATCTTCTGCGCCAATGACCTCCTGGCGCTGGGCGTCATGCAATCGCTAACCATGTTGAATAACGTGCGGATCCCCAACGATATTGCCCTGATCGGCTACGACGACATCGACTTTGCCGTATCGGCCGTCGTACCACTCTCCTCCATCAGACAGCCCACCGAGACTATCGGCAGAACAGCCATTGAACTGCTGTCGGAGGAACTGGACGCGCAGCATCCGCGCCACCGAGCGGTTGTGTTTGAGCCGGAATTGGTCGTCAGGCAAAGTACCGCAGGCAGTGCCGCGCCGTCCCCGGCAATGGACCGCGGACTGGCTCGCAAATAG	MSRPTSIKDVANHAQVAVGTVSNVLNNPDRVSERTRNRVLKAIDELGFIRNDAARQLRAGHSRTIGVVVLDVGNPFFTALVRAAEDAAAVNGSAVLLGDSGHDATRESHYIDLFQEQRVQGLLLSPVGDVADRLEALRQRGIPTVLVDRLADENRFSSVSVDDDAGGYLAARHLLDLGRRKLAFVGGPLSISQVQDRLAGARRAVAEVQGAALEVLDSGGQSVLAGRAAGNSVVARRTGDMPDAIFCANDLLALGVMQSLTMLNNVRIPNDIALIGYDDIDFAVSAVVPLSSIRQPTETIGRTAIELLSEELDAQHPRHRAVVFEPELVVRQSTAGSAAPSPAMDRGLARK	PGPT0017992_8194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_00772	396	rhaM		L-rhamnose mutarotase	ATGAGAGTTTGCTTCCGGTCCTCCGTCCAGCCCGAGTTGCTGGAGGAGTACATTCGGCGCCACGCCGCGGTCTGGCCGGAAATGCTCGCTGCCCTGAAGGAAGCCGGCTGGAACAACTACTCGCTGTACCTGGACAACGACGGACTTTTGATCGGCTACCTCGAATGCGACGATTTTGACGCCGTGCGGGCCCGGATGGCTCTCACGGGCGTCAACACCCGCTGGCAGGCGGAAATGGGCGCGCTCTTCCACAACAGTGAGGTTCCCCCTGACGAAGGCTTCCGGGTCCTCGACGAGGTCTTCAACCTCGGCGAGCAGCTGGCCGCGGCAACAGAGACAAAGCACCAAACGCTGCCGACACTGTCACCGGCAAGCTCTGACACCGCCAAACTCTGA	MRVCFRSSVQPELLEEYIRRHAAVWPEMLAALKEAGWNNYSLYLDNDGLLIGYLECDDFDAVRARMALTGVNTRWQAEMGALFHNSEVPPDEGFRVLDEVFNLGEQLAAATETKHQTLPTLSPASSDTAKL	PGPT0017795_105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017795-rhaM|rhaU|yiiL-K03534	NA	NA
D1-17_00773	1179	xylA_1		Xylose isomerase	ATGAACAACACAGCATCGGCGCTGAGCCGGCTTTCGGAGCTGGCCATTGAGGTTCCCTCGTGGGCTTACGGCAATTCGGGCACCAGGTTTAGGGTGTTTGGCACGCCCGGGACCCCCCGCACTGTCCAGGAAAAGCTGGCGGACGCGGCTAAGGTCCATGAGCTTACGGGCCTGGCGCCAACGGTGGCGCTGCACATCCCGTGGGACAAGGTTGACGATTACGCTGCGCTGAAGGAGTACGCGGCCGGCCTGGGTGTCGGCTTGGGCACGATCAACTCGAACACCTTCCAGGACGATGAGTACAAGTTTGGCTCGCTGACCTCTTCTAATGAGAGCGTGCGGCGCCGGGCGGTAGACCATCACTTTGAGTGCATCGACATCATGCACCAGACCGGATCCAGGGATCTGAAAATCTGGCTCGCGGACGGTACCAACTATCCGGGCCAGGACGACATGCGCGGACGCCAGGACCGGCTGGCCGAGTCCCTGCAGGAGATCTACGCGCGCCTGGGCGAGGACCAGCGCCTGGTGCTGGAGTACAAATTCTTCGAGCCGGCGTTCTATCACACGGACGTTCCGGACTGGGGCACGTCCTACGCGCAGACCCTGGCCCTGGGCGAGAAGGCCTTTGTCTGCCTGGACACCGGCCACCACGCGCCGGGCACCAACATCGAGTTCATCGTGATGCAGCTGCTGCGCCTCGGCAAGCTCGGCTCTTTCGACTTCAATTCGCGCTTCTACGCGGATGATGACCTGATCGTGGGGGCCGCGGACCCGTTCCAGCTGTTCCGCATCATGCACGAAGTCATCCGCGGCGGCGGCTTTGGCAAGTCCTCCGGTAAAGAGTCAGGCGTGGCGCTCATGCTGGACCAGTGCCACAACCTGGAGGAGAAGATCCCGGCGCAGATCCGCTCGGTGCTGAACGTCCAGGAGATGACTGCCCGCGCCCTGCTCGTGGACACCGCAGCCCTGGCCGAAGCCCAGCGCACCGGCGACGTTCTGGCAGCGAACGGCATTTTCAACGACGCCTTCTACACAGATGTCCGGCCCGCGCTGGCAGAGTGGCGTGAATCCCGCGGCCTGCCCGCGGACCCGCTGGCAGCCTACAAGGCCAGCGGCTACCAGAAACAGATCAACGAGGACCGCGTGGGCGGTCACCAGGCCGGATGGGGCGCGTAA	MNNTASALSRLSELAIEVPSWAYGNSGTRFRVFGTPGTPRTVQEKLADAAKVHELTGLAPTVALHIPWDKVDDYAALKEYAAGLGVGLGTINSNTFQDDEYKFGSLTSSNESVRRRAVDHHFECIDIMHQTGSRDLKIWLADGTNYPGQDDMRGRQDRLAESLQEIYARLGEDQRLVLEYKFFEPAFYHTDVPDWGTSYAQTLALGEKAFVCLDTGHHAPGTNIEFIVMQLLRLGKLGSFDFNSRFYADDDLIVGAADPFQLFRIMHEVIRGGGFGKSSGKESGVALMLDQCHNLEEKIPAQIRSVLNVQEMTARALLVDTAALAEAQRTGDVLAANGIFNDAFYTDVRPALAEWRESRGLPADPLAAYKASGYQKQINEDRVGGHQAGWGA	PGPT0017770_383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017770-rhaA-K01820	NA	NA
D1-17_00774	2088	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGGGGCGCGTAAAGGGCATGAACATGCAGAACACAGCAACCAACAACACCGCCGCCAATAAGACGGCGCAGGACCTGATCGCCCGTTCCAATCGCCTGGGCGAGGACAAGCGGAACACGAACTTCGCCGGCGGCAACACCTCCGCAAAGGGCACCGGGAAGGACCCTGTTACCGGTAAAGATGTTGACCTCCTCTGGGTGAAGGGTTCCGGCGGGGACCTCGGGACGCTAAAAGCCGGGAACCTGGCGGTGCTGCGCCTTGACCGGCTGCAGGCGCTGAAGAACGTCTACCCGGGCGTGGAGCGCGAGGACGAGATGGTCGCGGCCCTCGATTACTGCCTGCATGGCAAGGGCGGCGCGGCGCCGTCGATCGATACCGCCATGCACGGTCTGGTGGACGCCGCCCATGTTGACCACCTGCATCCGGACTCCGGCATCGCGATCGCCACCGCAGCGGACGGCGAGGCGCTCACCGCCAAGATCTTCGGCGACAAGGTGGTCTGGGTGCCGTGGCGCCGTCCCGGGTTCCAGCTGGGCCTGGACATCGCGGCGATCAAGGACGCCAACCCGCAGGCCGTCGGCACCATTCTCGGCGGGCACGGCATCACCGCCTGGGGCGCCACGTCCGAGGAAGCGGAAGCGAACTCGCTGTGGATCATCGACCAGGCCGAGAAGTACATCGCCGCCAACGGCAGGAACGAGCCGTTGGGTCCGAAGCTCCCGGGCTACGCGCCGCTGCCGGAGGGCGAGCGGCGTGCCAAGGCCGCCGCGCTGGCGCCCGTGATCCGCGGCCTGGCGTCCACGGATAAGCCGGTCCTGGGCCACTTCAGCGACGACACCGCCGTGCTGGAATTCCTCGAGTCTGCCGAGCATCCGCGTCTAGGGGCACTGGGTACCTCCTGCCCGGACCACTTCCTGCGCACTAAGGTCAAGCCCCTCATTCTGGACCTGCCCGCGGATGCCTCCATCGAGGACTCCGTGGCCCGGTTGAAGGAACTCCACGCCGAATACCGGAAGGACTACAAGGCGTACTACGACCGCCATGCGGATGAGAGCAGCCCGGCGCTGCGCGGTGCCGACCCGGCCATTGTCCTGGTCCCGGGCGTGGGCATGTTCTCGTTCGGCGCCAACAAGCAGACCGCCCGCGTGGCGGGCGAGTTTTACATCAACGCCATCAACGTCATGCGCGGCGCCGAGGCGATTTCCACTTACGCCCCGATCGAGGAATCCGAAAAGTTCCGGATCGAATACTGGGCCCTGGAGGAAGCCAAGCTCGCCCGCATGCCCAAGCCCAAGTCCCACGCCACCCGCGTCGCGCTCGTGACCGGCGCGGCTTCGGGGATCGGTAAGGCCATCGCGACCCGCCTCGCCGCCGAAGGCGCCTGCGTGGTCATCGCCGACCTGAACCTCGAAAACGCCGAAAAGGTCGCCGAGGAGCTTGGCGGTCCCGACGTCGCCGTCGGCGTGCAGGCCGACGTCACCAACGAAGCCCAGGTGGCCGCCGCAATCAGCGAAGCGGTGCTGGCGTTCGGCGGCGTGGACCTGGTGGTCAACAACGCTGGCCTGTCCATCTCCAAGCCGCTGCTGGAAACCACCGAGAAGGACTGGGACCTGCAGCACAACGTCATGGCCAAGGGATCGTTCCTGGTGGCCAAGGCCGCCGCGAAGGTCATGATCGACCAGGGCCTGGGCGGAGACATCATCTACATCTCCTCCAAAAACTCCGTCTTTGCCGGCCCGAACAACATCGCCTACTCCGCCACCAAAGCCGACCAGGCCCACCAGGTCCGCCTCCTCGCCGCGGAACTGGGCGAGTACGGCATCCGCGTCAACGGCATCAACCCCGACGGCGTGGTCCGCGGATCCGGTATCTTCGCCGGCGGCTGGGGCGCCAAGCGCGCCGCCGTCTACGGCGTGGACGAGCAGGAACTGGGCAAGTACTACGCCCAGCGCACCCTGCTCAAGCGCGAAGTCCTGCCCGAACACGTCGCCAACGCCGCTGCCGTGCTCACCAGCAACGAACTCTCGCACACCACCGGCCTGCACATCCCCGTTGACGCCGGCGTCGCGGCGGCGTTCCTGCGGTGA	MGRVKGMNMQNTATNNTAANKTAQDLIARSNRLGEDKRNTNFAGGNTSAKGTGKDPVTGKDVDLLWVKGSGGDLGTLKAGNLAVLRLDRLQALKNVYPGVEREDEMVAALDYCLHGKGGAAPSIDTAMHGLVDAAHVDHLHPDSGIAIATAADGEALTAKIFGDKVVWVPWRRPGFQLGLDIAAIKDANPQAVGTILGGHGITAWGATSEEAEANSLWIIDQAEKYIAANGRNEPLGPKLPGYAPLPEGERRAKAAALAPVIRGLASTDKPVLGHFSDDTAVLEFLESAEHPRLGALGTSCPDHFLRTKVKPLILDLPADASIEDSVARLKELHAEYRKDYKAYYDRHADESSPALRGADPAIVLVPGVGMFSFGANKQTARVAGEFYINAINVMRGAEAISTYAPIEESEKFRIEYWALEEAKLARMPKPKSHATRVALVTGAASGIGKAIATRLAAEGACVVIADLNLENAEKVAEELGGPDVAVGVQADVTNEAQVAAAISEAVLAFGGVDLVVNNAGLSISKPLLETTEKDWDLQHNVMAKGSFLVAKAAAKVMIDQGLGGDIIYISSKNSVFAGPNNIAYSATKADQAHQVRLLAAELGEYGIRVNGINPDGVVRGSGIFAGGWGAKRAAVYGVDEQELGKYYAQRTLLKREVLPEHVANAAAVLTSNELSHTTGLHIPVDAGVAAAFLR				NA	NA	NA	NA	NA
D1-17_00775	1467	rhaB	COG1070	L-Rhamnulokinase	GTGAGCAGCGCAGCAGCACCCCGTCCACAAGCAGGTGTCGACGGCGGCGTATTCGTCGCCGTCGACATCGGCGCCTCCTCGGGACGCGTCATCCTCGGACGGATCGGCGGCACGGGCAGGGTCAATATGGAGACGGTCCACCGTTTCCGCAACGGCGTGGTGCACTCCGACGGAGGCCTCCGCTGGGACTTCGACGCTCTCTTCGCCGAGGTGCTCAACGGCCTTGCCGCAGCGGCAGCTACGGCGGACGCAGCGGGCGAGGCGATTACCAGCATCGGCATCGACACCTGGGCAGTGGACTATGGACTGGTCAACGCCCCCGGTGAACTGACCGCTCAACCGTTTAGCTACCGCGACGAACGCAGCCGCGCCGCCGTCGCGGGCGTGCACGACAAACTGGACCCGGCACGGCTCTACGCCACCACCGGGCTGCAGTTCCTGCAGTTCAATACCATTTACCAGTTGGCGACAGAACAGAACCTCGAGGGCCTTCAAGCCCTGCTGATCCCGGACCTGATCGCCTTCCTTCTTACCGGGGAGCGCTACACGGAGGCCACCAACGCCTCCACCACCGGGCTGTTCGACGCCGTCGCGGGGGAGTGGGCCATCGGATTCTTCGCCGCGCTGGGACTGTCCCAGGACCTGTTCCCGCCCCTGATTCAGCCCGGTGAAACGGTCGGCACACTGCTGCCGGGCATTGCGCAGCGCACCGGTCTGCCGGTGGAGACAAAGGTGGTCGCGGTCGGCTCGCACGACACTGCCTCCGCGATCGCTGCCGTCCCTGCGGATACGGACAGCTTCGCCTACATCTCCTCCGGCACCTGGTCCCTGGTGGGAGTCGAGCTGCAGCATCCGGTGCTGACCGAGGCCAGCCGTGCGGCGAACTTCACCAATGAACGCGGAGTAGACGGTACCATCCGGTATTTGCGCAATGTCGGCGGGCTCTGGCTGTTCAGTGAATGCCAGCGGACCTGGGCCGCCCAAGGATATAAGCCGGAGCTCGGGGCATTGCTTGACGCCGCAGCCGCCCTCCCGCGGGGCGGTCCGCAGATCAACGCCGATGACCCATGCTTCATCGCCCCGGACAACATGCCTGAACGCATCCGGGCAGCAGTCCAGGCCACCGGAGCGATCCTGCCGGACCAACCCGCGGCCACGGTCCGTTGTATCCTCGACAGCCTGGCTGCCGGTTATGCGCGCACCATCGCCGATGCCGAACGCCTCGCCGGCGTTGCCGTCAACGTGGTCCACATCGTCGGAGGCGGCTCGCAGAACAAACTCCTGTGCCAACTCACCGCCGAAGCCACGGGCAAACCGGTCATCGCCGGGCCTGTCGAGGCAACAGCCCTAGGCAACGTCCTGGTCCAGGCCAGGGCCGCCGGTACCATCAACGGCGGGCTGCATGAACTACGGGCAGCCGCCCGCGGTTCCCAGCAGCTGAAGGTCTATCAGGCAGCTATGGTGTAG	MSSAAAPRPQAGVDGGVFVAVDIGASSGRVILGRIGGTGRVNMETVHRFRNGVVHSDGGLRWDFDALFAEVLNGLAAAAATADAAGEAITSIGIDTWAVDYGLVNAPGELTAQPFSYRDERSRAAVAGVHDKLDPARLYATTGLQFLQFNTIYQLATEQNLEGLQALLIPDLIAFLLTGERYTEATNASTTGLFDAVAGEWAIGFFAALGLSQDLFPPLIQPGETVGTLLPGIAQRTGLPVETKVVAVGSHDTASAIAAVPADTDSFAYISSGTWSLVGVELQHPVLTEASRAANFTNERGVDGTIRYLRNVGGLWLFSECQRTWAAQGYKPELGALLDAAAALPRGGPQINADDPCFIAPDNMPERIRAAVQATGAILPDQPAATVRCILDSLAAGYARTIADAERLAGVAVNVVHIVGGGSQNKLLCQLTAEATGKPVIAGPVEATALGNVLVQARAAGTINGGLHELRAAARGSQQLKVYQAAMV	PGPT0017775_563	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017775-rhaB-K00848	NA	NA
D1-17_00776	1008	axeA	COG3458	Cephalosporin-C deacetylase	ATGCCCCTCTTCGATCTGCCGCTCGAGGAACTGCGGACGTACACCTCCGCCGTCGCACCTCCGGATGACTTCGAGGTCTTCTGGGACCGTACCGTCAGTGACACCCGCGCTTTTCCGCTCGCCGTGGTTTTCGAACCGGCGGAGAACTATCTCAGCGTCATCGACACCTTTGACGTCACGTTCGCCGGCTACGGCGGCTCGCCCGTCAAAGGCTGGCTGCACCTTCCGGCGAACAGGGAACCCGGTACGCCGCTGCCGGCCGTCGTGCAGTACGCCGGTTATTCGGGCGGCAGGGGCCTGGCCAACCAGGACACCCGATGGGCGCAGGCGGGCTATGCGCACTTCATCATGGACACGAGGGGCCAGGGTTATTCCGGTTCGGTGGGCGAGACCCCGGATCCGCATCCTTCCGCCGGTGAGGTGGCCTATGCGGGGCTGATGACCCGCGGAGCGGGCAGCCGGGAAGACTACTATTACCGCCGCGTCTACATGGACGCGTTCCGCGCCGTCGAAGCCGTGCAGAGCCATCCCGCCGTCGACGCGTCCCGGATCATCGTGGCGGGCGTCAGCCAGGGCGGCGGAATCACCATCGCGGTTGCCGGGCTGGCGGCAGGAAGGCTCGACGGCATCATCGCCGCCCTGCCCGATGTCCCGTTCCTTCAGGATTTTCCACGTGCCATTGACATCGCACCCCGGGGGCCGTACCCCGAAATTGCAGCGTTTTTGGGCAGACACCGGGAGCGGTATGAGCCGATGCTTGCGGTTCTCAACTATTTCGACGGCGTCAACCTGGCCCGCTCCGCCGCGGTGCCGGCGCTCTACTCCGTGGCCCAGATGGATGACGTCTGCCCGCCGTCGACCATCTTTGCCAGCTTCAACGCCTACGGGACGTCGGCTCCGGACCGGGTGTCGAAGGGCATCGAGGTCTACAGGTTCAACAACCACGAAGGCGGCCAGGAGCACCACTGGATCCGGCAACTGCTGTTCCTGCGCAAGATACTCGATTGA	MPLFDLPLEELRTYTSAVAPPDDFEVFWDRTVSDTRAFPLAVVFEPAENYLSVIDTFDVTFAGYGGSPVKGWLHLPANREPGTPLPAVVQYAGYSGGRGLANQDTRWAQAGYAHFIMDTRGQGYSGSVGETPDPHPSAGEVAYAGLMTRGAGSREDYYYRRVYMDAFRAVEAVQSHPAVDASRIIVAGVSQGGGITIAVAGLAAGRLDGIIAALPDVPFLQDFPRAIDIAPRGPYPEIAAFLGRHRERYEPMLAVLNYFDGVNLARSAAVPALYSVAQMDDVCPPSTIFASFNAYGTSAPDRVSKGIEVYRFNNHEGGQEHHWIRQLLFLRKILD	PGPT0011020_181	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060	NA	NA
D1-17_00777	1179	aroG	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Phe-sensitive	ATGAGCGCAGCAATCACCGAAACCCAGCAGCCGGCGTCGAACGTCCCTGCAGACGTGCGGCCGGCAGAGTCGCCGTCCCCATCGCGGCAGTCCACCTCCAACCTGCGCGTCAGCGGGCTCAGGGCATTACCCACCCCCCAGGAAATGATCACCGAACTGCCGCTGGACGGCCGAGCGGCGGACGTCGTCGAACGCGGACGGGACGAAGTCCGGGCGGTCATGGACGGCGTCGATGACCGCCTGCTCGTGATCGTTGGCCCGTGCTCCATCCACGATCCGAAGGCCGGCCTCGAATACGCACGCCGCCTCGTCAGCCAGGCCGAAAAGCACAAGGAAGACCTGCTGATCGTCATGCGGGCATACTTCGAAAAGCCGCGCACGACCGTGGGCTGGAAGGGCCTGATCAATGATCCGCGGCTGGACGGCACGCACGACATTGCCGCCGGCCTGCGGGAGGCGCGCCGCTTCCTGCAGCAGGTCACGGCGCTGGGACTGCCCGCGGCCACCGAGTTCCTTGAGCCAATCAGCCCGCAGTACATGGCAGACCTCGTGTCCTGGGGTGCCATCGGCGCACGCACCACGGAAAGCCAGATCCACCGCCAGCTCGCCTCCGGACTCTCGATGCCGATCGGCTTCAAGAACGGAACCGACGGCGACCTCCAGGCTGCCGTCGACGCCTGCAGCGCCGCCGCGGCCGCCCAGGCTTTCCTGGGCATTGACGGCGACGGACGGGCCTCGCTGGTCTCCACCGCCGGCAACCCGGACACCCATGCCATCCTCCGCGGCGGACGCAAGGGGCCGAACTACTCTGCCGCCGATGTCGAAGCCGCCTCTGCCAAGCTGGCCGGAAAGAACCTGAACCCGCGGCTCATCGTGGACGCCAGCCACGCCAACAGCGGCAAGAGCCACCACCGGCAGGCAGAAGTAGCGCTGGAGATTGGTGCCCAGCTGGAGGGTGCGGGGGCGTCCGCCGGTGCCATCGCGGGTGTGATGCTGGAGAGCTTCCTGGTGGGCGGGGCCCAGAACCTGGACGTGGCCGAACACGCCGCCGGCCGGTCCCAATTGGTCTACGGCCAGAGTGTGACTGACGCCTGCATGGAGTGGGATGTGACGGTGTCGGTTCTGGATCAGCTGGCCGCCTCTTCGCGGAAGCGGCGGGCTTTCACAATGGCCACGTGA	MSAAITETQQPASNVPADVRPAESPSPSRQSTSNLRVSGLRALPTPQEMITELPLDGRAADVVERGRDEVRAVMDGVDDRLLVIVGPCSIHDPKAGLEYARRLVSQAEKHKEDLLIVMRAYFEKPRTTVGWKGLINDPRLDGTHDIAAGLREARRFLQQVTALGLPAATEFLEPISPQYMADLVSWGAIGARTTESQIHRQLASGLSMPIGFKNGTDGDLQAAVDACSAAAAAQAFLGIDGDGRASLVSTAGNPDTHAILRGGRKGPNYSAADVEAASAKLAGKNLNPRLIVDASHANSGKSHHRQAEVALEIGAQLEGAGASAGAIAGVMLESFLVGGAQNLDVAEHAAGRSQLVYGQSVTDACMEWDVTVSVLDQLAASSRKRRAFTMAT	PGPT0012920_2604	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
D1-17_00778	213			Putative DNA-binding proteinA	ATGTCCGCAGAGTCGAACTTCTCGAACGCCAAGTTCCTGACCGTGGCCGAAGTGGCTCAGGTCATGCGCGTTTCCAAAATGACCGTGTACCGACTGGTTCATTCCGGCGAAATGCCGGCTGTCCGGTTTGGCCGTTCATACCGCGTTCCTGAGGCCGCCGTCGAACAGTACCTCAAGGGTGCCGTCGTCGACGGTCAGACGGGTACCGCGTGA	MSAESNFSNAKFLTVAEVAQVMRVSKMTVYRLVHSGEMPAVRFGRSYRVPEAAVEQYLKGAVVDGQTGTA				NA	NA	NA	NA	NA
D1-17_00779	840	serB1	COG0560	Phosphoserine phosphatase SerB1	ATGCCTGAGGAGAAGTATGTCGCTGTGGTTGAGCGGTCAACTGCAACGCAGAAACCGCCTGCTGCAGCGCAGCAGCAGGGCGAGGCAGCGTTTTTCGACGTCGACAACACCCTCATGAGGGGTGCCAGCATTTTCCATGTCGCGCGGAAGATGCACCAGCGGGGAGCCTTCACTCTCCCCCAGGCCGCCGGCATGGCCTGGAAGCAGTTGAAGTTTGTGCTCCGGGGCGAAAACGTGAACGACGTCCACTCGGTGCGGGACTCCGCACTGACCCTCGCCTGCGGCATCACGGAGGAAGACGTGAAGGTGCTCGGCGAGGAAGTGTACGACGAGATGATCGCCTCCCGGATCTGGCCGGGCACGAAGGCCCTGGCCCAGCAGCATCTGCGCGTAGGCCGGAAGGTCTGGCTCGTGACCGCTACCCCGATCGAGGTAGCCACGGTGATCTCCACACGGCTGGGGCTCACGGGAGCGCTGGGCACGGTGGGCGAAATCAGTGAGGGCCTGTACACCGGACGGCTCGTCGGCGACATCCTCCACGGCCCGGCCAAAGCCGTCGCCGTCCAGGCCATCGCGGACAACGAAGGCCTGGACCTCAAGCGGTGCTGGGCCTACAGCGACTCGTACAACGACATCCCGCTGCTGACCCTCGTCGGCCATCCCGTGGCGATTAACCCCGACGCCCGGCTGCGCAAACACGCCCGCGCACACAACTGGCCCGTCTACGACTTCCGTTCAGGCCGCCGTGCCGCCACCCTCGGCCTTAAGGCAGCAACAGCAGGCGGCGCAGTCTACGGCCTCTGGAAGGGCTACGCCCGCATCCGCGGCCCCCGGGTGTGA	MPEEKYVAVVERSTATQKPPAAAQQQGEAAFFDVDNTLMRGASIFHVARKMHQRGAFTLPQAAGMAWKQLKFVLRGENVNDVHSVRDSALTLACGITEEDVKVLGEEVYDEMIASRIWPGTKALAQQHLRVGRKVWLVTATPIEVATVISTRLGLTGALGTVGEISEGLYTGRLVGDILHGPAKAVAVQAIADNEGLDLKRCWAYSDSYNDIPLLTLVGHPVAINPDARLRKHARAHNWPVYDFRSGRRAATLGLKAATAGGAVYGLWKGYARIRGPRV				NA	NA	NA	NA	NA
D1-17_00780	255		COG0526	putative protein	ATGGCAATTCCCGACGTCGTTCTCCTCACCAAAGCTGACTGTCACCTCTGCGCTGCGGCGCGCGAGGCCGTCGGGCGCGTTACGGCCGGGTTGGGACTGGGGTGGAGGGAACAGTCGGTGGACAGCGACGAATCTCTCCGTGAGCGCTACGCCGAGGAGCTTCCGGTGGTGCTGGTGGACGGAATCCAGCGGGATTTCTGGAAGATCGACGAGGCCCGGCTGGAACGGGTTCTTCGTCAGGCGATGGCGCGCTAA	MAIPDVVLLTKADCHLCAAAREAVGRVTAGLGLGWREQSVDSDESLRERYAEELPVVLVDGIQRDFWKIDEARLERVLRQAMAR				NA	NA	NA	NA	NA
D1-17_00781	696	rex	COG2344	Redox-sensing transcriptional repressor Rex	GTGACTTCGCTCGACTCACCTCCCCAGGCAGTGCCTGAGGACACCGGAACTGCCGGAAAGCAGATTCCGCCCGCGGCTGTGGCCCGCCTCACCATTTACTTGCGCGCCCTAAACTCCCTGCTCGCTGAGGGCATCGAACGCGTCTCCTCCGAGTCCCTGGCCGAGGCCTCCGGCGTCAGCTCCTCGACCCTCCGCAAGGATCTCTCCCACGTCGGTTCCTATGGCACCCGCGGCGTCGGCTACGAGGTGCAGTATCTGAGCCGGCACATCGCCGCCGCGCTCGGTCTGACTCACGACTGGAAGGTCGCCATCGTTGGTGCCGGCAACCTGGGCAAGGCACTGGCCAGGTACGGCGGGTTTGAGTCCCGCGGTTTCGACGTCGTAGCCATTTTCGATGCCGACCAGATGGTGGTGGGCAACGAAGTCGGGTGGCTCCGCGTGAGCGATGTGGCCGATCTGGAAACCGTGCTGGAGCGGACGGGGGCCAATATGGTGGTGCTCGCTTTGCCCGCGGCTGTGGCCCAGAGCGTCTGTGACCGGGTTGTGGCGGCCGGAGTCCACAGCATTCTCAGCTTCGCGCCGGTGATGCTGCAGGTTCCGGAAGGCGTGAACCTCCGGAAGGTGGACATGGCAACCGAGCTGCAGATCCTCGCGTACCACGCGCAGCGGGCCCAGACCCCGGACCAGCCGGAGTAG	MTSLDSPPQAVPEDTGTAGKQIPPAAVARLTIYLRALNSLLAEGIERVSSESLAEASGVSSSTLRKDLSHVGSYGTRGVGYEVQYLSRHIAAALGLTHDWKVAIVGAGNLGKALARYGGFESRGFDVVAIFDADQMVVGNEVGWLRVSDVADLETVLERTGANMVVLALPAAVAQSVCDRVVAAGVHSILSFAPVMLQVPEGVNLRKVDMATELQILAYHAQRAQTPDQPE				NA	NA	NA	NA	NA
D1-17_00782	855			hypothetical protein	ATGAGCACTCCTCCAGTCCCGCCTCGCAACCCCAATGATCCGGAATCCGGCCGCCACGATGCCAATGAACCGGGACGGGAAGGCGGGGGGCAGCCGCAGTACGGCCAGAACGCTCCCCAGTATGGGCAGAACGCTCCCCAGTATGGGCAGAATATCCCGCCTGCGCCGCAATACGGCCAGCAGGGCCAGAACCCCCCGCAGTACGGCCAGAACGCCCCGCAGTCCGGTCAGCCGCAGTACGGCCAGAACGCCCCGCAGTACGGCCAAGAGCCCTCCTCCGGCCAGAACCCGCCGCAATATGGACAACCACAGTACGGCCAGTCCCCCTACGGCCAGTCACCGTACGCGCAGTCTCCATACGGGCAGCAGTACCCTTCGGAGCAGGCCAAGGGCGGCCCCGCCGGTGTCCCCCAATCTGTTAACAAGGCGTTCTGGATGATCATCGCGGCCGGTGCCCTGACGCTCCTGTCCACGCTGTTGGGCATTGGGACCCTCGACGATCCCGCCACACGCCAAATGTTTGAAGACCAGATTCAGGGCAGCGGCCAGAACATTGCCTTTGAAGACATCAAGGGCCTCCTCGTCGGCACGATCGTCGTCTTTGCGCTCATCATTGCCGGGCTGTATGCCCTGGTGGCGTTCAACGTCCGCAAGGGTAAGAACTGGGCCCGGATCCTGGGTACGGTATTCGCGGCGCTTTCTATTTTCTCCGTGTTGCCGCTCGGCCTTAACACCGTCGCTGTCATCCTGGGCATCGCGGCGATCGTGATGCTCTACATGCCTGCGGCCTCACCGTACTTCCAGAAGCCGCAGCCCTTTGCCAACCCGTATGGGGGCGGCCCGTTCGGCCGCTAA	MSTPPVPPRNPNDPESGRHDANEPGREGGGQPQYGQNAPQYGQNAPQYGQNIPPAPQYGQQGQNPPQYGQNAPQSGQPQYGQNAPQYGQEPSSGQNPPQYGQPQYGQSPYGQSPYAQSPYGQQYPSEQAKGGPAGVPQSVNKAFWMIIAAGALTLLSTLLGIGTLDDPATRQMFEDQIQGSGQNIAFEDIKGLLVGTIVVFALIIAGLYALVAFNVRKGKNWARILGTVFAALSIFSVLPLGLNTVAVILGIAAIVMLYMPAASPYFQKPQPFANPYGGGPFGR				NA	NA	NA	NA	NA
D1-17_00783	387			hypothetical protein	ATGGAGCTAAGAATCTCGTATTGCGTCTGGCTGGCCGCCGGACTGCTGGGGCTGCTGGGCGGCGTCATCGGGCTGTTCGGCGCGTTGGTGCTCTTTGCGTTCCTGCCCGCGGTTGCCATCCTGGTGCTGCTGCTCGTGCTTTTTGGTGCCGCGCTATCCAGCGTCCAGATTGTTCTGGCAATAACACTGAAGGAAGGCCGGGAGTGGGCCCGGCTCGCCCTGACCGCCGTCGCCGGGGTTTCTCTGCTTCTCACTATCATCAGCCTCAGTTTCACCGACGGACGTGGCGGCAGCGGTTTCAGTTTCCTGGCAAGCCTGACCGCGACCGTGCTGATGTGGTCTCCCGGCTCACGGCGGTGGTTCGCAGCAGCGCGTGTACGGGCCTGA	MELRISYCVWLAAGLLGLLGGVIGLFGALVLFAFLPAVAILVLLLVLFGAALSSVQIVLAITLKEGREWARLALTAVAGVSLLLTIISLSFTDGRGGSGFSFLASLTATVLMWSPGSRRWFAAARVRA				NA	NA	NA	NA	NA
D1-17_00784	549	yceI_1		Protein YceI	ATGGCATTGCCCACCAACGTCACCCCCGGCACCTGGACCCTCGACAACTCACACAGCGAGATCGCATTCACCGTCCGTCACGCAGGCATCAGCAAGGTCCGTGGGCAGTTCAAGGATGCTGCAGCCTCGCTGGATCTGGCGGAGAATGTAGCGGACTCGAAGATCGAGGCGATCATCCAGACTGCGAGCTTCGACTCCGGCGACGTGAACCGCGACGGCCACGTCCGGGGCGAAGACTTCTTCGACGTCGAGAAGTTCCCCGAGATCTCCTTCGTGTCCAACGGCCTCGTCCCGGCCGGTGACGGCTACGAACTCCAGGGCGACCTCACGATCAAGGGCGTGACCCGTCCGGTATCCCTCGAGACCGAGTTCAACGGCGTGGCTGTTGACCCCTTCGGCAACACCCGCGCCGGTGTCTCCGCTGAAGCCATCATCAGCCGCAAGGACTTCGGCCTGACCTGGAACGCCGTCCTGGAAGCCGGCGGAGTTCTGGTGAGCGACAAGGTTGCCATCAATCTTGAGCTGGCCTTCATTGCGCCCGCCGCGTAG	MALPTNVTPGTWTLDNSHSEIAFTVRHAGISKVRGQFKDAAASLDLAENVADSKIEAIIQTASFDSGDVNRDGHVRGEDFFDVEKFPEISFVSNGLVPAGDGYELQGDLTIKGVTRPVSLETEFNGVAVDPFGNTRAGVSAEAIISRKDFGLTWNAVLEAGGVLVSDKVAINLELAFIAPAA				NA	NA	NA	NA	NA
D1-17_00785	666		COG0406	putative protein	ATGCCCCAAGCCACCGTTCATTTGCTCCGCCACGGCGAGGTCCACAATCCAGAGGGCGTCCTCTATGGCAGGCTGCCGGAATTCCATCTTTCCGAGCTCGGCCTGCAGATGGCGCAGCTGTTGGCGGACCACTTCCGCGACCGTGCAAGCCAGGGGGCAAAGATCGTCTATCTCGTGGCGTCCCCCCTGACGCGAGCCCAGGAAACCGCACTTCCGACGTCGAATGCCCTGGGCCTGGAGATCCACACGGACGAGCGCATCATCGAGGCTGAAAACCACTTCGAAGGCCTTAGGGTCAGCAAGGCGGAGCTGAGGAAGCTGAAGCACTGGCCTAAGCTGGTTAATCCCTTGCGCCCTTCCTGGGGCGAGCCCTACAAGGACCAGGCAGCCCGCGTGGGTGCGGCCGTCCAGGAAGCACGCCTCAAGGCGATTGAACTGGGCGGGGATGGAGCAGAGGCCATCATGGTGAGCCACCAGCTTCCCATCTGGGCGACCAGGCTCAGTGCAGAGGGCAAGCCGCTGTGGCATGACCCCCGCAAGCGGGAATGCACCCTGACCTCCCTGACGTCCCTCGTGTTCGACGACGACGGCACCCTCCTGCGCGTTGAGTACAGCGAGCCGGCGGCCGCCCTACTTCCCGGTGCATCAAGCACCCCCGGAGCCTAG	MPQATVHLLRHGEVHNPEGVLYGRLPEFHLSELGLQMAQLLADHFRDRASQGAKIVYLVASPLTRAQETALPTSNALGLEIHTDERIIEAENHFEGLRVSKAELRKLKHWPKLVNPLRPSWGEPYKDQAARVGAAVQEARLKAIELGGDGAEAIMVSHQLPIWATRLSAEGKPLWHDPRKRECTLTSLTSLVFDDDGTLLRVEYSEPAAALLPGASSTPGA				NA	NA	NA	NA	NA
D1-17_00786	612	resA_2		Thiol-disulfide oxidoreductase ResA	ATGACCAACACCCCCATTAGCTCCCGCCGCAGCGTCCTCGCCGCCGGCGGTCTGGCTTTGACCGCGCTAACGCTTGGCCTTTCCGGCTGCGCCCAGGAAGATGCGCTCGCGAAGCAGGCAAAGGCAGGGGACAACAAGAACTACGTCGCGGGCGACGGCTCGGTGACGGAATTTGCTGCAGCGGACCGCAAGTCGGCGGTGGACATCCAGGGCACGCTCTTTAACGGCACCACCGTGACCCCCCAGGACTTCCAGGGCAAGGTCACCGTGCTGAACTTCTGGTTTGCCGCCTGCGCACCCTGCCGCGTCGAGGCGCCCGTCCTCGAGGAGTTGCACCAGACCTTCAAAAGCAAGGGGGTGCAGTTCTTCGGCGTGAACCTGCGCGATGAGAAGGCAACCGCCGAGGCGTTCGACAAGACGTTCGGTCTGACGTACCCGAGCTTCAACGACAAGGACGGCAGCGTGCTGTTGTCCGTGTCCAGCCTCGTGCCGCCCGGCGCCGTTCCCACAACGCTGGTGGTGGACAAGCAGGGCCGCGTCGCGTCCCGCGTCCTGGGGGAGATCCAGAAGGGCACCCTGAAGGCCCTCATCGAATCCGCCGTGGCAGAGTAG	MTNTPISSRRSVLAAGGLALTALTLGLSGCAQEDALAKQAKAGDNKNYVAGDGSVTEFAAADRKSAVDIQGTLFNGTTVTPQDFQGKVTVLNFWFAACAPCRVEAPVLEELHQTFKSKGVQFFGVNLRDEKATAEAFDKTFGLTYPSFNDKDGSVLLSVSSLVPPGAVPTTLVVDKQGRVASRVLGEIQKGTLKALIESAVAE				NA	NA	NA	NA	NA
D1-17_00787	756			hypothetical protein	GTGAACAGCCCTTTTGCCGAAGCCATCCTGAACGGCTCCCTGCTGCTTGCCATCCCCGTCGCGCTCCTGGCGGGGTTGGTCTCCTTCCTCTCGCCCTGCGTCCTGCCGCTCGTGCCCGGTTACCTCGGCTACGTCACGGGGTTGACCGGCGTCGACCTCCAAAAGCAGAAGCGCGGCCGCATGCTCGCGGGCATCGGCCTCTTCGTGCTCGGGTTTTCGGTGATCTTCGTGCTTCTCGGCGGCGCATTTGGGCAGCTGGGAACCCTGGTTTCCGGTGGCCAGAACGGCTGGATCACGCAGCTGCTCGGAGTCCTGGTGATCGCCATGGGCGTGGTGTTCATGGGCGGCTTCAGCTGGCTCCAGCGTGACGCCAAAATCCATGCGAAACCACCTGCCGGTCTGTGGGGCGCTCCGTTGCTGGGCATCACCTTCGGGCTGGGCTGGGCACCCTGCATCGGCCCAACCTACTCCGCCGTGCAGCTCCTGAGCCTCTCGGGCGGTTCCTCAGCCGCGAAGGGCGCCTTCCTCGCCTTCGTCTATAGCCTCGGTCTGGGCATCCCGTTCCTGCTGATCGCCCTTGCGGTCCGCCGCGGCGCGGGGATCATGTCCTTCTTCCGGAACCACCGCCTGGCCATCCAGCGGACCGGCGGCGGCGTACTGATCGTCCTGGGCCTGCTGATGGCGACCGGCGTGTGGGGTGCCTGGGTCACTGAGCTGCAGTACTGGTTCCAAACCGATGTGAAGTTGCCGATCTGA	MNSPFAEAILNGSLLLAIPVALLAGLVSFLSPCVLPLVPGYLGYVTGLTGVDLQKQKRGRMLAGIGLFVLGFSVIFVLLGGAFGQLGTLVSGGQNGWITQLLGVLVIAMGVVFMGGFSWLQRDAKIHAKPPAGLWGAPLLGITFGLGWAPCIGPTYSAVQLLSLSGGSSAAKGAFLAFVYSLGLGIPFLLIALAVRRGAGIMSFFRNHRLAIQRTGGGVLIVLGLLMATGVWGAWVTELQYWFQTDVKLPI				NA	NA	NA	NA	NA
D1-17_00788	1785	ccs1		Cytochrome c biogenesis protein Ccs1	ATGAGCGAGCGTGTGAAGTCACCCAAGAACCCTCCGGCCGGGAAAGCCCCGGAAACAGCCTCTACAGAAAGCGGTCCCAAGAACGCCCTGAAGGAGGCCAAGGCCGACGCTGCGCTGCCTGCCCTGGGCATCGTGGGCATGCTGCGCTGGGCCTGGACGCAGCTGACCAGCATGCGCACCGCGCTGTTTCTCCTGCTGTTGCTGGCGGTGGCCGCCGTGCCCGGTTCGCTGTTCCCGCAGCGACCGGCGAACCCGTCGGTCGTCACCCAGTACATCAAGGACAACCCGGACTACGGCAAAATCCTCGACGCCCTGCAGCTGTACGACGTCTATTCCTCGGCCTGGTTCTCCGCCATCTACATCCTGCTGTTCATCTCGCTGATCGGCTGCGTGGTGCCCCGTGCCATCGCGCACTACCGCGCCATGCGCTCACAGCCGCCGCGCACCCCGAAGCGGCTCTCCCGCCTGCCGGAGTACGGCACGCTGGTGGTGCCAGCGGAAGCCGGCATCCCGGCGTCGGAGGCCATTGAAGACGCAGCGGAACTGCTGAAGAAACGCGGTTACCGCGTTGAAGTAAGGCACGACGACGGCGCGCGGCCGTCTTTGGGGGCGGAGCGCGGCTTCCTCAAGGAAGTCGGCAACCTGGTCTTCCACACCTCGCTGATCGGCGTCCTCGTCTCTGTGGCAATCGGCGGGCTGTTCGGCTACAGCGGCCAAAGGATCCTCGTGGAGGGTGACACCTTCGTCAACACGCTGGTGGGCTACGACCAGTTCAACCCGGGCACCAACTTCCAGAGCAGCCAGCTCCAGCCGTACTCCATCCAGCTGGACAAATTCCAGGCAACGTTCGACCGTGAATCCCAGGGCAAGTTCGGCCAGCCCATCGACTTCACGGCGGAGGTCACCACCAAGGAAAACCCCGGCGCGCCGGCCCAGAAGGAAGTCCTGAAGGTCAACGAGCCCGTCACCCTCGGCGGTACCAGCATCTACCTGACCGGCAACGGCTACGCACCCGTGGTCACGATCCGGGACGGCAACGGCAACGTCGCGATGCAGGGACCGGTTGTAGCCAAGCTGCAGGGGGACAACTATTACTCCTCCGTGGTGATCAAGGTTCCCGACGCGAAGCCGGACCAGCTCGGCTTCGCCGGATTCTTCCTGCCCACCGCGTTCGTGACTGACGAAGGTGTCTCCTTCAGCGGCGACCCCGAACTCATCAACCCGCAGCTGAGCCTGAACTCCTACTACGGCGATCTCGGCCTCGACAAGGGCGCACCGCAAAACGTGTTCGAGCTCGACGTCAAGGACCTTACCCCGCTGAACTCCCGCAACCTCGATGCCGGGGGGATCACGCTGGCGCCCGGAAGCACCTACACGCTCCCGGACGGCAAGGGCTCCATCTCGTTCGACGGGGTGAAAAAGTATGTGGGCGTCGACATCCACCACAACCCCGGCCAGCTTTCCGCGCTCATCTTCGCGCTGCTCGCCGTGGCCGGCCTCGTGGTCTCCCTCTACGTCAATCGCCGGCGCGTCTGGGTGCGCACGGGAACGCATGAGGACGGGCGGACCATGGTGGAATACGGGCTTCTGGCCCGCGGCGAGGACCACCGCCTCGCCGGCGAAGCCGTGGCCATCCGCGGGCTGCTGTCGCGCAAGTGGAACCTTGGCTCTGACACTTCTGACGGCACTTCCGGCTCCGACAGTGCTACCGGCTCTGACGGCGTTGGCCGACCATCCCCAACCACCTCACCAGCAGGCTCCGCTGAGCCGAAGAAGGACCGGTAA	MSERVKSPKNPPAGKAPETASTESGPKNALKEAKADAALPALGIVGMLRWAWTQLTSMRTALFLLLLLAVAAVPGSLFPQRPANPSVVTQYIKDNPDYGKILDALQLYDVYSSAWFSAIYILLFISLIGCVVPRAIAHYRAMRSQPPRTPKRLSRLPEYGTLVVPAEAGIPASEAIEDAAELLKKRGYRVEVRHDDGARPSLGAERGFLKEVGNLVFHTSLIGVLVSVAIGGLFGYSGQRILVEGDTFVNTLVGYDQFNPGTNFQSSQLQPYSIQLDKFQATFDRESQGKFGQPIDFTAEVTTKENPGAPAQKEVLKVNEPVTLGGTSIYLTGNGYAPVVTIRDGNGNVAMQGPVVAKLQGDNYYSSVVIKVPDAKPDQLGFAGFFLPTAFVTDEGVSFSGDPELINPQLSLNSYYGDLGLDKGAPQNVFELDVKDLTPLNSRNLDAGGITLAPGSTYTLPDGKGSISFDGVKKYVGVDIHHNPGQLSALIFALLAVAGLVVSLYVNRRRVWVRTGTHEDGRTMVEYGLLARGEDHRLAGEAVAIRGLLSRKWNLGSDTSDGTSGSDSATGSDGVGRPSPTTSPAGSAEPKKDR				NA	NA	NA	NA	NA
D1-17_00789	1122	ccsA		Cytochrome c biogenesis protein CcsA	ATGTACCCCATCAACGAAACCATGGGCCAGTACAGCGAGCTGTTCATGCTCCTCGCTGCGGGCACATACACGGTGGCGTTCATCGCCTTCGCCTGGGACCTCGCCAAGAGCAGCAGGGCCCTGCGTGCCGTTGACCTGAAGGCTGCTGCCGCCGCAGGTGCATCTGAGCGCAGCGCGGAAGCCGAATCGAAGGTTCCCGCCACTGCAGGGGCGGGCGCAGCAGGTCTTGGCGACCGTGTTGAGGGGCACCTTGCCGGGCCCGCCGGCCGTGCCGAGCGGCCGTCGTCGTCCGTGTCTGCCAAGGCCCAGGACGGCGCGGCGGCGGGGCAGACCGCCGACGCCAGCATGACGTACAGCGGCGAGCGCCGTGCACCGGCCCGCGTTGCAGTGGCACTGACGGTTCTGGGTGCTGCGATCCATGCAGCCGCTGTGCTCACCCGTGCGATCGGTGCCGGGCGCGTGCCGTGGGGCAACATGTACGAGTTCCTGACCACCGGCGCGTTTGTTGCAATCGCAGTTTTCCTGATCGTGCTGATCCGGCGAGACCTGCGGTTCCTCGGCACGTTCGTAGTGGGCCTGGTGATCATCATGCTGGTCGCAGCTTCCGTGGCCTACTGGACCCCGGTGGGCCACCTCGTGCCGGCGCTGCAGAGCTACTGGCTCGTTATTCACGTCTCCATCGCCGTGCTCTCCTCGGCCCTCTTCACCCTAACGTTCGCCATGTCCGCCCTGCAGCTCGTGCAGTCGCACCGGCAGAAGACGATTGCCGCCGGCGGGGCGGACAAGCTGGGCTTCATGCGCCTGGTGCCAACCGCGCTGAGCCTGGAAAACCTTTCCTACCGCATCAACGCCATCGCCTTCATCGGCTGGACTTTCACCCTGATGTTCGGCGCCATCTGGGCTGAAAAGGCGTGGGGCCGCTTCTGGGGCTGGGACACCAAGGAAGTCTGGACGTTCGTGATCTGGGTGGTCTACGCCGGCTACCTGCATGCCCGGGCAACCCGCGGATGGACGGGAACCCGCGCGGCCTGGCTGTCGATCGTGGGCTACCTGTGCGTGGTTTTCAACTTCACAATCGTCAACCAGTTCTTCAACGGCCTGCACTCCTACTCCGGGCTGTAG	MYPINETMGQYSELFMLLAAGTYTVAFIAFAWDLAKSSRALRAVDLKAAAAAGASERSAEAESKVPATAGAGAAGLGDRVEGHLAGPAGRAERPSSSVSAKAQDGAAAGQTADASMTYSGERRAPARVAVALTVLGAAIHAAAVLTRAIGAGRVPWGNMYEFLTTGAFVAIAVFLIVLIRRDLRFLGTFVVGLVIIMLVAASVAYWTPVGHLVPALQSYWLVIHVSIAVLSSALFTLTFAMSALQLVQSHRQKTIAAGGADKLGFMRLVPTALSLENLSYRINAIAFIGWTFTLMFGAIWAEKAWGRFWGWDTKEVWTFVIWVVYAGYLHARATRGWTGTRAAWLSIVGYLCVVFNFTIVNQFFNGLHSYSGL				NA	NA	NA	NA	NA
D1-17_00790	417			hypothetical protein	ATGCTCCGAGTTGCCATTGCAGTCGCCATCCTCGCTATCTACGTCTACGGACTGGTGGACGTGATCCGGACTGATTCGGGCCTCACCAGGGGCTTTTCCAAAACGACATGGATCATCATCGTGGTCTTCCTGCCCATCATCGGCGCTGCCCTCTGGTTCCTGATCGGCCGGCCCCGCTATGAGGCTCCGGTCCGGCAGGCCTACCCCCACCCCACAGCCCCCGATGACGACCCCGACTTCCTCCGCAACCTGGAGCAGCGCCGCCGCAAACAGGCGGAAGCGGAGCGGCTGCGGAAGCTGAAGGACGACCTCGAGGCCAAGAAGCGCCAGGCCGACGGCGGCCCCACCGGTTCGGGAAACTCCGGCGCAACTGGTGCCGGTGACGCCAGCGCCGAAGGCAATCCCGAGGCCAAGTAA	MLRVAIAVAILAIYVYGLVDVIRTDSGLTRGFSKTTWIIIVVFLPIIGAALWFLIGRPRYEAPVRQAYPHPTAPDDDPDFLRNLEQRRRKQAEAERLRKLKDDLEAKKRQADGGPTGSGNSGATGAGDASAEGNPEAK				NA	NA	NA	NA	NA
D1-17_00791	345			hypothetical protein	GTGAGATACTCCCTGATCCGGCTTGCCCTCTTTGTCCCGCTGTTTGCGCTGTTCGTGTTCCTGCAGTTGGGCTGGCTCCTCGCCGTGGTCTGCGCTGGTCTCATTTCCTTCGCCATCAGCTACCTGTTCTTTCAGGAGCAGCGCGATGCGGCAGCTGCTTCCCTGCAGGCCCGGTTCTCGGGCCGGGCCAAGCCTCTGCGCACCGCCGGTGAAGTGGACGACGCCGAGGCCGAGGACCGTCTGACGGATACCCACCCGGACGTCACAGTCCGCAACGACATCCCGAAGACCGGCCCCCGCAGCACCGACCCCCGCAGTACCGACCCCCGGAGCACTGAGGCGTAG	MRYSLIRLALFVPLFALFVFLQLGWLLAVVCAGLISFAISYLFFQEQRDAAAASLQARFSGRAKPLRTAGEVDDAEAEDRLTDTHPDVTVRNDIPKTGPRSTDPRSTDPRSTEA				NA	NA	NA	NA	NA
D1-17_00792	882	menA	COG1575	1,4-dihydroxy-2-naphthoate octaprenyltransferase	GTGGCTACAGCCGCACAATGGATTCAAGGCGCCCGGCCGCGCACACTTCCGGCTGCAATCGCTCCTGTCCTGATCGGGACAGCAGCAGCGTTTGAGATGGACGCCTTCCGCCCGCTGAACGCCCTGCTGGCGGCCCTCGTGGCGCTGCTGCTGCAGGTCGGCGTCAACTACGCCAACGACTACTCGGACGGGATCCGCGGGACAGACGAAAACCGTGTGGGCCCGCTGCGGCTGGTCGGGTCCGGGGCGGCAAGCGCTGAACACGTGAAATACGCGGCGTTCGGCGCCTTCGGGCTGGCCATGCTGCTGGGGCTGGTGCTCGTCGTCATGACCCAGACATGGTGGCTGCTGCTTGTGGGTGTGGGATGCATCATGGCGGCATGGGGCTACACCGGCGGCAAGAACCCCTACGGCTACATGGGTCTGGGCGAGCTTTTCGTGTTCGTCTTCTTCGGCCTCGTGGCAACACTCGGCACCACCTACACGCAGGCCGGCCAGGTCAGTCTCCCCGCGGTCATCGGCGCCATCGGCACCGGCCTGATTGCCTGCGCCCTCCTGATGGCCAACAACGTCCGGGACATCCCAACCGATACCAAGGCCGGCAAACGGACCCTCGCCGTGCGCCTCGGCGACAAGCACGCGAGGGAAAGCTACGTGCTGATGCTCGCCGTCGCGATCCTCCTGGTGGTGATTCTGGCGCCCACACGGCCTTGGATGCTCATTGTCCTGCTGCTCATCCCTGCCAGCCTGATGCCGTCCTGGCTGATGATCAACGGCCGCAAGCGCAAGAGCCTCATCCCCGTCCTGAAGCAGACCGGCCTGATCAATCTTGGCTATGCCGCGTTGTTCTCACTGGGCCTGTTCCTGAGCCACGGGCTGTAG	MATAAQWIQGARPRTLPAAIAPVLIGTAAAFEMDAFRPLNALLAALVALLLQVGVNYANDYSDGIRGTDENRVGPLRLVGSGAASAEHVKYAAFGAFGLAMLLGLVLVVMTQTWWLLLVGVGCIMAAWGYTGGKNPYGYMGLGELFVFVFFGLVATLGTTYTQAGQVSLPAVIGAIGTGLIACALLMANNVRDIPTDTKAGKRTLAVRLGDKHARESYVLMLAVAILLVVILAPTRPWMLIVLLLIPASLMPSWLMINGRKRKSLIPVLKQTGLINLGYAALFSLGLFLSHGL	PGPT0009395_2280	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
D1-17_00793	1134	menE_1	COG0318	putative 2-succinylbenzoate--CoA ligase	GTGAACATCGAACCAGCCCTGAAGGCCCTGGCGGCAGCCCTCCACGGCGAGGGTCCCGCCGTCGAGCTCTCCGCCGGCCCCAACGGTGAGCCCGTGGTGTCTTATGTGGAAACGCCCGGGATCGAGGACGCCGCGGTGGTGGTCTGCACGTCGGGCTCCACCGGCACCCCCAAGGCGACGGTCCTCAGCGTTGACGCCCTCGCCGCCTCCTCCATGGCCACGGCGTTCGCCCTCAAGGGCGAGGGCCAGTGGCTCCTGGCGCTCCCCCTGCAGTACGTTGCAGGCGTCCAGGTGCTGGTGCGGTCGCTCTTCGCCGGCACGCGCCCGTGGGCCATGGACCTCTCCAACGGGTTCACCACGGACGGTTTCACTGCTGCCGCCCTGGAACTGACGGACAAGATCCGTTTCACGTCCCTGGTCCCGGCACAGCTGAAGCGGCTGCTCTCCGACCCCTCGGCCGACACCCTCGCCGTGCTGCGCCGCTTCAACGGCATCCTGCTCGGCGGCGGGCCCGTTTCAACGGCGCTCCTCGAATCAGCCCGGGATGCCGGCCTGCGCGTGGTCACCACGTACGGCGCGGCGGAAACAGCCGGCGGCTGCGTGTACGACGGTTTTCCCCTCGAAGGCGTGGCGGTCCGGGTCGCGGAGGACGGTAGGATCCACCTCGGCGGCGCCACCCTTGCTGCCGGTTACCTTGGCGCGCCCGGGCTGACCGCCGCAGCCTTTACCGACGACGACGGCGTCCGCTGGTACCGCACCAACGACCTCGGGACACTGGACGCCGACGGCAGACTGACTGTGCTGGGGCGCGCCGATGACGTGATCATCACTGGCGGCGTCAAAGTGTCCTCCCTGCATATCCAGGAAGAGCTGGAGAAGTTCGATGGCGTGAGGGCGGCTTTCGTGGCTGGCGTCGAGTCGGCGACGTGGGGACAGGCTGTCGCCGCGTACGTGGCAGTATCCGATGCCGCCTCAGCCCAGGGCAGCGCCCTGGCTGAACAGTGGCACAGCACCTTGGGCCTGATTGCCCCCAAGACCGTCCTGCCGGCAAGCGACCTGATCATGCTGCCCAACGGTAAACCCGACAGGCTGGCGATGCTTGAACGGCTCAATGCCCTGCATCAGGGAAAATAG	MNIEPALKALAAALHGEGPAVELSAGPNGEPVVSYVETPGIEDAAVVVCTSGSTGTPKATVLSVDALAASSMATAFALKGEGQWLLALPLQYVAGVQVLVRSLFAGTRPWAMDLSNGFTTDGFTAAALELTDKIRFTSLVPAQLKRLLSDPSADTLAVLRRFNGILLGGGPVSTALLESARDAGLRVVTTYGAAETAGGCVYDGFPLEGVAVRVAEDGRIHLGGATLAAGYLGAPGLTAAAFTDDDGVRWYRTNDLGTLDADGRLTVLGRADDVIITGGVKVSSLHIQEELEKFDGVRAAFVAGVESATWGQAVAAYVAVSDAASAQGSALAEQWHSTLGLIAPKTVLPASDLIMLPNGKPDRLAMLERLNALHQGK	PGPT0009380_1424	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911	NA	NA
D1-17_00794	954	menB_1	COG0447	1,4-dihydroxy-2-naphthoyl-CoA synthase	GTGAGCAACCAAATTCCCGCCAAGGTATCCGACGTCTTCGACCCGTCACGCTGGCGCACTGTGTCTGGCTTCGACGACTTCCAGGACATGACCTACCACCGCCAGGTGGAGCGGGACGCGTCCGGTGCCGTGGTGCGGGACCTGCCCACCGTGCGCATCGCCTTCAACCGCCCGGAGGTCCGCAACGCGTTCCGTCCCGGCACGGTCGATGAGCTGTACCGCGCCATGGACCACGCCCGGATGACGCCGGATGTGGCCACCGTGCTCCTCACCGGCAACGGCCCCTCCCCCAAGGACGGCGGGCACTCCTTCTGCTCAGGCGGGGACCAGCGGATCAGGGGGCGGGAAGGCTACAGGTACGCGTCCGGCGAGACCCAGGAGACTATCGACCCAGCCCGCGCCGGGCGTCTTCACATCCTGGAAGTCCAGCGGCTCATGCGGACCATGCCCAAGGTGGTCATCGCCGTCGTCAACGGCTGGGCGGCCGGTGGGGGCCACTCCCTGCACGTGGTCTCGGACCTGACCATCGCCTCGCGCCAGTACGGCAAGTTCAAGCAGACCGACGCCACCGTGGGCAGCTTCGACGCCGGCTACGGCTCCGCCCTGCTTGCCCGCCAGATCGGCCAGAAGACGGCGCGCGAAATCTTCTTCCTGGCCCGCGAATACTCCGCGGAGGACATGGTGCGGGTGGGCGCGGTGAACGAGGCCGTGGACCACGAACGGCTCGAGGAGGTTGCCCTCGAATACGCCGCGGACATCGCCCGCCAGTCCCCGCAGGCCATCCGCATGCTTAAGTTCGCCTTCAACCTCGCCGACGACGGCCTGGCCGGCCAGCAGGTCTTTGCCGGGGAAGCCACCCGCCTGGCCTACATGACCGACGAAGCGGTTGAAGGCAAAGAGGCGTTCCTCGAGAAGCGGGACCCGGATTGGTCCAGGTTCCCGTACTACTTCTAG	MSNQIPAKVSDVFDPSRWRTVSGFDDFQDMTYHRQVERDASGAVVRDLPTVRIAFNRPEVRNAFRPGTVDELYRAMDHARMTPDVATVLLTGNGPSPKDGGHSFCSGGDQRIRGREGYRYASGETQETIDPARAGRLHILEVQRLMRTMPKVVIAVVNGWAAGGGHSLHVVSDLTIASRQYGKFKQTDATVGSFDAGYGSALLARQIGQKTAREIFFLAREYSAEDMVRVGAVNEAVDHERLEEVALEYAADIARQSPQAIRMLKFAFNLADDGLAGQQVFAGEATRLAYMTDEAVEGKEAFLEKRDPDWSRFPYYF	PGPT0009385_311	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661	NA	NA
D1-17_00795	441			hypothetical protein	ATGGGACTGAACATCCAGATCGCAGTGGACTGCAAGAATCCGCACGACCTCGCCGACTGGTGGGCTGAGACGCTGGACTGGGCCGTGGAGCCGCAGGACGAGGCGTTCATCCGGTCAATGATCGAGAAGGGCTACGCCACCGAGGCGGCAACAATGACCCACCACGGCAAGCTCGTGTGGAAGGACGGCGCGGCGATCAGGCCCAAAGAGGAGCTCGACGCCACGGCGCCCGCCCGGCGACTGCTGTTCCAGACCGTTCCCGAGCAGAAGACCCTCAAAAACAGGGTTCACTGGGACGTGCGCCTCGACGGCCGGGACAAGGACGAGGTCCGCGCCGAGCTTGAAGCCCGCGGCGCCACTTTCCTTTGGACCGCCAGCCAAGGCCCCCACTCCTGGTACACGATGGCCGACCCCGAAGGCAACGAGTTCTGCATCAGCTGA	MGLNIQIAVDCKNPHDLADWWAETLDWAVEPQDEAFIRSMIEKGYATEAATMTHHGKLVWKDGAAIRPKEELDATAPARRLLFQTVPEQKTLKNRVHWDVRLDGRDKDEVRAELEARGATFLWTASQGPHSWYTMADPEGNEFCIS				NA	NA	NA	NA	NA
D1-17_00796	759			hypothetical protein	GTGACAACCCGACGGCCCCTCCCCGCTCCGCGCCCGGACCTCTACCAATTTTCGCCGCTCGATTTCACCACGGTGGGGCTGTATGTAGCGATCGCTGCTTTTTTTGCGGTTGCCGGGGAACTGCTCCTGCCGCTGCTCAGGCTGCTGGTGCCCACGCCTGCCGCCGCGTCATACGCCGTGAACCTCCTGTTCTACGGCTGCGTCGGCATCCTGGCAGTGTTTGCAGCCCGTCAGGTGGTGGCGCGGGACCTGAAAGTGCTGGCAACGAGGCCGTGGTTCACCCTTGCGATGGTGCCGGCGGCCGTCGTCGTCATGATGATCTTCACGGCAATCCTCGTGGTCGTCGCGGGAACCACGGAAACTTCCGCCAACCAGGCCGGGCTGCAGGAACTCATCCAGCAGGTTCCGGCGTGGCTCATGGTGCCGCTCATCGTGGTGGTAGGCCCCTTTGTGGAAGAGTACATTTTCCGGCACCTGATGATCGGCAAGCTCAGCCGCCGCTGGAACATCTGGGTCTGCTGCACGCTCTCCGTTGTGCTTTTCGCCGCCCTGCACATCGTGGGCCAGGAGGCGCTCACGCTGGCAGCACTGATGCCTTACCTCGCCATGGGCGCCACGCTGGTTTTCGTGTACGTCTGGACCGGCAAGAACCTGATGTTCTCCTACTTCGTCCACGCCGCAAAGAACCTGGTCGCCGCCATCTTCCTGTACACCATCCCGCCGGAACTGCTTGACCAGATGCAGCAGGTCCAGGGCTGA	MTTRRPLPAPRPDLYQFSPLDFTTVGLYVAIAAFFAVAGELLLPLLRLLVPTPAAASYAVNLLFYGCVGILAVFAARQVVARDLKVLATRPWFTLAMVPAAVVVMMIFTAILVVVAGTTETSANQAGLQELIQQVPAWLMVPLIVVVGPFVEEYIFRHLMIGKLSRRWNIWVCCTLSVVLFAALHIVGQEALTLAALMPYLAMGATLVFVYVWTGKNLMFSYFVHAAKNLVAAIFLYTIPPELLDQMQQVQG				NA	NA	NA	NA	NA
D1-17_00797	1095			hypothetical protein	ATGGCGTTCGGTAGAATCTTCGGTATGCCTAACTTTCTGTTTCGGTGTGCCAAAGGTGACCGCCGATCCACAGTCTCTCGAAGTGCGACGGCGCGCCGCGACTCCGATGCCCCCCGTGCCCGCACTTCCGCCCCGCCTGCAGCACCGACCACCGCTGCAGCAAGCACGGGCGTGCGGCGGGGCCGGAGCGTAAGCGCCGCTGCCGCCGTCGTGCTCTTTTGCCTCGCGCTCGTGGCGTGCGGAGGCAATACGCCGGGAAGCGGCGGGGATGAGCGGCCGGTGGTGCTGACCACGTTCACCGTGCTGGCTGACGTGGCAAAGAACGTTGCCGGCGACAAGCTGCGCGTGGAGTCGATCACCAAGGCAGGGGCGGAAATCCACGGCTACGAACCAACGCCGGGGGACATCCGCAAAGCGTCGCAGGCTGACCTCATCCTGGACAATGGCCTCAACCTCGAAGCCTGGTTCGCCCAATTCGTCGAGGGCCTGGATGTGCCCCACGCCGTGGTGAGCGAAGGGGTGGAGGTGATGTCCATCAGCGAGGACGCCTACCAGGGCAAGCCGAACCCCCACGCCTGGATGTCGCCGCTGAACGTCCAGGTCTATGTGGACAACATGGTGAAGGCCTTTTCCGAACTGGACCCCGGCAACGCCAAGGCGTTCGAGGCCAATGGCAAGGCCTACAAGGCGAAGCTGCAGGCCGTGCAGGATGAGATGACGGCAAAGCTCGCCGCTGTCCCCAAGAACCAGCGGGCGCTCGTGACCTGCGAGGGAGCGTTCTCTTATCTCGCCCGGGATGCCGGCCTCCAGGAGGTCTACATCTGGGCCGTTAACGCGGAACAGCAGGCCACCCCGCAACAGATCACCGAGGCCATCGGTTTCGTACGGAAGAACAAGGTTCCGGCCGTCTTTTGTGAATCGACCGTCTCCGATGCCCCCATGCGGCAGGTGGTGGAAGCCACCGGCGCCAGGTTCGGCGGCGTGCTCTACGTGGACTCTCTCTCCGACGCCGACGGACCCGTCCCCACATACCTCGACCTCATCAGGCACGACTCCAAGGTGATTACCGCTGCATTGAATGGTGGGCAGCCATGA	MAFGRIFGMPNFLFRCAKGDRRSTVSRSATARRDSDAPRARTSAPPAAPTTAAASTGVRRGRSVSAAAAVVLFCLALVACGGNTPGSGGDERPVVLTTFTVLADVAKNVAGDKLRVESITKAGAEIHGYEPTPGDIRKASQADLILDNGLNLEAWFAQFVEGLDVPHAVVSEGVEVMSISEDAYQGKPNPHAWMSPLNVQVYVDNMVKAFSELDPGNAKAFEANGKAYKAKLQAVQDEMTAKLAAVPKNQRALVTCEGAFSYLARDAGLQEVYIWAVNAEQQATPQQITEAIGFVRKNKVPAVFCESTVSDAPMRQVVEATGARFGGVLYVDSLSDADGPVPTYLDLIRHDSKVITAALNGGQP	PGPT0004350_54	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004350-mntC1-K11601	NA	NA
D1-17_00798	867	mntB_1	COG1121	Manganese transport system ATP-binding protein MntB	ATGAGCACGTCGATAACCCGTTGGCAGGAAGGGCAGGAGCAGTCCGCACCGCGCGCGGCCATCCTTGTGGAGGGCGTCACCGTGCACTATGGCGAGGTGCTCGCCCTGGATTCTGCCTCCCTCAACCTCGGCCACGCACGGATCTGCGGCCTGGTGGGGATGAACGGCTCGGGAAAGTCCACGCTTTTTAAAGTGATCATGGGCATGCTCAGGCCTGACGCCGGCCGCGTGCTGGTGAACGGTGCGCCGCCGTCGAAGGCGCGCAGGGAGGGCGTGATCGGCTACGTCCCGCAAAGCGAGGACGTGGACTGGCAGTTCCCGCTGTCCGTGAAGGACGTAGTGATGATGGGCCGTTACGGGCACCAGGGATTTACCCGGCGCCCCTCCAAAGCCGACAGGGCCGCCGTCGACGAGGCCCTGGAACGGGTGGAACTCTCCGAGTTCGCCGGCCGGCAGATCGGCCAGCTGTCGGGCGGGCAGAAGAAGCGCGCCTTCGTGGCGCGGGGAATAGCCCAGGGCGCCTCGATGATGCTGCTGGACGAACCGTTCGCGGGGGTGGACAAGCGCTCTGAAGCCACCATCACGCGCCTGCTGCGTGAGCTGGCCGCGGACGGCTGCACCATCCTCATCTCCACCCATGACCTGCACGCCCTTCCGCAGCTGTGCGACGAAGCCGTGCTCCTGATGCGCAAGGTGCTGATGCACGGCGCACCAGAGGTGGTGCTGCAGCCGGAGAACCTCGCGATGGCGTTCGGTCTGGACGTGCTGAACCGGGACGGAACAGGATACCCGCGGCCCGGGCTGCAGCAGCCTGCACACCACGTCGACCCCGTCGCCGACGTCCTCGACCGCGCGCGGAGGGATTGA	MSTSITRWQEGQEQSAPRAAILVEGVTVHYGEVLALDSASLNLGHARICGLVGMNGSGKSTLFKVIMGMLRPDAGRVLVNGAPPSKARREGVIGYVPQSEDVDWQFPLSVKDVVMMGRYGHQGFTRRPSKADRAAVDEALERVELSEFAGRQIGQLSGGQKKRAFVARGIAQGASMMLLDEPFAGVDKRSEATITRLLRELAADGCTILISTHDLHALPQLCDEAVLLMRKVLMHGAPEVVLQPENLAMAFGLDVLNRDGTGYPRPGLQQPAHHVDPVADVLDRARRD	PGPT0004340_16	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004340-mntA1-K11603	NA	NA
D1-17_00799	876	mntB_2		Manganese transport system membrane protein MntB	GTGGATCCCATCAGCCTGTTTCTGGAGCCACTCGGCTATGACTTCATGGTCCGGGCCATCCTCACCACGGCGCTCGCCGCCATCGTGTGCGCGGTCCTGAGCTGCTGGCTCGTCCTGATCGGCTGGTCGCTCATGGGCGACGCCGTCTCGCACGCCGTGCTTCCCGGCGTCGTGCTCGCGTACATCGTGGGCGCGCCGTTTGCGCTGGGAGCACTGGTGTTCGCGCTGATTGCGGTGACCATGATCGGGGTGGTCCGCAGCACGAGCCGCGTGAAGGAAGATGCCGCGATCGGCATCGTCTTCAGTTCGCTGTTCGCGCTCGGCCTGGTCCTGATCTCCGTGACGCCCAGCCAGACGGACCTGAACCACATCATCTTCGGCAACCTGCTGGGCGTCAGCGTTCCCGACCTCATCCAGGTGCTGGTGCTCGGGGTGGTCGCGTTCGCCATCCTCATCCTGAAGCGCCGCGACCTCACCCTGTACGCGTTCGACCCCACGCACGCGCATGCCATCGGGCTTTCCCCCAAGCGCCTCGGTGCGCTGCTGCTGGGCCTGCTCGCTTTAACGTCGGTGGTGGCGCTGCAGACCGTTGGCGTGGTGCTGGTGGTGGCCATGCTGATCATCCCGGGCGCCACGGCGTACCTGCTGACAGACCGGTTCTCCCGCATGCTCGTGATCGCCCCGTCCGTTTCAGCGGCCTGTTCGGTTGCCGGGATTTATTTCAGCTACTACCTGGACACCGCCTCTGGCGCCATGGTGGTGCTCACGCAGGGTGCCGTCTTCGCCGTCGTCTATCTCTTCAGTCCCCGGCAGGGATTGATCGGCACCCGGATCGCCAAGGCCCGCCGCAGGAAAGCGGCTCTCCTCGCCGCTTGA	MDPISLFLEPLGYDFMVRAILTTALAAIVCAVLSCWLVLIGWSLMGDAVSHAVLPGVVLAYIVGAPFALGALVFALIAVTMIGVVRSTSRVKEDAAIGIVFSSLFALGLVLISVTPSQTDLNHIIFGNLLGVSVPDLIQVLVLGVVAFAILILKRRDLTLYAFDPTHAHAIGLSPKRLGALLLGLLALTSVVALQTVGVVLVVAMLIIPGATAYLLTDRFSRMLVIAPSVSAACSVAGIYFSYYLDTASGAMVVLTQGAVFAVVYLFSPRQGLIGTRIAKARRRKAALLAA	PGPT0004345_117	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004345-mntB1-K11602	NA	NA
D1-17_00800	1788			hypothetical protein	ATGAAAAAAACAATACTGACGGCTGCCCTGCTCCTGAGCTTCGCGGCTGGATCACTGACGGTCTCGCCGGCCCTCGCCGAGGATTCCACGACTCAGCCGGGCAGCCCTACGGACCCGGCCAGCACTGCGGAGGCAACACCGCTGGCGCCGACTCCAGCCGGGACGGCCTCCGTGGCACCGCTGCCGTCAGACTCTGAGACGTCGTCGCCCTCGGTCACACCCACTCCGTCTGCCACGCCGTCCGAGCCCACGCCGTCACCGTCGGTCACGCCGTCCGTGACGCTGTCGCCGCCGGTCTCACCTGCCCCGAAGGCGACAACACTGGTTGAGCCGCCGGCCGAGCCTGCACCGGTTGTCGTTAAAGGCGCCATCGCCGTGAAGTGGCAGGCCCTGAACGGCGCCGCCGGCGTTCTCGGCGCTCCTGTCGCGAATGAAGTGTGCAGCGCAGGTCTCTGTGGGCAGACGTTCAAGGGTGGAACCATGTACTGGACGGCGGCCACGGGGGCACATCCCGTCCTGCTGACAGCGGGCAAAACGGGTCCCCACTGGTATGCCAACGGCCGCGGCCGTCTCTTCGGCTATCCCGTCACAGATGAAGTGGCCGTCGCCGGAGGAACTGTCCAAAAGTTCTCCACCGGCAGGATGCTGGCTTCGTCCACCAAGGGTGTTTTCCAGATTTGGCTGAAGGGGGCCATCGGAAGCCGTTGGAACACACTGGGAGCGGTCAGCGTGGTCGGCCTTCCGCTGTCCAAGGAAACCTGCGGTCAAAGGAACGGCGGATGCTACCAAGTCTTTTCCAAGGGAAACATCTACTGGAGCCCAGCCACCGGAGCACGCATGGTCCGTGGGCTCTATTACACCCGCTGGGTGGGCCTGGGCGGCCTTAACGGCCGCATGGGTTACCCCACCAGCGACTTGGCCTGCGGAAAACCGGCTGGTGGGTGCCTCCAGTCGTTTCAGGGCGCCACCGTCCTCTGGTCCCCGGCAAGCGGGGCATGGGTCACCAAGGGTGGCATCGGTGCCCGGTACATGAGTGTCGGTGGGATGCGGAGCGCGCTCGGATACCCCACCTCCAACGAAAAATGCACCCCCGGACAATGCATCCAGTCGTTCCAGCGCGGCTATATCGGCTGGAACGCCGGCGGGACACGGATCTATGCCATGACCGAGTGCGCCAAGCTCAACAACGGGCGGACCAAATACTCCGCGTACGGTGCAAACCGCGTCCTGCTGACGTTCACCTCCGGCTACAACCGGTCGTACGCCACCAACATCTACTGCATGCGGGTGGCGGGGCTCTACGTTGCCGACTGGAAGACCGACGGTTATGTGGGCGCGTCCGGCTTCAAGCCGCCGGGAGTGCCTTCCGGCCCCACCCGCTACCTCTTCTCCCCCACCGGTTCGTACTCAGTGACCGAAGCCTTTGGACTGGGCAATCCCGGGACAAAGCTGGCTTACCGCACGCTGAACCCGAACTCCCGCTGGGGCGGAAACCCCTGGACGGCAACGTACAACAAGTACTTCGAGTCCTCCTCGTGGGTGGGCTGGGACGAGAACATGTGGTACTTCGCGACCCGCTCCACACACGACTACCGGCAGGGTGTGGTGATCAACTACAACCGGCCGAACATTGTGCAGAACGCGGGCTTCGCCATCTTCCTGCACATGAACAAGGTCCCGACGGCAGGCTGCATCTCCCTGGATGACTGGGCAGTCGTCGACTACATCAGGAAATCGACTCCTGGTGACCGCATCATCATGGGCACCTACAACGACATCTTCCGGTAG	MKKTILTAALLLSFAAGSLTVSPALAEDSTTQPGSPTDPASTAEATPLAPTPAGTASVAPLPSDSETSSPSVTPTPSATPSEPTPSPSVTPSVTLSPPVSPAPKATTLVEPPAEPAPVVVKGAIAVKWQALNGAAGVLGAPVANEVCSAGLCGQTFKGGTMYWTAATGAHPVLLTAGKTGPHWYANGRGRLFGYPVTDEVAVAGGTVQKFSTGRMLASSTKGVFQIWLKGAIGSRWNTLGAVSVVGLPLSKETCGQRNGGCYQVFSKGNIYWSPATGARMVRGLYYTRWVGLGGLNGRMGYPTSDLACGKPAGGCLQSFQGATVLWSPASGAWVTKGGIGARYMSVGGMRSALGYPTSNEKCTPGQCIQSFQRGYIGWNAGGTRIYAMTECAKLNNGRTKYSAYGANRVLLTFTSGYNRSYATNIYCMRVAGLYVADWKTDGYVGASGFKPPGVPSGPTRYLFSPTGSYSVTEAFGLGNPGTKLAYRTLNPNSRWGGNPWTATYNKYFESSSWVGWDENMWYFATRSTHDYRQGVVINYNRPNIVQNAGFAIFLHMNKVPTAGCISLDDWAVVDYIRKSTPGDRIIMGTYNDIFR				NA	NA	NA	NA	NA
D1-17_00801	480			hypothetical protein	ATGAGAAAAAGAGCACTCCTGCCTGCAGTTTTGCTGCTGGCAGTTGCCGGGTGTTCAGGCGGCGGTTCCGGTCCTGGCGGACCGGGTGCAAGCGAGCCTGCCGCACCTACGGCAACAACGGGTTCGACGGCGGGACCGGAAACCCCGTTGATCTCCGCTCCACCGACCACGGCACCATCCTTGCCGACGGACGTATCAACAACACTGAACGCGATCAAAGACCTGCAAAAACACACCTGCTCAGCGGGTGCCGACGGGTCCTGGACCTTCAAAGGGACCTTGGTCAACGCGTCGGAGAAGGCCAAGACCTACACGGTGGCAGTTGCGGTAACTGTGGGGGCGGCTGTTCAGGGCCACACGCTCATCACGGAAACCGTTGCGGCAGGGAAATCGGCTGAAGTGTCTGCCGAGAACTTCGCGAAAACCACTGGCTCGGCAGGTCAGTGCGAACCGGTCGTCTCGGCAAAGGATGCTCCATGA	MRKRALLPAVLLLAVAGCSGGGSGPGGPGASEPAAPTATTGSTAGPETPLISAPPTTAPSLPTDVSTTLNAIKDLQKHTCSAGADGSWTFKGTLVNASEKAKTYTVAVAVTVGAAVQGHTLITETVAAGKSAEVSAENFAKTTGSAGQCEPVVSAKDAP				NA	NA	NA	NA	NA
D1-17_00802	1461	ansP2_2	COG1113	L-asparagine permease 2	GTGCCACAAATCACCCCCACAGAACTTGAGAGCCGGACGGCCCCATCCGTCGCCGTCGACTCCACCCTCAGCGCCGAGGGCTACAAAAAGACCCTGGGCAGGCGCCACGTCACCATGATCGCCATGGGCGGCGCCATCGGCGTCGGCCTCTTCATGGGAGCCGGCGGACGCCTGGCCTCCACCGGCCCGGCCCTGATCTTCTCCTACGCAATTGCCGGCGTCATCGCCTACCTCCTCATGAGGGCACTGGGCGAGCTCATCATGTACCGGCAGACCTCAGGATCCTTCGTCAGCTACGCCGGCGAAATGTTCGGCAAGAAGGGCGCATTCCTCTCCGGGTGGATGTACTTCATCAACTGGGGCATGACCGGCATCGCGGAACTGATCGCGATCGGCCTGTACTTCCAGTTCTTCTTCCCGAACGTGCCGGTCGAAGCCTCCGCCATCGCCGCGCTGGCGCTCCTCGTGGCCGTGAACCTGCTCAGCGTCAAGGCGTTTGGCGAGTTCGAGTTCTGGGCCTCCTGCCTCAAGGTCGGCGCCATCCTGATCTTCCTGGCCGTCGGTACCTTCATGGTGCTGACCAACGCCCAGGTCGGCGACGGCAACGCCTCCGTGGCGAACCTCTTCGCGGCCGAGGGCGGGATGTTCCCCAAGGGCGCCCTCGTCATGGTCCTGGTACTCAACGCCGTGATCTTCGCCTACAACGGCATCGAACTCGTCGGCATCACCGCAGGCGAGATGCAGAACCCGGAACGTGAAGTGCCCAAGGCGATCCGCGCCGTCGTGCTCCGCATTGTGGTCTTCTACGTCGGTTCCGTCACCCTGCTCGCCATGCTCCTGCCGTCCGACCAGTACAAGGCCGGCGTATCCCCGTTCGTCACCGTCTTCGGCCAGATGGGCCTCGCCTGGGTTGGCGACGTCATGAACATGATCGTTATCACCGCCGCACTGTCCTCCTGCAACTCCGGCCTCTATTCGATCGGCCGCGTCTTCCGCACCATGGCCAACAACGGCCACGCGCCGCAGTGGCTCACCAGGATGTCCTCGCGCCATGTTCCCTACGCCGCGATCCTGGCCATCGCCGCGTTCTACCTCGTGGGCATCCTGCTCAACATCTGGCTGGGCGGCTCCCACGCCTTCGACCTGGCACTGAACACCGCCTCCATCGGTGTCATCTTCACCTGGGGCGCCATCTTCGCCAGCCAGATCGCGCTGCGCCACCGCAAGGGCGTGACCTCCAGCCTGCCGATGCCCGGGTCCCCGTGGACCAGCTGGGGCGGACTCCTGGGTCTGCTCGCCATCACTGTGCTGATCGGGTTCGACACCATGACCAGCAAGAGCGGTGAGGTGTTCTACCTCGGCCTCTGGACCCTTGCCACCATCCCCTTCTTCGCAGTGCTGCTGTGGCTTGGCTGGCAGAAGGTCAAGAACAACGAGCCAAAGAGCGAGCTGTACAGCTAG	MPQITPTELESRTAPSVAVDSTLSAEGYKKTLGRRHVTMIAMGGAIGVGLFMGAGGRLASTGPALIFSYAIAGVIAYLLMRALGELIMYRQTSGSFVSYAGEMFGKKGAFLSGWMYFINWGMTGIAELIAIGLYFQFFFPNVPVEASAIAALALLVAVNLLSVKAFGEFEFWASCLKVGAILIFLAVGTFMVLTNAQVGDGNASVANLFAAEGGMFPKGALVMVLVLNAVIFAYNGIELVGITAGEMQNPEREVPKAIRAVVLRIVVFYVGSVTLLAMLLPSDQYKAGVSPFVTVFGQMGLAWVGDVMNMIVITAALSSCNSGLYSIGRVFRTMANNGHAPQWLTRMSSRHVPYAAILAIAAFYLVGILLNIWLGGSHAFDLALNTASIGVIFTWGAIFASQIALRHRKGVTSSLPMPGSPWTSWGGLLGLLAITVLIGFDTMTSKSGEVFYLGLWTLATIPFFAVLLWLGWQKVKNNEPKSELYS	PGPT0000815_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
D1-17_00803	177			hypothetical protein	ATGGGTATCGCAGACAAGATTTCGAATGCAGCGGAAGAGCTCGGCGGCAAGGCCAAGGAAGCGGCGGGTAACGCAACTGACAACGACCGGCTGAAGGCTGAAGGCCAGAAGGATCAGGTTGTGGCCGATGCCAAGAAGGTCGGCGAAGGCGTCAAGGACGACTTCAAGAGGGACTAG	MGIADKISNAAEELGGKAKEAAGNATDNDRLKAEGQKDQVVADAKKVGEGVKDDFKRD				NA	NA	NA	NA	NA
D1-17_00804	459			hypothetical protein	ATGAATCACAGCACCAGCCTGACGCAGCACGTGAACGCAAGCGCCGACAAGGTGTGGTCGGTCATCTCCGACATCCCCGGCTCGGCCGCGACGCTTTCCGGCGTGGAATCCATCCAGATGGTAAGCGAAGGTCCCTATGGTGAGGGGACCCGGTGGAAGGAAACGCGCTCCATGCTGGGCCGCCGGGAAACCCTGGAAATGTGGGTCGCCGAGGCGGACCGGCCGCGGAGCACCACGGTCAAGGCGCTGCACGGCGGCGCCGAGTACACTTCCCGGTTTGAACTGGCCGAGCGCAGTGGCGGAACCGACCTCAGGCTGACATTCGGCGCCGAGGTCCTCCGGCCTACGGTGGTCAGCAGGGTCATGATGGCGCTGTTCGGCAGGCTTGGCCTGAAGGCCACGCGAAAGTCCCTGGCGAAGGACCTGGCGGAGATCGCGGCGAAGGCGGAGTCGCTGTAG	MNHSTSLTQHVNASADKVWSVISDIPGSAATLSGVESIQMVSEGPYGEGTRWKETRSMLGRRETLEMWVAEADRPRSTTVKALHGGAEYTSRFELAERSGGTDLRLTFGAEVLRPTVVSRVMMALFGRLGLKATRKSLAKDLAEIAAKAESL				NA	NA	NA	NA	NA
D1-17_00805	1212	paaJ	COG0183	3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase	ATGGTCGAGGCTTTTCTGGTTGGCGGTGCCCGTACCCCGGTAGGGCGTTATGGAGGCGCGCTTTCGGCAGTGCGGCCGGACGATCTTGCTGCATTGGTGGTCCGCGAAGCTGTGGCCCGTGCGGGTGTGGACCCGGATGCCATTGACGAAGTCATTCTCGGCAACGCCAACGGCGCGGGCGAAGAGAACCGTAACGTCGCCCGCATGGCTACCATCCTGGCCGGACTTCCCCTCCACATTCCCGGCATCACGGTAAACCGCCTCTGCGCCTCGGGACTGAGCGCCATCATCATGGCAAGCCAGATGATCAAGTCCGGGGCCGCTGACATCGTGGTTGCCGGCGGCGTGGAGTCCATGAGCCGCGCGCCGTGGGTGCAGGAGAAACCACAGACCGCTTTCGCGCGGCCAGGGGACATCTTCGACACCTCCATTGGATGGCGCTTCGTCAACCCCGCTTTCAAGAAGGGCGAGCTGTCCCGCGACGGCAAGATGACCTTTTCAATGCCGGAAACAGCGGAGGAAGTCGGCCGCGTTGACGGGATCTCGCGCGAGGACGCCGACGCCTTTGCCGTCCGGTCCCACCAGAAATCCATCGCCGCGATCGAGGCCGGCAGGTTCAAGGACGAAATCGTCCCGGTGACGGTCAAGACCAAAAAATCCGAGACTGTCGTGGACACGGATGAGGGCCCTCGCGCTCACACCTCCATGGAGGTTCTGGCCGGACTTCGTCCGGTAGCGCATGGAGGTTCGGTGGTCACGGCAGGTAACTCCTCCTCCCTCAACGACGGTGCCTCCGCCATCATCGTTGCCTCTGAAGCAGCCATCCAGCGGCTGGGCCTGACTCCGCGTGCCCGCATTATTGACGGGGCCTCCGCCGGGTGCGAGCCGGAGATCATGGGCATCGGCCCAGTCCCGGCCACCCAGAAGGTGCTTAAGCGGAGCGGGCTCAGCGTCGGCGACTTGGGCGCCGTCGAACTCAACGAGGCATTCGCCACCCAGTCCCTGGCCTGCATGCGGCGCCTCGGGCTGGAGCCGGACATCGTCAACAACGACGGCGGGGCCATCGCTTTGGGGCACCCGCTGGGTTCCAGCGGGTCGCGGATTGCCATCACCCTGCTGGGCCGGATGGAACGCGAGGACGCGCGCATCGGCCTGGCCACCATGTGCATCGGCGTCGGCCAGGGCACCGCCATGCTGCTGGAGCGCGTGTAG	MVEAFLVGGARTPVGRYGGALSAVRPDDLAALVVREAVARAGVDPDAIDEVILGNANGAGEENRNVARMATILAGLPLHIPGITVNRLCASGLSAIIMASQMIKSGAADIVVAGGVESMSRAPWVQEKPQTAFARPGDIFDTSIGWRFVNPAFKKGELSRDGKMTFSMPETAEEVGRVDGISREDADAFAVRSHQKSIAAIEAGRFKDEIVPVTVKTKKSETVVDTDEGPRAHTSMEVLAGLRPVAHGGSVVTAGNSSSLNDGASAIIVASEAAIQRLGLTPRARIIDGASAGCEPEIMGIGPVPATQKVLKRSGLSVGDLGAVELNEAFATQSLACMRRLGLEPDIVNNDGGAIALGHPLGSSGSRIAITLLGRMEREDARIGLATMCIGVGQGTAMLLERV	PGPT0001565_1467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0001565-fadA|fadI-K00632	NA	NA
D1-17_00806	807	crt	COG1024	Short-chain-enoyl-CoA hydratase	GTGGCGGGCCCAGACAGCGCGAACGGACACTTAAGCACCCACAACTTCCGCACCCTCCTGGTGGAGGAGCGCGGCGACCGCCTGGTGGTGCTCCTCAACCGCCCGGAAGTCCGCAACGCGATCGACCAGCACATGGTGGACGAGCTCCATCTGGTCTGCGCGGCGCTCGAACAGAACCCGAGGGTCCTGATCATCTCCGGCGTTGACGGTGTGTTTGCCTCCGGGGCCGACATCGCCCAGCTGCGCGAGCGGCGGCGCGACGACGCCCTGCAGGGCATCAACTCAACCATCTTCGTGCGCATCGCCAAGCTGCCCATGCCTGTCATTGCGGCGCTGGACGGCTATTGTCTCGGCGGCGGTGCTGAACTGGCGTACGCCGCCGACTTCCGCATCGGCACGCCGGGCGTCCGGATCGGCAATCCGGAAACCGGCTTGGGCATTCTGGCTGCGGCCGGTGCCAGCTGGCGGCTAAAGGAACTCGTGGGCGAGCCAGTGGCCAAGGAAATCCTGTTGGCGGGGCGCGTCCTGCGTGCCGAAGAGGCGCTTGCAGTCAACCTCATCACCGAAATCCACGAGGCTGCCGTCCTGATGGATGGCGCGCACCAGCTCGCCGACCGAATCGCCCGCCAGGACCCGCTGGCCGTACGGATCACGAAATCCGTTCTCCATGCGCCTGCCGAAGCCCATCCGGTCATCGACCAGCTGGCCCAGGGCATCCTCTTTGAGTCCCAGGCCAAGTTCGACCGGATGCAGGCATTTCTGGATAAGAAGACAACCAAGAAAAACGAGATGAAGACACAGCCATGA	MAGPDSANGHLSTHNFRTLLVEERGDRLVVLLNRPEVRNAIDQHMVDELHLVCAALEQNPRVLIISGVDGVFASGADIAQLRERRRDDALQGINSTIFVRIAKLPMPVIAALDGYCLGGGAELAYAADFRIGTPGVRIGNPETGLGILAAAGASWRLKELVGEPVAKEILLAGRVLRAEEALAVNLITEIHEAAVLMDGAHQLADRIARQDPLAVRITKSVLHAPAEAHPVIDQLAQGILFESQAKFDRMQAFLDKKTTKKNEMKTQP				NA	NA	NA	NA	NA
D1-17_00807	873	hbd	COG1250	3-hydroxybutyryl-CoA dehydrogenase	ATGAGCAATTCCCTACGGCCAGCAAACCTTCCCGAAACTGTTGGAGTTCTTGGCGGTGGCCGGATGGGGGCAGGCATCGCACACGCCTTCCTGATCAACGGAGCCACCGTGGTGGTCATGGAGCGCGACGACGATGCTGCCGCCGGCGCCCGTACCCGGGTCGCCGACGCGGTGGCGAAGTCCGCGCAGCGTGGTCTCCTGGACGGATCTCCGGAGGAGGTTCTCGCCCGCTTCAGCACCTCCACCGACTATGCGGCCTTCGCCGGCTGCGGCCTCGTGGTGGAGGCAGTTCCGGAGGACTTCGAGCTGAAGGTCAGCGCCCTGAAGGCTGTGGAGGAGCAGTTGGCCGCCACGGCATTCCTGGCCTCGAACACCTCATCGCTTTCGGTGACCGATCTAGCAGCCCAGCTGCAACGCCCGGCCAACTTCCTCGGCCTGCACTTCTTCAACCCGGTTCCCGCATCCACGCTTATCGAAGTGGTACTTGGCGAGCAGACGTCCCCGGACCTGGCCGCCGCAGCCAAAACGTGGGTGGAGGCGCTCGGCAAAACCGCCGTCGTCGTCAATGATGCTCCAGGGTTTGCTTCCTCACGGCTGGGCGTGGCGATTGCCTTGGAGGCCATGCGCATGGTGGAGGAGGGCGTGGCCTCGGCGGCGGACATCGACAACGCCATGGTGCTCGGCTACAAGCACCCCACCGGGCCGCTGCGGACCACGGACATTGTGGGCCTGGACGTGCGGCTGGGCATTGCCGAGTACCTGCAGTCAACCCTGGGGGAGCGCTTCGCGCCGCCGCAGATCCTCCGGGACAAGGTGGCCCGCGGCGAGCTCGGCCGGAAAACGGGCAAGGGCTTCTTCGACTGGACTGACTAG	MSNSLRPANLPETVGVLGGGRMGAGIAHAFLINGATVVVMERDDDAAAGARTRVADAVAKSAQRGLLDGSPEEVLARFSTSTDYAAFAGCGLVVEAVPEDFELKVSALKAVEEQLAATAFLASNTSSLSVTDLAAQLQRPANFLGLHFFNPVPASTLIEVVLGEQTSPDLAAAAKTWVEALGKTAVVVNDAPGFASSRLGVAIALEAMRMVEEGVASAADIDNAMVLGYKHPTGPLRTTDIVGLDVRLGIAEYLQSTLGERFAPPQILRDKVARGELGRKTGKGFFDWTD	PGPT0006075_3918	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
D1-17_00808	228			hypothetical protein	ATGTCGGGTCAGAACCCAGATCCCCTCGAAGACAAGATCACCGGACTGGAACCCGGCGGGGGCGTGCCTCCCGGCGAGACACCGCCGGGGGAAGCGTCCACCGGGGGCCCGCAGGGCCACGATGAGGGAGCCCGGAAAGGGACACAGGTTGTAGCCATGGTGGCGATCGGCATCGTGGTCCTGCTGTGCCTGGTCTTCTTCATCGGATACATCGTCGGCCTGCTGTAA	MSGQNPDPLEDKITGLEPGGGVPPGETPPGEASTGGPQGHDEGARKGTQVVAMVAIGIVVLLCLVFFIGYIVGLL				NA	NA	NA	NA	NA
D1-17_00809	432			hypothetical protein	ATGATCAAGGTTGCGGGTACAGCCAGCGCATCGCTGCCGGCGCGGACAGCCTTCGCCTACCTGTCCGCATTTGAGAACACCGCCGAATGGGACCCTTGGACCGAAAAAGTGGAGAAGCTCTCCGAGGGCCCGCTGGCGCAGGGACACCGCTACCGCGCCGAGGTCCTGTTCCGGGGCAAGCGCCAGCTCCTGGAGTACGAGGTCATCGAACTGTTCGACAACCACATCAAGCTGCGCGGCGAAAACGAGAAAGTCGTCGCGTTCGATTCCGTCGATGTGCGTTCCACGGGACCGGGCTGCGACGTCCTCTACACCGCCGAGTTCAGCATTAAGGGGCCGATGAAGCTCCTGCAGCCCTTCCTCGGTCCCGCGTTCATGTCGTTGCGCGATCCGGCGTTGGAAGGACTGCGCCAAAAACTCAACTCCCTGTGA	MIKVAGTASASLPARTAFAYLSAFENTAEWDPWTEKVEKLSEGPLAQGHRYRAEVLFRGKRQLLEYEVIELFDNHIKLRGENEKVVAFDSVDVRSTGPGCDVLYTAEFSIKGPMKLLQPFLGPAFMSLRDPALEGLRQKLNSL				NA	NA	NA	NA	NA
D1-17_00810	894			Lipase 1	ATGGCTTCCCTGAATGAGGGGCTCATCGTGATAACCAAAATGCTCCGCCGCCACACCGCCCGCATGACGGGAGCCATTGCCGTTCTGGCACTCACCGCCGGCGTGTTCTCCACGCCTGCTTCCGCTGATCCTCCCCCGACGTATGTCGGTCTAGGTGATTCCTATGCAGCGGGAATCGGGGGCGGGGAATATGGATCAGCACCGGCATTTGGGGACGTCCCGCCATGCATACAGACCGATGCGGCCTACCCCGCCCAGCTCCGTGGCCTCAACCTGGCATGCTCCGGCGCCACAACGGCCGACGTCTCCAGAATCGTGACGGCTGCAGCAAATCATTCGAGCACGGCGCGCAGGGTAAAACATGCCTCCCATATCACCGTCACCGTGGGCGGGAACGACATCGGTGCTGCCGCCGCTACCGTTCAATGCGCGGGCCTGACCCCGGCTCCAGAATGCAACGCGGCGCTCTTCGAGTCGCTGGCCGTGAAGCTTCCGCAGCTGCCGGCGAAGATCAAGGCCATGGTGGCGGTCATTAAGAGCAAAGCGCCCCGGGCCAAGATTGTCCTGACAGGGTATCCGCGGCTGTTCACAGTCGATTCCATGGCTCCTGAGCAGAAGACCACGGCCACCACAATCAATGCTGCCGTCGATCTCCTCAACGCCACCCTTGCCGCCTCCGCCTTGGCGAACCGCGTGGGGTACGTGAGCGTCACGCAACGGTTCACCAACCACGGCGTCGGATCTGCGGATCCCTGGATCGTCGGACCGCCCCCGGTCTGCCTGGCGACACTCACCTGCGCCCCCGATGGCAGGCCTGCGGACACGTTCCACCCGAATGAGGCGGGACACAGCAACGGGTACGTTGCGGCGGTAGGGGCGGCGCTGACCCGTTAG	MASLNEGLIVITKMLRRHTARMTGAIAVLALTAGVFSTPASADPPPTYVGLGDSYAAGIGGGEYGSAPAFGDVPPCIQTDAAYPAQLRGLNLACSGATTADVSRIVTAAANHSSTARRVKHASHITVTVGGNDIGAAAATVQCAGLTPAPECNAALFESLAVKLPQLPAKIKAMVAVIKSKAPRAKIVLTGYPRLFTVDSMAPEQKTTATTINAAVDLLNATLAASALANRVGYVSVTQRFTNHGVGSADPWIVGPPPVCLATLTCAPDGRPADTFHPNEAGHSNGYVAAVGAALTR				NA	NA	NA	NA	NA
D1-17_00811	672			hypothetical protein	GTGAACGCCTGGCGCGTGGCTGGCTCTGTCTACCGGATGGGCCGGCGTGAGTGGCTCACCGCTGCCGGTTGGCAGCAGGCGTACGACGACGGCGTCCGCACGGTCATCGACCTCCGGAACCCCGCAGAGCGGCAGCCGCGGCCCGCGGATCCGGTTGTGGGGGAGGCACTGGCTCCCTTCGATGTCGTCCACGCTCCCACGGAGGACCCGGACCATCCGGAGTTCAAGGCACTCTGTGTCCCCTACCTCAACGATCCGGCCTTCTACGCTGCCAATGCGCGCTTCTTTCCGGACAGGGTGGCGGCTGTGTTTCGGAGCGTGGCCAAGTCTCCAGGCGGCGTCGTGATCCATTGTTCTGCCGGACGGGACCGCAGCGGCATGATCGCGGCCATGCTTCAGGACCTGGCGGGCGCAACTGATGAGGACATCGTTTCCGCCTACCAGGCGGCAATGCGCGGCATCAATGAGCGCCACCGAACTATGACCACACCGCACCCCCACGAACGCTACCTGGACCAAGACGAGCTGGCGCCGCTTTTGGAAATCCGGGGGGCGGGCGTTCTGCAGTTCGTGAGGTCGCTGAAGACACGGGACTACCTGCTCACGCACGGCATCACGCCTGCCGAGCTGGACAGGATCCTCTTGTTGCTCGATGCGGGGGTTGGCCTGTGA	MNAWRVAGSVYRMGRREWLTAAGWQQAYDDGVRTVIDLRNPAERQPRPADPVVGEALAPFDVVHAPTEDPDHPEFKALCVPYLNDPAFYAANARFFPDRVAAVFRSVAKSPGGVVIHCSAGRDRSGMIAAMLQDLAGATDEDIVSAYQAAMRGINERHRTMTTPHPHERYLDQDELAPLLEIRGAGVLQFVRSLKTRDYLLTHGITPAELDRILLLLDAGVGL	PGPT0014530_3150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0014530-yfkJ|wzb-K01104	NA	NA
D1-17_00812	2133			hypothetical protein	GTGAGGTTCCATGACTACGCCCCCGGCGCCCGCCGTGGGCCGCGCCGCCATGCTCCCTTGGGGATCGCGGCCGTGCTCGCCTTCGGTATTGCCGCGGCGTCAGCGCCGGCGCATGCAACCGGGGAAAGTCCGACGCCGGCAGTCACCATTGAGGCTGCCAACGGCCAGGCAGTGGCCAGGAAGGCGGCCACAGCCCCTGCACCTGGCGACGAGGGTTTGGCCGAGGCCGTCGCGCGCGACTTGGGCATGACCTTGGCGGAGTTCAACGCCGCGGGCGCGCAGGCGAAGCGTGCGGCCGAGGCCCTGGCCGTACTCCGGGACCTGCGCGGCTTCGTGGCGGTACGGTTGCGGGACGGACACATCCGGGTTGAAGGCTCGGGTCCGGAACTGGAAGATCGCGTTGCCGGGCTGAACAGGGCCGGCGGAACTGGAAGGGACGAGTTCGTCCTCACCGGCTCCGCTCCGGACCAGGCAGCGGGTCGGCCCGCCGAAACTTCGGCGAACCCCGTCGCATCGGAACCTGCCGCCGGGACTGCAGCAGGCGGGGAGCTTCAGGTCAGCAGCGTTGAACAGCTCTACCGGGCATACCTGCGCGAGGTGGGGCCCGTCGGGCTTCAGGCCGTTGCCGAGGCCGGCGGCAAATTCATCATCCGCACCGGAGGCGTGAATTCAGCCGAAACTGCAAGGAAGACGGAGAGTCAAGGCGGGAGCCGCGCAAGTGAGGCTGCCGGGGCAGCCGGCACGTCGCCGTCGGACTTTGTCAAAAAGTACGCAAACGTGGTGCTGGTGCAGGGCGAGCCGCTCGCCAGCGAAGAGGACTTTTTCGGGGGCCAGGGGTACAGGGTCGACGGCAGCGGGGTGGTTTGCTCCGCGGGCTTCAGCGCGTTCAGCCCTGCAGGTGAGCCGCTGGTGCTCACCGCCGGGCATTGCGCGGACGACGGAGCTGCCAGACGTACGGAGGTCACGCTTCCGGCCGGTGATCCCGCCGGCGGTGCCGTTGCAGGAAGCGCTGTCACCGGGGAGCTGGGAATCTTTGGCTTCAGCCAGTTCGGTGGACCCGGGAATGCCTGGATTGGCGGTGACCTGGACAACCCGGGGGACCCCGGAAAGGACATCGCCGTGGTCGAATCGATCCGCGGGGACCTAAACCTGCTGCCTGCAGCAACGACCTGGGAGGACACGGCCGACCTGGGCAAGAACTCCGTGCAGATCGTAGGCTCTGCGGCGCCCGTTGTCGGGCAGTTCGTCTGCCGCTCCGGCCGGACCGAGGGCTGGTCATGCGGCGTCGTGGACGAGGTGGGGATCTATGTGGTGGGCGGTCCTTCCGGAGAGCCGGCGGACCTCAGATCGTTCAGGGGATTCCTGTCCTATTCCGTGCAGTCCGCAGGGGGGGACTCCGGAGGGCCATGGATTAGCGGCAACTACGCTGTCGGCACGCACTCGGCCGGTAATCCGCGGAGCTCCCTCGAAAATTATGCTGTGGCCGCCACACTGCAGGACTCGCTCCAGGTGCTGCCCGGCGTCGAGCTCCGGCTGTTCCTCAGCAAGCCTGTGCTGACCACGCCCCTGTCAGCAGGACCGATTGCGGAAGGGCAGCGCATCTCGGGACGCATTCCTTCCCTGGCCGGGACGAGCGTTCCGGCCGGTTCCAGTGTGCGGATCACGCTACCAGGCCGGGAGCCATTGGTGGTCCCCGCTGACGCTGCTGGCATGTGGTCCTTCGCAGCCCCAGCTTCTACACCCGGGTTCTCGGCGCAGGCGGTCAACGGGTTCAGCAGCTCCGCCGTCAGCACGTTCCGCAGCCGGACAGAACCAGCGGCGCCGGCGCCTGCCCCGCCCGGTCCAATACAGGGCAGTGGTGCATCTGGCGAGGACACACCTGCCCGGCCGGAGCCCGTGCGCCCGGTTGCACCCGCAGTCCTGACCCCGGCTCCAGAACCCACCGTTGCGGCAGTGCAGCCACAGGGCGTGCAGCCACAGGGACAAGCCGGCTCCTGGACGGGACCGACAGCAGCTGCTGCGGCGCTCGCGGATACGGGAGCTTCGGGGCTGCCGGCGGCCGGAGGGGCTGCGGTTGCCCTGATCGTGGGCGGGTTGCTGCTGATTGCGTTACGTCGGCGCGGCCGCCGTTAG	MRFHDYAPGARRGPRRHAPLGIAAVLAFGIAAASAPAHATGESPTPAVTIEAANGQAVARKAATAPAPGDEGLAEAVARDLGMTLAEFNAAGAQAKRAAEALAVLRDLRGFVAVRLRDGHIRVEGSGPELEDRVAGLNRAGGTGRDEFVLTGSAPDQAAGRPAETSANPVASEPAAGTAAGGELQVSSVEQLYRAYLREVGPVGLQAVAEAGGKFIIRTGGVNSAETARKTESQGGSRASEAAGAAGTSPSDFVKKYANVVLVQGEPLASEEDFFGGQGYRVDGSGVVCSAGFSAFSPAGEPLVLTAGHCADDGAARRTEVTLPAGDPAGGAVAGSAVTGELGIFGFSQFGGPGNAWIGGDLDNPGDPGKDIAVVESIRGDLNLLPAATTWEDTADLGKNSVQIVGSAAPVVGQFVCRSGRTEGWSCGVVDEVGIYVVGGPSGEPADLRSFRGFLSYSVQSAGGDSGGPWISGNYAVGTHSAGNPRSSLENYAVAATLQDSLQVLPGVELRLFLSKPVLTTPLSAGPIAEGQRISGRIPSLAGTSVPAGSSVRITLPGREPLVVPADAAGMWSFAAPASTPGFSAQAVNGFSSSAVSTFRSRTEPAAPAPAPPGPIQGSGASGEDTPARPEPVRPVAPAVLTPAPEPTVAAVQPQGVQPQGQAGSWTGPTAAAAALADTGASGLPAAGGAAVALIVGGLLLIALRRRGRR				NA	NA	NA	NA	NA
D1-17_00813	762	fetB	COG0390	putative iron export permease protein FetB	GTGAGTGAAGTGACTGGCCTGAGTCCCGTCCTGGGTCCCACCCTGCTGGCTATCGGCCTCCTGATGGCGATGACGGCTGCAGTACTCGCGGGCTACCGCGTACCCCGCGCCTATTCACCGGCGCTGGCCGTTGTCCGCGGCGCTGCCCAGCTCGCCGCGGTGAGCCTGGTCCTGGGCGCAGTGATCGCCAGCGGCACCTGGGTGGCTGTGGCACTGGGCATCATGTTCCTCGTTGCCTCGATGACCGCCACGCGCCGCCTTGGCTGGAGCTGGGCACACCTCGGCATGGTCAGCTCCTCAATGGCGGCCGGCATCATGCTGACCCTCATCGTCATTTTCGCTACGGGGTCCATTGAACTTACGGGCCGCTACGCGCTGGCGATTGGCGGCATTGTCATCGGCAACTCGATGACTATTGCGGTGCTGGCAGGCCGCCGCTTCAATGAGGCCGTGATCGACCAGTGGGACGTCGTGGAGGCGTGGCTGGCACTGGGTGCGAAGCCGCGGCAGGCCACCCGGGACATGGCGCGGCATGCAGTGGCCGCATCCCTCATACCCTCCGTCGACCAAACGAAGACCACCGGTCTTGTCACCCTCCCCGGGGCGTTCGTTGGCGCCATTTTTGGCGGGCTCTCCCCGCTGGAGGCAGGACGCTTCCAGATTGTTGTGCTTGCCTCGATCGTAGCCGCCGGCTCCGTCACGGCCGTGATGCTGGTGCATATGCTGGCTCCGGTCCGCCGCCAGCCGGCACGGATGCGCTAG	MSEVTGLSPVLGPTLLAIGLLMAMTAAVLAGYRVPRAYSPALAVVRGAAQLAAVSLVLGAVIASGTWVAVALGIMFLVASMTATRRLGWSWAHLGMVSSSMAAGIMLTLIVIFATGSIELTGRYALAIGGIVIGNSMTIAVLAGRRFNEAVIDQWDVVEAWLALGAKPRQATRDMARHAVAASLIPSVDQTKTTGLVTLPGAFVGAIFGGLSPLEAGRFQIVVLASIVAAGSVTAVMLVHMLAPVRRQPARMR				NA	NA	NA	NA	NA
D1-17_00814	489		COG2050	Putative esterase	ATGATGCCCAAACCCCGCGACGCCGATCTGCAGGATGCGGCGCCAGCCCCCCAAACGCCGGAAGTCCAAAAGCCTGCCGCCCCGAATCCTACCCGGGAGCTTTGGCAGATCACGCTCGGGGAACTCGACGAGAAGATGGGCGTGAAGATCCTCGAGCAGTCGGTGGAGCGCGTCGTGGCCACCATGCCCGTCGAAGGGAACCGCCAGTCGTTCGGGCTGCTGCACGGCGGGGCGTCGCTGGCCGTCGGCGAAGCAGTGGGCTCGTGGGCCGCCGTCATCCACGCCAGCACGCTGGGAAAGACGGCGGTGGGCGTGGATGTGTCGGCTACACACCACAGATCGGCGCGCAGCGGATTCATCACCATCACGGCAACTCCCATCCACTTGGGAGGGACGCTCACCACCCACGAGGTGCTGATCACCAACGAGGCCGGACAGCGGCTCTGTACGCTGCGGATCACCAACCTGCTGCTGGCGCCAAAGGTCTAG	MMPKPRDADLQDAAPAPQTPEVQKPAAPNPTRELWQITLGELDEKMGVKILEQSVERVVATMPVEGNRQSFGLLHGGASLAVGEAVGSWAAVIHASTLGKTAVGVDVSATHHRSARSGFITITATPIHLGGTLTTHEVLITNEAGQRLCTLRITNLLLAPKV	PGPT0001845_1088	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0001845-menI|ydiI|ydiL|ydiI|ybdB-K19222	NA	NA
D1-17_00815	2112	paaZ	COG2030	Bifunctional protein PaaZ	ATGACCACAACCGCTACCGCTCCCCAGCCCTCCCTGGACACCGTGGAGACAGTGCCAAGCTTCGTGCAGGACTCCTGGTGGACGCCCAGCGCCGGTTCGGCAGCTTCCGCTGTGCCTGTGCGTGATGCGAGCACGGGCGAAATTCTGGCGAAGGTGAGCACGGACGGGCTGGACCTTGCCGCCGTGGTGGATTACGGACGCACCACCGGCCAAACTGAACTTGGCAAGCTGACTTTCCACCAGCGCGCCCTCAAGCTCAAGGAGCTGGCGCAGTACCTGAACGCCCGCCGCGAGCACTTTTACGCCTTCTCCGCGCAGACCGGCGCCACGAAAATTGACTCCATGATCGATATCGACGGCGGTATCGGCGTGCTCTTCACGTTCGGGTCCAAGGGCCGGCGTGAACTCCCCAATTCCCAGGTGGTGGTGGACGGGCCCATGGAGGTGCTGTCCAAGGACGGCTCGTTCGTCGGTGAGCACATTTACACGCGTATTCCGGGTGTTGCCGTGCAGATCAACGCCTTCAACTTTCCCGTCTGGGGGATGCTGGAAAAGCTCGCCCCCGCGTTCATCGCTGGTGTTCCCACCATCGTGAAGCCCGCAACGCCGACCGGCTACGTCGCGGCCGCCGTGGTGAAGGCGATCATCGAATCCAATATCCTGCCCAAGGGTGCGCTTCAGCTTATCTCCGGCTCTGTACGCGGGCTGCTGGACGTGCTGGACTATCGGGACCTCGTTGCCTTCACCGGCTCTGCGTCCACGGCGCAATCCCTCAAGGCACACCCGAACGTGGTGCTCGGCGGCGTGCGCTTCACGTCCGAGACCGACTCGCTGAATGCGGCCATCCTCGGACCGGACGCGGTGGAAGGCACTCCGGAGTTCGACGCCTTCATCAAATCCGTCGTCACCGAAATCACAGTCAAGGCCGGCCAGAAGTGCACAGCGATCCGGCGCGCGATCGTGCCCCAGGAGCTGGTTCCGGCGGTCGTTTCCGCCATCGGCGCCCGCGTCGACCAGCGCGTGGTGCTCGGTGATCCCCGGGCCGAAGGCGTCACCATGGGTGCCCTGGCGTCCGTGGAGCAGCTCAACGACGTCCGCGCAGCCGTGCAGGCCATGATCGACGCCGGCGGTGAACTGGCATACGGAACGCTCGATTCGCCGTCGGTCACCAACGCCGACGGCGCCAAGGGCGTGGCTGAGGGCGGCGCTTTCATGTCCCCGGTGGTGCTCAGCTGGGCCGACGCTGAAGCGGAGCAGGTGCACTCACTGGAAGCCTTCGGTCCGGTGTCCTCCGTCATCGGCTACAAGGACATTCCCGACGCCGTCCGCCTCGCCGCCCGTGGCGGCGGCTCGCTCGTCGCCTCGGTCTGCACCAACGATCCCGCCGTTGCACAGGAACTGGTCACGGGGATCGCAGCCCACCACGGCCGCGTGCTGATGCTGAACCGGGAGGACGCGCGCAGCTCCACCGGCCACGGTTCCCCAGTCCCGCACCTGGTCCACGGCGGTCCCGGACGGGCCGGCGGCGGCGAGGAGCTGGGCGGTATCCGCTCCGTCATGCACCACATGCAGCGCACTGCCATCCAGGGTTCGCCCAACATGCTGACGGCTGTAACCGGCGTCTGGCACACCGGGGCCGACCGCAACTTCACTGTGGAAACCGAGGGCACGCATCCCTTCCGGAAGTCCCTCGAGACTCTGCGGATTGGCGACGCCGTCCGGTCAGACCTGCGGGAAGTCACGCTGGAGGACATCACGGCCTTCGCCAACTCCACCGGCGACACCTTCTACGCCCATACGAACCAGGAGGCCGCCGAAGCCAACCCGTTCTTCCCGGGCATCGTGGCGCACGGCTACCTCTTGCTCGCCTGGGGCGCTGGACTCTTCGTTGAGCCTGCTCCTGGCCCGGTGCTGGCTAACTACGGGCTGGAGAGCCTGCGCTTCATCACCCCCGTTGCCGCAGGCGATTCCATCCGCGTTACCCTCACGGCCAAGAGGATCACCCCGCGTGAAACGGACGAGTACGGAGAGGTGGCTTGGGACGCCGTCCTGACCAACCAGAACGACGAAATCGTGGCCACGTACGACGTCCTCACCCTCGTGGAAAAGTAA	MTTTATAPQPSLDTVETVPSFVQDSWWTPSAGSAASAVPVRDASTGEILAKVSTDGLDLAAVVDYGRTTGQTELGKLTFHQRALKLKELAQYLNARREHFYAFSAQTGATKIDSMIDIDGGIGVLFTFGSKGRRELPNSQVVVDGPMEVLSKDGSFVGEHIYTRIPGVAVQINAFNFPVWGMLEKLAPAFIAGVPTIVKPATPTGYVAAAVVKAIIESNILPKGALQLISGSVRGLLDVLDYRDLVAFTGSASTAQSLKAHPNVVLGGVRFTSETDSLNAAILGPDAVEGTPEFDAFIKSVVTEITVKAGQKCTAIRRAIVPQELVPAVVSAIGARVDQRVVLGDPRAEGVTMGALASVEQLNDVRAAVQAMIDAGGELAYGTLDSPSVTNADGAKGVAEGGAFMSPVVLSWADAEAEQVHSLEAFGPVSSVIGYKDIPDAVRLAARGGGSLVASVCTNDPAVAQELVTGIAAHHGRVLMLNREDARSSTGHGSPVPHLVHGGPGRAGGGEELGGIRSVMHHMQRTAIQGSPNMLTAVTGVWHTGADRNFTVETEGTHPFRKSLETLRIGDAVRSDLREVTLEDITAFANSTGDTFYAHTNQEAAEANPFFPGIVAHGYLLLAWGAGLFVEPAPGPVLANYGLESLRFITPVAAGDSIRVTLTAKRITPRETDEYGEVAWDAVLTNQNDEIVATYDVLTLVEK	PGPT0006100_104	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006100-paaZ-K02618	NA	NA
D1-17_00816	408			hypothetical protein	ATGAACCTAGTACTCAACAAAGCCACAACCGTCCTGCCCGTGGATGACAAAGAGCGCGCCCGTCGTTTTTATGCGGAAACACTTGGCCTTCCCCATCGTGGCGTGGCAGAGGACGGAAGCGAACTGTTCGGCCATGAAGGCGGCCCCATACTGCAGCTGATGCCCGTCAGGGACGGCAAGCATTCCGAACACACCACCATCAGTTTCGAAGTCACGGACATCGAACGGACGGTCCGGGATATGGAGGCCAAGGGTGTCCATTTCCAGGACTATGACCTGCCGGATCTTAAGACTGAGAACCACATCTGTACGACAGATGCCGAGAAATGCGCATGGTTCATGGATACGGAAAACAACATCCTCTGCGTTCACGAGACCAAGGGACAGCAGGCTGAATATCAGCTCTGA	MNLVLNKATTVLPVDDKERARRFYAETLGLPHRGVAEDGSELFGHEGGPILQLMPVRDGKHSEHTTISFEVTDIERTVRDMEAKGVHFQDYDLPDLKTENHICTTDAEKCAWFMDTENNILCVHETKGQQAEYQL				NA	NA	NA	NA	NA
D1-17_00817	342			hypothetical protein	ATGAGCGACTCACCCGAACGGAACGATCTGCCGCTTCCCGACTACGACCACATCCCGCTTGGCACCCTGCCTTCCCGAATCCACTCCCTGGACGCCGGGGGCGTGGAGGCGCTGCTGGCGTATGAGCAGGCGCACGGGAACAGGCTGCCAGTAGTGCAGGTTTTGGAGTCCAGGCTGGACGCGCTGCGGGGCGGTGCTGAGCCCAGCGGGTCCCTTCCCCAAGACATGCCCGAGGTCAGCCAGGGCCATGGCGGCTCCCCTGTCAGCCCGGACACTGCCGGGCCTCCAATCAACCCGCCGTCGCAGGGCGTTCCCACGAACCCTGCCCAGCCGCGGACGTGA	MSDSPERNDLPLPDYDHIPLGTLPSRIHSLDAGGVEALLAYEQAHGNRLPVVQVLESRLDALRGGAEPSGSLPQDMPEVSQGHGGSPVSPDTAGPPINPPSQGVPTNPAQPRT				NA	NA	NA	NA	NA
D1-17_00818	618	fadR		Fatty acid metabolism regulator protein	ATGCCCAGCACAGCAGCCAGTACATCAGCACCGACGAAGCGCGGCCGTCCCGGATACGACCAGCAGTCCGTGCTGCTCATCGCCGTCGACGTCTTCAACCGCCACGGCTACGATGCCACGTCCATGGGCATCCTGGCCGAAAACCTGGGCATCTCTAAATCGGCGATCTACCACCACGTTCCCTCCAAGGGCGATCTGCTCAAGCTCGCCCTGGACCATGCCCTCGGCGGCCTCGAGGCCATCCTGGAGGAGCCCGGCGCCACCTCCGGAGCGGCCGACTCCCGGCTTGAATTCGTGCTGCGCCAGACCATCGCGGTGCTGGTGGAGCGGCTGCCGTTCGTCACGCTACTGCTGCGGCTGCGCGGCAACACGGACATCGAGCGCAATGCGATGGAACGCCGCCGGTCCTTTGACCATAAGGTGGCCGAGTTGATTTCCGCGGCCCGCGACGAGGGATCGCTGCGGCAGGACATCGACCCCCGGACCGTGACCCGCCTCCTGTTCGGCACCATCAACTCGATCGTTGAGTGGTACAAGCCCGGCGGCTCACTGTCGCCGCAAAAGCTCGCCGACGACGTCATCACCATGGCGTTCGACGGCCTCCACGCCAAGCCTTAG	MPSTAASTSAPTKRGRPGYDQQSVLLIAVDVFNRHGYDATSMGILAENLGISKSAIYHHVPSKGDLLKLALDHALGGLEAILEEPGATSGAADSRLEFVLRQTIAVLVERLPFVTLLLRLRGNTDIERNAMERRRSFDHKVAELISAARDEGSLRQDIDPRTVTRLLFGTINSIVEWYKPGGSLSPQKLADDVITMAFDGLHAKP				NA	NA	NA	NA	NA
D1-17_00819	1371	paaK	COG1541	Phenylacetate-coenzyme A ligase	ATGACTCTCCACGCCACAGACCCCCACGCCGCATCCTCAACGGCAGCAACTCCTGCAACTGAGGCGGTCCTCGACCCCGAGGAGACCATGTCCCGGGACGAGATCGAGGCACTGCAGCTCAGCCGCCTTCAGCACACGGTCGCCTACGCCTACGACCGGGTACCGCTCTATAAGCGCAAATTCGACGAAGCCGGAATCCATCCCGCGGACCTGCGCGAATTGTCGGACCTCGGCAACTTCCCGTTCACCACGAAGGAAGACCTGCGCCAGGAATACCCGTTCGGCATGTTCGCCGTGCCGCAGAGCGAAATAGCCCGCGTGCACGCCAGCTCGGGCACCACCGGCCGGCCCACGGTTGTCGGCTACACCAAGCAGGACCTGGCTGACTGGGCCAAGCTCGTGGCCCGCTGCCTCCGCGCCTCCGGCGTCCGCCCCGGCATGAAGGTGCACAACGCCTACGGCTACGGCCTCTTCACCGGCGGCCTCGGAGCCCACGCCGGCGCCGAAGCACTCGGCTGCACTGTGATCCCGATGTCAGGGGGCCAGACCGAGCGCCAGATCCAGCTCATCCAGGACTTCGAGCCTGACGTCATCCTGGCCACACCGACGTACCTGCTGACCATCGCCGATGCTATGGCGCACATGGGCATCGACCCGACTTCCACATCCCTGAAGTATGCCGTGCTCGGCGCCGAACCCTGGACCCAGGAGATGCGCCACGAACTCGAAGTCACCCTGGACGTCAAGGCCTGCGACATCTATGGCCTGTCCGAAGTGATGGGACCGGGCGTCGCCGGCGAAGCAGTGGAGACCCAGGACGGCAGTCATATCTGGGAGGACCATTTCCGCCCCGAAATCATCGACCCCTTCAACCCGGCACCGGGCAAGGAGAACGTGCTGGGCGACGGCGAACACGGCGAGCTCGTCTTCACCTCGCTCACCAAGGAAGCCCTGCCGATCATCCGCTACCGCACCAAGGACCTCACACGGCTGCTCCCCGGCACCGCCCGTCCGGCACACCGCCGGATGGGACGCATCACCGGCCGTAGCGACGACATGATCATCCTGCGCGGAGTGAACCTGTTCCCCTCGCAGATCGAGGAAATCGCGCTGCGCATCCCCGAGCTCAGCCCGCACTTCCAGCTTGAACTCACCCGCCCCGAAGGCCAGCGCATGGACCAGCTGACGGTCAGGATCGAGCGCCGCGACAACGTCACCGCTGAGCAAAGCACGACGGCGGCCCGCGCCTTGCGCGAGCAGATCAAGATCCACGTGGGTTCTTCATGCACGGTAGACGTCGTGGAGCCGGGCTCGCTGGAGCGTTCGAACGGCAAGCTGCGCAGGATCTACGACCTGCGGCCGAAGGGGTAG	MTLHATDPHAASSTAATPATEAVLDPEETMSRDEIEALQLSRLQHTVAYAYDRVPLYKRKFDEAGIHPADLRELSDLGNFPFTTKEDLRQEYPFGMFAVPQSEIARVHASSGTTGRPTVVGYTKQDLADWAKLVARCLRASGVRPGMKVHNAYGYGLFTGGLGAHAGAEALGCTVIPMSGGQTERQIQLIQDFEPDVILATPTYLLTIADAMAHMGIDPTSTSLKYAVLGAEPWTQEMRHELEVTLDVKACDIYGLSEVMGPGVAGEAVETQDGSHIWEDHFRPEIIDPFNPAPGKENVLGDGEHGELVFTSLTKEALPIIRYRTKDLTRLLPGTARPAHRRMGRITGRSDDMIILRGVNLFPSQIEEIALRIPELSPHFQLELTRPEGQRMDQLTVRIERRDNVTAEQSTTAARALREQIKIHVGSSCTVDVVEPGSLERSNGKLRRIYDLRPKG	PGPT0026240_819	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR_VIRULENCE_REGULATORY_SYSTEM,PGPT0026240-paaK-K01912	NA	NA
D1-17_00820	579	paaI	COG2050	Acyl-coenzyme A thioesterase PaaI	ATGGCTGGATCAACAATTTCGGGGTTAACCCACCCGATCCTCGAGAATGACTACGCCTCCGAGTGGATGGGCATCGAGGTCCTGGCCCTCGGCGACGGGGAAGCCACCATCCGCATGACGCTTCGGCAGGAAATGCTCAACGGCTTCGGCATGGCACACGGCGGAATGATCTTCGCCTTCGGCGACACAGCCTTCGCCCTCGCCTGCAACCCGGCGACCCCGGCCACGTCGGAAACCCCGGCCACGCCCGAAACCGGACCCGGCCTGAGCAACGAAGAAACCCCCAGCGCCGGAACGGCAGACACTGAGGGGACGGAGGCAGCCGGACTGGCCGGCTCCGCCGGAGCCGGATCGGACAGCATCACTGTTGCCTCCGGCGTCGACATCAACTTCCTCAAGCCGGCCTTCCAGGGCCAGGTGATTACCGCCGTCGCCCACCGACGCTCAAGCGCCGGCCGCAGCGGCCTGTACGACGTCCAGATCTTCGCCGCCGACCCCGGCTCCGAGATCAGTTCCGGCAAGCCGGGGGAGCTCATCGCCGAGTTCCGCGGGCGCAGCCGCACCATCCCCAAAAAGTAG	MAGSTISGLTHPILENDYASEWMGIEVLALGDGEATIRMTLRQEMLNGFGMAHGGMIFAFGDTAFALACNPATPATSETPATPETGPGLSNEETPSAGTADTEGTEAAGLAGSAGAGSDSITVASGVDINFLKPAFQGQVITAVAHRRSSAGRSGLYDVQIFAADPGSEISSGKPGELIAEFRGRSRTIPKK	PGPT0006080_302	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006080-paaI-K02614	NA	NA
D1-17_00821	867			hypothetical protein	ATGGCCGCCGAACCGCCAGATGATGCGTCCGCCTGGCCGGTCCACCGCCGACTCACCCTGTTTTTCATCCTGGCCTTCCTCATCTCTTGGCTGATCTGGCCGCTGACTCTGCTCAATCCCGGGAGCTCGCCCATGGCGCCCTTCGGACCGGCCGTAGCCGCCGTGCTGGTGGCCGTTCTCGCAGAGGGAAAGGAAGGCCTGCTACGGCTGCTGCGCCGGCTGGGCCGCTGGCGGATTCCCGGGCGCTGGTACCTGGTGGCTTTCGGACTGCCGTGCCTGTTGGTGGGGGCATCGGCGGTCCTGACGGTGGCGGGCGGCGCACCTGCTCCAGACCTGGCGCCGAACCCCGGATGGTTCATGCTGGCCGGAACATTCGCAGCGACCTTGGTGGTGGTCGGACTGTTCGAAGAGTTGGGCTGGCGCGGGTATGCCCTGCCGCTGCTCCAGCGGAACCTCACTGCCCTCCCCGCAGCCCTCCTGCTTGGCGTGGTGGGGGCACTCTGGCACATTCCCGAGTTGGCATCCGACGCTACACAGCAGCGGCCGCCGGTTCCTTTCCTGCTCATGGTCGTGGCGCAGTCCGTGCTGCTGGCGTGGATCTTCAACAGCACCGCGATTCCCCCGCCCCGGTCGCGCGCCAGCGGTCGGAACACCTGCGGAAGCGTGCCCCTCTGTATGGTGTTCCACGCGATGTTCAATACGGCCGGGGCACTGATCTTTCCGGCATTCGCCGGCCCTCACTATCTCGCCTTGTGGTGGACGTTGTCGCTTCTGCATGTGCTGACTGCGCTTGCGGTGATCGCCTACGCCGGACCCTGGCGCCTTGCCCGGAGTCTTGACACAGAGCCCCTTCATGGGATTACCTAA	MAAEPPDDASAWPVHRRLTLFFILAFLISWLIWPLTLLNPGSSPMAPFGPAVAAVLVAVLAEGKEGLLRLLRRLGRWRIPGRWYLVAFGLPCLLVGASAVLTVAGGAPAPDLAPNPGWFMLAGTFAATLVVVGLFEELGWRGYALPLLQRNLTALPAALLLGVVGALWHIPELASDATQQRPPVPFLLMVVAQSVLLAWIFNSTAIPPPRSRASGRNTCGSVPLCMVFHAMFNTAGALIFPAFAGPHYLALWWTLSLLHVLTALAVIAYAGPWRLARSLDTEPLHGIT				NA	NA	NA	NA	NA
D1-17_00822	2124	pta	COG0280	Phosphate acetyltransferase	ATGGCCAAAGGGATTTATGTCAGTGCGACCACCCCGGGTTCGGGAAAGTCGCTCATAGCGTTGGGCTTGGCGGACACGCTGCACCGGCACGCGGACCGGCTCGGTTTCTTCAAGCCGGTGGTCCACGGCGACAATCCGGGTGCGGACCCCATGGTGGCGCTGATGCAGTCCCGTTTCGACCTCGATGGCGAACGCTGCCGCGGCGGCCTGACCTTCACCGAGGTGCGGAGCCTGCTGGCCGAGGGCCGGCGCGAAGAAATCGATAGCCGCTGCGTGGAGATCTTCGCGGAGATGTCCCGGCACTGCGACGTGATCATCGTGGAGGGCACGGACCTCACGGGCCACGACGCCGCCGTCGAATTCGACCTGAACGCCCGCCTCGCCAACAACCTGGCCGCCCCCGTGGTGGCCGTGGTGGGGGCGAAGGGGCGCAGCGCCGCGGAGGTTGCGGCCGCCGTCGACGTCGCCCGCAAGGAGCTCGCCGCCGAAAAGTGCTCGCTCCTGGCCATGATGGTGAACCGCGCGGATCCAAGGGCTGTGGGGGCCATTGCCGACGCCGTGAAGCCGGGGGCGTCCGGGAGGCCGGTCTACATCTTCCCGGAGCTGGAGGAGATTGCCCGGCCCACCACGGGGGAAGTGGGCGCCGCCCTTGGCCTGCAGCAAATCGCCGGCCGCGCCGACATGGAACGCGACGTCCGGGACGTCAAGGTCGCCGCCATGAATGTGGGCAACTTTTTGAACGTGCTCGACGACGGCGCGCTGGTGATCGTGCCCGGTGACCGGGCGGATGTGATGGTGGCCTGCCTGGCGTCGTCGTTCTCGCCCGAGTTCCCGGTGCCGTCCGGACTGATCCTTACCGGGGGCCTGGCCCCGGACGCCAACATCTATCCGCTGCTGGCCTCCGCCCCATTCCCGGTGTTTGCGACGGAGGATGACACCTACACCACAGCCCGGCGCGTTTCCGAGGTCCGCAGCGAAATCTGGAGCGGACACCGCCGGAAGGTGGCATCAGCATTGGGCCTTTGGTCCCGGCAGGTGGACGAAGCCGAGATGCTCGAGCGCCTGCACCTGCCCCGGGCCGAGCGCATGACCCCGCTGCGGTTCCTGCACGACCTCATTGAACGTGCCCGCTCCCAGCGCCGCCACATCGTGCTGCCCGAAGGCAAGGACGTGCGGATCCTGAAGGCGGCCGAGATCCTGCAGCGCCGGGACGTCTGCGACCTGACCCTGCTGGGCCGGGAGGGGGACGTCAGGGAGCTCGCGGCCAGCCGGGGCATCGACCTTGCCGGCATCAACATCGTGGACCCCGCGACCTCGGAGCTGCGCCAGGACTTCGCGGCCAGGTATGCGGAGCTGCGGGCGCACAAGGGCGTGGACCTGCCCCGGGCGCTTGAAGTCATGCAGGACGAAAGCTACTTCGGCACCATGATGGTCCAGCTGGGCGTGGTGGACGGAATGGTCTCCGGAGCCGCCCACACCACCGCGCACACCATCCGGCCCGCATTGGAGTTCGTGAAAACCCGGGAGGGGGTGAAGATCGTGTCCTCGGTGTTCCTGATGCTCATGCCGGACCGGGTGCTGGTCTACGGTGACTGTGCCGTGAACCCGGATCCGAACGCAGAGCAGCTCGCCGACATTGCCTTGGCTTCGGCAGAGACGTCGCGGCAGTTCGGTGTGGAGCCGCGTGTGGCCATGCTGTCCTACTCCACCGGGGGGTCCGGTTCGGGCGAGGCGGTGGAGAAAGTCCGGCAGGCGACCGAATTGGTCAGGGAGCGCCGCCCGGACCTCGCCGTCGAAGGCCCCATCCAGTACGACGCCGCGGTGGACGCCGCCATCGCCGCGTCCAAGATGCCGGGTTCGTCCGTCGCCGGGCAGGCCACGGTGTTCATCTTCCCGGACCTCAACACCGGCAACAACACGTACAAGGCGGTGCAGCAGAGCTCCGGTGCCGTCGCCGTCGGGCCCGTCCTGCAGGGGCTGCGGAAGCCGGTCAATGACCTTTCCCGCGGCTGCACCGTGGAGGACATCGTCAACACCGTGGCCATCACGGCCATCCAGGCCCAAACCGCGGAAAACCAGAAGCCGGCAACAGCGTCCGTCCCGTCCGCAGAAGTTAAGGCTTAG	MAKGIYVSATTPGSGKSLIALGLADTLHRHADRLGFFKPVVHGDNPGADPMVALMQSRFDLDGERCRGGLTFTEVRSLLAEGRREEIDSRCVEIFAEMSRHCDVIIVEGTDLTGHDAAVEFDLNARLANNLAAPVVAVVGAKGRSAAEVAAAVDVARKELAAEKCSLLAMMVNRADPRAVGAIADAVKPGASGRPVYIFPELEEIARPTTGEVGAALGLQQIAGRADMERDVRDVKVAAMNVGNFLNVLDDGALVIVPGDRADVMVACLASSFSPEFPVPSGLILTGGLAPDANIYPLLASAPFPVFATEDDTYTTARRVSEVRSEIWSGHRRKVASALGLWSRQVDEAEMLERLHLPRAERMTPLRFLHDLIERARSQRRHIVLPEGKDVRILKAAEILQRRDVCDLTLLGREGDVRELAASRGIDLAGINIVDPATSELRQDFAARYAELRAHKGVDLPRALEVMQDESYFGTMMVQLGVVDGMVSGAAHTTAHTIRPALEFVKTREGVKIVSSVFLMLMPDRVLVYGDCAVNPDPNAEQLADIALASAETSRQFGVEPRVAMLSYSTGGSGSGEAVEKVRQATELVRERRPDLAVEGPIQYDAAVDAAIAASKMPGSSVAGQATVFIFPDLNTGNNTYKAVQQSSGAVAVGPVLQGLRKPVNDLSRGCTVEDIVNTVAITAIQAQTAENQKPATASVPSAEVKA	PGPT0001370_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001370-pta-K13788	NA	NA
D1-17_00823	1158	ackA	COG0282	Acetate kinase	GTGCTCGTGCTTGTCATCAATTCCGGTTCGTCCTCGCTCAAGTTCCAGGTCCGCGACGTTGCCTCCGGGAGCATCCTCACTGAAGGGCTGATTGAGCGCATCGGCATGTCCAACGGCGGCCAGGGCGACGGCGAAGTCGTGGGCCCGGCAGACCATGCCGAGGCATTGGAGCAAGTCGACGCCGCCATCCACGAGGTGCTCGGCGACCGGCAGCTGGACGCGGTGGGGCACCGCGTGGTGCACGGCGGCGAGCGGTTCGGCGAGCCCGTGCTGATCGACAATGAGATTACCCGTGCCATCGAGCGGCTCAATCCGCTGGCGCCGCTGCACAACCCTGCCAACGTGCTGGGCATCCGTGCCATCACGAAGAAGTGGCCGGACATGCCGCAGGTTGCCGTGTTCGACACCGCATTCCACCGCAGCCTGCCCGAGCATGCCTGGCGCTACGCGGTCCCGGACGAGCTGTACACGAATCATGGGATCCGCCGCTACGGCTTCCACGGCACCTCGCACGAATACGTGACGCACCAGGCTGCCGCATTGCTGGAGCTCCCCGTGGAGGAGTTCGACGGCGTGATCGCCCACCTGGGGAACGGCGCCTCGGTCACGGCGATCCGGGGCGGCAAGTCCGTGGACACGTCGATGGGCTTCACCCCGCTCGAGGGCCTGGTCATGGGCACCCGCTCGGGGGACCTGGATCCGTCCATTCTGGTGTTCCTGGCCCGGCACGGCTGGAACGCGGAGGACCTCGACATGATGCTCAACCGTGAATCAGGGCTCAGGGGCTTGGCCGGCAACAACGACATGCGCTCCGTGGTTGAGGCCGCCGAAGCCGGTGATGCCCGCGCGGCCATGGCGCTCGCGGTCACGTCCTACCGGCTGGCCAAATACATCGGGGGCTACCACGTGGCCGTCGGCGGGGCGATGGCCCTTGTTTTCACAGCGGGAATCGGCGAGAATTCGCACCAGTTCCGCGGGCTTGTGGGGGAGCGGCTGGGTGCGCTGGGCATCGAGCTCGACGCCGGCCTGAACCGCCAGCGCTCCAAGGAACCCCGGGTGATTTCCACCGACGCCTCGCAGATCCCCGTGCTGGTGGTGCCCACCGACGAGGAACGCGCGATCGCCGAGGCCGCGGCGGCGGTAGTGTCCGCGGGTTGA	MLVLVINSGSSSLKFQVRDVASGSILTEGLIERIGMSNGGQGDGEVVGPADHAEALEQVDAAIHEVLGDRQLDAVGHRVVHGGERFGEPVLIDNEITRAIERLNPLAPLHNPANVLGIRAITKKWPDMPQVAVFDTAFHRSLPEHAWRYAVPDELYTNHGIRRYGFHGTSHEYVTHQAAALLELPVEEFDGVIAHLGNGASVTAIRGGKSVDTSMGFTPLEGLVMGTRSGDLDPSILVFLARHGWNAEDLDMMLNRESGLRGLAGNNDMRSVVEAAEAGDARAAMALAVTSYRLAKYIGGYHVAVGGAMALVFTAGIGENSHQFRGLVGERLGALGIELDAGLNRQRSKEPRVISTDASQIPVLVVPTDEERAIAEAAAAVVSAG	PGPT0001360_4095	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
D1-17_00824	1536		COG2200	putative signaling protein	ATGTTCAGCAACGACGACCCCCGGCTGGGACAACTCCTGGATGGCATCATCCGCCTGGCCTCCGGGGAGCTCCACTCGCGCATCGAAGTCTCGGATGCCAGGGACGAGCTGGATGCCGTGATCATGGGCACGAACCTGCTCGCCGAGGACCTGCAGATCGCCTACCAGGAACTGGAGCAGCGCGTGGAGTCGCGCACCCAGATGCTCCACGCCGCGCACGAGGAACTGCAGCGGATGGCTCTGACTGATCCCCTGACGGGCCTCTACAACCGTTCGGCGCTGGTCGCCGCCGTCAAGGACGCCCAGACCCAAACGGCCGACGGCGGGCTGCCGCCAGCCCTGCTGCTGCTGGACCTTGATGCCTTCAAGAGCATCAACGACTCCATGGGCCACTCGGTGGGCGACCGGGTGCTGACCGGTGTCGGACAGCGGATCCGGGCCTGCGTGCGCACGGACGACATGGTGGCCCGGCTGGGCGGCGACGAGTTCGCCATCCTGCTGCCCGGCAGCAACCTTGCACAGGCCACCCGGGTGGGCAATCAGGTCCTCGAGGCGCTCAACGGGACCATCGAGGTGGACGGCAAGAACATCCGGACCGGGGCCAGCCTGGGCGTGCGGCTGGCGGAGCGGGGCGAAACCTCGGAGGAACTGCTCATGGAGGCCGACATCGCGATGTACGCCTCCAAGGCCGACGGCCGGAACAAACTGCGCGTTTTCGAACCGGCCATGCTGCACGCCCGGCAGCTCCGCAACCAGCTGGTGGGGGAACTCCGGGCTGCCATCGCAGACAACCAGCTCGTGCTCTTCTACCAGCCGGTGATCGAGCTGGCGACGGGGAGGGTCGAGGGCGTGGAAGCCTTGGTACGCTGGCAGCATCCCACGCGGGGCCTCATCATGCCCGACGAGTTCATTCCCATCGCCGAGGAAACCGGCCTCATCTCCGCGCTGGGCAACTGGGTGCTCAGGAATGCCGTGGACCAGCTGCGCCGGTGGCGGACCTGCCCCGAAACCAGCAGGCATGACTTCTCCATGCGGATCAACATTTCAGCCGCCGACCTGCAGCGCCTTGAGTTCATCGAGGACGTGCGCGATGCCCTCGCCGACAGCGGCCTCGATCCCGCATTGCTGGTCCTGGAGCTGACCGAGAGCGCCATTATCCAAGGCAACGAGCTCGACCGCTACACCCTGGCCAGCCTTCGCAGGCTCGGGGTGGGGCTTGAAATCGATGACTTCGGCACAGGTTACTCTTCCATCAGCTACCTGCGGCGGCTGCCCGTGGACCGCGTCAAGGTGGACCGGACGCTCCTGACCTCCCTCGGCAGCGACCCCGCCCAGCCGGCCCTGATTGCCGCCATCCTCCAGCTCATCCGGGCCTGCGGACTGGAGGCGGTGTGGGAAGGCGTGGAAAACGCGGAACAGGCCGAGCACCTCCGCACCACCGGGTGCATCAGCGGCCAAGGCTATTTCTTCAGCCGTCCCCTCCCCGAGGCCGAGTTCACGAAACGCCTGACCGAACAGGACACCTGGCCGGCCTGA	MFSNDDPRLGQLLDGIIRLASGELHSRIEVSDARDELDAVIMGTNLLAEDLQIAYQELEQRVESRTQMLHAAHEELQRMALTDPLTGLYNRSALVAAVKDAQTQTADGGLPPALLLLDLDAFKSINDSMGHSVGDRVLTGVGQRIRACVRTDDMVARLGGDEFAILLPGSNLAQATRVGNQVLEALNGTIEVDGKNIRTGASLGVRLAERGETSEELLMEADIAMYASKADGRNKLRVFEPAMLHARQLRNQLVGELRAAIADNQLVLFYQPVIELATGRVEGVEALVRWQHPTRGLIMPDEFIPIAEETGLISALGNWVLRNAVDQLRRWRTCPETSRHDFSMRINISAADLQRLEFIEDVRDALADSGLDPALLVLELTESAIIQGNELDRYTLASLRRLGVGLEIDDFGTGYSSISYLRRLPVDRVKVDRTLLTSLGSDPAQPALIAAILQLIRACGLEAVWEGVENAEQAEHLRTTGCISGQGYFFSRPLPEAEFTKRLTEQDTWPA	PGPT0026010_3087	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-17_00825	435			hypothetical protein	GTGGCAGAAGCAACGACGGTTTCCGGCGGGCTTTTAAGGACACACGCCCCAGCCGACCATCAGGGTGGCCCGGGCGTCGCCTGTACTGTCTTGCCGAACCTGACCGTCAGGGCCGTGCTGGCGCAAGGCGCCGACCTGAACGAGGCCACCGTCGCACAGCTGGGTGAGCAGCTCGATGCGCTTGCCGACGGCCGCAGGGCCGCCGTCGTCCTTCAACTGAACGGCATCGCATCCGTAAGCCGCGCCGCGCGTGCTGCCTTTGCCTCCATTGCCCCTGCCGCATCGTGGGCTGTCGTCGGCGCCACGCCCGTGGACCGCCTGCTCGGACACTTCCTCCTGAGCGGGGAATCCGGCTCCGCCCCCGCCCGGTATTTCGCCTCCGAACATGAGGCGCTGGGCTGGCTGGCCAGTCTCGACCGCCTGGGCGGAGCTTAG	MAEATTVSGGLLRTHAPADHQGGPGVACTVLPNLTVRAVLAQGADLNEATVAQLGEQLDALADGRRAAVVLQLNGIASVSRAARAAFASIAPAASWAVVGATPVDRLLGHFLLSGESGSAPARYFASEHEALGWLASLDRLGGA				NA	NA	NA	NA	NA
D1-17_00826	1026			hypothetical protein	ATGATTGCAGAGCTGGAGGCCCGCGAAAGCTGGAAACGGCGGGACTACAGCACCGGTTACACGCAAGCCGGGCACGCCGCAGCACTGGCCAAGGAAGTGGGCGACGAATACCGGTGGTGGAAGATGGTGCTGCTGCAGGCGGAATGCCTGCGGGACCAGGCCTCCTTCCAGGGATGCCAAGAGCTTGCGGCCCAACTTGCTACTCATGCTGTCTCCGCTTCTGCCCCTGACCTTGGCGCGAGGGCATACATCCTTCTTGCACTTTCCCTCCAAGGATTGGGCAAGCTTTCGGAGGCTGTCGATGCAGCAACCGCAGCCGCCCGGCTGGTGGCCGGTGACTTTGAGAACGTGTACCTGCACATCCAGGCAGAGCAGGCCCTCATTGCTGCGCTCGCCGAGAGCGGCCGGCTGCAGGCGGCCTGGACCGAATGCCTCGCGTTGCAGTCCCTGCTGACGGACGCCGTCGATGAGGACACCGCGGGCAAGGCCTACTGGGTGATCGGCAACGTCGCCTTCCTCACGCACCGGGTTGCGGAAGGCAGCAAGTACCACGATCTTGCGGCAGAAAGGCTCTCGCCCTCCCGCGACGTCGACCTGTGGGCGCGATTCAACCGAGGATCCGCAGACATGCGCCTCAGGGCCCAATTGAGTGACGGCGCCACTCTGCGCTGCATCGAACGCGCCGAGCTCGCAACGGAGGTGGTCGGAGGCAGCGAACGTGACCTCCTGGAGATGGCTTTGGTCCGCGGCCACTGGTACTACCTGACCGGCGACCTGGATTCGGCGGTCAGCATCCTGGCCCCGTTGCGCAGCAGATTCCATATTCTCGCAAGCCAGACGGCGGCGGAAGCCTCCTTCATCCTGGGCAAGGCGATGATGGAGCAAGGAAATGATGCTGAATCGCTGCAGATTCTCGACGAGGCGGCTACGCTGTTCGATACGGCTGCAGCTACGGAGCGGAGCGCCACGGTGCGTGAGTACCTCGACTCCGTCCAGCACCAGCAGCGGTTCTTTCAGGGGGGATAA	MIAELEARESWKRRDYSTGYTQAGHAAALAKEVGDEYRWWKMVLLQAECLRDQASFQGCQELAAQLATHAVSASAPDLGARAYILLALSLQGLGKLSEAVDAATAAARLVAGDFENVYLHIQAEQALIAALAESGRLQAAWTECLALQSLLTDAVDEDTAGKAYWVIGNVAFLTHRVAEGSKYHDLAAERLSPSRDVDLWARFNRGSADMRLRAQLSDGATLRCIERAELATEVVGGSERDLLEMALVRGHWYYLTGDLDSAVSILAPLRSRFHILASQTAAEASFILGKAMMEQGNDAESLQILDEAATLFDTAAATERSATVREYLDSVQHQQRFFQGG				NA	NA	NA	NA	NA
D1-17_00827	150			hypothetical protein	ATGAAGAAATTTGCCGCAACACTCTTAATGACCGGCATCCTGGCGGTTGCAGGCTTCGCTGCTCCTGCCAACGCCACCCCCAAGGATAAAGACACCACAACAACCTCCTCGTCCACCAACTACTCGTACGTGGGTTCGTGGCCGAACTAA	MKKFAATLLMTGILAVAGFAAPANATPKDKDTTTTSSSTNYSYVGSWPN				NA	NA	NA	NA	NA
D1-17_00828	1656	sasA_2		Adaptive-response sensory-kinase SasA	GTGGTTCAGGCACCGGCGGAAAGTCTTTCCCTGCCGCGGGCAGCCGTGGTTGCGATTCCTGATGCGCGTCTTCTCGCCGCGACAGGACACGCCCTCGCTGCTGCCGGTTTTACTGTCCATTCAGCCCTCGATGCCGATTCCCTCGCCTTGGAGCTTGCACGGACTGATCCCGCCGTCGTACTGCTGGATACACGCTTGGCCGAGGGATTCTCCGGGGAGGGCACGCCGGTGCTGCTTCTGGTCGACCTCACCGACGACTTCGACCTGGCCCGGCTGGAGCCGTGGGGCGCTGCTGACTACGTCTCAAGAAGTGCATGCGCACAGGAACTCGTCCACCGGGTCAACACCCTGATTGCACGGTCTCAGGAGCGGCGCCGGATCCGCGCGGAGGCCGAGTCCCTGCGCGAAAGCCTGCGCAACGTCTCCGCTGCCATCCGGGGCACCAACAGCCCGCAACAGATGGCCGGCCACTTGGTGCGTGGGTTTGGTGAGGCGTTGGGAACAGACCATGTCTGGTTCACCACCTTCCAGGATCCGAGGGTCCCCCGCATCACGTCGCAATGGTGCAGGACGGGTTTGTCGCCGCTTCCGGACTCGATTGGATCCTACGAAGATGCCGCCAGGGATCTGGCCAAGTGCCTCTGGTCCGAGGCCGAAGTGCTGGCTGTGGCGGACCACCAGGTCCCCGCTGCCTCGCCCCTGGCCAGTGAGCTGCAGGACTGGCTGGGACTCGCTCAGGCCTCCGCGTCCGTGGTTGTGCCGGTGGGCGACAATGAGTCCGCGCTTGGCATCATCTGGATCGCCCAGCTGGACGCTCCGCGCGAGTGGACCCGGGCCGAAATAGCCCTCATCCAGCACGTTGCAGGTAACCTCGCCCATAGCCTGATCCAGGGCCATCTCATCAGCGCCCAAGTGCAGGTGCTGCAGCAGCTCCGCGAACTGGATAAGGCCAAGACGGACTTCCTGGCGACGGTAAACCACGAGCTCCGCACCCCGCTGACGTCCATCACCGCCTACCTCGACATGATTCGCGATGGCGCCGGCGGCCCGGTGCCTCCAGGCATTGAGTCCATGATGGAAGTCATCTCCAGGAATTCTGAAAGGCTCCGGCGCCTCATTGAGGACCTGCTCACCGTTTCCCAGCCGGACGGTTCCGGCCGCCTCCACCTCAAACAGGTGGAACTCGGCCACATTCTACGGATCGTAGTTGCCGCGCTCCGCCCGCTCGCTCAAGCGCGGAACGTTGTCATCACCGGCGCCGACGCCCACGAGGACGTCAAAATCCGCGCGGACGAAACCCAGCTCGAACAGGTCTTCACTAACATCGTTGCGAATGCCATTAAATTCACCCCCGACGGCGGACGGATCAGTATCAGGGTAATGCTTGATCCTGCTGCTGATGCAGCAGGGCAAACGGCCGTGGTCAAGGTCGCCGACACCGGCGTCGGAATTCCCGAGCAGGAGATTTCCCAGGTGTTTTCCCGTTTCTTCCGGGCCTCCAACGCATCCTCGGCAGCGGTGCCGGGCAGCGGTCTTGGGCTGGCAATAGCCCACGATATTGTGCAGCGCCACAATGGCTCGCTCGAGATGAAATCATCGCTGGGAGTAGGAACAACGGTCTCTGTGTACCTGCCGGTGGCCGGCCCTGAGGGCTAG	MVQAPAESLSLPRAAVVAIPDARLLAATGHALAAAGFTVHSALDADSLALELARTDPAVVLLDTRLAEGFSGEGTPVLLLVDLTDDFDLARLEPWGAADYVSRSACAQELVHRVNTLIARSQERRRIRAEAESLRESLRNVSAAIRGTNSPQQMAGHLVRGFGEALGTDHVWFTTFQDPRVPRITSQWCRTGLSPLPDSIGSYEDAARDLAKCLWSEAEVLAVADHQVPAASPLASELQDWLGLAQASASVVVPVGDNESALGIIWIAQLDAPREWTRAEIALIQHVAGNLAHSLIQGHLISAQVQVLQQLRELDKAKTDFLATVNHELRTPLTSITAYLDMIRDGAGGPVPPGIESMMEVISRNSERLRRLIEDLLTVSQPDGSGRLHLKQVELGHILRIVVAALRPLAQARNVVITGADAHEDVKIRADETQLEQVFTNIVANAIKFTPDGGRISIRVMLDPAADAAGQTAVVKVADTGVGIPEQEISQVFSRFFRASNASSAAVPGSGLGLAIAHDIVQRHNGSLEMKSSLGVGTTVSVYLPVAGPEG	PGPT0002705_1060	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-17_00829	396			hypothetical protein	ATGAATGCCGATACAAGCGGCGAACATGGGCTGTTTGACTTGGTCCTGGATGACGGGGGATTCCTTCGGCTGACCTGGGCACGGGGTGCCAGTATTACGGCAGCCGATGCGGAAGCTGCCATGGCAAAGGTCAATGCCTTGTCCGGGACAAGCCGTCTCCCGATGCTCGTGGATATGGCCACTACTTCGGACGTCAGCCGGGGAGCGCGCGCCGTCTTTGGCCGCCCGTGCCAGGCTTCCCGGATTGCGCTGCTCGGCACGTCGCCGGTGGACCGGGTGCTCGCCAACTTTTTCCTCGGCATCCACAAGGTTCCGTGTCCCACGAAGTTTTTCACCTCCGAACCCGACGCCCTGGCCTGGCTCAACGAAGCCCAGGCCCCGTCGGTTGCCGAGTAA	MNADTSGEHGLFDLVLDDGGFLRLTWARGASITAADAEAAMAKVNALSGTSRLPMLVDMATTSDVSRGARAVFGRPCQASRIALLGTSPVDRVLANFFLGIHKVPCPTKFFTSEPDALAWLNEAQAPSVAE				NA	NA	NA	NA	NA
D1-17_00830	804			hypothetical protein	ATGCTGCCATCACTGAAGAAATACCTGCTCGTTCCCGAGCTGATGCGGCTGTCCTCCAAGGCGCCGCGGGATCCGCACCATGCCTGGGACCAGTACTGGGGAGACATTCGCCGCACCGGCCAACCCGATGGCGTGCTGTGGGACTCGGGCGACGACCACGAAATGCTCGGCTACCTGGAGCACCTGAAGCGGCAGATGGATCCGGAGCTTCCCGTGGTGGACGTCGGCTGTGGCAGCGGCTCATTCAGCCGGAGGTTGGCGGCGCACTTTCCCCACGTCCTCGGCGTGGATGTGTCAGCCCAGGCCGTCGCCCTGGCCCGCTCGGAATCGGAGGGACTGGAGGGGCTCTCCTTCGCTACGGTTGACATGTCGGCGCCGGGAGCAGCCCAAGCGGTGAGAACTGCGCTGGCTGCAGCAGGTCTGGCTGGCGATGCCAACATCTTCATCCGGGGCGTCCTCCACGTTCTCAAGCCCGCCTCCCGCGCCGCGCTGGCCGAACAACTGCTCCCGCTGGTGGGCAGAAGGGGCCGCGTCTTCCTGTCCGAAACGGACTTCCGGGGTAATGCCGTCGAATACGTCAGCCATCTCGGCGCGACCAAGAGCTTCATACCGGAGCCTCTCGCCCACGCCATCCGGGCCCTTCCCATGCCCGGACGCTTCGGGTCCGTTCAGCGCCTGCGAGCGTTTCCCGAATCCCGCTGGGACCTCGTGGAGGACGGTTCCGCCGTCATCGAAACCCATCCGCTGACCTCGCGGGAACCGGAACGGATCCCGGGGTATTTTGCGGTCCTCCAGGCGCGCTGA	MLPSLKKYLLVPELMRLSSKAPRDPHHAWDQYWGDIRRTGQPDGVLWDSGDDHEMLGYLEHLKRQMDPELPVVDVGCGSGSFSRRLAAHFPHVLGVDVSAQAVALARSESEGLEGLSFATVDMSAPGAAQAVRTALAAAGLAGDANIFIRGVLHVLKPASRAALAEQLLPLVGRRGRVFLSETDFRGNAVEYVSHLGATKSFIPEPLAHAIRALPMPGRFGSVQRLRAFPESRWDLVEDGSAVIETHPLTSREPERIPGYFAVLQAR				NA	NA	NA	NA	NA
D1-17_00831	2241	dapb1		Dipeptidyl aminopeptidase BI	ATGACCCAGACTCCGCTGCAGCATTCCGCAGATACCCCCGCCGCTGCCTCCCCTGCGCCTCCGGCCGCAAAGAAGGTGCCCACTGAACGCACCCACCACGGTGACACGTTCGTGGACAACTACGAATGGCTTCGGGAGAAGGACTCTGAGGAGGTGGTGGCGCACCTGAAGGCCGAGAACGCCTATCAGGAAGCCGTCACCGCCCATCAGGAACCGCTGCGCGAGGCGATCTTCCAGGAGATCAAGGGCCGCACGCAGGAGACCGACCTGTCCGTCCCCAACCGCAAGGACGACTGGTGGTACTTCAGCCGCTCTGTGGAGGGCAAGGAGTACGGCATCCAGTGCCGCGTGCGCGCCCAAAACACCGGCGACCCGGTGGCGGACTGGACTCCTCCGGCGGTTGAGGCCGGCGTCGGGATACCGGGCGAGGAAGTGCTGCTGGACTGCAACGTGGAGGCTGAGGGCAAGCCCTTCTTCTCGGTGGGCGGCTCGGCAGTGACCGTGGACGGAAACCTGTACGCCTATGCCGTGGACAACTCCGGTGACGAACGCTTCACGCTGCGCATCAAGGACCTGCGTACCGGCGAGTTGCTGCCGGATGTCATCGAGAACATCTTCTACGGGGTTTCCTTTTCCCCGGACGGCACCCGGATCTTCTACACAATGGTGGATGACTCCTGGCGCCCGTACCAGGTCAAGGCGCACGTCCTGGGTACGCCCGTCACCGACGACGTGGTGATTTACCAGGAGGACGACGTCGCAATGTGGCTGGGCTTCGAGCTGTCCTCTGACAGGCGTTACCTGGTGCTGGGAATTGGCTGCTCCGAATACAGCGAAACACGGCTGCTGCGGCTGGACGATCCCGATGCCACGCTCACCACCGTGATCTCCCGCGACGAACGCGTCCTTTACGAGGCCGAGCCATTCCTGCTGGAGGGCCAAAACGGGCAGAAAACTGAGCGCATCGTCATCACCCACAACCGGAACGCTGTCAATTCGATGGTCTCACTCGTGGAACCGTCCGAACTCGCGAAGCCGCTGGCCGAGCAGCAGTGGACTACCGTCGTCGAGCATTCCGACGACGTCCGGGTGAACGGCGCGGGCGTCACCTCGACCCATATGGTGGTCTCGGTCCGAAAAGACACCATCGAGCGGGTTCAGGTCATCTCCCTGGCCGGTCTCGGCACCGCCGCCCAGGAACCGCCCGTGGAGCCAGCCTTCGACGAGGAACTGTATACAGCCGGAGTAGGCGGTTCCGACTACGAAGCGCCCGTGATCCGGCTCGGCTACACGTCCTACTTCACGCCGTCGCGGGTCTATGACTTCGTGCTCCCCACCACGGACCTGCCCGCAGGTGAACTGCTGCTGCGCAAGGAAAGCCCGGTGCTCGGCGGCTACAACGGCGATGACTACGTGGCCACCCGTGAGTGGGCGCAGGCCGAGGACGGCACCAGGATTCCGCTTTCGGTGCTGCGGCACAAGGCGGTTGCCCGCGATTCAACGGCTGCCGGCCTGGTCTACGGCTACGGCTCATACGAAATGAGCATGGACCCGGGCTTCGGCATTGCCAGGCTCTCGCTGCTGGACCGCGGCGTCGTCTTTGTCATCGCGCACATCCGTGGCGGAGGCGAGCTGGGCCGGCACTGGTACGAGAACGGCAAGAAACTCCGCAAGAAGAACACCTTCACCGATTTCATCGCGGCCACGGACTGGCTTGCGGCCTCGGGCTGGGTGGCGCCGGACCGGATCGCGGCGCTGGGCGGCTCGGCGGGCGGCTTGCTGATGGGTGCCGTGGCCAACCTTGCCCCCGAGAAGTACGCGGCCATCGTGGCGGAAGTGCCGTTCGTCGACGCCCTCAACACCATCTTGGACCCGGAGCTGCCGCTGTCCGCGCTCGAATGGGAGGAGTGGGGCAACCCCATCAAGGACCCGGCGGTCTATGAGTACATGAAGTCGTACACGCCGTACGAGAATGTCCGGCCCGCCGCGTACCCCAAGATCGCCGCGGTGACCTCGTTCAACGACACCAGGGTGCTTTACGTCGAGCCGGCGAAATGGGTGCAGGAGCTGCGGAATAAAACCACGGCTTCAGACCCGATCGTCATGAAGATCGAGATGGACGGCGGCCACGGCGGGGCGTCCGGACGATACGTGCAGTGGCGCGAGCGGGCGTGGGACTACGCCTTCATTGCCGACTCCCTGGGAGCCACGGAACTCCTCCCCGGCGCCGGACTGAAGTAG	MTQTPLQHSADTPAAASPAPPAAKKVPTERTHHGDTFVDNYEWLREKDSEEVVAHLKAENAYQEAVTAHQEPLREAIFQEIKGRTQETDLSVPNRKDDWWYFSRSVEGKEYGIQCRVRAQNTGDPVADWTPPAVEAGVGIPGEEVLLDCNVEAEGKPFFSVGGSAVTVDGNLYAYAVDNSGDERFTLRIKDLRTGELLPDVIENIFYGVSFSPDGTRIFYTMVDDSWRPYQVKAHVLGTPVTDDVVIYQEDDVAMWLGFELSSDRRYLVLGIGCSEYSETRLLRLDDPDATLTTVISRDERVLYEAEPFLLEGQNGQKTERIVITHNRNAVNSMVSLVEPSELAKPLAEQQWTTVVEHSDDVRVNGAGVTSTHMVVSVRKDTIERVQVISLAGLGTAAQEPPVEPAFDEELYTAGVGGSDYEAPVIRLGYTSYFTPSRVYDFVLPTTDLPAGELLLRKESPVLGGYNGDDYVATREWAQAEDGTRIPLSVLRHKAVARDSTAAGLVYGYGSYEMSMDPGFGIARLSLLDRGVVFVIAHIRGGGELGRHWYENGKKLRKKNTFTDFIAATDWLAASGWVAPDRIAALGGSAGGLLMGAVANLAPEKYAAIVAEVPFVDALNTILDPELPLSALEWEEWGNPIKDPAVYEYMKSYTPYENVRPAAYPKIAAVTSFNDTRVLYVEPAKWVQELRNKTTASDPIVMKIEMDGGHGGASGRYVQWRERAWDYAFIADSLGATELLPGAGLK	PGPT0020980_203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020980-ptrB-K01354	NA	NA
D1-17_00832	357			hypothetical protein	GTGAGCAGGGGCCAGAACGCGAACGTTGCATTCCGACTGCTGCGGATCGATGGAAACGGGCAAGTGGTGGGTTTCGGAGCATTCGCGAAGCTGCTCAAGGGCGGACGGTTCGACCCGTGCGTGGCTGACATCCACAACGAGCCGGAGGCCCTCCCTGAGGTGGTTGGCGCGCTTTATAACAACGTACAGAGCCTGGATGTTTCGGGCGGTTACATTTCCCTGGGCGGCGACTTGAGCTTCACCGCATTCAAGATCGAGTCGGACCAAAACCTTAAGCTTGTCGTTCAAAACATCTCCCCTCATGCTGGCCGCTACGCCGCGGCCTGGCCGCGACGCTGCGACCGAGAACTACCCTAA	MSRGQNANVAFRLLRIDGNGQVVGFGAFAKLLKGGRFDPCVADIHNEPEALPEVVGALYNNVQSLDVSGGYISLGGDLSFTAFKIESDQNLKLVVQNISPHAGRYAAAWPRRCDRELP				NA	NA	NA	NA	NA
D1-17_00833	1749	ctaD_1	COG0843	putative cytochrome c oxidase subunit 1	ATGTCCAAACTTCAGCAGTCACCAGTTTCGACCACTACCGTCACGCCCTCGCCGCCGAAACGCAAGGGCCGGATCGTGGTCAGCTGGATCACCAGCACCGACCACAAAACCATCGGGTACCTGTACCTGATCACCTCCTTCGTGTTCTTCTGCCTGGGCGGTGTGATGGCCCTGCTCATCCGCGCCGAGCTGTTCGAACCCGGCATGCAGGTGCTGGTCACTAAAGAGCAGTACAACCAGATGTTCACCATGCACGGCACAGTCATGCTGCTGATGTTCGCCACACCGCTCTTCGCGGGCTTCGCAAACGTCATTATGCCGCTGCAGATAGGCGCACCGGACGTCGCCTTCCCTCGGCTGAATGCCCTGGCTTACTGGTTCTTCCTCTTCGGCTCCACCATCGCCGTGTCCGGCTTCATCACCCCCCAAGGCTCGGCGTCATTCGGCTGGACAGCCTACACTCCGTTGTCCAACACGACATTCACGCCCGGCGTAGGCGGTGACCTGTGGGTGTTCGGCCTGGCATTGTCCGGCTTTGGCACCATTCTGGGGGCCGTCAACTTCATCACCACCATTATCTGCATGCGCGCCCCGGGCATGACCATGTGGCGGATGCCGATCTTCACCTGGAACACCCTCGTAACGGCAGTCTTGGTGATCATGGCCTTCCCCCCGCTGGCGGCAGCGCTTTTCGGACTCGGTGCGGACCGGAAATTCGGCGCTCACGTCTATGACCCGGAAAATGGCGGTGCCATCCTCTGGCAGCACCTGTTCTGGTTCTTCGGCCACCCGGAGGTGTACATCATCGCGCTGCCGTTCTTCGGTATCGTGACGGAGATCTTCCCCGTATTCAGCCGCAAGCCGATCTTCGGTTACAAGGGCCTTGTCTACGCAACGATCGCAATTGGGGCTCTCTCGGTCACTGTGTGGGCACATCACATGTACGTCACCGGCGCTGTGCTGCTGCCGTTCTTCGCACTGATGACCATGTTCATCGCGGTTCCGACGGGCGTGAAGTTCTTCAACTGGATTGGCACCATGTGGGGCGGTTCGCTGACGTTCGAGACCCCGATGCTGTGGAGCATCGGCTTTCTCATCACGTTCCTCTTCGGCGGCCTCACCGGCATCATCCTGGCTTCCCCGCCGCTGGACTTCCACGTCTCGGACACTTACTTCGTGGTGGCGCATTTCCACTACGTGGTCTTCGGCACCGTGGTCTTCGCGATGTTCGCCGGCTTCTACTTCTGGTGGCCGAAGTGGACGGGCAAGATGCTCAACGAACGCCTCGGCAAGATCCACTTCTGGATGCTGTTCGTGGGCTTCCACGGCACCTTCCTGATTCAGCACTGGCTTGGCGTTGCCGGCTTCCCCCGCCGCTACGCGGACTACATGCCCCAGGACAACTTCACCTGGATGAACCAGTTCTCCACGTACGGTTCCTTCTTGCTGGGGGCGTCCCTCCTGCCCTTCTTCTGGAACGTCTGGATCACGTCGCGCAGCCACCGGAGGGTCGACGTAGATGATCCTTGGGGCTTCGGCGCTTCACTGGAGTGGGCCACGTCCTGCCCGCCGCCGCGCCACAACTTCACGTCCCTGCCGCGCATCCGCTCGGAACGCCCGGCGCTGGACCTGCATCATCCGGAGCTCCGGGTGCGCGAGCACGAAGCGGTCCACTCCCCGGCCGCCGACGTACTGGGGGCAGCGGACATAGGAGCCAAGGACGTGCGGGACCCGAACCCGGACAAGTAA	MSKLQQSPVSTTTVTPSPPKRKGRIVVSWITSTDHKTIGYLYLITSFVFFCLGGVMALLIRAELFEPGMQVLVTKEQYNQMFTMHGTVMLLMFATPLFAGFANVIMPLQIGAPDVAFPRLNALAYWFFLFGSTIAVSGFITPQGSASFGWTAYTPLSNTTFTPGVGGDLWVFGLALSGFGTILGAVNFITTIICMRAPGMTMWRMPIFTWNTLVTAVLVIMAFPPLAAALFGLGADRKFGAHVYDPENGGAILWQHLFWFFGHPEVYIIALPFFGIVTEIFPVFSRKPIFGYKGLVYATIAIGALSVTVWAHHMYVTGAVLLPFFALMTMFIAVPTGVKFFNWIGTMWGGSLTFETPMLWSIGFLITFLFGGLTGIILASPPLDFHVSDTYFVVAHFHYVVFGTVVFAMFAGFYFWWPKWTGKMLNERLGKIHFWMLFVGFHGTFLIQHWLGVAGFPRRYADYMPQDNFTWMNQFSTYGSFLLGASLLPFFWNVWITSRSHRRVDVDDPWGFGASLEWATSCPPPRHNFTSLPRIRSERPALDLHHPELRVREHEAVHSPAADVLGAADIGAKDVRDPNPDK	PGPT0004025_1165	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-17_00834	465			hypothetical protein	ATGGTCACTTCCAATCGCGCAGCCGGCGCCAGGAGCCGACTGCAACTGGCAGCCCAGGTCGTGGGGGCAGTGTTCCTGCTCGTCGGCATTCTGGGCTTCATCCCCGGCATCACCAGCAATTTCGGTGCCATGGGTTTCGCAGGGCACACCTCCGAGGCGCTGCTCTTAGGCGTTTTCCAAGTTTCAATCCTTCACAACATCGTTCATCTCCTCTTCGGGGTGGCCGGCATCATGATGGCCCGCAATCCAGGCCAGGCGAAGAACTACCTGCTCTACGGCGGCATCATCTACCTGGTCCTGTGGCTGTACGGCCTGATCATCAACCTCAACACGCCTGCCAACTTTGTGCCGGTCAACATGGCTGACAACTGGCTGCACTTCGTGCTCGGCGCCGGAATGGTTGCCCTGGCACTGCTCCTGTCCCGGCAGGGAGTGGGCGCTGCACATCCCCGGGCGGGGCACTGA	MVTSNRAAGARSRLQLAAQVVGAVFLLVGILGFIPGITSNFGAMGFAGHTSEALLLGVFQVSILHNIVHLLFGVAGIMMARNPGQAKNYLLYGGIIYLVLWLYGLIINLNTPANFVPVNMADNWLHFVLGAGMVALALLLSRQGVGAAHPRAGH				NA	NA	NA	NA	NA
D1-17_00835	354			hypothetical protein	ATGCGCAAGCTGCTTGTTATGACCACAGCCGTACTGGCCCTGCTCGTAGGCGGTATTTCGTTTGCCCTGCCATCGCAGGCTGGAACTTCCGCTTCGCTCTTTTCCGCGCGGGTCCAGGCGCCGGTGCAAACCGCAGGTGATCCGCAGGCGGCGGAAACTCCAACGCCCACCAGCGAATCAAGCGCTTCCGCGACTCCCTCAGGAAATCCCGTGAATCCGGGAACGGGCGAACCGGCCGAGTCCGAGGGGGCACGCCTCGACTGGGCTCCCTACGTCATTGGTGCGATTGTCCTTGGCGCGATCCTCGCGGCGGTCCTATGGCGCCGTCGCCGGCACGACAAGACGGTGGTTTAG	MRKLLVMTTAVLALLVGGISFALPSQAGTSASLFSARVQAPVQTAGDPQAAETPTPTSESSASATPSGNPVNPGTGEPAESEGARLDWAPYVIGAIVLGAILAAVLWRRRRHDKTVV				NA	NA	NA	NA	NA
D1-17_00836	417	hrp1_1	COG0517	Hypoxic response protein 1	ATGACTATCAAGGCACGCGACATTATGACCGGCGGCGTGGAATGCGTCGGCGCAAATGAAACCCTTGAGCAGGCCGCCAGGAAGATGAAAGAGCTCGACGTCGGCGCGCTTCCGATATGCGGTGAGGACAACCGACTGAAGGGAATGGTCACGGACCGGGACATAGTGGTCAAATGCCTCGCCGAGGGCGGCGACCCGCGCACCGCAAAGGCGGGCGATTTTGGAGAAGGAAAGCCAGTCACCATCGGCGCTGACGACTCCATCGAGGAAGCCATCAGGACCATGCAGGAGCATCAGGTCCGCCGGCTGCCTGTCATCGACGGCCACGATCTAGTCGGCATGCTGAGCCAAGCTGATATCGCGAGGAATTACCCCGAAGAGCGGGTAGGCGAACTGGTTGAATTTATTTCGTACTAG	MTIKARDIMTGGVECVGANETLEQAARKMKELDVGALPICGEDNRLKGMVTDRDIVVKCLAEGGDPRTAKAGDFGEGKPVTIGADDSIEEAIRTMQEHQVRRLPVIDGHDLVGMLSQADIARNYPEERVGELVEFISY				NA	NA	NA	NA	NA
D1-17_00837	423			hypothetical protein	GTGTCGACCATCTCCAACGCCCAGCTTCCCGGAGGGGCCCACCGCCCACCCGGCGACCGATTGTGGTGCTCCGAATGCCGCACGGACGAGCACCTGATCGTCGAGTCCATCGAAGCTTTGCACCCTCCCCAAGACGGCATGGTGGAGGTGTCCTACACCTGTGTCGAATGCGACTACTTCTACGGGCACCCCGCGACGGTTCACGACGTTGCTGCCGTCCTGAACCGGCACGGCCAGATGCTGGGCGTCCTGCAGTTCGGCGGCGATTACTTCCACTGCGGTGCTCCCATGATATCGGTGGGCTCGGGAACCAGCAGCATCTCCGGCCGGGAGCTGACACTGCGGCGTACCATCCATGACGTTCACCTCCCCACCCGCCTGCTCCGCTGCGGTTGCGGCTTCCAAATGGAAGTACCGGACTAG	MSTISNAQLPGGAHRPPGDRLWCSECRTDEHLIVESIEALHPPQDGMVEVSYTCVECDYFYGHPATVHDVAAVLNRHGQMLGVLQFGGDYFHCGAPMISVGSGTSSISGRELTLRRTIHDVHLPTRLLRCGCGFQMEVPD				NA	NA	NA	NA	NA
D1-17_00838	261			hypothetical protein	ATGATTGGATTCATTGTCGCCGGGCTCATCATCGGAGCCCTCGCCCGCCTGATCAAACCGGGCAAGCAGAACCTCGGCCTCGGGGCCACCCTGTTGCTAGGCCTGGCCGGCTCCGTTATTGGCGGCGTCGTCGCAAGCCTGCTCGGAACGGGGGACATCTTCGAGCTGAACGTTCTCGGGTTTATTGTCGCCGTCGTTGCTGCCGTGCTGCTCATCGGCGTCGCCGAAAGCGTGGTCGGCCGCAGGCGGATCCGCCGGTAG	MIGFIVAGLIIGALARLIKPGKQNLGLGATLLLGLAGSVIGGVVASLLGTGDIFELNVLGFIVAVVAAVLLIGVAESVVGRRRIRR				NA	NA	NA	NA	NA
D1-17_00839	423			18 kDa heat shock protein	ATGTTGATGCGCACCGATCCGTTCCGCGAGCTGGACAGGCTCGCCCAGCAGGTCCTTGGCACAACGGCGCGTCCCGCCGCCATGCCGATGGATGCATGGCAGGAAGACAAGGAATTCGTCGTGGCCTTCGACCTGCCCGGTGTGAATGTTGACTCCGTCGACCTGGACATTGAACGGAACGTCCTGACGGTTAAGGCTGAGCGACCTGACCCCGTAGGCAAGGACACGGAGATGATTGCCTCCGAACGTCCCCGCGGTGTGTTCAGCCGGCAGCTGATCCTGGGCGACACCCTGGATACGGAAAGCATCAAGGCCAATTACGACGCCGGTGTGCTGACTCTGCGGATTCCGGTCGCGGAGAAGGCTCAGCCCCGGAAGATCCAAATCGAAACCAAGGGGGCTCGGCAGGAGATCAACGCATAG	MLMRTDPFRELDRLAQQVLGTTARPAAMPMDAWQEDKEFVVAFDLPGVNVDSVDLDIERNVLTVKAERPDPVGKDTEMIASERPRGVFSRQLILGDTLDTESIKANYDAGVLTLRIPVAEKAQPRKIQIETKGARQEINA	PGPT0014635_7466	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-17_00840	993	nnr_1	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	GTGTCCACCCGAAATGAGTCCAGGCCAGCCAAGGAAGATGCCGCCAGTGACACTGCCGCGCAGGACTCTCCTCCGGCTCAGATCACGCCGTCGCTGCTGCGCGACTGGCCGCTGCCCTCCGCCGGCGCGGACAAGTATTCACGCGGCGCGGTGCTGGTGATCGGCGGCGCCCGGCGGACACCCGGAGCCGCGTTGCTGGCCGGAACCGCCGCGCTCCGCGCCGGTGCCGGCAGGCTGACCCTCGCAGTGCCGGAATCGGTGGCCGTGCACCTGGCAGTTACGCTGCCGGAAGCCGGAGTCATCGGCCTGCGTGAATCCGCTGGAGGGTCTCTGGGTTATGACGGTCTGGAAGCTTTGTTCGAGGACTTTGACTCCGCTGACACCGTGCTGATCGGACCGGGACTGGACGACATCGACGGCACCGAAGCGTTGCTCAGGGAGCTGCTCCGGCACGAAGCAGCGCGCACCACTGGTCAGGACGGCGACGGCGGGCCCGCTGCCATTGTTCTGGACGCCTATGCCCTGGGTTGCCTTTCCAAGCTGGTGGACTACCTGGACCCGTGGGCAGGCAGGCTTATACTTACGCCCAATCCCACCGAGGCGGCTATTCTGCTCGGCCAGGACGCGGATCTGGGCGACGAAAGCACGTTGGCGGCCGCCGTTGTCGAAATCTCGGAAAAGTACCGGGCCGTGGTGAGCTGCCAGGGTTTGATCGCCCGCCCGCCCGGCGGCGACGCGCCGGAAGCTGCGGAACGCTGGCAGATCACCACCGGCTATGGCGGGCTGGGCACCTCCGGCAGCGGAGACATTCTGGCGGGCGCCATCGCAGGGCTCCGGGCAAGGGGCGCCACCGACGCGCAGGCCGCCTGCTGGGGCACGCATCTGCACGCAGCCGCCGGTGACCGGCTCGCAAGCCGGCTGGGGAGCCTCGGCTTCCTGGCCCGCGAACTGGCCGACGAGCTGCCTCCCCTGATGATGGAGCTGAACACGTAG	MSTRNESRPAKEDAASDTAAQDSPPAQITPSLLRDWPLPSAGADKYSRGAVLVIGGARRTPGAALLAGTAALRAGAGRLTLAVPESVAVHLAVTLPEAGVIGLRESAGGSLGYDGLEALFEDFDSADTVLIGPGLDDIDGTEALLRELLRHEAARTTGQDGDGGPAAIVLDAYALGCLSKLVDYLDPWAGRLILTPNPTEAAILLGQDADLGDESTLAAAVVEISEKYRAVVSCQGLIARPPGGDAPEAAERWQITTGYGGLGTSGSGDILAGAIAGLRARGATDAQAACWGTHLHAAAGDRLASRLGSLGFLARELADELPPLMMELNT				NA	NA	NA	NA	NA
D1-17_00841	867	gpmA_1		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	GTGGGCAAAGATGGACAAAGCAGTGTAGACCAGCGCAACCTTGACGGACGCAACGCGCACCACAGCAGCAACGGCCAGCGCAGCCCGCAGCAGCACAGTGATCGAACCATGCCGGCCGGCTGGAACGCGGGAGCAGTCGAGCTGATCCTGGTCCGGCACGGCGAGAGCCAGGGCAACGTGGCCGCTTCAGACGCACAGGCGGCAGGCTTGGACGTAATCGATGTTCCCGCCCGCGACGCTGACGTCGAACTCTCCGACACCGGCCGGGAACAAGTTCTGGCCCTGGGCCGTGCACTGGCGGACACCCCCGAAGAGCTGCGTCCCGACGTCGTCATCTCCTCGCCGTACATGCGCGCATTCCGGACGGCGGAACTGGCGGTTCAGACGGCCGGCTGGCCGGTGACCGTCCGCAGCGACGAGCGGCTCCGGGACCGCGAGCTCGGCATTCTCGACATGCTGACCAGCACCGGCGTGGAGAACCGGTTCCCGGAGGAAGCAGAACGACGGCGGTGGCTGGGTAAGTTTTACTACCGTCCGCCGGGCGGGGAATCCTGGGCGGACGTGGCGCTGCGGGTACGCTCCGTACTCGGGGAACTGAACGCGCTGGGCAGCGGGCACCGGGTGATGCTGGTTTGCCACGACGCGGTGGTGATGCTGTTCCGCTATGTGCTCGAGGGCATGTCCGAGCGGGAGCTGCTTGACCTCGCCGCGGGCACGTCAGTCCTCAACGCGTCGGTTACCCGATACGTGCGCCCGGAAGGCGCCGGGCCGTGGACGCTGGAGAGCTTCAACGTTGCCGAGCACCTGGAACGGCACGGCGTCCAGGTCACCGAACATGCAGGAGATGCCAGTGTCCACCCGAAATGA	MGKDGQSSVDQRNLDGRNAHHSSNGQRSPQQHSDRTMPAGWNAGAVELILVRHGESQGNVAASDAQAAGLDVIDVPARDADVELSDTGREQVLALGRALADTPEELRPDVVISSPYMRAFRTAELAVQTAGWPVTVRSDERLRDRELGILDMLTSTGVENRFPEEAERRRWLGKFYYRPPGGESWADVALRVRSVLGELNALGSGHRVMLVCHDAVVMLFRYVLEGMSERELLDLAAGTSVLNASVTRYVRPEGAGPWTLESFNVAEHLERHGVQVTEHAGDASVHPK	PGPT0018035_121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018035-gpmB-K15634	NA	NA
D1-17_00842	1347	nhaA	COG3004	Na(+)/H(+) antiporter NhaA	ATGAGCCAGTCACCTTCGCCCGTCCCTCCCCGCCCCACGATCTTCGGCCGCGGCAGTTATGCCGAGGCCCTCCGCATCGGAGAAATCCTGCGGAAGGAAACGGTGGGCGGGGCCCTCTTGGTCATCGCCGCCGTCATCGCCCTGATCTGGGCCAACTCCCCCGCCTCCGAAAGCTACTTCGCGCTGCGGGACTTCACATTCGGCTACGAACCCTGGCACCTCGAACTCAGCCTCGGAGCCTGGGCGGCCGATGGCCTGCTGGCCATCTTCTTCTTCCTCGTGGGCCTCGAACTCAAACGCGAATTTGTAGCCGGCGACCTGCGACAGCTGAACAAGTCGGTGGTCCCGGTAGCCGCCGCAGCCGGCGGGGTCCTGGCTCCGGCGCTGATCTACGCTGCGGTGAACATCAGCAGCCCGGAAACCCTCAGAGGCTGGGCCATCCCCACGGCGACCGACATCGCGTTTGCGGTTGCAGTACTGGCGATCATCGGTTCGCACCTGCCGAGCGCCCTGCGGATCTTCCTGCTCACACTCGCCGTGGTGGATGACCTGATAGCCATCAGCATCATCGCGATCTTCTACTCCTCGGACATCCAGGCGGTGCCGCTGCTGCTGGCACTCCTGCCCTTGGGCCTTTACCTGCTGCTGGCGCAAAAGTTCCGGCGCTTCTTCGGAACGCACCCGGCCGCCGCCTGGCTTATCCTGCTGCCGCTCGGAATCATCACCTGGGCGCTCGTGCACGCGTCCGGAATCCACGCAACGGTGGCTGGCGTGCTCCTGGGCTTCGCCGTCCCTGTCATCCGATCGCAGGCCAGCGGCGGATCGGAAGCCGGCCCAGGGCTTGCAGAGATCTTTGAACATCGCTTCCGCCCGATTTCCGCGGGCATCGCCGTTCCCGTCTTCGCCTTTTTCTCGGCCGGGGTGGCCGTCGGCGGTGCGGAAGGTCTGGTTTCGGCGTTCACGGGTCCGGTAGCCCTGGGCATTGTTCTGGCGCTGGTGCTCGGCAAACCCATTGGCATCATGGGCACCACCTGGCTGCTCACGAAGACCACCAAGGCGAGGCTGGACGGTTCCTTTAAGTGGATCGACGTCTTCGGCATCTCGCTCCTGGCCGGCATCGGCTTCACCGTTTCACTGCTGGTGGCGGAGCTCAGCTTCGGTCATGGGAGCCTAAATGATGATCACGCCAAAGTCGGTGTCCTCTCAGCTTCCCTGCTGGCTGCCCTGCTCGCTGCCGTGGTGCTGCGGATCAGGAACCGCCACTATCGCAAGGCGGAAGAAGAGGAAAAGGTCGATTCAGATCAGGACGGCGTCCCGGACGTCTACCAGTCCGACCGGACAGTCTGA	MSQSPSPVPPRPTIFGRGSYAEALRIGEILRKETVGGALLVIAAVIALIWANSPASESYFALRDFTFGYEPWHLELSLGAWAADGLLAIFFFLVGLELKREFVAGDLRQLNKSVVPVAAAAGGVLAPALIYAAVNISSPETLRGWAIPTATDIAFAVAVLAIIGSHLPSALRIFLLTLAVVDDLIAISIIAIFYSSDIQAVPLLLALLPLGLYLLLAQKFRRFFGTHPAAAWLILLPLGIITWALVHASGIHATVAGVLLGFAVPVIRSQASGGSEAGPGLAEIFEHRFRPISAGIAVPVFAFFSAGVAVGGAEGLVSAFTGPVALGIVLALVLGKPIGIMGTTWLLTKTTKARLDGSFKWIDVFGISLLAGIGFTVSLLVAELSFGHGSLNDDHAKVGVLSASLLAALLAAVVLRIRNRHYRKAEEEEKVDSDQDGVPDVYQSDRTV	PGPT0013935_298	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313	NA	NA
D1-17_00843	177			hypothetical protein	ATGGGTTTGGATGACAAGATCGGCAACGCGGCGGAAAAGCTGGGCGGCAAGGGCAAGGAAGCTGCTGGCGACGCAAGCGGCGATGACAGCCTTAAGGCCGAAGGCCAGGGTGATCAGGCCAAGTCGGACCTGAAGCAGGCCGGCGAGCACGTCAAGGACGCCTTCAAGAAAGATTGA	MGLDDKIGNAAEKLGGKGKEAAGDASGDDSLKAEGQGDQAKSDLKQAGEHVKDAFKKD				NA	NA	NA	NA	NA
D1-17_00844	537			hypothetical protein	ATGTCCACCAAAGCCAAGTCGAATGGCGTGAAGCAGAGCGCCCTGCCCAAGCCGATCACACTGCCTGGCATTTTTTTGGGGGTGGGGCTTGGCGGATTCGTTGACGGGATCCTGCTCCACCAGGTCCTGCAGTGGCACCACATGCTTTCCAGTTCCGACACTGCCAATATCGACATTGGCTCCCACCCCGTCACCACCGTGGCCGGCCTGGAAATGAACACTCTGTGGGACGGGTTCTTCCACACGGCCACCTGGCTAGCCGTGGTCGTAGGGCTGGGAATTCTTTACTCCCGCATCACCATGTCCCGGGGCAGGATCTGGACGTCCAGGGTCCTGTGGGGATGGATGCTGCTTGGCTGGGGCGCATTCAACGTCGTCGAAGGCGTCACAAACCACCACATACTCGGCATCCACCACGTGATCAGCGGCGAGTTCCAGATCCTTGCCGACATCCTGTTCCTGGTTTTCGGCGTCCTCCTGATCGTCGGCGGCTGGTTGCTGCAGCGTTCAGGCCAGCCGCTGGACGCGGACAGGTAG	MSTKAKSNGVKQSALPKPITLPGIFLGVGLGGFVDGILLHQVLQWHHMLSSSDTANIDIGSHPVTTVAGLEMNTLWDGFFHTATWLAVVVGLGILYSRITMSRGRIWTSRVLWGWMLLGWGAFNVVEGVTNHHILGIHHVISGEFQILADILFLVFGVLLIVGGWLLQRSGQPLDADR				NA	NA	NA	NA	NA
D1-17_00845	846			hypothetical protein	ATGGAAAGACGCGGCCTGGTCGCATCGTTGGTGCTGCTGGCCGTGTCACTGGCGGGCTGCACCGGGGGCGGGGACCCGGCGGTGCCCGCTTCTGGTGGTCCGCCTGCCAGCGCCGCATCTGCCGCTGCCGGTGGGCCCGCTGATGGGGACTCGGTCCTTTCGCAGGTGGAGGAAGGCCAGGACTTGGGAAACGGCCGGCCCGAGGTCAGCTACGACGGGCTGATGGTGCGGCGCCGGGTGGTCATCGCCGTGCACTCGGACTCCAATGCAGACATGTTGAGCGTCCGTCAGCAGCTGGGCGCAGCAGCAGCGGCCCGCGATATGGTCCTGGACGCCATCTCCCCCACCGTCCTTGAGCCGGCAGTGCTCCAGCACGTCATGCCTGAACTGATCGTCGCACTCCCTGCAGCGGCCACGCTTGACGACGGCCGGGCCCTGACGGACCAGGCCGTTCGGGAAAGAGTGGGAGAAGCAACGCAGGCACTGGCCGCTGAGCACTTTCACGTCCTCCCCGTCCTGGTGCATGACCTCAAATTCACCATCGCCACCGCCACCCCTGCTGCACTCTCGGCTGCAGTCGACAAGGAAGGAATTCTCTCGGATGCCCTAGGGAATTATGGAACAACTGTCGACGGCGGGAAGGTCGCCTTCAGCTACACCGGACCGCTGCTGGGCGACGGCACAGTGGCAAGCGTCCGTGCCGGCATCGCCCGCCAGGCGGGCGTGGCCGCTTCCGCCGTCGCCGTCGGCCCCCGATCCCTGGCCGGCACCGGGGTGGACATGGCCGCAGAACCACCCTGGGACCCGGAGGTGGTTGAGGAAAAACCCGGCCACGCGCACGGCTGA	MERRGLVASLVLLAVSLAGCTGGGDPAVPASGGPPASAASAAAGGPADGDSVLSQVEEGQDLGNGRPEVSYDGLMVRRRVVIAVHSDSNADMLSVRQQLGAAAAARDMVLDAISPTVLEPAVLQHVMPELIVALPAAATLDDGRALTDQAVRERVGEATQALAAEHFHVLPVLVHDLKFTIATATPAALSAAVDKEGILSDALGNYGTTVDGGKVAFSYTGPLLGDGTVASVRAGIARQAGVAASAVAVGPRSLAGTGVDMAAEPPWDPEVVEEKPGHAHG				NA	NA	NA	NA	NA
D1-17_00846	1725	ftsP_1		Cell division protein FtsP	ATGGCAACACGCAGGGATGTTTTGAAACTCGGCATGTTGGGCGGTGCTGTTGCCGTTTCCGGCGTCGGGGTGGCCCCGGCTTCGTCGGGGGCGAAGGCGAGCGGCGGGGAGGGGGCGACAACGACGTCGGGCTCGTCACCGAGCCAGCTGGCACCGGCCAACATGCCGGTCCCGTACCGGGCGCTTTTCCGGCGGCCTCCCGAGCTGGTGCCCTATGCCACGGGCAGGGACCCCGATGGCCGGCCATTCGCGAAGTACTCCCTCTCGGAGCGGCTGGGCCAGGTGCAGATAGCGAACGGGCTGCTGACCACGATCGCAGGCTACAACGGAATCTTTCCGGGTCCGACGGTCAGGGTTCCGCAGGGCACCCGGACGGAGTTTCGGATCAGCAACCGCCTCCCCTCGAAAGGCCTGCTGTACCCGGACACATTCAACACGGCCACGCACCTGCACGGCTCGGCGTCGCTGCCGCAGTATGACGGGTACGCGAATGACCGCACAGCCCCGGGCAAGGTAAAGAACTACCACTACCCGAACTGGCAGCCCGCGCGAACGCTTTGGTACCACGACCACAACCACCTGCTCACGGCGCAAGGTGTCTATTCCGGACTGGCGGCGATGTACCTGCTGTCTGACCCCTATGAGCAGGCGCAGCTCCCCCAGGGTGAATTCGATGTGCCCATGCTGGTCTCGGACGTGATGCTAAACGCAAACGCCTCACTGGGCTACAACGACAACGGCCGCTCTGGCCTGTGGGGTGACATCATCCTGGTCAACGGCGTTCCGTGGTCCACGATGAAGGTCAAGCCCAGAATCTACAGGTTCCGGTTCCTCATCGGTTCAATCACACGCTCCTACCGCTTCGCTCTATCCAATGGGAAGCCGTTTTACGTTGTTGCCACCGACGGCGGCATGACGCGGAAGGTCGAAGCGGTGTCATCGTGGCGGCAGGGTACCGCAGAACGCTATGAGGTGCTGGTCGACTTCCGTGGCTACAGGCCCGGCCAGACCGTCGACCTGAGGAACCTGAGCAACAAGAACAACGTGAATTTCGCCAACACCGGCAAGGTCATGCGGTTCGAGGTTGTGGCGGACTCCCCGTCACTGATGCCCGGATCCCGTACCCTCAGCTCCATCCCTTCCACGCTTGACCCCGGCGAGCATCCCACCAGGGACTCCGGCGGTATCGAAACAATGAAGCTGACCACCGACATGGTGGTGGCCAAGAAGGTCCTGCGTGTAAAGCGTGAGGGCGGAGAGTGGACCATCAACGGCGTGACATGGGAGGATGTGGAAGCGTCCGGCTTCAGAAAGTGCTTCTCCACGCCGGAGCGCAACGAGGTGGAGCAGTGGACCATCGTCAATGATTCCGGCGGCTGGTTCCACCCCGTGCACATCCACCTCATCGACGGCAAGATCATCGGACGCAACACCAACGGCGGCAAACCTTTCGCTTGGGAAAAGGGCCCGAAGGACGTCTTCTACGCCGGCGAGAACGAATCCGTCACGGTCCTGATGCAGTTCGACACCGGAAAGCACGAAGGCGGCCGGTACATGGTCCACTGCCACAACCTGGTGCACGAGGACCACGACATGATGGTGCAGTTTGCGGTGGGCGACCTGGAAAACAACGACCCCATCTCCGCTGACCCGCCTGTGCCGGAAACAGTGCCGGAGAGTTTCTTCGCCTCGACCTACCGGCTCGCCTATCCGGCAGGGACCTGA	MATRRDVLKLGMLGGAVAVSGVGVAPASSGAKASGGEGATTTSGSSPSQLAPANMPVPYRALFRRPPELVPYATGRDPDGRPFAKYSLSERLGQVQIANGLLTTIAGYNGIFPGPTVRVPQGTRTEFRISNRLPSKGLLYPDTFNTATHLHGSASLPQYDGYANDRTAPGKVKNYHYPNWQPARTLWYHDHNHLLTAQGVYSGLAAMYLLSDPYEQAQLPQGEFDVPMLVSDVMLNANASLGYNDNGRSGLWGDIILVNGVPWSTMKVKPRIYRFRFLIGSITRSYRFALSNGKPFYVVATDGGMTRKVEAVSSWRQGTAERYEVLVDFRGYRPGQTVDLRNLSNKNNVNFANTGKVMRFEVVADSPSLMPGSRTLSSIPSTLDPGEHPTRDSGGIETMKLTTDMVVAKKVLRVKREGGEWTINGVTWEDVEASGFRKCFSTPERNEVEQWTIVNDSGGWFHPVHIHLIDGKIIGRNTNGGKPFAWEKGPKDVFYAGENESVTVLMQFDTGKHEGGRYMVHCHNLVHEDHDMMVQFAVGDLENNDPISADPPVPETVPESFFASTYRLAYPAGT				NA	NA	NA	NA	NA
D1-17_00847	438			hypothetical protein	ATGCAGTGGTGGGACGGCGCTCTGGGAATCCTGATCGGATTGGGCTGCGTGTACGTGATTCTTTTGGCGGGTCTGTGGGTCTATGCCCGGCGCAACCCAGAGGTCGTCAGTATGAAGGATGCTTTGCGTCTTCTGCCTGATCTGTTGCGTCTGATCCGCCGGATGGCAGCCGACAGAACAGTCGCGTCAGGTGTCCGGATCAGGCTGCTCCTGCTTATGGCATACCTGGTGATGCCGGTGGATCTCGTCCCGGACTTCCTCCCGGTCATCGGTTACGCGGACGACGTCATCATCGTCGCCTGGGTCCTTCGCTCCGTAATCCGTTCCGCGGGGCCCGAAGCGTTCCGCCGCCACTGGCCAGGAACACCGGCCGGACTGCACGTCATCGAGCGGTTGGCAGGACTCAATCCCCGTGAGGCCGACCAGGAGAAACCATGA	MQWWDGALGILIGLGCVYVILLAGLWVYARRNPEVVSMKDALRLLPDLLRLIRRMAADRTVASGVRIRLLLLMAYLVMPVDLVPDFLPVIGYADDVIIVAWVLRSVIRSAGPEAFRRHWPGTPAGLHVIERLAGLNPREADQEKP				NA	NA	NA	NA	NA
D1-17_00848	249			hypothetical protein	ATGATGACGCAGGACGAATTCATGCCTGCGCTGGGCGAAGAATCCGCCCGCGCCTTGCCCGCAGACCTCGCCCCCGGCGACCTGGTTGAGGGGCGCCGCGGCGGGCGCCTGCTGCACCGGGGCAGGGTCACCGACGTCGCCGCGCACCAGGGACTGCTGTGGATCATGGATACGGTTTCGGGCAGCCGCAGGCTGTTGGACAGCTCGGAACTGGACATCACGCGCCCATCGGAGCTGGAGAGCGCCTAG	MMTQDEFMPALGEESARALPADLAPGDLVEGRRGGRLLHRGRVTDVAAHQGLLWIMDTVSGSRRLLDSSELDITRPSELESA				NA	NA	NA	NA	NA
D1-17_00849	276			hypothetical protein	ATGAGCCCCACCCCCAAGCAGCCCGTGACCGACGACAGCATCAAGGTGCGCCAGGTCAGCCATTACCAATTCAGCTGGGTGGCGGGAGAGGCCGGCAGGCCCGGAACGTGGACCCTTCAGCTGGTCCTCGATCAAGGGGCATGGGAGGAAGTCCTCACCTTGGACTCGCAGGACGCCGACAACCTCCAGGACCTGCTGTCAACGTCGGAAACGGTGTTCTACGACGTGCCGCGCCGCACCCTCATGTTTGGCACCACCAGCGCCGGGCACCACTGA	MSPTPKQPVTDDSIKVRQVSHYQFSWVAGEAGRPGTWTLQLVLDQGAWEEVLTLDSQDADNLQDLLSTSETVFYDVPRRTLMFGTTSAGHH				NA	NA	NA	NA	NA
D1-17_00850	645			hypothetical protein	ATGCTGCCTGGAATCATCACCTATTCCTATCCGCCCGACGCCGGTGGGCAAAGCCTGGCCGGGACCTTCTACCTTGATGTCGCCACCGGCCGCTTTGAATGGTCAGAGGAAGTGTTCCAGATCCACGGCTACTCCCCCGGCGAGGTGGTTCCCACTCTTGACCTGCTTCTGGCGCACAAGCACCCGCAGGACAGAGAACACATCCGACGGATCATCGCCGACCTCTGTTCCCGCGGCGGCCGGCGGGCCATGTTCCACCGGATAATCGACAGCCGCGGGCGCGAGCACCATGTGTTCACGGCTGCCGAGGCATGCGAGGACTCGGGCAGGATTACGGGGATGCGGGGTTTTACCGTGGACCTGAGCCGGACTGTTGAATCGGCGAACCGTCACGCTGCCGACCAGGCTATCCGGGGCATGTATGCGAGCCGGGAGATCATCGAACAGGCCAAGGGAATCATTATGGGACTCCGCGGCGGAACCCCCGAGCAGGCATTCAGCCTTCTGGCTGGCCGCAGCCAAAATGCCAACATCAAGCTGGCCACACTGGCGGCGCAGCTCGTGGATGCTGCCGGGCGGGGCAGCGCGCGTGAAGAGCTCGCAGGTTGGTCGGAACGGAAGCGGCTGCTGGACCGGACCCCGTAG	MLPGIITYSYPPDAGGQSLAGTFYLDVATGRFEWSEEVFQIHGYSPGEVVPTLDLLLAHKHPQDREHIRRIIADLCSRGGRRAMFHRIIDSRGREHHVFTAAEACEDSGRITGMRGFTVDLSRTVESANRHAADQAIRGMYASREIIEQAKGIIMGLRGGTPEQAFSLLAGRSQNANIKLATLAAQLVDAAGRGSAREELAGWSERKRLLDRTP				NA	NA	NA	NA	NA
D1-17_00851	165			hypothetical protein	ATGAAAAAGATCATGTGGACCATTGCCGCGGTGGCAGTGGTCTTTCTCATCATCGGCGGAACTGTCGAGGCCGTCGGATTTTTGCTCTGGGTGGCTCCGATACTCCTGCTCGGGGCCGTCCTGCTGTTCTTCCTAAGCCGCTCCGGCGGCCGCCGCATCCCCTGA	MKKIMWTIAAVAVVFLIIGGTVEAVGFLLWVAPILLLGAVLLFFLSRSGGRRIP				NA	NA	NA	NA	NA
D1-17_00852	1821	cpdA_1		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	GTGTACCCGATTGCCAGACCGTCCAAGTTGTGCCCCGCCCGGCCTTTGGCCCTGACCGCCAGCACGCTGGCAGTCATCGCCGCTGCGGCCCTGCTGAACCCTGCTGCCGGCCACGCCGCAGATGCTGCCGACTGGCCAGACTCGGCCTACCGTGGAAGCGTCAACGTGGTCAAAGGACCGGACGAGGACCAGCAGGTCATCGACGGGGTCGCCTTCGTCGACGAGGACCAGGACTCCGTGCAGGACGGCAACGAGCGCGGTCTTGCCGGCGTGACCGTGTCCAACGGTCGCGACGTTACGAAGACCGACAGCGAGGGCCGTTACAAGCTGCCCGCGTTCGACAACATGACCGTGTTCGTGACCCAGCCCCGCGGCTACCAGGTTCCCGTGGATGAAGACAACGTCGCCCAGTTCTTCTACCACCACCTGCCGGCCGGTTCACCGGAACTGCGCTTCGGCGGCATCAAGCCGACCGGTCCGCTGCCGGACCAGGTCAACTTCCCGCTGGCCCAGAGCAAGCTGACGCAGTCGCCCGAGCAGCACTGCGTGATTGGCGGTGACGTCCAGACCTATGACCAGGACGAGGTGACCTACGCCCGCACCGGCGCCTTCGCTGACCTGGCCGCCCGCAAGGACTACGCGGGCTGCGGTGCTCTGTTTATTGGCGACGTTGTTGGCGACGACCTGTCCCTGTACCCGCAGACCCGGGAACTAAGCGGCATGCTCAACGGTCCGGCCCGCTTCCTGCCCGGCAACCATGACCTTGACTTCGATGCGACCAGCAGCGAGCACACGTTCGACACGTTCAGGGCCAACCTGGGCCCGGAGTACTACTCCTACGACGCCGGCAAGGCCCACGTTGTAGCCCTGAACACCGTGGAATTCCCCACCAAGCTGCCGGCGCGCAAGGGCGACTACACCGGTTCCCTGGACGACCGGCAGCTTGAATGGCTGCGCCAGGACATTGCCCAGGTACCGGCGAACCAGCTGATCGTGCTCGCCGCCCACATCCCGCTGCTGGACTATGCCGACCAGGGCAGCAGCAAGCACCAGGTGGCGCAGGTCAAGGAAATCTACAAAATCCTCGAAGGCCGCAAGGTTGTTGCAGTGGGCGGGCACACCCACAGCATCGAGAACCTGCGGAAAGGCGATTCCCTGGCGGGATGGTCCGAGCTGTTCGGTATCGATGCCCTGCCCTTCACCCACATCACCGCCGGCGCCATTTCCGGCGACTGGTACTCCGGACGGCAAACCTCCGAAGGTTATCCTCTGGCCTTCCAGCGCGACGGCGGCCTGCCCGGCGTGCTGACCCTGGACATCAAGAACACCGAGTTCCAGGAGCGTTTCACCGTCCGCGGGGAAGATGACTCCCTGCAGATGTCCCTTGGCCTGAACACTCCCCGCTACCGCGAGTGGTACGCACAGAACCTGGCGAACAAGGGCAAGGCCCCCGAGTTCACCAGCCCGCTGACGGTCTCCCGGGACGATCTCGCCAACACCACATGGCTGACCACCAACTTCTGGATGGGCAGCACCGGCTCCACGGTGAAGGTGCAGATCGACGGCGGCCAGCCTGTGGAGGCTGTCCGCACGCAGCAGATGCAGGGCGAAGGTCAGCTCGTCGGTGCTGAGTGGTCTGACCCAGTGGCCGTGCAGGAGCAGCTTGTCAATGGCGGCAGCCTGGCTGACCGCACGATGCACCTCTGGCGGCTGCAGCTGCCCTCCGATCTGGCCGCCGGCGAGCACACCGCCACGGTCACGTCGAGCGATGTCTACGGCCGGGCGTTCACCGAGACCCTGACGTTCCAGGTCGCAGGATAA	MYPIARPSKLCPARPLALTASTLAVIAAAALLNPAAGHAADAADWPDSAYRGSVNVVKGPDEDQQVIDGVAFVDEDQDSVQDGNERGLAGVTVSNGRDVTKTDSEGRYKLPAFDNMTVFVTQPRGYQVPVDEDNVAQFFYHHLPAGSPELRFGGIKPTGPLPDQVNFPLAQSKLTQSPEQHCVIGGDVQTYDQDEVTYARTGAFADLAARKDYAGCGALFIGDVVGDDLSLYPQTRELSGMLNGPARFLPGNHDLDFDATSSEHTFDTFRANLGPEYYSYDAGKAHVVALNTVEFPTKLPARKGDYTGSLDDRQLEWLRQDIAQVPANQLIVLAAHIPLLDYADQGSSKHQVAQVKEIYKILEGRKVVAVGGHTHSIENLRKGDSLAGWSELFGIDALPFTHITAGAISGDWYSGRQTSEGYPLAFQRDGGLPGVLTLDIKNTEFQERFTVRGEDDSLQMSLGLNTPRYREWYAQNLANKGKAPEFTSPLTVSRDDLANTTWLTTNFWMGSTGSTVKVQIDGGQPVEAVRTQQMQGEGQLVGAEWSDPVAVQEQLVNGGSLADRTMHLWRLQLPSDLAAGEHTATVTSSDVYGRAFTETLTFQVAG				NA	NA	NA	NA	NA
D1-17_00853	654	nreC_1	COG2197	Oxygen regulatory protein NreC	ATGGGCGAACCTACACGCATCCTGCTCGCCGACGACCACGCCCTGGTCCGCCGCGGCCTTCGCCTGATCCTCGACGCCGAACCCGATCTCACCGTCGTGGCCGAGGCCGCCGACGGCACAGAAGCGGTTGCCGCTGCGGCCGCAGGCGGGGTCGACCTCGCTGTTCTCGACATCGCCATGCCTCAGATGACCGGTATCCAGGCGGCACGGCAGATATCACGGAACGTACCCGAAGTGCGGATTCTCATCCTTTCGATGTACGACAATGAGCAGTACTTTTTTGAGGCGCTGCGAGCCGGGGCCTCGGGCTATGTGCTCAAGTCGGTCGCCGACCGCGACCTCATCGAGGCGTGCCGCGCAGCGATGCGCGGGGAGTCCTTTCTCTACCCCGGCGCGGTCACAGCGCTCATCCGCGACTACCTGGAGCGCGATCGCCGCGGCGACCGGATGCCGGACAGCATCCTCACAACCCGCGAGGAGCAAATTACGAAACTCATCGCAGAGGGAAATTCCGCCAAGGAGATCGGCGACATCCTGGGGATCAGCGTTAAGACCGTCGATCGCCACCGGGCCAATGTCCTGCAGAAGCTGGGGTTGCGCGACCGGCTGGACCTCACAAGGTTTGCCATCCGCACCGGGCTCATCGAGCCCTAA	MGEPTRILLADDHALVRRGLRLILDAEPDLTVVAEAADGTEAVAAAAAGGVDLAVLDIAMPQMTGIQAARQISRNVPEVRILILSMYDNEQYFFEALRAGASGYVLKSVADRDLIEACRAAMRGESFLYPGAVTALIRDYLERDRRGDRMPDSILTTREEQITKLIAEGNSAKEIGDILGISVKTVDRHRANVLQKLGLRDRLDLTRFAIRTGLIEP	PGPT0000530_260	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000530-nreC-K07696	NA	NA
D1-17_00854	1020			hypothetical protein	ATGCGGACTCCGCTCGAAACCAGGGCTTCCGGCGCGACATCCGGCCTGCCTCCGAAGGGACCGGCACAGTTGCTGTTCTGGCGACTGTTCATTATCAACGGATTGCTCTTTGCGATCGGCACGCTCGTATTGGCGCTTTCGCCCGCGACGGTATCGTCGCCCGTTCTGCTGACCGAGGTACCGGTCCTGCTCGTCGGACTGGCTCTCATCCTCACTGCGAACGCCGCCCTGGTGCGGGCCAGTCTGGCGCCGTTGGACGCGTTAACGACCGTGATGCGCCGGGGGGGCCTGCTGCGGCGCGGTGGCGATCGGGCAACCGAGGCCGGCAACGGGGACCTCGAACATCTCATCCGCACCTTCAATGAGATGCTCGACCGGTTGGAGGCGGAGAGCAGGGCGAGCAATGCCCTCGCGCTGGCCGCCCAGGAGGGGGAACGTCAGCGCATCTCGCGGGAACTGCACGACCAGATCGGCCAGAGCCTGACCGTTGCTCTCCTCAGTCTTAAGCGGGTTGTCGATCGATCTCCCGACGATCTGCGCGAGGAGAGCCTTGTCGCGCAGGAGGCGGTCCGCGCGAGCCTGGAGGAGGTCCGCCAGGTGGCGCAGCGTCTGCGCCCCGGTGTGCTCGCGGACCTGGGCCTGCGGAGCGCACTGAGTTCGCTGGGTTCGGAGTTCTCCCGTTCGAGCGGGATCCCGGTGGTTTGGGAGCTCGATGAGGAGCTTCCCGAGCTCAGCGGGGAGATCGAGCTGGTGCTGTACCGTATCGCGCAGGAGGCGCTCACCAATGTCGCCCGGCATGCGCACGCGACTCGAGTCGATGTCGCACTCACCTCGACGACGAAAGGGCTGACCCTGCGGATTCTCGACGACGGGCAGGGCGGTGACCTCCGCGAGGGCGCGGGCATCCGCGGGATGCGCGAACGCGCCCTGCTCATCGGTGCCGAGCTGACGGTCGCCGCCCGGCCGAGCGGGGGGACCGACGTTCGCCTCGTCGTTCCCGGCGTCGAGGCGAGGAGCTGA	MRTPLETRASGATSGLPPKGPAQLLFWRLFIINGLLFAIGTLVLALSPATVSSPVLLTEVPVLLVGLALILTANAALVRASLAPLDALTTVMRRGGLLRRGGDRATEAGNGDLEHLIRTFNEMLDRLEAESRASNALALAAQEGERQRISRELHDQIGQSLTVALLSLKRVVDRSPDDLREESLVAQEAVRASLEEVRQVAQRLRPGVLADLGLRSALSSLGSEFSRSSGIPVVWELDEELPELSGEIELVLYRIAQEALTNVARHAHATRVDVALTSTTKGLTLRILDDGQGGDLREGAGIRGMRERALLIGAELTVAARPSGGTDVRLVVPGVEARS	PGPT0017175_945	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017175-uhpB-K07675	NA	NA
D1-17_00855	306			hypothetical protein	ATGTACCCCACAACCGACGGAACGGACGGCCCGATGGATACCACCCACTCCACCGTGCCCGGCGCCGGCGTGCTGCACGACTGCCTGACCCGTGACGGCCAGCAATTCCGCATCCTCGTCGCGCGTCCCGGCAGACGCGAACTCTTCGTTTACGACTCCGCCGAGCCCGATCGGATCGTGGCGCGGATCGTGCTCGAGGAGGACGAGGCCGATCAGGTCGCCGAACTCCTGCACAGCCAGCCGATCACTGATCGCATCGCCGAACTCGAACGCAGGGTCGCTCAGATCACGGGGAGCGGGCGATGA	MYPTTDGTDGPMDTTHSTVPGAGVLHDCLTRDGQQFRILVARPGRRELFVYDSAEPDRIVARIVLEEDEADQVAELLHSQPITDRIAELERRVAQITGSGR				NA	NA	NA	NA	NA
D1-17_00856	1485			hypothetical protein	ATGGAGCACCTCAGCCGATTCGCCCGCGAATTCCTTAAGGCGCTCAGGAACCTTCTGCCCATCGTTATCGTCGTTGTTCTGTTCCAATCGCTGGTGTTCCGCTCCATGCCCGATGACCCACTGGTGCTGGTGGCGGGGCTCCTGATCGTGGCTATGGGCATTGCCCTGTTCCTGTACGGCCTGGACCTGAGTATCTTCCCGGTCGGCAAGAACCTGGCTAATCAGTTCGTCCGGAGCGGGACACTGGGGTTGTTGCTGCCCTTTGGGTTTGCCATTGGCTTCGCTGCCTCCATCGCGGAGCCGGCCGTGATCGCTGTCGCGGAGCAGGCCCAATTGGTCAGCGACGGTCGGATCCATGCGCTGGTGCTGCGCTTCGTCATCGCTGTGTCGGTGGGGCTGGTCTTGACCCTGGGCATCCTCCGCGTCCTGCGGGGCTGGGCGGTGTACAGACTGCTGATCGCGGGCTACGCGATGGCGCTGGGACTCACGTATATCGCCCCGCCGGAGATCATTGGCCTTGCTTACGATTCGGGCGGGGTCACCACCAACATCGTCAGTGTCCCGTTGATCACGGCGATCGGTCTCGGCCTGGCCAATTCCATCAGGGGACGCAGCCTGCTCGCCGACGGCTTTGGCCTGGTCGCGCTGTGCGTGATGGTACCCCTGATCGGGGTCCAGCTCTACGGCATCTGGGTCTATACCTTCGGCAATGCCGGGCCGGCGCCGCCAGTGAGCGACGCCGGGGAGGGCTCAACGGATTGGGTGGTGGGCATGATCCTCGGCCTCGCCTCAATGATTCGGGAGGTCCTGCCTATTGTGGCCGTTGTCCTCTTCTTCCAATGGGTCGCCCTGCGGCGCAGGCTGCCCCACCCCCTGCGGCTCGTCATCGGCTTCATCATGGTCCTGGCGGGACTGTATGCCTTCGTGGTGGGACTCAAGCTCGGGCTGTTCCCGCTCGGGACCCTGATGGCGGAGCAGCTGATCGAGCAGGGAGTCCCGGCCCTGATCCTGCTGTTCGCGCTGCTCATCGGCTTTGCGGTCACCATGGCCGAACCTGCCCTGGTGGCCATCGGAGAACAGGCGCAGGATGCATCTCCGGGCAAGATCAACGCGTTCGCCGTCCGGGTCGTTGTCGCCGTTGGCGTCGCCCTCGGGATCGGCTTCGGCGTCTACCGCATTCTGGTAGGAGGGCCGTTCCACTACTTCATCATGGCCGCCTACGCCGTCGCCATCGTGCTGGTGTTCTTCGCCCCGAAGTACATCATCGCGCTGGCCTTCGACCTCGGGGGGGTGACGACGTCGGAGGTCACCGTGCCGTTGGTAACCGCCCTCGGGATCGGGCTTGCGGCCGCCGTGGAGGGCAGGGACGTGCTGATTGACGGGTTTGGCCTGATCGCCTATGCCTCCATCTTCCCTGTCATCTCGGTCATCGTGTATGCCATGGTGATGGAGAGATTTCCCCTTCTAAGGAAGGCACCGGCATGA	MEHLSRFAREFLKALRNLLPIVIVVVLFQSLVFRSMPDDPLVLVAGLLIVAMGIALFLYGLDLSIFPVGKNLANQFVRSGTLGLLLPFGFAIGFAASIAEPAVIAVAEQAQLVSDGRIHALVLRFVIAVSVGLVLTLGILRVLRGWAVYRLLIAGYAMALGLTYIAPPEIIGLAYDSGGVTTNIVSVPLITAIGLGLANSIRGRSLLADGFGLVALCVMVPLIGVQLYGIWVYTFGNAGPAPPVSDAGEGSTDWVVGMILGLASMIREVLPIVAVVLFFQWVALRRRLPHPLRLVIGFIMVLAGLYAFVVGLKLGLFPLGTLMAEQLIEQGVPALILLFALLIGFAVTMAEPALVAIGEQAQDASPGKINAFAVRVVVAVGVALGIGFGVYRILVGGPFHYFIMAAYAVAIVLVFFAPKYIIALAFDLGGVTTSEVTVPLVTALGIGLAAAVEGRDVLIDGFGLIAYASIFPVISVIVYAMVMERFPLLRKAPA				NA	NA	NA	NA	NA
D1-17_00857	351			hypothetical protein	ATGAGATTCACAGCAGTCATCGTGATCGCCCCGGACGAGCTTGAAGACAAGGTGATTGAACACGCCCAACGGGCCGGCGCCACGGGTGTGACAATTTTGCCGGGCAAGGGCATCGGGGGCGAGGCCAGGAAGACGTTTTTCGGGCTCACCTTCGAAGGGACGCAGTCCGTGCTGCTGATGGTCGTGGGGGCACACCTGAGCGCGCCGATTCTGAAGGAACTGCACACGATATTGGTCCAAGGAACGGAATCCCGCGGTCTGGCGTTCGCGATCCCCATCGAGCACCTGACCGGGATCGACATGCGGCAGGTGGTCAGGTTCGAGGAGCATCTGCGCCGCGAAGGCGCCTGA	MRFTAVIVIAPDELEDKVIEHAQRAGATGVTILPGKGIGGEARKTFFGLTFEGTQSVLLMVVGAHLSAPILKELHTILVQGTESRGLAFAIPIEHLTGIDMRQVVRFEEHLRREGA				NA	NA	NA	NA	NA
D1-17_00858	390			hypothetical protein	ATGCTCACTGTCAAAGATGTCATGGTCCCCCAGGTCGTCACGATCTCCCCATACAGCACGCTGCGGGAGGCGCTTTCCATGATGAAGGAGCGCCAGGTGAAGAGTCTGGTGGTGGAGCGGCAGCACGCCCACGACGCTTACGGCATGCTGAGCTACAGAGAACTCCTGGACACCGTCGTTGCGCAGGAGGGGGATGTGGACCTCCTGAACGTCTATGACGCCGCCACGATCCCTGCGATTACTGTCAACGAGGACCTGTCCGTCCGCCAGGCCGCGGCCCTGATGAGCCGCTATCACCTCAGCCGGCTCGTCGTGGTGGAGGGCAACCAGCTCGTCGGGCTGCTCGCCATGAATGACATCCTCGCCCGGCTCATGGAAGAACTAACGTGA	MLTVKDVMVPQVVTISPYSTLREALSMMKERQVKSLVVERQHAHDAYGMLSYRELLDTVVAQEGDVDLLNVYDAATIPAITVNEDLSVRQAAALMSRYHLSRLVVVEGNQLVGLLAMNDILARLMEELT				NA	NA	NA	NA	NA
D1-17_00859	333			hypothetical protein	GTGAGAACACACTCCATGACTGCCCTCAACAACCGCGCGAGCAGAACCGCAACCACGCTGGACGCTGGTTTGACCCGGACCTCCATCACCCGCGGGACGCCGGATCCGGACTTGAAGTGGACCGCCGAAGTTGCCATACCATCACGTGACCCCGGCGCCCCGGCGTCCCCGCTCTCCGATACTGCGCATGCCCAAGCCGTCGCCCAAAAACTGGAGGCGGCAGGCGTGCAGGCCCGCGTCGAACACGTCCAGTCCCCCGGCTGGCCGATAGCGGCGGGAGCCCTCGGCTACCGCGTCCGGGCGGGACTGTCTGCGGTCACATACGGAAGATAG	MRTHSMTALNNRASRTATTLDAGLTRTSITRGTPDPDLKWTAEVAIPSRDPGAPASPLSDTAHAQAVAQKLEAAGVQARVEHVQSPGWPIAAGALGYRVRAGLSAVTYGR				NA	NA	NA	NA	NA
D1-17_00860	1536	phoD_1	COG3540	Alkaline phosphatase D	ATGCCCCGTTCCTTCACTCCGTCCCGCCGAGGCTTTCTCGCCGCGTCCGGAACCGCCGTCGCAGCAGCCGCCGTCTATGGCCTCTCCGCGGCCCCCGCCTGGGCACAGCCCCGGTTCCCGCAGAACCCGTTCACCCTTGGTGTCGCTTCCGGCGACCCAACGCCGGACGGCGTCGTGCTGTGGACGCGGCTGGCACCCGAACCGCAAGCCGCCGATGGCATGGGCGGAATGCCGCCGTATCAGGTCCAGGTGAACTGGCAGGTGGCCACGGACCCGGACTTCCGCAACGTCGTCAAGGCCGGTAACGAAGCGGCCACGCCCGAACTGGCCCACTCAGTGCATGCCGAAGTCGCAGGACTGCAGCCGTCAGCGGATTACTGGTTCCGCTTCCGCGTCGGCAGCGAGGAAAGCCCTGTTGGCCACACCCGCACTGCCCCGGCGGCAGGGTCGGACCCGGCCAGTATCGCGTTAGGGCTGGCCTCCTGCCAGTCCTGGGCCGGAGGCCGCTACGCAGCCTACCGCACCATGGCCCAGGAGGACCTTGACCTCGTGGTGCACGTGGGCGACTACACCTACGAAGGCAGGAACCACGAGTCATTGGCGGATTTCCGGAACAACCACGCCAAGTACAAAAGCTCTGTTGACCTGCAGGCCGCGCATGCCAGATTTCCTTTCGTGGTGACCTTCGACGACCACGAGATCGAGAACAATTGGGCGGACGGCATCTCTCAGCCCGACAAAGAGGCCTCCAATGACCCGCAGCGCTTCCTGCAGCTACGTGCCAACGCGTTCCAGGCCTACTACGAGCACCTCCCGCTCCGGCGTCCGCAAAGGCCGACAGGTTCTGACATGCTGCTTCACCGCCGTCTGGACTACGGCAATCTGGCCAGGATCCATGTCCTGGACACCCGGCAGTACCGCTCGGACCAGCTGACCGAGAACTTCCCCGGCGGCCCCCAGCACCCCGACGTGTACGACCCCTCGCGCACCCTGATGGGCGACGAGCAGGAGCAGTGGCTCTTCAGTGGGCTGAGCGCCTCAAATGCGCGCTGGAATGTGATCGCGCAGCAAACAATGATGGCCCAGTACGACTACGACCCGGGCGAGATCCTGTCGGTCAACCACGACCAGTGGGACGGCTACGTGGTCTCACGCAACCGGCTCACCAACTTCATCAACCGACAGGCGCCGGCCAATCCCGTGGTCCTCACCGGCGACTGGCATTCGGCCTTCGTCAACGACGTGCTCCTCGACGCCGCCGACCCCGGTTCGAAGGTAGTTGCCACAGAGTTCGTGGGAACCTCGATCAGCTCTGGCTGCGGCTGGGCGCAGGCAATTAAGAACGGCCTGCCCGCGAATCCCCACACCAGCTACATCAATCCGGACAAGCGCGGCTGGACGCGGTGTACCGTGACGCCTGAGGAATTCCGCAGCGATTACCTGGTGGTGGCATCTGCCGCCGACACCGTCTCTCCGGCCGTCGTCGATGCCTCATTCCGGGTTGAGAACGGACGAGCAGGAGCGCAGCGGGCGTGA	MPRSFTPSRRGFLAASGTAVAAAAVYGLSAAPAWAQPRFPQNPFTLGVASGDPTPDGVVLWTRLAPEPQAADGMGGMPPYQVQVNWQVATDPDFRNVVKAGNEAATPELAHSVHAEVAGLQPSADYWFRFRVGSEESPVGHTRTAPAAGSDPASIALGLASCQSWAGGRYAAYRTMAQEDLDLVVHVGDYTYEGRNHESLADFRNNHAKYKSSVDLQAAHARFPFVVTFDDHEIENNWADGISQPDKEASNDPQRFLQLRANAFQAYYEHLPLRRPQRPTGSDMLLHRRLDYGNLARIHVLDTRQYRSDQLTENFPGGPQHPDVYDPSRTLMGDEQEQWLFSGLSASNARWNVIAQQTMMAQYDYDPGEILSVNHDQWDGYVVSRNRLTNFINRQAPANPVVLTGDWHSAFVNDVLLDAADPGSKVVATEFVGTSISSGCGWAQAIKNGLPANPHTSYINPDKRGWTRCTVTPEEFRSDYLVVASAADTVSPAVVDASFRVENGRAGAQRA	PGPT0002575_2148	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
D1-17_00861	651			hypothetical protein	GTGGAATCGCCCGACCCTGTCCGGATACTGACCGTCTGCACAGGAAACGTCTGCCGCTCCCCCGTGGCGGAACGCCTTCTGCAGGCGGGACTGGAGCAGGTGCTGCCAGGCGGCTTCGAGGTCCGCAGCGCCGGCACACGTGCCCTGGTGGGCGACCCCGTGCAGCCACTCTCCGCGGACATCATCCATATGTTCGGCGGCACCGCAGATGGGTTTACGGCGCGCCAGCTCACGGGCAAGATGCTGCGCCCGGCAGACCTGGTGCTCACCATGAGCTCGTTGCACCGCGGCGAAGTCCTGCAGCTCGACGCCTCGCTGCTCAAACGGACTTTCACCATCCGAGAGTTCGCCCGCATGCTCGACGTCCTCCAGGACCGGGAAAGTACGACGGCGGACGGCAGCTACCAGCCGGACGGTCACCATCACCTCGATCCCATCAGTGCAAACACCGCTCTCTGGCGCAAACTCCCGGCCCGGGCAGCATCAGTGCGCCACCTCTCACTGGCAGCCGAAGCCGTGGACAACGATGTTGTTGACCCGTACCGCCGGAGCGCCGACTACTACCGCCAGATGGAAGACGAGCTGGCCCCCGCCATCATCTCGATCCTCCGCTTCGCCAGGCTGAACGCGCCGGTCCGCTCAACCCCGTAA	MESPDPVRILTVCTGNVCRSPVAERLLQAGLEQVLPGGFEVRSAGTRALVGDPVQPLSADIIHMFGGTADGFTARQLTGKMLRPADLVLTMSSLHRGEVLQLDASLLKRTFTIREFARMLDVLQDRESTTADGSYQPDGHHHLDPISANTALWRKLPARAASVRHLSLAAEAVDNDVVDPYRRSADYYRQMEDELAPAIISILRFARLNAPVRSTP	PGPT0014530_3648	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-WZA-WZC-WZB-WEC_METABOLISM	CE-EPS-EPS-WZA-WZC-WZB-WEC_SYSTEM,PGPT0014530-yfkJ|wzb-K01104	NA	NA
D1-17_00862	486			hypothetical protein	ATGATCAAAGGGTTTCGACGGCGGCCCGCTGCGGCCTGGCTGTGCGGTCCCCTGATGGTTGCCCTGGGTGTGGCCGCGCACTCCGCGGTGGGCCAGCCGGTCCCCGCGCTGTCCCTTCTTGTGGCGCTGACTGCTCTGCTGAGCCTCGCCGCTTCGGTGACCGCCCGGAACGGGATGCCAGGCTGGATGTTGCTGTTACTCGCAGGGCTGGTCCAGCAGGTCCTGCACCTTGCCTTCAGCGTGTTCTCGCTTACCCGCGGCGGCTTCGGATTTACAGGTCACGGTCACGGCACCCTGATTTGGCAGCCGCAGCAGCCGTCGGAAGAGCCCGCCGGGTCCGCGGCGCCTGATCACACCCTCGAACTCCTGCTGTACGCGCATACTGCAGCCACCTTGGTGGCGGTACTCCTGATAGCGAAGTGGGACACCGGAAGGCCGCGTGGGATCATGGCCGCAAAGACAGCCAGGAATAACGACCGGACCTAA	MIKGFRRRPAAAWLCGPLMVALGVAAHSAVGQPVPALSLLVALTALLSLAASVTARNGMPGWMLLLLAGLVQQVLHLAFSVFSLTRGGFGFTGHGHGTLIWQPQQPSEEPAGSAAPDHTLELLLYAHTAATLVAVLLIAKWDTGRPRGIMAAKTARNNDRT				NA	NA	NA	NA	NA
D1-17_00863	633			hypothetical protein	ATGCGGCGTCACGCTCCGCTGCGCCTGTTCCGTTCCTTGGTTTTCACCGGCGCCACAGTCGGGCTGGCTGCCGGAGGCCACCTCCTTGGCGGCGGAACCCTTCCCGCCCCCATGATCACCCTGGCGCTGACCGCTCTCCTGCTGGTCCCGGTGACGTGGCTGTCACGCCGCGAGCTATCCTTCACGACGCTGCTCGGCCTGCTCGGTGTGGGCCAGGCGGTGCTCCACGAGGCGCTCAGTACGCTGTCCGTGAGCGCCGTCTGCCAGGCCCCGGCACCAGGACGCGGTTCGCATCATGGCAGAACCTCCAGCCTGCACTGCCTCCCGGCCAGCCCGCCTGAGCTCAGCGCCCACACCGGACCCGGCATCGACCCGCTTGCGATGCTGGCCGGCCACGCGATCGCCGTGTTGGCCACAGCTTGGCTTTTGCGCCAGGGCGAAGCCGCACTCTGGCAGCTGCTGGCATGGCTTCGGCCCCTTGCTGTTCTTCCGCGTCCGGCAGTGATTCCTGTCGCCGGCCCGCGGACCTTGGCGCATGATCCCATTCTTATCCCCGCGCCCTGGCGCAACCTTCGCCGGCACAGGCTTCGAGGCCCGCCCACCGCGGCCCTCCTGCGCACCGCTCCCTGCTGA	MRRHAPLRLFRSLVFTGATVGLAAGGHLLGGGTLPAPMITLALTALLLVPVTWLSRRELSFTTLLGLLGVGQAVLHEALSTLSVSAVCQAPAPGRGSHHGRTSSLHCLPASPPELSAHTGPGIDPLAMLAGHAIAVLATAWLLRQGEAALWQLLAWLRPLAVLPRPAVIPVAGPRTLAHDPILIPAPWRNLRRHRLRGPPTAALLRTAPC				NA	NA	NA	NA	NA
D1-17_00864	747	ycnI	COG4549	putative protein YcnI	ATGAGAACTTCCATTGCCCATGCCCTTAAGACCACCACGGTCCTCGCCGCTGCGGCCGGCCTGACCATCTTTGGTGCCGGAACCGCGTCCGCTCACGTCGGCGTGGATCCCGCCACGACATCCGAAGGCGGCTTCTCCCAGCTGACCTTCCGGGTGCCCAGCGAATCCGAGACGGCCAAGACGTCCAAGATCACGGTGACCCTCCCGACGGAGACGCCGTTCACGTCCGTTTCGGTCAAGCCACTGGACGGCTGGAAGGCCGAGATCAAGGAAGCCACGCTTCCCGAACCCGTCGAAATTGAGGGTGCAACGATCACCAAGGCCGCGGCATCCGTAACCTGGACTGCCGACGCCGCCCACCAGATCGGCCCGCACGAATACCAGACGTTCTCCATCTCCGTGGGCCGGCTGCCCAAAGCTGGGACCACCGTCATGCTGCCCGCGGCCCAGACCTACACGGACGGCACGGTGGTGAACTGGGATGAGCCGGCACTAGAAGGCCAGGCCGAGCCCAAGCGCCCGGCGCCCTCGTTCGTCACGACCGCACCGGCCGGGGAGCACGGCACGGGCGGTGCTCATGGTGCCGCCGCAGAGACTCCGGCTGCTGACACAACCCCGGCTTCGGCAACGTCCCCTGCCACTGACGGACCCGCCGCCCTCGGCTGGGCAGGTCTGGTTGCAGGACTGCTGGGCCTGGCCGCCGGAGTCACGGCCCTCCTGCGGACCCGGAAGGCTGGCGAAAGCTAG	MRTSIAHALKTTTVLAAAAGLTIFGAGTASAHVGVDPATTSEGGFSQLTFRVPSESETAKTSKITVTLPTETPFTSVSVKPLDGWKAEIKEATLPEPVEIEGATITKAAASVTWTADAAHQIGPHEYQTFSISVGRLPKAGTTVMLPAAQTYTDGTVVNWDEPALEGQAEPKRPAPSFVTTAPAGEHGTGGAHGAAAETPAADTTPASATSPATDGPAALGWAGLVAGLLGLAAGVTALLRTRKAGES				NA	NA	NA	NA	NA
D1-17_00865	1038			hypothetical protein	ATGATGGGTGCCAAACGCTTGATTAACCCGGAACGGCCCAAGCAGAAACCTGGCAGTCCCATGCACCGCCCTTTCAAGAAGTACGACGCCGGTCCGGTCACCTCCCAAGGTGGCCGGGCCGGCGTCGTGCGTCTGTCTTTGGACGACGTCGCGCGTGAGGCAGAAGGCGGTGCCAACCGCGGCCCAGAGCGGCAGGCGCTGCGGAACGCCACGGCGTCTCTGCTGAGTGCGACGGGCGCCACCCACCCTTGGAGCAGGTACGTGGCGCTGGGAGATTCGTTCACTGAAGGCGTGGGGGACCCGGAATCACGGAGCCCTGGGGGGCTGCGCGGCTGGGCGGACCGCGTGGCCGAGGAACTGAGCGTGGGCCATGAGGACTTCGCCTATGCCAACCTGGCCGTACGTGGACTGCTGCTTGGCCAGATTTTGGACCAGCAGGCGGGACCCGCGCTTGCCCTGCAGCCGGACCTGATCACTCTGTCCGGCGGTGGCAATGACCTGGTCTTCCGTGGCAGTGACCCCGACAAGCTGGCCGCCAAACTGGATGCCGGCGTTGGCCTGTTGAGCGCCACTGGCGCCACGATCGTGCTGTTCGCCGGACCGGACTGGGGAGGGACGCCGGTGATCGGGCACAACAGGGCGAAGATCGCCATCTTCAACGAGAACATCCGCACCGTGGCCAGCCGGTACGATGCCGTGATTGCTGATCTGTGGGCCATGCAGGAGCTCGCCGATCCGCGGATGTGGGATCCGGACCGGCTGCATTTTTCGCCGCTGGGGTACCACACGATCGCCAAGATGGTGCTGGACACCCTCAACGTCCCGCACACACTCCAGCCCTACCAGCCGAAGGACCTGCCGGAGAGCAGCTGGCGCCACGCCCGGGCCGAGGACCTGGTGTGGGCACGCAAGTACCTGGTCCCCTGGGTGCTGAAGCGGATCCGGCACCAGACGGAGGAAGAGCTCCGTGCCAAGCGGCCGGTGCCGGGTCCGGTCTTCGGAACAGGAGTGCCGCCGGAAGCGATCAGAGGCCTGTGA	MMGAKRLINPERPKQKPGSPMHRPFKKYDAGPVTSQGGRAGVVRLSLDDVAREAEGGANRGPERQALRNATASLLSATGATHPWSRYVALGDSFTEGVGDPESRSPGGLRGWADRVAEELSVGHEDFAYANLAVRGLLLGQILDQQAGPALALQPDLITLSGGGNDLVFRGSDPDKLAAKLDAGVGLLSATGATIVLFAGPDWGGTPVIGHNRAKIAIFNENIRTVASRYDAVIADLWAMQELADPRMWDPDRLHFSPLGYHTIAKMVLDTLNVPHTLQPYQPKDLPESSWRHARAEDLVWARKYLVPWVLKRIRHQTEEELRAKRPVPGPVFGTGVPPEAIRGL				NA	NA	NA	NA	NA
D1-17_00866	351			hypothetical protein	ATGACCTCTCCGCAAACACTTGAACCGCCGGTGGACGCCTCCTGTTGCGCCCCGTCCGTGGGCTCGGGGCTCGGTGCGGAGGAAGCAAAGCAGAGAGCACTCATCTTCAAGGCACTGTCCGACCCGAACCGCCTGCGCCTGCTCTCCATCGTCAAGGCCAACGAATCCGGGGAGTCGTGCGTCTGCGACCTGACCGATCCTCTGGATTTGAGCCAGCCCACCGTCTCACACCACCTGAAGATGCTGGTCGACGCCGGCCTGCTGCACCGTGAAAAGCGCGGCACGTGGGCGTACTACTCGCTGGTTCCGGGCGCGCTCGAGAAGACGGCCGGCCTCCTCACAGGCCTCTGA	MTSPQTLEPPVDASCCAPSVGSGLGAEEAKQRALIFKALSDPNRLRLLSIVKANESGESCVCDLTDPLDLSQPTVSHHLKMLVDAGLLHREKRGTWAYYSLVPGALEKTAGLLTGL	PGPT0004735_2054	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
D1-17_00867	741	aqpZ_1		Aquaporin Z	ATGCATTCACCTCAGCCGCCGTTGTGGCGCCGTGCGGTCGCCGAGCTGCTCGGCACCTGCCTTCTCGTGTCCATCGTCGTTGGTTCCGGAATTGCCGCCGAGCAGCTCTCTCCCGGCGACGTCGGCCTGCAGCTACTCCAGAACAGCACTGCAACGGTGTTAGGCCTTACAGTGCTGATCCTGATGCTGGGCCCTGTGAGCGGAGCCCATTTCAATCCTGTGGTCTCCCTGGCCGACTGGCTCCTGGGGCGGCGCAGCGGTGCCGGGTTGACCCTGCCCGAGCTCGGGGCCTACATTGCGGCCCAGGTGGTCGGAGGCATCGGCGGAAGCGTCCTGGCCAATGCCATGTTCGACGTCGGAACCTCCATCTCTGAGAAGGAGCGCCTGACCGGCGGGCACGCCTTGGGCGAGGTCGTCGCCACCGCAGGACTGATCCTGCTGATCTTCGCCCTGGCTCGAACCGCGCGCGGCGTTCTGGCCGCGCCCGCCGTCGGTGCCTACATCGGCGCCGCATACTGGTTCACGTCGTCGACGTCGTTCGCCAACCCTGCCGTGACGGTCGGGAGGATTTTCAGTGACACCTTTGCCGGCATCGCTCCCGCCTCAGTGCCGGGCTTCATCCTGGCACAGCTGGCCGGCGCCGCCGTCGGCATGGGTCTTCTGCTGGTTCTGTTCCCCTCCGCCGGCCGCTCCGCCGACGATGTCGTCATCCCCCACCACGCCGATACGGCCGACTCGTGA	MHSPQPPLWRRAVAELLGTCLLVSIVVGSGIAAEQLSPGDVGLQLLQNSTATVLGLTVLILMLGPVSGAHFNPVVSLADWLLGRRSGAGLTLPELGAYIAAQVVGGIGGSVLANAMFDVGTSISEKERLTGGHALGEVVATAGLILLIFALARTARGVLAAPAVGAYIGAAYWFTSSTSFANPAVTVGRIFSDTFAGIAPASVPGFILAQLAGAAVGMGLLLVLFPSAGRSADDVVIPHHADTADS	PGPT0004715_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
D1-17_00868	435	arsC2	COG0394	Arsenate-mycothiol transferase ArsC2	ATGACCACTGAAACAGCCAAGAAGCCGTCCGTCCTGTTCGTCTGCGTCCATAACGCCGGCCGTTCCCAGATGGCCGCTGCGTTCCTGACCACACTGGGCAAGGGCGAGATCGAGGTTCGGTCCGCCGGATCCCAGCCCGCGGACAAGATCAACCCCTCCGCTGTCGAGGCCATGGCCGAGCTTGGGATCGACATGTCCGCCGAGGTGCCGAAGGTGCTCACCACCGAGGCCGTGAAGGAATCCGACGTCGTAATCACCATGGGGTGCGGCGACGAGTGCCCGTACTTCCCGGGCAAGCGCTACGAGGACTGGGTCCTGGAAGACCCTGCAGGCAAGGGCGTCGAATCTGTCCGCCCCATCCGTGACGAGATCAAGACCCACATCGAGGCCCTGGTCACCGAACTGCTGCCCGCCCGGCACCCCGACGCCCAGTAA	MTTETAKKPSVLFVCVHNAGRSQMAAAFLTTLGKGEIEVRSAGSQPADKINPSAVEAMAELGIDMSAEVPKVLTTEAVKESDVVITMGCGDECPYFPGKRYEDWVLEDPAGKGVESVRPIRDEIKTHIEALVTELLPARHPDAQ	PGPT0004715_2212	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
D1-17_00869	1008	trxB_3	COG0492	Thioredoxin reductase	GTGAGCACCAAGAACGCCAAGCAGGACAACGTGACCACCCACCAGCTAATCATCATCGGCTCCGGCCCCGCAGGCTACACCGCCGCGGTCTACGCCGCCCGTGCCGGCCTCGCGCCCCTGGTGATCGCCGGATCGGTCACCGCTGGCGGTGCCCTGATGAACACCACCGAGGTGGAGAACTTCCCGGGCTTCCCGGAGGGCATCCAGGGGCCGGAGCTGATGGACGGCCTGCAGCAGCAGGCGGAACGCTTCGGCGCGCAGGTAGTGTTCGACGACGCCACTGAGGTTCAGCTGAAGGGGCACCTCAAGCGGGTGGTCACCGGCTCCGGTGACGTCCACGAGGCACCAGCCGTCATCCTCGCCACCGGCTCCGCCTACAAGGAGCTAGGCCTGCCGGAGGAGAAGAAGTTCAGCGGCCACGGTGTCTCCTGGTGCGCCACCTGTGACGGGTTCTTCTTCCGCGACCAGGACATCATCGTGGTGGGCGGCGGTGACTCCGCCATGGAAGAAGCCACCTTCCTGACCCGCTTCGGCAAGACCGTGACGATCGTGGTCCGCAAGGGAGAGTTGCGGGCCTCGCGCATCATGGCCCAGCGCGCCAAGGACAACCCCAAGATCAGCTTCGCCTGGCACTCCGCCGTCACCGCCATCCACGGTGACGGCAAGGTCAGCGGAGTAACCCTCAAGGACACCCGCACCGGCGAAACCCGCGAGCAGTCCGCCACGGGCATCTTCGTGGCGATTGGGCACGTACCGCGGACGGAGCTGGTGGCCGGGCAGGTGGAGCTGGACGCCGAAGGCTACATCAAGGTGGATTCGCCCACGACGTGCACCAACCTCTCCGGCGTCTTCGCGTGCGGCGACGCCGTGGACCACCGCTACCGCCAGGCCATCACCGCCGCCGGCACCGGCTGCGCTGCGGCCCTGGACGCCGAACGCTACCTCGCCGCGTTGGACGACGCCGACAGCATCGCCACGGCGCTGGTCGAGGAACCGACGCATGCCTAA	MSTKNAKQDNVTTHQLIIIGSGPAGYTAAVYAARAGLAPLVIAGSVTAGGALMNTTEVENFPGFPEGIQGPELMDGLQQQAERFGAQVVFDDATEVQLKGHLKRVVTGSGDVHEAPAVILATGSAYKELGLPEEKKFSGHGVSWCATCDGFFFRDQDIIVVGGGDSAMEEATFLTRFGKTVTIVVRKGELRASRIMAQRAKDNPKISFAWHSAVTAIHGDGKVSGVTLKDTRTGETREQSATGIFVAIGHVPRTELVAGQVELDAEGYIKVDSPTTCTNLSGVFACGDAVDHRYRQAITAAGTGCAAALDAERYLAALDDADSIATALVEEPTHA	PGPT0013060_3389	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-17_00870	1386			Ferredoxin--NADP reductase	ATGAAGCTTCCCGTCGCCGTGATCGGCGCCGGCCCGGTCGGTCTCGCCGCGGCAGCGCACCTCCTGGAACGCGGCCTGGAACCGCTGATCTTCGAGGCAGGCCCGACGGCGGGCGCGGCCATTGAGCAATGGCGCCACATCCGGCTGTTCTCACCGTGGCGGTACAACATTGACGCCGCCGCCGTCCGATTGCTCGAGTCCTCGGGCTGGGAAGCGCCCCGCCTCACGGCCCTCCCTTACGGCGGGGAACTCGTCGACAGGTACCTTGCGCCCCTGGCCGCGCTTCCAGCGATCGCTTCCCGGCTGCAGACCGGTGCCAGGGTCACCGCTGTGACGCGGCAAGGACTGGATAAAACCCACGTCCGGGACCGGAACACCACACCCTTCACCGTCCGCGTCAAGCACCAGGACGGCGAAACCCGCGACAACACCGTTGCGGCAGTCATCGACGCCTCGGGCACCTGGTCCACGCGCAACCCGCTGGGCACCTCCGGGCTCTCGGCAATCGGCGAGGAGGCGGCAGCAGCGAGGATCTCCGCACCCCTTCCCGACGTCGCCGGCCGTGACCGGGGGGCCTTCGCCGGCCGCCGCGTCGTGGTGGTGGGCGCCGGACACTCCGCCGCGAACACCCTCATCAGCCTCGCCGACCTGGCCAGGACCGAGCCAGATACCCGCATCCTGTGGGCCGTCCGCGGCCCGTCCGCCGAGAAGGTTTACGGCGGCGGAGACCTGGACGGACTGCCGGCCCGCGGCCAGCTCGGTGCCCGGCTGCGCCGTCTCGTCGAAGCCGGAACCATTGAACTGCACACCGGCTTCGGCATCAGCTCCTTCAAGTCCCTGGACTCCTCCATAACGGTCGCCGCCGTCGACGGCCGGACTCTTGAGGCCGACATCGTGGTGCCCTGTACGGGGTTCCGCCCGGATCTGGACATCCTGCGCGAACTCCGCCTCAGCCTGGACCCCGCCGTCGAAGCGCCCACGGAACTGGGTCCCCTGATCGACCCGGAATTCCATTCCTGCGGCACCGTCCCGCCACACGGCGCCGCACTTTTGGCCCACCCGGACAAGGACTTCTACATCGTCGGCATGAAATCCTATGGGAGGGCCCCGACCTTCCTGCTCGCCACGGGCTATGAGCAGGTCCGTTCGGTCACCGCGGCTCTCGCCGGTGACCGCGAAGCCGCGGACACTGTTCACCTTGAGCTCCCCGAAACCGGCGTCTGCTCAACGGATGCCGGCACCAGCTGTGACGTTCCGGCACCTGCTGTCACAGAGACGGACGGGGCGAACGCCGTCGAAAGTGAAGCGGCATGCTGCGGAACTCCTGAACCCGTGCTGGTCGGTTTCCCGACCGGACTCGCCCACGGCCGCTCCGCCGAGAACTGA	MKLPVAVIGAGPVGLAAAAHLLERGLEPLIFEAGPTAGAAIEQWRHIRLFSPWRYNIDAAAVRLLESSGWEAPRLTALPYGGELVDRYLAPLAALPAIASRLQTGARVTAVTRQGLDKTHVRDRNTTPFTVRVKHQDGETRDNTVAAVIDASGTWSTRNPLGTSGLSAIGEEAAAARISAPLPDVAGRDRGAFAGRRVVVVGAGHSAANTLISLADLARTEPDTRILWAVRGPSAEKVYGGGDLDGLPARGQLGARLRRLVEAGTIELHTGFGISSFKSLDSSITVAAVDGRTLEADIVVPCTGFRPDLDILRELRLSLDPAVEAPTELGPLIDPEFHSCGTVPPHGAALLAHPDKDFYIVGMKSYGRAPTFLLATGYEQVRSVTAALAGDREAADTVHLELPETGVCSTDAGTSCDVPAPAVTETDGANAVESEAACCGTPEPVLVGFPTGLAHGRSAEN				NA	NA	NA	NA	NA
D1-17_00871	447	arsC1	COG0394	Arsenate-mycothiol transferase ArsC1	GTGACAGACTCCGCCACTCCTCAAGCCGGAAAAAAGAAGCCCTCCGTCCTGTTCGTCTGCAGCAAGAACGGCGGCAAATCCCAGCTCGCCGCCGGTCTCATGCGGCAGCTGGCCGCCGGCAGCGTCCACGTGTACTCGGCAGGCACCAAACCCGGCAAGGACCTGAATCCCCTGGCCGTGGAGTCCCTGACCGAACTCGGCATCGACGTCACGGGTGAACACCCCAAGCCCGTTACCGATGACGTCCTCGACACTGTCGAGGTCGTCGTTGTCCTCGGCACCGAAGCGAAGCTCGAACCCCGGGACGGCGCACGGTTCGAGCTCTGGGAAACCGATGAACCTTCAGAACGGGGCATAGAAGGTATGGAGCGCATGCGGCTGGTCCGGGACGACATCAAGAACCGCGTCCAGCAGCTTTTCACAACCCTGCCGGGCAACAACGGCTAG	MTDSATPQAGKKKPSVLFVCSKNGGKSQLAAGLMRQLAAGSVHVYSAGTKPGKDLNPLAVESLTELGIDVTGEHPKPVTDDVLDTVEVVVVLGTEAKLEPRDGARFELWETDEPSERGIEGMERMRLVRDDIKNRVQQLFTTLPGNNG	PGPT0004725_49	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004725-arsC|arsenate_mycothiol_transferase-K18701	NA	NA
D1-17_00872	882			hypothetical protein	ATGGACGCCGTCGGCCGCTCTACCCCTGGCGGTTCCGGCAAGGGACAGGCTCCGCACCCCTGGAGCCGGTACGTGGCACTGGGAGACTCGTTCACCGAAGGCGTGGGCGATCCCGAAGAGCGCAGCGCGAACGGGCTTCGCGGCTGGGCGGACCGCGTGGCTGAAGAGCTCAGCGCGGGACGCGAGGATTTCTCCTACGCCAATCTCGCCGTGCGCGGCCTGCTCCTGCAGGAGATTCTGGACCGGCAGACGGAGCCGGCGCTGGCCCTGAAACCGGACCTGATCACCCTGTCCGCGGGCGGCAATGACATGGTGTTCCACAACAGCAACCCGGACAAACTCGCGGCCAGGCTCGATGCCGGCGTCGAACGCCTGAGCACTACGGGTGCCACGATTGTGCTCTTCACCGGGCCGGACTGGTGGCATACACCGGTGCTGGGCCGGAACCGGGCCAGGGTGGCAATTTTCAACGAGAACATGCGCGCCATCGCATACCGCCACCACTGTATCGTTGCTGACCTGTGGGCGCTGCGCGAACTGAGGGATCCGCGGATGTGGGACCCGGACCGGCTGCACTTCTCGCCGCTGGGGCACCACACCATCGCCATGATGGTGCTGGACACCCTGCACGTACCGCACACCCTGCAGCCCCTGGAGCCGCGGGAGTTGCCGGAGAAGAGCTGGCGGCAGGCGGGCGCCGGAGACCTGGTCTGGGCACGCACGTACTTCCTGCCGTGGATCGCACGGTGGCTGCAGCAGCAGCCGCCCATCATTCGGCGGAAGTATGCCCGGGGCGCCGAAACGCTGCTTCCCAAGCGGCCGGCTCCTGCTCCGGTTGTCGTCTCGGACAAGCGCCGGGAAGCGTACCGCCGGGGGCAGTAG	MDAVGRSTPGGSGKGQAPHPWSRYVALGDSFTEGVGDPEERSANGLRGWADRVAEELSAGREDFSYANLAVRGLLLQEILDRQTEPALALKPDLITLSAGGNDMVFHNSNPDKLAARLDAGVERLSTTGATIVLFTGPDWWHTPVLGRNRARVAIFNENMRAIAYRHHCIVADLWALRELRDPRMWDPDRLHFSPLGHHTIAMMVLDTLHVPHTLQPLEPRELPEKSWRQAGAGDLVWARTYFLPWIARWLQQQPPIIRRKYARGAETLLPKRPAPAPVVVSDKRREAYRRGQ				NA	NA	NA	NA	NA
D1-17_00873	2754			hypothetical protein	ATGGACATGTCAGCTTCAGGTATCCGCGCAATCGGCCGCAGCCAAAGACGGCGCAGGTGGGTGGCTGCCATGCTGGGCGTGGTGCTTGGCCTGCTCATGGTGATAGCGGCTCCGGGCATCAGCCAGGCGGCCGTCTCCATCTCGAAGGCAGAAATCAGCGGCAACAGGCTCCGGATCGACGGCAGGGCCGTCGCAAACCGGCCGATCACCGTGGACGGCGTGCAGATGGCGACGAGCGACGGCGCCGGGCGCTTCAAAGTTGACCGAGCTGGTTTCTCTGCACCGGCCGACTGTACCGTGGATGTCAATGACGGCTCAACGACAGCCACCAGCGCCCGCCTGTCCGGCTGCACGGTCACCACTCCTCCGCCGCCTGCAGAGCCCGCAGCGCCGGCACCGCTTTCCCCCGAGGACGCCGCCAGTGTCACTACGCCGTTCACCATTTCTTGGACCCAGGTACTCGACCCCGCCTCCCTCAATGGCGGCTATAACTGGCAAATCAGCTCCTCATCGGCCTTCACGAGCTTCGTCCTCAGGGACTCCACAACCCCCAACACCACCCAGGCCAGCATCAGCGGCCTGGCCAACGGCACCTACTTCTGGCGGGTACAAGCGGTGGACAGTCAGCTGCAGTCGAGCAGCTTCTCCGCCGCGCGGTCTTTCACTGTCACCGGGACCACCACCGGCCAGCCGGGGACTGCGGTCCTCAACCTCCCGCCCTACGGCAGCTCCTTCCATCCCTTCGAAAGCTTTGGCTTCACCTGGACGGCCGCTGAAAGGGCAGTCAAGTATGAGTTCCTCGCTTCCAAGGATTCAACCTTCCAGACCGGCGTGATCAAGATAGACAACATTGAAACCACGTCAACGGGACTGGTCATCGGGGACTTCTGTAACGGATGTGAACAGGGCACCTACTTCGCCCAGGTGGTAGCCATCGATGTCAACGGCAGCCGCGGCATCCCCTCGAACACAGTGTCCTTCACCATCTCCTACAATGCACCGCTGCCGCCTGCACCCACCGCGCTCGCTCCTGCGGACGGAGCGACGGTCAGCCTGCCGGTCACCCTCGACTGGAACGACGTCCCGAACCCACAGGACAGCGGCTATGAGGTGGAGATCTCACGGAACTCTGCGTTCACGGACATCGAGGCGCACATGCCGCAGATCACCCCCTCCGAACGGCAGGTACTGTCCCTGACCTCGGGGACAAAGTTCTGGCGGGTCCGTTCCCACCAGGGCAATGCGTCACCGACCACCTCTGCCGTGACCGACTGGTCCGTTCCGCGCTCCTTCACTATTCCCGACACGGCTGCGGCCGTCCAGTCAGTCTGGCTCGGAGCTCCGCCCTGCCAGAACCCGTGCCCCGGGGCGGATTCGCTCTTCAGTGGCCAGGAAATCGAAGGATCCATCCAGCTCACGGCAGCGGCTCCCGCCGGAGGTGCCGTCGTCAGCCTGGCCAGCAGCCCGGCTTCCGGAGCCAGCCACCCCGCCTCTGTCACGGTTCCGGTAGGCAGCGCCTTCACGACCTTCCGGCTTTTTGGCGGTGAAGTCCTCGAACCCACTCCTGTCACGCTCACGGCTACCCTCGGGTCCTCGTCGGCGTCGTTCAACTTCACTGTCCATCCGACCACCGTCAAACGGCTCTCCTTCTGCTGCGACAGCACGGGCGGGATTCCGGCCGGAGCGCACCTGGAGTTCACCGGCAAGGTTCCTCCCGGCGGCCTGACGGTCAGCCTCTCCAGCGATTCACCACTGGCCGCCCCGCCGGCCACCGTCACCGCCCCCGCAGGAAGTTTCTCCCTGCCCGTATCGATTCCCACCAGCGAAGTCACCGCGACCACGACGGTCACGATCTCGGCAACCCTGAACGGCACCACAGTTTCAACGCCCCTGACGCTGTACCCGCAGCAGCCGCCCACATCAGTGACCTTGGACCGGAGTGAAACGATCGGCACGGCCGGCGCCACCGGAACCGTCCGGATCGCTCAAAGCCAGGGGCATGAAGTACAGATGCGCCTCACCAGCAGCCACCCCGACATCGCCCGGGTCCCGGCATATGCCCAGATCGGCAGTTTCGGCGTCGCGGGCTCGTTCAGCGTCACCACAGCTCCGCCTGCCGCCTCGACTGTTGTCACCATCTCCGCCGTCGGCGCAGGGGTGACTGTCTCCACGACCATCACAGTGCATCCGGCCGGAGGTCCGGCAGCCTCGGTCGCCGCGCTGACCCTTAACCCTGAAACGGTGACGGGCGGAGGGACGTCGACAGCAACGGTCACCCTCTCCGCGGCCGCACCGGCCGCTGGCACATCTGTTTCCCTCAGCAGCAGCAACACTGCCGTCGCCACCGTTCCGGCCAGCATCACCGTTCCCGGCGGAGCCACGAGCACCACGTTCACAGTGGCAACCAGTGCGGTGGCGGCGGCCAGCACCGCGACGATCAGTGCGACGGGCGGAGGCGCGACGCGCTCTGCTGTCCTGACCGTGAATCCTGCCAACCAAGCTGCCGACGGCGTCGCAGTCCAGCGGGCGGAGTACGACGCCGGTAAACGCGTACTCCGGGTAGACGCCACCAGCACCAACCCCACCGCCGTCCTGCAGGCCTACGTCACGGCATCCGGCGCCCTCATCGGGACCCTCCTCAACGACGGCGGGGGCCGCTACCGTGGCGAATTCAGTGCAGCCACCAACCCGCAGAACATCACGGTCAAGAGTAGTCTCGGCGGGTCCGCCAGCCGTGCCGTCACCGTGAAGTAG	MDMSASGIRAIGRSQRRRRWVAAMLGVVLGLLMVIAAPGISQAAVSISKAEISGNRLRIDGRAVANRPITVDGVQMATSDGAGRFKVDRAGFSAPADCTVDVNDGSTTATSARLSGCTVTTPPPPAEPAAPAPLSPEDAASVTTPFTISWTQVLDPASLNGGYNWQISSSSAFTSFVLRDSTTPNTTQASISGLANGTYFWRVQAVDSQLQSSSFSAARSFTVTGTTTGQPGTAVLNLPPYGSSFHPFESFGFTWTAAERAVKYEFLASKDSTFQTGVIKIDNIETTSTGLVIGDFCNGCEQGTYFAQVVAIDVNGSRGIPSNTVSFTISYNAPLPPAPTALAPADGATVSLPVTLDWNDVPNPQDSGYEVEISRNSAFTDIEAHMPQITPSERQVLSLTSGTKFWRVRSHQGNASPTTSAVTDWSVPRSFTIPDTAAAVQSVWLGAPPCQNPCPGADSLFSGQEIEGSIQLTAAAPAGGAVVSLASSPASGASHPASVTVPVGSAFTTFRLFGGEVLEPTPVTLTATLGSSSASFNFTVHPTTVKRLSFCCDSTGGIPAGAHLEFTGKVPPGGLTVSLSSDSPLAAPPATVTAPAGSFSLPVSIPTSEVTATTTVTISATLNGTTVSTPLTLYPQQPPTSVTLDRSETIGTAGATGTVRIAQSQGHEVQMRLTSSHPDIARVPAYAQIGSFGVAGSFSVTTAPPAASTVVTISAVGAGVTVSTTITVHPAGGPAASVAALTLNPETVTGGGTSTATVTLSAAAPAAGTSVSLSSSNTAVATVPASITVPGGATSTTFTVATSAVAAASTATISATGGGATRSAVLTVNPANQAADGVAVQRAEYDAGKRVLRVDATSTNPTAVLQAYVTASGALIGTLLNDGGGRYRGEFSAATNPQNITVKSSLGGSASRAVTVK				NA	NA	NA	NA	NA
D1-17_00874	897			hypothetical protein	ATGGCAAGTGACCGAACGCATGTTGCCCTCTTTGACCGGGTGGTCCTGGTCTTCAATCCTGCCAAGGCAGGCATGCCCGACCGGATCGCGGAGCTGCAGCGGGATCTGGCCGCCGAACTGCCGGACCTGCAGATCGACCTGCTGCCAACGGAATTTGCGGGGCACGCCCGGGATCTTGCGCGCTCCGTAGCGGCGGGAGGGGCCCCGCTCATAATCTCGGTCAGCGGAGACGGCGGCTACAACGAGGTTGTCAACGGAGTGATGGACGTTCCCGCCAGCAGGGCGGTATGCGCTGTGCTCCCTGCGGGCAACGCCAACGATCACCACAGGAGCATGACGGCACGACCGCTGGCAGAGGCCATCCGTGAAGGCCGGGTCCAGCACATCGACCTGCTGCGCATAACGTTCGGCGGGGCCCATCGTGGCGAAGTCCGGTACGCCCACTCCTATATAGGGTTCGGGCTTACTCCGCTGATGGCGATCGGCATCGAAAAGGGCGGAAAAGGAAAAATCCTCGAACTCATCTCCGTTACCCGGACGCTCTCCCATCTGAAGCCCTTTGAGCTCGTCCGGGCCGACGGCGCCACCGCGCGGTTCGACAGCCTCATCCTGGCCAACATTTCACGGATGGCGAAGTATGGAACCGTGAGCGAGTCGAGTCACCCCAACGACGGCCGGTTCGAGGTGGTGACGCTGCCACACTCCGGGCGCTGGAAGATGGCGCTGATGACCCTTCGGGCCGTCACGCTTGGGCTGGGGCATCAGCCAAGCGTCAGCAGCTACGCCTTCACGACGCGGGACGCTGTTCCGTGCCAGATTGACGGCGAAGTCGTACACGTCCCCGCAGGCACCCATGTCCTCGTGGAAAGCGCCAGGGGCGCTCTCGCCACTATCTGA	MASDRTHVALFDRVVLVFNPAKAGMPDRIAELQRDLAAELPDLQIDLLPTEFAGHARDLARSVAAGGAPLIISVSGDGGYNEVVNGVMDVPASRAVCAVLPAGNANDHHRSMTARPLAEAIREGRVQHIDLLRITFGGAHRGEVRYAHSYIGFGLTPLMAIGIEKGGKGKILELISVTRTLSHLKPFELVRADGATARFDSLILANISRMAKYGTVSESSHPNDGRFEVVTLPHSGRWKMALMTLRAVTLGLGHQPSVSSYAFTTRDAVPCQIDGEVVHVPAGTHVLVESARGALATI	PGPT0024345_1981	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-17_00875	267			hypothetical protein	GTGACCGACACCCGCATTCAAGACGACTGGAACCGGCTTCCCTCCACCGTGCAGCAGTGGCTGATCGACAACCCCGGCTGCATGATTCTTCCGCGCACATTGGCGGCAGAAATCAATGCCGCCACGGAAGAACCCCCCACTGAAGATCCCCACGGCGAAATCGTGCTCAACCAGCAGGACCTGGACTTCATCCGGATGAAATCCCGCGAGGCCGAGACAGGGCAGCCGGTCCCCGGTTACGAATTCTTCGACTCAGTGCAGCCATAG	MTDTRIQDDWNRLPSTVQQWLIDNPGCMILPRTLAAEINAATEEPPTEDPHGEIVLNQQDLDFIRMKSREAETGQPVPGYEFFDSVQP				NA	NA	NA	NA	NA
D1-17_00876	1029			hypothetical protein	ATGAACGTCAAGAGGTTACAACCAAGCTTGAAATTCCGATCAGCGGCGGCCGCCGCCGCACTGGCAGCTTCTGCAGCGGGCTTCGTCGCGGTGACCGGGCCTGCCCAGGCAGCTTCCTCAAAGGGATGTGTGGGCGGCGGGTTCCAGGTCCTGGGCCAGTCCGGCGAATTCGACGGCACCGTGACGGCGCCGGGAAGCCGCTTCGTGGTCCAGGGCAAGTACGTCAGGTTCGAGGTGGATCCGGCAAACTTCGCCATCCACAATTACGCCTTCACCGGCGCGGCCAATGAACTGGACATCACCGGAGGCCGCGCAACACCCGTCTTCGCGAGCAAAATCCCCGACCACCGCGGCCTGGTCCTAAACAGCGCGATCGCGCTCGAAGTGAAGGACGAGGAGGTGGTGCTCCTCAGGAACGGGACCGGCGGGCTGACCATGAAGATCCAGGCGAAGGACTGCGCCCAGGGCGGCATCTTCCAGATGGAACCTGAGCGCGGCGATGCCACCGCCACCCGCATTGTCCACCGGCTGGCCGCCGAGGCCTTCTACTTCGACAACGCCGATTTCCGCGCCAGGCTGGGGCAATTCCTTGGTTCGGCATGCACCAGCGTTGAAACCGGTCCGCCCAACCAGTTCTGCGTCCAGGTAAGGCCGCGCGTGAACATCGGCAACAACGTGTCCGACACATTCGTGGCGCGCGACAGCGCCCAGGTGGCCGAACGGGTCCCGCAGCCCGCCTGCGGCCCTGACTTCTCCAACAACCTGGGCCTCCCGGAGACCCGGGACCACTGCGGCGGCATGTCCATCTGGGACGTCGCCAGCGGCGGGCGCATGGGCTTCGTCACCGGCGAGGATTCGGTGGAAGTAGCCAACCCGCCGACCGACTGCATCAAGGACTGCCAGGCCGAAAACCAAGTCCGGGGACGTCTCGCGGTGCTCGGCTTCCCGTTCCCCGTGCCGGACGGCAGCCGCCTCACGCCGCGCACCTCCACGGACGGTTTCGACGCCCCGCTCACGCCCCTGCCCTGA	MNVKRLQPSLKFRSAAAAAALAASAAGFVAVTGPAQAASSKGCVGGGFQVLGQSGEFDGTVTAPGSRFVVQGKYVRFEVDPANFAIHNYAFTGAANELDITGGRATPVFASKIPDHRGLVLNSAIALEVKDEEVVLLRNGTGGLTMKIQAKDCAQGGIFQMEPERGDATATRIVHRLAAEAFYFDNADFRARLGQFLGSACTSVETGPPNQFCVQVRPRVNIGNNVSDTFVARDSAQVAERVPQPACGPDFSNNLGLPETRDHCGGMSIWDVASGGRMGFVTGEDSVEVANPPTDCIKDCQAENQVRGRLAVLGFPFPVPDGSRLTPRTSTDGFDAPLTPLP				NA	NA	NA	NA	NA
D1-17_00877	786	surE	COG0496	5'-nucleotidase SurE	ATGAACAGCCCCACGCGCGTCCTGATAACCAACGACGACGGCATCGGCTCCCCCGGCCTGCTCGCCCTTGCGGCCGCTGCCGCACAGGCCGGCCTGAGCGTCGTCGTCGCAGCCCCGGCCAACGAAGCCAGCGGCAGCAGTTCATCGATTACGGCCGCAGAGCAGGACGGCAAGATTTCCGTTGAACGGCGCCAGCTGAAGGACCTCGACGGCGTGGACGCTTATGCCGTCCACGGCGCACCTGCCTTCATCACGATGATCGCCACCCACGGCGCCTTCGGTCCGCCGCCGGATGTGGTGCTGTCCGGGGTTAACCGCGGGGCCAATGTGGGCCGCGCGATCCTGCACTCGGGAACTGTCGGAGCGGCCCTGACCGCGGGCGTCAATGACGGGCGCGGCATGGCCGTATCCCTGGATACCGGCCTCAACCCGGCCCGGTTCCACTGGGATACCGCCGCGCGGCTGGCTACCGGACTGATACCGTTCCTGATGGAACAGGAGATCGGCACTGTGCTGAACCTCAACGTGCCCAACACAGCCGGCGAGGAGCTGCCCGAGTACCGCGCCGCCACACTGGCTAAATTCGGCATCGTCCAGACCACCCTTGCCGAACGCGGACAGCACCACGTGCGCCTGGCCATCGCAGACACCACGGAGGAGGCACACCCCGACAGCGACGCAGCACTGCTGGCTGCCGGCTTCGCGACCGTGACCGCCATCCAGCCGGTCACAGAAGCCGCCCTGTCCGCCCTGCCGAACAGCACACCGTCCGGGCAGCGCTTCTAA	MNSPTRVLITNDDGIGSPGLLALAAAAAQAGLSVVVAAPANEASGSSSSITAAEQDGKISVERRQLKDLDGVDAYAVHGAPAFITMIATHGAFGPPPDVVLSGVNRGANVGRAILHSGTVGAALTAGVNDGRGMAVSLDTGLNPARFHWDTAARLATGLIPFLMEQEIGTVLNLNVPNTAGEELPEYRAATLAKFGIVQTTLAERGQHHVRLAIADTTEEAHPDSDAALLAAGFATVTAIQPVTEAALSALPNSTPSGQRF	PGPT0013405_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013405-surE-K03787	NA	NA
D1-17_00878	987	lacC_1		Tagatose-6-phosphate kinase	ATGGGTTCCGTAGTGATCTTCGCGCCATCCCCCGTCCTGACAGTAACCGTCGAGGACATCGACGGCACCGCAGACATCCACATCCACGCCGGCGGCCAGGGAGTATGGCAAGCCCGGATGCTGAGGGCTCTGGGTGCATCGGTGACGATGTGCGGGGTGTTCTCCGGAGAAACCGGGCGCGTAGTGCAGCACCTCATCTCCGACGAAGGGGTCCGGGTGCTTTCCGTGGCCGGGCAAGGCAGCAGCGGGGCGTACCTGCATGACCGACGCGGCGGTGAACGCCGCATCCTGGCTGAATCGCCGGGAGACCGGCTCACGCGCCACGAGCTGGACGAACTCTACGGGCTGACCCTCCAGGCCGGGATGGAGGCCGGCACGGCGATCATCAGCGGCACCGGCAGGGAGGATGCGGTGCCTGCCGACATGTACCGAAGGCTGGCGGCCGACCTCGGCGCCGCCGGATGCACCGTCATCGCCGATCTCGCCGGGGAACGGCTGAACGCCGTCCTCGCGGGCAACCCGGCGGTCATCAAAATGGCCGACGACGAGATTGTGGAAAGCGGCCGGGCTTCCGGCACAGACCGCGACGACATCATCGAAGCCATGCACCAGCTGGCACGGGAAGGTGCGGCCACGGTGATTGTCACCCGCGCCCACCTGCCCTCACTGCTGCTGAGCGAAGGTGCCGTCAGCGAAATCCATGTGCCTGAACTGCAGACCGTGGACACCAGCGGGGCCGGCGACTCACTCACCGCCGGGGTGACCGCCGTCCTTGCCGACGGCGGGACGGTGCACGACGCCGTCGTTCTCGGAACCGCCGCCGGCGCGCAAAACGTAACCCGCCACGGCCTGGGGAGTGGAGAGGCAGAAGCCATCCGGCAACTCGCCAGGCACGTGCGGATCGTTCCATTGGACGAGACCGTAGACGAGGAGCCTGCACAGCAGATGAGCCCCGATGACCTGGCACGAAAGATCACCGAATCATGA	MGSVVIFAPSPVLTVTVEDIDGTADIHIHAGGQGVWQARMLRALGASVTMCGVFSGETGRVVQHLISDEGVRVLSVAGQGSSGAYLHDRRGGERRILAESPGDRLTRHELDELYGLTLQAGMEAGTAIISGTGREDAVPADMYRRLAADLGAAGCTVIADLAGERLNAVLAGNPAVIKMADDEIVESGRASGTDRDDIIEAMHQLAREGAATVIVTRAHLPSLLLSEGAVSEIHVPELQTVDTSGAGDSLTAGVTAVLADGGTVHDAVVLGTAAGAQNVTRHGLGSGEAEAIRQLARHVRIVPLDETVDEEPAQQMSPDDLARKITES	PGPT0017580_203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017580-fruK|fpk-K00882	NA	NA
D1-17_00879	327	cmtR	COG0640	HTH-type transcriptional regulator CmtR	ATGGAGAAGCTCACTCACGCCCCGGTGCTGGCCCGGTTCGGCTATGCAGTTTCGGATCCGACCCGCGCCCGGATTCTTTTGGCCCTGGCCGAAGCGCCGGCGTACCCGTCCGACCTTGCCGAGTCACTGGGGGTCTCACGCCAGAGCATCTCGAACCACCTGACGTGTCTGAGGGGGTGCGGCCTGGTTGTTGCGGCTCCGGACGGAAGACGGTCCCGGTACGAGTTGGCGGACGCCCGGCTGGGTCACGCAATCGGCGACCTGCTCGGAGTCGTGCTGGCAGTGGATCCAGCCTGCTGCGCTGCCGATGGGACGTGCCCGGCATGA	MEKLTHAPVLARFGYAVSDPTRARILLALAEAPAYPSDLAESLGVSRQSISNHLTCLRGCGLVVAAPDGRRSRYELADARLGHAIGDLLGVVLAVDPACCAADGTCPA	PGPT0004390_627	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004390-cmtR-K21885	NA	NA
D1-17_00880	756			hypothetical protein	ATGAGTGCGGTCCCTCTGGCGCCGGCGCCAGCCCGGCGCGCAGTGCTGACACGCCGTATCCGGCTCTTCGCTGCAGCCACCATTACCTACAACGTGATCGAGGCTGTTGTTGCCCTGTGGGCCGGCAGTATCGCGGATTCGTCGGCTCTGATCGGGTTTGGGCTTGATTCGGTCATCGAGGTGGCCTCGGCCTTGGCGTTGTCCTGGCAGTTCACGGCGGAGGATCGCGAACGCCGGGAGCACCTGACACTGAGGATCATCGCAGTCTCATTCTTTGCGCTGGCGGCCTTCGTCGCCGTCGACGCGATCCGTTCGCTCGCCGGGGCCGGAGAAGCCCGGCATTCAACCCCGGGGATCCTGATCGCAGCCCTGAGCCTGGCGATCATGCCCGTCCTGTCATGGCTGCAGCGCCGGGCGGGCCGTGAACTGGGGTCGAAAACAGCAGTTGCCGATTCGAAACAGACCCTGCTGTGCACATACCTGTCCGGAGTCCTGCTGGTCGGTCTCGTGCTGAACAGCACCCTGGGCTGGTGGTGGGCTGACGCCGGCGCCGCTCTCGTTATCGCCGGCATCGCCGTCCGCGAAGGCCTCAATGCCTGGCGCGGGGATGTTTGCTGCACCGTCCCGCTTTCGGCGGAAACCTCAAACACCTCCCGGCCAGGCGACCAGTGCTGCGCGGGCTGTGGCGGCGCGCCGGTCCCGACCGGGCACGCCGAACCTCAGCATCATGAATCCGACCCCCGGGGGATTCGGTAA	MSAVPLAPAPARRAVLTRRIRLFAAATITYNVIEAVVALWAGSIADSSALIGFGLDSVIEVASALALSWQFTAEDRERREHLTLRIIAVSFFALAAFVAVDAIRSLAGAGEARHSTPGILIAALSLAIMPVLSWLQRRAGRELGSKTAVADSKQTLLCTYLSGVLLVGLVLNSTLGWWWADAGAALVIAGIAVREGLNAWRGDVCCTVPLSAETSNTSRPGDQCCAGCGGAPVPTGHAEPQHHESDPRGIR				NA	NA	NA	NA	NA
D1-17_00881	1251			Thermophilic serine proteinase	ATGAAAAAAGTTATGGTCGCCGGTTTGACTGCGGCAATTATGGGGCTTGGCGCTCTCAGCTTTGCAGCCACTGGCAACGCAGCGCCGGCCACATCTTCATCGGTCAAAGGCCAAATCATCGTTAAGTTCCGCGACAGTGGCGCCGCGGCCGGTGTCCTTCGTCAGCATGGCCTTAGTGAGGGCACGGGCATCGGGAGCACTGGGGCTCACCTGGTCAGAGTGCCGGCCGGTAAGGAATCACAACTTATCCAATCCCTGAGCCGGAACCCGGCTATTGAGTACGCCGAGCCGGACGAGCTGGTTACTGCCGCTACGACTGACACGTATTTCCCGCGCCAGTATGCGCTGCAGAACGATGGCCAGGCATTCACCAACACCAAGGGCGACATTTCCATAGCCGCGGGCACGAAAGACGCCGACGTGGACGCCGTCGAAGCGTGGGGCGTCACGAGAGGTAATGGCATTAGGGTTGCCGTTCTCGATTCAGGTGTCGATACCGACCATCCCGACATCAATCCACAGGTTGTGGGACGAGCCAACTTCAGCAGCGCGGGAACGAATGAAGATAACTACGGTCACGGCACTCATGTCGCCGGTATTATTGCCGCCAAAAACAATTTCGAAGGTGTTGCCGGCGTCTGCCCGGACTGCACGATCCTGGCCGGCAAGGTGCTCAACGACAGCGGGGTTGGCTCGTCATCGACCGTCGCAAACGGGATCAACTGGGCAGTCAGCAGTGGTGCCAAGGTCATCAATATGAGCGTAGGAGCGCGGGCGTCACGCACCCTTGAAACTGCTGTCAACAACGCATGGAAAAAAGGTGCTGTGCTGGTTGCTGCAGCAGGCAACGGCGGTAATCAGACCAAGATTTACCCGGCCGCCTATCCGAACGTTATCGCCGTCGCAGCAACCGACAACAACGACAAGAAGGCATCCTTCTCGACCTACGGCGCCTCGTGGGTGGATATCGCAGCGCCAGGTGTCAACGTCTACTCAACCTTCCCAAACCACAACTTCTACTTGGCCGCGCCAAACAACAGGTCGCTGAGCTATGACGTCGCCAACGGCACCTCGATGTCCTCACCTATCGTCGCCGCCACTGCCGCTCTCGTTTGGAGCAAGGACACCGACGCCTCGCCGTGGTCAATCCGCTACAAGGTCGAATCCACCGCCGACGAGATTTCCGGCACCAGCACCTACTGGGCGAATGGCCGCGTGAACGCATTAGAGGCAGTCAGCCCCCAGCCATAG	MKKVMVAGLTAAIMGLGALSFAATGNAAPATSSSVKGQIIVKFRDSGAAAGVLRQHGLSEGTGIGSTGAHLVRVPAGKESQLIQSLSRNPAIEYAEPDELVTAATTDTYFPRQYALQNDGQAFTNTKGDISIAAGTKDADVDAVEAWGVTRGNGIRVAVLDSGVDTDHPDINPQVVGRANFSSAGTNEDNYGHGTHVAGIIAAKNNFEGVAGVCPDCTILAGKVLNDSGVGSSSTVANGINWAVSSGAKVINMSVGARASRTLETAVNNAWKKGAVLVAAAGNGGNQTKIYPAAYPNVIAVAATDNNDKKASFSTYGASWVDIAAPGVNVYSTFPNHNFYLAAPNNRSLSYDVANGTSMSSPIVAATAALVWSKDTDASPWSIRYKVESTADEISGTSTYWANGRVNALEAVSPQP				NA	NA	NA	NA	NA
D1-17_00882	1725	sasA_3		Adaptive-response sensory-kinase SasA	GTGCAGACAACTACCACCGTGCGCGACAGCATGCCCGGGCTGAGGTCCGGGGACCTGGCTCATCAGGTCAAAGACAGGTTCTTCAGTGACGTGACCCAGCGGCGGAGCATGTTGGTCAGCCAACTGCCGCTCACTTTTTCGCTGCTGATCGTGACTGTCATATTGGCTGTTGTCAGCCCGGCCACCCTAGCAAACCCCGTCTTCCAGCTCTCGGTCCTTCTGTGCCTGGGGCTCACTGCCCTGTGCATCGTGCTGCCTTGGAACCGGCTACCGGCGAACAGCTTTGCGGCGGTCCCGCTGCTGGACTTCGTAGCCGTCGCACTGGCGCGTGAGGCGACCGTTGAGGTCTTCACAAGTCTCGGCCTGCTGCTGGTTTTCCCCGTTATTTGGCTGGCAGCGCGTCTCGGGAGGATGGGTGTAGCCTTAAGCTTCGCAGCAACGGCCCTCGTAGTGGTGGTACCGCTGTTTGCAGGGCCTTCTGCCGCACCGTTGGATGCCGCCCGCCCGTTCCTGCTTCCCGCGATCATGACGGTGATTGGGCTGGCGGTGCACATCCTGGTGAGCAGCATTGCCAGCCAGGATGCAAAGCTGAAGCTCAAGGATGCCGAACTCCGCATGGCGTATCAGGAAAGCCTGGAGCGGCAGCGCCTGCTGGACACGATGCTGGACACTGTCGGCGTCGGAGTCCACGCCGTGGACGCAAGCGGTAAGGACATCCTCATGAACCAGCAGCACCGCCGAAACCGCTCGCTCGCCGCGCCGCCAGGAAATCCTGCCTCCGCAGAGCAGGAGCTGAACATCCTGGCCAGCGACGGCACCACTCCCCTGCCGGCAGAGCACCGCCCGGTGGCACGTGCGGCCCAAGGCCAGTCTTTTTCGGACTACCTTATCCGCCTCGGAAGCCCTACAAACCAGCGGGTGCTTTCTTCAACGGCGACACCCATGACGGATAAGGACGGCAAGTTTGCGGGGTCTGTCCTCGCTTTCAGCGATGTCACTGAATTGGTGAACGCCCTGGCAATAAAAGACGACTTCGTGGCAAATATTTCGCATGAATTCCGGAGTCCGCTGATGTCGATCCTCGGGTATCTTGATATGGTGCTGGACGCGCCTGAAGACCATGCTGGCCAGCACGAATCGTTTCTGCGAATAGCCCAGAGCAATGCTGAGAAGCTCCTTAACCTGGTTTCAGATCTCCTCTCGGTTTCATCCGACTCCATGGGCGTTCACCCGCAAAGAATGGACCTCAAGGACCTGGTAGGAATGTGCGTTGCTTCCGCCGGGCCCCGCGCGGAGAGCCGCGGTGTGAACATCGTGAACGAGGCAACCCGGTCCCTGTGGCTGACGGCAGATCCCGGACGGGTCACCCAGGTCCTGGACAACCTGCTCTCGAATGCGATCAAGTACTCCCGGCCCGGCGACACAGTTACGATCAGGGCGTGGGAGACGGGCGATGCGGTTTCTTTTTCCCTCACCGACACCGGAATCGGAATTGCAGAGGAAGACCTCCCGAAAATCTTCACGAGGTATTTTCGATCCAACAGTGTCCGTGAATCCTCAATACCGGGCGTGGGGCTGGGCTTGGGAATTGTAAAGCGCATCGTGGAAAACCACGGCGGTACCGTCACTGCGAACAGCAGGCCAAACCTGGGCAGCACCTTCACCGTGACGCTGCCCAAGGGCGCAGAGGCTCCTGCGGGCCCTCCGAGTGAACCTACGTCTTGA	MQTTTTVRDSMPGLRSGDLAHQVKDRFFSDVTQRRSMLVSQLPLTFSLLIVTVILAVVSPATLANPVFQLSVLLCLGLTALCIVLPWNRLPANSFAAVPLLDFVAVALAREATVEVFTSLGLLLVFPVIWLAARLGRMGVALSFAATALVVVVPLFAGPSAAPLDAARPFLLPAIMTVIGLAVHILVSSIASQDAKLKLKDAELRMAYQESLERQRLLDTMLDTVGVGVHAVDASGKDILMNQQHRRNRSLAAPPGNPASAEQELNILASDGTTPLPAEHRPVARAAQGQSFSDYLIRLGSPTNQRVLSSTATPMTDKDGKFAGSVLAFSDVTELVNALAIKDDFVANISHEFRSPLMSILGYLDMVLDAPEDHAGQHESFLRIAQSNAEKLLNLVSDLLSVSSDSMGVHPQRMDLKDLVGMCVASAGPRAESRGVNIVNEATRSLWLTADPGRVTQVLDNLLSNAIKYSRPGDTVTIRAWETGDAVSFSLTDTGIGIAEEDLPKIFTRYFRSNSVRESSIPGVGLGLGIVKRIVENHGGTVTANSRPNLGSTFTVTLPKGAEAPAGPPSEPTS	PGPT0002705_486	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-17_00883	756	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGGAACGGTCTCGGGTTGCGGTGATTATCGAGGACGAAGAACATGTCCGGGATCTCATCGCTGTGGTATTTAAGCAAGCTGGCTTTGTGACTCATACTGCTCCAGACGGGGAAACCGGGGTCGAATTGGTCCGGCAACACGATCCGATGGTTGTCACGATGGACATAGAAATGGCCGACATTGACGGATTTGAGGCAGCTCGCCGCATCCGTCTCTTTAGTGACAGCTATGTCATCATGCTGACAGGGCGTGACGATGAGGCGGATGCCATGATGGGCCTGGACAATGGAGCGGACGACTACATCATCAAGCCGTTCCGACCCCGGGAGGCGCGTTCCCGCATCAACGCCCTGCTGCGGCGGCCCCGTTGGCAGGGAGGCCCGGAGTCTGCCGGGTCCCCTCGAGCCGGGGCCCGTGACAGCAGGCGCCGGTCAGCCGAGCGGCTCGAGCACAACGGGCTCGTACTGAATGTGCGCACGCGGAAGGTCGAGGCGGACGGCGTCGAGCTTGAACTGAACGGGCCAGAGTTCGACCTCCTTCACACACTCATGGAGAGCACCTGGGTCCACCGCACCAACGCGGATTTAGCCCAGAAACTCCGTGCAGCCCACTACGAGACCGGTGAGCCGATCAGCCGCCGGGAAGAACGGGCCATCGATTTCCTTGTGACGAGCCTCCGGGAAAAGCTGGGGGATACGGAGCGGCCTCCGCGCTGGCTCAAGGCTGAGCCGGGTGGCTACTCGCTGGTGGTCTGA	MERSRVAVIIEDEEHVRDLIAVVFKQAGFVTHTAPDGETGVELVRQHDPMVVTMDIEMADIDGFEAARRIRLFSDSYVIMLTGRDDEADAMMGLDNGADDYIIKPFRPREARSRINALLRRPRWQGGPESAGSPRAGARDSRRRSAERLEHNGLVLNVRTRKVEADGVELELNGPEFDLLHTLMESTWVHRTNADLAQKLRAAHYETGEPISRREERAIDFLVTSLREKLGDTERPPRWLKAEPGGYSLVV	PGPT0012985_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
D1-17_00884	1794			hypothetical protein	ATGGATAAGGCGGCAGTTGCGGGGACGTTGGAGGACATCGCGGCATCCTTGGCTGCGTTGGCTGATGTTGTCCGCCGCGGCGGTTTTGCCGCCAGCGCCAGCGCCAGCACCAGCACCAGCGTCGGCGTCGGCGTCGGCGTCGGCGTCGGTGATGCCGCCGCGGACGGTTCGGCCGGGGAGGCTGCTTCGGCTGATCCTGACCCTCTTACGTCTCGGGATCCTTTGCGGAGCCTGGCGGATGCGTGTTTGGACGGGTTGGCGGGGCTGGCCGGGGTGGAAGCACGGATGGCCGCATTGAAGGTTCATTTCACGGACGGGTACGCAGCCGCTGCCGAGGCGCTGGCCGTAGGGGCCGGTTCGGCGCAGGAGTGCAGGGCTCGGGAGATGGCGGTGAGGGCCGAGGTTGCCTGTGCTTTGACGGTGAGTGAACGCAGCGCCGATGCGCTGCTGGGTGAGGCCCGGACCTTGGTGAGGGGGTTGCCGTTGACGCTGGCCGCGCTGGGCGCCGGGAGCATTTCGTGGCAGCACGCGCGGATTCTGTGTGATGAAACAGCCAACCTGGACCCGGTGGCCGCGGCGGCCCTGGAAGCCCATTTCCTGGAGCCCTATTTCCCGGGCCCCTCCGCGCCGGACGCGCCGGACGCGCCGGTGGGTGGGCGGGGTTGCCTGGCGGGGGATGTGGTGCCGGGCAGGTTCCGGGCCAGGGCGCGTGCCTGGCGGGAGCGGCATCATCCGGTGAGCATCGAAACCCGCCACCGCCGGACCGCCAGGGACCGCCGGGTGGAGTACCTCCCGGACCGGGACGGGATGGCGTGGCTGTCGGCGTACCTGCCCGCGGACACCGCGGCCGGGATCTGGAACCGGACCAGCGCAGCAGCACGCGGCCTGCAGGGCCCGAAGGAGCCGCGGACGCTGGCACAGCTGCGCGCGGACCTCGCCGCCGGCTGGCTCCTGGCAGGCACCGCCGACGGAATCCCCGCACCCAAAGCCCAGGTCCTGGTCACGGTTCCGGTGCTCTCACTGCTGGGCGCCGGTGAGGAACCGGCCGTGCTGGACGGCTACGGGCCGGTCCCGGCGTCGATGGCCCGGAAGCTGACCGCCGAAGGGGCCACGTCGTTCCTGCGGGTGCTGACCGATCCCAGGGACGGGGCGCCGCTGGAAATCGGGCGCACCGGCTACCGGCTCACGACCCCGATGCGGCAATGGCTGCGGCTCCGGGACGCGCGGTGTTCCTTTCCCGGGTGCAACAACCACTCCCTCGATAACGAAGCGGACCATGTCCTGGCCTGGTCCAACGGCGGCGGCACGGGTGTCAGCAACCTCGGCCAGGCATGCCCACGCCACCACCGCCTCAAACACAGCTCAGCCTGGCGGCCGCTCAACGCGGCCCGGGACAGCCCGCCCGGCTGGATCTCACCGGCAGGACGCTATTACCCCTGCGAACAACAGGACCGGGAACCACCCCACTGGCCAGACGCCCTCTGGCCCGACCCGCTCCGGCCGGACAACCCCGTAGCACCAGACAGCATTGAGGATCCGGTTTACCCCGGCTGGCTCGACATTGAGGAACCGGGCAGCCCGCCCTGGCCGGACGATCCCGGCTGGCCCCAGGCCCTCGAACCGGACAGAAGTGCCTGGCCGGACAACGGCGGTTGGCCCCAGGTCCCCGAGCCGGACAATCTCGAGGGCCTTGACCCGCCACCGCCGGTGGATCTCCTGCCTAGGGATCTTCTGCCGGGAAATCCAGAGCCCGTGGATCCTTTCCCCGACTGGGCACACTTCACGGCTGCCTAA	MDKAAVAGTLEDIAASLAALADVVRRGGFAASASASTSTSVGVGVGVGVGDAAADGSAGEAASADPDPLTSRDPLRSLADACLDGLAGLAGVEARMAALKVHFTDGYAAAAEALAVGAGSAQECRAREMAVRAEVACALTVSERSADALLGEARTLVRGLPLTLAALGAGSISWQHARILCDETANLDPVAAAALEAHFLEPYFPGPSAPDAPDAPVGGRGCLAGDVVPGRFRARARAWRERHHPVSIETRHRRTARDRRVEYLPDRDGMAWLSAYLPADTAAGIWNRTSAAARGLQGPKEPRTLAQLRADLAAGWLLAGTADGIPAPKAQVLVTVPVLSLLGAGEEPAVLDGYGPVPASMARKLTAEGATSFLRVLTDPRDGAPLEIGRTGYRLTTPMRQWLRLRDARCSFPGCNNHSLDNEADHVLAWSNGGGTGVSNLGQACPRHHRLKHSSAWRPLNAARDSPPGWISPAGRYYPCEQQDREPPHWPDALWPDPLRPDNPVAPDSIEDPVYPGWLDIEEPGSPPWPDDPGWPQALEPDRSAWPDNGGWPQVPEPDNLEGLDPPPPVDLLPRDLLPGNPEPVDPFPDWAHFTAA				NA	NA	NA	NA	NA
D1-17_00885	204			hypothetical protein	TTGGACGATATCAAAAGCATTGGGGTGAGCATCCGACGTGCCCGCAAAGCCGCCGGCATCACGCAGGAGACACTGGCGGACCTGATCGCCACCTCCACCCGGACCGTCCATGCCATCGAGACGGGGACAGGTAATCCCTCGCTACAGACGGTCGCCGCAGCCGCCAACGCCGTCGGACTGCATCTCAGGGCGACCGATGACTGA	MDDIKSIGVSIRRARKAAGITQETLADLIATSTRTVHAIETGTGNPSLQTVAAAANAVGLHLRATDD				NA	NA	NA	NA	NA
D1-17_00886	1206			hypothetical protein	ATGACTGAGGAACTGCAGCGCCTGAAGTTTGTGCGCAGCGCGGACGTCTACAAAGCTGGTGTGCTGGCCGGGCATCTGGACCGCACGGACCGCGGCAGCGTGGCCTTCTCCTACGCGCCCAACTATCTGGCTTCCGGAGCCGGCCCGGTCGCCACCACTCTGCCGCTTTCACAGGAACCTGTTGAGGCTCCGAGCGGCGCGTTGCCGGCCTTTTTCAGTGGCCTCCTGCCCGAAGGCCACCGCCTGACCGTGCTCAAAAATGCTGTCAAGACCAGCTTGGCCGACGAACTGAGCCTGCTGCTGGCCATCGGAGCCGATGTTCCCGGCGATGTTCAGGTGGTGCCCGCGGGGGAGCCGCCCGTGGAGCCGCAACCCCTGGCCGATACTTCCAGGCCTGAGGAGCTTGACTTCGCTGCCCTTGCCGACGCTGTGGACCTGCACGGGCTGCCGGGCGTGCAGAACAAGGCCAGCGCCTCGATGCTGACCACCCCGCTTGCGGTGGCTGGCCGCCGGTACCTGCTCAAGCTGGACCCGCCGCTCCACCCGCACCTGGTGGTGAACGAGGCTGCGCACCTGACGGCGGCAAAGGGGCTGAGAATCCCCGTGGCGGCCCACCGCGTTGTCACCGACCGGAACGGGCTGCCCGGGCTGCTCGTCGAACGCTTTGACCGGCTCCAGGAATGCGCGGCTGGCAAGAATGTGCCGCTGCGGCTGCCGCTGGAGGATGCCGCGCAGGTCCTTAACCTGCCGCCGGCGTCCAAGTATGCCGTCAGCTCCGAGGAGGCGGTGCTCGCGCTGGCCGGGCTGTGCAAGGCCAAACCGGTCGCCGTCCGGAATCTCTATCTGCAGTTTGTTTTCGCCTGGCTTACCGGCAACGGTGATCTGCACGCGAAGAATATTGCAGTCCTGGCCAGCCGGCATGGCGGCTGGGCGGTGGCGCCCGTCTACGACATCCCCTGCACCTTGCCCTACGGTGATGACACCATGGCTCTCACCGTCGCCGGCAAGGTCAAGGGGCTCAAAGCAAAGCACTGGCAGGAATTCGCCGCTGCCATCGGGCTTCCTCCCAAGGCGGCGGCGGCCGCGAACATACTCGCCCTTAGGACGGCCATGTCCATCGACCTGGGGGACCTACCGTTCACCGGCTCACCCCTGAAGGGAGCACTGCGCGAGTTGCGGTTCCGGCGGGCAGAGATGACGCCCTGA	MTEELQRLKFVRSADVYKAGVLAGHLDRTDRGSVAFSYAPNYLASGAGPVATTLPLSQEPVEAPSGALPAFFSGLLPEGHRLTVLKNAVKTSLADELSLLLAIGADVPGDVQVVPAGEPPVEPQPLADTSRPEELDFAALADAVDLHGLPGVQNKASASMLTTPLAVAGRRYLLKLDPPLHPHLVVNEAAHLTAAKGLRIPVAAHRVVTDRNGLPGLLVERFDRLQECAAGKNVPLRLPLEDAAQVLNLPPASKYAVSSEEAVLALAGLCKAKPVAVRNLYLQFVFAWLTGNGDLHAKNIAVLASRHGGWAVAPVYDIPCTLPYGDDTMALTVAGKVKGLKAKHWQEFAAAIGLPPKAAAAANILALRTAMSIDLGDLPFTGSPLKGALRELRFRRAEMTP	PGPT0027480_2483	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027480-toxin_hipA-K07154	NA	NA
D1-17_00887	1281	rebG		4'-demethylrebeccamycin synthase	ATGGCTTCAGTCATCGTGTGCAGCGCTCCCCATGACGGTCACGTTTCACCGATGCTGGGAGTGGCGCGGCGGCTAATCGCCCGCGGGCACCGGGTCCGCTTCCTGACCGGACCAAAGTACGCAGACGCCGTCCGGTCCGCCGGGGCCGAGTTCCTGCCGCTCGGGCCAGGGGCGGACGAGCCGCCGAAGTCCACTGACGCCACCGGCTTGCAGGCAATCCGCGACGGCGTCCGGCTGCTGGTCATCAACCCTGCCCGGGGCCAGTACGAGCCGCTGATGGCGGCGGTCAAGGCTGAGCCGACGGACGCCGTGCTGGCCGAGATCAGCTTCATGGCGGCATCCATCCTTTCCCGGCAGCCCCGGGAGAACCGGCCGCCGGTGGTCGCCTGTGGAATCCTGCCGCTGACCCTCTCCAGCCGGGACTGCGCACCCTTCGGGTTGGGGCTGAACCCGGGCAAGGGGCCGATGTCGCGGCTGCGCAACAGGGCTTTGAACTGGTTCGTGGCCAACGTGGCCCTCAAGGACACGCAGCGGCAGGTGAACGAGAAGATGCGCGAGCTCGGGGGAGTGGAACCCGACGGTTCATTCTTCCTGGACTGGGCGCGCACGGCTGATCTCTTCGCCCAGTTCACCGTGGAGGAGTTCGAGTATCCGCGCTCGGACGCGCCGGACAACCTGCGCTTTTTCGGGCCGATGGCCCGGCACGGAGTCTTGGGAGGCGCGAAGCCGGACTGGTGGGGCGACCTGGACGGCGCGCGGCCGGTCGTCTACGTGACGCAGGGAACCGTCTCGAATGAGGACTTCACGGCCCTGGTAGGCCCGACGCTCGAAGGGCTTTCCGGGGAGGACGTCACCGTGGTGGTCAATACCGGCCGCCGCCCTCTGGCTGCGCTTCCCCCGCTCCCGGCCAATGCCCGCGCCGCGGAATTCCTCCCGGATGCGGAGCTCCTGCCGAAGGTCGCCGTTTACATCACGAACGGCGGTTACGGCGGCCTCCATTACGCGATGGAAAACGGCGTGCCGATCGTGGTTGCCGGGGACACCGAGGACAAGCCGGAGGGTGCAGCCCGGGTGGCATGGGCCGGTGCGGGCATCAACCTCAAGACGGGCCGGCCGAAGCCGGAGGCCATCCGGGATGCGGTGCGGAAAGTATTGAGCGACGGCCGCTACCGGACGGCGAGCCAGCAGATCGGGGCGGCGATTGCCGCTTCCCCAGGTGTGGACGGGCTCATCGATGAGCTGGAAGAGATGCTGCGGGAGGACCCGCTGACCTCGCGATAG	MASVIVCSAPHDGHVSPMLGVARRLIARGHRVRFLTGPKYADAVRSAGAEFLPLGPGADEPPKSTDATGLQAIRDGVRLLVINPARGQYEPLMAAVKAEPTDAVLAEISFMAASILSRQPRENRPPVVACGILPLTLSSRDCAPFGLGLNPGKGPMSRLRNRALNWFVANVALKDTQRQVNEKMRELGGVEPDGSFFLDWARTADLFAQFTVEEFEYPRSDAPDNLRFFGPMARHGVLGGAKPDWWGDLDGARPVVYVTQGTVSNEDFTALVGPTLEGLSGEDVTVVVNTGRRPLAALPPLPANARAAEFLPDAELLPKVAVYITNGGYGGLHYAMENGVPIVVAGDTEDKPEGAARVAWAGAGINLKTGRPKPEAIRDAVRKVLSDGRYRTASQQIGAAIAASPGVDGLIDELEEMLREDPLTSR				NA	NA	NA	NA	NA
D1-17_00888	372			hypothetical protein	GTGGACGAAAAGGCGGGCTCCGCCCCTCTTCCGGATGACACTCCCCTGCCAGGCGTAGCTGCCCTCCATGGCGATCCCGGGCTGCAGCCGGAGCGCACCGCACTCGCGTGGGGCAGAACGGTGATGACGCTGATCGCCGCCAGTGCCATTTGCCTGAGGTGGCTTCCCGAGCAGGGCCTGTTCGTCCTGACGCTGTTCGGCCTCACCGTCACCGCGGGAAGCGCCATCTACTTCACGCAGCGGCGCCGCTACCGGCGCAGTGCTGCCGGAATCAAGGCGGAACAGCTGGCGCCGGACATTGCAGCGGTCTTCTGGACGGCGGGCACGTGTGTTGTCCTGGGGGCGCTGGGCGTGTGGCTGGTGCTGGTGTAA	MDEKAGSAPLPDDTPLPGVAALHGDPGLQPERTALAWGRTVMTLIAASAICLRWLPEQGLFVLTLFGLTVTAGSAIYFTQRRRYRRSAAGIKAEQLAPDIAAVFWTAGTCVVLGALGVWLVLV				NA	NA	NA	NA	NA
D1-17_00889	396	yidH	COG2149	Inner membrane protein YidH	GTGCCCACAGCCTCTCCCGATGACCCCACGCCCCGCCGAAGCCGCATTGCCGAAAAGCTGCTGCCCGGCGGCACCGAGCCGGACCCGCGGTTCACCCTTGCCAACGAGCGGACGTTCCTGGCGTGGATCCGCACTTCCCTGGCACTCCTCGCCGGCGGCATTGCGGTGGAGGCCTTCACCTCCGACGTGTTCCCTGAACCCGTCCGCCGCGGCCTGGCAGTCGTGCTCCTGTTGCTGGGCATGCTGCTCAGCGCCGGCTCAGCCGTGCGCTGGCTGCGGGTGGAAGGCAGCCTGCGCACTAAGCAGCCGCTGCCGCTGCCGCTGATCGCCCCCTTGCTCGCCGCCGGCTGCGCCGTCGTGGCCGCCGCGGTGATCGCCGTCGTCGTCCTGGCCTGA	MPTASPDDPTPRRSRIAEKLLPGGTEPDPRFTLANERTFLAWIRTSLALLAGGIAVEAFTSDVFPEPVRRGLAVVLLLLGMLLSAGSAVRWLRVEGSLRTKQPLPLPLIAPLLAAGCAVVAAAVIAVVVLA				NA	NA	NA	NA	NA
D1-17_00890	432			hypothetical protein	GTGGGCGACGATCAGAGCTTGCCGGTACTGGACAGCACCGCACTCAGGGCCTTGGAAGATGAAGCTGGTCAGGGCGTGTCGCGGAGGTTCGTCGAAGAGTACCTGCTCATGCTGCCCGCCCGCGCGGCCCGGGTTCTCAAAGGCTTAGCCGGGGAGGACCCAGAGCCGGCCACTCGAGCTCTAATGAGCCTGAGAGTCACCTCGGCAATGGTTGGTGCCCTGCGCCTGGAATGGTTTTGCGCTGATCTGGAACGGGCACTCGAAGGCGGACAAAGCCCAGGCGCGGTCTCCGTGAAGACGGCGCTGTTTGCCAATATTCGGCTCGTTGTCCATGCAGCAGCCCTGCAAGACTACTTTCCCGCCCATCCCAACACTCGGGCTCAGCTAAGCGGCCGGCCCGGCGGCATGAGGGACGCGGGTGCTAGAGCCTAA	MGDDQSLPVLDSTALRALEDEAGQGVSRRFVEEYLLMLPARAARVLKGLAGEDPEPATRALMSLRVTSAMVGALRLEWFCADLERALEGGQSPGAVSVKTALFANIRLVVHAAALQDYFPAHPNTRAQLSGRPGGMRDAGARA	PGPT0025855_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025855-hptB-K20976	NA	NA
D1-17_00891	1374			hypothetical protein	GTGCCGGATTCATGCAAGAGGTGTCTGTCCTTTGTGGGCAGTCATTTGCTGATGAGTGTCTTAGCCGTTCAGGTGGCATTCGCCGTGGTGATCCTGACCTTGTTGGGGTCAGGACATCTCGTCCCGCTGCATTCTCCTGAACTGCGGGGACTTCTGGGTTCCGCCGCCGGATTCCTAACCCTTGTGGCGTTTCACGCTGCCTGGCGCGACAGGAAGGCCCGGCTTGGCGATCGGTCCAGGGTCCGCCGATTGAGGCATCTTATCGACGGGGTGTTGCACCCCCGCCAGGAATGGTGGTGGGCTACCGACGACCTCGGAACGTTCACATTCTCCAGCAGTACGTCTCTAGATCTCTTTGGGTATGCTCCCTCTGAACTTGAAGGGCAGCCGGCCAGCATGGTGATGGATCTGGACGATCTGGCCAAGGCGCGCCACTCCGTCGCCGCTGCTCTGGCATCTGATGGTTCACGCTGGGATGGGGTCATAGTCAGGTGCCGGCACCGCGACGGGACCCTCGTGTGGATGGAGGTATCCGGTCATGCCCGCCCCGCCGTTCACGGGATAAGCAACGGGTTCGAAGGTGCCTGTCGGCCGCTGCGTCCGCAGACTGCCAGGGTTTTGGCCGTTAAGCGCAGCAGGGAGAGGATCGAGGAGCTGCTGCGGGAAAGGACGCTCCTTACGGCGTTCCAACCCATTCACGAACTTGCTACCGGGGCGGTCGTCGGAGTGGAGGCCTTGGCTCGATTCCCCGACAACGACGGCAGCCCGAAGCGCTGGTTCTCCGAGGCTGCGACCGTTGGTTTGACGGCTGAGCTTGAGTTCGCAGCCCTTGAATCAGCACTCACGGCCGCCACCGGGCTGCCGTCCCGCCTGTATGTGGCACTTAATATCTCACCGGAAACCTGCTTGGACCCACGCCTGCCTGAGTTTCTGGCCACATCGCCTATCGCTCCGGACCGGCTGGTGCTTGAACTGACCGAAAACCTGGCCGTCGCCACATACGCCCCACTTGTCGACGCCCTGGCCCCCCTCCGCAGCCGCGGCCTGAGGATTGCAGTGGATGATGCAGGTGCCGGTTTCGCCTCCATGCGCCATGTCCTCCATCTACAGCCCGACATCATCAAACTCGACCGGAGCCTCATCGCCGGAATCGACCACGCTCCCGGCCAGCGCGCCCTCGGCGCAGCCATGGTGGAATTCGCCCAACAGATCGGGGCGCAGCTCGTTGCTGAAGGCATTGAGAGCGAAGATGAGCTGAATGAAGTGACAAAACTAAGGATGTACGCCGGTCAAGGCTACCTTCTGGAACGACCCACGGCGGACCCCCGGAAGTGGGCAACCTGGGAAGCTGGGCAAGGACAAATTGCGGCCTGA	MPDSCKRCLSFVGSHLLMSVLAVQVAFAVVILTLLGSGHLVPLHSPELRGLLGSAAGFLTLVAFHAAWRDRKARLGDRSRVRRLRHLIDGVLHPRQEWWWATDDLGTFTFSSSTSLDLFGYAPSELEGQPASMVMDLDDLAKARHSVAAALASDGSRWDGVIVRCRHRDGTLVWMEVSGHARPAVHGISNGFEGACRPLRPQTARVLAVKRSRERIEELLRERTLLTAFQPIHELATGAVVGVEALARFPDNDGSPKRWFSEAATVGLTAELEFAALESALTAATGLPSRLYVALNISPETCLDPRLPEFLATSPIAPDRLVLELTENLAVATYAPLVDALAPLRSRGLRIAVDDAGAGFASMRHVLHLQPDIIKLDRSLIAGIDHAPGQRALGAAMVEFAQQIGAQLVAEGIESEDELNEVTKLRMYAGQGYLLERPTADPRKWATWEAGQGQIAA				NA	NA	NA	NA	NA
D1-17_00892	1047	paaA	COG3396	1,2-phenylacetyl-CoA epoxidase, subunit A	ATGGCAGCGCAGAATCTGCAGTCAGTGCCTGACCAGCCGGCAGTCCCGGGAAGGAACGAAGCTGACGAACAGGCGCGGCAGCAGGCCCAGCTGGAGGCCGAAGGCCAGGCATACTTCGACAAGGTCATGGCCGAGGACTCCCGCATCGAGCCGCGTGACTGGATGCCTGCCGCTTACCGTAAGACGCTGCTGCGCCAGATCTCGCAGCACGCGCACTCGGAAATCATCGGCATGCAGCCGGAAGCCAACTGGATCTCCCGCGCCCCTAGCCTGAAGCGCAAGGCCATCCTGATGGCCAAGGTCCAGGACGAGGCCGGCCACGGTCTCTACCTCTACTCCGCCGCCGAGACGCTGGGCCAGTCCCGCGACAGGATGATGGACGACCTCATCGCCGGCAAGGCCCGCTACTCCTCAATCTTCAACTACCCCGCCCTGACCTGGGCGGACATGGGGGCGATCGGCTGGCTCGTGGACGGTGCCGCCATCTGCAACCAGGTGCCGCTGTGCCGCGCGTCCTACGGGCCGTACGGCCGGGCCATGGTCCGCATCTGCAAGGAAGAGTCCTTCCACCAGCGCCAGGGCTTCGAGATCCTGCTGGAACTCTCCAACGGTACCCCGGAGCAGAAGCAGATGGCCCAGGACGCCGTGAACCGCTGGTACGCCCCGGCCCTGATGATGTTCGGCCCGCCGGACGATGACTCACCCAACTCCAAGCAGTCCATGGCATGGAACATCAAGCGCTTCAGCAATGACGAGCTGCGCAGCCGCTTCGTCGGCATGATGGTGGAGCAGGTCAGGGTCCTGGGCCTGACCCTTCCGGACAGCGAAGTCCGCTTCAACGAAGAGACCAAGAAGTGGGAGCACGGCCCGCTGGACTGGGAAGAATTCAAGGAAGTCCTCGCCGGCCGCGGCCCCTGCAACGCGCAGCGGCTGGAACGCCGCCGGGAAGCGCACGACGACGGCGCCTGGGTCCGTGAGGCAGCGGCTGCTTACGCAGCAAAACAGCTAGCCAAGCAGGTTAACAAGCAGAAGGAATACGCAGCATGA	MAAQNLQSVPDQPAVPGRNEADEQARQQAQLEAEGQAYFDKVMAEDSRIEPRDWMPAAYRKTLLRQISQHAHSEIIGMQPEANWISRAPSLKRKAILMAKVQDEAGHGLYLYSAAETLGQSRDRMMDDLIAGKARYSSIFNYPALTWADMGAIGWLVDGAAICNQVPLCRASYGPYGRAMVRICKEESFHQRQGFEILLELSNGTPEQKQMAQDAVNRWYAPALMMFGPPDDDSPNSKQSMAWNIKRFSNDELRSRFVGMMVEQVRVLGLTLPDSEVRFNEETKKWEHGPLDWEEFKEVLAGRGPCNAQRLERRREAHDDGAWVREAAAAYAAKQLAKQVNKQKEYAA	PGPT0006045_62	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006045-paaA-K02609	NA	NA
D1-17_00893	531			hypothetical protein	ATGAGCCCCCACGGCAATCCGGAAGTACCGGCCAGCTCCGCCGGAGCAGTAGAAAGCTCAGCTGCCCAGGTTCCGGCAGGTCCGGAAACCACAAAACTTACCAGTGAGCCTGCCGACACCAAGAGCTCAAACGGCAGTGAGGAAATCTCCGTCCTGACGAGCTCGGCTGCAGAGGTTCCGGTGTCGACAAGTTCCGCCAGCGGTTACCCGGTTACGGGAGGCTCAACCAGTGAGGCAGCCTCGCTGCACCGCAGCGTCTGGCCGCTGTGGGAGGTTTTTGTCCGGTCCAGCCGTGGTCTCTCCCACGTCCACGCCGGCAGCCTGCATGCACCTGACGCCGCCATGGCCCTGCGCAACGCCCGCGACCTCTACACGCGCCGTAACGAGGGCGTGTCCATCTGGGTGGTCCCGGCCGACGCCATTGCCGCCAGCGACCCCGACGCCAAGGGCTCCTTCTTCGAGTCCCCGCAGGGCAAGGACTACCGCCACGCCACCTACTACACCAAGAGCGAAGGAGTGAAGCACCTGTGA	MSPHGNPEVPASSAGAVESSAAQVPAGPETTKLTSEPADTKSSNGSEEISVLTSSAAEVPVSTSSASGYPVTGGSTSEAASLHRSVWPLWEVFVRSSRGLSHVHAGSLHAPDAAMALRNARDLYTRRNEGVSIWVVPADAIAASDPDAKGSFFESPQGKDYRHATYYTKSEGVKHL				NA	NA	NA	NA	NA
D1-17_00894	957			hypothetical protein	GTGAGTTCTGAAAGCGTGACCACTCCCGAAACCCACGCGGATACCCACACGGAAGGGCATGGCGGCCACGGCGAGATCTCCGTCGGCGTCGCCGGCAGCGGCGACTCCTCCGCCAGCGCCACCCGTATCACGCCCGGCAACGCGCTCCGCCCCGAGGACATCGCCCTCGAGGTCCGCACCGGCCTGGCCAAGCCCACCGAGGACGTGGCCGAGTACGCGCTGCGCCTGGGCGACGACGCCCTGATCCTCGCCCAGCGCTTGGGCCACTGGATCTCCCGCGCCCCCGAGCTGGAGGAGGACGTGGCCCTGGGCAACATTGCCCTCGACCAGCTGGGCCACGCACGCTCCTTCCTTAGCTACGCCGGGGGAGCCCTGTCGAACGAAAACGGCACGGACAAGAGCGAGGACGACCTCGCCTACTTCCGGCGGGAGCACGAGTTCCGCTCCGCGCACCTGTTCGAGCAGCCCAACGGCGACTTCGCCGTCACCATCGCCCGCCAGTTCGTGGTGAGCTACTACCAGTTCGAGCTGTACCGCCGGCTGACGCAGTCCGCCGACGCCACCATCGCCGCGATCTGCGCCAAGGCTGTGAAGGAAGTGGACTACCACCGCGATCACAGCGCGCAGTGGATACTGCGCCTGGGGCAGGGCACCGAGGAGTCCCGCCGCCGCATGATCCACGGCCTGCGGCTGATCTGGCCGTACGTGCAGGAGCTGTTCGTGGACGATGAGCTAACACACCGCCTGACTGAAGCCGGTGCCGCCGTCGAACCTTCCAGCCTGCGCGCGGACTTCGACCGCCTCACCGGCGAGGTCCTCGCCGAAGCGGAGCTCGAGGTTCCCGAGGTGCCGGCTGCGCCGGGCGGCGGCCGCCAAGGCCGGCACTCCGAACACCTGGGCTACATCCTCGCCGAGATGCAGGTACTGGCCCGCGAGCATCCCGGAGCAAGCTGGTGA	MSSESVTTPETHADTHTEGHGGHGEISVGVAGSGDSSASATRITPGNALRPEDIALEVRTGLAKPTEDVAEYALRLGDDALILAQRLGHWISRAPELEEDVALGNIALDQLGHARSFLSYAGGALSNENGTDKSEDDLAYFRREHEFRSAHLFEQPNGDFAVTIARQFVVSYYQFELYRRLTQSADATIAAICAKAVKEVDYHRDHSAQWILRLGQGTEESRRRMIHGLRLIWPYVQELFVDDELTHRLTEAGAAVEPSSLRADFDRLTGEVLAEAELEVPEVPAAPGGGRQGRHSEHLGYILAEMQVLAREHPGASW	PGPT0006055_61	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006055-paaC-K02611	NA	NA
D1-17_00895	564	paaD	COG2151	Putative 1,2-phenylacetyl-CoA epoxidase, subunit D	GTGACAGCGGCCATGTACGTATCGGATTTCGAGACCAAGACCGGGGCCACTAGGGAACAAGAGGCCCGGCAGAAGGCCTGGGACATCGCGGCCACGGTCTGTGACCCGGAGATCCCCGTGCTCACCATCGAGGACCTCGGCATCCTGCGCGAAGTAAGGCTGTTTGACGACGGCGGGCCGGTGCCCGCTGTCCAGGTCACCATCACGCCGACGTACTCGGGCTGCCCCGCGATGGACGCCATCCGCGACGACCTCAAGGCCGCCTTCCACAAGGAGGGCTACCCGAGCGTGCACGTGGAGCTGGTGCTCTCGCCGGCGTGGACCACGGACTGGATGACGGAGTCCGGCAAGGCCAAGCTGCGGGAGTACGGCATCGCCCCGCCGAGCGGCAGGGCCGCAGCAGGGGGACACTCCGGACCCGTCCGGCTGAGCCTGGCCGTGAAGTGCCCGCAGTGCTCGTCGCTGAACACCAAGGAACTCACCCGCTTCGGTTCCACCTCCTGCAAGGCGCTGTACGTGTGCCAGGACTGCAAGGAACCGTTCGACTACTTCAAAGTCCTGTAA	MTAAMYVSDFETKTGATREQEARQKAWDIAATVCDPEIPVLTIEDLGILREVRLFDDGGPVPAVQVTITPTYSGCPAMDAIRDDLKAAFHKEGYPSVHVELVLSPAWTTDWMTESGKAKLREYGIAPPSGRAAAGGHSGPVRLSLAVKCPQCSSLNTKELTRFGSTSCKALYVCQDCKEPFDYFKVL	PGPT0006060_174	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006060-paaD-K02612	NA	NA
D1-17_00896	1227	paaE	COG1018	1,2-phenylacetyl-CoA epoxidase, subunit E	ATGCCTGTTGTCCGCCAGACTGCCGCCGAAACGGCGGAGGCCACCGGCCGCCGTCGTCCGTCCTTCCACACCCTCACCGTCAAGGAGGTGCGTCGGCTCACGGAGGACGCCATCGAGGTGACGTTCCATGTGCCGGCCGAGCTGGCCGGGCACTTCGACTACCTGCCGGGCCAGTACGTGGCGCTGCGCACCACACTGCCGGATGAGACCGGCGAGCCGAAGGAGATCCGCCGCAGCTACTCGATCTGTGCGGAGCCGCGCAGCTTCGCGGACGGCAGCAGCGAGATCCGGGTGGCCATCAAGAAGGACCTGGGCGGGCTGTTCTCCACATGGGCGAACGCCGAGCTGAAGGCAGGGGACACCCTGGAGGTCATGAGCCCGATGGGCGCATTCGTGTCCAAGCACGGCCGGGACGGGCTGGCTGTGGAGCAAAACGTGATGAACTCCATGAATCATCCCGAGGAGTTGGCCGGGCAGCCGGGCAACTTCGTCGCGATCGCGGCGGGCTCGGGCATCACCCCGGTGATTGCGATCGCCCGCACACTGTTGGCGGCGAACACGGAGACACGGTTCGATCTGATCTATGCCAACAAGGCCGCCATGGACGTGATGTTCCTAGAGGAGCTCGCGGACCTGAAGGACAAGTACCCGCAGCGGCTGGCGCTGCACCACGTGCTGTCCCGTGAGCAGCGGATCGCGCCGCTGCTGAGCGGCAGGATCGACGCCGAGAAGCTGCAGAAGCTGCTGGGCACCGCCATCCATGCTGAGGATGTGGACGAGTGGTTCCTGTGCGGGCCGTTCGAGCTGGTGCAGCTGTGCCGGGACACCCTGGCCGAGCGCGGCGTGAAGCCCGAGCACATCCGCTTTGAGCTGTTCACCTCCGGCAAGCCGGACCGGCCCGAGGGCAACGCCGGCCGTCCCGTGGTGGAGGACGAGTCCAAGGAGACGTACAAGATTACGTTCAAGCTGGACGGCCTGCAGGGCGACGTCACCAGCCCCACGCACGCGCGCGAGTCCATCCTCAACGCGGCGCTGCGGGTCCGCCCGGACGTGCCGTTCGCGTGCGCCGGGGGAGTGTGCGGCACCTGCCGCGCCAAGGTGGTCACCGGCACCGTGACCATGGACGAAAACTACGCGCTGGAGCAGGATGAACTGGACAAGGGCTACGTGCTGACCTGCCAGTCGCACCCCACCAGCAAGGAAGTCACGGTCGACTTCGACGTCTAA	MPVVRQTAAETAEATGRRRPSFHTLTVKEVRRLTEDAIEVTFHVPAELAGHFDYLPGQYVALRTTLPDETGEPKEIRRSYSICAEPRSFADGSSEIRVAIKKDLGGLFSTWANAELKAGDTLEVMSPMGAFVSKHGRDGLAVEQNVMNSMNHPEELAGQPGNFVAIAAGSGITPVIAIARTLLAANTETRFDLIYANKAAMDVMFLEELADLKDKYPQRLALHHVLSREQRIAPLLSGRIDAEKLQKLLGTAIHAEDVDEWFLCGPFELVQLCRDTLAERGVKPEHIRFELFTSGKPDRPEGNAGRPVVEDESKETYKITFKLDGLQGDVTSPTHARESILNAALRVRPDVPFACAGGVCGTCRAKVVTGTVTMDENYALEQDELDKGYVLTCQSHPTSKEVTVDFDV	PGPT0006065_21	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006065-paaE-K02613	NA	NA
D1-17_00897	780	echA8_1	COG1024	putative enoyl-CoA hydratase echA8	ATGATCTCCCTTACCATCGCCGCCGGCGTCGCCGAGGTCGTGCTGAACGCCCCGCACAAGCTGAACTCGCTGGACGAGGAGGCGCTGGCGGATTTGTCCCAGGCGTACGACGACGCTGCTGCCGCCGCCTCGCGCGGTGAGGTGCGGGCGCTGTTGCTTCGGGGAGAGGGCCGCGCCTTCTGCGCGGGCCGGGACATCGCGGGCGTGACCCCGGAGAGCGACGACGCCGAGGCGTACCTGGGCGGGCTGGTGCAGCCGCTGCTGCAGAAGATGGCTGCCTTCCCGGCGCCGACGTTCGCCGCCGCTCAGGGAGCGTGCCTGGGCGTGGGGCTGGGGTTGCTGCTTGCCACGGACGTGGTGTACGTGGCGGAGAACGCGAAGTTTGGATCGCCGTTCGCCAAGCTGGGCGCGACCCTGGATTCGGGCGGGCACTGGTACTTCACGGAGCGGCTGGGCATGCACCGGACGCTGGACCTGATTTACACGGCCGACCTGATCTCGGGGGCGGAAGCCGTGGCGCAGGGAATGTTCAGCCGGGCGATGCCGGCGGATGGGCTGCTGGATTCGACGCGTGCCATTGTCTCCCGCGTTGCGACTGGGGCGACGGGCGCGTTCAAGGCGAGCAAGGAGCTGGTGGCGCACATCCGCGATCAGCGCCTGGGCCTGTGGGCATCCATGCAGGAGGAAAACGCCGAGCAGGCGAGGCTCTGCAAGAGCGATGATTACGCGGAGGGTTTCAGGGCGTTCCAGGAGAAGCGCGAGCCGCAATTCAAGGGCTGA	MISLTIAAGVAEVVLNAPHKLNSLDEEALADLSQAYDDAAAAASRGEVRALLLRGEGRAFCAGRDIAGVTPESDDAEAYLGGLVQPLLQKMAAFPAPTFAAAQGACLGVGLGLLLATDVVYVAENAKFGSPFAKLGATLDSGGHWYFTERLGMHRTLDLIYTADLISGAEAVAQGMFSRAMPADGLLDSTRAIVSRVATGATGAFKASKELVAHIRDQRLGLWASMQEENAEQARLCKSDDYAEGFRAFQEKREPQFKG	PGPT0006070_2329	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
D1-17_00898	315			hypothetical protein	ATGGCTGCTGAACAGACGTTCACCGCAACGGCCGACAGCAACGGTGCGTTTGCTTTCCCCATGAGCATCAGCGAGCCCGGCGTATACACTCTCACGGCTACTGGCCAGACTTCAGGCGTCGTCGTCAGTACGACCGTTACGGTCGTTGGTGAAGCCGCTGCCGCTACGGACCTCGCCAGCACCGGAGGCCAGCCACTTGCTAACACCGGTGCTGACGCAAGCCTTCTTCTCTGGGGCGCTGCAGGCATCGCTGCTCTTGGGCTTGGAGCTGGAGGCGTCATCATTTCCCGTCGTCGTAACGCGGCATCTGCCTAG	MAAEQTFTATADSNGAFAFPMSISEPGVYTLTATGQTSGVVVSTTVTVVGEAAAATDLASTGGQPLANTGADASLLLWGAAGIAALGLGAGGVIISRRRNAASA				NA	NA	NA	NA	NA
D1-17_00899	1647			hypothetical protein	GTGCTAGCCGGAACCGATGTTGAAGCCCGTGGCACAGTCGAAGAACTTTCAGCGCATACGGCCTTAGCACGCACCGCGGCCCAAGACCCGATCTGGAAACTCGCTGCGATTCTCCCCGGAATCGGGTCTAATTTTGGGGCTATTAGCGAGGTCGCAATTTCAGCCCATGACGTAACCCAAGGTGCGGTGCGGCCGTTGGTCAACGTGTCGCGCTCCCTCGATTGGGATACCTTGAAGCCTGAAAATGGTCGGTTCAATATTGGCCCGCTCGAGTCAGCTTCACCTGCCTTGGTATCTGCAGCTAACAAGTTGGAAGTCACTCATTCCAGATTGAGGGACGTCGACCGCTCTGGGCTCCTACCTCAAGTTGTCGAGCCACTAAACGAAGCGACTCGCGACGTTGAAGAGTTGCTAGGGTCATTGACTCTCGCAGCTAATGCCTCCAAGATCGTGCCGACAATGTTGGGGGCAACGGAAGCCAGAAACTATCTCGTGCTAGTGCAGAACAATGCCGAGATCCGGGCCACCGGAGGCCTTCCTGGAGCCCTTGCTGTGCTTCGGGCAGAAGGCGGCACCATCAAGCTCACTGCCCAAGCTAGCGGAGCGTCAATGGGCAAATTCGATCCGCCTATCGCCGTCGATTCAGATCAAACTGCCATATTTACGAAACGACTAGGCACCTACATAAGTGATGTGAACCTGACGCCCGATTTCCCAACCGCTGCTAAAACTGCCAAAGCTATGTGGGAGAAGCGATACGGAACTAGAATCGACGGTGTTGTCGCCATAGACCCCGTCGTGTTGTCCCACATTCTCAGAGTGTCAGGCCCACTAGATATGACCAGCGAGGGCAACTCCACCAATGCCACGGTGCTTCCCGATCACCTTTCGGCGGAAAATGTTGTCAAAACACTGTTGTCAGATTCGTACGCTCGAATCGACGACAACGAACTCCAAGATGCCTATTACGCAACCGTGTCGCGGCTAGTGTTCGACAGCATTACTTCGGGCAAAGCTTCAGGTGCCGCACTGCTCAACGCTCTGGCGAAGAGCGCAGAAGAAGACCGTCTGCTCATTTGGAGTGATCATCCCGATGAGCAAGACGTCCTTGCGCGCACCCCGACAGGGGGCTCCGTTTCCGCGGCGACTGTGACGGGAGCCACCTTTGGCGTGTATTTCAATGACGGCACGGGCGCCAAGATGGATTTTTACGTCAAGCGGACAGTTCAACTCGTCGAGGAGTGCACAGGCGGGGACTCCAAGCGAATCAAAGTTCGCGTCACTCTCCTAAACACCGCTCCCATGAATGCCGCGGTTACCCTTCCCGAATCGGTGACGGGGGGAGGACGTTTCGGAGTCCCTTCTGGTGCCGTGCAAACCAATGTAGTAGTTTATGGTCCCCCCCAGAGCGCCATTGATAAAACGTTCAAGGACGGCATAAAGGCTTCGTTTGCAGCGCAGACCGACAGAGAACGGCCAGTGGCGACGCTGACTCTGCAGCTGAAACCTGGTCAGAAAAGCACAGTTGAATTCAATTTCGGAGGGATCGTTCATCAGGGGGACCCCGTCTTGCATGTCACGCCTACAGTTCAGCCTGTCGAAGATGTCATACGAGCCCCTAAAGTCGTAGAGTGTGTGGCCCGCTAA	MLAGTDVEARGTVEELSAHTALARTAAQDPIWKLAAILPGIGSNFGAISEVAISAHDVTQGAVRPLVNVSRSLDWDTLKPENGRFNIGPLESASPALVSAANKLEVTHSRLRDVDRSGLLPQVVEPLNEATRDVEELLGSLTLAANASKIVPTMLGATEARNYLVLVQNNAEIRATGGLPGALAVLRAEGGTIKLTAQASGASMGKFDPPIAVDSDQTAIFTKRLGTYISDVNLTPDFPTAAKTAKAMWEKRYGTRIDGVVAIDPVVLSHILRVSGPLDMTSEGNSTNATVLPDHLSAENVVKTLLSDSYARIDDNELQDAYYATVSRLVFDSITSGKASGAALLNALAKSAEEDRLLIWSDHPDEQDVLARTPTGGSVSAATVTGATFGVYFNDGTGAKMDFYVKRTVQLVEECTGGDSKRIKVRVTLLNTAPMNAAVTLPESVTGGGRFGVPSGAVQTNVVVYGPPQSAIDKTFKDGIKASFAAQTDRERPVATLTLQLKPGQKSTVEFNFGGIVHQGDPVLHVTPTVQPVEDVIRAPKVVECVAR				NA	NA	NA	NA	NA
D1-17_00900	1542			Iron-sulfur cluster carrier protein	ATGGGTGCAACTTGGTCACAAAACCACATATCCGAAAGGGGCTCGATTTTGGAGCTGAAGGATTACCTGCGCATTCTGCGGCGAAACTGGATGGTGGTTTTGGCTTGCGCACTCATTGGCACACTAGGGGCCGGCGCTGCTTCCCTCCTTATACGCCCTGTTTATACTTCCGAAACGAAGCTATTCGTCGCCCTCCAAAGCTCGGGCACTGTCTCTGAGTTGAATCAAGGCAATATTTTCACGCAGGCCAGAGTTCAGTCCTATGTAGAAACGGTGAGAACTCCCGTTGTGCTTCAGCCAGTCATAGATGGTCTTGGCCTAAACATGTCGCCGCAGGGACTAGCGGGAAGCATCACAGCGACGTCAGATGCCGAAACAGTGCTCATCAATATTTCTGTAGCAAACGAGTCCCCTGTCCAGGCCGCTGCAATTGCGCAAGCTGTCGCTGCAAGTCTCATCAATGCAGTTGATGAGTTAGAGCGGCCCTCCCGCGCCGACGCTTCCCCTGTAAAATTGTCGATCATCACACCTGCGACAGCTCCTGCTGCGCCTTCCTCCCCTAATGTGCGGCTGAATTTGATTTTGGGCTTATTAGTCGGAATCACCCTAGGCGTGGCATTGGCCATTCTCCGCTCGGTGCTTGACACGCGGGTGCGAGGCGAAGCTGACCTTCGTCGGATAACGGACGCTCCAATACTTGGTGGAATCAGCTTCGACTCGGACGCGACTAAAAAACCTCTCCTCACCCAAGCCGCTCCTCAATCTCCTCGTGCTGAATCATTTCGTCAGTTGAGGACAAATCTTCAGTTCGCCCATGTAAGTCACAAGTCCAAGACGGTCTTGATGACATCGTCCTTACCTGGCGAGGGCAAAAGCACCACGGCAACGAACCTTGCAATAGCTCTTGCCCAAGCTGGCCAGACTGTCGCACTTGTTGATGCTGATCTACGTCGGCCAATGGTGGCTGAGTACCTCGGACTAGAGCGTGGCGCCGGCCTGACAACCGCGCTGCTGGGTCAAGCGAGCGTAGAAGACTTACTGCAACCTTGGGGTTCCGATGAACTATACGTGTTAGCTGCTGGTCAGGTACCGCCCAATCCCAGCGAACTTTTGGGGTCTGACCTAATGAAGGAGCTGATAACAAAACTGGAAGCTACCTTCGATGCAGTTGTAATCGACGCACCTCCACTACTACCCGTAACAGACGCTGCAGTCCTGGCCCAGCAAGTGGGCGGCGTCGTCGTTGTTGTCGGCACTCAGAAAGTGCGCACGACAGATCTCGAAAAGTCCTTGGCCGCTCTTCGCATGGTGCACGCCGATGTCCTCGGCGTAGTTCTGAATCGCCTGCCTTCGAAGGGGCCCGATGCCTACGCATACAGATACTACAGTTACGAAAACGGTCCCGCGGCCTCGGAAGCAGCGGTCTCTCCGCTGCCAGATAGGGCAGAAACAGTCTCCAGCGAAAGTTTCGATGAAATCGTTCACGGCAGACCTGAGTCTCCGGTGAGGCTCCGCAGCGGTAGGGACCGAAGTGGCCGATAG	MGATWSQNHISERGSILELKDYLRILRRNWMVVLACALIGTLGAGAASLLIRPVYTSETKLFVALQSSGTVSELNQGNIFTQARVQSYVETVRTPVVLQPVIDGLGLNMSPQGLAGSITATSDAETVLINISVANESPVQAAAIAQAVAASLINAVDELERPSRADASPVKLSIITPATAPAAPSSPNVRLNLILGLLVGITLGVALAILRSVLDTRVRGEADLRRITDAPILGGISFDSDATKKPLLTQAAPQSPRAESFRQLRTNLQFAHVSHKSKTVLMTSSLPGEGKSTTATNLAIALAQAGQTVALVDADLRRPMVAEYLGLERGAGLTTALLGQASVEDLLQPWGSDELYVLAAGQVPPNPSELLGSDLMKELITKLEATFDAVVIDAPPLLPVTDAAVLAQQVGGVVVVVGTQKVRTTDLEKSLAALRMVHADVLGVVLNRLPSKGPDAYAYRYYSYENGPAASEAAVSPLPDRAETVSSESFDEIVHGRPESPVRLRSGRDRSGR	PGPT0026560_2131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
D1-17_00901	1848	pglF	COG1086	UDP-N-acetyl-alpha-D-glucosamine C6 dehydratase	GTGGGAACAATAAAGGAAGCTGCGCGCAGGCATTCGAACGCCAGCTTCGCTGAGCGATGGGCGCATCGCGTCCTTCAGTATGCTGTAGACGCTGAGGCTTGGATAATCGCCATAACTTTTGCCGTCTTGTTTCGGTTTGATTTTGTTGGGAGCCGCGTCGACTGGCTTTCTGTGGGCATCATTACCCTCGTCGCAATTTTGATGCAGGCTGCCCTTGGCTGGCTCTGGGCCCTATATCGCGGTCGTCACCAGCAGGGTGCCTTTCATGAAGCTCAGACTCTTCTCGCTACTGTTCTAAGTGTCGCCGGCGTGCTATTTCTCGTGAACTTGCTTTTTATCAGTCCCGCTGGCCTGCCACGCAGCACGGCGCTGGTGGCGTTACCGGTTGCCTTTGTTCTGATGGGCGGAAGCCGATATCTCCAGAGGCTCGTTATGGAGCGGAAGGCGCGACCCCGCGAATCCGCCCAGCGAACCCTCGTATACGGGGCTGGGCAGACCGGCGCATACCTTGTTAGACGCATGCTGAGCGATTCAACGTCGCCCTATATACCTGTGGGCTTGATCGATGACGATCCCCACAAGCGTCATTTACGTTTGTCAAACGTGCCTGTTCTCGGCTCGCACGCGGATTTGAAGAGTATTGCGGAGCAAACACAAGCCGTAGCGCTGGTACTCTGCATCGCCCGAGCGGATGCCGACTTCATCCGTTACGTTTCAGACAAGGCTGATGAAGCTGGCCTGCGCATGATGGTACTTCCGCTGCTGTCAGAGATTCTGCAGGGTGGCATGAAGCTCGGAGACCTGAGGGATGTTGCCATTGAAGACATCATTGGCCGTCATCCTGTTAACACCGAAGTAGAGTCAATTGCCGGCTACATAGCTGGAAAGCGTGTACTGGTCACCGGAGCAGGGGGATCTATTGGATCTGAGTTGTGCCGACAACTCTCCACTTTCTCGCCAAAAGAATTGATCATGCTAGATCGGGACGAATCTGGTCTTCATGGAGTCCAGATGACGGTATCGGGGCATGGTCTTTTGGATAGCAACGACGTTGTATTGGCGGACATTCGGGACTCAGCTTCGATCCTGGAGATCTTCGAGCGCCGAAGACCGGAAGTCGTCTTCCACGCCGCGGCGCTGAAACACCTCCCCATGCTGGAGCAATACCCCGAGGAAGCATGGAAGACGAACGTCATCGGAACTCTAAACGTGCTCATGGCTGCGCGAAGCGTCGAAGCGGAGACCTTCGTCAACATCTCTACCGACAAGGCGGCCAATCCCACGAGCGTGCTTGGCCACTCCAAAAGGGTTGCAGAAAGACTGACCGCTTGGTGCGCGGCAGAGACGGGCGAAGCGTATCTGTCGGTTCGCTTCGGAAACGTGATCGGAAGCCGAGGATCAATGCTTCCGACGTTCATAGCCCAAATCGAAGGCGGGGGTCCTGTCACCGTTACTGATCCGGACGTGACCAGGTTCTTCATGACCATTCCCGAAGCTTGCCAGTTGGTCATACAGGCGGGAGCGATTGGGCGGCCGGGGGAAGCGCTGATTTTAGACATGGGGCATCCAGTCAAAATACTCGATGTCGCGAAACGAATGATCGCCATGTCCGGTCGCGATGTGGAAATCGTGTTTACAGGACTACGTGAAGGGGAAAAGCTGCACGAAGAGCTGTTGGGCGTCTCGGAGACCGATGAGCGCCCGTTTCATGCGCAGGTTACTCATACGTCCGTGCCCCCGCTAAATGCTTCAGACCTCGATCACAAACGATGGCAGGAAGGCATTGTCCGTGTAATCGACGCTCCACAGCCTTATCTTGCCTCGTCTCTAGGAACCCAAAATGACTAA	MGTIKEAARRHSNASFAERWAHRVLQYAVDAEAWIIAITFAVLFRFDFVGSRVDWLSVGIITLVAILMQAALGWLWALYRGRHQQGAFHEAQTLLATVLSVAGVLFLVNLLFISPAGLPRSTALVALPVAFVLMGGSRYLQRLVMERKARPRESAQRTLVYGAGQTGAYLVRRMLSDSTSPYIPVGLIDDDPHKRHLRLSNVPVLGSHADLKSIAEQTQAVALVLCIARADADFIRYVSDKADEAGLRMMVLPLLSEILQGGMKLGDLRDVAIEDIIGRHPVNTEVESIAGYIAGKRVLVTGAGGSIGSELCRQLSTFSPKELIMLDRDESGLHGVQMTVSGHGLLDSNDVVLADIRDSASILEIFERRRPEVVFHAAALKHLPMLEQYPEEAWKTNVIGTLNVLMAARSVEAETFVNISTDKAANPTSVLGHSKRVAERLTAWCAAETGEAYLSVRFGNVIGSRGSMLPTFIAQIEGGGPVTVTDPDVTRFFMTIPEACQLVIQAGAIGRPGEALILDMGHPVKILDVAKRMIAMSGRDVEIVFTGLREGEKLHEELLGVSETDERPFHAQVTHTSVPPLNASDLDHKRWQEGIVRVIDAPQPYLASSLGTQND	PGPT0018940_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_QuiNAc_MODIFICATION,PGPT0018940-pglF-K15912	NA	NA
D1-17_00902	1134	epsN_1	COG0399	Putative pyridoxal phosphate-dependent aminotransferase EpsN	ATGACTAATCGCATCCATATGTCTTCCCCCGACGTTTCAGAGGTCGAGGAAGAATACGTTCTCCGCGCCCTGAGATCGGGCTGGATCGCTCCACTTGGACCCGATGTTGATCAGTTCGAAAATGAAATGGCAGAGCGAATCGGGCGTCAACATGCAGTGGCACTGAGCTCCGGAACCGCGGCGCTCCATCTAGCTCTTTTGGCCCTAGGTGTCGGGCCTGGTGATGTCGTGCTCACTTCGACCATGACATTTGCTGCAACTGCCAACGCAATCAAATACACAGGCGCTGAACCTTATTTCGTCGACTGCCTTCCGGAAACCGGCAACATGGATCCAGCTCTGCTGAACGAAGCTCTGAACGCACTGCGTTCGTCGGGGGAGAGAGTAGGGGCTATCGTTCCCGTCGACCTGCTGGGCAAATGTGTGGACTACAGCACCATAGAGAACTTGGCCGAGGAGTTTGGCGTTCCGATTGTGGCTGACGCCGCAGAATCGTTGGGTGCTTCACACGCTGGCCGGGCGGCGGGCGCTTGGGGGGAGTCCGCTGTTTTTTCTTTCAATGGAAACAAGATTATGACCACCTCGGGGGGCGGAATGCTCCTAACCGACTGCAGCAATACCGCCGCCCAGGTTCGTTACTTGGCGACGCAAGCGAGACAACCTGTCGTTCATTATGAGCACACTGATATCGGGTTCAATTACCGGTTGAGCAATCTATTGGCGGCGCTAGGTCGAGCTCAGCTAACCAGGTTGGATGGTATGATCGCCCGACGGGCGGAGCATCGGGAATATTACGCCGAATTGTTTTCCGACGTGGAGGGGGTCACGATCTTCGGCGGGCTTGATCAGGAATTCGACAACTACTGGCTTACTTCGGTCTTGGTGGATCCTGCAGTCGCCGGCTTTGATTCAATGACGCTGAGTGCGGCGCTGGCGATGGCTGACATCGAGAGCCGTCCTTTATGGAAGCCAATGCACCTGCAGCCGGTTTTCATGTCCTCCCGCTCGCTAGTGAATGGGGCGTCACAAAGACTTTTTGAAACTGGACTCACACTACCAAGCGGATCGGCTCTGTCTGCTGAACAGATCCATGTAGTGGGCAGTGCGATACAGAAGTTTCTTGGGGGCCAGTAG	MTNRIHMSSPDVSEVEEEYVLRALRSGWIAPLGPDVDQFENEMAERIGRQHAVALSSGTAALHLALLALGVGPGDVVLTSTMTFAATANAIKYTGAEPYFVDCLPETGNMDPALLNEALNALRSSGERVGAIVPVDLLGKCVDYSTIENLAEEFGVPIVADAAESLGASHAGRAAGAWGESAVFSFNGNKIMTTSGGGMLLTDCSNTAAQVRYLATQARQPVVHYEHTDIGFNYRLSNLLAALGRAQLTRLDGMIARRAEHREYYAELFSDVEGVTIFGGLDQEFDNYWLTSVLVDPAVAGFDSMTLSAALAMADIESRPLWKPMHLQPVFMSSRSLVNGASQRLFETGLTLPSGSALSAEQIHVVGSAIQKFLGGQ	PGPT0026645_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026645-epsN-K19430	NA	NA
D1-17_00903	648	pglC	COG2148	Undecaprenyl phosphate N,N'-diacetylbacillosamine 1-phosphate transferase	GTGAATCGCATCGTACCAGCACAGCGCGGACTTGCTTTAAAGAGAGTGATTGACGCGACGGTAGCGGGCTTGGGCTTGATGCTCACTGCCCCGCTGCAGTTGGTCGTCGGATTGATGGTCTGGAAAAAACTCGGCCGGCCCGTTTTTTTCCGTCAGCCACGGCCTGGACGTGACGGAGAAGTTTTCGAGTTGATTAAATTCCGATCAATGCTGCCTGTTAGCGAAAATCAGGGTTTGGATGCCGATGCCGAGCGACTGACTCGTTTTGGAAAAACATTGAGGTCGACCAGCCTAGACGAATTGCCGACTCTCGTGAATGTACTTCGTGGCGACATGAGCATTGTCGGACCTAGGCCATTGTTGGTGGAATACCTTGATAGGTACAGTCCAGAACAGAAAATGCGTCACGCGGTGCGTCCTGGTATCACAGGTCTTGCGCAAGTGCGGGGTCGAAATGCGCTCACTTGGGATGAGAAGTTTGCACTGGATATTGAATACGTGCAGCGGCGAAGTTTGGCTTTAGATATACAAATCATTCTCGAGACGGCAGTGTCAGTGCTTTTCCGCAGGGGTATTACTGCAGCCGGTAGCGCGACAATGCCCGAGTTCCGGGGCGAATGTGCTATGGATGCGGAGGACACACCATGA	MNRIVPAQRGLALKRVIDATVAGLGLMLTAPLQLVVGLMVWKKLGRPVFFRQPRPGRDGEVFELIKFRSMLPVSENQGLDADAERLTRFGKTLRSTSLDELPTLVNVLRGDMSIVGPRPLLVEYLDRYSPEQKMRHAVRPGITGLAQVRGRNALTWDEKFALDIEYVQRRSLALDIQIILETAVSVLFRRGITAAGSATMPEFRGECAMDAEDTP	PGPT0024571_146	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_PHOSPHOGLYCOSYLTRANSPFERASE_ACTIVITY,PGPT0024571-pglC-K15915	NA	NA
D1-17_00904	1245			hypothetical protein	ATGAATTCGCCGCAGCTAAGCCGTGGGCAAGTAGGGATCTTGTCCCAGTGGTACGCTCCCGAGCCAGTCTTAATTCCTAAGTCTGTCTCCGATTCATTGGTGGCCGATGGTTATGCGGTCAGAGTACTAACCGGCTACCCCAATTATCCGGGAGGAGAGCTCTACGCCGACTACAGTGCCAGCGCAGCAGAAGCCACCGACATAGACGGTGCCCGTGTATTGCGGATCCCAAGTTTTATGAGTCACGACCAGCGTGCACCCAGACGGATCAGGTCATTCCTAAGTTTCGCTCGGAATTCCGTACGTCACAGGCGCTTTCTTAGGGACTGCGATGTGTTGTACGTGTATGGCACACCGATGACAGCGGCGGCAGCTGCCTTTATTCTTCGGGTTGGAAACAAAGTCCCATACGTGATTCATCTTCAAGACCTCTGGCCTGAGTCGGTAGTTGACTCCGGCATGATCCGATCGCGTTCGTTGAGGTGTATTTTGCAATTTGCAATCACGGCCTCTCTACTGCCCCTGTATCGTGCCGCAGAGCACATCGTGGTTATCTCCCCTGGGATGAAATCCACCCTTATTCAACGCGGCGTGGACGCAGATAAGATCACTGTTCTCCTGAATTGGGATGCCAGCGAACTCGACTCGGAACCACAAGACCCAGTCTCTGATAAGGCGGGACCAGGTATTCATTGTGTCTATGCCGGGAACATCGGACAGATGCAGGATGTCAACACTATAATCCGCGCCGCTGCAGAGGTGCAGCATGAGCTGGATCTTGACGTCTCCATTTATGGTTCCGGCGTGGCGGAAGCAGAGGCACGGGCACTGGCTGACGAACTTGATGCACGAAATGTTCATTTCATGGGGCGAGTATCTCTCGACGAGATGAAATCCGTTTACAGACGCTCCGACTATCAGTTAGTCACCCTGAAGGACCGCCGTGTGTTCGGCATGACTATTCCCTCAAAGTTTCAAGCCTCAATGGCCAATGGAGTGCCGGTCATAACAACGGTTCCCGGTGATTTGGCTAAACTTTGCTCCGATAAGGATGTGGGCTTAGTGGCTGACCCTGAGGATCCGGATTCATTGGCGGATGCATTTAGGCAGGCTGCGAGCCTGGGTCGTGCTGGAAGGGAAAACATGGCAAACAAGGCAAGAAGTTATTATAAAGAAGCGCTGTCTGCAGACAAGACCCTTTCTGCGATTAAGGCGATTCTGTTTCAAGCAGCGAAAGCGGAGTAG	MNSPQLSRGQVGILSQWYAPEPVLIPKSVSDSLVADGYAVRVLTGYPNYPGGELYADYSASAAEATDIDGARVLRIPSFMSHDQRAPRRIRSFLSFARNSVRHRRFLRDCDVLYVYGTPMTAAAAAFILRVGNKVPYVIHLQDLWPESVVDSGMIRSRSLRCILQFAITASLLPLYRAAEHIVVISPGMKSTLIQRGVDADKITVLLNWDASELDSEPQDPVSDKAGPGIHCVYAGNIGQMQDVNTIIRAAAEVQHELDLDVSIYGSGVAEAEARALADELDARNVHFMGRVSLDEMKSVYRRSDYQLVTLKDRRVFGMTIPSKFQASMANGVPVITTVPGDLAKLCSDKDVGLVADPEDPDSLADAFRQAASLGRAGRENMANKARSYYKEALSADKTLSAIKAILFQAAKAE	PGPT0023340_401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023340-wcaI-K03208	NA	NA
D1-17_00905	1062	capD	COG1086	UDP-glucose 4-epimerase	ATGTCAATTAAGAAGAATGAATATGCGGGCAAGAAGCTGCTCATTACGGGTGGAACCGGATCCTTCGGGCATACAGTGGCAGCTAAGCTCTTGGATAGTGATGTTGAGCAGATCAGAATCTTCAGCCGCGATGAAGCTAAACAGGATGCAATGCGTCACGAAATGGGAGACTCTCGACTCAAGTTCTACGTCGGCGATGTCCGTGATTACGACAGCGTGGCCAAGGCGAGTCGAGACGTCGACTTCGTGTTCCACGCCGCGGCTCTGAAGCAGGTACCTTCGTGCGAGTTCTTTCCCATGGAGGCTGTACGAACTAACGTCGTGGGTAGTGAAAACGTGGTTCGTGCGGCGGATGCAAACGGCGTCAAATCAGTGGTCTGTCTCAGTACGGACAAGGCAGTGTATCCGGTGAATGCGATGGGTATGAGCAAGGCGCTGATGGAAAAAGTAGCGCAGTCGCATGGCCTCAACAACCCAGAGACTCGGACGGTTGTGTCATGTGTTCGCTACGGAAACGTAATGTACTCACGTGGCTCAGTGATCCCACTGTTTATCCAGCAGATTAAGCGTGGTAAGCGCATAACCGTCACTGACCCGGCTATGTCACGATTCCTTATGTCTCTTGAAGATTCGGTAGATCTTGTCGACTTCGCCTTCCATAATGCAACGCAAGGCGACCTATTCGTTCGAAAGGCTCCAGCGTCTACGATTGGTGACTTGGCTGAAGCAGTGTGCAATTTATTCGAAGTCTCGCCAGACATCGACATAATAGGCACACGGCATGCAGAAAAGGCATCGGAAGCCCTTGCAAGCCGTGAGGAGCTCACGCGTGCCGAGGACATGAATGATTACTTTAGGATCAAGGCTGACAACAGGGATCTGAACTATAAGCTGTATTTCACGGAAGGAATTCGTGAACAGTCGTCCTACGTAGATTATGATTCGCATACAACAGCCCAGCTGACGGTCTCCGAGATAGAAAGCTTACTGCTCACGTTGCCGGAAGTTCGCCAGGAAATGTCTGCGTCCGGCCTCTCCGCCAGATTCGAGCACGCGGTATGA	MSIKKNEYAGKKLLITGGTGSFGHTVAAKLLDSDVEQIRIFSRDEAKQDAMRHEMGDSRLKFYVGDVRDYDSVAKASRDVDFVFHAAALKQVPSCEFFPMEAVRTNVVGSENVVRAADANGVKSVVCLSTDKAVYPVNAMGMSKALMEKVAQSHGLNNPETRTVVSCVRYGNVMYSRGSVIPLFIQQIKRGKRITVTDPAMSRFLMSLEDSVDLVDFAFHNATQGDLFVRKAPASTIGDLAEAVCNLFEVSPDIDIIGTRHAEKASEALASREELTRAEDMNDYFRIKADNRDLNYKLYFTEGIREQSSYVDYDSHTTAQLTVSEIESLLLTLPEVRQEMSASGLSARFEHAV	PGPT0018935_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0018935-pseB|wbjB-K15894	NA	NA
D1-17_00906	1107	wbjC		UDP-2-acetamido-2,6-beta-L-arabino-hexul-4-ose reductase	ATGACGCTTTCAGCACAACGTGTTGCCTTGAGTGGCGCCCATGGCTTTCTAGGATTTCACACTCGGGCAGCCCTCCAACGGAGAGGCTACTCAGCCGACATCGTTCCTGTGGGAACGGCTTTCGATGAGGCTGCAGCCTTGCGAGCAATAGATGGTGCAGATAGGTTAATCCACCTTGCAGGTGTCAACCGCGGTGAAGATGTGGATATTGCCGAAGGAAATCTGCGCTTTGCTAAGCAACTGTCCCGGGTTCTTGCTGCCTGCAAGAACCCGCCTCCCCTGATCGTATATGCTAATTCGATACAGGCTGGCAATGGGTCTGTATATGGGCAAGCAAAACAAGCAGCGGCCGATGCGCTTGAAAGGGCAGCCCTTGATGCAGGAGTCGAGTTCTTAGACGTTCTGCTCCCCAACCTTTTCGGTGAGCATGGAAGGCCATTTTACAATTCTGTGACGGCAACTTTCTGCCATTTACTGGCAAGAGGCGAAAGTCCTCAGATTCGGCAGGATAGCAGGCTGACATTGCTACATGCGCAGGATGCAGCGGAATTCATGATTGGAGTCAAGCCGATTGTTCAGATGGAAGAATGTGTCTCTGTACTTTCTGTCTCCGATCTACTAAGGCAACTCACTGACATCTCGCAGACTTACCGAAGTAGCTACATTCCACCTCTAGCTTCTGCTTTCGATCGAGATTTGTTCAACACTTATCGTTCTTTTCTCCCCCCTTCCGAAAGGCGCATGCAGCTCAGTAAGCATGCAGATGCTCGTGGTGCCTTCTTTGAAGTCGTAAAATCGGAAGGCTCGGGCAGCCAAACCTCGTTTTCAACCACAGTGCCAGGCGTTATTCGCGGGCAACATTTTCACACGCGCAAAGTGGAACGTTTTACTGTGTTGGCGGGGAAGGCGAGAATATCGATGAGGAGGCTATTTAACGATGAGGTTCTTTCATTCGACGTTGACGGATCTAACCCCGTCGCAATAGACATGCCAACTCTCTGGGCACACAATATCGAAAACGTCGGCTCGGACTTGTTGTACACGTCATTTTGGACCAATGAGATCTTTGATCCAGCAGCCCCTGACACTTTCCCGGAGAACGTATGA	MTLSAQRVALSGAHGFLGFHTRAALQRRGYSADIVPVGTAFDEAAALRAIDGADRLIHLAGVNRGEDVDIAEGNLRFAKQLSRVLAACKNPPPLIVYANSIQAGNGSVYGQAKQAAADALERAALDAGVEFLDVLLPNLFGEHGRPFYNSVTATFCHLLARGESPQIRQDSRLTLLHAQDAAEFMIGVKPIVQMEECVSVLSVSDLLRQLTDISQTYRSSYIPPLASAFDRDLFNTYRSFLPPSERRMQLSKHADARGAFFEVVKSEGSGSQTSFSTTVPGVIRGQHFHTRKVERFTVLAGKARISMRRLFNDEVLSFDVDGSNPVAIDMPTLWAHNIENVGSDLLYTSFWTNEIFDPAAPDTFPENV	PGPT0022915_353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-N_ACETYL-BETA_L_PNEUMOSAMINE|N-ACETYL-BETA_L_FUCOSAMINE|L-FucNAm_MODIFICATION,PGPT0022915-wbjC-K19068	NA	NA
D1-17_00907	1131	wbpI	COG0381	UDP-2,3-diacetamido-2,3-dideoxy-D-glucuronate 2-epimerase	ATGAAAGATTCAAATAGGCTAAAGGTTCTGACTGTTGTCGGGACCCGCCCAGAAATTATCCGTCTTGCGGCCACCATGAGGCGTTTAGATCGGCATACCGACCATATTGTGGTTCATACCGGACAAAATTATGACTATGAGCTCAACGAAGTCTTTTTTGAGGATCTGGGGCTTCGGCGACCTGACTATTTCTTAAATGCAGATACGGCGTCTCTGGGGTCGGTTCTGGGCTCAATCCTCATTTCAATGGAGGAAGTCCTGCGCAAAGAACAACCAGACGCGATGGTTGTTTTGGGGGACACCAACAGTTGCATCTCGGCTGTCATGGCGCGGCGTATGAAAGTCCCCGTCTACCACATGGAGGCTGGTAATCGTTGTTTCGACGAAAATGTTCCTGAGGAAGTAAACAGACGGCTGGTAGACCATGTGGCCGACTACAATCTCGTTTACACTGAGCACGCCAGGCGTAACTTGCTGAGGGAGGGGATTCATCCCTCGCGAATTCTCTTGACAGGATCCCCGATGCGCGAGGTGCTGGAAGCCAATGCCGGCGCTATTGAAGCCAGCGACATCCTAGTTCGGCAGGAATTGAAGCGTGGGGAATACTTCCTGGTTAGTCTTCATCGAGAAGAAAATGTCGACAATCCCGCGCGCCTTGAAAGCGTGCTTCGCGCACTCACTGCTTTGGCGGAAAAGTATGTGTTGCCCGTTTTGGTATCTACTCACCCCCGCACGCGTATACGTCTTGAAAGTCAGCCCGAAGACGTCAAGAAGGGCCTTCTGTTCCATCATCCTTTTGGCTTCAACGACTACATAGCACTTCAGAAATCGGCAAAGCTCGTACTCTCGGACAGCGGCACGATCAGCGAGGAATCGGCGATTCTAGGTTTCCCCGCGGTAACCTTGCGTGATTCTATCGAGCGACCGGAGTCTCTGGACACCGGCCTGATTATTACTACGGGTGTTGAGGCTCAAGCCATCCTGGATGCGGTTGAAATGATAATGGCTGAATCCATGGACGAGATGCACCTTGTGCCGGATGACTATCTCGTACGAAATACTTCATGGCGAACCGTTAATTTCATTCGTTCCACTGTTCATAGCCATCAAGCGAGGGCAGGTTTGAGGTGA	MKDSNRLKVLTVVGTRPEIIRLAATMRRLDRHTDHIVVHTGQNYDYELNEVFFEDLGLRRPDYFLNADTASLGSVLGSILISMEEVLRKEQPDAMVVLGDTNSCISAVMARRMKVPVYHMEAGNRCFDENVPEEVNRRLVDHVADYNLVYTEHARRNLLREGIHPSRILLTGSPMREVLEANAGAIEASDILVRQELKRGEYFLVSLHREENVDNPARLESVLRALTALAEKYVLPVLVSTHPRTRIRLESQPEDVKKGLLFHHPFGFNDYIALQKSAKLVLSDSGTISEESAILGFPAVTLRDSIERPESLDTGLIITTGVEAQAILDAVEMIMAESMDEMHLVPDDYLVRNTSWRTVNFIRSTVHSHQARAGLR	PGPT0022920_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-N_ACETYL-BETA_L_FUCOSAMINE|L-FucNAm_MODIFICATION,PGPT0022920-wbjD-K24258	NA	NA
D1-17_00908	192			hypothetical protein	ATGACTGCCGGTTATGAACAGCACATCTTGGGATATATCGCAATTGGCACCGATAACAACTGCGGCCGCTCTCGTCGCAACAAACTCTGTACGTCGGCCCACCCAGGTTCCAGCACCAATGCTGACATTGGAATGTTGTATTACAACACCGCCGTTGATCCGCACATGTGTAGCTATATCGACACCGCATAA	MTAGYEQHILGYIAIGTDNNCGRSRRNKLCTSAHPGSSTNADIGMLYYNTAVDPHMCSYIDTA				NA	NA	NA	NA	NA
D1-17_00909	1200			hypothetical protein	ATGGTGTTAGGCACATACTTCAGTCTCGTAGGTGCTGAATCAACTATTCTGCCGTTTCAAAGGTATCCAGGATCGCGTCGGGACAAAGCGAACTATGAGTTTGCTTTCCGATGGCTTGTGGTGGTGTTAGTTCTGCTCGCTGCTTTGGTGTCCATCGCTGGTATTCCTTTGGGCGCTTTCGGCCTCGCGTTTGGCATAGCCGGATGGGGGCTAGGCCTTGCTGCTAATCGGTTCATTGCCACCGTATGGCTGATGTGGGAGTCTCCTTGGTCGTACGCGGGAAGCCTCGTCTTAGGAACCGGACTTCGGACTATTGCAGTTACAGCACTTGTAGTCGCGGGGGTGGATGGTGTCTTTGCTGTCGGTGCGGCTGGGCTAGCCTCTGCTGTTGGTGCCCTTCTCATCGCGCCCCGCGTGCGGTTTGGCGTCGCTAAAATTGGTAAGCCCTGGGCCTTCAAAATGGGTGTTTCGTTGGCCCTCGGATCGATAGCGTTCACAATGATGTCGAATTTCGGTTTGTTGGTTCTTCCCGTTCTCGTAGATCAGCGTCAAGTGGGTCAGTATGCGGCGATGGCTCAACTAGTGACTTTGACAGTCGGGGCGCTGTTGGGATTGGGGAGCACTATCCTCTACCCCCGTCTACAGAAATTGTGGAACTCTGGCCGTGAGGAGCTGACCAAGCGGCTGGTCGGTCTCCTTTGTATATTCGCAATCGCCTTGGGTCTAGTCGGCCTCATACTGATCAGACTGGTTGGAAGTGAACCCCTGAACTTCTTGTTGGGGGATGACTACGTTGTTCTGCCAGTTCTTCTGATCCTCGTTGCGGGCACAGTCGCCAGTCAGCTAGGCCTGTTTGTGTCTTGGGTACATACTTTGATGGTGCAGTCGCACTTAATACGTAATTCCGCGGTGTTGGCAACGCTCTTCGGATGCTTAGTTACTCTACTGCTTGCTCACCTGTTCGGGATGAGCGGCGCCGCGGTTGGGACGCTTTTCAGCTTTACTCTGTACGGAATGTTGATGCTTCGCTCTGCGGGCCTTGATTTATCTGTCCTGGTCATGCTCTTATTTTTCATCTTGTCCGTTATTGTTTCTGACCTGGTTTCTGCTTTAGTTCAGGTTACTGTTATGAGCCTTGTGTTACTGGGGGCGATTGGGCTATGCATAAGGGTAATGAGAAGTATTCGGTTGCTGTCCTGA	MVLGTYFSLVGAESTILPFQRYPGSRRDKANYEFAFRWLVVVLVLLAALVSIAGIPLGAFGLAFGIAGWGLGLAANRFIATVWLMWESPWSYAGSLVLGTGLRTIAVTALVVAGVDGVFAVGAAGLASAVGALLIAPRVRFGVAKIGKPWAFKMGVSLALGSIAFTMMSNFGLLVLPVLVDQRQVGQYAAMAQLVTLTVGALLGLGSTILYPRLQKLWNSGREELTKRLVGLLCIFAIALGLVGLILIRLVGSEPLNFLLGDDYVVLPVLLILVAGTVASQLGLFVSWVHTLMVQSHLIRNSAVLATLFGCLVTLLLAHLFGMSGAAVGTLFSFTLYGMLMLRSAGLDLSVLVMLLFFILSVIVSDLVSALVQVTVMSLVLLGAIGLCIRVMRSIRLLS				NA	NA	NA	NA	NA
D1-17_00910	1131	mshA_2		D-inositol-3-phosphate glycosyltransferase	ATGAACATTGTATTTTGGCAAAACTCGTTTTCCATACATCAGGCACCCCTTATCCGCGCATTAGCAGGGGACGAAAGAAACAACATAGTTGTTGTTACTGAGACGGACGTAAGTAGCCGACGGTCCAACATGGGGTGGGGTGTCGGTGACTATGGGAATGCGGAAGTCGTTCTTGGGCCAAGTGATACTGAGCGCTTCGAACTTCTAGAGCAATACAGGACGAGTGCCTTCCATGTATTTTCAGGGTTTGGTGTTTACAAGGCGACTACCCGGACAATGAACAGGCTCATGAGTGGCGATCATGGACGGATTGCAGTGGTCAGCGAATCGTGGGAAGCTGGCGGTTTCCGAGGAAAGGCTAGAGCGCTACGGTATCGGACTTCTGCGATTCGCTTCTCTAAGAACACAGACTTTTTTCTGTGCATTGGTGCCCACGCCGCCCGCCAGTTTTCCCAGCTTGGAGTGCCAGAACATAAGATATACCCTTTTGCCTACTTCGTTGACGGCGTGGAAAGTCAAACCTACGAGCCCAGACGCACCCAAGGCGTGGAGCTTTTATACGTTGGGCAGTTGGCGCCATGGAAGGATCCGGCAATTCTCCTAGGTGCTCTAGAACGCGTTACAGCTGGCAACTGGCGACTCAAAATTGTTGGAGAAGGTGAGCTCTTGTCCAGCCTGCAGCGGTCGGCGGCGTCTGCAGCGCTGGCCGACCGTGTGACGTTTCTTCCCTACCAGTCCAACGACATTGTGAGGACCATGATGCGGGATAGCGATGCCCTGGTTCTCCCTAGCCGGTATGATGGCTGGGGAGCGGTTGCGAACGAGGCACTGCAGGCTGGGACTAGAGTTGTTATTTCGAGCGCCGCCGGTGCGAGCCAAATGGTGAGTTCGAGAATGCAAGGATGGAAGTTCCAAGCCGGCGATGTTGTTGGTCTCGCAAAAATTCTGGATGAGGTTATAAACTCGGGGACTCAAGCCGCATCAGAACGGAGTCAATTGGTTGCATGGGCAGACCATTCGATTTCACCTACGGCCGGTGCCCGCTATTTGGAACAAATATTGTCAGATTCTCAATCCAGCGGAGGCCTTATTCGTGCGCCATGGATGGCACCGGATGATCCCACTACCTAG	MNIVFWQNSFSIHQAPLIRALAGDERNNIVVVTETDVSSRRSNMGWGVGDYGNAEVVLGPSDTERFELLEQYRTSAFHVFSGFGVYKATTRTMNRLMSGDHGRIAVVSESWEAGGFRGKARALRYRTSAIRFSKNTDFFLCIGAHAARQFSQLGVPEHKIYPFAYFVDGVESQTYEPRRTQGVELLYVGQLAPWKDPAILLGALERVTAGNWRLKIVGEGELLSSLQRSAASAALADRVTFLPYQSNDIVRTMMRDSDALVLPSRYDGWGAVANEALQAGTRVVISSAAGASQMVSSRMQGWKFQAGDVVGLAKILDEVINSGTQAASERSQLVAWADHSISPTAGARYLEQILSDSQSSGGLIRAPWMAPDDPTT				NA	NA	NA	NA	NA
D1-17_00911	1338			hypothetical protein	GTGCGCCATGGATGGCACCGGATGATCCCACTACCTAGCTGCTTTGGCGCTCCTGGAAGGCTGATGGGGATTCTGGTCGCGGTGGTTCTAGCTCTCTGCCTAGGCGGGTTATCAGCTCTGTTTCCATACCTCGCCCTGGTAATGATAGCGGCACTCTGTCTAGGGGCACTTTGGATGGTACGCATGCCGCCGAAGTACTGGATTTTGTTGGGCGTTCTGGCCATATTTGCCTCGTCCTCTTCTTTAGGCGAGAACGGGATCATTTCTGTTCTTGCGCGCATTTCAGGGCTTGGAGCTATCGTTGTTGGTGGTCTGATTGCAAAGGCGCAAAAAGATTTAGGGCAAAAGCGACTCAGCGCTGGGCGGTTCGGAAGTGTGTTGCTGCCACTGCTGTTATTTTTGATTTTCTCTACAATTCCTCATGGCCAGTTCTTCCAATTTGCCGGGTATGTCCTAGGCCTAGTCTTGATGTGGGTTGCACTGTGGGCCTCTACCTACATAGACGTAGATCAGATTAGATACGGATTAGAGCGCGGATTGGCTATCATGGTTGTGGGGTCGCTGATTTCAGGAATTACATTTCCATCCATTGCCGTCGAAGGAGAACGCCTTCGAGGGCTTGCTAACAACGCTAACCTCCTAGGTTTCTACTGCTTTGCCCTGGCCGCCATGGTGTTGCTTGACCGGCGCCGAGGAGTCCGATCTCTTGTTTTGCTGGCGGCATCCATAGCTGCAATCTTTGCGGCGGCCAGTCGTGGAAGCATGCTAGGTGTCGCATTGGTATTCGGTATGAGCGCACTTCTATCTGCTGGTATTTCACGTAAGATCGCTATTGCATGCATTGTCCTCAGTGCGCCCGTTATGGGAATATGGTCCCGTGAGATTGCCCTTATGGATGTAGCGCTTTTTCGAGACAACAACTCTAGAGATACTTCTTTAGCTAATGCTCTTTCTCTGTTCGCTGCCAACCCGTATACGGGAGTAGGAATGGATGACACCCTTATCATCGCTAGCAGTCCGTTACGCGCTCTGGCGTACGCGGGGATCTGGGGCGGTCTTTCGATCCTATTCATCTACATTGGCCTGCTACGACTTTCCCTTCGTGAGAACACGGCCGCTGGCTTATTCTGCATCGCTGCTATTGTACATAGTTTCCTTGAAGGTTGGCTCCTATCGCCGATAAGTCCCTTGTTTACAGTGTTTATGTTCGGTTTGCTTGTCATAATGCGCAGTAACCCGTCGTCTTCGAGAGCAAACCCTTCTGAAGTAGTCCCAACCATGGAAGATTCAAAGCGGATTTGGAGCAGGGGAATGAGTACTAGAAACTTTACGCATTGA	MRHGWHRMIPLPSCFGAPGRLMGILVAVVLALCLGGLSALFPYLALVMIAALCLGALWMVRMPPKYWILLGVLAIFASSSSLGENGIISVLARISGLGAIVVGGLIAKAQKDLGQKRLSAGRFGSVLLPLLLFLIFSTIPHGQFFQFAGYVLGLVLMWVALWASTYIDVDQIRYGLERGLAIMVVGSLISGITFPSIAVEGERLRGLANNANLLGFYCFALAAMVLLDRRRGVRSLVLLAASIAAIFAAASRGSMLGVALVFGMSALLSAGISRKIAIACIVLSAPVMGIWSREIALMDVALFRDNNSRDTSLANALSLFAANPYTGVGMDDTLIIASSPLRALAYAGIWGGLSILFIYIGLLRLSLRENTAAGLFCIAAIVHSFLEGWLLSPISPLFTVFMFGLLVIMRSNPSSSRANPSEVVPTMEDSKRIWSRGMSTRNFTH				NA	NA	NA	NA	NA
D1-17_00912	972			ISL3 family transposase ISAar15	GTGTCCCGGCGGAAGGAGCGGCGCTTCCAGCGGCTCCGCGATGTTCCTGTTGCGGCGCCCGTGAATGTGCTTTGGTCCAAGTACCGCTGGTACTGCGAAGAACCGGCCTGCGACAGGTTGTCGTTCTTCGAATTGACGCCACAGGCCCCGCGCCGCGCCCGCTCTACCAGCCGGCTCCGGGACCGGCTCGTGGATGCGGTCATCCGATCGGGCAGGGCCGTATCGGAAACGGCTGCCGGCTTCGCGGTGTCCTGGTGGAAGGTGCGGGCGGCGCTGAATGAAGCGTGCCTGCTGCGGCTGCCCGACGTGGACAAGCTCAGTCCCAGGATGCTGGGCATCGACGAGCACCGTTTCCGCTCGATGCGCTATTTTCAGAACCCGGAATCAAAGACCTGGACACGGTTCGAGCCCTGGATGACGACGATCGTGGATCTGGACATCGGCCAAGTTCTGGGCATGGTCGACGGCCATGACCACCCGGGTGTCGGGGACTGGCTGTTCGCCCGGCCTTTTCACTGGCGAATGGCAGTGCAGGTCGTCGCGATCGACCCGTCCGCGGCGTTCCGCAAGGCGTTGCGGATGTGGCTTCCCCGCACCGCTGTCGCGGTGGATCATTTCCACCTGACCTCGCTGGCGAACCAGGCCGTGACCGAGAACCGGCAGAACCTGTCCCAGCAGGTCAAGGGCCGCCGCGGACGAGCCGTTGACAAGGCCTGGGCCCACCGGATGCTCCTCCTGCGCGGCGGGGACGCACTCAATGGAAGGGCAGCACGCAGGCTCGAAGAAGTGTTCGCCACCGACAATCCGACCGGAACCCTCCGGGCCGTCTGGAAGGTCAAGGAACAGCTCAGGGCACTGCTGCGCATGGGCTCCCTGGAGGACCCCGCGGCAGCGAAATCCGAACTCGAGAGACTGGTCAAGGCTGCCGCCCGGCCGGAGTCGAACAGGCTCTACCGCACCGTCTGCCGGTGA	MSRRKERRFQRLRDVPVAAPVNVLWSKYRWYCEEPACDRLSFFELTPQAPRRARSTSRLRDRLVDAVIRSGRAVSETAAGFAVSWWKVRAALNEACLLRLPDVDKLSPRMLGIDEHRFRSMRYFQNPESKTWTRFEPWMTTIVDLDIGQVLGMVDGHDHPGVGDWLFARPFHWRMAVQVVAIDPSAAFRKALRMWLPRTAVAVDHFHLTSLANQAVTENRQNLSQQVKGRRGRAVDKAWAHRMLLLRGGDALNGRAARRLEEVFATDNPTGTLRAVWKVKEQLRALLRMGSLEDPAAAKSELERLVKAAARPESNRLYRTVCR	PGPT0030630_551	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
D1-17_00913	1185	mshA_3		D-inositol-3-phosphate glycosyltransferase	ATGACTGTACCGATGAATTCCCCAAAGAGCGTTGCCGTTTTTTCGGCCTTTTATTTGCCCGCTTTTCTCGGCGGGGGACCGATACGGTCGCTGTCGGCCTTAGTAAAGACTGCCCCTTCACAGTTCGTACCAGCCATTATTTCGAGCGATACGGATCTTGGCGAGCAAATACCCTTGCCCGTGAAGAATAATTCGTGGACGAGCCATGATGGCGTCGCGGTGTATTATGCATCAGCGTCGAAAATTCAATGCTTGGTGGCCGCATTGAAGGCAACGCGGGGATTACGGCCAGATATCATCTATTTGAGTAGTTTTTTCAACTTGCGTTTCTCCATACTGCCTCAATTAATGATAGCCGTCGGCTATTTCAGGCCGAAGAGCGTCGCTCTAGCCCCTCGCGGTGAATTTAGCTCAGGTGCCTTGGGGATCAAGGGCGCCAAGAAACGCCTCTACATATCCATATATCGGCGTTGCGGAATGGCAAAAAAAGTAATTTGGCATGCGTCGAGTTCCCGTGAGGCCTCCGACATCCGCCGCGCAGTCGGTCACAACGTGAAAGTCGTCATACGGGAAAATGATACCGACCTGCCGGTGACGGCTACGGCTCCAGCTTATACGCCGCAGGAGTTTATACAGGCAGTGTTTGTAGGCAGGGTGGTCCGAATCAAGGGTTTGCTGACATTGCTTGAAGCGTTGAAACAATGCACAGCACCTCTTAGCCTAGATGTTTACGGTCCGGAAGAAGATCTCAACTATGCACTCGAGTGCAGGCGGCGTGCGCAGGAGCTCCCTGATCACGTTGTCGTGAGATTTTTGGGTGCATTCCCAAATGATGCGGTCCGTGCTGCGCTACCCAAATATGACCTAATGATGTTTCCGACCGCCGGAGAAAATTTTGGTCATGTTATCGCAGAGGCATTGTCCGCTTCCTGTCCCGTGATGTGTGCCGACGTAACTCCTTGGACCTCACGGATTGTCTCTGGTGGCGGCATCATAGTGAAGGACAACACTGTGCAAGGCTGGGCCGCAGCGATAGAAGACTACGCCACCAAGTCGCCATCACAGCGGATGGCAACGCGTGAGGCTGCTGGAGCATGCTTTGACCGTTGGCGCCGAAGTTCTGCAGCAGACCATGTCTTCAGCATGCTGTTGCAGGCGGAAGAGGAACTAAAACCCCAAGGCTAG	MTVPMNSPKSVAVFSAFYLPAFLGGGPIRSLSALVKTAPSQFVPAIISSDTDLGEQIPLPVKNNSWTSHDGVAVYYASASKIQCLVAALKATRGLRPDIIYLSSFFNLRFSILPQLMIAVGYFRPKSVALAPRGEFSSGALGIKGAKKRLYISIYRRCGMAKKVIWHASSSREASDIRRAVGHNVKVVIRENDTDLPVTATAPAYTPQEFIQAVFVGRVVRIKGLLTLLEALKQCTAPLSLDVYGPEEDLNYALECRRRAQELPDHVVVRFLGAFPNDAVRAALPKYDLMMFPTAGENFGHVIAEALSASCPVMCADVTPWTSRIVSGGGIIVKDNTVQGWAAAIEDYATKSPSQRMATREAAGACFDRWRRSSAADHVFSMLLQAEEELKPQG				NA	NA	NA	NA	NA
D1-17_00914	1269	wbpA	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGACTGAGAGAGCACAAACCGTAGTCGTTGTTGGGCAAGGCTACGTCGGTCTGCCGGTGGCCATGAGGGCAGTAGAGGTAGGGTTCAACGTCGTTGGCGTTGACATTGATAAAAATCGTATTGACAGCCTTGCTGCAGGCAAGTCGTATGTAGACGACATCACGGATACAGAGTTGGCTGCGGCGTTAAGTAGCGGGCGCTATCTCCCAAGCACCAGTTACGACCATGCAGAAAATTTCGACATTGCTGTTATCACAGTTCCCACGCCTTTGCGGGAGAGCCTTCCAGACCTGACATTTATCGAGGATTCGAGCAGGGCTCTCGCTGCTCATTTAAGACCGGGCGCGACTGTCATTCTTGAATCCACAACCTATCCTGGAACCACTGAAGAACTGCTGGTACCGGTTCTGGAAGGCGGATCTGGACTAACTGCAGGAGTCGATTTTTACGCAGGCTACAGCCCTGAGAGAATCGATCCAGGAAACAAGACCTGGGGATTTGTCGAAACGCCGAAAGTGGTTTCAGGAATTGGTTCAGAATCCTTGATCCGAGTCAAAAGCTTTTATGATAGCCTGGTCAATACAACGGTTCCGGTAAGTACGCCAAAAGAGGCCGAGCTAACCAAGCTTCTAGAAAATACGTTCCGGCATGTAAACATAGCCCTCGTCAATGAGCTAGCTGTTTTCGCAAACGAACTTGACGTTAATGTATGGGAAGCCATCGAAGCAGCCGGAACCAAACCGTTTGGCTTTATGAAATTCACGCCTGGCCCTGGTGTCGGCGGGCACTGTCTCCCCGTAGATCCCAGTTATTTGTCATGGCAGGTGCGTAGGAAACTAGGCCAAAATTTTAGGTTCGTAGAACTAGCCAACGACATCAACGATCACATGCCTGACTATGTGGTTCAACGAGTGATTGCAAACCTAAACAATCGAGGCAAAGCCGTCCGAGGAGCTAGGATCGCCCTCATAGGCTTGGCATATAAAAAGAACACAGGCGATATACGCGAGTCACCCTCACTGAGGTTGATCGAGCTCCTTCAGCAATTCGGTGCAGATCTAGTCGCAATTGATCCTCACGTAGAGGACTACCGCTGGCCTCAAGGAGTCGAACGGATTTCCATGACGAAGAACGTCCTCGAGTCCTTGGATCTCGCCATTCTGGTGACAGACCACGACGACGTCGATCTTCATCTTATCGAATCATCTCGAACCCCGATAATAGATACACGGAATCGAATCAATAGTCCCGCAGCTGACCTTCTCTAA	MTERAQTVVVVGQGYVGLPVAMRAVEVGFNVVGVDIDKNRIDSLAAGKSYVDDITDTELAAALSSGRYLPSTSYDHAENFDIAVITVPTPLRESLPDLTFIEDSSRALAAHLRPGATVILESTTYPGTTEELLVPVLEGGSGLTAGVDFYAGYSPERIDPGNKTWGFVETPKVVSGIGSESLIRVKSFYDSLVNTTVPVSTPKEAELTKLLENTFRHVNIALVNELAVFANELDVNVWEAIEAAGTKPFGFMKFTPGPGVGGHCLPVDPSYLSWQVRRKLGQNFRFVELANDINDHMPDYVVQRVIANLNNRGKAVRGARIALIGLAYKKNTGDIRESPSLRLIELLQQFGADLVAIDPHVEDYRWPQGVERISMTKNVLESLDLAILVTDHDDVDLHLIESSRTPIIDTRNRINSPAADLL	PGPT0018920_657	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
D1-17_00915	645	perB	COG0110	GDP-perosamine N-acetyltransferase	TTGACAGAGAGACTTGTCATAGTAGGGGCTGGAGGTTTTGGAAGAGAGACCATCGACGTTATTCGCGCCCAGAACCTCGCCAAAGCAAGTCCGGTCTATGACCTCCAGGGTGTTTTGGACTCCAATCCATCCGATCTCAATCTTGGACGGCTTGAAAGATTAGGAGTTCCCTATTTGGGATCCGAGCAGGACTGGTTGAGCAGAGGACGGCCTTCCCAGTACCTCGTGGCCATCGGAGACCCCGAAATCAGGCGGCTAGTCAGCGGCAAGTTTGACGCTGCGGGATGCATCCCAGGGAGAGCTATTCATCCGACTGCGGTAATCGGCTCGGAGTCGACGATAGGGCCTGGTGCCGTTCTGTGTGCCGGTGTCCAGGTATCTACTAATGTGCGAGTGGGGCGCCACGTTCAGATCAACCCCAATGTCACAGTAGGGCACGACGCGGTATTGGATGATTATGTATCCCTGAATCCTGGATCTATCGTGTCCGGCAGCGTGCACTGTGAGTCTCAGGTTTTATTGGGAGCGAACGCGATAATCTTGCAGGGCCTACGAGCCGGGAAAGGCAGCGTTATTGGGGCCTCGGCCTGTGTAACGAAAGATGTCGCACCGTCTGCGGTGGTAAGGGGAGTGCCAGCTCGCTAA	MTERLVIVGAGGFGRETIDVIRAQNLAKASPVYDLQGVLDSNPSDLNLGRLERLGVPYLGSEQDWLSRGRPSQYLVAIGDPEIRRLVSGKFDAAGCIPGRAIHPTAVIGSESTIGPGAVLCAGVQVSTNVRVGRHVQINPNVTVGHDAVLDDYVSLNPGSIVSGSVHCESQVLLGANAIILQGLRAGKGSVIGASACVTKDVAPSAVVRGVPAR				NA	NA	NA	NA	NA
D1-17_00916	465	lrp_1	COG1522	Leucine-responsive regulatory protein	ATGGCTGGAGCTGAGCCGGAGCAGGTGGCGGTTCCGCTGGACGATGTAGACCGCAGAATCATCGCGGAGCTGACACGGGACGGGCGGATGTCTGTGACGCAGGTGGCCGAGAACGTACACATTTCGCGGGCACACGCCTACACGAGGATTGCCCGGCTGACCGGTGAGGGCGTGCTGACGAAGTTCACCGCCCTAGTGGATCCAATCAAAGCGGGACTGAAGTCATCGGCCTACGTGACGCTCAAGGTGCGGCAGCATTCCTGGCGGGAGCTTCGCGAGCTCCTGCGGGCCATTCCTGAGGTGCACCACATTGCCCTGGTAGGTGGGGACTTTGACGTAATCCTGCTAGTGCGGGCGGTGGACAACGTGGACCTGCGGAGGGTGATATTCGATCAGCTACAGTCGATGCCCGGGGTGCTGGATACGCAGACGTTTTTGGTGTTTGAGGATGTGGATACGCGGTGA	MAGAEPEQVAVPLDDVDRRIIAELTRDGRMSVTQVAENVHISRAHAYTRIARLTGEGVLTKFTALVDPIKAGLKSSAYVTLKVRQHSWRELRELLRAIPEVHHIALVGGDFDVILLVRAVDNVDLRRVIFDQLQSMPGVLDTQTFLVFEDVDTR				NA	NA	NA	NA	NA
D1-17_00917	1263	bkdA_3	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	ATGACGATCTCCGCGGACCACACTGCCCGGGACCAGGCAGTACATGCCGGGCAGGCGCCGGAGCAGGGCGAAGACCTGCACCTGGAAGGCGCCGTTGCCGAAGCCGTGCGCAAATTCGGCATCACCGCCGAGGACTACATGCTGCCGGCACGGCACCAGATTCAGATGGTGGACCAGGACGGTAACCTCAAGCCCCACTCCGAACAGGGAACTGAACCGGGCCACGAGTATCCGTTGCCCAGCGACCAGGAACTGCTTGCTGCCTACGAGCAACTTGTTGTTGGCCGCCGGGTCAACGACCAGAACTCAGCCCTGGTCCGCCAGGGCCGGATGGCCGTCTACCCCTCCAGCCACGGCCAGGAGGCCTGCCAGGTCGCGGCCGCCCTCTGCCTATCTGAGGGCGACTGGATGTTTCCCACCTACCGAGACTCCGTCGCCGTCATGGCCAGGGGAGTAGACCCGGTCCAGACCATGACGCTGTTCCGCGGTGACTGGCACAGCGGCTACAACCCGGCCGAGCACAAGGTTGGCATCCAATGCACCCCGCTCACCACCCAGCTGCTCCACGCGGTCGGCGTCGCGCATGCCGCCAAGTTGCGCGGTGAGGACACCGTCGTGCTGGCGATGTGCGGTGACGGCGCCACCAGCGAAGGCGACTTCCACGAGGCCCTGAACTTCGCCGCCGTCTTCCACCTTCCCGTCATCTTCTTCGTCCAGAACAACCAGTACGCCATCTCCGTGCCGCTCGCACACCAGTCCGTGGCTCCGTCGCTTGCCCACAAAGCCGTTGGCTACGGGATGGCCGGCGAACGTGTGGATGGCAACGACGTCGTCGCCCTCCTCGCTGTGCTCGACAGGGCAGTCAAGCTGGCACGCGAAGGATCCGGCCCGCTCCTGGTAGAGGCCCACACCTACCGCATGCAGGCACACACCAACGCTGATGACGCCACCCGCTACCGGCAGGACAGCGAAGTCGTCCAGTGGGTGGCGCGCGATCCACTGACGCGGATGAAGAAATATCTAACGGACAAGGGGCTGCTGGACGACGACGGCGAGTCCCTGATAACACAGAAAGCGGAAGCCATTGCGACTCAGCTTCGCAACGGCCTCAGCGAGGACGTTCCGGTGGACCCGCAGGACCTCTTTAAGTACGTCTTCTCAACTACCACGCCGCAGCTCAAGGAACAGTCCGCCCTGCTCGCCGACGAGCTAGCCCGCGACGCCAGTGCCGGCGCTTCATCCAAAACGGAGGCCCCCGAATGA	MTISADHTARDQAVHAGQAPEQGEDLHLEGAVAEAVRKFGITAEDYMLPARHQIQMVDQDGNLKPHSEQGTEPGHEYPLPSDQELLAAYEQLVVGRRVNDQNSALVRQGRMAVYPSSHGQEACQVAAALCLSEGDWMFPTYRDSVAVMARGVDPVQTMTLFRGDWHSGYNPAEHKVGIQCTPLTTQLLHAVGVAHAAKLRGEDTVVLAMCGDGATSEGDFHEALNFAAVFHLPVIFFVQNNQYAISVPLAHQSVAPSLAHKAVGYGMAGERVDGNDVVALLAVLDRAVKLAREGSGPLLVEAHTYRMQAHTNADDATRYRQDSEVVQWVARDPLTRMKKYLTDKGLLDDDGESLITQKAEAIATQLRNGLSEDVPVDPQDLFKYVFSTTTPQLKEQSALLADELARDASAGASSKTEAPE	PGPT0008861_669	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-17_00918	1113	bkdB_3	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	ATGAGCCCCACCATCACCACGTCGTCCGAAGCCAACGGCAATGTCAGTTCTGCAACAGCACGGGCAGCCGCCTCCGCTGCGGCTACGGCGGAGGCGGCCGGCCCGCAGCCCGTAACCATGGCGAAGGCCTTGAACACGGCTATGGCCGACGCCATGCATGCGGACAAGTCCGTCCTTGTCTTTGGGGAGGATGTCGGCATGCTTGGCGGCGTCTTCCGCATCACCGACGGCCTCACCAAAACCTTCGGCGAGCAGCGCTGCTTTGACACCCCGCTGGCCGAGTCGGGGATCGTGGGCATGGCCGTGGGCATGGCCATGAACGGCATGCGGCCTGTTATCGAGATGCAGTTCGATGCGTTTGCCTACCCGGCCTTCGAGCAGATCGCCAGCCACGTGGCCAAGATGCACAACCGGACCAGGGGTGCCCTCAAACTGCCCATGGTCATCCGTGTTCCCTATGCCGGCGGCATCGGGGGAGTGGAGCACCACTGCGACTCGTCCGAGTCCTACTACGCGCACACCGCCGGCCTGAAGGTCTACACCCCGGCCACCGTGGCCGACGGCTACCGGATGCTCCGTGAGGCCATCGACTCTGACGACCCTGTGATGTTCATGGAACCCAAGAAGCTCTACTGGTCTAAGGACCTGGTGGACCTTGAGGCGCTCCGCCGGGAACACGAGGACAACAGCGAACGGGGGACGTCCACGGAAGGCCATGCGGCCGTCGCCCGTCCCGGCACCGACGCAACGCTCATCGCGTACGGGCCGTCCGTCCCCACGGCGCTCGCCGCCGCTGCCGCCGCTGCCGAAGAGGGCCGCTCCCTGGAAGTCATCGACGTCCGCACTTTGGTGCCGTTCGACGACGAGACAGTCGCCGCCTCTGTCCGCAAGACCGGCCGCGCCGTGGTGATCGCCGAGGCACATGGTTTCGCATCTGCCTCCTCTGAGATTGTGGCTCGTATGCAGGAGCGCTGCTTCCACTACCTGGCCGCGCCGATCCGCCGCGTGACGGGCTTCGACGTTCCGTACCCTGCCCCGAAGCTCGAGCATTACTACCTGCCTGGCGTGGACCGCATCCTCGACGCCGTCGACGACCTCCAGTGGGAAGACTAA	MSPTITTSSEANGNVSSATARAAASAAATAEAAGPQPVTMAKALNTAMADAMHADKSVLVFGEDVGMLGGVFRITDGLTKTFGEQRCFDTPLAESGIVGMAVGMAMNGMRPVIEMQFDAFAYPAFEQIASHVAKMHNRTRGALKLPMVIRVPYAGGIGGVEHHCDSSESYYAHTAGLKVYTPATVADGYRMLREAIDSDDPVMFMEPKKLYWSKDLVDLEALRREHEDNSERGTSTEGHAAVARPGTDATLIAYGPSVPTALAAAAAAAEEGRSLEVIDVRTLVPFDDETVAASVRKTGRAVVIAEAHGFASASSEIVARMQERCFHYLAAPIRRVTGFDVPYPAPKLEHYYLPGVDRILDAVDDLQWED	PGPT0008862_279	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
D1-17_00919	1500	pdhC_2	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGACCGAAACAAAAGTATTCCTGCTGCCCGACCTGGGCGAAGGCCTTACCGAAGCGGAACTGGTGAACTGGCTCGTGTCCGTGGGCGACGAAATCCGCGTGGACCAGCCCATCGCCGAGGTCGAGACCGCCAAGTCTATGGTCGAAGTCCCGTCCCCGTACGCAGGCACCGTTGCAGAACTCCACGGCGAACCGGGCCAGACACTGGACGTGGGCAAGCCGCTCATCTCGGTCACGCCTATCGGAGGTTCAGTGGCGAAGCCGGCCGAGGTGACGGCCGAAACTTACCGCGAGGAAGAGAAGGCAGGCTCCGGCAACGTGCTGATTGGCTACGGAACGCCGGGCGGCCGTGGAGTGGCCCGTCGAACCAGGGCAGGCCGCACATCAGCGCCGTCTGATGGCGCAACAGCCGGTACTGCGCTCACCGAAGCTAAGGAATCAAGGACTGCCAGGACCAGCAGCGGTACAACCAAAATGACCACTGCCGCCGACGACCTCCTGCTGATGCGCACCCAGGCGCCCGGCAAGTTGGGGGCAGTGATCTCCCCGCTGGTTCGCCGGATGGCTAAGGAGCACGGCGTGGACCTGGGACATGTGCAGGGCTCGGGCGAGAGCGGCCTGATCATGCGCCGCGACGTCGAAGCCGCGATCAAATCGCCGGAGGTTGGGCTTGCCGAAACTGAAGCGGGTTCCGTGGCGGAACCATTACCGTTGGCTGAGCCGGCGGAGATCAAGGCCCCAAAAATCGCGACCGCCGCCGACACCGACCCCCGCACCGGCCTCGGCATTGCGAGCCGCACGCCGGTGCGTGGTGTCCGCAAAGCCGTGGCCTCCAACATGAGCCGCAGCCGCACCGAGATTCCTGAAGCGACAGTCTGGGTGGATGTGGATGCGACAGCTCTCGTTGAGATGCGTGCCGACCTGAAAAAGAAAGATGGGCACAACGCTCCCGGCCTTTTGGCCTTCATCGCGCGCTTTGTCACGGCTGGGTTGAAGAAGTATCCGGAATTGAATACGAGGATTATTACTGACCAAAGCTTTGCCGGCGAGGAGCAGCAGGAAATCGTCGCCTTTGACGGCATCAACCTTGGCTTCGCAGCTCAAACGGACCGCGGCTTGGTGGTGCCTTCGGTCCGAAACGCCGAGAAACTCAGCGCCCGCGAACTGGATGCTGAGATCAAACGTCTTACCGCCGTCGCACGGGAGGGCAAGGCGACGCCGGCCGAACTGAGAAGCGGCAGCTTTACGCTGAATAACTACGGTGTGTTCGGGGTAGATGGTTCGGCAGCAATCATCAATTACCCCGAAGTAGCGATTCTCGGCATCGGGCGAATCATCGACAAGCCTTGGGTTGTGAACGGCGAACTCGCGGTCCGGAAGATCACTGAATTGACGCTGACCTTCGACCACAGAGTGTGTGACGGCGGAACGGCCGGCGGATTCCTACGTTACGTGGCGGATGGACTGGAAAACCCGGGAGCGATGCTCGCAGATCTATAA	MTETKVFLLPDLGEGLTEAELVNWLVSVGDEIRVDQPIAEVETAKSMVEVPSPYAGTVAELHGEPGQTLDVGKPLISVTPIGGSVAKPAEVTAETYREEEKAGSGNVLIGYGTPGGRGVARRTRAGRTSAPSDGATAGTALTEAKESRTARTSSGTTKMTTAADDLLLMRTQAPGKLGAVISPLVRRMAKEHGVDLGHVQGSGESGLIMRRDVEAAIKSPEVGLAETEAGSVAEPLPLAEPAEIKAPKIATAADTDPRTGLGIASRTPVRGVRKAVASNMSRSRTEIPEATVWVDVDATALVEMRADLKKKDGHNAPGLLAFIARFVTAGLKKYPELNTRIITDQSFAGEEQQEIVAFDGINLGFAAQTDRGLVVPSVRNAEKLSARELDAEIKRLTAVAREGKATPAELRSGSFTLNNYGVFGVDGSAAIINYPEVAILGIGRIIDKPWVVNGELAVRKITELTLTFDHRVCDGGTAGGFLRYVADGLENPGAMLADL				NA	NA	NA	NA	NA
D1-17_00920	1893	glmS_1	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATCGTGGGTTATGTAGGCAGTTCGTCTGGCCGGGCTAACGCTGGCCATGGTGCGTTGGATGTTGTTCTTGAGGGGCTGCGCCGTCTGGAGTACCGGGGGTATGACTCCGCGGGTGTGGCGGTGGTGGCTGACGGGGAGATTTCCTCACGGAAGAAGTCCGGGAAGCTGAGCAATTTGCTCGCGGAGCTGGAGGCGCGGCCGCTGCCGGAGTCGCTGACCGGGATCGGGCACACGCGGTGGGCTACGCATGGCGGCCCGACGGATCAGAACGCGCACCCGCATCTGTCTGATGGCGGGAAGCTTGCGGTGATTCACAACGGCATCATTGAAAACTTCGCGGAGCTGAAGCTGGAGCTTTTGTCCAAGGGTGTTGTCTTTGCGTCGGAGACGGACACCGAGGTAGCCGCGGCGCTGCTGGGTGACATTTTCCGGAACAAGCTTGGCGGTGACGTCTCTAACGGCGGTCTGACCCGGGCGATGGAGCTGGCCTGCCAGCGTCTTGAGGGTGCGTTCACGCTCCTTGCGGTGCATGCTGACCAGCCGGACGTGGTGGTCGCTGCGCGCCGGAACTCCCCGCTGGTGGTCGGCCTGGGGGAGGGCGAGAACTTCCTGGGCTCGGACGTGTCCGGGTTCATTGACTACACCCGCCGCGCGGTGGAGCTTGGCCAGGACCAGATCGTGACGATCACCGCGGACTCGGTGGAGATCACCGACTTTTACGGTGCCCCGGCCTCGGGTAAGGAATACCACGTGGACTGGGACCCTGCCTCGGCCGAGAAGGGCGGTTTCAGCTCCTTCATGGAGAAGGAAATCCACGACCAGCCTGATGCCGTGGCACAGACCCTCCTTGGGCGTTCGGACCTGAACGGCAAGCTCACGCTGGATGAGGTTCGTATTGATCCGCAGCTGCTCAAGCAGGTGGACAAGATCATTGTGCTTGCGTGCGGCACTGCAGCGTACGCGGGCCTGGTGGCGAAGTACGCGATCGAGAATTGGTGCCGGATCCCCACCGAGGTCGAGCTGGCGCACGAGTTCCGTTACCGGGACCCGATCGTGGATTCGAACACCCTGGTGGTCTCGATCAGCCAGTCCGGTGAAACGATGGACACGCTGATGGCCGTGCGGTACGCGCGTGAACAGGGCGCCAAAACGATCTCCATCTGCAATACCAACGGCTCGACCATTCCGCGTGAGTCCGACGCCGTGCTGTACACGCACGCCGGTCCGGAGATCGCCGTCGCCTCCACGAAGGCGTTCCTGGCGCAGATCACCGCCGCGTACCTGTTGGGCCTGTACCTTGCCCAGCTGCGCGGGAACATCTTCTCCGGGCAGATCAAGGACGTCCTTGCGGACCTGGGCAAGATCCCGGCCAAGATTCAGAAGATCCTGGACAACGCGGGGCCCCTGCGTGAGCTCGCGCGGAGCATGAAGGACGAGAAGTCCGTGCTGTTCCTGGGCCGCCACGTTGGCTTCCCGGTTGCCCTTGAGGGTGCTTTGAAGCTGAAGGAGATCGCCTACATCCATGCTGAGGGCTTCGCTGCGGGTGAGCTCAAGCACGGCCCGATCGCCCTGATCGATGACGGCCAGCCGGTCTTCGTGGTGGTGCCGTCCCCGCGCGGCCGGGACTCGCTGCACTCCAAGGTTGTCAGCAACATCCAGGAAGTCCGGGCACGTGGTGCCCGCACCTTGGTGGTCGCTGAGGAAGGCGACGAGTCGGTCAAGGATTACGCTGAGCACGTGTTCTACGTCCCGGAGACCCCGACGCTGCTGATGCCGCTGCTCACCACTGTTCCGCTGCAGATTTTTGCCGCTGAGCTGGCCGGCGCAAAGGGTTATGACGTGGACCAGCCGCGCAACCTGGCCAAGAGCGTCACCGTAGAGTAA	MCGIVGYVGSSSGRANAGHGALDVVLEGLRRLEYRGYDSAGVAVVADGEISSRKKSGKLSNLLAELEARPLPESLTGIGHTRWATHGGPTDQNAHPHLSDGGKLAVIHNGIIENFAELKLELLSKGVVFASETDTEVAAALLGDIFRNKLGGDVSNGGLTRAMELACQRLEGAFTLLAVHADQPDVVVAARRNSPLVVGLGEGENFLGSDVSGFIDYTRRAVELGQDQIVTITADSVEITDFYGAPASGKEYHVDWDPASAEKGGFSSFMEKEIHDQPDAVAQTLLGRSDLNGKLTLDEVRIDPQLLKQVDKIIVLACGTAAYAGLVAKYAIENWCRIPTEVELAHEFRYRDPIVDSNTLVVSISQSGETMDTLMAVRYAREQGAKTISICNTNGSTIPRESDAVLYTHAGPEIAVASTKAFLAQITAAYLLGLYLAQLRGNIFSGQIKDVLADLGKIPAKIQKILDNAGPLRELARSMKDEKSVLFLGRHVGFPVALEGALKLKEIAYIHAEGFAAGELKHGPIALIDDGQPVFVVVPSPRGRDSLHSKVVSNIQEVRARGARTLVVAEEGDESVKDYAEHVFYVPETPTLLMPLLTTVPLQIFAAELAGAKGYDVDQPRNLAKSVTVE	PGPT0017630_979	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-17_00921	552			hypothetical protein	TTGAAAGGCCACGTGAGCCGTCAAAGGAAACTGCTTGCAATAGTTGCTTGGGGCGGCATGGCCCTCTGGTCATGGCTATTCGCAGGCTTGTTCCTTTATGTTGAACCAGCTGTGAGCTCACCACGACCGGCGGCTGTGTTGTTCGTTCTCGCGCCGCAAACGGAAGCCCGTGTGAAAGCCGCAGAGGAACTTATGGCCGCAGGCTTCGCGGAAACGCTCGTGCTGTCGGTTCCGACCAACGGCAGCCCGCCCCCTGATGTGTGTAAGAAAAAACGGTCCTATCCAATCATCTGTTTCGCGCCGGACCCAGTAACCACCCAAGGCGAAGCTCGTGCACTTCGCAAACTCGCCGAGGACCACAAGTGGCAGAGCGTTAATGCGCTAACTGCCAAGTTCCACATCACCCGGTCGCGCATTATCCTTCAACGCTGTTTTGAAGGCGACCTGAACATGGTCAGTTATGAGCAGCATCTGTCCGCTATTTCTTGGGCCTACCGATATATTTATGAGACCGCCGCTTTTGCAAAAGTGGCCTTCAACCCCGGCTGCTGA	MKGHVSRQRKLLAIVAWGGMALWSWLFAGLFLYVEPAVSSPRPAAVLFVLAPQTEARVKAAEELMAAGFAETLVLSVPTNGSPPPDVCKKKRSYPIICFAPDPVTTQGEARALRKLAEDHKWQSVNALTAKFHITRSRIILQRCFEGDLNMVSYEQHLSAISWAYRYIYETAAFAKVAFNPGC				NA	NA	NA	NA	NA
D1-17_00922	816			hypothetical protein	ATGTCACGATGGCTCGAAGTCGGCACGGACAACTTTGTGCTGACGACGGAAGGCTCAAAGCTCAACACCGGACTGATCGTCGGCACGGAACGGGCGATGGTCATTGATACCGGAGGCGGGCCGCGGCAGGGGCGCGAGATTTTGGAGGCCGTGAGGGGCAAGACCCAGCTTCCCCTCGTGGTGGTTAACACCCATGCGCACTACGATCACTTCTTCGGAAACGCCGTCTTCGCGGAGGATGGAGTGACGGAATTCTGGGCGCACGAGAACTGTGCCGAAGAGATCGGCGAAAACGGCAACGCCCAGCGGGGAGCCGTGGCCGAGCTCGAGCCTGACATGGCCGCCGGCCAAGGGGAGAACGTCGAGCTCGTCGTGCCGAACGCGCTGGTCCGAGACCAGCCGGTCCTCGTGGACCTCGGCGGGCAGGCAGCCACGCTGTTCTACCTCGGCCGCGGGCACACTGACGGCGACCTGCTGGTCGGCACCACCACGACTCTGTACGCGGGCGACCTGGTGGAGCAGGGTGCGCACCCCTCCTTCGAGGACTCCTACCCAGAGGAGTGGGCCGGTGCACTGCGGCACCTGTCTGCGTTGCGGCACCGCTACGAGTTCCTCATCCCCGGCCATGGCGAGCCCTGCAGTGACCGTTTCGTCAAGACCATGGCGGACACGATGACGACGGCGGTCCGCCAGGCGAGGCAGTCGATCAGGGACACTCCCTCGGATGCGACCAAGGCAATTCCTGTCCTGCCGTACGGGCCCGAGCAGTCGCGCTGGTTCATCAAACGCCTGCAGGAGACGCGGCAGCAGCACTAA	MSRWLEVGTDNFVLTTEGSKLNTGLIVGTERAMVIDTGGGPRQGREILEAVRGKTQLPLVVVNTHAHYDHFFGNAVFAEDGVTEFWAHENCAEEIGENGNAQRGAVAELEPDMAAGQGENVELVVPNALVRDQPVLVDLGGQAATLFYLGRGHTDGDLLVGTTTTLYAGDLVEQGAHPSFEDSYPEEWAGALRHLSALRHRYEFLIPGHGEPCSDRFVKTMADTMTTAVRQARQSIRDTPSDATKAIPVLPYGPEQSRWFIKRLQETRQQH				NA	NA	NA	NA	NA
D1-17_00923	282			hypothetical protein	ATGAACAACGGAATCTGTGCCTGGATCCGCAAATTCCTCCAGCACAACGTCATCGTCGACAATTCCCTGCCGGAGAGGCCCGGGCTAGACGGGCAGGACATGCCCCGCCAGCAAAGGAGCCAGAATGCCCCTGTTTCCGGGGTATCTGTGGCTCAGTTGCCACCGCTTGGGGGGCGGCACAGCGCGTTTCCGCGCCTCCAGTCTTCCGGCCGGCTGAAGGGACGGCGCGCTGCTCGCGTCCATCGCGCTTCGGACGCGTCGGACGTGAACGAAAAGATCTGA	MNNGICAWIRKFLQHNVIVDNSLPERPGLDGQDMPRQQRSQNAPVSGVSVAQLPPLGGRHSAFPRLQSSGRLKGRRAARVHRASDASDVNEKI				NA	NA	NA	NA	NA
D1-17_00924	147			hypothetical protein	GTGGCCCTTCCCGACTTCATCTTTGCGCTCTGCGCCCTGCTGGGCAGCCTCCTGATTCCATTCACCGGCCTCTACGCGCTGCTGTGCCTTAAGCGCTGCGCCATGGCTCCTGCATCCACCCACTCCGTACCGGCCCGGGTGAAGTAG	MALPDFIFALCALLGSLLIPFTGLYALLCLKRCAMAPASTHSVPARVK				NA	NA	NA	NA	NA
D1-17_00925	1215			hypothetical protein	ATGCCTGAACCGGAAACCGACATAGTGCAGCCGGAGTTGCGGCGCCGCCGTTCCCGGCGCCGGGACGGCAGCGACTCCAACGACTGGACAGGATCCTTCGAGGCCGTGATACCCGACACCAGCTCTGCTCCGGTGCTCCCGGTCCGCAGCTCCTCCTGGGCGCAGGCGGCGGCCGTTGCCGACGGAGTCTCCAGCGTGCCGGAAGCACCGCCCGCGCCAAATCGCAAGCCGGCGGCAGCGTCGGCTCCGTCCGTCCCGGGAACCGAGGCCGAACCGGAGCAGCCGGTGGCGGACGCCACCGCACTGCCGACGTCGTTCGTCCGCGAGCAGAAGCCCCGACCCAAGCGGGGCTTCCGGGGCTTCCTGTACCGGGTGAGCGGCGGGGCGTGGAACATGGGGCCCAGCCCGTTGGAGCGAGAGGAGGAGGAGCTCGCCCGGCGTATCTCCCGCCAGCTGCAGGGCAGCTTCAACACCGCCGTGCTCAGCCTCAAGGGCGGCATCGGCAAGACTTCCACTACTGTGGGCGTGGGCCTGACCCTCGCCGAATTCCGCGGTGACCCGCCCTGCGCCATCGACGCGAACCCGGACTCCGGGGACCTTGTGGAGCGCGCGCTGGGCGAGGGCATCTACCAGCAGGCCACGCCTCGAACCATCACTGACCTGCTCAAGAACATCGACTCGATCGACTCCCTAACTGAGCTGTCCCGCTACATGCACCACTCGGGCCGGCTGCACCTCGTCGCCGGCGAGCAGGACCCCGAGGTATCCGATTCGCTGACCGCCGAGGAGTACCTGCGGATCCGCAAGCTGATCGGCAGCTACTACTCGGTAGCGCTGACCGACTGCGGCACCGGCGTCACCCACAACGCGATGAAGGGGATCCTGCAGTCCGCGGATAACCTGATCATCGCCGCCGGCTACGCGGTGAGCGGTGCCAAGCGTGCCCGCAATACCCTGCAGTGGCTGGCCAGCCACGGTTACGAGGACCTGGCCCGCAATGCGATCGTGGTGATCACGGACAAGGACGAGGTCTCCTCCCGTGTGGACAAGGACGCCATCGAAGAGCACCTCGCTGGGATGTGCCGCGAGCTCATTGCTGTTCCGCATGACAGGGGAGTGGCCGACGGGGACCTGGTGACCCTGGACGTGCTGAAGCCGGAGACCCGGCGGGCGTACAAGGAGATTGCTGCTGCCATTGTGGACGGGTACCGGTAG	MPEPETDIVQPELRRRRSRRRDGSDSNDWTGSFEAVIPDTSSAPVLPVRSSSWAQAAAVADGVSSVPEAPPAPNRKPAAASAPSVPGTEAEPEQPVADATALPTSFVREQKPRPKRGFRGFLYRVSGGAWNMGPSPLEREEEELARRISRQLQGSFNTAVLSLKGGIGKTSTTVGVGLTLAEFRGDPPCAIDANPDSGDLVERALGEGIYQQATPRTITDLLKNIDSIDSLTELSRYMHHSGRLHLVAGEQDPEVSDSLTAEEYLRIRKLIGSYYSVALTDCGTGVTHNAMKGILQSADNLIIAAGYAVSGAKRARNTLQWLASHGYEDLARNAIVVITDKDEVSSRVDKDAIEEHLAGMCRELIAVPHDRGVADGDLVTLDVLKPETRRAYKEIAAAIVDGYR				NA	NA	NA	NA	NA
D1-17_00926	6087			hypothetical protein	TTGTTAGCGGTTCTTTCGGCGCTCATAGTTTCGGGGCTGGCGCCTGCCAACGCGGCCGACCTGTCCGACGCGTCAATCAGCGGACACATTTCCGTCCCGCCCGGCGCAGATGCCGGCACCACGGCGATCCATGTCTACGCTGCCACTCCCACGGGAGAGTACGTGACCACCGCCTATCCAAGTGCCGAAGGCGCCTACAGCGTCAGCAGTCTTCCGGCCGGCTCGTACAAACTGTGGTTCTACGATTACACCAACAAGTCAGTTCCTCAGTGGTACGGCGGGGCTGATCAAAGCTCGGCTACCGCATTGACTGTCGGAGCCGGGCGGCAGCTCACTGGCATCGACGTCGTCATGGCCAAGGGGGCATCAATCAGTGGCCGCATCACAGCTCCGGGTGGGGTCGACATCACGGCTGTAAGCGTCTACGCCCACAGCTCAGGCGGTTATGGCTCGTCCCGCTGGGCTGCCGTGGCCGAAGACGGAAGCTACAAGTTCACTGGTCTTGCCGCAGGCAGCTACAGAATCCAGTTCAATCCAAATAATTCCGGAGCCTTGGAGCAGTGGTACGGTGGGGCAGTCTCGTCCGACACCGCCACCGCCGTCGTACTCACGGCGGAACAGGACCTCACCGGCATGGACGCCGTCCTCGTTAAAGGAGCTTCGATCAGCGGCAAGGTGACGGCGCCTGCCGGCGTCGACTTGGCCTCGGTGAGCATTTCGGTCCACAAGGCAGCGCAGCACTCCTATTCCGGATACGGACAGATCAGCCCCGATGGCAGCTACGCAGTACGCGGTCTTCCGGCGGGCAGTTACAAACTGGAGTTCAATACCTACAGCTCCGGCGCTGCAAAACAGTGGTACTCCGGGGCCGCGACCTTCGAAACGGCTACCCCGGTGACCGTCGACTCCGGCCAGGATCTCGCTGGCATCGACGACTCGTTAATCAAGGCAGCCTCCATCAGCGGACAGGTCGCGGCACCGGCCGGCGTTGATCTGGCATCCGTTCAGGTACAGCTCTACCGGTCGGACAGCGCGGGCAATTATGCTGGGTCCGCGCAAGTTCAGGTGGACGGCAGCTACACGCTCGGGGGCCTTTCCGCCGGCAGCTACAAAGTCCAGTTCAGCGGCTACAATTCCGGCGCGCTGGAACAGTGGTACCCAGGTGCAGCCTCCTCCGACACCGCCACGGTCATCAACCTCACGGCCGGGCAGGACCTGGGCGGAGTGGACGCCACATTGGTCAAGGGGGCTTCGATCAGCGGCCACCTCACTGCAACGGCCGGTGTTGAGCTCAGCTACGTCACCGTGAGCGTCCATGCGGGCTCCGGCCAGCAGTACTCGTCTGAACGCATCGGCGCAGACGGCACTTACTTGGTGCGCGGACTCCCGGCCGGGAGCTACAAGGTCCGGTTCAGCGGCAGCGGCAGCTATTCGAGTGCACTGGAGCAGTGGTACTCCGGAGCCGCCTCGGCCGAAACAGCCACGCCTGTCACCCTGGCCGAAGGCCAGGATCTCGCCGGTGTCGATGCAAGGCTGGTGAAGGGCGCCTCGATCAGCGGAACTGTCACCGCCCCCGCAGGCGTGGACGTGAGCTCATTGGGCGTCAGTGTCCAAAGCTCGGACGGCACCTCGTGGTCCTATGGCAACGTTGAGTTCAACGGCAGCTACACCGTCAGAGGCCTCGCCGCAGGCAGCTATAAGGTGCGGTTCAGCGGGTACAACTCCGGCACCCTCACCCAGTGGTACTCGGGAGCCTCCACGTTTGAAAGTGCAACGCCCGTCATTCTTGCCGAGGGTCAGGACATCACCGGCATCGATGCAGCACTCGTTAGGGGCGCCTCGATCAGCGGTAGTGTGGCGGCACCCGCGGGAACCGATCTAACCTCTGTCTATGTGAACGTGTCGGCCGCAGATAATTCCCCGTCGTTTTCGGCGCGGGTCAACTATGACGGAAGCTACCTCGTGCGCGGCCTGCCCGCAGGCGCGTACAAGGTTCAGTTCAGCGGAAGCGGCGCGGGCACCCTCGACCAGTGGCATGCCAATGCTTCGTCCTTCGAAACGGCCACTCCCCTCACTCTTGCCGCAGGCCAAGACCTCACCGGCATCGACGCAACCCTGGTGAAGGGTGCATCTATCAGCGGAACCGTGACGGCACCCGCCGGCGTGGACCTGGGCGGCGTCAGCGTGCAGGTCCGAAGCCTGGACGGTTCTTCCTGGTTCTCCACACAGGTGGACCGAATCGGCAAATACACAGTTCGGGGACTGCCAGCCGGCACTTACAAAGTGCAGTACAGCGGGTACGCCTCCGGCACTCTCACTCAGTGGTACGCGGGAGCCTCGACATTTGAGTCCGCCACTCCCGTCACTGTCACCGCTGGCCAGGACGTGACTGGAATCGACGCTGAATTGAAGAACGGGGCGTCTATCAGCGGAAAAATCAGCGCCCCTGCAGGTGTTGACCTGACAGCTGTGTGGGCCACGGCCTACCACAGCAGTGGTGCCATGGACTACGCAGGTTCCTCCTCTGTCGCAGCGGATGGTTCCTACAAAGTGGGCGGGTTGCAGGCCGGATCCTACAAGGTGCAGTTCAACACCGGTGATTCCGGCGCCTTGGCCCAGTGGTACGGGGGCGGGCTGACCTTCAGCACTGCCACCGCCATCGCCCTCGCCGATGGTCAGGCCGTAGCCAGCGCTGACGCCGTGCTCGTGAAGGGTGCAAGCCTCAGTGGCAAGGTCACAGCGCCCGCGGGGATTTCCGTCTCCGACATCACCGTCTCGGTGCTGGAAGCAAAAGCCGGGTCGCACGCAGGATACGCCCGGGTGGCAGCCGATGGCAGCTACAGGATCGGCGGCCTTCGGGAAGGGAATTACAAGCTCCAGTTCAACGGGGGCAACTCCGGGGCGCTGGATGCCTGGCATGGGGGCGGCGAATCCCTACTGACTGCTGGGACCATCGCTGTCGGGGCAAGCCAGGACTTGGCTGACCTCAACGTGACCCTGGTCAAGGGCGCCACCATCAGCGGAAAGATCAGCGCGCCCTCCGGCGTCGATCTGACCCGCGTCTCCGTGGCCACCAGCAGGGATGAAAGCCCGATAGCGAGGTCGTTTCCCGTGAACGCAGATGGCACGTACCAGATCAAGGGACTGCTGGCGGGAACCCACAAGGTGCGTTTCAGCGGTGGTGAGTCCGGCGCCTTGGACGAGTGGTACGACGATGCGAAGACGCAGGCCGAGGCGGCTCCCATCACCTTGACTGCCGGAGAGGGCCGCACGGGCGTGGACGCGGTTCTTGCCCAGGGCGCGAGCATCAGCGGCAAGGTTTCTGTGCCTGCCGGGGTAAGCAGCTTCGGTGTGGTCATCCTCCACAAGGGCGACAACACCGTCGCGAAATCCGTCTATTTCGGCTCTGATGGCAGCTACCTGCTGCAGGGGCTGGAGGCCGGTAGCTACAAGTTGCAGTTCAATGCATACACTTCGGCAGTTCTGCAGCAGTGGTACAGCAACGCCTCGTCCATGGAGGCGGCAACCCCTGTCACAGTGACGGACGGCCAGAGCGTAACCTCCGTGGATGCAACGCTGGTCAAGGGCGCCACCATCAGCGGAAAAATCACAGCCCCTGAAGGCGTCTCCCTTGGCGCTGCCCAGGTCGGTGCCTACAAGTCCGGATCCGCCGACGCCACGGCGGCCCGCAGCTCCGTGCTCGCCGATGGTTCCTACACACTGGTTGGCCTGGAGCCCGGCACGTACAAACTGCAGTTCCTCGGACTGCGCAGCGGCGCCGTCGATGGCTGGTTCGGCGGGTCCGCGTTCGAAACTGCAACTGCCAGACCGGTTGCAGCGGAACAAAACATGACCGGGGTGGACTTAACGGTAGTGACCGGTGCGTCCATCACCGGAAAGGTCTCGGGTGCAAACTCATATGGCTACCCGCTCTCGGTCCTGGATGAATCCGGAAAGCTCGTCAAGAGCGAGTACACGGACCAGTCCGGTAATTACAGCGTGGTCGGGCTCGCACCTGGGTCGTACAAGGTTGCCTTTAACCGCTCCAGCGGATACGCCGCGGAAGAAGCGCAGTTCTACCAGAACAAGCCCGAATCAGCAGGCATCGGCCAAGCTCAGCTGATCCAGCTCACCCCGGGGCAGTCCGTACCGAATATCGATGCGGCCCTGTCTGCGGGCGGATCAGTGGGCGGCACGGTACTGAACAAGGCCGGAAAGCCAGCGGCCAACCTCTATGTCCAGGCCTATACAACCGACGGCTCGCTGGTCACCCGCGGCGGCACGACGGATGCGGCCGGCAAGTACAGCGTCACCGGCCTGACCTCCGGGAAGTACGTTCTTCGGGTGCGTGGATGGGTTGACGGCGACCTCTACTCGGGCAACACCGCCACCGAACCCTCCGCAAGTCCCGTCACGGTCGTCAGCGGCAGCACTACGCCGTATGACCTGTCCTGGGCAGCGGTACGTCTTGCCCTCACCGCCCCGGTTCCCACCATCACGGGCACCGCCGCTGTAGGCTCAACCCTCACCGCGGACCCGGGAACCTGGGAACCGGCACCGGTCACCCTGGCCTACCAGTGGAAAGCAAACGGCACCGCCATCACCGGCGCCACCGCCAGCACCTACAAGCTCGCTGCCGCGGACGCCGGCAAGACCCTGACCGTCACCGTGACAGGAACCAAGGACGGCTACACCAGCGAGGCCAAGACATCGGCGGCTACCGCCACCGTTGCCGCCGGCACCCTCACCGCCCCGGTTCCCACCATCACGGGCACGGCCGCGGTAGGCTCAACCCTCACCGCGGACCCGGGCACCTGGGAACCGGCACCGGTCACCCTGGCCTACCAATGGAAAGCTGGCGGCACCGCCGTCACCGGCGCCACCGCCAGCACCTACAAACCCACGACGGCGGATCTGGGCAAAACCCTGACCGTCACCGTGACGGGAACCAAGGACGGCTACACCACGGTCGTCAAGGCTTCCTCGGCCACTGGAACCGTCATGGCTGCCAACCCGATACTGACGGCGCCCACGCCTACTATCTCCGGCACCGCCAAGGTGGGCGTCGCACTCACAGCCGCACCAGGCACATGGGGACCGGCGACCGTCACCCTGGGCTACCAGTGGAAAGCGAACGGCATCGCCATCACCGGCGCCACCGCCGCTATCTACCGGCCCACGGCGACGGATCTGGGCAAAACCCTGACCGTCACCGTCACCGGAACCAAGGCAGGCTACACCACGGCGGCCAAGACCAGTGCAGCAACGGCGAAGGTCGCCGCGGGCACCCTGACCGTGCCGGCGGTCACCATCACGGGCACGCTCAGGGTCGGCTCTACCCTTACCGCGGCAGGCACCTGGGGACCGGCACCGCTCACTCTGAAGTACCAGTGGAAAGCGAACGGCATCGCCATCACCGGCGCCACCGCCAGCACCTACAAGCCGCCCGCAACCGTCCTGGGCAAAACCCTGACCGTCACCGTCACCGGATCCAAGGCCGGCTACACCACGGTCGCCAAGACCAGCGCAGCAACGGCCAAGGTCGCCGCAGGCATCCTGACAGCACCGGTGCCGCGCATTACCGGAACGGCCAAGGTGGGCAACACCCTGACGGCAACCGGCACTTGGGGGCCGGCACCGGTCACCCTGAAGTACCAGTGGAAGGCGAACGGCATCGCCATCACCGGCGCCACCGCCAGCACCTACAAGGCTGCCCCAACCGTCCTGGGCAAAACCCTGACCGTCACCGTCACCGGATCCAAGGCCGGCTACACCACGGTCACCAAGACCAGCGCAGCAACCGCCAGGGTCGCGGCGGGAACCATGACAGCACCGGTGCCGCGCATTACCGGAACGGTTAAGGTCGGTTCCATCCTGACGGCCGTCCCAGGCACTTGGGGACCGGCACCGGTGACCCTGAAGTACCAGTGGAAAGCGAACGGCATCGCCATCACCGGCGCGACCGCGAGCACCTACAAACCGACAACGACGGTCCGGGGAAAGACCCTGACCGTCACCGTCACCGGGGCCAAGGCCGGCTACACCACGGTCGCCAAGACCAGTGCAGCCACCGCCAAGGTGATTTAG	MLAVLSALIVSGLAPANAADLSDASISGHISVPPGADAGTTAIHVYAATPTGEYVTTAYPSAEGAYSVSSLPAGSYKLWFYDYTNKSVPQWYGGADQSSATALTVGAGRQLTGIDVVMAKGASISGRITAPGGVDITAVSVYAHSSGGYGSSRWAAVAEDGSYKFTGLAAGSYRIQFNPNNSGALEQWYGGAVSSDTATAVVLTAEQDLTGMDAVLVKGASISGKVTAPAGVDLASVSISVHKAAQHSYSGYGQISPDGSYAVRGLPAGSYKLEFNTYSSGAAKQWYSGAATFETATPVTVDSGQDLAGIDDSLIKAASISGQVAAPAGVDLASVQVQLYRSDSAGNYAGSAQVQVDGSYTLGGLSAGSYKVQFSGYNSGALEQWYPGAASSDTATVINLTAGQDLGGVDATLVKGASISGHLTATAGVELSYVTVSVHAGSGQQYSSERIGADGTYLVRGLPAGSYKVRFSGSGSYSSALEQWYSGAASAETATPVTLAEGQDLAGVDARLVKGASISGTVTAPAGVDVSSLGVSVQSSDGTSWSYGNVEFNGSYTVRGLAAGSYKVRFSGYNSGTLTQWYSGASTFESATPVILAEGQDITGIDAALVRGASISGSVAAPAGTDLTSVYVNVSAADNSPSFSARVNYDGSYLVRGLPAGAYKVQFSGSGAGTLDQWHANASSFETATPLTLAAGQDLTGIDATLVKGASISGTVTAPAGVDLGGVSVQVRSLDGSSWFSTQVDRIGKYTVRGLPAGTYKVQYSGYASGTLTQWYAGASTFESATPVTVTAGQDVTGIDAELKNGASISGKISAPAGVDLTAVWATAYHSSGAMDYAGSSSVAADGSYKVGGLQAGSYKVQFNTGDSGALAQWYGGGLTFSTATAIALADGQAVASADAVLVKGASLSGKVTAPAGISVSDITVSVLEAKAGSHAGYARVAADGSYRIGGLREGNYKLQFNGGNSGALDAWHGGGESLLTAGTIAVGASQDLADLNVTLVKGATISGKISAPSGVDLTRVSVATSRDESPIARSFPVNADGTYQIKGLLAGTHKVRFSGGESGALDEWYDDAKTQAEAAPITLTAGEGRTGVDAVLAQGASISGKVSVPAGVSSFGVVILHKGDNTVAKSVYFGSDGSYLLQGLEAGSYKLQFNAYTSAVLQQWYSNASSMEAATPVTVTDGQSVTSVDATLVKGATISGKITAPEGVSLGAAQVGAYKSGSADATAARSSVLADGSYTLVGLEPGTYKLQFLGLRSGAVDGWFGGSAFETATARPVAAEQNMTGVDLTVVTGASITGKVSGANSYGYPLSVLDESGKLVKSEYTDQSGNYSVVGLAPGSYKVAFNRSSGYAAEEAQFYQNKPESAGIGQAQLIQLTPGQSVPNIDAALSAGGSVGGTVLNKAGKPAANLYVQAYTTDGSLVTRGGTTDAAGKYSVTGLTSGKYVLRVRGWVDGDLYSGNTATEPSASPVTVVSGSTTPYDLSWAAVRLALTAPVPTITGTAAVGSTLTADPGTWEPAPVTLAYQWKANGTAITGATASTYKLAAADAGKTLTVTVTGTKDGYTSEAKTSAATATVAAGTLTAPVPTITGTAAVGSTLTADPGTWEPAPVTLAYQWKAGGTAVTGATASTYKPTTADLGKTLTVTVTGTKDGYTTVVKASSATGTVMAANPILTAPTPTISGTAKVGVALTAAPGTWGPATVTLGYQWKANGIAITGATAAIYRPTATDLGKTLTVTVTGTKAGYTTAAKTSAATAKVAAGTLTVPAVTITGTLRVGSTLTAAGTWGPAPLTLKYQWKANGIAITGATASTYKPPATVLGKTLTVTVTGSKAGYTTVAKTSAATAKVAAGILTAPVPRITGTAKVGNTLTATGTWGPAPVTLKYQWKANGIAITGATASTYKAAPTVLGKTLTVTVTGSKAGYTTVTKTSAATARVAAGTMTAPVPRITGTVKVGSILTAVPGTWGPAPVTLKYQWKANGIAITGATASTYKPTTTVRGKTLTVTVTGAKAGYTTVAKTSAATAKVI				NA	NA	NA	NA	NA
D1-17_00927	1866			hypothetical protein	ATGCGCACGGAGCGAGTGATATCCCGGCTGCCGGGGCTTTGCATCATCCTCATGGCGGGTTCAGTGCTGGCCGTGCAGTCGGGCGGGCTGTTCCGGTTTGTCTGGATCAAGGTCTTGGTAGTGATGATTGCCGTCCTCGCGGGCTTGTTCTCACCGCCAGGCGCCCGGCTTCCGCTGGCAATCACGACCGTGCTTGCCGCGTGCGTCTTGTGGATCGCCGTCGCCATGCTGCTCTCCGACACACCCTTGGCCAGCATGGCCGGCCGCTGGCCGCGGTACGAGGGCCTGCTGATGCTCGGCGTCTACGTGGCAGTCTTCGCGGCGGGCGCCAAGGTCCTGGGCGGCGGTTCCGGCGGCCAACGGCGCACTCTTCTTGGCCTGTCCCTGGCAGGTGCCGGTACCGTGGTTTTCACCATCGCGGTGCTGGAAAGCGCCGGCCTGCGACCGCTTGGCGGGGCTGCCGATGTGCGGCTGGGGGCAACGCTGGGCAACGCCACCGACCAGGGGCTGATCGGCGTCATCATCACCGGCGTCCTGGCCGCCCAAGGCGAGCCGGACCGGGCCTGGCAGGTATGGCTGCGCCGCGCCGGACTGCTTGCCGGCGCGGGGGTGACCGTCCTCTCAGGCTCCCGTGCGGCCTTGGCCGCACTGTTGGCTGTGGCCGTATTCGGAGCCTACACGTGGATGAGGAGCCGGTCCTGGACCCGGCCGAAGATCGCCGCCGGCGCCGCGCTCGCAGCGGCGGGCGTCGCCGTCGGGGTCCTGCTGGCCCCCGCATCCCGCGAGCGGCTGCTGTCGACGGCGACCGTCGACGGGCGGTGGCTGCTGTGGGACCAGAGCCTTGGATTGATTGCCGATCGGCCCCTGTTCGGCGTCGGCCCGAGCGGTTTCGTTGATACGTTTCCTGGGTATCTCGGGGCCGAGTGGGCGCGGACGGTGGGAGACAGCTTTCCGGCGGACTCGCCCCATAGTTGGCCGCTGCAGGCATTGGCGGCAGGCGGGCTTCCCCTGCTGGTGCTTGTGGTGGTGCTGATTGCGGTCTGCGTGGCGGCAGTGATCCGCCGCGTGGGGGACTGCCGGTCAGCTGCCGACCGCAGGTACCTTGCCGTGGTGCTGGTCACGGTGGCGGCGTATTCACTAGCCCTACTCACGCACTTCACGTCCATCGGCACCACCGGGCTCGTGGCGTTCCTGTGCGGCGGGCTGGTGGGAAGCGAGGCCGGCAGGGCTGCCTTCATCAGGAGCGGCGCACTCCGGGAATTCGCCGCCACGAAACTGCACGCCGTTCCCCGTCTGGCCGGGACGCTGCTGGCCATTGGTGGACTGGCGGTTGCTGTTCCGGCGACCTTTGCGGAATGGTCCATGGGCGCCGGCGCCCGGGCCGCCGCAGCAGGTAACCTTGGCCAAGCCCAGCAGGAGTTCAAGCAGGCCTGGCAGCTCCGGGCCTGGGACAGCGACACTGCGCTGTTGGCAGCCCAGGCGTTCGCCGGCCCCGCAACGGAAGGGGACCAGCAGGCTGCCCGATATGCCGTCGAATGGGGTCCCTTGCGCGGGAGCGGACGCCGCAGTCACAGGAAGCAGGAACGGCTCTGGCTCTCGGACACCTCTACAGCGGTGACGCCCCAAAGGCGAAGGATCTGCTGGATGCGCTGGTGGCCGAGTCCCCCTATTCGACGGCCCTCTACGTCCACCGCGGCGTGGCGCACTTCGGCCTGGGACATCCGGCGGAGGCAATTACTGATCTTGAGCATGCCGCCTCGTTGGATCCTGCCTTGGAGACGCCGTGGCGAGTGCTGGCCAATATCCACCAGCGGTTGGGTAATAACCAGGAAGCTTTTGCTGCTACACAGCGCGCTAATGCATTAG	MRTERVISRLPGLCIILMAGSVLAVQSGGLFRFVWIKVLVVMIAVLAGLFSPPGARLPLAITTVLAACVLWIAVAMLLSDTPLASMAGRWPRYEGLLMLGVYVAVFAAGAKVLGGGSGGQRRTLLGLSLAGAGTVVFTIAVLESAGLRPLGGAADVRLGATLGNATDQGLIGVIITGVLAAQGEPDRAWQVWLRRAGLLAGAGVTVLSGSRAALAALLAVAVFGAYTWMRSRSWTRPKIAAGAALAAAGVAVGVLLAPASRERLLSTATVDGRWLLWDQSLGLIADRPLFGVGPSGFVDTFPGYLGAEWARTVGDSFPADSPHSWPLQALAAGGLPLLVLVVVLIAVCVAAVIRRVGDCRSAADRRYLAVVLVTVAAYSLALLTHFTSIGTTGLVAFLCGGLVGSEAGRAAFIRSGALREFAATKLHAVPRLAGTLLAIGGLAVAVPATFAEWSMGAGARAAAAGNLGQAQQEFKQAWQLRAWDSDTALLAAQAFAGPATEGDQQAARYAVEWGPLRGSGRRSHRKQERLWLSDTSTAVTPQRRRICWMRWWPSPPIRRPSTSTAAWRTSAWDIRRRQLLILSMPPRWILPWRRRGECWPISTSGWVITRKLLLLHSALMH				NA	NA	NA	NA	NA
D1-17_00928	219			hypothetical protein	GTGCAGCTGTGCCTCGCGCTGGAGAGCGCGACGGCGGCGGTGCTGTTCCGCTCGAACGGCACCGGCGATAAGGGAACCGGAGTGGCACCGGCTAGGAACGGTGAATACGGGAATAGAATAGAGCCCTTGAACCAGAATTATCGGCCGAGCATAAATGCCAAAAACCCATTGTTTCTCATAAACTGCGCTGATCTTGATCTTTCCCTGCGGCATTCTTGA	MQLCLALESATAAVLFRSNGTGDKGTGVAPARNGEYGNRIEPLNQNYRPSINAKNPLFLINCADLDLSLRHS				NA	NA	NA	NA	NA
D1-17_00929	813		COG0589	Universal stress protein/MSMEI_3859	GTGGGCATATTGGCAGTGGGATACGACGGTTCGGACCCGGCCAAGCTGGCCGTGCGCTGGGCCGTGGAGTATGCAGAGGCGTCGCAGTCCGCGATGCGCATTATCCATGCTTGGATCTGGCCGCTCTTCACCCACGACGTGGGACCGGTTAAGGGCGTCGCCGACAGCGGGCTGCGCCACGCGGCCGAGGAGATCCTCTCCGAGGGTGTGGACTTCGCCCGCGGCATCTCGCCCAGATTGGACATCGAACCGCGGATAGTTGCCGGCCTGCCCGCGCAGGTCCTGCGCCAGGAATCCGTGGATGCTGACCTGCTCGTGGTCGGAAACCGCGGTTTGGGGGGCTTCCTCGGAAAACTGGTGGGCTCCGTGTCTGTTGACCTCACCGGTGCCTGCCCCTGCTCCCTGGTGGTGGTCCGGGCGGAACGCGGGGAGGGAAAACCGGTGGTCGCCTGCATTGACGGGCACCTGCGGACGGTAGTTCTCGAGCACTCGGTCCGCATGGCGCTGGCCCTGCAGACCAAGCTGCGGATCGTCCACGCTGACCCGTCGGGGTCGGTGTGGAAGCGGCATGCCACCCCGACGGAGCAGGGCCGGGACGTGCTGCGTGCCGCCCTGCTCTGGGTGCAGGATCTCGCTCCTGACCTGGCGGTGACGGAGGAACTGCTCTCGGGCCATCCCCTGGCCACTGAGCTGGTTGATGCAGGAGCAGACGCCGAACTGCTGGTACTTGGGGCCCACCGACGCGAAGGCCACCACGGGACACTGGCCACGGTTCTGACCCACGCACACTGCAATGTCATGATTGCCAGGTAA	MGILAVGYDGSDPAKLAVRWAVEYAEASQSAMRIIHAWIWPLFTHDVGPVKGVADSGLRHAAEEILSEGVDFARGISPRLDIEPRIVAGLPAQVLRQESVDADLLVVGNRGLGGFLGKLVGSVSVDLTGACPCSLVVVRAERGEGKPVVACIDGHLRTVVLEHSVRMALALQTKLRIVHADPSGSVWKRHATPTEQGRDVLRAALLWVQDLAPDLAVTEELLSGHPLATELVDAGADAELLVLGAHRREGHHGTLATVLTHAHCNVMIAR				NA	NA	NA	NA	NA
D1-17_00930	1239		COG0861	putative membrane protein	ATGGACGTTCCTTTCCTGGTCTGGGTGCTGACCATCGCGGGAATCCTTGCGCTGCTTGTCTTTGACTTTGTTTTCCACGTCCGCCGTGCGCATATCCCCACGCTGAAGGAAGCCGCGGCCTGGTCGTCTGTCTACGTGGGGATCGCTCTCTGCTTCGGGCTCGGCATCGCTGCCTTCCGAGGCGCCACGCGCGGCGCCGAGTACTTCGCTGGATTCATCACCGAGAAGGCCCTGTCGGTGGACAACCTGTTCGTCTTTCTGGTGATCATGACCAGCTTCCGGGTACCCCGCGAAGACCAGCAAAAAGTGCTGCTGTTCGGCATCGCGTTCGCGTTGGTCGCACGCACCGTCTTCATCCTCCTGGGCGCTGCCCTGATCAACACCTTCGCCTGGGTCTTCTATTTCTTCGGGCTCATCCTGCTGATCACGGCAGGGAATATGCTGCGGCCCGAGGGCACCGCGGAGAAATCCGCCGATAACATCATGGTCCGGACGGCCAGGCGGCTGTTCCACACCACCAACTATTACGACGGCGACAAACTGTTCACGCGTCAGAACGGCAAACGGGCGCTGACACCCATGTTGCTGGTGATGGTCGCCATTGCCGGCACCGACATTCTCTTTGCCCTGGACTCGATTCCTGCGATCTTCGGCCTGACCCAGGACGTCTTTATCGTCTTCACCGCCAATGCATTCGCGCTGCTCGGGCTTCGCCAGCTGTACTTCCTGATCGACGGCCTGCTGAACCGCCTGATCTTCCTTTCCTACGGCCTGGCACTGATCCTGGGATTCATCGGCGTGAAACTCATGCTGCACGCCCTGCACGAAAACGCCGTGCCGTTCATCAATGACGGCAAGCCGGTACCGGTAGTCGAGTTCGATACCGGGTTTTCACTGACCGTCATCATTACTGTCCTCGGGGTCACGGTCCTCGCATCCCTGCTCAGCCCACGGGGCAAGGCCCAGTCGGTTACGGCGGCTGCCCGCCGGGACGCCGCCAACTACCTGGACCCTGACTACACCGCCGACACTCAGGAACGGGACCGGATCTACGCCAGGCTGCTAAAGGAGGAACAGCAGATCCACAGCTTCGGCCGCCGGCACCGCCAAGAGCCACGGGACCAGAAAGAACTGATGAACCTGATCGCGCAGGCCCGCGAAAAACATGATGCGAAGACCGGCAGGCAGGACCCGGTGCAGGAGGACCGCTCCGACGATCCAACGGCGGACGGCGGCTGA	MDVPFLVWVLTIAGILALLVFDFVFHVRRAHIPTLKEAAAWSSVYVGIALCFGLGIAAFRGATRGAEYFAGFITEKALSVDNLFVFLVIMTSFRVPREDQQKVLLFGIAFALVARTVFILLGAALINTFAWVFYFFGLILLITAGNMLRPEGTAEKSADNIMVRTARRLFHTTNYYDGDKLFTRQNGKRALTPMLLVMVAIAGTDILFALDSIPAIFGLTQDVFIVFTANAFALLGLRQLYFLIDGLLNRLIFLSYGLALILGFIGVKLMLHALHENAVPFINDGKPVPVVEFDTGFSLTVIITVLGVTVLASLLSPRGKAQSVTAAARRDAANYLDPDYTADTQERDRIYARLLKEEQQIHSFGRRHRQEPRDQKELMNLIAQAREKHDAKTGRQDPVQEDRSDDPTADGG	PGPT0004905_67	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
D1-17_00931	150			hypothetical protein	GTGGCAACCAGGGCAGAAAAATCCAACTACCGCTACAGCGACTTTTACTGCTTCATGACGCTGGCTGACTTCACCGCATACATTTCCATTGACGACGGCGAAGGGGATGGCGGCATTTCGATCAGTCACCGCCGCGAGACGGCCGCCTAA	MATRAEKSNYRYSDFYCFMTLADFTAYISIDDGEGDGGISISHRRETAA				NA	NA	NA	NA	NA
D1-17_00932	1140			hypothetical protein	ATGCTCGAAACGACCACTTTGCGCGTTGCCTTCGGAGTCATAGCGTTCACGCTGTTTATTCTCTTTTACTCCGTGACCTTCCGCCGGACCCGCGCCGCGTACAGCCGATGGTGGTGCATCGCCCTGGCCCTGTTTCTCGTCGGTGCCACCTTGTACATTTTTGACGGCTCGGCGCAGCAAGTATGGGCAAACCCCTTGGGGAATTCGATGCTGGTCGCCGGCGCAGGCAGCGTGTGGGCCGCTGCCCGCTCGCTGCGCACTGCTCCGCCAAAACCCTGGCTGCTCCTTTCCGCTGCCGCTGTGACTGCAGTTGCTTCCGCGCTGGACAACCCTGCTGTCAATGACTGGTCCGGGGGGCCGGTGTTCCTGGCAATGATGTGCCTGATGTTCACCCTTGCCTCGTCCGAGCTGATCCGTCTAAAACGGGGGTTCTCCGACGTGCAGCTGCCGCTGGCGGCGGCCTCCGGGCTCCTCGCCGTCTTTTACTTCAGCCGATGCATTGTATTCGTCGCGGTGGGACCAAGGGATCCGTTGTTCCTCGGGGTCTTCGGTTCGGAGGTCACCACCCTGGTTAACATGGTGCTGTTGGTCGCCGTGTCTTTCAGCATGGCCGAACTCAGCAGTGAACAGGCAGCCAAGGACCTCAGCGCCCGCGCGAACAGGGACGGGCTGACCGGGCTTCTTAACCGGCAAGGGTTCCTCGATCTGGCCGCTGATGAACTGCGGCGCGGGAATGGCGACGGAACGGTGACACTAATTCTCGCCGATCTCGACCACTTTAAGGCGATCAACGACACGTACGGGCATTCGGCCGGCGACTCAATCCTCCAGGCATTCGCCACTGCGTGCCGGAGCACTGTCCGCTCGAGCGACCTGGTCAGCCGGTACGGGGGCGAGGAATTCGTGATCCTGTTGCCCGACACCGGAGCCGACCGTGCCCAGGAGATCGCCTCAGAAATCAGCCGACTGCTCAGGATCGCGGAATTACCGGACGGCATCACGCATCCGACTGTCAGCTATGGAATCGCTTCAGTCCGCAACGGGGAGCCGGATCTTGGGAAGATGATCGCTTCGGCCGACGCCGCCATGTACGAGGCCAAAGCGAACGGCCGTGACACTGTGGTCCGGTCAACAGACTAA	MLETTTLRVAFGVIAFTLFILFYSVTFRRTRAAYSRWWCIALALFLVGATLYIFDGSAQQVWANPLGNSMLVAGAGSVWAAARSLRTAPPKPWLLLSAAAVTAVASALDNPAVNDWSGGPVFLAMMCLMFTLASSELIRLKRGFSDVQLPLAAASGLLAVFYFSRCIVFVAVGPRDPLFLGVFGSEVTTLVNMVLLVAVSFSMAELSSEQAAKDLSARANRDGLTGLLNRQGFLDLAADELRRGNGDGTVTLILADLDHFKAINDTYGHSAGDSILQAFATACRSTVRSSDLVSRYGGEEFVILLPDTGADRAQEIASEISRLLRIAELPDGITHPTVSYGIASVRNGEPDLGKMIASADAAMYEAKANGRDTVVRSTD				NA	NA	NA	NA	NA
D1-17_00933	234			hypothetical protein	ATGGCGGTCTGCGACACCTGCGGCAACGACTACGACAAGACGTTCACCATCACGAGAGGTGAACAGACCGGAACCTACGACAGCTTCGAATGCGCCATTCATGCCATGGCGCCGGCCTGTGCCCACTGCGGCTGCCGGATCATCGGACACGGCACCGAGAGCGGGGGCGCAATGTACTGCTGTGCCAACTGCGCCCGCGGCGCCGGGGACACTGGCGCGGTCGACCGGAGCTAG	MAVCDTCGNDYDKTFTITRGEQTGTYDSFECAIHAMAPACAHCGCRIIGHGTESGGAMYCCANCARGAGDTGAVDRS				NA	NA	NA	NA	NA
D1-17_00934	2001			hypothetical protein	TTGAAGGACCCCCAAATTCGTTCATCGTCGCTCCGCCCTGCCCTCGCCGCGCTGCTGCTGAGCTCATTAACAGCGACGTCCGCCGGAACTGCCGCCATAGCGGCTCCGGCCGCGCCGGAATCTCAGCAGACGGAAACCCCGACGGCGGCCCAGCAGCCGGGCGCCGCCCGGTACCTCGTGCAGTACACCGCCGGGACCGATGTGGCAGCGAAGGCGAGGGGTCTGCTCGCCCGGAATATCGCCGTCGGACGCACTTTCACGAAGGCACTGCGCGGTGCGGTTGTCTCTGCAACCCCCGCACAGGTGGCGGAACTGAAACGCTCGGCCGAGGTGGCCGCCGTCGAGATCGACGCGCCGGTCACAATCTCCGAGACCCAGCAACCGGCACCGTGGGGCCTGGACCGCACGGACCAGCGGGCACTGCCGCTGTCCGGCTCCTACACCTCGGCCACTGCCGGCGCCGCGGTGACCGCCTACGTCGTGGATACCGGAGTGCTGGCCTCCCATGCGGATTTCGGCGGACGCGTTGCTGCGGGCTGGACGGCGGTCGCCGACGGCCACGGAACCGGAGACTGCAACGGCCACGGAACCCACGTCGCCGGGACCATTGCCGGCAAAACCTACGGCATGGCCAAGGCCGCCACAGTTGTCCCCGTCCGGGCATTGAACTGCGAAGGCAAGGGGTACAACTCGGATGTGATCGCGGGCCTCGAGTGGGTCGTGTCCCATCACCAGGCGGGAACGCCCGCCGTGGCCAACCTCAGCCTGGGCAGCCCCGCGAGCTCCATGGTGGACGCCGCGGTGCAGGGTGTAATTGCCGACGGCGTCTCAGTCACCGTGGCTGCCGGCAACTCCGCCGTTGACGCCTGCACCAGCTCTCCGGCCCGGGTGCCGGAGGCCCTAACCGTTGCAGCGAGCGATTCCTCGGACCGCCAGGCCTCCTTCTCCAACTTCGGCAGCTGCGTTGACCTGTATGCGCCGGGTGTTAGCATCGCGTCCGCTGGCATCGGCTCGACGACGGCCCAGGCCACCATGAGCGGGACCTCCATGGCGGCGCCGCACGTAGCCGGCGCGGCGGCGCTCCTGCTGTCCGGAAACCCCGCACTCAGCCCGGCTGACGTCTCCGCGAAGCTGGCGGCGAACGCCAGCTCGGGTGTCATAGCAGGCCCCGGTGTTGACACACCGAACCGCCTGCTCAACACCGAGCCTGCAGCCCCCTCCCAGACGCCGGTTGCCCAGGAACCCGCGCCGCCGGCAACCGCCATTTCCGGACCGTCCATCCGCAGCGCCGCCGACACTTTGGCTGTCGCCTCGGACGGCGTGCTATGGAATTACCGGGCAAACGGCCAGGGCAGTCTCCTGCCGCGCGAAAGGATCGGCGCCGGCTGGGCAGGACTGTCGAAGGGGTTCGTAACCGACTGGAACACCGACGGCGTCTTCGACGTCATGGCGCAGTGGAACGACGGGCGGATGATTTACTACCAGGGCAAATCCACTGGGGGATTCGCCCCGGGCCAGGTTCTCAGCAAAGGCTGGGGCACGTATCACGTGACGGTCGGCCGGTGGCGCAAGGCCGATAAGTACCCGGGCATCCTTGCCTACGATTCCGCCGGAACGCTGTGGTACTACGGCAACAGCACCGGGAAGACCCTTACCCCGCGCGTCCGTACGGGAACGGGCTGGCGCGGCTACTACATGACCATGGCGGACTTCGACCAGGACGGGGCGCAGGACGTCCTCACGAGGCGGAGCGACGGCAGCCTCATGCTGTACCGCTCCACGGGAACCGGCAGCTTCGTCTCCGAAACCAGGCGCCGGATCGGCGGCGGGTGGAACACCATCAACAGCATCGCCAAAGTGACGGGCTTCCGCACCGGAACGGACGGACTCATCACCCGGCTGACCGACGGCAGGCTGGCCCACTACCCCTACAGCAAGGGGACCATGGGCACACGGAGTATCATCAGCGGAGGCTGGGGCAGCTATAACATCCTCCGCTGA	MKDPQIRSSSLRPALAALLLSSLTATSAGTAAIAAPAAPESQQTETPTAAQQPGAARYLVQYTAGTDVAAKARGLLARNIAVGRTFTKALRGAVVSATPAQVAELKRSAEVAAVEIDAPVTISETQQPAPWGLDRTDQRALPLSGSYTSATAGAAVTAYVVDTGVLASHADFGGRVAAGWTAVADGHGTGDCNGHGTHVAGTIAGKTYGMAKAATVVPVRALNCEGKGYNSDVIAGLEWVVSHHQAGTPAVANLSLGSPASSMVDAAVQGVIADGVSVTVAAGNSAVDACTSSPARVPEALTVAASDSSDRQASFSNFGSCVDLYAPGVSIASAGIGSTTAQATMSGTSMAAPHVAGAAALLLSGNPALSPADVSAKLAANASSGVIAGPGVDTPNRLLNTEPAAPSQTPVAQEPAPPATAISGPSIRSAADTLAVASDGVLWNYRANGQGSLLPRERIGAGWAGLSKGFVTDWNTDGVFDVMAQWNDGRMIYYQGKSTGGFAPGQVLSKGWGTYHVTVGRWRKADKYPGILAYDSAGTLWYYGNSTGKTLTPRVRTGTGWRGYYMTMADFDQDGAQDVLTRRSDGSLMLYRSTGTGSFVSETRRRIGGGWNTINSIAKVTGFRTGTDGLITRLTDGRLAHYPYSKGTMGTRSIISGGWGSYNILR				NA	NA	NA	NA	NA
D1-17_00935	723			hypothetical protein	ATGCCCATGGGGGGAACCATGCCTGCTCGTGTTGTTAAAAAAGTTCACCGTTCCGGAAAAATCCGGGCCCTGCTGGCCTCCGGGCTTGTTTTGGGAGTAGGAGCCACCTTCACGCTGGCTGCCTGGACCGACAACGAGTGGGTCTATGGTGGCGCCGGGCCCGGCAACGACACGCCGGGAACCAAAGTCAACCAGATGCAGCAGAACACTGTGCTTCCGCCCGCCGAGGCGAAGTGGACGGACGAACCGAATGCGAACGGTGGCCGCCTCGACTTCACCATTGAGGCTGCTGACCTGTTCCCCGGGAAGACGGTTTACGCGCCGCTCCAGCTTCGCGCCAAGGCCGGGTCGGGAGACCTTAAGGTCAAATTGACCGATGCCATGCAGGCGGAGAACCCTGACCCCGCCGTCGGGGTTGCCAACAGTACTGACCTGTATGAGGCTCTGGTCTATCGTGCCTGGGTCGGCGTGTCAGCAACGAACTGCACTGCTGCCGGCACCAAGCCTGCCGGGACAGAACTTGTCGGATCCGATGTACTCGGCAGTCTGCCACTGAACACCCGCGGATCGCGTTCCTTTGACCTTCCTGCCGGTGCCGCCGGTCAGCCCGGGGAGCCCGTGAATATCTGCTTCGCGATGACTCTGCCCGCCGGTGCTGATACAAGTCTGCAGGGCAAAAAGGTCGTGCCGCTGTGGAAGTTCACCAGCTCCGTCGGTCAGTAG	MPMGGTMPARVVKKVHRSGKIRALLASGLVLGVGATFTLAAWTDNEWVYGGAGPGNDTPGTKVNQMQQNTVLPPAEAKWTDEPNANGGRLDFTIEAADLFPGKTVYAPLQLRAKAGSGDLKVKLTDAMQAENPDPAVGVANSTDLYEALVYRAWVGVSATNCTAAGTKPAGTELVGSDVLGSLPLNTRGSRSFDLPAGAAGQPGEPVNICFAMTLPAGADTSLQGKKVVPLWKFTSSVGQ				NA	NA	NA	NA	NA
D1-17_00936	633			hypothetical protein	ATGGTAATCCCTTCAAGGCACCGCCTCGAATCTGGCGGACCGAATTTCTGGCATGAGCTCCTTAGGCGGACGATCGGCCACGCCGGATCCTTTGGTCTTACCCTGGTGGCTGTCCTCGGCGCCGTCTGCATCGCCTGCATTCTCGCCTCCGTGCTGTTCAAGGTAAGCTTCGTCGTGTTCCGCACCGGATCGATGGAACCCGCGTATCCGGTAGGTGCCCTGGCAGCGGTCCGCGAGGTCCCGGCGTCGTCCTTGAAACCGGGCGACGTCGCCACCGTTCAGCGGACGCCCGAATCCGTTCCGGTCACGCACCGCGTCGTCACCGTCACGCCCGACGACATGTCGGCCAACGGCGCCGTGCTGGTTCTGAAGGGCGACGCCAACACGTCGGAGGACCCGGTGGAATACCGGGTCCAGTCAGCGCGCATGCTGCTCTTCTCCGTTCCCGAGCTCGGGTCCTGGGTGATGGGCGCGCGGTTACCCTGGGTGATTGGCGGCAGCACCGCCCTCCTGGCCGGGCTGGTGGGCTGGGTATATTGGCCCAAGCGGCGGGAACCGTTGACGGGCGACGGCGGAACCGCCGACGTCGGGTCTCCTGAAGCGGACGCAGCGGAACTTGCCGGGGAGGCCTGA	MVIPSRHRLESGGPNFWHELLRRTIGHAGSFGLTLVAVLGAVCIACILASVLFKVSFVVFRTGSMEPAYPVGALAAVREVPASSLKPGDVATVQRTPESVPVTHRVVTVTPDDMSANGAVLVLKGDANTSEDPVEYRVQSARMLLFSVPELGSWVMGARLPWVIGGSTALLAGLVGWVYWPKRREPLTGDGGTADVGSPEADAAELAGEA	PGPT0026405_989	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SPORULATION_RELATED_FUNCTION,PGPT0026405-sipW-K13280	NA	NA
D1-17_00937	717			hypothetical protein	ATGGGACGGCTACTTTGCGGTAGCGCCGCGCTCGCCGTCTCTGTTCTGTTCGCGCTGCTCTCAGGAACAGGCACCGCCGCGGCAGCTGACAACGTCATACCCGTGCCGGAAACAGGAAGAGAAGGAATGCTGCGACTGACATCATCGGTCTATCCGCTGGAGCTTCCTTCGCTGTCCGCCGGCCAGTCGTTCAGCTGGCAGGTGGGCGTGGTGCTCGACGGGCCTATCAGCGCCTCGGCCACCGTCCAACTGCAGGCCTCCGGCTCCCTCGCGTCAGGGTCAGAAGCCTACCGAATCACTGCGCGCTCCTGCCCGGCACAGTGGCAGGGAAGCAGCGGCACAAATGCCCGCATGCGGTGTCCTTCCGGGGAACGCGCGATTATCTCCGCCAACAGCTTCTCCGCGGCCGGCACCTTCAGCTACCCCCTCGGCAGTTTTACGACGGCGGACGCGCCCTGGGTGCTGTTCACCCTGGAAAGCCGTGCCTCCTCAGAGACCGGGTCCGGCCTTGAGCCCGGTCCCGAACCCGGCCCCGGCGCTGGCACCTTGAAATTCGGCATTGGTGTGGTTGCCGGCGGCGACGAGTCGTCCGCGACGCCGTTGACCGGCCCGCTCGCCACCACTGGTGCGCAGATCCTCGGCTACATCGGTGCAGGCATCCTGCTGGTGGCTGCGGGTGCAGGCACACTGATGGCCCGCCGTCGGAGGTTCTCGTGA	MGRLLCGSAALAVSVLFALLSGTGTAAAADNVIPVPETGREGMLRLTSSVYPLELPSLSAGQSFSWQVGVVLDGPISASATVQLQASGSLASGSEAYRITARSCPAQWQGSSGTNARMRCPSGERAIISANSFSAAGTFSYPLGSFTTADAPWVLFTLESRASSETGSGLEPGPEPGPGAGTLKFGIGVVAGGDESSATPLTGPLATTGAQILGYIGAGILLVAAGAGTLMARRRRFS				NA	NA	NA	NA	NA
D1-17_00938	1710			hypothetical protein	GTGACCGCTGTGACGGGAAAGCGGCGTACCAGGCGCCTGGCAATAGCGGCGCCGCTCGCGGCGTTCACCGTCGCATCTACGGCCCTGTTGGCCGCCACCTCGGGAACCCTCGCCGCGTGGACGGACGATGAGTACGTCAGCGCGGGCGCGGGGGTCATGGTGGCCGGCAACTGCAGCACAACCGCCCTCTTCCATACCCAGTCAGCGGCACGGCAAGTTTCCGGCTCCTTGGGCGGCCAGGACTTGGATACATTGGCTGGCGTTGAGGGTATCCGTGTGGGAAACGCGGGCGGAACGGTGACGGTGGCACCGTCAACGGCCACCAAGATTGATGCGGTCACCTACACGTCAGCACTGCGGGCCGTAGCCTTCGGCTCACCGCTGCTCTCGGCAGCGGTGGGGCTGAACCAGCCAGCCGGAAGCGCCGGGGTCTACAACCAGTGGGCGCGTTCTACGGCAAGCGGGCAGGCGACCGGATCGGCCGGTCTTGTCCACAATCAGTCCGGAGCCATCGACGGGACCGGAACCGCGGCCGGGTCCACCACTAAGCCGACGGCAGCCAGCATCAACCTTGCCTCCTTCGTTCCGGCATCGCAGGCCGCGATTACCCTTGACGTCGGTGCTGTCGCCAGTTCGTCTGCGGTGGACGCGTGCGTGATGACCAACGGCTGGCCCGCGCTTGCCCCGAGCCCTGCGGTGACGCGCGACTACGGCATCGCCGGGCTCCGGCTGAACCTGTCCGCTGGGGCAGTCGCGCCTATGATCGCCAGCGTGTCAGCAACGCTGGACGGCATTCCTTCGAAGCTGGCCGCTTTGGAGTCCCCGACTGGTTCCTTGGCGACCGCCATCAATACGGACGTGACCGGCCTTGTGTCGGGCGGGCTGAGCGCCGAGGCGACAACTAAGATCACTTTCGGCGCTCCAGACCTGACCGCAGCGCGGGCGTTGCTGGGTAACACCCTCACCGATGGAGTGGTGACGGTTGACCTCGCTAACGCCCGGATCTACTTTGACCTCCCCCGGCTTGCCTACGGTCCAGCTGGACTCAATGACCGGCCCGCCAACACACAGATGGTTCTGAGCACAGCTGCAATCCAGGACCTGACGCAACGGACCTCGGCACTGCTCAAGACCTGGGGCGACTCCGTGACCACCGAGGTGAAGAAAGCGTTGGCCGCCACCTCCTTCACTATGGAAACCAAGGTGCTGCTGTCCCTCGCGGGCCTCCCTGTAGCTGAAGTTACGATCGGCTACAACACCACCTTGGGCGCATTCCAGTCCGGGCCCCCGCCCACGCCAACGTTGTCCACGAAGGTCCTGGGCACTGTGGACCTCGGGCTTCTCAAGCCTGTCACCGAAGCGTTGCTGGCAGGGACAGGGAAAGTGGTGGCCGGGTCCCTCGACGCCGCGCTCCTTGCTGCCGGGGGACTGCTGCCAACAGCGGATGCCGCGATCCGCTCCGCCGTCGTTCCCGTCACAGAGGCGGCCGGTGCGGCGCTGGCCCCGCTGGCGAACACCCTGACCGTGACCGTAAATGTGCAGCCGGACCAGCCCGGTGCCCCTGCCGGTAGTGCAGCCGCAGGCAGCTCGCTGGCGGGGGAGTACAAGGTCTCTGCGCTGCGGGTCGGCGCCGTTGGCAGCACCGCCGAGCTTTACCTCGCTACGGCGTCGGCCGGCCCGGTCGCCTTCCGGCCCGACGACGGCGGCTGA	MTAVTGKRRTRRLAIAAPLAAFTVASTALLAATSGTLAAWTDDEYVSAGAGVMVAGNCSTTALFHTQSAARQVSGSLGGQDLDTLAGVEGIRVGNAGGTVTVAPSTATKIDAVTYTSALRAVAFGSPLLSAAVGLNQPAGSAGVYNQWARSTASGQATGSAGLVHNQSGAIDGTGTAAGSTTKPTAASINLASFVPASQAAITLDVGAVASSSAVDACVMTNGWPALAPSPAVTRDYGIAGLRLNLSAGAVAPMIASVSATLDGIPSKLAALESPTGSLATAINTDVTGLVSGGLSAEATTKITFGAPDLTAARALLGNTLTDGVVTVDLANARIYFDLPRLAYGPAGLNDRPANTQMVLSTAAIQDLTQRTSALLKTWGDSVTTEVKKALAATSFTMETKVLLSLAGLPVAEVTIGYNTTLGAFQSGPPPTPTLSTKVLGTVDLGLLKPVTEALLAGTGKVVAGSLDAALLAAGGLLPTADAAIRSAVVPVTEAAGAALAPLANTLTVTVNVQPDQPGAPAGSAAAGSSLAGEYKVSALRVGAVGSTAELYLATASAGPVAFRPDDGG				NA	NA	NA	NA	NA
D1-17_00939	1113			hypothetical protein	GTGGGCTTAACCGGCCGCGATGTCTTCGGCTCCTTGGGAAGATGGAGTATGGAATTCAACCGGTTGCTGCAGATCCGGCGCATCTACGCGCAGCCTGCTGCACTTGAGCTTCCCCGGGGCAAGGAGATCGTCGGACGCTGGCCGGACGCCGACGTCGTGCTTGTCGACAACCACTGGAACATTCCGGAGGTGCACGGTGATGAAACGAACGTGCCGCGCTGGTCCCGGATCAAGACGGAGGCCCTCGTCCTCGGCGTCAAAAAGGCGCTGACCGTCAAGCCGAACGGCCGGTCCGCGGACTTCATTGCGCCCTCAACCGCGAACGGCTGCGCCATGGCCTGCGCCTACTGCTACGTGCCCCGGCACAAGGGGTACAGCAACCCGGTCACCGTGTTCGCGAACATCGACCAGATTGCCGGAACCCTCGAGCGGCACGCCACGCGCCAGGGCATGAAGCTGGAGCCCAACCAGTGCGACCCCGAACTCTGGGTCTACGACATCGGTGAAAACAGCGACTGCTCTGTCGACGCGCTGATCAGCGACAACGTGGAAGATCTCGTCATGCTCTTCCGCGGCTTGCCCACTGCCAAGCTGTCCTTCGCCACCAAGTACGTGAATCCGGCGATGCTCGGCTGGGACCACGGCGGTCACACCCGGATCCGCTTTTCACTCATGCCCGCGGATCTGGCGAAGTCGATTGACGTGCGGACCTCGCCGGTGGCTGAACGCATGGCTGCAATCAATGACTTCGTCGCTGCCGGGTACGAGGTGCACGTGAACTTCTCTCCCGTCATCATTACGGACACCTGGCTCAGCGATTGGGCGGAGCTGCTGCGCCAACTCGATGACACCCTGACAGCCGCCGCAAAGGCACAGCTCGCGGCGGAAGTCATCTTCCTGACCCACAACGAACGGCTCCACGAGGTCAACCTGGGGTGGCATCCGCAAGCCGAGAACGTCCTGTGGCGCCCGGACCTCCAGGAATCCAAGGTCTCGTCCAACGGCTTCACCAACGTCCGCTACCGTTCAGGAACCAAGGCGGGCTATGTGCGGCAGCTGACCGCACTGATCAAGGAGATCGCGCCTTACTGCCGCATCCGCTACGCGTTCTAG	MGLTGRDVFGSLGRWSMEFNRLLQIRRIYAQPAALELPRGKEIVGRWPDADVVLVDNHWNIPEVHGDETNVPRWSRIKTEALVLGVKKALTVKPNGRSADFIAPSTANGCAMACAYCYVPRHKGYSNPVTVFANIDQIAGTLERHATRQGMKLEPNQCDPELWVYDIGENSDCSVDALISDNVEDLVMLFRGLPTAKLSFATKYVNPAMLGWDHGGHTRIRFSLMPADLAKSIDVRTSPVAERMAAINDFVAAGYEVHVNFSPVIITDTWLSDWAELLRQLDDTLTAAAKAQLAAEVIFLTHNERLHEVNLGWHPQAENVLWRPDLQESKVSSNGFTNVRYRSGTKAGYVRQLTALIKEIAPYCRIRYAF				NA	NA	NA	NA	NA
D1-17_00940	867		COG0589	Universal stress protein	ATGCAGGAAGCAAAATCCATAGTTGTCGGTTATGACGGTTCAGCAGAGGGAGAGGAGGCCATCCGCTGGGCGGCGGAACAGGCGTCCCTTCGTGGCTTTCCGCTTCAGGTTGTGCACTGCTCCCTGTGGCCGCTGCTGACCAAGAACCTCGGTCCGGTGCCGGGCGTCGCCGACAGCGGACTGGAGCATGCCGGCCAGGCCACGCTCGACGAAGGTGTTGCCCACGCAAAGGCTGCAGCGCCCGGGGTGGAAGTCCGGTCCACCCTCGTCTATGGGTGGCCGGCCGTATATCTTCCCAAGCTTTCCGCAGGCCAGGAGATGCTGGTGGTCGGCAGCCGGGGCATCGGCGGATTCATGGGGCTGGTCGTAGGGTCTGTCAGCCTGGAGATGGCCGCCACCGCAGCCTGTCCCGTCGCGGTGATCCGGTCAGATGTTCACCGTGAGGGGCCGGTCGTCGTCGCGATCGACGCTTCCGGGTCCGCAACAGCACTCGAAGACGCATGCACCCTGGCCAGAGTGGGCAAAGCGGACCTGACGGTCGTTCACGTCCAGCATGCGCCGGCGGGTTTCAGGATGCCTCACGACCACGCCACTGCCCACCCGTCCTCAGAAACGCTGCTGGAGTCGGCTCTCAGCAAGGCCCGAGATCTGGCTCCCGAAAGCAAGGTTGAGGGGCAACTGCTCACCGATACCTCCATCCCCAAAGCCATCCTCAAGGCGGCGCAGAATGCCCGCATCACCGTCGTCGGAACCAAAGGCCAGGGACTCATCAGGGGCACTTTCGGCTCCACTGCCCACGCTGTCCTCCACCATGCCAAGGGCCCGGTTCTCATTTCCCGGCGCAACCCGGCCGGGCACGCGGGATAG	MQEAKSIVVGYDGSAEGEEAIRWAAEQASLRGFPLQVVHCSLWPLLTKNLGPVPGVADSGLEHAGQATLDEGVAHAKAAAPGVEVRSTLVYGWPAVYLPKLSAGQEMLVVGSRGIGGFMGLVVGSVSLEMAATAACPVAVIRSDVHREGPVVVAIDASGSATALEDACTLARVGKADLTVVHVQHAPAGFRMPHDHATAHPSSETLLESALSKARDLAPESKVEGQLLTDTSIPKAILKAAQNARITVVGTKGQGLIRGTFGSTAHAVLHHAKGPVLISRRNPAGHAG				NA	NA	NA	NA	NA
D1-17_00941	375			hypothetical protein	ATGAGGACAGGAATGGCAGCAGAAGGCAACGAAGCCGTCTTCTCCATTGTGCGGCTGCTTCGACTCGCTCAAGACCTTGAAAGCGACGCCGTAGCAATGAGCTACGCGGCAGCGTTCCTCGACATGCTCCCTGCCCGCATCGAACTCCTTCTTTCAAGCGTCCGCCAGGGTGACTACGTTGCGGCGATGGATACAGTCCTGAGCCTGAAGGTCCGGTCCTGCATGGTCGGTGGGCTTGTCGTGGAACAGAGCTGCCGCGCTCTGGAAAAGTGCCTGTCCGACGGCGACCCCTCCTCCGCCGTCATCGCCGCCCAGCGGGTCGCGAGGGACGGTCACGCGCTTCGACTGGCACTGGAGGAGTTTCTTCGGCAGTAG	MRTGMAAEGNEAVFSIVRLLRLAQDLESDAVAMSYAAAFLDMLPARIELLLSSVRQGDYVAAMDTVLSLKVRSCMVGGLVVEQSCRALEKCLSDGDPSSAVIAAQRVARDGHALRLALEEFLRQ				NA	NA	NA	NA	NA
D1-17_00942	549			hypothetical protein	GTGGACGTGCACTCAATAAGCAGCAGAGCGGGGGCCGCCGCCGTGGCCACCGCTCTGCTGCTGTGCACGTCATTGCCGGCATCCGACGCGGCCAGCAGCGCCCAAGCCGCATCAGAGACCACGGCCGTCACCAGCGGCAGCTGGGGAGCTGTTGCAACAACCCGCACGACGGCGCCCTATGGCACCGGCCCCTTGGCAATGACTTTCACTCTCCTCGGAACAGGTACGAAGTACTTCAACGTCGTCAACACAGGGACCCTCCCCCTCAGCGGTGGGACATTCACAGCAACCACAACCGCAAGCTCCGCGGCCATCGAGGCGTGCAGCACTACCTGGAGCGAGTCAAACGGCACGTGCCCCTCCGGCGTCATCACCACTGTCACCAGCACCGGAGCCGGCGCCAAGCCGTTTTCGGCCCCGCTCCCTGCTACGGGCTCCTCGATCCGCCTTCGGGCCCGGATCACCAGCCTGCAGGTTGATTCGATAGTGACGGTCAGCGTCCAGGTAACCCGGGCACAAGCTCGCGCCGCAACCATCTCGGGCGGCTGA	MDVHSISSRAGAAAVATALLLCTSLPASDAASSAQAASETTAVTSGSWGAVATTRTTAPYGTGPLAMTFTLLGTGTKYFNVVNTGTLPLSGGTFTATTTASSAAIEACSTTWSESNGTCPSGVITTVTSTGAGAKPFSAPLPATGSSIRLRARITSLQVDSIVTVSVQVTRAQARAATISGG				NA	NA	NA	NA	NA
D1-17_00943	666			hypothetical protein	ATGTCCGGTCTCGCTACAGCTTCCGCCTCCCGCCGCCCCAGCCCCCGCCTGATTGCAGCCTTCGCCGTCGGCGCTGCCGGCCTGGCCATCACCGGCGGCGGCGTTTACGCCGCCCTGAACGCCACCGCGACCAACACCACGGCACAGAGTGCCAGCAGCGGCATCCTCAGCCTCACCATGACGCCCAACGGCACAGGCTTCAGCCAGGGCATCTCCAATCTCGCCCCCGGCGACGTGGTGAACCGCTACGTCAACCTGACGCAGGGCGCCGACCTCGCCGGTGAGGACCTCACCCTGGCTGTCAACGACGCAACCCCGACGCTGCTCACCACTGATGCCACGAAGGGACTTCGAGTCACAGTCACGCAGTGCATCGGCGGGGACTGGACCGTTGCGGCCGGCGGAGCATGCACGGGCCTGGGTGCAACCACTGCTGTTCTTGCCAATGGCGTGCCGCTAAGCACCATTTCCACCACTCCGGCAGCACTTGCGGGCTCCGTTGCCGCAGGCTCCACGGTGAAACTGCAGCTTGCGCTGTCCCTGCCGGAACAAACTGAAACCACGGTCAACGGCACACGCCCTGCCGGTACTATCCAGGGCCTCTCCGCGGCGCTGACCTGGACCTTCAGCGAAACCCAGCGCGCCGCCACCACCACCGGAAGCTAA	MSGLATASASRRPSPRLIAAFAVGAAGLAITGGGVYAALNATATNTTAQSASSGILSLTMTPNGTGFSQGISNLAPGDVVNRYVNLTQGADLAGEDLTLAVNDATPTLLTTDATKGLRVTVTQCIGGDWTVAAGGACTGLGATTAVLANGVPLSTISTTPAALAGSVAAGSTVKLQLALSLPEQTETTVNGTRPAGTIQGLSAALTWTFSETQRAATTTGS				NA	NA	NA	NA	NA
D1-17_00944	600			hypothetical protein	ATGGGCGCGGCAACCAGCACAGGCAACGCCTCAGCCTCAATCTCTGCCTCAGTGGCAGCAGGAGCACGCTTTGCCATCGTTCGCCGCATTCTGGGTCTGGTCGCCAGCACCGTCGTCGCCATTGTCTTCCTGGCGACGTGCGTCGTGGCTCCGCTGCTGCATATCGGTTACTCCCCGGTACTCACCGGCAGCATGCGCCCGGCCTTCGCTCCGGGAGACCTGCTGATCACCGCGCCTAAAGACGTGGGTGACCTGCAGCCTGGCCAGGTTGCAGTTTTTACCCCGCCAGGCGAAAGCACCCCCTACGCCCACCGCATCACTGCTATCGCTGGTACCCGGGAACACCCGGTGCTCACTACGAAGGGTGATGCTAACCCCGCTGCCGACAAGTGGCGGGCAAGGCTGGATCAGGCACAGGTGCCCGTAGTCGTGGCCAGCGTCCCGCAGGTTGGCGGCGCGCTTCTCTGGGCACAAAACCCCGTCCACCGCGCCATCTTCACCGCCCTGTTCGGCCTGTCACTGACAGCCACCAGCGTCATCTGGATCCTCCGCGCACCACCGGTAGTTTCCGGGCAAACCAGCCCCGCCGTCACTGTATAA	MGAATSTGNASASISASVAAGARFAIVRRILGLVASTVVAIVFLATCVVAPLLHIGYSPVLTGSMRPAFAPGDLLITAPKDVGDLQPGQVAVFTPPGESTPYAHRITAIAGTREHPVLTTKGDANPAADKWRARLDQAQVPVVVASVPQVGGALLWAQNPVHRAIFTALFGLSLTATSVIWILRAPPVVSGQTSPAVTV				NA	NA	NA	NA	NA
D1-17_00945	2223			hypothetical protein	ATGCCTCACCCGCGCAATACCCTGTTCCACTCATCGCTGGCACTGACAGGCATCACCGTTCTGGTGGCCGCCACGGTGCTGATCGCACCGCCTGCATCAGCGACCCAAGATGTGCCCGCACCCTTTCCGACGCCCAAGCCGTCTCCGGCCGCTAAGGGCCCCGCCCGCACCGCCGTGCCGACGGACCAGTTCATCGTCAAGTTCAAGAACCCGACTGCCTCGCCCGGCCGGGCCAAGACGTTCACGTCCGCCGCAGCCAAAATCGGCACCCAAGTCAAGGACTTGCGGGCTACGGCCGGTGGCGCCCGCCTCCTGCGTACGAGTAAAAAGCTGGCTGCCGGGGATGCCGGGGCATTCCTGGCGTCTTTGAGGTCAGACCCGGCAGTGGAGTATGCCGAGCCGAACGGCGTCCTGCAGGCGAAGGCCAATCTGCCGAATGACCCCGGTGTGCCCTACCAGTGGAATCTGTTCCAGGAGCCGGCCGGCCTGCGCGTGCCGGGCGCCTGGGGTGTAACCACCGGTGCCGGGGAAGTGGTGGCCGTCGTGGACACCGGGGTCATAAACCATCCCGACGTCAACCCAGATCCGGGACCAGGCGTCGAAACGAACGTGCTGCCGGGCTATGACATGCTCCGGGACCCGTCCGATGCCCGTGACGGAGACGGCCGCGATCCGGATCCAACCGATAAGGGGGACTGGGGGGATCCAGAGCTCTGCGGGTCGGGCTCGCCGTCGTCATGGCACGGCACCCATGTGGCAGGGGTTATCGCTGCCTTCACCGACAATGGGGAAGGCGTTGCGGGCGTGGCACCCGAAGCCAAGATCCTTCCTGTGCGCGCGCTTGGCGCGTGCGGCATGGGGGACCTCCTGGATATTGCCGAAGGCGTACTCTGGGCAGTTGGGGAACAGATTGACGGCCTACCCATAAATCCCAATCCCGCCGGCGTCGTTAACCTGAGTCTGGGCGGTTTCGGCCCATGCTCCCGAACCTTTCAAACCGCTATTAACACCGCCCGCCAGAAGGGCGCCGTCGTTGTTGTCGCTGCTGGTAACGAGAGCATTCCGGCTTCGGAGTCTGAACCCGCCAACTGTCAGAATGTCATCAGCGTCGCGGCCAGCGACCGCACTGGCGCTCTGGCACCTTACTCAAATTTCGGGACTGCCGTTGACGTTACCGCCCCGGGGGGAGACATGAGTTTCAGCGGCTATGACGGCATTTTCTCGACGTCAAACGAAGGACAGAAATCCGAAACAACGGACACATACCAGGTGTCACAGGGCACGTCTGTCGCTGCACCCCATGTGGCTGGTGTAGCAGCCCTCCTTATGGCCAAAATGGGCGCTGCAGCAACACCGGAGGCAGTGGAGGAACGGCTGAAAGCCACCGCCCGGCCCATTCCCGGCGGATGCCCGCTCGGCTGCGGCGCCGGCTTGGTGGACGCCGCAGCGTCGGTGCTGCCCGATCGAGTGCACATCACCATGATCGTTGCCGCCGGAGACCTGAACTCTGACCGGAGGGCAGACGTCCTGGCGCGTGACTCCGGCGGGAACCTGTGGCTGTACCCCGGCAGCGGCCGCGGCGGGTGGCTGCCCCGCGCCCGGGTGGGCGGCGGCTGGAACGTGATGACCGCCGTCGTCGGTTCCGGCGACATGAACGGCGACGGCCGCTCTGACATCCTGGCCCGCGACACCGGCGGAACGCTGTGGCTGTACCCCGGCAATGGGCGCGGCAACTGGCTGCCCAGGGTGCGCGTGGGCGGCGGCTGGAACATCATGAGCGCCCTGGTGGGTCCCGGCGACATGAACAGTGACGGCCGATCTGACTTGCTGGCCCGCGACACCAGCGGAACGCTGTGGCTGTACCCGGGCAACGGGCGCGGTAATTGGCTGCCCCGAGCGCGCGTGGGTGGCGGCTGGAACGTGATGACCGCACTCGTCGGCTCCGGGGACATGAACGGCGACCGCCGCGCCGACCTGATGGCGCGCGACACCAGCGGCAACCTGTGGCTCTACCCCGGAAACGGGCGTTCTAGCTGGCTGCCCAGGGTGTACATGGGTGCGGGCTGGAACATCATGTCCGCCATGGCCGGCCGAGGCGACTTCAACAGCGACGGCCGCAATGATGCCCTCGCCGTGGACACGTCCGGCACCTTGTGGTTGTACCCGGGCAACGGCCGCAGCGGGTGGCTGCCCCGAGTGCGCATGGGCGGGGGCTGGAACTAA	MPHPRNTLFHSSLALTGITVLVAATVLIAPPASATQDVPAPFPTPKPSPAAKGPARTAVPTDQFIVKFKNPTASPGRAKTFTSAAAKIGTQVKDLRATAGGARLLRTSKKLAAGDAGAFLASLRSDPAVEYAEPNGVLQAKANLPNDPGVPYQWNLFQEPAGLRVPGAWGVTTGAGEVVAVVDTGVINHPDVNPDPGPGVETNVLPGYDMLRDPSDARDGDGRDPDPTDKGDWGDPELCGSGSPSSWHGTHVAGVIAAFTDNGEGVAGVAPEAKILPVRALGACGMGDLLDIAEGVLWAVGEQIDGLPINPNPAGVVNLSLGGFGPCSRTFQTAINTARQKGAVVVVAAGNESIPASESEPANCQNVISVAASDRTGALAPYSNFGTAVDVTAPGGDMSFSGYDGIFSTSNEGQKSETTDTYQVSQGTSVAAPHVAGVAALLMAKMGAAATPEAVEERLKATARPIPGGCPLGCGAGLVDAAASVLPDRVHITMIVAAGDLNSDRRADVLARDSGGNLWLYPGSGRGGWLPRARVGGGWNVMTAVVGSGDMNGDGRSDILARDTGGTLWLYPGNGRGNWLPRVRVGGGWNIMSALVGPGDMNSDGRSDLLARDTSGTLWLYPGNGRGNWLPRARVGGGWNVMTALVGSGDMNGDRRADLMARDTSGNLWLYPGNGRSSWLPRVYMGAGWNIMSAMAGRGDFNSDGRNDALAVDTSGTLWLYPGNGRSGWLPRVRMGGGWN				NA	NA	NA	NA	NA
D1-17_00946	1392	dapE_1		Succinyl-diaminopimelate desuccinylase	TTGCCGGAAACCGTGACAAAGCTGGCAGCCGCCGTAGACGCCGGGATGTCAGGGGCCATCAATGTCCTTTCCGTGCTGGTCTCCGTGCCCGGAATTGCCTGGCCGGGCTTTGACCAAAGCGCGCTGGAGGACAGCGCAGTCAACGTCCGCAAGCTGCTCAACGAAACCGGTTTTGCTGACGCGGAGATTGTCCGCGCCACGGATGCTGCAGGCGTAGCGGGAGCACCGGCGGTCATCGCCGCCAGACCGGCAGCCCCGGTCATGCCCACAGTACTGCTCTACGCCCATCATGACGTCCAGCCGCCCGGTCCTGCCGGGGAGTGGCAGAGCGATCCCTTCGTTGCGGTCGTCCGGGACGGCCGCCTGTGGGGACGCGGCGCGGCCGATGACAAGGCCGGCATCCTCATGCACCTGGCGGCAGTCCGGGCCCTGGATACAGTTCTGGGTCCCGGCCATGGCTTGGGCCTCACCGTCTTCGTCGAAGGAGAGGAGGAATCCGGTTCCCCCACGCTGCCTGCCCTCCTTGACGAGCATGGCCCGAGGTTCCAGGCAGACGCGGCCGTCGTAGCCGACTCGGGCAGCTGGAAAATCGGAACCCCCGCCCTCACCACCAGCCTCAGGGGGCTCGTTGACGGAACTATTGAAGTGCGGACCCTGGGCCATGCGCTGCATTCGGGGACCTACGGCGGCCCTGCCCTGGATGCACTCACAGTCCTGGCCCGCCTGATGGCCACCTTCCACGATCACGACGGGTCCGTCGCTGTGGATGGCTTAGTGACAGCGTCCTTCAAAGGACCCGACTTTAGCGAGGACGCATTCCGCCGTGACGCCGGGGTTCCGGCGGGCGTCCGGCTGGCAGGGACCGGGAGGATTACCTCGAGGATGTGGAACAAGCCCGCGTTGTCCTTCATCGGGCTTGGTGCCCCGCCCATCGCCACGGCTTCGAACACCCTGATCCCTGCGGCAGCCGTCAAGTTCAGTCTCCGGATTCCACCGGGTAACGACCCCGAGCAGGCAATGGAAGCCGTCCGCCGGCATACGCTGAAGCACACCCCGTTCGGCGCCGAGGTGATATTCACCCCGGGCACAAAGAGCACACCGTTCGCGGTGGCTCCGGACGACCGCATGGCAGAGACCGCGTTGTGGTCCCTCAGCGAGGCGTGGGGAGCTGAGGCGGTGACCATGGGCGTTGGCGGGTCAGTCCCGTTCGTGGCCGAACTGACCCGGCGCCACCCCCGCTGCTCGGTCCTGCTGACGGGAGCCGAAGATCCCGACTCCCGCGCGCACGGAGCCAACGAGTCCGTGCACCTGGGAGAACTGAGAAATGCCATCCTGGCCGAAGCCCTGTTTCTCGCCGCCCTCTGCCAGCATCCCGCCGTCGGGCTGCCTTAG	MPETVTKLAAAVDAGMSGAINVLSVLVSVPGIAWPGFDQSALEDSAVNVRKLLNETGFADAEIVRATDAAGVAGAPAVIAARPAAPVMPTVLLYAHHDVQPPGPAGEWQSDPFVAVVRDGRLWGRGAADDKAGILMHLAAVRALDTVLGPGHGLGLTVFVEGEEESGSPTLPALLDEHGPRFQADAAVVADSGSWKIGTPALTTSLRGLVDGTIEVRTLGHALHSGTYGGPALDALTVLARLMATFHDHDGSVAVDGLVTASFKGPDFSEDAFRRDAGVPAGVRLAGTGRITSRMWNKPALSFIGLGAPPIATASNTLIPAAAVKFSLRIPPGNDPEQAMEAVRRHTLKHTPFGAEVIFTPGTKSTPFAVAPDDRMAETALWSLSEAWGAEAVTMGVGGSVPFVAELTRRHPRCSVLLTGAEDPDSRAHGANESVHLGELRNAILAEALFLAALCQHPAVGLP				NA	NA	NA	NA	NA
D1-17_00947	1266	gshA_1		Glutamate--cysteine ligase	ATGGAATACCGGCAGCCGAGTCAGCCGCGTTTGTTCGGCGTTGAGGAAGAGTTGCTGCTCGTTGACGGCGGGACGTTCCTGCCGGTGCCGGCGGCCCAGCGCGCGCTGGACCTGAAGCCGCCTCCGGCTCCGACCTCCACGCTGGAACTGGAAGTCCAGCTCGAGCAGATCGAAGTCGTGAACAGTCCCTGCTCCAGCATCATGGAGGTGCTGGAGGTCATCAGGCGGGGACGGTCCCTCGCAGACGCCGCAGCGCAGAATGTGGGGGCGCGGGCCGTGGCCATGGCGACATGCGCGACGGCGGCATCGCCCCACCTGGTGCAAACCACCCGTTACCTCGCAATGCAGTCAGGTTTTGGGCGCACACTGCGCGAACAGCTCACCTGCGGCTACCACGTACATGTGGAGGTGGGCTCCGCTGAGGAAGGCGTCGGCGTCCTGGACCGGATCAGGACGTGGCTTCCCGTTCTGCTGGCCCTGAGCGCAAACTCGCCTTTTTGGAGCGGGACGGACAGCGACTATGCCAGCTACCGCAACCAGCTGTGGAACAGGTGGCCCACTTCCGGACCCTGTGAAGTTTTCGGCTCAGCGCAGGCGTACAGGCAAGAAGTGTCCGCTCTTCTGGGGACAGGCGTTCCCCTGGATGAGGGCATGGTCTACTTCGATGCACGCCTGTCCCGCAACCACCCGACAGTCGAGGTCCGGGTGGCTGATGTCTGCCTCGTACCCGAACACGCTGCGGCCCTGGCCGTTCTGGTGCGCGGCCTGGTGGAGACAGCGGCCAGGGAGTGGAACAGCGGACGCGCTGCGCAGGTGCTGTCCGCGAGCCAGTTGCGGCTGGCCAACTGGAAAGCCAGCAAGTGCGGGGTGGAGCACGACCTGGTGGGTCCCCTCAGCAACAGACCCGAACCGGCCCACGACGTCGTGCAGCAGCTCCTCGACCACGTTGCCCCGGTGTTGGCGGAAAACGGGGAGACGTCCTCGGTGAGCACAGCAGTGGAGGCGATCCTCGCCAACGGGACCGGAGCATCCATGCAGCGCGGGGCGGCGGCCAGCTACCGGGAGGCCGCCGGGCGCAGGCAGGCTGCAGGTCGGCGGGAGACGGGCCGGCCGGGAAGACCCCTAGCGGGAGAGCTCGCCGCCGTCGTCGCAGATGCGGTGGACAGGACGCACTCGATTCCCGGAACACGGCCGCTGCCCGGCGGGCCTCCGGCCGGCATGCAACAGGCGGCTCCGGCACGCAACCGGCCGCTCCGGGCCGGCTGA	MEYRQPSQPRLFGVEEELLLVDGGTFLPVPAAQRALDLKPPPAPTSTLELEVQLEQIEVVNSPCSSIMEVLEVIRRGRSLADAAAQNVGARAVAMATCATAASPHLVQTTRYLAMQSGFGRTLREQLTCGYHVHVEVGSAEEGVGVLDRIRTWLPVLLALSANSPFWSGTDSDYASYRNQLWNRWPTSGPCEVFGSAQAYRQEVSALLGTGVPLDEGMVYFDARLSRNHPTVEVRVADVCLVPEHAAALAVLVRGLVETAAREWNSGRAAQVLSASQLRLANWKASKCGVEHDLVGPLSNRPEPAHDVVQQLLDHVAPVLAENGETSSVSTAVEAILANGTGASMQRGAAASYREAAGRRQAAGRRETGRPGRPLAGELAAVVADAVDRTHSIPGTRPLPGGPPAGMQQAAPARNRPLRAG	PGPT0026300_405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-17_00948	174			hypothetical protein	TTGTGGATCAGAACGAAGCCGGGCATTCCTGCCATTCTTCCCCGGGAGAGGATCAATGGCGCCGTCATCGAGTACCTTCGCAGCAGCGCCGATGCAGGCATGGTTCTGCCCGACCCGGCCGATCCGTCCATGAAAAACGTCAGGGTGGTCGCCAACGACCATCCCGGCGCGTGA	MWIRTKPGIPAILPRERINGAVIEYLRSSADAGMVLPDPADPSMKNVRVVANDHPGA	PGPT0007770_2559	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007770-speA-K01585	NA	NA
D1-17_00949	747			hypothetical protein	ATGGCCGATGAAGTGACCCCGGACACCAAGAGCCGAACCAAGGAACATCTCCAGGATCTGGTTCTTGACAGTGTGGATGTTGAAGACTTTCTCCACGAACTTGCGGTGGTCGCCGCCTCGGAACTGGCCTCGCCGGGGCAGGAGATTTTTTGCGGAGTAACCTTGATCCGCCAAAAGAGGGCCGCCACCATAGCCAGCAGCGACGCCCATGCCAGGGCTTTGGACGAAATCCAATACGGCTATAACGATGGTCCGTGCCTCACCGCCATCCATGAGTCGGTGACCGTTCATGTTCCCGAACTGCGGGAGGACAACCGTTGGCCGCAGTACGCCAGGGCCGCTTCGAGTGAAGGAGTCAACTCGATTCTCGCCGTTCCCTGCCTGAATGATGGGAGCGCGGGAGTAGGGCTGAATCTCTACTCTACGCGGGCCCACGGCTTCTCTGGACTTGACATAGACCGTGCTGAGCAATTCGCCATACAGGCCAACACCTCACTGCGCCTGGCGCTTCGGATCGCCCAGCTGGCGGACGCAAAAAATGACCTATCAGCCGCCATGAAGTCCCGCACCACCATCGACTTGGCCGCGGGGATCATCATGGCCGAAAACCGATGCAGCCAGGCGACAGCCATGTCAATCCTGAAGAACGCTTCCAGTGCCCGCAACGTCAAGCTTCGCGACGTTGCCGCCACCGTCGTGGCCTCCGTCTGTTCAGACACCACGGTGAACACCCATTTCGACGCCTAG	MADEVTPDTKSRTKEHLQDLVLDSVDVEDFLHELAVVAASELASPGQEIFCGVTLIRQKRAATIASSDAHARALDEIQYGYNDGPCLTAIHESVTVHVPELREDNRWPQYARAASSEGVNSILAVPCLNDGSAGVGLNLYSTRAHGFSGLDIDRAEQFAIQANTSLRLALRIAQLADAKNDLSAAMKSRTTIDLAAGIIMAENRCSQATAMSILKNASSARNVKLRDVAATVVASVCSDTTVNTHFDA				NA	NA	NA	NA	NA
D1-17_00950	276			hypothetical protein	ATGAGGGAAGCCGACCAGCAGATCCTGACGGCTTCGATAATCCGGGAGCTCGGGATGAATCTGGCCCAGCTCTGGATTTATTACCTGGGCATCGGCGGCAATGCCGATGAAAGCGAAGTCAACGCGTACGCGGCAGAGGAAGGAAGCCTGCCGCCGGAGGAACGCGATCTTCTCGCGCGGGCCATGAACGAAATCGTGATGGAGTCGCCCTGGATGCCGCGCGCCCCCTACAGCCACACACCACTGGCGCTGGAGCCGGGCCAGGGGGCAGGCTGA	MREADQQILTASIIRELGMNLAQLWIYYLGIGGNADESEVNAYAAEEGSLPPEERDLLARAMNEIVMESPWMPRAPYSHTPLALEPGQGAG				NA	NA	NA	NA	NA
D1-17_00951	393			hypothetical protein	ATGAACTACGAGCGAAACCTAACCTTTAATCTGAGGATCCGAGGGCTGTCGGAGTCCGAGATTGCAGAAGTGCTGGGCGAAGTGCGGGCTCATCAGGCAGCAGCAGGGACCTCAGCGGCAGCGGAATTCGGCACAGCCGATGAGTACGCGAAGCAGTTCCCAAAGAAGAAGCGGCGGACACTGGGAAGGACCATCACAAGCGTCGGGGCGGCGTTGGCGATTGCGTATATTCTCCTCGCCGTCCTCCTGATGATCCTCTTTGGAATCGACATTCGCGACTTCGTGGGCCCGATCACGCTTTTGCCGGCCGCCATACTGATCCTGACCAGTGTCTTGGCGGGATTCCTGACCGACTATTTCAGGCCCGCACAGAGCTCCCGCGCCGTCCACTAA	MNYERNLTFNLRIRGLSESEIAEVLGEVRAHQAAAGTSAAAEFGTADEYAKQFPKKKRRTLGRTITSVGAALAIAYILLAVLLMILFGIDIRDFVGPITLLPAAILILTSVLAGFLTDYFRPAQSSRAVH				NA	NA	NA	NA	NA
D1-17_00952	651			hypothetical protein	ATGATGCTGGCAGCCCTGGCCCTGACGGGTTGCGGAGCAGCAGCAGCAACAGGTGACGCCCCGCCGTCGTCCGTTCCGTCTGCCGCTGCTACAGACAAGGCGCCAGGCCAGGCGTCAGGCGAGGTAGAAAACACGACGGCGGCACCCAAGCCAGCGGGCCCGTCACCCACGCCGTCCCAGAAGAAGCCGGCAGCTGCGCCTGCAACCGTCGAGATTCCGGATATCGGCGTCCGGTCGCCACTGATCAAGCTGGGGCTGCGGCCGAACCGGTCTCTGGAGGTGCCGCCGGACGGCCCGGGAGCGCCGGCCGGCTGGTACAGCGGCTCGCCGTCGCCGGGGGCCATAGGGCCTGCCGTTCTGTTGGGCCACGTGAACGCGACCGGCGGCGGACCGGGAGTCTTCGCGGACCTCCGTGCATTAAAGAACGGCGCCGACATCAGGGTGACCCGCGAGGACGGCAGCACGGCCTCATTTGCTGTGTACCGGGCCGCCGCCTACAGCAAGAACAGCTTTCCCACAGTGGAGGTGTACGGCAACACCAAGGCTTCGGAGCTGCGCCTCATCACGTGCGACGGGTACGACCCCGCGACGGGAGGATTTGACGACAACTACGTGGTGTACGCAAAACTGATGGACCCGGCTACGAGGTAG	MMLAALALTGCGAAAATGDAPPSSVPSAAATDKAPGQASGEVENTTAAPKPAGPSPTPSQKKPAAAPATVEIPDIGVRSPLIKLGLRPNRSLEVPPDGPGAPAGWYSGSPSPGAIGPAVLLGHVNATGGGPGVFADLRALKNGADIRVTREDGSTASFAVYRAAAYSKNSFPTVEVYGNTKASELRLITCDGYDPATGGFDDNYVVYAKLMDPATR				NA	NA	NA	NA	NA
D1-17_00953	651			hypothetical protein	ATGGATAAGGCTATGAGAAACCGCAACGTGCTGGGGTCGCTGGCGGTGGCGTCGCTGCTGCTGTCCGGCTGCGCTGCGGCTGTCGGGGCACCGGGAACAGCACCGGCGGACAGCCAAAACAGGGGCAGCCAAACCACGGGCAGTCAGCCAGCAACCCCGGCGCCGGTATCCTCCTCCCCCGCGGCAACAGAAGCAGCGAGCGCCGGCTCGACCCGCGGCCCGTCCGAAGCGTCCAAGATGATCTGCAACGACGACACCACGGGCGATATCTCCCAGATCCTGGCGCTCACCTCGGCACCCCGCACCGAGAGCACCTGGGCAGACAGCACCTACACCTGCACCTACCGCCTCGCCGGCGGCCCGCTGGTCATCACCGTCAAGGAATCACCGGACGCGGCATCGGCCCGGAAGCACTTCGCCGCCCTCCACCGGAAACTCCGCGGCGCCGAACCCATCAAGGGACTCGCAAACCTGGGGTTCCCTGCCTACCAGACGGCCGACGGCTCCGTCGTTTTCCTGAAAGACAACAGCACCCTCCACGTCGACGGCACCCGCCTGCCGGCTGCACTTGGCCCCAACGGCGTTACACCTGCCGAGTTTTCCTACCAGGTAGCCACGACCATCCTCGCCTGCTGGACGAAGCACCACTAG	MDKAMRNRNVLGSLAVASLLLSGCAAAVGAPGTAPADSQNRGSQTTGSQPATPAPVSSSPAATEAASAGSTRGPSEASKMICNDDTTGDISQILALTSAPRTESTWADSTYTCTYRLAGGPLVITVKESPDAASARKHFAALHRKLRGAEPIKGLANLGFPAYQTADGSVVFLKDNSTLHVDGTRLPAALGPNGVTPAEFSYQVATTILACWTKHH				NA	NA	NA	NA	NA
D1-17_00954	780			hypothetical protein	ATGAACAAGACACTGCGCTTCCTGGCCGTTCCCACCCTTGCCCTGGGCGCCCTCGCCCTCTCCGGCGTACCCGCTGTGGCCCACGAGGGAGACCATTCCTATCAGGCCCAGCTAGGCCAACTCAACGGCAGCTCCGCTTCCGGCACCGTGGCCGTGCATGTGACCGGCAACCAGGCCCACGTCGCCCTGAATGTCTCCGGCCTGGCCGAAACCTTCAACAACGCGCCGTACCCGCACGTCCAGCACATCCACGTTGGCGCCAAGGGCCAGTGCCCGGCACCCGGAGCCGACGCCAACGGCGACGGCGTTATCTCCACCACCGAAGGCGCACCCTCCTACGGCAAGATCGGCACCACCCTCTCCACCAGCGGCGACACCAGCCCCGCGGCCGGCCTCGACCTGAAGCTCGCCGGACAGGGCGGCGCCTACACCATCGACCGCACCTTCGAACTCAACGCCGAGACCAAGCAGGCACTGCATGACGGGACCGCCGTCGTCGTCGTTCACGGCCTTGACCCCGCCACCCTGAGCGCTGCAGGCCAGGCCGCCAAGAGCGATCTCGTCCCGTCCCTGCCGCTGGCCGCCACGTCGCCGGCACTGTGCGGCACGCTGGTCGCGGGCCAGATGGCCATGCCTGAGGGCGGCGCTGACACCGGTGTTGCCCAGGCTTCGGAGACGAACGACCCCGGTGCCCTCGCCTTAGGCGGCGGCCTGGTTCTCGCCGCAGCAGCAGGCGGCACCTATGTCATCCGCCGCCGGAAAGCAGCTCAGGCGGCCTAG	MNKTLRFLAVPTLALGALALSGVPAVAHEGDHSYQAQLGQLNGSSASGTVAVHVTGNQAHVALNVSGLAETFNNAPYPHVQHIHVGAKGQCPAPGADANGDGVISTTEGAPSYGKIGTTLSTSGDTSPAAGLDLKLAGQGGAYTIDRTFELNAETKQALHDGTAVVVVHGLDPATLSAAGQAAKSDLVPSLPLAATSPALCGTLVAGQMAMPEGGADTGVAQASETNDPGALALGGGLVLAAAAGGTYVIRRRKAAQAA				NA	NA	NA	NA	NA
D1-17_00955	177			hypothetical protein	ATGGGTTTGGGTGACAAGATCCACAACGCCGCCGAAAAACTCCACGGCAGAAGCAAGGAAGCGGCAGGCCGCGCTACCGGAGACGAACGGCTCCGGTCCGAAGGTAAGGGCCGCCACATCCGGGCCGACCTCAAGCAGGCCGGCGAAAAAATCAAGGATGCCTTCAGGAGGCATTAA	MGLGDKIHNAAEKLHGRSKEAAGRATGDERLRSEGKGRHIRADLKQAGEKIKDAFRRH				NA	NA	NA	NA	NA
D1-17_00956	279			hypothetical protein	GTGTCGTTTATGTTTCCTTCGGGACCGAAAACCGCACGCGTTATCGCAGGTCAGCGAGCGATCGACGTATGGTGTGATGGCAGACACCCGCGCGACTGCCAGGCGGCAAACCAAGTCAGCAAGAATGTTTCCTCGGGCGTGCAGCAGACCGCGCAGATGCTCAAGGACACGACCGGGTTCGACGTGATCGAAATGCTCAAGGGCTTCGGCAGTTCAACCCCCGCCGCAAACACCCCGGGCACCGGCGATGGCGCGGTCAACCGCAAAAAACCGAGTTGA	MSFMFPSGPKTARVIAGQRAIDVWCDGRHPRDCQAANQVSKNVSSGVQQTAQMLKDTTGFDVIEMLKGFGSSTPAANTPGTGDGAVNRKKPS				NA	NA	NA	NA	NA
D1-17_00957	354			hypothetical protein	ATGGGTGAGGATGAGGATCTTCAGGTGCGGTCATTGGCAGAGCTTGCACTGGGGGAGGAGATCGAGGCCTGGCACCGGGGGCGGCTCGCACACCGGGGAAAGGTGGTCAGCACATTGGATGGAATCGACCTGTTCTGGATCATCGATTCCCGCACCGGCGCCCGGCGGCTCCTGGACCTCGAGCAGCTCAGCGTCCGGCGGCTCACGCCCCGGACGCCGAGGCCCGCCGTCGGGAAACCCGGTCCGCCTCCCCGGAAGCCCGCCGTCGCCCCCGCTGCTGGTCCCGCCGTCGCCCCGGTGGTGCCGAAAACGGGCGCCAGCGCGCGGAGCGCGGCGTTCCTGCCGGCGAAGTGA	MGEDEDLQVRSLAELALGEEIEAWHRGRLAHRGKVVSTLDGIDLFWIIDSRTGARRLLDLEQLSVRRLTPRTPRPAVGKPGPPPRKPAVAPAAGPAVAPVVPKTGASARSAAFLPAK				NA	NA	NA	NA	NA
D1-17_00958	693	ktrA_2	COG0569	Ktr system potassium uptake protein A	TTGGCTAAGAACATCTTCTCCCGCAGCGGCGACCTTCCGGCGCTGGCCGATTCCGTCGTCGTTATCGGTTTGGGCCGCTTCGGAGGCGCCCTGGCCCTGGAACTTGAGGCGCAGGGCACGGAGGTCCTCGGCATCGACGCGGATGAAGAGACGGTGCAGTCCTACAACGGGCGCCTGACCCATGTGGTGCGGGCGGACTCTACCAAGGAGGAGGTGCTGCGCCAGCTCTCGGTGCACGAGTTCGACCGGGCCGTGGTGGGCATCGGCACCGACATCGAGGCGAGCATCCTTACCACCTCCCGCCTCCTCACGTTCCGCAAGCCGCAGATCTGGGCCAAGGCCATCAGCGATCCGCATGCCGAGATTTTGGAGCAGCTCGGCGTTGACCATGTAATCCGCCCGGAGCACGACATGGGCAAGCGCGTGGCCCACTTGGTCCGGGGGTCCCTGCTGGACTACGTGGAGTTCGAGGATGACTTCGTGATGATCCGCACCAGCCCGCCGGCCGAAGCGCAGGACCGGCCGCTCGGCGTGCTGGGCCTGCGGGACAAGTACGGCATCACGATCGTGGCGGTCAAGCGCCCCGGTGGCACGTGGGGCCACACCACGGCCCAGACCGTTCTCTACGAGGAGGACCAGATCATCGTGCAGGGCAGCAAGACCCAGGCCGAGCGGTTCAGCAACTTGGCCTGA	MAKNIFSRSGDLPALADSVVVIGLGRFGGALALELEAQGTEVLGIDADEETVQSYNGRLTHVVRADSTKEEVLRQLSVHEFDRAVVGIGTDIEASILTTSRLLTFRKPQIWAKAISDPHAEILEQLGVDHVIRPEHDMGKRVAHLVRGSLLDYVEFEDDFVMIRTSPPAEAQDRPLGVLGLRDKYGITIVAVKRPGGTWGHTTAQTVLYEEDQIIVQGSKTQAERFSNLA	PGPT0002710_2501	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-17_00959	1554	ktrB_2	COG0168	Ktr system potassium uptake protein B	ATGCAGGACGTTCCCGGCCGCGAACCCCGACCCGCCCCCCGCGGCAGGGACGGCGCACCACGAGGCCGGGGCCGCGGCAGGGAGAGTGCCCCGCTGGTCAAGGCCACCCGCTACAGGGGCCGCACGGGACGCGGCAAGAGTGCCCGCGACAAGGGAGCCGCACTCCGGGGCAAAACGGGTCTGCTCAGGCTGCGCGGCTCCAAGGCATTCCCCCGGCTGCTGAACGTCTTCGCGCCGCAGCATCCCGCCCAGCTGATCGTCCTTGGTTTCGCCGCAGCGGTTGCGCTGGGCACCGGGCTCCTGATGCTGCCCATCTCCCGGAACGGACCCCAGGGTGCACCCTTCGTGGACGCACTGTTCACCTCCACGTCGGCGGTCTGCGTGACCGGGCTGAGCACGGTTGACACCCCGGTCTACTGGAGCGCATTCGGCAAGGCCGTCATCCTGGTCCTGATCCAGGTGGGCGGGTTCGGCGTGATGTCTTTCGGCACGCTGCTAGGGGTCCTGCTGGCCCGCCGGCTGGGCCTCCGCTCGAGGCTCGCGGCGGCCGCGGAAGCACAGGCGACCGGCCTGGGCGCGGTCCGTCAGGTCATGCTGGGCGTGCTTGCCATCACCCTCGTGGTGGAGGTGATCCTCGCCGGGCTGCTGGCGGCCCGGTACGTCGCCGCCTACGGATACTCCCCCGGGCGGGCCCTCTGGCACGGCGTCTTCCACTCGGTATCGGCGTTCAACAACGCAGGCTTCGCCCTGCACACGGACAATCTGATCGACTTCGCGGGCGACCCTTGGGTCTGCTTGCCGATCGCCGCCGCAGCGATCATCGGCGGCCTCGGTTTTCCGGTGCTGTTCGAACTGCACCGGCAGTACCGTAAACCCATCCACTGGAGCATGAACACGAAGCTGGTCCTGGTGGGAACGGTTGTACTCCTCGTCGGCGGCGCCGGCTTCCTGACCGCCGTCGAATGGTCCAACCCGGCCACGCTGGGAGGGCTCAGACCAGGCGAACGCGTCCTGGCTGGCTTCTTCCAGTCGGTTACTACCCGCACCGCAGGCTTCAACAGCATCGACATCGGCCAGATGCACCCGGTCTCGTGGCTTGGAATGGACATCCTGATGTTCATCGGCGGCGGTCCGGCAGGCACCGCGGGCGGCCTGAAAATCACCACGTTCGGAGTGCTGTTCTTCATCCTTGTCACTGAGCTGCGGGGCGGAACCGGCGTGAACGTCTTCAGCAAGCAGCTGCCACGCGCCGTGCACCGGCAGGCCATCACCGTGGTTCTGCTGTCCATCGCCCTGGTGGTCGGCTCCACCGTCTTCCTGATGCTCATCACCGACTTCGGCCAGGAACGGATCCTGTTTGAAGTTGTGTCCGCCTTCTCGACGACGGGACTCTCCACCGGGATCACCGCCGCCTTGCCGCCGGCCGGGCAGCTGGTCCTGGTTGTGCTGATGTTCGTCGGGCGTCTCGGTCCGGCCACGCTGGGTGCGGCGCTGGCATTGCGGGAACGCCCGGTTCTGTATGAATACCCGAAGGAAAGGCCCCTCATTGGCTAA	MQDVPGREPRPAPRGRDGAPRGRGRGRESAPLVKATRYRGRTGRGKSARDKGAALRGKTGLLRLRGSKAFPRLLNVFAPQHPAQLIVLGFAAAVALGTGLLMLPISRNGPQGAPFVDALFTSTSAVCVTGLSTVDTPVYWSAFGKAVILVLIQVGGFGVMSFGTLLGVLLARRLGLRSRLAAAAEAQATGLGAVRQVMLGVLAITLVVEVILAGLLAARYVAAYGYSPGRALWHGVFHSVSAFNNAGFALHTDNLIDFAGDPWVCLPIAAAAIIGGLGFPVLFELHRQYRKPIHWSMNTKLVLVGTVVLLVGGAGFLTAVEWSNPATLGGLRPGERVLAGFFQSVTTRTAGFNSIDIGQMHPVSWLGMDILMFIGGGPAGTAGGLKITTFGVLFFILVTELRGGTGVNVFSKQLPRAVHRQAITVVLLSIALVVGSTVFLMLITDFGQERILFEVVSAFSTTGLSTGITAALPPAGQLVLVVLMFVGRLGPATLGAALALRERPVLYEYPKERPLIG	PGPT0002735_5250	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
D1-17_00960	849			hypothetical protein	GTGCTGCTCAAAAGCACCGTCACCGCACTGGTAGGCCTCACGGCAGTGATCGGAACCGCTGCGCCCTCATCTGCTGGGCAGGCACCCGACGCCGCCCTCGGGCAACCGCATGCCGCAGCTCACGCACACAATGACTACGAGCATGACCGTCCGTTGCTCGACGCGCTGAAGCACGGTTTCACGAGCGTGGAGGCGGACGTCTGGCTGGTCGATGGCGAGCTGCGCGTCGCCCATGACCTGGTGGACACCCGCGCCGGCGTCACGCTCGAGAGCCTGTACCTGGATCCACTGGACGAACTCGTGCGGCAGAAAGGGCACAGCGTCTTCCCGGGCTGGGACGGCAGCGTGCAGCTGATGATCGACATCAAGAGCGAGGGTGAAGCGACGTATAAAGCCATTGAGGAGGAGCTGGCCGAACACCCTCAGCTTCTGACTCGGTACGCGAACGGCAAGGTCACGGAAGGGCCGGTAACCGCCGTCATCAGCGGGAACCGCCCGCTGGGGACGATGCAGGCTGCCGACAAGCGCTTCGGGTTCTACGACGGACGCTCCGCTGACCTGGCGTCGGGCGCACCTGCAGCGCTGATGCCGCTGGTCAGCGACAACTGGACCAAGCTCTTCACCTGGCAGGGAATTGGCCCGATGCCGGAAATCGAGCGCGCGAAGCTCCGTACCTATGTGGAGACGGCTCACTCCAAGGGCTACCGCGTGCGCTTCTGGGCCACGCCGGACCAGCCGGGCCCCGCGCGGGAAGCCGTTTGGACCGAGCTGCACAACGCCGGAGTGGACCACATTAACACGGACGACCTCGCCGCGCTGGACGCATTCCTCTCCGTTCGCGGACAGTAG	MLLKSTVTALVGLTAVIGTAAPSSAGQAPDAALGQPHAAAHAHNDYEHDRPLLDALKHGFTSVEADVWLVDGELRVAHDLVDTRAGVTLESLYLDPLDELVRQKGHSVFPGWDGSVQLMIDIKSEGEATYKAIEEELAEHPQLLTRYANGKVTEGPVTAVISGNRPLGTMQAADKRFGFYDGRSADLASGAPAALMPLVSDNWTKLFTWQGIGPMPEIERAKLRTYVETAHSKGYRVRFWATPDQPGPAREAVWTELHNAGVDHINTDDLAALDAFLSVRGQ	PGPT0018470_335	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-17_00961	702			hypothetical protein	ATGGCCTCGAGACCAGAACCAGGCGTAGAAGCAGTGTCTGGCGCCCCCGCCCGCCGGCGCGGCGGCAAGCGCTGGCTTGCCGTGCCTGCCCTCGCCGCGGCCGGGCTGGCGGCCCTGCTCGCGGTGCCGCCAAATGTCGGCGGCAGCTCCGCCGTCGTACCTTCTGCTGCCCCTTCAGCGGCGAGCGCGGCAGCCGCCCCCAGTCCATCTACCCGCCCAGCGTCCCCTGCCGAGAAGGCCCCGACGAAGGCCGAGGTGCCGGCGGCTGCGGCACCGATCAGGTTGTCGATCAAGGCTGCGGACATCGACATGAAGGTCCTCCCGCTGACGCCCAGCGAGGATGAGCTCGCGGCCCAGTCTCTCGTACCGCCGCTCACGCTGGACGCCTACTGGCTCACAGCGTACGGCGTTCCGGGTGCGGGCTCGTCGAACACGACGTACATTGCCGGGCACAGCTGGGACGGCAAAGAGGCGCCTTTCAATAGGCTCAGCGACCGCTCCCTCGTCGGCGCGCCCGTCACCGTTACGACCGCCACGGGAACGCTGCGCTACGTCGTGGACTCGGTCACGACGCACGACAAAAACTCCCTCAAGGACAGCGAGATCTGGAACGTCGTGCCCAACCGGGTGGTCCTGATCAGCTGCTACACGGAGGACCCGTGGGGCAAGAACGTCGTGGTCACGGCCTCCCCCGCCCCGTAA	MASRPEPGVEAVSGAPARRRGGKRWLAVPALAAAGLAALLAVPPNVGGSSAVVPSAAPSAASAAAAPSPSTRPASPAEKAPTKAEVPAAAAPIRLSIKAADIDMKVLPLTPSEDELAAQSLVPPLTLDAYWLTAYGVPGAGSSNTTYIAGHSWDGKEAPFNRLSDRSLVGAPVTVTTATGTLRYVVDSVTTHDKNSLKDSEIWNVVPNRVVLISCYTEDPWGKNVVVTASPAP				NA	NA	NA	NA	NA
D1-17_00962	1464			hypothetical protein	ATGGGCGACGCGGACAACCGGGACATGCGTGCAGCCGCACTCAGGGATCCCCTCCGCAGCTCGGGTGGCATGCACGAAGCCACCCGCCTGCAGCGAGGCATCAGCGAGTTTCTGCGGCTGCCCTTGCTGATCACGTTGGCTTTTTGTCTGGCAGGCGTGTCCGTGTCTGTGCTCGACGCTGCCTCTGGAGGTCATGCGGGGCTTCGAACGGCAGCGGAAACGCTCGTGCCCGGAGACGGTGCCGTTGGGTTTGTTTCGGCGGTGGCCACAAGTCTCCTGACTGTCACGTCCATTACCTTCTCAGTCCTGCTGCTTGCCGTGCAGCAGACGGCCAGCTCCCTGACTCCAGTGGTCCTGGACCAGTTCCTGAGGCGTAAGGCGAATCAGGTTTACTTCGGGTTTTTTGTGGGTGCCTCTGCCTTCACCTTTCTGGTCCTCGGTCTTGCCAGACAGGACCCCCCTCCCGTTTACGGAGCCTGCGTCACGCTGCTCCTGACGATTACCGCCCTGGTGGTCCTCTTGATGCTGATCCACGCCACAATTGACCAGATGCGGCCCGAGTCAGTGATGCGTTCTATCCATGAACTGGCTCTTGAAGCCAGGGAAAGCGAGCTGCGCCTGCTGGGGAGCACCAGGATAAAGCGAAAGACCACGCCGGGCACCACCGAGAGAACCGTTCGTGTACTGGACAGCGGGTACGTGGTGACGATCGACCTGCCGAAGCTGGCAGCAGTGGCGCGCTCAGTTCGCGAAGGGGAGATACTCATTGAGGGTCGTTTGGGTGAGTATCTGGTGTTCGCCGACGTCGTGGCCCGTCTTGTGGGAGTCGATGCGGACGATGATTCATATGATGCCGACGTTCTCTCCGCTTTTGGCATCGATGATGTCAGGGATGTTGATGCGGAGGCCGGTTATGCCCTGGACCAGCTGGAGAACATAGCGTGGGCCACGGGTACCAGTGCCGGTCAGAGCCCGAGTACCGCCATAGCGGCTGTGCGGTCGCTTTCAGATCTGCTGGGGCGCTGGTTGATCAGCGGAGAGCGGGACAGGTCCGACCGCTCCAAGGAACGCAACGAATTGCCGATCGTTTATACCGATGGTGCGGTGGCCCGGGGACTTACGGCTTTGTCCAACCTCGTGATAGCCACTGCGGAGTCGCACCAGGTCCAGGCCGGCGCCGAGCTGATGCGGTCCTTTGCCCGGCTTGCACCACGTCTGCACGCAATCGACAAAGAAGACTTCGGACAAGCCTTGGACGCGTGCCTTCCGGCGGTCATCCAGCACCCGGAAGCCCCGGCTCTCCGAACTGCCCTGGCTGAACTGGAGACTGCGTTGCAGAACGCGGATATCCCAACAGCGCGGCTGGCCAAAGTGAGAGACGCCATGCATTCATCCTCGGAGCGGTTGCTGCCCAAACCCTCTGATGAACCCGAAGCCGCGGCGCCTCAACGGAATCTCTCCTAG	MGDADNRDMRAAALRDPLRSSGGMHEATRLQRGISEFLRLPLLITLAFCLAGVSVSVLDAASGGHAGLRTAAETLVPGDGAVGFVSAVATSLLTVTSITFSVLLLAVQQTASSLTPVVLDQFLRRKANQVYFGFFVGASAFTFLVLGLARQDPPPVYGACVTLLLTITALVVLLMLIHATIDQMRPESVMRSIHELALEARESELRLLGSTRIKRKTTPGTTERTVRVLDSGYVVTIDLPKLAAVARSVREGEILIEGRLGEYLVFADVVARLVGVDADDDSYDADVLSAFGIDDVRDVDAEAGYALDQLENIAWATGTSAGQSPSTAIAAVRSLSDLLGRWLISGERDRSDRSKERNELPIVYTDGAVARGLTALSNLVIATAESHQVQAGAELMRSFARLAPRLHAIDKEDFGQALDACLPAVIQHPEAPALRTALAELETALQNADIPTARLAKVRDAMHSSSERLLPKPSDEPEAAAPQRNLS				NA	NA	NA	NA	NA
D1-17_00963	336			hypothetical protein	ATGGCCGAAACTGACAAAAACCGCCCCGATCCCTCCAGCGCACTTGGACACGAGCAAAGCAGGGGCCTCCGCCGAGCCCTTGCCGGTTCCGAGATTGGCATTGGGGATTTGTGGCTGCGGTACTTCAGCATCGGAGGCAAGGTAGGCGAATACGAAGTCGACGCCTACATTCAGTCCCTGCTGTCGCTGCCCCCGATTGAGCGGGACCTCCTTGCCCACGCCGCAAACGAACTCATCGATGAACTCCCGCCCCGCCTCCGCGCACCCTACACAGACGAGAACCCCCGCCCGGCGACGCCCACTGCGGAATCCCCTCGGCTGCCGCCGGCACCGTAA	MAETDKNRPDPSSALGHEQSRGLRRALAGSEIGIGDLWLRYFSIGGKVGEYEVDAYIQSLLSLPPIERDLLAHAANELIDELPPRLRAPYTDENPRPATPTAESPRLPPAP				NA	NA	NA	NA	NA
D1-17_00964	747			hypothetical protein	ATGCAGAAGGCGTATCTCATGTCACCGCAACTCCCCCTCGACGAACTCACCACCGCCCTTGCACGCATCAAAGGCCTGCTCCTGACAGAAGAAAAAGTGGATCGGGCAGTTCAGCTGCTGGCAGAGGGAATCCGGGACGCTTTCCCCGGAAGTTCAGGCGCCGGCGTATCCCTTTTGGACGAACAGGGCCGCAGGACCAGCACCGGAGCAACGGACGAGGTGGTGCTCCTGGCCGATCAGGCTCAATACGAATTGGGCCAAGGGCCGTGCCTGACAGCCTGGGCAACCGAGCGGACGGTCGTAATACATGACATGTCGGTTGAGGACCGTTGGCCGCTCTGGTCCCAGGCGATCAGAGACATCTCCATTCGGTCCGTTATCAGCGCACCCCTTATGTCCGGAACGAAGTGCCTGGGAGCTTTGAAAGTCTACTCAAGCCGGCCCGAAGCTTTCGATGCCAGCATCGCCCGGCCGCTGGAGAAACTCGCCTTCCCCGCAACTACGCTGCTGGACAGCATCCAGACTTCCGAGGCGCCCGTACGCTTCAGCGAAACCCTCACGTCAGCACTGGCCAGCCGGGACACCATCAACCGTGCCCAAGGGTTCCTCATGCAACAGCACCAGCTGAGCCAGGACCAGGCGCTCCAGGAACTTCTGCGCCTGTCCCGGACCAGCAGACAGTCCCTGGTCAGCATTTGCAGTGAGATCCTCAGCGGCACGAGGAATGAGTCCGATGGCCGAAACTGA	MQKAYLMSPQLPLDELTTALARIKGLLLTEEKVDRAVQLLAEGIRDAFPGSSGAGVSLLDEQGRRTSTGATDEVVLLADQAQYELGQGPCLTAWATERTVVIHDMSVEDRWPLWSQAIRDISIRSVISAPLMSGTKCLGALKVYSSRPEAFDASIARPLEKLAFPATTLLDSIQTSEAPVRFSETLTSALASRDTINRAQGFLMQQHQLSQDQALQELLRLSRTSRQSLVSICSEILSGTRNESDGRN				NA	NA	NA	NA	NA
D1-17_00965	747			hypothetical protein	ATGGATGGTCAACGCCAGCCCGTACTTCAGGACGGGATCGTCTCCCGGCTTCAGGACCTGGTCCTGGAAACCTATGACGCCGAGGAGCTCTTCCAGGAGTTGGCTGTCTTCTCCGCCTCCCTGCTCGCGCCGCCCGGGGGTGAATTCTATTGCAACGTCACCGTCGTCCGGCGCAAGAAGCCGGTCATCGTATCGTGCAGCTCAGCCCGGGCCCGGGTGATGGACGAGTTGCAGTACGCCTTCGGTGACGGGCCGTGCCTGTCAGCAATGCGGACCGGGACAAAGGTGCACGTCCCCGATGTTGCAACCGAGCACCGCTGGCCGGAATACATCCGTGCCGTCGCTGGTCAGGGAGTAGGTTCAATCTTGGGAGTGCCCCTCACACTGGAAGGAGACTCGGCCGCGGCCCTGAATATCTACTCTTCACAAGCCCACGCATTCACTGGGGAAGACATTGCTCGGGCCGAACTCTTCGGCGAGCAGTCCGCTAAGACACTCAGACTCAAACTGCGCCTGGCCAAGCTCAAAGATGCCAAGGAGGACATGGCCGCGGCGATGCCGTCCCGGACAGCAATTGACATTGCCACCGGTGCGATCATGGCGCAGAACAGATGCAGCCAGGAAGCCGCGATGTCCATCCTGAAAAGAGCCTCAAGTACCCGGAACGTCAAACTTCGCGATGTGGCAGCGGGTGTTATTGAGTCCATCGCCCCGAAACCGGGCGTACGGACTTACTTTGAGGAATAA	MDGQRQPVLQDGIVSRLQDLVLETYDAEELFQELAVFSASLLAPPGGEFYCNVTVVRRKKPVIVSCSSARARVMDELQYAFGDGPCLSAMRTGTKVHVPDVATEHRWPEYIRAVAGQGVGSILGVPLTLEGDSAAALNIYSSQAHAFTGEDIARAELFGEQSAKTLRLKLRLAKLKDAKEDMAAAMPSRTAIDIATGAIMAQNRCSQEAAMSILKRASSTRNVKLRDVAAGVIESIAPKPGVRTYFEE				NA	NA	NA	NA	NA
D1-17_00966	945			hypothetical protein	ATGGCCTCAGTATCTAAATGGGTCGCCGCTGGGTCGTCAGCGGCAGTTCTCGCCGGGGGACTTTTTATCGGAACCCCGCTGGCCGCGGCAGCACCCGGTGACGCCGCCTGCGTGGAGGCAGGCGTCCAGTACGAGGCCGCCTTGGCGGCAGCAGGAATCACCGAGGACACCATCGCCAGGCTTGAGGCCGCTTCCGAGGCTGTCGCCGCAGCCGAGGAAACGTACATGCAGCTTGTCCAGGAGGCTGAGGCGAGTGCCGCGGCTGCCGTGGACGCTGCCGTGGCCGAGCTTGAGGCCGCCCGCGCCGAGGTCGAGGCAACGGACCGCGCAAAAGACGCGGCGGACGCCTCGGGTGACGCTGCGGCCAGGAGGGCCGCCCGGCAGGCCCACGACGCCGCGGAAATAAGGGAAGCGAACGCCCAACTGGCCCTGGAGGAAGCCAATGCAGCGTTCGACGCTGCCACGAACACGGAGGGAATCCGCGCTGCGCAGGAAGCACTGGATTCGGCCGTGGCGGCCTTCGAGCAGGAGCTGGCTCGCGTCTCCCTCGATGAGGCCACCGCCATGGAGATCATGCGCCTTTTCGAGGCTTTCCTCGCGGCCTGCAACCCGGATCCGGTCGGCGTCGATCCGGTGGACTCTCCCGTTGTCACTCCTCCGTCAGTCACCACTCCGGTCGACATGTCGGGGGGCACCCCGCCAAGTACGACGCCGGCAGGCACCAACCCGGTCGGCGCCACCCCAGTGGGCGCTGCTCCTGTCGGGGGCACCACTGCTGTCCCCGTCGCCGGCGTGAACAGGGGGCTGAACGTGCAGACGGCCGCCCCTGCTGAGCCTGACGACCACCCCGGCCTGGCACTGCTGGCCGGGCTGCTGGCCGCCGGCATCGGGGTCCCCGCAGCCGTGGCTGTTAGGATGCACCGGCTGGAGCGCAGGCACCGCTAA	MASVSKWVAAGSSAAVLAGGLFIGTPLAAAAPGDAACVEAGVQYEAALAAAGITEDTIARLEAASEAVAAAEETYMQLVQEAEASAAAAVDAAVAELEAARAEVEATDRAKDAADASGDAAARRAARQAHDAAEIREANAQLALEEANAAFDAATNTEGIRAAQEALDSAVAAFEQELARVSLDEATAMEIMRLFEAFLAACNPDPVGVDPVDSPVVTPPSVTTPVDMSGGTPPSTTPAGTNPVGATPVGAAPVGGTTAVPVAGVNRGLNVQTAAPAEPDDHPGLALLAGLLAAGIGVPAAVAVRMHRLERRHR				NA	NA	NA	NA	NA
D1-17_00967	744	yflN	COG0491	putative metallo-hydrolase YflN	ATGGCGGTACAGACGGTAGCGGAGGGGGTACACCGCATCTCCGGGGCCTACGTCAACTTCTACCTTGTGGAAGCCGCGGATGGGCTGACGATGGTGGACTCAGGCCTGCCAGCGATGTGGAATGTGCTGCAGGGTGCCCTCAAGGATCTTGGGCATTCCCTGGAGGACATCAGGGCACTGGTGCTGACCCACGCCCACTTCGACCATTTGGGCCTGGCACGGCGAATGCACAGCGAGCACGGTGTCCCTGTCTGGGTCCATCCCGAGGACGCGTTCCTGGCCCGTCACCCCTACCGGTATAGCCACGAAAAATCCCGGGTGCTCTTCTCCCTCACACACCCTGCGGGAGTTCCGGTGCTGGCACGGATGGCCGGCGCCGGTGCCCTGAAGGTGCACGGCGTAGAGGAGTTCGCCTACCTTCCCGGGAGCGGCATTCTTGGCGTGCCCGGCGCTCCCGAAGTGATCTTCGCCCCCGGCCACACCCACGGCCACTGCGGGCTTTTCCTCCGCGACCGCAAGGTGCTATTCAGCGGCGACGCCCTCGTCACTCTGGACCCCTACACGCGAAGAACAGGCCCTCGGATCGTGGCAGGTGCAGCCACGGCAAACAGTGCCCAGAACCTGGAAACCCTCAGCGCACTGGCAGCCACAGGCGCCGAACTCGTCCTGCCGGGGCATGGCGAACCGTGGACGGAGGGCATCGAAGAGGCGGTTTCCATCGCCCGGCGGATCGGCCCTGCTTGA	MAVQTVAEGVHRISGAYVNFYLVEAADGLTMVDSGLPAMWNVLQGALKDLGHSLEDIRALVLTHAHFDHLGLARRMHSEHGVPVWVHPEDAFLARHPYRYSHEKSRVLFSLTHPAGVPVLARMAGAGALKVHGVEEFAYLPGSGILGVPGAPEVIFAPGHTHGHCGLFLRDRKVLFSGDALVTLDPYTRRTGPRIVAGAATANSAQNLETLSALAATGAELVLPGHGEPWTEGIEEAVSIARRIGPA				NA	NA	NA	NA	NA
D1-17_00968	231			hypothetical protein	ATGGAAAAATCACTTGCATGGCGGATCACAGACTGCCGGGAGCTGCGCCCCGGCGACGTTGTGGAAGCGCATCACAACGGCCTGCTGTACTACGCCGGGAAGGTCACCGAAACAGTGCCCGTCCTGGGCATGTTCTGGATCCTCGAAATCCGCACGGGAACCAGGAAGCTCATTGATCCGCTGGCCTACGTGGTGGTCCGCTCAGCCCGAAGCGGGGAGCAGCGCACCTAG	MEKSLAWRITDCRELRPGDVVEAHHNGLLYYAGKVTETVPVLGMFWILEIRTGTRKLIDPLAYVVVRSARSGEQRT				NA	NA	NA	NA	NA
D1-17_00969	2139	glgX_1	COG1523	Glycogen operon protein GlgX	ATGGAAGTTTGGCCGGGCAGCCCGTATCCGCTGGGTGCGACCTTTGACGGGGTGGGGACAAACTTTGCGCTGTTCAGCGAGGCGGCTACGGCGGTGCAGCTGTGCCTGATCGCCAGTGACGGCACCGAGACGCGCGTGGACCTCATCGAAGTGGACGGTTACGTCTGGCACTGTTACCTCCCCCAGATCCAGCCTGGGCAGAAGTACGGATACCGGATTCACGGGCCGTACGATCCGGCGAGGGGCCACCGCTGCAACCCGAGCAAACTGCTCCTGGACCCCTATGCCAAGGCCATCTCCGGGCAGGTCAACTGGGACCAGGCGATGTTTTCCTACAACTTCGGCGACCCTCTGTCCCGCAACGACGAGGACTCTGCCCCGCACACGATGCTGGGCGTGGTGATCAACCCGTTCTTTGACTGGGCCGGCGACCGCCCGCCCAAGATTCCGTACCACCGCTCCGTCATCTACGAGGCGCATGTCAAGGGGCTCACCCAGCTGCACCCGGAGGTGCCCAAAGAGCAGCGCGGCACTTTTGCCGCCGTTGCGCACCCCGCCGTCATTTCGCACCTGCAGCGGCTGGGCGTCACCGCGATAGAGCTGATGCCGTGCCACCAGTTCGTCAATGACGGCACGCTGCAGGAGAAGGGCCTGAGCAACTATTGGGGCTACAACACCATCGGATTCTTCGCCCCGCAGAACACGTACAGCTCGATCGGTCAGATGGGCCAGCAGGTCCAGGACTTCAAGGCGATGGTCCGCTCCCTGCACCGTGCGGGGATCGAGGTGATTCTCGACGTCGTCTATAACCACACGGCCGAAGGGAACCATCTGGGCCCGACCCTGAGCTTCAAAGGCATCGACAACTCTGCGTACTACCGTCTGGTGGACAACGACAAGCAGCACTACATGGACTACACCGGCACGGGCAACACCCTGAACGTGCGGCACCCGCATTCGCTGCAGCTGCTCATGGACTCGCTGCGGTACTGGGTGACGGAGATGCACGTGGACGGGTTCCGCTTCGACCTCGCCTCGGCGCTGGCCCGGGAATTTTACGACGTCGACCGGCTCTCCACGTTCTTTGAACTGGTGCAGCAGGACCCGATCGTGTCCCAGGTGAAGCTGATCGCGGAGCCGTGGGACGTGGGGCCGGGCGGCTACCAGGTGGGGAACTTCCCGCCGCAGTGGACGGAATGGAACGGCAAGTACCGGGACACGGTGCGGGACTTCTGGCGGGGCGAGCCGGCAACGCTGGGCGAGTTCGCCTCGCGCCTGACAGGGTCAGCGGACCTGTACGAGCGCTCGGGTCGGCGTCCGGTGGCCTCGATCAACTTCGTCACGGCCCACGACGGCTTCACCATGCGGGACCTGGTCTCCTACAATGAGAAGCACAACGAGGCCAACGGCGAGGGCAACCGGGACGGCGAATCGCACAACCGGTCCTGGAACTGCGGCGTGGAGGGCCCCACGGACAACCCGGAAGTCCTGAAACTGCGGGGCCGGCAGCAGCGGAACTTCATTGCCACCATGCTCCTCTCGCAGGGCGTGCCCATGATCACGCACGGCGACGAGCTGGGCCGCACGCAGCTGGGCAACAACAACGTGTACTGCCAGGATTCGGAGCTGAGCTGGATCAACTGGGATTCGGTGGATAAGCCGCTGATGGACTTCACCGCCGCGGTGAACAAGCTGCGCGCCCAGCATCCGACGTTCCGGCGAAGCACCTTTTTTGACGGTCGTCCGGTGCGCCGCGTCAAAGGCGAAAATCTGCCGGACATTGTGTGGCTGAATGAGGACGGCACGGAGATGCTGCCCGAGGACTGGGGCCGGGGGTTCGGCCGGACCATCGGCGTATTCCTGAACGGCGACGGCATCCAGGGCCAGGATGACCGGGGCCGGCGGATCTCGGACGTGAACTTCCTGCTGTACTTCAACGCCCACGACGACGACATCAAGTTCACGCTCCCCTCCGGAGAGTTTGCGGAATCCTGGGACATGGTGATCAACACCGCCGGGACCGGAGTCAGCCGCGGACCGGTCGAGGCCGGCCGCGTGCTGAAGGTCTGCGCGAAGTCGATGATCGTGCTCCGTGCCCGTCTGCTGAACCAGCCCGAGCCGAACCTCTGGACGGCGTAA	MEVWPGSPYPLGATFDGVGTNFALFSEAATAVQLCLIASDGTETRVDLIEVDGYVWHCYLPQIQPGQKYGYRIHGPYDPARGHRCNPSKLLLDPYAKAISGQVNWDQAMFSYNFGDPLSRNDEDSAPHTMLGVVINPFFDWAGDRPPKIPYHRSVIYEAHVKGLTQLHPEVPKEQRGTFAAVAHPAVISHLQRLGVTAIELMPCHQFVNDGTLQEKGLSNYWGYNTIGFFAPQNTYSSIGQMGQQVQDFKAMVRSLHRAGIEVILDVVYNHTAEGNHLGPTLSFKGIDNSAYYRLVDNDKQHYMDYTGTGNTLNVRHPHSLQLLMDSLRYWVTEMHVDGFRFDLASALAREFYDVDRLSTFFELVQQDPIVSQVKLIAEPWDVGPGGYQVGNFPPQWTEWNGKYRDTVRDFWRGEPATLGEFASRLTGSADLYERSGRRPVASINFVTAHDGFTMRDLVSYNEKHNEANGEGNRDGESHNRSWNCGVEGPTDNPEVLKLRGRQQRNFIATMLLSQGVPMITHGDELGRTQLGNNNVYCQDSELSWINWDSVDKPLMDFTAAVNKLRAQHPTFRRSTFFDGRPVRRVKGENLPDIVWLNEDGTEMLPEDWGRGFGRTIGVFLNGDGIQGQDDRGRRISDVNFLLYFNAHDDDIKFTLPSGEFAESWDMVINTAGTGVSRGPVEAGRVLKVCAKSMIVLRARLLNQPEPNLWTA	PGPT0019225_1262	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214	NA	NA
D1-17_00970	1215			hypothetical protein	ATGAGCCCGCCCGACAGCCCGCCGCCCTTCAGCCTGCGGGGCATCGCTGTTCCGGCGTTCGGACCCGCGCTCTTGTTCTCTTTCGGCGAAGGGGCAGTGCTGCCGGTGGTGGCGTTGTCCGCCCGGGAACTGGGCGCGTCCGTGGCCGTGGCAGCGCTGATCGTCACCCTGATCGGGCTGGGCTCGTGGTTTTTCAACCTGCCGGCCTCCATGATCACCCTCAAATTCGGGGAGCGCTGGTCCATCGTGGGTGCCGCGGCGGCCGGGGCGCTGGCGCTCCTGGCAGCGGGTCTGTCCTCGGTGATACCGGACGGACTGTGGCTGCTGGCCGTGGCGATGGCCGTCGTCGGGATGTCCGCGAGCGTCTTCAGCCTGGCCCGGCAGAAGTACCTCACCGAAGCCGTGCCGGTGGAGTTCCGGGCGCGGGCACTGTCCACTCTGGGCGGCGTGAACCGGATAGGGATATTCATCGGCCCGTTCGTTGGCGCGGGCGTCATGCAGTTCGCCGGCATCAGCGGCGCCTACTGGGTGGGTGTTGCGGGCATGACGGCGGCTGCCGTCATCGCGGTGACCATCCCGGACCTGGCCGTTGCCCGCGGCGCGTCGGATCCGGCTGGACCGGCGCCGACACTGCGCGGCGTGGCTCGCTCGCACGCCGGAGTGTTCCTCAGTGCGGGCGCGGGGATCCTGCTGCTGTCCGCCCTGCGCGCCTCGCGGCAGGTGGTGATCCCGTTGTGGGCAGACCACGTGGGGCTGGACGCGTCGCAGGCCTCGCTGCTGTACGGGCTGTCCGGGGCGATCGACATGCTGGTGTTCTACCCGGCCGGCAAGGTTATGGACCGGCGCGGGCGCCTGTGGGTGGCGTTGCCGTCCACCCTGATCATGGGGACGGCACTGATGCTGATCCCGCTGACCGCAGGGTTCGCCGGCCTGCTGCTTGTGGTGCTGCTGGTCGGGTTCGGCAACGGTATCAGTTCGGGGCTCGTGATGACCCTCGGCGCGGACTTCTCGCCGGACAACGGCCGCGGACAGTTCCTGGGCCTGTGGCGGTTCATCGCCGACGCCGGCCAGACCGGCGGCCCCGTGCTGCTCTCCGCTGTGACGGCGGCGGCCTCGCTCGCTGCAGGCGTAGTGGCCACAGGCTTCCTGGGGTTCGCCGCGGCAGCCGTGTTCGCCGTCGTGCTTCCGAGGCTAAAGCACCGCCGGAACTACTGA	MSPPDSPPPFSLRGIAVPAFGPALLFSFGEGAVLPVVALSARELGASVAVAALIVTLIGLGSWFFNLPASMITLKFGERWSIVGAAAAGALALLAAGLSSVIPDGLWLLAVAMAVVGMSASVFSLARQKYLTEAVPVEFRARALSTLGGVNRIGIFIGPFVGAGVMQFAGISGAYWVGVAGMTAAAVIAVTIPDLAVARGASDPAGPAPTLRGVARSHAGVFLSAGAGILLLSALRASRQVVIPLWADHVGLDASQASLLYGLSGAIDMLVFYPAGKVMDRRGRLWVALPSTLIMGTALMLIPLTAGFAGLLLVVLLVGFGNGISSGLVMTLGADFSPDNGRGQFLGLWRFIADAGQTGGPVLLSAVTAAASLAAGVVATGFLGFAAAAVFAVVLPRLKHRRNY				NA	NA	NA	NA	NA
D1-17_00971	1548	hbpA_1	COG0747	Heme-binding protein A	TTGCGCTACTCACTCGCGTCGTCTATGTCCCTGGGACTCGTGGCGCTTCTTTCACTGTCCGGCTGCGGCTTCAGCGGCACGTCGGAAAAGACCGGCCAGGCGGCCGACCGCGACCAGCGGATCGTCGTGGACAATTTCCGCGCCCCGGTCGCTGACTGGGCGCTGGAAAGTGACGCCGCCTACATCCTCTCCCTCTCCGGCTGCCTGGAGACCCTGACCCGCTATGACGAGTCGCAGGGAAAGATCGTGCCCTCCCTCGCTACTGAGTGGAAGCAGGTCTCCCCCCTCGAATGGGACTTCAAGATCCGCGAGGGCGTTAAATTCCAGGACGGGACTGCGCTGAACGCTGCCGCCGTGGTCACTTCCCTGCAGAACGTCCTCGACGCCGACGTCCCGGCCCGCGCCTTCAGCACCAAGGTGGTCAGCGCGGTCAAGGCGACCGACGATTCCACGGTTCGCGTGACCACCCCCACCGAAAGCCCCCTGGTTCCCTACCGCCTGGCGAGCGTCAACACGGGTGTGCTGTCACCGGCCGCCTTCAAGGGCGAAACAGTGAATCCGTTTGGCCACTGCACCGGTCCGTTCAAGCCTGTGTCCGAAAAGCCGAAGCAGTCCCTGACCCTGGACCGCAACGAGGACTACTGGGGCGGCGAGGTGCAGCTTGCCGGCGCCGAGATCCGGTTCATCACCGACGGCGCCACCCGCGCCGCCCAGGTCCAGACCGGCGAAGCCGACGTCTCCCTCTCCATCCCCGTCTCCGGTCTGGCCGCTTTGGAATCGGATTCCAACGTCAAGCTCCTGAAGGCTGACTCCCCGCGGACCGCGACGCTGTACATGAACAACGGCAAGGCCCCGTTCGACGACGTCAATTTCCGCAAGGCGGTCCGCTCGGCTCTCGATCTGGACGCCCTTGCCGCCAGCGTCTATGAAGGTGCGGCCCTTCCGGCTACCGGCCCCTTCGCTCCGTCTGAGCCGTGGGCGATTGAAGGTGCCGAGGCGCCGAAGCAGGACGTCGAGGCCGCCAAGAAGCTCCTCGCCTCCGCCGGCTACACTGCCGGCCGGCCGCTGGAGATCGTCGCCATCGTGGAACGCGCAGAGTTCGCCGACGTGGCCACGGTCATCCAGGAGGACCTGAAGGCCGTGGGTGTGCCCGTGAAGATCACGACCAAGGAATACGCGGCCGTGGAACCGGACCTCCTGGCCGGCACCTACGACATGGTGCTGAGCCAGCGCAACCGCCTGATCGACATCGCCGACCCCATCGGCTTCCTCACCGCCGACTACACCTGCGACGGCAGCTACAACCTCAGCCACTTCTGCAACCTGGACTACGACAAGAAGGTGGTTCAGGCAGCGAAGACGGCCGACGCGAAGGAGCGCTACCGGCTGTACGCCGAAGCCGGGCAGATCCTCCAGGACCAGGCCGTGAACGTCTGGCTCGTCAACGAACAGGCCATCGACGCTGTCCGCACCGACCTCCAGGCCCACGTCCAGGACCCGCTGGCCCGGTACGTGCTCCGCGCTGAAACGGCGAAGTCCGGATCCTGA	MRYSLASSMSLGLVALLSLSGCGFSGTSEKTGQAADRDQRIVVDNFRAPVADWALESDAAYILSLSGCLETLTRYDESQGKIVPSLATEWKQVSPLEWDFKIREGVKFQDGTALNAAAVVTSLQNVLDADVPARAFSTKVVSAVKATDDSTVRVTTPTESPLVPYRLASVNTGVLSPAAFKGETVNPFGHCTGPFKPVSEKPKQSLTLDRNEDYWGGEVQLAGAEIRFITDGATRAAQVQTGEADVSLSIPVSGLAALESDSNVKLLKADSPRTATLYMNNGKAPFDDVNFRKAVRSALDLDALAASVYEGAALPATGPFAPSEPWAIEGAEAPKQDVEAAKKLLASAGYTAGRPLEIVAIVERAEFADVATVIQEDLKAVGVPVKITTKEYAAVEPDLLAGTYDMVLSQRNRLIDIADPIGFLTADYTCDGSYNLSHFCNLDYDKKVVQAAKTADAKERYRLYAEAGQILQDQAVNVWLVNEQAIDAVRTDLQAHVQDPLARYVLRAETAKSGS	PGPT0004430_15806	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
D1-17_00972	942	cntB		Metal-staphylopine import system permease protein CntB	ATGATGCTGTTCCTCGCCAGGAGAACGGCGGCCCTGGTGGCCGCCGTTCTCCTGGCGTCCTTCGTGGTCTTCCTCATCCCTTACGTGACCCCGGGCGATCCCGTGCGGAAGATCATCCGCTCCCGGGTGGCCGGGGACATGGTGGACGACTCCGACGTCCAGTCCCTAGCCCTTCAACTGGGTCTTCAGGATCCGCTGTGGACGCAGTACCTGCGCTGGCTGGGCCGGCTGGTCAGCGGCGACATGGGCCTGTCCTACACCAGCCGCACCCCGGTGGTGGAGCAGGTACTGCCCGCCCTCTGGATTACGCTCAGCCTTGTGGTTATGACCTTGGCCGTGGCGGCCCTGGTTTCCGTGGTCCTGGGCATCACAGCCGCTTTGAACGAGGGGCGGGTGGCGGACAAGGCCATCACCGCGCTCAACCAGGCACTCATCGCGATGCCGGAATACTGGCTCGCGCCGATGCTGGTGCTCGTCTTCGCGATCCAGCTCTCCGTGCTGCCCTCCGCCGGATGGGAAGGCCCGACGTCGGCAGTGCTGCCCGTGGCCGTCCTCGCCTTGCGCCCGGCGAGCCACTTCACGTCCGCCGTGCGCGACGGAATGCTCGAAGCGCTGGCCGCCGACCACGTGGCAGCTGCGCGGGCACGCGGACTCAGCCACTTCCATACCGTGCGGAAGCACGTCATCCCCAACGGCCTGCTGCCGCTGACCACCCTGGTTGCCGTCTGGTTCGCCGGGCTGCTGGGCGGGTCCGTCATCATCGAGGTCATCTTCGCGGTCCCGGGCATGGGCCGGCTGCTCTTCGACGGCGTCCTGAACAGCGACATCCCGCTGGCGCAGGGCGCGGTGGTGGTCGTCGTGGGGCTCGCCGTCCTGCTGACGACGGCAGCTGACCTCGTCCACGGGCTCCTCAACCCCCAAGTCAGGATGCGCCATGCGTGA	MMLFLARRTAALVAAVLLASFVVFLIPYVTPGDPVRKIIRSRVAGDMVDDSDVQSLALQLGLQDPLWTQYLRWLGRLVSGDMGLSYTSRTPVVEQVLPALWITLSLVVMTLAVAALVSVVLGITAALNEGRVADKAITALNQALIAMPEYWLAPMLVLVFAIQLSVLPSAGWEGPTSAVLPVAVLALRPASHFTSAVRDGMLEALAADHVAAARARGLSHFHTVRKHVIPNGLLPLTTLVAVWFAGLLGGSVIIEVIFAVPGMGRLLFDGVLNSDIPLAQGAVVVVVGLAVLLTTAADLVHGLLNPQVRMRHA	PGPT0004445_12364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
D1-17_00973	909	gsiD	COG1173	Glutathione transport system permease protein GsiD	ATGCGTGACCTAGCCCTGCGAATCCTGGCTACGCCTATCCGGCGCCTGCGCATCCCAGGCGTGCGGAACCTGCCGGTGCACCTGCGGATTGCCGTTTCGGTGCTCGCCCTGATTGTTCTGTCCGTTGCCCTGGCCGGCTGGGTCGCTCCCTATCCGCCGGCCCAACAGGACCTCGCGTCCAGGCTGGCCGCGCCCGGCTGGACGCACTGGCTGGGCACCGACCACCTGGGCCGCGACACCCTGAGCCGACTGCTCGACGGCGGGCAGTTCTCCTTGACCATCGCTGCCCTCGCGACGGTGCTCACCGCGGTAATCGGCACCGCGATCGGCGTACTCAGTGCACGCCGGCGGGGCTGGCTGGATGAGTTCTTCACCCGCACCAGCGACGTCCTGCTGGCAATGCCGGAAATGGTGGTGGCACTGTTCCTGGTGGCCGCAATGGGTGCCGGCTATCCGTCGCTGCTGCTGGCGCTGACAGTGACCGGCTGGACCCCCTTCGCCCGACTGGCCAGGGCACTCGCGTACGACGTCTCGGCACGCGGGTTTATCGATGCCGCCCGCGTACTCGGTTGCCCGCCCTGGTTCATCGTCATGCGGCACATCCTGCCCCATCTCGCCGGGCCGCTGCTCGGCCAGGCCACGCTGCGGTTCGGGCAGTTCCTGATCAGTGTCGGCGCCCTGTCCTACCTTGGCCTCGGAGTGCAGCCCCCGCAGTCGGACTGGGGATCGATGCTCGCCGCGGCCCAGCCTTACGCCGTGAGGTCGCCGATGACCATTCTCGCCCCCGGCCTGGTGATTTTCACGGTGGCGCTGTGCGTTACGCTTCTCGGCCAGCACCTGGCGCGGATGTCCAGCAGCCGGCTGCTGCTGGCTACCTCAGTCCCCGCACCGGCGGTCAGCCATGCGTGA	MRDLALRILATPIRRLRIPGVRNLPVHLRIAVSVLALIVLSVALAGWVAPYPPAQQDLASRLAAPGWTHWLGTDHLGRDTLSRLLDGGQFSLTIAALATVLTAVIGTAIGVLSARRRGWLDEFFTRTSDVLLAMPEMVVALFLVAAMGAGYPSLLLALTVTGWTPFARLARALAYDVSARGFIDAARVLGCPPWFIVMRHILPHLAGPLLGQATLRFGQFLISVGALSYLGLGVQPPQSDWGSMLAAAQPYAVRSPMTILAPGLVIFTVALCVTLLGQHLARMSSSRLLLATSVPAPAVSHA	PGPT0004450_12363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
D1-17_00974	1881		COG1123	putative ABC transporter ATP-binding protein	ATGCGTGAGGGCCTGATCATCGAGGACCTGCACCTCATGCTGTGCGGCAAGCGGCCGTCCGGCAGGGCGCTGTCCAGCAAAGCGCCGTCCCGGGAGGCGCTGTCCCGCAAGGCGCCGTCCCGGGAAGAACCGGCCGGGCGTCCGGTGCTCTCCGGCGTCGGCCTGTCCGTGGCACCTGGCGAATTTGTCGCCCTTGTGGGCGCCTCCGGAAGCGGCAAGACCCTGACCGCACTGTCTGTCCTGGGACTGCTGCCGCCCCAGATGCACGTTGAATCCGGTTCCATCCGGCTGGGCGGGACAGACCTCCTGGAGTCCGATGACAAGGAGCTCAACCGTATTCGCGGCGGCCGGCTGGGCATGCTGTACCAGCAGCCCAAGCGCATGTTCAACCCGCGGATGACCATGGGCAGCCATCTGGCCGAACCGCTGAAGCTGCACCGCGGACTGCGCGGTCGGGGTGCCAAGGTGCAGACGCTGGACCTGCTGTCCGACGTCGGCTTTGAGGATCCGGCCCGGTGTTCCCGCGCCTATCCCCATCAGCTTTCGGGAGGCATGGCCCAGCGCGCCATGCTTGCACTGGCCATGGCCGGCCAGCCGGAGATGCTGCTCGCCGACGAGCCGACCTCGGCGCTGGATAAGGTGCTGGAGCGGCAGATCCTGGAGCTGATCGACAGGCAAAGGCGCCAGCACGGGCTCGGGGTTCTCTACATCACCCACGACCTGGCCACCGTCTCCGCGTTCGCTGACCGCGTGGTGGTGATGGACGGCGGCCGCGTCCAGGAAGCAGGTCCGGTCAGGGCGGTCCTTGACACACCCCGGACTTCGTTCACGAAAGACCTCCTGGCGGCGTCTGCACTCACCGCTGCACCGACCACCGCGCGGCCCCCCGTCCGCATTCCGCTGCGGGCACTGCTCCAGGCCCCGTCGGTGCGGACCCCGGCCGCAGGGACCCCGGCGGCCGCGACCCCGCTGCGGACGCCGGTCCGCATCCCGGCGCGCCCACTGACGGAGGGGACGTCGGTGCGGACACCGCTCCGCACTCCGGTCCACAGGCCTGGAGGATCCGCAGCCGAGCCCGCGGCAGCACGCACCATCCTGGCGCTGGAAAATGTCACCAAGCGGTTCTCGTCCAATGGCCGTGGCGCCCGGCCAGCCTTGGCGGGAGTGTCGCTCAGCCTGCGCGAGGGTGAGGTTCTTGGCGTGCTGGGCCAGTCCGGCTCCGGGAAGAGTACCCTTGCCCGGCTGCTCGTCGGGGTGGAGGCTCCGGACGGCGGCATCATCACCCGGTCACTCCGAGCGGGTGAGTCCGGCGCCCGTGAGGACGGAACGGCCGTGCAGCTCGTCTTCCAGGAGCCGCACGATGCCTTCGACCCGCGCATGAAACTGCGCGCCAGCCTCGAAGCTCCGCTGCTGCGGCGCCGGAACCTGACCGGGGACGAGCGCCGGGAGCGCATCCACAGGGCGGTCCGGGATGTTGAACTGGAAGCCGACCTGCTGGACCGGTATCCGGGCCAGTGCTCAGGAGGCCAGCTGCAGAGACTAACGATCGCCCGCGCGCTTCTGCTGGATCCGGCGGTGCTCATCTGCGACGAGGCCACTTCGGCGCTGGACGCGGTTACCCAGCGCAAGGTCCTGGACCTGCTGCTGCGCCTGCACGGCGACCGCCGGCTTGCGCTCATCATGATCTCCCACGACATGAACGTCATCCGGTACATGAGCCACAGGGTGGCAGTGCTCTACCAGGGAGCCTTGGTGGAACTGGCACGCACCACGGACTTCTTCGCGAACCCCCTGCACCGGCACAGCAAGCAGCTCGTCGCTGCGGCCCGGCCGGAGCCTCGGGCAGCCGTTACCAGCCACGCGCTCATCAGCAGCAGGTAG	MREGLIIEDLHLMLCGKRPSGRALSSKAPSREALSRKAPSREEPAGRPVLSGVGLSVAPGEFVALVGASGSGKTLTALSVLGLLPPQMHVESGSIRLGGTDLLESDDKELNRIRGGRLGMLYQQPKRMFNPRMTMGSHLAEPLKLHRGLRGRGAKVQTLDLLSDVGFEDPARCSRAYPHQLSGGMAQRAMLALAMAGQPEMLLADEPTSALDKVLERQILELIDRQRRQHGLGVLYITHDLATVSAFADRVVVMDGGRVQEAGPVRAVLDTPRTSFTKDLLAASALTAAPTTARPPVRIPLRALLQAPSVRTPAAGTPAAATPLRTPVRIPARPLTEGTSVRTPLRTPVHRPGGSAAEPAAARTILALENVTKRFSSNGRGARPALAGVSLSLREGEVLGVLGQSGSGKSTLARLLVGVEAPDGGIITRSLRAGESGAREDGTAVQLVFQEPHDAFDPRMKLRASLEAPLLRRRNLTGDERRERIHRAVRDVELEADLLDRYPGQCSGGQLQRLTIARALLLDPAVLICDEATSALDAVTQRKVLDLLLRLHGDRRLALIMISHDMNVIRYMSHRVAVLYQGALVELARTTDFFANPLHRHSKQLVAAARPEPRAAVTSHALISSR	PGPT0004435_5834	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
D1-17_00975	1275	hisC_1		Histidinol-phosphate aminotransferase	GTGACCGGTTCCCCTGCTTCCCGGCGCGCGCTCGGCGTTGCGTCGATCCCGTCCTTTCAACGGATCAATGCGTTCCTCAACGATTCCATCTACTCACGACGGCGGTACCTGTCCGGCATCTGTGACTTCACCTTGGGAAACCCGCACCAGATGCCGCAGTCCGCGTATGTTGAGACACTGGCGGACACGGTCCGCCCTCGCAACGACCAATGGTTCGCCTACAAAACCAACGAGATTGACGCCCGGGAGGCCGCCGCCGAATCGCTGACCCGGCTGCTGGAGGTTCCTTTCCGTCCTGAGGACCTGTACCTCACCACTGGAGGTTTCACTGCCCTTACGCTGGCGCTCAAAACCGTGACCGATCCAGGCGACGAGGTCATCTACAGCCTGCCGCCATGGTTTCTCTACGAGCCGCTCGCCGTCGAGGCCGGCCTGGTGCCCGTCAAGGTTCCGATCAACCTCAAGACGTTCGACCTTGACCTGGCCGCAATCGATGCCGCCATTACACCGCGCACACGCGCCCTCATCGTCAATTCTCCGAACAACCCCACAGGCCGGATCTATCCGCCTGAACTGCTGCAGAGCGTGGCAGAACTGCTCGAGGAGGCGTCTGTCCGGATCGGGCGGCGCATTTACCTGATCTCGGATGAGCCCTACAACCGGATCGTGTTCGACGGCGCCCGCTTCCACAGTCCCACGGAGTTCTACCCATACACCCTGCTGGCTTACTCGTATGGGAAGACGCATCTGGCACCGGGGGAACGAATAGGATATCTGGCTTTGCCTTCCACCATGCCGGACCGAGAGGAGCTCCGTCCGGCAATTGAGGCGCTGCAGGTGGCCATGGGCTGGATTTTTCCGAACGGGTCCCTGCAGGTCGCGCTGCCCCGGCTGGAGCAGTTCACCATCGACGTGGACCAGCTCCAGCGCAAGCGCGACCGTCTCGTGGAGGAATTGTCGGGCATGGGCTACCGGCTGCGGCCGCCCGAGGGGTCCTTTTACCTGTTCGTCCAGTGCCCCATTTCCGACGACGAGGCGTTCACCGAAGCCCTCGGCCATGAGGACGTCTTCGTCCTCCCTGGCGTCCTCTTTGAGACACCCGGCTACTTCCGCATGTCACTCACGGCCAGCGAGGAAATGGTGGAGAACAGCCTGCCGCATTTTCAGGCTGCGATCGAGAGGGCGAGCCAGGACCGCCCCGAGGACGCCGAGATCGGCCTCCCCACGGGGCTTATCCCCGTCATTCCCCCGCCGCATGGGCCGGCCGTACTCTGA	MTGSPASRRALGVASIPSFQRINAFLNDSIYSRRRYLSGICDFTLGNPHQMPQSAYVETLADTVRPRNDQWFAYKTNEIDAREAAAESLTRLLEVPFRPEDLYLTTGGFTALTLALKTVTDPGDEVIYSLPPWFLYEPLAVEAGLVPVKVPINLKTFDLDLAAIDAAITPRTRALIVNSPNNPTGRIYPPELLQSVAELLEEASVRIGRRIYLISDEPYNRIVFDGARFHSPTEFYPYTLLAYSYGKTHLAPGERIGYLALPSTMPDREELRPAIEALQVAMGWIFPNGSLQVALPRLEQFTIDVDQLQRKRDRLVEELSGMGYRLRPPEGSFYLFVQCPISDDEAFTEALGHEDVFVLPGVLFETPGYFRMSLTASEEMVENSLPHFQAAIERASQDRPEDAEIGLPTGLIPVIPPPHGPAVL	PGPT0020120_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020120-yhdR-K11358	NA	NA
D1-17_00976	954			putative protein	GTGGACGACAAGACGGAAGCAAACCAGGCTGAGCCGGCGGGGGCGCAGTCAGCCCAGTCAGACACAGTCCAGTCAGGCGCGGTCCAGTCAGACGCGGTCCAGGCAGACCGGGCGCTCAAAGAAAAGCACAGGGCCATGTGGGCGCAGGGCGATTACCCGGCCCTCGCAAGCGAGCTGATCCCGGACCTTGGCGCCATCCTCGTGGAGGCGTGCGGTATCCATCCCCGGCAACGGGTGCTGGACGTCGCAGCGGGAGCCGGAAACGCCGCCATCCCTGCGGCCATGATGGGGGCCGAGGTAGTGGCCAGCGACCTCACCCCGGAGCTGTTCAATGCCGGACGCCGCCTCGCCGCCGACCGCGGCGTGGAGTTGGAATGGATGGAAGCGGACGCGGAGGACCTGCCGTTTCCGGACGGTGAGTTCGATGTGGTGATGTCATGCGTGGGTGTCATGTTTGCGCCCCACCACCAGAAGAGCGCCGACGAACTGCTTCGGGTCTGCCGCCCGGGCGGCACGATCGGGCTGATCAGCTGGACCCCGGAGGGCTTCCTCGGGAAGATGTTCTCGGCCATGGGGCCGTTCGCGCCCCCACCCCCACCGGGAGCGCAGCCTCCGCCGCTGTGGGGCAGCGAGGAGCACGTGCGCGAACTTCTGGGCGGCAACGTCACGGACGTCCAGGCCCGGAAACAGACGGTGACCATCACCAGTTTCCACCAGCCTGACGACTTCCTGCATTACTTCAAGTCCCACTACGGCCCCACCATCTCCGTGTACAAGTACCTGGCCGGGGACGAGGAGAAGGTCAGGGCCCTGGACCAGGCCCTCACCGAGTTGGCCGCAGCCTACAGCGATGCACACGGCGACGCGCCATCACAGATGGATTGGGAGTACCTGCTTCTGACCGCCAAGAAGGTCCGTGCCGGCGAAAGCCATGGGGATCGGACCGGGCCGTGA	MDDKTEANQAEPAGAQSAQSDTVQSGAVQSDAVQADRALKEKHRAMWAQGDYPALASELIPDLGAILVEACGIHPRQRVLDVAAGAGNAAIPAAMMGAEVVASDLTPELFNAGRRLAADRGVELEWMEADAEDLPFPDGEFDVVMSCVGVMFAPHHQKSADELLRVCRPGGTIGLISWTPEGFLGKMFSAMGPFAPPPPPGAQPPPLWGSEEHVRELLGGNVTDVQARKQTVTITSFHQPDDFLHYFKSHYGPTISVYKYLAGDEEKVRALDQALTELAAAYSDAHGDAPSQMDWEYLLLTAKKVRAGESHGDRTGP				NA	NA	NA	NA	NA
D1-17_00977	936			hypothetical protein	ATGACTTCCCAGCTCAGGAACCAGCTCAGGAATCCCGGACGCAGCAAGCGCCCGGGCCCGATGCGCCTCGCAAGGGGCGCCGGATTCCTTTTCGCCCTGGCTACCCTGGCCTGCATGGCGGGGCTTTCCGCCACGTACTACTACTTCGTCCGGACCACCACCGGCCAGTTCATCGATGAGTCCGCGCTCGTCGAGGCTGTGGCTATCCACGGGCCTGCCGGCAAGGCCACCACCCGGTTCCTGGATTGGCTGCCCACCATCTCACTGGTGATGGCCGCCGTCGTGGTTCTTTTTGTCACCCTGATCCACCGCCGCTGGCGGGCCGCCGGTATTGCGCTGGTGGCGTGCGTGGCGGCTAACGTTGCGGCGCAGGTGCTCAAGCACTTGCTGCTGGTGCGGCCGGACCGCGGCGTGGAGACGCTCGAGTTCAACTCGCTGCCGTCGGGGCACACCACGCTGGCGGCGTCGTCGGCCGCGGCCGTGTTCCTGATGGCCTCACCGCGCTGGCGGCCGATGGCGGGGTTCGTGGGCGGCAGTTTCGCGGTTGCCTCCGGGATGTCCACGTTGGTGAACCAGTGGCACCGGCCGGCCGACGTGGTGGCCGCGTTCCTCCTCGTGGGCTGCTTCATGATTCCTGCCGGCTGGCTGATCATCCGCACGGGCAGCCACGAGTGGAATACATGGGACGCCTTCAACGGGCATTGGGCGTCGTCGCGGCTGTGGATCGGGCTGCCGGTGGTGCTCGGGCTGGCGTCGGCGGCTGTCGCGCTGTATTCGCTGGTGAAAATCGCGCCGCTGCCGGGCCAGGAGGAGAGCACCACCAACTACTTTTGGGCGGGGATTTCGCTGATCGTGATCGCCGGGTATCTGGCCACGGTGGCCACCACTGCTCTGTTCGCCTATGCCGCTCGACGGCGGGACGCACCCGCGCGGTAA	MTSQLRNQLRNPGRSKRPGPMRLARGAGFLFALATLACMAGLSATYYYFVRTTTGQFIDESALVEAVAIHGPAGKATTRFLDWLPTISLVMAAVVVLFVTLIHRRWRAAGIALVACVAANVAAQVLKHLLLVRPDRGVETLEFNSLPSGHTTLAASSAAAVFLMASPRWRPMAGFVGGSFAVASGMSTLVNQWHRPADVVAAFLLVGCFMIPAGWLIIRTGSHEWNTWDAFNGHWASSRLWIGLPVVLGLASAAVALYSLVKIAPLPGQEESTTNYFWAGISLIVIAGYLATVATTALFAYAARRRDAPAR				NA	NA	NA	NA	NA
D1-17_00978	276			hypothetical protein	ATGCCCACTAACTTGCTCAATCCCAAGGCGGGCGTCTTCCACATCGCCACCATTCCCCAGTTCATCCCCGCACGCATCTCACCCTTGCTGATGGGCATTTTGCTCGCCGGCGTCCATTGCCTGCTGGCCACGGTCTGGTTCATTCTGCTGATCTTCGGCACTGGCTACGCCGCCGGCGGGCTCAAGGGGCCCGAAGCATCCGTACCCCCGAAGCATCCGTACCATCGACAGCATCACCGGAACCGTCCTCGTGGGTTGCGGCCTGAAACTTGGTGA	MPTNLLNPKAGVFHIATIPQFIPARISPLLMGILLAGVHCLLATVWFILLIFGTGYAAGGLKGPEASVPPKHPYHRQHHRNRPRGLRPETW				NA	NA	NA	NA	NA
D1-17_00979	246			hypothetical protein	ATGAGCGAAAACCTGGACGATACACGCACTGGCTCTGGCACCGGACCTGGTTCTGGCACTGGTTCCGGCACTGGGCGCGATACCGGCGGTGACGCTGAGAAAACCGTCCGCGACAAGGACGACGTCCGCAGTACCTCGCCCGAGGGAGACCTGAGCACCAGGCTGGACCCGGACGTCATTCCGCAGCAGGGCGATACGCCTGAAGTGGAGCGGACCAGGGAACACCCGGAGGAAACCGGCAGCTGA	MSENLDDTRTGSGTGPGSGTGSGTGRDTGGDAEKTVRDKDDVRSTSPEGDLSTRLDPDVIPQQGDTPEVERTREHPEETGS				NA	NA	NA	NA	NA
D1-17_00980	396			hypothetical protein	ATGGCCGGACTCGCGGATGTTCTGGGCCCTATCCTGGAACTGATGTCGTGGGTGGGGTTCATTCCCGGCGTGCCCCTGCTCGTATGGGGCCTGGTCATCAGCAAGCGGCGGTGCGACTGGACCACCACCACCGGTGAGGTCTACACCGCCGGGGGCTTCACCGGATTCCGTTGGGTGGACCAGGAAAATACGCCGCGGCAAACACTCGTTGATGCCGACGTGGCGCGCGGGCTTGAGGCCGGAAACCACGTGCAACTCCACTACGACGTCTGTCACCCCTCCCGCTGGGGGCTGAGGCCGCCGAAACACGACAACACCGTGCTGATCCTCGGCTGGATCCTCACCGGTCTGGGCCTGCTGTGCACGGCGGGCGGGTTCGTGCTCTTGCTCTTTTAG	MAGLADVLGPILELMSWVGFIPGVPLLVWGLVISKRRCDWTTTTGEVYTAGGFTGFRWVDQENTPRQTLVDADVARGLEAGNHVQLHYDVCHPSRWGLRPPKHDNTVLILGWILTGLGLLCTAGGFVLLLF				NA	NA	NA	NA	NA
D1-17_00981	324			hypothetical protein	ATGCACACGAACTACCGTGACCTGCATGAACACATCCCGCCGGAGCGGCGGGGCTACACGGTTGGTGTGCCGAACAGCCAGCCGTCCACCATCACTATCGACGACTCCGAGCTGCATCAGCAGGTCCTGGATATCATCCAAAGCGTGCTTTCGACTACTGATCCACGGTCGGACGTCCGGCGCCGGCTGTTGCGGCACTTGGCGGAGAACCCTGGCCATCCAGAGCAGGCGCTGCTGAACCACCTGCGGGAGAGGAACCGGAACGGAGGCGCACCGCGGGCCGCACGGAGGCAGGGCATGGGCAGCACTGCCGGCCACGAGTAA	MHTNYRDLHEHIPPERRGYTVGVPNSQPSTITIDDSELHQQVLDIIQSVLSTTDPRSDVRRRLLRHLAENPGHPEQALLNHLRERNRNGGAPRAARRQGMGSTAGHE				NA	NA	NA	NA	NA
D1-17_00982	477			hypothetical protein	GTGAAGAAGTGGTCAGTGCTCAGCATTCCCGCGATCGGCCTCGCCGGTCTTGGGATCTGGGCACAGTCGCTGGCGGCGGCGCCGACCAACCAGCCCACAGGAGTGGTCGTGGCCGATCCCGCCGCATCTTCCAGCGTGTCCGGTTCGTCCGCGCCGGCTCCTGCTTCCAGCTCCTCTGCGTCCGCACCTGACAGGTTCCGCTCCAGCGAAGCTCCCCGGCGCCTTGATATGGCCCAGCCGCAAACCACAGAGCAGGCCGAAACCCAGGACGCTGACGACGATGGCCCGGGCGTTGTTCAGCACGTCATACCAACACAGGTCACGTCACCCGCTGCTCCCCCTCCAGCCGGGTCTGCCTCCGCTAAAACGGACGACACGGATGGCACGGATGACAGCCAATCGAACGACACCGGACCGGATGACAGCGGTCCGGATGACAGTGCGGGCCTGGCCGACAGCGGCGGCAGAGATGACTAA	MKKWSVLSIPAIGLAGLGIWAQSLAAAPTNQPTGVVVADPAASSSVSGSSAPAPASSSSASAPDRFRSSEAPRRLDMAQPQTTEQAETQDADDDGPGVVQHVIPTQVTSPAAPPPAGSASAKTDDTDGTDDSQSNDTGPDDSGPDDSAGLADSGGRDD				NA	NA	NA	NA	NA
D1-17_00983	759	mprA		Response regulator MprA	GTGACCCGCATCCTCATCGCAGACGACGAGCCGCGCATCGCCGCGTTCCTCGTCAAGGGCCTCACCGCGGCCGGATACACCACCACGCAGGTCTCGGACGGAGTAAAGGCGCTGGATTATGCCTCGTCCGGTGAGTACGACCTGCTCATCCTGGACATCGGAATGCCACGAATGGACGGGCTCGCGGTCCTCCGGAACCTTCGTGCCATGCAATCCACCGTCCCGGTGATCGTCCTTACCGCGTCGGACAGCCTGGAGAGCACCGTCGCCGCGCTGGAGGGCGGAGCCGACGACTACATGACCAAACCGTTCAGGTTTGAGGAGCTGCTGTCGCGCGTGAAGCTGAGGCTCCGGGGTACCTCACCGGTCACCGCGGCGCCCACGCTTAAATGTGGGGACCTGACACTGAACATCGACCTGCGGACAGCAGAAATCGGCGGGCGCACCATTGACCTCTCAGCCCGCGAATTCGTAATGGCACGAACGCTCATCGAGAACGCCGGCCGCGTGTTGAGCCGGGAGCAGCTGCTCAGCCGCGTGTGGGGTTACCACTTTGAAGGCTCCTCGAACGTGGTGGACGTCTATGTGAGGTACCTGCGGAACAAGCTCGGCCAGGACCGGATCCAGACCATCCGGGGCGTGGGCTACCGCATTGTGTGCCAACCCGAGGATGACGACGGCACCGGCGGGACCGGTGGAACCGACGACGGCGCCACGGGCTACGGCGGCTCGGGCTACGGCGGGGCCGCTCCCGGCTAA	MTRILIADDEPRIAAFLVKGLTAAGYTTTQVSDGVKALDYASSGEYDLLILDIGMPRMDGLAVLRNLRAMQSTVPVIVLTASDSLESTVAALEGGADDYMTKPFRFEELLSRVKLRLRGTSPVTAAPTLKCGDLTLNIDLRTAEIGGRTIDLSAREFVMARTLIENAGRVLSREQLLSRVWGYHFEGSSNVVDVYVRYLRNKLGQDRIQTIRGVGYRIVCQPEDDDGTGGTGGTDDGATGYGGSGYGGAAPG	PGPT0004105_1661	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
D1-17_00984	1599	sasA_4		Adaptive-response sensory-kinase SasA	ATGAAACCGCCCCGGATTCTGCTGGGCGAGCTGCGTGCGGAGGTCCACTCCGTCCGGTTCCGCGTGCTGGCCACCCTGCTGCTGTTAATGGCGATGGGCCTGATGGTTTCCGGCGCTGTCACCTACGTCGCGCAGCTTCGGACCCTCGACGACCGCGTAAACGAGGAACTCCAGCACCCCAGGAGGAACCTGGAGACGCTGGTGAAGCCGGACCCCAGCAATCCCGGGTTCACATCGCTGGACGAGCTGTTCACCCTGTTCCTGCGCTCAGAGACGCCCGGCGGGCACGAGTCGCTGCTGACCATGGTGCGTGATGGCAACATGATCTTCCCTGGCGGAATGCAGCCCACGAACCTGCGCAGCGACGCAGTGAGGGAACAGATCTGGTCCCTAAGCCGTCCCGGCGAGACTGTAGTAAAGGACACCGTGATCGACGGGCGGGCCGTCCGGCTGTCCATCACGTCAGTGAGGCTGCAGGGCCGGCCCGGAGAAGGGCTCCTGGTGGTCTCCAATGAGATCGGGCGGCAGCGGGACGAGGTCATCCGGTCCATGTGGACATACGCTTTGGCCGCCGTGGCGACACTCGCGGTGGCGGGGTGGATGGGCTACGTGATCACAGGGCGGCTGCTCAGCCCGATCCGCCGCCTCCAGGAAGCCACCCAGAACACAACGTTCGAGGACCTGACGAAGCGCGTGGAAGTCACTGCCCCCACGGACGATGTTGCCCAGCTGGCCATGAACTTCAACCACATGCTGGAACGGCTTGAGTCCGGCTTCGAGAACCAGCGCCGTTTCGTGCACGACGCCGGCCACGAACTCCGTACCCCCATGACGGTGATCCGCGGCTATCTGGAACTCCTGCGCGCCGGTGACCCCGAGGATGTGGACCAGACCCGGATCCTGCTCCTGGATGAACTCGACAGGATGCACGTTCTCGTCGAAGACCTGCTCATCCTTGCCCGCAGCGGCAGGCCAGACTTCGTGTCACCGGAGTGGATCGAGGCGGACATCTTCCTGGAGAACATCCTGAACCGCATCAAGGTCTTCGCGCCGCGCATCTGGGAGCTGGACGCCAAGCCGGGCGGGCTGGTCCGGGCTGACCGGCACCGGCTGATGCAGGCGCTGGAACAGCTCGCGGTCAACGCGGTGCGGCACACCACCGAGGGTGACAAAATTTCCGTGGGGGCAGCCTGGGCAAAGAACGACGACGGCGGAACGGCTTTGGGCGGACGGCCTCACCTTGCGTCGGACCTGGAAATTTGGCTGTCGGACACCGGCAGCGGCATCCCTGACGAGGATCAGGAGCGCATCTTCGAGCGCTTCTTCAAGGGCCGTAATGCTGCGGGAGCGTTGGAGGGCTCCGGCCTGGGACTTTCCATCGTCAAGGCGATCGCAGAAGCGCACGGGGGGACTGTGCGGGTGGAATCGGCCGTGGGTCAGGGCAGCCGCTTCATCCTGACCATTCCGTCCGGCGGCGGCGTCACCGAGGATGAAGAGGCCAGTGAAGCAAAAAGGCCGGCACGTCCCACGGGGAAGACCAAGGCGACCCGATTGGCGTTGGGAGCGGCGATCCTTCCAAACCCCGGCGGCAGTCCGTGA	MKPPRILLGELRAEVHSVRFRVLATLLLLMAMGLMVSGAVTYVAQLRTLDDRVNEELQHPRRNLETLVKPDPSNPGFTSLDELFTLFLRSETPGGHESLLTMVRDGNMIFPGGMQPTNLRSDAVREQIWSLSRPGETVVKDTVIDGRAVRLSITSVRLQGRPGEGLLVVSNEIGRQRDEVIRSMWTYALAAVATLAVAGWMGYVITGRLLSPIRRLQEATQNTTFEDLTKRVEVTAPTDDVAQLAMNFNHMLERLESGFENQRRFVHDAGHELRTPMTVIRGYLELLRAGDPEDVDQTRILLLDELDRMHVLVEDLLILARSGRPDFVSPEWIEADIFLENILNRIKVFAPRIWELDAKPGGLVRADRHRLMQALEQLAVNAVRHTTEGDKISVGAAWAKNDDGGTALGGRPHLASDLEIWLSDTGSGIPDEDQERIFERFFKGRNAAGALEGSGLGLSIVKAIAEAHGGTVRVESAVGQGSRFILTIPSGGGVTEDEEASEAKRPARPTGKTKATRLALGAAILPNPGGSP	PGPT0004100_260	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
D1-17_00985	297			hypothetical protein	GTGGAGGATGGCAGGGTTGCCAAGTTTTTCCCAAGAATCCGGGGCTATCTTGGAATAACCGCAGTTCCCGGCGGCTTTATGCCGCCCTCGATCCGCGGAGGACCGCCGGATAAGCGTGGAATGGATGGTTCGATGGCGCGGATGGTGGCAGTAGCGGGTGGAACCAAGTACTCCGAGTACCCGGTTCTGAGTAGCGTGGCTGACGTGCCCGCGGCCAAAAAAAAATTTGTGGGCTGCGGGGAAACAAACGCGGTAATACCTGGGCACACGGAACGCCTAGCCAAGGCCGCGCCATGA	MEDGRVAKFFPRIRGYLGITAVPGGFMPPSIRGGPPDKRGMDGSMARMVAVAGGTKYSEYPVLSSVADVPAAKKKFVGCGETNAVIPGHTERLAKAAP				NA	NA	NA	NA	NA
D1-17_00986	1575	cheB		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGGTTCAGACCGTTGCAGAGGATACCCGCTGGTCACGCGGAGTCCGCGAAGACGATTACCTTCCAACACTCACAGAGGGTGGAACGCCGACGCGGCTTTCCATCAACATCCTGGGTCCGCTCAAGGTCCGCCGCGGGGACGTGGTCATCGGATCGCACGAGCTTGGCGGCCCGAAGCCGCGCCAGGTACTGGAAATCCTGCTCCTTAAGCTGGGCACTCCGGTTTCCAAGAACCACCTGATCGACGTCCTGTGGAACGGGCAGCCTCCCGCCGAGGCGCTGTCCACCCTCGAAAGCTACGTCAGCGTACTGCGCCGGCACCTGCAGCCCGGCTCTGGCAAGGGCGGCGCCCTCCGGACGGTCACCGGCGGCTACATGATGGAACGCAGCATGGTGGACCTGGACCTTGACCGGTTCGACGAACTCTTGAAGCAGGCAGGTCATGCCACTCCTGAGGAGTCCTACAAGATGCTCGAGAAGGCACTGGAGATCGCCTCCGTGCCCCTGCTCGGCGACGAGCTCCTGGCCGGCTGGGCCGAAGAGGAGCGGGCACTGCACGCAGCCCGCGTGGCTGGCATCAAAGCCCGTGCTGCCGAAGCCGCCGTGGCTGTGGGGCAGCCGGAACGCGCCGTCGCACTGGCCAGCGAACTCCTCCTGGAGGATTCCATCAACGAGCGGGCCTGGACGGCCCTGGTGCTTGGGCTCGAGGAATCCGGACAGTACATGGAAGCGCTGCGCGCCTACGGACGGTGCCGGCGGGTCATGGACCAGGAAATCGGTTGCCTGCCGGGCCGTGCCCTCCGCGATGCCCATGCCAGGCTGCTCCAGGCCACGGCTGCGGGCGACGACGATGCGTCCGATCTCTCCGACGTCGATTCCCCGCTCCCTCCCGTTAGTTCACAGAGCATGCGCGAAATCAGCATTCTGACCATTGACGACCACAGCACCTTCACGGAACTGCTGACGGCCGCCCTGGACCGTGAGCCGGACCTGCGCAGTGTGGCCTCGGCCACCACCGCCAAGAGCGGCGTGGAGCAGAGCATGGCGCTCAAGCCCGACGTCGTCATCATGGACTACCACCTGCCCGACGGCGACGGCCTCACCGCCGCTGCCCGGATTCTGGCTGACGCCCCGGAGACCCGGATCGTCATGCTCACAGGGGATCCGACCCCGGAGGCCCTCCGCACCGCAGCATCAATGGGCATCTGCGCCTTCCTTCCCAAGGGCGGCTCACTGTCCACGCTGCTGGACACCCTGCGGTATGCACGGGCCGGCAACATGGTGGTCCACCCGTCCCTCGTAGCGCAGCTTGGCATGAGCACTCCGAAGCCGGCCCCGGTTGTCCGCGAGCTGGAGCCTGGGGGGCCGGTGCTAACGCCGCGCGAGCTGGATGTTCTCCGCCTCATGGCAGGCGGCCACGGGTCCAAGGAGGTCGCCAGCAAGCTGGACATCTCACTGAACACCTGCCGCGGGTACGTCAAAGCGATTTTCGCGAAGCTGGGAACGCACTCCCAGCTGGAATCGGTCATGGAAGCTTCACGGCGCGGCATGCTCGAGCAGCCGTCCGATGGCTAG	MVQTVAEDTRWSRGVREDDYLPTLTEGGTPTRLSINILGPLKVRRGDVVIGSHELGGPKPRQVLEILLLKLGTPVSKNHLIDVLWNGQPPAEALSTLESYVSVLRRHLQPGSGKGGALRTVTGGYMMERSMVDLDLDRFDELLKQAGHATPEESYKMLEKALEIASVPLLGDELLAGWAEEERALHAARVAGIKARAAEAAVAVGQPERAVALASELLLEDSINERAWTALVLGLEESGQYMEALRAYGRCRRVMDQEIGCLPGRALRDAHARLLQATAAGDDDASDLSDVDSPLPPVSSQSMREISILTIDDHSTFTELLTAALDREPDLRSVASATTAKSGVEQSMALKPDVVIMDYHLPDGDGLTAAARILADAPETRIVMLTGDPTPEALRTAASMGICAFLPKGGSLSTLLDTLRYARAGNMVVHPSLVAQLGMSTPKPAPVVRELEPGGPVLTPRELDVLRLMAGGHGSKEVASKLDISLNTCRGYVKAIFAKLGTHSQLESVMEASRRGMLEQPSDG				NA	NA	NA	NA	NA
D1-17_00987	1461			hypothetical protein	ATGGCTAGGCCATCCCTTCGACGGCCTGCTCTGCTCCACCCGCTTGAAACACCCCAGCCCGGCCGGTCTGAGGTCTTCAAAGCGGTCAGGCAATTCCTGATCATGGGGCTGGTGGCCCTGGTAGTTGTCACCACCCCCGTGGCGTTCTGGATCTGGTCGGAGGCGGAACATCACGCCCTGGAGAACTCGAAGCAGGCCACGGAGAACCTGGCACAGAACCTGGTTGCCCCGCTGCTGGACGACGGCGTCCTGCAGGGGGACCCCGCCGGCATTGCCCGCCTGGACGAGCGGCTGCGCCCCTGGGTAGGGGAGCGGTCGGTGTTCGAGATCAGGCTCTGGGATGCCAAGGGGCGGATGGTCTATTCCGACGACGAGAAGCTCATCGGCCAGACGTTCAACCTGCCGCATGAGGCCACCGATGTCCTCGCGGGCAAGGAGATCAAAGCCACGCTGGAACTGCAGGCAGACGAGGTGCAGGCCGACGGCGTCGACACCGGGGAACTCGTGGAAGTGTATGTCCCGGTCACGGCCCCCAACGGTGAGCGGCTAGCGTTTGAGGCTTATTACGACGACGACGCTGTCCGTCAGGAGCAGGCCGCGGTTCTGCTGGACATGGCTCCGCCGTTCCTCCTTGCGCTGGGCGTGTTGCAATTGGCCCAGCTCCTTCCGGCCGTGCGGCTGGCACGCCGCATCCAGGCCTACGAGGCAGGCCGGACACGCTTGCTACACCGCGCCATCGAAGCCTCCGAACTGGAACGCCAGCGGATTGCCCGTGACCTGCACGATGAAGTGATCCAGGATCTCTCGGGGCTGTCCTACGTTTTGGAGTCGGAGGAACTTCACCGCCCGGTGGGGCAGCGGCGTCTCTTCTCGGACGCACGCAGGATCCTGCAGGACAACGTACGGAACCTGCGCGCCATGACCACGGAGCTGTACCCGCCGGATTTGAACAGGCTGGGACTGTGCGGGGCGCTGGTACGGCTGGGTGATCCGCTCGAGGAACGCGGGATCAGCCTCGCGCTGGACCTGCCGGCCACATGCGACATGGATCGTGACCGTGCCGCCCTCCTGTACCGAATAGCGCGGGAGGCTTTGGCCAACACGGCCAAGCACTCCAAGGCAAAGCACGCCATGCTGCAGCTGCGGCAGGTGGGGAACCGGTCTGAGATACGGATTTCAGACGACGGCTGCGGCTTTGACCAGGCTCTGGGTTCACCCGAAGGACACTTCGGCCTGCGGATCATGCGCGACACCATTGGTGAAGCCGGTGGGTCGCTGCACGTTCAGTCGGCGCCGGGGCAGGGCACCACCGTGGTGGCTCGGTTTGGGGCGCCCATCGGCGGTGAGTGTGAGGACGATGTGTCCCACACCGCTGACCGTCTCAGCGTTACGGGCATTCCGCGCGGGGAGGACAACAAACGCGCGGGCGGCTCCGCGGAGGTGCCGCAACCGGTGCCGTAG	MARPSLRRPALLHPLETPQPGRSEVFKAVRQFLIMGLVALVVVTTPVAFWIWSEAEHHALENSKQATENLAQNLVAPLLDDGVLQGDPAGIARLDERLRPWVGERSVFEIRLWDAKGRMVYSDDEKLIGQTFNLPHEATDVLAGKEIKATLELQADEVQADGVDTGELVEVYVPVTAPNGERLAFEAYYDDDAVRQEQAAVLLDMAPPFLLALGVLQLAQLLPAVRLARRIQAYEAGRTRLLHRAIEASELERQRIARDLHDEVIQDLSGLSYVLESEELHRPVGQRRLFSDARRILQDNVRNLRAMTTELYPPDLNRLGLCGALVRLGDPLEERGISLALDLPATCDMDRDRAALLYRIAREALANTAKHSKAKHAMLQLRQVGNRSEIRISDDGCGFDQALGSPEGHFGLRIMRDTIGEAGGSLHVQSAPGQGTTVVARFGAPIGGECEDDVSHTADRLSVTGIPRGEDNKRAGGSAEVPQPVP				NA	NA	NA	NA	NA
D1-17_00988	657	COQ5_2		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGCCATCGCAGGAACCGGTCGGGCCCGCTGCATTGCAGCACCCGCGGTTCGCGCGCGTCTATGCAAGGGCCGTCGTCGGAATGAACCGCCGCGGCGGCACGCAACACCGCCGCCGTCTGCTGTCCGGCCTGCAGGGAAGCGTCATCGAAGTGGGTGCCGGCGAAGGCTCCTCGTTCAGGCTGTACCCCTCCGCCGTCACAGATGTTCTCGCGGTGGAACCCGACGACTACCTGCGCGGCCTGGCGGAGGAGCGGGCCGCATCCGCGTCCGTCCCGGTCGTTGTGGTGGCGGGCTCAGCCGAGCATCTCCCTGCCCCGAATGCCGGTGCCGATGCCGTGGTCTGCAGTCTGGTCCTGTGCAGTGTTCCGGACCAGCCCAAGGCGCTCGCGGAAATGTACCGAGTGCTGCGTCCTGGCGGTACTCTGGCCTTCTACGAACATGTCCGTTCCGACAGCCGGTGGATCTCGGCTTTGGAGGACGCGCTGACGCCGGGCTGGCAGCGGCTCGCGGGCGGTTGCCATCCCAACAGGGACACGCTCCAAGCCATCACGGACGCCGGGTTCCAGGTGCAGGACAACGAGCGCTTCGGCTTCGCGCCGCGGCCGCTGGTTCCACCGGCGGCGCACATTCTGGGCCATGCCATCCGCCCTAGCTGA	MPSQEPVGPAALQHPRFARVYARAVVGMNRRGGTQHRRRLLSGLQGSVIEVGAGEGSSFRLYPSAVTDVLAVEPDDYLRGLAEERAASASVPVVVVAGSAEHLPAPNAGADAVVCSLVLCSVPDQPKALAEMYRVLRPGGTLAFYEHVRSDSRWISALEDALTPGWQRLAGGCHPNRDTLQAITDAGFQVQDNERFGFAPRPLVPPAAHILGHAIRPS				NA	NA	NA	NA	NA
D1-17_00989	1107	menC	COG4948	o-succinylbenzoate synthase	ATGCCTGCCACATCGACTTCCGGGGCTTCCGGCTTTCCCCCGACCCCGGGGCTCTCCGCCCGGGACGCCCTGCCACGGCCGGACACCCTGCCCCCGCTTGCCGACCTGCCCCCGCTTGCCGACCTGCCCCCGCTTGCCGACCTGCTTAGCGCGGCGCACGTGGTGTCCATTCCCATGCGCGTAAAATTCCGGGGCATTCTCGAGCGCGAAACGCTGCTGCTCAACGGACCTGCTGGCTGGGGTGAATTCGGCGCCTTTCCGGAATACGGTGATGCTGAAGCCAGCCGTTGGCTCCGCGCCGCCATTGAAGCGGGTTGGCAGGGATTCCCGAAGCCGCTTAGGGACCGGATTCCTGTCAACGCAACCGTGCCGGCAGTCCCCGCGGCACGTGTGCCGGACATTCTGGCACGGTTCGGGCGGGTGGACGCCGTAAAGGTCAAGGTGGCTGAGGCAGGACAATCGTTCGACGACGATGCGGCCCGGGTAGCCGCCGTGCGTTCCGAGCTTCCTGAGGCCGCGATACGGGTAGACGCCAACGGCGGCTGGGACGTGCCGGAAGCCGTCGAGGCTCTGACGCGGCTCGCCGCCTTCGACCTGGAATATGCCGAGCAGCCCGTTCCGGGCATCGATGGTCTGGCCGAGGTGCGTCGCCGCCTGCGCGGGGCGGGCATCCCTGTGCTGATTGCGGCGGACGAGAGCGTGCGCAAGGAGGACGACCCCCTGAAAGTGGCGCGGGCCGGCGCCGCGGACCTGATCGTCGTCAAAGTGGCGCCGCTCGGCGGAGTGCGGCGCGCACTGGACATCGTCGCGGAGGCCGGAATGCCCGCCGTCGTAAGCTCTGCGCTGGACACTTCCGTCGGCATCCGGGCCGGCCTGGCGCTCGCCGCCGCACTGCCGGAACTGCCATACGCGTGCGGCCTGGGGACGGTCTCTCTGCTCGCCGGTGACGTCACCACCGATCCGCTGGTGGCTAACGACGGCGCCATCCGCCTGCGCGATGCCGTACCTGACGAGGAGCTGCTGGCCCGGTATGCCGCTGCTGACGACCGAAAGGAGTGGTGGCTGGCACGGCTGCGCAGGACCTACGCAGAGCTGCGGCGGAGGTGA	MPATSTSGASGFPPTPGLSARDALPRPDTLPPLADLPPLADLPPLADLLSAAHVVSIPMRVKFRGILERETLLLNGPAGWGEFGAFPEYGDAEASRWLRAAIEAGWQGFPKPLRDRIPVNATVPAVPAARVPDILARFGRVDAVKVKVAEAGQSFDDDAARVAAVRSELPEAAIRVDANGGWDVPEAVEALTRLAAFDLEYAEQPVPGIDGLAEVRRRLRGAGIPVLIAADESVRKEDDPLKVARAGAADLIVVKVAPLGGVRRALDIVAEAGMPAVVSSALDTSVGIRAGLALAAALPELPYACGLGTVSLLAGDVTTDPLVANDGAIRLRDAVPDEELLARYAAADDRKEWWLARLRRTYAELRRR	PGPT0009375_1238	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
D1-17_00990	2094			hypothetical protein	ATGTCTGAAACCCCCGGGCGCAAGTTTGCCCTGCTGCCCATGCTCGGCCACACCAAAGGCAAGCGCAGCCCCGTCACCTGCGCGCTGAAATGCGACAATGCCTGCTCGGGCGACGTCTGCAACACAAGCTCCAACAGCTACTTCCGCGACATCGCCTCCACCACCATGTCCCGCCGCGCCGCCCTGGGCTTCGGCGCCGCCGGTGCCCTCGCCGTCGTGCTTGGCGGTTCCCTGGCTTCCTCGGAAACGGCAGTAGCCGACGGCGGGGCCGGCCTTTCGGCCGCCGCGAAGAACGGCTACGGCCGTGCGGGTGCCTCCAAGCTGAGCTTCACCGCCATCCCTCCGGTCCCGGCTGACGTCGACGCCGTTACCGTGCCTGCCGGCTTCACCTGGCAGCCGGTCATCCGCTGGGGTGACCCGATCTTCAATGGCGTCCCGGAGTTCGACCTCAACTCCCAGACTGCGGCCAAGCAGGAGAAGCAGTTCGGTTACAACAACGATTACACCGACATCCTCGAAATCCCCGGCAGCAAGGGCCGCCGCGCGGTGCTCTTCGCCAACCACGAGTACACCAACGACGCCATCATGTTCCCCCCGTCCATGCCTGAGGACGAGGAGCGCGCCGTCAGCCAGGCGGCCCACGGGCTCACGGTGGTGGAATTGGAGCGCAAGGACAAGAGCACGCCATGGAGCTACGTGCAGGGTGCACCGCTGAACCGCCGCTTCCTCAACAGCACCACCTACGAGCTGACCGGTCCGGCCGCTGGCTCGTCTCTGGTCAAGACCGTTGACGACCCTGACGGCCGCTGGATCAAGGGCACTCTGGGCAACTGCGCGGGCGGCACCACGCCGTGGGGCACCATCCTCTCCGGCGAGGAGAACTTCCAGGGCTACTTTGTTGCACCCGGAACCTCCGCCGGGGACAAGCGCTACGGTCTCACCAACAAGGCGACTGCACGCCAGTGGGAACTGGACGACCCGCGCTTCAACACGAACAATGCGGGCTACGAGAACGAGGCCAACCGGTTCGGCTACATTGTGGAAGTTGACCCCTTCGACCCCACCTCCACCCCGAAGAAGCACTCCATGCTGGGCCGATTCAAGCACGAGGGTGCCAACGTCATTGTGGCAAAGTCGGGGCGCGTCGTCGCCTACTCCGGCGACGACGAGCGTTTCGATTACCTCTACAAGTTTGTCTCGAAGGCCAAGTATCGCGAGGGCGACCGCAAGCACAACATGACGCTCCTCTCTGAGGGTGACCTGTACGTGGCCAAGTTCACGGGTGACTCCCCGGCCTCCGAAATCGACGGCAAGGGCACGGTACCCACTGACGGTGCCTTTGACGGCAGGGGCGAATGGCTGCCCCTCGTTGTCGACGGCAAGTCGAAGGTCAAGGGCATGTCCGTAGAGGAAGTTCTGGTCTACACCCGCCTTGCCGCGGACAAGGTCGGACCCACCAAGATGGACCGCTGCGAGGACGTCGAGCCGAGCCTGCACACGGGCAAGGTCTACGTCGCGTGCACCAACAACTCCGAGCGCGGCAAGCTGGGCAAGGAAGGCGCCACCGAGGTTAACCCGCGCAATGAAAACCGTGACGGCCACATCGTGGAAATCACTGAGATCGGTGACCAGACCTCAAGGAAGTTCACCTGGAACCTCCTGATGGTCTGCGGCGACCCGGCCCAGGGCGACGTCACCTACTTCTCCGGCTTCCCGACGGACAAGGTCTCGCCAATCTCCTGCCCGGACAACCTGGCCTTCGACTCTGTCGGAAACCTGTGGATCTCCACCGACGGCGCGCCCTCGGGCATCGGCAAGAACGACGGCCTGTTCAAGGTCACCCTTGAAGGGGCCGAGCGCGGCCGCGTGGAGCAGTTCCTCGCCGTTCCCCGTGACGCCGAAACCTGCGGCCCGATCATTCACGACGACGAGCGTACCGTGTTCGTCTCGGTGCAGCACCCGGGGGAGGATGGCACCTTCGAGGCACCGAACTCCTTGTTCCCGGACTACGTCCGCGCTGGCTTGCCGGTGAAGGCCGGCCAGGCAAGGGCCCCGCGCCCCTCGGTGATCCAGGTCTTCCGCACCGACGATTAA	MSETPGRKFALLPMLGHTKGKRSPVTCALKCDNACSGDVCNTSSNSYFRDIASTTMSRRAALGFGAAGALAVVLGGSLASSETAVADGGAGLSAAAKNGYGRAGASKLSFTAIPPVPADVDAVTVPAGFTWQPVIRWGDPIFNGVPEFDLNSQTAAKQEKQFGYNNDYTDILEIPGSKGRRAVLFANHEYTNDAIMFPPSMPEDEERAVSQAAHGLTVVELERKDKSTPWSYVQGAPLNRRFLNSTTYELTGPAAGSSLVKTVDDPDGRWIKGTLGNCAGGTTPWGTILSGEENFQGYFVAPGTSAGDKRYGLTNKATARQWELDDPRFNTNNAGYENEANRFGYIVEVDPFDPTSTPKKHSMLGRFKHEGANVIVAKSGRVVAYSGDDERFDYLYKFVSKAKYREGDRKHNMTLLSEGDLYVAKFTGDSPASEIDGKGTVPTDGAFDGRGEWLPLVVDGKSKVKGMSVEEVLVYTRLAADKVGPTKMDRCEDVEPSLHTGKVYVACTNNSERGKLGKEGATEVNPRNENRDGHIVEITEIGDQTSRKFTWNLLMVCGDPAQGDVTYFSGFPTDKVSPISCPDNLAFDSVGNLWISTDGAPSGIGKNDGLFKVTLEGAERGRVEQFLAVPRDAETCGPIIHDDERTVFVSVQHPGEDGTFEAPNSLFPDYVRAGLPVKAGQARAPRPSVIQVFRTDD				NA	NA	NA	NA	NA
D1-17_00991	1680	menD	COG1165	2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	ATGGCGGCAGCGCGGATTGCCGTTTCGGCGCTGCTCGACGGCGGCGTCCGGTACGTGGTGGTGGCCCCCGGCTCACGCTCAGCTCCCATGGCCTACGCGCTGGCCGAGGCCTCAGCGGCGGGACGACTGGAATTGCTGGTGCGGATCGACGAGCGTTCCGCGGGCTTCACCGCTCTTGGCCTGGCCCTGGTGACCGGCGCTCCGGTAGGCGTCCTCACCACGTCGGGGACCGCCGTCGGGAATCTCCTGCCGGCCGTCATGGAAGCCAACCACGCCGCCGTCCCGCTGGTAGTGCTGTCGGCGGACCGGCCCGAGGAGCTCCGCGGGACGGGCGCGAACCAGACCACGATCCAGTTGGACCTTTTCGGCGAACACGTGCGCTTCGCCGTCGACGTCCCGGCCGGCGAGAGCCCGAAGCGTGCGGTCGACACTGCGCTGGCCGCCGCCACCGGAGCATTCGAGGGCACGCCTCCGGGGCCGGTCCAGCTCAACCTCGCCTTCCGCGATCCGCTGGTCCCGGAAGCGGGGGAGCGGCTCACCGGGACGCGTGGCCGTGGCCCGTTCCGTATCGGCACCGACCCGCTCACCATGAACCTGACGCACGCCACCGCCGACCTGCCGGAGCGGGGGACCGTGGTGCTCGCCGGGCACGACGCCGGGCCGGTCGCCGAGGCGTTCGCCCGAGCCCACGGCCTGCCGCTGCTCGCGGAGCCGTCCTCGAACTCACGGTTCGGCCCCAACGCGGTGGGCCCCTACCGGCTGCTGCTGGAGCACTTCGGTCCCGAGTCTGGTTTGCCGATCGAGCGCGTGGTGGTGTTCGGCCGGCCCACCCTGTCGCGGCCTGTCTCCGCGCTGCTGGCCATGGCCGACGTTCCAGCAGCCCTGTACGAGCCGGTTCCCGTTGCCTGGCACGAGCCCGGCCGCCGCCGCGAGACTCCCATGGCCAGCCTCGCCGAGCTGGCCGAGTTCGCCGGCCGCGGCTCCGCAGCCTGGCTCGACGCGTGGCTGCTCGCCAGCGCCGCTGCCCAGCACGCGCTCGACGGTGTGCTCGCCGCTGCCGATGCGGCGAGCGGCCCGTCCGTGGGAGCCCTCGTCTGGCAGCACTCGCGCGGCCAGCTGGTGCTCGGCTCCTCCAACGGCATCCGCGACGTGGACCTCGCCGGGCAGCCCACCCCCGAACCCGCTGCCACCGTCTTTGCCAACCGCGGCCTCGCCGGCATTGACGGCACCATCTCCACCGCCACGGGCATCGCACTCGGCGGCCACCAGGAAACCACCCTGCTGCTGGGCGACATCACCTTTCTGCACGACGCCGGCGGCCTCCTCCTTGGCGCCGGCGAGGACCAGCCGCAGCTGCGCATCGTGGTGCTTAACGACTCCGGCGGCGCCATCTTCAGCCTCCTGGAGCACGGGGCCGTGGCCGAGTCAGGGGGCTACGGAGACGCCGTCGAACGCCTCTTCGGAACCCCCCACTCAGTGGACCTGGCGGCACTCGCTGCAGCGTACGGCGTCGGGCACTGCACGGTAAGTACGACGGCGGGACTCGCCGAAGCGCTCGCCGCACCGTTCGCCGGGCGCACCATCATCGAGGTACGCGCCGACCGGCACGGGCTCCGGGACCTGCACCGCCGGATCAAGGCTGCGGTGGGCGGAGCGGTTGCCGCGGTCCTCGCGAAGTAA	MAAARIAVSALLDGGVRYVVVAPGSRSAPMAYALAEASAAGRLELLVRIDERSAGFTALGLALVTGAPVGVLTTSGTAVGNLLPAVMEANHAAVPLVVLSADRPEELRGTGANQTTIQLDLFGEHVRFAVDVPAGESPKRAVDTALAAATGAFEGTPPGPVQLNLAFRDPLVPEAGERLTGTRGRGPFRIGTDPLTMNLTHATADLPERGTVVLAGHDAGPVAEAFARAHGLPLLAEPSSNSRFGPNAVGPYRLLLEHFGPESGLPIERVVVFGRPTLSRPVSALLAMADVPAALYEPVPVAWHEPGRRRETPMASLAELAEFAGRGSAAWLDAWLLASAAAQHALDGVLAAADAASGPSVGALVWQHSRGQLVLGSSNGIRDVDLAGQPTPEPAATVFANRGLAGIDGTISTATGIALGGHQETTLLLGDITFLHDAGGLLLGAGEDQPQLRIVVLNDSGGAIFSLLEHGAVAESGGYGDAVERLFGTPHSVDLAALAAAYGVGHCTVSTTAGLAEALAAPFAGRTIIEVRADRHGLRDLHRRIKAAVGGAVAAVLAK	PGPT0009365_512	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
D1-17_00992	954			hypothetical protein	ATGACGGACCTACCGAGGCTGATCCTCGCCCGTGACAGCATTCAGCAGGGATGGACTGCCAAGATGCTCGCCCACCGCTGCGCAGCGGGTGCCTTGGTCCGCTTGCGCCACGGTGTCTATGTGGACGCGGCGGCCTGGGGGATACTCACGCCCTGGGATCAGTATCGGTTGCGGGTCCAGGCGGCGGCGGAAACGTTCACGGCACCTACCGTCTTCGCCCGGCATTCCGCAGCCAGTGTCTGGGGTGTCCCGACCATCGGTCACCACCACCCCGTGCATGTACTGACGTTCCAGAACGACGGAGGCCGGTCGCGGGCGGGGGTCCGCCGGCACTACGCCGACCCCGCCGGCATGAAGGCGTACCGGCACGACGGGCTCCTGGTGACGGGCCGGGTCCGCACTGTCCTCGACCTTGCAGCATTCACGCCCTTCGCGGAAGCAGTCGTCCCGTTGGATCATGTGCTCCGGGCGGACAAGGTCCGAGGGTTGCCGGCACTGTCGAAGGATGACCTGATGGCAGGCATCGAAGGCAACTACACCGCCGCAGCAACCCGCCGGATCCTCACCGCCGTCGAGTTCGCCGACCCTTCGTCCGCCTCAGCGGGCGAGTCCTACAGCAGGGCACTCATGCATGCCGCAGGATTCGAAACCCCTGTGCTCCAGCATGAGATTCGTGATGATCGCGGACTGGTAGGCTACTCCGACTATTACTGGCACAGTGCCCGGATTGTGGGGGAATTCGATGGCGTGGACAAGTACCTGAAGCCGGAATACTTGAAGGGCCGGAGCCCGTCGCAGGCAGTGGTCGACGAGAAGCACCGCGAGGACCGAATCCGTGCAACGGGCTGCGGCATGGTCCGGTGGGTCTGGGCAGACCTTATGGCGCCCGGGAGGCTGGAACGCAAGCTGGCGGCGGCCGGCGTGCCCCGCCGTCGTGCTCGGTCAGCGCAGTGA	MTDLPRLILARDSIQQGWTAKMLAHRCAAGALVRLRHGVYVDAAAWGILTPWDQYRLRVQAAAETFTAPTVFARHSAASVWGVPTIGHHHPVHVLTFQNDGGRSRAGVRRHYADPAGMKAYRHDGLLVTGRVRTVLDLAAFTPFAEAVVPLDHVLRADKVRGLPALSKDDLMAGIEGNYTAAATRRILTAVEFADPSSASAGESYSRALMHAAGFETPVLQHEIRDDRGLVGYSDYYWHSARIVGEFDGVDKYLKPEYLKGRSPSQAVVDEKHREDRIRATGCGMVRWVWADLMAPGRLERKLAAAGVPRRRARSAQ				NA	NA	NA	NA	NA
D1-17_00993	804	glnQ_1		Glutamine transport ATP-binding protein GlnQ	ATGAACGACGTCGTAATTCACTCCCGCAACCACACCGGGCTCGTCCATGCCGCCGGGGTTGCAATCAAGGACCTGCGCAAATCGTATGGTTCCAACGAGGTCCTGAAGGGCATCAGCCTGGACGTGGCGCCCGGCGAAGTGGTGTGCCTGATTGGCCCGTCCGGCTCCGGCAAGTCCACCCTGCTGCGCTGCGTCAACCTCCTTGAGCAGCCGAACCAGGGCACCATCCATGTGGGCGGCTTCAACGCCACCGATCCGGACGTGGACATTGACCGGATGCGCCGCAAGGTGGGCATGGTCTTCCAGCAGTTCAACCTATTCCCGCACCTGAGCGCGCTGAGGAACTGCACCATCGCGCAGACCAAGGTACTCAAGCGCTCCCAGGCCGAGGCGGACAAGGTGGCGAAGGCCAACCTGGAGCGTGTGGGGCTGGGGCACCTGGCGGACCGTTACCCGGACCAGCTTTCCGGCGGCCAGCAGCAGCGCGTCGCCATCGCCCGTGCGCTGAGCATGGACCCGGAGCTGATGCTTTTCGATGAGCCCACGTCCGCCCTGGACCCCGAGACGGTGGGCGATGTCCTGTCGGTCATGCGGAATCTGGCCAAGGAAGGCATGACCATGCTGGTGGTCACTCACGAAATGGGCTTCGCGCGCGAAGTGGCCGACCGGGTCGTATTCATGGACGGCGGCGTGGTGGTGGAGGAAGGCGAGGCCGAGCAGGTCATCAGCGCACCCACCCAGGACCGCACCAAGGAGTTCCTGCGCCGCGTCCTGGACCCGACGCACATCGACCTCTCGGAGTAG	MNDVVIHSRNHTGLVHAAGVAIKDLRKSYGSNEVLKGISLDVAPGEVVCLIGPSGSGKSTLLRCVNLLEQPNQGTIHVGGFNATDPDVDIDRMRRKVGMVFQQFNLFPHLSALRNCTIAQTKVLKRSQAEADKVAKANLERVGLGHLADRYPDQLSGGQQQRVAIARALSMDPELMLFDEPTSALDPETVGDVLSVMRNLAKEGMTMLVVTHEMGFAREVADRVVFMDGGVVVEEGEAEQVISAPTQDRTKEFLRRVLDPTHIDLSE	PGPT0020790_1027	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
D1-17_00994	801	gltK	COG0765	Glutamate/aspartate import permease protein GltK	ATGGCAATGACCGCAATGACCGCACGACAGCGGGCCAGAGTAAGCCTGTACGTCCAGGCAGGTATCTTTGTCGTGGCCGTGGCCGCGCTGATCCTGGCCACCGACTGGAAGACCATCGGGAACAGCGTCTTCAACTTCGCCAGGATCGGCCCGATATTCCCGGACATCTTCGTCGTCGGCCTGACGAACACCCTGCTCTACACGGCACTCGGCTTCATCGTCGGCCTCTCCGGCGGCCTGCTGCTGGCCCTGATGAAGCTCTCCAGCTTTCCTCTCTATCGGTGGATTGCGACCGGCTACATCGAATTCTTCCGCGGCATCCCTGCGCTGCTGGTGTTCATTGCCTTTGGCTACGGCGTTCCGCTCGCGTTCGGCGTCCAGTGGAATGTGACGGTCATCGTGATGGTTTCCCTCGGCATGGTGGCTGCGGCCTACATCGCGGAGACGCTGCGCGCCGGCCTGCAGGCCGTACCGAAAGGGCAGATGGAGGCCGCCCGTTCCCTGGGCATGCCGCAATGGCGGGCGATGGTCACCATCGTGATCCCGCAGGCATTCAGGATCGTCCTCCCGCCGCTCACCAACGAGATCATCCTGCTGACCAAGGACTCGTCGCTGATCTACGTGCTGGGCCTGACAGCCTCGCAGTACGAGCTCACCAAGTTCGGCCGTGACGGCATCTCCAGTCTGGGCGCAGGCCTCACGCCGCTCCTGGTGGCCGGCGCGTTCTACCTGGTGATCACCATCCCGCTGAGCCTCCTGGCCCGGAAGTTCGAAAGCCGCTCCGCGCGGACCAAGCGTTAG	MAMTAMTARQRARVSLYVQAGIFVVAVAALILATDWKTIGNSVFNFARIGPIFPDIFVVGLTNTLLYTALGFIVGLSGGLLLALMKLSSFPLYRWIATGYIEFFRGIPALLVFIAFGYGVPLAFGVQWNVTVIVMVSLGMVAAAYIAETLRAGLQAVPKGQMEAARSLGMPQWRAMVTIVIPQAFRIVLPPLTNEIILLTKDSSLIYVLGLTASQYELTKFGRDGISSLGAGLTPLLVAGAFYLVITIPLSLLARKFESRSARTKR	PGPT0020795_3346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
D1-17_00995	810	glnH_1	COG0834	Glutamine-binding periplasmic protein	ATGCAGCTCAAGTCCCTTGCCACGGCCAAAATCAGTGCCAAGGCAGCCGCGCTCCTCGCCGTCGGGGCACTTAGCCTCACGGCCTGCGGCGGCGGCAACACCGCTCCAGCGGCCACAAGCAGCGAAGGCGGCGTGACGCTCATCAACGCCGGCAAACTCACGGTCTGCTCCGACGTCCCCTACGAACCCTTCGAATTCCAGAAGGACGGCAAGATCGTCGGCTTCGATATGGACATCGCCGGCGAACTGGCCAAGGACGTGAAGGCTGAACTCAACGTCGTGGACAGCTCCTTCGAGGCAATCGAGACGGGCACGGCCCTAACCCAGTGCGACGTTTCCATCTCCTCCGTGTCCATCACCGACACCCGCAAGGCCGTTATGGATTTCTCCGATCCTTACCTAAACGATGACCTGACCCTGGTGGCATCGGAGACTTCCGGCATCACGAACCTTGACGCCGCCAAGGGCAAGAAGGTGGGCGTGCAGCAGGCCACCACGGGTGCCCAGTACGCGAAGGACAACGGCATCGACGCGCAGCAGTTCGAAGACACCGGCCTCCTGGTCCAGGCGCTTAAGGCAGGCACCATCGATGCCGCCCTGGGGAACCAGTCTGTCCTCGGCTACGCCATTAAGGATGACTCCAAGTACAAGCGCGTGGAGGACTTCGCCACCGGTGAAAAGCTCGGCATTGCCGTCAAGAAGGGCAACACCGTCATGCTTGAACAGGTCAACACCACGCTGCAGCGCCTGAAGGACGACGGAAGCCTCAAGAAGTTCGAGACCGCCTGGTTCGGCGAAGCCACAAAGTAA	MQLKSLATAKISAKAAALLAVGALSLTACGGGNTAPAATSSEGGVTLINAGKLTVCSDVPYEPFEFQKDGKIVGFDMDIAGELAKDVKAELNVVDSSFEAIETGTALTQCDVSISSVSITDTRKAVMDFSDPYLNDDLTLVASETSGITNLDAAKGKKVGVQQATTGAQYAKDNGIDAQQFEDTGLLVQALKAGTIDAALGNQSVLGYAIKDDSKYKRVEDFATGEKLGIAVKKGNTVMLEQVNTTLQRLKDDGSLKKFETAWFGEATK	PGPT0020800_9490	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
D1-17_00996	1422	menF_2		Isochorismate synthase MenF	ATGACCAGAACGCTCCGCACTCTGACAGTCCCTTTGGATGGAGAATCGACTCCCGGAGGGCTGCCGTCGTATCTGGTGAGGGACGACGTCCTGTGCTGGACCCGGCGCGAAGCCGGCCTGGTCGGCTTCGGCGAGGTGGCCCGCTTTACTGCCACTGGCCCGGAACGCTTCCTCGAAGCCGACATCTGGTGGCGCCATCTGGTCATCGAGGCCGACATCACCGACCACGTCGAGTGCCCTGGCACGGGCCCGGTCGCCTTCGGCTCGTTCGCGTTTTCGAAAGCATCCCGTCACCAGTCACGACTGATTGTGCCGGAGATTGTGGTGGGCGTCCGGGACGGCCGCAGCTGGCTCACCCACATCAAGACCGACGACGGCGAGCTCACCGAAGAGGGGGCCCTCGCCGCCCTGCGGGGCTGGCTGGAGAATCCGGCTGAGGCCGGCGCTACTCCCCCGGACCCGTCCCCCTCCGGTAAGTCGCCCTTCGGCGAGATGACCGCAGAGGCGGGTGCTGGCGTCGTGCCTTCCGCGACCGTAGATTCCGAAGCCGCACATGCAGCAACCGCGCCCTCCGAAGGTGCCACAATCCGAACCGGTTCATTGAGCGAAGAGGACTGGATGGCCGCCGTCGCGGCCGGCGTCGCAGAAATCCGCACCGGCAAGCTGCAGAAGCTCGTCTTGGCCCGGGACGTTCTGGCCACGGTCCCCGACGGCGTGAACGCCGCCGAGGTACTGCGGCAGCTCGCCACCCGATACCGCGAATGCTGGACCTACGGAGTGGACGGGCTGGTCGGCGCCACGCCGGAAATGCTGATCCAGGTGGAGGGACGCACCGCCCAGGCCCGTGTGCTGGCCGGAACACTGGACCGCCGCGACGCCCTGGGCGAGGCCGGGCTGCCCCTCGACTACGCCGAACGGGTTCTGGCTGGCTCAGAGAAGCAGCGGCACGAACACGAGATCGCCATCCAGTCGCTGACCAGCCAGCTCGCTCCGTTCTCCGAGGCGATGAACGCACACAGCGAGCCCTTCATTCTGGAACTGCCGAACGTGTGGCATCTGGCATCGGACGTAAAGGCCGAACTGACCGAGGTGGAAGGCCATGTTCCCACCTGCCTTGCCCTGATTAACGCCCTGCACCCCACCGCGGCCGTATGCGGCACGCCCACAACCGTGGCCGGGGCCCTGATCCGGAAGCTCGAGCACATGGACCGCGGGCCGTACGCGGGGCCCGTTGGGTGGCTGGATGCGGCAGGCAACGGGGAATGGGGTATTGCGCTGCGCGGAGCCGTCATCGAATCCCCCACCACCGTTCGGTTATTTGCCGGGTGCGGAATCGTCGAGGGTTCGCATCCCGAGGCGGAGCTGGCAGAGACGTGGGCGAAGTTCAGGCCCATGCTGGAATCACTCAACATCAGCCATTAG	MTRTLRTLTVPLDGESTPGGLPSYLVRDDVLCWTRREAGLVGFGEVARFTATGPERFLEADIWWRHLVIEADITDHVECPGTGPVAFGSFAFSKASRHQSRLIVPEIVVGVRDGRSWLTHIKTDDGELTEEGALAALRGWLENPAEAGATPPDPSPSGKSPFGEMTAEAGAGVVPSATVDSEAAHAATAPSEGATIRTGSLSEEDWMAAVAAGVAEIRTGKLQKLVLARDVLATVPDGVNAAEVLRQLATRYRECWTYGVDGLVGATPEMLIQVEGRTAQARVLAGTLDRRDALGEAGLPLDYAERVLAGSEKQRHEHEIAIQSLTSQLAPFSEAMNAHSEPFILELPNVWHLASDVKAELTEVEGHVPTCLALINALHPTAAVCGTPTTVAGALIRKLEHMDRGPYAGPVGWLDAAGNGEWGIALRGAVIESPTTVRLFAGCGIVEGSHPEAELAETWAKFRPMLESLNISH	PGPT0009360_873	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552	NA	NA
D1-17_00997	735	menG	COG2226	Demethylmenaquinone methyltransferase	ATGTTTGACGACGTCGCACCGAAATACGACGTCGTCAACGATGTCCTTTCGATGGGGCAGACGCGCCGCTGGCGCAAGGTCGTCTTGGAAGCCATGGATGTGCGGCCCGGCCAGCGGGTGCTCGATCTGGCCGCCGGAACGGGGACCTCCAGCGAGCCGTATGCCGATGGAGGCATAGACGTGGTGGCCTGCGATTTCTCCCTCGGCATGCTCAAGGTAGGTAAGCGCCGCCGGCCCGACATCAACTTCGTTGCCGGCGACGCCACCAACCTGCCGTTTGCGGACAACACCTTCGACGCCAGCACCATCTCCTTCGGCCTGCGCAACGTCAACGAGCCGAAGAAGGCCCTCGCTGAGATGCTGCGCGTGACGAAGCCCGGCGGCAAGCTCGTCATTGCCGAGTTCTCCCAGCCAGTGGTGCCGCTCTGGCGCACGATGTACACCGAGTACCTGATGCGCGCGCTGCCCGCCATCGCCGTCAAGGTTTCCTCCAACCCCGACGCCTACGTGTACCTCGCCGAATCAATCCGCGCCTGGCCCGACCAGGACCACCTCGCTGCCTGGCTGCAGGAATCCGGATGGCAGGATGTCACCTACCGCAACCTGAGCGGCGGCATCGTGGCGGTGCACCGCGCCCACAAGCCCGTCACCGGCAACGGTGCAGCCGACGCCATCGCTGCCCACACCGGTCCGGTTGCCAAGTTGCGCCGCAACATCCCTCGCAACGCCCGCTGA	MFDDVAPKYDVVNDVLSMGQTRRWRKVVLEAMDVRPGQRVLDLAAGTGTSSEPYADGGIDVVACDFSLGMLKVGKRRRPDINFVAGDATNLPFADNTFDASTISFGLRNVNEPKKALAEMLRVTKPGGKLVIAEFSQPVVPLWRTMYTEYLMRALPAIAVKVSSNPDAYVYLAESIRAWPDQDHLAAWLQESGWQDVTYRNLSGGIVAVHRAHKPVTGNGAADAIAAHTGPVAKLRRNIPRNAR	PGPT0009535_375	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
D1-17_00998	1362	menJ	COG0644	Menaquinone reductase	GTGAACGTACTCATTGTTGGCGCGGGTCCGGCCGGATCCACCGCCGCGTACTACCTGGCCAAGGCCGGCATCGACGTCACCGTGCTGGAGAAAACCAGCTTCCCGCGGGAAAAGGTGTGCGGCGACGGGCTCACGCCCCGCGCTGTCCGCGAGATCCAGAAGCTTGGCCTGCCGCATCCTGAGAAGGACGGCTGGCGCCGGAACAAGGGCCTGCGCCTCCTCGCGGGTGGGCGCAGCCTGGAACTGCCTTGGCCCGAGCTGTCCGACTTTCCGCAGTACGGCCTGATCCGCACACGCCTTGGCTTCGACGAGGAGCTGGCCCGGCACGCTCAGGCGGCGGGCGCCGTCGTGCTGGAAGGCCACAGCGTTACCGAGGCGCTTCGCAACGAGGACGGACGGGTGACCGGCGTACGCGCAGCGATCCTCGACGAGTCAGGGCGCAAGACGGGGGAAACGCGCGACTTCAGTGCCGACGTCGTGCTCGCAGCGGACGGCAACTCCACCCGAACCGCCCTGTCACTCGGAATCCACAAGCGCGATGACCGCCCGCTTGGCGTCGCCGTTCGCACCTACTTCACGTCGCCCCGCCACGATGACGAGTGGATGGAAGGCTGGCTGGAGCTTCCCGGGCGCGACGGCAAGCTGCTGCCCGGCTACGGTTGGGTGTTTGGCGTCGGCGACGGCACATCAAATGTTGGCCTCGGCATCCTGAACTCCTCCAAGGAATTCGGCAAGCTGGACTACAAGCAGGTCCTGCGCGAATGGACCGCCGGAATGCCCTCCGAATGGGGCTTCACCCCGGAGAACCAGGTGGGGGAGATCCGCGGGGCCGCGCTGCCCATGGGCTTCAACCGCACCCCGCACTACTCGCCCGGCCTGCTGCTTCTCGGCGACGCCGGTGGCATGGTGTCCCCGTTCAATGGTGAGGGAATTTCCTATGCCATGGAGTCCGCCCGTTTCGCGGCGGAGTTCATCATCGACGCCTCCCGGCAGGCCTCCAGCCGGTCCGCTTCCATGGACTCCGCCTCCGCAGGCTGGAGCGCGTCCGACGCCGATGCCCGCCTCGCCGGATACGCGGACTATGTGCGCGACCAGTGGGGATCGCACTTCACGCTCGGCCGGGCGTTTGCCGTGCTCATCGGAAAGCCCGCGGTCATGAAGCTCGCGCTGCGGACCGGAATGCCGGTCCCCGTGCTGATGCGTTTCGTGGTCCGGCTGCTGGCCAACCTCACCGATCCGTCGGCCAAGGGTTTCGAGGACCGGGCCATCCGCGTCCTGGAACTGCTGGTGCCGGCCACGTCCAACACCTCAGCCCACGCCCCGTCCGGCCTCAAATCAGCGGTTTCCGCAACAAAAAGTTAG	MNVLIVGAGPAGSTAAYYLAKAGIDVTVLEKTSFPREKVCGDGLTPRAVREIQKLGLPHPEKDGWRRNKGLRLLAGGRSLELPWPELSDFPQYGLIRTRLGFDEELARHAQAAGAVVLEGHSVTEALRNEDGRVTGVRAAILDESGRKTGETRDFSADVVLAADGNSTRTALSLGIHKRDDRPLGVAVRTYFTSPRHDDEWMEGWLELPGRDGKLLPGYGWVFGVGDGTSNVGLGILNSSKEFGKLDYKQVLREWTAGMPSEWGFTPENQVGEIRGAALPMGFNRTPHYSPGLLLLGDAGGMVSPFNGEGISYAMESARFAAEFIIDASRQASSRSASMDSASAGWSASDADARLAGYADYVRDQWGSHFTLGRAFAVLIGKPAVMKLALRTGMPVPVLMRFVVRLLANLTDPSAKGFEDRAIRVLELLVPATSNTSAHAPSGLKSAVSATKS				NA	NA	NA	NA	NA
D1-17_00999	1101	hepT	COG0142	Heptaprenyl diphosphate synthase component 2	GTGACAAACTCCGCGAACCACAGCTGGACGCACGCCGGGCACGGCCTGCCGGATTCAGAACCCAGCCTCAACACCACCGCAATAGCCACCGGACTGCAGCTGCCGGCAGGCTTCGCGGCCATCGCGGAAGACCCCGAACTCGGGCCTGCGATCACCACCAATCTGGCCCGCGTGGAGAAGAAACTCCGCGAAGCCATCGCCAACTCGGACCCCCTGGCTGACGCAACGTCGCGGCACCTCGTGGAGGCCGGCGGCAAGCGGATCCGCCCCCTGCTGACCCTGCTTTGTGCCCACCTCGGCGACGCCTCCCTGCCCTCCGTCGTGCAGGCCGCCGTCGTCGTGGAGCTGACGCACCTTGCCACGCTGTACCACGACGACGTCATGGACTCCGCTCCGTTCCGCCGCGGCGCCCCCACTGCACACGAGGTGTGGGGCAACTCCGTGGCGGTTCTGACCGGCGATCTGATCTTCGCCCGCGCCTCCATCCTGGTGTCCGAGCTGGGCTCCCGCGCCCTTGGCATCCAGGCGCGCACCTTCGAGCGGCTGTGCCTGGGCCAGCTCCACGAAACCGTTGGCCCACGCCCGGATGAGGACCCGGTGGAGCACTACCTGTCAGTGATCGCGGATAAGACCGGCTCCCTGGTGGCGGCATCCGGCCAGCTCGGCGCCATCTTCTCCGGCGCCGACGAGTCCTACGAAGAGGTCCTGGTGGAGTATGGCGAAAAGGTCGGCGTAGCTTTCCAGCTGGCCGACGACGTCATCGACGTCACCGGGGCCAAGGTCAAGTCCGGCAAGTCCCCGGGCACGGACCTGCGGGAAGGCGTGCCCACCCTTCCGGTCCTGCTCCTGCGCAACGCCGCAGCGCAAGGCGACCAGTCCGCCGTCGAACTTCTCACCCTGATCGACGGCGATCTCTCCTCCGATGAGGCACTCGCCGAAGCGGTTTCCGGACTGCGGGAGCACCCGGTCACCGCCGCATCCTGGGTGGTTGCCAGGGCCTGGGCTGACGAGGCGATCGCCGCCCTGGCACCGCTGCCCGAAGGAGTAGTCAAGGACTCGCTGTCCAGCTTCGCCCGGGCCGTAGTGGACCGCGCAAGCTAG	MTNSANHSWTHAGHGLPDSEPSLNTTAIATGLQLPAGFAAIAEDPELGPAITTNLARVEKKLREAIANSDPLADATSRHLVEAGGKRIRPLLTLLCAHLGDASLPSVVQAAVVVELTHLATLYHDDVMDSAPFRRGAPTAHEVWGNSVAVLTGDLIFARASILVSELGSRALGIQARTFERLCLGQLHETVGPRPDEDPVEHYLSVIADKTGSLVAASGQLGAIFSGADESYEEVLVEYGEKVGVAFQLADDVIDVTGAKVKSGKSPGTDLREGVPTLPVLLLRNAAAQGDQSAVELLTLIDGDLSSDEALAEAVSGLREHPVTAASWVVARAWADEAIAALAPLPEGVVKDSLSSFARAVVDRAS				NA	NA	NA	NA	NA
D1-17_01000	426			hypothetical protein	ATGACTGACATGTTCCTCGAGAAGTTCCGCGCGCTCGTTCCGAAGTATCTCGAAGACGAATGGCAGGAAGAGGACGGGCTGCCTGAGGAAGACCTCGATAAGGCCCTCGCCGACCACCAGTTCACCATTCCCCTGGTGCTGCGCGAGTTTTACCTCGCCCTCGGCGGCTGCGAGGACCTCATGGAGGCCTACCACTACTTCTGGGATCCCGAGGAACTCGAGGTGGACGACGAAGGCTTCCTCATGTTCCTCGAGGACGAGGAAGAAAACTTCACCTGGGGCTTCCGCGTGGGCGACCTCAGCGTCCCGGACCCGATCGTGTACCGCCGCAACAACGTCCGGGGCCAGTGGAAGAGTGAAGAGGGAACCTTCTCGGAGTTCGTCTTCGACATGTTTGAGTGGGCCTTCGAGGACGAGGACAACTAG	MTDMFLEKFRALVPKYLEDEWQEEDGLPEEDLDKALADHQFTIPLVLREFYLALGGCEDLMEAYHYFWDPEELEVDDEGFLMFLEDEEENFTWGFRVGDLSVPDPIVYRRNNVRGQWKSEEGTFSEFVFDMFEWAFEDEDN				NA	NA	NA	NA	NA
D1-17_01001	672			hypothetical protein	ATGACATTCCCCTTTGACATTGCCCTGGTGTGGCTGGACCTGACCGGCGTCTTTTTCTTCGCGGTCTCCGGGTCACTGCTGGCCGCGCGGAAGCAGTTCGACATCATCGGCTCCCTCCTCCTGGCGTCCCTCGTCTCCCTTGGCGGCGGCGTAATCCGCGACATCGTCCTCAACACGGGCCCGCCAGCCGCCTTCACCAACCCCGCCTATCTCGCACCTCCCGTGCTCGCCACCGTCTTGGTCTACTTCCTGTTCTCCAGCGCCCAGCGCTTCACCTCTCTGCTCACCCTGTTCGACGCCGGCGGCCTCGCACTGTTCTGCATCACCGGCACGCTGAAGGCGCTGGCGCTGGGGATGAATCCGGTGGCGGCCGTCCTGCTCGGCGTCACCACCGCGGTGGGCGGCGGCCTGCTGCGCGACATCACTGCCAACGAGGTTCCGCAGCTGTTCGATGCCCGGGACCTCTACGCGCTGCCCGCCTTCACGGGTGCTGTGCTCACTGCCATCCTGTGGGTTTCGGGCGGCTTCAATGCGTTCTCAGCCTGCGCCATCGCGGCCGTTGTCTTTGCCTTCCGGGTGGTGGCATGGCGCCGTTCCTGGCGGATTCCGCTGGCCGTTCGCGGGTGGCATCGGCTTGGCCCTGACGCCGGGAATTCGAGGGGCCGGGATTAG	MTFPFDIALVWLDLTGVFFFAVSGSLLAARKQFDIIGSLLLASLVSLGGGVIRDIVLNTGPPAAFTNPAYLAPPVLATVLVYFLFSSAQRFTSLLTLFDAGGLALFCITGTLKALALGMNPVAAVLLGVTTAVGGGLLRDITANEVPQLFDARDLYALPAFTGAVLTAILWVSGGFNAFSACAIAAVVFAFRVVAWRRSWRIPLAVRGWHRLGPDAGNSRGRD				NA	NA	NA	NA	NA
D1-17_01002	810			hypothetical protein	GTGCAGAGGGGCGGACAGTGCGGCTCCAACGTTACGCTAGCCCCTATGAATAGCCCGATCATGATCGCCTGTGCCCACGGGACCTCGAACGCCCAGGGAGCGGCCGAGGTCAACGCCCTCCGCGACTCCATCGCGGCGCTTCGCCCCGGGCTCGACGTCCGGGAAGCGTATGTGGACGTCCAGCAGCCCGACCTCGTGGACGTCGTGACAGGCCTTCCCGAGGATCCCGACGGCGGATCGGCCGGCGCTTCCGCTGTGGTGGTGCCGCTCCTCCTCAGTGTGGGGTACCACGTGAAGGTGGACATCGCGCGGGCGGTCAAGAGCCGGCCCGGGACCCTGGCCGCGGCGCCGCTCGGTCCCGATCCCAGGCTGGCGGCGCTGCTCGACCAGCGGCTCCGCGAAGCAGGCGTCACCGACAACGACTCGATCGTCCTCGCCGCGGCAGGCTCCTCGAACCCCAACGCCGCTTTGAGCGTTGAGGAGCTGACAGGGCAGCTGCGGGCGCTGCGCTCGAACCGGATCGCGCCCGCTTATGGTGCCTCCGCCAAGCCCTCGGTGCCGGAAGCAGTGGCCATGCTCCGGGAGGAAGCCGCCGGCGGTGCAGGCGCAGGGGAATCTGCAGGTGGCGTGGACATGGGCGGCCGGGTGGTCATTGCGTCCTACCTTCTCGCGCCCGGATACTTCCACGACCAGCTCGCCAAGGCCGGAGCCGACCTCGTCACCGCACCACTGCTGCCGTCCCCGGTGCTCGCCGAGATCGCCCTCGAACGTTTCGATGCAGCATTGGCGGCCGCCGGGGCAAGAGCCTGA	MQRGGQCGSNVTLAPMNSPIMIACAHGTSNAQGAAEVNALRDSIAALRPGLDVREAYVDVQQPDLVDVVTGLPEDPDGGSAGASAVVVPLLLSVGYHVKVDIARAVKSRPGTLAAAPLGPDPRLAALLDQRLREAGVTDNDSIVLAAAGSSNPNAALSVEELTGQLRALRSNRIAPAYGASAKPSVPEAVAMLREEAAGGAGAGESAGGVDMGGRVVIASYLLAPGYFHDQLAKAGADLVTAPLLPSPVLAEIALERFDAALAAAGARA	PGPT0003690_15	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
D1-17_01003	1698	sir	COG0155	Sulfite reductase [ferredoxin]	GTGCGCCCAGCCCGTTCCTCCCGCCCCGCCGCAAAGCCTCACGGCCAGTGGAAGGTGGACGGAACCACCCCGCTGAACGCCAACGAAACCTGGAAGCAGGAAGACGACGGCCTCAACGTCCGCGAGCGTATCGAGTCCATCTACTCGAAGGAAGGCTTCGACGCCATTCCCGGCCAGGACCTGCACGGCCGCTTCCGCTGGTGGGGTCTGTACACCCAGCGCAAGCCCGGGATCGACGGCGGTAAGACCGCCACGCTCGAACCGCACGAGCTTGAGGACAAGTACTTCATGCTGCGCGTGAGGATCGACGGCGGCGCGCTCACCACCGAGCAGCTCCGCGTCATCGGCCGGATCTCGGTCGACTTCGCCCGGGATTCCGCCGACCTCACGGACCGCCAGAACATCCAGCTGCACTGGATCCGGGTCGAGGATGTGCCGGAGATCTGGCGCCGCCTCGAAGCCATCGGCCTGTCCACCACCGAAGCCTGCGGTGACGTCCCGCGCGTCATCCTCGGTTCCCCGGTGGCCGGCATCGCCAAGGACGAGCTCATTGACCCCACCCCGCTCATCGAAGAGCTGGGGGAGCGGTTCATTGGCAACCCGATCCTGTCCAACCTGCCGCGCAAGTACAAGACCGCCATCACCGGCCACCCGAGCCAGGACGTGGTGCACGAGATCAACGACTTTGCGCTCGTCGGCGTGAAGCACCCTGAGCTCGGTGTGGGCTACGACCTCTGGGCCGGCGGCGCCCTCTCCACCAACCCGATGCTCGGCAAGCGCCTCGGCGCGTTCGTCACGCCGGAACAGGCTGCCGACGTGTGGCTCGGCGTCACCAGCATCTTCCGCGACTACGGCTACCGCCGCATGCGCACCAAGGCCCGCCTGAAGTTCCTCATGGCCGACTGGGGTCCCGAGAAGTTCCGCCAGATCCTCGAGGACGAATACCTCGGCTACAAGCTGGCCGACGGTCCCGCCGCCCCCAAGCCGTCCACCCCGGGCGACCACGTGGGCGTGCACGAGCAGAAGGACGGCAAGTTCTTCATCGGCGCGACTCCGATTGCGGGCCGCCTCTCCGGTTCCCAGCTGGTGAAGCTCGCGGACACCCTCGAATCCCGCGGCTCATACCGGCTGCGCACCACCCCCCACCAGAAGCTCGTGGTCCTCGACGTCCCCAAGGACGAAGTGGAACCCCTGGTCGCCGAGCTGGACGCCCTGGGCCTCTCCGCCCGCCCATCAGTGTTCCGCCGCGGCACCATCGCCTGCACCGGCATTGAGTTCTGCAAGCTGGCCATCGTTGAAACCAAGGTCACCGCTGCCACCGCCGTCGCCGAACTGGAACGCCGCCTGGCGGACCTCGCGGACAGCGGCCAGCTCCCGCAGGCACTGTCCCTGCACATCAACGGCTGCCCAAACTCCTGCGCCCGCATCCAGACCGCGGACATCGGACTCAAGGGCATGATGCTTCCCACGCCGGGAGGCGACCCCACCCCGGGTTTCCAAGTCCATCTGGGCGGCGGGCTGGCTTCCTCCGACCGTGAAGAGGCCGGCCTCGGACGTACCGTCCGCGGCCTGAAGGTCTACGTCGCGGACCTGCCCGACTACGTCGAGCGGGTTGTCCGGCGTTTCGTCGCAGACCGCGCCGAAGGCCAGACCTTCGCCGAGTGGGCCCACGCAGCTGACGAGGAGGCACTCCAGTGA	MRPARSSRPAAKPHGQWKVDGTTPLNANETWKQEDDGLNVRERIESIYSKEGFDAIPGQDLHGRFRWWGLYTQRKPGIDGGKTATLEPHELEDKYFMLRVRIDGGALTTEQLRVIGRISVDFARDSADLTDRQNIQLHWIRVEDVPEIWRRLEAIGLSTTEACGDVPRVILGSPVAGIAKDELIDPTPLIEELGERFIGNPILSNLPRKYKTAITGHPSQDVVHEINDFALVGVKHPELGVGYDLWAGGALSTNPMLGKRLGAFVTPEQAADVWLGVTSIFRDYGYRRMRTKARLKFLMADWGPEKFRQILEDEYLGYKLADGPAAPKPSTPGDHVGVHEQKDGKFFIGATPIAGRLSGSQLVKLADTLESRGSYRLRTTPHQKLVVLDVPKDEVEPLVAELDALGLSARPSVFRRGTIACTGIEFCKLAIVETKVTAATAVAELERRLADLADSGQLPQALSLHINGCPNSCARIQTADIGLKGMMLPTPGGDPTPGFQVHLGGGLASSDREEAGLGRTVRGLKVYVADLPDYVERVVRRFVADRAEGQTFAEWAHAADEEALQ	PGPT0002825_579	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002825-sir-K00392	NA	NA
D1-17_01004	792	cysH	COG0175	putative phosphoadenosine phosphosulfate reductase	GTGAGCAAGCACGCCCTTGGCGTCGACCCCGTCGCCGGTCCAGGTGCCGCCGCAGCCCAGGTTGCCGCCACGGTCGCCGGCGCATCGCCCGCCAAGCGTTCCACGGAGGAGCTGAAGGCCCTGGCCGACGCCGGCGCCGCCGAGCTCGGCTGGGACGCTCCCGCACGCGACGTGATCGCCTGGGTGGAGCGCAACTTCGAGTTGCCCGCCGTCGCCGTCGCCTGCTCGATGGCCGACGCCGTGCTGCCGGCGCTCGTCGCCGATCAGCTTCCCGGCGTCGACGTCCTGTTCCTGGAGACCGGCTACCATTTCCCGGAAACCTACGCCACACGTGACGAGGTGGCTGCAAACCTCCGGGTGAACGTGGTGGACGTGCTCCCCGAAAACACCGTGGAGCAGCAGGACCGGCTCCTGGGTAAGGACCTCTTTGCCCGTGACGCCGCCCAGTGCTGCGCCCTCCGCAAGGTTGCCCCGCTGCGCCGCACGCTCTCCGGCTACGAACTCTGGTTCACCGGCGTCCGCCGCGACGAGGCCCCCACGCGCACCAACACCCCGCTGGTGACGTGGGACGAAGCCAACGGCCTGGTCAAGGTCAACCCGATGGCTGCCTGGACTTTTGACCAGCTTGTTCAGTACTCCGACGACAACCTCCTGCCAGTCAACCCGCTCCTGTCCCAGGGCTACCCGTCCATCGGTTGCCAGCCCTGCACCCGCAAGGTGGCTCCAGGCGAGGACCCCCGCGCCGGCCGCTGGGCAGGAACCAACAAGACAGAATGCGGACTACACGTATGA	MSKHALGVDPVAGPGAAAAQVAATVAGASPAKRSTEELKALADAGAAELGWDAPARDVIAWVERNFELPAVAVACSMADAVLPALVADQLPGVDVLFLETGYHFPETYATRDEVAANLRVNVVDVLPENTVEQQDRLLGKDLFARDAAQCCALRKVAPLRRTLSGYELWFTGVRRDEAPTRTNTPLVTWDEANGLVKVNPMAAWTFDQLVQYSDDNLLPVNPLLSQGYPSIGCQPCTRKVAPGEDPRAGRWAGTNKTECGLHV	PGPT0002785_715	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
D1-17_01005	948	cysD	COG0175	Sulfate adenylyltransferase subunit 2	ATGAGCACTTTCCTAACCGAGGAGCCCACCCAGGTGACCGAAGTCGCAGCCTCCACGCGCCTCTCCAGCCTGGACACCCTCGAGTCCGAAGCGATCCACATCATCCGCGAGGTTGTTGCCGAGTTCGAGAAGCCTGCCCTGCTGTTCTCCGGCGGCAAGGACTCCGTGGTGATGCTGCACCTGGCCACGAAGGCATTCTGGCCGGGCAAGGTTCCGTTCCCCGTGCTGCACGTGGACACCGGCCACAACTTCCCCGAGGTCATCGACTTCCGCGACCGCACCGTCGAACGGCTGGGCCTGAAGCTCGTCGTCGGCAGTGTTCAGGAGTTCATCGACCGGGGCGAGCTCGCGGAGCGCGCCGACGGCACCCGCAACCCGCTGCAGACCGTTCCGCTGCTGGACGCCATCCAGTCCAACAAGTTCGACGCCGTCTTCGGCGGCGGCCGCCGTGACGAGGACAAGGCCCGCGCCAAGGAGCGCATCCTGAGCCTCCGTGACGAGTTCGGCCAGTGGGATCCGCGCAACCAGCGCCCCGAGTTGTGGAACCTTTACAACGGGCGCCACACCGTGGGCCAGCACGTCCGTGCGTTCCCCATCAGCAACTGGACCGAGTTGGACATCTGGCGCTACATCGAGCGCGAAAACATCGAGCTGCCGGGCCTGTACTACGCCCACGAGCGCGAGGTCTTCGCCCGTGACGGGATGTGGCGCGCAGTGGGCGAGGTTTCGCAGCCGCGCCCCGACGAGAACGTCATCACCAAGACCGTTCGCTACCGCACGGTGGGGGACATGTCCTGCACCGGCGCCGTCGAGTCCGACGCGTACACGGTGGCTGATGTCGTTGTTGAAGTCGCCGCCTCCACCCTGACCGAACGTGGCGCCACCCGCGCAGATGACCGCATCTCCGAGGCAGCCATGGAAGACCGCAAGAAGGACGGGTATTTCTAA	MSTFLTEEPTQVTEVAASTRLSSLDTLESEAIHIIREVVAEFEKPALLFSGGKDSVVMLHLATKAFWPGKVPFPVLHVDTGHNFPEVIDFRDRTVERLGLKLVVGSVQEFIDRGELAERADGTRNPLQTVPLLDAIQSNKFDAVFGGGRRDEDKARAKERILSLRDEFGQWDPRNQRPELWNLYNGRHTVGQHVRAFPISNWTELDIWRYIERENIELPGLYYAHEREVFARDGMWRAVGEVSQPRPDENVITKTVRYRTVGDMSCTGAVESDAYTVADVVVEVAASTLTERGATRADDRISEAAMEDRKKDGYF	PGPT0002405_453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
D1-17_01006	1416	cysNC	COG0529	Bifunctional enzyme CysN/CysC	ATGAGCACGATTTCGACAGGCTCAGTCACCGAGTCCGCCTTGGAAACGGCCCTGCCCACGACGCTTTTCCGGTTCGCCACCGCAGGATCGGTCGACGACGGCAAGTCCACTTTGGTGGGCCGCCTCCTGCACGATTCCAAGGCGATCCTCGCCGACCAGCTCGACGCCGTTGCCCGTACTTCCGCAGACCGCGGCTTCGGTGGCGACAAGGGCGGCATCGACCTGGCCCTGCTGACAGACGGCTTGCGTGCCGAGCGCGAGCAGGGCATCACCATCGACGTCGCCTACCGCTACTTCGCCACGGACCGGCGCAGCTTCATCCTCGCGGACTGCCCCGGGCACGTGCAGTACACCAAGAACACGGTGACCGGCGCGTCCACTGCGGATGCCGTCGTCGTGCTCATTGACGCCCGCAAGGGTGTCCTGGAGCAGACCCGCCGGCACCTCTCCGTGCTGCAGCTCCTTCGGGTTGCGCACGTGATCGTGGCCGTGAACAAGATCGACCTCGTGGACTTCAGCGAGTCGGTGTTCCGTGAGATCGAAGCTGACGTCCAGCAGGTGGGCCGCGAACTAGGGCTTGGTTCGGATGGAATTACGGATCTGCTGGTGGTTCCGGTTTCCGCGCTCGACGGCGACAACGTGGTGGAGCGCTCGGAGCGCACCCCCTGGTACACCGGCCCGGCGCTGCTCGAGGTGCTCGAGACGCTGCCGGCCGCCGACGAGCTGGAAAGCCACCTGGAGAGCTTCCGGTTCCCGGTGCAACTGGTCATCCGGCCGCAGGGTGCGCTGGCGCCCGATGCTGTGGCCGGCGGCCTCGACCCTGAGGCGTACCGTGACTACCGCGCCTACGCAGGGCAGATCACCGAGGGCTCCGTAAAGGTGGGGGACAAGGTCAGCGTGCTGACTCCCGGCCAGGACCCGCGTACCACTACGGTGACCGGCATCGACTTCGCCGGTACCTCTCTGGAGGAGGCAGCCGCGCCCCAGTCGGTGGCGATCCGACTGGCTGACGAGTTCGATGTCGCACGCGGTGACACCATCGCCGCAGCCGGCACAGTCCGTGAAAGTTCGGCCGACCTCTACGCCGCGCTGTGCTGGCTGTCCCCGAAGCCGCTGCGCGAGGGCGCCAAAGTACTGGTCAAGCACGGCACCCGCACCGTCCAGGCACTGGTCCGCAGCGTGAGCGGCAAGCTGGACCTGGCCACCTTCAAGCTCGAAGGCGCCTCCAGCCTTGAGCTCAACGACATCGGCCACGCGCAGCTCCGGCTCGCCGCCCCGCTGCCGCTGGAGAACTACCTCCACCACCGCCGCACGGGCGCGTTCCTGGTGATCGACCCGCTCGACGGCAACACCCTCGCCGCGGGACTGGTCAAGGACCACCCGGGCGACCACGAGGACGAGCGCTACAGCATCTGA	MSTISTGSVTESALETALPTTLFRFATAGSVDDGKSTLVGRLLHDSKAILADQLDAVARTSADRGFGGDKGGIDLALLTDGLRAEREQGITIDVAYRYFATDRRSFILADCPGHVQYTKNTVTGASTADAVVVLIDARKGVLEQTRRHLSVLQLLRVAHVIVAVNKIDLVDFSESVFREIEADVQQVGRELGLGSDGITDLLVVPVSALDGDNVVERSERTPWYTGPALLEVLETLPAADELESHLESFRFPVQLVIRPQGALAPDAVAGGLDPEAYRDYRAYAGQITEGSVKVGDKVSVLTPGQDPRTTTVTGIDFAGTSLEEAAAPQSVAIRLADEFDVARGDTIAAAGTVRESSADLYAALCWLSPKPLREGAKVLVKHGTRTVQALVRSVSGKLDLATFKLEGASSLELNDIGHAQLRLAAPLPLENYLHHRRTGAFLVIDPLDGNTLAAGLVKDHPGDHEDERYSI	PGPT0002400_854	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002400-cysN-K00956	NA	NA
D1-17_01007	459			hypothetical protein	ATGGTGAACGTCCAGACAGAGATCCTGATCCGGCGGCCGCGCCCGGAAGTTGCGGAATTCGCGGCAAATCCGGACAACGCCCCGCGGTGGTACTCGAACATCCACTCGGCGCAGCGGTTGACGGCGGGTCCCATCGACGTCGGATCCAAGGTCGCCTTCACCGCCAGGTTCCTCGGCCGGGACCTGAGCTACACCTACGAATTCGTCGAGTACATCCCGGGCGAGAAGCTGGTGATGCGCACCGCCCACGGTCCATTCCCGATGCAGACCAGATACATGTGGGAAGAGGTCAGCGGCGGGACCCGTATGACGCTGGGCAACACGGGAAAGCCATCAGGCTTCTCAAAGCTCGCGGGGCTGTTCATGGCACCGATGATCCGCAGGGAAACGCGCAAGGACCTGCAGAAGCTCAAGACGCTCCTCGAAGCCGGCGAGGCAACGGGCACCGGTCAGGCCTAA	MVNVQTEILIRRPRPEVAEFAANPDNAPRWYSNIHSAQRLTAGPIDVGSKVAFTARFLGRDLSYTYEFVEYIPGEKLVMRTAHGPFPMQTRYMWEEVSGGTRMTLGNTGKPSGFSKLAGLFMAPMIRRETRKDLQKLKTLLEAGEATGTGQA				NA	NA	NA	NA	NA
D1-17_01008	1182	rtcB	COG1690	RNA-splicing ligase RtcB	GTGGAAACCATCAGCAGCCGGCTCATCAACTGGGCCTCGATCCTGGACGACAAGACCCGCGAGCAGGCCCTGGCGACCGCGCAGCTGCCCTTCATCTACCCGCATCTGGCGCTGATGCCGGATGCGCACCTCGGCAAGGGTGCAACGGTGGGGTCCGTCATTCCTACGCTCGGAGCCATCATCCCGGCGGCGGTAGGGGTGGACATCGGCTGCGGCATGATCGCGGTGCGGACCCAGTACACGCTCAAGGAGCTGCCGCGGGACCGTCGCCCGCTGCGCGAGGACATTGAGCGCGTTATTCCGCTGTCAGCCGGCCACAACAACAAGAAGATAGCGGCCTCTGCGGCACCGCGGGTCGCCGAGCTGCGGAGGCGGGCCGACAAGGCCGGGTTTGACCCCGGACGGTACATGGGGAACTGGGACCTGCAGCTGGGGTCCCTCGGCTCCGGCAATCACTTCATCGAGGTATGTGCCGACGAGAACGACGGCATCTGGCTGTTCCTCCACTCCGGGTCGAGGGGTATCGGCAACAAGATAGCCCAGCACCACATCTCAGTGGCGCAGGGTGTGGCCTGGGATAAGCGCCTGACCCTGCCGGACCGGGACCTTGCCTACCTCGAGGAGGGCACACCCCAGTTCACGAGGTACATGGAAGAGCTCAGATGGGCCCAGCACTTTGCCCTGCTGAACCGCGAAGAGATGATGGACCGCGTCATCACCCAGTTCGGCAAATGGGTGGCCGGCGCCGTCAAAGAAGGCGCCGTCAAAGAAATGGAACGGATCAACTGCCACCACAACTTCACACAGCGGGAGACCCATTACGGCAAGTCCGTCTGGGTTTCCCGCAAAGGCGCCATTAAAGCCGAGGCAGGGGATCCGGGGCTGATTCCGGGCTCCATGGGCACGGCATCGTATGTGGTTGAAGGCCTGGGTAACCCGGTGTCCCTGAATTCGTCTCCGCACGGCGCCGGACGGGAGTACTCGCGCAAAGCGGCGCGCAAGGCGTTCTCCCTGGCTCAGCTGAAGGAAGCCATGCACGGCATCGAGTTCCGCGTCACCGAGGCGTTCATCGACGAGATTCCGGCAGCGTACAAGCCCATCGACCAGGTGATGCGCGATGCTGCCGACCTCGTCAGGGTGCGGCACCGGCTGCGGCAGCTCGTCAATGTCAAGGGGGACTGA	METISSRLINWASILDDKTREQALATAQLPFIYPHLALMPDAHLGKGATVGSVIPTLGAIIPAAVGVDIGCGMIAVRTQYTLKELPRDRRPLREDIERVIPLSAGHNNKKIAASAAPRVAELRRRADKAGFDPGRYMGNWDLQLGSLGSGNHFIEVCADENDGIWLFLHSGSRGIGNKIAQHHISVAQGVAWDKRLTLPDRDLAYLEEGTPQFTRYMEELRWAQHFALLNREEMMDRVITQFGKWVAGAVKEGAVKEMERINCHHNFTQRETHYGKSVWVSRKGAIKAEAGDPGLIPGSMGTASYVVEGLGNPVSLNSSPHGAGREYSRKAARKAFSLAQLKEAMHGIEFRVTEAFIDEIPAAYKPIDQVMRDAADLVRVRHRLRQLVNVKGD				NA	NA	NA	NA	NA
D1-17_01009	1134			hypothetical protein	ATGACCCGCATTGTGGCCGGCGAAAGCCAGACGCCCAAGCGCCGCCGTGGCCTGGAAGTCGCGCTGGCCCTTGGCCTGGTCCTGCTGATCATCGTGGGCGCTGTGATGGCCTCCGCTGTGGCCCGGGATTCAAACGCCTCGGCCGCCTCAATTTCCTCTGAAGGTCCCGCGAGTGAGCTAAAGCTGGGGTACTTCGGCAACATCACGCACGCCGCAGCGCTCGTCGGCGTGAAGCAGGGCTTCATCGAGAAGAACCTTGGCAGCACCAGGCTCAGCACCCAGGTCTTTAATGCCGGGCCCGCCGCAATCGAGGCACTGAACGCCGGTGCGATCGACGCCGCCTATATCGGTCCCAACCCGGCGATTAATTCATTCGTCAAAAGCAACGGGGAGTCCGTCAGCGTCATCGCCGGGGCAGCATCCGGCGGCGCGCAGCTGGTGGTGAAGCCGGAGATCAATAACGCAAAAGACCTGAAGGGCAAGACCCTGGCCTCGCCCCAGTTGGGCGGTACCCAGGACGTGGCGCTGCGCGCCTGGCTGGGCAAACAGGGCTACAAGACCACTCCCGACGGCGGCGGAGACGTTGCCATCAATCCCACCGAGAACGCGCAGACGCTGAAACTGTTCCAGGACGGCAAGCTTGACGGCGCGTGGCTGCCTGAGCCGTGGGCGTCCCGTCTGGTGCTCCAGGCCGGTGCCAAGGTCCTGGTGGATGAGAAGGACCTGTGGGACGGCTCCGGGACGGGCAAGCCGGGAGAGTTCCCCACCACCATCCTGATCGTGAATAAGAAATTCGCGGCCGAACATCCGGAGACCGTGCAGGCGCTGCTCACGGGACACGTTGAAGCGGTGCAGTGGCTCAATGACACTCCGGCCGCCGAAAAGGCCAGCGTCGTCAACGCGGCCCTGAAGCAGGACGCGGGCAAAGCGCTGTCGCAGGACGTCATCGACCGCTCACTGCAGAACATCGTGTTCACAGTGGACCCACTGGCAGGAACCTACAAGAAGCTGCTGCAGGACGGCGTGGATGCTGGCACCACCAAGGAGGCAAACCTCTCCGGCCTCTTCGACCTCAGGGCGTTGAACTCCGTAGCCAAGAACAAAATTTCGGCGGCAGGGCTGGGGCAGGACTAG	MTRIVAGESQTPKRRRGLEVALALGLVLLIIVGAVMASAVARDSNASAASISSEGPASELKLGYFGNITHAAALVGVKQGFIEKNLGSTRLSTQVFNAGPAAIEALNAGAIDAAYIGPNPAINSFVKSNGESVSVIAGAASGGAQLVVKPEINNAKDLKGKTLASPQLGGTQDVALRAWLGKQGYKTTPDGGGDVAINPTENAQTLKLFQDGKLDGAWLPEPWASRLVLQAGAKVLVDEKDLWDGSGTGKPGEFPTTILIVNKKFAAEHPETVQALLTGHVEAVQWLNDTPAAEKASVVNAALKQDAGKALSQDVIDRSLQNIVFTVDPLAGTYKKLLQDGVDAGTTKEANLSGLFDLRALNSVAKNKISAAGLGQD	PGPT0001135_740	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-17_01010	726	cmpC	COG0715	Bicarbonate transport ATP-binding protein CmpC	ATGCCAGTCGTACTGGAGAACCTGGGCAAGCGCTTCGGCGAAGGCGCCCCGGTGCTGGACGACGTCAACGCGACCATCGCCAAGGGCGAGTTCGTCGCCCTCCTCGGCGCGTCGGGCTGTGGCAAGTCCACTTTGCTGAACATCATGGCGGGACTGGAGCTCCCGACGTCGGGCGCTCTGGAGGTGCCCAGCGACGGTGCCGCCTTCATGTTCCAGGACTCCGCACTGTTCCCGTGGCTTACGGCGCGTGAAAACGTGGAGCTGGCGCTGAAGCTGCGCGGCGTGGGGAAGGCCGAGCGGCGCGTGAAGGCCGCCGAGCTCCTGGACCTGGTGCACCTGGCGGAGGCCGCCGACAAGCGCCCGCACGAGCTGTCGGGCGGGATGCGCCAGCGTGTGGCGCTGGCCCGTTCGCTCGCCCAGGACCGCCAGCTGCTCCTCATGGATGAGCCGTTCGCCGCCCTGGACGCCATCACCCGGGACCTGCTCCACGACGAACTTGAGCGCATCTGGAAGGAAACCGGGCGCACCATCGTCTTTGTGACGCACAACGTCCGCGAGGCGGTCCGCCTGGGCCAGCGCGTGCTGCTGCTCTCCTCACGGCCCGGCCGCGTCGTGCAGGAATGGGCAGTCACTGAAGAACGCCGTACCGACGCCGGTCTTGCCGGACAGCTGACCGGGGTCATCACCGCCCGGCTGCGAGAGGAGATCCGCCGCCATGCCAAGTAA	MPVVLENLGKRFGEGAPVLDDVNATIAKGEFVALLGASGCGKSTLLNIMAGLELPTSGALEVPSDGAAFMFQDSALFPWLTARENVELALKLRGVGKAERRVKAAELLDLVHLAEAADKRPHELSGGMRQRVALARSLAQDRQLLLMDEPFAALDAITRDLLHDELERIWKETGRTIVFVTHNVREAVRLGQRVLLLSSRPGRVVQEWAVTEERRTDAGLAGQLTGVITARLREEIRRHAK	PGPT0001140_8376	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-17_01011	1008			hypothetical protein	ATGCCAAGTAACCCATCTCCCGTGGCGGAGTCGCCAGAGACAACCGGGTCCCCGCTAGTCGAGCCTGCCGGGACAAAGGCTTCGACGAGCTCAACCGGCGCTGCGTCAGGCTCTGAAAAGGTCCACGCTGCCCTGACGCGGTCCTCCACCGGCTCCGCCGACCTGCGCGAACTCGAATCCGGGCTGGACTCCCTGCAGTCCGACGCCGCCCGGAAGGTGCGTGTCGACTGGAGCAGGGTCCTGCTGCCGATCGCCGCCGTCGTGGTGCTCGTCATCATCTGGCAGTTCTACGTCTCGCTCGGCCTCAAGCGCCGCGACCAGGTGCCGGGACCGCTGGATGTGGCGGCGCAGTTCGGCGCGCTCTGGGCCGAAGGGTCGTTGCTGGACGCCGTATGGACATCGCTGCAGCGCGGGCTGCTGGGCTTCCTGATCAGCGTTGTCATCGCGACGCCGGTCGGCCTGCTGCTGGCCCAGGTGGCTCCGCTGCGCCGCGCGTTCGGCCCCCTCATCTCCGGGCTGCAGGTCCTGCCTTCGGTGGCCTGGGTGCCGGCGGCCATCATCTGGTTCGGCCTCACTGACGCCACGGTGTACTTCGTGGTGTTCATGGGCGCCATCCCTTCCATCATCAACGGCCTGATCTCCGGCGTGGACCAGATCCCGCCGCAGTACCGCAGCGTCGGCACAGTCCTGGGCGCCTCCCGGCTGCAGATGGCCGTGCAGATCATCCTCCCGGCAGCCCTTCCCGGCTACCTGAGCGGCCTCAAGCAGGGCTGGGCGTTCTCTTGGCGTTCGCTCATGGCCGCGGAAATCATCGCTGTGGGCGGCACCATCGGCTTCGGTCTCGGCTCCATGCTCAACCAGGGCCGGGACCTCGCCGACATGACCATCGTGATGTCCGCGATCCTGCTCATCCTCGCGGTCGGCATCCTGATCGAGCTGCTCGTCTTCGGCCCCGTGGAGAAGCGACTGCTCCAGCGCCGCGGCCTCCTGTCCGGCAGCACCCGCTAA	MPSNPSPVAESPETTGSPLVEPAGTKASTSSTGAASGSEKVHAALTRSSTGSADLRELESGLDSLQSDAARKVRVDWSRVLLPIAAVVVLVIIWQFYVSLGLKRRDQVPGPLDVAAQFGALWAEGSLLDAVWTSLQRGLLGFLISVVIATPVGLLLAQVAPLRRAFGPLISGLQVLPSVAWVPAAIIWFGLTDATVYFVVFMGAIPSIINGLISGVDQIPPQYRSVGTVLGASRLQMAVQIILPAALPGYLSGLKQGWAFSWRSLMAAEIIAVGGTIGFGLGSMLNQGRDLADMTIVMSAILLILAVGILIELLVFGPVEKRLLQRRGLLSGSTR	PGPT0001145_1983	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-17_01012	912	cysK		Cysteine synthase	GTGCTGTCGGCGATCGGTTCCACACCGCTGATTCAGCTTCGCAAGGTGGTGCCCCCGGGATCGGCCAGGGTGCTCGCCAAGCTCGAGTTCGCAAACCCCACCGGCAGCATGAAAGACCGGATGGCCATAGCGGCGATTCGAGGTGCCGAAGCCCGCGGTGATCTCGCTCCGGGTTATACCGTCGTGGAGTACACGGCCGGCACAACAGGCATCTCCCTCGCCCTGGTCTGCGCTGCCAAGGGCTACAAGCTCCATGTCGTCTTCTCGGACGCGTTCAGCAGCGAGAAACGCCGCACCATGGAGGCGCTCGGGGCAATCGTGGAGGACATGCCGAGCGACCACGGACGGATCACTGAGCGGCTGATCAAGGCGATGATCGCCCGGGCTGGTGAACTCAGTGCCCTGCCTGGCTACTGGGCCTGCGACCAGCTCAACAATCGTGACGCGGTCACCGGCTACTTGGCGTTGGGAGAGGAGATCTGGCAGCAGTCGGGCGGACAGGTGGACGCCCTTGTCCAGTCGGTTGGCACCGCGCACTCCATCCATGGCGCAGCACGGGCCCTGCGTGCCCATATACCGGGGCTACGCGTAGTCGCCGTCGAGCCCGCCGAGTCCGCCGTCCTTTCCGGAGGCCCTACCGGTTCCCATCGGATTGAAGGAATCGGCATCGGCTTCCTTCCGCCCTTGTGGGAACCCGAGGAAGTGGATGCGATTGAACGGGTTTCCTCAGACGACGCTATGGCAATGAGCCGTCGGCTCGCCCGCGAGGAAGGCGTCTTCGCGGGCACTTCCTCGGGAGGCAATATTATTGCCGCTCTGCGCGTAGCCGAGCAGCTCGGGCCCGGCGCAACCGTTGTCACAGTCATCGTTGACTCCGGGTTGCGCTATCTCAGTACCAGCCTCTACGGATAG	MLSAIGSTPLIQLRKVVPPGSARVLAKLEFANPTGSMKDRMAIAAIRGAEARGDLAPGYTVVEYTAGTTGISLALVCAAKGYKLHVVFSDAFSSEKRRTMEALGAIVEDMPSDHGRITERLIKAMIARAGELSALPGYWACDQLNNRDAVTGYLALGEEIWQQSGGQVDALVQSVGTAHSIHGAARALRAHIPGLRVVAVEPAESAVLSGGPTGSHRIEGIGIGFLPPLWEPEEVDAIERVSSDDAMAMSRRLAREEGVFAGTSSGGNIIAALRVAEQLGPGATVVTVIVDSGLRYLSTSLYG	PGPT0002810_4467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
D1-17_01013	1281	cysG_1	COG0007	Siroheme synthase	ATGGCAATTCAGGACATCTATCCCACGGCGTTGCGACTGCTCGGCCGCCCCGTGCTCGTGGTGGGCGGCGGGCCCGTCGCCACACGCCGCGCAAAGGGCCTGCTCGACGCCGGCGCGCGGGTCACCGTGGTTGCCCCCGTTGCCTCCGCTGCCCTCAGCGAACTCGCCGACGCCGGCCTGCTCACCTGGGAGCCCCGCACCTACCGCTCTGAGGACGTCGACGGCGTCTGGTTCGTCCAGACTGCCACCGGCGATTCCGCTGCGGACGCCCAGGTGTCGTCGGACGCCGAGGCGCAGCGCGTCTGGTGCGTCAACGCCTCTGACCACGAAGCCTCCGCCGCATGGACCCCCGCCGTCGCCGTCGTGGACGACGTGAAGATCGCGGTCAACGCCGGGGGAGACCCGCGCCGCGCCATGGCCCTGCGGGACGCCGTCGCCACTGCTCTGGAGTCCGGGGACCTGCCGCTCCGCCGCCGTCGTGCCTCTGCAGGAACCGTTGCCCTGGTGGGCGGCGGTCCCGGCGACAGCGGCCTCATCACCGTCCGCGGACGGCGGCTCCTTGGCCAGGCCGACGTCGTGGTCACCGACCGCCTCGGCCCCCGCGACCTGCTAAACGAACTTGCCCCCGATGTCCGTGTCATCGAGGTCGGCAAGACCCCCGGCCACCACCCCGTCCCGCAGGCCGAGATCAACCGGATCCTCGTAGACGAAGCCCTCGCAGGCCACCGCGTGGTGCGGCTCAAGGGCGGCGACCCCTACGTACTGGGCCGCGGCGGCGAGGAAGCTGAATTCTGCCGCCGGCACGGCGTCGAGGTTGAAGTGGTTTCCGGCGTAACGTCGGCGATCTCGGTCCCGGCGGCCGCCGGTATTCCCGTAACGCACCGCGGGCTGGCGAAGGGCTTCAGCGTCGTCACCGGTCACGAGGAACTGTCCGAGGTTCCCGCCCGCCCTGACCACACTGTGGTGCTCCTCATGGGCGTTGGCCAGTTGCGCGAATCCGCGTCCGCTCTGGGCAAAGCCGGCCTGCCCGAGGACACTCCGGTTGGTATTGTGGAAAACGGCTACCTGCCGAACCAACGCGTCACCATCGGTACCCTCGGAACCATCGCCGACCAGGCCGAGGCCACCGGCGTCGCGAATCCTGCAGTGATCGTCATCGGTGACGTTGTGCGCGTGAGCCCGTTCGCGCCGTCGCACTTCAAAACTGCTGACTACAGCACCACCAGCCCCAACAAGCCCCGCACCAGAACCACGAGCACTACCCGCGTTCTCACCCCCTAG	MAIQDIYPTALRLLGRPVLVVGGGPVATRRAKGLLDAGARVTVVAPVASAALSELADAGLLTWEPRTYRSEDVDGVWFVQTATGDSAADAQVSSDAEAQRVWCVNASDHEASAAWTPAVAVVDDVKIAVNAGGDPRRAMALRDAVATALESGDLPLRRRRASAGTVALVGGGPGDSGLITVRGRRLLGQADVVVTDRLGPRDLLNELAPDVRVIEVGKTPGHHPVPQAEINRILVDEALAGHRVVRLKGGDPYVLGRGGEEAEFCRRHGVEVEVVSGVTSAISVPAAAGIPVTHRGLAKGFSVVTGHEELSEVPARPDHTVVLLMGVGQLRESASALGKAGLPEDTPVGIVENGYLPNQRVTIGTLGTIADQAEATGVANPAVIVIGDVVRVSPFAPSHFKTADYSTTSPNKPRTRTTSTTRVLTP	PGPT0003690_1563	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
D1-17_01014	1467	fprA_1	COG0493	NADPH-ferredoxin reductase FprA	GTGTCAACCAGCACCACCGTAGGAACAGCTGCCCGCCCGTTGCGCGTGGCCGTCATCGGCTCCGGCCCGGCCGGCGTCTACGCAGCGGACATCCTCACCAAGAGCGAGGCCGTGAAGAGCGGCGAGCTGACCGTCAGCATCGACCTCTTCGACCGCTACCCGGCACCCTACGGCCTGATCCGCTACGGCGTCGCTCCCGACCATCCCCGCATCAAGGGCATCGTCAACGCCCTGCACAAGGTCCTGGACCGCGGCGACATCCGTTTCTTCGGCAACGTTGACTACGGCACGGACCTCACCATCGAGGACCTGCGCACGCACTACGACGCCGTCATCTTCGCCACCGGCGCCATCAAGGACGCGGACCTGAACATCCCGGGCATCGAACTCGACGGCTCCTTCGGCGGCGCTGACTTTGTGTCCTGGTACGACGGCCACCCGGACGTTCCCCGTGAATGGCCGCTGGAGGCCAAGGAAATTGCCGTCATCGGCAACGGCAACGTGGCGCTTGACGTGGCCCGCGTCCTCTCCAAGCACGCCGATGACCTGTTGGTCTCCGAGATTCCGGACAACGTCTATGCGGGGCTGAAGGCTTCTCCCGTCACCGACGTCCACGTCTTCGGCCGCCGCGGGCCCGCCCAGGTCAAGTTCACCCCGCTGGAGCTGCGCGAACTGTCGCACTCCAAGGACGTGGACATCATCCTGTACCCGGAGGACTTCGAGTTCGACGAGGAATCGGACCGCCAGATCCAGAGCAACAACCAGACCAAGACCATGGTCGGCACGCTCACCAACTGGATCGCCGAGCAGCCCGAGGACGTTTCCGAACTCAAGGCCTCCCGCCGCCTCCACCTGCACTTCCTGCACAGCCCGGTGGAGATTTACGACGACGCCGAGAACCCCGGGCGCGTCAGCGGCATCAAGTTTGAGCGCACCGAACTGGACGGCACCGGCAACGTTCGCGGCACCGGCGAGTACATCGATTACCCGGTGCAGGCTGTCTACCGCGCCATCGGCTACTTCGGCTCCGCCCTCCCGGACATCGAGTTTGACCACAAGAAGGGTGTCATCCCGAACGACGGCGGCCGCGTCCTGGACGCTTCCGGCGAGCACGTGCCGGGCATCTACGCCACCGGCTGGATCAAGCGCGGTCCGGTCGGACTCATCGGCCACACCAAGGGCGACGCCCTGGAGACGGTGACTTACCTGCTGGAAGACCGCGAAAACCTTCCGGTCGCCCAGGCACCCGCCGCAGGCGCCGTCGTCGAACTGCTGGAAGGCCGCGGCGTGGAGTACACCACCTGGGAAGGCTGGCTGGCCCTCGACGCGCACGAACTCGCCCTGGGCGCCGAGGCGACCGCCGCCGGCGGCTCGCACGGTGTTCAGGTTGTGCGTGAGCGCATCAAGGTCGTGCCGCGCGAGGACATGGTGTCCATCTCCCGGGACGGTGTTGCCGCCGGGGTCTAG	MSTSTTVGTAARPLRVAVIGSGPAGVYAADILTKSEAVKSGELTVSIDLFDRYPAPYGLIRYGVAPDHPRIKGIVNALHKVLDRGDIRFFGNVDYGTDLTIEDLRTHYDAVIFATGAIKDADLNIPGIELDGSFGGADFVSWYDGHPDVPREWPLEAKEIAVIGNGNVALDVARVLSKHADDLLVSEIPDNVYAGLKASPVTDVHVFGRRGPAQVKFTPLELRELSHSKDVDIILYPEDFEFDEESDRQIQSNNQTKTMVGTLTNWIAEQPEDVSELKASRRLHLHFLHSPVEIYDDAENPGRVSGIKFERTELDGTGNVRGTGEYIDYPVQAVYRAIGYFGSALPDIEFDHKKGVIPNDGGRVLDASGEHVPGIYATGWIKRGPVGLIGHTKGDALETVTYLLEDRENLPVAQAPAAGAVVELLEGRGVEYTTWEGWLALDAHELALGAEATAAGGSHGVQVVRERIKVVPREDMVSISRDGVAAGV	PGPT0013215_385	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-17_01015	1461			hypothetical protein	ATGACGCACGACCGCATGACACGTGGCCGCATGATGCATGGGCCGGGCGGGGCCGCCGGTCTGGGAACGGATTTGGCAGGGCGGGCCTTCGCCGCCGGCTTCAAAGCACTCAAAGCGCTCCGTCCCAACCGGCCGATCCATCCGAAGGGCATCAGCCTTATCGGTGAGCTGACCCGGCATGGCCTTGGCGACGCAGCCGCCTCCACGGGTTTGCCTCGCGAGCGGAGCGGCATCAGTTGGCTCGACTCCCCCGGCATCGACCAGGTGCAGGCCCGCTTCTCCCGCTCGATCGGCTTGCCGGCTACCCTCCCGGACATCTTGGGCCTTGCACTGCGCCTGGAGTCCGGACCCGGTATTGGTTCCGACGGCGGTCCCGCCGGCGGTTCCGTGGGCGGCAGTGGCGGTGACGTTCTCTTTGCAACAACCGGCTGGGGCTTTCCAGCGCGGTTCCTGCTGGTCCCGAAACTGGATGTCAGCGCCGCAAAGTTCACCACCCTCATGCCCTACAAAGGCGCGGACGGGCCGGTGCTCCTCGGGCTTCGAACGCTGTCCCTGCCGCCCCGGGCCACAGGCCGCGCGGAGACCGGTGGAGACTTCCGCGAGTCCCTTGCCGAAGGCGAGTGGGTCCTCGCACTGTCCTTCGCAAGGCCCGGCGGACGGTGGGTCCATGCCGGAACGCTCAACCTGAGGGCGGCCCCCGGCCAGGACGACACCGCTGACCGCTTCGACCCCATCGAACACCCGTTGCCGAGCGCTGAGACCTACCCGTGGACGCGGCGCCTCCGGGAGCATTCATACCGTACGGCGCGGGGGCCGGCCCCGCATCTTCCCGGAAACCGGGCACTGACGCCGCGTCTGCTAACGCCACGCCTGCTCACGCCGCGCTCTTCCGGCCGGCGGCGCCGGGCGGGCCGCGATGCCGCCCCCAGGCATGACCCGCAACAGGGCGGGCACCAGACTGAGCACCAGCGCGGGCACCAGCCTGGGCAGACCGAGAGGAAACCGATGGCCACAGTTACGCAGACCTTCAACTCTCCCGCCGCCGACGTGTGGAAGATTATTGCCGACGGCTGGCTTTACTCGGGCTGGGTGGTCGGGGCCTCAAGGATCCGCGCCGTCGACGCCCATTGGCCGGAAGTTGGCTCACGCCTGCATCATTCCGTCGGCGCCTGGCCGCTCGTGATCGACGACAGCACCAAGGTGACCGCGGTGGAACCCGGGAAGTCGCTGGAGCTGATCGCCCGGGGATGGCCGATGGGCGAGGCCAAGGTGCGGATCACCTTGGAGGATGAGGGGACCCAGTGCCGCGTCTCCATCATTGAGGACGCCATCCACGGGCCCGGGCTGGCCGTCCCGAAGATGCTGAGGGATCCGGCCATCACCATCCGCAACCGCGAGACCCTTAAGCGGCTTGAACTGATGGCCGCCGGGGGCGCGGGCGAAAAGACCACTGGAGCTTAA	MTHDRMTRGRMMHGPGGAAGLGTDLAGRAFAAGFKALKALRPNRPIHPKGISLIGELTRHGLGDAAASTGLPRERSGISWLDSPGIDQVQARFSRSIGLPATLPDILGLALRLESGPGIGSDGGPAGGSVGGSGGDVLFATTGWGFPARFLLVPKLDVSAAKFTTLMPYKGADGPVLLGLRTLSLPPRATGRAETGGDFRESLAEGEWVLALSFARPGGRWVHAGTLNLRAAPGQDDTADRFDPIEHPLPSAETYPWTRRLREHSYRTARGPAPHLPGNRALTPRLLTPRLLTPRSSGRRRRAGRDAAPRHDPQQGGHQTEHQRGHQPGQTERKPMATVTQTFNSPAADVWKIIADGWLYSGWVVGASRIRAVDAHWPEVGSRLHHSVGAWPLVIDDSTKVTAVEPGKSLELIARGWPMGEAKVRITLEDEGTQCRVSIIEDAIHGPGLAVPKMLRDPAITIRNRETLKRLELMAAGGAGEKTTGA				NA	NA	NA	NA	NA
D1-17_01016	828			hypothetical protein	ATGACGGACAAGGCAGCGCCGCTCGGCGAAGCGGCCGACGCGGCAGAGGCGGTATCGAATACCAAGACGCTCGACGTCCTCGCCCGTACCGGCTTCGCCGTCATGGCACTGCTGCATATAGTGGTGGGGGCCATCGCGATCGCCCTCGCGCTGGGCCAGCCCGGAGAGGCCGAGCCCACCGGTGCTATCGAGCAACTCGCTGCCAACGCATGGGGCCCTGCCCTGATGTGGGCGGGAATGGCCGCCTGCATCGGCCTGGCTCTCTGGCAACTGAGTGAGGCAACCCTGCGGGCCCGCCACCTGCCCACCAAGGAACGAGTGGGCAAGCACATCTCCTCCGGCTTCCTGTCAGTCGCGTACGGCAGCGTCGCCTTGACGTTCGGAGGCTTCGCCGTCGGACTGCGCGGCGATTCCGGAGAGTCAACGAGGGACGTCAGCGCTGCGCTGCTGGCCGCACCGTTCGGCACGGTCATACTAAGCGCCATAGGGCTCACCATTATGGGGATCGGAATTTACTTCATCCTGAAAGGGGTCCGGCGCCGGTTTAAGGAAGAACTCTTCCATTTCGACGGCTCCCGCCGCGGCCGCATCATCGATACCCTCGGCGTCATGGGGCATGTGGCCAAGGGCATTGCGCTGATCCTTGCGGGGCTCCTGTTTGTGATCGCGGCAGCCAAGCACACTCCGGAGGAGTCCACCGGGCTGGACGGCAGCCTCAAGGCACTGCGTGAACACCCCTATGGCCCTTATCTCCTTCTGGCGATCGGCGCCGGTTTTATCTGTTACGGCATGTTCGCGCTGGTCAGATCCAAGTTCGGCCGGATGTGA	MTDKAAPLGEAADAAEAVSNTKTLDVLARTGFAVMALLHIVVGAIAIALALGQPGEAEPTGAIEQLAANAWGPALMWAGMAACIGLALWQLSEATLRARHLPTKERVGKHISSGFLSVAYGSVALTFGGFAVGLRGDSGESTRDVSAALLAAPFGTVILSAIGLTIMGIGIYFILKGVRRRFKEELFHFDGSRRGRIIDTLGVMGHVAKGIALILAGLLFVIAAAKHTPEESTGLDGSLKALREHPYGPYLLLAIGAGFICYGMFALVRSKFGRM				NA	NA	NA	NA	NA
D1-17_01017	360			hypothetical protein	ATGGTAAGCACACTTACTAATGTTACGGAAGACCGTAACAGGTTCCGACTTGCGCGTAAGATCTTCGCCATGGAAGCAACAGGAACATTGTTTGGTTGGGCCTTCGGCGACGGGTCCCGCGAAGATGATGAAAGCTACCTGGAAGGGCTCCGCCGCGAGGCGCTGGAAAACGCCCGGCAGGCCGCCGCCGCCCGAGGCTTTGGGGTGGAGCCGGGTTCGGAGGGCTTCATGGTGCTCAACGCCGGCGATGCCTTGGTGGAGGTAGACACTGCACCTGATTCCCTGGTGGTCCGCTGCACGGTGAAGCTGACCGGAGAAGGCGCTGGGAAAGTTCACGCCGAAGGCCCCATGAACGGCTAG	MVSTLTNVTEDRNRFRLARKIFAMEATGTLFGWAFGDGSREDDESYLEGLRREALENARQAAAARGFGVEPGSEGFMVLNAGDALVEVDTAPDSLVVRCTVKLTGEGAGKVHAEGPMNG				NA	NA	NA	NA	NA
D1-17_01018	540			hypothetical protein	ATGGCAGGAAATCTACTGGCTCGATCCGTCCACGACCTGACGGCAGCTGCCTGGTTCGGCGGTTCGCTGATGGGCGCCATCGGTTTGAATGGAGCAGCCGCCGAGGCAGAGGACCCGGCGGAGCGTACGCGGCTCTCCAGCCGGGGCTGGATGAAGTGGGCCCCGGTGCAGACCGCAGCGTTTGCGACCCACCTCATCGCTGACCTGTTCATTGCCCTGGAGAACAAGGAACGGATTGCCAAGCAGGACGGCGTGGCCGCTGACACGATCTATAAGACCGCAGTGACATTGGCGGGTGCCGCCGTCACGCTCTATGCCGGCGCTCTGGGCAAGAAAGTTGACAAGCTGGCGGACGAGGGGGCCGAAGGCGCCACCGAACCCCGTCCCGGGGCATCGGAGCAGCTGCAGGCAGCACAGAAGCAGCTGAAGGCTCTGCAGTGGACCATCCCGGCGTTTGCGGCCTGGGTCATTGTGCTGGGAGCCAAGCACGGCGAGATGCAGCGGCCCAAGAACGTTTTCAAGGGCCTCCGCGACCACTGA	MAGNLLARSVHDLTAAAWFGGSLMGAIGLNGAAAEAEDPAERTRLSSRGWMKWAPVQTAAFATHLIADLFIALENKERIAKQDGVAADTIYKTAVTLAGAAVTLYAGALGKKVDKLADEGAEGATEPRPGASEQLQAAQKQLKALQWTIPAFAAWVIVLGAKHGEMQRPKNVFKGLRDH				NA	NA	NA	NA	NA
D1-17_01019	1194		COG0628	Putative transport protein	ATGGCCCGTGCAACACACGTGTCCGAGCAAGAATTACCTCACGAGCACCAACAGCCCGCTGCGGACACCACCCTGGCAGCACAAACCCAGCATGAAAAAAAGCCTGCCCGCGAACTCTGGGCCGACGGCCTGGGCCGCGTGGGCATCCGTTCCGCGCAGGTGCTCCTGATCCTGGTCCTCGCCACCGTGTCGGTCTACGCCCTCCTGCAGATCCGGCTGTTGGTGATTCCGACATTAATTGCGCTGATTCTCGCTGCCGCCATCGGGCCCTTCGTGAACCTGCTCCGCCGCAGGGGCGTGCCCGGCGCCGCGGCCACAGGCATATCTTTCGTTGGCTTGCTGGCGCTGCTGGCCGGCGTCATCACAGTGATTGTGATGTCAGTGCGCAGCCAATGGAGCGAGCTGGTGCAGCAGGCCGCCTCCGGACTCGACGAACTCGAAAAATTCCTGCTCACCGGGCCCTTCCCCCTGGACCAGGCCCAGCTGGACCAGGCGAGGGAAGGCATCATTCAGTTCGCCACCAGCAGCCAGGTCCGTTCCGGCGCTATCTCCGGGCTCTCCGTGGTCACCGAATTCATCGCCGGCGCCAGCCTCATGGTGGTAATCCTGTTCTTCTTCCTGAAGGACGGTGAGAAGATCTGGAACTTTTTCCTCCGCCCATTCAATGGGCGTCGCGAAGCCAAGCTTCGCCGGGTGGGCCGCCGCACCCTGGAGGTGCTGGGCGGCTATGTCCGCGGCACCGCAATCGTGGCACTAGTGGACACCGTGGCGATCGGTGCCGCACTGCTGATCATGCAGGTGCCTCTGGCCATACCGCTTGCCATCATCGTGTTCATGGGGGCCTTTATTCCCCTCGTCGGCGCGACCGTTGCCGGCATCCTCGCTGCCCTCGTGGCGTTGGTGGCCAACGGGCCGGTGGTGGCGCTGATCGTGGTCGCCGTGGTCATCGCAGTGAACCAGCTGGAAGGCGACCTGCTCCAGCCGATCGTCATGGGCAACGCGCTCCAGCTCCATGCCCTTGTCATCCTCATGGCCCTGACCGCCGGCACTATCCTGGCCGGCATCATCGGCGCCGTCCTGTCCGTGCCGCTGGCGGCTGTGGCATGGGCCGTGATCCAGGTCTGGACGGCGGAGGACCCGCGGCTGGAACCAATGAATCCAAACCTTCCTGCGGCGAACAGCCAGCCTGTCTAG	MARATHVSEQELPHEHQQPAADTTLAAQTQHEKKPARELWADGLGRVGIRSAQVLLILVLATVSVYALLQIRLLVIPTLIALILAAAIGPFVNLLRRRGVPGAAATGISFVGLLALLAGVITVIVMSVRSQWSELVQQAASGLDELEKFLLTGPFPLDQAQLDQAREGIIQFATSSQVRSGAISGLSVVTEFIAGASLMVVILFFFLKDGEKIWNFFLRPFNGRREAKLRRVGRRTLEVLGGYVRGTAIVALVDTVAIGAALLIMQVPLAIPLAIIVFMGAFIPLVGATVAGILAALVALVANGPVVALIVVAVVIAVNQLEGDLLQPIVMGNALQLHALVILMALTAGTILAGIIGAVLSVPLAAVAWAVIQVWTAEDPRLEPMNPNLPAANSQPV				NA	NA	NA	NA	NA
D1-17_01020	681	lldR	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGACGCTCAGCACCTCGCACCGCCAGCCGCTGGCGGATGAAATTACGGACAAACTCCGTGCCATGGTCCATTCGGGTGAGTGGCCGCTGCAGCAGCGGATTCCCTCCGAGACAGAACTGATGACCCGGCTCGGCGTCTCACGCGGAACCCTCCGGGAGGCGGTCAAGGCCCTGGCCCACAGCGGCATGCTCGAGGTCCGCCGCGGTGACGGAACCTATGTCCGCGCCCTCAGCGAAATTTCCGGCGCAGCCCGCCGGCTGTACCGGGACCACACCGACGAGCACGTCCTCGAGGTCCGGGTGGGACTGGATACCCAGGCAGCCCGCCTCGCCGCCCGCCATGCAAGGCCCGACGACGTCGCCGCCCTCCGCGCGCTCCTCGCCGACCGCGACGCTTCCTGGAAGGCGGCCGACTATGCAGCGTGGGCCAGGGCCGACTGGGGCTTTCACGACCGTGTAGCACAAGCCTCCGGCAACCCGCTGCTGCATGAGCTGTATGCCAGCTTTGGGGAGGTATTCCACCATGAACTGCTCAAGCAGCACCGGCGCCCCGGGTTCCAGGGTCTGCCGCACGAAGGACACGGCGCTCTCGTGGACGCCATCGAAGCCCATGATGAGGAGGCGGCTGTGCTGAGCGTGACCCGCAACCTCAATTCCTGCGCGGAGTGGCTGAGGGAGTAG	MTLSTSHRQPLADEITDKLRAMVHSGEWPLQQRIPSETELMTRLGVSRGTLREAVKALAHSGMLEVRRGDGTYVRALSEISGAARRLYRDHTDEHVLEVRVGLDTQAARLAARHARPDDVAALRALLADRDASWKAADYAAWARADWGFHDRVAQASGNPLLHELYASFGEVFHHELLKQHRRPGFQGLPHEGHGALVDAIEAHDEEAAVLSVTRNLNSCAEWLRE				NA	NA	NA	NA	NA
D1-17_01021	1233	yycB_2	COG2807	putative transporter YycB	ATGGCCTCCGTTACCTCAGCTGCCCTCGTTGCCGCCCGCCCGCCCAGGTCCCGGGCCGCCATTGTCGTGAGCATTGTGGCGCTGGTCCTGATCGGCCTTAACCTGCGTGCGGGAATTACGGGCGCATCGGCCCTCCTGCATGACCTTCAGCTCGTGCTTGGCTACGGCCCGCTGGTGGCATCCGTCATCCCCTCTATCCCGACGCTCTGCTTCGCCGTCGCCGGGGCAGCAACGTCCTGGCTGACGGGCCGGCTTGGGGTGGAGAAAGCGATTCTGCTGGCCCTCGCTATGCTGACCGCGGGGCTCCTGCTGCGCGGCGTCCCCTCCACCGGCATGCTGCTGGCTGGAACGGTAGTCGGGATGTCCGGCCTGGCCGTCTGCAACGTGGCGATGCCGTCCTTCATCCGGGAGCACTTCGCTCACCGCACTTCCCTCATGACCGGCCTTTACACGGTAACCATGACAACCGGCGCCACCGTCACCTCCGTGGCCGTAGTGCCGCTGGCCCAACTGCTCGGTTCGCCGTCCGCCGGAGTGGGCGCAGTTGGGCTTCTCGCCGTCTCCGCTTTCCTGGGATTCCTGCCCGTGGCGCTGCAGGCGCACCGCAACCGTGCGGCGCGCGGCGTCAGTCACGTCTCGCCGTGGCCGCTGCTCCGGACCCGCAAGGGCGCCCTGCTGACAGCCATATTCACACTGCAGGCGCTGCTCGCCTACGCCCTGCTGAGCTGGTTCCCGTACATGCTGACCACCATGGGCCTCAGCGCCGCCGAGAGCGGCCTGCTGTACGCGCTCCTGCAACTGGTCTCCGTTCCGGCCGGCATGCTGCTGATCGCCATCGGTTCCCGTCCAGGCATGCTGCGCCCCGCGTTTTACCTCGTCAGCATTGCCATGCTCGTCGGGATGGCTGCGCTGCTGCTGCTCCCGCTGTCCCTTGCCGCGATCCCTGCGGTGCTGCTCGGGTTCGGGCTCGGCATCTTCCCGCTGGTCATGGTGATGATCAGCCGCAGCGGCGATAACACGGCCGAGACCACCGCGCTTTCGACCCTGGCGCAGTCCACTGGTTATCTCCTGGCCACAGTGGGCCCGTTCGGAATGGGTCTGCTGCACAGCGCGACGGGCGGGTGGACGTTGCCGCTGGCCTTGCTGGTGGTGATTGCGTTGGCACAGATCGTGGTGGCCCACCATCTCACTGCCAAAACCAGCGCCAAGACCACCGCCACACCGAAGGGTTAG	MASVTSAALVAARPPRSRAAIVVSIVALVLIGLNLRAGITGASALLHDLQLVLGYGPLVASVIPSIPTLCFAVAGAATSWLTGRLGVEKAILLALAMLTAGLLLRGVPSTGMLLAGTVVGMSGLAVCNVAMPSFIREHFAHRTSLMTGLYTVTMTTGATVTSVAVVPLAQLLGSPSAGVGAVGLLAVSAFLGFLPVALQAHRNRAARGVSHVSPWPLLRTRKGALLTAIFTLQALLAYALLSWFPYMLTTMGLSAAESGLLYALLQLVSVPAGMLLIAIGSRPGMLRPAFYLVSIAMLVGMAALLLLPLSLAAIPAVLLGFGLGIFPLVMVMISRSGDNTAETTALSTLAQSTGYLLATVGPFGMGLLHSATGGWTLPLALLVVIALAQIVVAHHLTAKTSAKTTATPKG	PGPT0005211_394	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-17_01022	1629			putative protein	ATGCCGGTCCCGCTGCGAAAGGATGCCGTACCGGACATGAATCCCGAAGGTCTCGAAGCTGAGAAGAAGTACGACGTCGATCCCGGCGCCGCGCTGCCAGCGCTGCAGAGGATTGCCGGTATCGGGAGGGTGGGGGAGCCGTCCGAGGCCGTGCTCGAAGCGGTGTACTTCGACACGTCCGATTTCGCGCTCGCCGCGCGCCGCATAACCCTGCGCCGCCGGACCGGAGGGGCCGACGCCGGCTGGCACCTCAAACTGGCACCTGAACTCAAGGGGTCCTCTGACGGGGGCACTGACCCGGTGCCTCAGCGCCGGGAGATTCACGCGCCCCTGGGGCAGGCAGACGTTGTTCCTGATCAGTTGCTCGTGCATCTGCACGCTTACCTCCGTGGAGCTGCGGCTGCCCCCGCAGCCAGGCTGAAGACCAGGCGCACCACATATCCCCTGTACGGAGACGACGGCATGCACCTGGCCGATTTTGCCGACGACAGGGTCGAGTCCCAGGCGCTGGGCAGCGGGCTGAAGCAGGAGTGGCGCGAATGGGAACTGGAGCTCGTCCGGGGGAATGTTGACCTTTTCCCGTCCGCGGAGGCGTGTTTCGCCGCCGCAGGCGCCCGGCCGGCATCCCACGAATCCAAACTGGGGCGGGCGCTGGGGGATGCCTGGCCGGAGCGGCAGGACACCGCGCCCGGTGCGGAGGCCGGCGGAAATGCCGGAGCGAAGCAGCCGGGCTCAAAGGCTGCCGGAAAGAAGGAGCCGGCCTCCGACGTCGTCACCGCATACCTCGGTGCGCACATCGCTCAACTTGTGCGCACCGATCCTGCTGTGCGGCTGGAGGAGCCGGACGCGGTGCACCAAATGCGGTCAGCCACGCGGCGGCTGCGCTCGGCCCTGGCCGTGTACCGCAAGCTGTTCGGCGACGCTGCGGTCAGGAGGCTCCGCGATGAGCTCAGATGGCTCGGCCGCATCCTGGGCGCGCCCCGCGATGCGGAGGTGACCCGGGAGCGGATCCTCGCAGGCGTCGGCGCGCTGCCCCCGGAGCAGGCTGATGCCGTGAAAGACCGGTTGGAACGGGAACTGGGCGACCGGTTCGCCGCGGGCTACCGGCGCGTGCAGGAAGTGCTGGTGTCCGAGCGCTATTACCGGCTGCTGGACGACCTCGAGGAATTCCGCGACAATCCGCCGGCCCTTCCCGCGGCTGCCGCGCCCGCGGCCCGGGTCACAGGCAAACGCATCGGGCGCACAATCCGGCGCTTGCGCCGGTCCGCCAAAGCGGCACGCCAGGACAAGGCAGGTCCGGCCCATGACGCGGCCCTGCACCAGGTTCGCAAGGACGCCAAACGGCTGCGGCACGCCGCGGAATCCGCCATCCCGCTTTACGGAAAGCGTGCCGCCAGGCTCGCCGACGCTGCGCACCGGCAGCAGAAGATTTTGGGTGACCACCACGACAGCGTGATGGCGCGGACACTGCTGGGCAAGCTGGCGCGCGGGCCGCAGCAGTCCGAACACGTGAGCGCAGCCTACGCACGCCTGCTCAGGAAAGAGGTAAAGGCCGCCGCCCGCGCCGAAGCCAAGTACCGCAAGGAGCGGCGCAAGGCCCGCAAGCTCCTGAAGCGCGGGGTGGCGTAG	MPVPLRKDAVPDMNPEGLEAEKKYDVDPGAALPALQRIAGIGRVGEPSEAVLEAVYFDTSDFALAARRITLRRRTGGADAGWHLKLAPELKGSSDGGTDPVPQRREIHAPLGQADVVPDQLLVHLHAYLRGAAAAPAARLKTRRTTYPLYGDDGMHLADFADDRVESQALGSGLKQEWREWELELVRGNVDLFPSAEACFAAAGARPASHESKLGRALGDAWPERQDTAPGAEAGGNAGAKQPGSKAAGKKEPASDVVTAYLGAHIAQLVRTDPAVRLEEPDAVHQMRSATRRLRSALAVYRKLFGDAAVRRLRDELRWLGRILGAPRDAEVTRERILAGVGALPPEQADAVKDRLERELGDRFAAGYRRVQEVLVSERYYRLLDDLEEFRDNPPALPAAAAPAARVTGKRIGRTIRRLRRSAKAARQDKAGPAHDAALHQVRKDAKRLRHAAESAIPLYGKRAARLADAAHRQQKILGDHHDSVMARTLLGKLARGPQQSEHVSAAYARLLRKEVKAAARAEAKYRKERRKARKLLKRGVA				NA	NA	NA	NA	NA
D1-17_01023	1509	pucR	COG2508	Purine catabolism regulatory protein	ATGCGGGGAATAGCCACCTGCACACCTTGGTACGAAAGTTTTAGTGCGATCGGCCAGCGCCCGGCTACCCTTGGAATCATGGCAATTTCCCTCGCTGCGCTGCTCGGCGTGCAGTCCCTTGGACTCAAGAAAATCGGTCTCGCCGAGACTACGTCCCACCATGACATCCACTGGGTCGCCGTCGCCGAGCAGGAGGATCCACAGCGCTTCCTCAATGGCGGCGAGCTCGTGCTGACCACGGGCCTGCGGCTGCGAAGCGCGCCGGAGCAGCGGCGCTTCGTGCGCCAGGTCCAGCGCGCCGGCGCAGTCGGGATCGGTTTCGGCGTGGGCCTGACGCACGACGACGTTCCGCCGGCTTTGGTGGCTGAAGCGAACCGGTGGGGCCTGCCGGTGGTCGAGGTTCCGTACGCCACGCCCTTCATCGCCATCAGCAAGCTCGTGGCGGATGCCCAGTCGGCGGACCACTACGCCAAGCTGGAACGGCTCATCGCCGGTCACCAGGTCCTGGCCCGCGCCCTTCTCACCGGCGGCGGACTCGCCGAACTGCTCAAGCACCTGGGCGGCATGCTCCGCACGGACATCATCCTCACCCAGTTCACGGCAGAGCTGTACAACAGCGGCTCCGAGCCGGCGGCGGCCGACTCGTGGGCGTCGTATCCCATCCCCACCGGCCGCCGCGACGCCTGCACGCTGTGGGTCAGGCAGCCGTTCGAAGACTCCGGCATCATCGGCTACGCCCAGAACCTCATCAGCGTGGAGCTAAACAACATGGTGAAGCAGCGCCAGGCCGAGCGGGCGCTGTGCGGCCAGGTGCTGGAGGACGTCATCCACGGGACCCTGGACCAGAGCGAAGCGACCCGCCGCCTTGCGGGAACGGGCATCAACAGTACCCGCAAGAACGTGGTGCTGCTGGCCGGTTCCGAGGCGCACCACAAGCAACTGGTCACCTCATCGTTGCCCCGGGCGCTGGAGAAGGCCGTGACCGCCGTCGTCGGAAAGGACCTGATCACGGTGATTCCCGACGACGGCCGCGGCGCCGCGGCGCTGGCCCGGAGCCTTAGCGACCACCTCGCCGAGGCGGGAATCCACGCGACCATCGGCATCGGCGGAGCGTACACCAAGCCCAACGGCCTGCGCTGGAGCTACTTCGAGGCGCGTGACGCGGCCAGCCACGGCTTGCCGGTCAATGAGCCCGAGCGGCTCAGCCTGACCTCGCTGCTGCTGGCAAGCGAGGACGTGCCGCTAGCGGACATGGCCAACGAGTCGCTGAATCCGCTGCGCACATTCGACGCCGCCCACGGCTCCGAACTGATGACCACGCTTGAGAGCTACCTGAACAACAACGGCTCTGTCGCGGCGGTGGCCGAGGCCCTGACGCTGCACCGCAACACAGTCCGCTACCGGCTGGGCCAGATCACCGAGCTCACGGGCTACGATCCGTCCATTACCGCCGACCGCGTGCAGCTGTGGTTAGCCCTCGCGGTGGCGCGCCTCGGGTCACGGCGCTAA	MRGIATCTPWYESFSAIGQRPATLGIMAISLAALLGVQSLGLKKIGLAETTSHHDIHWVAVAEQEDPQRFLNGGELVLTTGLRLRSAPEQRRFVRQVQRAGAVGIGFGVGLTHDDVPPALVAEANRWGLPVVEVPYATPFIAISKLVADAQSADHYAKLERLIAGHQVLARALLTGGGLAELLKHLGGMLRTDIILTQFTAELYNSGSEPAAADSWASYPIPTGRRDACTLWVRQPFEDSGIIGYAQNLISVELNNMVKQRQAERALCGQVLEDVIHGTLDQSEATRRLAGTGINSTRKNVVLLAGSEAHHKQLVTSSLPRALEKAVTAVVGKDLITVIPDDGRGAAALARSLSDHLAEAGIHATIGIGGAYTKPNGLRWSYFEARDAASHGLPVNEPERLSLTSLLLASEDVPLADMANESLNPLRTFDAAHGSELMTTLESYLNNNGSVAAVAEALTLHRNTVRYRLGQITELTGYDPSITADRVQLWLALAVARLGSRR				NA	NA	NA	NA	NA
D1-17_01024	1431	prr	COG1012	Gamma-aminobutyraldehyde dehydrogenase	GTGGTTCAAACCTTGCAGAACTTCATCAACGGCGAGTTCGAGACGCCTGCCGGAACCGGCCTGCTTGACATCGTGAACCCTGCCACCGGGGAGGTCGTCGCGAAGTCTCCCGTTTCCGATGCGGCGGACGTGGATGCCGCCATGACCGCCGCCAAGGACGCCTTCCGGACCTGGAAGCACACCACCCCGGGCCAGCGACAGCTGATGCTCCTCAAGCTGGCGGACGCCGTTGAGGCCCACAGCGACGAACTGGTTGAGGCGCAGCACCGCAACACCGGGCAGGTGCGCGCGCTCATCGCCTCGGAGGAAGTCGCCGCCGGCGCGGACCAGCTGCGCTTCTTTGCCGGCGCCGCCCGCATCCTTGAAGGCAAGTCCGCGGGGGAGTACTTTGAGGGCCACACCTCCTTTGTGCGCCGCGAGCCGATCGGCGTCGTAGCCCAGGTGGCCCCGTGGAACTACCCGTTCCTCATGGCCATCTGGAAGATCGGCCCCGCGCTCGCCGCTGGCAACACCGTGGTCCTCAAACCCTCCGACACCACGCCCGAATCCACCCTGGTGCTGGCGAAGCTGGCCAAGGACATCTTCCCTGCCGGCGTACTCAACGTCATCCTCGGCACCGGCGAGACCGGCGCGATGATGGTGGAGCACAAGGTCCCCGGACTGGTCTCCATCACCGGCTCCGTCCGTGCCGGCATCGCGGTCGCCTCCGGAGCTGCCAAGGGCCTCAAGCGCGCCCACCTGGAGCTCGGCGGCAAGGCCCCGGCCATCGTCTTCAAGGATGCCGACATCAAGAAGAGTGCCGCTGCTATCGCAGAGTTCGCGTTCTTCAACGCCGGCCAGGACTGCACCGCCATCACCCGTGTGCTGGCCCAGGACTCCGTCCACGACGACCTCGTCGCCGCGATGGTGGAGCACACCAGGACCCTGCATACAGGCTCTCAGAATGACGCCGAGAACTACTTCGGCCCGCTGAACAACGCCAACCACTTCGCAGCGGTCAGCGCCGCCGTCGGGGCGTTGCCGGACTACTGCCGGATCGAGACCGGCGGCCACCGCGCCGGAGACAAGGGCTACTTTTTCGAGCCCACCATCATCACCGGTGCCAAGCAGACCGATGACATCGTGCAGAAGGAAACCTTCGGGCCGGTCATCACCGTGCAGAAGTTCAGTACGGAACAGGAAGCCGTGGAGATGGCGAACGACGTCGACTACGCCCTGGCGTCCAGCGTCTGGACCTCCGACCACGGCACCGCCATGCGGCTCAGCCGCGACCTTGACTTCGGCGCAGTCTGGATCAACACCCACATCCTGCTCACCGCCGAAATGCCCCATGGCGGGTTCAAGCAGTCCGGCTACGGCAAGGACCTCTCCATGTACGGCGTCGAGGACTACACGCGCATCAAGCACGTGATGAGTGCACTCGACTCCTAA	MVQTLQNFINGEFETPAGTGLLDIVNPATGEVVAKSPVSDAADVDAAMTAAKDAFRTWKHTTPGQRQLMLLKLADAVEAHSDELVEAQHRNTGQVRALIASEEVAAGADQLRFFAGAARILEGKSAGEYFEGHTSFVRREPIGVVAQVAPWNYPFLMAIWKIGPALAAGNTVVLKPSDTTPESTLVLAKLAKDIFPAGVLNVILGTGETGAMMVEHKVPGLVSITGSVRAGIAVASGAAKGLKRAHLELGGKAPAIVFKDADIKKSAAAIAEFAFFNAGQDCTAITRVLAQDSVHDDLVAAMVEHTRTLHTGSQNDAENYFGPLNNANHFAAVSAAVGALPDYCRIETGGHRAGDKGYFFEPTIITGAKQTDDIVQKETFGPVITVQKFSTEQEAVEMANDVDYALASSVWTSDHGTAMRLSRDLDFGAVWINTHILLTAEMPHGGFKQSGYGKDLSMYGVEDYTRIKHVMSALDS	PGPT0007165_3045	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-17_01025	1356	gabT_1	COG0160	4-aminobutyrate aminotransferase	ATGACTACCACTGCCAACGAGATCACCTACCGCCTCGAGCAGAAGCGCAACATCCAGGCCGACTTTCCCGGCCCCAAGTCGCTCGCGCTGGCCGAACGCCGCAACGCCGTCGTCGCTGCGGGCGTCGCCTCGGGAGTCCCCGTCTACGTTGCCGATGCGGACGGCGGCATCATCCACGACGTTGACGGCAACTCCTTCATCGACCTCGGCTCAGGCATCGCGGTGACCAGCGTCGGCGCGTCGGATCCCGCCGTCGTCGGTGCCGTGAAAGAAGCCGTGGAGCACTTCACGCACACGTGCTTCATGGTCACGCCCTACGAAGGCTACGTTGCCGTCGCCGAGCAGCTGAACCGCCTGACGCCGGGCGACCACGAGAAGCGTACGGTCCTGTTTAACTCAGGCGCGGAAGCGGTTGAGAACGCCATCAAGGTGGCCCGCCTCGCCACCGGCCGTGACGCCGTCGTCGCCTTTGACCACGCCTACCACGGCCGCACCAACCTCACCATGGCGCTGACCGCCAAGGCGATGCCGTACAAGACCAATTTCGGGCCATTCGCCCCTGAGGTCTACCGCGTGCCCATGAGCTACCCGTACCGGGAGGAGAACCCTGCCATCACGGGAGTCGAGGCTGCAAAGCGCGCCATCACCATGATCGAAAAGCAGATCGGCGGGGACCAGGTTGCCGCGGTCATCATCGAACCCATCCAGGGCGAGGGCGGCTTCATCGTCCCGGCCGAGGGATTCCTCCCCGCGCTGTCCGCATGGGCGAAGGAAAAGGGTATTGTCTTCATCGCCGATGAGGTGCAGTCCGGCTTCTGCCGCACGGGTGAGTGGTTCGCCGTGGACCACGAGGGCGTTGTCCCGGACATCATCACCATGGCCAAGGGCATTGCCGGCGGCATGCCGCTGTCCGCCATCACAGGGCGCGCCGACCTGCTTGACGCCGTCCACCCGGGCGGGCTCGGCGGGACGTACGGAGGCAACCCGGTCGCATGCGCCGCAGCCCTCGCGTCCATCGGTTCCATGGAGGAGTACAACCTCAACGCCCGCGCCAAGCACATCGAGGAGCTGGCCGTCGGCCGGCTTCGTGAGCTTGCGGCCGAGGTTTCGGTGATCGGCGACATCCGCGGCCGCGGCGCGATGCTGGCCATCGAGATCGTCCAGGCCGGCTCCAAGGAGCCCAACCCCGAGCTCACCAAGGCCGTTGCTGCCGCCTGCCTGAAGGAAGGCGTCATCATCCTCACCTGCGGAACCTACGGCAACGTCATCCGCCTGCTCCCGCCGCTGGTCATCAGCGATGAGCTGCTGCTCGACGGCCTCAACGTACTGGCAGCGGCCATCCAGGCCAACGCCTAA	MTTTANEITYRLEQKRNIQADFPGPKSLALAERRNAVVAAGVASGVPVYVADADGGIIHDVDGNSFIDLGSGIAVTSVGASDPAVVGAVKEAVEHFTHTCFMVTPYEGYVAVAEQLNRLTPGDHEKRTVLFNSGAEAVENAIKVARLATGRDAVVAFDHAYHGRTNLTMALTAKAMPYKTNFGPFAPEVYRVPMSYPYREENPAITGVEAAKRAITMIEKQIGGDQVAAVIIEPIQGEGGFIVPAEGFLPALSAWAKEKGIVFIADEVQSGFCRTGEWFAVDHEGVVPDIITMAKGIAGGMPLSAITGRADLLDAVHPGGLGGTYGGNPVACAAALASIGSMEEYNLNARAKHIEELAVGRLRELAAEVSVIGDIRGRGAMLAIEIVQAGSKEPNPELTKAVAAACLKEGVIILTCGTYGNVIRLLPPLVISDELLLDGLNVLAAAIQANA	PGPT0007660_405	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
D1-17_01026	867		COG0589	Universal stress protein	ATGCGATACGTAGTCGGCTACACACCCACCGAGCGCGGCGCGGACGCCGTGGCCCTGGCGACGTCGCTCGCTCTGGCCCAGGGCGCCCACCTGGACCTCGTCTACGTTGTAAAGAAGGGCGCCCCGTACGTGGCCCTGAATCCGGAGGGCAGCAGGGTGAGCGCCGCGGAGCAGGAGGTGCTGACGGCTGAACGGCAGGCGCTGGCCCTCGTACCGCAGGGCCTGTCCGCCACGTTCCATGCCCGGGAAGCCGAGTCCTTTGCCTCCGGCCTGATCGAGGCAGCTGCGCAGCTCCAGGCCGGGCTGATTGTGGTGGGTGCTGCCAGTGCCGGCCTGTTCAAGCGGTACACCGTGGGCAGCGTGGCCAACGCGTTGCTACACGCCTCACCCGTTCCCGTGGCCTTAGCCCCGCGCGGCTATCAGCGGACGGCGCCGATTACCCGCCTGACCCTCGCTGTGGGGCAGCGGGAGGGAGCGGAAGCCGCGATCCGGGCGGCCATCAGTGCCGCCAGGCGCCGCGGGGTGCCGCTGCGGCTGGTGTCCCTTGTGGAGCTGGACGCCGCCGGTGATGCCGGGGAAGCGGTCAACGCCGCGCATATCCATGCCAACACAGTGCTCTCTGATGCCTCCGGCAGAGTGCCCGCCGGCCATGAGGTCAGCGTCGCCGTCGCCCACGGCCGCACTATTGAGGAAGCCATTGACGGCCTTGAATGGGACGACGGCGAGATCATGATTGTCGGTTCCTCGCGCCTTGCGGAGAAGAACCGCATGTTCCTGGGCAGCACCGCCAACAAGGTCCTGCGCGCGCTGCCGGTGCCCATGGTGGTCGTCCCGCGCGACTACGACCGGGTGGATTCGGCCCCCTAG	MRYVVGYTPTERGADAVALATSLALAQGAHLDLVYVVKKGAPYVALNPEGSRVSAAEQEVLTAERQALALVPQGLSATFHAREAESFASGLIEAAAQLQAGLIVVGAASAGLFKRYTVGSVANALLHASPVPVALAPRGYQRTAPITRLTLAVGQREGAEAAIRAAISAARRRGVPLRLVSLVELDAAGDAGEAVNAAHIHANTVLSDASGRVPAGHEVSVAVAHGRTIEEAIDGLEWDDGEIMIVGSSRLAEKNRMFLGSTANKVLRALPVPMVVVPRDYDRVDSAP				NA	NA	NA	NA	NA
D1-17_01027	1173			hypothetical protein	ATGGCAAGCCTACTGACTAATTCTGCGATTAACGCCATAACTCATCCTGGCCGGCGGAATACCCCGGAGCCGCGGGGCGTTATCGCCCTTGTGCCTACGCCCGACGGATCAATCTCCTCCGCTGTCCCTGCTTCAGCCCCGCCTCCTGTTGAGCCGCGCGGGCGTGGTGGTTCGAACCCGGCGGATCCGGGTTCCGGTTCTGCCGGGACTGCATCCGGCAGGCCCGCCGGGCTCAAGGCCGTGGATAAGGACACGACGGCGGGCGTCCTGTTTGGCATCGGGGCTTACGGGCTGTGGGGCATGCTTCCCCTGTACTTCTTCGTGCTGCAGCCCGCCGGCGCCGTCGAAATCGTTGCCAACCGCGTCGTCTGGTCTCTGCTGTTCTGTGCCCTGCTGATCACGGTGACAAGGACGTGGCGGGTTCTGGGCGCGGCCTTCCGGAACCGCTCTGTGCTCGGCCCGCTGGCCGTCGCCGCGGCACTGATTGCCGTGAACTGGCTGACCTACACGTACGGGGTCACCACGGGGCAGGCCGTAGAGGCGTCGCTGGGCTACTTCATCAACCCGCTGGTCTCTGTCCTGCTCGGCGTGTTCGTCCTGAAGGAAAAGCTTCGGCCGCTGCAGTGGGCCGCCGTCGGAATCGGCTTTATCGCCGTGGCGGTCCTGACCGTATCTTACGGTAAGCTGCCGTGGATCGCGCTGACGCTGGCCGTCAGCTTCGGGCTGTACGGGTTCGTCAAGAAGCGAGTGGGGCCCAAGGCGGAAGCCATCACGAGCCTCACTGTCGAGACCATCGTGCTCGCTCCCCTGGCGGCAGCCACCATGGTTTTCCTCGCAGCCAGCGGCAGCGCGACGCTGACCAGCAACGGCGCCGGGCATTTCTGGCTTCTGGCGGCCTCAGGCATCATCACTGCGGTGCCGCTACTGTTCTTCGGCGCCTCCGCCCGCCGCTTGCCGATGACCACGATCGGCCTGCTGCAGTACTTCGCACCCGTCCTGCAGTTTGTTGTTGCGCTGGCTGTCTTCCGCGAGGCGATGACACTGGAACGGTGGATCGGGTTCGGCGTCGTCTGGCTCGCGCTGCTGGTGCTGACGGCCGACATGCTGGCTGCCGCACGCAAGAACTCCGCTGCCCGCAAACTCGCCCGCCAGGAAGCGCGAACGGACACTTAG	MASLLTNSAINAITHPGRRNTPEPRGVIALVPTPDGSISSAVPASAPPPVEPRGRGGSNPADPGSGSAGTASGRPAGLKAVDKDTTAGVLFGIGAYGLWGMLPLYFFVLQPAGAVEIVANRVVWSLLFCALLITVTRTWRVLGAAFRNRSVLGPLAVAAALIAVNWLTYTYGVTTGQAVEASLGYFINPLVSVLLGVFVLKEKLRPLQWAAVGIGFIAVAVLTVSYGKLPWIALTLAVSFGLYGFVKKRVGPKAEAITSLTVETIVLAPLAAATMVFLAASGSATLTSNGAGHFWLLAASGIITAVPLLFFGASARRLPMTTIGLLQYFAPVLQFVVALAVFREAMTLERWIGFGVVWLALLVLTADMLAAARKNSAARKLARQEARTDT	PGPT0003906_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
D1-17_01028	999			hypothetical protein	ATGAGGCTGCGCCACAGCAACGCCTCGGGGCGCGGTTACCGCCGGGTGCGGGCCGGCAAGGGCTTTAGCTACCGGGACCTTGACGGCTCAACGCTGCCGCCGGGACCGGTGAGGGACCGGCTGGAAAGCATCGGCATCCCGCCGGCTTGGACCGACGTGTGGATTGCCCCGTTCGAGAACGGCCATATTCAGGCGACAGGCGTGGATGCGGTGGGGCGACGGCAGTACATCTACCACCCCGAATGGCGGGAGCGGAAAGACCGGCTGAAGTTTGACCGCGCGCTCCAGCTCGCGGAGTCCCTGCCGTCTGCGCGCCGGATGGTGACCATGGACCTGAGGAGCGAGGGCCTCACGCGGGAACGCGTTCTGGCCGGCGCGTTCCGGATGCTCGACTCCGGCTCGCTGCGCGTTGGCTCCGAGCGGTACACAAATGAGAACGGCAGCCATGGCCTAGCCACCCTGTTGTGCGCCCACGTGCAGGTCCGCAAGAACCGGCTGCGGCTCAGTTTTCCCGCCAAGAGCGGCAAGAACTGGGAATCGGAAATCGTTGACGACGACCTCGCGGCCCTGGTCCGTGTCCTGAAGCGGCGCGGGGGCAACGCCCGGCTGCTGGCGTACAAAAACGGCCGCAGCTGGCATCCCGTGACCAGCGCGGACATCAACAGCTACGTCAAGGAGCGGACGGGATCGGACTTCACCGCCAAGGACTTCCGAACTCTCCGCGGAACCATTGCAGCAGCGGTAAGCCTGGCCCGCAGCGGCCCGCAAAAAACCGTGTCGAAGAGGAAGCGTGCCATCAGCGTCGCCATGATAGAGGCCGCGGCGGTGCTGGGTAACACGCCGTCAATTGCACGCAAAAGCTATGTGGACCCCCGGCTGCTCGACCACTTCGCGGCCGGAGAAACCATCGACCCCAAACGGCTGGACTCCGCCGAATCGGAACTGCGGGCGCTCCTGTACCGCGAAGGCAAAGTGGTGGCCCTGCGGAAAAGCAGCTGA	MRLRHSNASGRGYRRVRAGKGFSYRDLDGSTLPPGPVRDRLESIGIPPAWTDVWIAPFENGHIQATGVDAVGRRQYIYHPEWRERKDRLKFDRALQLAESLPSARRMVTMDLRSEGLTRERVLAGAFRMLDSGSLRVGSERYTNENGSHGLATLLCAHVQVRKNRLRLSFPAKSGKNWESEIVDDDLAALVRVLKRRGGNARLLAYKNGRSWHPVTSADINSYVKERTGSDFTAKDFRTLRGTIAAAVSLARSGPQKTVSKRKRAISVAMIEAAAVLGNTPSIARKSYVDPRLLDHFAAGETIDPKRLDSAESELRALLYREGKVVALRKSS				NA	NA	NA	NA	NA
D1-17_01029	1434	fprA_2	COG0493	NADPH-ferredoxin reductase FprA	GTGTCCACTACAGCTGAATCCGCTTCCCAGAGGCCACTCCGCGTCGCTATCGTCGGTGCCGGGCCTGCCGGTGTCTATGCAGCGGACATCCTGACCAAATCCAATGAGGTGAAGGGCGGGGATTTCGAGGTCAGCATCGACCTCTTCGAGGCCTACCCTGCGCCGTACGGACTGATCCGTTACGGCGTCGCCCCGGACCATCCCCGCATCAAGGGCATCGTCAACGCGCTGCATAAAGTCCTGGACCGCGGCGACATCCGCTTCCTCGGCAACGTCACCTATGGCCGGGACCTGACCCTGCACGATTTCCGGTCCTTCTACGACGCCGTGATTTTTTCCACCGGTGCCATCAAGGACGCCGACCTGGACATCCCCGGGATCGATCTCGAGGGGTCCTTTGGCGCCGCGGACTTCGTGTCCTGGTACGACGGCCACCCGGACGTGCCCCGTGACTGGCCACTTGATGCGAAGGAAGTTGCGGTGATCGGCAACGGCAACGTGGCCCTGGACGTGGCTCGGATGCTCGTGAAGCACGCCGACGAACTCCTGGTCACCGAGATACCGGACAACGTCTACCGGGGACTGAAGAATTCGCCGGTCACCGACGTCCACGTTTTTGGCCGCCGCGGCCCAGCCCAGGTCAAGTTCACGCCTTTGGAGCTGCGCGAACTCAGTCATGCCCGCGACGTGGACATCGTGCTCTACCCGGAGGATTTCGAGTTCGATGAAGCCTCGGACGAGGCCATCCGCAGCAACAACCAGATCAAGACCATGGTGAACACCCTCACCAACTGGCTCGTGGAGGAGCATGCCGAAGCGGAGCAGCCGTCTTCCCGCCGCCTTCACCTGCACTTCCTGCACAGCCCGGTTGAGATTTTCGACGACGGCGGGTCCGGCAAGGTTGCCGGCATCAAGTTTGAACGCATGCACCTGGACGGCACCGGGAACGTCAAGGGCACCGGTGATTTCATCGACTATCCAGTGCAGGCCGTGTACCGCGCCATTGGCTATCACGGATCCCCGTTGGATGAATTGGAGTACGACGCCAAGCGCGGCGTGATTCCCAACGAGGGCGGCCGTGTTTTGGATGCCGAAGGCAGGCCCGTCCCGGGCATCTATGCCACGGGCTGGATCAAGCGCGGGCCGGTCGGCCTGATCGGCCACACGAAGGGTGACGCCCTGGAAACGATCGGGTTCCTCCTCGAGGACAGGCTGACCCTGCCGCCCGCAAAGAATCCTGACCCGCAGGCGATCATCGAGCTGCTGGAGGAGCGCGGCATCGAGTACACCACGTGGGAGGGCTGGAACAAGCTCAACGCGCATGAAGCAGCACTCGGTGCGGCGTGGTCGGAATCCACGGCGGCGGACGGCGTCGTGCGTGAACGCATCAAAGTGGTGCCGCGCGAGGAAATGATCGCGATCTCCCGCCCGTGA	MSTTAESASQRPLRVAIVGAGPAGVYAADILTKSNEVKGGDFEVSIDLFEAYPAPYGLIRYGVAPDHPRIKGIVNALHKVLDRGDIRFLGNVTYGRDLTLHDFRSFYDAVIFSTGAIKDADLDIPGIDLEGSFGAADFVSWYDGHPDVPRDWPLDAKEVAVIGNGNVALDVARMLVKHADELLVTEIPDNVYRGLKNSPVTDVHVFGRRGPAQVKFTPLELRELSHARDVDIVLYPEDFEFDEASDEAIRSNNQIKTMVNTLTNWLVEEHAEAEQPSSRRLHLHFLHSPVEIFDDGGSGKVAGIKFERMHLDGTGNVKGTGDFIDYPVQAVYRAIGYHGSPLDELEYDAKRGVIPNEGGRVLDAEGRPVPGIYATGWIKRGPVGLIGHTKGDALETIGFLLEDRLTLPPAKNPDPQAIIELLEERGIEYTTWEGWNKLNAHEAALGAAWSESTAADGVVRERIKVVPREEMIAISRP	PGPT0013215_477	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-17_01030	5784			hypothetical protein	ATGAAACTCTCAGCCTGGAAGTCAGACGGGGGCGCGGATCACAACAGATCCGGAGCCCCCACGGATCCACCATTGAACCGGCGGGAACGCCGCAACAAACGACGTAGCCGGCCGGTGTCCTTCCGGCTGATTGCGGCTGTAACGACCCTCGCGCTGCCGGCGGCAATGGGGCTTCCGGTGGTCGCTGCGAACGCCGTGCAGGCTCCGGAAGGAGCGGGCTTCAACGTCACCCCCTCAGATCTCTCATTCATCCTGCAGCAGATCAAGATCGCCGAGAAGCACGTGGCGGACACGACTTTTGAGACCGGCCCCTGCGGCGCGCTGAAGAACCAGCTCGCGAGCCCGATGCTATCGCTCGGGCTGCGCACCGTCGACGGAAGCTGCAACCACCTCGAGCCCGGACAGGACAACTACGGCGCCGCGGACCAGGTCTTCCCGCGCCTCGCCACCCCCACGTACAAAGCTGCCGAAAACGCGATGCGCGATCCATCGGTGGAGTCGACGTACGCCCAAAAGAAGGGCGACGTGTATGACTCGCAGCCGCGAGTCATCAGCAACCTGATCGCCGACCAGACCTCCACCAACCCGGCAGCAGTCTCAGCAGCCGGCAACCCCGTGCGGAGCCAGAACAATGAGGGTGTAGTCCCCTGCAAAACGGATCCCGATCCGCTGGCCGAGCCGCCCGTTGCCGCCGATCCGGCTGATTGCGTTCCGTCCTACAGCACCCTGTTCATCCCGAACATCACCACCGACGTCGGTCTCTCGCCGCCGTACAACTCCCTCTTCACCCTGTTCGGCCAGTTCTTCGACCACGGCATCGACCAGACGGTGAAGGGCGGCGGATCAGTCTATGTTCCGCTGAAGGCCGATGACCCGCTGATCGCGGGGCCGAACCATAAATTCGACGACGATCCGGCGACAACCACGGTTGAGGGGGTCGATAACCCCGCAACGCGTGACGTTGTGGAGGGCGATGACCTGCCCGTGCACATGCGCTTCATGGCCCTTACCCGCGGTTTGAACCAGCCGGGGGCAGACGGCATCCTGGGCGACGACCCTAAGACAGCTGACGTGGACGAAAGCAAGGATGACGTCCAGGACGCGCTTAACACCGATTCCCCCTGGGTGGACCAGAGCCAGACGTACGCCTCCCACCCCTCCCACCAGGTATTCCTGCGGGAGTATGTCAAGGACGCCACCGGAAAGCCGAGCGCCACCGGCAAGCTCCTGGGCGGCCCTGTAGGCCCCGGCGAAGATGGCATGGCCACATGGGCTGTGACCAAGCAGCAGGCCAAGGATGTCCTGGGAATCCGGCTGGAGGACAAGGACGCCCTGAACGTCCCGATGCTCAAGGTCGACCTGTACGGCAACTTTATCCCCGGGCCGGCTCGCGGCTTGCCAGTGTTCATGACCGCCAGCGGCGAGGTCGAGGCCAATCCGGCTGACAACGGCGGGACGGGAACCCTTGTTCCCTCCGACGTGCGGTACTTCAACACCCCGTTCCTGACGGACATCGCGCATAACGCCGATCCGTCACCGAAGGACCTCGATCACAACCCGGCCACAGCCCCCGTGGCCCCTACCAAGGACACCGACACCACTGCCTCTGCCGATTTCGCGAAGCAGCCACGGGGAACCTACGACGACGAGATGCTGAATGCGCACTTCATCGCCGGTGACGGCCGCGTCAACGAAAACATCGGCCTCACCGCCATCCACCAGGTGTTCCACTCAGAGCACGACCGCCTGGTTGACGACATCAACGCCACGCTGGCCAAGCCGGAAAATGAGTCCTTGCTGGCAGAGTACAAGGCCGTCGGCGACGCTACCTTCGACTTCGGCGAACGCCTCTTCCAAGCAGCCCGTTTCATCACGGAGATGGAGTACCAGCACCTGGTCTTCGAAGAGTTTGCCCGCAAGATCCAGCCGCTGATCAACCCCTTCCAGCCGTTCGCCTTCACCCAGACGGACATCAACCCCGCAGTTAAGGCTGAATTTGCGCATGCCGTGTACCGGTTCGGCCACTCGATGCTTACCGAGACGATCTCGCGGCGGAACGAGGACAAGCCCGGAACGGACACGATTCACGGAACGTCCGATGATATCCGCGGTTCCCAGAACGACATTTCCCTGCTTGAGGGCTTCCTCAACCCGCCGGCCTACACCGACGGCGGCGATGCCGGAGCTCTGACTTCAAAAGAGGCAGCCGGCAGCATCGTGATGGGCATGTCTGACCAGGTAGGCAATGAGCTGGACGAGTTCGTCACGGACACGCTTCGGAACAACCTGCTGGGACTTCCCCTGGACCTTGCCGCGATCAACATGACGCGGGCCAGGTCTGAAGGCGTGCCAACGCTGAATAATTTCCGGAAGGAACTGCACGCCAAGACCAACGACGGCCAGCTCAAGCCGTACGTCAACTGGATTGACTTCGGGGAAAACCTCAAGCACCCGGAATCCCTGATCAACTTTGTTGCCGCCTACGGCAAGCACCCCACGATCCTCACGGACGCCGGAGCGGACAACGCTGTGGGCACGGCGGACGACAAGCCAGCGTCGCTGAAGTCACGCCGGGACGCAGCACGTGCCATCGTCAACCCGGACACCGCGGCAGGGGATGTTGCTCCGGCAGACGCTGCTGCCTTCATGAACAGCGTCGGCGAGACCTGGTCGGACAAAGAGGGGCACTCGCAGACCGGACTGGACGACGTGGAGCTGTGGATGGGCGGGCTCGCGGAACGCACCAACATGTTCGGCGGCCTGCTGGGCAGCACCTTCAACTTCGTCTTCGAACAGCAGCTGACGGAGCTCCAGAACGGCGACCGGTTCTACTACCTGGCACGCACGCCCGGCATGAACCTTCGTGCACAGCTCGAAGGCAACTCCTTCGCCGAGCTCGTGATGCGCAACACCAACGCCCAGGCGCTTAAGGCGGACGCCTTCGCGACTGCCGACTGCAAGTTCGAACTGAAGAACCTGGCCGGCACGCGTGACGGCTTCAACAGCTTCGGCAACACAGTCGCCGACGACACGGCCTCGGACTGCAACGAGAGCAAGGTCCTGATCCGCATGCCCGACGGCACCATCAAGTACCGGATGACCAACACGGTTGACCCCTCGGGCATCAATGGCCAAAGCGTCTTCAACGGTACCTTCAATGCTGACCGCGCCTACGGCGGCAACGACAACGACACCTTCTGGGGCGGCGAAGGAAACGACGTCTTCGAGGGCGGCGACGGAGCCGACGTCGCACTGGGCGGCGAAGGCGATGACATCATCACCGATATCGCCGGTGACGACGTGCACAAGGGCGGACCCGGCAACGACGCGATCGACGCCGGACCCGGACTCGACATCATCATGGGCGGCGACGGCAGCGACTTTACCAACGGCGGAGCCAACTTCAACGAAACGTTCCTGGGTGAAGGCAACGACTTCGCCATCGCCGGACAGGGTGAAGATGTTGTCTTCGGCGACGGCGGCGACGACTGGCAGGAAGGCGGTGACGAGCCGGACCTCATGATCGGTGACTCCAGCAACCTCTTCTTCCTGGACGACTCGCAGAAGCCGGGCCACGACATCCTCATCGGCCAGGGCGGCGACGATGACTACGACATGGAGGGCGGCGACGACATCGGCCTTGCAGGTCCGGGCATCGAAAAGATCGCCGGCGCGTCGGGCTACGACTGGGAGATCGGCCTGCACGATCCGCAGCCGCAGGACGCCGACCTCGATCTGCCCATCCTGCCGCTGGACATCCTCGCCGTTGGCGTCCGCGACAGGTACAACGAAGTCGAGGCACTCTCCGGGGGCCCGCTCAACGACAAGCTCCGCGGCGATGACATCATCCCGAGCCAGCGCGGCGGCGGCGGCTTCATCGGCTGCAACGTCTTGGATGTGCACGGCGTCAACCGTATTGCCGGGCTCAACGAGTTGGTCCCGGATACAGCACGGACCACACCGATCGCGGACGTGATCGCAGCTTCGGCATCGAAGGACTGCCCGATTCTGGACAAGTCCGAGAACGCCATGGCCTGGGGAGCAGGCAACATCCTCCTCGGCGGCGGCGGCAGTGACATCCTGGAAGGACGCGGCGGCAACGACATCATCGATGGTGACCGTTATCTCAGTGTCCGGCTCAGCGTCCGTAACGACACCGGCGCAGAGATCGGCAGCGCCAGCGGAATGAATGTCCAGTACCTCAAGAACGAGGCCGGAGCCCTGACAGGCGCGACCCTCCAGGCGGATGTTTTCGCCGGCAAGGTCAATCCAGGCAACATCGTGGTGGTGAGGGAGATCCTCACAGCCAGTGGCGCCGGCGACAAGGCCGTTTTCTCCGACATCGAGGCCAACTACACCGTTACCGAAAGCAACGGCGTGACCACGGTGACGCACAACAACGCGGGTCCCGACGGAACCGACACCCTTCGGAACATTGAAACCCTGGTCTTCGCGGACTCCGTGGCACCGAGTGCACCCACCGGTGTTAGGGCAACTGCCGGGAATGCTTCGGCAACGGTGAACTTCAGTGCTGCCGAAACCGGCGGCATCACGGAGGGCTTCACCATCCGGGTACTGAACGCGGATGGGACACCCACCGGTGGGACAGCACAGGCAGAGGGGGATGCCACCAGCGTGGTCATCACCGGCCTGCCCAACGGCACCGCGGTTAAGTTCGAGGTCAAGGCCACGAACGTGCACGGCGAGAGCACGGCAGTAGTCACCAATACGGTCACCCCAGCAGTGCCGGTGCTGGTGACCGCCGTCCCGACCATAACGGGAACGCCTGTCGTAGGCGCCGTCCTGCAGGCCAATACCGGTATCTGGGGACCTGCTCCGGTGACGCTGACGTACCAGTGGTTGGCCGATGGCGTCGCGATCAGCGGAGCCACGGCATCGAGCTACACCCTGAAGGCGGGTGATGCGGGCAAGGCCGTGACCGTCCGGGTAACCGGCACCAAAACCGGCTATGTAACGGCCTCCCAGACATCGGCGGCAGTTACGCCAGCCAACGTTGTGGGCCTCTTGACCGCGCTGCACGACTTCAACAGTGACGGCAACGCCGATCTGCTGGCCAGGGATTCGAGCGGTGTGCTCTGGACCTACATCGGCGATGCATCGGGCGCCTTCCCGGCCCGCATCAGGGCCGGCGGCGGCTGGAACATCATGAACGCCATCAGCGCCGCAGGCGACATGAACGGTGACGGCAGGGCTGACCTGCTGGCCCGGGATACGAGTGGCGTCCTGTGGTCCTACCTGGGCGACGGTTCCGGTACATTCCCGACCCGCACCAGGGTCGGCGGCGGCTGGAACATCATAAACGCCATCACCGCCTCAGGTGACGTGAACGGTGACGGCAGGGCTGACCTGCTGGCCCGGGACACCAGTGGCGTGTTGTGGTCCTACCTGGGCAACGGTTCCGGCACGTTCCCGACACGGGTCCGTGTCGGCGCAGGTTGGGGCGTCATGAACGCCATCAGTGCCATTCGGGACGTGAACGGTGACGGCCGGAACGACCTGCTGGCCAGGGATACGAGCGGTGTGTTGTGGTCCTACCTGGGCAATGGTTCCGGGACGTTCCCGACACGGGTCCGTGTGGGCGCCGGTTGGGGCGTCATGAACGTCATCAGCGGAACCGGCGACGTGAACGGTGACGGAAGAGCCGACCTGGTGGCCAGGGATTCCAGTGGTGTGCTGTGGTCCTACCTGGGCAACGGCACTGGCGTCTTCCCGACCCGGAGTTCGGCCGGCGGGGGATGGAACACCATGACCGCCATCAGCTAG	MKLSAWKSDGGADHNRSGAPTDPPLNRRERRNKRRSRPVSFRLIAAVTTLALPAAMGLPVVAANAVQAPEGAGFNVTPSDLSFILQQIKIAEKHVADTTFETGPCGALKNQLASPMLSLGLRTVDGSCNHLEPGQDNYGAADQVFPRLATPTYKAAENAMRDPSVESTYAQKKGDVYDSQPRVISNLIADQTSTNPAAVSAAGNPVRSQNNEGVVPCKTDPDPLAEPPVAADPADCVPSYSTLFIPNITTDVGLSPPYNSLFTLFGQFFDHGIDQTVKGGGSVYVPLKADDPLIAGPNHKFDDDPATTTVEGVDNPATRDVVEGDDLPVHMRFMALTRGLNQPGADGILGDDPKTADVDESKDDVQDALNTDSPWVDQSQTYASHPSHQVFLREYVKDATGKPSATGKLLGGPVGPGEDGMATWAVTKQQAKDVLGIRLEDKDALNVPMLKVDLYGNFIPGPARGLPVFMTASGEVEANPADNGGTGTLVPSDVRYFNTPFLTDIAHNADPSPKDLDHNPATAPVAPTKDTDTTASADFAKQPRGTYDDEMLNAHFIAGDGRVNENIGLTAIHQVFHSEHDRLVDDINATLAKPENESLLAEYKAVGDATFDFGERLFQAARFITEMEYQHLVFEEFARKIQPLINPFQPFAFTQTDINPAVKAEFAHAVYRFGHSMLTETISRRNEDKPGTDTIHGTSDDIRGSQNDISLLEGFLNPPAYTDGGDAGALTSKEAAGSIVMGMSDQVGNELDEFVTDTLRNNLLGLPLDLAAINMTRARSEGVPTLNNFRKELHAKTNDGQLKPYVNWIDFGENLKHPESLINFVAAYGKHPTILTDAGADNAVGTADDKPASLKSRRDAARAIVNPDTAAGDVAPADAAAFMNSVGETWSDKEGHSQTGLDDVELWMGGLAERTNMFGGLLGSTFNFVFEQQLTELQNGDRFYYLARTPGMNLRAQLEGNSFAELVMRNTNAQALKADAFATADCKFELKNLAGTRDGFNSFGNTVADDTASDCNESKVLIRMPDGTIKYRMTNTVDPSGINGQSVFNGTFNADRAYGGNDNDTFWGGEGNDVFEGGDGADVALGGEGDDIITDIAGDDVHKGGPGNDAIDAGPGLDIIMGGDGSDFTNGGANFNETFLGEGNDFAIAGQGEDVVFGDGGDDWQEGGDEPDLMIGDSSNLFFLDDSQKPGHDILIGQGGDDDYDMEGGDDIGLAGPGIEKIAGASGYDWEIGLHDPQPQDADLDLPILPLDILAVGVRDRYNEVEALSGGPLNDKLRGDDIIPSQRGGGGFIGCNVLDVHGVNRIAGLNELVPDTARTTPIADVIAASASKDCPILDKSENAMAWGAGNILLGGGGSDILEGRGGNDIIDGDRYLSVRLSVRNDTGAEIGSASGMNVQYLKNEAGALTGATLQADVFAGKVNPGNIVVVREILTASGAGDKAVFSDIEANYTVTESNGVTTVTHNNAGPDGTDTLRNIETLVFADSVAPSAPTGVRATAGNASATVNFSAAETGGITEGFTIRVLNADGTPTGGTAQAEGDATSVVITGLPNGTAVKFEVKATNVHGESTAVVTNTVTPAVPVLVTAVPTITGTPVVGAVLQANTGIWGPAPVTLTYQWLADGVAISGATASSYTLKAGDAGKAVTVRVTGTKTGYVTASQTSAAVTPANVVGLLTALHDFNSDGNADLLARDSSGVLWTYIGDASGAFPARIRAGGGWNIMNAISAAGDMNGDGRADLLARDTSGVLWSYLGDGSGTFPTRTRVGGGWNIINAITASGDVNGDGRADLLARDTSGVLWSYLGNGSGTFPTRVRVGAGWGVMNAISAIRDVNGDGRNDLLARDTSGVLWSYLGNGSGTFPTRVRVGAGWGVMNVISGTGDVNGDGRADLVARDSSGVLWSYLGNGTGVFPTRSSAGGGWNTMTAIS				NA	NA	NA	NA	NA
D1-17_01031	1560	yhdG_2	COG0531	putative amino acid permease YhdG	ATGAACCTTTTCCGGACCAAATCCATCGAGCAGTCAATAGCTGACGCCGATGAGCCCGGACGCCAGCTAAAGCGCTCCCTGAGCACCTGGGACCTGATGATCATGGGCGTCGCCGTTGCAGTTGGCGCCGGCATCTTCTCTGTGGGCGCCAAGGCCGCAGCCAATTTTGCCGGCCCTGCCGTCACGGTCTCCTTCGTGGTGGCCGCGATCACCTGCGCCCTCGCCATCATGTGCTACGCAGAATTTGCGACGGCAATCCCCGTGGCCGGTTCCGCATATGTCTTCACCTACGCCACCATGGGTGAAGTTCTGGCCTGGATTATCGGCTGGAACCTCATCCTGGAGCTCTTCACGGCCGCCGCCGTTATTGCCAAGTACTGGGGCATCTATCTCAGTAAGGTCTTCGCGCTCATGGGCATGGAGATTCCGCCTGCCATTTCACTCGGCGGCGTCGACCTGTACTGGGGGGCGTTCCTTATCGTTGCGGTCTTCACCGTATTGCTCGTGCTGGGAACGAAGCTCTCCGCACGCGTGGGCAACATCTTCACGCTGATCAAGATCGGCGTGGTCATTTTCGTGATTGTTGTCGGCTTTACGTACCTGAAGGTTGCCAACTACGCGCCGTTCGTTCCCGCCTCCGAACCCACAGCAGGTGCCGGCGCCGCGGATGTGATGAAGCAGTCGTTCTTCGGCTTCCTCACCGGTGCCGCTCCGGCCCAGTACGGAACGCTCGGCATCTTCGCCGGCGCAGCCCTGGTGTTCTTCGCGTTCATTGGTTTCGATGTCGTGGCGACCTCGGCTGAGGAGGTCAAGAACCCGCAGAAGACCCTTCCCCGAGGCATCTTCGGCGGCCTGGCCCTCGTCACCCTGCTGTACATTCTGGTGTCCCTGGCCCTTACCGGCATGGTCTCCTACAAGCAGCTTGCCGAGGTCGAGAACCCGACGCTCACCACGGCCTTCGAGGCCGTGGGAAACACCGACGCGGCAAAGATCATTGCCTTCGGTTCGCTGATTGGCCTGACAACCGTGATCATGGTGCTGCTGATGGGTCTCTCCCGCGTGGTGCTGGCGATGAGCCGCGACGGTCTCCTGCCGCGCTCTCTGTCCAAGACCAGCGAAAAGCGTGCGACCCCAGCCCGCCTGCAGATCATCTGCGGCGCCGCCGTAGCACTGGTCGCTGGTCTGACCAACGTGGACCTGCTCGAAGAAATGATCAACATCGGAACCCTCTCCGCGTTTGTCATGGTCAGCCTGGGAATCCTGGTGCTGCGGAAGAAGCGTCCGGACCTGAAGCCGGCCTTCCGCGTGCCCTTCGGCAAGGTGCTCCCGGTCGTCTCCGCACTGCTGTGCCTGTACCTCATGACAAACCTGGCAGTGGAAACCTGGATCTTCTTCGGAATCTGGCTCGCCGTGGGCATGGCCATCTACGTCGCCTACGGGCAGCGACACTCCCGCCTCAACGAGAAATTTGCCGACGCTAAAGCAGCCGTGGACGGCCGGACCCGGACGGCCGACGCCGACCGCGACGACGACGATCAGAACCTCCTGACGAAGGTCTGA	MNLFRTKSIEQSIADADEPGRQLKRSLSTWDLMIMGVAVAVGAGIFSVGAKAAANFAGPAVTVSFVVAAITCALAIMCYAEFATAIPVAGSAYVFTYATMGEVLAWIIGWNLILELFTAAAVIAKYWGIYLSKVFALMGMEIPPAISLGGVDLYWGAFLIVAVFTVLLVLGTKLSARVGNIFTLIKIGVVIFVIVVGFTYLKVANYAPFVPASEPTAGAGAADVMKQSFFGFLTGAAPAQYGTLGIFAGAALVFFAFIGFDVVATSAEEVKNPQKTLPRGIFGGLALVTLLYILVSLALTGMVSYKQLAEVENPTLTTAFEAVGNTDAAKIIAFGSLIGLTTVIMVLLMGLSRVVLAMSRDGLLPRSLSKTSEKRATPARLQIICGAAVALVAGLTNVDLLEEMINIGTLSAFVMVSLGILVLRKKRPDLKPAFRVPFGKVLPVVSALLCLYLMTNLAVETWIFFGIWLAVGMAIYVAYGQRHSRLNEKFADAKAAVDGRTRTADADRDDDDQNLLTKV	PGPT0020810_1065	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
D1-17_01032	297			hypothetical protein	ATGCCCATAGCGGCAGCAGGATTCGCTATCGACGGCGACAAGCTAAAAACGGTTCCGCGAGGCTTTCCGGAGGACCATCCCCGCGCGGAACTCCTGAAACACAAATCACTGTCCGCCAGCCTTCTTCTCGGCGAACCGGACTGGCTGGACTCTCTGGAGGCCGGGAGTCACATCGCCGTACTGTGGGAACAGCTCCGACCGGTGATCGACTGGGTCAGCCGCGCCGCCCTTGAAACCGCCAACGCCGCCCCACCGGCACCGCATGAGGACGGCACCGGCAGGGCGGCGTTTGAATAA	MPIAAAGFAIDGDKLKTVPRGFPEDHPRAELLKHKSLSASLLLGEPDWLDSLEAGSHIAVLWEQLRPVIDWVSRAALETANAAPPAPHEDGTGRAAFE				NA	NA	NA	NA	NA
D1-17_01033	1500	katA_2	COG0753	Catalase	ATGACCTTGAACATCTCTGCGCCTGCCGTGTCCACCACCCAGTCAGGTGCCCCGGTCACGTCCGATGCCCACTCGAAGTCCGTCGGCGCCGACGGCGCCATCATTCTCACGGACCACTACCTGGTGGAGAAGCTCGCGCAGTTCAACCGTGAGCGCGTTCCGGAGCGTGTGGTGCACGCCAAGGGCGGCGGCGCGTTCGGTACGTTCAAGACCACCGAGGACATCTCCAAGTACACCAAGGCCGCGTTCCTGCAGCCCGGCGTCGAGACCGAGATGCTGATCCGTTTCTCCTCCGTTGCCGGTGAGAACGGCTCCCCCGACACCTGGCGTGACCCGCGCGGTTTCGCCGTGAAGTTCTACACCTCCGAGGGCAACTACGACCTGGTGGGCAACAACACCCCGGTGTTCTTCATCCGCGACGGCATCAAGTTCCCGGACTTCATCCACTCCCAGAAGCGCCTGCCGGGCACGCACCTGCGTGACGCTGACATGCAGTGGGACTTCTGGACCCTCTCCCCCGAGTCCGCGCACCAGGTCACCTGGCTGATGGGTGACCGCGGCCTGCCCGCGTCCTGGCGCGAAATGCAGGGCTACGGCTCGCACACCTACCAGTGGATCAACGCCGAAGGCGAACGGTTCTGGGTGAAGTACCACTTCAAGTCCAACCAGGGCGTGAAGAACATGACGTCCGAACAGGCCGAGGCCCTCGCCGGTTCGGACGCGGACTACTACATCCGGGACCTGCACGAAAACATCGAAGCCGGCAACCTGCCCTCCTGGGACCTGCACGTGCAGGTCATGCCCTACGAGGACGCCAAAACCTACCGCTTCAACCCCTTTGACCTGACCAAGGTCTGGCCGCACGCGGACTACCCGCTGATCAAGGTCGGCACCATGGAACTGAACCGGAACCCGGAGAACTACTTCGCGCAGATCGAACAGGCCACCTTCGCGCCGTCGAACTTCGTGCCCGGCATCGCCGCGTCCCCGGACAAGATGCTGCAGGCCCGCATCTTCTCCTACGCCGACGCGCACCGCTACCGGGTGGGAACCAACCACGCCCAGATCCCGGTGAACCAGCCCAAGAGCCAGGTCAACAACTACAGCCAGGACGGCGCGGGACGCTACCTGTTCAACGCCCCCTCCGTGCCGGTCTACGCACCTAACACAATGGGCGGACCGGCCGCCGTGGAGCCGCAGAACCCCGCCGGCGGGTGGGAGAACGACGGCGAGCTGACCCTCGCCGCGCACTCCCTGCACGCCGAGGACGGCGACTTCGTCCAGGCCGGCACGCTCTACCGCGAAGTCTATGACGACGCCGCCAAGGCCCGACTGCTCGAAACCATCACCGGCGCCGTGGGCGGCGTGAAGAGCCCCGGCATCAAGGAACGCGCCATCCAGTACTGGACCAACGTCGACGCCGACCTCGGAGCCAAACTCCGCGCCAACCTCGGCGCAGCCACCCTCTCCGAGGCAGAAGCAGCCAACAAAATCGGCTAA	MTLNISAPAVSTTQSGAPVTSDAHSKSVGADGAIILTDHYLVEKLAQFNRERVPERVVHAKGGGAFGTFKTTEDISKYTKAAFLQPGVETEMLIRFSSVAGENGSPDTWRDPRGFAVKFYTSEGNYDLVGNNTPVFFIRDGIKFPDFIHSQKRLPGTHLRDADMQWDFWTLSPESAHQVTWLMGDRGLPASWREMQGYGSHTYQWINAEGERFWVKYHFKSNQGVKNMTSEQAEALAGSDADYYIRDLHENIEAGNLPSWDLHVQVMPYEDAKTYRFNPFDLTKVWPHADYPLIKVGTMELNRNPENYFAQIEQATFAPSNFVPGIAASPDKMLQARIFSYADAHRYRVGTNHAQIPVNQPKSQVNNYSQDGAGRYLFNAPSVPVYAPNTMGGPAAVEPQNPAGGWENDGELTLAAHSLHAEDGDFVQAGTLYREVYDDAAKARLLETITGAVGGVKSPGIKERAIQYWTNVDADLGAKLRANLGAATLSEAEAANKIG	PGPT0014380_3411	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-17_01034	465	furA	COG0735	Transcriptional regulator FurA	ATGGATCACCCGGAAAGCCACGAAGCATGGGCCGCTGCCCTGCGTGCCCACGGCCGCCGGGTGACCAAGCAGCGGCTGGCGGTGCTGTCCGCCGTCGAACACCACCCGCACTCCCCGGCGGAGAACATCCTGGCTGCGGCCCGTGAAGAACTGCCGGAACTGACGGCGCAGTCCGTCTACGTGGTGCTCGGCGACCTGACAGACCTACAGATGCTGCGGCGCTTTGAACCACCGCACTCCCCCGCCCTGTACGAAACCCGTGTGGGCGATAACCACCATCACGCGATCTGCATCAGCTGCGGACGCGTGGAGGACGTTGACTGTGCCGTCGGCCATGCTCCCTGCCTGACCCCGCACTGGAGCGAGGATTCCAAGCCCATGACCATCCAGATCGCGGATGTCATGTATCAGGGGATCTGCACAGAATGCCAGCGGGCCCAAAAACTTCCTGCAAAACGTAACTGA	MDHPESHEAWAAALRAHGRRVTKQRLAVLSAVEHHPHSPAENILAAAREELPELTAQSVYVVLGDLTDLQMLRRFEPPHSPALYETRVGDNHHHAICISCGRVEDVDCAVGHAPCLTPHWSEDSKPMTIQIADVMYQGICTECQRAQKLPAKRN	PGPT0014380_1558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-17_01035	1272	entS_1	COG0477	Enterobactin exporter EntS	GTGGGCAAACTTTTGGCTGATATCACTCCGCTGCGCGAAAGCCCCGAATTCCGCCGGCTGTGGGTGGGATCCTCGGTCGCCAGTGTGGGAAGCCAGCTCACCCTCGTTGCCGTCAGCCTGGAGGTGTACCGGGTCACTTCGGACAGCCTCTACGTTGGCCTGCTCAGCATCTTCGCACTCATTCCGCTGGTGGCGGGCGGGCTGCTGGGAGGCGCCATCGCCGACGCCCACGACCGGCGCAAGGTAGCCCTGATCTCGTCACTGGTGATGTGGGCAGCCGTGGCCGGACTGGCAGTGCAGGCCTGGCTGGAGGTGGGAAACGTTTGGCTGCTCTATGGGCTGGTGGCTGTGCAAAGCGGCGCCCAGGCGATCAACCAGCCTGCCCGCAGCGCAATCATCCCCATGCTGGTCCGCAAGGAACTCCTGCCTGCTGCCAACGCCCTCAGCATGGTGACCTTCGGCCTGGCCATGACCGCGGGCCCGCTGCTCGCCGGTGTGCTGGTGGCATCCGTTGGCTTTGGCTGGACGTACACGATCGACGTGGTGAGTTTCGCGTTCGCTTTCTGGGCGCTCCTCAGGCTCCCGCCCATGCCGCCTGCTGGGAAGGTGGGAAGGGCCGGGCTCCGCTCCGTCGTCGAGGGCTTCACATTCCTGGGCACGCGGCCCAACGTGCGGATGACCTTCATCATCGACCTGGTCGCCATGATCCTGGCCCAGCCGCGGGCGCTGATGCCTGCCGTTGCGGCGCTCATGATCGGCGGCGGTGAAACCACGGTGGGCATACTGCTCGCGTCCACCGCCATCGGTGCATTCCTCGCCGGACTCTTTTCCGGCCCCCTGGGCTCGGTGCGGAGGCAGGGCAGCGCCGTGGTGTGGGCGGTCATGGGCTGGGGCGCGTCCATCGGCGGGTTCGGCCTGGTGGTGGTGCTGGCCGGGCGGTCCGAAAGCGAGGGGGCAACCCTGTGGCTGCTGCCCGCCGCGCTGTGCTGCGCCCTGGCGGGGATCGCCGACTCCGTAAGTGCAGTCTTCCGCACCACCATCCTGCAGGCCGCGACGCCCGACCATATGCGCGGGAGGCTCCAAGGGGTCTTCATTGTTGTGGTCGCCGGAGGGCCGAGAATCGGGGACATGCTGGCCGGCGGCGGCACTAAAATCCTAAGTGAAGGCTGGGTCCTGCTGATCGGCGGAATCCTGTGCATTGTGGTCGCCTGGGCGGTGGCACAGCGGCAATCCGGCTTCCTGCAGTACGACGCCCGGCACCCGGTTCCCTGA	MGKLLADITPLRESPEFRRLWVGSSVASVGSQLTLVAVSLEVYRVTSDSLYVGLLSIFALIPLVAGGLLGGAIADAHDRRKVALISSLVMWAAVAGLAVQAWLEVGNVWLLYGLVAVQSGAQAINQPARSAIIPMLVRKELLPAANALSMVTFGLAMTAGPLLAGVLVASVGFGWTYTIDVVSFAFAFWALLRLPPMPPAGKVGRAGLRSVVEGFTFLGTRPNVRMTFIIDLVAMILAQPRALMPAVAALMIGGGETTVGILLASTAIGAFLAGLFSGPLGSVRRQGSAVVWAVMGWGASIGGFGLVVVLAGRSESEGATLWLLPAALCCALAGIADSVSAVFRTTILQAATPDHMRGRLQGVFIVVVAGGPRIGDMLAGGGTKILSEGWVLLIGGILCIVVAWAVAQRQSGFLQYDARHPVP	PGPT0003290_97	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN_TRANSPORT,PGPT0003290-entS|ybdA|cbsS-K08225	NA	NA
D1-17_01036	870	htpX	COG0501	Protease HtpX	GTGCACAAGCATTACAACGGACTTAAGACGGCGGCGTTGTTTGGAGTGCTGTGGGCGGTGCTTCTCGGCCTTGGCGCGCTGATCGGGACGAGCATGCGCAGTTCGGCGCCCATCTGGCTTATGGCACTCGTAGGCGTGGGAACCACTGCCTACGGATACTGGAACAGCGACAAGATCGCACTGCGCTCGATGCAGGCGTATCCGGTATCCGAGCTGGAGGCGCCGCAGCTGTACCAGATGGTCCGGGAGCTCTCGGTCCGCGCGAACCAGCCCATGCCCAGGATTTTCGTTTCGCCCACCATGACGCCGAATGCCTTCGCAACCGGCCGCAACCCGAAAAACGCGGCCGTCTGCTGCACGGAAGGGATCCTGCAACTTCTCAATCCGCGCGAACTGCGCGGCGTTCTGGGCCATGAGCTCATGCACGTCTACAACCGCGACATCCTGACGTCGTCCGTGGCTGCCGCCGTGGCCGGCGTCATCACCTCGGTGGGTCAAATGCTGCTGTTCTTCGGCGGCGGCGACCGCAGGAACTCGAACCCGCTCGCGCTCATTGCCATGGCACTGCTCGCTCCGCTGGCGGCCTCCCTCATCCAGGTGGCCATCTCGCGGACCAGGGAGTACGACGCCGACGAGGACGGCTCGAAGCTGACCGGAGACCCGCTGGCGCTCGCCTCGGCGCTGCGAAAAATCCATCGAGGGGTCCAAGTGGCACCGCTACCGCAGGACCAGCGGCTGGTCAACACCTCACACCTGATGATCGCCAATCCATTCCGTGGCGGGACGATGACCAAGCTCTTCGCAACCCACCCGCCCATGCCGGACCGCATTGCCCGGCTGGAGCGGATGGCGGCCCGGCCGCTTCGCTGA	MHKHYNGLKTAALFGVLWAVLLGLGALIGTSMRSSAPIWLMALVGVGTTAYGYWNSDKIALRSMQAYPVSELEAPQLYQMVRELSVRANQPMPRIFVSPTMTPNAFATGRNPKNAAVCCTEGILQLLNPRELRGVLGHELMHVYNRDILTSSVAAAVAGVITSVGQMLLFFGGGDRRNSNPLALIAMALLAPLAASLIQVAISRTREYDADEDGSKLTGDPLALASALRKIHRGVQVAPLPQDQRLVNTSHLMIANPFRGGTMTKLFATHPPMPDRIARLERMAARPLR	PGPT0014605_3154	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
D1-17_01037	492			hypothetical protein	ATGGCAGGCGAGTCCACATTCGACGTCGTAAGCAAAGTAGACAAGCAGGAAGTGGCGAACGCACTGCACCAGTCCCAGAAGGAGATCGCCCAGCGCTACGACTTCAAGGGCGTTGGGGCGGAGATTGACTTCAGCGGGGACAAGATCCTGCTGAAGGCAAACTCGGAGGACCGCGTGCTGGCCGTGCTGGACGTTTTCCAGTCCAAGCTCATCAAGCGCGGCATCTCGCTGAAGTCCCTTGAGCAGGGCGAGCCGTATCCGTCGGGTAAGGAGTTCCGCCTGGAATGCTCCATCAAGGAGGGCATTGCGCAGGACCTCGCCAAGAAGATCAACAAGCTGATCCGCGACGAAGCCCCCAAGTCCGTCAAGTCCCAGATCCAGGGTGACGAGCTCCGCGTGACTTCCAAGTCCCGCGATGACCTTCAGGCTACGATGGCCCTGTTGAAGGACTTCGACGAGGCCGACCTGCAGTTCGTCAACTTCCGCAGCTAA	MAGESTFDVVSKVDKQEVANALHQSQKEIAQRYDFKGVGAEIDFSGDKILLKANSEDRVLAVLDVFQSKLIKRGISLKSLEQGEPYPSGKEFRLECSIKEGIAQDLAKKINKLIRDEAPKSVKSQIQGDELRVTSKSRDDLQATMALLKDFDEADLQFVNFRS	PGPT0012210_682	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
D1-17_01038	279			hypothetical protein	ATGACCCACAAGGCAGTCCGCTCTGTCAGCCGATCAACCGCAACCGCTGCCGGCGCGATCGGCGCCGCGGCCTCCTCAGTCACAGCCGCTGCAGCTACTTCAGTCACGGCCGCTGCGGTGGCCGCATCGATCATCCTCAGCCCGGCGGCTGACGCTTCCTCCAGGCTGGACGGTGTCCACGCCGACCTCCAGCGCGCCGTGGAGCTCAACCAAATCACCGAGGAGCAGGCTCTGCGCTTCGAGGAGAAACTTGCCGGGCGCATCCTCGGTGAAGCCTGA	MTHKAVRSVSRSTATAAGAIGAAASSVTAAAATSVTAAAVAASIILSPAADASSRLDGVHADLQRAVELNQITEEQALRFEEKLAGRILGEA				NA	NA	NA	NA	NA
D1-17_01040	1044			hypothetical protein	ATGCGCCGCAATCGTGTTATCGCCGGAACGTCCGCATTTCTCTTAGGCGTGGCTATCCTTTCGGGCGTGGCCCTCTCTATCGGCGGTGGGAACACTGCCGGGGGAGAGTCGCAAGCCACAACGACTGTCGCAGCGAGTTCGCCACAATCCCCCAACAGGACGCCTGCGCGTGACGTTCGGATCGCTGCTGTCGGTGACATGAACGGCGTCAGGAACGTTGATCCTGACAGCCCGTCCGGCCGAAACGGTGCGGCAATCACCCGGCTCGTGCGGAACAACCAGATTGACGCGTTCCTGGGGCTCGGGGACTTCCAGTATGACGTTGCGTACTGCGCTGACTACGTGAAGTACTGGACGCCGCTGTGGGGTGGCACGAAGCCCAAGTTGTACTGGGTGTCCGCGCCCAACCACGACTGGAAACCCGGCCGGAACGAAGACCTCGACAACTTTATGAATGGCCAATGCCCGGGGTCTCGGGCGAAGGCTGCGATCAACCAGCAGCGTGGATTCATCGGGAACGGGAAACCGTACTCGAAGGACTTCGGAAACTGGCACTTCGCATTCCTGTCATCGGCGCATTGGCGGTACAACCCTGAGGAGGCTCGGGCGTTGACGACGTGGCTGGACGACGACCTGGCTGCTGCCAAGGCGGCAGGTAAACACCTGGCCGTCGTGCACCACGAACCGTACTTCACCTCGAACACGAAAGAACATAAGCGGGCCCGTGACCACAAGCCGTGGATCGACGTGATGTGGAAGCACCGGGTCCGTCTGACCCTGTCAGGGTCACAACACAACTACGAACGCTCATGTCCGGTGAACAACGCTGACCAGTGCGTCAGTGACGGGATGACAGCGTTCCAGGTTTCCACAGGAGGTATCGGTCTCCGCTCCTTCACCAGCAGCCCGGAGTACATCGTGAAGCGGTTCAGCGACACCCACGGGTTCCTTCGGATGACACTACGAGACAACGGGTCCTTCGACTGGGAGTTTGTTCCAACGTCGGGGTCGGGCACGGACGCAGGTACGCGTTCCGCACCCTAG	MRRNRVIAGTSAFLLGVAILSGVALSIGGGNTAGGESQATTTVAASSPQSPNRTPARDVRIAAVGDMNGVRNVDPDSPSGRNGAAITRLVRNNQIDAFLGLGDFQYDVAYCADYVKYWTPLWGGTKPKLYWVSAPNHDWKPGRNEDLDNFMNGQCPGSRAKAAINQQRGFIGNGKPYSKDFGNWHFAFLSSAHWRYNPEEARALTTWLDDDLAAAKAAGKHLAVVHHEPYFTSNTKEHKRARDHKPWIDVMWKHRVRLTLSGSQHNYERSCPVNNADQCVSDGMTAFQVSTGGIGLRSFTSSPEYIVKRFSDTHGFLRMTLRDNGSFDWEFVPTSGSGTDAGTRSAP				NA	NA	NA	NA	NA
D1-17_01041	1419			hypothetical protein	GTGAAAAGAACCAGAGGCCGCGCCAAGGTCAGCATCCTCACTGCAGCTGGGCTGGCGGCAGCCCTCGTTGCCGGTTGTACGCCGAACGCCGGGCAGGGAGTTGCCCCGGCCAATGTACCGGACGTCTACGACATCACGGTATGGATCACGGACACACTTCCCGACAGGGTCGAAAGGATGCAGGCGATCGCCGGAGAGTTCACCGCTGAAACCGGCCTAAAAGCGGAACTGATCAGGGTTCCGGAACATGAGTTTAACCAGACCTTGACCTCCTCGGCAGCGGCCGGCAACCTCCCCGACGTCATTGGCGCGATTTCACTGGGAAATGTCCGCACCCTCGCAGCCAGCAAATATGTCAACCCAGAAGCCAATGCCGCGGTGATCAAAAACCTCGGGGAAGAGACATGGTCGCGACGCTCCCTCGAGCTGACCCGCGACCGCGGACGCCAGTTGGCTGTGCCTGCCGCCTCCTGGCAGCAGGTCCTGTACTACCGCAAAGACCTGTTCGCGCAGGCCGGCCTGGCTGCCCCCACGACGTATGGCCATATCCTGGCGGCCGCAAAGAAGCTGCACACGCCCCACCTCGCGGGCTTCGTTGCGGCCAATAAGGCGGGCCAGCCCTTCACCCAGCAGTCATTTGAGCACATCGCTCAAGGCAACAGGTGTGAATTGGTCAACGCGCAGGGCATCATCACCTTTGACAGTCCGCAGTGCGTGGGTGCGCTCGGCTTCTACAGCAACCTGCTCACGAACTACTCCGTTCCTGGTATCCAGGACATCAGCAGCGTCCGGAGTGCCTACTTTGCCGGCAGGGCAGCAATGGCCATCTGGCCCACTTTCATGCTGGATGACCTGGCAGGGCTGCGGAGCGACGCCAGGCCCAGTTGTTTGGAATGCAAGCTTGATTCCGGGTTCCTGGTCAGGAACACGGGAGTAGTGGCGGGTATCCAGGGCCACGGCGGCGCCCCGCCGGCCCATTTTGGCGAGATCAGTTCCTGGACTGTCACCAACGACTCTGACGTTGAACAGGCGCGGCAATTCGTGGAATATCTCCTGAGTGACGGCTACTCAAAGTGGCTGTCCGCTGCTCCGGATGAACGGATCCCGGTTCGTTCAGGCACAGCGGCCCAGCCCTCAGAATATGCCGATACCTGGCGCGCCATGCCTGTAGGCGTCGGCAAGAGGGAACCTCTGGGCAGGTTCTACTCGGCTGAAGTTCTCTCCACCCTGCTCGAAGGCGTCAACGACCTCAGCCACTGGGGCATTCTCCAGGGTAGGGGCGATCTGGCCGGTGCTGCGATGACTGAACTGCCGATCGCCGAAGCCGTCGGTGAGGTCACTGCCGGCACGGCCGATCCCAGCACAGCAGCCAGCAAGGCTGCGAGCACCCTCCGCTCCATCCTGCGCTCCCTGAACTGA	MKRTRGRAKVSILTAAGLAAALVAGCTPNAGQGVAPANVPDVYDITVWITDTLPDRVERMQAIAGEFTAETGLKAELIRVPEHEFNQTLTSSAAAGNLPDVIGAISLGNVRTLAASKYVNPEANAAVIKNLGEETWSRRSLELTRDRGRQLAVPAASWQQVLYYRKDLFAQAGLAAPTTYGHILAAAKKLHTPHLAGFVAANKAGQPFTQQSFEHIAQGNRCELVNAQGIITFDSPQCVGALGFYSNLLTNYSVPGIQDISSVRSAYFAGRAAMAIWPTFMLDDLAGLRSDARPSCLECKLDSGFLVRNTGVVAGIQGHGGAPPAHFGEISSWTVTNDSDVEQARQFVEYLLSDGYSKWLSAAPDERIPVRSGTAAQPSEYADTWRAMPVGVGKREPLGRFYSAEVLSTLLEGVNDLSHWGILQGRGDLAGAAMTELPIAEAVGEVTAGTADPSTAASKAASTLRSILRSLN	PGPT0016545_1159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
D1-17_01042	1014			hypothetical protein	ATGTTCCAGCCAAAAAGACTATCGGCCCTTGGTTCCGCATTTACGCTGCTGGTGGCGATATCCACGGTGGCATCATGCGCAGCGCCAAATGCTGGTCAGACGCCGACCACGGCGGCCACCTCGGCCGCAACGGGAGCAGCTTCGCCTACGGAAACGTCAACAGCAACGGGCACGGCGTCGCCGACGGAAACAGCTGCCGAGACCCCCAACGCATCAGAGCTGTGCGGTCCCGGCTCGGCCATAAATTTCGACGCAGGAGCCTTCCCGGAATCTCCCTCCATAGACAATAAATGGTTCTCACTGAAGCCGGGGACCGTGTACACGACCACCGGCAAGGTCGTCAACGCAGAAGGCACCACCGAGCGGACTGTCACACACACGGTGACCGGACTGACCAAAGTCATCGATGGTGTGAAGACTCTGGTGATGTGGGACCGGGATTACGCCGATGGGTCCTTGGTCGAATCCGAACTGGCGTTCTTCGCGCAGGACAACGCCGGTACTGTCTGGCTCTTCGGTGAGTATCCGGAAGAATTCGAAAACGACAAGTTCATCGGCGCACCCAACACTTTCATTCACAGCATTGACGAGAGCCAGGCCGGCATCGCCATGCAGGGCGAGCCAAAGACTGGTACTCCTGCCTATGTCCAAGCACACGCACCATCTGTGGACTTCCTCGACTGCGGCGAGGTCTTCAAGCAGGATGAGCGCGTGTGCGTGCCAACCGGCTGCTATGAGAACGTGCTGGTGATCGATGAGCACAATCCGCTCGAACCCGCGGTGGGCCACCAGCGCAAGTTTTATTCGGCCGGGACGGGACTCGTGAAAGTAACAGCGGAGGGTGGCACCGACCAGGAAACCCTGGATCTCGTCAAGATAGAGCAGCTTACCGATGCCAAGCTGGCAGAGGTCCATAAGGAAGCACTCAAGCTGGACGAGCATGGCTACACGGTCAGCAAGGAAGTCTATGCCAAGACACCCCGGGCGGAAGTCACTACGAAGACCGTAGGTTAG	MFQPKRLSALGSAFTLLVAISTVASCAAPNAGQTPTTAATSAATGAASPTETSTATGTASPTETAAETPNASELCGPGSAINFDAGAFPESPSIDNKWFSLKPGTVYTTTGKVVNAEGTTERTVTHTVTGLTKVIDGVKTLVMWDRDYADGSLVESELAFFAQDNAGTVWLFGEYPEEFENDKFIGAPNTFIHSIDESQAGIAMQGEPKTGTPAYVQAHAPSVDFLDCGEVFKQDERVCVPTGCYENVLVIDEHNPLEPAVGHQRKFYSAGTGLVKVTAEGGTDQETLDLVKIEQLTDAKLAEVHKEALKLDEHGYTVSKEVYAKTPRAEVTTKTVG				NA	NA	NA	NA	NA
D1-17_01043	285			hypothetical protein	GTGGACAGCTGCATCGGTCCGGTCCATTTCACACCGACCGACGGCTACTCGCTCTTCATCACCGAGCACGACTTCTGCGGCGGCTGGGCGCGGTTTTCGGCTATCAAGGTTGGAGAGCGCGTGGATCTTCCGGGCTATGGCTCTTATACGGTGGCGGCACGGGGGCAGGTTCCCAATGGAGGCACGACGAACGACGTCGCCGCAGTGTTCGGCGGATTCCCGCGGGCCGTCCTGCAGACCTGCATTCCAGGTACCACCCAGATGCTGGTGATAGCCCTGAACTGA	MDSCIGPVHFTPTDGYSLFITEHDFCGGWARFSAIKVGERVDLPGYGSYTVAARGQVPNGGTTNDVAAVFGGFPRAVLQTCIPGTTQMLVIALN				NA	NA	NA	NA	NA
D1-17_01044	438	trxC_1	COG0526	Putative thioredoxin 2	ATGGCAACCGTAGACATTACAGGTGAACAGTTCGCATCGACCGTCGAGAACAACGACATTGTCCTCGTTGACTTCTGGGCCGAATGGTGCGGTCCCTGCAAGCAGTTTGGACCCACGTATTCCGCAGTTTCGGAAAAGCACGGCGACGTCGTCTTTGCCAAGGTGGACACCGAAGCCGAGCAGCAGCTGGCCGCGGAGGCCGGCATCACGTCGATTCCCACGCTCATGGCGTTCCGCGAAAAGGTACTCGTCTTCTCCCAGCCTGGGGCATTGAACGCCCCCCAGCTGGAACAGGTGGTCGAAGCTGTCAAGGCTCTCGACATGGAGGAAGTGCACGCGCACGTTGCCCGCTCGCAGGCAGAGGCTGCTGCTGCGGCAGGTGACGGCCAGCGGAAGAGTGCCGGCCCGCAGGACGGCTCCCAGATCCCGGACTTCTAA	MATVDITGEQFASTVENNDIVLVDFWAEWCGPCKQFGPTYSAVSEKHGDVVFAKVDTEAEQQLAAEAGITSIPTLMAFREKVLVFSQPGALNAPQLEQVVEAVKALDMEEVHAHVARSQAEAAAAAGDGQRKSAGPQDGSQIPDF	PGPT0013055_1655	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
D1-17_01045	288			hypothetical protein	GTGAAATCCATGAGTGCACCCATCGACCTGCAGGCAACGTTCATCCCCAACGACGGCGAATTCTTCCGCGTGAAGCTCGCCCTGGAAATCGCAATCGACGAGGTAGTCAATGAGCCCGGCTGCATCCGCTACGAGCTCACTGAGGCTATCGAGGAAAAGCTGGTGCTCACCGAGCGCTGGGCCTCCGAAGAGGACCTTGACAAGCACTCCAAGGGCACAGCTGTCCAGGACCTCAATGAGTCCCTGAGCGCGCTGCTGGCAGAGCCCGTGAGGCTTGAACGCCTGTAG	MKSMSAPIDLQATFIPNDGEFFRVKLALEIAIDEVVNEPGCIRYELTEAIEEKLVLTERWASEEDLDKHSKGTAVQDLNESLSALLAEPVRLERL				NA	NA	NA	NA	NA
D1-17_01046	981			hypothetical protein	ATGACCATCACGGACGTCCCCGCCAGCGTTGCCGCTGCCGCGGACGGCTCGTTGCGGTGGTACGCCGGCGGCCCCTACAGCCTGCGTCAAACCCTCGGGCCGCTCAGGCGCGGCAACGGGGACCCTTCGTTCGCCTCGCGGCCGGACGGTCTCTGGATGGCATTTACGACGCCGGATGGCCCGGTCACCCTTCGCCTCACCAGTGCGGAACTGGGACCGGACCCGCACGTCGATGCGCAGGCCTGGGGTCCCGGTTCCGGGTCGGCCCTTGCCGGCGTGCCCCGGCTCCTGGGCGCGGGCGACGATTGGTCCGCTTTTGATGAGCCCGGCTTCCACGCGACGCTCCCGCGGATGGTCCGGGAAGCACGACGCCGGAATCTGACGCTCCGTCTCCCATCTACCGGGCGGATGGCGGATTCCCTCGTGCCCACCGTTCTGGAGCAGAAGGTCACCGTCATCGAGGCCAGGAGGGGCTTCCGCTACCTCATGTACCGCCATGGCACCCCTGCGCCTGGCACCTCCACAGTGGTACCGGCCGGATTGCTGGTGCGGCCCACCCCGGAGCAGTGGCTGCGCATCCCGTCCTGGGAATGGCACAAGGCCGGCGTGGGGCCCCAACGTTCGGCTACCGTCATGCGTGCGCTGCGTTCCGCCGTCGCGCTTGAACGGCTGGCCGCCCTGCCGGCAGCGGAGGCTGCCGCGAAGATGCAGACCATTCCGGGGATCGGCGAGTGGACTGCAGCGGAGGTGGTGCAGCGGACGCACGGCTGTCCCGACTCCATTGCGGTGGGCGATTTCCATCTCGCTGCGGATGTCGGAGCCGCCCTGACTGGCCGAAGGACGGACGACGCCGGAATGCTGGCCCTGCTTGAACCTTGGAAGGGGCACCGGCAGCGCGTCGTCCGCATGATCGGGCTCAGCGGCTTCCGGAAACCCACGTTCGGTCCGCGGATGACCATCCAGGACCACCGGGGGCACTGA	MTITDVPASVAAAADGSLRWYAGGPYSLRQTLGPLRRGNGDPSFASRPDGLWMAFTTPDGPVTLRLTSAELGPDPHVDAQAWGPGSGSALAGVPRLLGAGDDWSAFDEPGFHATLPRMVREARRRNLTLRLPSTGRMADSLVPTVLEQKVTVIEARRGFRYLMYRHGTPAPGTSTVVPAGLLVRPTPEQWLRIPSWEWHKAGVGPQRSATVMRALRSAVALERLAALPAAEAAAKMQTIPGIGEWTAAEVVQRTHGCPDSIAVGDFHLAADVGAALTGRRTDDAGMLALLEPWKGHRQRVVRMIGLSGFRKPTFGPRMTIQDHRGH				NA	NA	NA	NA	NA
D1-17_01047	465			hypothetical protein	ATGGGTGGAGTGGTGCATTTCGAAATCCCCGCGGACGACCAGGACCGGGCCAGGAACTTCTATAAGCAGGCTCTCGGCTGGAGGATCGACCCCATGCCGGAGATGGACTACAACATCGTCATCACCACACCGATGGACGAACAGACCGGCAGGCCGACGGAGCCGGGAGCCATCAACGGCGGCATGATGGCGAGGGAGGGTGAGCTGACCACCCCTGTCATCACAGTGGACGTGGAAGACATTGACGCCACCCTCGCGACGGTCGAGCAGCTCGGCGGCTCGGTGGTCAGGCCGAAGGATGCCATCCCGGGCATGGGCTTTTACGCCTACTTCAAGGACACCGAAGGCAACACCCTGGGGCTGTGGCAGAACCTCCATGCCGGTGGTGTGGAAGGAACTGCCGGTGGTGTGGAAGGAACTGCCGGTGGTGTGGAAGGAACTGCCGGCGGCGCGGCCACCGCCTGA	MGGVVHFEIPADDQDRARNFYKQALGWRIDPMPEMDYNIVITTPMDEQTGRPTEPGAINGGMMAREGELTTPVITVDVEDIDATLATVEQLGGSVVRPKDAIPGMGFYAYFKDTEGNTLGLWQNLHAGGVEGTAGGVEGTAGGVEGTAGGAATA				NA	NA	NA	NA	NA
D1-17_01048	1485	cbs_2	COG0031	Putative cystathionine beta-synthase	GTGGTGTGGAAGGAACTGCCGGTGGTGTGGAAGGAACTGCCGGCGGCGCGGCCACCGCCTGAAACCCCGGCGGGCGGGCAAGACGGTAAGTTTGTACCCATGAAGTACGCCCAGTCCGTTCTGGACCTTATCGGCAATACCCCGCTGATCAAGCTCAACCACGTCACCGACGGCATCAAAGCCACCGTCCTCGTGAAGCTGGAATACGTGAACCCCGGCGGTTCCATCAAGGACCGCATTGCGGCCAAGATGATCGAGGACGCTGAACGGGACGGCAAGCTCCAGCCCGGCGGCACCATCATCGAGCCGACGTCCGGCAACACCGGCGTCGGTCTCGCGCTGGTAGCGCAGCAAAAAGGCTACAAGTGCATCTTCGTTGTCCCGGACAAGGTGGGGGAGGACAAGCGTGCCGTCCTTCAGGCCTACGGGGCGGAAGTGGTGGTGACCCCCACCTCCGTCGCGCCGGACAGCCCGCAAAGCTACTACGGCGTTTCAGACCGTCTGGTCACCGAGATTCCCGGGGCGTATAAACCAGACCAGTTCTCCAACCCCGCGGCTCCGCGCAGCCACTACGAGACTACGGGCCCGGAGATCTGGCGCGACACGGACGGCAAGGTGACGCACTGCGTCATCGGCGCCGGAACCGGCGGCACCATCACCGGCACCGGCCGCTTCCTCAAGGAGGTCTCGGCTGACCGTCCGGAGTCCGACGGCGGCAGAGTCAAGATCATCGGGGCGGATCCCGAAGGTTCTGTCTACTCGGGCGGTACCGGACGCCCATACTTCGTAGAAGGCGTCGGCGAGGACATGTGGCCCGCCAACTACGACAAATCCGTTCCGGACCAGGTGCTAGCCGTCAGCGACGCGGACTCGTTCGCGATGACCCGGCGCCTGGCGCGGGAGGAAGGACTGCTCGTGGGCGGTTCCTCCGGCATGGCCGTGGTCGCTGCGCTGCGGACGGCGCGGGATCTTCCCGAGGACGCCGTGGTGGTGGTGATCCTGCCGGACTCCGGCCGCGGCTACCTCGCCAAGATCTTCAACGACCAATGGATGCGCTCCTACGGCTTCCTCTCCGGCGGGGAGGAAGCATCGGTGGGCGAGGTCATCAAGTCCAAGACCGGCGAGCTTCCGGACCTGGTCCACATCCACCCCAACGAGACTGTCCGCGATGTCATCAACATCATGAACGAGTTCGGTGTCAGCCACATCCCGGTGCTGTCCCAGGAACCGCCCGTGGTCATGGGCGAGGTCCTCGGAGCGGTGGATGAGCGGTCGCTGACCGCGAAGCTGTTCCGCGGCGAGGCCAAGCTGACGGACAAAATCTCGGAACACATGGGGGAGCGGCTGCCGGTGATCGGTTCGCTGGAAACTATCTCCGCCGCCCGTGAACTCCTGTCCGACGTGGACACCGTCATGGTCACCTTCGTCGGCGCCCCTGTGGGCATCCTGACCCGCCACGACCTTCTCGCGTACCTCAGCAACTGA	MVWKELPVVWKELPAARPPPETPAGGQDGKFVPMKYAQSVLDLIGNTPLIKLNHVTDGIKATVLVKLEYVNPGGSIKDRIAAKMIEDAERDGKLQPGGTIIEPTSGNTGVGLALVAQQKGYKCIFVVPDKVGEDKRAVLQAYGAEVVVTPTSVAPDSPQSYYGVSDRLVTEIPGAYKPDQFSNPAAPRSHYETTGPEIWRDTDGKVTHCVIGAGTGGTITGTGRFLKEVSADRPESDGGRVKIIGADPEGSVYSGGTGRPYFVEGVGEDMWPANYDKSVPDQVLAVSDADSFAMTRRLAREEGLLVGGSSGMAVVAALRTARDLPEDAVVVVILPDSGRGYLAKIFNDQWMRSYGFLSGGEEASVGEVIKSKTGELPDLVHIHPNETVRDVINIMNEFGVSHIPVLSQEPPVVMGEVLGAVDERSLTAKLFRGEAKLTDKISEHMGERLPVIGSLETISAARELLSDVDTVMVTFVGAPVGILTRHDLLAYLSN	PGPT0020005_805	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
D1-17_01049	1164	metB_1	COG0626	Cystathionine gamma-synthase	ATGTCTGCCTCACAAAACCAAGGATTCAACACCCGCGCCGTGCACGCCGGCCAGGACTTCGAGCCCCGCACCGGCGCCGTGGTGCCGCCGCTGCACTTCAGCTCCACCTATGCCCAGGACGGCATCGGCAACCTGCGCGACGGCTACGAGTACGGCCGCGGCGGCAATCCCACCCGCGACTCGCTGCAGGAACAGCTCGCGGCGCTCGAAGGAGGCACGCACGCCTATTCCTTCAGCTCCGGGCTCGCGGCGGAAGACTCCCTCATCCGCGCCCTGACCCGCCCCGGCGACCACATCGTCCTCGGCAACGACGCCTACGGCGGCACCTACCGTCTAATCAGCCGCGTGCTCGGGGATTGGGGCATCGGCAACACCCCTGTGGACATGTCGGATCTCGACGCCGTTGCCTCCGCCGTGGCCGCGCACAAGACCCGCTTCGTCTGGGTGGAGACCCCCTCCAACCCGCTGATGAAGATCACCGACATCGAGGCGCTTGCCAAGGTGGCGCACGACGCCGGGGCGCTCCTGGTGGTCGATAACACCTTCGCGTCCCCCTACCTGCAGACCCCGCTCGCCCTGGGTGCCGACGTCGTGGTTCACTCCACTACGAAATACATCGGCGGGCACTCCGACGTGGTGGGCGGCGCGATCGTGGTGAAGGACGCCGAACTGGCAGAGAAGATCGGCTTCGTGCAGTTCGCCGTCGGCGCCGTCTCCGGGCCCATGGACGCCTTCCTCACCACCCGCGGACTGAAGACACTGGGGGTCCGCATGGACCGGCACAGCGATAATGGCCAGGCCGTGGCCGAGTGGCTGCTGGAACGGCCGGAGGTGGAGGCCGTACTCTACCCGGGCCTGCCCTCGCACCCGGGCCACGACCTCGCCCGGAAGCAGATGCGGAAGTTCGGCGGCATGGTCTCCGTGCAGTTCAAGGGCGGCGAAGCGGCCGCGCGCAAGGTGGCCGAATCGACGTCGGTCTTCACCCTTGCCGAGTCCCTGGGCGGCATCGAATCCCTCATGAACTACCCCTCGGAAATGACGCACGCCTCGGTGAAAGGAACCGAGCTGGCTGTCCCCGTCAACCTCATCCGGCTTTCCTGCGGCATTGAGGACGCCGAGGACCTCATTGCGGATCTCGAGCAAGCCTTCACTTTCATCCCGTGA	MSASQNQGFNTRAVHAGQDFEPRTGAVVPPLHFSSTYAQDGIGNLRDGYEYGRGGNPTRDSLQEQLAALEGGTHAYSFSSGLAAEDSLIRALTRPGDHIVLGNDAYGGTYRLISRVLGDWGIGNTPVDMSDLDAVASAVAAHKTRFVWVETPSNPLMKITDIEALAKVAHDAGALLVVDNTFASPYLQTPLALGADVVVHSTTKYIGGHSDVVGGAIVVKDAELAEKIGFVQFAVGAVSGPMDAFLTTRGLKTLGVRMDRHSDNGQAVAEWLLERPEVEAVLYPGLPSHPGHDLARKQMRKFGGMVSVQFKGGEAAARKVAESTSVFTLAESLGGIESLMNYPSEMTHASVKGTELAVPVNLIRLSCGIEDAEDLIADLEQAFTFIP	PGPT0001980_702	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001980-metB|met|cysA-K01758	NA	NA
D1-17_01050	1356			hypothetical protein	GTGAATGTGACACCCGAGGCTTCAGCCGGGCTCAAAGAACCGGGCGCAACGCGGACAGACCCGGCCCTGCCGGACTCAATGCACGCCGCCCGGCGCGCACTGCTCCTCGGCTGGCTGGCGACGGCGGCAGGTGCGCTCACAGTCGTCGCCGCCCTGGCGGTGCTCAAGGTGCACTACGCCCCGGCGATGAATGACTTTGAGGTCTACTACTACGGCGGCACCAAAGTGCTGCAGACAGGTGAGGCCGGAGCGGGCGCCCTCTATGCAGTCCGGGACGGGCTGCCGTTTACCTACCCGCCGTTCGCTGCGCTGCTGTTTGCCGGCCTCGCCACGCTGAGCTTTAGCGAAAGCAGCCTGCTGTTCATCGCCGTTGCACTCGCAGGGGCGGGCGTTGTGTCTGCCTGGCTCAGCCGCCACTACTTCGGTCTGCGCCGCTGGCGTGAAGCATTCGCGGACTGGCGTTTTCGGGCTCTCGCCCTGGCGGGAACGGCGGCGATCCTGCTGTTGGGACCCTGGCGGGACACATTTGTTTTCGGGCAGATCAACATCGTCCTGATGGGCCTGATCCTGGCGGACTTCGCCCTGCACGGAAAGGCCCGGGCCGGTGAGATCCGGTGGCCGGCAGGCCTGCTGATCGGCATCGCTGCAGGGATCAAGCTCACGCCGCTGGCGTTCGGTCTCTATTTCCTGGTCCGGCGCGACTTCAAGGCCCTTGCCTGGATGGCCGGCGGGTTCTTTGGTTCCATCGCGGTGGCGTGGGCCGTACTGCCTCAGGCCTCGGTTTCCTTTTGGACCAGGATCCTGCCGGACACTGGCCGCATCGGCGGTCCTGGATACGTGGACAATCTGTCTCTCAAGGGCCTGTTGCTGCATTTCGGAATGCCCGACTCTGGCCTGACCAGTGTGGTGTGGCTCGTTCTCTCGCTTGGCCTGGTGGCGGTGGCCGCACTGGTGATCAAGTGGGCCCTTGCCGTGGATGAAAACTTTGTGGCTGTCTCTGCCACGGCCGTGCTGATGCTCCTGATCAGCCCGGTTTCGTGGTCACACCACTGGGTCTGGATGGCCGTCGCACTGCCGTGCATGGCCTTCGCGATGCACCGGGTCCCCACACGGAGCGGACGGATGCAGCTGGCCGGATGGATCATCGTGATTGCGTCTGCGGTGGCTTTCTACCTCGCGCCCAAGGACCTGGCCATGATGGCGGGTGCGGAAGAGTGGGGGAAGGACCCGTCTACGCAGTGGCCTCTCATGGTGGCCAGCCTTGGTGTCTTCTGCGGCATTGCGCTCCTCGGGTACTGGGCGCTCGCCTACCGGCCGTCCCGCATCAGGCTTCGCCGGATCCCCGGCGCGAAGTGA	MNVTPEASAGLKEPGATRTDPALPDSMHAARRALLLGWLATAAGALTVVAALAVLKVHYAPAMNDFEVYYYGGTKVLQTGEAGAGALYAVRDGLPFTYPPFAALLFAGLATLSFSESSLLFIAVALAGAGVVSAWLSRHYFGLRRWREAFADWRFRALALAGTAAILLLGPWRDTFVFGQINIVLMGLILADFALHGKARAGEIRWPAGLLIGIAAGIKLTPLAFGLYFLVRRDFKALAWMAGGFFGSIAVAWAVLPQASVSFWTRILPDTGRIGGPGYVDNLSLKGLLLHFGMPDSGLTSVVWLVLSLGLVAVAALVIKWALAVDENFVAVSATAVLMLLISPVSWSHHWVWMAVALPCMAFAMHRVPTRSGRMQLAGWIIVIASAVAFYLAPKDLAMMAGAEEWGKDPSTQWPLMVASLGVFCGIALLGYWALAYRPSRIRLRRIPGAK	PGPT0024275_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING	CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024275-pimE-K13671	NA	NA
D1-17_01051	180			hypothetical protein	ATGTACGTGATTCATCCGACCTGCGGTCACCGGACCAGCTCGGCCGCCACCTGCATGGCCTGTGGCGAGCGGCTCACGGCGGAAAACACGGGCTGGCACAGCCTCACCCGGACCGCTAAGCCCCTCAGGCTTTCCACCGCGCCGGCCGGACCGAGGTTGTGCGACCCGCTTGCAGCATGA	MYVIHPTCGHRTSSAATCMACGERLTAENTGWHSLTRTAKPLRLSTAPAGPRLCDPLAA				NA	NA	NA	NA	NA
D1-17_01052	486			hypothetical protein	ATGCCCGAAACCACCGCCGCAGGGCTGCTGGCCGTCGTCGGGATCTTCGACATCGTGGGCACCATCGCCTCTGGGTGGCTGACGGAGCGCTTCAATCCGAGGATCCTGCTGGCGGTGTACTATCAGTTCCGCGGCATCGGGCTGTTGGTGCTGCCGCTGCTGCTCAGTGCCACCGTGCAGCCCAGCATGATCGTCTTCGTGGTCATTTACGGCCTTGACTGGGTGGCCACAGTCTCCCCGACCGCGGCCATCTGCCGCCAGGCGTTCGGTGCGTACGGCGGTGTGGTGTTCGGCTGGGTCTTCGCTGCGCACCAGCTCGGTGCGGCAGCCGCGGCCCTGGCGGCCGGAGCCATCAGGGACGCCACGGGCCACTACACTTACGCCTGGCCGGGGGCTGCCGCCATGTGCACCGTCGCCGCTGTCATCAGCGCCTCCATCCGCAAGGATGCCGGCAGCCGGACGACGCAGTCTGCGGAGGCAGGCTGA	MPETTAAGLLAVVGIFDIVGTIASGWLTERFNPRILLAVYYQFRGIGLLVLPLLLSATVQPSMIVFVVIYGLDWVATVSPTAAICRQAFGAYGGVVFGWVFAAHQLGAAAAALAAGAIRDATGHYTYAWPGAAAMCTVAAVISASIRKDAGSRTTQSAEAG				NA	NA	NA	NA	NA
D1-17_01053	840	fabG1		3-oxoacyl-[acyl-carrier-protein] reductase FabG1	ATGGCTCTGAACGATAATCTCGGCACTGAATCAGCTGGCATTGAATCAACTGGTGCTGAGCCGCCCGGGGCTGAAACAGCTGGCGCGGAGCCTCAGCGCCCCACTGCCCTTGTCACCGGCGCCGGGCGCCAGGCCGGCATCGCCGCCGGAATCGCCCGCAAGCTTGCGGCCGATGGCTGGGACCTGGTGCTGAATCACTGGCAGGAGTATGACGCCCGGATGCCGTGGGGCGTCCAGCCTGACGACGTCGAACAGCTTGCTGCTGAACTTGAGGACATTGGGGCCAAGGTTGTGTCCCTGCCCGTGGATTTCCAGGACCCGGACGCCGTGGAGCGACTCATGGCGGAGGTTTCGGCGCAGGCCGGGACGGTCCAGGGCATGGTGCTGAGCCATGCGGAGTCGGTCGACTCGGGCGTTCTGGACACCACACTGGAAAGCTTTGAGCGCCACTTCGCCGTGAACACGCGGGCCAGCTGGCAGCTGGTCGCTGCTTTCGCACGCCAGGCAGGGCCCGGCGGCGGCGCGATCGTTGCGCTGACCAGTGACCATACAGCCTTCAACCTGCCCTACGGCGCGTCCAAGGGAGCGCTCGACCGGATCGTCATTGCCGCCGCCCGGGAGCTCGGTCCGCTCGGCATCTCTGCCAACGTGCTGAACCCCGGCCCGGTGGACACGGGTTGGATGAGCCCTGAAGTCCGGACGGAAGTCATCCGCCGCCAACCCGGTGGCCGGCTTGGCACGCCGGCGGACGTGGCAGGTACGGTTGCTTTCCTGCTCTCTCGAGAGGGGCGTTGGGTCTCGGGCCAGTTGATCAAGGCTGATGGCGGCTTCTCCGCCTGA	MALNDNLGTESAGIESTGAEPPGAETAGAEPQRPTALVTGAGRQAGIAAGIARKLAADGWDLVLNHWQEYDARMPWGVQPDDVEQLAAELEDIGAKVVSLPVDFQDPDAVERLMAEVSAQAGTVQGMVLSHAESVDSGVLDTTLESFERHFAVNTRASWQLVAAFARQAGPGGGAIVALTSDHTAFNLPYGASKGALDRIVIAAARELGPLGISANVLNPGPVDTGWMSPEVRTEVIRRQPGGRLGTPADVAGTVAFLLSREGRWVSGQLIKADGGFSA	PGPT0003180_7145	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_01054	1221	mmgC_1	COG1960	Acyl-CoA dehydrogenase	ATGAGCAACGATGCCCTTGACCCCGTGGCAGCAACGGCAGAGTACGGGCTCCCCGACCCGTCCGACATCATGGCCATTGATTCGCTGCTGACCCCCGACGAGCTGAGCCTTCGGCAGCGGATCCGGGACTTCACCGACCAGCAGATCCGGCCGGACATCGCCGACTGGTACGACCGCGGCATCTTTCCGCTGCACATCGCAGCGCAACTCGGTGAGCTGGGAGTCCTTGGCATGCACCTTGAAGGTTACGGCTGCCCCGGCCGCAGCGCTGTGGAGTATGGCCTCGCCGCGATGGAACTTGAAGCCGGCGACTCCGGAATCCGCACCTTCGTCTCGGTCCAGGGCTCGCTGGCCATGTCCGCCATCCACAAGTGGGGCTCGGAGGACCAGAAGCAGGAGTGGCTGCCCCGGATGGCGGCGGGCGAAGCGATAGGCTGCTTTGCGCTGACCGAACCCTCCGCTGGATCTGACCCGTCTGCCATGACCACCACGGCCCGCCGCGACGGCAGCGGCGAGGACGCCGGCTGGATCCTGGACGGTGCCAAACGCTGGATCGGGCTCGCATCGATCGCCGACGTCATGGTGGTGTGGGCCAGGACCGACGATGGCGTCCGCGGTTTCCTCGTGCCTGCCGGCACCGCGGGGGTCACCGCCGTTCCGATCGGCCGGAAGCTTTCGATGCGCGCTTCAATACAGTGCGACATCACGTTCGACGGCGTCCGGCTGGGGCCGGACGCCCTTCTCCCGGGCGCGCGCGGACTCAGCGGCCCCTTCTCATGCCTCAACGAAGCCCGCTACGGCATCGCGTGGGGCGCCATGGGCGCGGCCCGTGACTGCTATGAAGCTGCCCTGAAGTACGCGATGGAGCGGCTGCAGTTCGGCAGGCCGCTGGGCGGCTACCAGCTTACTCAGGAGAAGCTGGTTAACATGCTGCTGGAGATTCAGAAGGGCACCATGCTCGCCCTGCAGCTGGGCCGGCTGAAGGACTCCCGCGCGCTGCGCCCGGAACAGATCTCGCTGGCCAAGCTGAACAACGTCCGTGAAGCCATCAAGGTGGCCCGAGAGGCGCGGACGATCCTGGGCGGCAACGGCATCACGCTTGACTACTCTCCCCTGCGTCATGCAGCCAATCTGGAGTCGGTGCGGACCTACGAGGGAACGGACGAAATCCACCTGCTGATTCTCGGACAGCACCTCACCGGCATTTCGGCGTTCCGCTGA	MSNDALDPVAATAEYGLPDPSDIMAIDSLLTPDELSLRQRIRDFTDQQIRPDIADWYDRGIFPLHIAAQLGELGVLGMHLEGYGCPGRSAVEYGLAAMELEAGDSGIRTFVSVQGSLAMSAIHKWGSEDQKQEWLPRMAAGEAIGCFALTEPSAGSDPSAMTTTARRDGSGEDAGWILDGAKRWIGLASIADVMVVWARTDDGVRGFLVPAGTAGVTAVPIGRKLSMRASIQCDITFDGVRLGPDALLPGARGLSGPFSCLNEARYGIAWGAMGAARDCYEAALKYAMERLQFGRPLGGYQLTQEKLVNMLLEIQKGTMLALQLGRLKDSRALRPEQISLAKLNNVREAIKVAREARTILGGNGITLDYSPLRHAANLESVRTYEGTDEIHLLILGQHLTGISAFR	PGPT0021815_743	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
D1-17_01055	1524	puuP	COG0531	Putrescine importer PuuP	ATGAGCACCGGAATCACGACGGCGGGCGGCGGCGCCGGGAACCAGCCGGGCGGCCCGGTCCCCGCCAAGGGCCTACGCGCCGGAATCCTGGACCTGGGCGATTCTGTGATGCTGGGGCTGGCTTCCACTGCTCCGGTGTATTCACTCGCGGCCACCTTGGGCCTCATCGTGGCCGTGAACGGTAACTACACTCCCCTGATCCTGGTCCTGGGCTTCATCCCGGTACTGTTCATCGCGTATGCATTCCGCGAGCTCAACAGTGCCATGCCGGACTGCGGAACCACGTTCTTCTGGGTCCGCCGCACGTTTGGTCCGTGGGCCGGTTGGCTGGGCGGCTGGGGCGTTGCCCTGGCCGGCGTCGTCGTCCTGGCCAACCTGGCCCAGGTAGCAGGACAGTATCTGTGGCTGCTGATCGGAGACGGGTCGTTGGCGGAAAATGCCCTGCTTGTCGCAGCGACAGGTGTGGTGTTCATTGCCCTCATGACCCTGGTGAACTACCGGGGCATCCGGCTCGGCGAGCACGTCCAGCGTGCTCTGACGTACGTCCAGTACGTCTCGTTGGGCGTCTTTGCCGTGGCCATCATCGTCGGCATCGTGGGCGGGACCGGGAGCGCCACCACCGTGCAGCCGTTCGACGTCGAGTGGTTCAACCCTGCCGGGGCTTTCGCCGATCCGGGCGCGGTGGTCCACGGGTCCCTGCTGGCACTCTTCATCTACTGGGGGTGGGACACCTGCCTTGCCGTGAACGAGGAAACGGAGAACCCGTCGAAAACGCCCGGCCGCGGCGCGGTGATCTCAGCCTTCGTCCTGGTGGCCATTTACGTGTCCGTGGCTCTCCTGGTCATGATGTACGCCTCGGTGGGAACAGAGGACATGGGCCTCGGCAACACCGAGAACCAGAATGACGTCTTCCTCGCCTTGAAAGACGTGGCGCTGGGCCCCTGGGGTTGGCTGATCGTCCTGTCCGTCCTGGCTTCAGTGCTGTCGTCCACGCAGACCACCATCCTTCCGACGGCGCGCGGCACCCTCTCCATGGGGGTCCACGGGGCTTTGCCGCGGAGGTTCGGCCAGGTCCACCCCCGTAACCAGACGCCGGGATTCTCCACCCAGGTGATGGGCGCCGCGGCGATCGTATATTACGTGGCGATGAGTGTCCTGAGCGAGAATCTGCTGTCCGACTCCATCAGTTCCATCAGCCTTTTCATCGCCTTCTACTACGCGCTGACCGGTTTTGCCTGCGTCTGGTACTTCCGCGGAACGCTCCGCGCCTCGGCCAGGAACCTCTGGTTCCGGGGGATCCTGCCCCTGCTGGGCGCGGTGTCCCTGACAGCCGCGTTCTTCATTTCCGCTGTCCAGATGTGGGACCCGGCGTACGGCGATACCGAGATTTTCGGCGTCGGCGGCGCGTTTGTGAGCGGCGTGGTGCTGCTGGCCCTGGGCGTGGTGCTGGCCGCCCTCTGCCGGTTCCTGCCGTCCACGCGGGACTACTTCCGTGGCAGGCAGCGCGTCAATGCCCGGCTCTGA	MSTGITTAGGGAGNQPGGPVPAKGLRAGILDLGDSVMLGLASTAPVYSLAATLGLIVAVNGNYTPLILVLGFIPVLFIAYAFRELNSAMPDCGTTFFWVRRTFGPWAGWLGGWGVALAGVVVLANLAQVAGQYLWLLIGDGSLAENALLVAATGVVFIALMTLVNYRGIRLGEHVQRALTYVQYVSLGVFAVAIIVGIVGGTGSATTVQPFDVEWFNPAGAFADPGAVVHGSLLALFIYWGWDTCLAVNEETENPSKTPGRGAVISAFVLVAIYVSVALLVMMYASVGTEDMGLGNTENQNDVFLALKDVALGPWGWLIVLSVLASVLSSTQTTILPTARGTLSMGVHGALPRRFGQVHPRNQTPGFSTQVMGAAAIVYYVAMSVLSENLLSDSISSISLFIAFYYALTGFACVWYFRGTLRASARNLWFRGILPLLGAVSLTAAFFISAVQMWDPAYGDTEIFGVGGAFVSGVVLLALGVVLAALCRFLPSTRDYFRGRQRVNARL				NA	NA	NA	NA	NA
D1-17_01056	1212	ygiC	COG0754	Putative acid--amine ligase YgiC	GTGAAAAGACTGACCGTTGCACCCCGGCCGGACTGGAAACAGAAAATCGAAGAGCAGGGCCTGGTTTTCTCGACCACCACCATGCCGGGCGGCCGGAAGATCGAGTACTGGAACGAGTCCGCTTATTACGAATTCACCATGGACGAGGTGGAGGCGCTCGAAGTCACGGCCGAGGACATGCACAAGATGTGCCTCGAGGCGGCTAAATTCCTCGCCACTGGAGCCATGGGGCCAATCGGCATAGGGCAGCAGGGGCTGGAGCTCGCCGCCGAGTCGCTGCAGGCCGGGGACATGGACATCTATGGCCGGTTCGACTTCATCTACGACGGCCGGGGCGGGGCGGCGAAGATGCTGGAGTACAACGCTGACACGCCCACCGGCCTGATCGAGGCGGCCGTGGCCCAATGGTTCTGGCTGCAGGACCTCTTTCCTGAGAAGGACCAGTGGAACGGAATCCACGAGGCGCTCATCCGGCAGTGGAAGAAGCTCCAGTACCGCACGGGCATGAGCACCCTCCACGTGGCCCATTCGGAGGCCGAAGAATCTGGCGAGGACTGGATGACGGCCGCGTACATGCGGGATGTGGCCAGCCAGGCAGGCTGGACCACCATCGGCATCAACATGTCCGACATCGGCTGGGACCCCAACCTGAAGCGGTTCGTGGACCTCGACAACTACATGATCAGCACCATGTTCAAGCTCTATCCGTGGGAGCTGATGCTGAAGGAACCTTTCGGGCACCGCCTCCTGCAGCGTGCCCACAATCCGCGGTGGGTGGAGCCGGCCTGGAAGATGCTGCTTTCCAACAAGGCCCTGCTGGCCGCGCTGTGGCACCTCTATCCGGGCCACCCGAACCTGCTGCCGGCATACCTTGACGAACCGGGTCCCCTGAAGGACTGGGTCGCCAAGCCCCTCCATGGCCGCGAGGGTGACAACATCAAGATCCATGCCCGGGGCATCAGCTTGGAACAGCCCGGCGGGTACGGCCGCGAAGGCTGGTGCTACCAGCAGTTCCACCCGCTTCCGGACTTTGACGGCAACCACCCCGTCCTGGGCCTTTGGGTGGTGGACGGTGAATCGGTGGGGTGCGGCATCCGGGAGTCCGACGGCCCGGTCACCGACTACTTCTGCCGGTTCGTGCCGAACACCATTGATGCTCCCGCGCCGCCGGCCGCCGGAACCAACTCGAACAAGGCAGGTATTGCATTATGA	MKRLTVAPRPDWKQKIEEQGLVFSTTTMPGGRKIEYWNESAYYEFTMDEVEALEVTAEDMHKMCLEAAKFLATGAMGPIGIGQQGLELAAESLQAGDMDIYGRFDFIYDGRGGAAKMLEYNADTPTGLIEAAVAQWFWLQDLFPEKDQWNGIHEALIRQWKKLQYRTGMSTLHVAHSEAEESGEDWMTAAYMRDVASQAGWTTIGINMSDIGWDPNLKRFVDLDNYMISTMFKLYPWELMLKEPFGHRLLQRAHNPRWVEPAWKMLLSNKALLAALWHLYPGHPNLLPAYLDEPGPLKDWVAKPLHGREGDNIKIHARGISLEQPGGYGREGWCYQQFHPLPDFDGNHPVLGLWVVDGESVGCGIRESDGPVTDYFCRFVPNTIDAPAPPAAGTNSNKAGIAL				NA	NA	NA	NA	NA
D1-17_01057	624			hypothetical protein	ATGGTGGACCCGGAGAAAGACCAGCCCAAAGAGCGCGACGGCGGGCCGCAGGGCGACACTGCCGGTAGCCCCAAACCTGCCGGCGCCCCCAAGCCTCCGCCCTGGCAGGTACCCAAGCCGGAGCTGCGGCCTGAGCTCCGACACCCCGAGGAGATCGGTGGTTCGGGCCAATCCGGATTTCCCCAGCCTGGTCCCGTCTTCGATCCCCTCGCCCGCGAGCGCGAGCGGGAGGCGGGTGCGCGGAAGAAACGCTCGCAGCGCCGCACCGTCGCCGTGGGACTCGGCGTGACGGCGTTGCTGGCCGGAACCATCACAGCGATCGTGGCCAGCAATGAGCAGGACGCCGATTACGCCCAGGTGTGCTTCAACGAAGAAACGGGCGAGCGGGTGGAGGACACCCAGTGCAACAGCTCCGCCGGCCGCGGCGGCGCCCTCTACGCCTGGTACTTCTACGCCCGCGGCGCCACCGTTCCCGCTGTCGGTCAGAACCGGACCGCCTATCCCGACTTCACCAGGACCGTACCCCAAGGCGCCAAGGCCTCTACGGGCTACAGCACCAAGGGCGGAACGGTCAGCAGGGGCGGCTTCGGGAGCAGCTCCAAGGGCGGAAGCACGGGAGGCTAG	MVDPEKDQPKERDGGPQGDTAGSPKPAGAPKPPPWQVPKPELRPELRHPEEIGGSGQSGFPQPGPVFDPLAREREREAGARKKRSQRRTVAVGLGVTALLAGTITAIVASNEQDADYAQVCFNEETGERVEDTQCNSSAGRGGALYAWYFYARGATVPAVGQNRTAYPDFTRTVPQGAKASTGYSTKGGTVSRGGFGSSSKGGSTGG				NA	NA	NA	NA	NA
D1-17_01058	654			hypothetical protein	ATGGACACCGCCACTCTGCTTGCCGTCTGCCGAGTACACCAGCTCCTTCCCGATGCTGGGAGCGTCGGTGTCACCGCCATCGACAAACGTCCCGTCGAAGGCCCCGTGAAGGTGCACAAACTCGGGCTGCGCGGCGACATCCAGGCCAGCAGGATCCACCACGGCGGCGAAGACCAGGCCCTGTACGCGTACTCCCAACGCGAGGCCGACTACTGGACGGGCGAGCTGCAGCGTGAACTGCCCCCGGGTACCTTCGGAGAGAACCTGAGGGTCTCGGGGATCGAAACCACAGGCGCGGTCATCGGCGAGCGGTGGAAAATCGGCCTGGACGTTGAGGTTGAAGTCACCTCGCCGCGGACCCCGTGTGCCACTTTCCAGCGCCGGATGGGGGAGAGCAGCTGGGTCAAGCGCTTCGCGGACGCGGGGCTGGTCGGCACCTACCTGCGTGTCATCCGCACCGGGTCCATCCAGGCCGGCGACCACATTCACCGGACTTTTGTCCCCGGCCACGGCGTGACCATCGGGCGCTGGTTCAGCGAGCCGAGCGTGGAAGCCATGGAAGCGCTCAGGGACGCCGAGGCGGATGGGGAAGTGCGGCTCCAGCCCGAGTACCACGACGCGTTCGCGGCGCTGCTCCGCCGCCCGGGCAGCTGA	MDTATLLAVCRVHQLLPDAGSVGVTAIDKRPVEGPVKVHKLGLRGDIQASRIHHGGEDQALYAYSQREADYWTGELQRELPPGTFGENLRVSGIETTGAVIGERWKIGLDVEVEVTSPRTPCATFQRRMGESSWVKRFADAGLVGTYLRVIRTGSIQAGDHIHRTFVPGHGVTIGRWFSEPSVEAMEALRDAEADGEVRLQPEYHDAFAALLRRPGS				NA	NA	NA	NA	NA
D1-17_01059	2061	deaD_1	COG0513	ATP-dependent RNA helicase DeaD	ATGCCCGAAAACCACAACGACGCCATCGACACCGAGAACAACGACGCCTTCGACACCGAGAACACTGTCGCCCCGGAGACCGCAGCAGCAGAAGCTGCCCCGGCCGCGGACACAGAAGACGAAGGCGTCCGTTTCGCCGATCTTGGCATCGACGGCCGCGTCCTCGCCGCCCTGCAGGACGTCGGCTACGAAAAGCCTTCCCCCATCCAGGCAGCGACCATCCCGCTGCTGCTTGAAGGCCGCGACGTCGTGGGCCTCGCCCAGACCGGCACCGGTAAGACTGCAGCATTCGCAGTACCGGCATTGTCCCGCCTGGCCGAGCTCCACGACCTCAACGGCCCCTCCCGGAAGACCCAGGCCCTGGTTCTCGCCCCGACCCGCGAGCTTGCGCTCCAGGTTGCCGAGGCTTTCACCTCGTACGCCAAGCACATCGATGACTTCACCGTCCTTCCCGTCTACGGCGGCTCCGCCTACGGCCCCCAGCTCGCCGGCCTGCGCCGCGGCGCCCAGGTTGTTGTTGGTACCCCCGGCCGTGTGATCGACCACATCTCCAAGGGTTCCCTGGACCTCTCCGAACTCCAGTACCTCGTGCTGGATGAGGCTGACGAGATGCTGCGCATGGGCTTCGCTGAAGACGTGGAGCAGATCTTCCAGCAGACCCCGTCCGACCGCCAGGTCGCGCTGTTCTCTGCCACTATGCCGAGCCAGATCCGCCGCATGTCCAAGCAGTACCTGAACAACCCGGCAGAGATCTCGGTAAAGTCCAAGACCACCACCGGCGCCAACACGCGCCAGCGGTACCTGCAGGTCATGGGCCCGCACAAGCTCGACGCCCTGACGCGCATCCTCGAGGTGGAAGAGTTCGACGGCGTTATCGCCTTCGTGCGCACCAAGATGGCTACGGAGGACCTCGCCGACAAGCTGAAGTCGCGCGGTTTCCAGGCGGCTGCCATCAACGGCGACATCCCGCAGCAGCAGCGCGAGCGCACCGTCGATGCACTGAAGGAAGGCCGCATCGATATCCTGGTGGCCACCGACGTTGCGGCCCGTGGCCTCGACGTTGAGCGCATCAGCCATGTGGTCAACTACGACATCCCGCACGACACCGAGTCCTACGTCCACCGCATCGGCCGCACCGGCCGTGCAGGCCGTTCCGGCGACGCCATCCTGTTCATGACGCCGCGGGAGAAGTACCTGCTGCGCTCTATCGAGAAGGCCACCCGTCAGCCGGTGGAGCAGATGCACCTGCCCACGGCCGAGACGGTGAACACGCTGCGCCTGGGCAAGTTCGCCGAGCGCATCACCGAGACCCTCGCGTCCGAAGATGTTGCTCCGTTCCGTGACCTCATCTCCTCCTACGAGGAAGAGCACAACGTTCCGGCGTCGGAGATCGCAGCGGCGCTGGCCGTGATGGCACAGGGCGGACAGCCGCTTCTGGTCAAGGAACTGCCCGCTGCTCCCGAGTTCCAGAAGCGCGAACGCTCCAAGGACGGCTTCGGCTCCCGCGGACCGACCCGTACCCTCACCGAGGGCAACGCCACCTACCGGATCGCCGTCGGACGCCGCCAGCGCGTCATGCCGGGTTCCATCGTGGGCGCCATTGCCAATGAGGGCGGTATCTCCTCGTCCCAGATCGGCGGCATCGACATCCGTTCGGACCACTCCCTCGTGGAGCTTCCGGCGGACCTGAGCGCCGAGCAGCTGCGGGCCCTGTCCCGCACCCGGATCGGCGGCGAGCTGATTAACCTCGAGCTGGACAACGGCCGCAGGCCGTCAGGCGACCGCGGCGGCTACCAGGGCGGCCGCGGCGACCGCGGCGGCAACTTCAAGGGCACCGGCGGCTTCAAGAAGGAATTCCGCAAGAGCGACGGCGAGCGTTCCTCCGCGGACCGCGGCGGCCGCTCGTACAGCGACCGTTCAGAACGCAGCGTTGGCGCTGACAGCGGAGCCAACCGCGGCCAGGGCGACTCCCGCTACGGCGGCCATGGCGACGGCACCCGCAAGCCCCGCCACGGCAGTGAAGGCGGACACCGCGACTTCAACCGCAAGGGCAAGTGGTAG	MPENHNDAIDTENNDAFDTENTVAPETAAAEAAPAADTEDEGVRFADLGIDGRVLAALQDVGYEKPSPIQAATIPLLLEGRDVVGLAQTGTGKTAAFAVPALSRLAELHDLNGPSRKTQALVLAPTRELALQVAEAFTSYAKHIDDFTVLPVYGGSAYGPQLAGLRRGAQVVVGTPGRVIDHISKGSLDLSELQYLVLDEADEMLRMGFAEDVEQIFQQTPSDRQVALFSATMPSQIRRMSKQYLNNPAEISVKSKTTTGANTRQRYLQVMGPHKLDALTRILEVEEFDGVIAFVRTKMATEDLADKLKSRGFQAAAINGDIPQQQRERTVDALKEGRIDILVATDVAARGLDVERISHVVNYDIPHDTESYVHRIGRTGRAGRSGDAILFMTPREKYLLRSIEKATRQPVEQMHLPTAETVNTLRLGKFAERITETLASEDVAPFRDLISSYEEEHNVPASEIAAALAVMAQGGQPLLVKELPAAPEFQKRERSKDGFGSRGPTRTLTEGNATYRIAVGRRQRVMPGSIVGAIANEGGISSSQIGGIDIRSDHSLVELPADLSAEQLRALSRTRIGGELINLELDNGRRPSGDRGGYQGGRGDRGGNFKGTGGFKKEFRKSDGERSSADRGGRSYSDRSERSVGADSGANRGQGDSRYGGHGDGTRKPRHGSEGGHRDFNRKGKW				NA	NA	NA	NA	NA
D1-17_01062	894			hypothetical protein	ATGACCTCGGGTGAGGCCAGCAGGCCCGTTCCGGCCGAACCGGATCATTCCCGGCTGGAGGACCGGACAGAACGCAGGCAGAGCCGATGGGCGACCGTCCTGGCTGTCCTGCAGCGGCTCCTGTATGGGGCTGTGACCGTGGCAGTGGGCTGGGCGGTCTACTACTTCCTGCTGGCCCGCCTGGCCCGCGGTCCCGAGCAGGTCTGGGTGTTCCTGCCCGTGTGGCTGATCATCGCTTACGCGCTGCTGCCACGCATCCACAAGATCCTCAGCAGCCTCTACATTCCGGACTACTTCATTGGCCGCACCCGGACAGGCGACGGCGTCCTCGGTGACCCGGTCAACCTGGCCGTCATTGGTCCCGCAGAGGAACTAAAGCACGCCATGCTTACTGCCGGGTGGGTCGAAGCTGACCCGATAACGCCGGCCACGGCGTGGAAGACCCTCGAATCCACGATTCTCGGACGCAGCTATCCCGCGGCGCCCGTGAGTTCGCTGTACGTGTTCGGGAACAAGCAGGATATGGCGTTCCAGCGGGAGATCGACGGGAACCCCCGCAAAAGGCACCACGTCCGGTTCTGGAGGTGCCCGGACGGATGGATGCTGCCCGGCGGGCTGGCCGTGGACTGGGTAGGGGCTGGCACATACGACCGAAGCGTCGGCCTATCCCTCTTCACATTCCAGATCACCCACAAAATAGCCGACCGCACCGATGAAGAGCGGGACTTCATCATCCAGACCCTGCAGGCAGCCGACGCCGTGGAGTCAGTGCATATCATTCGGAACTATTCGTCCGGCTACCACCACCGCAACGGCGGGGGTGACTCGATCCGCACGGACGGTCATCTTCCGGTCATTGACCTGAACCCCCGGAGCGGGCCGGTCCGCCGGTAG	MTSGEASRPVPAEPDHSRLEDRTERRQSRWATVLAVLQRLLYGAVTVAVGWAVYYFLLARLARGPEQVWVFLPVWLIIAYALLPRIHKILSSLYIPDYFIGRTRTGDGVLGDPVNLAVIGPAEELKHAMLTAGWVEADPITPATAWKTLESTILGRSYPAAPVSSLYVFGNKQDMAFQREIDGNPRKRHHVRFWRCPDGWMLPGGLAVDWVGAGTYDRSVGLSLFTFQITHKIADRTDEERDFIIQTLQAADAVESVHIIRNYSSGYHHRNGGGDSIRTDGHLPVIDLNPRSGPVRR				NA	NA	NA	NA	NA
D1-17_01063	771			hypothetical protein	ATGCCGGTGAACCGGTTCCCGCACGCCCGAAACAGGGCGGCATCACTTGTTATCTCCCTCCGGGCCGCGGCCATGCGTCCAGCGGCACTTCGTCCAGTGCCCCTGCGTCCAGCCGCCTTGTTCAGGACCCTTGCCGCTTCCGCCGTAGCCGGCGGCCTGCTGCTCGCGGGCCTCGCTGTCCCGGCCGAGGCTGCCACCTACTACTCGGCGCCCCTGCGCACTGCTGCCCGGGCCCTGCCGGTGGCAGCGGAAAACAACGCCGGCTACGACAGGAACCGCTACTTCGGTTACTGGAACGACACGAACCGGGACTGCCAAAACACCCGCGCCGAAGTTCTCCTTCAGGAGACCAAGGCCGCCGCCACGTACACCACCTCACGGAGGTGCACTGTGCGCACGGGCCGCTGGGTTTCACCGTGGGACAACCGGACACACACCTACGCCTCGGCAGTAGAAATCGATCACACCGTCCCCGTCCACGAGGCCTGGGGTTCAGGGGCACGCTACTGGTCGCAGGCGCGCCGCGTTGCATTCTACAACGACCTCGGCGACACCCGGTCCCTCAATGCAATGACGGCGGCGCTCAACTCCGCCAAACAGGCCCGGGGACCTGAATCATGGATGCCACCCGCAAACCGCTGCGCCTACATCGGCCAGTGGATTGCGGTAAAGCTCCGGTGGGGCCTGCGGGTGGACAGCGCGGAGAAGGCCGCCCTGATCCGCTATGCAGACTCCTGCTCGAACGTGCGCATTAGCGTCACCCGGGTGTAG	MPVNRFPHARNRAASLVISLRAAAMRPAALRPVPLRPAALFRTLAASAVAGGLLLAGLAVPAEAATYYSAPLRTAARALPVAAENNAGYDRNRYFGYWNDTNRDCQNTRAEVLLQETKAAATYTTSRRCTVRTGRWVSPWDNRTHTYASAVEIDHTVPVHEAWGSGARYWSQARRVAFYNDLGDTRSLNAMTAALNSAKQARGPESWMPPANRCAYIGQWIAVKLRWGLRVDSAEKAALIRYADSCSNVRISVTRV				NA	NA	NA	NA	NA
D1-17_01064	732			hypothetical protein	ATGGAATCCTGTGCCAACGTTGTGGCTGCCCCTGTCTCCTGTGTAACAGGCGTTGCCAGGGACCTGGGCTGCATCTATTGTCGGGAATCCAAAGGTTCGGCTTCCGGAGCACTGGGCAGGGTCATTTCCGGAAACGGGCTGCAGGGGGCAATGCCTACAACGGAGGCCGGCATGGGCAAGCTGATTTACTCAGGCATCCAGTCGCTGGACGGATATGTGACGGACCGGAACGGCCGCTTCGACTGGAGCGAGCCGGATGAGGAAGTGCACACGTTCATCCACGGACTTGAGGGCTCGGTGGGCACCTACCTGCTGGGCCGCCGGCTTTACGAGGTGATGCTCGCGTGGGAGGACCCGTCCGCCTTTGCAGAGGCGCCGCCGTACATCCGTGATTTCTCGGAGCTCTGGACAGCCGCGGACAAGGTGGTCTACTCGCGCTCGCTGCCGGGTCCGTTCAGCGAACGGACCCGCATCGAGCGGGACTTCGACGCCACGGCCGTCCGGCGCCTTAAAGCGGACGCCGGCAAGGACCTGGCGGTGGGCGGCGCGGAGCTCGCCGCCGCGGCCATCCGGGCGGGACTGGTGGATGAGTACCAGTTGTTCGTTTCTCCTGTGGCCGTGGGCGGCGGCAAGCGTTACCTCCCGGAGGATGTGCGCCTGAACCTGGAGCTGCTGGAGGAACGGCGCTTCGGCAACGGCGTGGTTTTCCTCCGCTACGCCAGCCGGGCCTGA	MESCANVVAAPVSCVTGVARDLGCIYCRESKGSASGALGRVISGNGLQGAMPTTEAGMGKLIYSGIQSLDGYVTDRNGRFDWSEPDEEVHTFIHGLEGSVGTYLLGRRLYEVMLAWEDPSAFAEAPPYIRDFSELWTAADKVVYSRSLPGPFSERTRIERDFDATAVRRLKADAGKDLAVGGAELAAAAIRAGLVDEYQLFVSPVAVGGGKRYLPEDVRLNLELLEERRFGNGVVFLRYASRA				NA	NA	NA	NA	NA
D1-17_01065	660	yhfK	COG0702	putative sugar epimerase YhfK	ATGTCCCGCATCGCAATTATCGGCGGCCACGGAAAAGTGGCCCTTCGGCTGTCCGCCCTGCTCACAGGCGAGGGCCACAGCGTCACCTCGTTCATCCGCAACCCTGACCACGCGGCGGATGTCGCGGCAACGGGTGCGTCGCCGTCGGTCCTTGACGTCGAAAATTCGACGACGGCGGAGATCGCCGCGGCGCTGCGCGGCCACGACGCCGTGGTCTGGTCTGCGGGCGCCGGGGGAGGGGACCCCGCACGCACCCAGGCCGTTGACCGCGACGCCGCCATCCGCTCCATGGATGCCGCGGAGGAAGCCGGAGTGGACCGCTACGTCATGGTCTCCTACTTCGGCGCCGGCCCCGATCACGGCGTGCCGGCGGACCACAGCTTCCACGCCTATGCCGAGGCCAAGGCAGCGGCAGACGCCTACCTCCGGGGCACGAGGCTGGCATGGACTATCCTGGGCCCCGGCTCACTGACAGAGGGGCCGGGGAACGGCCTGATCGAGGTAGACCCGCAAGACGCGTCCACGGGCACGGAGACGTCGCGGGCCAACGTGGCGATCGTCGCCGCCGCCGTCCTGGAGATGCCTGAAACTGCCGGACGGACCATCGAATTCCGGGACGGCTCCGTTCCCGTGCCCGCTGCGCTGGAACCGGCGCAGTAG	MSRIAIIGGHGKVALRLSALLTGEGHSVTSFIRNPDHAADVAATGASPSVLDVENSTTAEIAAALRGHDAVVWSAGAGGGDPARTQAVDRDAAIRSMDAAEEAGVDRYVMVSYFGAGPDHGVPADHSFHAYAEAKAAADAYLRGTRLAWTILGPGSLTEGPGNGLIEVDPQDASTGTETSRANVAIVAAAVLEMPETAGRTIEFRDGSVPVPAALEPAQ	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
D1-17_01066	1203	nanK_1		N-acetylmannosamine kinase	ATGTCGGAAATGACGGCGGCAACGCCTCAGCTGTTGCGGCGCGTGAGCGCTGGAGCGGTCCTGAATTTTATGCGCGCCTCGCAGGCTGTCACTGTCACTGAAGTCATGCAGGCCACCGGACTTACGCGGGCAACGGCGATCTCGGTGTGCGAGGACCTCACGGAGCGCGGCTGGATCAGGGAGCTGGAAAACCAGCGGGCCTTTGGCGGCTACCAGAAGGGCCGGCCGGCGCGCCGTTTCGAGCTCAACGACCGCGCCGGCTACGTCCTCGGAATGGACGTCGGCATCGCCAAAGCCACGGTGGTGGTATCGGATCTCCGCGGAAAAGCGCTGGGCCGTTCCAGCCAGCCCTTCGCCAGCGCCGAGATTCCGGCGGAGGAGCGCATCGCCGTCATTGACCGGACGGCCATAATGGCCCTGCACAGCGTCGGGGCCTCCCCCGACGCTGTGCTTGCCGTCTGCGCCGGCATCGCGGCGCCGGTGGACCGCAACGGGGACATTCTGGTCACCCAGCACTTTTGGGGACTGTTCGACGTCGGCCTGAAGTCCGCGCTGAAGGACCTTCGGGGGTGGACGGTTCTCCTCGAGAACGATGCCAACCTGGCTGCTTTGGGCGACCGCTGGCGTGGAGCAGCAGCGGGCGTGGACGACGTCGTGGTGATCCTGGCGAGTGAACGCTTTGGTTCCGGGATCATCGATGACGGGCGCCTGCTGCACGGCGTCGGCGGCGGCGCGGGCGAGCTCGCGTTCCTCGACATGGTGGACGGCGTGGGAGACACCTACGGCATCGCCACCCTCGCCCGGCTCTGGGCCGCCGAGGCCCTCGCGGGCAAGGCCAAGACGTCACTCCGGGAGCATGCCGACGAAGGCCCGGAGGCGGAGCACGTTTTCGCCGCTGCGGCCGCCGGCGATGCCGTGGCCCTGGCAATCCTGGAGCGGCTGTCCGACCGGATGGCGCGCGTGATCGCACCCGTCGCCACTTTCATGAACCCCGAACTGGTCGTCATCGGCGGTGCTGTGGCAAACTCCGCCGGGGTGCTGCTGGAGGACATCGCCACCCGGCTCAGGAAGTTCACCGTCACGCCGCCGCGGTTGGCCGTGTCGCCGCTGGGCGACGCGATCGTGACCGTGGGCGCAGTCCGCTGCGCTCTGGACTACGTGGAGAAAAACAGCCTGGACCTGGAACTCAACGTCCCCGCGTGA	MSEMTAATPQLLRRVSAGAVLNFMRASQAVTVTEVMQATGLTRATAISVCEDLTERGWIRELENQRAFGGYQKGRPARRFELNDRAGYVLGMDVGIAKATVVVSDLRGKALGRSSQPFASAEIPAEERIAVIDRTAIMALHSVGASPDAVLAVCAGIAAPVDRNGDILVTQHFWGLFDVGLKSALKDLRGWTVLLENDANLAALGDRWRGAAAGVDDVVVILASERFGSGIIDDGRLLHGVGGGAGELAFLDMVDGVGDTYGIATLARLWAAEALAGKAKTSLREHADEGPEAEHVFAAAAAGDAVALAILERLSDRMARVIAPVATFMNPELVVIGGAVANSAGVLLEDIATRLRKFTVTPPRLAVSPLGDAIVTVGAVRCALDYVEKNSLDLELNVPA				NA	NA	NA	NA	NA
D1-17_01067	1326			hypothetical protein	GTGAACGCCGCTCCGCTCAGCCGATTCGCCCGAGCCAGCCGGACGGCGCCGGTCAGTCGCCGCACGCTCCTGAAGGCTGCCGGCCTCGCCGGCGCCGCCGCCATGCTTCCGCTGACGGCGTGCGGTGCCACGCCCAGCGTGCAGAACGGCGTCACCACCCTGCGGTTCATGCAGAACAAGCCCGAGGTGGTGGCCTACTTCAACCAGGTCATCAAGGACTTCGAGGCGCTGAACCCGGACATCCGCGTGATCCAGGACTTCAACGAGGGCAACTTCGTTCCCGGCCTGGTCCGCAACGATCCGCCCGACGTCGTGACCCGCGGCTTCGCGCAGGCCACCGCGGACTTCGTCCGCAAGGGCGTCTTCGCGGACCTTTCCGATATGCCGGTGGCCGCGACGATCAACCCGAAGATGCAGCGCCTCATCAGCTCCTGGGGCCAGTACAAGGGGAACGAGATCAGTGCCCTGCCGTTCTCACTGGCCGCCGCTGGAGTGATCTACAACCGCGACATTTTCGAAGCCAAGGGCGTCGCCGTGCCGGCCACCTGGGACGAGTTCGTTGCCGCGTGCGAAACTTTCAAGGCGGCGGGGATCACCCCGATCTACGGCACCTTCAAGGACAACTGGACCCTGGGCCAGGGCATGTTCGACTACGTCGCCGGCGGTTCGCTGGACGTACCAGGCTTCTTCTCCAAACTCACCGCCAAGGGCGCCGCCATCAGCCCCGGCGCCCCGGAATCATTCGCCAACAATTTCGGCCCGGCGCTGCCCAAAATGCTGCAGCTCGCCGCGTTCTCCCAAAAGGGCGCCACCAGCAAGAACTATGCGGACGGAAACGCGGCCTTCGCCAAGGGCGGGGCGGCGATGTACTTGCAGGGTCCGTGGGCACTGTCCCAGCTTGTGGCAGCCAACAAGAAGATCAGGCTCGGCAGCTTCCCCCTGCCGGTCACTAACAACCCCGCCGACACCAAAGCCCGCGTGAACGTGGACATGGCGCTGTCCATCACCCGCAACACCCCCAACATGGCCGCGGCGCAACGCTTCGTGAACTACCTCCTGGAGCCGTCGGTGGTGAACGCGTACAACGAAAAGAACGCAGCGTACTCACCGCTCAAGGATGCTCCCGCCGTCGAAAACCCGCAGATCAGCGGCCTGAACGCCTCCGTCAAGGAGGGGCGCTACTACCAGGGTGCCACCACGTACTTCCCGCCGTCGGTGCCGCTGAACAACTACGTCCAGTCCTTTGTGTACACAAAGAACGGCGAGCAGTTCCTCGCCGCCCTCGACGACGAGTGGCGCCGCGTTGCCGAGCGCACCGCAGTCTGA	MNAAPLSRFARASRTAPVSRRTLLKAAGLAGAAAMLPLTACGATPSVQNGVTTLRFMQNKPEVVAYFNQVIKDFEALNPDIRVIQDFNEGNFVPGLVRNDPPDVVTRGFAQATADFVRKGVFADLSDMPVAATINPKMQRLISSWGQYKGNEISALPFSLAAAGVIYNRDIFEAKGVAVPATWDEFVAACETFKAAGITPIYGTFKDNWTLGQGMFDYVAGGSLDVPGFFSKLTAKGAAISPGAPESFANNFGPALPKMLQLAAFSQKGATSKNYADGNAAFAKGGAAMYLQGPWALSQLVAANKKIRLGSFPLPVTNNPADTKARVNVDMALSITRNTPNMAAAQRFVNYLLEPSVVNAYNEKNAAYSPLKDAPAVENPQISGLNASVKEGRYYQGATTYFPPSVPLNNYVQSFVYTKNGEQFLAALDDEWRRVAERTAV	PGPT0016330_1033	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
D1-17_01068	954	melD_1	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGACCACAACTGCCAGGGTGGCCCAGACAGCCCCTCCCGCATCCCCGCAGACCCCAACATCCGCCCCGGCCAAAAAAGGCATGTTCCGCGGCAAGGACACGATTGATCCCACGTATTACTGGATGGTGGTGCCGGTCCTGGCACTGTTTGCCTTCTTCATCACCCTGCCGGCCCTCGTGGGCGTGTTCTTCAGCCTCACGAACTACGCGGGCTACGGTGACTGGAAGTTCATCGGCTTGTCCAACTACGTCAACATCTTCAAGGATCCGGCAGTCCTCCAGTCCTACATCTTCACGTTCGTCTTTGCCCTGACCACAACAGTGGTGGTCAACGTCGTGGCGCTCGCCATCGCCCTGGGCCTCAACGCGAAGATCAAGTGGCGGACCGGCATCCGCACCGTGTTCTTCATCCCCATGGTGCTGTCCGCGCTGATCGTCTCCTTTGTGTTCAACTACCTCTTCTCGAACACCCTCCCAGTGCTGATGGACAGGCTCGGCTACACCCCGCTGGCCACGAGCATCCTCGCCAACGAGAATCTCGCCTGGCTCGCCATCGTGATCGTCACTGTGTGGCAGGCGGCGCCCGGCGCCACCATCATCTACCTGGCGGGCCTGCAAAGCGTTCCCTCGGAAGTGTACGAAGCGGCTGACCTGGACGGGGCCGGCAGCTTCCGCCAGTTCCTCAGCCTCACGCTGCCGCTGATCATGGGCTACCTGGTGATCAATGTGATCCTAGGGTTCAAGGGTTTCCTGGGAACGTACGAGATCATCGTCGGACTCACCGGCGGCGGTCCCGGCATGGCGACTCAATCAGTGGCCATGCGCATCTTCTCCGGCTTCACGGGCGGGGACTACTCCTATCAAATGGCCAACGCCGTCATCTACTTCATGATCACCTTGCTGATCTCCGTCATCCAGCTGCGCCTCATCCAGCGCCGGGGGGTTTCTCTCTAA	MTTTARVAQTAPPASPQTPTSAPAKKGMFRGKDTIDPTYYWMVVPVLALFAFFITLPALVGVFFSLTNYAGYGDWKFIGLSNYVNIFKDPAVLQSYIFTFVFALTTTVVVNVVALAIALGLNAKIKWRTGIRTVFFIPMVLSALIVSFVFNYLFSNTLPVLMDRLGYTPLATSILANENLAWLAIVIVTVWQAAPGATIIYLAGLQSVPSEVYEAADLDGAGSFRQFLSLTLPLIMGYLVINVILGFKGFLGTYEIIVGLTGGGPGMATQSVAMRIFSGFTGGDYSYQMANAVIYFMITLLISVIQLRLIQRRGVSL	PGPT0016335_495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
D1-17_01069	867	melC	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGACCGCATCCACGCTTCCAGCCCTCAAGATCCGCAGATCCAGCCGGGAAGGCTACAAGGTCAACTGGTGGCTCACCGCACTGATGCTGGTGGCATCCCTGACCATTTTGCTGCCGCTGTACTTCACCGTGGCGATGGCCCTGAAGTCCCCGGAGCAGATCGGCGGAACCGGCCTCGCCTGGCCCAACCCGATGAACTGGGAAAACTTCGCCGCCGCCTACGTGGCCACCAATTTCCCCCGGGCCTTTCTGTCCACGGCATTCGTCACCGTGTTCAGCGTCCTCGGATCGCTGACCTGCAGCTCTCTGGTGGCCTACGCAATCGCCCGCAACTGGAACCGCAGGTTCTTCCGGGGTTCCTTCGTCTACCTGCTCTCCGCGATGTTCATTCCGTTCCCGGTGATCATCCTGCCCCTCATCAAACAGACGGCATTGCTTGGCCTGGACAATCCTGCCGGCGTGGTGTTCCTCCACGTGCTGGGCGGCATCTCCTTCAACACCCTGCTGTACATCGCCTTCGTCCGCTCCATCCCGGTGGAGCTGGAGGAAGCAGCCCGTATGGACGGTGCGACCACCTGGCAGGTGTTCCGCAAGATCATCTTCCCGCTGCTGGCCCCCATGAACGCGACGGTGGGCATCTTCGCCTTCCTCAACTCATGGAACGATTTCCTGCTGCCCCAGATGATGATCGCCGACCCGGCCCTTCAGACGCTGCCCGTCGTGCAGATGCTCTTCCAGGGCGAATTCAACACCAACTACAGCCTCGCATTCGCGTCGTACCTCATGGCCATGGCGCCCACCCTGGTGGTTTACATCCTGGCCCAGCGCTGGGTACTGTCCGGAGTGATGCGTGGTGCAGTCAAGTAG	MTASTLPALKIRRSSREGYKVNWWLTALMLVASLTILLPLYFTVAMALKSPEQIGGTGLAWPNPMNWENFAAAYVATNFPRAFLSTAFVTVFSVLGSLTCSSLVAYAIARNWNRRFFRGSFVYLLSAMFIPFPVIILPLIKQTALLGLDNPAGVVFLHVLGGISFNTLLYIAFVRSIPVELEEAARMDGATTWQVFRKIIFPLLAPMNATVGIFAFLNSWNDFLLPQMMIADPALQTLPVVQMLFQGEFNTNYSLAFASYLMAMAPTLVVYILAQRWVLSGVMRGAVK	PGPT0016340_488	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
D1-17_01070	1710	malL_2	COG0366	Oligo-1,6-glucosidase	TTGTCCACCACTGCCACCCTGGCAACCTTGTCCGATGACCACCGTTTCGCCGATCCGAACTGGTGGCGCCAGGCGTCCGTGTACCAGATCTACCCGCGCAGTTTCTCCGATTCCAACGGGGACGGCCTGGGTGATATCAAGGGCATCACCGCCAAGGTCCCGTACCTGCAGTCACTGGCGATCGACGCTGTTTGGCTGAGCCCGTTCTACCCCTCGGCGCTTGCCGACGGCGGCTACGACGTGGATAACTACCGCGACGTGGACCCAAAGCTCGGCACGCTGGACGACTTCGACGAGATGGCTGCGGCGCTCCACGCCGCCGGCATCAAGCTGATCGCCGACATTGTCCCGAACCACTCCTCCGACCGGCACGAGTGGTTCCGGGAAGCCCTCGCCTCGCCGAAGGGATCGCCTGCCCGCGACCGCTACATCTTCCGTGACGGCAAGGGCCCGAACGGTGAGTTCCCGCCGTCGGACTGGGACTCCGTCTTCGGCGGCTCCGCCTGGGAGCGCATCACCGAACCGGACGGCACCCCTGGCCAGTGGTACATGCACATCTTCGCCAAGGAACAGCCGGACCTGAACTGGGCCAACCGCGAGATCCGCGACGACTTCCTGAAGACCCTGCGCTTCTGGTCCGACCGCGGCGTGGACGGTTTCCGGGTGGACGTGGCGCACGCCCTCGTCAAGGACCTCACCGAACCGCTGCTCTCCAAGCTAGAGCTGAGCGCTGCCAACACCGGCACTGACGGCTTCGACGACGGTTCGCACCCGTTCTGGGACCGCGACGAAGTCCACGAGGTCTACGCCGAGTGGCGCGAGGTCTTCAACGAATACAACCCCCCGCGGACTGCTGTTGCAGAAGCCTGGGTCCACGCCACGCGCCGCCCGCGCTACGCCAGCCCCCAGGGCCTGGGCCAGGCGTTCAACTTCGACCTCCTGCAGGCAGACTTCGACGCGGAGGAATTCAAGGAAATCATCACCCGCAACCTTGCCGAGGCCGCCGCTACCGGCGCCTCCTCGACGTGGGTGTTCTCCAACCACGACGTCGTCCGCCACGCCACGCGCTACGGGCTGCCCAAGGGAAGCAAGGGCAAACACCCGAAGGGGCAGGACGGCAAGACCTGGCTGCTGGCGGGCGGGCCCAAGGAGGAACTGGACGTGGAGCTCGGCGAGCGCCGCGCCCGGGCTGCCACCCTGCTGATGCTGGCCGTTCCCGGTTCGGCCTACCTGTACCAGGGCGAGGAACTGGGCCTGCAGGAAGTCGCGGAGATCCCGGAGTCTGAGCGCCAGGACCCCTCGTTCTTCCGCAACAGGGGCGTGGAGGTCGGCCGCGACGGCTGCCGCGTGCCCCTGCCCTGGGCCGCCGAGGGCAGCTCCTTCGGATTCGGCGACGGCGGCGCCCACCTTCCGCAGCCGGCATGGTTCAGCAAGTACGCCGTTGAGGTTCAGGACGGCGTCGAAGGCTCCACCCTTGAGATGTACCGCACCGCTCTGAAATTGCGGCGCGAACTGCAAACCGCAGAAGAACTCGAATGGATCGAGACCGGCAACCCCGAGGTCCTGCACTTCAGCCGGCCCGGCGGCTGGCAGTCCGTGACCAACTTCGGCGAGACTGCCGTCGACCTTCCGGCGGGCACGGTGCTGGTCAGCAGCGCCCCGCTCGAGGATGGCAGGCTGCCGGGCAACACCACCGCTTGGCTCCGCTGA	MSTTATLATLSDDHRFADPNWWRQASVYQIYPRSFSDSNGDGLGDIKGITAKVPYLQSLAIDAVWLSPFYPSALADGGYDVDNYRDVDPKLGTLDDFDEMAAALHAAGIKLIADIVPNHSSDRHEWFREALASPKGSPARDRYIFRDGKGPNGEFPPSDWDSVFGGSAWERITEPDGTPGQWYMHIFAKEQPDLNWANREIRDDFLKTLRFWSDRGVDGFRVDVAHALVKDLTEPLLSKLELSAANTGTDGFDDGSHPFWDRDEVHEVYAEWREVFNEYNPPRTAVAEAWVHATRRPRYASPQGLGQAFNFDLLQADFDAEEFKEIITRNLAEAAATGASSTWVFSNHDVVRHATRYGLPKGSKGKHPKGQDGKTWLLAGGPKEELDVELGERRARAATLLMLAVPGSAYLYQGEELGLQEVAEIPESERQDPSFFRNRGVEVGRDGCRVPLPWAAEGSSFGFGDGGAHLPQPAWFSKYAVEVQDGVEGSTLEMYRTALKLRRELQTAEELEWIETGNPEVLHFSRPGGWQSVTNFGETAVDLPAGTVLVSSAPLEDGRLPGNTTAWLR	PGPT0018560_3301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-17_01071	981	ydhF	COG4989	Oxidoreductase YdhF	ATGACTGAACAAACCTCGACGCCCTTCCAGGGAACGACCTCCGGACGGCTGATCTACGGGTGCATGGGCCTGGGTGGAACCTGGTCTGATGAGCCCCATGACATCACCGACGTTGAAACTGCCGCCGAGGCGGTGGAGGCCGCCATGGACGTCGGCGTCACGCTGTTCGACCATGCGGACATCTACCGGAACGGCAAGTCCGAAACCGTCTTCGGCGAGGTCCTGGCCGCCACCCCCGGGCTCAGGGAACGCATCCAGCTGCAGACCAAGTGCGGCATCCGGCTCAACGAGCGGGGTCTGGAAACGTACTATGACCTGAGCAGCGACGCCATCATTGAGCGCGTGAACGGCAGCCTGGAACGGCTCCGGACGGACTACGTCGACATCTTGCTGCTGCACCGCCCGGATCCGCTGATGGACCCTGCCGAGGTGGCGGCCGCCGTCGGGAAACTGATGGCGGAAGGCAAGGTGCGCGCGCTCGGCGTGTCCAACATGTCGGCGGCGCAGATCGAATTCCTGCAGGACAGCCTCGAGACGCCTGTGGTGGCCAACCAGCTCGAACTCAGCCTGCTCAAGCGGGACTGGCTGGAAAGCACCGTGCTGGTCAACCACCCGGGCGCCGCGGACTACAGCTTTCCGCACGGGACACTCGAATACTGCGCCCGCCAGGGGATCGCGCTGCAGGCTTATGGGGCGCTGGCCCGGGGCCACTACACCGGCAACCCGCCGGAACGGCCCACGCTTGCGGAGTCCGCCACGGCGCAACTCCTCTCCGACATGGCGCGGGAGCGGGGCACCACCCGGGAGGCCGTGCTGCTGGGGTGGCTCATGAAGCATCCGGCGGGTATCGCCCCGGTGATAGGAACGGCGAACCCCGACCGGATCCGTGCCTGCGCCGGCGCCGCCAGGGTGGCGCAGACCATGACCCGCGAAGAGTGGTACCGGCTGTGGGTCACGGCCCGGGGGAGCAACATCCCCTAA	MTEQTSTPFQGTTSGRLIYGCMGLGGTWSDEPHDITDVETAAEAVEAAMDVGVTLFDHADIYRNGKSETVFGEVLAATPGLRERIQLQTKCGIRLNERGLETYYDLSSDAIIERVNGSLERLRTDYVDILLLHRPDPLMDPAEVAAAVGKLMAEGKVRALGVSNMSAAQIEFLQDSLETPVVANQLELSLLKRDWLESTVLVNHPGAADYSFPHGTLEYCARQGIALQAYGALARGHYTGNPPERPTLAESATAQLLSDMARERGTTREAVLLGWLMKHPAGIAPVIGTANPDRIRACAGAARVAQTMTREEWYRLWVTARGSNIP				NA	NA	NA	NA	NA
D1-17_01072	864	mcl1	COG2301	L-malyl-CoA/beta-methylmalyl-CoA lyase	ATGACGTCTACTTCCACTGCCGAGATCACCCGGCACGAACGCAACATCCCTGCCGAAATCGCCCGTTCGTGGCTCTTGGTCAACGCAATGAAGACCGAGCTCTTCGACCAGTCGGCAGTGTCCCGCGCGGATTCCATCATTCTGGATATCGAAGACGCGGTTGACCCGTCGCAGAAGGACGCAGCGCGCGAAAACGTGGTGAACTGGCTTACCGCCGGCGGCCAGGCCTGGGTCCGGATCAACGACGCTCTCAGCCCGTTTTGGGCCGACGATCTCGCAGGCCTCCGCGGCACGCCTGGCCTGCTCGGCGTCATGCTCGCAAAGACCGAATCGGCCGACCAGGTGACGGAGAGTTTCCACCGCATGGATGGCAAGACCCCCGTGATCCCGCTGGTGGAGAGCGCCGTGGGCATCGAGGAAGCCAACCAGATCGCGAAGGCCCAGGGCGCGTTCCGCCTGGCGTTCGGTTCCGGTGACTTCCGCCGCGACACCGGCATGGCGAACACCCAGGAAGCCATGGCTTACCCGCGCGCCAAGCTTGTGGTTGCCAGCCGCGTCGGCAACCTGCCCGGTCCCATCGACGGCCCCACCGTCGGCACCAACCACCCGATCCTGCGCGAGCAGACCGGCATCACGGTGATGATGGGCATGACTGGCAAGCTGTGCCTGGCCATTGACCAGACCAGCGTCATCAACGAGGTCATCAGCCCCACGCCGTCCGACGTCGCGTGGGCCACCGACTTTATGGCTGACTTTGAGGCCAGCGGGCGGGTCATCCGTGACGGCTCGGATTTGCCCCGCCTCGGCCGGGCAGAGAAGATTATGAAGCTCGCGGTAGCGTTCGGCGTGCAGCCGGCGCCGTAA	MTSTSTAEITRHERNIPAEIARSWLLVNAMKTELFDQSAVSRADSIILDIEDAVDPSQKDAARENVVNWLTAGGQAWVRINDALSPFWADDLAGLRGTPGLLGVMLAKTESADQVTESFHRMDGKTPVIPLVESAVGIEEANQIAKAQGAFRLAFGSGDFRRDTGMANTQEAMAYPRAKLVVASRVGNLPGPIDGPTVGTNHPILREQTGITVMMGMTGKLCLAIDQTSVINEVISPTPSDVAWATDFMADFEASGRVIRDGSDLPRLGRAEKIMKLAVAFGVQPAP	PGPT0019480_2325	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019480-citE-K01644	NA	NA
D1-17_01073	225			hypothetical protein	GTGCTGAACGAATTCTGGGCTACAGCGCCCGCCTCATACAAAGTCCTGGTTTTCAGCGCGATGGGTCTGATCGCCGCAGGCATCATCCTCAACCTCGCGGGAAATGCCGCCCACAACCAAGGGCTCATGGTGGCGTCGCTGCCCGTGATCGGCCTTGGTCTGGTGCTGCACGTCGTGGCGCTGGTGGTCCGTGGCCAGCACATCCGGAAGAGCTACAAGAGGTAG	MLNEFWATAPASYKVLVFSAMGLIAAGIILNLAGNAAHNQGLMVASLPVIGLGLVLHVVALVVRGQHIRKSYKR				NA	NA	NA	NA	NA
D1-17_01074	177			hypothetical protein	ATGCCAGCAGTTCGCGCCACAGACCGGCATGGACAGGAACGGCAGGTCACGTTGATTTCCGCAGCCCAGGCACCCTTGTACGAAATCAAGGCGAACCTCTTCAAGGCACTAGCTCATCCGGCGCGGATCCGGATCCTCGAGCTGCTGTCGGCCGCCCCGGACACGCTGCCCCTGTGA	MPAVRATDRHGQERQVTLISAAQAPLYEIKANLFKALAHPARIRILELLSAAPDTLPL				NA	NA	NA	NA	NA
D1-17_01075	462			hypothetical protein	ATGACTATCAATCCGGATCTGCAGGGCCGGAGCTACCCTGCCGCAGAGGTGTACGACGTCGGTCGCGAGAAAATCCGCGAGTTCGCCCGCGCGGTCAAGGCTACCCACCCCGCCCATTTTAACGTCGAGGCCGCCCAGGGCTTGGGCCACCCCGATCTCGTGGCCCCGCCGACGTTCGCGATCATCGTCGCGCAGCGCGCCGATGCCCAGCTGATCGAGGATCCGGAGGCCGGAATCGACTTTTCCCGCGTGGTCCATGCCGACCAGCGCTTCACCCATCACCGCCCCATCTTTGCCGGCGACCGCCTCGTGGCAGAGCTGCACGTTGACGGCGTCCGCGCCATGGGCGGCGGTGCCATGATCACCACCCGGGCCGAGATCTTCGCCCTGGGCGAGGGCGACGGCCGTGAGCCCGTCTCCACCACCAAGTCATCCATCCTTGTCCGCGGGGAGGGACAGTAA	MTINPDLQGRSYPAAEVYDVGREKIREFARAVKATHPAHFNVEAAQGLGHPDLVAPPTFAIIVAQRADAQLIEDPEAGIDFSRVVHADQRFTHHRPIFAGDRLVAELHVDGVRAMGGGAMITTRAEIFALGEGDGREPVSTTKSSILVRGEGQ				NA	NA	NA	NA	NA
D1-17_01076	438			hypothetical protein	ATGAATCCTGTTTTTGAAGAACTGGCAATCGGGCAGGACATCGGCAGCCGCAGCATCGGCGTCACGCGCCAGGACCTGGTCAAGTACGCCGGCGCCTCTGGGGACTTCAACCCCATCCACTGGAATGAAGCCTTCGCCACCGGGGTGGAGCTCCCCGGCGTCATCGCGCACGGCATGTTCACCATGGGCGCAGCCGTGCAGCTGGTGACCGACTGGGCAGGCGACCCCGCCGCCGTCGTCGATTACCAGACCCGCTTCACCAAGCCGGTGCTGGTTGCCGACACCACCGGAACCGGTGACGCAGGTGCCGTGATCGATGTCAGCGGAGCCGTGGGCGCGCTGGATGCTGAGACGCGGACGGCACGGGTTGACCTCGCAGTGGTCTTCGACGGGCAGAAAGTCCTCATGAAGGCGCAGGCCCTTGTGAAGCTGGCCTGA	MNPVFEELAIGQDIGSRSIGVTRQDLVKYAGASGDFNPIHWNEAFATGVELPGVIAHGMFTMGAAVQLVTDWAGDPAAVVDYQTRFTKPVLVADTTGTGDAGAVIDVSGAVGALDAETRTARVDLAVVFDGQKVLMKAQALVKLA				NA	NA	NA	NA	NA
D1-17_01077	690			hypothetical protein	GTGGACGGGTCCTCGAAGGTGTCGGGGCGGTACGCGGCCGCAGGTTCCACGGGGGTAACGTCCGCGCGGAACCAGCGGGCCGCCGTCGTCACGGAAGCGGCTACCACCAGCCCGGCCGAGGCAAGGTGCCAAAACACAGGGACGCCTGCTCCGGCTGCCCACGCCCCGAGTCCCGCACCCGCCACGGTGCCCAGGCTGAAGGCGCCGTGCAGGCGCGGCATAATATGGCGCCCCACGGCGCGCTCCACCGCGGCACCCTCAACGTTCGAAGCAGTGTTCCAGCTCGCTGTGCCCAGCCCGATGACAGCCAAACCCAGTGCTACGGCGGGCGGGCTGGCGAGCACGGACGTGCCGAAGCCGGCGGCCGCCAGGCCGAGCCCCACCATGATGCTCCCGGTCCGCATCGTGCGTTTGGAACCCAGCCGGAGCACGATCAGCCCCGACGCCGAAACGGAAAGGAACGACCCCGCGGTCATGCACAGCAGCAGCAACCCGACAGTCCCCGGGGTGAGTTCGAGCCCGTCCCGAATCGCCGGCAGGCGGGAGACCCAAGAGCTGAAGGCAAGGCCGCTGGCGGCATACGCCAGCGCGACGGCGATACGCCAGTGCGTGACCTCGCGCTCTGTTACGGCGGCGGAACTCAACGCAGCATCAGTCAGGCCAGCTTCACAAGGGCCTGCGCCTTCATGA	MDGSSKVSGRYAAAGSTGVTSARNQRAAVVTEAATTSPAEARCQNTGTPAPAAHAPSPAPATVPRLKAPCRRGIIWRPTARSTAAPSTFEAVFQLAVPSPMTAKPSATAGGLASTDVPKPAAARPSPTMMLPVRIVRLEPSRSTISPDAETERNDPAVMHSSSNPTVPGVSSSPSRIAGRRETQELKARPLAAYASATAIRQCVTSRSVTAAELNAASVRPASQGPAPS				NA	NA	NA	NA	NA
D1-17_01078	513	ybjJ_2		Inner membrane protein YbjJ	ATGGTGCTTGGCCTCGCGCTGGCGGAAGGCGCGGCGGGGGACTGGGTGGCGCTGGCCCTCGCAGACGGACACCAGCAGTCAGATGCCGCCGGAGCCGCGGGGTACGGCCTTTTTGTCACCCTCATGACCATCGGACGTTTTGCCGGAACATCCGTGCTCGACCGTTTCGGCCGTGTCCCCGTGATGCGCTTGTGTTCCGCGCTGGCCATTCTGGGGCTGGGATTGTTCGTGTTCGCCCCCGAGCCCTGGCTTGCCTACACGGCCCTGGCAGTCTGGGGCCTGGGTGCGTCCCTCGGCTTCCCAGTGGGCATGTCCGCCGCGGCCGATGATCCGGCCAAGGCTGCCGCCCGCTTATCGCTCGTGTCCACTATCGGGTACGGCGCCTTCCTATGCGGTCCTCCGCTGCTGGGTTTGCTGGCCGAGCACGTCGGGATCCTGCATTCGCTGCTGGCCGTGATGGCGGTGCTCGTGGTGAGCTTCCTGCTGTCGCCGGTGGCCCGCAAGGCTTCCTAG	MVLGLALAEGAAGDWVALALADGHQQSDAAGAAGYGLFVTLMTIGRFAGTSVLDRFGRVPVMRLCSALAILGLGLFVFAPEPWLAYTALAVWGLGASLGFPVGMSAAADDPAKAAARLSLVSTIGYGAFLCGPPLLGLLAEHVGILHSLLAVMAVLVVSFLLSPVARKAS				NA	NA	NA	NA	NA
D1-17_01079	1056	murB	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGCTTTCTGACCTGACCACGGCCGCCGTCGGAGGCCCTGCCGCCAACTACGTCGATGCCCACACCGAGGCAGAGATCATCGACGCCGTGCGCTCGGCCGACGCCGCCGGCGAGCCCGTGCTCATCCTCGGCGGCGGGTCCAACCTGCTGATTTCCGACGACGGGTTCCCCGGAACCGTCGTGAAGATCGCCTCCGAGGGGTTCACCGTCAACGCCGAGGACTCCTGCGGTGGCGTGTCCGTGGTGGTGCAGGCCGGCCACAACTGGGATGCCCTTGTGGAGCATGCCGTGCTGCACAACTGGTCGGGGGTAGAGGCCCTGGCCGGGATTCCCGGCGCCACCGGCGCCACCCCCGTGCAGAATGTGGGAGCGTACGGTTCCGACGTCTCGCAAACCATAGCTGCCGTCCGTACCTGGGACCGGGAAGGCAACGTGGTGAAGACCTTCACCAACTCCGAGCTGAAGTTCGGCTACCGGGATTCCATCCTCAAGCAGACCACGGTCAACGGGTCACCCCGATACGTGGTCCTCACGGTCGAGTTCCAGCTGCCACTGGGGAGGATGAGCGCCCCGGTCCGCTACGCGGAGCTGGCAAGGGTGCTCGGCGTTCAGCAGGGGGAACGGGCTTACTCCAATGACGTGCGCCGGGAAGTGCTGAGGCTGCGGGCTTCCAAGGGTATGGTGCTGGACCCGGCTGACCGGGACACGTACTCCACAGGCTCCTTCTTTACGAACCCCATCGTCCCGGCAGCCGTGGCGGACGAACTGCCCCAGAACGCCCCCCGTTATCCCGCCGGTTCCGACGGCCTCGTGAAGCTTTCCGCCGCATGGCTGATCGACCAGGCCGGATTCGGCAAAGGCTTCGGCCTGGACGCTGGAAGCGTGTCCGGCGGACGGGCCTCGTTGTCCACCAAGCACACGCTGGCCATCACCAACCGTGGTTCCGCCAGCGCCGCGGATATGGTGGCCATTGCGCGTGAGGTGAGGGACGGCGTCGTCGGGCGTTTCGGCATTGAACTTCACCCCGAGCCGCTGTTGATCGGCGTTGCCCTCTAG	MLSDLTTAAVGGPAANYVDAHTEAEIIDAVRSADAAGEPVLILGGGSNLLISDDGFPGTVVKIASEGFTVNAEDSCGGVSVVVQAGHNWDALVEHAVLHNWSGVEALAGIPGATGATPVQNVGAYGSDVSQTIAAVRTWDREGNVVKTFTNSELKFGYRDSILKQTTVNGSPRYVVLTVEFQLPLGRMSAPVRYAELARVLGVQQGERAYSNDVRREVLRLRASKGMVLDPADRDTYSTGSFFTNPIVPAAVADELPQNAPRYPAGSDGLVKLSAAWLIDQAGFGKGFGLDAGSVSGGRASLSTKHTLAITNRGSASAADMVAIAREVRDGVVGRFGIELHPEPLLIGVAL	PGPT0024115_637	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
D1-17_01080	1125			hypothetical protein	ATGGCAACGGAGACACGGGTACGGGTAACTCCCCGGATCATGGGACGGCTGCGGCTGGCTTCGCAAGGTCTGCTGGCTGGAGGATTTCCCAGTGTTCCTGAGGCCGTCCGCGGAATGACTGCTATGCAGGCGCAGGACCTTCAGGCGGTGCTCTGGGCGGTGGGCTTGCGCGTCCCCGGAGCCGGCGTGAATGACGTGCGGGCGGCCTTGAATTCGGGGGCCGTAGTGCGGTCGTGGTCGATGCGCGGCACCCTCCACCTGCTCGCACCCGAGGATCTGCGCTGGATCCTGAATATCACCACGCCGCGGCTGGTCCAAGGGATGTCGAGCCGGCACCGCCAGCTCGAGATCACCGCGGGCGACGTTGAAGTCTGCAAGAAGATTGCCTTGGACCTGCTTTCCGGAGCACCGGGTGATGGCAGCAGGCGCGGTGCCACGCGGCGCGAGCTGTTCGAGGCGTTCGCGGCGGGCGGCCAGCCGCCTGCCGGGCAACGCGGCATCCACCTGCTGGGACTGCTCTGTCAAAGCGCTACGCTCGTGCCGGGGCCGCTGGACGGAAACCAGCAGAAGTTCGTGGCGTTCGATGACTGGATCACCACTTCGCGCGATCTCGACCGCGGGCAGGGCATCGGAGAACTGCTGCTCAGGTATCTGCGCAGCCACGGGCCGGCGACCGTGCGCGACTTCGCCTGGTGGTCCAACATCACCCTGACAGAGGCCCGGGCTGCGCTGGTGTTGATCCGGGGAGAGGTCGTGAAGCTGGAATTTGGCGGGACGGACTACTGGATGTCGCCGCAGACGGCCGAGCTGCTTGACGGCCGCGTGCCGGGCCAGCGCACTGTTCTGGCACTGCCCGGGTTCGACGAGTTCATCCTCGGCTACACGGACCGTAGCCTGGTACTCCCACCGGAGCACGCCCAGAAGATCGTCCCGGGCGGGAACGGGGTGTTCAAGAAGGCGATTGCGGCAGGCGGCGAGGTCGTCGGAACATGGGCGCGGCAGGGGACAGGACGAACGGGGTCCTATGTGCCTGAGCCGTTCGACACCTCAAAGCCCCTGGACCCGGCGATCGTGGCGGGATTCAACCGTTCCATCAGGCAGTACGAGAAGTTCCTCGCGTCCTAG	MATETRVRVTPRIMGRLRLASQGLLAGGFPSVPEAVRGMTAMQAQDLQAVLWAVGLRVPGAGVNDVRAALNSGAVVRSWSMRGTLHLLAPEDLRWILNITTPRLVQGMSSRHRQLEITAGDVEVCKKIALDLLSGAPGDGSRRGATRRELFEAFAAGGQPPAGQRGIHLLGLLCQSATLVPGPLDGNQQKFVAFDDWITTSRDLDRGQGIGELLLRYLRSHGPATVRDFAWWSNITLTEARAALVLIRGEVVKLEFGGTDYWMSPQTAELLDGRVPGQRTVLALPGFDEFILGYTDRSLVLPPEHAQKIVPGGNGVFKKAIAAGGEVVGTWARQGTGRTGSYVPEPFDTSKPLDPAIVAGFNRSIRQYEKFLAS				NA	NA	NA	NA	NA
D1-17_01081	1083	asd	COG0136	Aspartate-semialdehyde dehydrogenase	ATGGTCGGCTCCGTCCTGATGCAGCGCATGCAGGACGAGGGCGACTTCGCCAACATCAACCCGGTGTTCTTCTCCACCTCCAACGCGGGAGGTGCCGCGCCTTCCTTTGCTGAAGGGGCCGGCAAGCTCGAGGACGCGTTCGACGTCGAGACGCTGGCGAAGCTGCCAATTATTGTCACCGCCCAGGGCGGAGACTACACCAAGCAGGTCCACGGCGAACTCCGCAGCCGCGGATGGGACGGTCTTTGGATCGACGCCGCCTCCACCCTGCGCATGAACGACGACTCGATCATCGTGCTGGACCCCATCAATCGCGACGTCATCGACAAGGGACTCGTGAACGGCACCAAGGACTTCATCGGCGGCAACTGCACGGTGTCGTGCATGCTGATGGGACTGGGCGGCCTCTTCAAGAATGGCCTCGTTGAGTGGGGCACGTCTATGACCTACCAGGCAGCCTCCGGCGGCGGCGCGCGGCACATGCGCGAGCTGCTGAGCCAGTTCGGCACGCTCAATGCAGAGGTCAGCACGGAACTGGACGACCCGGCGTCGGCCATCCTGGACATCGACCGCAAGGTCCTCGCCCACCAGCGCAGCGACATCGACGCCACGCAGTTCGGGGTGCCGCTGGCCGGATCCCTGATCCCCTGGATCGACGCGGACCTCGGCAACGGCCAGTCCAAGGAGGAGTGGAAGGCCGGCGTCGAAACCAACAAGATCCTCGGCACCTCGGACGACAACCACATCATTATGGACGGCCTCTGCGTGCGGATTGGCGCCATGCGCTCGCACTCGCAGGCGCTCACCCTGAAGCTGCGCGAAGACCTGTCTGTCGCGGAAATCGAGAAGCTGCTCGATGAGGACAACGAGTGGGCGAAGGTTGTGCCCAACACGAAGGAAGCCTCGATGGCCGACCTGACCCCGGTCGCGGCTTCAGGCACCCTCGACATCCCCGTTGGCCGGATCCGCAAGATGGAGATGGGTCCGCAGTACATCAGCGCCTTCACCGTGGGTGACCAGCTGCTCTGGGGAGCAGCCGAACCGCTCCGGCGCATGCTGAACATCGCGACCGGGACGCTGTAA	MVGSVLMQRMQDEGDFANINPVFFSTSNAGGAAPSFAEGAGKLEDAFDVETLAKLPIIVTAQGGDYTKQVHGELRSRGWDGLWIDAASTLRMNDDSIIVLDPINRDVIDKGLVNGTKDFIGGNCTVSCMLMGLGGLFKNGLVEWGTSMTYQAASGGGARHMRELLSQFGTLNAEVSTELDDPASAILDIDRKVLAHQRSDIDATQFGVPLAGSLIPWIDADLGNGQSKEEWKAGVETNKILGTSDDNHIIMDGLCVRIGAMRSHSQALTLKLREDLSVAEIEKLLDEDNEWAKVVPNTKEASMADLTPVAASGTLDIPVGRIRKMEMGPQYISAFTVGDQLLWGAAEPLRRMLNIATGTL	PGPT0014045_300	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
D1-17_01082	219			hypothetical protein	ATGCTTAAAAAACCCGAAACACTGTTCGTGCTCGGCTACATGCTGCTGCCCCTGCTCGCGCTGCTGTCAGCGATCGTCGGCCTGACGATGATCCTCGGCGGCAACAAGATCGCCGGTGTCATTGTCCTGGTTGTGGTGACCCAGGCGTTTGCCTTCGGCGCATTCTATGCACTGCGCGCCCGCAGGAACGCCGTCCCGGAAGAGCGAGACCGGCAGTAG	MLKKPETLFVLGYMLLPLLALLSAIVGLTMILGGNKIAGVIVLVVVTQAFAFGAFYALRARRNAVPEERDRQ				NA	NA	NA	NA	NA
D1-17_01083	585	folA	COG0262	Dihydrofolate reductase	ATGAGCACCGAGGAGACCATGGATCCGCAGGCCTTCAGCGACGGGATCGCCGCGAACACAACAGGGCTCGGCCTTATCTGGGCCCAAACCACGTCCGGGGTCATCGGCCTGGACGGCGACATGCCATGGCACCTGCCGGAAGACCTTAAGCACTTCACCAGGGTTACCAGCGGGCACCCCGTCATCATGGGCCGCAAGACGTGGCTGTCCTTCCCTGAGAAGTACCGTCCCTTGCCCAACCGCACGAACATCGTCATCACCCGGCAGGAAGGCTGGGCCGGAACGCCCGAGGCGGAGGGCGCCGTCGTCGTCAAATCCCTTGACGACGCGCTGCTGGAGTCACAGTTCGTGCCCGGCTCCGAGACGATCTGGATCCTGGGCGGCGGCGAGATTTTCGAGCAGTGCGTAGATCTCGCCGACACAGCCGTGGTCACCACCATCGATGTGGAGGCGGACGGCGACACCTTCGCTCCCGAACTCGGCGCGCCGTGGGTGCCGGAAGAGTCAGTTCCCCAGGATGGCTGGCTCACGGCAGCCAACGGCACGCGCTACCGGTTCACCAAGTGGAACCGTAAAGAAGGCTAG	MSTEETMDPQAFSDGIAANTTGLGLIWAQTTSGVIGLDGDMPWHLPEDLKHFTRVTSGHPVIMGRKTWLSFPEKYRPLPNRTNIVITRQEGWAGTPEAEGAVVVKSLDDALLESQFVPGSETIWILGGGEIFEQCVDLADTAVVTTIDVEADGDTFAPELGAPWVPEESVPQDGWLTAANGTRYRFTKWNRKEG	PGPT0007945_392	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
D1-17_01084	804	thyA_1	COG0207	Thymidylate synthase	GTGAGCATACCAACGCCCTATGAGAACCTCTTGCGCGACGTTCTGGCCCACGGCACGCACAAGTCCGACCGCACCGGAACGGGGACCAGCAGCGTTTTCGGTCGTCAGATGCGCTTTGATCTCAGCGAAAGCTTCCCGCTGATCACCACCAAACGCGTGCATTTCAAGTCGGTCGCCGTCGAACTGCTGTGGTTCCTGCGCGGTGACACCAACGTGAAGTGGATGCAGGACCAGGGCGTCACCATCTGGAATGAGTGGGCTGATGCCGACGGCGAGCTCGGCCCGGTCTACGGTGTCCAGTGGCGCAGCTGGCCGACTCCGGACGGTGGCCACATTGACCAGATTGCGGAACTTGTCGAGAACCTGAAGGCCAGCCCCGATTCCCGCCGGCACATCGTGTCCGCCTGGAATGTGGCCGAGCTTAAGGACATGGCGTTGCCGCCCTGCCACGCCTTCTTCCAGTTTTACGTGGCCGACGGCAAGCTGTCGTGCCAGCTCTACCAGCGCTCGGCGGATATGTTCCTGGGTGTGCCGTTCAACATCGCCTCCTACGCCCTGCTGACCTGTATGCTGGCGCAGCAGACGGGGCTGGAGCCGGGAGAGTTCGTCTGGACCGGCGGCGACGTCCACATCTACGACAACCACATGGACCAGGTTCTGAAGCAGCTGGACCGCGAACCCTATGAGTACCCGCAGCTGAAAATCACCCGCAAACCTGCGTCGATCTTCGACTACACCCTGGAAGACTTCGAAGTGGTGGGCTACCGGCACCACCCCACGATCAAGGCGCCGATTGCCGTATGA	MSIPTPYENLLRDVLAHGTHKSDRTGTGTSSVFGRQMRFDLSESFPLITTKRVHFKSVAVELLWFLRGDTNVKWMQDQGVTIWNEWADADGELGPVYGVQWRSWPTPDGGHIDQIAELVENLKASPDSRRHIVSAWNVAELKDMALPPCHAFFQFYVADGKLSCQLYQRSADMFLGVPFNIASYALLTCMLAQQTGLEPGEFVWTGGDVHIYDNHMDQVLKQLDREPYEYPQLKITRKPASIFDYTLEDFEVVGYRHHPTIKAPIAV	PGPT0008145_2633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
D1-17_01085	972			hypothetical protein	TTGAAGAGCGATTCCCTCATAGCGGATCAGACTGACCACCCCGGCGAGCCCGTAGCCGTAACGGCCGCCGGCGCCCTGCCGTGGCGCGTCAAAAAGGACCAGCTGGAAGTTCTCCTGATTCACCGGCCCAAGTACGACGACTGGTCCTGGCCTAAAGGCAAGCTCGACGCCGGCGAGACTGTCCCCGAGTGCGCTGTCCGGGAAGTCGAGGAAGAGATCGGACTGCAGGTGCCGCTGGGCATTCCCCTTCCGCCGATCCACTATCACGTCCCCGCCGGCCTGAAGGTGGTTCACTATTGGGCGGTGGAGGTCCCCAACGGCACGCGCGTGCGTCCCGACGGCAAGGAGGTGGACAGCATCCTGTGGTGCACACCGGAGCGGGCCGCGTCCATGCTGTCCAATCCTACGGACGTAGTGCCCCTGCAGTTCCTGGTGGAGGCCCACTCCCGCAATGAACTGCACACCTGGCCGCTGGTGCTCGTGCGTCATGCCAAGGCCAAGCCGAGGTCCTCTTGGACCAAGGCGGAAGGCGAACGTCCGCTCGCCGCCACGGGCGTCCGGCAGGCCCAGGCCGTGGGCAGGCTGCTGCGCGCGTGGAAACCGATGCGCGTGGTCACCAGCCCCTGGCGGCGTTGCGTTGCCACCATCGCGCCGTACGTCAAGGTCTCAGACGCCAAGGTCAAACTCGTCGACGCGCTAACGGAACACCGGCACGCCAGGAATCCCAAGAAGACCGCCGCCGCCGTGGACGCGCTGTTCGACAAACAAAAACCGGTCGTGCTGTGCACGCACAGGCCCGCGCTGCCCACCGTCCTGAACAAGCTCAACGAGTACATGAACGAAAAGCTGAAGGGTGTGCTGCCTGCGGCTGACCCTTATCTCTCGCCAGGGGAAATGATCATCTGCCATGTGGCGCACGCGAGCAAGAGCAAGATCGTGGCGGTGGAGCAGTTCAAGCCGTTCGACGATTAA	MKSDSLIADQTDHPGEPVAVTAAGALPWRVKKDQLEVLLIHRPKYDDWSWPKGKLDAGETVPECAVREVEEEIGLQVPLGIPLPPIHYHVPAGLKVVHYWAVEVPNGTRVRPDGKEVDSILWCTPERAASMLSNPTDVVPLQFLVEAHSRNELHTWPLVLVRHAKAKPRSSWTKAEGERPLAATGVRQAQAVGRLLRAWKPMRVVTSPWRRCVATIAPYVKVSDAKVKLVDALTEHRHARNPKKTAAAVDALFDKQKPVVLCTHRPALPTVLNKLNEYMNEKLKGVLPAADPYLSPGEMIICHVAHASKSKIVAVEQFKPFDD				NA	NA	NA	NA	NA
D1-17_01086	2250	ppk	COG0855	Polyphosphate kinase	ATGCAACCGGAATCTGCCGGATCAGCCACTACCGCTATCAAGACGGCTCCGGCGCGTGCCCGTTTCGGCTCCTCTGAAGTGCCCGCGTCCCGCGCCACCCAGGACCGGATCGACATTCCGGAGTTCGCCGCCATCCTCGAGCCCGAGGGTGAGATCAGCCCCGACCGCTTCCTGGACCGGGAACTGAGCTGGCTGGCCTTCAATGCACGGGTCCTTGAACTCGCCGAGGACCCCACCCTCTACCTGCTCGAGCGCGTCGGTTTCCTCTCCATCTTCGCCTCGAACCTTGACGAGTTCTTCATGGTCCGCGTCGCCGGCCTGAAGCGCAGGATTGCCACCGGACTCGCGGTGCCCTCCCCCGCGGGCCTGAGCCCGGTCCAGGTCCTCGAACAGATCGGCGACGCGGCGCACAAGCTGCAGCAGCGCCACGCCCAGGTCTACGCGGAGCAGATCCGCCCCGCCTTGGCATATGAGCACATCCACCTCATGCAGTGGGACGAACTCGACGACGAGGCCAAACACCGCCTCAGCGTCATGTTCGCGGAAAAGGTCTTCCCCATCCTCACGCCGCTGGCCGTGGACCCCGCACACCCGTTCCCCTACATTTCCGGACTCTCCCTGAACCTGGCCGTAGTGGTCCGGAACCCGGTCAGCGACAAGGAGCTGTTCGCCCGAGTTAAGGTGCCGGACCAGCTGCCGCGCCTGATATCCATCGACGGCCCGCGCGCCGGGTCCGTTCCGGGGCGCGTTGCCCGGTTCATCGCCCTTGAGGAAGTCATCGCCGTCCACCTCGACCAGCTCTTCGCGGGCATGGAGGTCCTGGAACATCACACGTTCCGCGTCACGCGGAACGAGGACGTTGAGGTGGAAGAGGACGACGCCGAAAACCTCCTGCAGGCCCTCGAGAAGGAACTCCTGCGCCGCCGGTTCGGCCCTCCCGTCCGGCTCGAGGTCACCAATGACATCAATCCCAACATCCGTGCCCTCCTGATCCGGGAGCTCGGCGTCGAGGAATCCGAGGTTTACTCGGTGCCCGCGCCGCTCGACCTGCGCGGCCTGTCAGTCATCGCCGGGATCGACCGGGCGGACCTGCACTACCCCAAGCACGTGCCCCACACGTCCCGCTACCTGAACGAATCCGAGACTTCCAAGGCCGCCAATGTCTTCGCGGCGATGCGCCGGCGGGACATTCTGCTGCACCACCCCTACGATTCCTTCTCCACATCGGTCCAGGCATTTCTCGAGCAGGCAGCCGCGGACCCGAAGGTGCAGGCCATTAAGCAGACCCTGTACCGGACGTCGGGCGATTCCCCCATCGTGGATGCCCTTATCGACGCAGCAGAGGCGGGTAAGCAGGTCCTGGCGTTGGTGGAGATCAAGGCCCGTTTTGACGAGCAGGCCAACATCTCCTGGGCCCGCAAACTGGAGCAGGCCGGCGTACACGTTGTGTACGGCATCGTGGGCTTGAAGACGCACTGCAAACTCTCCCTCGTGGTCCGCCAGGAAGTAGACGGCCTGCGCCGCTACTGCCACATCGGCACGGGCAATTATCACCCGCGCACGGCACGCTACTACGAGGACCTCGGACTGCTGACATCCAACGAGCAGGTGGGAGAGGATCTCTCAAAGCTCTTCAACCAGCTCTCCGGCTACGCCCCGAAGTCAACCTTCAAACGACTCCTCGTTGCGCCGCGCTCGGTGCGCTCCGGGCTCATCGACAGGATCGAGACCGAGATCCGCAACGCCCGCGCCGGCAACAGGTCCTGGGTGCAGATCAAGGTCAACTCCATGGTTGATGAGGCGATCATCGATTCCCTCTACCGGGCGTCCCAGGCCGGAGTGAAGGTCGATGTTATTGTCCGCGGCATCTGCTCGCTGCGGCCGGGTGTCCCCGGACTGAGCGAGAACATCACCGTCCGGTCCATCCTTGGCCGCTTCCTGGAACACTCGCGTGTGTTCGCGTTTGGCAACGGCGGGGATCCTGTGGTCTACATAGGGTCGGCCGACATGATGCACCGCAACCTCGACCGGCGCGTTGAAGCCCTGGTGCAGCTGTCCGGAGGCGAAAACACCACGTACGTCCTGGACATGCTCCGCCGCTACATGGATCCCGAAACGTCCAGTTGGCACCTTGACGACCAGGGCATCTGGACGCGCCATCACCTGGACGAGAACGGGCGGGAGCTGGACGACGTCCAGTCCTGGCTTCTCGCGTCCCGTTCCCGCCAACGTGCCACTGCCCGGCGGTAG	MQPESAGSATTAIKTAPARARFGSSEVPASRATQDRIDIPEFAAILEPEGEISPDRFLDRELSWLAFNARVLELAEDPTLYLLERVGFLSIFASNLDEFFMVRVAGLKRRIATGLAVPSPAGLSPVQVLEQIGDAAHKLQQRHAQVYAEQIRPALAYEHIHLMQWDELDDEAKHRLSVMFAEKVFPILTPLAVDPAHPFPYISGLSLNLAVVVRNPVSDKELFARVKVPDQLPRLISIDGPRAGSVPGRVARFIALEEVIAVHLDQLFAGMEVLEHHTFRVTRNEDVEVEEDDAENLLQALEKELLRRRFGPPVRLEVTNDINPNIRALLIRELGVEESEVYSVPAPLDLRGLSVIAGIDRADLHYPKHVPHTSRYLNESETSKAANVFAAMRRRDILLHHPYDSFSTSVQAFLEQAAADPKVQAIKQTLYRTSGDSPIVDALIDAAEAGKQVLALVEIKARFDEQANISWARKLEQAGVHVVYGIVGLKTHCKLSLVVRQEVDGLRRYCHIGTGNYHPRTARYYEDLGLLTSNEQVGEDLSKLFNQLSGYAPKSTFKRLLVAPRSVRSGLIDRIETEIRNARAGNRSWVQIKVNSMVDEAIIDSLYRASQAGVKVDVIVRGICSLRPGVPGLSENITVRSILGRFLEHSRVFAFGNGGDPVVYIGSADMMHRNLDRRVEALVQLSGGENTTYVLDMLRRYMDPETSSWHLDDQGIWTRHHLDENGRELDDVQSWLLASRSRQRATARR	PGPT0002685_393	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
D1-17_01087	1062	mshD_1	COG0456	Mycothiol acetyltransferase	ATGGCCACAAATCGGGGCCAGCGGCGGGCAGCCACAAGTTGGAAGGCGCAATCGCAAGGCACAATCGGCACAACGTATAGCCTTGACAGCATGAGTCCTGCGCATCCGGAGAATTGGCCCGTCACCGTCATCAGGGGCGGGGTGGGAGAACAGCTGCTGCAGGACATTAAAACCCTGCTCGCAGCCGCCGAGGAATCGGACGGCAACCCGTCCATCTCCGAACAGACGCTGGTGACCCTGCGCGCTGCTGACGCCGGCCCCCACTCACTGCTGACCCTGGCTCTCTACGCCCCGGACGAGGACTCGGATCCCGCCACAGCCCAGGACCTGGCAGGCTTCGCCGTCGTGGTTGAGGAGGAGGACGGCACAGGCATCCTGGAGATTGCCGTGCACCCCAGCTATCGGAACCAGGGCGTGGCGGGCCGGCTCGTGTCCACGCTGAAGTCCACCCGCGGGTTCGGCGGGCTGAAGGCCTGGTCCCACGGCAACCACGAAGCGGCTGCGGACCTCGCCGCCCGCTACGGCTACGGCCCCATCCGGGAACTCTGGAAGATGCGGCTCGCTACCGCCTCGGCAGAACTGCCCGACGTCGGACTGCCGGAGGGCATTACGCTCCGGTCATTTGTGCCCGGCAAGGACGAGGAGTCCTGGCTGGCGGCCAACCGCGCGGCCTTTGCACATCATCCCGAGCAGGGCTCCCTGACCAGGGCGGACCTGGAGGCCAGGATGGCCGAACAGTGGTTCGATCCGGCCGGCTTCCTGCTGGCCGAGGACCGTGACGGCCAACTCCTCGGGTTCCACTGGACCAAGGTCCACCCCCGGCACGGCGACCATCCCGCGATCGGTGAGGTTTACGTCGTCGGTGTGGCGCCGGCGGCGCAGGGCATGGGCCTGGGCAAAGCCCTGACGGTCGCCGGCATCCGGTATCTGCAACAGCAGGGCCTGCACGCCGTCATGCTCTACACGGATGCGGACAACGCCCCGGCCGTCTCCCTGTACCGCCGGCTGGGATTCACCCGGTGGGACGTCGACGTCATGTACGGCCCGGTTGACGAAGGCTGA	MATNRGQRRAATSWKAQSQGTIGTTYSLDSMSPAHPENWPVTVIRGGVGEQLLQDIKTLLAAAEESDGNPSISEQTLVTLRAADAGPHSLLTLALYAPDEDSDPATAQDLAGFAVVVEEEDGTGILEIAVHPSYRNQGVAGRLVSTLKSTRGFGGLKAWSHGNHEAAADLAARYGYGPIRELWKMRLATASAELPDVGLPEGITLRSFVPGKDEESWLAANRAAFAHHPEQGSLTRADLEARMAEQWFDPAGFLLAEDRDGQLLGFHWTKVHPRHGDHPAIGEVYVVGVAPAAQGMGLGKALTVAGIRYLQQQGLHAVMLYTDADNAPAVSLYRRLGFTRWDVDVMYGPVDEG	PGPT0002685_5	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
D1-17_01088	702			hypothetical protein	ATGTCGCACATCCTGTTACTGACCAACAGCACCGGATCATCGGTGGACATCCTGCCTGCCCTGGAGCTCCTGAACCACCGCGTTCACATCCTCCCGGCCGAGCCGACTGCCCTGCTGGAAACAGACCCCTGCGACATCGTTCTCCTTGACGCGCGCAAAGACCTGGTCGGGGCCCGGTCCCTTACCCAGCTCCTGAAGGCCACAGGCCTCAGCGCGCCGCTGGTGCTCATCCTCACCGAAGGCGGCATGGCTGCTGTATCGTCTGCCTGGGCTGTCGATGACATCGTGCTCGATTCCGCCGGCCCGGCCGAGGTGGAGGCCCGAATCCGACTGTCTGTGGCGCGTGCTGTACCGGAGCAGGAGGACACGCCGTCCGAGATCCGGGCTGCCGGCGTCGTGATCGATGAAGCGAGCTACACCGCCCGCGTCAACGGCGCGGCACTCAACCTGACCTTCAAGGAATTCGAGCTGCTGAAGTATCTGGCACAACACCCCGGCCGCGTGTTCACGCGCCAGCAGCTCCTTACCGAGGTGTGGGGCTATGACTACTACGGCGGCACCCGCACTGTGGACGTTCACGTCAGGCGGCTCCGCGCCAAGCTCGGCGCCGACCACGAGAACCTGATCAGCACCGTCCGCAACGTCGGCTACCGGCTCACCCTGGTCCGCCAGCAGGAGGACGAGCAACTCGCCGAAGCCTGA	MSHILLLTNSTGSSVDILPALELLNHRVHILPAEPTALLETDPCDIVLLDARKDLVGARSLTQLLKATGLSAPLVLILTEGGMAAVSSAWAVDDIVLDSAGPAEVEARIRLSVARAVPEQEDTPSEIRAAGVVIDEASYTARVNGAALNLTFKEFELLKYLAQHPGRVFTRQQLLTEVWGYDYYGGTRTVDVHVRRLRAKLGADHENLISTVRNVGYRLTLVRQQEDEQLAEA	PGPT0014763_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
D1-17_01089	780			hypothetical protein	ATGGCCGCGCCTGAGGTGAGCGCAGCGGCGCCCTCGGGGACCGCTGTGAAGTCCTGGAGCATCGAGGTGATTGGCCTGGCCGGACTGGCTGTCATTATCGCCAGCATCTACCGGACGCCCGACGTACTCCTCGCCGTCTCGGTGGTCATAGCCCTGGCCGTTGGCGTTGGCTGGCCGCACTACCTGGGGATACCCGCCAAGAAGACGCTCGCTGCGGTTATCGGACTCTGCGGCGCCGGTTCGGCAGTGGCCGCTGCCAGCATTCCCGCTCCCGGCTACCTTGACTGGGCGCCCGGTTTCATCGCACTCGGTGTCATGTCCGTTTTCGTCGTCCAGCTGGTGCGCGGAACCGGTCAGGCCCAGCGCCTGGAATCCACTCTGGGCTGCTGCGTGGGTGTCCTGCTGTCCTGCCTGGGGGCAGGCTGGATCGCCGCCGCCCGGTTCAACGGCGTCAAGGAAATGATGCTCGTAGCCGGCGTCAGCGCCGCCGTGGCCCTGCTCGCCGGTCTCATCCGCTGGCCGGACAGCATCGTGGCTCCGCTGGGCATAGCCCTTGCCGGTCTTGCCGGGCCGCTCGCGGGACTGGTGTTCTCGGATATCGCCGTTCTCCCCGCAGCCATAGTCGGGGTGGTGGTCGGGGCTGTCCTTGTCAGCTTCCGCCGGCTTGTGACTCTGCGCGGTACCGCGCTGAACTTTCCGGGCGCGTTGGGGATGGGCCTGGCACCCGTCGCCGCGGTCGGTTCGCTTGCCTACTTCATAGACAAACTACTCATCTACTAA	MAAPEVSAAAPSGTAVKSWSIEVIGLAGLAVIIASIYRTPDVLLAVSVVIALAVGVGWPHYLGIPAKKTLAAVIGLCGAGSAVAAASIPAPGYLDWAPGFIALGVMSVFVVQLVRGTGQAQRLESTLGCCVGVLLSCLGAGWIAAARFNGVKEMMLVAGVSAAVALLAGLIRWPDSIVAPLGIALAGLAGPLAGLVFSDIAVLPAAIVGVVVGAVLVSFRRLVTLRGTALNFPGALGMGLAPVAAVGSLAYFIDKLLIY				NA	NA	NA	NA	NA
D1-17_01090	114			hypothetical protein	ATGTCCGTACTTGCATATGAAATTTTCTTCCTTGTCCTGCTTGGCATTGCCAGCCTTTCCATGGCTTGGTTTGCCGGCTACGTGGTCTACCGCCTGTTCAAGGGACAGAAGTAG	MSVLAYEIFFLVLLGIASLSMAWFAGYVVYRLFKGQK				NA	NA	NA	NA	NA
D1-17_01091	630			hypothetical protein	GTGCCTATTGAGATACCCACAGACCTGACTCCCGAACTGGTCCCGCTGTCCTGGCTCATTGGTGAGTGGGAGGGCCGTGGACGGCTTGGGGCCGGCGACGAAAGTTCCGAGCATTTCCTCCAGCACGTATCGTTCACCCACAACGGGTTGCCGTACCTGCAGTATCGCGCGGAAAGCTGGCTCACCGACGAAGAAGGCAACAAACTCCGGCCCCTTACCGTCGAGACCGGCTTTTGGGCGCTGGAACGTAAACAGTTGGATGCCGACGGCGGCCCTGGCCTGATTCCGGCCGACATAGTGCCGGCGCTGAAGAGCGCCGACGAGGTGGAGGCGCTGCGAAACAAGGACGGCGGCTTTGACATTTCGGTCTCCATCTCGCACCCCGGCGGCATATCCGAGCTGTACTACGGCCAGATCAAGGGCCCGCAGATCCAGCTGAGCACAGACATGGTAATGCGGGGCAGCCACTCCAAGGACTACAGCGCCGCCACCCGGATCTTCGGACTCGTCGACGGGAACCTGTTGTGGCGCTGGGACGTGGCCACCGGCGGTGCGTCTCCGGCCAGTTCCTCGGAGCCGGGCAACGGCCTCGAAGCCCACGCCTCGGCGTTCCTGAAACGCGTCTCTTAG	MPIEIPTDLTPELVPLSWLIGEWEGRGRLGAGDESSEHFLQHVSFTHNGLPYLQYRAESWLTDEEGNKLRPLTVETGFWALERKQLDADGGPGLIPADIVPALKSADEVEALRNKDGGFDISVSISHPGGISELYYGQIKGPQIQLSTDMVMRGSHSKDYSAATRIFGLVDGNLLWRWDVATGGASPASSSEPGNGLEAHASAFLKRVS				NA	NA	NA	NA	NA
D1-17_01092	537	rosB		8-demethyl-8-aminoriboflavin-5'-phosphate synthase	ATGGATGCAGCCAACCCGCCGGCGAACTACAGCTATTATCCTGCCGTGCAGGAGGCGGACATCGTTGTGGTCGCCGTGCCCATCTGGCTCGGGGACAACTCCTCCCAGACGAAGAAACTCATCGAGCGCCTGTACCCTCATTCTGGACAGCTCAACGGCAAGGGCCAATGGGCCTTCTATCCCAAAGTGGGCGGCTGCCTGATCACCGGCAACGAGGACGGCATCAAGCACTGCTCAATGAACGTCCTCTACAGCCTGCAGCACATCGGATTCACCATTCCTCCCCAGGCCGACGCCGGCTGGATTGGCCCCGTAGGGTCGGGCCCGGGCTACCTCAATAAAGGATCCGGCGGCCCGGAGAGTGATTTCACCAACAGGAACACCACGTTTATGACGTGGAATCTCCTGCATCTGGCCAGAATCTACAAGGACGCCGGCGGGATTCCCGCCTACGGCAACCTTCCGCAAGAATGTAAGGCTGGATCCAGATACGGCTTCGAAAACCCGTACGGCTTCGAAAACCCTGAGTACCGCTGA	MDAANPPANYSYYPAVQEADIVVVAVPIWLGDNSSQTKKLIERLYPHSGQLNGKGQWAFYPKVGGCLITGNEDGIKHCSMNVLYSLQHIGFTIPPQADAGWIGPVGSGPGYLNKGSGGPESDFTNRNTTFMTWNLLHLARIYKDAGGIPAYGNLPQECKAGSRYGFENPYGFENPEYR	PGPT0004370_3	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
D1-17_01093	1086	gcvT_2		Aminomethyltransferase	ATGACTATCAAGAGCCCTCTGTTGTCGCGCCCCGGATCCGTCGAAGCGGCCGGCGCCGATGCCGGCGTCGCGTCCCACTACGGTGAGCCGCTGCGCGAGCAGCGCGCCCTCGCGGCCGGTACCGCCGTCGTCGATCTGTCCCACCGCGGCGTGGTGACGGTCACCGGCCCGGACCGCCTGAGCTGGCTGAACACTCTGTCCTCCCAGCAGGTCGCCAACCTGCAGCCTGGTGAGTCCAGTGAGCTTCTGCTGCTGAGCCTGCAGGGCCGTATTGAATTTGATGCGCGGGTAATTGACGACGGCGGGACTACCTGGCTGATCGTCGAGGCCGCTGAAGCCGCTCCGTTGGCCGAGTGGCTGAACAGAATGAAGTTCATGCTGCGGGTTGACATCGCCGACGTCTCGGACGAATGGGCGGTGCTGGGCTCGACCAGGGCGGTGCCCGAGTGGTCCGGGCTGAAGGTCTGGCAGGACCCGTGGCCGCACGTCGCTGCCGGCGGATATGCCTACTCGCTAGTGGCCGAGGACGCCCACCCCGGCGCCGAACGCCCGTGGTTCGAATACCTCGTCCCCGCAGCGGAGCTGGAATCGACAGTGGGGGAACGGGCACTGGCCGGAGTGTCGGCGTCCGAAGCTTTGCGTGTCGCCGCCTGGCGACCCCGGCTCGGCGCCGAAACGGACGACAAGACCATTCCGCACGAGCTGGACCTGCTTCGGACGGCCGTCCACCTGGCCAAAGGCTGCTACAAGGGGCAGGAGACCGTTGCTCGGGTGCACAATCTGGGTCATCCTCCTCGGCGGCTCGTGTTCCTGCAGCTGGATGGCTCCCAGCACACCATGCCGCAGGCGGGGAGCCCGGTACTGCTGGGGGAGCGCAGGGTGGGAACCGTCACATCCGTGGCGCAGCACTACGAGATGGGCCCCGTGGCCCTGGCGGTCATCAAACGTTCCGTCGCGCCGGATGAAATACTGACTGTCATGGACGGGGAAGAACCGTACACAGCCGCGCAGGAAGTGATCGTGGCTCCCGATGCCGGGCAGGTTGTTGGCCGGCAGACCGGATTCCTGAGGGGGACCCACAAATGA	MTIKSPLLSRPGSVEAAGADAGVASHYGEPLREQRALAAGTAVVDLSHRGVVTVTGPDRLSWLNTLSSQQVANLQPGESSELLLLSLQGRIEFDARVIDDGGTTWLIVEAAEAAPLAEWLNRMKFMLRVDIADVSDEWAVLGSTRAVPEWSGLKVWQDPWPHVAAGGYAYSLVAEDAHPGAERPWFEYLVPAAELESTVGERALAGVSASEALRVAAWRPRLGAETDDKTIPHELDLLRTAVHLAKGCYKGQETVARVHNLGHPPRRLVFLQLDGSQHTMPQAGSPVLLGERRVGTVTSVAQHYEMGPVALAVIKRSVAPDEILTVMDGEEPYTAAQEVIVAPDAGQVVGRQTGFLRGTHK				NA	NA	NA	NA	NA
D1-17_01094	405			hypothetical protein	ATGACAGACCAGCCCGAAGCCGCCGCACAGATGGACGAGGAGACCCTCGAACTGGCGCACCGGCTCTTCGACGCCGCCCGCAACGGCGAAACGGAACTGCTTCGCAGTTACCTCAATGCCGGTGCCCCCGCGGGCCTGACCAACTCTGCCGGGGACTCGCTGCTCATGCTCGCCGCCTACCACGGTCACGCAGAAACGGTGCAGCTGATCCTGTACCACGGCGGCGACGCCAACCAGGCGAACGGGCGCGGACAGACACCCTTGGCGGGTGCGGTGTTCAAGGGCTACACGGACGTGGCCCGCGTGCTGTTGGACGCCGGCGCCGATCCCGATGCCGGGACTCCTTCAGCCCGTGCGGCCGCGGACATGTTCGCGCGCAAGGATATCCAGGAGCTGCTGGCGTAG	MTDQPEAAAQMDEETLELAHRLFDAARNGETELLRSYLNAGAPAGLTNSAGDSLLMLAAYHGHAETVQLILYHGGDANQANGRGQTPLAGAVFKGYTDVARVLLDAGADPDAGTPSARAAADMFARKDIQELLA				NA	NA	NA	NA	NA
D1-17_01095	1551	mdtD_2		Putative multidrug resistance protein MdtD	GTGACGCATCTTTTCGAGAACGTCAGCAGGCCCTGGCCGGCGCTCTGGTCCCTCGTCATCGGTTTCTTCATGATCCTGATCGACACCACCATCGTGTCGGTGGCCAACCCGAGCATCATGGCGGGACTGAACACCGACATCAACGCCGTCATCTGGGTGACGAGCGCCTATCTGCTGGCTTATGCCGTTCCTCTTCTCGTCACGGGCCGGCTCGGTGACAGGTTCGGACCGAAGCGGCTCTACCTGTCGGGGCTCCTGGTCTTCACCCTTGCCTCCCTCTGGTGCGGGCTCTCGGGCACCATCGAACTGCTGATCGCGGCGCGCGTGCTGCAGGGCCTCGGTGCGGCGCTGATGACACCCCAGACCATGGCCGTGATCACCCGTATCTTTCCGCCGGACCGGCGGGGCGCCGCGATGGGGCTGTGGGGTGCCACGGCCGGCATGGCCACGCTTGTGGGGCCCATCCTCGGTGGTGTGCTGGTTGACGGTTTGGGCTGGGAGTGGATCTTCTTCATCAACGTGCCCATCGGCGTCGTCGGTTTCATCCTCGCGTGGCGCCTGGTGCCGTCCCTGACGACCCACCCGCACAAGTTTGACCTCCCCGGTGTGGTGCTGAGCGCCGTCGGGCTCTTCCTGCTCGTGTTCGGCCTCCAGGAGGGCGAGACGTACAACTGGGGAACCATCACCGGTCCCGTCACTGTGTGGGGACTGATCATCAGCGGAAGCGTGGTGCTGGCGCTGTTCGTCGGCTGGCAGGCCATCAACAAGGGCGAGCCGCTGCTTCCGCTGGGCCTCTTCAAGGACCGGAACTTCTCGCTGGCTAACGTCGGCATCACCGCAGTGGGGTTCACCGTTACTGCCTTTGGCCTGCCCCTTATTTTTTATTACCAGATGGTACGCGGCATGACGCCCACGCAGTCGGCCCTCATGATGGTGCCGATGGCGCTGATTTCCGGCGGTCTTGCCCCGGTGGTGGGCAGGTTTGTTGACCGCGTGCATCCGAGGTATATCACGGTCGCGGGGCTGCTGCTCATGGCCGTGGCGCTGTTCTGGAATTCAGCGCTCATGCATCCCGAAACCCCCGTGTGGCTGTTCCTGCTGCCCAGTGCCGTGATGGGCTTCGCGAACGCCGGCATCTGGGCGCCCCTCAGCTCTACTGCCACCCGGAACCTCCCGCCGCGGCAGGCGGGAGCCGGGGCCGGCGTGTACAACACCACTCGCCAAATCGGCGCCGTCGTCGGCAGTGCGGGGATCGCCGTCCTGATGCAGGCCCGGCTTGCTGCGGAACTTCCTCCCGGCGCGGCGGGGGAGTCGGGTATAGCGGGGGAGCCGGGCGTCCCGGAGGGTGCGGGCGTGAGCTTCGGAGGCCAGCTTCCCGAGGCTCTCCATGCGGGATTTTCGACGGCGATGGGCCAGTCGATACTGTTGCCGGCGGCCGTGATTATGTTCGGCGCAGGCGTGGCGCTGTTCTTCACCAAACCAATACCGGTGCAGGGCTGGGGCACGGTGCAGCCCGGGCGAACCGAGGACAGCGCGGCGAAGGCGCCGTAG	MTHLFENVSRPWPALWSLVIGFFMILIDTTIVSVANPSIMAGLNTDINAVIWVTSAYLLAYAVPLLVTGRLGDRFGPKRLYLSGLLVFTLASLWCGLSGTIELLIAARVLQGLGAALMTPQTMAVITRIFPPDRRGAAMGLWGATAGMATLVGPILGGVLVDGLGWEWIFFINVPIGVVGFILAWRLVPSLTTHPHKFDLPGVVLSAVGLFLLVFGLQEGETYNWGTITGPVTVWGLIISGSVVLALFVGWQAINKGEPLLPLGLFKDRNFSLANVGITAVGFTVTAFGLPLIFYYQMVRGMTPTQSALMMVPMALISGGLAPVVGRFVDRVHPRYITVAGLLLMAVALFWNSALMHPETPVWLFLLPSAVMGFANAGIWAPLSSTATRNLPPRQAGAGAGVYNTTRQIGAVVGSAGIAVLMQARLAAELPPGAAGESGIAGEPGVPEGAGVSFGGQLPEALHAGFSTAMGQSILLPAAVIMFGAGVALFFTKPIPVQGWGTVQPGRTEDSAAKAP				NA	NA	NA	NA	NA
D1-17_01096	717			hypothetical protein	ATGAGCCTTGAGCCCCATTCCGCCGCCGTCATCCAGCTGGCCTGGGCGCGCCATCTGGGACTCGACGATGGCGCCTTCGCCAGCGCTTTGGAATCTGGCGAGCGTATCACCAGGGCGGACGAATCGGCCCGCTCCCTCGAGTTCGTCCGCTTGTTCGGTAGCTCAGCGCTCGTAGGACCGCAATGGGCGCTGGACGCGGCTGCCGGTATTTCCGATGAGGACATGGCCCAGCACGTCACGCTGCTGACCATCACCCGGAGCCACGGCGGGCACGGGCAAGGCTCCGCCGCACTGTTTTTCGCCGACGATCTTCCCCTGTTGCAGTCTCCCGAGGAACTCACCGTCTCGCATGGCAATCCGGAGGCGTTAGAGCTCGAGGGGCTTTGCCCGCCGGATGATGTCAACGAGGTAGGGCTCTCCCACCTGGAGAACCGGTACACCATCATGCTCGATGAGAACGGCCGGAAGGTGCCTGTGGCCTGCGGTGCCTACACGGAGTGGGAAGGAATCCTGGCCCACATGGGCGTGCTCGTGGCACCCCAGTGGCGGCGTCGGGGCGTCGGATCGCTGGCGGCGTCAATCGCAGCCCACGAGGCCCTGGCGTCCGGGCTGACGTTGCAGTGGCGCACCGATGTCAGCAACAAGGGCTCGCTGGCCACGGCCCGCAGCCTGGGCTTTTCCACGGGCGGCATCCAGACCAGCGTGCTTTTGGGCTGA	MSLEPHSAAVIQLAWARHLGLDDGAFASALESGERITRADESARSLEFVRLFGSSALVGPQWALDAAAGISDEDMAQHVTLLTITRSHGGHGQGSAALFFADDLPLLQSPEELTVSHGNPEALELEGLCPPDDVNEVGLSHLENRYTIMLDENGRKVPVACGAYTEWEGILAHMGVLVAPQWRRRGVGSLAASIAAHEALASGLTLQWRTDVSNKGSLATARSLGFSTGGIQTSVLLG				NA	NA	NA	NA	NA
D1-17_01097	1026	pfp		Pyrophosphate--fructose 6-phosphate 1-phosphotransferase	ATGAAAATTGGAATCCTCACCAGCGGCGGCGACTGCCCCGGACTGAACGCCGTCATCCGCGGCGCCGTCCTAAAGGGCATCGCCATCCACGGCCACGAATTCGTGGGGTTCCTCGACGGATGGCGCGGCGTGGTTGAAGGGGACATTATTCCCATCCCCCGCACGCTCGTCCGAGGCATCGCCAAGCAAGGCGGCACCATCCTTGGCACCTCCCGCACCAACCCCTTCGAGAACGGCGGCGGGCCGGACGTCATCAAGGCCCACATGGAACGGCTCGGCATCGACGCCATCATTGCCATCGGCGGCGAGGGAACCCTCGCCGCCGCCAAGCGCCTCACCGACGCCGGCCTGAAGATCGTCGGAGTTCCCAAGACAGTGGACAACGACCTGGACGCCACGGACTACACGTTCGGTTTCGACACCGCCGTGCAGATCGCCACCGAGGCCATCGACAGGCTGCGGACCACCGGTGAGTCGCACCACCGCTGCATGATTGCCGAGGTCATGGGCCGCCACGTTGGGTGGATCGCCCTGCACGCCGGCATGGCCTCGGGAGCCCACGCGATCCTGATTCCCGAGCAAAAGGTCAGCATCGAGCAGATCACGAAATGGGTGAACGAGGCCCATGACCGCGGCCGTGCCCCGCTGGTGGTTGTTGCTGAAGGCTTCGTGCCGGAACACATGGAGTCACCGCACTCCGAGCGCGGCCTGGACACCTTTGGCCGGCCCCGCCTTGGCGGCATCGCAGATCAGCTGGCTCCGGAGATCGAAGCCCGGACCGGTATCGAGACCCGCTCCACGATCCTTGGCCACATCCAGCGCGGCGGCGTCCCCTCGGCCTTCGACCGCGTGCTCGCTACCCGGCTCGGAATGGCCGCGGTCGACTCCGTGGTCGAGGGCCGCTGGGGCACCATGGTTTCGCTCAGCGGCACCGACATCGACCACGTGGGCTTCGAAGCAGCCCTGGGCAAGCTCAAGACAGTCCCCCAGCACCGGTACGACGAAGCGGCCGTCCTCTTCGGCTAA	MKIGILTSGGDCPGLNAVIRGAVLKGIAIHGHEFVGFLDGWRGVVEGDIIPIPRTLVRGIAKQGGTILGTSRTNPFENGGGPDVIKAHMERLGIDAIIAIGGEGTLAAAKRLTDAGLKIVGVPKTVDNDLDATDYTFGFDTAVQIATEAIDRLRTTGESHHRCMIAEVMGRHVGWIALHAGMASGAHAILIPEQKVSIEQITKWVNEAHDRGRAPLVVVAEGFVPEHMESPHSERGLDTFGRPRLGGIADQLAPEIEARTGIETRSTILGHIQRGGVPSAFDRVLATRLGMAAVDSVVEGRWGTMVSLSGTDIDHVGFEAALGKLKTVPQHRYDEAAVLFG	PGPT0017605_1876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017605-pfk|pfp-K21071	NA	NA
D1-17_01098	255			hypothetical protein	ATGGAACAGTTCTATAGCATTGTCAGGGGCCTCGGCCTGAGGCGCGGTCCGCAGCGATGGCTCGGCGGAGTCTGCGGCGGAATCGCCGACAAGTTAAACGTGGACGTGGCTTACGTCCGGATCGCTTTCCTCCTCTTGTGCCTCCTGCCCGGCCCGGCCGTGGTGTTCTATCTGGCCGCGTGGCTGATCCTGCCTAACCAGAACGGCACCATCGCCCTGCAGTCCTTCCTCGAGAAGCGCGCCAACCGCCGGTGA	MEQFYSIVRGLGLRRGPQRWLGGVCGGIADKLNVDVAYVRIAFLLLCLLPGPAVVFYLAAWLILPNQNGTIALQSFLEKRANRR	PGPT0027520_1190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-PspC-PspB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027520-toxin_pspC-K03973	NA	NA
D1-17_01099	354			hypothetical protein	ATGAGCAGCTTCGACCCCGCACCGGAATCCTCACGGGCAGAAACCTCCGGGTCGCCTGCGCCGCACGGCACAAGTCAGGACCAGACGGGTCAGGGCCGGCCAGGTCAGGACCAGACGGGTCAGGACACAGCGGCTTCGGCGGCGGACTCGACGGCCCGCGTCAGCACCATCGTCTGGGGACTGCTGGTCCTCGCACTGGCGATCCTGATCATCATCTCCCAGCTGGGGCTCGTGGTGCTGAACGGCACCTACGTGCTGATCGGCCTCATGATCGGCGCCGGCGCCGCCCTGGTGATCGGCGGGCTGCTTTCGGCCCGCCGGCGTGACAACGGCTCCACAAACGGGAAGGCTTGA	MSSFDPAPESSRAETSGSPAPHGTSQDQTGQGRPGQDQTGQDTAASAADSTARVSTIVWGLLVLALAILIIISQLGLVVLNGTYVLIGLMIGAGAALVIGGLLSARRRDNGSTNGKA				NA	NA	NA	NA	NA
D1-17_01100	1689			hypothetical protein	ATGTCGGTGGGAGCGGTGCAACGGCAGTATCGAAGTATGAACTCGCACAACCCCGACCCCGACGACGGACAGCAGTCCGCCACCCCCTCTGATGAGCAGCCCGGCCTCCGCGAACCGCATCCTCCAGGCGGCCCGGCCGGTGCCGGACGGCCTGCGGAACCTTCGAGCGAAAGCACCGCGGAACCTTCGAGCGGAAGCACAGCGGAACCGCAGAAAGAGCCCCTGCTTCCTCCGCCACTTTACGGCACCCATGCTGTCCCAGACAGCCGCGGTACCCCGGCTGGTGCCGGCGTTCCCGGCGCCGGCGGCCCCAGTGCCGGCGGTCCCGGTGCCGGGAGTCCCGCCGGCGCTGCAGGCCAGCCGGCCCAGCAGCTCGATTTCTTCGGCTGGGTCCGCAGCCACGGCATATACCGCGGACGTGACCGCTGGATCGGCGGCGTCTCCAGCGGCATCGCCCAGCGCATGGGCATCGATCCCCTGATTGTCCGCGGCATCTTTATTGTGCTGACCCTGTTCGCCGGCATCGGTGTGCTGCTGTATGGCCTCGGCTGGGCGCTGCTTCCCGAACCCGACGGCCGGATTCACACCCAGGAAGCAGGCGCAGGTCGCTGGACCACCGGCATGACAGGTGCCCTGGTCACCACGCTTATCGGTTTCACGGGCATGGGCGGCGGCTTCTGGGGCTGGGGCCGTGACGGCTCCGGCTTCTTCTGGGCCCTGTTCTGGATCGGTGGCCTCATCTACCTCGTGTACTACCTCACCCAGCGCAACAGGAACAGCGGCGGAGCAGGCCCGCGCGATGTTTCCGCAGCTGAATGGACCGCCGGTTGGCCCGCGGCGACGGCCGGAGCCAGTGCGGCGACCGAACCCAACGCGCCGTACGTCCCGGAAACGTCGTACACAGGACCGCCGTATACAGCCGGAATGTCGTACGCGCCCGGCACTCCGTACGCGCCGGGAACCCCGTACGGCGGCGGCAATCCTTCTTCCGGCGGCTTCGGCAGCGTTCCGCCCGGCAGACCCGCACCGGTGCCCGCCCCGGGCTCGTTACCGAAACAGAAACCGGGAGGACCGGGCACGCCGGCCGTAGCCATCACCGCGGGCCTCGCCCTGCTCGTTGGCGGCGCACTCAAAGCACTTGACGCCGGCAACGTGGTCGATCTCGGCACGTCGGCAAATGCCATCGTCTGGGCCAGCGGCGCGGCTGTGCTGGGCTTGGGAATCCTGCTTGCGGGCCTCCGCGGCAGGAGCTCGGGAATCCTCGGCTTCTTCGCCGTCGTTGCGCTGATCGTCGGCGGCGTCATCAACGCCGTCCCCAACGGTGACCGCTTCCGCTTCCACAATGCCGACTGGTCTCCGGCCAGCATCGAGCAAGCCCGCGACGGCTTCCAGATTACTGGCGGACGCGGAACCGTTGACCTCACCGGGCTGAACCTGGAAGCACCGCTGCCCTCCGACGTCGTGGTTCCCATGGACGTCACGGCCAGCAATGTCACCGTCCTGCTGCCGCGGGCCGTACCGGTGGACGTCCGGGCGGACATGACACTGGGAAACCTTAATGAGGGCACCGACCGCCGCGGGGGCATCACGTCCCGGGAGAGCAGCTACAACACCGACCGGCCTGGTGCCCGGCTGATCCTGCAGATCGACGGGACCGTCAGCAACATCACCATCCAGGAAGGAAACTGA	MSVGAVQRQYRSMNSHNPDPDDGQQSATPSDEQPGLREPHPPGGPAGAGRPAEPSSESTAEPSSGSTAEPQKEPLLPPPLYGTHAVPDSRGTPAGAGVPGAGGPSAGGPGAGSPAGAAGQPAQQLDFFGWVRSHGIYRGRDRWIGGVSSGIAQRMGIDPLIVRGIFIVLTLFAGIGVLLYGLGWALLPEPDGRIHTQEAGAGRWTTGMTGALVTTLIGFTGMGGGFWGWGRDGSGFFWALFWIGGLIYLVYYLTQRNRNSGGAGPRDVSAAEWTAGWPAATAGASAATEPNAPYVPETSYTGPPYTAGMSYAPGTPYAPGTPYGGGNPSSGGFGSVPPGRPAPVPAPGSLPKQKPGGPGTPAVAITAGLALLVGGALKALDAGNVVDLGTSANAIVWASGAAVLGLGILLAGLRGRSSGILGFFAVVALIVGGVINAVPNGDRFRFHNADWSPASIEQARDGFQITGGRGTVDLTGLNLEAPLPSDVVVPMDVTASNVTVLLPRAVPVDVRADMTLGNLNEGTDRRGGITSRESSYNTDRPGARLILQIDGTVSNITIQEGN				NA	NA	NA	NA	NA
D1-17_01101	1422			hypothetical protein	ATGACCACCGTTCCCGTCCGCCCGCCGCTGGTCCGCAGCGGCGACCGCATAATCGCCGGAGTATGCGCCGGGCTCGCAGCCCATCTTGGCTGGCCGGTGCGCATGGTGAGAATCGGAATGACGGTGGCCGCGCTCGCCGGCGGAGCGGGCCTGGTGTTTTACGCCTGGCTGTGGATCATGGTTCCCACCGCCGACGAAGCCGCCCGCCGAAACGCCAAGCGGCCCGCGTCGGCCATCGCCCCAGCCGTGAGCAGCCCGGCGCCGGACACTCCCGCGAGCGGCGCCCCGGTGCCGCAGCCCGCGGTCGGGAACCTGCCGTCGGACGTCTTTCCGTCCGCAGCGTACGACGCCGGGACCTCCTTCCAGCCGGTCACGCCTGGCGCTGGACCCGGCGCAGGCGCCGCGGCCGCCGCTGCTGGCGGTCCCTGGTTCCGGGGACGGAGGATGCGCTACGGCAAGGAAATCCTCCTCGGTTCGGGCCTGCTGCTCGTGGCCGGGATCCTGATTGCGAGACTGCTCGGGGCCGAGGTCCCGCTGGGGACCCTGATACCGGTGGCCGCAATCCTCGGCGGCGCCGCCATAGCGTGGATGCAGCTGGATGAGACGCGCCGCGCCGGCCTCGTGGACAAAACCAAGGCGGACCAGGCAGGCGGCTGGGCGCGGTTGGCCGCGGGCCTGGCGCTGGTGGTGGCCGGAGTGCTCATCATGGTGTCCGGCTCAGGATCCTGGGAGCAGACCTGGCTGGCCCTCCTGGCGTCCGTGGCAGTCCTCGGAGGCGTTGCCCTGGTTCTGCTGCCCTGGGGCCTGAAATTCTGGCGGGACCTCGAAACCGAACGCGCCGGACGGGTACGGGAAACGGAGCGCGCCGAGATCGCCGCCCACCTGCACGACTCGGTGCTGCAGACACTTGCGCTGATTCAGCGCCGCGCAGGCAACGAGCAAGACGTCATCCGGCTGGCACGGGCGCAGGAACGGGAACTGCGCGGCTGGCTTTTCAAGGACCCTGCCAGGGACGCGGGCCAGTTGTCCGACCGGATCAAGGCAGCCGCCGCTGAAGTGGAGGACGGCCTCGGCAATGCGGTGGATGTAGTGAGCGTAGGAGATACCGGCATGACTGAGCGTCACGAGGCACTGGTCCAGGCCAGCCGCGAAGCCATGTTGAATGCTTCACGGCACGGCGGCGGACCAGTTTCCGTGTACGTTGAAGCGGCCGACAGCGGCGTGGAGGTTTTCATCAAGGACCGCGGCCCCGGATTCGATCCCGAGGCCGTTCCCGGAGACAGGCTGGGAATCCGGGAATCGATCATTGGCCGGATGAGGCGGCATGACGGAACAGCCAAAATTGACAGCACGCCGGACGGCACCGAGGTGCGGCTAACGCTGCCCGCCCCCGCCGCCGGGAATGCGGAAGGAAAGCCATGA	MTTVPVRPPLVRSGDRIIAGVCAGLAAHLGWPVRMVRIGMTVAALAGGAGLVFYAWLWIMVPTADEAARRNAKRPASAIAPAVSSPAPDTPASGAPVPQPAVGNLPSDVFPSAAYDAGTSFQPVTPGAGPGAGAAAAAAGGPWFRGRRMRYGKEILLGSGLLLVAGILIARLLGAEVPLGTLIPVAAILGGAAIAWMQLDETRRAGLVDKTKADQAGGWARLAAGLALVVAGVLIMVSGSGSWEQTWLALLASVAVLGGVALVLLPWGLKFWRDLETERAGRVRETERAEIAAHLHDSVLQTLALIQRRAGNEQDVIRLARAQERELRGWLFKDPARDAGQLSDRIKAAAAEVEDGLGNAVDVVSVGDTGMTERHEALVQASREAMLNASRHGGGPVSVYVEAADSGVEVFIKDRGPGFDPEAVPGDRLGIRESIIGRMRRHDGTAKIDSTPDGTEVRLTLPAPAAGNAEGKP				NA	NA	NA	NA	NA
D1-17_01102	690	nreC_2	COG2197	Oxygen regulatory protein NreC	ATGACCACGCCGGCAACGGACGGAACCAGCGCGGGGGAACACCGGCAAACAGTGAGGGTGGTGATCGTTGACGACCACGCCATTTTCCGCTCCGGCCTGAAGGCCGACCTGGATCCGCGGGTGGGCGTTGTGGGAGAGGCGGGCACTGTGGAGCAGGCCATCGACGTCATTGCCCGCACCCGACCTGATGTTGTGCTCCTCGATGTCCATCTGCCCGGGGGCCGGGGCGGCGGCGGGCGGGAAGTCATTGCAGGATCGGCACCGCTGCTGGGGAGTACCAGGTTCCTGGCGCTGAGTGTATCCGATGCGGCGGAGGACGTGGTTGCTGTTATCCGGGCCGGCGCCCGCGGTTATGTGACCAAGACGATTTCCGGTCCGGAGATCACTGACGCGGTCTTCCGGGTTGCCGGGGGTGACGCTGTCTTCTCGCCGCGCCTCGCCGGCTTCGTGCTGGATGCCTTCGGCACCGCCCCGGCCGGCATCGCCGACGACGAACTGGACAAGCTCTCCGCCCGGGAACTCGAGGTCATGCGCCTGATCGCCCGGGGCTACAGCTACAAGGAAGTGGCCAAGGAGCTGTTCATCTCCATCAAGACTGTGGAAACCCACGTCTCGGCAGTGCTGCGGAAGCTGCAGCTGTCCAGCCGGCACGAACTGACCAAGTGGGCTGCGGAGCGCCGTCTCCTCTAG	MTTPATDGTSAGEHRQTVRVVIVDDHAIFRSGLKADLDPRVGVVGEAGTVEQAIDVIARTRPDVVLLDVHLPGGRGGGGREVIAGSAPLLGSTRFLALSVSDAAEDVVAVIRAGARGYVTKTISGPEITDAVFRVAGGDAVFSPRLAGFVLDAFGTAPAGIADDELDKLSARELEVMRLIARGYSYKEVAKELFISIKTVETHVSAVLRKLQLSSRHELTKWAAERRLL	PGPT0000550_317	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
D1-17_01103	1218	aspC1	COG0436	Aspartate aminotransferase	ATGTCTTCCGCCCGCGTCTCCCAGCGCATATCCGCCATTGCCGAATCCGCCACCTTGGCTGTCGACGCCAAGGCCAAGGCGCTGAAGGCGGCCGGCCGGCCGGTGATCGGCTTCGGCGCAGGCGAGCCCGACTTTCCGACCCCGGACTACATCGTGAAGGCCGCCATCGAAGCCGCGAGCCAGCCGAAGTACCACCGCTACTCGCCTGCCGGCGGACTGCCGGAGCTGAAGAAGGCCATCGCTGAGAAAACCTTCCGGGACTCCGGCTACAAGGCCGATCCTTCCCAGGTGCTTGTGACCAACGGGGGCAAACAGGCCGTCTACAACACCTTCGCCACGCTGGTGGATCCGGGCGACGAAGTGATTGTGCCCACACCGTTCTGGACCACCTACCCGGAAGCTATCCGCCTGGCCGGCGGCGTGCCGGTGGAGGTCTTCGCGGGCCCCGAGCAGGATTACCTCGTGACCGTTCAGCAGCTGGAGGCGGCCGTGACGGACCGCACCAAGATCCTGCTCTTTGTTTCTCCGTCCAACCCCACGGGGTCGGTCTACTCACCGGAGCAGGTTGCCGAGATTGGACAGTGGGCTGCCGCCAAGGGCCTGTGGGTGGTCACGGATGAGATCTACGAGCACCTGACGTACGACGGCGTCCCGTTCACCTCCATCGCCACCGCCGCCCCCGAACTGGGTGACAAGGTAGTCATCCTCAACGGCGTTGCCAAGACGTACGCGATGACCGGCTGGCGCGTGGGCTGGATGATCGGCCCGGCCGACGTCATCAAGGCCGCCACCAACCTGCAGTCCCACGCCACGTCCAATGTGTCCAACATCCCGCAGATCGCCGCCCTCGCGGCCGTCTCCGGTCCCCTGACCGCCGTTGACGAGATGAAGGTCGCCTTCGACCGCCGGCGCAAAGCGATCGTGGCCGGCCTGAACGCTATTGAGGGCGTTGAATGCCCGACGCCGAAGGGCGCCTTTTACGTTTACGCCGACGTCCGCGCGCTGCTGGGCAAGGAATTCCCGACGGCGAACGGTCCTGTCAGCCCCGCAACCTCCGCAGAGCTCGCTGCGCTGATCCTCGACGAGGTTGAGGTTGCCGTCGTCCCCGGCGAAGCCTTCGGCCCGTCCGGTTACCTGCGGCTCTCCTACGCCCTCGGCGACGATGACCTCGCCACCGGCGTGGCCCGCCTGCAGGACTTCCTGGGCAAGGCCAAGTAA	MSSARVSQRISAIAESATLAVDAKAKALKAAGRPVIGFGAGEPDFPTPDYIVKAAIEAASQPKYHRYSPAGGLPELKKAIAEKTFRDSGYKADPSQVLVTNGGKQAVYNTFATLVDPGDEVIVPTPFWTTYPEAIRLAGGVPVEVFAGPEQDYLVTVQQLEAAVTDRTKILLFVSPSNPTGSVYSPEQVAEIGQWAAAKGLWVVTDEIYEHLTYDGVPFTSIATAAPELGDKVVILNGVAKTYAMTGWRVGWMIGPADVIKAATNLQSHATSNVSNIPQIAALAAVSGPLTAVDEMKVAFDRRRKAIVAGLNAIEGVECPTPKGAFYVYADVRALLGKEFPTANGPVSPATSAELAALILDEVEVAVVPGEAFGPSGYLRLSYALGDDDLATGVARLQDFLGKAK	PGPT0020110_848	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-17_01105	270	secE		Protein translocase subunit SecE	GTGACCGAAACAGCTGCAAGCAGCTCCAAGGGCCGCCCCGCAAAGAATGCCGCCAAAGCCGGCTTCTTCGCTCGCATCGCACTCTTCGTCCGCCAGGTCATCGGTGAACTGAAGAAGGTCGTGGCGCCGACCCGCAAGGAACTGATCAACTACACGCTCGTGGTGCTCGTATTCGTGGTCATCATGATGGTCATCGTTACCTTGCTGGACCTCGGCTTCGGCAGCGCGGTGAGCTGGATCTTCGGCGGTACGGCCCCCGCGGACCGCTAA	MTETAASSSKGRPAKNAAKAGFFARIALFVRQVIGELKKVVAPTRKELINYTLVVLVFVVIMMVIVTLLDLGFGSAVSWIFGGTAPADR	PGPT0025715_1770	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
D1-17_01106	882	nusG		Transcription termination/antitermination protein NusG	GTGTCTGAGCACAAGCTCGAGGTAACTGAGACTGAGCTGGATGAAACGCGGAACCCGGCGGCTGAACCCGCTGCGGAGTCTGGGGTTGAGTCTGCTGCACCCGATTTCGACGGCGCTGCTGACGCCGCCTCAGACGCCGACGACGCCGCTGCGGATGTAACAGAAGAAGCCACTGCGGATGAAACAGAAGCAGACGCTGCGGACGAAGCTGCGGATGAAACAGAAGCAGGCGCTGACGGCGAGGACTCGGATGCCCTGGCCGCCGCTGCCGCCAAGGCGGAGGTTGATCCTGCTGAAGAATTCAAGGCGAAGCTGCGCCGCCAGGAGGGTGACTGGTACGTCATCCACTCCTACGCCGGTTACGAAAACCGTGTGAAGGCCAACCTCGAGACGCGCATCCAGACCCTGGACATGGAAGATTACATCTTCGAAATCCAGGTGCCCATGGAGGAAGTCGTTGAGATCAAGAACGCCCAGCGCAAGGTCATCAACCGCGTCCGCATCCCCGGCTACGTGCTCGTCCGCATGGACCTGACCGACGCCTCGTGGGGCGCCGTCCGCCATACCCCGGGTGTCACCGGCTTCGTCGGCAACGCTCACAACCCTGTGCCGCTGCGTCTGGACGAGGTCTTCTCCATGCTCGCACCGGTCTTCGAAGAGGAGCAGGCCGAGAAGGGCAAGCCCGCCAAGCAGCCTTCCGCTCCGGTGAACGTCGACTTCGAGGTTGGCGAGTCTGTCATCGTCAAGGAAGGCCCGTTCGAGACCCTTCCCGCCACGATCTCCGAAATCAAGGTGGATTCCCAGACCCTCGTGGTCCTGGTGTCCATCTTCGAGCGCGAGACGCCGGTCACGCTGGGCTTCAACCAGGTCACCAAGATCTAG	MSEHKLEVTETELDETRNPAAEPAAESGVESAAPDFDGAADAASDADDAAADVTEEATADETEADAADEAADETEAGADGEDSDALAAAAAKAEVDPAEEFKAKLRRQEGDWYVIHSYAGYENRVKANLETRIQTLDMEDYIFEIQVPMEEVVEIKNAQRKVINRVRIPGYVLVRMDLTDASWGAVRHTPGVTGFVGNAHNPVPLRLDEVFSMLAPVFEEEQAEKGKPAKQPSAPVNVDFEVGESVIVKEGPFETLPATISEIKVDSQTLVVLVSIFERETPVTLGFNQVTKI				NA	NA	NA	NA	NA
D1-17_01107	432	rplK	COG0080	50S ribosomal protein L11	TTGGCTCCCAAGAAGAAGGTCACCGGCCTCATCAAGCTGCAGATCCAGGCAGGTGCCGCTAACCCGGCCCCGCCGATCGGTCCTGCGCTTGGCCAGCACGGTGTCAACATCATGGAATTCTGCAAGGCGTACAACGCTGCGACGGAAGCCCAGCGCGGAAACGTTATTCCTGTTGAAATCACGGTCTACGAAGACCGTTCTTTCACGTTCATCACCAAGACCCCGCCGGCTGCAGAGCTCATCAAGAAGGCTGCAGGCGTCGCCAAGGGTTCAGCAACCCCGCACACCGTCAAGGTTGCCAAGCTGACCCAGGCCCAGGTCAACGAGATCGCCTCCACCAAGATGGAAGACCTCAACGCCACGAGCCTCGAAGGCGCCGCGAAGATCATCGCCGGCACCGCCCGCTCCATGGGCATCACCGTCGAGGGTTAA	MAPKKKVTGLIKLQIQAGAANPAPPIGPALGQHGVNIMEFCKAYNAATEAQRGNVIPVEITVYEDRSFTFITKTPPAAELIKKAAGVAKGSATPHTVKVAKLTQAQVNEIASTKMEDLNATSLEGAAKIIAGTARSMGITVEG				NA	NA	NA	NA	NA
D1-17_01108	708	rplA	COG0081	50S ribosomal protein L1	ATGGCAAAGCGCAGCAAAGCATATGAGGCAGCCGTAGCCAAGATCGAGGCAAACAAGGTTTACGCCCCGTTCGAGGCCATTAGCCTGGCGAAGGAAATCAACCCTTCCAAGTTCGACGCAACCGTTGAGGTCGCTTTCCGCCTGGGCGTTGACCCGCGTAAGGCCGACCAGATGGTCCGTGGCACCGTCAACCTGCCGCACGGCACCGGTAAGACCGCCCGCGTCCTCGTTTTCGCAACCGGTGACAAGGCTGAAGCAGCAATCGCTGCCGGCGCTGACTTCGTTGGTTCCGACGACCTGATCGAAAAGATCTCCGGCGGCTGGACCGACTTCGATGCCGCCGTTGCCACCCCTGACCTCATGGGCAAGGTTGGCCGCCTCGGTAAGGTCCTCGGCCCGCGTAACCTGATGCCGAACCCGAAGACCGGCACCGTGACCGCCGACGTCACCAAGGCCGTCAACGACATCAAGGGTGGAAAGATCGACTTCCGCGTCGACAAGCACTCCAACCTGCACTTCATCATCGGCAAGGTCTCGTTCGATGCCGTCAAGCTGGCGGAGAACTACGCAGCCGCCCTGGAAGAGGTGCTTCGTCTGAAGCCGTCCGCTTCCAAGGGCCGCTACATCCAGAAGGCTACGGTTGCCACCACGTTCGGTCCCGGCATCACCGTGGATCCCAACGTCACCAAGGTGCTGGCCGAGGCCTAA	MAKRSKAYEAAVAKIEANKVYAPFEAISLAKEINPSKFDATVEVAFRLGVDPRKADQMVRGTVNLPHGTGKTARVLVFATGDKAEAAIAAGADFVGSDDLIEKISGGWTDFDAAVATPDLMGKVGRLGKVLGPRNLMPNPKTGTVTADVTKAVNDIKGGKIDFRVDKHSNLHFIIGKVSFDAVKLAENYAAALEEVLRLKPSASKGRYIQKATVATTFGPGITVDPNVTKVLAEA				NA	NA	NA	NA	NA
D1-17_01109	1092			hypothetical protein	GTGACGACGACGTCCTACCGCATAGAACCGCTCACCCTCCCTGCCGCTGTGGATGCTGCCGACGCCGGCGACTTCCTGGAGTACAGCGAGCTTACCGACGCCCTGATCATGGAAACCTGGGGCAACCTCGACCGTGCCACTCCCCGCGAAGCGCGACTCGAAGGCTGGCGCGACAACCAGTACCAGCAGGCGCGGCTCTTCTTCCTCCGGCTGGACGGCCGCATGGTGGCGAGGTCCTGGATCAGGCTGCCGCTGCAGGAGAACCTCCAGGACGCCTTGCTCCGGGTTGACGTGCTGAACAGGTTTAGCGGCCGGGGGATCGGACGGCTGATGCTGCGCCACCTCGAAGAATTCGCCGCCCGCCACGGCCGGACCACGTTGCAGAGCTTCACTGAACATGCTCCCGGCTTCGACCCCGATGGGCCCGGAATCCTCAAACCCGGAACGGGCACGGGAGGGATTCCGGCGGGATCCAGGGCGGCACGATTCGCCCTGGCGGCCGGCTACGCGCTTGAGCAGGTGACGCGTTTCAGCGCACTGGACATGCCGCCGTCGGACGCGGTCCTTGACGCGCTGGAACGCGAGGCGTCCGCCGTCGCCGGGGAACGCTACGAACTCCTCACCTGGACGGACCGCTGCCCGGATGACTATGTGGACCAGTTCGCCGTGCTCATGTCGCGGATGAGCACCGACAGCCCTGCCGGTGCCCTCCATTATGATCCGGAAGTCTGGGATGCCAAGCGGGTACGCCATGCCGAGGAAGAGTGGGAGCAGACGGGACTGGAGTCCCTTGTTGCTATGGCGAGGCATAAGGCAAGCGGCGAACCCGCCGCTTACTCCGTGCTGCAGTATTCCGCATTAAAGCCCTGGGCCGCTGAACAGGAGGACACCCTGGTGACGAAGGAGCACCGGGGAAACCGGCTGGGCATGCTGGTCAAGATCCTCAACCTGCGGCGGCTGGCGCGGGAACACCCTTCAGTGGAACGCGTCCTGACGTTCAACGCCTCCGAGAACCAGCACATGCTGGCCATCAACGAGTCCCTCGGTTTCCGGCCTGCCGGGTACGACGGTGAGTGGCAGCGCCGCCGTTAA	MTTTSYRIEPLTLPAAVDAADAGDFLEYSELTDALIMETWGNLDRATPREARLEGWRDNQYQQARLFFLRLDGRMVARSWIRLPLQENLQDALLRVDVLNRFSGRGIGRLMLRHLEEFAARHGRTTLQSFTEHAPGFDPDGPGILKPGTGTGGIPAGSRAARFALAAGYALEQVTRFSALDMPPSDAVLDALEREASAVAGERYELLTWTDRCPDDYVDQFAVLMSRMSTDSPAGALHYDPEVWDAKRVRHAEEEWEQTGLESLVAMARHKASGEPAAYSVLQYSALKPWAAEQEDTLVTKEHRGNRLGMLVKILNLRRLAREHPSVERVLTFNASENQHMLAINESLGFRPAGYDGEWQRRR				NA	NA	NA	NA	NA
D1-17_01110	1116			hypothetical protein	GTGACTAGCGATGTGCGGATTGAGCAGCTGTTCATACCGAACTCCATCGATGCGCCCGACGCTGCGGATTTTCTTGCCGCAGTGGAAGTCAGCCGCAAGGTCCGGATGCAGACGTGGGGGAGTGATGACCTCGCCTACGCACCCTTGGAGAAGCTCCTTGAGTTGGACGATCCCTACGAGCGCCAGGTCATCCTGGTGGCCAAGGTCGACGGCGAGATTGTCGGCACCGCGGATATCGCCTTGCCCCTGACCGACAACCTGGACTTGGCCGAGTTCACGCTCGACATCCTGCCGGAGTACCAGGGCCAGGGCGTGGGGCGGCAGTTGCTGGAAGCCGCGGAGGCCTTTGCCCGCGACGAGGGGCGGACCATGATCCTGATCGACACAAACCACCCCGGGGCGTCGTTGCATGAGTTCGACGTCGACCAGCTGGTGCCGGGGTCCGGCCAGGGTTTCGTGCCGCTGGGCAGCAGGGAAGTGGAGTTCGCCCGGCGTACCGGCTACACGCTCCAGCACATCGAGCAGTTCAGTTCCTGCGCACTGCCGCTTGATACGAAGCTCGTGGCGGAGCTGGAGGCTGAGGCGCAGGAGGCCAACAACGGCAGGTACCGCCTGCATCACTGGACGGACCGCTGCCCGGACCGCTGGCTGGAATCTGTTGCTGCCCTCGAGAACCAGGCCGGCGGGGGCGCGTTGCCCATTGCCGGCGGCGGGGACGACGGCATGGTGATGGACGCCCGCATTCTGCGGGAAGCGGAAGCCGCGACCATAGCGCAGGGACGTCGGACGGTGGTGACCGCCGTCGAACATATCGCCACCGGAACTCTGGTGGGGCTGACCACCATCAGTGTCCTGGCGCAGCGGCAGGACGTCGTCTTCCAGGACGACACGGTGGTGCTGCAGGAACACCGCGGCAACAAGCTCGGCCTGCTCATCAAGGTGGCCAACATGGAACGGCTCACGGAGCAGTTCCCGGATGCGCGCGTGATCTATACCTGGAATGCACCGGAAAACCGGTACCTCCTGACCGTCAACCGCCAGTTGGGATTTACGACGGCGGGTGTCACCGGGATCTGGCAGAAGGAACTTCCCGATCTCGGCCCCAGCAGGAGCTAG	MTSDVRIEQLFIPNSIDAPDAADFLAAVEVSRKVRMQTWGSDDLAYAPLEKLLELDDPYERQVILVAKVDGEIVGTADIALPLTDNLDLAEFTLDILPEYQGQGVGRQLLEAAEAFARDEGRTMILIDTNHPGASLHEFDVDQLVPGSGQGFVPLGSREVEFARRTGYTLQHIEQFSSCALPLDTKLVAELEAEAQEANNGRYRLHHWTDRCPDRWLESVAALENQAGGGALPIAGGGDDGMVMDARILREAEAATIAQGRRTVVTAVEHIATGTLVGLTTISVLAQRQDVVFQDDTVVLQEHRGNKLGLLIKVANMERLTEQFPDARVIYTWNAPENRYLLTVNRQLGFTTAGVTGIWQKELPDLGPSRS				NA	NA	NA	NA	NA
D1-17_01111	585			hypothetical protein	ATGGCAACGCCTACCAAGGTTTCAGCAGTAGCTGAGATCACTAACGATTTCAAGGAATCGAACGCCGCTGTCCTGACCGAATACCGTGGGCTCACCGTTGCACAGCTCAAGCAGCTGCGTGTTTCTCTCGGCCAGGACACCAAGTTCGCGGTCGTTAAGAACACCCTGACCGCCATTGCAGCCAAGGAAGCTGGTGTCGAAGCATTCGACGGCCAGCTTGCCGGCCCCACTGCAATCGCGTTCATCAAGGGTGACGCAGTTGCAGCTGCCAAGAGCCTGACGGATTTTGCCAAGGCCAACAAGCAGCTGGTCATCAAGACCGGTTACTTCGAGGGCAAGGCACTGAACGCCAGCGAAGTTGCCGCCCTGGCAGCACTCGAGTCCCGCGAGCTGCAGCTCGCCAAGGTTGCAGGCGTCCTCAAGGCCCCTGCTGCCGCTGCTGCACGCATCATCGACGCACTGCGCCTCAAGCTTGAAGAAGAGAACGGTGCTCCGGCTGAAGCCGCAGCTCCCGCCGCTGAAGAAGCTCCCGCCGCAGACGCAGCAGCTGAGGCTCCGGCCGAAGCCGCCGCCGAAGAGAACTAA	MATPTKVSAVAEITNDFKESNAAVLTEYRGLTVAQLKQLRVSLGQDTKFAVVKNTLTAIAAKEAGVEAFDGQLAGPTAIAFIKGDAVAAAKSLTDFAKANKQLVIKTGYFEGKALNASEVAALAALESRELQLAKVAGVLKAPAAAAARIIDALRLKLEEENGAPAEAAAPAAEEAPAADAAAEAPAEAAAEEN				NA	NA	NA	NA	NA
D1-17_01112	378	rplL	COG0222	50S ribosomal protein L7/L12	ATGGCGAAGCTCACCAACGAAGAGCTCATTGAAGCTTTCAAGGAACTGACCATCATCGAGCTCTCCGAGTTCGTCAAGCTCTTCGAAGAAACCTTCGACGTCACCGCTGCTGCTGTTGCTGTTGCTGGCCCCGCTGCCGGCGGCGCTGCAGAAGAAGCTGAAGAGAAGACTGACTTCGACGTCGTCCTCGAAGCTGCTGGCGACAAGAAGATCGCAGTGATCAAGGAAGTCCGCGCCATCACCTCCCTCGGCCTCAAGGAAGCCAAGGACCTGGTTGACAGCGCTCCCAAGGCTGTTCTCGAAGGCGCCACCAAGGAAGCCGCCGAGAAGGCAAAGGCTCAGCTCGAAGAAGCTGGCGCCACCGTTACCCTCAAGTAA	MAKLTNEELIEAFKELTIIELSEFVKLFEETFDVTAAAVAVAGPAAGGAAEEAEEKTDFDVVLEAAGDKKIAVIKEVRAITSLGLKEAKDLVDSAPKAVLEGATKEAAEKAKAQLEEAGATVTLK				NA	NA	NA	NA	NA
D1-17_01113	537			hypothetical protein	ATGGAGGCCCTACCTGCGGGCAGTCCGGGCACAGGCGGTTCGGGCACAGGCGGCGGCTCCGGCGGAATCGGCTCCGGCAGGGAGCGGTTCCTTGCCGACGCCGCCGCGCGGGGGCTCGACGTCGAAATCGTGGAGCGGCTCGCCGCCCACAGCCTGGAGGAGGCCGCGTTTATCCTCGGCATCACGCCGGCCGACATCGTGAAGTCCCTCGTGGTGAAGCACAAGGACGGCAGCTTCCTGTTCGCTCTGATTCCGGGCGACCGCCAGATTTCCTGGTCCAAGCTGCGCGGCCTCGTGGGAGTGAACAAACTCTCCATGCCCCCGGCGGACGTGGCGCTGGAAGCCACCGGTTACGAGCGGGGAACTATCACTCCGCTCGGGAGCACCACGGCCTGGCCGGTCTATGCCGATCAGACCATTGCCGGCCGGCGCATTTCCATGGGCGCAGGCCAGCACGGCTACAGCGCGTTCGTGGACGCCGATGCCCTTGTCGCCGCGCTCGGAGCCGTGGTGGCTGACATCAGCGATCCAAACTAG	MEALPAGSPGTGGSGTGGGSGGIGSGRERFLADAAARGLDVEIVERLAAHSLEEAAFILGITPADIVKSLVVKHKDGSFLFALIPGDRQISWSKLRGLVGVNKLSMPPADVALEATGYERGTITPLGSTTAWPVYADQTIAGRRISMGAGQHGYSAFVDADALVAALGAVVADISDPN				NA	NA	NA	NA	NA
D1-17_01114	1200		COG0183	putative acetyl-CoA acetyltransferase	ATGAGCAACTCCGCAGACAACAGCGACGTTGTCATTCTGTCCGGTGCACGCACCCCGCAGGGCCGTCTCAACGGGCAGCTGGCGAGCTTCACCGCCGTCGAGCTCGGGACACATGCGATCACTGCGGCCCTGGCCGCCAGCGGACTCCGCGCCGACCAGGTCGAGGCAGTCATCATGGGCCAGGTGCTGCAGGCCGGCGCCGGCCAGAACCCTGCGCGCCAGAGTTCGATTGGTGCCGGCATCGGCTGGAACGTGCCCGCGGTGACCGTCAACAAGGTGTGCCTGTCAGGGCTGACGGCGGTGATCGACGCGGCGAGGATGATCCGCAGCGGTGATGCCCGCGTCGTCGTCGCCGGCGGCCAGGAGTCCATGACCCGGGCCCCGCATCTGCTGCCCGGATCGCGCCAGGGCTGGACCTACGGTGCCATTCAGGCGCTCGACGTCGCCGCACATGACGGCCTGACCGACGCCTTCGACGGGCAGTCCATGGGCCTCTCCACTGAAAGCAAAAATCTCGTCCTCGGCATCGATCGGACCTCGCAGGACAACGTCGCCGCACACTCCCACCAGCGCGCAGCCATCGCGTCCAAGAACGGTGTTTTCGACGAGGAGATCGCGCCGATCAGCGTCAAGCAACGCAAAGGCGATCCCTTGGTGGTTTCCACCGATGAGGGCGTCCGCCCGGACGCCTCCATCGAGTCCCTCGCCGGGCTGCGCGCCGCGTTCGTGACAGACGGCACCATCACCGCCGGAAACTCCTCTCCCCTGTCTGACGGCGCCTCCGCCCTGGTGCTGACCTCCCGCAAATATGCGGAAGCCAACGGGCTGGACTACTTGGCGGTTGTAGGCAAACCGGGCCAGGTGGCCGGGCCGGACAATTCCCTGCACTCCCAGCCCTCCAACGCGATCCGCAACGCCCTGGAGCGGGCTGGCTGGACCACAGCGGAACTGGACTTCATCGAAATCAACGAGGCATTCGGCTCAGTTGCCGTGCAGTCCCTCAAGGATCTCGACTACCCCTTGGAACAGTGCAACCTGCACGGCGGCGCAATCGCCCTCGGCCACCCGATCGGCGCCTCCGGCGCCCGGCTTGCACTGCACGCCGCCCATGAGTTGCAGCGCCGCGGCCAGGGCAAGGCGGCGGTTGCGCTATGCGGTGGCGGAGGCCAGGGCGAAGCCCTGCTGCTGTACAGGGACTGA	MSNSADNSDVVILSGARTPQGRLNGQLASFTAVELGTHAITAALAASGLRADQVEAVIMGQVLQAGAGQNPARQSSIGAGIGWNVPAVTVNKVCLSGLTAVIDAARMIRSGDARVVVAGGQESMTRAPHLLPGSRQGWTYGAIQALDVAAHDGLTDAFDGQSMGLSTESKNLVLGIDRTSQDNVAAHSHQRAAIASKNGVFDEEIAPISVKQRKGDPLVVSTDEGVRPDASIESLAGLRAAFVTDGTITAGNSSPLSDGASALVLTSRKYAEANGLDYLAVVGKPGQVAGPDNSLHSQPSNAIRNALERAGWTTAELDFIEINEAFGSVAVQSLKDLDYPLEQCNLHGGAIALGHPIGASGARLALHAAHELQRRGQGKAAVALCGGGGQGEALLLYRD	PGPT0008320_5840	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-17_01115	3516	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	TTGGTCGCCTCGAGCACCTCTAATGAAAACAACGCTACCGCTATCAATGCCGAAAGCACCGACGGTGCCACTCGCCGGCTCTCATTCGCAAAGATTCACGAACCTCTTGACGTTCCGAATCTGCTCGCCCTGCAGACGGACAGCTTCGACTGGCTGGTCGGAAACGAACGCTGGCAGGCCCGTGTAGCGAAAGCCGTCGAAGAAGGCGACCTGAGCGTCGCCACCACCTCCGGTCTTTCCGACATCTTCGAAGAGATCTCCCCGATTGAGGACTTCCAGGGCACCATGTCCCTGAGCTTCTCCGATCCGGAGTTCGCTGACCCGAAGTACACCATGGCCGAATGCAAGGACCGGGACGCTACGTACTCGGCACCGCTGTACGTCAAGGCCGAATTCATGAACAACAACACGGGCGAAATCAAGCAGCAGACCGTGTTCATGGGTGATTTCCCGCTGATGACCGAGAAGGGCACCTTCGTTGTCAACGGCACCGAACGTGTCGTCGTTTCCCAGCTGGTCCGTTCCCCGGGCGCCTACTTCGAGCGTGCCGCTGACAAGACCAGCGACAAGGACATTTTCACCGCAAAGATCATTCCGTCCCGCGGTGCCTGGTTCGAGCTCGAAATCGACAAGCGCGACCAGGTCGGCGTTCGCCTCGACCGCAAGCGCAAGCAGTCCGTCACGGTGCTGCTGAAGGCCCTCGGCTGGACCGAAGGCCAGATCCTCGAGGAGTTCGGCCAGTACGACTCCATGCGTGCCACGCTGGAGAAGGACGCCACCGAAACCCGCGAAGACGCCCTGCTGGACATCTACCGCAAGCTGCGTCCGGGCGAGCCGCCCACCGTTGAGGCTGCCCAGTCCCTGCTGGACAACCTGTACTTCAACTCCAAGCGCTATGACCTGGCCAAGGTTGGCCGTTACAAGATCAACCGCAAGCTTGGCATCGACCGCTCCCTTGGCGACAAGGAAGCTTCGGTCCTGCATGTTGAAGACATCGTCGCCATGATCAAGTTCCTCGTCGCGCTGCACGCCGGCGAGAAGACCCTCATGGGCAAGCGCGACGGCCAGGACCACGAGCTGCGTGTCGAGATCGATGACATCGACCACTTCGGCAACCGCCGCATCCGCGCTGTAGGCGAACTCATTGAGAACCAGGTCCGCACCGGCCTGTCCCGCATGGAGCGCGTCGTCCGCGAACGCATGACGACGCAGGACGTCGAGGCCATCACGCCGCAGACCCTGATCAACATCCGTCCCGTGGTGGCAGCCATCAAGGAGTTCTTCGGAACGTCCCAGCTGTCCCAGTTCATGGACCAGAACAACCCGCTCTCGGGTCTGACCCACAAGCGCCGTCTTTCGGCGCTGGGCCCGGGCGGTCTGTCCCGTGACCGCGCAGGCATGGAAGTTCGAGACGTCCACCCGTCCCACTACGGACGTATGTGCCCCATCGAAACCCCTGAAGGCCCCAACATTGGTCTGATCGGCTCGCTGGCATCCTACGGACGCATCAACCCGTTCGGTTTCATCGAGACGCCTTACCGGCTCGTCAAGGACGGCGTCGTTTCCGATGACGTCCAGTACCTGACGGCCGACGACGAGGCCGAGGTCCTGATTGCACAGGCCAACGCTCCGCTCGACGAGAACAAGCGCTTCGCTGAAGAGACCGTCCTGGTCCGTGCACGCGGTGGTGGAGGCGAGCCCGTGCTCGTTCCCGCCGAGGATGTGCAGTTCATGGACGTTTCCCCGCGCCAGATGGTGTCCGTGGCAACCGCCTTGATCCCGTTCCTTGAGCACGACGACGCCAACCGCGCACTCATGGGTGCCAACATGCAGCGCCAGGCTGTGCCGTTGGTCCGTTCCGAGGCCCCGTTCGTGGGCACCGGCATGGAGCGCGCCGCTGCTGTTGACGCCGGTGATGTTGTCATCGCCAAGAAGGCCGGTGTGGTGACCGAGGTCTCCGCTGAGCTCGTTGTCATGCTCAACGACGACGGCACGGAAACCAACTACCGCATCAACAAGTTCGCCCGCTCCAACCAGGGCAACTGCTACAACCACCGCGTTCTGGTGAACGAAGGCCAGCGCCTGGAAGTCGGCGGCATCATCGCCGACGGCCCGGCAACGGACCAGGGCGAGCTTGCCCTTGGTAAGAACCTGCTCGTGGCATTCATGTCATGGGAAGGCCACAACTTCGAGGATGCCATCATCCTGTCCCAGCGCATCGTCGCTGAGGACGTCCTTTCCTCCATCCACATCGAGGAGCACGAGATCGATGCCCGCGACACCAAGCTTGGTGCCGAGGAAATCACCCGTGATATCCCCAACGTGTCCGAGGAAGTCCTGGCAGGCCTGGACGAGCGCGGCATCATCCACATCGGTGCCGAGGTAGAAGCCGGCGACATTCTGGTCGGAAAGGTCACCCCGAAGGGTGAAACCGAACTGACCCCGGAAGAGCGCCTGCTCCGCGCCATCTTCGGTGAGAAGTCCCGCGAAGTGCGCGACACCTCCCTGAAGGTGCCGCACGGCGAGTCCGGCACGGTCATCGGCGTGCGCGTCTTCGACCGCGACAACGACGACGAGCTGCCCCCGGGTGTCAACCAGCTGGTCCGTGTCTATGTGGCTGCCAAGCGCAAGATCACCGACGGCGACAAGCTCGCCGGCCGCCACGGCAACAAGGGCGTTATCTCCAAGATCCTTCCGGTCGAGGACATGCCCTTCCTTGCCGACGGCACCCCCGTCGATATCGTCCTGAACCCGCTGGGTGTCCCAGGCCGTATGAACGTCGGCCAGGTTCTCGAGACGCACCTCGGCTGGGTAGCCAAGACCGGTTGGAAGATCGAAGGCGACCCCGAGTGGGCCAAGCAGCTGCCGAACCTGCCGCGCGAAAGTGGCCAGACCACTGTTGCAACGCCGGTCTTCGACGGTGCCCGCGAAGAGGAAATCACGGGCCTGCTCGACTCCACCAACCCGACGCGTGACGGCGACCGCCTGATCGACTCCTCGGGCAAGACCCGCCTGTTTGACGGCCGCTCCGGCGAGCCGTTCCCGGATCCGATCTCGGTCGGCTACATGTACATCCTGAAGCTCCACCACCTGGTGGACGACAAGATCCACGCGCGCTCCACCGGCCCGTACTCCATGATCACGCAGCAGCCGCTGGGTGGTAAGGCACAGTTTGGTGGCCAGCGCTTCGGTGAAATGGAAGTGTGGGCGCTCGAAGCTTACGGCGCCGCCTACACGCTCCAGGAACTCCTCACGATCAAGTCCGATGACATCCACGGTCGTGTGAAGGTCTACGAAGCGATCGTCAAGGGCGAAAACATCCCCGAGCCGGGCGTTCCTGAGTCCTTCAAGGTCTTGATCAAGGAAATGCAGTCGCTGTGCCTGAACGTGGAAGTGCTTTCCACGGACGGAACCACAATTGAAATGCGTGACTCTGATGACGCAGTCTTCACGGCTGCGGAAGAACTGGGCATCGATCTGTCACGTGCAGAGCCCAGTTCTGTAGAAGAGGTTTAG	MVASSTSNENNATAINAESTDGATRRLSFAKIHEPLDVPNLLALQTDSFDWLVGNERWQARVAKAVEEGDLSVATTSGLSDIFEEISPIEDFQGTMSLSFSDPEFADPKYTMAECKDRDATYSAPLYVKAEFMNNNTGEIKQQTVFMGDFPLMTEKGTFVVNGTERVVVSQLVRSPGAYFERAADKTSDKDIFTAKIIPSRGAWFELEIDKRDQVGVRLDRKRKQSVTVLLKALGWTEGQILEEFGQYDSMRATLEKDATETREDALLDIYRKLRPGEPPTVEAAQSLLDNLYFNSKRYDLAKVGRYKINRKLGIDRSLGDKEASVLHVEDIVAMIKFLVALHAGEKTLMGKRDGQDHELRVEIDDIDHFGNRRIRAVGELIENQVRTGLSRMERVVRERMTTQDVEAITPQTLINIRPVVAAIKEFFGTSQLSQFMDQNNPLSGLTHKRRLSALGPGGLSRDRAGMEVRDVHPSHYGRMCPIETPEGPNIGLIGSLASYGRINPFGFIETPYRLVKDGVVSDDVQYLTADDEAEVLIAQANAPLDENKRFAEETVLVRARGGGGEPVLVPAEDVQFMDVSPRQMVSVATALIPFLEHDDANRALMGANMQRQAVPLVRSEAPFVGTGMERAAAVDAGDVVIAKKAGVVTEVSAELVVMLNDDGTETNYRINKFARSNQGNCYNHRVLVNEGQRLEVGGIIADGPATDQGELALGKNLLVAFMSWEGHNFEDAIILSQRIVAEDVLSSIHIEEHEIDARDTKLGAEEITRDIPNVSEEVLAGLDERGIIHIGAEVEAGDILVGKVTPKGETELTPEERLLRAIFGEKSREVRDTSLKVPHGESGTVIGVRVFDRDNDDELPPGVNQLVRVYVAAKRKITDGDKLAGRHGNKGVISKILPVEDMPFLADGTPVDIVLNPLGVPGRMNVGQVLETHLGWVAKTGWKIEGDPEWAKQLPNLPRESGQTTVATPVFDGAREEEITGLLDSTNPTRDGDRLIDSSGKTRLFDGRSGEPFPDPISVGYMYILKLHHLVDDKIHARSTGPYSMITQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQELLTIKSDDIHGRVKVYEAIVKGENIPEPGVPESFKVLIKEMQSLCLNVEVLSTDGTTIEMRDSDDAVFTAAEELGIDLSRAEPSSVEEV				NA	NA	NA	NA	NA
D1-17_01116	3900	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	ATGTCCAGCGAATCCTCCTTCGGCCTCATGCAGATCGGCCTCGCCACCGCGGAAGACATCCGCGGCTGGTCGTACGGCGAGGTTAAGAAGCCGGAAACCATCAACTACCGCACGCTCAAACCCGAGAAGGACGGCCTCTTCTGCGAGAAGATCTTCGGCCCTTCCCGTGACTGGGAATGCTACTGCGGTAAGTACAAGCGCGTGCGCTTCAAGGGCATCATCTGCGAGCGGTGTGGCGTTGAGGTCACCCGTGCCAAAGTCCGCCGTGAGCGCATGGGCCACATCGAACTGGCTGCTCCCGTAACCCACATCTGGTACTTCAAGGGCGTGCCCTCCCGTCTGGGCTACCTCCTTGACTTGGCTCCGAAGGACCTCGAAAAGGTCATCTACTTCGCTGCCTACATGATCACCAGCGTCGATGAGGAAAGCCGCCACGCGGAACTGCCCAACCTGCAGGTTGAGCACGACATCGAGAAGAAGCAGCTGATCGACAACCGCGACTCCGATATCGCGACGATCGCCCGCGACCTCGAGAACGAGCTTGCCCGTCTTGAAGGTGAAGGCGCCAAGGCTGCCGACAAGAAGAAGGCCCGCGACTCCGCTGACCGCCAGATGGCGAACGTCCGCAAGCGCGCCGACGCCGACATCGAGCGCCTCGAGCAGGTCTGGGACCGCTTCAAGAACCTTAAGGTCGCCGACCTCGAAGGTGACGAAGGCCTGTACCGCGAACTGCGCGACCGCTACGGCATCTACTTCGAAGGCTCCATGGGTGCCGAAGCCATCAAGAAGCGTCTTGAGAACTTCGACATGCAGGCTGAGTCCGACACGCTGCGCGACGTCATTGCCAACGGCAAGGGCCAGCGCAAGACCCGTGCCCTGAAGCGCCTGAAGGTGGTCAACGCTTTCCTGACCACCAACAACAGCCCGCTTGGCATGGTGCTTGACGCCGTCCCGGTGATCCCGCCGGAACTGCGCCCGATGGTCCAGCTGGACGGTGGCCGCTTCGCGACCTCCGACCTCAACGACCTGTACCGCCGCGTGATCAACCGCAACAACCGGCTCAAGCGACTGCTTGACCTGGGTGCTCCGGAGATCATCGTCAACAACGAGAAGCGCATGCTTCAGGAAGCTGTTGACAGCCTCTTCGACAACGGCCGCCGCGGCCGCCCGGTCACCGGGCCCGGCAACCGTCCCCTGAAGTCCCTGAGCGACATGCTCAAGGGCAAGCAGGGCCGGTTCCGCCAGAACCTGCTCGGCAAGCGTGTTGACTACTCCGGCCGTTCGGTCATCGTCGTCGGCCCGCAGCTGAAGCTGCACCAGTGTGGTCTGCCCAAGCAGATGGCCCTGGAGCTCTTCAAGCCGTTCGTGATGAAGCGCCTGGTTGACCTCAACCACGCCCAGAACATCAAGTCGGCCAAGCGCATGGTCGAGCGTTACCGCCCGCAGGTCTGGGACGTGCTCGAAGAGATCATCACCGAACACCCCGTGCTGCTGAACCGTGCACCTACCCTGCACCGCCTCGGCATCCAGGCGTTCGAGCCGCAGCTTGTTGAAGGCAAGGCCATCCAGCTTCACCCGCTGGTTTGTGGCGCCTTCAACGCAGACTTCGACGGCGACCAGATGGCAGTCCACCTGCCGCTGAGCCCCGAAGCTCAGGCTGAGGCCCGCATCCTGATGCTGTCCTCGAACAACATCCTGAAGCCGTCCGACGGCCGTCCCGTGACCCTGCCCTCGCAGGATATGATCATCGGCCTGTACCACCTGACCACCAAGCGTGTCGGTTCAGCAGGTGAAGGCCGCCTCTTCGGTTCGGTGTCCGAGGCCATCATGGCGTTCGACGCTCACGAGCTGCACCTGAACTCCCAGGTCAAGATCCGCCTCGACGGCTTCGTGCCGTACGCCGGCTGGGAGGCTCCGGAAGGCTGGGAGCCGGGCCAGCCCGCGCTGGTGGAAACCTCGCTGGGACAGGTGCTCTTCAACGAGACCCTGCCTGAGGACTACCCCTGGGTTGAGGCTGTTGCCGACAAGGGCGAACTGTCCCGCATCGTCAACGATCTGGCCGAGCGCTACCCGAAGGTTGTTACCGCGGCAACGCTGGACAACCTGAAGGACGCCGGTTTCTACTGGGCCACCCGCTCGGGCGTCACCGTTGCCATCTCGGACATCGAGGTGCCCGCTGCCAAGCCGCAGATCCTTGCCGGTTACGAGGAGCGCGCCGCGAAGATCCAGGGCCAGTACGACAAGGGCCTGATCGACGACGACGAGCGTCGCCAGGAACTGATCGAAATCTGGAACAAGGCAACCAACGAGATTGCCCAGGCCATGCGTGACAGCCTGTCGCCGATGAACACCATCAACCGCATGGTGTCCTCCGGTGCACGTGGTAACTGGATGCAGGTCCGTCAGATCGCGGGTATCCGTGGCCTGGTGGCCAACCCGAAGGGTGAGATCATCCCGCGTCCGATTAAGTCCTCCTACCGCGAGGGCCTGTCGGTGCTGGAGTACTTCATCGCCACGCACGGTGCCCGTAAGGGTCTGGCTGACACGGCTCTGCGTACCGCCAACTCGGGTTACCTGACCCGTCGTCTGGTGGACGTTTCGCAGGACGTGATCGTCCGCGAAGAGGATTGCGGTACCGAGCGCGGCCTGGTGACCCCGATCGCCGTCGCGGATGCAAACGGTGAACTGATGCTGGACGAGAACGTCGAGAACAGCGCCTACGCCCGCACGCTGGCCGTGGACGTCGTCGACTCCAAGGGCAACGTCCTGGCTCCGGCCGGCACCGACTGCGGCGACGTCGTGATCGCCGAGCTGTTCGCAGCCGGCATCACCGAGGTCAAGGTCCGCTCTGTGCTCACCTGTGAGTCCAGCGTCGGCACCTGCGCCCTGTGCTACGGCCGTTCGCTGGCCACCGGCAAGACCGTAGACATCGGTGAAGCTGTGGGCATCATCGCCGCACAGTCCATCGGTGAGCCCGGTACCCAGCTGACCATGCGTACGTTCCACACCGGTGGTGCTGTTTCCGCCAGCGGTGGCGACGACATCACCCAGGGTCTGCCCCGTATCCAGGAGCTCTTCGAAGCCCGTACTCCGAAGGGTGTGGCGCCGATTGCGGAAGCAGCCGGCCGCATCACCATCGAAGAGTCCGAGCGCCAGATGCGACTCGTGATCACTCCGGACGACGGTTCCGAAGAGATCGCCTACCCGGTCCTGCGCCGGTCGCGCCTCCTGATCGAGGACGGCCAGCACGTCACGGTGGGCCAGAAGCTCATCAACGGTCCGGTCGACCCGAAGCAGGTCCTGCGCATCATGGGTCCGCGTGCGGCACAGAAGTTCCTCGTGGACGAAGTGCAGGGCGTGTACCGCAGCCAGGGCATTGGCATCCACGACAAGCACGTGGAAGTCATCGTCCGCCAGATGCTGCGCCGCGTCACGGTCATCGAATCCGGCGACTCCGACCTGCTCCCCGGTGAGCTGGCCGAGCGCAGCCGGTTCGAGGACGCCAACCGCCGCGTCGTATCCGAGGGCAAGACTCCGGCTTCCGGACGTCCCGAGCTCATGGGTATCACCAAGGCCTCCCTGGCCACCGAGTCCTGGCTGTCCGCCGCTTCCTTCCAGGAAACCACCCGCGTCCTGACGCAGGCGGCCATGGAAGGCAAGAGCGACCCGCTGCTCGGCCTCAAGGAGAACGTCATCATCGGTAAGCTGATCCCGGCCGGCACGGGCCTCCCGCGCTACACCGAGATCACGGTGGAGCCGACTGAAGAAGCAAAGGCCAACCTGTTCACCGGCCCGAGCGCGTTCAGCGACTTCTCCTACGATTCCCTGGGCGGCGACGGAGCTCCTGAGTTCCACGCCATCCCGCTGGATGACTACGACCTGGGCAATGACTTCCGGTAA	MSSESSFGLMQIGLATAEDIRGWSYGEVKKPETINYRTLKPEKDGLFCEKIFGPSRDWECYCGKYKRVRFKGIICERCGVEVTRAKVRRERMGHIELAAPVTHIWYFKGVPSRLGYLLDLAPKDLEKVIYFAAYMITSVDEESRHAELPNLQVEHDIEKKQLIDNRDSDIATIARDLENELARLEGEGAKAADKKKARDSADRQMANVRKRADADIERLEQVWDRFKNLKVADLEGDEGLYRELRDRYGIYFEGSMGAEAIKKRLENFDMQAESDTLRDVIANGKGQRKTRALKRLKVVNAFLTTNNSPLGMVLDAVPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPEIIVNNEKRMLQEAVDSLFDNGRRGRPVTGPGNRPLKSLSDMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPQLKLHQCGLPKQMALELFKPFVMKRLVDLNHAQNIKSAKRMVERYRPQVWDVLEEIITEHPVLLNRAPTLHRLGIQAFEPQLVEGKAIQLHPLVCGAFNADFDGDQMAVHLPLSPEAQAEARILMLSSNNILKPSDGRPVTLPSQDMIIGLYHLTTKRVGSAGEGRLFGSVSEAIMAFDAHELHLNSQVKIRLDGFVPYAGWEAPEGWEPGQPALVETSLGQVLFNETLPEDYPWVEAVADKGELSRIVNDLAERYPKVVTAATLDNLKDAGFYWATRSGVTVAISDIEVPAAKPQILAGYEERAAKIQGQYDKGLIDDDERRQELIEIWNKATNEIAQAMRDSLSPMNTINRMVSSGARGNWMQVRQIAGIRGLVANPKGEIIPRPIKSSYREGLSVLEYFIATHGARKGLADTALRTANSGYLTRRLVDVSQDVIVREEDCGTERGLVTPIAVADANGELMLDENVENSAYARTLAVDVVDSKGNVLAPAGTDCGDVVIAELFAAGITEVKVRSVLTCESSVGTCALCYGRSLATGKTVDIGEAVGIIAAQSIGEPGTQLTMRTFHTGGAVSASGGDDITQGLPRIQELFEARTPKGVAPIAEAAGRITIEESERQMRLVITPDDGSEEIAYPVLRRSRLLIEDGQHVTVGQKLINGPVDPKQVLRIMGPRAAQKFLVDEVQGVYRSQGIGIHDKHVEVIVRQMLRRVTVIESGDSDLLPGELAERSRFEDANRRVVSEGKTPASGRPELMGITKASLATESWLSAASFQETTRVLTQAAMEGKSDPLLGLKENVIIGKLIPAGTGLPRYTEITVEPTEEAKANLFTGPSAFSDFSYDSLGGDGAPEFHAIPLDDYDLGNDFR				NA	NA	NA	NA	NA
D1-17_01117	375	rpsL		30S ribosomal protein S12	GTGCCTACGATTAACCAGCTGGTCCGCAAGGGCCGCACGCCGAAGGTCAAAAAGACCAAGGCTCCCGCGCTTAACGGCAGCCCGATGCGCCGCGGTGTTTGCACCCGCGTCTACACCACGACCCCGAAGAAGCCGAACTCGGCTCTGCGTAAGGTTGCACGTGTGCGCCTCAACGGTGGCATTGAAGTTACCGCCTACATCCCCGGTGTAGGCCACAACCTCCAGGAGCACTCGATTGTGCTCGTTCGTGGTGGTCGTGTGAAGGACCTCCCCGGTGTCCGCTACAAGATCGTCCGTGGCGCCCTCGATACCCAGGGTGTCAAGAACCGTAAGCAGGCCCGCAGCCGCTACGGCGCAAAGATGGAGAAGAAGTAA	MPTINQLVRKGRTPKVKKTKAPALNGSPMRRGVCTRVYTTTPKKPNSALRKVARVRLNGGIEVTAYIPGVGHNLQEHSIVLVRGGRVKDLPGVRYKIVRGALDTQGVKNRKQARSRYGAKMEKK				NA	NA	NA	NA	NA
D1-17_01118	471	rpsG	COG0049	30S ribosomal protein S7	ATGCCTCGCAAGGGTCCGGCCCCCAAGCGGCCGCTCGTATCAGATCCCGTTTACGGCTCCCCGCTGGTCACTCAGCTGATCAACAAGGTGCTGGTTGACGGCAAGAAGTCCACCGCTGAGCGCATCGTCTACGGTGCCCTCGAAGGTGCACGCGCGAAGTCGGGCGGCGACCCCGTTGCAGCCCTCAAGAAGGCCATGGACAACGTCAAGCCTTCCCTCGAGGTCCGCTCCCGCCGTGTCGGTGGCGCAACCTACCAGGTTCCGGTTGAGGTCAAGCCGGGCCGCTCCACCGCCCTCGCCCTGCGTTGGCTGGTCGGCTACTCCAAGGCCCGCCGTGAAAAGACGATGACCGAGCGCCTCCAGAACGAAATCCTGGATGCCTCCAACGGTCTCGGTGCCGCTGTGAAGCGTCGCGAAGACACCCACAAGATGGCCGAGTCCAACAAGGCCTTCGCCCACTACCGCTGGTAA	MPRKGPAPKRPLVSDPVYGSPLVTQLINKVLVDGKKSTAERIVYGALEGARAKSGGDPVAALKKAMDNVKPSLEVRSRRVGGATYQVPVEVKPGRSTALALRWLVGYSKARREKTMTERLQNEILDASNGLGAAVKRREDTHKMAESNKAFAHYRW				NA	NA	NA	NA	NA
D1-17_01119	2115	fusA	COG0480	Elongation factor G	GTGGCACAGGACGTGCTTACAGACCTTAGTAAGGTCCGCAACATCGGCATCATGGCCCACATCGATGCCGGCAAGACCACCACCACCGAGCGCATTCTGTTCTACACAGGTGTGAACCACAAGATCGGCGAAACGCACGACGGCGCGTCGACCACTGACTGGATGGAACAGGAAAAGGAACGCGGCATCACCATCACGTCTGCCGCCGTGACCTGCTTCTGGGAAAACAACCAGATCAACATCATCGACACCCCGGGCCACGTGGACTTCACGGTTGAGGTTGAGCGCTCCCTGCGCGTCCTCGACGGTGCAGTTGCCGTCTTCGACGGCAAGGAAGGCGTTGAGCCGCAGTCCGAGACCGTTTGGCGCCAGGCTGACAAGTACAACGTTCCGCGCATCTGCTTCGTCAACAAGATGGACAAGCTCGGTGCTGACTTCTACTTCACCGTTGACACCATCATCAGCCGCCTCGGTGCCAAGCCGCTGGTTATGCAGCTGCCGATCGGTGCCGAGAACGACTTCATCGGCGTCGTGGACCTGCTCTACATGCGCGCACTGGTGTGGCCCGGCGATGCCAAGGGTGATGTCACCATGGGCGCCAAGTACGAGATCCGCGAAATCCCGGCAGACCTCCAGGCCAAGGCCGAGGAATACCGGGCCAACCTCGTTGAGGCTGTTGCTGAGTCCTCCGAGGAACTCATGGACAAGTACCTCGAAGGTGAAGAAATCAGCATCGACGAGCTCAAGGCCGGCATCCGCAAGATGACGATCAACTCCGAGATCTACCCGGTCTTCTGTGGTTCTGCATTCAAGAACCGCGGCGTCCAGCCGATGCTCGACGCCGTCGTGGACTACCTGCCGAACCCGCTCGACGTCCCGCCGATGATCGGTCACGATCCGCGCGACGAAGAGAAGGAGCTGACCCGCAAGCCTTCCTCGGAAGAGCCGTTCTCAGCTCTGGCGTTCAAGATTGCTGCTCACCCGTTCTTCGGTCAGCTGACCTTCATTCGCGTGTACTCCGGTCACGTGGAAGCAGGCGCACAGGTGGTCAACTCCACCAAGGGCAAGAAGGAGCGCATCGGCAAGCTGTTCCAGATGCACGCCAACAAGGAAATGCCCGTTGAGGGCGCTACCGCCGGCCACATCTACGCAGCCATCGGTCTGAAGGACACCACCACGGGCGACACCCTGTGCGATGCCAGCAACCAGATCGTCCTCGAGTCCATGAGCTTCCCGGAGCCCGTGATCTCGGTTGCCATCGAGCCCAACACTAAGGGTGACCAGGAGAAGCTCTCCACGGCCATCCAGAAGCTCTCCGCTGAGGACCCGACCTTCCAGGTCTCCCTCAACGAAGACACCGGCCAGACCATCATCGCCGGCATGGGCGAGCTCCACCTGGACATCCTGGTGGACCGCATGCGCCGCGAGTTCAAGGTTGAGGCGAACGTTGGCAAGCCGCAGGTTGCTTACCGCGAAACCATCAAGCGTGCTGTAGAGCGTCACGACTACACGCACAAGAAGCAGACCGGTGGTTCCGGCCAGTTCGCAAAGATCCAGATTGCGATCGAGCCGCTGGACACCGCTGAAGGCGAGCTGTACGAGTTCGAGAACAAGGTCACCGGTGGCCGCGTTCCGCGCGAGTACATCCCGTCGGTCGATGCCGGTATCCAGGACGCGCTGAACGACGGCGTCTTGGCCGGTTACCCGGTCGTCGGCATCAAGGCAACGCTGATTGATGGCGCTTACCACGATGTTGACTCCTCGGAAATGGCGTTCAAGATCGCCGGCCGTATGGCTTTCAAGGAAGCCGCACGCAAGGCGAACCCTGTTCTGCTCGAACCGCTGATGGATGTCGAGGTCCGCACCCCTGAGGAATACATGGGTGAAGTTATCGGTGACCTCAACTCCCGCCGTGGCCAGATGCAGTCCATGGAGGATGCCCAGGGCGTCAAGGTTGTCCGCGCGCACGTCCCGCTGTCCGGCATGTTCGGCTACATCGGTGACCTGCGTTCGAAGACCCAGGGCCGCGCTGTGTACTCCATGACGTTCAACAGTTACGCCGAGGTCCCGAAGGCAGTTGCCGACGAGATCATCCAGAAGACCCGCGGCGAATAG	MAQDVLTDLSKVRNIGIMAHIDAGKTTTTERILFYTGVNHKIGETHDGASTTDWMEQEKERGITITSAAVTCFWENNQINIIDTPGHVDFTVEVERSLRVLDGAVAVFDGKEGVEPQSETVWRQADKYNVPRICFVNKMDKLGADFYFTVDTIISRLGAKPLVMQLPIGAENDFIGVVDLLYMRALVWPGDAKGDVTMGAKYEIREIPADLQAKAEEYRANLVEAVAESSEELMDKYLEGEEISIDELKAGIRKMTINSEIYPVFCGSAFKNRGVQPMLDAVVDYLPNPLDVPPMIGHDPRDEEKELTRKPSSEEPFSALAFKIAAHPFFGQLTFIRVYSGHVEAGAQVVNSTKGKKERIGKLFQMHANKEMPVEGATAGHIYAAIGLKDTTTGDTLCDASNQIVLESMSFPEPVISVAIEPNTKGDQEKLSTAIQKLSAEDPTFQVSLNEDTGQTIIAGMGELHLDILVDRMRREFKVEANVGKPQVAYRETIKRAVERHDYTHKKQTGGSGQFAKIQIAIEPLDTAEGELYEFENKVTGGRVPREYIPSVDAGIQDALNDGVLAGYPVVGIKATLIDGAYHDVDSSEMAFKIAGRMAFKEAARKANPVLLEPLMDVEVRTPEEYMGEVIGDLNSRRGQMQSMEDAQGVKVVRAHVPLSGMFGYIGDLRSKTQGRAVYSMTFNSYAEVPKAVADEIIQKTRGE				NA	NA	NA	NA	NA
D1-17_01120	1191	tuf	COG0050	Elongation factor Tu	GTGGCAAAGGCAAAGTTCGAGCGGACTAAGCCGCACGTTAACATCGGTACCATTGGTCACGTTGACCACGGTAAGACGACGTTGACGGCCGCCATTTCCAAGGTGCTGTACGACAAGTACCCGACTCTCAACGAGAAGCGTGACTTCGCGTCGATTGACTCTGCTCCCGAAGAGCGTCAGCGCGGCATTACCATCAACATCTCCCACGTTGAGTACCAGACCGAAAAGCGTCACTACGCACACGTAGACGCTCCGGGTCACGCTGACTACATCAAGAACATGATCACCGGCGCTGCTCAGATGGACGGTGCAATCCTCGTGGTTGCCGCCACTGACGGTCCGATGGCCCAGACCCGCGAGCACGTTCTGCTTGCCCGCCAGGTTGGCGTTCCCTACCTGCTGGTCGCGCTGAACAAGGCAGACATGGTTGACGACGAGGAGCTCCTCGACCTCGTCGAAATGGAAGTTCGTGAGCTCCTGAGCTCGCAGGGCTTCGACGGCGACGAAGCTCCGGTTGTCCGCGTTTCCGGCCTGAAGGCCCTGGAAGGCGACCCCGAGTGGGTCAAGTCCGTTGAGGACCTGATGGCTGCTGTCGACGAGTCCGTTCCGGACCCCGTACGTGACCGCGACAAGCCGTTCCTGATGCCGATCGAAGACGTCTTCACCATCACCGGCCGTGGCACCGTTGTTACGGGCCGCGCCGAGCGCGGTACCCTCGCGATCAACTCCGAGGTCGAGATCGTCGGTATCCGCCCGGTCCAGAAGACCACGGTCACCGGTATCGAGATGTTCCACAAGCAGCTCGACGAAGCATGGGCCGGCGAGAACTGTGGCCTCCTGCTCCGCGGTCTGAAGCGCGATGACGTAGAGCGTGGCCAGGTTGTCGTCAAGCCGGGTTCCATCACCCCGCACACCGACTTCGAGGCTAACGTCTACATCCTCTCCAAGGACGAAGGCGGACGTCACAACCCGTTCTACTCGAACTACCGCCCGCAGTTCTACTTCCGTACCACGGACGTGACCGGCGTTATCACGCTGCCGGAAGGCACCGAAATGGTTATGCCTGGCGACAACACTGAGATGACCGTTGCGCTCATCCAGCCGATCGCTATGGAAGAGGGCCTCGGCTTCGCTATCCGTGAAGGCGGCCGCACCGTTGGTTCGGGACGTGTCACCAACATCATCAAGTAA	MAKAKFERTKPHVNIGTIGHVDHGKTTLTAAISKVLYDKYPTLNEKRDFASIDSAPEERQRGITINISHVEYQTEKRHYAHVDAPGHADYIKNMITGAAQMDGAILVVAATDGPMAQTREHVLLARQVGVPYLLVALNKADMVDDEELLDLVEMEVRELLSSQGFDGDEAPVVRVSGLKALEGDPEWVKSVEDLMAAVDESVPDPVRDRDKPFLMPIEDVFTITGRGTVVTGRAERGTLAINSEVEIVGIRPVQKTTVTGIEMFHKQLDEAWAGENCGLLLRGLKRDDVERGQVVVKPGSITPHTDFEANVYILSKDEGGRHNPFYSNYRPQFYFRTTDVTGVITLPEGTEMVMPGDNTEMTVALIQPIAMEEGLGFAIREGGRTVGSGRVTNIIK	PGPT0015245_3440	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
D1-17_01121	3939			hypothetical protein	ATGTGGGCGCCGGCCGCGGCGGCGCAGTCGTCCGTCCCGGTGAAGACGACCGCCCAGTTGCACGCCGAGCGGGAGAAGGCGCGGGAGCGGCGCGAGCAGCAAAACATCAATGTCACGCTCTACGTCGCCAGCCTGCTCCTGGTCGCGGCCGGTGCTTTGTTCATTGGCGCGGGCCTTCCGGTGCCCCTGCGGTTTGCGGGCGTCTGCGCCGTCACCGCGCTGTTTTACACGGCAGGCCTTTTGCTGCATGCACGTGCCCCGCGGCTGAAGCCCGCAGCCGTTGCATTCTCCGGAACGGGCCTGGCCCTGGTCCCTGTTACAGGCTTGGCCTTGCATACCCTTGTACTTCACCACGCTCCGCTCGCGTGGCTGCTGACATCGCTTGCGGGTACCGCGGCCTACGTCCTCGCGGCAGTCCGGCTGGACAGCAGGGTCCTCGTATACCTGTCGCTGACGTTCGTCGCCTCCACTGCATGGTCGGGCGTCTCCGTTCTGGGCGGGGCGCTCATGTGGTACTTCACGGCCGTCATCGGGGTGGCGGCGCTCTTCACCCTTCTGGCCGTAGTGAAGCCGCGTTGGCTGCCGCCGCTGTACCTCAGGCCCCTCGCGAGGCTGCATCCCTTTATGGTTCCGGCGGTAGCCATGGCCGCCACGGTGGTCCCGCAAGTGCTGGAGCGCGCGGACTATGCACTGATCATGGCCATCTCCGGGTTCTACTTTGCGGCATCGTCTGTGGCACCAGGGGTCCGGTTCAGAAGCGGACAGTTCCTGGCAGCCCGGGCCAGCCTGACAGTTGCTGCCGCAGTGGCTGTCTGGAACCAGACCGGCCGGGGGAGCGCCGGCCTGGCCGTTGCCGCCGTACTGCTGGCATTCCAGGTTCTCCTGACGTTCCCGGGACCCGGACGGCTCCCGGCTGTGTTCGCCAGCGTCCTGCGCCACAGCCGGTGGCGGCTCGATGTGGCGCTCACCTTCGCGCTGCAGCTGCTGATGACCGCCGGCTTTGCAATGGGGCACCAGCTGGAAGTCTTGCCGGAATCATCTGGGGCTGAGCTGAACGTTCCCCCGGGAGGCCTCGCCGTGCTCGCACTGCTGACAGGCATGGTGCTCGCAGTCCGGCATAGGGCGGCCGCGGAGTGGGCTCCTGTTGCCGCCCTATGCCTGGGCATCCTGCTGGCGGATGCGCTGGGTGCCTGGATGCTGACCGGACTGCTCGTCGCCGGAGCGGTCTTCTGGCTGGCACGGTCCATGCCCGCCACTGAGCCGTTGCGGCTCCATTTCGTCCTCGCGGGCCGCCTTGCGCTTACAGTGGCAGCGCCCACCATGACGGCGGCAGCTGTCGCGGATGATGACTCCCGCTTCTCGGCAGCAGTCCTGGTTCTGTGCCTTGCCCTCGTAGTCCAGCAGTTGGTCACCGCTGTCCAGATCCGCTGGCAGAAACGAGCGCTGGCGCCACAATTGAGCCTTGCCCTGTTTGCCGCCTCCGGTGTAGGGGCGATGACCATCCTGACGCTGGTCGACCACATTCGCGCCACGCCTCAGGCTGCGTTCCTTCCGCCCGCGGAACACTATGGGGCAGTGGCAATCGGCGTTCAGTTCGTGGCAGCGCTGGTCGTCGGGCTCATATTGTTTCCCGTCGATGGAAATAACGGGCAATGGCGCCCCACGGTTGGCGAGGCTGTACCGCTCGGAGTCTCACTCGCCGCCCTGCCCCTGGCCTTTGACGCCCTTTCGCTTCCGGTGGGAAACACGCTCCTGATGTTCGTCACCGGGTACCTTGCTGCGTCGGCGGTCCGCTCCAAGCGGGTGCCTGTTCCCGGGACGCCGGTGTGGGGAATCACCGGGCCAGCCCTGCCGGCCGTGCCAATGCGGCAGCGCTGCTATTGGTGGCTCTGCCGGGCCGCAGGCACAGTGCTTGCACTTACTGTGTTCCACCAGGTGCAGCGCGACGCCGGCCCCGTGCTGGTGGGCGGTGAGATGATCAGCCCGTCTACGGTCTTCGCTGCCGCGCTGTCCCTTCAACTCGCCTTTCCCCTGTGGATGGCGTTCCGGGGAAGGGAGGGGGGACCCGATGCAGTGGATGCGGGCGTACTCCTGGCCTTGCAGGCGGTGCCGATGGCCATCACAGAGGTATCGGCCAGGGCATTCGATTCCCCGCCGGCTTCCTGGCAGTCCACGCTGACGACGGTGCTCCTGGCGGGCGGTGCTGCCGGGACAGGATATCTGCTGCGCCGGCAGCACCTGGCCGCCGCCTTTGCTCCGGCTGCCCTGGTAGTGCTGGTGATGCTGCGCGGTGAGACACTTCGGCACGTCGAGATCTCCCTGGCCATCTTCGCGGTCTTCAGCGCAGCGATGGTGGCGGCTGTGGGATCCCGCATTCTGAGGGGCTCCTATTTTGCAGCTGCCCGGGTACTCACGGCTGTGCTGGCCCTTGTGCTGAGCTATGACGTTGCAGCCTCGCCCACGGCTGTCACAGTCACTTTCGCGGTCGTTTTCGCCGTGCAACACATCATTCGCTGGCTCATGCGGCACCGCCTGCTGGAAGTGCCCTTCCAACAGGCGGCCGTCTGGATCACGCTCGCGGGCCAGGCGGTTCTTCCGCTCGTGTACCTGGCCCAGCCTTTTCGAGCGGAACTCCGGGCGGACGACGGCGGCCGCTGGGTGCTGCTGCTGTCTCTGCTTCTGTTGCTGCTCTCCGCCGTTGCGGCCAGCCGCCTGTTCGCAGCGCTGGGCGCTGCCTATCTGGCCGTCTACGCGGCGCTGTTCGGAGCTGTAGCTCTGGGGCCGCTAACGTCCTTTCCGGAGTCTTCCCCGTCAACATTCCTCGCCGCGCCGGTTCTGACCCATGCAGGAGTGGCCCTGGCACTTCTTGGAATGTCCCTGGTGGCCACCGCCACCGGAATAGTGTTCCGGCGCAGAAACACCGGCGGCGCGGACCACTGGCTGTGGCTGGCAGCGGCGGGTTCCTTCGGAACTGCATCAGCCGGTCTGGCCCCGTCGTCCTCGGACTGGATCATTGGTGCCGCCGTGCTCGCCCTTTCGGGGGCATGCTTCGCAGCCTCACATGTGGAACAGAGGCCCTGGTTCTACCGGCCGGCTGCCCTGGCTGCCCTGGCCGGTGCCGTCAGGACGGCGGAGGGCGTCGTCGGGGACGCAGAGGGGCCTTGGGGCTCATACCTTCCGTGGTTGGCGGGCGGCGGAATTGCGGCCGCAGCGATGTACGCGGCAGCAAGGATCCGCGGGGGCATCCTTTGGCCGGCTGTGGGCGGCGGAGACGACCGCTACCGCTCCCTGGTCGGGGCTGCGGTGCTGGGCCTGGCGGTCACCGGGTTTGGGGGGCTGCTCCACAGCACAACATCGTGGGCAGGAGCAGCGCTGGTAGCCGTTGCCGCCGTAGTGGTCTGGCTGGAAGTTCCGACCGCGGCGCGCCGGCGGGCAGCGGAAGTTGGTGCGCTGGCCGTTACCGCTGCCGTCCAGCGGGCAGCGTTATATCGGGCAGAGCCGGAGCCTGGCCTTCCGGGAATCATCCCGGATGGCCCCTGGTACTACGCCACGGGGCCCGATCCTTTCTGGACTGTGCAATGGTACGTGGTCCTCGCCGCGATGCTCGGCGTACTTAGATACGGCGTAGGCCAGCGCGACGCCGGCAAGTTATACCTCGGTATTGCTGCCGGACTGCTCTCGGTGAGTGGCCTGCTGGTGATCTTCAGCGGTGACGGCAACCAGCAGCTCTGGGTACTGGCGCTTTTCGCGATGCTGCTGGTGGCTGGACTGACATTCAGCGAGCGGATGTTTGTCTGGTGGGGAGCAGCCGGTGTGGCACTGTGCATCCTGTGGGCGGTGCGCCACTACACGTACATGCTGCTCGCCATAATCGCGGGCGCACTGATCGCGCTGGCGCTGTGGAAACTCAGCCGCAGCAAGCCGGCGGGACCAGAATAA	MWAPAAAAQSSVPVKTTAQLHAEREKARERREQQNINVTLYVASLLLVAAGALFIGAGLPVPLRFAGVCAVTALFYTAGLLLHARAPRLKPAAVAFSGTGLALVPVTGLALHTLVLHHAPLAWLLTSLAGTAAYVLAAVRLDSRVLVYLSLTFVASTAWSGVSVLGGALMWYFTAVIGVAALFTLLAVVKPRWLPPLYLRPLARLHPFMVPAVAMAATVVPQVLERADYALIMAISGFYFAASSVAPGVRFRSGQFLAARASLTVAAAVAVWNQTGRGSAGLAVAAVLLAFQVLLTFPGPGRLPAVFASVLRHSRWRLDVALTFALQLLMTAGFAMGHQLEVLPESSGAELNVPPGGLAVLALLTGMVLAVRHRAAAEWAPVAALCLGILLADALGAWMLTGLLVAGAVFWLARSMPATEPLRLHFVLAGRLALTVAAPTMTAAAVADDDSRFSAAVLVLCLALVVQQLVTAVQIRWQKRALAPQLSLALFAASGVGAMTILTLVDHIRATPQAAFLPPAEHYGAVAIGVQFVAALVVGLILFPVDGNNGQWRPTVGEAVPLGVSLAALPLAFDALSLPVGNTLLMFVTGYLAASAVRSKRVPVPGTPVWGITGPALPAVPMRQRCYWWLCRAAGTVLALTVFHQVQRDAGPVLVGGEMISPSTVFAAALSLQLAFPLWMAFRGREGGPDAVDAGVLLALQAVPMAITEVSARAFDSPPASWQSTLTTVLLAGGAAGTGYLLRRQHLAAAFAPAALVVLVMLRGETLRHVEISLAIFAVFSAAMVAAVGSRILRGSYFAAARVLTAVLALVLSYDVAASPTAVTVTFAVVFAVQHIIRWLMRHRLLEVPFQQAAVWITLAGQAVLPLVYLAQPFRAELRADDGGRWVLLLSLLLLLLSAVAASRLFAALGAAYLAVYAALFGAVALGPLTSFPESSPSTFLAAPVLTHAGVALALLGMSLVATATGIVFRRRNTGGADHWLWLAAAGSFGTASAGLAPSSSDWIIGAAVLALSGACFAASHVEQRPWFYRPAALAALAGAVRTAEGVVGDAEGPWGSYLPWLAGGGIAAAAMYAAARIRGGILWPAVGGGDDRYRSLVGAAVLGLAVTGFGGLLHSTTSWAGAALVAVAAVVVWLEVPTAARRRAAEVGALAVTAAVQRAALYRAEPEPGLPGIIPDGPWYYATGPDPFWTVQWYVVLAAMLGVLRYGVGQRDAGKLYLGIAAGLLSVSGLLVIFSGDGNQQLWVLALFAMLLVAGLTFSERMFVWWGAAGVALCILWAVRHYTYMLLAIIAGALIALALWKLSRSKPAGPE				NA	NA	NA	NA	NA
D1-17_01122	126			hypothetical protein	ATGGAATTTCTGATTTTCCTGGTTGTGGCCGCTGCCGTTGTGTTCGGTCTTGTCCGGGCCAGGAAGTACTTCCGCCGCGAGATTGACCGCGCAAAGCGCATTAACCGGTCCAACAAGAGGAAATAG	MEFLIFLVVAAAVVFGLVRARKYFRREIDRAKRINRSNKRK				NA	NA	NA	NA	NA
D1-17_01123	1497	bglA_2		Beta-glucosidase	ATGGCCGGGCAGAACGCTCACCCCGTAGGTGGCTCTTCTCAGCACGATGCTGCGCACGAGGCTGACCACGAGTCTGTGTTGGACACTGTGAAGGACCTTGCCGGACGGCTCCGGCCGGGCTTCACCCTGGGTGTTGCGGCGGCTGCGTTCCAGATCGAAGGCTCCCTGACCGCTGGCGGCCGCGGACCATCTGGCTGGGACGCGTTCGCCCAGAAGCCAGGGAGTATCGTGAACGGCCACTCCCCCGCAGTTGCCTGTGACCACTTCAACCGGTCCTCGGAAGACGTCGCTCTGATGCAGGAGCTCGGCGTCGATTCCTACCGCTTTTCGCTCTCCTGGCCGCGGATCCAGCCCGACGGCCGCGGTGCCATTAACACCCAGGGCCTGGACTTCTATGACAGGCTGATCGACCAATTGCTGGCCGCTGGGATCTCCCCTATGGCGACCCTCTACCACTGGGACACCCCGCTCCCCCTTGAGTACAGCGGAGGCTGGATGAACCGGGTCACAGCCCAGCATTTCGCGGAGTACGCGGCAGCAGTCGGCAAACGGCTGGGCGACCGCGTGGCGCAGTGGGTCACCCTCAACGAGCCGGTCTCCGTGACCCTGAACGGCTATGCCCTCGGCGTGCACGCGCCCGGGCGGGACCTGCTGTTCAAAGCCCTTCCGTCGGTGCACCACCAGCTGCTGGCACATGGACTTGCCGTTCAGGCACTGCGCGCGGTGGGAGTAACCGGCGGGGTCGGTGTCACCAACCTGCATTCACCTGTGCGTCCGGCCTCAAGGGCACTCGTGGACCGGCTGCTGGCCAAGGTGTTCGATCTGGTGCTCAACCGCATCTACGCCGACCCCATTCTCCTCGGCCGTTATCCCAGGCCACCCGCCGCTGCCCGGCCATGGTTCAAATACCTCGCCAAGGCGTCCGACGACGACCTCCGCCTCATCAGCCAACCGCTGGACTTCTACGGGGTGAACTACTATTACCCGGTCAGGGTGGCAGCCGGCCAGGGCCCCGCCACCAGCCCTGCCGGCACCGCCGAGGCCCTGACCAGGGTACCGTTCCACCTGGCTGCCTTCCCGGAGTATGGCACCACGGGCTTCGGCTGGCCCGTTGCGCCCGAGCACCTGGGGATCCTGCTCCGTGAGCTCAAGGACAGGTACGGGCCTGCGCTTCCGCCGCTCTACATCACGGAGAACGGCGCCAGCTTCCCGGAACCGGAACACGTCTCTGGCCCGCTGGCAGATGCCGGGCGCATCGACTACCTCGCGCACCACCTGCACCAGGCGATGGTGTCCACCTCGCCCGGCGGGATCGCGCACGATGTGGAGCTGCTGGGTTACTACGTCTGGACGCTGATGGACAACTTTGAATGGGCGGCCGGATATTCGCAGCGTTTCGGATTGGTCCACGTCGACTTTGACACGCTTAAGCGCACGCCGAAGAAGTCCTATTACTGGTTGCAGGCCTTGAGCCGCGCGCGCAAGGCAGGGGCCTAA	MAGQNAHPVGGSSQHDAAHEADHESVLDTVKDLAGRLRPGFTLGVAAAAFQIEGSLTAGGRGPSGWDAFAQKPGSIVNGHSPAVACDHFNRSSEDVALMQELGVDSYRFSLSWPRIQPDGRGAINTQGLDFYDRLIDQLLAAGISPMATLYHWDTPLPLEYSGGWMNRVTAQHFAEYAAAVGKRLGDRVAQWVTLNEPVSVTLNGYALGVHAPGRDLLFKALPSVHHQLLAHGLAVQALRAVGVTGGVGVTNLHSPVRPASRALVDRLLAKVFDLVLNRIYADPILLGRYPRPPAAARPWFKYLAKASDDDLRLISQPLDFYGVNYYYPVRVAAGQGPATSPAGTAEALTRVPFHLAAFPEYGTTGFGWPVAPEHLGILLRELKDRYGPALPPLYITENGASFPEPEHVSGPLADAGRIDYLAHHLHQAMVSTSPGGIAHDVELLGYYVWTLMDNFEWAAGYSQRFGLVHVDFDTLKRTPKKSYYWLQALSRARKAGA	PGPT0019165_805	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
D1-17_01124	309	rpsJ	COG0051	30S ribosomal protein S10	ATGGCGGGACAAAAAATCCGCATCCGGCTGAAGTCATACGACCACGAGGTCATTGACGTTTCAGCACGGAAGATCGTTGAGACGGTCACGCGCGCAGGCGCAACGGTAGTCGGCCCCGTGCCGCTGCCGACGGAGAAGAACGTTTACTGCGTAATCCGCTCTCCCCACAAGTACAAGGACAGCCGCGAGCACTTCGAAATGCGCACGCACAAGCGTCTTATCGACATCATTGACCCCACGCCCAAGGCTGTTGACTCGCTCATGCGTCTCGATCTGCCGGCCGACGTGAACATCGAAATCAAGCTGTAG	MAGQKIRIRLKSYDHEVIDVSARKIVETVTRAGATVVGPVPLPTEKNVYCVIRSPHKYKDSREHFEMRTHKRLIDIIDPTPKAVDSLMRLDLPADVNIEIKL	PGPT0015245_5632	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
D1-17_01125	651	rplC	COG0087	50S ribosomal protein L3	ATGACCGCAACCCGTAACGTAAAGGGCCTGCTGGGCACGAAGCTCGGCATGACCCAGGTCTGGGACGAGAACAACAAGCTCATCCCCGTCACTGTCGTCCAGGCTGACTCGAACGTCATCACCCAGCTGCGCAATGCAGACACTGATGGCTACGTCGCCGTTCAGATCGGCTACGGCCAGATCGATCCCCGCAAGGTCACCAAGCCGCTGGCTGGTCACTTTGAGAAGGCAGGCGTCACGCCTCGCCGCCACGTCGTCGAACTTCGTACCGCAGATGCTGCAGAGTACGAGCTGGGCCAGGAGCTCTCTGTTGAGGTCTTCGAAGCCGGCCAGAAGATCGACGTTATCGGCACCACCAAGGGTAAGGGCTTCGCCGGTGTTATGAAGCGTCACGGCTTCCACGGCGTTGGAGCTTCCCACGGTGCCCACAAGAACCACCGTAAGCCCGGTTCTATCGGTGGCGCATCCACCCCGAGCCGCGTCTTCAAGGGCATGAAAATGGCCGGCCGCATGGGCGCCGTTCGTCACACCACGCTGAACCTCACCGTTCACGCGGTTGACGTCGAGAAGTCGCTGCTCCTGATCAAGGGCGCCGTTCCCGGTGCCCGCGGCCAGGTCGTACTCGTACGCACCGCCGTGAAGGGAGCCTAG	MTATRNVKGLLGTKLGMTQVWDENNKLIPVTVVQADSNVITQLRNADTDGYVAVQIGYGQIDPRKVTKPLAGHFEKAGVTPRRHVVELRTADAAEYELGQELSVEVFEAGQKIDVIGTTKGKGFAGVMKRHGFHGVGASHGAHKNHRKPGSIGGASTPSRVFKGMKMAGRMGAVRHTTLNLTVHAVDVEKSLLLIKGAVPGARGQVVLVRTAVKGA				NA	NA	NA	NA	NA
D1-17_01126	621	rplD	COG0088	50S ribosomal protein L4	ATGGCTAACACTGTCCAGGTTGACCTGCCTGCAGAGATCTTCGACGTTCAGACCAACGTGCCGCTGCTGCACCAGGTCGTCGTTGCACAGCTCGCTGCTGCTCGCCAGGGTACCCACAAGACCAAGACACGCGCCGAAGTTTCCGGTGCAGGCCGCAAGCCGTTCAAGCAGAAGGGTACCGGCCGCGCCCGTCAGGGTTCGATCCGTGCTCCTCACATGACCGGCGGTGGCATTGTCCACGGTCCGACCCCGCGTGACTACAGCCAGCGCACCCCCAAGAAGATGATTGCTGCTGCACTGCGCGGAGCACTGTCTGACCGCGCCCGTAACGGACGCATCCACGTCGTTGCTGATCTGGTTGCCGGCTCCACGCCGTCCACCAAGGAAGCACTGGCAACGCTGCGCGGCGTTTCCGAGCGCAAAAACCTGCTCGTTGTCATTGAGCGCGCCAACGATGTTGCTGCACTGTCCGTGCGCAACATCGAGGAAGTTCACGTTCTGTATGTAGATCAGCTGAACACCTACGACGTTCTCGTTTCTGACGACGTAGTCTTCACCAAGGCTGCCTACGAAGCATTCGTTGCTGACAAGGCTGCAAAGAACGAGGAGGATGCCAAGTGA	MANTVQVDLPAEIFDVQTNVPLLHQVVVAQLAAARQGTHKTKTRAEVSGAGRKPFKQKGTGRARQGSIRAPHMTGGGIVHGPTPRDYSQRTPKKMIAAALRGALSDRARNGRIHVVADLVAGSTPSTKEALATLRGVSERKNLLVVIERANDVAALSVRNIEEVHVLYVDQLNTYDVLVSDDVVFTKAAYEAFVADKAAKNEEDAK				NA	NA	NA	NA	NA
D1-17_01127	306	rplW	COG0089	50S ribosomal protein L23	GTGAGCGCAGCCACCATCAAAGACCCCCGCGACGTCGTCATTGCACCCGTCGTGTCGGAAAAGAGCTACGGCCTGATCGACGAGGGCAAGTACACCTTCCTGGTGGACCCCCGCTCGAACAAGACCGAGATCAAGCTGGCCGTGGAGAAGATTTTCTCCGTCAAGGTCGAATCGATCAACACCATCAACCGTGCCGGTAAGCGCAAGCGCACCAAATTCGGATGGGGAACCCGCAAGAACACCAAGCGTGCGATTGTCACCCTCAAAGAAGGCACTATCGACATCTTCGGCGGTCCGCTCGCGTAG	MSAATIKDPRDVVIAPVVSEKSYGLIDEGKYTFLVDPRSNKTEIKLAVEKIFSVKVESINTINRAGKRKRTKFGWGTRKNTKRAIVTLKEGTIDIFGGPLA				NA	NA	NA	NA	NA
D1-17_01128	840	rplB	COG0090	50S ribosomal protein L2	ATGGGAATCCGTAAATACAAGCCGACTACCCCGGGCCGTCGTGGCTCGAGCGTAGCGGACTTCACCGAAATCACGCGTTCGACGCCGGAAAAGTCGTTGGTACGTCCGCTGCCCAAAAAGGGCGGCCGTAACAACACCGGTAAGATCACGACCCGTCACAAGGGTGGTGGACACAAGCGTCAGTACCGTCTGATCGACTTCCGCCGCCACGACAAGGACGGCGTCAACGCCCGCGTTGCCGAAATCGAGTACGATCCGAACCGTACGGCTCGCATCGCCCTCCTGCACTACGTTGATGGCACCAAGCGTTACATCATCGCCCCGAACAAGCTCGCCCAGGGCGACTTCGTCGAGGCCGGCGCCGACGCTGACATTAAGCCCGGCAACAACCTGCCCCTGCGCAACATCCCCGTCGGTACCGTCATCCACGCAGTTGAACTGCGCCCGGGTGGCGGCGCCAAGATGGCCCGTTCCGCCGGTGCTTCTGTTCAGCTTGTCGCCCGGGAAGGCCGCTTCGCCCAGCTGCGCCTGCCCTCCGGCGAAATCCGCAACGTCGACGTGCGCTGCCGCGCAACGGTCGGCGAGGTCGGCAACGCCGAGCAGTCGAACATCAACTGGGGTAAGGCTGGCCGTAAGCGGTGGAAGGGCGTTCGCCCGACCGTCCGTGGTGTCGCCATGAACCCGGTCGATCACCCGCACGGTGGCGGTGAAGGTAAGACTTCCGGTGGTCGTCACCCGGTCAACCCGAACGGTAAGCCTGAAGGCCGTACCCGCCGTCCCAACAAAGAGAGCGACAAGCTTATTGTTCGTCGCCGTCGTACTGGCAAGAACAAGCGATAG	MGIRKYKPTTPGRRGSSVADFTEITRSTPEKSLVRPLPKKGGRNNTGKITTRHKGGGHKRQYRLIDFRRHDKDGVNARVAEIEYDPNRTARIALLHYVDGTKRYIIAPNKLAQGDFVEAGADADIKPGNNLPLRNIPVGTVIHAVELRPGGGAKMARSAGASVQLVAREGRFAQLRLPSGEIRNVDVRCRATVGEVGNAEQSNINWGKAGRKRWKGVRPTVRGVAMNPVDHPHGGGEGKTSGGRHPVNPNGKPEGRTRRPNKESDKLIVRRRRTGKNKR				NA	NA	NA	NA	NA
D1-17_01129	282	rpsS	COG0185	30S ribosomal protein S19	ATGCCACGCAGCCTGAAAAAAGGTCCTTTCGTTGACCAGCACCTCTTTGTGAAGGTAGCAAGGGAAAACGAAAAGGGCACCAAGAACGTCATCAAGACCTGGTCCCGCCGTTCGATGATCATCCCCGACATGCTCGGGCACACGATCGCCGTGCACGACGGACGCAAGCACATCCCGGTGTTTGTCACCGAGTCGATGGTCGGGCACAAGCTCGGCGAATTCGCTCCGACGCGGACATTCCGCGGCCATGTCAAGGACGACCGTAAGGGCAAGCGCCGCTAG	MPRSLKKGPFVDQHLFVKVARENEKGTKNVIKTWSRRSMIIPDMLGHTIAVHDGRKHIPVFVTESMVGHKLGEFAPTRTFRGHVKDDRKGKRR				NA	NA	NA	NA	NA
D1-17_01130	366	rplV	COG0091	50S ribosomal protein L22	ATGGAAGCCAAGGCAATTGCGCGTCACATCCGCGTAACGCCTATGAAGGCCCGGCGCGTCGTCAACCTTGTTCGTGGTTTGCAAGCGAATGAGGCTCTGGCAATTCTGAAGTTTGCCCCCCAGGCAGCTTCGGAGCCGGTATTCAAGGTAGTTCAGTCGGCAATCTCCAACGCCCGCGTCCTCGCGGACCGCGACGGCGTGGCGTTTGACGAAGGCGACCTCATCATCAGCGAAGCGTTTGTTGATGAAGGCCCGACCATGAAGCGGTTCCAGCCGCGTGCTCAGGGTCGCGCATTTCAGATCAAGAAGCGCACCAGCCACATCACCGTGGTAGTCGCTACCCCTGAGAAAGAGGAGGCTCGCTAA	MEAKAIARHIRVTPMKARRVVNLVRGLQANEALAILKFAPQAASEPVFKVVQSAISNARVLADRDGVAFDEGDLIISEAFVDEGPTMKRFQPRAQGRAFQIKKRTSHITVVVATPEKEEAR				NA	NA	NA	NA	NA
D1-17_01131	843	rpsC	COG0092	30S ribosomal protein S3	GTGGGACAGAAAGTAAACCCGCACGGGTTCCGACTCGGCATCACCACCGATCACGTATCGCACTGGTTCGCTGACAGCACTAAGTCCGGTCAGCGGTACAAGGACTTCGTTCGCGAAGACATCCGTATCCGCCAGCTCATGTCCACGGGCATGGAGCGCGCCGGCATCGCCAAGGTCGAGATCGAGCGCACCCGTGACCGTGTCCGCGTGGACATCCACACGGCACGTCCGGGCATCGTCATCGGCCGCCGCGGCGCAGAAGCAGACCGCATCCGCGGCGAGCTCGAAAAGCTCACCGGCAAGCAGGTCCAGCTGAACATCCTCGAGGTCAAGAACCCCGAGATGGAAGCCCAGCTTGTTGCCCAGGGCGTTGCTGAGCAGCTGACTTCCCGCGTGGCTTTCCGCCGTGCGATGAAGAAGGCCATGCAGTCCGCACAGCGTGCCGGTGCCAAGGGTATCCGTATCGCTTGCTCGGGCCGTCTGGGTGGCGCAGAAATGTCCCGCTCGGAGTTCTACCGCGAAGGCCGTGTGCCCCTGCACACCCTCCGTGCGAACATCGACTACGGCTTCTACGAAGCCAAGACCACCTTCGGCCGCATCGGCGTGAAGGTCTGGATCTACAAGGGCGACGTCACCTCCAAGGAACTGGCACAGCAGGCAGCTGCTGCCCCGTCCCGCGGACGTGCCGGCGACCGTCCGGGCCGCCCGGGTGGCGCCGACCGCGGTGACCGCCGCCGTCGTACCGACCGTCCGGCAGCCGACGCAGCTCCTGCTGCTGCAGCTCCGGCAGCCGAGGCTGCTTCTGCCGCTCCGGCACAGGCAGCAGAAGGAGGACAGGCTTAA	MGQKVNPHGFRLGITTDHVSHWFADSTKSGQRYKDFVREDIRIRQLMSTGMERAGIAKVEIERTRDRVRVDIHTARPGIVIGRRGAEADRIRGELEKLTGKQVQLNILEVKNPEMEAQLVAQGVAEQLTSRVAFRRAMKKAMQSAQRAGAKGIRIACSGRLGGAEMSRSEFYREGRVPLHTLRANIDYGFYEAKTTFGRIGVKVWIYKGDVTSKELAQQAAAAPSRGRAGDRPGRPGGADRGDRRRRTDRPAADAAPAAAAPAAEAASAAPAQAAEGGQA				NA	NA	NA	NA	NA
D1-17_01132	417	rplP	COG0197	50S ribosomal protein L16	ATGCTTATCCCACGTCGAGTCAAGCACCGTAAGCAGCACCACCCGGGTCGTTCCGGCGCTGCCACGGGCGGCACCAAGGTCTCCTTCGGTGAGTACGGTATCCAGGCTCTGAGCCCGGCATACGTCACGAACCGTCAGATCGAGTCTGCACGTATCGCGATGACCCGCCACATCAAGCGTGGCGGTAAGGTCTGGATCAACATCTACCCGGACCGTCCGCTGACCAAGAAGCCGGCCGAAACCCGCATGGGTTCCGGTAAGGGTTCTCCGGAGTGGTGGGTCGCCAACGTCAAGCCGGGCCGGGTTCTCTTCGAACTCTCCGGTGTCAATGAAGAGGTAGCTCGCGAGGCCCTGCGCCTGGCAATCCACAAGCTGCCGTTGAAGGCACGCATTGTGCGTCGCGAAGGTGGTGAATAG	MLIPRRVKHRKQHHPGRSGAATGGTKVSFGEYGIQALSPAYVTNRQIESARIAMTRHIKRGGKVWINIYPDRPLTKKPAETRMGSGKGSPEWWVANVKPGRVLFELSGVNEEVAREALRLAIHKLPLKARIVRREGGE				NA	NA	NA	NA	NA
D1-17_01133	336			hypothetical protein	ATGGCAGTAGGGTCGAAGGATCTCGCACCCGCACAGCTGGACGGTTTCGACAACGAGCGTCTCGTTGAAGAACTCCGCAAGTCCAAGGAAGAGCTGTTCAACCTGCGTTTCCAGTCCGCCACCGGTCAGCTGGAGAACCACGGTCGTCTGCGCGCGGTAAAGAAGGACATCGCACGCATCTACACCGTTCTCCGTGAGCGCGAGCTGGGCATTCGTGCCGAGGTTGCCGCACCGGTTGCGGAAGCCAAGGAAGAGAAGAAGTCCAAGAAGTCCGAAGCCAAGGCTGAGAAGGCTGAGAAGCCGGCCGAAGCTGAGACTGAGGAGGACGCCAAGTGA	MAVGSKDLAPAQLDGFDNERLVEELRKSKEELFNLRFQSATGQLENHGRLRAVKKDIARIYTVLRERELGIRAEVAAPVAEAKEEKKSKKSEAKAEKAEKPAEAETEEDAK				NA	NA	NA	NA	NA
D1-17_01134	306	rpsQ	COG0186	30S ribosomal protein S17	GTGAGTGAAAAGGACGAGAACGTGACGGAAACTGGTTCCGCAACGGCAGCTGCCGAGCGCGGTTACCGTAAGACGCGTCGCGGCTACGTGGTCTCGGACAAGATGGAAAAGACCATCGTTGTCCAGGTTGAGGACCGCGTGAAGCACGCCCTGTACGGCAAGGTCATCCGCCGCACGTCGAAGGTGAAGGCCCACGACGAAGAGAACACTGCCGGCATCGGCGACCTCGTCGTGATCGCCGAGACCCGCCCGCTGTCCGCCAGCAAGCGGTGGCGCCTGGTCGAGATCCTCGAAAAGGCCAAGTAA	MSEKDENVTETGSATAAAERGYRKTRRGYVVSDKMEKTIVVQVEDRVKHALYGKVIRRTSKVKAHDEENTAGIGDLVVIAETRPLSASKRWRLVEILEKAK				NA	NA	NA	NA	NA
D1-17_01135	369	rplN	COG0093	50S ribosomal protein L14	GTGATTCAGCAGGAGTCGCGACTCAAGGTCGCCGACAACACGGGTGCTAAGGAAATCCTTACCATTCGCGTTCTCGGTGGATCTGGCCGTCGCTACGCAGGCATCGGTGACGTCATCGTCGCCACCGTCAAGGATGCAATCCCGGGCGGCAACGTAAAGAAGGGCGATGTGGTCAAGGCTGTCATCGTCCGTACCAAGAAGGAACGCCGCCGTGCGGATGGTTCCTACATCAAGTTTGACGAGAACGCAGCTGTGATCCTGAAGAACGACGGTGACCCCCGCGGCACCCGTATCTTCGGACCGGTTGGTCGTGAGCTCCGTGACAAGAAGTTCATGAAGATCGTTTCTCTGGCTCCGGAGGTGCTCTAG	MIQQESRLKVADNTGAKEILTIRVLGGSGRRYAGIGDVIVATVKDAIPGGNVKKGDVVKAVIVRTKKERRRADGSYIKFDENAAVILKNDGDPRGTRIFGPVGRELRDKKFMKIVSLAPEVL				NA	NA	NA	NA	NA
D1-17_01136	360	rplX	COG0198	50S ribosomal protein L24	ATGGCTAAGATCAAGAAGGGTGACCTCGTTCAGGTCATCACTGGCGCCAAGGCTGAGCGCGGCGGTGACCGTGGCAAGCAGGGCAAGGTTCTGCGCGTCTTCCCCGACACCAACCGCGTGCTGGTTGAGGGCATCAACCGCGTAACCAAGCACACCAAGGTCGGTCAGTCGCAGCGCGGCACCAAGACCGGTGGCATCGAGGTCGTTGAGGCCCCGATCCACATCTCCAACGTGGCTCTCGTGGACCCGTCGACCAAGAAGCCGACCCGCGTCGGTTTCCGCCTCGACACCGTTGAGAAGGACGGCGTCCAGAAGACCGTCCGTATCCGCGTGGCCAAGAGCTCCGGGAAGGACATCTAA	MAKIKKGDLVQVITGAKAERGGDRGKQGKVLRVFPDTNRVLVEGINRVTKHTKVGQSQRGTKTGGIEVVEAPIHISNVALVDPSTKKPTRVGFRLDTVEKDGVQKTVRIRVAKSSGKDI				NA	NA	NA	NA	NA
D1-17_01137	582	rplE	COG0094	50S ribosomal protein L5	ATGACTGAGACTCTCGAGACTCCGGCAACGAAGATCGTTCCTCGTCTGAAGACCAAGTACGCAGAAACCATCAAATCTGCTCTGCAGGATGAATTCAAGTACGAGAACGTCAACCAGGTTCCCCGTCTGGTCAAGGTTGTTGTGAACATGGGTGTTGGAGATGCCGCCAAGGACTCCAAACTGATCGACGGCGCTGTCCGCGACCTCACCCTGATCACCGGCCAGAAGCCGCAGGTAACCAAGGCCCGTAAGTCGATCGCACAGTTCAAGCTGCGCGAAGGCATGCCCATCGGCGCACACGCAACCCTGCGTGGCGACCGCATGTGGGAATTCGTGGACCGTCTGGTCACGCTGGCCCTGCCGCGTATCCGTGACTTCCGCGGCCTTAGCGGCAAGCAGTTCGATGGCAACGGCAACTACACCTTCGGTCTGACCGAGCAGGTTATGTTCCACGAGATCGACCAGGACAAGATCGACCGCACCCGCGGTATGGATATCACGGTTGTGACCACCGCCAAGACCGACGACGAAGGCCGCGCGCTGCTCAAGGCGCTTGGTTTCCCGTTTAAGACCGAAGCTTAA	MTETLETPATKIVPRLKTKYAETIKSALQDEFKYENVNQVPRLVKVVVNMGVGDAAKDSKLIDGAVRDLTLITGQKPQVTKARKSIAQFKLREGMPIGAHATLRGDRMWEFVDRLVTLALPRIRDFRGLSGKQFDGNGNYTFGLTEQVMFHEIDQDKIDRTRGMDITVVTTAKTDDEGRALLKALGFPFKTEA				NA	NA	NA	NA	NA
D1-17_01138	399	rpsH	COG0096	30S ribosomal protein S8	ATGACAATGACAGATCCTGTCGCAGACATGCTCACGCGTCTGCGCAACGCAAACTCGGCATACCACGACTCCGTGTCTATGCCTTACAGCAAGCTCAAGGCACGCGTTGCCGACATCCTCAAGGCCGAAGGTTACATCGCCGGCTGGAAGGAAGAGGAAGCTGAAGTCGGCAAGAAGCTGACCCTCGAGCTGAAATTCGGTCCCAACCGCGAGCGTTCGATCGCCGGTGTCCGTCGCATCTCCAAGCCAGGTCTCCGCGTCTACGCGAAGTCCACCAACCTGCCGCACGTGCTGGGTGGCCTGGGTATCGCAATCCTGTCCACCTCTTCCGGCCTCTTGACTGACAAGCAGGCCGGCAAGAAGGGCGTGGGCGGCGAAGTCCTCGCTTACGTCTGGTAA	MTMTDPVADMLTRLRNANSAYHDSVSMPYSKLKARVADILKAEGYIAGWKEEEAEVGKKLTLELKFGPNRERSIAGVRRISKPGLRVYAKSTNLPHVLGGLGIAILSTSSGLLTDKQAGKKGVGGEVLAYVW				NA	NA	NA	NA	NA
D1-17_01139	537	rplF	COG0097	50S ribosomal protein L6	ATGTCACGTATTGGACGTCTCCCCATCACCGTTCCTGCCGGCGTTGAGGTCAAGGTTGACGGCTCTGTCGTCAGCGTCAAGGGTTCCAAAGGCGAGCTGAGCCACACTGTGGCCAGCCCGATCGAGGTTGCCCTGGAAGACAACACCCTGACCGTCACCCGCCCGAACGACGAGCGCGCCTCCCGTTCGCTGCACGGCCTGACCCGCACCCTGATCTCCAACATGATCCAGGGCGTCACGGCGGGCTACGAAAAGAAGCTTGAAATCGTTGGTACCGGTTACCGCGTTCAGGCCAAGGGATCTGACCTTGAGTTCGCTCTCGGCTTCAGCCACCCGGTCAGCGTTACGGCACCGGCCGGCATCACCTTTGCAGTAGAGGGGCCGACCAAGCTCTCTGTCTCAGGCATCAACAAGCAGCAGGTCGGCGAGGTTGCTGCCAACATTCGCAAGCTGCGCAAGCCGGACCCCTACAAGGGCAAGGGCATTCGCTACGCCGGCGAAGTCATCCGCCGCAAGGTCGGAAAGGCTGGTAAGTAA	MSRIGRLPITVPAGVEVKVDGSVVSVKGSKGELSHTVASPIEVALEDNTLTVTRPNDERASRSLHGLTRTLISNMIQGVTAGYEKKLEIVGTGYRVQAKGSDLEFALGFSHPVSVTAPAGITFAVEGPTKLSVSGINKQQVGEVAANIRKLRKPDPYKGKGIRYAGEVIRRKVGKAGK				NA	NA	NA	NA	NA
D1-17_01140	384	rplR	COG0256	50S ribosomal protein L18	ATGGCCATCTCAATTAACAAGAAGCGCACGAACAAGAGCAAGTCTGCTTCGCGCAGCCGCCGCCAGCTTCGTATCCGCAAGCGCATCTCCGGAACGCCTGCACGTCCCCGTCTGGTTGTGAACCGCTCCGCACGCCACGTATTTGTCCAGGTTGTCGACGACACCATCGGCCAGACCGTAGCGAGCGCATCCACACTGGAAGCTGACCTTCGTGCATTCGACGGTGACAAGACCGCCAAGGCCAAGCGCGTTGGTGAGCTCGTAGCCGAGCGCGCCAAGGCTGCCGGAGTCGAAGCGGTTGTCTTCGACCGTGGTGGTAACAAGTACCACGGCCGGATCGCCGCCGTCGCTGACGGTGCACGTGAAGGTGGGCTGTCACTGTGA	MAISINKKRTNKSKSASRSRRQLRIRKRISGTPARPRLVVNRSARHVFVQVVDDTIGQTVASASTLEADLRAFDGDKTAKAKRVGELVAERAKAAGVEAVVFDRGGNKYHGRIAAVADGAREGGLSL				NA	NA	NA	NA	NA
D1-17_01141	720			hypothetical protein	GTGACGGAAGCAAACAAGGAAAAGGACACTGTGTCTGCAGATCAGAAGGCGCCTGAAGCCGTAGCTGCTGAGGCCACCGCTCCCGCCGCTGGCGACGACCGTCGTGGCGGTGCCCGTCGCGGCGAGCGTGGCGACCGCGGCCAGGGCCGCGGCGACCGTGGTGGCCGTGGCGGCCGCGACGGCGGCCGTGAAGCCGAGAAGAGCCAGTTCGTAGAGCGCGTTGTCACCATCAACCGCGTTTCCAAGGTCGTCAAGGGTGGTCGTCGCTTCAGCTTCACCGCACTCGTCGTCGTTGGTGACGGTAACGGCATGGTCGGCGTCGGCTACGGCAAGGCCAAGGAAGTTCCCGCTGCTATCGCGAAGGGCGTTGAAGAGGCCAAGAAGTCCTTCTTCCGCGTTCCCCGCGTTGGCAGCACCATCCCTCACCGCGTCCAGGGCGAAGCTGCCGCAGGCGTCGTAATGCTGCGTCCGGCTTCCGCCGGTACCGGTGTTATCGCCGGTGGCCCGGTCCGTGCAGTACTGGAGTGCGTGGGCATCCACGACATCCTCTCCAAGTCGCTCGGTTCCTCCAACGCCATCAACATCGTTCACGCGACCGTTGATGCCCTGAAGCGCCTCGAAGAGCCGGCAGCCGTGGCAGCACGCCGTGGCCTGCCGCTGGACGAGATCGCTCCGGCCGCTCTGGTGCGCAGTCTGATGAACCAGAAGGCGGGTGTCTAA	MTEANKEKDTVSADQKAPEAVAAEATAPAAGDDRRGGARRGERGDRGQGRGDRGGRGGRDGGREAEKSQFVERVVTINRVSKVVKGGRRFSFTALVVVGDGNGMVGVGYGKAKEVPAAIAKGVEEAKKSFFRVPRVGSTIPHRVQGEAAAGVVMLRPASAGTGVIAGGPVRAVLECVGIHDILSKSLGSSNAINIVHATVDALKRLEEPAAVAARRGLPLDEIAPAALVRSLMNQKAGV				NA	NA	NA	NA	NA
D1-17_01142	207	rpmD	COG1841	50S ribosomal protein L30	ATGGCTAAGAACCTGATTCCCTCCGACGCCCAGTTGGAGATCACTCAGATCAAGTCCGTCATTGGCGGCAAGCAGAACCAGCGCGACACCCTGCGGTCCCTCGGCCTGAAGCGGATTGGACACACCGTTGTCCGCACCGCAGACGCCGTGACCGTTGGAATGCTCAACACGGTTCCGCACCTGGTAAAGGTAGAGGAGGCGAAGTAA	MAKNLIPSDAQLEITQIKSVIGGKQNQRDTLRSLGLKRIGHTVVRTADAVTVGMLNTVPHLVKVEEAK				NA	NA	NA	NA	NA
D1-17_01143	492	rplO	COG0200	50S ribosomal protein L15	ATGGCTGAGAAGAACACCGCCGAAGAGGCACAGGGCGCTGCTGAGAAGCAGAACGCACTGAAAGTTCACCACCTGCGTCCCGCCCCGGGTGCCAAGACCGCCAAGACCCGTGTGGGTCGTGGTGAAGGTTCCAAGGGTAAGACCGCCGGTCGCGGTACCAAGGGTACTGCTGCCCGTTATCAGATCAAGGCTGGCTTTGCCGGCGGCCAGCTGCCGCTGCACATGCGCCTGCCGAAGCTGCGCGGCTTCAAGAACCCGTTCCGGGTTGAGTTCCAGGTTGTTAACCTGGACCGTCTCAACGAGCTGTTCCCGGAAGGTGGCACTGTCACCGTCGAGGATCTGGTTGCAAAGGGCGCCGTTCGCAAGAACCAGCCCGTGAAGGTGCTGGGCACCGGCGACATCACCGTCAAGGTTGACGTCACCGCCCACGCATTCTCCGCCAGCGCTTCTGAGAAGATCGCTGCAGCAGGCGGAAGCACCACCGCTCTCTAG	MAEKNTAEEAQGAAEKQNALKVHHLRPAPGAKTAKTRVGRGEGSKGKTAGRGTKGTAARYQIKAGFAGGQLPLHMRLPKLRGFKNPFRVEFQVVNLDRLNELFPEGGTVTVEDLVAKGAVRKNQPVKVLGTGDITVKVDVTAHAFSASASEKIAAAGGSTTAL				NA	NA	NA	NA	NA
D1-17_01144	1311	secY	COG0201	Protein translocase subunit SecY	TTGCTTAGCGCATTCGGCCGGGCTTTTCGAACGCCTGATCTGCGACGCAAGTTGTTGTTCACGCTGGGAATCATCACAATCTTCCGCTTGGGAGCCTTCATCCCCTCGCCTGGTGTGAACTACCAGAATGTCCAGCAATGCTTGTCGACCGGGCAGACCTCGGGCGGGATCTACCAGCTCGTCAATCTTTTCAGCGGCGGTGCATTGCTGCAGGTCTCCATCTTTGCTTTGGGAATCATGCCGTACATCACGGCAAGCATCATCGTGCAGCTGCTCCGGGTGGTCATTCCCCGCTTCCAGCAGCTGCATGAAGAGGGTGCTTCCGGCCAGTCAAAGCTGACGCAGTACACGCGTTACCTCACCATCGCCCTGGGCCTGCTGAACGCCACCACTTTGGTGTCCCTCGCGCGCTCCGGCCAGCTGCTGCCAGGCTGTGCGCTGCCGATCATCCCCGATAACAGCGTCATCACCACCATCCTTCTCATCATCACGCTGACGGCCGGCACCGGCCTCATCATGTGGATGGGCGAGCTGGTGACCGAAAAGGGTGTCGGCAACGGCATGTCCCTCCTCATCTTCACGGCCATCGCTGCCGGCTTCCCCACCTCGCTGGGCGCCATCTGGACCTCTCAGGGTCCCGGCACTTTCTTCATCGTCCTGGCCATCGGCCTCCTGACGGTGGCCCTGGTTGTCTTCGTGGAGCAGTCGCAGCGCCGTATTCCGGTGCAGTATGCGAAGCGGATGATCGGACGCAGGACTGTGGGCGGCACCAGCACCTACATTCCCATCAAGGTGAACATGGCCGGCGTTATCCCGGTAATCTTCGCCTCCTCAATGCTCTACCTGCCGGCGCTGATATCCCAGTTCAACCAGCCGAGGGCGGGGGAGCAGGTGCAGCCGTGGGTTGAGTGGATCAACAACAACCTGACCCGCGGGGACCACCCGATTTATATGGCGCTCTACTTCGCCATGATTGTTTTCTTTACATACTTCTATGTCGCGATCACCTTCAACCCTGAAGAGGTCTCGGACAACATGAAGAAATACGGCGGCTTTATCCCGGGTATCCGTGCCGGCAAGCCGACCGCGGATTACCTGCAGTACGTCCTGTCTCGGATCACGCTGCCCGGCGCCATCTACCTTGGCTTCGTGGCACTGATCCCGTTGGTGGCGCTCGTGCTGATCAACGCAAACCAGAACTTCCCGTTCGGTGGCACCTCGATCCTGATCATGGTGGGCGTTGGCTTGGAAACCGTCAAGCAAATTGACGCGCAGCTACAGCAGCGTCACTACGAAGGGCTATTGCGATGA	MLSAFGRAFRTPDLRRKLLFTLGIITIFRLGAFIPSPGVNYQNVQQCLSTGQTSGGIYQLVNLFSGGALLQVSIFALGIMPYITASIIVQLLRVVIPRFQQLHEEGASGQSKLTQYTRYLTIALGLLNATTLVSLARSGQLLPGCALPIIPDNSVITTILLIITLTAGTGLIMWMGELVTEKGVGNGMSLLIFTAIAAGFPTSLGAIWTSQGPGTFFIVLAIGLLTVALVVFVEQSQRRIPVQYAKRMIGRRTVGGTSTYIPIKVNMAGVIPVIFASSMLYLPALISQFNQPRAGEQVQPWVEWINNNLTRGDHPIYMALYFAMIVFFTYFYVAITFNPEEVSDNMKKYGGFIPGIRAGKPTADYLQYVLSRITLPGAIYLGFVALIPLVALVLINANQNFPFGGTSILIMVGVGLETVKQIDAQLQQRHYEGLLR	PGPT0025725_3375	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
D1-17_01145	579	adk	COG0563	Adenylate kinase	ATGACCAGAATGTTGATTATCGGACCTCCGGGTTCCGGCAAGGGTACACAGGCGGAACGCATTTCGGAGCGCCTCGGCGTCGTTGCGATTTCCACCGGCGACATCTTCCGTGCCAACGTTAAAGGCGAGACCCCACTGGGCGTCGAAGCCAAGAAGTACATGGATGCCGGAGATTTTGTTCCGGACAGCGTGACCAACAAGATGGTCCGCGACCGTCTCAGCGAGGCCGACGTCGAGGACGGCTTCCTGCTGGACGGCTACCCCCGCACCACCGCGCAGGTTGACTACCTTGATCAGATCCTGGCCAACGGTGACCAGAAGCTCGACGTGGTCCTTCAGCTCACTGCTGACGACGAGGAACTGGTCGCCAGGCTCCTGGGCCGCGCCAAGGAAACCGGACGCAGCGACGACAACGAGGCCGTCATCCGCCACCGGCTGGACCTGTACCACGAGCAGACCGAGGCCGTTGTGGCCAAGTATGCCGAGCGCGGCATCCTGACCCAGGTTGACGGCATCGGCGCGATCGACGAAGTCACCGACCGCGTCATGCAGGCCATCAAGTCCGCTCAGGCAGCCTGA	MTRMLIIGPPGSGKGTQAERISERLGVVAISTGDIFRANVKGETPLGVEAKKYMDAGDFVPDSVTNKMVRDRLSEADVEDGFLLDGYPRTTAQVDYLDQILANGDQKLDVVLQLTADDEELVARLLGRAKETGRSDDNEAVIRHRLDLYHEQTEAVVAKYAERGILTQVDGIGAIDEVTDRVMQAIKSAQAA	PGPT0009040_6804	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
D1-17_01146	828	map_1	COG0024	Methionine aminopeptidase 1	ATGGCATTCGGCCAGCCACGGATTGAGTACAAGACCAACGCCCAGATGCGCACCATGCACGAGGCCGGGCTGGTCCTGAGCCGTGCCCTGGACGCAGCGGTTGCGGCCGCCGTCCCCGGCGTCACCACAAAGCACCTCGACGACGTGTTCGCGGCGGTGCTCCTCGAGGCGGGCGCCAAGTCGAACTTTTTCGGCTACCACGGGTTCCCCGCCACCATCTGCACCTCGGTCAACGAGGAAGTGGTGCACGGCATCCCGGGCAGCCGTGTACTGAACGACGGTGACATCATCTCCATCGACGGCGGGGCCATTGTGGACGGCTGGCACTCGGATTCGGCCCGGACGGTCATCGTCGGTACGGCGGACCCCGAGGACCAGCGCCTGTCCGACGTCACCCAGGCGGCCATGTGGCGGGGAATCGCCGCGCTGGCGACCGGCAAGTTCGTGGGGGACATCGGCTGCGCCGTGGACGACTACGTCTCCTCCGTTCCGGGCAAGCCGCTGGGGATCCTCGAGGACTACGTCGGCCACGGCATCGGTTCCGAGATGCACATGGCCCCGGACGTTCTCAACTACCGCACCAGCCACCGCGGGCCGAAGATCCGTCCCGGCCTGTGCCTGGCCATCGAACCCATGCTCGTCCGCGGCAGCATCGAAACCGCCGTCCTGGATGATGAGTGGACCGTGGTCACCACCGACGGTAGCCGCTCCTGCCAGTGGGAGCACTCGGTTGCCGTTCACGAGAAGGGCATCTGGGTCCTTTCAGCGCCCGACGGCGGTGTGGCCCAGCTCGCGCCGCTGGGCGTTGTGCCCGTCCCGATTCCCTGA	MAFGQPRIEYKTNAQMRTMHEAGLVLSRALDAAVAAAVPGVTTKHLDDVFAAVLLEAGAKSNFFGYHGFPATICTSVNEEVVHGIPGSRVLNDGDIISIDGGAIVDGWHSDSARTVIVGTADPEDQRLSDVTQAAMWRGIAALATGKFVGDIGCAVDDYVSSVPGKPLGILEDYVGHGIGSEMHMAPDVLNYRTSHRGPKIRPGLCLAIEPMLVRGSIETAVLDDEWTVVTTDGSRSCQWEHSVAVHEKGIWVLSAPDGGVAQLAPLGVVPVPIP	PGPT0020010_3981	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020010-map-K01265	NA	NA
D1-17_01147	975		COG3191	putative aminopeptidase	ATGGGAGCCATGGGAACGACGGCTGGAGCGCGGGGAAAGATCACGGATGTGCCGGGCCTGCGGGTCGGGCACCGGCACAGGACCGACGGCGGCTGGCTGAGCGGAGTGACCGTGGTCCTGCCGCCGCCGGAAACAGTCGGTTCGGTCGATGTCCGCGGCGGCGGCCCCGCCACCCATGAGACCGATGCCCTGGACGCCACCGGTCTGGTCCCCACCGTGGATGCCGTGGTGTTGACCGGTGGCAGCGCCTATGGCCTCGCCACGGCCAGCGGCGCCCAGCGCTGGTGCGAGGAGCAGGGCAGGGGCTTCGCCGTCGAGGGCGGTGTGGTCCCTATTGTCCCGGCGGCCGCGATATTCGATCTGGGGCGCGGCGGGGAGTTTACCGCCCGCCCGGATGAGGCCATGGGCTACGCCGCTGCCGCCGCCGCCGGCGCCGAGACGGAGGGGCACGACGTCGGACGTGGCAACGTGGGCGCGGGCACCGGCGCCCTGCTCGGGCGCCGCCAGTTTAAAGGGGGAGTCGGTACAGCATCGATGACGCTGGAGGATGGCGTGGTCGTCGGCGCCCTCGCGGTGGTCAATGCACTCGGGATGTGGTTCAGTCCGCCGGTTGAGCCTGAGACCGGCAAGCTCAATCAGGGGGGAGGGGTTCCCCCGCTGAACACCACCCTTGCTGTCGTCGCCACCAATGCGGTTCTGGACAAGGCCGAGTGCAAGCGCACCGCTTCGGCGGCCCATGCCGGCATCGCCCGGGCGTTGAACCCGTCCCACACCCTCGCCGACGGCGACGTCGTCTTTGCGCTGGCGACGGGCCAGTTGCCACTGGACCGAAGCACAGATGAAGCCCGATACGTAAGTCTCATCACCCTGCAAAGTGCGGCAGCCGACGTCGTCCGCTTGGCGATCCTGGACGGAATCATCAGTGCGGAGACAGTCACGACTCCGGCAGGCACCTTTCCTGCCTACGGACAGTGA	MGAMGTTAGARGKITDVPGLRVGHRHRTDGGWLSGVTVVLPPPETVGSVDVRGGGPATHETDALDATGLVPTVDAVVLTGGSAYGLATASGAQRWCEEQGRGFAVEGGVVPIVPAAAIFDLGRGGEFTARPDEAMGYAAAAAAGAETEGHDVGRGNVGAGTGALLGRRQFKGGVGTASMTLEDGVVVGALAVVNALGMWFSPPVEPETGKLNQGGGVPPLNTTLAVVATNAVLDKAECKRTASAAHAGIARALNPSHTLADGDVVFALATGQLPLDRSTDEARYVSLITLQSAAADVVRLAILDGIISAETVTTPAGTFPAYGQ	PGPT0010110_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-AMYCIN_DERIVATE_BIOSYNTHESIS,PGPT0010110-thnT|cmmT-K18572	NA	NA
D1-17_01148	222	infA	COG0361	Translation initiation factor IF-1	ATGGCCAAGAAGGACGGGGTCATAGAGATCGAGGGCGTAGTGACTGAGGCGCTGCCCAACGCGATGTTTCGTGTTGAGCTCACCAACAAGCACGTCGTCCTCGCACACATCTCTGGAAAAATGCGTCAGCACTACATCAGGATTCTCCCTGAGGACCGGGTAGTGGTGGAGCTGAGCCCTTACGACCTTACGCGTGGTCGTATCGTCTACCGCTACAAGTAA	MAKKDGVIEIEGVVTEALPNAMFRVELTNKHVVLAHISGKMRQHYIRILPEDRVVVELSPYDLTRGRIVYRYK				NA	NA	NA	NA	NA
D1-17_01149	114	rpmJ		50S ribosomal protein L36	ATGAAGGTCAAGCCGAGCGTCAAGCAGATCTGCGAAAAGTGCAAAGTGATCCGCCGTAATGGCCGGGTCATGGTGATCTGCGAGAACCCGCGCCACAAGCAGCGCCAGGGCTAA	MKVKPSVKQICEKCKVIRRNGRVMVICENPRHKQRQG				NA	NA	NA	NA	NA
D1-17_01150	375	rpsM	COG0099	30S ribosomal protein S13	ATGGCTCGTCTCGCTGGCGTAGACATTCCCCGCGAAAAGCGGCTGGAAATTGCGCTTACTTACATCTACGGCGTGGGCAAGACCCGTGCACACGAAACCCTGGCTGCCACCGGCATCAGCGCTGACGTCCGCGTTAAGGACCTGAGCGACGCTGAACTGGTCCAGCTGCGTGACTACATTGAAGGCAACTACAAGGTTGAGGGTGACCTTCGCCGCGAAGTGGCAGCAGATATCCGCCGCAAGGTTGAGATCGGCAGCTACGAAGGCCTGCGTCACCGCAAGGGCCTGCCCGTACGCGGTCAGCGTACGAAGACCAACGCTCGTACCCGCAAGGGCCCGAAGCGCACCGTCGCCGGCAAGAAGAAGGCTCGCTAA	MARLAGVDIPREKRLEIALTYIYGVGKTRAHETLAATGISADVRVKDLSDAELVQLRDYIEGNYKVEGDLRREVAADIRRKVEIGSYEGLRHRKGLPVRGQRTKTNARTRKGPKRTVAGKKKAR				NA	NA	NA	NA	NA
D1-17_01151	402	rpsK	COG0100	30S ribosomal protein S11	ATGCCCCCGAAGACTCGTGGCGCGGTTCGCAAGCCGCGTAAGAAGGACAAGAAGAATATCGCGCTTGGCCAGGCGCACATCAAGAGCACTTTTAACAACACCATCGTGTCCATCACGGACCCGAGCGGTGCTGTCATCTCCTGGGCTTCCGCCGGTGAGGTTGGATTCAAGGGCTCGCGTAAGTCCACCCCGTTCGCTGCACAGATGGCTGCCGAAGCTGCCGCCAAGCGTGCACAGGAGCACGGCCTGAAGAAGGTTGACGTGTTCGTGAAGGGACCGGGCTCCGGACGCGAAACCGCGATCCGTTCGCTGCAGGCTGCCGGCCTCGAGGTTGGCTCCATCCAGGACGTCACCCCCGCCGCCCACAACGGCTGCCGTCCGCCGAAGCGCCGCCGCGTCTAA	MPPKTRGAVRKPRKKDKKNIALGQAHIKSTFNNTIVSITDPSGAVISWASAGEVGFKGSRKSTPFAAQMAAEAAAKRAQEHGLKKVDVFVKGPGSGRETAIRSLQAAGLEVGSIQDVTPAAHNGCRPPKRRRV				NA	NA	NA	NA	NA
D1-17_01152	1011	rpoA		DNA-directed RNA polymerase subunit alpha	GTGCTCATTGCACAGCGCCCCACCCTCTCCGAAGAGGTCGTCTCCGAAAACCGCTCCCGTTTCATCATTGAACCGCTGGAGCCGGGCTTCGGTTACACCCTCGGAAACTCCCTCCGCCGTACCCTGCTCTCCTCCATCCCCGGTGCCGCTGTAACCAGCATCCGGATCGATGGCGTGCTGCACGAGTTCACCACGGTTCCGGGTGTCAAGGAAGATGTCACCGAGATCATCCTGAACATCAAGAACCTGTCCGTGTCCTCCGAGCACGACGAGCCGGTTGTTGCTTACCTGCGCAAGCAGGGACCCGGAGTCGTCACCGCCGCGGACATCGCTCCGCCGGCCGGCGTCGAATTCCACAACCCGGATCTGCACATTGCCACGCTGAACTCGAAGGGCAAGTTCGAACTCGAACTGACCATCGAGCGCGGCCGCGGCTACGTTTCGGCAGCTCAGAACAAGTCCGGCGACGCAGAGATCGGCCGTATCCCGGTTGACTCCATCTACTCGCCGGTGCTGAAGGTTACTTTCCGCGTGGAAGCCACCCGTGTTGAGCAGCGCACTGACTTCGACAAGCTCATTGTCGACGTCGAGACCAAGCAGGCCATCGCCCCGCGCGATGCGGTTGCTTCGGCAGGCACCACCCTGGTGGAGCTGTTCGGTCTGGCCCGCGAGCTGAACACCGCAGCTGAAGGTATCGAGATCGGCCCGTCGCCGACGGATGCTGCCCTGGCAGCAGACATGGCACTGCCGATCGAGGATCTGGACCTCACCGTCCGTTCCTACAACTGCCTCAAGCGTGAGGGCATCCACACCGTGGGTGAACTCGTTGCCCGCTCCGAGGCTGACCTGATGGACATCCGTAACTTCGGTGCCAAGTCCATCGATGAGGTCAAGGCAAAGCTGGTTGAACTGGGACTGTCCCTCAAGGACTCGCCTCCCGGTTTCGATCTTGCCGCCCGCGCCGCAGCCATCGAAGAGGACGACGCCGCGTTCAGCGACGACGAGCTCTAA	MLIAQRPTLSEEVVSENRSRFIIEPLEPGFGYTLGNSLRRTLLSSIPGAAVTSIRIDGVLHEFTTVPGVKEDVTEIILNIKNLSVSSEHDEPVVAYLRKQGPGVVTAADIAPPAGVEFHNPDLHIATLNSKGKFELELTIERGRGYVSAAQNKSGDAEIGRIPVDSIYSPVLKVTFRVEATRVEQRTDFDKLIVDVETKQAIAPRDAVASAGTTLVELFGLARELNTAAEGIEIGPSPTDAALAADMALPIEDLDLTVRSYNCLKREGIHTVGELVARSEADLMDIRNFGAKSIDEVKAKLVELGLSLKDSPPGFDLAARAAAIEEDDAAFSDDEL				NA	NA	NA	NA	NA
D1-17_01153	585			hypothetical protein	ATGCCTACCCCCACTAAGGGCCCGCGCCTCGGTGGCGGCCCGGCTCACGAGCGTCTCATGCTCGCGAACCTGGCTTCCGCCCTGTTCGAGCACAAGCGGATCACCACCACGGTCACCAAGGCCAAGCGCCTGAAGCCGTACGCAGAGCGTCTGGTCACCTTCGCCAAGCGCGGCGACCTCGCTTCCCGCCGCCGCGTTCTCGGCCTGATCAGCAACAAGGGCGTTGTCCACGAGCTGTTCACCGACATCGCGCAGGCAGTCGAGAACCGCGACGGTGGCTACACCCGCATCACCAAGATCGGCAACCGCAAGGGCGACAACGCTCCCATGGCTGTCATCGAGCTGGTTCTTGAGCCGGTTTCCGCCAAGCAGGCCGTTGTAGCCGAGGCCACCCAGGCCGCCGCTGCTGCTGCCCCTGCGGCTGAAGAAGCTCCCGAGGCCGAGGTTGCTGAAACCGAAGCTGCAGAGACTGAGACTGTTGAGACCGAAGCTGCTGCCGAAGAGGCCCCGGCCGCTGAGGAAGCTGCTGCCGAAGAGGCCCCGGCCGAAGAGCCTGCAGCTGACGAGGCAAAGGACGCGAAGTAA	MPTPTKGPRLGGGPAHERLMLANLASALFEHKRITTTVTKAKRLKPYAERLVTFAKRGDLASRRRVLGLISNKGVVHELFTDIAQAVENRDGGYTRITKIGNRKGDNAPMAVIELVLEPVSAKQAVVAEATQAAAAAAPAAEEAPEAEVAETEAAETETVETEAAAEEAPAAEEAAAEEAPAEEPAADEAKDAK				NA	NA	NA	NA	NA
D1-17_01154	891	truA	COG0101	tRNA pseudouridine synthase A	ATGAACGACCAAAAACCCGCGGCCCCCGTTTTGGGGGGCGGCGGGTTTTTGCGTATCCGGCTTGATTTGGCGTACGACGGCGGGCCGTTCAGCGGCTGGGCAGTCCAGCCCGGGCGGCGCACAGTCCAGGGCACCCTGGAAGCTGCGCTGGAGCTGCTGGTCCGCCGCCCGGTGCGAGTCACCGTCGCCGGGCGCACCGACGCGGGCGTCCACGCCCGGGGGCAGGTGGTCCACCTCGACCTGACCGACGCCGAGTGGCTGGGACTGAACCGCGGCGCTGACCTTGATCCCGCCGTCGCACTCCTGCGCCGGCTCCGGGGTGCCCTGAGCCGAGGACTGGGGGACCTCACCGGTGCCATCGTGGTGCATGAGGTTGCCGTGGCTCCGGAGGGGTTCGACGCGCGCTTCTCCGCCCTGTGGCGCCGCTACAGCTACCGGATTGCGGACGGGCTGGAAAGGTGGGATCCGCTCAGCCGCTATGACACACTCTGGCACAAAACATCGCTGGACGTGGAGCTGCTCAATGCAGGGGCGGCACAGCTGCTGGGCCTGCACAACTTCCTGTCCTACTGCAAGCCGCGCGAAGGCTCCACCACCATTCGCGAACTGCAGCGGTTCGAGTTCGCGCGTGGCACAGACGGCGTCATCGTAGCCACAGTCCAGGCTGACGCGTTCTGCCACAACATGGTGCGCGCCCTCGTGGGCTCCGCCCTGTACGTGGGGGAGGGACAGGAGCGCCCGGAGTGGCTGCAGGAGCGGCTGCTGGCCAGGAAACGCGATGCCCGTTCCGTGTTGGCCGCCCCCCACCCGCTGGTGCTGGAAGAAGTGGCTTATCCGTCAGACGCTGAACTGCTGGCCCGGGCGGAACGGACACGCGCCCTGCGCGAGTAA	MNDQKPAAPVLGGGGFLRIRLDLAYDGGPFSGWAVQPGRRTVQGTLEAALELLVRRPVRVTVAGRTDAGVHARGQVVHLDLTDAEWLGLNRGADLDPAVALLRRLRGALSRGLGDLTGAIVVHEVAVAPEGFDARFSALWRRYSYRIADGLERWDPLSRYDTLWHKTSLDVELLNAGAAQLLGLHNFLSYCKPREGSTTIRELQRFEFARGTDGVIVATVQADAFCHNMVRALVGSALYVGEGQERPEWLQERLLARKRDARSVLAAPHPLVLEEVAYPSDAELLARAERTRALRE				NA	NA	NA	NA	NA
D1-17_01155	747	phoP	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGGATGAGCGCCGCGTTGTTGTCGTTATCGAACCGGACAGGGATGTCCGCGCACTGTTGTACGCGACCCTTGGTGATGCCGGCTTTGAAGTTTTTTCTGCAGCCTCCGGCGAAGAGGGGATTGCGCTGGTGCGCGCGAAACAGCCGGACACCGTCATGCTGGATATGGGGCTGCCGGACATGGAGGGCGTTGAGGCGGCACGGCGCATCCGGAAGTTCAGCCACGCTTACCTGCTGGTTGTCAGTGCAAGCAGTGATCTTGCAGCAACAGTGGAGGCCTTTGACGCCGGCGCTGACGATTATGTGGTCAAGCCGATCCGGCCCCGCGAACTCCGGGTCCGCGTCGACGGAATGCTGCGAAGGCCACCGAAGCTCATTCTCCCTCCGATCGTGACGCCGCGGGTGCCGCCTGCGGTCTCGCCCCGGGATCTCCGCCTGCAGCACAACGGCCTGGAGGTCAACGCCGTCACGCGTTCTGTGCGCCTCGCGGGCCGGCCTTTGGAGCTAACCAGGACTGAGTTCGACCTGCTCCACATCATCCTGCGGCAGGGGAAGCGGGTGGTGACGAAGGCCGAGCTGGCCCGCCACCTGCAGCTCGAGGATCTGGGCCCGGGACGCCCCCGGAAAGTCGATCCGGACCGCGTTATCGAAGTCCACATCGGAAATCTGCGGCGCAAGCTTGGGGACAACGCGCGGTCACCGAAGTGGCTGAAAACTGTCCGTGGGCTGGGGTACACGCTGACGTAG	MDERRVVVVIEPDRDVRALLYATLGDAGFEVFSAASGEEGIALVRAKQPDTVMLDMGLPDMEGVEAARRIRKFSHAYLLVVSASSDLAATVEAFDAGADDYVVKPIRPRELRVRVDGMLRRPPKLILPPIVTPRVPPAVSPRDLRLQHNGLEVNAVTRSVRLAGRPLELTRTEFDLLHIILRQGKRVVTKAELARHLQLEDLGPGRPRKVDPDRVIEVHIGNLRRKLGDNARSPKWLKTVRGLGYTLT	PGPT0012985_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
D1-17_01156	483			hypothetical protein	ATGAAAGCAGTATCAAGCAACGAGGTTGTTGCAGTCCGAGGCGTTCTCACCGATACGCATCCAGTCGATTTCTATGTGCTTGGCGTCGCGGGGGCGATTGACCGTCTGACCCTTCCGCTGCGGGAGCGCGGGACCGTGGTGCACGTGGAGGCTCCACACCACGGCATGGAAGTGGATCGGAAGTCCGCCACCCTGCTCTACCGGGCGGCGCAGGAGCTGCTGAGCAACGTCCACAAATACGCCCAAGCCTCAGCCGTGACCGTTTGTCTGGGATTTGTCTGCCATCCTGCCCTCTCCCACGAGGTTCAGCTCAAAGTGATCGACGACGGCAGCGGATTCGATGTGCAGGCTGCGACGCAGGGCAGGCATTCCGGGATGGGACTTCGTCTGATGCGGCTTGCCGTGGAAACCGCCGGCGGCCGCATGGCGATTGACTCATCCTCCGCCGGAACGAGGGTGAGCATTACGCTGCCGCTGGACTAG	MKAVSSNEVVAVRGVLTDTHPVDFYVLGVAGAIDRLTLPLRERGTVVHVEAPHHGMEVDRKSATLLYRAAQELLSNVHKYAQASAVTVCLGFVCHPALSHEVQLKVIDDGSGFDVQAATQGRHSGMGLRLMRLAVETAGGRMAIDSSSAGTRVSITLPLD	PGPT0017175_1123	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_HEXOSE_PHOSPHATE_UPTAKE_SENSING,PGPT0017175-uhpB-K07675	NA	NA
D1-17_01157	1752	sasA_5		Adaptive-response sensory-kinase SasA	GTGTGCATAATGGCACTATGGGTGGGTATAAAAAAATACGGTCTCTCGCTGCACAAAACCGCCCCAAGGGTGGGTGCCCCGGTGGGTGAACATGTACTGGTCGGTGACACTGACCGCTTTTTCAGACGGCTTCGGCGGAGAGTCCAGGTTGCGCTCTGCCAGCTTCCGGTGACGCTTATTCTTGCTGCCTTCGCCATTGCCGCGCCTGCCGTCTGGCCCACGCTTATTGAAAGCCCCGTCTTCATCGCCTCCATTATCCTGATGGTTGGGTTGTTCCTCGCCTGTTTCTTAATTCCGTGGGAGCGGCTTCCGGCCAACGCCTATCTGGTCATCCCAATTCTTGACCTGCTGGTCATCGGACTGGCCCGCAACGGTGCCGTGCCGGCAGTCCCAGGGCTGGGTGTGCTGGCCATCTTCCCTGTCATTTGGCTTTCAGCCTCCGGGTCATATGCACGCACCAGTGTCTTCCTGAGTTTCTTCGGAACCCTGCTCATCACAGCGCCGTCGGTGGTGCAAAAGTTTCCCAACATTTCACCTTCGGACATCGCCACGGCAATTCTGTTGCCATTGATGATGCTCGCGGTATCCCTGGCAATCCGGTTTGCCAGCGCCAACGTCCGCATCCAGCGCCGGCGGCTGGAAATAAAGGACGCGGAACTCCGCGGACTGCTCGTTCAGAGCAGGAACCGTGAAAGGCTCCTCAAAACCATCCTGGACACCATCGACGTGGGCATTGTCGCCATCGATGCCGACGGCCGTAAAGTGCTTGTCAACGATCAGCAAAAGGCGTTCCAGCAGGCCGCTTCCCCAGCCGGTTCGGTCCAAGCAATGCAGGAATCCCGCCAGCTGATGTTCGGCCAGGACAAGGTCACCCCGCTACCCGAGGACAGACGCCCCATCCAGCGAGCCGTTGCCGGTGAGACGTTTGCGGACTACCTGGTGTGGCTCGGTGAGGGCCGTTCCCGCCGCGCCGTTTCCACGGCTGCACGGATGATCAAGAACGACGATGGCGGGTTCAGCGGCGCTGTTATCGTCTACACCGATGTGACGGGACTTGTGGAGGCCCTCGCTGCCAAGGAAGAACTGATCTCCAACGTCTCCCATGAATTCCGCAGCCCGCTGATGTCCATCTTGGGCAACGTTGACCTGGTGCTGGACGAAGCGGATGCCCTGCCTGCGGCAGCAGCGCAGCGGCTGGAGGTTGTGCAGCGAAATGCCGAACGACTCCTCGAACTCGTCTCTGACCTGCTCGTCTCAGCCTCCACGGTGCTGGCGGTCCACCCACGGCGAACGGATCTGGCCAGCCTGGTCCAGACAACCATAGGATCGGCCCAGGCGCAGGCCGACGCGTCCCACGTGTCCCTGCACACCGACGTTCCGGCCCCCCTCTGGGCGAACGCGGATCCCCTTCGCATCTCGCAGGCCCTGGACAACCTCGTATCCAATGCCATCAAGTACTCGCCCGACGGCGGCGAGGTCACCGTCAGTGCCAGAACCGGCGATGACTGGGTGCAGCTGCAGGTCCAGGACACGGGGATGGGAATCAGCGAAGAGGAAGCGTCCCGGATCTTCACGCGATTCTTCCGGACAAAGGCAGCCCGCCAGGCAGCAATCCCCGGAGTGGGCCTGGGCCTTTCCATCACCAAGACCATCGTGGAACGCCACGGGGGCAATATCACCTGCCAAAGCAAACCCGGAGCCGGGACCACGTTCACCATGACGCTGCCGGCCGAAGACGCCCCGCTCTCCTAG	MCIMALWVGIKKYGLSLHKTAPRVGAPVGEHVLVGDTDRFFRRLRRRVQVALCQLPVTLILAAFAIAAPAVWPTLIESPVFIASIILMVGLFLACFLIPWERLPANAYLVIPILDLLVIGLARNGAVPAVPGLGVLAIFPVIWLSASGSYARTSVFLSFFGTLLITAPSVVQKFPNISPSDIATAILLPLMMLAVSLAIRFASANVRIQRRRLEIKDAELRGLLVQSRNRERLLKTILDTIDVGIVAIDADGRKVLVNDQQKAFQQAASPAGSVQAMQESRQLMFGQDKVTPLPEDRRPIQRAVAGETFADYLVWLGEGRSRRAVSTAARMIKNDDGGFSGAVIVYTDVTGLVEALAAKEELISNVSHEFRSPLMSILGNVDLVLDEADALPAAAAQRLEVVQRNAERLLELVSDLLVSASTVLAVHPRRTDLASLVQTTIGSAQAQADASHVSLHTDVPAPLWANADPLRISQALDNLVSNAIKYSPDGGEVTVSARTGDDWVQLQVQDTGMGISEEEASRIFTRFFRTKAARQAAIPGVGLGLSITKTIVERHGGNITCQSKPGAGTTFTMTLPAEDAPLS	PGPT0002705_934	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-17_01158	792	walR_2	COG0745	Transcriptional regulatory protein WalR	GTGGGCGATCTTGGCGTGGCCGTGGTGATTGAGGATGACGAGGACGTCCGTAATTTGCTTGATGCGGTCCTTCAGCAGGCTGGCTTCGAGGTGCGCTCGGCAGCCACGGGACGTGACGGTGTAGACGTCGCGCGTCAGCAACGGGTCAATGTGATCACGCTTGACGTGGGACTTCCGGACATCGACGGTTTTGAGGTGCTGCGCAGAATCAGGCAGTTCAGTGATGCTTACGTCGTCATGCTCACGGGCAGGGACGAGGAACTGGATACGATTACGGCGCTGCAGGGCGGGGCTGATGACTACATCACCAAGCCCTTTCGGCCACGTGAACTTCGGGCGCGCATTTCGGCGATGATGCGCCGGCCCCGGCAGGGCGCGGCAGAGGAAGCCACCGAAGAAGCCGTCGTCCCGGTGTCGCGGTCTGCCGGCGTTGGCGGAACCGGAACCTTGCGGCGGGGCAAGGTGCTCCAGCACAACGGTCTGGTCCTCGACACGGAAACCCGGACGGTCGCCCTGCGAGGGACGCCGGTGGGCCTGACGAGAAGCGAGTTCGACCTTCTGCAGGAGCTGCTCAAGGGGAACGGGGCCGTACGCACCCGTGGCGACCTGGTCCGGGTAGTCCGTGGGGAATACTACGGCGAGGACACCTATATCAGCGAAGCAGACGAACGGGCAGTTGAGGTGCATATCGGCAACCTGCGCCGCAAGCTCCGCGAAGATCCTACCAATCCGCGCTGGCTCGTCACCGTCCGCGGCGTGGGGTACCGGCTGGCGCCTCAGCAGGCGGACTGA	MGDLGVAVVIEDDEDVRNLLDAVLQQAGFEVRSAATGRDGVDVARQQRVNVITLDVGLPDIDGFEVLRRIRQFSDAYVVMLTGRDEELDTITALQGGADDYITKPFRPRELRARISAMMRRPRQGAAEEATEEAVVPVSRSAGVGGTGTLRRGKVLQHNGLVLDTETRTVALRGTPVGLTRSEFDLLQELLKGNGAVRTRGDLVRVVRGEYYGEDTYISEADERAVEVHIGNLRRKLREDPTNPRWLVTVRGVGYRLAPQQAD	PGPT0012985_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
D1-17_01159	456			hypothetical protein	ATGTCCACTTCAGGTTCCAGCACAGGCGACGGCGGCGCTAACGGCGTCTGCATGCCAGAGGCCGGGGCCCCCGCCGAGGACGAGCCGGAACAGCCGCAGGGCCTCCCCGTCCTGGACCTTGCAGTCCTTCACGAGCTGGAGGAGGACATGGGCGGCGCCGGCGCCGCCCGCGCCTTCGCCAAGGACTACCTCGGCATCTGGGAGAAACGGCTGGGGTATTTGGAGCGATCAGTCCGGAATAACGATCCCGAGCTCGCGATGGACGCGGTCCTGAGCATGAAGAATTCGGCGTTCATGGTGGGAGCATTGCGTCTCGCCAGCCTGGCAGTGGAACTGGAGCGCCTTCTCAGGACAGGTGACCTGCCCGCCGTGAAGGGGCTGTTGCCGGTGGTCGCGCAGACCGGCCAGGACACAGTCGCCACGCTGAGGAAAAACTATCTTCGGCACGGGCGCTAA	MSTSGSSTGDGGANGVCMPEAGAPAEDEPEQPQGLPVLDLAVLHELEEDMGGAGAARAFAKDYLGIWEKRLGYLERSVRNNDPELAMDAVLSMKNSAFMVGALRLASLAVELERLLRTGDLPAVKGLLPVVAQTGQDTVATLRKNYLRHGR				NA	NA	NA	NA	NA
D1-17_01160	885			hypothetical protein	ATGGATCCCCTGATACTCATCGCCATCCTGCTAATCTGCCTGCCATTCGGCTACCTGACCTGGATCCTGCTCTCTTCAGACAATAAGGGCCAGTCGATTGCTCGCGAGATCCTGTCCAGAGGTGCCCACCGCGCCGACGTGGAGAAGACAACCAACGCAGGCTTGCTGGAAACGATCGGCCGCCGGCTCACTCCTGTCAGTTATGTACAAAAGATCGACCACTTGCTGTCCCTCGCTGGGCGCCCCACAAACCTGCCCCTAGGCCACGTGCTTTCAGCCAAGCCCGCGCTCGGCCTCGTGGGGGGTTTGGTGGCGCTGTGGCTTAACTCCATTGGCACAACACCGATCATCAAGCTGGTGGGACTGTTCATTCTCTTCCTGGGCTACTTCATTCCCGATCTGCTGCTCTACAGCAAGGGACAGGAACGACAGAAAGCCATGCAGCTGGAGCTCGCGAACACTCTGGACCAGATGCTCATTTCCGTGGAAGCGGGCCTGGGCTTCGAAGGTGCCATGGCACGGGCAGGCGAAAACGGCAAAGGCCCGTTGGCGGAGGAACTGGTGCGCACCCTGCAGGACATGCAGGTGGGCCGCAGCCGACGGGAGGCGTATATTGCACTGGCCGAGCGCACCAACATCCCCGAATTGCGCAGCTTCGTTCAGGCGGTGGTTCAGGCTGATACATATGGCATCGCCATCAGCCGTGTACTAAGAGTCCAAGCAAAAGTAATGCGAGTTAAGCGGCGCCAGCGGGCCGAAGAGAAGGCGATGAAACTACCCATCAATATTTTGTTCCCACTCCTGTTCTTCATCTTTCCCGTGCTCTTCATTGCTGTATTGGGCCCTGCCGTCATCAACATGATCGAAACCTTCAGCGGTCAGTAG	MDPLILIAILLICLPFGYLTWILLSSDNKGQSIAREILSRGAHRADVEKTTNAGLLETIGRRLTPVSYVQKIDHLLSLAGRPTNLPLGHVLSAKPALGLVGGLVALWLNSIGTTPIIKLVGLFILFLGYFIPDLLLYSKGQERQKAMQLELANTLDQMLISVEAGLGFEGAMARAGENGKGPLAEELVRTLQDMQVGRSRREAYIALAERTNIPELRSFVQAVVQADTYGIAISRVLRVQAKVMRVKRRQRAEEKAMKLPINILFPLLFFIFPVLFIAVLGPAVINMIETFSGQ	PGPT0022295_1796	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
D1-17_01161	933			hypothetical protein	ATGGTCCTAGCCCTTGGAATCTTCCTGGTGATCACCGCTATTGCGTTAGCAGGCCTCGCGGTCATGATCCCAGGCACCCCGACTGTCCCGTTGGACCGTCGTCGGCCGTTCCGTACAGAAGCAGACTCACAGCTGACGCGGTTTGCCGATTCAGCCGTGCAGGGAGTTCAGAGACTCCTTGCCAAACGGAACGTTCGTTTCTTCAATCGGGACGTGCTGGAGAACGCGGGTCTGCGCCTCAGCCAGGCAGAATTCGTTCTCCTCGTCATTTTCGGCGCATTAGTTACTGCGTCGATGGGACTCCTCGTCGCCGGCCCACTGCTGGCGTTCTTGCTCGCTACGGCCGCACCGTTCATAGCCAATTTCTTGCTCAATGTCTTAGCCGCTAAGAGGCGAGCAAAATTCGACGAACAGCTCGGTGACACGCTGCAGCTGCTATCCGGCAGCCTTCGCGCGGGCCACAGCATTCTCCGCGCGATTGATGCGGCGGCCACTGAATCGCAAGCTCCCACCTCGGAGGAGATGCGCCGGGTCATCACGGAGACAAGCCTGGGGCGCGACCTGCTCGTTTCGCTCAACGACACTGCAGAACGCATGAAAAACGAAGACTTTGTCTGGATAGCGCAGGGGATTCAGATCAACCGCGAAGTCGGCGGAAACCTTGCGGAAGTTCTGGATCAGGTCAATGAGACCATCCGTGAACGCAGCGAGATCAAGGGCCACATCAAGGCGCTAGCTGCCGAAGGGAAATTTTCTGCTTACATCCTCATGGCACTGCCGGTTGCAATCGTAGTCCTACTCCTGGCAACAAACCCCTCTTACATGAACAAGATGTTCACCACGCCGCTGGGGTGGATGATGGTTGTCGCAGCTGCTGTACTCATGACCATTGGCGGTCTTTGGATGCGCAAGATTATTGACCTGAAGTTCTGA	MVLALGIFLVITAIALAGLAVMIPGTPTVPLDRRRPFRTEADSQLTRFADSAVQGVQRLLAKRNVRFFNRDVLENAGLRLSQAEFVLLVIFGALVTASMGLLVAGPLLAFLLATAAPFIANFLLNVLAAKRRAKFDEQLGDTLQLLSGSLRAGHSILRAIDAAATESQAPTSEEMRRVITETSLGRDLLVSLNDTAERMKNEDFVWIAQGIQINREVGGNLAEVLDQVNETIRERSEIKGHIKALAAEGKFSAYILMALPVAIVVLLLATNPSYMNKMFTTPLGWMMVVAAAVLMTIGGLWMRKIIDLKF	PGPT0022290_1383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-17_01162	1578			hypothetical protein	ATGAAGCTGTCCGAACGCATCCGAGCCGCCCAAGCGAAGTCACAACCCGCCCTTGCCCCGGCCGCAGCAGTGGCCTCCATTGCTGTTCCTGCCCCGGCACCTGCGGTGACAGCCCTCCGGCCCAGAACGCGGGCAATCCCTGAGTCACAAGCACAGCCTGTGCCAGTCCCGCCAGCGGTGCGCCGTGAACCAAACCAGCCAAGAGCGGCGCGGCACGAGCCAACTGCGAGGCCCTCACAACCTACAGCCACACAGAAGGAAGGCTTCAAGCCTAAGGTTCAGCAGCCGGTTGACGCCTTCGCGGCACTCAAGCAGCGGGCGGCGACCGCGCTCTTTGAACGTATGGGAGCACGCTTCAATGATTCCGGCGTCACCGAGAGTGAGCTGCGCAGCACTGCACGGGAGGAGCTTATCCGCATTATTGATGCCGAGCAGGTGCCGCTGACACTTGAGGAGCGCTCGCGCCTAGTCGCAGACGTGGCCGATGATGTGCTGGGTTACGGTCCTCTGCAGCGATTGCTGGACGACCCGGCTGTCAGCGAGATCATGGTGAACCGGATGGACCAGATTTATGTGGAGCGCAAGGGCAAGCTGACGTTGACTGAATCCCGATTCAGCTCGGAGGAGCACCTGCGCAAGGTTATTGAGCGCATTGTGTCAAAGGTGGGACGGCGCATCGACGAGTCATCTCCATTGGTCGATGCGCGTCTGGAAGACGGCTCTCGTGTAAACGCCGTGATTCCTCCCCTGGCCGTAGGCGGTTCCTCCTTGACCATCCGTAAGTTCAGCAAAGTGCCTCTGACTGTTCAGAACTTGATTGAGTTTGGTACGCTCACCCCTGAAATGGCCGAGTTGCTGAACGCTTGTGTCAAGGCGAAGCTGAATATCATCGTCTCAGGCGGCACGGGAACCGGTAAGACCACCCTCTTGAATGTGCTGTCATCGTTCCTCCCTGCCAACGAGCGTATCGTGACCATAGAGGACGCCGTGGAACTGCAGATCCAGCAGGACCACGTGGTGCGTCTGGAAAGCCGGCCGCCTAACACTGAGGGCAAGGGCGAAGTGACGATCCGCGAGCTGCTTCGCAACTCGCTCCGCATGCGGCCGGACCGCATCGTAGTGGGCGAGGTTCGTGGCGGGGAGTCCCTTGACATGCTTCAAGCAATGAACACCGGCCACGACGGCTCCCTCTCCACTGTGCACTCGAACTCACCACGCGATGCGATCGCCCGTCTTGAAACCCTGGTCCTCATGGCCGGAATGGATTTGCCGCTGCGTGCCATCCGGGAGCAGATCGCGTCGGCTGTCAACTTGATCATCCAAATTTCCCGTCTGCGAGACGGCACCCGCCGCATAACTCATGTGACCGAGGTCCAAGGCATGGAGGGCGACATTGTCACCCTCCAGGACGCCTTCGTGTTCGACTATTCTGCGGGCGTGGATCAGCACGGCCGTTTCTTGGGAACTCCGGTCCCCACCGGCATTAGGCCACGGTTCATCGACCGTTTCGAGGATATGGGCATTCGCGTCTCGGCGGGCGTCTTCGGTTCCCCAGTGGTCTCTAGCGGAAAGCACTGA	MKLSERIRAAQAKSQPALAPAAAVASIAVPAPAPAVTALRPRTRAIPESQAQPVPVPPAVRREPNQPRAARHEPTARPSQPTATQKEGFKPKVQQPVDAFAALKQRAATALFERMGARFNDSGVTESELRSTAREELIRIIDAEQVPLTLEERSRLVADVADDVLGYGPLQRLLDDPAVSEIMVNRMDQIYVERKGKLTLTESRFSSEEHLRKVIERIVSKVGRRIDESSPLVDARLEDGSRVNAVIPPLAVGGSSLTIRKFSKVPLTVQNLIEFGTLTPEMAELLNACVKAKLNIIVSGGTGTGKTTLLNVLSSFLPANERIVTIEDAVELQIQQDHVVRLESRPPNTEGKGEVTIRELLRNSLRMRPDRIVVGEVRGGESLDMLQAMNTGHDGSLSTVHSNSPRDAIARLETLVLMAGMDLPLRAIREQIASAVNLIIQISRLRDGTRRITHVTEVQGMEGDIVTLQDAFVFDYSAGVDQHGRFLGTPVPTGIRPRFIDRFEDMGIRVSAGVFGSPVVSSGKH	PGPT0016025_363	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-17_01163	1194			Iron-sulfur cluster carrier protein	GTGAGCCGCTTCGTCCTGATCACGCCGAACGCAGATTTCGACGGACGCCTGCGGCAGGCAGTGGCGGGCGGGCTGCAAGGCGGAGTGCAAACGTTTTTCACGAATGTCCTGCCTGCCGGCCCCTACGATTTGTTCGCCCAGCTGAACCAGGAACAGCCCGAGGTCCTCATCCTCGGCCCGGATGTGCCCATCGACGAAGCGCTGCGCCTAGCCACCGTGCTCGACGTGCAGGTTCCGGACCTTACAGTTCTTCTCGTCAGCGAGCCTGACCCGGAACTCATTCTGCAGGCAATGCGGGCCGGCGTGCGGGATATCCTCAATCCGTCTGCCGATCCCGCCCAGCTGCGCGTGTTGTTGGAACGAGCTTGCCAGTCCTTCGCCAGCCGTCACCGAATGGGACAGCCGCAGCAGGTCCAAAGCAGCAAGGGACGTGTGATTGGCATCTTCTCGCCCAAGGGCGGGGTAGGCAAGACGACTATCGCTACCAACCTCGCCGTGGGGCTGGGCAAAGTTGCACCGATGAGCGTGGTGGTGGTGGACCTCGACCTCCAGTTCGGTGATGTTGCCTCAGGGCTCTACCTCAATCCGGAGCACACCGTTACGGACGCGGTCTCCTCAGCAGCCAGCCAGGACACGCTGGTGCTCAAAGCATTCCTCACGGTGCATCCTTCGAGCATCTACGCCCTGTGCGCGCCGGACAACCCGGTCGAAGCCGACCACATCACCCCCGAACAGGTCACCCGCCTGCTGGAACAACTGGCTGATGAATTCCAGTATGTAGTTGTGGATACCGCACCCGGACTGCCTGAGATAGGACTGGCGGCCATGGAAGCATGCACCGACGTGGTCTGGGTCAGCGCCATGGACATTCCCAGCGTCCGCGGCCTGCGCTCGGGCTTGGATGTCCTCCGCCAGCTCGACATCCTGCCCGAGGGGAGGCACGTGGTGCTCAACATGGCGGACCCCAAATGCGGCCTCACTGTCCAGGACGTTGAATCGACCATTGGCGCTCCGGTCGATGTCAGTGTCCCGCGCTCACGTGGGGTTGCCTTTTCCACGAACCGTGGGGTTCCGGTCCTCCAGGAACGTATGAAGGATCCCGCGGTGAAAGGACTTGCCCAGCTCGTGGAACGGTTTAGCCCTGCCGGTCAGGCCAAGGGCCAACGGAAAAGCCACCGACGGGTGGTTGTTTAG	MSRFVLITPNADFDGRLRQAVAGGLQGGVQTFFTNVLPAGPYDLFAQLNQEQPEVLILGPDVPIDEALRLATVLDVQVPDLTVLLVSEPDPELILQAMRAGVRDILNPSADPAQLRVLLERACQSFASRHRMGQPQQVQSSKGRVIGIFSPKGGVGKTTIATNLAVGLGKVAPMSVVVVDLDLQFGDVASGLYLNPEHTVTDAVSSAASQDTLVLKAFLTVHPSSIYALCAPDNPVEADHITPEQVTRLLEQLADEFQYVVVDTAPGLPEIGLAAMEACTDVVWVSAMDIPSVRGLRSGLDVLRQLDILPEGRHVVLNMADPKCGLTVQDVESTIGAPVDVSVPRSRGVAFSTNRGVPVLQERMKDPAVKGLAQLVERFSPAGQAKGQRKSHRRVVV	PGPT0016020_1214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282	NA	NA
D1-17_01164	783			hypothetical protein	GTGAAGTCTCGGTTGTTGGCGGGAGCGGCAGCAGTTATCCTCGCCATCTTCGGCGCACTGTTAGTCATTTCCTATGCCCAAGGCGCAGACCAGCGGGCCGTCGAGAATCTCGAGCCGGTGGACGTCTTGGTGGTCAAGGCGGCCATTCCTGCCGGCACACCTGTTGAGTCCATGGCTGCTTCCCTGGTTACAGAACAGGTACCAGCCTCTGCCGTAACTGGCTCTTCCCTAAAGTCCTTGGACTCCTTTAAAGGCAAGGTTGCCGCAGTTGACTTGGTTCCCGGGGAGCAGCTGGTTTCCGAGCGACTTGTTGCTCGGGAGGATGTCAAGGTTGGGGGCACTGTAAAGATCCCCTCCGGGCTGCAGGAAGTCTCCTTCAAGCTGGAACCGGACCGCGTCGTCGGAGGCCGGCTGGTTCCCGGCGACCACGTCGGCGTCTTCGTCTCCATGGATAAAGGCGGCCTTGAGGACAGGGCGGATAAGGAAACCACCAAACTGACCGTGCGCAAGGCCCTCGTAACGGCAGTGCAGCGAGCGCCGGAAGCGGCCCCCACTGCCTCCCCGGCTCCGACGGCCACCGCCGGCGCTGACGCCAATGCAGCCGATCCCCGGGATACCACCCTTCCCGTGGGGTCGCTCATGCTCACTGTTGCCGTCAGTGATGTGGATGCAGCCAAAATCGTATTCGCCGCCGAATACGGCAAGATCTGGCTCAGCAAGGAACCCATCAACGCCAAGGACAGCGGTCCCCGGATCATTGAGCGAAGTGAGGTCTACAAGTGA	MKSRLLAGAAAVILAIFGALLVISYAQGADQRAVENLEPVDVLVVKAAIPAGTPVESMAASLVTEQVPASAVTGSSLKSLDSFKGKVAAVDLVPGEQLVSERLVAREDVKVGGTVKIPSGLQEVSFKLEPDRVVGGRLVPGDHVGVFVSMDKGGLEDRADKETTKLTVRKALVTAVQRAPEAAPTASPAPTATAGADANAADPRDTTLPVGSLMLTVAVSDVDAAKIVFAAEYGKIWLSKEPINAKDSGPRIIERSEVYK	PGPT0016005_1532	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
D1-17_01165	1017			hypothetical protein	GTGTCCGTCCATGGGGAGCGCGGCGGCGTTGCCGTCCTCGTCGCAATGGTCATGGTGGTGCTGCTCGGATTTGCCGCCATCTCCATCGACGTCGCCATGCTCTACTCAGAGCGTGCGCAACTGCAGAACGGAGCGGACTCAGCGGCCTTCATGCTGGCCCAAAAATGCGCCAAGGACGAAAGTGATCCTGAATGCTCTCCGTCTTCACCGCTGGCAACAGATTTGGCCAACAGAAATGCAGTGGATGGCCTTAGCAATGTGAAATCTATCACCCTCGATAAGGTCAGCCGCACTGTGGTTGTGACAACAGGTGCAAAAGAGCTCGGCGGTACCACGAACAGCGTGTCCCTTTTGTTTGCCCGTGCTCTCGGCTTTCCCAGCAGTGAAGTAAACGCCAGGTCAAGCGTACGGTGGGGTAGCCCGGAAAAAGGCATAACACCCTTCCCCATAACTGTTTCCATTTGTCAGGTGCGCGACAAGAGCGGAACGATGCAGCTACTACAGCTGCATGGCAAAATGAAGAATGAGGGTTGCAACTATGGCCCTTCGGGCGCCCCAGTCCCCGGTGGATTCGGCGGCCTGAACCAAGACACCGGCGGCTGTGGGGCGATTATCGACATAGCAGCCAGCGAAAGTGGCGGAGACACTGGCAACAATCCGCCTCCATATTGTGAAGCTCTGCTTAATTCTTGGGCGGCAGACATCAATGCGGGACGCGACGTCATTGTGCTGCTGCCAGTTTTCAATGCCGTTACTGGCACCGGGGCTGGCGCCGTGTACAAGCTAAAGACACTAGCCGCTTTCAAAGTAGCTGGTTGGAAATTCAGCGGCGGCAGCACACTTCCATATACCTTTCGTAATCGTTTCCCAGACGTCCCTGCCGAGTTTGAGTGCCGCGAGGCTACTCAGTGCAAGGGGATCATTGGGACGTTTGTAGAGTATGCGTCCCTGGTCGACGGATATCAGTTGGGGGACGTAGACCCAGACGGTGCGACCGTCGTCGAACTCGCCAGCTAG	MSVHGERGGVAVLVAMVMVVLLGFAAISIDVAMLYSERAQLQNGADSAAFMLAQKCAKDESDPECSPSSPLATDLANRNAVDGLSNVKSITLDKVSRTVVVTTGAKELGGTTNSVSLLFARALGFPSSEVNARSSVRWGSPEKGITPFPITVSICQVRDKSGTMQLLQLHGKMKNEGCNYGPSGAPVPGGFGGLNQDTGGCGAIIDIAASESGGDTGNNPPPYCEALLNSWAADINAGRDVIVLLPVFNAVTGTGAGAVYKLKTLAAFKVAGWKFSGGSTLPYTFRNRFPDVPAEFECREATQCKGIIGTFVEYASLVDGYQLGDVDPDGATVVELAS				NA	NA	NA	NA	NA
D1-17_01166	405			hypothetical protein	ATGGAGAAGGCAACTGAACGCGGGGCGGTTGCCGTCGAGTTTGCATTGTTAACGCCTGTCCTGGTGATGTTGCTCCTCGGCATCATGGAATTCGGCCGCGCCTACAATGTCCAGGTTGCGCTGACCAATGCAGCCCGCGAAGGTGTTCGTAACATGGCGATCAACAACAGCCAAAGCGCTGCCATTAGCGCAACCAAGAACGCTGCCGACGCCCTTAACCCCAAACTAAAAGATTCGGATATCGTATTCTCCTTTCGGAATATACCCGAAACGACTCCCGCGCCCACGTCTTGCTCCGTTGGGCGGCAAGTTACAGTAACCGTCAATTACAGCCTCACCACGATGACGGGTGTCGCGGGCCCGTTTGCCATGTCGGGAACTGGGGCAATGCTGTGCGGCGGGTAG	MEKATERGAVAVEFALLTPVLVMLLLGIMEFGRAYNVQVALTNAAREGVRNMAINNSQSAAISATKNAADALNPKLKDSDIVFSFRNIPETTPAPTSCSVGRQVTVTVNYSLTTMTGVAGPFAMSGTGAMLCGG				NA	NA	NA	NA	NA
D1-17_01167	240			hypothetical protein	ATGATTTCTCTCTACACCAACCTCTCTGCCCGCCTTCGTCGCGAAGAAAAGGGTGCCACCGCAGTCGAGTACGGCCTCATGGTCTCCCTCATCGCAGTCGCCATCGTCCTCGCCGTCACCTTCCTTGGGGGGCAGATCGCCACCATGTTCCAGACCGCTGCCTGCGGCGTCCAGGGCAAGACTTACACGGCCGCCAGCACAACCAATGGCACCACCACTCCGGCTGCATGCAACGCTTAA	MISLYTNLSARLRREEKGATAVEYGLMVSLIAVAIVLAVTFLGGQIATMFQTAACGVQGKTYTAASTTNGTTTPAACNA	PGPT0015910_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
D1-17_01168	879			hypothetical protein	ATGCAACCACTTGCTTACGCGGCGATCTTGGCAGTAGTCGCACCAGTTACGGCCATGACATGGTTTGCCTTCACCGGCGACCGCGCCGGCCTTCGCAATATCCAAGCCAACCTCGGCAAGACGTCAAAAGCTAAGGGTCCGGCGCTCAGCACCAACGAGAAGCTGGTGCTTGCCAGCCAGCGGATGATGCCCAAGGGCTACGCCGGCTGGCTGGACAAACAACTCGCAGGTGCCGGACGCCCGAAGGATTGGCCGCTGGCCAGGCTCGTCATGGTCAAACCACTCCTGGCCTTTGCCGGGGCAGTCGTGGGGTACCTGCACTTTGCTGGCTCTCCTTCTCCTCCCCGATTCCTCGCACTGCTGTGTGTCACCGCCTTGTGCTACTTCACGCCTGATTTTCTGGTGCGGAACCGTGCCCAGAAACGCCGGGCCGCTATCCGCCTGGAGCTGCCTACTGCACTGGATCAGATGCTCATTTCCGTTCAGGCCGGCTTGGGATTCGAAGCGGCCATGGGACGGGCCGGTGCGAACGGCTCGGGACCAATGGCGGAGGAGCTCATCAGGACCCTTCAGGACATCCAGGTAGGACTCTCCCGCAAGGATGCATATCTTGCCATGGCAGAACGCGTAGATGTACCCGACGTACGTAGCTTTATCCGGGCGGTAGTCCAGGCCGATACCTATGGCGTGGCCATCGCAGGAGTTCTGAAGGCACAAGCAGGCGACATGCGCATTAAGCGGAAGCAGCGGGCAGAGGAACATGCCATGAAAATGCCGGTGAAAATGCTCTTCCCTCTGATCTTCTTCATCCTGCCGACCCTTTTCATCGTGGTGCTCGGACCGACCGTGATGAGCATTATTTCGATTTTCAGCGGCTGA	MQPLAYAAILAVVAPVTAMTWFAFTGDRAGLRNIQANLGKTSKAKGPALSTNEKLVLASQRMMPKGYAGWLDKQLAGAGRPKDWPLARLVMVKPLLAFAGAVVGYLHFAGSPSPPRFLALLCVTALCYFTPDFLVRNRAQKRRAAIRLELPTALDQMLISVQAGLGFEAAMGRAGANGSGPMAEELIRTLQDIQVGLSRKDAYLAMAERVDVPDVRSFIRAVVQADTYGVAIAGVLKAQAGDMRIKRKQRAEEHAMKMPVKMLFPLIFFILPTLFIVVLGPTVMSIISIFSG	PGPT0022295_1899	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
D1-17_01169	945			hypothetical protein	GTGGCAAGCGACACCACCTTTTTAGTCGTCGGCTTGGTCCTGCTGTATCTAGCGATTTTCCTGGTCTTCGGCGTGGCATTGCGGTCAAGATCCGCCTTGCCATTGTCCCGTCGGCGACCCGATGCACCGGCGGAGCGGTCGGTATTGAACCGGCTGACCGAACAGGCCGTGGGAGCGTTGGGCAACGGCATCAAGAGGCGGGGTCCCGGGCCGCTGAGCCAGGACCGGCTGGATGAATGCGGACTGAAGAAAGAACCTGGGGACTATTTGCTGATGGCAGGCGTCATCACCCTGACTCTTGCAGTCCTCGGATTCTTCCTGGGTGGTTTCTTCGCGGCTTCCTTGCTCGCCCTGCTGACCCCCGCTGCACTCCATCTCCTGCTGAACGTTTTGGCCGGCCGCCGCCGAGCCCAGTTCGCCGGCCAGATCCCGGACACCCTGCAGATGTTCTCCGGAGGCCTGCGGGCCGGGCACAGCCTCCTCCGCGCTGTCGACGCCGCCGCCCAGGAAAGCCAACCTCCCATGTCAGAGGAACTAAGCCGGGTCGTCAATGAGACCCGTATTGGCCGCGACTTGGGGGAATCGCTGGAAGATGTGGCAAGGCGGACACGAAGCGAGGATTTCCTCTCCATCTCCCAGGCCATCGATATCCATAGGGAGGTAGGCGGTGACCTGGCAGAGGTGCTGGACCACTTGGGCGATACCGTCCGTGACCGTAACCAGGTGCGGGGCCAGATCCGGGCCCTTAGTGCCGAAGGACGAATGTCAGCCATTGTTCTCATGGCGCTCCCCGTCGTGATGTTCATCGGACTCACGATGTTCAATGACCTCTACTCCCGCGTCTTCACCAGCACCCTCCCCGGCTACTTGATGATTGTCGCCGCCTTGTTACTCCTTACCGCTGGCGGATTTTGGCTCAGCCGCATCGTCAAGCCCAGGTTCTAG	MASDTTFLVVGLVLLYLAIFLVFGVALRSRSALPLSRRRPDAPAERSVLNRLTEQAVGALGNGIKRRGPGPLSQDRLDECGLKKEPGDYLLMAGVITLTLAVLGFFLGGFFAASLLALLTPAALHLLLNVLAGRRRAQFAGQIPDTLQMFSGGLRAGHSLLRAVDAAAQESQPPMSEELSRVVNETRIGRDLGESLEDVARRTRSEDFLSISQAIDIHREVGGDLAEVLDHLGDTVRDRNQVRGQIRALSAEGRMSAIVLMALPVVMFIGLTMFNDLYSRVFTSTLPGYLMIVAALLLLTAGGFWLSRIVKPRF	PGPT0022290_1151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-17_01170	1494			hypothetical protein	GTGAGCCTCACAGACCGGTTTCAGCTCCTCCGCGGTGAGGCGAAGACCGAACCCCAATCACCCAAGCCCTTCGAAGGCGTCTATGAACCGAAGCTGGCTCCGGCCACCCTTGGGCAAAAGCATGAGGCGCAGACCGCCGAAGCAGCTGCGAGCGCCACAGCAGTCTTGGAACAACCGCAAACCGCTTCCGCCGCCAGTGAAGCCTTGAATGCCCTCAAGGAACGAGCAACCCAAGCCCTGTTTGAGCGGCTTGGCTCACGAATCACCGATTCATCACTTGAGGACGAGGAGCTCCACCAATTCGTCCGTGGCGAACTCAAGATCGTAGTAGACGAGGAACAGGTTCCGCTGTCTACGTCCGAGAGGCAACGGCTGATGCGTGAAATTATTGACGACGTGCTGGGCCACGGACCCATTCAGCGTTTCCTGGATGATCCAACCATCACTGAGGTAATGGTGAATCGCTACGACCAGGTGTACGTGGAACGTCAAGGACGCCTCCTGATGACGGACACGAAATTCAGTTCGGATGGGGCGCTCCGTCGTGTGATCGAGCGCATCGTCTCGAAGGTGGGCCGGCGCATCGACGAATCGTCGCCTTTGGTGGATGCCCGGCTTACGGATGGTTCCCGCGTCAATGCGATCATTCCGCCACTTGCTGTCAACGGGCCAGCCCTCACCATCCGCAAGTTCGGCCGTGATCCCCTGACTGTGCAGAATCTGATCGCATTGGGCAGTCTCTCCCCCGAGATGGCGGAGCTCCTCCAGGCCTGCGTGCTGGCCCGGATGAACATCATCGTTTCCGGCGGTACCGGTACCGGAAAAACGACTCTCCTCAATGTGCTGTCCTCATTCATCCCAACGGACGACCGCATTGTGACCATCGAGGACGCCGTGGAGCTCCAACTGCAGCAGGAGCACGTCGTGCGGCTCGAGAGCCGGCCTCAAAACATTGAGGGCAAAGGTGAGGTGTCCATCCGGGACCTGGTCAGGAATTCCCTTCGCATGCGGCCGGACCGGATCGTGGTGGGCGAAGTCCGTGGCGGCGAGTGTCTGGACATGCTGCAGGCCATGAACACCGGCCACGACGGCTCCATCTCCACAGTGCACGCCAACTCCCCCAGGGACGCGATTGCCCGTCTTGAAACTCTGGTCCTGATGGCCGGCATGGACATCCCGCTTCGCGCCATCCGCGAGCAGGTTGCTTCTGCCGTGAACCTGATCGTACAGATCACAAGGCTCCGTGACGGCTCGCGCAGGGTCACCCACATCACGGAAGTCCAGGGCATGGAGGGTGACATCGTAACTCTTCAAGATGCCTTCGTTTTTGACTACTCGGCAGGCGTCGACGCCAACGGGCGCTTCCTCGGCAAGCCGGTGCCCACCGGTGTGCGTCCCAGGTTCACTGATCGCTTCGCCGAGCTGGGCATTGAGATCTCGCCAACGGTGTTCGGGGCTGCATTGTCCGCTCGAGCGCCCGCAAGGGGGCGGTAA	MSLTDRFQLLRGEAKTEPQSPKPFEGVYEPKLAPATLGQKHEAQTAEAAASATAVLEQPQTASAASEALNALKERATQALFERLGSRITDSSLEDEELHQFVRGELKIVVDEEQVPLSTSERQRLMREIIDDVLGHGPIQRFLDDPTITEVMVNRYDQVYVERQGRLLMTDTKFSSDGALRRVIERIVSKVGRRIDESSPLVDARLTDGSRVNAIIPPLAVNGPALTIRKFGRDPLTVQNLIALGSLSPEMAELLQACVLARMNIIVSGGTGTGKTTLLNVLSSFIPTDDRIVTIEDAVELQLQQEHVVRLESRPQNIEGKGEVSIRDLVRNSLRMRPDRIVVGEVRGGECLDMLQAMNTGHDGSISTVHANSPRDAIARLETLVLMAGMDIPLRAIREQVASAVNLIVQITRLRDGSRRVTHITEVQGMEGDIVTLQDAFVFDYSAGVDANGRFLGKPVPTGVRPRFTDRFAELGIEISPTVFGAALSARAPARGR	PGPT0016025_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-17_01171	1206			Iron-sulfur cluster carrier protein	ATGAGCCGCTTCGTCCTCATCACGCCAAGCGCTGACTTCGAACACCGGATGCAGTTGGCCGTAGCTGGCATGCACGGTTCCCTCCAGGTGTTTCAGGCGGATTATCTTCCCGATGGTCCCCAGGAATTCCTCCGCCAAATGGTGGGCGAACCTCCCGAAGTTCTCATACTGGGACCGGGACTTAACGAGGAGGGCTCCCTCAAACTCGCTGCAGTCATGGACCTGCAGTACCCGGAGATCAGTGTGATCCTCGTTGTCCCGGAGTCCACCGAAGTGGTTTTGCAGGCCATGAGGTCCGGGGTCCGGGACCTCCTTGATCCCATGGCAGACCCTGACTCCGTCCGGATCATGCTGGAGCGCGCCAGTCTGGCGGCTGCCGGTCGCCGTCGGGGTCTGGCGCCTGGAACGTCGGAGCACGCCGACCACGGAGCGGGCGGAAGAGTCATCGCGGTCATGTCCCCCAAGGGTGGGGTCGGCAAAACGACCGTGGCGACGAACTTGGCGGTTGGTCTTGGGAAATCCGCTCCGATGAGCGTGGTGATTGTAGATCTGGACCTGCAGTTCGGCGATGTCGCCAACGGGCTGATGCTTGACCCGGAACACACCATTACCGATGCCGTCGTGGGTGCGGCCAGCCAGGACTCCATGGTTCTAAAGACCTACTTGACGGTGCACCCGGCCGGGATCTACGCCCTCTGCGCCCCGCGGAACCCTGTGGAGATGGACAGGATTTCCGGTGAGCACGTCACCCGGCTCCTCAATCAGCTCCGTGAGGAGTTCCACTACATCGTGGTGGACACCGCTCCCGGTCTGGGAGAGCACGTTCTGGCAACGCTCGAGCAGGCGACCGACGCTGTATGGATCTGCGGGATGGATGTGCCAAGCATTAAGGGTCTCAAGACCGGATTCCACATCCTGACAGAGCTCAACTTGCTGCCCGAAAAGCGCCATGTGGTCCTCAACATGACGGACCGCCGCGCTGGGCTCACGCTGCAGGACGTCGAAGCGACCATCGGGGCCCCTGTCGACGTCGCGTTGCCCCGCTCCAAAACGCTGCCCTTTTCTACGAACAAAGGCGTTCCCATTCTGCAGGACGGCAGCCGGGACTCGGCCGCAAAAGGTCTCCGGCAGTTGGTGGAGCGGTTCAAGCCCGACTGGGAAGAAAGACCCCATAAGAAGCTCCACCGAAGGGCGGTAGTGCAGTGA	MSRFVLITPSADFEHRMQLAVAGMHGSLQVFQADYLPDGPQEFLRQMVGEPPEVLILGPGLNEEGSLKLAAVMDLQYPEISVILVVPESTEVVLQAMRSGVRDLLDPMADPDSVRIMLERASLAAAGRRRGLAPGTSEHADHGAGGRVIAVMSPKGGVGKTTVATNLAVGLGKSAPMSVVIVDLDLQFGDVANGLMLDPEHTITDAVVGAASQDSMVLKTYLTVHPAGIYALCAPRNPVEMDRISGEHVTRLLNQLREEFHYIVVDTAPGLGEHVLATLEQATDAVWICGMDVPSIKGLKTGFHILTELNLLPEKRHVVLNMTDRRAGLTLQDVEATIGAPVDVALPRSKTLPFSTNKGVPILQDGSRDSAAKGLRQLVERFKPDWEERPHKKLHRRAVVQ	PGPT0016020_1077	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282	NA	NA
D1-17_01172	768			hypothetical protein	GTGAAAGCTCGCCTACTGGGAGGTATCGCCGCATTAATTGTGGCAATAATTGGAACGGTATTTTTGGTCAATTACGTCCAGAGCGCGGACAAGCGTGCCTTGGCCGACACCGAAACGGAAACCGTCTACGTCGTCGAAAAAGCCGTTGCTGCAGGCACCGGCGTGGACAAGATGTCAGACGCCGTGGTCAAGAAGGAAGTCCCTAAGCTAGCCATCGCAGCCGGTGCGGTGACTGACCTGAACGACGTCAACGAGAAAGTCACGGCAGTGGCCCTGGTGCCGGGCGAGCAGCTCCTCACCACCCGCTTCGTGGAGGCCAGTGCCTTCCTCGGCCCTTCCAGGGTGCAGGTGCCGAACGGAATGCAGGAAATCACTCTTAAGCTCCCCATTGAGCGCGTTGTCGGTGGCAAGATTGCCGCTGGTGACACTGTAGGCGTCTTCCTCTCAGCAGAGGCCGCCGCTGGCGGCGCCAGAGGGACGCAGCTGACGTTCCACAAGGTTCTGGTGACCGCGGCCCAGTTCAGCAATGGCAGCACAGCGAAGGTGCAGGAAGAGCCGGCAGAAGGCGAAAAATCGGCCGGCGCCCTGACAGCCAAGAAATCAGATACCTCGGATGACACGTACCTCATCACCCTGGCCCGCAGCTCCGCCGATGCAGAACGCATTGTCTACGCGACCGAATTTGGCAGCGTGTACCTCTCGAAGGAACCGGCCAACGCCCTCGAAGCGACCTCGGGCGTCGTCACCAGCGCAAGGTTGTTCCGATGA	MKARLLGGIAALIVAIIGTVFLVNYVQSADKRALADTETETVYVVEKAVAAGTGVDKMSDAVVKKEVPKLAIAAGAVTDLNDVNEKVTAVALVPGEQLLTTRFVEASAFLGPSRVQVPNGMQEITLKLPIERVVGGKIAAGDTVGVFLSAEAAAGGARGTQLTFHKVLVTAAQFSNGSTAKVQEEPAEGEKSAGALTAKKSDTSDDTYLITLARSSADAERIVYATEFGSVYLSKEPANALEATSGVVTSARLFR	PGPT0016005_1549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
D1-17_01173	1098			hypothetical protein	ATGCGGCGGCTGAAAGAAACGCCACGCCTACCCGAGAATGAACGCGGCGCGGCCGGCGTCCTCGTTGCGGTCACGATGCTGGTGCTCATCGGCGCCGGCGCCTTGGCAGTGGATGTGGGTCAGATCTATGCCGAACGTGCGCAATTGCAAAATGCCGCGGATGCCGGCGCACTCGCGGTGGTTGAAGCGTGCTACGAGACTCCCTGCAGTCAAGGTGACGCGGAATCCATTGCGGAAAGCCTGGCCAACGCCAACTCCAATGACGGCGAATCAAGCGTTGCCGAGGTCGACATGACCGTGGCGAACCACGTGACGGTCCGGACCACAACTCAGAGCGGCGGCAACAGCTTCCTCACAAAAATGTTTGCGAGTGCTCTGGATGCACCGGCGGTGACCGTCGGTGCGCACGCCACCGCTACCTTCCGTTATCCCCCAACCGGTGTCTCCGTCCTGCCGCTGGTGTTCGCTACCTGCGAGTTCGTAGAGGACGGACAGCCGCACAAGATACTCACTCACAGCGGTTCTGGCGGCGGCCCAAGTCCGGACAAGGAAAGCCCGGCCAAGGAAAGCGACGACAAGGGCAAGGGCAAGGCTAAAGACGACAGTTCCGGATCCGGGCCCAAGAACCCAGCGGACTGCAACTCCACGAATCCCTCCGGGCAAATCGTCCCGGGAGGCTTCGCCTGGCTCAACCCTAATCGCGACGTGGAGTGCGAAGTGCGAGCCACCGTCGGTCAGTGGAGTGACGGCAGCGAGGGGCTGGCAATACCTACCGAGTGCAAAGACCTTTTCGATCCTGACGCGACACCCTCGCTGAAGGACCAGACGGTGGCACTCCCCGTCTATGCCTACACCTGTGAAGGAATGGCTAAATGCACCGGCAGCCACACGAAATACATGATCGAAAAATGGGCCGGATTCAAAATTGAACGCTGGAACTTTCCAGGGCACAGTTATGACCCATCCCCTGGAGTATTTGCAGGCGGGGAGACCGGGCTATACGGAACATTCGTTGGATACGCTGCAGACCCCGCTCTTTTCACTGGTGGGTCATCAACTCCAAATGGCAACGTCGTTGCCATTGATCTCATCGACTAA	MRRLKETPRLPENERGAAGVLVAVTMLVLIGAGALAVDVGQIYAERAQLQNAADAGALAVVEACYETPCSQGDAESIAESLANANSNDGESSVAEVDMTVANHVTVRTTTQSGGNSFLTKMFASALDAPAVTVGAHATATFRYPPTGVSVLPLVFATCEFVEDGQPHKILTHSGSGGGPSPDKESPAKESDDKGKGKAKDDSSGSGPKNPADCNSTNPSGQIVPGGFAWLNPNRDVECEVRATVGQWSDGSEGLAIPTECKDLFDPDATPSLKDQTVALPVYAYTCEGMAKCTGSHTKYMIEKWAGFKIERWNFPGHSYDPSPGVFAGGETGLYGTFVGYAADPALFTGGSSTPNGNVVAIDLID				NA	NA	NA	NA	NA
D1-17_01174	390			hypothetical protein	ATGAAAATCAAACCATGGCGCAGGGCGGAAAAGTCCCGGGGTGCTGTTGCCGTCGAGTTCGCCCTTGTTGCACCTGTTCTTCTGGCTCTGGTCGCCGGCATTGTTGAGTTCTCCCACGCCTACAACCTGCAGATTTCCGTCACCCAGGCAGCGCGTGAGGCAGCTCGGACCATGGCGATCAAGGACGACCAGAGTAAAGCTGCACTGGCTGCTATTGCCGGAGCCCCTGGATTGAGCGGCGAGGACTTCGAGCTCATCTTCACACCATCCACCTGCAGCGACGAGGACGACATGACGGTGACTGTCACGTATCCAGCAGCCACCATGACCGGCCTCTTTGGCAGCACCGTCACCGTCACTGGAGTAGGAGCAATGCGATGCGGCGGCTGA	MKIKPWRRAEKSRGAVAVEFALVAPVLLALVAGIVEFSHAYNLQISVTQAAREAARTMAIKDDQSKAALAAIAGAPGLSGEDFELIFTPSTCSDEDDMTVTVTYPAATMTGLFGSTVTVTGVGAMRCGG				NA	NA	NA	NA	NA
D1-17_01175	213			hypothetical protein	ATGACTACTCTCATGGTCTCGGTTCTTGCTTTCGTTTCTGGAGTTAAGGACCGTCTCTCATCCGAAAAGGGCGCCACGGCGACAGAATACTCGTTGCTCATTGCCTTCATCGCCTTCCTCATCATCGGCGGCGTGACGGTGTTCGGCAACGCGCTCGATAAGTGGTTCACCGACCTCGGCGGCGAAGTCGCCAAATGGAAGATCGTCCCTTAG	MTTLMVSVLAFVSGVKDRLSSEKGATATEYSLLIAFIAFLIIGGVTVFGNALDKWFTDLGGEVAKWKIVP	PGPT0015910_518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
D1-17_01176	666			hypothetical protein	GTGCCGACAGTAAGCATCGCCGCAGGATCCGAGCCACTTTTCGCCGTCGCGGCCGGCCTGCTCGGCGTGCTCCTCTGCACGGTCACGGAAGTGCTCATCGCCCGGTCACTCCCCCGCCTGGGCGGCCTTCCGTCTGGAAGGACAAGAATCACGACGGCGGCCCTCACCGGCGCCCTTTGTGTTGCCTTGGCGCTTCGCGTGGGGAGCGACTGGTCCCTGCCGGCCTTCCTGGCTCTTGCGGTGCTCGCCGTGCAGCTGGCGCGGATCGATCTTGCCCACCACCTACTCCCCAATCCCCTCGTTTTGGCTCTGCTCATCGCCGGCGTTGCACTCTTCGCCATGAGCAGCACGGCCTCCGCAGACTGGTCCCCGCTGCTGCGGGCAGCCATCGGAGGGGTCATTTTGTTCCTCGTCTACCTGATTCTTGCCCTTATTTCTCCCAGCGGCATTGGAATGGGCGACGTGAAGCTCGCCGCGCCCGTAGGCCTGTACTTGGGCTACTTGGGCTGGAGCCACCTGTTCTACGGAGGCGCCCTGGGCTTCGTGCTGGGCGGTATTTTCTCCGCCGTTTTGATTTCGCTAAAGTGCGCGGAGAAATCCTCGGAAGTCGCCTTCGGGCCATCGATGCTGGCCGCGACGCTCGGCGTCGTCTTATTCACCGCCTAA	MPTVSIAAGSEPLFAVAAGLLGVLLCTVTEVLIARSLPRLGGLPSGRTRITTAALTGALCVALALRVGSDWSLPAFLALAVLAVQLARIDLAHHLLPNPLVLALLIAGVALFAMSSTASADWSPLLRAAIGGVILFLVYLILALISPSGIGMGDVKLAAPVGLYLGYLGWSHLFYGGALGFVLGGIFSAVLISLKCAEKSSEVAFGPSMLAATLGVVLFTA	PGPT0015925_2530	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015925-pilD-K02654	NA	NA
D1-17_01177	444	rplM	COG0102	50S ribosomal protein L13	GTGCGTACGTACACCCCGAAGCCCGGCGATATCAACCGCCAGTGGCACGTCATTGACGCCACAGACGTTGTCCTTGGTCGTCTTGCCAGCCAGACCGCAATCCTGCTGCGCGGCAAGCACAAGGCCACCTTTGCTCCCCACATGGACATGGGCGACTTCGTCATCATCATCAACGCCGAGAAGGTTGCCCTCACCGGCGCCAAGCTCGAGCAGAAGCGCGCCTACCGCCACTCCGGCTACCCGGGCGGCCTGACCTCCGTCAACTACGCGGAACTGCTGGAATCCAACCCGGTTCGCGCCGTGGAGAAGGCCATCAAGGGCATGCTTCCCAAGAACTCCCTCGCTGCACAGCAGCTGGGCAAGCTGAAGGTTTACCGCGGTGCAGAGCACCCGCACGCCGCCCAGCAGCCCAAGACTTTCGAAATTTCCCAGGTCGCCCAGTAG	MRTYTPKPGDINRQWHVIDATDVVLGRLASQTAILLRGKHKATFAPHMDMGDFVIIINAEKVALTGAKLEQKRAYRHSGYPGGLTSVNYAELLESNPVRAVEKAIKGMLPKNSLAAQQLGKLKVYRGAEHPHAAQQPKTFEISQVAQ				NA	NA	NA	NA	NA
D1-17_01178	507	rpsI	COG0103	30S ribosomal protein S9	GTGGCTCAGAACGAAGAGACCACCGAAGCCGTTGAGGCTGAGGAAAACCTGACCAGCTACACCTCGGAAAGCGGCGCTGCCGAAGCTGCCGCCCCGAAGAAGGAGCGCCCGGCGCTGACCGTTGCCGGCGCAGCTGTTGGCCGCCGCAAGGAAGCCGTTGCACGCGTCCGCGTTGTGCCGGGCTCCGGCAAGTGGATCATCAACGGCCGCGAGCTGTCGAACTACTTCCCGAACAAGCTGCACCAGCAGGACGTCAACGAGCCCTTCAAGATCCTCGATCTCGAAGGCGCCTATGACGTCATTGCCCGCATCCATGGCGGTGGCCCCTCCGGCCAGGCCGGTGCACTGCGTCTCGGCATCGCCCGTTCGCTGAACGAGATTGACGTCGAGAACAACCGCGCGACGCTGAAGAAGGCCGGCTACCTCACCCGTGACGCCCGCGTCATCGAGCGTAAGAAGGCCGGTCTCAAGAAGGCCCGCAAGGCCCAGCAGTACTCCAAGCGCTAA	MAQNEETTEAVEAEENLTSYTSESGAAEAAAPKKERPALTVAGAAVGRRKEAVARVRVVPGSGKWIINGRELSNYFPNKLHQQDVNEPFKILDLEGAYDVIARIHGGGPSGQAGALRLGIARSLNEIDVENNRATLKKAGYLTRDARVIERKKAGLKKARKAQQYSKR				NA	NA	NA	NA	NA
D1-17_01179	1356	glmM	COG1109	Phosphoglucosamine mutase	ATGTCTACATTATTTGGAACAGACGGTGTCCGGGGCCTGGCGAATGGGCTGCTGACCGCCGAGCTCGCAATGCGGTTGGCCCAGGCCGCCGCCGTCGTGCTCGGCCATGAACGCACCAGCAGCGGTGCACGCCCCCGCGCCGTGGTGGCGAGGGACCCGCGGGCCAGCGGCGAATTCATCGCCGCAGCCGTGGAAGCAGGGCTTTCAAGCTCGGGAATCGATGTCTACGACGCCGGCGTCCTTCCCACCCCTGCTGCGGCCTACCTTGTGGCGGACCTGGACGCGGACTTCGGCGTGATGATTTCCGCCTCCCACAACCCTGCCCCGGACAACGGCATCAAGTTCTTCGCCCGTGGCGGCCAGAAGCTGCCCGACGAGGTGGAGGACGCCATCGAGGCACAGATGGGCAAGGAACCTGTCCGTCCGCAGGGCGGTGAGGTGGGACGTATCCAGCGCTTCTCCGACGCCGAGGACCGGTACATCGTTCACCTCCTGGGCACCCTTCCGCACAACCTCGAGGGCCTCAAAGTGGTCCTGGACTGCGCCCACGGCGCCGCCAGCGGCTGTTCACCCCAGGTCTTCAAAGACGCCGGCGCCGACGTCGTGGTCATCGGCGCCGAGCCCGACGGCCTGAACATCAACGAAGGCGTGGGCTCCACCCACCTTGGCCCCCTGAAGGCTGCCGTGGTGGCCCACGGCGCTGACCTCGGCATCGCCCACGACGGCGACGCCGACCGCTGCCTCGCCGTGGACCACGAAGGCAACGAGGTGGACGGCGACCAGATCATGGCCATCCTCGCCATCGCCCTGAAAAAGGCCGGCAAGCTCACGGACAACGTCCTGGTGGCAACAGTAATGAGCAACCTCGGCCTGAAGATCGCCCTGAAGGGCGCCGGCATCGAAGTCCGCGAGACGGGCGTGGGGGACCGCTACGTCCTGGAGGAAATGCGCGACGGCGGGTTCAACCTCGGCGGCGAACAGTCCGGCCACGTGATTCTCGCCGACTACGCCACAACCGGCGACGGCGTCCTGACCGGCCTGCAGCTCGCGGCGCAGGTGGCCCTCACCGGCAAGCCGCTCAAGGAACTCGCGACGGTGATGACCAAGCTCCCCCAGGTGCTCATCAACGTGAAGGGCGTGGACCGCAGCAGGGTAAGCGGTGACGCAGTGCTCGCGGACGCAGTTAGGGCCGCTGAGGCCGAGCTCGGCGACACCGGCCGCGTACTGCTCCGACCCTCCGGCACGGAGCCCGTTGTCCGCGTCATGGTGGAGGCCGGGGACCAGGGTACGGCCCAGGTCATTGCCGAGCGCCTGGCGCAGGTTGTCCAGACTGAGCTGGCCCTCACCGCAGCCTAG	MSTLFGTDGVRGLANGLLTAELAMRLAQAAAVVLGHERTSSGARPRAVVARDPRASGEFIAAAVEAGLSSSGIDVYDAGVLPTPAAAYLVADLDADFGVMISASHNPAPDNGIKFFARGGQKLPDEVEDAIEAQMGKEPVRPQGGEVGRIQRFSDAEDRYIVHLLGTLPHNLEGLKVVLDCAHGAASGCSPQVFKDAGADVVVIGAEPDGLNINEGVGSTHLGPLKAAVVAHGADLGIAHDGDADRCLAVDHEGNEVDGDQIMAILAIALKKAGKLTDNVLVATVMSNLGLKIALKGAGIEVRETGVGDRYVLEEMRDGGFNLGGEQSGHVILADYATTGDGVLTGLQLAAQVALTGKPLKELATVMTKLPQVLINVKGVDRSRVSGDAVLADAVRAAEAELGDTGRVLLRPSGTEPVVRVMVEAGDQGTAQVIAERLAQVVQTELALTAA	PGPT0018950_822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018950-glmM-K03431	NA	NA
D1-17_01180	396	mscL	COG1970	Large-conductance mechanosensitive channel	ATGCTCTCTGGATTCAAAAAGTTCATTCTCAAAGGCAACGTGATCGACCTGGCGGTAGCCGTGGTTATTGGCGCGGCCTTCAGCTCCGTTGTGGACGCACTCGTCAAGAGCGTGCTGATGCCGCTCATTTCCCTGCTGGTAGGCCAGCCGAACTTTGACGACTTCCTGGCTTTCGGGGACGTCCGCTTCGGGGTCCTGCTGACCGCAGTGGTCAACTTCCTGTTGGTCGCCGCCGCAATTTACTTTGTCATTATCGTTCCCATGAACCACCTGATTGAACGCCGCAACCGCAGGTTGGGCATCAACCAGGACGTCAAGGAGGAATCCGCCGAAGACCCGCAGATCGCGCTTCTGAAGGAGATCCGCGACGAGCTGCGCAATCTGCCGACTAAGTAG	MLSGFKKFILKGNVIDLAVAVVIGAAFSSVVDALVKSVLMPLISLLVGQPNFDDFLAFGDVRFGVLLTAVVNFLLVAAAIYFVIIVPMNHLIERRNRRLGINQDVKEESAEDPQIALLKEIRDELRNLPTK	PGPT0013771_2137	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
D1-17_01181	990			hypothetical protein	ATGTGCGGTGACTGCTCCCCCACCCCGGGCCGGCGCACCGTCACCCGGCTCCTTCTCTCGGGAGCGGGACTGACTGCGCTGGCGGCCTGCACGCCGGTCGGTTCCGGCCCGTCACCGTCAGGTTCCAACGCGTTACAGTCCGCAGCGGAAAGTACGACGTCGGCACCTCCGTCGCCTACCGGCTCACCGGCGGTGCCCCGCGGGACAGCGTCGCCGACGGGAGCCGCGTCCACGGCACCTTCCGCGCGCCCTGCGGAGTCGTCGGCCCCGCAGGCCACCCGCCCGGCGCCAGCACCGGGCACGGCGAAAGCCTCAGCGTCGCCGTCGGCCACCGCCCCCGCAACCGGCGCGGCAGCTCCGCCGTCGGCCGCGTCCCGTCTCTCGAGGCAGTATTCGCTGACGGATCCAGCCAGCCCCTGGGTGGTGGTCAACAAGCGGCGGCCGTTGAAGCCCGCGAACTTTGCGCCGCGGAACCTGGTGCAGCCACGGGTCGCCCTGGCCGTTTCCGGCGAGGCGGCGCTGCTGAACCGGACCACGGCGGCGGCAGCCGAGAAAATGTTTGCCGCAGCGGCCGCCGAGGGCGTGTCCATGACGCTGGCCAGCGGCTACCGCTCCTATGCCTCCCAGACGGCCACGTACAACGGCCATGTCAGTGCGCGGGGACAGGCCGCGGCGGATACCGTCTCCGCGCGCCCGGGGTTCTCCGAGCACCAGACCGGCTGGGCCTTTGACATCGGTGACGGCGGAGGCGCCTGCGCATTCCAACCCTGCTTCATTGAACAGCCCGCAGCCATATGGGCCAGGGCAAATGCCCACCGGTTCGGCTTCGTGGTGCGCTACCCCTGGACGTTCCACCAGATCACGGGGTACTACTACGAGCCCTGGCACCTGCGGTACGTCGGGGTCGAGGCGGCCACCGATATGAGGAAGCGCGGAATCGCCACGTTGGAGGAGTATTTTGACGTGGGGCCTGCGCCGGCGTATTCCTGA	MCGDCSPTPGRRTVTRLLLSGAGLTALAACTPVGSGPSPSGSNALQSAAESTTSAPPSPTGSPAVPRGTASPTGAASTAPSARPAESSAPQATRPAPAPGTAKASASPSATAPATGAAAPPSAASRLSRQYSLTDPASPWVVVNKRRPLKPANFAPRNLVQPRVALAVSGEAALLNRTTAAAAEKMFAAAAAEGVSMTLASGYRSYASQTATYNGHVSARGQAAADTVSARPGFSEHQTGWAFDIGDGGGACAFQPCFIEQPAAIWARANAHRFGFVVRYPWTFHQITGYYYEPWHLRYVGVEAATDMRKRGIATLEEYFDVGPAPAYS	PGPT0024055_224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024055-vanY|yodJ-K07260	NA	NA
D1-17_01182	918	coaA	COG1072	Pantothenate kinase	GTGGAGCTGGACCGGCAGACCTGGTCCCGGCTCGCAGCCCAGATGGAGCAGCCCCTTAACGAAGAGGACGTGCTGCGCCTTCGCGGGCTCGGTGACCCCTTGGACATCAATGAGGTCCGGGACGTCTACCTGCCGTTGTCCCGCCTGCTGCACCTGTACGTGGAGGCCGCCGGCCAGCTGCATGCCGCCACCACCACGTTCCTCGGTGAACAGACCCAGCGGACGCCCTTCGTGATCGGCGTGGCAGGGTCCGTTGCGGTGGGCAAGTCCACCATCGCCCGCGTGCTGCGCGAAATGCTCCGCCGCTGGCCCGGAACCCCGAACGTTGAGCTCATCACCACCGACGGCTTCCTTTATCCTCTGGCCGAGCTCAAGCGCCGCCAGCTTCTGGAGCGCAAGGGCTTCCCGGAATCGTATGACCGCCGTGCACTCCTGCGGTTCGTGAGCGAGATCAAGGGCGGAGCGGAGGAAGTGCGGGCGCCTTGGTATTCCCATGTCACCTACGACATCGTCCCCGGCAAGGAAGTGGTGGTCCGCCGCCCCGACGTCCTCATTGTGGAAGGCCTGAATGTCCTGGCTCCCGCACGCCCTCGGCATGACGGCCGCCAGGGCCTGGCGCTGAGCGACTTCTTCGACTTCTCCATCTACGTGGACGCCAAGACGTCCTATATAGAGGAGTGGTATGTGGACCGCTTCCGCAAGCTCCGCTCCACGGCCTTCGCACAGCCGGAATCCTACTTCCACCGCTACGCCACGCTCTCTGACGAGGAAGCCGAGCACACCGCGCGCGACATTTGGAAGCGGATCAACGAGCCCAACCTTGAGGAGAATGTGCTGCCCACCAGGGGGCGCGCACAGCTTGTCCTGACCAAGGAAGCGGACCACTCTGTCCGCCGCATGCTGCTCAGGAAGGTCTAG	MELDRQTWSRLAAQMEQPLNEEDVLRLRGLGDPLDINEVRDVYLPLSRLLHLYVEAAGQLHAATTTFLGEQTQRTPFVIGVAGSVAVGKSTIARVLREMLRRWPGTPNVELITTDGFLYPLAELKRRQLLERKGFPESYDRRALLRFVSEIKGGAEEVRAPWYSHVTYDIVPGKEVVVRRPDVLIVEGLNVLAPARPRHDGRQGLALSDFFDFSIYVDAKTSYIEEWYVDRFRKLRSTAFAQPESYFHRYATLSDEEAEHTARDIWKRINEPNLEENVLPTRGRAQLVLTKEADHSVRRMLLRKV	PGPT0008770_417	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008770-coaA-K00867	NA	NA
D1-17_01183	654			hypothetical protein	ATGGGGGACAAGTCAGTAACTAAGGGAAGCGGGGCCGGAGGCACGGAGGAAACGAAGCGGACAGCCCGGGACTTCGGCGGAAGGCGCGGCAGTGTCCGTTCCACCGCAGTTGTCGAAAAACGTGGGCGGTTCCGCTTCACCGGTGCCGGCCGTGCCACCAGCCTTCTGGTGCTTCTGCTCCTGGTTCTCACCGCGATAGTCCTTGTTGTCATGCCTCAAGCCCTCGGCTGGCAGACCTATACGCTGCCGGCCAGTGCCATGACGTCGACGCATCCCGCCGGCAGCTTCCTCGTGGTGCAGCCAGCGGCGTTCAGCCAGCTCAGGAACGGCGACACCGTGGCCTTCCAGCTCACACCTGGTCGCCCCGAGGTGGGGGTGCGCCGGATCACTGGCGTGGGGGCACGTCTCGACGGTGAGCAGGTGCTGATCACCCGGGGGGTGAATAACGATGGCGTGCCTGTCCGTGCCCGCCAGGTCAGGGGGAAGCTGCTGTACGCGGTTCCGGTCGTCGGCTACCTTACCGACGCTGTGTCCACCGCCGACCGGAAGCTCTGGCTTGGGCTTGCCGCAGCCGGTCTCGCAGCTCAGGCTGCGCTCGCGGCTCTCCTTGCCAGCCGGCGCCGACGGGCTGCATACGCCAGCATTGGGCGGTGA	MGDKSVTKGSGAGGTEETKRTARDFGGRRGSVRSTAVVEKRGRFRFTGAGRATSLLVLLLLVLTAIVLVVMPQALGWQTYTLPASAMTSTHPAGSFLVVQPAAFSQLRNGDTVAFQLTPGRPEVGVRRITGVGARLDGEQVLITRGVNNDGVPVRARQVRGKLLYAVPVVGYLTDAVSTADRKLWLGLAAAGLAAQAALAALLASRRRRAAYASIGR	PGPT0026405_595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SPORULATION_RELATED_FUNCTION,PGPT0026405-sipW-K13280	NA	NA
D1-17_01184	1893	glmS_2	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATCGTGGGTTATGTAGGCAGTTCGTCTGGCCGGGCTAACGCCGGCCATGGTGCGTTGGACGTTGTTCTTGAGGGGCTGCGCCGTCTGGAGTACCGGGGGTATGACTCCGCGGGTGTGGCGGTGGTGGCTGACGGGGAGATTTCCTCACGGAAGAAGTCCGGGAAGCTGAGCAATCTGCTCGCCGAGCTGGAGGCGCGGCCGCTGCCGGAATCGCTGACCGGGATCGGGCACACGCGGTGGGCTACGCACGGCGGCCCGACGGATCAGAACGCGCACCCGCATCTGTCTGATGGCGGGAAGCTTGCGGTGATCCACAACGGCATCATTGAAAACTTCGCGGAGCTGAAGCAGGAGCTTTTGTCCAAGGGTGTTGTCTTCGCGTCGGAGACGGACACCGAGGTAGCCGCGGCGCTACTGGGTGACATTTTCCGGAACAAGCTCGGCGGTGACGTCTCCAACGGCGGCCTGACCCGGGCGATGGAGCTGGCCTGCCAGCGTCTTGAGGGTGCGTTCACGCTCCTTGCGGTGCATGCTGACCAGCCGGACGTGGTGGTCGCTGCGCGCCGGAACTCCCCGCTGGTGGTCGGCCTGGGGGAGGGCGAGAACTTCCTGGGCTCGGACGTGTCCGGGTTCATTGACTACACCCGCCGCGCGGTGGAGCTTGGCCAGGACCAGATCGTGACGATCACCGCGGACGCGGTGGAGATCACCGACTTTTACGGTGCCCCGGCCTCGGGTAAGGAATACCACGTGGACTGGGACCCTGCCTCGGCCGAGAAGGGTGGCTTCAGCTCCTTCATGGAGAAGGAAATCCACGACCAGCCTGATGCCGTGGCACAGACCCTCCTTGGGCGTTCGGACCTGAACGGCAAGCTCACGCTGGATGAGGTCCGTATTGATCCGCAGCTGCTCAAGCAGGTGGACAAGATCATTGTGCTTGCGTGCGGCACTGCAGCCTACGCGGGCCTGGTGGCGAAGTACGCGATCGAGAATTGGTGCCGGATCCCCACCGAGGTCGAGCTCGCGCACGAGTTCCGTTACCGGGACCCGATCGTGGATTCGAACACCTTGGTGGTCTCGATCAGCCAGTCCGGTGAAACGATGGACACGCTGATGGCCGTGCGCTACGCGCGTGAGCAGGGCGCCAAAACGATCTCCATCTGCAATACCAACGGCTCGACCATTCCGCGTGAGTCCGACGCCGTGCTGTACACGCACGCCGGTCCTGAGATCGCCGTCGCCTCCACGAAGGCGTTCCTGGCGCAGATCACCGCCGCGTACCTGTTGGGCCTGTACCTGGCCCAGCTGCGCGGGAACATCTTCTCCGGGCAGATCAAGGACGTACTGGCGGACCTGGGCAAGATCCCGGCCAAGATCCAGAAGATCCTGGACAACGCGGGGCCCCTGCGTGAGCTCGCGCGGAGCATGAAGGACGAGAAGTCCGTGCTGTTCCTGGGCCGCCACGTTGGCTTCCCCGTTGCCCTTGAGGGTGCTTTGAAGCTGAAGGAAATCGCCTACATCCATGCTGAGGGCTTCGCTGCGGGCGAGCTCAAGCACGGCCCGATCGCCCTGATCGATGACGGCCAGCCGGTCTTCGTGGTAGTGCCGTCCCCGCGCGGCCGGGACTCGCTGCACTCCAAGGTTGTCAGCAACATCCAGGAAGTCCGTGCCCGTGGTGCCCGCACCCTGGTGGTCGCCGAGGAAGGCGACGAGTCGGTCAAGGATTACGCTGAGCACGTGTTCTACGTCCCGGAGACCCCGACCCTGCTGATGCCGCTGCTCACCACCGTTCCGCTGCAGATTTTTGCCGCTGAGCTGGCCGGCGCAAAGGGTTATGACGTGGACCAGCCGCGCAACCTGGCCAAGAGCGTCACCGTAGAGTAA	MCGIVGYVGSSSGRANAGHGALDVVLEGLRRLEYRGYDSAGVAVVADGEISSRKKSGKLSNLLAELEARPLPESLTGIGHTRWATHGGPTDQNAHPHLSDGGKLAVIHNGIIENFAELKQELLSKGVVFASETDTEVAAALLGDIFRNKLGGDVSNGGLTRAMELACQRLEGAFTLLAVHADQPDVVVAARRNSPLVVGLGEGENFLGSDVSGFIDYTRRAVELGQDQIVTITADAVEITDFYGAPASGKEYHVDWDPASAEKGGFSSFMEKEIHDQPDAVAQTLLGRSDLNGKLTLDEVRIDPQLLKQVDKIIVLACGTAAYAGLVAKYAIENWCRIPTEVELAHEFRYRDPIVDSNTLVVSISQSGETMDTLMAVRYAREQGAKTISICNTNGSTIPRESDAVLYTHAGPEIAVASTKAFLAQITAAYLLGLYLAQLRGNIFSGQIKDVLADLGKIPAKIQKILDNAGPLRELARSMKDEKSVLFLGRHVGFPVALEGALKLKEIAYIHAEGFAAGELKHGPIALIDDGQPVFVVVPSPRGRDSLHSKVVSNIQEVRARGARTLVVAEEGDESVKDYAEHVFYVPETPTLLMPLLTTVPLQIFAAELAGAKGYDVDQPRNLAKSVTVE	PGPT0017630_979	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-17_01185	348	acpS		Holo-[acyl-carrier-protein] synthase	ATGATTATTGGCATCGGCGTTGACGTCGTGGACATTGACCGCTTCGGCCGCCAGCTCGAGCGCACGCCCGGGCTGCGCGACCGGCTGTTCGTACCGGCCGAGCGGGAGCTGCACACGCGCTCCCTGGCGGCGCGGTTTGCGGCCAAGGAAGCGGTGGCCAAGGTGCTCGGCGCGCCGGCGGGCATGAACTGGCAGGACTGCTGGATCGGGCTCGACCAGAACGGCCCCACCATCCAGGTCAAGGGCACCGTGCTGGCCGTGGCCGAGGCCAAGGGCGTCAAACGCTGGCACCTGTCTATGAGCCACGATGGCGGCATCGCCACCGCAACGGTCCTGGCCGAGGGCTGA	MIIGIGVDVVDIDRFGRQLERTPGLRDRLFVPAERELHTRSLAARFAAKEAVAKVLGAPAGMNWQDCWIGLDQNGPTIQVKGTVLAVAEAKGVKRWHLSMSHDGGIATATVLAEG	PGPT0008840_3629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
D1-17_01186	1572	nnr_2	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGATCAGCGCCTATACCGGAACCCAGATCAGGGAGGCTGAAAAGCCCCTGCTGGACTCAGGTATGGGCGCTGTTCTCATGCAGCGGGCTGCCTACGGCTTGGCCAACGCCGTGGCCACGGAGCTGCGTTCCCGCGGCCGGCGGCTGTACGGCAGCAGCGTTGTGGTGCTCACCGGCAAGGGCAACAACGGCGGGGACGGCCTGTTCGCCGCCGCCCGCCTTGCCGGACGGGGAATGCGTACGACGGCGTTACTCGCCTCGGACAGCGCCCATCCGGAAGGCCTGGCCGCCTTTGAGCGGGCCGGCGGCCGGGTCCTCTACCTGACCGGTGCCAACGCGGTTGAGCTGACGGCGCTAGCCGCCCGGGCCGACGTCGTTATTGATGCCCTGCTGGGGACCGGCGCCCGGGGAGGGCTCCGCGGACCCGCCGCGGAACTCGTGTCCGTGCTTTCCCGCCGGCCGCGCGGACTGGTGGTAGCTTGCGACGTTCCGAGCGGTGTGAACGCTGACACTGGGGAAGCTGAAGGGCCGGTGTTACCGGCCGACCTCACTGTCACCTTCGGCGGCGCCAAAGCGGGGCTCCTGACGGACCCCGGGGCCGACTATTCAGGCGCCGTCCGGGTGGTTCCGATCGGGATCGAGGACCACCTTCCCTGGCCCGCGCTGCGCCGCTTCGAAACGGATGACCTCGCTGCGCTGCTGCCTGCCCCTGAACGCCGCTCACACAAGTACTCCCGCGGCGTCCTGGGCATCATTGCAGGATCGTCCGCTTACCCCGGGGCTGCCGTGCTCGCCTGCCGGGGAGCCCTTGCCGCCGGTGCGGGCATGGTGCGCTACGTCGGCCCGCCCGGCGTCGCCGACTTGATCCGGCAGAGTTGCCCGGAAGTCGTCTGCAGCAACGGCACCGTGGCCGAAACCCACGTGCAGGCGTGGCTCGTGGGATCCGGAATGGACGGCGCGGACCGCGAGCAGATGCAGCGCGTACGGGATGCAGCCGAATCAGGGCTGCCCACCGTGGCTGACGCAGGCGCCCTCCCGGTGCTGCCGGACGTCCTGGCGCCCCAGGTGGTGCTGACCCCGCACGCCGGCGAGCTCGCCACCCTGCTCAAGCGCCTCGGAGCAGGACTGGAACGCGGGGCTGTGGAGGCCTCAACACTCGCAGCGGCCCGTCAGGCCGCGGGCCTGACGGAGGCGACCGTCCTGCTCAAAGGGGCCACAACCCTGGTGGCCTCCCCGTACCAGGACTTCTACAGCCAGTCCGACGGGACCCCCTGGCTGGCCACAGCCGGAAGCGGCGACGTGCTGGCCGGCGTCATCGGCGCGCTCCTCGCGCAGGTGGGGTCCGACGTCGGGCGTTTCCGTGCCGCGGGCATCGATCCGGACGAGCGCTGGGCGGCCATTGCAGCCATGGCCGCGAGCCTGCATGCCCGTGCCGGAGCGGCCGCAGCAGAGGGCGCACCGCTGACGGCGGGGCGAATCGCCGACGCGCTTCCCCAAATTTGGGGTAAAGTCAGCATGCTTAGCAAACAGCGAGCGGGAGACCGAAATAGTCAGTCCCGCCCGCTACGGTAA	MISAYTGTQIREAEKPLLDSGMGAVLMQRAAYGLANAVATELRSRGRRLYGSSVVVLTGKGNNGGDGLFAAARLAGRGMRTTALLASDSAHPEGLAAFERAGGRVLYLTGANAVELTALAARADVVIDALLGTGARGGLRGPAAELVSVLSRRPRGLVVACDVPSGVNADTGEAEGPVLPADLTVTFGGAKAGLLTDPGADYSGAVRVVPIGIEDHLPWPALRRFETDDLAALLPAPERRSHKYSRGVLGIIAGSSAYPGAAVLACRGALAAGAGMVRYVGPPGVADLIRQSCPEVVCSNGTVAETHVQAWLVGSGMDGADREQMQRVRDAAESGLPTVADAGALPVLPDVLAPQVVLTPHAGELATLLKRLGAGLERGAVEASTLAAARQAAGLTEATVLLKGATTLVASPYQDFYSQSDGTPWLATAGSGDVLAGVIGALLAQVGSDVGRFRAAGIDPDERWAAIAAMAASLHARAGAAAAEGAPLTAGRIADALPQIWGKVSMLSKQRAGDRNSQSRPLR				NA	NA	NA	NA	NA
D1-17_01187	2499	glgX_2	COG1523	Glycogen operon protein GlgX	ATGGAAATCTGGCCCGGATCGGCGTATCCCCTTGGCGCCACCTTCGACGGAACCGGAACCAACTTCGCGTTGTTCAGCGAACGGGCAGAGAAAGTTGAGCTGTGCCTCTTCGACGACGACGGCACCGAAACCAGGGTTGATGTCGCAGAAGTGGACGGATACGTCTGGCACTGTTACCTGCCGCACGTGCAGCCCGGACAAAAATACGGCTACCGCGTGCACGGGCCCTACGACCCGGCCTCCGGTAACCGCTTCAACCCCAACAAGCTCCTCCTGGACCCGTATGCCAAGGCAGTGCACGGCCAGATCGACTGGGACCCTGCCCTGTTCTCTTACAACATGGGAGACCCCAGCTCGCGGAACGACGCCGACTCCGCGCCGCACATGATGATGGGCGTGGTCATCAACCCGTTCTTCGACTGGGCCGGGGACCAGAACCTCCGGATCCCGTACCACCAGTCGGTCATCTACGAGGCCCACGTGAAGGGCCTGACGCAGCTCCACCCGGAAATTCCGGAGGAGCAGCGCGGCACCTACGCCGGCGTGGCACACCCGGCCGTCATCTCGCACCTGCAGAAGCTGGGCGTCACCGCCATTGAACTCCTTCCCGTGCACCAGTTCGTCAATGACGGCATTTTGCAGGACAAGGGACTGTCCAACTACTGGGGCTACAACACCATCGGGTTCTTCGCCCCGCACAACAGCTACAGCTCCACGGGGGACACCGGCCAGCAGGTGCAGGACTTCAAGGCCATGGTCCGGGCCCTCCACCAGGCCGGCATCGAAGTCATCCTCGACGTCGTGTACAACCACACGGCCGAGGGCAACCACCTGGGCCCCACGCTGTCCTTCAAGGGCATCGACAACCAGGCCTACTACCGGCTCATGGAGGGGGACCTCCAGCACTACATGGACTACACCGGCACCGGCAACTCCCTGAACGTCCGCCAGCCGCACTCCCTGCAGCTCCTCATGGACTCCCTGCGGTACTGGGTGACGGAAATGCACGTTGACGGTTTCCGTTTCGATCTAGCCTCCACACTGGCCCGTGAGTTCTACGACGTCGACAAGCTCTCCACCTTCTTCGAACTCATCCAGCAGGACCCGGTCGTCTCGCAGGTGAAGCTGATCGCGGAGCCCTGGGACGTCGGCCCCGGCGGTTACCAGGTGGGGAACTTCCCGCCGCAGTGGACGGAATGGAACGGCAAGTACCGCGACACCGTCCGTGATTTCTGGCGCGGTGAGCCGGCAACCCTCGGTGAATTCGCCTCACGCATCACCGGCTCGGCAGACCTCTACGAGCACTCCGGCCGCCGGCCCGTGGCCTCCATCAACTTCGTCACGGCCCACGACGGCTTTACCCTGGCCGACCTGGTGTCCTACAACGAGAAGCACAATGAGGCCAACGGCGAAGGCAACAACGACGGCGAATCCCACAACCGGTCCTGGAACTGCGGGGCCGAAGGCCCCACCGACGACGCCAAGGTCCTGGCACTGCGCGCCCGCCAGCAGCGGAACTTCATCGGCTCGCTCCTGCTTTCCCAAGGCGTGCCCATGCTGCTGCACGGCGACGAGCTCGGCCGGACCCAGCAGGGAAACAACAACGGCTATTGCCAGGACTCCGAGCTGACCTGGATCAACTGGGACAACGTGGACCAGCCGCTGATTGAGTTCACCGCCGCGGTCAACTCCCTGCGGGCCAAGCACCCCACGTTCCGGCGCAGTAGGTTCTTCGATGGCAGGCCCGTCCGCCGGGGCGAAGGCGAGCGGCTGCCGGACATCGTATGGCTCGACCCCGCCGGTTCCGTCATGCAGCCGGAGGACTGGGACAGCGGTTTCGGCCGTTCTGTGGGCGTCTTCCTCAACGGAGACGGCATCCAGGGCAAGGACGGCCGCGGGCGGCGCATCCAGGACGTCAACTTCCTGCTGTACTTCAACGCCCACGACGGTGACGTCGAGTTCACGCTTCCGCCGGACGAGTACGCCCCGGCCTGGGACATCATCATTGACACCGCCGGGGAAGGTGCTGACTCGAAGCCCGTGCACGCCGGAGGCATGCTGTCCGTCGCGGCGAAGTCGCTCGTGGTGCTCCGTGCCCACAGCGCCCCGGAGGAGGAACCCGACCACTCCGTGGCGGCTTCACTGGCAGCACTGACGCAGACAGCCACCGCCGAGACCGCTGCGCTCACCGCGCCCGCCATCCCGGAACCGGCCAAGACGAAGAAACCGGGGGCACAGTCCGCGCAGGCTCCGGAGGAGCACTCCGAACGCCAGGCCGAAGAAAAGCAGGCTGAACAGACGGTCGAACAGGCAGCCGAACAGCCGGCAGCACAGGCGGCCGAACAGCCAGCCGAACAGCCAGCCGAACAGCCGGCAGCACAGGCAGCCGAACAGCCAGCCGAACGGCCAGCCGAACGGCCGGCACAGCCGGCGGCGAAGCCTGCGCGGAAGCAAGCCGGCAACCCGAAGGCGGGCAAGCCGGAGGGGGAGGGCGCATGA	MEIWPGSAYPLGATFDGTGTNFALFSERAEKVELCLFDDDGTETRVDVAEVDGYVWHCYLPHVQPGQKYGYRVHGPYDPASGNRFNPNKLLLDPYAKAVHGQIDWDPALFSYNMGDPSSRNDADSAPHMMMGVVINPFFDWAGDQNLRIPYHQSVIYEAHVKGLTQLHPEIPEEQRGTYAGVAHPAVISHLQKLGVTAIELLPVHQFVNDGILQDKGLSNYWGYNTIGFFAPHNSYSSTGDTGQQVQDFKAMVRALHQAGIEVILDVVYNHTAEGNHLGPTLSFKGIDNQAYYRLMEGDLQHYMDYTGTGNSLNVRQPHSLQLLMDSLRYWVTEMHVDGFRFDLASTLAREFYDVDKLSTFFELIQQDPVVSQVKLIAEPWDVGPGGYQVGNFPPQWTEWNGKYRDTVRDFWRGEPATLGEFASRITGSADLYEHSGRRPVASINFVTAHDGFTLADLVSYNEKHNEANGEGNNDGESHNRSWNCGAEGPTDDAKVLALRARQQRNFIGSLLLSQGVPMLLHGDELGRTQQGNNNGYCQDSELTWINWDNVDQPLIEFTAAVNSLRAKHPTFRRSRFFDGRPVRRGEGERLPDIVWLDPAGSVMQPEDWDSGFGRSVGVFLNGDGIQGKDGRGRRIQDVNFLLYFNAHDGDVEFTLPPDEYAPAWDIIIDTAGEGADSKPVHAGGMLSVAAKSLVVLRAHSAPEEEPDHSVAASLAALTQTATAETAALTAPAIPEPAKTKKPGAQSAQAPEEHSERQAEEKQAEQTVEQAAEQPAAQAAEQPAEQPAEQPAAQAAEQPAERPAERPAQPAAKPARKQAGNPKAGKPEGEGA	PGPT0019225_294	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214	NA	NA
D1-17_01188	2328	treY		Maltooligosyl trehalose synthase	ATGAGAACGCCAGTCTCCACGTACCGGCTGCAGATCAGGCAGGGATTCACGCTGTTTGATGCCGCCGACACCGTGCCGTACCTGAAATCACTCGGCGTTGACTGGATCTACCTGTCACCCGTACTCAAGGCCGAAAGCGGCTCGGACCACGGTTATGACGTCACCGACCCCTCGGTGGTGGACCCGGAGCGTGGCGGCCCCGAAGGGCTCGCGGCTGTGTCCAGGGCTGCCCGCGCTGCCGGGATGGGTGTCCTGATCGACATCGTGCCCAACCACGTCGGGGTGGCCACACCGGTGCAGAACCCTTGGTGGTGGTCGCTGCTCAAGGAGGGCCGTGAATCCCGCTACGCCGAGGCTTTCGACGTCGACTGGGACTTCGGCGGTGGGCGCATCCGGATTCCGGTCCTCGGCAGCGACGACGACCTCGACCAGCTCGAGGTTAAGGACGGAGAGCTGCGTTATTACGACCACCGGTTCCCGCTGGCCGAGGGCAGCTACACCGAAGGCGACTCACCCCGGGACGTCCATGACAGGCAGCACTACGAGCTGATCGGCTGGCGCCGCGCCGACTACGATCTGAACTACCGCCGCTTCTTCGCCGTGAACACGCTCGCCGGGGTCCGCGTCGAACTGCCGTCGGTTTTTGATGAGGCGCATGAGGAAGTGGTGCGCTGGTTCCGCGAAGGACTGGCGGACGGACTGCGAATCGACCACCCGGACGGCCTCGCCGATCCCGGGGGCTACCTCAAGCGGCTCCGGGAAGCCGCGGGCGGCGCCTACCTGCTGATCGAGAAGATCCTCGAGCCGGGGGAGCAGCTGCCCGCCAGCTTCGAATGCGAAGGAACCACCGGCTACGACGCGCTTGCCGACGTCGACCGGATCTTCGTTGACCCGCAGGGACAGGGCGCCCTCGACCGGCTCGACGCCCGGCTGCGCGGCGGAGCTCCGGCGGACTACCAGGAGATGATCCGGGGCACCAAGCGCCGGATCACCGACGGCATCCTCCACTCCGAGATTCTGCGGCTGGCGCGGCTGGTACCGGAGGACGCCGGGCTCGCCACGGAAACCGCCGCGGATGCCATCTCGGAGATCATCGCCGCCTTCCCCGTGTACCGCACCTACCTGCCGGAAGGCGCGGAGGTCCTCAAGGAAGCCTGCGAGCTTGCCGCACGTTGGCGGCCGGAGCTGGACCAGACCATCTCCGTGCTCCACCCGCTGCTGCAGGACACTGACCTGCCGCTCTCCCGCAGGTTCCAGCAGACCTCGGGCATGGTGATGGCCAAGGGCGTGGAGGACACCGCGTTCTTCCGCTACACCAGACTCGGCACCCTGACCGAGGTGGGCGCGGACCCCACCGAGTTCTCGGTCGCGCCGGAAGAGTTCCACAACCGGATGGCCCGCCGCCAGGCCGAGCTGCCGCTGTCCATGACCACCCTCAGCACACACGACACCAAGCGGAGCGAGGACACCCGGGCCCGGATATCGGTCATCACCGAAGTCCCTGAGGCCTGGGAAAAGTCACTGGACCGGCTGAACGCGCTGGCCCCGCTGCCGGACGGTCCGCTGTCCGTACTCCTTTGGCAGGCCATTGCAGGTGCCTGGCCTGCGGACCGGGAGAGGCTGCAGTCCTACGCACTTAAGGCTGCCCGCGAAGCCAGCAGCTCAACCACGTGGACGGACCCCGATTCCGCCTTCGAAGAGAAGTTGGCCGCAGCCGTCGACGCCGCGTTTGACAACAAGGAGGTCAGGGCGGAACTTGAGTCCCTCGTGGAACTCCTGGCACCCTACGGCGCGGTGAACTCCCTCTCGGCGAAGCTTGTCCAGCTGACCATGCCCGGAGTGCCTGACGTCTACCAGGGCACGGAGTTCTGGGACCGCTCCCTGACCGACCCGGACAACCGCCGCCCGTTCAGCTTCCCGGAGCGGCAGCAGGCGCTGGAACAGCTGGACGCCGGGGAACTTCCCTCATCGTTCACGGACCAGCGGACAAAGCTGCTCGTGACCTCCCGCGCGCTCCGGCTGCGCCGCGACCGGCCGGAGCTGTTCACCGGATACCGGCCCGTGGAGGCGAGCGGTCCCGCCGCCGGTCACCTGCTGGGATTCCACCGCGGCACCGCCGGAGCGCCTGGCGCCGTCACCCTTGCAACACGGCTGCCGTACGGTCTGGAGCAGGCGGGCGGCTGGCGGGACAGCGCCGTCGATCTCGATACCGCCATGAAGGACGAACTGACCGGTGCCAGCTTCGGACCGGGGCCCGTGGAGATCGCCGGGATCTTCCGGACCTACCCGGTTGCGCTGCTGGTCCCTGAAACAGGAGGAAAGTCATGA	MRTPVSTYRLQIRQGFTLFDAADTVPYLKSLGVDWIYLSPVLKAESGSDHGYDVTDPSVVDPERGGPEGLAAVSRAARAAGMGVLIDIVPNHVGVATPVQNPWWWSLLKEGRESRYAEAFDVDWDFGGGRIRIPVLGSDDDLDQLEVKDGELRYYDHRFPLAEGSYTEGDSPRDVHDRQHYELIGWRRADYDLNYRRFFAVNTLAGVRVELPSVFDEAHEEVVRWFREGLADGLRIDHPDGLADPGGYLKRLREAAGGAYLLIEKILEPGEQLPASFECEGTTGYDALADVDRIFVDPQGQGALDRLDARLRGGAPADYQEMIRGTKRRITDGILHSEILRLARLVPEDAGLATETAADAISEIIAAFPVYRTYLPEGAEVLKEACELAARWRPELDQTISVLHPLLQDTDLPLSRRFQQTSGMVMAKGVEDTAFFRYTRLGTLTEVGADPTEFSVAPEEFHNRMARRQAELPLSMTTLSTHDTKRSEDTRARISVITEVPEAWEKSLDRLNALAPLPDGPLSVLLWQAIAGAWPADRERLQSYALKAAREASSSTTWTDPDSAFEEKLAAAVDAAFDNKEVRAELESLVELLAPYGAVNSLSAKLVQLTMPGVPDVYQGTEFWDRSLTDPDNRRPFSFPERQQALEQLDAGELPSSFTDQRTKLLVTSRALRLRRDRPELFTGYRPVEASGPAAGHLLGFHRGTAGAPGAVTLATRLPYGLEQAGGWRDSAVDLDTAMKDELTGASFGPGPVEIAGIFRTYPVALLVPETGGKS	PGPT0014125_1140	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014125-treY|glgY-K06044	NA	NA
D1-17_01189	1803	treZ	COG0296	Malto-oligosyltrehalose trehalohydrolase	ATGACGCACCACGCGACGTACCCCCGCGAAGCGGCCAAGCCCGTGCAGGGCGCGGAGCGCTTCGACATCTGGGCGCCGGAGGCAGGTTCCGTGACGCTGCTGGCCGGCGGGGAACGCTACCCGATGGCGCGCCGGCCTGGCACCGAACCGGAGGACGACGGCTGGTGGACCGCCGCCGGTGCTCCCGCAGGGGGAGAGGTGGACTACGGCTACCTCCTCGACGGGGACGATACACCGCTGCCTGACCCGCGCACGCGCCGCCAGCCGGAGGGCGTGCACGCCCTCTCACGCACCTTCGATCCCGGTGCCCATGAATGGCGGGACACCGGGTGGCAGGGCCGGGAACTCCAGGGGGCCGTGATCTACGAGCTCCACCTGGGGACCTTCACACCCGAAGGTACGCTCGACGCTGCGGCTGGGAAGCTGGACTACCTGGCCGGCCTGGGCGTCGACTACATCGAGCTGCTTCCCGTGAACGCCTTCAACGGCACCCACAACTGGGGCTACGACGGCGTGCAGTGGTTCGCCGTCCACGAGGGTTACGGCGGGCCGGCCGCGTACCAGCGGTTTGTGGACGCTGCCCACGCCGCAGGAATCGGCGTCATCCAGGACGTGGTCTACAACCACCTCGGTCCCAGCGGAAACTACCTTCCCCGGTTCGGTCCGTATCTCAAGCAGGGCGAGGGGAACACCTGGGGGGATTCGGTCAACCTGGACGGGCCCGGCTCGGACCACGTGCGCCGGTACATCCTGGACAACGTGGCCATGTGGCTGCGCGACTTCCGGGTGGACGGCCTCCGCCTGGACGCCGTCCACGCCCTCAAGGACGAGCGCGCCGTCCACATCCTGGAGGACTTCGGGACCCTGGCCGACCAGATCTCCGAAGAGGTGGGACGGCCACTGACCCTGATCGCCGAGTCGGACCTCAACAACCCCCGCCTCCTCTACCCGCGGGAAGTCAACGGCTACGGCCTGGCCGGGCAGTGGAGCGACGACTTCCACCACGCCGTGCATGTCAACGTGAGCGGGGAAACCACCGGGTACTACAGCGATTTCGATTCGCTCGGCGCTCTTGCCAAGGTGCTCCAGGACGGGTTCTTCCACGACGGCAGCTACTCCAGCTTTCGGGAGAGGCACCATGGCCGGCCGATCAACTTCGACGCCGTTCATCCGGCGGCGCTGGTGGTCTGCTCGCAGAACCACGACCAGATCGGGAACAGGGCCACCGGGGACCGGCTGTCCCAGACACTGCCCTACGGCAGCCTGGCGCTGGCTGCCGTGCTGACCCTGACCGGACCCTTCACGCCCATGCTGTTCATGGGTGAGGAATATGGCGCCACCACGCCCTGGCAGTTCTTCACCTCCCACCCGGAACCCGAGCTTGGCAAGGCCACTGCGGAAGGCCGGATCAAGGAGTTCGAACGCATGGGGTGGGACCCCGCCGTCGTGCCCGATCCGCAGGATCCGGAAACGTTCACGCGCTCGAAACTGGACTGGGCGGAGGCCTCCGAAGGGGACCACGCGCGGCTGCTGGAGCTGTACCGCGCGCTCATCCGCCTGCGCCGTTCCACTCCGGACCTCACCGCGCCGGGATTCGAGGCCACCGAGGCAGAGTTCGACGACGACGCCCGCTGGCTGCGCTTCCGCCGCGGCGGGGTGCAGGTCCTGTTGAACTTCGCCGAGCAGCCCGTAACCCTGGACCGGGCGGGTGCTGAATTGCTCCTGGCAACCAACGGTGCCGTGCAGATCGACGCAGGCAAGGTGGAGCTGCCCGGGCTGAGCGCGGCCGTTATCCGCGACTGA	MTHHATYPREAAKPVQGAERFDIWAPEAGSVTLLAGGERYPMARRPGTEPEDDGWWTAAGAPAGGEVDYGYLLDGDDTPLPDPRTRRQPEGVHALSRTFDPGAHEWRDTGWQGRELQGAVIYELHLGTFTPEGTLDAAAGKLDYLAGLGVDYIELLPVNAFNGTHNWGYDGVQWFAVHEGYGGPAAYQRFVDAAHAAGIGVIQDVVYNHLGPSGNYLPRFGPYLKQGEGNTWGDSVNLDGPGSDHVRRYILDNVAMWLRDFRVDGLRLDAVHALKDERAVHILEDFGTLADQISEEVGRPLTLIAESDLNNPRLLYPREVNGYGLAGQWSDDFHHAVHVNVSGETTGYYSDFDSLGALAKVLQDGFFHDGSYSSFRERHHGRPINFDAVHPAALVVCSQNHDQIGNRATGDRLSQTLPYGSLALAAVLTLTGPFTPMLFMGEEYGATTPWQFFTSHPEPELGKATAEGRIKEFERMGWDPAVVPDPQDPETFTRSKLDWAEASEGDHARLLELYRALIRLRRSTPDLTAPGFEATEAEFDDDARWLRFRRGGVQVLLNFAEQPVTLDRAGAELLLATNGAVQIDAGKVELPGLSAAVIRD	PGPT0014130_616	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0014130-treZ|glgZ-K01236	NA	NA
D1-17_01190	1041	gpr	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGACTTATCTGGCTGCGGAGAACCGCTACAAGACCATGCCATACCGCCGCGTCGGACGCAGCGGACTCAAACTGCCCGCCATTTCGCTCGGGCTCTGGCACAACTTCGGCGACGACAAGCGCTTTGACGAGCAGCGAGCCATCCTGCGCCGTGCCTTCGACCTCGGCGTCAACCACTTCGACCTGGCCAACAACTACGGCCCGCCTGACGGATCGGCCGAAACCAACTTCGGCCGCCACCTGAAGGAAGACTTCAAGCCCTACCGCGACGAATTGGTCATCTCCACCAAGGCCGGCTACTACATGTGGCCCGGGCCGTACGGGGAATGGGGCTCCCGCAAATACCTGCTGTCCAGCCTTGACCAGTCACTGCAGCGGATGGGGCTGGACTACGTCGACATCTTCTACAGCCACCGGCCGGACCCCGAGACGCCACTGGAGGAGACTATGGGCGCGCTGGACCACGCCGTCCGTTCCGGCAAGGCCCTCTACGCCGGCATTTCCTCCTACACACCGGAGCAGACCCTGGAGGCGGCCCGGATCCTCAAGGAACTCGGCACGCCGCTGCTCATCCACCAGCCCAGCTACTCCATGCTGAACCGGTGGACCGAGAGCGGCAGCCCCAGCCTGTACGAGGCACTGGACCAGGTGGGGGCTGGCTCCATTGCTTTCTCCCCGCTTGCCCAGGGCATGCTCACCGACCGCTACCTCCACGGCATCCCCGTCGATTCCCGGGCGGCCAAGGCCCGGTTCCTTTCTGAATCGGCCATCACTCAGGACAAGCTGGACCGTGTCCGCGGGCTGCACCGCATCGCCGTCGCGCGCGGTCAGTCCCTGGCGCAGATGGCCATCGCCTGGGTTCTGCGCGACCAGCCCACGGGCTCGGCCGTGACCTCAGCCCTCATCGGTGCGTCCAGTGCGGCCCAGCTCGAGGACAGCCTCTCGGCCATCAACAACCTCGAATTCAGCCCGGAGGAGCTCAACGCCATCGACGAGTTCGCCGTCGAATCCGACATCAACCTGTGGGCGCAGAAGGTCTGA	MTYLAAENRYKTMPYRRVGRSGLKLPAISLGLWHNFGDDKRFDEQRAILRRAFDLGVNHFDLANNYGPPDGSAETNFGRHLKEDFKPYRDELVISTKAGYYMWPGPYGEWGSRKYLLSSLDQSLQRMGLDYVDIFYSHRPDPETPLEETMGALDHAVRSGKALYAGISSYTPEQTLEAARILKELGTPLLIHQPSYSMLNRWTESGSPSLYEALDQVGAGSIAFSPLAQGMLTDRYLHGIPVDSRAAKARFLSESAITQDKLDRVRGLHRIAVARGQSLAQMAIAWVLRDQPTGSAVTSALIGASSAAQLEDSLSAINNLEFSPEELNAIDEFAVESDINLWAQKV	PGPT0008285_549	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
D1-17_01191	1086	ino1_2	COG1260	Inositol-3-phosphate synthase	GTGTCTTCAAATCCGATTCGTGTCGCTATCGTCGGTGTGGGTAACTGCGCCGCTTCGCTGGTCCAGGGTGTCCATTATTACCGTGATGCCGACCCTCAGGCCACGATTCCGGGTCTGATGCATGTGGAGTTTGGCAAGTACCACGTCAATGATGTGCAGTTTGTTGCCGCGTTCGATGTGGACGGCAAGAAGGTCGGCGTTGACCTGGCCGATGCGATCCTGGCCAGCGAAAACAACACCATCAAGCTCACCGATGTGCCGCCCACGGGGGTGATGGTGCAGCGCGGGCCTACCCTGGACGGGCTGGGCCGGTATTACCTGGAGACGATCGAGCAGTCCGGCAAGGATCCGGTGGATGTGGTGCAGGCTTTGAAGGATGCCCGGGCGGATGTGATGGTGTGCTACCTGCCGGTCGGGTCCCAGGAGGCGGCGGAGTTTTATGCCCAGTGCGCTCTGGATGCCGGTGTGGCGTTCGTGAATGCGCTGCCGGTGTTCATTGCGGGTACGAAGGAGTGGGCCGATAAGTTCACTGCGGCCGGTGTGCCGATCGTGGGTGATGACATCAAGAGCCAGATCGGTGCCACGATCACGCACCGGGTGATGGCGAAGCTGTTTGAGGACCGCGGGGTGACGCTGGACCGCACGTACCAGCTGAACGTGGGCGGGAACATGGACTTTAAGAACATGCTCGAGCGTGACCGGCTGGAGTCCAAGAAGATTTCCAAGACCCAGGCGGTGACCTCCAATGTCGAGGCGGAGCTGGCGGCGAAGGATGTCCACATCGGCCCGTCGGATTATGTGCAGTGGCTCGATGACCGCAAGTGGGCCTTCGTGCGCCTGGAGGGCCGGAACTTCGGTGACGCGCCGGTGTCGCTGGAGTACAAGCTGGAGGTCTGGGACTCGCCGAACTCGGCCGGGGTGATCATCGACGCGATCCGTGCGGCGAAGATCGGCCTGGACCGCGGCATCGGTGGCCCGCTGCTCTCGGCCTCGAGCTATTTCATGAAGTCCCCGCCGGAGCAGTTCAACGATGACCTCGCCCGCGAGAAGGTCGAAGCCTTCATCCGCGGCGACCTCGAACGCTGA	MSSNPIRVAIVGVGNCAASLVQGVHYYRDADPQATIPGLMHVEFGKYHVNDVQFVAAFDVDGKKVGVDLADAILASENNTIKLTDVPPTGVMVQRGPTLDGLGRYYLETIEQSGKDPVDVVQALKDARADVMVCYLPVGSQEAAEFYAQCALDAGVAFVNALPVFIAGTKEWADKFTAAGVPIVGDDIKSQIGATITHRVMAKLFEDRGVTLDRTYQLNVGGNMDFKNMLERDRLESKKISKTQAVTSNVEAELAAKDVHIGPSDYVQWLDDRKWAFVRLEGRNFGDAPVSLEYKLEVWDSPNSAGVIIDAIRAAKIGLDRGIGGPLLSASSYFMKSPPEQFNDDLAREKVEAFIRGDLER				NA	NA	NA	NA	NA
D1-17_01192	624			hypothetical protein	GTGCAGCTGAAGGAGCTGAGCGAACGCACCGGAGTCTCCCCTGCAAGCACCAAGTTTTACCTGCGGGAGGGGCTGTTGCCGGCAGGCCAGGCCGTGCATGCAACGCGGGCGGAGTACACGCCCCAGCATGTCACCCGGCTCGAGCTGATCCAGGCTCTGCGACGCGTGGTCGGGTTGAACATAACGCAGATCCGCGGTCTCCTAAAGCTGGCGGACGACGGCGTGCCCCGCCTTGAGCTGTTAGCTGCAGTGCAGCGCACGGTACTGCAGCTAACTGAGGAGGGGAAGGACGACGGCGGCCTGCGCACCCAAGGGAGCGACGCCGTTGTTCGCTTTCGTAACTGCCCGGACGTGCCGAGCGACGCGAGGAGGGCCCTCGATGCCCACTTGGACCGCATGGAAAGCCTGGGCGTGCAGGTTTCCGACGAGGTCCTAGATGCTTACAGCCAGGCGCTGGACGGCATAGCGCACTTTGACATTACCGCCACCACAGCGCCAGACGATGTCAATCAGCTGATCCTGACTGCCGCAGTCGGGATGCACCTGCACAGGCAGCTGGTCCTCAGGCTGCTGGCCCTTGCGCAGGCCAGCCACGCCACTCGCAGATATCAGCAGGATGCGTAA	MQLKELSERTGVSPASTKFYLREGLLPAGQAVHATRAEYTPQHVTRLELIQALRRVVGLNITQIRGLLKLADDGVPRLELLAAVQRTVLQLTEEGKDDGGLRTQGSDAVVRFRNCPDVPSDARRALDAHLDRMESLGVQVSDEVLDAYSQALDGIAHFDITATTAPDDVNQLILTAAVGMHLHRQLVLRLLALAQASHATRRYQQDA				NA	NA	NA	NA	NA
D1-17_01193	561			hypothetical protein	ATGGAGCCTTGGAATGTACTGCTTGCCAGTCACGTCATCGCAGCGCTTTTTGTCCTCGCAGTCGGCCCGCTCCAGATCCTCCGCCGCCGTCGCGACAGCATTCACCGCACGATGGGCTACCTCTGGGTCGCGGCAATGTACTACGTGTGTCTCAGCAGCTTCTGGATCGTCAGCGATGGGCACTTCAGCTGGCTGCACGGCCTTTCCGCCTTCACGATCGTCACCGTCACGCTCGGGCTCGTCAGCGCCATCCGCGGCAACATCAAGTCCCATTTCGGGAACATGGTAGGCAGCTACATTGGTATCACTGTGGCATTCATATTCGCCGTCTCGGTGCCCGGCCGCGCGATTCCACGGCTCCTCGCAGAGGACGCTCCCACCGCCTTCCACGTTGCGGGGCTGGTGGTCCTCAGCATGTTCGTCATTTTCGTGTCACTCATGCGCGGCGAGGGGAAACGCTCCAAGCCGCTGAGGAACCGGGACCGGGGGCCGCGAGCGGCAGCGCGACGAGGAGCCAAACCGGCAGAAGGGACAAAATCAGCCGCCCGGACAGTTTCGTAG	MEPWNVLLASHVIAALFVLAVGPLQILRRRRDSIHRTMGYLWVAAMYYVCLSSFWIVSDGHFSWLHGLSAFTIVTVTLGLVSAIRGNIKSHFGNMVGSYIGITVAFIFAVSVPGRAIPRLLAEDAPTAFHVAGLVVLSMFVIFVSLMRGEGKRSKPLRNRDRGPRAAARRGAKPAEGTKSAARTVS				NA	NA	NA	NA	NA
D1-17_01194	960			hypothetical protein	ATGCAAATGCGCAACGGTTTGCCGGACCACCTGGCAACGGCTCCATTCACGCTTGAATCCGCAAGGGCTTCCGGCGTGGCCATGAGCCGGCTGCGGCGAAAGGACATCATCCACGTTGGTCGCGGTCTCTACCGTCCATCGAACTGGAACTTTGAACTGGAAGCCGCAGCTCGGGCGCTCTCTGCTGCATCCCCCGGGTCCTGGATTTCCCACGTGACTGCAGCACGGCTTCGCTGCCAGCTACTGCCACCGTGGTTGGAAGACTCGATGGAGCTGCACTTGAGCAAGCCACGAGCTCTGCCCTCGGTGCGCCGCAAGGGTGTCCTCGGCCACACAGTGCTGGCCGCTGAGAATGAGGTTGAATTCATCGACGGCATTTGGCTCAGCACCCGGTCGCGCACATGGCTGGATCTTTCGCGACGCCTATCCGTCAGGGACTTGGTGTGCATGGGCGATCAGTTGATTCGCATCCCGCGGGTCGACTTCGAGGGCCGCACAGACCCTTTCGACACGTTGGAGGGGTTGCGTGCTCTGGTGGGGCGCCACCCGAACCTCCAAGGTGTGGTGCACGCCCGGGAAGCGCTGAACGTGATGCGGATCGGATCCGATTCCGCGCCCGAATCGCTGCTCCGCCTGGCCATTGCCGACGCCGGTCTCCCGGAACCGGACCTTCAAGTGGCACTGAGAGTTGGCGACTCCTCGTCGCCCACAGCGGATCTCGGCTACCGTCTCAGGCGCCTCGCCATCCAGTACGACGGCGAACATCACCTTAAGGATGCCCAGGCTTTCAGCGACAGGCGCCGTGACAAGGCGTTCGAAGCGGCGGGCTGGACGGTCATAATATCCAACAAGGACGATCTTGCTAACGGGTTCCGACGAACTATAGGAACCATCAAACGAGCATTTCGCACGGCGTGGATGGACCATCCCCTCGCCTCCGGTTTTGCCGACGCAGGGTGA	MQMRNGLPDHLATAPFTLESARASGVAMSRLRRKDIIHVGRGLYRPSNWNFELEAAARALSAASPGSWISHVTAARLRCQLLPPWLEDSMELHLSKPRALPSVRRKGVLGHTVLAAENEVEFIDGIWLSTRSRTWLDLSRRLSVRDLVCMGDQLIRIPRVDFEGRTDPFDTLEGLRALVGRHPNLQGVVHAREALNVMRIGSDSAPESLLRLAIADAGLPEPDLQVALRVGDSSSPTADLGYRLRRLAIQYDGEHHLKDAQAFSDRRRDKAFEAAGWTVIISNKDDLANGFRRTIGTIKRAFRTAWMDHPLASGFADAG				NA	NA	NA	NA	NA
D1-17_01195	1680	fhs		Formate--tetrahydrofolate ligase	ATGTCTGATAAGCCCATGAGCGACCTCCACATCGCCCGCGCCGCTACCCTGCGGCCCATCGTTGATATTGCTGCCGCCGCCGGGATTGATGCCGCCGCTGTGGAACCTTTCGGCCGCTACAAGGCAAAAATTGATCCGGCAAAGCTGACCGCCGGGGCGCCCTCGGGGAAGGTGGTCCTGGTTTCCGCGATGTCCCCCACCCCCGCCGGAGAGGGCAAGTCCACCACCACCGTGGGGCTTGCTGACTCGCTAGCGAAGGCCGGCCACAAGGTGATGGTCGCCCTGCGTGAGCCGTCGCTGGGGCCGGTGCTGGGCATGAAGGGCGGGGCAACCGGTGGCGGGTACTCGCAGGTGGTCCCCATGGACGAGATCAACCTGCACTTTACCGGCGATTTCCACGCCATAACGTCCGCCAACAACGCCCTGATGGCCCTGGTGGACAACCATATCTACCAAGGCAATGAGCTGAACATCGACCCCCGCCGCATGACGTTCAAGCGGGTCCTGGACATGAACGACCGCGCCCTCCGGGAGGTGGTCATCGGCCTCGGCGGACCTTGGCAGGGCATTCCGCGCCAGGACGGGTTCGACATCACGGTGGCCTCGGAGGTCATGGCGGTGTTCTGCCTTGCCACGGACGTGGCGGACCTGCGCGGGCGGCTGGGCCGGATCACCTTCGGGTACACGTACGACCGGACGCCCGTCACGGTAGCAGACCTGGGGGTGCAGGGTGCGCTGGCGCTGCTGCTCAAGGACGCTATCCGGCCCAATCTGGTGCAGACCATCGCGGGTACTCCTGCCCTGGTGCACGGCGGGCCATTCGCCAACATTGCCCACGGCTGCAACTCCCTCATCGCCACCCAGACGGCACGCCGGCTCGCGGACATCGTGGTGACCGAGGCCGGCTTCGGTGCCGATCTCGGCGCGGAGAAGTTCATGGACATCAAGGCACGCGTCGCGGACGTGGCACCGGCCGCCGTCGTGGTCGTAGCCACGGTGCGGGCCCTCAAAATGCAGGGCGGCGTGGCGAAGGACCGCCTTACGGAACCCAATGTCGAGGCACTGGCTGCCGGTATCGCCAACCTTCGGCGCCATGTCCGGAACGTCGAAAAGTTCGGCGTCACTCCCGTGGTGGCCATCAACAGGTTCGCCACGGACACCGAGGAGGAGCTCGGCTGGCTGCTTGGCTGGTGTGCCGGGGAGGGCATCCAGGCTGCGGTGGCAGATGTCTGGGGCCGGGGCGGAGGAGGCGACGGCGGTGACGACCTCGCGGCCAAGGTGGCCGCGGCTGTGGCCGGCCCCAGCAGCTTCCGGCACCTCTATCCACTGGAACTGTCGGTGGAGGACAAGATCCGGACCATCGCGCAGGAGATCTACGGCGCGGACGGCGTGGACTTCTCTGTCCCGGCGCTGCGCCGGCTCGCGGACATCGAGAAGAACGGCTGGTCAGCCCTGCCGGTCTGCATGGCCAAGACGCAGTACTCGTTTACCGATGACGCGTCCCGGCTGGGCGCGCCCAAGGGGTTCACGATTCACGTGCGCGACCTGATTCCCAAGACCGGCGCGGGCTTCATTGTGGCCCTGACGGGCGCGGTCATGACCATGCCAGGTCTTCCCGCCGTTCCCGCCGCCCTGCGCATGGACGTGGACGACGACGGCAATCCCATAGGCCTCTTCTAA	MSDKPMSDLHIARAATLRPIVDIAAAAGIDAAAVEPFGRYKAKIDPAKLTAGAPSGKVVLVSAMSPTPAGEGKSTTTVGLADSLAKAGHKVMVALREPSLGPVLGMKGGATGGGYSQVVPMDEINLHFTGDFHAITSANNALMALVDNHIYQGNELNIDPRRMTFKRVLDMNDRALREVVIGLGGPWQGIPRQDGFDITVASEVMAVFCLATDVADLRGRLGRITFGYTYDRTPVTVADLGVQGALALLLKDAIRPNLVQTIAGTPALVHGGPFANIAHGCNSLIATQTARRLADIVVTEAGFGADLGAEKFMDIKARVADVAPAAVVVVATVRALKMQGGVAKDRLTEPNVEALAAGIANLRRHVRNVEKFGVTPVVAINRFATDTEEELGWLLGWCAGEGIQAAVADVWGRGGGGDGGDDLAAKVAAAVAGPSSFRHLYPLELSVEDKIRTIAQEIYGADGVDFSVPALRRLADIEKNGWSALPVCMAKTQYSFTDDASRLGAPKGFTIHVRDLIPKTGAGFIVALTGAVMTMPGLPAVPAALRMDVDDDGNPIGLF	PGPT0008065_408	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008065-fhs-K01938	NA	NA
D1-17_01196	1278	mshA_4	COG0438	D-inositol 3-phosphate glycosyltransferase	ATGTCCCTGATCAAGCGTGTGGCTTTCCTGTCCCTGCACACGTCACCGATGGAACAACCCGGCTCCGGTGACGCAGGCGGCATGAACGTCTACATCCGCGGTCTGGCCGCTGCCCTAGCCGAAAACGGGGTTGAAGTGGAGATCTTCACCCGTTCCACGGACGCCGGCCTGCCCGCCGTCGAGCACCCGGACCCCGGAGTGTGCGTCCACAACGTTTTTGCGGGACCGCCGCGGAAGGTGCCCAAGGAGGAACTGCCGGAGCTGCTGCACAGCATGGTTGCCGAGATCGAGCGGATCCGCGGGAGCCAGCCGCACGGGCGCTACGACCTCATCCATTCCCACTACTGGGTGTCAGGCGTGGCAGGACTGGAGCTGTCCGAACTGTGGAACGTGCCCCTGGTACACACGATGCACACCATGGCCAAGGTCAAAAACCTCCTGCTGCAGTCCGGCGAAAAACCCGAGCCGCGCCGGCGCGAAGTAGGCGAGCACCGGATTGTGGACGGCGCCACCCGGCTGATCGCGAACACCAGCGCGGAGGCCGCGGAGCTGGTATCGCACTACGGCGCCGACTACGACCACATCGACGTCGCACCCCCGGGCGTTGACCTCTCTGTTTTCACCCCGGCCTTCCGCAGCCGCTCCCGTGCGGCCAAGGGCATTGCCCCAAGCACCTTCCATCTGCTGTTCGCGGGCAGGATCCAGCGCCTCAAGGGCCCGCAAATCCTGCTGAAGGCTGCCGCGCTCCTCCGCGAGCGCCGGCCGGACATTGATCTCAAGGTGACCATCCTCGGAGCTTTGAGCGGCGCCAAGGACTTCAACCTGAAGTCGCTGGTCACCGCGGCAGGAATGGACGACGTCGTCACTCATCATCCCCCCGTCGCCCCGCGCGAGCTCGCGGCGTGGTTCCGGGCAGCTGACGTGGTGGTGATGCCCTCTTACAGCGAATCCTTCGGACTTGTTGCACTGGAGGCCCAGGCGTGCGGAACACCCGTGGTGGCTACCCGCGTGGGCGGCCTTTCCCGCGCCGTTTTTGACGGCCGCACCGGACTGCTGGTTGACGGGCACAAGGCCGCCGACTGGGCCGATGTGCTCGAAGCCCTCTACGACGATCCCGCCACCAGGGAGGACATGGGCCGGGCAGCGTCCCTGCACGCGCAGAACTCGGGGTGGCAGCGCACGGCGGTCATCACGCTCGAAAGCTACCACGCCGCCGTTGACGAGTTCTTCGCCCGGCACAAGGTCGCCGCCGGCCTCGGCCCGCCGCTCACCGGCTGA	MSLIKRVAFLSLHTSPMEQPGSGDAGGMNVYIRGLAAALAENGVEVEIFTRSTDAGLPAVEHPDPGVCVHNVFAGPPRKVPKEELPELLHSMVAEIERIRGSQPHGRYDLIHSHYWVSGVAGLELSELWNVPLVHTMHTMAKVKNLLLQSGEKPEPRRREVGEHRIVDGATRLIANTSAEAAELVSHYGADYDHIDVAPPGVDLSVFTPAFRSRSRAAKGIAPSTFHLLFAGRIQRLKGPQILLKAAALLRERRPDIDLKVTILGALSGAKDFNLKSLVTAAGMDDVVTHHPPVAPRELAAWFRAADVVVMPSYSESFGLVALEAQACGTPVVATRVGGLSRAVFDGRTGLLVDGHKAADWADVLEALYDDPATREDMGRAASLHAQNSGWQRTAVITLESYHAAVDEFFARHKVAAGLGPPLTG	PGPT0024580_573	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521	NA	NA
D1-17_01197	1491	bglT	COG1486	6-phospho-beta-glucosidase BglT	ATGAGTGGCACGGAAAACGGGAGGCCCCAGCTGATTGGGCATAGACTCCTTGCCATGCGGCTCATGATTGCAGGCGGCGGCGGATTCCGGGTTCCCCTGGTGTACCGGGCGCTGTGTTCCGGCCCCTATGCCGGCCTGGTCCGGGAACTGGTGCTTTTCGACGTCGATCCCGCCCGCCTCGCTGCCGTCACCGCGGTGCTCCGTTCCTTGGAAGCAGCGACTGCAGCCAGGCTCATGCCGGCGGCGCACTCCGCGCCGGACCGTACTGCCGCCGTCGGGCCTCCCCCGAAAATCACGGCCACCACCTCGCTCCCGGAAGCACTCGCCGGCACCGACGTGGTGTTCGCAGCCATCCGACCGGGCGGGACGGTCGGACGCATTGCCGACGAGCGGGTTGCCCAGGAACTGGGGCTGCTCGGCCAGGAAACCACCGGCGCCGGGGGCATCTCCTACGCGCTGCGCTCCATCCCCGCCATGCTGGAACTCGCCGAGTCCATGCGGGCGCATTCCCCCGACGCATGGCTGGTCAACTTCACGAACCCTGCCGGTATGGTCACCGAGGCGCTGCTGCCCGTTATGGGCCCCATGGTAATCGGCATCTGCGACTCAGCCAGCGCCCTGGTCCACCGCGCTGCCCGGGCGGCGGGCGCGCCGCTGCCCGCGGGAAGGCTCGACGGCGTGGGCTACTACGGGCTCAACCACCTCGGCTGGCTGTACCGGCTGGAGTCCGGCGGCCGCGACCTCCTTCCAGAGCTGTTGGCGGACGCCGGCGCGCTGGCGGGCTTCGAGGAGGGCAGGCTGTTTCCGCAGCCCTTCCTGCAGGAACTGGGGCTACTGCCCAACGAATACCTGTTCTATTACTACGAAACAGCCCGCGCCGTCTCCGCGATGCAGGCCATGGTGGCGACGCGCGGCGAGTCCATCCACAGCCAGCAGGCAGAGCTGTACCCCAGGCTTGCTGCGGCCGGGGACGCGGCATTCGGGTTGTGGGACGCCGCCCGGCTGTCCCGTGAGGAGGGCTACCTTGCCGAGGCCCGCAGCGGCGGCCAGGGACGCGACGCCGGGGATCTTGCGGGCGGCGGCTACGAACAGGTGGCGCTGTCGGTCATGAAGGCCCTCGCCGGCGGGACGGGGAGCACGCAGCTTATCCTCAACACGCGCAACGCGGACGTTACCGGGGAGGGTGCCGCTGAGCCGGCCATTCCCGGGCTGCCGGCGGACGCCGTCGTCGAGGTTCCCTGCACGGTGACGTTCGGCGGAGCCGTGCCGATACGGCAGGCCCGGCCTGCAGCTCCGCAGCTGGAGCTGATGCAGCGCCTCAAGCGGGTGGAACGCCTGACGGTCCGGGCCGCGTCCCATGGCGACCGCGACGCCGCGCTCGAAGCCTTCGCCGCACACCCGCTGGTGGACTCTGCGAAGCTCGCTGGCCGGCTGCTGGCCGGTTATGAGGCTGCGTTCCCCGCCCTGGCACGCCGTTGGCACCGTGAGTAG	MSGTENGRPQLIGHRLLAMRLMIAGGGGFRVPLVYRALCSGPYAGLVRELVLFDVDPARLAAVTAVLRSLEAATAARLMPAAHSAPDRTAAVGPPPKITATTSLPEALAGTDVVFAAIRPGGTVGRIADERVAQELGLLGQETTGAGGISYALRSIPAMLELAESMRAHSPDAWLVNFTNPAGMVTEALLPVMGPMVIGICDSASALVHRAARAAGAPLPAGRLDGVGYYGLNHLGWLYRLESGGRDLLPELLADAGALAGFEEGRLFPQPFLQELGLLPNEYLFYYYETARAVSAMQAMVATRGESIHSQQAELYPRLAAAGDAAFGLWDAARLSREEGYLAEARSGGQGRDAGDLAGGGYEQVALSVMKALAGGTGSTQLILNTRNADVTGEGAAEPAIPGLPADAVVEVPCTVTFGGAVPIRQARPAAPQLELMQRLKRVERLTVRAASHGDRDAALEAFAAHPLVDSAKLAGRLLAGYEAAFPALARRWHRE	PGPT0019105_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
D1-17_01198	1152	RBKS_2		Ribokinase	GTGCCCGGCCCCCAGATTTCGGGGTTTCACCAGCTGGGCACACGGCGTAGTGTGCCGAACATGGATGCGATTCCCGCGCGCCGGTTCGATCCGCTCTCCTCCGTCCGAACGCCGTCGGCCGGAGGCTTCGACCTGCTCCTCGCCGGAACGGTCTTCCAGGACATCATTTTCACCGGGCTGCCGCACGCGCCCGAGCCCGGCACTGAGATTTGGAGCGAAGGCATGGGGAGCTGTCCCGGGGGAGTGGCCAACCAGGCCATCGCTGCGGCCCGGCTGGGACTGCGGACAGGACTCGCCGCAGCCTTCGGAGATGACGGGTACGGAGACTACAACTGGAAGATCCTTGCCGGGCAGGAGCATGTTGACCTCTCCCTGTCCCGGCGCGTAGCCGGCTGGCATTCCCCCGTGACGGTGTCCCTCAGCGTGGACCACGATCGTTCCATGGTCACCCACGGCCACGCCGCGCCCGTGACGTCCTCGGAACTTGTGGGCGACCCTCCGCCGGCGTTGGCAGCGGTGGCAGACCTTGGCCACGAACTCGAGCCGTGGGTGCTTGCCGCCCACTCCGAGGGCGTGAAGCTCTTCGGCGATGTGGGCTGGGACCCCAGCGGCGAGTGGGCCCAGGCCCGGCTGGAGAATCTGCAGTACTTTTACGCTTTCATGCCCAACCAGCGCGAGGCCATGGCCTTCACGGGCAAGGAAAACCCCTGGGCCGCGCTGTATTCCCTGGCAGACCGCGTGCCCGTGGCGGTGGTGACGCTCGGCCAGCAGGGGGCCATGGCCGTCGACTCGGAAACCGGCGAGGAGGAATGGGTGCCCTCACTTCCGGTCACCGCCTATGACCCCACCGGGGCGGGGGACTGCTTTGGTGCCGCTTTCGTCGTCGGATGCCTGGCCGGATGGCCTCTGGGGGACCGGCTGCGCTTCGCCAACCTGTGCGCCGCGCTCGCCGTGCAGGAAGTTGGAGGCTCCCTGGCGGCGCCGGGATGGGGAGACATCGCCGACTGGTGGAAGCGGGCAAATGCCAGGCCGGAGCGGCGGGGCAGCCAGTGGCTGCGGCGCTACGCCTTCCTCGCCGACATCGTCCGGGATGTTCCGCCGGAAGCCATGCGGCGGGCGGCTGCCACGATCGCCCATCTGTCCGACGCCTGA	MPGPQISGFHQLGTRRSVPNMDAIPARRFDPLSSVRTPSAGGFDLLLAGTVFQDIIFTGLPHAPEPGTEIWSEGMGSCPGGVANQAIAAARLGLRTGLAAAFGDDGYGDYNWKILAGQEHVDLSLSRRVAGWHSPVTVSLSVDHDRSMVTHGHAAPVTSSELVGDPPPALAAVADLGHELEPWVLAAHSEGVKLFGDVGWDPSGEWAQARLENLQYFYAFMPNQREAMAFTGKENPWAALYSLADRVPVAVVTLGQQGAMAVDSETGEEEWVPSLPVTAYDPTGAGDCFGAAFVVGCLAGWPLGDRLRFANLCAALAVQEVGGSLAAPGWGDIADWWKRANARPERRGSQWLRRYAFLADIVRDVPPEAMRRAAATIAHLSDA	PGPT0017405_474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017405-rbsK-K00852	NA	NA
D1-17_01199	1173	alr	COG0787	Alanine racemase	GTGCCGCACCTCTCCCAGGAACGCTCCGCCATCATCGACCTTGAGGCCATCCGCCACAACGTCCGGAGGCTGGCGGACGCCGCCTCGCCGGCGAAGGTCATGGCAGTAGTTAAAGCCGACGCCTACGGCCATGGCGCCGTGCCGGTGGCCCGCGCAGCCTTGGAGGCCGGCGCCAAGTGGCTCGGAGTCGCCCATATTTCCGAGGCCCTGGCTCTCCGCGCCGCCGGAATCGACGCGCCCCTGCTGGCCTGGCTGCACACCCCGGACAGCAACTTCGGCGCGGCGGTGGCCGCCGGCGTCGATATCGGATGCTCCGGCTGGGAACTCGCGTCGATCGTCGCCGCCGCCCGGGAACAGGAGCGTCCCGCCCGCGTCCACCTGAAGGTGGATACCGGTCTTGGCCGGAACGGCGCGACAATGGAGACCTGGGACCGGCTCGTGGGCGAGGCCATGGAATACCAGGACCAGGGCCTGCTGCGCGTGGTGGGCATCTTCTCCCACCTCGCGGTGGCGGATGAGCCCGAACGGCCCGAAACCGACGAGCAGCTGGCCGCGTTCCGCGCGGTCCTCGCCATTGCGGAGGACGCCGGGGTTGACCCCGAGGTCCGCCACCTGGCGAACACCCCGGCCGCCCTGTCCCGGCCCGACACCCACTTCGACCTCGTCCGGGTTGGCCTCGGCATCTACGGGCTCTCGCCGTTCGAGGGCCAGACATCCGCCGAACTCGGTCTCCGCCCGGCCATGACCCTGCGTACCCTCGTATCCCACTGCAAGGATGTTCCCGCCGGCCAGGGAGTTTCCTACGGCTTTAACTACCACACCTCGGGCGCGAGCACCCTGGGACTCATCCCGCTCGGTTATGCCGATGGCATCCCGCGCGTCGCAACGGGCGGACCCGTGCTGGTGGAGGGCGTGACCTACCCGGTGGTCGGCAGAATCGCCATGGACCAGATGGTCATCGACCTCGGACCGCGGCACGTTACCGCGGGCGGGCACAGCGTCCTGGGTGCCGAGGCAGTGCTCTTTGGCAACGGCGAAGGCGGTGGCCCTACCGCCGATGACTGGGCGCGCGCCGCCGGAACCATCAACTACGAAATCGTCACCCGGATCAGCCCCCGGGTGCCGCGCACGTTCATCAATGAAACACCTATCAGTGAAACGGAGGTGCCGTGA	MPHLSQERSAIIDLEAIRHNVRRLADAASPAKVMAVVKADAYGHGAVPVARAALEAGAKWLGVAHISEALALRAAGIDAPLLAWLHTPDSNFGAAVAAGVDIGCSGWELASIVAAAREQERPARVHLKVDTGLGRNGATMETWDRLVGEAMEYQDQGLLRVVGIFSHLAVADEPERPETDEQLAAFRAVLAIAEDAGVDPEVRHLANTPAALSRPDTHFDLVRVGLGIYGLSPFEGQTSAELGLRPAMTLRTLVSHCKDVPAGQGVSYGFNYHTSGASTLGLIPLGYADGIPRVATGGPVLVEGVTYPVVGRIAMDQMVIDLGPRHVTAGGHSVLGAEAVLFGNGEGGGPTADDWARAAGTINYEIVTRISPRVPRTFINETPISETEVP	PGPT0020040_181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
D1-17_01200	588			hypothetical protein	GTGAGCGAGCCGGCACTCCTTGACGCGCCCCGCTGGGTGATCACCCTGAAGGTCACGACGGCGGAACAGACCCACGCGCTCGGCGCGGCGCTCGCCGGGGTGCTGCGGGCAGGCGACCTGCTGGTCCTCATCGGTGAACTGGGCGCCGGCAAGACGACATTCACGCAGGGCCTCGGGGAAGGGATGGGCGTGCGCGAGGGCATCATCTCACCCACGTTCGTGCTGGTCAGGATCCATCCCAACCTTCCGGACGGCCCCAACCCCGGCGGCCCCGACCTGGTCCACGTGGACGCCTACAGGCTGGGATCGGCGTCGGAAATCGACGACATCGACCTTGAGAACACTATGGATTCGTCCGTCACCGTGGTGGAGTGGGGACGCGGCCGCGTGGAGCACCTGAGCGACAGCCGGCTCGAGGTCGAACTGCACCGCTCCCTGGGCAGCAAGTCTTTGGCTGCCAGCTCATCAGGCGTCCTGGACTTCGATGCGGAGGACGATGAGGAGCCCCGCACAATCCTTATCCGTGGCTTCGGACCGCGCTGGACGGATCAGCCGGTTCTGGATCCGGCCGTGGAAGGAACCTCCTGA	MSEPALLDAPRWVITLKVTTAEQTHALGAALAGVLRAGDLLVLIGELGAGKTTFTQGLGEGMGVREGIISPTFVLVRIHPNLPDGPNPGGPDLVHVDAYRLGSASEIDDIDLENTMDSSVTVVEWGRGRVEHLSDSRLEVELHRSLGSKSLAASSSGVLDFDAEDDEEPRTILIRGFGPRWTDQPVLDPAVEGTS	PGPT0020040_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
D1-17_01201	672		COG1214	putative protein	ATGCTCATCCTTGCGATTGATACATCTGCCGTGGCCAGTGCCGCGCTCGTGTCCGATGATGCCCTTGAAGGCGTGGTGGGCAGTTTTTCCACTGAGGACACCCGCAGCCATGCCGAGGTGCTCGCCCCGGGGATAGAAAACCTGCTTGCCGAGGCTGGCGTGACGGGGCCGGACCTGGACGCGATCGTCGTCGGCGTCGGCCCGGGCCCGTTCACTGGACTCCGCTCAGGCATTGCCACAGCCCGCACCCTTGCCTTCGCCTGGAACAAGCCGTTGCACGGCCTCATGAGTCTCGATGCCGTGGCGCTGGAGGTGGCTGAGGCCACCCACGCTCCCGAGGAGTTCCTCGTTGCCACCGATGCCCGCCGCAAAGAGGTCTACTGGGCGCGGTACACCCTGCAGGAGGGCCAGCTCCCGAAACTCGTGGACGGGCCGCATGTGGGCTTCGCCGCAGACCTTCCCGACCTGCCCGCCTATGGCGCCGGCGCCGGGCTGTATGCCGATGTGCTGCGCGCGGATCCGGACTTCAGCGCCGAGCAGCCGGATGCGCTCTACCTGGGGCAGTTCGCGCTGGCGCGGCTGGCCGCCGGCGAGGAGCTTCCCGTCTCCACCCCTCTGTACCTGCGCGAATCGGACGCCCAGGTGCCCGGGCCCCGGAAGCGCGCCCTGTGA	MLILAIDTSAVASAALVSDDALEGVVGSFSTEDTRSHAEVLAPGIENLLAEAGVTGPDLDAIVVGVGPGPFTGLRSGIATARTLAFAWNKPLHGLMSLDAVALEVAEATHAPEEFLVATDARRKEVYWARYTLQEGQLPKLVDGPHVGFAADLPDLPAYGAGAGLYADVLRADPDFSAEQPDALYLGQFALARLAAGEELPVSTPLYLRESDAQVPGPRKRAL				NA	NA	NA	NA	NA
D1-17_01202	600	mshD_2		Mycothiol acetyltransferase	GTGAGCAGCCAGCCAGGACAGGGGCCGCTCGCGGCCGCCGGCATCAGGGTGCGGGACATGGTTCCGGCCGACATTCCCGCTGTGCATCAGCTGGAGGAGCGGCTCTTCCCGGTGGATGCCTGGCCGTTGCAGATGTTCGTGGATGAGCTGTCCCAGCCCGAAACCCGCCGCTATCTGATCGCCGAAGCACCGGACGGCATCATCGGCTACGCCGGCCTGATGTGCATCGAGCCGATCGCCGATGTGCAGACCATCGCCGTCGTTCCGGAATACGAGGGCAGAGGGATCGGTTCGGCACTTCTCAGGGAACTGATCAGCGAGGGCCGGCGGCGCGGTGCGGCAGACCTCCTGCTTGAGGTCCGGGCAGACAACCCCCGGGCCCAGCAGCTGTACCGGCGGTTCGGGTTTGAACAGATCCACGTCCGGCGGAAGTACTACCGCGACGGCGTCGATGCCCTGATCATGCGGCTCGAACTCGCCAACGTCCTCGCACTCCACCAGGAGATCGTGCACGAGGACGCCCAGGATGACGGCTCCGATGGCAGGAATGCCGGCGGCAGGACCGGCCAGACCACCCCCACGGAGGCAGACCAGCAATGA	MSSQPGQGPLAAAGIRVRDMVPADIPAVHQLEERLFPVDAWPLQMFVDELSQPETRRYLIAEAPDGIIGYAGLMCIEPIADVQTIAVVPEYEGRGIGSALLRELISEGRRRGAADLLLEVRADNPRAQQLYRRFGFEQIHVRRKYYRDGVDALIMRLELANVLALHQEIVHEDAQDDGSDGRNAGGRTGQTTPTEADQQ				NA	NA	NA	NA	NA
D1-17_01203	1134	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGAACCGTTCCCAGCCGCTCGTGCTCGGCATCGAATCCTCCTGCGACGAAACCGGCGTCGGGATTGTCCGGGGAACCGAACTACTGACAAACACCGTGTCGTCCTCCATGGATGAACACGTCCGATTCGGCGGCGTCATTCCGGAGATCGCCTCCCGCGCGCACCTCGATGCCTTCGTGCCGACTCTCCAGGCCGCCCTCGCCGAGGCGAAGGTGACGCTGGACGACGTCGATGCCATTGCCGTCACGTCCGGCCCCGGCCTGGCGGGAGCGCTGATGGTGGGGGTCTGCGCGGCCAAAGCCTTGGCCGTTGCCACCGGAAAACCGCTGTACGCCATCAACCATCTTGTGGCCCACGTGGGTGTCGGCCTGCTGGATGCAGGGCAGGGGACACTGCCCGCAGGACACGGGCCTGCAGGGAATGGTCTTCCCGGTAACCTCGGGGCCCTCCTCGTCTCCGGCGGCCACACGGAAATTCTCCGGATCCGCAGCATCACCGACGACGTGGAACTGCTCGGCTCCACCATCGACGACGCGGCAGGGGAGGCCTATGACAAAGTGGCCAGGATCCTCAACCTGGGCTACCCGGGCGGTCCCGCCATCGACCGGATTGCCCGGAGCGGGAACGCCAAGGCCATCCGCTTTCCGCGGGGCCTGACGCAGCCGAAGTACATGGGGACGGCGGAGGAACCGGGACGGCACCGCTACGACTGGTCCTTCAGCGGCCTGAAGACCGCCGTGGCCCGCTGCGTGGAACAGTTCGAGGCCAGAGGCGAAACCGTGCCGGTGGCCGACATCGCTGCGGCCTTCCAGGAGGCCGTGGTGGATGTCATCACCTCAAAGGCCGTGCTCGCCTGCCGCGAGCAGGGCATCAGCAGCCTCCTGCTCGGCGGCGGGGTAGCAGCTAACTCGCGTCTCCGCCAGCTGACCGAACAGCGCTGCTCGGCCGCCGGCATCGTGCTGCATGTACCGCCGCTGGACCTTTGCACGGACAACGGAGCGATGGTGGCGGCGCTCGGCGCGCAGCTGGTGATGGCGGGCATTTCGCCCAGCGGCGTCACGTTCGCACCCGACTCGTCCATGCCCGTCACAACGGTTTCGGCGCCGGCGGCAGCCCCGGCAGTCGCCGTTTAG	MNRSQPLVLGIESSCDETGVGIVRGTELLTNTVSSSMDEHVRFGGVIPEIASRAHLDAFVPTLQAALAEAKVTLDDVDAIAVTSGPGLAGALMVGVCAAKALAVATGKPLYAINHLVAHVGVGLLDAGQGTLPAGHGPAGNGLPGNLGALLVSGGHTEILRIRSITDDVELLGSTIDDAAGEAYDKVARILNLGYPGGPAIDRIARSGNAKAIRFPRGLTQPKYMGTAEEPGRHRYDWSFSGLKTAVARCVEQFEARGETVPVADIAAAFQEAVVDVITSKAVLACREQGISSLLLGGGVAANSRLRQLTEQRCSAAGIVLHVPPLDLCTDNGAMVAALGAQLVMAGISPSGVTFAPDSSMPVTTVSAPAAAPAVAV				NA	NA	NA	NA	NA
D1-17_01204	1152		COG2170	Putative glutamate--cysteine ligase 2	ATGAAGATTGATTTCGCTTCATCCCGGCAATCAACTCTTGGTGTGGAATGGGAGCTCGCGCTCGTCGATGCGCAGACCGGTGAACTCGCCTCCGTGGCGAACGAGGTGCTGCGCGGTGTGTCGGCAAAGCACCCGGAGCTGAACGAGGACGACGAACACCCGCACATCAAGCAGGAACTGCTGCTCAACACCGTTGAGCTTGTGACCGGGATCTGCGAAACAGCCGCCGAAGCCAAGGAGGACCTCAACCGGTCCCTTGCCGCACTCCGCGAAGTCACCGATCCCATGGGCGTAGAGGTGTTCTCGGCCGGCAGCCACCCCTTCAGCCCGCCGCAGCTCCAGCCCGTCACGGACAAGGCACGGTACGCCAAGTTGATCGACCGCACCCAGTGGTGGGGACGCCAGATGGTGATTTACGGCGTCCACGTGCACGTGGGTCTCGACCGGCGGGACAAGGTGCTTCCGGTGCTCGACGGGCTGGTCAATTACTTTCCGCACTTCCAGTCGCTGTCCGCGTCCAGCCCGTTCTGGGGCGGCGAGGACACCGGCTACGCCTCCCAGCGTTCCCTCATGTTCCAGCAGCTGCCCACCGCAGGGCTGCCGTTCCAGTTCGCCACCTGGGAAGAGTACGAGTCCTACGTCCAGGACATGTTCACCACCGGCGTCATCGACACGATTTCCGAGATCCGCTGGGACATCCGGCCGGTACCGGCCCTGGGCACCATCGAAATGCGCATCTGCGACGGCCTGGCCACGCTGGAGGAAGTGGGCGCCGTAGCTGCGCTGACCCAGTGCCTGGTCCACGAATTCTCCACCACGCTGGACAACGGCGGCACCATCCCCACCATGCCCCCGTGGCACGTCCAGGAAAACAAGTGGCGCGCGGCCCGGTACGGGATGGAAGCCATCATCATCCTGAACGCACAGGGCGACGAGCAGCTCGTCACCGACCATCTGCTGGAAACCCTGAACCGGCTGGAACCCGTTGCTGCGAAGCTGGGCTGCGCCGACGAGCTGGCGGACGTTGAAAAGATCATCAGCCGCGGCGCCGGATACGAGCGGCAGCGCCGCGTGTCGGCAGAAAACGGAGGCAACCTCCAGGCCGTCGTGCTGGATCTGGTGAAGCAGATGCGCAACGGCCCCACGGCATAA	MKIDFASSRQSTLGVEWELALVDAQTGELASVANEVLRGVSAKHPELNEDDEHPHIKQELLLNTVELVTGICETAAEAKEDLNRSLAALREVTDPMGVEVFSAGSHPFSPPQLQPVTDKARYAKLIDRTQWWGRQMVIYGVHVHVGLDRRDKVLPVLDGLVNYFPHFQSLSASSPFWGGEDTGYASQRSLMFQQLPTAGLPFQFATWEEYESYVQDMFTTGVIDTISEIRWDIRPVPALGTIEMRICDGLATLEEVGAVAALTQCLVHEFSTTLDNGGTIPTMPPWHVQENKWRAARYGMEAIIILNAQGDEQLVTDHLLETLNRLEPVAAKLGCADELADVEKIISRGAGYERQRRVSAENGGNLQAVVLDLVKQMRNGPTA	PGPT0026300_495	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-17_01205	1512	nagZ		Beta-hexosaminidase	GTGAAGGGCACGGCACCGCTGGGCTGGGGACCGCAGCAACGGGACCAGGACGCCGCGGCCGCCGCTGTGGCCAGAATGACACCCGGCCAGAAGGCCGGGCAGGTACTGCTTCCGTTTTTCTCCGGCCTCAATCACGAGGCGCAGGCCGCCACCATCGAACGTCTGCATCTGGCCGGCTCCATCATCATGGGCGATAACGTCCCCCGCAGCCCAGACGGGCTCGTGAACGTCCGGGCCATGACCGACGTGGCGCGCCGGCTCGGTGAGGCATCCCGCTCAGGCGGCCGCACGTGGCCCGGCATGATCGCCGTCGACCAGGAAGGAGGCCTGGTGTCCCGGCTGGGGGCCCCGCTCACGGCATGGCCTTCTCCCATGAGCTACGGGGCCGCCGGGAGCGTGCCCCTTGCAACCGAGGCCGGCAAGGGCCTGGCCGGGGAACTGGCCGCCCTGGGCTTCACCGTTGACTTCGCGCCCACGGCTGACCTGACCGTGGGGCCCGGCGACCCCACCATCGGCGCCCGGTCCATGTCCGCCGACCCGAAGGCAGCCGGCGACCTGAGCATCGGGTTCTCCCGCGGCATGCTGGCGGCCGGCGTGCTGTCCTCCGTCAAGCACTTCCCGGGCCACGGTTCCCTGACTGTGGACTCGCACCTGCACATGCCCGTCCAGCCGGCAACGGTTCCGCAGCTGAAGGCCAGGGACTGGAAACCCTTCCAGGCGGCCGTCGCGGCGGGAACGCCCATGATCATGATGGGGCACATCGCCGTCCCTGCACTGGAGCCGGATGTGCCGGCGTCCCTCTCCAAAGCCAGCTATGCGGCGCTTCGGAACATGGGGTTCAAGGGTGTCGCGGTGACCGACGCCCTGAACATGAAAGCGGTGAGCGCCCGGTATCCGGGCGGTTCAGCGGCGCCGGCAGCGCTGGCCGCGGGCGCGGACCTCCTGCTGATGCCGACTGACGTCTACGCCGCCCATGCAGCCATCGTCGACGCCGTTACTTCCGGCAGGCTCCCGGCCTCGCGCCTCGACGAAGCCGCGCGCCGGGTAGTGACCATGATGCTGTGGCGGGCACGGACAGCTCCCCGGAACCATGGCGCCGCTGCCGGTAGCACCGCAGGGACGTCAGCGAAAGTGTCCGCCCGCGCCGTAACGGTAGTCTCCGGGCCATGCCGGGGCCCGCTGGTGCCCGGCGCTGTCCGGCTGGCAGGAGGCACCGCCGCGGACCAGGCGCTTTTCGCCGCTGCAGCGCGGGAGGCAGGAATTACCTTGGGGACCGGCCCCCTGGTGACCTTGATCGGTTACCGCGGTGCCCCGGCGGGCGGAGACATTGCCGTGGCTCTCGATGCACCCTGGCCGCTGGCAGGATCAGCCGCCCCCACCAAGGTGGCGCTCTACGGACGGACGCCGGGCGCCTTCAAGGCGCTGCTGGCGGTGCTGGCAGGCAAGGCTACGGCTCCCGGAAAGCTGCCGGCCGCCGTCGGGCCCTACCGGCAGGGCAGCGGCTGCCGTTGA	MKGTAPLGWGPQQRDQDAAAAAVARMTPGQKAGQVLLPFFSGLNHEAQAATIERLHLAGSIIMGDNVPRSPDGLVNVRAMTDVARRLGEASRSGGRTWPGMIAVDQEGGLVSRLGAPLTAWPSPMSYGAAGSVPLATEAGKGLAGELAALGFTVDFAPTADLTVGPGDPTIGARSMSADPKAAGDLSIGFSRGMLAAGVLSSVKHFPGHGSLTVDSHLHMPVQPATVPQLKARDWKPFQAAVAAGTPMIMMGHIAVPALEPDVPASLSKASYAALRNMGFKGVAVTDALNMKAVSARYPGGSAAPAALAAGADLLLMPTDVYAAHAAIVDAVTSGRLPASRLDEAARRVVTMMLWRARTAPRNHGAAAGSTAGTSAKVSARAVTVVSGPCRGPLVPGAVRLAGGTAADQALFAAAAREAGITLGTGPLVTLIGYRGAPAGGDIAVALDAPWPLAGSAAPTKVALYGRTPGAFKALLAVLAGKATAPGKLPAAVGPYRQGSGCR	PGPT0012175_1864	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
D1-17_01206	846	sdhL	COG0169	Shikimate dehydrogenase-like protein	ATGCCGCCTTGCCCGTTTAATGGAGGGGTGCCGATTCTGAATAAAGACATGACCCTGTGCATCTCGCTCTCGGCCCGGCCGAGCAACAACGGGACCCGCTTCCACAACTATCTGTATGACCAGCTCGGGCTGAACTGGATCTACAAGGCCTTCGCCCCCACAGACCTCGCCTTGGCGATCGCCGGCGTCCGCGGCCTCGGAATCCGGGGCTGCGCCGTCTCCATGCCATACAAGGAAGACGTGATTGCCCTGGTTGACGCCATGGACCCGTCCGCGAAGGCCATCGATTCAGTGAACACCATCGTCAATGACGCTGGCCGGCTTACGGCCTACAACACCGATTACACGGCGATCGAGCAGCTGCTGGAACGCAACGCGGTGCGCGCGGACTCCTCGGTACTGCTGCGCGGGGCGGGCGGCATGGCCAAGGCCACCGCTGCAGCCCTGCGGGATGCCGGCTTCCGCCATGTCACCATCGTCGCCCGGAATGAAGCCACAGGCCGGGCGCTGGCTGGCCTCTACGGCTTCACATGGTGTGGTGAGCTGGGCGGGGCCACGGCCGACATGATCATCAACGTCACGCCCATCGGCATGGCAGGCGGCCCTGAGGCAGATTCCCTGTCCTTTCCCGCTGCCGCGGTTGAGGCGGCCGAGGTGGTGTTCGACGTCGTGGCCCTGCCCCCCGAAACTCCGTTGATCAAAGCTGCCAGGGCTGCGGGCAAGAAGGTCATCACCGGTGCGGAGGTGGCCACCATCCAGGCGCTTGAGCAGTTTGTGCTGTACACCGGCGTCCGCCCCACGGACCAGCAGGTGCGCGACGCCGAAGCCTTCGTCCGGGCGCAGTAG	MPPCPFNGGVPILNKDMTLCISLSARPSNNGTRFHNYLYDQLGLNWIYKAFAPTDLALAIAGVRGLGIRGCAVSMPYKEDVIALVDAMDPSAKAIDSVNTIVNDAGRLTAYNTDYTAIEQLLERNAVRADSSVLLRGAGGMAKATAAALRDAGFRHVTIVARNEATGRALAGLYGFTWCGELGGATADMIINVTPIGMAGGPEADSLSFPAAAVEAAEVVFDVVALPPETPLIKAARAAGKKVITGAEVATIQALEQFVLYTGVRPTDQQVRDAEAFVRAQ	PGPT0012890_5544	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
D1-17_01207	1230			hypothetical protein	ATGTCTGACGCACCGCAGGACCAGATCGCACAGCTTTTGACCGAGGAAGGGTGGCAGTTGCTGGCATCGCTTGGCCCCTACCGCGAGGACGAGTCCATGGCGCTGGCTTCCCGTCTCCGCAAGGCCGGCCACTCCCCCGAGCTGGTATCCGCCGTGCTGACACAGTCGCGGTTGCGGACCAAGGCCGAGGGCAAGTTCGGCGAGTTCGCCCGCCAGATGCTGTTCACCCAGGCGGGCCTGGAACAGGCAACCCGTTTCAACGTGGCCGCCCGGCACGCCCAGCGCTTCGCCGAGGCGGGCGTCCGGCACGTGGCCGACCTGGGATGCGGCCTGGGCGCTGATGCCATGGCACTGGCTTCCCTGGACGTCGCGGTGACAGCCGTGGAGAGGGACGAAACCACAGCCGCCTGCGCCACCATCAACCTCATTCCGTTTCCGCAGGCCACGGTGGTGCATTCGGACGCCACCTCCCTTCCGCTGGGTGACGAGGACGGGGTTTGGCTGGATCCTGCGCGGAGGACGACGTCCACGTCCGGGACCAAGAGGATCTGGGACCCGGAGGCGTTTTCGCCGCCGCTGTCCTTCGTGGAATCCCTCGCCGCGGCGGGCCGGCCCGTCGGCGTCAAGATGGGCCCAGGCATGCCGCACGAAGCCATTCCGGCGGGCTGCGAGGCCCAGTGGGTCTCCGTGGGCGGCGATGTTACAGAAGTGACCCTCTGGTTCAACGCGGTGGCCCGGCCGGGAATCCGGCGCGCGGCGCTCCTGCTCGGCCCGGCAGGTGCGGCGGAACTCACCAGCGGGGAGGATTTCGACGGCGGACCGGCAGCCCCGGTGGGACCGGTTGAGGGCTTTCTCTACGAGCCGGACGGGGCGGTAATCCGTGCCGGACTCGTGGCCGACCTGGCCCTGCAGCTTGGCGGACACCTCCTGGACGAGCACATCGCCTACATCTGCGCCCCGCAGGCCGTGGATACGCCGTACGCCCGGGCGTACCGGGTCCTAAAGGTCATGCCCTACAGCGTGAAGTCACTCAAGACCTGGGTGAAGGACAACGGCATCGGAGTCCTGGACATCAAGAAACGAGGCACCGCCGTCACTCCCGAGGAGCTCAGGAAGCAGCTGCTGCCGGGCGGAAAAGCGGCCGCAAAGAAGGCGGGCAAAAAGACCGCCACCCTGGTCCTCACCAGAATCGGCGAAGAGCGGGTGGCGGTCTCGGTGGAGCCGGTCTAG	MSDAPQDQIAQLLTEEGWQLLASLGPYREDESMALASRLRKAGHSPELVSAVLTQSRLRTKAEGKFGEFARQMLFTQAGLEQATRFNVAARHAQRFAEAGVRHVADLGCGLGADAMALASLDVAVTAVERDETTAACATINLIPFPQATVVHSDATSLPLGDEDGVWLDPARRTTSTSGTKRIWDPEAFSPPLSFVESLAAAGRPVGVKMGPGMPHEAIPAGCEAQWVSVGGDVTEVTLWFNAVARPGIRRAALLLGPAGAAELTSGEDFDGGPAAPVGPVEGFLYEPDGAVIRAGLVADLALQLGGHLLDEHIAYICAPQAVDTPYARAYRVLKVMPYSVKSLKTWVKDNGIGVLDIKKRGTAVTPEELRKQLLPGGKAAAKKAGKKTATLVLTRIGEERVAVSVEPV				NA	NA	NA	NA	NA
D1-17_01208	402			hypothetical protein	ATGGACTTCAGCGCACCGCCCAGCCCAGACAAGCCCGCCGACAACCAGACCGGTCAGGTCCACCGTGCACATCCTGCCCGGTATGCCCGCCCCGTGCTGATCGTGGGGGCAGGCGGCGTCATCGTTTGCCTCGTCCTGCTGGGCATTATCTTCCTGCTGGACTCCTTCAACTCCACTGTCTATTCCGTGGGCGGCAAGAACATCAACGATGCGACCGATGAAGCCCGCCAGATCCGGGACCTGTACGTGGGCGCACGCATCGGAGCCGTGGTGTTCCTTGCTGCTTCGGCGCTCGCCGCAGCCGCTGCCGCCGTCGCGCTGGTCCGCTGGGGCAAGGACCTTTCAACCGGCGGGGACGACGGCGGTGAGGACGTCGGGTTCGATGCCCTCACCGGCCGCTGA	MDFSAPPSPDKPADNQTGQVHRAHPARYARPVLIVGAGGVIVCLVLLGIIFLLDSFNSTVYSVGGKNINDATDEARQIRDLYVGARIGAVVFLAASALAAAAAAVALVRWGKDLSTGGDDGGEDVGFDALTGR				NA	NA	NA	NA	NA
D1-17_01209	294	groS	COG0234	10 kDa chaperonin	GTGTCGGTCTCTATTAAGCCTCTTGAGGATCGTATTGTTGTCCGCCCGCTCGAAGCCGAGCAGACCACGGCTTCCGGCCTGGTTATCCCGGACTCCGCACAGGAGAAGCCGCAGGAAGGCGAAGTTGTAGCAGTAGGCCCCGGCCGCTTCGAGGACGGCAACCGCGTTCCGGTTGACGTAGCCATCGGCGACGTCGTCATCTACTCCAAGTACGGCGGAACCGAAGTCAAGACCGGCGGCGAAGAGTACCTCGTGCTGTCTGCCCGCGACGTTCTGGCGATCGTCGTAAAGTAA	MSVSIKPLEDRIVVRPLEAEQTTASGLVIPDSAQEKPQEGEVVAVGPGRFEDGNRVPVDVAIGDVVIYSKYGGTEVKTGGEEYLVLSARDVLAIVVK	PGPT0014565_2933	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
D1-17_01210	1611	groL1_1		60 kDa chaperonin 1	ATGGCAAAGCAGCTTGCGTTCAACGACGCTGCCCGCCGGTCTCTTGAAGCCGGCATCGACAAGCTCGCCAACACGGTCAAGGTGACGCTTGGTCCCCGCGGCCGCAACGTCGTGCTGGACAAAAAGTGGGGTGCTCCCACCATCACCAACGACGGCGTGACCATCGCCCGTGAGGTTGAGCTCGACGACCCGTACGAGAACCTTGGCGCCCAGCTGGCCAAGGAAGTCGCCACTAAGACAAACGACGTCGCCGGCGACGGCACCACCACCGCCACCGTGCTGGCGCAGGCCCTGGTCAAGGAAGGCCTGCGCAACGTGGCCGCCGGCGCCGCTCCGGGCCAGATCAAGCGCGGCATCGAGGTTTCCGTCGAAGCCGTTGCCGCCCGCCTGCTCGAGAACGCACGCCCTGTTGAAGGCACCCAGGTTGCCAACGTGGCTGCCATCTCCGCTCAGAGCGAGGAAATCGGCGAGCTCCTGGCCGAAGCGTTCGGCAAGGTCGGCAAGGATGGTGTGATCACCATCGAGGAATCCTCCACCACGCAGACCGAGCTCGTCCTCACCGAGGGCATGCAGTTCGACAAGGGCTACCTGTCCCCGTACTTCGTCACGGACGCGGAGCGCCAGGAAGCTGTCCTCGAGGACGCCCTCATCCTGATCAACCAGGGCAAGATCTCCGCAATCCAGGAGTTCCTGCCGCTGCTGGAAAAGGCGCTGCAGAGCTCCAAGCCGCTGTTCATCATCGCCGAGGACATCGAAGGCGAGGCCCTGTCCACGCTGATCGTCAACCGCATCCGCGGCACCCTGAACGTCGTTGCCGTCAAGGCTCCCGGCTTCGGTGACCGCCGCAAGGCCATGCTGCAGGACATCGCCACCCTCACCGGTGCGCAGGTTGTCTCCCCGGAGCTCGGCCTGAGCCTGGACACCGTCGGCCTGGAGGTCCTGGGGACTGCACGGCGCATCACGGTCACCAAGGACAACACCACCATCGTTGACGGTGCCGGTTCGGAGGAGGATGTCGCTGCACGGGTTGCCCAGCTGCGTGCCGAGCTGACCCGCACCGACTCCGACTGGGACCGCGAAAAGCTGCAGGAGCGCCTGGCCAAGCTGGCTGGCGGCATCGGCGTGATCAAGGTCGGCGCTGCCACCGAGGTTGAGCTGAAGGAAAAGAAGCACCGCATCGAAGATGCCGTGTCCTCCACCCGCGCAGCCCTCGAAGAAGGCATCGTGGCCGGTGGCGGCTCCGCGCTGATCCACGCGCTGAAGGTACTCGACGAGGATCCGGCAGTGACGGCCCTTGAAGGTGACGCGGCAGCTGCCGTTGGAATTGTCCGTCGTGCACTGGTCCAGCCGCTGCGCTGGATCGCCCAGAACGCCGGCCACGACGGCTACGTCGTGACCGCCAAGGTTGCCGAGCTGGAAAACAACAACGGCTTCAACGCCAAGTCCGGCGAGTACGAGGACCTGATCGCGGCCGGCGTCATCGACCCGGTCAAGGTCACCCGCGCGGCCCTGCGCAACGCGGCTTCCATCGCTGCGCTGGTGCTCACCACCGAAACGCTCGTGGCTGAGAAGCCGGCCGAGGACAACGAGCACGCAGGCCACAGCCACTAG	MAKQLAFNDAARRSLEAGIDKLANTVKVTLGPRGRNVVLDKKWGAPTITNDGVTIAREVELDDPYENLGAQLAKEVATKTNDVAGDGTTTATVLAQALVKEGLRNVAAGAAPGQIKRGIEVSVEAVAARLLENARPVEGTQVANVAAISAQSEEIGELLAEAFGKVGKDGVITIEESSTTQTELVLTEGMQFDKGYLSPYFVTDAERQEAVLEDALILINQGKISAIQEFLPLLEKALQSSKPLFIIAEDIEGEALSTLIVNRIRGTLNVVAVKAPGFGDRRKAMLQDIATLTGAQVVSPELGLSLDTVGLEVLGTARRITVTKDNTTIVDGAGSEEDVAARVAQLRAELTRTDSDWDREKLQERLAKLAGGIGVIKVGAATEVELKEKKHRIEDAVSSTRAALEEGIVAGGGSALIHALKVLDEDPAVTALEGDAAAAVGIVRRALVQPLRWIAQNAGHDGYVVTAKVAELENNNGFNAKSGEYEDLIAAGVIDPVKVTRAALRNAASIAALVLTTETLVAEKPAEDNEHAGHSH	PGPT0014570_7035	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
D1-17_01211	2121			hypothetical protein	GTGCCAGAAGCGATAACGAGGGAACCGGCAGGAACCCTGCCGCGCGGGGACGCACCAAAGGAAGCCAGCCGCGAGCCGCGGGCCGCAAGGCTGAAGGCAAAAGCCGGCTACCGGCCCGAAGTCCAGGGTCTGCGTGCCCTTGCTGTGCTCATGGTGGTCACCTACCACGTCTGGCTGGGACGCGTTTCCGGCGGCGTGGATATCTTCCTGCTCGTCTCCGCCTTCCTGCTGACCCTGTCCTTCGTCCGCAAAGTGGAGACCGGCACTCCGTTGCGTTTGGTCCGCCATTGGCTGCACCTGTTCAAGCGGCTCATCCCGGCTGCCGTCGTGGTGATCCTCGGTGTCCTGGCAGGCACCTGGCTGGTGATCCCCCAAAGCCGCTGGCCTGATGTCCTGAACGAGGCATGGGCGTCGCTGCTCTACCGGCAGAACTGGCTGCTCGCCGAAACCGCCGTCGACTACTACGCCCAGGACCATGCAGGGGCCAGCCCGCTGCAGCATTTCTGGTCCCTGTCCATCCAAGGGCAGGTGTTTATTCTCTGGCCGCTCATCTTCGCCGCGGCCGAACTGATCCGCCGATTCCTGCACAGCCGGTTCCTGCAAAGACGCCGGGACGTCAGCTACCGGCAGGTGCTGCTGGTGGCCTTTGGCGGTCTCTTCGTCGTGTCCCTGATCTTCTCGATCGAACAGACTTACACGAACCAGGCGTACGCCTATTTCGACACCCGCACCAGGCTCTGGGAGTTCGCGCTCGGATCGCTGCTGGCGCTGTCCCTTCCTTACGTCAAGCCCGGCAAGGTGCTCCGTGTCGTGCTGGGCTGGGCAGGGCTCGTGGCCATGATCTCCTGCGGCCTCGTCCTGACCGTGGACCGGTCTTTCCCCGGCTTCATCGCTTTGTGGCCCACACTGGCCGCCGCAGCCATCATTATCGCCGGCCAGAGCGGCAGCCGCTTCGGCGTGGACCGGATCTTGAGCTCAAGGCCCTTGGTGGCACTTGGAGACAACTCCTACGCCCTGTACCTCTGGCACTGGCCCATCCTGGTCCTGGCGCTTGCGGGCACGGGAATCGAACAGCCCAACCTGGTCCAGGGCCTCGCGATCGTGGCCGGCTCGGTGGTCCTGGCCGTGCTCACGACCCGCTTTGTGGAAAAACCGCTGCGCGAATGGCATTGGCCCCAACTGCGGGCCTGGCGGACCGCCGTCGTCATAGTTGCCTGCGGCGCCCTGCTGGCCGGTCCCGTCGCGGTATGGCAGACCAAGCTGACGGCGGATGAAGCGGCGGCGGCGGCGCAGCCCCGCGAGCTGACTCCCGGCGCTGCAGTGCTGGCTCCCGAAAATGCGGGCAAGCCGACGCCGGAGGCCACTGTGATCCCGGCGCCCGCCGCCATGAAGAACGAATGGGCCGACATCGACGGGCTGTGCACTGACGGGAACGTCCCCAGCGACCCGCTGCTCAGCGGTTGCCTGCAGAACACCAGGCCGGAGAAGGTCACGAAGCGGATTGTGGTGCTCGGCGATTCCCACGCCCAGCAGTACATGGCGGCCCTCGGGCCCATCGCGAAAGAGCACGGCTGGGAGGTGGTCACACTCCTGAAGGGCAACTGCAGGTTCGGCGCCGAGTCACCAGACCGCAACGCCGAGTGCAACGCCTTCAACAAGGCCAGCGCCGCGTACGTCATGGAACACAGGCCCGACGCCGTGTTCACCGTCGCGTCCCTGACGCACAAGGAAGCTCCCTTCGAAACCGAAGTGCCCGGCTACCTGGACGGCATCAAGCCGTTTACCGACGCCGGGATGGATGTCGTCGGCGTTCGCGACAACCCCCGCTTCACGATCAACATGCCCGAATGCGTACAGAAGTACGGTGCCGAAGCACCCGAATGCAACCCGCCGCTGGCCCAGTCCCTCGCGGCCTCGTCGCCGCTCGATGCGTACCAGGGCAAGGTGGACGGCCTGCATCTGATGGACATGAGCGACTTCATCTGCGCCGACGGGACCTGCCCGGCGGTGGTGGGCAACGTGTACGTCTACAAGGATGACAACCACCTCACCAAGACGTATGTGCAGTCCATGATCCCGATGTTCGAGAAGCGGCTGCTCACAGCGACCGGCTGGAAGTAA	MPEAITREPAGTLPRGDAPKEASREPRAARLKAKAGYRPEVQGLRALAVLMVVTYHVWLGRVSGGVDIFLLVSAFLLTLSFVRKVETGTPLRLVRHWLHLFKRLIPAAVVVILGVLAGTWLVIPQSRWPDVLNEAWASLLYRQNWLLAETAVDYYAQDHAGASPLQHFWSLSIQGQVFILWPLIFAAAELIRRFLHSRFLQRRRDVSYRQVLLVAFGGLFVVSLIFSIEQTYTNQAYAYFDTRTRLWEFALGSLLALSLPYVKPGKVLRVVLGWAGLVAMISCGLVLTVDRSFPGFIALWPTLAAAAIIIAGQSGSRFGVDRILSSRPLVALGDNSYALYLWHWPILVLALAGTGIEQPNLVQGLAIVAGSVVLAVLTTRFVEKPLREWHWPQLRAWRTAVVIVACGALLAGPVAVWQTKLTADEAAAAAQPRELTPGAAVLAPENAGKPTPEATVIPAPAAMKNEWADIDGLCTDGNVPSDPLLSGCLQNTRPEKVTKRIVVLGDSHAQQYMAALGPIAKEHGWEVVTLLKGNCRFGAESPDRNAECNAFNKASAAYVMEHRPDAVFTVASLTHKEAPFETEVPGYLDGIKPFTDAGMDVVGVRDNPRFTINMPECVQKYGAEAPECNPPLAQSLAASSPLDAYQGKVDGLHLMDMSDFICADGTCPAVVGNVYVYKDDNHLTKTYVQSMIPMFEKRLLTATGWK				NA	NA	NA	NA	NA
D1-17_01212	1512	guaB	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGACCCAGCCCGAACACGATCCCTTCGGCTTTATCGGCCTGACGTACGACGACGTCCTGCTGCTTCCCGGCCACACGGACGTCATCCCGTCCGACGCCGACACGTCCTCCAGGATCTCCAAGCGGATCACGGTTCAGACGCCGCTGCTGTCGGCCGCGATGGACACCGTCACCGAATCCCGCATGGCCATCGCCATGGCCCGCCAGGGCGGCCTCGGCGTCGTGCACCGCAACCTGGCCATTGACGACCAGGCGGACCAGGTGGACCGGGTCAAGCGCAGCGAGTCGGGCATGATCACGAACCCGCTGACTATCCGCCCCGAAGCCACCCTGCGGGAACTCGATGAGCTCTGCTCGCAGTACCGGGTATCCGGCCTTCCCGTAGTGGATGAGGAAAACCGCCTGCTCGGCATCGTCACTAACCGCGACACCCGCTTCGTGCCGGAGTCGGACTTCTCGATCCGCCTCGTCAGTGACGTCATGACGAAGATGCCGCTGGTGACGGGGCACGTCGGCATCAGCCGTGACGAAGCGTCGCACAAGCTGGCCACCAACAAGATCGAGAAGCTGCCGCTCGTGGACGAGCAGGGCCGCCTCAAGGGCCTGATCACCACCAAGGACTTTACCAAAGCGGAGCAGTACCCTCTGGCGACCAAGGACGACGAAGGCCGGCTCCGGGTGGGTGCCGCCATCGGTTTCTTCGGTGACGGCTGGGAACGTGCCATGAAGCTTATCGACGCCGGCGTGGACGCCCTTTTCGTGGATACCGCGAACGGCCACTCCCAGGGGGTGCTGGACATGATCCGCCGCCTGAAGTCCGATCCGGTGGCTGCCCACGTGGACATCATCGGCGGCCAGGCGGCCACCCGGGAAGGCGCCCAGGCGCTGATTGATGCCGGTGCTGACGGCATCAAGGTGGGCGTCGGCCCCGGCTCCATCTGCACCACGCGCGTGGTGGCCGGCGTGGGCGTGCCGCAAATCACCGCCATTTACGAGTCCGCGAAGGCGGCCATCCCGGCCGGCGTTCCGCTGATCGCCGACGGCGGCCTCCAGTACTCGGGCGACATCGGCAAGGCGCTGGTCGCCGGTGCTGACACCGTCATGCTCGGTTCCCTGCTCGCAGGCTGTGACGAGTCCCCGGGCGAGCTGATCTTCGTCAACGGCAAGCAGTTCAAGAGCTACCGCGGCATGGGTTCGCTGGGCGCCATGCAGTCGCGCGGGAAGAACACGTCCTACTCCAAGGACCGCTACTTCCAGGCCGACGTCTCGGGCGACGACAAGCTCATCCCCGAGGGCATCGAGGGTCGCGTGGCGTACCGCGGGCCGCTGGCATCAGTCGCCTATCAGCTGGTTGGCGGGCTGCGCCAGACCATGTTCTACACCGGTGCTCCGACCATTCCTGAGCTGAAGGCCCGCGGCAAGTTCGTCCGCATCACCCCTGCCGGCCTGAAGGAATCCCACCCGCACGACATCCAGATGACGGTGGAGGCACCGAACTACGGTTCCCGCTAA	MTQPEHDPFGFIGLTYDDVLLLPGHTDVIPSDADTSSRISKRITVQTPLLSAAMDTVTESRMAIAMARQGGLGVVHRNLAIDDQADQVDRVKRSESGMITNPLTIRPEATLRELDELCSQYRVSGLPVVDEENRLLGIVTNRDTRFVPESDFSIRLVSDVMTKMPLVTGHVGISRDEASHKLATNKIEKLPLVDEQGRLKGLITTKDFTKAEQYPLATKDDEGRLRVGAAIGFFGDGWERAMKLIDAGVDALFVDTANGHSQGVLDMIRRLKSDPVAAHVDIIGGQAATREGAQALIDAGADGIKVGVGPGSICTTRVVAGVGVPQITAIYESAKAAIPAGVPLIADGGLQYSGDIGKALVAGADTVMLGSLLAGCDESPGELIFVNGKQFKSYRGMGSLGAMQSRGKNTSYSKDRYFQADVSGDDKLIPEGIEGRVAYRGPLASVAYQLVGGLRQTMFYTGAPTIPELKARGKFVRITPAGLKESHPHDIQMTVEAPNYGSR	PGPT0021445_1131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
D1-17_01213	1854	btuD_3		Vitamin B12 import ATP-binding protein BtuD	ATGTCCCAGCCACGCCATCCCGCCGAACTGAGCCCTCAAAGGGAACCTTCCCGGCGTCTGGCACTTCGGCCATACGCCGGGGCGGTAGCCCAGGTGCTTCGCGTCAGCTTCCGTGCCTCCCCGGGCGCTGTGATCATGAAAGTGCTCGGCTCGCTGATCTCAGCTGTGCTGCCGCTGGTCACCACTTTCTTCGCCGCGCTGACGACCACCGCGCTGGCCGCCGCCTATAGCGGTGACGCCGAGGCCGGACAGCTGGCCATCGTCTATGTGGTCATCACTGCCGCGCTCGGTCTTTTCTGGGGAGCCTTCAGCAGCGTCGACCGGTACATCCAGCAGCTGATGAGCTTTAAAGTGGGCGCCATCGTGGGGGACCAGATGTACGAGCGCTTCCTTGCCTTGGAATTCTGGCGGTACGACGACAAAGAGACCGTGGACCTGTACGACAGGGCCAAGAGATTCTCTGACTCCTATGCCAGGGTCCTGGACCGCATCGCGGCCATCTTCACCCAGCTTGTGTCGGTCATCCTGGCCGTCGGGGCGCTCCTGCTGGTCAGCTGGTGGATCTCGGTGATCGTCCTGATCGCCATCGTGCCGAGCGTCTACCTGCAGTTCAAGCTCTCCCGCGAACAGATTGCCCACTGGAACACCCAGGTGGACTCCCGGCGCCAGAGGAGGATGATCGAAACCAATCTCCTGCGTCCGCAGCACATCGCCGAGATGCGCCTGTACGGCATCGTGGGGTTCCTGATGGATTTCCGGTCCCGTCTCCGGGACGCGGACGAGCGCCGCCGTCTTGACTTCCAGCGGCGCTACATTCCCAAACAGTTGGCGGCGGACGCGCTGCAGTATGGGGCTGAAGTCATTTCGCTGATCTGGGTAGTGGGACAGATCATCGCGCGTGCCCAGCCGGTGGGCCAGTTCCTCTACGTGCAGCAGATTGTCAGCCGGGCGCTGTCCACGGCAAACAACCTGGTGTCTTCGCTCAGCTCAATCGACGAGGACCTGGCGAACCTGAAGGACTACGAGCTGTTCATGGCGTTGCCGGTGCACTCCAGCCACACCCCGCCGCTGCTGCAGGCGCCGAAGACAGTGGAATTGCGCAACGTCCGCTTTACCTACACCGGCAGCGACCTGGAAGTGATCCGGGGCATCTCGCTGACCATCCGCGAAGGACAGCACGTCGCCATCGTGGGGGAGAACGGCGCGGGGAAGTCCACTCTCATCCGCATCCTCGCGGGACTTTACCGGCCAGACTCGGGACAGGTGCTGCTCGACGGCGTCGATCTCGCCGCGGTGGACGTCACGTCCTGGCACCGGCACCTGGCGGTGCTGAGCCAGGAGTTCCTCAAATACGAGTTCGCCACCGCTGCGGAAAACATTTATTTCGGCGACGTCGATTCACCCCGCGACGACGGCCGGATCCGGCGCGCCGCCGCCGACGCGGAGGCGCTGGACTTCATCACCAAGCTGCCCAACGGACTCGACAACCATGTCAGCAACTGGATGGAGGATCCGCGGGGCAGGAAGGGCAGCGGCCTGTCCGGCGGCCAGTGGCAGCGGCTCGCCATGGCGAGGAACTTTTACCGGAACGCCGCATTCATGGTGATGGACGAGCCGACGTCCGCCATCGATGCCCTGGCTGAGCACCGTATCTTCACCAGGCTCTTTGCGGACCGCAGCAGTACCATCATCGCCATCAGCCACCGGCTTGCCACCATTGAGAAAGCGGACACCGTCTACATGCTCGAGGACGGCCGGATCGTTGAGCAGGGAACACACCGGGAACTCGTGGCACTCCGAGGCCGCTATTTCCGGATGTTCGAATCCCAACTCAGCGCCCCCACCAGCGCCTAG	MSQPRHPAELSPQREPSRRLALRPYAGAVAQVLRVSFRASPGAVIMKVLGSLISAVLPLVTTFFAALTTTALAAAYSGDAEAGQLAIVYVVITAALGLFWGAFSSVDRYIQQLMSFKVGAIVGDQMYERFLALEFWRYDDKETVDLYDRAKRFSDSYARVLDRIAAIFTQLVSVILAVGALLLVSWWISVIVLIAIVPSVYLQFKLSREQIAHWNTQVDSRRQRRMIETNLLRPQHIAEMRLYGIVGFLMDFRSRLRDADERRRLDFQRRYIPKQLAADALQYGAEVISLIWVVGQIIARAQPVGQFLYVQQIVSRALSTANNLVSSLSSIDEDLANLKDYELFMALPVHSSHTPPLLQAPKTVELRNVRFTYTGSDLEVIRGISLTIREGQHVAIVGENGAGKSTLIRILAGLYRPDSGQVLLDGVDLAAVDVTSWHRHLAVLSQEFLKYEFATAAENIYFGDVDSPRDDGRIRRAAADAEALDFITKLPNGLDNHVSNWMEDPRGRKGSGLSGGQWQRLAMARNFYRNAAFMVMDEPTSAIDALAEHRIFTRLFADRSSTIIAISHRLATIEKADTVYMLEDGRIVEQGTHRELVALRGRYFRMFESQLSAPTSA				NA	NA	NA	NA	NA
D1-17_01214	1137		COG0516	putative oxidoreductase/MSMEI_1564	GTGACTTACGAGATTGAGATTGGCCGTGGTAAGCGTGGGCGTCGTGCCTACTCCCTGGATGACATTGCGATCGTCCCCAACCGTCGTACCCGTGACCCCAAGGACGTCTCAGTCTCGTGGCAGATCGATGCCTACCAGTTCGACATGCCCGTCATCGCGGCGCCGATGGACTCCGCCATGTCCCCGGCAACGGCCATCGCCCTCGGCAAGCTCGGCGGCCTCGGAGTTCTGGACCTTGAAGGTCTGTGGACCCGGTATGAGGATCCGCAGTCAGTGCTGGACGAAATCGGCTCGCTCGAAGACCAAACCAACAGCCCTGCCGTCACCCGCAGGATGCAGGAGCTCTACCGGGCCCCCATCCAGCCCGAACTGATCACCACGCGCCTAGCGGAGATCCGTGCCGCAGGCGTAACCGTGGCCGGGTCCCTGACGCCGCAGCGCACCCAGGAACACTACAAAACCGTGGTGGCCGCCGGCGTCGACATCTTCGTCATCCGCGGCACCACCGTCTCCGCCGAACACGTCTCCAAGGATCATGAACCGCTGAATCTCAAGCAGTTCATCTACGAACTCGACGTGCCCGTCATCGTAGGTGGCGCCGCCGGCTACACACCCGCACTGCACCTCATGCGCACCGGCGCTGCCGGCGTGCTGGTTGGATTTGGCGGCGGCGCCACCACCACAACCCGCCGGGCGCTGGGCATCCACTCGCCGATGGCCTCGGCCATCTCCGACGTCGCCGCCGCACGCCGCGACTACATGGATGAATCCGGCGGCCGCTACGTCCACGTCATCGCCGACGGCGGCATGGGCGCCTCGGGCGACATCGTGAAGGCGATCGCCATGGGCGCGGACGCCGTCATGCTCGGTTCCGCTCTGGCCCGCGCCGAGGAGGCGCCCGGCAAGGGCTGGCACTGGGGCCAGGAAGCACACCACCTTGAGTCGCCCCGCGGGGACAGGGTGAACGTTGGCACCGTGGGGCCCCTCGAAGAGGTCCTTTTCGGACCCGGCCACCACACCAACGGCACCTCCAACCTGATCGGTGCGCTGCGCCGCTCCATGGCCACCACCGGCTACTCGGACCTCAAGGAGTTCCAGCGGGTCGACGTCGTGGTGTCGCCGTACGGCGGGAACTGA	MTYEIEIGRGKRGRRAYSLDDIAIVPNRRTRDPKDVSVSWQIDAYQFDMPVIAAPMDSAMSPATAIALGKLGGLGVLDLEGLWTRYEDPQSVLDEIGSLEDQTNSPAVTRRMQELYRAPIQPELITTRLAEIRAAGVTVAGSLTPQRTQEHYKTVVAAGVDIFVIRGTTVSAEHVSKDHEPLNLKQFIYELDVPVIVGGAAGYTPALHLMRTGAAGVLVGFGGGATTTTRRALGIHSPMASAISDVAAARRDYMDESGGRYVHVIADGGMGASGDIVKAIAMGADAVMLGSALARAEEAPGKGWHWGQEAHHLESPRGDRVNVGTVGPLEEVLFGPGHHTNGTSNLIGALRRSMATTGYSDLKEFQRVDVVVSPYGGN	PGPT0021445_6217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
D1-17_01215	1752	glpD2	COG0578	Glycerol-3-phosphate dehydrogenase 2	ATGACCAGTTTCGCCGGTGGATCTGCAGAGGCCCGGGGCGCCCTCGGGCCGGAAACAAGGGAGGCCTCCCTCGCGGCGCTCAAGGCCACCACGCAGCCCGGCAAGGAGCTCGACATCCTCATCGTCGGCGGCGGCATTGTCGGCTGCGGAGCAGCGCTCGACGCAGTCACCAGGGGACTGAGTGTCGGCATCGTCGAAGCCAACGACTGGGCGGCCGGCACCTCATCCCGGTCCTCCAAGCTCATCCACGGCGGTCTGCGTTACTTGGAAATGCTGGACTTCGGGCTCGTCAAGGAGGCACTGCAGGAACGCGGCCTCCTCCTGTCGGAACTCGCTCCGCACCTCGCCCGTCCGGTCCCGTTCCTGTATCCGCTCCATAAGCCGTTTTTTGAACGCCCGTACATCGGGGCCGGCATCGCCCTTTACGACATCATGTCCATTTCGGGCGGGCACAAGCGCGGTGTCCCGTTCCACAAGCACCTGACCCGCCGGGGGACACTGCGGGCAGCTCCTAGCCTGAAGGACGATGCCTTCGTCGGATCAATCCGGTACTACGACGGGCAGGTGGACGATGCCAAGTACGTGGCCAACCTCGTCCGCACCGCCGCTCATTACGGGGCCCACGCCGTCAACCAGACGGCTGTGGTTGACTTCCTCCGCGAAGGCGAACGCGTGGTGGGGGCGAAGGTGGTCAACCACGAGGACGGTTCCACCTTCGATATCCGAGCCAAGCAGGTCATCAACGCAACCGGCGTCTGGACTGATGAGACGCAGGCCATGGTCACCGAGCGCGGGCAGCTTAAGGTCCGGGCGTCGAAGGGCATCCACCTGGTGGTGCCGCGCGACCGCTTCCAGTCCACTGTCGGCCTTATCCTTCGTACGGAAAAGTCTGTGCTGTTCGTCATCCCCTGGGGCCGGCACTGGATCATCGGCACCACCGACACGGACTGGCACCTGGACAAAGCCCACCCGGCCGCGTCCAGCAAGGACATCGACTACCTGCTGGAACACGTCAACGCCGTGCTTAAGCGCCCGCTCACCCGGGAAGACGTCGAGGGTGTGTACGCCGGGCTTCGGCCATTGCTGGCTGGCGAGAACGACTCCACAGCCAAACTGTCCCGCGAGCACGTGGTGGCCCACCCGGTGCCCGGGCTCGTGGTGGTGGCGGGCGGCAAATGGACCACCTACCGGGTCATGGCAAAGGACGCGGTGGACGAAGCCACCCGCAGCATGGACGAGCGCGTGCCGCCGAGCTGCACGGACACGATTCCTCTCCTGGGCGCCATCGGGTACAAGGCTGCCTGGAACCGCCGCAACAGGACGGCAGAGGAGACGGGCGTCCACGTGGCCCGCATCGAGCATCTGCTGAACCGCTACGGCTCCATGACGCCGGAAGTGCTGGCCCTTATAAAAGAGAACCCAGAGCTTGCGGAACCCCTGCCCGGAGCTGATGACTACCTGCAGGCTGAGGCCGTTTATGCTGCCAGCCACGAAGGCGCCAGGCACGTGCAGGATGTCCTGACGCGAAGAACCCGCATTTCCATCGAGTCTTGGGACCGGGGTGTGTCGGCCGCGCCGGTAGTCGCTAAGCTTATGGGAGAAATTCTCGGCTGGAGCGATGCGCAGCGGGAGAGCGAAATCAAGCACTATCTCGCGCGGGTGGAAGCCGAAAGACTCAGCCAGCAGCAGCCGGACGACGAGTCTGCCGACGCTGCCCGACTGGGCGCTGAGGACATTGTGCCGCTGCGCTGA	MTSFAGGSAEARGALGPETREASLAALKATTQPGKELDILIVGGGIVGCGAALDAVTRGLSVGIVEANDWAAGTSSRSSKLIHGGLRYLEMLDFGLVKEALQERGLLLSELAPHLARPVPFLYPLHKPFFERPYIGAGIALYDIMSISGGHKRGVPFHKHLTRRGTLRAAPSLKDDAFVGSIRYYDGQVDDAKYVANLVRTAAHYGAHAVNQTAVVDFLREGERVVGAKVVNHEDGSTFDIRAKQVINATGVWTDETQAMVTERGQLKVRASKGIHLVVPRDRFQSTVGLILRTEKSVLFVIPWGRHWIIGTTDTDWHLDKAHPAASSKDIDYLLEHVNAVLKRPLTREDVEGVYAGLRPLLAGENDSTAKLSREHVVAHPVPGLVVVAGGKWTTYRVMAKDAVDEATRSMDERVPPSCTDTIPLLGAIGYKAAWNRRNRTAEETGVHVARIEHLLNRYGSMTPEVLALIKENPELAEPLPGADDYLQAEAVYAASHEGARHVQDVLTRRTRISIESWDRGVSAAPVVAKLMGEILGWSDAQRESEIKHYLARVEAERLSQQQPDDESADAARLGAEDIVPLR	PGPT0006775_880	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
D1-17_01216	489	fruA_1	COG1299	PTS system fructose-specific EIIABC component	TTGGCGGAAGCACTGGACCGTTACGATGCGGAGCTCACCACACCGGAGATGGTGATTCTGGAGATGGACGCGGCAGACAGGCTGGATGCCTCTGCCCAGCTCGCCCGCAGGCTCTTCGACGCCGGGCGGATCTCCGATCTTGACGGTTTCCTGAAGCACGTCAACGCCCGCGAACACCAGCTGGCCACCGGCCTCCCGGGAGGCGTGGGCCTGCCCCACGCCCGCAGTGAATTCGTGTCGCGCACGTCCATCGCTGTGGGCATTACCAAGTACGGAAAATCCCTTGACTTCGGGGCCGCCGACGGACCGGCCACTGTGGTTCTGCTGATAGCCACGCCGGCTAGTTCCTTTTCAGACCACTTGGAAGTGCTGGCCACCCTGGCCCGCTCCCTGTCCAAGGAATCCTTCCGGGAATCCCTCCGCCGTGCCTACGACGCTGAAGTCATCGCCGAGCTCATCAACTCAAGCCTGGTCTTCTTCGACCACTAG	MAEALDRYDAELTTPEMVILEMDAADRLDASAQLARRLFDAGRISDLDGFLKHVNAREHQLATGLPGGVGLPHARSEFVSRTSIAVGITKYGKSLDFGAADGPATVVLLIATPASSFSDHLEVLATLARSLSKESFRESLRRAYDAEVIAELINSSLVFFDH	PGPT0017130_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017130-fruB-K02768	NA	NA
D1-17_01217	873			hypothetical protein	GTGTGGAAAACAGCCCTCCAGCCCCGGTGGATCGCAGGCCTTATCTTTGCGATCGCCGTTTCGGGCGTCTTCGTGCTGCTGAGCCAATGGCAGTTCGGACGGTCCACACAGCCTGAGATGCCGGTCAGCCCGACCACGGAGGAAGTCAAGGAGTTGACGGGGCTGCTGCAGCCCGGCGAATTCTTCCGCGGCTCAGTGGCAGACCAGATGGTCACTGCCACCGGCAGCTACGATCCCGCCAAACAGGTATTCATTCCGGGCCGGCTCAACGCCGGGAAAATGGGCTACTGGGTGGTAAACGCCTTCGCCGTCGACGGCGCCCCGGCACTCAAGGGCGCAGCCGTATCCCCGCAAACCTGGATACCTGTGGCGCGCGGCTGGGTCGCCGATCCCGCCGAAGCCGGTGCCCCGCCGTCGGGCACTATCCGGCTCACCGGGCGGCTCCTGCCGTCCGAAGCGCCGGTCCCGGGCAAGGCCCCGGCCCCCGGACAGGCCACCGCCGTTTCCGTTGCAGAGCTCATCAACGTCTGGAACGTCAGCAGCTACCCGGCCTTCGTTTCCGCCACGTCCGAAATCTCCGGAGCGTCCGACGTCGGTGCTGCCGCCGCCGCTGGCGGCCTCGAGCCGCTCAACATCGGTGCCCAGCCGCCGCCGGCGAAGGTCAACTGGCTGAATCTGTTCTATTCGGTGGAATGGATTGTCTTCGCCGGTTTTGCCCTCTTCATCTGGTGGCGACTGGTCAAGGACGACTACCAGCGCAGCCTCGAGGAACACGAGGACAGCCACGGCATCCCCGGACCGGACGCCGGGGCTCACCAGGTGCAGCCGGCCCGGACCGAACACGACCAGAACCAACCAAAGGTACAGCCATGA	MWKTALQPRWIAGLIFAIAVSGVFVLLSQWQFGRSTQPEMPVSPTTEEVKELTGLLQPGEFFRGSVADQMVTATGSYDPAKQVFIPGRLNAGKMGYWVVNAFAVDGAPALKGAAVSPQTWIPVARGWVADPAEAGAPPSGTIRLTGRLLPSEAPVPGKAPAPGQATAVSVAELINVWNVSSYPAFVSATSEISGASDVGAAAAAGGLEPLNIGAQPPPAKVNWLNLFYSVEWIVFAGFALFIWWRLVKDDYQRSLEEHEDSHGIPGPDAGAHQVQPARTEHDQNQPKVQP				NA	NA	NA	NA	NA
D1-17_01218	510			hypothetical protein	ATGATTGAACCCAAGCCTGCCATCGAGCCGCAGCCCTCGAACTCCAAAGGCCCTGGCCAGAAGAAGCGGCGCTTCGGCGGCACGCAGGCCCAGATCCGCTCCGCCCTGAAGTTCTACAAGGTGATGGCCTACCTCACCGGTGCCATGCTGCTGCTGCTCTGCGCGGAACTGGTGGCACGCTACGGTTTCGGCCAGTACCTGTTCGCCGGGGGGACCAGCGCCGTCACCGGTCAGCCGTTCGGCTTCGGGTTTGCCGGCGCCGAACCCAAGGGCGTGTTGGGGGGCGTAAACCTGTCGGTCACAGTGCTGATTGTGCATGGCTGGATGTACGTGGTGTACCTCATGTCCAACTTCCGGCTGTGGGCACTGATGCGCTGGAACTTCCTGAAGCTGATCCTGCTTGCACTTGGCGGGGTGGTGCCGTTTCTCTCCTTCATCGTGGAGAAAAAGTTTCACGCCGAGGTGGAGGCCGAGCTGGCAGCCCATCCGGAAGCGGCCAGCCGGTACTAG	MIEPKPAIEPQPSNSKGPGQKKRRFGGTQAQIRSALKFYKVMAYLTGAMLLLLCAELVARYGFGQYLFAGGTSAVTGQPFGFGFAGAEPKGVLGGVNLSVTVLIVHGWMYVVYLMSNFRLWALMRWNFLKLILLALGGVVPFLSFIVEKKFHAEVEAELAAHPEAASRY				NA	NA	NA	NA	NA
D1-17_01219	1590	guaA	COG0518	GMP synthase [glutamine-hydrolyzing]	GTGACTACTCCCACTGCATCCCAGACTTCCCAGAAGCCGGTGCTGGTTGTTGACTACGGTGCCCAGTACGCGCAGCTGATTGCCCGCCGCGTCCGGGAAGCGAATGTGTATTCGGAAGTGGTTCCGCATACGTACACCACCGAGCAGCTCCTGGCCAAGAACCCCGCCGCCATCATCCTGTCCGGCGGACCCGCGAGCGTCTACGCGGACGGCGCCCCGAGCGTCGGAGCCGACCTCTTCGAGGCAGGCGTTCCGGTGTTCGGTATTTGCTACGGCTTCCAGGCGATGGCCAACGCCCTCGGCGGTAAGGTCGCCCAGACCGGCCTGCGCGAATACGGTTCCACCGAAGCCACCGCAGTGGGCGGCGCACGCTCCATCCTGTCCGGCGTACCGGAACAGCAGAATACCTGGATGAGCCACGGTGACTCCGTCCAGGAAGCGCCCGACGGCTTCGAGGTCCTGGCCACTACGGCAGGTGCACCGGTCGCCGCCTTCGCCAACGAGGAAAAGTGCCTGTACGGCGTGCAGTGGCACCCGGAGGTCAAGCACTCGGCCTACGGCCAGCAGGTCCTGAAGAACTTCCTCTTCAAGGGCGCCAAGCTGGAACCGAACTGGACTACCGGCAACATCCTCGAAGAGCAGGTCGAGCGGATCCGCCAGCAGATCGGCACCGACCGCGTTATCTGCGGCCTGTCCGGGGGCGTGGACTCCGCGGTAGCCGCCGCTCTTGTCCAGCGTGCCGTCGGCGACCAGCTGACCTGTGTTTTCGTGGACCACGGCCTGCTGCGCGAAGGCGAAGCCGAACAGGTAGAGCGGGACTTCGTGGCCGCCACGGGCGTCAATCTCTACGTGGCCAACGAGCAGGAGCGCTTCCAGGCCGCCCTTGCCGGGGTCAGCGACCCCGAGACCAAGCGCAAGATCATCGGCCGCGAGTTCATCCGCGCCTTCGAAGAGGCGGAACTAGCCATCATCGCCGAAGCGGCAGCCCACGGCGAGAAGATCAAATTCCTCGTGCAGGGCACTCTGTACCCCGACGTCGTCGAATCGGGCGGGGGTGAGGGTGCTGCGAACATCAAGAGCCACCACAACGTGGGCGGACTGCCGGAGGACCTGCAGTTCGAGTTGGTCGAGCCGCTGCGCGCCCTCTTCAAGGACGAGGTGCGTGCCGTTGGGGCCCAGCTCGGCCTGCCCCAGGAAATCGTGGGCCGCCAGCCGTTCCCCGGGCCCGGCCTGGGGATCCGGATCGTCGGCGAAGTCACCAAGGAACGCCTCGACCTGCTTCGCAAGGCCGACGCCATCGCCAGGGCAGAACTGACTGCAGCCGGCCTCGACAACGACGTGTGGCAGATGCCCGTGGTGCTGCTCGCTGACGTCCGCAGCGTCGGCGTCCAGGGCGACGGCCGTACCTACGGCCACCCGATCGTGCTGCGCCCGGTTTCCTCCGAGGACGCCATGACCGCCGACTGGTCCCGCCTGCCGTACGATCTGCTGGCGCGCATCTCAAACCGCATCACCAATGAGGTTGACGGCGTCAACCGGGTGGTCTTGGACGTCACAAGCAAACCCCCGGGAACCATTGAGTGGGAATAG	MTTPTASQTSQKPVLVVDYGAQYAQLIARRVREANVYSEVVPHTYTTEQLLAKNPAAIILSGGPASVYADGAPSVGADLFEAGVPVFGICYGFQAMANALGGKVAQTGLREYGSTEATAVGGARSILSGVPEQQNTWMSHGDSVQEAPDGFEVLATTAGAPVAAFANEEKCLYGVQWHPEVKHSAYGQQVLKNFLFKGAKLEPNWTTGNILEEQVERIRQQIGTDRVICGLSGGVDSAVAAALVQRAVGDQLTCVFVDHGLLREGEAEQVERDFVAATGVNLYVANEQERFQAALAGVSDPETKRKIIGREFIRAFEEAELAIIAEAAAHGEKIKFLVQGTLYPDVVESGGGEGAANIKSHHNVGGLPEDLQFELVEPLRALFKDEVRAVGAQLGLPQEIVGRQPFPGPGLGIRIVGEVTKERLDLLRKADAIARAELTAAGLDNDVWQMPVVLLADVRSVGVQGDGRTYGHPIVLRPVSSEDAMTADWSRLPYDLLARISNRITNEVDGVNRVVLDVTSKPPGTIEWE	PGPT0021580_1222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
D1-17_01220	4065			hypothetical protein	GTGTCAGTTGGTCAGGCCGACCCCGACGGTTCGGAGGAGCTCCAAAAGTGGCTGTCCGGGCTTAAACCCGTCACAGGGGCGGACACGATGCTGCGCTTCACCAAGACCCCTGAGGGCTCCATTGACCTGACGCATGCCCACCCGTCGGGCCTGGCCCAGCTCATGGCAGGGCGGCGAACCAGGCTGTCCACCCTGATCCGGGACCAGCAGCAGTACGTCGTGGCCGCCCGTGCATCCCGGAACCTTCGCTCCAAGATATTCGAACTGGCCAACGACCGCGGCATTGAGGCCGGGTACCTGTCCTCCGGCACCGTTGTGTGGACGTCCGCTGTCGGAGGCAAGCCGCAGCGTGTTTCAGCGCCCGTCATGCTCACCGCGATCTCCCTGACGATCAGGCCCGGGGAAGACGATTACGAACTTCAGCTGACCGAGCAGGCGCGGATCAACCCTGCCCTCATCCGCCACCTGAAGACCATCCACGGCATCGTCTTCGATGTCAATGCCGTCACCCGGATGGCTTACAGCACGGCACGCTTTGATCCGCAGCCGGTCCTGGACCGGATTGGCACCCTCGTCAAGCCGATCCCCGGGGCCGAGGTGGAGCACAACCTGCTGGTTTCCACCTTTGCGGACCTCGCGGACAACCTGGATGACCCCTGGATTAACCAGCAGAACACCCTTGTAACCTCCCTGGCCCGTGCCGCCGCCGGCGAAGAGATCGACATTCCGGTGCTGCAGCCCGAACGCTTCCCTAGCGTGGACGAACGGAACCCGGCCGAGGAGCTGCTCCTGCTGGACGCGGACGCGGACCAGCAGTACGTCATCGACACTGTCCGGGCAGGGGACTCGCTACTGGTCAGCAGCCCTCCCGGCACCGGCCAGACGCAGACCGCCATTAATGCCATCGGCGCGCTGGTGGATGAGGGCAAAACGGTCCTTGTGGTGGGGGACCGGCGGGCAAGCCTCAATGAAGTTGCCACCCGCCTCGAAGCCCTCGGCCTGGAGTCTATTCTGTTCCAGCTCTCTGGCAGTGCCACGCCGCAGCAGCTCAAGGGGCAGCTGGTCCAGGCCATCGTCCGGAACGAAAAGACGGCTGAGCCGCGCCTGGGCAACCTGCACAAAACCCTGACCGAGCACCGCCACGCCCTGATGGACCATGTGGCGTCCCTGCACAACGTCCGTGAGCGGTGGGGCTGCTCTCCATACCAAGCAATGCAGTCACTGGCGGAACTGACCTCGATCCAACCTGCCCCTGCCACCACCGTACGGCTGAAGCGCAGCGTGCTGGACAACATTCGTGACCGCGAGGAGCTGGCGGGCAGGCTGAAGCGTGCGGCGGAGCTCGGCAGCTTCAGCAGCGCCTCCACCTCGAGCCCCTGGCATGGCGCACGACTGGTGACGCGCAAGGAGACGGAAGAGGCCCAGGAACTGGCGCGCTCGGTAGAGAAGAAACTCCCCGAGCTGCAACGCCGCATGAAAGGCGTCGCGGACCACGCCGAAATCCGGCTGGGGACGACTTTTGCCGAGTGGGGCGCCCAGCTCAGGCTGCTGGTGGCTGTCCGGGAAAGCCTGGACAAATTCACCCCGGACATTTTTGACCGTCCCGTGCACGACCTGATTTCCGCTACGGCTTCCTCGTCCTGGCGGCGTGAGCGCGGCATCGAGATGCCCTCCATGCAGCGGTCGCGCCTGCGCCGGGTGGCCAAGGAGTACGTCCGCCCGGGAGTACACATTTCGGACCTTCACACGTCACTGGTGCTCGTGCAGGAACAGCGTGCGCTGTGGTCGGACTACGCCACCACCCAGCGGCACCCTGCCGTACCGTCCGGCCTGGCAGAGATCAGTATCATGCACCGCGGGCTCACCCGCGAACTGAAGCTGCTGGGCGACGCGCTGCGGCACACGCCGGACGGCGGCGCGCTCGAAAACGCCCCCTATCCCGCACTGATGGAGCGGCTCGAGCGGCTCGTGGCCGACTCCGAGACGCTCAAGACGCTGCCTGAGCGCACGCTCCTCATTGAGAACATGCGCGAGCACGGCCTGGGCGAGCTGCTCGCAGACCTCTCGGCGCGGCAGGTCCCTGCCGAGTCTGTGGCCGCGGAACTCGAACTGGCCTGGTGGCAGTCCGCGCTCGAAGCAATGATCAGCGGCGATGACTACCTCGCCATGTCTGACGGCGATGCGCTGCGCCAGCTTGAAGCGGAATACCGGCTCGCAGACAACGCACACATCGCCAGCGGCGCGGGTCGCCTGCGCTGGCAGCTGGCCGAGCGCTGGCGGACCGGCATCGAAGAGCACCCGCGCCAGGCTGACCTCCTGCGGAGCCTGCTCAAGGACGGGCGGGTCACGCTTGCCGCATTGACGGCACAGGCGCCCGCGCTTGTCCCCATGCTGGTCCCCGTATGGTCCGTCAGCCCCTACCTCATGACGGGGCTCCTTCCGGCCGAGCAAAAGTTTGACGCCGTGGTGATCCTCGATGCCGAGGCGACCTCGCTCCAGGCTGTCCTGCCCGCCATGGCCCGGGCCAAACAGGTGATCGCTTTCGGCGACGACAAGATTGCCAGCCCCCGCACCTTCACCGTGGCGGTGGAGCGGCTGGCCGCCGGCGAACCGACACACCAGAGCGTGGAGAGCGCCTTCACCGCGCTTGGACGGGTCCTTCCGGCCCGGCGGCTGCACTCGGTGTACCGCGCTGTGGATGAGGACCTGGTGCTTCAGCTTAGCCAGAGCTTCTACGACGGCGGCCTCCGTCGCCTGCCCGAAGGCCAGTCAGCCACGGGGCTGGACCGTGCCCTGCTCGTTGAGTACCTGCCCGACGGGACCGGCTTGCCGAGCGCAGACCACGAAGGCGTTGAGTCCGTGGTGGCGGAGGTCAACCGGGTGGTGGAGCTGGTGTTCGAACACGCCCGGCTCCGCCCCCGCACATCCCTAGCCGTCGTCACAGCCAGCCTTCGGCATGCCGCACGAATCGGCGAGGCGATCAGGCAGCAGCTTCCCAGCTATCCGATGCTTTCCGGATTCTTCACGGCGGGCGAGGAATCGTTTCGCGTGGTGGACCTGGAGCGGGCGCAGGGCCTGGTCCGTGACCATGTCATTTTTTCGCCCGGCTATGGCCGCACCCCACACGGGCGGGCGCTCCACAGCTTCGGGCCGCTCTCTGCCGAAGGCGGCCGGGCCAAGTTCGCCCTGGCCATGACCCGGGCCCGGCAGTCCCTGCACGTGCTCACCTGCTTCAAGCCCGAGGACCTGGACAGGACCCGTCTGGCCCACGGTGCCGTGGACCTGTACGAGCTGCTGGACCGGGAAATCGCGGGTAACACCACCTTGGGGACCCCGGCTTCCCGGGCAGCGGCGAGCGAGCAGGCCCTCGGTGCTGATCCGCTGGTGGCGGACCTGGGGGACCGGCTCCGGGCACGCGGGGCTCGTGTCTGGCACCAGTACGACGGCGTCATCGACGTCGTGGCGGCGGCGGACCCCCTGAGCACGATGGGCCAGGACGAAGCCGAGATCCCCCGTCCGGTGGCCATCGAGTCCGACGGAACAGAGCAGTACCGCCGGATGACGGTCAGGGAACGCAGCCGGCTGCGGCCGCAGCTGCTGGAGCGCCTGGGGTGGCGGTACATGCCGCTGTGGACGATAGAGGTCTTCACCGATCCCTCGGCGTGCGCCGACCGCATCGGCGGCTACCTCGGGCTCGAGAAACCCGCACCCGCCGTCCGCGGAATGGGTTCGCCGAACTTCTTCGATGAGGACGTCACGGGCTTCGACGACGGGTCCTATGCATCCTTTCCTGACCAGGAACGTAGCTATGAGCCGGAGCCCGGCCACAACGTGGGCTGGCACGCTAAGGACCAAGCAGAACGTGTCGACGCGGACCAGGACGGGCAGTTCCCGGACGGGCAGTTCCCGGGAGAGCAGTTCCAGGGTAAGCAGATCGGTGCTGGGCAGGCTCAGGACCGATCCGACCTCGCAGAGGGTGGCCCCCGGGAGCTTACAGAGCCCGGCGACATCATGGATGATGGATATCCCGGTGGCAGCAGGGACCGGAGGGAGAACGCCGGATGA	MSVGQADPDGSEELQKWLSGLKPVTGADTMLRFTKTPEGSIDLTHAHPSGLAQLMAGRRTRLSTLIRDQQQYVVAARASRNLRSKIFELANDRGIEAGYLSSGTVVWTSAVGGKPQRVSAPVMLTAISLTIRPGEDDYELQLTEQARINPALIRHLKTIHGIVFDVNAVTRMAYSTARFDPQPVLDRIGTLVKPIPGAEVEHNLLVSTFADLADNLDDPWINQQNTLVTSLARAAAGEEIDIPVLQPERFPSVDERNPAEELLLLDADADQQYVIDTVRAGDSLLVSSPPGTGQTQTAINAIGALVDEGKTVLVVGDRRASLNEVATRLEALGLESILFQLSGSATPQQLKGQLVQAIVRNEKTAEPRLGNLHKTLTEHRHALMDHVASLHNVRERWGCSPYQAMQSLAELTSIQPAPATTVRLKRSVLDNIRDREELAGRLKRAAELGSFSSASTSSPWHGARLVTRKETEEAQELARSVEKKLPELQRRMKGVADHAEIRLGTTFAEWGAQLRLLVAVRESLDKFTPDIFDRPVHDLISATASSSWRRERGIEMPSMQRSRLRRVAKEYVRPGVHISDLHTSLVLVQEQRALWSDYATTQRHPAVPSGLAEISIMHRGLTRELKLLGDALRHTPDGGALENAPYPALMERLERLVADSETLKTLPERTLLIENMREHGLGELLADLSARQVPAESVAAELELAWWQSALEAMISGDDYLAMSDGDALRQLEAEYRLADNAHIASGAGRLRWQLAERWRTGIEEHPRQADLLRSLLKDGRVTLAALTAQAPALVPMLVPVWSVSPYLMTGLLPAEQKFDAVVILDAEATSLQAVLPAMARAKQVIAFGDDKIASPRTFTVAVERLAAGEPTHQSVESAFTALGRVLPARRLHSVYRAVDEDLVLQLSQSFYDGGLRRLPEGQSATGLDRALLVEYLPDGTGLPSADHEGVESVVAEVNRVVELVFEHARLRPRTSLAVVTASLRHAARIGEAIRQQLPSYPMLSGFFTAGEESFRVVDLERAQGLVRDHVIFSPGYGRTPHGRALHSFGPLSAEGGRAKFALAMTRARQSLHVLTCFKPEDLDRTRLAHGAVDLYELLDREIAGNTTLGTPASRAAASEQALGADPLVADLGDRLRARGARVWHQYDGVIDVVAAADPLSTMGQDEAEIPRPVAIESDGTEQYRRMTVRERSRLRPQLLERLGWRYMPLWTIEVFTDPSACADRIGGYLGLEKPAPAVRGMGSPNFFDEDVTGFDDGSYASFPDQERSYEPEPGHNVGWHAKDQAERVDADQDGQFPDGQFPGEQFQGKQIGAGQAQDRSDLAEGGPRELTEPGDIMDDGYPGGSRDRRENAG				NA	NA	NA	NA	NA
D1-17_01221	732			hypothetical protein	ATGCCAGGTATCAGATTGCTTCCCTCCGCGACCGCCGCACGTTCCCGCCGGCACATACCGCTGCCCGCGCCGCGAGGACGCCCTCGGCGTGGACGTCTGGGTGCCTGGCTGAACCGCAACCGCAGGCTCGCTGTCGCGCTGCTCCTGTGTGTGGCGGCCGGAATCACGGTCCACCAGCTGACTCCGGCACCGTCCCACACAGTCCAGGCCATGGTGGCGGCACGGGATTTGCCTGCAGGGCATACCTTGGGCGGCACTGATGTCTCTGCCGTGAATGTTCCGCCCTCCGTTCTCTCCAGCGGAACCTTTGCTGCAACCGCGGAGGTAAGTGGCAAGCAGCTCGCTGCGCCGCTCAGGAAGGGGCAGCTTTTTACAGACGCCCAGCTCGTCGGGCCCGGCCTGCTCACGGGAGCGCCGCCGGGTTCGGCCGCGGTTCCGCTGCGGATGGCAGATCCCACATCGATCCAGCTGGTATCGCCCGGCCAGCTCGTCGATGTTGTGCTGACAAGCGGCGTGGGCTACGAACAGAAATCGGCTTCCAAAGTACTGGCGGCGGCGGTGCCGGTTCTCTGGACTTCAGAGCGTGAAGGCCAAAGCGGGCAGTGGCTCGCCGCCGGCGATTCCGACGGCCTGATGGTCGTGGCCGCCACCCCGTCCCAGGCCAGCGCTTTAGCGGGAGCCTCAACGCAGGGCAAACTCTTCTTCGTTCTGGTGAGCCCGCCTCCCCGATGA	MPGIRLLPSATAARSRRHIPLPAPRGRPRRGRLGAWLNRNRRLAVALLLCVAAGITVHQLTPAPSHTVQAMVAARDLPAGHTLGGTDVSAVNVPPSVLSSGTFAATAEVSGKQLAAPLRKGQLFTDAQLVGPGLLTGAPPGSAAVPLRMADPTSIQLVSPGQLVDVVLTSGVGYEQKSASKVLAAAVPVLWTSEREGQSGQWLAAGDSDGLMVVAATPSQASALAGASTQGKLFFVLVSPPPR	PGPT0016005_1627	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
D1-17_01222	294			hypothetical protein	GTGCCCACGTATGCCTATGCCTGCAAAGATTGCAGCCATGCCTTCGACATCGTGCAGTCGTTCACTGACAGCACTCTGACGTCCTGCCCCGAATGCCAGGGGACCCTACGCAAGAAGTTCAACAGCGTCGGTGTGGTCTTCAAGGGCTCAGGCTTCTACCGGACCGATTCGCGCGACTCAAAGGGCAGCACTGTTTCAGGGTCGCCCTCTGCTTCTTCGGCTGCGCCTGCTGCTTCCTCAGCAACGCCTGCAGCCTCTGCTTCTTCTCCCGCACCCGCGGCCGCCGCGAGCTAA	MPTYAYACKDCSHAFDIVQSFTDSTLTSCPECQGTLRKKFNSVGVVFKGSGFYRTDSRDSKGSTVSGSPSASSAAPAASSATPAASASSPAPAAAAS				NA	NA	NA	NA	NA
D1-17_01223	609		COG0212	5-formyltetrahydrofolate cyclo-ligase	ATGTCACGAGAGACCCTGTCGAAGGATGAAATCCGCTTGCAGCACCGGATAGCCCGGGCGGGAATGCAGCCGGAGACCCTTGCGGCTGCAGCGGCGGGAATAGCCCTGCACGGGTTGTCATGGGCGCAGACCATTACCGGCGGCAGGCCGTCAACGTTCACGGCTTATCTCGGCGTCGGTTTTGAGCCACCCACTCTCCCGCTGATCTCGGCGCTTCACAACGCAGGCCACAGGGTGCTGCTGCCGGTGTGCGAACCAGACCGGACTCTTGGCTGGGTTTTCTGGGATCCGGCCGTGAAGTTTGTCCGCAGCCGCTACGCCCCCATCCAGGAGCCGGACGGGGAGCGCCAGGGATTGGACGTGATGAGAACTGTGGCAGGAATCTTCCTGCCTGCCACAGCTGTCGACATGAGCGGCAACAGGATCGGCCAAGGCGGCGGGTACTACGACAAATTCCTGGCGAAGGCCGAGTCCAACGGCGTGCAGGTGCCCAGGACCGCGGTCATTTTCGACGCCGAACTCCTGCCGCCTTCCAGCATCCCCGCCGAGGGCTTCGACCGGCCTGTCGATGCGGTTCTGTCCCCGTCAGGCCTAATCCGGCTGACCTAA	MSRETLSKDEIRLQHRIARAGMQPETLAAAAAGIALHGLSWAQTITGGRPSTFTAYLGVGFEPPTLPLISALHNAGHRVLLPVCEPDRTLGWVFWDPAVKFVRSRYAPIQEPDGERQGLDVMRTVAGIFLPATAVDMSGNRIGQGGGYYDKFLAKAESNGVQVPRTAVIFDAELLPPSSIPAEGFDRPVDAVLSPSGLIRLT	PGPT0008170_1890	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008170-ygfA|fthC|yqgN|folN-K01934	NA	NA
D1-17_01224	906	gtaB	COG1210	UTP--glucose-1-phosphate uridylyltransferase	GTGACTTCCACTAATCCTTCAGTCCGCAAGGCCGTCATCCCCGTAGCGGGACTCGGCACCAGGTTCCTGCCTGCCACCAAGGCCATGCCCAAGGAGATGCTGCCGGTGGTGGACAAACCGGCTATCCAGTATGTCGTTGAAGAAGCCGTTCAGGTCGGCCTGAGCGATGTCCTCATGATCACCGGCCGCAACAAGCGTGCGCTGGAGGATCACTTCGACAGGGTTCCCGCGCTAGAGGCAACGCTGGAGGCCAAGGGCGACACGGCCAAGCTGGAATCCATCCAGGCCGCCAGCAACCTGGGCGACATCCACTATGTCCGCCAGGGAGATCCCAAGGGGCTGGGCCACGCCGTGCTGCGGGCGCGCCAGCACGTGGGGCAGGAGCCTTTCGCAGTGCTGTTGGGCGATGACCTGATCGATGCCCGGGACGAGCTTCTCAGCGTCATGATTGAGGTGCAGGCGAAGACCGGCGGCTCTGTCGTGGCACTCATCGAGGTGGAGCCGTCCCAGATCAGCGCCTATGGCTGTGCGGACATTTCCGAAATTGACGGCGAAGGCTATGTCCGGATCAACAAACTCGTGGAGAAGCCCGACGTCGACGAGGCGCCTTCGAACCTGGCTGTCATCGGCCGCTACGTCCTCCACCCTGACGTATTCGATGTCCTGGAAAAGACCGAACCCGGACGCGGCGGCGAGATTCAGCTGACCGACGCGCTGCAGGAACTGGCTGGCCGGGACGGCGAAGGGGGAGGCGTGTACGGAGTAGTCTTCCGTGGCCGCCGCTACGACACCGGCGATAAGCTCAGCTACCTTAAGGCGTGCGTCCAGCTCGCGATCGACAGCGAGGACCTCGGACCCGGTCTGCGTGAGTGGCTTGGCGAAGTTGCCGCCGGACTGACCAAGTAA	MTSTNPSVRKAVIPVAGLGTRFLPATKAMPKEMLPVVDKPAIQYVVEEAVQVGLSDVLMITGRNKRALEDHFDRVPALEATLEAKGDTAKLESIQAASNLGDIHYVRQGDPKGLGHAVLRARQHVGQEPFAVLLGDDLIDARDELLSVMIEVQAKTGGSVVALIEVEPSQISAYGCADISEIDGEGYVRINKLVEKPDVDEAPSNLAVIGRYVLHPDVFDVLEKTEPGRGGEIQLTDALQELAGRDGEGGGVYGVVFRGRRYDTGDKLSYLKACVQLAIDSEDLGPGLREWLGEVAAGLTK	PGPT0014875_2072	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0014875-gtaB|UGP2|galU|galF-K00963	NA	NA
D1-17_01225	621	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGAGGGTCAGCCACATCTGGCCGGTCACACTGGAATGCGGCGATATTGTTCTTCGCCCCATCCGGTACCGGGACCGCAGGGAATGGACCGAGGTCCGTTCGCGGAACAGCGAGTGGCTGGCCCCCTGGGAAGCTTCCAACCCGGCCCCTGGCGGGGGGCTGCCCGACTACCGGCAGATGGTCCGGTCGCTCAAGGCGCAAGCGGCTCAAGGCACGGCGCTGCCGTTCCTCATCACAGTGTGGACGCCCGGGCAGCGGGAGCCTGTCATCGTCGGACAACTGACGGTGTCCTCCATCGTATGGGGTTCTGCCATGATGGCGACGTTGGGCTACTGGGTGGACCAGGCGCGGGCCGGGCAGGGCATCGCTCCGACCGCGGTTGCCATGGCCACCGACCACTGTTTCCGGACGCTCGGGCTGCACCGCATGGAGATCAATATCCGACCCGAGAACAAGCCAAGCCTGCGTGTCGTGGAGAAGCTCGGCTTCCGTGACGAGGGATACCGCCCACGGTTTCTGCACATCAACGGGCAGTGGGCCGACCACCGGTCTTTTGCATTGACGTCGGAAGATGTTCCGGAGGGGCTGCTCAGCAGGTGGCTGCGCTCAAGGCCAGCCTGA	MRVSHIWPVTLECGDIVLRPIRYRDRREWTEVRSRNSEWLAPWEASNPAPGGGLPDYRQMVRSLKAQAAQGTALPFLITVWTPGQREPVIVGQLTVSSIVWGSAMMATLGYWVDQARAGQGIAPTAVAMATDHCFRTLGLHRMEINIRPENKPSLRVVEKLGFRDEGYRPRFLHINGQWADHRSFALTSEDVPEGLLSRWLRSRPA				NA	NA	NA	NA	NA
D1-17_01226	990			hypothetical protein	GTGGACTTCCCTCTGAGCAGCTCAGTCATCCTTGTGGTCGCTGTTGCGCTGTGGATGGTCTGGGTTGCCCCTTACGTGCTCCGCAACGGCAGGCACCGCTTCCAGGTTGCCGGTGACCTGATGCTGGAGAGCGTTGACCACGAAACTGCAAACCAGCAAGCCGGCACGGTCCTTCACATGACCGTCCAGCAGGAGAATCGCATGGATACCAGGAAGAGCAGCGCATCCGCAGCGGGCTTCACGCCGGGCCAGCCCGGGGGCAAGTCCGCCACGAAGCCCAAAGGCGCTTTCCGCATCCGATATGGACGTGCCTCGATCGCCCTGGCCGGGCTCCTGTTCTTCGCCACTGCCTTGGTCACCGGCGTCCTGCTGCTGTTCGGTGTCGGTGCGGGCTTTGTTCCCCCGGTATCGTTTCTGGCGGGCTTGGCCGCCGTCGTTCTTCTCCGCTCGCTCGCCGTCCGGGACCGCCGCAGGAAGGTCAGTGCTGCCTTCTCGGCAGCGATGGGAGCACCCGCTGAACGGGAAAACCGTACGCCGGTTGCCGACGCGCATCCGGAAGCGGGAGATGCCACTGAACGTCCCGAAAGCACTTTGTTCGACGCCGAGGCAGTCGAGTCCCGGCCAAAGCCCCTGACCGCCGTCGAGCTGCGCGAAGCTGCCTTGGCTGTAGCGATCGCTGCCGGGGACAACAGCGGCTTGGCCGCTGCAGCCCAGCCGGCTGCCAGCCGCCCCGCCGAAGAAGCCCCCAGCTGGGAGCCTGTCCAGGTTCCCAAACCCACCTATGTCGAGGCAGCCAAAGCGGAACGCCCCGCCCCGGAGCCTCTTGACCTGCCCGAGGCGCCGAAGTCGTCGGGGAAGCCTTCGCTCAAGCAGGGTACGGCAGCTGCACCCGCCGTTGCAGCTCCGACTGCCGGGCCAGCGGGCCAGCAAAGCAAAGCGCAAAGCGCATTGAGCAACCTGGATGACGTCCTGCAGCGCCGCCGCGCGTAG	MDFPLSSSVILVVAVALWMVWVAPYVLRNGRHRFQVAGDLMLESVDHETANQQAGTVLHMTVQQENRMDTRKSSASAAGFTPGQPGGKSATKPKGAFRIRYGRASIALAGLLFFATALVTGVLLLFGVGAGFVPPVSFLAGLAAVVLLRSLAVRDRRRKVSAAFSAAMGAPAERENRTPVADAHPEAGDATERPESTLFDAEAVESRPKPLTAVELREAALAVAIAAGDNSGLAAAAQPAASRPAEEAPSWEPVQVPKPTYVEAAKAERPAPEPLDLPEAPKSSGKPSLKQGTAAAPAVAAPTAGPAGQQSKAQSALSNLDDVLQRRRA				NA	NA	NA	NA	NA
D1-17_01227	330			hypothetical protein	ATGAGGCAGTCTGCTGCCGGCGGCGCGCTCCTGATATCGGCAGCGCTGGAAGCCGGGGTCGCCAAGGCAGTACTTCTCTCTATCGTGAACTGTGACCAGACGGGCTATGGTTTTTACCCGTCGAAGGCGGACAAGGAACGGGTCTATGCCAGGGCGGCGCTGGAAACCGCCACGGTGCGTGCCACGCAGTTCCACAGCCTAGTGGCCCGGCTGTTCTCCGCCGGCTCCAAGGTGCGCCTCATCCCAGTGATCCGGGACGCACAGCTCCAGTCCATTTCGCCGGCGACGTGGCCGCCGCCCTGCTCGAGGAGGCGCTCGCTCCGGTATTAG	MRQSAAGGALLISAALEAGVAKAVLLSIVNCDQTGYGFYPSKADKERVYARAALETATVRATQFHSLVARLFSAGSKVRLIPVIRDAQLQSISPATWPPPCSRRRSLRY				NA	NA	NA	NA	NA
D1-17_01228	270			hypothetical protein	GTGGCCGCCGCCCTGCTCGAGGAGGCGCTCGCTCCGGTATTAGGACAGCAGCACAAGCTGAGGACGATTGGCGGGCCGGAGGTCCAGGACATGACGTCCATGGCCCGGACCTGGAAGCGGGTCACCGGCGGCAAGGGCCTTGTTGCACCGCTGCCGCTGCCGGGCCCGATGGGCACGTTCCTGCGCGAAGGCCGGAACCTCGTGCCCGGTCAGGCCTATGGCCGGGAGACATTTGAGGCCTGGTTGGCAAAGAGGCGGGAAAATTTGTAG	MAAALLEEALAPVLGQQHKLRTIGGPEVQDMTSMARTWKRVTGGKGLVAPLPLPGPMGTFLREGRNLVPGQAYGRETFEAWLAKRRENL				NA	NA	NA	NA	NA
D1-17_01230	267			hypothetical protein	GTGGACCAGGTGTGGCGGCGGAAGTTCGGGAAGCAGCCGCCGAAGCCTGACACCGTCCAAACCAAAGTCCGCGTCGTTCGCCAGCTGCTCAGCGAGGGCACAGAGGTCAAGGCTGCGGCGGAGGCTGTCGGCTGGTCGCGCGCCACCCTGTACCGCTACCTGAAGGAGTTCGGCCCGGAAAAGGTGCCCGAATCGGCGGTCGAAACGCGCAAGCCACGCAGCAAGTCCATCTACGCGCCCAGCCGCCACCGCACTCCGGGGTCCTGA	MDQVWRRKFGKQPPKPDTVQTKVRVVRQLLSEGTEVKAAAEAVGWSRATLYRYLKEFGPEKVPESAVETRKPRSKSIYAPSRHRTPGS				NA	NA	NA	NA	NA
D1-17_01231	870			hypothetical protein	ATGGCTAAGCACGTCGATTACATCAACATGACCAAGAAGCAGTCCGAGTCGGCCTTCCGGGAGTACCTGGATGAGCGCGGGCCGGCGCTGGAGCGGCTGCGGGAGGCGCTGGTGGCGGACGGCCAGGACCCGGACGCCATCCTGGACGGGTCCATTGAGAGCCTGGTTCCCCTGTGGCGGTGGATCCTGGCCCACCTCACGGTGTTCGACGCACCCGGCGGCGCCACTGATCCGAACAGCGTGCCGCGGGAACAATGGCCCTCCTGGGCGCGGCATGAGTATGAGGTAATGCACTCCCTGTCCTTGGAGTCACTGTTCCTGCTGGACGGACTGGTGTCCTACTTGGGCGACGTCGTGCAGCAGCACGCACCGGAGGCGCGGTGGGAAATCGCCCGCCACCGCATCAAGCGATACCACCTCAACAAGCACCCTGTCCTGGTCAGCGGCACAGGGGAGGACCATCACTACCTCCCCGGACTGCCGAGGGTCCACGCCTACAGCAGTCTCACCGGCTTTCGTGAGTCTCCGGATGACACGATGGCCGAGTACGCACGCCGCCTCATCGAGCAGCTGAACCGCGGCGACATCGAGGACGAGGAGATGGCCGAAGAGGAGCCGCTCGTGGAGGTGGAAGACCTGGGCGATGACGAAATCCGCGGCCGCGAGCTTGAGGTGTCGCTGCGGGAGGACATCGGCCACGAACATAGCCGGGTGGTAGACCGCATGGTCAAAGCCCTCAAACAGGAAGACGGCATCACCCGCGCCCATCGGGAGGACCGCGAAGTTCTCCTGGTCGCCACCCCGAGCTGGAGCACAGACCGGCTCCACCAGTGGGTCAGCAACTATCTTGAGAACAAGATCTCCGACTGA	MAKHVDYINMTKKQSESAFREYLDERGPALERLREALVADGQDPDAILDGSIESLVPLWRWILAHLTVFDAPGGATDPNSVPREQWPSWARHEYEVMHSLSLESLFLLDGLVSYLGDVVQQHAPEARWEIARHRIKRYHLNKHPVLVSGTGEDHHYLPGLPRVHAYSSLTGFRESPDDTMAEYARRLIEQLNRGDIEDEEMAEEEPLVEVEDLGDDEIRGRELEVSLREDIGHEHSRVVDRMVKALKQEDGITRAHREDREVLLVATPSWSTDRLHQWVSNYLENKISD				NA	NA	NA	NA	NA
D1-17_01232	438			hypothetical protein	ATGGAATTTGACGAGAAGCTGCGCAGCTGGGCCGAGGGGCTCCACCATCTGGAGGCAGCCACCGAGCTTTTGATCCGGGCGTTCAGCGGCAGGTTCGCCTCCCCGGCTAATCCCTGGGTTGTTATGGAGGACGGCGAACTGTGGATCGATTTCCCGGCCATCCCGGATTATATTGGCGGGCTCTCAGACGCGGAACGGCGATTGCTGTTGCTGACCGCGTCCCTGGGCGGGGGCGCACCGGTGGATCTGTCAGAAGTCCTGCCAGGCATGGACCGCCACAACCTTGAGCTGGTCCTGGCCGCCGTATCCCATGCCGGCGGCACCCACGAACACTCCACACTGGAGTACAACCCGGACGGCACCCATTCGATCAGCCGCCAGACAAGTCTCTACCCATGGCCCGCCCGCCGGGAGCAGGTCAGTCACGGGAGGGACTGA	MEFDEKLRSWAEGLHHLEAATELLIRAFSGRFASPANPWVVMEDGELWIDFPAIPDYIGGLSDAERRLLLLTASLGGGAPVDLSEVLPGMDRHNLELVLAAVSHAGGTHEHSTLEYNPDGTHSISRQTSLYPWPARREQVSHGRD				NA	NA	NA	NA	NA
D1-17_01233	531			hypothetical protein	ATGGCCACGATCAACACTTTCCCCGGCTCCCCGTTCCGGCGCGCACTTGCCGCCAGAGTCCAGGCCAACGTCCCCGTCGGCGTTAGCGGTGAACCCGGGCAGGGCAAGACCGCCAGCATGGAATCAGCTACTTCCGGCTGGGGCCGCGTCGTGGAAACCGTCATCGGTTCCAACCGCGAAGCCACCAACTTCCTGGGCGTCATGATCGAGGATGAGGGCGAGATCAAGTACTCGTCCTTCCAGTGGGTTCAGAACCTGAACCGCGCCGAAAAGGGCCTGCTCCTGCTCGACGAGTTCAACTCGTCCGCACCCTCCACCACGAAGGGCATGCTCCGCGTCGTGCAGGAACGCTACGTCGGCGACACGAAGCTGAACGACTCCGTCTCCATCGTGGCCCTGATGAACCCGGTCGAAACCGCTGTGGACGCCTACGACCTCCCGGCCCCGATGGCCAACCGCATGATGCACCTGAAATGGGTTTTCGACACCACCAACTGGCTCGAAAACGTTCTCCTGGCTCGCCGCCGCTGA	MATINTFPGSPFRRALAARVQANVPVGVSGEPGQGKTASMESATSGWGRVVETVIGSNREATNFLGVMIEDEGEIKYSSFQWVQNLNRAEKGLLLLDEFNSSAPSTTKGMLRVVQERYVGDTKLNDSVSIVALMNPVETAVDAYDLPAPMANRMMHLKWVFDTTNWLENVLLARRR				NA	NA	NA	NA	NA
D1-17_01234	273			hypothetical protein	GTGAACTGGAAGAACGAACGCGCCGACCGCCTGTTCGCCCTCGTCCAGGGTGTGACCGCGCTGGGCCTGTCCGGTGACGCCGACCTGTGGCGCAAGGCAGCCTTGGTCCTCGCCAAGTGCGCCGAAGGCGGCAAGCCGGACGTGGCTTTCCCATCCGCTCAGAAGCTCGCCGACAACATGCCCAAGGGTATCCGGCGCCTGCCCCAGCAGTTCGCTGGCGCTTTCATGGATCTGTTCGGCAACACGAAGTACAAGGTGGCCGTCGCCAGGTAG	MNWKNERADRLFALVQGVTALGLSGDADLWRKAALVLAKCAEGGKPDVAFPSAQKLADNMPKGIRRLPQQFAGAFMDLFGNTKYKVAVAR				NA	NA	NA	NA	NA
D1-17_01235	1269	dinB_1		DNA polymerase IV	GTGAGCACGCGTGAACTCACGTTATCCACAGTTCGCATCGAAGAGGTCAGGGGTTCGGATCCCCTTAGCTCCACAGATTTCCCGGGCTCTACAGCTTTCCCGGGCTCTACAGCTTTCCCGGATCCCGCCCTCCTGGTTGCCAAAGACACTTTGAGGACCGATGCCTGCCAGGGATGTTTAGGGCAGACTGATGGTGTGAGCGGAATCCGGTGGGTGCTGCACGTCGATCTTGACCAGTTCATCGCGGCGGTCGAAGTGCTCCGGCGGCCCGAGCTTGCCGGCAAGCCGATCATCGTCGGCGGCCGGGGCGACCCGACGGAACGTGCTGTGGTATCGACCGCCTCCTACGAAGCCAGGGCCTTTGGCGTCGGGTCCGGAATGCCTTTACGCGTTGCCGCCCGGAAAGTGCCCGGCGCCGTGATCCTGCCCGTTGATCAGGAGGCCTACCTTGCGGCGTCTGAAACGGTGATGGCCACGCTGCGCGAGCAGCCCGGCGCCACAGTGCAGGTGCTGGGCTGGGACGAAGCTTTTGTAGGCACTGAGACAGACAACCCGGAAGCCTACGCCCGGCAGGTGCAGGCCGCTGTTCTGGAGCGGACGCAGCTGCATTGCAGCGTGGGCATCGGCGACACCTTGGTCCGGGCCAAGGTCGCCACCGGTTTCGGCAAGCCGGCCGGCGTCTTCCGTCTAACGTCCGGGAACTGGTTCGAGGTCATGGGCAATCGGCCCACCAAGGACCTGTGGGGCGTGGGAACCAGAGTATCCGCCCGGCTGGCCAAATTGGGCATCAACACTGTCGCCGAACTCGCCGCGTCCGACCCCCAAGACCTGGTACCCGAGTTCGGCCCCAGGATGGGTCCCTGGTACGCGGAGCTCGGACGCGGGGACGGTGCCACCGTTGTGGACGACACCCCGTGGGTTGCCCGCGGTCACAGCCGGGAAACCACCTTCCAGCGGGACCTGACCGAGCCTGCCCAGGTGGACGGCGCCGTGAGGGAGCTGACAGCGCGTGTTCTTGAGGATGTTGTGGCCGAAGGCCGGCCCGTGATCGGGCTGACCCTCAAGGTCCGGTACGCGCCGTTCCTCACCAAAACCCACGCGAAGAAAATCCCCGAGACATTCGACCGGAACGAAATCCTTGCGCGGGCCCTTGACCTTACAGCCGGAGTCGAAGCGGGCCGTCCGATCCGGCTCCTGGGTCTGCGCGCCGAAATGGCAATGCCCGGCGATGCCCGCAAGGGACATACGCCGACGCGCGGCGGTTGGTGA	MSTRELTLSTVRIEEVRGSDPLSSTDFPGSTAFPGSTAFPDPALLVAKDTLRTDACQGCLGQTDGVSGIRWVLHVDLDQFIAAVEVLRRPELAGKPIIVGGRGDPTERAVVSTASYEARAFGVGSGMPLRVAARKVPGAVILPVDQEAYLAASETVMATLREQPGATVQVLGWDEAFVGTETDNPEAYARQVQAAVLERTQLHCSVGIGDTLVRAKVATGFGKPAGVFRLTSGNWFEVMGNRPTKDLWGVGTRVSARLAKLGINTVAELAASDPQDLVPEFGPRMGPWYAELGRGDGATVVDDTPWVARGHSRETTFQRDLTEPAQVDGAVRELTARVLEDVVAEGRPVIGLTLKVRYAPFLTKTHAKKIPETFDRNEILARALDLTAGVEAGRPIRLLGLRAEMAMPGDARKGHTPTRGGW	PGPT0014881_4067	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014881-dinB-K02346	NA	NA
D1-17_01236	540			hypothetical protein	GTGTCGGATTTTGAGCGGGGCCTCATCCTCACCCCCGGAACGGACCGGCAGCTGGGCACCTACGGGCTCTTCCGGCCGGCACCATCCCAGCAACAGGCCCTGGATCTACCCTCGTACACGCTCACCGCCAAGAGCGCAGCCCCGGACCTGCTCTGGGTAAGCTTTGCCGAACTGTGTGCCGGGCACCTGCAAAGTGCCGACTACCGCGCGCTTGCCGGCAGATACCCTGTCTGGGTCATCGACGCCGTTCCATCACCCCTCGTGGAGTCCGAAGCAGGATCCCGCGCGGGCGCTGCCGGGTCTAACGCGGGCGCCGCCGGCGTCTGGGAGCGCTTCCTTGAGGTACTGGACCTGCTCCGTGAGCAGGACGCCACTCTCTTCCTTATCGGCCGTGGCCCCCTCGGCTGGGACTTTCCGGGCCGGGCGGATGGACAGCCGCAGGCTGCCCCAACGTTTGCCAAAATCGCGGACAGGCTCGCCGTGCTTCGCCGGATCGAATCCGACGAACGGCTCGAGGACGAACAAACCGGCGGCTGTTAA	MSDFERGLILTPGTDRQLGTYGLFRPAPSQQQALDLPSYTLTAKSAAPDLLWVSFAELCAGHLQSADYRALAGRYPVWVIDAVPSPLVESEAGSRAGAAGSNAGAAGVWERFLEVLDLLREQDATLFLIGRGPLGWDFPGRADGQPQAAPTFAKIADRLAVLRRIESDERLEDEQTGGC				NA	NA	NA	NA	NA
D1-17_01237	996	corA	COG0598	Cobalt/magnesium transport protein CorA	GTGACCATTATTGACAACGCCGTCTATGTTGACGGCATCCGCAGCCCGGATCCGGTAAGCCTGGAGCAGACGTTCGAGACTCTGTCCGCCCAAGGCGGCATGGCGTGGATCGGGCTCTATCGTCCGACCGAGCCTGAAATGGCCGCCGTAGCGGCAGAGTTCGGCCTACACGAGCTTGCTGTCGAGGATGCCATTTCGGCCCACCAGCGGCCCAAGCTGGAACGCTACGGGGACCACCTGTTTACGGTGCTGAGGCCTGCCCGCTACCTTGACGACACCGAGACCGTTGAGTTCGGTGAGCTGCACATCTTCACCGGCAAGAACTTCGTGGTCACTGTCCGGCATGCCGAGATGTCCGGCGTGGGAAAGGTCCGGCGCCGCCTGGAGTCGCGGCCCGACCTCCTGCGCCACGGCCCCGAAGCCGTGCTCTATGCCCTGTTGGACCAGGTGGTGGACGACTACGCCCCCGTGGTGGCGGGGCTCGAAAACGACATCGACGAGATCGAGGACCAGCTGTTCTCCGGCGACACGGCAGTGTCCCGGCGCATCTATGAACTGGCCCGGGCGGTGATTCAGTTCCAGCGCGCCATCCACCCCCTGCCGGGCATGATGCAGCAGCTGAGGCGGGGATTCGAAAAGTACGTGGTGGACACCGACCTGCAGCACAGCCTGCGAGACGTGGAGGACCACGTGGAGCGCGTGATATCCCGTGCCAATTCCTTCCGTGATCTGCTGCAGAACGCGCTGACGCTCGACGGTACCCTGACGGCCAACCGGCAGAACGAGGCGAGCGCCCAGCAGAACGAGCAGGTCAAGAAGATCTCCTCCTGGGCGGCGATCTTCTTCGCTCCGTCCTTCGTCGCAGGCGTATACGGAATGAACTTCGACTACATGCCCGAGCTGCACTGGACGTTCGGCTATCCGCTGTCGATCGCGCTGATGGCCGGCACGGCCGGGCTGATGTACGCGATCTTCAAGCGGAAGGGCTGGCTGTAG	MTIIDNAVYVDGIRSPDPVSLEQTFETLSAQGGMAWIGLYRPTEPEMAAVAAEFGLHELAVEDAISAHQRPKLERYGDHLFTVLRPARYLDDTETVEFGELHIFTGKNFVVTVRHAEMSGVGKVRRRLESRPDLLRHGPEAVLYALLDQVVDDYAPVVAGLENDIDEIEDQLFSGDTAVSRRIYELARAVIQFQRAIHPLPGMMQQLRRGFEKYVVDTDLQHSLRDVEDHVERVISRANSFRDLLQNALTLDGTLTANRQNEASAQQNEQVKKISSWAAIFFAPSFVAGVYGMNFDYMPELHWTFGYPLSIALMAGTAGLMYAIFKRKGWL	PGPT0014010_2133	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
D1-17_01238	426			hypothetical protein	ATGGATTGGCTCTCGTACATTTCCCAGATCAACTGGCTCGCCGTGCTGCTGGCCTTCATCGCCACCATGGCCATCGGCTTCGTCTGGTACCTTCCCCCGGTGCTGGGCACCCGGTGGATGGAGGCGATCGGCAAGACGGAAGAGGACCTGAAAAACACGGCGGGCGGCTCGGGGATCTGGCTGCCCATGATGCTTGCCGCGGCGCTGACTGCGGTCCTTCTCGCAGTACTGATCGCCGGGCTGGCGCTGGACACTGCTCTGGCGGGCGGCCTGTTTGCCCTGGTGCTGGCCGTTGTGTTCCGGGCCGGCGGCCATGTCATCCATAACGGTTTCGCGGGCCGGCGGGCAGCCGTGACCCTGATCGATTCCGGTCACGACGTGCTGGCCATGACCGTGGCCGGCGCCATTATCGGCGCAATGTCCTGA	MDWLSYISQINWLAVLLAFIATMAIGFVWYLPPVLGTRWMEAIGKTEEDLKNTAGGSGIWLPMMLAAALTAVLLAVLIAGLALDTALAGGLFALVLAVVFRAGGHVIHNGFAGRRAAVTLIDSGHDVLAMTVAGAIIGAMS				NA	NA	NA	NA	NA
D1-17_01239	531			hypothetical protein	ATGCTTCTGCACGTGACCTGGAGTGATGATTTGAACGCCTTGGACTCCACTGACCTCAAAATCCTGCTGGAACTTATCCGTGATCCGCGGATCCAGATCGGGGACCTGAGCGACAAGCTGGGCATTGCCCGGAACACCGCCCAGTCACGGTTGCGCCGGATGCTGCGTTCCGGGGTCCTCCGAGACGGCGGCCGGGAGATCGACCTTGAGTCCGTGGGGTACGACGTCGTTGCCTTCGTGACCATCGAGGTGACCCACCGCGAACTCGACGGTGTGGTGGGCTCCTTGCGCCTGCTGCCTCAGGTCCTGGAGGTGCACGAGATTTCAGGCCGCGGCGATGTCTGGTGCCGGGTCGTAGCCACCGACACCCACAACCTGCAGGCCGCGCTTCGGTCCATCCTGAGGATCCGGGGGGTCATCCGCACGGAAACGGTTTTGGCGCTGCATACGCACATCCCGTACCGAACAGAACCGCTGATCAGCCGCCTCGCCCAAGGAGCCGCTGCCACCGACAGCCGGGTCCGGGAATAG	MLLHVTWSDDLNALDSTDLKILLELIRDPRIQIGDLSDKLGIARNTAQSRLRRMLRSGVLRDGGREIDLESVGYDVVAFVTIEVTHRELDGVVGSLRLLPQVLEVHEISGRGDVWCRVVATDTHNLQAALRSILRIRGVIRTETVLALHTHIPYRTEPLISRLAQGAAATDSRVRE				NA	NA	NA	NA	NA
D1-17_01240	1356			hypothetical protein	ATGGAAATTGTCCGTCTGAGGCTGCCACCGACCATTCTGGAGACATCGACCGTCATCGGCAGTGAAAGCCTCCACAAGGGCTGGGCTGCCGGAAACAGGCAAGGACACGGCATGACTGTCTTCAGCGAACTTCGCATGCTGCCCGCCGCCGCTAACCGCCGCGGCTGGGACGCCTCCAACACTGCACGCCTGGCGATGGCCGGCATCGTGATCTTTACGCTCCTCGTCGGCGCGAATCTTGCCACTCCGCTGTATCCCCTGCTTCAGCTTCGGTTTGGCCTGACCTCGCTGGACATTTCGGTGGCGTTCGCCGCCTATGTCCTTGCCCTGGCGTCCGCACTGATGCTGGCGGGGCACTGGTCGGACCACATCGGCCGGCGGGCGGCGCTGCTGCTGGCCGTGCTGACAGGCCTCGCGGGCGGTGTCGTCTTTGCCCAAGCCGAAAACCTGGCGGTGCTCTCTGCCGGGCGGGCGCTGCAGGGGATTGCCGTGGCCCTGGCCACCGGCGCCAGTTCCGCCGCGCTGCGGGAACTGCTTCCGCAGAGGCCCGAGTGGGCGTCACGCTTCACGCTGCTGGCCTCAGCCGGAGGAGTTGCGGCCGGCCCGGTCATCGGAGGCGTCCTCTCGATGCTGCCGGCATCCACGTCCACACCGTACCTCGTCCACTCGCTGGTCCTCGTGGCCCTCCTAGTTCCGCTCTACCTTCTCCGCGCGCGCCCGGCCATTAAACCGGCCGACGGTCCGAGGCCGCTGAAGGCCCTGGCACCGCGCCTGCCGTCGATATCGCACGAGGCGCGGGACGCGTTCTGGGTGGCGGCCGCCGTCGGGTTCCTGAGCTTCGCGGTCTTTGGCTTCTGCCTGTCCTTGGCCCCCGGTTACTTTGCCGGGATGCTGGGTGTGGACTCCCGGCCGGTCATCGGTATCCTGGCGGGCCTGACTCTTGGGGCCTCCGCCCTGAGCCAGCTGGTCACGGTCCGGAGCCGCTTCGCCGTTCCGGCGGGGCTGGCTGTGCTTGGCGTCTCCGTGATCCTGATCGCCGCTGCCGGTGCGTGGAGCAGCCCTTGGCTCCTTGTTGCTGCAAGCCTGGCCGCCGGTGCCGGCCAGGGTATTGCCTTCCGTACCGTCTTCAACGATGTGGCGCGCAAGGTTGAGGCCTCCCGCCACGCGCAGATCATCAGCACCGTCTACGTCATCACGTATATGGGCAGCGCATTGCCGGTGGTTGGGCTGGGATTTGCGGCGGCGGCCTATGGCCTGGGGGAGGCCGTCACCGGATTCGTGATGCTCTGCGGCGCCGCCGCCACCGCTCTGGCTTTACTCACGCTTCGGCGGGCCCTCCGGACTGCCCGACTGTAG	MEIVRLRLPPTILETSTVIGSESLHKGWAAGNRQGHGMTVFSELRMLPAAANRRGWDASNTARLAMAGIVIFTLLVGANLATPLYPLLQLRFGLTSLDISVAFAAYVLALASALMLAGHWSDHIGRRAALLLAVLTGLAGGVVFAQAENLAVLSAGRALQGIAVALATGASSAALRELLPQRPEWASRFTLLASAGGVAAGPVIGGVLSMLPASTSTPYLVHSLVLVALLVPLYLLRARPAIKPADGPRPLKALAPRLPSISHEARDAFWVAAAVGFLSFAVFGFCLSLAPGYFAGMLGVDSRPVIGILAGLTLGASALSQLVTVRSRFAVPAGLAVLGVSVILIAAAGAWSSPWLLVAASLAAGAGQGIAFRTVFNDVARKVEASRHAQIISTVYVITYMGSALPVVGLGFAAAAYGLGEAVTGFVMLCGAAATALALLTLRRALRTARL				NA	NA	NA	NA	NA
D1-17_01241	513	lrp_2	COG1522	Leucine-responsive regulatory protein	GTGAGCACCAATGCGAAGAACGTCCGGTCCGGGTCGGGACATGCCGAGCCGCTGGACGCCATTGATGAGCGGCTGCTGGCTGCCCTGGTGGACGACGCGCGGATCTCCAACAAGCAGCTTGCAGAACTGGTGGGGATTGCCCCATCCACGGCTCTCATGCGGACCCGGGCCTTGTCGGAGCGGGGGATCATCGAGGGGTTCGAAGCAAAGCTCAGCCTCTCGGCCATCGGCCGCTCGGTCCAGGCCCTGATCGCCGTCCGGCTCCGCGCGCATGACCGTGAGCAGATTGACCGGTTCACGTCGCGGGTTCCCAAGCTTCCGGCTGTGCTGTCCACGTTCCACACATCCGGTTCCGTTGACTACCTGCTGCACATCGCGGTGGCCACCACAGAGGACCTTCGCGACTGGGTACTGGACAACCTGGCCACAGATCCCGTCGTGGGCCACACCGAGACCACCCTCGTGTTTGAGCACATGCCCGGCAACCACGGGCCCCTGCCCGAACAGGACTGA	MSTNAKNVRSGSGHAEPLDAIDERLLAALVDDARISNKQLAELVGIAPSTALMRTRALSERGIIEGFEAKLSLSAIGRSVQALIAVRLRAHDREQIDRFTSRVPKLPAVLSTFHTSGSVDYLLHIAVATTEDLRDWVLDNLATDPVVGHTETTLVFEHMPGNHGPLPEQD				NA	NA	NA	NA	NA
D1-17_01242	1281	ynfM		Inner membrane transport protein YnfM	ATGCCAACGCCCGGTGTCTCCGTCCCCAGCAATCCGCCCGACCCGGGAGCCGGCGGAGCCAGGCCACGGCTCGAGACCGGGTGGGACGGCCATCCGAAGGGGTCCACCGCCTACGGCAGAATATTGGCGGGCCTTGCCTTCGCGGGCGTGGCAACCTTTGCCCAGCTCTATTCCACCCAGGCCGTGCTGCCCCTGATGTCCAGGGAACTCGGGGTCACGGCGGCAGAAGCCGCGCTGACGATATCGCTGGCAACGGTGGGGTTGGCAGTCACCGTCATCCCGTGGTCGTTCCTGGCCGACAGAATCGGACGCGTACGCGCGATGACCTGGGGCATTTCCGTGGCTACGGTTCTGGGGCTGCTGGTACCGCTCGCCACCTCCTTCCCGTTGTTGCTGGCACTCCGGACGCTGGAAGGCATGGCTTTGGGCGGGATCCCGGCGATCGCCATCGCTTACCTGAACGAGGAAGTCAACAAGGCCCATACTGCGATGGCCGCGGGCAGCTATGTGGCCGGAACAACCCTGGGAGGCCTGGCCGGACGGCTCGTGGCCGGGCCTGCCGGTGAGCTGTGGGGCTGGCGCGCAGCAGCGCTCGCCGTCTCCGTACTCGCAACCGTTGCCGCCATTCTGTTTCTGGTCCTGGTCCCCAAGGCCAGGAGGTTCACGCCGACCCCCGCCCGGGGCTTCCGGGGAGCGGCCCGGACCCTGGGCACCCATCTCCGTAATGCCCGGCTCCTGGCACTCTATGTGCAGGCATTCCTTCTCATGGGCGGGTTCGTAGCGGTTTACAACTACCTGGGGTTCCGGCTGTCGGGGGAACCGTTCAGCCTTCCCGCAACGGTCATCAGCCTGATCTTCCTGGCCTATCTGGCCGGAACGGTGACCTCCCGCTGGGCGAGCGGGCTGACCGAGCGCTTTGGCCGGCGGGCTGTCCTGCTGGCGGGCATTGCGCTGATGACTGCTGGCCTTGCCCTTACCCTCACCGGGATGCTCGTGCTGATCCTCGTTGGCCTCCTTATTTTCACCGGCGGGTTTTTCGCCGCCCACAGCATCGGCGCGGGCTGGACCGGTACCATCGCCGCCTCCGGGAGGGCGCAGGCCGCGTCGCTGTACAACCTCGCCTACTACCTGGGCTCCAGCGTGATTGGCTGGGCCGGCGGCATCGTGTTCCAGTCGCTTGGCTGGACAGCGCTCGCCGTCGCCGTGATCGCGCTGGGATGTACGACGGCGGTGATTACCGCCGTCGTACATCCCCCGAAGAACGAAGGCAGGCGCGAATAA	MPTPGVSVPSNPPDPGAGGARPRLETGWDGHPKGSTAYGRILAGLAFAGVATFAQLYSTQAVLPLMSRELGVTAAEAALTISLATVGLAVTVIPWSFLADRIGRVRAMTWGISVATVLGLLVPLATSFPLLLALRTLEGMALGGIPAIAIAYLNEEVNKAHTAMAAGSYVAGTTLGGLAGRLVAGPAGELWGWRAAALAVSVLATVAAILFLVLVPKARRFTPTPARGFRGAARTLGTHLRNARLLALYVQAFLLMGGFVAVYNYLGFRLSGEPFSLPATVISLIFLAYLAGTVTSRWASGLTERFGRRAVLLAGIALMTAGLALTLTGMLVLILVGLLIFTGGFFAAHSIGAGWTGTIAASGRAQAASLYNLAYYLGSSVIGWAGGIVFQSLGWTALAVAVIALGCTTAVITAVVHPPKNEGRRE	PGPT0017201_1638	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017201-ynfM-K08224	NA	NA
D1-17_01243	993	gltC_2		HTH-type transcriptional regulator GltC	ATGGATATCGAGCACAGGCAACTGGTCCAGCTGCTGCCCGTCCTGCCGGTCCTGGCGGAACTGGGCCGCACGCAGCACATCACGGAAACGGCCGAACTTCTGGGCGTTCCGCAGTCCACGGTGAGCCGGGCCCTCGCCCGGGCGAGTGCTGTGGTGGGCACTGAGCTGCTCATCCGTGAGGGCAGGGGTGTCCGCCTGACTCCGGCGGCAAAGGCTCTGCTGCCCTATATCGAGTCCGCGCTCGCGGAATTCCGGGCCGGACTCAACCTGGTTCGCCATGAGTCCGAAGTAGTGCGGGGAAGGATCTCAGTGGCGTTCCAGCACACCTTCGGTGAAGCGACGCTGCCGCTCCTGATCAGCGAGTTCCGGAGCCGGCACCCCCAGACGGAGTTCGACCTCAACCAGGGAGCCAGGGACACCTGCCTCAGCGAACTGGCTTCCGGCGCAGCGGACCTCGCGCTGACAGCGCCGGTGGCAGTTGCCAGCCGGACAATCTGTTCGGCAGCCCTCTACCGGGAACCCCTGCGCCTGGTGGTGCACCATGAGCACCGGATCGCCGTGCTACGGTCCGCCGCGCTGGCTGACATCAAAGGCGAGCCGTTTGTGGCGCTGGGCCCCGGGTACGGACTGCGCTCCCTCACCGACGCCCTGTTCCGTGACGCGGGGTTCCGGCCCCGGATCGCCTTTGAGAGCCAGGATGCCCACACGGTCCGCGGCCTGGTCTCGGCGGGGCTGGGCGTAAGCATCCTCCCGCCCGGAGGCGGTCCAGGTCCGGTGCCAGCGGGCGGGGAGGCCCGCGAAGCCGGGGCCGGAAACCTGGGCTGGGTGGAGGTTCCTTTGGAGTCGGACCGGGCCTACCGGGAAATCGGCGTGGCCTGGCGGGAGCGCCGGGACACCGCGGAACCGGACCAGGTGCGGCTCTTCCGGGAACTCGTGCTGGGGGAGGGGCCCGCGCTGCTGGCCGGGCTGATCGGTTCCCGTTCCGGTGCCTAA	MDIEHRQLVQLLPVLPVLAELGRTQHITETAELLGVPQSTVSRALARASAVVGTELLIREGRGVRLTPAAKALLPYIESALAEFRAGLNLVRHESEVVRGRISVAFQHTFGEATLPLLISEFRSRHPQTEFDLNQGARDTCLSELASGAADLALTAPVAVASRTICSAALYREPLRLVVHHEHRIAVLRSAALADIKGEPFVALGPGYGLRSLTDALFRDAGFRPRIAFESQDAHTVRGLVSAGLGVSILPPGGGPGPVPAGGEAREAGAGNLGWVEVPLESDRAYREIGVAWRERRDTAEPDQVRLFRELVLGEGPALLAGLIGSRSGA				NA	NA	NA	NA	NA
D1-17_01244	1044	pnoA		Nitronate monooxygenase	ATGTCCACTGGCTTTTTTGGCACGAGGGTTATTGCCGCCCCTATGGCCGGAGGAACCTCAACCGTCCGTTTCGTTGAAGCGGTAGACCGCTCCGGCGGCCTCGGCTTCCTCGCCGCCGGCTACAAGAGCGTTGACTCCATGAGAGACGAGGTCAGGGCTGCCAGGTCGGCCGGCATCCGCTTTGGCATGAACGTGTTTATGCCGGACATGCGGCAGCTGCAGCCTTCCGCGCACGCGCGGGAAAGGCTGGAACGGTACCGGGAGAGCCTGCGGGGAGAGGCCGCCCGCTACGGCCTCGACGTCCCGCCCCTGAGGCTGGACGACGATGATGCCTGGCAGGCCAAGGTTGACCAGCTACTGCTGGATCCTGTGGAGCTGGTCAGTTTCATGTTCGGACTGCCCGACTCGGACACCGTGGCCAGGTTCCGCCGAGCGGGCTCCATGGTTCTTGCCACCGTCACGAGCAGGGCTGAAGCCGGGTTCGCCAGGGATCGGGGCGTTGACGCCCTGGTCGTCCAGCACGGCAGCGCCGGCGGACACAGCGGTGCCTTCCTGGACGCAGCGCGGAGTGGCGCTGGCCCAGGGGGCGCGTCCACGACGGCGGACCTGGTCCGGGAGGTGCGCGCCGCCGTCGGGCTTCCGCTCGTAGCGGCTGGTGCGCTGTCTGACGCCGGCGCTGTGCAGTCAGTGCTCGCGGCGGGAGCCGAGGCAGCGCAGGTGGGCACGGCACTCCTGCGGACGGAGGAAAGCGGTGCGCGGCAGCTGCACAAGGACGCACTTGCCTCGGACCGGTTCACGGAAACCCGTCCGACGCGCGCCTTCACCGGCCGCTACGCACGGGCCCTGGTCAACGAGTTCGTGCGGGACCACGGTGACGCTCCGGAAGGCTATCCCGCGGTCCACCACCTGACGGCTCCCATCCGCGCTGCTGCAGCCGGCGCAGGGGACGCGGAACGGCTGAACCTGTGGGCAGGAACCGGATGGCGGAAGGCCCAGCCGGCTTCCGTCTCCGAGGTGATGGAGACCCTCCTCTGCGGGGCGTAA	MSTGFFGTRVIAAPMAGGTSTVRFVEAVDRSGGLGFLAAGYKSVDSMRDEVRAARSAGIRFGMNVFMPDMRQLQPSAHARERLERYRESLRGEAARYGLDVPPLRLDDDDAWQAKVDQLLLDPVELVSFMFGLPDSDTVARFRRAGSMVLATVTSRAEAGFARDRGVDALVVQHGSAGGHSGAFLDAARSGAGPGGASTTADLVREVRAAVGLPLVAAGALSDAGAVQSVLAAGAEAAQVGTALLRTEESGARQLHKDALASDRFTETRPTRAFTGRYARALVNEFVRDHGDAPEGYPAVHHLTAPIRAAAAGAGDAERLNLWAGTGWRKAQPASVSEVMETLLCGA	PGPT0006800_2836	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PROPIONATE-3-NITRATE-DERIVATE_RESISTANCE,PGPT0006800-ncd2|npd|pnoA-K00459	NA	NA
D1-17_01245	1017			hypothetical protein	GTGACTGACTCTGACAACGTAGCCGATGCCCCCTCTGCTCCGGCAAGCGACGCCCGCCCAACACCTAAAGCCCCGCCGTCGCCGGAGGCTCTTCCTGCCGGGGAGGGTTTTCCCTCCGGGGGAGCCGGCTATGGTGGCGGCGCTGTGATCGGCCTGGACATCGGAGGCACGAAGACGAGGGGAATCCGTTTCGAGAACGGGCAGCCTGTGGCCGACGAGATCGTCGGCAGCTCCAATGTCCAAAACGTCAGCCGTGACGAAGCGGCAGCGCACCTGGCAGAGCTGTTCGGCAGAATCGGCGGGGGCGCCGTTGCCCACGTCTATGCGGGTGCCGGCGGTATTGACACGGACGAGGACGCCGCGGCGCTGGCTGCCCTGATCGAGCCCCATGTTCCGGGAGCCACGATCACCGTGGTCCACGATTCACGGCTGCTGCTGGCCGCAGGCGGGGCAAGCAGCGGTGTGGCCGTCATCGCTGGTACGGGGTCGGCAGCGTGGGGAAGGAACCGGCAGGGCGAGGAAGCCCGGGCCGGCGGCTGGGGCTATCTGCTGGGCGACGAAGGCAGCGGCTACTGGCTCGGCCGTGAAGCCGTCCGGCACAGCCTGCGCCGGATGAACCAGGGACTGGAAACCGACGAACTGACGCGGGCCTTGCTCGAGGCGTGCGGGATAGACCACCCCAACAAGCTCATCGCCCTCTTTCATTCGCCCGACACGGGACGCCGTTACTGGGCGCAGCAGGCACGGCTGGTGGTGGAAGCCGCCGACGCCGGCCACCGCGCCAGCCAGGAACTCATTAACCAGGCCGGCAAGGACCTCGCGGACATGGCCGCCCAGGTGCTAAGGCAACTCCGGCTGGACGGCCCGGTCATCCTGGGAAGCGGCCTCGGAATGAATGTTGTCCGGCTGCAGGAATCATTCCGGCACCACCTTGCGTCAGCCGGCGTCACCGACGTACGGGTGCTGGAACAGGAGCCGGTTTTTGGAGTCCTGCAGCTCGTCGAAGAGCAACGCTGA	MTDSDNVADAPSAPASDARPTPKAPPSPEALPAGEGFPSGGAGYGGGAVIGLDIGGTKTRGIRFENGQPVADEIVGSSNVQNVSRDEAAAHLAELFGRIGGGAVAHVYAGAGGIDTDEDAAALAALIEPHVPGATITVVHDSRLLLAAGGASSGVAVIAGTGSAAWGRNRQGEEARAGGWGYLLGDEGSGYWLGREAVRHSLRRMNQGLETDELTRALLEACGIDHPNKLIALFHSPDTGRRYWAQQARLVVEAADAGHRASQELINQAGKDLADMAAQVLRQLRLDGPVILGSGLGMNVVRLQESFRHHLASAGVTDVRVLEQEPVFGVLQLVEEQR	PGPT0018875_283	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018875-gspK-K18676	NA	NA
D1-17_01246	453			hypothetical protein	ATGAGCGTTCTTTTCGACACCCGTCCGGCCGCGTACGCGGTGATCATCCAAGACGGGGCCATCCTGCTGGCCTACTGGAAACAGGACGGCAAAGAGGGCTGGACGCTTCCCGGGGGAGGCCTAGACCTGGCGGAGCACCCGGTGGACGGCTGCATCCGCGAGATCTTCGAGGAGACGGGCTACCACGCCGAAATCGGCAGCATGCTCGGCATCGATGTGGGCCATTGGCCTGCAGGAACGCGGCTGGACGGCATGGACCGCGAGTTCCAGGCCCTTCGGCTTGTGTACGAGGCACGCGTGACCGGCGGCGAACTCACCCATGAGGTTAACGGCACCACCACTCACGCTGCATGGGTTCCTCTGGAAGAGGTCAACTCATTGAACAGGGTCTCACTGGTGGATGCGGCACTGCGGCTGTTCAAGGAACGCCCGGCCAACGGCAAGTTGGAGTGA	MSVLFDTRPAAYAVIIQDGAILLAYWKQDGKEGWTLPGGGLDLAEHPVDGCIREIFEETGYHAEIGSMLGIDVGHWPAGTRLDGMDREFQALRLVYEARVTGGELTHEVNGTTTHAAWVPLEEVNSLNRVSLVDAALRLFKERPANGKLE				NA	NA	NA	NA	NA
D1-17_01247	1143	rsgA_1	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	GTGAACAATTCTTCTGACCGATTCTCGGCCGGTATCCATCATCAAAGCCGGGAGCTTTCCGGCAACCACACCCGGGAATTGCGGGGCCCGGCAGAATACGGCTTCACCGAACGCACGGCGGCGTACTTTACCGATTTCCCGGTTGACGGCGGGCAGGTGCCTGCCCGCGTGGTCCGGGTAGACCGCAACCGTATCCGTGTCGCAACGGCGGACGGCCTGGTGGAAGTGCCCTACCCGCCGGGCCCACCGCTGCCCGCGAGCGGTGACTGGGTCTGGCTAGGGCCAGTCCAGGCCCATGAACCCGGCATCGTTGCGGTGCTTCCACGCACGACCGAACTGAGCCGCAAGCGGGCGTTTGAGGGCTCCTCGGAGGCTCAGGTCCTGGCCGCCAACATCGAGGTGGTTGGCGTTGTTGTCCCGGTGGACCGGCCGCTGACCCACAACAGGCTGGAACGCACCCTCGTCGCCGCCTGGGAGTCCGGCGTCGTGCCGCTGGTGATCATCACAAAAGCCGACCTTGTCAACATCGCTGATGACGTCGTCGGGAAGGTGGTGCTGCAGGCGGCCGGAGCGGGTGTGGTGACGACGTATGCTGAGCACGGGGATGGCTTGGACGAACTCCTCGCACGGATACCGGCAGGAGGGACGCTCGTCCTGCTCGGTCCTTCCGGCGCGGGCAAATCCACGCTCATCAACGCACTAGCGGGGCGGAAGGTGCAGCCTGCCGGGCCAGTGCGGGCGGTTGACGGCAGGGGACGGCACACCACCACGTCACGGGAGCTGGTGCCGCTGCCCGGCGGTGCGGTGCTCATGGACACGCCGGGGGTGCGTGGCTTTGGGCTTTTCGACGCCGACGAAGGCATGGAGGAGATGTTCGGTGATCTTGAGGAGCTGTTCGGGCAGTGCCGCTTCTCGGACTGCGCCCATGACACCGAGCCAGGGTGTGCCGTGCAGGCTGCGCTCGCCGGCGGCTCCCTCGACGCCAGGCGGTGGGGCAGCTACCTGAAGCTGCAGCGCGAACTTGCGGCCCTGAACCGGCGCTCCGATGCCGCGGCCCGGCGCGCCTACCAAAGGGAATGGCACCAGAAGGTGGTGGCTGCCGGCAGGAGCCAACGCGCGGCGGAGCGCTACCGCAACGCCTGA	MNNSSDRFSAGIHHQSRELSGNHTRELRGPAEYGFTERTAAYFTDFPVDGGQVPARVVRVDRNRIRVATADGLVEVPYPPGPPLPASGDWVWLGPVQAHEPGIVAVLPRTTELSRKRAFEGSSEAQVLAANIEVVGVVVPVDRPLTHNRLERTLVAAWESGVVPLVIITKADLVNIADDVVGKVVLQAAGAGVVTTYAEHGDGLDELLARIPAGGTLVLLGPSGAGKSTLINALAGRKVQPAGPVRAVDGRGRHTTTSRELVPLPGGAVLMDTPGVRGFGLFDADEGMEEMFGDLEELFGQCRFSDCAHDTEPGCAVQAALAGGSLDARRWGSYLKLQRELAALNRRSDAAARRAYQREWHQKVVAAGRSQRAAERYRNA	PGPT0009020_181	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009020-rsgA|engC-K06949	NA	NA
D1-17_01248	1110	osmV	COG1125	Osmoprotectant import ATP-binding protein OsmV	ATGGCCGAAGCCATGATTGAGTTCCAGAGCGTCACCAAGCAGTACCAGGGTGGACAGCCGGCGGTGGACAACCTGAGCATGTCCATCGACAAGGGCCGCATCACAGTGTTCGTCGGACCATCGGGCTGCGGCAAAACCACGTCACTGCGAATGATCAACAGGATGGTGGAGCCGACATCCGGAACCATCACCGTGGCCGGCAAGGACGTCACCTCGGTGCCGGCCGCGGAGCTCCGCCGCTCCATGGGCTACGTCATGCAGTCCTCCGGCCTCATGCCCCACCGTTCGGTGCTGGACAACATCGCCACAGTGCCGCGCCTGAACGGCGTTCCCAAACGGCGGGCACGGGACCGCGCCGCGGAACTGCTCGACGTCGTCGGGCTGGACCCGGCCCTGGGCAAGCGGTACCCGTCCCAGCTCTCCGGAGGCCAGCAGCAGCGCGTGGGTGTGGCGCGGGCACTGGCCGCGGATCCTCCGGTGCTGCTTATGGACGAGCCCTTCAGCGCAGTTGACCCGGTGGTGCGCGAGGAGCTGCAGCAGGAGCTCCTCCGGCTGCAGCGGGACCTGGCCAAGACAATCGTTTTCGTTACCCATGACATTGACGAGGCCACCGTGCTGGGGGACAAGGTGGCGGTGTTCGCCATCGGAGGCAAGCTGGCTCAGTACGCCACCCCCGAGGAGATCCTGCGGGCTCCGGCGAACGAGTTCGTCGCCTCCTTCGTGGGCCGTGACCGCGGGTTCCGGCACCTTGGGTTCACCGCGGCCGACGGCGTGACCGTCCATCCCGTCCAGACCGTAACGAGGGCCGGCTCCGCCGACGCCGCTATGCCCGATGACGGCACCTCAGATCAGGGCTGGCGCCTCGTCGTGGACGAGGAGTCACGGCCGCTGGGGTGGGAGGCCCCCGGCCCTGACTCCGGACTTGTTCCCGGCGGCTCACTGTTCCGGCCCGGAGACACGTTGCGCCGCGCACTGGACTCGGCATTGTCCTCCCCGTCCGGACTGGGAGTCGCGGTGGACGGGGACGGCAGGGTGCTCGGCGTGGTGCAGGCAGCGGAAGTGCTTTCCGTCATCGAGTCGGCCCGCCGGGTGCGGCAGGGTGCCCTCTGA	MAEAMIEFQSVTKQYQGGQPAVDNLSMSIDKGRITVFVGPSGCGKTTSLRMINRMVEPTSGTITVAGKDVTSVPAAELRRSMGYVMQSSGLMPHRSVLDNIATVPRLNGVPKRRARDRAAELLDVVGLDPALGKRYPSQLSGGQQQRVGVARALAADPPVLLMDEPFSAVDPVVREELQQELLRLQRDLAKTIVFVTHDIDEATVLGDKVAVFAIGGKLAQYATPEEILRAPANEFVASFVGRDRGFRHLGFTAADGVTVHPVQTVTRAGSADAAMPDDGTSDQGWRLVVDEESRPLGWEAPGPDSGLVPGGSLFRPGDTLRRALDSALSSPSGLGVAVDGDGRVLGVVQAAEVLSVIESARRVRQGAL	PGPT0013585_1414	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
D1-17_01249	714	yehY	COG1174	Glycine betaine uptake system permease protein YehY	ATGGACTGGTTCCTGGCCAACATCGGCATGGTTGCCGGGCTCGCGGCGCAACACATGGTGCTCGCGCTGGTCCCGATGATCGTGGGACTGCTGATCTCCATCCCGCTGGCGCAGGCCTCCCGCCGCCACGCCGCGCTGAGGTCCCTTGTGAGCACCGTCAGCTCACTGCTCTACACCATCCCGTCGCTGGCGCTCTTCATTATCCTGCCTCCTTTGCTGGGAACCCGGATCCTGGACCCCCTCAACGTCATCGTCGCCCTGACCATTTACGCCGTGGCCCTCCTGGTGCGGGCGGCCATGGATGCCTTCGACTCGGTGGACGATGACCTCAGGCAGGCCGCGGTGGCAATGGGCTACAAACCTGCGGCGCGATTCTTGCACATCGACCTGCCCCTCTCCCTGCCGGTCCTGTTCGCCGGGCTGCGCGTGGTGTCCGTCAGCAACATCTCGTTGGTGAGCGTCGCCGCGCTCCTCGGCGTGGGCAACCTGGGGATCCTCTTCACGGACGGGCTGCAGCGGACGTTCGTCACCGAGGTGGTGGTGGGAATCCTCGCGATCCTGCTGCTGGCGCTGCTGATGGATGGCGTGCTCGTCCTCCTGGAAAGGCTGCTCACGCCCTGGACACGGGCGACCACCGCATCAACGCGCGCCGAAACGGTGACAGGCGCTGGATACATCGCCGACACCCACGTCCACCCGGGAGCGCGGCCATGA	MDWFLANIGMVAGLAAQHMVLALVPMIVGLLISIPLAQASRRHAALRSLVSTVSSLLYTIPSLALFIILPPLLGTRILDPLNVIVALTIYAVALLVRAAMDAFDSVDDDLRQAAVAMGYKPAARFLHIDLPLSLPVLFAGLRVVSVSNISLVSVAALLGVGNLGILFTDGLQRTFVTEVVVGILAILLLALLMDGVLVLLERLLTPWTRATTASTRAETVTGAGYIADTHVHPGARP	PGPT0013590_2914	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
D1-17_01250	744			hypothetical protein	ATGAATCTGTTCACGGAAACCTTCGTCTGGCTCGCCGACCCGGCCCACTGGCAGGGGAGTTCCGGCATAGCGGCCCGGCTGCTCGAGCACCTGCAGTACAGCGGCCTGGTCCTGCTCATTGCCGCCGCCCTCGCCGTGCCCGTGGGACTGTACATCGGCCACACCGGGCGGGGGAGGGTTGCGGCCGTGGCCGTCGCCGGTGCCCTGCGTGCGCTGCCGACGCTGGGCCTGTTGGTGCTCTTCGCGCTGATCGCCGGCAGTGGGCTCATGCCGCCTGTGTGGGCACTGGTGATCCTCACGGTCCCGCCGCTGCTGGCCGGCACGTATGCCGGCATCTCCAGCGTGAACGAAACGGTGGTTGATGCAGCCCGGGCCATGGGGATGAAGGAACTCCAGATCCTGTTCCGCGTCGAGCTGCCCAACGGATTCCAGGTGATGTTCGGCGGCCTGCGCACCGCCGTGCTGCAGGTGATCGCGACCGTGTCCGTGGTTGCCTACCTGCCGCTTGGCGGTCTCGGCCGCTATCTCTTCGACGGGCTGGTCCTGCAGGACTTCCCCCGTATGCTGGCCGGTTCGCTCCTCATCGCCGCCCTGGCCATCGCCGTCGACCTCGTCCTTGCCGCGGCGCAGCGGCTGCTGGTTTCTCCCGGGCTTACCACCGGTCCAAAGGGCGGCCGCAAGGCCGCCACCGATCTCTCGGCTGACGCACCTGCGCCTGCCGCTGTTCAAGGAGGCACCTCATGA	MNLFTETFVWLADPAHWQGSSGIAARLLEHLQYSGLVLLIAAALAVPVGLYIGHTGRGRVAAVAVAGALRALPTLGLLVLFALIAGSGLMPPVWALVILTVPPLLAGTYAGISSVNETVVDAARAMGMKELQILFRVELPNGFQVMFGGLRTAVLQVIATVSVVAYLPLGGLGRYLFDGLVLQDFPRMLAGSLLIAALAIAVDLVLAAAQRLLVSPGLTTGPKGGRKAATDLSADAPAPAAVQGGTS	PGPT0013590_2208	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
D1-17_01251	960	yehZ	COG1732	Glycine betaine-binding protein YehZ	ATGAAGCATCCCATCCACACGACTCTCACCCGCCGCAGCCTCGGCGGCCTCGCCGCAGGCGCAGGCATCGCCTTGGCGCTTTCCGCCTGCGGTGGCGGCGGCGACCCCCTGTCCGGCCCCACCACCAGCGCTGGAAGCGCGCCGGCCGGGGGCTCCCTGGTTGTCGGCTCTGCGGATTTCCCGGAAAGCCAGACCATTGCCGAAATCTACGCCGGTGCCCTCAACGCGGCGGGCATCACGACCACCACCAAGCCGAACATCGGCTCCCGCGAGATCTACTTCAAGGCCGTGCAGGACGGCTCCGTGGACGTTGTCCCGGACTACTCCGGCAACCTGCTCTCGCACGTGGACCCGGAGGCGCCCGAGGTCTCCGCCGAGGATGTCTACAAGGCACTGCCGGAGAAGCTCCCCGAGGGCCTCGGCGTGCTGGAGCCGGCAAAGGCGGAGAATAAGGACGCCATGGTGGTCACCAAGGCCACAGCCGAGAAACACCAGCTCAAGTCCATCGAGGACCTGGCCAAGGTGTGCAAGGACTTCACCATGGCGGCGCCGGCCACCTTCGAAACGCGTCCCTACGGTTTCCCCGGCCTCAAGAAGAACTACGGCTGCGAACTAAAGGCCCTGAAGCCCTTCAGCGACGGCGGCGGCAACCTGACCCTGCAGGCACTCCTGAAGGACGAGGTCCAGGTGGCCGACATCTACACCACCACGCCCTCCATTGCGGACAACGACCTGGTGGTGCTGGAAGACCCGAAGAGCAACTTCAAGGCACAGCAGGTGCTGCCCCTCTACAACAGCGCCAAGATGACCGACAAGGCCAAGGAAGCCCTGAACAACGTGTCCAGGATCCTGACCACCGGGGACCTCATCAACCTCAACCGGGCAGTCAGCGGCGACCAGAAGCAGAGCGCGAAGGATGCCGCTGCAGGGTGGCTCAAGGAAAAGGGCATCGTCAAGTAA	MKHPIHTTLTRRSLGGLAAGAGIALALSACGGGGDPLSGPTTSAGSAPAGGSLVVGSADFPESQTIAEIYAGALNAAGITTTTKPNIGSREIYFKAVQDGSVDVVPDYSGNLLSHVDPEAPEVSAEDVYKALPEKLPEGLGVLEPAKAENKDAMVVTKATAEKHQLKSIEDLAKVCKDFTMAAPATFETRPYGFPGLKKNYGCELKALKPFSDGGGNLTLQALLKDEVQVADIYTTTPSIADNDLVVLEDPKSNFKAQQVLPLYNSAKMTDKAKEALNNVSRILTTGDLINLNRAVSGDQKQSAKDAAAGWLKEKGIVK	PGPT0013595_1497	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845	NA	NA
D1-17_01252	1221	aspC_1	COG0436	putative aspartate aminotransferase	ATGGCAGATTTCAAGCAGTCCACCAAGCTTCGTGATGTCCTTTACGACATCCGTGGACCGATTCTTCAGGCCGCCCAGCAGATGGAGGCGGAGGGCCACCGAATCCTCAAACTGAACATCGGCAACCCGGCACCTTTCGGCTTTGAAGCGCCGGACGCGATCCTGGTGGACATGATCCGCCACCTGCCGCACGCCCAGGGCTACAGCGACTCCCAGGGTATTTTCTCCGCCCGCACTGCAGTCTCTCAGTACTACCAGACCCGCGGCATCCAGAACATCCACGTGGACGACATCTACCTCGGCAACGGGGTCAGCGAACTCATCACGATGTCGCTGATGGCGTTGCTGGAGGACGGGGACGAGATCCTGATCCCCACTCCCGACTACCCGCTGTGGACTGCTTCCGTCGCCTTGGCCGGCGGACGGCCAGTGCATTACCTCTGCGATGAAGAGTCGGGCTGGCAGCCGGACCTGGAAGACCTCGAGGCCAAGATTACGCCGCGCACCAAGGGCATTGTGGTCATCAACCCGAACAACCCCACCGGTGCGGTCTATCCGGAAAGTACGCTCCGCAAGATCGTGGCAATGGCAGAAAAGCACGGCCTGGTGCTGTTCGCCGATGAGATCTACGAAAAGATCCTGTACGAAGATGCTGTCCACGTGAACATGGCCGGCCTTACCGGTGACGATGTCTTGTGCCTGACCTTCAGCGGACTGTCCAAGGCCTACCGGGTCTGCGGCTACCGTGCCGGGTGGATGGCCATATCCGGACCGAAGAAGGATGCCTCGGACTACCTCGAGGGCATCAACCTGTTGGCAAACATGCGGCTGTGCGCGAATGTTCCCGCCCAGCATGCTATCCAGACCGCGCTCGGGGGCTACCAGAGCATCAACGACCTCATCCTGCCGGGTGGGCGTCTGCTGGAGCAGCGGAACAAGGCCTATGACATGCTCAACGCCATTCCCGGGGTGAGCACCCAGCAGGCCAGGGGAGCCCTGTATCTGTTCCCCAAGCTGGACCCCGAGGTCTTCCACATCCGCGACGACGAGAAGTTCGTCCTGGACCTGCTCAGGGAGCAGAAGATCCTCGTGTCGCACGGCAGGGCGTTCAACTGGGTGCGGCCCGATCATTTCCGGATGGTGACGCTGCCAAACGTGAAGGACATCGAAGAAGCGATTGGCCGCATGGGAGACTTCCTCACCAGGTATCAGGGGAACTAG	MADFKQSTKLRDVLYDIRGPILQAAQQMEAEGHRILKLNIGNPAPFGFEAPDAILVDMIRHLPHAQGYSDSQGIFSARTAVSQYYQTRGIQNIHVDDIYLGNGVSELITMSLMALLEDGDEILIPTPDYPLWTASVALAGGRPVHYLCDEESGWQPDLEDLEAKITPRTKGIVVINPNNPTGAVYPESTLRKIVAMAEKHGLVLFADEIYEKILYEDAVHVNMAGLTGDDVLCLTFSGLSKAYRVCGYRAGWMAISGPKKDASDYLEGINLLANMRLCANVPAQHAIQTALGGYQSINDLILPGGRLLEQRNKAYDMLNAIPGVSTQQARGALYLFPKLDPEVFHIRDDEKFVLDLLREQKILVSHGRAFNWVRPDHFRMVTLPNVKDIEEAIGRMGDFLTRYQGN	PGPT0001880_967	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0001880-alaA-K14260	NA	NA
D1-17_01253	855		COG2326	Polyphosphate:AMP/ADP phosphotransferase	ATGACCGATGTCATGGATTTCGTGGAGTCTCCGGCCATGGCCCTGCGGGTTACGGACGGATTTCAGCTTGCCTCCGTCGACCCCGACGCGACGCCCGGATACACAGGAAACAAAGCCGGTGGCGAGGCGCTCCTGACCCATCAGGACGGGAAGTTGGCCGAGCTGCAGGAGAAGCTGTTTGCGGAATCCAGGTTCGGCGGCACCAAACGTGTGCTGCTGGTCCTGCAGGCCATGGACACGGCCGGCAAAGGCGGCATCGTCCGCCACGTCATGGGCGCCATGGACCCGCAGGGTGTCCAGCTCAAGGCCTTCAAAGCGCCGACCGATGAGGAGAAGTCCTACGACTTTCTGTGGCGCATCGAAAAGGAAGTTCCTGCTGCCGGCATGATGGGCGTTTTCGACCGGTCGCAGTACGAGGACGTGCTGATACACCGCGTCCATGCCTGGGCGCCGCCCGAGGAGATCAGGCGCCGCTACGCCGCCATTAATGAGTTCGAACAACGCCTGGCGGACGCCGGAACAACAGTCGTCAAGGTGATGCTGCATATCAGCCGGGACGAGCAGAAGAAAAGGCTGCTGGCGCGCCTGGACAATCCGCAGAAGCACTGGAAGTACAGCAGCGGGGACCTGAAGCAGCGCGCGTTCTGGGAAGACTACATGGCGGCCTATCAGGCCGCCTTCGAAGCCACCAGCATGGAGCTGGCCCCTTGGTACGTGGTTCCGGCGAACAGGAAATGGTACGCACGAATCGCTGTGCAGGAACTGCTGCTCGCCGCCTTGGAAGGCCTCAGTCTCGAATGGCCCAAGGCCGAGTTCGACGTGGAAGCAGAACGGCGCCTGGTCGAAAGGTCCTGA	MTDVMDFVESPAMALRVTDGFQLASVDPDATPGYTGNKAGGEALLTHQDGKLAELQEKLFAESRFGGTKRVLLVLQAMDTAGKGGIVRHVMGAMDPQGVQLKAFKAPTDEEKSYDFLWRIEKEVPAAGMMGVFDRSQYEDVLIHRVHAWAPPEEIRRRYAAINEFEQRLADAGTTVVKVMLHISRDEQKKRLLARLDNPQKHWKYSSGDLKQRAFWEDYMAAYQAAFEATSMELAPWYVVPANRKWYARIAVQELLLAALEGLSLEWPKAEFDVEAERRLVERS				NA	NA	NA	NA	NA
D1-17_01254	249	xseB	COG1722	Exodeoxyribonuclease 7 small subunit	ATGACCGACAACTCCCCCGAGGCCCACGCGGGGTCACCGGCAACGGCCATACCCGCGGACATCGAGGCGCTGAGTTACGAGGAGGCGCGGGAGCAGCTGATAGGCGTCGTCTCCAAACTCGAAGCTGGCGGGACAAGCCTCGAGGATTCGCTCGCCCTCTGGGAGCGGGGCGAGGCTCTGGCCCGGCGCTGTGAGGAATGGCTGGAGGGAGCCCGGAAGAGGCTCGCCGCCGCGCGCAAAGACAGCTGA	MTDNSPEAHAGSPATAIPADIEALSYEEAREQLIGVVSKLEAGGTSLEDSLALWERGEALARRCEEWLEGARKRLAAARKDS				NA	NA	NA	NA	NA
D1-17_01255	1308	xseA	COG1570	Exodeoxyribonuclease 7 large subunit	ATGGCTGAAAATGCCATTGTCCCCGGCACGGCGACGACCGTGCCCGCCACCGCCGCCGAGACAACACCGGACAACCCGTGGCCGCTGCAGTTGCTGTCCCAAAAACTCAAGGCGCATATCGAGCGTGCTCCGGCAGCGTGGGTCGAGGGCCAGGTAATCGAGCTGAACCGGAGGGGCACCAGCGCTTTCCTGACTCTTCGGGATGTGGACGCCGAGATTTCCCTGCCGGCTTCCGTCTGGACCAAGATCCTCGACCGCCAGGAGAGCCCCCTGGAACGTGGCAGCAGGGTGGTGGCACTGCTGAAGGCAGAGTTCTGGCTCAAGACCGGACGCCTCAACATGTCGGTCAAGGACATCCGCCCTGTGGGGCTGGGCGACCTCCTCGCCCGGATTGAGAGGTTGCGCCACGCCCTCGCCGCCGAAGGCCTCTTCGCCGAATCGCGGAAGAAGCGGCTCCCGCTGCTGCCGCACCGCATCGGCCTCATCACCGGGCGGGACTCGGATGCGAAGAAGGACGTCCTGCGGAACGCGGCGCTGCGCTGGCCCGCCGTCGAATTCGAGATCCGGGAAGTTGCCGTCCAGGGCAATACTGCCGTTGCCCAGATCATCCGGGCACTGAAGGAACTGGACGCCCGCCCCGATGTCGACGTCATCGTCGTCGCCCGCGGCGGCGGCGCACTGGAAGATCTCCTCCCCTTCAGCAACGAGGAACTGATCCGGGCCGTCGCCGGGGCGGTGACTCCTGTTGTGAGCGCCATCGGGCACGAGGCGGACCGCCCCATTCTCGACGACGTCGCCGACCTTCGCGCTTCCACGCCGACCGATGCCGCCAAGCGGATAGTTCCCGAAGTTTCGGAGGAGCTGGCCCGCGTGCGCCAGGCAGAGGCCCAGCTGCACCGCTCAGTGACGCAGCTCGTTGCCCGGGAATCCGACCGTCTAGCCGCCCTGCGTTCGCGTCCCGTTCTTGCCGCCCCCGACGTCATGGTCAATGTGAGGGAGGAGGAAGTTGAACGTCTGGCACGCCGGTCCACTGCCGCCATCACCGCTGCCCTCACGAGGGCCGCCGACCAGCTCGGGCATCTCCAGGCGCAGGTCAGGGCGCTGTCCCCGCAGCAGACGCTGGACCGCGGCTACGCCGTCGTCCAGCTCGCCGCGGGCAGCGGGCCATCAGCCGGCGCTGTCGTACGGCATCCGGCAGAGGCGCCCGGCGGGACCAGCCTCTCCATCCGGGTCGCGGGCGGAAAATTCAGTGCAACGTCAACCGCCGCCTCGCAATCCGCAGGCTCCCGCCAGCCTGCCGGGGCCTGA	MAENAIVPGTATTVPATAAETTPDNPWPLQLLSQKLKAHIERAPAAWVEGQVIELNRRGTSAFLTLRDVDAEISLPASVWTKILDRQESPLERGSRVVALLKAEFWLKTGRLNMSVKDIRPVGLGDLLARIERLRHALAAEGLFAESRKKRLPLLPHRIGLITGRDSDAKKDVLRNAALRWPAVEFEIREVAVQGNTAVAQIIRALKELDARPDVDVIVVARGGGALEDLLPFSNEELIRAVAGAVTPVVSAIGHEADRPILDDVADLRASTPTDAAKRIVPEVSEELARVRQAEAQLHRSVTQLVARESDRLAALRSRPVLAAPDVMVNVREEEVERLARRSTAAITAALTRAADQLGHLQAQVRALSPQQTLDRGYAVVQLAAGSGPSAGAVVRHPAEAPGGTSLSIRVAGGKFSATSTAASQSAGSRQPAGA				NA	NA	NA	NA	NA
D1-17_01256	846			hypothetical protein	TTGCGTTCTTTTGTTTCGGCCTTGGCCGTAGTCATTGCCCTGTTGCTGTCCGCCGTCGCCGTCCCGGCCATCTGGGTGGACCGCAACATCGTTCAGGAAGACGGCTTCGTTGCGTTGGCCGCTCCCTTGGGTAAGGATCCGGTCTTTCAGCAAAGGCTCGCGGCCGCCGCCGTGGGCGGGATCGATGCCGGGGGGGCAATACCTGAACCCGTGGCAGGAATCGTCAGGCCCCTGCTGGAATCAGCGGCAGCCTCCCTCAGCGGGCTGCCCGGCTACCCGGCCGCCTGGGAGGAAACTCTTCGTAAAAGCCACCGGCTCAACTTCGCCGCCGGCACTGCCTCTTCCGAAGCCGGGCCCGGCACGACCGTCACGCTGGATGTTGCACCCCTCGTTGCGCTCGCCACTACCCAGATTTCGGAGCGCGCAGGAGTTCCGCTGGAAGCTCCGGCCCAGACCCTGCTGACGGTTGGACAGCCAAACCAGCGGCAGCAGATTGAACAGGTGGCCGCGTACGCCCCTCTCGGTTACAGCCTGGCCATCGGGGCGGGAATCGCATTTCTCCTGGCGTTTGTAGCGGCCCGCCGCCGGTGGACAGTATTCGTCGGAGCTGGCATCGGTGCCCTCGGTCTGGCAGGGGTGTGGACCGTGGGATCGCGCTTGGCCTCCGAGACCGCTGTCGGCACCGCGAGCGGAAACGAGGTGGCCGACCTGTTCGTGCAGGAATTTGTCAGTGCATCAACCCGCGGCTTCGGCTCATGGATAACGACGGCGGCCATCACCGGCGCCGTGCTGGTTGCCGCCGGTCTTGCCGGTCGTCTGCTCAGCGGCCGGGCCCGCCAGGCCTGA	MRSFVSALAVVIALLLSAVAVPAIWVDRNIVQEDGFVALAAPLGKDPVFQQRLAAAAVGGIDAGGAIPEPVAGIVRPLLESAAASLSGLPGYPAAWEETLRKSHRLNFAAGTASSEAGPGTTVTLDVAPLVALATTQISERAGVPLEAPAQTLLTVGQPNQRQQIEQVAAYAPLGYSLAIGAGIAFLLAFVAARRRWTVFVGAGIGALGLAGVWTVGSRLASETAVGTASGNEVADLFVQEFVSASTRGFGSWITTAAITGAVLVAAGLAGRLLSGRARQA				NA	NA	NA	NA	NA
D1-17_01257	1077	ispH2	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase 2	ATGACCTCCTCTGCTGTCTCCCTCTCGATGCCAACCGTTCCGCGCCGGCGCCGTTCGCCTGAGGAAGTGCTGGCGGCCGCGCCTGTGGCCGGCCCCAAGAAGGTCTTGCTCGCGGCCCCGCGCGGATATTGTGCGGGCGTCGACCGGGCCGTCATTGCTGTGGAAAAGGCGCTGGAGCACTACGGGCCGCCCGTTTACGTGCGCAAGCAGATTGTGCACAACGTGCATGTGGTCAGTTCCCTGGAAGAACAGGGAGCCATCTTTGTCGACGAAACCGACGAGGTGCCTGAGGGTGCGCTGGTGATCTTCTCAGCGCACGGCGTGTCACCCGCCGTGGTCCAGTCCGCTGAGGACCGGGGGCTGCGCACCATCGACGCCACCTGCCCGCTGGTTACCAAGGTCCACAAGGAAGCGGTCCGTTTCGCAAAGGACGACTTTGACATCCTGCTGATCGGCCATGATGGCCACGAGGAAGTTGAAGGCACCGCCGGCGAAGCTCCGGAGCACATCCAGATCATCAACGGTCCGCATGAAGTGGACAAGGTGACGGTACGAAACCCGGAAAAGGTCATTTGGCTTTCCCAGACGACCCTGAGCGTTGACGAGACCATGGAAACGGTCCGGCTGCTCAAAGAGCGGTTCCCCACCCTGCAGGACCCGCCCAGCGATGACATCTGCTACGCGACCACAAACCGCCAGGTGGCCATCAAGAAGATCGCTCCGCAGGCGGACCTCGTAATTGTGGTGGGGTCCGCGAACTCCTCGAATTCAGTGCGGCTGGTTGAGGTTGCCCTTGAGTACGGTGCCAAGGCGTCGTACCGCGTGGACTTTGCCAACGAGGTGGACGAGGCCTGGTTTGAGGGCGTTTCCACCGTCGGCGTCACATCCGGGGCGTCCGTGCCGGAGGTACTGGTCAAGGACGTGCTCCGCCTGCTGGCCGACTACGGCTACGGCGCCGTCGAGGAAGTCGTCACGGCCGAAGAGGATCTGCTCTTCTCACTGCCCAAGGAGCTTCGCGCAACCCTCAAGGCAGCCGGCGATGTCTCGCGGGCCCTGGGCGGCCGCCGCTCGAACTAG	MTSSAVSLSMPTVPRRRRSPEEVLAAAPVAGPKKVLLAAPRGYCAGVDRAVIAVEKALEHYGPPVYVRKQIVHNVHVVSSLEEQGAIFVDETDEVPEGALVIFSAHGVSPAVVQSAEDRGLRTIDATCPLVTKVHKEAVRFAKDDFDILLIGHDGHEEVEGTAGEAPEHIQIINGPHEVDKVTVRNPEKVIWLSQTTLSVDETMETVRLLKERFPTLQDPPSDDICYATTNRQVAIKKIAPQADLVIVVGSANSSNSVRLVEVALEYGAKASYRVDFANEVDEAWFEGVSTVGVTSGASVPEVLVKDVLRLLADYGYGAVEEVVTAEEDLLFSLPKELRATLKAAGDVSRALGGRRSN	PGPT0007615_308	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
D1-17_01258	1242			hypothetical protein	ATGGATTCTTTTGCACTGATTTTGGGCCTCCTGATGCTGCTGCTCGGCGGGCTGGCGGGCGCGGCCTTCGCGTACGTGGTGATGCGGCGCCGCAATGTGGCACTCGAGGCGGATTTCGACGGCGTTTCGGCGCGGCTCTCGGAGGTCACCGCCCACTACGCCGCAGCTGAAGCGGAGCGGAAGCTGCTGGCGATGCAAAACCGGGAGCTCGGGGAATCGCGCCAGCAGGACGGCAGCGTTCTGCGTGCCCTGGCGCCCGTGGCCGAGAAACTGACTGCCGTCCAGCAGCAGGTTTCCCTCCTGGAACGCGACAGGCTGGAACAGTACGGGCAACTGGCTCAACAGTTACAGGAGGCCAGGCTCTCAGACCAGCAGCTCATGAGGTCCACCCATGCCCTCGAGGCGGCCCTGCGCTCGAACAGCGCCCGCGGCCAATGGGGCGAGGTCCAGCTGCGCAGGGTTGTTGAAGCGGCCGGGATGCTCCGTCATGTGGACTTCTATGAGCAGCTGCACAGCCCGGGTGTGGATGCTTCGGTCCGCCCGGATCTTGTGGTCCAGCTTCCGGGCGACAAGCAGCTGGTGGTTGACGCGAAGGTGCCGCTGTCCTCCTATCTCGAGGCCCAGGACCTTGGCCAGACTGATCCCGACAATGCCGGAAGCCGCTCCAACCAGCAGGCCCTGCTGGCCGCCCACGCCAAAGCGCTCAAGTCCCATGTCGACGCCCTCAGCAACAAGAAGTACTGGGACATCTCAGGCAACTCCCCCGAGCTGGTAGTCTGCTTCCTGCCTGCCGAGTCCATCCTCGCTGCCGCCCTCTCTGCTGATCCGGGGCTTTTGGACCACGCCCTCTCCAAAAACGTGGTGCTTGCCTCACCCGGCACCCTGCTGGCCGTGCTGAAGTCCGTTGCCTTCACATGGCGGCAGGACGTTCTGACGGACAGTGCCCGTGAATTGTTCGAGCTGGCCCGGCAGCTCTATGAGCGGATGGGCACTCTCGGTGAGAATGTCAGCAAGCTGGGAAGCTCCCTGAAGACGTCGGTCGACCGGTACAACTCGATGGTCGGCACGCTGGAGGCCCGTGTGCTGCCCACAGCCCGGAAACTCAATGCCCTCGACGCCGCAGGCCTTGTTGCACCGCCGGCGGTTCAGGTGGCTCCCCGCGCCGTTTCCGCCCCTGAGCTGCAGGAGCACGCTCACAGCGCGCAGCTGTTGGAGGAGGCGTCCGAGGAGGACGCTGCGTAG	MDSFALILGLLMLLLGGLAGAAFAYVVMRRRNVALEADFDGVSARLSEVTAHYAAAEAERKLLAMQNRELGESRQQDGSVLRALAPVAEKLTAVQQQVSLLERDRLEQYGQLAQQLQEARLSDQQLMRSTHALEAALRSNSARGQWGEVQLRRVVEAAGMLRHVDFYEQLHSPGVDASVRPDLVVQLPGDKQLVVDAKVPLSSYLEAQDLGQTDPDNAGSRSNQQALLAAHAKALKSHVDALSNKKYWDISGNSPELVVCFLPAESILAAALSADPGLLDHALSKNVVLASPGTLLAVLKSVAFTWRQDVLTDSARELFELARQLYERMGTLGENVSKLGSSLKTSVDRYNSMVGTLEARVLPTARKLNALDAAGLVAPPAVQVAPRAVSAPELQEHAHSAQLLEEASEEDAA				NA	NA	NA	NA	NA
D1-17_01259	1086	ychF	COG0012	Ribosome-binding ATPase YchF	GTGGCTCTTACTATTGGCATCGTCGGACTGCCCAACGTCGGCAAATCAACTCTTTTCAACGCACTGACCCGGAACCAGGTACTGGCGGCGAACTATCCGTTTGCCACCATCGAGCCGAACGTCGGTGTCGTCAACCTGCCCGACCCCAGGCTCCAGAAGCTCGCAGGGATCTTCGGATCGCAGCGGGTGCTGCCCGCCGCAGTGTCCTTCGTCGACATCGCCGGCATCGTGAAGGGTGCATCCGAAGGAGAAGGACTGGGCAACCAGTTCCTCGCCAATATCCGTGAAGCGGAAGCCATCGCGCAGGTGGTGCGCGTCTTCGACGACCCCGACGTTATCCACGTCGACGGCAAGGTCGACCCCCGCTCGGATATGGAAACCATCAACACCGAGCTGATCCTCGCCGATCTGCAGACCATCGAGAAGGCAATTCCCCGGATCGAGAAAGAGGTCAAGATCAAGAAGCGGGAAGGCGCGGAACTCGCAGCCATCAAGGCCGCGCAGGCCGTGCTGGAACGCGGTGACACGATCTACTCCTCCATCAAGAGCGACAAGCTGGAGATGGAGCACCTCAAGGAACTCAGCCTCCTGACGGCGAAGCCCTTTATCTACGTCTTCAATGCCGACGAAGGAATCCTCGGCAGCCCCGAGAAACAGGCCGAGCTGCGCGCCATGGTTGCGCCCGCTGACTGCATCTTCCTTGACGCCAAGCTTGAGGCCGACCTCGTAGAGCTGGATGAGGCTGAGGCCCGCGAGATGCTTGAAATGAACGGCCAGGATGAATCGGGCCTGGACCAGCTGGCCCGCGTGGGGTTTCACACGCTTGGCCTGCAGACCTACCTCACGGCCGGCCCCAAGGAAGCCCGGGCCTGGACCATCCGCCAGGGAGACACGGCGCCGCAGGCGGCGGGAGTCATCCACTCGGACTTCCAGCGTGGCTTCATCAAGGCCGAAGTTGTTTCCTTCGAAGACCTGGTGGAGGCCGGGTCCATGGCGGAAGCGAAGTCCCGCGGCAAGGTCCGTATCGAGGGCAAGGAATACGTGATGGCCGACGGCGACGTGGTGGAGTTCCGCTTCAACGTCTGA	MALTIGIVGLPNVGKSTLFNALTRNQVLAANYPFATIEPNVGVVNLPDPRLQKLAGIFGSQRVLPAAVSFVDIAGIVKGASEGEGLGNQFLANIREAEAIAQVVRVFDDPDVIHVDGKVDPRSDMETINTELILADLQTIEKAIPRIEKEVKIKKREGAELAAIKAAQAVLERGDTIYSSIKSDKLEMEHLKELSLLTAKPFIYVFNADEGILGSPEKQAELRAMVAPADCIFLDAKLEADLVELDEAEAREMLEMNGQDESGLDQLARVGFHTLGLQTYLTAGPKEARAWTIRQGDTAPQAAGVIHSDFQRGFIKAEVVSFEDLVEAGSMAEAKSRGKVRIEGKEYVMADGDVVEFRFNV				NA	NA	NA	NA	NA
D1-17_01260	1779		COG0747	putative protein	ATGCGATTCAGTCGTATTTCCAAAGCAGTAGGCGTCGCCGCGGCAGCGGCGCTGGCACTCAGCGCCTGCGCAAGCACCAACACCGGGACAACCCCGACAAGCGATGCCGCCGGCAAGCAGGGCGGCACAGCCACCGTGGTCGAAGTGAACGCGTTCAACACCTTCAACCCCAACACGGCCGACGGCAACACTGACATCAACTCCAAGATCAGCTACGCAACGCACTCCGGCTTCTACTACATCGACAACCAGCTCAACATCGTCCGGAATGAGAAGTTCGGCAAGATGGAAAAGACCTCTGACGATCCATTGACCGTCAGGTACACCATCAATGAAGGCGTGAAGTGGTCGGACGGCACGCCTGTTACGGCGGCTGACCTCCTTCTCCAGTGGGCTGCTTTCTCCGGGTACTACAACGACGCCGATGCGGACGGCAAGGCAGGAACGTCATACTTCTCCTACGCCGGGGATCCAACCGGCCTCGCCCTCACCGACTTTCCGGAGATCGGCGACGACAACCGTTCGATGACGCTGAAGTACTCGAAGCCGTTCGCGGACTGGGAGATCGCGCTGGGAGGGCCCGGTATCGACATCCCGGCCCACGTCCTGGCAAAGAAGGCCGGCATGGCCGACACCCAGGAGTTCATCGACCACCTCAAAGGCCTGCCCCGTGGCGATGCCAAGGCACCCAAGCCGGCGGACAGCAAGCTCAAGGCCATGTCCGAACTTTGGAACACGGGCTTCGACACCAAGACGCTGCCCGGCGATCCGAGCCTCTTCCTGTCCAACGGCCCGTTCATCGTCAAGAGCGTGAACCAGGACCAGTCCCTGACCATGGTCAGGAACAAGGACTACAACTGGGGCCCTGAACCGAAGCTGGACGAAATCACCGTCCGCTACATCGGCTCGGCACCGGCACAGGTCCAGGCACTGAAGAACGGCGAAGCGGACATCATTGCCCCGCAGGCCTCCGCCGACACGATCGAGCAGCTCAAGGCACTCGAGAGCCAAGGCGTGACGGTGGAACAGGGCAACCAGCTCTCCTACGACCACATTGACCTGAACTTCTACGGCGTATTCGCCGAGAAGAACGTCCGTGAAGCATTCCTGAAGACGGTCCCCCGCAAGGACATCGTGGACAAGATCGTCAAGAAGCTGGATCCGGAAGCAAAGCCGCTGGATTCGCAGCTCTTCGTTCCGGCCCAGCCCGCCTACGCGGACAGCGTGAAGGAAAACGGCTCCGCCGCGTACCAGGATGTTGACATCGACGGAGCCAAGAAGCTGCTCGCCGGCAAGACTCCGGAAATCCGCATCATGTACAACAAGGACAACCCCAACCGTGTGGACGCCTTCTCCCTGGTCCGTGAATCTGCCACCAAGGCAGGCTTCAAGATCGTCGACGGCGGGCTCGGCGGCTCCGACTGGGGCAAGGCGCTGGGCAAGGGCGGCTACGACGCCACCATCTTCGGCTGGATCAACCCGGGCGTCGGCGTCTCCGGCGTACCGCAGATCTTCCGCACGGGCAACGGGTCCAACTTCAACAAGTTCAGCGACCCTGAGGCCGACAAGCTGATGGACGAGCTCATCGTGACGACGGACCGCGGCAAGCAGGACGACCTCATCAGGCAGATCGACAGGAAGATCTGGGCTTCCTCCTACGGTCTCCCGCTGTTCCAGTCCATCGGTGTGGATGCCTACAGCGACCGGATCACAGGCGTGAAGTTCATGCCCAACCAGACGGGTGTCTGGTGGAACTTCTGGGAGTGGGCCGAAAAGTAA	MRFSRISKAVGVAAAAALALSACASTNTGTTPTSDAAGKQGGTATVVEVNAFNTFNPNTADGNTDINSKISYATHSGFYYIDNQLNIVRNEKFGKMEKTSDDPLTVRYTINEGVKWSDGTPVTAADLLLQWAAFSGYYNDADADGKAGTSYFSYAGDPTGLALTDFPEIGDDNRSMTLKYSKPFADWEIALGGPGIDIPAHVLAKKAGMADTQEFIDHLKGLPRGDAKAPKPADSKLKAMSELWNTGFDTKTLPGDPSLFLSNGPFIVKSVNQDQSLTMVRNKDYNWGPEPKLDEITVRYIGSAPAQVQALKNGEADIIAPQASADTIEQLKALESQGVTVEQGNQLSYDHIDLNFYGVFAEKNVREAFLKTVPRKDIVDKIVKKLDPEAKPLDSQLFVPAQPAYADSVKENGSAAYQDVDIDGAKKLLAGKTPEIRIMYNKDNPNRVDAFSLVRESATKAGFKIVDGGLGGSDWGKALGKGGYDATIFGWINPGVGVSGVPQIFRTGNGSNFNKFSDPEADKLMDELIVTTDRGKQDDLIRQIDRKIWASSYGLPLFQSIGVDAYSDRITGVKFMPNQTGVWWNFWEWAEK	PGPT0004430_2693	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
D1-17_01261	1542			hypothetical protein	ATGGTGACCTACATTGTCCGGCGGCTCGTCACCGCTGCACTCATCCTCCTGGGTGCGTCATTCCTGGTGTACCTGCTGACCGCTGCATCCGGCGATCCGCTCGCGGAGTTCCGGGCGAGCAGTGCCCCCAACAAACAGCAGCTGATGGATTCGCGGTCGGCCCTCCTGGACCTGGACACCCCTGCTCCCATCAGATACTTCAAGTGGCTTGGCGGCGCCGCACAGTGCCTTGTCCCCTTTGCCGGCACCTGTGACCTTGGCAAGAACATCGCCGGCCAGCCCATCACGGATGCGCTGGGGCATGCGCTGGTCCAGACACTCACACTCGTCACGGCAGCCACCGTGCTGGCGATCCTCATCGGCATCACCCTGGGCATCATCACCGCGCTGCGCCAGTACAGCAGCCTGGACTATGGCGTGACTTTCATGGCGTTTCTGTTCTTCTCCCTGCCGATCTTCTGGGTGGCCGTGCTGCTGAAGGAGTTCGGCGCCATCGGATTCAACAACTTCCTTAGGAACCCGGAGATTCCCCTGCCTGTCGCTGCGGGCATAGGTGCTGTCCTTGGCCTCGTAGCCCTGATCATCGCCGGGGGTGACCTCAAGCGCCGGGTGCTGGTCGGCGGAATAGTTTTCGCGGCCGTCACGGCGGTGCTCGTCTACTTTTCCGTCACGCTGTGGTTCAAGACGCCCGGACTCGGCCCGGTCGTCATCGCCATCGCAGGAGTGGGCCTCGCCTTTGCCGTGACATTGCTGACGGCCGGCCTGAAGAACCGTAAGGCCTTGCGCGCCGCACTCATTGCCGCGGGCGCGGGCGTGGTTGCCTACTTCCTCGTCCAGCCGCTGCTCAACCAGGCAACAGTCCTCATGATCGTGCTCCTTGCGGTCGCAACGGTCCTGGTCGGCACCGGCATCGGCTACCTTGTGGGCGGGTATGACCGGGGGCAGTCCATGCGGGCGGCGGCTATTACCTCTTTTCTTCTCGGGTTCCTCATCGTCCTGGATCGGTACATGCAGGCGTGGCCGGCGTACTTCAATAACAGCAGGGTCCGCGGCCGCCCCATTGCAACGATCGGCGCCGGCACCCCGAATATTGAAGGGGACTATTGGATCCTCGGGCTCGACTCGTTCACCCACCTGATCCTGCCCACCACTGCGCTCATCCTGATCTCCCTGGCCGGCTATACGAGGTTCACCCGTTCTTCCATGCTCGAGATCATGAACATGGACTACATCCGGACGGCACGCGCCAAGGGCCTCTCGGAACGGACCGTGGTCATGCGCCACGCCTTCCGGAACGCCCTCATCCCCGTGGCCACGATCGTCGCCTTCGACATCGGCGGGCTCATCGGCGGCGCCGTCATCACAGAGACGGTGTTCTCCGTCCGCGGCATGGGATTCCTGTTCCTTGACGGCATCCTGCACGTTGACCCGAATCCGGTCATGGGCGTCTTCATCTGCGTCGCCATCACGGCCATGGTGTTCAACCTCATAGCGGACCTTGCCTACTCCGCGCTGGATCCACGAGTAAGGGTAAAAGCATGA	MVTYIVRRLVTAALILLGASFLVYLLTAASGDPLAEFRASSAPNKQQLMDSRSALLDLDTPAPIRYFKWLGGAAQCLVPFAGTCDLGKNIAGQPITDALGHALVQTLTLVTAATVLAILIGITLGIITALRQYSSLDYGVTFMAFLFFSLPIFWVAVLLKEFGAIGFNNFLRNPEIPLPVAAGIGAVLGLVALIIAGGDLKRRVLVGGIVFAAVTAVLVYFSVTLWFKTPGLGPVVIAIAGVGLAFAVTLLTAGLKNRKALRAALIAAGAGVVAYFLVQPLLNQATVLMIVLLAVATVLVGTGIGYLVGGYDRGQSMRAAAITSFLLGFLIVLDRYMQAWPAYFNNSRVRGRPIATIGAGTPNIEGDYWILGLDSFTHLILPTTALILISLAGYTRFTRSSMLEIMNMDYIRTARAKGLSERTVVMRHAFRNALIPVATIVAFDIGGLIGGAVITETVFSVRGMGFLFLDGILHVDPNPVMGVFICVAITAMVFNLIADLAYSALDPRVRVKA	PGPT0004445_198	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
D1-17_01262	1158			hypothetical protein	ATGAGCCAGCCGAGCCAGCAGGACGAAATAGTAGCTGAACAGGCCAGCCTGAAGGGGCAGCCGGCCGCCGGCATCGAGCCTGTCATCGAGGCCAAAGGACTGAGCCAGGGGCAGATTGTCCGCAAGCGGTTCCTCGGGCACTCCGGTGCCATTGCAGGCCTCGTCGTCTTCGCCATCATCTTCGTCATGGCCTTCACGTCAGTTGGATATGCGGGCATTCCTGGATGGTGGAAGTACACCCACGAGGCCGTCTCACCGCTCGTCAACGACGGCGCGCCCACGGCCTCCCTCTGGCCGATTGCCTGGGGGGAGCATCCATTCGGCCAGGACCGGATCGGCCGCGACCTGTTTGCCATGACGATGCGCGGTGCCCAGCAATCCATCACCATCATGGTGGTCATCGGACTCATTGCAGGTCTGATCGGCGTAACCGTGGGCGCGCTGTCCGGGTACTTCCGTGGCTGGACAGAAGCCATTCTCATGCGCCTCACCGACGTCATCATCATCATTCCCGCGCTGCTTTTGGCAGCGGTCATGGCACAGTTCGCGGGCCGGCGGGACGAAGGAAGCTGGTTTGCCTCTTTTGCCAGCACCAACGGTGTTCTGGCCCTTGGGATCTTCCTTGGACTGATCAGCTGGGTGGGCCTTGCAAGGCTGATGCGGGGTGAGTTCCTCACCCTGCGTGAACGCGAATTCGTCGACGCAGCCCGGATCTCCGGAGCCAGCAACGCGCGGATCATCTTCAAGCACATCCTGCCGAACGCCGTCGGCGTACTGATCGTCAATGTCACCCTGACCATGTCCGCGGCCATCCTTACCGAGACCGCGCTGAGTTACCTTGGCGTGGGCGTGAAGTCCCCGGACACGTCCCTGGGTTTGCTCATCTCACAAAACCAGGAGGCCTTTACCACACGGCCGTGGCTGTTCTGGTTTCCCGGCCTGTTCATTGTCCTCATTTGCCTGAGCATCAACTTCATCGGCGACGGACTGCGGGATGCCTTTGATCCCCGGCAGAAAAAATTCAATCCCAAGAAGGCCCGGGAAGACCGCCGCCGTCCCAAGACTCCGGAGAAGACACCCATCACCGCCGCTGAAGGCAGTACAGGGGACAGCAGGGACGGGAACGGCCCTGCAGCCGGTTCCGGCAGGGGAGACTGA	MSQPSQQDEIVAEQASLKGQPAAGIEPVIEAKGLSQGQIVRKRFLGHSGAIAGLVVFAIIFVMAFTSVGYAGIPGWWKYTHEAVSPLVNDGAPTASLWPIAWGEHPFGQDRIGRDLFAMTMRGAQQSITIMVVIGLIAGLIGVTVGALSGYFRGWTEAILMRLTDVIIIIPALLLAAVMAQFAGRRDEGSWFASFASTNGVLALGIFLGLISWVGLARLMRGEFLTLREREFVDAARISGASNARIIFKHILPNAVGVLIVNVTLTMSAAILTETALSYLGVGVKSPDTSLGLLISQNQEAFTTRPWLFWFPGLFIVLICLSINFIGDGLRDAFDPRQKKFNPKKAREDRRRPKTPEKTPITAAEGSTGDSRDGNGPAAGSGRGD	PGPT0004450_2391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
D1-17_01263	663			hypothetical protein	GTGCACCGGCGCGGAATCCTGAATTATGGGGGCATGAGCACTGCGCCGTCCGCCGCAAGCACGGAGATCTTCAAGGCCCGCACGAACAAGTGGTTCGCCGGGCTTGCCTGGGCCGTGGCCGGCGCCGGTCTGGTCAGCACGGCCCTCAGCGGCCGAGCAGAAGCCGTCTCCGGCACCGGTCCGCTGGTGCTGACCGCGTACCTTGGCTGGGTGCTGTTCTGGCGCCCGTCCGTTGTGATTCAGGAAGCCGGCGTGAGCCTCGAAAACCCGTTCCGCAGTATTGCTGTGCCGTGGGCTGCCTTGGTCCAGGTGGATACACGTTATGCTTTGACGCTCATCACGCCGGCCCGTAGCTACGGCGCATGGGCGGCGCCGGCGCCAGGAATCTGGGGCGGCCGCAACGCCCGGCCGGAGGACCTTCAGGGGCTGCCCGGCAGCACCTATGGCCCGGGCCAGTCGGTTCGCCCCGGCGATCTGAAGAGCACCGACTCGGGCCAGGCAGCTCAACTCGTGCGCGCCCGCTGGCAGCAGATGGTGGAATCCGGGGCCCTCGACGCCGGCGCCGCGGCCGACACCCCTGTCACTGTGAGGATCCGGTGGCTGGACCTCGGCGTCACGGCAGCCCTCGTGCTGTTCAGCATCTGGGGCGTGGCCCTGGTGTAG	MHRRGILNYGGMSTAPSAASTEIFKARTNKWFAGLAWAVAGAGLVSTALSGRAEAVSGTGPLVLTAYLGWVLFWRPSVVIQEAGVSLENPFRSIAVPWAALVQVDTRYALTLITPARSYGAWAAPAPGIWGGRNARPEDLQGLPGSTYGPGQSVRPGDLKSTDSGQAAQLVRARWQQMVESGALDAGAAADTPVTVRIRWLDLGVTAALVLFSIWGVALV				NA	NA	NA	NA	NA
D1-17_01264	1830	gsiA	COG1123	Glutathione import ATP-binding protein GsiA	ATGACTGACTTCATCAGCCCCAGCTCCGCCAGGTCCGGCTCCGACAGCAAGGGCGCAGTCGTTCTTGAGGTGCGCGATCTGAGTGTCGACTTCGGCGTGGACAAGGCATGGGTGCCTGCCGCCGTCGGGCTTAACTACGAAGTCCGCGCCGGGGAGGTACTGGCCATCGTTGGCGAATCCGGCTCGGGCAAGAGTGCCAGTTCCATGGCGCTGCTGGGCCTGTTGCCGAGCAACAGCCGCGTCTCCGGCAGCGTCAAACTCTCAGGCAAGGAGCTGCTGGGCGCGGACGCCTCAAACATCAGGAGTGTCCGGGGCAAGGACGTGGCCGTCATCTTCCAGGAGCCGATGACCGCCCTCAACCCCGTCTACACCGTCGGCGCCCAGATTGTGGAGACGGTCCGGCTGCACAACGAGGTGTCCCCGGAACAGGCCCGCGAACGGGCCCTGCAGATGCTGGACCTCGTGGAACTGCCCGATCCGGAGAAGGCCTTCAAGTCCTATCCGCACCAGCTCTCCGGCGGGCAGCGGCAGCGGGCGATGATCGCGCAGTCACTCTCCTGCGATCCCAGACTGCTCATCGCCGACGAACCGACCACGGCGCTTGACGTCACGGTGCAGGCGGAAATCCTGGACCTCATGAGGAACCTGCGGAACAAGCTGGACAGCGCCATCGTCCTGATCACCCATGACATGGGCGTTGTGGCGGACCTGGCCGACCGAATTGCGGTCATGCGGCGCGGAGTCATCGTGGAGACCGGGACAGCCGAAGAGATCTTCCACCACCCCCGGCACCCCTATACGCAGGCCCTCCTGGCAGCGGTGCCGCACCTCGGCCAGGGCGGTGCCGATGCCGTCGCTGACGTGGACGTCATCGCCGCGCTCGCCGCAGCTACCCATGCCGAACTGGAATCGGTCAACCGCGAAGAGCTGCTCCGGCGGGAGCAGGAGAATGCTGCGGCGCTGGCAGCCGCCGAGTCCGCCCGGCCTGCTGGAGAACCCGTCCTGGAACTGGAGGAGGTCGCCATCGAGTACCCCAAACAGGGGCGTGTACCGGCATTCCGGGCCGTCGAAGGCGCGAACCTCACGGTCTATCCCGGACAGGTAGTCGGGCTGGTGGGGGAGTCCGGTTCCGGCAAGACCACCATCGGACGGGCAGCCGTGGGACTGCTGCCGGTAGCTGCCGGTAGGATGAGGGTGGTGGGCCAGGATATTTCGGCAGCGAAAAAGAACGGCAGGCAACTGCATCAGGTCCGACGGCACATCGGCATGGTGTTCCAGGACCCGTCCTCCTCACTGAACCCGCGCCTGCCCATTGGCGAAAGCATCGGCGAACCGATGTACCTCGCAGGGGTGGCCAAGGGCAGCGACCTCCAGAAACGGATCGAAGCCCTGCTGGACCAGGTGGAGCTGCCTCGCGGATACCGCAACAGGTACCCGCATGAGCTCTCAGGCGGGCAAAAGCAGCGTGTGGGCATTGCGCGCGCCCTGTCACTGAAGCCCAAACTGATGGTGGCAGACGAACCCACCTCTGCGCTGGACGTTTCAGTGCAGGCCAAGGTGCTGGAGCTTTTCCAGAACCTGCAGCGGGAGCTGGGCTTCGCGTGCCTGTTCGTCACCCACGACCTCGCCGTCGTCGACGTTCTCGCCGACAGGATCTGTGTCATGCAGCGCGGACGCATCGTGGAACAGGGGACCCGTGACCAGATCCTCCGCAATCCGCAGGAGCCCTACACGCAGAGACTGCTTGCCGCAGTTCCCCTGCCCGACCCGGAGCGGCAGCGCGAACGCCGCGAACTTCGGGCCCAGCTGCTGGCGGCGGGAGCGAAATGA	MTDFISPSSARSGSDSKGAVVLEVRDLSVDFGVDKAWVPAAVGLNYEVRAGEVLAIVGESGSGKSASSMALLGLLPSNSRVSGSVKLSGKELLGADASNIRSVRGKDVAVIFQEPMTALNPVYTVGAQIVETVRLHNEVSPEQARERALQMLDLVELPDPEKAFKSYPHQLSGGQRQRAMIAQSLSCDPRLLIADEPTTALDVTVQAEILDLMRNLRNKLDSAIVLITHDMGVVADLADRIAVMRRGVIVETGTAEEIFHHPRHPYTQALLAAVPHLGQGGADAVADVDVIAALAAATHAELESVNREELLRREQENAAALAAAESARPAGEPVLELEEVAIEYPKQGRVPAFRAVEGANLTVYPGQVVGLVGESGSGKTTIGRAAVGLLPVAAGRMRVVGQDISAAKKNGRQLHQVRRHIGMVFQDPSSSLNPRLPIGESIGEPMYLAGVAKGSDLQKRIEALLDQVELPRGYRNRYPHELSGGQKQRVGIARALSLKPKLMVADEPTSALDVSVQAKVLELFQNLQRELGFACLFVTHDLAVVDVLADRICVMQRGRIVEQGTRDQILRNPQEPYTQRLLAAVPLPDPERQRERRELRAQLLAAGAK	PGPT0004435_1282	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
D1-17_01265	867			hypothetical protein	ATGTTTCAAGCCTCAGTGAGGGCACTCCTGATGGGCCCGCTGATCGCCGCCGGCCTTTTATTGAGCGGCTGCGGTACCGCCGTCGGTTTAGGGACCGGCGCCGGAAGCGGAACGCCGGTTCCCGTTTCTTCCCAGGAGGCTACCCGCGCGCCCGCCCCGGTCGCTGGCCCCGGAGAAGCGGTGGCCGCCGGTGCTGCGGTCACAGAGGACCTGGCGGCCGGCCCAGATCCCGCCGCCCTCCCGGCCGGGTCCTTGTACCGGAACCCTGCGAACGGTCGGGACGAGGTGATCGTGGAAGACATCGGCCGCACCGTACTGCTGATCGGCGACTCGCAGTCAGAGCCAGACAGTAGCTGGCCGCGCCGCGCCCTCGCGGGGCTCGGTTACGACGTCTTTTTCTGTGGCAAGGGCGGCACGGGCTTTGTTGCCTCGAACGGCGCTACGGGTAATTATGTCGACGCCCTCCACCGGGGCGACTGGCATCTCCCCTACGGCCAGCCTCCGCTGGTGGTCATTGAGGGCGGCGGGAACGACGCTAAGCAGGGGGCGGGCGACGAACAAATCAGGGCCAATGCCGGGCAACTGATCGCCACGCTGAGGCAGCGGTACCCCGCTGCGAAGTTCGTCATGGTCGGCACGCTGGCCAGGGGCGCTGCTCACGGCGGCGGCCGGCGTTCGGAAGTGGACGCACTCCTTGGGACCGTGGCTGCGGAACAGGGGATACCTTTCGTCAGCGCCGGGGACTGGCTTACCAGGTACGGGCTGGACGTCCACCTCGCCGACGCCGTCCACATGAACGACGACGGCCACCGCGCCCTGGGCGCGCTGCTGCTGGACCGCCTCTCCTCGCTGGGCCTGCAGCGCTGA	MFQASVRALLMGPLIAAGLLLSGCGTAVGLGTGAGSGTPVPVSSQEATRAPAPVAGPGEAVAAGAAVTEDLAAGPDPAALPAGSLYRNPANGRDEVIVEDIGRTVLLIGDSQSEPDSSWPRRALAGLGYDVFFCGKGGTGFVASNGATGNYVDALHRGDWHLPYGQPPLVVIEGGGNDAKQGAGDEQIRANAGQLIATLRQRYPAAKFVMVGTLARGAAHGGGRRSEVDALLGTVAAEQGIPFVSAGDWLTRYGLDVHLADAVHMNDDGHRALGALLLDRLSSLGLQR	PGPT0001840_120	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
D1-17_01266	1929	typA	COG1217	GTP-binding protein TypA/BipA	ATGTCTGAAACCACCACCAACACCGCGGTAGCCACTGCATCGCGCAGTGATCTGCGCAACGTCGCGATTGTGGCCCACGTTGACCATGGCAAGACCACTCTCGTGGACGCCATGCTCAAGCAGACCAACTCCTTCGCTTCGCACGGGGAGGTTGAGGACCGCGTCATGGACTCCGGTGACCTGGAACGCGAAAAGGGCATCACCATCCTGGCGAAAAACACCACCGTTGCCTACAGCGGCCCCTCGTCCAACGGTGAAACCATCACCATCAACGTCATCGACACCCCCGGCCACGCCGACTTCGGCGGCGAGGTAGAGCGCGGCCTGTCCATGGTGGACGGCGTCGTCCTGCTGGTGGACGCCTCCGAGGGCCCGCTGCCGCAGACGCGCTTCGTGCTGCGCAAGGCGCTGGCCGCACACCTGCCCGTGATCCTGCTGGTGAACAAGACCGACCGTCCTGACGCCCGCATCGACGAAGTTGTCCACGAATCGATGGACCTCCTGCTCGGCCTGGCCTCTGACCTCGCGGACGAAGTGCCGGACCTGGATCTGGATAAGATCCTCAATGTCCCCGTCGTCTACGCAGCCGCCAAGGTCGGCCGCGCGTCCCTGGAGCAGCCGGCCGACGGCACGGCCCCGGAGAACGAGGACCTTGAGCCCCTGTTCAAGACCATCATCGAGCACATTCCGGCTCCGACCTACAACCCCGAGGGCGTGCTGCAGGCCCACGTGACCAACCTGGACGCCTCCCCGTTCCTTGGCCGCCTCGCCCTGCTGCGCGTCTACAACGGCACCCTCCGCAAGGGCCAGCAGGTCGCCTGGGCCCGCCACAACGGTGAGCTCAAGACGGTCAAGATCACCGAACTGCTCGCCACCAAGGCCCTTGAGCGCGTTCCGGCTGAGTCCGCCGGCCCCGGTGAGATAGTTGCTGTCGCCGGCATCGAGGACATCACCATCGGCGAGACCCTCACCGATCTCGAAAACCCCCAGCCGCTGCCGCTGATCACCGTGGACGATCCGGCGATCTCCATGACCATCGGTATCAACACCTCGCCCCTCGCCGGCAAGGTCAAGGGCGCGAAGGTAACCGCCCGCCAGGTGAAGGACCGCTTGGACAAGGAACTGATCGGTAACGTCTCCATCAAGGTTCTCCCCACCGAGCGTCCCGATGCCTGGGAGGTCCAGGGCCGAGGCGAGCTCGCGCTGGCTATCCTCGTGGAGCAGATGCGCCGTGAAGGCTTTGAGCTCACGGTTGGCAAGCCGCAGGTCGTCACCAAGACCATTGACGGCAAGATCCACGAGCCGATGGAGCACATGACCATCGACGTTCCCGAAGAGTACCTCGGCGCCGTGACCCAGCTGATGGCCGCACGCAAGGGCCGCATGACCAACATGGCCAACCACGGCACGGGTTGGGTCCGCATGGAATTCATCGTTCCCGCCCGCGGCCTTATCGGTTTCCGCACGAAGTTCCTCACAGACACCCGCGGCGCTGGCATCGCGGCCTCAATCTCTGAAGGCTACGAGCCTTGGGCCGGACCGATCGAGTACCGAACCAACGGCTCCATGGTCGCTGACCGCGCCGGCGTGGTGACTCCGTTCGCCATGATCAACCTTCAGGAACGCGGCTCCTTCTTCGTCAAGCCCACCTCCGAGGTCTACGAAGGCATGATTGTGGGCGAAAACTCCCGCGCCGACGACATGGATGTCAACATCACCAAGGAAAAGAAGCTCACCAACATGCGTGCCGCTTCGTCCGACAGCTTCGAGAACCTCACGCCTCCGCGCGAGCTCACCCTCGAAGAGTGCCTCGAATTTGCCCGCGAAGACGAGTGCGTCGAGGTCACCCCGGAGGACATCCGCATCCGCAAGCTCATCCTCGACTCGAACGAGCGTGCCAAGGCCAACCGCGCCCGCGCGAAGGCTTAA	MSETTTNTAVATASRSDLRNVAIVAHVDHGKTTLVDAMLKQTNSFASHGEVEDRVMDSGDLEREKGITILAKNTTVAYSGPSSNGETITINVIDTPGHADFGGEVERGLSMVDGVVLLVDASEGPLPQTRFVLRKALAAHLPVILLVNKTDRPDARIDEVVHESMDLLLGLASDLADEVPDLDLDKILNVPVVYAAAKVGRASLEQPADGTAPENEDLEPLFKTIIEHIPAPTYNPEGVLQAHVTNLDASPFLGRLALLRVYNGTLRKGQQVAWARHNGELKTVKITELLATKALERVPAESAGPGEIVAVAGIEDITIGETLTDLENPQPLPLITVDDPAISMTIGINTSPLAGKVKGAKVTARQVKDRLDKELIGNVSIKVLPTERPDAWEVQGRGELALAILVEQMRREGFELTVGKPQVVTKTIDGKIHEPMEHMTIDVPEEYLGAVTQLMAARKGRMTNMANHGTGWVRMEFIVPARGLIGFRTKFLTDTRGAGIAASISEGYEPWAGPIEYRTNGSMVADRAGVVTPFAMINLQERGSFFVKPTSEVYEGMIVGENSRADDMDVNITKEKKLTNMRAASSDSFENLTPPRELTLEECLEFAREDECVEVTPEDIRIRKLILDSNERAKANRARAKA	PGPT0023720_301	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
D1-17_01267	510			hypothetical protein	ATGACACCCGCGCCGGAAAGCGACGATGCTGACCTGGTGGCGAAGGGCCGTGCGCTCAGTTCTCCGCTCAGGCTTCGGATCCTGCGGCTGTGCCTTCACCAGGCCCGCACCAACAAGGAAATCGCGGAGCTGTTGGGGATTAATCCCGCGTCCAGCCTGCACCACGTGCGCACCCTTGTGCGGACCGGCTTCCTCCTCGCCGAAGAGCGCCGGAAAGGGCGGCGGGGCGCCGCTGAAGTGCCCTACATCGCAAGCCGCAAGTCCTTGGCCACATCGGTGGACAACGTCGCCCCGATCCTCATCGAGACCTTCCTGCAGGAGACCCGGGACCTTCCGCCGGAGGACATCGAGGTGTGGCGCCTGGGCGTGAAGTTCAACGCGGCCCGGCGGCAGGAAATGCTGGACAAACTGCGCGCTGTCCTCGACGAGTACATGGCCCTGCCGGCCGATGACGACGGCGAGGCCACCTCGCTGATGATCGCCCACCACCGGGATCCGACAGCTGACTAG	MTPAPESDDADLVAKGRALSSPLRLRILRLCLHQARTNKEIAELLGINPASSLHHVRTLVRTGFLLAEERRKGRRGAAEVPYIASRKSLATSVDNVAPILIETFLQETRDLPPEDIEVWRLGVKFNAARRQEMLDKLRAVLDEYMALPADDDGEATSLMIAHHRDPTAD				NA	NA	NA	NA	NA
D1-17_01268	1281	entS_2		Enterobactin exporter EntS	GTGACAGCCGAACGGACCGCTGCAGGGGAAGCATCCAAGTCGCTGTTACTGGACCGCAACTTCACCACCTTCTGGTCCGGGCAGGCCATAAGCCAACTCGGAGCACAGCTGGGGCAACTGGCGTTTCCGGTACTGGCAGTATCCATGTTGCGTGCCTCGGAATTCGAGGTGGGCCTGCTCAACGCGGCCGGCCTTGCCGCCTTCCTCATCGTGGGCCTTCCAGCGGGCGCCTGGGTGGACCGATGGCTCAAGCGTCCCACCATGATCCGGGCCGACGTCACGCGTATGGCCGCGATGGCAGCCGTGCCGCTGCTCTGGTGGGCCGGACTGCTTGAGATGTGGCACCTCTACGTCATCGCGGCGATCGTCGGAACAGCCACGGTGTTTTTCGACGTCTCGTACCAGAGCTACGTCCCGGTCCTTGTCGCGCCCGGCCAAGTCAACCAGGCCAACTCCAAGCTGGAGGCAACAGCCCAGATAGCGCGGATCGGCGGGCCGGCCTCCGCTGGTCTGCTGCTGGCGGTGGTCACGGCTCCGGTGCTCTTCATCGGTGAGGCCGTCGGCTACCTGCTGTCCGCGATCTTCCTCGCCCGCACGCGCGACCGGGAGGTGGCCGCCCCGGTGGCAGGCCGGCGCCCCCTGCGCGCCGAGATCAAGGAAGGGCTCGGGTTCGTGATCCGGCATCCACTCATCAGCCGCATCGCAGCCTGTACAGCTGCCATGAACTTCTGCGGCATGATGATTTTCACGATGATGCCGGTGCTGATTCTGCGGACCCTTGGACTGGGCCCGCAGGGGATGGGCTTGGTCATGGCCGTGGGCGCCGCCGGCGGCCTGCTGGGGGCAGTGATGGCCCCAAAGCTGGCGGCCCGGGTGGGGGAGGGCAGGGTGATACCGCTCTGCGCGGTGGCCAGTTCCGTGCTCCTGGTTCCCCTGCCGCTGGCTGCCATGGTGGCCGAACCAGTTGCCTCCCTGCTGCTGGTGCTGGTGTCAGAGTTCTTCTTCGGGTTCGTGGTGCTGGTTTACAACATCACGCAGCTCAGCATGCGCCAGCGTGTTTGTCCGCCGCGCCTGCTGGGGAGGATGAACGCATCCATCCGGTTTGTGGTATGGGGGGTCATGCCGCTGGCCGCGTTGGCGTCCGGCCTTCTCGCGGAGCAGTTCGGCCTCATCGCAGTCATCTGGATCGGAACTGCAGGCAGTTTCCTGGCAGCCGCCCCGGTGGTGTTCTCGCCGCTGCTGCGCATGCGCAGCCTGCCCAACCAGGTGGAGGGCAGCTAG	MTAERTAAGEASKSLLLDRNFTTFWSGQAISQLGAQLGQLAFPVLAVSMLRASEFEVGLLNAAGLAAFLIVGLPAGAWVDRWLKRPTMIRADVTRMAAMAAVPLLWWAGLLEMWHLYVIAAIVGTATVFFDVSYQSYVPVLVAPGQVNQANSKLEATAQIARIGGPASAGLLLAVVTAPVLFIGEAVGYLLSAIFLARTRDREVAAPVAGRRPLRAEIKEGLGFVIRHPLISRIAACTAAMNFCGMMIFTMMPVLILRTLGLGPQGMGLVMAVGAAGGLLGAVMAPKLAARVGEGRVIPLCAVASSVLLVPLPLAAMVAEPVASLLLVLVSEFFFGFVVLVYNITQLSMRQRVCPPRLLGRMNASIRFVVWGVMPLAALASGLLAEQFGLIAVIWIGTAGSFLAAAPVVFSPLLRMRSLPNQVEGS				NA	NA	NA	NA	NA
D1-17_01269	240			hypothetical protein	GTGAACCAGCAACCCGCCGCACCCCGTGAGTTCCTCGCCACAGCCTCCGCCGGTACCCGGGTGGTCGTCCGGTACAAGATCGACGGCGGATTCACCGACGCACTGGGAGACCTGCTGGGGTGCAGCCCCACCGAATGCACCGTGCGTACCCGAAGTGCCGACGTCGTGATTCTCCTTGAGCGGGTGGTGGCCGCCAAGCAGGTGCCGCCCCCGCCAGCCCGGCGGGGTTCCCGTACCTAG	MNQQPAAPREFLATASAGTRVVVRYKIDGGFTDALGDLLGCSPTECTVRTRSADVVILLERVVAAKQVPPPPARRGSRT				NA	NA	NA	NA	NA
D1-17_01270	327		COG1146	Ferredoxin	GTGACGTACGTAATCGCGCAGCCGTGTGTAGATGTCAAGGACAAGGCATGCATTGAGGAGTGCCCCGTCGATTGCATCTACGAAGGCGAGCGTTCCCTCTACATTCACCCGGATGAGTGTGTCGACTGCGGCGCCTGCGAACCTGTCTGCCCCGTCGAGGCCATCTACTACGAGGACGACACGCCGGAGGAGTGGGCCGATTACTACAAGGCCAACGTCGAGTTCTTCGATGAGCTGGGCTCTCCGGGCGGTGCAGCCAAGATCGGCAACACCCACACCGACCACCCGATGATTGCAGCGCTTCCGCCGCAGAACCAGGACCACTGA	MTYVIAQPCVDVKDKACIEECPVDCIYEGERSLYIHPDECVDCGACEPVCPVEAIYYEDDTPEEWADYYKANVEFFDELGSPGGAAKIGNTHTDHPMIAALPPQNQDH	PGPT0030810_836	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
D1-17_01271	1143	dapL	COG0436	LL-diaminopimelate aminotransferase	GTGACTACAGCTGTCCGCAGTTTCGGCCTGAGCCTGCCCGATTACCCCTGGGAGGCCATGGCACCGTACCTCGCCAAAGCGGCCGAACATCCGGACGGTGTCGTTAACCTGTCCATCGGAACGCCGGTGGACCGGACGCCCGGGGTGATCCAGGAAGCGCTCCGCGCTGCGGCTGACGCCCCCGGCTACCCCACGGTGCACGGCACCGCCGCCCTTCGGGAGGCCATTGCCGCCTGGTTTGCACGCCGCCGCGGCGTGGACGGGCTTGACCCGCGCGACATTATGCCCACGGTCGGTTCCAAGGAACTGGTGGCATGGCTGCCGTTCCTGCTGGGGCTGAAGCCGGGCGATATTGTGGTGCGTCCAACTGTCGCTTATCCGACCTACGACATCGGAGCCACGTTTGCCGGTGCCACAGCAGTTGCCGCCGATGACCTTGATGAACTCGATGCAGCTACGCGGTCCAAAGTCCGGCTCATCTGGGTCAATTCCCCGGGCAACCCCACGGGGAGCGTTAGGGACGCCAGGTCCTTGCGCAGGATTGTCGGCCAGGCTCGGGAGGTCGGGGCTGTGGTGGCCTCGGACGAGTGCTACGCGGAACTGGGATGGGGCGAATGGGACCTGCAGCGCGGCGGGGAGGCTGTGCCCAGCATCCTTGATCCCCGCGTTGCAGGAGGCTCCCACGAGGGCCTCCTCGCCGTCTACTCGCTGAGCAAGCAGTCCAACCTCGCCGGCTACCGGGCTGCTTTCGTGGCCGGTGATTCGGCCATTATGGCGAACCTGGTCAACAGCCGGAAGCATGCAGGGATGATTGTGCCCTACCCCGTCCAGGAAGCGATGCGCGTGGCACTCGGCGACGACTCGCACGTGCAGGAGCAGAAAGATCTGTACCGGGGCCGCCGCGACCGGATCGTTCCTGCACTTGAAGGCTTCGGCCTCACAATCCATGAATCCCACGCAGGGCTGTACCTGTGGTCCACAGCAGGAGAGGCTACCTGGGACACGATCGGCAGGCTGGCCGAACGGGGAATCGTTGCAGGACCCGGCGTCTTCTACGGTGAGGCCGGGAGCGGATTTGTGCGCGTGGCACTGACCGCCTCGGATGAACGGATCGAGGCCGCCGTAGCCCGGCTGGCCTCGTAA	MTTAVRSFGLSLPDYPWEAMAPYLAKAAEHPDGVVNLSIGTPVDRTPGVIQEALRAAADAPGYPTVHGTAALREAIAAWFARRRGVDGLDPRDIMPTVGSKELVAWLPFLLGLKPGDIVVRPTVAYPTYDIGATFAGATAVAADDLDELDAATRSKVRLIWVNSPGNPTGSVRDARSLRRIVGQAREVGAVVASDECYAELGWGEWDLQRGGEAVPSILDPRVAGGSHEGLLAVYSLSKQSNLAGYRAAFVAGDSAIMANLVNSRKHAGMIVPYPVQEAMRVALGDDSHVQEQKDLYRGRRDRIVPALEGFGLTIHESHAGLYLWSTAGEATWDTIGRLAERGIVAGPGVFYGEAGSGFVRVALTASDERIEAAVARLAS	PGPT0010335_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-TYPE_II_POLYKETIDE-OXY-|CHLOR-|TETRACYCLINE_METABOLISM,PGPT0010335-oxyQ-K14254	NA	NA
D1-17_01272	1302	gltA2	COG0372	Citrate synthase 1	ATGACTGAGACCACCAGCGCGCCTGAGACCACCAGTGCGACCCTGCGACATGCAGGCGGCGAACTCGAACTACCGCGCATCAAGGTTGTAGAGGGAAACGAAGGCTACGACGTTTCCAAACTTCTGAAGCAGACGGGCGCCGTCGCCTATGACCCTGGCTTCATGAACACCGCTGCTACCACCTCGGCGATCACCTACATTGACGGCGACGCAGGAATCCTGCGGTACCGCGGCTACCCGATCGAGCAGCTCGCACAGCACTCCAGCTTCCTCGAAGTGTCCTACCTGCTCATTTACGGCAACCTGCCGACTCCCACCGAGCTGGAGGACTTCGACCAGCGGATCCGCCGACACACGCTCCTGCATGAGGAGCTGAAAGGCTTCTTCGGCGGCTTCCCCCGTGACGCGCACCCGATGCCCGTGCTGTCCTCCGCCGTCTCCGCGCTGTCCACGTTCTACCAGGACTCCCTGGACCCGTTCAACGCCGAGCAGGTGGAAGTTTCCACCATCCGCCTCATGGCCAAGCTCCCCGTCATCGCCGCCTATGCGCACAAGAAGTCGATCGGGCAGCCGATGCTGTACCCGGACAACTCCATGAACCTGGTGGAGAACTTCCTCCGCCTCAGCTTCGGCCTGCCTGCGGAGCAGTACGAACTGGACCCCGTGGTGGTTAAGGCCCTTGACCTGCTCCTGATCCTGCACGCCGACCATGAGCAGAACTGCTCCACCTCGACCGTGCGCCTGGTTGGTTCCTCCAACGCGAACCTGTTCGCCTCCGTCTCTGCGGGAATCAACGCCCTGTTCGGCCCCGCCCACGGCGGTGCCAACGAGGCTGTCCTGAAGATGCTGCGCCAGATCCAGGCCGACGGCACCAAGCCGGAGGACTACATGGAGAAGGTGAAGAACAAGGAGGACGGTGTCCGCCTCATGGGCTTCGGACACCGCGTCTACAAGAACTACGATCCGCGCGCCAAGATCGTTAAGGCTACGGCCCATGAGATCCTCGGCAAGATCGGCGGAAACGACGAGCTGCTGGACATCGCGCTTCGCCTTGAAGAGAAGGCCCTGAACGATGACTACTTCATCCAGCGCAAGCTTTACCCCAACGTGGACTTCTACACCGGCCTGATCTACAAGGCGATGGGCTTCCCGGAGAAGATGTTCACCGTGCTGTTCGCGATCGGACGCCTGCCCGGCTGGATTGCACAGTGGCGTGAAATGATGAGCGATCCCACAACCAAGATCGGCCGTCCGCGCCAGCTCTACATCGGATCGCCCGAGCGCGACTACCCGGCGCGCTAA	MTETTSAPETTSATLRHAGGELELPRIKVVEGNEGYDVSKLLKQTGAVAYDPGFMNTAATTSAITYIDGDAGILRYRGYPIEQLAQHSSFLEVSYLLIYGNLPTPTELEDFDQRIRRHTLLHEELKGFFGGFPRDAHPMPVLSSAVSALSTFYQDSLDPFNAEQVEVSTIRLMAKLPVIAAYAHKKSIGQPMLYPDNSMNLVENFLRLSFGLPAEQYELDPVVVKALDLLLILHADHEQNCSTSTVRLVGSSNANLFASVSAGINALFGPAHGGANEAVLKMLRQIQADGTKPEDYMEKVKNKEDGVRLMGFGHRVYKNYDPRAKIVKATAHEILGKIGGNDELLDIALRLEEKALNDDYFIQRKLYPNVDFYTGLIYKAMGFPEKMFTVLFAIGRLPGWIAQWREMMSDPTTKIGRPRQLYIGSPERDYPAR	PGPT0001455_2088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001455-CS|gltA-K01647	NA	NA
D1-17_01273	612			hypothetical protein	ATGCAGCACACAGGCGGTCCAGGCTGGCGGATCACCATGGACACGTCAGGGCCTATGCTCATTGCCCTTTACATCAGAGACGTCGCGGGGCTCGACGGTGCCGGCTTTCCGGCGCTTTCACACGTTGCCCCGAAAATCAGACACGCGGACCATTCCCATTTGACAGCCGAAGTAGGCGGGATCAGTGCCCTTAAGACGGAGTGGGAAGCCTGGTGGGAGCAGCTGCTGAAGGCGCATCCGCAGATGTCTCCGGAGATGTCGCCGCCCGGATTCACTGCCTTCGCGAACTCCCCGGCACTGCGCCGGGTCCTGCAGGCGCATTTCGGCGCTGCCCTGACCTGGGCCCGCGAACGGCGCAAGGAGTACGCGGAGCTGGAAGCCGAGCGGTCAGCCGGGGGATCCGCCCACCTGCTCGAGGACATCGTGGAGGACCGGCTGCTGGAGGTAGGCAGGGATTCGCGGGACTTCGACCTGACCATCATCGAACTGCCTCTTGACGAGCAGCGCGCCTGGTTCCTGGAACCGGACAAGATCATCATGAGCCATGACCTGCTGAAGCAGCCGGAGGTCTTCCGCAGCTACCTTCAGCCCGTCGTGGAAATCCTGGTCTGA	MQHTGGPGWRITMDTSGPMLIALYIRDVAGLDGAGFPALSHVAPKIRHADHSHLTAEVGGISALKTEWEAWWEQLLKAHPQMSPEMSPPGFTAFANSPALRRVLQAHFGAALTWARERRKEYAELEAERSAGGSAHLLEDIVEDRLLEVGRDSRDFDLTIIELPLDEQRAWFLEPDKIIMSHDLLKQPEVFRSYLQPVVEILV				NA	NA	NA	NA	NA
D1-17_01274	852			hypothetical protein	GTGACACGGCGACGCAAGCTGCGGGCAGCAGTGGTTGCAGCACTCTCCGTGGCATTGGTCGGCGGCGGCATTTATACGGGAGTGGCGCTGGTGCAGCGCTCTGAGCGGCTCATCGTGGAAGGGTGCACGGCCAAAGTCGGCGCACAGCAGGCAAACCTGGCCACCGACCAGGCCTCAAACGCCGCCCTGATAGTTGCTGTTTCGGTGCGGCGCCGGCTGCCTCCGCGCGCGGCCAGTATCGCCCTGGCCACGGCCATGCAGGAATCGAAGCTGCGCAACATCGATCACGGCGATCTGGCCGGCCCGGATTCGCGCGGGCTTTTCCAACAGCGCCCCTCACAGGGCTGGGGTACCAGCGCACAGGTCATGGATCCCATCTACGCCACCAATGCCTTCTATGACGCACTGGCCGAGATCCCTGACTATGCAGCCATGGACATCACCGACGCTGCCCAACGTGTGCAGCGCTCCGCGTACCCGAGGGCGTACGCACAACACGAGATAATGGGGCGTTCCTTTGCCTCGGCCCTGAGCGGGCAGACCCATGCTGCCTTGGACTGCACTCTCCGCTCCCCCGAACTCAACGGAGACCCGGAGGCATTGCTGACGCAGTTGGAAGCAGCGTACGGAAGCCTCCCCGCGTCATCGCGCGGACCGGTCGTGGAAGTGGAGGCCTCGGACAATCTCGCATGGTCCGTGGCCCACTGGGCTGTGGCCCATGCCAAGGAACTGGGCGTAGTGCAGGTGGATGTGGACGGAATGAGCTGGAACCGGCAGGCCAGGAACGGCTGGCAGGATTCCCCGGCAGCCGGCAGCACCGTGACGATTACATTGGCCGCGGAGGCAGGATGA	MTRRRKLRAAVVAALSVALVGGGIYTGVALVQRSERLIVEGCTAKVGAQQANLATDQASNAALIVAVSVRRRLPPRAASIALATAMQESKLRNIDHGDLAGPDSRGLFQQRPSQGWGTSAQVMDPIYATNAFYDALAEIPDYAAMDITDAAQRVQRSAYPRAYAQHEIMGRSFASALSGQTHAALDCTLRSPELNGDPEALLTQLEAAYGSLPASSRGPVVEVEASDNLAWSVAHWAVAHAKELGVVQVDVDGMSWNRQARNGWQDSPAAGSTVTITLAAEAG				NA	NA	NA	NA	NA
D1-17_01275	1029	dapD	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGACTGAAACCGCTTCTTCCGCCGTGCCCACTGCCCAGCCACTGTCCGACGAATCACGTTCGGCCTACGGATTCGGGGTGGCCACCATCGCCACTGGCAATGGTGATGCCACGGTGCTGGATGTCTGGTTCCCCGCCCCTGCCCTTGGGGTGGCAGCCGATTCCCTTCGAGCGGTTGAGAACGCCGATGAATCTCTCACCGTAATCGCTGCAGACGGTGCCGACGCGGACCGCGGCACGGAGCAGAAGGTGGTGTTCGTCCAGATCGACCTGGATGAAGCTCCGGCGGACACCGCCGACGCCTACCTCCGGCTGCACCTGCTCTCACACCGGCTCGTCCAGCCGAACACCCTGAACCTCGATGGCATCTTCGGCAAGCTGCCGAACGTCGTGTGGACCAACTTCGGCCCCTGCGCCGTAGACGGCTTCGAACTGACACGCGCGAAGCTGCGCCGGCGCGGCGCTGTGACCGTGTACGGCGTCGACAAGTTCCCGCGCATGGTGGACTACGTTGTGCCCACCGGGGTGCGCATTGCCGACGCCGACCGTGTCCGCCTGGGAGCCCACCTCGCCGAAGGCACCACGGTCATGCACGAGGGCTTCGTAAACTTCAACGCCGGGACTCTGGGCACCTCCATGGTGGAGGGCCGCATCTCCGCGGGCGTCGTAGCCGGCGACGGCACCGACGTCGGCGGCGGCGCCTCGATCATGGGTACCCTCTCGGGCGGCGGCAAGGAGAAGGTTGCGCTGGGCCGGCGTGTCCTCCTGGGCGCCAACTCCGGTGTGGGCATCAGCATCGGCGACGACTCGGTTGTGGAAGCCGGACTTTACGTCACGGCCGGCACCCGGGTCCGCGTTGTCGGCCCGAAGAATGCCGACGGCGAAGACACTGCCAGGATCGTCAAGGCCGTTGAGCTCTCCGGCGTTCCGAACCTGCTGTTCCGCCGCAACTCCACCACCGGTGAGGTGGAGGTACTCCCCCGCAAGGGCGGAACGGTGGAACTCAACGACGCTTTGCACGCCAACTGA	MTETASSAVPTAQPLSDESRSAYGFGVATIATGNGDATVLDVWFPAPALGVAADSLRAVENADESLTVIAADGADADRGTEQKVVFVQIDLDEAPADTADAYLRLHLLSHRLVQPNTLNLDGIFGKLPNVVWTNFGPCAVDGFELTRAKLRRRGAVTVYGVDKFPRMVDYVVPTGVRIADADRVRLGAHLAEGTTVMHEGFVNFNAGTLGTSMVEGRISAGVVAGDGTDVGGGASIMGTLSGGGKEKVALGRRVLLGANSGVGISIGDDSVVEAGLYVTAGTRVRVVGPKNADGEDTARIVKAVELSGVPNLLFRRNSTTGEVEVLPRKGGTVELNDALHAN				NA	NA	NA	NA	NA
D1-17_01276	1122	dapE_2	COG0624	Putative succinyl-diaminopimelate desuccinylase DapE	GTGATTGCCGAAACCGAACCCATAACCCTCGACCTCCGCCAGGACGTGGCGCTGCTGACGGCGGCACTCATCGACATCAACAGTGTGTCCGGCAACGAGACCCAACTGGCGGACGCCGTGGAACTGGCCCTCCGGGAACTCCCGGGCCTTGACCTCGTGCGCGACGGTGACTCCATCATCGCCCGCACGTCTTTGGGGCACAGTGAACGCGTCATTCTCGCCGGCCACCTGGACACCGTTCCGCTGCCGGTCACCGGCGGTTCGCTGGGAACTGTCCCGTCCACCTGGCCTTCCGGCGAGCCGGGTCAAGGGGTCTTGTACGGCCGCGGTGCCACCGACATGAAGGGCGGGGTCGCCGTCCAACTGGCGCTGGCTGCGTCACTGTTCGACGGCGGTGCGCAGCCGTCCAAGGACGTCACCTTTGTCTTTTACGACCACGAGGAAGTGGAAGCCGTCAAGAGCGGCCTCGGCAGGCTGGTGCGTAATCACGGTGCGCTGCTGCATGGCGACTTTGCAATCCTCCTCGAGCCGACGGACGGAACCGTCGAGGGAGGCTGCAACGGCACCATGCGGTTCGAGGCTACGACGTTGGGGGAGGCTGCCCACTCAGCAAGGGCCTGGATGGGAAGCAACGCGATCCACGCTGCGGCACCCATTCTTGCCAAACTTGCCACGTACGATCCCCAGACCATCACTGTGGACGGCCTGGAATACCGGGAAAGCCTGAATGCGGTGAAGATCCATGGAGGAACCGCCGGCAACGTCATCCCGGACCGCTGCGTGGTGGAGATCAACTACCGCTTCGCACCTGACAAGACTCCGGCCCAGGCGGAGGCCCACGTGCGCGATCTGCTGGCGGGATTTAGCGTAGTGCGCACCGACAGTGCCGCGGGCGCACGGCCAGGACTCAACCATCCCGCCGCCGCCTCCTTCGTGGCCGCTGTGGGAGGCGAGCCCAAGCCCAAATACGGCTGGACCGACGTCGCGCGCTTCAGCGAGCTCGGCGTCCCCGCGGTCAACTTCGGTCCTGGCGATGCGCTCCTGGCGCACAAGGACAACGAACACGTGGAGGCCGAGGCCGTCCGCGCCTGCCTTCGGGCGCTGCAGAAGTGGCTGGCCTGA	MIAETEPITLDLRQDVALLTAALIDINSVSGNETQLADAVELALRELPGLDLVRDGDSIIARTSLGHSERVILAGHLDTVPLPVTGGSLGTVPSTWPSGEPGQGVLYGRGATDMKGGVAVQLALAASLFDGGAQPSKDVTFVFYDHEEVEAVKSGLGRLVRNHGALLHGDFAILLEPTDGTVEGGCNGTMRFEATTLGEAAHSARAWMGSNAIHAAAPILAKLATYDPQTITVDGLEYRESLNAVKIHGGTAGNVIPDRCVVEINYRFAPDKTPAQAEAHVRDLLAGFSVVRTDSAAGARPGLNHPAAASFVAAVGGEPKPKYGWTDVARFSELGVPAVNFGPGDALLAHKDNEHVEAEAVRACLRALQKWLA				NA	NA	NA	NA	NA
D1-17_01277	840			hypothetical protein	ATGACCTCCGTTCTCTACGACGTCCCCGGGCCCAAAGCCCGCAGAATCTCACTCATCGGCTCGATCATCGGCGTCATTCTCATCGGCGGCCTCCTCGCCCTTGCCCTGTACACACTCGGGCAGCAGGGAATCTTCGAGGCGCGGCGGTGGGCGATCTTCGGCCAGGCCGACGTCTGGTCCCTTATTTTTGACGGCATCGGCGCCACCTTGGGAGCAGCCGCCATCGCGGCCGTGATCGCCTTCCCGTTGGGGCTGCTGCTCTGCCTCATGCGCATCTCGGATATTGCCTTGATCCGGATACCGACGAGGATCGTGCTGGAATTCTTCCGCGGCATGCCCGTGGTGCTGATGATGCTGTTCGTCCTGCTGGTGTTTGCCACCAGTCCGTTCATCGCCGTGGTGGCCGGGCTGGTCCTGTACAACGCGGCGATCTTCGCCGAGATTATCCGCGCCGGCATCCAGTCCCTCCCGAAGGGGCAGCGCGAGGCCGGCTTGGCAATCGGCCTGACCAGTTTCCAGTCACGGCTCAGCGTGGAATTGCCCCAGGCCATCCGCCGGATGCTTCCGTCCCTGGTTGCCCAGCTTGTGGTCCTCCTCAAGGACACGTCACTGGGCTACATCGTCGCCTACGGCGAACTCCTGCGCGCGGTGCAGGTCATGGCGGACTTCCTGGGACCGCAGTTCCTGTTCCCCGTGTTCTTCGTGGCTGCGGCAATCTACATCGCCATCAACCTGGCTGTGTCCCGCCTGGCGATCTGGATTGAGCGCCACGGCTCCAAAAAGGCTGCCGGAGGCGTGGCGAAGGCTCCCACAGCCGGGGTCACCACCGCGATCAAGTAA	MTSVLYDVPGPKARRISLIGSIIGVILIGGLLALALYTLGQQGIFEARRWAIFGQADVWSLIFDGIGATLGAAAIAAVIAFPLGLLLCLMRISDIALIRIPTRIVLEFFRGMPVVLMMLFVLLVFATSPFIAVVAGLVLYNAAIFAEIIRAGIQSLPKGQREAGLAIGLTSFQSRLSVELPQAIRRMLPSLVAQLVVLLKDTSLGYIVAYGELLRAVQVMADFLGPQFLFPVFFVAAAIYIAINLAVSRLAIWIERHGSKKAAGGVAKAPTAGVTTAIK	PGPT0000780_619	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000780-gluD-K10007	NA	NA
D1-17_01278	651	glnM	COG0765	putative glutamine ABC transporter permease protein GlnM	ATGGACGTCATCATTGAAAGCCTCCCGCAGTACTGGGACGGCTTTCTCAGAACCCTGTTCCTGGCCGTCGTTTCCGGCATCATTGCACTCGTCGTGGGCACGCTCCTTGCAGCCGCCCGGGTGTCCCCGGTCGCGGCGCTGCGCGGATTCAGCATGGCCTACGTGGAGGTGGTGCGAAACACGCCGCTGACCATCGCTTTCTTCTTCGCCGCCATTGTCCTGCCCCGGCTCGGCGTCACGTTCGAGCAGTTCGAAATCGCAGCCATCATCGCACTTAGCGCATATACTGCCGCCTTCATCGCCGAAGCGGTCCGCTCGGGCGTCAACAGCGTCCCCGTGGGCCAGGCGGAGGCCGCCCGCAGCATCGGTATGACCTTCGGCCAGGTGCTGTCCCTGATCATCCTTCCCCAGGCCCTGCGCACGGTAATTCCGCCTCTGATCAACATCCTGATCGCGCTCGTCAAGAACTCATCCGTGGCCGGCGCCTTCTTCGTCCTGGAGCTGTTCGGCTACGGCAAGCAGCTGGCCAATGACCACGGCGACGCAGTCATGTGGGTCCTCGTTGGCGTTGCCTTCTTCTATCTCCTGATCACCGTGCCGCTGGGCTACATCGCCCATCAGGTCGAACGAAAGGTGGCGATCGCGCGATGA	MDVIIESLPQYWDGFLRTLFLAVVSGIIALVVGTLLAAARVSPVAALRGFSMAYVEVVRNTPLTIAFFFAAIVLPRLGVTFEQFEIAAIIALSAYTAAFIAEAVRSGVNSVPVGQAEAARSIGMTFGQVLSLIILPQALRTVIPPLINILIALVKNSSVAGAFFVLELFGYGKQLANDHGDAVMWVLVGVAFFYLLITVPLGYIAHQVERKVAIAR	PGPT0000775_455	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000775-gluC-K10006	NA	NA
D1-17_01279	885	glnH_2	COG0834	ABC transporter glutamine-binding protein GlnH	ATGAAGGCATTTTTGACCCGAAGGAAGTCCCTTCTGGTAGCAGCATCCGCAGCCCTGGCGCTGACACTGAGCGCATGTGGCGGCGGCACCGGCGGCGGTACCAACCCCAGCCCCGCTGAAAAGCCAAGCTTTGCTGCCGGTACCACCATGGAGAAACTCTCCTCCGCCGGCAAGATCACCATTGGCACGAAGTTTGACCAGCCGTTGTTCGGTCAGAAGGGCCTGGACGGCAAGCCTGTTGGTTTTGATGTGGAGATCGGCAAGCTCCTTGCAGCCAAGCTCGGCATTCCCGCAGACAAGATCGAATGGGTGGAAACCGTTTCCGCCAACCGTGAGCAGTTCATCAAGCAGGGCAGGGTGGACATGATCATCGCCACCTACACGATCAACGACAAGCGCAAAGCCGAAGTGGACTTCGCCGGCCCGTACTACGAAGCAGGCCAGGCTCTCATGGTGAACAAGGACAACACGTCCATCACCAAGCCCGAGGACGTTAAGGGCAAGAAAGTCTGCTCCGTGACTGGTTCGACTCCCGCCGCCACCATCGTGGAAAAGTACGACGCTGTCCTCGTTCCGGCAGCCACCTACTCCGCCTGCCTTGAGCCGCTGCGTAACAAGCAGGTAGAAGCGATCACCACGGACAACGTCATCCTGGCCGGCTTCGTCAACAAGGAGCCTGACGCCTTCAAGCTCGCCTCGGACGAGACGTTCACCAAGGAGCCCTACGGCATCGGCCTGAAGAAGGGCGACACCGAATTCCGCACCTGGGTCAACGACCAGCTCGAGGAGTTCGCAAAGGACGGGTCCTACAAGAAGGCATGGGAGGACACGGCCGGCGCAGTCATCAAGACGGCTCCGGAGCTTCCCACAGTCGACCGCTACTAA	MKAFLTRRKSLLVAASAALALTLSACGGGTGGGTNPSPAEKPSFAAGTTMEKLSSAGKITIGTKFDQPLFGQKGLDGKPVGFDVEIGKLLAAKLGIPADKIEWVETVSANREQFIKQGRVDMIIATYTINDKRKAEVDFAGPYYEAGQALMVNKDNTSITKPEDVKGKKVCSVTGSTPAATIVEKYDAVLVPAATYSACLEPLRNKQVEAITTDNVILAGFVNKEPDAFKLASDETFTKEPYGIGLKKGDTEFRTWVNDQLEEFAKDGSYKKAWEDTAGAVIKTAPELPTVDRY	PGPT0000770_320	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000770-gluB-K10005	NA	NA
D1-17_01280	756	glnQ_2		Glutamine transport ATP-binding protein GlnQ	ATGACAACTCAAGTGCCCGACAATGCGCTCGTCTCCCTGAATGCCGTGAACAAGCATTACGGCCAGCTGCATGTTCTGAAGGACATTAATCTCCAGGTCCGCAAGGGCGAGGTCGTTGTGGTCATTGGGCCGTCGGGGTCAGGCAAGTCCACCCTGTGCCGAGCCATCAATCGCCTTGAGACCATCGACAGCGGCGAAATCAGGATCGACGGCAAGGTCCTGCCTGAGGAAGGCAAGGAGCTTGCACGCCTCCGCGCCGACGTGGGAATGGTGTTCCAGTCCTTCAACCTCTTTGCCCACAAGACCATCCTTGAAAACGTCACCCTCGGGCCCATTAAGGTCAAAGGCATGTCCAAAGGCGAGGCGGACAAGGAAGCCATGGCCCTCCTCGAGCGTGTAGGTGTGGGCCATCAGGCTCCGAAGCTTCCGGCCCAGCTCTCGGGCGGCCAGCAGCAGCGTGTAGCAATCGCACGCGCCCTTGCCATGAAGCCGAAAGTCATGCTTTTCGACGAGCCCACCTCGGCGCTCGATCCGGAGATGATCAACGAAGTCCTTGACGTCATGGTGCAACTGGCCAAGGAAGGCATGACCATGATTGTGGTCACCCACGAGATGGGATTCGCACGCAAGGCAGCGGACCGCGTGGTGTTCATGGCGGACGGCCAGATCGTAGAAGACGCCACACCCGAAGAATTCTTCACCAATCCCCAGAGCAGCCGGGCGAAGGATTTTCTGTCCAAGCTCCTCACTCACTGA	MTTQVPDNALVSLNAVNKHYGQLHVLKDINLQVRKGEVVVVIGPSGSGKSTLCRAINRLETIDSGEIRIDGKVLPEEGKELARLRADVGMVFQSFNLFAHKTILENVTLGPIKVKGMSKGEADKEAMALLERVGVGHQAPKLPAQLSGGQQQRVAIARALAMKPKVMLFDEPTSALDPEMINEVLDVMVQLAKEGMTMIVVTHEMGFARKAADRVVFMADGQIVEDATPEEFFTNPQSSRAKDFLSKLLTH	PGPT0000785_378	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000785-gluA-K10008	NA	NA
D1-17_01281	786			hypothetical protein	ATGAGCATCAATGCAGATCCGTCTAAGTCCGCCCAACCCCGCCGTAAGGGGCCCCTCGAGCTCCGACGCAAGCAGGCGGCAGTGGAGATGTCGGACCAGCGGCTGCTTGACACCAAGGGGCCGGGCCATTTCATACATACGGACCCGTGGCGTGTCATGCGCATCCAGAGCGAATTCGTTGAAGGCTTCGGCGCCCTGTCCGACCTCGGCCAGGCCGTGAGTGTCTTCGGTTCCGCGCGTACCAAGCCGGGCAGCATGTTCTACGACATGGGCGTTGAGGTGGGGCGCAAACTTGCAGAAGCCGGAGTGGCCGTCATCACCGGCGGCGGTCCCGGCTCCATGGAAGCCGCGAACCGGGGTGCTGTGGAGGGCAACGGCGTTTCCGTCGGCCTGGGAATCGAGCTGCCATTCGAGCAGGGCCTGAACCAGTGGGTGGACCTGGGCATCAATTTCCGTTACTTCTTCGCACGGAAGACGATGTTCGTGAAGTACGCCCAGGGGTTCATCGTCCTGCCGGGCGGCCTCGGCACACTCGACGAGCTGTTCGAAGCGATGGTGCTGGTCCAGACACAGAAAGTGACCTCGTTCCCCATCGTTCTCCTGAGCTCTGCTTTCTGGGGCCCCATGCTCGAATGGATCAAGGGCACGCTTGTGGCGGAAGGGATGGTGTCCGAGAAGGATCTGGACCTCATCCAAGTGGTGGACACCCCGGAGGAGGCAGTGAATTTCGTCCTCCACGGCCACGTCCGGGAGCCGTCCCCGGACGAGGAGCAGCGGCCTGAGTAG	MSINADPSKSAQPRRKGPLELRRKQAAVEMSDQRLLDTKGPGHFIHTDPWRVMRIQSEFVEGFGALSDLGQAVSVFGSARTKPGSMFYDMGVEVGRKLAEAGVAVITGGGPGSMEAANRGAVEGNGVSVGLGIELPFEQGLNQWVDLGINFRYFFARKTMFVKYAQGFIVLPGGLGTLDELFEAMVLVQTQKVTSFPIVLLSSAFWGPMLEWIKGTLVAEGMVSEKDLDLIQVVDTPEEAVNFVLHGHVREPSPDEEQRPE				NA	NA	NA	NA	NA
D1-17_01282	444			hypothetical protein	ATGGGTGATGTGAGCAACTTCCTCGTTTTCCTTGCGATCGTCCTGATCGGCATCACCGTCATCTTCGGGACCGACCTTGGAGCCAAGATCTTTCGAAAGAAGCCTTCGGACACACCATTGACCGACGGCGGATTTGAGGAGCCGGTGACGTCGCTCCCTCCCGTCCTGCTGCCGGAGGAAGCGAAGCCGGACGACGTCGACCGGGTGCGTTTCGCCCTCGGCCTGCGGGGCTACCGGATGGATCAGGTAGACCAGGTCCTCGATGATCTGCGGGACCAGCTCGCGGCCAAGGACGCCGAAATTGCAGGGCTTCGCGCCCACCTACGGGGTGAAATCCCCGGCTCCGCGGCGAAGCCTTCTACCCTGGACGGCACAGGGTTCCGTATCAGCAGCGAGGACAGCGCGGCCCCCAGCGAACGGCCTGTCGCCGAGGAGCGGTCGTGA	MGDVSNFLVFLAIVLIGITVIFGTDLGAKIFRKKPSDTPLTDGGFEEPVTSLPPVLLPEEAKPDDVDRVRFALGLRGYRMDQVDQVLDDLRDQLAAKDAEIAGLRAHLRGEIPGSAAKPSTLDGTGFRISSEDSAAPSERPVAEERS				NA	NA	NA	NA	NA
D1-17_01283	1302			hypothetical protein	GTGACCCGTCCGGTAGCTGATGCAGCACAAACAGATGAGCGCCCGCGGCCGTCTGCCGTGACCGCAACGCTGGGCGCCGTCGCGGGACGGCTGTGGGGAAAAGCCATGCGGTGGCCCTGGTGGGTACAGGTGGCCGCCATCTACGTGGCGGCCCGCGGGGTCAGTGCCTGCATCTTCATGGCTGCTGCCCTGCACCAAGGAGTCAACCCGTGGTTCCCCGCCAAGCCCGATTACTGGCACTTCATCAACATCTGGGACGCACGCTGGTACGGCGAAGTCATCGACAACGGTTATCCCGCGGAACTTCCGGTGGACAGCGCAGGCAACGTCCAGGAGAACGCCTGGGCGTTTTATCCGCTATTTCCACTGCTGGGACGGGCGCTCTCGGCGGCCACCGGACTCATTCCGCCTGTCTCCCTGACCCTCATCGCAGTGCTTGCTGGCCTCGCTGCGTCCTTTGTCGTCTACTTTCTGTTCCGTCACAGGGCGGCACATGGACCGGCGCTGTGGGGAGTGGCCTTCTTTGCGTCCTTCCCCATCAGTCCCATACTCCAGGTTCCCTATGCGGAATCGCTGAACATCCTCCTGCTCGCCTCAGCCCTGCTGCTGGTACTCCGGCGGCATTACGTGCTGGCGATACCGGTGGTGGTGCTGATGGCCCTGTCCCGGCCGACCGGTGTTCCCTTCGCAGCCATGGCTGGAATCCTCTTCCTGTACCGCCTGTGGGAGGCCTGGCAGGGCAGCGGGAGGAAGGCTGTCCCGGGCCACCAGGACGGAAAGGCCCACAGCTCCCGCGAGCTCTGCGCACTCGCAGCCCTGACCGGAGTCAGCGGGTTATCCGCGCTCCTCTGGCCGGCCATCGCCTGGGCAACCACCGGCGACATCGCGGCCTACACCAAGACCGAGACGGTGTGGCGCGGGCACGACCTCGTTCCCTTCAAGCCGTGGTTTGATACCGGCGTCCTCCTCTTCGGCCCCGTGCTGGGCCTTGCGGCGCCCTTCGTGTTTGTCGCGGTGTTCACACTGTTCCTGCTGTCGCGGCCGGTTGCGCAGCTGGGCACCGAACTGCGGCTGTGGTGTGTCTGCTACATGGGCTACCTGATCGTGTTCCTGCATCCGCAGACCAGCACCTTCCGGATGTTGCTGCCGCTTTTTCCCCTTGCGCTGGGCGCTGTCCTGGTATCCCGCTCGAAGGCTTACAGGGGAGCCGTCCTGACCATGTTCATCCTGCTTCAGATTGTCTGGGTTGTCTGGCTGTGGGCATGGGCCGAACTGCCCGGCGGCGGTGACTACCCGCCCTGA	MTRPVADAAQTDERPRPSAVTATLGAVAGRLWGKAMRWPWWVQVAAIYVAARGVSACIFMAAALHQGVNPWFPAKPDYWHFINIWDARWYGEVIDNGYPAELPVDSAGNVQENAWAFYPLFPLLGRALSAATGLIPPVSLTLIAVLAGLAASFVVYFLFRHRAAHGPALWGVAFFASFPISPILQVPYAESLNILLLASALLLVLRRHYVLAIPVVVLMALSRPTGVPFAAMAGILFLYRLWEAWQGSGRKAVPGHQDGKAHSSRELCALAALTGVSGLSALLWPAIAWATTGDIAAYTKTETVWRGHDLVPFKPWFDTGVLLFGPVLGLAAPFVFVAVFTLFLLSRPVAQLGTELRLWCVCYMGYLIVFLHPQTSTFRMLLPLFPLALGAVLVSRSKAYRGAVLTMFILLQIVWVVWLWAWAELPGGGDYPP				NA	NA	NA	NA	NA
D1-17_01284	168			hypothetical protein	ATGGCGGCTATGAAACCACGCACCGGCGACGGCCCTATGGAAGTAACCAAGGAGGGCCGCAGCCTGATCATGCGTGTGCCGCTCGAAGGCGGCGGGCGGCTCGTTGTCGAACTCAATGCCGCTGAAGCGGCCAACCTCAAGGAATGCCTCGTAGGCGTCACCGAATAG	MAAMKPRTGDGPMEVTKEGRSLIMRVPLEGGGRLVVELNAAEAANLKECLVGVTE				NA	NA	NA	NA	NA
D1-17_01285	633		COG4122	Putative O-methyltransferase	ATGAGCGCCGATAAGTCCACGAGCTGGTCCTATGCAGAAGATCTGCCTGCCGAGGATGAGGTCCTGTTGCGCGCCCGGGAACGCTCCTTCGAGCTGGGCGTGACCCCCATCGGCCGGGGCGTGGGGGCAGTACTCACGGTTCTGGCCGCAGCATCCAAGGCGCAGACCGCCGTGGAAATCGGCACAGGGGCCGGCGTATCCGGCGTCTGCCTCCTTCGAGGACTCGGGCCGCAGGCTGTGCTGACCACAATCGATGTGGATGTAGAGCACCTGAGGGCTGCGCGCGAGGCCTTCCAGGAAGCCGGCAGCCCCGCAAACCGCACCCGCACCATCTCCGGCCGGGCGGGCGACGTCCTGCCCCGGCTGACCGACGCAGCCTACGACCTCGTTTTTATTGACGGGGACAAGCCAAACTTCCCGCGCTATGTGGACCAGGCCGTGCGCCTGCTCAAGTCCGGCGGTCTCCTGATCGTCAACGACGCCCTGGATAAGGACCGCGTTTCCAATCCCGCTGCCCGTGACGCCACCACAGTGGTTCTGCGGCAGGTGGGCAAGGTTGTCCGCGACGACGATCGGCTGGCTTCGGCCATGCTGCCCACCGGCGATGGCCTGCTGGTCGCTGTCAAAAAGTAG	MSADKSTSWSYAEDLPAEDEVLLRARERSFELGVTPIGRGVGAVLTVLAAASKAQTAVEIGTGAGVSGVCLLRGLGPQAVLTTIDVDVEHLRAAREAFQEAGSPANRTRTISGRAGDVLPRLTDAAYDLVFIDGDKPNFPRYVDQAVRLLKSGGLLIVNDALDKDRVSNPAARDATTVVLRQVGKVVRDDDRLASAMLPTGDGLLVAVKK				NA	NA	NA	NA	NA
D1-17_01286	618	sigE	COG1595	ECF RNA polymerase sigma factor SigE	ATGTCAGGATCAGTTGCGGCACCTGTCCCTGCAGTTGAAGAACCCGAAGCAGAGTGGGTCATGCCCACCTGGGAGGAAGTGGTGACCAACCACTCGGCCAAGGTGTACCGGCTTGCCTACCGCCTCACCGGCAACAGGTACGACGCCGAGGACCTCACCCAGGAGGTGTTCGTCCGCGTTTTCCGTTCACTGGAGAACTTCAAGCCGGGCACCCTTGATGGCTGGCTGCACCGCATCACCACCAACCTGTTCCTGGACCAGGCCCGGCGCAAGACCCGGATCCGCTTTGACGCCCTGGCGGAGGACGCTGAATCACGGCTGCCGGGGAGGGAACCGGGGCCGGAACAAAGTTTCGAGTTCAACAACCTTGACTTGGACGTCCAGGCAGCCCTGGAGGAGCTGCCGCCGGACTTCCGTGCCGCCGTCGTGCTGTGCGACCTGGAGGGTCTGTCCTACGACGAGGTGGCAGAGGCGCTGGGCGTGAAGCTGGGCACTGTGCGCTCGCGGATCCACCGCGGACGCACCATGCTGCGTGAAAAGCTCGCCCACCGCGATCCGCGACCCCAGCAGTCACGGGCGCCGCGGCTCAAGCTGCCCCGCATCGCCGGGATTCTCTGA	MSGSVAAPVPAVEEPEAEWVMPTWEEVVTNHSAKVYRLAYRLTGNRYDAEDLTQEVFVRVFRSLENFKPGTLDGWLHRITTNLFLDQARRKTRIRFDALAEDAESRLPGREPGPEQSFEFNNLDLDVQAALEELPPDFRAAVVLCDLEGLSYDEVAEALGVKLGTVRSRIHRGRTMLREKLAHRDPRPQQSRAPRLKLPRIAGIL	PGPT0014960_4263	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-17_01287	831			hypothetical protein	ATGGTGACTGCCGGTGCCGTCGCGGCGGGTGCATACATGGCCGCGGGGGATCCTACCCAGTATGCGGCTGCGTCATTCTCGGGGCAACCAGGCGGCACGCAGTGGGAGGAGACGGTGCAGTCCGAGGAGACCGGGCAGCCGGAGCAGATGGTGCAGTCGGTGGAGACGGCGCAGTCGGGGGACAGGGCGCAGCGGGACGGGCAACCTGCCGGCGGGACGTCCGCAGATTCATTCGTGGCGGCGCTGCGCTCCCGCGGCTGGGCCTGCCCGGACCTTGCGTCCATGGGCTTCCACGTGGCGTCTGCAACGTCCAGGACCTACGGCGGCCAGCCCGCCGTCGAACTTCGACTCTCAAACGGTAGACATACAGCAACTGTTCTGGAACAGCACACGACGGCGGGTGGCGCGGGGCAGCAGGGAGCGGCACCGGATACAGCGATTCCGGTGAACCCCCTGACGGGGCATGCCGCAAGCGAGGACGGCTTCGTCGCCTTGGATGGATCCCGGGTGGCCGGGTCCGGCGCCGGGAATGGTCGTCTTTGGGTCAAGACGTCGGCGCCGTGGAGCGCCATCTACCAGACCGCAAGCAGCACATTCACCTATGTCTCCGACCTGCCCGCGAACGTTGCCGACGATGCCCTGGCGGTGCTGTCAGCGGCGGAACGCGCCTGGGCCAGCAGCGGCGGGAACCAGGCGGGCGTTTCGGCGGCAGCCGATGCCGGTAGTTCCGCAGGGATCACTGGCAGGGAACAGATGACGGAGCGGCTGCAGCGCGGACTCCGCAAGATCGCCCTGCAGCTGGACAATATGACCGGCCGTTCCGACCGATGA	MVTAGAVAAGAYMAAGDPTQYAAASFSGQPGGTQWEETVQSEETGQPEQMVQSVETAQSGDRAQRDGQPAGGTSADSFVAALRSRGWACPDLASMGFHVASATSRTYGGQPAVELRLSNGRHTATVLEQHTTAGGAGQQGAAPDTAIPVNPLTGHAASEDGFVALDGSRVAGSGAGNGRLWVKTSAPWSAIYQTASSTFTYVSDLPANVADDALAVLSAAERAWASSGGNQAGVSAAADAGSSAGITGREQMTERLQRGLRKIALQLDNMTGRSDR				NA	NA	NA	NA	NA
D1-17_01288	396	tatB		Sec-independent protein translocase protein TatB	GTGTTTGGAATCAACGGCCCGGAGTTTCTCCTTCTGCTGCTCATCGGCATTCTGGTGATCGGCCCCCAGAGGCTGCCCGAATACACCCAGAAACTGACAAACGTGGTCCGCGAAGTCCGGCGGATGGCATCCGGAGCCCGGGAACAGATCAAGGAAGAAGTCGGCATCGATATCGATGACGTCGACTGGAGAAAGTACGACCCTCGGCAGTACGATCCGCGCCGCATCATCAGGGAAGCCTTGCTCGAGGATGCTCCGAAGCCTGTCAGTGCAGGAGGGCCCGCAGTCACTGCCGCTGTCGCCGGGGCTGCCCAGGCACCCGCACAGCCGTCGAGGCGGACTATTGAGCGCCTGCCGGACGGCGAGCCTGCACCCTTCGACACCGAGGCTACCTAG	MFGINGPEFLLLLLIGILVIGPQRLPEYTQKLTNVVREVRRMASGAREQIKEEVGIDIDDVDWRKYDPRQYDPRRIIREALLEDAPKPVSAGGPAVTAAVAGAAQAPAQPSRRTIERLPDGEPAPFDTEAT	PGPT0014360_2166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0014360-tatB-K03117	NA	NA
D1-17_01289	1128	mrp	COG0489	Iron-sulfur cluster carrier protein	ATGAGCACCTCCCTTGCTTCGGCAGTTGATGCTGCCCTGGCAACCGTTATTGATCCCGAGCTGCGCCGTCCCATCACGGAGCTTGGCATGGTCGACGCCGTAGAAATTTCCGACGGCGGCGCCGTGCGCCTTTCCGTCCTGCTCACGATTGCAGGCTGCCCGCTGCGGGAGACCATCACGAAGGATTCCGAAGCAGCCCTGCTGGGAGTGCCGGGCGTCACCTCTGTTGACGTCGAGCTGAAGGTCATGACGCAGGGCCAGCGCGAGGCCCTGAAAGAGCAGCTCCGTGGCCCCGGGGGCAAACGTGGCATCCCGTTCAACCAGCCCGGATCACTGACGAAGGTCTTTGCGGTAGCCAGCGGCAAGGGCGGGGTGGGGAAGTCCTCGGTCACTGTAAACCTCGCCTGCTCACTGGCGGCCCAGGGCCTGAGGGTAGGAATTGTGGATGCAGACGTGTACGGGTTTTCCGTGCCGGCGCTCATGGGCATCACCCAGGCTCCCACCCGCGTGGACGAGATGATCCTTCCGCCGGTGGCCTTCGGGGTGAAGGTCATCTCGATCGGCATGTTCGTCGCGGGCAACCAGCCCGTTGCCTGGCGGGGTCCGATGCTGCACCGCGCGCTGGAGCAGTTTCTCACCGACGTCTACTTCGGCGACCTGGACGCACTCTTCCTGGACCTGCCGCCCGGCACCGGGGACATCGCGATCTCCGTGGCGCAGCTGCTGCCCAAGGCTGAAATCCTCGTTGTCACCACCCCTCAGGCGGCTGCCGCGGACGTCGCTGAACGTGCAGGGGCTATTGCGACCCAGACCGGTCAGACCGTGGCTGGCGTCATCGAGAACATGTCGCATCTTGAGATGCCCGACGGCAGCCGCATGGAGCTGTTCGGAAGCGGAGGCGGGCAGCTGCTCACCGGGCGCCTGAGCGCCACGACCGGCACGCATGTGCCGCTGCTCGGCCAGATTCCCCTTGACATCCTCCTGCGTGAGGGCGGAGACGCAGGAGTTCCCATCGTACTCAGCCGGCCCGAAACGCCCGCTGCCGCTGCGCTTTCCGGCATCGCCGCGAAGCTCGCGTCCAAGCCCCGGGGGCTGACCGGAATGAAACTCGACGTCCAACCCCGCTGA	MSTSLASAVDAALATVIDPELRRPITELGMVDAVEISDGGAVRLSVLLTIAGCPLRETITKDSEAALLGVPGVTSVDVELKVMTQGQREALKEQLRGPGGKRGIPFNQPGSLTKVFAVASGKGGVGKSSVTVNLACSLAAQGLRVGIVDADVYGFSVPALMGITQAPTRVDEMILPPVAFGVKVISIGMFVAGNQPVAWRGPMLHRALEQFLTDVYFGDLDALFLDLPPGTGDIAISVAQLLPKAEILVVTTPQAAAADVAERAGAIATQTGQTVAGVIENMSHLEMPDGSRMELFGSGGGQLLTGRLSATTGTHVPLLGQIPLDILLREGGDAGVPIVLSRPETPAAAALSGIAAKLASKPRGLTGMKLDVQPR	PGPT0013215_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-17_01290	759			hypothetical protein	ATGACGGCGAAGCTCCGATCAGAAAGCTTGGAGGCCGCATTGGCTGATAACGCAGCAAAGAGCCCTGGCCTGCGGGGCGCAGGGAAGGCGGCAGTAAAAGGCAGCCTGGACACCCCCCTGAGCGGGCGCCAGCGAATCCTGCCGAAGTTCTCGCCGGACCCCGATGCCTTCGGCCATGCCACCGAGGGTTTCGCTCGTTTCATGGGCACGCCGACGTTCCTGCTCTACATGACCTTCTTCTGCGTCTTCTGGCTGGCTTGGAACACGTTCGCGCCCGTTCAGTGGCAGTTCGACAAAGTGGAGCTTGGGTTCACCCTTCTGACGTTGATGCTGTCGCTGCAGGCGTCCTATGCGGCGCCGCTGCTCCTGCTGGCTCAGAACCGGCAGGACGACCGTGACCGTGTCTCCCTGCAGCAGGACCGTCAGCGGGCAGAACGCAACCTGTCCGACACGGAGTACCTGACCAGGGAGCTGGCCGCACTGCGGATCGCGCTGCGGGAAGTGGCTACCCGCGATTACGTGCGGGCTGAACTTCGGAGCCTCTTGGAGGATCTGGTGGAGGCCCAAGAGGAACTCCGCAGCCACGATCCCTCCAATGAGGGCAGCCACGAGTCACCGCGGGACCTGGTCCGGGAAAAGCTTAAGGAAAAGCGGGAGCGTCAGCGGAACCCGCGCACGCAGCAGATTCCCAAGATCAAGTCAGAAAAGCACCGCCATAGCCTGCCGGCGGACCCGCGCCCCACCACTCCGGAAAGCTGA	MTAKLRSESLEAALADNAAKSPGLRGAGKAAVKGSLDTPLSGRQRILPKFSPDPDAFGHATEGFARFMGTPTFLLYMTFFCVFWLAWNTFAPVQWQFDKVELGFTLLTLMLSLQASYAAPLLLLAQNRQDDRDRVSLQQDRQRAERNLSDTEYLTRELAALRIALREVATRDYVRAELRSLLEDLVEAQEELRSHDPSNEGSHESPRDLVREKLKEKRERQRNPRTQQIPKIKSEKHRHSLPADPRPTTPES				NA	NA	NA	NA	NA
D1-17_01291	1287			hypothetical protein	GTGGTGAGCACAAACCCTACCCGCGTCTTCGTTGCACGCCTCCTCGGGCTGGACGTCTTCGACCCTCTGGGCGACCGTCTGGGCCGGCTGCGCGACGTCGTCGTGCTCTCCCGCGGCACCCGCGGCGCCCCTCACGTGGTGGGCATCGTCGTCGAGGTGCCCGGCAAGAAGCGCGTCTTCGTTCCGATGACCCGCATCACCTCTATCGACCAGACGCAGATCATCTGCACGGGCTTGGTCAACCTGCGCCGTTTCGAACAGCGCGGCGCCGAGACCCTTGTTGTCGCCGAGATGTTCGACCGGCGCGTGACACTGCGCGACGGCAGCGGTGACGCCACCATTGAGGACATCGCGATGGACCAGCACCGATCCGGAGACTGGTTCGTCAGCAAGCTCTTCGTCCGCCGCGGGCACTCCCTCGCGCCGCTGAGCAGGCTCCGCCGCAACGAAACCCTGATCATCGACTGGGCGGATGCGCTTCAGGGCGCCAAGACAGAACCCCAGGCAGCAACCCAGTTCGTGGCCACCCACGAGGACCTCAAACCCGCGGACTTCGCCGAGGCGCTGCAGGAGATGAGCGACAAGCGGCGGTTTGAAGTAGCCAGCGAACTTCAGGACGAACGTCTGGCCGACGTACTGCAGGAGCTCCCCGAGGACGACCAGGTGGAAATCCTCTCCGCCTTGGATGTCCAGCGCGCTGCTGACGTTCTGGAGGAGATGGACCCGGACGACGCCGCCGACCTCCTCGGTGAGCTTCCCTCCGCCCAGGCCGAGGAACTCCTCCAGCTGATGGAACCGGAAGGCGCCGAGGACGTGCGGCGCCTGCTGGAATACGACGAGGACACCGCCGGCGGTCTTATGACTCCCGTGCCGGTCATCCTGCCGCCGGAAGCCACAGTGGCTGAAGCCCTTGCGCACGTACGCCGTGAGGAACTGTCACCGGCCCTGGCATCGTCCATCTTCATTACGCGGCCGCCACTGGAAACCCCCACCGGGCGGTTCCTTGGGGTTGTCCACATCCAGCAGCTGCTGCGTTTTCCGCCGTTCGAACCGCTTGGCAATCTCGTGGACAAAAACCTGGAACCTCTGTCGGACCAGGCGCATATCAGCGAGGTGGCGCGTACCCTGGCCACCTACAACCTGAATTCCCTACCCGTGGTCAACGATGCAGGGCGGTTGGTTGGTGCAGTAACGGTCGATGACGTCCTGGATCATCTGCTGCCAGACGATTGGCGGGCAAATGACGGCGAAGCTCCGATCAGAAAGCTTGGAGGCCGCATTGGCTGA	MVSTNPTRVFVARLLGLDVFDPLGDRLGRLRDVVVLSRGTRGAPHVVGIVVEVPGKKRVFVPMTRITSIDQTQIICTGLVNLRRFEQRGAETLVVAEMFDRRVTLRDGSGDATIEDIAMDQHRSGDWFVSKLFVRRGHSLAPLSRLRRNETLIIDWADALQGAKTEPQAATQFVATHEDLKPADFAEALQEMSDKRRFEVASELQDERLADVLQELPEDDQVEILSALDVQRAADVLEEMDPDDAADLLGELPSAQAEELLQLMEPEGAEDVRRLLEYDEDTAGGLMTPVPVILPPEATVAEALAHVRREELSPALASSIFITRPPLETPTGRFLGVVHIQQLLRFPPFEPLGNLVDKNLEPLSDQAHISEVARTLATYNLNSLPVVNDAGRLVGAVTVDDVLDHLLPDDWRANDGEAPIRKLGGRIG				NA	NA	NA	NA	NA
D1-17_01292	969			hypothetical protein	ATGTCAAACATTTTTGGTGCTCCCAAGGCCGGTGTCCCCGGCTCCGACGAGTCCCGGACTGTTCCCACTGGGGACTCCGTCGGCAGCTACTCCTCCTACCTGGACGCCCAGAAGGCTGTCGACTATTTGGCCGACCAGCAGTTCCCGGTGCACATGGTGTCGATCGTGGGCAACGACCTGAAGATGGTGGAGCGGGTGACGGGCAGGCTCAGCTACCCCCGCGTTGCGCTCTCGGGAGCCCTAAGCGGCATGTGGTTCGGCCTCTTCGTCGGCGTCATGCTTTCCTTCTTCACCCCGGCCGGTGGAACGTTTTCCATCATCAGCTCGGTGCTGATGGGTGCGGCCTTCTTTATGCTGTTTGGCATCGTCACCTATGCCATGCAGAAAGGCAAACGGGACTTCACGTCCACCAGTCAGGTGGTGGCCACCAATTATGACGTTGTGGTGTCCTTCGAGGCCGCCCACGAAGCCCGCCGGTTGCTGCAGCAGCTGCCGATGACGCCGTCGGCCGCCTCGGCAGGAACCCGGCCCTCCAACTACGGCGGGCCGGCCAACTACAGCGGACCTTCGAATTACTCACAGCGCGACTACTACAACCAGCCGTATCAGCAGCCCGGCCAGCAGCAGGGTCCCTACCAGGGACAGGCGCCGCAGCGCCCTGCAGGCTGGAACGATCCCTACGGGCAGCGCGCGCAGGATGGCCGCGGGCAAGAGTCGCAGGGCCCCCAGCAGCAGTTCCCACACCCCGAGGGTCCGCAGCCCCAGGGTCCGCAGCCCCAGGGTCCGCAGCCCCAGGGACAGGGGCCTTCCGACGAGCGGACTCCCGACGGCGGCCAGCCGCCCGTCCGGCGGTCCGTCCGTTATCCCGATCTGCCGGACGGGCGTCCGCAGTACGGTGTGCGCGTGAACGACGAGAATCAGCCGCACGCGAACCAGCCCCAGCAAGGCCCGGACGAGACCCAGCGCTAA	MSNIFGAPKAGVPGSDESRTVPTGDSVGSYSSYLDAQKAVDYLADQQFPVHMVSIVGNDLKMVERVTGRLSYPRVALSGALSGMWFGLFVGVMLSFFTPAGGTFSIISSVLMGAAFFMLFGIVTYAMQKGKRDFTSTSQVVATNYDVVVSFEAAHEARRLLQQLPMTPSAASAGTRPSNYGGPANYSGPSNYSQRDYYNQPYQQPGQQQGPYQGQAPQRPAGWNDPYGQRAQDGRGQESQGPQQQFPHPEGPQPQGPQPQGPQPQGQGPSDERTPDGGQPPVRRSVRYPDLPDGRPQYGVRVNDENQPHANQPQQGPDETQR				NA	NA	NA	NA	NA
D1-17_01293	1590	pepPI		Xaa-Pro aminopeptidase 1	GTGAACCATGCAGAAACCGCCCAGAACGGTACAAACACAGCCTCCCAGCCCCTCGAGGAGCGGGTCAACAACCGCTCGCAGCGGCCCAGTTCTGAAGCCTTCAAGGCATTCATGGCCGCCAACTGGGCTCCGGCCCCGCAGGTCACTCCTGCGCGCGACGCCGTGGCCGACCACGCCGCCCGGCGCCGGCGCATCATCTCGGGGAAGTTCAAAGGCGAACGCCTGGTGGTTCCGGCCGGTCCGCTGAAGGTCCGCTCCAACGACTGCGACTACCGCTTCCGTCCGCACTCCGGCTTCGCGCATCTGACCGGTCTCGGGTTGGATCATGAGCCTGACGCGGCACTCATCTTCGAACCGGTTGGAGAGGGCAAAGGTGACGACGGCGGCAATCACCGCGCCACGCTCTACTTCCGTCCGCTGGCCGGGCGCGATACTGAGCAGTTCTACGCCGACGCGCGCTCAGGGGAATTCTGGATCGGCCCGCGCCCCACGCTGGCGGAGTTCGAAGCCCGCCTCGGCCTCCCAGCGGCTCACATCGACGAACTCGAAATGGCAATCACCAAAAACGTGGGCGCCCCTGAAATCGGAGGCATTTCAATCCGCCTGGTGCGCAAAGTCGACGAGAACATCGACGCCCTCGTGGACACCGCCCGCTACAACACCGCCAAGGACCCGGACAACCTGGACCTAGGCGTGCTGGACGCCTTGGATGACAAGCTTTCCGAGGCCCTCTCCGAGCTGCGCCTGATCAAGGATGACTGGGAAGTAGAGCAGATGCAGACCGCCGTGGCCGCCACGGTTGAAGGCTTCACCGAAGTAGTTAAGGTCCTGCCCCGGGCACTGACCCATGTTCGCGGCGAGCGCGTGGTCGAGGGTGCGTTCTTCGCCCGCGCGCGCGAGGAGGGCAACGATCTCGGCTACGATACCATCGCCGCCTCGGGCAATAACGCCACCGTGCTGCACTGGACCCGGAACACTGGCAAGATCCACGCGGGCGACCTGCTGCTGCTGGACGCCGGCGTTGAGGCCGATTCCCTGTACACCGCAGACATCACCCGGACACTGCCGGCCAACGGGACATTCTCCGAGGTACAGCGCAAGATTTACGACGCCGTCCTCGACGCAGCTGACGCAGGTTTTGCGGCGGCTCAGCTCGGCGCCCGCTTCCGGGACATTCACAGGGCCGCTACTACTGTCCTGGCCGAGCGCCTCGCGGAATGGGGCTTGCTGCCCGTGTCCGTGGAGGAAGCCGTCAGCGAGGACGGGCAGCAGCACCGGCGATGGATGCCGCACGGCACCAGCCACCATTTGGGCCTGGACGTCCACGACTGTGCGCAGGCCAAGCGCGAGCTCTACCTTGACGGAGTGCTGACGGAGGGCATGGTTTTCACCATCGAGCCCGGCCTGTACTTCAAGAAGGAGGACCTCGCCATTCCTGAGGAATACCGGGGAATCGGTGTGCGCATCGAGGATGACATCCTGATGACCGCTGAGGGCCCCATGAACCTGAGCGCGGCTTTGCCCCGGACGGCTGGGGACGTGGAAGCCTGGATGGCGGGCATCTGGCAGGAAGCCGGCGGCCACGCCTAG	MNHAETAQNGTNTASQPLEERVNNRSQRPSSEAFKAFMAANWAPAPQVTPARDAVADHAARRRRIISGKFKGERLVVPAGPLKVRSNDCDYRFRPHSGFAHLTGLGLDHEPDAALIFEPVGEGKGDDGGNHRATLYFRPLAGRDTEQFYADARSGEFWIGPRPTLAEFEARLGLPAAHIDELEMAITKNVGAPEIGGISIRLVRKVDENIDALVDTARYNTAKDPDNLDLGVLDALDDKLSEALSELRLIKDDWEVEQMQTAVAATVEGFTEVVKVLPRALTHVRGERVVEGAFFARAREEGNDLGYDTIAASGNNATVLHWTRNTGKIHAGDLLLLDAGVEADSLYTADITRTLPANGTFSEVQRKIYDAVLDAADAGFAAAQLGARFRDIHRAATTVLAERLAEWGLLPVSVEEAVSEDGQQHRRWMPHGTSHHLGLDVHDCAQAKRELYLDGVLTEGMVFTIEPGLYFKKEDLAIPEEYRGIGVRIEDDILMTAEGPMNLSAALPRTAGDVEAWMAGIWQEAGGHA	PGPT0006770_2681	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006770-pepP-K01262	NA	NA
D1-17_01294	846		COG0613	3',5'-nucleoside bisphosphate phosphatase	GTGAGGATCGATCTGCACGCCCATTCGAACGTTTCAGACGGCACCGAACCGCCGGCAGCGGTGGTGGCTGCCGCTGCCGCCGCGGGGCTGGACGTTGTCGCACTGACCGACCACGACTCCACTGACGGCTGGGACGAGGCCTCCAGCGCCGCAGCCAACAGCGGCGTGGCACTCGTTCCCGGCATGGAAATTTCATGCCGCACGGAGCAGGGCATCAGCGTGCATCTCCTCAGCTACCTGCATGATCCCAGCCATGAAGGCCTTCTCGAGGAAATCACCAAGGCCAGGGATGCCCGGCTCACACGTGCCGAGCGGATGGTTACGCTGCTGTCCGAGGACTATCCGCTGACATGGGACGACGTCATTCACCACGTGGCCCCCGGAGCCACCCTCGGACGGCCTCATATAGCTGATGCGCTCGTGGCCGCGGGCGTGGTCGCGGACCGGTCGGAGGCCTTCACCTCCATCCTGACCTCACATTCGCGGTACTTCGTGCAGCATTATGCGCCCGAGCCGGCGCTCGCCGTCGAGCTTGTCCGCGCGGCCGGAGGCGTGCCCGTTTTTGCCCACCCGGTCGCATCGTCGCGCGGACGGGTGGTGGGGGAGCGGACCTACCACGACATGATCGATGCCGGCCTCGCGGGCCTTGAAGTCGACCACCGCGACAATTCTGACGAGGGCCGCGAGTTCCTGCGCGGCCTCGCAGCCCGGCACGGGCTGCTGATGACGGGCTCCTCCGATTACCACGGAAAAGGCAAGCCCAACAGGCTGGGCGAAAACCTCACGACGCCGGAGGCGTTTGCGCGCATTGAAGAACTCGGAACCGGGTCCGCCGTCGTCCGCTGA	MRIDLHAHSNVSDGTEPPAAVVAAAAAAGLDVVALTDHDSTDGWDEASSAAANSGVALVPGMEISCRTEQGISVHLLSYLHDPSHEGLLEEITKARDARLTRAERMVTLLSEDYPLTWDDVIHHVAPGATLGRPHIADALVAAGVVADRSEAFTSILTSHSRYFVQHYAPEPALAVELVRAAGGVPVFAHPVASSRGRVVGERTYHDMIDAGLAGLEVDHRDNSDEGREFLRGLAARHGLLMTGSSDYHGKGKPNRLGENLTTPEAFARIEELGTGSAVVR				NA	NA	NA	NA	NA
D1-17_01295	873	yhdJ	COG0863	DNA adenine methyltransferase YhdJ	ATGACTGAACCTGTCTGGGCGCCGGACGGCAGCAACCTGGTGGTGCACGCGGATAACGCGGAGTTCCTCCCCACGCTGCCGGACGGCGCCTTCACACTGATTTACGTGGACCCGCCCTTTAACACGGGCCGGGCCCAGCAGCGCCAGGAAACGAAGATGGTGCTCAATGCCGAAGGCGACGGCGACCGGGTGGGCTTCAAGGGCCGCTCGTACGACACCATCAAAGGCGCTTTGCACCGCTACGACGATGCCTTCAGCGACTACTGGTCGTTCCTGGAACCGCGACTGGTCGAGGCCTGGCGCCTGCTTGCCGAGGACGGCACCCTGTACCTGCATCTGGACTACCGCGAGGTGCACTACGCGAAGGTCATGCTGGACGCGATCTTCGGCCGTGAGTGCTTCCTCAACGAAATCATTTGGGCCTACGACTACGGGGCGCGTGCCAAGTTCCGCTGGCCCACCAAGCACGACAACATCCTGGTCTATGTCAAGAACCCGGCCAAGTACCACTTCAACAGCGCCGAAGTGGACCGGGAACCGTACATGGCCCCGGGGCTCGTGACTCCGGCGAAACGCGAACTGGGCAAGCTGCCCACCGACGTCTGGTGGCACACCATCGTCTCCCCCACCGGCAAGGAAAAAACCGGTTACCCCACGCAGAAGCCCGAAGGCCTGGTACGGCGCGTCGTTGCCGCGTCCAGCCGGCCAGGCGACTGGTGCCTGGACTTCTTTGCCGGGTCCGGCACGCTGGGAGCGGTGGCCGCAAAGCTGGGGCGCCGGTTTGTGTGCGTCGACCAGAACCAGCCGGCTATTGACGTCATGGCCAAACGGCTGGGCGGCCATGCGGACTTCACGGCCTACCCGCCCAATTAA	MTEPVWAPDGSNLVVHADNAEFLPTLPDGAFTLIYVDPPFNTGRAQQRQETKMVLNAEGDGDRVGFKGRSYDTIKGALHRYDDAFSDYWSFLEPRLVEAWRLLAEDGTLYLHLDYREVHYAKVMLDAIFGRECFLNEIIWAYDYGARAKFRWPTKHDNILVYVKNPAKYHFNSAEVDREPYMAPGLVTPAKRELGKLPTDVWWHTIVSPTGKEKTGYPTQKPEGLVRRVVAASSRPGDWCLDFFAGSGTLGAVAAKLGRRFVCVDQNQPAIDVMAKRLGGHADFTAYPPN	PGPT0027215_960	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027215-EC_2_1_1_72-K00571	NA	NA
D1-17_01296	1692	cshA		DEAD-box ATP-dependent RNA helicase CshA	GTGAGTGAATTGCATACCCACCAGCTTCTCTCCGACGACACCGGAACCGAGACCATCGAGCCGGAAGAAACCATTATCTCGGATGAGAAACCCCACGAGATCGCGGAAAAGTCCTTCTCCGACTACAACGTGCGCGCGGACATCGTCGAGTCCCTCGCCGACGCCGGCATCACGCACCCCTTCCCCATCCAGGCGATGACACTGCCCGTGGCGCTATCCGGTCACGACATCATCGGACAGGCCAAGACCGGGACCGGCAAGACCCTCGGTTTCGGCATTCCTGCGCTGCAGCGCGTCGTGGGACAGGGTGATCCCGGCTTCGACAAGCTGCCGGCTCCCGGCGCCCCGCAGGCGCTGGTGATCGTCCCCACCCGTGAACTGGCCGTGCAGGTTGCCAATGATCTGCAGAACGCTTCGCGCAAGCGCAACGCCCGGATCACCACGATCTACGGCGGCCGCGCCTATGAGCCGCAGGTTGAGGCCCTTCAGAAGGGCGTGGAAGTGGTCGTCGGCACACCCGGACGCCTGATCGACCTCTACAAGCAGAAGCACCTGGTGCTGAAGAACGTCAAGATCGTGGTGCTCGACGAGGCCGACGAGATGCTGGACCTCGGCTTCCTCCCCGACGTCGAAACCCTGATCGCCGGCACACCCCCGGTCCGCCAGACCCTCCTGTTCTCGGCAACGATGCCCGGCCCCGTCATCGCCATGGCCCGCCGGTACATGACGCAACCGACACACATCCGCGCTGCAGACCCGGATGACGAAGGCCTCACCAAGCGCGACATCCGCCAGCTCATCTACCGTGCGCACAGCATGGACAAGATCGAGGTTGTTGCCCGCATCCTGCAGGCCCGCGGCCGCGGCCGCACCATCATCTTCACGAAGACCAAGCGCACCGCCGCCAAAGTTGCCGAGGAACTCGTGGACCGCGGATTCGCCGCAGCCGCCATCCACGGTGACCTCGGCCAGGGAGCCCGCGAGCAGGCCCTCCGGGCCTTCCGCAACAACAAGGTGGACGTCCTTGTGGCCACCGACGTCGCCGCCCGCGGGATCGACGTTGACGACGTCACGCACGTCATCAACTACCAGTGCGTCGAGGACGAGAAGATCTACCTGCACCGCGTGGGCCGCACCGGGCGTGCCGGCAACAAGGGCACGGCCGTGACCTTCGTGGACTGGGATGACATGCCGCGCTGGGGCCTCATCAACAAGGCCCTGGGCCTGAGCGTTCCCGAGCCCGTCGAAACGTACTCCTCCTCGCCGCACCTGTACGAGGACCTGGACATTCCGGAAGGCACCAAGGGCAGGCTTCCGCGCAGCAAGCGCACCCTGGCCGGCGTCGACGCCGAAGTCCTGGAGGACCTGGGCGAGACCGGCAAGAAGAACAGCCGATCCGGCGGGCGGGATTCCGGCCTTTCAGGCGGGCGTTCCGGCAGCCGGGAAGACAGCCGCCGCAGCGGCAACGAAAGCGGCGGACGTTCGGGAGACCGCCGTCGTCGTTCCTCTGATGTCTCTGCTGAGACCGGAAGCGGACCCGCGGCCTCAGAAGGCGGCACCGCCGCAGCCGGTGCCGAGCAGCCGGCACGTCCGCGGCGCAACCGGACCCGCACCCGCCGCCGCAACGGCGAAGTGGTGGCCGGCGGCGAATCGGCGGCTACCGGCTCGCAGCCGGGCGGCACAGAGGCCTGA	MSELHTHQLLSDDTGTETIEPEETIISDEKPHEIAEKSFSDYNVRADIVESLADAGITHPFPIQAMTLPVALSGHDIIGQAKTGTGKTLGFGIPALQRVVGQGDPGFDKLPAPGAPQALVIVPTRELAVQVANDLQNASRKRNARITTIYGGRAYEPQVEALQKGVEVVVGTPGRLIDLYKQKHLVLKNVKIVVLDEADEMLDLGFLPDVETLIAGTPPVRQTLLFSATMPGPVIAMARRYMTQPTHIRAADPDDEGLTKRDIRQLIYRAHSMDKIEVVARILQARGRGRTIIFTKTKRTAAKVAEELVDRGFAAAAIHGDLGQGAREQALRAFRNNKVDVLVATDVAARGIDVDDVTHVINYQCVEDEKIYLHRVGRTGRAGNKGTAVTFVDWDDMPRWGLINKALGLSVPEPVETYSSSPHLYEDLDIPEGTKGRLPRSKRTLAGVDAEVLEDLGETGKKNSRSGGRDSGLSGGRSGSREDSRRSGNESGGRSGDRRRRSSDVSAETGSGPAASEGGTAAAGAEQPARPRRNRTRTRRRNGEVVAGGESAATGSQPGGTEA				NA	NA	NA	NA	NA
D1-17_01297	1614	rnr		Ribonuclease R	GTGCCACATCATCGTCTCTCTCCCAGCGTCCACGAACAGACCAACGCCCTGGCGGAGGCCCTGAGTGCGCTGCGGACGGAACTGGAGCTGCCCGGGCCGTTCCCTGAGGACGTCCTTAAAGAAGCCGAAGCGGCTGTGGCTCAGCTGCAGCTTCCCGGGCTGGACCTCACCGACGTCGAATTCCTGACTATCGACCCGCCATCGTCAACGGATCTGGACCAGGCACTCTTCATCGAGCGAACCGGGGACGGCTACCGGATTCTGTACGCCATCGCCGACGTACCGTCCTTCGTCGCCCCCGGCGGCGCGCTCGACGCCGAAACCCGCCGCCGCGGCCAGACCTTCTACGCCCCGGACGGCCGGATTCCCCTGCACCCCGAAGTCATCAGCGAAAACGCGGGCAGCCTGCTGGCAGGTCAGCTGTGTTCGGCGTTCGTGTGGGAGTTCGCGCTCGACGCCGCTGCCGAGGTAGTCTCCGTATCGGTGCGGCGCGCCTCGGTCCGCAGCCGGGCGAAGCTGAGCTACAAGGGCGCGCAGGAAGCGCTGGACGCGGGAACCGCGTCGCCCGTGCTGCAGCTCCTCCGCGAGGTGGGGATCAAGCGCGTGGAACTGGAAAGGGCCCGGGACGGCGCCAGCCTGAATATGCCGGACCAGGAGATCGTACAGCTACCCGACGGCGGCTATGAGATTGTCGCGGCGCCGCAGCTTCCAGTGGAGGACTGGAACGCCCAGATCTCGCTGATGACCGGCATGGCCGCCGCCTCCCTGATGCTTGACGGCAAGGTAGGCATCCTGCGCACGATGCCCGCCCCTGACGAACGGTCGCTGGCGCATTTCAGGCGTCAGACGGCGGCGTTGGGAAAGCCTTGGGACGGAACGGTCAGCTACGGCGAGTACCTGCGGACACTGGATCCGACGGACCACCGGCAGCTGGCCATCCTGCACTCTGCCGGCATGCTCTTCCGCGGAGCCGGCTACACCTATTTCGATGGCACTGTTCCCGAGGACGCCATCCAGGCTGCCATCGGCACAGCCTACGCCCACACCACAGCTCCGCTGCGCCGTCTGGTCGACCGGTTCGTCCTTGTCATCTGCGAGGCGCTGAGCAACAACAGAGCTGTGCCCTCCTGGGCCCGGGAGGCTCTGCCGTCGCTGCCGGAAATAATGGCTGCTTCAGATCAGCTGGCGTCCAAAATGGAGCGGCTCGCGCTTGACACCGTGGAGGCTGCGCTGCTCAGCAACCACATCGGCCAGGAGTTCGACGCTGTCGTGATCTCCGGATCCAAACCCGCCAAGAACAACGGCAACGGCGCCGGCGCTGGCGCTCCTAGCGGCAGCGGCAACGGCCATAACAGCAACAGCACAGTCACTGCGAACGTCATCGGGAACGGGAAGGGTACTAACGGAAAGTCCAACGGCAAGGGTTCCAACGGCGGCCCGTGGGGCACGGTCCAGATCGCCGAACCGGCGGTCACGGCGCGGTGTGAGGGCGAAATGGAGTCCGGCACCAGGGTCCGGGTACGGCTGGTTTCCGCGGACATCGCCACACGCGAAGTGCACCTCGAACTGGTCGGGGAACAGGCGCCCGTCAGGGAATCCGGTTTTGCCGGTTAG	MPHHRLSPSVHEQTNALAEALSALRTELELPGPFPEDVLKEAEAAVAQLQLPGLDLTDVEFLTIDPPSSTDLDQALFIERTGDGYRILYAIADVPSFVAPGGALDAETRRRGQTFYAPDGRIPLHPEVISENAGSLLAGQLCSAFVWEFALDAAAEVVSVSVRRASVRSRAKLSYKGAQEALDAGTASPVLQLLREVGIKRVELERARDGASLNMPDQEIVQLPDGGYEIVAAPQLPVEDWNAQISLMTGMAAASLMLDGKVGILRTMPAPDERSLAHFRRQTAALGKPWDGTVSYGEYLRTLDPTDHRQLAILHSAGMLFRGAGYTYFDGTVPEDAIQAAIGTAYAHTTAPLRRLVDRFVLVICEALSNNRAVPSWAREALPSLPEIMAASDQLASKMERLALDTVEAALLSNHIGQEFDAVVISGSKPAKNNGNGAGAGAPSGSGNGHNSNSTVTANVIGNGKGTNGKSNGKGSNGGPWGTVQIAEPAVTARCEGEMESGTRVRVRLVSADIATREVHLELVGEQAPVRESGFAG				NA	NA	NA	NA	NA
D1-17_01298	687			hypothetical protein	ATGGGCACAACCTCGACTGGCACTGCTCGGTATGACCGTTTCGTGGCCGACCTGTACGGCGTCATGGCATATGGTGAGCTTTCCGCTTTCGAGCGGCTTTCGTCGGACGCCCGCTATTCTCCTACGCTTCACGACCGCGCCGTGCTTGGCCGCATCGCGGTCATCGAGTTCCAGCACTACGAGCTGGTCAGCGCAAAGCTGGCTGAGATGGGAGTGGACGTCGAGGACGCGATGCTCCCGTTCCAGGCCGCCGTGGACCATTTCCATGAACGAACCCGGCCCGCTGACTGGTACGAGTCGCTAATGAAGGCCTACGTCGTCGATACCGTCTCGGCAGACTTTTACCAGGCAGTAGCCCGGTATGTGGATCCGGGGAGCCGTGACCTGATTGCCCAGGTCCAAGCAACCGAGGAAGCAACAATAGTCCTCCGCGAACGTCTGCGCGGGGCCCTTGCGGATGATCCGCGGCTCGCCTCCAGACTCGCGCTGTGGGGACGGCGGCTACTGGGCGAAGCCCTGACCCAGGCGCAGCGGGTGGGGTACGAACACGCGTTCCTGCCCGATTTGATCGCGGCCGCGGACAGCGGAGCTGACGATGCCTCAGTCCGGGAGGCAGTGCGCGCGCTGACCGCGGAACTTGCCGAAAACCACTCGAAGCGCATGGTGGAGCTGGGACTGAGCAGCTGA	MGTTSTGTARYDRFVADLYGVMAYGELSAFERLSSDARYSPTLHDRAVLGRIAVIEFQHYELVSAKLAEMGVDVEDAMLPFQAAVDHFHERTRPADWYESLMKAYVVDTVSADFYQAVARYVDPGSRDLIAQVQATEEATIVLRERLRGALADDPRLASRLALWGRRLLGEALTQAQRVGYEHAFLPDLIAAADSGADDASVREAVRALTAELAENHSKRMVELGLSS				NA	NA	NA	NA	NA
D1-17_01299	729	thiE	COG0352	Thiamine-phosphate synthase	ATGACCGCGCATGAACTCACCGATTCCGCCCGCCTGTACCTTTGCACGGACGCCCGCAAGGACCGCGGCGACTTCGCAGACTTCGTCAACGCCGCCTTCTCCGGCGGCGTGGATATCATTCAGCTCAGGGACAAGACTATTGAGGCAGCCGAGGAACTGGAGCTCCTCGAGGTTCTCCGCGAGATCGCCGGACGGCACGGCCGGCTCTGGGCCGTCAACGACCGGGCCGACATCGCCGCCTTGGCCGGCGCTCCCGTGTTCCACATCGGACAGAAGGACCTGCCCCTGCGCGCGGCCCGGCAGGTGCTGCCCGGTTCTCCGGCAATCGGTCTCTCCACCCACTCCCCCGACCAAATTGATGACGCCATCGCCACAGCGCAGGCGCCGGAAGGCCTCGACTACTTCTGCGTCGGCCCCGTGTGGGCAACCCCCACGAAACCCGGAAGGACCGCCGTCGGACTTGACCTCGTGCGTTATGCCGCCGAGGCTGCCCACAGGGCCCGTGGCGAAAGCGGCCGGCGGCTTCCGTGGTTCGCTATCGGCGGGATCGATCTCAGCAACGTGGAACAGGTGGTGGCGGCGGGCGCCGAGCGCATCGTCGTGGTCAGGGCCATCACCGAGGCCCCGGACCCGGCGGCTGCCGCGGCACAACTCATTGCCGCCCTCGACGCCGGAGCGGCTGGTGCCGCGGGAGCCGCACCCAGGGCCTCCGGCGCCGTCAGGGCCTAG	MTAHELTDSARLYLCTDARKDRGDFADFVNAAFSGGVDIIQLRDKTIEAAEELELLEVLREIAGRHGRLWAVNDRADIAALAGAPVFHIGQKDLPLRAARQVLPGSPAIGLSTHSPDQIDDAIATAQAPEGLDYFCVGPVWATPTKPGRTAVGLDLVRYAAEAAHRARGESGRRLPWFAIGGIDLSNVEQVVAAGAERIVVVRAITEAPDPAAAAAQLIAALDAGAAGAAGAAPRASGAVRA	PGPT0008995_640	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008995-thiE-K00788	NA	NA
D1-17_01301	1485	hcnC		Hydrogen cyanide synthase subunit HcnC	ATGAAGCCTGGAACCGGTGGCGCATCTGCCATTGACCTCACGTCCGGCGATGCCAGGACATCTGCCGCTGGCAGCCCGTACGCCACTAAACCTTTGCACAGCATCGAACCTCTGCACGCCGACGTCGCCGTCATTGGCGGCGGTGTGATCGGCCACGGGATAGCCTGGGAGGCCAAACGCTCAGGACGCTCGGTGGTCCTCATCGATGAGGCGCCCGGAACCGGTGCCAGCTGGGCAGCAGCGGGCATGCTCGCCCCTGTGAGCGAACTGCATTACCAGGAGGAGGAACTCCTCGAGCTCATGCTCGAATCCTCCGCGCTGTGGCCTGGCTTCGTAGCGACGCTCGATGCCATGCGGCCAGACCCCCTCAAGCCAGACCATGGCAGGGAGGACACAGGCTACCTTGCGTCACCCACCATTGCGGTCGGCGTCGACCAGGCTGACCGGCGCACCCTGATGGATCTTCGCCAGGTGCAGCAGGCGCATGGCCTGATCGTCGAACCGCTGACCATCCGCGCAGCCCGGCTGCGTGAACCGCTGCTAAGCCCAGGCATTTCCTGTGCCCTGGAGATTCCGACGGACCACCAGGTTGATCCGCGAAAACTCGTAAAGAGCTGCGCAACTGCGCTGTCCCGCCACTCTCCCGGTGCGCGGACTGCCGTGGCCGGCGCGGAAAGCGGCTATGCGGTACGGGACAACGCCGTGGCATTGCTGTGGGACGCGGGGCGGGTCAGCGGTGTCCGGCTTGCTGGCGGCGGCACGGTGCTGGCCGCGGAAACCGTGGTAGCCAATGGTCTCGCGGCTGCGTCGCTGGACGGTCTTCCGGAGAACCTGAATCTTCCCCTCCGGCCGGTGTACGGCGATATTCTCCGGCTGCGGGTCCCGGACCGGCTCCGTCCCTTGCTGACGGCAACAGTGCGGGGCATCGTGCGAGGAGTTCCGGTCTATCTGGTTCCGCGGCAGGACGGGACAGTCGTTGTCGGCGCCACCCAGCGTGAAGACGGGCAGGGTGCTCCCAGCGCGGGAGGGGTCTACCAGCTGCTCAGGGACGCGCAGGCCCTTGTGCCGGCGATCGCGGAGCTGGAACTTCTCGAGGCAACCGCCCGGGCTCGTCCGGGCACGCCGGACAACGCGCCGCTGCTGGGCCGCGTCCCCGCAGCGAAGGAGAGCGGGTACGGAGCGGCAGACTGCGAATCCGGAACGGCGGACCGCGGGCTTGGAGCGCACGTTCCGGGGCTCATCATCGCTACCGGCTTTTTCCGGCACGGGGTCCTGCTGACGCCTGCCGCGGCCGTCATCTGCCGAGAGCTGATGGACGGTGTAGAGGACAGCCGCTGGGGCGCCTTCAGTCCCGGCCGGTTCCCGGCCGGGCAATCGGAGCTGTTGGCCGCTGCCGCACAAGGCACTGCGCCCCCTGGCCCGGCTGTATCAGGCCCAGCCGCATCAAACCCAGTCACATTTGACCGAACCAAGGAATCCGCATGA	MKPGTGGASAIDLTSGDARTSAAGSPYATKPLHSIEPLHADVAVIGGGVIGHGIAWEAKRSGRSVVLIDEAPGTGASWAAAGMLAPVSELHYQEEELLELMLESSALWPGFVATLDAMRPDPLKPDHGREDTGYLASPTIAVGVDQADRRTLMDLRQVQQAHGLIVEPLTIRAARLREPLLSPGISCALEIPTDHQVDPRKLVKSCATALSRHSPGARTAVAGAESGYAVRDNAVALLWDAGRVSGVRLAGGGTVLAAETVVANGLAAASLDGLPENLNLPLRPVYGDILRLRVPDRLRPLLTATVRGIVRGVPVYLVPRQDGTVVVGATQREDGQGAPSAGGVYQLLRDAQALVPAIAELELLEATARARPGTPDNAPLLGRVPAAKESGYGAADCESGTADRGLGAHVPGLIIATGFFRHGVLLTPAAAVICRELMDGVEDSRWGAFSPGRFPAGQSELLAAAAQGTAPPGPAVSGPAASNPVTFDRTKESA	PGPT0008955_84	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
D1-17_01302	237			hypothetical protein	ATGAACATCACATTGAACGGCAAACCCCACGCCGTGGGGACAGAAGCCTCCGTGACGACGCTCGTCAGCCAGATCACGGGGCGGGAACTTGCCTCAGACGGGCAGGCCGCGGACGGCCAGCGTCTGGGTGTTGCGGTGGCGCGCAATTCCGAGGTGGTGCCCCGCAGCCAGTGGCACAGCACGGCGCTCACCGAGGGCGATGACATCGAGCTCGTTACTGCAGTTCAGGGAGGATGA	MNITLNGKPHAVGTEASVTTLVSQITGRELASDGQAADGQRLGVAVARNSEVVPRSQWHSTALTEGDDIELVTAVQGG	PGPT0008970_214	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008970-thiS-K03154	NA	NA
D1-17_01303	813	thiG	COG2022	Thiazole synthase	ATGACTGAAACAACTGCGCTTCCGGCCGTGCCCGGAACAGACAGTGACCCCCTGGTTATCGACGGAGTGGAATTGAGTTCCCGGCTCATCATGGGCACAGGCGGAGCGCCCAGCCTGGACGGCCTCGGTGCGGCGCTGCTGGCCTCCGGCACGGAACTGACCACGGTCGCCATGCGACGCTATTCGCCCGCCGAAACGGGTTCCCTGTTCCAGCTGCTCTTGGATAACAACATCCGGGTCCTGCCGAATACAGCCGGCTGCTTCACTGCCAGGGACGCGGTCATGACGGCGGAGCTGGCCCGTGAGGCGTTGGAGACGGACTGGGTGAAACTGGAAGTCATTGCCGATGAGCACACTCTCCTGCCTGACGCGGTGGAACTCGTCGATGCCACCGAGCAGCTCGTCAACCGGGGGTTCAAAGTCTTCGCGTACACCAACGACGATCCGGTTCTGGCGCTGCGTCTGGAGAACCTCGGAGCCACCGCCGTCATGCCGCTCGGCGCTCCGATCGGGACCGGATTGGGAATCCTCAACCCGCACAACATCGAGCTGATCGTGTCCCGTGCCTCTGTGCCTGTGGTGCTGGACGCGGGCATCGGCACCGCCTCGGACGCCGCCTTGGCCATGGAACTGGGCTGTGACGCCGTGCTGCTGGCGACGGCCGTGACCCGGGCACAGAACCCTGCGCTCATGGGCCAAGCCTTCAAACACGCTGTTATCGCCGGTAGGCTGGCGAAAGCGGCCGGGCGGATTCCGCGCCGCGAGCATGCGCTGGCGTCTTCTGCGATGGAAGGCCGGGCCGAATTCCTCTAG	MTETTALPAVPGTDSDPLVIDGVELSSRLIMGTGGAPSLDGLGAALLASGTELTTVAMRRYSPAETGSLFQLLLDNNIRVLPNTAGCFTARDAVMTAELAREALETDWVKLEVIADEHTLLPDAVELVDATEQLVNRGFKVFAYTNDDPVLALRLENLGATAVMPLGAPIGTGLGILNPHNIELIVSRASVPVVLDAGIGTASDAALAMELGCDAVLLATAVTRAQNPALMGQAFKHAVIAGRLAKAAGRIPRREHALASSAMEGRAEFL	PGPT0008965_612	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
D1-17_01304	666			Putative pterin-4-alpha-carbinolamine dehydratase	GTGGGACCCAAGGACGAGATCCTCACCCGCTCCCAGATAGATGAGGCCCTGTCGGGCCTGCCTGACTGGCGCTACCGCCTGGGCGGCCTGGTCACTGTCTACAAGACGCCGACGGCGGCCGGCGCGCTTGAGCTGATTGCCGGCGTCGGGCGTCTTGCCGAGGAGAAGGACCACCATCCGGACCTGGACTGGCGGTACAACCGTGTGTTTATTCGGTTCACCTCTCACGACGCGGGCGGCGAAGTGACCCCGCGTGACATCGCCGCCGCCGCGGCCGTTACCCATGCAGCCGCAGACGCTGGCGCAGCCGCGGAGCCGGGGCTGTACCGGACAGTGGAAATCGGTATCGACACGCCGGAGCCCTCGGCGATAGCCGACGTCTGGCGTGTTGCTCTGGCCTACAAACAGGGCCGGGGAGGCAGCCTGCAGGATCCCTTCGGCCGGGGTCCGGGACTCTGGTTCCAGGAGACCCGGACGCCCAATGACAACCGGCTCCATGTAGACATCCACCGCTCCAAGGCCGAATCCGGTCCCGTGCTGGAGAAGGTGGCTGCCACTGGCGCATCAATGGACAGTGACCACACACCCAACTGGGTGGTGGTCACTGATGCTCAAGGGAACCGACTGTGCCTGTGCACCGAAGAAGGCGAGCAGCCCCGCAGCTGA	MGPKDEILTRSQIDEALSGLPDWRYRLGGLVTVYKTPTAAGALELIAGVGRLAEEKDHHPDLDWRYNRVFIRFTSHDAGGEVTPRDIAAAAAVTHAAADAGAAAEPGLYRTVEIGIDTPEPSAIADVWRVALAYKQGRGGSLQDPFGRGPGLWFQETRTPNDNRLHVDIHRSKAESGPVLEKVAATGASMDSDHTPNWVVVTDAQGNRLCLCTEEGEQPRS				NA	NA	NA	NA	NA
D1-17_01305	303			hypothetical protein	ATGCTGTCCCTCGTCATCGTCGTGCTGGTCAATGTCGCCTCGGGCTTCATCGTCTGGGCGAATGACAGGCGCCACGCCAAATACGGCATGTTCCTGCCAGCTGGCGTGGGGACCGCGGCGGGCATGGCCGCCTGGATGATCTGCATGGCGGCTGGCCTTGGCTACCAGCCGGGCCTGACCTGGATTCCATGGATAGCCCCCATGATTGCAGGCGCGGCAGCGGCTCTGGCCGCCGCCGCCTTCCTCGGCCGGAGCAGGACCAAACAGGACACACAGCGCCTCACAGAGGCCCTCAAGATGTAG	MLSLVIVVLVNVASGFIVWANDRRHAKYGMFLPAGVGTAAGMAAWMICMAAGLGYQPGLTWIPWIAPMIAGAAAALAAAAFLGRSRTKQDTQRLTEALKM				NA	NA	NA	NA	NA
D1-17_01306	225			hypothetical protein	GTGGAAGTAAAGATCGGCATTCAAAACATCGGCCGCGAACTCGTGCTGGAATCGGCCCAGGATGCTGACGCCGTAGCCAAGGTCGTAGCAGAATCCCTCGCAAAGGGCACCGAGCTGCGCCTGACGGATGAGAAGGGCCGGCAGATCATCGTGCCGGCGAGCGTGCTGGGCTATGTCGAGATCGGTGCGGAAGAAGTCCGCCGGGTCGGCTTCGGCGCACTCTAG	MEVKIGIQNIGRELVLESAQDADAVAKVVAESLAKGTELRLTDEKGRQIIVPASVLGYVEIGAEEVRRVGFGAL				NA	NA	NA	NA	NA
D1-17_01307	666	betI_1		HTH-type transcriptional regulator BetI	GTGGTTCACGATGCACCGGCTGATCAACCTCCGGCCGCGCCCTCCTTTGCTGGAGGCCGCGTCCCCGGCCAGCGTTCTGCCCGGCTGCCACGTGATGAGCGCCGCGCCCAGCTGTTGAGGGCCGCCCAGGAAGTCTTCGTGGCCAACGGATATCACGGCGCCGCCATGGACGAGATCGCTGAGACCGCCCACGTCAGCAAGCCGGTCCTGTACCAGCACTTTCCTTCGAAGCGCGAGCTCTATCTCGCACTCCTGGACAACCACCTCAGCTCCCTGACAGACCTCATGATGGGCGCGCTTAACTCCACCACGGACAACAAAGAACGGGTCAAGGCTGTCATGAGGGCGTACTACCGCTTCATCGACAGCGACGATCAGGCGCACCGCCTTGTCTTTGAGTCGGACCTGATCAACGATGCCGACGTCAGCGCCCGCCTCGAGACGTTCAATAAGGCATTTGCCGACGCCATCGCGCACGTGATTGCCGAAGACACCAAGCTGCCACACCTGGAAGCGCAGCTGCTGGGGCGGGCCCTCGCCGGGATGGCGCACGTGAGCGCGCGCTACTGGCTCGAAACGGGCGGGAACCTGGACATCGATGTGGCCAGCGACTTGATCTACCGTTTAGCTTGGCGCGGAATCTCGCGCTTTCCCAAAGAGACCTAG	MVHDAPADQPPAAPSFAGGRVPGQRSARLPRDERRAQLLRAAQEVFVANGYHGAAMDEIAETAHVSKPVLYQHFPSKRELYLALLDNHLSSLTDLMMGALNSTTDNKERVKAVMRAYYRFIDSDDQAHRLVFESDLINDADVSARLETFNKAFADAIAHVIAEDTKLPHLEAQLLGRALAGMAHVSARYWLETGGNLDIDVASDLIYRLAWRGISRFPKET				NA	NA	NA	NA	NA
D1-17_01308	1200	moeZ	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGGCTTTTTCGTCCACTGCAAATGCAGCACGCACCTCACTGCACCCCCTTGTCGAACCGGCAGCCGAGCTCTCGCCGGAAGAGGTGGAGCGGTACTCCCGGCACCTCATCATTCCGGAGATCGGCGCGCTTGGCCAAAGGCGCCTGAAAAACGCCCGGGTGCTCGTGATCGGGGCCGGCGGGCTGGGTTCCCCGGCCCTGCTCTACCTTGCCGCTGCCGGCGTAGGAACCATCGGGATCATCGACGATGACGCCGTCGACCTGAGCAACCTGCAGCGCCAGATCATCCATGGCGTAGCAGACGTGGGCCGGCCAAAGATTGAATCGGCGCGTGACGCAATAGCCGCCCTGAACCCCTTGGTGGACGTGCGCCTGCACAATGTCCGCCTGGACGCTTTCAACGCCTTGGAACTGTTCTCCGGCTATGATCTGATCCTTGATGGAGCCGACAACTTCGCCACCCGCTACCTGGTCAACGATGCCGCAGCCATCCTCGGGAAGCCGTATGTGTGGGGATCGATCTTCCGATTCGACGGGCAGGTCAGCGTGTTTTGGGAGAAGTACGGCCCGACGTACCGTGACCTGTATCCGGAGGCCCCGCCGGCAGGGTCCGTGCCGTCCTGCGGCGAAGGCGGCGTCTTCGGAATGCTGTGCGCCGCCGTCGGATCCCTGATGGTGACAGAGGCCGTCAAGCTGATCACCGGCGTCGGACGCTCCCTGCTCGGCCGCGTGGCGCTGTACGACGCTCTGGGTGGTAGCTGGCGTGAAATCAGGGTTGCCAAGGATCCTGCGGCCCCGTCCATCACCGAGCTGACGGACTACGAGGCATTCTGTGGCATTGCGCCGCCGGCAGCCACGGACACGGAACACACCGTTACTGCGACGCAGCTGGCCACCATGCTGGCGTCCCGCGAGGCCGGGCTGAAGGATTTCGAACTCGTGGATGTCCGGGAGCCGGGGGAGCACGACATCGTCAGCATCAACGGTTCCGTCCTCATCCCGCAGGGCAGGATTCTTTCCGGCGAGGCTTGGGCAGAGCTGCCGCAGGACCGGGATATCATCTTCCACTGCAAGGCCGGCTCGCGGTCCGCCGCGGTGCTCAGCGCAGCCAGGAAGGCCGGATACCAGCGCGTGAGCCATCTCGACGGCGGCATCCTCGCCTGGGTCCGGGATGTGGAGCCGCACAAGCCCGTTTACTGA	MAFSSTANAARTSLHPLVEPAAELSPEEVERYSRHLIIPEIGALGQRRLKNARVLVIGAGGLGSPALLYLAAAGVGTIGIIDDDAVDLSNLQRQIIHGVADVGRPKIESARDAIAALNPLVDVRLHNVRLDAFNALELFSGYDLILDGADNFATRYLVNDAAAILGKPYVWGSIFRFDGQVSVFWEKYGPTYRDLYPEAPPAGSVPSCGEGGVFGMLCAAVGSLMVTEAVKLITGVGRSLLGRVALYDALGGSWREIRVAKDPAAPSITELTDYEAFCGIAPPAATDTEHTVTATQLATMLASREAGLKDFELVDVREPGEHDIVSINGSVLIPQGRILSGEAWAELPQDRDIIFHCKAGSRSAAVLSAARKAGYQRVSHLDGGILAWVRDVEPHKPVY				NA	NA	NA	NA	NA
D1-17_01309	699			hypothetical protein	GTGATTCCTGACTACCGCACGTTTTCTGTGCCAGTCCTAAGCCGTCGCCAGTTCGGCCTGCTTGTGGGCAGCGGCGCCGTCCTGCTGATGGCAGGCGGGACGTATGGCGCGGTTTCCCGGAGCGCCCCCGGGGCCGGCACACGGCAGGACACCGCCTTCGGCTTCCTGGCAGTGACCCAGGCTGGCAGGCTCGCCAGGCTCGACGAGCAGGGACGCCCTGCCTTCCGGTCGGTAGAAGCGGCAGCCGCCGCCCTCACCGGTCCCGCAGCTTTGGCCGCATACTCCGGACGCGACTCCCGCCGCCCCCAGGCGGCCGGTGCTGAGGGCACTGCCGCAGATTCCCATGGCCACGATGCCGAAATACCACAGAACCCTACATCTCCGCAGCCGGTAAACCTCACCTGGAGCGAGGTGGTTCTGGTTGAAGTTGAACTGCACAACTCGACTCCGGAACCGGTGCTGTTCAGTCCCGGACAGCTTCGCCTGCGGCTGGCGCCGTCATCCACAACCGTCACGCCGCAGGGCTACGGTCACGGTGGCGGCACCCTGGCAGCAGGTGCAACAGAGCACCACTGGATCAGTTACCTCGCTCCGTCCGGCTCCTCCCGGCTGGAACTTGAGTACACCGACCCGGTCCAGGACCGGGTCTTGGGGCTGCCGCTGCCCGCTCTGGCAGCCAGCGGGCTGCAGCGGCCGTGA	MIPDYRTFSVPVLSRRQFGLLVGSGAVLLMAGGTYGAVSRSAPGAGTRQDTAFGFLAVTQAGRLARLDEQGRPAFRSVEAAAAALTGPAALAAYSGRDSRRPQAAGAEGTAADSHGHDAEIPQNPTSPQPVNLTWSEVVLVEVELHNSTPEPVLFSPGQLRLRLAPSSTTVTPQGYGHGGGTLAAGATEHHWISYLAPSGSSRLELEYTDPVQDRVLGLPLPALAASGLQRP				NA	NA	NA	NA	NA
D1-17_01310	1368	hemA_1	COG0373	Glutamyl-tRNA reductase	GTGGTTCTTTTCTCATTGGTGGCTACTCACGCCGACATCGACCTCGAAACCGTCGCTCAACTAAGCAACGGTTCCTCAGGCATTGCCACATCCGCCCTCGCCGAGTCGCCGGCAGTGACGGGTGCGGTGGTCCTTGCCACCTGCAACCGTTATGAAATTTACGGCGAAGCATCGCATGTGGATGACGTCGAAGCCGCCCGCGCCGCCCTGGTGGGCCAGATCAGTGAAATGAGCGGCCTCAGCGAACAGCTCGTATCCCGCTCCTTCAGCACCCGGACGGGTCCCGATGTCAGCCAGCACCTCTTTGCTGTCAGCTCAGGACTGGATTCGGCGGTTGTCGGAGAACGCGAAATTGCGGGCCAGGTGCGCCGTGCCCTGATCACTGCGCAGCACGAAGGCACGGCTAGTCCGGGCCTGGTCCGGCTCTTCCAAGCCGCGTCCAAGACGGCCAAGGATGTCGGAGCCCAGACGGCCCTGGGCTCCCGCGGGCTGTCTATCGTTTCTGTTGCGCTGGACCTCGCCACTGATCTCTCCGAAAATCCCGACTGGTCCGCCAAGAAGGTCGTGGTGTTCGGCACCGGCGCCTACGCGGGCGCCACCATGGCCCTGCTGCGCGAACGCGGCTGCAGTGACATTTCCGTTTATTCTTCGTCAGGCCGCGCCGCCACCTTCGTGGCTACCCGCGGCGGCACCGCCCTCGACGGCGACACCCTCCGGTCTGCCGTCGCCGCGGCCGACGTCATGATCGGCTGCAGCGGATCTGACAACCGGGTTGATGCTGCAGAACTCGCCGAGGTCCGCTCCGGAACCGACCGTCCCCTGATTGCCATCGACCTCGCCCTGACCCATGACTTTGATCCCGCCGTGGGAGAGCTCGATGGCGTTGAGCTCCTGACGCTGGAATCCGTGCGGCTGGCAGCTCCGGAAGAGCAGGCAGAATCCCTCGCCCAGGCCAGCAGCATCGTCTCCGGTGCCGCGCAGGCCTTCGAGCAGCAACGGGAAGCACGGGCCGTGGATTCAGCCATCGTGGCACTGCGCCGGCACACCATGAACGTGCTGGACGCCGAAATGGAGAAGGTCCGCGCCCGCCACGGCTGCACTGCCGCGGCTGAGGAAGTGGAGTTCGCCTTGCGCCGTATGGTGAAGCAGCTGCTCCACGTGCCCACCGTCAGGGCCCGGGAGCTGGCCGCCAACGGCCAGCAGGACGATTATGTTGCCGCGCTGGAAACCCTGTACGGGATTACTGTGGAACAGCCGGCTGCTGCAGCAAAGGCAGAGTGCCCTGTGGACCACGGGCAGCTTGCCCCCGCATCCGTGTCCAAGCCATTGCCGCTGTCCGAGACTGCGGCCCGGAGGAACTCGGCCTAA	MVLFSLVATHADIDLETVAQLSNGSSGIATSALAESPAVTGAVVLATCNRYEIYGEASHVDDVEAARAALVGQISEMSGLSEQLVSRSFSTRTGPDVSQHLFAVSSGLDSAVVGEREIAGQVRRALITAQHEGTASPGLVRLFQAASKTAKDVGAQTALGSRGLSIVSVALDLATDLSENPDWSAKKVVVFGTGAYAGATMALLRERGCSDISVYSSSGRAATFVATRGGTALDGDTLRSAVAAADVMIGCSGSDNRVDAAELAEVRSGTDRPLIAIDLALTHDFDPAVGELDGVELLTLESVRLAAPEEQAESLAQASSIVSGAAQAFEQQREARAVDSAIVALRRHTMNVLDAEMEKVRARHGCTAAAEEVEFALRRMVKQLLHVPTVRARELAANGQQDDYVAALETLYGITVEQPAAAAKAECPVDHGQLAPASVSKPLPLSETAARRNSA	PGPT0003650_1216	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
D1-17_01311	1038	hemE	COG0407	Uroporphyrinogen decarboxylase	ATGGACGGGCGCACTGCCGACTCGCCGCTTATCACCGCCTACCGGGGTGAAAAGCCCAGCCGCCGTCCGGTGTGGTTCATGCGCCAGGCCGGCCGGTCCCTGCCCGAGTACCTGAAGGTGCGCGAGGGTGTGGCCATGCTGGACTCGTGCCTGCGCCCTGAGCTTGCCGCAGAGATCACGCTGCAGCCTGTGCGCCGCCACGACGTCGATGCGGCAATATTTTTCTCCGACATCGTCATCCCGCTTAAGCTGGCCGGCGTCGCCGTGGACATCGTGCCGGGTGTGGGTCCGGTCCTGGGCAAGCCAGTTCGCACCGCAGCCGACGTCGCTGCCCTTCCCAAGCTCACCTGGGAGGCCTTGGAGCCCATTCGCGAAGCCGTCCGCCTGACGGTGGCCCAGCTGGGCAAGACCCCGCTCATCGGTTTCGCCGGAGCACCTTTTACGCTCGCCGCCTACATGGTCGAGGGGAAGCCGTCCCGCGACCACCTCGGCCCGCGCACGATGATGCACGCGGACCCGGAAACATGGAATGCCCTGGCCAACTGGGCCGCAGACGCCTCGGGGCTGTTCCTGCGGGCACAGCTCGAAGCAGGCGCGTCGGCCGGGCAGCTGTTCGATTCCTGGGCAGGCTCCCTTGGGCTGGCCGACTACAAGCGCTTCGTTGCGCCGGCGTCTGCCCGGGCGCTGGACCACGTGCGGCACCTCGGCGCGCCCCTGATCCATTTCGGCACGGGAACCTCCGAACTCCTCGTCGCGATGCGCGACATCGGCGTCGATGTGGTGGGCGTGGACTACCGGTTGCCGCTGGAGGAAGCGAACCGGCGCCTGGGCGGCGCAGTGCCCCTGCAGGGCAACATCGACCCCGCCCTCCTCTCGGCCCCCTGGGAGGTGCTTGAGGCCCACGTCCGTGAGGTCATTGCCTCCGGTGCATCGGCGCCCGGCCATGTCCTGAACCTCGGCCACGGCGTTCCCCCGGAAACGGACCCCGACGTGCTGACCCGCGTCGTTACGCTGATCCACTCCATTTCTCCGGAGTAA	MDGRTADSPLITAYRGEKPSRRPVWFMRQAGRSLPEYLKVREGVAMLDSCLRPELAAEITLQPVRRHDVDAAIFFSDIVIPLKLAGVAVDIVPGVGPVLGKPVRTAADVAALPKLTWEALEPIREAVRLTVAQLGKTPLIGFAGAPFTLAAYMVEGKPSRDHLGPRTMMHADPETWNALANWAADASGLFLRAQLEAGASAGQLFDSWAGSLGLADYKRFVAPASARALDHVRHLGAPLIHFGTGTSELLVAMRDIGVDVVGVDYRLPLEEANRRLGGAVPLQGNIDPALLSAPWEVLEAHVREVIASGASAPGHVLNLGHGVPPETDPDVLTRVVTLIHSISPE	PGPT0008465_3764	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
D1-17_01312	1536	hemY	COG1232	Protoporphyrinogen oxidase	GTGGAGGGGGCAAGCCCCGTAACGGGCGGCCGGACGGCTCTGGTAGTGGGCGGCGGCATGTCCGGTCTCCTTGCCGCCCGCGAGCTGGCGCAGGCCGGACTGGCGGTCACGCTGCTGGAAGCCACCGACTCCTGGGGCGGCTGCGTGGGCCGGCATGAGGTTGCCGGGCTCACCCTGGACAGCGGCGCGGAATCGTTCGCCACACGATCCAGCGCGGTGGCCGACCTGACCCGCGAACTGGGTCTCTCCGACGCGATCGTGTCCCCGCACCCCGGCGGCGCGTGGGTGCAGCTGCCGGACGGCGCACGTGAACTTCCCCGGACCGGCATCCTCGGAATTCCGGCAAACCCGTGGGATCCGGAGGTGCGCCGCTCGCTGGGATTCGCGGGGTCGCTGCGCGCGTCGCTGGACAGGTTCTTGCCGGCATCCCTGGGAACTGCCGCAGACGTCACGAGCGTCTCGGCCCTGGTCCGGACAAGAATGGGACAGCGCGTCCTCTCCCGGCTTGTGGAGCCGGTGGTTGGCGGCGTGCATTCGGCCGACCCCGCCCTTTTGGACGTGGACATGGTGGCGCCGGGGCTGCGCGCCGGAATTAGTAGACACGGCTCGCTGGCCGCCGCCGTAGCGGCGCAGCGCCGCACGCCTGCCCAGGATGGTGGCGAAGGTGCCGGCGGTGAGCGTGCCGGTGCAGCCAAGGCCGGGTCCGCCGTCGCCGGCCTGAAAGGCGGCATGCACACCCTGGTGGCCGCCCTCGTCGCTGACCTTCAGCAACGTGGAGTGAACCTCATCAGCGGGATCCGGGCCCGCTCCGCGGCACGGACCCCGGCCGGGTGGAGGGTCACCGCGGCCGCAGCCGGCGACGGCACGGGCGGCGCAGGTGACGGCACCGAAGAAAGTGAACAGACGTACGACGCCGGGGTGCTGGTGGTCGCGCTCGACGGTCCCGCCGCCGTCGGGCTGCTTGGGTCAGCGGTGCCGGCCCTTGCCGGTCACCGGCCGGCGCCCGGTCCCGAGGTCAAACTGGTGACGCTCGTGGTTGACCTCCCGGAGCTGGACAGCCGGCCGCGGGGAACGGGCGTCCTCGTCGCTCCGCAGACCCAGGGCATTCACGCCAAGGCCCTCACCCACGCGACGGCCAAGTGGGACTGGCTGGCGGCGGAAGCCGGACCTGGCCGGCACGTTGTCAGGCTGTCGTACGGCCGCCGCGACGGTACCGCGCCCGGCAGGAGCGACCAGGGTTCGCCCAACATTGCTGCCTTGCCGGATGCGGCGCTGCTGGAGCTTGCACTCCGGGATGCCTCGGCGCTGCTGACGGTGTCCGTCAGCGCGGACGTCCTTGTGGACTGGGACGTGGTCTCGTGGGCCGGTGCCCTGCCGTTCGCCGCGGTCGGGCACCGGCAGCGGGTGGCCGAGGTCCGCCGGATCTGCGGGGGCAGCGATGCGCCCGTGCTGGTGGGCGGGTGGCTCGCCGGGAACGGACTGGCAGCCGTGGTGGCAGACACCAGGCAGCAGCTGCGAACCTTCCTCGGGAAGTAG	MEGASPVTGGRTALVVGGGMSGLLAARELAQAGLAVTLLEATDSWGGCVGRHEVAGLTLDSGAESFATRSSAVADLTRELGLSDAIVSPHPGGAWVQLPDGARELPRTGILGIPANPWDPEVRRSLGFAGSLRASLDRFLPASLGTAADVTSVSALVRTRMGQRVLSRLVEPVVGGVHSADPALLDVDMVAPGLRAGISRHGSLAAAVAAQRRTPAQDGGEGAGGERAGAAKAGSAVAGLKGGMHTLVAALVADLQQRGVNLISGIRARSAARTPAGWRVTAAAAGDGTGGAGDGTEESEQTYDAGVLVVALDGPAAVGLLGSAVPALAGHRPAPGPEVKLVTLVVDLPELDSRPRGTGVLVAPQTQGIHAKALTHATAKWDWLAAEAGPGRHVVRLSYGRRDGTAPGRSDQGSPNIAALPDAALLELALRDASALLTVSVSADVLVDWDVVSWAGALPFAAVGHRQRVAEVRRICGGSDAPVLVGGWLAGNGLAAVVADTRQQLRTFLGK	PGPT0008475_462	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231	NA	NA
D1-17_01313	987			hypothetical protein	ATGGTCGATCAGAAGTCCGAGAACATTCGTACGCTGGCCGGTAACCATGGGGGACTTCGACGCGGCACGGCAGCCGCTGCGCTCGGAGCGGTTCTGGTCTTATCCGCAGGTGTGCCTGCATCCAACGCCGCTGCGCCGGCGTCGCTGACAGACGCAGGGGACAGAGTACGGTCCGACGCCGAGGCTGTTCCGGGTGCCGCCCCGCAGGCGGCTGTGGCCGTGAGCCAGGTCAAGGCCACAAGCGAGGTCAAAACCACGGTGGACGGGACGGTGAGTCTTGAAGCCTGGGCAGGCGCCATCCTTGGTGATGATGAGGACGACGACGGGTCTTCCGCCTCACCCGCACCGTCCGTCTCGCCCTCCAGCACGCCTGTGCCCGTTCCCACTGCGCCCGCGCCGACGCCGCCTGCAACGCCCCTTCCTGTGACTCCTACGACGTCGCCCACGACGTCGCCGGCTCCCGCGCCCGCTCCGCCGCCCACCAGCGCAGCCGCGTCCGGGACGTCCCCGTCTCAGACGTCGGCGCCGGCCCCTGCAGCGCCCCGGCCAGGCTACTCGCCGGCGGCTGGCGTTCCCGCGCCGGCGACCCGGCAGGCGCCGGCAGCGCAGTCCGGCGTAAGCCGGCTCGGACCTGCCGTCCAGCCGGCACCGGCGCAGCCGGCCGAGGCGCCGGCGGGGGTCCCGGTTCCGGCAACAGGTTCAGCAGCCGAAACGCCGGACCGCAGCGCCCAGAGCAAGCTGGACACAGCGACCTCGCGCCCCGGAGCCGCTGGCATCACCTCCGAAGTCTGGGGCTCGGGCCGCCTGTCCAGTCCCATGAACATGGGGACGGTGAATTCCCGGTACTCCATAAGCCGGCCAAGCAGCGCGGTTCTCAGCAGCACACAGTCCGGGCCCATTTCCCCCATGGTCTGGGCCGGAGCCGGGCTCGTGCTCCTGGCAGGGGCAGCTGGTTTGGTGGCCTACAAACTTCGCCGCGCGCTCTGA	MVDQKSENIRTLAGNHGGLRRGTAAAALGAVLVLSAGVPASNAAAPASLTDAGDRVRSDAEAVPGAAPQAAVAVSQVKATSEVKTTVDGTVSLEAWAGAILGDDEDDDGSSASPAPSVSPSSTPVPVPTAPAPTPPATPLPVTPTTSPTTSPAPAPAPPPTSAAASGTSPSQTSAPAPAAPRPGYSPAAGVPAPATRQAPAAQSGVSRLGPAVQPAPAQPAEAPAGVPVPATGSAAETPDRSAQSKLDTATSRPGAAGITSEVWGSGRLSSPMNMGTVNSRYSISRPSSAVLSSTQSGPISPMVWAGAGLVLLAGAAGLVAYKLRRAL				NA	NA	NA	NA	NA
D1-17_01314	702		COG3253	putative protein/MSMEI_2713	ATGAGCCACACTCCTGCCGAATCTGTCACCAAAACTGAAGAATCAGCCGAGCAGTTCTTCACCCTCTGGTCCGTCTTCAAGCGCTCCGCCGAGGTCCTCCGCAGCCCCGATGCCGCCGCGGACTTCGACGCCCTGCTCGCACGCCTGGCCGAGGGCGGCGTAACCCACCGCGGAAGCTACGACGTTTCCGCCATGCGTGCTGACGCCGACGTGATGGTGTGGCTGCACGGGCCCAAGCCCGAGGCGCTGCAGCAGGCCATCCGGGACATTCGCCGCAGCAAGCTGTTCGCGGGAACAGAACTCGTCTGGTCTGCCATGGGTGTCCACCGTGAAGCTGAGTTCGCAAAGAACCACACCCCTGCATTCTCCCGCAATGTGGCGCCGGCAGAGTGGCTCTGCGTGTACCCGTTCGTCCGCTCCTACGAGTGGTACCTGCTGCCGGAGGAAGAACGCGGCAAGATGCTGCGTGACCACGGCCTGCTCGGCCGTGACTTCCCGCAGGTCATCTCCAACACGGTCTCGTCGTTCGCGCTGGGCGATTGGGAATGGATCCTGGGACTGGAAGCCCCCGAGCTCGTGGACCTGGTGGACCTGATGCGCCACCTGCGCGCCACTGAGGCGCGCAACCATGTCCGGGAGGAAATTCCGTTCTACACCGGCCGCCGCATCACGGCCAAGGAGATCGCCGAGGTCCTGACGTGA	MSHTPAESVTKTEESAEQFFTLWSVFKRSAEVLRSPDAAADFDALLARLAEGGVTHRGSYDVSAMRADADVMVWLHGPKPEALQQAIRDIRRSKLFAGTELVWSAMGVHREAEFAKNHTPAFSRNVAPAEWLCVYPFVRSYEWYLLPEEERGKMLRDHGLLGRDFPQVISNTVSSFALGDWEWILGLEAPELVDLVDLMRHLRATEARNHVREEIPFYTGRRITAKEIAEVLT	PGPT0008490_590	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435	NA	NA
D1-17_01315	1242	hemH		Ferrochelatase	GTGAGCCTGCTGGACCCCCAGGAATCCTTTGCAGCGGTGAACCCCGTGACGGAAGCCGGCAGGATGGCGCCGAAGGAATACGACGCCGTTCTTCTCGCCTCCTTCGGGGGACCGGAAGGCCAGGAGGACGTCATTCCCTTCCTGCGCAATGTCACCCGCGGCCGGGGCATCCCGGATGAGCGGCTGGAAGAGGTTTCCCACCATTACCGGGCCAACGGCGGCATCAGCCCGATCAACCAGCAGAACCGCGAACTCAAGGCGGCGCTGGAAGCCGAGCTCGCCGCACGCGGGATCGACATGCCGGTGCTGTGGGGCAACAGGAACTGGGACCCCTACATCCCGCAGGCCCTCCGGGACGCGTACGACGCCGGGCACCGCAGGCTGCTGATGATCACCACGAGCGCGTACTCCTGTTACTCCAGCTGCCGTCAGTACCGAGAGGATATCGGCATGGCGTTGACGGAGACGGGCCTGGATGGCCGGCTCGAGGTGGACAAGGTGCGCCAGTACTTCGACCACCCCGGGTTCGTGGAACCCTTCGTGGAAGGCACTGCCGCCGGGATCGCGGATGTGCGGGCCCAGCTGGCGGCCGCAGGATCTCCCGAGGCTCCCCTTCACGTCATCTTTGCCACGCACTCCATCCCTACCAGGGATGCCGAGGCCGCCGGAAAGTCGCCGGAGGAACCCCGCGAATTCGCCGAGGGCTCGGCCTACGTTGCCCAGCACCTGGCCACGGGCGCGGAAGTGATGAGCCGCGTGGAAGAAGTATCGGGCCTTTCGGCGCCTTGGTCCCTGGTCTACCAGTCGCGGTCCGGCGCGCCGCACATTCCCTGGCTCGAACCCGACATCAACGACGCCATCGAAGAACTCTCTGCCCAAGGTGTCAAAGGCGTGGTGATTGTCCCGCTGGGCTTCGTCAGCGACCACATGGAGGTCGTCTGGGACCTTGACACGGAAGCGCTGGAGACCTGCGCAAACCTTGGACTTGCAGCGACCCGTGTCCCGACTCCCGGCACGCACCGCAGCTTCGTCAACGGACTCGTGGATCTCATTTGCGAACGTACCGTGGCGAACAACATCGCCGACCGCCTGGCTGTCACTGACCTGGGGCCCTGGTACGACGTCTGCCGTCCTGGCTGCTGCGAGAACTTCCGCGGTGAAAAGCCGACTATCGCCGGCGCCGATACCAACGTGGGCACAGGCCATGACCCCTACCCGGCCTCGGGGCAGGGCGCGAAGTGA	MSLLDPQESFAAVNPVTEAGRMAPKEYDAVLLASFGGPEGQEDVIPFLRNVTRGRGIPDERLEEVSHHYRANGGISPINQQNRELKAALEAELAARGIDMPVLWGNRNWDPYIPQALRDAYDAGHRRLLMITTSAYSCYSSCRQYREDIGMALTETGLDGRLEVDKVRQYFDHPGFVEPFVEGTAAGIADVRAQLAAAGSPEAPLHVIFATHSIPTRDAEAAGKSPEEPREFAEGSAYVAQHLATGAEVMSRVEEVSGLSAPWSLVYQSRSGAPHIPWLEPDINDAIEELSAQGVKGVVIVPLGFVSDHMEVVWDLDTEALETCANLGLAATRVPTPGTHRSFVNGLVDLICERTVANNIADRLAVTDLGPWYDVCRPGCCENFRGEKPTIAGADTNVGTGHDPYPASGQGAK	PGPT0008485_523	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008485-hemH|ywfI-K01772	NA	NA
D1-17_01316	999	hemC	COG0181	Porphobilinogen deaminase	GTGACTGTCCGTATCGGCACGCGGGCCAGCAAACTGGCGCTCACTCAGACTCAGCAGACCGCCGACCTGCTGGCCGGCGTCGGCGGTTTTGCCGTGGAACTGGTGCACATCAGGACAGAGGGCGACGTCCTTAGGGGGTCCCTGTCGCAAATGGGCGGCACGGGAGTCTTCGTAGCGGCGCTCCGCGACGCCCTGCTGCGGGACGAGTGCGACGTTGCCGTGCACTCACTGAAGGACCTTCCCACGGGTCCGGCTGCCGGCCTGGTGCTGGCGGCGACACCACCACGGGTGGATGTCCGCGACGTCCTCTGCGCACGCGACGGATTCAAGCTGGCCGATCTTCCCCGTGGTGCACGGGTGGGGACCGGTTCGCCGCGGCGGGCCGCGCAGCTGCGTGCTGTCCGCCCGGACCTGGAAATCGTGGACATCCGAGGCAATGTGGACACGCGCCTTGGACGTGTTCCCGGCCTGCCCGGGAACACTACGGATGCCGTGGTGGAGGGTAAAACGGGTGACCTGGACGCCGTGATTCTGGCTGCCGCCGGCCTGGAGCGCATCGGCCGCCTGGACACGGTGACCGAATTTCTGGAAACCGATGTCATGCTCCCCGCCGCCGGGCAGGGGTCCCTGGCGATCGAGTGCCGGACCGCTGACGCCCCCGCCCGGGCAGGGTCCGCCGAGGGATCGCAGGGCGCCCTGGCGCAGGCGCTGGCCGCTGTCAATGACCAGGACACACGACTGGCTGTCACAGCTGAGCGTGCGCTCCTTGCCCGGCTCGAGGCCGGCTGTGCCGCGCCCGTGGGAGCCTACGCCTACCGCAAGGGCAGCATGCTGCACCTTGAGGCCGTGGTCTGCGCCGTTGACGGGACCGCTACAGTACGGGACAAGCGTGCTACGGACGGACTGACCGAGGTCGGTGCCACACTGCTGGGCATCGAGCTGGCCGAGGTCCTCCTTGCCGCCGGGGCCGGTGACATCGCGGACCTCACCGCGTCCTGA	MTVRIGTRASKLALTQTQQTADLLAGVGGFAVELVHIRTEGDVLRGSLSQMGGTGVFVAALRDALLRDECDVAVHSLKDLPTGPAAGLVLAATPPRVDVRDVLCARDGFKLADLPRGARVGTGSPRRAAQLRAVRPDLEIVDIRGNVDTRLGRVPGLPGNTTDAVVEGKTGDLDAVILAAAGLERIGRLDTVTEFLETDVMLPAAGQGSLAIECRTADAPARAGSAEGSQGALAQALAAVNDQDTRLAVTAERALLARLEAGCAAPVGAYAYRKGSMLHLEAVVCAVDGTATVRDKRATDGLTEVGATLLGIELAEVLLAAGAGDIADLTAS	PGPT0003660_1061	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
D1-17_01317	1038			hypothetical protein	ATGGAACGAAGGGACGAGGATCCGGCCGCTGGCCGTGCCATGGCCCGGCATGGCCAGCGCCCTGCCGGCCATCGCCCCCTTGAGGGCCAGCGCGTCCTGGTCACCCGCAGCCCGGACCGTGCGGGACCGCTGGCCGCCCAGCTTCGGCAGGCCGGCGCCGAGCCTCTCCTGCTTCCGCTCAAGGACTTCGAACGGGCCCGGGACCAGGCAGCGCTTGGTGATGCCTTTGAAGCCCTCGGCGCAGGGCGCTATCAATGGCTCGTGGTCAGCAGCGTCACCACGGTCCTGGCGCTGCAGGACCAGGCTGCCGCCCGCCGGGCATCCCTGAATGAATGGATTCCGGGGTCAACCTGCGTGGCTGCGGTGGGCCCGGCTACCCGCAGGGCTCTTGAGGCCGCCGGCATCAGCGTGCACGTCATGCCGCCACACGAGCACTCGGCGGCGGGCCTGATCAGGGAATGGCCCGAGGGCCATGCCTTGGTGTTGCTGCCACAGGCGGACATCGCCGCACCCGCCCTCGCCGCCGGGCTCAGCGCCAAGGGGGCGGAAGTTCAAACCGTGGTGGCGTATCACACCGTCGACTACCCGGCAGATCCGGACCGGCGCCTGGCCGCAGCCACTGCCGACCAGGCGTTACCCGGCAAAGAGCTCTCCGGTCAGGCGTTTTCCGGTCAGGCGTTTCCCGGCGGTGCGTTTCCCGGCGCAGCCGATGCAGGAGCTGTGAGGACGCTCACGCCTGCCGAGGCCAAGGCCGCCATCACCGACGGCGGGATTGCCGCCGTCGTCGCCGCTTCACCCAGCGCCGCCCGCCGGATTAGCGCAGCCCTTTCCCCTCTGGGAGTTTGCCGCTTTGTCGCCATCGGCAAGGCCACCGCCGCAGCAGCAGAGACGCTGGGCCTCACTGTTGCCGCCACCGCCCGCGAGGCCACTCCTGAGGAGCTCGTGGCCGCTGTCTTAAGGGCCGTGCAGCCGGTCGCACCAGAAAACACAGACCTCCCGGAAAGTCCGGACGATTCATCAGCATCAGGCCCCCAGTGA	MERRDEDPAAGRAMARHGQRPAGHRPLEGQRVLVTRSPDRAGPLAAQLRQAGAEPLLLPLKDFERARDQAALGDAFEALGAGRYQWLVVSSVTTVLALQDQAAARRASLNEWIPGSTCVAAVGPATRRALEAAGISVHVMPPHEHSAAGLIREWPEGHALVLLPQADIAAPALAAGLSAKGAEVQTVVAYHTVDYPADPDRRLAAATADQALPGKELSGQAFSGQAFPGGAFPGAADAGAVRTLTPAEAKAAITDGGIAAVVAASPSAARRISAALSPLGVCRFVAIGKATAAAAETLGLTVAATAREATPEELVAAVLRAVQPVAPENTDLPESPDDSSASGPQ	PGPT0003665_693	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
D1-17_01318	981	hemB	COG0113	Delta-aminolevulinic acid dehydratase	ATGAGCTTTCCGAACCACCGCCCCCGGCGGCTCCGCACCACCCCAGCCATGCGCAGGCTCGCCGCAGAGAACCGTCTCACCGCCGCAGAGCTGATCCTCCCCGCCTTCATCCGGGAGGGGCTCTCCGAACCCAACCCGATCGGGTCCATGCCCGGGGTGGTGCAGCACACCACGGACACGCTGAAAAGGGCGGCCTCTGAAGCCGTGGAACTCGGCGTGGGGGGCATCATGCTGTTCGGTATCCCCGCACGCCGTGATGCTGAGGGCACGGCATCCCTCGACCCCGACGGGGTCCTCAACAAAGCCATCCGCGACGTCCGCGCCGAGGTCGGTGAAGACCTCGTGATCATGAGCGATGTCTGCCTGGACGAATTCACTGACCACGGGCACTGCGGCGTGCTGGGTCGCGACGGTTATGTGGACAACGACGCCACCCTGGACATCTACGCCAAGATGGCGGTGGCCCAGGCCGACGCTGGTGCCCACGTCCTGGGTCCCTCGGGCATGATGGACGGTCAGATCGGCGTCATCCGACATGCTCTCGAGGATGCAGGACATGTCAACACGGCCGTCATTGCGTACGCGGCAAAATACGCATCGGCGTTCTACGGGCCCTTTCGGGAGGCGGTGGATTCGCAGCTGAAGGGGGACCGCCGGACCTACCAGATGGACGCGGCCAACCGCCGGGAGGCCATCCAGGAAGTGGAACTGGACCTTGCCGAAGGCGCGGACATGGTGATGGTCAAACCCGCCATGAGCTATCTGGACATCCTGCGGGACGTCGCAGAGATGAGCCCGGTCCCTGTGGCCGCCTACCAGATCTCCGGGGAGTACGCCATGATCGAGGCGGCAGCGGCAAACGGTTGGATCGACCGCCGCGCCGCCGTCACCGAATCAGTCCTGGGCATCCGCCGCGCAGGCGCCAACATGGTCCTCACCTACTGGGCGAGCGAGCTCGCCGGCTGGCTGCGGGAGGCCTGA	MSFPNHRPRRLRTTPAMRRLAAENRLTAAELILPAFIREGLSEPNPIGSMPGVVQHTTDTLKRAASEAVELGVGGIMLFGIPARRDAEGTASLDPDGVLNKAIRDVRAEVGEDLVIMSDVCLDEFTDHGHCGVLGRDGYVDNDATLDIYAKMAVAQADAGAHVLGPSGMMDGQIGVIRHALEDAGHVNTAVIAYAAKYASAFYGPFREAVDSQLKGDRRTYQMDAANRREAIQEVELDLAEGADMVMVKPAMSYLDILRDVAEMSPVPVAAYQISGEYAMIEAAAANGWIDRRAAVTESVLGIRRAGANMVLTYWASELAGWLREA	PGPT0003655_3444	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
D1-17_01319	1119	limB		Limonene 1,2-monooxygenase	ATGGGCGAAGCGCCGCAGGATTCCCCGCCGCATAATTCCCCGGCGAACGGCCCTGCAAGTGGGAACCCCACCCGGCCGGAGGGGCCCGAGCGGATCCTCCTGGGGCTGAACACCTTCGGGGACACCGGAACCGGTCCGGATGGGCAGCCGCTGGCGCACGCTGTCGTCCTGCGGCAGCTGCTTGAACAGGCGGAGCTGGCTGACACTGTCGGGCTTCACGCATTTGCCGTGGGGGAGCACCACCGCCGGGATTTCGCGGTCTCCGCACCCGAGGTCTTTCTGGCGGCCGCGGCCGCCAGGACCCGGCAGATCAGACTCGGTTCCGCCGTGACCGTCCTGAGCTCCGATGATCCCATCCGCGTCTTCCAACGCTTCTCCACCCTGGATGCCCTGTCCAATGGACGCGCCGAAGTGATGCTGGGACGGGGTTCCTTTATCGAATCCTTTCCCCTGTTCGGCTTCGACCTCGCCGACTACGAGCTGCTCTTCGAGGAGAAGCTTGAACTGTTCCACCGGGTCCGGTCGCAGAAGCCCGTGCACTGGGAGGGCCGCACCCGGCCGGCGCTGAATGGACTGAACGTCTATCCGCATCTGGAACACCATCTGCTGCCCACTTGGATCGGAGTGGGCGGCACGCCCGAATCCGTGCTGCGCTGCGCCGAATACGGCTATCCCATCATCTTTGCGATCATCGGCGGGCAGCCGAGGTCCTTCGTGCCGCTGGCCAATCTCTACCGGGAGGCTATGGCCAAGTACGGCCACCCACTGCAGCAGATGGCCACACACTCTCCCGGACACGTCGCTGCCACCGATGAGGAAGCACGCGAGGAGTACTTCCCGCACTGGCTCGAACTGCGGAATAGGATCGGCGCCGAGCGGGGCTGGGGCCCGGCCAGCAGGAGCGAGTTCGACGCCATGTGCCTGCCTGAAGGTGCCCTGTACGTGGGCTCGCCCGAAACGGTGGCCCGGAAGATTGTCCGGCTCAAGCACAGTCTTGGCGTGGACCGGTTCGACCTGAAATACAGCAGCGGGTCCCTGCCACACTCCGCCATGATGCGCTCCATCGAGCTGTTTGGTACGGCCGTGGCACCGCGCGTCAACGAACTCCTGAAAGAATAG	MGEAPQDSPPHNSPANGPASGNPTRPEGPERILLGLNTFGDTGTGPDGQPLAHAVVLRQLLEQAELADTVGLHAFAVGEHHRRDFAVSAPEVFLAAAAARTRQIRLGSAVTVLSSDDPIRVFQRFSTLDALSNGRAEVMLGRGSFIESFPLFGFDLADYELLFEEKLELFHRVRSQKPVHWEGRTRPALNGLNVYPHLEHHLLPTWIGVGGTPESVLRCAEYGYPIIFAIIGGQPRSFVPLANLYREAMAKYGHPLQQMATHSPGHVAATDEEAREEYFPHWLELRNRIGAERGWGPASRSEFDAMCLPEGALYVGSPETVARKIVRLKHSLGVDRFDLKYSSGSLPHSAMMRSIELFGTAVAPRVNELLKE				NA	NA	NA	NA	NA
D1-17_01320	1332	hemL	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGACTTCCAGCCTGCCTCACAACGATGAACTTTTCGCCCGCGCCCGCCAGCTCATGCCGGGCGGCGTCAATTCCCCGGTCCGTGCTTTCGGCTCTGTTGGCGGCACCCCCCGCTTTATGGTCGCAGCCCGGGGCCCTTACCTGACGGACGCCGACGGCAACGAATACGTTGACCTTGTCTGCTCTTGGGGCCCGGCGCTGCTCGGTCACGCGCACCCTGCCGTCCTTGAGGCCGTCCACGCGGCGGTGGACCGGGGCCTGTCGTTCGGCGCCTCCACGCCTGACGAGGCCAACCTGGCGTCCATCGTGATGGAACGCGTTTCGGCCGTCGAACGCATCCGCATGGTGTCCACGGGCACCGAAGCGACAATGACGGCGATCCGGCTGGCCCGGGGTTTCACTGGCCGCAACCTCGTGATCAAGTTCGCAGGCTGCTATCACGGCCACCTCGACGGACTGCTTGCCTCTGCCGGCTCGGGTGTCGCCACCCTCGCCCTGCCCGGGTCCGCAGGAGTCACGGCCGCCACCGCCGCCGAGACGCTGGTCCTCCCATACAACGACCTCGACGCCGTCGAAGCTGCGTTCGCCGAGCACGGCCCCAACATTGCTGCCGTCATCACCGAGGCCGCCCCGGCCAACATGGGCGTCGTCACTCCGGGTGAAGGTTTCAACGCGGGGCTGTCCCGCATCACCGCTGCCCACGGGGCGCTGCTCATCGTTGACGAGGTGCTCACCGGTTTCCGCACCGGCTACGCCGGCTACTGGGGCCTCACTGGCGGGGCAGCGGACTCCGGGGAGCAGTGGATCCCGGACCTCCTCACCTTTGGAAAAGTGATTGGCGGCGGAATGCCGACGGCGGCCCTCGGCGGCCGTGCCGACGTCATGGACTACCTCGCGCCCGTCGGCCCGGTCTACCAGGCGGGGACCTTGTCCGGTAACCCGGTGGCCATGGCCGCGGGCGTGGCCACACTGACGAACGCCACCCGCGAGGTCTACTCCTTCGTCGACGCACGGTCGCTGGAGCTGTCCTCCGCGCTGTCCGCAGCCTTGGACGCGGCAGGTGTGGACCACTCGATCCAGCGCGCCGGCAACCTGTTCTCGGTGGCGTTCGGCACCTCCGAGCACGGTGTCCACAACTACAGCGACGCCCAGAAGCAGGAGGCATTCCGCTACGCACCGTTCTTCCACTCCATGCTGGAGTCCGGGGTCTACCTCCCGCCGTCCGTCTTCGAAGCCTGGTTCCTCTCGGCCGCCCACGACGACGCCGCGATGAACAGGATTTTCGACGCGCTGCCGGCCGCCGCGAAGGCGGCTGCAGCAGCAAAGGCCTGA	MTSSLPHNDELFARARQLMPGGVNSPVRAFGSVGGTPRFMVAARGPYLTDADGNEYVDLVCSWGPALLGHAHPAVLEAVHAAVDRGLSFGASTPDEANLASIVMERVSAVERIRMVSTGTEATMTAIRLARGFTGRNLVIKFAGCYHGHLDGLLASAGSGVATLALPGSAGVTAATAAETLVLPYNDLDAVEAAFAEHGPNIAAVITEAAPANMGVVTPGEGFNAGLSRITAAHGALLIVDEVLTGFRTGYAGYWGLTGGAADSGEQWIPDLLTFGKVIGGGMPTAALGGRADVMDYLAPVGPVYQAGTLSGNPVAMAAGVATLTNATREVYSFVDARSLELSSALSAALDAAGVDHSIQRAGNLFSVAFGTSEHGVHNYSDAQKQEAFRYAPFFHSMLESGVYLPPSVFEAWFLSAAHDDAAMNRIFDALPAAAKAAAAAKA	PGPT0003680_1411	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
D1-17_01321	846	metQ	COG1464	Methionine-binding lipoprotein MetQ	ATGCGTAAGAAACTCACCCTCCTCGCCACCGGCATTGCCGCTGCCTTGGCACTGACCGGCTGCGGCGGCGGATCCTCCGCCCCGAGTGCAGAGACCCAAACGCTGGACCCGGCAAAGCCGGCTACCCTCAGCGTCGGTGCAAGCCCGGTGCCCCAGGCCAAGATCCTTGAGTTCATCAACCAGGACCTCGCTCCCAAGGCCGGCCTCAAGCTGGACATCAAGGAGATCGAGGACTACCAGACGCCGAATACCGCACTGAGCGACGGCTCGCTGGACGCGAACTACTACCAGCACCTGCCGTGGTTCGAAGACCAGGTCAAGACCAAGGGGTACAAGTTCGGCCACGGCGAAGGCGTGCACATCGAGCCTTACGCCGCGTTCTCTGAGAAGGTCAAGGACATCAGCGAGATCAAGGATGGCGCCAAGATCGCCATCACCAATGATCCCTCCAACCAGGTCCGCGCCCTTCGTGTCCTCGAAAAGGCCGGCCTCGTGAAGGACATTAAGGACGACAGCTCCGTCATCACACTGACCGATGAGCAGAATCCGAAGAAGCTCAAGTTCTCCGAGAACCAGCCGGAACTGCTGATCAACGACCTCAAGGACCCGTCTGTGGACCTGGCGCTCATCAACGGCAACTTCATCTTGAAGGCAGGCCTCAGCACCCAGGACGCCCTGGCCGTGGAGTCCACCGAGAACAACCCTTACGCGAACTTCCTGGCATGGCGCGAGGAGTCCAAGGACGATCCCCGCATTAAGAAGCTTGAGGAACTCCTGCACTCCCCCGAGGTCAAGGCCTTCATCGAGAAGGAATGGCCCAACGGTGACGTGACCGTGGCCTTCTAG	MRKKLTLLATGIAAALALTGCGGGSSAPSAETQTLDPAKPATLSVGASPVPQAKILEFINQDLAPKAGLKLDIKEIEDYQTPNTALSDGSLDANYYQHLPWFEDQVKTKGYKFGHGEGVHIEPYAAFSEKVKDISEIKDGAKIAITNDPSNQVRALRVLEKAGLVKDIKDDSSVITLTDEQNPKKLKFSENQPELLINDLKDPSVDLALINGNFILKAGLSTQDALAVESTENNPYANFLAWREESKDDPRIKKLEELLHSPEVKAFIEKEWPNGDVTVAF	PGPT0020510_1444	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
D1-17_01322	672	metI	COG2011	D-methionine transport system permease protein MetI	GTGAACGAGATATTCAGCAACCCCGTCCTGGCCAAAGCCCTGCCCGAAGCAATTGTTGAGACGCTTCAGATGGTCGCCATCTCCGGTTTCTTCACGGTGCTCATAGGATTGCCGCTGGGGGTCTTCCTGCACACCACGGCGCCGGGCGGGCTGCGGCCCATGCCCGTGATTAACCGCATCGTCAGCGACGTCGTCGTCAACATCACCCGCTCCATCCCCTTCGCCATCCTCATGGTGGCTCTGATCCCGCTGGCCCGATTGCTCGTGGGGACCAGCCTGGGCCCGGTGGCAGCTTCGGTTTCACTCTCCATCGGCACCATCCCCTTCTTTGCCCGTCTGGTTGAAGCCTGTCTGCGCGATGTCCACCATGGGAAAATCGACGCCGCGCAGGTGATGGGCTCCACGAAGATGCAGGTTATTAACAAGGTGATGTTGCCGGAGTCCCTTCCGGCCCTCGTGGCGGCCACAACCACTACCGTGGTTACCTTGGTCGGCTACAGCGCCATGGCCGGCCTTGTCGGCGGCGGCGGGCTGGGAAAGCTCGCGTACAACTATGGATTCCAACGCTTCGACGTCACGGTCATGCTCGTTACCATCGTGCTGATCATCGTGCTGGTTCAGGTCATCCAGCTGACGGGTGAACGGATCGCCCGCAGCCTTGACCACCGCTGA	MNEIFSNPVLAKALPEAIVETLQMVAISGFFTVLIGLPLGVFLHTTAPGGLRPMPVINRIVSDVVVNITRSIPFAILMVALIPLARLLVGTSLGPVAASVSLSIGTIPFFARLVEACLRDVHHGKIDAAQVMGSTKMQVINKVMLPESLPALVAATTTTVVTLVGYSAMAGLVGGGGLGKLAYNYGFQRFDVTVMLVTIVLIIVLVQVIQLTGERIARSLDHR	PGPT0020515_1575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
D1-17_01323	1068	metN_1	COG1135	Methionine import ATP-binding protein MetN	ATGATCACAGTTACTGACCTGCGCAAGGTCTACCGTCAGGGGAAGAAGGAAGTTGTGGCCCTTGACGGGGTATCACTCTCCGTCCCCAAAGGCTCCATCCATGGCATCATCGGCCATTCCGGAGCGGGTAAGTCCACGCTGGTCCGGTGCCTCACGTTGCTCGACCGCCCAACGTCGGGTTCTGTCAGCATCGACGGCACTGAGCTCAGCTCGGTTAAGGACTCCGAGATCCGCGCGGCGCGGCGCCGGATCGGCATGGTGTTCCAGCACGCCAACCTCATGGATTCCCGCACTGCAGCAGGCAACGTGGCGCATCCGCTCGAGCTGGTCAAGACCCCTAAGGACAAAGTCCGGACCAAGGTTGCGGAGCTGCTGAAGCTCGTCGGCCTGGAGGGTTTCGAAAACGCGTACCCGTCCCAGCTATCCGGCGGCCAGCGCCAGCGCGTGGGTATTGCCCGTGCCTTGGCGTCCGACCCCGACGTCCTGCTGTGTGACGAACCGACGTCCGCGCTGGACCCGGCTACAACCGACGAAATTCTGGACCTCATCCAGGACCTGACCCGGCGCCTACAGCTCACCGTGCTGATCATCACCCATGAGATGCACGTCGTTAAGCGTGTTTGTGGTTCGGTGTCGCTGCTGGCCAAGGGCCGCGTCGTGGAGGCGGGCAGGCTGGAAGATGTAGCAGCCGAGCTCGACAGCAAGCTGGCCCGCGCCCTGCTGCCGCTGCCGGCGTCGGAGACTATTAAGGGAGACCTCCAGAACGGTCCCGTGCTGGAGATTCTGTTCTCGGGCGACAGCGCCAAGGAACCGGTTCTCACGAGCGTAGCGAGGCATTTCGATATCGATCTGAATGTCCTGGCCGGGAGCGTGGAGACGCTCGGCGGCCACCAGTTCGGACACCTGCGGGTCCAGTTGGCGGACCACGCAGACTACGACGCAGTGCTTGCGTATCTCCATGACCGCGGGATCAGTGCGAAACTGGCCTCCGGCGATGGCCGCCAGTCCCGGCAGGATGAATTCGCCGAAATATCCGACCTCGCCGCTGAGACGGGAGACTTCAAGTGA	MITVTDLRKVYRQGKKEVVALDGVSLSVPKGSIHGIIGHSGAGKSTLVRCLTLLDRPTSGSVSIDGTELSSVKDSEIRAARRRIGMVFQHANLMDSRTAAGNVAHPLELVKTPKDKVRTKVAELLKLVGLEGFENAYPSQLSGGQRQRVGIARALASDPDVLLCDEPTSALDPATTDEILDLIQDLTRRLQLTVLIITHEMHVVKRVCGSVSLLAKGRVVEAGRLEDVAAELDSKLARALLPLPASETIKGDLQNGPVLEILFSGDSAKEPVLTSVARHFDIDLNVLAGSVETLGGHQFGHLRVQLADHADYDAVLAYLHDRGISAKLASGDGRQSRQDEFAEISDLAAETGDFK	PGPT0020520_684	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
D1-17_01324	711	dinG_1		3'-5' exonuclease DinG	ATGAGCACCTGGAACACCCTCCCGCGGGCAGCCTTCGACCTCGAAACCACCGGCCGCAATTCCCGTGCGGCGAGAATCGTGACTGCGTCAGTGACCGTAGTGGATGGCGCCGGAGAAGTCATGCAGGAACATGAGTGGCTGGCTGACCCGGGGGTCGAGATTCCGACTGAGGCAAGCGACATTCACGGGATTACCACGGAACATGCCCGCAGTAGCGGCAGGCCCGCCGCGGAGGTAACGCGGGAAGTTGCCGCGGTGCTTCAGGGCCTGTTTGACTCGGGTGTGCCGGTGATTGCCTTCAACGCCAGCTATGACTTCACGGTACTGGCCGCCGAGTCGGCCCGCTATGGGGTTCCCCAGCTCACCAGGTTCCCGGTGCTGGATCCCTACATCATGAACAAGCAGGTGGACCGGTACCGCAAGGGCAAGCGGACGCTCACGGCACTGTGCGAGGAATACGGCGTGAATCTGGAGAATGCCCACACGTCCGCTGCAGACGCGTTAGCCACCCTCCGCGTGCTCGATGCGATGGCTGGTAAGTTCCCAAAGCTGCAGGTGCCGGCAAGCCAGCTGCACCAACTCCAGGTCGACTGGGCGGTCAGTCAGGCAGCGGACTTCCAGCAATATCTCCGCAAGACGAAACCAGCCGCAGTCATCGAGGGCGATTGGCCGGTGCTGCCTCCGGAAGACGCCAGCCGGGGAGATTTTTAG	MSTWNTLPRAAFDLETTGRNSRAARIVTASVTVVDGAGEVMQEHEWLADPGVEIPTEASDIHGITTEHARSSGRPAAEVTREVAAVLQGLFDSGVPVIAFNASYDFTVLAAESARYGVPQLTRFPVLDPYIMNKQVDRYRKGKRTLTALCEEYGVNLENAHTSAADALATLRVLDAMAGKFPKLQVPASQLHQLQVDWAVSQAADFQQYLRKTKPAAVIEGDWPVLPPEDASRGDF				NA	NA	NA	NA	NA
D1-17_01325	417			hypothetical protein	ATGCGGGTGAAGTATGTCGAGGCGGTGCTGGAGGTAGTGGAACGCATCCCGTTCGGTGCGGTGCTGTCCTATGGCGACGTGGCAGAGCTGCTGGGCGCCGGAGGGGCGCGGCAGGTCGGCACGGCCATGAGCCGTTATGGAAGCACGGTTCCCTGGTGGCGTGTCCTCCGGGCGGGAGGCTACGCTCCGAAAGGGCTCGAGGCGGAAGCCCTGGCCCATTATCTGCAGGAAGGAACGCCGTTGCGCGGAGACTACCTGCGGTTCGCCGAATCGGGTGAGGGCAGGTGGCGTGTGGATTTGGCGGCGGCGCGCTGGGCGCCATCGGAGGCTGACTTTGACGCACTGGACTCGATTGCTGAGCACCTCGAGACGTCGGTGCGTAAATTGTCCGTGGCAAATGATGGAATGACTGAGTGA	MRVKYVEAVLEVVERIPFGAVLSYGDVAELLGAGGARQVGTAMSRYGSTVPWWRVLRAGGYAPKGLEAEALAHYLQEGTPLRGDYLRFAESGEGRWRVDLAAARWAPSEADFDALDSIAEHLETSVRKLSVANDGMTE				NA	NA	NA	NA	NA
D1-17_01326	3483	rep_1		ATP-dependent DNA helicase Rep	GTGACCGCAACTATCCAGCAGACCCCACCGCTGTTCTCCGAGAGCGGGGTGCCCGGGGAGTCCCTCGCAGCCGGCCAGCCGGCGCCCGGGGCAGGTCTCCGGCTTTTAGCGCCCCGACAGATTCACACCGCTGGTCCGGTCCTGTCGGCTGACCAGCTCGCCGCAGTCCAAGTACCTGCGGGCACGGGCCCGGTGCTGGTCCCGGGTGCGCCGGGCACCGGCAAATCCACAGTCCTGGTAGAGGCAGCGGTACACCGCGTGGAAACGGCTGGCACAGATCCGGAGCGGATTCTGATCCTTGCCCCGGGACGCCTGGCCGCAGACGCGTTGCGCGACAGGTTCACTGCCCGCCTGAACCGCAGCCTGAGCACCACGCCCGCCCGGACGTGGGCCTCCTACGGTTTTGACCTCATCCGCCGGGCAAAAGCGGAAGGGATCCTGCCGATGCCCCGCGCTCCACGCCTGCTGTCCGGGCCCGAGCAGGACCTCATTATCAAAGAGCTCCTGGACGGCCATGCACTCCCCGGACTCGGCCTGCCGTGGCCAGAGGATCTTGCTGCGGCCCTGCCCACCCGTGGCTTCCGGCAGGAAGTCCGGCAGCTGTTCGACCGCATTATCGAATCCGGCCGGACTCCGCAGGACCTGGCAAGGCTGGGAAACGAATGCGGCCGTCCGGACTGGGTCACAGCCGCCGCTCTGTATGCCGAATACCGCGACGTCCTTGACCTGCGCATGCCGGAGGCCTTTGATCCCGCCGGTATCATCACTGCCGCCCGCCAGTTGTTTCAGGATTCGCCGGACTTCCTGGCGGCCGAACGGGAACGGCTCCAACTGATCCTCGTCGACGATATTCAGGAAGCCAACCCGGCTGTCTTCGAGCTGCTGGCCGACATCGCCGCAGGCAAGGATTCCTTCGTCACCTCCTCACCCGACACCGTTGTCCAAGGGTTCCGCGGCGCGCGTCCGGACCTCGTGGCCGAACTGCCGCGTCTGCTGGCCGGTGACGGCTCCGATGAAGTTTGCGAGCGGCCACTCCGGTACGCGCATAGACAGCACCCTGCACTGGCGAAGGCCTGGCTGGGAGTAGCCGACCGGATTTCCCTGCGTGCCGGCGGGCAATTCGCCCGTCGTCTCGATGACCCTGACTCCGTCGATCCCGACCCCGGCAATCCTGACCCTGTAACCCGGCAGAACCCGGATGAGAAGCCTGCTGAGCTGCAGCCGGGCGGGCAGGAGCTTTCAGGACATGGGCCGGCCGCCCAGGAGAGCAGGGCCGGCGGCACGGTCGAGGCGCATCTGTTGCCGTCGCCGGTCCACGAGCTGCGGTATGTGGCCCAGCGGATTCTGGAAGCCCACATCGCCGACGGCCGCGACCTAGCCGACATGGCAGTCCTCGTCCGCAACGGCGGCCAGCTAAGCCAGCTCCAGCGCTATCTTTCCGGGCAGGGTATTCCGGTGCGGATCCCGGTGGCCGAGTCCGCCGTGCGGGACGAAGTTGCCGTGCGGCCGCTGCTCGACGCGTACGCGATCGCCCTTGATCCGGCCCTGTTGACCCCGGAATCCGCGGTCAGCCTGCTGACCTCACGGATCGGAGGAGCTACATCCCTTGAACTGCGCAGGCTCCGCCAGTCCTTGCGCCGGGAGGAGATCCTTGGAGGCGGAGGACGCTCAAGTGATTCGCTGCTTGTGGAAGCCTTGACTGAACCCGGTGCGCTCGCGGTCCTGGGAATCGAGGGGCGCTCGGCACGGCGGATCGCAAGGATGATTCAGGCGGGACGGCGTGCTGCTGCGGAGCCCGGAGCGAATGCCGAAACAGTGCTCTGGGCGCTGTGGAACTCCACAGGCCTGGCAGGGACCTGGACGGCTGCTGCCTTGGCCGGCGGACTCGTAGGGGCGAGGGCCGACCGCGACCTTGACGCGATGATGGCGCTCTTTCACACCGCGGAACGCTACGTCGACCAGATGCCCGGTTCCAGCCCGGGGCAGTTCCTCGAATACCTGCTCAACCAGGAGCTCCCCATGGACACCTTGGCGGCGCGGGCGCAGGTAGATGACGCCGTGGAACTCATGACTCCGGCCAGCGCTGCAGGCCGGGAATGGCCGCTGGTCATCGTCGCGGGACTCCAGGAAGGTGTGTGGCCGAACACGCGGCTTCGCGGAGAACTGCTGGGAAGCACGCTATTCGCAGACGCCGTTGAGCATGGCGTGGAGTACGCACTCCAGCTCGGCCCGCTGAGCCGGCTGCGCGAGATCCGGTACGACGAACTGCGCAGTTTCTCAACTGCGGTGTCGAGGGCGAAGGAAGTGCTGATCTGCACCGCCGTCGCCTCAGAGGACGAGCAACCGTCTTCTTTCCTGGATTACGTGGCACCGCTTCAGCCGGGCCAGGAATCCAGAGGCTTCACACCGGTCGAACGGCCGCTGACGCTCCGTGCCCTCGTCGCAGAGCTGCGTCAATACGCCCAGCTCGATGGCAGCAGGTTTGCAGCAGAAGCGGACGAGGCCGTCCGTGTCCTCGCCCGCCTTGCCACGGCGGATCCTCCGGTTCCCGGGGCGCACCCTGGTTCCTGGTGGGGACTGGCGCCGTTGACTTCTGAGGAACCCATCGTGCCGCCCGGCGGGACCGTCTTTGTCTCGCCATCAAAGGTGGAGTCCGTACAAAAGTCACCGCTTGACTGGTTTATCCAGGCTGCCGGCGGTGAGGCAGCCACCGACTTCGCCAGAAGCCTCGGCACGCTGGTGCACTCCATCGCCCAGGATATCCCCGATGGTTCGGGGGCCGAGTACCTCGCCGAGCTTGTCCGGCGCTGGCCCGCTTTGGGCATGAAGGACAACTGGGAAGGCAAACTGGACTTTCAACGGGCTGAATCCATGGTCCGCAAACTGGCCCAGTACATCCTGGTGATGCGCAGCGAAGGCAGACGGTTGGTTGGCGTCGAACAGGACTTCGAAGTGCAGCTGACGCAGGTGCCAGGATCCGACCCCGCAGCCGTTGCTGCCCCTGCGGCTGGTGCCGCCGTCGATTCCGCAGCGGAACACGATGCGCGGACCGCTGTCCTGCGCGGCCAGGTGGACCGGCTGGAGATCGACTCCCGCGGCCGCCTGGTGATCGTTGACCTAAAGACGGGCAAACGGCAGCCAGGGAAAGCCGAGCTCGGCCGGCACCCGCAGCTCGGGGCGTACCAGGCTGCGGTCCTGGCCGGAGGATTCCAAGGACCAGGGGTGCCTGCCCACGCGGAGCCGGGCGGTGCAGTCCTTGCGCAGCTGGGCACTACCGCCAAGAGTCCCGGTATCCAACACCAGGACCCTCTCGAGGCCGGCGACAACTGGGCGATGGACCTCGTAATGGAAGCCGCCCGCGTTATGTCCGGGAGCGGATTCGAAGCCCGGCACGATCCGTCCAAGGCCGGGTTCGGCGGCCACGGCTGCCGCCTGCCGGAGGTATGCCCGCTGTGCGCACGCGGAAAGCAGATTACAGAATGA	MTATIQQTPPLFSESGVPGESLAAGQPAPGAGLRLLAPRQIHTAGPVLSADQLAAVQVPAGTGPVLVPGAPGTGKSTVLVEAAVHRVETAGTDPERILILAPGRLAADALRDRFTARLNRSLSTTPARTWASYGFDLIRRAKAEGILPMPRAPRLLSGPEQDLIIKELLDGHALPGLGLPWPEDLAAALPTRGFRQEVRQLFDRIIESGRTPQDLARLGNECGRPDWVTAAALYAEYRDVLDLRMPEAFDPAGIITAARQLFQDSPDFLAAERERLQLILVDDIQEANPAVFELLADIAAGKDSFVTSSPDTVVQGFRGARPDLVAELPRLLAGDGSDEVCERPLRYAHRQHPALAKAWLGVADRISLRAGGQFARRLDDPDSVDPDPGNPDPVTRQNPDEKPAELQPGGQELSGHGPAAQESRAGGTVEAHLLPSPVHELRYVAQRILEAHIADGRDLADMAVLVRNGGQLSQLQRYLSGQGIPVRIPVAESAVRDEVAVRPLLDAYAIALDPALLTPESAVSLLTSRIGGATSLELRRLRQSLRREEILGGGGRSSDSLLVEALTEPGALAVLGIEGRSARRIARMIQAGRRAAAEPGANAETVLWALWNSTGLAGTWTAAALAGGLVGARADRDLDAMMALFHTAERYVDQMPGSSPGQFLEYLLNQELPMDTLAARAQVDDAVELMTPASAAGREWPLVIVAGLQEGVWPNTRLRGELLGSTLFADAVEHGVEYALQLGPLSRLREIRYDELRSFSTAVSRAKEVLICTAVASEDEQPSSFLDYVAPLQPGQESRGFTPVERPLTLRALVAELRQYAQLDGSRFAAEADEAVRVLARLATADPPVPGAHPGSWWGLAPLTSEEPIVPPGGTVFVSPSKVESVQKSPLDWFIQAAGGEAATDFARSLGTLVHSIAQDIPDGSGAEYLAELVRRWPALGMKDNWEGKLDFQRAESMVRKLAQYILVMRSEGRRLVGVEQDFEVQLTQVPGSDPAAVAAPAAGAAVDSAAEHDARTAVLRGQVDRLEIDSRGRLVIVDLKTGKRQPGKAELGRHPQLGAYQAAVLAGGFQGPGVPAHAEPGGAVLAQLGTTAKSPGIQHQDPLEAGDNWAMDLVMEAARVMSGSGFEARHDPSKAGFGGHGCRLPEVCPLCARGKQITE				NA	NA	NA	NA	NA
D1-17_01327	3612	rep_2		ATP-dependent DNA helicase Rep	ATGAGCAGAGACTCCCATGTCACGGTGCCTGATCTCCCTATGCCGAGTTTCAGCCCGGAAGAGCTGTCCGTCCTCCTGGGGGAAAAACATCTTCCCACCGCGGAGCAATCCGCCATTATCTCCTCGTCGTTGACACCCAGGCTGGTCATTGCCGGTGCGGGATCAGGCAAGACTGCCACCATGGCCGACCGTGTCGTGTGGCTGGTCGCCAACGGCTGGGTCAGGCCTGAAGAGATCCTGGGGGTGACGTTCACGAGGAAGGCGGCCGGTGAACTGGCGAGCCGCATCAGGGCGAAGCTCAGTGCCCTTCAGCGCATCGCAGCCGCCGACACGGGCCACAAGGTGTTTCCTGCCGGACTACTCAGCACCGACGCCCTCGAACCGAAGGTGTCCACTTACCACTCGTTCGCCAGCGGAATCGTGTCCGACTACGGCCTCCGGCTGGGCATCGAGCGTGACGTCGTACTGCTGGGCGGCGCGCAGGCCTGGCAGCTCGCAAGCGAAGTGGTCGAAGCGTACGACGGCGAGTACGCCCACTTCCGCGTGGCCAAGTCCACGCTCGTCAACGCAGTCATCCAGCTCGCGGGAGAGTGCGCGGAGCACCTTCGGGAGCCGGCCGAGGTCCAGGGCTGGCTGATGGAGCGGCTGTCCGCCTATGAGGGCCTCCCGTACGTGGCCGGGGCGAAGAAAAACTCCACGCAGGCTGCCGGCGAACTCGCCGGGATGCTGCGGACGAGGGCCAGCGTGGCTGACCTAGTGGGGCGCTATGCCGACGCAAAGCGGGCCAGGGGAGCGCTGGACTTCGGCGATCTCGTCGCCTTGGCCGCGAAGGTGGCCCGGGAGGTGCCGCTCGCGGCCGACACGGAGCGCCAGCGCTACAGGGTTGTTCTGCTGGATGAATTCCAGGACACCTCCCATGCGCAGTTGGTGCTGTTCTCCAGGCTGTTTGCTGAAGGGCACGCGGTAACTGCGGTGGGCGACCCGAACCAGTCCATTTACGGCTTCCGGGGAGCGTCAGCCGGCCAACTGTTCCATTTCGTCAAGGAGTTCCCCGTCCGAGTCGAGGAACCGCGTGACGGAACCGACATGTTCAAGCCGGCCCCCGTTTCCTACCTGACCACGGCATGGCGGAACGGGCAGAATATTCTCGCGGCGGCTAACCTCATCGCTGCTCCGCTGAATGCGGCCGCATCGGCAGCCGGGCCAGCCGGCCAGCGCGCCTCTGCGGCTGGCGTTGAAGTACCTTCCTTGCAGGCGAGCCCCGCCGCCGGCAAGGGGCGGGTGGTCATGGGCCGGTTCGCCACCGATGAGGAAGAAGCGGCAGCTATCGCCCGGGACGTGCTTAAATTCCGGGTAACGGATTTCGAGATGCAGGCGGCAGCCACGCCTGTATCACCGGCCATGGCCGTGCTGTGCCGGCGGCGGGCCCAGATGGAATGCATCAGGCGGGAATTTGAAGCCAACGGCATCCCCTACGAGATTGTCGGGTTGGGCGGTTTGCTCGACACCCCGGAAATCGTGGACCTTGTTTCGACGCTCCGCGTCCTCGCTGATCCTGGCCGGTCGGATTCCCTGATGAGGTTGCTGGCGGGGGCCAGGTGGCGGATCGGCCCCGCAGACCTCATGGCCTTCCGCGACTGGTCGTCCTATCTAGCACGCCGACGGGCCCGGAACCCGGCCGATGCTGCCGTTGCCGATGAAAGTGCTGAATCGGCGGAAGTGGTCATCGAAGGGGACCTGACAGATGCCGCCAGCCTCGTGGAAGCCCTGGACTGGCTGCCCAGAGAGGGGTGGATGTCGGCACACGGACGATCGCTGACGCCAGCGGCGCTGGAACGCCTGCATCAGCTCGCCACGGAACTGCGGCACCTCCGGGGGCTGCTGGGCGATGACCTGACCACGCTCTTGGGTGAAGTGGAGCGGGCCATGTTTTTGGACATTGAGGTCGCTGCCCGGCCTGGCATCAGCATCCACCAGGCACGGCGCAATCTGGATGCCTTTCAGGACGCCGCTGCGGGTTTTCTGCAGACTGCCCAGCGCGTGGACGTCCTGGCCTTCCTCGCCTGGCTCGAAGCAGCTGCGGCTGAAGAGGGCGGCCTGGAAGTGCCGCCGCCTGACGTCAACCACGAAGCGGTCCAGCTGCTCACGGTGCACGCCTCGAAGGGACTCGAGTGGGACGTGGTCTTTGTGCCGGGACTGAACGCCGGGGCTTTCCCGAGCAGTCGTGACTCCCGATGGAGCAGCGGATCGGCGGCCCTGCCGTGGCCCCTGCGCGGCGACCGGGCAGACCTGCCCCAGTGGGATCTGGACCAGCCGGACCAGAAAGGATGGCTCGACGCCGAAAAGGACTTCAAGGCCGACGTCCAGGCCCACGGGGAGGCCGAAGAACGCCGTCTTGCCTACGTGGCCTACACGCGGGCCAAACACGTTCTGTGGGTTTCCAGCGCAGCATGGGTCGGCGGCCGCGGCAGCATGGCGGAGATGTCCCCGTTCCTGGCAGAGCTGGAACCCGTGGCTGGCGTTGAGGAGGCCCCTGGTCTGCTCACCCCGGATGGCCGAACGGTTGCCCAGATCCATCCGGATTCGGTGGCAGAGGCGGCGCTGCCGGAAACCAGTCCGCTGACGAAGGAACTCGAGGTGGCATCCTGGCCTTACGATCCCCTGGAAGGCCCGGTTGACCCGCGGACCGGGAAGCGGCTGCGGCTTGTGCCGGGAAGGCGGGCATCCATGGATCAGGCAGCCGGAAGGCTCCTGGAAGAAATTGGGCGTCAGCGTCACGCTGCCGTCCAAAACGGTGCAACTCAGGCCGAGGGAGCCGATGGAGGTTCCATCCAGGCCGAAGCAGTCCAGGGGGACGCAGTCCAAGCCGGAGACATCCCGCCCGCTGGCGGAGCTGAAAACGGAAGCGGGGATGTCCGGACGCTTCGCCCCTTTGCCGCCAGATGGGCGGAGGAGGCAGCATTGCTGCTTGAGCGCCGCGGTCGCCGCGCCCGCAGCCGGGACGTGCACCTGCCGGGGCACATTTCCGCTTCCACCTTGGTGGCCCTTGACGAAGACCCCGCAGCCGTTGTCCAGCGGCTCAGGCGGCCCGTCCCGCGGGAGCCGGGCATGTCCGCCAGGAAAGGCACCGTCTTCCATGCCTGGGTAGAGGAATACTACGGGTCAGCCGGGATGCTCGACCTCGACGAGGCTCCGGGATCTGATGACCATATTGACGAGGCGTATGGCCTCGACGACATGGTCTCCACCTTCAGGGACTCGGAGTGGGCCCACCGCTCACCGGCGCACGTTGAAGTGCCTGTCGAAACGCGCATCGGTGATGTCGTGGTTCGGGGCCGCATCGACGCAGTCTTCCGGGACGCCGACGGCGGCTGGGACCTCATTGACTGGAAGACCGGCCGCAAGCCCTCTTCCGGGCAGCTGAAGACGAAGAGTGTCCAGCTCGCGCTGTACCGGCTTGCCTGGGCAAGACTCAAGGGCGTTCCGCTCGACGAGGTCCGCGCTGCTTTTTACTACGTAGCGGACAATCAGGTCGTCAGGCCACATGACCTCGCGTCGGGCGAGGAACTTGAGGCCATCGTGACGGGCGCCCTGGCACGTCCGGCGCAGTAG	MSRDSHVTVPDLPMPSFSPEELSVLLGEKHLPTAEQSAIISSSLTPRLVIAGAGSGKTATMADRVVWLVANGWVRPEEILGVTFTRKAAGELASRIRAKLSALQRIAAADTGHKVFPAGLLSTDALEPKVSTYHSFASGIVSDYGLRLGIERDVVLLGGAQAWQLASEVVEAYDGEYAHFRVAKSTLVNAVIQLAGECAEHLREPAEVQGWLMERLSAYEGLPYVAGAKKNSTQAAGELAGMLRTRASVADLVGRYADAKRARGALDFGDLVALAAKVAREVPLAADTERQRYRVVLLDEFQDTSHAQLVLFSRLFAEGHAVTAVGDPNQSIYGFRGASAGQLFHFVKEFPVRVEEPRDGTDMFKPAPVSYLTTAWRNGQNILAAANLIAAPLNAAASAAGPAGQRASAAGVEVPSLQASPAAGKGRVVMGRFATDEEEAAAIARDVLKFRVTDFEMQAAATPVSPAMAVLCRRRAQMECIRREFEANGIPYEIVGLGGLLDTPEIVDLVSTLRVLADPGRSDSLMRLLAGARWRIGPADLMAFRDWSSYLARRRARNPADAAVADESAESAEVVIEGDLTDAASLVEALDWLPREGWMSAHGRSLTPAALERLHQLATELRHLRGLLGDDLTTLLGEVERAMFLDIEVAARPGISIHQARRNLDAFQDAAAGFLQTAQRVDVLAFLAWLEAAAAEEGGLEVPPPDVNHEAVQLLTVHASKGLEWDVVFVPGLNAGAFPSSRDSRWSSGSAALPWPLRGDRADLPQWDLDQPDQKGWLDAEKDFKADVQAHGEAEERRLAYVAYTRAKHVLWVSSAAWVGGRGSMAEMSPFLAELEPVAGVEEAPGLLTPDGRTVAQIHPDSVAEAALPETSPLTKELEVASWPYDPLEGPVDPRTGKRLRLVPGRRASMDQAAGRLLEEIGRQRHAAVQNGATQAEGADGGSIQAEAVQGDAVQAGDIPPAGGAENGSGDVRTLRPFAARWAEEAALLLERRGRRARSRDVHLPGHISASTLVALDEDPAAVVQRLRRPVPREPGMSARKGTVFHAWVEEYYGSAGMLDLDEAPGSDDHIDEAYGLDDMVSTFRDSEWAHRSPAHVEVPVETRIGDVVVRGRIDAVFRDADGGWDLIDWKTGRKPSSGQLKTKSVQLALYRLAWARLKGVPLDEVRAAFYYVADNQVVRPHDLASGEELEAIVTGALARPAQ				NA	NA	NA	NA	NA
D1-17_01328	1305			hypothetical protein	GTGGGGAGGGTGAGAAGAGAACCGATCGAATTGGCAGCTGTGGCAACCGCGGCAGTCCCAGGACTGAGCCCCACCGCAGTGAGTTCCGCGCCCGACGACCCGGCGGACTTCGACTCGGCACTCCTCCTCGACTCCGAAGGCAAGCGCTGGCGGGTCAGGTCTCCCCGCCACGCAGAAGCCAGCACCAGGCTGGAAACGGAGTTCCTGGTTCTGCGCGCGTTTTCCCCTGCTATCCGGGCCGAGCTTCCCTTCCTGATGCCGACGGTGGCCGGAACGGTGCGGCAGAATAACCTGACGACGTTTGTGTATTCACACCTGGTTGGCGCGACGCGCTCGGTTGAAGAGCTTACTGCAGGCTCCCAGGAACTGGCGAAGGAGATCGGCATGGCGCTGGCCGCCATCCACGACCTTCCCCGCGCGCTGGTGAGCAATGCTGATCTGCCCAGCTACACGCCCAACGAATTCCGGCAGCGCAGGCTCAATGAACTGGACATGGCGGCGACCACGGGCAAGATTCCCTCGCTGCTCCTTCGCCGATGGGAACATGCCATGGAGGACGTATCGCTGTGGCGGTTCAATCCCTCCGTGGTCCATGGCGACTTGCACGAAGACAATCTGCTGATTGAGGGGAGCCGGGTCACAGCCGTCACCGGCTGGACTGATCTCAGGATCGGTGACCCCGCCGATGATCTGGCCTGGCTTGTGGCTTCAAATGAGCAGGATTTCGTCGATGCCGTGGTGCGCCACTACACGAAGCAGCGTCGTGACGTTCCGGACAGCCACCTGTTGCGGCGGGCGGCCCTTTCTGCTGAATTCGCCCTGGCACAGTACCTCGTCAAGGGAATTGCCACCGAGGACCGCGAGATGGTATCGGAGGCCGAAGAGATGCTGGCCACGCTGGCGGACGATATAGCTGAGCACGGCGGGCAGCCCATCAGCGTGGAACCCCTGCCGCAGCCGGCGGCGCCGCCTCTGCCCCCGGCGCCTGCCGGAGCACCCGCAGCTAACGGGGCCCCTGCCGCCTCCCCCGGACTGATTCCCGTGCCTGCCGCAACTGACATTTCCGAGCAGATGCCTGCGGTGCACGTCATGCCCATCCCCACCGCTGACTCCGAGCCTGCCGGCAGGCGGCCGGACAGCGACACTGCAGCGGACACCGACACTGCAGGAGACACAGACCCTGTAGGGGATACCGGCACTGCCGAGGAGAGCAACACTGACGCGGACAGCAAAGCGGAGTCCAAGGCTGCACCGGATGACACGTCCACTACCACGCTCACGATCGTTGACGCCAAGGCGCACTAG	MGRVRREPIELAAVATAAVPGLSPTAVSSAPDDPADFDSALLLDSEGKRWRVRSPRHAEASTRLETEFLVLRAFSPAIRAELPFLMPTVAGTVRQNNLTTFVYSHLVGATRSVEELTAGSQELAKEIGMALAAIHDLPRALVSNADLPSYTPNEFRQRRLNELDMAATTGKIPSLLLRRWEHAMEDVSLWRFNPSVVHGDLHEDNLLIEGSRVTAVTGWTDLRIGDPADDLAWLVASNEQDFVDAVVRHYTKQRRDVPDSHLLRRAALSAEFALAQYLVKGIATEDREMVSEAEEMLATLADDIAEHGGQPISVEPLPQPAAPPLPPAPAGAPAANGAPAASPGLIPVPAATDISEQMPAVHVMPIPTADSEPAGRRPDSDTAADTDTAGDTDPVGDTGTAEESNTDADSKAESKAAPDDTSTTTLTIVDAKAH	PGPT0028010_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028010-mph-K06979	NA	NA
D1-17_01329	1050	nudC		NADH pyrophosphatase	ATGAGTCATGCGGAGGCCGCTGCGCCGGTCACTAAGCCAGCGGTCGCGGGCGCGGGAAATCAACCGCCCACGCCTGTGCCAGCCAACCACCTCTTTGACACCGTGCTTCCCGCGCCTCCCGCCTTGGTTAACCGCGGGTCTGTGGAGCGGATGAAGCCAGGGCTGGTGGACAGGCTGCTCACTGCCGGCAGCGCACGCGCCATGGTGCTTTCTGGCCGGCAGGCGCTCATCCATGACGGTGCCCTTGTATTGGCCGAGGCCACGCGGCTACATGAGGGGCTGCGGGCGGAAGGATCGGACCCGTCCCTCATCGTCTACCTGGGAACTGCGCTCGCTTCCAGCGACCTCCCCGCCGGGACCGAACTCCTGCTGTTCATCCTCTCTGCGCCGGTGCAGCCAGCCGCTGTAGGCCTGCCCGCCGGTGCCTCGTGGGAAGGGTTCAGGGACGTCGCGGCAGGGCTGGATGCCACACACACCGCCCTGTTCGTCGAAGCAAGCGCCATTGCAAACTGGCACGCCAGCCATACGCACTGCCCCCGTTGCGGCACGCCCACCGACGTCGAGGCAGGCGGCTGGGTCAGGCGTTGCCCGGCCGATGATTCCGAACACTATCCCCGCACCGATCCCGCCATCATCGTTACCGTGGTGGGACCGGACGGACGCCTGCTGCTGGGCGGCGGCGGGTCGGCAGACGCCAAGAACTACTCCACGCTGGCAGGTTTTGTTGAGCCGGGGGAGTCCCTTGAACAGGCGGTGGTCCGCGAAATCCACGAGGAGGTGGGGGTACGGGTCAAGGCGTGCCAATATCTTGGTTCCCAGTCCTGGCCGTTCCCCGCCTCGCTCATGCTCGGCTTCACTGCCGTCACGGACGACGCCGAAGCCAAACCCGACGGCGTCGAAGTCACCAGGGCGCGCTGGTTCAGCCGGGAAGAACTGCAGGCGGCTGTGCTGAGCGGGGAGATCGTTATTTCCACGCGGCTGTCCATTGCCCGGTCCCTCATTGAACACTGGTACGGCGGGATCATCCAGGACCGGCCCGCCGATGAGTAA	MSHAEAAAPVTKPAVAGAGNQPPTPVPANHLFDTVLPAPPALVNRGSVERMKPGLVDRLLTAGSARAMVLSGRQALIHDGALVLAEATRLHEGLRAEGSDPSLIVYLGTALASSDLPAGTELLLFILSAPVQPAAVGLPAGASWEGFRDVAAGLDATHTALFVEASAIANWHASHTHCPRCGTPTDVEAGGWVRRCPADDSEHYPRTDPAIIVTVVGPDGRLLLGGGGSADAKNYSTLAGFVEPGESLEQAVVREIHEEVGVRVKACQYLGSQSWPFPASLMLGFTAVTDDAEAKPDGVEVTRARWFSREELQAAVLSGEIVISTRLSIARSLIEHWYGGIIQDRPADE	PGPT0013440_510	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
D1-17_01330	2133	uvrD2	COG0210	ATP-dependent DNA helicase UvrD2	GTGATTACAGAAATTCCTGACGGCGAGACGTCCCTGGAAGACCGCATCCTGGGCGGTCTTGACGCTGAGCAGCGTGAGGTGGCCAGCACCCTTACCGGGCCCATGTGCGTCCTGGCGGGAGCCGGAACGGGAAAGACCCGGGCCATCACCCACCGGATCGCCTATGGGGTGCACTCCGGGGTCTACTCTCCACAGCGGCTTCTCGCCGTGACCTTTACTGCGCGGGCCGCCGCGGAAATGCGCAGCAGGCTGCGCGACCTGGGAGTCGGCAACGTCCAGGCCCGTACCTTCCACGCCGCGGCGCTGCGCCAGCTTCAGTTCTTCTGGCCCCAAGCGGTGGGCGGGTCGCTTCCGAATCTCCTGGACCACAAGGCACCGATGATCGCCGAGGCCGCCCGCCGACTCCGGCTCAGCACCGACCGGGCGTCCATCAGGGACCTGGCCTCCGAGATCGAATGGGCCAAGGTGTCCATGCTTACCCCGGCCAACTATCTGGAGAATGCACAGGACAGGGGCAACCCCGGCGGGTTCGATCTCACCGCAGTGTCCAGGGTGTTCCAGGCCTATGAGGACGTCAAGACTGACCGGAACGTCATCGACTTCGAGGACGTCCTCCTGATCACTGTTGGAATCCTGCAGGAGGATCCCAAAGTGGCCGCCACAGTGCGGGAGCAGTACCGGCACTTCGTGGTGGACGAATACCAGGACGTCTCGCCGCTGCAGCAGCGGCTCCTGGAACTCTGGCTCGGCGGCCGCGACGAGCTTTGCGTCGTGGGCGACGCGAGCCAGACCATCTACTCCTTCACGGGCGCATCGCCCAAGCATCTGCTGGGGTTCAAGGCCAGGTATCCCACTGCGAACGTGGTGAAGCTGGTCCGCGATTACCGCTCGACGCCGCAGGTGGTCCAGTTGGCCAACGACCTGCTTGCGGGCCGCCGCAGCGGCGGCCCGGTAGCTGACGCTGCCTGGGCGGCACCCCTGAAGCTCGTCGCCCAGCGGGACGCCGGACCCCTGCCGCAATTTACCGAGTGCTCCGACGATGAAGCCGAGGCGGCCACCGTGGCGCAGAAGATCCGGTTGCTGCTGGACGCCGGCGTCCTGGCGAGCGAAATAGCGGTGCTCTTCCGCACCAACGGCCAGTCGGAAGCCTACGAACAGGCCCTGGCCTCGGCGGGCATCGGGTACCAGCTGCGCGGCGGCGAGCGCTTCTTCGCACGCAAGGAAGTCCGCGACGCCATTCTCCAGCTGCGGGCTGCCACCCGGGCGGCCGCGGAGTCATCTCCTCAGCCCCTGGGCCAGCTGGTCCGGGACATCGTGGCATCCCTTGGATACACGGACTCGGCCCCGCACAGCGGCGGCGCGCTGCGGGAACGTTGGGAGTCCCTGGCGGCGCTGGTGGCGCTGGCGGATGAACTCGTGCAAAGCCGGGGACCGGAGTTCAGCCTTGCAGATTTCGTGAACGAACTGCAGGAACGTTCGCTCGCCCAGCACGCACCGACGGTGCAGGGCGTGACGCTGGCATCACTGCATGCGGCGAAGGGACTGGAGTGGGATGCAGTCTTCCTCGTGGGCCTCAGCGAGGGACTGATGCCCATATCCTTTGCGGATTCTCCAGAAGCGGTGGATGAGGAGCGGCGGCTTCTCTACGTGGGCATCACACGGGCCAGGGAGCATTTGGCGCTCTCGTGGTCCACCGCGCGCACACCCGGAGGCCGGGCCAACCGTAAGCCGTCCCGCTTCCTGGACGGGCTCAGGCCGGATTCGGTGGCAGGGTCTTCTGCCAGGAGCAAGGGTCCGGCGCCGCGCCGCAAGGCTGCCGTTCCCGCATCATGCAGGGTGTGCGGCAGCATGCTGTCCACCGGCGCCGAACGGAAGATCGGCCGCTGCAGCCAGTGCGCGCCGACGTACGAGGAACAGACGTTCAACGCCCTGCGGGAATGGCGCAAGGACGCTGCCAAGACCGCCGACGTTCCCGCTTTCGTTGTCTTCACCGACGCCACCCTCACCGCCATCGCCGAAGCCCGGCCTTCCTCGCTGGAAGAGCTCGCCGGGCTGGCGGGCGTTGGCCCCGCCAAGCTGGAGAAGTACGGGGAAGCCGTACTGGCAGTCCTCGTGGAAAGTGGCAGCCACTGA	MITEIPDGETSLEDRILGGLDAEQREVASTLTGPMCVLAGAGTGKTRAITHRIAYGVHSGVYSPQRLLAVTFTARAAAEMRSRLRDLGVGNVQARTFHAAALRQLQFFWPQAVGGSLPNLLDHKAPMIAEAARRLRLSTDRASIRDLASEIEWAKVSMLTPANYLENAQDRGNPGGFDLTAVSRVFQAYEDVKTDRNVIDFEDVLLITVGILQEDPKVAATVREQYRHFVVDEYQDVSPLQQRLLELWLGGRDELCVVGDASQTIYSFTGASPKHLLGFKARYPTANVVKLVRDYRSTPQVVQLANDLLAGRRSGGPVADAAWAAPLKLVAQRDAGPLPQFTECSDDEAEAATVAQKIRLLLDAGVLASEIAVLFRTNGQSEAYEQALASAGIGYQLRGGERFFARKEVRDAILQLRAATRAAAESSPQPLGQLVRDIVASLGYTDSAPHSGGALRERWESLAALVALADELVQSRGPEFSLADFVNELQERSLAQHAPTVQGVTLASLHAAKGLEWDAVFLVGLSEGLMPISFADSPEAVDEERRLLYVGITRAREHLALSWSTARTPGGRANRKPSRFLDGLRPDSVAGSSARSKGPAPRRKAAVPASCRVCGSMLSTGAERKIGRCSQCAPTYEEQTFNALREWRKDAAKTADVPAFVVFTDATLTAIAEARPSSLEELAGLAGVGPAKLEKYGEAVLAVLVESGSH				NA	NA	NA	NA	NA
D1-17_01331	576			hypothetical protein	ATGACGGGCACGCAGCTGACAACGCACGACGGCGCACCCGTGGTCGTCCGCCGCTCCGCGAGGCGCCGCCGCACGGTGGCGGCGTTTTGGGAGAACGGTACCGCCGTCGTCGCGATTCCCGCGAACTTCAGCAGGGCGCAGGAAGCTGAATGGGTGCACCGAATGCTCGACAAGCTGAAAGTGCAGGGGGAACGGCATGCGAAAGGCGGGCGGCGTCCTGCGTCCGATGCCGCGCTCGCCGGTCACGCCGCCGGACTCTCGGCACGTTACCTCGGAGGCAGGGCAGTTCCCACGTCGGTGCGCTGGGTCAGCAACCAGAACTCCCGCTGGGGTTCGGCCACACCGGCTGACGGGTCCATCCGGCTTTCGGACAAGCTCCGGCCGATGCCCCAGTGGGTGATTGACTACGTTCTGCTCCACGAACTGGCGCACCTGCTGGTCGCCGGGCACAATGCCGCCTTCTGGAAGCTGCTGGAGGCCTACCCCGAAACGGAGCGGGCCAAGGCTTTCCTGGAAGGGGTGTCTTTCGCGACATCGAGGGGCCTGCCGGCAGATGACGCCAGCCGGCAGGACTGA	MTGTQLTTHDGAPVVVRRSARRRRTVAAFWENGTAVVAIPANFSRAQEAEWVHRMLDKLKVQGERHAKGGRRPASDAALAGHAAGLSARYLGGRAVPTSVRWVSNQNSRWGSATPADGSIRLSDKLRPMPQWVIDYVLLHELAHLLVAGHNAAFWKLLEAYPETERAKAFLEGVSFATSRGLPADDASRQD				NA	NA	NA	NA	NA
D1-17_01332	1503			hypothetical protein	ATGACCTCCAACCCACTCAATCCGTCCAACGGCGACGACAATCCGAAGGATCCGTTGGCAGAGATGCTGCAGAACCTCATGGGCGGTAAGGGCATGGGCAACATCGACCCCGCGGAGCTGGCCAAGGCCGCTGGCCTGCCTGACGATCCAAACCTCCTGGCGCAGATGTTCTCGCAGGTCCAGGCCATGATGAGTGCCCCGTCCGAGGGCCCTGTGAACTGGAAGCTGGCCCATGACAACGCCCGGCGGGTGGCTGCCAGCAGCTCTGATCCGTCCGTCACGGCGGCGCAATCCCGCGAAGTGGACGAGGCCCTGAGGCTGGCCGAGCTGTGGCTGGACCAGGTTACCGATCTTCCGGCGACCGGCCTGATCGGCAAAGCCTGGTCCCGTGCGGAGTGGGTCGAGGAGACCCTGGGGACGTGGAAGCGGCTCACTGAGCCCGTGGCCAACAGCGTTGCCAACGCCCTGTCCTCCGCTATGACGGAGCAAATGCCCGAGGAGATGAAGTCCATGATGGGCGGTGCTTCGTCCATGCTGCAGAACATGGGCGGCGCCATCTTCGGCATGCAGCTGGGACAGGCCATCGGGGCACTTTCCGCTGACGTGGTCAGCTCCACTGACATCGGCGTTCCGCTCGCCGACCTGGAAATGGCCCTGCTCCCGAGCAACGTGGCGAAGTTCGGCGAAGGACTCAGCCTTCCGGAAAGCGACATCCGGCTGTTCCTGGCGGTCCGGGAAGCCGCCCACGCCCGGCTGTTCGTCCAGGTTCCCTGGCTCCGCGGCCACCTGCTGGGCGCGATTGAGGCATACGCCCGCGGCATCCACATCGACACTTCCCGAATTGAGGAACTTGCCCGGGACCTGGATCCGAGCAACCCGGAGGGCATCCAGGAAGCCCTGTCCCAGGGTGTCTTCATGCCCCAGCGGACCCCGGCCCAGGAGCAGGCCCTCCAAAAGCTGGAAACCGCGTTGGCCCTCGTTGAGGGTTGGGTTGATGAACTCACGGCCGCGGCAACTGAAAAGGTCCTGCCGTCGGCCGGGGCGCTCCGTGAAACGGTCCGGCGGCGCCGGGCGACGGGAGGCCCTGCCGAGCACGCGTTCGCCTCGCTTGTGGGACTGGAGCTGCGCCCCCGCCGGCTCCGGGAAGCTGCGACGCTGTGGGCTTCCCTGAAGCAGGAACGCGGCATCGAGGGCCGGGACGCCATCTGGAAGCATCCAGACCTCCTGCCCACGGCAGAAGACCTGGATGATCCCAAGGGATTCAGTGAGCGCCGGAAGCTGGCCGAGGCCAGCGACAGTGAAGTTGACGACGCCCTGCTAAAGCTCCTGGACGGCGGGTTCGACACGCCTGAGGCTTCCACCGAGGAAGGTGGCGCTGCAGGCGACGAGAGTTCAAGCGACGACCGCGCAAGCGAGGGCGGGGCAAGCGACGACGGGGCAAGCGACGACGGTCCTGCCGGTGGCCGCACGAGGGACGGCGATAAGAACGACGGCGGGGCCTAG	MTSNPLNPSNGDDNPKDPLAEMLQNLMGGKGMGNIDPAELAKAAGLPDDPNLLAQMFSQVQAMMSAPSEGPVNWKLAHDNARRVAASSSDPSVTAAQSREVDEALRLAELWLDQVTDLPATGLIGKAWSRAEWVEETLGTWKRLTEPVANSVANALSSAMTEQMPEEMKSMMGGASSMLQNMGGAIFGMQLGQAIGALSADVVSSTDIGVPLADLEMALLPSNVAKFGEGLSLPESDIRLFLAVREAAHARLFVQVPWLRGHLLGAIEAYARGIHIDTSRIEELARDLDPSNPEGIQEALSQGVFMPQRTPAQEQALQKLETALALVEGWVDELTAAATEKVLPSAGALRETVRRRRATGGPAEHAFASLVGLELRPRRLREAATLWASLKQERGIEGRDAIWKHPDLLPTAEDLDDPKGFSERRKLAEASDSEVDDALLKLLDGGFDTPEASTEEGGAAGDESSSDDRASEGGASDDGASDDGPAGGRTRDGDKNDGGA				NA	NA	NA	NA	NA
D1-17_01333	1149	ylbL	COG3480	putative protein YlbL	GTGACGATAACCAAGGGCAATCAGCCCGCAGAGGAGTCCGCTGCTCCCGATGCCAGCGGTGAGGCGCCTGGGGCCGGCGGGCCACGTCCCGCGGGGGCGCGTGATCTGCAGATTTCGGCCACGATGCTGTCGGGGCTCACCGCCCTCGTACTCGGCGTGACAGCCGCAATATTGCCGGTTCCTTACGTGGTCGAGTCGCCGGGGCCGACGTACAACACGCTCGGCAGGGACGGGGGCAAGCCGGTCATCAGCGTCACGGGACACGACACCTACCCCGCCAAGGGAAACCTGAACCTCACCACCGTCTATGTCGACGGCGGACCCAACTCCACGGTCAGCGTTTTCGAAGCGTTTTCCGCTTGGCTCGACGATTCCAAGGCGGTCTACCCGCAGGAGCTGATATTCCCCGAGGGCGTCACCAGGGAGCAGTCCCAGCAGGAAAGCGCGGTCGCCATGACCACGTCGCAGGAAAATGCCATGGCCTCTGCGCTGAAGGAACTCGGCATACCCTTCGGGCAGAAGCTGGAAGTCGCCGACCTGTCGGATGGCTCGCCGTCGGAAGGAAAGCTGCGGCCCGGCGACGTCTTCACCTCGATCAACGGCAAGCCCATCAGCTCCCTGGCAGTCGTTCAAAAGGAACTGGCCGCCGGAAACGGCAAAGCAGTGACCGTGGTCGTGGACCGGGGCGGCAAACCCGTCACCGAAACGGTGGTGCCGCAACGGAGCGAGACGGGCAGGTTCATCCTCGGCGTCCTCCTCAAATACCGGTTTACATTCCCGTTCGACGTCAGGATCTCGCTGGAAAAGGTTGGCGGACCGAGCGCCGGAATGATGTTTGCCCTTGGCATCATCGACACGGTAACCCCCGGTGACCTCACGGGCGGCAAACACATCGCCGGCACCGGAACCATCACTCCTGACGGCGCTGTCGGGCCCATCGGGGGAGTGGCCGTGAAGATGCACGGGGCCCGGGCCGACGGTGCGACGATGTTCCTTGCGCCTGCCGCCAACTGCCCCCAGGTTACGGGCAACGTTCCCGAAGGCCTGCAGGTCGTGAAAGTGGAGAACCTTAAAGAGGCCAAACGTGCAGTGGAAATGGCTGCGAGCGGAGCGGATACATCGGGCCTTCCGTCCTGCGCCAACAACTAG	MTITKGNQPAEESAAPDASGEAPGAGGPRPAGARDLQISATMLSGLTALVLGVTAAILPVPYVVESPGPTYNTLGRDGGKPVISVTGHDTYPAKGNLNLTTVYVDGGPNSTVSVFEAFSAWLDDSKAVYPQELIFPEGVTREQSQQESAVAMTTSQENAMASALKELGIPFGQKLEVADLSDGSPSEGKLRPGDVFTSINGKPISSLAVVQKELAAGNGKAVTVVVDRGGKPVTETVVPQRSETGRFILGVLLKYRFTFPFDVRISLEKVGGPSAGMMFALGIIDTVTPGDLTGGKHIAGTGTITPDGAVGPIGGVAVKMHGARADGATMFLAPAANCPQVTGNVPEGLQVVKVENLKEAKRAVEMAASGADTSGLPSCANN				NA	NA	NA	NA	NA
D1-17_01334	2988			hypothetical protein	TTGTCCCGACCTGCCAGCCCCACCCCGCCCGGAAGACTCCAGCCAAAGCGCGGTGCCCTGACGCCGACGCTCATTGTTGTTGCGCTTGTTGTCGTCGGGTTCATCTTCTTCGCCAATGTGTGGACGGATGTCCTCTGGTACCAGCAGTTGGGCTTCTTTGAAGTCTTCCTGACAGAAAACCTGGCGCGGATCGCCATCTTCGCAGCGGGCTTCGCCCTCATGTTCGCCGGCGTCTTCTTCGCGATCCGCATCGCTTACCACGCCCGCCCGGTTTACGCGCCAGACTCGGAAATCCGTGACAACCTCAACAGGTACCAGGCGCAGCTGGAACCCGTGCGGCGTGTCGTGATGATCGGCCTGCCCGTGATGTTCGGCCTGTTCGCCGGAAGCGCGGCGTCCAGCCAGTGGCAGAAAGTGATGCTGTTCTTCAACCAGGTACCGTTCGGCCAGAATGATCCTGAGTTCGGGCTGGACATCAGCTTCTACCTCATGACGCTCCCGTTCCTGGGCTTCGTCGTCGGATTCCTCATCAGCGTGGCCGTCATTGCCGGTATCGCAGGGATCCTGACGCACTACCTGTATGGCAGCATCCGCATCATGGAACGCGGCATCTTCACCAGCCGGGCAGCGCAGATCCATCTCGCCGTCACCGGCGCCTCGTTCCTGGTGCTGATGGGCATCAACTTCTGGCTGGACCGCTTCGCCGCAGTCCAGAACAACAACGGCCGGTGGGCCGGTGCCCTGTACACCGACGTTAACGCCGTCATTCCCACGAAGGCGATCCTGGCCGTCGCGGCCGTTCTCGTTGCGATCCTCTTTGTCGTTGCGGCAGTGATCGGCAGATGGCGGCTTCCGCTCATCGGAACCGCCATGCTGGTGATCACCTCGATCCTCGCCGGGGGCGTCTACCCCTGGGTCATTCAGCAGTTCCAGGTCCGTCCTTCCGAGCAGACCCTCGAAAATGAGTACATCAAGCGCAACATCGGCATGACCCGGGCTGCCTATGGACTGGACCAGGTGAATGTTGAGCGGTACAACGCCACCACCACAACCACCAGCGGCGCGCTGGCAAAGGATGCCCAGACCACGGCCAACATCCGACTGCTGGACCCGAACCTGATCTCCGATGCGTTCTCCCAGCTGGAGCAGTACCGGCCCTACTACCAGTTCCCCAAGTCACTGAACGTGGACCGGTATCTCGTTGACGGCAAGGTCCAGGACACCGTCATCGCCGTGCGTGAACTGAACCCGGACGGGCTCAGTCCCCAGCAGCAGTCATGGCTGAACCGCCACGCCGTTTACACTCACGGCTACGGTGTGGTCGCGGCGAAGGGAAACAAGTTCACGGCGGACGGCAAGCCCGAGTTCCTGCAGTCAGGCATCCCCTCCACCGGGGTGCTCGGCACGGACGAAACGTACGAGCCCCGTATCTACTTCGGTGAGGACTCGCCGGAATATTCGATCGTGGGCGCCCCGGAAGGAGCACCGCACCGTGAGCAGGACCGCCCCTCGGGCAAGGACACCGGTGGCGAAACCCAGTACACATTCACCGGCAACGGCGGCCCGAACGTCGGCAGCTTTTTGAACCGGGTCCTGTACTCGATCAAATTCCAGTCCTCCGACCTCCTGCTTTCCGACGCCGTCAACGAGGCGTCCCAGATCCTCTACGATCGCAACCCCCGCGACCGCGTGGAAAAGGTCGCCCCCTACCTGACCGTGGACGGCAACGTCTACCCGGCAGTTGTTGACGGACGCGTCAAGTGGATTGTGGACGGCTACACCACCAGCCAGTACTACCCCTACTCCCAGCAGGCGCAGCTCTCGGACGCCACCGCTGATTCGCAGACCACGGCCGGCCGCAGTGTCGCGCTGCCCAACAGCACGGTGAACTACATCCGTAACTCCGTGAAGGCCACCGTGGATGCGTATGACGGTTCGGTCACGCTCTATGCCTGGGACGATCAGGACCCGCTGCTGAAGGCATGGCAGAAGGTCTTCCCAACCTCGCTCAAGCCCTACTCGGAGATGTCCGGCGCTGTCATGAGCCACGTCCGCTACCCGGAAGACCTCTTCAAGGTCCAGCGCGAGCTGCTGGGGCGCTACCACGTCACGGACCCCGTCAGCTTCTACAAGAACGACGACGCGTGGAGCGTTCCCAACGACCCCACCGTGTCGGAGGAGGTCAAGCAGCCTCCGTTCTACATGTCGCTGCAGATGCCCGGCCAGCAGAAGCCGGCATTCCAGTTGACGTCGTCGTTCATCCCGCAGGTGGTGGACGGCAACGCCAGGAACGTCCTGTACGGCTTCCTGGCGGCCGATTCGGATGCTGGCGGCCAGAAGGGCGTGAAGGCAGAGTCCTATGGAAAGCTCAGGCTCCTGCAGGTTCCGCCGGAAGCCCAGGTACCCGGCCCCGGCCAGGCGCAGAACAAGTTCAACTCCGATCCGACCGTGTCACAGGCACTTAACCTGCTCCGCCAGGGCGCCTCGGATGTTTTGAACGGCAACCTCCTCACGCTCCCTGCCGGTGGCGGCCTGCTGTATGTCCAGCCGGTGTACCTGCGCTCGACCGGTGAAACGTCGTACCCGACGCTGCAGCGCGTGCTGGTGGCCTTCGGCGACAAGATCGGCTTCGCACCGACCCTGGATGAGGCTCTCAACCAGCTCTTCGGGGGTGACTCCGGGGCCGCGGCCGGTGACTCTGCCAACAACGGGCAGACTCCTCCGGCGCCGGGCGGAGGCGGAACCCCTGCCCCGGGTACAACCGATGCCCGTGCCGATCTGAAGGCTGCGCTGGCCGAAGCCAATGCCGCCATCAAGGCAGGGCAGGAAGCGCTGGGCAAGGGTGACTTCGCCGGTTACGGCGAGCAGCAGAAGAAGCTGAACGCGGCACTCCAGAAGGCCATTGACGCCGAGGCGAAGATCGCGGCGACGACTCCGGCATCGGAGCCGTCCCCCTCGGGGACGCCGGCCCCCACCCCCAGCAGCTAA	MSRPASPTPPGRLQPKRGALTPTLIVVALVVVGFIFFANVWTDVLWYQQLGFFEVFLTENLARIAIFAAGFALMFAGVFFAIRIAYHARPVYAPDSEIRDNLNRYQAQLEPVRRVVMIGLPVMFGLFAGSAASSQWQKVMLFFNQVPFGQNDPEFGLDISFYLMTLPFLGFVVGFLISVAVIAGIAGILTHYLYGSIRIMERGIFTSRAAQIHLAVTGASFLVLMGINFWLDRFAAVQNNNGRWAGALYTDVNAVIPTKAILAVAAVLVAILFVVAAVIGRWRLPLIGTAMLVITSILAGGVYPWVIQQFQVRPSEQTLENEYIKRNIGMTRAAYGLDQVNVERYNATTTTTSGALAKDAQTTANIRLLDPNLISDAFSQLEQYRPYYQFPKSLNVDRYLVDGKVQDTVIAVRELNPDGLSPQQQSWLNRHAVYTHGYGVVAAKGNKFTADGKPEFLQSGIPSTGVLGTDETYEPRIYFGEDSPEYSIVGAPEGAPHREQDRPSGKDTGGETQYTFTGNGGPNVGSFLNRVLYSIKFQSSDLLLSDAVNEASQILYDRNPRDRVEKVAPYLTVDGNVYPAVVDGRVKWIVDGYTTSQYYPYSQQAQLSDATADSQTTAGRSVALPNSTVNYIRNSVKATVDAYDGSVTLYAWDDQDPLLKAWQKVFPTSLKPYSEMSGAVMSHVRYPEDLFKVQRELLGRYHVTDPVSFYKNDDAWSVPNDPTVSEEVKQPPFYMSLQMPGQQKPAFQLTSSFIPQVVDGNARNVLYGFLAADSDAGGQKGVKAESYGKLRLLQVPPEAQVPGPGQAQNKFNSDPTVSQALNLLRQGASDVLNGNLLTLPAGGGLLYVQPVYLRSTGETSYPTLQRVLVAFGDKIGFAPTLDEALNQLFGGDSGAAAGDSANNGQTPPAPGGGGTPAPGTTDARADLKAALAEANAAIKAGQEALGKGDFAGYGEQQKKLNAALQKAIDAEAKIAATTPASEPSPSGTPAPTPSS				NA	NA	NA	NA	NA
D1-17_01337	993			hypothetical protein	GTGTTCGGCCCGGGGCAGTTGCCCGTCTCCGTCATTCTCGAGAGGAATGTAGTTTCGATGTCCACAACGAAGAACAAATCCGGCACTGCGAAAGGCAAGCGGTCCAGGCTCTACTGGGCGGTGCCTGCGGTCCTCGTGGCTGCGGTGCTGGTGGTTCTGCTCGCGAAGTGGGCTGTGGGGCTCCCGGGCATCCAGTCGTTCCTGAAGGAGTACCCGGGACATTCCGAGCTGCCTGAAGGCGCGCCCGTCGGTTTCCCGGCGTGGCTGGGCTGGCAGCACTTCCTCAATGCCTTCCTGCTGCTGCTCATCATCCGCACGGGCTGGCAGGTGCGGACAACCACCCGCCCGGGCGGCTACTGGACGCGGAACAACAAGGGCCTCATCAAAACCAAGACTCCGCCGACGAAAATTTCCCTCGAGCTTTGGTTCCACCTCACCCTTGACGCTCTCTGGGTTTTGAACGGTCTGGTCTTCGCGGTCCTGATCTTCGCCACCGGCCAGTGGATGCGCATCGTTCCGACGAGCTGGGACGTCTTCCCGAATGCCCTTTCGGCCGCGCTGCAGTACGCGTCGCTGAACTGGCCCACCGAGAACGGCTGGGTGAACTACAACGCCCTGCAGCTGCTGGCGTATTTCGCAACGGTCTTCATTGCCGGCCCGCTGTCCTTCATCACAGGGCTGCGCATGTCTGCGGCGTGGCCCAAAAAAGCCTCCGCGCTGAACCGGGCGTTCCCGATTGAAGCAGCCCGTGCCATCCACTTTCCCGTGATGATCTACTTCGTTGCGTTCATCGTGGTCCACGTGTTCCTGGTACTGGCCACCGGTGCCTTGCGGAACCTCAACCACATGTACGCGGCAAGCGACGACGCAGGTTGGGCCGGGTTCTGGATCTTCGCTGCTTCGGTGGGCGTCATGGTGGCCGCCTGGTTCCTGGCCCGGCCGCTGTTCCTGCGCCCCATCGCCTCCCTGATGGGCAAGGTCACGAGCCGCTGA	MFGPGQLPVSVILERNVVSMSTTKNKSGTAKGKRSRLYWAVPAVLVAAVLVVLLAKWAVGLPGIQSFLKEYPGHSELPEGAPVGFPAWLGWQHFLNAFLLLLIIRTGWQVRTTTRPGGYWTRNNKGLIKTKTPPTKISLELWFHLTLDALWVLNGLVFAVLIFATGQWMRIVPTSWDVFPNALSAALQYASLNWPTENGWVNYNALQLLAYFATVFIAGPLSFITGLRMSAAWPKKASALNRAFPIEAARAIHFPVMIYFVAFIVVHVFLVLATGALRNLNHMYAASDDAGWAGFWIFAASVGVMVAAWFLARPLFLRPIASLMGKVTSR	PGPT0013075_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013075-msrP|yedY-K07147	NA	NA
D1-17_01338	1425	phrA	COG0415	Deoxyribodipyrimidine photo-lyase	ATGCCCTCAACGATTGTCTGGCTCCGGGATGACCTACGCCTCGACGATAACCCAGCCCTTGCGGCTGCAGCCTCCGGGCCTGATCCGGTGACTGTGGTGTACATCCTTGATGAGGACTCCCCCGGCATGCGTCCGTTGGGCGGAGCTGCCAGATGGTGGCTGCACCATTCACTGGCCGCACTTTCGGCCGACCTCGAATCCCGCGGATCGCGCCTGCTGCTGCGCCGGGGTGCCGCCCAGGACGTCCTCCGCGGCCTCGCGGAGGAAACAGCGGCCGGGTCAATCCTCTGGAACAGGCGCTACGCGCTGCCCGAACGGACGGTCGACGCCAAGATCAAGGAATGGGCCACGGAACACGGCATCGATGCGGCCAGCTTCCAGGCAAACCTTCTTTTCGAACCGTGGACGGTCCGGACTGGCTCGGGCGGGCTGTACAAGGTCTTCACTCCCTTCTGGCGGACGTGTCTGGCCGGCACGGAGCCGAGAATGCCCCCCGATACTCCGGTGGATCTCCCGCGGCCGGCAAGTGCTTCCGGCGGGTCATTGCCGGCCAGTGACAACCTCGACAGCTGGGGACTGCTCCCCCGCCGGCCCGATTGGAGCAGCGGGCTCGCGGGCAGCTGGACGCCCGGCGAACGCGGCGGGAACCGGCGGCTCGAAGAATTCCTGGACGGACCAATCGAGGAGTACGGGACGGGCCGGGATCTGCCTGCAGTGGAAGGCACCAGCAGGCTCTCCCCGCACCTTCGCTTTGGCGAGATCAGCCCGTTCCGGGTCTGGCACGCACTCCGGGAACGCTTTCCGCAAAACGCTCCTGCCGACGTCGGGATTTTCCGCAGCGAGCTCGGCTGGCGGGAATTCTGCTGGCACCTGCTGTACGGGAACCCGGAACTTGCCACAGTCAATTACCGCCGTGAATTCGACCGGTTCGCCTGGCAGAGTCCGTCGCGCACAGAACTGGAGGCGTGGCGGCGGGGCCGCACGGGCTATCCGCTTGTGGATGCCGGTATGCGCCAGCTATGGCAGACCGGATGGATGCACAACCGCGTGCGCATGGCCGCCGCATCGTTCCTGGTGAAAAACCTGCTCGCAGACTGGCGGCTGGGCGAGGCATGGTTTTGGGACACGCTGGTGGACGCCGACGCCGCCAGCAACCCGGCCAACTGGCAGTGGGTGGCAGGCTCAGGAGCAGATGCATCCCCCTACTTCAGAATCTTCAATCCAGTAACCCAGAGCAAGAAGTTCGATGCAGCAGGACATTACCTGCGGCGCTTCATCCCTGAACTCGCCGGGCTGGACGGCAAGACAGTCCATGAGCCCTGGAAGAAGTCCTCTGCCGCGCCTGCGTACCCTGCTCCCCTCGTAGGGCTGCAGGAGTCACGTGAACGTGCCCTGGATGCGTACCGGCAGCTGAAGGACGGCTGA	MPSTIVWLRDDLRLDDNPALAAAASGPDPVTVVYILDEDSPGMRPLGGAARWWLHHSLAALSADLESRGSRLLLRRGAAQDVLRGLAEETAAGSILWNRRYALPERTVDAKIKEWATEHGIDAASFQANLLFEPWTVRTGSGGLYKVFTPFWRTCLAGTEPRMPPDTPVDLPRPASASGGSLPASDNLDSWGLLPRRPDWSSGLAGSWTPGERGGNRRLEEFLDGPIEEYGTGRDLPAVEGTSRLSPHLRFGEISPFRVWHALRERFPQNAPADVGIFRSELGWREFCWHLLYGNPELATVNYRREFDRFAWQSPSRTELEAWRRGRTGYPLVDAGMRQLWQTGWMHNRVRMAAASFLVKNLLADWRLGEAWFWDTLVDADAASNPANWQWVAGSGADASPYFRIFNPVTQSKKFDAAGHYLRRFIPELAGLDGKTVHEPWKKSSAAPAYPAPLVGLQESRERALDAYRQLKDG				NA	NA	NA	NA	NA
D1-17_01339	792		COG1842	Phage shock protein A	ATGGTTAAGCAGTCCATTTTCGGCCGCATGGCACAGCTCGCGAAGGCGAACATCAACTCCTTGCTCGATCAGGCCGAGGACCCGCAGAAGATGCTCGACCAGATGGTGCGGGACTACACCAACAACATTGCCGAGGCCGAGTCGGCTGTGGCCCAAACCATCGGCAACCTTCGCATGCTGCAGGCGGACTATAACGAAGATGTGAAAAACGCGCAGGACTGGGGCAACAAGGCACTGGCAGCATCCCGCAAGGCCGATGAATACCGCAGCGCCGGCGACCTGGCCGACGCCCAGAAATTCGACAACTTGGCCAAGGTGGCGCTGCAGCGCCAGATCGCTTCTGAGAACGAAGCGAAGGCCGCTGAGCCGAGCATTGCCTCCCAGACTGAGGTTGTGGAACGTCTGAAGTCCGGCTTGGACCAGATGAAGGGCAAGTTGAACCAGCTCACTAGCAAGCGCAACGAGCTTGTTGCCCGCTCCAAGACAGCGGCCGCTCAGTCCCAGGTTCACGACGCCCTCAAGAGCATCGACATCATGGATCCCACCAGCGAAGTGGGCCGCTTTGAAGAGAAGATCCGGCGCGAGGAAGCAAAGGTGCTCGGCCAGCAGGAGCTTGCGGCGTCGAGCCTCGACGCGCAGTTCAACCAGCTGGAAGACCTCGGCGAGCAGACGGAGATCGAGGCCCGCCTGGCCGCGCTGAAGTCCGGCGGGAGCCCCCGCCCGGCCCTTGGGACCTCCGGTTCCGCAGCCTCGGAGTCCACGGTGGACGAAGCGGACTTTGACAAGCTCTAG	MVKQSIFGRMAQLAKANINSLLDQAEDPQKMLDQMVRDYTNNIAEAESAVAQTIGNLRMLQADYNEDVKNAQDWGNKALAASRKADEYRSAGDLADAQKFDNLAKVALQRQIASENEAKAAEPSIASQTEVVERLKSGLDQMKGKLNQLTSKRNELVARSKTAAAQSQVHDALKSIDIMDPTSEVGRFEEKIRREEAKVLGQQELAASSLDAQFNQLEDLGEQTEIEARLAALKSGGSPRPALGTSGSAASESTVDEADFDKL	PGPT0014646_317	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014646-pspA-K03969	NA	NA
D1-17_01340	2073			hypothetical protein	ATGCGGTCAATGTTGAAACGTGTACTCGCCGTGATCGGCCTTGCTGGAATGCTGGCGGTTCCCGCCGCAACAGCCTGGGCCGAAAGCCCTGTCACACTGGATCCTGTCACTAAAATCGTTGATACCGCCGGAGTGCTCGGCGGCAAGAAAGCCGACGTCGAAGCGGCTATTAAGAAGCTCGGCACCGAACACGCAATGACGCTGCACGTGGTCTATGTGAAGAAGTTCGAGAACCCGTCGGACGGAACTGCCTGGACTGCTCAAGTCGCAGCCAAGGCGAATTTGCGCTCAAACGCCATGGTGCTGGCCGTTGCCACAGACCCAACCAGCAGGCAATATCAGCTGAGCAAGCCCAGGGGCAGCAAAATCACCGACGCGCAGCGTGACACCATCATCAAGAGCGCAGTCGACCCCCAGCTCCGCAATGGTGACTACGCTCAGGCCGCCATTGACACAGCCGCAGCTATCGGCGACGCCGCAGGGGGCGGCAGCGGAACAGTTCCCTCCGGTGACGGAGCGGGCACGGCCGTCCTGGTGGGTGCAGGAGTCGTAGCCGCCGGAGCCGGAACGTACCTCTACCTCCGCAGCAGGCGGAAGAAGGCAAGCCTGGCTTCCAGCGCCAGCTACGGCCCGCAGGGCGGCGAGGCTGATCCCTTGGCCGCGCTGAGCGTCGAAGAACTCCGCCGGAAGAGCGGATCGCTGCTCATCGAGGCTGACGACGCCATCAAGTCCAGCGAGCAGGAACTCGGCTTCGCTGAGGCGCAGTACGGTGAGGCCGCAGTCGGCAATTTCACGAAGGCACTTGAAGAGGCCAAAGCCCACATGGCCGAATCGTTCAAGCTGCAGCAGCAGCTGGACGACCACATCCCGGACACGGAAGAGCAGCAGCGCACCTGGCTGGGCGAAATCATCCGCCGGTCGGAAGCGGCCCTGGCATCCCTGCAGGAGCAGAAGGCGGACTTTGACTCCCTGCGTGAGCTCGAAAAGAATGCTCCTCAGGCCCTCGCAGCGGTCGAATCCGGAGCGGCAGCTGCCGACGCGAAGATCACCAACGCCGACCGTACCCTCGATGAGCTGCGCGGCAAGTACGCCGAAAGCGCGCTCATCCAGGTGGCGGACAACATCACGCAGGCGAAGGAGCGGCTGGCTTTCGTGCAGAACGCGGGCAACACCGCGCGGGAGAAGCTTGCCTCTGGCGAAGGAAGCTTGGCCGCTGTTGCCGTCCGCGCTGCCGAAGAGAGCCTGCACCAGACCAACGTGCTGCTCGACGCGATATCGAAGGTCGCGAGCAACCTCGACAAGGCCCGGCAGGGCCTTGAGACGGCGGTGGTGGATACGTCGCAGGATCTCGCCCAGGCCAAGGCCATGATCCAGTCCGGCGCCCACCCGGAGCTTGCCGGTCCCGTGGCAGGCGTCGAGACGGTGCTCGCCCAGGTAAAAGGTGAGATCCAGGACGGCCGGATTGACCCGATCGCCACCCTGGAACGGGTGGAAGCGGCTCACCAGGCTTTGGACCGTGCGCTCAGCGGGATCCGCGACCAGCAGGAACAGGCGCGCCGCGCTCAGGCGTCGCTGCAGCAGACCATCATGGCAGCGCAGGCCCAGATCAGTGCGACATCGGACTACATCACCGCCCGGCGCGGCGGCGTGGGAACAGAGGCCAGAACCCGCCTGGCCGAGGCGCAGCGCAATCTCGATTACGCCCTCTCCATCTCCCGCAACGATCCCGTCACCGCCCTGACCTATGCCCAGCAGTCGCATGCGTTGGCAACGCAGGCAGCCCACCTGGCACAGTCCGACGTCGATAACTTCGGCGGTTACGCCAACCAGGGTTACGGCCGGGGCGGCATGTTCGGAGGCGGCGGAGGCGGCGGCCTCGGAGGCGCAATCCTGGGCGGGATCCTGATCAACTCCATCCTGAACGGCGGTAGCGGTGGAGGCTGGGGCGGCGGCCACAGCGACGGTGGAGGCTGGGGCGGCGGCCACAGCGACGGTGGTGGCTGGGGCGGCGACTCCGGCGGCGACTCCGGCGGAGATTGGGGCGGCGACTTCGGCGGAGGCGGAGACTTCTAG	MRSMLKRVLAVIGLAGMLAVPAATAWAESPVTLDPVTKIVDTAGVLGGKKADVEAAIKKLGTEHAMTLHVVYVKKFENPSDGTAWTAQVAAKANLRSNAMVLAVATDPTSRQYQLSKPRGSKITDAQRDTIIKSAVDPQLRNGDYAQAAIDTAAAIGDAAGGGSGTVPSGDGAGTAVLVGAGVVAAGAGTYLYLRSRRKKASLASSASYGPQGGEADPLAALSVEELRRKSGSLLIEADDAIKSSEQELGFAEAQYGEAAVGNFTKALEEAKAHMAESFKLQQQLDDHIPDTEEQQRTWLGEIIRRSEAALASLQEQKADFDSLRELEKNAPQALAAVESGAAAADAKITNADRTLDELRGKYAESALIQVADNITQAKERLAFVQNAGNTAREKLASGEGSLAAVAVRAAEESLHQTNVLLDAISKVASNLDKARQGLETAVVDTSQDLAQAKAMIQSGAHPELAGPVAGVETVLAQVKGEIQDGRIDPIATLERVEAAHQALDRALSGIRDQQEQARRAQASLQQTIMAAQAQISATSDYITARRGGVGTEARTRLAEAQRNLDYALSISRNDPVTALTYAQQSHALATQAAHLAQSDVDNFGGYANQGYGRGGMFGGGGGGGLGGAILGGILINSILNGGSGGGWGGGHSDGGGWGGGHSDGGGWGGDSGGDSGGDWGGDFGGGGDF				NA	NA	NA	NA	NA
D1-17_01341	1722			hypothetical protein	ATGACCGAGAACCCAGTACCGGGCACAGCTCCCGAGAACCGAGACCCTGCAGGACGGCCCGCCGATCCTTCGGCTTCGGCTCGGCCGGGGCGTCCGGAGGGTCTCCGAGCGGGGGAAAGCCAGCCACAAGAGGGGCTGGCCAACCACAGTGAGCGCCAGGACGCGCAGGACGCACACCCCGTGCACGGCGAAGAAAATCCCACCATGCGGCTGCACGCCTCGGACGGAGCAGAAAGCACCCCCGACGCGGCAGCAAGCACCCCCGACGGTGTAGAAAATACGCCGGGCAACAGTGGTTACTCCCCGCTCTCGAACGGTCCGCGGCCGGAGTACCCCCAGCATGCCCCGTTTTATGGGCAGCACTCCGGGCCTGCCACGCAGCAGTTCGCCTCTGTGCCGCACGCACCGCGGCATGCCGATGACCATGGTCAGCAGCACGGACACGGCGAGCTGCCGGGGCACGGACAGCATGCCGCACCTTCCCCGTTCGCGGACAACCGTGCGAACGCGCCGAAGCGCAAAGCGACCTTCGGCGTGGGCACCCTGGTGGCCAGCATCCTTGCCGCCGGCCTCGTCGGCGGCAGTGTGGCAACAGTGGGGGCCGGCAACCTCTTCGACGGCACCGCGCCGGCCGTGAGCACGGGGAGCCAGCCCGGAACCGTCATCGTGAACAACAAGGACGACGTCAACGTCATCACGGCGGCGGCAACCAAGGCCTCTCCCAGCGTGGTCACCATCAAGGCCACGAAGGGCGGCGAGGGCGGCACGGGTTCTGGCGTGATCCTCGACGAACAGGGGCACATCCTGACCAACACCCACGTAGTGACGCTGGACGGGACCGTCGCCAACCCGGACATAGAGATCCGTACTAACGAGGGCCGGGTGCTGTCAGCGAAAGTCGTCGGAACGGATCCGCTGTCCGACCTCGCCGTCATCAAGGTGGACAACCCGTCCGGCCTCACTCCTGCAACCCTTGGAGATTCGGGCAAGCTGAACGTGGGCGATACGGCCGTGGCGATCGGCTCGCCCCTCGGCCTGAACGGCACGGTAACGGACGGCATTGTCTCCACCCTCAACCGGACAATCAGCGTCGCCTCCTCCGCAGCCCCCAAGGAAGGCGGGGACAAGTCCCAAGGCGGCGACCAGGGCTTCGAGTTTGCTCCTCCCGGCCAGGGACAGGGCCAGAGCTCGGCGAACAAGGGCTCCATTTCGATCAACGTCATCCAGACTGACGCGGCGATCAACCCGGGCAACTCGGGTGGTGCACTGGTCAACAGCAAGGGCGAGATCATCGGCGTCAATGTCGCCATCGCTTCAGCCGGCGGCGGTTCAGCCGCGGCCGGGACGGGCAACATCGGGGTCGGCTTCAGCATCCCGATCAACCACGCCAAGCGCGTCGCCCAGGAAATCATCGACAACGGCAAGGCAACCCACGGCCAGCTCGGCGTCAGCGTCAAGGAGAAGACCTCCAAAGACTCGTCCTCAGGGTTCTCCATCGGTGCGGATGTCGCCACAGTGGAACCCAACTCCGCAGCAGCAAAGGCGGGCATCAGGGTCGGTGACGTTGTCACACGCTTCAATGACCTCGCCATCAGCGATCCGAACCAGCTGACCGCGGCGGTCCGGGAGCAGCCGGCCGGCGCATCGGTGAAGATCACGATTCAGCGGAATGGCCGCGAACAGCAACTTGACGTGACCCTCGGCGCCGCAGCCGAACAATAG	MTENPVPGTAPENRDPAGRPADPSASARPGRPEGLRAGESQPQEGLANHSERQDAQDAHPVHGEENPTMRLHASDGAESTPDAAASTPDGVENTPGNSGYSPLSNGPRPEYPQHAPFYGQHSGPATQQFASVPHAPRHADDHGQQHGHGELPGHGQHAAPSPFADNRANAPKRKATFGVGTLVASILAAGLVGGSVATVGAGNLFDGTAPAVSTGSQPGTVIVNNKDDVNVITAAATKASPSVVTIKATKGGEGGTGSGVILDEQGHILTNTHVVTLDGTVANPDIEIRTNEGRVLSAKVVGTDPLSDLAVIKVDNPSGLTPATLGDSGKLNVGDTAVAIGSPLGLNGTVTDGIVSTLNRTISVASSAAPKEGGDKSQGGDQGFEFAPPGQGQGQSSANKGSISINVIQTDAAINPGNSGGALVNSKGEIIGVNVAIASAGGGSAAAGTGNIGVGFSIPINHAKRVAQEIIDNGKATHGQLGVSVKEKTSKDSSSGFSIGADVATVEPNSAAAKAGIRVGDVVTRFNDLAISDPNQLTAAVREQPAGASVKITIQRNGREQQLDVTLGAAAEQ	PGPT0021000_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021000-pepD-K08372	NA	NA
D1-17_01342	813	etfB_2	COG2086	Electron transfer flavoprotein subunit beta	GTGGAAGAGACATTGAAGATCATCGTCCTGGTCAAGCATGTGCCGGACGCCCAGTTCGACCGGCACCTCACTGGCGAGGACCACACGACGGACCGCGGCGAGAGCATCCTGTCCGAGCTGGATGAATACGCCCTGGAGGCTGCGCTGCAGCTGATCGAGGCGCGCGGCGGGAGCAAGGCGGGCAACAAAGTGATCGCCCTTAGCATGGGACCGGCCGGGGCGGTCAATGCCGTCAAGAAGTCCCTGCAGATCGGCGCCACCGAGGGTGTCCACCTGACGGATGATGCGCTCGCCGGCTCCGACGCCGCCGCTACGTCCCTCGCGCTCGCGGCCGCCATCCGGCACCTGGGCGCTGACAGCCCCGTTGACCTGGTCCTTACCGGCATGGCGTCCACGGATGGCGAAACATCCCTGGTGCCGGCCCAGCTCGCGGAGCGCCTGGGCCTTCCCCAGGTGACCTTCGCATCGTCTCTGGAGGTCGACGGCGGGCGGATCGTCGCACGCCGCGACGCGGACACCCATTCCGAAACCGTTGAAGCGTCCCTGCCCGCGGTGGTGTCCGTGACGGACCAGATCAACGAACCGCGGTATCCAAACTTCAAGGGCATCATCGCCGCCAAGCGCAAAAGCATTACCACGCTCTCGCTGTCAGAGATCGGCGTTGACCCGTCCCAGGTGGGGCACGCCGGGTCTTGGACCACGGTGGTGTCGGCGGAGGAACGCCCGCCGCGCACCGCCGGCACCATCATCACGGACGAAGGCGACGCCGGCATCAAGCTGGTGGACTTCCTGGCCGCACAGAAGCTGCTCTAA	MEETLKIIVLVKHVPDAQFDRHLTGEDHTTDRGESILSELDEYALEAALQLIEARGGSKAGNKVIALSMGPAGAVNAVKKSLQIGATEGVHLTDDALAGSDAAATSLALAAAIRHLGADSPVDLVLTGMASTDGETSLVPAQLAERLGLPQVTFASSLEVDGGRIVARRDADTHSETVEASLPAVVSVTDQINEPRYPNFKGIIAAKRKSITTLSLSEIGVDPSQVGHAGSWTTVVSAEERPPRTAGTIITDEGDAGIKLVDFLAAQKLL	PGPT0001035_744	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-17_01343	954	etfA_2	COG2025	Electron transfer flavoprotein subunit alpha	ATGGCAAACGCACTTGTATTCATTGACAACCCGGGCCAGGTCCTCAAGAAGAGCAGCTTGGAACTGCTGACCACCGCCCGTACCTTCGGCGAGACTGCCGTCGCCGTTAACGGCGAACTGAACGACGACGTCGCCGCCACCTTGGGCGCTTACGGCGCCTCCGCGGTCTTCCGTCCGTCCGTGCAGGACCTGGACGACTACCTGGTTGCTGCCAAAGCTGCATTCGTCGCTGCGGTGGTGGACAAGTCCGGCGCCACGACGGTTCTGCTCGAAAACTCGCCGGAGGGCAAGGAAATCGCCGCGCGGCTCGGGATCCGCCTGAGCGCAGGCGTCATCACGGACGTCGTCTCAGTCGACGCCGACGGCACCGCCCATAAGTCGGTGCTGGCCGGTTCCTACACATCCGCGTGCAAGGCGAACACCCCGGTCAGCGTGCTGAACGTCAAGGCCAACACGGTCGAGCCGCAGCCTGCAGCGGCACCCGCCACACCCGAAACCGTGACCGTGGATGTCCCAGCCGACGCTGCCGCCACGGCAGCCCGGATCACCGCCCGTGAGCAGAAGGTTGCCAGCGGACGCCCGGATCTGACCGATGCCCGGATCGTCGTGGCAGGAGGCCGCGGACTGGACGGGGATTTCACCCCGGTGGAGGAGCTCGCGGACGCCCTCGGCGCCGCGGTGGGAGCTTCTAGGGCAGCAACGGACGCCGGCTGGATCAGTCACGACGCCCAGGTCGGACAGACCGGCAAGACCGTCTCGCCCCAGCTCTACATTTCTGCAGGTATCTCCGGAGCCATTCAGCAGAAGGCAGGCATGCAGACGGCCAAGGTCATCGTGGCCGTCAACAAGGACCCCGAATCGCCGGTCTTCGAAATCGCGGACTTCGGCATTGTCGGCGACCTTTTCAAGGTGCTGCCCCAGGCGACCGAAGAAATCAAGAAGCGCAAGGGCTGA	MANALVFIDNPGQVLKKSSLELLTTARTFGETAVAVNGELNDDVAATLGAYGASAVFRPSVQDLDDYLVAAKAAFVAAVVDKSGATTVLLENSPEGKEIAARLGIRLSAGVITDVVSVDADGTAHKSVLAGSYTSACKANTPVSVLNVKANTVEPQPAAAPATPETVTVDVPADAAATAARITAREQKVASGRPDLTDARIVVAGGRGLDGDFTPVEELADALGAAVGASRAATDAGWISHDAQVGQTGKTVSPQLYISAGISGAIQQKAGMQTAKVIVAVNKDPESPVFEIADFGIVGDLFKVLPQATEEIKKRKG	PGPT0001040_3064	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-17_01344	777	mca_1		Mycothiol S-conjugate amidase	TTGTCTGCACAAGTTCCGCCGCAGAGCCCGTTCGACCCGGAGAAGCACCGGGTCGAGCGGGTGCTCTGTTTTGCGGCCCATCCCGACGACATCGACTTTGGCGCCGCCGGCACGGTGGCGGCCTGGACAGCAGCAGGTGTTGAGGTCACCTACTGCATCATGACCGACGGCGATGCGGGGGGCTTTGATCCCGCCCACCGGGCGGAAATTATCGCTCTCCGGTCCGCGGAGCAGGAGCGCGCCGCTTCACTCGTCGGCGTCACCGATATCCACTACCTTCACGAGCGGGACGGCTTTCTCGAGCCGAACCACCTGGTGATGCTGGGCGTGGTGAAGCTGATCCGCGAGGTCCGCCCCGACGTCGTGCTTTCCATGCATCCGGAACGGAACTGGGACCGCATCCAGAAGAGCCATCCGGACCACCTGGCCGTGGGGGAGGCCGTGACGCGGGCCATCTACCCCGCCGCCGAGAACCCGTTCGCCTATCCGGAGCTCGCGGAATCGGGGCTGGACGCCTACAAGGTGCCGTGGCTGTGGATGTTTGCCGGGCCGGAGGAACGGGAGAACCATTTTGTTGACGTGACGCCGCACGTGGAAAGCAAGCTGGAAGCGATCCATGTCCACGTCAGCCAGCACCCCGATGCCGCAGCAATGGAGACGACGGTCCGCAAGGGCATGCATCTCAATGCCAGGCGGGCAGGCCTTCCGGAGGGCCGCAGTGCCGAAGCCTTTCACGTTGTGGCCATCAACGGCCCGGGCACCATCGCCGGTTTTTAG	MSAQVPPQSPFDPEKHRVERVLCFAAHPDDIDFGAAGTVAAWTAAGVEVTYCIMTDGDAGGFDPAHRAEIIALRSAEQERAASLVGVTDIHYLHERDGFLEPNHLVMLGVVKLIREVRPDVVLSMHPERNWDRIQKSHPDHLAVGEAVTRAIYPAAENPFAYPELAESGLDAYKVPWLWMFAGPEERENHFVDVTPHVESKLEAIHVHVSQHPDAAAMETTVRKGMHLNARRAGLPEGRSAEAFHVVAINGPGTIAGF				NA	NA	NA	NA	NA
D1-17_01345	834	rskA		Anti-sigma-K factor RskA	ATGAACGAAACGAATGAATCACATGGCCGTCAACTGCCGCGGGCCTTCGCTGCGGACATTTCCACTGACCTGACCGCAGGCCGCGTGGTTGAGCTTGCCGAAATCTACGCACTGGACGCCGTGACCGGCGAAGAGCGGGATGCGATCGAAGAGTACATTAGGGCAGCTCCTGAGGCCGAGCGCGAAGCGTTCCATGAGCGCGTCCGCCAGGCCCGGGAAACCCTGGCCATGACCTTCACTGCAGAAGAGGAGCCTCCGGCGGATCTGTTTGACCGCATAGCCGCGCAGCTTCCGGGGACTCCGGACACAGGCCGTGTGGAGGCACAGGCGCAGCCACAGGCAGTGGATGAGCTTGCCGCTGCGCGGGGACGCCGGGATTTCCGCCGGCGCACCGGCGGCATGAGGAACTGGATTATCGGAGTGGCCGCTGCTGCATTTATCGCACTCGGCGGCGTCGGTGTAGGCGCCTATATCGCAAACCAGAATGATCCGCTAAGGCAGGTCCTCGAAGCGCAGGATGTGCGCCAGGCCACCGTCGAGGTCAGCGGTGGCGGCACAGCGACGCTCACCATCGCGCCGTCGAAGGACGCCTTGGTGGTCCGGATGAAGGATGTCCCCGCTCCTCCCCCGGGCAAGGTGTACCAGATGTGGCTCATCCCCAAGGACGGTTCCACTCCCGTTTCCCAGGGCCTGATGGACGAGGAGGCGCTGTCCAAGCCGGCCGTCGTCAAGGGCATCGGTTCTGCTGCCGCCCTCGGCATCACTGTGGAGCCGGCCGGCGGTTCCCAAGCGCCGTCCCTTCCCACCGTCGCCTCCGCACCACTTAACACATAA	MNETNESHGRQLPRAFAADISTDLTAGRVVELAEIYALDAVTGEERDAIEEYIRAAPEAEREAFHERVRQARETLAMTFTAEEEPPADLFDRIAAQLPGTPDTGRVEAQAQPQAVDELAAARGRRDFRRRTGGMRNWIIGVAAAAFIALGGVGVGAYIANQNDPLRQVLEAQDVRQATVEVSGGGTATLTIAPSKDALVVRMKDVPAPPPGKVYQMWLIPKDGSTPVSQGLMDEEALSKPAVVKGIGSAAALGITVEPAGGSQAPSLPTVASAPLNT				NA	NA	NA	NA	NA
D1-17_01346	717			hypothetical protein	GTGAAGACACTACATCCGGGCAGGACGCCATCCCGTTTTGCCCGCCATGGTGCTGCCGGCTTCCGGCAGGGTGCTGAGGGATTGCCGTCGGGCGACCTATGCTTGACAGTAATGGAAACTCCCAACGCGCCGAACTTCGACACCCCCGCGCCGCCGGGCACTGCCGTCGACCTTAACCGCCAGCTCGCGGGACTGCTGGAGCGCGTCGCGGGCGGTGATCAGCCGGCCTTCGCTGAGTTCTATCAGCTCACGTCCAGGCGGGTTTACGGGATGGCGCGCCGGGTCCTCATCGACCCGGAGCTTAGCGAAGACACTACACAGGAGGTATTCCTGCAGGTCTGGCAGAGCGCTGCCAAATTCGACGCGGCGAGCGGAAGCCCGTTGGCTTGGCTCATGACCATCTCGCACCGCCGTGCAGTGGACAAAGTGCGCTCGTCGCAGTCATCCAGTGACCGCGAGGCCAGGTACGGCGCCGGCAGCCAGGAGGTCGATCACGATTCGGTAGCCGCCGAGGTGGACAACCGGCTCGAAGCTGAAGCCGTGGTGCGGTGCCTGGGCACGCTGACGGAAACCCAGCAGGAATCCGTGCGGCTGGCTTACTACGGCGGGCTCACGTACCGGGAAGTGGCCGAAAAGCTCAACGCTGCCATACCGACCATCAAGTCCCGCATTCGAGATGGACTGATTCGACTGAAGAACTGCCTGGGGGTGAGTTGA	MKTLHPGRTPSRFARHGAAGFRQGAEGLPSGDLCLTVMETPNAPNFDTPAPPGTAVDLNRQLAGLLERVAGGDQPAFAEFYQLTSRRVYGMARRVLIDPELSEDTTQEVFLQVWQSAAKFDAASGSPLAWLMTISHRRAVDKVRSSQSSSDREARYGAGSQEVDHDSVAAEVDNRLEAEAVVRCLGTLTETQQESVRLAYYGGLTYREVAEKLNAAIPTIKSRIRDGLIRLKNCLGVS	PGPT0014960_5120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-17_01347	468	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	GTGTTCCGCATCCTTTTCCACACGCCTGAGATCCCCGGCAATACCGGCAACGCAATCCGCCTCGCAGCCATCACCGGCGCCGAGCTGCACCTCGTTGAGCCCTTGGGCTTCGATTTCTCTGATGCCAAGCTGCGCCGCGCGGGACTGGACTATCATGACCTCGCGGTAGTGACCGTCCATCCCGACCTCGACTCCGCCTGGCTGGCGCTGCAGCCGGAACGGGTCTTTGCGTTCACCTCGGATGGGGAGGTGTCGTATGTGGACATTGCCTACGAGCCCGGTGACGTCCTGCTGTTCGGGCCAGAGTCCGTGGGCCTGCCAGAACATGTAAAGCACGATCCCCATGTCACGTCGCGGGTCCGGCTGCCGATGCTGCCCTCGCTGCGGTCACTGAACCTTGCCAATGCCGCTTCCATCGCCGTGTACGAGGCGTGGCGCCAGCAGGGATTTGCCGGAGCCCGGCTGTAG	MFRILFHTPEIPGNTGNAIRLAAITGAELHLVEPLGFDFSDAKLRRAGLDYHDLAVVTVHPDLDSAWLALQPERVFAFTSDGEVSYVDIAYEPGDVLLFGPESVGLPEHVKHDPHVTSRVRLPMLPSLRSLNLANAASIAVYEAWRQQGFAGARL				NA	NA	NA	NA	NA
D1-17_01348	948	dnaJ_3		Chaperone protein DnaJ	TTGACCGAGGGCAACAGCTCCCATTACGAAGTGCTCCGCGTCCCCGTGACCGCCACGGACAAAGAGATCAAGGTGGCCTACCGCAGGGCAGCACGGGTCTCACACCCCGATCACGGCGGCGATGCCGCCGCGTTCCGGCTGGTGACTCTTGCCTATGAGACACTGATAGATCCGGGCCGCAGGGCCGCCTACGACCGTTCCTACGCAGCGGGTCCCCGTCGCCGGCAGAGGGAAGGTGGGGACGAAGCGCATTTTGATGCACCTCCGGCCGGAAGCCACGCCTCCGCGACGATCCATCGCCCAGGCACTCCGCGGGACACTTCCGGCGATGCCCCTGTCTACGTGCCGCCCTTCGATGTTCCGGGCACAGTTCCCCTGATCCCCTTCGAGATCGCCAACCGCCAGATCCACGGCGTGCCCCGGAAGCGTGGAATTTTTGGTGCAGAAGCCAGGATTCAGCGGGAGATGCGCACCGTCCAGCTCATCACCCGTCAGGTACTGCCCGCCATTCCGGCAGCCCGCCTCATCAACGGACTGCAGTCCCCCGCGGACAACAGCCACATCGACCACGCCCTGTTGTCGGGTTACCGCCTGGCGCTGATCGGCTCCATGCTGCTGCCGAAGGGGGCCTATGCCTGGGACGGCACAACCCTGAGGCACGGCAACCGGTCTATCGCCCCGCCGCAGCTGGGCCGCGTTGTCTGGGCCATGCAGGACATTTTTCCCGAGCTGAATGTGACCGGATGGACCGTTGTGCACAGCCCGGACGGCAACCTTCACGAACCCGTGATAGACCGCCACCGCCGCTCCCAGGGCTCCCCGGATGTGGTGCAGGTGGTCAATGCGGCGGGGCTGGCCAAGGGCCTCAAACAGTTCCTCTCTTCAGGACCCGCCCCGAATACAGTCAACGTCACCGTGCTGGCCCGGCTGCTCAGGGGGATGCACTGA	MTEGNSSHYEVLRVPVTATDKEIKVAYRRAARVSHPDHGGDAAAFRLVTLAYETLIDPGRRAAYDRSYAAGPRRRQREGGDEAHFDAPPAGSHASATIHRPGTPRDTSGDAPVYVPPFDVPGTVPLIPFEIANRQIHGVPRKRGIFGAEARIQREMRTVQLITRQVLPAIPAARLINGLQSPADNSHIDHALLSGYRLALIGSMLLPKGAYAWDGTTLRHGNRSIAPPQLGRVVWAMQDIFPELNVTGWTVVHSPDGNLHEPVIDRHRRSQGSPDVVQVVNAAGLAKGLKQFLSSGPAPNTVNVTVLARLLRGMH				NA	NA	NA	NA	NA
D1-17_01349	879			hypothetical protein	GTGAAAGCGCCCCTCTGCCTCGTCTTTGCCACGCTGTTCTGGTCGGGAAACTTTGTCGTAGGGCAGGCGGCTGTCGAGTCCATTACACCGCTTGAGCTCACATTTTGGCGCTGGACCTTTGCCGCGCTACCGCTGCTTCTCCTGGCACAGCTGGCGGAGAAGCCGGACTGGCGCGCGGTACTGCGGCGCTGGCCCTCCCTGCTGCTCCTTAGCGCCCTAGGCATGAGCACCTACACCCTGTTGCTCTACACCGCACTCGGGCACACCTCAGCCCTGAATGCCTCCCTGATCACGGCGGCCAATCCGGCCCTGATCGTAGTGATGGCCCTGTTCCTGCCTGGAGACAGGCCGGGACCGGCGGCCTGGTTTGGCATCGCGCTGGGCCTGTTCGGTGTGCTGCTGGTGCTGACCGCCGGCGATCTGCAACAGATTGCAGGGCTTTCCTTCAACCTCGGCGAACTGCTGATGCTCGGCGCGATTGTCGTCTGGGCCTTCTACACGATCATCGCCAGACGGCAGGGGCTGCCTCCAATTGCGGCCACCGCGGTCCAGGTTTCCATGGCAAGCCTGACCCTTGCGCCCGCTGCCCTGGCCGCGGGCGCCGCGCTCCCCGATAATGCCGGAGCAGGCTGGTCGCTGGCATACATCGTCATCTTCCCGTCACTCGGCGCATACCTGCTGTGGAACCTGGCCCTCAGGAGCACAAGCCCCGCCACTGCGGGAAACTATCTCAACCTGATGGTGGTCTTCACGGCGGCCATAAGCCTGCTCCTCGGGATGCCGGTGACCGTGCCGCAGGTGCTCGGCGGAATCCTCGTGATCTCCGGCGTGCTGCTCACCGGCCTCCGAAGGCGTTCGACCCAGCCTGTGGCTGCCTGA	MKAPLCLVFATLFWSGNFVVGQAAVESITPLELTFWRWTFAALPLLLLAQLAEKPDWRAVLRRWPSLLLLSALGMSTYTLLLYTALGHTSALNASLITAANPALIVVMALFLPGDRPGPAAWFGIALGLFGVLLVLTAGDLQQIAGLSFNLGELLMLGAIVVWAFYTIIARRQGLPPIAATAVQVSMASLTLAPAALAAGAALPDNAGAGWSLAYIVIFPSLGAYLLWNLALRSTSPATAGNYLNLMVVFTAAISLLLGMPVTVPQVLGGILVISGVLLTGLRRRSTQPVAA				NA	NA	NA	NA	NA
D1-17_01350	1230	iscS_1	COG1104	IscS-like cysteine desulfurase	GTGCCTGCATACCTGGACCACGCCGCCACCACACCCATTGCCGCCGAGGCTTTGGCCGCGCTGACCCGCGAACTGGTGCGGACAGGCAACCCGTCATCCCTGCACGGCGCTGGCCGTCGCGCAAGGCGTGCCGTTGAGGACGCGCGGGAAATCATTGCCGCGGCCGCCGGGGCCCATCCGTCGGAAGTGATCTTTACCTCAGGGGGAACCGAAGCCGACAACCTCGCCGTCAAGGGCCTGTACTGGTCCCGGGTCAGCGAGAACCCGAGCCGGCGGCGGATACTGTGCTCCGCCGTCGAACATCATGCCGTCCTGGACACCGTGGAGTGGCTGGAACGCCACGAAGGCGCCGACGTCTCGTGGCTGCCGGTGGATTCCGAGGGTGTCCTGGATGTTGAGGCCTTCGAGGCCGAAATCCTCCGCGACCCCGGATCGGTCGCCCTCGTGACCGTCATGTGGGCCAACAACGAAGTCGGAACAATACAGCCGGTCCAGCGCATCGTGGACATTGCACACCGCGCCGGGGTGCCCGTTCACTCGGACGCCGTGCAGGCTTTCGGGTCCATTCCCGTGGATTTCAGGGCGACCGGGCTGGACGCCATGTCCATCTCCGGCCACAAGATCGGCGGCCCGGTGGGTGTAGGGGCGCTCATCCTGGGACGAGCCGTCAAGCTCACGCCGGTCCAGCATGGCGGCGGCCAGGAGCGGGACGTGCGGTCAGGAACCCTGGATACCGCGTCGATCGCGGCTTTTGCCGTCGCCGCCGACAGTGCGGCGAAGAACCTTCCCTCAGAGGCTGCCAGGATCGAGGCCCTGCGGGACCGGCTGATCGACGGCGTCCGAAACGCCGTTCCCTCGGCGGTTCTCCGCGGGGCGCCCGGAGCCGGCAGGCTGCCGGGCAACGCACACTTCACCTTTCCGGGTTGCGAAGGCGACTCGCTGCTTTTCCTCCTTGATCTTGCCGGCGTGGAGTCCTCCACCGGCTCCGCCTGCACGGCCGGCGTTCCGCGCCCCTCCCATGTCCTGCTGGCAATGGGCCTGGATGAAGAGACCGCGCGCGGGGCCCAGCGGTTTACGCTTGGCCATCCATCAACGGAGGCGGACGTGGACGCTCTCCTGGCGGCCCTGCCCGAGGCGTACACCCGTGCGCGCCAGGCCGGAATGGCGGGCCACGAATCCTCGATCCAGACGGCCGGTACCACGGGGCGCCGCGGTCCTGCCGCAGGCTGA	MPAYLDHAATTPIAAEALAALTRELVRTGNPSSLHGAGRRARRAVEDAREIIAAAAGAHPSEVIFTSGGTEADNLAVKGLYWSRVSENPSRRRILCSAVEHHAVLDTVEWLERHEGADVSWLPVDSEGVLDVEAFEAEILRDPGSVALVTVMWANNEVGTIQPVQRIVDIAHRAGVPVHSDAVQAFGSIPVDFRATGLDAMSISGHKIGGPVGVGALILGRAVKLTPVQHGGGQERDVRSGTLDTASIAAFAVAADSAAKNLPSEAARIEALRDRLIDGVRNAVPSAVLRGAPGAGRLPGNAHFTFPGCEGDSLLFLLDLAGVESSTGSACTAGVPRPSHVLLAMGLDEETARGAQRFTLGHPSTEADVDALLAALPEAYTRARQAGMAGHESSIQTAGTTGRRGPAAG	PGPT0000065_1168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0000065-nifS|iscS-K04487	NA	NA
D1-17_01351	1122	mnmA	COG0482	tRNA-specific 2-thiouridylase MnmA	ATGAGCGGCGGAGTTGATTCAGCCGTTGCAGCCGCCCGTGCCGTCGAGGCCGGGCACGACGTCGTCGGGGTCCACCTGGCGCTGTCACGGATGCCGGGCACCCTCCGCACGGGAAGCCGAGGCTGCTGCACCATCGAGGATTCCCGTGACGCCTGGCGCGCCTGCGATGTTCTCGGCATCCCTTACTACGTGTGGGACTTCTCAGAGCGGTTCAAGGAAGATGTGGTCCAGGACTTCATTGACGAATACGCCGCCGGCCGCACTCCGAACCCCTGCATGCGCTGCAACGAGCGCATCAAGTTCGCCGCCCTGCTGGAAAAGGCCATCGCCCTCGGATTCGACGCCGTCTGCACCGGGCATTACGCAAAGGTGATCGAGGACGCTGACGGCAACCGCCAGCTCCACCGAGCCGCGGATTGGGCAAAGGATCAGAGCTACGTCCTCGGCGTGCTGACCCACGAACAGCTCAAGCACTCGATGTTCCCGTTGGCGGATACTCCCTCAAAGGCCGAGGTCCGGGCCGAAGCCGAGCGGCGCGGGCTTTCCGTGGCGAACAAGCCGGATAGCCACGACATCTGCTTCATCCCGGATGGTGACACCGCCGGCTGGCTCGCCGAAAAGATCGAGATGACCACGGGTGACATCGTGGACGAAACCGGATCCAAGGTTGGGGAGCACCCTGGGGCAAACGCCTTTACCGTGGGGCAGCGCCGCGGACTGAAGCTCGGCCGGCCGGCAGCCGACGGAAAGCCCCGGTTCGTGCTCGAGATCCGACCCAAGGAGAACAAGGTTGTGGTGGGTCCGGAAGCGCTGCTCGCCATTGATGAGATCCGCGGCATCAAGGTTTCCTGGGCAGGGGTGCCCATTGCCGAGGTCGCCACGGGCGAGGACTTCGACTGCCATGCCCAGGTGCGCGCGCATGGCGACCCCGTCCCTGCCACGGCAAGGGTGGAGCGCGTTGCCGATGACAGCGGCACCGAGCGCGAGCTGCTTGTGGTGACGCTGACGGACCCGCTGCGTGGTGTTGCTCCCGGCCAGACAGTTGTGCTGTACCAGGGTTCGCGGGTACTCGGCCAGGCGACCATCGACGCCGCGCGTTCGTTGCAGCGCGCTGAGCTCTAG	MSGGVDSAVAAARAVEAGHDVVGVHLALSRMPGTLRTGSRGCCTIEDSRDAWRACDVLGIPYYVWDFSERFKEDVVQDFIDEYAAGRTPNPCMRCNERIKFAALLEKAIALGFDAVCTGHYAKVIEDADGNRQLHRAADWAKDQSYVLGVLTHEQLKHSMFPLADTPSKAEVRAEAERRGLSVANKPDSHDICFIPDGDTAGWLAEKIEMTTGDIVDETGSKVGEHPGANAFTVGQRRGLKLGRPAADGKPRFVLEIRPKENKVVVGPEALLAIDEIRGIKVSWAGVPIAEVATGEDFDCHAQVRAHGDPVPATARVERVADDSGTERELLVVTLTDPLRGVAPGQTVVLYQGSRVLGQATIDAARSLQRAEL				NA	NA	NA	NA	NA
D1-17_01352	660			hypothetical protein	ATGAGGATCGCGGTTCTTGGTACCGGCGTGGCGGGCAGGACCCTTTCGGGAAAACTGGTGGCAATAGGGCACAGCGTCAGCATGGGGTCGCGGAGCGCCACCAATGAGACAGCTACACAGTGGGCAGCCGAGGCTGGACCGCTGGCCAAAGCAGCCACGTTTGCGGATGCAGCGGCCGAGGGCGAAGTGGTCATCAACGCGACGCCGGGCGCCGTGTCCCTCAAGGTACTTGCCGCAGCGGGCACCAGGAACCTGCATGGCAAGGTGCTGATCGACGTGGCCAATCCGTTGGACCACTCGGCTGGCTTCCCGCCGCCGCTCTCCATAGCTAATACAGACAGCCTGGCGGAAACGATCCAGCGGGCATTCCCCACTGCAAGGGTGGTGAAAGCACTGAACACCATGCGCGCAGATGTGATGGTGGCCCCGGGCCACCTCGCCGGCGGCGACCACGACGTCTTCCTGGCCGGTGATGAAACCGAGGCCAAGGACGTGGTGCGGGGGCTGCTGGCTGAGTTCGGCTGGCGGCCGGAGCACATCAGGGACCTGGGCGGGCTGGATGCGGCACGGGGAATGGAGATGTGGCTACCGCTGTGGCTGCGGATCTTCATGAGCCAGAGCACCAACAAGGCATTCAACATCAAAGTGGTCTCTGCATAG	MRIAVLGTGVAGRTLSGKLVAIGHSVSMGSRSATNETATQWAAEAGPLAKAATFADAAAEGEVVINATPGAVSLKVLAAAGTRNLHGKVLIDVANPLDHSAGFPPPLSIANTDSLAETIQRAFPTARVVKALNTMRADVMVAPGHLAGGDHDVFLAGDETEAKDVVRGLLAEFGWRPEHIRDLGGLDAARGMEMWLPLWLRIFMSQSTNKAFNIKVVSA				NA	NA	NA	NA	NA
D1-17_01353	489			hypothetical protein	ATGACCGAGCTAAACCATGATCTGCCTGACACCGACGCCTACGATCCCGCGGCGAGTTCGCTTGCAGGACACGTGGATCCTGCAGTGATGGCGGAACTGTTGTCGATCCGGTCGAGCATCGACAATATCGATGCGACCCTTGTTTATCTCCTCGCGGAACGGTTCAAAGCGACGCAGAAAGTTGGTTTCCTGAAGGCAGCGCACCGCCTTCCCGCAGGGGACCCCGGGCGCGAAACGGCTCAGATCGCGCGGCTGCGGCGCCTCGCTGAAGACGCCCAGCTCGACCCCGCCTTCGCGGAGAAGTTCCTGAACTTCATCATCGGCGAAGTGATCCGCCACCATGAGGCCATCGCCGAGGACCACAATGCGGCCGGTCGGGGCCCGTCGGGTGAGGGCAGTGGCACGGCGGGGCAAGGCAGTGGTTCCGCAGACCGGGGCAGCGGGCCAACCTCTCCTGCTCCGGGCACGTCCGCGGCACTCAACGCTTAA	MTELNHDLPDTDAYDPAASSLAGHVDPAVMAELLSIRSSIDNIDATLVYLLAERFKATQKVGFLKAAHRLPAGDPGRETAQIARLRRLAEDAQLDPAFAEKFLNFIIGEVIRHHEAIAEDHNAAGRGPSGEGSGTAGQGSGSADRGSGPTSPAPGTSAALNA				NA	NA	NA	NA	NA
D1-17_01354	1038			hypothetical protein	ATGCCCCAGCAGGGGGAGGTAACGGCCACCGCGCTGGGACCGTGGCCAGGGCAGGATCCGCTTGAAGCGGCCCGCATCATCCGGGGTGAACTTGGCAGACCCCACCTGCCATTCCTGGCGGAACTGCCCGCCCGGGGAGTGGGGTCGGACGCCATCGGGCGGACGGCCTCCTTGCTCGTCGAGATGGCCGTCGATGTCCAGCCTCACGGCTGGCGCATCGTGGACCGCCCGGGCCGCGACCTCCTCCGGGCCAGGTCCGCGCTCTCCACGGACATCAATGTGCTGGCCGACGTTGCTGGCGCAGAAGAAAACCGCGCTCCCCAATTCAAGATCCAGCTGCGCGGCCCCCTGAGCCTGGCCGCGGGCCTCCACTTGCACAACGGCGAGCGGGCCCTCATCGACTACGGAGCCCGGCGCGACATCGCCGCCTCCCTCGCTGCCGGCGTCGGTGAGTACCTCGCCCGCGTGGCGGGTGCTGTACCAGGCTCCGACCTCGTGGTGCAGCTCGATGAACCGGATATATCCTCTGTGCTGGCCGGCACCATCCCCACGTCCAGCGGATACCGGACACTGCGCTCAGTCCCGGGCCAGGAAGTGACGGACCACTGGCACGTGGTCATCGACGCCCTGCGGGCAGCCGGCGCGGCCGAGATTATCATTTCCGTGCCTGAGATCGAAGCGCCCTTTGATCGGATTATCGCCGCCGGGGCCGACGGCATTGCCGTTCCCCTGAAGGCCCTCACCTCGCGCCAGTGGGAGCAACTGGCTGAGGCCGTAGAAAGCGGCAAGCGGCTTTGGGCGGGCGCTTTGGCGGTGGAACAGCCGGCTGATCTGATGGGGGAGCGGGCCAAAGCCCGTGCGGTTGCCGAGGCTGTATGGCGTCCCTGGCGGCAGCTCGGATTGCCGGCAGCAGCACTCCAGGAGCTTCGGCTTACCCCCGCTGGAGGTCTGGAAGGGCTTACGCCCTCGGACGCTACAGCTGTTTTGGCACGGCTGACCCACTCCGCCGACGCCCTCAACCAGCTGGCACTGGGCTGA	MPQQGEVTATALGPWPGQDPLEAARIIRGELGRPHLPFLAELPARGVGSDAIGRTASLLVEMAVDVQPHGWRIVDRPGRDLLRARSALSTDINVLADVAGAEENRAPQFKIQLRGPLSLAAGLHLHNGERALIDYGARRDIAASLAAGVGEYLARVAGAVPGSDLVVQLDEPDISSVLAGTIPTSSGYRTLRSVPGQEVTDHWHVVIDALRAAGAAEIIISVPEIEAPFDRIIAAGADGIAVPLKALTSRQWEQLAEAVESGKRLWAGALAVEQPADLMGERAKARAVAEAVWRPWRQLGLPAAALQELRLTPAGGLEGLTPSDATAVLARLTHSADALNQLALG				NA	NA	NA	NA	NA
D1-17_01355	798			hypothetical protein	ATGACCGTGCCGATTTACAAACTGGCAATGGGTGAAGAGTTCAGCCGGCTGCAGCCGGAATTGCAGGACTACTTCTCGCTCGTGCCGGGTTCCGGCCACTACGGCGTTGGGGAAGGTACCTTCGATGTAGTGGGCTGCCGGCAATACTGGCTGCGCCCGCTGCTCCGGCTGACGGCCGGAGAGCAGGCTTTTTTCCCCGAGTACGGCGAAGGCGTGCCCTTCCGCATTGAAAACCATGCGCATCTGGACCCGTTCGGGCGCTCCAGCCTCACCGCCCGGCGGGAGATTTTCTTCCCGGGTTCTACGCGGATCTTCCAGGACACCACCAGCGTTGCGGAGGCTGCCCCCGCAACGGCTGCCCCGGAGGATGCCGGGGCGGAGGAAGCCGCCGCGAACCCATCGGCAAGGGCCTCGCCCGCCGGGGCCAACAGCAAGGCACGGCTCGTGGACTATGTGGGCATATACCGCCGCCTCGTTACGGATCTGCACCTCAGTGCAACACCGGAAGGCAGGCTGCGTGGAGTCTCCGAAGCGTCACGGCTCTTCCTGGGGCCGCTGCGGCTGCCCCTGCCGGGGGCGCTCGACGCCAAGGCCTACGCTGAACAGTGGTGGGACGCAGCGGATGGGGACCGGGGCCGCCACCGGATCCAGGTAAAAGTGATCCAGCCGCAGATCGGCCTGGTGCTGGTGTACGCGGGGAGCTTCGACTATCACCTGGAACCGTACCCGGACGGCCGTTCGACGCCGGGATTTCTTCCGCCGTATGCGGCGCCCCGCAGCTGGGAGCGGCGCAGCTGA	MTVPIYKLAMGEEFSRLQPELQDYFSLVPGSGHYGVGEGTFDVVGCRQYWLRPLLRLTAGEQAFFPEYGEGVPFRIENHAHLDPFGRSSLTARREIFFPGSTRIFQDTTSVAEAAPATAAPEDAGAEEAAANPSARASPAGANSKARLVDYVGIYRRLVTDLHLSATPEGRLRGVSEASRLFLGPLRLPLPGALDAKAYAEQWWDAADGDRGRHRIQVKVIQPQIGLVLVYAGSFDYHLEPYPDGRSTPGFLPPYAAPRSWERRS				NA	NA	NA	NA	NA
D1-17_01356	675	mtrA_1	COG0745	DNA-binding response regulator MtrA	ATGAAGGCACGCATTCTGGTAGTTGACGATGACGAGGCGCTCGCGGAGATGATCGGCATTGTCCTGCGCAACGACGGTTTTGAACCAGTCTTTTGTGCAGACGGCGGGCAAGCCTTGGACGTCTTTCGTTCATCGAAGCCGGACCTCGTCCTGCTGGACCTGATGCTGCCAGGGACCGACGGCATCGAGGTATGCCGGCAGATCCGCTCGGAGTCCGATGTGCCCATCGTCATGCTGACCGCAAAGTCAGACACGTCCGACGTTGTCCGTGGCCTTGAATCCGGCGCCGATGACTATGTGCCCAAACCCTTCAAACCCGCCGAACTGGTCGCCCGCGTACGGGCCAGGCTCCGCCCGGGCGACCAGAAGGCGCCAGAGACGCTGCGCATTGCAGACATCACCATCGATGTCGCCGGCCATGCCGTGAACCGTGGCAACGAGCGGATCTCCCTGACCCCGCTCGAGTTCGACCTGCTCGTCGCCCTGGCGCGTAAACCGTGGCAGGTGTTTACCCGCGAATTGCTGCTGGAGCAGGTCTGGGGTTACCGCCACGCAGCAGACACCCGGCTGGTCAACGTCCATGTCCAGCGTCTGAGGTCGAAGATTGAACGTGATCCGGAAGCCCCGGAAGTAGTATTGACGGTTCGTGGTGTCGGTTATAAAGCAGGTTCCTGA	MKARILVVDDDEALAEMIGIVLRNDGFEPVFCADGGQALDVFRSSKPDLVLLDLMLPGTDGIEVCRQIRSESDVPIVMLTAKSDTSDVVRGLESGADDYVPKPFKPAELVARVRARLRPGDQKAPETLRIADITIDVAGHAVNRGNERISLTPLEFDLLVALARKPWQVFTRELLLEQVWGYRHAADTRLVNVHVQRLRSKIERDPEAPEVVLTVRGVGYKAGS	PGPT0002675_778	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
D1-17_01357	2112	sasA_6		Adaptive-response sensory-kinase SasA	GTGACCGCTGCCCCGGAAACGGGGGAGACCCCGGACGCGCAGCGCGAGCTGGACGCCCGGCAGGACGTGGACGCCCGGGATGGCTCGAACACGCAGCGTGGGTCAGTCCTGGGGCCGGGTACCGGCATGGAGCAGGCCTCAGGTAAGGAACAGGCTTCAGGCGGACAGCACAGTTCCGGCCACCAGCGTACGACCGGCAGCCAGTCCGGATCCGGTGTGCGACCCGTGCCTGGACACACCGACGCCATGGCTTCTGTTTTATCGGCAGTGGCGCACCAAGCGCGGATCTGGCGCCGCCGCGGCCTGATCGTTTCGCTGCGCGTCCTGCGGCTTGTGCGTACTGGCCTCAACAAGGTCTTTCCCGGCATCCGGTACTTGCTGTACTCCCTCCAGCGCAGGTGGCGGCGTTCCCTGCAGTTCCGGACGGTCCTGACAACTCTGCTGCTGTCGATGAGTTCGTTTGCGATCGTCGGGGCGTACCTGTCCAACCAGATCGCCAACAACCTCTTCCACGAACGGCTGACCCAGGCCGAGTCCGAAACCAGGTTCCATGTTAAGCAGGTGCAGGACACCTTTGACGGCGCCCAGGTCACTGACCAGTCCAGTGTTATCACTCTGGTTTATGACACGCTGAATGCGGTCGAGGGCAGGGGGTCGGTGATCCAGCGCCGTTACGTCTTTGAGGCGATGCCGGAACAGACCAAGCCGCGGAACCGATGGGTTGAGTCACGGGCGTCTGACCAGCTGACCATCAGTGTCATCCCGAAGGAGCTCCGTTCCGCTGTCCAGGATTCCGGCAAGGAGCAGTTCTGGGCATCCATGGAATTCCCCGTGGGCACTGAGGATCGTCCCGGGATCGCCGTGGGAAACAAGGTGACGTTCAACGGCACGGTCTACGAGCTCTACCTGATCTACGACCTGAACACGGCGCAGCAAACCCTGGACGAGATCCAAAACGTCCTCTGGGCGGGCGGCGCTGCGCTGATCATCATGATCGGCGGCATTGCCTGGTACGTCACCCGCAACGTCGTGAGCCCAGTCAGTCATGCGGCCGTTGTATCAGAGAAGCTCGCCGCCGGGCAGCTGCAGGAGCGGATGGTTGTCAAGGGCGAGGACGAAGTAGCACGCCTGGGGGCGTCCTTTAACCACATGGCGGCAAGCCTTCAGGAGCAGATCACCCAGCTCGCCACGCTGTCGCAGATGCAGCAGCGCTTTGTCTCCGATGTCTCCCATGAGCTCCGCACGCCGCTGACCACGGTCCGCATGGCAGCGGAAGTGCTGTACGACGCCCGTGAAGATTTCGACCCCATCAATAAGAGGTCGGCAGAGCTGCTGTACAACCAGGTTGAGCGGTTCCAGTCCTTGTTGGCGGACCTTCTTGAGATCTCCCGGTTCGACGCCGGCGTCGCCATGCTGGACGCTGAGCCCACGGACATTGTGCAGCTGATAACGCATGTCATGGAGGGTGCGGCACCGGTAGCCGAAGAATACGGCTCGCCAGTCACGCTCAATGCCCGCGAGGGAAGCATCGTGGTGGAGGTGGACTCCCGCCGTATTGACCGGATCCTCAGAAATCTCGTGCTCAACGCTTTGGAGCACGGGGAAGGAAAACCGGTCAACATCTCGGTGGCGTCCAATGAAACGGCCGTCGCCGTCACCGTCCGGGACCACGGCATCGGCATGACCCCGGCTGAAGCCGCACGGGTCTTTGACCGCTTCTGGCGCGCTGATCCGGCCCGCGCAAGAACCACAGGAGGCAGTGGCCTCGGATTGTCGATCGCCACGGAGGACACCAAGCTGCACAACGGCTGGCTGCAGGCATGGGGCAACAGGGGCGAGGGCTCGAACTTCCGTCTCACCCTGCCGCTCAAGCAGGGCGGCACCATCACGAAGTCGCCGCTCCAGCTCGAACCCGGGGATGTTGGCTTACCGCGCGGCCGCGAACACAGGGTGGTTGTGTTGGGCGACAGTACGTTGCCTGCTGACGAAGCAGAGTCAGGTGACAGCGCAGGGCCTGGTGGCAGCGTCGTTCCGGGCGGCAATGCGGTTCCCGGTGCTGCACAGGAAACCGGGGCTGCGCAGCAAACAGCGGCGACGGGGGACAGGCCATGA	MTAAPETGETPDAQRELDARQDVDARDGSNTQRGSVLGPGTGMEQASGKEQASGGQHSSGHQRTTGSQSGSGVRPVPGHTDAMASVLSAVAHQARIWRRRGLIVSLRVLRLVRTGLNKVFPGIRYLLYSLQRRWRRSLQFRTVLTTLLLSMSSFAIVGAYLSNQIANNLFHERLTQAESETRFHVKQVQDTFDGAQVTDQSSVITLVYDTLNAVEGRGSVIQRRYVFEAMPEQTKPRNRWVESRASDQLTISVIPKELRSAVQDSGKEQFWASMEFPVGTEDRPGIAVGNKVTFNGTVYELYLIYDLNTAQQTLDEIQNVLWAGGAALIIMIGGIAWYVTRNVVSPVSHAAVVSEKLAAGQLQERMVVKGEDEVARLGASFNHMAASLQEQITQLATLSQMQQRFVSDVSHELRTPLTTVRMAAEVLYDAREDFDPINKRSAELLYNQVERFQSLLADLLEISRFDAGVAMLDAEPTDIVQLITHVMEGAAPVAEEYGSPVTLNAREGSIVVEVDSRRIDRILRNLVLNALEHGEGKPVNISVASNETAVAVTVRDHGIGMTPAEAARVFDRFWRADPARARTTGGSGLGLSIATEDTKLHNGWLQAWGNRGEGSNFRLTLPLKQGGTITKSPLQLEPGDVGLPRGREHRVVVLGDSTLPADEAESGDSAGPGGSVVPGGNAVPGAAQETGAAQQTAATGDRP				NA	NA	NA	NA	NA
D1-17_01358	1713	lpqB		Lipoprotein LpqB	ATGAGGCGCGCGAACCCGCGTGCCGTCGCGGTGGCGATCGTCGCCGTCGTGCTTTTGTTGGTCGCTTCCTGCGCACAGATCCCCCGGTCGGGACCGGTGGGGAAGAGCACTGACGAGAGCGCAGGGAACCCCAACGCGCCCGTGTTCTTCCCGGTGGCTCCACGTACCGGAGCCAGTCCGGAAGCGGTCATCGAGGACTTCTATCTGGCGGGAAGCGGTTACGAGGATGACTATGCCGTGGCGCGCCAATACCTCACCCAGGCTTCATCCGTCGCCTGGAAGCCTGATCAGCGGACCCTGGTCTTCCGTTCCGAACGCGTGGTGAAGACCGGCGTCGAGGGTGTCTTCACTTACGAACTCGACGTCGCCTATTCTGTGGATGCCGACGGCGTGGCCACCCAGATGCCGGAAGGAACCAAGGAGAGCATCCCCGTCACCCTGGTCCAGGTCGACGGGGAATGGCGGATCTCCAAGCTCCCTGACGGCACCGCCATTCCGGAAGAAACGTTCAAGGTCATATACGGGGCCTATCCGATCTACTTCTACGATCCAACGTTCACGTATGCCGTGCCCGATGTTCGCTGGTTCATCAAGAAGAAGACCGTGAAGTCAATGACGAGCGCCTTGTTGGCGGGGCCGGCCCCGTATCTCAAGGGGGCTGTGGTCAGTGCCTTCCCGTCCGGGATGAAGCTGGCGCGGGAGTCCGTGCCCGTCGTCTCGGGAGCAGCCCAGGTGGATCTGTCCGCGAAGGAACTCACCGAGGCGTCCACCGAGGACCGGCTTCGGATGCAGACCCAGCTGGTTCTCACGTTCCGGAGCCAGCCCGACGTTATTAACGTGGAGCTGAGAGCCAACCAGGATCTGGTGCGTGTTGAGGACAACGGATCTGTGCTGCCGCCGGTCCAGAACAGGAATGTTCCGGCTCGCCAGATCGCCGTGCACAAGAACGAGCTCGTGCGGTACGAGAACAACAGGGTTTCGCCGCTGCCGGACATGCAGTCCGTTGCGGGCCTGAAGCCCCGCGCGCCTGCCGAGTCACCGGTATCGCAGTCGGTGGCCTTTTTAGGGGCCGGCCGGGGCACGCTCTATTCCCTGGTTCCCGGACAGCCTCCGCGTGCACTGATAACCAGGAGCTCACTGACCCACCCGTCCTTCAGCCTGCATGACTGGGTGTGGACGGCGGGGCCCGGAGCGCAGGGAGTCACCGAGGTTTCCGCCTTTCGTCCCACCGGTATAGCGCCGGGCGCCACCGTCCCCGCGGTGACGCTGACGCCGTCGTGGCTGGCCGGGCGCACGGTTAAGGATTTCCGGATTTCCCGCGAGGGTGTCAGGGCCCTGGTCATTTCCGAACAGAACGGATCGACGAGGGTTCAGGTGGCCGGGATCATCCGAGGTGCTGACGGCACGCCGAAGGAGCTGACGGCTCCCATCTCCCTGCGGGCCAGCGGCAGCCCCGACCAGGGTGTCTGGGTCAACGACACGACTGTTGCAGTCATGAGGGGTGCCGCGTCCGCCAGTGTCGCTCCGGAGCTGATCTCGCTGGCCTCGACGCAACCCCAGAAGCTGGCCCCCTGGCCGGGCCTGGTAGCACTCAGCGCGGGCAACGGTCCTGAGGAAATCTATGCGCAGTCGGCGGACGGCATCTTTCAGAGGCTGGGCAATGGCTGGTCGCCGCAGCTCAAAGGACCCACGGATCCATCCTTCCCCGGCTGA	MRRANPRAVAVAIVAVVLLLVASCAQIPRSGPVGKSTDESAGNPNAPVFFPVAPRTGASPEAVIEDFYLAGSGYEDDYAVARQYLTQASSVAWKPDQRTLVFRSERVVKTGVEGVFTYELDVAYSVDADGVATQMPEGTKESIPVTLVQVDGEWRISKLPDGTAIPEETFKVIYGAYPIYFYDPTFTYAVPDVRWFIKKKTVKSMTSALLAGPAPYLKGAVVSAFPSGMKLARESVPVVSGAAQVDLSAKELTEASTEDRLRMQTQLVLTFRSQPDVINVELRANQDLVRVEDNGSVLPPVQNRNVPARQIAVHKNELVRYENNRVSPLPDMQSVAGLKPRAPAESPVSQSVAFLGAGRGTLYSLVPGQPPRALITRSSLTHPSFSLHDWVWTAGPGAQGVTEVSAFRPTGIAPGATVPAVTLTPSWLAGRTVKDFRISREGVRALVISEQNGSTRVQVAGIIRGADGTPKELTAPISLRASGSPDQGVWVNDTTVAVMRGAASASVAPELISLASTQPQKLAPWPGLVALSAGNGPEEIYAQSADGIFQRLGNGWSPQLKGPTDPSFPG				NA	NA	NA	NA	NA
D1-17_01359	897	pyrE_1		Orotate phosphoribosyltransferase	GTGAACTCACCGCGTTCGGAAGCCGTTGGGGAACCGCCTGTCCAGGCTGCAGCCGCGGACCCGGATCTGCATCCCCAGCCGTTGAGGGCCGCGAAACACCGCCGTGAACATGGGCGCTCATGGCTGCGGGCGGCCGATGCGCTCATTGATGCGCTGACCGAGGTCATGGCACTGGCGGTACCTGTTGACTGCGTTTGCTGCGGCAAGGAGGACCAGGCCCTTTGTGCCGGCTGTGAGCGCCAGGTCCGGCTCCTGACCCGGCGGCCCTTCCGTGCGGAGTCAGCCGCTCCGGCTTTGATGGGCACTGACGGCTCCGTCCTGCTTCCCGTGGTGGCTGCAGGAATCTACCGCGAGGAGCTTGCGCAGTCGATCCTTTCCTTCAAACGGCACGGCCAGGGCCCGCTGTGCGCCGTGCTGGCGAAGGCGCTGGGAAAAGCCGTGCTTGCGGCTGCCGGCGCCGGCCCCGACATCTGGCTCGTGCCGGTGCCCACCAGCGGCGGCGCCTACCGGAAACGGGGGTTCAGTCCGGTGCACCTCCTGCTGACCCGACTCCGCCGGGACGGCATGCTCGGCGGCATGAAGTGCCAGGACGTGCTGCGCAGGGTCCGGGTTCCCGCATCGGCTGGAGGCGGCCTTCCAGGCGGCCAGAAGGGTCTGGGCCGGGGGGATCGGGTGCGAAGGGTCCGCGGTTCCATGCGGGCAGCCCGGAGAGCAGGCGCGGCAGGGCTTGCGGGGCGTCCCTGCATCATTGTCGACGACGTTCTCACCACTGGTTCGACCGTCGCCGAGGCTGCCCGGGCACTGCAGGAGGCAGGGGCAGTCGTGCGCGGTGCCGTCGTTTTGGCTGCCACCCGTGCACCGGACGCCACGCCTGCTGAGACCGGCCCACGGGCGTAG	MNSPRSEAVGEPPVQAAAADPDLHPQPLRAAKHRREHGRSWLRAADALIDALTEVMALAVPVDCVCCGKEDQALCAGCERQVRLLTRRPFRAESAAPALMGTDGSVLLPVVAAGIYREELAQSILSFKRHGQGPLCAVLAKALGKAVLAAAGAGPDIWLVPVPTSGGAYRKRGFSPVHLLLTRLRRDGMLGGMKCQDVLRRVRVPASAGGGLPGGQKGLGRGDRVRRVRGSMRAARRAGAAGLAGRPCIIVDDVLTTGSTVAEAARALQEAGAVVRGAVVLAATRAPDATPAETGPRA				NA	NA	NA	NA	NA
D1-17_01360	726	hpf	COG1544	Ribosome hibernation promotion factor	ATGGAGTTCATGATCAGCGGACGAAATCTGACGGTCTCGGACCGATTCCGCGAATACGCCGGCGAGAAGATCTCGAAGATCGAATCGCTCGGGGATAAGGTCCAGAGGGTCGACGCAAAGGTTTCGAAGGAAACAAATGCACGGCAGACCGGTGACCAGCTCACAGTGGAAGTGACAGTCTTGGGGCGAGGCCCCGTGATCCGTGCCGAAGCAAGTGCCGCAGACAAGTTCGCAGCGTTCGACCTCGCCTACAACAAGCTCCTCGAGCGGCTCCGCAGGGCCAAGGACCGGAAGAAGGTTCATCATGGCCGGCATACGCCCAAGGCAGTCCGCGAGGCAACCGCAACCCTGGAGCCCGCGAGCTCCAACCAGCCGATCTACGTAGAAGCGAGCAACCACACCCAGCCTGCTCCGGAAGAAGCTGAAAAGTCGCCGTACGACGTCGACAATGACATTCCTGCCGGGGATTCTCCGGTCCTCATCCGCCGCAAAGTCTTCCCGGCCACCTCCCTCTCCTTGGACGACGCCGTGGACAATATGGAACTTATCGGGCACGACTTCTATCTTTTCGTGGACAAGGACACGAACGCGCCCTCTGTTGTGTACCGGCGCCGGGGCTGGACGTACGGCGTCATCACCCTGGACCACTACTGTGAGCCCGGTGAGAACACCTACGAGGAGAAAATTCTCGCCTACCGCTCCAATGATGCGGCCGCGACCGCCTAG	MEFMISGRNLTVSDRFREYAGEKISKIESLGDKVQRVDAKVSKETNARQTGDQLTVEVTVLGRGPVIRAEASAADKFAAFDLAYNKLLERLRRAKDRKKVHHGRHTPKAVREATATLEPASSNQPIYVEASNHTQPAPEEAEKSPYDVDNDIPAGDSPVLIRRKVFPATSLSLDDAVDNMELIGHDFYLFVDKDTNAPSVVYRRRGWTYGVITLDHYCEPGENTYEEKILAYRSNDAAATA				NA	NA	NA	NA	NA
D1-17_01361	1227			hypothetical protein	ATGGGCACAACGCTGAGCCTGTCACAGGCCCGGCGCATCGCCTTGGCAGCCCAGGGACTGGACAAAGGACGGCCCACCGGACCCGTTACTTCACGGACGGTGGGCCGAACCTTTGCCCGAATCCAGCTGGTCCAGATCGACTCGGTCAACGTCCTGGCAAGGAGCCACTTCCTGCCTTTCTTCTCGCGTCTTGGGAACTACGACCGCGGCATTCTGCACCAGATGGCTGGCCGTCATCCCCGGCGGATGCTGGAGTACTGGGCCCACGAAGCAAGCTTCATCCGCCCCGAGCATTTCCAGGACCTGGTCGCGTGGCAGAAACGGGCCTGGGTGGGAGCCTCGGCCATGGACCCCGCCCTGCGCGCCGACGTCACCTGTCAGATACTTGGCGCCCTGGCCCCAGGGAAGCCGCTGACGGCCGCCGAGCTGACAGCCGTCGTCGGACACGTGGAAGACCGAAAAAACGTCAGCTGGGGCTGGAACTGGAATGCAGTAAAGCGCGTCCTGGAACACCTGTTTGAAGAAGGCGCCGTCTCGTGCGCGTCCCGGACGGACCAGTTCGAACGCAGGTATGCCCTGGTCAAGGATGTGCTGCCGGCCCCCGCCCTGACCGGGAAGCCGGAGCCCAAGGCGGCCATGGACCGGCTCATCGAAGCGGCCGCCCGGGCCCACGGTATCGGTACGGTGCGATGTTTTGCCGACTACTTCCGAACACCGGTGAAGGCTGCCGCAGTGTCCGTGCAGAATCTGGTGGACAGCCGGCGGCTCGAGCCGGTCTCCGTCCGGGGCTGGGACCGGAAATTGTTCCGGCACGTCGATGCCCGGCTGCCCAGGACGGCAACAGGCAGAGCCCTGCTCAGCCCGTTTGATTCCCTTGTTTTCGAACGCCGGAGGCTGGAAGAGCTTTTCGGGTTCCATTACAGGATCGAGATTTACACCCCGGCATCCAGGCGCCGTTTCGGCTACTATGTCTTGCCTTTCCTGTTGCGGGACCGCCTCGTGGCGAGGGTCGACCTGAAGGCTGACCGTGCTGCAAGAAAGCTCTTGGCGAAGGCGTGCTTCGGTGAGCCGGGCGCTCCTGCGGACACCGCCGTCGAACTCGCCGCCGAGCTGCAGCTGATGGCCCGCTGGCTGGAGTTGGACGAGGTGGTGGTGTCCCCGACAGGGGACCTTGCCGCGGATGTGCGGGCAGCCATCCGGGGTGCAGGAGGGCCGTATCCGCTCTGA	MGTTLSLSQARRIALAAQGLDKGRPTGPVTSRTVGRTFARIQLVQIDSVNVLARSHFLPFFSRLGNYDRGILHQMAGRHPRRMLEYWAHEASFIRPEHFQDLVAWQKRAWVGASAMDPALRADVTCQILGALAPGKPLTAAELTAVVGHVEDRKNVSWGWNWNAVKRVLEHLFEEGAVSCASRTDQFERRYALVKDVLPAPALTGKPEPKAAMDRLIEAAARAHGIGTVRCFADYFRTPVKAAAVSVQNLVDSRRLEPVSVRGWDRKLFRHVDARLPRTATGRALLSPFDSLVFERRRLEELFGFHYRIEIYTPASRRRFGYYVLPFLLRDRLVARVDLKADRAARKLLAKACFGEPGAPADTAVELAAELQLMARWLELDEVVVSPTGDLAADVRAAIRGAGGPYPL				NA	NA	NA	NA	NA
D1-17_01362	2745	secA		Protein translocase subunit SecA	GTGGCATCACTAATCGAAAAACTTCTCCGCACGGGTGACAAAAAAACCCTGAAGCAACTGCGGAACTATGCCGATTCCATCAATGCCCTTGAAGACTCTTTTAAGACGTTTACCGATGCTGAGCTGCGCGAGGAGACGGACCGCCTGCGGCAACGCCACCTGGACGGCGAAAAACTCGAGGACCTCCTGCCCGAGGCGTTCGCCGCTGTCCGCGAGGCTTCTTCCCGCACTCTCGGGCTGCGCCACTTCGATGTCCAGCTCATGGGCGGGGCCGCCCTCCACTTGGGCAACATTGCTGAAATGAAGACCGGTGAAGGAAAGACGCTGGTAGCCACCGCTCCTGCCTACCTGAACGCTTTGGCCGGTAAAGGCGTGCACGTTGTCACGGTCAACGACTATCTGGCCGAATACCAGTCCGAGCTCATGGGCCGCGTATACCGCTTCCTCGGACTCACCAGCGGCTGCATCCTTGCCAACCAGGACCCGGCAGCGCGGCGCCAACAGTACGCAGCCGACATCACCTACGGCACCAACAACGAGTTCGGCTTCGATTACCTGCGCGACAACATGGCGTGGGACAAGTCGGAGCTGGTCCAGCGGGGTCACCACTTCGCGATCGTTGACGAAGTAGACTCCATCCTGATTGACGAGGCGCGCACCCCGCTGATCATTTCGGGACCCGCCCAGGGCGACACCAACAGGTGGTACAGCGAATTCGCCAAGGTGGTGCTGCGGCTGCAGCCGGAAAAGGACTATGAGGTCGACGAGAAGAAGCGCACGGTCGGCGTCCTGGAAAGCGGCATTGAAAAGGTCGAGGACTACCTCGGGATCCAAAATCTCTATGAGTCCGCGAACACCCCGCTGATCGGCTTCCTCAACAACGCCATCAAGGCAAAGGAACTGTTCAAGCGCGACAAGGACTACGTGATCCTCGACGGCGAGGTCCTCATCGTCGACGAGCACACCGGCCGTATTCTGGCCGGCCGCCGCTACAACGAGGGCATGCACCAGGCCATCGAAGCCAAGGAGGGCGTCGAGATCAAGGCCGAAAACCAGACGCTTGCCACCGTAACGCTGCAGAACTACTTCCGCATGTACGACAAGCTGTCGGGCATGACCGGAACGGCGGAGACCGAAGCTGCCGAATTCATGAGCACCTACAAGCTCGGCGTGGTGGCCATCCCGACGAACCGGGACATGCAGCGCATCGACCGGCCCGACCTCGTCTACAAGAACGAGGTGGTCAAATTCGACGCTGTGGTGAAGGACATCGCCGAGCGCCACGAGGAAGGCCAGCCCATCCTGGTCGGCACCACCAGCGTGGAGAAGAGCGAGTACCTTTCGCGGCTGCTGGCCAAGGAAGGCATCAGGCACGAGGTGCTGAATGCCAAGAACCACGCGCGGGAGGCTGCCATCGTAGCCCAGGCCGGCCGCAAGGGCGCTGTCACCGTCGCCACGAACATGGCCGGCCGCGGCACCGACATCATGCTCGGGGGCAACGCGGAATTCACGGCCATTGCCGAACTCGCCAAGCGGGGGCTGGATCCGGAGGAGAACTCCGAGGAATACGAGGCCGCATGGCCGCAGGCCCTGGCCGCCGCGAAGCAGGCAGTCAAGGAAGAGCACGAGGAAGTATTGAACCTGGGCGGGCTCTACGTGCTTGGCACTGAACGGCACGAGTCCCGCCGTATCGACAACCAGCTGCGCGGCCGCTCGGGGCGCCAGGGCGACCCTGGCGAATCCCGATTCTACCTTTCGCTTACTGACGACCTCATGCGGTTGTTCAACTCCGGAGCGGCCGAGCGTCTGATGAACAGCTCTGTGCCCGATGACGTGGCACTGGAATCCAAGCTCGTCTCCCGCGCCATTGCCTCGGCCCAGGGCCAGGTGGAAGGCCGCAACGCCGAGCAGCGCAAAAACGTCCTGAAGTACGACGACGTCCTCAACCGTCAGCGTGAAGCCATCTACGGTGACCGCCGCCGGATTCTGGAGGGCGATGACCTGCATGAAAAGGTGCAGTTCTTCCTCGAAGACACCATCAACGCCTTCATCGACGAAGCGACTGCTGAAGGCAACGGCGACGACTGGGACTTCGACCAGCTCTGGACGAATCTTAAGACGCTCTACCCCGTCACGGTCACACCGCACGACGTGATCGACGAAGCGGGTGGAAAGTCGCGCATCACGGTCGAGTTCCTCAAGGAGGAGATCCTTTCCGACGCCAGGCTGGTGTACCAGGCCCGCGAGGAAGCTATTGGCTCTGAGAGCATGCGCGAGTTGGAGCGGCGCGTGGTCCTTTCCGTCATCGGCCGGAAGTGGCAGGAGCACCTGTACGAGATGGACTATCTCAAGGAGGGCATCGGCCTTCGGGCGATGGCGCAGCGCGATCCGCTGGTCGAATACCAGCGTGAGGGCTTCATCCTGTTCCAGGCCATGATGGAGGCAATCCGCGAGGAGAGCGTCGGGTTCCTGTTCAACCTCGAGGTGGAGGTGACCCCCGCGGAGGATGTCGTGGTGGCTGACGCCGACGGCGGCCACACCGAGCATCACGAGCCGCAGATCCGTGCCGCCGGGCTGGAAGCGCCGGAAAAGCCCGCGCAACTGCAGTACACCGCCCCGGCAGAAGGCGGCGGTACGCAGACCCGTGTTGAGGGCCGGGCAGCGGGACGGTCAGGAAACCCTGCCAAGGCGGCGACGCAGAGCCGCCGGGACCAGAACCGCCGGGACGGTAAAAAGAAGCGCTAA	MASLIEKLLRTGDKKTLKQLRNYADSINALEDSFKTFTDAELREETDRLRQRHLDGEKLEDLLPEAFAAVREASSRTLGLRHFDVQLMGGAALHLGNIAEMKTGEGKTLVATAPAYLNALAGKGVHVVTVNDYLAEYQSELMGRVYRFLGLTSGCILANQDPAARRQQYAADITYGTNNEFGFDYLRDNMAWDKSELVQRGHHFAIVDEVDSILIDEARTPLIISGPAQGDTNRWYSEFAKVVLRLQPEKDYEVDEKKRTVGVLESGIEKVEDYLGIQNLYESANTPLIGFLNNAIKAKELFKRDKDYVILDGEVLIVDEHTGRILAGRRYNEGMHQAIEAKEGVEIKAENQTLATVTLQNYFRMYDKLSGMTGTAETEAAEFMSTYKLGVVAIPTNRDMQRIDRPDLVYKNEVVKFDAVVKDIAERHEEGQPILVGTTSVEKSEYLSRLLAKEGIRHEVLNAKNHAREAAIVAQAGRKGAVTVATNMAGRGTDIMLGGNAEFTAIAELAKRGLDPEENSEEYEAAWPQALAAAKQAVKEEHEEVLNLGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSLTDDLMRLFNSGAAERLMNSSVPDDVALESKLVSRAIASAQGQVEGRNAEQRKNVLKYDDVLNRQREAIYGDRRRILEGDDLHEKVQFFLEDTINAFIDEATAEGNGDDWDFDQLWTNLKTLYPVTVTPHDVIDEAGGKSRITVEFLKEEILSDARLVYQAREEAIGSESMRELERRVVLSVIGRKWQEHLYEMDYLKEGIGLRAMAQRDPLVEYQREGFILFQAMMEAIREESVGFLFNLEVEVTPAEDVVVADADGGHTEHHEPQIRAAGLEAPEKPAQLQYTAPAEGGGTQTRVEGRAAGRSGNPAKAATQSRRDQNRRDGKKKR	PGPT0025735_2590	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
D1-17_01363	441			hypothetical protein	ATGACCGCAGCAATCTCAATCCAGAGGGCGGGCGGCACAGCGCACCAACCCGCCACGCCGATACCGGGCGGTGATGGTGGAGCTAAACACGACGAGCTCCGGGAAGTCTGCACCATCACCCGCTCCACCGTCCAGGCGGCAATTGAAGTCCTCGCCGGAACCAGACCGGTCAATCAACTGGCGCGGCGGCTGGACCAGAAGTGCCTCACAGCCCTGCAGCATCGCGCCTTTTTGACACGACGGGAAGCAGTTCGTGCACCCAGGAAGCTCGGAGGGCTTCACCGGAACCCAGCGGTTCGGTCGGTGCGCGCATGCGAAGTGACACCCGACATCTATGAGGCCAGCGCTGTCGTGATCGACGAGCTGCGGGCGCGTGCCGTCGCCCTGCGGCTGGAACGAAGCAAACAGATCTGGCGGGTCACTGCCTTGGAAATCGGATGA	MTAAISIQRAGGTAHQPATPIPGGDGGAKHDELREVCTITRSTVQAAIEVLAGTRPVNQLARRLDQKCLTALQHRAFLTRREAVRAPRKLGGLHRNPAVRSVRACEVTPDIYEASAVVIDELRARAVALRLERSKQIWRVTALEIG				NA	NA	NA	NA	NA
D1-17_01364	813			hypothetical protein	ATGCATGTCACCGGTTCCCGGCAGCTCAGTACGGATGCAGCGATGGCATTCCTCATTCTCGGCCTTGGTTGTTTTCTCACCCTGGCCGGCACAGGTCTCGTGGAGCGCTGGCAGCGTTCAGCCCTGAAGAGACAGTCGTTGTCCTTCGAGGATCTTTTGGGCGGGGTAGCAGTAGCAGCTGGCCTGCTCATCGTGCTGTGGTGGGTGTTATCCTTCACAGCCGCCTTGGTTGCGGCGATGTTCGAGAGTGCGGGCAGGCGACGCGCCGCTGCTGTAACCGGCCACTTCAGCCCCGCGTTCATGCGGCGTCTGGCCCTCGCCATCCTGGGTGTCCAGCTGATCGGCGCCCCGCTGGCCCATGCGGACAACCAACCCGCACCGGCCGAGTCCAGGAATGGCTCTGTTGCCATAACCGCTGCCTGGACCCCAATCGAAACGATGTCCGGGCCCGAGCCGCCGCGGCAGCCAATCAGGGACGGAAACCCTGACACGGCAAGACCTACCGCATCTACGGTGCAGCAGCTGCCGGGAGTATCAGGCCTGCAGCCGCAGTGGCAACCTTCACCGCCCGCCGCAGCCCCCGGACCTGTAGTGTCCGTGCCGCCCAGGGCCGCCCGGGAACACCAGGCGGGCCAAGAATTGGTCGTCAGGTCCGGCGACAGCCTGTGGACGATAGCAGCCAGGCATCTTGGTCCTGAGGCGTCCGATGTCGACATCGCCCTGGAATGGCCCCGCTGGTTCGAAAACAACAGGGCGGTCATCGGCAGCGATCCCGACACTCTCCTTCCCGGCCAGATCCTCAAGGCTCCCTGA	MHVTGSRQLSTDAAMAFLILGLGCFLTLAGTGLVERWQRSALKRQSLSFEDLLGGVAVAAGLLIVLWWVLSFTAALVAAMFESAGRRRAAAVTGHFSPAFMRRLALAILGVQLIGAPLAHADNQPAPAESRNGSVAITAAWTPIETMSGPEPPRQPIRDGNPDTARPTASTVQQLPGVSGLQPQWQPSPPAAAPGPVVSVPPRAAREHQAGQELVVRSGDSLWTIAARHLGPEASDVDIALEWPRWFENNRAVIGSDPDTLLPGQILKAP				NA	NA	NA	NA	NA
D1-17_01365	618			hypothetical protein	TTGATTTTGATTGACCTCAGCATCAGTGGTGCCTACGCTGACGCCATGCGATGGAACGCCCTGTTTGAAGACATGGAAGCGCAACTGGCGGAAGCGGAAACCTTGGCCTTTGAATCCGAGGTGTCCGAACGGTCGCGCGCTGATGTGGCGCTCGTCAGATTGTCCGACCGGCTAAGGGGCTCGTTGGGCGGGGCAGTTGGCGTACATCTCGTGTCGGGTTCAACCTTCACCGGTACTCTCAGCCATGTGGGCGCGGAAAGCCTGGTAGTCGATGGAGCTGCCCACCAGGTGCTGGTTCCGTTCGCCGCTGTGTCGCATTACAGCGGAATCGGCCGTATTGCCGTGAGTGAGCCTTCGACCGCGCGGAGCAGAGTTGGGCTGGCAAGCGCGCTGCGGGGACTCGCCCGCGACAGGGCGCCGTTGACGGTGATCCTGGCCAAAGGGGAGTCAGGTGAACAGAGGCTCCCCGGGGTCATCGACAGGGTAGGGCGCGATTTTGTCGACCTCGCCGTGACGCCGCCCGGGGAGGCCCGCCGGGCATCCGGCATCCTCGACGTCGCAACGGTACCCTTCGGCGCATTACGCGCGCTGCGCTCTATGCATTCAGGGGAAATCTAG	MILIDLSISGAYADAMRWNALFEDMEAQLAEAETLAFESEVSERSRADVALVRLSDRLRGSLGGAVGVHLVSGSTFTGTLSHVGAESLVVDGAAHQVLVPFAAVSHYSGIGRIAVSEPSTARSRVGLASALRGLARDRAPLTVILAKGESGEQRLPGVIDRVGRDFVDLAVTPPGEARRASGILDVATVPFGALRALRSMHSGEI				NA	NA	NA	NA	NA
D1-17_01366	237			hypothetical protein	ATGCCCCGTTTCCTGACCCTTGCGGACGTAGCCGAACAGCTGCAGATCAACTCTCCCGCGGCGTATGCGCTTGTGCGCAGCGGGGAACTCAAGGCTATCCAGGTAGGTGGCCGCGGCCAGTGGCGCGTCGAAGAAAAGATGCTCGAACAGTACATTGAAGAGCGCTACGCCGAGGCCAGCAGGATGATTGAGGAAGCAAAATCCAAGTCGGGGTTGCCCGGGGCGCCAACCGGCTAG	MPRFLTLADVAEQLQINSPAAYALVRSGELKAIQVGGRGQWRVEEKMLEQYIEERYAEASRMIEEAKSKSGLPGAPTG				NA	NA	NA	NA	NA
D1-17_01367	645			hypothetical protein	ATGAGTGCCAGCGCCGCGGCCACGGGAGCCCGCCTCAAGAAGCCCTCATGGAAGGATCCCCGGCTCCTGGTCGGCATGCTATTGGTGCTCGTATCGGTTGTCGGAGTCATTTCCCTTGTCGGCAGCGCGGACAAGACAACGGAGGTTTTTGCCGCGCGCGAAGCGATTGCAGTGGGGGAGAAGCTCACCCCGGACAATGTCAGCCGCGTCAAGGTCCGGCTGGGGGATGTGGAGCACCGGTACATTACCGCCGAATCGGGCATGCCGGACGGTGTGGTGGCAGTCCAGCGGATCGGAAAGGACCAGCTTTTGGCACGGGAAAGTCTGGGAAGCGTTGACGCGCTTGACCGGAAGCCAGTGGCGATCTCCGTGCAGGAAGCATTGCCTGAGCAGGCCGTGGCCGGCACGCGGGTGGACGTATGGGTTTCAATGCCGGACGCGCGGAACGGTTTCGCGCCTCCCAAGCTCATGCTCCCGGCCGCGGAGATCGCCCAGGTTTCGCCGGGTTCAACAGGTCTCGGCTCAGCCAAGTCGACTGTGCTTATGGTCCTTGTCAGTGACGAGCAGATGCCCTCGCTCCTCGGCGCCCAGGCGAATGAAGCCAAGATCTCCGTCGTTTGGAGCCCCGGGGGTGCGGCCAAGTGA	MSASAAATGARLKKPSWKDPRLLVGMLLVLVSVVGVISLVGSADKTTEVFAAREAIAVGEKLTPDNVSRVKVRLGDVEHRYITAESGMPDGVVAVQRIGKDQLLARESLGSVDALDRKPVAISVQEALPEQAVAGTRVDVWVSMPDARNGFAPPKLMLPAAEIAQVSPGSTGLGSAKSTVLMVLVSDEQMPSLLGAQANEAKISVVWSPGGAAK				NA	NA	NA	NA	NA
D1-17_01368	1314			hypothetical protein	GTGACCATCCCTGTAGTCACCGTAGGCGAGGCGCAGGACGACCTGGTCGGCGGCCTGGAAAGGCTCCACGGGCCCGTCACGGTGGTGCGGCGCTGCGCTGAACTGGCCGAGCTGCTGGCCGCCTGTCAAAGCGGACTCGCCCGGGCGGCCGTCGTGGCAGCAGGAAGTGAGGAGTTGACAGCCTCGCTTGTCGACAGGCTGGGAGCCGTCGGGGTGGCACTTGTTGCCCTGACGGACAACGCCGAGGAATCTTCCCGCCTCCAGGGAATCGGCGTGTCCGCCGTCATCTCCACCGTGGAATCGTCGGAATTGGCAGAGCGCATCTCCGAAACGGTGGCGCGGTTCTCCGGACACAGGTCTACCACCTCCGGCCTGCGCGACCATGGTTTTGCGGAGACTGGTGCCGCCCTGCGGCCAGCCCCCGCGGAGCCAGACGAGGCGCGGGAGTCCGCCGGGAGGGGAAAGATTATTGCGGTGTGGGGTCCTGCCGGCTCGCCGGGCCGGACGCTGATGGCCGTGAATATGGCGGGTGAACTGGCTGCTGACGGTAAGTGTGTCCTCCTCGTGGACGCCGACAGCTACGGGGCAAGCGTCGGCGCGGTTCTGGGGCTCCTGGACGAGGCGGCCGGCCTTGCGCAGGCCTGCAGGCTGGCCGACCAAGGTCTCCTGGACAGCGCGTCACTGCTTCGGGTAGCGGTGCCCGTAACACTGAAGGCAGGAACCCTCCACGTTCTCACCGGAATTACCCGGTCAGACCGCTGGACGGAGCTGCGGGCCTCCGCTCTCGCGCTCGTGTTGGAGCGGGCCAAGGAAGTGGCCGAGGTGGTTGTTGTGGATACCGGATTCTGTCTGGAGTCTGACGAGGAGCTCAGCTTCGACACGATGGCGCCGAGGCGAAACGCGGCCACGCTCAGGAGTTTGGAGTTGGCTGACAAAGTTTTCGCAGTGGGATCCGCGGACTCCATCGGTGTTCCCCGGCTGGTCCGCGGGCTGGCGGAACTGGATGCGGCCGTGCCCGGCGTCAAGGCGGAGATCGTTCTGAACAAAGTACGCTCTTCCGCAGTGGGACGCTCACCTGAACGGCAGCTTCGTGAGGCATGGGAACGCTATGGGCCAGCGACAGCCATCACGGCGTTCCTGCCAGCCGACGCGGCGGCAGCCGATGCCGCTCTGCTCTCGGGCAGCCTCTTGCTCGAAGCTGCCCCGGATTCGCGGCTCCGAGCCGGTATAGCGAATTTGGTTTGTGCATGTGACCAGCAAAATCGCCGTTCTTCTGTCCTTACCCCCACAGCAAAGCGCCGAATAAGCCGATAG	MTIPVVTVGEAQDDLVGGLERLHGPVTVVRRCAELAELLAACQSGLARAAVVAAGSEELTASLVDRLGAVGVALVALTDNAEESSRLQGIGVSAVISTVESSELAERISETVARFSGHRSTTSGLRDHGFAETGAALRPAPAEPDEARESAGRGKIIAVWGPAGSPGRTLMAVNMAGELAADGKCVLLVDADSYGASVGAVLGLLDEAAGLAQACRLADQGLLDSASLLRVAVPVTLKAGTLHVLTGITRSDRWTELRASALALVLERAKEVAEVVVVDTGFCLESDEELSFDTMAPRRNAATLRSLELADKVFAVGSADSIGVPRLVRGLAELDAAVPGVKAEIVLNKVRSSAVGRSPERQLREAWERYGPATAITAFLPADAAAADAALLSGSLLLEAAPDSRLRAGIANLVCACDQQNRRSSVLTPTAKRRISR				NA	NA	NA	NA	NA
D1-17_01369	4854	gdh	COG2902	NAD-specific glutamate dehydrogenase	ATGTCGTCAGGGTCCAGCGTGGAGAATAAGTCCCGTTCTGCAGGAGCCGAAGGGGGCTTCTTCGCGGACTACTACGAGCACCTTGCTGAAGAGGACGCGCGAGCATATCCCCGGGAGCTTTTGGAGCTCCGGGCCGAGACGCATCGGCAGGTGGCGGCGAACAGGCAGCCCGGAACTGCGAAAATCTCGATTGTTGATGAAGCAGACCAGAGCGTGGTGTACATCGTGACGGACGATATGCCCTTCCTTGTGGATTCCGTCAACGCTGAGATCGTGCGGCAAAACTTCGCTATTCACCTCGTGCTGCACCCCATGTTTGTGGTCACGCGCAACCGCAATACCCATGAGCTCGTGAAGGTCGACAGGGTTCCGGCGAGCGTCGGGATCTCCAGCGGTGACACCGCCGCGCTGCCCAGCCTGTCTCACCTCATCGCGCAAGGTGACAACAGCACCCACATGGAATCGTGGATCGCGGTCGAATTTGGCCGGAGCAGTGAAGTGATGAAGAGGCGCCTGGTCGAAGGTCTGGAGCGGGTGCTCGGCGACGTCAGGGCCGCCGTCGAAGACTGGCCGAAAATGCGCAGCAAGGCCCGCCAGATCGCCGAGAACCTCGACAAAATTCCCAACTCCTCCCAGATCGCTGAGCTGCGCCAGGCGCAGGACCTGCTGCGGTGGCTGGATGAAGGGAACTTCACCTTCCTCGGCTACCGCGAATATGACCTCGTCAACGAGGCAGGGGAAGACGTCCTCGAGCTGCGGGAGGGCAGCGGACTCGGGCTGCTCCGCACCCAGCGCGACACGGCCCAGGTGCAGCACCTGACGGACGCCGGCCGGCGCAAGGCCCGGGAGAAGAAAGCCCTGGTCATCACCAAAGCCAACTCGCGCTCCACCGTCCACCGGCCGGCCTATTTCGATTACATCGGTGTTAAAAGCTTCGATGCGGAAGGCAACGTCAACGGTGAACAGCGGTTCATCGGCCTGTTTGCAACCAGTGCCTACACAGGTTCAGTCCGGAACATCCCCATTGTCCGGGAGAAGGTGGATGCTGTTTTGCGGGGCGCCGGATTCCCCCCGGACTCCCATTCGGGCAAGGACCTGCTCGGCATTCTCGAAACGTACCCGCGCGACGAGCTTTTCCAGATCGAGGTCGCCGACCTGGCCGCCACGGCAACCGGTATTCAAAGGCTCCAGGAGCGCCGGCGCACACGGCTGTTTCTGCGGCCGGACATCTACGGGCGGTTCATGTCCGCCGTCGTGTACCTGCCGCGTGATCGATACACCACCAATGTCCGGCTGCGCATCGAGCAGGAACTCCGCGAGACCTTCCGGGCCGAGTCCATCGACTATGAGGCGCGGATGACGGAATCGGCGCTGGCCCGCCTCTTCTTCCGGATCCGGCTGCCGAAGGGTGCCGACGTGAGCAACGTCAACACCGTGGACCTGGAAAAGCGACTTGTCCGCGCGACCCGGTCCTGGGGAGAAGGGATCAGCGAAGTCCTGCGCGACCGAAGCAACGGGGACGGCTCCAAGGAGCTCGCCGATATTTGGGCTGAGGCATTTCCCGCCAGCTACCGTGTGGACTATGAGGTTGAAGATGCCTTGGAGGACATCGAGCGGTTTGAAACGTATGGCGCCGCAGCCGAGCGGAGTGAAGGAGCCAAGCAGGAACGTCCCGGTGTCCACGTTTATCTTCCCGAGGGTGCGGGGGCAACGCTCGAAGAGGATGCCCGCGTCAAGCTCTACATGCTGGAGCCCAAGAGCCTGAGCCAGATCCTTCCCTACTTCCACAATCTGGGGCTCGAAGTGCTGGACGAGCGGCCGTTTGAAATCGAAACGGCGGACAACCGTGACTTCTTCCTATACGACCTTGGCCTGAAATATCCCGCAGGCGTGGACCCGCTGTCCACCGGCCAACTGTTGGCAGACGCGTTCGGCGCGGCAGTTTCAGGCGCCGTCGAATCCGACAGCTTCGACCGGCTGGTTCTTCGGGAAGGTATGGACTGGCGCCGGATTGTCGTACTCCGCGCCTATGCGAAGTACATGCGCCAGATGGGGAATACGAATTCGTTCGAGTTCATCGCAGACACCCTGCTGGCCAACCCCTCCGTCACTAAGGGGCTCAGCGCACTGTTCGAGGCGCGGTTCGACCCCGACATGACCGAGCTGGAACGGACCGAGCGCCAGGAAAAGGTGCAGGCGGAACTGGCGGCAGCCATCGAAGGTGTGGCAACCCTTGACGCAGACAGGATCCTGAGAACCTTCGGCAACCTGATCCAATCGACGCTGCGCACCAACTTCTACCAGGAGAAGCCCTACGTCAGCTTCAAGCTGAACCCCGCACTCATCAACGGCCTGCCCTTCCCGAGGCCCATGTTTGAAATATGGGTCTACTCTCCGCGGGTTGAGGGAGTGCACCTCAGGTTCGGCAAGGTGGCCAGGGGCGGTCTGCGGTGGTCAGACCGCCGGGAAGACTTCCGCACCGAGATCCTGGGACTGGTCAAGGCCCAAACAGTCAAGAATGCCGTCATCGTTCCCACTGGCGCCAAGGGCGGCTTCTTCGCGAAACGGCTGCCCGACGCCGCCACGGACAGGGCAGCATGGATGACCGAAGGCGTCGAAAGCTACAAGACATTCATCCGGGGACTGCTCGACGTCACGGACAATCTCGTGACCGGCCCTGACGGCGAACGGCTCGTTGTGCCGGACAACGTTGTAAGGCACGACGACGACGACGCTTACCTTGTGGTGGCAGCCGACAAAGGCACCGCGACATTCTCGGACGTAGCGAACGGGCTCGCGGCAGAATACGGCTTCTGGCTAGGGGATGCCTTCGCATCCGGCGGTTCTGTGGGCTACGACCACAAGGCCATGGGGATCACGGCAAGGGGTGCGTGGGAATCCGTCAAGCGTCACTTCAGTGAATTGGACCTCGACACCCAGTCCGAGCCGTTCACGGTAGTCGGCGTCGGGGACATGTCCGGCGATGTCTTCGGTAACGGCATGCTCTTGTCCAAGCACATCCGGCTCGTCGCCGCCTTTGATCACCGGCACATTTTCCTGGATCCCAACCCCGATGAGTCGACCTCCTTTAAGGAGCGCCAGCGGCTGTTCCAGCTCCCCAGATCCTCCTGGGATGACTACGACAAGTCGCTCATCAGTGCAGGAGGCGGGGTTTATCCGCGCCAGGCCAAGTCGGTTCCCGTATCCCCGCAGGTGCGTGCGGCTCTCGGGCTGTCCCAGGAAATTACGCAGCTCAGCCCGCCCGAACTGCTCCGCGCCATCCTGCTTGCTCCTGCAGACCTGCTCTACAACGGCGGCATCGGCACGTACGTAAAGGCCAGCACGGAGACGCACGCCATGGTCGGAGACAAGGCGAACGACGCCATCCGTGTCGACGGCCGGGACCTGCGTGTGAAAGTGGTGGGCGAGGGCGGCAACCTGGGCATGACCCAGCGCGGCCGCATCGAGGCGGCCCTGCAGGGCGTCATCCTCAACACCGACGCCATCGACAACTCAGCGGGTGTTGACTGCTCGGACCACGAGGTCAACATCAAGATCTTCGTGGACCGGATGGTCGCGGCAGGGAAACTTGATCCCGCCGAGCGCCCGGAGTTCCTCGCGTCGATGACCGACGAAGTCGCCCGGCTGGTGCTGGAAGACAACATCGACCAAAATATCCTCCTGCTCAACGACCGCCAGCGGGTGGCTGAATGGAGTCCCAGCTACGAACGGCTGATGGACTGGCTGGAAAAGACGGCAGACCTGGACCGCGATCTGGAGGCGCTTCCGTCAAACCAGGTCCTGCGTGAACGTCTTGAGCAGGGACAGGGGCTGACATCCCCAGAACTTTCCGTCCTCGCCGCCTATGCCAAGATCGAGCTCGCCACGGCACTGCGGGACAGCGATCTCGCTGACGACCCTTGGTTCCGGCGGACCCTCAGGGAGTATTTCCCCCAGCAGTTGCGGGAGCGGTTCGACGCTGAGCTGGACACCCATCCGCTGCGGCGCGAGATCATTGCAACGGTCATCGCCAACGACATGATCAACATGGGCGGCATCACGTTCGCTTTCCGGACCATGGAGGAAACGTCGGCAAGTGAAGTGGCCGTAGCCAAGGCCTTCGTTGCCCTGCGCGAGGTGTACGAGCTGGAGATCATGGTCTCCGAGCTCAATGACCTTCCGGCGTCGTTCCCCACTGAACACTGGAGCACAGTGCACCTGGACATCCGGCGGCTGCTCGACCGGGCAGTGCGGTGGCTTCTGGGACAAGGCCGTGCTTCCCGGCCCATTGCCGACATTGTCGCCGAGTTCAAACCGCTCATGGACCCGATGAGGGCCCGGCTCCTGGATTACCTCCGCGGCGAGGACAGGGCGCGGGTGGCTGCCTGGCTCGAAAAAGCGCGGTCCTGGGAGCTGCCCGAAGATCTGGCCCATCGCTGGGCGGAGCTCTTTGAGAGCTTCGTGCTGCTGGACATTGCGAAGATTGCCCGCGCGCGCAAGGAGCCCGTGGAGGAGATTGCGCACGTCTTCTACACCGTGTTCAACCGCTTCCACGCCGATTCCCTGCTGGAGCGGATCAGCGCCCTGCCCCGCAAGGACAGGTGGCAGGCGCTCGCCCGGGCAGCCCTGCGCGATGACCTTTACTCCACGGTGTCGGACATTACGACGGCGGTACTAGATTCGACAGCCGCCGGGCTGCAGGCAGAGGAACGACTGAAGGCGTGGGAGGCTCTTAACGCCGAGCAGCTGGGCCGCGCCAAGAGCATGTTCGACGAGGTCAACGCACTCGAGGCCGACGACATGGCCTCGCTGTCGGTAGCATTGAGGCTCTTGAGGTCAATCGTCCGACGCTAG	MSSGSSVENKSRSAGAEGGFFADYYEHLAEEDARAYPRELLELRAETHRQVAANRQPGTAKISIVDEADQSVVYIVTDDMPFLVDSVNAEIVRQNFAIHLVLHPMFVVTRNRNTHELVKVDRVPASVGISSGDTAALPSLSHLIAQGDNSTHMESWIAVEFGRSSEVMKRRLVEGLERVLGDVRAAVEDWPKMRSKARQIAENLDKIPNSSQIAELRQAQDLLRWLDEGNFTFLGYREYDLVNEAGEDVLELREGSGLGLLRTQRDTAQVQHLTDAGRRKAREKKALVITKANSRSTVHRPAYFDYIGVKSFDAEGNVNGEQRFIGLFATSAYTGSVRNIPIVREKVDAVLRGAGFPPDSHSGKDLLGILETYPRDELFQIEVADLAATATGIQRLQERRRTRLFLRPDIYGRFMSAVVYLPRDRYTTNVRLRIEQELRETFRAESIDYEARMTESALARLFFRIRLPKGADVSNVNTVDLEKRLVRATRSWGEGISEVLRDRSNGDGSKELADIWAEAFPASYRVDYEVEDALEDIERFETYGAAAERSEGAKQERPGVHVYLPEGAGATLEEDARVKLYMLEPKSLSQILPYFHNLGLEVLDERPFEIETADNRDFFLYDLGLKYPAGVDPLSTGQLLADAFGAAVSGAVESDSFDRLVLREGMDWRRIVVLRAYAKYMRQMGNTNSFEFIADTLLANPSVTKGLSALFEARFDPDMTELERTERQEKVQAELAAAIEGVATLDADRILRTFGNLIQSTLRTNFYQEKPYVSFKLNPALINGLPFPRPMFEIWVYSPRVEGVHLRFGKVARGGLRWSDRREDFRTEILGLVKAQTVKNAVIVPTGAKGGFFAKRLPDAATDRAAWMTEGVESYKTFIRGLLDVTDNLVTGPDGERLVVPDNVVRHDDDDAYLVVAADKGTATFSDVANGLAAEYGFWLGDAFASGGSVGYDHKAMGITARGAWESVKRHFSELDLDTQSEPFTVVGVGDMSGDVFGNGMLLSKHIRLVAAFDHRHIFLDPNPDESTSFKERQRLFQLPRSSWDDYDKSLISAGGGVYPRQAKSVPVSPQVRAALGLSQEITQLSPPELLRAILLAPADLLYNGGIGTYVKASTETHAMVGDKANDAIRVDGRDLRVKVVGEGGNLGMTQRGRIEAALQGVILNTDAIDNSAGVDCSDHEVNIKIFVDRMVAAGKLDPAERPEFLASMTDEVARLVLEDNIDQNILLLNDRQRVAEWSPSYERLMDWLEKTADLDRDLEALPSNQVLRERLEQGQGLTSPELSVLAAYAKIELATALRDSDLADDPWFRRTLREYFPQQLRERFDAELDTHPLRREIIATVIANDMINMGGITFAFRTMEETSASEVAVAKAFVALREVYELEIMVSELNDLPASFPTEHWSTVHLDIRRLLDRAVRWLLGQGRASRPIADIVAEFKPLMDPMRARLLDYLRGEDRARVAAWLEKARSWELPEDLAHRWAELFESFVLLDIAKIARARKEPVEEIAHVFYTVFNRFHADSLLERISALPRKDRWQALARAALRDDLYSTVSDITTAVLDSTAAGLQAEERLKAWEALNAEQLGRAKSMFDEVNALEADDMASLSVALRLLRSIVRR	PGPT0014290_681	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371	NA	NA
D1-17_01370	1470	pdtaS	COG3920	putative sensor histidine kinase pdtaS	GTGGCAATCTTTACGGACCCCATCAGGGAGCACGCTGATTTCGGGCCGGGGGATGCGGAATGGCTGCACCTCCTGGTAGGCGACTGGCAGATGGTGGCTGACCTCGCGTTCGCCGACCTGGCGCTGTGGTTTCCGCACCCGGAGTACGGTTATGTGGCCCTGGCCCACGTCCGGCCCTCCACGACGCACACCGTGTTTCACGCCGACTTCGTCGGGGAGGGCATCCGCTCAGACCTGCAGCCCCTCGTCGACAAAGCGTGGGCAAGCCGCACCATCGAACGATCCAGCGAGACTAACTGGAGCAGTGATATGGCGCTGCGGGTGGAGGCCGTTCCGATGGTCAGAAACGGGCGCACCCTCGCAGTGGTCACCTCACACATGGACCTGTCCAGTTCCCGCATGCCGTCGCGCCTGGAGCTGACGTACCGCCAGTGTGCCTACGATCTCCTGCGCATGGGCACACTGGGTCTGTGGCCCGACTTCGCGTCCCCCACCGGTTCACGCCGCGGCGCCCCGCGTGTGGGCGACGGACTCATCCGGCTCGACGCGGACGGAATCGTCCAGTACGCCAGCCCTAACGGCGTGTCGGCCTTCCGACGTCTGGGCGACGGCGAATCCCTGGAGGGGCGATCCCTGGCAGAAGTAACAGCGGGGCTGCTCAAGGACCGCCGCATGGTGGATGAAACCCTGCCGCTGGTTGTCACGGGGCGGATGCCGTGGCGCAGCGAGATCGAATCCAGGGGAGTGAGCCTGTCCCTGCGTGCTATTCCCCTTCGAGACGAGCAGCAGCGGTTCGGGGCCCTCGTGCTGTGCCGCGACGTCTCTGAACTGCGCCGGCGTGAGATGGAGCTCGTCACCAAGGACGCCACCATCCGCGAGATCCATCACCGCGTCAAGAACAACCTTCAGACCGTTGCTGCGTTGCTGCGGATGCAGTCCCGCCGCATGGTCAGTGACGAAGCCAAACAGGGACTGGAACAGGCCATGCGCCGCGTTGCGACCATCGCCCTGGTCCATGAGACGCTCTCTCAGGGACTCACCCAGAGCGTTGATTTTGATGAGCTCATTGGACGGCAGTTCCGCTTGTCCGCGGAGGTTGCGTCACCGTCCCAGCAGGTTCGGACCCAGAGGTCGGGCATGTTCGGGGACCTGCCGAGCGATTTCGCCACGCCGCTTGCGCTGGTAATCAATGAGCTGGTGACCAATGCCGTTGAACACGGACTTGAGGGGCGGACCGGAACTGTCTGGCTGCTGGCTGACAGGTCTGAAGGCGATGACGGCGAGGAACTGCTGACGGTGACGGTGGCAGATGACGGGGTGGGCCTGCCGGAGACGCCCCATGTGGAGGGCCTTGGACTGCAGATCGTGCGGACCTTGGTAACCAGCGAACTCGGCGGAACCATCCAATGGAAGCCACGGGAGGGCGGGGGGACTGCTGTCCAGATCGTGCTGAGCCTCGCGGACCACTGA	MAIFTDPIREHADFGPGDAEWLHLLVGDWQMVADLAFADLALWFPHPEYGYVALAHVRPSTTHTVFHADFVGEGIRSDLQPLVDKAWASRTIERSSETNWSSDMALRVEAVPMVRNGRTLAVVTSHMDLSSSRMPSRLELTYRQCAYDLLRMGTLGLWPDFASPTGSRRGAPRVGDGLIRLDADGIVQYASPNGVSAFRRLGDGESLEGRSLAEVTAGLLKDRRMVDETLPLVVTGRMPWRSEIESRGVSLSLRAIPLRDEQQRFGALVLCRDVSELRRREMELVTKDATIREIHHRVKNNLQTVAALLRMQSRRMVSDEAKQGLEQAMRRVATIALVHETLSQGLTQSVDFDELIGRQFRLSAEVASPSQQVRTQRSGMFGDLPSDFATPLALVINELVTNAVEHGLEGRTGTVWLLADRSEGDDGEELLTVTVADDGVGLPETPHVEGLGLQIVRTLVTSELGGTIQWKPREGGGTAVQIVLSLADH				NA	NA	NA	NA	NA
D1-17_01371	249	whiB1		Transcriptional regulator WhiB1	ATGGATTGGCGTAACCGCGCAGCGTGCCTCGATAAGGACCCGGAGCTTTTCTTTCCGGTGGGAAACACCGGCCCTGCTCTTCTGCAGATCGAAGAGGCGAAGAGCGTCTGCCGCCGCTGCCCCGTCGTTGACACCTGCCTCCAGTGGGCCCTCGAGTCGGGCCAGGATGCCGGCGTCTGGGGCGGCATGAGCGAAGACGAACGCCGGGCCCTGAAGCGCCGCGCAGCACGGGCGCGCCGCGCTTCCTAG	MDWRNRAACLDKDPELFFPVGNTGPALLQIEEAKSVCRRCPVVDTCLQWALESGQDAGVWGGMSEDERRALKRRAARARRAS				NA	NA	NA	NA	NA
D1-17_01372	498			hypothetical protein	GTGTCAAGACCCCCAGCCACCCCCTCCGACCCGACTCCCGGCCCGGAAGACGACGGTGCTTCCGGACCTGGGCGCGACCCGCAGGCATCCCCGTCCCCTGAAGCCCGTCCCCGCCCGGTCACCGTTCTTTCGGCCATCGTGGGCGCCGAAGCGACGGCTTTGCTTGCGGCTGCTGCCTGGTACGGGTTCCAACTCGTAGCCGGCGCGCCTGTGCTCTCGTTCTGGGGCGCAGTCTTTACCCTCGCTCTGCTTCTGGCCTTTGCCTCCTGGCTGTATGCGGTGGCCGCGTTCCTCTACCGGGGATTCCGCTGGCCGCGAGCAGGTGCCCTGGTGGCGCAGCTGTTCGTGCTCACAATCGCGTTCCCCACGCTCACTGGCGGATACCCTGTGGCCGGACTGGCAATGCTGATTCCTGCCGCCGTCGGCATTGTGCTGCTGTTCGATAAGCGCGTTATCCAGTTCGCGTCCCGAGCGGCAGGCGCACCTCCGGCACTGTGA	MSRPPATPSDPTPGPEDDGASGPGRDPQASPSPEARPRPVTVLSAIVGAEATALLAAAAWYGFQLVAGAPVLSFWGAVFTLALLLAFASWLYAVAAFLYRGFRWPRAGALVAQLFVLTIAFPTLTGGYPVAGLAMLIPAAVGIVLLFDKRVIQFASRAAGAPPAL				NA	NA	NA	NA	NA
D1-17_01373	4128			hypothetical protein	GTGGATCTGCACTTCACCTTGGTTCGCGGCCCGGGCGCGGGACGTGACGAAGCTCCGCTGGAGCTTACGGCGAGCGCTGCCGGGAATGCTTTGGGAAGCGAACTGGAGCAGGAGCTTTCCCGGACGTTCGGAACACGTCGGCTCAGCGTGGGCGGCTTGCCGCTCTCCGCCCTTGTCATTGGACGGCCGCCCCTTGTCACCGGGGCCGTCATCGTCGACGGTGGCGGCGGGATCCGGGAAAGACAGCCCCGCAGGTCGGGGCAGGACATTCCCGCAGCCCTGTTGCTGGCTGTGCACAGCGGCCCGGCCGCGGGAAGCCTGCTTCCGCTGCGCCGCGGCAGCTATCGGATCGGACGGACCGCAGCGGATCTGACCATCCCCGATCCCGATTTGTCCCGGCAGCACGCCAGAATCGATGTGACCGATAGCGCCCTGAACATCCGGGATCTTGGCAGCGCCAACGGCATCGAAGTGGACGGTAAGCGCGTCCGGAGCGCCGCTATCTCTACGGACTCAATGATCAGCTGCGGACGTTCCACACTATCCATTGTTGTGGCGGGCCCGCCGGGGTCCCGGACCTCTTGCATGGGCGCCGCCGGGGTGTCGGTTGCCGAACCGCTGAGCGTGCCGAGGCCGCCCGGACAGGAGAACAGGGGAATGCTGTTTCTCAGCGCGCTGTTGCCTGTTGCCCTCGGCGTCGCGCTGGCTCTGCTGACGGGAATGTGGATGTTTCTGGCTTTCACGGCGGTGTCGGCAGTGACACTCGTGGTGCCGATCGTCTCGGGCCGACGGTCCCGGCGGAGACTGCGGTCGGCAGTCGTTGCTGCGGCAGCAGCAGATAAGGAACGACGACGGCGGTCCGCTCCGTCGCCGGCCGAGCTGGTGCTGGACTCACCCGGCATGGCCGTCGCGGCCGAGGCCACCCCTGACGTTTCGGGCGTTTGGCTGCGGCTGGGGCTTGCTGAGCAGCCCGCAAACGTCCGCCTCGAGCCGCCGGATCCTGCCTTCCAGCCGCCTGGGCTGGGGGCGGTTCCGTTCCTGCTGGACCCGCGGGCGGGGGTGGTGTCTGTGCGGGGGCCGGAGTCAGAGACCTCGGGCCTCATGCATTTACTTCTCATGCAGTTGACGGGGTATCCGTCGGCCCAAGGAACCCGGATCGCAGTCTGCGGACCCGTGAACTCTCTGCCTCTGGCCGCCCGGTATCTTCCGAACGTCACACTGCACGGCCGCATGGAGGACATGGTGGATGATCTGGCGGGCGATCCGGCCGGGGGCGGAATTCCCAGTGTCCTCGTGTTGATCACTTCCGGGGAGACGAACCTGTCACTGGAGCGCTTGTGCGAGGTGGCACGCCAGTCTGGCTGGCGCGTCTTCAGGTTCCTGCCGCCCGGTGCAGGGCCGGCTGCCTGGGACCCGTCGGATGCCGATATTGAGCTCGCCGGCAGCTACGCCGTACTCCGTTCCATGGGTTCCACCCACCAGTTCGTGGCAGACCTTGTGCCTGCGGACGTCTTCGCGCACTACTGCCGGAGGGCTAAGCAGGATACGGGGGTGCCGGTGCGGGGCCGATCGGTTCCCGCCTCGTGTATGCTCTCTGACGTTCTCGATCTGTCAACCGAAGCGACAGCGCTGCGCTGGTCAGTCGGACGCGTGGCCCCCGGCCTGGCTATCCCGGTGGGTCAAGGAGGAGACGGTCCGCGCATCCTGGACCTCGAAGCGGACGGCCCTCACCTGCTTGTCGCCGGGACCACAGGTTCCGGAAAGTCCGAGCTCCTGCGCACCCTGTCCGTTGGCTTGGCCCTCAGCTATCCCCCGGACCGGATGAATATCCTGTTCGTCGACTTCAAGGGCGGATCAGGGCTGGGTCCTTTGACGGCGCTCCCCCATTGCGTGGGTATAGTGACCGACCTTACGAGGAGTGAACTTGACCGCACCATGGCGTCACTGCGGGCGGAAGTCCGGCGCCGGGAGCAACTCCTCGCGGCGGCCGAGGCTCCCGACCTGACGGCATACCGGCTGGCGGGAAGGCAGGATGCACCTTCCCTGCCGCAGCTGGTCGTGATCATTGACGAGTTCCGGATGTTGGTGGACGACGCGCCGAAATCGTTGAACGAACTCATGAGAATCGCCACCGTTGGACGCTCGCTGGGACTTCACCTCGTCATGGCCACCCAGCGACCGCAAGGAGCAATCAACGCGGACATCCGCGCGAACGTCACCACCAGCATCGCGCTCCGGGTTCAGTCAGCCCACGAATCAGCTGACATCATCGGCACCACGGCGGCCGCCACAATCGCTGTGGAAACACCAGGCCGGGCGTTCCTCATGCGGGGAAACCAAGAACCTGCAGAGTTCCAGTCTGCCGCTCTCTCTACCGGAGGCATTCCTGGACGTACCCATAGCGGCGTTGTGGTCTGCCGGACCGTAGACGCCTTGTCGGCTCGCCCGCCCCGGTCAGCGGAGAAGGCATTCCCGGCTCCCCCGCCTACACCTGCCGCCGCTGCCGCGCCCCTGGTCGAGGCGTTGAACTCGTTATGGCAGGAATGCGGCACGGGCCCCGTCCGGCGCCCCGTCGCTCCGCCCTTGCCAACCACTCCGACCTACCCCCGGCCGCCCGCCGGGTCCGCCGCGGCCCGGTTTGCTGCGGATGGGCTTACACCGGATGGGCCTGCAGGCGACCTCCTTCCGGCCGAGGCACCGGACCGGGCAACCGGCAGCCCCGTGGTTGAGCTCGGCTGGCTGGATCTTCCTCACCAGCAAGAGGTTACCCCGCTCTCATGGCAACCTATTTATGACGGTCATCTCGCATTCATCGGCGGCACCTCCGGTGATGCTGTTAGCGCCATGTCGCTGGTTCTCGACCAACTGGCCGTCGATCCCGTGGACTCCCACCTGTATGTCCTCGATGCGGACGGCTCTTTCGCTCGGATGCAGGCCTCATCCCGCACGGGCGCCGTTACCGGCCTTCACGACCTGCGCCGTGGCGTCAGGGTGTTGGAGCGGCTCTGCGGTGAGATGTCCCGCCGCTTAAGCGATACCGGGACGCTGCACCATGTTCCTTTGGTCCTCGCGATTTCGGGGTGGGGATCCTGGCTCTCCGCCATGCGGTCAGGGCCGCTGATGTGGGGCGAAGACCTGGTTCAGGACATCATGCGGAACGGGCGCCGTGCGGGCATTACTGCCATCCTGTCCGGCGAGCGGGACCTGGCAGTGTCGCGGTTCCTGTCCGATATTCCCAACCGGGTGTACTTTCCCCGTGGGGCCAGCGTTGAAAGCCGCTTTGCGTGGCCGAAGATGCCTGAGGTTCTCAACGTGCGCGGCAGGGGTGTCGCCTTCGGGTCCATTGCCGGAGGAGGACCCGCTGTCTGCCAGTTCCATGCCAGTGACGGTCAGCCGGGCCCGGATGCACAACGCCGTATCCTCACCCGGCCCTTTAAGGTAGAGGCCTTGCCGCGCCGCCTGCCGGTGGAGGACATGCTCGGGCTGATGCGGCGAAAATGCAACGTGCGTCCACCTGGGGCGGGGCAGGCAGCGAACGGTGTAGCCCAACCCGTCGCTGGAACCCGTTGCCTCTGGGTAGGCGTTGGTGGGGATGATCTTTCACCTGTCGCGCTGCGCCTTCCCCCGGCGGGCGCCGTGGCCGTTTTGGGCGCTCCCGGATCGGGGAAAACGTCACTGCTGGCTGCCCTGCGCGTTCTGAATGCCCACCTCCGGACGTGGCTGCAGCCAGGTCCGGGGCTGGACCCTGACGACTACTGGACCGAAATCCATAAAGAGGCGGCCGCGGGTCGCCTCGGCAGGGACTCATTCCTGCTTATTGACGACGCGGAGCGCCTGGCCTTCTCCACACATCAGAAACTGCTGGAAATGAATTCCCTTGGTTGCCCGGTGGTCCTGTGCGCCAACTATGGCCAGTCACTGCTGCAGCGGGCGCCCATCGCCATGGCCGCCCGCAATGGAGGCACCGGGATACTCATAGCTCCCCGGAGCCACATGGATGGAGACCTCTTCGGAGCGCGGTTCGAGCTGGAACCCAATCCGCCTCCGGGACGGGCAGTTCTCCTCGCTGATGGCAGGGCAACTCCGGTTCAGCTTCCAGTCGCCACCGCCGGGACCCCAGACGCTTGA	MDLHFTLVRGPGAGRDEAPLELTASAAGNALGSELEQELSRTFGTRRLSVGGLPLSALVIGRPPLVTGAVIVDGGGGIRERQPRRSGQDIPAALLLAVHSGPAAGSLLPLRRGSYRIGRTAADLTIPDPDLSRQHARIDVTDSALNIRDLGSANGIEVDGKRVRSAAISTDSMISCGRSTLSIVVAGPPGSRTSCMGAAGVSVAEPLSVPRPPGQENRGMLFLSALLPVALGVALALLTGMWMFLAFTAVSAVTLVVPIVSGRRSRRRLRSAVVAAAAADKERRRRSAPSPAELVLDSPGMAVAAEATPDVSGVWLRLGLAEQPANVRLEPPDPAFQPPGLGAVPFLLDPRAGVVSVRGPESETSGLMHLLLMQLTGYPSAQGTRIAVCGPVNSLPLAARYLPNVTLHGRMEDMVDDLAGDPAGGGIPSVLVLITSGETNLSLERLCEVARQSGWRVFRFLPPGAGPAAWDPSDADIELAGSYAVLRSMGSTHQFVADLVPADVFAHYCRRAKQDTGVPVRGRSVPASCMLSDVLDLSTEATALRWSVGRVAPGLAIPVGQGGDGPRILDLEADGPHLLVAGTTGSGKSELLRTLSVGLALSYPPDRMNILFVDFKGGSGLGPLTALPHCVGIVTDLTRSELDRTMASLRAEVRRREQLLAAAEAPDLTAYRLAGRQDAPSLPQLVVIIDEFRMLVDDAPKSLNELMRIATVGRSLGLHLVMATQRPQGAINADIRANVTTSIALRVQSAHESADIIGTTAAATIAVETPGRAFLMRGNQEPAEFQSAALSTGGIPGRTHSGVVVCRTVDALSARPPRSAEKAFPAPPPTPAAAAAPLVEALNSLWQECGTGPVRRPVAPPLPTTPTYPRPPAGSAAARFAADGLTPDGPAGDLLPAEAPDRATGSPVVELGWLDLPHQQEVTPLSWQPIYDGHLAFIGGTSGDAVSAMSLVLDQLAVDPVDSHLYVLDADGSFARMQASSRTGAVTGLHDLRRGVRVLERLCGEMSRRLSDTGTLHHVPLVLAISGWGSWLSAMRSGPLMWGEDLVQDIMRNGRRAGITAILSGERDLAVSRFLSDIPNRVYFPRGASVESRFAWPKMPEVLNVRGRGVAFGSIAGGGPAVCQFHASDGQPGPDAQRRILTRPFKVEALPRRLPVEDMLGLMRRKCNVRPPGAGQAANGVAQPVAGTRCLWVGVGGDDLSPVALRLPPAGAVAVLGAPGSGKTSLLAALRVLNAHLRTWLQPGPGLDPDDYWTEIHKEAAAGRLGRDSFLLIDDAERLAFSTHQKLLEMNSLGCPVVLCANYGQSLLQRAPIAMAARNGGTGILIAPRSHMDGDLFGARFELEPNPPPGRAVLLADGRATPVQLPVATAGTPDA	PGPT0030468_592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030468-essC|eccC|ftsK|spoIIIE-K03466	NA	NA
D1-17_01374	1188	glf	COG0562	UDP-galactopyranose mutase	GTGACTGCTGACCTCGTCATCGTAGGATCAGGCTTTTTTGGCCTGACAATCGCAGAACAGGCCGCCACTGAGCTGGGCTTGAAGGTCGTCGTCCTCGACCGCCGCCACCACATCGGCGGAAACGCCTACAGCGAAAAAGAAGATCAGACCGGAATCGAGGTCCACCGCTACGGTGCGCACCTCTTCCACACCTCCAACGAGCGGGTCTGGGAATATGTGAACCGCTTCACAACCTTCACGAACTACGTCCACAAGGTTTACGGCGTCCATAAGGGCGAGGTCTATTCGCTGCCCATCAACCTAGCCACGATCAACCAGTTCTTCCGCGCTAACCTGAGCCCCGGGGAGGCAAAGGCCCTTATCCAGGAACAGGCCGGCGAACTCGCGGGGACGGATCCCCAGAACCTGAACGACAAGGGCATCCAGCTCATCGGGCGGCCGCTCTACGAGGCGTTTATCAAGCACTACACCGGGAAGCAGTGGCAGACAGACCCCAAGGATCTGCCGGCCGGCATCATTTCCCGGCTGCCGGTCCGCTACAACTACGACAACCGGTACTTCAACGACAAGTATGAAGGCCTTCCGACCAACGGGTACACCGCATGGATCGAGAAAATGGCGGAGCATCCGAACATCGAGGTCCGGCTGAACACCGACTTTTTCGACGACTCCCACGAGTACAGCAAGGACAAGGTTGTCGGAAACATTCCGGTCATCTACACAGGGCCCGTGGACCGGTATTTCGACTTCGCAGAAGGAGACTTGTCCTGGCGGACCATCGACTTCGAGGAGGAAGTCCTTGAGGTCGGCGACTTCCAGGGGACCTCTGTGGTCAACTACAACGACGAGGACGTCGCCTTCACCCGCATCATCGAGCCGCGCCATTTCCACCCGGAGCGGGACTATCAGAGTGAAAAGACCGTCATCATGCGGGAGTTCTCCCGGGCAGCAGAGAAGGGCGATGAGCCCTATTACCCCATCAACACCCCGGCGGACCGGGAGCGGCTGCTGAAGTACCGGGACCTGGCAGCGGCTGAGAAGGATGTCCTGTTCGGCGGACGCCTCGGCACCTACAAGTACCTGGACATGCACATGGCCATCGGATCGGCCCTGACGATGTTCGACAACAAGATCCGTCCGCACTTTGAAAGCGGAGCAAAACTTGAAAGCGGAGGCGTGGACGCATGA	MTADLVIVGSGFFGLTIAEQAATELGLKVVVLDRRHHIGGNAYSEKEDQTGIEVHRYGAHLFHTSNERVWEYVNRFTTFTNYVHKVYGVHKGEVYSLPINLATINQFFRANLSPGEAKALIQEQAGELAGTDPQNLNDKGIQLIGRPLYEAFIKHYTGKQWQTDPKDLPAGIISRLPVRYNYDNRYFNDKYEGLPTNGYTAWIEKMAEHPNIEVRLNTDFFDDSHEYSKDKVVGNIPVIYTGPVDRYFDFAEGDLSWRTIDFEEEVLEVGDFQGTSVVNYNDEDVAFTRIIEPRHFHPERDYQSEKTVIMREFSRAAEKGDEPYYPINTPADRERLLKYRDLAAAEKDVLFGGRLGTYKYLDMHMAIGSALTMFDNKIRPHFESGAKLESGGVDA	PGPT0022675_433	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0022675-glf-K01854	NA	NA
D1-17_01375	2013	glfT2	COG1216	Galactofuranosyltransferase GlfT2	ATGAGCACAGCTACCAAGACGGAGGCCTCCCAGGTGAGCCAGGAAGGCCAAGCCTGGCGGGTCCTGCAGCGGGTCATTCTACCGAGCCAAAGCCAGATGGACACCGTGCCCCTGTACCTTGACACCGGAACGGCAACAGGTGTTCAGTTGCCGACGTCGAACGTTGAGGCCAACAGCAGGACGACGGCCCAGACCGTCAGCGCTCCGAGTAAGGAAGCGCACGTGGAGGACTTCCTGACGCGTCATTCGACGTCGGTCCGTCCTGGAGAGCGTGTCTCGTTCGGCAGCTACTTCAACGCGTTCGCCGCCAGCTACTGGCGCCGGTGGACGACCGTCAAGAGTGTCCGGCTGTCGGTTTCCACTGCGGGTTCCGGCTCTGTTATCGTCTACAAGTCGAATGCCCGCGGTGCGCTTCAGCGCGTTGATTCCCGGAACGTCGACGGCGGCGCGGTCAGCACCTTTGACCTGACCCTCGCCCCGTTTGGCGATGGCGGCTGGTACTGGTTCGACCTCGTGGCCGGGTCCGAGCCCCTCGTGCTCCGGAAGGCTGAGTGGCTGACGGAAGACGGCGGCAGCCAGCAGGGCAGCGTGACGCTGCAGATCACCACCCTCAACAAGACCGAATTCTGCATCAACAACCTCAAGCTGCTGTCCGAGAACCCGGATGCCCTAAAGCACATCAAGGAGCTCGTGGTTGTCGACCAGGGGACTCATAAAGTGTCCGATGCCGACGGCTTCGCCGAAGTGGCTGCGGCGCTGGACGGCAAGCTGAGGATCATCAACCAGGACAATCTGGGCGGTTCCGGCGGATTTGCACGCGGCATGTACGAGGCAGTTGAGAACGGCAGCGACTATGTGCTGCTAATGGACGACGACGTCGTCGTAGAGCCCGAGAGCATCTCAAGGATGCTTACCTTCGCTGACCTGTGCAAGACCCCGACCATCGTTGGCGGACACATGTTTGACCTGTACAACCGCACGGTGCTGCATACCTTCGGTGAGGTTGTGAACCCCTGGCGCTTTCTCTGGGAACAGTCCCGTGAGGACATGCTGCTGGGCCACGACTTCCAGTCCACGAACCTGCGTCAGACCAGCTGGCTCCACCGCCGGGCCGATGTGGATTTCAACGGCTGGTGGATGTCGCTGATACCCACGCGGATTATCCGTGAAATCGGCCTTGCGCTTCCGGTGTTCATCAAATGGGACGACGCTGAATACTCTCTCCGGGCCAAGGAACATGGCTATCCGACCGTTTCCATGCCTGGCGCGGCGGTCTGGCATGTTTCCTGGATCGACAAGGACGATCTCGTGGGGTGGCAGGCATACTTCCACGCCCGCAACAGGTTCATTGCTGCGCTGATCCACAGCCCCTACGAGTTCGGAGGCCGGATCGTACGCGAGTCGCACTACGCAGACATCAAGCACTTGGTATCCATGCAGTACGCCACCGCACGAGGGCGCAACATGGCGCTGCGGGACCTCCTGCGGGGACCCGGGCAGCTTCACGGGCAATTGGCTAAAAAGTTGCCTGAAATCCGGGACATGATGAAACACTACCCGGACTCGGTGATCGCGACTGATCCGGATACCTTCCCGGCCGCGAAGCTGGACAAGCCTCCGAAACACGGGCACGGCGTCCGCGAGCCGAACAAACTGGGCTTGATCCCCATCGCTATGAAGACCGTACTGCGCCAGCTGGTACAGCCCGTTTCGCCGTCGAGCAGGGTCCGTCCCCAGGCAAATGTGGCTCACCAGGACAACCGCTGGTGGCGCATGTCCCAGTACGATTCCGCAGTCGTCACGAACGCGGAAGGCACTGGCTCCGCATGGTACAAGCGTGACCCGAAGCAGCTCCGCTCCATGCTCGCCGAGAGTGCGCGCCTGCACTCACTGCTGCTGAAGGATTGGAAAAAGCTCAGTGCTGAGTACAAGGCTGCGCTGCCTGAGATCACGTCGATCGACACGTGGAAGAAGACCTTTGACGCACATAGTGAACGCGTAGATGAGCGTTAG	MSTATKTEASQVSQEGQAWRVLQRVILPSQSQMDTVPLYLDTGTATGVQLPTSNVEANSRTTAQTVSAPSKEAHVEDFLTRHSTSVRPGERVSFGSYFNAFAASYWRRWTTVKSVRLSVSTAGSGSVIVYKSNARGALQRVDSRNVDGGAVSTFDLTLAPFGDGGWYWFDLVAGSEPLVLRKAEWLTEDGGSQQGSVTLQITTLNKTEFCINNLKLLSENPDALKHIKELVVVDQGTHKVSDADGFAEVAAALDGKLRIINQDNLGGSGGFARGMYEAVENGSDYVLLMDDDVVVEPESISRMLTFADLCKTPTIVGGHMFDLYNRTVLHTFGEVVNPWRFLWEQSREDMLLGHDFQSTNLRQTSWLHRRADVDFNGWWMSLIPTRIIREIGLALPVFIKWDDAEYSLRAKEHGYPTVSMPGAAVWHVSWIDKDDLVGWQAYFHARNRFIAALIHSPYEFGGRIVRESHYADIKHLVSMQYATARGRNMALRDLLRGPGQLHGQLAKKLPEIRDMMKHYPDSVIATDPDTFPAAKLDKPPKHGHGVREPNKLGLIPIAMKTVLRQLVQPVSPSSRVRPQANVAHQDNRWWRMSQYDSAVVTNAEGTGSAWYKRDPKQLRSMLAESARLHSLLLKDWKKLSAEYKAALPEITSIDTWKKTFDAHSERVDER	PGPT0024215_131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGGALACTOFURANOSYLTRANSFERASE_ACTIVITY,PGPT0024215-glft2-K16650	NA	NA
D1-17_01376	876			hypothetical protein	ATGAGCGTTAGCACGGAGTTGGCCCGGCCCGGTGTCGGCGGCGGGCTCGCTGAGGTTTTTCGCACGAGGTTTTTGCTGAAGCTTCTGGTCCGCAAAGAACTGAAGGTCAGGTACCGGGGTTCGGTGCTTGGGCTGCTCTGGTCCTATGTGAAGCCCGGTGTGCAGTTCATCGTGTTTTACATTGCCCTCGGCGTGTTCCTGGGACTCGAGAACAGTCCCAGGAACCCGGGCGGCCTTCCCAACTATGCGATATACCTGTTCTCCGGAATCGTGCTGATCAACTTTTTTAACGAGGCACTGGGGAACGCTTCCCGCTCTATCGTGAACAACGGTGGGCTCATCAAGAAGATCTATCTCCCGCGGGAGCTGTTCCCGGTCGCCTCGGTATGGGTCTCTGCCGTGCATTTCTTTCCGCAGCTCGTCATCCTCGTCGGCGCATGCCTCTACGCAGGATGGCATCCCTCATTCCTGCAACTGGCCGCCGCAGTGGGCGGCTTCGCGATTGTCGGCCTGCTCGCAACAGGCCTCGGCCTGCTGTTTGGTGCAGTCAACGTCTACTTCCGCGACTCGGAAAACTTTGTCGACATGCTCCTTATGGTGGCAACCTGGGCTTCGCCTGTGATGTACGCCTGGACGATGGTTGCGGACAAGCTGGGGGACTTCTGGTTCACGGTCTACCAGTTCAATCCCATTACGGTAGGCGTGGAATCATTCCACTACGCGTTTTGGCTTCCGACGACGGACGGCAGCGCGCCGCTGCCCCCGAACCTGCTGTCTGTCTGGCTGCCAGTGGCGCTGCTTGTGTCGGCTGGCATCCTGTTGGTCGGGCAGCTGACATTCCGCCGGCTTGAGGGCCGTTTTGCACAGGAGCTATAA	MSVSTELARPGVGGGLAEVFRTRFLLKLLVRKELKVRYRGSVLGLLWSYVKPGVQFIVFYIALGVFLGLENSPRNPGGLPNYAIYLFSGIVLINFFNEALGNASRSIVNNGGLIKKIYLPRELFPVASVWVSAVHFFPQLVILVGACLYAGWHPSFLQLAAAVGGFAIVGLLATGLGLLFGAVNVYFRDSENFVDMLLMVATWASPVMYAWTMVADKLGDFWFTVYQFNPITVGVESFHYAFWLPTTDGSAPLPPNLLSVWLPVALLVSAGILLVGQLTFRRLEGRFAQEL	PGPT0006730_10263	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-17_01377	726	tagH	COG1134	Teichoic acids export ATP-binding protein TagH	GTGGCCACCGCCATCGAAGTCAAGAACATCAACAAGCAGTTCGTCCTGCGCCACACCAGGTCCATCAAGGAAGCCATCGTCTGGCTGGCCAAGGGGCGCAAAGGTGATCTTTCGGAGAAGTTCCATGCGCTGCATGACGTCTCACTGGAAATCGGCCAGGGGGAGGCCGTGGCCCTCCTGGGTTTCAATGGTTCCGGCAAGTCGACGCTGCTGAAACACATCTCAGGTGTCATGGTGCCGGACAACGGGACCGTGCGGACGCGCGGCCGGGTTGCGGGTTTGATTGAGGTCGGTGCGGGGTTCCACCATGACCTGTCAGGCCGGGACAACGTCTACCTCAACGGGGCCATCCTTGGCATGACCGAGGAACAGATTAAGGAGCGCTTCGACTCCATTGTCGAATTTGCCGAAATCGGCAAGTTCATTGACACCGAAGTGAAGTTCTACTCGTCGGGTATGTACCTGCGGCTCGCATTTTCAGTGGCCGTCCATACGGATCCCGAGGTGTTCCTGGTGGACGAAATCCTGGCGGTCGGCGATGAGCCCTTCCAGAAAAAGTGCATCGCGAAGATCCAGGAGCTCGCCGCGGAAGGGAAAACCTTGGTCGTGGTGAGCCATGATTTGGATCTCGTGTCCCGGATTTGTGACCGGGGGATCCTGCTCGACCGCGGCAACGTTACGTTTGACGGTCCGATCGAACAAGCGGTGGCCACTCTGCGCGCATAA	MATAIEVKNINKQFVLRHTRSIKEAIVWLAKGRKGDLSEKFHALHDVSLEIGQGEAVALLGFNGSGKSTLLKHISGVMVPDNGTVRTRGRVAGLIEVGAGFHHDLSGRDNVYLNGAILGMTEEQIKERFDSIVEFAEIGKFIDTEVKFYSSGMYLRLAFSVAVHTDPEVFLVDEILAVGDEPFQKKCIAKIQELAAEGKTLVVVSHDLDLVSRICDRGILLDRGNVTFDGPIEQAVATLRA	PGPT0006725_24902	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-17_01378	2064			hypothetical protein	ATGCCCTGGGTGACGTTCGTGCCCATACTACTGCTTGCCGCGGTGATTTTCCTGGGACCTGGACTATTGGTCATGCGTGCGGCAGGGGTAAGGGGACTTCCACTGTTCGCGGTCTCCGGCCCGACGACGGTCACTGTCGCCGGCGCCGTTGCCGTTGCAGCTCCGTACGCCGGCATCCGTTACGGGATCATCCCCGTCGCTGCTTGTGCATTGATCCTCACTGTTGCGGCTCTCGTGCTGCGCTACGTCCTGGCCATGCGCGGCCTTGTATTCGGAGCCCAGCCCCGTAAGTCGTTCAGCAAGAGCGCGGAGAACAATGCCGCCACGGAGCCGGCTCTTACGCCAGCACAGGAGTGGGTTAGGCGCGGTGCAATCATTGCCGCCTTCGCCATTCCCGCGGTCATCATCACGGTGCGGTTTGCGGGGATCATCGGCGCACCAGGCAACATCTCCCAAACCTACGACAACATATTTCACCTTAATGCGGTCGGCTATATCTTGATCACCGGATCGGGCTCGTCCCTGACGCTGGGAAACCTGACCGAAGCCTCTGCGGCGTTTTACCCCGCTGCATGGCATGACCTGATCGCACTCGTCGCCTCAACTGCGTCAGTCTCAGTCCCGGAAGCCATCAGCGCTGGCAATATCGTCATTGCCGCGATCATGTGGCCACTCGGAATGATGTACCTGATCAGCCGGATCTCCAGTGGACACGTCCTGCCCATGCTGCTGACGGGGGCTCTGGCCGCGGGCTTCAGCTCCTTTCCGTACCTCATGATTGACTTCGGGGTTCTGTACCCCAACCTGTTGGCGATCGCCATCATGCCCGTTGCACTGGCACTGACCATTGACCTTCTGGGCCTCAACCCAACCAAGCGGCGGATCGTGCCAGTGCTCTGCCAAGGGGCTCTCATCCTGCCCGGCTTGGCCCTGGCCCATCCGAGTTTCGTCGTGGCCCTGTTTGGACTGGCCCTCCCGCTGCTGCTGACGAAGCTCGTCCGCCTCGTCGTCGGCTTCAGGCGTAGTGAGGCCACTGGCCGGCAGCTGGTCGGCTTTGCCGTCCTGACAGCCGTATTCATTCCGTTGGTCTTCATCGTGTGGGACATGGCCAGCCAGAGCCTCACGTCTTCACGGTGGAAGCCCTATCAGACCGTTTCCCAGGCCATCGGTGAGGTTCTCGGCGCCGGCCCCCAGGGAAGGCATGTTTCCCTGGTGATGTTCGTGATGCTCGTCGCCGGACTTGTCGCCTCCATCGCCCGGCGAAAGCTCGTATGGGCGCTCGGCATGGCCTTTGTTGCTGCCGGGCTTTTCATCGTGGCGTCCGCGCTTCCTCCGAGCGAGACCAGGCACTTCCTGACCGGAGTCTGGTACAACGACTCACACCGCCTCGCCGCGATGCTGCCCGTCGTCCTGCTGCCCCTGGCCGTGCTGGGTGGCGAAAGCATTCTCCGCGGAACTGCCGCGGCGGCCACGAGGCACCGGGTAGGTGAGACGGCCAGCAGGATACTGCGCCTTCCCCGCGCCGCCGCCCTTGACAAGATCGCGCCCGCTGCCGTTCTGCTCGTGGGAGTTTTCGCCATCGCCGTCGGTGCGCAGTTCGGTACCGTTGGAAAAGAACAGGTCCTGGCCTCAGCCAACTACAGCACAGGCCCGCATGCCCCATTGGTCTCCACTGACGAGCGGGCACTCCTGGACCGCCTGCCCAGCCACGTTCCGGCCGAAGCCAGCGTCTACGGCGACCCTTGGACCGGGGCGTCCCTTACCCAGGGACTGTCGCTGCGCCGCTCTGTCTCTCCGCACATCGTTGGTCGCCGCACACCGGAAGAACTTGTCATCATGAGCAAGATCGACGAGGCAGGGGTCGATCCTGTGGTCTGCCCGGCGGTGAAGTCACTGGACGTGCAGTACGCTCTCATCTTCGACGACAAGGAGGTCCACGGCGGAGCCCATCCCAACACCGCCATGGACAAGGCGGACACCGCACCCGGACTGAAGCTCGTTGATCAGGAAGGACCGGCCAGACTTTATCAGGTGACCGGTTGCGGCCCGTTGAGCAACCAGTAG	MPWVTFVPILLLAAVIFLGPGLLVMRAAGVRGLPLFAVSGPTTVTVAGAVAVAAPYAGIRYGIIPVAACALILTVAALVLRYVLAMRGLVFGAQPRKSFSKSAENNAATEPALTPAQEWVRRGAIIAAFAIPAVIITVRFAGIIGAPGNISQTYDNIFHLNAVGYILITGSGSSLTLGNLTEASAAFYPAAWHDLIALVASTASVSVPEAISAGNIVIAAIMWPLGMMYLISRISSGHVLPMLLTGALAAGFSSFPYLMIDFGVLYPNLLAIAIMPVALALTIDLLGLNPTKRRIVPVLCQGALILPGLALAHPSFVVALFGLALPLLLTKLVRLVVGFRRSEATGRQLVGFAVLTAVFIPLVFIVWDMASQSLTSSRWKPYQTVSQAIGEVLGAGPQGRHVSLVMFVMLVAGLVASIARRKLVWALGMAFVAAGLFIVASALPPSETRHFLTGVWYNDSHRLAAMLPVVLLPLAVLGGESILRGTAAAATRHRVGETASRILRLPRAAALDKIAPAAVLLVGVFAIAVGAQFGTVGKEQVLASANYSTGPHAPLVSTDERALLDRLPSHVPAEASVYGDPWTGASLTQGLSLRRSVSPHIVGRRTPEELVIMSKIDEAGVDPVVCPAVKSLDVQYALIFDDKEVHGGAHPNTAMDKADTAPGLKLVDQEGPARLYQVTGCGPLSNQ				NA	NA	NA	NA	NA
D1-17_01379	639			hypothetical protein	ATGTACAACGAAGGCACCGTTGTCGCCGATGTAATCCGAGGTCTCCTGCCAGTTTTTCCGTACGTAGTGTGCGTTGATGATGGGAGCTCGGACAATTCGGCGCAGATCGCCCGGGAGGCCGGTGCCGTGGTGGTGCAGCACCCCATCAACCTTGGCCAGGGGGCCGCGCTCCAGACCGGCATCGAGTACGCGCTGCAGGATCCGGAGCTCGGGTGCATTGTGACTTTCGATGCCGACGGGCAGCACAAAGTCTCTGACGCGTTCGAGATGGCGAGCCGCGTCCTTAATGATGAGGCCGACATCGTACTCGGCTCCCGGTTCCTGGATAACCGGACGAAGCTGTCGCCCATGAAGCGAATCGTGCTCAAAACGGCCGCGCTGCAATCCAAACTGTCCACCGGCCTGGACCTGACCGACGCCCACAACGGGCTGCGGGCTTTCAATCCGTACGTTGCCCGTAACATCAACCTGACGCAGAACCGCATGGCCCATGCGTCGGAACTGGTGAACCGGCTGGCCACGTTGAAGCCGCGCTATGTGGAACACCCCGTGGAGATCATCTACACGGATTATTCGAAGGCCAAGGGCCAGTCCCTGCTGAACTCGGTCAACATTCTCGCGGAACTGTTTTTGAGGTAA	MYNEGTVVADVIRGLLPVFPYVVCVDDGSSDNSAQIAREAGAVVVQHPINLGQGAALQTGIEYALQDPELGCIVTFDADGQHKVSDAFEMASRVLNDEADIVLGSRFLDNRTKLSPMKRIVLKTAALQSKLSTGLDLTDAHNGLRAFNPYVARNINLTQNRMAHASELVNRLATLKPRYVEHPVEIIYTDYSKAKGQSLLNSVNILAELFLR	PGPT0023090_246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023090-ppgS-K22907	NA	NA
D1-17_01380	354			hypothetical protein	ATGCTAATTGTCATCCAGGTCATCCTGGTCCTCGCCGTCGTCCTCGTGGCGATGATCCTCATGCGGGGCGGGTCCAACGCAAGGCATCTGGCGATTCGCCGGCTCATGCTGATGGTCTTCACTTTCGTAGCAGCCCTGTCCATTTTCTTTCCGCAGCTGCTGACCACGGTTGCGGGCTGGTTCGGGATCGGCCGTGGCACCGACCTTGTGCTGTACGGCGTGGTGGTGTGGTTGCTGATCTTCATGGCCACCACGTACCAGCGGTTCCGCCAGACCGAGATTTCGCTGACCAAGCTGTCGCGGCGGATCGCCATCGACGAGACTCCGAGAGTCTGGGAAACGGGCGGCAAATAG	MLIVIQVILVLAVVLVAMILMRGGSNARHLAIRRLMLMVFTFVAALSIFFPQLLTTVAGWFGIGRGTDLVLYGVVVWLLIFMATTYQRFRQTEISLTKLSRRIAIDETPRVWETGGK				NA	NA	NA	NA	NA
D1-17_01381	825			hypothetical protein	ATGGCCGCAGGACCGGCAGAACACACCGTGGATGTCTCGCTGATCATTCCGACCAACAGCATGCACAGATGGCTGGACCTGGCTGTTACGTCGGTTTTGGACCAGGAGGGCGCCAGCTTCGAACTCATCCTCTACCTGGACGGGGTGGAGCTGCCCCCGGGCAAGGAATGGGCCGCCGACTCTCGTGTGCGGCTGGTACGCGGTACAAATTCCCAAGGCGTGGGGCATGCCCTGCGCGAGGCATGCAAGCACGCGCGGGGCGAGTTCATTGCCCGGCTGGACTCCGACGACGTCGCACTGCCCGGCCGTTTTGCCCGACAGGTGGCGTATCTGCGTGAGCATCCTGAGACAGTGGCGGTCACCGGCCAGGCGCCGTGGATTGATGAGGAAGGCGCTCGAATCGGAGCCTTCGGACACGCATCGGGCGCTGACGTCCGTGGAAAACTGCTGGAGCAGAACGTGCTCGTCCAGTCGGCGATCATGTTCCGTGCCGCTGACTATCGGGCGGTAGGCGGATATAACCCGATGAGGCAGATGGAAGATTATGACCTCTGGCTCCGGCTCGCCCTGCGGGGACGCCTGGCGGTACTCGACGCCGACGTCGTCGAGTACCGCATCCACCCCAACCAAACCAGCCGGGGTGTTCATCCCCGTGCGTCCTACGTCAAGACGGTTTATGCCGGGCGTAAGAACCTCGCCCGGTTGCTGGGGAAGTCTGCGGGCAGCCAGCTGGTCCGCAACACAGCGTTCCGTGCGGCGCTGTACATGATGTACTACCTGCCGCCGGGCCTGATCCGCCGCATCCGGACTGTTGCTTCGCGCTAG	MAAGPAEHTVDVSLIIPTNSMHRWLDLAVTSVLDQEGASFELILYLDGVELPPGKEWAADSRVRLVRGTNSQGVGHALREACKHARGEFIARLDSDDVALPGRFARQVAYLREHPETVAVTGQAPWIDEEGARIGAFGHASGADVRGKLLEQNVLVQSAIMFRAADYRAVGGYNPMRQMEDYDLWLRLALRGRLAVLDADVVEYRIHPNQTSRGVHPRASYVKTVYAGRKNLARLLGKSAGSQLVRNTAFRAALYMMYYLPPGLIRRIRTVASR				NA	NA	NA	NA	NA
D1-17_01382	774	legF	COG1083	CMP-N,N'-diacetyllegionaminic acid synthase	ATGAATCCAGATTCCGTACGCCCTCGTGTTCTAGCGGTCGTTCCCGCACGCGGTGGCTCCAAAGGCCTACCCGGTAAGAATATCCGCCCCCTCATGGGTAAGCCCTTGCTGGCCCATGCCGTTGCGTTGGCCGAACAACTGGGCGACAACGTCAGGTGCATCGTTTCTACTGACGATGAACATATTGCCGAAGTCGCCCGCGAAGCGGGTGCCGACGTTCCTTTTATCCGGCCTGCCGAACTGGCTTCGGATCTTGCCTCGTCCAGTGCCGTGCTCCGTCATGCATTGAACATGGCAGAGAGCATCTACTCTGAGGTCTTTGACATGGTCCTGCTCCTTGAGCCGACCAGCCCGACCCGAACGCAGGACAAGGTTCAGGAGGCCATAGATCAATTGTCCAGCAACCCTGAACTGGACGGCGTCATCGCGGTTTCGGAGCCATTCTTTAACCCTCTGTGGGTAGGCGTCCGGCCCAGCACTGAAGGACCAGCTCTGGAGCGTTACTTCAAGGAAGGCGCTGGGATAGTCCGCCGACAGGACCTTCCCCCGTACCTGCGAATCAACGGCAATTTTTACGTGTGGCGTTCCGACTTTATCCGCAAACTGCAGCACAGCTGGTTCGATGAGGGCGTACATGGGTACGTTCAGATCCCTGAACTGCATGCCTTCAGCATCGACGACGAACACGAGTTTCATTTGGTGGAAGCGGTCGTCGCCGCCGGCCTGGCACCCTTGCCCGGGGCTGCGGCAGATACTGGGGATAGCCCAGCCTAG	MNPDSVRPRVLAVVPARGGSKGLPGKNIRPLMGKPLLAHAVALAEQLGDNVRCIVSTDDEHIAEVAREAGADVPFIRPAELASDLASSSAVLRHALNMAESIYSEVFDMVLLLEPTSPTRTQDKVQEAIDQLSSNPELDGVIAVSEPFFNPLWVGVRPSTEGPALERYFKEGAGIVRRQDLPPYLRINGNFYVWRSDFIRKLQHSWFDEGVHGYVQIPELHAFSIDDEHEFHLVEAVVAAGLAPLPGAAADTGDSPA	PGPT0022765_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-LEGIONAMINIC_ACID_MODIFICATION,PGPT0022765-legF|ptmB-K18431	NA	NA
D1-17_01383	99			hypothetical protein	ATGATGTTCACATATTACGTGCAGCTCGAGCGTGGCAGGCGGTGGAGCACCATCAAGCCGTCAGCGCCACTCTTGACCGCCATCCCCGAAATCCGTTAG	MMFTYYVQLERGRRWSTIKPSAPLLTAIPEIR				NA	NA	NA	NA	NA
D1-17_01384	945			hypothetical protein	GTGAAATCCCCGGTACTGGCGCAGTTTGCCGACTTTAATGACCGCGGCGCCAACCGGAAGAGACTGATATGGACTTCAGCTTCCCGCGGGTTTGACGTGGATGCTCCAGAAAACCGCTTTCCTGACGGGTCGAGCATGGTGACTGCCGTGGGGGCGCCTTTCCTCTACCTCCTCAACGCCGCCCGTGCGGCGGATGCCCTGCCGGAACGCACTGCAGGCACCATCGTTCTTCCGGTCCATGGCACCGCGCTAGTAAAAGTGAGCGGTGACCATGGCGGATTCGCCCGGGAAGTACTCCGCAGGGAGGGGCCGTCCGCTGTCTGTCTACACATTGAAGATCTCGAACATCCAGAGATTTACCGCGCCTGGACTGACGCCGGGCACGAGATCATCAGCGCCGGAGAGAGGCGTGATCCGCGGTTCTTAGGAAGAATTTTGGGAATGGTGGGGTCTGCACGGAAGGTCGTGTCAAACCGCATGTCTACAGCATTGCTCTATGCCTCGGTGGCCGGCGCTGACGTGGAGATCTACGGGCCGGACTTCCAGCTCGGCCAGAACGCAGAAACCGATCCGGGCCTTCGGATGCGTGAGCTGTGGCCCGAATTTTATGAGCCATCACCGGACAACGCTGAGCTCAAACGCATAGCGGACCTGGAACTCGGTGTGCAGGACATGAAGTCGCCGGAGGAACTGAAAAGCCTGCTCGGCTGGAACAGCCCCTCCTTCGGCGCGTTCTGGGATTACTGGGCCAGCGGCCCCCTGGAAAAGGCCCAAGCTGTCCTCGGGTTGCGGAAACGCCCCGAAGGTGCCCACAGCGGCGAAGCGAGCCTGTCCCCGATCCATTTCCTCCGGCATCCGCTCAAGCACCTGCCGTCCCCGCTGCCGAAGCTCACGCCGGCGGTAGCCGTCGAGGCCGTCAGGCTCAAAGAGTCGGGCCGGCTCTAG	MKSPVLAQFADFNDRGANRKRLIWTSASRGFDVDAPENRFPDGSSMVTAVGAPFLYLLNAARAADALPERTAGTIVLPVHGTALVKVSGDHGGFAREVLRREGPSAVCLHIEDLEHPEIYRAWTDAGHEIISAGERRDPRFLGRILGMVGSARKVVSNRMSTALLYASVAGADVEIYGPDFQLGQNAETDPGLRMRELWPEFYEPSPDNAELKRIADLELGVQDMKSPEELKSLLGWNSPSFGAFWDYWASGPLEKAQAVLGLRKRPEGAHSGEASLSPIHFLRHPLKHLPSPLPKLTPAVAVEAVRLKESGRL				NA	NA	NA	NA	NA
D1-17_01385	702	epsM	COG0110	Putative acetyltransferase EpsM	GTGGGCGCCTGGCTGATCCTCGGGGCCTCCGGGCACGCACGCAGCCTTGCCTCGATCGTGAACGGCCGCGGAGACTATGTGGCCGCCGTTTCTGACGCCGGGCTGGCTGGAGCGGCCAGCGACTCCGCAGCACCGGAGCGGAGCCTCAGCCCGTTCGCGGCGCCCGACGGCCGCACCCCGACCCTGTTTTTCGACGACGACGAGGCGCTGAGGTTCGCCGCCGAAAAGTCCCTGTCGATCGCTGTCGGCATAGGGGACAACGGCGTACGGAACCGTGTCGCGGAATCGGTCATCGCTTCTTCGGAGCTGGTTCATCTCACCGTTCCGCTGATCGCGGCAAGTGCCACCGTTGATCCGACCGCCCGCCTCGGGGCTCTTTCGCAGGTCTGTGAGCACGCCCACGTGGGCCCGTTGGCGGATATCGGCTCCGCCGTCATTGTCAACACCGGGGCAATTGTCGAACACGAGGCCGGCGTGGGATCCGGGACGCACCTGGCCCCCGGTTCAGTCCTTTTGGGGGCCTCGTTCGTGGGCAATAGAGTATTTGTTGGATCAGGCGCCCGTGTCCTTCCCGGCTGCACTGTGGGAGGACTGTCTGTCATCGGTGCGGGCGCCGTCGTGACGCGTGATCTCGCCGGGGGAGCAACATACATCGGTGTTCCGGCCCGGGAACTGACATCCAAGAAAGGCGCAACCCTGTGA	MGAWLILGASGHARSLASIVNGRGDYVAAVSDAGLAGAASDSAAPERSLSPFAAPDGRTPTLFFDDDEALRFAAEKSLSIAVGIGDNGVRNRVAESVIASSELVHLTVPLIAASATVDPTARLGALSQVCEHAHVGPLADIGSAVIVNTGAIVEHEAGVGSGTHLAPGSVLLGASFVGNRVFVGSGARVLPGCTVGGLSVIGAGAVVTRDLAGGATYIGVPARELTSKKGATL				NA	NA	NA	NA	NA
D1-17_01386	1053	legI	COG2089	N,N'-diacetyllegionaminic acid synthase	GTGACCATCGAATCCAAAGCCCAGCATGTGACGTTCGGTGCGCACCGCATCGGCCCCGACGAGGAAGTCTTCATCATTGCCGAGGCCGGCGTAAACCACGACGGTGACGTGGCAGTTGCCCATGAACTGATCGACATGGCTGCCGACACGGGTGCCAACGCGGTGAAGTTCCAGACGTTCAAGCCTGAATCCCTTGTCACGGAAGCTGCAGATACCACGCCCTACCAAAAGAAGGCCGGGTTCGCGGAGTCCCAGTCCGAGATGCTGAGGCGCCTGACGCTGCCAGAGACTGCCTGGGTTGAGCTGCGGGACCACTGCTCCGAGCGGGGAATCACGTTCCTCTCCACACCCTTCGACTACGACAGCGCGCGGATGCTTGCGGACATCGGCGTTCCGGGGCTGAAGATCGGTTCAGGAGAGCTGACGAATACTCCCTATCTCGCCGCCATTGCGGAATTTGGCATTCCGATGATCGTCTCCACGGGAATGGGGACCAGGGAGGAGATCGCCGCGGCGCTCGAGGCGACAGCGAAGGCGCCCGCGACCGTCCTGCTGCACTGCGTCTCTGCCTACCCCGCGCCCTTGGACGAGGCCAACCTGCTCGCCATTCCCGCGATGCGGAAGGAATTCGGCGTCGAGGTCGGCTGGTCGGACCACACGCCGGGCTCACTTACGGCCATCGCTGCGACGGCTCTGGGCTCGACGCTGCTGGAAAAGCACATCACCACTGACAAGACGCGCAACGGTCCAGATCACTCCGCCTCACTCGAGCGGGCCGAGTTCGAGGACTATGTGCGCTCCGTCCGTGACATCTACCGGGCGCTTGGCGACGGCAACAAGCGCAGAATGCCCAGCGAGGAAGCCAACGCCGGACTGGTGCGGCGCTCGTTCCACGCCGTACGGGACATCGCGGCCGGCGCTGTGATCACAGAGGCGGATGTCGCCATCCTCCGTCCGGAGGGGGGGCTCCGTCCTTCTGCCCAGGTCGTGGGCCGCTCCGCAGGCCGTGACGTCAAGGCTGGAATGCCGATGACCGCAGAGGATCTGGCCTGA	MTIESKAQHVTFGAHRIGPDEEVFIIAEAGVNHDGDVAVAHELIDMAADTGANAVKFQTFKPESLVTEAADTTPYQKKAGFAESQSEMLRRLTLPETAWVELRDHCSERGITFLSTPFDYDSARMLADIGVPGLKIGSGELTNTPYLAAIAEFGIPMIVSTGMGTREEIAAALEATAKAPATVLLHCVSAYPAPLDEANLLAIPAMRKEFGVEVGWSDHTPGSLTAIAATALGSTLLEKHITTDKTRNGPDHSASLERAEFEDYVRSVRDIYRALGDGNKRRMPSEEANAGLVRRSFHAVRDIAAGAVITEADVAILRPEGGLRPSAQVVGRSAGRDVKAGMPMTAEDLA	PGPT0022760_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-LEGIONAMINIC_ACID_MODIFICATION,PGPT0022760-legI|neuB2-K18430	NA	NA
D1-17_01387	1155		COG0381	UDP-N,N'-diacetylbacillosamine 2-epimerase (hydrolyzing)	ATGCGGGTGCTGGGGTTCGTAGGGACGCGGGCGGATCTCTTCCCACTCGCCCCGGTCCTTGTTCAGCTGGCCGAAAATCCCGACGTGGAGTTGCACGTGGCAACGGCCGTGGGGTTCCCGGCCGGGACAGCAGCGGGCCGGCTCCGGGAAGCAGGCCTGCAGGATGGTGCCTTCGTGCACCATGACCTGGGGCTCCACCTGGACGACGCGTCCGCGCTGGGCCAGCTCGCGCTGGGTCCGGAACTGTCCGCGAGCATTGCTGAACTGCTGCAGCAGAACCGGCCGGACGCCGTCGTTGTTCTTGGCGACCGGTGGGAACTCCTGTACGTGGTGCCGGCAGTTGTCATCTCCGGCGTGAGGCTGGTCCATCTCCATGGCGGGGAAGTCACGGAAGGGGCGCTCGATGAGCGCGTCCGCCACGCGGTGACTAAACTGGCGGACCAGCACTGCGTGAGCACGGCGGGGGCCGCGCGTCGCGTGGCCCAGCTTGGCGAATCGCCAGATCGGATTCACCAGACAGGCGCCCCGGGGCTCGACCGCTTCAGGAAGCCGGATCCCCTGACCGAGGAAGAGTTCCGCGCAGAGTTTGGCCGGCCCCTGGTCCGACCGCTGCTGATGGTCACGTACCACCCACCCACGGCCGAAATGTCCGGGAACGCCGGTTCCTTGGCGCGGCAGGTCTTCGACGAAGCCATCGCCGCGGCGGGCACGGTGATCCTGACATATCCGGGCTTTGACGCCGGACGCAACGAAATCGTCGCCGAACTGGAGGACATTTCCGCCGCCGGCACCGCGATTGTCCGCGAGAGCCTGGGGCCGCTCTATCCCCGCGTCATGGCCACCATCGATGCCCTGGTGGGCAATTCCTCCTCAGGCATTCTTGAGGCTGCGACCTTTTCGGTGCCGGTCGTCAACGTCGGGAATCGGCAAAAGGGCCGCGAATGCGGCGCCAACGTCATTCACTGCCGCGACGAGCGCCCGGGGATCCACGCTAGTATTGAAAAGGCTTTGAGCGCGGAGTTCCAGGAATTGTCCCGTCAGGTGGTCAATCCGTACGGGGACTCGCATTCGTCAGAACGGATCGAACGCGTGGTGGTTGGCAGCGGACGGACGCCGCTGACCAAGGCCTTCATTGACATCGGCTCTGGAGAATGA	MRVLGFVGTRADLFPLAPVLVQLAENPDVELHVATAVGFPAGTAAGRLREAGLQDGAFVHHDLGLHLDDASALGQLALGPELSASIAELLQQNRPDAVVVLGDRWELLYVVPAVVISGVRLVHLHGGEVTEGALDERVRHAVTKLADQHCVSTAGAARRVAQLGESPDRIHQTGAPGLDRFRKPDPLTEEEFRAEFGRPLVRPLLMVTYHPPTAEMSGNAGSLARQVFDEAIAAAGTVILTYPGFDAGRNEIVAELEDISAAGTAIVRESLGPLYPRVMATIDALVGNSSSGILEAATFSVPVVNVGNRQKGRECGANVIHCRDERPGIHASIEKALSAEFQELSRQVVNPYGDSHSSERIERVVVGSGRTPLTKAFIDIGSGE	PGPT0018905_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0018905-wecB-K01791	NA	NA
D1-17_01388	1059	cugP		UTP--glucose-1-phosphate uridylyltransferase	ATGAGTATTGACGGGCCCCTCGGCAACGTCTGCATCGGGCAGGACGCCACCGTTAGGCAGGCGCTGGAGACTATCGACCGCGGTGCGTCCGCGATCGCACTCGTCACCGACGAGGCGGGCAAGCTCCAGGGAGTGCTGACCGACGGCGACATCCGCCGCGGCCTGCTGAAGGGGGCCGAACTCGACGGACTCGTTCACGAGTACGCCAACCGGGCACCGCATGTCGTTGGGCCGGATGCAACGCGCGCCTCGGTGCTGGACCTGATGCGCAGCCTGCGTATCAGCGAAGTTCCGGTCGTTGACGACTCCGGCAAGCTCGTTGGACTGCACACGCTGAACGACATTGTGGGGCGGACGTCCCTGAGTAATATCGCCGTCATCATGGCCGGTGGCAAGGGCACGCGCCTTGGCGCGCTGACCAAGGACACCCCGAAGCCGCTGATGACCGTCGCGGACCGGACCATCATCGAGTGGATCATCCTGGGGCTGGTGGAATCCGGCGTCACGAACATCTATGTCTCCGTGGCGTACCTGGCGGAAAAAATCATGGACCACCTCGGCGACGGCTCCCGGCTGGGCTGCACGATCAAGTATCTGCACGAGGACCCGGCCAAGCCCCTCAACACCGCCGGTGCCCTGGGGCTGCTCTACCACGAACGGCCCGACATCACCGAGCCGGTGCTGGTCACCAACGCGGACCTCATGGTGCGCTACTCGGCTGCGGAGCTGCTCGCTTTCCACGCTTCGAAGAACGCCAGCGTGACAGTTGCTGCCCGGCCCTATGTCCACCAGGTGCCCTTTGGCGTCCTTGACATTGGCGAGAACCGCTCCATCTCCGCTGTGGTCGAGAAACCGAGCATTGAATTCGAAATCAGCACGGGGATTTACGCCGTGTCGCCGGAGGCGCTCCCGCTGGTGCCATACCTTGAACCTTTTTCCATGCCGGACCTCGTCCAGGCCTGCATTGAGCAGTCCAAGACAGTGGCCGCATGGCCGATCGAATCCGACTGGATCGACGTCGGAACCCCCAAAGACCTAGCAACAGCGAAAGGCCAGTGA	MSIDGPLGNVCIGQDATVRQALETIDRGASAIALVTDEAGKLQGVLTDGDIRRGLLKGAELDGLVHEYANRAPHVVGPDATRASVLDLMRSLRISEVPVVDDSGKLVGLHTLNDIVGRTSLSNIAVIMAGGKGTRLGALTKDTPKPLMTVADRTIIEWIILGLVESGVTNIYVSVAYLAEKIMDHLGDGSRLGCTIKYLHEDPAKPLNTAGALGLLYHERPDITEPVLVTNADLMVRYSAAELLAFHASKNASVTVAARPYVHQVPFGVLDIGENRSISAVVEKPSIEFEISTGIYAVSPEALPLVPYLEPFSMPDLVQACIEQSKTVAAWPIESDWIDVGTPKDLATAKGQ				NA	NA	NA	NA	NA
D1-17_01389	1017	rmlB	COG1088	dTDP-glucose 4,6-dehydratase	GTGATCACCTTGAATCAGCAGAACCTTACGGGCAAGACCGTGGTTGTTACGGGTGCGGACGGCTTCATCGGAAGCCATGTCACCCAGCGGCTGATCGCCCAGGGAGCCAACGTCCGTGCCCTTTGTGTTTACAACTCCAACGGTTCGTATGGATGGCTGGATGACCTTCGTCCCGAAGAGCGTGACTCGGTGGACCTGCGCCTCGGCGACATCCGTGACGCCGAGTACGTTTCTGACCTGGTTGCCGGGTCCGACGTTGTCCTCCACCTCGCGGCCCTCATCGCGATTCCCTACTCCTACGAGGCGCCCCGCTCGTATGTGGAAACGAACGTCGTCGGAACCCTGAATGTCCTCGAGGGCGTGCGCCGCCACAACGTGCCGAGGCTGGTAAACACCTCTACGTCCGAGGTCTACGGCACCCCCAAGACCGTGCCGATCACGATTGAAAACGAGCTCCGGGGCCAGTCCCCGTACAGCGCGACGAAAATCGCCGCCGACAAGCTGTGCGAGGCATGGGCGAGCTCCTTCGAGACTCCCGTTGTGGTGCTGCGCCCGTTCAACACCTACGGTCCCCGACAGTCTGCGCGTGCGGTCATCCCCACAGTGCTGCAGCAGATGGTGGCCGGCGCCGACAAGATCCACCTCGGCTCGCTGACCCCCCGCCGTGACTTCACTTATGTCACAGACACAGCTGAGGGATTCGTGAAGGCAGCCAGTGCGGACATCCCGTTGGCGGGGCAGGTCATCCAGCTCGGCACCGGCTACGACGTCTCCATCGGGGAACTTGTTGACATGGCACGCAAGGTCACGGGCTCGACGGCGGAAATCATCACCCAGGACGAGCGTGTCCGCCCGGAAGCCAGCGAAGTCATGCACCTTCTTTCGGACCCGTCGCAGGCGCTGGCCGAACTGGGCTGGGCGCCGCAGGTCAGCCTCGAAGAGGGTCTGCGCGAATCCGCCGAATGGATCAAGGCCCGCGGCGTGGACCTTTCCGCTGCCGCGCGATATTCCCGATAG	MITLNQQNLTGKTVVVTGADGFIGSHVTQRLIAQGANVRALCVYNSNGSYGWLDDLRPEERDSVDLRLGDIRDAEYVSDLVAGSDVVLHLAALIAIPYSYEAPRSYVETNVVGTLNVLEGVRRHNVPRLVNTSTSEVYGTPKTVPITIENELRGQSPYSATKIAADKLCEAWASSFETPVVVLRPFNTYGPRQSARAVIPTVLQQMVAGADKIHLGSLTPRRDFTYVTDTAEGFVKAASADIPLAGQVIQLGTGYDVSIGELVDMARKVTGSTAEIITQDERVRPEASEVMHLLSDPSQALAELGWAPQVSLEEGLRESAEWIKARGVDLSAAARYSR	PGPT0022625_4399	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022625-rfbB|rmlB|rffG-K01710	NA	NA
D1-17_01390	1155	epsN_2	COG0399	Putative pyridoxal phosphate-dependent aminotransferase EpsN	GTGGCGAGCCGTATCCCGCTAGCTGTACCCAACATCGGTGAGCGTGAAGCCGAACTCGTGAACGAAGCCGTCGCGAGCGGGTTTGTCTCTTCCGTGGGACAGTTCGTCTCCGAATTCGAACAGAAGTTTGCTGATTATGTCGGCGCCAAGCACGCCGTCGCATGCGCGTCTGGAACCGCGGCGCTGCACATTGCGATGCGCCTGGCCGACGTTCAGCCGGGGGACATGGTTGCCGTGTCGGACTTTACCTTCATGGCAAGTTCCAATGCGGCGTCCTACCAGTTCGCCGAACTGCTGCTGGTGGACTCGCTGGCCGAGTCCTGGTGCATGGACGTTGAAAGCCTGCGCCGGGAGATCGAGCGCAGGGCGGCGGTGGGGGAGAAGCTGCCCAAGGCCATCGAGATCGTACACATCCTGGGTCAGCCCGCGGACGCCCATGCAGCGCGGAAACTTGCCGATGAATACGGCATCATCCTGATCGAGGATGCCGCCGAGGCTCTCGGCGCCATGTGGACCGAGGGGCCGCTGGAAGGCCGGCACGTCGGTACTGTCGGGCACATGGGTGCCTTCTCGTTCAACGGAAACAAGATCATGACAACCGGCGGTGGCGGCATGTTCACCACCGACGATCCCGAACTGGCAGCGAAGGCGAAGCACCTGTCCACGCAGGCAAGACTTCCGGACCGCGGCTACCTGCATGACGAAATCGGCTTCAACTACAGGCTGACCAATATCGCTGCGGCTCTCGGAGTGGCTCAGCTGGAACGGTTGGACGGGTTTGTCGCGAAGAAACGTGAAATCGCCGCACGCTACGCGGATGCCTTTGAAGGCACCGAGATCGAGACCCCGCCCCGCCTTGCCGGGCAGGAATCGACCTACTGGCTGTACTCGGTGCTCGTTCCTGCATCGCGGGGCGCCGGGGCCAGGGACGAACTGCAGGACTTCCTGGCGGAAGTGAACATCGAATCACGCTCCCTGTGGCGTCCGCTGCATATGCAGCCGCCGCTGAGCCACGAACTGACCCTCGACGGTGCCACCGGCGAGGACCTCTTCGCCCGGGGTCTTTCGCTGCCGTGCTCCACCGATCTCACGGAAGACGACCAGTCCCGCGTGATCGAACGGGTCCACGAGTGGCTCAAACTCAGCGGTGAGTAG	MASRIPLAVPNIGEREAELVNEAVASGFVSSVGQFVSEFEQKFADYVGAKHAVACASGTAALHIAMRLADVQPGDMVAVSDFTFMASSNAASYQFAELLLVDSLAESWCMDVESLRREIERRAAVGEKLPKAIEIVHILGQPADAHAARKLADEYGIILIEDAAEALGAMWTEGPLEGRHVGTVGHMGAFSFNGNKIMTTGGGGMFTTDDPELAAKAKHLSTQARLPDRGYLHDEIGFNYRLTNIAAALGVAQLERLDGFVAKKREIAARYADAFEGTEIETPPRLAGQESTYWLYSVLVPASRGAGARDELQDFLAEVNIESRSLWRPLHMQPPLSHELTLDGATGEDLFARGLSLPCSTDLTEDDQSRVIERVHEWLKLSGE	PGPT0022785_958	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010	NA	NA
D1-17_01391	1413			hypothetical protein	ATGGAAAGAACTGGCAGGAACTCCGTCCTGTATCTCGCCGGTGCGCTTATGCAGGGGCTGGGCATCTTCCTGGTTCAGCCGTTCGCCCTCCGTGTGCTCAACGACGATGCCGAGTGGCAGGAACTCTTCCTGGCCGTCTCGGTCATCCAAGTCGGTGTGGTGCTAGGAGCCGCAGGGCTTCCGCTGGCGATCACCAAGACGTGGTTCGACCACAACGGCGCAGCCAAAGCACGCTCAATCAGCGGATTCCTTAGCCTGGTCGGCGCGGTGGTAGGCGTCCTGGCGGCCGCCGGCTACTGGGGTGTGGCGCGCGGCAGCGACGGTTCATTCAGCTTCACGGTTGCACTCCTGACCATGGGCCTGCTGGCCACGGTACTGGCCGCCCAAGCGCTGTTGCGTGCCCAGGGACGTCCGGTGGCATTTGTCCTGCTAAGCCTCGGTTCATCCGTGGCCGCCTACGGCGTGGGCCTGATTGCGATGCTTCTGGTGGGTGCTTCCGCAAGCGTGTTCATGGTCGGCTTCGGGGCAGCAGTCTTCTTGACAGCCGTCGCGTCACTGTTTGTGGCACCGCCAGCGCCGCCGTTCTCGGTTCCCGGCGCCGCCAAAGAGGCGCTGCTCATCGGCCTTCCAGTCCTGCCACACACTGGGTCCATGATGCTGCTGACCCAGGGGGCGGCCTTCCTGCTGGCAGCAGTGGCGGCCGAAGGCGTCTCCGGTGACTACGGCAAGGTGCAGATCTTTGTCCTGGGCACGGTGACTTTGCTGGGGGCTTTGAACAACGCCTGGGTCCCGGCGATCATGTCGGCCAAGCCGGGTGAACGGCCTGAGCGCATGCGTTCAGTGATGAAAACCGCCAGTTTCGCCGGGCTTGCGATCGTCATCGTGGCGAGTGGCGGAGCGAACGTTGTTACGCATGTCATGGCCGTGGGCCGGGAGGATCTCATTCCCGTGGCCCAGATCATGCCCCTGATTGCCCTTGGGTACCTGCTGTACCTGAACGCCTCCTCGCTGCTGTTTGCCGACAGGATGACGTGGATTCTGGCGGTCGTGACGCCGTCGGTGCTGGTCGTTTCAGCCCTGGCCGCCCTCTGGCCGGCCTCCATCGGGAACCTGGTGCTCATGGCTGCGACGTCAGCCGGCTCCTTTTTGCTCTTGGGCGGTGTCTACTTTCTGATAGCACGACGGAGGGCGGCAGGCGGATGGCCGATGCGCACCTACGCACTGTGCTGCCTGGCCGCCACAGGCTATGTCGTGGTGCTTTTGATGCTGCCCCGTGACATCATTACCGGGCTCATCACGGCCGGCGTGCTGGCCGTGGCGGCTGCCGCCGGACTGGCACTATGGCACCAACGGAGGAGAAAGCAGATGGGTCAACGTCATCGTGAGTGGCACCCAGAGCCTGGAGACAGTTAG	MERTGRNSVLYLAGALMQGLGIFLVQPFALRVLNDDAEWQELFLAVSVIQVGVVLGAAGLPLAITKTWFDHNGAAKARSISGFLSLVGAVVGVLAAAGYWGVARGSDGSFSFTVALLTMGLLATVLAAQALLRAQGRPVAFVLLSLGSSVAAYGVGLIAMLLVGASASVFMVGFGAAVFLTAVASLFVAPPAPPFSVPGAAKEALLIGLPVLPHTGSMMLLTQGAAFLLAAVAAEGVSGDYGKVQIFVLGTVTLLGALNNAWVPAIMSAKPGERPERMRSVMKTASFAGLAIVIVASGGANVVTHVMAVGREDLIPVAQIMPLIALGYLLYLNASSLLFADRMTWILAVVTPSVLVVSALAALWPASIGNLVLMAATSAGSFLLLGGVYFLIARRRAAGGWPMRTYALCCLAATGYVVVLLMLPRDIITGLITAGVLAVAAAAGLALWHQRRRKQMGQRHREWHPEPGDS				NA	NA	NA	NA	NA
D1-17_01392	1962			hypothetical protein	ATGAAACCAACAAAAGCTGCACGGCGAAGGGCCATCGGCGCCTTGGAAACCGGCGTGCTGGCACTTGCTGTTCTGACGGGGCTTGCGGCCGCACCGGCATTCGCTGTCGAACCAACACCGACGCCGACGGCGTCCGCCCCACCTGCCGCCACGGCGCTGCCTGCTGGCTCCGATTCCGACGGAATCGACAGCGCGGCGGACAAGGCAGCCATGCGGACTGCGGTCGGAGAGCACGGCGCCGAGATGGGCCAAGGAAGTCCGCAGAAGAGCGGGCCTGCGGCAGTTGCAGCGACAGAAGCGTCCTGGATTCCGTCATCCGGTGTGCCGGGGCAGGACGTCAGCAGTTACCAGGGAACAGTCGCCTGGCAGCAGCAATGGAACATGGGATCTCGGTTTGCCTACATCAAAGCCACCGAAGGAAACTACTACACCAACGGGGCGTTCTCGGCCCAGTACAAGGGTTCTCGCGACGCGGGCATGATCCGCGGTGCGTACCACTTCGCGATTCCCAATGCATCGTCCGGAGCCGACCAAGCCCGCTTCTTCGTGGCGAATGGCGGCGGATGGACGAGTGACGGGGTGACCCTTCCCCCCGTTCTGGACTTCGAATTCAATCCCTACGCCGGCCGGACAATCAACGGCTTCTACCATGGCAACACCTGCTACGACAAAACCCCGCAACAGCTCGCGTCATGGGTCCGGGATTTCGGCAACACGATGTTGAGCCTCACGGGCAGGCTGCCCGTCATCTACACCAATACCAGTTGGTGGAAGCAATGCACGGCCGATGCCCCGGGCTTCGGCGACTACCCGCTCTGGATTGCTTCCTACCCCTCAAGCCCGACAAACAGTCCCGGCCCCATCCCCTCAAGCTGGAGCACCTACAGCCTGTGGCAGTACAGCGACAGCGGCCCGTTTGCCGGGGATTCCAACGTCTGGAACGGCACCTACGCCCAGCTGCAGGCCTTTGCCCGCAGCAAAGCCAATTCCGGCGGTGCGATCGAACGAAAGTGGCTGGAGCTGGGCGGCGCCTCCGGCAGCCTCGGCGCCGCAATCTCCAAGGCAGACATCTGCACCCTTGTGGGCGGCGGCTGTTACAGGGCATATGCCGGCGGCAACATTTATTGGACCGCCGCGACGGGCGCGCACCCGGTCACCGGCAGCTACTGGGAGGCCTGGGGCGAGGCACGTTGGCAGAGCGGGATCGGCTACCCCATCAGCGACGTCACCTGCCCCCATGGTTCAGCAACATCATCCACGTGCCATCAGAGATTCCAGGGCGGTATCGTCTACGCCACGCCAGGCGTAGGGACGTTCGCCGTCACCAGCAGGTATATGTCCGCTTGGAAGGCGGCCGGTTGGCAGCAGGGCATCGGCTACCCGACCGCCACCGCCACGTGCGGTCTGTACGGCGGCGGCTGCTACCAGCCTTTCCAAAAAGCCAACGTCTACTACTCGGCAGGGAATGGCGCCCACGCCGTGACGCCGTCGTACTGGCAGGCCTGGAAAGAAGCTGGCTGGCAGCAGGGGCTCGGCTATCCCACCGGCCCTGCCACATGCGGATTGTACGGCGGCGGCTGTTATCAGGCCTTCCAGAAAGCGAACGTGTACTTCTCCACCGGCACCGGCGCACACGCGGTCTTTGCACCGTACTTCGCCTCCTGGCGGGCGGCAGGGTGGCAGGTCGGCGTCGGTTATCCGACAGGACCGGCAAAATGCGGCCTCTACGGTGGCGGCTGCTACCAGCCCTTCGAGCGGGCAAACAGCTACTACACCGCTGCGACGGGCGCCAACATGGTCGGGGAGCCCTACTGGTCCGCATGGCGGAAGGCCGGTTGGCAAACGGGAGGACTCGGGTACCCCCTGGCCGCGGCGGTCGAATATAACGGCTACCGGAATGTGCCGTTCCAGGGAGGCTCCATGACCTATTCTCCAACCGGAGTCACCGTCAGCCGCAACTGA	MKPTKAARRRAIGALETGVLALAVLTGLAAAPAFAVEPTPTPTASAPPAATALPAGSDSDGIDSAADKAAMRTAVGEHGAEMGQGSPQKSGPAAVAATEASWIPSSGVPGQDVSSYQGTVAWQQQWNMGSRFAYIKATEGNYYTNGAFSAQYKGSRDAGMIRGAYHFAIPNASSGADQARFFVANGGGWTSDGVTLPPVLDFEFNPYAGRTINGFYHGNTCYDKTPQQLASWVRDFGNTMLSLTGRLPVIYTNTSWWKQCTADAPGFGDYPLWIASYPSSPTNSPGPIPSSWSTYSLWQYSDSGPFAGDSNVWNGTYAQLQAFARSKANSGGAIERKWLELGGASGSLGAAISKADICTLVGGGCYRAYAGGNIYWTAATGAHPVTGSYWEAWGEARWQSGIGYPISDVTCPHGSATSSTCHQRFQGGIVYATPGVGTFAVTSRYMSAWKAAGWQQGIGYPTATATCGLYGGGCYQPFQKANVYYSAGNGAHAVTPSYWQAWKEAGWQQGLGYPTGPATCGLYGGGCYQAFQKANVYFSTGTGAHAVFAPYFASWRAAGWQVGVGYPTGPAKCGLYGGGCYQPFERANSYYTAATGANMVGEPYWSAWRKAGWQTGGLGYPLAAAVEYNGYRNVPFQGGSMTYSPTGVTVSRN				NA	NA	NA	NA	NA
D1-17_01393	1098	galE	COG1087	UDP-glucose 4-epimerase	TTGGGTAAGGCATTGCTCCCCACCCTCGCGGTCTTCGAAATTTCAGGGCGAAGCGAGCGCGGCCATAGACTTGAGGCCATGAAGGTTTTGGTCACCGGCGGCGCCGGCTACATCGGATCGCACACCGCACTTTGTCTCCTCGAGGACGGGCATGAGGTGGTGGTGCTCGACAATCTGATGAATTCCAGCGTCGAAGCCGTCCGCCGAGTGGAGGAACTGACAGGCAAACCGGTTGAATTCCGCGAGGGTGATCTGCTTGATGCGGCCGCCGTCGACAGAGTTTTCGCGGAAGGCGGTTTCAACGCCGTCATTCACTTCGCCGGCCTGAAGGCCGTGGGGGAGTCGGTCGAAAAGCCGCTGTGGTACTACAAGAACAACGTCGTAGGCACTCTCAACCTCCTGGAAAGCATGGAAAAGGCCGGTGTCCGCCGGCTGGTGTTCAGCTCATCCGCCACGGTGTACGGCGCTTCCGAACACGTTCCACTCATCGAGAAGTCGCCGCTCGACGCCACCAACCCGTACGGCCGGACCAAGGAACAGGTTGAGGACATCCTCTCGGACCTCAGCACCGCGGACCCCCGCTGGAGCGTGGCACTGCTTCGCTATTTCAACCCGGTGGGCGCGCACGAGTCCGGCCGCATAGGGGAAGACCCCCGGGGCATCCCCAACAATCTGCTGCCGTTTGTGGCACAGGTGGCCGTGGGCCGCCGGGAGAAGGTCATGGTGTTCGGCAACGACTACCCGACGCCGGACGGCACGGGCGTGCGGGACTACATCCACGTGATGGACCTCGCGGCAGGCCACCTCGCCGCTCTCCGTTACCTGGAAACGAAGACCGGCGCCTTCCGCTGGAACCTGGGCACCGGCCGGGGCTCGTCAGTTCTGGAGGTCATTGAGGCCTTTAGCGCCGCAGCCGGCCACCCCATCCCCTACGAATTCGCGCCCCGCCGTCCCGGAGACGCAGCCGTCAGCTACGCCGATGCCTCCGCTGCCTTGGCCGACCTGGGCTGGTCTGCCCGCCGTGACCTCGCCCAGATGTGCGAGGACCACTGGCGCTGGCAAAGCTCCAATCCATTCGGCTACGCCGGGCAGGAGTAA	MGKALLPTLAVFEISGRSERGHRLEAMKVLVTGGAGYIGSHTALCLLEDGHEVVVLDNLMNSSVEAVRRVEELTGKPVEFREGDLLDAAAVDRVFAEGGFNAVIHFAGLKAVGESVEKPLWYYKNNVVGTLNLLESMEKAGVRRLVFSSSATVYGASEHVPLIEKSPLDATNPYGRTKEQVEDILSDLSTADPRWSVALLRYFNPVGAHESGRIGEDPRGIPNNLLPFVAQVAVGRREKVMVFGNDYPTPDGTGVRDYIHVMDLAAGHLAALRYLETKTGAFRWNLGTGRGSSVLEVIEAFSAAAGHPIPYEFAPRRPGDAAVSYADASAALADLGWSARRDLAQMCEDHWRWQSSNPFGYAGQE	PGPT0017825_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
D1-17_01394	1224			hypothetical protein	ATGGATGCCGTACGGATAGTCGAAGATGAGGTCCGGGAACTGATCCGCAGACGCGGTCTGGACCCCTTGCGGCAGACCGTTGAGGTCCGGCGGCTGGTGGACGCTGCAGTAAGCGACTACGACGAGCGGGCCCTCATGGGCCCGCTTCCGCCGCTTGGGCCTCTTGACTCGGCGCGGAGATTTGTCTTCGACGCTGTCGCCGGCTTCGGGCCGTTGCAGCCTTTGCTGGATGATCCCAGCATTGAGGAAATTTGGCTGAACGCACCGACAGAGGTCTATGTAGCCCGGAACGGCGAATCCGAGCTGACGTCCCTCAGCCTCACGGACCAGCAGGTGCGGGATCTTGTGGAGCGCATGCTCAAAAGCTCCGGCAGGCGCTTGGACATGTCATCGCCTTTCGTTGACGCTGCCCTCCCGGACGGTTCCCGGCTCCACGTCGTCATACCCGATGTCACCAGGCGGCACTGGGCCATCAACATCCGCAAGTTCGTGGTCAAGGCGAGCCGTTTGGAGCACCTGGTCGAGCTGGGCACCCTAACGCCGCAGTCCGCACGGTTCCTCGGCGCGGCTGTGGCCAGCGGGCTGAACATCCTGGTCTCGGGTGCCACGCAGGCTGGGAAGACCACCATGCTGAACTGCCTGGCTGCCAGCATCGGCAGCCGTGAGCGGGTCATCACGGTCGAGGAAATTTTTGAACTTCAGTTCCCACTGCGCGACGTGGTGGGACTTCAGTGCCGCCAGCCCAACCTTGAAGGTGAAGGAGAAATCCCGCTGCGCAGGCTCGTCAAGGAGGCGCTCCGGATGCGCCCGGATCGCCTGGTGGTGGGAGAAGTGCGCGAAGCGGAGAGTCTCGACATGCTCATCGCACTTAATTCGGGCCTTCCCGGGATGTGTACCGTCCATGCAAATTCAGCCCGTGACGCCGTAACCAAGATCTGCACCCTGCCGCTGCTCGCCGGAGACAACATATCCAGTGCCTTCGTTGTGCCGACCGTGGCTTCGTGCATCGATCTCGTGGTGCACTGCAGCCGTCAGATAAGCGGGCGCAGGCAGGTCACCGAAATCCTGTCCCTGGGCAAACGGGTGGAGAACGGCATCATCGAGTCTTCCATGGTCTTCACCTTGGTCGGTGGCCAGCTGCAGCCCAAACTCAGTTCCATGCCGTCGGCTGAAAAGTTTGCCGCAGCAGGCTTCGATGTTGCGGCTCTGCTGGAGGCACCGTGA	MDAVRIVEDEVRELIRRRGLDPLRQTVEVRRLVDAAVSDYDERALMGPLPPLGPLDSARRFVFDAVAGFGPLQPLLDDPSIEEIWLNAPTEVYVARNGESELTSLSLTDQQVRDLVERMLKSSGRRLDMSSPFVDAALPDGSRLHVVIPDVTRRHWAINIRKFVVKASRLEHLVELGTLTPQSARFLGAAVASGLNILVSGATQAGKTTMLNCLAASIGSRERVITVEEIFELQFPLRDVVGLQCRQPNLEGEGEIPLRRLVKEALRMRPDRLVVGEVREAESLDMLIALNSGLPGMCTVHANSARDAVTKICTLPLLAGDNISSAFVVPTVASCIDLVVHCSRQISGRRQVTEILSLGKRVENGIIESSMVFTLVGGQLQPKLSSMPSAEKFAAAGFDVAALLEAP	PGPT0016025_2610	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-17_01395	858			hypothetical protein	GTGACGGCCCCGCTGCTGGGAGTGCTGGCTGGTGCAGGGCTCTTTCTTATTTGGTGGTCCACCTGGGTGCAGCCGGAAACAGCCAGGCGTCCGCCCAGAACCAGCCGGTTGCAGGATCTGCTCCTGGCCGCCGGGGTCGAGCGGGTCACCGGCGCCGGTCTTATCGGCAGCTGCTTGGGGCTCGGGCTGTTCGTGACGCTGGTCTTCTTCGCCGTCAGCATGTCATGGCCGATCTCTTTGTGCTTCGGGCTGTTCGGAGCATGGTTGCCCGTCGTTGCGGTGAAGTGGCGAGCCCGGCGGCGGACTGCCATGATGCGTCGGCTCTGGCCGGACGTGGTGGACCATCTCAGATCTGCCATCAGAGCCGGCCTTTCGCTGCCCGAGGCGCTCATCCAGTTGGGTGATAAGGGACCAGAGGAGCTGCGCCCCGTTTTCCGGGACTTCGGCTCGGATTATCGTGCGGGAGGCCAGTTCGATGCCTCACTGAACAAACTCAAGCAACGGCTTGCCGACCCGGTCGCTGACCGCATCATCGAGGCGTTGAGACTGACGAGGGAAGTGGGCGGCTCCGACCTTGGCAAACTGCTGGGAACCCTGGCCGAATTCCTCCGTGAAAGTGCCAGGACCAGGAGTGAGCTTGAAGCCCGGCAGTCCTGGACGGTCAATGCTGCCCGCCTTGCCGTTGCGGCCCCATGGATCGTCATCGCGCTGCTCGCAAGCCGCCCTGAAGCCGTTGCGGCATACAACACGCCCATGGGGGCGGCAGTCCTGCTCGGAGGCTTGGTGGTCTCCCTGGTCTGCTACTCCATCATGTTGCGGATTGGTGCCCTTCCCGATGAGGAGCGAGTCCTTCGATGA	MTAPLLGVLAGAGLFLIWWSTWVQPETARRPPRTSRLQDLLLAAGVERVTGAGLIGSCLGLGLFVTLVFFAVSMSWPISLCFGLFGAWLPVVAVKWRARRRTAMMRRLWPDVVDHLRSAIRAGLSLPEALIQLGDKGPEELRPVFRDFGSDYRAGGQFDASLNKLKQRLADPVADRIIEALRLTREVGGSDLGKLLGTLAEFLRESARTRSELEARQSWTVNAARLAVAAPWIVIALLASRPEAVAAYNTPMGAAVLLGGLVVSLVCYSIMLRIGALPDEERVLR	PGPT0022290_2180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-17_01396	942			hypothetical protein	ATGATGACGGTACCGGCGGCCTCCATCCTGTGCGGTTTGCTTTTGGGCGCGGGTCTATGGCTGCTGCTCGTCCGCCTTCCATTCATGCGCCCCCTCAGTTTCGTGGAACGGATCGAGCCGCAGCTCAAGGCCCAAAACCTGGAGTCCAGGCTGCTGAGGCCGGCCGAGCAAAACCTCACGCCTTTCGGGCCTTTGGAGCGCATAGTCCGCCCGCTGATCAAAGACGGCATAGACAAACTCAGCCGGTTTAACCTAGGTTCCTCCGCCCTGGTCCGGCGACTGGCGCAGGCCGGCATCAGCAAATCACCTGTGCACTTCCGTGCCGAACAGCTGCTCTGGGCAACCGGCGGTTTTCTGGTGGCCGTCGGCATGATTGCCTTCGGTGCTATGGCCGGAAGGTTTAGCCCGGTACTGGCTGTTGTGGCGATGGCCGGAAGCGCAGTAGGAGGGTTCCTCTTCCGCGATTACTGGCTCGGACAGGAGATCAGGAAGAGGGAATCCAGGATGATGGCCGAGTTTCCGAGTCTCGCCGAGCTAATGGCCCTGGCAGTGGGCGCCGGTGAGAGTGCTACGGGTGCTCTGGACAGGGTTTGCCGAAGTGCCCGCGGAGAGCTCTCCAAGGAATTCGGGAAGGTGCTTGCCGAAACGCGGGCAGGCAAGCCCCTTGTGGAGGCTCTGCAGGAGTTTTCCTCCCGCACGGACCTCGGACCGCTCATCCGGTTCGTTGACGGGATCATCGTGGCAGTGGAGCGGGGAACTCCGCTGGCTGACGTGTTGCGGGCCCAGGCGCAGGACGTGAGGGACACAGCAAAACGGGACCTGATGGAATCAGCCGGAAAGAAAGAGATTGCCATGATGGTTCCGCTCGTTTTTGGAGTGCTGCCGTTGACCGTCGTCTTTGCCGTGTTCCCAGGTTTGGCCGCCCTGAGCCTGAATATGTAA	MMTVPAASILCGLLLGAGLWLLLVRLPFMRPLSFVERIEPQLKAQNLESRLLRPAEQNLTPFGPLERIVRPLIKDGIDKLSRFNLGSSALVRRLAQAGISKSPVHFRAEQLLWATGGFLVAVGMIAFGAMAGRFSPVLAVVAMAGSAVGGFLFRDYWLGQEIRKRESRMMAEFPSLAELMALAVGAGESATGALDRVCRSARGELSKEFGKVLAETRAGKPLVEALQEFSSRTDLGPLIRFVDGIIVAVERGTPLADVLRAQAQDVRDTAKRDLMESAGKKEIAMMVPLVFGVLPLTVVFAVFPGLAALSLNM	PGPT0022295_1050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
D1-17_01397	252			hypothetical protein	ATGACAAACATGATCCGGCACGGAATCGCGCTCATGGCCGCTCTGGGCAGCAGCCTCGGGGTGGCAGCCGCCTCCATCCGGCTGTTGCGGAGCCGGGGACGTACCAACCCTGAGCATGCAGAAAGGGGAGACGTGCCCGGCTGGGTCATGATCACACTCATGTCCGCGGTGCTCGTCGCCGCGCTGCTGGCACTTGCCGGACCTGCCCTGGAAGCCATGTTCAACCAAGCGATGGACACGGTCGGAAAGTAG	MTNMIRHGIALMAALGSSLGVAAASIRLLRSRGRTNPEHAERGDVPGWVMITLMSAVLVAALLALAGPALEAMFNQAMDTVGK				NA	NA	NA	NA	NA
D1-17_01398	396			hypothetical protein	ATGATCCCGGTTGCCCCGCACTGCCTGGAGCGTGAGCGTGGCTCCGCAGTTGTTGATTTTGTCCTCGTGGGCGCGCTGCTGACGATGTTCTTCCTGGCCATCATCCAGCTTGCGCTCGTGTTGCACGTCCGGAACACGCTGATCGACGCTGCGGCTTCAGGTGCGCGATACGGGACGCTGGCGGACCGCAGTGCAGCTGACGCGCGGCAGCGGACGGAAGAACTCATCGGCACTGCCCTCAATGCAGGCTTCGCGCGAGACATCGAGACGCGCGAAGTCACGTTTCGAGGGCTTCGGACCCTCGAAGTGACGGTCAGGGCGCCGATGCCGGTGGTGGGTCTGATCGGCCCGCGCGACCTACTGGAAGTGAAAGGGCATGCGGCAATCAACAAGTGA	MIPVAPHCLERERGSAVVDFVLVGALLTMFFLAIIQLALVLHVRNTLIDAAASGARYGTLADRSAADARQRTEELIGTALNAGFARDIETREVTFRGLRTLEVTVRAPMPVVGLIGPRDLLEVKGHAAINK				NA	NA	NA	NA	NA
D1-17_01399	393			hypothetical protein	GTGGTCGAGTTCACCTTCCTGGGGCTGCTCCTCATGGTGCCTGTGGTCTACTTCGTCATCACCGTCGGCCAGATCCAAGGCGGCTCATTTGCGGTGGTGGGTGCAGCGGATCAGGCTGCCAAGGTTTTTGTGGCCCAATCGGATGAAGCATCGGGACGGGAGGCAGCCGAGCAGGCCGCGGTGCTGGCGATCGCCGACTACGGACACCCTGCCCACGACGCCCGCGTGGAGATCAGCTGCGACCGCGGGGACTGCATGGCCGCAGGGTCAGCAGTCACCGTCACGGTACATCTGAGCGTGCCACTGCCCTTCGTGCCGTTCAGCGACGCGTTCCGGCTGAACGCCAGCCATCTCAGCGGCACCGCTACCCAGATCGTAGGCAGGTTCCGTTGA	MVEFTFLGLLLMVPVVYFVITVGQIQGGSFAVVGAADQAAKVFVAQSDEASGREAAEQAAVLAIADYGHPAHDARVEISCDRGDCMAAGSAVTVTVHLSVPLPFVPFSDAFRLNASHLSGTATQIVGRFR				NA	NA	NA	NA	NA
D1-17_01400	414			hypothetical protein	ATGACCGTGCTCATCATCGGCTTCGTCATGCTGGCGCTTTTGGTGGGCACAGTGATGATGGGCGCCTCCACCCTGTACATAGAGCACAAGAAACTCCTCTCACTGGCTGATGGCGCCTCCGTTGCGGCGGCAGGAAGCTACACCCTCGGCCAGGTGGAAACTGCAGGCGGAACGCCCTCCGCTGTTCTGAACGGGGACCGCATCAGGAACGTCGCCAGCGACTACCTTGCAAGGAACGGTGCGTTTGGCCGCTTTGATGCCCTGACCGTCGCCCCGGCAACAGGCACGCCCGACGGTTCTACCGCCGTCGTGGTTCTCAGTGCTGCTGTCCACCCTCCCGTGGTGAACTTCCTCGTGCCGGGTGGCATACAGGTAGAGGCGGTCTCGACAGCGCGTTCCAGGCTGACGCGATGA	MTVLIIGFVMLALLVGTVMMGASTLYIEHKKLLSLADGASVAAAGSYTLGQVETAGGTPSAVLNGDRIRNVASDYLARNGAFGRFDALTVAPATGTPDGSTAVVVLSAAVHPPVVNFLVPGGIQVEAVSTARSRLTR				NA	NA	NA	NA	NA
D1-17_01401	1116	prfB	COG1186	Peptide chain release factor 2	ATGGCTCAGATTGATTTTCCTGCAGAGATTCGCGCACTGCGCGCCACTTACACTTCCATCGAGAACGTCTCGAACGTCGAGGAGTTGAAGGAAGAGATCGCAGAACTGAGCGAGCGCGCCGGGGAACCGAACCTGTGGGACGATCCCGCGGCCGCGCAGGTCATCACCTCCCGCCTCTCCCATCGCCAGTCCGAGCTGGAGAGGCTCAACAAGCTCGCTTCCCGGATCGACGACCTTGAGGTGTTGGTCGAACTCGGCCAGGACGAGGATGACGCCGACTCCATGGGTGAAGCTGCAGCAGAGCTCGAGTCGATTCGCAAAGCTCTGGAAGAGCTTGAAATCGTCACACTCCTTTCCGGAGAGTATGACGAGCGCGAGGCTGTGGTGACCATCCGGGCGGGCGCAGGCGGCGTGGATGCTGCGGATTTTGCCGAGATGCTCATGCGGATGTACTTGCGCTGGGCCGAACGACATGGCTATCCCACGACAGTCATGGACACGTCCTACGCCGAGGAAGCCGGGCTCAAATCGGCCACGTTCGAAGTCAAAGCGCCGTACGCCTTCGGCACCCTGAGCGTCGAGGCCGGAACTCACCGACTCGTCCGCATCAGCCCCTTCGACAACCAGGGCCGCCGGCAGACATCCTTCGCCGCCGTGGAGGTCATACCGCTCATTGAGCAGACCGACTCCATCGACATCCCTGACAACGAGATACGCGTCGACGTTTTCCGTTCCTCAGGTCCCGGCGGACAGTCCGTCAATACAACGGACTCCGCCGTCCGGCTGACTCATATCCCCACCGGCACTGTGGTGTCCATGCAGAACGAAAAGTCGCAGCTGCAGAACCGCGCCGCCGCGATGCGCGTGCTCCAGTCCCGCCTCCTGCTCCTCAAGAAGGAGCAAGAGGACGCCGAAAAGAAGGCGCTGGCCGGCGACGTCAAAGCCTCCTGGGGAGACCAGATGCGCTCCTACGTCCTGAACCCGTACCAAATGGTGAAGGATCTCCGGACCGAACACGAAGTCGGGAACACGTCTGCTGTGTTTGACGGTGCCATCGATGATTTCATCGAGGCCGGTATCCGGTGGCGAACGGACAACCGCAACGCCGCGAAATAG	MAQIDFPAEIRALRATYTSIENVSNVEELKEEIAELSERAGEPNLWDDPAAAQVITSRLSHRQSELERLNKLASRIDDLEVLVELGQDEDDADSMGEAAAELESIRKALEELEIVTLLSGEYDEREAVVTIRAGAGGVDAADFAEMLMRMYLRWAERHGYPTTVMDTSYAEEAGLKSATFEVKAPYAFGTLSVEAGTHRLVRISPFDNQGRRQTSFAAVEVIPLIEQTDSIDIPDNEIRVDVFRSSGPGGQSVNTTDSAVRLTHIPTGTVVSMQNEKSQLQNRAAAMRVLQSRLLLLKKEQEDAEKKALAGDVKASWGDQMRSYVLNPYQMVKDLRTEHEVGNTSAVFDGAIDDFIEAGIRWRTDNRNAAK				NA	NA	NA	NA	NA
D1-17_01402	768	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGATCCGTTTCGAAAATGTCACTAAGGTCTACGACCAGACGACCCGGCCCGCGCTGGACTCTGTCACCCTTGAAATAGACCGTGGTGAATTCGCCTTCCTCGTGGGCGCGTCAGGGTCCGGCAAGTCCACATTCCTGCGCCTGGTGCTCAAGGAGGACCGTGCGACGTCCGGATCGGTCTACGTTGCCGGACAGAACGTCGCCAAGATTTCAAGCTGGCGCGTGCCGAGGCTGCGCCGCGGTATCGGCGTCGTGTTCCAGGATTTCCGTTTGCTGCCGCAAAAGAACGTTTTCGCGAATGTGGCCTTTGCTATGCAGGTGATCGGCAAAAGCCGCAGCGTCATCCGGGACACTGTCCCTGAAGTGCTGAAGACGGTCGGTCTGGAAGGCAAAGAGAAGCGGATGCCGCATGAGCTCTCGGGCGGTGAACAGCAGCGCGTGGCCATCGCCCGCGCCGTGGTCAACCGGCCCGGAATCCTGCTTGCGGACGAACCTACGGGAAACCTCGACCCCACCACCTCCATGGGCATTATGGGCGTCCTGGACAAGATCAACCAGAACGGCACCACCGTGGTCATGGCCACTCACGACGACGACATCGTCAACGAGATGCGTAAGCGCGTTGTGGAACTGAAGAACGGAAGGGTCATCCGCGACGAAGCCCGCGCCCTGTACACGTCCATGATTCCGGTGGTGGGCCAGTCCCGCAGGCTCCGGGACGCAAGCGGGCGCGCCGAAGGCGCCGCCGCCGAGGAGGGCCGGCTGTGA	MIRFENVTKVYDQTTRPALDSVTLEIDRGEFAFLVGASGSGKSTFLRLVLKEDRATSGSVYVAGQNVAKISSWRVPRLRRGIGVVFQDFRLLPQKNVFANVAFAMQVIGKSRSVIRDTVPEVLKTVGLEGKEKRMPHELSGGEQQRVAIARAVVNRPGILLADEPTGNLDPTTSMGIMGVLDKINQNGTTVVMATHDDDIVNEMRKRVVELKNGRVIRDEARALYTSMIPVVGQSRRLRDASGRAEGAAAEEGRL	PGPT0013345_14939	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-17_01403	915	ftsX	COG2177	Cell division protein FtsX	GTGAGGCTCCAGTTCATCCTCGGTGAAATCGGCAGCGGGCTCCGGCGGAACCTGTCCATGGTGGTCTCGGTCATTCTCGTCACCTTCGTCTCCCTCACCTTCGTTGGCGCGGCCGGAATGCTCCAGCTGCAGATCAACCAGATGAAGGGCTACTGGTATGACAAGGTCCAGGTGGCCATCTTCCTCTGCGGTGAAGGCTCGACGGCGGCCGGTTGCGCTTCGGGGTCCGCGACGCCTGAGCAGCAAGATAATTTGCGGACGCTTCTGGAATCACCGGCCGTGTCCCAATACATCAACGATTTCCAGTTCGAGTCCAAGGAAGATGCCTACAAGCACTTCAAGGAACAGTTCTCGAATTCACCGATTGTGGACTCAGTGACGCCGGACCAGCTTCCCGCGTCCTTCCGCATTAATATGAAGGACCCGGAAAAATACCAGATCATCAGTGAGACCTTCTCCTCCCAGCCGGGAGTGGAAACGGTGATTGACCAGCGCCAGGTGCTGGAGCGGCTCTTTTCCGTCATGAACGCGGCGTCGCTCGTTGCGGTGATCATCGCTGGCGTCATGACGGTCTGTGCCATCCTGCTCATCGCGACCACCATCAGGCTCTCGGCCTTCAGCCGCCGGCGCGAGACGGGCATTATGCGGCTTGTGGGCGCCTCGAAGACGGTGATCCAGCTGCCGTTCATCCTCGAGGGCGTGATTGCCGCGGTCATTGGCGCAACCCTGGCTTCCGGAACGCTCTGGGCGGTGGCGCACTTCTTCCTGGGGGAGTACATGTCCAACCAATACCCGGACACTGCCTTTATTTCCCCTGCCCAGACATTGCTGCTGGCGCCGGCCCTGATTGGACTGGGCGTCGTCCTGGCCGGCACTTCTTCCCTGCTGACTCTCCGCCGATACTTGAGGGTGTAA	MRLQFILGEIGSGLRRNLSMVVSVILVTFVSLTFVGAAGMLQLQINQMKGYWYDKVQVAIFLCGEGSTAAGCASGSATPEQQDNLRTLLESPAVSQYINDFQFESKEDAYKHFKEQFSNSPIVDSVTPDQLPASFRINMKDPEKYQIISETFSSQPGVETVIDQRQVLERLFSVMNAASLVAVIIAGVMTVCAILLIATTIRLSAFSRRRETGIMRLVGASKTVIQLPFILEGVIAAVIGATLASGTLWAVAHFFLGEYMSNQYPDTAFISPAQTLLLAPALIGLGVVLAGTSSLLTLRRYLRV				NA	NA	NA	NA	NA
D1-17_01404	1458			hypothetical protein	ATGACCATCGAAGGAATCCCTATGACCGCGAAGCCCGGCCGCACATGGTCCTGCGCACCAGCCGGGCGCCAGCTCAGGATCATCAGCGCTGCCCTGGCCGTGGTCCTCGCAGCCGGCCTGGGTACATCTGCTCCGGCTTTTGCCGGTGAACTCGAAGATCAGCAGGCAGCGCTGAAGGCGGAGGCGTCCCGGGTTCAGCAGTCCCTCGAATTCGTCGATGCCAAGATTTCCAAGGCGGCCGCGGACCTCGTCATGTTCCGTGGCCAGCTCCCCGGCGCCCAGCAGGCTCTGCTCGAGGCGCAGGGGCGGGTAGCGAGTGCAGTGAAGGAAGTGGAGGCACTGGCCGCCCGCGTCGACCTTGCCCAACAGAACAAGGCGAAGATCACCCAGCAGCTCGACGCGGACAAGCAGAAGATCGCCAGCACGAAGAAGCTGATCGGCCAGATCGCCACCCAAGCGTACAAATCGGGAGGGGTGCCGTCGAACCTGACCCTGTTTTTCGGGTCGAACAACACCGGCAGCCTCACCGACACGATTGACCTGGCAGACCAGGCCATGCGCAGCCAGAACTCGGCGATGGACAAGCTGACCCAGCAGAACGCCACCAACGTGAACTCCCAGGCCCGCCTGGAAGCCGTGGAGGCTGAGATCCGGGACCTTAAGGCCAAGGCCGACGCGGCACTCGCGAAGGAAAAGGCCGCGCGGGACGAAGCAGCCGCCAAAAAGGCCAAGGTGGACAAGCTCATCGCGGACACGGCGCGCCTGAACCAGCAACTGGAAGCTGCGAAGCCCGGGATTCAGAAGAAACTCGCGACCGTGAAGGCCCGTCAGGAAGCTGTGGCGGCCGAGATCGTTGAGCGGGACCGTAAGCTGCGCGAGGCTTGGCTGGCCGAACAGCGCCGCATTGCAGAGGCCGCCGCAGCGGCAGCCCGTGCACGTGCCGAGGCCGAGGCCAGGGCAAGAGGTGACGCTGAGGCCGCCGCGCGGGCACGGATTGTGAAGCCGTACGTGCCTCCGGTACCCGGCCCGCCGTCGTCGTTTGGACTCCGCCACCCATTCTCCAACGGCGTCCCGATCACCTCAGGTTTCGGGTGGCGTGCAACGCCGCCGGGAACGGTGGATTTCTACGGCTCCGGTGGCTACATGCACACCGGCATCGACTTTGGCGCAAGCTGCGGAACGCCCGTGTACGCACCGACCGCGGGCACCGTTTTCTCTGCCGGGTGGGGTGACGACGGCGGCGGCAACAACGTCAAGATTTCCCATGGCGTGGTGCAGGGCAACTCGTTGACCACCATTTACTATCACAACGCGAGCGTCGTGGTGTCGGTCGGGCAGCAGGTCAGCCAGGGGCAGCTGATTGCCTACTCCGGTACTACCGGCAACTCCACCGGCTGCCATTCCCACTTTGAGACGTGGCTGAACGGTGAAGCGGTGGACCCGATGCGGCTGCTCTAG	MTIEGIPMTAKPGRTWSCAPAGRQLRIISAALAVVLAAGLGTSAPAFAGELEDQQAALKAEASRVQQSLEFVDAKISKAAADLVMFRGQLPGAQQALLEAQGRVASAVKEVEALAARVDLAQQNKAKITQQLDADKQKIASTKKLIGQIATQAYKSGGVPSNLTLFFGSNNTGSLTDTIDLADQAMRSQNSAMDKLTQQNATNVNSQARLEAVEAEIRDLKAKADAALAKEKAARDEAAAKKAKVDKLIADTARLNQQLEAAKPGIQKKLATVKARQEAVAAEIVERDRKLREAWLAEQRRIAEAAAAAARARAEAEARARGDAEAAARARIVKPYVPPVPGPPSSFGLRHPFSNGVPITSGFGWRATPPGTVDFYGSGGYMHTGIDFGASCGTPVYAPTAGTVFSAGWGDDGGGNNVKISHGVVQGNSLTTIYYHNASVVVSVGQQVSQGQLIAYSGTTGNSTGCHSHFETWLNGEAVDPMRLL				NA	NA	NA	NA	NA
D1-17_01405	471	smpB	COG0691	SsrA-binding protein	GTGCCGAAAGAAAGTGGCCGTAAGGTAGTGGCCACCAACCGGAAGGCCCGGCATGACTACCATGTCCTGGACACCTATGAGGCCGGGATAGCGTTGATGGGCACCGAGGTGAAATCCCTCCGCGAGGGCCATGCCTCCATGGTGGATGGGTTCTGCACCTTCTACAACGATGAGCTGTGGATGGAGGGAATCCACATCCCCGAATACAACCAGGGAAGCTGGACCAATCACGCAGCCCGGCGGCGCCGTAAGCTCCTGCTGCACCGCGAGGAGCTGATCAAGATTTCCCACAAGATCAGGGAGTCCGGCTTCACCGTGGTGCCCCTGCAGCTGTACTTCCTGGACGGACGCGCCAAGGTCGAGATCGGCATTGCCCGCGGTAAAAAGGAGTATGACAAGCGCCAGACCCTGCGTGAACAGCAGGACAAGCGTGAGGCGCTCCGCACCATGCGGGAGCGCAACCGCAGGTAG	MPKESGRKVVATNRKARHDYHVLDTYEAGIALMGTEVKSLREGHASMVDGFCTFYNDELWMEGIHIPEYNQGSWTNHAARRRRKLLLHREELIKISHKIRESGFTVVPLQLYFLDGRAKVEIGIARGKKEYDKRQTLREQQDKREALRTMRERNRR	PGPT0014355_2390	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RatA-RatB|YfjG-YfjF|RatAB-SsrAS_SYSTEM,PGPT0014355-smpB-K03664	NA	NA
D1-17_01407	984	htrA	COG0265	Serine protease Do-like HtrA	ATGTCTAGGACGCCGGCACAGCCATCAGATCCCGACAGGGGCGACGACGCCCTTGACGCCTATTCCGAAACCGTTATGCGGGTCGCGAGTACCGTCACTCCGCATGTCGCAGCCATTGAAATGACCGGCAACCGGCGGAATGGCCGTTTCCGGGTCGGTGCAGGTTCGGCCGTGCTTTTCACCGAGGACGGGTACCTGTTGACCAATGCCCACGTCGTCGCCGGGACGCAGAAGGGCCGGGCTGTTTTTGCAGACGGCTCCGCCACCGATGTGGAACTGGTGGGAGCTGATCCCCTGTCCGACCTGGCCGTGGTCCACGGCCACGCACCCCATGTGGCGCCCGCCGAGTTTGGCGATGCCGAATCGCTCCGCGTGGGACAGTTGGTCATCGCGGTGGGCAACCCCCTCGGACTCAATGGGTCGGTGACGGCAGGCGTGGTCAGCGGCCTCGGCAGGGCCATTCCCGTGTGGGCCGGCCGCAACCGGCGCGTGATCGAGGACGTCATTCAGACCGACGCGGCCTTGAATGCGGGCAGCTCGGGCGGTGCCCTGGCCGATGCCCGCAGCAGGATTGTCGGAATCAACACAGCTGTGGCAGGTGCAGGGCTGGGGCTGGCTGTGCCGATCAACAGCACCACGCGGCGGATCATCTCGGCGCTCCTGTCCGACGGACGGGTTCGCCGCGCCTACCTGGGCGTGGTCAGCACACCCTTCAGACTCGGCCCCAGTGCCGTGATCCGCACCGGGCAGCGTGAGGGGCTGCGCGTTGTCGAAGTCCTCGCGGGTTCACCCGCAGAGGCGGCAGGAGTGAAGGTGGACGACGTACTGCTGCGGGCGGGGTCCCGTCCGGTGAGCAACGCTGAAAGCCTTCAGAAGCTCCTCTTTGCCGATGCCGTCGACGTTCCCATGACCATCGTGGTCCTTCGGGACGGCCGCGAGCTGGCGCTCACGGCCGTGCCCGCGGAGATGGACGACTTGGGGTAG	MSRTPAQPSDPDRGDDALDAYSETVMRVASTVTPHVAAIEMTGNRRNGRFRVGAGSAVLFTEDGYLLTNAHVVAGTQKGRAVFADGSATDVELVGADPLSDLAVVHGHAPHVAPAEFGDAESLRVGQLVIAVGNPLGLNGSVTAGVVSGLGRAIPVWAGRNRRVIEDVIQTDAALNAGSSGGALADARSRIVGINTAVAGAGLGLAVPINSTTRRIISALLSDGRVRRAYLGVVSTPFRLGPSAVIRTGQREGLRVVEVLAGSPAEAAGVKVDDVLLRAGSRPVSNAESLQKLLFADAVDVPMTIVVLRDGRELALTAVPAEMDDLG	PGPT0015105_6746	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
D1-17_01408	138			hypothetical protein	ATGCCTGACAAGTCACCACATACGCATCAGCAGAAAAAAGCGGGCAAGACCATCAAACAGAAACGCGCGGACAAAAAGGCCAAGGGGCCTCTCGAGGGCCCCGCGGACCCCGTGGCGCATCTGAAGAAGCGTCGGTAA	MPDKSPHTHQQKKAGKTIKQKRADKKAKGPLEGPADPVAHLKKRR				NA	NA	NA	NA	NA
D1-17_01409	363			hypothetical protein	ATGATAAGCAGACGTGATGCGGCTATTGCCCTCGATATACCACTGGAAATGGCACAGCGTCACGGGATTCCCAGCAGGATGACCGAGGCCGAGCTGGGCGAGATCCTGGACAATCCCCCGCAGTGGCTGCTGCAGTCCAGGGAAAACCGTACCGGGCAGAGGCCTGTCTGGGTACACCTGCGCTGTGAGGTCTGCGGTTACACCGAAGCCGCGCGGCCCAAGAAATGGTGGCCCGAGTTCACCTATGTCAGCTGCAGCCACCACAGCCCGGCCGATGTGCCTCCGCCCGCTCCGGGATTCATCCGCAGCGAATTCGACGGCGTTGGCAGCCGTTTCATCGGCATCTCGGACGTTCAGGGCTGA	MISRRDAAIALDIPLEMAQRHGIPSRMTEAELGEILDNPPQWLLQSRENRTGQRPVWVHLRCEVCGYTEAARPKKWWPEFTYVSCSHHSPADVPPPAPGFIRSEFDGVGSRFIGISDVQG				NA	NA	NA	NA	NA
D1-17_01410	378	crcB_1		Putative fluoride ion transporter CrcB	GTGACCTCTCTGGTGGTTCCGCTGCTCGTGGGGCTGTTCGGCACTGTCGGGGCACTTCTGCGGTTTGCCGCAGACAGCTGGCTCGCGGGACGGCCCACGCCACGCAGCCATTGGCCGTGGGCCACCCTGACGGTCAATGCCGCAGGGTCCTTCATTATCGGACTTTCCATCGGCCTGAGCAGCACGCTCGGCGCCGAATGGCATGCCGCGCTCACGACCGGTCTCGCCGGCGGGCTCACAACCTTCAGTTCCTGGACCACCGCAACCGTGCGGCTGGTGAGCGAAGCCCGTTACGGCGCGGCGGCACTGAACATCGGCGTCAACCTGCTGGCCGGTCTCGCCGCCGCGGCAGCGGGGATCGCACTGAGCGGCGGTTGA	MTSLVVPLLVGLFGTVGALLRFAADSWLAGRPTPRSHWPWATLTVNAAGSFIIGLSIGLSSTLGAEWHAALTTGLAGGLTTFSSWTTATVRLVSEARYGAAALNIGVNLLAGLAAAAAGIALSGG	PGPT0004985_4943	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
D1-17_01411	489	crcB_2		Putative fluoride ion transporter CrcB	ATGCCCTATGGCTGGTTCATGCCTTATGAAAGCTCCGGCCTCATGAAGGCTGCGGAAACTGCCGCAGCAGCGGTGAAGGAGCCTGGCAGACGCACTTGGAAGGCCTGGGCAGCCGTTGCTGCGGGAGGACTGTTTGGGAGCGAACTGCGATACGGGCTCGGCGTGCTCTTTCCGGAGCAGGCAGGCAGCGTGCCATGGACAACGCTCACCATCAATGTGGCCGGAAGCTTCATCCTTGGCATGCTCACAACCGTCTGGATCGCTCGCCCGCGAACGGCCTTCTGGCTTCGGGCCGGCATTGGTCCCGGGCTGCTCGGTTCCTTCACGACGTTTTCGGCCCTGGTCGCCTCCGTCGACCAGTTGGCGCGTGGCGGATTCCACGCCGCGTGGATGTCCTACCTGTTCCTGTCAGTCCTGCTGGGACTCGGTGCGGCAGCCTTGGGGTGGAAGGCAGGCAAAGCGATCGCCGGCGAGGGGGGCACGCCGTGA	MPYGWFMPYESSGLMKAAETAAAAVKEPGRRTWKAWAAVAAGGLFGSELRYGLGVLFPEQAGSVPWTTLTINVAGSFILGMLTTVWIARPRTAFWLRAGIGPGLLGSFTTFSALVASVDQLARGGFHAAWMSYLFLSVLLGLGAAALGWKAGKAIAGEGGTP	PGPT0004985_664	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
D1-17_01412	717	mntR		HTH-type transcriptional regulator MntR	GTGAAGACCAGCACGCCATCCTCCTCCATCGAGGACTACGTCAAGGTCATCTACTCTTTCACGGAGTGGCAGGACAAGCCCATCACCTCCACGCAGCTCGCCCAGCGCCTTGGCGTGGCCAACTCCTCAGTCTCGGAGATGGTGCGCAAGCTCAAGGACCAGGGGCTGGTGCTGCACAAGCCGTACAGTGCCATCACGCTCACTCCTGAAGGAGTGCGCCTCGCACTTTCCATGGTCCGCAGGCACCGCCTCATCGAGACTTACCTGGTTCAAGACCTCGGCTATAGCTGGGACGAGGTGCATGATGAGGCCGAACTCCTCGAGCATGCCGTGTCCGATACCTTTATCGAGCGGATGGCAGCGAAGCTGGGCAATCCCACCCGCGATCCTCATGGGGACCCCATTCCATCCGCCGACGGCACCGTGCAGGTTCCGCTTGCGCACCGGATGAGCGAGCTGGATGACGGTCACACCGGCAGGATTACCCGGATCAGCGACGAGAACCCCGACCTGCTGCGGTACCTTGCCGCCGAGCAGATTGACCTGGACTCCGACGTCGAAATCGTGGGGCGCAGGCCCTTCGGCGGCGCACTAATGGTGCGCATCGGCCCTGCAGGGAACAGGCGCAGCTTCGACCTGGCCGACGAAGTCACGTCCGCGCTGTGGGTCCACAGCGACGCGGCTCATCCGGGCTGCCGCATGGCCAGCGCAGGATGA	MKTSTPSSSIEDYVKVIYSFTEWQDKPITSTQLAQRLGVANSSVSEMVRKLKDQGLVLHKPYSAITLTPEGVRLALSMVRRHRLIETYLVQDLGYSWDEVHDEAELLEHAVSDTFIERMAAKLGNPTRDPHGDPIPSADGTVQVPLAHRMSELDDGHTGRITRISDENPDLLRYLAAEQIDLDSDVEIVGRRPFGGALMVRIGPAGNRRSFDLADEVTSALWVHSDAAHPGCRMASAG	PGPT0003890_304	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709	NA	NA
D1-17_01413	786		COG0500	putative methyltransferase	GTGGCACGGGGTGGCCCCAAACTCGACCACGGGCGCCGGCAGGAACTTGGACTGAGCTTCCAGGACGGCGGCGAGCATTACCACCGTGTCCGCCCCGGTTATCCTGGTCAATCGGCCGACTGGCTCATCCCCGCCGGCGCCCGCACCGCGGCAGACATCGGAGCGGGAACCGGTAAGTACACGGCCCTGCTCGTGGAGCGCGGCCTGCGCGTCACTGCAGTGGACCCATCGGCCGATATGCTTGAGCAGCTGCGCAGCTCCTACCCTACGGTGGACACTCTGGAGGGAAAAGCTGAGGAAACGGGACTGCCCGGCTCGGCCTTCGATGTCGTCACCGTGGCGCAGGCCTGGCACTGGTGCGACCCGTTGCGGGCCAGCACCGAGATTGCCCGGATCCTGCGGCCCGGCGGCGTTCTTGGCCTGATCTGGAACCAGCTGGACACATCAGTGCCCTGGGTTCACCGGCTCTCACGCATCATGCACGCCGGCGACGTCCACAAGCCGCACTTCCGTCCGCCGCTGGGACCCGAATTCACCGGTCTGGAAAGCCACCTGACCCGGTGGGAGGACCCGGTGACCACGGCTGACATTGTCGAGCTCACCAAGTCGCGGAGCTACTATCTCAGAGCCAGCGCGACCACGCGGGCCAAGGTCACTGCAAACCTCGACTGGTATCTCCACGAACATCTGGGCCACACTGGGGGCGAGCTGCTGCACCTGCCGTACCTCACCCAGACATGGCGGGCCCTGAGGCCATCCGCGCACCGGGTAGGCTTGGATCCGTGA	MARGGPKLDHGRRQELGLSFQDGGEHYHRVRPGYPGQSADWLIPAGARTAADIGAGTGKYTALLVERGLRVTAVDPSADMLEQLRSSYPTVDTLEGKAEETGLPGSAFDVVTVAQAWHWCDPLRASTEIARILRPGGVLGLIWNQLDTSVPWVHRLSRIMHAGDVHKPHFRPPLGPEFTGLESHLTRWEDPVTTADIVELTKSRSYYLRASATTRAKVTANLDWYLHEHLGHTGGELLHLPYLTQTWRALRPSAHRVGLDP				NA	NA	NA	NA	NA
D1-17_01414	1404	sufS	COG0520	Cysteine desulfurase	ATGACAACTGCAACCTTCCCTTCCACCGCCGCCGGCCTGATCAACGGTCGTTGTGCCGCTGCCGGACGGCCGCTGGCAGCAGTCACCGGCGCCGAGATCCAAGCCCCGCTGATCCAGGGCGGCCACGTGCGCTACGCCAATCTGGACTACGGAGCCTCCGCCCCGGCGCTGTCCGTGGTTTCCGCATACCTCAACGAGATCCTGCCGTTCTACGCCAGCGTGCACCGCGGTGCCGGATACGCATCGCAGATCAGCACGTCCGTGTACGAGAACGCCCGGAACATCGTCCGTGAGTTCGTCGGCGGCCGCTCCGACGACTCTGTTATCTTTACGCGCAACACTACGGATTCGCTGAATCTGCTGGCGGGCTGCCTGCCCGTGGAAGACCACCACCACACCGGCGAAGTCCTTTATCTGGACATCGAACACCATGCCAACCTGCTGCCGTGGCAGGGTGTTCCGCACCGCAGCGTCGTGGCCTCCGACTCCCTTGAGGACACCGTTGAAAGCCTGCGGGCCGAACTGCGGCACGGCCACGTCAGCCTCCTCGCCGTCACAGGTGCCTCGAACGTCACCGGGGAAATCCTTCCGATCCGCCGCCTTGCGGCGCTTGCCCACGAATTCGGCGCACGGATCGTGGTGGACGCCGCACAGCTCGCCCCGCACCGGCGTATCGACATTGCCGCTGACGACGTCGATTACCTCGCATTCTCAGGCCATAAGCTCTACGCGCCGTTCGGCTCCGGCGTACTCGTCGGACGCCCTGACTGGCTCGACGCCGGAACGCCCCACCTTGCCGGCGGCGGCGCCGTCAGCGAAGCGCGGATCGACGGCGTCAGCTGGACCACCGGTCCGGCACGCCACGAAGGCGGCTCACCCAACGTCCTGGGTGCAGCCACCCTTGCCCGCGCCACCCAAGTCATCGCTGCCCTGGACCAGGAGAGCTGGCACGCCCATGAGGCCGCCATCCGTTCCTTCCTGATGGAAGGCCTGCAGAGGATCGAGGGCGTCACGGTCCACCAGATCTTCGCCGACACCGACCCGGACGACACCATCGGCGTGGTCAACTTCTCGGTGGAAGGGTATGATGCCGGACTTGTGGCAGCCTACCTGTCCGCCGAGCACGGCGTCGGGCTGCGCGACGGCCGCTTCTGCGCCCACCCGCTGCTGAAGCGCCTCGGCTTGCCCTCAGGCTCGCTGCGGGCAAGCTTCGGCGTCGGTTCCCGGCTCGAGGATGCAGAACGCCTTCTCGCCGGCATCGAACAGCTGCGCCGCAGCGGCCTCGGCTGGGACTACGTGGTGGATTCCGGCCGCTGGGTCCCGGCCAACGACTCCCGCACCTACCCGCACTGGGCACCCAACACCCCCGGCACCGCCGGTGCGGCCCCCTGCAACCAGGATTAG	MTTATFPSTAAGLINGRCAAAGRPLAAVTGAEIQAPLIQGGHVRYANLDYGASAPALSVVSAYLNEILPFYASVHRGAGYASQISTSVYENARNIVREFVGGRSDDSVIFTRNTTDSLNLLAGCLPVEDHHHTGEVLYLDIEHHANLLPWQGVPHRSVVASDSLEDTVESLRAELRHGHVSLLAVTGASNVTGEILPIRRLAALAHEFGARIVVDAAQLAPHRRIDIAADDVDYLAFSGHKLYAPFGSGVLVGRPDWLDAGTPHLAGGGAVSEARIDGVSWTTGPARHEGGSPNVLGAATLARATQVIAALDQESWHAHEAAIRSFLMEGLQRIEGVTVHQIFADTDPDDTIGVVNFSVEGYDAGLVAAYLSAEHGVGLRDGRFCAHPLLKRLGLPSGSLRASFGVGSRLEDAERLLAGIEQLRRSGLGWDYVVDSGRWVPANDSRTYPHWAPNTPGTAGAAPCNQD				NA	NA	NA	NA	NA
D1-17_01416	813	hisN	COG0483	Histidinol-phosphatase	ATGAGCCAACCCGCTTCGAACTACAACGATGATCTGCGCCTTGCCCATGTCCTGGCGGATTCCGTGGATGACCAAACCATGAGCCGGTTTAAGGCCCTTGACCTTCAGATCGAAACCAAGCCCGATCTGACCCCGGTCACGGACGCAGACAAAGCCGCAGAGGAGTCAATCCGCGGCCAGCTGTCCAGGTCCCGGCCGCGTGACGCCGTACTCGGCGAGGAGTTCGGCAGTTCCGGGCACGGCTCCCGGCGCTGGATTATCGACCCCATCGACGGGACCAAGAACTTCGTGCGGGGAGTGCCGGTGTGGGCCACCCTGATCGCCCTCGTTGATGAAGGTGAACCGGTAGTGGGCCTGGTCAGCGCGCCGGCACTCGGCAAACGCTGGTGGGCCGCCAAGGGCGCTGGAGCCTACATGGGCCGTTCCCTGGCAGCCGCCACCCGGCTCAGGGTTTCAAACGTCTCGAAGCTCTCGGACGCGTCGCTGTCCTACTCCAGCCTCGGCGGCTGGAAGGAGCGCGGAAACCTGGACGATTTCATCGCGCTCACCGAGGAGGTCTGGCGCACCCGTGCCTTCGGTGATTTCTGGTCCTACTGCATGGTCGCCGAAGGCTGTGTGGACATCGCGTGCGAGCCTGAACTGAATCTGTACGACATGGCCGCACTGGTTCCCATCGTCACCGAAGCCGGCGGCAGGTTCACCTCGCTGGAGGGAACCGACGGGCCCTTCGGCGGCAATGCGCTCGCCACCAACTCGATTCTTCATTCCGAAGTCCTCAGGCGCCTTAACCCGCAACTGGACGATCTGCTTTAG	MSQPASNYNDDLRLAHVLADSVDDQTMSRFKALDLQIETKPDLTPVTDADKAAEESIRGQLSRSRPRDAVLGEEFGSSGHGSRRWIIDPIDGTKNFVRGVPVWATLIALVDEGEPVVGLVSAPALGKRWWAAKGAGAYMGRSLAAATRLRVSNVSKLSDASLSYSSLGGWKERGNLDDFIALTEEVWRTRAFGDFWSYCMVAEGCVDIACEPELNLYDMAALVPIVTEAGGRFTSLEGTDGPFGGNALATNSILHSEVLRRLNPQLDDLL	PGPT0012270_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PUROMYCIN_METABOLISM,PGPT0012270-pur3-K12634	NA	NA
D1-17_01417	1116	rsgA_2		Small ribosomal subunit biogenesis GTPase RsgA	GTGGCACGGAAGACTGACTCCTGGGACGAATCCGACGTACGTATCCGGCCGAACAAGAAGGGGTCGCGTCCGCGCACCAAGGACCGGCCCAGCCACGACGATGCCGTGACCGGACGCATCATCACCGTTGACCGCGGCCGGTATACGGCCGTCGTCGGCGAGGACTCCGGAAACGAACGGACCGTCATCGCCGCCCGCGCCAGAGAGCTCCGCCGCTCCCCCGTTGTTGCCGGCGACTTCGTGTCCCTTGTGGGCGATGTGTCGGGAGCCCCGGACACCCTCGCCCGGCTCGTGAAGATCCAGGACCGGAAGACGCTGCTGCGCCGGAGCGCCGATGACACGGACCCGGTCGAGCGGGCAGTCGTGGCCAACGCGGACCAGCTCGTGGTGGTTGTTGCCGCGGCGAACCCCGAGCCACGCACCGGATTCATTGACCGTGCACTGGTGGCCGCTTACGACGCCGGCATCGAACCCCTCCTGCTCATCACCAAGGCGGACGTCAAAGACCCCTCGGATCTCCTGGACAACTACCGGCACCTGGATTTCCCGGTCATCATCAGCCGGACGGCCGACTCGGCGGCTTCGGGCATCGACGCCCGCTCGGACGACGGGCTGTCGGCCCGCCTCGACCTGGACGCCGTCTCGCAGATTCGGGCGCATCTGGACGGCAAGGTCACCGTCATGCTGGGACACTCGGGCGTCGGCAAGTCGACCATGGTGAACGCGCTGACCGGTGCCGAACGGGCAACCGGCGGCGTTAACGCCGTCACGGGGCGGGGCCGGCACACGTCGTCGTCCGCCCTTGCGCTGAAACTGGCGGACGCACCGCCCGGCAGCTGGATCATCGACACCCCCGGCATCCGGTCCTTCGGGCTGGCCCACGTGGATCCTGACCGAATCCTGCATTCTTTCCCCGACCTTGAGCCCGGCACTGAAAACTGCGAACGGGGCTGCAAGCACGATGCTGGTGCCGTCAACTGCGGCGTGGACGCCTGGGTCGAGGCCGGGCGGGCCGGACCGTCCGGCCCCGCCCGGCTGGCCTCCCTACGCCGGCTCCTGGGCACTGATCCGCGTGCGGAAGCACAGGAAACAAAGGAACTCGGCACCGTCGGCTGA	MARKTDSWDESDVRIRPNKKGSRPRTKDRPSHDDAVTGRIITVDRGRYTAVVGEDSGNERTVIAARARELRRSPVVAGDFVSLVGDVSGAPDTLARLVKIQDRKTLLRRSADDTDPVERAVVANADQLVVVVAAANPEPRTGFIDRALVAAYDAGIEPLLLITKADVKDPSDLLDNYRHLDFPVIISRTADSAASGIDARSDDGLSARLDLDAVSQIRAHLDGKVTVMLGHSGVGKSTMVNALTGAERATGGVNAVTGRGRHTSSSALALKLADAPPGSWIIDTPGIRSFGLAHVDPDRILHSFPDLEPGTENCERGCKHDAGAVNCGVDAWVEAGRAGPSGPARLASLRRLLGTDPRAEAQETKELGTVG	PGPT0009020_413	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009020-rsgA|engC-K06949	NA	NA
D1-17_01418	1392	aroA	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	ATGACCGGATCCATCACGGAAGCCTCAGCCGACCAGGCCGGGTCTGCTGCGCACTGGCCTGCCCCGTTCGCTGAGCAGCCCGTCGACGCGACAGTACGCGTCCCGGGTTCGAAGTCGCTGACCAACAGGTACCTCGTGCTCGCCGCGCTGGCTGACGGGCCATCCCGCCTCAGGGCACCGCTCCACTCGCGGGATTCGGCCCTGATGATCAGTGCACTGCGCCAGCTCGGCGCCGAGGTCCGGGAAGTACCCGGCGACGGAGCGTTCGGCCCCGACCTGGAAGTGGCGCCGATCCAGGCTGCCGCGGAAGCAACGGACACCGCCATCGACTGCGGCTTGGCCGGCACCGTCATGCGTTTCGTGCCGCCTCTGGCGGCGCTCCGTAACGGCGTGGCAGTGTTCGACGGCGATCCCCACGCCCGGGAGCGCCCGATGGGAACCATCATCGAGGCCCTCACTGGGCTCGGCGTCACCGTCCGCGGCGAGGACGACGGGACACCCTCCTCGCTGCCCTTCCGAGTGGAGGGCTCGGGCGAAGTCCAGGGCGGGCACCTGGTCATCGACGCAAGCGCATCATCGCAGTTTGTCTCTGCACTGCTGCTGGTGGGCGCACGCTTCACCGAAGGGCTGCATCTCGAACACGCAGGTCCCTCCGTGCCCAGCCTGGATCACATCAACATGACTGTGGCGGTCCTGCGCGGCGTCGGTGTGGACGTGGACGATTCCACCCCAAACCACTGGATTGTGAGCCCGGGACCCATCCGGGCCTTCGATGAACGGATTGAGCAGGACCTCTCCAACGCCGGCCCCTTCCTGGCGGCTGCCCTGGCCTCCGGCGGGACGGTGCGCATTCCGGACTGGCCGGAACACACTACGCAGGTGGGCGACCTCTGGCGGACTATCCTGGCGGACATGGGCGCCACCGTAACGCTCGACGGCGGCACCCTCACCGTCACAGGCGGCCCGGGGATCCAGGGGGCGGAGTTCGCTGAAACCAGCGAACTGGCACCAACAGTGGCAGCGCTCTGCGCTCTTGCCAACGGACCGTCCCGGCTCAGCGGCATCGCGCATCTTCGCGGCCACGAAACTGACCGGCTCGCAGCCCTGGTCACTGAAATCAACCGCCTCGGCGGGGATGCAGAAGAGACCGACGACGGCCTGATCATCCGCCCGGCCAAGCTCCACGGCGGCGTGGTTCACAGCTACGCGGACCACCGGATGGCCACTGCCGGGGCGATCCTGGGCCTGGCAGTCAGGGGCGTTCAGGTACAGGACATCGGCACCACCGCCAAGACCATGCCAGACTTCCCGCAGCTGTGGGCGGACATGCTGGCGCAGGGCAGTACCACAGACGCCGGCGCTACGGGGACCAGCGGTGGCACGGAAGACTGA	MTGSITEASADQAGSAAHWPAPFAEQPVDATVRVPGSKSLTNRYLVLAALADGPSRLRAPLHSRDSALMISALRQLGAEVREVPGDGAFGPDLEVAPIQAAAEATDTAIDCGLAGTVMRFVPPLAALRNGVAVFDGDPHARERPMGTIIEALTGLGVTVRGEDDGTPSSLPFRVEGSGEVQGGHLVIDASASSQFVSALLLVGARFTEGLHLEHAGPSVPSLDHINMTVAVLRGVGVDVDDSTPNHWIVSPGPIRAFDERIEQDLSNAGPFLAAALASGGTVRIPDWPEHTTQVGDLWRTILADMGATVTLDGGTLTVTGGPGIQGAEFAETSELAPTVAALCALANGPSRLSGIAHLRGHETDRLAALVTEINRLGGDAEETDDGLIIRPAKLHGGVVHSYADHRMATAGAILGLAVRGVQVQDIGTTAKTMPDFPQLWADMLAQGSTTDAGATGTSGGTED	PGPT0012850_393	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
D1-17_01419	549			hypothetical protein	ATGTCCTTTGTCCGTTTTCTCGCCCGGCCGATGCTGGCTTCAAGTTTCGTCCTCGCGGGCGTGGACAAGCTCAGGAATAGTGACGACACTGCGGAACAGTTGTCGCCCCTCCTGCGCCGCGCCGCCGATGCCCTTCCCTTCCAGACCAATGAGAAGGTCCTGGCCCGGGTCATCGGCGGAACCCAGGTAGGCGCCGGTATCCTTTTCGCTACCGGCAAGTTCGCCAGGCTGTCGGCCAGCCTTTTGGCTCTCATCTCAGCCCTGAATGCCTTCGTGGAGTACCGCAGCGCGGACATCAGCAGCAAGCAAGGCCGGGAAGCCCGCCGCAACCAGCTGCTCAAGAATGTCACCCTGACCGGCGGCGTACTCCTGGCCTCGGTCGACACGGCTGGCAAGCCGAGCCTGGCCTGGCGTGCCGAGCACCTGGCTGCGGACGCCCGGAAGACCGCCACACACCTGGCCACCGACGCGCGGAAGACTACCGGGAAGAAGCTGCACAAGGCCGACAAGGCAGTACGCAAGGCCGTAGACCATGCAGTGGGGGCATAA	MSFVRFLARPMLASSFVLAGVDKLRNSDDTAEQLSPLLRRAADALPFQTNEKVLARVIGGTQVGAGILFATGKFARLSASLLALISALNAFVEYRSADISSKQGREARRNQLLKNVTLTGGVLLASVDTAGKPSLAWRAEHLAADARKTATHLATDARKTTGKKLHKADKAVRKAVDHAVGA	PGPT0028505_964	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028505-catD-K15977	NA	NA
D1-17_01420	912			hypothetical protein	TTGACGTTGGTAAAAGACGCTATGTACGCACGGGGACCGGTGGATGTCGCGGCCCTGGGGCAGTTTGAAGTGACGCCGGAGATGTCAACGCACGCGGGCTATGGTGCCGGATCCGGTCGCGCTGCAGGAAAGCCGGCGCCTGCCAACCCGTGGGCTGTTCCCGTCGTGACAGTAGACTTGAAAACAATGAGCACCGTGGATCCGGCCTTAGAGGCCTCGCAACAGGACGCCGGCGACGGCACCGAGGGCATCAGCACCTCGCAGGCAGGGGAGCCGGCGGAGGCAATTGATGTCGCCACCGAAAGCCCGGAAGCGCGCCGGGTTCGGTTCGAGCGCGACGCCATGCAGTATGTGGACCAGCTCTATTCAGCTGCCATGCGCATGGCACGCAACCCGTCGGACGCGGAGGATCTTGTGCAGGAGGCCTACACCAAGGCATTCTCGGCGTTCCACCAGTACAAGCCCGGGACCAACCTCAAGGCCTGGCTGTACCGCATCCTCACGAACACTTACATCAACCTCTACCGGAAGCGGCAGCGCGAGCCGCTGCAGTCAAACTCGGACACCATAGAGGACTGGCAGCTCGCACGGGCCGAATCGCACACGTCGAGCGGACTCCGTTCGGCCGAGGCGGAGGCGCTGGACCACCTGCCGGATTCCGACGTCAAGCGGGCGCTGCAGGAGATACCGGAGGAGTTCCGGCTGGCTGTTTACTTCGCAGACGTCGAGGGCTTCGCGTACAAGGAAATTTCAGACATCATGAACACCCCCATCGGCACGGTCATGTCGCGGCTCCACCGCGGCCGGAAAATGCTGCGGGACATGCTGGCGGATTACGCCGCTGAGCGGGGATTTAAAGCTGCCGACCCCCAGACGGCAGCAGAAGGCAACAAACAGGAGAACAGGAAATGA	MTLVKDAMYARGPVDVAALGQFEVTPEMSTHAGYGAGSGRAAGKPAPANPWAVPVVTVDLKTMSTVDPALEASQQDAGDGTEGISTSQAGEPAEAIDVATESPEARRVRFERDAMQYVDQLYSAAMRMARNPSDAEDLVQEAYTKAFSAFHQYKPGTNLKAWLYRILTNTYINLYRKRQREPLQSNSDTIEDWQLARAESHTSSGLRSAEAEALDHLPDSDVKRALQEIPEEFRLAVYFADVEGFAYKEISDIMNTPIGTVMSRLHRGRKMLRDMLADYAAERGFKAADPQTAAEGNKQENRK	PGPT0014960_2663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-17_01421	261			hypothetical protein	ATGAGCGACTGCCAGGGATTGGGCGATTGCGACGACGCCCGGATGCAACGCATCTACGAGTATCTTGATGGTGCATTGACCCGCAGTGACATTAGCGAGATAAAGCAGCATCTGGACGAGTGCCCGGAATGCACGGAGCAGTACGACCTTGAGTGCGTTATCCGCAAGGTCGTTAAGCGCTCCTGCACAGAGTCGGCTCCCGAAAACCTGAAGAACGCGATCCTGGACAGAATCCACAACATCCGGCCGGTTGACGCCTGA	MSDCQGLGDCDDARMQRIYEYLDGALTRSDISEIKQHLDECPECTEQYDLECVIRKVVKRSCTESAPENLKNAILDRIHNIRPVDA				NA	NA	NA	NA	NA
D1-17_01422	600			hypothetical protein	GTGGAAGACAGGAAGCTGCGCATCGCAGCTGTTGGAGATGAACTGCTGGCCGGTCTCGGGGATCCGCGGGCACTGGGATGGTTGGGACGAGTCCTGGCCCGCACACCGCAGGACGGCATGGCAGTTGAGAGCTTCTCACTTCCCTGTCCCCAGGAAGGCACCGAGGGCCTTGCTGCCCGCTGGCAGGAGGAAGCCGGCCGCCGCTTCAGCGACCACCACGAAAACCGGCTGGTCATCGGGCTCTCGGGCCGCGACGTCGAATTCGGCCTCTCGACCGCCCGCAGCAGGCTGAACCTGGCCAACATCCTTGACTCCGCCACCCAAAAGAGGCTCGAGGTGTTTGTGGTAGGACCTCCACCAACGCTTGATCCTGCCCAGAACCGCCGGCTGGGCGAGCTGAACACCGCCTTCGCGGACGTCACCACGCGCCGCAAGCACTTCTACGTGGACACCTTCTCGCCACTGCTCAATCATGAGCAGTGGCGCCAGGACCTGGCGGCCAACGGCGGCACACCCGGCCAGGCCGGTTACGGTTTGATGGCGTGGCTGGTGCTGCACCGGGGCTGGTTCCAGTGGCTGGGAATGGACGCCCCTGAGTGA	MEDRKLRIAAVGDELLAGLGDPRALGWLGRVLARTPQDGMAVESFSLPCPQEGTEGLAARWQEEAGRRFSDHHENRLVIGLSGRDVEFGLSTARSRLNLANILDSATQKRLEVFVVGPPPTLDPAQNRRLGELNTAFADVTTRRKHFYVDTFSPLLNHEQWRQDLAANGGTPGQAGYGLMAWLVLHRGWFQWLGMDAPE	PGPT0001840_2550	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
D1-17_01423	3825	kgd	COG0508	Multifunctional 2-oxoglutarate metabolism enzyme	GTGCCAGAGCAGCCTAGCCACCGTCTACCAGAGGAATTTGGCGGAAACGAGTGGCTCGTTGACGAACTGTACGAGCGTTACCAGCAGGACAAGAATACGGTTGATGCTAAATGGTGGCCACTGTTCGAGTCTTTTGACAGCGGCAACGGCCCATCTTCCAACGGTGCCCCGAGCACTGCAAACACGCAGGCTCACCCCCCTACGCGGGAGATGCCCCTCGTAGCTCCCCCGGCTCCTGCCAAAGCCCCCGCTTCGGCGGCCCAGGCACCGGCAGCCCCGCAGGCACCGTCGCCTGCCGTAGCTGCTCCCGCTGCCCCGGCCGAACCCGCGAAGAAGGCACCTGCAACCGTGGCCCGCGACGGAGCCAAAAAGACTGAGGCGGGCACCGGCGCCCAGCCCATCCCCGCGCAGCTCCCCAAGAATGTCAAGGCGCCCACAGCGCCCGAGGAGGATGTCGTTTCCGTCCTCCGCGGTCCGGCCAAAGCCATCGCGACCAACATGGTGACCAGCCTCGAGGTCCCCACGGCTACTTCCGTCCGTGCCATTCCGGCCAAGCTGCTGATCGACAACCGCGTCGTCATCAACTCCAACCTGGCCCGTGCACGCGGCGGCAAGGTCTCCTTCACCCACCTCATCGGTTACGCGGTCATCCGGGCGCTTTCCCAGTTCCCGTCGATGAACGTCTACTACGACGAGGTGGACGGCAAGCCGGTCGCCGTCCAGCCCGCCCACGTGAACTTCGGCATCGCCATCGATATGCCGAAGCCTGACGGCACCCGCCTGCTCATGGTGCCGAACATCAAGAAGGCCGAGACGCTCAACTTCTCGGAGTTCTGGCACACGTACGAGGACCTGATCAAGCGCGCCCGCAACGGCAAGCTGACAGCCGAGGACCACCAGGGCACCACTGTGTCCCTGACCAACCCCGGCGGCATCGGCACGGTCCACTCCGTTCCCCGCCTGTCCAAGGGCCAGGCCGCCATCATCGGCGTCGGTGCTTTGGACTACCCGGCGGAGTTCCAGGGTGCCAGCGAGAAGATCATCGCCCATAACGCCATCAGCAAGGTCCTCACCCTTACCTCCACCTACGACCACCGCGTCATCCAGGGTGCAGGCAGCGGCGAGTTCCTCAAGCTGGTGCACTCCCTCCTGCTCGGCGCGCAGAACTTCTACGACGAGATCTTCGAGTCCCTGCGCATTCCGTACGAGCCGGTGCGCTGGAGCGCTGACCTCCAGATAGATCCGTCCGACCAGATCAACAAGGTCGCACGGATCCAGCAGCTGATCCACTCCTACCGCGTCCGCGGCCACCTCATGGCGGACACTGATCCGCTGGAGTACGTGCAGCGCAAGCACCCGGACCTTGACGTCCTGACCTACGGCCTGACGCTGTGGGACCTGGACCGTGAATGGCCCACGGGCGGATTCGGCGGCAAGCCGCAGCTGAAATTCCGCGACATTCTCGGTGTACTCCGCGACGCCTACTGCCGCACCACCGGCATCGAGTACATGCACATCCAGGAGCCGGCTGAGCGCAAGTGGTTCCAGGACCAGCTGGAGCACCCGTACTCCAAGCCGAGCCGCGACGAGCAGCTGCGCATCGTCTCCAAGCTCAACGCGGCCGAGGCCTTCGAGACCTTCCTGCAGACCAAGTTCGTCGGCCAGAAGCGCTTCTCCCTGGAAGGCGGGGAATCCCTGATTCCGCTGCTGGACTCCATCATCTCCGACGCAGCCGACGACGGCCTGGACGAGGTCGCCATCGGCATGGCCCACCGCGGCCGCCTCAACGTGCTGACGAACATCGCCGGCAAGACCTACGCCCAGGTCTTCCGCGAGTTCGAAGGCACCCAGGACCCCCGCTCCGTGCAGGGCTCCGGTGACGTCAAGTACCACCTGGGCACCGAGGGCACGTTCACCTCGGACAACGGCAACGAGACCAAGGTCTACCTCGCCGCCAACCCCTCGCACCTCGAGGCTGTGGACCCCGTGCTTGAAGGCATCGTCCGCGCCAAGCAGGACCGCCTGGACCAGGGTGAGGCCTTCCCCGTGCTGCCGATCATGGTGCACGGCGACGCAGCCTTTGCCGGGCAGGGCGTCGTGGCGGAGACCCTCAACCTTTCCCAGCTTCGCGGTTACCGTACCGGCGGCACCATCCACGTCGTGGTCAACAACCAGGTGGGCTTCACCACGGCACCGTCCTCGTCACGGTCCAGCACCTACTCGACTGACGTCGCGAAGATGATTCAGGCGCCTGTGTTCCATGTGAACGGCGACGATCCCGAGGCCGTGGTCCGCGTTGGCCAGCTGGCCTACGAGTTCCGCCAAAAGTTCCACAAGGACGTCGTCATTGACATGGTCTGCTACCGGCGCCGGGGCCACAACGAGGGCGACGATCCCTCGATGACCCAGCCGCTCATGTACAACCTCATCGAAGCGAAGCGTTCGGTCCGCAAGCTTTACACCGAGTCCCTGATCGGCCGTGGTGACATCACTGAGGAAGAAGCAGAGCAGCTGCTGCGCGACTACCAGGAACGCCTGGAGCGTGTCTTCGCCGAGACGCACGCGGCGCAGACCTCGCCGATTCCGATCATTACCGCTGACTCCTCGGCAGTATCGGACCTCGAGAGGCCGCAGGCCCAGCAGTCGGACTCTGGCATTAACGCCCCCGTCTCCACGGCGATCTCCGCGGACACGCTGGCCCGCATCGGCAAAGCCCACCTGGAGATCCCGGATGGCTTCACCGTGCACGCCAAGCTCAAGCAACTGCTCGAGAAGCGTGAGCAGATGTCCCGCGAGGGCAGCATTGACTGGGGCTTCGGCGAAATCGCGGCGTTCGGCTCGCTCATCTTGGAAGGCGTACCCGTGCGCCTCGCCGGCCAGGACTCGCGCCGCGGTACTTTTGTGCAGCGCCACGCCGTGTTCCACGACCGTGCCAACGGCAACGAGTGGCTGCCTCTGGGCAACCTCTCCGACAGCCAGGCGAAGCTGTGGATCTACGACTCCCTGCTGTCCGAATACGCGGCCATGGGCTTCGAGTACGGCTACTCCGTGGAGCGTCCCGATGCCCTTGTGCTCTGGGAAGCCCAGTTCGGCGACTTCGTCAACGGCGCACAGACCATCATCGATGAGTTCATTTCCTCCGCCGAGCAGAAGTGGGGCCAGCGCTCGTCACTGGTGCTGATGCTGCCGCACGGCTACGAAGGACAGGGCCCGGACCACTCGTCCGCACGGATTGAGCGTTTCCTGCAGATGTGCGCCGAGGAAAACATGATCGTCGCCAACCCCACGACGGCCGCTTCGCACTTCCACCTGCTGCGCCGCCAGGCCTACAGCCGGCCGCGGAAGCCGCTCATCATCTTCACACCCAAGCAGCTGCTGCGCCTCAAGGCTGCCGCGTCCGCGGTGGAGGACTTCACCACGGGCGGATTCCGCCCCGTCATCGGTGAACACGAGCAGCTGCAGGCGGACGCCGTCGAACGCGTTCTGCTTGTCTCCGGGCGCCTTTACTACGACCTGCTGTCCACCCGGCAGAAGACAGGCGACAAGACGACGGCGATCATCCGCGTCGAGCAGCTTTACCCGCTGCCCGACGAGGAGATCGCAGCCGAGCTGGCGAAGTACCCGAACGCCGAAGTGGTCTGGGCGCAGGACGAACCTGCGAACCAGGGCCCGTGGCCGTACATGGGCTTGAACCTCCCGCAGGCGCTGGACCGTAAGATCCGGCTCGTGTCACGGCCGGCTTCGGCCTCCACTGCGGCAGGCTCCATGAAGCGCCACGCTGCCGAGCAGGATACGCTCCTGAAGCAGGCATTCGCGCGCAAGTAG	MPEQPSHRLPEEFGGNEWLVDELYERYQQDKNTVDAKWWPLFESFDSGNGPSSNGAPSTANTQAHPPTREMPLVAPPAPAKAPASAAQAPAAPQAPSPAVAAPAAPAEPAKKAPATVARDGAKKTEAGTGAQPIPAQLPKNVKAPTAPEEDVVSVLRGPAKAIATNMVTSLEVPTATSVRAIPAKLLIDNRVVINSNLARARGGKVSFTHLIGYAVIRALSQFPSMNVYYDEVDGKPVAVQPAHVNFGIAIDMPKPDGTRLLMVPNIKKAETLNFSEFWHTYEDLIKRARNGKLTAEDHQGTTVSLTNPGGIGTVHSVPRLSKGQAAIIGVGALDYPAEFQGASEKIIAHNAISKVLTLTSTYDHRVIQGAGSGEFLKLVHSLLLGAQNFYDEIFESLRIPYEPVRWSADLQIDPSDQINKVARIQQLIHSYRVRGHLMADTDPLEYVQRKHPDLDVLTYGLTLWDLDREWPTGGFGGKPQLKFRDILGVLRDAYCRTTGIEYMHIQEPAERKWFQDQLEHPYSKPSRDEQLRIVSKLNAAEAFETFLQTKFVGQKRFSLEGGESLIPLLDSIISDAADDGLDEVAIGMAHRGRLNVLTNIAGKTYAQVFREFEGTQDPRSVQGSGDVKYHLGTEGTFTSDNGNETKVYLAANPSHLEAVDPVLEGIVRAKQDRLDQGEAFPVLPIMVHGDAAFAGQGVVAETLNLSQLRGYRTGGTIHVVVNNQVGFTTAPSSSRSSTYSTDVAKMIQAPVFHVNGDDPEAVVRVGQLAYEFRQKFHKDVVIDMVCYRRRGHNEGDDPSMTQPLMYNLIEAKRSVRKLYTESLIGRGDITEEEAEQLLRDYQERLERVFAETHAAQTSPIPIITADSSAVSDLERPQAQQSDSGINAPVSTAISADTLARIGKAHLEIPDGFTVHAKLKQLLEKREQMSREGSIDWGFGEIAAFGSLILEGVPVRLAGQDSRRGTFVQRHAVFHDRANGNEWLPLGNLSDSQAKLWIYDSLLSEYAAMGFEYGYSVERPDALVLWEAQFGDFVNGAQTIIDEFISSAEQKWGQRSSLVLMLPHGYEGQGPDHSSARIERFLQMCAEENMIVANPTTAASHFHLLRRQAYSRPRKPLIIFTPKQLLRLKAAASAVEDFTTGGFRPVIGEHEQLQADAVERVLLVSGRLYYDLLSTRQKTGDKTTAIIRVEQLYPLPDEEIAAELAKYPNAEVVWAQDEPANQGPWPYMGLNLPQALDRKIRLVSRPASASTAAGSMKRHAAEQDTLLKQAFARK				NA	NA	NA	NA	NA
D1-17_01424	1548			hypothetical protein	ATGGAGTGGCTTCTTGTCGGAGCAGGTTTCCTGCTCATTCTCGGCACCGGTTTCTTCGTAGCTGTCGAGTTTTCACTGATTGCCCTTGACCAACCAACAGTGCAACGCGCGGTGGACGACGGCGACACAGCCGCGGTCCCGCTGCTCAAATGCCTGAAGTCGTTGTCCACGCAGTTGTCCAGCTGTCAGCTGGGCATCACAATGACAACCCTGCTGACCGGCTACGTGATGGAGCCATCGGTCGGCGCGCTGATCCATGCGCCGCTGGCTGCCGTCGGGCTTCCCGAGGCCGTTGCGAAGTCTGTTTCGCTCATTCTCGCCATGGTGCTGGCAACGCTGCTGTCGATGCTGCTCGGCGAACTGGTTCCGAAAAACATGGCGATTGCCCTGTCCTTCCGCATTGGCCGGGCGCTGGCGCGTCCGCAGCTCATGTTTACGGCGATCTTCAAGCCCGCCATCATCCTTCTCAATGGCTTCTCGAACAGGGTGCTCAACGTCTTCGGCCTCGAAGCTAAAGAGGAGATATCCGGAGCACGGACCCCGGCGGAGCTCGCTTCCCTCGTGCGGCGGTCGGCCGCCATGGGCACCCTGGATCCGGGCACGGCAAACTTCATCTCGCGGACGTTGAACTTCTCGGGGAGGACTGCTGCCGATGTGATGACTCCGCGCATCCGGGTCGAGACCATCGACGCCGACCAGCCCGTTTCGGACATTCTCGACGCCGCCCGGCGCACCGGCTATTCGCGTTTTCCGGTGATCGGTGATTCTGCCGATGACATCCGAGGGCTCGTCCATGTCAAGAAGGCGATTGCCGTGCCAGGGGAGCGGCGGCCTAACCTTGAGGCCGGGGCGATCATGACCGATGTTCTCCGCGTCCCGGAAACCATCCACCTCGACGCGTTGCTGGCCGAGCTTAGGGAAGGCAACCTGCAGCTGGCAGTGGTGCTTGACGAGTACGGCGGAACTGCCGGCATCGCCACCCTGGAGGACCTTGTCGAGGAGATCGTCGGAGAAGTGGCCGACGAGCACGACAGGGTTCGCCCGGGACTCCTGCAAAGCGCCTCCGGCGACTGGTATTTCCCTGGCCTCCTCCGGCCCGATGAACTCTCTGAACAGATACCCGGCCTCACCGTTCCCGATGAGGCGGCCTACGAAACGGTGGGCGGCTACGTCATGAGTGAGCTTGGGCGCATCCCCGCGGTGGGAGACACCGTGGATGTCGGGGGCGGAACGCTGACCGTGACCCGGATGGACGGGCGCCGGGTAGACAGGATCTGCTACAAGCCGGACCGCGGGGAGGCGGTTTATGGCTCCATTCCCACTGGGGCCGGAAATGCCAAGACCGGAAGTGCCAAGACGGGAAGCAATAAGCCCGGAAACGGAAAGCCGGGAAACGGAAAGCCGGGAAACGGAAAGCCGGGAAACGGAAAGCCGGTAAACGGCGCCAAGCCGAGGGCGAAGCAGAGGAACGGCGGCCCGGAAAATCTGGAAGCCGGATCGGTGGGGCCGGAAGATGCCGGCTCCCGGAAGGCGGTGCGGCATGAGTGA	MEWLLVGAGFLLILGTGFFVAVEFSLIALDQPTVQRAVDDGDTAAVPLLKCLKSLSTQLSSCQLGITMTTLLTGYVMEPSVGALIHAPLAAVGLPEAVAKSVSLILAMVLATLLSMLLGELVPKNMAIALSFRIGRALARPQLMFTAIFKPAIILLNGFSNRVLNVFGLEAKEEISGARTPAELASLVRRSAAMGTLDPGTANFISRTLNFSGRTAADVMTPRIRVETIDADQPVSDILDAARRTGYSRFPVIGDSADDIRGLVHVKKAIAVPGERRPNLEAGAIMTDVLRVPETIHLDALLAELREGNLQLAVVLDEYGGTAGIATLEDLVEEIVGEVADEHDRVRPGLLQSASGDWYFPGLLRPDELSEQIPGLTVPDEAAYETVGGYVMSELGRIPAVGDTVDVGGGTLTVTRMDGRRVDRICYKPDRGEAVYGSIPTGAGNAKTGSAKTGSNKPGNGKPGNGKPGNGKPGNGKPVNGAKPRAKQRNGGPENLEAGSVGPEDAGSRKAVRHE				NA	NA	NA	NA	NA
D1-17_01425	1071		COG1253	putative protein	ATGAGTGACTGGGCCGGAATTGTGTGGCTGGTGCTGCTGCTGATGGGCAACGCCTTTTTCGTGGCGGCTGAGTTCGCCGTGATGTCGGCGCGCCGCAGCCAGATTGAACCCTTGGCTGAGGCTGGCTCCGGACGTGCCCAGACCACGCTGCGGGCCATGGAGAACGTCTCGCTGATGCTGGCATGTGCCCAGTTGGGCATCACCGTCTGCTCACTGCTGATCCTGCTGGTTGCCGAACCGGCAATCCATCACCTGCTTGCTGTTCCGCTGGAAGCACTCGGCGTGCCCAAGGAGGTTGCCGACGTTGGCGCTTTCGGTATTGCGCTCATGGCCGTGACGTTCTTGCATGTGACGTTTGGAGAGATGGTCCCTAAAAACATCTCGGTGTCGGTCGCTGACAAGGCGGCCCTGGTTCTGGCGCCGCCGCTCATGTTCGTGGCGCGCATCGTGAACCCGGTGATTGTCACGCTGAACTGGTCTGCCAACCACATCCTCAAGCTGATGCGGATTGAGCCGAAGGACGAAGTGAATTCGTCCTTCACCCTCGAGGAAGTGCAGTCCATCGTGCAGGAGTCAACCCGACACGGGCTCGTAGACGACGACGCCGGCCTTATCACCGGCGCGCTCGAGTTCTCTGAGTACACCGCCGCGGACGTCATGGTTCCGCTGGAGCGCCTGGTCATGCTGAAAACCTCGGCGACACCGCTGGAGTTTGAAAAGGCGGTGAGCCGTACGGGTTTCTCCCGGTTTCCGATGGTAGACGACGACGGCATGCTGGCCGGCTACCTGCATATCAAGGATGTGCTGTCGATTCCAGAGTCCGGCTACGGGCATCCCATTGCCGAAAGCCGGATCCGGTCGCTGGCGAATCTCCCGCGGAATGCTGAAATAGAGAACGCCATGTCCGTCATGCAGCGCACGGGCTCGCACCTGGCTCGAGTCATTGGACCGGACGGCCAAACTGACGGGGTGCTGTTCCTGGAAGATGTCATCGAGCAGCTCGTGGGTGAGATCCGGGACGCAACCCAAGCCAAGGGCATCCGCCGGCTGGGCGCCGGCAACGGGGAGTAA	MSDWAGIVWLVLLLMGNAFFVAAEFAVMSARRSQIEPLAEAGSGRAQTTLRAMENVSLMLACAQLGITVCSLLILLVAEPAIHHLLAVPLEALGVPKEVADVGAFGIALMAVTFLHVTFGEMVPKNISVSVADKAALVLAPPLMFVARIVNPVIVTLNWSANHILKLMRIEPKDEVNSSFTLEEVQSIVQESTRHGLVDDDAGLITGALEFSEYTAADVMVPLERLVMLKTSATPLEFEKAVSRTGFSRFPMVDDDGMLAGYLHIKDVLSIPESGYGHPIAESRIRSLANLPRNAEIENAMSVMQRTGSHLARVIGPDGQTDGVLFLEDVIEQLVGEIRDATQAKGIRRLGAGNGE				NA	NA	NA	NA	NA
D1-17_01426	468			hypothetical protein	ATGCCACACGGCGCCAGCGCTGACGGCAGGCCGCTGACCCCGCTGGTTGCGGCCGGCGGCAAAGAGCAACGGGTCACGAAGCAGCGGCTTGCGGTAAGTGCCGCGCTGGATGAGCTTCATGACTTCGTCAGCACGCAGGAACTGTACCGGATCCTGCAGAACCAGGGTGTCTCCGTTTCCCTGGCCACGGCCTACCGTATTCTGCAGTCCCTCGCCGATGAAGGCCTTGTGGATGTGCTGCGCAACGGCGACGGGGAAGCCGTCTACCGCCGCTGCGCCGTCACCGGCCATCACCATCATCTCCTCTGCCGCAGCTGCGGCAAGGCGGTGGAAGTCGAAGCCCCCGCCGTGGAAACGTGGGCGGCGCGGACGGCCCAGGAGCACGGTTTCACTGAGGTGGCGCACACTGTCGAGATTTACGGACTGTGCCCTGCCTGTGCGGCCCGGCAAGCCGGCACCGGGAAGTAG	MPHGASADGRPLTPLVAAGGKEQRVTKQRLAVSAALDELHDFVSTQELYRILQNQGVSVSLATAYRILQSLADEGLVDVLRNGDGEAVYRRCAVTGHHHHLLCRSCGKAVEVEAPAVETWAARTAQEHGFTEVAHTVEIYGLCPACAARQAGTGK	PGPT0003880_1184	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
D1-17_01427	672			hypothetical protein	ATGAAGCTGACTAAGTACACGCACGCCTGCATCCGCCTCGACAAGAACGGCGGCGAAAAGCACGGCGGCGCCCTTGTGATTGATCCTGGAACGTTCTCGGAGTCGGCCGAGGCTTTGGACGGTGCACGGGCGGTCCTGGTGACGCACGAACACCACGACCACGTCGATGTGGCGGCTGTGAAGTCCGCTCTTATTCAGAACCGTGAACTGGAGCTGTTCGCGCCGCTGGGAGTGGCCGACACAATGCGCAGGGAAGCAGCCGATGCCTTGTCGCGCATCCACACCGTGGAGCCCGGAACGTCGTTCGAGGCTGCCGGGTTCGATGTGAGAAGCTTCGGCGGGCAACACGCCCTGATCCACCCGCACATCCCCTTGGTTGCCAACATCGGCTATCTCGTGGACGGCAACGTGTACCACCCCGGGGACTCGTTCATCATTCCGGACGGCATCAGCGTCCAAACCCTGCTGGTGCCCGTGCACGCACCATGGAACAAGGTCAGCGAAGTGGTGGATTTCGTCATTGGAGTCCGCGCGCCCCGGGCGTTCCCCATCCATGACGCGCTGCTCAACAGCGCCGGCCTTGAGCTGGTGGAAGGCCATGTCAGGCGCCTCGGCGCAAAGTACGGTACGGCGTACGAGCACCTGGCAGCGCGGGAGTCCGTAGACCTCTGA	MKLTKYTHACIRLDKNGGEKHGGALVIDPGTFSESAEALDGARAVLVTHEHHDHVDVAAVKSALIQNRELELFAPLGVADTMRREAADALSRIHTVEPGTSFEAAGFDVRSFGGQHALIHPHIPLVANIGYLVDGNVYHPGDSFIIPDGISVQTLLVPVHAPWNKVSEVVDFVIGVRAPRAFPIHDALLNSAGLELVEGHVRRLGAKYGTAYEHLAARESVDL				NA	NA	NA	NA	NA
D1-17_01428	1083	sbnA		N-(2-amino-2-carboxyethyl)-L-glutamate synthase	GTGAATGGAGCAGGAAACCGTGACCGGACGTGGGCTGATGAAGCCATCCGCAAAATCGACGCGGAGAACAACAGATCGGCGGACACCCACCTGTATTCTGTACCGCTGCCCGAGCACTGGGGCGTCCAGCTGTACCTCAAGGACGAGTCCACCCACCGCTCCGGGAGCCTGAAGCACCGGCTGGCCCGGTCGCTCTTCCTGTTTGGACTGGTCAACGGCTGGATCAGGGAAGGCACCACGATTGTGGAGGCCTCCAGCGGCAGTACTGCAATTTCTGAAGCCTACTTTGCGCAGCTGCTGGGCCTGCCCTTCATCGCGGTCATGACCCGCACCACGAGCCCGGAAAAGATCGCCCTAATAGAACAGTTCGGCGGCGCCTGCCTCCTGGTGGACCACGCATCCGAGGTCTATGCGGCAGCAGCGGAGGTGGCCACCACCAGCAACGGCCACTACATGGACCAGTTCACCTATGCAGAGCGGGCAACTGACTGGCGGGGCAACAACAACATCGCCGAATCCATCTTCGGCCAGCTCGCCCAGGAGGATCACCCGATCCCCCGGTGGATCGTGGTTGGAGCGGGCACGGGCGGGACCAGCGCCACGATCGGCCGGTACCTCCGGTACCGCCGCCATAAAACCCAACTGACCGTCGTGGACCCCGAAAACTCGGCCTTCTATCCGGGCTGGCAGAGCGGCGCAGCCGGCTTCAACACCGGCCGCCCTTCCCGGATCGAGGGCATCGGACGGCCCCGCATGGAGCCTAGTTTCGTACCGTCAGTGATCGACCGCATGGTCCAGGTGCCGGACGCGGCGTCAGTTGCCGCCATGCGGCACCTGTACACTTTGGCGGGACTCCATGCAGGACCTTCCACCGGCACCAACCTGTGGGGCGTCTGGCAGTTGATCGCGGAGATGATTGCCCAAGGCCAGCGGGGAAGCGTGGTTTCGCTGATGTGCGACGGCGGCGACCGGTACGCGGGCAGCTATTACAGTGAGCCGTGGCTGGCAGCGCAGGGGCTGGATCCCCGCCGCCACGAGGACACCATCAGAGTGTTTTTCAATTCGGGCGCGTGGGAACCGTAG	MNGAGNRDRTWADEAIRKIDAENNRSADTHLYSVPLPEHWGVQLYLKDESTHRSGSLKHRLARSLFLFGLVNGWIREGTTIVEASSGSTAISEAYFAQLLGLPFIAVMTRTTSPEKIALIEQFGGACLLVDHASEVYAAAAEVATTSNGHYMDQFTYAERATDWRGNNNIAESIFGQLAQEDHPIPRWIVVGAGTGGTSATIGRYLRYRRHKTQLTVVDPENSAFYPGWQSGAAGFNTGRPSRIEGIGRPRMEPSFVPSVIDRMVQVPDAASVAAMRHLYTLAGLHAGPSTGTNLWGVWQLIAEMIAQGQRGSVVSLMCDGGDRYAGSYYSEPWLAAQGLDPRRHEDTIRVFFNSGAWEP	PGPT0002810_1288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
D1-17_01429	855	sseB	COG2897	Putative thiosulfate sulfurtransferase SseB	GTGGATCCGCTCATGGACGTGCCCACCCTCAACGCCCGGATGGAGTCCGGCCAGCGAACTGTGCTGCTGGACGTGCGCTGGTCGTTGGGCGACCCCGAGGGCCGCGCGCACTACCTTGAGGCGCATGTCCCGGGCGCAGTGTACGTTGACTTGCCGACGGAGCTGGCGGCTCCGGGGGAGCCGGGCCGTGGCCGGCACCCTTTGCCGGCCCTGCCCGCGTTCCAGGCTGCCGCCCGCCGCTGGGGGATCTGTGTCGGTGACACCGTGGTTGCCTATGACGACGCCGGCAGTACTTCTGCCGCCCGCGTCTGGTGGATGCTCCGGAACGCCGGCTTCCGCAATGTCTGCCTGCTCGACGGCGGCCTGGCCGCCTGGCGTCGGGCGGGGCTGCCGCTGCGCTCCGGCGCGGAGGAAGCGGCCCCTGGAGATGTTGTTTTCACCGACAACGGCATGGGCACCATCACTGCGGCGGAAGCGGGCGAATGGGCAGAACACGGCGTACTGCTCGATGCGCGTGCCGGAGAACGTTACCGGGGCGAGATAGAACCGGTGGACCCCCGCGCGGGCCACATCCCCGGTGCCGTCAGCGCCCCCACCACCGAAAATCTCGACCGCGATGGGCGTTTTTTGCCCGTGCAGGAGCTGCGGCGCCGTTTCGCACGTTTGGGCGCGGATGCCGAAACCCCGACGGCGGTCTACTGCGGTTCGGGTGTCACAGCCGCCCACCAGATCGCGGCACTTGAAATAGCGGGAATCCCGGCATCCCTTTTTCCAGGGTCCTTCTCAGAATGGTCCAATGACCCGTCATGGCCCGTCGCGACAGGCCCTGCGCCGGATGGAGCACCTGCACCCTAA	MDPLMDVPTLNARMESGQRTVLLDVRWSLGDPEGRAHYLEAHVPGAVYVDLPTELAAPGEPGRGRHPLPALPAFQAAARRWGICVGDTVVAYDDAGSTSAARVWWMLRNAGFRNVCLLDGGLAAWRRAGLPLRSGAEEAAPGDVVFTDNGMGTITAAEAGEWAEHGVLLDARAGERYRGEIEPVDPRAGHIPGAVSAPTTENLDRDGRFLPVQELRRRFARLGADAETPTAVYCGSGVTAAHQIAALEIAGIPASLFPGSFSEWSNDPSWPVATGPAPDGAPAP	PGPT0002045_4126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
D1-17_01430	1173	yahK	COG1064	Aldehyde reductase YahK	GTGCCGCCGCCCCTTGCCCTCCGCATTCCGCCAGCTGACGACAGTGCGCCAGCCCAAGACACAGCGCAGCACCTGGCACCCGGGCAGGCCGGGGAAGGACTGCTCGCCGCCGCCCGCGGCGCCGTCTCGAGCGCCAGCGGTCTGGTGCCGTTGACCATTGCGCGTCGCGCGCCGAAGGCGGATGACGTGGAAATTTCCGTCGAGTTCTGCGGCCTGTGCCATTCGGACGTGCATGCCACGCGCGGGGAATGGGGCATGCAGAACTACCCGCTGGTCCCCGGTCACGAAATCGTTGGCCGGGTCAGCCGTGTCGGTGCTCATGTAGATGACTTCGCCCCGGGCGACCTCGTGGGAGTCGGCTGCATCGTCGACTCCTGCCGGGAATGTGGGAGCTGTCTGGAGGGATTGGAGCAGTACTGCGAGCAGGGCATGACGGGCACCTACGGCGCCAAGGACCGCAGGAACGCAGATGCCGTCACCCAGGGCGGCTACGCGTCCTCTGTTGTGGTGGACCGCCGCTACGTCCTGCACGTGCCGGAAACCCTCGACCCGGCTGCGGTGGCACCGCTGCTGTGCGCCGGCATCACCACCTTTTCCCCGCTCCGCCATTTCGGCGTCGAAGAAGGGGACGTGGTGGGTGTCGTAGGACTCGGCGGCCTAGGCCACATGGCCGTCAAGCTGGCCAAGGCGATGGGCGCCACGGTCAAGGTCTTCACCACCTCCGAATCGAAGGTCTCAGCTGCGCTGGAACTGGGGGCTGACGCCGTCGTCCTCTCCCGGGATGGGGAGGCGATGGCCGCTGAGAACCGCAGCATCGACGTGATCATCGATACGGTGGCTGCCCCGCATGACCTCAATCCGTACTTCAAAACTCTGCGCCGCGACGGGGCACTCTTCCAGCTGGGCCTGCCCTCCGAGGCAATGCCGCCCGTCAACCCCGGGGCGCTGATTAGGCGGCGGATTTCCTACGCCGGTTCCCTGATCGGCGGAATCGCTGAAACCCAGGAAATGCTGGAATTTTGTGCCGAGCATGGCGTCGTTTCGGACATCGAACTGGTCGGAGCCGGGCAGCTCAACGAGGCCTATGACCGGATGGTCGCAGGTGATGTGAAGTACCGTTTTGTCTTGGATACCACCACACTGCAGGCACCGTCGGAAAGGGCTGACGCATGA	MPPPLALRIPPADDSAPAQDTAQHLAPGQAGEGLLAAARGAVSSASGLVPLTIARRAPKADDVEISVEFCGLCHSDVHATRGEWGMQNYPLVPGHEIVGRVSRVGAHVDDFAPGDLVGVGCIVDSCRECGSCLEGLEQYCEQGMTGTYGAKDRRNADAVTQGGYASSVVVDRRYVLHVPETLDPAAVAPLLCAGITTFSPLRHFGVEEGDVVGVVGLGGLGHMAVKLAKAMGATVKVFTTSESKVSAALELGADAVVLSRDGEAMAAENRSIDVIIDTVAAPHDLNPYFKTLRRDGALFQLGLPSEAMPPVNPGALIRRRISYAGSLIGGIAETQEMLEFCAEHGVVSDIELVGAGQLNEAYDRMVAGDVKYRFVLDTTTLQAPSERADA	PGPT0024430_62	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
D1-17_01431	429		COG0537	putative HIT-like protein	ATGAGCACGCTGTTCACCAAGATTCTCAATGGAGAGATACCCGGCCGGTTTGTCTGGCGGGAGCCTGATGTGTCGGCGTTCCTGACCATGGGGCCGTTGGCCGACGGGCACACGCTCGTCGTTCCTACCGAGGAGGTGGACCGCTGGACTGATGCTTCGCCCGAGACGCTGGCCAAGGTGATGGAGGTGGCCCGCCGTATCGGCGCGGTCCAGGTGGAGACGTTCGGATCTGCGCGGGCCGGCCTTATCGTGGCCGGCTACGAGATCAACCACATGCACGTTCACGTGTGGCCCTCCAACAGCATGGCGGAGTTCGACTTTTCCACGGCTGACCACAACCCGGATCCGGCCAGGCTCGATGCGAACGCGGAAAAGCTCCGCGCCGGGCTCCGCGACGCCGGTTACGGGGAGTTCGTGCCGGAGAGCTGA	MSTLFTKILNGEIPGRFVWREPDVSAFLTMGPLADGHTLVVPTEEVDRWTDASPETLAKVMEVARRIGAVQVETFGSARAGLIVAGYEINHMHVHVWPSNSMAEFDFSTADHNPDPARLDANAEKLRAGLRDAGYGEFVPES				NA	NA	NA	NA	NA
D1-17_01432	3954			hypothetical protein	ATGACTTTTCACATCTCCTACCCCGCCGAGCTGCCGGTATCCGAGCGCCGCGAGGACCTGATGGCCGCCATCGCTGCCAACCAGGTGACCATCATCGCCGGTGAGACCGGTTCCGGAAAGACCACGCAGATCCCTAAGATGTGTCTGGAACTGGGGCTCGGCGAGAACGGCCTGATCGGCCACACGCAGCCGCGGCGCCTGGCCGCAAGGACCGTGGCCGAACGCATCGCCTCCGAACTGGGCGTGGAGATCGGCCAGGAAGTAGGCTTCCAGGTCCGCTTCACCGGCGAAGTGAGCAAGTCCACCAAGGTCAAGCTCATGACGGACGGCATCCTGCTGGCAGAAATCCAGCGCGACAAGCTGCTCCGTAGGTACAACGCGATCATCATCGATGAGGCCCATGAACGCAGCCTCAACATCGACTTCATCCTCGGCTACCTCAAACGCATCCTGCCGCAGCGGCCGGACCTGAAGGTGATCATCACGTCCGCCACCATCGATCCCGAGCGCTTCGCGAAGCACTTTGGTGCGGAAGACGGGCCGTCTCCAATCGTTGAGGTGTCCGGCCGCACCTTCCCGGTGGAAATCCGGTACCGGCCGCTGTCCCAGCCAGCCGGCGGCGCGGCTGCCGGTGATGAAGAAGACAACTCCTCGGACGACGAACTCGAGGAAGACCGGGATCCGCTGGACGCGGTGTGCGACGCCGTCGACGAACTCGCCCAGGAGGCCCCGGGCGACATCCTCATCTTCTTCTCCGGCGAGCGGGAAATCCGCGACGCCGCCGAGGCCTTGAACGCCCGGATCCAGTCCAACCGGCGGCTGGCCGGCACCGAGGTCCTGCCGCTCTTTGCCCGGCTGAGCCTGCAGGAACAGCACCGCGTCTTCAACCCGGGCGGCAAACGGCGGATTGTGCTGGCCACCAACGTGGCCGAGACCTCCCTGACCGTGCCGGGCATCAAGTACGTCATCGACACCGGAACCGCGCGTATCTCGCGCTACTCACACCGCACGAAAGTCCAGCGGCTTCCGATCGAGCGGGTGTCCCAGGCCTCAGCCAACCAGCGTTCGGGCCGCTGCGGCCGTGTTTCCGACGGCATCGCCATCCGCCTCTACTCAGAAGAAGACTTCGAGTCCAGGCCGCTGTACACGGATCCGGAAATCCTGCGCACCAACCTTGCCGCGGTCATCCTGCAGATGACGGCCATGGGCGTGGCCCGCGGCCCCAAGGACATTGAGACCTTTCCGTTCGTGGAGCCGCCGGATTCACGGGCGATCAACGACGGCGTGGCCCTCCTCAGGGAGCTGGGCGCCTTGAGCACTCCGCAGGCCGCCAATACCGCCGGCAAGGGTGAGGGCCGCAACGGCGGCGGGCTCACTGCCGTCGGACAGAAGCTTGCCCAGCTGCCCGTGGATCCGCGGCTTGGGCGCATGATCGTGGAAGCCGGCAGGCGCGGCTGTGTCCGTGAGGTCATGATCCTGGCAGCGGCGCTAACCATCCAGGACCCGCGCGAACGCCCAACCGATAAACAGCAGCTGGCCGCGGAGAAGCACGCCCGCTTCCGGGACGAGAACTCCGACTTCACCGGCTACCTGAACCTCTGGAACTACATCCACGAGAAGCAGCAGGAGCTCTCCTCCACGCAGTTCCGCCGCCTGTGCCGGAACGAATTCATCAACTACCTGCGCGTCCGCGAGTGGCAGGACCTGTTCGCGCAGCTCCGGCAGCTGGCCCGCCCGCTGGGCATCAGTCTGGACAACAAGCGGCAGGCAGACCCCGTGGGAAACCATGAAGGCGTGCACATCAGCCTGCTCTCCGGGCTGCTGAGCCACATCGGCATCCTGGACGAGCGGAAGCGGGAATACGCCGGAGCCCGCGGGACCCGCTTCGCCATCTTCCCCGGGTCGGCCCTGTTCAAGAAGGCCCCGACGTTCGTCATGGCCGCCGAACTCGTGGAGACCAGCCGGCTTTGGGCGCGCGTGGCTGCCAGGTTCGAGCCGGCCTGGGCCGAACAGGTGGCGCCGCACCTGATCAAGCGCAGCTACAGTGAACCCCACTGGTCCAGCAAGATGGGCGCGGTCATGGCCTACGAAAAGGTCACCCTCTACGGCGTCCCGGTCATCGCCCAGCGCCGGATCAACTATGGCAAGGTCGATCCGGTCCTCGCCCGCGAAATGTTCATCCGGCATGCGCTGGTAGAGGGCGAATGGAAGACGCACCACAAGTTCTTCCACCGCAACCGTGCGCTGCTGGAGGAAGTTGAGGAGCTCGAAGCGAGGGTGCGCCGCCGCGGCCTGCTGGTGGACGATGAGACCCTTTTTGAGTTTTATGACGCCCGCGTGGGTAAGGACGTCGTCTCCGAGCGGCACTTCGACAAATGGTGGAAGGAAGCCCGGCAGCAGGAGCCGGCCCTGCTGGACTTTGACCAGTCACTGCTCCTGAGCGAAGACGCGGACTCGCTCGACGAGTCCGCGTATCCCAAGACGTGGCTGCACAAGGGTTTCGAGCTGCCGCTGACCTACGAATTCCATCCGGTGGCGCCCGGCTCGCCGCCCAACCCCTCCGACGGCGTTACCGCCGAAGTGCCGGTCCTGTTCCTGAACCAGCTTGAGGACACCCCTTTCCGCTGGCTGATTCCGGGCCAGCGGGTGGAACTTGTCACCGCGCTGATCAAGTCGCTGCCCAAACAGATCCGGAAAAACTTCGTGCCCGCACCCGACGTCGCCCGGCAGGCCGTGGCAGCGCTGGAGTCCGACTTCGACCCGGCCGAGGATGAGCTTGAGTCCTCCTTGGAACTCGTGCTGCGGCGTCTGCGCGGCCACATTATTCCACCGGGCTCCTGGAACTGGGAAGCTGTCCCGCAGCACCTGCGCATGAGCTTCAAAGTGGTGGACGGCAGGGGCAAAGTTCTGGATGAGGGCAAGGACCTCGAGGCGCTTCAGGAAAGGCTTGCTCCTGCCACCCGAAGGGCAATCGCGGAATCGCTGGGCGCGACGCCGGCCACTGCGGGGCCCCGCGCTGCCAAAAAGGGTGCAGGCTCCGCCGCCACGGCGACTCCTGAGGAGGGACGCCCCGCATCCCACGGATTCACCGAACGGTCGGGCCTGACCGAGTGGTCTTTTGGCACCGTCCAGCGTGAAGTCAGCGTTACGGTCAGGGGCCACACTGTTACCGGCTACCCGGGACTCGTGGACGAAGGAAAGTCAGTTGCGCTGCGGGTTTTCCAGACGGCGTCGGAACAGCAGGAAGCCATGCGCGGCGGCGTCATCCGCCTGCTGGCCCTCAGGGTGCCGTCCCCGGACCGCTACGTCCTGGAACACCTCAACAACACCGAGAAACTGACGTTCAGCCAGAACCCGCACGGATCAGTCTCCGCCTTGATAGCTGACTGCGCCCTTGCCGCGATCGACAAGCTCACTCCGGCGGAACTGCCGTGGGACCAGGCATCCTTCGACGCCCTTTATGAGCAGGTACGCGCGGATCTGATCGATACCGTCTTCAGCGTGACGGCAGTGGTGGAGCGCATTCTGGCCAGCACGCGGCGGATCGAGAAACAGCTGCAGGGCACTACGAGCCTTGCGCTCATCAGCGCGCTAAACGACATCAGGAGCCAGCTGGAGCAGCTGGTGTACCCGGGCTTTGTCGCCAAGACGGGCTACGCCCAGCTGAGCCAGCTGCCGCGGTACCTCGCGGCCATCGAAAAGCGCCTCGAGAAACTGCCGGGCAACGTGCAGCGGGACGCGCTCAGCATGGCGGCAGTGCAGCGGCTGGAGGATGAGTATGACGACGCCGTGTCCGCTCTCCTGCCGGGACGCCGGGCCGGTGCTGAACTCACCCAGGTGCGCTGGATGATAGAAGAGTTCAGGGTGAGCCTGTTCGCCGTCGAACTCGGAACCGCGTACAGCGTTTCCGAGAAGCGGATCCGGACTGCCCTGAACAAAGCCCTGGCAGGGTAG	MTFHISYPAELPVSERREDLMAAIAANQVTIIAGETGSGKTTQIPKMCLELGLGENGLIGHTQPRRLAARTVAERIASELGVEIGQEVGFQVRFTGEVSKSTKVKLMTDGILLAEIQRDKLLRRYNAIIIDEAHERSLNIDFILGYLKRILPQRPDLKVIITSATIDPERFAKHFGAEDGPSPIVEVSGRTFPVEIRYRPLSQPAGGAAAGDEEDNSSDDELEEDRDPLDAVCDAVDELAQEAPGDILIFFSGEREIRDAAEALNARIQSNRRLAGTEVLPLFARLSLQEQHRVFNPGGKRRIVLATNVAETSLTVPGIKYVIDTGTARISRYSHRTKVQRLPIERVSQASANQRSGRCGRVSDGIAIRLYSEEDFESRPLYTDPEILRTNLAAVILQMTAMGVARGPKDIETFPFVEPPDSRAINDGVALLRELGALSTPQAANTAGKGEGRNGGGLTAVGQKLAQLPVDPRLGRMIVEAGRRGCVREVMILAAALTIQDPRERPTDKQQLAAEKHARFRDENSDFTGYLNLWNYIHEKQQELSSTQFRRLCRNEFINYLRVREWQDLFAQLRQLARPLGISLDNKRQADPVGNHEGVHISLLSGLLSHIGILDERKREYAGARGTRFAIFPGSALFKKAPTFVMAAELVETSRLWARVAARFEPAWAEQVAPHLIKRSYSEPHWSSKMGAVMAYEKVTLYGVPVIAQRRINYGKVDPVLAREMFIRHALVEGEWKTHHKFFHRNRALLEEVEELEARVRRRGLLVDDETLFEFYDARVGKDVVSERHFDKWWKEARQQEPALLDFDQSLLLSEDADSLDESAYPKTWLHKGFELPLTYEFHPVAPGSPPNPSDGVTAEVPVLFLNQLEDTPFRWLIPGQRVELVTALIKSLPKQIRKNFVPAPDVARQAVAALESDFDPAEDELESSLELVLRRLRGHIIPPGSWNWEAVPQHLRMSFKVVDGRGKVLDEGKDLEALQERLAPATRRAIAESLGATPATAGPRAAKKGAGSAATATPEEGRPASHGFTERSGLTEWSFGTVQREVSVTVRGHTVTGYPGLVDEGKSVALRVFQTASEQQEAMRGGVIRLLALRVPSPDRYVLEHLNNTEKLTFSQNPHGSVSALIADCALAAIDKLTPAELPWDQASFDALYEQVRADLIDTVFSVTAVVERILASTRRIEKQLQGTTSLALISALNDIRSQLEQLVYPGFVAKTGYAQLSQLPRYLAAIEKRLEKLPGNVQRDALSMAAVQRLEDEYDDAVSALLPGRRAGAELTQVRWMIEEFRVSLFAVELGTAYSVSEKRIRTALNKALAG				NA	NA	NA	NA	NA
D1-17_01433	582			hypothetical protein	GTGCGCCGATCGGGAAAAGGCCGCGCCAGTCGGAACGCCGGCCGCCTCACCGAACGCGGAGCCCAGCACCATCGGCTCCAGATGGGCAAGGGCTGGCTGCATCTGGCCATGGACCGGGTGGAAGAGGCCAGGGCGGAATTGGCCGGGGCGGTCCCTACAGAGTTCGCGCACGGTTCGCAGCGCATCTCTCTCTGGGCACAGGCATGGCTGGCCAGGGCCGACTTCGCCCTTGGCTCCTGGGACGATGCGCTGCGGACCGTCCAGCCTGCCCTGGCGATGCAGGAGGAGTCGGGCATCGAACTGTTGCGGCCGCTGCTCCACTGGACCGGAGCCCAGATCCAGGCCCTTCGCGGGAACTGGCACGCGGCTGCCGACCATCTGGAACTGGGCGCTGCGTCGCACGACCTTACGGAACAGGAAAAGGCGGTGGCGGCCCTTGTTGCGTCAGGCCTGAGCAACAAGGAGGCGGCGGCTGAGCTGTACGTGTCGGTCAAGACCGTCCAGTACCACCTGACCCGGATCTACGCGAAGCTTGGCGTGACGTCCCGTTCGGGTCTCGCGGCCATCTACCCCGGCAGGTAA	MRRSGKGRASRNAGRLTERGAQHHRLQMGKGWLHLAMDRVEEARAELAGAVPTEFAHGSQRISLWAQAWLARADFALGSWDDALRTVQPALAMQEESGIELLRPLLHWTGAQIQALRGNWHAAADHLELGAASHDLTEQEKAVAALVASGLSNKEAAAELYVSVKTVQYHLTRIYAKLGVTSRSGLAAIYPGR				NA	NA	NA	NA	NA
D1-17_01434	285	catC_1	COG4829	Muconolactone Delta-isomerase	GTGCTTTTTGCAGTGTGCATGAACGTCAGCGTCCCCCGGGACATGGATCCGGTAGCCAAGGCAGAGCTGCTTGCCGCGGCGAAGGCCTACTCACAGGAGCTGCAGCGCAAGGGGGAGTGGCAGAACATCTGGCGGTGCGTGGGCGAATACGCCAACTTCAGCATCTTCGATGTCGCCGGCAACGAACGTCTGCACGAGATCCTGTGGGGACTGCCGCTGTTCCCCTATATGGAAATCGACGTTACGCCCCTGGTGCTGCATCCGTCCGACATCGCCGTCGGCTGA	MLFAVCMNVSVPRDMDPVAKAELLAAAKAYSQELQRKGEWQNIWRCVGEYANFSIFDVAGNERLHEILWGLPLFPYMEIDVTPLVLHPSDIAVG	PGPT0005045_382	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005045-catC-K03464	NA	NA
D1-17_01435	168			hypothetical protein	ATGGAAATCTTCGGAATCGCCCTTGTTGTCCTGATCCTCATCTCGGTTGCAGCCACTTTCACCGCCGTTGCCCGTGACGGGCGCGGCCACACACCCCCGGAATATTCGATCCGGGACTGGTCTGCACTCGAGCTGCCCAGCAGGAATCACACCACCCGCGCCCTCTAG	MEIFGIALVVLILISVAATFTAVARDGRGHTPPEYSIRDWSALELPSRNHTTRAL				NA	NA	NA	NA	NA
D1-17_01436	969	cdhR_2	COG4977	HTH-type transcriptional regulator CdhR	ATGCTCAGATCAGTGGCGGTCATTGCGGTTCCCAACTTTTCGATCTTTGAGTTCAGTACCGCTTTCGAGGTGTTCGGCATCGATCGGTCCGACCGCGGCACCGGCGTTCCTCAGTTTGATTTCAGGGTCTGTGCGCCGGTGCCGGGGGACATCGTCCTGAAGTCAGGCCTGAGCATGAAGATAAGCCTTGGGCTGGAGGCGGCAGCCGATGCGGACCTGGTCATCATGGCGCCCTACGGCCGGGAGGATGACGTCCCGGAGGAAGTCCTTGACGCCCTTCGGGCGGCGCACGAGCGCGGTGCCTGGGTCATGTCCATTTGCTCCGGCGCGTTTGCGCTGGCCCGGGCAGGGCTCCTGGACGGGCGCCGCTGCACGACGCATTGGCATTACTCCGGCGAGCTGGCAGCGAAGTACCCCAAGGTCCTGGTGGATGAAAATGTCCTTTACGTCCAGGACGGCCGGATCATTTCCAGCGCCGGTACGGCGGCCGGCATAGACGCCTGCCTGCATCTGGTCCGTGTGGAGTTCGGCGCGGCAGTGGCAGCTGCCATAGCCCGGGACATGGTGGTGCCTCCACACCGCGACGGCGGCCAGGCACAATTCATCGACCGGCCCATGCCCGAGTGCGGCTCACAGCCCATGGAGGACCTGCTTGAGTGGATGGTGCAGAGCCTGGATGAGGAGCACCCTGTCCACGAGCTCGCCGCAAGAGTGCATATGTCACCGAGAACGTTCGCCCGCCGTTTCCGGGCCGAGACGGGGGCCACGCCGGCGGCATGGCTCAACTCCCAGCGGGTGCTGCGGGCCCAGGAGCTGCTGGAGTCGACTGACCTGACTATTGATGAAGTCGCGCGCCAGTCAGGCTTCGGCCACCCCGTGCTGCTGCGCCATCACTTCGCGAAAGTTCTGGATACCAGCCCGCAGTCCTACCGCCGGGCATTCCGCGGCCAGCTTTCTCCTGCCAGCTAG	MLRSVAVIAVPNFSIFEFSTAFEVFGIDRSDRGTGVPQFDFRVCAPVPGDIVLKSGLSMKISLGLEAAADADLVIMAPYGREDDVPEEVLDALRAAHERGAWVMSICSGAFALARAGLLDGRRCTTHWHYSGELAAKYPKVLVDENVLYVQDGRIISSAGTAAGIDACLHLVRVEFGAAVAAAIARDMVVPPHRDGGQAQFIDRPMPECGSQPMEDLLEWMVQSLDEEHPVHELAARVHMSPRTFARRFRAETGATPAAWLNSQRVLRAQELLESTDLTIDEVARQSGFGHPVLLRHHFAKVLDTSPQSYRRAFRGQLSPAS	PGPT0014658_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
D1-17_01437	306			hypothetical protein	ATGAAAATCACAGTTGAGCGCAGCGGCGGGCTTGCTGCGCTGACACGCACCTGGACAGTTCAGGCCACGACAGACACCGACAAGAGCCGCTGGCAGCCCATCGTGGAAGCCTGCCCGTGGGACGCTGTCTCCGACTCCCGGCGGGTGGCGGACGGACAGCCGGACCGGTTCATGTATTCCATCCGGGCGGGCCAGCACCGGGCCACCCTGCCCGAAAGAGCAGTGACCGGTCCGTGGCGCGTCCTCGTCGACAGGGCCCGGGCGGCCGCGGAGGAAGAGTCCCACGACGGCACCGGCCAGCCCTAG	MKITVERSGGLAALTRTWTVQATTDTDKSRWQPIVEACPWDAVSDSRRVADGQPDRFMYSIRAGQHRATLPERAVTGPWRVLVDRARAAAEEESHDGTGQP				NA	NA	NA	NA	NA
D1-17_01438	1044	prtS		Protease PrtS	ATGATCTGTTCCATCATCCCCCCGTACATGCTCAAACGACTGGCCGCACAGGACGCGCCCAGGTTCACCGCTGTCCGCAGGGCTGCAAAAGAGGCGCTGCTGCATGTGAAGACCGTGCAGGCGGCGAGGACGGCTCCTGCTCCCGAGGCGCCCCGGGGTTTGAGGCAACTGCAGCCTGCACCTGTGAACAGGTCGGTCTTCGATGCCAAGGGCGGCGAATCCCTTCCCGGCGTGCTCATACGGAAGGAAGGCGAGGCCCCAGTCGGCGACCCCGCCACCGACGAGGCCTACGACGGCCTGGGCCGCACTCACAGCCTGTACGCCGATGTCTTCGGCCGTAACTCCGTTGACGGACAGGGAATGCCCCTCAATGCCACCGTCCACTTCGGCAGACTGTATGACAACGCTTTCTGGGACGGCCAGCAGATGGTGTTCGGTGACGGTGACGGCGAGATCTTCGAACGGTTCACCCGGTCCCTCAGCGTGATCGGCCACGAACTGGCCCACGGTGTGACGCAGTATTCGGCCGGTCTGGCCTACCGGAACCAAGCCGGTGCCATCAACGAGTCGTTCTCGGATGTCTTCGGTGCCCTGGTGGAGCAGTATTACCGGAAGCAGTCCGCGGCTGAGGCCAGCTGGCTCATCGGCGAAGGTCTCTTCACTCCCCAGGTTCAAGGCTCGGCGCTCCGCTCCATGAAAGCCCCCGGAACTGCCTACGACGACGACGTGCTGGGCAAGGACCCGCAGCCTGACTCAATGGACAGCTACGTCCGTACCAGCACGGACAACGGCGGTGTCCACATCAATTCCGGCATTCCCAATCGGGCCTTCTGCCTGGCCGCCCTATCGGTCGGCGGCAATGCGTGGGAGGCACCAGGCCACATCTGGTACGAGACACTGACCGGAGGTTCCCTGCCGCCGACTGCCACTTTCAGCGTCTTCGCCAAGGCCACGGCAGCATCCGCAAAGGAACTGTTCGGGGCGGAGTCCGCAGAGCATGACGCCGTGCGCCAAGCGTGGGAAACTGTGAAGGTAAAGCTCTGA	MICSIIPPYMLKRLAAQDAPRFTAVRRAAKEALLHVKTVQAARTAPAPEAPRGLRQLQPAPVNRSVFDAKGGESLPGVLIRKEGEAPVGDPATDEAYDGLGRTHSLYADVFGRNSVDGQGMPLNATVHFGRLYDNAFWDGQQMVFGDGDGEIFERFTRSLSVIGHELAHGVTQYSAGLAYRNQAGAINESFSDVFGALVEQYYRKQSAAEASWLIGEGLFTPQVQGSALRSMKAPGTAYDDDVLGKDPQPDSMDSYVRTSTDNGGVHINSGIPNRAFCLAALSVGGNAWEAPGHIWYETLTGGSLPPTATFSVFAKATAASAKELFGAESAEHDAVRQAWETVKVKL	PGPT0020995_286	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020995-nprM-K01400	NA	NA
D1-17_01440	1563	hmp_1		Flavohemoprotein	ATGAGTTCCACCACCACACAAGCGCGGATCCCGCCCGTCAGCGCGCTGGATACCTTTCTCGGACGGTTTACCATGTACCGGCTGGTGATCCTGGTCCTTGCCGCCCTCGCCGCCTACAGCCTGGTGCTCGACGTCCTGGGCTGGCTGACGTTCGGCCTTGGCAACCTGGCAGCCCACCTCGCACTGTGCCTCGGGCTGACCTACGCTTCAAACCGTGCATTCGCGGCAGTCTTTCATGTCAGGCCGCATTCCGAATCCTCACTCATTACCGGCCTCCTGCTGTACTTCCTGTTCTGGCCCCCAGAGCTCGGCCCGGTATTTGCACCGGCTGACCTCGCCGGAGTGGCCCTGGCGTGCATCCTTGCCTCCGCGTCCAAATACGTCCTGGCCTGGCGGGGCCGCCACGTCTTCAATCCGGCGGCCGCCGGAGCCTTCATCACCGGCCTGACCGGACTGAACATCGCCACATGGTGGGCCGGTATCCCCGCCATGCTGTTGCTGCTGGTTCCTGGGGTGCTGGCCGTGGTGTACCGGACCAGGAAAATGCTCATGGCCTTAGTGTTCACCGTGGTGGCCACGTCCATTGCCGCCGGCACCACGCTGCTGGAACCGGGAGCCGACTTGGGCACGGCCGTGTGGCAGCCGCTGGCGCAGAGCCCCGTGCTCTTCTTCGCCGGGTTCATGCTCACCGAACCGTTGACACTCCCGCCGCGGCGCCGGCAGCAGCTGGTGCTGGCCGCCGTCGTCGGAATCCTTTTTGCAACCCCCTTTAACTTCGGCTTTATGGCGAACTCGCCGGAGCTGGCCCTGCTGGCCGGCAACCTGCTGGCCTTCCTGGCCGGCCAGCGCGGCGGCGTGCGGCTCCGCTTCAGCCATTCGCGCAGGCTGAGCCCAACGGCCACGGAATTCGTTTTCCGGCCGCGCCGCCCCCTTCGGCATGAGCCCGGCCAGTACGTGGAGCTGGATCTGCCGCACGGGAAATCGGACGGGAAGGGCAGGCGCCGGGTGTTCAGCCTGACAAATTCCCCGGACGCGGAGCACGTGAAGATCGGAGTCGGCACCGCCGCTCCCGTCTCCGCCGCCAAACGCCAGCTCCTGGCCCTCAAACCCGGGGAGGAGCTTACGGCTACCACGGTGGCAGGTGACTTCGTCCTGCCCACAGGATCGAATGAGCCGGTTTTGCTTATCGCTGCCGGCATCGGGATCACGCCCTTCCTCGCGCACCTTTCCAGCGGGTTGGCGGACCAGCAAGACACGGTCCTGCTCTACCTGGCAAGGAACGCCGCGGAACTCGCATATGCGGATGAGCTGGAACATTCCGGCGCGCGGATCATCGCGCGGCTGGCCGACGGGTCCAGCCCGCCGGATTTCATGGAAGATGCGGCAGCCCGCTTAAAACCGGGCGCCCGTCTGGACGGCCATTCCCTGAAGCTCCTGGTCCCGGACATCGCCGGACGCACGGTGTTCATCTCCGGCTCCCCTGCCAGCGTGGGCTTGCTGAAGCGTGCTGCCCGGCAGGCTGGAGCACGGCGGATCCGGGTCGATTCGTTCGCGGGGTACTGA	MSSTTTQARIPPVSALDTFLGRFTMYRLVILVLAALAAYSLVLDVLGWLTFGLGNLAAHLALCLGLTYASNRAFAAVFHVRPHSESSLITGLLLYFLFWPPELGPVFAPADLAGVALACILASASKYVLAWRGRHVFNPAAAGAFITGLTGLNIATWWAGIPAMLLLLVPGVLAVVYRTRKMLMALVFTVVATSIAAGTTLLEPGADLGTAVWQPLAQSPVLFFAGFMLTEPLTLPPRRRQQLVLAAVVGILFATPFNFGFMANSPELALLAGNLLAFLAGQRGGVRLRFSHSRRLSPTATEFVFRPRRPLRHEPGQYVELDLPHGKSDGKGRRRVFSLTNSPDAEHVKIGVGTAAPVSAAKRQLLALKPGEELTATTVAGDFVLPTGSNEPVLLIAAGIGITPFLAHLSSGLADQQDTVLLYLARNAAELAYADELEHSGARIIARLADGSSPPDFMEDAAARLKPGARLDGHSLKLLVPDIAGRTVFISGSPASVGLLKRAARQAGARRIRVDSFAGY	PGPT0013685_30	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
D1-17_01441	873	apbE	COG1477	FAD:protein FMN transferase	ATGCCGCACCCCGGCTGGCACGACTTCCGTTTTGACGGGATAGGCACCGCGTGGGAAATCTCCACGCCCAGGCGGTTGGAAACCGCGCAGCGCCACAGCCTGCTCACCGAGGTGGAGCGGTACGACTCGGCGTGGTCGCGGTTCCGCCGCGATTCGGTGGTGAGCAGGATGTCGGAGCGCGCGGGCCAGTTCGAGCTGCCGGCCGAATCCGCGGCCCTCGCGGACCTCTACCGTGAGCTATACAGCCTCAGTGGCGGAGCCATGACACCCCTGATCGGCCGGAGCCTGGAGCAGCTCGGCTACGACGCCGGATACTCCCTCCGGCCCCGTGGCCCCGCAGCAGCGCCGCCGGCCTGGGACGATGTCCTGGTATGGAGGGGAACCTCCGCCAGCACCACAGCGCCCGTGGTGCTGGACGTGGGGGCCGCAGGCAAGGGCCAGCTCGTGGACCTGCTGGCCGACGTGCTGCACAGCCAGGGTGTCAGCGACTTCTTCATCGATGCCAGCGGTGACCTCCTGAACTATGGAGAGGATCCTGTGACGGTGGCATTGGAACATCCCTATGACCCCAGCCGGGCGATCGGAACGATCCCGCTGGGAGCAGGTGCGCTCTGTGCCTCAGCTTCGAACCGGCGGGCTTGGGGTGACGGACTGCACCACGTCCTGGACGGGACTACCGGCAGGCCGGTAACCACAGTGGTTGCGACGTGGGCTGCGGCGCACACGGCCATGGAGGCCGATGCCCTGGCCACCGCCCTGTTCGTCGTACCCGCAGAGCAGCTGGCGTCCAGCTTCCGGTTCTCCTGGCTCAAGGTTTTTTCCAACGGCAGTGCGGAATATTCCGCGGAATTCGAAGGGGCGCTGTTTAGATGA	MPHPGWHDFRFDGIGTAWEISTPRRLETAQRHSLLTEVERYDSAWSRFRRDSVVSRMSERAGQFELPAESAALADLYRELYSLSGGAMTPLIGRSLEQLGYDAGYSLRPRGPAAAPPAWDDVLVWRGTSASTTAPVVLDVGAAGKGQLVDLLADVLHSQGVSDFFIDASGDLLNYGEDPVTVALEHPYDPSRAIGTIPLGAGALCASASNRRAWGDGLHHVLDGTTGRPVTTVVATWAAAHTAMEADALATALFVVPAEQLASSFRFSWLKVFSNGSAEYSAEFEGALFR	PGPT0000430_3908	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0000430-nosX|apbE|yojL|fmnB-K03734	NA	NA
D1-17_01442	477			hypothetical protein	GTGAACCTTTCTCCCCGCAAAAGCCTGCTCCGTAAAAGTCTCTTCGCCGGCGTGACCGGACTTTCCCTGGCTGGAACGGTGGCTGGCTGTGCGCCCTCGGCCCAGCAGTCAGCAGCACAGGAGAACCAGCCTGCAGCGACCGGCTCAGCCTCCTCGTCTTCAGCTTCGAATCCAGGGTCCGGCGCCTACAAGGACGGCACCTACAGCGCGGACGGCAACTACAGGTCGCCCAACGGCACCGAGACCGTGGGTGTACAGCTGACGCTCAGCAACGGCACCGTCTCGGCTGTGGAGATCACCCAGCATCCGTCTAACCCGAACACCCGGAGGTTTCAGGGTGAATTCGCCGGCGGCATCGCAGCACAGGTGGTGGGCAAGAGCCTGGATGAGATCAAGGTCTCCAAGGTTGCCGGTTCATCCCTGACCAGCGGCGGCTTTAACCAGGCAGTCGAAGAGATTAAGGCGCAGGCAGCCTAG	MNLSPRKSLLRKSLFAGVTGLSLAGTVAGCAPSAQQSAAQENQPAATGSASSSSASNPGSGAYKDGTYSADGNYRSPNGTETVGVQLTLSNGTVSAVEITQHPSNPNTRRFQGEFAGGIAAQVVGKSLDEIKVSKVAGSSLTSGGFNQAVEEIKAQAA				NA	NA	NA	NA	NA
D1-17_01443	1650	argS	COG0018	Arginine--tRNA ligase	GTGACTCCCGAAGAACTTTCCCTGGCCATATCCGCCTGCCTGAAAGATGCCGTTGCCGCGGGCGAAATCGCCTTGTCCGAGGCGGCCGTCCCCGAGGCCGTCCTGGTCGAGCGTCCTAAGAACCGGGAGCACGGCGACTGGGCAACGAATATCGCCTTGCAGCTGGCGAAGAAGGCCGGTACCAACCCCCGGGAGTTCGCCACCATCCTCAGCGCCCGGCTGAAGGAGATTTACGGTGTGGCGGGAGTCGAGATTGCCGGCCCGGGCTTCCTGAACATCACGGTGGATGCGGCCGCGGCAGGTGCACTCGCGAAAGCCATCGTGGAAGCCGGGCCGGAATACGGCACCAACTCGGCGCTCGCCGGCCACAAGGTCAACATGGAATTTGTGTCGGCCAACCCCACCGGGCCGCTCCACATCGGCCACACGCGGTGGGCTGCACTGGGGGATTCGATCGCGCGCGTGCTGCGGGCCTCCGGCGCGGACGTCACCGCGGAGTACTACATCAATGACGCCGGCTCGCAGATGAACGTGTTTGCCCACTCCGTGCTGGCCCGGCTGCATGGACGCGACGTGCCTGAAGGCGGCTACCCGGGCGAGTACATCCGCGACCTCGGCCACGAGGTGCTGAGCCAGCACCCGGACATCCGCGAGCTCACTGATGTAGCGGCGCTTCCCGTCATCCGGGCTGCCGCGTACGAGGCGCAGATGAAGGACATCAAGGATACGCTTGCGGACTTCGGCGTTTCCTTCGACGTCTTCTTCTCCGAACAGGAACTGCACGACGCCGGTGCCATCGAAAGTGCTGTCGCCCGCCTCCGCGAACAGGGCCACGTGTTCGACGACGGCGGCGCCGTCTGGCTCCGGACCACCGATTTTGGCGACGACAAGGATCGCGTCATGATCCGCGCGAACGGCGAGCCCACGTACTTCGCCGCCGACGCTGCCTACTACCTGTCCAAGAAGGACCGGGGCTACACGGAGAAGATCTACCTGCTCGGCGCCGACCACCACGGCTACATCCACCGGCTCAAGGCCATCGCAGCCGCTGCCGGCGACGATCCCGAGGTCAACATCGAGGTACTGATCGGCCAGCTCGTCTCGGTCAATGGCGCCAAGCTGTCCAAGCGCGCCGGCAACATCATTGAGCTCAAGGACCTGATCTCCTGGCTTGGCAAGGACGCCGTACGGTACTCACTGGCGCGGTTCCCGGCGGATTCCCCGCTCACGCTGGATCCCGAGCTGCTTAAGAAGCACAGCAACGAAAACCCCGTGTTTTACGTGCAGTACGCACATGCCCGGTCCCGCGGTGCGGCACGCAATGCCGTGGCGGCCGGTGTGGACCGCAGCGCCTTCGACGCGTCGCTGCTGCACCACGCTACCGAGAACGAGCTGCTGTCCCACCTGGGCAGCTACCCCTCCATTGTTGCCAAGGCAGCGGAGCTGAGGGAACCCCACCGGGTGGCCCGCCACCTTGAGGTCATCGCCGGGGCGTACCACCGCTGGTATGACGCCTGCCGCATCGCCCCGCTGGGCGAGGAAGCCGTCACCGACCTCAACCGCACCCGCCTGTGGCTCAACGATGCCACGAGCCAGGTGCTTGCCAACGGACTGGACCTGCTCGGCGTATCGGCGCCGGAACGGATGTGA	MTPEELSLAISACLKDAVAAGEIALSEAAVPEAVLVERPKNREHGDWATNIALQLAKKAGTNPREFATILSARLKEIYGVAGVEIAGPGFLNITVDAAAAGALAKAIVEAGPEYGTNSALAGHKVNMEFVSANPTGPLHIGHTRWAALGDSIARVLRASGADVTAEYYINDAGSQMNVFAHSVLARLHGRDVPEGGYPGEYIRDLGHEVLSQHPDIRELTDVAALPVIRAAAYEAQMKDIKDTLADFGVSFDVFFSEQELHDAGAIESAVARLREQGHVFDDGGAVWLRTTDFGDDKDRVMIRANGEPTYFAADAAYYLSKKDRGYTEKIYLLGADHHGYIHRLKAIAAAAGDDPEVNIEVLIGQLVSVNGAKLSKRAGNIIELKDLISWLGKDAVRYSLARFPADSPLTLDPELLKKHSNENPVFYVQYAHARSRGAARNAVAAGVDRSAFDASLLHHATENELLSHLGSYPSIVAKAAELREPHRVARHLEVIAGAYHRWYDACRIAPLGEEAVTDLNRTRLWLNDATSQVLANGLDLLGVSAPERM				NA	NA	NA	NA	NA
D1-17_01444	1497	lysA	COG0019	Diaminopimelate decarboxylase	ATGACCGCAGATGCTCCCATGACAGCCGCTTCACCGCTGGCGCCGGAATGGCTTGCCGTACCCGAGGACCTGAACGCGCTCCACGATTCCCTGTGGGCCGTGGGCATTGCAAGAAACTCCGGCGGTGAGCTGGCCTTGGACGGCATCCCCGTCAGCACGCTGAAGGAACAGTTCGGCACACCACTGTTTGTCATGAGCGAGACCGACTTCCGGGCCCGGGCGCGCTCCTTCAAGAACGCCTTCGACGAGGCTTTCGCCGACATCTGCGGGGGAGTGGACGTCTACTACGCCGGCAAGTCCTTCCTGTGCACAGTCGTGGCCCGCTGGGTGGCCGAAGAGGGCCTGCGCTTGGACACCTGTTCTGGCGGCGAACTCGCGGTGGCCGCCCGGGCGGGCATCGCCGGCGCTGACCTCAGCCTGCACGGCAACAACAAGTCCGACGCGGAGATCAGCCGCGCACTCGACATGAAGCTTGGCCGGATCGTCGTTGACAGCCTGGACGAGCTCGAGCGTGTGGCCAAAATTGCGTCTGCGCGCGGCGATGTAGCCAAGGTGATGCTGCGCCTGACGCCGGGCGTCCATGCGCATACGCATGAATTCATCGCCACGGCCCATGAGGATCAGAAGTTCGGACTGTCCATGGCCGGGGACTCCACCGAGCAGGCCGGTCTTTCCGCCGCCGAGGAAGCTGTCGCCGCCGCCACGGGCTATGCCAGCATCGAACTGCTGGGCCTGCACTGCCACATCGGCTCACAGATCTTCGAACCTGACGGCTTCGCCCTCGCGGCTGTGAAGCTTCTGGGCTTCCTGGCCGAGATGCAGAAGAAGTACTCCATCCGCCTTCCCGAGCTGGATCTCGGAGGCGGGTACGGCATCGCGTACACTCCGGTGGACACCCCCCGCCCGCCGGCCGAGATCGCGCAGGCGATGGCCGCCGTCGTGCGTTCACAGTGCGCCGAGCTGGGCATATCCGCGCCGCGGATCTCGATCGAACCGGGACGGGCGATTGTCGGCAGCAGCACGTTCACCCTGTACGAGGTGGGCACGCGGAAGACCGTGCGCGTTGACGCCCCGTCCGGCGGCGGCGCAGAAACCGGGGGAGAAACGGAAACAGCCGGCGAAAACGTTACGCATTCCCGGCGCTATGTGTCGGTGGACGGCGGCATGAGCGACAACGCCCGTCCGGTGCTCTACGACGCGGATTATTCCGCCATTCTCGCCTCCCGGACGTCCGGTGCCGCGCCGCAGCTGTCCCGCGTAGTGGGCAAACATTGCGAGAGCGGCGACATAGTTGTTAGAGATGTATATCTGCCCGAGGACGTGGCAGCCGGTGATCTGCTCGCTGTACCGGGTACCGGCGCCTACTGCTGGGCCCTGTCAAGCAACTACAACTATCTGGCCCGGCCGGGCGTTATCGCGGTGCGCGACGGATCTCCCCGGCTGATTGTCCGCGGGGAAACCGAAGAAGATTTGCTGAACCGCGACATGGGAGTCTGA	MTADAPMTAASPLAPEWLAVPEDLNALHDSLWAVGIARNSGGELALDGIPVSTLKEQFGTPLFVMSETDFRARARSFKNAFDEAFADICGGVDVYYAGKSFLCTVVARWVAEEGLRLDTCSGGELAVAARAGIAGADLSLHGNNKSDAEISRALDMKLGRIVVDSLDELERVAKIASARGDVAKVMLRLTPGVHAHTHEFIATAHEDQKFGLSMAGDSTEQAGLSAAEEAVAAATGYASIELLGLHCHIGSQIFEPDGFALAAVKLLGFLAEMQKKYSIRLPELDLGGGYGIAYTPVDTPRPPAEIAQAMAAVVRSQCAELGISAPRISIEPGRAIVGSSTFTLYEVGTRKTVRVDAPSGGGAETGGETETAGENVTHSRRYVSVDGGMSDNARPVLYDADYSAILASRTSGAAPQLSRVVGKHCESGDIVVRDVYLPEDVAAGDLLAVPGTGAYCWALSSNYNYLARPGVIAVRDGSPRLIVRGETEEDLLNRDMGV				NA	NA	NA	NA	NA
D1-17_01445	1317	hom	COG0460	Homoserine dehydrogenase	ATGACAGAATTGCGAACCCTGAAAGTAGCCCTGCTGGGCTGTGGCAACGTCGGGGCCCAGGTAGCGCGGATTCTCGTGGACGACGCTGACACCCTGGCTCCGCGCACCGGTGCCCGCCTGCAGCTCACCGGCATTGCCGTGCGCAACCTTGACGCCGAGCGCGAGGTGGACCTGCCGCGCGAACTGTTTACCACGGATGCCGAAACACTGGTCAAGGACGCCGACCTGGTCATCGAACTGATGGGTGGCCTCGAGCCGGCCCGTTCGTTGATCCTCACAGCCATCCAGAACGGCGCGAGCGTTGTCACAGGCAACAAGGCACTGCTGGCCGCCGACGGCCCCACCCTCTACGAAGAGGCGGACAAGGCCGGCGTCGAACTGTCCTACGAAGCCGCCGTCGCAGGAGCCATCCCGATCCTGCGCCCCATCCGCGACAGCCTGTCCGGTGACCGCATCACGCGTGTCCTGGGAATCGTCAACGGCACCACCAACTTCATCCTGGACCAGATGGACAGCACAGGGGCCCAGTTCGCTGACGCCCTTGCCGAGGCCCAGCGGCTTGGCTACGCCGAGGCCGATCCCACCGCCGACGTCGAAGGCCTGGACGCCGCGGCCAAGGCCGCCATTCTTGCCTCGCTGTCCTTCCACACACGGTTCGACCTCGCAAACGTCTACTGCGAGGGCATTACGGGTGTCACCGCTGCAGACATCGCCGCAGCCAAGGATGCCGGCTTCGTCATCAAGCTGCTCGCCATCGCCGAGCAGCTGACAGCTGCCGACGGCGGCGACGGCGTGTCTGTCCGGGTGCACCCCACGCTCCTTCCGCGGGAACACCCGCTGGCTGCCGTCCGCGGCGCCTTCAACGCTGTCTTCGTTGAAGCGGAAAATGCCGGCGAACTGATGTTCTACGGCCAGGGCGCGGGCGGCACCCCCACCGCCTCCGCCGTGCTGGGTGACCTCGTCTCCGCCGCCCGCCGGATCGTCCTGGGAGGACCCGGACGCATCGAGTCGACGACCGGCCACGTGCCGGCGCTGCCGATCTCCGCTGCGACCACCAGCTACTACATCGGCCTGGACGTGGCGGACCAGCCCGGTGTCCTGGCGAAGATCGCCCAGCTGTTCGCCGAGCACGGCGTGTCTATAGAAATCATGCGCCAGACCATCCACCGCGATGCCAACTCCAACGTGGAATCGGCTGAACTGCGGATTGTCACCCACCGCGCAAGCGAAGCTGCACTGGCAGCGACCGTCGAAGCCGTCAAGGGCCTCGACGTGATCAATTCCGTTACATCCGTACTGCGGGTAGAAGGAGCTTAA	MTELRTLKVALLGCGNVGAQVARILVDDADTLAPRTGARLQLTGIAVRNLDAEREVDLPRELFTTDAETLVKDADLVIELMGGLEPARSLILTAIQNGASVVTGNKALLAADGPTLYEEADKAGVELSYEAAVAGAIPILRPIRDSLSGDRITRVLGIVNGTTNFILDQMDSTGAQFADALAEAQRLGYAEADPTADVEGLDAAAKAAILASLSFHTRFDLANVYCEGITGVTAADIAAAKDAGFVIKLLAIAEQLTAADGGDGVSVRVHPTLLPREHPLAAVRGAFNAVFVEAENAGELMFYGQGAGGTPTASAVLGDLVSAARRIVLGGPGRIESTTGHVPALPISAATTSYYIGLDVADQPGVLAKIAQLFAEHGVSIEIMRQTIHRDANSNVESAELRIVTHRASEAALAATVEAVKGLDVINSVTSVLRVEGA	PGPT0020155_491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
D1-17_01446	1107	thrC	COG0498	Threonine synthase	GTGGCTCACCAATGGCGCGGGGTCATCCGCGAATATGCCGACCGTTTGCCCGTCACCGATAAGACCAAGGTCATCAGCCTCGGTGAGGGTGGCACGCCGCTGGTGCACGCGCAGAAGCTGTCGGAGCTCACCGGTTCCGCGGTATACCTCAAGGTCGAGGGCATGAACCCCACGGGATCCTTCAAGGACCGCGGCATGACTATGGCCATGACAGCAGCCGTGGAGTCCGGAGCCAAGGCCGTGGTCTGCGCCTCCACCGGTAACACCTCCGCGTCGGCTGCCGCCTATGCCACCGCCGCCGGCCTCAAGTGCGCAGTGCTCGTGCCGGAAGGCAAGATCTCCATGGGCAAACTCAGCCAGGCGATCGCCCACGGTGCCACGCTCCTGCAGGTGGACGGCAACTTCGACAACTGCCTGGACATCGCCCGGAAGCTTGGCGAGTCCTACCCGGTCTTCCTCGTGAACTCCGTCAACCCTGCCCGCATCCAGGGGCAGAAGACCGGCGCATTCGAGATCGTCGACGCCCTGGGCGATGCGCCGGACATCCACGTGCTGCCGGTCGGCAACGCGGGCAACATCACGGCTTACTGGAAGGGCTACAAGGAGTACTCGGCACCTTTCGAGTCAGCCACCGCCGGGACCTTGCCTGCTGTTTCCACCCGGAACCCCAGGATGTGGGGCTTCCAGGCGGCAGGAGCAGCCCCCTTCGTGGCCGGCCACCCCATCACGGAGCCGGACACAATCGCCACTGCCATCCGCATCGGCAATCCCGCGTCCTGGGACGGTGCCATCGCCGCCCGCGACGAGTCCGGCGGCTTCATCGACGCCGTGACGGATGACGAAATCCTGGCAGCCCACCGCTGGCTCTCCTCCAAGGAAGGCGTCTTCGTGGAGCCCGGTTCCGCCGCCGGCGTGGCGGGCCTGCTCAAAAAGCACGCTGCAGGCGAAGTTCCGTCGGGCAAGACCATTGTCATCACCGTCACCGGCCACGGATTGAAGGATCCCCAGTGGGCCTTGCGGACCGAGGACGGCAGTGACGTGCAGCCCGTTAAGGTGTCCAACGACGTCGTCACGGTAGCCGCAGAGCTGGGACTGGAAGACAAATAG	MAHQWRGVIREYADRLPVTDKTKVISLGEGGTPLVHAQKLSELTGSAVYLKVEGMNPTGSFKDRGMTMAMTAAVESGAKAVVCASTGNTSASAAAYATAAGLKCAVLVPEGKISMGKLSQAIAHGATLLQVDGNFDNCLDIARKLGESYPVFLVNSVNPARIQGQKTGAFEIVDALGDAPDIHVLPVGNAGNITAYWKGYKEYSAPFESATAGTLPAVSTRNPRMWGFQAAGAAPFVAGHPITEPDTIATAIRIGNPASWDGAIAARDESGGFIDAVTDDEILAAHRWLSSKEGVFVEPGSAAGVAGLLKKHAAGEVPSGKTIVITVTGHGLKDPQWALRTEDGSDVQPVKVSNDVVTVAAELGLEDK	PGPT0009175_5381	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
D1-17_01447	975	thrB	COG0083	Homoserine kinase	GTGGAAACCACGTTGCCGCAAACCGCCCAGCTGCCCGCCATCCAGGCCGGCCAGCAGGTCACTGTCCGGGTGCCCGCCACGAGCGCCAACCTTGGGCCGGGCTACGACAGCCTCGGGCTGGCACTGACACTGCACGACACCCTCACGGTGGAGAGCCTGGACAGTGGCGAGCTCGTCTTCGAGCTGAGCGGTGAAGGGGCCGACTCCCTGCCCCGGGATGCCAGCCACCTCGTGGTCCGGGCGATGGATGCGGCATTTGGACGCCTTGGTTACCGGCATAACGGACTGAAGATCACTGCGGACAACGTCGCTCCACACGGCCGCGGACTGGGTTCTTCGGCCTCCGCCGTCGTGGCTGCAGTCACAGCCGCCAACGCCCTGCTTCCCGCAGGGGAGCAGCAGGACCGGGAATGGATCCTGCAGCTGACCAGCGAAATCGAAGGGCATCCGGACAACGTCGCTCCGGCCATATTTGGCGGTCTGGCGCTGTCCTGGCAGGACAGTGACCAGTACAGCAGTACGTGTGCCACCGTGGATGCAGCCGTGATCCCTGTCGTTGCGGTCCCGGATTACGAGCTGTCAACGGAAGCGGCGCGGGCATTGCTGCCGGCTTCCGTGGGACATCATGCCGCTGCCATGAACTCCGGCCGCGCGGCGCTGCTGATCCACGCGCTGACGAACAACCCGGAGTTCCTGTTGCCCGGCACGGAGGACTTCCTTCACCAAAGCTACCGGGCAGAGGCGATGCGGCCCAGTGCGGGACTCATCCGGGGCCTGCGCAATGCCGGGCATGCCGCGGTCGTCTCGGGGGCCGGGCCCACGGTCCTGGTGCTGGCGAACGGTGAGGCGGAAGCAGCCGCAGTGCTCGAATTCATCGGTACGTTTACGGCGGAAAGCACACCGGACATCAACTGGCGTGTGATGAAGCTGGCAGTGGACGTTGAAGGTGCTAAAGTGGGAGTGCACCGGCGGTAA	METTLPQTAQLPAIQAGQQVTVRVPATSANLGPGYDSLGLALTLHDTLTVESLDSGELVFELSGEGADSLPRDASHLVVRAMDAAFGRLGYRHNGLKITADNVAPHGRGLGSSASAVVAAVTAANALLPAGEQQDREWILQLTSEIEGHPDNVAPAIFGGLALSWQDSDQYSSTCATVDAAVIPVVAVPDYELSTEAARALLPASVGHHAAAMNSGRAALLIHALTNNPEFLLPGTEDFLHQSYRAEAMRPSAGLIRGLRNAGHAAVVSGAGPTVLVLANGEAEAAAVLEFIGTFTAESTPDINWRVMKLAVDVEGAKVGVHRR	PGPT0020275_621	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
D1-17_01448	2127	rho		Transcription termination factor Rho	GTGACCGAAACCACTGAGCTGTTGCCAGCTGTGGACACATCATCTTCTGCTTCCGGATCGTTGACGGAAGCACCCGCCAAGAGCAGCGGCCTCGCCGGCCTGAAGCTCGCCCAGCTGCAGGCACTTGCCAGCCAGCTCGGAATCTCAGGCGGATCGCGCATGCGCAAGGGAGACCTTGTAGCGGCCATTTCGGCCCATCGCGCAGGTACTACGGCCAGCAAGGCTCCGGCCCGCACTGCTGAAAAGGCAGCCGACACCAGTGCCGCTGCCGCCGGCGCAGCGGCTCCGGCAGCCCCTGCAGAAACCACTGAGGCGCCGGCTCAGGAAGCCCCGCGCACCCGTGGCCGTGGCCGCAGCCGCCGCGCCGTCAGCGACGGCGTTATCTCCACTCCCGCCGCGGAACCGGCCGTCGAGGCAGCCTCCCAGCCGGCCGCCGTCGAAGCCCCGCGTGCCGAGGTGGCAGCGGAAGTATCCGAGCCCGGTGCCGGTGAAGGCGCCGGTGAACGCCGCCAGCCGCGTACCCGGAACCGCCGCCGCAGCGAAGCTGCCGCAACGGCTCCGGAAGCTGCCCCCGCCGAAGCTCCGGCCGAAGTGGCCGGCGTCGAAACCCGCGCTGCCGAAACCCGCGGTGCTGAAACGCGCGGTGCCGAAACCCGCGAGCAGGGTGCCGACACTGTTGAAGCCGGACAGCGCACCGACCGCCGGGAAGGCGGCCGCACCCGCGGCGGCCGTGACTCCGAAAGCGCCGGGGGCCGCGACAACCGCCGCGAGGACAACCGCGACGACGACACCGAGGGCGGCAGCCGCCGCAACCGCCGGAACCGCCGCGACCGCAACGAGCGTTCCGACAGCCGTGACGGCCGGGACGCCAACGCCCGCAACGACCGCTTCCGCGACCGCAATGACCGCCGCCGCGGACGCAGCCAGGGGCCGGACGTTGACGATATTGAGGTGACTGACGACGACGTGCTGCTGCCCGTCGCAGGCATTCTCGACGTTCTCGAAAACTACGCCTTCATCCGCACGTCCGGTTACCTGCCGGGCCCGAACGATGTCTACGTCTCGCTTGCGCAAGTCAAGAAGTACAACCTGCGCAAGGGTGACGCCGTCGTCGGCGCCATCCGCGCACCGCGCGACGGCGAAGACCGCGGCCAGCAGTCCGCCCGCCAGAAGTTCAACGCCCTGGTCCGCGTCACGTCCGTGAACGGCAAGACGTCGGAAGAGCTGAAGGACCGCGTCGAGTTCGCCAAGCTGGTTCCGCTGTACCCGTCCGAGCGCCTGCGCCTCGAAACGGACCCCAAGAAGATCGGCCCCCGCGTCATTGACTTGGTGGCCCCCATCGGCAAGGGCCAGCGCGGCCTGATCGTCTCACCGCCGAAGGCAGGCAAGACACTCATCCTGCAGTCCATCGCCAACGCCATCACCACCAACAATCCTGAGGTCCACCTCATGATGGTGCTCGTTGACGAACGGCCCGAAGAAGTCACGGACATGCAGCGCACGGTCAAGGGCGAGGTCATTGCCTCCACCTTTGACCGTCCCGCCGACGACCACACCACCGTTGCCGAGCTCTCCATCGAACGCGCCAAGCGCCTCGTGGAAATGGGTATGGACGTGGTGGTTCTTCTCGACTCCATGACCCGCCTCGGCCGCGCCTACAACCTGGCAGCGCCGGCCTCCGGCCGCATCCTCTCCGGTGGTGTCGACTCCGCAGCCCTGTACCCGCCCAAGCGGTTCTTCGGTGCAGCACGCAACATCGAAAACGGCGGCTCGCTGACCATCCTGGCCACCGCACTCGTCGAGACCGGTTCCAAGATGGACGAGGTCATCTTCGAAGAGTTCAAGGGCACCGGCAACATGGAGCTCCGCCTGTCCCGCCAGCTCGCGGACAAGCGCATCTTCCCGGCTGTCGACGTCAACGCGTCCGGCACCCGCCGTGAAGAGAACCTCCTGTCGCCTGAAGAGGTCAAGATCATGTGGAAGCTGCGCCGCGTCCTCTCCGGACTCGAAACGCAGCAGAGCCTTGAACTGCTGACCAACAAGATCCGCGAAACGCAAAGCAACGTCGAGTTCCTCATGCAGGTTCAGAAGACGACGCTTGGCGCAAAGTCGGACAACGACAAGTAG	MTETTELLPAVDTSSSASGSLTEAPAKSSGLAGLKLAQLQALASQLGISGGSRMRKGDLVAAISAHRAGTTASKAPARTAEKAADTSAAAAGAAAPAAPAETTEAPAQEAPRTRGRGRSRRAVSDGVISTPAAEPAVEAASQPAAVEAPRAEVAAEVSEPGAGEGAGERRQPRTRNRRRSEAAATAPEAAPAEAPAEVAGVETRAAETRGAETRGAETREQGADTVEAGQRTDRREGGRTRGGRDSESAGGRDNRREDNRDDDTEGGSRRNRRNRRDRNERSDSRDGRDANARNDRFRDRNDRRRGRSQGPDVDDIEVTDDDVLLPVAGILDVLENYAFIRTSGYLPGPNDVYVSLAQVKKYNLRKGDAVVGAIRAPRDGEDRGQQSARQKFNALVRVTSVNGKTSEELKDRVEFAKLVPLYPSERLRLETDPKKIGPRVIDLVAPIGKGQRGLIVSPPKAGKTLILQSIANAITTNNPEVHLMMVLVDERPEEVTDMQRTVKGEVIASTFDRPADDHTTVAELSIERAKRLVEMGMDVVVLLDSMTRLGRAYNLAAPASGRILSGGVDSAALYPPKRFFGAARNIENGGSLTILATALVETGSKMDEVIFEEFKGTGNMELRLSRQLADKRIFPAVDVNASGTRREENLLSPEEVKIMWKLRRVLSGLETQQSLELLTNKIRETQSNVEFLMQVQKTTLGAKSDNDK				NA	NA	NA	NA	NA
D1-17_01449	1074	prfA	COG0216	Peptide chain release factor 1	ATGTTTGAGTCCGTACAGGGCCTGCTTGATGAGCATGATGCTATTCAGGCGCAGCTGGGGGATCCGGCTGTTTATGCTGACCAGAAGCTGGCGCGGAAGCTGGGGCGGCGGTCGGCCCAGCTTAACGGCATCGTGGAGGCCTACCACAAGTGGGAGGGGATTCGGGATGACCTGGCGGCTGCCAAGGAGATGGCTGCCGAGGACCCTGAGTTTGCTGCTGAGGTTCCTGAGCTGGAGGCTGCCTTGGAGACGGCCGCGGCCAAGTTGCGGCGGCTCCTCATTCCGCGCGATCCGGATGATGCCCGCAATGTGATCCTTGAGGTCAAGGGTGGCGAAGGCGGCGACGAAGCTGCCCTGTTTGCCGGCGACCTGCTGCGCATGTACACCCGTTATGCGGAGTCCCGCGGCTGGAAGACCGAGCTCATTTCCGCCACTGAATCGGACCTGGGCGGCTACAAGGACGTCCAGATGGCCGTCAAGGGCAATTCGAACGATCCTGCCGAGGGCGTCTATGCGCGGCTGAAGTTCGAGGGCGGCGTGCACCGGGTGCAGCGCGTTCCCGTCACGGAGTCACAGGGACGCATTCACACGTCGGCGGCAGGCGTGCTGGTCCTTCCCGAGGTGGACGAGCCGGAAGAGCTCGAGATCAACCAGAACGACCTGAAGATCGACGTATACCGGTCCTCGGGCCCCGGCGGCCAGTCGGTGAACACCACCGACTCCGCGGTGCGCATCACGCACCTTCCCACCGGAATCGTCGTGGCCATGCAGAACGAAAAGTCGCAGCTGCAGAACCGCGAAGCCGGCATGCGCGTTCTCCGTGCGCGCATCCTCGCCCACCAGCAGGAACAGATCGACGCCGAAAACTCGGCCCAGCGGAAGTCGCAGATCCGCACCATGGACCGCTCAGAGCGGATCCGCACTTACAATTACCCGGAAAACCGGATTGCCGACCACCGCACCGGCTACAAGGCGTACAACCTCGACCAGGTCATGAACGGTGACCTCGAACCGGTCATCCAGTCCGCCATCGAGATGGACGAGCAGGCCCGCCTGGACGCCATCGGCGACTAG	MFESVQGLLDEHDAIQAQLGDPAVYADQKLARKLGRRSAQLNGIVEAYHKWEGIRDDLAAAKEMAAEDPEFAAEVPELEAALETAAAKLRRLLIPRDPDDARNVILEVKGGEGGDEAALFAGDLLRMYTRYAESRGWKTELISATESDLGGYKDVQMAVKGNSNDPAEGVYARLKFEGGVHRVQRVPVTESQGRIHTSAAGVLVLPEVDEPEELEINQNDLKIDVYRSSGPGGQSVNTTDSAVRITHLPTGIVVAMQNEKSQLQNREAGMRVLRARILAHQQEQIDAENSAQRKSQIRTMDRSERIRTYNYPENRIADHRTGYKAYNLDQVMNGDLEPVIQSAIEMDEQARLDAIGD				NA	NA	NA	NA	NA
D1-17_01450	930	prmC_2	COG2890	Release factor glutamine methyltransferase	ATGACGTCCGAGCACACTCCGGCCGGTCCTGCCCAGACTCCCGACGGCGCCACCCCCGGTGGTGCCACCCTCGGTGATGCCGTGCGGGCGGCCGTCCAGATCCTTGCCGAGGCTGGGGTTCCGAGTCCCAGGGTCGACGCCGAATTGCTTGCCGAGCACCTGCTGGGGGTCGGGCTGGGCCGGCTGCGGGCCATGATGCTGGGCGACGCGCCGGTTCCGGAGGGCTATGCGGAACTCGTGGCCGAGCGCGCCCGCCGCATTCCGCTGCAGCACATCACGGGCGTCGCGCACTTCCGGTATCTTCAGCTGGCAGTGGGTCCCGGGGTCTTCATTCCCCGGCCGGAGACAGAGTCGGTTGTACAGCTGGTGATCGACCGGCTCGAGCAACTCGTCGCGTCCGGGGTGCGCCGTCCCAGAGTAGTGGATCTCGGTACCGGTTCCGGGGCCATCGCCGGCTCCGTCGCGCATGAGATGCCGGAAGCCGAGGTGCACGCCGTGGAGTTCAGCGAATTCGCACACGCCTGGGCAGCCATAAACCTGCAGCCCCTCGGGGTCAGTCTCATACGGGGGGACCTGCGGGACGCGCTGCCGGAGCTCAACGGCACCGTTGACGTCGTCGTTTCCAATCCGCCGTACATCCCGGCCGAGGCCATCCCGAACGAACCGGAAGTCGCGTTGCATGACCCGCCCGAAGCCCTTTATGGCGGAGGCACGGACGGCATGGAACTTCCGACGGCGGCAGCGGCATCGGCCGCGCGGCTGCTGGTGCCCGGGGGCTACTTCGTGATGGAACACGCCGAAGTCCAGGCGGCATGGATCGTGTCCATGCTGTCCGGAACCGGCCGGTGGACGAATATCTCCACACATCTGGACCTCAACGGCAAAGAACGCGCAACCAGCGCCGTCCTCGCCGTTCCTCCCACGGAGTGA	MTSEHTPAGPAQTPDGATPGGATLGDAVRAAVQILAEAGVPSPRVDAELLAEHLLGVGLGRLRAMMLGDAPVPEGYAELVAERARRIPLQHITGVAHFRYLQLAVGPGVFIPRPETESVVQLVIDRLEQLVASGVRRPRVVDLGTGSGAIAGSVAHEMPEAEVHAVEFSEFAHAWAAINLQPLGVSLIRGDLRDALPELNGTVDVVVSNPPYIPAEAIPNEPEVALHDPPEALYGGGTDGMELPTAAAASAARLLVPGGYFVMEHAEVQAAWIVSMLSGTGRWTNISTHLDLNGKERATSAVLAVPPTE				NA	NA	NA	NA	NA
D1-17_01451	720		COG0009	Putative threonylcarbamoyl-AMP synthase	ATGGCCGACGATGAGCGCACCGCAGGGCTGGCCCACGCCCATCGTGCCATTCTCGAAAAGAAATGCGTGGTGTTCCCTACGGACACCGTTTATGGGATCGCCGCAGACGCATTCTCGCCGCAGGCCGTCACGATGCTGCTCGCCTCCAAGGGCCGCAGCCGGACCATGCCGCCGCCCGTCCTGATGCCCCGCCTGAATGCCCTGGACGCCCTGGCCACAGATGTGTTTCCCGAGGCACGCCAGTTGGCCGAAGCATTCTGGCCCGGCGGCCTGACACTCATCCTGCACGCCCAGCCCTCACTTGACTGGGACCTTGGCGACACCAAGGGCACGGTGGCGCTGCGGATTCCCGCCGATGAGGTCGCCCAGGAGCTGTTGACCCTGACAGGACCCCTGGCGGTTTCCTCAGCAAACAGGACAGGCCAGCCGGCGGCACAGACCGCGGCTGAGGCCCGCGACCAGCTCGCCGAATCCGTTGAGGTGTACCTGGAAGACGGCTTCCGCCCCGCTGAAGGCGCCGACGCAGTGCCCTCGACGATCGTCGATGCCACGTCCCTGCCCCTGCGCGTTGTGCGGCAGGGTGCGGTCAGCCTTGAGCGGCTCCGCGAAGTGGTTCCAGGCCTGCTGGACACCGACGGCAACGCCGCCGGAATGGACACTTCCACCAGCGGGCCTGCAGCCGGTGAATCCGCGGACGACAAAGTGTCCGGCGCCGAATGA	MADDERTAGLAHAHRAILEKKCVVFPTDTVYGIAADAFSPQAVTMLLASKGRSRTMPPPVLMPRLNALDALATDVFPEARQLAEAFWPGGLTLILHAQPSLDWDLGDTKGTVALRIPADEVAQELLTLTGPLAVSSANRTGQPAAQTAAEARDQLAESVEVYLEDGFRPAEGADAVPSTIVDATSLPLRVVRQGAVSLERLREVVPGLLDTDGNAAGMDTSTSGPAAGESADDKVSGAE				NA	NA	NA	NA	NA
D1-17_01452	762			N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGATGCTCCAGCGGCAGGCCGTGCCTCTCCTGGATGTGGACGCCACTCCGCTGGACGTCGCGGGACTTACGGGGGTGCTCAGCGCTTTCATCGCCGACGGAACCACGCGGACCGTTGTCGGGCACAATCTTCACAGCGTCACCCTCTTTCACGCAGAACCGGAGTTCCGGAAGTTCTACGAGGACAGTGACGTGGTTTTGATCGACGGCGCGCCCGTGCTGTGGATGTGGGGGAGAGGCAAGCAGCACTCAGCGCCCGTCATGGACTATCGCCTGGGGTCCACCGACTGGATTCCGGCGCTGGGGCAGGTCAAAGGGCTGGAGCGGATTGCGGTCCTGGGGGCCGGATCCGTGGCAAATGCGCGTGCTGTGGCAAGACTGGAGACCATCGTGCCGGGGGCTACGGTCTCCGGGATGCCCGGTGACGGGTGGAATGAGGACCTCGAAGAGGCAGCGGCCGCCTGGCTTGCAGAGCAGCAGCCGCAGCTGGTGCTCGTGGGGCTGGGAATGCCCCTGCAGGAAGAGGTGCTGCGCCGGCGGCTCGGCACGCTGCCCCCGGCCATCTACTGCACGGTGGGTGGTGCAATCGAGCAGATTGCGGGTATCCAGAAGCTGGCCCCGCGCTGGCTGGGACGGCTTGGCCTGGAGTGGGCGTGGCGACTGGTGCTCCATCCGCGGCGGGTGGCGTACCGCGTTCTGGGCGAGCCGTGGGTGCTGCTGGCGCTGCTGCTGCGGCGCCGCCTGCGGGCAGCCCGGGGTTAG	MMLQRQAVPLLDVDATPLDVAGLTGVLSAFIADGTTRTVVGHNLHSVTLFHAEPEFRKFYEDSDVVLIDGAPVLWMWGRGKQHSAPVMDYRLGSTDWIPALGQVKGLERIAVLGAGSVANARAVARLETIVPGATVSGMPGDGWNEDLEEAAAAWLAEQQPQLVLVGLGMPLQEEVLRRRLGTLPPAIYCTVGGAIEQIAGIQKLAPRWLGRLGLEWAWRLVLHPRRVAYRVLGEPWVLLALLLRRRLRAARG	PGPT0023455_498	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023455-tagA|tarA-K05946	NA	NA
D1-17_01453	897	glfT1	COG1216	Galactofuranosyltransferase GlfT1	ATGTCAGTGTCTGTAGCCGTTGCTGCTGTGACGTTTGACCGCCCCCGTGAGCTCGCTGTTCTGCTCCGCGCCATCAACAGCCAGACGGCCCCTGTCTCCTCGATCTGCCTTGTGGACAGCGGCACCGTGCCGGCCAAGAACGTGGCGGAACAGCACGGCAATGTGGACTATGTCCGCTCGAAAGCCAATCTCGGCGGTGCCGGCGGATTTTCCCTGGCTGTCCTCAAAGCCGTGGCCAGCGGCGCCGACTGGATCTGGATGATGGACGACGACGCGGAACCCGCGGACGCCGAATGCCTGGCCACGCTTGTCCGCGAGGCCGAGTCGCGTGGCCTTGACGCTGTGGTACCGCTCGTGGTTGCGCCCGGCCATCCGGACCGGCTGTCCTTCTTCTTCCGGCTGGACGGCAAGGTAACCCACGACCGCGCTGCCTTGGAAAAGGTGGGATTCCTTCCCCAGGACGGACACTTCTTCAACGGGGCCCTGATCCGCTCGGACGTTTTCTTCAAAGTGGGACTGCCCGACATGCGCCTCTTCATCCGCGGAGACGAGGTGGACTTCACCATCCGGCTCCGCAAGGCGGGCATCCGTTTCGGCACGGTCACAACCGCGGCCATCACCCACCCGCATGCGTTCTCCGAAACCCAGCACGTCTTCGGGGCCCGATGGCACGTCATCGTTCCCGAATCCGCGTTCAAGCGGTATTACTACTACCGCAACCGCGGCTATCTGATCCGGCGCTACTTCCGCGTCAAGTCCCTGACTGCCGACGTCGGCGGCTACCTGGGCTATTTCCTGCGCCGCGGCGATTTCCGGGGCCTGGCCGACTGGTTCAGGGCCTTCTCCACCGGGCTCCGCGGGAAGGGCTTCGGTCCGCTCAAGGACCAGAAGTTCTAA	MSVSVAVAAVTFDRPRELAVLLRAINSQTAPVSSICLVDSGTVPAKNVAEQHGNVDYVRSKANLGGAGGFSLAVLKAVASGADWIWMMDDDAEPADAECLATLVREAESRGLDAVVPLVVAPGHPDRLSFFFRLDGKVTHDRAALEKVGFLPQDGHFFNGALIRSDVFFKVGLPDMRLFIRGDEVDFTIRLRKAGIRFGTVTTAAITHPHAFSETQHVFGARWHVIVPESAFKRYYYYRNRGYLIRRYFRVKSLTADVGGYLGYFLRRGDFRGLADWFRAFSTGLRGKGFGPLKDQKF	PGPT0024210_454	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGGALACTOFURANOSYLTRANSFERASE_ACTIVITY,PGPT0024210-glft1-K16649	NA	NA
D1-17_01454	1134	wecA	COG0472	Decaprenyl-phosphate N-acetylglucosaminephosphotransferase	ATGATCATGTACCTGAGCATGATGCTGACGGCAGCCGTGGTTTCCTATGCAGCAACGTGGGGTGCGCGGCTCGTCGGAAACCGGCTTGAGCTGTTCGCCCCGATCCGAAGCCGTGACATGCACTCAAGCCCGGTTTCACGGCTCGGCGGGCTGGGAATTTTTGCCGGCGTGCTTGTGGCGTTGGTGGTGGCCAGCCAGTCCTTCTTCGTGAAGGACATTTTCCGGGGGAACTCCGCCCCGTGGGGAGTGCTGGCCGGTGCAGCAGTGATTGTGCTGGTGGGGGTGGCGGATGACCTGCTCGATCTTCGCTGGTGGGTCAAGCTGATCGGCCAAAGCGCGGCGGCCCTGGTCGTGGCGATCTGGGGCGTCCGGATGACGATCATTCCGTTCGTGCCCGAACCCATCCGTTTCGACTCGGACCCGGTGAACATCACCCTCACTGCGGTACTCATCGTGACCACGATGAACGCGTTCAACTTTATTGACGGCCTGGATGGACTGGCCGCGGGCGTAGCGATCATTGGCGGTGCCGCCTTCTTCCTCACTGCCTACTGGGTGCACCGGACAGCAGTGCTGCTGGACCGCTCAGACCTCGCTACCCTGCTCACCGCCATTCTGGTGGGCAGTTGCCTGGGTTTCCTGCCGCACAACTGGTTCCCCTCCAAAATATTCATGGGTGATTCCGGCGCCATGCTGATTGGGCTGCTCATGGCCTCCGCCGGTGTGGTTTCCACCGGCCAGATCACCTCCGGGCTTTATGACCGGGTAAACGGTATCCCCACCATCATCCCCATCGTGCTGCCTTTTGCAGTTCTCTTTCTTCCGCTCCTGGATCTGTGCCTCGCGGTGGTGCGACGCACCGCCGTCGGCCGTTCTCCATGGTCTGCCGACCGCGGCCACCTGCACCACAAGCTCATGGATATCGGTTACTCACACCGCACCGCGGTGATGCTCATGTACATGTGGACGGCAGTATTGTCCTTCGGCGGGCTGGCCTTTGCCGTCTATCCGTGGCAGATCGTGCTGGCCGTGGACCTGATGGCGACACTCGCCATGGGACTTCTCACCGCATGGCCGTATTTGAGCCGCCGCAGTGCTGACACCCCCGGCCCCAGTGCCGATGCGGCAGGCTAG	MIMYLSMMLTAAVVSYAATWGARLVGNRLELFAPIRSRDMHSSPVSRLGGLGIFAGVLVALVVASQSFFVKDIFRGNSAPWGVLAGAAVIVLVGVADDLLDLRWWVKLIGQSAAALVVAIWGVRMTIIPFVPEPIRFDSDPVNITLTAVLIVTTMNAFNFIDGLDGLAAGVAIIGGAAFFLTAYWVHRTAVLLDRSDLATLLTAILVGSCLGFLPHNWFPSKIFMGDSGAMLIGLLMASAGVVSTGQITSGLYDRVNGIPTIIPIVLPFAVLFLPLLDLCLAVVRRTAVGRSPWSADRGHLHHKLMDIGYSHRTAVMLMYMWTAVLSFGGLAFAVYPWQIVLAVDLMATLAMGLLTAWPYLSRRSADTPGPSADAAG	PGPT0015240_1078	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015240-wecA|tagO|rfe-K02851	NA	NA
D1-17_01455	546			hypothetical protein	GTGTCCTGCACCAAAATCCTCCGCCCCACCTTCGACGATTGGGATCGCATGACCTCCGACGCCGGCCCCGGACCTGTGTCCGGCAACGGATCCGTTGGCGCATCCGGGCCCCGGGAGTCACTGTGGCTTGGCCTGCTGGGGCTCAGTTCCGCAGCAGCCACAGCGGCCCTGCTGCTGACCGGCGTTCTGGCCCTGGTCCTCAACGGCTGGGCGGGAGCTTTTTCGACTGCCTTCGGCGGATTGCTGGTGATGGTGTTCTTTGCCATCAGCCTCCTGATCGGCCACTTCGTCGGCCGAAGCAACCCCTCGGGGGCCATTGGCCTTTTTCTGGCGACATATGTCGTCAAGGTCATCGGGTTTGCAGTCGTGCTGTTTGTGCTTGGTGAACCGGCCTGGCTCCATGAACGATGGTTCCTCATTGGGGCCGTTGTCTCCGTGGTGTTCTGGCAGGCTGCCGAAATCTACGGTTTCGGCAAGGCCCGGCTGCAGATCTATAACGACCCCGAGCCCAGCCCTCGGAGCGAGAGGGGCACCACGGATGTCTGA	MSCTKILRPTFDDWDRMTSDAGPGPVSGNGSVGASGPRESLWLGLLGLSSAAATAALLLTGVLALVLNGWAGAFSTAFGGLLVMVFFAISLLIGHFVGRSNPSGAIGLFLATYVVKVIGFAVVLFVLGEPAWLHERWFLIGAVVSVVFWQAAEIYGFGKARLQIYNDPEPSPRSERGTTDV	PGPT0030480_278	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
D1-17_01456	339			hypothetical protein	ATGTCTGAGCGAAACCACTCCGAAAATACTCCTGGCGACGACGCCGCCAAACGGGCCCGTACTGCCGGCGAATCGGACGTACGGGGTGACGGCGGTTACAACGCCGGCATCGCCGTATTCAGCTACATTATTGGCGGAATCATCGTCTGGAGTTTGATAGGGTGGGGACTGGATTACCTGTGGGGAACCCGCTGGATCGTGCTCGCAGGCGCTCTGCTTGGAGCTGCGGGAGGGTTCTATCTATCCCATATGCACGGCCTCACCAGTTCGCGAAAATCGGCTGACGGGAATGATGCAGCCAGCGGACCGTCCGAGGACGGAGACAGTAATGCCAAATAA	MSERNHSENTPGDDAAKRARTAGESDVRGDGGYNAGIAVFSYIIGGIIVWSLIGWGLDYLWGTRWIVLAGALLGAAGGFYLSHMHGLTSSRKSADGNDAASGPSEDGDSNAK	PGPT0030480_2345	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
D1-17_01457	801	atpB	COG0356	ATP synthase subunit a	TTGATCGCGCTTGCGCTCCCGGCCCAAAATTCAGGAGGCTTCACGCCTCCCGGAATTGAAGAAATGCACCTGCCGGCGATCCTGCCGTTCGGTGCGAGTGACGGATTCTCCAAGCAGATGCTGCTGGTAATCCTGTCCGTCGTCATTATCGCTACCTTCTTTATGCTCGCTGCGCGGAAGCAGCAGATGGTCCCTGGCAAGCTCCAGTTCGCCGGCGAAATGGCCTACGGCTTCGTCCGTAACAGCATCGCCAAGGACATCATTGGCGGCCGCGACTTCATGAAGTACGTCCCGCTGTTGTTCACCCTGTTCTTCTTCATCCTGGTGAACAACATCTACGGCGCGATCCCGCTGATCCAGCTTCCGAGCTTCTCCCACGTCGGCGGTGCGTACGTCCTGGCAGCCATCGTGTATGTCACCTGGATTGGCATCGGCATCAAGAAGAACGGGCTGAAGTACTTCAAGCTCGCCACCGTGCCGTCCGGCGTTCCGGTCTACATCCTGCCCATCGTCATTCCGATCGAGATCATCTCGAACTTCCTGGTCCGTCCTGTCACGCACAGCCTCCGTCTGTTCGCCACCATGCTGGCAGGCCACCTGATCGTCATGATCGCCGGCTCGGGTATCGAGTTCCTGGTCATGCAGGAAAACGTCCTGCTGAAGGGCACCTCGGTTCTGGTCCTTGCAGGCGCGATCGCCATGTACATGCTCGAAGCGCTGATCATGGCGCTGCAGGCCTACGTCTTCACCCTGCTGACGGCTATCTACATCGAAGGCGCACTTCACGCCGACAGCCACTAG	MIALALPAQNSGGFTPPGIEEMHLPAILPFGASDGFSKQMLLVILSVVIIATFFMLAARKQQMVPGKLQFAGEMAYGFVRNSIAKDIIGGRDFMKYVPLLFTLFFFILVNNIYGAIPLIQLPSFSHVGGAYVLAAIVYVTWIGIGIKKNGLKYFKLATVPSGVPVYILPIVIPIEIISNFLVRPVTHSLRLFATMLAGHLIVMIAGSGIEFLVMQENVLLKGTSVLVLAGAIAMYMLEALIMALQAYVFTLLTAIYIEGALHADSH	PGPT0014303_1957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
D1-17_01458	219	atpH_1		ATP synthase subunit c	ATGGAAGGCTCCATCAACGGCTCTCTCAACCTCATCGGCTACGGCCTCTCCGCCATCGGCGGTGGTGTCGGTGTGGGTCTCGTGTTCGCTGCCTACATCAACGGCGTTGCACGTCAGCCGGAAGCCCAGCGCGTCCTGCAGCCGATCGCATTCCTCGGCCTTGCGCTGACTGAAGCCCTCGCCATCCTTGGTCTGGTCTTCGCCTTCGTTCTTAGCTAG	MEGSINGSLNLIGYGLSAIGGGVGVGLVFAAYINGVARQPEAQRVLQPIAFLGLALTEALAILGLVFAFVLS	PGPT0014302_2849	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
D1-17_01459	558	atpF	COG0711	ATP synthase subunit b	ATGAATCAGCTGATCATCTCAGCCGCCACTGAAGGCGCCGCGGCGGCGAACCCGCTCGTTCCCAACCTTTGGGAAATGGGCGTCGTCCTCGCCGGCTTTGCTGTCCTCTTTTTCATCGTGGTCAAGTTCGTTGTCCCGATGTTCGAGAAGACGTTTGCAGAGCGTGCTGAGGCCATCGAAGGCGGCATCGCCAAGGCTGAGAAAGCCCAGGCCGAGGCTTCTGCAGCACTCGAAGAGTACAGGCAGCAGCTCACCGACGCACGTGCAGAGGCCAACCGCATCCGCGAGGAGGCCCGTGCCGAAGGCGCCCAGATCCTTGCGGAGCTGAAGGAGAAGGCTGCGGCCGAGTCTGCGCGCATCACGGCGCAGGCACACGCCCAGATTGAGTCCGAGCGCCAGGCGGCCGTTGTGTCCCTGCGTTCCGAGGTGGGCACCCTGGCCACCACACTGGCTGGCCGCATCGTCGGCGAGTCGCTGGACGACGACCAGCGTGCGGCACGTGTTGTTGACCGCTTCCTGGCTGAGCTGGAGAACCAGAACGCGGGTGTAGCGAAGTAA	MNQLIISAATEGAAAANPLVPNLWEMGVVLAGFAVLFFIVVKFVVPMFEKTFAERAEAIEGGIAKAEKAQAEASAALEEYRQQLTDARAEANRIREEARAEGAQILAELKEKAAAESARITAQAHAQIESERQAAVVSLRSEVGTLATTLAGRIVGESLDDDQRAARVVDRFLAELENQNAGVAK	PGPT0014301_1782	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
D1-17_01460	828	atpH_2		ATP synthase subunit delta	ATGGCAGGTGTATCGAGCGAATCGCTGACCAAGGCGCTGACCGAGCTTGAAGCCAAGCTTCCCTTTGCATCGCTGCAGTTGGCAAGGGAACTCTTCGGAATCCTGGGAACGGTGGACAGCTCCGCAGGGCTGCGCCGCGCCCTGACGGACCCGTCCCGAAGCGGCGAGGAAAAGTCAGCGCTGATCAGGCAACTGTTCAGTGGACAAGTCTCCACCGAGGCAGCGGAGATCGCAGCCGGACTGGCCAGCTCACGCTGGGCATCGGCGCGGGACATCGGCGATGCACTCGAGACGCTTGCCGCAACGGTGGTCATCGCTGTTGCTGAAAACAAGTCGGCCGTTTCTGCCTCCGGCATTTCCGGACTGGAAGCACTCGAGAACGACCTGTTCTCGTTCAACCAGGCCGTGGCCTCCAGCCACGAGGTGCAGCGTGCTTTGTCTGAGCCGCAGGCCAGTGCTGCAGCAAAGATCACCCTGGCCGAAAGGCTGGTTCCTGGCGCAAGCGAGGAAGCCAAAGTCCTTATCGGGCAGGCCGTGGCACAGCCCCGCGGGATCAAAGCAACCCGGCTGGTTGCACGTTTCGCTGAGCTTGCCGCCAAGCGCCAGCAGCGCTGGATTGCAACGGTCACTGTGGCACGTCCCCTGACTGACGCGCAGCTCAGCCGCCTGCAGGCCGGGCTCAACTCCCTTTACGGGCGTGAGCTGAAGATCAACGTCAAACTTGATCCTCTGCTGATCGGCGGAATCCGCGTGCAGGTGGGTGACGAAGTGCTCGACGCTTCTGTACTCACCCGCCTGGGCGAGCTGCAACGCCAACTGGCCGGCTAG	MAGVSSESLTKALTELEAKLPFASLQLARELFGILGTVDSSAGLRRALTDPSRSGEEKSALIRQLFSGQVSTEAAEIAAGLASSRWASARDIGDALETLAATVVIAVAENKSAVSASGISGLEALENDLFSFNQAVASSHEVQRALSEPQASAAAKITLAERLVPGASEEAKVLIGQAVAQPRGIKATRLVARFAELAAKRQQRWIATVTVARPLTDAQLSRLQAGLNSLYGRELKINVKLDPLLIGGIRVQVGDEVLDASVLTRLGELQRQLAG	PGPT0014299_197	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
D1-17_01461	1671	atpA		ATP synthase subunit alpha	ATGATCACGAAAACAGGAGAGCAGGGACTGCAGATGGCCGAATTGACCATCAACGCCGACGACGTCCGTGATGCGTTGAACGAGTTCGCGGCGTCCTACGAACCCGGAAACGCAGAGCGCGTAGAGGTCGGCCGCGTTACCACCGCAAGTGATGGCATCGCCCGTGTTGAGGGCCTTCCCTCGGTCATGGCGAACGAGCTGCTTCGCTTCGAAGACGGCACCCTGGGCCTCGCCCAGAACCTCGACGTCCGCGAGATCGGTGTCATCGTCCTCGGTGACTTCACGGGCATCGAAGAAGGCCAGGAAGTCCACCGCACCGGACAGGTCCTGTCCGTACCCGTCGGTGACGCCTTCCTCGGCCGTGTCGTGGACCCGCTGGGCGTGCCCATCGATGACCTTGGCGAGATCAAGGCCGAAGCCACCCGCGCGCTGGAGCTGCAGGCTCCCGGCGTAACGCAGCGCAAGTCTGTGCACGAGCCGATGCAGACAGGCCTCAAGGCCATCGACGCCATGATTCCGATCGGCCGCGGCCAGCGGCAGCTGATCATTGGCGACCGCCAGACCGGCAAGTCGGCCATCGCCATCGACACCATCATCAACCAGAAGGCCAACTGGGCTTCCGGAGACGTGACCAAGCAGGTCCGCTGCGTGTACGTAGCAATCGGCCAGAAGGCTTCCACCATCGCGGCCATCCGCCAGACGCTGGAAGACAACGGCGCGCTGGAGTACACCACGATTGTGGCTTCCCCGGCATCCGACCCCGCGGGCTTCAAATACCTGGCCCCCTACGCCGGTTCTGCCATTGGCCAGCACTGGATGTACGGCGGCAAGCACGTCCTCATCGTGTTCGATGACCTTTCCAAGCAGGCCGAGGCCTACCGTGCAGTGTCGCTGCTGCTGCGCCGCCCGCCGGGACGCGAAGCCTACCCGGGTGACGTCTTCTACCTGCACTCCCGCCTCCTGGAGCGTTGTGCCAAGCTCTCGGACGAGCTCGGTGCCGGCTCGATGACCGGTTTGCCGCTGATCGAGACCAAGGCGAACGATGTTTCCGCCTACATCCCGACCAACGTCATCTCCATCACCGACGGCCAGATCTTCCTGCAGTCGGACCTCTTCAACGCAAACCAGCGACCTGCTGTTGACGTGGGTGTCTCTGTGTCCCGCGTTGGCGGTGCCGCACAGGTGAAGTCGATGAAGAAGGTCTCCGGCACCTTGAAGCTGGACCTCGCGCAGTACCGCGACATGCAGGCGTTTGCGATGTTCGCTTCGGACCTCGATGCCGCATCCCGCCAGCAGCTGACCCGTGGCGCGCGCCTCATGGAGCTGCTGAAGCAGGGCCAGTACTCGCCGTTCCCGGTTGAGGACCAGGTTGTGTCCATCTGGGCTGGTACCCAGGGCCACCTGGACGATGTTCCCGTTGAGGACATCAGCCGCTTCGAAACCGAGTTCCTGGAGCACCTGAAGCACAAGTCCTCGATCCTGACCACGCTGGCGCAGACCAACGTTCTGGACGATGACACTGCAGCAGCGCTGAAGAACGCGATCGTTGACTTCAAGAAGGGCTTCTTCGGCGAAGGCGACAACCACCTGGTAGGTGCCGGCCACGAGGAGCATGAGCCCATCTCCGAGGGTCAGGTCGACCAGGAAAAAATCGTCAGGCAGAAGCGCTAG	MITKTGEQGLQMAELTINADDVRDALNEFAASYEPGNAERVEVGRVTTASDGIARVEGLPSVMANELLRFEDGTLGLAQNLDVREIGVIVLGDFTGIEEGQEVHRTGQVLSVPVGDAFLGRVVDPLGVPIDDLGEIKAEATRALELQAPGVTQRKSVHEPMQTGLKAIDAMIPIGRGQRQLIIGDRQTGKSAIAIDTIINQKANWASGDVTKQVRCVYVAIGQKASTIAAIRQTLEDNGALEYTTIVASPASDPAGFKYLAPYAGSAIGQHWMYGGKHVLIVFDDLSKQAEAYRAVSLLLRRPPGREAYPGDVFYLHSRLLERCAKLSDELGAGSMTGLPLIETKANDVSAYIPTNVISITDGQIFLQSDLFNANQRPAVDVGVSVSRVGGAAQVKSMKKVSGTLKLDLAQYRDMQAFAMFASDLDAASRQQLTRGARLMELLKQGQYSPFPVEDQVVSIWAGTQGHLDDVPVEDISRFETEFLEHLKHKSSILTTLAQTNVLDDDTAAALKNAIVDFKKGFFGEGDNHLVGAGHEEHEPISEGQVDQEKIVRQKR	PGPT0014298_72	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
D1-17_01462	891	atpG		ATP synthase gamma chain	ATGGGAGCCCAGATTCGGGTCTACCGCCAGAAGATCGCCTCGACGACGTCGATGCGCAAGATCTTCAAGGCGATGGAACTGATCGCTACCTCGCGCATCGGCAAGGCCCGCGCACGCGTAGCGGCTTCACTGCCTTACGCGAACGCGATTACCCGCGCCGTTTCTGCCGTTGCTAGCCAGAGCGAAATCGACCACCCGCTGACCACCGAGCCGGAGCAGATCCGTCGGGCGGCAGTGCTGGTGATCACCTCGGACCGTGGACTGGCTGGGTCTTACTCGGCCAGTGTGCTCAAGCAGGCCGAAGGCCTCAACGAGCTGCTCCGTGCAGAAGGCAAGGAAGTCAAGACGTACCTGGTTGGCCGCAAGGCACAGGCTTACTTCGACTTCCGGGGCCGGTCTTACGGAGGAGTCTGGACTGGCGGAACCGACGCACCGGAGTTTGCCACCGCCCAGGAAATCGGGCACAAGCTGCTCGAGGATTTCGCAACAGACTACGAAGAGGGCGGCGTGGATGAGATCCACGTCGTGTACACCCGCTTCAAGTCCATGGTGACCCAGGAGCCGACGGTCATCCGTCTTCTTCCGCTTGAAGTTGTGGATGAGCAGCCTGCTTCCGAGTCGGAGCTGCTGCCCTTGTACGAGTTCGAGCCGGAGTCGGAGCAGGTTCTCGATGCTCTGCTGCCGCGGTACATCGAGTCACGGATCTTCGCAGCCATGTTGCAGGCAGCAGCTTCGGAGCTTGCCGCACGTCAGCGGGCGATGAAGTCCGCCGGAGACAACGCCACGGATCTCATCAAGAAGTACACGCGTTTGCGCAACACCGCCCGCCAGGCGGAAATTACGCAGGAGCTGTCCGAAATCGTGGCCGGTGCCGACGCCCTCGCGTCGTAG	MGAQIRVYRQKIASTTSMRKIFKAMELIATSRIGKARARVAASLPYANAITRAVSAVASQSEIDHPLTTEPEQIRRAAVLVITSDRGLAGSYSASVLKQAEGLNELLRAEGKEVKTYLVGRKAQAYFDFRGRSYGGVWTGGTDAPEFATAQEIGHKLLEDFATDYEEGGVDEIHVVYTRFKSMVTQEPTVIRLLPLEVVDEQPASESELLPLYEFEPESEQVLDALLPRYIESRIFAAMLQAAASELAARQRAMKSAGDNATDLIKKYTRLRNTARQAEITQELSEIVAGADALAS	PGPT0014297_1658	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
D1-17_01463	1455	atpD	COG0055	ATP synthase subunit beta	ATGACTGCCACCGCTACCGAACACGTAGCCGCAACGTCCGGTGCCACCGGCCGTATTGCACGTGTCATTGGCCCGGTTGTCGACGTCGAATTCCCGGCTGACGCAATCCCCTCGATTTACAATGCCCTTACCACTGAGATCACTCTCAACGGTGAGACCAAGACCATCACGTTCGAGACCTCCCAGCACCTGGGTGACAACCTCGTCCGCGCTATCTCCCTGCAGGCTACCGATGGACTTGTCCGCGGCACCTCTGTTGTTGACAGCGGCGCCCCCATCTCCGTGCCCGTGGGCGACGGCGTCAAGGGACACATCTTCAACGTGCTCGGCAAGCCGCTGGACGTTGCTGAATCTGAAATCCAGGCCTCTGACTACTGGCCGATCCACCGCAAGGCACCGTCCTTCGCTTCCCTCGAAGGTTCCACCGAGATGCTCGAAACGGGCATCAAGGTCATCGACCTTCTCACCCCGTACATCAAGGGTGGAAAGATCGGCCTCTTCGGCGGCGCCGGCGTGGGCAAGACGGTTCTGATCCAGGAAATGATCACCCGTGTGGCCCGTAACTTCGGTGGTACCTCTGTGTTCGCCGGTGTCGGCGAGCGTACCCGTGAGGGCAACGACCTCTGGGTCGAAATGGAAGAAGCCGGCGTTCTGAAGGACACCGCCCTTGTGTTCGGCCAGATGGATGAGCCGCCGGGAACGCGTCTTCGCGTTGCACTGTCCGCGCTGACCATGGCGGAGTACTTCCGCGATGTCCAGAACCAGGACGTGCTGCTCTTCATCGACAACATCTTCCGCTTCACGCAGGCAGGTTCGGAAGTGTCCACGCTTCTCGGACGTATGCCGTCTGCCGTGGGTTACCAGCCGAACCTGGCCGACGAAATGGGTCTCCTCCAGGAGCGCATTACGTCCACCAAGGGCCACTCCATCACCTCGATGCAGGCCATCTACGTTCCCGCAGATGACTACACCGACCCGGCACCGGCCACGACCTTCGCACACCTCGACGCGACCACGGAACTTTCCCGTGAAATCGCATCCCGTGGTCTGTACCCGGCCGTTGACCCGCTGACGTCGACTTCCCGAATCCTGGACCCCCAGTACATCGGCAAGGACCATTACACCACGGCTGTCCGTGTGAAGCAGATCCTGCAGAAGAACAAGGAACTCCAGGACATCATCGCCATCCTTGGTGTCGATGAACTGTCTGAAGAGGACAAGATCGTCGTGTCGCGTGCACGCCGCATCCAGCAGTTCCTGTCGCAGAACACCTACACCGCCAAGCAGTTCACCGGCGTCGAAGGTTCCACCGTCTCCATCAAGGACACCGTTGAGGGCTTCACGGCCATCTGCGACGGCGACCTCGACCACATCGCAGAGCAGGCGTTCTTCAACGTCGGCGGCCTGGATGACGTTGAGCGCCAGTGGGCCAAGATCCAGGAACAGACCAAGTAA	MTATATEHVAATSGATGRIARVIGPVVDVEFPADAIPSIYNALTTEITLNGETKTITFETSQHLGDNLVRAISLQATDGLVRGTSVVDSGAPISVPVGDGVKGHIFNVLGKPLDVAESEIQASDYWPIHRKAPSFASLEGSTEMLETGIKVIDLLTPYIKGGKIGLFGGAGVGKTVLIQEMITRVARNFGGTSVFAGVGERTREGNDLWVEMEEAGVLKDTALVFGQMDEPPGTRLRVALSALTMAEYFRDVQNQDVLLFIDNIFRFTQAGSEVSTLLGRMPSAVGYQPNLADEMGLLQERITSTKGHSITSMQAIYVPADDYTDPAPATTFAHLDATTELSREIASRGLYPAVDPLTSTSRILDPQYIGKDHYTTAVRVKQILQKNKELQDIIAILGVDELSEEDKIVVSRARRIQQFLSQNTYTAKQFTGVEGSTVSIKDTVEGFTAICDGDLDHIAEQAFFNVGGLDDVERQWAKIQEQTK	PGPT0014296_1093	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
D1-17_01464	285	atpC	COG0355	ATP synthase epsilon chain	ATGGCTGAGCTTGAGGTTGAGATTGTCGCAGCGGACCACTTTGTGTGGTCCGGAGCGGCCAAGATGGTCAAGGCCCGCACCAGCGATGGTGAAATCGGAATCCTGCCCGGCCACTCGCCACTGCTGGCGATTCTGGCCGAAGGTGAAATGGCAATCGAGCCTGTCTCCGGTGACCGCATTGCTGTAGAGGTCGACGGCGGTTTCTTCTCCGTCGACAACAACAGGGTCGTCATTGTTGCTGACAACGCCCACCTGGGCGACGCAGCCACTGCGGGGATCCGCTAG	MAELEVEIVAADHFVWSGAAKMVKARTSDGEIGILPGHSPLLAILAEGEMAIEPVSGDRIAVEVDGGFFSVDNNRVVIVADNAHLGDAATAGIR	PGPT0014295_3941	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
D1-17_01465	432			hypothetical protein	ATGGACGCCACTGCACTTTCGTTCATCGCTATAGCAACCGCTTTTGGCTTGCTGATTTTTACGCTGTGCCTTTTCGGGGTGCGCCGCTTCAACCTGCGGCGCGCCCTGGGCACGGTGGACGCCTCCATTTGCACGGCTGGAAAGAGCTGGCAGATGGGGGTTTGTCGTTATCAGGACAATGAACTCGAGTGGTTCAAGCTGCTCTCGCTCAGTGTCAGGCCCAAGCACCGCTTCACGCGCAGCTCTCTGGAGCTGATCGGGAGGCGGCAGCCCACCGAGGCCGAACTGGTCAAGGTGCAGCCGGACGTCGTGATCGTGGAACTCAAGTATGAGGGCCAGGATGTGCTGCTGGCGATGAAGTTTGACGCGTACACCGGCCTCTCTTCATGGCTCGAGGCCGGTCCGGTCATTGGCATCGGCACCTGGCGCTAG	MDATALSFIAIATAFGLLIFTLCLFGVRRFNLRRALGTVDASICTAGKSWQMGVCRYQDNELEWFKLLSLSVRPKHRFTRSSLELIGRRQPTEAELVKVQPDVVIVELKYEGQDVLLAMKFDAYTGLSSWLEAGPVIGIGTWR				NA	NA	NA	NA	NA
D1-17_01466	1350			hypothetical protein	ATGGCTCGAGGCCGGTCCGGTCATTGGCATCGGCACCTGGCGCTAGCCGACGTGGACGTCATTGCCGATATCCGGCTCGTCGACGGGCCCCTCTTCTGGGCCGCATGGGCTGCGGGAACCGCGGGTGTCATCTACCTCCTCTGGCGGCGCGGCAAGCGCTGGCCCCTGGTGCCCGTTCTTGCCATTGTCTCGGCGATTGTCATCGTCGCAGTGGTTCACTGGCTCCTGATCTATGTCTTTTCCTCGTTTCCTGATGAGCTCCCCCGTGAGGTGCTGGGCTGGTCCGTGCCTGCTCTGGCCGGATTCCTGCTCTGGACCACCAGGCTGGTCCCCGCGGGCTGGAAAGGCAGGGCCGCAGCCACGGCTGCCATGCTCGGGGTGCTCCTGCTGTCGTCCGTCCAAATCAATGCCTATTTCGGGCTCAACCGCACTGTCGGTGACCTTCTGGGAACAGCCGTTGCCCGCATTCCTTCCCTTGAGGCCGGGCTGACCCGCCAGGCCGGAAGCGCCGTGCCGGTACCCCTTGCACAATGGACGAGACCCGAAGGCCTGCCGTCCGAAGGGGTGCTCAGGAAGGCCGATATTCCAGGCACAAGCTCTGGTTTCGATGCCCGCGAGGCCTATATTTACCTGCCGCCCGCGTACCAGAGCCGGGAACGCCCCGCCCTTCCGGTGCTGGTGCTGTTTTCGGGCCAGCCCGGCGGCCCGGCCGACTGGCTGACCGGGGGAGCCCTGCGCAGCCATATGGACAGGTTCTCCGCCCGGCACAACGGCGTGGCCCCGGTAGTGGTGGTGGTGGATCCCAATGGTTCTCCTTCCGGGAACTCGCTCTGCATGGACAGCCGTATCGCCAAGGCGGACACCTACTTGTCCGTTGATGTGCCCCGCTGGATCAGCAAGACACTCGACGTCGGTGCGGAGCGCAGAGACTGGGCCGTCGGAGGGTTTTCGTTCGGCGGCACCTGTGCCATGCAGCTGGGCACCAGACACCCGGAGCTCTACACCTCCATCCTCGCTTTTGCCAGTGAGCAGGAACCGGCGCTGGCGAAGGAACGGGAAAAGACAGTGGAGGCTTCCTTCGGAGGAGACACGAAGGCCTTCGAAGCGCAGACCCCGCTCTACCTGATGAAACAACACAGGTACGAAGGAAGCGCAGTCTATTTCGCTGCTGGAGCCACCGACCCCGAGTTTACGGGCTACATGGACGTGCTCTCGGCTGCCGCCCGGGAGGCCGGCTTTGAGGTTGAAGTCCGTCACATCGCCGACTCAGGCCACTCGTGGGAGACCGTGTCCAAGGGTATGCAGGATGCGCTCGATTTCCTCGCTCCGCGCTGGGGCATCGGGCCTTGA	MARGRSGHWHRHLALADVDVIADIRLVDGPLFWAAWAAGTAGVIYLLWRRGKRWPLVPVLAIVSAIVIVAVVHWLLIYVFSSFPDELPREVLGWSVPALAGFLLWTTRLVPAGWKGRAAATAAMLGVLLLSSVQINAYFGLNRTVGDLLGTAVARIPSLEAGLTRQAGSAVPVPLAQWTRPEGLPSEGVLRKADIPGTSSGFDAREAYIYLPPAYQSRERPALPVLVLFSGQPGGPADWLTGGALRSHMDRFSARHNGVAPVVVVVDPNGSPSGNSLCMDSRIAKADTYLSVDVPRWISKTLDVGAERRDWAVGGFSFGGTCAMQLGTRHPELYTSILAFASEQEPALAKEREKTVEASFGGDTKAFEAQTPLYLMKQHRYEGSAVYFAAGATDPEFTGYMDVLSAAAREAGFEVEVRHIADSGHSWETVSKGMQDALDFLAPRWGIGP				NA	NA	NA	NA	NA
D1-17_01467	2541			hypothetical protein	TTGACCGCACTGTCCGGGGCCGACAGCGGGGACACCCTCGCCAGGGTGCTTCGACAGGCTATGAAGGCGACCCTGCGCCATTTCCGGGCTACTCCGTTGACGCTGGCCGTGCTGGCTGCTTTCGTCGCGGCCGGTGCCGTGACCGGCAGTTTTCTCGCCGGGCCGCCGGAGTCAATGCTGGACTTTGCCGCCGTCAATGCCGGGGGCCTCAAGGCCGGCCGCTGGTGGTCCCTGTTTACCTCCACGTTTTTCGCCACGAATCCCGCGGCCTACACTGGCGCAGCACTCATGATCCTGCTGCTGCTGGGGCTCGCCGAGAGGACGCTTGGCCCGGTATGGACGGCCGCGTTCTATTTCGGCGGACAGTTTGCCGCTGTGACACTTTTCCTGCTGATTACCCAGCTTGCGCAGCAGGCCGGTGATCCGTGGCTCGGACCCATGGCCAATACCCTTCTCATGGGGCCGTACGCACCTGTCCTCGCGGCGTCCCTCGCAGCCAGCGGACTTTTCCCGGCCCTGTGGCAGCGGCGGTTGCGGACGGCAGCGCTGTCCACGTCGCTGCTGCTGGTGCTGTATGTGGGGCATCCCGAGTCCGTTGCAGGCCTGCTGGGGGCATTGGTGGGCCTCGCCGCAGGATGGTGGATCCAGAGTAAACACGGAACGCTGCACCGGCACCGTTCCACAGGCCGCGAAACCCGTAACCTGTTGGCTTTGACGGTTGCCATCTTCGCCATCGGGCCAATCCTCACTGCGGCGGCAAGGAGCCCCGCCGGTCCGCTCGCCCTGCTGCGCAATGTTGTCCTCAACCCGCTGCCCACTTTGAGCCAGTTGGAGGAGAACTGCGGCGGCACACTGGACGCAGGCTGCCTGGAACTGGACAGGCAGGGACTCGGGGGGCCGCTGGGCCTGGCTCTCGCAGTGGTGCCGGTGATCCTGCTGCTGATCTGCGCCGACGGGATGCGGCGCGGCCGCACACTGGCACTCTGGATTGCTGTTGCCGTTCAGCTAAGCGTGGCCGCCCTCTCCGCTGTGTACCTGGCGCTCTTCGCCCGGATGGCCGGTTCCGGATCCGGTCAGGACACCGCGGTGCTGGAGTCAAAGTTCATGCACGTTCTGCCGCTGGTCGCTGTTCCGGTACTGCTGGTGGTGCTGCTGCTGGCGCACCGCCGTCACTTCCGCATCCAGACCTCGTCGCGGGCCATGCGGGCCCTGGTGCTCACGGTGGGCGGGACCTGGCTGGTGCTGGCCTCGCTCTACACCGCATCCTGGTTTGCCGCCGGCGGCCCGCGGAGGGACGGGGGTCTGCTGGTGCTGGCCGGTGAACTGGCGCGGCAGTACCTTCCGGTGCCCCTGCCCGGGCTCTACCGGAGGATTTTCGAAAACCGGAGTGCCCTGGAAACCGCGCTGTTTGCCTACTCGGGAGTCATTTTCTGGATAGTTGCGCTGGCAGGAGTCTGGATTGTCCTGCTGGGACGCCATGATCATTCCGACGCGGGGGCGGAGGACCGGGAGGCGGCCCGGAAGCTGGTGCGCCAGGGCGGCGATTCCCTCTCCTGGATGGCTTTGTGGGAACCCAACAAGTACTGGTTCCTGCCCGGCGGAGGTGCCGGTATTGCGTATCAACAGCATGGCAGCGTCGCACTGACCCTTGCCGGGCCCTTTGGTGATCCCCTCCAGCGTGAGGAGGCCGCTGAAGGCTTTCTGCGCTTCTGCTCCGAACGTGCCTTGATTCCGTGCTTCTATTCCTGCACTGACGGCTTATGGCCCATGCTGAGCGACCGTGGCTTTTCCCGGGTTTCGGTTGCCCAAGAAACCAAACTGTCGGTGCGCGAACTGGAGTTCAAGGGCAAGGAATGGCAAAACGTCCGCACCGCGCTCAACCGTGCCAAGAAACTCGGGGTAGAGGCACGCTGGGGCAGCTACAGCAGCCTGCCACAGTCGCTGCGGACCCAGTTGAGCGAAGTCTCCGAGGAGTGGGCAGCCCAGAAAACGGTCCCGGAGATGGGCTTCACCCTGGGCGGCGTCGACGAGCTGATGGACGACGACGTCCTGTGCTGCCTCGCCGTCGACAAGCAGGGCGTGGTGCACGGTGTGACGAGCTGGCTGCCGGCGTATGAACGCGGGCACGTGGTGAGCTGGACGCTGGACTTCATGCGGCGCCGCGGCGAAGGCTTCCCCGGCGTGATGGAGTTCCTGATCGCATCCGCCGTCCTGGAATTGCGGAAAACCGTGGAGGTCATCTCGCTCTCCGGTTCGCCGCTGGCGCAAGACCCCGCTGTTTCCGGGGACGGGGAACGGGAGCAGGTGACCGAGCTGCTTTCCGGCATCCTTGACGTCGTGGGCCGGGCACTGGAGCCAATCTATGGATTCAGGTCTCTGGCCACGTTCAAGTCACGTTTCAAGCCGCAGTACAGAACCCTTTATCTGTACTACCAGGATCCCCTGCAGTTGCCTGCCATAGGGCGCGCCCTGAGCCGCGCTTATCTGCCGGGACTTTCCATTCGGCAAAGCGCGCGCCTCCTGAAGACCCTGGTGAGCTAG	MTALSGADSGDTLARVLRQAMKATLRHFRATPLTLAVLAAFVAAGAVTGSFLAGPPESMLDFAAVNAGGLKAGRWWSLFTSTFFATNPAAYTGAALMILLLLGLAERTLGPVWTAAFYFGGQFAAVTLFLLITQLAQQAGDPWLGPMANTLLMGPYAPVLAASLAASGLFPALWQRRLRTAALSTSLLLVLYVGHPESVAGLLGALVGLAAGWWIQSKHGTLHRHRSTGRETRNLLALTVAIFAIGPILTAAARSPAGPLALLRNVVLNPLPTLSQLEENCGGTLDAGCLELDRQGLGGPLGLALAVVPVILLLICADGMRRGRTLALWIAVAVQLSVAALSAVYLALFARMAGSGSGQDTAVLESKFMHVLPLVAVPVLLVVLLLAHRRHFRIQTSSRAMRALVLTVGGTWLVLASLYTASWFAAGGPRRDGGLLVLAGELARQYLPVPLPGLYRRIFENRSALETALFAYSGVIFWIVALAGVWIVLLGRHDHSDAGAEDREAARKLVRQGGDSLSWMALWEPNKYWFLPGGGAGIAYQQHGSVALTLAGPFGDPLQREEAAEGFLRFCSERALIPCFYSCTDGLWPMLSDRGFSRVSVAQETKLSVRELEFKGKEWQNVRTALNRAKKLGVEARWGSYSSLPQSLRTQLSEVSEEWAAQKTVPEMGFTLGGVDELMDDDVLCCLAVDKQGVVHGVTSWLPAYERGHVVSWTLDFMRRRGEGFPGVMEFLIASAVLELRKTVEVISLSGSPLAQDPAVSGDGEREQVTELLSGILDVVGRALEPIYGFRSLATFKSRFKPQYRTLYLYYQDPLQLPAIGRALSRAYLPGLSIRQSARLLKTLVS	PGPT0024390_257	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
D1-17_01468	204	csp		Cold shock protein	ATGGCACAGGGAACCGTCAAGTGGTTCAACGCTGAAAAGGGCTTCGGCTTCATCACCCCGGACGACTCCGATGGCGATGTCTTCGTTCACTACTCCGAGATCCAGACCGGCGGCTTCAAGACCCTCGACGAGAACCAGCGCGTTCAGTTCGAGATTGGTCAGGGCGCCAAGGGTCCGCAGGCCACCGGTGTAACGCTGGTTTAG	MAQGTVKWFNAEKGFGFITPDDSDGDVFVHYSEIQTGGFKTLDENQRVQFEIGQGAKGPQATGVTLV	PGPT0014675_6602	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-17_01469	612	nucS	COG1637	Endonuclease NucS	GTGAAGGCGGACGGTTCGGTGCTGGTCCATTCCGACGGCGGCTCCTACAAGCCGCTCAACTGGATGAGCCCGCCCGCCACCCTTCGCGTTTCCACACCGGAGGAAGCAGACATTGAGGTCGGTGTGGTGGAGCAGTGGACGGTGCAGTCAGCCAAGACCGACGACAGGCTGATCATCAATATCCACGAACAGCTTCACGATACGTCACATGAGCTCGGCCAGGACCCTGGCCTGATCAAGGACGGCGTGGAGGCCGACCTGCAGCGGCTGCTGGCCGAGCAGATCGAGACGCTCGGCGATGGCTTCTCCCTCATCCGGCGCGAGTACTTCACGGCCATCGGCCCTGTGGACATCCTGGCGAGGGATGCGGACGGCTCCACCGTCGCCATCGAGTTGAAGCGCCGCGGAGACATCGACGGCGTGGAACAGCTGACCAGGTATCTGGAGCTATTGAACCGCGATCCCCTGCTGGCGCCGGTCCGCGGCATCTTCGCAGCCCAGCAGATCAAGCCCCAGGCACGTGTCCTTGCCGCCGACCGGGGAATCGACTGCATCACCCTGGACTATGACGCCATGCGGGGCGTGGACGATACCGAGTCGCGGCTCTTCTGA	MKADGSVLVHSDGGSYKPLNWMSPPATLRVSTPEEADIEVGVVEQWTVQSAKTDDRLIINIHEQLHDTSHELGQDPGLIKDGVEADLQRLLAEQIETLGDGFSLIRREYFTAIGPVDILARDADGSTVAIELKRRGDIDGVEQLTRYLELLNRDPLLAPVRGIFAAQQIKPQARVLAADRGIDCITLDYDAMRGVDDTESRLF				NA	NA	NA	NA	NA
D1-17_01470	234			hypothetical protein	ATGGGCTTTGAGCCGCCCAACATAATCAACAGAACAACGGGCTATGACAAGACGCACGCCGTACACACTACCGTGTCCGCACTGCCGCTCCCGCACGTGGTCCGGGGCCTTGGAGGGGAGGCCGCTGGGGCAGAATGGAAGCATGCCGCGTTCGAACCGTCCCCGCCGTTCCTCAGCAGGGCGGTCGTCGTCCGGCAAGGCCGGCGGCAAGCACGGCTCCGGACCTGTCCCTGA	MGFEPPNIINRTTGYDKTHAVHTTVSALPLPHVVRGLGGEAAGAEWKHAAFEPSPPFLSRAVVVRQGRRQARLRTCP				NA	NA	NA	NA	NA
D1-17_01471	183			putative protein	ATGACCGCCCGCAAGGCCGAGAAAGCCTACATCTGCCCTGGCTGCTCCACTGCCGTTTTGCCGGGCGTCGCCCATCTCGTGGTCTGGGCAGACGACCATCTGTTCGGCGCTGCTGCCGGGCTGGCCGAACGCCGCCACTGGCACACCAACTGCTGGACGTCGCGCAACTTCCGTTACCGCTGA	MTARKAEKAYICPGCSTAVLPGVAHLVVWADDHLFGAAAGLAERRHWHTNCWTSRNFRYR				NA	NA	NA	NA	NA
D1-17_01472	801			hypothetical protein	ATGACTTTTGACCCGTCGTCGTACGTTTTTTACCAGTCTGCAGAGGCCACTCCCATCCGCGCCGCCACGGTCCTTCCGGCCCGCCGCGAGAACATCGAAATCCGCACCGAGGATGGCCACGCCCTCGTGGGCGAGCTGGCCCTGCCGGAATCGGGAGAGATCAGCGCCACCCTGATTACACTGCATCCGCTGCCGACGCACGGCGGTTTCATGGATTCCCATGTTTACCGGAAGGCCTCGTACCGTTTGCCCGCGCTGGCCGGGGTGGCGGTGCTTCGCTTCAACACCCGCGGCACGTCATCACCGCGCGGCACCAGCGACGGCGTCTTTGAAGAGGGCATCGGCGAGCGGTACGACGTGGAGGCGGCAGTACGGTTTGCGGTTGAGAGGGGTCTTCCCAGCAGGTGGCTGGTCGGCTGGTCCTTCGGCACGGAACTTGCCCTGATGTACGGTGCGGTGGAGCCAGTCGCCTCCCAGGTGGAAGGCGCCATCCTGCTGTCACCCCCGCTGCACCGCGCCACGGACGACCACTTGCGGCAATGGGCCGCCTCAGGCATGCCGCTCACCGTCCTGGTGCCGGAACACGACGACTACCTTCGGCCCGCGGCTGCAGCGGAACGCTTCAGCCTGGTGCCGCAGGCGCGCGTGGTGGGGGTCGACGGCGCCAAGCACCTTTGGGTGGGGGAGAAACAGGCCGCACGGGTACTTAACGAAATTGTCGACGACGTAACGCGACAGGGTTCGGGCGCCGCGGGGCTGGCGCAGGAATGGAATGGGCCGGTGGCTTCGGCAACAGTCTGA	MTFDPSSYVFYQSAEATPIRAATVLPARRENIEIRTEDGHALVGELALPESGEISATLITLHPLPTHGGFMDSHVYRKASYRLPALAGVAVLRFNTRGTSSPRGTSDGVFEEGIGERYDVEAAVRFAVERGLPSRWLVGWSFGTELALMYGAVEPVASQVEGAILLSPPLHRATDDHLRQWAASGMPLTVLVPEHDDYLRPAAAAERFSLVPQARVVGVDGAKHLWVGEKQAARVLNEIVDDVTRQGSGAAGLAQEWNGPVASATV				NA	NA	NA	NA	NA
D1-17_01473	1431			hypothetical protein	ATGCGGCCCGAAGCCGCGGCACCACTGACGGAAAAGGCATCAAAAGCAGTGACTGAACACAGGGATCCGTCCACGCGCGGCCCGGAAAACCTGCCCGACGGCAGCTCCCTGGACGATTCTCACGAAGCCCGGCAGCCGACCGCGGCCGAACAGCCTCCGGCGGCCCCCCATGCACCGCCGTCTGACGAGGCTCCGCAGCATCACGCCTCGCAGCAACTCCGCCGAAACGTCCGTGCCGCTGCCCTCGGGTCCGTGCTGAAGCGGCTGCGCCAGCCGATTCCCGGCGCGCAGCCCCGGCTGCGGTTCGAAATGCCCCCCGAGCAGGTGGACAGGTTCGAGGCTGAAAGCCGGGACGCGGACGAGGACGAGCCGTTCGGGGCGCCCGGCCCGCGGATTTCCGCCCAGCATCCCTTGTACCTCGGCTTCATGGGTACTGTCGGCGTCGGCCTTGCCCTGCTGGTCTACTGGATCGGCTCCAATAACACCCAGCTTCTCCTCTGGATTGTCGCAGCGCTGTTCATCGCGCTGGGGCTTGATCCTGTCGTGCGCTGGCTGGAAACCCGCAAGATCCCCAGGCCGGCCGGAATCCTTGTGTCCGTCTCGGTACTGGTCACTGCCGTCGTCGGCTTCTTCGCCACGCTCATTCCCACGATCGTGGAGCAGGTCACGGAGCTCGTTAAGCAGGCCCCGGTGTGGGTCCGGGACTTCGTTGATTCAGAGTTTTTCCGGAGCCTGGACAGCCAGTTCGGAGTCCGCGAGCGCATCAACGAGGAGCTGGACAAGTTCGTCAAAAACCCCGAGGCCATGGGCGGTATCTTCGGGGGCGTCGTCGGCTTCGGCTCGACAGTGGCCAATGGACTCTTCGGCGCACTGATCGTCCTGGTGCTCAGCCTCTACTTCCTGGCCGCACTGCCGGCGATGAAAAAGTGGGGCTACCGTCTTGCCCCGCGGTCCCGGCGCGCCCGGGTCGAGGCGCTGTCCGAGGAAATCAGCCGTTCCGTGGGCAACTACGTGATCGGGCAGGCGGTGGTAGCACTCCTGAACGCCACCTTCGCCTTCATCGTCATGACCATCATCGGTGTGCCGTTCGCTGTCCTGCTTGCCTTTGTTGTGGCCCTGCTGGCCTTCATCCCCCTTGTCGGCGGACTGATCGCCGGCGTCGTGGTCATCCTCATCACCTTGACACTGGGCTGGCAGCCGGCCGTCGCCTACGCCATCTGCTACTTCGCCTACCTGCAGTTCGAGGCGTACTTCATTTCGCCCCGCATCATGCAGAAGGCCGTCGCGGTACCCGGCGCCGTGGCCGTGATCTCCGTGATTGCGGGCGGCAGCCTCCTGGGCGTCCTCGGAGCCCTGATCGCCATCCCCACCGCGGCCGCCATCCTGCTCCTTGTCAAAGAGATCTATATCGTCCGGCAGGACAACCACTAG	MRPEAAAPLTEKASKAVTEHRDPSTRGPENLPDGSSLDDSHEARQPTAAEQPPAAPHAPPSDEAPQHHASQQLRRNVRAAALGSVLKRLRQPIPGAQPRLRFEMPPEQVDRFEAESRDADEDEPFGAPGPRISAQHPLYLGFMGTVGVGLALLVYWIGSNNTQLLLWIVAALFIALGLDPVVRWLETRKIPRPAGILVSVSVLVTAVVGFFATLIPTIVEQVTELVKQAPVWVRDFVDSEFFRSLDSQFGVRERINEELDKFVKNPEAMGGIFGGVVGFGSTVANGLFGALIVLVLSLYFLAALPAMKKWGYRLAPRSRRARVEALSEEISRSVGNYVIGQAVVALLNATFAFIVMTIIGVPFAVLLAFVVALLAFIPLVGGLIAGVVVILITLTLGWQPAVAYAICYFAYLQFEAYFISPRIMQKAVAVPGAVAVISVIAGGSLLGVLGALIAIPTAAAILLLVKEIYIVRQDNH				NA	NA	NA	NA	NA
D1-17_01474	1728			hypothetical protein	TTGCGTTTCAAGACTGCAGTTGCACTCGTGCTGCTCGGCCTCCTGACACTGCTTGCCGGGATCGGACAGAAGACGGTGTGGGCTCCTGCCGAGACCGTGACGGCTACCGCTCCCTCGAATGCTGAAGCCGCACCCCTGACCGTTATCGACCAGAAGCTCCGGACCGTCGAAGGCGGAACCGTGACCCTCAAGGTCAAGGGTGAGGGGAACTTCCTCCTCGCCGCAGGCCGCCCTGACGACGTCACTGCCTGGGTGGGCAAGACGGCGCACAACACTGTTACCGGGCTGTCCGAGGACAAGAAGTCCCTGCAGGTGGAACGCACCGACGGCGAGGCTACCGCGCCGTCGCCCGCCGGCTCCGACCTGTGGGTGTCGAGTGAAAACGCCAGCGGGGAACTGGACTACACCTGGACGGCACCGGCCGACGGCGAGTGGTCGCTCCTGCTGGCCTCCGACGGCACGAAGCCCGCACCCTCCTCGATCGAGATGACCTTCCCGAACGACACCTCCACGCCGTGGGCTGTTCCGCTGATGGTGATCGGCGGGCTGCTTATGATTGCCGGTCTGGCCCTGCTGGTCCTCAAGCCCGGCCGCGGAACCCCCGGGGCAGGGGGCCAAGGCGGTACCAAGGCGGCCCTCGGCAGCCTCTTCGCCAAGCGGGCCACGGCTTCGACCAAGTCCGGAACCTCTGCGAAATCCGGAACCGGTTCCTCCCGCCTGAGCATCCTCGTGGCAGCTTCGACCGCAGCGATACTTGCCGGAACCGGTGCTGCAGCCAACGCCAGCCAGTCTCCGGAACCTGCTGCCACCGGCGGTGCGGCCTCACCCGTCGCTACCTCCGGTGAAGCTCCAGTGCTCCTGGACGCCCAGTTCCGCAGGATCCTTGAACAGGTAGCCAGCGCCACCAATGCCGGTGACGCCGCAAAGGATGCCAAGAAGCTGGCAAGCCGCGTTGCAGGAACGGAACTGCAGGTACGCACGCAGAACTACAAGATCCGCTCGCGCGTGGCTTCGTACGATGCACGCATGCCCGTCCGTGCCACCAAGCTGCTCACCACAGTCGTCACCGACAAGCGCGCCTGGCCGCGCCAGGTCCTGGCGGTCACGCAGGGCGAGGGCAACGTGGTGCCCCAGCTGCTGACCCTGACCCAGAAGTCCCCCCGGGAAAACTACAAGCTCGTAGGCACCAGTCCGCTGCAGCCCGGCACCACGTTCCCGTCCATTGCCCGGAACGGCACCGAGTCCCTCGATCCCGGCGACAAGTCGGGTCTGCTGTACAGCGGCCAGGAAGCCCTTGCCGGCCTTGCCGACCGTCTGTCCAAGGAGAGCTCAACCTTCAAGAGCAAGCTGGTCGAGGGCCAGTCCTCGCCGTACATCGCCGATACGCTGTCCTACCAGACCGACGTGGTGAAGTCCGGAGTCAACGGTAAGTTCGTGTTCACCCACAAGGTGCAGCCGGACAGCACCGTAGTCTTCCGCACCTCCGATGGCGGTGCCCTGGTACTTGGCCGCCTGACGTTCAACTTCGATGGCACTCCGAAGTCTGAGGGTGACAAGCTGACGATCGGAAACGACGCTGCCGTCCTGGCGGGCGGCAAGGAGACCACCACCGGCATGGTGCTGAACTTCGCCGAATCCGTGGCCGTCTACGTACCGCCGACCGGGTCGAAGGACCCGATGAAGCTCGTGGCGGCCACCCGCGGACTCGTCGGAGCCAGCTTCAAGTAG	MRFKTAVALVLLGLLTLLAGIGQKTVWAPAETVTATAPSNAEAAPLTVIDQKLRTVEGGTVTLKVKGEGNFLLAAGRPDDVTAWVGKTAHNTVTGLSEDKKSLQVERTDGEATAPSPAGSDLWVSSENASGELDYTWTAPADGEWSLLLASDGTKPAPSSIEMTFPNDTSTPWAVPLMVIGGLLMIAGLALLVLKPGRGTPGAGGQGGTKAALGSLFAKRATASTKSGTSAKSGTGSSRLSILVAASTAAILAGTGAAANASQSPEPAATGGAASPVATSGEAPVLLDAQFRRILEQVASATNAGDAAKDAKKLASRVAGTELQVRTQNYKIRSRVASYDARMPVRATKLLTTVVTDKRAWPRQVLAVTQGEGNVVPQLLTLTQKSPRENYKLVGTSPLQPGTTFPSIARNGTESLDPGDKSGLLYSGQEALAGLADRLSKESSTFKSKLVEGQSSPYIADTLSYQTDVVKSGVNGKFVFTHKVQPDSTVVFRTSDGGALVLGRLTFNFDGTPKSEGDKLTIGNDAAVLAGGKETTTGMVLNFAESVAVYVPPTGSKDPMKLVAATRGLVGASFK				NA	NA	NA	NA	NA
D1-17_01475	1023		COG3118	putative protein	ATGAGTTCGCCAGCTTCCCGACCTGTCCCTCCAGCCGCCGCAAGCCAGCTCAACCTCCGCGGCGCCGTCGACCTTTCCGCCCTCAAGCAGCGCCAGGCGCCGCCTGCAGGAGGCCCCGCCGGTGCTGGGTCCGGTGCCATACCCGGTGCTGCGCCTGGTGCCGTGCCTTCGGCGGATACGCCGGAATCCGCAACAGGGGAAACCCCTGCCCTCCGTGTGGAAGTCACCGAAGGAAATTTTCAGGATCTCGTGCAGCTTTCTGCGCAGGTACCTGTGGTGTTCGCACTCTGGGCACCGTATTCCCCCGAATCTGCCGGGGTGCTCGATGCCTTGGAACGGATGGTGCAAAGCTATGCCGGCCGGCTGGTGCTCGGCACCGTGGACGTCGACGTCTTCCCGCAGCTCGCCCAGGCGTTCCAGGTCCAGGCCGTGCCCACCGCGGTGGCGGTGCTGAAAGGCCAGCCCGTGCCGCTCTTCCAAGGCGGGGCGGACGAACAGCAGATCCAGGCACTGCTTGATGAGCTGCTCAAGGTTGCCGCGGCCAACGGTGTGACCGGAAACGTCGGGGGAGCAGCTCCGGGGGAGCCTGCTCCTGCCCCGTTGCCCCCGATGCATCAGGCCGCCTTCGACGCCATCGAGGCGGGCGATTATGATGCGGCCGCTGAAGCCTACCGCCGGGCCCTGGCCGAGATGCCGACCGATGCCGAGGCCAAGGCCGGCCTGGCCCAGGTTGAGCTGATGGGCCGGCTCCAGAAGCTCTCGGGGCCCGACGGTGAGGCCCTCCGGCAGGTGGCCGCCGACGAGCCGGACAACCTGGACGCCCAGCTGGGGGTCGCCGACCTTGATGTTGCCGGCGGCCACGTGGAGGACGCCCTCAACCGTCTGGTGGCATTCATCGGACGGAACTTCGGCCCCGAGCGCGAGACCGCCCGCGTGCGGCTGCTTGAGCTGTTCGAGGTCGTGGGAACCTCCGATCCGCGCGTGGTGAAGGCGCGCCAGGCTTTGGCGAGGGTGCTCTTCTAG	MSSPASRPVPPAAASQLNLRGAVDLSALKQRQAPPAGGPAGAGSGAIPGAAPGAVPSADTPESATGETPALRVEVTEGNFQDLVQLSAQVPVVFALWAPYSPESAGVLDALERMVQSYAGRLVLGTVDVDVFPQLAQAFQVQAVPTAVAVLKGQPVPLFQGGADEQQIQALLDELLKVAAANGVTGNVGGAAPGEPAPAPLPPMHQAAFDAIEAGDYDAAAEAYRRALAEMPTDAEAKAGLAQVELMGRLQKLSGPDGEALRQVAADEPDNLDAQLGVADLDVAGGHVEDALNRLVAFIGRNFGPERETARVRLLELFEVVGTSDPRVVKARQALARVLF				NA	NA	NA	NA	NA
D1-17_01476	1104	namA	COG1902	NADPH dehydrogenase	GTGGTGGTGCCGGCCCTTTTCACGCCGCCGTCCCTGCGCTCACTGCAGCTGCAGCACCGTGGCTGGGTTTCCCCCATGTGCCAGTACAGTTGCGACCCCGATGCTGCGCCCGGGGTGCCGAACGACTGGCACCTGATGCACCTCGGTTCCTTCGCAACCGGGGGAGCCGCCCTGATCCTCACGGAAGCAGCAGCGGTGAACCCTGCCGGGCGGATCAGTCCGCGGGACGCCGGTCTTTACAACGGGGAACAGGCCGAGGCCTGGGAGCGCATCGTCGGATTCGTGCACCGGCACGGAGTGGCGGATGCCAAGATCGGCGTCCAGCTCGCCCACGCCGGCAGGAAGGCTTCCACCTACTGGCCTTTCGCCGGGAACAAGGGTTCCGTTCCCGCTTCTGACGGCGGCTGGGACACCGTGGGGCCAGGCACCTCTGCTTTTGACGGCTATGCTGCACCTTCCGCCATGACAGAGGATGACATTCAGGGTGTCATCCGCGATTTTGCCGCTGCCGCCGCCAGGGCGGTTGACGTCGGTTTTGACACAGTGGAGATCCACGGTGCCCACGGCTACCTGCTGCATCAGTTCCAGAGCCCCCTGGTGAACCGCCGCACCGATGCCTGGGGAGGCGACTCCGCGGGCAGGAACCGGCTGATGCTTGCCGTGGTCGACGCCGTGCGAGGGGTGATCCCCGATGCCATGCCGCTGCTCCTGAGGATTTCCGCCACGGACTGGGCTGAGGGTGGAATCGGCATTGAGGACTCCGTGCAACTTGCCGCGCAGGCCGCCGAACACGGCGTTGACCTCGTCGACGTCTCCAGCGGAGGAGCCGTGGCCCACCAGCAGATCCAGCCGGGTCCCGGGTACCAGACGGGTTTCGCCGCCCGCATCCGCCGTGAGGCGGGTATCGCCACCGGAACGGTCGGACTCCTGACGTCCCCCGGGCAGGCGGAGCATGTGGTGGCCACCGGACAGGCCGACGGCGTCTTTATCGCCCGGGCAGCCCTGCGGGACCCGCATTGGTGGCTGCGGGCAGCCTTCGAACTGGGCTACGACATGAAGTGGGCTCCCCAGTACGAGCGGGCAGTGCCCCGGCGCACCTTCTGA	MVVPALFTPPSLRSLQLQHRGWVSPMCQYSCDPDAAPGVPNDWHLMHLGSFATGGAALILTEAAAVNPAGRISPRDAGLYNGEQAEAWERIVGFVHRHGVADAKIGVQLAHAGRKASTYWPFAGNKGSVPASDGGWDTVGPGTSAFDGYAAPSAMTEDDIQGVIRDFAAAAARAVDVGFDTVEIHGAHGYLLHQFQSPLVNRRTDAWGGDSAGRNRLMLAVVDAVRGVIPDAMPLLLRISATDWAEGGIGIEDSVQLAAQAAEHGVDLVDVSSGGAVAHQQIQPGPGYQTGFAARIRREAGIATGTVGLLTSPGQAEHVVATGQADGVFIARAALRDPHWWLRAAFELGYDMKWAPQYERAVPRRTF	PGPT0005575_510	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0005575-namA-K09461	NA	NA
D1-17_01477	765	drrA		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGAGTGTTCCCGCCGCGGCCCTGTCCATCAGGGGGCTCGCGAAGCGCTTTGGAGGCAAGATCGCCGTCGACGGCATCAGCCTGGAAGTTCCCGCGGGCTCCTTCTTCGGAATTGTCGGGCCGAACGGTGCAGGCAAGACCACCACGCTGTCCATGGCGACTGGCCTGCTGCGGCCCGATTTCGGCACGGCAATGGTGCACGGCGTAGACGTATGGGACCGCCCCCTGGAAGCGAAGAAGCTGCTGGGCATCCTGCCCGACGGCGTCCGGCTTTTCGACCGGCTCACCGGCGAACAGCTCGTGACCTACGCAGGGCTGCTCCGGGGCATGGACAAGACTGTCGTCGCTTCCCGCGTGTCCGAGCTGCTGGCTGCTCTGGACCTGAGTCCGGACGCCGGGACGCTGGTGGTCGACTATTCCGCGGGCATGACCAAGAAAATCGCGTTGGCCTCGGCGCTGATCCACGCACCGAGGGTGCTGGTGCTGGACGAGCCCTTTGAATCGGTGGACCCGGTTTCGGCCTCGAACATCCGCGACATCCTCGTCCGCTACGTTGCGTCCGGCGGGACCGTAATTGTCTCCAGCCATGTCATGGACCTCGTGCAGCGGATGTGTGACCACGTGGCCGTGGTTGCCCATGGAAGGCTGCTCGCCGCAGGGACAGTGGCGGAAGTCCGAGGCGGCATGAGCCTGGAAGAACGCTTTGTGCAGCTGGTGGGCGGAAGGGTCCAAACCTGGGGACTCGAGTGGTTGCGCACCTTTTAA	MSVPAAALSIRGLAKRFGGKIAVDGISLEVPAGSFFGIVGPNGAGKTTTLSMATGLLRPDFGTAMVHGVDVWDRPLEAKKLLGILPDGVRLFDRLTGEQLVTYAGLLRGMDKTVVASRVSELLAALDLSPDAGTLVVDYSAGMTKKIALASALIHAPRVLVLDEPFESVDPVSASNIRDILVRYVASGGTVIVSSHVMDLVQRMCDHVAVVAHGRLLAAGTVAEVRGGMSLEERFVQLVGGRVQTWGLEWLRTF	PGPT0006725_21179	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-17_01478	990			hypothetical protein	GTGGTTGCGCACCTTTTAAGGCTTAAACTCACCCTGCTGCGGAACGGCCTGCGGCGAAGTCCACTGCAGCTTATCGGTCTCGCGATCGGAGGACTGTATGCCCTGGGCATCGTGGGCGCCTGTGTGGCGGCGCTGTTGATTCTCCGCCAGGAAGACCTTCTCCTTGCCCAGACGGTTGTGGTGCTCGGGGGCGCCGCGATCCTGCTTGGCTGGGGGATTCTGCCCGTGGTTGCGGCCGCAGCGGACTTGACGCTGGACCCCGCCCGGTTCACCACATCCGCCGTTCCGATGCCGCAGCTGCTGGCAGGACTCGCGCTCGGCGGGCTGATCGGCATTCCCGGACTGGCCACAGCCCTGGTGGCCCTGGCCACCGTGGGCACGTGGTCGAGGGGCCTGCTGCCCGCCGCAGGCGCGCTGGTGGGAGCCGCTGTGGCGGTGCTGAGCTGCATCGTGTTGTCCAAAGTCGTCACCACAGCGACGGCCAGCCTCGCTGCATCGCGGCGCTTCAAGGACGCCAGCGGGCTCGCCTTCATGGTGCCCCTTGTCCTCATGGGCCCCCTCATGGCAGCGATCGGCCAAGGTATTTCAGAGTCAGCCGGCTTCCTCGCGGAACTGGCCCGGACTCTCTCATGGACACCGTTGGGAGCGGCCTGGTCGCTCGGCGGCGACCTTGCAGCGGGCCGGGTCCTGGACGCCGTCCTGAAGCTCCTCATTGCCGCCGCCACGCTCGCCGGCCTTATCTGGTGCTGGAAGCTGCTGCTGCAGCGTGCACTTGTTACGCCGCCCTACTCCGGAAGCGGCCGCAGATCCGGAGGCCGGATCGGGCTCTTCGCGCTGTTCCCTGCCACGCCCACGGGTGCCATTGCTGCCCGTTCACTGACTTACTGGTTCAGGGACCCGCGGTACTCCGGATCCTCGTGGCCGTTCCGCTCCTGCCGGCGCTGCTCGTGTTCCAGGGGAGCCAGACCGGAGACTTCAGCGTCGTCATGA	MVAHLLRLKLTLLRNGLRRSPLQLIGLAIGGLYALGIVGACVAALLILRQEDLLLAQTVVVLGGAAILLGWGILPVVAAAADLTLDPARFTTSAVPMPQLLAGLALGGLIGIPGLATALVALATVGTWSRGLLPAAGALVGAAVAVLSCIVLSKVVTTATASLAASRRFKDASGLAFMVPLVLMGPLMAAIGQGISESAGFLAELARTLSWTPLGAAWSLGGDLAAGRVLDAVLKLLIAAATLAGLIWCWKLLLQRALVTPPYSGSGRRSGGRIGLFALFPATPTGAIAARSLTYWFRDPRYSGSSWPFRSCRRCSCSRGARPETSASS	PGPT0006730_1519	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-17_01479	585			hypothetical protein	ATGATCGCCGGACCGCTGACCGCCTTTCTCCTCGCCTGGTCCATCTCTGCGGACGTGTCCTACGACAACACCGCCTTCGCCCTGCATCTTGCCGCAGGAGTCCCCGGAGTGCACGACCGACTGGGCCGGGCCCTGGCGTGCCTCGTCTTTGCGCTGCCTACCGTGCTGATCCTGGCCGCAGGGCCATTCTTCCTGATCGGGGACTGGGCGTGGCTCCCGTCCGTACTGGGGCTGTCCCTCGGAATCCTGTTCACCGGCCTTGGACTCGCGTCCCTGGTTTCGGCCCGGTACACCACCGCGGTGCCGCTCCCCGGCGACAGCCCGTTCAAGAAACCGCCGGGCAACGTGGCCCAGACGCTCGCCGTGCAGTTCGGCGGCATGGCCGTTCTGGCCGTGCTGACTTTGCCCGAAGCCGGCCTGGTTATCGCCCAGGCTGTCACCGGTGACCCTGTCTTTGGCTGGGCCAACCTTGCCCTCGGGCCGCTGCTCGGAGGCGCCCTCCTTACCACGGGGGTACGGCTGGGCGGCCGGTGGCTGGATGCCCGCGCTCCGGAGCTGCTGGCGCAGCTCACGGTCAACCGGTAG	MIAGPLTAFLLAWSISADVSYDNTAFALHLAAGVPGVHDRLGRALACLVFALPTVLILAAGPFFLIGDWAWLPSVLGLSLGILFTGLGLASLVSARYTTAVPLPGDSPFKKPPGNVAQTLAVQFGGMAVLAVLTLPEAGLVIAQAVTGDPVFGWANLALGPLLGGALLTTGVRLGGRWLDARAPELLAQLTVNR	PGPT0006730_1519	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-17_01480	783	nagB_1	COG0363	Glucosamine-6-phosphate deaminase	GTGGAAGTCGTGATCCTTCCTGGCGGCAGGCAGATCGCCTCCGTGGCGGCCGACGCCATCCAGGCCCTCCTTAGGCGCAAGCCCGATGCGGTCTTGGGGCTGGCGACCGGATCCTCACCCCTTCCCATCTACGACGAACTCGTGCAGCGTTACGAGCGGGGCCTGCTGGATTTCAGCCGCGTGCAGGGTTTCCTGCTGGACGAATACGTGGGACTGGAACCCGGCCACCCCGAGTCCTACCGCGAGGTCATTCGCAGGGACTTCGGCGGGCGGGTGAATATCGCCCCGGACAATGTCCACGGTCCGGATGGCAGCGCTTCTGATATTCCCGCTGCATGCCGCGTTTACGAGGATGCCATCCGGGACAGCGGCGGGGTGGACCTGCAGCTGCTGGGACTGGGCACCGACGGGCATATCGGCTTCAATGAGCCGGGTTCCTCGCTCGCGTCGCGGACGCGCATCAAAACCCTCATCGAACAGACGCGCCGGGACAATGCCCGCTTCTTCCATGGGCTCGCCGACGTGCCCCACCATGTGCTGACCCAAGGGCTGGGCACCATCCTAGAATCGCGGCACGCCGTCCTGGTGGCGACGGGGGCCCAGAAAGCCCAGGCCGTCCATGACCTCGTCGAAGGGCCGTTGGCCGCCGTGTGCCCGGCATCCGTCCTGCAGCTGCACCCGCATGCCTCCATCCTGATCGACGAGGCCGCAGCGTCGTCCCTGAAACTCGCCGATTACTACAGGCATTCCTATGACCACAAGCCCGCGTGGCAGGAGCTGTAG	MEVVILPGGRQIASVAADAIQALLRRKPDAVLGLATGSSPLPIYDELVQRYERGLLDFSRVQGFLLDEYVGLEPGHPESYREVIRRDFGGRVNIAPDNVHGPDGSASDIPAACRVYEDAIRDSGGVDLQLLGLGTDGHIGFNEPGSSLASRTRIKTLIEQTRRDNARFFHGLADVPHHVLTQGLGTILESRHAVLVATGAQKAQAVHDLVEGPLAAVCPASVLQLHPHASILIDEAAASSLKLADYYRHSYDHKPAWQEL	PGPT0018865_1760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018865-nagB-K02564	NA	NA
D1-17_01481	342			hypothetical protein	ATGGATGGCATGACTAGCATGACGGATCCTCTCGACAACGACCCCATGCGTGAGCTCTCCGGCGCCGGATCGTCCACAGCCACAATTGAGCGCGAGGAACTGCGCCAGGAAGTGGAACCGGGCGACCGTGAGCGCTTTTCGCATTACGTCCGCAAGGAAAAGATCATGGAGTCCGCGCTGACCGGCGAGCCCGTTATCGCGCTGTGCGGCAAGGTCTGGACGCCCGGACGCGACCCGCAGAAATTCCCGGTCTGCCCGATGTGCAAAGAGGTCTATGACGGCCTGCGCCCGGGAAATGATGGCGGCAAGGGGTCCGGCGGGGACTCAGGCAACAAAAAGTAG	MDGMTSMTDPLDNDPMRELSGAGSSTATIEREELRQEVEPGDRERFSHYVRKEKIMESALTGEPVIALCGKVWTPGRDPQKFPVCPMCKEVYDGLRPGNDGGKGSGGDSGNKK				NA	NA	NA	NA	NA
D1-17_01482	1779			hypothetical protein	GTGACGGAGACACTCTTCGGCGGACCCACCCTGCCTCCGGCTTACCCGGAACGTGCAGCCTGGGGAACCGCCCCGAAGCTCCGTGCCTGGCAGCAGGAAGCCTTGGACCGCTATTTCAGCACCCATCCGCGGGACTTTCTCGCCGTGGCCACCCCCGGCGCCGGTAAGACGACCTTCGCCCTCCGCGTCGCGTCCATGCTCATCGACGCCGGTACCGTCAACCGGGTGACCATTGTGGCTCCCACTGACCACCTGAAGAGGCAGTGGGCGGATGCTGCGGCGCGCGTGGGAATCGCAATTGATCCGAACTTCAAGAACTCCGACGGCCAGCACGGCCGCGGCTTCATCGGGGTTGCGGTGACCTATGCGCAGGTGGCCAGTAAGCCGCTGCTGCACCGGGCTAAAACCGAGGCAGCCCGGACGCTGGTGATCCTGGATGAGATCCACCACGGCGGCGAGGCCCTGTCCTGGGGTGACGGCCTGCGCGAGGCATTTGACCCCGCGGTGCGGCGCCTGTCCTTGACGGGCACCCCCTTCCGCTCGGACACGTCGCCCATCCCCTTCGTAGAGTACGCGGAGGACCGTGACGGCATCAGGCGGTCGAAGGCGGACTACACGTACGGGTACGGAAACGCGCTGCGTGACCACGTGGTGCGCCCCGTCATCTTCATGGCGTACTCGGGTCAGATGCGCTGGCGGACCAGCGCAGGCGAGGAAATGGCTGCGTCGCTCGGCGAGGCAGCCGTGACCAAGGACATTACGTCCCAGGCATGGCGGACTGCCCTCAACCCTGCCGGAGAGTGGATTCCCGCTGTGCTGGCCGGAGCGGACAAGCGGCTCAGTGAAGTGCGCCGGTCTGTGCCCGATGCGGGCGGCCTGGTGATCGCAACGGACCACGAGGACGCGAGGGCGTACGCGGGCCAGCTGAAGAGGATCACCGGCGAGTCGCCCACCGTCATCCTTTCGGATGACGCGAAGGCGTCGAGCAAAATTGAAGAATTCTCGGCCAACGACAAGCGCTGGATGGTGGCCGTCCGCATGGTGTCCGAAGGTGTGGACGTGCCGCGTCTTTCCGTGGGCGTCTACGCCACCTCGACCTCCACGCCCCTGTTCTTCGCCCAGGCTGTCGGCCGTTTCGTCCGCGCCCGAAAACGCGGCGAGACAGCATCGGTGTTCCTGCCGTCGGTGCCGCAGCTGATGGCGCTGGCCAACAGCATGGAAGCCGAGCGGGACCACGCCCTGGACCGGCCGGAGAAGGAAGACGGCGACGGCCTCTTCAATCCGGAGGATTCGCTCATGGACGAGGCGAACCGCGAGGACAAGGCCTCGGACAGCCTGACCAAGGGCAAATTCGAGGCATTGGATTCCCAGGCGTCCTTTGACCGAGTGCTGTTCGACGGCGGTGAGTTCGGTACCGGCGGCGACATCGGTTCCGAGGACGAGCTCGACTTCCTGGGCATCCCGGGCCTGCTGGACGCCGAACAGGTGGGGATGCTGCTGCGCCAGCGCCAGCATGAGCAGCAGAGCCGGAAAAAGCGGCAGGCACCGGTAACGGCTCCGCCCGAGCAGGCACTCCCGGACCACCGGATGCTGATGGACCTGCGGAACGAGCTCGCCAAGAACGTAGCGGCCTGGTCCGCCCGGACGGGAACACCCCACGGCGTGGTCCATACCAAGCTGCGCACTGTCTGTGGCGGCCCGCCCGTGGCCCAGGCCAATGAGCAGCAGCTGCAGTCCCGGCTGAAGAAGCTGCAGGACTGGTTCGTCGGGCGCAAGTAG	MTETLFGGPTLPPAYPERAAWGTAPKLRAWQQEALDRYFSTHPRDFLAVATPGAGKTTFALRVASMLIDAGTVNRVTIVAPTDHLKRQWADAAARVGIAIDPNFKNSDGQHGRGFIGVAVTYAQVASKPLLHRAKTEAARTLVILDEIHHGGEALSWGDGLREAFDPAVRRLSLTGTPFRSDTSPIPFVEYAEDRDGIRRSKADYTYGYGNALRDHVVRPVIFMAYSGQMRWRTSAGEEMAASLGEAAVTKDITSQAWRTALNPAGEWIPAVLAGADKRLSEVRRSVPDAGGLVIATDHEDARAYAGQLKRITGESPTVILSDDAKASSKIEEFSANDKRWMVAVRMVSEGVDVPRLSVGVYATSTSTPLFFAQAVGRFVRARKRGETASVFLPSVPQLMALANSMEAERDHALDRPEKEDGDGLFNPEDSLMDEANREDKASDSLTKGKFEALDSQASFDRVLFDGGEFGTGGDIGSEDELDFLGIPGLLDAEQVGMLLRQRQHEQQSRKKRQAPVTAPPEQALPDHRMLMDLRNELAKNVAAWSARTGTPHGVVHTKLRTVCGGPPVAQANEQQLQSRLKKLQDWFVGRK				NA	NA	NA	NA	NA
D1-17_01483	666	pncA	COG1335	Nicotinamidase/pyrazinamidase	ATGTCACGGGCACTGATCATTGTCGACGTTCAAAACGACTTCTGCGAGGGCGGCGCGCTTCCCGTCGAGGGCGGCGCGGCGGTAGCGGGGGCGATCAGCGAGTACGTCGAATCGCACCATGGCCAGTTCGACCACATCGTGGCCACGCAGGATTGGCACATCGACCCGGGCCCGCACTTTTCAGAGTCACCCGACTTCAAGGACAGCTGGCCGCCGCACTGCATAGCGGGATCGCCCGGCGCCGAACTTCATCCGGACCTCGACACGGAACACATCCAGGCATATTTCCACAAAGGGCAGTATGCGGCAGCGTACTCCGGCTTCGAGGGCCTGCTTGCGCCCGAGGACGCCGTGCCCACCGGGGAACGGAAGCCCGGCGCCCTCGCAGCTCCGGCCGACCCTTCTCCCGGCGATCCTTCAGCAGGCGAGGACGACTACGCGCCCGGGGAAGACTCGATCGGCCTGGACGACTGGCTGCAGAGCCACGACGTGGAGGATGTCGTCGTAGTGGGCCTCGCCACCGACCACTGCGTCATGGCCACCTCACTGGACGCTGTGCAGGCCGGCTATTCCGTCACCGTGATCAAACGCCTGACCGCCGGCATCGCCGAGGACCTGGACGATACTTACGCCGAGATGGAATTGGGCGGCGTGGACCTCGAATAG	MSRALIIVDVQNDFCEGGALPVEGGAAVAGAISEYVESHHGQFDHIVATQDWHIDPGPHFSESPDFKDSWPPHCIAGSPGAELHPDLDTEHIQAYFHKGQYAAAYSGFEGLLAPEDAVPTGERKPGALAAPADPSPGDPSAGEDDYAPGEDSIGLDDWLQSHDVEDVVVVGLATDHCVMATSLDAVQAGYSVTVIKRLTAGIAEDLDDTYAEMELGGVDLE	PGPT0013470_374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
D1-17_01484	1329	pncB1	COG1488	Nicotinate phosphoribosyltransferase pncB1	GTGAGTACCAATGCCGGCTGGACCCAGCCCCGCACGTCCCTGTTCACTGATCACTACGAGCTGACCATGCTGCAGGCCGCGCTCCATTCCGGCGCCGCGCACCGTAAATCGGTCTTTGAGGCTTTCGCCCGCAGGCTTCCCGACGGCCGCCGCTACGGGATTGTCGGAGGCACCGGACGTCTTCTCGAGGGGATCACGGCCTTCCGCTTCGGCGAGGCTGAACTGGAATTCCTTGGCCGCACCGGGGTGGTCAATCGGGAAACTTTGGACTACCTGGCAAATTTCCGTTTCACCGGGGATATCTGGGGTTATGCCGAGGGTGAGGCCTACTTCCCCAACTCCCCCATCCTGATCGTGGAGGCTACGTTCGCCGAGGCCTGCATCCTGGAGACCTACATCCTGTCCGTGCTGAACCACGACAGCGCCATCGCCTCCGCGGCCTCGCGGATGGTCACGGCTGCGGGTACGCGGCCCTGCATCGAAATGGGCTCCAGGCGGACGCAAGAGGAATCGGCCACCGCTGCCGCCCGCGCCGCGATCATCGCCGGCTTTGACAGCACCTCGAACCTGGAGGCGGGACTGCGCTACGGCATCAAGACAGTGGGCACCGCCGCCCACTCCTTTACGCTGCTGCATGACACCGAGCGCGAGGCGTTCGAGGCGCAGGTCGCCTCGCTGGGAACCGGAACGTCGCTGCTCGTGGATACGTACGACGTCGAAACGGCCGTCCGTACGGCCGTCGAGATTGCCGGGGCCGGGTTGGGCGCCGTCCGCCTGGACTCGGGCGACCTGGTGGAACAGGCCCAGTGGGTCCGGCAGCTGCTGGACGAGCTGGGTAATGTGAACACCCGCATCGTGGTCACCTCCGACCTCGACGAATACGCCATCGCGGCACTGCAGTCCGCGCCCGTGGACGCCTACGGCGTGGGCACTTCCCTCGTCACGGGCTCCGGGGCTCCGACGGCCAGCATGGTCTACAAGCTGGTCAGCCGCACGGACGGGACCGGCGAATTCGTCTCCGTGGCCAAGGCCGCCAAGAACAAGGCGAGTAAGGGCGGGCGCAAATACGCCCTTCGCAGGCTCAACGAGCATGGCGTGGCCACGCACGAGATCATCGGCGTGGGCCAGCGCCCTGAGGATGACGGCAACGACCGGCCGCTCCTGCACCAGTTCGTCAAGAACGGGGAGCTGCTGCCGGGCTGGACCGGGCACGAAGGCGTACTCCGGGCCCGCCAGCGACACGCCGACTCCATGGGCGAGCTGCCTGCCGTCGTCCACCGCCTCCACCGCGGCGAGCCCGCCCTTCCCACGATATACGAGGAAAGCTAG	MSTNAGWTQPRTSLFTDHYELTMLQAALHSGAAHRKSVFEAFARRLPDGRRYGIVGGTGRLLEGITAFRFGEAELEFLGRTGVVNRETLDYLANFRFTGDIWGYAEGEAYFPNSPILIVEATFAEACILETYILSVLNHDSAIASAASRMVTAAGTRPCIEMGSRRTQEESATAAARAAIIAGFDSTSNLEAGLRYGIKTVGTAAHSFTLLHDTEREAFEAQVASLGTGTSLLVDTYDVETAVRTAVEIAGAGLGAVRLDSGDLVEQAQWVRQLLDELGNVNTRIVVTSDLDEYAIAALQSAPVDAYGVGTSLVTGSGAPTASMVYKLVSRTDGTGEFVSVAKAAKNKASKGGRKYALRRLNEHGVATHEIIGVGQRPEDDGNDRPLLHQFVKNGELLPGWTGHEGVLRARQRHADSMGELPAVVHRLHRGEPALPTIYEES	PGPT0013375_2377	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
D1-17_01485	378	clpS		ATP-dependent Clp protease adapter protein ClpS	ATGACCCTAAGCGTTGCGCTCGGCCCTGACACCCAGGAGGGCATCCAGTCTGAAACAGCAGTGGCTACGGACGGCCTGACTGCTCCGGACATCCCCTGGAACCTTGTGATCTGGAACGATCCCGTCAATCTGATGAGCTACGTCAGCTATGTCTTCCAGAGCTATTTCGGGTATTCGGAAACGAAGGCGAACAAGCTGATGATGGAGGTCCACAGGAAGGGCCGGTCCATTGTTGCCCACGGCAGCAAGGAACAGGTGGAGCAGCACGCCGTCGCCATGCACGGCTATGGCCTCTGGGCAACGGTTGAGAAGGCCACCGGCGGAGACAACGGGGGCGGCAAGAGCGGTCCGGGCAAGGGCAAGGGAAAACGTGGCTAA	MTLSVALGPDTQEGIQSETAVATDGLTAPDIPWNLVIWNDPVNLMSYVSYVFQSYFGYSETKANKLMMEVHRKGRSIVAHGSKEQVEQHAVAMHGYGLWATVEKATGGDNGGGKSGPGKGKGKRG				NA	NA	NA	NA	NA
D1-17_01486	567			hypothetical protein	GTGGCTAAGGCTTTTAAATACGGCATCAAGGGCATCACCGGATTCCTGGAACCTGCAGAGCGGGAGCTGCTGCGTGGCCTCTTTAACGACGTCATCTCAATGCTTGAGCCGGCTGACCGTGGAAAGCAGGATCCGCTGTCCGCCATGATCGGGCTCGACATGGACGTCCGGGAGCCGACTGACCGCGCCCTTCGCAGGCTGCTGCCGAACGCCGTTAAGGATGACGGCGCCGCGTCCCTTGAGTTCCGTCAACTTACTGAGCGTTCGCTGCGGGAAAGCAAGATCGGTGCGCTGCGGGCCGCCTGCATGCACCTCGACAGGGACGAGCTGGTGCTGGCGCCCGCGGACGCACGGCACTGGTCCACAGCGCTTAATGACGTCCGTCTCGTCCTCGCCGAACGGCTCGACATCCGCGACGAGGCCGATGCCGACCACGTCCACCAGATGCAGGACTGGTCCCAGGCCGAGGACGTTGAAAGCTACCTGGCCCTCGTCTACAACTTCACCACGTGGCTGCAGGAGTCTCTCGTCCAGGCCATGCTGCAGGCGCTGGAATCCCGCCCCTGA	MAKAFKYGIKGITGFLEPAERELLRGLFNDVISMLEPADRGKQDPLSAMIGLDMDVREPTDRALRRLLPNAVKDDGAASLEFRQLTERSLRESKIGALRAACMHLDRDELVLAPADARHWSTALNDVRLVLAERLDIRDEADADHVHQMQDWSQAEDVESYLALVYNFTTWLQESLVQAMLQALESRP				NA	NA	NA	NA	NA
D1-17_01487	966	murI		Glutamate racemase	ATGGACGGCGACTTGGGATCGCTGCCTATCGGGGTCTTTGATTCGGGCGTCGGCGGACTGACGGTGGCGCGGTCCATCATTGACCAGCTTCCGAACGAATCGATTCTCTACGTTGGGGACACCGCGCACGGGCCGTACGGTCCGCTCCCCATCGCCGAGGTGCGCGCGAATGCCCTGGGTGTCATGGATGAACTGGTGGACTCGGGTGTCAAGCTCCTCACCATCGCGTGCAATTCGGCCTCGGCCGCCGTGCTGCGCGACGCGCGGGAGCGGTACACGGCCCGCTATGGAATCCCTGTGATTGAAGTAATTCAGCCCGCTGTCCGGCGTGCGGTGGCTGCCACCCGCACCGGCCGGATAGGAGTGATCGGCACGTCCGCCACCGTCGGTTCCCGCGCTTACGAGGACACCTTTGCTGCAGCCCCGGATCTGGCGATCACGTCCGTGGCCTGCCCTGCGTTCGTGAGCTACGTGGAGGCCGGCATCACCACCGGTCCTGAACTGTTGGCCGTCGCGGGGGAGTACCTACAACCGCTGAAAGCCGCCGGAGTCGACACCGTGGTGCTCGGTTGCACGCACTACCCCCTGCTGACCGGCGTCATTTCCTACGTCATGGGTGAGGATGTCACGCTCGTCTCCAGCGCGGAGGAAACGGCCAAGGATGTCTACCGTGCTCTGGCAAGCCGCGGCCTGGAGCGCACTGCTGCCGCCCCGCCGGAGCACAGCTTCATTGCCACCGGTGACGCCGGCCAGTTCGAGGCCCTGGCACGCAGGTTCCTCGGGCCCGAGGTCCTCAGCGTCAAACATGTCGACCACGTTGCTGCCCAGTATCCGACCGGGAGCCTGGCCCGCATCACTCCGGAAATGATTGCGGCGGCGCAGCGCGCAGCTACCGGGCCGCGCATCTCAAACTTTGTCGGGCAAGGTGCTTCCGCCGGCCCGTTGTCCGGAGGCTCCCTCCTGTGA	MDGDLGSLPIGVFDSGVGGLTVARSIIDQLPNESILYVGDTAHGPYGPLPIAEVRANALGVMDELVDSGVKLLTIACNSASAAVLRDARERYTARYGIPVIEVIQPAVRRAVAATRTGRIGVIGTSATVGSRAYEDTFAAAPDLAITSVACPAFVSYVEAGITTGPELLAVAGEYLQPLKAAGVDTVVLGCTHYPLLTGVISYVMGEDVTLVSSAEETAKDVYRALASRGLERTAAAPPEHSFIATGDAGQFEALARRFLGPEVLSVKHVDHVAAQYPTGSLARITPEMIAAAQRAATGPRISNFVGQGASAGPLSGGSLL	PGPT0020200_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
D1-17_01488	798		COG1234	putative protein	GTGAAACTCACCATTGTCGGCTGCACCGGGTCCTTCCCGGGCCCCGGTTCGCCCGCGTCCTGCTACCTGCTGACCGCCCATGACGGCGAACGCACCTGGAAAGTCGTCATGGACCTTGGGAGCGGCGCCCTTGGTGCCATCCAGCGGTACACGGACCTTGAGGACATAGACGCGATCTTCCTCACGCACCTGCACCCGGACCACTGCATGGACCTGTGTGGCCTGCACGTCGCTGTGCGCTGGAAGCCCGGCGGATGGGACCGCGGCAGGATCCCGGTGTGGGGACCGGCCGCGACAGCGGACAGGATGGCCACCGCTTACGGCCTGGAACTCGATCCGGGCATGCACGAGGAATTCGACTTCACCAACTGGACCGAGCGCCAGTCCGTGACGGTGGGGCCGTATACCGTCACCCCGTTCGCCGTGAACCATCCGGTCGAGGAGGCTTACGCACTGCGCGTGGAAGTGACGGAGCCGGGACCTGACGGTGCGGCCGTGACGCGCGTGCTGACCTACTCCGGCGACACCGACTCCTGCCGAGGGCTCGAAGAGGCCGCCAAGGACGCTGACCTGTTCCTGTGCGAGGCTGCCTTCGAAGAGGGCCGTGACGACGGCATCAAGGACGTCCACCTGACCGGGAAGAGGGCAGGTGAGGCAGCGGCGGTGGCTGGCGCCCGCCGCCTGCTGCTGACGCACATCCCGGTGTGGACATCCCAGACCACGGTGATGGCCGAGGCCCGTCCCGCTTTCGGCGGGGATGTCGCGGTCGCCGTGGCCGGGGTGCATTACACGGTCTGA	MKLTIVGCTGSFPGPGSPASCYLLTAHDGERTWKVVMDLGSGALGAIQRYTDLEDIDAIFLTHLHPDHCMDLCGLHVAVRWKPGGWDRGRIPVWGPAATADRMATAYGLELDPGMHEEFDFTNWTERQSVTVGPYTVTPFAVNHPVEEAYALRVEVTEPGPDGAAVTRVLTYSGDTDSCRGLEEAAKDADLFLCEAAFEEGRDDGIKDVHLTGKRAGEAAAVAGARRLLLTHIPVWTSQTTVMAEARPAFGGDVAVAVAGVHYTV				NA	NA	NA	NA	NA
D1-17_01489	759	rph	COG0689	Ribonuclease PH	ATGACTTCCGAAGCAACAACAGCCCCCGTCATCCGTGCTGACGGCCGCACTCCCGAACAGCTCCGCCCCATCAGCATCACCCGGGGCTGGTCCAAGCAGGCCGAAGGGTCCGCCCTGATTGAGTTCGGCAACACACGGGTGCTGTGCACGGCGTCCCTGACCGAGGGCGTCCCGCGCTGGCTTAAGGGCGAGGGCCGCGGCTGGGTCACGGCCGAATACGCGATGCTGCCGCGCGCCACGAATACGCGCTCGGACCGGGAGTCCGTCAAGGGCAAGATCGGCGGCCGCACACACGAAATTTCACGTCTCATCGGCCGGTCCCTGCGCTCGATCATCGACACCAAGGCGCTCGGCGAAAACACCATCGTGCTGGACTGCGATGTCCTGCAGGCCGACGGTGGAACCCGGACTGCCGCGATCACCGGCGCCTATGTGGCGCTCGCCGAGGCGATCCGCTTCGCCCGGGAGAACAAGATGATCGCCAGGAATGCCCAGCCCCTGATCGACACCATTGCCGCCGTGTCAGTGGGCATCATCGACGGTGTTCCCATGCTGGACCTGCCCTATATCGAGGATGTCCGCGCCGAGACGGACATGAACGTCGTGGTGACCGGCTCCGGCAAGTTCGTGGAGGTGCAGGGCACCGCGGAGGGAGCCCCCTTCGACCGCGATGAGCTCAACAAGCTGCTTGACCTTGCCCTCCTGGGCACCGAGCAGCTCGCGGCCATCCAGCGCGAGACCCTGGCCGAGGCGCCGTGA	MTSEATTAPVIRADGRTPEQLRPISITRGWSKQAEGSALIEFGNTRVLCTASLTEGVPRWLKGEGRGWVTAEYAMLPRATNTRSDRESVKGKIGGRTHEISRLIGRSLRSIIDTKALGENTIVLDCDVLQADGGTRTAAITGAYVALAEAIRFARENKMIARNAQPLIDTIAAVSVGIIDGVPMLDLPYIEDVRAETDMNVVVTGSGKFVEVQGTAEGAPFDRDELNKLLDLALLGTEQLAAIQRETLAEAP	PGPT0021590_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-17_01490	669		COG0127	dITP/XTP pyrophosphatase	GTGAGCGAAAACGGTGTGCCTGCTCCGCGCCTGGTGCTGGCCACGCACAACAAAGGAAAGCTGCGGGAGCTGCGCGAGCTGCTGCGCGGGCAGGTTCCCGGGCTCGACGTCGACACGCAGGTGGTGGACGCTTCCGCCGTCGGGGGTCCGGACGTCGTCGAGACCGGCGTGACTTTTGCCGAGAACTCGCTGCTCAAGGCACGGGCGGTGGCCGAAGCGACCGGACTGGTTGCGATTGCCGATGACTCGGGGCTTTCCGTTGACGTGCTGGGAGGCGCCCCCGGAATCTTTTCCGCCCGCTGGGCAGGGCGGCACGGTGACGACGCCGCGAACCTCCAGCTGCTGCTGGCCCAGCTCGCGGACGTCCCCGACGCCCACCGCGGAGCCGCCTTCGTGTGCGCTGCCGCGCTCGCCGTGCCCGGTTCTCCATCGGGTTCGGCCCACGCGGACGGGCCGCGCGAGGTAGTGGAATACGGCCAGCTCGCCGGCACGCTGTTGCGGGAGCCGCGGGGCGAAGGCGGTTTCGGCTATGACCCCATTCTGCAGCCGCTCGGGCTGAACCGAAGCTGCGCCGAGCTCAGCCCCGAGGAGAAGAACGCCATCAGCCATCGCGGCCAGGCGTTCCGTGCCTTGCTGCCGGCGATCGTGGACGCCCTCGCCGACCGCTAA	MSENGVPAPRLVLATHNKGKLRELRELLRGQVPGLDVDTQVVDASAVGGPDVVETGVTFAENSLLKARAVAEATGLVAIADDSGLSVDVLGGAPGIFSARWAGRHGDDAANLQLLLAQLADVPDAHRGAAFVCAAALAVPGSPSGSAHADGPREVVEYGQLAGTLLREPRGEGGFGYDPILQPLGLNRSCAELSPEEKNAISHRGQAFRALLPAIVDALADR	PGPT0021590_1253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-17_01491	804		COG0586	putative membrane protein	ATGGTCAAGTACCCTTGGATGGTGATCTCTAATGCCATCAGCGACTTTGCCGTGCCCATGTTGGGAGGAGCCGGACCTGTCCAGCCGCAGCTGGCCTCGTTCCTTCCCGACTGGCTTAACCCCCAGGTTTTCCTCGCGGATCCTGCCCTCGCGCCGTGGGTGGTGCTCCTGGTCTGCGGGATCATCTTCGCCGAAACCGGTTTGCTGGTCGGGTTCTTCCTGCCCGGTGATTCCCTGCTCTTCACTGCAGGCCTGCTGGTCGCTACGGACACGATCAAGTTCAACATCTGGCTCTTCGCAGCGCTGATCATCGTGGCGGCAATCATCGGAAACCAGACGGGCTACCTCATCGGCTCCAAGGCTGGTCCGGCGATCTTCAACAAGCCGGACTCCAGGCTGTTCAAGCACGAGAACGTGGAAAGCGCCCACAAATTCTTTGAAAAGCATGGCGGCAAGGCCCTGATCCTGGCCCGCTTTGTTCCCATCATCCGGACCTTTGTTCCGGTCATTGTGGGCGTTGCGCAGATGGACAAGCGGAAGTTCTTCCTCTTTAACGTCATTGGCGCCCTCCTCTGGGGCGGCGGCGTGACGCTCCTTGGCTACCTGCTGGGCGACCGTGTTCCGTGGGTCCGCGACAACCTGGACATCATCTTCATCGTGATCGTGCTGCTGTCGGTCATTCCGATCTTCATCGAAGTGGCGCGCGGATTCGTTGCCAAGCGCCAGGCCGCCAAGTACGGGACCGACGTGGTGGAGGAATTCATCGAGGAGCACGAGCCCGAAGAGGAACGCAAGACTCCTTAG	MVKYPWMVISNAISDFAVPMLGGAGPVQPQLASFLPDWLNPQVFLADPALAPWVVLLVCGIIFAETGLLVGFFLPGDSLLFTAGLLVATDTIKFNIWLFAALIIVAAIIGNQTGYLIGSKAGPAIFNKPDSRLFKHENVESAHKFFEKHGGKALILARFVPIIRTFVPVIVGVAQMDKRKFFLFNVIGALLWGGGVTLLGYLLGDRVPWVRDNLDIIFIVIVLLSVIPIFIEVARGFVAKRQAAKYGTDVVEEFIEEHEPEEERKTP	PGPT0004890_155	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-17_01492	1059	dinG_2		3'-5' exonuclease DinG	GTGGGTTTGGACTTTACGGCGATCGACTTCGAGACCGCCAACGGATTTCGCGGGTCGCCGTGCGCCGTTGGCCTCACCAAGGTCCGCGGGGGTGTGATTGTCGAGGAGGCCTCCTGGCTTATGCGTCCGCCGCCGAACCATGACACGTTCGACTACCACAACGTGCGCATCCACGGCATTCGGGCAGAGCAGGTGGCGGCCCGGCCCCGTTTCGGGGACCTCTTCCCCGAGATCGGTGCTTTCATCGGGGACGACATTCTGGCCGCGCACAATGCCGCCTTCGACCTGGGTGTCATCCGGTCAGGACTCGAGGTCTCGGGCCTTCCCGGGCCGGCCTACGACTACGTCTGCACCGTGATGCTGTCCCGGCGCTGCTACTCGCTGGTTTCCAACTCCCTGCCCTTCGCCGCTGAAGAGGCGGGCGTACCGCTGGTCAACCACCACGATGCCGCCGAGGACGCACGGGCCTGCGCCGGCATTCTGATCGATATCGCCGCCCGCAACCGCGCGAACAGCATCGGGGAGCTCTACCTCTCACTTGGATTGGCCATACCCCGGCAGCAGGCCTTTCACCCGGCCCGCGATGAGCTGTCCAAGGCAACCCTTACGGCCCTGGCTGCCGTTGGCGAAGCCGGCACTGCACAGCCCTATGGAAGCGGATGGCCGGAGGAGGGGGCCAACCCCGCACCCAACCCGGACGCCGAGCCGGGAAATCCGCTGTACGGGCAGACCGTGGTGTTCACCGGCCAGCTGGGCATTCCTCGGCCGGAGGCCAAAATCCGTTCGGCTGAGATGGGAGCACGTCCCGAAAGCCGGGTCACGGCCCGGACCAGCGTGCTCGTGGTAGGCGACGGGTTCGACGCGCGCGACCTGAGGTCCGGACGGCTGACAGGCAAAGCCAAGCGTGTACTCGAACTGCACGAGCGCGGCCAGGCGATAGAAGTCCTCTCCGAAGGCGAGTTCCTGCAAATGGTCGGCGGCGCAGGGACTGCAGGACTCAGGTCCGGGGGCGTTCATCTGGGGCAACAAAGCTTCCCAGCGGCGGCCCTCCACTCCTAG	MGLDFTAIDFETANGFRGSPCAVGLTKVRGGVIVEEASWLMRPPPNHDTFDYHNVRIHGIRAEQVAARPRFGDLFPEIGAFIGDDILAAHNAAFDLGVIRSGLEVSGLPGPAYDYVCTVMLSRRCYSLVSNSLPFAAEEAGVPLVNHHDAAEDARACAGILIDIAARNRANSIGELYLSLGLAIPRQQAFHPARDELSKATLTALAAVGEAGTAQPYGSGWPEEGANPAPNPDAEPGNPLYGQTVVFTGQLGIPRPEAKIRSAEMGARPESRVTARTSVLVVGDGFDARDLRSGRLTGKAKRVLELHERGQAIEVLSEGEFLQMVGGAGTAGLRSGGVHLGQQSFPAAALHS				NA	NA	NA	NA	NA
D1-17_01493	540			hypothetical protein	ATGAGCAGCCCGCACAGGCCACCAGCGTCGACCGCATCCCCACCCCGGCACGGGATCGATTGGCGGGCCGTCTTTGCCTTTCCGAACCCGGTGAACGAGTACGCTGCCAGGCTCACGGCAGGCCTCGTGGTGCTGCTGGCCGGAGCCACGATCCTGGCCGGCTCCGGCCTGGGCCTGGCCGTCATCGCGGCAGGTTTCTGGCTTCGGGTGCTGTTCGGCCCCAGGATCTCCCCGCTTGCCCTGCTCTCGGTCAGGGTCCTCGCCCCCCGCCTCGGGCCTGCCAAACTCGTCCCCGGACCGCCCAAGCGGTTTGCCCAGGGGATCGGGGCCGCGGTCTCGACTGCAGCGGCTGCGTTGTTCTTCGCCGGCCTGGCGCCGGCAGCGTGGGGACTGTTTGCCGTGCTGGTCGCCGCAGCGTCCCTGGAGGCCTTTGCCGGCTTTTGTCTCGGCTGCACCATCTTTGGCTTCCTCCAGCGCCGGGGCATGATCCCGGAGGATGTCTGCGAGGCCTGCAACAACGTCTCGCTCAGGCAGTTGTAA	MSSPHRPPASTASPPRHGIDWRAVFAFPNPVNEYAARLTAGLVVLLAGATILAGSGLGLAVIAAGFWLRVLFGPRISPLALLSVRVLAPRLGPAKLVPGPPKRFAQGIGAAVSTAAAALFFAGLAPAAWGLFAVLVAAASLEAFAGFCLGCTIFGFLQRRGMIPEDVCEACNNVSLRQL				NA	NA	NA	NA	NA
D1-17_01494	1203			hypothetical protein	ATGACGGCGGCTGCCCTCGCGAAACCGCCGCTCCGCCAGGCGGGTAAATTTACCTGCATGAGTGATTCTCCCGTAGCTTCCCCGCCGAGCCCTAAGTCCCGCATCCACGGTTGCCTCTTGGGCGGTGCTCTGGGCGATTCCCTCGGTTACGCCGTCGAATTCGAATCCATCACCGCCATCCGTGACCGCTTTGGCGATGCCGGACTGCGTGACTTCGCAGCGCTCGACGGCGGCGCGCACTTTTCGGATGACACCCAAATGACTCTGTACACAGTTGACGGGCTCGTGGAAGCGCTCGAATGGGCCAATGCAGGTGTGGGAGCCGACGCCAATGCCTGCCTTTGGCTCGCTTACCTGCGCTGGCTCGATACCCAAGGCATGGCGGTTCCGGATCCGGCGCCCAGGCCCCAGCCGCGATGGATAGACCGGCAGCCAGTGCTCCGCCAGCGCCGGTCCCCCGGCAAAGCCTGCCTCAGCGGACTGGCCACCGGCGAGATGGGCACGGTGCACCGCCCCGTCAATCCTGAGTCCAAGGGTTGCGGAACGGTGATGCGGTCCGCCCCGTTCGGGCTGATACCCCACATTCCTGCCGACGCGGTCTACAAGTTGAGCGCCGACGCCGCTGCCCTGACCCACGGACATCCTTCGGCACGCCAGAGCGCGGCGGTTTTCAGCCTGCTGATCCACTCCCTGGTCCAGGGCAAGTCCCTGCAGGCCGCCGCCCGCGTGGCCGCGGAGCACGTCCGGTCTGATCCCGAGGCAGTGCCGGAGCTCCGGGAGCGTCTCGACGCCGCCCTCCGCCTGGCGGGAGTAACACCTGCGGACGCGACTGCCCAGGACAGGACTGCTGAGGACGGGACAGCTGCAGCTGGGCCAGCGGTCCCGCTCGGTCCTGAAGACCTGGTCCGTGAACTGGGTGAGGGCTGGGTGGCAGAAGAGGCACTCGCCGTCGGGCTTTACGCGGTCCTGGCAACAGCAACGGGTGACGAGGGCCAGCGTGCGCCGGTAGAGCATTTCAAAGCAGCCGTCGCCCTGGCGGTCAACCACAGCGGAGACAGTGACTCCACGGGTTCCATCGCCGGCAACATCCTCGGCGCCCACTACGGCGAAGCGTGCCTGCCGGCGGACTGGCTGGAAGCGCTGGAGGCCCCTGAGGTGATCCGTGGCATGGCGGACCAGCTGGTCTCGGTTACAACTGCCTGA	MTAAALAKPPLRQAGKFTCMSDSPVASPPSPKSRIHGCLLGGALGDSLGYAVEFESITAIRDRFGDAGLRDFAALDGGAHFSDDTQMTLYTVDGLVEALEWANAGVGADANACLWLAYLRWLDTQGMAVPDPAPRPQPRWIDRQPVLRQRRSPGKACLSGLATGEMGTVHRPVNPESKGCGTVMRSAPFGLIPHIPADAVYKLSADAAALTHGHPSARQSAAVFSLLIHSLVQGKSLQAAARVAAEHVRSDPEAVPELRERLDAALRLAGVTPADATAQDRTAEDGTAAAGPAVPLGPEDLVRELGEGWVAEEALAVGLYAVLATATGDEGQRAPVEHFKAAVALAVNHSGDSDSTGSIAGNILGAHYGEACLPADWLEALEAPEVIRGMADQLVSVTTA	PGPT0001065_267	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001065-draG-K05521	NA	NA
D1-17_01495	1023	aqpZ_2		Aquaporin Z	ATGACCGCGCGAGTGCCCGTATCATCCCCGCCCCACGCCGAACCCTTCCCAAGCGGCGCCGGTTTTCGGCACGGGATGGTTTCCCGGCTCGCGGCAGAAGCTTTTGGCACATTGTTTCTGGTCATCGCAGGCCTGGGCGTTCCGCTGTTCACTCTTCCGCAGTCCAGCCCGCTGCCCGCGGCGCTCGCCGGAGGACTGGCGGTGACCGCCGCAATGCTGGCCTTCGCCCACGTTTCCGGGGGCCACTTCAATCCCGCCATCACGGCGGGCAATCTCGTGGCCGGACGCCTCCGGGCAGGCCACGCCGCGGCCTACGTCGCAGCGCAGCTGGCGGGTGCCGCTGTCGGCGCCCTGGCGCTGTACGGCGTCCTTCGGACGGTGCCCAGCATTCCTGACACCAAGGCGGCCTTTGATACTGTCACGGCCGGCTTTGGCGAGCACTCCGTCGTTCAGGCGTCCATGGCCGGCGTCCTCCTCGCCGAAGTCCTCGGCGCTGCACTGCTGGTCGCGGTCTTCCTCGGCGCCACGGCCCGCGGCAATGTCCACGCTGCAGCGGCGCCGTTCGCGGTTGGCCTGTCGTTCGCCGTGCTGCTCCAGTTCGGCCAGGCCATCGGCAATGCCCCGTTTAACCCAGCCCGTGCCACCGCCTCTGCCCTATTCAGCAACAGCTGGTCGCTGGGGCAGCTGTGGCTGTTCTGGGTTGCCCCGCTGGTGGGTGCGGCCATCGCCGGACTCGTATTCCGTGCCGCCTCGCTCGTCAGCCAAGGCGAGGTGACCGGCAAGTCGGCGGCCGCTGCTGTGCCCGCAGGGGACTCCGTCAGCGCTGTGGACGATGACCGTGCCATTGACGGCAAGGCCGATGGCAGCGACGGCAAGGCCGGTGGCAGCAACGGCAACCACGTTATCGGTCGCAGCGAAGACGTTGGCAGTGACGCCGGCGGCAGCCGGGAAGCTGCCGAAACGCGTCCGGCTGCTCCCCGTGATGAGGCCCGCGACTTCTTCGACGGGCCCGGCAGCAAGTAG	MTARVPVSSPPHAEPFPSGAGFRHGMVSRLAAEAFGTLFLVIAGLGVPLFTLPQSSPLPAALAGGLAVTAAMLAFAHVSGGHFNPAITAGNLVAGRLRAGHAAAYVAAQLAGAAVGALALYGVLRTVPSIPDTKAAFDTVTAGFGEHSVVQASMAGVLLAEVLGAALLVAVFLGATARGNVHAAAAPFAVGLSFAVLLQFGQAIGNAPFNPARATASALFSNSWSLGQLWLFWVAPLVGAAIAGLVFRAASLVSQGEVTGKSAAAAVPAGDSVSAVDDDRAIDGKADGSDGKAGGSNGNHVIGRSEDVGSDAGGSREAAETRPAAPRDEARDFFDGPGSK	PGPT0004755_55	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_TRANSPORT,PGPT0004755-aqpZ-K06188	NA	NA
D1-17_01496	1272	sbcD		Nuclease SbcCD subunit D	ATGCGGTTACTTCACACTTCCGATTGGCATCTTGGCCGGTCCTTCCACGGCGTTGGCATGCTGGATGCCCAGCGCGCTTTCGTCGACCAACTGGTCGCACGGGTCAAGGAAATGTCCGTCGACGTGGTCCTCATTGCCGGCGACGTCTACGACCGCGCCTTGCCAGGAGTGGACGTCGTGGGCCTCCTGGACGAGGCACTTGTCCGGCTGACCGGTGCCGGCGCCCGGGTGGTGCTCACCAGCGGAAACCATGACTCCGCCATCAGGCTTGGATTTGCCTCACGGCTCCTGGAGCGCGGCGGGGTGCATCTGCGCACCCGTCTCGCAGAACTGGACACGCCGCTCATGATTCCGCTGGACGGCGCTGGCGGGGAAGGCCATGACGGGGAGAAGAGTGACCGGGACGCCCAGGACGGGGACGGCCAGGCCGGGGACGGCCAGACCGGGGATGACCGCCGCGGGGATGACCGCGGCCCGGTCCTGGCCATCTACGGCATCCCGTGGCTCGAACCGCGTCTCGTCGCCGACCAGCTTGGCGTGGAATCGGCCTCCCACTTCGACGTCACTCGCTCCGCCACGGACCGCATTCGGGAGGATCTGGCCAGGCGCAGTGCTTCGCGGACAGTCCACTCCGTAGTGCTGGCCCACACCTTCGCAAGCGGCGGCATCAGCTCGGACAGCGAGAGGGACCTCAGTATCGGAGGAGTCGGTGCTGTTCCGCTGGACCTCTTCTCCGGATTCAGCTACACAGCACTGGGCCACCTCCACCGCCGGCAGACGCTGTCTCCCGAGGTGAGGTACTCCGGCTCGCCGCTTGCGTACTCCTTCTCTGAAGCAACGCATCAAAAAGGCGGCTGGATCATCGACGTCGATGAGTCGGGTGTCACCGGGGTGGAGCCCGTGCAGTGGGACGCGCCAAGGAAACTGGCGGTCCTGCGGGGGACCATGGAGGAACTGCTCGAGTCCGCGGATCATTCGTGGGCGGAGGAAGCGTACTGCCAGGTGACCCTGACGGATCCGCAGCGGCCCGCCCAGGCGATGGAACGGCTGCGGGCAAGATTCCCGGACACCCTCGTGCTGGGCTTTGACCCCCAGGGTGCGGCGCCGTCCGCGAGGGTCAGCTACAGCAGCAGGCTCGCGGAGGCGGAGGACGACCTCTCCGTCTGCTGCGGATTTCTCGAGCATGTCCGCGGTCGTGAGGCTGATGAAGCCGAGAAGGCTGTCCTGGCCGAAGCCCTGGAAACCGTCCGTCTGCAAGGAGTGTCACTGTGA	MRLLHTSDWHLGRSFHGVGMLDAQRAFVDQLVARVKEMSVDVVLIAGDVYDRALPGVDVVGLLDEALVRLTGAGARVVLTSGNHDSAIRLGFASRLLERGGVHLRTRLAELDTPLMIPLDGAGGEGHDGEKSDRDAQDGDGQAGDGQTGDDRRGDDRGPVLAIYGIPWLEPRLVADQLGVESASHFDVTRSATDRIREDLARRSASRTVHSVVLAHTFASGGISSDSERDLSIGGVGAVPLDLFSGFSYTALGHLHRRQTLSPEVRYSGSPLAYSFSEATHQKGGWIIDVDESGVTGVEPVQWDAPRKLAVLRGTMEELLESADHSWAEEAYCQVTLTDPQRPAQAMERLRARFPDTLVLGFDPQGAAPSARVSYSSRLAEAEDDLSVCCGFLEHVRGREADEAEKAVLAEALETVRLQGVSL				NA	NA	NA	NA	NA
D1-17_01497	3030			hypothetical protein	GTGAGGATTCATCGGCTGGAGATCTGCGCCTTCGGTCCCTTTGCCGGCACGGAAAAAATTGACTTTGACAGGCTCAGTGCGCACGGTCTGTTTCTTCTGAACGGAGCCACCGGCGCCGGCAAGACCAGCGTGCTGGATGCCATCTGCTACGCCCTGTACGGCTCAGTCCCCGGCGCCCGCCAAGACGGCAAGCGGCTCCGCAGCGATCACGCCGCGCCAGGCGCAGAGCCCAGCGTTACGTGTGAGTTCTCGGCCCGCGGGCGGCGCTTCGAGGTCTCACGCTTTCCGGCGTGGGACAAGCCGAGTGCCCGTGGGAGGAACGGCTTCACTACCCAGAAAGCCAGGACGTTTCTGCGGGAGCGGGTCGGTGGGGAGTGGGTCGAGAAGTCCGGCCGGAATGACGAAGCCGGGGGTGAAATCGCGGCTCTGCTTGGCATGGACAGGGAACAGTTCACCCGGGTCGTCATGCTTCCGCAGGGTGATTTCGCGGCCTTCCTCAGATCCAAGGCATCGGACCGGCTGGACCTGCTGCAAAGGCTCTTCGGAACCGAACGGTTCGAGGCGGTTGAGCGTGAGCTCGCGGCCAGAGCCGGCGAAGCCGGCAAGGAAATCGGCGGGCACAACAGCCAGCTAGGCATGCTGGTGGAGAGAGCCCGCGGTGAAGCCGAGGCTTTGGGGCTGGACCTGGCGGCGGCGCCCGAGCAGGGACAAGATGCGGAGGTACTGGCCTGGCTGGAGAGCGCCGCCTCGCTCCGTGCCGCTGAACTGGGAGCCGAGGCGGAATCCTGCGAGGCTGTTTCCCGTGAGCATGCCGCCCGGCTGGAGGCGGAACTCGCACGCCAGTCCCGCCACCGGAAGCTCGCCTCTGCACTGGGCAGGAAAGCCGCGGCGAGCGAAGCCGCTCCCGCCCTGCAACGGGAGGCAGACCGCCTCGCCCTCCACCGAAAGGCTTCAACGCTCAGCGGACAGCTGCAGGCCCTGGACGCTGCGCAAACCACTTCGGAACGGTCAGTCGTGGCACTGGAGCGCGCCGACGCTGAATTCTTTGCGTTGGCGCGTGCGGACGCGGAACTCGCACACGCGGACCCTGCAGGTGTCATAATCGACGCCGAGCTCGGACGGCTTCACTCACTGCTGGCCGTGGTAAAGGAGCGCGTTGCGGACGAGGGCAGGCTGACCACATTGCTGGCCCGCAAGTCCGCCCTTACGGCGGAGCGCCAGGACCTGCTGGGAACCAGCCAGGACCTCGCGGAAACCCTTGCCGCCCTCCGTACAGACATGGGCCGGCTTCGGGTGGGGCTGCTTCCGCTGGAACATCTGGCAGGAGAGGCGGTGCTCCGCACGAAGGAGGCCCTGGCGGCCGAAGAGCTTGTGGATGTCGTGAGGCGCTATCGTGCCACCGCCGAGCGATGCACCGGGGCAACCGAACGGCAGGTCACGGCTAAGGAGGCCTACCTCGAGTCCCGGCGGCTGTGGCTCGATGTACGGGAACAGCGCCTGGCGAATGTGGCGGCGGAACTGGCTGCGCGCCTAAAACCGGGCGAACCGTGCCCGGTATGCGGCGGGGCCGAACACCCCGCGCCAGCTCCCGTGGCCGAATCGGTCCTGAGTCTGGCCGAGCAGGAGGAACGGGCCAGGGAAGCCTGTGACGCCGCAGAGGTGGCCCTGTCCGCCAGGGACGACGAGCTGACCGGGGTCCGGCAGGAGCTTGCAGTGTTGGCGGGGCAGGACGGGGATACGGATCCGGCTGAGGCGAAAGAAGCAGCCAGGCTGGCAAGGGAAGCTGCCGAAACGGCCGAAGCGGCGCAGGCGCAGCTGGTCGAGGCTAAGGCGCGGCAGGAGGAGCTCGAGGACCGCATCGCTGCCGGTGAACAGGCACGGAGTGAGTGCCTTTCACGTATAGGTCAGCTGGAATCCACGGTGACTGAATTGGTCCAGCAATCCACCGCCCTGGAATCTGCGCTCGCAGCCCTGCGCGCGGGGTATCCCAGCCTGGGCCAGCGCTGCACCGCTATCACCAAGACCATCGCGGTGCTGGAGAGGGCAGCCGCTGCCCGCGCCGCCGCTGACCTGGCGCAGGAGCGCCTGGATGAAGCACGGTCCCGGCTTGGGTCCGCCCTGCCGGAAGCCGGCTTCGAGTCGGCGGCCGCAGCAGCCGCGGCAATACTGCCGGCCGGAGATGCTGCACGGCTGGAAGCGGCGGTCCAGACAGGGAGGGACGAACAGGCCAGGCTTGAGGAACTGTTCGCAAGTGAAGAGCTCATCCTGGCGCAAACGGAGCAGGAAGCCGGGGGCAGCATTGAGGCCGGGGAAGTGGAACGCCTGAAGGCTGAAGCCGAACAGGCAGCACAACAGTCGAGGGACACCGAGCTTGTGGCAGGCCTGGCAACACAGAAGTGCAGGGCTCTGAGGCAACTGCGGGTTCAATACGCGGAGCTGGCTGAGAAGGGGCGCTCCGCGCGGGAACGCGGCGAGCTCCTGACGGCCCTGGCGGAGTCTGCCCGGGGCGGCGGCGACAACAGCTATCGCATGAGTCTCAACAGTTATGTGCTTGCCGCCCGGCTGGAGCAGGTGGCCCTTGCCGCCTCCGAAAGACTCGTCGCGATGAGCGAGGGAAGGTACACCCTGCTGCACACGGATGCGAAGGCTGCGCGCGGGGCGAAATCCGGGCTCGGGCTCGAGGTCGTGGATGAGTGGACCGGCCAGCGGCGCGATACGTCCACGCTCTCAGGAGGGGAATCATTCATGGCGTCACTGTCGCTCGCCCTGGGACTGGCGGACGTCGTTCAGCAGGAAGCCGGGGGCGTGGACATCGAGACGCTCTTCGTTGACGAAGGGTTTGGCAGCCTCGACGAACAGGCACTGGAACAGGTCATGGATGCACTTGAGGGACTTCGTGACGGCGGCCGGGTCGTGGGGCTGGTCAGCCACGTAGGGGAGATGAAGCAGCGCATTGCCACCCAGCTCCAGGTTGTCAAGGGACGCAACGGTTCCACCCTGCACATTTCGGATGTGATGCCCGCAGCGTGA	MRIHRLEICAFGPFAGTEKIDFDRLSAHGLFLLNGATGAGKTSVLDAICYALYGSVPGARQDGKRLRSDHAAPGAEPSVTCEFSARGRRFEVSRFPAWDKPSARGRNGFTTQKARTFLRERVGGEWVEKSGRNDEAGGEIAALLGMDREQFTRVVMLPQGDFAAFLRSKASDRLDLLQRLFGTERFEAVERELAARAGEAGKEIGGHNSQLGMLVERARGEAEALGLDLAAAPEQGQDAEVLAWLESAASLRAAELGAEAESCEAVSREHAARLEAELARQSRHRKLASALGRKAAASEAAPALQREADRLALHRKASTLSGQLQALDAAQTTSERSVVALERADAEFFALARADAELAHADPAGVIIDAELGRLHSLLAVVKERVADEGRLTTLLARKSALTAERQDLLGTSQDLAETLAALRTDMGRLRVGLLPLEHLAGEAVLRTKEALAAEELVDVVRRYRATAERCTGATERQVTAKEAYLESRRLWLDVREQRLANVAAELAARLKPGEPCPVCGGAEHPAPAPVAESVLSLAEQEERAREACDAAEVALSARDDELTGVRQELAVLAGQDGDTDPAEAKEAARLAREAAETAEAAQAQLVEAKARQEELEDRIAAGEQARSECLSRIGQLESTVTELVQQSTALESALAALRAGYPSLGQRCTAITKTIAVLERAAAARAAADLAQERLDEARSRLGSALPEAGFESAAAAAAAILPAGDAARLEAAVQTGRDEQARLEELFASEELILAQTEQEAGGSIEAGEVERLKAEAEQAAQQSRDTELVAGLATQKCRALRQLRVQYAELAEKGRSARERGELLTALAESARGGGDNSYRMSLNSYVLAARLEQVALAASERLVAMSEGRYTLLHTDAKAARGAKSGLGLEVVDEWTGQRRDTSTLSGGESFMASLSLALGLADVVQQEAGGVDIETLFVDEGFGSLDEQALEQVMDALEGLRDGGRVVGLVSHVGEMKQRIATQLQVVKGRNGSTLHISDVMPAA				NA	NA	NA	NA	NA
D1-17_01498	1410			hypothetical protein	ATGACCACCACTTCGCAAGCGCCTTCCTCCTCTACATCACGCTCCTCCACTCCACGGTTCGCGCGGCTGCCGCAGCTGGCCGGCAGCGCGTTCATTCCCCTTGGCCTGTTCGCACGCCTCCCACTTGCCATGCTGACCGTCGGAACCCTGACCCTTGTCACCTCCGTGAGCGGTTCGTATGCGCTCGGGGGCACAGCAGCCGGGGCTGTGGGAATCGGATCTGCCCTTGGCGCACCCGTTCTGGGTGCCGTGGCCGACCGCAGGGGCCAGCGGGGAGTCCTCCTGGTCGCCGCCTTCCTGAATGCAGCCGCCGTCCTCGCCCTCATTGCCTTGGCCTACTCCCTATCACATGGCGGCAACCCCGGTACCGTCGCCGCGGATGATGGATTTTCCACAGCAGCCCCCGCCCTTGCCGCGGCATTCCTCGCAGGTGTCAGTTGCCCCCAGGTGGGGCCGCTCGCGCGCGTGCGGTGGATGGCGCTCACCTCGCGAGGAGGAGCCAACAGGAGCAGCGGACGCAACAGCAGCACCGGACAAGCCAGCTCTGCACCAAACGGCAGCCCCCGGCCCAACAGTGGCACGGACCTGGATACGGCGCTCTCCTACGAGAGCACTGCGGACGAACTGACGTTTGTCCTAGGCCCTGCCCTCGTGGGCCTGCTGGCCAGTTTCGTTACGCCGTGGCTGCCGCTGGCCCTTGCAGCGGCACTGACCATCACACTCGTGCCTGCTTTCGCCATGCACCCAACGCACCGGGCGGTTCCCCGGAGTGGCAGGCAGCGGAGCGGAAGATCCCAGATGGCAGTCCGGCGGCGGATAGCCTGCTCGGCCGCCGTCGCCGTCCCGGTACTCGCGATGGTCTGCATGGGCACCTTCTTCGGCTCCACGCAGACCGCGCTAATTTCCTTTTCCGGCGCCTACGCCACTCCTGAGGCGGCCGGGCTGCTGTATTCAGTGATGGGCCTGAGTTCCGCCGCCGCGGCCTTTTCCGTGGCATATTGGCCGGCCCGGTTCCCGGCCGCAGCCCGGTGGCTCGTGTGCGCCGCGGCCATGGCAGGGCTGTCCGTGCTGCTGCTCCTGCCTGACACAGTGGAGGCGATGGTGCTGACCTTGCTGCTCCTCGGCCTCCCGGTCGGCCCGGTGATGGTGACGGCCTTTGCGGTCGGCGGCATGGTTGCGCCCGCAGGACGTCTGGGCACCGTGATGACGGCGCTGGCCAGCGGTATCGTAGCCGGCACGGCCGCAGGATCATCGACAGCCGGCCAGCTGGCACAGGGCCAGGGTTACACGGCTGCCTTCATCGTGGCCATCGCCGCCGCAGCGGCGCTGCTCCTGCTCGGCCTGGCGGCCGCCGTCGTTATCCACTCCAGCCAGCGGAAGCATAAAATGGCCGGCGCCCCGGCGCCCTGA	MTTTSQAPSSSTSRSSTPRFARLPQLAGSAFIPLGLFARLPLAMLTVGTLTLVTSVSGSYALGGTAAGAVGIGSALGAPVLGAVADRRGQRGVLLVAAFLNAAAVLALIALAYSLSHGGNPGTVAADDGFSTAAPALAAAFLAGVSCPQVGPLARVRWMALTSRGGANRSSGRNSSTGQASSAPNGSPRPNSGTDLDTALSYESTADELTFVLGPALVGLLASFVTPWLPLALAAALTITLVPAFAMHPTHRAVPRSGRQRSGRSQMAVRRRIACSAAVAVPVLAMVCMGTFFGSTQTALISFSGAYATPEAAGLLYSVMGLSSAAAAFSVAYWPARFPAAARWLVCAAAMAGLSVLLLLPDTVEAMVLTLLLLGLPVGPVMVTAFAVGGMVAPAGRLGTVMTALASGIVAGTAAGSSTAGQLAQGQGYTAAFIVAIAAAAALLLLGLAAAVVIHSSQRKHKMAGAPAP				NA	NA	NA	NA	NA
D1-17_01499	735			hypothetical protein	ATGAACCCAATTGGCAGCGCCGGTGCCCAGGTTGCTTCCGCCCAGGCCTCCCCGTCGCAGACTCTCTCCAGGGGTATCCGCGCCTTGGAGATCATGGCAGAAGCGGAGAGCCCCCTCACGATCGCTGAGCTGGCCGATGCCATGGGCGTCCACCGGTCCGTCGCCTACAGGATCCTCCGGACTTTGGAAGACCATTCCCTGCTGGTCCGGGACGACGCCGGGCGGGTCCAGCCCGGGCCTGGCCTGGCTGTGCTGGCCAGAGGCGTTTCCCGCAACCTGCAGACGGCTGCCCTGCCTGAACTCACCCAGCTCGCCAACGCACTGAACATGACCGCCTTTATCGCCGTCTGGGACCATCAGGACTGCGTCACCCTCGTTACGGTGGAGCCACGGCACTCGGCGGCAACGGTGGTCCAGCACCCGGGCTCCCGCCACCCCATCAGCAGCGGAGCCCCCGGCATCGCCATCCAGTCCGCACTCTCGGAGGACGACTGGAAGCGGCTGGCGCCAACGGTGCCCTACCGGCCTGAGGCTGCTGAAGCGCGCGTCCGGGGATTCGCTGCCAGCCATGACGAAGTCATCGCGGGCGTTTCCTCGCTGGCAGCCCCGGTCAGGGTGCCGGGCGGGCGGCCCGCCGCCGTCGCCGTCGTCTACATCCGTTCGTCCCAGGACCCGTCCGACATCGCCGCGGCCCTGACGCGCAGCGCCTCCCGGATTGAGTCGCAGCTGGCCTGA	MNPIGSAGAQVASAQASPSQTLSRGIRALEIMAEAESPLTIAELADAMGVHRSVAYRILRTLEDHSLLVRDDAGRVQPGPGLAVLARGVSRNLQTAALPELTQLANALNMTAFIAVWDHQDCVTLVTVEPRHSAATVVQHPGSRHPISSGAPGIAIQSALSEDDWKRLAPTVPYRPEAAEARVRGFAASHDEVIAGVSSLAAPVRVPGGRPAAVAVVYIRSSQDPSDIAAALTRSASRIESQLA				NA	NA	NA	NA	NA
D1-17_01500	531	ntaB		FMN reductase (NADH) NtaB	ATGACTGCGAAGCCAGAGGCGCCTGCGGACGTTCCCGGCAGGACCTCTGTTCCCCGGGCGCACCGGTTCCGTGGCAGCCTGGGCAGGTTCGCCACCGGCGTCGCCATCGTTACCTTCGACGGCGCGGCCAAACGCTTCGGAATCACCGTCAACTCCTTCACCTCGGTGTCCCTGGAGCCGCCTCTGGTGCTGGTAAGCATCGCCCGCAATTCCAAGGCCCACGATGAGCTCGCCGGCAGGCCCTTCACCGTGAACATCCTCGGCGCAGAACAGCGCCAGCTGGCCATGCACTTTGCCGGACGGCCGGGTGCGGAACCGGTGTGGGTGGAAAGCACCACGGCGCCGCGCCTCTCGAATGTCCTGGCGTGGTTCGAGTGCAAGCCGTGGGCTGCATACGATGGCGGAGACCATACCCTCTACGTCGGCGAGGTTGTTGATTTCAACTACCGCAGCGGAGACGCCCTGGCCTTCGCCAACAGTGCTTTTACCACCATTCCGGAGAGTCAGCTCGGCATGGAGGACCTCCTCTGA	MTAKPEAPADVPGRTSVPRAHRFRGSLGRFATGVAIVTFDGAAKRFGITVNSFTSVSLEPPLVLVSIARNSKAHDELAGRPFTVNILGAEQRQLAMHFAGRPGAEPVWVESTTAPRLSNVLAWFECKPWAAYDGGDHTLYVGEVVDFNYRSGDALAFANSAFTTIPESQLGMEDLL	PGPT0008700_4	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008700-C1_hpah-K23470	NA	NA
D1-17_01501	1455		COG2368	4-hydroxyphenylacetate 3-monooxygenase oxygenase component	ATGGGAATCCGTACCGGACAGCAGTACCTGGACAAGCTCAACGGCATGACCCCGCACATCGTGATCGAGGGGGAGGTAGTCAGGGAAAAAGTTGCTGAACACCCCGCCTTCCGCAACGTGGCGAAGTCCTACGCGAAGCTGTTCGACATGCAGCATGACAAGCGGTACCAGGAGGCGCTGACGTACACCTCGCCAACCACCGGGGACCTGGTGAACGCATCCTTCCTGGTGCCCCGGACCGAAGAAGACCTGCGGCGCCGGAGGGCCGCGATCTCAACCTGGGCCGAAGCCTCCAACGGGTTCCTGGGCCGTACGGGGGACTACATGAACTCGGCCCTCACGGCACTGGGGGCGGCGGAAAACTGGTTCGCCCAGGCCGATCCAAAGTTCGCCGACAACATCCGCAACTACTACGAATGGGCGCGCGAGAATGACACGCTCGCCACCCATACCCTGATCCCGCCGCAGGTCAACCGGTCCGTGTCAGGTTCCGAGCAGCTCGGGGGCCAGCTGTCCGCGCATGTCGTGGAGGAGCGCAGCGATGGCATTGTGGTCCGTGGGGCCCGCATGCTCGCCACCATCGCGCCGATCGCGGACGAGCTGCTGGTCTTCCCGTCGACTGTCCTGCGCGGCGGCCCGGAGGATGCCCCGTACTCCTATGCCTTCGCCATCCAGAACGACACTCCGGGGCTGCGGTACCTGTGCCGCACGTCCCTCTACAACGGCGGAAGCACCCACGATGAGCCGTTGGCGTCCCGCTACGAGGAAATGGATGCGGTGGCCATTTTCGACGACGTGTTCGTCCCCAACGAGCGCATCTTCATGCTCGGCAACCCGCAGCTCTGCAATGCCTTCTACACCGAGACGGGTGCAGGCGCGCTCATGACCCACCAGGTGGTGACCCGCACGATCGCCAAGAGCGAGTTCTTCCTCGGGCTGGCATCCGAACTGGCCGATTCGATCGGCATCGACGGGTTCCAGCACATCCAGGAGGACATTGCGGAACTGATTATCGACGTCGAAATCGGCAAGGCTCTGGTCCGCGCCTCCGAGGCCGACGCCGAAGCCAACGAGGCCGGTGTGATGCTGCCCAAGTGGACCACCCTCAACGCTGCCCGGAACTGGTACCCCAAGATTGCGCAGCGCTTCCCGCAGATCATCCGGAAGTTCTCGGCCTCCGGTCTCATGGCCCTTCCTGGTGAAGCGGACGTCAACGGCGAAGCGAGGGCGGACATCGACCTCTATCTGCAGGGTAAGACCCTCACCGGCCCGGAACGCGTGCGGCTCTTCAAACTGGCCTTTGATGCGTCCATCTCGGGTTTCTCAGGCCGCCAGTCCCTCTACGAATACTTCTTCTTCGGGGATCCGGTCCGGATGGCCGGGGCCCTCGTCAATACCTACGACCGCGAACCTGTCAGGGCCAGGCTCCGGGAATTCCTGAACCGGCAGGACTGA	MGIRTGQQYLDKLNGMTPHIVIEGEVVREKVAEHPAFRNVAKSYAKLFDMQHDKRYQEALTYTSPTTGDLVNASFLVPRTEEDLRRRRAAISTWAEASNGFLGRTGDYMNSALTALGAAENWFAQADPKFADNIRNYYEWARENDTLATHTLIPPQVNRSVSGSEQLGGQLSAHVVEERSDGIVVRGARMLATIAPIADELLVFPSTVLRGGPEDAPYSYAFAIQNDTPGLRYLCRTSLYNGGSTHDEPLASRYEEMDAVAIFDDVFVPNERIFMLGNPQLCNAFYTETGAGALMTHQVVTRTIAKSEFFLGLASELADSIGIDGFQHIQEDIAELIIDVEIGKALVRASEADAEANEAGVMLPKWTTLNAARNWYPKIAQRFPQIIRKFSASGLMALPGEADVNGEARADIDLYLQGKTLTGPERVRLFKLAFDASISGFSGRQSLYEYFFFGDPVRMAGALVNTYDREPVRARLREFLNRQD	PGPT0020455_586	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483	NA	NA
D1-17_01502	1332	abaF_6		Fosfomycin resistance protein AbaF	ATGACCGCAGCTTCTTCCGTTGATTCGGAGACCGGCCCCAGCAGCAAGCACGAGGAACGCAAGGTCCTCGCCGGCACGCTGGTCGGCACCACCATCGAATGGTACGACTTTTTCATCTTCGCCCAGCTGACGGGGACGCTGCTGTCCCCGCTCTTCCTCACACCGCTGCAGCAGTCCAACCCTGGCCTCGCACAGATCCTCTCCTTCGCCCTCATCGGCATCAGCTTCCTCTTCCGCCCGCTCGGAGCCGTTATAGCCGGTCACCTCGGAGATCGGCTCGGGCGCAAGGCGATGCTGGTGTTCACCCTCGTCACCATGGGCGCTGCAACCTCGCTGATCGGCCTGCTGCCGACTTACGCCCAGATCGGGCTCTGGGCTCCTGTCCTGCTGATTACCCTGCGGATTGTCCAGGGCTTTTCGGCCGGCGGTGAGTCGGGCGGCGCTGCCCTGATGGCGGTGGAGCACGCACCGATGAGCAAGCGCGGGATCTTCGGCGCGTACCCCCAGATCGGCGTTCCCATTGGCATGATCCTGGCCACGGGTCTCCTGTTCTTCCTCAACAGCAGCATGTCCAGGGAGGACTTTGCCGCCTGGGGCTGGCGCGTTCCGTTCCTGCTGTCCATCGTGCTGATCGTCGTCGGGTACCTGATCCGGCGGGCCGTGGCAGAAAGCCCCGTCTTCCGCGAGATGGCCGCCCGCAAGGCTGAGAGCAAAGCCCCTCTCGGTGAGCTCATCCGGCACCACAAGAAGCCTGTCCTCTACTCGACAATGATCTTTATCGGCAACAACGCTGCTGGCTACCTGCTGATCGCCTTCTTCATCTCCTACGCCACCAGGTCCCTGCAAATGCCCGTTCCTCAGGTTCTGCTTGCCACGACCCTTGCCTCTTTCGGCTGGCTGATCTTCACCCTGGCTGGCGGCTGGCTTTCAGACCGGATTGGCCGCGTCAAGACCTTCCTGACCGGCTACGCCATCGTCTTCGTCTGGATGATCCCGATGTTTGCACTCATCGATACCCGAAACATCTGGCTCTACGGGGTGGCGCTGTTTGTCCTGACGATTGGCCTGGGCCTTTCCTACGGCCCCATGTCCGCCATGTATGCCGAAATGTTCCCGGCGAACGTGCGGTATTCGGGGATCTCCATCGGTTATGCGTTCGGCGCCATTCTTGGCGGCGCATTTGCTGCCACGATCGCGGAGTCCCTGCTCCAGACCACGAAGTGGACGGGCTCCATCGGCATTTACATCATGATCCTGTGCGTCATCTCCGCCGTCGGCGTGCTGCTGGCGAAGGAAACGAAGGGCCGCCTGCTTGGCGTGAGCCGGCACTGA	MTAASSVDSETGPSSKHEERKVLAGTLVGTTIEWYDFFIFAQLTGTLLSPLFLTPLQQSNPGLAQILSFALIGISFLFRPLGAVIAGHLGDRLGRKAMLVFTLVTMGAATSLIGLLPTYAQIGLWAPVLLITLRIVQGFSAGGESGGAALMAVEHAPMSKRGIFGAYPQIGVPIGMILATGLLFFLNSSMSREDFAAWGWRVPFLLSIVLIVVGYLIRRAVAESPVFREMAARKAESKAPLGELIRHHKKPVLYSTMIFIGNNAAGYLLIAFFISYATRSLQMPVPQVLLATTLASFGWLIFTLAGGWLSDRIGRVKTFLTGYAIVFVWMIPMFALIDTRNIWLYGVALFVLTIGLGLSYGPMSAMYAEMFPANVRYSGISIGYAFGAILGGAFAATIAESLLQTTKWTGSIGIYIMILCVISAVGVLLAKETKGRLLGVSRH	PGPT0002956_607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_01503	750		COG1926	putative protein	ATGGGAATGGTTTTTGAAGACCGGGAGGATGCCGGCAGGCGCCTGGCCGCAGCGCTCCCGCAGTTCCGCGAACAGCCGGATACGGTATTGCTGGGGCTTGCCCGCGGCGGTATCCCGGTGGCGTCCGCTGCCGCGGACGTGCTTCATCTTCCCTACGGCACTGTCCTGGTGCGCAAGCTCGGCATCCCGGGCCATGACGAAACAGCGTTTGGAGCCTTGGCCTATGCGGGAGCCATCGCGGCCGGATCGGGCAGCGGCGCGGCTGGCAGCGGCTCAACAGCATCGAAGGCAGAGGCCCCGGGAAGGGCAGCCTCAGCGTCGGATGCCCGCAGGATTGTCCGGCTGCTCAACAGGCCGCTGGTCGAACGGATCCTCGCGGGCGGGGCGCGGCAGGAGTGGCTCGACCAGGTTGAGCGCCGTGAGCGCGACGAACTGCTGCGCCGCGTCGAAGCCTACCCTGGTGCCGGCCTGGAGCTGAGCAGCAAGACCGTTCTGCTGGTCGACGACGGCCTCGCCACCGGTGCCACCATGCGCGCCGCGGTTGAGGCAGTCCGTGCAGCCGGAGCATCGCGGGTGGTAGCCGCAGCTCCCGTAGGGTCTCTCGAGGCCGAAAAGTCCCTCTCCCGAGTCTGCGATGTCCTGTGCCTGCATCTGCCCGGAAGGTTCCGGGCCGTGGGAAGTTTTTACAGGCATTTCGAGCAGTTGACCGACGGCGACGCCATCGGGCTGCTGCAGGGTGCCCATGCCTGA	MGMVFEDREDAGRRLAAALPQFREQPDTVLLGLARGGIPVASAAADVLHLPYGTVLVRKLGIPGHDETAFGALAYAGAIAAGSGSGAAGSGSTASKAEAPGRAASASDARRIVRLLNRPLVERILAGGARQEWLDQVERRERDELLRRVEAYPGAGLELSSKTVLLVDDGLATGATMRAAVEAVRAAGASRVVAAAPVGSLEAEKSLSRVCDVLCLHLPGRFRAVGSFYRHFEQLTDGDAIGLLQGAHA				NA	NA	NA	NA	NA
D1-17_01504	831	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGATGAGCGGCAGACACACCGGCGCACAGCACTCCCACACGGTGGAGGGCACCGATCCCCAGCTGTATGTCGCGGTACATGAACCCACGACGGGCGCGGGCATGCGGCCCATCCTGCTGATCCACGGGTTCTCGTCCTCGAGCAAGCTGAACTGGGAGGACACCGGCTGGGTCGCTGCACTCCTGGATGCCGGGCGCCAGGTCATCACGGTGGACCTGCCGGGGCATGGCCGCAGCGGCGCACCCGAGGACATGGACTCCTATTCCCCCAGCCGCATCCGCGCCGACCTCCTGCAGATAGCGTTCGACGCCGGAGCCCGGCCTTTGGAACCCGGCAACCCTTCCAGCGGACTTGACGTGATCGGCTACTCCCTCGGCTCGCGGCTCGCCTGGGAATTCGGTGCCACCCAGCCGGAGCTCGTGCACAAGCTGGTCCTGGGCGGGCCGAACATGGCCGATCCGCTGGCCGACTTCGACCTCATTGCCGCCCAGCGTTATCTCGCTGACGGTACGCCCATCGCCGATGAATCCACGGCCGGACTGCTGAGGATGGCGCAGGCGCTGCCAAGCAACAACATCTTCGCGCTGCTGTCCCTTATCGAGGCCATCAAGACGGAGCCCTATGACCCCTCCGAAGCGGTGCCGCACATGCCCATGCTGCTCGTGGCCGGCGAAATCGACGAACGCGCCGCCTCCATGCCGCAGCTCGCCGAACTGGCCGCCAAGGCCGGATCCAGGGCAGAGCAGCTCATCCTGCCCGGCCGGAGTCACACCAACGCCGTGACCAGCCGGGCCTTCAAGCAGGCAGCGATCCAGTTCCTCGCGAGCTGA	MMSGRHTGAQHSHTVEGTDPQLYVAVHEPTTGAGMRPILLIHGFSSSSKLNWEDTGWVAALLDAGRQVITVDLPGHGRSGAPEDMDSYSPSRIRADLLQIAFDAGARPLEPGNPSSGLDVIGYSLGSRLAWEFGATQPELVHKLVLGGPNMADPLADFDLIAAQRYLADGTPIADESTAGLLRMAQALPSNNIFALLSLIEAIKTEPYDPSEAVPHMPMLLVAGEIDERAASMPQLAELAAKAGSRAEQLILPGRSHTNAVTSRAFKQAAIQFLAS				NA	NA	NA	NA	NA
D1-17_01505	330			hypothetical protein	GTGGCTGAAATTTCCTTCCCTCTGCCCGACCTCGGCGAAGGCCTGATCGAAGCGACCATCCTGGAATGGCTCGTCTCCCCCGGCGACCAGGTGGAGCGAAACCAGCCGCTCGTTGAGGTGGAAACCACGAAATCCGCAGTTGAATTGCCAAGCCCGCAGGCAGGTAAGGTGGTGCGTATCCACGGCGGGACCGGCGACAAGATCAATGTCGGCGAGCCCCTGATTGTGTTTGAGGTGCCGGACAACACCGCCGGCATCGTGGGCACCGTCCCGAAAGAAGAGGCACCAAAGCGCCGGGTCCGCCTGAGCGCCGTACTTGATGAGGACTGA	MAEISFPLPDLGEGLIEATILEWLVSPGDQVERNQPLVEVETTKSAVELPSPQAGKVVRIHGGTGDKINVGEPLIVFEVPDNTAGIVGTVPKEEAPKRRVRLSAVLDED	PGPT0001390_5612	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001390-aceF|pdhC-K00627	NA	NA
D1-17_01506	1050	bkdB_4	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	ATGTCTGATGCCATTCTTGAGGACGGGTCCGCCATGACCGAAGCCCGGAACGGAGCCACCGTCACCCTGTCCCTGCAGCAGGCGCTGAACCGCGCGCTCGATGAGATCCTTGCGGAGAACCCCAAAGCCGTCATCTTCGGGGAGGACTGCGGACGGCTGGGCGGCGTTTTCCGCGTTACCGACGGGCTGCAGGCAAAGCACGGCGCCGACCGGGTCTTCGACACGCCGCTGGCCGAGTCCGGCATCCTGGGTCTGGCGGCCGGACTCGCCATGGCCGGGTTCCACCCACTTCCGGAGGTGCAGTTCGACGGCTTCGCCTATCCCGCCATCAACCAGATCGTCTGCCAGATCGCCCGGATGAACTACCGCAGCCGGGGTTCGCTGCCGATGCCGGTGACGCTGCGGGTCCCGAGTTTCGGCGGCATCCGGGCCCCTGAGCACCACAGTGAAAGCCTTGAGGCCCTCTTCGCGCACGTGCCGGGACTCAAGGTGGTCTCCCCATCGAACCCGCACGAGGCATACCACCTCCTCAAATATGCGGCCGCGCGGCCTGATCCGGTGATCTTCATGGAGCCGAAGTCACGCTACTGGCAGAAGGGCGCCGTCGATCTCGATACCGCCGACGCTGCCGGCGGTGCCCCGGCCGGCGCCAAGGTCATGCGGGAGGGGCGGCACCTCACGCTCGTGGCCTGGGGTGCCATGGTGTCCCGCTGTCTCCAGGTGGCGGATCTGGCGGCCGAGGACGGCATCGACGTCGAAGTCCTGGACCTGCGCTGGCTCAAACCCATCGACGCCGGGACCCTGGTGACATCCGTGCAAAAGACGCGGCGCGCCGTCGTCGTCCATGAAGCCCCGCTGACCGCTGGCCTCGGGGCGGAAGTGGCCCAACTGATTACGCAGGGCTGCTTCGACACCCTCAAGGCCCCGGTGGAGCGGGTGACGGGCTTCGACGTCCCCTATCCGTCCGGGGACCTCGAAGACGAATACATTCCCAACATCGACCGGATTCTTTTCGGCGTCCAGCGAGTATTGGAGTACCGGCGTGGCTGA	MSDAILEDGSAMTEARNGATVTLSLQQALNRALDEILAENPKAVIFGEDCGRLGGVFRVTDGLQAKHGADRVFDTPLAESGILGLAAGLAMAGFHPLPEVQFDGFAYPAINQIVCQIARMNYRSRGSLPMPVTLRVPSFGGIRAPEHHSESLEALFAHVPGLKVVSPSNPHEAYHLLKYAAARPDPVIFMEPKSRYWQKGAVDLDTADAAGGAPAGAKVMREGRHLTLVAWGAMVSRCLQVADLAAEDGIDVEVLDLRWLKPIDAGTLVTSVQKTRRAVVVHEAPLTAGLGAEVAQLITQGCFDTLKAPVERVTGFDVPYPSGDLEDEYIPNIDRILFGVQRVLEYRRG	PGPT0008862_681	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
D1-17_01507	1053	bkdA_4	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	ATGGATACTTTGCCCCTTCCGGATGACGGCAGCGGCGCCGCCCCTCCCGCGCCAGAGCAGCTGCGTGAGCTGTATTCCCTCATGGCCGCGGTCCGCCAGCTCGATGTCTCGGCCGTTGCATGGCAGCGCCAGGGAATCATCCCCGGCTACGCCCCCGAGCTTGGCCAGGAGGCCGCCCAGGTGGGCAGCGGGTACGCCGTGGATACCTCGCGGGACTTTGTCTTCCCCACGTACCGTGAGATGGGCGTGGCACGCGCCATGGGCGTGGACATGGTGAAGTACATGTCCACCCACAAGGCCAGCTGGCACGGCGGGCTCTACGGTCCGCAGGTATCACGCCTGGCTCCCATCCAGGCAGTCGTCGCCGGCTCCGTGCTGCATGCGGTGGGCTGGGCCCACGGCCAGACGCTGGCAGGCAGGCCAACCGACGGCAGGTCCGCCGTCGCGCTGGCCTACTTCGGCGATGGGGCATCCTCGCAGGGCGACGTCCACGAGGCGATGAACTTCGCGGCCGTGATGAAGGCGCCTGTGGTGTTCTTCGTCCAAAACAACGGTTGGGCGATCTCGGTTCCCACCGAGCGGCAGGTTGCCGGCGGGTCCGTGGCGGCCCGCGCAGCCGGTTACGGCATTCCCGCAGTCCAGGTGGACGGCAACGACGTCGTCGCCGTCCTCCAGGCCACGCGGCGCGCCTTCGCCCACTGCCGCACCGGCAACGGCCCGGTACTGATCGAGGCCATGACCTACCGCCGCGGACCCCACTCCACCTCCGACGACCCCGGCCGCTACCGCTCCCTCAGCGAGGAACGCGACGGCGCCGGCGAAGATCCGCTGAAGAGGTTCCGGCGGCGCTTGCTCAACGACGGCATTGCCGGCGAAGAGTTCTTCGCTCAGGCCCAGGCGGCTGCCGCCGCCGAAGCGGAATCTGTCCGCGAAGGGCTCGAAGCACTCGGGCCGCAGCCGGGCGGGGAAATGTTTGACCTCGTCTTCCAGGAACCAACACCAGCACTGCAGTCCCAGGCTGCCGCGTGGCGCGAGGAGTCAGAACATGTCTGA	MDTLPLPDDGSGAAPPAPEQLRELYSLMAAVRQLDVSAVAWQRQGIIPGYAPELGQEAAQVGSGYAVDTSRDFVFPTYREMGVARAMGVDMVKYMSTHKASWHGGLYGPQVSRLAPIQAVVAGSVLHAVGWAHGQTLAGRPTDGRSAVALAYFGDGASSQGDVHEAMNFAAVMKAPVVFFVQNNGWAISVPTERQVAGGSVAARAAGYGIPAVQVDGNDVVAVLQATRRAFAHCRTGNGPVLIEAMTYRRGPHSTSDDPGRYRSLSEERDGAGEDPLKRFRRRLLNDGIAGEEFFAQAQAAAAAEAESVREGLEALGPQPGGEMFDLVFQEPTPALQSQAAAWREESEHV	PGPT0008861_2386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-17_01508	1458	gabP_2	COG1113	GABA permease	ATGACAATGAAGTCCACGGCAGAGCGTCCGCCAGCAGAACTCGGCCACAGCATGAAACCCCGTCAGCTGACCATGATGGGCCTGGGCAGCGCCATCGGCGCCGGACTCTTCCTCGGTTCAGGAGCCGGGGTCCAGTCAGCGGGTCCGGCAGTCCTCCTTTCCTACCTCGTGGCTGGAACGCTGATCATCCTGGTCATGTGGGCCCTCGGCGAGATGGCCGCAGCCAACCCCAACAGCGGGGCGTTCTCCGTCTACGCCGAAAAGGCCATGGGCAAGACCGCGGGTGCCACTGTGGGCTGGCTCTGGTGGCTGCAGCTCGTAGTGGTCATCGCAGCGGAAGCCCTCGGTGCGGCCGGGCTGCTGTTCTCGGTCTGGCCTGTGATTCCGGTTTGGGCCCTGGCCCTCACGTTCATGGTCGTGTTCACCGCCATCAACCTCGCCGGCGTGAAGAACTTCGGGGAGTTCGAATTCTGGTTCGCCATCCTCAAAGTCGCTGCCATCGTGGCGTTCCTGGCCATCGGCGGCGCGCTGCTCCTGGGCGTCCTGCCTGGCGTGTCCTCCCCGGGACTGGCCAACATCACCGGTGATTTCGCCCCGGCCGGCTTCGGCGGCATCGCGACCGCCCTGTTCGTGGTGATTTTTGCCTTCGGCGGCACAGAAATCGTCAGCGTCGCCGCTGCAGAGACGGAGAACCCCGAGCGCAGCGTCGCCCAGGCCATCCGCACGGTCGTCTGGCGCATCCTGGTCTTCTACATCGGTTCCGTGTTCGTCATTGCCGCCGTGCTCCCGGTGAACTCCGGGGCCCTCGCATCACCCTTCGCCGGCGTCCTGGACGCCGCCCGCATCCCCGGTGCCGCAACGGCGATAACCCTGGTGGCCGTCGTCGCGCTTCTTTCCGCCCTCAACGCCAACCTCTACGGTGCCTCCCGCATGGTGTATTCGCTGTCCCAGCGCCGCGAGGCACCCCGCTTCCTGTCGGCACTAAGCGGCGCCAAAGTCCCGATGGTCGCCGTGGGTGTCTCCGTGGCGTTCGGCTTCATCGCCACTGTGCTGGAGCTGCTGTTCCCCGAACGGATCCTGCCTGCACTGTTCCAGCTGGTCGGGTCGACATGCCTGGTGGTGTGGGGTTCTGCGCTCGTTTCCCAGCTGATCCTGCGCCGCCGGGCCGACCGAGACGGCACTCCCCTGCCCCTGAGGATGAAGGGTTTCCCGGCCCTTACGGTGTTCGGTCTGGTGCTCCTGGCACTGGTTTTCGCAGTGGGCTTCAGCGCCGAGAGCAGCCGAGTCCAGCTGGTCAGCACTTTTGTGCTCATTGCAGGCATTGCAGCGGCATGCCGTTTTGGAGCACGGCTGGCGGCGAAGCCCAGCGCCGAAGAGGCCGAACAGGGCGGGCCCGCTCTGGGCGGGCCGGAACAGGATGAACCTGTACCGGGCGAGAGAGCCCGGCTTCCCAAGTAG	MTMKSTAERPPAELGHSMKPRQLTMMGLGSAIGAGLFLGSGAGVQSAGPAVLLSYLVAGTLIILVMWALGEMAAANPNSGAFSVYAEKAMGKTAGATVGWLWWLQLVVVIAAEALGAAGLLFSVWPVIPVWALALTFMVVFTAINLAGVKNFGEFEFWFAILKVAAIVAFLAIGGALLLGVLPGVSSPGLANITGDFAPAGFGGIATALFVVIFAFGGTEIVSVAAAETENPERSVAQAIRTVVWRILVFYIGSVFVIAAVLPVNSGALASPFAGVLDAARIPGAATAITLVAVVALLSALNANLYGASRMVYSLSQRREAPRFLSALSGAKVPMVAVGVSVAFGFIATVLELLFPERILPALFQLVGSTCLVVWGSALVSQLILRRRADRDGTPLPLRMKGFPALTVFGLVLLALVFAVGFSAESSRVQLVSTFVLIAGIAAACRFGARLAAKPSAEEAEQGGPALGGPEQDEPVPGERARLPK	PGPT0000815_1591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
D1-17_01509	480			hypothetical protein	ATGGCAGTCGATGATCTGGATGCCAAAATTGTCCGATTCTTTACTGATTCCCCGAGATCCTCGGTCCTGGAGGCTTCGCGGGTGCTAAAAGTCGCCCGCGCCACCGTCCAGGCCCGGCTGGACCGAATGACGGAAAGCGGAGTCATCGGATCGTGGGTGCCCCATCCGGACCCTTCCGGTTTTGGCTTTCCTGTTGTCGCCTTTTGCTCGTTCACGATCAACCAGGACCTGGGGCACGATGCCGTGGTCGAGGCGCTGGCGGGGATTCCCGAACTGATCGAAATCCACACGGTCTCCGGCGGCTTTGACCTGATGGCCCGCATCGCCGCACGCTCGAATTCTGACCTGCAGCGCGTGCTCGATGCCATGATCGCCACCAGGACAGTGCTCCGCTCATCCTCCGTGATCGTCCTTAACACTCACTTCCAGGGCAGAACGCTGCCCCTGCTGGAAGCGGTGGCAGCCCAGGCCGGTCCGTAG	MAVDDLDAKIVRFFTDSPRSSVLEASRVLKVARATVQARLDRMTESGVIGSWVPHPDPSGFGFPVVAFCSFTINQDLGHDAVVEALAGIPELIEIHTVSGGFDLMARIAARSNSDLQRVLDAMIATRTVLRSSSVIVLNTHFQGRTLPLLEAVAAQAGP				NA	NA	NA	NA	NA
D1-17_01510	720			hypothetical protein	GTGATCAGCGTGTACACCACCTCAGCCAACGTGGCCGAGCGGCAGGCCGCGCCTCCGTCACTCGCCATCTCTACCGTGATCTTCGCGCTCCGTCCCAGCGAGGCATCAGGGCGACCCACCTTGTGGCTCCCGCTGGTGCGCCGCATCCGCGAGCCGTACAAAGGCCTGTGGGCGCTGCCCGGCGGTCCGCTTACCCATTCGGAGTCGCTGCAGGACGCCGCGTCGCGCAATCTGCGTGAGACCACGGGACTGTCGCCCAGCTACCTCGAACAGCTGTATGCCTTCGGCGGCCTCCACCGTTCACCCTCCCAGCGCGTGGTTTCCATCGTTTACTGGGCGCTGGTCCAGCCAACCGAGGCCGCGCTGACCACGGAATCCGAAAATGTCAGGTGGTTCCGGGCCGACAAGCTGGGAGACCTGGCCTTCGACCACAATGCCATTGTGGACTACGCCCTCTGGCGGCTGCGGAACAAGCTCGCCTACGGCTCCATCGCATACCACTTCCTCGGCGAGTACTTCACGCTCGCGCAGGTCCGGGAGGTCTATGAGGCCGTCTTGGACACCCACCTCGATCCGGCCAACTTCCGCCGCCAGATCAAAGCCACGCCGGACATCGAGGAGACCGGTGAATACCTCCAGGGCGGCAAGCACCGCCCGCCCCGCCTTTACCGATACACCGGCCGCCCCGGCCTTGACCCAGATAACAGGAGCACCCCATGA	MISVYTTSANVAERQAAPPSLAISTVIFALRPSEASGRPTLWLPLVRRIREPYKGLWALPGGPLTHSESLQDAASRNLRETTGLSPSYLEQLYAFGGLHRSPSQRVVSIVYWALVQPTEAALTTESENVRWFRADKLGDLAFDHNAIVDYALWRLRNKLAYGSIAYHFLGEYFTLAQVREVYEAVLDTHLDPANFRRQIKATPDIEETGEYLQGGKHRPPRLYRYTGRPGLDPDNRSTP				NA	NA	NA	NA	NA
D1-17_01511	1311	nadA		Quinolinate synthase A	ATGAGCAGCGTCAACACGGCAATCCAGCTGATTACGCGTGAGCAGGCTGAGAAAGGCGCCGCTGCCGCGGCCGGCAGCACATGCAGCCCTGCGCTGGCCAAGGGGCCCTGGGACTACGACCTCGCTGAAGCCCTCGCCGGCGTGCCCGCCTACGGCCCGGGCGCATCCAGCGCGGACGTCGCACCGCCAACAACGCCCCGGCAGGGCCAGCTTCCGGAGGAGTACAAGCTCGCCAGCGACGCCGAGCTCGACGCCCGGATCCGGGCCGCCAAGGCCACTCTTGGGGACCGCGCGGTCATCCTGGGCCACTTCTACCAGCGCGACGAGGTGGTGCAGTACGCCGATTTCGTCGGCGATTCCTTCCAGCTGGCCAACGCCGCGCTCACCCGCCCCGACGCCGAGGCCATCGTTTTCTGCGGGGTGCACTTCATGGCGGAGACCGCCGATACCCTCTCCCGGCCGGAACAGGCAGTCATCCTGCCGAACCTCGCCGCCGGCTGCTCTATGGCTGACATGGCGGATGCCGATTCAGTGGAAGAGTGCTGGGAACAGCTGGAGGAGATTCTCGGCAGCGAGCCCGACGCCGACGGCCGGGTTCCGGTCATTCCGGTCACCTACATGAACTCCTCCGCAGCGCTGAAAGCCTTCTGCGGCAGGCACGGCGGAATAGTGTGCACGTCCTCCAACGCCAAAACGGTCCTCGAGTGGGCCTTTGAGCGGGGCCAGCGTGTGCTGTTCTTCCCGGATCAGCACCTGGGCCGCAACACTGCCAAGGCACTGGGCGTGCCGCTGGAGCAGATGCCCATGTGGAACCCGAACATGGAGCTTGGGGGCAACGGCGAGCAGGCGCTGCTGGACTCCCGCGTGATCCTGTGGCACGGTTTCTGCTCGGTCCACAAGCGCTTCAAGGTGGCCCAGATCGAGAAGGCCCGCGCTGATTTCCCCGGAGTCAACGTGATCGTGCACCCCGAATGCCCCATGGAGGTGGTGGACGCAGCCGACTCGGCCGGGTCCACAGACTTCATTCAGAAGGCGATTGCAGCGGCAGAAGAACCCACCGTGTTCGCCATCGGCACCGAGATCAACATGGTGAACAGGCTTGCGGCGCAGTACCCGCAGCACACCATCTTCTGCCTCGACCCGGTGATCTGCCCGTGCTCCACCATGTACCGGATCCACCCCGGCTACCTCGCCTGGGTCCTCGAGGAGCTCGTTGCCGGCCGTGTAGTCAACCGCATCACGGTTGATGATGCCGTACAGCAGAACGCCAGGACCGCTCTCGAGCGCATGCTCGCCGCCAAGCCCCAGTAA	MSSVNTAIQLITREQAEKGAAAAAGSTCSPALAKGPWDYDLAEALAGVPAYGPGASSADVAPPTTPRQGQLPEEYKLASDAELDARIRAAKATLGDRAVILGHFYQRDEVVQYADFVGDSFQLANAALTRPDAEAIVFCGVHFMAETADTLSRPEQAVILPNLAAGCSMADMADADSVEECWEQLEEILGSEPDADGRVPVIPVTYMNSSAALKAFCGRHGGIVCTSSNAKTVLEWAFERGQRVLFFPDQHLGRNTAKALGVPLEQMPMWNPNMELGGNGEQALLDSRVILWHGFCSVHKRFKVAQIEKARADFPGVNVIVHPECPMEVVDAADSAGSTDFIQKAIAAAEEPTVFAIGTEINMVNRLAAQYPQHTIFCLDPVICPCSTMYRIHPGYLAWVLEELVAGRVVNRITVDDAVQQNARTALERMLAAKPQ	PGPT0013365_220	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
D1-17_01512	1767	nadB	COG0029	L-aspartate oxidase	ATGACCCAGTCCAACGGAAGCGCCTGCGCCGGCGCCCGGCGGCTCATCGTCGTCGGCAGCGGCATCGCTGGCCTTTATGCGGCTCTGCTCGCCGCGGAGGCAGGGGCCGACGTCGTGCTGCTCACCAAGGCCGCGCTCGCGGACAGCAACACGTACTACGCCCAGGGCGGGATATCGGCTGTCCTGGACGAACCGTCACCAGGTGACACTGTGGCGGCGCACATCACGGACACACTGAAGGCCGGCGGCGGACACTGCAACCCGGACGCCGTCCGGCTGCTTTGCGCTGAGGCGCGCCGGGACATCGCCGGGCTGGAACGGTTTGGCGTGCGTTTTGACATGGACGACGACGGCGATCCCGCCTTGGGTCTGGAAGCGGCCCACTCTGCCCCGCGCATCCTGCATGCCGGCGGCGACGCGACCGGTGCGGGGATTGCCAACGCCCTGATCTGCGCCGTGCTGGCCAGCCAGGCTTCGGGGAAGCTCCGGCTCCTGGGACATGCCCGCACCACCGCACTCATCCAAGGGGGCGGGCAGGTGACGGGCGTGGAGTACCTGCACGACGGCCAGCTGAAAAGCATGCAGGCCGACGCGGTGCTGCTGGCCACCGGCGGCGCCGGGCAGCTCTTCGCCCAGACCACCAATCCCTCCGTTGCCACCGCGGACGGGTTGGCCCTGGCGTGGCGCGCCGGTGCTGCCGTCGCGGACCTTGAATTTTTCCAGTTCCATCCCACGTGCATGGTCCGCACCGCCGAGGCGGCAGAGTCTGAGGGCAACCAGGACCCGCTGCTGATTTCCGAAGCAGTCCGTGGCGAAGGCGCCATCCTCCTGGACGCCCGCGGCCACCGCTTCATGCCGGACTACCACGCCGATGCCGAACTCGCACCGCGGGATGTGGTGTCCCGCAGCATCGCCCTCCACCTCGCCGCACTGGGCGACCCCAACGGCCACGTGTACCTCGACGCCCGCGCCATCGAGGAGACCAGGGGAGCAGGCTTCCTTGCGAAGCGGTTCCCCACGATCAGCAGCCGCACCCGCGAGGCCGGCGTCGACTGGACAACGGAACTGGTCCCCGTAGCACCAGCAGCCCACTACTGGATGGGTGGCGTCTCAACCGACCTGCACGGCCGCACTACCGTCCCGGGTCTCTACGCTGCCGGGGAAGTTGCCTGCACCGGAGTCCAGGGCGCCAACCGGTTGGCCAGCAACTCCCTCCTCGAGGGGCTCGTTTTCGGCAGGCGTGCCGTTGATGCTTTCCTGGATGACTCCACTCTTGGTGCATCCGTCAGCCACCACGGCGCTGCGGCCGGCTCCTCCTGGACGCCGTGGGCACGCGCCCTCCCGCCGGCGTGGGAGTTCGAGACCACGCCTGCTCCGGGGCCGATCGAAACATCCTTTGCCAGTCCCGGGCCTTTCTCCCGCAAAGCGCTGCGGCAGCTGATGACGGCCAAGGCAGGTGTGCTCCGTACCGGGGCGCAGCTGCGTGAGGCGGGCGCCGCGGTCGCGGCGTGGGCCGCCGTCGTCCGCCCCGAAAGCGTCCCCGCTGTGGAAGACCCGCGGGAGCACGAGGATGCGAACCTGCTGCTGGCTGCCCAGCTTCTGGTCCATGCCGCCCGCGAGCGCCGCACGTCGCTCGGAGCCCACTACCGCGGGGACAGCATGCCCGCGGTTCCGGCTACCGGGACAGGGGCGGTTGCAGCGGGTCCAGCTAAAGACACTGAGATGAGTTACACCATGAGCCGGAAAGCGAGCCTCGTCCATGACTAG	MTQSNGSACAGARRLIVVGSGIAGLYAALLAAEAGADVVLLTKAALADSNTYYAQGGISAVLDEPSPGDTVAAHITDTLKAGGGHCNPDAVRLLCAEARRDIAGLERFGVRFDMDDDGDPALGLEAAHSAPRILHAGGDATGAGIANALICAVLASQASGKLRLLGHARTTALIQGGGQVTGVEYLHDGQLKSMQADAVLLATGGAGQLFAQTTNPSVATADGLALAWRAGAAVADLEFFQFHPTCMVRTAEAAESEGNQDPLLISEAVRGEGAILLDARGHRFMPDYHADAELAPRDVVSRSIALHLAALGDPNGHVYLDARAIEETRGAGFLAKRFPTISSRTREAGVDWTTELVPVAPAAHYWMGGVSTDLHGRTTVPGLYAAGEVACTGVQGANRLASNSLLEGLVFGRRAVDAFLDDSTLGASVSHHGAAAGSSWTPWARALPPAWEFETTPAPGPIETSFASPGPFSRKALRQLMTAKAGVLRTGAQLREAGAAVAAWAAVVRPESVPAVEDPREHEDANLLLAAQLLVHAARERRTSLGAHYRGDSMPAVPATGTGAVAAGPAKDTEMSYTMSRKASLVHD	PGPT0013355_179	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
D1-17_01513	873	nadC	COG0157	putative nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGACTAGCCTGACCCTCCCTGCAGCTCCCGTCCGGGACATCCTGGAACGTGCGTTCGCCGAAGACGCCCCAAGCGGCGACATCACCTCGCAGCTGCTGATCCCGGCAGAGGCGCGTGCCACGGCTGTGCTGAACGCCCGCGTTCCGGGTATCTTCAGCGGCGGCACCGTCTTCCGGGACGCCATGCTGCTGATCGACCCGGACACCGAGGTGGAACTGCTGGTGGCAGACGGTGCCGCGTTCGACGCCGGGACCAGCCTCGCGCGGGTCAGCGGACGGGCCCGCAGCGTGCTGCTTGCAGAACGTGTCGGATTGAACCTGGCACAGCGGATGAGCGCCATCGCCACCCGCACGGCTGAATACGTCCGGCTGGTGAACGGGACCAAGGCCCGCATCGCGGACACCAGGAAGACAACACCCGGCCTGCGCGTGCTGGAGCGCTACGCGGTGCGCTGCGGTGGCGGCACCAACCACCGCTACAGCCTCTCCGACGCCGTCCTTGCGAAGGACAACCACCTGGCCGTGATGACCGGAGGCGATCCGGAGAAGCTGACCGGCCTGCTTGCGGCCGCCAAGGCCCAGCTCGGGCACACCACGCACTTCGAGGTGGAAGTGGACAGCGCCGACCAGATCGAACCCGTGCTGGCCGCCGGGGTGGACACGATCATGCTGGACAACTTTTCGCTGGAGGAGCTGCAGGCGGGAGTGCGCCAGGTGGGAGGCCGGGCCGTGGTGGAGGCCAGCGGCAACGTCAACCTCGGCAGCGTCGCAGACATCGCGGCTGCGGGCGTGGACGTGATCTCCATCGGTGCACTGACCCACACCGTGACTGCACTGGACCTTGGCCTGGACGTTGAGCTGACGGTCAGCTGA	MTSLTLPAAPVRDILERAFAEDAPSGDITSQLLIPAEARATAVLNARVPGIFSGGTVFRDAMLLIDPDTEVELLVADGAAFDAGTSLARVSGRARSVLLAERVGLNLAQRMSAIATRTAEYVRLVNGTKARIADTRKTTPGLRVLERYAVRCGGGTNHRYSLSDAVLAKDNHLAVMTGGDPEKLTGLLAAAKAQLGHTTHFEVEVDSADQIEPVLAAGVDTIMLDNFSLEELQAGVRQVGGRAVVEASGNVNLGSVADIAAAGVDVISIGALTHTVTALDLGLDVELTVS	PGPT0013370_836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
D1-17_01514	1167	iscS_2		Cysteine desulfurase IscS	ATGATCTTCCTCGACGCAGCCGCTACCACCCCCATCCGGCGGGAGGTGCTGGAGGCAATGTGGCCCTTCCTGACCGGCGAATTCGGCAACCCCTCCAGCCACCACTCCCTCGGCGGGTCAGCTGCGACGGCGCTCGCCGATGCCCGCAAGACCGTTGCCACCGTGCTGGGCTGCAGGCCGGGTGAAGTGACATTCACCTCCGGAGGCACGGAAGCGGACAACCTTGCCGTCAAAGGCATCGCCCTGGCCCGGCAGGCCGCGGATCCTGCGCTGAACCGCGTGGTGGTCAGTGCCATTGAGCATCCTGCGGTGGAGGAATCCGCCCGGTACCTGCAGCGCTATCACGGTTTCGCCGTCGACGTGGTACCGGTAGACGGAACCGGGCTGGTGACCGCCGAAGCGCTGGCCGCCGTGCTGCGGCCTGAAACGGCGCTGGTGAGCATCATGCTGGCTAACAACGAGGTGGGAACGGTCCAGCCAGTGGCTGAACTGGCCGCTGTGGCCCGGGACCACGGCGTGCCCTTCCATACGGATGCCGTGCAGGCGGCCGGCTGGCTGCCGCTGGACGTGAAGACCCTCGGCGTGGACGCCCTCAGCCTCTCGGGACACAAGCTGGGGGCACCCAAGGGCTGCGGTGTGCTGTTCGTCAGGGGCCGCACCCGCCTGGAGCCGCTGCTGCACGGCGGCGGCCAGGAACGCGGACGTCGCTCCGGCACGGAAAATGTGGCCGGAGCCGTGGGCGTTGCAACCGCGCTCACGCTTGCCCATTCTGACCGCGCCCGCCTGGCCGAGCGGGTGGTCCGGTTGCGGGACTCCTTCATCACAGCCGTCCTCGAACGGGTTCCCGGAGCGCTGCTGACCGGGCACCCGGTAGAGCGGCTGCCCTCCATCGCGTCCTTCTGCTTCCCGGGCACCAGCGGTGAGTCGGTGCTGCTGGAACTGGAACGCCAGGGCGTGGTGTGCTCCAGCGGGTCGGCGTGCGCTGCAGGATCGGACGCGCCGTCAGCCGTGCTGCTCGCCCTGGGCATCGAAGGCGAGGTTGCGCAGACCGCCGTCCGCTTCAGCTTCAACGCCACGGTGACTGAAGCGGACCTTGAGTCAGCAGCGGCTGCCGTCCGGACCGCCGTCGGAAGCGTCCGGACACTGGGCCACCACACGCCCAGCTAG	MIFLDAAATTPIRREVLEAMWPFLTGEFGNPSSHHSLGGSAATALADARKTVATVLGCRPGEVTFTSGGTEADNLAVKGIALARQAADPALNRVVVSAIEHPAVEESARYLQRYHGFAVDVVPVDGTGLVTAEALAAVLRPETALVSIMLANNEVGTVQPVAELAAVARDHGVPFHTDAVQAAGWLPLDVKTLGVDALSLSGHKLGAPKGCGVLFVRGRTRLEPLLHGGGQERGRRSGTENVAGAVGVATALTLAHSDRARLAERVVRLRDSFITAVLERVPGALLTGHPVERLPSIASFCFPGTSGESVLLELERQGVVCSSGSACAAGSDAPSAVLLALGIEGEVAQTAVRFSFNATVTEADLESAAAAVRTAVGSVRTLGHHTPS	PGPT0000065_4657	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-SULFUR_MODIFICATION_PROTEINS,PGPT0000065-nifS|iscS-K04487	NA	NA
D1-17_01515	663			hypothetical protein	ATGGCGGAACACGAGCAGGATGCTGCAGAGAAAACATTGGTGAGCATGTCCGCCGTCGACATCGCTGACTGGCGGCTGAGGACCTTTGCGCTATATGAGCAGGTCCGCAGAATTGCGGCGGATGATCCCGCGGAAGCGCATTCATATTGGCGGCAGGAGCGGGACCGCATGTTCGCCCTGCATCCCGCTTCCGCCCTTACCGCTGAAGCCAAGGCAAATTTCGGCGGGTTGAAAACCGCCGACTACGATCCCATCTACCGCTTCCATGTGCCCCTGACCATGGAAGGCGCCGGCCGGGAGATGAGTGTTGAAACGGGCACCGACGGCGTCGTCCGGTTCGTCAGGCTGGGCACGTTCGACCTGCCGGAAATGGGCCAGCTCGCCGTGTGGAGGCTGATGGGTTACGGCGGCGGCATCTTCGTCCCTTTCCGCGATGCCACTGCAGGCCAGCCGGGCGGCAGCTATGGAGCGGGCCGGTACCTGCTGGATACCATCAAGGGGGCATTCCACGGCGTCCGGGGTTCGGGCACCGGCGCGTCGTTTGTTCTCGACTTCAACTTCGCCTACAACCCGTCCTGCGCCTACAACGAGGCCTGGGCCTGCCCGCTGGCCGGTCCCGAGAGCCGCTTGGCCGTCGAGATCCCGGTCGGCGAACTCTACTGA	MAEHEQDAAEKTLVSMSAVDIADWRLRTFALYEQVRRIAADDPAEAHSYWRQERDRMFALHPASALTAEAKANFGGLKTADYDPIYRFHVPLTMEGAGREMSVETGTDGVVRFVRLGTFDLPEMGQLAVWRLMGYGGGIFVPFRDATAGQPGGSYGAGRYLLDTIKGAFHGVRGSGTGASFVLDFNFAYNPSCAYNEAWACPLAGPESRLAVEIPVGELY				NA	NA	NA	NA	NA
D1-17_01516	795			hypothetical protein	ATGACAGCTCCCCGCGCCGCCGCCGTAACTGCCGCGTTGCTGATCACTGCAACGCTCCTGGCCGGGTGCGGCAGCGACGGCAAGAGCACCCCGGTATGGACGGTGGAGCCAAGCGGGGGCTCTGCGACTCCCGGCGCCACCGCGGGCGCAACGCCGGGAACGGCCATTCCTACCGCCACAGCCTCAGGCGGTCCGTCCCCGTCTCCGGGAGCGACGGCGTCGGCCTGGAAGGTTTTTACCGATCCCGCCAAGAAAGTCAGCTTCGAGCTGCCGCAGGAGTGGATTGCCCAGTCCGTTGAGCCCGACAAGGGCGCGCTTCCTGGCGCTGTGAAGGTGGAAGTCAAAGATGCGGAGGGCACGTACCTGGCAACGCTCCAGACCGGGCTTCCCGAGACCGCCCCTGCCGAGTGCGCGGCATCCGCGAAGAAGTCTTATGTCGTGGTCAGCAGCGTCCCGGTGGAACTGCCGCACAGCGGAGGCGAGGGCACTATCTCCCCCCACGTGGTGTTCCGCGTCATGCAGGGTTACAAGTTCTTCGGCTCCTACGGAATTACCAACGTGGTGGGCGGGGCCGACTCCAAGGCGTGCCAGCTGCAGAATGTGGTCCGGGGGTTGGAAGGCACCGGCAACTACTCCTTCAGCGACGTCCGCTCGCTGAAATCATTTGCCCCGGACGAGAAGGTGGCACCGGCAAAGGTCTTTGACACCCTGGATCAGGCCGCAGACTACGTGAACAAGGGCTCCGAATTCGCCAACGTCCAGCGGATGCTAATGTCTCTGGAGATCAAGAACTAG	MTAPRAAAVTAALLITATLLAGCGSDGKSTPVWTVEPSGGSATPGATAGATPGTAIPTATASGGPSPSPGATASAWKVFTDPAKKVSFELPQEWIAQSVEPDKGALPGAVKVEVKDAEGTYLATLQTGLPETAPAECAASAKKSYVVVSSVPVELPHSGGEGTISPHVVFRVMQGYKFFGSYGITNVVGGADSKACQLQNVVRGLEGTGNYSFSDVRSLKSFAPDEKVAPAKVFDTLDQAADYVNKGSEFANVQRMLMSLEIKN				NA	NA	NA	NA	NA
D1-17_01517	807			hypothetical protein	ATGGAACGCACTGTGGCTGCCCGCCTGGTATTCAAGACCGTGGCCGACACCAAGGTGGCACTGGCCGTTGCCGTCGCCCGTAATCCGGGCTACACCGCCTTCGACGAGACGCTGTCCGTCACGACGAGCGGTGAACAGATCCCGCTGACGGAGTTGTCCGACCACCACGGCGGTAGGTTCCACTATATGGAGTTTGCAGAGCCCACCGAAGTGACCGTGGATTATGCGGCCACTGTCGCCGGGTTGGCGGAACCGGACGAGGCATCGCTGATGGAGCTGATCCGGTATGTCCGGCCAAGCCGCTATGCCGAGTCGGATCGGCTGCTTCCCACGTCCTATGCGGAATTCGGCGGCCTGCAGGGGGAGGAGCTCCTCGCCGCTGTCCGTAAATGGGTCAACGGGGAACTCCGCTACGTCAGCGGATCCTCCCGTGGCACCGACGGGGCGGTGGAAACCCTCCTGAACCGGCGGGGAGTCTGCCGGGATTACGCGCACCTTGCCATCTCCCTGCTAAGGGCAAAGAATGTGCCGGCCCGGCTCGCCGCGGTGTATGCGCCCGGGCTCTCGCCGATGGACTTCCACGCGGTGGCCGAGGCCCACATCAACGGTGCCTGGCATGTCATCGACCCCACAGGACTGGCGCCCAGGGACTCAATGCTGCGGATCACCGCGGGCCGGGACTCCTCGGATACCGCCTTCCTGTCCACTGTTGGCGGCAGCCTGTCGTTGCGGGACATGAAGGTCACCGCGACGGTCAACGGAGAGCTGCCGGCCGAGGACCCTGACAAGCTCGCCGTCATCCGCTAG	MERTVAARLVFKTVADTKVALAVAVARNPGYTAFDETLSVTTSGEQIPLTELSDHHGGRFHYMEFAEPTEVTVDYAATVAGLAEPDEASLMELIRYVRPSRYAESDRLLPTSYAEFGGLQGEELLAAVRKWVNGELRYVSGSSRGTDGAVETLLNRRGVCRDYAHLAISLLRAKNVPARLAAVYAPGLSPMDFHAVAEAHINGAWHVIDPTGLAPRDSMLRITAGRDSSDTAFLSTVGGSLSLRDMKVTATVNGELPAEDPDKLAVIR				NA	NA	NA	NA	NA
D1-17_01518	468			hypothetical protein	ATGGCCGCCACCCGAGATACTCCTGCTGTCTCGCCGGTACGCCTGGCAGCGGAGACCTGGGAATCGCTGTTCCGCGCCCAAGTGGCTGTGATGCGCCGGCTGCAGTCCGGGCCGGCGTTCAAGGATCTGGCGGTGAACGAGTACGACGTCCTTTTCACGCTCTCCCGCTGCCCCTCCGGATGGCTGCGCCTGAATGAGCTCAACGACAATGTCCTGCTGAGCCAGTCCAGCCTCAGCAGGCTCGTCGAGCGGCTTGAAAAACGCGGACTGGTGGAGCGGATGCCGGCACCGGATGACCGCCGGGGCGTCCTGATCAAACTGACCGAGGAGGGGGCGGAGCTGCAAAAGCAGATCGGACGCGAGCACGTCCGGGACATCTCAGCCCTGGTCTCCCCTGCGCTGACCGCCGCTGAACAGCGCGAGCTGCTGAGGCTGACGGAAAAGCTGCGCACGTCGCTGCCGCGCTAG	MAATRDTPAVSPVRLAAETWESLFRAQVAVMRRLQSGPAFKDLAVNEYDVLFTLSRCPSGWLRLNELNDNVLLSQSSLSRLVERLEKRGLVERMPAPDDRRGVLIKLTEEGAELQKQIGREHVRDISALVSPALTAAEQRELLRLTEKLRTSLPR	PGPT0013155_4520	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-17_01519	1146	fgd		F420-dependent glucose-6-phosphate dehydrogenase	ATGCAAATCGGCGTATTCAGCGTCAGCGACATCACCACCGACCCCACCACGGGCCGGACTCCCACAGAAAACGAGCGGATCAAGGCTTCGGTGGCGATCGCCAAGAAGGTCGAAGAAATCGGGATGGATGTCTACGCCCTCGGCGAGCACCACAACCGCCCGTTCTTTTCCTCCTCCCCTACTACCACTCTTGCCTACATTGCCGCGCAGACCGAGCGCATCATCCTCTCCACGGCCACTACCTTGATCACCACGAACGATCCCGTGAAAATCGCCGAGGACTTTGCCATGCTGCAGCACCTGGCCAACGGCCGCGTGGATCTGGTCCTTGGCCGGGGCAACACCGCGCCGGTCTACCCCTGGTTCGGCAAAAACATCCAGGACGGGGTGGAACTGGCAATCGAAAACTACAGCCTGCTCCGCCGCCTCTGGGACGAGGACACCGTGAACTGGTCCGGCAAGTTCCGCACCCCGCTGCAGAACTTCACATCCACGCCGCGCCCGCTCGACGGCGTTGCCCCCTTTGTATGGCACGGCTCCATCCGCACGCCGCAGATCGCCGAGGTGGCCGCTTACTTCGGCGACGGTTTCTTTGCCAACAACATCTTCTGGCCCAAGGAGCACTACCAGCAGCTCATCGGCCTCTACCGCGAACGGTACGAGCACTACGGCCACGGCAAGGCAGACCAGGCGATCGTGGGCCTCGGCGGACAGTTCTTCATGCGGAGAAACTCACAGGACGCGGTCCGGGAATTCCGGCCCTACTTCGACAACGCCCCCGTCTACGGCCACGGTCCGTCCCTTGAGGACTTCACGTCCCAGACCCCGCTGACCGTCGGCAGCCCGCAGGAAGTCATCGAGAAGACCCTCACCTTCCGCGAGTTCTTCGGCGACTACCAGCGCCAGCTGTTCCTGATCGACCACGCCGGCCTTCCGCTCAAGACCGTTCTTGAACAGCTGGACCTGTTCGGCGAGGAGGTCCTGCCGGTGCTGCGCAAGGAGTACGCGGCCCTCAAGCCTGCCCATGTTCCGGACCCGCCCACCCACGCCGGACGCATCGCTTCGAAGCTGGCCGCCGAGGGCGGAGCAGCAGAAGCTGACGTAACAGCAGAAACCGCGACGGCGTCCACCGCACGGGAGGCGTGA	MQIGVFSVSDITTDPTTGRTPTENERIKASVAIAKKVEEIGMDVYALGEHHNRPFFSSSPTTTLAYIAAQTERIILSTATTLITTNDPVKIAEDFAMLQHLANGRVDLVLGRGNTAPVYPWFGKNIQDGVELAIENYSLLRRLWDEDTVNWSGKFRTPLQNFTSTPRPLDGVAPFVWHGSIRTPQIAEVAAYFGDGFFANNIFWPKEHYQQLIGLYRERYEHYGHGKADQAIVGLGGQFFMRRNSQDAVREFRPYFDNAPVYGHGPSLEDFTSQTPLTVGSPQEVIEKTLTFREFFGDYQRQLFLIDHAGLPLKTVLEQLDLFGEEVLPVLRKEYAALKPAHVPDPPTHAGRIASKLAAEGGAAEADVTAETATASTAREA				NA	NA	NA	NA	NA
D1-17_01520	234			hypothetical protein	ATGAGGGTAGCCAAGGCCAAGGGCCGGCTGCGCGGGAAGAAGCCAAAACTCTCGCCCAGGCAGGAAGCGCACCTGGTCCAACTGCATGCCAATGGCGAACACACCATGTCTGAGATTGCAGAATTGTTCTCCGTGGGCCGTTCCACCGTCTATCGCCCACTCGAGCGGTCCCGCCAGAAGCAGGAACCACGGCCAGCGCCTGACCATGACCGCCAGCACAAAACCACCTCGTAG	MRVAKAKGRLRGKKPKLSPRQEAHLVQLHANGEHTMSEIAELFSVGRSTVYRPLERSRQKQEPRPAPDHDRQHKTTS				NA	NA	NA	NA	NA
D1-17_01521	252			hypothetical protein	ATGAGACCCCGCGCAATTCTCATCGCGGCCTTGCTGCTGGTAGTCATCGTGGCCGCGATTATCGTGGGCTGGGCGATGCTCGGTCACCGCCCAGGTCCTCTCAATACTCGTGCCTTCTCTCACGCCGTAGACATGGGGCTGGAACCTCCAGCTAAGTTCTTGAGGAATCCTCTAGCGTTCTTGCCTGACGAGTTCGAGGACATGGGCATAATTTTGTTGGAGGGTGGGAATCGGGGTAGCCAGGCGCCGTAA	MRPRAILIAALLLVVIVAAIIVGWAMLGHRPGPLNTRAFSHAVDMGLEPPAKFLRNPLAFLPDEFEDMGIILLEGGNRGSQAP				NA	NA	NA	NA	NA
D1-17_01522	966	yidC_2	COG0706	Membrane protein insertase YidC	ATGGACTTCTTTGAGACGATCATGTTCCCGTTCCAGTGGCTGGTCTCGGTCATCATGGTTGGCTTCCATGAGGGATTGAGCAGCATGGGCATGCCCGAGGCCTCCGGTTGGACTTGGACATTGTCCATTATTGGGCTGGTGCTGGTTATCCGTGCGGCCCTGATCCCTGTGTTCGTCAAGCAGATTAAGGCGCAGCGCGGGATGCAGCTCCTGCAGCCGGACCTGAAAAAACTGCAGGACAAGTACAAAGGCAAAAAGGACCAGCTGTCCCGCCAGGCCATGGCGCAGGAACAGATGGCCCTGTACAAAACGCACGGCACCAACCCGTTCTCGGCCTGCCTCCCACTGCTGATTCAAATGCCATTCTTCTTCGCGCTCTTCACGGTGCTCGCTGGCATCAGCACCGCCAGACAGCGCGGCGAAGGCATCGGCGCCATGAGCCACGAACAGGTGCTGCAGTTCGATGCCTCCAGCATCCTGGGCGCGCCGCTCACTGCGGCGCTGCTATATAGCGACGGAAATGTCGCTGTCACGGTTCTGACCATTGTGATGATCCTGGCGATGACGGCGACGCAGTTCATCACGCAAAAGCAGATCATGGCCAAGAACATGTCTGAAGAGGCGTTGGCCAGCCCTTTCATGCGCCAGCAGAGAATGATGCTGTACATCCTGCCCATCGTCTTCGGTGTCGGCGGTATCAATTTCCCCATCGGTGTCCTCATCTACTGGACCATCACCAATCTGTGGACCATGGGCCAGCAGTTCTTTGTGATCCGCCGGATGCCGACGCCGGGGTCCCCGGCCGCGAAGGCCCTCGCTGAGCGCCGTGCCGCCAAAGGGCTTCCGGCCCTGCCGGTTCTGGGCGGCAAGAAGGCCGCTGGGTCGGATGTTGCCGCGGCGCCTGCTGTTTCAAAGGCCAAGGGACAGCGCATCCAGCCACAACGCAAGAGCAGGAAGAAGAAGTAA	MDFFETIMFPFQWLVSVIMVGFHEGLSSMGMPEASGWTWTLSIIGLVLVIRAALIPVFVKQIKAQRGMQLLQPDLKKLQDKYKGKKDQLSRQAMAQEQMALYKTHGTNPFSACLPLLIQMPFFFALFTVLAGISTARQRGEGIGAMSHEQVLQFDASSILGAPLTAALLYSDGNVAVTVLTIVMILAMTATQFITQKQIMAKNMSEEALASPFMRQQRMMLYILPIVFGVGGINFPIGVLIYWTITNLWTMGQQFFVIRRMPTPGSPAAKALAERRAAKGLPALPVLGGKKAAGSDVAAAPAVSKAKGQRIQPQRKSRKKK	PGPT0024530_4857	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0024530-yidC|spoIIIJ|oxaA|ccfA-K03217	NA	NA
D1-17_01523	432	pip_1		Proline iminopeptidase	GTGGAACGCCTGGTGGAGGCTTACGCTCGTCGGTTGGCAGGCCAGGACCGCGAAAATGCCCGACTTGCTGCACTGGCCTGGGACCGGTGGGAATCCACGCACGTGTCGCTGGATCCCCACTGGCTTCCTGGCCCGCTGTTTGGGGACGAGCGAGAGCACATGACCTTCGGGCTACTGGTTACTCACTACTGGGCCAATGACGGATTCCTGGTGGACGGACAAGAGATCATCCCGCGGATTCACGAGCTTAACGGGATCCCTGGTTACCTTATCCATGGCAGGCGGGACATCAGTGGCCCCTCGGTCACGGCCTGGCGATTGCACCAACGCTGGGAGTCAAGCCGGCTCGTCCTCATCGAGGACGAAGGGCATGGCGGCCCTGCATCGATGGCAGCACTTACACAGGCAGTAGAACAAATCGCATCGGCCTGA	MERLVEAYARRLAGQDRENARLAALAWDRWESTHVSLDPHWLPGPLFGDEREHMTFGLLVTHYWANDGFLVDGQEIIPRIHELNGIPGYLIHGRRDISGPSVTAWRLHQRWESSRLVLIEDEGHGGPASMAALTQAVEQIASA				NA	NA	NA	NA	NA
D1-17_01524	435			hypothetical protein	ATGGCCATCAAACTTGAGAACGTCGGTATCGCCGTTCGCGACCTGGAAGCAACAATCGCCTTTTTCACCGACCTCGGGCTCACGGTCGTCGGCCGCGATACCGTTAGCGGCGAGTGGACTGAGACCGCCGTCGGACTTGATGGCAACCACGCCAACATTGCGATGCTCCAGACCCCAGACGGTCATGGTCGACTCGAACTCTTTGAATACATCCACCCCAAACCCATCGAGTCAAACCCAACTCGTCCCAATGACATCGGCATGCACCGCGTGGCCTTCTCGGTCGACGACTTGGACAAGGCCCTTGAGGTAGCTGCGAAACACGGATGCCGTCCGCTACGCGGCGTGGCGACCTACGGTGACGTCTACAAACTCACATACCTCCGCGGTCCCAGCGGAATCATCGTGATGCTGGCCCAGAAACTGAAAGACTGA	MAIKLENVGIAVRDLEATIAFFTDLGLTVVGRDTVSGEWTETAVGLDGNHANIAMLQTPDGHGRLELFEYIHPKPIESNPTRPNDIGMHRVAFSVDDLDKALEVAAKHGCRPLRGVATYGDVYKLTYLRGPSGIIVMLAQKLKD				NA	NA	NA	NA	NA
D1-17_01525	3048			hypothetical protein	GTGACGTTCAAATCGAGGTTGGCTGCCGTTCTGACGATGGCTGTACTACTCGTGGGGCTCGCCGCTCCGGCGGCGAGTGCGGCCGTAGTGCCGGTAAGCGCGACGGTCGAAACTGCCCCCATACACGGATCAGGCGACGCCGCGGACGACCCGGCTATCTGGATCCACCCCTCCGATCCGTCACAGAGCACCATCATCGGCACGGACAAGAGCACCGATGGGCGCGGTCTTGTCGTCTACGACCTGTCTGGAAGGGAGTTGTTCTACTACCCAGACGGACGGATGAACAATGTTGATGTCCGCTACAACTTCCCCCTCGGCAGCAACCGCGTCGGCTTGGTTGGTGCCTCGAATCGGGCACGGAGCCTTGACTTCTACAAGGTCAACGAGTCGGATCGCTCGCTGACGAAGGTCGGCAGCTTCGCGCCCACTGCCAACATCGGCACGCCCCGCGGGTTCTCCTTCTACCACTCCCCGGACACGGGTAAGTACTTCGCTTACGTCACCGATATCGGCAAAGTTGAGCAGTGGGAACTCGACGGCTCCACCGGATCAGTGACCGGCCGTCTCGTGCGCAGCTGGACGGTGAGCGGCCCGGCCCACACCGAGGGCCTGGTGGCAGATGACGAGATGAAGCGGCTGTACATTGCGCAGGAGGATATCGGTGGAATCTGGCGCTACGGCGCCGAGCCCGGCGACCCTACCGTCGGGACGAAAGTTGTCAACACGATCGAAAATGGCGGCGACATCGTCCAAGACATCAAGGGCATCAGCATCTACTACGGTAGCGGCGGCGCCGGTTACCTGCTGGCTGCGAGCCAGGGCTCCAACCAATTCCACATCTATGCCCGCGACGACAACCGGCCACTGGGAGCCTTCGCCATCCCGGCTGGAAACGGGATCGACGCTGTCACCGGCATGGACGGGATAGACGTTACCAACTTTGGCGTCGGCGGTCCCTTCCCCCAGGGCTTCTTCGTCACGCAAGACCATGCGAACGACAACGGGCAGCGCCAGAACTTCAAGGTGGTGCCATGGCAGTCCATCGCTGCCGCCTACGCGCCGGCTTTGCTCGTCGATGCGGCTTACGACCCGCGCAAAATCGGAGCTGGACCCACCACCCCCAGTCCGCCTGACACCACAATCACAAGCAAGCCGGCCAACCCGACGAACTCCACATCGGCCCAGTTCAGCTTCACCTCGACATCGCCCGGCGCTACCTTCGCGTGCTCGCTCGACTCTTCGGCATTCGTCAACTGCACCAGTCCGATATCCTACGGTGGACTATCCGACGGCGCGCATACCTTCCAGGTTCAGGCCTCTGACCAGAACGGCGTGGACCCGACTCCCGCCAGCCATACGTGGACCGTGGACACGACACCTCCCGAGGCGGACACGACGGCTCCGACCGTGACGGGTACCTCTCCGGCTGATGGTGCGACCGGTGTGGCGGTGTCGGCGAATGTGACGGGGACCTTTTCGGAGGCGATGGACACCTCGACGATCACGTCGGGTATGTTCACGTTGCGGACCGGGACGGTGACGGGAACGGGGACAGCGGTGTCGGCCGCTGTGTCATACGACAATACGAACCGGGTTGCGACGTTGAACCCTGATGCTGACCTGGCGGCAGGTACGGCGGGTACAACGTACACCGCCACGATCAAGGGCGGCACCGCTGGGGTGAAGGATGCTGCCGGTAACGCGCTGGCGGCGGATAGGACGTGGACGTTCACCACGGCCGCCGCGGGCGGCGGCACGTCGGAGACTGTCACGCTCACGGCCACCGCTGACAGCTACGTCTCCGGCGGAGCAACGACGACGAACTACGGCACGAGCACCCTGCTGGGCGTGGACAGCAGTCCGGTGGAGGTCACGTACCTGAAGTTCGACCTGTCCGCCTACGCGGGCAGGACCCTGGAGAGCGCAACGCTGCAGCTGCGCAGCGCCGGGAGCGGCTCCACAGGCAAGCAGAACGTCAAGCTGGTCACCACCGACACCTGGACCGAGAGCGGGACCGGTGCGATCACGTACAGCAACCGCCCGGCGCTCGGCACCAGCATCGGCACGCTCGGCCCGACAACGACCAACACCAACTACAGCGTTCCTCTGACGGCCAGCGGCCTGGCCGGTGAGCTCGGCCAACAGCTCTCACTGGGCCTGGATTCCAGCAGCAGCGACGGCCTGGACCTCAACTCCAAGGAAGCCGGCAGCACAGCCGCACCCAAACTCGTGCTCACGCTGGGCGGCGGTGGCGGTGGCGGTGGTGGCGGCACCCCTGGTGATACGACGGCCCCGGAGACGACGATCACGTCGGGACCACCTGCGACGTCGACGTCAACCAGCGCTTCCTTTGCATTCACCTCGAGTGAAGCGAATTCGACGTTCCAGTGCAGCCTGGATGGTGCACCGCGTGTGGCGTGCACCTCGCCCCGGACCTACACCGGGTTGTCGATCGGATCCCACACGTTCAGTGTCTGGAGCACCGACGCAGCCGGCAACACCGACGCGACAGCAGCGACGCAGACCTGGAGCGTCGGCTCCAGCGGCGGCACGTCGGAGACTGTCACGCTCACGGCCACCGCTGACAGCTACGTCTCCAGCGGAGCGACGACGACGAACTACGGCACGAGCACCCTGCTGGGCGTAGACAACAGTCCGGTGGAGGCCACGTACCTGAAGTTCGACCTGTCCGCCTACGCGGGCAGGACCCTGGAGAGCGCAACGCTGCAGCTGCGCAGCGCCGGCAGCGGCTCCACGGGTACGCAGAACGTCAAGCTGGTCACCACCGACACCTGGACCGAGAGCGGGACCGGTGCGATCACGTACAGCAACCGCCCGGCGCTCGGCGCCAGCATCGGCACGCTCGGCCCGACAACGACCAACACCAACTACACCGTTCCTCTGACCGTCAGCGGCCTGGCCGGTGAGCTCGGCCAACAGCTCTCCCTGGGCCTGGATTCCAGCAGCAGCGACGGCCTGGACCTCAACTCCAAGGAAGCCGGCAGCACAGCCGCGCCCAAACTCGTACTCACCCTGAACAAGTAG	MTFKSRLAAVLTMAVLLVGLAAPAASAAVVPVSATVETAPIHGSGDAADDPAIWIHPSDPSQSTIIGTDKSTDGRGLVVYDLSGRELFYYPDGRMNNVDVRYNFPLGSNRVGLVGASNRARSLDFYKVNESDRSLTKVGSFAPTANIGTPRGFSFYHSPDTGKYFAYVTDIGKVEQWELDGSTGSVTGRLVRSWTVSGPAHTEGLVADDEMKRLYIAQEDIGGIWRYGAEPGDPTVGTKVVNTIENGGDIVQDIKGISIYYGSGGAGYLLAASQGSNQFHIYARDDNRPLGAFAIPAGNGIDAVTGMDGIDVTNFGVGGPFPQGFFVTQDHANDNGQRQNFKVVPWQSIAAAYAPALLVDAAYDPRKIGAGPTTPSPPDTTITSKPANPTNSTSAQFSFTSTSPGATFACSLDSSAFVNCTSPISYGGLSDGAHTFQVQASDQNGVDPTPASHTWTVDTTPPEADTTAPTVTGTSPADGATGVAVSANVTGTFSEAMDTSTITSGMFTLRTGTVTGTGTAVSAAVSYDNTNRVATLNPDADLAAGTAGTTYTATIKGGTAGVKDAAGNALAADRTWTFTTAAAGGGTSETVTLTATADSYVSGGATTTNYGTSTLLGVDSSPVEVTYLKFDLSAYAGRTLESATLQLRSAGSGSTGKQNVKLVTTDTWTESGTGAITYSNRPALGTSIGTLGPTTTNTNYSVPLTASGLAGELGQQLSLGLDSSSSDGLDLNSKEAGSTAAPKLVLTLGGGGGGGGGGTPGDTTAPETTITSGPPATSTSTSASFAFTSSEANSTFQCSLDGAPRVACTSPRTYTGLSIGSHTFSVWSTDAAGNTDATAATQTWSVGSSGGTSETVTLTATADSYVSSGATTTNYGTSTLLGVDNSPVEATYLKFDLSAYAGRTLESATLQLRSAGSGSTGTQNVKLVTTDTWTESGTGAITYSNRPALGASIGTLGPTTTNTNYTVPLTVSGLAGELGQQLSLGLDSSSSDGLDLNSKEAGSTAAPKLVLTLNK	PGPT0002580_21	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-PHYTASE_PRODUCTION,PGPT0002580-phy|phyA|phyB|phyC-K01083	NA	NA
D1-17_01526	1200	aspB	COG0436	Asparagine--oxo-acid transaminase	ATGCAGCAACTCGCGCACCGGCTCGAACGGCTGGGCACCGAAACCGCCTTCAGCGTCGCTCAGGCCGCGGCCGCTTGGAAGGCGAAGGGGAACCTCGTGTACCCCTTCCATCTCGGCGACATCAACATCCCGACAGCCCCGCATATCGTCGAGGCGATGAACAGGGCCATCGCGGACGGCTATACGGGCTATTGTCCGGGCCCGGGCATTCCGCAGTTGCGCGAGGCCCTCGCCGATGATCTCGGGTCCCGCCGGGGCATCAAATTCTCCCCCGACAACGTCGTCGTGATGACGGGCGGCAAGCCCGTGATCACGAAGTTCCTGCAGGCGGTCATGAACCCCGGCCAGGAAGTGCTCTACCCGAACCCAGGCTTCCCGATCTACGAATCGCAGATCGAATACCTCGGCGGTACGGCTGTGCCCTACCGCTACCTGCCCACGAGCGAGGGGTTCGCGATCGACCTCGACCAAGTGCGGGCATCGATCACCCCGAATACTGTCGCAATCATCTACAACGACCTGCAGAACCCCATCTCAGCCGAGTCGACGGCGGCCGAGCGGGAGGCCATCGCACAGCTCGCGCAGGAGCATGACCTGTGGGTACTCTCCGATGAGGCGTACTTCGAGACGCGCTATGAGGGTGTCTCGAGCTCGATCGCGTCGCTTCCCGGCATGGCAGAGCGCACCGTCATCCTCTACACATTCAGCAAGAAGTTCGCCATGACCGGCTCCCGCCTGGGCTGCGCCGTCGCGCCGGTCGAGATCGCCAAAGTTCTCAGCACACTCAACACCAACGACGAGTCGTGCACCACGCACTACGTGCAATGGGCCGGCATCGAAGCCCTCCGCGGCACCCAGGAACCCGTTCAGCAGATGCTCGACATCCTGCGTGAGCGCCGGGATGCCGCATGCGAACTCGTGAACGACATCGCCGGCATGCATGTCGCCGTGCCGCAGTCGACGTTCTACCTTTTCCCCGACGTCACCGAGGCCATGGAGCGCATGGGTTATACAGCCGTCGGTGATTTCGCCTCCGCAGCCCTGTACGAAACCGGCGTCTCATTCTGCACACGTGAGCACTTCGGCCGCCGCCAGCCCGGCGAAGAGCGGCAGTACATCCGGCTTGCCTACTCGGGCATCGACGTCGCCGATATCCGCGACGGCCTCGGCCGCCTGCGCAAGTGGATCGAGACGGCATGA	MQQLAHRLERLGTETAFSVAQAAAAWKAKGNLVYPFHLGDINIPTAPHIVEAMNRAIADGYTGYCPGPGIPQLREALADDLGSRRGIKFSPDNVVVMTGGKPVITKFLQAVMNPGQEVLYPNPGFPIYESQIEYLGGTAVPYRYLPTSEGFAIDLDQVRASITPNTVAIIYNDLQNPISAESTAAEREAIAQLAQEHDLWVLSDEAYFETRYEGVSSSIASLPGMAERTVILYTFSKKFAMTGSRLGCAVAPVEIAKVLSTLNTNDESCTTHYVQWAGIEALRGTQEPVQQMLDILRERRDAACELVNDIAGMHVAVPQSTFYLFPDVTEAMERMGYTAVGDFASAALYETGVSFCTREHFGRRQPGEERQYIRLAYSGIDVADIRDGLGRLRKWIETA	PGPT0020110_2294	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-17_01527	960			Putative 2-hydroxyacid dehydrogenase	ATGAGCCGGGTCGTCGTCACGGGACGTGTACCCGAAGCCGCCCTCGAGAAGCTGCGCGCCGAGCACGAAGTCGATGCATGGACCGGTCCGGAGTCGATTAGCCGCGAGGAGCTCCTGCGCCGAGTAGCCGGCGCCGACGCCGTCGTGAGCCTGCTCACCGAACGCATCGACGCCGAGCTGCTTGACGCCGCCGGCCCGCAGCTCAAAGTGGTCGCGAACGTCGCCGTTGGCTATGACAACATCGACGTGGCAGCCTGCACCGAACGGGGCATTGTGGCCACCAACACCCCCGGTGTGCTCACGGAGGCCACAGCCGACATCGCGCTCGGACTCATCCTCATGGCGACCCGACGGCTCGGCGAGGGGGAACGGCTCATCCGCTCCGGCCAGGCCTGGAAGTGGGGCATGTTCTTCCTGCTCGGCAGCAGCCTGCAGGGCAAGACCCTCGGCATCGTCGGTATGGGCGGCATCGGCCAGGCGACCGCACGCCGGGCCAAGGCCTTCGGCATGGAAATCGTCTACCAGTCACGCCGCGAGATCGACCCGGGGGTCGCCGCCGAGCTGGGCGCCCGGCGCGTCGAGCTCGATGAGTTGCTGGCCATCTCCGACGTCGTCTCCCTGCACTGCCCGTACGGGCCAGCCACGCATCATCTGATCGGCGCCGAACAACTCGCGGCGATGAAGAGCTCGGCGTATCTCGTCAACACCGCGCGCGGACCGATCGTCGACGAAGCGGCACTCGCGTCCGCGCTTCGCGAGCGGCAGATCGCGGGCGCCGGGCTGGACGTTTTTGAGAACGAGCCCAGCGTGCACCCCGGATTGCTCGAGCTCGAGAACGTGGCGCTCGTGCCGCACCTCGGCTCCGCCACAGTGGAGACGCGCACCGCGATGGCGATGCTCGCCGCCGACAACGCCTTGGCAGTGCTCAGTGACGTACGACCGCCGGCACGGATCAATTAG	MSRVVVTGRVPEAALEKLRAEHEVDAWTGPESISREELLRRVAGADAVVSLLTERIDAELLDAAGPQLKVVANVAVGYDNIDVAACTERGIVATNTPGVLTEATADIALGLILMATRRLGEGERLIRSGQAWKWGMFFLLGSSLQGKTLGIVGMGGIGQATARRAKAFGMEIVYQSRREIDPGVAAELGARRVELDELLAISDVVSLHCPYGPATHHLIGAEQLAAMKSSAYLVNTARGPIVDEAALASALRERQIAGAGLDVFENEPSVHPGLLELENVALVPHLGSATVETRTAMAMLAADNALAVLSDVRPPARIN	PGPT0019780_1203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_OXALIC_ACID_DERIVATE_UTILIZATION,PGPT0019780-gyaR-K00015	NA	NA
D1-17_01528	249			hypothetical protein	ATGACCATTCCAGAGCAGGATCCGAGCCAGCAGGAAGGCCTGGCGGACGGCGGTGCGGCCGGCGTCCCGGGCGCCCACGACGGCGGTGCCGACGGCGGAGCTGACAGCGGTGCCGGCGGTGGTGCTGACAGCGGTGCCGGCGGTGGTGCTGACAGCGGTGCCGACGGTGGTGCCGACAGCGGCGCCGACGGGGGAGCTGACAGCGGCGCTGACGGCGGTGCCGACGGGGGAGCTGCAGAACGGGGCTGA	MTIPEQDPSQQEGLADGGAAGVPGAHDGGADGGADSGAGGGADSGAGGGADSGADGGADSGADGGADSGADGGADGGAAERG				NA	NA	NA	NA	NA
D1-17_01529	1164			hypothetical protein	GTGAAAGGCGCCGGGGTCCTGGAGACACGTCTCATTAACATCGGCCGTGAGAGGTTCGCCGGAAACATCTGGGGGCGCACGGCGCTGCTCACCCGTTGCGCCAGCGACTTCTCCGACCTGTTCTCTGCCGAGGCCGTGGATGAACTGATCTCACGCCGCGGACTGCGCACACCCTTCCTCCGTGTCGCCAAGGGCGGCTCTACATTTCCCGACTCGTCCTTCACCTCCCCTGCCGGCGTGGGGGCCACCATCTCCGACCAGCTCGATGACACGGCGCTGTGGCGCAAATTCGCGGACGGCGCCACGCTCGTCCTCCAGGCTCTGCACCGCACCTGGGAGCCAGTCTCGGACTTCAGCTCAAGGCTTAGCACGGAGCTTGGACATCCGGTACAGGCGAATGCCTACATCACCCCGCCGCAAAACCGTGGGTTCGATGATCACTACGACGTCCACGATGTCTTCGTCCTGCAGATAGCGGGGACCAAGCGTTGGATCATCCACGAGCCGGTCCACCCGGATCCGCTGCGTAATCAACCCTGGACCGAGTGCCGCTCCGCTGTTGCGGAGGCCGCGAAAGGCGAAGCGTACATCGATACTGTGCTCGAGCCCGGGGATGCACTCTACCTGCCGCGCGGCTGGTTGCATGCCGCCCAGGCTCAGGGGGAGGTCTCCATCCATCTCACCCTCGGCGTCCACAGCTGGACCCGCTACGCGCTGGCCGAGCAGCTCGCGGAGGCCGCCCTTGCAAAGCTATGCGACGATCCCGAGATGCGCCGCACGCTGCCATTGGGCGTTGACGGGCCGGGTGCGGAGATCGGCACTGTCCGTGAGCGCCTCGCCGCTGCCGTCGCTGAGGCTGATTCCACTGCGATGTTCCACCGCACCCGGCGCAGTCAGGGACGCCCGGCACCGCTAGGACCGCTGGCCCAGCTCGCGGCCGTCGACTGCCTCAGCCCGGAGTCTTTGGTGCGGCTTCGCGGTGCCTTGGAGGCACGGCTGGAGGGGTCACGCCTGACCACACGGGTGGGCTGGTTCGACTTCCCGGAAACCGATCTGCCTTCTGTGACACGCCTGCTCGACGGGGAGGTTCACACCACAGCTGACCTCGGAACCGAACTCGTCGAGAAACTGTTGCGCGCAGGGGTCCTCGTTCCCGTTGAATAG	MKGAGVLETRLINIGRERFAGNIWGRTALLTRCASDFSDLFSAEAVDELISRRGLRTPFLRVAKGGSTFPDSSFTSPAGVGATISDQLDDTALWRKFADGATLVLQALHRTWEPVSDFSSRLSTELGHPVQANAYITPPQNRGFDDHYDVHDVFVLQIAGTKRWIIHEPVHPDPLRNQPWTECRSAVAEAAKGEAYIDTVLEPGDALYLPRGWLHAAQAQGEVSIHLTLGVHSWTRYALAEQLAEAALAKLCDDPEMRRTLPLGVDGPGAEIGTVRERLAAAVAEADSTAMFHRTRRSQGRPAPLGPLAQLAAVDCLSPESLVRLRGALEARLEGSRLTTRVGWFDFPETDLPSVTRLLDGEVHTTADLGTELVEKLLRAGVLVPVE				NA	NA	NA	NA	NA
D1-17_01530	855			hypothetical protein	ATGCGCGGCGACCCGATTGCCGGCACGGCGTCGCATGGCGTCGTCTGGGTTCTCATCGAGTATCGGGGCGGGTGGCCGGTCAACGGCTTCGAGGGCCTTGACCTGGAGCCTGAGACCAAAGGGCTCGTGCTCGCCGCCGCGAAGACGGCGCGGGCGCGGGTGCTGCTGGTGCGGCGGCCCGGCCGCCGCCGGCGCCAGGGCCACAGCCGTTGGGCAGTGCTGCGTCATGAGAACTCCGGCGCCCATCGTCAGCAATGGGGAACGTGGAGCCGTGATGAGGATCTGGCGGAGATTGCCACAGCCCTCAACATCCCCGGATCGACCGGCCATCCGCCGGTCATCCTGGTCTGCACTCATAGCCGGCACGACCAATGCTGTGCCGTACGCGGACGGCCTGTGGGACGTGCACTGAGTGAACGCTGGCCAGGACTGGTGTGGGAATGTACGCACGTAGGCGGTGACAGGTTCGCAGCCAACGTCGTTGTCGCGCCCGACGGCGTCTACTACGGCGGTCTGGACGCCGAGTCGTCCGTGGCCACGATCGAAGAGCACCTTTCCGGCCGTATCCATGGGGAGTATCTGCGCGGATACACCGATCTCTTCCCGCCACAGCAGGCCGCTGTCGCGGCCACGCTCAGACTTTTCGGTCCAGCCGGCCGCAACGACTATACGGTTGCGGCGACCTTTCGCGACGGCGATTACTGGCGGATCCGCATCACCGGCCTCCCGCCTCACCCGGCGCGTGTCGACGTCGAACTGAAGGCCCAGCCCGCCGCGCCCTGTCAGTTGACCTGCCGCGGACCGGCGATGAGCTCGGCCATAATCTACGAGCTCACGTCGCTCCGCGCAGTCTGA	MRGDPIAGTASHGVVWVLIEYRGGWPVNGFEGLDLEPETKGLVLAAAKTARARVLLVRRPGRRRRQGHSRWAVLRHENSGAHRQQWGTWSRDEDLAEIATALNIPGSTGHPPVILVCTHSRHDQCCAVRGRPVGRALSERWPGLVWECTHVGGDRFAANVVVAPDGVYYGGLDAESSVATIEEHLSGRIHGEYLRGYTDLFPPQQAAVAATLRLFGPAGRNDYTVAATFRDGDYWRIRITGLPPHPARVDVELKAQPAAPCQLTCRGPAMSSAIIYELTSLRAV				NA	NA	NA	NA	NA
D1-17_01531	417	hrp1_2	COG0517	Hypoxic response protein 1	ATGACGACAGCACGAGAAATCATGACCGGCGGCGTTGAATGCATCGGTGAAAACGAAACGCTCGAAGTGGCCGCCCGAAAGATGAAAGACCTCGACGTCGGCGCCCTGCCGATCTGCGGAGAGGACAACAGGCTCAAGGGCATGATCACCGACCGCGACATCGTCATCAAGTGCTTCGCCGAGGGAGGCGACCCGCGCACGGCAAAAGCCGGAGACTTTGGTCAGGGCAAACCGGTGACCATCGGCGCGGATGATTCCATTGAAGAAGCAATCAGAACCATGGAAGAGCACCAGGTCCGCCGGCTGCCGGTTATCGACGGCCATGACCTGGTCGGTATCCTCACCCAGGCAGACATCGCCCGGAACTACCCCGAGGACCGCGTCGGCGAGCTCGTAGAACTTATTTCCTTCTACTAG	MTTAREIMTGGVECIGENETLEVAARKMKDLDVGALPICGEDNRLKGMITDRDIVIKCFAEGGDPRTAKAGDFGQGKPVTIGADDSIEEAIRTMEEHQVRRLPVIDGHDLVGILTQADIARNYPEDRVGELVELISFY				NA	NA	NA	NA	NA
D1-17_01532	3219	swrC	COG0841	Swarming motility protein SwrC	ATGTTCCGGCTGGCCAGTCTTTCCCTCGGCAACCGTGCGCTGATCGCGCTGATCACGGTCTTCGCCTCGGTGTTCGGCGTGATCACAATGTCTTCGCTGAAGCAGGAACTCATTCCCTCGATTGAGTTTCCGCGGATCACGGTGATCACGTCGATGCCGGGAGCATCGCCGGAAGTCGTGGACAAGCAGGTCAGCCGGCCGCTGGAGACCGCGCTGAACAGCGTCGAAGGCCTGGAATCGACGTCGTCGACCTCGCGCAACGGCGTGTCGCAGATCAGCATGGTCTTCACCTATGGGGCGGATCTTGACCGTGCGCGCAATCAGATCGACCGCGCCATTTCCAACACCAAGCGGGCCCTCCCCGAGGACGTGCAGCCGCAGGCCATAGCCGGGAGCATTAGTGATTTCCCCATCGTGTTCCTCGCCGTCTCCTCGGACAAGCCGCTCAGCGAGCTGAACACCGACCTGCAGCGGCTGAGCGTTCCCAGGCTCCAAAAGCTCGACGGCGTTCGCGCCGCCGAAGTGACCGGTGGCGCCAGCCAGCACATCCTCATCCTGCCTGACCCGTCCAAAATGGCATCCGCCAGGGCAACCGTCCAGTCGATCCGCAACGCCCTGGCCAACAACGGCGACCTTGTCCCGGCCGGAACGATTGAGGACAAGGGCCGGAGCCTTTCCCTCCAGGTCGGCAGCCCGGTGGACTCCCTCGCGGCCGTGACAGCCCTGCCGCTCAGCGGCGCCAAGAGCGGTGCCACCATCGGCTCCGTGGCCGGGGTAAGCATCAAGGACGACGAGCGGACGTCCATCACGCGCACCAACGGCGAGGAAACCCTCGCCGTCTCCGTCACCAAGAAGCCAGACGGCGACACGGTCGCCATCTCCCATGCCGTCAAGGACTCCCTGCCGCAACTGGAGGCCGAGCTGGGTTCGAATGCGAAGTTCACGCCTGTCTTCGACCAGGCGCCCTTCATTGAGAAGTCGATTAAGGACCTCACCACGGAGGGTCTGCTGGGGCTGGGCTTCGCCGTGGCGGTCATCCTGGTGTTCCTGATGTCGGTCCGGTCCACACTCGTCACTGCAGTATCTATCCCGCTGTCGCTGCTGATCACCTTCATCGGCCTCTCCGCCACCGGATATTCGCTGAACATCCTGACACTGGGTGCGCTCACCATAGCCATCGGCCGTGTGGTGGATGACTCCATCGTTGTGATTGAGAACATTAAAAGGCACCTCAGCTACGGGGAGCCCAAGCTCACGGCCATCCTGACCTCCATCCGGGAGGTGGCCGGGGCCATCACCGCCTCGACGCTCACCACAGTGGCCGTCTTCCTGCCCATCGCCTTCGTGGGCGATCTGGCCGGCGAGCTCTTCCGCCCCTTCGCACTGACCGTCACCATCGCACTGCTCTCCTCGTTGCTGGTGTCCCTGACGATCGTCCCGGTCCTCGCCTACTGGTTCCTCAGGTCCCCTGCCGACCCCCGCAAGGCAGGGACTGCGCCGGTACCCGCCCGTGAGATCGAGGCCAAGGCCCTTGAACGGGAACAGCGCAGCGTCTTGCATCGCGGTTACCTGCCGGTCCTGACGGCAACGCAGAAGCGCCCGGCGCTGACACTGGTCGCAGCCGTGCTCATCCTGGGTGGAACGGTGGCCATGACCCCGCTGCTTGCCACTGACCTGCTGGGACGCTCAGGCGAGAACAGCATGACGGTGAAACAGGAGCTCCCGGCCGGGACGAGCCTGCAGGAGACCAGCGCCGCGGCCGGGAAACTCGAAGCGGTCCTGCTGGGGATCGACGGGATCAAGGATGTCCAGGTGACCTCCGGCAACGCACAGTCCGGCTTCACCGCGCTCACCTCCTCCGGCGCCTCGAACTCCACGTTCACTGTGGTCACCGAGGAGAAGGCAAACCAGGCAAAGCTTCAGGAGACCGTCCGCGCGGAGCTTTCTACAGTCAACGGGGCCGGCAAAGTCTCCGTGGGGGCCCAGCAGAGTGGTTTCGGCACGTCCTCCACCGTGGACATCACCCTCAGGGCCGCCACCTCCGCGGACCTCAGGACGGCCAATGACGCCATGGTGAGCGCCATGACCGGCGTGCCCGGGAGCACGGAGGTCTCCACGAACCTCGCTGCGAGCCAGCCGGTAGTCCAGGTGAGGGTGGACCGGGCAAAGGCCGTCGCGGCCGGCCTGAACGAGGAAAAGGTGGCGGCTGTCCTGGCATCCACGGTCAGCCCCGTACCCGCCGGCACCGTGCGTATCGAGGCGGATGATTTCCCGGTCCGGATCGGTGAAGGCACACGTTTCACGAGCATTGCCGCCGTCCGCGCCATGCCCCTTCCGACCGCCTCAGGCCCCGTCACACTAGGCAGCATTGCCGCCGTCGAGCAGGTGGACGTGCCGATCTCCATAACCTCCAGCAACGGCCAGCGGACAGCGAAAGTCTCTGTCACGCCGTCGGGCTCCAACCTGGGCGCCGTAAGCGCCGAGGTGCAAAAGCGGCTTGCGTCCGTTGACCTTCCGGCCGGGGTCACGGCCGCAATCGGCGGTGCCACCACGCAGCAGGCAGAGTCGTTCCGGCAGCTCGGGCTGGCCCTGCTGGCTGCCGTCGCGATTGTCTACGTCATCATGGTGGCCACCTTCAAGTCGCTGGTCCAGCCACTGATCCTCCTGGTCTCCGTGCCGTTTGCCGCGACCGGCGCCGTGACCCTGCTGCTGATTTCCAAGGTGCCGCTGGGGCTGCCGTCGCTGATCGGCATGTTGATGCTGGTGGGCATCGTGGTCACCAACGCCATCGTGCTGATCGACCTGATCAACCAATACCGGGAACCACGGGCAGGCAGGCCCGGCATGAACGTTGCGGATGCGATCACCCACGGAGCCCGGCAGCGTCTACGCCCCATTCTGATGACCGCGCTGGCGACCGTCTTTGCGCTGACTCCCATGGCGCTCGGGTTCACCGGCGGCGGCGGGTTCATCTCGCAGCCGCTGGCCATAGTGGTGGTCGGCGGACTGGTGTCCTCCACGGCCCTGACGCTCGTGCTCGTCCCCGTACTGTACCGGCTTGTGGAGGGGCGCCGGGAGAAGAAGCAACTGCTGCGCCAACTCAAGGCGCGTCCGGACTTCTCCCCCGTGGACGACGTTGATGCCGAATTCGCCGATTGGACCACGGGCACTATTCCAAAGGTCAGCGGGCGCCGCGCTGCTTCGGGTTCTCCCGAGTAG	MFRLASLSLGNRALIALITVFASVFGVITMSSLKQELIPSIEFPRITVITSMPGASPEVVDKQVSRPLETALNSVEGLESTSSTSRNGVSQISMVFTYGADLDRARNQIDRAISNTKRALPEDVQPQAIAGSISDFPIVFLAVSSDKPLSELNTDLQRLSVPRLQKLDGVRAAEVTGGASQHILILPDPSKMASARATVQSIRNALANNGDLVPAGTIEDKGRSLSLQVGSPVDSLAAVTALPLSGAKSGATIGSVAGVSIKDDERTSITRTNGEETLAVSVTKKPDGDTVAISHAVKDSLPQLEAELGSNAKFTPVFDQAPFIEKSIKDLTTEGLLGLGFAVAVILVFLMSVRSTLVTAVSIPLSLLITFIGLSATGYSLNILTLGALTIAIGRVVDDSIVVIENIKRHLSYGEPKLTAILTSIREVAGAITASTLTTVAVFLPIAFVGDLAGELFRPFALTVTIALLSSLLVSLTIVPVLAYWFLRSPADPRKAGTAPVPAREIEAKALEREQRSVLHRGYLPVLTATQKRPALTLVAAVLILGGTVAMTPLLATDLLGRSGENSMTVKQELPAGTSLQETSAAAGKLEAVLLGIDGIKDVQVTSGNAQSGFTALTSSGASNSTFTVVTEEKANQAKLQETVRAELSTVNGAGKVSVGAQQSGFGTSSTVDITLRAATSADLRTANDAMVSAMTGVPGSTEVSTNLAASQPVVQVRVDRAKAVAAGLNEEKVAAVLASTVSPVPAGTVRIEADDFPVRIGEGTRFTSIAAVRAMPLPTASGPVTLGSIAAVEQVDVPISITSSNGQRTAKVSVTPSGSNLGAVSAEVQKRLASVDLPAGVTAAIGGATTQQAESFRQLGLALLAAVAIVYVIMVATFKSLVQPLILLVSVPFAATGAVTLLLISKVPLGLPSLIGMLMLVGIVVTNAIVLIDLINQYREPRAGRPGMNVADAITHGARQRLRPILMTALATVFALTPMALGFTGGGGFISQPLAIVVVGGLVSSTALTLVLVPVLYRLVEGRREKKQLLRQLKARPDFSPVDDVDAEFADWTTGTIPKVSGRRAASGSPE	PGPT0016195_274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SURFACTIN_RESISTANCE,PGPT0016195-swrC|yerP-K03296	NA	NA
D1-17_01533	1506	mqo	COG0579	putative malate:quinone oxidoreductase	GTGACCTTCATATCCAAGACCCAACATGCCGACGTCGTCCTGATTGGCGGCGGCATCATGAGCGCAACGCTCGGTGCGTTTCTCAAGCAGCTCGAACCCAACTGGACCATTTCACTGTTCGAGCGCCTCGACGAAGCAGGCCTCGAGAGCTCCGGACCCTGGAACAACGCCGGCACCGGACACGCCGCCCTGTGTGAGCTTAATTACTCCCCCGCAGCCAAAGACGGCTCGGTCAACCCCGCCAAGGCACTGCACATCAACGAGCAGTTCCAGCTGTCCCGCCAGTTCTGGTCCCACCTTGTGACAAACTCCCTGATTGGCTCCCCCAAGGGCTTCATCAACACCGTCCCGCACATGAGTTTCGTGCTCGGCGAGGACAATTCCACCTTTCTCAAAACCCGGTATGAGGCGCTCAAGCAGCACACGCTGTTCCGGAGCATGGAGTACTCGGAGGACTTCGCCCAAATCGGCAAATGGGCTCCGCTTATCGTCAAGGGCCGCGACCGCAACCAGCGCATCGCCGCGACGCGTGCCCCCGAGGGCACCGACGTTGATTTCGGCGCGCTGACCCGGGAACTGGTTGGGTACCTGGGCAACAACGGGGTGGAGATCAACTACGGCCATGACGTTACGGACGTCAACAGGGCGGCCGACGGCGGCTGGGACCTTTCGCTCAAGCACCCGGCTTCCGGGGAACGCGGCAGCATCCACGCCAAGTTCGTCTTCGTCGGCGCCGGCGGCGGGGCACTGCACCTGCTGCAGGCCTCGGGCATCCCGGAGAGCAAGGGTTACGGCGGCTTCCCCGTCTCGGGCCAGTTCTTCCGCTGCACGGACCAGTCGCTGGCGTCCCAGCACAACGCCAAGGTATACGGCCAGGCCTCCGTTGGGGCGCCGCCCATGTCCGTTCCGCACCTGGACACCCGCTACGTCGGCGGCAAGCGTTCACTGCTGTTCGGCCCGTACGCCGGTTTCTCCACGAACTTCCTGAAGAACAGCACCTGGCTGGACCTTCCGCTGTCCATCCGACCCGGGAACATCATCCCGATGCTTGCGGTGGCGAAGGACAACATGGACCTCACGGCCTACCTCATCAAGGAGGTTGCCAAGCGCCACGGCGCCAAGGTCGAGGCCCTGCGCGAGTACTACCCCGAAGCCAAGGACGGCGACTGGGAACTGATCACCGCGGGCCAGCGTGTGCAGATCATCAAGAAGGATCCGAAGAAGGGCGGCGTACTGCAGTTCGGCACCGAGGTGATCGCCGCCCGCGACGGCTCCATCGGCGCCCTGCTTGGCGCGTCGCCGGGGGCGTCCACCGCTGTGCCGATCATGATTGAGCTCCTGCAGAAGTCCTTCCCGAAGAACTTCAAGGGATGGCAGTCCAAGCTCAAGGAAATGATGCCGGGCTACGGCGTCAAGCTCAACGACAACCCGGACCTCGCCGCCGAACTCGAAAAGGCCACCGCGAAGGCGCTCCAGCTCGACGTGGCACCGGCCGTGCAGCGCTAG	MTFISKTQHADVVLIGGGIMSATLGAFLKQLEPNWTISLFERLDEAGLESSGPWNNAGTGHAALCELNYSPAAKDGSVNPAKALHINEQFQLSRQFWSHLVTNSLIGSPKGFINTVPHMSFVLGEDNSTFLKTRYEALKQHTLFRSMEYSEDFAQIGKWAPLIVKGRDRNQRIAATRAPEGTDVDFGALTRELVGYLGNNGVEINYGHDVTDVNRAADGGWDLSLKHPASGERGSIHAKFVFVGAGGGALHLLQASGIPESKGYGGFPVSGQFFRCTDQSLASQHNAKVYGQASVGAPPMSVPHLDTRYVGGKRSLLFGPYAGFSTNFLKNSTWLDLPLSIRPGNIIPMLAVAKDNMDLTAYLIKEVAKRHGAKVEALREYYPEAKDGDWELITAGQRVQIIKKDPKKGGVLQFGTEVIAARDGSIGALLGASPGASTAVPIMIELLQKSFPKNFKGWQSKLKEMMPGYGVKLNDNPDLAAELEKATAKALQLDVAPAVQR	PGPT0001440_949	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001440-mqo-K00116	NA	NA
D1-17_01534	1677	hbpA_2	COG0747	Heme-binding protein A	GTGCCCAGCAGCATGACGCGACGCACGGCCATCAAGACCGGTGCCGCCCTCCTGGGCCTGACGCTCACCTCCTGCACGGGAGAGGCAGCCCCGCCACCCTCGTCCGCCGCCCCCGCCCCCACCGTAGCTGCGACCGGCAAACCCACAGCGACGTTTAACTTCGGCACCGCTGCCGATCCCCTCGGCCTTGACCCTGCTCTGGCCAATGACATCGAATCCCAGCGCGTCACCCGGCAGATCCTCGAGGGGCTGGTCGGAGTAAACCAGACCACGGGCGAACCAACGCCCCTGCTCGCCACGGACTGGACCGCATCCGCGGATGGCCGTTCCTACACCTTCAACCTCCGTCCCGGAGTGAAGTTTCACGACGGCACGCCGTTTAACGCCAACGCCGTCTGCACCAACTTCAGGCGCTGGTTCAATCTCCCGGCAGCGCTCCGCCGGCAGGTGCCGGGCACCACCTTTAAAGCCGTCTTCAAGGAACATTCCGACACACCCTCCCTTTCGGTCTTCAAAGCGTGCACCGCACTCTCGCCGCTGCGGGTGCGGATCGACCTCACAGAGAGGTTCACCGGGTTCCTCCAGGCCCTGACGCTGCCGGCCTTCGCCTTCTCCTCCCCCAAGGCCCTCACTGCAGGCCGCGCCGATGTCCTGAGCCAGCGCCGCGGCAGCCAGGCCCTGTCCGCCTACGCCAGCCACCCGGTGGGCACCGGACCCTACCGCTTCTCCGCTTGGAACACCGGCGGCGTGACGCTGGTCACCAACCAGACCTACTGGGGTGGCCGCGGCGAGATCGCCACCATCAACTTCATCACGTACAGCCATCCCCAGACCCGGCTCCAGGCGCTGCTGGACGGCAAGATCGACGGCTACGACGCAGTCACTGTGGGCAACTTCGATCCGCTGGTGAAACGCGGGATGCAGATTATCCAGCGGGACCCTTTCTCGGTGATGTACCTGGGCATGAACCAGGCCGTGCCGGTGCTGGAGGACCTGAAGGTGCGGCAGGCCATTGAAATGGCCATCGACAAAGACACCCTGATCCGCCGCTTCTTTATCGACAACACTGCCCAGGCGTCCCAGTTCGTGCCGCCGAAGCTCAGCGGATTCAACAACAACGCGCCGGCACTCGGCCACGATCCGGCCAAGGCGAAGGAACTGCTCGCCGAGGCCGGATATAAGGGCCAGCCCCTGAAGTTCTACTACCCTCTGAACGTCACCCGGCCGTACCTCCCCACGCCTGAGAAGGTTTACGCAGAGATCAGCCGCCAGCTCACGGCCGTGGGCCTGAACATCAGGCCAGTCCCCGTCGACTGGGCGGACGGCTACCTGCAGAAGGTCCAGTCCCCGGGGGACCATGCCCTTCACCTGCTCGGCTGGAACGGGTCCTATTCCGACGCCGACAACTTCCTCGGCCCCCTGTTCGGGGAGAAGAACGGGGAATTCGGGTACCAGGACCCGCAGGTCTTTTCCAAGATCGACCGCGCCCGCGGCCTGCCGGTGGGCGACGAACGCAATGCCCAGTACCAGACCATCAATGCCCAAATCGCGGAGACTGTGCCGGCTGTCCCCATCGCGTTCCCCATCTCGGCCCTGGCCCTCTCGGACCGGGTCATCAGCTACCCCGCTTCGCCGGTCTTAAATGAAGTTTTCACCAGGGTCCAACTGAGGCCTTGA	MPSSMTRRTAIKTGAALLGLTLTSCTGEAAPPPSSAAPAPTVAATGKPTATFNFGTAADPLGLDPALANDIESQRVTRQILEGLVGVNQTTGEPTPLLATDWTASADGRSYTFNLRPGVKFHDGTPFNANAVCTNFRRWFNLPAALRRQVPGTTFKAVFKEHSDTPSLSVFKACTALSPLRVRIDLTERFTGFLQALTLPAFAFSSPKALTAGRADVLSQRRGSQALSAYASHPVGTGPYRFSAWNTGGVTLVTNQTYWGGRGEIATINFITYSHPQTRLQALLDGKIDGYDAVTVGNFDPLVKRGMQIIQRDPFSVMYLGMNQAVPVLEDLKVRQAIEMAIDKDTLIRRFFIDNTAQASQFVPPKLSGFNNNAPALGHDPAKAKELLAEAGYKGQPLKFYYPLNVTRPYLPTPEKVYAEISRQLTAVGLNIRPVPVDWADGYLQKVQSPGDHALHLLGWNGSYSDADNFLGPLFGEKNGEFGYQDPQVFSKIDRARGLPVGDERNAQYQTINAQIAETVPAVPIAFPISALALSDRVISYPASPVLNEVFTRVQLRP	PGPT0004430_8050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
D1-17_01535	675		COG2335	Cell surface glycolipoprotein MPT83	ATGCAGTCATTCAAGCGCACCACTTTCAGCGTCGCAGGCGTTGCAGCAGCGGCCCTGCTTAGCCTCACCGCGTGCGGCGGCTCGGCGTCGACGGCCCCGGCCTCCTCATCAGCGGCGGCCGAACCGTCCGCTTCCAGTGCAGCCCCGTCCGCATCGGCCAGCTCCTCGGCGGCAATGGACCCGGCAGCGAACCTCGCCGGCCCCGGCTGCGCGGCTTACGCCAAGCAGGTCCCCAGCGGCGCAGGTTCCGTCTCCGGCATGGCCCTTGACCCGGTCGCGGTCGCTGCTTCGAACAATCCGCTCCTGAAGACGCTCACCGCGGCCGTTTCCGGCAAGCTCAACCCGAAGGTCGACCTGGTGGACACTCTCAACGGCAGCGAGTTCACGGTCTTCGCCCCCGTGGATGACGCCTTCGCGAAGGTCCCCGCCGCCACCATCGAGACGCTCAAGAAGGACGATGCCCTGCTGAGCAAGATCCTCACCTACCACGTTGTTCCCGGCCAGGTTGCCCCGGACAAGATCGTCGGCACCCACAAGACGGTCCAGGGCGGCTCGGTCACAGTGACAGGCACCAAGGATGCGCTGAAGGTGGACGGCGCCAACGTGATCTGCGGCGGCGTCCAAACGGCCAACGCCACCGTTTACCTGGTGGACTCGGTGCTGATGCCCAAGTAG	MQSFKRTTFSVAGVAAAALLSLTACGGSASTAPASSSAAAEPSASSAAPSASASSSAAMDPAANLAGPGCAAYAKQVPSGAGSVSGMALDPVAVAASNNPLLKTLTAAVSGKLNPKVDLVDTLNGSEFTVFAPVDDAFAKVPAATIETLKKDDALLSKILTYHVVPGQVAPDKIVGTHKTVQGGSVTVTGTKDALKVDGANVICGGVQTANATVYLVDSVLMPK				NA	NA	NA	NA	NA
D1-17_01537	483	bcp_2	COG1225	Putative peroxiredoxin	TTGGCTGAACGACTCAACCCGGGCGATGCGGCCCCGGACTTCACATTGAAAAATTCCGCAGGAGCGGAAGTCAGCCTCAGTGACTACCGCGGGCGAAACACCATCGTCTACTTTTATCCGGCTGCCGCCACACCCGGATGCACCACCCAGGCCTGCGACTTCCGGGACAGCCTCTCATCCCTGCAAAGTGCCGGCTATGAAGTGCTGGGGATCTCACCCGACCCCATTAGCAAGCTTGCCTCCTTCGCTGCGAAGGAGGGCCTGACCTTTCCCCTGTTGTCTGATGAAAGCCACGCTGTTGCCGAGGCCTACGCCGCCTGGGGCGAGAAGAAGAATTACGGGCGGACCTACGAGGGCTTGATCCGTTCCACCGTCGTCGTGGATCCCGACGGCAAGGTTGTGCTGGCGCAATACAACGTCCGCGCCACAGGACACGTCGCCAAACTGCGCCGTGAGCTGAAGCTGGAGCAGGCCGCCAACTAG	MAERLNPGDAAPDFTLKNSAGAEVSLSDYRGRNTIVYFYPAAATPGCTTQACDFRDSLSSLQSAGYEVLGISPDPISKLASFAAKEGLTFPLLSDESHAVAEAYAAWGEKKNYGRTYEGLIRSTVVVDPDGKVVLAQYNVRATGHVAKLRRELKLEQAAN	PGPT0013120_1920	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
D1-17_01538	483			hypothetical protein	ATGGATCGCTGGCCCACTGGGCGCCTCTTGTCCACGGCGGCACGTCTCGTTGAACATTCCTGGAACGAAAAGCTGGGGGCGATTGGCCTGACCCATGCCGGTGTCATAGCCATCGAAGTTCTGTACAACAACGGCCCCATGACGCAGGCTCAGTTGGCGCAGCTGGTTCGTGTCCAAGCCCAGACCATGGGCAAGACCCTCAGCCGCCTTGAAGCCCATGGCCACATTGTGCGCCAGCGCAGCACGTCTGACCGCCGCAGCCATGTTGTCTCGTTGACCGAGCGCGGCACTGAGGCCGTCACTGCCGCCGCTGACATGGAGCGGTCTGTGCTTGCCGCTGCCTCCATTGACCCAGACATCCTCCGCCAGGAGCTCCAGGCCGTCGTCCGGGAACTGGCCACACGGTTTGCCTCGCCCGAAACCAGCGCCATTGTATCGAGTGCCGACTCGCGCCTTGGCGTTGAAGCCCGCTCATTCGAGTAG	MDRWPTGRLLSTAARLVEHSWNEKLGAIGLTHAGVIAIEVLYNNGPMTQAQLAQLVRVQAQTMGKTLSRLEAHGHIVRQRSTSDRRSHVVSLTERGTEAVTAAADMERSVLAAASIDPDILRQELQAVVRELATRFASPETSAIVSSADSRLGVEARSFE	PGPT0013155_1391	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-17_01539	1203			hypothetical protein	ATGGAGATAAATAAGGACTGCATCCAGTGGCGGGGACGCCTTGATGGGCACAGCGGATATGCCGTGGAGGGCCGGAGTCTTATCCGTGTTCTGAGGGACTCGGGATACCGCGTCCTGGAAGTGCGAGTCACTCCTCGACCAGACGGCTGCGTTGAAGCCCGGATCGAGAAGATCCGCAGGCCCGGCCAAGGTTTCACCGTGGTCCACTTGCCATGGCCGGATCACGGCTGGGAGGACCTCTACGGCAAAGTCGTGTGGCGTGCCATGTTCGAGACGGCCGCAGTGCCCCCGGAATGGCTCCAACGACTCGCCGAGGTTGACGAAGTGTGGGTTCCGTCCCGTTTCAATGCCGAGACCTTCACGGGCGCCGGTGTGGACAGGACCAAGGTGAGAATCGTGCCCCAGTTCGTGGACCAGGGATGGCTGCAGATGACTGCCTGGCCCTATCCGGGACACGGCATTTTCAAATTCCTCTCGGTCTTCCGATGGCAGGAGCGCAAGGGATGGGACGTGCTCCTACAGGCTTACCTGCAGGAGTTTGACGCCGAGGACGACGTTGAACTCATCCTGCGGGTCGATCCGTTCGGCCCCGACTCCGTGGACATCCATTCGGCCATCACGTCAATGGTTCGAAGGGTCCGCCCCCACCGTCCTCCCCGGCTGAGGATGCTCCCTGGCCCTCTTCCGCCGGCAGGAATGAAAAAGCTTTTTGCTGCGGCCCATGCCTTCGTCTTGCCCACACGTGGGGAGGCCTGGGGGCGGCCTTTCATGGAGGCCATGGCCTGCCGGTTGATCACTATCGGCACGGCCTGGGGCGGGCACCTGGACTTCATGAACGCCAACAATTCGCTTCTGGTCGACTGTGAGCTCGTCAGCGTGCCGGAATCAGCCGCGCGCGAATGGCCATATTTCCGCGGTCAGACCTGGGCCGAGCCTTCCATCGGCAGTCTTCGCAGCTGCTTGCGCCGGGCGATTGACGGGGGTCCTGACCTCGAACGCCTGCGCGACAATGCCGCCGCAGCCATTAGGGAGCGTTACAGCCGGGACCACGTCCAAGAGATCCTGACCCGCGAAGTCGATCGGTTGCTGGCGGACAGGGCAAGTCCTCAGGATCCCGGCGCACACGAGAGCTGTGGCCTTGGCCATCTGTCATCCCTCCCCGGCAGTCGCCTTCCCATGAAGCCGGCCGCCCATCCCGTTTAG	MEINKDCIQWRGRLDGHSGYAVEGRSLIRVLRDSGYRVLEVRVTPRPDGCVEARIEKIRRPGQGFTVVHLPWPDHGWEDLYGKVVWRAMFETAAVPPEWLQRLAEVDEVWVPSRFNAETFTGAGVDRTKVRIVPQFVDQGWLQMTAWPYPGHGIFKFLSVFRWQERKGWDVLLQAYLQEFDAEDDVELILRVDPFGPDSVDIHSAITSMVRRVRPHRPPRLRMLPGPLPPAGMKKLFAAAHAFVLPTRGEAWGRPFMEAMACRLITIGTAWGGHLDFMNANNSLLVDCELVSVPESAAREWPYFRGQTWAEPSIGSLRSCLRRAIDGGPDLERLRDNAAAAIRERYSRDHVQEILTREVDRLLADRASPQDPGAHESCGLGHLSSLPGSRLPMKPAAHPV				NA	NA	NA	NA	NA
D1-17_01541	1233			hypothetical protein	ATGGGAAACGGGTCCTCCAACCGAAGCGCCGATCACGGGCAGGCTCGGCGCCGGAGTCCTGCCATCGCAGGTACGTGCGCAGCCAGCCTGACGCTGATGCTCGTGTTGGCCGGCTGCACCGTCACGGACGGCAATACCGTCCCGAGTGACGTCACCGGGACCAGCGGGCCCAGCGGCCGGCCGAGCACGGTTGCACCTTCCGCTTCGACTCTTGCGCCGAGCAGCAGCAGTCCGACCCAAAGCTCGGCCACCGCTCTCCCTGCGGGCGAGCCGAGCGTCCGGGCCACGATTGAGGGGCTGCAACTGCCGTGGTCAGCGGTATTCCTTCCGGACGGTACTGCCGTGATCAGCGAACGGGACAGCGCGCTTCTCAAGTCAGTGCGGAACGGCAGGATCAGCACCATCGGGAGCGTTCCGGACGTGGTTCCCGGCGGTGAAGGCGGGCTTATGGGTTTGGCTCTCTCCCCCGGCTATGCCACCGACAGATTCCTGTACGCCTACTACACGGCGGCCCAGGACAACAGGATCGCCCGCGTTCGGCTGGAGGACGCCGGAACAGGATCAGAGAGCGGATTCCGGCTCGGGACGCCCGAGGTCATCTTCTCCGGGATCTCCAAGGCCTCAACACACAACGGCGGCAGGATCCGCTTCGGTCCGGACGGCTTCCTGTACGTGGGCACCGGCGATTCGCAGCGCCGCGAACAGCCCCAGGACCGGAATGCCCTGGGCGGCAAGATCCTCCGGCTGACCAAGGACGGGAAGCCGGCACCCGGCAATCCCTTCCCGGGCAATCCCGTCTACAGCCTGGGCCACCGCAACGTTCAGGGCCTCGCATGGGACAGCGCCGGCCGCCTCTGGGCCAGTGAATTCGGGCCGGAGGTGAACGACGAGCTCAACCTGATCCAGGCCGGCGGGAACTACGGCTGGCCCGAAGTCACCGGCGCACCCGGCCGCGAGGGGTTTGTTGACGCTAAAGTTGTGTGGCCTTCAACCGCGGAATCTTCCCCAAGCGGCATGGAGATCGTGGGCTCTACGGCCTTCCTCGGCGCCCTACGCGGCCAACGCATCTGGAGCGTGCCGCTCGATGGTGAAAATGCCGGCACTCCTGTGGGCCATTTCACACGCAAGTACGGCCGGATCCGGAGCGTTTCACTGGCTTCAAACGGGGAACTTTGGGCGCTTACGAACAACCAAAACCCTGATTCCGTGCTGATTTTGACCCTGTCTGGCTGA	MGNGSSNRSADHGQARRRSPAIAGTCAASLTLMLVLAGCTVTDGNTVPSDVTGTSGPSGRPSTVAPSASTLAPSSSSPTQSSATALPAGEPSVRATIEGLQLPWSAVFLPDGTAVISERDSALLKSVRNGRISTIGSVPDVVPGGEGGLMGLALSPGYATDRFLYAYYTAAQDNRIARVRLEDAGTGSESGFRLGTPEVIFSGISKASTHNGGRIRFGPDGFLYVGTGDSQRREQPQDRNALGGKILRLTKDGKPAPGNPFPGNPVYSLGHRNVQGLAWDSAGRLWASEFGPEVNDELNLIQAGGNYGWPEVTGAPGREGFVDAKVVWPSTAESSPSGMEIVGSTAFLGALRGQRIWSVPLDGENAGTPVGHFTRKYGRIRSVSLASNGELWALTNNQNPDSVLILTLSG	PGPT0017700_901	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
D1-17_01542	1005			hypothetical protein	ATGGAATGGATTGTCTGGGTCATCGTCATCGTAGTGATCATCGCCGTCGTCTGGTGGCTCCTGAACCGAAATTCGGGCAAAGGCGGAACCCCAGAAGCAGCCGGGACGAGCCAGGTAACCTCCACTTCCCCGTCGGGAACAGAAGCAACGGCGCCCTCCCCGTCAGAGCCAGCCGCGGTGCCGTCGGGAGCAAACGCAGCCTTCCCCTCTGGATCAGGCACGACCGAACAGCAGCCCGCGCCCCTGGCCGGGGAAACCCCAGCCCGGCAAGGATCGTCCGCAGCCGGCCACATCAGCCCCGAGGATCAGGAGCCGGACATCGAGTCATGGGACGCCGCCACACCGCGTCCCGGGGCCGGCACCTCGGGGGCCACAGGGGGCGACGTCGATGACTGGAACGACGAGGAAGATCAGGCCGAGTGGGAGACGCAGTGGTCCGAGACCGGAGCTGAGCACCACACGGGGACCGGGCCCGCCGCCGCAAGCCGCCCGGCCGAACCTTTCCCCTCCGCCGGGACGGCAACTCCGCCTGCCAGCGCGGCTACACCTGCTGCGCCCGCGCACCACGCCGAGTACACCGCCCCTCATGCCCCCACGTTGCCCGGCGCCGAATCCGCGGCGGCTGATGCTTTTGACGCTGACGCCGAAACCCGGCAGCGGATGCAGTCGTCCGCGGCCACAGAAGAAGGGGCAAGCCACGACGCAGAGCCTGTCGGCCACCAGGAGAGCTCCGGGACAGGTGAACAGCCGGCCTTCGGCGGTCAAGCCGGAAGTCAGCCGGCCGCTGATGCAATGGCAGGCCAGCCCTACGGCGATGGATCCGCCGCCCCTGCAGCCGATGGCAGCGGCCCCGACGGCTACACGGTAAAGGCTGACACAGGGTCAATGACCTATTACGACGAGGACAACCCGGGTTACGCCGATGTCCGCGCCGAAGTCTGGTTCCTCTCTCCCGCGCACGCGGAAGCTGCGGGATTCCGCGCTCCACGCCGTACCCGGCGCTGA	MEWIVWVIVIVVIIAVVWWLLNRNSGKGGTPEAAGTSQVTSTSPSGTEATAPSPSEPAAVPSGANAAFPSGSGTTEQQPAPLAGETPARQGSSAAGHISPEDQEPDIESWDAATPRPGAGTSGATGGDVDDWNDEEDQAEWETQWSETGAEHHTGTGPAAASRPAEPFPSAGTATPPASAATPAAPAHHAEYTAPHAPTLPGAESAAADAFDADAETRQRMQSSAATEEGASHDAEPVGHQESSGTGEQPAFGGQAGSQPAADAMAGQPYGDGSAAPAADGSGPDGYTVKADTGSMTYYDEDNPGYADVRAEVWFLSPAHAEAAGFRAPRRTRR				NA	NA	NA	NA	NA
D1-17_01543	1722	ilvD	COG0129	Dihydroxy-acid dehydratase	ATGAGTGAGTCCACCCAGATCGCAACCGACAGTAAGCCTGACATCAAACCCCGGAGCCGGGTTGTCACAGACGGCATCCACGCGGCTCCGGCACGTGGCATGTTCCGGGCCGTAGGCATGGGCGATGATGACTTCGCCAAGCCGCAGATCGGCGTCGCGAGCTCATGGAACGAAATCACCCCCTGCAACCTCTCGCTGAACCGGCTCGCACAGGGCGCCAAGGAAGGCGTTCACGCAGGCGGCGGCTTCCCCATGCAGTTCGGCACCATCTCGGTTTCTGACGGGATTTCCATGGGCCACGAGGGCATGCACTTCTCCCTCGTCTCCCGCGAGGTCATCGCGGACTCCGTGGAGACCGTGATGCAGGCCGAACGCATTGACGGCTCGGTGCTGCTGGCCGGGTGCGACAAGTCCCTGCCCGGCATGCTGATGGCAGCAGCCCGCCTCGACCTCGCCAGCGTGTTCCTCTACGCAGGCTCCATCATGCCGGGCTGGGTCAAGCTTGAGGACGGCTCCGAAAAGGAAGTCACCCTCATCGACGCGTTCGAGGCCGTGGGTGCGTGCGCGGCGGGCAAGATGAGCCGGGAAGACCTGGACCGCATCGAGAAAGCGATCTGTCCGGGTGAAGGCGCCTGCGGCGGCATGTACACAGCCAACACCATGGCCTGCATCGGCGAGGCAATGGGCATGTCCCTGCCCGGTTCGGCCGCCCCGCCCTCGGCTGACCGCCGTCGTGATGAATTCGCCCGCAAGTCCGGCGAGGCTGTGGTCAACCTGCTGCGCCTGGGAATCACCGCCCGCGACATCATGACGAAGAAGGCCTTCGAGAACGCCATCGCCGTCACCATGGCCTTCGGCGGTTCCACCAACGCCGTCCTGCACCTGCTTGCCATTGCCCGCGAGGCCGAGGTCGAACTGACCCTTAACGACTTCAACCGCATCGGCGACAAGATCCCGCACCTGGGCGACCTGAAGCCGTTCGGCCGTTACGTCATGACCGACGTCGACAAGATCGGCGGCGTGCCGGTCATCATGAAGGCACTGCTCGACGCCGGCCTCCTCCACGGTGACTGCCTCACCGTCACAGGCAAGACCATCGCGGAGAACCTCGCTGCTATCAACCCGCCGGACGTTGACGGCAAGATCCTGCGCGCGCTGGACAACCCGATTCACAAGACCGGCGGCATCACCATCCTGCACGGCTCGCTGGCCCCCGAGGGTGCTGTGGTCAAGAGCGCCGGTTTCGACGCCGACGTCTTCGAGGGCACTGCGAGGGTGTTCGAGCGCGAGCAGGGCGCCCTGGACGCGCTGGACAACGGGCAGATCCAGAAGGGCGACGTGGTGGTGATCCGCTACGAAGGACCCAAGGGTGGCCCGGGCATGCGTGAGATGCTCGCCATTACTGGCGCCATCAAGGGCGCGGGCCTCGGCAAGGACGTCCTGCTGCTCACAGACGGCCGCTTCTCGGGCGGAACTACCGGCCTTTGCATCGGCCATGTGGCCCCGGAGGCTGTCGACGGCGGCCCCATCGCCTTCGTGAAGGACGGTGACCGGATCCGCGTGGACATCGCAGCCCGCAGCTTCGACCTGCTGGTAGACGAGTCCGAGCTCGCAGCCCGCAAGGAAGGCTGGGAACCGCTCCCGGCCAAATTCACCAAGGGCGTCCTGGCTAAATACGCCAAGCTCGTACACAGCGCCTCCACCGGCGCGTACTGCGGGTAA	MSESTQIATDSKPDIKPRSRVVTDGIHAAPARGMFRAVGMGDDDFAKPQIGVASSWNEITPCNLSLNRLAQGAKEGVHAGGGFPMQFGTISVSDGISMGHEGMHFSLVSREVIADSVETVMQAERIDGSVLLAGCDKSLPGMLMAAARLDLASVFLYAGSIMPGWVKLEDGSEKEVTLIDAFEAVGACAAGKMSREDLDRIEKAICPGEGACGGMYTANTMACIGEAMGMSLPGSAAPPSADRRRDEFARKSGEAVVNLLRLGITARDIMTKKAFENAIAVTMAFGGSTNAVLHLLAIAREAEVELTLNDFNRIGDKIPHLGDLKPFGRYVMTDVDKIGGVPVIMKALLDAGLLHGDCLTVTGKTIAENLAAINPPDVDGKILRALDNPIHKTGGITILHGSLAPEGAVVKSAGFDADVFEGTARVFEREQGALDALDNGQIQKGDVVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGTTGLCIGHVAPEAVDGGPIAFVKDGDRIRVDIAARSFDLLVDESELAARKEGWEPLPAKFTKGVLAKYAKLVHSASTGAYCG	PGPT0001875_3087	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0001875-ilvD-K01687	NA	NA
D1-17_01544	1899	ilvB1	COG0028	Acetolactate synthase large subunit IlvB1	ATGAGCAAAGGATCGCCCATCAGCCCCTCGCTGATGGCTACAAAGTCCGCTGGAGCCAAGGCTCCGGAACGTGTCGACAAGCAGGCTGAGTCCGGCGTCGACACTGCTGCAGCCGCCTCTCCTGTCCTTGGGCCGAACAACGTTGTACCCCCAACGGTGATGACCGGCTCGCAAGCTATTGTCCGCTCGCTCGAAGAACTCGGCGTCGACGATATTTTCGGTTTGCCCGGTGGCGCGATCCTGCCCACCTACGACCCCTTGATGGCCTCCAAAATGAACCACGTTCTGGTCCGTCACGAACAGGGAGCCGGCCACGCCGCGCAAGGCTACGCCATGGTTACCGGGCGGGTGGGCGTCTGCATCGCCACTTCCGGCCCCGGCGCCACCAACCTCGTTACCGCCATCATGGATGCCCACATGGACTCCGTTCCGCTCGTGGCCATCACGGGCCAAGTGTCCAGCGGAGTCATCGGCACCGACGCCTTCCAGGAGGCGGACATCGTCGGCATCACCATGCCGATCACCAAGCACTCGTTCCTGGTGACCGACCCCAACGACATTCCCCACGTCATGGCAGAGGCCTTCCACCTCGCCTCCACCGGCCGTCCCGGTCCCGTCCTGGTGGATGTCGCCAAGGACGCCCAGCAGGGCCAGATGACTTTTTCGTGGCCGCCGAAAATCGACCTGCCCGGCTACCGGCCCGTGGTCCGCGGCCACAGCAAGCAGGTGCGGGAAGCGGCAAAGCTGATTGCGGCAGCCAGCAAGCCGGTGCTGTACGTCGGTGGCGGTGTGGTCAAGGCCCACGCTTCCGCTGAGCTGCGTGAACTGGCCGAGCTGACGGGCGCCCCCGTCGTGACTACGCTCATGGCCCGCGGCGTCTTCCCGGATTCACACCCGCAGCACGTCGGCATGCCCGGCATGCACGGCACCGTTTCGGCCGTGACGGCCCTGCAGCAGTCGGACCTCCTCATCACCCTCGGCGCCCGCTTCGATGACCGTGTCACCGGTGTCCTAAGCACCTTCGCCCCCAACGCCAAAGTGATCCACGCCGACATCGACCCCGCCGAGATCTCCAAGAACCGCACCGCCGACGTGCCGATCGTCGGCTCGGTCAAGGAGATCATCCCGGAACTGACCGAAGCTGTACGCAGCCATTTCGGTGCGAGCGGTACGCCGGACCTGACCAACTGGTGGGCTTTCCTGAACAACCTCAAGGAAACCTACCCGCTGGGCTGGACCGAGCCGGAGGACGGCCTCACCGCCCCGCAGCGGGTCATCGAGCGTATCGGTGCCCTCACGGGTCCCGAGGGGGTGTATGTCGCGGGCGTCGGCCAGCACCAGATGTGGGCAGCGCAGTTCATCAGGTACGAGCGTCCCCACGCCTGGCTGAACTCCGGCGGTGCCGGCACCATGGGCTACGCGGTTCCCGCAGCCATGGGCGCAAAGGTGGGGGAGCCGGACCGCGTGGTCTGGGCCATCGACGGCGACGGTTGCTTCCAGATGACCAACCAGGAACTGGCGACCTGCGCCATCAACAAGATCCCGATCAAGGTTGCTGTCATCAACAACTCCTCCCTCGGGATGGTGCGGCAGTGGCAGACCCTGTTCTACGAGGGGCGGTACTCTAATACCGACCTCAACACCGGCCACGAGACCATCCGGATCCCGGACTTCGTCAAGCTGGGCGAGGCCTACGGCTGCGCGTCCTTCCGTTGTGACCGCGCGGAGGACATCGACGCCACCATCCAGAAGGCACTGGAGATCAATGACCGGCCTGTGGTCATCGACTTCGTGGTCAGCCCCGACTCCATGGTGTGGCCGATGGTGCCCGCCGGGGTCAGCAACGACCAGATCCAGGTTGCCCGCAACATGACCCCGGAATGGGAAGAGGAGGACTGA	MSKGSPISPSLMATKSAGAKAPERVDKQAESGVDTAAAASPVLGPNNVVPPTVMTGSQAIVRSLEELGVDDIFGLPGGAILPTYDPLMASKMNHVLVRHEQGAGHAAQGYAMVTGRVGVCIATSGPGATNLVTAIMDAHMDSVPLVAITGQVSSGVIGTDAFQEADIVGITMPITKHSFLVTDPNDIPHVMAEAFHLASTGRPGPVLVDVAKDAQQGQMTFSWPPKIDLPGYRPVVRGHSKQVREAAKLIAAASKPVLYVGGGVVKAHASAELRELAELTGAPVVTTLMARGVFPDSHPQHVGMPGMHGTVSAVTALQQSDLLITLGARFDDRVTGVLSTFAPNAKVIHADIDPAEISKNRTADVPIVGSVKEIIPELTEAVRSHFGASGTPDLTNWWAFLNNLKETYPLGWTEPEDGLTAPQRVIERIGALTGPEGVYVAGVGQHQMWAAQFIRYERPHAWLNSGGAGTMGYAVPAAMGAKVGEPDRVVWAIDGDGCFQMTNQELATCAINKIPIKVAVINNSSLGMVRQWQTLFYEGRYSNTDLNTGHETIRIPDFVKLGEAYGCASFRCDRAEDIDATIQKALEINDRPVVIDFVVSPDSMVWPMVPAGVSNDQIQVARNMTPEWEEED	PGPT0008185_483	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
D1-17_01545	513	ilvH	COG0440	Acetolactate synthase small subunit	ATGAGCCGCCATACGCTGTCCGTTCTGGTCGAAGACAAACCCGGTGTGCTGACACGCGTGGCGAGCCTTTTCGCCCGCCGTGCCTTCAACATCAATTCCCTGGCCGTAGGCCCGACGGAAGTTCCGGGCATGTCCCGGATGACCGTCGTCGTCGACGCCGATGGTGACCTGATTGAACAGGTCACCAAGCAGTTGAACAAGCTGGTCAACGTGATCAAGATTGTTGAACTTACTCCCGAATCTTCCGTACAGCGCGACCACATCCTGGTTAAAGTACGTGCGGATGCCGCGACTCGTCTGCAGGTGACCCAGGCCGCAGACCTGTTCCGCGCTTCAGTGGTTGACGTTTCCACAGACTCTGTCGTCATCGAAGCAACCGGCCACCCCGAAAAGCTCACGGCACTGCTGTCAGTGCTGGAGCCCTTTGGCATCCGCGAAATTGTGCAGTCCGGCACCCTGGCCGTTGGACGGGGATCCCGCTCCATGAGTGATCGGGCTTTGCGCTCCGCCTAG	MSRHTLSVLVEDKPGVLTRVASLFARRAFNINSLAVGPTEVPGMSRMTVVVDADGDLIEQVTKQLNKLVNVIKIVELTPESSVQRDHILVKVRADAATRLQVTQAADLFRASVVDVSTDSVVIEATGHPEKLTALLSVLEPFGIREIVQSGTLAVGRGSRSMSDRALRSA	PGPT0008205_1909	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008205-ilvH|ilvN-K01653	NA	NA
D1-17_01546	1026	ilvC	COG0059	Ketol-acid reductoisomerase (NADP(+))	GTGACTGAAATGTTCTACGACGACGACGCCGACCTGTCGATCATCCAAGGTCGCAAGGTTGCCATTGTGGGCTACGGCTCCCAGGGCCACGCCCACGCGCTGAACCTGCGCGATTCAGGCGTCGAGGTTGTCATCGCCCTCAAGGAAGGCTCGCCGTCCACCGCCAAGGCACAGGACGCCGGCTTCACGGTCAAGAATGTTGCCGACGCCGCCGAATGGGCCGACGTCATCATGATCCTCGCGCCGGACCAGCACCAGCGCTCGATCTACAACGACTCCATCAAGGACAAGCTGCGCCCCGGCAAGGCCTTGGCCTTCGCCCACGGCTTCAACATCCGCTTCGGCTACATCCAGGCCCCCGAGGGAGTCGACGTCATCCTCGTCGCCCCGAAGGCTCCCGGCCACACTGTGCGCCGCGAATTCGAAGCCGGCCGTGGCATCCCGGACATCATCGCCGTTGAGCAGGACGCTTCCGGTTCCGCCTGGGAGCTGGCAAAGTCCTACGCCAAGGCCATCGGCGGCACCCGTGCCGGCGTCATCAAGACCACCTTCACCGAAGAGACCGAAACCGACCTCTTCGGCGAGCAGGCCGTCCTGTGTGGCGGCGTGTCCCAGCTGGTCCAGTACGGCTTCGAGACCCTGACCGAAGCCGGCTACCAGCCGCAGATCGCCTACTTCGAGGTGCTGCACGAGCTCAAGCTCATCGTTGACCTCATGTGGGAAGGCGGCATCGCCAAGCAGCGCTGGAGCGTTTCGGACACCGCAGAGTACGGCGACTACGTCTCCGGCCCCCGTGTCATCACCCCTGAGGTGAAGGAGAACATGCAGGCTGTCCTCGCCGACATCCAGTCCGGTGCCTTCGCCAAGCGCTTCATCGAAGACCAGGACAACGGCGGTGCCGAGTTCAAGGAACTGCGCGCCAAGGCAGAGCAGCACCCGATCGAGGCTGTTGGCCGCGAGCTGCGTTCCCTCTTCTCCTGGCAGCAGCAGGACCCGGACTACGTCGAAGGCTCGGCAGCCCGCTAA	MTEMFYDDDADLSIIQGRKVAIVGYGSQGHAHALNLRDSGVEVVIALKEGSPSTAKAQDAGFTVKNVADAAEWADVIMILAPDQHQRSIYNDSIKDKLRPGKALAFAHGFNIRFGYIQAPEGVDVILVAPKAPGHTVRREFEAGRGIPDIIAVEQDASGSAWELAKSYAKAIGGTRAGVIKTTFTEETETDLFGEQAVLCGGVSQLVQYGFETLTEAGYQPQIAYFEVLHELKLIVDLMWEGGIAKQRWSVSDTAEYGDYVSGPRVITPEVKENMQAVLADIQSGAFAKRFIEDQDNGGAEFKELRAKAEQHPIEAVGRELRSLFSWQQQDPDYVEGSAAR	PGPT0008735_1782	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008735-ilvC-K00053	NA	NA
D1-17_01547	1590	serA	COG0111	D-3-phosphoglycerate dehydrogenase	GTGTCAAAACCCGTAGTACTGCTCGCCGAAGAACTTTCGCCCGCCACCATCGAGGCCCTGGGCCCGGACTTTGAAATCCGCCAGACCGACGGCGCCGATCGTTCGCAGCTGCTCTCTGCCATCGAGGACGTTGACGCAATCCTGGTCCGCTCCGCGACGAAGGTTGACGCCGAGGCCATTGCCGCCGCGAAAAACCTCAAGGTCATCGCCCGTGCCGGTGTCGGCCTTGACAACGTGGACATCAAGGCTGCCACCCAGGCCGGTGTGATGGTGGTCAACGCGCCGACCTCAAACATCGTCTCGGCAGCAGAACTGACCGTAGGCCACATCCTCAGCCTCGCCCGCCACATCCCGCAGGCCAGTGCTGCCCTCAAGGACGGCGAGTGGAAGCGCTCCAAGTACACGGGCATCGAGCTCTTCGAAAAGAAAATCGGCATCATCGGCCTTGGCCGCATCGGCGCGCTGGTCGCCGCCCGCCTCCAGGGCTTCGACACTGAGATCCTCGCCTATGACCCCTACATCACCTCCGCCCGCGCAGCCCAGCTGGGCGTGAAGCTGGTGACCCTCGATGAGCTGCTCGCGCAGTCCGACTTCATCACCATCCACATGCCCAAGACCCCGGAGACTGTGGGCATGCTCGGCGCGGACGCCTTCACCAAGATGAAGTCCAGCGCTTACGTCATCAACGTTGCCCGCGGCGGGCTCGTCGACGAGGAGGCCCTCTACACGGCCCTGCAGGAAGGCCAGATCGCCGGCGCCGGTGTGGATGTCTTCTCGCAGGAGCCCGCCACGGACCTTCCGTTCTTCAAGCTGGACAACGTGGTCGTAACGCCCCACCTGGGTGCCTCCACGGATGAAGCGCAGGAGAAGGCCGGCGTCTCTGTTGCCAGGTCCGTCCGGCTGGCCCTCGCCGGCGAGCTCGTTCCCGACGCCGTCAACGTCGCCGGCGGTGTGATCGCGCCCGAAGTCCGCCCCGGCATCCCGCTCATCGAGAAGCTGGGCCGCATCTTCACGGCCCTCACCCACGCCTCGCTGACCCAGATCGACGTCGAGGTCGCCGGTGAAATTGCCGCTTTGGACGTGAAGGTGCTTGAGCTCGCGGCGCTGAAGGGCATCTTCGCGGACGTCGTCACCGAGCAGGTGTCCTACGTCAACGCCCCGGTGATCGCCGAACAGCGCGGCATCAACGCCCGTCTGATCACCACGCCCGAGGCAGAGGACTACCGGAACGTCCTGACCCTGCGCGGCGCCCTGAGCGACGGCACCCAGATTTCCGTGGCGGGCACGCTGACCGGCCCGAAGCAGGTGCAGAAGCTGGTGGGTGTGAACGGATACGACGTCGAAATCCCCATCAGCGAGCACCTGGTGGTCGTGTCCTACGCGGACCGTCCCGGCGTAATCGGCACCATCGGCCATATCCTGGGCATGAACAACATCAACATCGGCGGCATGCAGGTGGCCCGGAATGCAGAAGGCGGACAGGTTCTGGCGTTGCTGACGATCGACAGCTCCGTACCGCAGCAGGTCCTGGATGCCATCAAGGCCGGCATCGGTGCCGAGATGGTGCGTGAAGTGGACCTCGAAGACTAG	MSKPVVLLAEELSPATIEALGPDFEIRQTDGADRSQLLSAIEDVDAILVRSATKVDAEAIAAAKNLKVIARAGVGLDNVDIKAATQAGVMVVNAPTSNIVSAAELTVGHILSLARHIPQASAALKDGEWKRSKYTGIELFEKKIGIIGLGRIGALVAARLQGFDTEILAYDPYITSARAAQLGVKLVTLDELLAQSDFITIHMPKTPETVGMLGADAFTKMKSSAYVINVARGGLVDEEALYTALQEGQIAGAGVDVFSQEPATDLPFFKLDNVVVTPHLGASTDEAQEKAGVSVARSVRLALAGELVPDAVNVAGGVIAPEVRPGIPLIEKLGRIFTALTHASLTQIDVEVAGEIAALDVKVLELAALKGIFADVVTEQVSYVNAPVIAEQRGINARLITTPEAEDYRNVLTLRGALSDGTQISVAGTLTGPKQVQKLVGVNGYDVEIPISEHLVVVSYADRPGVIGTIGHILGMNNINIGGMQVARNAEGGQVLALLTIDSSVPQQVLDAIKAGIGAEMVREVDLED	PGPT0009155_1503	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-17_01548	2796			hypothetical protein	ATGAACGCCGTCCAAAGGTTCATCAGAAGCAGAGTGCTGCTGCTGACCGCTGCCATTTTGACCGCCGCCATGTGCCTGTCCGTCCTGGTCCAGACGCAGTCCCAAGCTGCGCTGACCAGGACGGTGGACGAAAACTCCCGGGGTCTGTATGACATCCTGGTGCAGGCCAAGGCAGGTTCCGGAGGCGCCCTGATGCAGCCGGAAATTGCCACCGGCCAGGGCGGCATCAGCTTCGACCAGCTGCAGAGCATCAGGGACCTGTCCGGCACCTCCGTCGCCGCTCCCATCAGCCTGGTGTCCCGCGTCACGCAGAACCTCGAGGCACCCCGGCTCGAGGCGATGGACTACCTCGGCTACAACTCCGGTCTTGTCGGCACCGCTACCGCCGGAGACCCCAGCGCCACCGATCCGGGCAAATGGCCTGCAGCAGAGTCAGTGCTGAGCGAAACACCCAAAAAGTACCGTCTCACCGCGAGTGCCACGAGCTCCGACGGATCCACCGAGCGGACACTCTTCAAGTCCACGGCCGAAGGGTCCCTGGGCAAGGCACGCCTGGTCGAGGAGGAGACGCCCGGCGGCAAGAGCACACGCATCGCAGGTCCGGAAGGCGAGACGGGCATCAAGTTCCCCGCACCCGCCGGTGGCTCCGAACACAACCTTTTCAACCTCACCGTTGCCCTGCCGTTGGCGCCGGAAGTCACCGAGTCCGTGGTCGCCGTCGACCCCGTCGCGGAGCGTGCGCTGCTCGGGTCCGCCGGAGACTTCCTGGCGCCGCTCGAAAAGGCCCCTCCCGCGGACGCCCGCAACGCCGAGGCCGTCGGCCGCCACTTTGAAAGCCTCTTCACGGGCGGCATCGGGATGGAGGAACTTGAGGAGGGCCCGGACTTCCTCGGAGTCAAGCTCAAGTACTGGGCGCCGCTGATGACCCAGTACCAGCAGGCAAAAATGAACGGCCAGCTCACCGAGGACTCGAAGGCAATCCCGCTGATTGTCCGCTCGGGCACGTCCCTTGACCTGAAGTACTCGGTGAAGATCGAGGAGATCGACGACGCCGGAAACGTGGTCAAGGACATCGGGACCGTTGACCGCTCTCTCGGCAACGACTACCTGCCGTTCGTTTCCAAGTCGCCCTTCGCCCTGGCGTGGCCCGGATCCACCGACCACTCCAAGCTGCTGGGCAACCCCGAAAGCTTTGGCCGCGGCCTCTACACGCCTGCCACCTGGAGCACGGACTTTGCCTCCGCGCCCAAGTACAAGGACGGCTCGACGGCGGGCAACGGCGCCGTCGACAAGACCGCGATCCCCGGTGAATGGGTGACCGTGAACCGGCTTCCGGAGCAGTCGGCAACCGGCGAATCCGTGGACCAGACCCAGCGCAACCCTGTGGATGAGCGTTCCTACCGGGAGAGCCTGGAGACGGGGGAGAAGCTGGCGGCTCCGCTCGCCATGGTGTACGGCACGTTCGATCCTGCCGAGGTACAAAAGGCGGCCGGGGATGTGAACAGGCTTCCGCTGGGCGGCTATGACCCTACACCGCTGACCCTGACCAAGGACGCCAAGGGCAAGGACATTGAGGACACCACACTCAAGCCGTCCCTTAGCGCCACGGGTCTGGCCAGCCAGTCGGCCGGTGCCATCACTGATTACTACGGCTTGGCGGCTGCCCGCGGGTACGAGAAGAACGCCTCCGTCATCGACGCCGTGCGCGTCCGCGCCGCTGTCCCCGGCAGCTGGAAGCAGGCACAGCCTGACGTTGAAAAGCTCGCCAACGAGATCCGTGACATGGGCCTGGAGGCCACGGTCGTGGCTGGCTCGGCCCGGGAGGACGCCAACATCTTTGTCCCCGGCTACTCCAAGGACGGTGCCGGCAAGGAGTCTGCGTTGGGCACGGTCCAGCAGTCATGGGTCCGGCAAGATGCCGCCGACGCCGTGACCGGCTCGCTGACGGCCACCAACCTCACCCTGCTCTTCCTGACGCTCTGCGGCGCCGCGCTGCTGACCGGGGCGTCCACAGTGAGCTACGTGCGCCAGCGCCGCCGCGAGGCCGGCACCCTGCGCGCCATGGGCTGGACCCAGCGCCGCATCCGGTCCTGGGTGCTGGAGGAGTTCGCCGTCGGTGCCGCGCTGCTGGCCGTAGCCGGCATCGTGCTGAGCCTACTGAGCTGGAACCTCGCCACGGTGGTTGTTTCTGCATCCGTGCTGCTGCTGTACGCAGCGGCGGCGTTCTTCGCAGCGCAGCAGCTGCGGCACCGCGAGGTAGTCGACCAGGAACCGCAGCACGATGAGCGGCTCATCGCCGTGGACTCACCGCTGACCTTCGCCAACCGGCAGCTGACCACCAACCGCTTTAACGCCATCTCGCTCGCGGTGGCAGTCGGTGTGTTCGGCGCGGCGGTCGGCGGCCTCATCGCCCTGCTGATCGACATCCCGCGCGCAGCCGGGGCGAGCGCATTGAGCGGGCTGGCCGCCACCAGCATCGCCCTGCCCAGCCTTGTTCTGGGGCTGTCCGGCGTTGCGGTGGCACTCCTGCTCACCCTTGTGACCGGGCGATTCGAGCTGCAGGCCAAGCGCCAGTACCTCGGCACCCTGGAAGCGATGGGCTGGAACCCTGACATGCTCGGCCAGGTACGTCTGTTCGAAAATGCCCTTGTGGGAGCGGTGGCTGTGCCGCTGGGCGTCCTGGGCGGCCTCGGCGTCGGGCTGCTCCTTGCTCCCTACGCCGCGCTCTGGGCCGCTGTGGCCGGGCTCGTGGCCGTCCTTTGCTGGATTCCAATTGCAACGAAAGTAGTCCAATGA	MNAVQRFIRSRVLLLTAAILTAAMCLSVLVQTQSQAALTRTVDENSRGLYDILVQAKAGSGGALMQPEIATGQGGISFDQLQSIRDLSGTSVAAPISLVSRVTQNLEAPRLEAMDYLGYNSGLVGTATAGDPSATDPGKWPAAESVLSETPKKYRLTASATSSDGSTERTLFKSTAEGSLGKARLVEEETPGGKSTRIAGPEGETGIKFPAPAGGSEHNLFNLTVALPLAPEVTESVVAVDPVAERALLGSAGDFLAPLEKAPPADARNAEAVGRHFESLFTGGIGMEELEEGPDFLGVKLKYWAPLMTQYQQAKMNGQLTEDSKAIPLIVRSGTSLDLKYSVKIEEIDDAGNVVKDIGTVDRSLGNDYLPFVSKSPFALAWPGSTDHSKLLGNPESFGRGLYTPATWSTDFASAPKYKDGSTAGNGAVDKTAIPGEWVTVNRLPEQSATGESVDQTQRNPVDERSYRESLETGEKLAAPLAMVYGTFDPAEVQKAAGDVNRLPLGGYDPTPLTLTKDAKGKDIEDTTLKPSLSATGLASQSAGAITDYYGLAAARGYEKNASVIDAVRVRAAVPGSWKQAQPDVEKLANEIRDMGLEATVVAGSAREDANIFVPGYSKDGAGKESALGTVQQSWVRQDAADAVTGSLTATNLTLLFLTLCGAALLTGASTVSYVRQRRREAGTLRAMGWTQRRIRSWVLEEFAVGAALLAVAGIVLSLLSWNLATVVVSASVLLLYAAAAFFAAQQLRHREVVDQEPQHDERLIAVDSPLTFANRQLTTNRFNAISLAVAVGVFGAAVGGLIALLIDIPRAAGASALSGLAATSIALPSLVLGLSGVAVALLLTLVTGRFELQAKRQYLGTLEAMGWNPDMLGQVRLFENALVGAVAVPLGVLGGLGVGLLLAPYAALWAAVAGLVAVLCWIPIATKVVQ				NA	NA	NA	NA	NA
D1-17_01549	756	ytrE	COG1136	ABC transporter ATP-binding protein YtrE	ATGACCAACGACCGTAACCTTCGCCGCGAGCGCGGGAACGATGATGGGGAAAGCGCGCTCCAGACGCGCGCCAGCACCATCGTCAAGGCCGCCGATCACGGTACACCGCTGGAACTGAGCAACGTCACCATCCGCTACGGTGGCGGCAAGGGCGGAGCCGACGCCGTCAGCGTCGTGGAGGGCTTCGACCTGACCCTGCACGCCGGCGAGATGCACTGCGTGGCGGGCCGCAGCGGCTCCGGCAAGACCAGCATCCTGACGGTGGGAGCAGGACTTACTCTGCCGACGTCGGGCCGTGTGCTGTGGGAGGGCCAGTCGCTCGAAAGCATGAGCGACGACGAGATCGCGGACCGCCGCCGTGCCCTCATCGGCTATGTCGACCAGGGCGGCGCCCTGATTGACGGCATGAGCGCTCTCGAGAACGTCCTGCTGCCTGCCGTGCCGGACGGCGAAGTGGAAAAGCGCCGCGATATGGCCAAGGACCTGCTGGACCTTGTGGGCCTGGGCCGGAGGATGCGGCACCGCCCCGCGCAGCTCTCCGGCGGCGAGCGCCAGCGCGTTGCCATTGCCCGCGCCCTCATCCTGGGGACCCGCGTGCTCGTGGTCGATGAACCCACCGCCAGCCTGGACAGGGCCTCGGCCAACCGCATCATCAGCATCCTGAAGGACACCACGTCCGACGGCATTGCAGTCCTTGTCGCTTCACATGATCACGAACTTGTCCGGCTGAGCGATACGCTGACTGAACTGATCTAG	MTNDRNLRRERGNDDGESALQTRASTIVKAADHGTPLELSNVTIRYGGGKGGADAVSVVEGFDLTLHAGEMHCVAGRSGSGKTSILTVGAGLTLPTSGRVLWEGQSLESMSDDEIADRRRALIGYVDQGGALIDGMSALENVLLPAVPDGEVEKRRDMAKDLLDLVGLGRRMRHRPAQLSGGERQRVAIARALILGTRVLVVDEPTASLDRASANRIISILKDTTSDGIAVLVASHDHELVRLSDTLTELI	PGPT0013345_3906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-17_01550	1560	metG		Methionine--tRNA ligase	GTGACTTCCTCAGACAAGAGCCCGTTCTACATCACTACGGCCATCACCTACCCCAACGGTGTGCCGCACATCGGCCACGCCTACGAATACATCGCCACCGACGCGATGGCACGTTTCAAGCGGCTGGATGGTTATGACGTGATGTTCCTGACCGGCACTGATGAGCACGGGCTGAAGATTGCCCAGACTGCGGAAAAGGAAGGCATCACGCCCAAGCAGCTCGTGGACCGCAATTCGGAAATCTACAAGGCCGCCCATGCTGCCCTCGGCATTTCCTATGACCGGTTCATCCGCACCACGGACGCCGATCACTACGCCGCCTCACAGGCCATCTGGAAGAAGATGGAAGCCAACGGTGACATCTACCTTTCCAAGTACGAGGGCTGGTACTCCGTCCGCGACGAGGCCTACTACGGGGAAGATGACACCGTGGTCAAGGAGGACGGTGCCAGGTACACCAAGGAGACCGACACCCCTGTGACCTGGACGGCTGAGGAAAGCTACTTCTTCCGCCTCTCCGGCTATCAGGACAAGCTGCTTGCGCTCTACGAGGCCCAGCCGGAGTTCGGTGCCCCGCAGTACCGCTTCAACGAGGTCATCAGCTTTGTGCGCCGCGGCCTCGAGGACCTGTCGATCAGCCGCACCACCTTTGACTGGGGCGTGCCGGTGCCCGGCAACGACAAGCACGTCATGTACGTCTGGGTCGACGCCCTGACCAACTACCTGACGGGCGCCGGCTACCCGGACACCGAGTCGGAGTCGTTCAGGAAGTACTGGCCTGCCGACGTGCACGTGATCGGCAAGGACATCTCGCGGTTCCATGCCATCTACTGGCCCGCCTTCCTCATGAGCGCCGGCCTGGAACTGCCCAAGCGCATCATGATCCATGGCTTCCTGAACAACAACGGGGTCAAGATGTCCAAGTCCCTGGGCAACGTCGTGGCCCCTGAGGACTTCGTCGCCCAGTACGGCCTCGACCAGGTCCGGTTCTTTTTTCTGCGGGAAGTTCCCTTCGGTGCCGACGGCAGTTACAACCACGAAGCAATCGTCGGCAGGATGAACTCGGACCTCGCCAACAACTTCGGCAACCTTGCCCAGCGATCGCTCTCCATGGTTGCGAAGAACTGTGAGGGGAAGGTCCCGGTTCCGGGAGCGTTCACCGCAGCCGACGACGCCATCCTGGCCCAGGCGAACGCCCTGCTCGACCAGGCACGCGCGGCCTTCCACAAACAGGAGTTCAGCCGTGCGCTCGAGGCCATTTGGGGCGTTCTGGGTGACACGAATGCGTACTTTGCAGAGCAGGCCCCGTGGGTGCTGCGGAAGACCGACGTCGAACGCATGCAGACGGTGCTGTACGTGACCCTCGAGGTATTGCGCATTGTGGCGATCCTGGCCCAGCCGGTGATGCCGTCCGCGATGGCCAAACTGCTGGGCTCCCTGGGCCAGTCCGAAGGCGAGGCACGGCAGTTCGCGGCTATCCCGGTGCCCATTGCCGCGGGCACGGACCTGCCTGCACCCGTTCCGGTCTTCCCGAAGTACGAAGAGCCGGCCGAAGCTTAG	MTSSDKSPFYITTAITYPNGVPHIGHAYEYIATDAMARFKRLDGYDVMFLTGTDEHGLKIAQTAEKEGITPKQLVDRNSEIYKAAHAALGISYDRFIRTTDADHYAASQAIWKKMEANGDIYLSKYEGWYSVRDEAYYGEDDTVVKEDGARYTKETDTPVTWTAEESYFFRLSGYQDKLLALYEAQPEFGAPQYRFNEVISFVRRGLEDLSISRTTFDWGVPVPGNDKHVMYVWVDALTNYLTGAGYPDTESESFRKYWPADVHVIGKDISRFHAIYWPAFLMSAGLELPKRIMIHGFLNNNGVKMSKSLGNVVAPEDFVAQYGLDQVRFFFLREVPFGADGSYNHEAIVGRMNSDLANNFGNLAQRSLSMVAKNCEGKVPVPGAFTAADDAILAQANALLDQARAAFHKQEFSRALEAIWGVLGDTNAYFAEQAPWVLRKTDVERMQTVLYVTLEVLRIVAILAQPVMPSAMAKLLGSLGQSEGEARQFAAIPVPIAAGTDLPAPVPVFPKYEEPAEA				NA	NA	NA	NA	NA
D1-17_01551	765			hypothetical protein	ATGAGACGAACTATCGCGGCAGTGGGCCTTTTGGGTCTTGGGATCATGGGCACCACACTCCCGGCAATCGCCACGCCGGGCAACGGGCAGGGCAATAACGTCAGCATCTGCCATGAAACCGGCTCGGAAACCAACCCGATCGTGGAAATCGACGTCAATGAAAATGCCGTCAACGGCCATGGGCCCGGGGGCAACAGCGGGCAAGGCGGCGGGCCCGGGGACAACAACGGGCAAGGCGGCGGGCCCGGGGACAACAACGGGCAAGGCGGGCATAACGACGACGAGTGCTACCAGGAGCCGGGGGGCAACGAGGAGCCCAACGTGCCGCCGGTAGTGGAACCATCTGCGGAGGAGCCTCCGGTTGATTCCCCGCCCGTGGTGGCACCTCCGGTGGCTGGCCCGCCCGTGGTGGCACCTCCGGTGGCTGGCCCGCCGGTTGTGGCACCTCCGGTTGCGGCGCCTCCGGCTGTCGTGCCGAAAGCACCCGCGGCCCCGGCGGTAAAGCCGGTGGTGAAGCCAGCGGCCAAGCCTCTGGCCAAGCCGGAGGCAGCAGCGCCGGTCGCGGCAGCGCCTGCGGCAGCGGCCCCAGTCGCCGCAATGCCGCCCGTGGCGCAGGCAATCAACGCCGGGTACAACGTCCAGACGGCGGCGGGCGGGGATGCCGGAAACGGTATTCCGTCGTGGCTTGCCACGCTGACGGGCGCCTTGGCCGGTCTGTCAGGCCTGGTGCTTCTGCGCGGTGGGGCGCGCGCCAGGAGGCTCTAA	MRRTIAAVGLLGLGIMGTTLPAIATPGNGQGNNVSICHETGSETNPIVEIDVNENAVNGHGPGGNSGQGGGPGDNNGQGGGPGDNNGQGGHNDDECYQEPGGNEEPNVPPVVEPSAEEPPVDSPPVVAPPVAGPPVVAPPVAGPPVVAPPVAAPPAVVPKAPAAPAVKPVVKPAAKPLAKPEAAAPVAAAPAAAAPVAAMPPVAQAINAGYNVQTAAGGDAGNGIPSWLATLTGALAGLSGLVLLRGGARARRL				NA	NA	NA	NA	NA
D1-17_01552	906			hypothetical protein	GTGGCCAGACACCTAGGGACCAGGCGGTCCCGGTCCGCAGGCAGCCGCCGGTTGCTGCTGGGCCATGCCGATCTTCTGATCCTTTCCTTTTGCTGCCTTGGGATCCTGGGCGCATGGCTCATCTACGGGGCAGCAAGCGCCGGGCACAGCATCGCCGGGCACAGCATCGCCGGGAACGGTCCAGTGGCCCGATATTCCCCGGTGGCACCCCATGCCCAGTTCCCGCCGGGCCTGATTCCGCCTGCCCAGTTCCCGCCGGGCCTGATTCCGCCTGCCCAGTTCCGGCCGGGCCTGATTCCGGCAGGCCAGCCGCAAGCGGCGGGGATCCAGCCAGGCTGGGCAATTGCCGGCACGGCAATACCGGGCGCCGATAAGCCGGCACCTGGCAAAACAGCACCTGCCAAAACAAGACCAGTCAGGACAACAGCTGCCAAAGCAGCGCCGAAACCTGTACGAGTCACGGCCGCGCCGCCGCAGCGGATCATCTATCCCGCCGCCGGCATTGATGTGGTGGTGCACCATCTGAAGCCGGACCGCGCTGCCACCGCAAGCAGGTCAATCGTGCCGCCAGAGACCCTGGACGGGTACTGGCTCACGCCCTATGGCATGCCCGGGGCCGGATCGGCGAACACCACTTACGTAATAGGCCACAGCTGGGAAGGCCGGGATGCCCCGTTCAACCACCTGAGCTCGTCTGCGGCGCCGGGTGATGTTTTCACTGTGGTCACCTCCAAGGCAAAGCTCCTTTACAGGGTCGATTCTGTGACCACATATACGAAGTCCAGCCTGAAGGACAGCTCCATCTGGGCCGTGGCGCCAAACCGGCTGGTCCTTATCAGCTGCTACACGGAAGACTTGTGGGGCAAGAATGTGGCCCTGGTGGCGTCGCCGGTTAAAGGAAGGTAA	MARHLGTRRSRSAGSRRLLLGHADLLILSFCCLGILGAWLIYGAASAGHSIAGHSIAGNGPVARYSPVAPHAQFPPGLIPPAQFPPGLIPPAQFRPGLIPAGQPQAAGIQPGWAIAGTAIPGADKPAPGKTAPAKTRPVRTTAAKAAPKPVRVTAAPPQRIIYPAAGIDVVVHHLKPDRAATASRSIVPPETLDGYWLTPYGMPGAGSANTTYVIGHSWEGRDAPFNHLSSSAAPGDVFTVVTSKAKLLYRVDSVTTYTKSSLKDSSIWAVAPNRLVLISCYTEDLWGKNVALVASPVKGR				NA	NA	NA	NA	NA
D1-17_01553	1053	leuB	COG0473	3-isopropylmalate dehydrogenase	ATGAGCGCATCAACGATTAATCTTGCTGTTATTCCCGGGGACGGCATCGGCCCCGAGGTTACCGCCGAGGCTGTCAAGGTCCTCGAGAAGGTGGTCGCCGCTGAAGGTGTCACCCTCGAGCAGACCTATTACAAGCTCGGCGCGCAGCACTGGCTTGAGACCGGCGAGACGCTCCCGGACGAGGTTCTGGAAGACCTGCGGACCCGCGACGCGATCCTGTTCGGCGCAGTCGGGGCAGCGCCGGGTGACACGCGGATTCCCTCCGGCATCATTGAGCGGGAGATGCTCCTGAAGCTGCGCTTCAGCCTTGACCACTACGTGAACCTGCGCCCGTCCAGGCTCTATGGCACAGTGGGCAGCCCTCTTTCCAACCCAGGAGACATCGACTTTGTCGTGGTCCGCGAAGGCACCGAAGGTCCCTATGTGGGCAATGGCGGCACTTTGCGCGGCGGAACGCGGCATGAAGTGGCCACCGAGGTGTCGCTGAACACCGCGCACGGTGTGGAGAGGGTGGTCCGGGACGCCTTCCGGCGTGCCAGCGAGCGGCCGCGCAAGAAGGTCACGCTGGTCCACAAGCACAATGTACTCGTCTACGCCGGTCACCTGTGGAAGCGCACTGTCGAGGCTGTGGGGCAGGAGTTCCCTGAGGTCACCCACGATTACCTGCACATCGACGCCGCCACCATTTTCATGGTCACCGATCCCGCGCGCTTTGATGTGATCGTCACTGACAACCTCTTCGGAGACATCATCACGGACCTTGCCGCGGCCATCACCGGCGGCATTGGACTCGCAGCCTCAGGCAACATCAATATGGACCGCACCGCACCCTCCATGTTCGAGCCGGTCCACGGTTCGGCGCCGGACATCGCCGGGCAGCAGAAGGCGGACCCCACGGCCGCTATCCTCTCGGCGGCGCTGCTGCTGGAGCACCTGGGCTATGCCGGCGCGGCACGGAAGATCGAGGCAGCTGTAGCGGCCGACATCGAAAGCCGCGACGGCGAAGCACGGAGCACCAGCGCCATCGGCGATGCCATCGCCGCTGCCGTTTAG	MSASTINLAVIPGDGIGPEVTAEAVKVLEKVVAAEGVTLEQTYYKLGAQHWLETGETLPDEVLEDLRTRDAILFGAVGAAPGDTRIPSGIIEREMLLKLRFSLDHYVNLRPSRLYGTVGSPLSNPGDIDFVVVREGTEGPYVGNGGTLRGGTRHEVATEVSLNTAHGVERVVRDAFRRASERPRKKVTLVHKHNVLVYAGHLWKRTVEAVGQEFPEVTHDYLHIDAATIFMVTDPARFDVIVTDNLFGDIITDLAAAITGGIGLAASGNINMDRTAPSMFEPVHGSAPDIAGQQKADPTAAILSAALLLEHLGYAGAARKIEAAVAADIESRDGEARSTSAIGDAIAAAV	PGPT0001441_4061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
D1-17_01554	1113	ilvE	COG0115	Branched-chain-amino-acid aminotransferase	ATGACTCAGACTGCCCATGGCGTCGAATTCACCCAGCAGCCCTCGGCAACCCCGAAGTCTGCTGAAGAACGTGCAGCCATCCTGGCGAACCCGGGATTTGGCAACTACTTCACCGACCACACGGCGGTCGTTGACTACAAGGTGGACGAGCACGGGAACGGCGGCTGGCACAGTGCCCGGATCGAGGCCTACGGGCCCATCATGCTCGATCCCTCTGCCGCAGTGCTGCACTACGGCCAGGAGATTTTCGAGGGCCTGAAGGCCTACCGCCATGCCGACGGCACCGTCTGGACATTCCGTGCGGAAGCCAACGCAGCACGCCTCAACCAGTCGGCCCGCCGGCTGGCCCTTCCGGAGCTGCCGGCAGAATACTTCCTCGGCGCGATCCGTGAACTCGTCAGCATGGACAAGGACTGGGTCCCGTCGGGTGACGGTGAAGCGCTCTACCTGCGTCCGTTCATGATCGCCACGGAAGCGTTCCTGGGGGTCCGGGCTGCCCGCGAAGTGTCCTTCCGGGTCATCGCCTCGCCCGTCGGCAACTACTTTGGGGGCGAGGTCAAGCCGGTTTCGATCTGGATCTCCCGTAAGTATGCCCGGGCAGGCCGCGGCGGCACCGGCGCGGCCAAGTGCGGCGGCAACTACGCGGCATCCCTGATCGCCCAGCAGGAGGCCGAGGCCAATGGCTGCAAGCAGGTCCTGTTCCTGGACCAGTTCAACGACAACGCTGTCGAGGAACTGGGCGGCATGAATGTCTTCTTCGTCATGAAGGACGGCTCGCTCGCCACCCCGGCCCTGACGGGAACCATTTTGGAGGGCGTCACCCGTTCCTCCGTTATCCAGGTCGCTAAGGATATGGGCAGGGAGGTTGCCGAGCGCAAAATCACGCTGGACGAATGGCGGGACGGCGTTGCTTCCGGGGACATCGCTGAGGTCTTCGCCTGCGGTACGGCCGCCGTGATCACTCCCATCGGAGTCCTCCGGGACGAGACCGAGTTCATCGGCGCGGAGGACGCCAAGGCGGGCGAAACCACCATGGCGATCCGCGAGCAGCTTCTGGGAATCCAGACCGGCAAGGTCGCAGACAAGCACGGCTGGCTCACCCGGCTCGCCTAG	MTQTAHGVEFTQQPSATPKSAEERAAILANPGFGNYFTDHTAVVDYKVDEHGNGGWHSARIEAYGPIMLDPSAAVLHYGQEIFEGLKAYRHADGTVWTFRAEANAARLNQSARRLALPELPAEYFLGAIRELVSMDKDWVPSGDGEALYLRPFMIATEAFLGVRAAREVSFRVIASPVGNYFGGEVKPVSIWISRKYARAGRGGTGAAKCGGNYAASLIAQQEAEANGCKQVLFLDQFNDNAVEELGGMNVFFVMKDGSLATPALTGTILEGVTRSSVIQVAKDMGREVAERKITLDEWRDGVASGDIAEVFACGTAAVITPIGVLRDETEFIGAEDAKAGETTMAIREQLLGIQTGKVADKHGWLTRLA	PGPT0008860_1285	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
D1-17_01555	801	gloB_4		Hydroxyacylglutathione hydrolase	GTGACAGCCGAAAATTCCTCCGCCCTGGTCCGCTGCACCGACCTGACCCGCTTCAGGCTTGCGCCGAATCCGGGGCCCATGAGCCTGGACGGCACAAACTCCTACCTGATTGCTGCGGAAGGCCATCCGGGAGGAGCCGTGGTGGATCCCGGGCCGCTGGATGAAAAGCATCTCCAAGAGCTTGCGCAGGCGGTTGGCACCGTTGAGCTGATCCTGATTACGCACCGGCATGCAGACCACACGGCAGGGGCCGCGCGCCTCCACGAACTGACGGGGGCGCCGGTCCGCGCCGCCGATCCCAGCCACTGCATCGGCCAACCACCGCTTCAGCCCGGCGAGGTCATCTCCGTCGCCGGCACGGAAGTCAGGGTTGTGCCCACGCCGGGACACACGTCCGATTCCGTGTGCTTCCACCTGCCCCTCGACGGGCCCGGGAGTTCCGTCCTCACCGGCGACACCATCCTCGGCCGGGGAACCACCGTGCTGGACTACCCGGACGGTGGGCTCGGCGATTATCTGGCCTCCCTGGACCGGCTCGAAATATTGGGGCCAGCCACGGTGCTGCCCGCCCATGGCCCCGTCCTGCCTGCACTTGACGCCGTAGTCCGCGCCTACCGCAGCCACCGTCTGGACCGCCTCTCGCAAATCCGTGCCGCCCTTGCGCAGCTCGGACCGGACGCCGGCGTGCCGCAGGTCACCGATGTTGTTTATGCCGACGTCGATGCGTCCGTGCGCCGCGCGGCAGAGAACTCGGTGGCGGCCCAGCTGGAATACCTCCGCTCCCTTCGGGAACCGGCCTGA	MTAENSSALVRCTDLTRFRLAPNPGPMSLDGTNSYLIAAEGHPGGAVVDPGPLDEKHLQELAQAVGTVELILITHRHADHTAGAARLHELTGAPVRAADPSHCIGQPPLQPGEVISVAGTEVRVVPTPGHTSDSVCFHLPLDGPGSSVLTGDTILGRGTTVLDYPDGGLGDYLASLDRLEILGPATVLPAHGPVLPALDAVVRAYRSHRLDRLSQIRAALAQLGPDAGVPQVTDVVYADVDASVRRAAENSVAAQLEYLRSLREPA				NA	NA	NA	NA	NA
D1-17_01556	777	yisK_1	COG0179	putative protein YisK	ATGCGTATTGCCCGGTTTGTAGTCGATTCTGATCCCCTCTACGGCGTCGTTGAAGGCGAGCCAGGCAGTGAGGAAATCACTGTCATCAACGGCGACCCGTTCTTCAACGGCGTGGAGCGCACCCACGTCCGCCACAAGCTGGAGGACGTCCGGCTGCTCGCGCCCATCATTCCCCGTAGCAAGGTCATCGGGGTAGGGCGGAACTTCGCCGACCACGCGCGTGAACTTGGCAACGAGGTGCCCCAGCACCCGCTGCTGTTTCTGAAGCCCAACACGTCCGTCATCGGCCCCAACGATCCCATCGTGCTTCCCGAGTTCTCCGAGGAGATCTCCTACGAGGCTGAACTGTGCGTCGTGATCGGCAGGATTTGCAAGGACGTGCCGGAAGAGCGCGCGGACGACGTCATATTCGGATACACCTGCGGCAACGACCTCACGGCCCGCGACGTTCAGAAGACAGACCTGCAGTGGGCCCGGGCCAAGGGCTTCGACACCTCCGCTCCGCTGGGACCCTGGATCGAAACGGACCTCGATCCCGAGGACCTTGCCATCAAGGGCAGGCTGAACGGCGAACTGCGCCAGGACGGCAGCACCAACCAGATGATTCGGGGCGTCCGGGAGCTCGTCTCCATTGTCTCCAGCGCGTTTACACTGCTGCCCGGTGACGTCATCATGACCGGCACCCCTGCCGGCGTCGACCTCGTGCAGGCCGGCGACCGGTTTGAGGTGGAAATCGAAGGCATCGGCCGGTTGTCCAACCCCGTGGTCCGCCGCTAG	MRIARFVVDSDPLYGVVEGEPGSEEITVINGDPFFNGVERTHVRHKLEDVRLLAPIIPRSKVIGVGRNFADHARELGNEVPQHPLLFLKPNTSVIGPNDPIVLPEFSEEISYEAELCVVIGRICKDVPEERADDVIFGYTCGNDLTARDVQKTDLQWARAKGFDTSAPLGPWIETDLDPEDLAIKGRLNGELRQDGSTNQMIRGVRELVSIVSSAFTLLPGDVIMTGTPAGVDLVQAGDRFEVEIEGIGRLSNPVVRR	PGPT0001745_557	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
D1-17_01557	1524	gltX	COG0008	Glutamate--tRNA ligase	ATGACTACTCCTTCTGCGTCGAACGCCGTCTCCAGCTCTGCCCTCCGTGAAGTCACTGCCGAAACACCCGTGCGTGTCCGGTTCTGCCCTTCGCCTACCGGCACCCCGCACGTAGGCCTAATCCGCACCGCCCTGTTCAACTGGGCCTACGCCCGGCACACAAAGGGCACGTTCGTGTTCCGCATTGAGGACACAGACGCCGCGCGCGACTCGGAGGAGAGCTACCAGCAGCTGCTCGAGGCGCTGAAGTGGCTTGGCATCACGTGGGAAGAAGGCGTGGAAGTCGGCGGACCGCACGAGCCGTACCGCCAGTCACAGCGACTGGACCTCTACAAGGACGTGGTCGCCAAGCTTGTCGAGGCCGGCTACGCCTACGAGTGCTACTCCTCACCGGAAGAAGTGGAGGCACGCCACCGAGCTGCCGGGCGCGACCCCAAGCTGGGCTACGACAACTTCGACCGTGACCTGTCGGACGAGCAGGTGGCAGCGTTCAAAGCCGAGGGCCGCGAGCCCGTGCTGCGCGTCCGCATGCCCGACGAGGACGTCACGTTCACGGACCTGGTGCGCGGTGAGATCACCTTCAAGCCCGGCAGTATCCCGGACTACGTCATCGTCCGCGCCGACGGCTCCCCGCTGTACACGCTGGTCAACCCGGTGGACGATGCCCTGATGGGTATCACGCACGTTCTCCGCGGCGAGGACCTGCTCTCCTCCACACCCCGCCAGGTGGTGCTGATCCGGGCCCTCATGGACATCGGCGTGGCGAGCTACATGCCGGTTTTCGGCCACCTTCCGTATGTCATGGGGGAGGGAAACAAGAAGCTGTCCAAGCGTGACCCGCAGTCGAACCTCTTCCTGCTCCGTGACCGCGGCTTCATCCGCGAGGGCCTGCTCAACTACCTCTCGCTGCTGGGTTGGAGCCTGTCCGCGGACGAGGACATCTTCACTGTGGACCAGCTCGTGGAGAACTTTGACGTCAAGGACGTCCTGGCCAACCCTGCGCGCTTCGACATCAAAAAGGCCGAAGCCATCAACGGCACGCACATCCGCATGCTCGACCCGGAGGATTTCCGCGGCCGGCTGGTTCCCTACCTCCGGGCTGCAGGGTTCGTGGGGGAGAACCTGACCCCGCGCCAGGAGGAGATCCTGGCCGAGGCGGCCCCGCTGATCCAGGAGCGCATCTCCCTGCTGGGTGAAGCACCTGAAATGCTGGCCTTCCTGTTCAAGAGCGACGACGGGATCGACATTGCGGATGACGCCCGCAAGGGGCTGCCCCAGAACCTGGACGAGGTGCTCGACGCCGCGCTGGCAGCGCTCGGGCCCATCGAGGACTGGAGCGCAGAGAACATCCAGACGGCCCTGAAGCAGGCGCTGGTGGAAGATCTGGGAATCAAGCCGCGGCAGGCCTTCGGACCGGTCCGCACCGCTGTCTCCGGCCGCCGTATATCCCCGCCCCTGTTCGAGTCCATGGTGATCCTGGGCAAGGAATCGTCACTGGCCCGCCTGCGCGCTTTCCGCGGCTGA	MTTPSASNAVSSSALREVTAETPVRVRFCPSPTGTPHVGLIRTALFNWAYARHTKGTFVFRIEDTDAARDSEESYQQLLEALKWLGITWEEGVEVGGPHEPYRQSQRLDLYKDVVAKLVEAGYAYECYSSPEEVEARHRAAGRDPKLGYDNFDRDLSDEQVAAFKAEGREPVLRVRMPDEDVTFTDLVRGEITFKPGSIPDYVIVRADGSPLYTLVNPVDDALMGITHVLRGEDLLSSTPRQVVLIRALMDIGVASYMPVFGHLPYVMGEGNKKLSKRDPQSNLFLLRDRGFIREGLLNYLSLLGWSLSADEDIFTVDQLVENFDVKDVLANPARFDIKKAEAINGTHIRMLDPEDFRGRLVPYLRAAGFVGENLTPRQEEILAEAAPLIQERISLLGEAPEMLAFLFKSDDGIDIADDARKGLPQNLDEVLDAALAALGPIEDWSAENIQTALKQALVEDLGIKPRQAFGPVRTAVSGRRISPPLFESMVILGKESSLARLRAFRG	PGPT0008460_1356	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
D1-17_01558	747	gph_1		Phosphoglycolate phosphatase	ATGCAGGGGCAGACGGGCATGGAAGCCAGCGTCGTCCTTGACCCCCGCTTCGGCGCGGTGGCCGGGGTCCTTTTCGACATTGACGACACACTGGTTGACTTGGCCTTTTCCATGACCACGGCCCTGCGCGACGTGAGTGAACATCTCCTGCCCGGCCTGGACCAGGCCGGGTGGGAGAGGTTCGGCAGGATCTTCACGCACGAAACCACGCATTACTACGACCGCTACCTGACCGGCGAACTGACCTTCAACGAGCAGCGGCTGCTCCGTGGGCGTGCGGCACTGGGGCATTTTGGCGTTGATCTCGGCGAAGGCGAAGAAGCGCATACCTGGCTCACGTCCTATGCCCGCCTTCAGCCGAGCTACGTCAGGGCCTTCGAGGACGTCCCGCCGCTGCTTGATGCGCTGGACGCTGCCGGCATACCGTACGGCGCCGTGAGCAACAACGTGCATGACTACCAGCGCGCCAAGCTCGACAGCGCGGGGCTGGAACGGATCCGAAGCCTCGTGGGCACCGACACTGTGGGCGTGCCGAAGCCAGATCCTGCCATCTACCTGGAAGGCGTGCGCCTGCTGGGCAGTTCCCCGGGCAGCACCCTTTATGTCGGCGACAACCTCCTGCTCGATGCGGAAGGCTCGACGGCGGCCGGCCTGGTTGGCGTCTGGCTGAACCGGACGGGGGAGTCCGCGCAGGACTACGAGGGGCATGAGGTCGGGACACTGCTCGAGTTGCTGGTCCAGGCGTAG	MQGQTGMEASVVLDPRFGAVAGVLFDIDDTLVDLAFSMTTALRDVSEHLLPGLDQAGWERFGRIFTHETTHYYDRYLTGELTFNEQRLLRGRAALGHFGVDLGEGEEAHTWLTSYARLQPSYVRAFEDVPPLLDALDAAGIPYGAVSNNVHDYQRAKLDSAGLERIRSLVGTDTVGVPKPDPAIYLEGVRLLGSSPGSTLYVGDNLLLDAEGSTAAGLVGVWLNRTGESAQDYEGHEVGTLLELLVQA				NA	NA	NA	NA	NA
D1-17_01559	1461	selO	COG0397	Protein adenylyltransferase SelO	ATGAGTACCGCAACCCCTTCGACGGTGACGTTTGACGGGCGCTTCGCCCGGGAGCTCGCTGAAATGGCCATCCCCTGGCAGGCGGCGGAGGTCCCGGAGCCGCGGCTGCTCGTGCTCAACGAGCCGCTGGCCGCCGAGCTCGGCTTTGACCCCGCTGCCCTGAGGAGCCCTGACGGTCTGCATCTCCTCACGGGCAACAGTCTTCCTGTGGGGGCGACCCCCGTGGCGCAGGCGTACGCCGGCCACCAGTTCGGCTGGTTCACCCCCCGCCTTGGTGACGGCCGGGCTGTCCTGCTCGGTGAGGTCGCCGACGCTGACGGGCGCCTGCGGGACATCCATCTCAAGGGCTCCGGCCGCACCCCCTTCGCCCGGGGAGGCGACGGCCTCGCCGCCGTCGGCCCGATGCTGCGTGAGTACATCGTGAGCGAAGCCATGTACGCGCTGGGTATCCCCACAACGCGTTCCCTGGCCGTGGTGGCGACCGGCAGGCCGGTGTACCGGGAGACCGAGCTGCCGGGGGCAGTGCTGGCACGGGTGGCCAGCAGCCACCTTAGGGTCGGCAGCTTCCAGTACGCGCGGGCGACGGGCGACGACGATCTCCTGCGGCGGCTCGCCGACCACGCAATCGCCCGGCATTACCCTGCCGCCGCGAATGCGGACAACCCTTATCTCGCCTTCTTTGAGGCTGTACTGGCCTCCCAGGCGGCGCTCGTGGCGAAATGGATGCTCGTGGGATTCATTCACGGAGTCATGAACACCGACAACATGACCATCTCAGGGGAGACCATCGACTATGGCCCGTGTGCCTTCATGGAGGGATTCGACCCCGCCACGGTCTACAGCTCCATCGACGAGGGCGGACGCTACGCCTACGCCAACCAGCCCGTCGTCGCCGAGTGGAACCTGGCCAGGCTTGCCGAAGTTCTCCTGCCCCTGATCCACGAGGACCAGGAACAGGCAGTCGCGCTGGCGGTGGAGTCTCTCGGCGCGTTCCGCCCCCAGTACAGTGCCGCCTGGTCGGCCGGGATGGTGGCCAAGCTCGGTCTGGAAACGCTCGACGACGACGAGACGTCGCCTTTGGTGGACGGCGTGGTCACCGTTCTCCAGGCCGGACGCGTTGACTACACGACGTTCTTCCGGCGGCTCGGCGCCGCGGCCCGGGGCGATGCCGAAACCGTTCGGGCCCTGTTCCGGGATCCGGCCGGTTTTGATGCCTGGGCGGAGAATTGGCTGGCATTCGGTCCGGACGCAGCCTCGATGGACAGGGTCAATCCCTTGTACATTCCCCGCAATCACCTGGTCGAGGAGGCCCTGGCCTCCGCTGTCGGCGGCGACCTCGGTCCCTTCGAACGGTTGGTGGAAGCGGTAAGCGCTCCATACGACGAGCGCCCCGGACTGGAGCGGTACGCGGCCGCCGCCCCGGAGAGCTTTGGACCCTACCGCACCTTCTGCGGAACCTGA	MSTATPSTVTFDGRFARELAEMAIPWQAAEVPEPRLLVLNEPLAAELGFDPAALRSPDGLHLLTGNSLPVGATPVAQAYAGHQFGWFTPRLGDGRAVLLGEVADADGRLRDIHLKGSGRTPFARGGDGLAAVGPMLREYIVSEAMYALGIPTTRSLAVVATGRPVYRETELPGAVLARVASSHLRVGSFQYARATGDDDLLRRLADHAIARHYPAAANADNPYLAFFEAVLASQAALVAKWMLVGFIHGVMNTDNMTISGETIDYGPCAFMEGFDPATVYSSIDEGGRYAYANQPVVAEWNLARLAEVLLPLIHEDQEQAVALAVESLGAFRPQYSAAWSAGMVAKLGLETLDDDETSPLVDGVVTVLQAGRVDYTTFFRRLGAAARGDAETVRALFRDPAGFDAWAENWLAFGPDAASMDRVNPLYIPRNHLVEEALASAVGGDLGPFERLVEAVSAPYDERPGLERYAAAAPESFGPYRTFCGT				NA	NA	NA	NA	NA
D1-17_01560	678			hypothetical protein	ATGACAATGGCGGGCGAGCCGGCCCCATCCGGCCACGTGGTGCTGCTGGGCGATTCTATTTTCGATAACAAGGCGTACGTGGGCGATGACCCGGATGTCATCACGCAACTCCGCCAGGAGCTCCCGCCCGGGTGGCAGGCCACCCTGCTGGCTGTCGACGGCGACGTGATGGCTGGTGTGGACCGGCAGCTGCGCCTTCTGCCGGAGGATGCAACACACCTTGTGGTCAGTGTCGGCGGCAATGACGCCCTCGGTTTCGCCGACATTCTGCACATGCCTGCAGGAGATGTCACAGGTGCGCTGGACATTCTCGCCGCTGCCCAGGATGACTTCGCTGCCGGCTACCAGGCCATGGCAAAGGCAGTGGCCTCTACAGGCCTGCCCGCCGCCGTGTGCACCATCTACGACACTCCTTCCAGCGGACCCGGGTACCGGACCATTAGGACTGCCCTCGCGGTTTTCAACGACTGCATTACCCGGGCCGCGTTCTCCCTGCGTATGTCCCTGATCGACCTGCGCCTCCTCTGCGGCGAGGACAGCGATTATGCGAACCCCATCGAGCCGTCTGCCCTGGGCGGCGCGAAAATCGCCCGGGGCATCGCCGTGCTGGCCACGCAGGGTTCCCAGCCAGGCATCACCACCGTCATCGTGGACAATACACAACTGGGCGGCCGATAA	MTMAGEPAPSGHVVLLGDSIFDNKAYVGDDPDVITQLRQELPPGWQATLLAVDGDVMAGVDRQLRLLPEDATHLVVSVGGNDALGFADILHMPAGDVTGALDILAAAQDDFAAGYQAMAKAVASTGLPAAVCTIYDTPSSGPGYRTIRTALAVFNDCITRAAFSLRMSLIDLRLLCGEDSDYANPIEPSALGGAKIARGIAVLATQGSQPGITTVIVDNTQLGGR				NA	NA	NA	NA	NA
D1-17_01561	228			hypothetical protein	ATGTCAGTATGCGGCATGAGTACGGTGAGCGATGTTGGCAGGATCATCGATACGGCCCGCGAAGAGATGATTTTCATCGGGCCCGACCACCCCTATTACCCGTTGCTGGCCGGTCTGGTCTCCGCTGTGCGGGATGCATGGCAGCACGGCTACGACCAATGCCGCAGCGGAGGGTCCGGCACGAATCCCTATGCCTGGAATACAACAGTTGAAGGGGACGCCACGTGA	MSVCGMSTVSDVGRIIDTAREEMIFIGPDHPYYPLLAGLVSAVRDAWQHGYDQCRSGGSGTNPYAWNTTVEGDAT				NA	NA	NA	NA	NA
D1-17_01564	1800			hypothetical protein	GTGACCTCTTCCAACGAGCCGGCGCCGTCTTCTGACAACACGCTGTCCAGTGGCCAGTCATCCGTCGAACAGGCAACCGGTGCAGTGGCGCTCCTTGAGGCCGTGCACCGCGACCTGGCCGCCGTCTCCCTCCCGCTGGCCCTGCCCGGCGTTGAGGAAGCCAGGCTGGAGATCCGCCGGTCCGTGGCCCAGCTCGAGGACTACATCCTGCCGCGCTACCGCAGCCTGGATGCTCCGCTGCTGGCTGTCGTCGGCGGATCCACCGGAGCGGGCAAGTCGACGCTGGTCAACGCCCTCGTCGGGCATCCGGTCACTCGGGCGGGAGCAATCCGCCCCACAACGCGGCAGCCAATCCTGCTGCACCACCCTGCAGAAGGGGACTGGTTTGAGAACCAGCGTGTCCTGCCCCACCTCAGCCGCATCCGCGGTGCCGTCGTCTCGACCCAGGTCCCGGCCAACCAGGCGGGGCCGGCTCCGGACCCGGCCTCCATCTCTTCGCTCGTTCTGGTGGCAGACACCGCCGTCCCTGCCGGAATAGCCCTTCTTGACGCGCCTGACGTTGATTCCATCTCCGACGACAACCGCAGGCTCGCACGGCAGCTGCTGGCAGCGGCCGACCTCTGGGTCTTTGTCACCACCGCCAACCGCTATGCAGACGCCGTTCCGTGGAAGCTGCTGCTGGACGCTGCTGCCCGGGACATCATGGTTGCCGTGGTGCTGGACCGGGTTCCGGCCGCCGCAGAAGAGGAAGTCAGCACCGACCTGCGGTCCATGCTGGCCCGCGAAGGGCTTGGCGGCGCCCAGCTTTTCATCGTCCCGGAGGTCGCGCTTGACGCCCTGGGCATGCTGCCGGCCGGCGCCGTCGAACCGTTGAAGACCTGGCTGGCAAGTCTTGCCGCCGATGCCTCGGCGCGGGCAGACATTGCCCGGCGGACACTGAACGGGACCGTGAAAGCACTGGGACAGCGTGTCGAATCCGCTGCTGAAGCAGCCATCGGGCAGCAGCGCGGCACCGCGCTGCTGGCGGGTGATGCGCGGAGCGCATATGAAGACGCAGTGTCACGGATTCTTAATGCCACCAGGGACGGCGCGCTCCTGAGGGGCGAGGTGCTGGCCCGCTGGCAGGATTTCGTGGGCACCGGCGAATTCTTCCGCAACGTAGAACAGAACATCGGCCGGTTCAGGGACCGGATGGGCGCGTTTTTCCGGGGGGAGCCCGCCCCTGCTGTCAAAGTGGAAACTGCGATCGAAACGGGCCTGCAGGCGGTCATCCTGGATGAAGCGGCCAACGCGGCCGAGGACACAGACCATCGCTGGCGGTCGAACCAGGCCGGGAGGCAGTTGCTCGGCACGGACGATCTCTCCGGAACGTCACCGGGTTTTGCCGAAGACGTTGCGGCCGAGATCAGGGCCTGGCAGGGGAGCCTGATGGAACTGATCCGGACCGAAGGGCAGGGCAAACGGACCCAGGCCAGATGGCTGTCCTTTGGCATCAACGGCCTCGGAGCGGCCCTCATGATCGTGGTGTTTTCGATGACGGCGGGCCTGACCGGACTGGAGATCGGCGTGGCAGGCGGCACCGCCGTCGTCGGTCAGAGGTTGCTCGAAGCCTTCTTTGGCGAGGACGCTGTGCGGCGGCTTGCCCAGACCGCCCGTGAGGACCTCCATGCCCGGTGCCAGAAACTGCTGCAAGGGGAGCAGCAGCGGTTCCTGGAACGGCTGGAATTTGATGAGGGGCCGTCGCCTGAAACGCTGGCCAACTATGCGAGGTCATTGGTCCGGCTGGCGGACGCCGCATGA	MTSSNEPAPSSDNTLSSGQSSVEQATGAVALLEAVHRDLAAVSLPLALPGVEEARLEIRRSVAQLEDYILPRYRSLDAPLLAVVGGSTGAGKSTLVNALVGHPVTRAGAIRPTTRQPILLHHPAEGDWFENQRVLPHLSRIRGAVVSTQVPANQAGPAPDPASISSLVLVADTAVPAGIALLDAPDVDSISDDNRRLARQLLAAADLWVFVTTANRYADAVPWKLLLDAAARDIMVAVVLDRVPAAAEEEVSTDLRSMLAREGLGGAQLFIVPEVALDALGMLPAGAVEPLKTWLASLAADASARADIARRTLNGTVKALGQRVESAAEAAIGQQRGTALLAGDARSAYEDAVSRILNATRDGALLRGEVLARWQDFVGTGEFFRNVEQNIGRFRDRMGAFFRGEPAPAVKVETAIETGLQAVILDEAANAAEDTDHRWRSNQAGRQLLGTDDLSGTSPGFAEDVAAEIRAWQGSLMELIRTEGQGKRTQARWLSFGINGLGAALMIVVFSMTAGLTGLEIGVAGGTAVVGQRLLEAFFGEDAVRRLAQTAREDLHARCQKLLQGEQQRFLERLEFDEGPSPETLANYARSLVRLADAA				NA	NA	NA	NA	NA
D1-17_01565	1617	era_1		GTPase Era	ATGAGCAGCCGCCACAGCCTGGCGCGGGAAGCAAGCCGGCTGGGAACCAGGCTCGAGGCGCTCAACACAGCGCGGCAGTTGGCCGACGGTGTGCTGCCGCGGGAGGCGCTGGACGAGGTCTCACAGGTCCTGGACCGCGCCAGTTCACGAAGGTCGCTGTCCGCGGACCACACCGTGGTGGGCTTTTTCGGTGCCACCGGCAGCGGCAAGTCCACGCTGTTCAATGCCGTCAACGGGGCTGAAATAGCGACGGCGGCGGCGCGCCGGCCCACCACATCGGAACCGCTGGCGAGCGTGTGGGGAGTGGAGGGCAGTGAATCCCTTCTTGACTGGCTGGAGGTGCGTCAGCGGCACCCCGCCGATCCTGTGCCGGGGTTCGCAGACGAATCCAGCGGGCTGATCCTCCTGGACCTGCCGGACTTCGATTCGACCAGGACGGCAAACCGGGAAACAGTGCAGCGGCTGGTGGGCATGGTGGACGTTCTTGTCTGGGTGCTGGACCCACAGAAGTACGCCGATGCAGCCGTGCATCAGGATTTCCTGGCCCCGTTGGCTTCCCACGGCGCTGTCACCCTGGTGGTGCTGAACCAGATCGACAGGCTTCCGGAGGCCGACGTCCCCATGGTCCTGGAGTCGCTGAAGGGAATCCTCGCACAGGACGGCCTGGGCAAAGTCCAGGTCATCGGTGCTTCGGCGCTTACCGGCACTGGCGTGGACGCTGTCCGTGCTGCAATCCGCGGAGTTGTGGCCCAGAAGGCGGCACTGTCCTTGCGCCTCTCCGCCGATGTCTCGCGGGCTGCCACCCAGCTGCTCGACGTGTCCGGGGAGGGGGAGGCTGCAGGGGTGACTGGAAGCGCCCGCTCCCGCCTTGCTGAGGAGCTGGCCGTTGCTGCCAATGTCCCCCTTGTGGTGGATGCCGTAGGCAGGTCCTATCGGCAGGAATCGGCCCGCCGCACCGGCTGGCCGGTGACAAGGTGGCTGGTGCGGTTCAGGCCGGACCCGCTGCGGCGTCTGAACCTTCGCAGCGGTGCCAATCCGGAAGTGAACAGGACCTCCCTTCCGGCGCCGGGGGCGCCGGAACGGGCCCGCACGGACGCCGCCGTCCGTGAGTTTGCGGATACCGCGAGCGACGGCGCGCCCGGGCCCTGGCGCGCCTCGATCCGGAGTGCTGCGCGGCAGGGCCGGGACCGGCTCCCGGACGCGTTGGACCAGGCCATTGCGGGCACCGACCTGAAGGCGGGAAAGAAATCCTGGTGGTGGGGGCTCTGCAATGTGGTCCAGTGGCTTGCGCTGCTGACCGCGCTGGCCGGTCTGGTGTGGCTCGGCGTGCTCGCCGTCCTCGGCTACCTGCAGCTTCCGGTCCCGGAGGTTCCCAAGGTGGAGGGCTGGCCGATTCCCACGCTCATGATTGCCGGAGGCGCGCTGCTGGGGATAGTGCTCGCCGTCACCGCGAAATTCATCACTGCCGGGGTTGCGCATGCCCGGGCCACGGCCGCCCGTAAACGCCTTAAGGCGGCCGTTAGCCAAGTGGCGGGGAAACACGTCATTCAGCCGGTGGAAGCGGAAATCGGCCGGCTGAAGGCCTTCACGGTGGCTCTCCAGGCTGCCAGCAAGTAG	MSSRHSLAREASRLGTRLEALNTARQLADGVLPREALDEVSQVLDRASSRRSLSADHTVVGFFGATGSGKSTLFNAVNGAEIATAAARRPTTSEPLASVWGVEGSESLLDWLEVRQRHPADPVPGFADESSGLILLDLPDFDSTRTANRETVQRLVGMVDVLVWVLDPQKYADAAVHQDFLAPLASHGAVTLVVLNQIDRLPEADVPMVLESLKGILAQDGLGKVQVIGASALTGTGVDAVRAAIRGVVAQKAALSLRLSADVSRAATQLLDVSGEGEAAGVTGSARSRLAEELAVAANVPLVVDAVGRSYRQESARRTGWPVTRWLVRFRPDPLRRLNLRSGANPEVNRTSLPAPGAPERARTDAAVREFADTASDGAPGPWRASIRSAARQGRDRLPDALDQAIAGTDLKAGKKSWWWGLCNVVQWLALLTALAGLVWLGVLAVLGYLQLPVPEVPKVEGWPIPTLMIAGGALLGIVLAVTAKFITAGVAHARATAARKRLKAAVSQVAGKHVIQPVEAEIGRLKAFTVALQAASK				NA	NA	NA	NA	NA
D1-17_01566	552			hypothetical protein	ATGACCAGCTATGCAGTGTTCCTTCGCGGAATCAACGTAGGGGGCATCAACATCAAGATGGCCGACCTCAAACGTGCCCTCGAGGCCTGCCCGTTCAAAGGGGTGAAGACGCTGCTGGCCAGCGGCAATGTCGTGCTGGCCAGCGAGCTGGACCCTGCAGCCGTGAAGGAAGCCGTCGAGGCCTGCCTCCGCGACTCCTTCGGCTATGACGCGTGGGTGGTGGTGCTCACAGCAGACCGCGTGGCCGAGCTCGTGAACGCATGCCCCTACCCTGCCGATGACAAAACCACGCACACGTACCTCACCCTCGCTTCGGATAAGGGAGCACTTGACGAACTGTTCGATGCCGCCGCCGAGCTGGGTGGCGTGGAGCAGACACGGCTGGGGCCGGAAGCCACAGCATGGCTGGCACCGGCCGGGGGAACACTGGAAAGCCCCTTCAGCAGGCTCTCCGCCAAGCCCAAGTACAAGGCCTCGACGACCACACGGAACCTCCGCACCATGATAAAGGTACGTGATGCCGCAGGGGCCCTCGAACACGGCGGCCTCTGA	MTSYAVFLRGINVGGINIKMADLKRALEACPFKGVKTLLASGNVVLASELDPAAVKEAVEACLRDSFGYDAWVVVLTADRVAELVNACPYPADDKTTHTYLTLASDKGALDELFDAAAELGGVEQTRLGPEATAWLAPAGGTLESPFSRLSAKPKYKASTTTRNLRTMIKVRDAAGALEHGGL				NA	NA	NA	NA	NA
D1-17_01567	720	rhmR	COG1414	putative HTH-type transcriptional regulator RhmR	ATGGACAATTCTAGTGGAGTCGGTGTCATTGATAAAGCCGCGCAGGTGCTCGATGCGCTTGAGGCCGGACCTACGACTCTTGCACAGTTGGTAGCGGCAACGGGGCTGGCACGACCCACAGTGCACCGGCTCGCGCTGGCGCTTGTCCACCACCGCCTGGTGAGCCGGGACATCCAGGGCAGGTTCGTGCTCGGCAGCCGCCTGGTGGAGCTCGCCTCCGCTGCGGGGGAGGACCGGCTCATTGCCTCGGCTGGTCCGGTTCTGATGCAGCTGCGCGACGCCACCGGCGAGAGCGCCCAGATCTTCCGCCGACAAGGCGACTGGCGGGTCTGCGTCGCCTCCGCTGAACGGCCCATAGGACTCCGCGACACAATTCCTGTCGGTACCCAGCTGTCCATGAAGGCCGGTTCCGCGGCCCAGGTTCTGCTCGCCTGGGAGGACCACGACCGCCTGCTGGAGGGGCTGCAGTCCGCCCGCTTCACGCCCACTGTCCTGGCAGGAGTACGACGGCGGGGCTGGGGTCAGAGCCTTGGCGAACGTGAGCCTGGAGTCGCCTCAGTCTCAGCGCCCGTCCGCGGACCGTCCGGTCGGGTGATCGCGGCCGTTTCGATCTCAGGTCCCATCGAGCGGCTCACGCGGCAGCCCGGCCGCCTGCATGCGGAAGTTGTCTGCAACGCTGCTCGGGCCCTCACTGAGGCGCTGCGCAAGAACAGCGACTAA	MDNSSGVGVIDKAAQVLDALEAGPTTLAQLVAATGLARPTVHRLALALVHHRLVSRDIQGRFVLGSRLVELASAAGEDRLIASAGPVLMQLRDATGESAQIFRRQGDWRVCVASAERPIGLRDTIPVGTQLSMKAGSAAQVLLAWEDHDRLLEGLQSARFTPTVLAGVRRRGWGQSLGEREPGVASVSAPVRGPSGRVIAAVSISGPIERLTRQPGRLHAEVVCNAARALTEALRKNSD	PGPT0031315_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ERYTHROCHELIN_METABOLISM,PGPT0031315-etcH-NA	NA	NA
D1-17_01568	1455	leuC_2		3-isopropylmalate dehydratase large subunit	ATGGCGAACACATTGGCCGAGAAAGTCTGGGACGCGCATGTGGTGCGCAAGGGCGACGGCGATGGTGCCAGTGCCCAGCCCGACCTTCTGTACATCGACCTTCACCTCGTCCACGAGGTGACGTCACCGCAGGCCTTCGAGGGCCTGCGCCTGGCCGGCCGCAAGCTGCGCCGCCCGGACCTCACCATCGCCACCGAGGACCACAACACTCCCACACTGGACATCGACAAACCAATTGCCGACCTGACCAGCCGCACCCAGATCCAGACCCTGCGAAACAACTGCGCCGAGTTCGGCGTCCGCCTGCATTCTCTTGGTGATGCCGAACAGGGCATCGTGCACGTGGTCGGTCCCCAGCTCGGACTGACCCAGCCCGGCATGACCGTTGTTTGCGGCGACTCCCACACCTCCACCCATGGCGCCTTCGGCGCTCTGGCCATGGGTATCGGCACATCCGAGGTGGAGCACGTCATGGCCACCCAGACGCTGTCCCTGAAGCCCTTCAAGACGATGGCCATCAACGTCGAGGGCACCCTGCGCCCCGGCGTCACGGCTAAGGACATCATCCTGGCCGTCATCGCCAAGATTGGCACCGGCGGCGGCCAGGGTTACGTCCTGGAGTACCGCGGCTCGGCCATCCGGGCGTTGTCCATGGAAGCGCGGATGACCATCTGCAACATGTCCATCGAGGCAGGTGCCCGCGCCGGCCTGGTCGCTCCGGACGAGACAACCTACGCCTACATGAAGGGCCGCCCGCACGCGCCCGAAGGCGCCGAGTGGGATGCCGCCGTCGAGTACTGGAACACGCTGCGGAGCGACGACGACGCGGTCTTCGACGCCCAGGTGGATCTCGACGCCGACACGCTCGAGCCGTTCGTCACATGGGGCACCAACCCCGGCCAGGGCGTCTCCCTCTCCGCCAAGGTCCCCTCGCCCAACGACTTCGGCGACGAGAACGCCAAGGCCGCCGCCGAACGGGCCCTGCAGTACATGGGACTCCAGGCCGGCACGCCCATGAAGGAGATCCGGGTGGACACTGTCTTCCTTGGCTCCTGCACCAACTCCCGCATCGAGGACCTGCGCGCCGCCGCGGACATCATCCGCGGGCGGGAAAAGGATCCCAAGGTCCGCATGCTGGTGGTTCCCGGCTCTGCCAGGGTCCGCCTTGAGGCCGAGGCCGAGGGCCTGGACAAGGTGTTCAAGGACTTCGGTGCGGAGTGGCGCTTCGCGGGCTGCTCCATGTGCCTGGGCATGAACCCGGACCAGCTGGAGCCGGGGGAGCGCTGCGCCTCTACCTCCAACCGCAACTTCGAAGGACGCCAGGGCAAGGGCGGACGCACCCACCTGGTGTCGCCGGTCGTGGCAGCCGCCACTGCCGTGCGCGGCACGCTGAGCTCACCGTCGGATCTTGATCCGGCACCGGAATCCGCAGCCCTCCAGACCGACGCAGCCTAG	MANTLAEKVWDAHVVRKGDGDGASAQPDLLYIDLHLVHEVTSPQAFEGLRLAGRKLRRPDLTIATEDHNTPTLDIDKPIADLTSRTQIQTLRNNCAEFGVRLHSLGDAEQGIVHVVGPQLGLTQPGMTVVCGDSHTSTHGAFGALAMGIGTSEVEHVMATQTLSLKPFKTMAINVEGTLRPGVTAKDIILAVIAKIGTGGGQGYVLEYRGSAIRALSMEARMTICNMSIEAGARAGLVAPDETTYAYMKGRPHAPEGAEWDAAVEYWNTLRSDDDAVFDAQVDLDADTLEPFVTWGTNPGQGVSLSAKVPSPNDFGDENAKAAAERALQYMGLQAGTPMKEIRVDTVFLGSCTNSRIEDLRAAADIIRGREKDPKVRMLVVPGSARVRLEAEAEGLDKVFKDFGAEWRFAGCSMCLGMNPDQLEPGERCASTSNRNFEGRQGKGGRTHLVSPVVAAATAVRGTLSSPSDLDPAPESAALQTDAA	PGPT0001442_432	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
D1-17_01569	603	leuD_2	COG0066	3-isopropylmalate dehydratase small subunit	ATGGAAAAGTTCACAACCCACACCGGAATCGGCGTCCCGCTGCGCCAGAGCAACGTCGACACCGACCAGATCATCCCCGCTGTCTACCTGAAGCGGATCACCCGCACGGGCTTTGAGGACGCACTGTTCTCGGCCTGGCGGAAGGACCCCGCCTTCATCCTGAACCAGGAGCCGTTCAATGCCGGCTCCGTACTGGTTGCAGGTCCGGACTTCGGTACCGGCTCCTCCCGTGAACACGCCGTGTGGGCGCTGAAGGACTATGGCTTCAAGGCCGTCCTGTCATCCCGGTTCGCGGACATTTTCCGGGGCAACTCGGGCAAGCAGGGGCTCCTGGCCGCCGAGGTAGCCCAGGATGACATCGAGCTCATCTGGAAGACCCTGGAAAACGCACCCGGCACCGAGGTGACTGTCGATCTCGTGTCGAAGACCGTCATGTGTGGCAACGTGGTGGCTCCGTTCTCCATTGATGACTACACGCGCTGGCGCCTGCTTGAGGGCTTGGACGACATCGGGCTGACCCTGCAGCACGAGGCAGACATCACGGCCTACGAAGCCACCCGCCCGGCATTCAAGCCAAAGACGCTGCCGGCCAAGCTTTCCTAA	MEKFTTHTGIGVPLRQSNVDTDQIIPAVYLKRITRTGFEDALFSAWRKDPAFILNQEPFNAGSVLVAGPDFGTGSSREHAVWALKDYGFKAVLSSRFADIFRGNSGKQGLLAAEVAQDDIELIWKTLENAPGTEVTVDLVSKTVMCGNVVAPFSIDDYTRWRLLEGLDDIGLTLQHEADITAYEATRPAFKPKTLPAKLS	PGPT0001443_2755	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
D1-17_01570	1326	murAA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1	ATGAGTAGTGTTCTGACAATCCGCGGAGGCGTCCCGCTGACAGGCCGAGTAACGGTCCGCGGTGCCAAGAACCTTGTGCCCAAGGCCATGGTGGCCGCGCTGCTGGGCAACGAACCCTCAGTGCTCCGGAACGTTCCGGAAATTAAGGATGTCGAGGTTGTCACCAGCCTGCTGCAGCTGCATGGCGTCACCGTCGTTAAGGATCCTGTTAGCGGTGACCTCACCCTGGACCCCAAGGATGCAAAGACGGCTCCCAGCACGGCGATTGACGCCCACGCCGGCGATTCCCGAATCCCGATCCTGCTCTGCGGACCCCTGATCCACGCGATCGGCGAGGCCTTCATTCCGGACCTCGGGGGCTGCAAGATCGGCGACCGCCCCATCGACTTCCACCTGGACGTGCTGCGCCAGTTCGGAGCCGTCGTCGAAAAGCGCCCGGGCGGCATCCACATTTCTGCACCCAGGGGACTGCACGGAGCCAAGATCTCCCTGCCCTACCCCTCGGTCGGCGCCACGGAGCAGGTCCTGCTGAGCGCAACCCGCGCCGAGGGCATCACCGAACTCTCCGGTGCGGCCACCGAGCCTGAAATTGTCGACCTGATCGCTGTGCTGCAGAAGATGGGCGCCATCATCAGCGTCCAGACCGACCGCACCATCCGCATCGAGGGTGTGCGCGATCTCGGCGGCTATAACCACCGTGCACTCTCGGACCGCAACGAGTCAGCATCCTGGGCCTCCGCTGCCCTTGTGACCCGCGGCGACATTTTTGTTGAGGGCGCCTCTCAGCGCGACATGATGACCTTCCTGAACACCTTCCGCAAGGTGGGAGGCGGCATGGACATCGGCGACGACGGCATCCGCTTCTACCACCGCGGCGGAAAGCTCTCCCCGCTGGTGCTTGAGACTGACGTCCACCCGGGGTTCATGACCGACTGGCAGCAGCCGCTCGTCGTCGCTCTCACGCAGGCTGAAGGGGTGTCGATCGTCCACGAGACTGTCTACGAGAACCGGTTTGGGTTTACGGACGCCCTGATCCGCATGGGCGCTTCCATCCAGGTCCACCGTGAATGCCTGGGCAGCGTGCCGTGCCGTTTTGGCCAGCGCAACTTCCTGCACTCGGCCGTCATTTCCGGACCGATGCAGCTCAAGGGAACGGATATCGATGTTCCGGACCTGCGCGGCGGCTTCAGCCACCTCATCGCTGCCCTCGCTGCTACCGGCACTTCCCGGGTGACGGGCATCGACATCATCAACCGCGGCTACGAGCGCTTCACCGAGAAGCTGGCCGGGCTCGGCGCCGATTTCGACATCACCTCTGAGAAGTAG	MSSVLTIRGGVPLTGRVTVRGAKNLVPKAMVAALLGNEPSVLRNVPEIKDVEVVTSLLQLHGVTVVKDPVSGDLTLDPKDAKTAPSTAIDAHAGDSRIPILLCGPLIHAIGEAFIPDLGGCKIGDRPIDFHLDVLRQFGAVVEKRPGGIHISAPRGLHGAKISLPYPSVGATEQVLLSATRAEGITELSGAATEPEIVDLIAVLQKMGAIISVQTDRTIRIEGVRDLGGYNHRALSDRNESASWASAALVTRGDIFVEGASQRDMMTFLNTFRKVGGGMDIGDDGIRFYHRGGKLSPLVLETDVHPGFMTDWQQPLVVALTQAEGVSIVHETVYENRFGFTDALIRMGASIQVHRECLGSVPCRFGQRNFLHSAVISGPMQLKGTDIDVPDLRGGFSHLIAALAATGTSRVTGIDIINRGYERFTEKLAGLGADFDITSEK	PGPT0024090_827	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
D1-17_01571	747	plsC	COG0204	1-acyl-sn-glycerol-3-phosphate acyltransferase	GTGAAGGAATCGGCCAAGAGCCACATCACGTTCATGATGATCGCCACGATTGCGCGGCCCCTGCTGAACCTGATGATGAACAAGAAGTGGGAAGGGATGGAAAAGCTCCCCGCAGGGGGCTTCATTGCCGCACCCAACCACTGCACCGAGATCGACCCCATCGTGATCGGGCACCTGCTCTATAACCAGAAGCGGGCGCCGCACTTCCTCGCCAAGGCCGGGCTTTTCCGGGTGCCCGTGCTGGGCAGCGTGCTCCGCGCCGTCAAGCAGATCCCGGTGGAACGCTCGACGGCGGGGGCGAACCGCTCCCTGCAGCTGGCCAAGGAGATCGTTGCGGAGGGCGGAGCGATTGTGATCTACCCGGAAGGAACGCTGACACGCGATCCCGACCTGTGGCCGATGAAAGGCCACACGGGTGCCGCGCGACTTGCCCTCGAGGGCGGTATCCCTGTGGTGCCCATGGCCCATTGGGGCGCCCACGAGGTCTTCCCGCGCTACGCCAAGCGGTTCCACCTGTTCCCGCGGAAGACCTCAAAGATCCTGGTCGGTGACCCGGTGGACCTGTCCCGCTTCGAAGGCCGTCCCCGGGACAAGGCCACGCTCATCGAAGCGACTGAGGTCATCATGGACGCTGTCACTGCATTGTTGGCCGAGCTGCGCGGCGAACAGGCGCCGGCTGAGCGCTGGGACCCGGCGGCTCACAACCAGACTAAGCATGGCCGCGACGTCCAGCGGGGCGGGAAATGA	MKESAKSHITFMMIATIARPLLNLMMNKKWEGMEKLPAGGFIAAPNHCTEIDPIVIGHLLYNQKRAPHFLAKAGLFRVPVLGSVLRAVKQIPVERSTAGANRSLQLAKEIVAEGGAIVIYPEGTLTRDPDLWPMKGHTGAARLALEGGIPVVPMAHWGAHEVFPRYAKRFHLFPRKTSKILVGDPVDLSRFEGRPRDKATLIEATEVIMDAVTALLAELRGEQAPAERWDPAAHNQTKHGRDVQRGGK	PGPT0024380_2613	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-17_01572	1053	gpsA	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGACGACTGGGCAGCGCCGCACCGGCTCTGCCGTGTCGGTGGCAGTCCTCGGCGCCGGCTCGTGGGGTACCACGTTCGCGAAAATCCTCGCCGACGCCGCCACTGCCTCAGACGTTGACCGGCGGATCCGGATCTGGGGCCGGCGCCCGGAGGTCGTGGAGCAGATCAACAGCCTTCATCGGAACCCCCAATACCTCGCTGACGTCGAACTGCCCCCCAGCATCTCGGCGTCCACCGATGTCGCCGAGGTGCTCTCGGGGGCCGACCTCGTGGTGCTTGCCGTGCCGGCACAGTCCCTGCGGCTGCAATTACGCGAGTGGAAATCCCTGATCGCAGGGGATGCCCTTGTGGTGTCCCTGATGAAGGGCCTCGAGCTGAGTACCGACGCGCGCATGAGCGAGGTGATCCGGGAGGAGCTGGACATTCCCGTCGAGCGCATCGCCGTCGTCTCCGGACCCAACCTGGCCATGGAAATCGCCAGGGAGGAGCCCACCGCCTCCGTCGTCGCCTGCGCCGACTCGGCGGCTGCCGGCTGGCTGGCACGCAGCTGCACAGCCCCGTACTTCCGCCCCTACACCACCTCCGATGTTGTTGGCGTCGAAATCGGCGGCATCGTCAAAAACGTCATTGCGTTGGCCGTGGGAATCTGCGAGGGAAAGCAGATGGGGGACAACACCAAAGCTTCCGTCATTACCCGCGGGCTCGCTGAAACGTCCCGGCTGGCTCTTGCGCTGGGCGGGGAGGCGCAGACCATGGCCGGGCTCGCCGGTCTCGGGGACCTCGTTGCTACGTGTTCCTCGCCGCTGTCGCGGAACCACACGGCCGGACGCCTCCTCGGGCAGGGCCTGACCTTGGATGAGGTGGCGGAAAAAATGACCCAAACCGCCGAAGGCATCAAGTCCGGGCAGGCAGTGCACGAACTTGCCGGTAAGCTCGGAGTCGAAATGCCAATTACCGCGGCCGTGGTCGCAGTGCTGGCCGGAAAATTGTCCGTTGACCAACTGGGGCCGCTACTGCTGGCCCGGGAACTGAAACCCGAAGGCGATAACTGA	MTTGQRRTGSAVSVAVLGAGSWGTTFAKILADAATASDVDRRIRIWGRRPEVVEQINSLHRNPQYLADVELPPSISASTDVAEVLSGADLVVLAVPAQSLRLQLREWKSLIAGDALVVSLMKGLELSTDARMSEVIREELDIPVERIAVVSGPNLAMEIAREEPTASVVACADSAAAGWLARSCTAPYFRPYTTSDVVGVEIGGIVKNVIALAVGICEGKQMGDNTKASVITRGLAETSRLALALGGEAQTMAGLAGLGDLVATCSSPLSRNHTAGRLLGQGLTLDEVAEKMTQTAEGIKSGQAVHELAGKLGVEMPITAAVVAVLAGKLSVDQLGPLLLARELKPEGDN	PGPT0024330_445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
D1-17_01573	1146	ddl	COG1181	D-alanine--D-alanine ligase	GTGTCGGAAGAAAACTTGACCGCAGCGGACAATGCCACTACGCGCAAGCCCCGTGTTGCGGTGCTTTTCGGCGGGCGTTCCAGCGAACACGCTGTCAGCTGCGTGACTGCAGCAGGCGTTCTGGGGGCAATTGACCGGACGAAATACGACGTCATTCCCATCGGTATCGCCAAGTCAGGACAGTGGGTCCTGGCCGGCGAGGACACCGCCCAGTGGTCGCTCTCGTCATCCTCGCTGCCCGAGGTGCTTGCGTCGGCCCAGACGGTCACGCTGACCGAGATCGGCGGCGAGCAGCAGCTTATCGTGGCCTCGCCCAATGAGGTGCCGCAGGAACTCGGCACGGTTGACGTGGTCTTTCCCCTGCTGCATGGGCCGTTCGGTGAGGACGGCACCATCCAGGGGCTCCTGGAGCTTTCGGACACCCGTTACGTCGGCGCCGGCGTGCTCGCCTCAGCCGTGGGCATGGATAAACACTTCATGAAGGTGGTCTTCGAGGCCGCCGGGCTGCGGGTGGGTCCCTACATCGCGGTGACTGACCGGCAGTGGCGCAATGACCCCGAATCCGTCCGCAAGCGCGTTGACCTCCTGGGCTTTCCCGTTTTCGTCAAGCCTGCACGTGCCGGCTCATCCATGGGCATTTCCAAAGTTGATTCCCTCGACGACCTTGACGCCGCCATTGAAGCAGCCCGCAAACACGACCCCAAGCTCGTGATCGAGGCCGGCATCGTGGGCCGCGAAATTGAGTGCGCTGTGCTTGAAGGCCGCGGTTCCGACGCCCCGCGGACCTCCCTCCCCGGCGAAATCACGGTTGCGGAGGGCGACCACCAGTTCTACGACTTCAACGCAAAGTACGTCGACGACGCTGCTGAGCTGAGCTGCCCCGCCGACATGCCCGAGGAAGCCATCGCGCGCGTCCGTGAACTCGCAGCGCTGGCATTCGACGCTGTGGGTGCCGAGGGCCTGAGCCGGGTCGACTTTTTCTACACTCCTGACGGCGCCGTCATCATCAACGAGATCAACACAATGCCCGGCTTCACCCCGAAGAGCATGTACCCGCAGATGTGGGCCGCGTCCGGCCTAAGCTATCCGGAGCTGATCGACGAACTGATCCAGCTGGCACTGTCCCGCAAGACCGGCCTCCGCTAA	MSEENLTAADNATTRKPRVAVLFGGRSSEHAVSCVTAAGVLGAIDRTKYDVIPIGIAKSGQWVLAGEDTAQWSLSSSSLPEVLASAQTVTLTEIGGEQQLIVASPNEVPQELGTVDVVFPLLHGPFGEDGTIQGLLELSDTRYVGAGVLASAVGMDKHFMKVVFEAAGLRVGPYIAVTDRQWRNDPESVRKRVDLLGFPVFVKPARAGSSMGISKVDSLDDLDAAIEAARKHDPKLVIEAGIVGREIECAVLEGRGSDAPRTSLPGEITVAEGDHQFYDFNAKYVDDAAELSCPADMPEEAIARVRELAALAFDAVGAEGLSRVDFFYTPDGAVIINEINTMPGFTPKSMYPQMWAASGLSYPELIDELIQLALSRKTGLR	PGPT0020050_435	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
D1-17_01574	552			hypothetical protein	ATGCTCTGCCGCTCCGCCGCCCCTGTAACAGCCGGAAACATCTCAGCATCAGGAAGTAGGTCGGCGGCCGGAACCAGGCGCCGGGTCGGGGCGGTGCTGGCCGTGACAGCCGCCGCGTTTGCGCTCGGCGGCTGCTCCCCCGCCGTCGATGTCGCCCCCGCGGCAGATGCGGCGAACCCGGACTGTGCGCCGATGATGGTGGCGCTCCCGGACGCCATCGGCGATGCCCGCCTACGCAAGACGAACAGCCAGGCAACGGCGGCGTGGGGAGATCCGTCCCGGGTAATCCTGCGCTGTGGTGTGAACGTGCCGGGGCCAACCACGGACCGCTGCGTCACCGTCAACGGCGTTGACTGGGTGATCAAGGAGGGGAACCCGGTCTGGACGCTGACGACGTACGGGCGGGAGCCGGCCACGGAGATCCTGATGGACCCGGAACAGATCAGCTCGGCCACCGTTCTGGCCGACCTCTCAGCAGCGGCCGCGAAGGTTCCGGCCAGCCGAAACTGCGTCGGCCAGGAGGAGCTTCAGGACCTGCCGGCCAGCAAATAG	MLCRSAAPVTAGNISASGSRSAAGTRRRVGAVLAVTAAAFALGGCSPAVDVAPAADAANPDCAPMMVALPDAIGDARLRKTNSQATAAWGDPSRVILRCGVNVPGPTTDRCVTVNGVDWVIKEGNPVWTLTTYGREPATEILMDPEQISSATVLADLSAAAAKVPASRNCVGQEELQDLPASK				NA	NA	NA	NA	NA
D1-17_01575	1026	thiL	COG0611	Thiamine-monophosphate kinase	GTGCATCCAACTCCCCTGACTGTCGCCGACCTTTCCGAAACCGATCTGCTCACGCGGATCTTCCCCCGGCTGGAGTTGGACGCTGCACACCACGCTGCCGTGCTCCTCGGGCCCGGTGATGACGCCGCCGTCGTCGCCGCGCCGGATGGCCGGACGGTCGTCAGCATCGACACCCAGGTCCAGGACCAGGACTTCCGCCTTCAGTGGCGCAATGGCTACCGGAGCTCCGGCTATGACGTGGGGTGGAAGGCCGCGGCGCAGAACCTCAGCGACATTAACGCCATGGGTGCAGTCGCCACCTCGCTGGTCGTCAGCCTGACAATGCCGTCCGCGACGCCCGTCGAGTGGGTCGAAGATCTCGCTGATGGACTTGCGGCCGCGATCGGGAAACTGGGTGCCGGATCATGTTCTGTGGCGGGCGGAGACCTCGGCCGGGGCGGCGAACTTTCCATCACGGCCGCAGTCCTCGGCACCCTGGCAGGGGGACAGCCCGTGCTCCGTTCCGGGGCGGCTGCCGGAGAGACGCTGGCGATTGCAGGCAACGCCGGATGCGCGGCAGCAGGATTGGCGCTGCTGGAATCGGAGCACCCCCTGGAGTCGCTCACACCCGAACTGCGGCTGCTGCTGGACCTTCAGTGCCGGCCGGAGCCGCCGCTGGAAGCCGGCCCCGCCGCCCGGCTGTCAGGAGCCACGGCCATGATGGACATTTCGGACGGCCTCGTCAGGGACGGCGCCAGGCTCGCCCGGGCCAGCAACGTGGTACTCGACCTGGATGTCCCCTCCCTCAGGCTCCTGGCAGCGCCGCTGCAGTCCGCCGGACTTCTGTTGAAAGCCGACCCCCTGGCCTGGGTACTGGGCGGCGGGGAGGACCACGGGCTCCTTGCCACATTCCCTGCGGGAGTCCAGCTGCCGCCGGGGTTCACTGGGATAGGCTCAGTACAGGCCCGCGGCACGACTGAAGCGGCGGGCGTAACCGTAGCGGGACGGCCCGCTGACTCCGTGGGATGGGATCACTTTGCAGACTAA	MHPTPLTVADLSETDLLTRIFPRLELDAAHHAAVLLGPGDDAAVVAAPDGRTVVSIDTQVQDQDFRLQWRNGYRSSGYDVGWKAAAQNLSDINAMGAVATSLVVSLTMPSATPVEWVEDLADGLAAAIGKLGAGSCSVAGGDLGRGGELSITAAVLGTLAGGQPVLRSGAAAGETLAIAGNAGCAAAGLALLESEHPLESLTPELRLLLDLQCRPEPPLEAGPAARLSGATAMMDISDGLVRDGARLARASNVVLDLDVPSLRLLAAPLQSAGLLLKADPLAWVLGGGEDHGLLATFPAGVQLPPGFTGIGSVQARGTTEAAGVTVAGRPADSVGWDHFAD	PGPT0009010_707	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009010-thiL-K00946	NA	NA
D1-17_01576	996			hypothetical protein	ATGAAGCGGTGGTTGGGCAAGGCCGAAACGGCGCTGGGCAACCACAGCGACCGCCTCAACGCGATCAACATCTTTCCCGTGGCCGACGGCGACACCGGCACCAATCTTTATCTCACGGTCCGCGCGGCAACGCGCTCCCTTCAGCAGCCTCTGCCGGATGCGGCTGGCCAGAACGACGTCGGTGCAGTCCTCGCCAGGGCCGGCCAGGCTGCAATGGAGCAGGCCAGAGGCAACTCCGGCACCCTGTTTGCGGTCTTCCTCTGCGCCGCCGCCGAGCCCCTGTCCGACCAGCCGAGGCTTACCGCCAGTCTGCTTGCCACCGCCCTTAACAGGGCCCAGATCAGGGCATGGTCCGCGCTGAGCAATCCTGTTCCCGGAACCATGCTGTCGGTTATGGAGGCGGCGGCGCGTGCCGCGGCCGCTGTTGATGTTGCCCAGCAGGGCAACGACAGCAACCACGCCCTGGGATTGGTGCTCGACGCCGCCGTCGCTGCAGCACTGGAGGCGGTGGTGCATACCGAAGAGCAGCTCGATGCCCTGCAGGCTGCGCACGTGGTGGATGCAGGCGGCGTGGGCATGCTGCTGATCCTCGACTGCCTGCGGTCCGCGGTGCTGGGCGAGGAGCTCCAGAGCGAGCTGCTGGACGGCCTGCACGGCTACGACGTGCAGGATCCCCATATCCATGCCGACCTTCCGGATGATGACGGTGTCGAGGTCATGTGCACCGTCAGCCTGTCGCCGCTCGATGCCGCCACCCTGAGGCAGCGCCTCGACGAACTCGGTGATTCTGTGATCATGAGCCAGGTGGAGCGTTCACCGGACCCGGAGGGCCGGTACCGCTGGCGGGTCCATGCCCATGTCCTTGACTCCGTCCCCGCACTGGAGCTGATCCGCTCCCTTGGTGAACCCACAGATGTGTCCTTCAGTGAGCTTGTGCGGCCGCGCGACCCCGCCCCGGTGCAGGCCGATGCCGGGAGCAGCCTTGAGGGACGGTGA	MKRWLGKAETALGNHSDRLNAINIFPVADGDTGTNLYLTVRAATRSLQQPLPDAAGQNDVGAVLARAGQAAMEQARGNSGTLFAVFLCAAAEPLSDQPRLTASLLATALNRAQIRAWSALSNPVPGTMLSVMEAAARAAAAVDVAQQGNDSNHALGLVLDAAVAAALEAVVHTEEQLDALQAAHVVDAGGVGMLLILDCLRSAVLGEELQSELLDGLHGYDVQDPHIHADLPDDDGVEVMCTVSLSPLDAATLRQRLDELGDSVIMSQVERSPDPEGRYRWRVHAHVLDSVPALELIRSLGEPTDVSFSELVRPRDPAPVQADAGSSLEGR				NA	NA	NA	NA	NA
D1-17_01577	2271	recG	COG1200	ATP-dependent DNA helicase RecG	ATGAACGCTGAGCTTGAACTGGGTTTGGAACGCCGGATCGGCAAGCGTTCTGCGGCCGTGGTTGAAAAGCACCTGGGCATCACCACGGTCGGCGGCCTGCTCAATTATTTCCCCCGGCGCTACCTCAGCAGGGGCGAGCTCACCCCGATCAGTGGGCTGCCCCTGGATGAAGAAGTAACGATCATCGCCCGGGTCATTTCGAACAGCACCCGGCAGATGCGTGCGCGCCGCGGTTCCCTGACCGACGTCGTGATTTCCGATGGCGCCGCCGGCCGCCAAGGCGCAGGGCTGCCGGGCACGGGCTCCGCGGTACCGGGGCACACCGGGACTCTGAAGATCAGTTTTTTCAATGGCTACCGCGCCAAGGCCGAGCTCCAGCCCGGCCGCCGCGCCTTGTTCTCCGGCAAGGTCACCCGCTACGGCGGGTCCCTGGGACTGACCAACCCGGACTTCCTGCTGCTTGACGAAGACCCGGACAGCCCTGGCATGGACCCGGAAAAGCTCGCGGCGATGCCCATCCCGGTCTATCCGGCCACGGCGAAACTGACCAGTTGGTCCATCCAGAAAGTCATCTCCACGTTGCTGGACACCGTGGACCTCGCCGCGCTGGCGGACCCGCTGCCTGCCGGCATTTCCGCCCGCGGAAAGTTCCTGCCGCTGCCCGAGGCCTACCGGCTGATCCACGCACCGCAGACACCTCAGGACTGGCGCCGGGCACAGGACAGGTTCAGGTACCAGGAGGCTCTGGTCCTGCAGTCCGCCCTGGCGCGCCGCCGTGCCCAGCTGGCAGCGGAGGAGGCGACGGCCCGCCGGCCGGTCGGCGACGGGCTGCTGGCAGCCTTTGACCGGCAGCTTCCCTTCACCCTGACCTCCGGCCAGGCAGCAGTGGGCAAGACGCTTTCGGGAGAACTGGCCCAGGATGTCCCCATGAATAGGCTGCTGCAGGGTGAAGTCGGTTCGGGCAAGACCATTGTGGCGCTCCGTGCCATGCTCCAGGTGGTGGATGCCGGGGGACAGGCTGCCCTGCTGGCACCCACCGAAGTCCTGGCGGCGCAGCACTTCGACTCGATCAGGCGGACGCTGGGGCCACTGGCAAGCGACGGCCTGCTCGGCGGTATGGGCGACCACACCGTCCAGGTCAGCCTGCTCAGCGGATCCATGCCCACAGCCGCCCGGAAGCAGTCGCTGCTTGACGCCGCTTCAGGCACAGCAGGCATCATCATCGGCACCCACGCCCTGCTCAGCGACAACGTCTCCTTCTACGACCTCGGACTCATAGTGGTGGACGAGCAGCACCGCTTCGGCGTGGAACAGCGCGACGCCCTGCGCGCCAAGGCCAGCAGGCCGCCGCACCTGCTGGTCATGACCGCCACCCCCATTCCCCGTACAGTCGCGATGACGGTGTTCGGGGACCTCGAAACATCCGTTCTCGATGAGCTGCCGTCCGGCCGGGCGCCGATCACCACCCATGTGGTGGGCCTGGCGGAGAACCCCGCCTGGGCGTCCCGCATCTGGTCCCGGTCCCGCGAAGAAATCGAAGCCGGCCATCAGGTCTACGTCGTATGCCCGAAGATCGGAACGGACGACGACGGCGATTTCAGTCCGGGGGAGGCGGAACCAGGCCCCGGGGAACCGGAGGGCGACGGCCCCGCCCGCGAACTCGCTTCGGTGACTGCCGTCGTCGAGCACCTCCGTGAGGAGCCGTCCCTGGCGGGGGTGCCCCTGGCACCACTGCACGGGCGCCAGGATCCCCTCGTGAAATCAGAGACTATGGCCTCGTTCACGGCCAATAAGACAAAACTCCTGGTATCCACCACGGTCATCGAGGTGGGCGTGGACGTGCACAACGCCACGCTCATGGTCATCCTGGATGCGGACCGGTTCGGCATCTCGCAGCTTCACCAGCTGCGCGGCCGCGTGGGCCGCGGCGGGCTCCCGGGAACCTGCCTGCTGGTGACCACGCTGGAGCCGGGGCATCCGAGCCGCCGCCGCCTCGACGCCGTCGCGGCCACGACTGACGGATTTGAGCTGTCCCAGGAGGACCTGAAGCTGAGGCGTGAAGGCGACATCCTCGGTGCCTCCCAGTCCGGCGGCAGGTCCACGCTGAAGCTCCTGCGGGTGCTCGAGCATGAGGAGATTATTGCCCGTGCCCGCCAGGATGCCCAGGACATCGTGGGGTGCGACCCCTCGCTGACCGCCCATCCTGCGCTGGCGGAAGCCATCGACCACTACCTGAACCCCGAAAAGGAGGCGTTCCTTGAACGCGGTTAG	MNAELELGLERRIGKRSAAVVEKHLGITTVGGLLNYFPRRYLSRGELTPISGLPLDEEVTIIARVISNSTRQMRARRGSLTDVVISDGAAGRQGAGLPGTGSAVPGHTGTLKISFFNGYRAKAELQPGRRALFSGKVTRYGGSLGLTNPDFLLLDEDPDSPGMDPEKLAAMPIPVYPATAKLTSWSIQKVISTLLDTVDLAALADPLPAGISARGKFLPLPEAYRLIHAPQTPQDWRRAQDRFRYQEALVLQSALARRRAQLAAEEATARRPVGDGLLAAFDRQLPFTLTSGQAAVGKTLSGELAQDVPMNRLLQGEVGSGKTIVALRAMLQVVDAGGQAALLAPTEVLAAQHFDSIRRTLGPLASDGLLGGMGDHTVQVSLLSGSMPTAARKQSLLDAASGTAGIIIGTHALLSDNVSFYDLGLIVVDEQHRFGVEQRDALRAKASRPPHLLVMTATPIPRTVAMTVFGDLETSVLDELPSGRAPITTHVVGLAENPAWASRIWSRSREEIEAGHQVYVVCPKIGTDDDGDFSPGEAEPGPGEPEGDGPARELASVTAVVEHLREEPSLAGVPLAPLHGRQDPLVKSETMASFTANKTKLLVSTTVIEVGVDVHNATLMVILDADRFGISQLHQLRGRVGRGGLPGTCLLVTTLEPGHPSRRRLDAVAATTDGFELSQEDLKLRREGDILGASQSGGRSTLKLLRVLEHEEIIARARQDAQDIVGCDPSLTAHPALAEAIDHYLNPEKEAFLERG				NA	NA	NA	NA	NA
D1-17_01578	606			hypothetical protein	ATGAGCCGGATTGTGGCGGGGGCCGCCGGAGGAACCCCCCTGGTTAGCGTTCCAGGCTCACTTACCCGCCCCACCACGGACCGGGTCAAGGAAGCTCTGTTCTCCCGGCTCGATGCCTTCGACGTCCTGGCAGGCTCACGTGTGCTTGATCTTTACGCCGGCTCCGGTTCGCTGGGCGTCGAGAGCGCCAGCAGGGGAGCCGGCACGGTTGACCTCGTTGAATTCGCCGAGAAAGCCAGTGCGGTGTGCCAGCGGAATGCGGACCTCATCAACACCGTGCTGGGCCGCAAGGCACTGACGGTGCACCGATCCCGGGTGGAGTCATTCCTGGAGCGCACTGAGGAGGACACGCAGTGGGACGTCGCCTTTCTCGACCCGCCGTACACGCTGGACGAACAGGCGCTGGGAGCTGTCCTTGAGAAGCTCGGCCGGCACCTGGCCGTGGGCGCGGTTGTCGTCGTCGAGAGGTCGTCGAGGTCTCCGGAGCCGTCCTGGCCCCCGACCATGGAGCGGTTTACGGAGAAGAAATACGGTGAGACCCGGCTGTGGTTCGCCGAGCCGCCCAGCGAAACGGACGCAGACGTCGATCTTGAGGCGGAGGACTGA	MSRIVAGAAGGTPLVSVPGSLTRPTTDRVKEALFSRLDAFDVLAGSRVLDLYAGSGSLGVESASRGAGTVDLVEFAEKASAVCQRNADLINTVLGRKALTVHRSRVESFLERTEEDTQWDVAFLDPPYTLDEQALGAVLEKLGRHLAVGAVVVVERSSRSPEPSWPPTMERFTEKKYGETRLWFAEPPSETDADVDLEAED				NA	NA	NA	NA	NA
D1-17_01579	789			hypothetical protein	ATGGTGGAGGAAGCTCGGAAGCGGGCGTCGCGGTACCTGCGCACCACCGGCCAGCATGCGGTAATCGAACCCGACACGTACACTGACGGCGGCTTCGTCCTCAGCATCGGCGGGGCCGAACAGTCGCACGTCGATCTGGCCGAGCCCGAAGAGATCTTCTATGAGTACCTGCGCAGGATCGGACACGTGGTGGATCTCGCCGCCCCGTACGGGGAACCCATCGCTGCGCTGCATCTCGGAGCCGGAGCGCTGACGCTGGCACGGTACATCCAGGCGACCCGGCCGGGCTCGGTGCAGTTCGCCGTGGAGCTGGAACGGGAGCTGCTGGACTTTGTGCTCGAACACCTCCCGCTGCCGGAAGGAATCGAGCTGCACACGGTCATCGGTGACGCCCGGGAGTCGCTCGCCCAACTGCCGGCCGAACTGCGCTTCGACGTCGTGATCCTGGACATTTTCTCCGGTCCTGACGCGCCGGCCCACATTGCCTGTGCGGAGTTCTACCGGGAAGCAGCGGCGCGCCTGTCCGGGCGGGGCGTGCTGATTGTCAATGTCGGTGACGAACCGGGCCTGACTTTGGTCCGCAGCCAGGCCGCGGCGCTGCGGCAGGTCATGGCCGATGTGGCCGCCTTCGCCGAGGCCGGGATGTTCTCAGGCCGGTACCCCGGAAACATCATCCTGGCGGGCACGCAAAAACCCTGGCCTGCGCCCTGGACAGCCGCCCTGGCTGCCCGCGGACCGCATCCTGCCAAGGTGCTCACCGGTGTTGAGCTGGACCATCTCTCCGGCTGA	MVEEARKRASRYLRTTGQHAVIEPDTYTDGGFVLSIGGAEQSHVDLAEPEEIFYEYLRRIGHVVDLAAPYGEPIAALHLGAGALTLARYIQATRPGSVQFAVELERELLDFVLEHLPLPEGIELHTVIGDARESLAQLPAELRFDVVILDIFSGPDAPAHIACAEFYREAAARLSGRGVLIVNVGDEPGLTLVRSQAAALRQVMADVAAFAEAGMFSGRYPGNIILAGTQKPWPAPWTAALAARGPHPAKVLTGVELDHLSG				NA	NA	NA	NA	NA
D1-17_01580	1209	dapC	COG0436	putative N-succinyldiaminopimelate aminotransferase DapC	ATGACAGAGACACTACCGGCGCCCTGGCAGCGCGCGGCGACGGGCGCCAATCTCCTGGGTTCCGACGGCACCCTGGGTGTGACGATCTTTGAGGAGATGACCACACTGGCCGTCCGCACCGGCGCCATCAACCTCGGGCAGGGCTTCCCCGACGAGGACGGTCCGGCGGAGATCAAGGCAGCCGCCCAGGAAGCCATCGCGCGGGGCTCAAACCAGTACGCGCCGGGCAAGGGCATCCCCGAGCTGCGTCACGCCATCTCCGCACACCAGCAGCGTTTCTACGGCCTGGCGCCGGACCCTGACACCGAGGTCATTGTGACGACGGGCGCCACCGAGGCGATCGCGGCGTCCGTTATGGCATTCGTGGGTCCAGGCGACGAAGTCCTGACCTTCGAGCCGTTCTATGACTCCTACGGCGCAATCATCGGCCTGTCCGGTGCCACGCATGTGACGGCTCCCCTCCTCGCACCCGATTTCATGCCGGACATGGCGGCGCTGGAACAAGCCTTCAGCCCGCGTACGAGGGTGGTGCTCGTCAACAACCCGCACAACCCCACAGGCGCCGTCTTTCCGGCCGAGGTCCTCCAGCGAGTGGTTGATCTTGCCCGGCGTCACGATGCCCTCATCATCACTGACGAGGTCTACGAACACCTCACCTTCGGTGTGCGCCACATCCCGGTGGCCTCCCTTCCCGGCGCCGCCGAGCGTACCGTCACCATCTCGTCGGCGGGGAAGACCTTTTCCTTTACGGGATGGAAGGTGGGCTGGCTCAGCGGACCGGAGGACCTGGTCTCCGCAGTCCGCACCGTCAAGCAGTTCCTCACGTACAGCTCCGGCACGCCCTTCCAGAGCGCGATCGCAACCGGGCTGGGGTTGCCGGACTCGTTCTATGAGGACATCGCGCTCACCCTGGGAAAGAAGCGTGACATCCTGAGCGACGGACTCCGGGCCGCAGGACTGGACGTGTTCACACCTCAGGGCACGTATTTCGTCAACGTGGACACCTCGCCCCTGGGCATCAGTGACTCCGTGGAGCTCGCCCGCCGCCTGCCCTCGCTCGTCGGGGTGGCCGCCATTCCCGTTCCGGTGTTCTGCCATGCCGAGGGAGCGGAACGGACCAAGAGCCTGCTGCGGTTTGCCTTCTGCAAGCAAACCGCAGTCCTGGAAGAAGCAGCCGCCAGACTGGCAACCCTCAGCGACAGGCTCTGA	MTETLPAPWQRAATGANLLGSDGTLGVTIFEEMTTLAVRTGAINLGQGFPDEDGPAEIKAAAQEAIARGSNQYAPGKGIPELRHAISAHQQRFYGLAPDPDTEVIVTTGATEAIAASVMAFVGPGDEVLTFEPFYDSYGAIIGLSGATHVTAPLLAPDFMPDMAALEQAFSPRTRVVLVNNPHNPTGAVFPAEVLQRVVDLARRHDALIITDEVYEHLTFGVRHIPVASLPGAAERTVTISSAGKTFSFTGWKVGWLSGPEDLVSAVRTVKQFLTYSSGTPFQSAIATGLGLPDSFYEDIALTLGKKRDILSDGLRAAGLDVFTPQGTYFVNVDTSPLGISDSVELARRLPSLVGVAAIPVPVFCHAEGAERTKSLLRFAFCKQTAVLEEAAARLATLSDRL	PGPT0007145_108	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007145-yugH-K10907	NA	NA
D1-17_01581	501	coaD	COG0669	Phosphopantetheine adenylyltransferase	ATGAGACGTGCCGTATGCCCAGGGTCCTTCGACCCCATCCACAACGGACACCTTGAGGTGATCGCCCGCGCTGCGAGCCTCTTTGACGAAGTGATCGTGGCGGTGTCCACCAACTACGCCAAGAAATACCGTTTCCCTCTGGAGGAGCGGATCGAGATGGCCAAGGAAACTCTCGCATCGCTGCGCGGCATCGTCGTTGAGCCGGTGGGCGAGGGCCTCCTCGCTGAGTACTGCCGGCAAAGGGGTGTCTCTGCCATCGTCAAAGGACTGCGCTCGTCGTCTGATTTTGACTATGAACTGCCCATGGCCACCATGAACCGCCAACTCAGCGGCGTTGAGACCGTGTTCCTGCCGGCGGAGGCCCACTATGTGCACCTGTCCTCGACGCTGATCAAGGAAGTGTTCACACTGGGCGGCAATGTGTCAGACTTTGTTCCGCGGTCAGTCCTGAAGCGGCTGCTTGCGGGCGCGCCTGCCACGGGCCAGCCCCCAAGAGGGTAG	MRRAVCPGSFDPIHNGHLEVIARAASLFDEVIVAVSTNYAKKYRFPLEERIEMAKETLASLRGIVVEPVGEGLLAEYCRQRGVSAIVKGLRSSSDFDYELPMATMNRQLSGVETVFLPAEAHYVHLSSTLIKEVFTLGGNVSDFVPRSVLKRLLAGAPATGQPPRG	PGPT0008825_1176	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008825-coaD|kdtB-K00954	NA	NA
D1-17_01582	522		COG1399	putative protein	ATGCTTGATGTCAAGGACCTCGGACGCAGTCCGGGGAGCATGCGTACACTGACGGAACATGTACCCGCGCCAAGTGACCTTGGCGTGGCGCTCATTGGCGTTCAGGAAGGCTCGGATATCGAGCTCGACCTGAGGCTTGAGGCCGTACACGAAGGAATTCTGGTATCAGGAACCGCAATCGCCGAAGTAACCGGTGAATGCGGCCGATGCCTGGATCCCCTTGCGTATGACCTCGAAGTCAATGTGCAAGAACTTTTCTTCTACGAAGGCGCCTTGCCTTCCGACGAGGAAGACGACGAAGAGCAACGTCGAGTCGAGCACGATCTGATCGATCTTGAGCCGGTGTTGCGGGACGCGGTTGTAACCATGCTGCCGTTCCAGCCGGTGTGCCGGGAAGACTGCCAGGGTCTGTGCTCCGAATGCGGGGTGCGCCTGGACGACGAGCCGGGGCACCACCACGAGGTCGTAGATCCTCGCTGGGCTGCCCTGGCTGATCTGGCCAAGCCTGACCGGCAAAATTGA	MLDVKDLGRSPGSMRTLTEHVPAPSDLGVALIGVQEGSDIELDLRLEAVHEGILVSGTAIAEVTGECGRCLDPLAYDLEVNVQELFFYEGALPSDEEDDEEQRRVEHDLIDLEPVLRDAVVTMLPFQPVCREDCQGLCSECGVRLDDEPGHHHEVVDPRWAALADLAKPDRQN				NA	NA	NA	NA	NA
D1-17_01583	204			hypothetical protein	GTGGCTGTTCCCAAGCGGAAAATGTCTCGCTCGAATACCCGCGCCCGCCGCTCCCAGTGGAAGGCGACTGCCCCCCACCTGGTGAAGACTGTTGAGAACGGCCAGGTTACTTACAGCCTGCCGCACCAGGCAAAGGTCGTTACCGACTCGGCTGGCACTGCGCTGTTCCTTGAGTACAAGGGCCGCAAGGTCGCGGACGTCTAA	MAVPKRKMSRSNTRARRSQWKATAPHLVKTVENGQVTYSLPHQAKVVTDSAGTALFLEYKGRKVADV				NA	NA	NA	NA	NA
D1-17_01584	726	rnc	COG0571	Ribonuclease 3	ATGTCTTCAACTGAAGAGCTTCTGAAGCGTCTCGGTGTCTATATTGACGCCGAGACGCTTCGTCTTGCTCTCACACACCGTTCCTACGCCTACGAAAACGGCGGGATTCCCACCAACGAGCGACTTGAGTTCCTGGGCGATTCCATCCTGGGGTTCTCCGTGACGGACGCCCTCTACCGCGACAACCCGACGCTTCCCGAAGGCGACCTTGCCAAGCGGCGGTCGGCAGTGGTTAGCACACGGGCCCTGGCGGGCATCGGTCGCAGCCTCGGCATTGGTGAGTTCATCTACCTCGGGCAGGGCGAGAAGCTCACCGAAGGAAAGAACAAGGCCTCCATCCTGGCTGACACGATGGAAGCGCTCATCGGAGCAACCTACGTCTCGAATGACATCGAGACTGCCCGGCAGCTGGTCATGCGCCTGATTGGTCCGCTCCTGAAGGACGCCGCCGCCCTCGGCGCCGGCACCGACTGGAAAACAAGCATCCAGGAATTGGCAGCCAGCCGTCAGCTCGGCAGCATCTACTATGCCGTGGAAGGCTCCGGACCCGATCACGCGCGGACGTTCATCGCGGAGCTGCAGATCGGCGGCAGGGCCTACGGCAAGGGCACCGGACACTCGAAGAAGGAAGCGGAGCAGGAAGCTGCAGCCGACGCCTGGCGTTCCCTCTCCGGCGGCGGCGCGGCAACGTCGGACACGTCCACGGAATCCGCTGCCAGCACCTAA	MSSTEELLKRLGVYIDAETLRLALTHRSYAYENGGIPTNERLEFLGDSILGFSVTDALYRDNPTLPEGDLAKRRSAVVSTRALAGIGRSLGIGEFIYLGQGEKLTEGKNKASILADTMEALIGATYVSNDIETARQLVMRLIGPLLKDAAALGAGTDWKTSIQELAASRQLGSIYYAVEGSGPDHARTFIAELQIGGRAYGKGTGHSKKEAEQEAAADAWRSLSGGGAATSDTSTESAAST				NA	NA	NA	NA	NA
D1-17_01585	957	fpg1	COG0266	Formamidopyrimidine-DNA glycosylase 1	GTGCCTGAACTTCCTGAAGTGGAGGTGGTCCGCCGGGGCCTGGTCAGCTGGGTCCTCGGCAGGACCATCACCGGCGTCGACGTCATCGACCCCAGATCCCTGCGGCGTCATGCCCTGGGGCCCGAGGATTTCGCAGGAAACCTCCAGGGCGCCACAGTCCTGGACGTGGTCCGCCGCGGCAAGTTCCTGTGGATGCCCCTGCACGGTGAGGGCACCGCTCCTCCCTCTGCAGAGCCTCCCAAAGTGGCGCTGATGGCGCACCTCGGGATGAGCGGGCAGCTTCTGATGCAGGACGCCTCCGTCCCCGATGAGAAACATCTTAAGGTCCGTATCCGGCTAAGTCACTGCAGCGGGATGCCCGGTGAGCTGCGGTTCGTCGACCAAAGGATTTTCGGCGGCCTCTTCGTGACGTCGCTCGTACCCACGAGCGACGCCGGACCCGGCGGGCTGGCTGAAAATCCGATGCCGCTGATTGCAGAGGAGGCCTCGCACATTGCCCGCGACCCCCTGGACCCCCACTTTTCTTTCGCGGACTTCTACCGCAGACTGCGGAACCGCAAGACCGGACTTAAGCGCGCGCTGCTGGACCAAGGCCTGGTTTCCGGCATCGGCAACATCTATGCGGACGAAGCCCTATGGCGGGCCAGGCTCCATTACGCCCGTGCCACGGACACCCTGCGGCGGGCGGAAGCTGAACGGGTGCTTACTGCAGCCAGGGAAGTCATGAGTGACGCCCTCGACGCCGGCGGGACCAGCTTCGACTCGCTGTACGTGAACGTCAATGGTGCCTCGGGGTACTTCGAACGCTCCCTGAACGCCTACGGACGCGCGGGGGAGCAATGCCGCCGCTGCGCCGAGTCCGGCCGCCACTCCATCATGAAGCGCGAGATCTTCATGAACCGTTCTTCCTACACATGCCCTGTGTGCCAGCCGCGGCCCCGCAACGGCCGGTGGTGA	MPELPEVEVVRRGLVSWVLGRTITGVDVIDPRSLRRHALGPEDFAGNLQGATVLDVVRRGKFLWMPLHGEGTAPPSAEPPKVALMAHLGMSGQLLMQDASVPDEKHLKVRIRLSHCSGMPGELRFVDQRIFGGLFVTSLVPTSDAGPGGLAENPMPLIAEEASHIARDPLDPHFSFADFYRRLRNRKTGLKRALLDQGLVSGIGNIYADEALWRARLHYARATDTLRRAEAERVLTAAREVMSDALDAGGTSFDSLYVNVNGASGYFERSLNAYGRAGEQCRRCAESGRHSIMKREIFMNRSSYTCPVCQPRPRNGRW				NA	NA	NA	NA	NA
D1-17_01586	3711	smc_1	COG1196	Chromosome partition protein Smc	TTGCACCTCAAAAGTCTGACCGTCCGGGGCTTCAAGTCCTTTGCCTCGGCGACGACTTTCGACTTTGAGCCCGGCGTCACCGCCGTCGTGGGACCCAACGGTTCCGGAAAGTCCAATGTAGTCGATGCACTGTCCTGGGTCATGGGTGAGCAGGGCGCCAAGACCCTGCGCGGCGGGAAAATGGAGGACGTCATTTTCGCCGGCACCTCCGGCCGGCCGCCGCTCGGACGCGCCCACGTTTCGCTGACCATCGACAACACCGACGGCGCCCTCCCGATCGAGTACAGCGAGGTGACCATCTCCCGGACCCTGTTCCGCACCGGCGGCTCCGAGTATGCAATCAACGGTGCTGCCTGCCGCCTGCTGGACATCCAGGAGCTTCTCTCCGATTCGGGCCTGGGGCGGGAGATGCACGTCATCGTGGGCCAGGGGCAGCTGGACAAGGTCCTGCATGCCACCCCCGAAGACCGGCGCGGCTTCATCGAGGAAGCTGCCGGAATCCTCAAACACCGCCGCCGCAAGGAAAAGACCGTCCGCAAACTTGAGGCAATGCAGGCGAACCTGCAACGGCTGAGCGACCTCACAGCAGAAATCCGCCGGCAGCTGACGCCGCTGGGTAAGCAGGCGGAAGTGGCGCGCCGGGCACAGACGGTTCAGTTCGAGGTGCGGGATGCCCGGGCGCGGCTGCTCGCCGACGACCTCGTCCGGCTCCGGACAGACCTGGCCCGGGACATCGCGGACGAAACGGCCGTGAAAGCCCGGCGCGCCGCCGTCGAACGCGAGCTTGAGGCGGGTCGGCAGCGCCAGGCCGAACTGGAACAGCTGGCCGCGGAGGCCACCCCGAAGCTCAATTCTGCCCGGGACACGTGGTACCAGCTGACCGCCGGCCGCGAGCGGCTCCGCTCCCTCAGCTCGCTGGCCCGCGACCGTTGCCGGCTGCTCGGCTCGGCAGATGCCGCGCCAGAGCCGGGCCGCGACCCCGACCAGCTTGAGAAGCAGGCAGTCCGCGTCCGCACCGAACAGGCAGACCTCGAGCAGCAGATCGCGGCCCGGCGCGGCGCCCTGGAAGCTGCCACCGCAGCCAAAAGCGAAGCGGAATACGCTGCGGCCGCAGAGGAGAAGCGGCTCACTGCCGCTCTGCGCGCTGCTGCCGACCGGCGGGAAGGCCTTGCCAGGCTGGCCGGCCAGGTCGCGGCGGCGAGGTCGAGGGTTGAAGCAGCGCAGGCAGAGATCGGCAGGCTGCGCGAATCCCAGGTTGCCGGCGAAGAGCGGCGGAAGCAGGCCCAGTCAGAGTTCACGGCGTTGGAATCTCAGGTTGCCGGTGTCGAAGAGGGCGAAGAGTCCCTCGACGCAGAGTACGAGGAAGCCAGCGCGGAGCTGGATGACGTTACTGCCGAAATCGAAACCCTCCGCGTGGCCCAGCGGGAAGCCCTGCGGGAACGCGATACGCTCAAGGCCCGCCACGATGCGCTCCTCCTGGGCCTGCAGCTGAAGGACGGGTCCGGGCACGCACTCGGCGCCGGACTGCCGGGAATAGCAGGCACCCTGGCATCGGCGCTGACGGTTGAACCCGGCTGCGAAACCGCCATCGCCGCTGCCCTCGGCACTGCCTCGGACGCGGTGGTGGTCCGGGACAGCGGCACAGCCGCCGCCGTCGTACAGCTCCTCAAGGACGACGACGCCGGCCGCGCCACGCTGCTGCTGGAAACCCCGCCCGAAGCTGAGGGCTCCGACGGACACCCGGCGGAGCCTCTGCCCGAAGGTGCCCGCTGGGCTCTGCCCGAAGGTGCCCGCTGGGCTCTGCCCGAAGGTGCCCGCTGGGCTCTGCCCGAAGGTGCCCGCTGGGCTCTGCCCGAAGGTGCCCGCTGGGCTCTGCCCGAAGGTGCCCGCTGGGCAACCCGCCTCGTCTCCGCGAAGGGGGCCGCAGGGCAGGCTGTACAACGCCTGGTGGCGGGGATCGCCGTCGTCGACGATCTGGACGCCGCGGCCGCCCTCATCAGCGAGCAGCCGGCGCTGACCGCCGTCACACTGGCGGGCGATGTCTTTACGTCCGTGACCGTCAGCGGGGGCTCGGCCAAGGCGCCGTCGTTGCTCGAGGTGCAGGCCGCCGTCGACGATGCCGCCGCCCGGCTGGCATCGGTGACGGCCGACCTGGAGAAGGGCCGTTTCGCGATGGCGGGTGCAGAGTCGCGGCGGGCAGAGGCGCAGGACCGGACGGACGCTGCCCTCGAAGGGCTCCATGACTCCGACGCGCGGATGGCCGCGGTCGCTGAACGGCTGGGCCATCTCAATTCCGTACTCCGCAGCGCAGTAGGGGAGAGCGAGCGGCTCGCCGCTTCGCTGGCGCGGGCGGAAGCCAACATGGCCAGCGAACAGGAAGCGCTGACCGCGGTCGCGGCGCGGCTCGCCGCTGCCCAGGAAGCCCCGGCGGAGGAGGAACCGTCCACCGCGGAAAGGGACGCCCTTACGGCCGCGGCGGCACAGGCCCGCTCGGCCGAAATGGAGGCCCGGCTTGCGCTGCGCAGCGCCGAGGAGCAGCTCTCGGCTACGTCCAACAGGGCAGCGTCGTTGGAACGGGCAGCAGCCTCGGAACGCCGGGCGAGGGAGGCTGCTGCCGAACGTGCCCGGCGCCGCAGGATCCAGGCCCGCAGGGCCGCGGCAGTCGCGGAAGCCGCGGACCATATCATCAGGTTCAGCGATGCCTCCGTCGAACTGGCTGGCCGTGAGCGCGACGTTGCCGAACAGAACCGCGAACAGCGGGAGCGTGAACTGGTGGACATCCGCACCGTCAACGACGCCCTGGCCCGGGAGCTCGCGGAGCTGACAGACTCGGTGCACCGCGACGAACTGGCACGCACCCAGCAGAAGCTTCGAATCGAAGCGCTGGAAGTCAGATCCGTGGAGGAACTCGGCCTGACCGCCGACCAGCTGGTGGCGGACTACGGACCGGACCAGCCGGTTCCGCAGCCCGCCACGGCATCCGCCGACAAATGGGCTGAGCTCCGGGCACCCGTTGACGAGGACGGCAGCCCGATTCTGGAGGGGAAGCCCTTTGTCCGCGAAGAGCAGGAAAAGCGGCTCCGTAAAGCCGAGCGTGACCTCTCCTCGCTGGGCAAGGTCAATCCGCTGGCGCTCGAGGAGTTTGCCGCGCTGGAGGAGAGGCACCAGTTCCTGAGCACGCAGCTCGAAGACCTCAGGTCCAGCCGCAGGGACCTGCTGGACATCATCCAGGAAGTTGATGACCGGGTTCAGCGGGTCTTCGCGGAGGCCTTCGCGGACACCGCAGCGCAGTTCGTCCACGTCTTTTCACGGCTGTTTCCAGGCGGTGAGGGCCGGCTCGTCCTCACCGACCCCGACGACATGCTGACCACCGGCATCGAGGTCGAGGCACGGCCCGCGGGAAAGAAGATCAAGCGCCTGTCGCTGCTGTCCGGCGGCGAGCGGTCCCTGACGGCGGTAGCGCTGCTCGTGGCGATCTTCAAGGCCAGGCCTTCGCCGTTTTACGTCATGGACGAAGTTGAGGCCGCGCTTGACGACACCAACCTGGGGCGGCTCATCACGATCTTCGAAGAGCTGCGCGAATCCAGCCAGCTCATCGTCATCACGCACCAGAAGCGGACCATGGAGGTCGCAGACGCCCTCTACGGGGTGACGATGCGCGGTGACGGCGTATCCACCGTGATCAGCCAGCGCCTGCGCGCCGAGGTGTAG	MHLKSLTVRGFKSFASATTFDFEPGVTAVVGPNGSGKSNVVDALSWVMGEQGAKTLRGGKMEDVIFAGTSGRPPLGRAHVSLTIDNTDGALPIEYSEVTISRTLFRTGGSEYAINGAACRLLDIQELLSDSGLGREMHVIVGQGQLDKVLHATPEDRRGFIEEAAGILKHRRRKEKTVRKLEAMQANLQRLSDLTAEIRRQLTPLGKQAEVARRAQTVQFEVRDARARLLADDLVRLRTDLARDIADETAVKARRAAVERELEAGRQRQAELEQLAAEATPKLNSARDTWYQLTAGRERLRSLSSLARDRCRLLGSADAAPEPGRDPDQLEKQAVRVRTEQADLEQQIAARRGALEAATAAKSEAEYAAAAEEKRLTAALRAAADRREGLARLAGQVAAARSRVEAAQAEIGRLRESQVAGEERRKQAQSEFTALESQVAGVEEGEESLDAEYEEASAELDDVTAEIETLRVAQREALRERDTLKARHDALLLGLQLKDGSGHALGAGLPGIAGTLASALTVEPGCETAIAAALGTASDAVVVRDSGTAAAVVQLLKDDDAGRATLLLETPPEAEGSDGHPAEPLPEGARWALPEGARWALPEGARWALPEGARWALPEGARWALPEGARWATRLVSAKGAAGQAVQRLVAGIAVVDDLDAAAALISEQPALTAVTLAGDVFTSVTVSGGSAKAPSLLEVQAAVDDAAARLASVTADLEKGRFAMAGAESRRAEAQDRTDAALEGLHDSDARMAAVAERLGHLNSVLRSAVGESERLAASLARAEANMASEQEALTAVAARLAAAQEAPAEEEPSTAERDALTAAAAQARSAEMEARLALRSAEEQLSATSNRAASLERAAASERRAREAAAERARRRRIQARRAAAVAEAADHIIRFSDASVELAGRERDVAEQNREQRERELVDIRTVNDALARELAELTDSVHRDELARTQQKLRIEALEVRSVEELGLTADQLVADYGPDQPVPQPATASADKWAELRAPVDEDGSPILEGKPFVREEQEKRLRKAERDLSSLGKVNPLALEEFAALEERHQFLSTQLEDLRSSRRDLLDIIQEVDDRVQRVFAEAFADTAAQFVHVFSRLFPGGEGRLVLTDPDDMLTTGIEVEARPAGKKIKRLSLLSGGERSLTAVALLVAIFKARPSPFYVMDEVEAALDDTNLGRLITIFEELRESSQLIVITHQKRTMEVADALYGVTMRGDGVSTVISQRLRAEV				NA	NA	NA	NA	NA
D1-17_01587	1209	ftsY	COG0552	Signal recognition particle receptor FtsY	GTGAACGACATCCTTCCAATTCTTCTGCCCATTCTCGCTGTCCTGGCGGTCATCGGCGGGCTGATTCCGGTGCTGCTCAAGTCACGGAAGTCCGGAAAGCAGTACTCGGGAACCCGTGACGCCAACGATCCCGTGCAGCCGCAGGCCGGCGGTGCCACGCTCCTCGAGGACCGCCCAGGGGCGGCTCCCGGGCGGACGGCCCCTGACCTGGCCGACGTCGAAGGCCTGGAAACAGAAGTTCCCGACGACGTAGCCGGCCTGGAAACAATTCCCGTCGAGACTCCGCTGCCGGCCGCCGGTCGGCTCACCCGCCTCCGTGAGCGGCTCGTCAGGTCGAACAACGTCCTGGGCAAGGGACTCCTTGCGCTGCTGGCCAGCGACAGGATCGACGAGGACGTGTGGGACGAAGTCGAAGAGACCCTGCTCCTGGCCGATCTCGGTACGGAACCCACCATGCAGCTCGTGGACGCCCTCCGCGAACGCGTGAAGGTCCTCGGCACGCGGTCGCCGGAGCACGTTAAAGCCCTCCTCCGCGAGGAACTCATCAAGCTGGTAGACCCTACGATGGACCGGAGCCTCCGCGTCGAACGGCACGCGGACAAGCCGGCCGTGATGATGGTGGTGGGGGTCAACGGCGTCGGCAAGACCACCACCGTGGGCAAGCTGGCCCGCGTCCTCGTCGCCGAGGACAAGGATGTCCTGCTCGGCGCGGCAGACACCTTCCGCGCTGCCGCCGCGGAGCAGCTGGCCACGTGGGGCCAGCGCGTCGGCGTTCCCACGGTAAAGTCCGACGTCGACGGGGCGGACCCTGCATCCGTCGCCTACGAGGCAGTCAAGGCGGGCATCGATCAGGAGGTCGACGTCGTCATGATCGATACAGCCGGACGCCTGCAAAACAAGGTCGGCCTGATGGACGAGCTGGGCAAGGTCAAGCGCGTCATCGAGAAGCTCGCCGAGGTTGACGAAGTCCTCCTCGTGCTCGACGCCACAACCGGGCAGAACGGCCTTAACCAGGCGCGCGTGTTCTCCGAGGTCGTCAACATCACGGGCATCGTCCTGACCAAGCTGGACGGAACGGCCAAGGGCGGCATCGTGGTTGCCATCCAGAAGGCCCTCGGCGTTCCCGTCAAGCTCATCGGGCTTGGCGAGGGAGCGGACGACCTCGCGCCGTTCGAGGCCGAAGGTTTCGTGGACGCACTCCTGAACTGA	MNDILPILLPILAVLAVIGGLIPVLLKSRKSGKQYSGTRDANDPVQPQAGGATLLEDRPGAAPGRTAPDLADVEGLETEVPDDVAGLETIPVETPLPAAGRLTRLRERLVRSNNVLGKGLLALLASDRIDEDVWDEVEETLLLADLGTEPTMQLVDALRERVKVLGTRSPEHVKALLREELIKLVDPTMDRSLRVERHADKPAVMMVVGVNGVGKTTTVGKLARVLVAEDKDVLLGAADTFRAAAAEQLATWGQRVGVPTVKSDVDGADPASVAYEAVKAGIDQEVDVVMIDTAGRLQNKVGLMDELGKVKRVIEKLAEVDEVLLVLDATTGQNGLNQARVFSEVVNITGIVLTKLDGTAKGGIVVAIQKALGVPVKLIGLGEGADDLAPFEAEGFVDALLN	PGPT0025740_2182	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
D1-17_01588	1260	tetA		Tetracycline resistance protein, class B	ATGACTCCACACCCGCGTCCCGCCGCCGGAAGGCTCCGCTTCCCATCCGGCAGGCGGAACGGCGGCTCCCCGCTCCCCCGTGACATCAAGGTGATGCTGGTTGCGGCGTTCCTGATAGCCCTCGGATTTGGCCTCGTGGCACCGGTGCTCCCCCAGTTCGCCACCACGTTCGACGTCGGTGCCACCGCCGCCGCCGTGATCGTCAGCATCTTCGCGTTCATGCGGCTGCTTTTCGCGCCGGCGGGAGGTGCTTTGATAGGAAAACTCGGGGAGCGGCCTGTCTACGTAACGGGGCTGCTGATCGTGGCTGCGTCCACCGCGGCCTGTGCCTTCGCACAGAATTACTGGCAGCTCCTGGTCTTCCGCGGCCTCGGCGGTGCCGGCTCGGTCATGTTCACAGTTGCGTCGATGGCGCTGGTCATTAGGCTGGCCCCTCCCGAGAGCCGCGGCAGGGTCTCAGGTGCCTACGCCTCTGCGTTCCTGATTGGCAACGTCTGCGGGCCGATTGTGGGCGGTCTGCTGGCAGGGTTTGGGCTGCGGGTTCCGTTCCTCGCCTATGCCGGCGCTCTTGTCCTGGCGGCACTGGTGGTGCAGACGCAACTGAGCCATAACCCGGGCTCGGGCGGCCGCGACGGAGCGGCGGCGCCGGCCATGAAGCTCGGAGAAGCTATGGGTGACTCTGCGTACCGGGCCTCGCTGCTCTCGAGCTTTGCCAACGGCTGGGCCACGTTCGGGGTGAGAATGGCCACCGTGCCCTTGTTCGCCGTCGCCGCGCTCGGCGCCGGACCGGAGGCGGCTGGCTGGGCACTGGCTGTCTTTGCCGCCGGCAATGCGCTGGCGCTGACCTTCTCCGGAAGGCTGGCCGACAGTCTGGGCCGCAAGCCCATGATGGTCGCCGGGCTCGTGCTGACGGGGGCTGCTACCGGCGGCATTGGGCTCACCCAGGGACTGCTCCTTTTTCTTGCCGCATCGCTGCTGGCGGGAGTCGGCGCCGGTTTGCTTGGCCCGGCGCAGCAGGCCGCCGTGGCGGATGTGATCGGACGTGAACGGTCCGGAGGGCGGGTGCTGGCGGTGTACCAGATGACCGCCGATATTGGAGCGATCCTGGGTCCGGTCCTCACAGGTGTGGTGGCGGACGCTTTCGGATATGGCTGGGCGTTTGCGGCAACGGGGGCAGTGCTGCTGCTCGCGGCGGCCGCCTGGCTGCTCGCGCGGGAGACCGTGCTGCGGCAACCCGCGGACGCAGGCAAGCCCAACTGA	MTPHPRPAAGRLRFPSGRRNGGSPLPRDIKVMLVAAFLIALGFGLVAPVLPQFATTFDVGATAAAVIVSIFAFMRLLFAPAGGALIGKLGERPVYVTGLLIVAASTAACAFAQNYWQLLVFRGLGGAGSVMFTVASMALVIRLAPPESRGRVSGAYASAFLIGNVCGPIVGGLLAGFGLRVPFLAYAGALVLAALVVQTQLSHNPGSGGRDGAAAPAMKLGEAMGDSAYRASLLSSFANGWATFGVRMATVPLFAVAALGAGPEAAGWALAVFAAGNALALTFSGRLADSLGRKPMMVAGLVLTGAATGGIGLTQGLLLFLAASLLAGVGAGLLGPAQQAAVADVIGRERSGGRVLAVYQMTADIGAILGPVLTGVVADAFGYGWAFAATGAVLLLAAAAWLLARETVLRQPADAGKPN	PGPT0003185_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003185-blt-K08153	NA	NA
D1-17_01589	1377	amt_1		Ammonia channel	ATGGAACTTACCGCAGGTCACGTATGGCTCATGGTGGCGGCGGCACTCGTGCTGCTCATGACACCAGGGCTGGCATTTTTCTACGGCGGCATGACGCGCGCCAAGGCAGCACTGAACATGATGATGATGAGCTTCATCTCCATCGGCATTGTCAGCGTTGTGTGGGTACTTTGGGGTTACTCCATGTCGGGCGGCGATGGCTTCCTGCAGATGGTCGGGAATCCTTTCGCCAACTTCGGTCTTGAGGGAATCACGGAACCGGACGGTCTCATCCTTGTCGGCTATGGCGCAACCTTCGCCATCATTACCGTGGCCCTGATCAGCGGTGCCATCGCAGACCGCGCCAAGTTCGGCGCCTGGTCCGTGTTCGTGCCCGTGTGGGTAACTCTTGTGTACTGCCCGCTTGCCTACATGGTCTGGGGCGGCGGACTCTTCGGCGAGGAAGGCGCAATCGGCCAAGCGCTCGGCCCGGCCATCGACTTCGCCGGCGGCACCGTGGTCCACATCAACGCCGGTGTCGCGGCTCTGATCCTCGTCCTGATCATCGGCAACCGCAAGGGCTTCGGCAAGGATCCGAACCACCGCCCGCACAACATCCCCTTCGTGATGCTCGGGGCTGCCATCCTCTGGTTCGGCTGGTTCGGCTTCAATGGCGGCCTCGCCGCTACCGCAGAACAGGGCGGCCTCATCTGGGTCAACACCCTTGCCGCACCTGCCGCCGCCATGATCGGCTGGCTCATCACGGAGCGCATCCGCGACGGACACCCCACCTCCCTCGGTGCAGCATCCGGCGTGGTAGCCGGCCTGGTTGCCATCACCCCCGCCTGCGCCAACGTCAGCCCGGTCGGCGCCCTGGGTCTCGGCCTCGTCGCAGGCATGGCTTCAGCCCTGGCTGTCGGTCTTAAGTTCCGGTGGGGCTTCGATGACTCGCTTGACGTCGTGGGCGTCCACCTGGTCTCGGGCATCATCGGCACCGTGGCTCTCGGCTTCATCGCCGTCCCCACGGACGGCGTGGGCGGCGGCCTGTTCTACGGCGGAGGAGCGGCGCAGCTCTGGGCGCAGCTCGCAGCGGCCGGCATCGCCATCGCCTACTCGGCCGTCCTGACGGTGATCATCGCACTGGCGATCCACAAGACCATGGGCTTCCGGGTCTCCCAGGAACAGGAAGTTGTGGGCGTGGACCTCAGCCTGCACGCTGAGACCGCTTACGAGTTCGGTGTCGGCGGCCACGGCGGAAGCTTCCAGCCGCTGCATGAACTGATCACCGGGAATGCTCCGACAAGCGGCACGGACACTCCGCCTGCGGCGGATGCCTCTGCACAAGGCGCCGAAGAGAAGAAAGAAACAGCATCAGGCAAGGAAAGCGTGGGGGCATGA	MELTAGHVWLMVAAALVLLMTPGLAFFYGGMTRAKAALNMMMMSFISIGIVSVVWVLWGYSMSGGDGFLQMVGNPFANFGLEGITEPDGLILVGYGATFAIITVALISGAIADRAKFGAWSVFVPVWVTLVYCPLAYMVWGGGLFGEEGAIGQALGPAIDFAGGTVVHINAGVAALILVLIIGNRKGFGKDPNHRPHNIPFVMLGAAILWFGWFGFNGGLAATAEQGGLIWVNTLAAPAAAMIGWLITERIRDGHPTSLGAASGVVAGLVAITPACANVSPVGALGLGLVAGMASALAVGLKFRWGFDDSLDVVGVHLVSGIIGTVALGFIAVPTDGVGGGLFYGGGAAQLWAQLAAAGIAIAYSAVLTVIIALAIHKTMGFRVSQEQEVVGVDLSLHAETAYEFGVGGHGGSFQPLHELITGNAPTSGTDTPPAADASAQGAEEKKETASGKESVGA	PGPT0000840_3203	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-17_01590	339	glnB	COG0347	Nitrogen regulatory protein P-II	ATGAAACTGATTACGGCAATCGTCCGGCCGGAGAAGCTGGAAACTATCCGGGAAGGGCTGGAGGCCTACGGGGTCCAGGGGCTCACGGTCAGCGCAGCCAGCGGCTACGGCCGCCAGCGGGGGTACACCGAGGTCTATCGGGGCGCGGAGTACAACGTGGACCTGCTGCCCAAGATCCGGGTGGAAGTCCTGGCCACGGACGAACAGGCCGACGACATCCTGGATGTCATCATCGCCAGCTCCAACACCGGACGCGCAGGCGACGGCAAGGTCTGGACAGTGGATGTCTTTGAAGCAGTCAGGGTGCGGACAGGCGAACGTGGCGTAGCAGCCATCTGA	MKLITAIVRPEKLETIREGLEAYGVQGLTVSAASGYGRQRGYTEVYRGAEYNVDLLPKIRVEVLATDEQADDILDVIIASSNTGRAGDGKVWTVDVFEAVRVRTGERGVAAI	PGPT0000650_2254	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
D1-17_01591	1386	zwf	COG0364	Glucose-6-phosphate 1-dehydrogenase	GTGAAAACCCTGCTCATCCTCGGCGCTTCCGGTGATCTGACGGGCCGGCTCCTGCTCCCGGGGCTGGCCCGCCTGGCAGCCGCGGGACGGACGGAAGGGCTCCGGCTTGTGGGTGCGGGCTCTGATCCGTGGCTCCAGGAACAGTGGCGGGAGCGCGTCCATACCGCCTTCGCCGATGCGGCGCAGAACGCCGGCGCTGTGGGGAAGCAGGCCATCGAGGCGCTTGAACAGTCCACCGCCTACCACCAGCTGGACGTCACAGCGGACGGCCCTTTGGCGTCCCTGCTGTCAGAACTCGAAGGTCCGGTGGCTGTTTATTTTGCCCTGCCTCCGCACGTGAGCCAGAAGGCCTGCGAAATCCTGCAGCCCGGCCAGGTTGCGGCCGGTACCCGCCTTGTCATGGAGAAGCCGTTCGGGTCCGGCCAAGACTCTGCCCGCGAACTCAACCGGACCCTGCTGGGCCTCGTCCCGGAAGACCGCATCCACAGGGTGGACCATTTTCTCGGCAAGGCCACCGTGCTGAACATTCTCGGACTGCGCTTTGCCAACAATTTCCTGGAGCCGGTCTGGAACCGGGAGCACATTGACAAAGTTGAGATCATTTTCGATGAGGACCTGGCGTTGGAGGGCCGCGCCCGCTATTACGACAGTGCCGGCGCGCTGCGCGACATGATCCAGAGCCATCTCCTGCAGATCATGGCTCTGATGGCCATGGATCCGCCGGCCACAATCGGGGAGCGCGACCTGCGGGACGCGGTGGGCATGGTGCTGCGGGCCAGCAGCATCAAGCCTCCTTACGGGGTAACCACGGGCCGTGCGCGCTACACGGCCGGGAGCCTCGGCGGCAGGTCCGTCCCTGACTACGCGGATGAAGAGGGCGTGGACGCTTCGCTCAACACCGAAACCTTCGCCGAAGTCCGGGTGGAAATCGACAACTGGCGGTGGAAGGGCGTGCCGTTCATTCTGCGGTCGGGCAAGGCCTTAGGAAAAAAACGGAAGGAAGCGGTGGTGACCTTCCGGCCGGTGCCGCACCTGCCCAAGGGATTCCTGGGCACCGACGTCCCCAACCAGCTGCGGATCGGCTTCGGGCCGGACACCCTGGAGCTGGACGTGGACGTCAACGGTCCCGGCGACGTCTTCACGCTGGACCGGGCCTCGCTGGTTGCCGAGCTGAACGCCTCGGACCTGCTGCCCTACGGGGAAGTTTTGGAGGGCGTCCTCACCGGCGACCCCCTGCTGTCCGTGCGCGGTGACACCGCCGAGGAGTGCTGGCGGATCGTTGAGCCGGTGCTCAAGGCCTGGGCGGACGGCACAGTTCCGCTTGAGGAGTACGACGCCGGCTCCGCGGGCCCGGAGGCACGGTTAGGTTCCGCGCGGAAGGGCTAA	MKTLLILGASGDLTGRLLLPGLARLAAAGRTEGLRLVGAGSDPWLQEQWRERVHTAFADAAQNAGAVGKQAIEALEQSTAYHQLDVTADGPLASLLSELEGPVAVYFALPPHVSQKACEILQPGQVAAGTRLVMEKPFGSGQDSARELNRTLLGLVPEDRIHRVDHFLGKATVLNILGLRFANNFLEPVWNREHIDKVEIIFDEDLALEGRARYYDSAGALRDMIQSHLLQIMALMAMDPPATIGERDLRDAVGMVLRASSIKPPYGVTTGRARYTAGSLGGRSVPDYADEEGVDASLNTETFAEVRVEIDNWRWKGVPFILRSGKALGKKRKEAVVTFRPVPHLPKGFLGTDVPNQLRIGFGPDTLELDVDVNGPGDVFTLDRASLVAELNASDLLPYGEVLEGVLTGDPLLSVRGDTAEECWRIVEPVLKAWADGTVPLEEYDAGSAGPEARLGSARKG	PGPT0017380_5413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-17_01592	1584	ffh	COG0541	Signal recognition particle protein	GTGTTCAATTCACTCTCTGACCGGTTGACAGCAACCTTCAAGAACCTCCGCGGCAAGGGCCGCCTCACGGAGGCTGATGTTGACGCCACAGTCCGCGAGATCCGCCGGGCGCTGCTGGACGCCGACGTAGCTGTGCCCGTGGTCCGCGAGTTCACCGGACAGGTCCGGGAGCGCGCCCTTGGAGTCGAGGTGTCCGCGGCGCTGAACCCGAGCCAGCAGATCGTGAAGATCGTCAACGAGGAGCTCGTTGAGATCCTTGGCGGTGAGACGCGCCGGATCCGCCTGGCCAAGACCGGCCCCACCATCATCATGCTCGCCGGCCTTCAGGGCGCCGGTAAGACGACGCTCGCGGGCAAGCTCGCCAAGTGGCTTAAGGGGCAGGGCCACAGCCCCATTCTCGTGGCCTGCGACCTCCAGCGCCCCAACGCCGTGACCCAGCTGCAGGTCGTTGGCAAGCGCGCCGGCGTCCCCGTCTTCGCCCCGCACCCTGGAGCGACCTCCGAGCTGGAACACCCGGCCGGTGACCCGGTCGCCGTCGCCCGGGCTGGTGTCGAGGAGGCCCGCCAGAAGCTGCACGACGTTGTCATCGTGGACACCGCCGGCCGTCTCGGCGTCGACGCCGAAATGATGGAGCAGGCCCGCCAGATCCGGCGGGCCATCGTCCCCAACGAAGTCCTCTTCGTGATTGACGCCATGATCGGCCAGGACGCAGTGAACACGGCGATGGCCTTCGATGAAGGCGTCAACTTCACCGGCGTTGTGCTGTCAAAGCTCGACGGCGATGCGCGCGGCGGCGCCGCGCTGTCCGTCGCGTCCGTCACCGGCAAGCCTGTGATGTTCGCGTCCACGGGCGAAGGCGTGGACGACTTCGAAATGTTCCACCCGGACCGCATGGCGTCCCGCATCCTCGACATGGGCGATATCCTCACCCTGATCGAGCAGGCGGAGAAGTCCTGGGACAAGGACGAAGCTGCCCGGATGGCGAAGAAGTTCGCCGACCAGGAAGACTTCACCCTGGACGATTTCCTCGCCCAGATGCAGCAAATCCGCAACATGGGCTCCATGAAGAAGATGCTCATGATGATGCCCGGGGCGCAGAACATCCGCCAGCAGCTGGAGCAGTTCGACGAGCGCGAGATTGACCGGGTCGAAGCTATCGTCAGGTCCATGACGCCGCACGAGCGGCTCGCGCCCAAGATCATCAACGGTTCACGGCGTGCCCGTATCGCCAAGGGCTCGGGCGTTCACGTCTCCGAGGTTAACGGCCTGCTGGAGCGCTTCGCCCAGGCGCAGAAGATGATGAAGAAAATGGCCCAAGGCGGCGGCATGCCGGGAATGCCCGGAATGCCCGGCATGGGTGGTGGTGGCGGCGGTGCCCGCAAGGGTGCCAAGAACGCGCCCAAGAAGAAGGCCCGGTCAGGCAACCCCGCCAAGGCTGCACAGGAACTGCGCGATGCCGAGGCCCGGCGCGCCAATGCTGCCAAGGCACTGCCGACTGGCGCCTCCTTCGGGCAGCAGGGCGGCGACTTCGATCCGTCGCAGCTGAATCTCCCCAAGGGCTTCGACAAGTTCCTGGGCAAGTAG	MFNSLSDRLTATFKNLRGKGRLTEADVDATVREIRRALLDADVAVPVVREFTGQVRERALGVEVSAALNPSQQIVKIVNEELVEILGGETRRIRLAKTGPTIIMLAGLQGAGKTTLAGKLAKWLKGQGHSPILVACDLQRPNAVTQLQVVGKRAGVPVFAPHPGATSELEHPAGDPVAVARAGVEEARQKLHDVVIVDTAGRLGVDAEMMEQARQIRRAIVPNEVLFVIDAMIGQDAVNTAMAFDEGVNFTGVVLSKLDGDARGGAALSVASVTGKPVMFASTGEGVDDFEMFHPDRMASRILDMGDILTLIEQAEKSWDKDEAARMAKKFADQEDFTLDDFLAQMQQIRNMGSMKKMLMMMPGAQNIRQQLEQFDEREIDRVEAIVRSMTPHERLAPKIINGSRRARIAKGSGVHVSEVNGLLERFAQAQKMMKKMAQGGGMPGMPGMPGMGGGGGGARKGAKNAPKKKARSGNPAKAAQELRDAEARRANAAKALPTGASFGQQGGDFDPSQLNLPKGFDKFLGK	PGPT0025750_564	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
D1-17_01593	735			hypothetical protein	ATGTTTAAGCAGCGGGTAGTGTTCGTCCACGGTGCCGGAAGCTTCGGCTCCGCCGCCTGGCCGCGCCAGCACGGCATGGCCCTGCAGTACGACGCCCTGTTCCTGCGGCGGCACGGCTTCGATGCCGAGGCCGAGCCGCTGGAAACCGATTTTGCCGAAGACGCCCGCATTGTGCTGCGCTCCCTGGGCGACGACGGGCGGGGCGCTGCCGGCGGCCACATCGTTGCCCACTCCCAGGGTGCGATAGCAGCGATGATGGCTGCGGTGGAACGGCCCGACCTTGTGTTCTCGCTGACGCTGGTGGAGCCGGCATGCCTGTCGCTGACCGCTGAACTGCCGGCCACTGCCGCACACCGGGCGCTCATGGAGCCACTGTTCGATATCCGCCACCAGCTCGGCGATGACGACTATGAGCGGGAATTCGTGCGGAGGGCCTTCGCCGCCGAGGCGCCCGGACCCAGCACGCCGGAGGCGAAGCGGGCTGCCAGGAGGCTGCGGCTGCAGGCACCTCCCTGGCAGGCGCCGCTGGAGATTGTTCCCGGCGTACCTACCCTCGTCCTCACGGGCGGGTGGGAGCCGCTGTACGAGGAGATCGCCGGGTACCTTCAGGAAACCGGAGCACTGCACCGCATCGCCCCGGGCGGCCACCGGCCCCAGGACTCTGCCGAAGGCGACCGTCTGATCAGGTCATTCATTGCCGAGGTCAGCCGCGGACAGCAGCTGCAGGCCTCCTGA	MFKQRVVFVHGAGSFGSAAWPRQHGMALQYDALFLRRHGFDAEAEPLETDFAEDARIVLRSLGDDGRGAAGGHIVAHSQGAIAAMMAAVERPDLVFSLTLVEPACLSLTAELPATAAHRALMEPLFDIRHQLGDDDYEREFVRRAFAAEAPGPSTPEAKRAARRLRLQAPPWQAPLEIVPGVPTLVLTGGWEPLYEEIAGYLQETGALHRIAPGGHRPQDSAEGDRLIRSFIAEVSRGQQLQAS				NA	NA	NA	NA	NA
D1-17_01594	1857	thiC	COG0422	Phosphomethylpyrimidine synthase	ATGAGCACCCAGAAATCACAGCTGAGCCCTATCCAAAATCACGCTGCCAAAAACCGTGCTGCCAAAAATGATGCGCCCCGGAAGGACGCTGCCAACGATGAAGGCCCCGTGACACAGTCGCTGAAGTCGCACTCCCTGGCCTACATCGAAGGGGATGGCCTGCGCGTTCCCGTAACTGAAATTGCCCTGGATCCGTCGCCCAACGGGGAGCGGAACGAACCGCTGCGGGTCTACCGTACCGCTGGCCCAGGCAGCGATCCCGTGGTGGGCCTCCCACCGTTCCGAGCGGCATGGATTGAAGCCCGCGGCGACACCGAGCCCTACAGCGGGCGGCAACGGAACCTGCTCGACGACGGCCGGTCCGCCGTACGCCGCGGCGCCGCCTCCGCCGAGTGGAAGGGAGCGCAGCCGGTGCCCCGCCGCGCCGTCGGCGGCAAGACGGTGACCCAGATGCACTACGCACGGCAGGGCGTCATCACCCCTGAAATGCGGTTCGTGGCGCTGCGTGAAAACTGCGACGTCGAACTGGTGCGCAGCGAGCTGGCGGCGGGCCGCGCAATCATCCCCAACAACATCAACCACCCCGAGTCCGAGCCCATGATCATCGGCAAGGCGTTCCTGGTGAAAATCAACGCCAACATCGGCAACTCGGCAGTAACGAGCTCCATTGCCGAGGAGGTTGACAAGCTGCAGTGGGCGACCCAGTGGGGCGCGGACACGGTCATGGACCTCTCCACGGGCGATGACATCCACACCACGCGCGAATGGCTGATCCGGAACTCCCCTGTTCCGATTGGCACCGTTCCGATCTACCAGGCGCTGGAAAAGGTCAACGGCGAGGCCAACGCGCTGACCTGGGACATTTTCCGGGACACCGTGATCGAACAGTGCGAGCAGGGAGTGGACTACATGACCATCCACGCCGGCGTCCTGCTGCGCTACGTGCCTCTGACGGCAAACCGCGTGACCGGCATCGTCTCCCGCGGCGGGTCCATCATGGCCGGATGGTGCCTGGCACACCATCAGGAGAACTTCCTCTACACGCACTTCGACGAGCTGTGTGAAATTTTCGCGAAGTACGACGTCGCCTTTTCGCTGGGGGACGGCCTGCGGCCCGGCGCCACCGCCGACGCCAACGACGCCGCCCAGTTCGCCGAGCTCGACACCCTTGCTGAGCTGACGCAGCGTGCGTGGGAATACGACGTCCAGGTCATGGTTGAGGGTCCGGGACACATCCCTTTCCATCTGGTGCGGGAGAACGTGGAGCGCCAGCAGGAGCTGTGCAAGGGCGCCCCCTTCTACACCCTCGGCCCGCTCGTGACGGATGTGGCACCGGGCTACGACCACATCACCTCTGCCATCGGCGCGACGGAGATCGCCCGGTACGGCACGGCGATGCTTTGCTATGTGACGCCGAAGGAACACCTCGGCCTGCCGAACAAGGACGACGTGAAGACCGGCGTGATCACCTACAAGATCGCTGCCCACGCCGCAGACCTCGCCAAGGGCCACCCGGGAGCGAATGAGCGCGATGACGCACTGTCCAAGGCCCGCTTCGAGTTCCGCTGGCGTGACCAGTTCGCCCTGTCCCTTGACCCCGTCACGGCCGAGGCCTTCCATGATGAAACGCTGCCGGCCGAACCAGCCAAGACCGCCCACTTCTGTTCCATGTGCGGGCCCAAGTTCTGCTCCATGCGCATCAGCCAGGACATCCGCAACGAGTACGGGTCCGCGGAGGCGCAGGCCGCACTGGCGGAGATGGCCGAAGGGATGCGCGAGAAGAGCCAGGAGTTCCTGGCTGCCGGCGGAAAAGTCTACCTGCCCGAGCTGACGCTCCCCGAGTCAGCCCGCCGGTAG	MSTQKSQLSPIQNHAAKNRAAKNDAPRKDAANDEGPVTQSLKSHSLAYIEGDGLRVPVTEIALDPSPNGERNEPLRVYRTAGPGSDPVVGLPPFRAAWIEARGDTEPYSGRQRNLLDDGRSAVRRGAASAEWKGAQPVPRRAVGGKTVTQMHYARQGVITPEMRFVALRENCDVELVRSELAAGRAIIPNNINHPESEPMIIGKAFLVKINANIGNSAVTSSIAEEVDKLQWATQWGADTVMDLSTGDDIHTTREWLIRNSPVPIGTVPIYQALEKVNGEANALTWDIFRDTVIEQCEQGVDYMTIHAGVLLRYVPLTANRVTGIVSRGGSIMAGWCLAHHQENFLYTHFDELCEIFAKYDVAFSLGDGLRPGATADANDAAQFAELDTLAELTQRAWEYDVQVMVEGPGHIPFHLVRENVERQQELCKGAPFYTLGPLVTDVAPGYDHITSAIGATEIARYGTAMLCYVTPKEHLGLPNKDDVKTGVITYKIAAHAADLAKGHPGANERDDALSKARFEFRWRDQFALSLDPVTAEAFHDETLPAEPAKTAHFCSMCGPKFCSMRISQDIRNEYGSAEAQAALAEMAEGMREKSQEFLAAGGKVYLPELTLPESARR	PGPT0008905_2004	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACIMETHRIN|CF3-HMP_DETOXIFICATION,PGPT0008905-thiC-K03147	NA	NA
D1-17_01596	1083		COG1228	putative protein	ATGTCGCACATCATCGAATTCACCGGGACGGTGCTCACGGGCCCGGACCGGGAACGGACGGGGCTGTGGGCTGTGGACGGCACACTGACCTTCCACCGTCCGCACCGCAGCCCGGACCTGGTTCTGGACGGGTGGGTGCTGCCCGGCTTCGTGGACGCGCACTGCCACATCGGCCTGGGCCCTGCAGGGGCGGTGGATGACGACGTCGCCTATGCGCAGGCCCTGACCGACCGGGACGCCGGCACGCTGCTGGTGCGGGACGCCGGAGTGGTAAGCGACACCCGCTGGCTGCAGCAAACTCCGGAAGCGCCGCGGATTATCCGTGCCGGACGGCACATCGCGCGGGTACGCCGGTACCTGAGGGACTTCGCAGTGGAGGTTGAACCGGAGGGCCTTGTTGAGGCGGTGCGAAAGCAGGCGCGTTCCGGAGACGGCTGGGTCAAGCTTGTGGGGGACTGGATTGACCGCGGGATCGGCGACCTTGCACCCTCCTTTCCGGCCCGGGCTGTCCGGGACGCTGTCCGCGCTGCGCATGATGAGGGCGCAAGGGTTACGGCGCACTGCTTCGGCGAAGACACCCTTGACGACATGCTGAATGCCGGAATCGACTGCATCGAACATGCCACCGGACTGCTGCCGCGGCACATTCCCCGCTTTGTGGAGCAGGGAGTGCCGATAGTGCCGACCCTGGTCAACATCGCTACCTTTCCGGATATCGCCTCCCGGGCGGAGTCCAAGTTTCCGCGCTACGCCGCCCACATGCGGGCACTGTGGGAACGCCGCAACGAACGCGTCCGGGAGGCGTACGAGTCCGGCGTGCAGATTTACGCAGGCACCGACGCCGGCAGTGTGATCCGGCACGGCAGGATCGCGGACGAAATCCTTGCCCTCCACCGTGCCGGCCTTCCTGCGTCTGCAGCACTGGATGCGGCGTGCTGGGCAGCGCGCCGTTGGCTGCGCGCCGACGGTGTTGCCGAAGGTGCAAGCGCGGATGTGGTGGTGTGCTCGGAGGATCCGCGGTCCGTGCCTGAGACCGTCAGGGAGCTGAGGGCCGTGGTGCTGCGAGGAAGAGTGGTTCGTTAG	MSHIIEFTGTVLTGPDRERTGLWAVDGTLTFHRPHRSPDLVLDGWVLPGFVDAHCHIGLGPAGAVDDDVAYAQALTDRDAGTLLVRDAGVVSDTRWLQQTPEAPRIIRAGRHIARVRRYLRDFAVEVEPEGLVEAVRKQARSGDGWVKLVGDWIDRGIGDLAPSFPARAVRDAVRAAHDEGARVTAHCFGEDTLDDMLNAGIDCIEHATGLLPRHIPRFVEQGVPIVPTLVNIATFPDIASRAESKFPRYAAHMRALWERRNERVREAYESGVQIYAGTDAGSVIRHGRIADEILALHRAGLPASAALDAACWAARRWLRADGVAEGASADVVVCSEDPRSVPETVRELRAVVLRGRVVR				NA	NA	NA	NA	NA
D1-17_01597	876	catE	COG2514	Catechol-2,3-dioxygenase	ATGACACCAGCAGCCAGCAGCCACGACCTTCTTCCTGCCGACCTCACCATGGGCACCGTCATGCTCAAGGTCGGGGATATGAAGCTCATGACCGATTACTACCAGCGGGCACTAGGCCTTGATGTGGTGGCCGAGCAGGACGGCGGCCTCTACCTCGGCCGGCTCAGCACGCCCCTGGTGCATCTCTCCCCGGCGCCGGGGCTGAACATCCCGGGCAGGGGCGAAGCCGGCCTCTTCCACACCGCCCTTCTCTTTGACCACCAGGCCGCACTGGCAGCCACCATCGCCACCGCGGCGCAGTACGATCCGCAGCTCTTCGCCGGCAGCGCTGACCACCTTGTCAGTGAAGCGTTCTACTTCACCGACCCGGAGGGTAACGGCATTGAGCTCTACTGGGATCGCCCCCGTGAAGCCTGGTCCTGGGACGGAAAGAACGTGGTCATGGATAGCCTGGCGCTGCCCCCACAGAAGTACCTGCAGGAGCACCTGACCGAGAGTGCGCTGGAGGGCCAGCACGGCACGGAGGCGGGAGTAGGCCACGTGCACCTGCAGGTAGGTGACGTGCAGACGGCCCACGACTTCTACGTCGGGACCCTCGGATTCGAAAAGACGGCAGGCTGGCACGGCCAGGCGCTGTTCGTCTCAGCCGGAGGCTACCACCACCACATGGCCATGAACGTCTGGAACAGCCGGGGCGCAGGTCCGCGCCGTAACACTCTCGGGCTGGGTGAGGTGCTCATTGAGGTTCCGGCCGGGGACGACGTCGGCGCGCTCGCTGACCGGCTGAAGCTCGCCGGCGTCGCTGCTCACCACACCGGAGCGGAGCTGCGGTTCGAGGACCCCTGGCGCAACCGCATCCGCGTCGCCGTCCGCTGA	MTPAASSHDLLPADLTMGTVMLKVGDMKLMTDYYQRALGLDVVAEQDGGLYLGRLSTPLVHLSPAPGLNIPGRGEAGLFHTALLFDHQAALAATIATAAQYDPQLFAGSADHLVSEAFYFTDPEGNGIELYWDRPREAWSWDGKNVVMDSLALPPQKYLQEHLTESALEGQHGTEAGVGHVHLQVGDVQTAHDFYVGTLGFEKTAGWHGQALFVSAGGYHHHMAMNVWNSRGAGPRRNTLGLGEVLIEVPAGDDVGALADRLKLAGVAAHHTGAELRFEDPWRNRIRVAVR	PGPT0005050_303	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL_RESISTANCE,PGPT0005050-catE-K07104	NA	NA
D1-17_01598	438			hypothetical protein	ATGGGTTTCACCGAAATCTTTGTTGCCACTCACAATGAAGCCCTTAAGCGGGCCGCCGCGCTAGAGTCCGGCGGCCCAGCGCCGTCCGGCGGTGTCCGCATTCCGGAAATCAGCGACTTCGAGTTCGAACAGCTCGGCGACCTGGCTGGAGCGGCCGTGCACGCAGCCGGTGCCGACTACGAGCTGGCCATGGTGGATGTTGCCAGCGACTCGCTGCTCGGCGTGCCGGCGGCCATGGTGCGGGCTCTTTCGGAACTGCTCAGCTATGAATCCGAGGGCGAGGGCAATGTGCTGGATGAGGTCGCTGAGCGGTGGGCGGCCGAGGAGGACATGCCCTTCGCAGCCGACGAGGCGCGGAAGTACGTGCAGCAGGTGGCCGAACTGGCCGCCAGTGTGGATGAAAGCAGCCGCACCGGCCTTTACGTCTGGTCTTCCTGA	MGFTEIFVATHNEALKRAAALESGGPAPSGGVRIPEISDFEFEQLGDLAGAAVHAAGADYELAMVDVASDSLLGVPAAMVRALSELLSYESEGEGNVLDEVAERWAAEEDMPFAADEARKYVQQVAELAASVDESSRTGLYVWSS				NA	NA	NA	NA	NA
D1-17_01599	411			hypothetical protein	GTGGCCGTAAAGATTCGCCTTAAGCGCTTCGGTAAGATGCGCGCACCGTACTACCGTATCGTCGTCGCCGACTCCCGCACCAAGCGCGATGGCCGTGCGATCGAAGAGATCGGCAAGTACCACCCCACCGAAGAGCCCTCATACATCGAGGTCAACTCTGAGCGTGCCCAGTACTGGCTGTCCGTCGGCGCCCAGCCGTCCGAGCAGGTTGCTGCGATCCTCAAGATCACCGGCGACTGGCAGAAGTTCAAGGGCCTCCCGGGTCAGGAAGGCACCTTGAAGACCAAGGCCGACAAGGAAGCTTTCGCTGCCCCGGAAAAGGGTTCCGTGATCATTCCGGAAGCCATCACCAAGAAGGCCAAGGCAGAAGCTCCCGCCGAGGCTGAAGCAGAGACCACCGAGGCTGAGTAA	MAVKIRLKRFGKMRAPYYRIVVADSRTKRDGRAIEEIGKYHPTEEPSYIEVNSERAQYWLSVGAQPSEQVAAILKITGDWQKFKGLPGQEGTLKTKADKEAFAAPEKGSVIIPEAITKKAKAEAPAEAEAETTEAE				NA	NA	NA	NA	NA
D1-17_01600	243			hypothetical protein	TTGCTGGCAGAAGCGCTCGAACACCTGGTCCGCGGAATCGTTGACTCCCCGGAAGATGTCAAGGTCAGCCAGAAGAGCAACCGCCGCGGGGATACCCTCGAGGTGCGCGTTCATCAGGAAGACCTTGGACGGGTAATCGGACGCCAGGGCAGGACCGCCCGTGCACTGCGCACGGTCGTGGCGGCGCTGGCAGGCGGCGAACAGGTCAGGGTTGACGTCGTCGACACCGACCGCCGCCGGTAA	MLAEALEHLVRGIVDSPEDVKVSQKSNRRGDTLEVRVHQEDLGRVIGRQGRTARALRTVVAALAGGEQVRVDVVDTDRRR				NA	NA	NA	NA	NA
D1-17_01601	624	rimM	COG0806	Ribosome maturation factor RimM	ATGCAGCTCCAGGTGGCACGAATCGGCAAGCCCCACGGAATCCGTGGCGAGGTGACCGTCCAGGTACTCACCGACGCCCCAGAGGACCGGTTCGTCCCCGGGACCGAATTCGTGGTGGAGCCGGCGTCGGCCGGGCCGCTGACGGTGCAGAGCGCCCGCTGGAACAAGGACATCCTCCTCCTCTGCTTCGAAGAGGTTGTGACCCGGAACGAGGCGGAGACCCTCCGGGGCGCGAAACTGTTCATCGAGACGGAGGAACTCGACGAGGACGATGACGAAGGCTGGTACGAGCATGAGCTCGTGGGTCTGGATGTGCGCGTCGGGCCGGCGGTTGTCGGGAAGATCTCCGCGCTGAACACGATGCCCGTCCAGGATCTGCTGGTGGTGGAGACTCCGGACGGCAAGGAGATTCTGATTCCGTTCGTGGAACAGATCGTTCCCGAGGTGAACGTCGAGGACGGCTATGTCCTGGTGGTTCCGCCGGCCGGGCTGTTTGAACTCAACGAGGAGGGCGGCGGTTCCGAGAGCGACGGCGTTGAAGATGACGGTGACCAAGGTGACCATGTCGAGGGTCACCGTGCCAACGGGGAAGCCGGCGGGCCTCAGCCGGGAGTCAATGCCTAG	MQLQVARIGKPHGIRGEVTVQVLTDAPEDRFVPGTEFVVEPASAGPLTVQSARWNKDILLLCFEEVVTRNEAETLRGAKLFIETEELDEDDDEGWYEHELVGLDVRVGPAVVGKISALNTMPVQDLLVVETPDGKEILIPFVEQIVPEVNVEDGYVLVVPPAGLFELNEEGGGSESDGVEDDGDQGDHVEGHRANGEAGGPQPGVNA				NA	NA	NA	NA	NA
D1-17_01602	939	trmD		tRNA (guanine-N(1)-)-methyltransferase	ATGAGAATCGATGTCGTCAGTATCTTTCCCGAGTACCTGGCACCGCTGGACCTGTCCCTGATCGGCAAGGCGCGACAGGACGGACTGCTGGAGCTCAACGTCCACGATCTCCGGACTTTCACCACTGACCGCCACCGCACCGTGGATGACACTCCTTACGGCGGCGGCGCAGGCATGGTCATGAAGGCGGAGCCGTGGGCACAGGCGCTGGCGTCGGTGGCGCAGGCGCGTCCAGCCGGTGCGGGGAAGCCGGTGCTGATCGTGCCGTCGCCGGCGGGGGAGCGGTTCAATCAGGCTCTGGCCTACGAACTGGCCGAGGAGGACCAGTTGGTCTTCGCCTGTGGCCGCTACGAAGGGATCGACGAGCGGGTCATCGAATGGGCGGCGGAGCACTTCACGGTGCGTCCCGTCAGCCTGGGTGACTACGTGCTCAACGGCGGCGAGGTGGCCGTGCTGGCAATGGTCGAGGCCATCGGCCGGCTGCTGCCCGGCGTGGTGGGCAATCCGGAGTCCCTCGTGGAGGAATCCCACTCGGACGGTCTGCTCGAGTACCCGGTCTACACGAAACCTTCAGTATGGCGGGACCGGGAGGTTCCGGCCGTCCTGCTCAGCGGAAACCATGGAAAGATCGCCCAGTGGCGCCGCCACGAACAGTACCGGCGGACGGCGGAGCGCCGCCCTGACCTGCTGGAGAAGTTCGACGCCGGACGCCTGTCCCGCGCGGACCGCACCGCTCTCGGGGACCTGGGTTACGACGTCGTCGACGGCCGCCTGAAACGGCAGCCGGACGCTGAAGGCGGGCCGGACCATGAAGGCGGGCCGCTCCATGAAGGCGGGCCGGTCCATGAAGGCGGGCCGGGCCATGAAGGCGGGCCGGGCCATGAAGGCGGGCCGGGCCATGAAGGCGGGCCGGACCATGAAGGCGGGCCGGGCGCCTGA	MRIDVVSIFPEYLAPLDLSLIGKARQDGLLELNVHDLRTFTTDRHRTVDDTPYGGGAGMVMKAEPWAQALASVAQARPAGAGKPVLIVPSPAGERFNQALAYELAEEDQLVFACGRYEGIDERVIEWAAEHFTVRPVSLGDYVLNGGEVAVLAMVEAIGRLLPGVVGNPESLVEESHSDGLLEYPVYTKPSVWRDREVPAVLLSGNHGKIAQWRRHEQYRRTAERRPDLLEKFDAGRLSRADRTALGDLGYDVVDGRLKRQPDAEGGPDHEGGPLHEGGPVHEGGPGHEGGPGHEGGPGHEGGPDHEGGPGA	PGPT0007595_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-17_01603	360	rplS	COG0335	50S ribosomal protein L19	ATGCATATTCTCGATTCCGTAGATGCAGCCTCGCTGCGTACCGACGTTCCCGAGTTCCGCGCGGGTGACACCCTCAAGGTGCACGTGAACATCATCGAAGGCAAGAACTCCCGTGTCCAGGTCTTCCAGGGCTTCGTCCTGGGCCGCCAGGGCGACGGCATCCGCGAGACCTTCACGGTCCGCAAGGTTTCCTTCGGTGTTGGCGTGGAGCGTACCTTCCCGGTGCACTCCCCGATCATCGAGAAGATCGAGCTCGTCACCAAGGGTGATGTGCGCCGCGCCAAGCTTTACTACATGCGTGCACTGCGCGGTAAGGCTGCGAAGATCAAGGAAAAGCGCGACTTCAGCACCGCCAAGTAA	MHILDSVDAASLRTDVPEFRAGDTLKVHVNIIEGKNSRVQVFQGFVLGRQGDGIRETFTVRKVSFGVGVERTFPVHSPIIEKIELVTKGDVRRAKLYYMRALRGKAAKIKEKRDFSTAK				NA	NA	NA	NA	NA
D1-17_01604	681	lepB	COG0681	Signal peptidase I	ATGGACACCACACAACGCCAGCCAGGGAAACCGGGCTGGCGTTGTGTGTTTCTTGCGTTCGGTCTGGCCGTGCTGCTCAGCGGCGTCGTCCGTTCACTGTGGCTGGACGTCTACTACATCCCCTCGGCGTCCATGGAGCCGCTCTTCAGGGCCGGGGACCGCATTCTGGTCTCGCGCACAGACTTCCAGACCGAACCAATCCGCCGCGGTGACGTGGTGGTATTCGACGGCCGCGGATCATTTGCCCCCTTGAGCTCCGGCGCGGGTCCGATGCGCGAGGCGCTGGTCTCTGCCGGGAACTGGCTGGGACTGACGGGCAGCGACACCACGTACGTCAAACGCGTCATCGGCCTGCCGGGAGACAAGGTCGTGTGCTGTGATGCCCGGCAGCGGCTCACCGTCAACGGCAAGCCGATCGTGGAACCCTACATCCACGGCGGGGACGCGCCCAGTAACCACAAGTTCAGTGTCTCCGTGCCAGCCGGCCGGCTTTGGCTGCTGGGGGACCACCGCTCCTTATCCGCAGACTCCCGCAGCCTTCTCGGCGCACCCGGCGGCGGCATGGTGCGCATCGACCGGGTCATCGGCAGACCGGTACAGATCATCTGGCCGCTTGATAGATTTGGCTCACTGGTCCGGCCGTCCAAGGCGGCCACTTCAACGACTAAGGACGGACAGTAA	MDTTQRQPGKPGWRCVFLAFGLAVLLSGVVRSLWLDVYYIPSASMEPLFRAGDRILVSRTDFQTEPIRRGDVVVFDGRGSFAPLSSGAGPMREALVSAGNWLGLTGSDTTYVKRVIGLPGDKVVCCDARQRLTVNGKPIVEPYIHGGDAPSNHKFSVSVPAGRLWLLGDHRSLSADSRSLLGAPGGGMVRIDRVIGRPVQIIWPLDRFGSLVRPSKAATSTTKDGQ				NA	NA	NA	NA	NA
D1-17_01605	1068			hypothetical protein	ATGCCCGAGACAGACCCTGGGACTTCCGAGCCGCAGCAGGCTGCTGCCAGGCCTGGAAGGCGCGCTTTGGGCGAGCCCGTTTCGGCACCGGCCGTCCCCGATGGCCCCGCGCCCGCGCAGCCCGCTGGCCCGGCGCAGCCTCCCAGACCGGCACAACCGCTTCCTGAAGCGGCCGACCGGGCTCATACGGCCGACCGTGCTGACGCGGCTGTTCCTGCAGGCGGGGAAAAGCCCTTTACCGTCGGGCCCATCGATGCTGGTACATCCACTGAACCTGCCCCGCGCGGCAACAACGGTGGGCCCGCCACCGGGGACCTGACCGTTCCTCCGCAGGACAAACGTCCCCGTGCGGGCGCAAGGCTTGCCGGGGTCGATCGGAACAAGCAGGCTCCTGCCCGCAACCCCTTCATGGTGTGGCTGAAGGAGATCGCCACGGTGGTGATCATCGCCGTCGTCCTCTCTTTCCTCATCAAAACGTTCCTGTTCCGTGCCTTCTACATTCCGTCAGAGTCCATGGTGAGCACGCTGGACGTCAACGACCGCATCTTCGTCAATCTGCTGGTTCCGGAACCGTTCGCCCTCGAACGCGGCGACGTGGTGGTGTTCAAGGACACCAAGGGCTGGCTGCCGCCCACACCCCAGAAAGCCGAGGGTCCCTTCACCTGGGTTGAGGACGGTCTGACGTTTGTTGGCCTGCTCCCTGACAACTCGGAGCAGCACCTCGTCAAGCGCGTTATCGGCCTGCCCGGTGACCATGTCCTGTGCTGTGACGCCGACGGGAAAGTGACCGTCAACGGGGCCTCGCTGGACGAAAAGTACGTTAACCCTGCCGAAGTGCCGATGGTGCGCAACTTCGACGTGGTTGTCCCGGAGGGCAAGGTCTGGGTCATGGGCGACAACCGCAACCACTCGGCGGATTCCCGGGCCCACACCGATTCCAACGGCGGCTTCGTGGACATTGCCGACATCGAAGGCCGCGCGGCAGTCATCGCGTGGCCGATGAACCGCTGGTCGGGTCTCGACAACTATCCGGACGTGTTCGAGAACGTTCCTCCGGCAGGTGAGTGA	MPETDPGTSEPQQAAARPGRRALGEPVSAPAVPDGPAPAQPAGPAQPPRPAQPLPEAADRAHTADRADAAVPAGGEKPFTVGPIDAGTSTEPAPRGNNGGPATGDLTVPPQDKRPRAGARLAGVDRNKQAPARNPFMVWLKEIATVVIIAVVLSFLIKTFLFRAFYIPSESMVSTLDVNDRIFVNLLVPEPFALERGDVVVFKDTKGWLPPTPQKAEGPFTWVEDGLTFVGLLPDNSEQHLVKRVIGLPGDHVLCCDADGKVTVNGASLDEKYVNPAEVPMVRNFDVVVPEGKVWVMGDNRNHSADSRAHTDSNGGFVDIADIEGRAAVIAWPMNRWSGLDNYPDVFENVPPAGE				NA	NA	NA	NA	NA
D1-17_01606	672	rnhB	COG0164	Ribonuclease HII	ATGTCCGCTGCCCCAACGCTCGACTACGAGAAGCGTTTCCTGCCCCGTGGAGCACAGTTCCTCGCCGGCGTCGATGAAGTAGGCCGCGGTGCCCTGGCCGGGCCGGTGAGTGTGGGCATCGCCGTGGTGGACCTGCGCCGCATGGAACTGCTGGCGGACGTCCGGGACAGCAAGCTGCTGAAGGCGGCCGAGCGTGAACGCCTGGTTCCGCTGGTGCGGGCCTGGAGCGTCGCGTCAGCTGTAGGGCACGCCACCGCCCGGGAAATCGATCAACTGGGCATCATGGGGGCCCTCAGGACGGCAGGCAACCGGGCGTGGTTCCAGATCCTTGCTGCAGGTATCAGGCCCGACGTCGTGCTGCTGGACGGGAGCCACAACTGGCTATCCCCGGACACGCAGCCCTCGCTGTTTGACGAGGTCGTGGTGGACCCCGGCTGCGACGCTCCAGTCCAGACACTGGTCAAGGCGGACATGCAGTGCCTGAGCGTCGCCGCGGCCAGCGTCCTGGCCAAGGTGGAACGGGACCGCACCATGCAGGAGCTGCACGTCGAGTACCCCGCCTTCGGCTGGGACGTCAACAAGGGCTACGGGACGGCCGCGCACCGGGAGGCTATCCGGACTGCCGGCCCGAGCCCGCACCACCGCGTCAGCTGGAACCTGCTGTCCGAATAA	MSAAPTLDYEKRFLPRGAQFLAGVDEVGRGALAGPVSVGIAVVDLRRMELLADVRDSKLLKAAERERLVPLVRAWSVASAVGHATAREIDQLGIMGALRTAGNRAWFQILAAGIRPDVVLLDGSHNWLSPDTQPSLFDEVVVDPGCDAPVQTLVKADMQCLSVAAASVLAKVERDRTMQELHVEYPAFGWDVNKGYGTAAHREAIRTAGPSPHHRVSWNLLSE				NA	NA	NA	NA	NA
D1-17_01607	345			putative protein	ATGGTGCAAGATGGAACCATGAGCGCCGAGGATCTTGAAAACTACGAAACCGACATGGAGCTCCAGCTCTACCGCGAATACCGCGATGTCGTCGGGCTGTTCAGCTACGTGGTCGAGACCGAACGCCGCTTCTACCTCGCCAACCACGTGGACCTGCAGGCACGCAGCGCCGACGGCGAGGTCTACTTCGACCTGACCCTGCAGGATGCCTGGGTCTGGGACGTCTACCGCTCCGCCCGCTTCGTCAGGAGCGTCCGCGTCATCACCTTCAAGGACGTCAACGTTGAGGAGCTTCCGCGCAACGAGGAGCTTGCACTGCCCAAGGACGTCGACCTGGGCAACTGA	MVQDGTMSAEDLENYETDMELQLYREYRDVVGLFSYVVETERRFYLANHVDLQARSADGEVYFDLTLQDAWVWDVYRSARFVRSVRVITFKDVNVEELPRNEELALPKDVDLGN				NA	NA	NA	NA	NA
D1-17_01608	357			hypothetical protein	ATGAAAGCCAAAGACGTGCTGGGCCGGCGTGGGGAAGAGCTCGCGGCGGCGTACTTGGAATCACTGGGCATGCTGATCGTGGAGCGCAACTGGCGCTGCCCTGAGGGTGAAATCGACATCGTGGCCCTCGACGCCGATGCGCTGGTCATTGCCGAGGTGAAAACGCGCCGGTCCCTTGCCTACGGCCACCCCTTCGAAGCGGTGGGCCGCGAGAAGCTCGCACGGCTCCACCGGCTCGGAGCCGCCTGGTGCGGCCAGCACGGGCTCCGGATTCCGCTGCGCCGGGTGGATGTGGTTGCGGTGCTGGACGACGGCGTGTGCGAGCCCATCCTGGAGCATCTCAAGGGGGTGGGTTAG	MKAKDVLGRRGEELAAAYLESLGMLIVERNWRCPEGEIDIVALDADALVIAEVKTRRSLAYGHPFEAVGREKLARLHRLGAAWCGQHGLRIPLRRVDVVAVLDDGVCEPILEHLKGVG				NA	NA	NA	NA	NA
D1-17_01609	1545	comM	COG0606	Competence protein ComM	ATGACCCTGGGACGAACGTACTCTGTGGCACTGGTGGGGCTGAACGGCTACATTGTGGAGGTTGAAGCCGATATCGGCCAGACGCTGCCGGCATTCATCATTCTCGGGCTTCCCGATGCTTCTTTGAATGAGGCGAAGGAACGGATCAGGTCTGCGGCGCAGAACTCCGGCATCCCGCTGAGCCGGCGGAAGATCACGGCCAACCTCATTCCGGCGTCCTTGCCCAAGAGCGGCTCGGGCTTCGACCTTGCCATCACCATGGCGGCATTGTGCGCCGCCGGTGACATCCGGACCCCGGGGCGTACTGTCTTCATCGCCGAACTGGGCCTGGATGGCAGGCTGCGGCCCGTCCGCGGTGTCCTCCCTGCCGTCATGGCCGCGGTTCAGGCGGGCTATTCAGATGTTGTGGTGGCCAAGGCCAATGCCGCCGAGGCCGCGCTCGTGCCGGGTGCCCATGTCAAGGGGTACCGAACGCTTGCGCGGCTTGCCCTGGATTTCGGAGCCGATCCCCAGGAGCTGTCCCTGGACTCTGAACCGGATGAAGAACCATCGGGTGAGGAAACCTCGTCCGCGCCCGGCAGCATTCCCGACATGCGTGACGTCTCAGGCCAGGCCGAGGCGCGGCGTGCCCTTGAGGTGGCCGCGGCCGGGGCTCACCATCTTCTCCTCACCGGGCCGCCGGGAGCAGGCAAGACCATGCTCGCCGAGCGGCTCCCCGGGCTCCTTCCCGACCTGGGCGACACGGAGGCAATGGAGGTCACTGCCATCCATTCCCTGTGCGCACTTTCCTCCTCGGCACTTCGGCTGGTGCGGCGACCACCGTTCGAGAATCCCCATCACACCGCGACGCCCGCTGCCATCATTGGTGGCGGTTCCGGCCTGCCCCGGCCCGGCGCTGCATCCCGGGCGCACCGCGGCATTCTTTTCCTTGACGAGGCTCCGGAGTACGAGCGCAGGGTTCTCGATGCGCTCCGCCAGCCGCTGGAAAGCGGTGAGCTCGTTATTCACCGTTCTGCCGGCACAGCGGCCTATCCTGCCCGCTTCCAGTTGGTGCTGGCGGCCAACCCGTGTCCTTGCGGCAAGGCATCAGGAAAAGGCATCGGCTGTACCTGCACGCCCACGATGCGCCGGCGGTATCTGGGGCGCCTGTCGGGACCGCTCCTCGACCGGGTGGACATCCAGCTGGAGGTGGAGCGTGTCTCACTTGCCAGCTTCGGCCAGTCCGGCGACGAGGAGGACAGTGCCGCAGTCGCCGGCCGGGTCCGGGCAGCGAGAGGGCGGCAACTGCGGCGGCTTGGCCCCTTGGGGATGGAGACCAACTCCCAGGTCCCCGGGAGCGTCCTGCGCGGGGAGCTGAGGCTGGCGTCCGGGGCCACCCGCATTCTGGACCGCGCCCTCGAAAGGGGGGCGCTGACAGCACGTGGGTACGACCGCGTGCTGCGCCTGGCATGGACCCTCGCGGACCTGGCCTGCCGGGACCACCCGGACATTAACGACATCGGACATGCCCTGAGCCTCCGGCAGGCGGCTTCGGCCGCCGTCTGA	MTLGRTYSVALVGLNGYIVEVEADIGQTLPAFIILGLPDASLNEAKERIRSAAQNSGIPLSRRKITANLIPASLPKSGSGFDLAITMAALCAAGDIRTPGRTVFIAELGLDGRLRPVRGVLPAVMAAVQAGYSDVVVAKANAAEAALVPGAHVKGYRTLARLALDFGADPQELSLDSEPDEEPSGEETSSAPGSIPDMRDVSGQAEARRALEVAAAGAHHLLLTGPPGAGKTMLAERLPGLLPDLGDTEAMEVTAIHSLCALSSSALRLVRRPPFENPHHTATPAAIIGGGSGLPRPGAASRAHRGILFLDEAPEYERRVLDALRQPLESGELVIHRSAGTAAYPARFQLVLAANPCPCGKASGKGIGCTCTPTMRRRYLGRLSGPLLDRVDIQLEVERVSLASFGQSGDEEDSAAVAGRVRAARGRQLRRLGPLGMETNSQVPGSVLRGELRLASGATRILDRALERGALTARGYDRVLRLAWTLADLACRDHPDINDIGHALSLRQAASAAV				NA	NA	NA	NA	NA
D1-17_01610	1185	dprA	COG0758	Putative DNA processing protein DprA	TTGGACAACGAGAGAACCGCACGCGCCGCCCTTTCCAGACTGATGGAGCCTCAGGATTCGGCCGGCCTTGCGCTGGTGCAGGCAGTGGGAGCACAGGATGCACTCCGGATCGCCACGGGAGAGATCACCGTCAGCCCTGCCTTGGAACAGGAACTGACGCGTGTTCTTGCAGAACATGGTGCCGCGACGTCCTGGGCCGGACTGACAGCGGCGCTGAAACGGTGGGCACCGAGGATACCTGACCTGGCACCAGAACGGGACCTGGTGACCATGCAACGTCTTGGCGGTCGGGTGATCATTCCGGGAGACGATCTATGGCCGCAGCAGCTCGGCGACCTCGCAATCCATGAACCAATCTGCCTGTGGTGGCGCGGCGTTGAGCAGGAGCTTCCGCCGGCGCCGAAATCCATCGCGCTGGTCGGCTCGCGGGACAGTACGAGTTACGGCGCAGCCGTGACGGGAGATCTTGCCTACTCCCTGGCGCAACGGGGCTTCACAGTTGTCTCGGGAGGGGCCTACGGCATAGACGCCCACGCGCATCGGGGTGCGCTGGCAGGCGTGGCTGAAGCCCTGCCGACCATCGCCGTGATGGCCGGGGGAGTGGACCGTTTCTACCCTTCAGGGAACGAGGGTCTGCTGCGGGCTGTGGTGAACCAAGGAGCCGTTCTGGCCGAGGTGCCGCCAGGGTCGGCGCCCACGCGTTACCGCTTCCTGCAACGGAACAGACTCATTGCCGCACTGGCTTCGGTGACGGTTGTGGTGGAGGCCCGGTGGCGGTCCGGAGCGCTGAACACCGCCCACCATGCCGAGACGCTGGGCAGGGCAGTTGGCGCCGTTCCGGGATCGGTGCATAGCGCCAACTCCGCCGGCTGCCACCGCCTCCTCCGCGAGGGCGGTGCCGTCTGCGTAACGGATGCCGCGGAGATCGCAGAGCTGGCAGCACCAAGCGGTGGTTCCCTGCCGGACCCACGCGACGGCGGAAGTGCCGTCCACGACGGCTTGACACTGGAGGACCTGATTCTGCTGGACGCCCTGCCGCTCCGATCCACCAGCTCAGTGGAGAAACTCTGCACCGTCGCCGGGCTGGGGGCAGAATCGGTGAGGGCCGGGCTCGGCAGGCTGGGCCTGCTCGGGCTGGCAGAATCCCATGGCGCCGGATGGAAGCGGTCCAAGAATGCGGGCTGA	MDNERTARAALSRLMEPQDSAGLALVQAVGAQDALRIATGEITVSPALEQELTRVLAEHGAATSWAGLTAALKRWAPRIPDLAPERDLVTMQRLGGRVIIPGDDLWPQQLGDLAIHEPICLWWRGVEQELPPAPKSIALVGSRDSTSYGAAVTGDLAYSLAQRGFTVVSGGAYGIDAHAHRGALAGVAEALPTIAVMAGGVDRFYPSGNEGLLRAVVNQGAVLAEVPPGSAPTRYRFLQRNRLIAALASVTVVVEARWRSGALNTAHHAETLGRAVGAVPGSVHSANSAGCHRLLREGGAVCVTDAAEIAELAAPSGGSLPDPRDGGSAVHDGLTLEDLILLDALPLRSTSSVEKLCTVAGLGAESVRAGLGRLGLLGLAESHGAGWKRSKNAG				NA	NA	NA	NA	NA
D1-17_01611	927	xerC_1	COG0582	Tyrosine recombinase XerC	GTGGAAAACAAGGAGCTGCCGCGGGCCCTGGCCGAGGCCCTCACCAGCTTTGGGCGGTACCTGGAAGGCGAGCGGGCGCGTTCCGTGCATACAGTCCGGGCATACCTTTCGGACGTGAACAGTCTGCTTGAACACGCGGCCCAAGAGGGTGCCGGCGCACTGGGCCAGATCGAGCTGGGCACGCTTAGGCGCTGGCTGGGCAGCCAAAGCGAGGCAGGCGCCTCCCGTTCCACCTTGGCCCGACGCTCCGCCACTGCCCGAAGCTTCATGGCCTGGGCGCTGCGGGAGGAACTCATCGAGAAGGATCCTGCCCTACGACTGAAGGCACCGAAGAAGGAAGGCGCCCTGCCGGGGGTGCTTCAGCAACAGCAGCTTGTCCGGCTGCTCACCGACTTGAACCATGCGGCGCAGGACGGAGCTCCCATGGCGCTGCGGGACCGGGCCATGGTGGAGCTGCTGTACGCCACTGGGATTCGTGTCGGCGAACTGGCTGGACTGGACATCGATGACCTCGACCCGGACCGCCGGACGCTGCGGGTCCTCGGCAAGGGCAACAAGGAGCGCACGGTTCCCTACGGGCTGCCAGCCGCGCTCGCTGTCGACGATTGGCTGCGCCGGGGCCGTGGCAAGCTCGTCACCTCCGGCAGCGGCCCCGCACTGTTTCTGGGTATGAGGGGAAGCCGTGTGGACCAGCGCCAGGTCAGGAGTGTGGTCAAGGGCCTCTTCGAAGCGCTAGGCGACACCGCCGCCACCGGCCCGCACGCCCTGCGCCACTCGGCCGCCACGCATTTGCTGGACGGCGGTGCTGACCTGCGCGCCGTGCAGGAAATACTCGGGCACAACAGCCTGGCGACTACGCAGATTTATACACACGTCTCCGTGGATCGGCTGCGACGGAGTTACCAGCAAGCCCATCCTCGGGCTTAG	MENKELPRALAEALTSFGRYLEGERARSVHTVRAYLSDVNSLLEHAAQEGAGALGQIELGTLRRWLGSQSEAGASRSTLARRSATARSFMAWALREELIEKDPALRLKAPKKEGALPGVLQQQQLVRLLTDLNHAAQDGAPMALRDRAMVELLYATGIRVGELAGLDIDDLDPDRRTLRVLGKGNKERTVPYGLPAALAVDDWLRRGRGKLVTSGSGPALFLGMRGSRVDQRQVRSVVKGLFEALGDTAATGPHALRHSAATHLLDGGADLRAVQEILGHNSLATTQIYTHVSVDRLRRSYQQAHPRA	PGPT0021995_2011	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
D1-17_01612	504			hypothetical protein	ATGTCTGTTGCAATGACCCGCGGTGTGCTGTTTATTCACTCGGCGCCTACTGCGCTGTGCCCCCACGTCGAGTGGGCCATCGGATCTGTCGTGGACAAGCGGACAGATCTTGAGTGGACCCCTCAGCCGGCCGCGCCCGGAATGTTCCGTTCGGAACTGTCCTGGATTGGTCCTCAGGGGACAGGTGCGCAGCTGGCGTCTGCCCTCCGGGGCTGGGCGCATCTGCGCTTTGAGGTGACCGAGGAACCCAGCCAGGGTGTGGACGGCGGCCGCTGGTCGCACACGCCCGAACTGGGAATTTTTCATGCGGTGACGGATGTCCACGGAAACATCATGGTGTCCGAGGACCGGATCCGGTACGCCTACGAGTCCGGTGCGGGCGACCCCTCCGCCGTCTACCATGAGCTCTCGCTTGCCCTTGGGGAGGCGTGGGACGAGGAACTCGAGCCCTTCCGCCATGCAGCAGAGGGTGCTCCGGTCCGCTGGCTGCACCAGGTCGGCTAA	MSVAMTRGVLFIHSAPTALCPHVEWAIGSVVDKRTDLEWTPQPAAPGMFRSELSWIGPQGTGAQLASALRGWAHLRFEVTEEPSQGVDGGRWSHTPELGIFHAVTDVHGNIMVSEDRIRYAYESGAGDPSAVYHELSLALGEAWDEELEPFRHAAEGAPVRWLHQVG				NA	NA	NA	NA	NA
D1-17_01613	1236	fabF		3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGACACGCAAAGTAGTCATTACCGGTCTGGGTGCCACCACGCCCATCGGCGGCGATGTACCCACAATGTGGAAGAACGCGCTGAAGGGGGTATCCGGCGCACGGACGCTGGAGGACGACTGGGTTGGCAAGTACGAGCTCCCGGTTCACTTCGCGGCACGGTGCTCGACGCCGGCCCTCGACGTTCTGAGCCGCGTTGAAGCCAAGCGCATGGACCCGTCCACACAGTTCGGCGTTATCGCCGCCCGTGAAGCCTGGGCAGACTCCGGCGTTACCGACGTCGACCATGACCGCTTTGCGGTGGCCTTTGCCACAGGCATCGGCGGTGTCTGGACTCTGCTCGATGCGTGGGACACGCTGAAAGAAAAGGGCCCCCGCCGCGTCCTGCCCATGACAGTCCCCATGCTCATGCCCAACGGCGTGGCCGCTGCGGTCAGCCTCGACCTCGGAGCCCGGGCGGGTGCTCACACCCCTGTCTCCGCGTGCGCCTCGGGCACCGAGGCCCTGCACCTGGGCCTGGACCTGATCCGCTCGGGCAAGGCCGACATCGTCATGTGCGGCGGTGCGGAAGCTGCCATCCACCCCATGCCGCTGGCTGCCTTCGCGTCCATGCAGGCCCTCTCCAGGCGCAACCATGAGCCCGAGCGCGCGTCCCGCCCTTACGACATGGACCGCGACGGCTTCGTCATGGGTGAGGGAGCCGGTGCCCTCGTCCTCGAAGCGGAGGAGCACGCGCTGGCCCGCGGCGCCCGGATCTACGGCGAACTCGCCGGCACCTCCGTGACGTCTGACTCGTACCACATCACCGCTCCCGATCCGCAGGGACTGGGCGCCACCCGCGCTCTTAAGGCCGCCATGTTCGACGGCCGGATCCAGGCCGAGGACGTTGTCCACGTGAATGCCCATGCCACGTCCACTCCGGTGGGCGACAAGCCGGAGTACACAGCACTGAAGGCCGCCCTCGGCGCCCAGGTAGACAACGTGGCCGTCTCCGCGACCAAGTCGCAGATGGGCCACCTGCTCGGCGCATCGGGTGCGGTTGAAGCCGTGCTCACCGTGCTGGCCGTCCACGAGCGCAAGGCACCCCTTACCATCAACCTGGAAAACCAGGATCCGGAGATCCCGCTCGACGTCGTCACCTCCGAGCGCATCCTGCCCGCCGGCGACATCGTGGCACTGAGCAACTCGTTCGGCTTTGGCGGCCACAACGCCGTTATCGCTGTACGAAGCGTGTGA	MTRKVVITGLGATTPIGGDVPTMWKNALKGVSGARTLEDDWVGKYELPVHFAARCSTPALDVLSRVEAKRMDPSTQFGVIAAREAWADSGVTDVDHDRFAVAFATGIGGVWTLLDAWDTLKEKGPRRVLPMTVPMLMPNGVAAAVSLDLGARAGAHTPVSACASGTEALHLGLDLIRSGKADIVMCGGAEAAIHPMPLAAFASMQALSRRNHEPERASRPYDMDRDGFVMGEGAGALVLEAEEHALARGARIYGELAGTSVTSDSYHITAPDPQGLGATRALKAAMFDGRIQAEDVVHVNAHATSTPVGDKPEYTALKAALGAQVDNVAVSATKSQMGHLLGASGAVEAVLTVLAVHERKAPLTINLENQDPEIPLDVVTSERILPAGDIVALSNSFGFGGHNAVIAVRSV	PGPT0008360_6300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-17_01614	246	acpP		Acyl carrier protein	ATGGCTAGCAACGAAGAGATCCTGGCCGGACTGGCTGAAATCGTCAACGAAGAGACGGGCCTTGCCCCCGAGGCCGTCGAGCTGGACAAGTCCTTCACCGAGGACCTCGACATCGACTCCATCTCAATGATGACCATCGTGGTTAACGCTGAAGAGAAGTTCGGCGTGCGCATCCCCGACGAAGAGGTCAAGAACCTCAAGACCGTCGGCGACGCTGTGGACTTCATCTCCAACGCCCAGGCTTAA	MASNEEILAGLAEIVNEETGLAPEAVELDKSFTEDLDIDSISMMTIVVNAEEKFGVRIPDEEVKNLKTVGDAVDFISNAQA	PGPT0011375_4607	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
D1-17_01615	1089	fabH		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGAGCACCCCCACACTGAAGCAGGCGCCGGTCAACAAGTACACCCGCATGCTGGGTCTCGGCGCCTACCGGCCGGACGTCGTCGTGACCAACGAGGATGTCTGCCAGTGGATCGATTCCTCCGACGAGTGGATCCGGCAGCGCACCGGTATTATCACCCGACACCGGGCCCCTGCCGAAGTAAGCGTGATCGACATGGCCGAAGGTGCTGCCCGGGAGGCCCTGGCTCAAGCGGGCATCGAGGCCTCGCAGCTCGGAGCCGTCATCGTCTCGACGGTGACCCACCCCTACGCAACACCATCGGCAGCAGCCAGCCTCGCCGACCGGCTCGGCGCAACGCCGGCCCCGGCCTTCGACATCTCTGCAGCGTGCGCCGGATACTGCTACGGCATCGCCCAAGGCGATGCGCTGGTCCGCTCCGGCGCTGCCCAGTACGTACTGGTGGTCGGTGCCGAGAAGCTTTCCGACGTCATCGACAACACCGAACGCACCATTTCCTTCCTCCTGGGTGACGGTGCCGGCGCGGTCATCATCGGTCCGTCCGAAACACCGGGCATTGGACCCTCCGTCTGGGGATCCGATGGCAGCAAATGGGATGCAATTGGCATGACCCACTCCCTGGTTGATGTGCGCGACTTCTCGGCTGCGCGCTCAGGTGTGCTGGCCCATGCGGGGTCATCGCAGGGAGGCGCGCTCACTTCTGAAGAAGCCGCCATCACGGACGCCGCCATCTGGCCCACCCTTCGCCAGGACGGCCAGACCGTGTTCCGTTGGGCCGTCTGGGAAATGGCGAAGGTTGCCCAGCAGGCGCTGGACGCCGCCGGCATTCAGGCCGAGGACCTTGTGGCTTTCATTCCGCACCAGGCCAATATGCGCATCATTGATGAGATGGTCAAGAAACTTAAGCTGCCCGAAACCGTCACAGTGGCCCGGGATATCGCAGATGCCGGGAACACGTCGGCTGCCTCGATCCCGCTGGCCACCCACCGGCTGCTGCAGGAGCACCCCCAGCTCAGCGGCGGCCTGGCGCTCCAGATCGGTTTCGGTGCCGGACTGGTGTTCGGCGCCCAGGTTGTAGTCCTTCCGTAG	MSTPTLKQAPVNKYTRMLGLGAYRPDVVVTNEDVCQWIDSSDEWIRQRTGIITRHRAPAEVSVIDMAEGAAREALAQAGIEASQLGAVIVSTVTHPYATPSAAASLADRLGATPAPAFDISAACAGYCYGIAQGDALVRSGAAQYVLVVGAEKLSDVIDNTERTISFLLGDGAGAVIIGPSETPGIGPSVWGSDGSKWDAIGMTHSLVDVRDFSAARSGVLAHAGSSQGGALTSEEAAITDAAIWPTLRQDGQTVFRWAVWEMAKVAQQALDAAGIQAEDLVAFIPHQANMRIIDEMVKKLKLPETVTVARDIADAGNTSAASIPLATHRLLQEHPQLSGGLALQIGFGAGLVFGAQVVVLP	PGPT0008355_1074	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
D1-17_01616	930	fabD	COG0331	Malonyl CoA-acyl carrier protein transacylase	GTGCTTGCAATCGTCTGCCCTGGACAGGGCTCACAGACCCCCGGTTTTCTGGCCCCTTGGCTGGAACTGCCTTCCGTAGCGGGCCATCTGGCCTCCCTCAGCGAAATCGCAGGCATTGACCTCACTGCGCATGGGACCACCTCGGATGAGGAGACCATCAAGGACACTGCCGTCGCGCAGCCCCTCATCGTCGCAGCTGGCCTGGTGGCCGCAAAGTCCCTGTTTGACGTGGAACTCAGCACACTGCCGGTCATCCTTGCAGGCCACTCCGTGGGTGAGATCACAGCCTCGGCCCTGGCCGGTGTGCTGACGGAGAAGGAAGCGATGGTCTTCGTGCGGGAACGCGCCAACAGCATGGCCGCTGCCGCTGCTGTGACTCCCACGGGCATGAGTGCCATCGTGGGCGGCGACCCCGCCGAGGTACTCACAGCCATCGAGGCGGCAGGCGCGACCCCCGCGAACGTCAACGGTGCCGGCCAGACCGTCGCCGCCGGAACCTTCGAACAGCTCAAGGCCCTCGCGGAGAATCCGCCGGCCAAGGCCCGCGTCATTCCACTTAAGGTTGCCGGAGCATTCCACACGTCACACATGAAGCCGGCTGTAAGTGCCCTGGAGGCCCTCCGCCCCGAGCTCCAGCCGCAGGCCCCTGCCGTCCCGCTGCTGTCCAACTTCGATGGCAAGGAAGTCACGGACGGTGCAGCAGCCGTGAACAGCCTGATCGCCCAGGTTTCCCGCCCTGTCCGGTGGGACCTCTGCATGGAAACCCTCGTTCAGCGCGGCGTCACCGGCGTCATCGAACTCGCTCCGGCCGGCACCCTGGCAGGATTGGCGAAGCGTGGCATGCCAGGAGTCAAAACCGTCGCCGTCAAGACTCCTGAGGACCTGTCGGCAGCCCTGGCACTTTTCGCAGAACTGGAGGGCCAGGCATGA	MLAIVCPGQGSQTPGFLAPWLELPSVAGHLASLSEIAGIDLTAHGTTSDEETIKDTAVAQPLIVAAGLVAAKSLFDVELSTLPVILAGHSVGEITASALAGVLTEKEAMVFVRERANSMAAAAAVTPTGMSAIVGGDPAEVLTAIEAAGATPANVNGAGQTVAAGTFEQLKALAENPPAKARVIPLKVAGAFHTSHMKPAVSALEALRPELQPQAPAVPLLSNFDGKEVTDGAAAVNSLIAQVSRPVRWDLCMETLVQRGVTGVIELAPAGTLAGLAKRGMPGVKTVAVKTPEDLSAALALFAELEGQA	PGPT0008350_1076	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008350-fabD|bmyD-K00645	NA	NA
D1-17_01617	1242		COG2508	putative protein	ATGCCCCAGCCATCGCCCGCCCCCGCTAAGCGCCCTCCGGCGTCCCGTCTGACACCCGAAAAGACGGAGACCCTGAAGAAGCTCAGGGCAAGCGTTGGCCAGTTGTCCACCACCACCATGCGCGAGCTGGAAAAGTCCCTGCCGTGGTACAGCAGGCTCAGTTCCGACGAGCGGTCAGCGCTCGGACTGGTGGCCCAAAACGGCATTGCCGCTTTTGTTACGTGGTATGAGCGCCCGAGCTCCCCGTCCTGGATTCTTACCGACGTTTTTGGCACAGCCCCGACTGAGCTAACCCGCTCGATCAGCCTCCAGAAAGCACTCCAGCTCATCCGGATCGTAGTCGAGGTGGTCGAGGACCAGGTCCCGGTGATCGCCCCCGAAGCCGACCAGCCGTCGCTGCGGGAGGCCGTCCTCAGGTACTCACGCGAGGTGGCCTTCGCAGCAGCGGACGTTTACGCGCGTGCTGCGGAGTCGCGGGGCTCGTGGGATACGCGGCTGGAGGCCCTCATCGTGGACGCCATTCTGCGCGGTGAAAATACCGACGCCTTGCGGTCGCGGATCGCCGCCCTCGGCTGGAAAGCGCAGGAGCGCTTTACGGTGATGGTGGGAAATTCGCCGTCGGAGCCCAGTGCCAGCTATGTGAGCGAGTTGCGGCGTATGGCCGGCCGGTACGCAGAGGACGCCCTGGTGGGAATCCAGGGCGACCGGCTCATCCTGATCCTCGGCGGTGTCCATGACCGCGAGACGGCCTATATGAAACTCAGTGAGATGTTTGCGCCGGGGCCGGTGGTGTACGGCGCCGAGGCGAGCTCGCTGCTGGAGGCCAGCGGATCAGCCCAGTCCGCTTTCGCCGGACTCACCGCCGCCCGCGCATGGCCGTCGGCTCCGCGCCCGGTGGCCGCTGACGATTTGCTGCCTGAACGGGTGATCTCAGGGGACGACGCAGCCCGCAGGTCGCTCGTTAAAAATATCTACCGCCCCCTTCTCGCCGCCTCCAACGGCCTTGTGGAGACCCTCGGCACCTACCTGGAACTTGGCCATTCGCTGGAGGCTACGGCGCGCGAACTCTTTGTCCACGCCAACACCGTCCGTTACCGGCTCAAGCGGGTTTGTGACGTGACGGGGTGGGATCCGCTGCTGCCGAGGGAGGCCTTCGTGCTGCAGGCAGCCCTGGTAGTGGGACGGCTCTCGACCCCTCCAAAGGCCCCCGTAGAGCGCCACCCTGCGCGGAACCAGACGTGA	MPQPSPAPAKRPPASRLTPEKTETLKKLRASVGQLSTTTMRELEKSLPWYSRLSSDERSALGLVAQNGIAAFVTWYERPSSPSWILTDVFGTAPTELTRSISLQKALQLIRIVVEVVEDQVPVIAPEADQPSLREAVLRYSREVAFAAADVYARAAESRGSWDTRLEALIVDAILRGENTDALRSRIAALGWKAQERFTVMVGNSPSEPSASYVSELRRMAGRYAEDALVGIQGDRLILILGGVHDRETAYMKLSEMFAPGPVVYGAEASSLLEASGSAQSAFAGLTAARAWPSAPRPVAADDLLPERVISGDDAARRSLVKNIYRPLLAASNGLVETLGTYLELGHSLEATARELFVHANTVRYRLKRVCDVTGWDPLLPREAFVLQAALVVGRLSTPPKAPVERHPARNQT				NA	NA	NA	NA	NA
D1-17_01618	2766	aceE_2	COG2609	Pyruvate dehydrogenase E1 component	GTGGCTGCAGGAGAAGATACCTCCCATATCCTTAGCGGGTTGACTAACCAGCTGCCTGATCGTGATCCGGAAGAGACTGCCGAGTGGGTTGAGTCGCTGGATTCGTTGATCAGGGAACAGGGCACGGAGCGTGCCCAATACATCATGCGCAGTCTCCTGCAGCGTGCCGGGGCGCAGAGCGTCGGGGTTCCGATGGTGACCACGACGGATTATGTGAACACGATCCCGGCGGACCAGGAGGCGGAGTTCCCGGGTAACGAGGAGTTCGAGCGCCGGTACCGGGCGTATATGCGGTGGAACGCGGCGGTGATGGTGCACCGGGCGCAGCGGCCGGATATTGGTGTTGGCGGGCACATTTCCACGTACGCGGGCGCGGCGACGCTGTACGAGGTCGGGTTTAACCATTTCTTCCGCGGTAAGGACGCCCCCGGCGGCGGTGACCAGGTCTTCTTCCAGGGCCACGCGTCCCCGGGGATGTATGCCAGGGCGTTTATGGAGGGCCGGCTGACCGAGCAGGACCTGGACGGGTTCCGGCAGGAGAAGTCCCGGGCCGGGCATGCCCTGTCCTCGTACCCGCACCCAAGGTTGATGCCGGAGTTCTGGGAGTTCCCGACGGTCTCGATGGGCATCGGGCCGATGAACGCGATCTACCAGGCCCAGTCCAACCGGTACCTGCACAACCGGGGCCTGAAAGACACTTCTGACCAGCAGGTCTGGGCGTTTTTGGGTGACGGGGAAATGGACGAGCCCGAGTCCCGCGGCCTGCTCCAGCTCGCCGCGAACGAGAACCTGGACAACCTGAACTTCGTGATCAACTGCAACCTTCAGCGCCTGGACGGGCCGGTGCGCGGCAACGGCAAGATCATGCAGGAACTGGAGGCGTTCTTCCGCGGCGCGGGCTGGAACGTGATCAAGGTCGTCTGGGGCCGGGAATGGGATGAGCTGCTCGCCAGGGACTCCGACGGGTCGCTGGTGAAGATCATGAACGAAACCCCCGACGGGGATTACCAGACCTACAAGGCCGAGTCCGGCGGGTTCGTCCGCGAGCACTTCTTCGGCAAGACCCCGCAGACCAAGGACATGGTCGCGGACCTCTCCGATGACCAGATCTGGAACCTCAAGCGCGGCGGCCACGACTACCGCAAGGTCTACGCCGCGTACAAGGCAGCGACGGAGTTCAAGGGCAAGCCCACCGTGATCCTGGCCAAAACGGTCAAGGGCTACGGCCTGGGCCCGCACTTCGAGGGCCGCAACGCGACCCACCAGATGAAGAAACTCACCCTCGATGACCTGAAAAAGTTCCGCGACCATCTGCGGATCCCGGTCACCGACGACCAGCTCGAGCAGGACCCGTACCGGCCGCCGTACTTCCACCCCGGCACCGACGCCCCCGAAATCCGGTACCTGCTCGAACGCCGCGCCGCGCTCGGCGGAGCCGTCCCGGAGCGCCGTGCCAAGCACGCGGACATCACACTGCCCGATCCGAAGTCCTTCGAGGTCGCCAAGCGCGGCTCGGGCAAGCAGCAGGCCGCCACGACCATGGCGTTCGTGCGGCTGCTGAAGGACCTGATGCGGGATAAGGACTTCGGCAAGCACATCGCCCCGATCATCCCGGACGAGGCCCGCACCTTCGGGATGGACGCGTTCTTCCCCACCGCGAAGATCTACAACCCCAAGGGCCAGAACTACCTCTCGGTGGACCGGGACCTGGTCCTGGCCTACAAGGAATCCGCCCAGGGCCAGCTGATCCACCCCGGCATCAACGAAGCCGGCGCCGTCGCGGCGTTCACCGCCGCCGGCACCGCCTACGCCACCCACGGGGTGCCGCTGATCCCGGTCTACGTCTTCTACTCCATGTTCGGCTTCCAGCGCACCGGGGACGCCTTCTGGGCAGCAGCGGACCAAATGACCCGCGGCTTCATCATCGGCGCCACCGCAGGACGGACCACCCTCACCGGCGAAGGCCTGCAGCACGCCGACGGGCACTCCCCCATCCTGGCCTCCACCAACCCCGCCGTGGTCACCTACGACCCCGCCTACGGCTACGAAATGGGCCACATCGTCCGCGACGGCATCGAACGCATGTACGGACCCTCCGCCGCCCCCGGCCCCGACGGGAAAGACGCGGACCGGAACCTGATGTACTACATCACCGTCTACAACGAACCCATCACCCAGCCCGCCGAACCCGAAAACCTCGACGTCAACGGCGTCCTGAAAGGCATCTACAAGCTCTCCGCCTCAACCGCCGAAGGACCCAAGAGCCAGATCCTGGCCTCCGGCGTCTCCGTCCCCTGGGCCCTGGAAGCCCAGCGGATCCTCGCCCAGGACTGGGGCGTCTCGGCCGACGTCTGGTCCGTGACGTCCTGGAACGAACTGCGCCGCGACGGCCTGGCCGCCGAGGAAGAAGCGTTCCTGAACCCCGGCGAACAAGCCCGCGTGCCCTTCGTGGCGCAACAGCTCGCCGGAGCCACCGGACCGGTCATCGCCGTCTCGGACTACATGAAAGCCGTCCCGGACCAGATCCGCCAGTTCATCCCGAACCACTTCGCCTCCCTCGGCGCCGACGGCTTCGGCTTCTCCGACACCCGCGCAGCAGCCCGCCGGTTCTTCAAAAACGACACCCACTCCATCGTCACGAAGACCCTGCAACTGCTCGCCGCAAACGGCGAGGTCGACGCCCAGGCTCCGGCTCAGGCTATCGAGAAGTACCGCCTGCACAACGTGAACGCCGGAACCACCGGCAACGCTGGCGGCGAAGCGTAA	MAAGEDTSHILSGLTNQLPDRDPEETAEWVESLDSLIREQGTERAQYIMRSLLQRAGAQSVGVPMVTTTDYVNTIPADQEAEFPGNEEFERRYRAYMRWNAAVMVHRAQRPDIGVGGHISTYAGAATLYEVGFNHFFRGKDAPGGGDQVFFQGHASPGMYARAFMEGRLTEQDLDGFRQEKSRAGHALSSYPHPRLMPEFWEFPTVSMGIGPMNAIYQAQSNRYLHNRGLKDTSDQQVWAFLGDGEMDEPESRGLLQLAANENLDNLNFVINCNLQRLDGPVRGNGKIMQELEAFFRGAGWNVIKVVWGREWDELLARDSDGSLVKIMNETPDGDYQTYKAESGGFVREHFFGKTPQTKDMVADLSDDQIWNLKRGGHDYRKVYAAYKAATEFKGKPTVILAKTVKGYGLGPHFEGRNATHQMKKLTLDDLKKFRDHLRIPVTDDQLEQDPYRPPYFHPGTDAPEIRYLLERRAALGGAVPERRAKHADITLPDPKSFEVAKRGSGKQQAATTMAFVRLLKDLMRDKDFGKHIAPIIPDEARTFGMDAFFPTAKIYNPKGQNYLSVDRDLVLAYKESAQGQLIHPGINEAGAVAAFTAAGTAYATHGVPLIPVYVFYSMFGFQRTGDAFWAAADQMTRGFIIGATAGRTTLTGEGLQHADGHSPILASTNPAVVTYDPAYGYEMGHIVRDGIERMYGPSAAPGPDGKDADRNLMYYITVYNEPITQPAEPENLDVNGVLKGIYKLSASTAEGPKSQILASGVSVPWALEAQRILAQDWGVSADVWSVTSWNELRRDGLAAEEEAFLNPGEQARVPFVAQQLAGATGPVIAVSDYMKAVPDQIRQFIPNHFASLGADGFGFSDTRAAARRFFKNDTHSIVTKTLQLLAANGEVDAQAPAQAIEKYRLHNVNAGTTGNAGGEA	PGPT0001385_294	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001385-aceE-K00163	NA	NA
D1-17_01619	420			putative protein	GTGAGTGAGGCCGACGCCGCCACTTCGGTAAATGTGGCGGAAAAATTGGGTTTCAAGGGCGGGGATCTGATTCAGGAGTTCGGTTACGACGACGACGTCGACTTCGACTTGCGTGATGACATTGAGGATCTGACCGGGGCAGAACTGCTGGATGAGGACGACCACGACGTCGTAGATGCCGTCATCTTCTGGTGGCGCGACGGCGACGGCGATCTCGTTGACACCCTTGTCGACTCGCTGACGACGCTCACTGAGGGAGGCGTCGTGTGGGTTCTGACCCCCAAGTCCGGCCGCCCCGGCTACGTTTCCCCCTCCGATATCCAGGACGCCGCCCCCACAGCCGGGCTGCACTGCACCACCTCTGTTGGAGTGTCCAAGGACTGGAGCGCCACGCGCCTGGTCACCAGGAAGAACAAGTGA	MSEADAATSVNVAEKLGFKGGDLIQEFGYDDDVDFDLRDDIEDLTGAELLDEDDHDVVDAVIFWWRDGDGDLVDTLVDSLTTLTEGGVVWVLTPKSGRPGYVSPSDIQDAAPTAGLHCTTSVGVSKDWSATRLVTRKNK				NA	NA	NA	NA	NA
D1-17_01620	504	ahpE	COG1225	Alkyl hydroperoxide reductase E	GTGAGTGCACCAGGCACCGTGGATTCCACGGCTGTCTGCGCAGTGCCCGGCATAGGGCAGCAGGCCCCGGACTTCACTCTGGCCAACCAGTACGGTGAGCCGGTCCGTTTGTCTGATTTCCGCGGACGGAACGTCGTCGTCGTGTTTTACCCCTTCGCATTCTCCGGAATCTGCACCGGCGAGCTGTGCGAAATCCGGGACAACCTGTCCATCTTCGAACATGCCGATGCCGAGGTGCTGGCCATCTCGGTCGACAGCAAATATGCCCTTCGTGCCTATGCCGAGCAGGAAGGCTACAGCTTCAGCCTGCTCGCGGACTTCTGGCCGCACGGTGCGGTGGCTGAGCAGTATGGCGTTTTTGACAGGGACAGCGGCATGGCCGGCCGTGGAACATTCATCATCGACGGCGAAGGCACAATCCGGTACGTCATAGTCAATCCTCGCGGGCAGGCCCGGGAGCTTGCCGAGTACCGCCGCGTGCTGGCAGGACTGGCGCAAGGCTGA	MSAPGTVDSTAVCAVPGIGQQAPDFTLANQYGEPVRLSDFRGRNVVVVFYPFAFSGICTGELCEIRDNLSIFEHADAEVLAISVDSKYALRAYAEQEGYSFSLLADFWPHGAVAEQYGVFDRDSGMAGRGTFIIDGEGTIRYVIVNPRGQARELAEYRRVLAGLAQG	PGPT0013145_120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013145-ahpE-K24120	NA	NA
D1-17_01621	930	cobB	COG0846	NAD-dependent protein deacetylase	ATGGACCAGCGGCGGACCGGCATAGGCCTGACAGGGTTTGCCAGTCTGCCGGCCGTGCCGCGCACGCCGCCCTCCCCGGCGGAACTCAGTGTCCTGGCAGACATCCGTGACCTGCTGTCCGGGCTGCGTCTGGCGCTCCTGACCGGTGCCGGACTCAGCACCGATTCGGGAATACCCGATTACCGCGGACCCGAATCCCCGCCCCGGTCGCCCATGACGTACCAGGAATTTGTGGGGGACGCCCGGAACCGGCAGCGGTATTGGGCACGGAACCATATTGGCTGGTCACACCTCCGGCGGGCCGATCCGAATGCCGGCCACGCCGCCGTCGTGGCGCTGGAACGCAGCGGCCTGCTCACCGGACTCATTACGCAAAACGTCGACAGGCTGCATGAGGATGCCGGAAGCACCAACGTGGTGGACCTGCACGGGCGTTTCGACCAGGTCATTTGCCTGGACTGCCGCCGCACCTACTCCCGGCAGTTGCTCGCAGGGTTGCTCGAAGAGCTCAACCCAATGTTCCTTCAGCGGGCGATGGAATCCGGGGCGGTGGAAATCGCACCAGACGCTGATGCCACAGTGGATGATTCCGAGCTGATCGGCAGCTTTGTGGTGGCGCAATGCCCAGCCTGCGGTGGAGTGCTGAAACCGGACTTCGTCTACTTCGGGGAGAACGTTCCCAAGGACAGGGTGGAACGCGCCTATTCCATGGTGGACGAGGCCGGGGCGCTGCTCGTTGCGGGGTCCTCGCTCAGCGTCATGAGCGGTCTCCGTTTTGTCCGCCACGCCGCCAAGCAGGGCAAGCCGGTGGTCATCATTAATCGGGGCGACACACGCGGTGATCCCCTCGCCACCATCAAACTGGCGGCCGGTGTGAGCGAAGCGCTGGGCTGGCTCGCCACCGAACTGCCTCCTGCGTCCCCGCCCTGA	MDQRRTGIGLTGFASLPAVPRTPPSPAELSVLADIRDLLSGLRLALLTGAGLSTDSGIPDYRGPESPPRSPMTYQEFVGDARNRQRYWARNHIGWSHLRRADPNAGHAAVVALERSGLLTGLITQNVDRLHEDAGSTNVVDLHGRFDQVICLDCRRTYSRQLLAGLLEELNPMFLQRAMESGAVEIAPDADATVDDSELIGSFVVAQCPACGGVLKPDFVYFGENVPKDRVERAYSMVDEAGALLVAGSSLSVMSGLRFVRHAAKQGKPVVIINRGDTRGDPLATIKLAAGVSEALGWLATELPPASPP				NA	NA	NA	NA	NA
D1-17_01623	219			hypothetical protein	ATGGTCGGCGCAGAGCCGGTCAGGTGGTTTGAACGTGTCAACTGGTGGGAAGCCGAGCGGCGGATGCCGCTGGGCCGCAGCCGGGTCGACGTAGAGGTCTGGCGCCTTCAGGCGAGGCTGGGACGGAACGCAGATTCTGCGCTCACCACCATGGAAATCCTGCGGGACGGGCTGGGAGGCGGATGGAGACTGCGGGATGCCACCCCGGACGCAGCGTAG	MVGAEPVRWFERVNWWEAERRMPLGRSRVDVEVWRLQARLGRNADSALTTMEILRDGLGGGWRLRDATPDAA				NA	NA	NA	NA	NA
D1-17_01624	753			hypothetical protein	ATGCTTACCCATATGTCGACCAGCCTCCACCACCGCGCCGTCGAAAACCTGGGCACCAGGATCGTCAGCGGCATCCTGCCTGCGGGCCATATCATGCTCGCCGAGCAGCTGGAGGATGAGCTTCAGGTCTCCCGGTCGGTGATCCGTGAAGCGGTGCGGGTGCTGCAGTCGCTGGGACTCGTGGAGACAACCAAGCGAGTCGGGATCAGGGTCCTTCCGCCACACCGCTGGAATCCGTTCGATCCCCTGGTGATCCGGTGGCGGCTTGCCGGTGAGGGCCGCGGCGCCCAGCTGCGCTCGCTCGCCGAACTACGAGCCGCCGTCGAACCCGTTGCAGCTGAGCTGGCGGCTGTCAATGCCCCCGCCGAGCTCCGGCAGGAGCTGCTGGACGTGGCCCTTGCCATGCGCGAGGCCGGCAAGGCCGGTGATGTGCCGCGCTTCCTGGAACTGGACATCCACTTCCATTCCCTCCTGCTAAGCGGGTCCGGCAACGAGATGTTCGCCAACCTGGTAGGGCAGGTGGCCGAGACCCTGACGGGACGGACCGTCCACGGCCTGATGCCCGACCGGCCCAGGGACCTCACGCTGCAATGGCATCTGGACGTGGCGGACGCCATCTTTGACGGCAACGCACCAGAGGCCCGGGAGGCGTCGAACAGGATCATGCGCCGGACCATTTCCGAGATGGAGCCGGTCTGGGTGGAACAGCCGCGGGTTTTTGTCCCGGTTCAGCGGCGGCAGCACACGGCCTAA	MLTHMSTSLHHRAVENLGTRIVSGILPAGHIMLAEQLEDELQVSRSVIREAVRVLQSLGLVETTKRVGIRVLPPHRWNPFDPLVIRWRLAGEGRGAQLRSLAELRAAVEPVAAELAAVNAPAELRQELLDVALAMREAGKAGDVPRFLELDIHFHSLLLSGSGNEMFANLVGQVAETLTGRTVHGLMPDRPRDLTLQWHLDVADAIFDGNAPEAREASNRIMRRTISEMEPVWVEQPRVFVPVQRRQHTA				NA	NA	NA	NA	NA
D1-17_01625	1437	gndA	COG0362	6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating	ATGTCTGCTCACATCGGTGTCACCGGCCTTGCGGTCATGGGTGCCAACCTTGCACGCAACCTGGCCCGTAACGGCTTCACTGTGGCACTTCACAACCGCTCGGTCGAAAAGACCGACACGCTGCTGGAAAAGTACGGCTCCGAGGGTGACTTCGTCCGCACCGAATCCCTTGAGGAACTGGTGAACTCCCTCGAGAAGCCGCGCCGCGTCCTCATCATGGTCAAGGCCGGCAAGCCGGTCGACTCCGTGATCGAGCAGCTCGAACCCCTGCTGGAAGCCGGGGACATCATCATCGACGCCGGCAACTCCCACTACGAGGACACGCGCCGCCGCGAAGCCGCCCTGGCCAAGAAGGACCTGCACTTCGTCGGCATCGGCGTTTCCGGCGGTGAGGAAGGCGCCCTGAACGGCCCCTCCATCATGCCCGGCGGTTCCAAGGAGTCCTACGATGCCCTCGGACCGCTGCTGGAAAAGATCGCGGCGAACGTCGACGGCCAGCCCTGCTGCGCCTGGATAGGCACTGACGGCGCCGGCCACTTCGTCAAGATGGTTCACAACGGCATCGAATACGCTGACATGCAGGTCATCGGCGAAGCCTTCGACCTGCTGCGCTCCGGTGCAGGCATCGAGCCGGCCGAACAGTCGAAGATTTTCGCCGAGTGGAACAAGGGCGAGCTTGCCTCCTTCCTGATCGAAATCTCCGCCGAGGTACTCGGCCACGTGGACAGCCGCACGGGCAAGCCCTTCGTGGACGTCGTCGTCGATGCCGCAGGACAGAAGGGCACCGGCCGCTGGACGGTCATCTCCGCCCTTGAACTGGGATCCCCGACGTCGGGCATCGCCGAGTCGGTCTTTGCCCGCGCCCTCTCCTCCCAGGCCGACCAGCGCAAGCTGGGCCAGGAGCTCCTCGCCGGTGAAGAAGCCAACGCCGAGATTCCCGAGACCTTTGTGGAGGACGTCCGCCAGGCACTCTACGCCTCCAAGCTCGTCTCTTATGCCCAGGGCCTGGACATGCTGACCTCGGCAGCCACGGAGTACGGCTGGGACCTGAAGCTCGATGAGATCGCGTCGCTGTGGCGCGGCGGCTGCATCATCCGCGCAGAGCTGCTGAAGGAGATCACCAAGGCGTATGCCGCCGAGGAAAAGCCGGCCAATCTGCTGTTCGCTCCGGCCTTCACCAAGGCCATCGCAGAGGTCCTTCCGGCATGGCGCCGCGTAGTGTCCACCGCTGTGCAGCTGGGCATCCCGGTTCCGGTGTTCTCTTCCTCCCTGGCTTACTACGACGGCCTGCGCCGCAAGCGCCTCCCGGCTGCCCTGATCCAGGGCCAGCGTGACCTCTTTGGTGCGCACACCTACGGCCGCATCGACGCCGAGGGAACTTTCCACACGCTGTGGGGCGAGGACAAGTCCGAAATCGAGGCTGTCGACACTCACTAG	MSAHIGVTGLAVMGANLARNLARNGFTVALHNRSVEKTDTLLEKYGSEGDFVRTESLEELVNSLEKPRRVLIMVKAGKPVDSVIEQLEPLLEAGDIIIDAGNSHYEDTRRREAALAKKDLHFVGIGVSGGEEGALNGPSIMPGGSKESYDALGPLLEKIAANVDGQPCCAWIGTDGAGHFVKMVHNGIEYADMQVIGEAFDLLRSGAGIEPAEQSKIFAEWNKGELASFLIEISAEVLGHVDSRTGKPFVDVVVDAAGQKGTGRWTVISALELGSPTSGIAESVFARALSSQADQRKLGQELLAGEEANAEIPETFVEDVRQALYASKLVSYAQGLDMLTSAATEYGWDLKLDEIASLWRGGCIIRAELLKEITKAYAAEEKPANLLFAPAFTKAIAEVLPAWRRVVSTAVQLGIPVPVFSSSLAYYDGLRRKRLPAALIQGQRDLFGAHTYGRIDAEGTFHTLWGEDKSEIEAVDTH	PGPT0017385_1911	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017385-gnd|gntZ-K00033	NA	NA
D1-17_01626	585	cysE	COG1045	Serine acetyltransferase	GTGGCCTTCTTCGCAAGACTTAAGGAAGACCTCGACGCCGCCCGGTCCCACGACCCGGCGGCTCGAGGTTCTTTTGAGAACTTTTTCGCGTATTCCGGACTTCACGCCATCTGGGCACACCGGCTGACGCACAGGCTCTGGCAGAACCCGTCCCTGCGCTTTCCCGCACGCCTGATTTCACAGCTGGCACGGTTCCTCACCGGCATCGAGATCCATCCGGGCGCAACCATTGGCCGGCGTTTCTTCATTGACCATGGCATGGGCGTGGTCATCGGGGAGACAGCCGAAATTGGCGATGACGTGATGATCTACCACGGCGTGACGCTCGGCGGGCGGTCACTGGCGAAGGTCAAGCGGCACCCCACCATCGAGGACCGCGTCACCATCGGCGCCGGCGCCAAAATCCTCGGCCCGATCACCATCGGGCGGGACAGCGCGGTGGGTGCGAACGCCGTCGTCGTCAAGGACGCTCCGCCGGAATCCATCGTTACCGGCGTCCCCGCCACCTGGCGCCACCGCGACGCTCAGCGGGAAACCACGCCGGCTGTGGATCCCGCCGAATACTACATCGAATACCGTATCTGA	MAFFARLKEDLDAARSHDPAARGSFENFFAYSGLHAIWAHRLTHRLWQNPSLRFPARLISQLARFLTGIEIHPGATIGRRFFIDHGMGVVIGETAEIGDDVMIYHGVTLGGRSLAKVKRHPTIEDRVTIGAGAKILGPITIGRDSAVGANAVVVKDAPPESIVTGVPATWRHRDAQRETTPAVDPAEYYIEYRI	PGPT0020265_4803	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0020265-cysE-K00640	NA	NA
D1-17_01627	936	cysK1	COG0031	O-acetylserine sulfhydrylase	ATGGCACGGATCTACGACGATGTAACGCAGCTGGTAGGCGGCACCCCGCTCGTCAGGCTGAACCGCCTGACCGAGGGCCTGGAAGCCCAGGTCGCCGTCAAGCTCGAGTTCTACAACCCGGCCAACAGCGTCAAGGACCGCATCGGCGTCGCGATCATCGATGCCGCGGAAAAGTCCGGCGCTCTTAAGCCCGGCGGAACCATCGTCGAAGGCACCTCCGGCAACACCGGTATCGCGCTGGCTATGGTGGGTGCGGCCCGCGGCTACAAGGTCATCCTGACCATGCCGGAAACCATGTCCACCGAACGCCGCGTCATGCTGCGCGCCTTCGGCGCCGAGATCGTGCTGACCCCGGGTTCCGAGGGCATGCGCGGCGCAGTGGAAAAAGCCAAGGAAATCGTGGCCAGCACTGAGAACTCCATCTGGGCCCAGCAGTTCGCCAACGAGGCCAACCCGGAGATCCACCGCAAGACCACGGCCGAGGAGGTCTGGGAGGACACCGACGGCAAGGTCGACATCTTCGTCTCCGGGATCGGCACCGGCGGCACCATCACCGGCGTCGGTCAGGTCCTGAAGGAGCGCAAGCCGGACGTGCAGATCGTCGCGGTTGAGCCCAAGGACTCCCCTATCCTTAACGGCGGCGCACCCGGCCCGCACAAGATCCAGGGCCTCGGCGCCAACTTCATTCCGGAGCTGCTGGACACCAACGTCTACGACGAGGTACTGGACGCCACCTTGGAAGACTCCGTCGCCGTGGCCCGGGAGCTGGGCGTCAAGGAAGGCATCCTCGGCGGCATCTCCTCCGGAGCCATCGTCTGGGGCGCGCTGGAGCTGGCGAAGCGCCCCGAGAACGCAGGGAAACTGATTGTGGCAGTCGTCTGCGACTTCGGTGAGCGTTACATCTCCACCGTCCTCTATGACGACATCCGGGGCTAG	MARIYDDVTQLVGGTPLVRLNRLTEGLEAQVAVKLEFYNPANSVKDRIGVAIIDAAEKSGALKPGGTIVEGTSGNTGIALAMVGAARGYKVILTMPETMSTERRVMLRAFGAEIVLTPGSEGMRGAVEKAKEIVASTENSIWAQQFANEANPEIHRKTTAEEVWEDTDGKVDIFVSGIGTGGTITGVGQVLKERKPDVQIVAVEPKDSPILNGGAPGPHKIQGLGANFIPELLDTNVYDEVLDATLEDSVAVARELGVKEGILGGISSGAIVWGALELAKRPENAGKLIVAVVCDFGERYISTVLYDDIRG	PGPT0002810_5177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002810-cysK-K01738	NA	NA
D1-17_01628	525	msrAB		Peptide methionine sulfoxide reductase MsrA/MsrB	ATGAAAACTTTTGTGCTTGGCGGAGGCTGCTTCTGGTGCCTGGACGCCGTCTACCAGAAGACCAAGGGCGTGACCTCTGTGGTTTCGGGGTACACCGGCGGCCACGAACAGCACCCTGACTACTACTCCGTCTGCTCGGGAACCACTGGCCACGCGGAAGTTGTGGCGGTGACATTCGATGAGGACATCATTCCGCCCGACGTCATCCTGGACATGTTCTTCGCGCTGCACGATCCCACCACACTTAACCGCCAGGGGTACGACGTCGGAACGCAATACCGCTCGTCCATGTTCTACGAGACCACTGAAGAAAAGATCCTCTTCGAGGAAGCGATTGAACGGAACCAGGCCCTCTGGTCACATCCGATAGTCACAGAAGTCAGCCGGCTTCCCGTGTTTTACCCGGCGGAACAAATCCACCAGAACTACTACGCGAAGTTCCCCGAGCAGGGCTACTGCCAGGTGATTATCAACCCGAAACTGGCCAAGGCCCGGAAATATTACTCTTCATGGCTTAATGCTTAG	MKTFVLGGGCFWCLDAVYQKTKGVTSVVSGYTGGHEQHPDYYSVCSGTTGHAEVVAVTFDEDIIPPDVILDMFFALHDPTTLNRQGYDVGTQYRSSMFYETTEEKILFEEAIERNQALWSHPIVTEVSRLPVFYPAEQIHQNYYAKFPEQGYCQVIINPKLAKARKYYSSWLNA	PGPT0013065_5140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
D1-17_01629	915		COG0327	GTP cyclohydrolase 1 type 2	ATGAGTATGGAACCTGTGAACAGCGGCGTTGCAGAAGAACCGGCAGAGCCAGCGGGCATGCCCGAAGCCGGGGCGGCGCCCACGCTCGGGCAGCTCATGCTCGCCGTTGAAGAGCTCTGGCCCGAGTCGCTGGCGGAGGAGTGGGACGAGGTGGGCCTTGTTGCCGGCCACCCGTCGGCGCCCGTCAGCCGGGTCATGTTTGCCGTTGATCCCACGCTCGAGGTCATCGACGAGGCCATCGAATGGGGCGCCGGTCTGCTTATCACGCACCACCCACTGCTGCTCAAAGGCGTAACCTCTGTCGCGGCCAACACGCCCAAGGGCAAGGTGGTCCACCGTCTCATCGAATCGGGCACGGCCCTCCTGACGGTGCACACGAACGGCGATTCCGCCGTCGGAGGCGTTTCCGACGTCCTGGCCGATGCCCTGGGGCTCGAAAACGTCACTCCGCTCACTCCTGCTGCCAACGGACTTCCCGAGGAGGGCATTGGGCGTGTCGGTGATCTTGCCGAGGCAATGTCCCTCGGTGACTTCGCCGCCCGCGTGTACGGGATCCTGCCCTCCGTTGCCGGCGGCGTGAGGGTTTCGGGGGACCGCGATGGACTGGTGCGCCGCATTGCCGTCTGTGGGGGTGCCGGCGATTCACTTTTTGATGAGGTGCGGGCCAGCAGCGCCGATCTCTATGTGACAGCCGACCTGCGGCACCATCCGGCGTCCGAGGCGCGTGAGGCAGCCGCCAACGGCCGCCCCTACCTCATTGATGTGTCCCACTTCGCGAGCGAATGGCTGTGGCTGCCTGCCGCGGCGGACGCGCTGGGCAATGTCCTTACCGACCAGGGGCTGGACGTCGAGATCCGCGTCAGCAGCACCAACAGCGATCCGTGGGACTTCATTCTCACTCCCGGTGGGGACTAG	MSMEPVNSGVAEEPAEPAGMPEAGAAPTLGQLMLAVEELWPESLAEEWDEVGLVAGHPSAPVSRVMFAVDPTLEVIDEAIEWGAGLLITHHPLLLKGVTSVAANTPKGKVVHRLIESGTALLTVHTNGDSAVGGVSDVLADALGLENVTPLTPAANGLPEEGIGRVGDLAEAMSLGDFAARVYGILPSVAGGVRVSGDRDGLVRRIAVCGGAGDSLFDEVRASSADLYVTADLRHHPASEAREAAANGRPYLIDVSHFASEWLWLPAAADALGNVLTDQGLDVEIRVSSTNSDPWDFILTPGGD				NA	NA	NA	NA	NA
D1-17_01630	738		COG1579	putative protein	GTGGCCAAGGCAGCACCGGCGGAACAGTTTAAGTTGCTCGAACTTCAGGGGCTGGACGCCAAACTCAAGTCCCTCGCCAACCGCCGCCGCACTCTGGAAGCAGATCCGCGGATCACCGATCTGGAAGCCGCCCTCGCTGTAGCCCAGGGTGAATTGGGGGCCGCCAAGCTCGCCGTCCATGACGCCGAAGCGGAGCTGAAGCGCGCCGAGGCGGACGTCGAGCAGGTGGCAGGGCGCATTGAACGCGACGAAGCCAGGCTGAACAGCGGAACGGGCCTGTCCAAGGACCTGGTGGCGCTGCAGAAAGATATCGCATCACTCAATAAGCGGCGGTCCGACCTCGAGGACGTAGAGCTCGAAGTGCTGGAGCGGCTCGACTCCCTGCGCGAGCGCCAGGCGGCGCAGCAGAAAATTGTCGATGACGTCCAGGGTTCCTTCGCCGTGATCCGGGCGGAACTGGATGAGCAGCTGGCAGAGATCACCGCTGAAGAGGCCGTTGTGCGCGGTCGCAGGGCAGAGTTCGCCGCAGGGTTGGACGACGGTCTGCTGGCAGTCTACGAAAAGACCCTTGCCCGGCGGGGAGTCGGCGCTGCCAGGCTTTTCCACGGCACCTCTGAGGGGTCAGGCATGCAGCTGAGCCCGGGCGACCTTGCTGAGATCAAGGCCGCGGCCGAGGATGACATTGTCTTCTGCCCTGACTCCGGCTGCATCCTGGTGCGCTCAGCAGAGTGGGTGTGA	MAKAAPAEQFKLLELQGLDAKLKSLANRRRTLEADPRITDLEAALAVAQGELGAAKLAVHDAEAELKRAEADVEQVAGRIERDEARLNSGTGLSKDLVALQKDIASLNKRRSDLEDVELEVLERLDSLRERQAAQQKIVDDVQGSFAVIRAELDEQLAEITAEEAVVRGRRAEFAAGLDDGLLAVYEKTLARRGVGAARLFHGTSEGSGMQLSPGDLAEIKAAAEDDIVFCPDSGCILVRSAEWV				NA	NA	NA	NA	NA
D1-17_01631	765			hypothetical protein	GTGCTGATCCTGCTTCCCCCGTCCGAAGGCAAAACCCCTGCGACCCGTGGCGACGCCATGGACTGGACCTCGCTGAGCTTCCCCGACCTCAACCCCTGCCGGGCCAAAATCCTTGAGGCACTTGGTACGGTGAGCGCGCATGAGGACGCCCTCGCACTCCTGGGCGTAGGAGCGTCACTGCAGTCCGACGTCGAACGGAACACCCGGCTGCACGCCGAACCGGCCGCGCCGGCCCACCAGGTGTATTCCGGGGTGCTGTACGACGCCCTCGGCTACAAGTCGATGACGGGGCCGCAGCGCCGCAAGGCCGATGAATCGGTCCTGGTGATCTCCGCCCTCTGGGGCGCCATCCGTTTCGCGGACTCCGTGCCCGCGTACCGGCTGTCGATGTCAACGTCGCTGCCCGACGTCGGCCGTCTTGCCTCGTTCTGGAAGCCGCAGCTGACGGACGCCCTGGCCGCCGCGGTGTCCGGGCAGCTGCTGGTGGACTGCCGCTCCAGCACCTACGCCGCGGCGTGGACTCCCCCGGCGGCGTCGACGGTGACGGTCAACGTTTTCACTGAGGTGAACGGCGTGCGGAAGGTGGTCAGCCACTTCGCGAAGCACACCCGCGGCGAACTCGCGCGGCATCTGCTGACCCGGCCCGGAAAGGCACCGCAAACGCCAGCACAGCTACACAAGGCCGCCGGTGAGAAGTGGAACGCCGAACTTGTGCCCGGCACGGCGCGCAAGGCACACGCCCTGAACATCATCCTGCCCAACTAG	MLILLPPSEGKTPATRGDAMDWTSLSFPDLNPCRAKILEALGTVSAHEDALALLGVGASLQSDVERNTRLHAEPAAPAHQVYSGVLYDALGYKSMTGPQRRKADESVLVISALWGAIRFADSVPAYRLSMSTSLPDVGRLASFWKPQLTDALAAAVSGQLLVDCRSSTYAAAWTPPAASTVTVNVFTEVNGVRKVVSHFAKHTRGELARHLLTRPGKAPQTPAQLHKAAGEKWNAELVPGTARKAHALNIILPN				NA	NA	NA	NA	NA
D1-17_01632	891			hypothetical protein	ATGGACGCGTCAGCATTGACCCGCCGCCGGCTGCTTCAGCTGGCGGGCATCGCCGCCGGCATGTCCGCCGCCGCGGCATGCACGCCGCTCCCGCCCTTTCCTGCTCCCGTACCGCTTCCCGGCTACACGCGTCCGACGGCGGCTCCCGGACCGGGCGGCTGGCCCAGAATAATGGTCCGCACCGGCCAGTTCGTTTCCGCCTACCGGCCGGGACCAGCCACACGCTGGTCACTGGCGGCGCCTCACCAGCAGGACGGGGCGCAGCTTCCACTCGTGCCTGTGGCCGTGTTCCTGCACGGCCTTGGCAGCAGCCACCGGTTCATGCTCGATGACCTCGCCGCTGACGAGGTGCTGCAGCGGCATGTGGATGGAGGCGGAACCCCCTTCGCGATTGCAGCTGTGGACGGCGGCGACACCTGGTGGCATGCGCGCAGGGACGGCAGCGACACGCAGTCGATGCTGGTGCGGGAATTCGTTCCTTTCCTCGGCGTGCAGGGCTTTGATCTCGGGCAGATCGGGCTTTTCGGCCTCTCCATGGGCGGCTTCGGCGCCCTGTTGTTGGCCTCGCAGGCGCGGCTGCCCGGCATCCGGGCCGTGGCCGCGATGAGCCCGGCCATCTGGTCCCGTCACGGCGCACGAATGAAAGGCGCCTTTGACAGCCCGGCGGATTTCGCGGCGAACGACGTCTTCGCGCTCCGCCCCCGGCTGGCGGCCATTCCCAAACGTATCGACTGCGGCAGGGATGACGAGCTCGCGGCAACCGTCCGCGAATACGTCAGCGCGCTCCCGGGCCCGGTGGAAGGAGGATTCCTGCCCGGCGGGCACGACACTGCTTACTGGCGCTCAATCCTGCCCACAGTGTTGTCCTTCCTCGGCCGGAACCTTGGCTGA	MDASALTRRRLLQLAGIAAGMSAAAACTPLPPFPAPVPLPGYTRPTAAPGPGGWPRIMVRTGQFVSAYRPGPATRWSLAAPHQQDGAQLPLVPVAVFLHGLGSSHRFMLDDLAADEVLQRHVDGGGTPFAIAAVDGGDTWWHARRDGSDTQSMLVREFVPFLGVQGFDLGQIGLFGLSMGGFGALLLASQARLPGIRAVAAMSPAIWSRHGARMKGAFDSPADFAANDVFALRPRLAAIPKRIDCGRDDELAATVREYVSALPGPVEGGFLPGGHDTAYWRSILPTVLSFLGRNLG				NA	NA	NA	NA	NA
D1-17_01634	555			hypothetical protein	ATGGATGGCCGCTACTCCCGCCCCGGCAACGGTGCGGGAATACAGAACCCGGCGTATCGGTCAACCCATCCACTCAACACGCTGGAAAGGTACACTCCGGTGATGGACGCGCAGCGGCAGGAAAAGCCCAACGAGGAGCAGGAAGCGGAGTTCACGGGCAACCGGGAACGGTTCGCCGCCCAGCCATGGCACGGCATTGACCCAAGACTGTCCATGCTCCTCGCGCCCATCCTGGGCCCTGACCGTGAGGATCCGCATGGCACCATTGAGCTCACGGTTATTGTTGACGGGACCATAATCTCCGGCTCGGTAGCGAGTGAAGAAGCCTGGTCCCGGCGCCAGAATGCGCAGGTCATCACAGCAGGCGAGTATTTGCCGGCAGTACCCGACGGCGTGCAGGAGAACGGCGTGCGGGAGAACCAGATCCGGTTCATCCATTTCCTTGAGCCCGTAGTAATCTCCGGCGGAAACCCCATCCACCTGAACGCTACGAGGGTGGACCTCCGCAACGTTGCTGCCTGGAGCATTGGCCGCCTCCAGTACGGCGAAAAATAG	MDGRYSRPGNGAGIQNPAYRSTHPLNTLERYTPVMDAQRQEKPNEEQEAEFTGNRERFAAQPWHGIDPRLSMLLAPILGPDREDPHGTIELTVIVDGTIISGSVASEEAWSRRQNAQVITAGEYLPAVPDGVQENGVRENQIRFIHFLEPVVISGGNPIHLNATRVDLRNVAAWSIGRLQYGEK				NA	NA	NA	NA	NA
D1-17_01635	1494	gap2_1		Glyceraldehyde-3-phosphate dehydrogenase-like protein	GTGAGCCAGACGTCAGATTCTTGTCTTGATACGTGGATGGGCCGCGAGGCACTCGCCGAGGCCATGATCCCCGTGATCGGCCGGTTGTACCGGGAAAACAACGTGGTCACGTCGATCCACGGCCGCAGCCTGATCAACAAGTCCACCATGAACATCCTCAAGGCGCACCGCTTCGCCCGCCGGATGAGCAAGGATGAGCTGCTCCTGGAGGAGACGGCCCCGCTGCTGAACACCCTGGCCACGCTGGACTTGGGTGCAGCTGCCATCGACATCGCCCGCCTGAACCAGAAGTACAAGTCCGACGGCGGCGACCTCACTCTCGAGGAGTTCCTCCGTGCCGAACTGGCTGAGATTGTCGGCAAGCGCGGGGCAGACGACCGCACCAGCACCGACGTCGTGCTGTACGGTTTTGGCCGCATCGGCCGCCTGCTCGCCCGTCTCCTCATCGAAAAGGCCGGCGGCGGGCACGGCCTGCGCCTGCGCGCCATCGTAGTGCGCCGCGGCTCTGACAACGACCTGGCCAAGCGTGCCAGCCTCCTGCGCCGCGACTCCGTCCACGGCTCCTTCGAGGGCACCATTCAGGTGGACACCGAGGCTAACACCATCACGGCCAACGGCGTCCGGATCCAGGTCATCTACTCGGACAACCCTGCGACCATCGACTACACGGCCTACGGCATCAACAATGCCCTCGTGGTCGACAACACCGGCCGCTGGCGCGACGCCGAAGGCCTTGGCCAGCACCTGCTCAGCAAGGGCGTGGCCAAGGTCCTCCTGACGGCGCCGGGCAAGGGTGAACTGAAGAACATCGTGCACGGCATCAACCACCGCGACATCGCAGATTCGGACAAGATCGTGACGGCAGCGTCCTGCACCACGAACGCGATCACCCCGGTGCTGAAGGCTCTCAATGACAAGTACGGTGTGATCCACGGCCACGTGGAGACCGTTCACTCGTTCACGAACGACCAGAACCTGATCGACAACTTCCACAAGGGCGACCGCCGCGGACGTTCCGCCGCTCTGAACATGGTGATCACCGAAACAGGCGCCGCCAAGGCCGTGGCCAAGGCACTGCCGGAACTGCAGGGGAAGCTCACCGGCAGCTCCATCCGGGTGCCCACCCCGGACGTGTCCCTGGCTGTCCTGAACCTGAACCTGGAACGGGGCACCACCAAGGACGAGGTCAACGACTTCCTGCGCGAGATGTCGCTGCACTCGGACCTGCGCAAGCAGATTGACTACATCGATTCCCCTGAAGTGGTCTCCACCGACTTCGTGGGCTCGCGCCGTGCCGGCATTGTTGACGGCCTTGCCACCATCTCCAACGACAAGAACCTGGTTGTTTACGTCTGGTACGACAACGAGTTCGGGTACAGCTGCCAGGTAGTCCGCGTCATGGAGGAAATGGCTGGGGTCAACCCGCCGACCTTCCCCGCCAAGGACTCCGTGAAGGACGCCGCTCCGGTACTGGCTGCCGCAGCCTCCGTCTAA	MSQTSDSCLDTWMGREALAEAMIPVIGRLYRENNVVTSIHGRSLINKSTMNILKAHRFARRMSKDELLLEETAPLLNTLATLDLGAAAIDIARLNQKYKSDGGDLTLEEFLRAELAEIVGKRGADDRTSTDVVLYGFGRIGRLLARLLIEKAGGGHGLRLRAIVVRRGSDNDLAKRASLLRRDSVHGSFEGTIQVDTEANTITANGVRIQVIYSDNPATIDYTAYGINNALVVDNTGRWRDAEGLGQHLLSKGVAKVLLTAPGKGELKNIVHGINHRDIADSDKIVTAASCTTNAITPVLKALNDKYGVIHGHVETVHSFTNDQNLIDNFHKGDRRGRSAALNMVITETGAAKAVAKALPELQGKLTGSSIRVPTPDVSLAVLNLNLERGTTKDEVNDFLREMSLHSDLRKQIDYIDSPEVVSTDFVGSRRAGIVDGLATISNDKNLVVYVWYDNEFGYSCQVVRVMEEMAGVNPPTFPAKDSVKDAAPVLAAAASV	PGPT0018000_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018000-gapA-K00134	NA	NA
D1-17_01636	210			hypothetical protein	ATGGAACACGACCGGACACTCCAGCACGAGACAACACTGGAACACGCCCTCGACGTGGCGCGGGCCAACCAAAAAGAGGCACAGCGCCTGCTCGACGAGGCAAAGACAGCACATGCCGCCGGCGAGATCGGTCAAGAGCGGGTCTCCCAGCTGGAGCGCCTTCTCGAACTGGCCAATGAAGATCTGCGGCGGGTTATGAGGGAGCAGTAG	MEHDRTLQHETTLEHALDVARANQKEAQRLLDEAKTAHAAGEIGQERVSQLERLLELANEDLRRVMREQ				NA	NA	NA	NA	NA
D1-17_01637	798			hypothetical protein	ATGACCGTCAGCTGGAGCGCCTACAGGCGGGCGCGCAGACGCTCGCGCCAGGCCTGGGCCCTGCTCGCAATTGCGGGTGCCTTTTTTGTCGCCGGCGTTGCCTGGTTCTTCACAGCAGGCCAATTCCTCGCCGTTGAGCCGCAGATATCAGGCCCCGGCACGGCTCCCGTCTTCAATCCCGCTTGGATGAAACCAGTGGTGGCGCCCCGGCGGGTGCCCTCCGGCAGTGCCGCCGCGGCGCTGGAGACCCTGCCGGTAAAGGGGCGGGCGGCGAAAAACGACTACGACAGGTCAGCCTTCGGCCAGGCCTGGTTCGACGCTGACCGCAACGGGTGTGACACCCGCAATGACATTCTGCGCCGTGACCTGAACGGCGTCGTTTACTTTAAGGGCTCCCGGTGCAAAGTGGCGTCAGGGACGTTCCACGAACCCTACACCGGAGCGCGCGTCACGTTCACGCGCGGCGCCGATTCCAGCAAGGCCGTCCAGATCGACCATGTGGTGGCGCTGGGCGACGCGTGGCAAAAGGGCGCCAGGCAGCTCACACTCCAGGAACGCCAGAGCCTGGCCAACGATCCGATCAACCTCATCGCAGCCGACGGACCGGCCAACCAGGAAAAAAGCGCTTCGGATGCGGCCGGCTGGCTGCCTCGGAACAAGGCGATCCGTTGCCACTATGTCGCCCGGCAGATCTCAGTGAAAGCCGCCTACGGGCTTTGGGTGACGCAAGCCGAAAAGGACGCTATGGACCGTGTCCTCGGCTCCTGTCCGGGCCAGCAGACCATCATCGCCCGGTAG	MTVSWSAYRRARRRSRQAWALLAIAGAFFVAGVAWFFTAGQFLAVEPQISGPGTAPVFNPAWMKPVVAPRRVPSGSAAAALETLPVKGRAAKNDYDRSAFGQAWFDADRNGCDTRNDILRRDLNGVVYFKGSRCKVASGTFHEPYTGARVTFTRGADSSKAVQIDHVVALGDAWQKGARQLTLQERQSLANDPINLIAADGPANQEKSASDAAGWLPRNKAIRCHYVARQISVKAAYGLWVTQAEKDAMDRVLGSCPGQQTIIAR				NA	NA	NA	NA	NA
D1-17_01638	573	def_1	COG0242	Peptide deformylase	ATGACTGTTCTGCCGATCACCATCTGGGGCGAACCCGTTCTGCACCGCCGGGCGGCCGAAGTCGAAGTCTTCGACGACGAGCTCCGCCAGCTGATCGCCGACATGTTCGAAACCAATGACAAGGCCAACGGCGTGGGCCTCGCAGCGCCTCAAATCGGCGTGGGTAAGCGTATCTTCGTGTATAAGTACGAGAACGAGGACGGCGCACCGCCGAGCGGCGTGCTGGTCAACCCCGTCCTCACCCTGTCCAAGGTTTCCGGCGCCCTGCCGGATCCGGACGAGGAGGCCGAGGGCTGCCTCTCCTTTCCCGGCGGCCAGTACCCCCTGAAACGGGCCGAATGGGTGCGGGTGAAGGGGTTCGACGGATACGGGGAACCGGTCGAGTTCGAGGCCACCGGCTGGTTCGCGCGGGTGATGCAGCACGAATACGACCACCTCGACGGGAAGCTCTACGTCAACCGCCTCCTTGACCGCTATGCACGCAAGGCTCTGAAGCAAGCCAAGAAGAACGGCTGGGGTGTCCCCGGGCTGACTTGGATGCCGGGCGTCGATCCTGATCCGTTCGGGCACTGA	MTVLPITIWGEPVLHRRAAEVEVFDDELRQLIADMFETNDKANGVGLAAPQIGVGKRIFVYKYENEDGAPPSGVLVNPVLTLSKVSGALPDPDEEAEGCLSFPGGQYPLKRAEWVRVKGFDGYGEPVEFEATGWFARVMQHEYDHLDGKLYVNRLLDRYARKALKQAKKNGWGVPGLTWMPGVDPDPFGH				NA	NA	NA	NA	NA
D1-17_01640	696	orn	COG1949	Oligoribonuclease	GTGCCTATATCTAACGAACGCATCGTCTGGATCGACTGCGAAATGACCGGTCTCGACACCGTCAACGACGCCCTGATCGAAGTCGCCGCGCTGGTGACGGATTCCGAACTGAACATCCTCGGGGACGGGGTGGACGTGGTCATCAAGCCGGACGACGCGGCCCTGGCCCAGATGAATGACTTCGTCCGGGACATGCACACCCGTTCCGGTCTTCTGAAAGAGCTTCCGGCCGGCAAGACGCTCGCCGAGGCCGAGGAAGCAGTCATGGCCTACATCCGCAAGTGGGTTCCGGACGTGCGCAAGGCACCGCTGGCCGGGAACTCGGTTGGGACGGACCGGGTCTTCCTGGCCCGGGACATGCCCGCCGTCGTGGAGCACCTGCACTACAGGGTCATCGACGTCAGTACCATCAAGGAACTGGCCCGGCGCTGGTTCGCCCGCGCGTACTTCCAAGCCCCGGCCAAACTGGGCGGACACCGTGCCCTCGGCGACATTAAGGACTCCATTGATGAGCTCCGCTACTACCGGGAGGCAGTCTTCGTTCCCGCTCCGGGCCCGGACAGCGCCACTGCCCTGAAGATTTCCCGGCGCATCGCCGCCCAGCCCGAGGTCATCGATCAACTGACGCAGGGCATCGCAGGAAAGCAGGCGGCAGCAGAGGGCGCATTGCCGAGCGAAGCGGGACCATCCGCCTAA	MPISNERIVWIDCEMTGLDTVNDALIEVAALVTDSELNILGDGVDVVIKPDDAALAQMNDFVRDMHTRSGLLKELPAGKTLAEAEEAVMAYIRKWVPDVRKAPLAGNSVGTDRVFLARDMPAVVEHLHYRVIDVSTIKELARRWFARAYFQAPAKLGGHRALGDIKDSIDELRYYREAVFVPAPGPDSATALKISRRIAAQPEVIDQLTQGIAGKQAAAEGALPSEAGPSA	PGPT0017710_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
D1-17_01641	1557			hypothetical protein	ATGACGGCGCCAGTGCCCGAGACGGAGGAAAGAGCCACAGGCACTTCCGCGGACCTGGGCCTGGCGGAAGTGGACAACCCCTGGTCGCCCCTTCTTTCCGGATTCGTTGGTTCGCTTTTCCTTGTGATCGGTTCCCTCGGTGTCGGCTGGCTTGCCCCGGCATCCGAACTGCGGCGGCTGCCGCTGTTCATATGGATGCGTACGGAGGCCCTGGGGGTTGCCCTTTCCATCGTACTTATCGCCGTCGGCGGCATGCTGCTGGTGCGGGCGTGGCTCCGGCTCGGCCAGCGCGTCCGCGTCTGGGGCCCGGCCGCCCGCAGAGCCACCCTGCAGGCGGTCGCAGCCTGGGGCCTGCCCATGATGTTCACGGTTCCGCTCTTCAGCCGCGATGTCTATGCCTACATCGGGCAGGGCCGGCTGATGGTGGAGGGATTTAACCCCTACGAGAACGGCATCTCGGCGCTTTCAAACTACTTCCAGCTCGGCGCCGACAAGATGTGGACAGAGGCGCCTGTGCCGTACGGGCAGCTCTTTCTGTGGATCGAACAGCTCGTCGTCTGGTCCACGAACGTCCATCCCGAGGCCAGCATCATGCTCTTCCGGCTGGCCGCCCTGGTGGGCGTGGTCCTCTGCATCATCTACGTCCCCAAACTCGCGGAACTTCACGGGGTCAACCCGCACCGGGCGCTCTGGCTCACGGCGGCGAACCCGCTGTTCCTGACGAACTTCATCGCGAGTGTCCACAACGACGCCCTCATGATCGGCCTGGCCCTCGCCGGTCTCTATTACAGCGCCACCCGCCGTGTGATCCTGGGAATAGTGCTCGTCACCCTGTCCATCTCCATCAAGCCCATCACCGTGGTGTTCCTCCCGTTCATCGGGCTGCTCTGGGCCGGCAAGGATGCGGGGTGGACGCGAAAATTCGTTTTTTGGGGCTTGACAGCAGGACTCAGCTTTGCCCTGCTGTACGCCATGAGCCTGGTAAACGGCTTCGGCTTCGGCTGGATCAACGGGCTCTCGGCCCCCGGCAGCGTCTGGATCTGGTACGCCCCTGTAGGGCTGCTCGGTCTCGTGGTGGCGTCCATCGCCAACGCCTTCAGCCTGGACGGCTGGGGACTGGCCAAGTGGGTTTACGACGCCGGCAAGCTGCTCGCCGTCGGCATCGTCGCCTGGCAGATCTTCAAAGGTGACCACGACCGGATCATGCGCCGGCTGACGCTGGCCTTTGCCGCCGTCGTCGTGCTCGCGCCGATGATCCAGTCCTGGTACGTCGTGTGGCTGATCCCGCTGTTTGCCATAACCGGCATCCGGGACGACTGGCAGGTCAAGGCGCTCTACTTTATTGTGTCCTTCTTCATGGTGTACGCCATTTCAGACCAGCTTGAGGTTTTCCCATATCTCCAGTCCGAGGACCTTGGGCTCGCATTGGCCCTTGCCAGGAACGCTGCCGCGATTATTGCCCTGCTGTTCGCCCTGTACCTGATCTTCATGGATCCCAGGACCAAGCTGCTGTTCAGCAAGTCAGACCAGCCGGTCACTACCCGTCCCGTCATCTGA	MTAPVPETEERATGTSADLGLAEVDNPWSPLLSGFVGSLFLVIGSLGVGWLAPASELRRLPLFIWMRTEALGVALSIVLIAVGGMLLVRAWLRLGQRVRVWGPAARRATLQAVAAWGLPMMFTVPLFSRDVYAYIGQGRLMVEGFNPYENGISALSNYFQLGADKMWTEAPVPYGQLFLWIEQLVVWSTNVHPEASIMLFRLAALVGVVLCIIYVPKLAELHGVNPHRALWLTAANPLFLTNFIASVHNDALMIGLALAGLYYSATRRVILGIVLVTLSISIKPITVVFLPFIGLLWAGKDAGWTRKFVFWGLTAGLSFALLYAMSLVNGFGFGWINGLSAPGSVWIWYAPVGLLGLVVASIANAFSLDGWGLAKWVYDAGKLLAVGIVAWQIFKGDHDRIMRRLTLAFAAVVVLAPMIQSWYVVWLIPLFAITGIRDDWQVKALYFIVSFFMVYAISDQLEVFPYLQSEDLGLALALARNAAAIIALLFALYLIFMDPRTKLLFSKSDQPVTTRPVI	PGPT0024280_159	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGMANNOSYLTRANSFERASE_ACTIVITY,PGPT0024280-mptA-K14337	NA	NA
D1-17_01642	768	map-1	COG0024	Methionine aminopeptidase 1	ATGTCCATGCTCAAGAGCCCTGACGAAATAGCCTTGATGCGCGAAGCCGGCCGCGTTGTGGCGAACGCGCTAAACGCAGTCCGCGGGGCGGCCGCCGTCGGCGTTTCCCTCAAGGAGCTCGACGGCGTTGCTGCCGCCGCCATCGCCGCTGCCGGCGCCACTCCCGCCTTCCTCAACTACCGGCCGCGCTGGGCGCCGGTGCCGTTCCCGGGAGTCATCTGCACCAGCGTGAACGACGCCGTTGTGCACGGCATTCCCAACGGATACCGGCTGCAGGACGGGGATCTCCTCAGCGTTGACTGCGGGGCGTTCCTTGAAGGGTGGTGTGGGGACGCCGCCGTCAGCTTCATCGTGGGTACCCCCGATCCCGTGGACCAGGCGCTCATCGACGCGACGGACGCGGCCCTCGCCAGAGGCATTGACGCCGCCCGGGTGGGAAACAAGATGGGCGATCTCGCTTACGCCATCGGCGGCGCCGCACGCCGGGCAGGCTACGGACTCCTTGCCGACCACGGCGGACATGGTATCGGTCGGACCATGCACGCGGAGCCGTCCGTGCCCAACGACGGACGACCGGGCAGGGGTCTGAAATTGACAGAAGGGCTTGTCATCGCCATTGAGCCGATGCTCATCCTCGGCGGCAAGGGGGACTATTACCACGACGAGGACGAGTGGACGCTGCGTTCCGCGAACGGCCGCCGGGCGGCCCACAGTGAGCACACCGTGGCCATCACGGCCGATGGGCCTGTAATTCTGACAATGCCCTGA	MSMLKSPDEIALMREAGRVVANALNAVRGAAAVGVSLKELDGVAAAAIAAAGATPAFLNYRPRWAPVPFPGVICTSVNDAVVHGIPNGYRLQDGDLLSVDCGAFLEGWCGDAAVSFIVGTPDPVDQALIDATDAALARGIDAARVGNKMGDLAYAIGGAARRAGYGLLADHGGHGIGRTMHAEPSVPNDGRPGRGLKLTEGLVIAIEPMLILGGKGDYYHDEDEWTLRSANGRRAAHSEHTVAITADGPVILTMP	PGPT0020010_7609	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020010-map-K01265	NA	NA
D1-17_01643	462			hypothetical protein	ATGTCGCAGAGTGGATCCGAGCGGGACCCGTTCGAGCAGGACCGGCCGGGACGGAAGGCCCCTGATGCAACCCCTGGCCCTCCCCTGCCCGCAGATGGCCGGCCTTCGGCCGGCGGTGAAGGGCAGCTCAGGCCTGGCACCGCGGCGCTGCCGGACTACAAGGGCACCCCGCCGCCGCCCGCCGGCGACACCCGTCGTCCGGTCACGCGGGCAGGCATGATCTGGGCAGCGGTCGCGTCCGCACTGGTCGTGCTCGTGCTGCTCATCATTTTCATCCTGCAGAACCAGGTGTTGGTGCAGGTCAAGTTCTTCGGGCTGGAGGGCGTCGTGTCCCTTGGCCTCGCCCTGTTCATCGCGGCAGTGGCCGGCGGTGTGTTAGTGGCCATGGCCGGGGCGGCCCGGATCATCCAGCTTCGCGCGGCAGATCACCGGCGGCGTGTTGCCGAGATGCGCAGGCGCTGA	MSQSGSERDPFEQDRPGRKAPDATPGPPLPADGRPSAGGEGQLRPGTAALPDYKGTPPPPAGDTRRPVTRAGMIWAAVASALVVLVLLIIFILQNQVLVQVKFFGLEGVVSLGLALFIAAVAGGVLVAMAGAARIIQLRAADHRRRVAEMRRR				NA	NA	NA	NA	NA
D1-17_01644	216			hypothetical protein	ATGGCTGATGATGACGAATTTAGAGAGCAGCTGGCCCGTGTGGATGCGCTGTACCACGAGGTCTTGGCGTTACGACAAGGCGCAAAGGATGGCGTTGCACCCGGCAAGGAGGAACTTGTCCTTGCGGAGCTGCGGCTGGATAACGCATGGCGGGAGCTGTATGAGTTCATGGACCTTCCGCTGTCCCGTACTGAAGGGCCAGCCGACAGTCCTTAG	MADDDEFREQLARVDALYHEVLALRQGAKDGVAPGKEELVLAELRLDNAWRELYEFMDLPLSRTEGPADSP				NA	NA	NA	NA	NA
D1-17_01646	564			Single-stranded DNA-binding protein	ATGAGTGACAACATTACGGTCCGGGGCTTCGTGGCCACGGAGATCAGGAGCTCCACCACATCCGGCGGCGTCGCCACTGCCTCCTTCCGCCTCGGCTCCACAGAGCGCCGCTACGACCGTTCCAGCAACACGTGGGTGGACGGCCACACCAACTGGTTCACCGTCCAGGGTTATCGGCAACTGGCCGGAAACATGGGGTGCAGCGTTAAGAAGGGGCAGCGCGTCATCATCGTCGGACGGCTGAAGCTGCGCAGCTGGGAAAAGGAGGGCAGGATCTATCACGCTGTCGAGATAGACGCCGAATCGGTCGGGCATGACCTGATGTGGGGTTCCGCCAATTACACGCGGAACGCCGGCAACAAAGGGCAACCGGCCGCTGCGGTGGCGGCCGGGGAGAGCGCTGGAGGGCCTGGTTTCGATTCGGGCTCCCCTGACGGCGATGACCCGCTGACTGACGACGAAGGAGACGACGACTCTGCTGCCGGTGTTTTCGTCGATGACACCACCGGCGATCCCCTCCAGCTCGACTCCGACACGGGCGAGCTCACCGGAGCCGCAGCCTGA	MSDNITVRGFVATEIRSSTTSGGVATASFRLGSTERRYDRSSNTWVDGHTNWFTVQGYRQLAGNMGCSVKKGQRVIIVGRLKLRSWEKEGRIYHAVEIDAESVGHDLMWGSANYTRNAGNKGQPAAAVAAGESAGGPGFDSGSPDGDDPLTDDEGDDDSAAGVFVDDTTGDPLQLDSDTGELTGAAA				NA	NA	NA	NA	NA
D1-17_01647	291			hypothetical protein	TTGACCGCGGCGCAGAAGAAGATGACGGACACGCTGGCCGCCGTAGCAGCAGGGACCCCGAAACCCGGAACGGAGCAGATCAGGCAGGCACTAACGGCGGCAGGATTCCCTGCCGCCACCCTTGAGGTTTCTGCCGGCAAGACACCGACAGGCCTCGATGTCGATTCGATCGAAGCCGCAGCAGCCCACGGACGCGACTGCGTCATAGGCCAGATCCGCGACGGCAAGGTAACAGTGACGGTGCTGCCCGTCCTCGCGGGCGGGAAGTGTTTCGTCGGAGCCGGCGGGTGA	MTAAQKKMTDTLAAVAAGTPKPGTEQIRQALTAAGFPAATLEVSAGKTPTGLDVDSIEAAAAHGRDCVIGQIRDGKVTVTVLPVLAGGKCFVGAGG				NA	NA	NA	NA	NA
D1-17_01648	1683	ettA_1	COG0488	Energy-dependent translational throttle protein EttA	ATGGCGGAATTTATCTACACAATGACCAAGGCCCGTAAGGCTGTTGGTGAAAAACTTATTCTTAACGACGTCAGCATGTCGTTCTTCCCGGGTGCCAAGATCGGCGTGGTTGGCCCCAACGGTGCCGGTAAGTCCACCATCCTTAAGATCATGGCAGGGCTGGACACACCCTCGAACGGCGAGGCCCGGCTGAGTCCCGGCTACACGGTTGGCATCCTGCTCCAGGAACCGCCGCTGAACGAGGAAAAAACCGTCCTAGGCAACGTCCAGGAAGGCGTTGGCGAGATCTACGGCAAGATCCAGCGGTTCAACGAAATCTCCGAGGAGATGGCCAGCCCGGACGCCGACTACGACGCGCTGCTGGAGGAGATGGGCCACCTCCAGGAAGCTATTGACGCCGCCGACGCCTGGGATCTTGATTCCCAGCTCGAGCAGGCCATGGACGCGCTCCGCTGCCCGCCGGCCGACGCCGATGTCACGCTGCTGTCCGGCGGTGAGCGCCGTCGCGTCGCGCTCTGCAAACTGCTGCTGCAAAAGCCCGACCTGCTGCTCCTCGACGAGCCCACCAACCACCTCGACGCCGAGAGCGTGCTGTGGCTGGAACAGCACCTGTCCACCTACGCCGGCGCCGTCCTGGCGGTCACCCACGACCGGTACTTCCTGGACCACGTGGCCGAGTGGATTGCAGAAGTCGACCGCGGTCACCTGTATCCCTACGAGGGCAACTACTCCACATACCTGGAGAAGAAGCGCGCCCGCCTTGAAATCCAGGGCAAGAAGGACGCCAAGCAGGCCAAGCGCCTCTCCGAGGAACTCGAATGGGTGCGCTCCAACGCCAAGGGCCGCCAGACCAAGTCAAAGGCCCGCCTGGCCCGCTACGAGGAGATGGCGGCGGAGGCTGACCGCACCAGGAAGCTGGACTTCGAGGAGATCCAGATTCCGCCGGGACCGCGCCTGGGCGGTCTGGTCCTGGAAGCCAGGAACTTGCAGAAGGGCTTCGATGACCGCGTCCTGATCGACGGGCTGTCCTTCTCCCTGCCCCGCAACGGCATTGTCGGCGTCATCGGCCCCAACGGCGTGGGCAAGTCGACGCTGTTCAAGACCATCGTGGGCCTTGAGCCGCTCGATGGCGGCGAGTTGAAGATTGGCGACTCCGTCAAGATCTCCTACGCAGACCAGAGCCGCGGCGGCATCGACCCGAACAAGACCTTGTGGGAGGTAGTGTCCGACGGTCTCGACTTCATCCAGGTCGGTAACGTCGAAATGCCGTCCCGCGCCTACGTCGCCGCCTTCGGCTTCAAAGGCCCGGACCAGCAGAAGAAGGCAGGAGTCCTCTCAGGCGGTGAGCGCAACCGGCTGAACCTGGCGCTGACCCTCAAACAGGGCGGCAACCTGCTGCTCCTCGACGAACCGACAAACGACCTGGATGTCGAAACCCTCAGCAGCCTCGAAAACGCCCTGCTCGAATTCCCGGGCTGCGCCGTGGTGGTTTCGCACGACCGCTGGTTCCTGGACCGGGTCGCCACCCACATCCTGGCCTACGAAGGCGATGACGAGAACCCGTCGAAGTGGTACTGGTTCGAGGGCAACTTCGAATCCTACGAGGAAAACAAGGTGGAGCGGCTCGGTCCCGACGCCGCCAAGCCGCACCGCGTCACGCACCGCCGCCTGACCCGCGACTAA	MAEFIYTMTKARKAVGEKLILNDVSMSFFPGAKIGVVGPNGAGKSTILKIMAGLDTPSNGEARLSPGYTVGILLQEPPLNEEKTVLGNVQEGVGEIYGKIQRFNEISEEMASPDADYDALLEEMGHLQEAIDAADAWDLDSQLEQAMDALRCPPADADVTLLSGGERRRVALCKLLLQKPDLLLLDEPTNHLDAESVLWLEQHLSTYAGAVLAVTHDRYFLDHVAEWIAEVDRGHLYPYEGNYSTYLEKKRARLEIQGKKDAKQAKRLSEELEWVRSNAKGRQTKSKARLARYEEMAAEADRTRKLDFEEIQIPPGPRLGGLVLEARNLQKGFDDRVLIDGLSFSLPRNGIVGVIGPNGVGKSTLFKTIVGLEPLDGGELKIGDSVKISYADQSRGGIDPNKTLWEVVSDGLDFIQVGNVEMPSRAYVAAFGFKGPDQQKKAGVLSGGERNRLNLALTLKQGGNLLLLDEPTNDLDVETLSSLENALLEFPGCAVVVSHDRWFLDRVATHILAYEGDDENPSKWYWFEGNFESYEENKVERLGPDAAKPHRVTHRRLTRD				NA	NA	NA	NA	NA
D1-17_01649	972	tesB	COG1946	Acyl-CoA thioesterase 2	ATGACTGAAGCGGACGCCGGATTGCAGGAACTGCCTACGAATGACCCCACGACGTCACTGATCGAACTGCTCAATCTTGGTGAACTTGAGGGCGCCCGGACGGACGAAGACATCTTCATGGGCCCGTCCCAGCGCCAGCCGCACCAGCGTGTGTTCGGCGGCCAGGTGCTCGCACAGGCACTGATAGCGGGAATGCGCACTGTGGATCCGGACCGCCCGGTGCATTCCATGCACGGCTACTTCCTGCGGCCCGGGGACGCAGACAAGCCCATCACGTTCGGCGTGCAGCGGCTGCGGGACGGCCGGTCCTTCTCTGCTCGTCGGGTCCACGCGTACCAGGACGGTACGCCGATCCTGTCCATGATCGCCTCCTTCCAGGCGGAGGACGAGGGTGTGGAGCACCAGTCGGAAATGCCTCAGGGAATCCCCGATCCTGAGTCTCTGCCCAGCACGGCCGATCTGCTGGGAAAATTTGACCACCCCGTGGCGCGGCACTGGTCCTATGAGCGGCCCTTTGACATCCGGCACGTGAACCCGGCCCTGTATGTCGCGGCCACCGGCAAAAAGGAAGCCCGCAACGCCGTCTGGATGAAGACCTTCAGCCGCATGCCGGACGACGCCAACCTCCACCGCGCGGCCCTCGCCTACGCCAGCGATTACACGCTGCTCGAATCGATCCTCCGCAAGCACGGGCTGAGCTGGATCACGCCCGGGATGAGCGTAGCGAGCCTGGACCACGCGATGTGGTGGCACCGGCCAGTGCGGGTGGACGAGTGGCTGCTCTATGTCCAGGAATCACCCAGCGCCCAGGGTGCCCGGGGGCTGGCCACCGGCAAGATCTTCAACCGCGAGGGGCTGCACGTCGCATCCGTGGCACAGGAAGGCATGGTCCGGGTGCCGACCGACTTCAAAAGCAAGGTGGCCGGGGCTTTCCAATCCAAAGTCCTGCAACACCAGATGCGCCGGGGCTGA	MTEADAGLQELPTNDPTTSLIELLNLGELEGARTDEDIFMGPSQRQPHQRVFGGQVLAQALIAGMRTVDPDRPVHSMHGYFLRPGDADKPITFGVQRLRDGRSFSARRVHAYQDGTPILSMIASFQAEDEGVEHQSEMPQGIPDPESLPSTADLLGKFDHPVARHWSYERPFDIRHVNPALYVAATGKKEARNAVWMKTFSRMPDDANLHRAALAYASDYTLLESILRKHGLSWITPGMSVASLDHAMWWHRPVRVDEWLLYVQESPSAQGARGLATGKIFNREGLHVASVAQEGMVRVPTDFKSKVAGAFQSKVLQHQMRRG	PGPT0001835_50	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805	NA	NA
D1-17_01650	663			hypothetical protein	GTGTCCGATCTCCTCACCCAGTCCTTCCGTTTCGCAGATCCCCGCGATCTGGCCGACCTGCGCACCTTCGCCACGCGCGCCAAGGCCATCGACGACGGCGCCATACGCCTCCAAGGTGCGGGCCAGGTCCTGGCGGCCTACGTCTGCATCCTTCGGCCCCGGATCCTGGGGGAGTCCACACCGACCATCCTCGGCCTGCGGACCATCGGCCTCGCCGAACCGTCCGCGGTCGACGTGACCGTGCCGCTGGCGGCTGTCCTGGACCGGCTCGCCCGGGCAGGGGAGAAGGACGCCGAACTGCCGGTTCCGCCGTCGACGGTCACTGAATCCTGGGCGGGCGTGGGAGCGCCGCGCGGTGGCTGGGAGCTGATTGGCTCTGTTCCCGATGATGAACTGCGGCGGGCCGCCGAGGCCGGCATGTCAGAGGTGGCAGAAATAGTGCCGGACAATCCGGGAGCACTGATTGTGAACAACGCCCGCGCCACCGTATGGGGACGGGAGTTGGAAGGCCGTTCCGGACTTCCCGCCGGTGCAGCCTTCGCGGCCCTTGCGCTCGGGTTCCTGGGCAGTGACGAGCAGCGCCTGTATCGTGCGGGGCGGTGGTTCCGCCTCAGCGGCAGCCGCGGGCACGTCCTGGCCCGGACGGGCGCCGGCCTGCTCTAG	MSDLLTQSFRFADPRDLADLRTFATRAKAIDDGAIRLQGAGQVLAAYVCILRPRILGESTPTILGLRTIGLAEPSAVDVTVPLAAVLDRLARAGEKDAELPVPPSTVTESWAGVGAPRGGWELIGSVPDDELRRAAEAGMSEVAEIVPDNPGALIVNNARATVWGRELEGRSGLPAGAAFAALALGFLGSDEQRLYRAGRWFRLSGSRGHVLARTGAGLL				NA	NA	NA	NA	NA
D1-17_01651	459	glbO	COG2346	Group 2 truncated hemoglobin GlbO	ATGACCCTTCCCACACCATCCGAACCCAATGCGCCCCGGCAGCTGATGCGCAACGATCCCTTCAGCCAGCCGGGGTACACCGACAACTTCTACGACGCCGTGGGCGGCCACGAAAGCTTCGTAAAGCTCATCGACGTCTTCTACGACGGCGTGGCCACGGACCCGCTGCTGCGGCCAATGTATCCCGAAGAGGACCTCGGCCCTGCGAAGCGGCGGTTCCTGATGTTCCTGGAGCAGTACTGGGGCGGGCCCACGACGTACGGGGAAGAGCGCGGACACCCGCGGCTGCGGATGCGCCACATGCCGTTCCGCGTCACGCCCGAGGCGAAGGACCGCTGGCTGCACCACATGCGTACGGCCGTGGACTCACTTGAGCTGCCGCCGCTGTACGAAGGCACTCTCTGGGACTACATGGAACGCGCTGCGCTCTCCATGGTCAACAGCCCGTCGGATTCCTGA	MTLPTPSEPNAPRQLMRNDPFSQPGYTDNFYDAVGGHESFVKLIDVFYDGVATDPLLRPMYPEEDLGPAKRRFLMFLEQYWGGPTTYGEERGHPRLRMRHMPFRVTPEAKDRWLHHMRTAVDSLELPPLYEGTLWDYMERAALSMVNSPSDS	PGPT0018560_1759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-17_01652	672			hypothetical protein	ATGTACAGCATGTTTACAACGCCTACGGCCTCGCTTGAGCCCGCGGGCTTCAACGTTGCCGGAATCGCGATCAGCCTCGGCGCAGGCATTCTCCTGTGGCTGTTGGCAACGTACGTGATCTCACGGATCACCAAGCGGGTCGCCAGCGGAACTACGCTGTTCAAAAAGCCCCACTTCCGCTGGGTCGCCCCCGCCCTGCGCGCTCTCGACCATGAGCGCCGCGCCCAGCGGGCCAGGACCATCGGGTCGCTGCTGAACAGCGTTGTGGGCGTGGTCCTCGCCGTCATTACCAGTATTTATGTCCTGAAGAACCTCGACGTCGACGTCGCGCCGCTGCTGACCAGCGTCGGAATTTTCGGTATCGCCATCGGTTTCGGTGCCCAGCAGCTCATCCGCGACTTCCTGGCCGGCATCTTCATCACCATCGAGGACCAGTACGGCATCGGTGACGTCATCGAGACCAGCGAAGTGGTGGGCGTGGTGGAATCCATCGGGTTGCGGATCACCCGCGTCCGGGACGAAAACGGCGCCATCTGGTACCTCCGCAACGGCGAGATCCTCCGCGTGGGCAACCGCTCGCAGGGCAACTACGTACCTCCGGCAGAGGAGCCGGGCGCCGGGCCGCTGGAAGCGGAAGCACAGCACGGACCGCAGCAAAAGGCCGGAGAATAG	MYSMFTTPTASLEPAGFNVAGIAISLGAGILLWLLATYVISRITKRVASGTTLFKKPHFRWVAPALRALDHERRAQRARTIGSLLNSVVGVVLAVITSIYVLKNLDVDVAPLLTSVGIFGIAIGFGAQQLIRDFLAGIFITIEDQYGIGDVIETSEVVGVVESIGLRITRVRDENGAIWYLRNGEILRVGNRSQGNYVPPAEEPGAGPLEAEAQHGPQQKAGE	PGPT0013695_2860	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
D1-17_01653	501			hypothetical protein	ATGGCCCTTGGCGAGCATCACTATGCGCTGACCGTACGCTGGACCGGCAACCTCGGAACGGGCACGTCGTCCTACCGGGACTATTCCCGTGACCACGACATCGAAATCCCGGGCCTGCCGGTCCTTAAGGGCTCTGCCGACCCCACCTTCCACGGCGACCGTACGCGGTACAACCCGGAGCAGCTGCTGCTCACGGCGCTCGCACAGTGCCACATGCTGTCCTTCCTGCATGTCGCAGTGAAGCACGGGGTTGTGGTGATGTCCTACGAGGACAACGCCACCGGGATGCTGCGGCTCAACCGGGACGGCAGTGGGCAGTTCGAGACCGTGACGCTCCGACCCCGCGTCGTGGTGGCGGACCCCGCGCACGTCGCGCTGGCCGAGGAGATGCACCGGCAGGCCAACGCGGTGTGTTTCATCGCCCGCAGCGTAAACTTCCCCGTGCTGCACCTTCCCCATACCACACCCGCGGAGCGCCAGCTGCCCGCTCAGTCCGGCTAG	MALGEHHYALTVRWTGNLGTGTSSYRDYSRDHDIEIPGLPVLKGSADPTFHGDRTRYNPEQLLLTALAQCHMLSFLHVAVKHGVVVMSYEDNATGMLRLNRDGSGQFETVTLRPRVVVADPAHVALAEEMHRQANAVCFIARSVNFPVLHLPHTTPAERQLPAQSG				NA	NA	NA	NA	NA
D1-17_01654	2562	pepN_1		Aminopeptidase N	TTGCCAGGCATGAACCTGACGCGCACCGAAGCACGTGAACGCGCCGACCTGATCGCCGTCGATTCCTATGACGTCAGCCTGGACCTCACGAGGGGAGAAAAAGTCTTCGGTGCCACAACCACCGTCAGGTTCAGCGCCGCCCCTGGATCCTCCACTTTCATTGACGCTGTCACCGAGACCGTCCACAGGGTGACGTTAAATGGGCGGGAGCTTGATCCGGCGGAGGTTTCGGACGGTGTCCGCATCCAACTGCCCGTCCTTGCCGCGCAGAACGAACTCACCGTGGTCGCCGATACGCCCTACATGAACACGGGCGAGGGGCTGCACCGCTTTGTTGACCCGGTGGACGGCGAGGTGTACCTGTACACCCAGTTCGAGGTGCCGGACTCACGCCGCATGTTCGCCGTGTTCGAACAGCCGGACCTCAAGGCCGCTTTCACGTTCCGGGTGACGGCGCCGTCGCACTGGGATGTCGTTTCCAACTCCCCCACCCCGGTTCCGGTGCAGACGTCTCCGGGTTCTGCCGGCGGTGCCCGTTCCATCTGGGAGTTCGCGCCAACGCCGCGGCTCTCTTCCTATGTGACCGCTTTGGTCGCCGGCCCCTACCAGTCGGTGCGCAGCGATGTCACCAGTTCGGATGGCCGCGTCATTCCGCTCGGCGTGTTTGCCCGCAAATCGCTGATGCAGTACCTGGACGCCGATAACATCTTTGAGCTCACGCGCCAAGGATTCGAGTTTTTCGAAGCGCAGTTCGGCTGCCCGTACCCGTTCGAGAAGTACGACCAACTCTTCGTGCCGGAATTCAATGCCGGCGCGATGGAAAACGCCGGCGCTGTGACCATCCTGGAGGGCTACGTCTTCCGCGGCAAGGTCCCGGAAGCCCAGGTGGAGCGCCGTGCCATCACCGTCCTGCATGAACTGGCGCACATGTGGTTCGGCGACCTCGTGACCATGCGCTGGTGGAATGACCTGTGGCTCAATGAGTCCTTCGCCGAGTACATGTCCCACCTCGCCGCCGTGGAAAGCACCAAGTTCCAGAGCGCCTGGACCACCTTCGCCTCCGTCGAGAAATCCTGGGCCTACCGCCAGGACCAGCTCCCCACCACGCACCCGATCTTCGCCGACATCAACGATCTTCACGATGTGGAGGTCAACTTCGACGGCATTACCTACGCCAAGGGTGCATCGGTACTGCGCCAGCTCGTGGCCTGGGTGGGTTCCGAGCAGTTCATGGCCGGCGTCCGGGAGTACTTCGGCAAGCATGCCTGGGGCAACACGGAACTGGCGGACCTGATGGCGGAACTGGAGAAAGCCAGCGGCCGAGACCTTGACCGGTGGGGCCGGCTCTGGCTCGAAACGGCCGGGGTAAACACGTTGCAGCCCGAGCTGACGGTGGATGCCGACGGCACGATCACCGACTTTGCCATCCTCCAGTCAGCCATCGCAGAACAGCCGACCCTGCGACCGCACCGCCTCGCCGTCGGGTTCTATGACGTCTCCGAGGACGGGAAGCTGGAGCGCGTCCACCGTGAGGAGCTCGACGTCGACGGCGAACGCACAGCAGTGCCTGCGCTCGCCGGACTGCGGCAGCCCGACCTGGTCCTCCTCAACGACGACGACCTCGCCTACGCCAAAGTCCGCCTGGACGGGAAGTCCCTGGCCACCGCCACGTTGCACCTGAAGGATTTCCGGGAGAGCCTGCCCCGCACGCTGGTCTGGGGTTCAGCCTGGGACGCGGCCCGCGACGGCGAGACCCCCGCACGCGGCTACGTGGACCTGATACTGGCCAACATCGCCGCGGAAAGCGATTCGTCCGTCATCCTGGTCCAGCTTCGGCAGCTTGCCACCACACTGACCTTTTATGTTGCGGAGCAGCACCGTGAACCCACGATCGTGTCGGCCGCGGACCGGCTCTGGGACTTGGCTGTTGCCGTGCCGGGAGGGTCCGATGCGCAGTTGCAGTTCGTGAAGTCGTACGCCCTGCTGGCCCGCAGTGAGCAGCAGCTCGACACTGTCGCCGGATTGCTGGACGGTTCAGCCACGCTCCCGGGCCTGACGGTGGACCAGGACCTGCGCTGGGAGCTCGTGGCCTCCCTTGTTGTGGGCGGCCGAATCGGCCAGGAACAGATCGACGCGGAACTGGAAAAGGACAACACGTCCAGTGGACAAAATGCTGCGGCGCTGGCCAAGGCAGCTATTCCGACCCCCGAAGCGAAGGCAGCGGCCTGGGAGTCGATCGTTGTCATTGGTGATCTCTCCAACGCCATCCAGGCCTCGGCGGTCGCCGGCTTCACGCGCGTGTTGGATACCGCGCTGCTCGAGCCGTACTCGGAAAAGTACTTCCAGGCAGTCCCCGGGATCGTCGCGGAGCGCACCCACGCGCTGGCGCAGCAGATCGTCCTCGGGCTCTACCCGGCCCAGCTGACCACTCAGGAGACCATCGACCGCACCGACGCGTTCCTCGCGGCGCTCCCGGAGGAGAGCGCGGCGCTGCGCCGGATGATGCTCGAAAACCGCGACGGCGTAGCCCGGGCGCTGCGGGCACGCGCGGCTGACGTCTGA	MPGMNLTRTEARERADLIAVDSYDVSLDLTRGEKVFGATTTVRFSAAPGSSTFIDAVTETVHRVTLNGRELDPAEVSDGVRIQLPVLAAQNELTVVADTPYMNTGEGLHRFVDPVDGEVYLYTQFEVPDSRRMFAVFEQPDLKAAFTFRVTAPSHWDVVSNSPTPVPVQTSPGSAGGARSIWEFAPTPRLSSYVTALVAGPYQSVRSDVTSSDGRVIPLGVFARKSLMQYLDADNIFELTRQGFEFFEAQFGCPYPFEKYDQLFVPEFNAGAMENAGAVTILEGYVFRGKVPEAQVERRAITVLHELAHMWFGDLVTMRWWNDLWLNESFAEYMSHLAAVESTKFQSAWTTFASVEKSWAYRQDQLPTTHPIFADINDLHDVEVNFDGITYAKGASVLRQLVAWVGSEQFMAGVREYFGKHAWGNTELADLMAELEKASGRDLDRWGRLWLETAGVNTLQPELTVDADGTITDFAILQSAIAEQPTLRPHRLAVGFYDVSEDGKLERVHREELDVDGERTAVPALAGLRQPDLVLLNDDDLAYAKVRLDGKSLATATLHLKDFRESLPRTLVWGSAWDAARDGETPARGYVDLILANIAAESDSSVILVQLRQLATTLTFYVAEQHREPTIVSAADRLWDLAVAVPGGSDAQLQFVKSYALLARSEQQLDTVAGLLDGSATLPGLTVDQDLRWELVASLVVGGRIGQEQIDAELEKDNTSSGQNAAALAKAAIPTPEAKAAAWESIVVIGDLSNAIQASAVAGFTRVLDTALLEPYSEKYFQAVPGIVAERTHALAQQIVLGLYPAQLTTQETIDRTDAFLAALPEESAALRRMMLENRDGVARALRARAADV				NA	NA	NA	NA	NA
D1-17_01655	1017			hypothetical protein	ATGGGTAAGTTCCTCGATTCGGTGGACGTCAAGGCCCTGCGCTTCGCGGTCGGGTTTCCCGTGCTGCTCGCCGCGGCCTTCGCACTCAGCGCCGTGCTGCTGCGTCCTGACCTTCCGGAACCGCTGGCGATCCAATGGAACGACGGCGGCGGCATCAGTTTTGCCCCCTTCGCCGCGTATGTAGGGGTTGGCGCCGCCATGATCATCGCTGCCGGCTGGCTGGTGCTCCTGCAGGCCGTACCCGTCTCGCGGCCCACCCTCATGCGGCGGATCATGATGGGCGCCGGACTCACGCTCAGCCTGTTCGTCACCACCGTCCTCGCAGCAGGCATGGTGGGGCAGGCGGGCGAGGCTGACGCCCGGGAATCGCATGTGGACCTCATCGTGCTGTCTACCGGAAGCGGCGCAGCCCTCGCGCTCGGCGTCATCATGGGATTCGTTTTCAAGGCTGACCAGCAGTGGACGCCCGAGGACGACCGGGCGCTTCGGCGGGAGCTGGAGTTGGAGCTTGATCCCGAACTCGCCACCGACTCGATGAGGCTGTGGGTGCACGCCCGCAGCTCCGTCTTCGTCATGATCGGAATCGCCAGTCTCTTCCCGGCCTCGCTCATCGCGATTGCCGTCCCCTGGCTGGGTGTCCTGCTCGTGGCAGCTGCCATCATCGGCGCGGCTTTCCTGTTTGCCCGCGTCACCGCCGACCGCAGTGGGCTGCGGGTTTTCGTCGCCGGGATACTGCGCGTCGTCGATGTTCCAGCCGGGGCGATTTCGGCCGCAGCCCCCGCAGACGTCCGCGCAGCCGACTACGGGGGCTGGGGCTACCGCAACCACGGGGAAACTGCCGCCGTACTGGTGAGCAGCGGGCCCGCCGTCGTCGTCCACAAAACCGACGGCCACAGGCTCGCCGTAAGCGGCGGCAACATCGCCTCTGCTGCCCGCCTCGCCGAAGTCCTCACACGCGTTGCCGCACGCGCCCGGCAGGACAGCCGTCCTGCCTCCGAGGACGAAGGGGACGCGTAA	MGKFLDSVDVKALRFAVGFPVLLAAAFALSAVLLRPDLPEPLAIQWNDGGGISFAPFAAYVGVGAAMIIAAGWLVLLQAVPVSRPTLMRRIMMGAGLTLSLFVTTVLAAGMVGQAGEADARESHVDLIVLSTGSGAALALGVIMGFVFKADQQWTPEDDRALRRELELELDPELATDSMRLWVHARSSVFVMIGIASLFPASLIAIAVPWLGVLLVAAAIIGAAFLFARVTADRSGLRVFVAGILRVVDVPAGAISAAAPADVRAADYGGWGYRNHGETAAVLVSSGPAVVVHKTDGHRLAVSGGNIASAARLAEVLTRVAARARQDSRPASEDEGDA				NA	NA	NA	NA	NA
D1-17_01656	495	rpiB	COG0698	Ribose-5-phosphate isomerase B	GTGACAACAACCCCTGCATTCCCGCGGGTCCACATCGCCACTGACCACGCCGGCATGGAGCTGAGCGCCCATCTGGTCAGCCATCTGTCGGCCAAGGGCTACGAAGTGGTGGACCACGGACCCAAGGAATACGACGCCCTGGATGACTACCCGTCGTTCTGCATCAACGCCACGCTTGCCGTTGTGGCCGACCAGCAGGCAGGCGTGCACGCCCTGGGCATCGTGCTGGGCGGCTCAGGGAACGGCGAGCAGATCGCAGCGAACAAGGTCAAGGGGGCCCGCGCGGCGCTCGCCTGGAACCACTCCACCGCAGTTCTGGCCCGGCAGCACAACGACGCCAACGTGGTGGCCGTCGGCGGCAGGCAGCACAGCGTGGAGGAAGCGACGGAACTCATCGAGGCGTTCCTGCAGGAACCGTTCAGCAACGACGAGCGCCACATCCGCCGCATCGGCAAGATCGCCACCTTCGAAACCACCGGCGAGGTCGTCGAGTAG	MTTTPAFPRVHIATDHAGMELSAHLVSHLSAKGYEVVDHGPKEYDALDDYPSFCINATLAVVADQQAGVHALGIVLGGSGNGEQIAANKVKGARAALAWNHSTAVLARQHNDANVVAVGGRQHSVEEATELIEAFLQEPFSNDERHIRRIGKIATFETTGEVVE	PGPT0017395_235	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0017395-rpiB-K01808	NA	NA
D1-17_01657	963	nei1_1	COG0266	Endonuclease 8 1	GTGCCCGAGGGGCATACCATACACCGGCTCGCGCGCCAGTTCCGTGACGTGTTCGCGGGCCGGCGGCTTGCCGTCACAAGCCCACAGGGCCGCTTCTCCGCCGGGGCGGCCCTGCTGGACGGCCACACACTGACGCGCTCGGACGCCCACGGCAAGCACCTGTTCCTGCGCTTCGAGCACGGCCTGGTGCTGCACGTCCACCTCGGCCTCTACGGCGCGTGGGACTTCGGCGGCGACCGCGAATTCAAGGGAGCATCCAGCATCGGAGCGCCGCGCAGGGTAGGGGAACGGGAGGTGCCCGGCGGTACGCCCGCTGCCGGCACCCCTTCTGAGGCTGCCTCCGATGGTGAACCTGTTTATGAGGGCCCGCCGGAACCCGTCGGAGCCGTGCGCGTGCGCTTGGCCAGCGACCATGGCTGGGCAGATTTGCGCGGTGCGACCACGTGCGCAGCGATCACGGAAGCTGAAGCGGCGACAGTCCTGCGGAGGTTGGGCCCGGATCCGCTGCAGGCGTCCGGCATGGGCCACGCGGCACGTCCTGCCGGGGACGGGCGCGGGGGGCGCGAGGACTTCGTTAGCTTGGTCATCACACGAAGAACCCCCATCGCGACGCTGCTGATGGACCAGAAGGTGATTGCCGGCGTCGGAAATGTCTACCGCGCCGAAGTGCTGTTCCGGCAACAGATCGATCCGCTGCTGCCCGGCCGGGCGCTTTCAGCGGACGCCGCCGCGCTCCTCTGGGACGACACCGCAGCCGTAATGGCCGATGGCGTCCGCGACGGCCGGATCATCACCACGACGCCGGGCTACTGGAGTGACCCTGGCTCGCTGCCTCCGAATGAGGAAGCGCATTTCGTCTACCGCCGCCACGGGCAGCCCTGCCGAGTCTGCGGTACAGCCGTGGAATTGGCCGGGCACGCCGGCCGTAAGTTGTACTGGTGCCCGACATGCCAGCAGTCCTGA	MPEGHTIHRLARQFRDVFAGRRLAVTSPQGRFSAGAALLDGHTLTRSDAHGKHLFLRFEHGLVLHVHLGLYGAWDFGGDREFKGASSIGAPRRVGEREVPGGTPAAGTPSEAASDGEPVYEGPPEPVGAVRVRLASDHGWADLRGATTCAAITEAEAATVLRRLGPDPLQASGMGHAARPAGDGRGGREDFVSLVITRRTPIATLLMDQKVIAGVGNVYRAEVLFRQQIDPLLPGRALSADAAALLWDDTAAVMADGVRDGRIITTTPGYWSDPGSLPPNEEAHFVYRRHGQPCRVCGTAVELAGHAGRKLYWCPTCQQS				NA	NA	NA	NA	NA
D1-17_01660	1386	tig	COG0544	Trigger factor	GTGAAGAGCGCTGTCGAGAACCTCACCCCCACGCGGGTCAAGCTCAATGTTGAGGTCCCCTTTGAGGAATTGAAGCCCAGCATCGATGAGGCATACAAGACTGTTGCTTCCCAGATCCAGGTCCCTGGCTTCCGTAAAGGCAAGGTTCCCGCCAAGCTGATCGACCAGCGCGTTGGCCGTGGCTACGTTCTGGAGACCGCGATCAACGAAGGCCTCAACGGCTGGTACCAGGCTGCCGTGCAGGAATCGGGCATCCGCCCGCTGAGCCGTCCCGAGGTTGAAATCACCGAGGTTCCGGACCCGACCGCCACCGACGGCGAACTTAAGTTCCATGCCGAGGTTGACGTCCGTCCCGAGATTGAGCTTCCGGACTACTCGGGCATCAAGGTCGAGGTTGCTGCTGCCGAATCCTCTGACGCTGACGTCGACAAGGCCTTGGACGAGCTGCGCGGCCGCTTCGGCACGCTGAAGTCCGTGGACCGCCCGGCAGCCGACGGCGACTTCCTGACCATCGATATCACCGCGTCCATCGACGGCGCCGAGGTCGATTCCGCATCGGGCCTGTCCTACCAGGTCGGATCCGGCACCATGCTCGAGGGCCTGGATGAGGCAGTTACCGGCCTGAGCATTGATGAAGACGCCATCTTCGACACCACCCTCGTCGGCGGCGACCACGCCGGCCAGGCCGCCCAGGTGAAGGTCGTGGTGAAGGCTGTCAAGGAGCGCGAACTCCCTGAGGCCAACGATGACTTCGCCCAGCTGGCTTCCGAATTCGATACCCTCGCCGAACTGCGCGAGGACCTCGCCAAGCAGGCAGCCGACTCCAAGGTCGTCGAGCAGGGCGTCGAGGCCCGCGACAAGGTCCTGGACAAGCTGGTGGAGCTCGTCGAGGTTCCCGTTCCGGAGTCGGTCGTCGAGGAGCAGCTTGAGCAGCACTTCAAGGCTGAGAACGCGCACGGCGAGGGAGAGCACGACACCGAAGAGCACCGCGCCGAAGTTAAGGCCAACACGGAGCGCGCCTTCCAGAACGAGATCATCCTCGACGCCATCGCCGAGAAGGAAGAAGTGGGCGTCAGCCAGAATGAGCTGATCGACTACATCGTCAGCACGGCCAGCCAGTACGGCATGGACCCGAACCAGTTTGCCCAGATCATCGATCAGAGCGGGCAGGTTCCCATGATGGTTTCCGAGGTCCGCCGCCGCAAGGCGCTGGCCGTCGTCCTCGGCCAGGCCGAGGTCACCGACACCGAGGGCAACAAGGTTGACCTGAGCGACTTCGTCCGCCCCGCCGGCCAGGAGGAAGCACCTGCCGCCACCGAAGGCGAAGAGGCAGAAGAGGGCACCGAGATCGCTCCCAGCGAAGATCCTGCAGCCGCCAAGTTCTAA	MKSAVENLTPTRVKLNVEVPFEELKPSIDEAYKTVASQIQVPGFRKGKVPAKLIDQRVGRGYVLETAINEGLNGWYQAAVQESGIRPLSRPEVEITEVPDPTATDGELKFHAEVDVRPEIELPDYSGIKVEVAAAESSDADVDKALDELRGRFGTLKSVDRPAADGDFLTIDITASIDGAEVDSASGLSYQVGSGTMLEGLDEAVTGLSIDEDAIFDTTLVGGDHAGQAAQVKVVVKAVKERELPEANDDFAQLASEFDTLAELREDLAKQAADSKVVEQGVEARDKVLDKLVELVEVPVPESVVEEQLEQHFKAENAHGEGEHDTEEHRAEVKANTERAFQNEIILDAIAEKEEVGVSQNELIDYIVSTASQYGMDPNQFAQIIDQSGQVPMMVSEVRRRKALAVVLGQAEVTDTEGNKVDLSDFVRPAGQEEAPAATEGEEAEEGTEIAPSEDPAAAKF				NA	NA	NA	NA	NA
D1-17_01661	597	clpP1	COG0740	ATP-dependent Clp protease proteolytic subunit 1	ATGGCAACTGTCGATCCGGCAGCCCAGGACAATTACATCTACAACCGCCTGCTGAAAGAGCGCATCATCTGGCTTGGCTCGGAGGTCCGCGATGAGAACGCAAACGCCATTTGCTCGCAGTTGCTGCTCCTGTCCGCTGAGGACCCGAACAAGGACATCTACCTTTACATCAACTCGCCCGGCGGTTCCGTGACGGCAGGCATGGCCATCTACGACACCATGCAGTTCATCCCGAACGACGTTGTCACCGTCGCCACCGGACTCGCTGCCTCCATGGGCCAGTTCCTCCTCTCCTCCGGAACCAAGGGGAAGCGCTACGCCACCCCGAACGCCCGTATCCTGATGCACCAGCCCTCGGGCGGGATCGGCGGCACTGCCTCTGACATCAAGATCCAGGCCGAACTGATCCTGCACATGAAGAAGGTCATGGCCGAACTGACAGCCGAGCAGACCGGCCAGACGGTGGAAACCATTCTGAAGGACAACGACCGTGACAAGTGGTTCACGGCAACTGAAGCCCTCGAATACGGCTTCTTCGACAAGATCTCCGCTCACGCCGGCTCAGTTTCCGGCGGCGGCGGCACGGCCCAGAACTAA	MATVDPAAQDNYIYNRLLKERIIWLGSEVRDENANAICSQLLLLSAEDPNKDIYLYINSPGGSVTAGMAIYDTMQFIPNDVVTVATGLAASMGQFLLSSGTKGKRYATPNARILMHQPSGGIGGTASDIKIQAELILHMKKVMAELTAEQTGQTVETILKDNDRDKWFTATEALEYGFFDKISAHAGSVSGGGGTAQN	PGPT0014595_5765	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-17_01662	660	clpP2	COG0740	ATP-dependent Clp protease proteolytic subunit 2	ATGAACTACAATTTCGGCTCGACTGCCGGCAACCTGCCGACCAGCCGCTATGTGCTGCCCCAGTTCGAAGAGCGCACACCGTATGGCTTCAAGCGCCAGGATCCGTACACCAAGCTCTTCGAGGACCGCATCATCTTCCTCGGCGTCCAGGTAGACGACGCCTCCGCCGATGATGTCATGGCTCAGCTGCTGGTCCTGGAGTCCACTGACCCGGACCGCGACATCACCCTGTACATCAACTCCCCGGGCGGTTCGTTTACCGCCATGACGGCGATTTACGACACCATGACGTACATCCGCCCGGAGATCCAGACCGTCTGCCTCGGCCAGGCTGCCAGCGCCGCAGCCGTCCTGCTCGCAGCAGGAACGCCAGGAAAGCGACTTGCACTGCCCAACGCGCGGGTCCTGATCCACCAGCCGTCGCTGTCCGGAGGCCAGGGCGGCCAGGCATCCGACTTGGAAATCCAGGCTGCCGAGGTCATGCGGATGCGCTCTTGGCTGGAGGACACGCTGGCCAAGCACTCTGGTCGGACGCCCGAGCAGGTCAACAACGACATCGAACGTGACAAAATCCTCACCGCTGCCGAGGCGCAGAGCTACGGCCTCATCGACCAGGTGCTGGATTCGCGGAAGATCAAGCCTCAGGCAATCGCCAGGTAA	MNYNFGSTAGNLPTSRYVLPQFEERTPYGFKRQDPYTKLFEDRIIFLGVQVDDASADDVMAQLLVLESTDPDRDITLYINSPGGSFTAMTAIYDTMTYIRPEIQTVCLGQAASAAAVLLAAGTPGKRLALPNARVLIHQPSLSGGQGGQASDLEIQAAEVMRMRSWLEDTLAKHSGRTPEQVNNDIERDKILTAAEAQSYGLIDQVLDSRKIKPQAIAR	PGPT0014595_2474	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-17_01663	1290	clpX	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGGCTCGGATTGGCGAGAGCACCGATCTGCTCAAGTGCTCTTTCTGCGGTAAGAGCCAGAAGCAGGTGCGCAAGCTCATTGCCGGGCCCGGCGTCTACATCTGCGACGAGTGCATTGAACTCTGCAACGAGATCATTGAAGAAGAACTCGCGGAAGTAGCCGATCTGGGCAGTTTCGAGCTGCCCAAGCCCCGCGAGATCTTTGACTTCCTGCAGGAATACGTCATCGGCCAGGAGCCCGCCAAGCGGTCCCTCGCCGTCGCCGTGTACAACCATTACAAGCGGATCCAGGCAGGCCACGCCCCCAAGAGCGGCAGCCTCGCCGACGGGGTGCATCACGACGACGTTGAAATCGCGAAGTCCAACATCCTGCTGATCGGTCCGACCGGCTGCGGTAAAACCTATCTTGCACAGACCTTGGCGCGCCGGCTCAACGTCCCTTTCGCCGTCGCCGATGCGACCGCCCTGACGGAAGCCGGTTACGTCGGGGAGGACGTCGAGAACATCCTGCTGAAGCTTATCCAGGCGGCGGATTACGACGTCAAGAAGGCCGAACAGGGCATTATCTACATCGACGAGATAGACAAGATCTCCCGCAAGAGCGAAAACCCCTCCATCACCCGTGACGTTTCCGGCGAAGGCGTGCAGCAGGCGCTGCTGAAGATCCTTGAGGGCACCGTCGCCTCCGTGCCGCCGCAGGGCGGGCGCAAGCACCCGCACCAGGAATTCATCCAGATCGACACCACCAACGTGCTGTTCATCGTGGCGGGAGCATTCGCCGGCCTGGAGGAAATTATTGGGTCCCGGTCCGGCCGCAAAGGCATCGGATTCGGCGCCCCCCTGAACGAGGTCAAGAACAACACTGATTCCTACGGCGAGGTGATGCCGGAGGACCTGCTGAAGTTCGGGCTCATCCCCGAGTTCATCGGGCGTCTCCCCGTGATTACCACCGTTTCCAATCTTGACCGGCCGGCACTGATCCAGATTCTGTCGACCCCCAAGAATGCCTTGGTAAAGCAGTATCAGAAGATGTTCCAGCTCGACGGCGTGGAACTCGTGTTCGACGACGCGGCGCTGAACCTGATTGCCGACCAGGCGCTCGAACGCGGCACCGGCGCCCGCGGTCTCCGCGCCATCATGGAGGAAGTCCTCCTTCCGGTGATGTTCGACCTGCCCAGCCGCGACGACATCGCGAGTGTGGTGATCACGGAGGACGTCGTGGCCAAGAAGGCGCAGCCGACGATGATCGCCCACGACGTGGTGGCCAAGCGCCGGAATAAATCAGCCTAG	MARIGESTDLLKCSFCGKSQKQVRKLIAGPGVYICDECIELCNEIIEEELAEVADLGSFELPKPREIFDFLQEYVIGQEPAKRSLAVAVYNHYKRIQAGHAPKSGSLADGVHHDDVEIAKSNILLIGPTGCGKTYLAQTLARRLNVPFAVADATALTEAGYVGEDVENILLKLIQAADYDVKKAEQGIIYIDEIDKISRKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHPHQEFIQIDTTNVLFIVAGAFAGLEEIIGSRSGRKGIGFGAPLNEVKNNTDSYGEVMPEDLLKFGLIPEFIGRLPVITTVSNLDRPALIQILSTPKNALVKQYQKMFQLDGVELVFDDAALNLIADQALERGTGARGLRAIMEEVLLPVMFDLPSRDDIASVVITEDVVAKKAQPTMIAHDVVAKRRNKSA	PGPT0014600_1574	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
D1-17_01664	615			Thioredoxin-like reductase	GTGTCTGAAACCGTTGCCAATAAGGCAGATTTCTGGTTCGACCCGCTGTGCCCCTTCGCTTGGATCACCTCCCGCTGGATCGGAGAAGTGGAAGCTGTCCGCGACATTTCCACCGAGTGGCACGTCATGAGCCTCTCCGTGCTGAATGAGGGCCGGGAGCTCGAACCCTCATACCGGGAGGCCATGGATAAGGCGTGGGGCCCGGTCCGCGTCATCATTGCGGCTCAGGAGCAGCACGGCGACCACGTGGTCAAGCCGCTGTACGACGCCATGGGCACGCTCATCCACGACGCCGGCGAGAAGGATTTTTCGGTCGTCATCAGCAAGGCGCTGGCTGAGTGCGGCCTTCCTGCAGAACTCGCGCAGGTGGCGCAGTCCGATGAGTTTGATGCCCAGCTCCGTGCGAGCCACGAGCAGGGGATCTCCCTGGTGGGCCAGGACGTCGGAACCCCTGTGGTTGCCTTCAACGGCACGGCCTTTTTCGGCCCCGTGCTTACCCGGATCCCGCGTGGTGAAGAAGCCGGCCGGCTGTGGGATGCCTCCGTGACGCTGGCGTCCTACCCGCACTTCTTCGAAATCAAGCGCAGCCGCACGGAAAGCCCCGCCTTCGACTGA	MSETVANKADFWFDPLCPFAWITSRWIGEVEAVRDISTEWHVMSLSVLNEGRELEPSYREAMDKAWGPVRVIIAAQEQHGDHVVKPLYDAMGTLIHDAGEKDFSVVISKALAECGLPAELAQVAQSDEFDAQLRASHEQGISLVGQDVGTPVVAFNGTAFFGPVLTRIPRGEEAGRLWDASVTLASYPHFFEIKRSRTESPAFD				NA	NA	NA	NA	NA
D1-17_01665	2622	valS	COG0525	Valine--tRNA ligase	ATGGCTGAAGCAAATCAGGGTACAGACACGCCCACCACCGCCCCTATCAACGTTCCGGACAAGCCGGCCCTCGAAGGGCTCGAAGCTGCCCTCACGCAGCGCTGGCTCGACGAAGGCACTTACAAGTTCAACCGGGACACCACCCGTGAGCACGTCTACTCGATAGACACTCCCCCGCCGACTGCATCGGGTTCGCTGCACGTGGGCCACATGTTCTCATTCACCCAGACGGACGTCCAGGCCCGCTACATGCGGATGACCGGAAAGAACGTCTTTTACCCCATGGGCTGGGACGACAACGGGCTGCCCACCGAGCGCCGGGTCCAGAACTACTACGGTGTCCGCTGCGATCCGGCCATCCCCTACAACCCTGACTACCAGCCGCCGGCACAGCCCGCGAAGAACCAGCGCGATTTCGACGTGGTCTCCCGGCAGAACTTCATCGAACTGTGCGAGGAGCTCGCCGTCGAGGATGAAAAGGTCTTCGAGAACCTGTTCCAGACGCTGGGCCTTTCCGTGGACTGGAACCTGACGTACCGCACCATCGACGACAATTCCCGCGCCGTTTCCCAGCGCGCCTTCCTCGCGAACCTCGCCGCCGGCGATGCCTACATGGCTGAAGCCCCCACACTGTGGGACGTGACGTTCCGCACTGCCGTGGCGCAGGCCGAACTCGAGGACCGGGAAGTGCCGGGCGCCTACTACCGCTACCCGTTCTTCACCGCCGACGGCGAGAAGATCTTCATCGAAACCACCCGTCCCGAGCTGCTCGCCGCCTGCGCCGCCCTCGTGGCAAATCCTGACGACGAGCGCTACCAGCCGCTGTTCGGCAAGACCGTGAAGTCCCCGCTGTTCGATGTCGAGCTCGAGGTTAAGGCCCACCCGCTGGCCAAGGCGGAAAAGGGCTCCGGCATCGCCATGGTCTGCACCTTCGGCGACCTGACCGACGTCACCTGGTGGCGTGAGCTGCAGCTGCCCACCCGCGCCATCGTCGGACGCGACGGCAGGATCCTTGCCGACACCCCTGAGTGGATCACCACCGACGCGGGCCGTGAGGCATACGCCGCCATCGCCGGCAAGACGGTCTTTTCCGCCAAGGAGGCCGTGGTTGAGCTGCTGACGGCAGCCAACCTGCTCGATGGCGAGCCCAAGAAGATCACCCACCCCGTGAACTTCTTCGAAAAGGGCGACAAGCCCCTTGAGGTCGTCACCTCCCGCCAGTGGTACATCCGCAACGGCGGCCGCGACGAGGACCGCCGCGAACGTCTGATCCGCCGTGGCCACGACATCGATTTCCACCCGTCCTTCATGCGATCCCGCTACGAGAACTGGATCGCCGGGCTGAACGGTGACTGGCTGGTATCCCGACAGCGGTTCTTCGGTGTCCCGATCCCGGTCTGGTACCCGCTGGACGCCCAGGGCAACCCCGACTACGACTCCCCCATCCTGCCCTCGGACGAGCAGCTGCCCGTTGACCCGGCGGCGGATGCGGCACCGGGCTTCGACGAGTCGCAGCGTGACCTGCCCAACGGATTCACCGGTGACGCCGATGTGCTTGACACGTGGGCCACGTCCTCCCTGACGCCGCAGATCGTGGGCGGCTGGAGCCGGGACGAGGACCTGTTCAGCAAGGTCTTCCCCTTTGATCTCCGCCCCCAGGGCCACGACATCATCCGGACCTGGCTGTTTTCTTCAGCAGTACGGGCCGACGCCTTGCAGGACACCGCGCCGTGGAAGCATGCGGCCATCTCCGGCTGGATCCTGGACCCGGACCGCAAGAAGATGTCCAAGTCCAAGGGCAACGTGGTGGTCCCCACCGACGTCCTGAACGAGTACGGATCCGATGCCGTCCGCTACTGGGCAGCTTCGGCCAAGCTCGGTGCAGACACCGCCTATGAGATTGCGCAGATGAAGATCGGGCGCCGCCTGGCCATCAAGCTGCTGAACGCCTCCAAGTTCGTCCTTAACCTGGGAGCCACCGAGAACTCGGTGGTTACTGCAGACCCGGGTCCCGTGACCAATCCCTTGGACCGCGCGCTTCTGGCCCAGCTGTCCGACGTCGTCGCCCAGGCCACTAAGGCGTTCGACAACTACGACTACGCCCGGGCGCTGCAGATTACCGAGTCCTTCTTCTGGCAGTTCACGGACGACTACGTCGAACTCATCAAGGACCGCGCGTATGGCGCTGCAGGGGAATCCGAACAAGCCTCCGTGCTGGCTGCACTCGCCACCACCCTGGACTCGCTGCTGCGGCTTTTCGCACCGTTCCTGCCGTTCGCCACGGAGGAAGTCTGGAGCTGGTGGCGGGCGGGTTCCGTGCACCGCGCCGCCTGGCCGGCGCCGCTGGACATCACCGACGGCGATACCGCCATGCTGGGTACCGTGGGTATCGCGCTCAGCGGCATCCGCAAGGCGAAGTCCGAGGCGAAGGTCAAGCAGCGCACTGAGGTGCTGTCGGCGACGATCACTGCGCCAGAGGCGCTGGTGGCCCAGCTGCAGGCCGGTCTCAACGACCTCAAGGCTGCGGCAAATGCCCGGGATATCACGCTCGAGAGCAGCGCCGGCGAGCTGACGGTCAGCGATGTGGTGCTGGTTCCCGCTGAGGAACCGGCCCAGGCCTAG	MAEANQGTDTPTTAPINVPDKPALEGLEAALTQRWLDEGTYKFNRDTTREHVYSIDTPPPTASGSLHVGHMFSFTQTDVQARYMRMTGKNVFYPMGWDDNGLPTERRVQNYYGVRCDPAIPYNPDYQPPAQPAKNQRDFDVVSRQNFIELCEELAVEDEKVFENLFQTLGLSVDWNLTYRTIDDNSRAVSQRAFLANLAAGDAYMAEAPTLWDVTFRTAVAQAELEDREVPGAYYRYPFFTADGEKIFIETTRPELLAACAALVANPDDERYQPLFGKTVKSPLFDVELEVKAHPLAKAEKGSGIAMVCTFGDLTDVTWWRELQLPTRAIVGRDGRILADTPEWITTDAGREAYAAIAGKTVFSAKEAVVELLTAANLLDGEPKKITHPVNFFEKGDKPLEVVTSRQWYIRNGGRDEDRRERLIRRGHDIDFHPSFMRSRYENWIAGLNGDWLVSRQRFFGVPIPVWYPLDAQGNPDYDSPILPSDEQLPVDPAADAAPGFDESQRDLPNGFTGDADVLDTWATSSLTPQIVGGWSRDEDLFSKVFPFDLRPQGHDIIRTWLFSSAVRADALQDTAPWKHAAISGWILDPDRKKMSKSKGNVVVPTDVLNEYGSDAVRYWAASAKLGADTAYEIAQMKIGRRLAIKLLNASKFVLNLGATENSVVTADPGPVTNPLDRALLAQLSDVVAQATKAFDNYDYARALQITESFFWQFTDDYVELIKDRAYGAAGESEQASVLAALATTLDSLLRLFAPFLPFATEEVWSWWRAGSVHRAAWPAPLDITDGDTAMLGTVGIALSGIRKAKSEAKVKQRTEVLSATITAPEALVAQLQAGLNDLKAAANARDITLESSAGELTVSDVVLVPAEEPAQA				NA	NA	NA	NA	NA
D1-17_01666	369			hypothetical protein	ATGGAGAAAGCAGGCGCTTCCTTCGTGGTCAAGCGCATATATGACGAGCCCGCGGACGACGACGGCTGCCGGGTTTTGGTGGACAGGCTCTGGCCGCGAGGGGTCAGTAAAGAACGTGCCGGACTTGATCTGTGGCTCAAGGAGATTGCGCCCTCACCGCCCCTGAGGCAGGACTTCGCGCATATGCAGGAGCGGTTCGCCGGCTTCCGAACGCAATATGAAGCTGAGCTGGAGCAGAACCCTGCGGTGGGGCAGTTGCTGGAGCTGGCGGCCAAGCATCCGAAGGTAACGCTGCTGTACGGCGCAAAGGATCCGGAGGTCAACCACGCCCGCGTCCTGCAGGACTACCTGCAGAAGATGACCTGCTGA	MEKAGASFVVKRIYDEPADDDGCRVLVDRLWPRGVSKERAGLDLWLKEIAPSPPLRQDFAHMQERFAGFRTQYEAELEQNPAVGQLLELAAKHPKVTLLYGAKDPEVNHARVLQDYLQKMTC	PGPT0014885_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
D1-17_01667	777		COG4221	putative oxidoreductase	ATGACTGAGGCATCAAATACCGGGGCATCGAACGCTAAAGCAGCTGTAGTTACCGGAGCGAGCACCGGCATCGGGGAAGCGACCGTCCGCGCCCTGAGGGCCGAAGGCTGGACGGTGTACGCCGTTGCCCGGCGCCAGGAGCGGCTGGCCGCGCTGGAAGCTGAGACGGGCGCCGTCGGCATTCCTGCCGATATCGCCGAGGACGGCGACGTCGCCAGGATCCTGGCTGAGGTCACCGCCGGCGGCGGAATCGATACTCTCATCAACATCGCCGGCGGCGCGCGCGGTGCCGACTACGTGGCACAAGCAAAGACGGACGACTGGGAATGGATGTACCGGGTGAACGTCCTCGGCACCATGAAACTCACGCGGGCGTTCCTGCCGATGCTGCGCGAACACGGCGAGGGGACGGTGCTGAACCTCACGTCCACAGCCGGGCTCGCGGCCTACGAGGGCGGTGCCGGCTACAACGCCGCGAAGTTCGCCCAGCATGCCATGACAAATGCGCTCCGGCTCGAGGAAGTCGAAAACAACGTCCGCGTGATCGAGGTGGCACCGGGGCTGGTGCAGACGGAGGAGTTTGCCCTGAAACGTCTTGGTGATGCGCAGGCTGCCGAGCAGGTCTATCAGGGAGTGGAAAAGCCGCTGACCGCCGGCGACGTTGCCGATCTGGTCCGCTACGCCGTCTGCGTCCCGCACCACGTGAACCTGGACCAGATCGTGATCCGCCCCGTGGCGCAGGCGGCAAACCACAAGCTCATCCGGAAGCAGGGGTAA	MTEASNTGASNAKAAVVTGASTGIGEATVRALRAEGWTVYAVARRQERLAALEAETGAVGIPADIAEDGDVARILAEVTAGGGIDTLINIAGGARGADYVAQAKTDDWEWMYRVNVLGTMKLTRAFLPMLREHGEGTVLNLTSTAGLAAYEGGAGYNAAKFAQHAMTNALRLEEVENNVRVIEVAPGLVQTEEFALKRLGDAQAAEQVYQGVEKPLTAGDVADLVRYAVCVPHHVNLDQIVIRPVAQAANHKLIRKQG				NA	NA	NA	NA	NA
D1-17_01668	1212			hypothetical protein	ATGGACGTTCCCGACTCCGTTCCGGCCCCAGGAGGGCATGCTTCCGCCGGTGCGGCCGCCTCACGAGGTGGAGCCTCGAAACACCGGATCCCGCCGCACAGTGTTTCGGAAGAGGATGTTTCGGAAGACAGTGTTTCGGAAGACGGCGCCTCGCAAGAAAATGCCTCGAACGGCGGCGGAAGGATTGCGTGGAAGCTCCTGGCGCTCGCTGTTCTGCTGCCCGTGGTCTCGGTGTCGGTTTTCCGGGCTGTTCCGGCGCCCTGGCCCACTCCGGTGGTCCAGCTGCTGGCTTTCACTCCGTGGCTGGTTGTGCCGGCAATACTGGCGCTGGGCTTGACGGTAGCGGGCAGGCGGGGCTGGCTCACAGCCTTGGCTGCTGCAGTGCTTGCCGCCCAGCTGTTCTGGCTGTTTCCGCTCGACGCGGGGCGGCCTTCGCCGGATTCCCCTGTCGCCGGCACCCGGATCACTGTCCTGAGTATCAATTCCCAGTTTGGCCAAGCGGACGCGGCCGAAACTGTCCGGATCATCCGGGAGCATGGCGTGGACCTGCTGGCAGTGCAGGAGCACACCCAGGACCTTGAGGACCGGCTGGCCGCCCAAGGGCTCCAACGCCTGCTCCCCCACATATTCAGCGATCCCAGGGACGACGCGTCGGGCAGCGCCATTTATTCGGCTCACCCGATGGAAGCCGTGGGAGTCCTGCCGGACACGCGCTTCCCGATGCCGACCGTCCGCCTCACGATCCGGCAGCGGGACAGGGCCAGTGTTCTGGAGGTCACCAACGTCCATGCGTTTCCCCCGGTGGCCGGCCGTGCGGCGCAATGGCGGAGCGACCTCGCAGCTCTGGAGCGGCTGGCCGCGACGGGAACCAGGGACACGCCGGGGCAAAGCAACCGTCTGCTGAGCGGTGACTTCAACGCGACCTTCGACCATGCCGAGTTCCGTGCCGTACTCGACGGCGGTGGCGTGCTGGACGCCGGCAGCACAGGGCCCGACGGCGGCGGAGGCGGGAAGCTGGTGGATGTGGGATCAGCAGCGGGGCTGCGCTTGCTCCCCACCTGGCCGATGGAAGGCCCGCCGCTGCCTGGCATCGCCATTGACCATCTTGTCACCAGCCCACTGATCGCGAGCTCCGGCTATGCCGTCCACCGGGTCCCGGGCACCGACCATGCGGCCGTCCTGGCGACCTTGGAGATCCCGCCCGCAGGTTAG	MDVPDSVPAPGGHASAGAAASRGGASKHRIPPHSVSEEDVSEDSVSEDGASQENASNGGGRIAWKLLALAVLLPVVSVSVFRAVPAPWPTPVVQLLAFTPWLVVPAILALGLTVAGRRGWLTALAAAVLAAQLFWLFPLDAGRPSPDSPVAGTRITVLSINSQFGQADAAETVRIIREHGVDLLAVQEHTQDLEDRLAAQGLQRLLPHIFSDPRDDASGSAIYSAHPMEAVGVLPDTRFPMPTVRLTIRQRDRASVLEVTNVHAFPPVAGRAAQWRSDLAALERLAATGTRDTPGQSNRLLSGDFNATFDHAEFRAVLDGGGVLDAGSTGPDGGGGGKLVDVGSAAGLRLLPTWPMEGPPLPGIAIDHLVTSPLIASSGYAVHRVPGTDHAAVLATLEIPPAG				NA	NA	NA	NA	NA
D1-17_01669	162			hypothetical protein	ATGCGAGGACGGCCCGTGCCCTGCTGGCAGGCTTCCACCTCCAACATGCCGGTACCGCGGTACCACCTCACTTACCGGCACTGCAACACGCTCCCGAAGGAGCTGTTCCGGCACCGGCCGCTCATTACTGCTGTGACGGGCTTACCCGTCCGGTTCTACTGA	MRGRPVPCWQASTSNMPVPRYHLTYRHCNTLPKELFRHRPLITAVTGLPVRFY				NA	NA	NA	NA	NA
D1-17_01670	3366	ileS	COG0060	Isoleucine--tRNA ligase	ATGACTTACTACCCCAAGGCCTCTGCCGCACCGTCAGGCGCCAACACCTCCGGCGTATCCACCTCCGTGAAGTTTCCGGAGATCGAGGAGCGCATCCTCAAGTACTGGGACGAGGACGGCACCTTCCAGGCGAGCATCGACCAGCGCAGCGCAGACCTTCCCGGCGGCACACCCGGCAGCAACGAATTCGTGTTCTACGACGGACCGCCCTTCGCCAACGGCCTGCCCCACTACGGCCACCTGCTGACCGGCTACGCCAAGGACCTGGTGGGCCGCTACCAAACCCAGCGCGGCAAGCGCGTCGAGCGCCGCTTCGGCTGGGACACGCACGGGCTGCCGGCCGAACTGGAAGCCATGAAGCAGCTGGGCATGACGGACAAGACCCAGATCGAGGCCATGGGCATCGATAAGTTCAACGACGCCTGCCGCGCCTCCGTCATGAAGTACGCCAACGAGTGGAAGGCGTACGTCACCCGCCAGGCCCGCTGGGTGGACTTCGACAACGACTACAAGACGCTCAACGTCGAGTACATGGAGTCGGTGCTGTGGGCCTTCAAGCAGCTGCACGAGAAGGGCCTGACGTACAACGGCTACCGCGTGCTGCCGTACTGCTGGAAGGACGAGACGCCGCTGTCCAACCATGAGCTGCGCATGGATGACGACGTCTACAAGAACCGCCAGGACCAGACCGTCACCGTGACCTTCCCGATCAAGGCAGGGGAGTCTGAGCTCTCCAGGCAGCTGGCCGGCGTCCAGGCGCTCGCCTGGACCACCACGCCCTGGACGCTTCCCACCAACCTGGCGCTCGCCGTCGGACCTGACATCACCTACGCCGTGCTGCCCGCCGGACCCAACGGCATTAAAGCTGCCTCCGCAGAGGCTCCGGTCACCGGCAGCTTCCTGCTGGCCGAAGACCTGCTGGGCACCTACGCGAAGGATCTGGGGTACGGCGATGGTGCCGATGGCGTAGCTGCCGCGGCTGCCGCTGTGGTTACCACCCATACCGGCGCAGAGCTTGCAGGCCTCATGTATGAGCCGCTCTGGCACGACTTTGCGGACACGGAAAAATACGGCACTGAGAACGCCTGGCAGGTCCTGGTGGCCGACTACGTCACCACCACCGATGGCACCGGCATCGTCCACCAGGCTCCGGCCTACGGTGAGGACGACCAAAAGATCTGTGAGGAAGCCGGCATCCCGGTCGTCCTGTCCGTGGATGAGGGCGCCAAATTCCTGCCGTTGTTCAAGCACGGCGACCTCCACGACATTGCCGGCCTGCAGGTGTTCGAGGCCAACAAGCCCATTACCCAGGTGCTCCGCGCCCAGGGCCGCCTGGTGCGCCAGGCCAGCTACGAGCACAGTTACCCGCACTGCTGGCGCTGCCGCAACCCGCTGATCTACCGCGCCGTCTCCTCCTGGTACGTGGAAGTCACCAAGTTCCGCGACCGCATGTCCGAACTGAACCAGGAGATCAACTGGATTCCCGGAAATGTTAAGGACGGCCAGTTCGGCAAGTGGCTGGAAAACGCCCGCGACTGGTCCATCAGCCGCAACCGTTACTGGGGCAGCCCCATCCCGGTCTGGCAGTCCAGCGATCCTGAATACCCGCGCACGGACGTCTACGGCTCCCTCTCCGAGATCGAAGCCGACTTCGGCCGCCTGCCGCGGAACAAGGACGGCCAGGTGGACCTGCACCGTCCGTTCATCGACGAGCTGATCCGGCCAAACCCGGATGACCCCCGCACCCCTGAAGAGGGCCAGTCCGTCATGCGCCGCGTGGAGGACGTGCTGGACGTCTGGTTTGACTCCGGTTCCATGCCCTATGGCCAGGTGCACTACCCGTTCGAGAACGAGGCCTGGTTCGACACCCACAACCCCGCCGACTTCATCGTGGAGTACATCGGCCAGACGCGCGGCTGGTTCTACATGCTGCATATCCTCTCCACCGCCCTGTTTGACCGCCCGGCCTTCCGGAACGTCATCAGCCACGGCATCGTGCTGGGCTCGGACGGGCAGAAGATGTCCAAGAGCCTGCGGAACTACCCCGACGTCTCCGAAGTTCTGGACCGCGACGGCTCCGACGCGATGCGCTGGTTCCTGATGTCCAGCCCCATCCTGCGCGGCGGCAACCTTGTGGTTACCGAGCAGGGCATCCGCGACGGCGTGCGCCAGGTGATCCTGCCGCTCTGGAACGTGTACAGCTTCTTCACGCTGTACACCAACGCCGCGAATGGCGGGCACGGCTACGACGCGCAGCTCCGCTACGACGGCTACTCCGACACCCTGGACCAGTACCTGCTGGCCAACACCGGTGACCTGGTCCGCAATATGACCGCCCAGCTGGACAGCTACGACATCTCCGGGGCGTGCGACGAACTCCGCAGCTACCTGGACATGCTCACCAACTGGTACGTCCGGCGCAGCCGCCAGCGCTTCTTCGACGAGAGCGCGGATGCCTTCGACGCGCTCCACACCGCGCTCGAGGCTGTCTGCCGCGTGTCCGCCCCGCTGCTGCCGCTCGTGTCTGAGGAGATCTGGCGCGGCCTTACCGGCCGGCGCTCCGTGCACTTGGCCGACTGGCCCGACGCCGCGCTCTTCCCGGCCAACGCCGCACTCGTCGAGGCGATGGACCGGGTCCAGCAGATCTGCTCCACCGGCTCCTCGCTGCGCAAGGCCGCGAACCTGCGTGTGCGCCTGCCGCTGCAGGAACTCACAGTCGTGGCACCCGGTGCAGATGCGCTGGAAGGCTTTGCCGCCGTCGTCGCCGACGAGCTGAACCTCCGCTCGGTGCGCATGCTGGACGCGGCGAGCGCCTCGCCCGAAGAATTCGGCATCGAACAGAAGCTGGTGGTTAACGCCCGCGCCGCGGGACCGCGCCTCGGGAAAAACGTCCAGCAGGCCATCAAGGGCTCGAAGTCCGGCGACTGGTCCGTTTCGGAGGCCGGCGTTGTGACAGCCGGCGGCCTCGAGCTCGAGCCGCAGGAATACACGCTGGAGACCGTTGTCGCAGCGAACGGCGGCAGTTCGGCAGCGGCGTCTTCTGCTGCCGCCGTATTGCCCACCGGCGGCTTCGTGGTCCTGAACACCGAGGTCACCTCCGAGCTCGAGGCCGAGGGCCTGGCCAGGGACATGGTCCGCTCCATCCAGCAGGCACGCAAGGACGCCGGGCTGAATGTCAGCGACCGGATCCGGACCACGGTCACTGCGCCGCAGAGCGTGCTGGACGCCCTGCTGGCCAACGCCGAACTCGTCAAAACCGAAACCCTGACGCTGGAGCTGGATACCGTTCCCGGCGACTCCGGGGAACCCCGTATCGGTGTCGAAAAAGTCACCGTCGAAAAAACCGTCGAAAAAGCAGAGGCCTGA	MTYYPKASAAPSGANTSGVSTSVKFPEIEERILKYWDEDGTFQASIDQRSADLPGGTPGSNEFVFYDGPPFANGLPHYGHLLTGYAKDLVGRYQTQRGKRVERRFGWDTHGLPAELEAMKQLGMTDKTQIEAMGIDKFNDACRASVMKYANEWKAYVTRQARWVDFDNDYKTLNVEYMESVLWAFKQLHEKGLTYNGYRVLPYCWKDETPLSNHELRMDDDVYKNRQDQTVTVTFPIKAGESELSRQLAGVQALAWTTTPWTLPTNLALAVGPDITYAVLPAGPNGIKAASAEAPVTGSFLLAEDLLGTYAKDLGYGDGADGVAAAAAAVVTTHTGAELAGLMYEPLWHDFADTEKYGTENAWQVLVADYVTTTDGTGIVHQAPAYGEDDQKICEEAGIPVVLSVDEGAKFLPLFKHGDLHDIAGLQVFEANKPITQVLRAQGRLVRQASYEHSYPHCWRCRNPLIYRAVSSWYVEVTKFRDRMSELNQEINWIPGNVKDGQFGKWLENARDWSISRNRYWGSPIPVWQSSDPEYPRTDVYGSLSEIEADFGRLPRNKDGQVDLHRPFIDELIRPNPDDPRTPEEGQSVMRRVEDVLDVWFDSGSMPYGQVHYPFENEAWFDTHNPADFIVEYIGQTRGWFYMLHILSTALFDRPAFRNVISHGIVLGSDGQKMSKSLRNYPDVSEVLDRDGSDAMRWFLMSSPILRGGNLVVTEQGIRDGVRQVILPLWNVYSFFTLYTNAANGGHGYDAQLRYDGYSDTLDQYLLANTGDLVRNMTAQLDSYDISGACDELRSYLDMLTNWYVRRSRQRFFDESADAFDALHTALEAVCRVSAPLLPLVSEEIWRGLTGRRSVHLADWPDAALFPANAALVEAMDRVQQICSTGSSLRKAANLRVRLPLQELTVVAPGADALEGFAAVVADELNLRSVRMLDAASASPEEFGIEQKLVVNARAAGPRLGKNVQQAIKGSKSGDWSVSEAGVVTAGGLELEPQEYTLETVVAANGGSSAAASSAAAVLPTGGFVVLNTEVTSELEAEGLARDMVRSIQQARKDAGLNVSDRIRTTVTAPQSVLDALLANAELVKTETLTLELDTVPGDSGEPRIGVEKVTVEKTVEKAEA				NA	NA	NA	NA	NA
D1-17_01671	1362	folC	COG0285	Dihydrofolate synthase/folylpolyglutamate synthase	ATGACCGACGAATTCTCAGTCGAGAGCGTCTACGCCGAGCTGCTGGGCCGGGCGCCGGAAAACAAGATGGAGCCGCGGCTCGCACCGTTGTTCCGCGCCATGGATGTGCTGGGGGAGCCGAACAAGGCTTTTCCGATCATCCACATCACCGGCACCAACGGAAAAACGTCCACTGCCCGAATGATCGAGGCGGGCCTGCGCGCCCACGGACTCAGCACCGGCCGTTATACGAGCCCGCACCTGTCCAAGGTCACCGAGCGCATCAGCCTGGACGGCGAGCCGGTGTCAGATGAGACCTTCGTGCGCATCTGGGACGAAATCCGGCCCTACCTGCAGATCGTCGACGACGAACTCACCGCCGAGGGCCAGCCCAGGCTCACGTACTTCGAGTGCCTGACCATCCTTGCGTTCGCAGTGTTCGCCGACCAGCCCGTCAACGTTGCCATTATGGAGGTGGGCCTCGGCGGCATCACCGACGCCACCAACGTGGGCGACGGCCAGGTGTCCGTGGTGACACCCATCTCCCTGGACCACACCGATTTGCTCGGCGACACGACCGAGGACATCGCGTACGAGAAGGCCGGCATCATCAAGCCCGGCGGGTTCCTCATCAGCGCCGCCCAGCCGGTTGACGCCGCCCAGGTTCTGCTGGACAAGGCGAAAGAGGTGCAGGTGCCGTTCCGCTTCGAAGGGGTGGAATTCGGCGTCGAATCCCGGCGGGTTGCCGTGGGCGGACAGGTGGTGACCGTCAAGGGCATCGCCGGCCGTTACCCGGACCTGATGGTGCCGCTGCACGGAGCCCACCAGGCCGAGAATGCGGCCGTCGCCGTGGCCGCGCTGGAGGCATTCCTGGGCGGCGGGGAAAAGGAGCTGTCCGCGGAGGTCCTGCAGGACGCCTTCGCCACGGTCTCGTCCCCCGGGCGACTGGAAGTAGTACGGACTGCCCCCACCATCATCGTGGATGCCGCCCACAACCCGGACGGCATCCGTGCGTCCGCCGAAGCGATCCAGGAGGCGTTCAGCTTCAGCAAACTGGTGGTGGTTGTCGGCGTGCTGAAGGAAAAGGACGCCGAGGAGATCCTGCGCCAGCTCAAGGAGTCACTGGGCGGCCTTGCTGACGAGTTCTGCTTCACCCAGTCCAACTCCCCGCGGGCGGTGCCCGCCGGAGAACTGGCGGAGATCGCCGTCGACCTCGGCTTTGGTGAGGAAAACGTCCACATCGCTGAAAAGCTGGACGATGCTCTGGAGTGGGCAGTGGAACGTGCGGAAGCCAACGACGATCTCGCGGGCGGCGTGCTTGTGACCGGATCGATCACGCTGGTGGCGGACGCCCGCATCCTGCTCGGAAAGACGGCTGCCTGA	MTDEFSVESVYAELLGRAPENKMEPRLAPLFRAMDVLGEPNKAFPIIHITGTNGKTSTARMIEAGLRAHGLSTGRYTSPHLSKVTERISLDGEPVSDETFVRIWDEIRPYLQIVDDELTAEGQPRLTYFECLTILAFAVFADQPVNVAIMEVGLGGITDATNVGDGQVSVVTPISLDHTDLLGDTTEDIAYEKAGIIKPGGFLISAAQPVDAAQVLLDKAKEVQVPFRFEGVEFGVESRRVAVGGQVVTVKGIAGRYPDLMVPLHGAHQAENAAVAVAALEAFLGGGEKELSAEVLQDAFATVSSPGRLEVVRTAPTIIVDAAHNPDGIRASAEAIQEAFSFSKLVVVVGVLKEKDAEEILRQLKESLGGLADEFCFTQSNSPRAVPAGELAEIAVDLGFGEENVHIAEKLDDALEWAVERAEANDDLAGGVLVTGSITLVADARILLGKTAA	PGPT0007975_906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
D1-17_01672	456			hypothetical protein	ATGGCACGGCTGACCAAGGCGCAGCGCGAATGGCGGCCGGGCATGCCGAAAAAGCGGCGCTCCACCAAGATCATGTTTGCCTCGACGGTGCTGCTGCTGGAAGCGTTCGTGGTCTTCTTCGCCACGCTGGCCGTGTTCGGACTGCGCCGCAACGAGGTGTCCCCGGTTCTGATTCTGTCGGTGGGCATCGGATTGAGCATCGTCCTGGTGCTGGCCTGCGCCGTGCTGTCGAAGCCGTGGGGCGTGGAGCTCGGGTGGATCCTGCAGCTGGTGCTCATCCTTTCCGGCTTTGTTGAACCCATGATGTTCCTCGTCGGCGCCTTGTTTGCGCTGGCCTGGTGGTACGGGATCAGGACCGGCATCCGGATCGACCGGGAAGCGGCGCAGAGGGCGCGGGAACAGGCCGAATGGGATGCCGCGCACCCGGACGGTGAAGGCTCCGGCCAGAACCCGTAG	MARLTKAQREWRPGMPKKRRSTKIMFASTVLLLEAFVVFFATLAVFGLRRNEVSPVLILSVGIGLSIVLVLACAVLSKPWGVELGWILQLVLILSGFVEPMMFLVGALFALAWWYGIRTGIRIDREAAQRAREQAEWDAAHPDGEGSGQNP				NA	NA	NA	NA	NA
D1-17_01673	414	ndkA	COG0105	Nucleoside diphosphate kinase	GTGAGCATTGAGCGCACCCTCGTCCTGATCAAGCCCGACGGCGTCGCACGGAACCTGACCGGCGAAATCATCAGCCGGGTCGAGTCCAAGGGCTACACCCTGGCAGATCTCAAGAAGGTCAACGCCACCCGGGAGCTGCTCGAGCAGCACTACGAAGAGCACCTGGGCAAGCCGTTCTACGAGCCGCTCGTGGAATTCATGCTGAGCGGCCCGGTTGTCGCGGCGATCTTCGAAGGCCACCGCGTCATCGAGGGCTTCCGCTCCCTTGCAGGCACCACCGATCCCACGACGGCGGCACCCGGTACCATCCGCGGCGACTTCGGCCGCGACTGGGGTGTGAAGGTCCAGCAGAACCTGGTTCACGGCTCCGACTCGGCGGACTCGGCTGAGCGCGAAATCAAGATCTGGTTCTAA	MSIERTLVLIKPDGVARNLTGEIISRVESKGYTLADLKKVNATRELLEQHYEEHLGKPFYEPLVEFMLSGPVVAAIFEGHRVIEGFRSLAGTTDPTTAAPGTIRGDFGRDWGVKVQQNLVHGSDSADSAEREIKIWF	PGPT0021210_4701	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
D1-17_01674	684			hypothetical protein	ATGCCCAGCATTTCCCCATCCACAGGCACGGATTCCGAGCAGGCATTCGCCGACGACTCCGAGCGCACTGCCACCGCCACCGGCGCTCCTTTGCCGGCGATGACACGCGACCGCCCGTTCGGATGGCTGCTGGTGATAACCGGAGTCGTGGGTTGGCTGGCGTCCGGCGTCCTCGTGCTGGAAAAGCTTGAGGTCCTCAAGGACCCGAACCACACCACCGTCTGCGACGTGAACCCCTGGATTTCCTGCGGCCAGGTGATGCAGACGCCGCAGAGCTCAGTCTTCGGCTTCCCCAACATGTTCATCGGCATCGTGGCCTTCGCTGTCATCATCACCACCGGCATGGCGCTGCTTGCCGGAGCCAGATTCGCCCGCTGGTACTGGCTCGGACTGCAGACTGGCGTGACGCTGGGGTTCGCCTTCGTCGTGTGGCTCTGGTTCCAGGCACTGTATGAAATCCGCGTTCTGTGCCCGTTCTGCATGGTGGTGTGGGCTGCCATGATCCCGCTGTTTGTCTGGGTCACGGTCCGCAACGTTCTCCAGGGAGCCATTCCGGCACCCGCCGGCGTGGCCAGGCTCCTTGGCGACTCCGGGTGGATCATCACGGCGCTGCTTTACATAGCAGTCATCGCCACCATCTTCTTCGCCTTCATCCAGGTCTTCATCGGCACCTCCGGCTTCTAG	MPSISPSTGTDSEQAFADDSERTATATGAPLPAMTRDRPFGWLLVITGVVGWLASGVLVLEKLEVLKDPNHTTVCDVNPWISCGQVMQTPQSSVFGFPNMFIGIVAFAVIITTGMALLAGARFARWYWLGLQTGVTLGFAFVVWLWFQALYEIRVLCPFCMVVWAAMIPLFVWVTVRNVLQGAIPAPAGVARLLGDSGWIITALLYIAVIATIFFAFIQVFIGTSGF				NA	NA	NA	NA	NA
D1-17_01675	3420	rne		Ribonuclease E	ATGGATAATGATCAGGTAGTAGCCGTTAATGAAGATCCGGTTGAGAAGGAAGAGCCGGTAGCCGCAGAAGCTCCCAAGAAGGCCACCCGGACCAGGCGCAAGGCGGCGCCCAAGGCAGAAGAGCCGGGCGTCCAGGTTTCGTTGCCCGAGCCCGAAGTGCAGGAACCCGTCGTCGCCGCTCCTTCACTGTCCGCTGACCCCGAGGTGTCAGGCCCGGTGGATGCGGCGCACGCTGAGGTCACCGAGGTGGAAACCGCCGTGGCGGAGGTAAAGGCGCCTGTGCGGCGCACGCGTGCCCGAAAGAAGGTCGCCGAGGAGCCGCTTCCCGCCTTTGCTGACGCGGCCGAGGCCGGGCCGGGTTCTGCCGCGGCGGAGATTGCTGAACCTGAAGCCAAGCCCGTACGCCGCCGCCGGGTCGCCAAGGCCAAGACCGGCGACACAGCTGCTGAAGCACCTGCGGCTGCCCCGGCAGTGGAAACCCGGGTTGAAGAAACACCGGTGGCGGACATTCGGGCTGAAGCAGCTGCCGCCGTCGGAAGCGCGGAGGCAGAGGCGGAGGCCGCCGAGGCTGAGGTCTCAGCGGCTGACGGCGCAGTGACTGAAGATGCCGTATCTGAAGGTGCTGTATTTGAGCGTGCTGAGTCCGAAAAGCCCGTGGAAACCACGTCTCAGGCAGCCCCGGCCGGAGCGCTGTTCCTGGAGCCGGCATCCGTGACATCCATCATCTTCCAAGCCCCCGACCTCAATACCGTGATCCGTCCGGCAGTGCCGGCCGCCGGTGCGCAGGATGCAGAAGCCAGCGACAGCGGGGACGAGCAGGACGACGACGACGGCGGACGCCGCCGGCGCCGCAGCCGCGGCCGCCGCGGACGGACCCGCAACGGCCGTGAAGTCACCGACGGCGAAGCCATCGACCGTGACGGCACCGAAGAAGACGCCGAAGGCATCGATGCCGCCGGAGACGCCGACGAGGAGACCGCAGGCCAGGCCGAGGACGGCGTCACTTCGCGCCGCCGCCGCCGGCGCCGCCGCGGAGACCAGGACCTTGAGCTCACCGGCGGGGGAGACGACGATCCCCCCAACACCGTCACCCGCGTACGCGCTCCCCGCGTTCCCAGCGAACCGGCCGTAAGCAACCGCGTGACCAGCGTCAAGGGCTCCACGAGGCTGGAAGCGAAGAAGCAGCGCCGCCGCGAATCCCGCGACACTGGCCGGCGCCGGACCGTCATCACCGAGGCAGAGTTCCTGGCCCGGCGCGAATCAGTTGACCGCCAGATGATCGTGCGCCAGCGCGACGACAGAATTCAGATCGGCGTCCTGGAAGACGGCGTGCTGGCCGAGCACTTCGTGTCCAAGACGCAGCAGGATTCCCTGATCGGCAACGTCTACCTGGGCAAAGTTCAGAATGTGCTGCCCTCGATGGAAGCTGCCTTCGTCGACATCGGGCGCGGGCGCAATGCAGTGCTGTACGCCGGCGAAGTGAACTGGGAAGCAGTGAACCTCGAAGGCAAGCAGCGACGGATCGAGAACGCCCTGAAGTCCGGGGATTCCGTCCTGGTGCAGGTCACCAAGGACCCTGTCGGCCACAAGGGCGCACGCCTGACCAGCCAGATCTCCCTGCCGGGGCGTTACCTCGTGTACGTGCCCGGCGGTTCCATGACGGGCATCTCGCGCAAGCTTCCCGACGTCGAGCGCAACCGCCTGAAGCGCATCCTCAAGGACCGCCTTCCGGAAGACGCTGGCGTCATCGTCCGCACCGCCGCCGAAGGCGCATCCGAGGAAGAGCTCACCCACGACATCAACCGCCTCCGGGCCCAGTGGGAAGGCATCGAAAGCCAGGCGAAGTCCACCAAGGTCCTCGCTCCCGAGTTGCTGTACGGCGAACCCGACCTCACTATCAAGGTGGTCCGTGACGTCTTCAATGAGGACTTCTCCAAGCTGATCGTTTCCGGTGATGAAGCCTGGGACACCATTGAGGCCTACGTCACCTACGTTGCCCCGGACCTCGTGGGCCGGCTCGAGAAGTGGACCAAGGACGAGGACATCTTCGCTGCCTGGCGCATCGACGAGCAGATCCACAAGGCGCTGGAGCGCAAGGTGTTCCTGCCCTCCGGCGGATCACTGGTGATCGACCGCACCGAAGCCATGACCGTGGTCGACGTCAACACCGGAAAGTTCACCGGCAGCGGCGGCAACCTCGAGGAAACCGTCACCAAGAACAACCTGGAAGCGGCTGAGGAAGTCGTCCGGCAACTGCGGCTGCGGGACATCGGCGGCATCATCGTAATCGACTTCATCGACATGGTCCTGGAATCAAACCGTGACCTCGTGCTGCGCCGCATGGTGGAGTGCCTGGGACGTGACCGAACCAAGCACCAGGTGGCCGAGGTCACCTCGTTGGGCCTCGTACAGATGACCCGCAAGCGCATGGGCACCGGCCTGCTGGAAGTCTTTGGCGAGCAGTGTGAGGTTTGTGCAGGCCGTGGCGTTGTCACGCACGACGAGCCCGTCGAGCACCGCCGCGCCAATGTGGTGGCGGCCGAACACCATGTCCCGCGCAGCGAACACCAGCCCGCCGTACGCACCGAGCGTAAGAGCCGGCGCCGGGGCAAGGCCGGACAGGGACCGGCTGAAACCGGACCCGCCGCACCGGCCGTCATGCACCACGAACCCAGCGAAGCCGAGCGCCACGCCAAGGCCGAGGCAACGCGGGCAGCACTGGCCAACATCGCCGCCGCTGCGCACGCTGCCCACCTCCACGAGGACGCAGCCCATCAGGCGGAGGCTGCCGGGGAGCAGCGTCCGGCTGCAGCTGCCTCAGCGGCCGCTCCGGAAAGCCCGTTGGTGCACCGCGCACCTGACACGGAAAGCATCTCGGGCCGGCCGGGCGCCGTGTTGACCTTTGGCGGCGAGAAGGTAGTCCTTCCTTTCGTGGAGCACACGGAGCCTCCGGCCGTGAAGCCTGCGCTGACCCTTGACCGCCTTGAGGAAGCCTTCGCGCACCTCGGGGAGCCGAGACCGGAAGCCTCCAGGGAAGCCGAGCCTTCAACGACGGCCCGGCCTTCCGCGGCGACTCCGCCTTCAAAGGCAACCGAGCCCGCTAAGGGCGCCGATATGCCAGCCCCGGCACCTGCCGCCGTCCGGGCACCTATTGACAGCGACAGGGAGCGGTTCGCTGACCATTCCGACGTGGCCGTGCGCACCCGCCGTCCGCGGCGCAACCGCAGCGCCAGCCGGGCGCAGGGTGCGGCCAACGAGACGTCCGTGGAACACCACGAGCCTGTGCCCGGGGCTGCCGCCGGGCACTCCCATGAGGCCAAAGTGCCGTCGGCGGACAACAGGACTGAGAAGGCCGCGGGTCCGCAGGCTGCGGATGGACCCATCATTCTGGGCGTAGGCGTACCCGCTTCCGAGCTGTAG	MDNDQVVAVNEDPVEKEEPVAAEAPKKATRTRRKAAPKAEEPGVQVSLPEPEVQEPVVAAPSLSADPEVSGPVDAAHAEVTEVETAVAEVKAPVRRTRARKKVAEEPLPAFADAAEAGPGSAAAEIAEPEAKPVRRRRVAKAKTGDTAAEAPAAAPAVETRVEETPVADIRAEAAAAVGSAEAEAEAAEAEVSAADGAVTEDAVSEGAVFERAESEKPVETTSQAAPAGALFLEPASVTSIIFQAPDLNTVIRPAVPAAGAQDAEASDSGDEQDDDDGGRRRRRSRGRRGRTRNGREVTDGEAIDRDGTEEDAEGIDAAGDADEETAGQAEDGVTSRRRRRRRRGDQDLELTGGGDDDPPNTVTRVRAPRVPSEPAVSNRVTSVKGSTRLEAKKQRRRESRDTGRRRTVITEAEFLARRESVDRQMIVRQRDDRIQIGVLEDGVLAEHFVSKTQQDSLIGNVYLGKVQNVLPSMEAAFVDIGRGRNAVLYAGEVNWEAVNLEGKQRRIENALKSGDSVLVQVTKDPVGHKGARLTSQISLPGRYLVYVPGGSMTGISRKLPDVERNRLKRILKDRLPEDAGVIVRTAAEGASEEELTHDINRLRAQWEGIESQAKSTKVLAPELLYGEPDLTIKVVRDVFNEDFSKLIVSGDEAWDTIEAYVTYVAPDLVGRLEKWTKDEDIFAAWRIDEQIHKALERKVFLPSGGSLVIDRTEAMTVVDVNTGKFTGSGGNLEETVTKNNLEAAEEVVRQLRLRDIGGIIVIDFIDMVLESNRDLVLRRMVECLGRDRTKHQVAEVTSLGLVQMTRKRMGTGLLEVFGEQCEVCAGRGVVTHDEPVEHRRANVVAAEHHVPRSEHQPAVRTERKSRRRGKAGQGPAETGPAAPAVMHHEPSEAERHAKAEATRAALANIAAAAHAAHLHEDAAHQAEAAGEQRPAAAASAAAPESPLVHRAPDTESISGRPGAVLTFGGEKVVLPFVEHTEPPAVKPALTLDRLEEAFAHLGEPRPEASREAEPSTTARPSAATPPSKATEPAKGADMPAPAPAAVRAPIDSDRERFADHSDVAVRTRRPRRNRSASRAQGAANETSVEHHEPVPGAAAGHSHEAKVPSADNRTEKAAGPQAADGPIILGVGVPASEL				NA	NA	NA	NA	NA
D1-17_01677	1539	pdxK		Pyridoxine/pyridoxal/pyridoxamine kinase	ATGTCTTTTGGTGCAGACGTCCGTGGAGCAGCGGCTCCCGTTCACGTTTCACCCGCCACCCGGAGGGTTCCCCGGGTCCTGGCCATCGCCGGTTCAGATCCTTCCGGCGGCGCCGGCATTCAGGCCGACCTGAAAAGCATCGCAGCCACCGGCGGCTACGGAATGGCCGCCATCACTGCGCTGACGGCACAAAACACCAGGGGAGTCAGAGGAGTCCACGTGCCGCCGGCCGGCTTCATCGCTGCGCAGCTCGCGGCGGTCAGCGACGACATCGCCATTGACGCCGTGAAGATCGGCATGCTGGGCGACGCGGACATCATCACCGCGGTCCGCACGTGGCTCGAGAAGGTGCGTCCCGGCGTCGTTGTCCTGGACCCGGTCATGGTTGCCACAAGCGGCGACCGGCTCCTTCAGGAATCCGCTGAGGGGGCGCTGCGGTCGCTGCTGCCTCTCGCAGACCTCATTACACCTAACCTTGCGGAACTGGGCATGCTGCTGGGTGAGCAGGAAGCGGCCACCTGGTCCGAGGCATTGGAACAGGGAAAGCGGCTCTCGGCCGAAACCGGGGCTATTGTCCTCGTCAAGGGCGGGCACCTGGAGGGCGCTGACTGCCCGGACGCCCTGGTGAACACGGGTGGGGCTTTATCTGCGGACGTTGTGGTGGTGGAGGGGCAGCGCGTATCCACCCGAAACAGCCACGGCACGGGGTGCTCACTGTCCTCGGCGATGGCGACCGTACAGGCTCGGCTGGGGAACTGGGAACTTGCCCTGCGCACCGTCAAGCCCTGGCTGGAGGGCGCATTGCGCGCCTCCGAGCAGCTCGAGGTAGGCCACGGAAACGGCCCGGTACACCACTTCCACCATCTGCCGCAGGCAGACGATACCGCCGACGGCAGCTTCGCGGCCCTGCTGCAGGCGGAGGCCGCTGCTGACCTCGACGCGATTTACGGTTTGGATTTCATCCGCGGGCTGTCAGAGGGAAGCCTCCCGGAAAACCAGTTTGCCTACTACCTTGCGCAGGATGCCATCTACCTCAACGGCTATTCGCGGGTTCTCGCCAGGGCCAGCGCGCTCGCCCCCACCGAGGCCGAGCAGCTCTTCTGGGCCCGGTCCTCCCAGCAATGCCTCGAAGTCGAGTCCGAGCTGCACCGCAGCTGGCTAAGCACCAGAACAGTCCCCAGGGGCCTTGGCCCGGAGACGAAGGCCTACGTGGACCACCTCCTGGCCGCGTCGGCATCCGGCAGCTACGCGGTGCTGGTGGCGGCGGTGCTCCCGTGCTTCTGGCTCTACGCCGAAGTAGGGCAGACCCTGCATACCGGATTCCTGGCAGCCGGAGCCCCGGACGGGCACCCCTACGCGGAGTGGCTGCGCACCTACGCCGATGAGGGTTTTGCAGCAGCCACCCGGCAGGCCATCTCAATCACTGACACAGCGGGGCGAAAAGCTTCCGACGCGGAACGCCGAGAGATGCTCACTGCCTTCCGGCACTCCTGCCGCTTCGAGGTTGATTTCTTCGACGCGCCGCGCCGTCACAGCTGA	MSFGADVRGAAAPVHVSPATRRVPRVLAIAGSDPSGGAGIQADLKSIAATGGYGMAAITALTAQNTRGVRGVHVPPAGFIAAQLAAVSDDIAIDAVKIGMLGDADIITAVRTWLEKVRPGVVVLDPVMVATSGDRLLQESAEGALRSLLPLADLITPNLAELGMLLGEQEAATWSEALEQGKRLSAETGAIVLVKGGHLEGADCPDALVNTGGALSADVVVVEGQRVSTRNSHGTGCSLSSAMATVQARLGNWELALRTVKPWLEGALRASEQLEVGHGNGPVHHFHHLPQADDTADGSFAALLQAEAAADLDAIYGLDFIRGLSEGSLPENQFAYYLAQDAIYLNGYSRVLARASALAPTEAEQLFWARSSQQCLEVESELHRSWLSTRTVPRGLGPETKAYVDHLLAASASGSYAVLVAAVLPCFWLYAEVGQTLHTGFLAAGAPDGHPYAEWLRTYADEGFAAATRQAISITDTAGRKASDAERREMLTAFRHSCRFEVDFFDAPRRHS	PGPT0008915_63	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008915-thiD-K00941	NA	NA
D1-17_01678	309	rplU	COG0261	50S ribosomal protein L21	GTGGTGTACGCGATTGTCCGCGCAGGCGGCCGCCAAGAGAAGGTTTCCGTTGGAGACTTCGTTACCCTGAACCGCGTCGCCGGTGGAGCCGGCAGCACCATTGAGCTGCCCGCACTGCTCCTGGTTGACGGCGACAAGGTCACGTCTGCTGCGGCGGACCTGGCCAAGGTAACTGTTACGGCTGAGATCCTTCAGGACCTGCGTGGTCCGAAGATTGTCATCCAGAAGTTCAAGAACAAGACCGGATACAAGAAGCGCCAGGGTCACCGTCAGGAACTGACCAAGGTCAAGATCACCGGCATCCAGTAA	MVYAIVRAGGRQEKVSVGDFVTLNRVAGGAGSTIELPALLLVDGDKVTSAAADLAKVTVTAEILQDLRGPKIVIQKFKNKTGYKKRQGHRQELTKVKITGIQ				NA	NA	NA	NA	NA
D1-17_01679	264	rpmA	COG0211	50S ribosomal protein L27	ATGGCACATAAAAAGGGCGCGAGCTCCACTCGCAACGGTCGTGACTCCAACGCACAGTACCTCGGCGTCAAGCGCTTCGGCGGCCAGGTAGTTTCCGCCGGCGAAATCATCGTTCGCCAGCGCGGCACCCACTTCCACCCCGGTGCAGGCGTTGGCCGCGGTGGCGACGACACGCTGTTCGCACTCCAGGCCGGTGCTGTCGAATTCGGCACCCGCCGCGGCCGTCGCGTCGTGAACATTGTTGCTGCTGCAGCTGCAGAGTAA	MAHKKGASSTRNGRDSNAQYLGVKRFGGQVVSAGEIIVRQRGTHFHPGAGVGRGGDDTLFALQAGAVEFGTRRGRRVVNIVAAAAAE	PGPT0019510_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019510-icd2-K00030	NA	NA
D1-17_01680	1590	obg	COG0536	GTPase Obg	GTGGCGAGCTTTGTAGACCGCGTAGTACTGCACGTATCCGGCGGTACCGGTGGCCACGGTTGTGTCTCTGTCCACCGCGAGAAGTTCAAGCCTCTCGGCGGACCCGACGGCGGCAACGGCGGCAACGGCGGCGACGTCATCCTCCGGGTGGACTCCCAGACCACCACGCTGCTGGACTACCACCATGCCCCTCATCGCCACGCCACCAACGGCGGCCCGGGCATGGGTGACTGGCGCGGCGGCAAGAACGGCGAGACCTTGGTCCTGCCGGTCCCGGACGGCACGGTCGTCAAGACCAAAGACGGCGAAGTCCTCGCCGACCTCGTGGGCGAAGGCACCGAGTACATTGCGGCCGCCGGCGGCTTGGGCGGACTCGGCAATGCAGCCCTGTCCTCCCAGAAGCGGCGGGCACCTGGCTTCGCCCTGCTCGGCATCGAGGGCGAGTCTGCCGACATCGTGCTGGAGCTGAAGTCCATCGCCGACATCGCTCTGGTCGGCTTCCCCTCGGCCGGCAAGTCCAGCCTGATTGCGGCAATGTCCGCTGCCCGCCCCAAAATCGCCGACTACCCCTTCACCACGCTCATTCCGAACCTTGGCGTTGTGCAGGCCGGTGACATCCGGTTCACCATCGCCGACGTTCCCGGGCTCATCGAGGGTGCCAGCGAAGGCAAGGGCCTGGGACACAACTTCCTGCGACATGTCGAGCGATGCGCAGCTTTGGTGCACGTTTTGGACTGCGGTACGCTGGAATCTGACCGAGATCCACTCTCAGACCTCGCCATTATCGAAGCCGAACTCGAAAAGTATGCCGTCGACATGAGCTACGCCGGCAACAACGGCGAGGTTGTTCCGCTTAACCACCGGCCCCGTTTGGTCGCACTGAACAAGGTGGACCTGCCTGACGGCAAGGACATGGCCGATTTTGTCCGCCCCGAACTGGAATCCAGGGGCTACCGCGTGTTCGAGGTTTCCGCCACGAGCCACGAGGGCCTTCGGCAGCTTGGATTCGCCATGGCGGAGATCGTTAAGGCCGCCCGTGATTCGGTGGCGGCCGCGCCCCCGAAGGTGCATGCCCCGGTGCTGCGCCCGCGTGCGGTGAACGAGACCGGCTTCAAGATCCGCCGCGAAGAAAAGAACCTGGAGCCGCTGTTCCGGGTCCTGGGTGAAAAGCCCGTGCGGTGGGTCAAGCAGACTGACTTTACGAACGAGGAAGCCATTGGCTACCTCGCCGACCGGCTTGCCAAGCTTGGCGTTGAAACCGAGCTGTTCAAGCAGGGCGCCAAGCCGGGTGACACCGTGGTAATTGGTGACGACGACGGCGTGGTGTTCGACTGGGAACCGACAATGATGGCCGGTGCCGAACTGCTGGCATCACCGCGCGGTACCGACATCCGCTTTGCAGACGTCGGTGACCGCCCCACCCGAACCCAGAAGCGCGAGGAACAGATCGAACGCCGCGAGGCGAAGGCTGCGGCGCGTGCCGAGCTGGAAGCCGAGCGCAAGGCGGGCATTTGGACGGAGTCAGTCAGCGGGCGCCGTATCGCACGGCCGCTCAAGGAGAGTGGACTTAACACCCAACATGAGGAGTGA	MASFVDRVVLHVSGGTGGHGCVSVHREKFKPLGGPDGGNGGNGGDVILRVDSQTTTLLDYHHAPHRHATNGGPGMGDWRGGKNGETLVLPVPDGTVVKTKDGEVLADLVGEGTEYIAAAGGLGGLGNAALSSQKRRAPGFALLGIEGESADIVLELKSIADIALVGFPSAGKSSLIAAMSAARPKIADYPFTTLIPNLGVVQAGDIRFTIADVPGLIEGASEGKGLGHNFLRHVERCAALVHVLDCGTLESDRDPLSDLAIIEAELEKYAVDMSYAGNNGEVVPLNHRPRLVALNKVDLPDGKDMADFVRPELESRGYRVFEVSATSHEGLRQLGFAMAEIVKAARDSVAAAPPKVHAPVLRPRAVNETGFKIRREEKNLEPLFRVLGEKPVRWVKQTDFTNEEAIGYLADRLAKLGVETELFKQGAKPGDTVVIGDDDGVVFDWEPTMMAGAELLASPRGTDIRFADVGDRPTRTQKREEQIERREAKAAARAELEAERKAGIWTESVSGRRIARPLKESGLNTQHEE				NA	NA	NA	NA	NA
D1-17_01681	1173	proB	COG0263	Glutamate 5-kinase	ATGAGGAGTGAACGCGCACACGTGTCTGATACGTCCGCAATTGTCATCGAGGAGCCCAAGACCGACCGCCGCAGCATGCTCGCCAAGGCGCGCCGCATCGTCGTCAAGGTCGGATCGTCGTCGCTCACCAGCATCAAGGGCGGAATTTCCGAAGAGGCGCTGATCGAACTCTCCAACACGCTCGCTGCCAAGAGCAACGAGGGCACCGAGATCATCCTGGTCTCCTCGGGCGCCATCTCCGCCGGGCTTGCGCCGCTTGGACTTGAGAAGCGTCCGCGTGACCTTGCCACCCAGCAGGCGGCAGCCAGTGTTGGGCAGGGACTGCTCATGGCCCGGTACACCCACGCGTTCGCCGCCCACGGCGTGACCGTGAGCCAGGTGCTGCTGACGGCGGATGACCTGATGCGGCGCAGCCACCACCTTAATGCGTTCCGGGCATTGAACCGGCTCCTGAACCTCGGGGTCGTGCCCGTCGTCAATGAGAACGACACCGTCGCCACGCACAAGATCCGCTTCGGGGACAACGACCGCCTCTCGGCACTCGTGGCGCACCTGGTGCGCGCCGACGCGCTGATCCTCCTGTCCGACGTCGACTCCCTCTACGACGGGCCCCCCTCCAGCGGCGCCAAACGAATTCCGCAGGTTGACGGCCCGCAGGACCTGGAGGGCGTCAACATCGGCAAGACCGGCAAGGCCGGCGTGGGCACCGGCGGCATGCAGACGAAAGTCGAAGCCGCCATCATGGCCGCGGATTCGGGCATTCCGGCTTTGGTCACGTCCACAGAAAATGCTGCGGCAGCCCTCGCCGGCGAGGACGTGGGAACGTGGTTTTCCGTCAACAGCGGCCGCAAGTCCGTGCGCATGATGTGGCTCGCCCACCTCGCGCATGTCCAGGGCCGGCTGCTTCTCGACAACGGGGCAGTAAAGGCTGTGCGCGACAAGGGCGCCTCCTTGCTGCCGGCGGGTATCACGGCAGTTGAGGGCCACTTTGAGTCCGGTGACGCCGTTGAAATGATTGCCCCCGACGGCACTGTGATTGCCCGCGGTCTTGTTAACTACTCGGCCGATGAGCTGCCGCAGATGCTGGGGCGTTCCACCGTGGAACTGGGGGAGTCCCTGGGCCGGGGCTTTGACCGTGAGGTTGTTCACGTTGACGACCTGGTTCTGGTCTGA	MRSERAHVSDTSAIVIEEPKTDRRSMLAKARRIVVKVGSSSLTSIKGGISEEALIELSNTLAAKSNEGTEIILVSSGAISAGLAPLGLEKRPRDLATQQAAASVGQGLLMARYTHAFAAHGVTVSQVLLTADDLMRRSHHLNAFRALNRLLNLGVVPVVNENDTVATHKIRFGDNDRLSALVAHLVRADALILLSDVDSLYDGPPSSGAKRIPQVDGPQDLEGVNIGKTGKAGVGTGGMQTKVEAAIMAADSGIPALVTSTENAAAALAGEDVGTWFSVNSGRKSVRMMWLAHLAHVQGRLLLDNGAVKAVRDKGASLLPAGITAVEGHFESGDAVEMIAPDGTVIARGLVNYSADELPQMLGRSTVELGESLGRGFDREVVHVDDLVLV	PGPT0014220_416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
D1-17_01682	1335	proA	COG0014	Gamma-glutamyl phosphate reductase	ATGAACCAAGCAGCAGAGACATCCACCGACGCTATGCAGGTCCCTTCCATGCCTGAAAACAGCCAGCCTACGCCGGCCGAGGTTGAATCGGCCGTGTACGCCATCGCGGACCGTGCCCGGGAGGCAGCCCGGAGCATGTCCCGCGCCAACCGCGCGCTGAAGGACAAGGGCCTGCATGCCATCGGCGGAGCCCTGCTGGAGCGGAAGGCTGACATCCTCGCAGCTAACGCAAAGGACGTCGAAAACGGCCGTGCCAATGGAACCTCCGCGGCGCTGCTCGACCGGCTGACCCTGAACGACGCCCGCATCGCCGCCCTCGCAGGCGCCCTTGAGAACCTTGCCGGACTGCCCGACCCTGTCGGGAACGTGGTTCGCGGCCAGACCCTGCCGAATGGCCTGCGCCTGCGCCAGGTCAACGTTCCCATGGGCGTGGTGGCCGCCATCTATGAGGCACGCCCCAACGTCACGGTTGATATCGCCGGCCTCGCCCTGAAGAGCGGCAACGCCGTGATCCTGCGCGGCGGAACTGCCGCGGCAGCCACCAACGAGGCCCTCATCGGCGTATTGCGCGAGGCGCTCGTGTCCGTCGGCCTGCCCGCGGACGCGGTCCAGACCGTGGACCAGTACGGCCGTGAGGGCGCCAATGTGCTGATGCGCGCCCGCGGCCGCGTTGACGTGCTGATTCCCCGCGGTGGCCGTGAACTGATCCAGACAGTGGTCAACAACTCTTCCGTTCCGGTCATCGAAACGGGAGAGGGCAACGTCCACATCTTTATCGACGAGTCCGCCGGTGAGGACATGGCCGTGGAGATCCTCCTGAACGCCAAGACCCAGCGTCCGAGCGTGTGCAACACCGTGGAGACCCTTCTAGTGCACTCCAAATCCGCTGTTCTCCCGGCCGTGGCCTCGGCCCTGGCCAAGGCCGGTGTCCGCCTCCACGCCGATGAGCGTGTCCGTGCAGCACTGCCGGAGTCGGTTGAAGCGGTGGCTGCCACCGATGAGGACTGGGCCACAGAGTACATGGACCTGGACCTTGCCGTGGCGATGGTGGACAGCCTCGACGACGCGGTGCAGCACATCCGCACGTGGACCTCAGGCCACACCGAGGCCATTCTCACCAACGACCTGGCAAACGCCGAGCGGTTCATTGCGGAGATTGATTCCGCTGCCGTGATCGTGAACGCTTCCACGCGCTTTACCGACGGCGGCGAGCTGGGTCTGGGGGCGGAAGTCGGCATTTCCACGCAGAAGCTTCATGCCCGCGGACCCATGGGCCTGACGGAGCTCACCACCACGAAGTGGATCGTCCAGGGTGAGGGCCAGGTCCGCGGATAG	MNQAAETSTDAMQVPSMPENSQPTPAEVESAVYAIADRAREAARSMSRANRALKDKGLHAIGGALLERKADILAANAKDVENGRANGTSAALLDRLTLNDARIAALAGALENLAGLPDPVGNVVRGQTLPNGLRLRQVNVPMGVVAAIYEARPNVTVDIAGLALKSGNAVILRGGTAAAATNEALIGVLREALVSVGLPADAVQTVDQYGREGANVLMRARGRVDVLIPRGGRELIQTVVNNSSVPVIETGEGNVHIFIDESAGEDMAVEILLNAKTQRPSVCNTVETLLVHSKSAVLPAVASALAKAGVRLHADERVRAALPESVEAVAATDEDWATEYMDLDLAVAMVDSLDDAVQHIRTWTSGHTEAILTNDLANAERFIAEIDSAAVIVNASTRFTDGGELGLGAEVGISTQKLHARGPMGLTELTTTKWIVQGEGQVRG	PGPT0014215_190	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
D1-17_01683	225			hypothetical protein	ATGCTGCTCCAGCAGATCGCCGCGTCAGTTGCAGGACACGAAGAGAAGGCCCCGCTGTGGGCTGAGCCATGGGTCTTTGGCGTGTCCATGTTCGCCATCCTGCTGGTCATGATGTTTGTCACCCTCTCCTACACAAACCTCGGCAACCGCCACGCGGCTGTTGACGAGCACGCGGACCCGCACCGCCAGCACCCCAACAAGCACGACCACGGCCAGGGTCACTAA	MLLQQIAASVAGHEEKAPLWAEPWVFGVSMFAILLVMMFVTLSYTNLGNRHAAVDEHADPHRQHPNKHDHGQGH				NA	NA	NA	NA	NA
D1-17_01684	618	nadD	COG1057	putative nicotinate-nucleotide adenylyltransferase	ATGGGTGGGACGTTCGATCCCATCCACCACGGCCACCTCGTAGCGGCCAGCGAGGTAGCCGCAAAGTTTGCGCTGGACGAAGTGGTGTTCGTCCCGACCGGCCAGCCGTGGCAGAAGTCCAGCAAGAAAGTCAGCGAACCTGAACACCGCTACCTGATGACCGTCATTGCGACCGCATCGAACCCGCGGTTCACGGTCAGCCGGGTAGACGTCGACCGTCCCGGACCCACGTACACCATCGACACCCTGCGGGATCTGCGGCGCCAGCGCCCGGACGCTGACTTGTTCTTCATTACCGGCGCGGACGCCCTGGCCCAGATCCTGTCGTGGAAAGACATCGATGAACTCTGGTCACTGGCCCACTTCGTCGGAGTGACCCGCCCCGGCCATGAATTGGACGGCATGGGCCGCAAGGACGTCAGCCTCCTGACGGTGCCGGCCATGGCCATTTCCTCAACGGACTGCCGGGCACGAGTGGCCGCCCACAACCCGGTCTGGTATCTCGTTCCGGACGGGGTTGTTCAGTACATCGCGAAATACGGACTGTACGCCGCGCCGCCGGCGGAACTGGACAGCTCCGCGCTCACCGAGACAGACGCAACCGCCAGCACTGAATGA	MGGTFDPIHHGHLVAASEVAAKFALDEVVFVPTGQPWQKSSKKVSEPEHRYLMTVIATASNPRFTVSRVDVDRPGPTYTIDTLRDLRRQRPDADLFFITGADALAQILSWKDIDELWSLAHFVGVTRPGHELDGMGRKDVSLLTVPAMAISSTDCRARVAAHNPVWYLVPDGVVQYIAKYGLYAAPPAELDSSALTETDATASTE	PGPT0013435_369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
D1-17_01685	1464			hypothetical protein	ATGAGTCAGGAACAGCCACCCGTCCGCAGCCGCCGTGAACTCCGGAAGGCCAGAGATGCAGCCCAGGGCAAGATCCGGGAAGCCAGCACCACCGGTGCCGGCGAGGTAACCCCTGCCTCAGACCAGGGTGCTGGAAACCAGCCTGATGCAAAAACGCCAGCCCCTGGCCAGGCAGCGGCCAAAAATCCTGCCGAGAACCGGCTGGCTGCAAAAGCGCCTGCCGCAGGCCAGACAGCGTTCACAACTCCCACTGCACAGCGGCCCGCTGATCCAGCCGCCTCCGGCCGTGTCCGACGTGTGGCACCGGGACCCGTAGATTCCGTGCCCGGTGGCCAGGCGGCCGAGCGTTCCTCACAGATCCGGGCCAGGGACCGTGCTGCGCTGCGCACCATTAAGGAGCTCGCGGAAAAGGAAGGGCAGCTGTCCGGGGGAGGACCGCCCACGCGCCGCCAGCTACGACTGATGGAGCTGGAAAAGGCCGTGACCTCGGCCATCCCCGTCGTGCCGCCTGCTTCCGGCCAACAGTCCCCTGCTGCGCCTACCCAAGGTAAAACCACTGCGGCTCCGGCGGTCCCTGACCGCCCAGCGGCTCCCGCACGGCCAAGCGACCAAGGGCAGCCTGCTGCGCAGGCTCCCGCCCAGCCGACCATGGCTCCCAAAGCGGCTGCTGATACCCAGCCGGGCATTCCCGACGAATTGCCCGATGGCATGACCGTTGAGCAGGCCCTCGAAGCACGCGCCCTGATCGCCGAACAGGCGAAGAACCAGATCGCGAAGATGGAGCACATCGCCGCGACCGATCCTGAAGCCGTGGACCCTGAGATCCTGGCACAGCAAATCGCGCTGGCGGAACGTGCGGCCATCCTCAACAAGCGGGCCATGGCGAAACAGAAACTCGCCGAAAAGAACACGCCCTCGCAGCCAAACAACGGTCCGTCCACCGCCAGCAACCTTGCCATGGTGACGCCGCTGGAGTTTGTCCAGGTTCCCGGCGTCGAACGTCCGGTCATGAAACGCCCGGCCACGTCCTACGTGCCTGTCGTAACCAACCCCGGACCGCGTGTACCGGCACGCGGATCCAAGCCGTCAAAGGCTCCCCGTTCAGCCGGCAACGCACCGTCGACGGGGCGTGCACGCGTTATCGCACGAGCAGAGGCAGCCGCCCGGGCGGCGGCTTCGCCCGCAGCGCCGCCGGCGGCCCCGCCAGCCGCGGCCCGCCAGTCGCCGCCTCCGCAGTCGGCCGTGAACCCGTCACCGGCTTTGGAGGCGGAGTCTAAGGACGAGTTCGCCGCGCTGCCTCCGGTATCGGCCCAGTCTGCCTATGGCCTTGACCCGCTGGACGCTGCGACGGCCGGCCTCGGCAGGGCCAACCGGCTCCGGCTGCTGCAGGTAGGGGTGCTGGCCCTCGGGGTCATTGCACTTATCGCCGGCATCGTCATGATCATCAGCGGACTCGCACGCTGA	MSQEQPPVRSRRELRKARDAAQGKIREASTTGAGEVTPASDQGAGNQPDAKTPAPGQAAAKNPAENRLAAKAPAAGQTAFTTPTAQRPADPAASGRVRRVAPGPVDSVPGGQAAERSSQIRARDRAALRTIKELAEKEGQLSGGGPPTRRQLRLMELEKAVTSAIPVVPPASGQQSPAAPTQGKTTAAPAVPDRPAAPARPSDQGQPAAQAPAQPTMAPKAAADTQPGIPDELPDGMTVEQALEARALIAEQAKNQIAKMEHIAATDPEAVDPEILAQQIALAERAAILNKRAMAKQKLAEKNTPSQPNNGPSTASNLAMVTPLEFVQVPGVERPVMKRPATSYVPVVTNPGPRVPARGSKPSKAPRSAGNAPSTGRARVIARAEAAARAAASPAAPPAAPPAAARQSPPPQSAVNPSPALEAESKDEFAALPPVSAQSAYGLDPLDAATAGLGRANRLRLLQVGVLALGVIALIAGIVMIISGLAR				NA	NA	NA	NA	NA
D1-17_01686	411	rsfS		Ribosomal silencing factor RsfS	GTGACTGCATCTGATTCATCCATCGCCACAGCCCGACATGCAGCGAGGGCCGCAGCCGACAAAATTGCCCAGGACATCGTGGCTCTGGACGTCAGCGAGCGACTCGCACTGGCCGACGTCTTCCTGATCGCTTCGGCACCCAGCGAACGCCAGGTCAACGCCATCGTCGACGGCATTGAGGAAGAACTCCTCAAGCAGGACCGTCGTCCCGTCCGCCGCGAGGGCCGGTCAGCCGGGCGCTGGGTTCTGCTTGATTATTCCGACGTGGTGATCCATGTCCAGCACGAGGAAGACCGCGTTTTCTACGCACTTGAGCGGCTGTGGAAGGACTGCCCCGTGGTGGACCTGCAGCTGGGGGATGACTCCTCGGCCAAGTCAACAGCCGGCTCGGAGGCGGAACAGCCCAGCTGA	MTASDSSIATARHAARAAADKIAQDIVALDVSERLALADVFLIASAPSERQVNAIVDGIEEELLKQDRRPVRREGRSAGRWVLLDYSDVVIHVQHEEDRVFYALERLWKDCPVVDLQLGDDSSAKSTAGSEAEQPS	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
D1-17_01688	390			hypothetical protein	GTGGCTGACGATCAGGACCTGCCGGTGCTGGACAGCCGTGTTTTGCGCTCCCTGGCAGACGAAGCCAGCCCGGCCGTGGCCCAAGCGTACATCAACGATTACCTGCAGCTGCTGCCCGTGCGCGCGGCGACGATCCTTCGCGGGCTCGCTGGCGAGGATCAGACGGACGCCATCGAAGGACTGGTCAGCCTGAGGGTGACATCCGCCATGGCGGGCGCGCTGCGGCTGGAAGGATACTGCCGCAAACTCGAACATGCGCTGAAGCATGGTCACCGGGCGGATCCGGCCGCCGTGAAAGCTGTGCTGTTCGCGAACATCCGGTTGCTGGTGCGGGAAGCAAGACGCCAGGGACATCTCCCGAGCCCGCGGCCGGATGTGCCCGAAAGCTAA	MADDQDLPVLDSRVLRSLADEASPAVAQAYINDYLQLLPVRAATILRGLAGEDQTDAIEGLVSLRVTSAMAGALRLEGYCRKLEHALKHGHRADPAAVKAVLFANIRLLVREARRQGHLPSPRPDVPES	PGPT0025855_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-QUORUM_SENSING_REGULATED_FLS,PGPT0025855-hptB-K20976	NA	NA
D1-17_01690	1143	rlmG	COG2813	Ribosomal RNA large subunit methyltransferase G	GTGACGGAAAACAGTGTTGTGGAGCTATTCAGTAGGCTGCGCAGATCCCCTGATGTCGAGGCGCTGAATCTTCAGGCATGGGATGCCACGGACACGCTCCTGCTGCAGGCTGCGGCAAACCATCTGACGGCGCAGAGTACGGTCGCCGTCATCGGCGACCGCTACGGCGCACTTACGCTCGGCCTGCTCTCCGGGATGTCATTTGAGGCCCCGGCGTGGGTTCGGGTGCACCAGGATCTCATCACGGGGGAGCGGGCCCTGCGGAACAATGCGGCTGCGCTTGGCGTCGATGGCGGCTTTGAGCAGCTGCCCCTCGTAGAACCTCTCCTCCGTGATGCCGGCCTCGTCTTGCTGCAGCTCCCCAGAACCCTTGCCGAGCTCGAGGAGATTGCCGATGCCGTTGCTCGGTATGCGCCGCCCGGGACAGTGCTGCTGGCCGGCGGCCGCGTAAAACATATGTCCCTAGGGATGAACGCCGTCCTGGGACGTTACTTCGAAACGGTCCAGCCTCAGCTGGCACGCCAGAAGTCCCGGCTCCTCGTGGCTTCCGCGCCGCGGCCCGTGCCGCCGCGGCCTCCTTACCCCGTGACTGAGCACAATGCGGAGCTTGACCTCGCTGTATGCGCTCACGGCGCCGTGTTTGCCGGTACCCGGCTGGATATCGGCACCAGGTTCCTGCTGAATTTTCTTCCGGAACTTCCCGCGGCAGCCACGGCCGTGGATCTGGGATGCGGCACCGGAATCCTCGCTGCAATGTACGCGCGAACGCATCCGGCGTCGGCAGTCATAGCCACAGACCGGTCAGCAGCCGCCACGGCCTCCGCGGCAGCCACGGCTGCGGCGAACGGCCTGGGCGGGCAGATCACCGTGCTGCAGGATGATGCCATGGCTTCCGCCCCGGCAGGCAGCGCCGACCTTGTCCTGCTGAATCCTCCCTTTCACCTGGATGCCAGCGTGCACGCAGGCGCCGGCGTCAAAATGTTCGAGGCGGCTGCCCGCGTGCTGGCTCCGGGAGGGCAGCTGTGGACAGTCTTCAACAGCCACCTGCCGTACCTGCCCGCACTGGAGAGGCTGGTAGGACCCACTCGCGTCAAAGGCAGAAACCCGAAATTCACCGTGGCAGTGAGTGTCAAGAAGCAGTAA	MTENSVVELFSRLRRSPDVEALNLQAWDATDTLLLQAAANHLTAQSTVAVIGDRYGALTLGLLSGMSFEAPAWVRVHQDLITGERALRNNAAALGVDGGFEQLPLVEPLLRDAGLVLLQLPRTLAELEEIADAVARYAPPGTVLLAGGRVKHMSLGMNAVLGRYFETVQPQLARQKSRLLVASAPRPVPPRPPYPVTEHNAELDLAVCAHGAVFAGTRLDIGTRFLLNFLPELPAAATAVDLGCGTGILAAMYARTHPASAVIATDRSAAATASAAATAAANGLGGQITVLQDDAMASAPAGSADLVLLNPPFHLDASVHAGAGVKMFEAAARVLAPGGQLWTVFNSHLPYLPALERLVGPTRVKGRNPKFTVAVSVKKQ				NA	NA	NA	NA	NA
D1-17_01691	1251	nanK_2		N-acetylmannosamine kinase	TTGACCGAGATCCGCCAGCCCTCACCGAGGCGCGGAACCAACCTGCCCCGAATGGGTGACTTCAACTTAACAGTCATTCTCGACGCGATCCGGCGTTCGGCCGGCGGGCTCAGCCGCGTGGAGCTGGCGCAGATCGTCGGCCTGTCCCCGCAGACCATCTCCAACATTTCCCGACGGCTGTTGGACCAGAACCTTATCGTTGAAGCGGGGAAGGAGGGGAGCGGACCGGGCAAACCGCGGACCATCCTTCGGCTGAACCCTTCCGGAATGTACGCCGTGGGGGTGCACCTGGATCCGGCCGTGTCAACGTTTGTGCTGTTGGACCTTGTGGGCGCAGTGGTGCAGCATTCGCAGATCAGAACGCCGGATGACGGCAACCCCGATGCCGTCATCGCAGCCATTGCCGCGGAAATCGAACAGCTGACCCAAGCGTCGGATGTGGACGGCACCAAGATCGCCGGACTGGGCGTCGCCGCCCCGGGCCCCATCGACCATGACCACGGAATGGTCGTGGAGCCCCCGCTGCTGAGCGGCTGGGACCGCGTTCCGCTCCGGAGCGCACTGGCCGGCGCCACGGGGCTGGAGGTCCTGATGGACAAGGACGTGACCAGCGCCGCCGTCGCGGAGACCTGGGCGGGCGGGACCAGCGGCACCGGCAGCTTCATCTTCATGTACATGGGTACCGGCATCGGCTGCGGCATCGTGCTTAATGACGAGGTAGTCCGCGGCACGTCGGGCAACGCCGGGGAAATCGGCCACATCGTCGTGGACCCGGACGGCCCACCCTGTGACTGCGGCCTGCGCGGGTGCGTAAAGTCCTCCTGCATCCCGCAGGTTCTGGTGGCTGAAGCACGGGCTGCCGGCGTTCTTGAGGGGAACGGCCCCTTATCCGGCCCGGAGGTGCAGGAAGGCTTTGCCCGGCTGTGCGAGGCTGCCGACGCCGGAAACACTGCAGCAGCCGCCATCGTCGACAGGTCCGCCGTGCTGGTCGCGCGCGCTGCCGCCGTTGTGGCCAACACGCTCGACGTAGAGCGCGTGGTTTTTGGCGGGCCGTTTTGGGGCCCGCTGTCCAAACGCTACCTGGAACTGGTTCCCGAACTGATCCGGCACAACAGCGACGCCGGAAATATCCACGGCATTGAAGTGGTGGGAACCGGGGTGGGGGAGGACGTGGGCGCAGTGGGCGCCGCGTCCCTGGTTCTGGAGCACACGCTCGCGCCCCGGGCCCAGCGGCTGCTGCTTGAGGGATGA	MTEIRQPSPRRGTNLPRMGDFNLTVILDAIRRSAGGLSRVELAQIVGLSPQTISNISRRLLDQNLIVEAGKEGSGPGKPRTILRLNPSGMYAVGVHLDPAVSTFVLLDLVGAVVQHSQIRTPDDGNPDAVIAAIAAEIEQLTQASDVDGTKIAGLGVAAPGPIDHDHGMVVEPPLLSGWDRVPLRSALAGATGLEVLMDKDVTSAAVAETWAGGTSGTGSFIFMYMGTGIGCGIVLNDEVVRGTSGNAGEIGHIVVDPDGPPCDCGLRGCVKSSCIPQVLVAEARAAGVLEGNGPLSGPEVQEGFARLCEAADAGNTAAAAIVDRSAVLVARAAAVVANTLDVERVVFGGPFWGPLSKRYLELVPELIRHNSDAGNIHGIEVVGTGVGEDVGAVGAASLVLEHTLAPRAQRLLLEG				NA	NA	NA	NA	NA
D1-17_01692	438			hypothetical protein	ATGGGGGCACCCACACCCTCCTTGGCGGATGCCTTGTGGCACCACCGCAGCGGAGGATCGCTGACACGTTACCTCGGTAACTTGTATAGAACTCTAGGAGCAGCGACGGGACTGGTTCAAGCCGAGAGTCGAATTAAGACGCATTCTTACGCCTGCTTTACCGCCCGCTACAGAATTTTGTTCGCCGGGGCGGCCCGCGGGGCCCTCCCTTTGGGACAGGATCAGGTCTATTCTTTTGCCATGATCCAGCTACCGCCCAGCTATCAGGAATATCTTGCCGACAAAGACGAGAGCTTTGTTGACATGGTACGCCCGGTCCTCCTGCAGTCCGCCGCAGACAAGCTCCACGGCGTTCGTGTGCTCTACGTCCCGCGTGGGCACCAGGCGCACCTTGATGACACCATTCCCTACGGAACGATCATCGAGGACATTGACTAA	MGAPTPSLADALWHHRSGGSLTRYLGNLYRTLGAATGLVQAESRIKTHSYACFTARYRILFAGAARGALPLGQDQVYSFAMIQLPPSYQEYLADKDESFVDMVRPVLLQSAADKLHGVRVLYVPRGHQAHLDDTIPYGTIIEDID				NA	NA	NA	NA	NA
D1-17_01693	966	metF	COG0685	5,10-methylenetetrahydrofolate reductase	ATGTCACCACCTAGCCTTATTGAGACACATCCAAATCTTTCCGACGCAGCCCCTGTTGCGTTGTCCTACGAGCTTTTTCCACCGCGTTCGCCCGCGGCGGCCGAAACTCTCTGGACCACCATCCGGGAGCTCGAAACCACTGACCCTGACTATGTCAGCGTCACGTACGGTGCCAGCGGATCCAACCGCGACACCGCCGTCGAACTCATCAACCGGCTCGTGCTGGAGACCACTCTCCGGCCGTTGGCCCACCTGACCTGCGTGGGAAACACGCCGGCCGAGCTGGCCGAGATCATCGGCGAACTGCTCGACGCCGGAGTCCGGGGCATCCTGGCACTTCGCGGGGACCAGCCCAAGGACAGCGGAGAGCCCATTAGCGGCTCATTGCGCTACGCCCAGGACCTGATCGAACTGATCCGGCGCGTGGAGCAGCGACGGTCCGCCCTGCTGTGTGCAGGCAAGGTAGCCGTCGGTGTGGCAGCGTACCCCACACGGCACCCGGAATCCCCGAGTGAGGCGCACGACGTCGAGGTGCTGCTGGCCAAGCAGCGCTCCGGTGCGGATTTCGCCATCACCCAGGTGTTCTTCCACACCGAGCAGTACGCGGACCTCATCACCAGGGCCCGCCGGGCAGGCGTCACCATTCCCATCATCCCCGGCGTCATGCCGCTCACGAGCCTCCGGCGGCTGAAGCGCCTTGGTGAGCTGACCGGCGTCGAACCTTCCCCGGAACTGATCGCACGGCTCGCCGCGGCTGATTCGGACGCAGAGCGCATGCGCATCGGTATCAGCGCCACTGTGGACCTGGCCAACGCTGCCTTGGACGCCGGAGCGCCCGGCCTCCACCTGTACACGTTCAACGAACACCAGAGCGCCATGGAAGTCCTCGACAAGCTTTCGCTCGCCAGGCCGGCACGTGCCACCAGCCGTCTCAACGCGATGGCACGCCGCCAGCTCGCCAGCTGA	MSPPSLIETHPNLSDAAPVALSYELFPPRSPAAAETLWTTIRELETTDPDYVSVTYGASGSNRDTAVELINRLVLETTLRPLAHLTCVGNTPAELAEIIGELLDAGVRGILALRGDQPKDSGEPISGSLRYAQDLIELIRRVEQRRSALLCAGKVAVGVAAYPTRHPESPSEAHDVEVLLAKQRSGADFAITQVFFHTEQYADLITRARRAGVTIPIIPGVMPLTSLRRLKRLGELTGVEPSPELIARLAAADSDAERMRIGISATVDLANAALDAGAPGLHLYTFNEHQSAMEVLDKLSLARPARATSRLNAMARRQLAS	PGPT0008160_587	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
D1-17_01694	2331	metE	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGACTGAACAGAACACCGCGTTCCCGTCCGCCTCCATCCTCGGCTACCCCCGCATCGGCCGCCGCCGCGAACTCAAGAAGGCCGTCGAGGCCTACTGGGCCGGCAAAATTGACGCCGCCGCCCTTGACGCCGCAGCCAAGGAGATCCAGCTGGGTACCGCCAGGCGCCTGCAGGCACTGGGCCTGACAGAGCCCGCCGCCGTTCCGGGAACCTTCTCCTTCTATGACCAGGTGCTCGACGCAGCCGCCCACGTCGGTGCGGTTCCGGCCCGCTTCGGCAGCCTCCTCAACGCTGAGGGACAGCTGGACATCGACGGATACTTCACCCTGGCCCGCGGCAACAAGGACCAGCAGCCGCTGGAAATGACGAAGTGGTTCGACACGAACTACCACTACCTGGTGCCGGAAATCGGCCCGGAGACCAACTTCGCGCTGACTTCGAACCGCATCGTTGAAGAGTTCGAATACGCGCTGGCCAACGGCGTCGAAACCCGCCCCTACATCGTGGGACCCGTCACCTTCCTGCTGCTGAGCAAGGCTTCCGACGACGCTCCCGCCGGCTTCAGTCCGCTGTCCCGTCTCGAGGACGTACTGCCCGTCTACACCGCCCTGCTTGAGAAGCTGGCTGCCGCCGGCGCCAGCTGGGTCCAGCTGGACGAGCCTGCCCTGGTGGTTGACCAGGACACCTCGGAACAGGAGATCCAGGCAGCGGTTGCCCGCTCTTACGAGGTCCTCGGCGCTGCAGCCAGGCGCCCCCAGCTGTTCGTCTCAACGCCGTACGGCGCTCTCAACGGCCAGCTCGGCACCCTCGCCGCCACCACCATCGACGCCCTGCACATCGATGTCTTCAAGGGCGCCGTTCCCTCCGCCGCCGCCCTGGCAGCGCTGGGCACCAAGACCCTCGTTGCTGGCGTCGTGGACGGCCACAACATCTGGCGCAACGACCTGCAGGCCTCGGCGGACAAGATCGCCGACCTGCGCAAGAGCGTCGCCACGCTGGCCATCAGCACCTCCACCTCCACCCAGCACGTCCCGCACGACGTCGAGGAGGAGACCCAGCTCTCCGAGCAGCTCCGCAGCTGGCTGGCCTTTGCCGACCAGAAGGCCGTTGAGGTGGTCACCCTGGCCGGTCTCCTGACCGACGCCGCTGCCGTGCAGCCGGTTATCGACGAAGCCAGCCGCATCATCGCCTCCCGTGCCCAGGCCGACGGCGTGCAGCGTGCCGACGTCCGCGCCCGCACCGCCGCCCTGACCTCCGCCGACTTCAACCGCTCCGATTACTGGGTGCGCGAAGCAGCCCAGGAGAAGGCCCTGGCCCTGCCGCCGCTGCCCACCACCACCATCGGCTCGTTCCCGCAGACGTCTGAGATCCGCACCGCCCGTGCCCGCGCCAACAAGGGCGACCTCACCACGGAGCAGTACGAGCAGCTCATGAAGGACGAGATCAAGCGCGTCGTGGACCTGCAGGAAGAGCTCGGCTTCGACGTCCTGGTGCACGGCGAGCCCGAGCGCAACGACATGGTGCAGTACTTCGCGGAGAACCTCGAAGGCTTCGACGTCACGGGCCACGGCTGGGTCCAGTCCTACGGCTCACGCTGCACCCGTCCGTCCATCCTCTGGGGCGACGTGACCCGCAGTGCCCCCATCACCGTGGAGTGGGCCAAGTACGCGCAGTCCCTGACCAGCAAGCCGATGAAGGGCATGCTCACCGGACCCGTCACCATCCTCGCCTGGTCCTTCGTTCGCGACGACCAGCCGCTGGGCGAAACCGCCAACCAGGTCGCCCTGGCCCTGCGCGACGAGATCGCCGACCTCGAGGCCGCCGGCATCAAGATCATCCAGGTGGACGAGCCCGCACTGCGCGAACTCCTGCCGCTGCGCAAGGCGGAGCAGGCCGCGTACCTGGACTGGTCTGTCAACTCGTTCCGCCTGTCCACCGCCGGTGTAGCTGATGAAACCCAGATCCACACCCACCTGTGCTACTCCGAGTTCGGGGCCATCATCGACGCCATCGACGGCCTGGACGCCGACGTGACCTCGATCGAGGCAGCCCGCTCCCGCATGGAGGTCGTGCATGACCTCGAGTCCCACGGCTTCGGCCGCGGCGTCGGCCCGGGCGTGTACGACATCCACTCGCCGCGCGTTCCGGGTGAGCAGGAAGTCACAGAGCTCCTCAGCACTGCAGTCAAGCACGTTCCGTCCCGCCAGCTCTGGGTTAACCCGGACTGCGGCCTAAAGACCCGTGGCTACGCCGAGACTGAAGAGTCCCTGCGCAACCTGGTCAAGGCCACCAGGACAGTACGCGCCGAAGTGCTCGAAGGTGCAAAATAG	MTEQNTAFPSASILGYPRIGRRRELKKAVEAYWAGKIDAAALDAAAKEIQLGTARRLQALGLTEPAAVPGTFSFYDQVLDAAAHVGAVPARFGSLLNAEGQLDIDGYFTLARGNKDQQPLEMTKWFDTNYHYLVPEIGPETNFALTSNRIVEEFEYALANGVETRPYIVGPVTFLLLSKASDDAPAGFSPLSRLEDVLPVYTALLEKLAAAGASWVQLDEPALVVDQDTSEQEIQAAVARSYEVLGAAARRPQLFVSTPYGALNGQLGTLAATTIDALHIDVFKGAVPSAAALAALGTKTLVAGVVDGHNIWRNDLQASADKIADLRKSVATLAISTSTSTQHVPHDVEEETQLSEQLRSWLAFADQKAVEVVTLAGLLTDAAAVQPVIDEASRIIASRAQADGVQRADVRARTAALTSADFNRSDYWVREAAQEKALALPPLPTTTIGSFPQTSEIRTARARANKGDLTTEQYEQLMKDEIKRVVDLQEELGFDVLVHGEPERNDMVQYFAENLEGFDVTGHGWVQSYGSRCTRPSILWGDVTRSAPITVEWAKYAQSLTSKPMKGMLTGPVTILAWSFVRDDQPLGETANQVALALRDEIADLEAAGIKIIQVDEPALRELLPLRKAEQAAYLDWSVNSFRLSTAGVADETQIHTHLCYSEFGAIIDAIDGLDADVTSIEAARSRMEVVHDLESHGFGRGVGPGVYDIHSPRVPGEQEVTELLSTAVKHVPSRQLWVNPDCGLKTRGYAETEESLRNLVKATRTVRAEVLEGAK				NA	NA	NA	NA	NA
D1-17_01695	546			hypothetical protein	ATGCTGGAATGCTCCGCTTTTCGGGTCTATGTTGAAGATATGACCAAGGTAGCCAGCCAGCACTTCGGAGAAATAGAGCTCAATCACGGCCGTGACCACAACATCGCCATTGAGCATGAGCTGGCGGGTCAGCGGCTTGAGCTGGACCTGGTCATCACGGCCAATGACCGCTTCGACGAGGCCGCCATGCACAAGGTGGACTACCGCCTGCGCTACCTGCCCGAACTCGTGGACGAGGTCCGCGAGATGATCGCCGAAGAGCTGGAGCAGGAAGGCACCAGCCCCCACGAGTACCTTCGCTTCCACAGCAACGCGCTCAAGGACGAGCACCTGCAGAAAGTTTTCGGCGTCACGGACAAGAGCCAACTGACCAGTGCGGTCTTCCTGAAGGCCCTGAAACTGGGCCACGTCGGCATCTTCCCCGGCCAGCCCGAACGCTATTTCGTCCTGGATTTCACTCTCGGCCAGCACTTTACCGACGAGGTGCTGGTGGCGTCGGCGGACGAGGACGGCGTCGTGGACGACGAGATTGTCTGGGAGTCCTGA	MLECSAFRVYVEDMTKVASQHFGEIELNHGRDHNIAIEHELAGQRLELDLVITANDRFDEAAMHKVDYRLRYLPELVDEVREMIAEELEQEGTSPHEYLRFHSNALKDEHLQKVFGVTDKSQLTSAVFLKALKLGHVGIFPGQPERYFVLDFTLGQHFTDEVLVASADEDGVVDDEIVWES				NA	NA	NA	NA	NA
D1-17_01696	882	catM_2		HTH-type transcriptional regulator CatM	GTGACCAGGCTGGGCTCCTTCGCGGCCGCAGCGAGCAGGCTTGGCTACACGGCCTCCGCCGTGTCGCAGCAGATGACCGCCTTGGAGCGGGACACCGGCGTCCGCCTGTTTCAAAGATCAGCCCGCAGCGTGGTCCCCACTGACGCCGCATTCGTCATGGCCCGGCATGCGGCCAAGGTGCTCACCGACATTGAGGCCCTGATGGCCGCCGCCTCGAAAACCCACGACACCACAAGCCAGGAACTGCGGCTCGGCATCTTCCCCAGCCTCGCCACCTATGTCCTGCCCGTGATCCTGAAGAAGCCGGCCTGGAAAGACTTGGGCATCGACCTGCGCGTCTCCGTCGCTGAACCCGCGCAAACCATCCAGGGGCTCCGCACCGGCGGCGACGTCGATGTCGCGCTCGTGTACCAGGTGGGCCAGTCAGGACTCGCATGGCCGCACACCATCAACCGGCAGTGGATCGGCGATGACAACTTCCGCGTGGTCCTGCCCAGCGGCTGGGGTTTCCGCACCGAGGCCAAAGTCGCGGCGGACCATCTCTCCGACATGCCGTGGATCATGCACCACCCCGGCACAAGCGACGCCACGGTGATCGAACGGCTTTTTGCCAGCTGCAACCTGCATCCGCGCGTCGTGGCCTACAGCGATGATTTCCACGCCAGCCTCGAAATGGCAGCCGCCGGTCTGGGTGCGGCATTGGTTCCGGAGCTTGCGTTACGGAACCGCCCGAGGGGCGTCGTGGTGCTCGATGTCCCGGAGATCCGGCTGGCCCGCAACGTTTTTGCCCTGCTGATCAATGAGCGGAAGACCGCCAGGGTGCAGCTCTTCGTTGACCTCTTGGCTGACACCCTCGCCAGTCTGAGCTCACCAGATAAATAA	MTRLGSFAAAASRLGYTASAVSQQMTALERDTGVRLFQRSARSVVPTDAAFVMARHAAKVLTDIEALMAAASKTHDTTSQELRLGIFPSLATYVLPVILKKPAWKDLGIDLRVSVAEPAQTIQGLRTGGDVDVALVYQVGQSGLAWPHTINRQWIGDDNFRVVLPSGWGFRTEAKVAADHLSDMPWIMHHPGTSDATVIERLFASCNLHPRVVAYSDDFHASLEMAAAGLGAALVPELALRNRPRGVVVLDVPEIRLARNVFALLINERKTARVQLFVDLLADTLASLSSPDK				NA	NA	NA	NA	NA
D1-17_01697	294			hypothetical protein	ATGTACGGGATTGACCACCAGCCCACACTACTCCGCGTCGTGCAGGGGCGGGAAAGCAGCATGGCCGCCGCAGTGCGGGTTCGGTTGCTCACATCGTGCGGCGGGAAGGGAGCAACCCGGCCGTTCGTTGTGCGCGGCACCACAACTGCCAGCCTTCGGGGGAGGGGGCGACACGCCGGTCCCACCCGCGACACGCAGGCGTTTAAATGTGTGCAACTACTCCACAGGGTGTGGATTCAGTCCGGCAAAATCGCGGAAATCCGGACATTTTGGCGGCCCCTGCCTGTGGATTAA	MYGIDHQPTLLRVVQGRESSMAAAVRVRLLTSCGGKGATRPFVVRGTTTASLRGRGRHAGPTRDTQAFKCVQLLHRVWIQSGKIAEIRTFWRPLPVD				NA	NA	NA	NA	NA
D1-17_01698	246	nrdH	COG0695	Glutaredoxin-like protein NrdH	ATGACCGTTACGGTTTACACCAAGCCGGCCTGTGTACAGTGCAACGCGACGTACCGCGCGCTGGACAAGAAGGGCATCGCCTACCAGAGCGTGGACATCTCCCAGGACGCGGACGCCCTTGAGCGCCTGAAGTCGCTCGGTTACATGCAGGCCCCGGTAGTAGTTACGGACCGGGACCACTGGTCAGGTTTCCGCCCGGACAAGATCGAAGAGCTTGCGCTGAGCGCTTCCGCTTCGGTGGCATAA	MTVTVYTKPACVQCNATYRALDKKGIAYQSVDISQDADALERLKSLGYMQAPVVVTDRDHWSGFRPDKIEELALSASASVA				NA	NA	NA	NA	NA
D1-17_01699	507	nrdI	COG1780	Protein NrdI	ATGGCCGCGCCGGCCCTAGCCGATGCGCCGGTCGCAGCCCAGGCTGCGAACACGACGCCTGTCAGTCAGACACATTCCGTGAACCAGACAAGCAGCCGCCTCATCTACTTCTCCTCGGCCTCCGAGAACACCAGGCGCTTCATCGAGAAACTGGGTTCGGACGCCGCAAGGATCCCGCTGCACGCGAAGGACGAGCCCCTCATTGCCTCCGAGCCGTTCGTGCTCGTCGTTCCCACTTATGGCGGAACCGGCGGCGAAGGCTCGGTACCCAAGCAGGTCATCAGGTTCCTGAACAACCCGCAGAACCGCGGCCTGCTTCGGGGCGTTATCGGGGCTGGAAACACGAATTTTGGTGACAACTACTGCATGGCGGGCGACATCATTGCGGCCAAGTGCAAGGTTCCGCACCTGTACCGCTTTGAACTTATGGGCACGCCAGAAGACGTGACCCGCGTACGACAAGGATTGGAAGAGTTTTGGACACGACTGTCGCAGACACAGAAGTAA	MAAPALADAPVAAQAANTTPVSQTHSVNQTSSRLIYFSSASENTRRFIEKLGSDAARIPLHAKDEPLIASEPFVLVVPTYGGTGGEGSVPKQVIRFLNNPQNRGLLRGVIGAGNTNFGDNYCMAGDIIAAKCKVPHLYRFELMGTPEDVTRVRQGLEEFWTRLSQTQK	PGPT0021340_1491	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
D1-17_01700	2157	nrdE2	COG0209	Ribonucleoside-diphosphate reductase subunit alpha 2	ATGGACACGGCTGTTGACAAGCAGGAGAAGCCGGCACTCCCTGCCGCCTACAAGGGCCTGGGCTACCACGAGCTGAACGCGATGCTGAACCTGTACGGTCCGAACGGCGAGATCCAGTTCGAGGCGGACCGCGAGGCGGCCCATCAGTACTTCCTGCAGCACGTGAACAACAACACGGTCTTCTTCCACGACCTCGAGGAGAAGCTCGACTACCTGGTGAAGAACCAGTACTACGAGCGCGAGACCCTCGACCAGTACACGATGAACTTCATCCGTGAGCTGTTCAACCGTGCGTACAAGAAGAAGTTCCGCTTCGAGACCTTCCTGGGCGCCTTTAAGTTCTACACGTCCTACACGCTGAAGACGTTCGACGGCAAACGCTTCCTGGAGCGCTACGAGGACCGTGTGTGCATGGTGGCCCTGCACCTGGCCCGCGGCAATGAGGAACTGGCGACCCAGATGGTCGACGAGATCATCGAGGGTCGCTTCCAGCCGGCCACCCCGACGTTCCTGAATGCCGGCAAGAAGCAGCGCGGCGAGCTCGTCTCCTGCTTCCTGCTCCGCATCGAAGACAACATGGAGTCGATCGGGCGCTCCATCAACTCCGCCCTGCAGCTCTCCAAGCGCGGCGGCGGTGTGGCCTTTGCGCTGACCAACATCCGCGAGGTCGGTGCGCCGATCAAGCAGATCGAGAACCAGTCCTCCGGCGTCATCCCCGTGATGAAGCTCCTCGAAGACAGCTTCTCCTACGCCAACCAGCTCGGTGCCCGCCAAGGCGCCGGCGCCGTGTATCTGCACGCGCACCACCCGGACATCTACCGGTTCCTGGACACCAAACGGGAGAACGCGGACGAAAAGATCCGCATCAAGACCCTCTCGCTCGGCGTCGTGATCCCGGACATCACGTTCGAGCTGGCCAAGAGGGACGAGGACATGTACCTGTTCTCGCCGTACGACGTCGAACGCGTCTACGGGATGCCGTTCTCTGACGTTTCGGTCACCGAGAAGTACTACGAGATGGTGGACGACTCCCGGATCAAGAAGACCAAGATCAAGGCGCGCGAGTTCTTCCAGACCCTCGCCGAGATCCAGTTTGAGTCTGGCTACCCGTACATCATGTTCGAGGACACTGTGAACCGGGCCAATCCGATTGACGGCAAGATCATCATGTCCAACCTGTGCTCCGAGATCCTCCAGGTCTCCCAGCCCACGACGTACCACGATGACCTGTCCTACGACGAGACCGGCAAGGACATCTCCTGCAACCTGGGCTCGCTGAACATCGCCAAGACGATGGACTCCCCGGACTTCGGGCGCACCATCGAGACGGCGATCCGTTCGCTTTCGGCCGTGTCGGACATGTCCAACATCACCTCGGTGCCGTCCATTGCCAAGGGCAATGACCAGTCGCACGCCATCGGCCTGGGCCAGATGAACCTGCACGGCTACCTGGCGCGCGAGCGGGTCCACTACGGCTCCGAAGAGGGCCTTGATTTCACCAACATCTACTTCTACACGGTCGTGTTCCACGCCATCCGCGCGTCCAACCTGCTGTCCATTGAAACCGGCCAGACGTTCGGTGGCTTCGAGAAGTCCAAGTACGCCTCGGGCGAGTTCTTCGACAAGTACACGGAGCAGGAGTGGGTGCCGCAGACCGAGAAGGTGCAGGAGCTCTTCAAGAACGTGCACATCCCCACGCAGGATGACTGGCGCGCACTGAAGGCTTCGGTCATGGAGCACGGCATCTACAACCAGAACCTGCAGGCCGTTCCGCCGACGGGCTCGATCTCCTACATCAACAACTCGACCTCCTCGATCCACCCGGTGGCCTCGAAGATCGAGATCCGCAAGGAAGGCAAGATCGGCCGCGTCTACTACCCGGCGCCGTACCTGACAAATGACAACTTGGAGTACTACCAGGACGCGTACGAGATCGGCTACGAGAAGGTCATCGACACCTACGCCGCTGCCACGCAGCACGTGGACCAGGGCCTGTCCCTGACGCTGTTCTTCAAGGACACCGCTACCACCCGCGACATCAACAAGGCCCAGATCTACGCCTGGAAGAAGGGCATCAAGACCATCTACTACATCCGTCTCCGCCAGCTCGCGCTGGAAGGGACGGAGGTGGAGGGCTGCGTCAGCTGCATGTTGTAG	MDTAVDKQEKPALPAAYKGLGYHELNAMLNLYGPNGEIQFEADREAAHQYFLQHVNNNTVFFHDLEEKLDYLVKNQYYERETLDQYTMNFIRELFNRAYKKKFRFETFLGAFKFYTSYTLKTFDGKRFLERYEDRVCMVALHLARGNEELATQMVDEIIEGRFQPATPTFLNAGKKQRGELVSCFLLRIEDNMESIGRSINSALQLSKRGGGVAFALTNIREVGAPIKQIENQSSGVIPVMKLLEDSFSYANQLGARQGAGAVYLHAHHPDIYRFLDTKRENADEKIRIKTLSLGVVIPDITFELAKRDEDMYLFSPYDVERVYGMPFSDVSVTEKYYEMVDDSRIKKTKIKAREFFQTLAEIQFESGYPYIMFEDTVNRANPIDGKIIMSNLCSEILQVSQPTTYHDDLSYDETGKDISCNLGSLNIAKTMDSPDFGRTIETAIRSLSAVSDMSNITSVPSIAKGNDQSHAIGLGQMNLHGYLARERVHYGSEEGLDFTNIYFYTVVFHAIRASNLLSIETGQTFGGFEKSKYASGEFFDKYTEQEWVPQTEKVQELFKNVHIPTQDDWRALKASVMEHGIYNQNLQAVPPTGSISYINNSTSSIHPVASKIEIRKEGKIGRVYYPAPYLTNDNLEYYQDAYEIGYEKVIDTYAAATQHVDQGLSLTLFFKDTATTRDINKAQIYAWKKGIKTIYYIRLRQLALEGTEVEGCVSCML	PGPT0021340_4599	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
D1-17_01701	975	nrdF2	COG0208	Ribonucleoside-diphosphate reductase subunit beta nrdF2	ATGACCGAGAAGGTCAAGCTGCTGAGCCACGTCGAGGCCATCAACTGGAACCGCATCCAGGACGACAAGGACGTCGAGGTCTGGAACCGCCTCGTCAATAACTTCTGGCTGCCGGAGAAGGTGCCGCTGTCCAACGACGTCCAGTCGTGGAACACGCTGACCCCCGCCGAGCAGCAGCTGACCATGCGCGTGTTCACCGGCCTGACCCTGCTGGACACAATTCAGGGCACCGTCGGCGCCGTCTCGCTGATTCCGGATGCGCTGACTCCGCATGAAGAGGCTGTTTACACGAACATCGCCTTTATGGAGTCTGTGCACGCGAAGAGCTACTCCTCCATTTTCTCCACGCTGGCCTCCACTAAGGAGATCGACGAGGCGTTCCGCTGGTCCACCGAGAACGCGAACCTTCAGAAGAAGGCGCAGATCGTCATGGACTATTACCAGGGTGACGATCCCCTGAAGCGGAAGGTTGCCTCCACTCTGCTGGAGAGCTTCCTGTTCTACTCGGGCTTCTACCTGCCCATGTACTGGTCCTCCAGGGCCAAGCTGACGAACACGGCTGACCTGATCCGCCTGATCATCCGCGATGAGGCCGTGCACGGCTACTACATCGGCTACAAGTTCCAGCGCGGACTGGAGACGGTTTCCGAGGCGCGCCGGCAGGAGATCAAGGACTACACCTTCGAGCTGCTGTTCGAGCTGTACGAGAACGAAGTCCAGTACACGCACGACCTCTACGACGGCGTCGGCCTGGCCGAGGACGTCAAAAAGTTCCTGCACTACAACGCCAACAAGGCCCTGATGAACCTCGGCTACGAAGCCATGTTCCCGGCCTCCGTCACGGACGTGAACCCTGCGATCCTGTCCGCCCTGTCGCCGAACGCCGACGAGAACCACGACTTCTTCTCGGGCTCGGGTTCCTCGTATGTCATTGGGAAGGCCGTGAACACTGAAGACGAAGACTGGGACTTCTAA	MTEKVKLLSHVEAINWNRIQDDKDVEVWNRLVNNFWLPEKVPLSNDVQSWNTLTPAEQQLTMRVFTGLTLLDTIQGTVGAVSLIPDALTPHEEAVYTNIAFMESVHAKSYSSIFSTLASTKEIDEAFRWSTENANLQKKAQIVMDYYQGDDPLKRKVASTLLESFLFYSGFYLPMYWSSRAKLTNTADLIRLIIRDEAVHGYYIGYKFQRGLETVSEARRQEIKDYTFELLFELYENEVQYTHDLYDGVGLAEDVKKFLHYNANKALMNLGYEAMFPASVTDVNPAILSALSPNADENHDFFSGSGSSYVIGKAVNTEDEDWDF	PGPT0021345_3350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
D1-17_01702	777			hypothetical protein	ATGATGACGGTGGCCGTCGGCATCGACGTTGGGCTCCTTGACGGCAAGGGGCTTGACCCGGTTGCCTTGGACGCCTCCCGCCGGATCCGCCAGGCCGTCCCGCACCTTCGGGATCTCGACGAACTCGTACGGGTCGTGGAGACGCACGCACCTGAAGTCGTCTGCATCGATTCGCCCTCACAATGGGCGGAGCCGGGCACCCGCTGCCCCGCCGAGCTGGACTTGGCCCGACGGGGAATCAACCTCTACGCCACTCCGCCGGCAGACCGTGCCAGTCCATTCCACCGCTGGATGCAGGACGGGTTCAGTGTCTATGCAGCACTCGCCCACGCGTACCCCCGATATACCGGCGGCGACGTTCACGGGAAAGCGGCCGAGTACTTCCCGCATGCCTCTGCAGTTGCGCTGAACGGGCGGATCGGGGCGCTTGCCGAGAAGATCCCAATCCGCCGGCAGCTGTTAGCAGAGCAAGGAATCGATGAGCGGGTGCTGATTGGCGCTGACCAGGTGGACGCGGCGCTTGGAGCACTTACGGGACTCATCGCCCTGGAAGGGCGGCATTCTTGGGTGGGCGAGGGGACGGATGCGATGCTTCTTCCCGTGCAGGAGCTGCGTGCACGGTACCTACGCGCTCCTGCAGCTCCGGCCGTTCGGAGCGTAGGCGGTACTGCGCACCCGCCGTTTCCAGCCGACGAGAAGCGTGCGCCTTGTCTCTGCGGATGCGGCGGAACGCCAGCAGGGCGGCGATCACGATTCAAGCCTGGCCATCACCGGTAA	MMTVAVGIDVGLLDGKGLDPVALDASRRIRQAVPHLRDLDELVRVVETHAPEVVCIDSPSQWAEPGTRCPAELDLARRGINLYATPPADRASPFHRWMQDGFSVYAALAHAYPRYTGGDVHGKAAEYFPHASAVALNGRIGALAEKIPIRRQLLAEQGIDERVLIGADQVDAALGALTGLIALEGRHSWVGEGTDAMLLPVQELRARYLRAPAAPAVRSVGGTAHPPFPADEKRAPCLCGCGGTPAGRRSRFKPGHHR				NA	NA	NA	NA	NA
D1-17_01703	297			hypothetical protein	GTGGGCAGACGGCACGTCTGCCATGACGCCGGCGACCCGGATGGCCTATCTTCCACCGCACGCGACGCGATCGAGGCCCACCTGACGATCGTGTTCACCACGCTTGCCGTCTCCAGAACCGTCCAGAACAGGACCGGGCGTGCGGTCGCCAACGTCATCAAACAACTCCGGCCCCTGCGCTCAGCAACCATCGCCATTGTGAAAATGGTGGAAAGAAGCGACGGCGGAAAGCTTGCCGTTAACCTGACTTGGCTCATTTCCTTAGTGCGTGAATTTTGGGGCCGTGGATCGCGTTGA	MGRRHVCHDAGDPDGLSSTARDAIEAHLTIVFTTLAVSRTVQNRTGRAVANVIKQLRPLRSATIAIVKMVERSDGGKLAVNLTWLISLVREFWGRGSR				NA	NA	NA	NA	NA
D1-17_01704	825		COG1073	putative protein	ATGCCGCTCGCAACCCTGTTCGTCGTCGTCGGGCTCCTGGTTGGCATGCCGTGGTTCTTCCAACGCTCGCTCATCTATTTTCCTGACCGCGGTCAGCCACGCCCGGCCGCGGAGCTGTTGCCCGGAGCCCGGGAAGTCACGCTCACGACGAGTGACGGCCTCGAGCTCGGTGCCTGGTACTTGCCAGCCGCAGTCGGCTGCCGCGCGACCGTGCTCGTCGCATCGGGCAACGGCGGCAACCGGGCTTATCGGGCAGGGCTGGGACGAGCGATCAGCGAGCTCGGGTTCGGCGTGCTGCTCTTCGATTATCGCGGTTACGCGGCGAATCCCGGGCACCCGTCCGAGGACGGTCTCGCGCGCGATGTCCGCGCCGCTCGCGAGTTCCTGACAGGTGCGGCAGGAGTACCGGCGGGCTCGCTCGTCTATTTCGGGGAGAGCATCGGTGCCGGGGTGGTTACGGAGCTCGCCACCGAGCACCCTCCAGCCGCGATGCTGCTGCGCTCACCTTTTACCTCGCTCGCCGACGCCGGCTGGGCGGCCTACGGCGTGCCGGTGGGCTGGTTGCTTCGCGATCACTACCCGGTACGCGAGAACGTAGCGCGAGCGGACGTCCCAATCGCCGTGGTCTACGGGAGCGAGGACACCATCGTGCCCGCACAGCAGAGCCGGGACGTGGCTCAGGCGGCCCGGGAGTCCGGAAACTACGTTATCGAGGTGGAGGTAGCGGAGGCGAACCACAACGATGCAGCACTGGCGCTGGGTCCCGAACTCGTCGGTGCCCTCCTCGACGTGGCGGGCCGCGGCGGGGCGACCGGGTGCCCGTGA	MPLATLFVVVGLLVGMPWFFQRSLIYFPDRGQPRPAAELLPGAREVTLTTSDGLELGAWYLPAAVGCRATVLVASGNGGNRAYRAGLGRAISELGFGVLLFDYRGYAANPGHPSEDGLARDVRAAREFLTGAAGVPAGSLVYFGESIGAGVVTELATEHPPAAMLLRSPFTSLADAGWAAYGVPVGWLLRDHYPVRENVARADVPIAVVYGSEDTIVPAQQSRDVAQAARESGNYVIEVEVAEANHNDAALALGPELVGALLDVAGRGGATGCP				NA	NA	NA	NA	NA
D1-17_01705	597			hypothetical protein	GTGACGGCTCAGGACGCCGAGTACACGCGCGTTTCGGCCTCACCACCCACCCCTTACGTCAATGGACAGGTGGAAGTGTGGGAGTCCGTGCAATGGGAAACGCTCCAGGTGGGCTACTGGCACGAGGGCCCGTTCGGCCGAGTCCTAAAAAGTGGATGGGGCAATGACCACCTCGACAACCACGTCTACGACGGAGACGGCCTCACAGTGATCGGGCGGACGAGGCACCGGAGACGTACGAAACCTTCGCTGCCGGCTGGCTGCGGAGGCAGCTCCAGCGGCCGGTGGAGCGACTTGACTGGCTGCGCGGTGAACACTCCAGGAGTCGGCGTGGCGCCTCGCAGACTCCGGGACAACAATTGCACGCAAGGGCTGGTCACTGCGTCGTCCTCGCCGCCGCCTGGCGAATCCAGAAAGTTCGCTGATTCAAAGCATCAAGACGGTCCCGAAGAGGCTGAACAGGACTCCGGCCAGCATTGCGAGCCGGAAAGGGGCAGTGGCGCCCTGGGCTTGCCATGGAGGCTGCTTCTGTTGCCGGAAGGAGTTGACAACGGGCCGAGGCGTAGAACGATACCGCGAGTGGCATGCGGGCGATAG	MTAQDAEYTRVSASPPTPYVNGQVEVWESVQWETLQVGYWHEGPFGRVLKSGWGNDHLDNHVYDGDGLTVIGRTRHRRRTKPSLPAGCGGSSSGRWSDLTGCAVNTPGVGVAPRRLRDNNCTQGLVTASSSPPPGESRKFADSKHQDGPEEAEQDSGQHCEPERGSGALGLPWRLLLLPEGVDNGPRRRTIPRVACGR				NA	NA	NA	NA	NA
D1-17_01706	372			hypothetical protein	ATGACCGAGCAGCATCCAGTCAGCATTGCCCAGTCCGTCAAAACGGGCAGCGAACGCCACGGAGTTGTGCAGGAGATAGGCGACGAGTGGATGCTGATGGCTGCTATCCGGGACGGCGCCTATCTCAACGGATACATGGCCCTCAGACTCGACCTGATCCGCCACGTCAGACTCGAGCACGGCCTTGATGACGTACTGAAGCAGCAGCCGGGCTGGCCGCCCGCCGCACTGGCGCCCCAAAGCACACAGAGCCCACGCAGCATCCTGGAATCCTCTGCCGAAACAACCAATCCCCTGTCGGTATTCATGGAGGAGAAGTGGCCGAGGCCGTTCTTCGTGGGCGTCCCGATCAAGTATTCGAAAAGGCTGTGA	MTEQHPVSIAQSVKTGSERHGVVQEIGDEWMLMAAIRDGAYLNGYMALRLDLIRHVRLEHGLDDVLKQQPGWPPAALAPQSTQSPRSILESSAETTNPLSVFMEEKWPRPFFVGVPIKYSKRL				NA	NA	NA	NA	NA
D1-17_01707	228			hypothetical protein	GTGGCCGAGGCCGTTCTTCGTGGGCGTCCCGATCAAGTATTCGAAAAGGCTGTGAAACTGGTGACCATCGGCACCAATGCCCGATGGGAGGATGGGACCTTCAAGGTCAAGTACAAAGACCTGACTCAGGTGAGCTTCGGTGGGGACTACGAAAAGGCGCTGTGGGTGGCCGCCGGGGGACCTGCCTCGGAACCAGCAGGCCGTGAAGGCGCTTTGAATGGACCTTGA	MAEAVLRGRPDQVFEKAVKLVTIGTNARWEDGTFKVKYKDLTQVSFGGDYEKALWVAAGGPASEPAGREGALNGP				NA	NA	NA	NA	NA
D1-17_01708	195			hypothetical protein	ATGGACCTTGAGGTTTTCGTGCAGGAGGCCCGGCTGTGGAACCACGGTCCCGTCCAGCAGCCAGTGCTGCTCATCAGGAAGTTGCGCGCCGAGAAGGCCGAAACGATCATCCATTTCTACGAGCAGGTGCAGGGGAATACCGCCGCTACAGCCGGCCCGGCACTGCCTGCCGAGGGAACCGCATGCCGCAATTGA	MDLEVFVQEARLWNHGPVQQPVLLIRKLRAEKAETIIHFYEQVQGNTAATAGPALPAEGTACRN				NA	NA	NA	NA	NA
D1-17_01709	864			hypothetical protein	ATGACGACTTTCCAGCCAAGAACTTCGCTGACCGACCCGGCCTCGCCCGTGTTCGGCACGGTGTCAACTGCCGTGATCGGCGCGCTGGCACTTGTCGACCCGGCGAAGCTGACCACGGCACAACGCCGGACCTTGCGTACCGCCACGGCAGCCCTGACCGGTCTCTACACCGCAGCCACTGTCAACCGGACCAGACCTGTCCTGGCGCCGCTGAATGCAGCAGCCGGGATCGCGGCGGCGGCCTTAGTGCTCCGGTTCGCAGACGCCAATGATGCGCTGGAATCCCGGATGGTGCACTGGCTTAGCTCAGCCGGCATCTCCCGGCCGCGACGGTGGCTGGCCGCAGGATCGGCGGCCCTGACCTTCGCGATGTTCCTGGCTGACCGAGCCACAGCAAGGAAGGAAGAGCGAGAGTCCGTCGCCCTCGATGCACTGACGCAGGTCCGCCCCCTAACCCCGGCAGTGGGGGAGCTGACTAGGGCCATCCTCAGTGCCGCCGATGTATCTGGCGCAGACGCCCTGCTGGCCCAGCTGGAGCAGGCCGAGGAAATTTACTGGGACGAGGATTTCGTTCCGGCCGCTCAGTTCCAGATCCCCGATGACGTGCCGCGCGCAGTCCCGCAGATCCAAGTCTTCCCCGTCACCGCACGGTATGAGGCGGAGACCGGCGCCCCTCTGCAAGTGATGCTGCACATCTACGACGGCAAGCTCGAGCACCTCGCCATCGATACGGTCGGCGAAACCGACGAACTGGTCGAGGATCAGCTGGACCGCTGGCCGAACCCGGACGAGGTGCAGTACGTGATTGACGGGCCGGACGGTACTCCTCTGCCGATCCGGCCGAACCCGCAAGCCCCGGCCTAA	MTTFQPRTSLTDPASPVFGTVSTAVIGALALVDPAKLTTAQRRTLRTATAALTGLYTAATVNRTRPVLAPLNAAAGIAAAALVLRFADANDALESRMVHWLSSAGISRPRRWLAAGSAALTFAMFLADRATARKEERESVALDALTQVRPLTPAVGELTRAILSAADVSGADALLAQLEQAEEIYWDEDFVPAAQFQIPDDVPRAVPQIQVFPVTARYEAETGAPLQVMLHIYDGKLEHLAIDTVGETDELVEDQLDRWPNPDEVQYVIDGPDGTPLPIRPNPQAPA				NA	NA	NA	NA	NA
D1-17_01710	663			hypothetical protein	ATGGGCGAGGATGGCGCATCCCCCTGCAGCACAAGGAACCATCAGATTGCGTGCCGACGACTTGCTTCACTGGCGGCAGCTGCCCTTGCACTTTCAGCCTGCACCCCGCCGGAGCCGCCAGCGGTCTCTGAACCGCTGCCGCTGACCGTAGAAGTGAACCAGTCTCGCGACCAGTACGGGAAGCAGGCCATCCAGTTCCTGCTCATCAACGTGTCCGGCGGCCCCCTTACGGTAGCCGGTGCGCAGGTCACGTCACCCCTGTTCCAAGGCGACATCCTGTGGGATCCAACACGCGGCAGTTTCGAACTGCTTCCCGGCCAGCCCACGAGCCTTCCGGCCCGGCTTCCGGCAGCAGCCTGCGGCGACGCGGCCCTTTCATCCGCGGAACAAACCATCGCCACCGTCCGGTATTTGGTGCCTGGCGAGAGGGATGCCCGGGCGGTGAGGCCCCTCGCCGACGACCCCTTCGGAGTCCTTGAACGGAACAACCGGGAGCTGTGCCTCGCCGCCGACGCCGCCGCTGTGGCGGCCATCGTTCTGGACCCCCGCCTTGTCGCGCCGGACTCGCGCACCGCCGTCATCCGGCTGGTCATCACGCCGAAGCACCCGCCCGGAACTCAGTCGGAGGCAACTGCCGGGGTCGCTGACGATTACCAGCATTGA	MGEDGASPCSTRNHQIACRRLASLAAAALALSACTPPEPPAVSEPLPLTVEVNQSRDQYGKQAIQFLLINVSGGPLTVAGAQVTSPLFQGDILWDPTRGSFELLPGQPTSLPARLPAAACGDAALSSAEQTIATVRYLVPGERDARAVRPLADDPFGVLERNNRELCLAADAAAVAAIVLDPRLVAPDSRTAVIRLVITPKHPPGTQSEATAGVADDYQH				NA	NA	NA	NA	NA
D1-17_01711	339			hypothetical protein	ATGAAACACGCCTGGGCGCAGCACGTGCTCTCGGTGATCGAACATGCCATTGACACACTGGCAACGGGACCGGAGCGTATTCACCAGCGGCTGGCTGACGCCTACCAGTACAGCGGCCTGGCTGAGACGGTCGCCGCGGATTCGGAACTTCCGCCCGCGATCCTGGCTCTCCAGCTCGATTTGCAGGCAGCGATGGACACTGTGCATGACACCGAGCGGGGCCAGGCAGTCGCCAGTGCCCGGCGCCTCACTGACGACCAGTGCATCATCTTCGTCCGCAGAATCCTCGCCGCGGAGCGCGAGCTGCGCGAACTGTCCGCCCGGCACGACCAGGAGTGA	MKHAWAQHVLSVIEHAIDTLATGPERIHQRLADAYQYSGLAETVAADSELPPAILALQLDLQAAMDTVHDTERGQAVASARRLTDDQCIIFVRRILAAERELRELSARHDQE				NA	NA	NA	NA	NA
D1-17_01712	423			18 kDa heat shock protein	ATGTTGATGAGCGATCCGTTCCGCCAGCTCGACCGGCTGACGCAGCAGGTGTTCGGCACGGCCGCACGTCCGGCCGCAATGGCCCTGGATGCCTGGCGCGAAGGCAACGAGTTCGTGGTGGCGGTTGACCTGCCCGGCGTGGACACCGAATCAATCGACGTGGATGTTGACCAGAACGTGCTGAGCATCCGCGCGGAGTGCCCGCATAAAGCAGGTGATGGGGTCGAATATATTGCTGCGGAGCGGCCCCACGGTGTCTTTAGCCGGCAGCTGATCCTGGGCGAAACGCTGGACACCGAGAACGTCAAGGCGGCCTATGACGGCGGCGTCCTGACGCTGCGTATCCCGGTGGCGGAGAAGGCGCAGCCGCGGAAGATCGAGATTACGTCCGGAGCCGGCGCACAGCAGCAGATCAGCGCCTAG	MLMSDPFRQLDRLTQQVFGTAARPAAMALDAWREGNEFVVAVDLPGVDTESIDVDVDQNVLSIRAECPHKAGDGVEYIAAERPHGVFSRQLILGETLDTENVKAAYDGGVLTLRIPVAEKAQPRKIEITSGAGAQQQISA	PGPT0014635_7225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-17_01713	273			hypothetical protein	ATGGCAGGGAAGGATGTTTCGGTTGAAATGACGGTCGAGGATCAGTGGGACCGGCTCGATCCGGAGACGAAGAAGTGGCTCCTGGACAATCCGGGATGCCTGATCCTGCCGCATGGCATTACAGCGACCATTCGTGAAGAGTCCGGCCAGGACATGGAGTGTGACCAGCACGGCCAGATGCTGTTGTCCCCGCAGGACCGCGACTTCATCCGCTCAAAGGCTACCGTCGCATCGGACGGTCCACCTGGTCACCTGTTCGCCGAACCGCAATGA	MAGKDVSVEMTVEDQWDRLDPETKKWLLDNPGCLILPHGITATIREESGQDMECDQHGQMLLSPQDRDFIRSKATVASDGPPGHLFAEPQ				NA	NA	NA	NA	NA
D1-17_01714	324			hypothetical protein	GTGACCTGGCGGGCCTGGCACTTCGGTGTTCCGCTGCGGATGACGAGCCGGATCACTGAAATGGATGCAGCCGACTACTTTGTGGACGAACAGGTCCGCGGCCCGTTCCGAAGCTTCCGGCACGTCTACGAGTTCAGCGAGCACGCCGGCGGCACCGTGATGGTGGACCGGGTCGAGTTCGCGGCACCGTTCGGGCTCCTCGGGTGCCTGGTCGAGAAGCTGGTCCTCACCCGCTACCTCCGGAACCTCATCGAGACCCGAAACCGGCACCTCATTGCGGTTCGGCGAACAGGTGACCAGGTGGACCGTCCGATGCGACGGTAG	MTWRAWHFGVPLRMTSRITEMDAADYFVDEQVRGPFRSFRHVYEFSEHAGGTVMVDRVEFAAPFGLLGCLVEKLVLTRYLRNLIETRNRHLIAVRRTGDQVDRPMRR				NA	NA	NA	NA	NA
D1-17_01715	147			hypothetical protein	ATGGCTTCTTCCTTCGAATGCACGACCCGGACGGCCCTAGGCAAAGAGGAACTCTTCGACCTGTCCCGCAGTATCGATGCGCACAAGGAATCGATGGCCCGGTCCCGGGAAGAAGCAATCGCAGGGGTGACCTCCGGCCTGATCTGA	MASSFECTTRTALGKEELFDLSRSIDAHKESMARSREEAIAGVTSGLI				NA	NA	NA	NA	NA
D1-17_01716	795	bacC_1		Dihydroanticapsin 7-dehydrogenase	ATGAAAATCGGGCGTTTGGGTGAAGCCGGGTCGGAGCAGCCCGTGAACGAACTTCAGGGCCTGGTGGCCATCGTGACTGGCGGGTCATCCGGCATCGGAGATGCGGTCATCCGCAGGCTTCAGGCCTTGGGCGCCCACGTCGCGGTTTTTGCCCGGAATCCGGCATCAGCGCCCGGCGCCTTCCCGGTCGCCTGCGACGTCAGCGATGACGGCTCCGTCCGTGCCGCCGTCGGCTCCCTCCTCGCGGAGTTCGGCCGGTTGGACATTGTGGTGAACAACGCCGGCATTGGCGCTCAGGGCACGGTGGAGGACAACGACGACGACGAGTGGTACCGGGTGTGGGACGTCAATGTTGTGGGCATGGTCCGCGTCAGCAGGGCGGCACTCCCTGCCCTGCGGGAGTCGCCGTCGGCGGCCATTGTCAATATGTGCTCGGTGGCCGCCACAGCCGGTCTCCAGAAGCGGGCTCTATACTCGGCCACCAAGGGTGCGGTGCTGTCGCTGACCCAGGCCATGGCGGCGGACCACCTCCATGAGGGCATCAGGGTGAATTGCGTCAATCCCGGGACGGCGGACACCCCGTGGATCTCGCGCCTGCTGGAGGCGGCCCCGGACCCTGCTGTAGAGCGCGCCGCGCTTGAAGCCCGCCAGCCCCATGGGCGGCTGGTAACAGCAGACGAGGTGGCCGGTGCCGTTGCCTACCTCGCGAGCCCGTTGTCCGGCTCCACGACGGGCACCTCCATAGCCGTCGACGGCGGTATGCAGGCGCTGCGACTGCGCCCGGCAACGCCGTGA	MKIGRLGEAGSEQPVNELQGLVAIVTGGSSGIGDAVIRRLQALGAHVAVFARNPASAPGAFPVACDVSDDGSVRAAVGSLLAEFGRLDIVVNNAGIGAQGTVEDNDDDEWYRVWDVNVVGMVRVSRAALPALRESPSAAIVNMCSVAATAGLQKRALYSATKGAVLSLTQAMAADHLHEGIRVNCVNPGTADTPWISRLLEAAPDPAVERAALEARQPHGRLVTADEVAGAVAYLASPLSGSTTGTSIAVDGGMQALRLRPATP	PGPT0008190_608	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
D1-17_01717	693			hypothetical protein	ATGATGAGGTTCCTTCGAGGATGCGCCGTAACCCGGCATGTCCCAGAGGTACACGGTGAAGTCACGAGCGAGGGCGTCGGCGAAGGGAGCCCAGAGTGCCGAGGACCATGGTGTGCCGTGGCAGAAAACGAGCGGCGGCCCCTCACCGGCTGCTCTCCAAGCGATCTGCCGACCGCGCCACTTGAATGTTCGGTCGAGTATCACTCGTCTATGGTTGCAGGATGCTGCGAGTTTCGGCCACGGTTCGGCTTGAGCATCACAAGGAAAGCTAGGTATTTCGGCTTGTCGGTTCCACACCGTGCCCCAAAACCATCCAAAGGCGGTCGCGTTCGAATCCGCTTACGGCGGTTGTTCGAAGCTGACGTCGAGGCCGGTTCGAGGATCCGCGGTGACACAGTGCCCGCCCCGCAGTTCCTCCGCGGCATACCATGCGGGACCGTAGTCCTCTTCCGGGTATTCGCGCTCCGCATCGAGCCAGTGCACTTGCGTCCACATCCGCTCCTGCTGCACCAGAAGAAGGGGAACGACCGCATGGGCATGACGCCGGTGGTCACCCACCCCATAGTCGCGCCGCTAAGTGACAGTTCCCAGACCCATGTCGGAACACGTCCAGGCGCGGGTCTTTCGGCCAATCCGCTTCATCGAACCACTTGTCCAGCCATCCCATGCGTCGGGGAGGACGTAGGTTCATAG	MMRFLRGCAVTRHVPEVHGEVTSEGVGEGSPECRGPWCAVAENERRPLTGCSPSDLPTAPLECSVEYHSSMVAGCCEFRPRFGLSITRKARYFGLSVPHRAPKPSKGGRVRIRLRRLFEADVEAGSRIRGDTVPAPQFLRGIPCGTVVLFRVFALRIEPVHLRPHPLLLHQKKGNDRMGMTPVVTHPIVAPLSDSSQTHVGTRPGAGLSANPLHRTTCPAIPCVGEDVGS				NA	NA	NA	NA	NA
D1-17_01718	585			hypothetical protein	GTGGTCGCCCACGACTACGGCGGTGCTGTGTCGCTCCGGGCGCATCTCCTACATAGGCACCCGTTCGCGTCATTGTGCCTGGTGGACGTGGTCGCACTGCGGCCCTGGGGATCGCCCTTCTTCACGTTGGTCAAGGAGAATGCCGACGTCTTCGCGCAACTCCCTGCTGTGGTACATCGAGGAGCATTCGACGCCTATATCGCTGGCGCGAGTCATCGCGGACTACGACCTGATGCTGTCGAGCTGCTTGCCGCTCCCTGGGCGGACGACGAGGGCAAAGCGGCCTTCTATCGGCAGATCGCGCAGGCCGATGAGCGCTACACGGATGAACTCGAACCACACCTCGCCTCCGTAAGCGCTCCCACTCACATCATCTGGGGAGAAGATGACGCCTGGATCCCAGCCGATCGGGCAGGGCGTCTGCAAGCCTCCATTCCGGGAAGTACGCTGACCATGATCCCCGGAGCTGGGCACCTCATCCAGCTTGACGCACCCGTGGCCCTCATGGCAGACCTCCACCGCTGGTTAGCAGCACGAATCAAGTCGCCCGACAGCGGGGCAAAGCTAGGCGAAAGCCTCAGATAA	MVAHDYGGAVSLRAHLLHRHPFASLCLVDVVALRPWGSPFFTLVKENADVFAQLPAVVHRGAFDAYIAGASHRGLRPDAVELLAAPWADDEGKAAFYRQIAQADERYTDELEPHLASVSAPTHIIWGEDDAWIPADRAGRLQASIPGSTLTMIPGAGHLIQLDAPVALMADLHRWLAARIKSPDSGAKLGESLR				NA	NA	NA	NA	NA
D1-17_01719	354			hypothetical protein	ATGCTTGGAGCTCAGGGAGGGGCCCAGAGGGCGAAATACCAGTGGATCATTGGTATTAGTGTTCTTCCCCTTGCCTTAGGAAGCTGCGCAGTGGACCCTGGCGATGCAGACATCACTTCCGGCACATCTGACCGCTGGATCGTAGGTGTGTCAGGCTCGCGGAGCGGCGAGATCGACCCATGCCTGAAAGACCCAGGTATCGAAGAGTCAATTCAAAGTGCAAATCTGCCATCCACGCACTTGAGCATCAAACTTCGCGAAACGGCGAAAAGAGAAGACGCTGTCCGCATTGCAGACTGCCTTTGGCGGGGCCTGAAGAGCGGAGATGTATCGATCACTAGCCCCAGAAGTTGA	MLGAQGGAQRAKYQWIIGISVLPLALGSCAVDPGDADITSGTSDRWIVGVSGSRSGEIDPCLKDPGIEESIQSANLPSTHLSIKLRETAKREDAVRIADCLWRGLKSGDVSITSPRS				NA	NA	NA	NA	NA
D1-17_01720	564	yyaP_2	COG0262	putative protein YyaP	ATGCGCAAACTGACCTTCGCCATGAACCTGAGCCTGGACGGCTACATCGCCGCGCCCGGCGACGACCTCGGCTGGAGCGTACCGAGCGACGAGCTGTTCCAATGGTGGTCCGACCGGGTGGGGGCGACCGGCCTGGCGCTGTACGGGCGCAAACTGTGGGAGACGATGAGCTCCCATTGGCCGACCGCCGACCAGCAGCCTGGCGCCATACCGGCGCAGATCGAGTTCGCCCGCCGCTGGCGGGACATGCCGAAGGTGGTGTTCTCCTCGACGACCAGCACGGTCGACTGGGATACTCGCCTAGTCACCGGCGACGCGGTCACCGAGATCACCCGTCTCAAGGCCGACGACGGCGGCCCTATGGACATCGGCGGTGCCACACTCGCCGCGGCGGCCATGCGGGCCGGGCTGATCGACGAGTACGCGATCGTCACCCATCCGGTACTGGTGGGCGGCGGCACGCCGTTCTTCACAGCCCTGGACCACTGGGTGAACCTGAGCCTGGTGGAGACCCGGACGTTTCCCGACAGTGTGGTCCTCACCAGGTACAAGACCAGGCGCTGA	MRKLTFAMNLSLDGYIAAPGDDLGWSVPSDELFQWWSDRVGATGLALYGRKLWETMSSHWPTADQQPGAIPAQIEFARRWRDMPKVVFSSTTSTVDWDTRLVTGDAVTEITRLKADDGGPMDIGGATLAAAAMRAGLIDEYAIVTHPVLVGGGTPFFTALDHWVNLSLVETRTFPDSVVLTRYKTRR				NA	NA	NA	NA	NA
D1-17_01721	366			hypothetical protein	ATGCGGTTTGAGCAGGACTCTGGGTATTTCGAGGAAGCCCCCGACAGGGGTGGCCAGCCGCCGCGTTTTCCTCCGTGGTCCCTCGTGCTGCCGCGGTACTCGACCTTCCTGGGCCGGGAAGACGATGACTGGCAGATAGACGCCAGCCGGCCGCTGGTGGAGGAATCCGGGACGCTGACCGCTGCGCTCACGAACCTGGAAGACCCCCGGTTCACGGGCACACTAACGGTCAGCGTTCACACGAATACGATCACCTCGGCTGATCTGGGGCACATGGTGCAGACGCTCGCCATCGTCCGCACTGAACCGGACGACGACGACCTGGCGGCCCTGGAGAACATCAAGGCCAGCGTCAGGGGCCGCTGA	MRFEQDSGYFEEAPDRGGQPPRFPPWSLVLPRYSTFLGREDDDWQIDASRPLVEESGTLTAALTNLEDPRFTGTLTVSVHTNTITSADLGHMVQTLAIVRTEPDDDDLAALENIKASVRGR				NA	NA	NA	NA	NA
D1-17_01722	1122			IS110 family transposase ISSfr2	ATGTTCGAGCGTACAAGCGTCGGCTTGGATGTCCATGCCCGCACCGTTGTCGCATGCGCATTGGACGCGCAGACCGGTGAGATCATCCTCCACCGGATGACTCCGGATCATGGCGAGATTCTTGCCTGGATCCTCTCCCTGCCATCGCCGGTGCGAGTCGTTTACGAGGCGGGACCAACGGGTTTCGGCCTTGCCAGGTTCCTGCTCGCCGCCCGGATCGACACGGTCGTCGCAGCGCCGTCCAAGCTCCAGCGCCCGTCTGGGGACCGGGTAAAGACCGATGCGAAGGATGCGCTGCATCTGGCCCGGTTACTAAAGCTGGGTGAGGTCGCCGGTATCCGGGTGCCTTCAGAAGACCAGGAAGCGGCGCGGGATCTGGTCCGCTCACGCGAAGACGTCCGGGGAGACCTCATGCGTTCCCGGCACCGGATCTCCAAACTCCTCTTACGCCAAGGCATCGTGTATTCGGGCGGGCAGGCCTGGACCGGCACCCATGAACTCTGGCTGGCCCGCCAGCGTTTCGACGCTCCGGCCCGGCAGCTGACCTACGAGTCCTCTCTAGAGGCGATGCATGAGATCTCGGACCGCCGTGACCGCCTCGACCAAGCGATCACCGCGATGGCATACAGCAGTGAATACACCCCCGTGGTCCGGGCACTGCAGTGCCTGCGCGGCATCTCGACGCTGACCGCTTTCGGCCTGGCCGTGGAGATCGGCGACTGGGAGCGGTTCACCGGCTCCACAATCGGCGCTTACCTGGGCCTGGTCCCGACAGAGCATTCCTCGGGGGCATCCCGGTCCCTGGGCTCCATCACAAAAACCGGCAACAGCCACGCCCGCCGGCTGCTGGTCGAGGCCGCATGGCACCACCGCAGACCCTACAACAACCCGTCCCGGCTGATGCGGTCCCGCTGGGAAGAAGCCACTTCAGAGGCCAGAACCCGGGGTCATGCCGGGAACCGGCGCCTGCACGAACGCTGGATCGGCTACCTCGAACGCCGCAAGCGTCCGGTCATCGCCAATGTCGCCATCGCCCGTGAGCTCTCCGGCTGGTGCTGGTCCCTGGCCACCGGCACACATCCGGCAACCAGCTCCCCAAAATCGATAGCTACCGTGCACTGA	MFERTSVGLDVHARTVVACALDAQTGEIILHRMTPDHGEILAWILSLPSPVRVVYEAGPTGFGLARFLLAARIDTVVAAPSKLQRPSGDRVKTDAKDALHLARLLKLGEVAGIRVPSEDQEAARDLVRSREDVRGDLMRSRHRISKLLLRQGIVYSGGQAWTGTHELWLARQRFDAPARQLTYESSLEAMHEISDRRDRLDQAITAMAYSSEYTPVVRALQCLRGISTLTAFGLAVEIGDWERFTGSTIGAYLGLVPTEHSSGASRSLGSITKTGNSHARRLLVEAAWHHRRPYNNPSRLMRSRWEEATSEARTRGHAGNRRLHERWIGYLERRKRPVIANVAIARELSGWCWSLATGTHPATSSPKSIATVH	PGPT0030635_2053	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-17_01723	345			hypothetical protein	ATGCCAGGAATTGTGACATTTTCGGCGGCAGCATTGCCGAGGGACGGCGCAGAGGATGCGTTCCGGGACAGTGTGCAGAACCTGCGGCTGCATGCCATTGATGACTGCTTCCTTACCGTGTTCCATGTCGGGGACTCCTACGCCCTGCTCAGCGGGGAAACAATCCCGGGCGCCCACACCGCCACCAACTCGGCCCTCTCCGCCTACCTAACCCGTTGCCTTATTGGAGACGACGTGGCTCTGGACCTGGAGGCGAAAATCGACCAGCTCCCGACGGAAACGGAGAGCACGGGCGCGAAGGCGTCCCTGATCCCCAGGTTCTTCCCCATCTACCCGTTCATCTAA	MPGIVTFSAAALPRDGAEDAFRDSVQNLRLHAIDDCFLTVFHVGDSYALLSGETIPGAHTATNSALSAYLTRCLIGDDVALDLEAKIDQLPTETESTGAKASLIPRFFPIYPFI				NA	NA	NA	NA	NA
D1-17_01724	291			hypothetical protein	ATGTTCGCCAGACTCAGCACCTTCGGGACCGGACCGGAAACCATTTCGGACGCGCCGTCGCAAGACATCATTAACAGGGTGCTTGAAATTCCCGGGTGCAGGGGAATCTATTATCTGCACGGGAAAGAAACCGGCAAAGACCTGTCCATCACGTTGTGGGATTCCGAAGAATCCATGGTCGCGAGCCGGGAGACGGCGAATAGGCTCAGGACGGAGACCAGCGCAGCTGAGAGAACTGAGATCCTGTCCGTGGAGGAATTCGAGGTGACGGCCGGTAGTCTCAGAGACTGA	MFARLSTFGTGPETISDAPSQDIINRVLEIPGCRGIYYLHGKETGKDLSITLWDSEESMVASRETANRLRTETSAAERTEILSVEEFEVTAGSLRD				NA	NA	NA	NA	NA
D1-17_01725	309			hypothetical protein	ATGGGCTATGACCTTGCGGCAGAGAGGCTGCTGCTGCACACCATCCAGAGCGAAGAGGCTTTCGAGGGGCTTCTCTCCACCGGCGCGCTCGAACCCGATTCATCCCGTGCGGAGCCGCTCCACGCGGACGCCTACGGGCGGATGTACCGGCAGATGGCGGCACGGCTGCCCGCCGAGGGGGATGGGGCGCTCTGGTTCTGGGCGCGGATCAGTCGCCAGGATCTGGTGGAGCTCTGCAAGCAGTCACCGGGGGGTGCTGCTGGCCTGAAGGGTGCCTCGGGAACGGGTGCTGCTTTCGCAGTTCGGTGA	MGYDLAAERLLLHTIQSEEAFEGLLSTGALEPDSSRAEPLHADAYGRMYRQMAARLPAEGDGALWFWARISRQDLVELCKQSPGGAAGLKGASGTGAAFAVR				NA	NA	NA	NA	NA
D1-17_01726	285			hypothetical protein	ATGCTCCTGTCCGACGGAGACCTTCGCGCCGGAAGCACCAACACAGGCTGCAGTGACGATGTACTGCCCGCCCGCCGGCACCTTCTCGGTTTTGCCAAAGCCCCTGACGGGACCATCCAGTGGCCCCACGTCGGAAATGAGGACTGGTTCCGGCGCTGCCTTAAGGAGCCGGTCCAGCTCAGCGTAGTTTTTGACCTCGCGCTCCAGGACTTGGGGATCAGTGTATGGCTTCGGGGGCCCTGTTACCGGCGCCAGGTCAGCTGTTGCTGTGTGCGCGGGCTCTGA	MLLSDGDLRAGSTNTGCSDDVLPARRHLLGFAKAPDGTIQWPHVGNEDWFRRCLKEPVQLSVVFDLALQDLGISVWLRGPCYRRQVSCCCVRGL				NA	NA	NA	NA	NA
D1-17_01727	309			hypothetical protein	ATGGCTTACGACCTCTCCGCTGACTGGCTGCTTCTGCACACGATCCCGGCTGAAGAGGCATTCGAGGCACTCCTCTCCGCCGGCGTGCTCCTGCCTGATCCGTCCCGTGTTGAGCCGTTCCATGGGGACGCTTATGAATGGATGTACCGGCAGATGGCGGCACGGCTGCCCGCCGAGGGGGATGGGGCGCTCTGGTTCTGGGCACAGATCAGGCGCCAGGATCTCGTGGAGCTCTGCGAGAATTCACCGGGGGGTGCTGCTGGCCTGAAGGGTGCCTCGGGAACGGGTGCTGCTTTCGCAGTTCGGTGA	MAYDLSADWLLLHTIPAEEAFEALLSAGVLLPDPSRVEPFHGDAYEWMYRQMAARLPAEGDGALWFWAQIRRQDLVELCENSPGGAAGLKGASGTGAAFAVR				NA	NA	NA	NA	NA
D1-17_01728	375			hypothetical protein	GTGCTGCTTTCGCAGTTCGGTGACTGGCATTCGGCCCTGAACCGGAGTCCGCTGATCATTGAGCTTCCCGGTGAGAGCGACGAGGAGTACATGGCCCGGCTGGAGCGTGCCTTCGAGGACGTCGATGCCAGGGTCCGGGCCGCCGGGGTCACACCTGACGCCGGATACCGGCACTGGCCGGAGGACCTGCGGTCCGAACTGGAGAGCAGCTGGGAGTTCATCCTGGACCCGGGAAACTACGGGGCGCTACGACAACTGGCAGCCCACCCGCGCACGGCCTGTACGAGGACGACGTCATGCAGGCGGTCCGGCTGCAACGCTGAGGCGGTCCCAGGTCCCGGTATCGGTTCGGTCGAATGCAGAGGACGACCATGA	MLLSQFGDWHSALNRSPLIIELPGESDEEYMARLERAFEDVDARVRAAGVTPDAGYRHWPEDLRSELESSWEFILDPGNYGALRQLAAHPRTACTRTTSCRRSGCNAEAVPGPGIGSVECRGRP				NA	NA	NA	NA	NA
D1-17_01729	297			hypothetical protein	ATGGAATCCACGGCCTGTGGAGTTATGCACTTCTTCCCAGGAGGGACAAGAGAGCAATACGAGGCATCGATTGCCACGACCCACCCAGCCGAAGGGCAATTGCCCGTCGGCCAGACCTTCCATGTGGCAGGGCCTTCCGCGGGTGGCTGGACCATCATGGCACTCTTCGAGTCGAAGGAAGCTTGGGAGCAGTACCGAGACAACGTCCTTCTTCCGCTATTGCAAGAGGGCGTCGAGGGCGGGTTCGCAACCGCGCCTGATGAGACTGTGATCGACGTATACAAAATCATGCCTTAG	MESTACGVMHFFPGGTREQYEASIATTHPAEGQLPVGQTFHVAGPSAGGWTIMALFESKEAWEQYRDNVLLPLLQEGVEGGFATAPDETVIDVYKIMP				NA	NA	NA	NA	NA
D1-17_01730	312			hypothetical protein	ATGGACGAACTGCTGATAGCTCCGTTCACGGCGGGAGCGAAGAAGGGGCACGGCATGGAGGAGTCAACTGAGATCACTCAGACCATGCACCGGTTCTTTGACAGGCTCTCCGGAAAGGACGTCACGGCGTTTTACGAGCTGGTGGAGCTGAGCGAGGCGACGATGGTGCTGGGCACCGCTCCGGGCGAGATCGTCCGGGAGGAGGAGCGGCTGCGCTTCGGGTTCGAGTTCGAGGGCTTCACCGTCGAGCCCGGTCTCGGCCACGGGGCCGGGAGGAAGGCGGTGTGGGTTGGTACGTCGGAGAGCCCATAG	MDELLIAPFTAGAKKGHGMEESTEITQTMHRFFDRLSGKDVTAFYELVELSEATMVLGTAPGEIVREEERLRFGFEFEGFTVEPGLGHGAGRKAVWVGTSESP				NA	NA	NA	NA	NA
D1-17_01731	762	bacC_2		Dihydroanticapsin 7-dehydrogenase	ATGGCAGACTTCGCGAGCTTGTCCGGTCAGGTCGCAGTAGTCACCGGCGGGAGCAGCGGCCTCGGCAGGGCCGCGGCCGCTTCTCTGGCGGCGGCAGGCGTCAACGTGGCAGTGCTGGCACGTTCCCGTGCCGACCTTGAGGAAACGGTCAGGGAAATCGCCGGCATCAGCAGGACAGCCACTGTTTTGGCTGTACCTGTCGATCTAGGCGAGAGCATCGCAGTAAAGCAAGCAATTGACCAAGTCAGGGCTGAACTTGGGCCTGTGGACATCCTGGTCAATGCCGCCGGAACCGACGTACCCGGGCCGATAGAGACACTGGACCCTGCGGACTGGGACAGGGTGTTGAACGTGAACCTGCGTGCGGTGTTCTTGCTCTCCAAGGCAGTCTTGCCGGATATGCGCAGCCGCGGCGGTGGGACAATTATCAACATCAGCTCAGTCGCCGGCCGGAGGGGATGGGCGAACGCCTCAGCGTACTGCGCCTCTAAATTTGCCCTGACCGGTCTTACCCAGGCCTTGGCGGCCGAAGGCAAGGAGCACCGGATAAAGGTGTCCTTGCTTTATCCGGGGGGAATGGACACCAGCTGGGGATCATGGACCCCCTCAGAACGTGGGCCACGGACGGCGGAAGCAGACCCTGCCATGGCCCTGCCGCCGACGCACGTTGCAGAACTTATCACCTGGATCGCAGCATCTCACCCGGACATGGTCCTGAATGAAATCACAGTCACGCCTATGCTGGAGCAGGGCTGGCCCTAA	MADFASLSGQVAVVTGGSSGLGRAAAASLAAAGVNVAVLARSRADLEETVREIAGISRTATVLAVPVDLGESIAVKQAIDQVRAELGPVDILVNAAGTDVPGPIETLDPADWDRVLNVNLRAVFLLSKAVLPDMRSRGGGTIINISSVAGRRGWANASAYCASKFALTGLTQALAAEGKEHRIKVSLLYPGGMDTSWGSWTPSERGPRTAEADPAMALPPTHVAELITWIAASHPDMVLNEITVTPMLEQGWP	PGPT0003180_21677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_01732	816			hypothetical protein	ATGGTCGGTGCCCAGCTCCGTCTTCTGGCTTGGTTCGTCATCCCAGCGACCCTCCTCTCGGCCTGCACCCCTGCTGTCAGACTCGATGAAGCCGCCACCGATCGACCGGTCCAGACATCGACGGCCCCGCCAGCCGCACGGGCTGATGTCCAGGCTCCCTACCAGACCCCGTCCCCCACCCCGACATCGCTGCCCACGCGGACCCCGGTGCCCCAGGCGTTCGCCCTGAACCTCTATCAGGAGGGGGACTTCGTTCCCCAGTACACCTTTGAGTGGTGTGTGGCGGCGAGCATCCAGATCATGCATAACCTCATTGACGATACGGGGGGCGGCACGTGGGCCGGCCGCACTCACCAGGGCGACTTGTGGGAGATGGCCCGGGCACGGTCGTCCAACTCGTTCAACGGCGCCAACCCCTTAGGTTGGGCGAAGGTACTGAACGAGGTCGGGATGGGACCGTACACCGTCGTCAGCGTCGCAGACTATGAGGAAGCGCTGCGGACCGCCGCGCGCGCCATCGCCGACACTGGCAGGCCTGTCGGGCTGGTCATGTGGCGCGGTCGCCACGTGTGGGTAATGAGCGGTTTCCAGTCACTCGGCGATCCCGACAAGTTCCCGGAGTTCTCGGTCACTGGGATCCGCGTCCAAGATCCGCTCTACCCGTACGGTGACCCGAAGTGGGGACCGTCTCCCGCGCCGAACGCCCTGCTCACCCCCGAGCAGCTGGCGACGCAGTTCGTCGTCCGGGAGCCGCGGCGCTGGAGCAGCAATCTGCCGGCCGGCTACATGTTGGTGCTGCCGATCGCCAAGGCCTGA	MVGAQLRLLAWFVIPATLLSACTPAVRLDEAATDRPVQTSTAPPAARADVQAPYQTPSPTPTSLPTRTPVPQAFALNLYQEGDFVPQYTFEWCVAASIQIMHNLIDDTGGGTWAGRTHQGDLWEMARARSSNSFNGANPLGWAKVLNEVGMGPYTVVSVADYEEALRTAARAIADTGRPVGLVMWRGRHVWVMSGFQSLGDPDKFPEFSVTGIRVQDPLYPYGDPKWGPSPAPNALLTPEQLATQFVVREPRRWSSNLPAGYMLVLPIAKA				NA	NA	NA	NA	NA
D1-17_01733	120			hypothetical protein	ATGCAGTGGATTTTTATCCGGGGCCTGCATCAGGCAATCATTGACCGGGGCCACGACTGCCGCTTTCGGGCTTCCGGCCTGGAAGCGTCGGCGGCTGTTGTGGAATCGAGGATCCGATGA	MQWIFIRGLHQAIIDRGHDCRFRASGLEASAAVVESRIR				NA	NA	NA	NA	NA
D1-17_01734	399			hypothetical protein	ATGGCTGACTCCGACGACTTCCTGGCCTGGGTGAGGTCCGCCTTGCACGAGGCGGAATTGTCCCTTCACAACGGTGACGCATCTCCTCGTCGTGGGCTCTGGTCCCGCAACGATCCGGTAAGCGTCTTGGGAGCGTGGCGCAACGCCTTTGGGCAGCAAGAACTGGATGACCTGTTCACGAGTCTTGAGCGACAGTTCTCTGATTGCACCTCGTACAAGTTCGAGTTACTGGCATATGACGTCGTGGGCGACATGGCCTATACCGCCGGCCTGGAACGCACCTCAGCCTCAGTTGACGGCCAACCGCGCAGTTACATCCTCCGAGCCACTCAGATCTACCGCCGCGAAGGTGGTGAATGGAAGGTAGCCCACCGGCATGCGGACAGCGTGACCGAGTGA	MADSDDFLAWVRSALHEAELSLHNGDASPRRGLWSRNDPVSVLGAWRNAFGQQELDDLFTSLERQFSDCTSYKFELLAYDVVGDMAYTAGLERTSASVDGQPRSYILRATQIYRREGGEWKVAHRHADSVTE				NA	NA	NA	NA	NA
D1-17_01735	255			hypothetical protein	ATGCGTGAGAGCGACCTTGATGAGCCGACACCGAAGCTGCGGGCAGTAACCGGCTGGCTAGCCCAGATGGATGCTGCAGGCGAGGCAGATTGGGATGCAGTGGTGTGGATTGATGACGTGCTCGGACCGGACGCACAGGAGTGGGCGGACCGGTTCCGCCAGCCGGTGCTGCTGGAGATGCCGTCGCCGGAGGATGGCCTGACGGCAGATCAAGTTGAGTCGGTCGAGTTATTCGTGGATGGCGGCGGCGGGTGA	MRESDLDEPTPKLRAVTGWLAQMDAAGEADWDAVVWIDDVLGPDAQEWADRFRQPVLLEMPSPEDGLTADQVESVELFVDGGGG				NA	NA	NA	NA	NA
D1-17_01736	900			hypothetical protein	GTGAATCCCATTGTGGTGGCTGGCCAACTGCGCCACCATGTTCGTATGCACGCTCAAACACCGAAGGCGGAACTGAACCTTCCCCAGGCCTTCCTCCTTCTTGCAACCAACGACAAAGACGGCAAACCTGAACTGCCGATGTTCGAACTCAGAACCACCTTGGCAGGGGCGATATTGGCCGAGCTGGACATGGCTGGTGCAATCGGGCTGCAGGGGAAGCACGTCCGGGCTACCGGCACGGCATCGCAAACAGACTTCCAGCACGAGTTGGATCTGATCCGCGGCAAACGGCCCCACACTCCTAAGCAGTGGGTCTCCATGCTGGAGGGCCGCGCCGAAATGCAGCGTGTCTACGAGGGGATGGTGTCACTGGGCATCGTGGAACCCGCCGGTGAGAAGCATCTGGGTCTGTTCCGGACCGTGCGCTACCCGGAGAAGGACCACGCTCCGGAGGCAGCGCTGCTGAAAAGGATCGAGGCCGCGCTCAACGGTGCGCCCTCCGATGCTGGACCGCCTAACTCCACGGCCTCTGAGGCAACGGGGGCCCCTGACGCCACGGCGTCCGACGCCGGTGCGTCCTCCGACCAGGGGACCCCTGATTCCAGAGTGTCCGAAGATGGGCCCCGGTCCGATCCCGGAGCCGCTGATAGTACGGCAGCCGATGCCGGAGTCTCTGATGCCAGGACACCCGCTCTGGAGAAGGCCAATCCCAAGGCGCCAGATGCCAGAACCACGGCGCTCATCGCACTGCTACAGGCGTCCGGGCTGCTCGGCAAGCTTTTCCCGGCAGCAGATAAAAGCTGGGCAGATGAGCTGGCGAAAGACTACTGGCCCGCCCGCGCAGTGGAAAACGAACTTCTTATGGGCAGGCTGGCGCAGGCAGAGGCACCTACCTTATGA	MNPIVVAGQLRHHVRMHAQTPKAELNLPQAFLLLATNDKDGKPELPMFELRTTLAGAILAELDMAGAIGLQGKHVRATGTASQTDFQHELDLIRGKRPHTPKQWVSMLEGRAEMQRVYEGMVSLGIVEPAGEKHLGLFRTVRYPEKDHAPEAALLKRIEAALNGAPSDAGPPNSTASEATGAPDATASDAGASSDQGTPDSRVSEDGPRSDPGAADSTAADAGVSDARTPALEKANPKAPDARTTALIALLQASGLLGKLFPAADKSWADELAKDYWPARAVENELLMGRLAQAEAPTL				NA	NA	NA	NA	NA
D1-17_01737	426			hypothetical protein	ATGCCCAAAACGGGTAAGAACGACCACGCGCGCAAGGACGAGCTTCCCTCGACCCTGCAGCGTTCTGAGCAGAAAGCCCAGGACACTTTCGCCAAGACCTATGACTCAGCCCTTGAGTCCTACGACAATGACGAGGGCCGTGCCGCTCGTGCCGCCTATGCATCTTTGAAGCACAGCTACGAAAAAGTGGGCGACCACTGGGAGCCCAAGGAGAAGCGTGGCCCCTCTGACGATCGCGCGGAGAAGGGGCTGGATTCGTCTGCACCCGCAGCCGGAGGCGTGGACGCGAACGCCTCGAAGGAGCACCTTTACAAGCGGGCCAAGGAACTCAACATCAACGGACGTTCAAAGATGGACAAGGACGAACTCGTCCAGGCGCTGCAGAAGGCCAACGACGCCGCAACCCGGAAGGCTCGCGGAGACTGA	MPKTGKNDHARKDELPSTLQRSEQKAQDTFAKTYDSALESYDNDEGRAARAAYASLKHSYEKVGDHWEPKEKRGPSDDRAEKGLDSSAPAAGGVDANASKEHLYKRAKELNINGRSKMDKDELVQALQKANDAATRKARGD				NA	NA	NA	NA	NA
D1-17_01738	480			hypothetical protein	ATGGCAGCCCTCGCCAACCATGACGCGCGGACCGCCTACGCACAAATAGTGCTCGGGACCGAACTCGCCAATGTTGTTGCTGACCTGGGCGCCCGACGCCGGGAACGGGCCATCGCTGTCCTCCTCGGCGCAGGCCTCGTGGAACAGATTGGCGACGGTGAACTGGAAGCGTCGGAGATGATCTTCCGCGACCTCCTCACCCAACAGCCGAAACGCCAGGCGCAGACCGGAGTGGCCCGCTTCATGCGGCTTGGCAGGATCGCGCGGTACCCGGCCAATCTGGAAGAGCGGCGGGCTCTCCTGGTGTGGATTGCCAGCGAAGCGATCAAGCCGGGCGAGGACCTCACCGAACGCCAGGTTAACGAACGGCTGCTCAGCTATACCGATGATGTGGTGTTGCTGCGCCGCTACATGATCGATTTCGGCGTGTTGGAGCGGACACCGTCCGGATCCTCGTACTGCCGGGCTATCAAGGAGTAG	MAALANHDARTAYAQIVLGTELANVVADLGARRRERAIAVLLGAGLVEQIGDGELEASEMIFRDLLTQQPKRQAQTGVARFMRLGRIARYPANLEERRALLVWIASEAIKPGEDLTERQVNERLLSYTDDVVLLRRYMIDFGVLERTPSGSSYCRAIKE				NA	NA	NA	NA	NA
D1-17_01739	510			hypothetical protein	ATGAAATCCAACGAGCTGCTGCTGGACGCTTTCGCCCGCATCAATGAGGTGGTGGCAAGCACCCTGGAGGGGATTGACGGCGGCGATCTCGTCCGTAGGCCCGCCGGCACCGGAAATCCAATTGCATGGCTGGTCTGGCACCTCAGCCGCATCGAGGACGCGCAGGTCGCCGACGTTGCCGGCTTAGAGCAAGTCTGGACGGCGCAGGGGTTTCGCGGCCGTTTTCACTTGCCGCTGCCCGAACACGACACCGGCTACGGCCACTCGGCCAGTCAGGTCGATGCGGTCAAGGCTCCGCCGGAACTGCTGCTCGAGTATTACGACGCCGTTCACCGGCAGACCGTGGAGTTCCTCAAGACGGCGGTCGACGAGGACTTCGACCGAATCGTCGACATCCGCTGGGATCCGCCCGTCACGCTCGGGGTGCGGCTGGTGAGCACGATCGCCGACTGCCTCCAGCACGCCGGGCAGGCCGCATACGCGAAGGGCCTGAATTTCACGAGCAGGTAG	MKSNELLLDAFARINEVVASTLEGIDGGDLVRRPAGTGNPIAWLVWHLSRIEDAQVADVAGLEQVWTAQGFRGRFHLPLPEHDTGYGHSASQVDAVKAPPELLLEYYDAVHRQTVEFLKTAVDEDFDRIVDIRWDPPVTLGVRLVSTIADCLQHAGQAAYAKGLNFTSR				NA	NA	NA	NA	NA
D1-17_01740	213			hypothetical protein	ATGCCGAACAGCACCACTATTACGGAGACAACAGCAACAGCCGCCGCAAACCTCACCACGGAGCCCGCCCGGAATTCCCCGAGCGACTGGCTTGAGGGGTCCCCATTATCGAAAAAAGACCGCGCCAACGACGATAAAGGCGCGCAGGACGCCTTTACTGAACTCAAGCAACCGCTCATTCCCAGGGTTTTTCCTGTTTATGCTTTTATCTGA	MPNSTTITETTATAAANLTTEPARNSPSDWLEGSPLSKKDRANDDKGAQDAFTELKQPLIPRVFPVYAFI				NA	NA	NA	NA	NA
D1-17_01741	1053			hypothetical protein	GTGGTCGTGTGGGAGGAACGCGCCTATCGTGCCCGACGGGAGATCACAGCCTTGGCTGCATCGGGGCTGGGGGTCAGTGACCTGCACGCCGCGGCTATCGAGCTGATGGGCCACGACGTCAAGGCCGAGCTGACGTGTTGGGCCGCGATTGATCCGGAGACATTGGTGATCAGCGCCATGACCAACGGTAAACCCCGGATTCCGCACCAGTACGAGCCGCTGCTGGCCGAGGCGGAGTACTCCCCGCAGGAACCGCACACCTTCGCAGGGATGGCCAGGCGAAGGGAGGCGTTCAGTCGGCTGTCGGATCTGCCGCTGCAAGAACATGACCGGAGCGCCAGATTCAGGAACGTGTGGCGGCCGCTGGGCGTCAAGCAGGAACTGCGCGTCCTCTTCGCTTCCGATGGCTTGTGCTGGGGTGCCGCGGGACTGGTCCGCGCCGGCAAGGACTTCACGGAGCGCGAAGTGGAGTATTTCACTGCGGTGGCCCCAACCTTGGCGGCGGCCACGAGGTTGGCCGTGCGTTCGGAAGTTTCCGCCTGCACGCAGGCTATCCGTCCTGCGATTGTTGTCTTGGACTCTTCCGGCCAGCTGCGTTCAGCCACCCCGGAAGCCCAGCGGTGGCGGGACCGGCTCGATGAAACCGCCCCGGACAGATTCGCGATGGTGATGCGGATCATGGCTGGAGGAGTTCGGAGCGCGGCGTCGGGCGGTTTCCGCGCAAGGATACGTGACGGACGCGGGCAGTGGGCCCTCCTGCAGGCCAGTCCGCTGATGGGCGGGGACGACGACGGCGAAGTGGCGGTCTCTGTCGAGCCTGTGGCCGGGGAGCAGCTCCTGGGCATGCTCTTCGCCGCGTACGGCCTCTCGCCCCGTGAACAGGAGGTCTGCCGCGAGGTCATTGCGGGTTATGCGACGGCGGACATCGCCGGCCACCTGTTTGTCACCGCGAATACCGTGCAGGACCATCTGAAATCCGTGTTCGCTAAGACAGGCGTGCGAAGCCGGGGTGGACTCGTTGCACGGCTGCAGCCACGCGCGGAGTATCCCTGA	MVVWEERAYRARREITALAASGLGVSDLHAAAIELMGHDVKAELTCWAAIDPETLVISAMTNGKPRIPHQYEPLLAEAEYSPQEPHTFAGMARRREAFSRLSDLPLQEHDRSARFRNVWRPLGVKQELRVLFASDGLCWGAAGLVRAGKDFTEREVEYFTAVAPTLAAATRLAVRSEVSACTQAIRPAIVVLDSSGQLRSATPEAQRWRDRLDETAPDRFAMVMRIMAGGVRSAASGGFRARIRDGRGQWALLQASPLMGGDDDGEVAVSVEPVAGEQLLGMLFAAYGLSPREQEVCREVIAGYATADIAGHLFVTANTVQDHLKSVFAKTGVRSRGGLVARLQPRAEYP				NA	NA	NA	NA	NA
D1-17_01742	489			hypothetical protein	ATGGATTCTAGCGTTGGTGCCATGAGCCACTCATTTCAGTACCTGCAATCCGGCGACGGCGTTGAACTGCGAGCTCCCGACGCCACCCTGACCGTCAAGGTGGACAGCGAGCATACAGACGGTTCCTACGAACTCTTTGAGGTCGATGCACCACGCGGGGACGCAACGCCTCTGCATCGCACCGGATGGGCGAAGACCTACTACATGTTGCAGGGCAGGATCATCGTCCAGATCGATGACGAGGGCTTTGACCTGGGCCCCGGCTCGGCCATCGCCATACCTCCCGGCGCCCTGCACACCTTCACAGTACTCACGCCCGCCGCGAAGTTCCTGGTGTTCAGTCTGACCGATGCCATGGGGCGCTTCCACGCTGACCTTGACGCCTCCGTTCTCCCCGGGAGGCCGTTCGAGGAAATGATGCAGGACATTCAGAAGGTCCTCACGCGTCATGATGTGTCCGTCGACGTGGGAAAGGAACCTCAACAATGA	MDSSVGAMSHSFQYLQSGDGVELRAPDATLTVKVDSEHTDGSYELFEVDAPRGDATPLHRTGWAKTYYMLQGRIIVQIDDEGFDLGPGSAIAIPPGALHTFTVLTPAAKFLVFSLTDAMGRFHADLDASVLPGRPFEEMMQDIQKVLTRHDVSVDVGKEPQQ				NA	NA	NA	NA	NA
D1-17_01743	402			hypothetical protein	ATGACACCGTTGGTGTGGGCCTTCGCGCTGCTGGCGGCGGGCCTGCACGTCCTCGTTTTCGTCTGGGAAGCATTGGCATTCCAGCGCCCGGCTGTCCATCAGCGCATCTTCTTCACTCCGACGGCGGATGTCCCCGCCGTTCGGCTCTGGGCCTTTGGCGTTGGCTTCTATAACCTGTTCCTCGCCTGCGGCACCATTGCCGGGGTGGCCGCCTGGAGCGGAGGACATGAGACAGTCGGGCGCACCCTGGTGATCTATACCTGCCTTTTCATGGCCTTCTCGGGTCTCGTCCTCTTCATCGCGGACCGCATGGAACTGGGCAGGGCATGCGGCAAGGGCTTAGGCGGCGCACTCGCCCAAGGCGTTCCCCCACTCATGGCTCTCGTTGCGGCCGCGTTCTGA	MTPLVWAFALLAAGLHVLVFVWEALAFQRPAVHQRIFFTPTADVPAVRLWAFGVGFYNLFLACGTIAGVAAWSGGHETVGRTLVIYTCLFMAFSGLVLFIADRMELGRACGKGLGGALAQGVPPLMALVAAAF				NA	NA	NA	NA	NA
D1-17_01744	981			hypothetical protein	ATGACCCAGCTCGGCAAATTTGAGAAGTACCTGATCGAGGAATTTTTCGACGATTACAGGGCCGGGGCCATGAGCCGCCGCACCTTCACGCGGCGCGTCGCCTTCATCACCGGCAGCATGGGCGCGGCAGCTGCGGCGATGTTGCTTGTCGGCTGCTCCCCGAACGAGGTGCCGCGCAGCACCGACCCCATGCCCACGCCCAATCCAACGTCGGCCCCGGGCACAGGAACGGGCACCGCCCCTGCAGGCGCGGTTCCCGGCGCCAAGAGCCCCCTCTCCGTTCCCGAGGGAGCGGCAGGAATGACGACGGCGACAGTTCAGTTCCCCGCCGAAGGAACCGACATCAGTGCTTACCTCGCGCGCCCCGAGGGGGACAAGCCCGTACCTGCCGTCCTGGTGTGCCATGAAAACCGCGGGCTGACCCCGCACATCCAGGATGTGGCCCGCCGCTTCGCAAAGGAAGGATACGCCGCGCTGGCCCTGGACCTGCTCAGCAGGGAGGGCGGCACGGCAAACCTTGACCGGGATGCCATCCCGGGGGCATTGACCAAGGCCGGCGCCCAGCGCCATGTCACCGACTTCAAGGCCGCATTCGCGTACTTGAACTCCCAGGACTACGTCGATGCCGGACGGATCGCGATGACCGGCTACTGCTTCGGCGGCGGCATCACGTGGCAGACGGCGACGGAGCTGACCGGGTTGAAGGCGACCTCCGCCTTTTACGGACCCGCGCCTGACCTGGGAAAGGTGCCAAACATCAAGCCAGCGGTGTTCGGCGTCTACGCCGAACTCGACGACCGCATCACCGGTCCGCTGCCGGAGTTACGCGACGCCCTTGCCGGCACCGAGGTGCGCCACGAACTCAAGGTGTATCCCGGCGTCGACCATGCCTTCCACAACGACACCGGCGAGCGCTACAACGAAACGCAGGCGACCGCGGCGTGGAACGATACCCTGGCTTGGTTCAAGCAATACGTCTAA	MTQLGKFEKYLIEEFFDDYRAGAMSRRTFTRRVAFITGSMGAAAAAMLLVGCSPNEVPRSTDPMPTPNPTSAPGTGTGTAPAGAVPGAKSPLSVPEGAAGMTTATVQFPAEGTDISAYLARPEGDKPVPAVLVCHENRGLTPHIQDVARRFAKEGYAALALDLLSREGGTANLDRDAIPGALTKAGAQRHVTDFKAAFAYLNSQDYVDAGRIAMTGYCFGGGITWQTATELTGLKATSAFYGPAPDLGKVPNIKPAVFGVYAELDDRITGPLPELRDALAGTEVRHELKVYPGVDHAFHNDTGERYNETQATAAWNDTLAWFKQYV	PGPT0005685_318	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
D1-17_01745	912	rbn_2	COG1234	Ribonuclease BN	ATGCGTGAACTGGTCGTGCTCGGAACTGCCTCCCAGGTTCCAACCCGGAACCGGAACCACAACGGGTACCTGCTGCGCTGGGACGGCGAGGGACTGCTCTTCGACCCCGGCGAGGGGACCCAGCGCCAGATGATCCATGCCGGGGTCTCTGCCTCCCAGATCACCAGGATCTGCCTCACGCACGTCCATGGCGACCACTGCTTCGGCCTGCCCGGAGTGTTGTCCCGCATGGTGCTGGACGGGGCGGGACACCCGGTTTATCTCCACTATCCCGCCTCAGGTGAGGACGTTGTCCGTGCATTGGTTTCGCTCGCCTCCCCCGGCCTTGACCTGCGTCTGCAGCCACATGGTGGAGCCGGACAGGTTGCACCGGGGCTCGAAGTCAGGCCCCTTCGCCACCGCATCGAGACGTACGGATACCGGCTCACCGAACCGGACGGCCGCAGCATGCTGCCCCAGGAGCTCGCCGCTGCAGGGATCACCGGCCCCGACATAGGGCGGCTGCAGCGCGAGGGCAGCCTGCACGGGGTGCGCCTGCAGGACGTCAGCATAGAGCGGCCTGGGCAAAGCTTCGCCTTCATCATGGACACCGCGCCCTGCGAAGGCGCCGACGCCCTCGCCGAGGGCACGGATCTGCTGGTGACCGAGTCCACTTTCAGCGACGACGACGGCGGGCTGGCGCGGCAGTACGCGCACCTCACCGCCGGGCAGGCCGGCGACATCGCTGCCGCCGGCCGGGCGGACACCCTGGTGCTCACCCACTTCTCCTCACGCTACGGGGACATGGGGCCCCTCGCTGAGCAGGCCGCTGCCCGTGCCGCCGGCGCAACGGTCATTGCCGCCAACGATTTCGACAGGATCAGGGTCCCCAAACGCCGCCTGCCGCCCTCCCGGGGCAAGCCGGACACGTAG	MRELVVLGTASQVPTRNRNHNGYLLRWDGEGLLFDPGEGTQRQMIHAGVSASQITRICLTHVHGDHCFGLPGVLSRMVLDGAGHPVYLHYPASGEDVVRALVSLASPGLDLRLQPHGGAGQVAPGLEVRPLRHRIETYGYRLTEPDGRSMLPQELAAAGITGPDIGRLQREGSLHGVRLQDVSIERPGQSFAFIMDTAPCEGADALAEGTDLLVTESTFSDDDGGLARQYAHLTAGQAGDIAAAGRADTLVLTHFSSRYGDMGPLAEQAAARAAGATVIAANDFDRIRVPKRRLPPSRGKPDT				NA	NA	NA	NA	NA
D1-17_01746	1209	aspC_2	COG0436	putative aspartate aminotransferase	ATGCAGCTCTCCAGCAAACTAAACAACGTCCGCTACGAACTGCGGGGCCCCCTGCTTCAAACGGCAAAGCGGATGGAGGCCGAGGGACACCGAATCCTCAAGATGAATCTGGGCGACACCGCACTGTTCGGACTGGAAGCGCCCGAATCTGTAGTGGTTGACATGATCCATCACCTGCGGGGCGCTCAGGGCTATAGCGATTCCAAGGGGATTTTTTCGGCGCGCACAGCCATTTCCCAGTACTACCAGACCAAGGGCCTGATGCAGATCGGCGTCGAGGATATTTTTATCGGCAACGGCGTCAGCGAGCTTATCTCCATGACCCTGCAGGCCTTCATGGAGAACGGAGATGAGATCCTCATCCCCGCTCCCGACTATCCGCTGTGGACGGCTGCGGTCTCACTGACCGGCGGCGTACCGGTGCACTACCTGTGCGATGAGAGCGAGAACTGGTGGCCGGACTTGGCCGACGTCGAGGCCAGGATCACTGCCCGCACCAAAGGGATTGTGATCATCAACCCCAACAACCCCACCGGCGCAGTCTATCCCCGGCAGATTCTCGAGCAGTTCGCCGCGCTTGCCCGCAAACACAACCTCGTCCTCTTCTCCGACGAGATCTACGAGAAGATCACCTATGAGGACGCCCAACACATCCATACCGCCTCGGTGGCGGAGGATGTCTGCTGCCTCACATTCAGCGGGCTCTCCAAGGCCTACCGCATGCCGGGCTACCGTGCAGGCTGGGTAGCCATTACCGGCCCGCATATGGCGACCCTGGCGTACCGCGAGGGGCTGGAACTGCTGGCTTCGCTGCGACTGTGCCCGAATGTTCCCGCCCAGCATGCAATCCAGACCTGCCTCGGCGGCTACCAGAGTATCGAGGCACTGATCCGGCCAGGGGGAAGGCTGCGTGAACAGCGGGACCGGGCGCTCAAGCTCCTGACAGCGATTCCCGGGGTGACGTGCGTTCCGGCCGCCGGGGCCATGTATCTCTTTCCCCGTCTCGATCCCGACCTGTATCCGGTCAAAAACGATGAGCAGTTGGTGCTGGAGCTCCTGAAGGACCAAAAGATCCTGGTTTCGCACGGGACGGCCTTCAATTGGCCCGAGACGGATCACTTCCGCTTTGTCATCCTGCCCTCCGTCGAGGACATTGAGGAAGCCGTGCGGCGGATCGGGACATTTCTGTCCACTTACCGGAACGGTTAG	MQLSSKLNNVRYELRGPLLQTAKRMEAEGHRILKMNLGDTALFGLEAPESVVVDMIHHLRGAQGYSDSKGIFSARTAISQYYQTKGLMQIGVEDIFIGNGVSELISMTLQAFMENGDEILIPAPDYPLWTAAVSLTGGVPVHYLCDESENWWPDLADVEARITARTKGIVIINPNNPTGAVYPRQILEQFAALARKHNLVLFSDEIYEKITYEDAQHIHTASVAEDVCCLTFSGLSKAYRMPGYRAGWVAITGPHMATLAYREGLELLASLRLCPNVPAQHAIQTCLGGYQSIEALIRPGGRLREQRDRALKLLTAIPGVTCVPAAGAMYLFPRLDPDLYPVKNDEQLVLELLKDQKILVSHGTAFNWPETDHFRFVILPSVEDIEEAVRRIGTFLSTYRNG	PGPT0001880_740	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0001880-alaA-K14260	NA	NA
D1-17_01747	231			hypothetical protein	ATGGTCAAGATTCCCTTCCTCCACTTCCACCATGAGCGCCCGGATTCGCCCAGGCAGCCGCGGAAACCGTTTACTTGGCTGCAGAGGGAGGACAGCCAGTTCAGCCGGGGCAGGAGCAGTCTGTTCTACCTGGGGCACGATACGCCGCAGGCGCCTACGGTAACGTGCATTCAGGGGCACGAGATCCTGCCTGGTGAGACCACCTGCATCCACGGGCATCCCGTCGGCTGA	MVKIPFLHFHHERPDSPRQPRKPFTWLQREDSQFSRGRSSLFYLGHDTPQAPTVTCIQGHEILPGETTCIHGHPVG				NA	NA	NA	NA	NA
D1-17_01748	711			hypothetical protein	ATGTTCGGCGTGAAGAATAAGAGGGTGAGTGAGGCCGGTGAGTTCATCGACGTTGCGCTGCAGCGGGAAGGGGCCTGGTACCGGGCTGACGAGCTGCGCCTGCGGCATGCAGGCGGCCAAGGGACGGGCGACGCCGCAGTTGCCCACTCACCGAACCGCCATCTTCAGTACTATGGCTCGTCGGTCGGCGCGGTACGGGGAACAGTAAGGGACGCCCTGCGCCGGCACCCGGGACTGACGCACGATGAGGTCACAGCACTCAGCTCCGAGCTGTGGGACGTTCCGGTGTTCGAACGCCGGCTCGCTGCCGTGGTCCTGCTGCAGTCCAAGGCTGGAGTCCTGCTGAACTCGGACCTGACCCGCATTGAGGGGTTTGTCAGGACGGCCCAGTTACGCGATCTGGTGGATCCGCTCGCCGTCGACGTCGTCGGTCCCCTGATGGAGGCGCTCGACCAGCAAAGCCGGGCACGCGCGGACGCGGTGCTGGACCGCTGGGTGCGGGAACCGGACGTGTGGCTGCGCCGTGCCGCCCTCCTGGCACCGCTGCAGGCCCTCCGCCGCGGCGGCGGTGACAGGGACAGGTTCTCGGCCCGTGCGAGGATTGCTCTTGCCGAGCCTGCCAGTCCGGAACCCGAGGGATCCGACGGCGGAGCAGTCCGGGAGGCTGTCGCGCTCGTCCTGGACGCCATGGCCAAGGGACGCCATGGCTAA	MFGVKNKRVSEAGEFIDVALQREGAWYRADELRLRHAGGQGTGDAAVAHSPNRHLQYYGSSVGAVRGTVRDALRRHPGLTHDEVTALSSELWDVPVFERRLAAVVLLQSKAGVLLNSDLTRIEGFVRTAQLRDLVDPLAVDVVGPLMEALDQQSRARADAVLDRWVREPDVWLRRAALLAPLQALRRGGGDRDRFSARARIALAEPASPEPEGSDGGAVREAVALVLDAMAKGRHG				NA	NA	NA	NA	NA
D1-17_01749	1407	amt_2		Ammonia channel	ATGCGAAGGGAAACGCTGGTGGAACTCACTGCGGGAGACGTCTGGGTAATGGTGTCGGGGGCACTCGTTCTGCTCATGACCCCGGCCTTGGGCCTTTTTTACGGCGGCATGACACGCGCCAAGGCAGCGCTGAACATGATCATGATGAGTTTCGTCTCGGCGGGCATCGTCGCCGTTGTCTGGGTGCTGTGGGGGTACTCGATGAGCGGCGGCGACGGCATCATGGGTGTCTTTGGAAATCCCTTCGCCAGCTTCGGTCTGTCCAACCTGGGAGGAACCGAACTCATCAAGGCCGGTTTCAGCGGCACCTTCGCCATGCTGACTGTTGCCCTGATCAGCGGGGCCATCGCCGACAGAGCGAAGTTCACCGCCTGGGTTGCTTTCGTCCCGTTGTGGATCACGGCCGTGTACTGCCCTCTCGCCTTCATGGTGTGGGGCGGAGGCATCATGAGCCAGGACGGAGCAGTCACCGCAGCGTTCGGGCAGGTCATCGACTTCGCCGGCGGCATGGTCGTCGAAATCAGCTCCGGCAGTGCGGCCCTGGTCCTGGCGCTCATCGTCGGCAAGCGCCACGGGTTCGCCAAGGATCCGGGCCATCGCCCGCACAACGTGCCGTTCATCATGCTGGGCGCCGGCCTCCTCTGGTTCGGCTGGTTCGGGTTCAACGCCGGCGCGGCCACCACAGCCGAGCAGGCAGGGCTGATCTGGGTTAACACTCTCGTTGCCCCTGCCGCTGCCGTGCTCAGCTGGCTCCTCACCGAAAAGGTCCGCCACGGCCACCCGACATCCCTGGGCGCAGCGTCCGGCGCCGTTGCCGGCCTGGTCGCCATCACCCCCTCCTGCGCGAACATCAGCCCGCTCGCCGCAGTCGGACTGGGCCTGGTCACCGGATTCGCCTGCGCCCTGTTCGTGGAACTGAAGTTCATGTTCGGTTTCGACGACTCGCTGGACGTCGTCGGCGTGCACCTTGGTGCCGGGCTCGTTGGAACGCTTGCCCTCGGTTTCATTGCCCTGCCGGCCGACGGCGTGGGCGGAGGATTGCTCTATGGCGGCGGCTTCCAGCAGCTCATCGCCCAGACGGTTGGTGTCCTCATCACCCTGGCGCTCTCCGTCGTCATGACTGCCGTCATCGGCATCGCAATCAACAGGACCATCGGCTTCCGCGTCAGCCACGAGGACGAGGTGAGGGGTGTCGACCTCTCTGAGCACGCCGAAACCGCCTACGAGTTCGGCGCCCTCGGCCACAGCCAGTTCAACCCGCTTCGGCAGCACCTTTATGCGGCAGAGCCTGTCCCGTCAGCACCCGTCCCGTCCACTGCCGCCCCCGCAGCTGGCATTGAGGAAACAGCCCCCACGCCGGTCGGAACTCTCGCCGCCGAGGACGAACTCGAAAAGGTCGGCGCCTAA	MRRETLVELTAGDVWVMVSGALVLLMTPALGLFYGGMTRAKAALNMIMMSFVSAGIVAVVWVLWGYSMSGGDGIMGVFGNPFASFGLSNLGGTELIKAGFSGTFAMLTVALISGAIADRAKFTAWVAFVPLWITAVYCPLAFMVWGGGIMSQDGAVTAAFGQVIDFAGGMVVEISSGSAALVLALIVGKRHGFAKDPGHRPHNVPFIMLGAGLLWFGWFGFNAGAATTAEQAGLIWVNTLVAPAAAVLSWLLTEKVRHGHPTSLGAASGAVAGLVAITPSCANISPLAAVGLGLVTGFACALFVELKFMFGFDDSLDVVGVHLGAGLVGTLALGFIALPADGVGGGLLYGGGFQQLIAQTVGVLITLALSVVMTAVIGIAINRTIGFRVSHEDEVRGVDLSEHAETAYEFGALGHSQFNPLRQHLYAAEPVPSAPVPSTAAPAAGIEETAPTPVGTLAAEDELEKVGA	PGPT0000840_2984	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-17_01750	300			hypothetical protein	ATGACAGATTCTGCAGTTACCGGCGAAGAGTATTTTGACGACGAGCACCAGGCAGGCACCGGTGGTGATCCGGGAGCGGCGCCCGACGGCGGCACTGGCCAGGGCGCGCAGGCGGATTCCGGGGCGGAGAGCGTGGAGGAGATTGCGGAGGAGGTCCGCGATGACATCCGGCTCGGGCATGTTATCGACGACGACGTCAGCCACATCCTTGAAGAACGCCTGGAAGGAGCCGGCATCGACATGCGCCCCGAGGACGTGGACGAGCTGGCTGAAGAGATCGAGCGCGACGCGTCAACGTAG	MTDSAVTGEEYFDDEHQAGTGGDPGAAPDGGTGQGAQADSGAESVEEIAEEVRDDIRLGHVIDDDVSHILEERLEGAGIDMRPEDVDELAEEIERDAST				NA	NA	NA	NA	NA
D1-17_01751	447			hypothetical protein	GTGGACGATCCTTTCCACCTGGAGCGCTTCGTCGCTGCCCAGGACAACGGCGGCATTTATGACCAGGCGCTCGCCGAGCTGCAGAACGGGCGCAAGCAAAGCCATTGGATGTGGTTCATCTTTCCCCAGCTCTCAGGACTGGGGCAGAGTGCCACCTCCAAGAAATACGCAATCCGGTCCCTGGATGAGGCAACGGCATACCTGCAGCATCCTGTGCTCGGTCCGCGGCTGCTCGAATGCGCGGACGCCATTGGCACGCTCAAGGACTCGACAGCGGAGGAGATATTCGGCAGCGTCGATGCACGGAAGCTGCATTCCTCCATGACACTGTTCCTGCGCGCAGCCCCAGGGGAGACCGCCTTCAAGCAGGTGCTCAGCCGGTTCTTCGACGGAGAACCGGACCCGGCAACGGACGAACTGCTCAGGGCCCAACGGCTTCACAGCTAA	MDDPFHLERFVAAQDNGGIYDQALAELQNGRKQSHWMWFIFPQLSGLGQSATSKKYAIRSLDEATAYLQHPVLGPRLLECADAIGTLKDSTAEEIFGSVDARKLHSSMTLFLRAAPGETAFKQVLSRFFDGEPDPATDELLRAQRLHS				NA	NA	NA	NA	NA
D1-17_01752	177			hypothetical protein	ATGGGTCTGGACGACAAGATCGATAACGCAGCTGAAAAACTTGGCGGCAAGGCCAAGGAAGGCGTTGGCAGGGCGAGGGACGACGACGCCCTGGAAAGCGAAGGCAAGACGGACCAGGCCAAGGCTGATCTCAAGCAGGCCGGCGAAAAAGTCAAGGATGCATTCAAGCGCGACTGA	MGLDDKIDNAAEKLGGKAKEGVGRARDDDALESEGKTDQAKADLKQAGEKVKDAFKRD				NA	NA	NA	NA	NA
D1-17_01753	513			hypothetical protein	ATGAGCCTGCGGTTGCTTCTTGTTTCCGACACCCATGTTCCCAAGCGCGCACGCGCGCTGCCTGACGAGGTGTGGGCCGCCGTCGACGAAGCAGATGTGGTGTTCCATGCAGGTGACTGGGTCACTGCCGAACTGTTGGATGAGTTCGAGCGGCGGAGCCGATGCCTGATCGGGGTCTACGGGAACAACGACGGCGACGACCTGCGCCAGCGGTTGCCGGAAACCGCCACCGTTTTGCTCGAAGGGGTGCGCTTCAGCATGATCCATGAAACAGGCGCCGCCAAAGGACGGGAAGAGCGCTGCGAGTCGCTCTTCCCGGAATCAGATGTGGTCGTCTTCGGCCACTCCCACATTCCCTGGGATACGACGTCGGCAGGCGGGTTGCGGTTGCTGAACCCCGGCTCCCCGACGGACCGCCGCCGGCAGCCTGCCTGCACCTACATGACCGCGACCGTCGGAAACGGGCACCTGCTTGACGTGAAGCTCGTGGAGGTTGGCAGGGCTTCCCGCTAA	MSLRLLLVSDTHVPKRARALPDEVWAAVDEADVVFHAGDWVTAELLDEFERRSRCLIGVYGNNDGDDLRQRLPETATVLLEGVRFSMIHETGAAKGREERCESLFPESDVVVFGHSHIPWDTTSAGGLRLLNPGSPTDRRRQPACTYMTATVGNGHLLDVKLVEVGRASR				NA	NA	NA	NA	NA
D1-17_01754	540			hypothetical protein	ATGGGGCAGACTGGGACGATGGAAAACATCGTGCCTGCCCAGCCGGGAGATCCCCGTCGTCCACTCGGCCCGCGTGACCCGGGCGACGCCTGGGTGGAGGGGGAGCGTGGCCGGTTTTGGGGCCGCTTCGGCTCCGCTGGCCTCCTTGCCCATGACTGGGAGAAGGGCATCCTGCTGCAGCACCGCGCCGTTTGGAGCGACCATGGCGGGACATGGGGGCTGCCGGGCGGAGCACTGCACCAAGGCGAGGACGCAGTTACCGGAGCACTCCGCGAAGCCTTTGAGGAAGCTGCCGTTCCGGAACAGAACATCCGGGTTTTATTCACCTCGGTATTCGACGTCGGCTACTGGTCCTATACAACGGTGGCAGCCCGCGTGATCGAACCCTTCGAACCGGAAATAGCCGATCCCGAAAGTATTGAACTGAAGTGGATTCCGTTTGAAGACGTTCCGGGCCTCAACCTCCATCCTGCCTTCGCCGCATCCTTGCCGGCGCTCAGCGCCAAGCTGCTCGACCACGAACGGGTGGGCCCTGCATGA	MGQTGTMENIVPAQPGDPRRPLGPRDPGDAWVEGERGRFWGRFGSAGLLAHDWEKGILLQHRAVWSDHGGTWGLPGGALHQGEDAVTGALREAFEEAAVPEQNIRVLFTSVFDVGYWSYTTVAARVIEPFEPEIADPESIELKWIPFEDVPGLNLHPAFAASLPALSAKLLDHERVGPA				NA	NA	NA	NA	NA
D1-17_01755	354	dksA		RNA polymerase-binding transcription factor DksA	ATGATGGATTGTGAGCGGTTCCGGCTCCTCTTGGAGGAGGAACGCGAACGGAAAATCGCGCTCCTGCCCGCGCTCCGGGCAGACATCGTCTCGGCCAACGCTGCCCGGCAAAACTCCAACGTGGACGATGAACACGACCCGGAGGGAGCCACCATCGCTTTCGAACTTTCGCAGGCTTCGGCCCTGCTAGACCAGAGCAGCTCTGGCCTGGCCCACATCGAAGCAGCGCTGGAGCGGATCGCAGCAGGCACCTACGGCTCGTGTGCCGTATGCGGGCAGCAGATTGCGGAGGGTCGGCTTGAAGCACGGCCGTGGACACCGTTCTGCATCCTGCACGCCAGAGGTCAGGCCTGA	MMDCERFRLLLEEERERKIALLPALRADIVSANAARQNSNVDDEHDPEGATIAFELSQASALLDQSSSGLAHIEAALERIAAGTYGSCAVCGQQIAEGRLEARPWTPFCILHARGQA	PGPT0014560_3353	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0014560-dks-K06204	NA	NA
D1-17_01756	189			putative protein	ATGGAGGCAGCCCAGGGAGACCGCATCATCATTCGGGGCCGGACCGTAGAATCCTCGGACCGGCACGGCGAAATCCTGGAAGTCCGCGGCCCGAACGGAACCCCGCCGTACCACGTCCGCTTCGACGACGGCCACGAGACCATCCTGTATCCCGGCGGCGATTTCACCGTCGAGCGCCATACCACGTAG	MEAAQGDRIIIRGRTVESSDRHGEILEVRGPNGTPPYHVRFDDGHETILYPGGDFTVERHTT				NA	NA	NA	NA	NA
D1-17_01757	705			hypothetical protein	ATGCGAGTAATTAGCTACAACCTCCGCAAGCACAAGGCGAGCGGAGAACTGGTCAACCTGGCCCGCAATTTCGGCATTGATGCACTATGCCTGCAGGAATGTGATTCCACGGACCTGCCGGACACCCTCGGGCCCCTGCACCTGGCCGACTTCACCAAGGGCAATCGGCTCGGCCTGGCAATCTATTACCGCACCGAGCGGTTCACCGCGCTGGAAACCAAGGCCTTCGCGCTGAAGAAGTCCATGCACGACCGCGTCATGGCCCCGGCCCACGAACGCCTGATCGGCACGCGCGTGGTGGATAACGAAACCGACCACGAGCTGGTTATCGGCTCCTTTCATGCCGCGCCACTGACCGCCTCGAATGCCCTGCGGCGCAAACAGATCCATGCCGCGCACGCGGAGCTGCTGAGCATGGGCAGCGGGCTCATGACGCTGATGGTCGGAGACTTCAATTACCCGTTCTTCACCAAGAGCTTGCACGCCCACATGCGGGATTCCGGCTATGCCCTCTCGCTCAGCGACCGCAGAACATACACGCGGTACAAGGTATTCAAAGGGCACTTCGACTTCGCCACGTCCCTGGGACTCGACATCGAAAGCGTTGAGACGCTGCCCCGCGGCAAGTCGGATCACCTGCCGATCCTGGTCACTGCCGAGTACGGTCAGGACCGCTCACCGATCAAGGGCCAGCCCGTTTCCTAA	MRVISYNLRKHKASGELVNLARNFGIDALCLQECDSTDLPDTLGPLHLADFTKGNRLGLAIYYRTERFTALETKAFALKKSMHDRVMAPAHERLIGTRVVDNETDHELVIGSFHAAPLTASNALRRKQIHAAHAELLSMGSGLMTLMVGDFNYPFFTKSLHAHMRDSGYALSLSDRRTYTRYKVFKGHFDFATSLGLDIESVETLPRGKSDHLPILVTAEYGQDRSPIKGQPVS				NA	NA	NA	NA	NA
D1-17_01758	285			hypothetical protein	ATGGTCAAGGCAGTCTGGAACGGTGCCGTTATTGCGGAAAGCGATACAACGGTGAAGGTGGAGGGGAACCACTACTTTCCCAAGTCCTCCGTCAATCCGGATTACCTGGAGGACAGCGCCCACCACACGACCTGCGGCTGGAAAGGGGAAGCGAGCTATTACACCCTCGTGGTCAATGGCCAGCGGAACCAGGATGCGGCCTGGTACTACGCCGAGCCCAAACCCCGCGCGGAGCAAATTCGGAAACATGTTGCCTTCTGGCACGGGGTGGCCATCGAGGAATGA	MVKAVWNGAVIAESDTTVKVEGNHYFPKSSVNPDYLEDSAHHTTCGWKGEASYYTLVVNGQRNQDAAWYYAEPKPRAEQIRKHVAFWHGVAIEE				NA	NA	NA	NA	NA
D1-17_01759	804			hypothetical protein	TTGACTGCTGCTCTGCCCGAACTCGCCGAAGGCGATTTCTATTACCAGGACCTGGGCCGGGGCCGCTTCCGCTCCACCATCCATGCCCAGGGTGCGTGGAACGAGCACGAACAGCACATGGCGCCCGCGTCAGGGCTGCTCGCAGACCGGTTGGAACGGCATGAGCCCCGCCCCGACATGCGCATGGCGCGCCTCAGCTACGAAATCCTGGGCCTGATTCCCGGCGGCGAATTCAACATCACGACCACCACGCTCCGGCCGGGCCGGACCATTGAACTCCTGCAGGCGGAGCTGGTGTCCGCAGGGCGGGCCATCATCCGCGCGACGGCCTGGCGGATGATCACGAGTGACACCTCCGCCGTTGCCGCCGTCGAGGACGTCCCCATTCCGTCGCCGCAAGACTGCAAGCCCTACGACGCTGCAAGCGTGTGGCCCGGCGGGTACATCGGCTCCTTGGAGATGCGGGTGGCGGAAGGGCACCGGCCGGGGGCCGGGAAGGTCTGGATGCGCACCGACCACCCGCTCACGGACGCGGCGGACAGCACGGACATGGCCCGTCTGATTGGATTGGTGGACACGGCGAACGGCATCGCCGCGCGGGTTCCGCCGGGCAAGGGCAGCTACGCCTTCCCCAATCTGGACCTGCAGATCCACATGTACCGGCGGCCGGTGGGCGAATGGCTGGGGCTGGACAACGCCGTGTCGTTCGGCGCGGACGGGATCGGACTCACTTCGACTGTGCTCCACGACCTTGACGGGCCGTTTGGCCGCGCGGAACAGATCCTGACTCTGCGGAGGAGCTGA	MTAALPELAEGDFYYQDLGRGRFRSTIHAQGAWNEHEQHMAPASGLLADRLERHEPRPDMRMARLSYEILGLIPGGEFNITTTTLRPGRTIELLQAELVSAGRAIIRATAWRMITSDTSAVAAVEDVPIPSPQDCKPYDAASVWPGGYIGSLEMRVAEGHRPGAGKVWMRTDHPLTDAADSTDMARLIGLVDTANGIAARVPPGKGSYAFPNLDLQIHMYRRPVGEWLGLDNAVSFGADGIGLTSTVLHDLDGPFGRAEQILTLRRS				NA	NA	NA	NA	NA
D1-17_01760	774			hypothetical protein	ATGACCTTGAGGGAGCTTAGCGAGATGCAGCAGGCCGCGACCGGAGCCCGGACCCTGACGGTTGTCCGCCAGCACACTTCATTGGGCGCGGCACCGGACCTGGACTTCGGGATTGAGCTGCTGGGATTGGCCAAGACCGGGCAGATCGGACCGACCCTGCGGCTGTACCGCCCGGCAGCCACCGTTGCCTTCGGCCAGCGCGACGCACACTTGCCCGGGTTCGAAAGCGCTGCCCAGGCATGCAGGGAACTTGGCTTCGAGCCGCTCGTGCGCAAGGCCGGGGGGCGGGCCGCCGCCTATCACGAGGGAACGCTGATTGTGGACCACGTGGAGCCCCAAGCTGACGCCATCGCGGGCGCCAAGGGCAGGTTTGCGTTCTTCGGGGACATGCTGGCAGAAGCGCTGCGCAGCATCGGCGTTCCGGCCGCCGTCGGCGAGATCCCGGGGGAGTACTGCCCGGGCGAGTTCAGCGTCCACGGTATGGACCCGCAGGACCCCGCTCACCGCATCAAACTGGTAGGGACAGCCCAACGCGTCGTATCCGGGGGCTGGCTGTTCAGCTCGGTCATCGTCGTGGAAAATTCGGCACCCATCCGCAACGTCCTCACGGCCAGTTATGCTGCGCTCGGGCTTGACTGGGATCCGGCCACCGCCGGCGCGGGGAACGATCTCGTGCCGCAGGTGGACGTGCAGGCCGTTGAGGACGCGGTCATCAGCACGTACGGGAAATATGCGTCGCTTTCGGACGCGGACTTCAGCAGCCTGCGCCGGTAA	MTLRELSEMQQAATGARTLTVVRQHTSLGAAPDLDFGIELLGLAKTGQIGPTLRLYRPAATVAFGQRDAHLPGFESAAQACRELGFEPLVRKAGGRAAAYHEGTLIVDHVEPQADAIAGAKGRFAFFGDMLAEALRSIGVPAAVGEIPGEYCPGEFSVHGMDPQDPAHRIKLVGTAQRVVSGGWLFSSVIVVENSAPIRNVLTASYAALGLDWDPATAGAGNDLVPQVDVQAVEDAVISTYGKYASLSDADFSSLRR	PGPT0003940_477	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003940-lipL-K16869	NA	NA
D1-17_01761	567			hypothetical protein	TTGGACGCATTGGCCGGCATCAGCAGCGATGGGCTTCGCATCCTTCCGTGGGTTGCAGCCATTGCCTTCGCGCTGGTGGCGGCCGTTTGGCGTCCGCGCAGGTTTCACTTGACTGCCCTGGGTGCCGTTCTGCTCTTTGCCGCCCTCAATGCAGGCGCCGGCGTCTACGTCCTGAATCACGTTGGTGATGCCCGCTGGTCCCCAAGTGGAGAGTCACGGCTGAGCGCGCCGTCGTTCTCCGGGGCACCGGTGGTGGGCCAGTTTTTGGGCCCCCTCGACGCTGCCATGAACGGAGTGGTCGGCGGAGTGAATGACTTCCTGGCGTTCAAGCAGGCCCTTCCAGTGGCGCTGGACTTTTTTGCCGCTGCCGGCTGGTCCCTGCTGGTGTCGTTCCCGCTGGCCATTATCGCCCTCGCCGTCAGTTATGCCGCGGCCAGGCGCCGGCGGGCAGAATTCGAAGACTATCGGGCCGCCGTCGACCTGCTGAGAGGCGAGGTAGAGCTGCTCAAGCGGCAGATCCCCTCGGGGAATTCGGTCGATACAGCACACCGCGCGGAGGACGATTAG	MDALAGISSDGLRILPWVAAIAFALVAAVWRPRRFHLTALGAVLLFAALNAGAGVYVLNHVGDARWSPSGESRLSAPSFSGAPVVGQFLGPLDAAMNGVVGGVNDFLAFKQALPVALDFFAAAGWSLLVSFPLAIIALAVSYAAARRRRAEFEDYRAAVDLLRGEVELLKRQIPSGNSVDTAHRAEDD				NA	NA	NA	NA	NA
D1-17_01762	621	argO	COG1279	Arginine exporter protein ArgO	GTGGAAACTACTGGAACCCTTGGCGCCCTGGTCACCGGCTTTGGCGCAGGCCTTTCTCTTATCATCGCCATCGGCGCACAAAACGCCTTCGTCCTGCGCCAGGGGCTGCGGCGTGAGCACATGCTGCCCATCGTGGCAGTGTGCATCGCCAGTGATGCGCTCCTGATCGCAGCAGGCGTGGCGGGGGTGGGCGCGCTCATCGAGTCAGCGCCGCTGGCGCTGACTGCTGTGCGCTGGGCCGGCGCCGCTTTCCTGCTCGCGTACGCGCTTTTTGCGGCCCGCCGGGCGCTGAAGCCCGGTTCCCTGACGGCGGCGGCCGCTTCCGCATCCGGCACCCTGGCCGCTGCAGTGGGAACCGCCGTCGCACTGACCTGGCTGAACCCGCACGTCTATCTGGACACCGTGGTACTGCTGGGTTCGCTCGCGGCCGACCACGGCGATGATGGCCGATGGCCGTTTGCCTGGGGAGCGATAGCCGGCAGTACGGTCTGGTTCAGCCTGCTCGGATTCGGCGCCAGGTTCCTCGCCCCGGTCTTTGCGCGGCCCGGAGCCTGGCGGATTCTCGACGGCGCCATCGCCGTCCTGATGACAGTGTTGGCCGCTTTCCTTCTGGTTCCCTGA	METTGTLGALVTGFGAGLSLIIAIGAQNAFVLRQGLRREHMLPIVAVCIASDALLIAAGVAGVGALIESAPLALTAVRWAGAAFLLAYALFAARRALKPGSLTAAAASASGTLAAAVGTAVALTWLNPHVYLDTVVLLGSLAADHGDDGRWPFAWGAIAGSTVWFSLLGFGARFLAPVFARPGAWRILDGAIAVLMTVLAAFLLVP	PGPT0020651_1114	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020651-lysE|argO-K06895	NA	NA
D1-17_01763	882		COG0583	putative HTH-type transcriptional regulator	ATGGACGCGACCACCGAGCAGCTTAGGACATTGGTGGCAGTGCTGGACCACGGGACCTTCGACCGTGCAGCCGCAGCACTGCACATCACGTCCTCCGCCGTCAGCCAGAGGATTAAGGCGCTGGAGCAGCAGACCGGGCGCGTCCTGCTGCTGCGGACGAAGCCAGTCCGCCCTACGACGTCGGGAAGCGTGGTGGTCCGTCTGGCCCGCCAGGTGGCACTGCTGGAGAGCGAGGCGATGAATGAGCTGGGGCTGGAAGGGGCAGGCGCCCGTCCGCGCATACCGCTCGTCATCAACGCGGACTCCCTCGCCACCTGGGTGCTGCCGGCTTTGGCGGGAGTGGAACGCGCGAGCTTTGAGATCACCATCGATGACCAGGACCACTCCATCGACCGGCTCAGGGACGGCACGGCGATGGCGGCGATCACCTCGGACTCTGTGCCTGTCCAGGGCTGCACGGTCCGGCCGCTGGGCGTCATGCGCTACCGCGCCGTGGCCAGCCGCACCTTCGTGGAGCAGTGGATGCCGTCAGGGTTTGGCGATGAAGCATTGTCCCAGGTGCCGGTGGTGGTTTTTGACCGCAAGGATGCGCTCCAGGACCGCTACCTCGAGGGCCGGCTGGAGCCAGCAGCGAAGTATCCGCCACGGCACTACGTTCCGGCATCCTCGGATTTCATGCGGGCGATCGAACTCGGGCTGGGCTGGGGCATGCTGCCCGACCTTCAGTCCCGGCCGCTTCTCGACGCGGGCACCCTCGCCGTCCTCGACAACAAACTGCATGTGGACGTTCCGCTGTACTGGCAGCAGTGGTCGATCGAATCAGCGACGCTTAAACATGTAGCCACCGCCTTGGAGAAGGCGGCGGCTACATGTCTGCGCTAA	MDATTEQLRTLVAVLDHGTFDRAAAALHITSSAVSQRIKALEQQTGRVLLLRTKPVRPTTSGSVVVRLARQVALLESEAMNELGLEGAGARPRIPLVINADSLATWVLPALAGVERASFEITIDDQDHSIDRLRDGTAMAAITSDSVPVQGCTVRPLGVMRYRAVASRTFVEQWMPSGFGDEALSQVPVVVFDRKDALQDRYLEGRLEPAAKYPPRHYVPASSDFMRAIELGLGWGMLPDLQSRPLLDAGTLAVLDNKLHVDVPLYWQQWSIESATLKHVATALEKAAATCLR				NA	NA	NA	NA	NA
D1-17_01764	258		COG0695	Putative glutaredoxin.1	GTGGACTTCACCCCCGAAGACGGCACCATCACCATGTTTTCCACCACCTGGTGCGGCTACTGCAACCGACTCAAGAAGCAGCTGGATGCCCAGGGAATCGGCTATACCGAAATCAACATCGAAGAAGTAGAGGGCACCGCCGACCTCGTCGAGCAGATCAACGGCGGCAACCGCACGGTTCCCACCGTCCTCTTCCCGGACGGGACGGCAGCAACGAACCCTTCGGCAGCCGAGGTCAAGAGCCGCCTTGCCGCGTAG	MDFTPEDGTITMFSTTWCGYCNRLKKQLDAQGIGYTEINIEEVEGTADLVEQINGGNRTVPTVLFPDGTAATNPSAAEVKSRLAA				NA	NA	NA	NA	NA
D1-17_01765	732	yedK	COG2135	SOS response-associated protein YedK	ATGGCCAGGGCTGTCGGGGACCTGCTGGCGGAATTTGACGCTGAACTCGAGAACGACGTCCAAATACCGCCTTCGTGGAACATCGCTCCGACTGACGATGCCCCGATCGTCCTCGAAAGGCTGACCGACGCGGCCCCGGTCCGCCAGCTGCACGTCGCCCGCTGGGGTCTTGTCCCTTCGTGGGCAAAAGACCTCCGGGGCGGGGCGAAGATGATCAACGCCCGGAGTGAGACCGTGCTGGAGAAACCCGCGTTCCGGAAGGCGGTGCAGTCGCGCCGCTGCGCTGTGCCGGCCGACGGCTATTACGAATGGAAGCAGGGTGACGGTCGTAACAAGCAGCCCTACTACGTCCACCCGCGGGACGGGTCCGTCATGGCGTTTGCCGGACTCTACGAGTGGTGGAAGGACCCGTCCGTACCGCCGGGGGAACCCGGCCAGTGGATGCTTTCGATGTCCATCATGACGGCGGACTCCCCGCCGGCAGGTGCTGAGGGCACGATCTTCGCAGAGCTTACCGCGCTGCATGACCGGGTGCCGCTGCCGATGGGCCGGGACACGATGTCCGCCTGGCTGGACCCGCAGGTGGATGATGCTGCGGGCCTCGTGGATCTCGTGCGCTCGGGCGTGAAGGAGGTCGCGGCCGGCTGGCGGGTGGATTCCGTGGGCCAGGCTGTGGGGAACGTACGCAACAATTCGCCCGAACTCATCGAGCCGGTTGCGGCTCTCTTCTAG	MARAVGDLLAEFDAELENDVQIPPSWNIAPTDDAPIVLERLTDAAPVRQLHVARWGLVPSWAKDLRGGAKMINARSETVLEKPAFRKAVQSRRCAVPADGYYEWKQGDGRNKQPYYVHPRDGSVMAFAGLYEWWKDPSVPPGEPGQWMLSMSIMTADSPPAGAEGTIFAELTALHDRVPLPMGRDTMSAWLDPQVDDAAGLVDLVRSGVKEVAAGWRVDSVGQAVGNVRNNSPELIEPVAALF				NA	NA	NA	NA	NA
D1-17_01766	378			hypothetical protein	GTGGCCGCCTCCCGCCGCTTCTATGTTGAGGGTCTCGGGTGGCCGGTCCACCGGGAATTCCCGGAGGTGGTGTTCATTCAGGCCAATCACGGACTCATGCTCTCGCTCTGGGAGGTCGGCCAGATGCAGTCCGAAGCCGGCGTCGATGCTCCCGGCCCTGTTCCCTGCATCACGCTCAGCCATAACGTCGGAAGTGCTGCCGGCGTCGATGAGGTGATGGCAGAAGCGGAGGCCGCAGGTGCCGCCATCGTATCCCCTCCGAAAACGCAGCCCTGGGGCGGCTACACGGGCTATTTCGCCGATCCGGACGGCTTCCGGTGGGAGATTGCGTTCAACCCCACATGGTCGGTGGACGACGGCGGCCGGGTCACCGTCTGA	MAASRRFYVEGLGWPVHREFPEVVFIQANHGLMLSLWEVGQMQSEAGVDAPGPVPCITLSHNVGSAAGVDEVMAEAEAAGAAIVSPPKTQPWGGYTGYFADPDGFRWEIAFNPTWSVDDGGRVTV	PGPT0028555_837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028555-putative_fosB-K07032	NA	NA
D1-17_01767	327			hypothetical protein	ATGGACATGCCCACAAATCACGGAGACGATAAAAGCGCCCAGGCTGACAGGGAACAGCTCGCCGCTGTCCGGATCGCCGTGGATGAGGTGGATGACCAGATCGTCACCCTGATTGCACGGCGCGAGCGCCTGATCAGGATCGCGGGAACGCTGAAGGGCGATGACGCTGAAGTGCGGGCTCCGGGGCGGGTGGAACGCGTGATTGAACATGTCCGTTCCGCCGCGGAGAAAAAGGAAATTGACCCGGACATCGTCGAAAGCACCTACCGGGCGATGATTTCGAAGTTCATCGAACTCGAGATGAAGATCCACAACGAAAACAACTGA	MDMPTNHGDDKSAQADREQLAAVRIAVDEVDDQIVTLIARRERLIRIAGTLKGDDAEVRAPGRVERVIEHVRSAAEKKEIDPDIVESTYRAMISKFIELEMKIHNENN	PGPT0003065_122	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003065-pchB|pmsB-K04782	NA	NA
D1-17_01768	387			hypothetical protein	ATGAGTTCCAATGACGCACTCCTGAAGCACGTAAGCATCGCCGCCGAAGACAGCGATTTGGTGGCCACCTTCGATATTGACGGCAATATTCCAGGATCGGGCGCCTTCGTCGTGGGGCTCGTCGCTGCAACTCCGGACTACTCGCATCAACGGAGGCTCGGAATAGAGTTCATGAATGGCGAAGCCGTGTCCATGTACGCCTTCAGCCATGACGGCACCGAGGAAAACTTCGACCTCAAGAGCGTCGAGCACTCGGGCAGCACCATCACGGGCAAGTTCCCCATGAGCACCGTGCTCGGCCTTGAGAAGGGCCACCTGATGTCAGCCTTCAGCGAGGCCGACGGCCGTGAATTCCAGTCAGGCGTGCCGGTAGAGGAATCGCTTTAG	MSSNDALLKHVSIAAEDSDLVATFDIDGNIPGSGAFVVGLVAATPDYSHQRRLGIEFMNGEAVSMYAFSHDGTEENFDLKSVEHSGSTITGKFPMSTVLGLEKGHLMSAFSEADGREFQSGVPVEESL				NA	NA	NA	NA	NA
D1-17_01769	3627	dnaE	COG0587	DNA polymerase III subunit alpha	ATGAGTTTCACGCATCTCCACGTTTCCACCGCCTTCAGCGCCCATTACGGGGTCTCCTGGCCTGATGAGCTGGCCCAGTCAGCGGCCGCCGCCGGGGCCACCGCCCTTGCCTGCACCGACAGGGACGGGCTGTATGGAACGGTAAAACACCTCAAGGCCTGCATGGCTGCCGGGATTGACCCCGTTATCGGAGTGGACCTTGGCGTGTATGACGACGGCGCAGACCTGCGCAGCTCGCCCGGCGGCCGCGTCGTGGTGCTGGCGCATGGGCACACCAACGGTGCCGGATACAGGGCGCTCTGCCGGCTGATTTCGGATGCACATGCCCGCACCACGGGTAAGGCCGGGGGAGCAGTGCCCGTTGCCGTGACCCGGGCGGAACTGGCATCAAGGGTCCTTGACCCCGCAACCCTCAAACCTGTCCTCACCGTGCTTGTCGGTCCTGATTCCGACGTGGGCCGTGCCATGGGTGGCCGCCGTTACCTCCGGCCCCGCACCCTGTTCAAGGGCTGGCTGGATGCCCTTCCGGCCGGAAGCATCGTTGCCGAAGTCGTCTCCCACCTCAGCCCTCCGGGACAGGCGCTCAGCACGGCGCACGCCGTCCGCATGCTCAAACTTGCCCAGGAGTTCGGGATTCCTGCCGTTCTGACCAACGCCGTCAGATACTGCGCAGAGGACGGAGCAGCTACTGCCGACGTTCTGGATTCAGCACGCACCCTCAAATCGTTGCCCGAGCTCTCCGCCGCTCCGCTGCTCCAGCCCACCGGGCAGGGATGGCTGAAATCGCCTGGACAGATGCTGCAGCTGGCAAAGGAGATCATTTCCGCCGCCGGATACAGTGCAGCCGACCTCCAGGTGCTGCTCGCGCAGACGGAGGCGCTCGCGGACCGCTGCAGGGTGGACCCCGCAACGGATATGGGATGGAAGCAGCCGGTGGTTCCGGAAGCATCGGTGATTGGCATTGAAGGAGATCCCCTGGCGGAGCTGGTGCAGCGGTGCGAGGCCGGTGTATCGCGCCGGTTCCCCGGGATCTCCGGCCAGGCGGAGGCTGACATGCGCGCCCGGCTCGAGCACGAACTGAAGATCATCTCCAACCTTGGCTTCGCTTCCTACTTCCTGACTGTGGCGGAAGTGTCGCGGATGATCCTGGACATGGGAGTCAGGGCAGCCGCCAGAGGATCCGGCGCTTCAAGCCTGGTCAATTACCTGATCGATGTCAGCCAGGTGAACCCGCTGCAGCATGACCTGATTTTTGAGCGGTTCCTGTCGCAGGACAGGTCCACCCTGCCGGACATCGACATTGACGTCGAAAGCGCAGAGCGGCACAACGTTTACCGGAAGATCTTCGACCGTTTCGGGTCCCAGCGCGTGACTCTCATGAGCATGCAGAACGGATACCGGGCACGGGGTGCCGTCCGCGACGCCGGAATGGCGCTGGGCATGGACGAAAACGATGTTGGTGAAATCGCCAAGCAGCTCTGGCGTTTCTCAGCCCGCAAGTTTCGGGAAGCGCTCGAGGAAAAGCCTGAGCTTCGTGAATTTGCGGACCGGTTGGAACAAAGGGATTATTCCGGCAACCAGCAGCTGGATCTGCTCGTTGACCTCACCGAGCGCCTTGACCGGCTGCCTCGCCACATTTCGATGCACCCATGCGGGGTGATCCTGGGAGATGCCACCCTCCTGGACAGGACGCCCGTCCAGCCCAGCGGGCTGGGACTGCCCATGAGCCAGTTCGATAAGCACGACATGGACCCGATGGGCATGCTCAAACTGGACGTGCTGGGTGTCCGGATGCAAAGCGCCATGGCGTTTGCGGTACGGGAAATCATCCGCATCCACCCGTCCAAGGCCGAGGTGGTGTCAGCGGGCGCGCATCCCACCCGGCCGGACGGCACGGGACCTGACTACATCAGCGACAATGGCTTCATCGACCTGAACGCGGTACCGCTGGATGATGAGCCCACGTATGAACTGATCCGGAGTACCCACACGCTGGGCTGCTTTCAGATCGAGTCACCCGGCCAGCGCGAACTTGTGGGCAAATTGGCGCCCCGGGAATTCAACGACCTCATCATCGATATTTCCCTCTTCCGGCCGGGTCCCATGAAATCTGACATGGTGCGGCCGTTCCTGGAGCACCGGCACGGCTTTGCCCCGGAGGTCTACCCGCATCCGAACCTCAAGCCCGTGCTGCAGGAGACCCACGGGGTGACCGTGTTCCACGAACAGATCCTGAGGACCTTTGACGTGATGACGGGCTGTGGACTGGCGAAGGCTGACGAGTTCCGCAGGGCGTTGAGCAACGAGGTCATGGAATCCCAGGTGGAGGAGTTTTTCCGCCGTGAGGCCAAAGCCAAGGGGTATTCGCCGGGCGTGGTCGACAAAGTATGGGGGACCTTGAAATCGTTCGCCAGCTTTGGCTTCTGCAAGGCGCATGGCGCGGCCTTTGCCGTACCCACGTACCAGTCGGCCTGGCTGAAAGCACATCATCCGGAGGCATTCCTTGCCGGACTGTGGGAGCACGATCCCGGCATGTATCCCAAGCGTCTCCTTGTCGCCGAGGCCCGCCGGCTCGGCATCCCCATTCTCCCGCTGGACATTAACCTCAGCGGGGATGAATACCGGGTGGAACGGGTCGGCGAGGGCCGGGACCGCGGAAAACTTGGGATCAGACTGAGCCTGAAAGGTATATACGGCCTTTCAGGGGCTGAATTAAAGCGGATTGTGGCAGGGCAGCCCTATGACTCCCTGGCGGATCTCCGGGCACGGGCACGGCTGACGAAACCGAGCATCAGAAGGCTCGCCCAGCTGGGCGCCTTCGACTCCCTGCACCGGGAGTCAGGTGGAGCCGCCAATAGGGCCGACCTTGTCCAGCACCTTCAGAACCTGCAGACCGGCCAGTCCAAAAAGGGGACAGAGATCATTGAGGGCCAGCTGGCCCTGCCCCTGGGTGATGTCGAGCTGAGGAACGTCAAGGCAGAACTCCCGCCGCCAACATTGGTCGAGAATGTCCGGGCTGAACTGGACCTCATGGCCGTGGACGTCAGCGAGCATCTGATGGCCAGCCACCGCCCCCTGCTGGACAAGCTAGGCGTCACCACCGCGGACAAACTCCTGGGTTTGAGGAACGGCACCGAGGTTTTGGTGGCCGGAGTGCGTGTTGCCACCCAGACTCCGCCCATGCGCGGGGGCAGAAGGGTGGTGTTCATCAGCATCGACGACGGCACCGGGTGCGTGGACTCAGTGTTCTTCCATGAGGCGCAGGAACTGGCGGGACCCCTGCTGTTCGGGACCCGGCTGCTCCTCATCCGCGGAACCACCAGGAGAACCGGTCCGCGTGGCATCAGCCTCAGCGCCAGCATGGCCTGGGATCTCAGCAGGGTCGAAAGCCTGCCCTTCCCGGAAGATTCCTTCCCGGCAAACTCCTCCCGGGAAAACCCCTCTCCGGAAAACCCCTCTCCGGAAAACCCCTCTCCGGAAAACACAGTTCCCTCCCGGGATGATTCCGGTAACGGGCCGGACAACGGAAAACTGCACCCCGGTACCGTCATTCCCGAAGAGTTCCGGAGCCCCGGCCCGCTGAGCGGAATCGGCCGGAACCTTGCCATCACCGGGCTGAGCGGATGA	MSFTHLHVSTAFSAHYGVSWPDELAQSAAAAGATALACTDRDGLYGTVKHLKACMAAGIDPVIGVDLGVYDDGADLRSSPGGRVVVLAHGHTNGAGYRALCRLISDAHARTTGKAGGAVPVAVTRAELASRVLDPATLKPVLTVLVGPDSDVGRAMGGRRYLRPRTLFKGWLDALPAGSIVAEVVSHLSPPGQALSTAHAVRMLKLAQEFGIPAVLTNAVRYCAEDGAATADVLDSARTLKSLPELSAAPLLQPTGQGWLKSPGQMLQLAKEIISAAGYSAADLQVLLAQTEALADRCRVDPATDMGWKQPVVPEASVIGIEGDPLAELVQRCEAGVSRRFPGISGQAEADMRARLEHELKIISNLGFASYFLTVAEVSRMILDMGVRAAARGSGASSLVNYLIDVSQVNPLQHDLIFERFLSQDRSTLPDIDIDVESAERHNVYRKIFDRFGSQRVTLMSMQNGYRARGAVRDAGMALGMDENDVGEIAKQLWRFSARKFREALEEKPELREFADRLEQRDYSGNQQLDLLVDLTERLDRLPRHISMHPCGVILGDATLLDRTPVQPSGLGLPMSQFDKHDMDPMGMLKLDVLGVRMQSAMAFAVREIIRIHPSKAEVVSAGAHPTRPDGTGPDYISDNGFIDLNAVPLDDEPTYELIRSTHTLGCFQIESPGQRELVGKLAPREFNDLIIDISLFRPGPMKSDMVRPFLEHRHGFAPEVYPHPNLKPVLQETHGVTVFHEQILRTFDVMTGCGLAKADEFRRALSNEVMESQVEEFFRREAKAKGYSPGVVDKVWGTLKSFASFGFCKAHGAAFAVPTYQSAWLKAHHPEAFLAGLWEHDPGMYPKRLLVAEARRLGIPILPLDINLSGDEYRVERVGEGRDRGKLGIRLSLKGIYGLSGAELKRIVAGQPYDSLADLRARARLTKPSIRRLAQLGAFDSLHRESGGAANRADLVQHLQNLQTGQSKKGTEIIEGQLALPLGDVELRNVKAELPPPTLVENVRAELDLMAVDVSEHLMASHRPLLDKLGVTTADKLLGLRNGTEVLVAGVRVATQTPPMRGGRRVVFISIDDGTGCVDSVFFHEAQELAGPLLFGTRLLLIRGTTRRTGPRGISLSASMAWDLSRVESLPFPEDSFPANSSRENPSPENPSPENPSPENTVPSRDDSGNGPDNGKLHPGTVIPEEFRSPGPLSGIGRNLAITGLSG				NA	NA	NA	NA	NA
D1-17_01770	2010	thrS	COG0441	Threonine--tRNA ligase	GTGTCAGATGCCCAGCAGATCACCCTCATCGTCGATGGCGAAGAGATGAAGGTGACTACCGGGACCACCGGCGCGGAGCTCTTCTTCGACCGCCGCGAAGTCGTTGTAGCCCGCATTGACGGCGTGCTGAAGGACCTTGACCAGCCGCTTCCCGAAGGTGCTGAAGTCGAGGGGGTCACCATCGACTCCCCGGACGGCCTCAATGTCCTGCGCCACTCCACCGCCCATGTCATGGCCCAGGCGGTGCAGCAGCTGCGGCCCGACGCGAAGCTCGGCATCGGCCCCTACATCACGGACGGCTTTTACTTCGACTTCGACGTGGCGGAACCCTTTACTCCGGAAGACCTCCGGCAGCTCGAAAAGATGATGCTCAAAATCGTCAACCAGAACCAGAAGTTCGTGCGGCGCGTTGTGTCCGAGGACGAGGCCCGCGAAGCCATGAAGAACGAGCCCTACAAGCTGGAACTGCTGGGCAGGAAAAACGATGCGGCAGAGGCCGGCGAAGGCGTCAGCGTCGAGGTCGGTGCCGGGGACATCACCATTTACGACAACATTGACCGCAAGAGCGGTGACAGCGTCTGGTGCGACCTGTGCCGGGGCCCGCACCTGCCCAACACCAAGCTGATCTCCAACGCCTTTGCCCTGACCCGCTCCTCCGCCGCCTACTGGCTGGGCAACCAGAACAACCAGCAGCTGCAGCGCATCTACGGCACGGCCTGGCCCACCAAGGACGCACTGAAGGCCTACCAGGAGCGCATCGCTGAAGCCGAGCGCCGTGACCACCGCAAGCTTGGCGCCGAGCTGGACCTGTTCTCGTTCCCGGATGAGCTGGGTTCCGGCTTGCCGGTATTCCACCCCAAGGGCGGCATCATCCGCAAGGCCATGGAAGACTACTCGCGCCAGCGCCACGTGGACGCCGGCTACGAGTTCGTCTACACGCCCCACATCACCAAGGGCCACCTCTACGAAGTCTCCGGGCACCTTGACTGGTACAGGGACGGCATGTTCCCCGCAATGCACATCGACGCGGAGCTCAATGAGGACGGAACGGTGCGCAAGCCCGGCCAGGACTACTACCTGAAGCCGATGAACTGCCCCATGCACAACCTCATCTTCCGCTCCCGCGGACGCTCCTACCGGGAGCTCCCGCTGCGGCTGTTCGAATTCGGCTCGGTCTACCGTTACGAGAAGTCCGGCGTTGTGCACGGCCTGACCCGTGTCCGCGGGATGACACAGGACGACGCCCACATCTACTGCACCCGCGAGCAGATGAAGGACGAGCTCACCACCACGCTGAACTTCGTCCTGGGCCTGCTCAAGGACTACGGGCTGGATGATTTCTACCTGGAGCTGTCCACCAAGAACGAGGACAAGTTCGTCGGCGACGACGCCACCTGGGAGGAAGCCACCCGCACTCTGGCTGAGGTAGCGGAAGCCTCCGGGCTGGAGCTGGTGCCGGATCCCGGGGGTGCTGCGTTCTACGGCCCGAAGATCTCGGTCCAGGCCAAGGACGCGCTGGGACGTACGTGGCAGATGTCCACCATCCAGCTCGACTTCAACCTGCCCGAACGCTTCGAGCTGGAGTACCAGGCTGCAGACGGCACCCGCCAGCGCCCCGTCATGATCCACCGCGCCCTGTTCGGTTCGGTGGAGCGCTTCATGGGCGTACTCACTGAGCACTATGCCGGCGCCTTCCCTGCCTGGCTCGCCCCGGTCCAGGTGGTCGGGATTCCCGTGGCGGAAACCTTCAACGACTACATGTTCGACGTCGTGGACCAGCTCAAGGCTGCCGGCATCCGGGCCGAGGTAGACATCTCCTCGGACCGCTTCCCCAAGAAGATCCGCACCGCCAGCAAGGACAAGATCCCGTTCGTGCTGATCGCCGGCGGCGAGGATGCCGAGGCCGGAGCGGTATCGTTCCGCTTCCGCGACGGGAGCCAGGACAACGGCGTGCCGGTGGCCGAGGCAGTCCAGCGGATCGTGGACGCGGTCCGCAACCGGACCAGCTAG	MSDAQQITLIVDGEEMKVTTGTTGAELFFDRREVVVARIDGVLKDLDQPLPEGAEVEGVTIDSPDGLNVLRHSTAHVMAQAVQQLRPDAKLGIGPYITDGFYFDFDVAEPFTPEDLRQLEKMMLKIVNQNQKFVRRVVSEDEAREAMKNEPYKLELLGRKNDAAEAGEGVSVEVGAGDITIYDNIDRKSGDSVWCDLCRGPHLPNTKLISNAFALTRSSAAYWLGNQNNQQLQRIYGTAWPTKDALKAYQERIAEAERRDHRKLGAELDLFSFPDELGSGLPVFHPKGGIIRKAMEDYSRQRHVDAGYEFVYTPHITKGHLYEVSGHLDWYRDGMFPAMHIDAELNEDGTVRKPGQDYYLKPMNCPMHNLIFRSRGRSYRELPLRLFEFGSVYRYEKSGVVHGLTRVRGMTQDDAHIYCTREQMKDELTTTLNFVLGLLKDYGLDDFYLELSTKNEDKFVGDDATWEEATRTLAEVAEASGLELVPDPGGAAFYGPKISVQAKDALGRTWQMSTIQLDFNLPERFELEYQAADGTRQRPVMIHRALFGSVERFMGVLTEHYAGAFPAWLAPVQVVGIPVAETFNDYMFDVVDQLKAAGIRAEVDISSDRFPKKIRTASKDKIPFVLIAGGEDAEAGAVSFRFRDGSQDNGVPVAEAVQRIVDAVRNRTS				NA	NA	NA	NA	NA
D1-17_01771	588		COG0537	AP-4-A phosphorylase	GTGCAGGAGAATACGGGCGAAGGCTATCCGGGCGACGCCGAGGTGACGGACGATTTCGGCCTCGCTGGCGTACCGGACGCATTCCAGCGACTGTGGACTCCGCACCGCATGGCGTACATCAAGGGCGGGCAGCACCAGTTCAAAAACCAGGACGACTGCCCCTTCTGTGTTGCACCGAGCCGCTCGGATGAGGAATCCCTGATCGTGTACCGCGGCCGTACCAGTTACGTGGTGCTCAACCTCTTTCCCTACAACCCCGGCCACCTGCTGGTCTGCCCGTACCGGCACATACCGGACTACACGGACCTGACCGTAGAGGAGACCGCCGAATTTGCCGATCTTACTCAGACCGCCATGCGCGTGCTGCGGAAGGTCTCGAATCCCGGCGGGTTCAACCTGGGCATGAACCAGGGGGTCGTGGGCGGGGCCGGAATTGCGGGACACCTGCACCAGCACGTCGTTCCGCGCTGGGGCGGGGACGGGAACTTTTTCCCGATCATCGCCCAGACCAAGGCGATAACGCAGACGCTTGACGAGGTGCGCCAGCAGGTGGCCGACGCCTGGCCGGGGGAGACGCATGCTGAATAG	MQENTGEGYPGDAEVTDDFGLAGVPDAFQRLWTPHRMAYIKGGQHQFKNQDDCPFCVAPSRSDEESLIVYRGRTSYVVLNLFPYNPGHLLVCPYRHIPDYTDLTVEETAEFADLTQTAMRVLRKVSNPGGFNLGMNQGVVGGAGIAGHLHQHVVPRWGGDGNFFPIIAQTKAITQTLDEVRQQVADAWPGETHAE	PGPT0021690_197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710	NA	NA
D1-17_01772	621	pgsA2_1	COG0558	Phosphatidylinositol phosphate synthase	ATGCTGAATAGGCATGCGCGCGGTTTCTTCACCGCCCTGTTCTCGCCGCTCGCCCGCTGGCTGCTCAAGATGGGTGTCTCGCCGGACGCCATCACGATCATCGGCACCGCCGGTGTGGTGGTGGGCGCCTTGGTGTTCTACCCGCTGGGCCATCTCCTGTGGGGAACCCTGTTTATTACGGCCTTCGTCTTTTCCGACGTCATCGACGGCATCATGGCGCGGATGCAGGACCGGGGCGGTTCCTGGGGCAACTTCCTGGACTCCACGCTGGACCGGCTGGCGGACGGCGCGCTGTTCGCCGGCCTTGCCATCTGGTTCTTCACGGGAGGCGCCGATACAGCGATAGCCGTGGCCGCCGTCGTCTGCCTTGTCCTGGGAATGGTGGTGTCCTATGTCAGGGCAAAGGCCGAGTCCCTCGGGTTCCAGGCGAATGTGGGCATCGCGGAGCGCGCTGAACGGCTGGTGTCGGTGCTTGTCGTCACCGGCCTGACCGGACTGGGACTGCCGCCCGTCGTGCTGCTGGTGACGCTCGTGGTGCTGGCTGGCGCAAGCCTGGTCACGGTGGTCCAGCGGGTGCTGGCCGTCCGCCGCCAGGCCTGCCAGGGCACCCCGCAATCCTGA	MLNRHARGFFTALFSPLARWLLKMGVSPDAITIIGTAGVVVGALVFYPLGHLLWGTLFITAFVFSDVIDGIMARMQDRGGSWGNFLDSTLDRLADGALFAGLAIWFFTGGADTAIAVAAVVCLVLGMVVSYVRAKAESLGFQANVGIAERAERLVSVLVVTGLTGLGLPPVVLLVTLVVLAGASLVTVVQRVLAVRRQACQGTPQS	PGPT0007705_1979	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
D1-17_01773	1014	pdxS	COG0214	Pyridoxal 5'-phosphate synthase subunit PdxS	GTGTGTGCGAATTGCGGCATTCGCGTGCCGTCCGCGCCGGGCCGCGAGAGCGGATCCAGCAACATCTATCTACCCATAGGGGTTTTTGTGTCTACACCTGATGTAAGCAGCGAAGCCGGCTCGTCCGCCAACAGCGTCACGGGCAGCAGCCGTGTCAAGCGCGGCATGGCTGAGATGCTCAAGGGCGGCGTCATTATGGACGTCGTCAACGTCGAACAGGCCCGCATCGCCGAAGACGCCGGTGCCGTTGCCGTCATGGCGCTCGAACGCGTCCCGGCCGACATCCGCGCCCAGGGCGGCGTGTCCCGCATGTCCGATCCGGACATGATCGACAAGATCATTGAGGCCGTCTCCGTCCCGGTCATGGCCAAGGCCCGCATCGGCCACTTCGTCGAGGCGCAGGTCCTGCAGTCCCTGGGCGTGGACTATATCGACGAGTCCGAGGTCCTGACTCCTGCCGATTACGCGAACCACATCGACAAGTGGGAATTCACCGTTCCCTTCGTCTGTGGCGCCACGAACCTCGGTGAGGCCCTGCGCCGCATCAACGAGGGCGCGGCCATGATCCGTTCCAAGGGTGAGGCCGGCACCGGCGACGTTTCCAACGCCACCACGCACATGCGCCAGATCCGCGCCGAACTCCGCCGCCTGACCTCCCTGCCGGAGGACGAGCTGTACGTTGCGGCCAAGGAACTGCAGGCACCGTACGAACTGGTCAAGGAAGTCGCCGCCACCGGCAAGCTCCCCGTGGTGCTGTTCACCGCTGGCGGCATCGCCACCCCGGCCGACGCCGCCATGATGATGCAGCTCGGCGCCGACGGCGTGTTCGTCGGCTCCGGCATCTTCAAGTCCGGCAACCCGGCCCAGCGTGCCGCCGCCGTCGTGAAGGCCACCACCTTCTTCGATGACCCGGACGTCATCGCCAAGGCCTCCCGCGGCCTGGGCGAGGCGATGGTCGGTATCAACGTCGACGAGATCCCGCAGCCGCACCGCCTCGCCGAGCGCGGCTGGTAG	MCANCGIRVPSAPGRESGSSNIYLPIGVFVSTPDVSSEAGSSANSVTGSSRVKRGMAEMLKGGVIMDVVNVEQARIAEDAGAVAVMALERVPADIRAQGGVSRMSDPDMIDKIIEAVSVPVMAKARIGHFVEAQVLQSLGVDYIDESEVLTPADYANHIDKWEFTVPFVCGATNLGEALRRINEGAAMIRSKGEAGTGDVSNATTHMRQIRAELRRLTSLPEDELYVAAKELQAPYELVKEVAATGKLPVVLFTAGGIATPADAAMMMQLGADGVFVGSGIFKSGNPAQRAAAVVKATTFFDDPDVIAKASRGLGEAMVGINVDEIPQPHRLAERGW	PGPT0009180_143	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009180-pdxS|pdx1|yaaD-K06215	NA	NA
D1-17_01774	2013	dcp	COG0339	Dipeptidyl carboxypeptidase	ATGACCAACCCCCTGCTGACCCCCAGCAGCCTGCCGTTCGGGCTGCCCCCCTTTGCAGCCATTGAAGACGCCCATTTCGCCGAGGCGGTGGATGTGGGACTCACACAGCACCTTGACGAAATCCGGGACATTGTCGAGAACCGTGAACCGGCAAGCTTCGAAAACACAGCATTGGCCATGGAGCGCTCGGGACGCTTGCTGCAGCGTGCTGCAGCATCCTTTTTCACGCTGGTGTCGGCCGACGCCTCAGAGGCAATCCAGGAACTGGAGACCGAGCTGTCCCCGCGGTTCTCCGCGCACCAGGACGCCGTTTACCTCAACCGGGACCTGTACACGCGGTTCGCTGCCATCGATACTGCAGGCCTCGATGCGGAGTCCGCCCGCCTGGTCGAGGAATACCTCAAGGAATTCCACCAGTCCGGGATCCAGCTCGATGATGAGGGCCAGGAGCAGCTGAGGGAGCTGAACGGGGAGCTGTCACGCCTGGGCACGGAGTTTGGCCAGCGCGTCAAGGAGGCGATGAAGAAGGCCGCCCTGCTGCTGGACGATGCCTCGGACCTGGCGGGGCTGCCGGCCGATGAGATCTCCAGCGCCGCCGAGGCCGCGCGCACGGCCGGACACGAGGGAAAGTACCTGCTGACCCTTATCCAGCCGAGCAACCAGCCGGCCTTGGCGGCACTGGAGAACCGCGAGGTGCGCCGGCGTCTGTACGAGGCGTCGATTGCCAGGGGCAGCAGCGGCGGCAGCCTCGATGTGCTGGACCTGGTGAAGTCCATGGCCCGGCTGCGTGGTGAGAAGGCTGTCCTGCTGGGGTATGGCAACTATGCCGAGCTCGTTGTGGACAGGCAGACGGCACCGGACTTCGAGGAAGTCAGGTCAATGTTGAGCCGCCTGGCGCCCCCGGCCGTCCGCAATGCAGACGCCGAAGCCGCGGCCCTGGCGGAGACCGCCGGGCACCCGCTTGAGGCATGGGACTGGGCCTACTACTCGGCGAAGGTGCGGCGGGAGCGGTACGAGGTGGATGAGCAGGCCATCCGGCCCTACTTCGAACTGGACCGTGTCCTGGCCGACGGGGTGTTTTTCGCTGCCACGTCGCTGTACGGCATCACGTTCCACGAACGTCCGGACCTCGCCGGCTACCACCCGGATGTCCGTATCTGGGAAGTCCGCAACGAGGACGCCTCCGCGCTGGGCCTCTTCCTGGGCGACTATTACACGCGCGAGTCCAAGCGGGGCGGGGCGTGGATGAATTCGCTGGTTGAGCAGTCCGATCTCCTGGACGAGCGGCCGGTGGTGATCAACAACCTCAACATCTCGAAGCCGCCCGCGGGTGAACCCACCCTGCTGACCTTGGACGAGGTCCGCAGCGTCTTCCACGAGTTCGGCCACGCCCTCCATGGGCTGTTCTCGAAAGTTACCTATCCGCGGTTTTCCGGAACCAGCGTGCCCCGTGACTTCGTGGAATACCCGTCCCAGGTCAACGAGATGTGGATCATGTGGCCCGAAGTGCTGGCAAATTATGCGCGCCACTACAGCACCGGCGAGCCGCTCCCCCAGGACGTCGTTGACCGGCTGAACGAGTCACGGCTGTGGGGCGAGGGGTTTGCGACCACCGAATATCTTGGTGCGGCGCTGCTGGACCTGGCGTGGCATGTGCTGGAGCCTGACGGCGTACCGGAGGATGCGCTCGAGTTCGAGGCGAAGGCGCTCGCGGCGGCGGGAGTTGCGCATACCCTCATACCGCCGCGGTACCGCACCGGCTACTTTCAGCACATTTTCGCCGGTGACTACTATGCGGCCGGCTATTACTCCTATATCTGGAGTGAAGTCCTGGACGCTGAGACTGTGGACTGGTTCATCGACAACGGCGGGCTGAACCGCAGCAACGGCGACCGCTTCCGCGACGAGCTGCTGTCCCGCGGGAACAGCCGGGATCCTCTGGAGTCGTTCCGCACCTTCCGCGGCCGCGACGCTGCCCTCGAGCCGCTGCTCAAGCGCCGCGGCCTGCAGTAG	MTNPLLTPSSLPFGLPPFAAIEDAHFAEAVDVGLTQHLDEIRDIVENREPASFENTALAMERSGRLLQRAAASFFTLVSADASEAIQELETELSPRFSAHQDAVYLNRDLYTRFAAIDTAGLDAESARLVEEYLKEFHQSGIQLDDEGQEQLRELNGELSRLGTEFGQRVKEAMKKAALLLDDASDLAGLPADEISSAAEAARTAGHEGKYLLTLIQPSNQPALAALENREVRRRLYEASIARGSSGGSLDVLDLVKSMARLRGEKAVLLGYGNYAELVVDRQTAPDFEEVRSMLSRLAPPAVRNADAEAAALAETAGHPLEAWDWAYYSAKVRRERYEVDEQAIRPYFELDRVLADGVFFAATSLYGITFHERPDLAGYHPDVRIWEVRNEDASALGLFLGDYYTRESKRGGAWMNSLVEQSDLLDERPVVINNLNISKPPAGEPTLLTLDEVRSVFHEFGHALHGLFSKVTYPRFSGTSVPRDFVEYPSQVNEMWIMWPEVLANYARHYSTGEPLPQDVVDRLNESRLWGEGFATTEYLGAALLDLAWHVLEPDGVPEDALEFEAKALAAAGVAHTLIPPRYRTGYFQHIFAGDYYAAGYYSYIWSEVLDAETVDWFIDNGGLNRSNGDRFRDELLSRGNSRDPLESFRTFRGRDAALEPLLKRRGLQ				NA	NA	NA	NA	NA
D1-17_01775	1335			hypothetical protein	ATGGGGAACACTCACAGATTTTTTACCTGGACGGCCAGAAGCGCTGCATCAGCGGCGCTGGTTGCATCGCTGGCTTCGTGTGGCGTCATCGCAGGTCAGGAGGGCGGACAAGCGCCAGCCGGTACAGCACAGGGAACACCTGGCGCCGCAACGACCACTTCGTCCAGCCCTTCGGGGTCACCGGAGGTGTCGGACTCGCTGGCTGCCGGAGCATCCGGCGGCTCGACCGCCGGGCAGACAGGGACACCCAGTGAGACAGCCACGGCCGGCGCGACACCCGGCGTCGGACCTGAATGCAAGGGCGTGCGGTGTGCCTCAGTGCTGGTCACCGGGGACATGCTGGTGCACACGCAGCTGTGGGAGCAGGCACGCCAGGATGCGCTGGCGGCCGGCACAAAGGGGCTGGACTTCGTCCCGCTGCTCGAAGGCCAACGCCGCTACATCGAACAAAGCGACCTCGCCATCTGCCACCAGGAAACTCCGGTGGCAGCTCCAGCCGGACCTTTCTCGGCCTACCCGTCATTCAACGTGCCCCCGCAGATCATCGCCGCCGCCAAGGCCGTGGGGTACCAGGCGTGCACCACGGCGAGCAACCACACCATCGACCAGGGCACTGCCGGCCTGGTCCGGACACTGGACGCGCTCGACGCTTCCGGCCTGCAGCACACCGGCTCCTACCGGACGAAGGCAGAATCGGACGGCATCCTCATCCTGCCGACGCAGGCTGCCAACATCGCCATCATCCAGGGCACATACGGCTTGAACGGCCAGATTCCGGAGCAGGACTGGCAGGTGGACATGCTGGACGCTCCGACCATGATCGCCAAGGCCAAGAAGGCCCGCCAGCGTGGTGCGGACATCGTGCTCGGTGTCATGCATGCCGGGGACGAATACGCCAGCGCCCCCAACGCCCAGCAGCAGGAGACGGCGCACGCCCTGGTGGACAGCGGGCAGTTCACCATGATCTACGGGCACCACACGCACTCCGTGCTGCCGATTGAAAAGTACAAGGGAACGTGGATCGTCTACGGGCTCGGCAACGGAGTGACAGAGCTGTCGCCCACCTACGCCGTGAACAATGAGGGGCTGCTGGTAAGGGCTCAGTTCAGCCAGGACGCGGCCGGCACATGGACCGCAGCGGACCTCGGCTGGGCACCCTCGGTCATCGTCAACGCGCCCTACCGCTGGTGTTCGGTGGCCTCCGACGCGCCCCAGGGCGTCTGTGCCAGCCCGGCGGCCGACGCCGAGACACGCCAGCGGACCAAGGCAGTGGTGGAATCCATGGGCGCCGCGAAGGCCGGCGCCCACGAACTCCTGATCACCAAGGAGAAATAG	MGNTHRFFTWTARSAASAALVASLASCGVIAGQEGGQAPAGTAQGTPGAATTTSSSPSGSPEVSDSLAAGASGGSTAGQTGTPSETATAGATPGVGPECKGVRCASVLVTGDMLVHTQLWEQARQDALAAGTKGLDFVPLLEGQRRYIEQSDLAICHQETPVAAPAGPFSAYPSFNVPPQIIAAAKAVGYQACTTASNHTIDQGTAGLVRTLDALDASGLQHTGSYRTKAESDGILILPTQAANIAIIQGTYGLNGQIPEQDWQVDMLDAPTMIAKAKKARQRGADIVLGVMHAGDEYASAPNAQQQETAHALVDSGQFTMIYGHHTHSVLPIEKYKGTWIVYGLGNGVTELSPTYAVNNEGLLVRAQFSQDAAGTWTAADLGWAPSVIVNAPYRWCSVASDAPQGVCASPAADAETRQRTKAVVESMGAAKAGAHELLITKEK				NA	NA	NA	NA	NA
D1-17_01776	741	gatD		Lipid II isoglutaminyl synthase (glutamine-hydrolyzing) subunit GatD	GTGACCCCGGGGACATCAGGCAGCAAGGGAACCGTCCGGGTCCTGCAGCTCTACCCGCGCGACATGAACATCTACGGCGACTGGGGCAACGCCCTGGTGCTGCAGCAGCGGCTGAAGTGGCACGGATACACCCCGGAACTCCTCGAGTACAACCCGGGTGACGATTTTCCGGACCAGGTGGATGTGATCGTTGCCGGCGGCGGGCAGGACAGCGGCCAGCTGGTGATCCAGGATGACCTGCAGATGCGGGCGGACACCCTCCGCGGACTCGCGGAGGACGGCGCGCCCATGCTCGTGATTTGCGGCCTGTACCAATTGTTCGGGCATTTCTTCAAGACACGCTCCGGCGCCGTCATTCCTGGCATCGGCATCCTGGACGTGGAGACCCACGGAACGGATGAACGCCTGATCGGCAACGTGAAGGTGACCACCCCGGAGTTCGGCGAAGTCCTTGGCTACGAGAATCACAGCGGGCAGACCACCCTCGGGCCCGGCGTAAAGCCCCTGGGCACGGTCGAAAAAGGGACCGGCAACAACAGCAAGGACGGCCATGAGGGCGCCCGCTACCGCAACATCGTGGCGAGCTACCTTCACGGCTCCCTGCTCCCAAAGAACCCCGCGATAGCCGACTACCTGATCCGTACCGCCGTCGAACGAAAATACGGTTCCTTCACGCCGGGTGATCCGGATGACCGTTTCGCGGTGCTGGCCCGGGAGCACGCAGCGCGCCGGCCGCGCTAG	MTPGTSGSKGTVRVLQLYPRDMNIYGDWGNALVLQQRLKWHGYTPELLEYNPGDDFPDQVDVIVAGGGQDSGQLVIQDDLQMRADTLRGLAEDGAPMLVICGLYQLFGHFFKTRSGAVIPGIGILDVETHGTDERLIGNVKVTTPEFGEVLGYENHSGQTTLGPGVKPLGTVEKGTGNNSKDGHEGARYRNIVASYLHGSLLPKNPAIADYLIRTAVERKYGSFTPGDPDDRFAVLAREHAARRPR	PGPT0023770_378	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-LIPID_II_ISOGLUTAMINYL_SYNTHASE,PGPT0023770-gatD-K07009	NA	NA
D1-17_01777	2067	murT		Lipid II isoglutaminyl synthase (glutamine-hydrolyzing) subunit MurT	ATGCACGCGTTTCTCCCCCGTCACTTCCGGGTGGAAGGAGGTGGCCAGCAGCCGGCCGGAACGCACTGCAACAATTCTAGCTGTCCCCTGCAGATCAGCAGCGTGGGAAGCATGAGCCGGATCCGCAGGCTCCACCTGGGCAAGCACTTCGACGCCTTCGCCCACCCGTTCCACCCAGGGACCGCGGATGAAGACGGCGTGCACAGGAGCGATGCCTTCGTCCGTGGCGCTGAAGTCCAGTCCCTTGAAGTCAAGGTCCGTCTCGAACGACTCCCGCTGGCGCCCGAACGCGTTGCGCCGCACGGTGATGTCCAGCCCGCCGAAGGTCTGTTGAGGGTTTCCGGCGAGGTCGGTGGCGGGGTCGGCTATATCGTGTGCCAACAGAATCATGCCGGCACAGGACCCGTAGACCGGAAGGCCCCCGGCGATGTGCTTGCGCAGCGGCTCGGCCAGTTCGAACGCACGCGCAAGCTTGTCGATGGCCGTCGATTCCCCGCCGGGAATAATCAGGCCGTCCAGGCCGTCCAGCTCGGCCGGGCGGCGAACGCTGACGGCGACGGCACCGGCTGCTTCGACGGCACGAAGGTGCTCACGGAAGTCGCCCTGAAGTGCCAGGACGCCAATGCGGAGTCCGGCACCGATACCTGTACGGGCGCGCGGCGCCTCGGCGGAAAGGGGATTGGTCATCCAAATATCATAGTGTCCCGGGGGCCGTTGCCCTTGCCCGCGGCCCGCCGGCCGCCCTGTCCCATGCCTCAGCTGGGATATATTCAAAGCATGTTTTCCTTCAGCGTTCCGCTCGGCAAGCTCGTCCGCCGGGTAACCCGGCTCAGGGGCGGAGGCTCCGCTTTTCCCGGCCTGGTGGTCGAAAAAATTGACCCCGGCTTCATGCAAAGAACCCTGTCCACGCTGCCCCACGGGGTGGCGGTGGTCAGCGGAACCAACGGAAAAACCACCACGACGAAGATGGTGGTGGAGCTCCTCGAGAGCCAGGGACTGAAGGTGTTCACCAACCGCACCGGCAGCAACTTCACAAGGGGCGTCGCTGCTGCGCTGCTCGGCGAGGTGGACATGCTCGGACGCCTGAATGCTGACATTGCCGTGCTGGAGCTGGACGAAGCCCACGCCGTGCACTTCGTCAACCGCGTCCCCCCGCGCTACAGCCTGCTGCTGAATGTGCTCCGCGACCAGCTTGACCGCTTCGGGGAAATCGACAAGACGGCGCAGCTGCTCCAACACATCGCGTCCAAGACCACGGGAATAGTGGTCCTGAACCGCGAAGACCCCCGCGTGGCACGCATCGCCGAGACGCTGCACGGACCGGAGGTCCGGTACTTCGGCCTGGACGATTCGCTGCTGGCCACCTTTCCCAACGACGACGAGCTGCGTGCAGGCCCCGGCAGTCCGCCTCCGGCGGCCGTCCCCCAGAAGCCGGCTGCCGACGTCGTGCTTCGCCGCGTGGGCGCGGACGACGCCGACTTCGAGTACGACGGCGCCACGGTCACCACATCGATGAAGCTCCGCGGCGTCTACAACATCTTCAACGCTGCCGCTGCCCTGGTCCTGGCCCGCAGCATCTGCGGCGGCGCCGCCACGGCGGACCATGCCGCCCTGCTGACCGCGCTGTCCCAGGTGGCGCCGGCGTTTGGCCGCGGTGAGAGCCTGGTGGTGGATGGGCTGCCTTTGGATCTGGTGCTGGTGAAGAACCCCAGCGGGTTCCGGCTGGGCCTGAAGTCGTTCCCCTCGGGCGGGTACGCCACCATGATCGCGATCAACGACAACTATGCTGACGGGCGCGACATGTCCTGGCTGTGGGACGTCGACTTCGAATCCCTGCGGGCGGACGGCGTAGACCAGGTCAGCGGCTCCCGCGCCTATGACATGGCCCTGCGCCTGCAGTATGACGAGGTGCCCGTCCGCTCCGTCGACACGGAGATCTCCCCTGCCCTTGCGGCCTTCATTGCCGCCGCGCGAGACAAACCGAAGCGCATCTTCTGCACCTACACCGCCATGCTCGCCATCCGCCGCGAGCTGTCCAAAATCACCACAGTGGAGGTGGTCTCGTGA	MHAFLPRHFRVEGGGQQPAGTHCNNSSCPLQISSVGSMSRIRRLHLGKHFDAFAHPFHPGTADEDGVHRSDAFVRGAEVQSLEVKVRLERLPLAPERVAPHGDVQPAEGLLRVSGEVGGGVGYIVCQQNHAGTGPVDRKAPGDVLAQRLGQFERTRKLVDGRRFPAGNNQAVQAVQLGRAANADGDGTGCFDGTKVLTEVALKCQDANAESGTDTCTGARRLGGKGIGHPNIIVSRGPLPLPAARRPPCPMPQLGYIQSMFSFSVPLGKLVRRVTRLRGGGSAFPGLVVEKIDPGFMQRTLSTLPHGVAVVSGTNGKTTTTKMVVELLESQGLKVFTNRTGSNFTRGVAAALLGEVDMLGRLNADIAVLELDEAHAVHFVNRVPPRYSLLLNVLRDQLDRFGEIDKTAQLLQHIASKTTGIVVLNREDPRVARIAETLHGPEVRYFGLDDSLLATFPNDDELRAGPGSPPPAAVPQKPAADVVLRRVGADDADFEYDGATVTTSMKLRGVYNIFNAAAALVLARSICGGAATADHAALLTALSQVAPAFGRGESLVVDGLPLDLVLVKNPSGFRLGLKSFPSGGYATMIAINDNYADGRDMSWLWDVDFESLRADGVDQVSGSRAYDMALRLQYDEVPVRSVDTEISPALAAFIAAARDKPKRIFCTYTAMLAIRRELSKITTVEVVS				NA	NA	NA	NA	NA
D1-17_01778	756		COG0217	putative transcriptional regulatory protein	ATGTCAGGCCACTCCAAATGGGCAACGACCAAGCACAAGAAGGCCATCATTGATAGCCGCCGGGCAAAGTCGTTCGCCAAGCTGATCAAGAACATCGAAGTTGCGGCACGCATGGGCGGACCGGATCTTGCCGGCAACCCTGGCCTGGAGCTGGCCGTCACCAAAGCCAAGAAGACGTCCGTGCCCAACGACAACATCGATCGCGCCATCAAGCGCGGCGCCGGGCTCACCGGCGAAGTCGTGGACTACACCGAGATCATGTACGAAGCCCGCGGGCCCCAGGGATCCGCCCTGCTGATCGAATGCCTCACAGACAACAAGAACCGCGCGGCTTCCGAGGTCCGGCTCGCCATCTCCCGCAATGGCGGCACCATCGCCGATCCCGGTTCCGTCAGTTACCTCTTTACCCGCAAGGGCGTAGTCACCCTGCCGAAGAACGGCCTGAGCGAGGATGACGTTCTGATGGCCGTGCTGGACGCCGGGGCCGAGGAAGTCAAGGACAACGGCGACAACTTCGAAATCCACTCGGACCCGAAGGACCTGCAGGCCATCCGGGATGCCCTCAAGGAAGCCGGGATAGAGTACGACACTGACGAAGCCGAGTTCGTGCCGTCCATGGAGGTTCCGCTGGATGTGGACGCGGCCAAGAAGTTCATGAAGCTCGTTGACGCGCTGGAAGACCTGGACGACGTCCAGAACGTCTACAGCAATGCAGACCTCAGTGACGAAGTGCAGGCCGCACTGGACGCCGAGTGA	MSGHSKWATTKHKKAIIDSRRAKSFAKLIKNIEVAARMGGPDLAGNPGLELAVTKAKKTSVPNDNIDRAIKRGAGLTGEVVDYTEIMYEARGPQGSALLIECLTDNKNRAASEVRLAISRNGGTIADPGSVSYLFTRKGVVTLPKNGLSEDDVLMAVLDAGAEEVKDNGDNFEIHSDPKDLQAIRDALKEAGIEYDTDEAEFVPSMEVPLDVDAAKKFMKLVDALEDLDDVQNVYSNADLSDEVQAALDAE				NA	NA	NA	NA	NA
D1-17_01779	642	ruvC		Crossover junction endodeoxyribonuclease RuvC	ATGCAGACCTCAGTGACGAAGTGCAGGCCGCACTGGACGCCGAGTGACTTTTGGGGCCGGCGGGTGACGCTGCGCGTGCTGGGAGTTGACCCCGGCCTGACGCGCTGCGGCATCGGTGTGGTGGACGTGGAAAAGAACCGCCGCGCCAGCATGGTGGCTGTGGGCGTGGTCGGCACATCACCCGGGGAGACGCTGGACCAGCGGCTGCTCGTCATAGCCCTGGCGATAGACGACTGGCTCGACCGGTACGAACCGCACGTCCTCGCCGTCGAGCGTGTCTTTTCCCAGCTCAACGTCAGCACCGTGATGGGCGTTGCCCAGGCATCCGGCGTGGTGATTGCGGCGGCCGCCCGGCGCGGAATCCCGGTGGCTCTCCATACGCCGTCGGAAGTGAAAGCGGCCGTCACGGGAAGCGGCAACTCCAACAAGGACGCCGTGACCAAGCTCGTCACCAAGATCCTCCGGCTTGACGCCCCGCCGCGGCCAGCCGACGCGGCCGATGCCCTTGCCCTTGCCATCACCCACGCATGGAGGGCGGGCAGCGGCGCTGCGGTTGCCACCACCGGGCCGGGCAGCCAGGCGCTGACTCCGGCCCAGCGTGCCTGGGCGGAGGCAGAGGCGAAGGCGCGCCGTGCACGGTGA	MQTSVTKCRPHWTPSDFWGRRVTLRVLGVDPGLTRCGIGVVDVEKNRRASMVAVGVVGTSPGETLDQRLLVIALAIDDWLDRYEPHVLAVERVFSQLNVSTVMGVAQASGVVIAAAARRGIPVALHTPSEVKAAVTGSGNSNKDAVTKLVTKILRLDAPPRPADAADALALAITHAWRAGSGAAVATTGPGSQALTPAQRAWAEAEAKARRAR				NA	NA	NA	NA	NA
D1-17_01780	102			hypothetical protein	ATGAAAGACGACACTGCAATGAAAGACACTGCAATGAAAGACACTGCATTGGAAGACACGGCATTGGTCCGTCCGGTGGAAGTTCAGGAGCCCCGGCCTTGA	MKDDTAMKDTAMKDTALEDTALVRPVEVQEPRP				NA	NA	NA	NA	NA
D1-17_01781	645	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	TTGATAAGTTTTCTCCGCGGAACCGTAGCCCACATTGGACTGTCCACCGCGGTGATCGACCTCAACGGCGCCGGCATGAGCGTGTACGCTACTCCGCAGACCCTGAGCAAGCTCCGCGCCGGCGAGGAAGGGAAGCTCCACACCTCGCTGATTGTCCGCGAAGACTCGCTCACCCTTTTCGGCTTCGCCACTGATGACGAGCGTGAGGTCTTCGACATTCTGCTGAGTGTGAGCGGAGTAGGACCCCGGCTGGCTCTGGCAGTCCTCGCGGTCCACGAACCTGAAGCCATCCGCGTGGCAGCCCACAACGGAGACAGCAAAACGTTCACCAAAGTCCCCGGCATCGGGCCCAAGGTGGCAGGCCGCATCGTGCTCGAACTGGCCGGAAAGCTGGTGCCGCACGGTACCGCGCCGAGTGCCGCCCCTGTCCCGTCAGGGGAAGCCGTCTGGAAGCCCCAGGTTGTGGCCGCCATGGCAAGCCTCGGGTGGTCTGAGAAGGACGCCACAGGCAGCATCGAGAAGGCGCTGGCCGACGCGCCGGACCTGGCGGAGAAGGGAAACGTCGCCGAGATTCTGCGTACCACCCTGCGCTGGCTTGGGCAGGACGGCGCCCGGGCCGGCAACAGGGCAGGCAGCCGTGGCTGA	MISFLRGTVAHIGLSTAVIDLNGAGMSVYATPQTLSKLRAGEEGKLHTSLIVREDSLTLFGFATDDEREVFDILLSVSGVGPRLALAVLAVHEPEAIRVAAHNGDSKTFTKVPGIGPKVAGRIVLELAGKLVPHGTAPSAAPVPSGEAVWKPQVVAAMASLGWSEKDATGSIEKALADAPDLAEKGNVAEILRTTLRWLGQDGARAGNRAGSRG				NA	NA	NA	NA	NA
D1-17_01782	1089	ruvB	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	GTGGCTGAGCCCTCCCTCGTGGCCGGGGGAGAGGAGCCGGAGGAGCGCGCGATCGAAGCTGCCCTGCGACCCAAGAACCTGCACGACTTCGTAGGCCAGCACCGGGTCCGCAAACAGCTGTCTTTGGTGCTGCAGGCGTCCCGAATGCGCGGCCGCACGGCCGACCACGTGTTGTTTTCCGGTCCGCCTGGCCTGGGCAAGACCACTCTCGCCATGATCGTGGCTGCGGAAATGAATGCGCCGCTGCGGATCAGCAGCGGCCCGGCCATTCAGCATGCCGGGGATCTCGCGGCCATCCTTTCCTCGCTCTCCGAGGGCGAGGTTCTGTTCCTGGACGAAATCCACCGGATGTCCCGCCCTGCCGAGGAAATGCTCTATATGGCGATGGAGGACTTCCGGGTGGACATTGTGGTCGGCAAGGGCGCGGGCGCCACGGCCATTCCGCTGGAGTTGCCGGCCTTCACGCTGGTTGGTGCCACCACCCGCGCAGGCCTGCTCCCCGGACCGCTGCGCGACCGGTTCGGTTTCACCGGGCACCTTGAGTTCTATTCAGTCGAGGAACTCGAACTTGTCCTGCGCAGGTCTGCGGGCCTGCTGGACCTGAAGGTCAACTCTGCGGGCTTCAGCGAAATAGCGGGCAGATCGCGCGGTACCCCCCGTATCGCCAACCGCCTCCTCCGGCGCGTACGGGACTGGGCCCTGGTACACGGGATCGAGCAGATAGATGCCAGATCAGCGTCCGCTGCCCTGGACATGTACGAAGTGGACAAGCGCGGCCTGGACCGCCTCGACCGCTCTGTGCTGGCGGCGCTCATCACCAAGTTCGGCGGCGGACCGGTAGGCCTCTCCACCCTGGCCATCGCCGTGGGAGAGGAACCCGAAACAGTCGAGACCGTTGCCGAGCCGTACCTGGTCCGCGAGGGTCTCCTGGGCAGGACGCCCCGGGGGCGTATTGCCATGGCCCCGGCATGGACCCACCTGGGCCTCGCTGTTTCCGACGGCGTGTTCGGACAGGACACTCTGGACCTGTTCGGACCGGAGACGGAAGATGAAGAATCCGCTACGGACTGGATTTCCAACACCCAATAA	MAEPSLVAGGEEPEERAIEAALRPKNLHDFVGQHRVRKQLSLVLQASRMRGRTADHVLFSGPPGLGKTTLAMIVAAEMNAPLRISSGPAIQHAGDLAAILSSLSEGEVLFLDEIHRMSRPAEEMLYMAMEDFRVDIVVGKGAGATAIPLELPAFTLVGATTRAGLLPGPLRDRFGFTGHLEFYSVEELELVLRRSAGLLDLKVNSAGFSEIAGRSRGTPRIANRLLRRVRDWALVHGIEQIDARSASAALDMYEVDKRGLDRLDRSVLAALITKFGGGPVGLSTLAIAVGEEPETVETVAEPYLVREGLLGRTPRGRIAMAPAWTHLGLAVSDGVFGQDTLDLFGPETEDEESATDWISNTQ				NA	NA	NA	NA	NA
D1-17_01783	441			hypothetical protein	GTGTTCTCAAATATCACTGCCCAAGCCCAGCCGCAGGCCGGCGGCGGCATTGACATCATGTCCATCCTGCTGTTCGTCATGCTCGGCATCTTCATCTTCATGATGTTCCGCCGAAACAAGAAGACGCAGCAGCAGCAGGCGGCCCTCCAGTCGCAGTTTGCTCCGGGTGTCGAGGTCATGACGAGCTTCGGCCTGTTCGGCCGCATCGTGTCGATCGATGAAGAAGACAACAAGGTGGTGCTGGAACTGTCTCCCGGCAACCTGGCCACCGTTCACCGCCAGGCCGTCACCAAGATCATGGAGCCTGCGGCCGGTGCCACCCCGGTTCCGGATGATGCTTCGTCCCTCACTGTTGACCGGGACGAGAGCACTCCGGCCGCGACTGAAACTCCGGATGAGACCTCGAAGCGCCTCAACGACGAAGGCAAAAAGGACGTCTGA	MFSNITAQAQPQAGGGIDIMSILLFVMLGIFIFMMFRRNKKTQQQQAALQSQFAPGVEVMTSFGLFGRIVSIDEEDNKVVLELSPGNLATVHRQAVTKIMEPAAGATPVPDDASSLTVDRDESTPAATETPDETSKRLNDEGKKDV	PGPT0025730_254	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
D1-17_01784	1758	secD		Protein translocase subunit SecD	ATGGCAAGAACTGGCCACAAGAAATCAGCCATCCGGGTGTTGGTCTGGCTTGGCGTAATTCTGGCTGTCATGACCGCCGTCCTCGCAGGCGGCACCATGGCCGGGCAGGCCAGCTGGGCTCCCAAGCTTGCCTTGGACCTTGAAGGCGGCACCCAGATGATCCTGGCGCCCAAGGTGGAGGGCGGCTCCGACATTAACGAGGAACAGCTGAACCAGGCTGTCGCGATCATCCGCCAGCGTGTTGACGGTTCTGGCGTAGCCGAAGCTGAAATCAGCACGCAGTCGGGCCGGAACGTCGTGGTGAGCCTCCCGGGCACGCCGTCGTCCGAGACCCGCGCCCTGATCCAGGCATCAGCGGACATGAACTTCCGCCCGGTCCTGCTCAACGGTCCCGGCACTCCCGTTCCCCCGGAGGAGCGCACCCCCGCGGCGCAGCTCCCCAAGCCCACGGCCAAGCCGGCGAACGGCAGCGATTCAAACTGGATCACCGCGGACATCTACAAGCAGTTCGAGGCACTGGATTGCGCCAACCCTGAGCAGGACAAGCAGGAGCGCTCCGATCCCGCCAAACCCTTGGTCACCTGCGAGCCTGCTGCGGAAGATCAGCCGGCCATCAAGTACATCCTGGGCCCGGTTGAGGTCAAGGGCGTCGAGATCCAGGGCTCCACGTTCCAGCTCCAGCAGGGTGTCCAGGGTGCCGTCACCAACGAGTGGGCCGTCAACATCCAGTTCAACGCCGAAGGTACTGCCAAATTCAAGACGGTCACCGAGCGGCTGCACCAGTTCTACCTGGCCGCCGGCGGGGAATCAGGCACCGACCCGAAGTCCCAGTTCGCCATCGTCCTGGACGACCAGGTCATCTCTGCTCCGCGGGCGCAGGCTGTCATCACCGACGGCCGCCCGCAGATCACCGGGGGATTCACCGAGCAGTCGGCGAAGACACTCTCTGACCAGTTGCGCTTCGGTGCACTGCCCATCAGCTTCGACATCCAAAGCGAGCAGCAGATCTCCGCGACCCTCGGTGGTGAGCAGCTGCGAATGGGCCTGCTGGCAGGCATCATCGGGCTGTTGCTGGTGGTTGTCTACTCCCTGTTCCAATACCGCGTCCTGGGCTTTGTCACCATTGCGTCGTTGGTGGTGGCCGGTATCCTCACCTATCTGGCGATCGCAATCCTCGGCTGGACGGAGAACTACCGCCTGTCGCTTGCCGGCGTCGCCGGCATTATCGTCGCCATCGGCCAGACCGCCGACTCCTTCATCGTCTACTTCGAGCGCATCCGTGATGAGCTGCGTGAAGGCCGCGGCCTCGTGTCCGCCGTTGAAAACGGATGGAAGCGCGCCAAGCGCACCGTGCTGGCCTCCAAGGCCGTCAACCTCCTCGCAGCACTGGTGCTGTACTTTGTCGCCGTTGGCAACGTGCGGGGCTTCGCGTTCACGCTCGGCCTCACTGCCATCGCCGACCTGATCGTTGTGTTCATGTTCACGCACCCGACGCTTCAGCTGCTCGCCCGCACCCGGTTCTTTGGTGAGGGCCACCGGTTCTCCGGCCTGGATCCCGAACGCCTCGGCGCCGTGCCGTTGTACAGGGGCGCCGGCAGGATCCGGACCCCGGAGGAGAAGCCCGTCGCAGTACGTGCCAAGAACATCGGTGCCTCCGCCGAGGCGGAGCGCCGGATGACGATTGCAGAACGACGCCTCGCGGAAAAGCAGCAGCAGCTTGCGGGTTCCTCCAAGGGCGCCAACAAGGAGAGCAAGTAA	MARTGHKKSAIRVLVWLGVILAVMTAVLAGGTMAGQASWAPKLALDLEGGTQMILAPKVEGGSDINEEQLNQAVAIIRQRVDGSGVAEAEISTQSGRNVVVSLPGTPSSETRALIQASADMNFRPVLLNGPGTPVPPEERTPAAQLPKPTAKPANGSDSNWITADIYKQFEALDCANPEQDKQERSDPAKPLVTCEPAAEDQPAIKYILGPVEVKGVEIQGSTFQLQQGVQGAVTNEWAVNIQFNAEGTAKFKTVTERLHQFYLAAGGESGTDPKSQFAIVLDDQVISAPRAQAVITDGRPQITGGFTEQSAKTLSDQLRFGALPISFDIQSEQQISATLGGEQLRMGLLAGIIGLLLVVVYSLFQYRVLGFVTIASLVVAGILTYLAIAILGWTENYRLSLAGVAGIIVAIGQTADSFIVYFERIRDELREGRGLVSAVENGWKRAKRTVLASKAVNLLAALVLYFVAVGNVRGFAFTLGLTAIADLIVVFMFTHPTLQLLARTRFFGEGHRFSGLDPERLGAVPLYRGAGRIRTPEEKPVAVRAKNIGASAEAERRMTIAERRLAEKQQQLAGSSKGANKESK	PGPT0029260_1995	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072	NA	NA
D1-17_01785	1017	secF	COG0341	Protein translocase subunit SecF	ATGGCTAAAAGTTTTGCGACCTTCGGCAACGAGCTGTACACGGGAAAACGCTCCTACGACTTCGTCGGTAAGAAGAAGCTTTGGTTCCTGATCGCCCTCGCGGGCGTTGCCTTGTCGATCCTCATCCCCGTAGCCAAGGGCGGATTCAACCTGGGCATTGAGTTCCGGGGAGGCTCGGAATTCACCGTCTCCAATGTCAAGACCACAGATGCTTCGCTCGGCGAAAAGGCTGTGGAGGACGTGGTCCCGGGCAGCGTGCCGCGCGTGGCCAACGTTGCCGGGACCACCATGCGAATCCAGACCGACAAGCTTTCCGATGATGAGACCCTCAAGATCAAGGAGGGCCTGACCAAAGCCTACGGAGTCACCGACAACGAGGTGACCTCCACATTCGTCGGTCCCACCTGGGGTGCGGACGTGACCAAGCAGGCGCTGCTGGGCCTGGTCGTGTTCGTGGCCTTGGCGACAGTGCTCATGGCGCTGTACTTCAGGACGTGGAAGATGTCACTGTCTGCGATCGCAGGCATGGCCGTGACCATGTTCATCACCGCCGGCGTCTATGCGCTCAGCGATTTTGAAGTAACGCCCTCAGCCGTTATCGGCTTCCTGACCGTGCTCAGCTATTCGCTGTACGACACGGTGGTGGTGTTCGACAAGATCCGTGAAAACACGGCGGACATCGACGCGTCCACCCGACGGACCTTTGGTGAGGAAGTTAATCTGGCCGTGAACCAGACCCTGGTGCGTTCGATCAATACCATGATGGTGGCGATCCTCCCTGTGGCGGCGATTCTCTTCATCGGCGCCGGGCTGCTCGGAGCAGGAACACTGCGGGACCTGTCGCTTGCCCTGTTCGTGGGGATCCTGATCGGTACCGCAGCCACTATCTTCATCGCCGCGCCGATGTATGCCTGGCTGCGGCAGAACGAACCCGAGCTGGTCAAGCAGGCCAAGCGCGTGCAGCACCGGCGGGCAGAAGCCCCCGCCAAAGCCACCGCCGGGCCGGCGCAGGCTTAG	MAKSFATFGNELYTGKRSYDFVGKKKLWFLIALAGVALSILIPVAKGGFNLGIEFRGGSEFTVSNVKTTDASLGEKAVEDVVPGSVPRVANVAGTTMRIQTDKLSDDETLKIKEGLTKAYGVTDNEVTSTFVGPTWGADVTKQALLGLVVFVALATVLMALYFRTWKMSLSAIAGMAVTMFITAGVYALSDFEVTPSAVIGFLTVLSYSLYDTVVVFDKIRENTADIDASTRRTFGEEVNLAVNQTLVRSINTMMVAILPVAAILFIGAGLLGAGTLRDLSLALFVGILIGTAATIFIAAPMYAWLRQNEPELVKQAKRVQHRRAEAPAKATAGPAQA	PGPT0029265_818	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074	NA	NA
D1-17_01786	2394	relA	COG0317	Bifunctional (p)ppGpp synthase/hydrolase RelA	TTGGAAGAACGTTCAACGTCGGCGCCAGAGGCGGCCGGGGGTAGCGGTCCGGGCCAGGGCCCGCAGACTGGTCTGGTGGCTGCCGGACGCCCCGGTCCGGGTGTGCCGGTGGACGCCTCCGGCGTGCGCCCCACTTTCCCGGGGCGCCGGGAACGCACGCGGTCCCGGCTTGCCCGTCTTACCGGGCGAAGCACCGCCACGTACTCGCCGATTCTGGAGCCGCTGCTCCGCACGGTGCGGGCGAACAATCCCAAAGAGGACTTTGACCTCATCCAGCGCGCGTTCGTCGTGGCTGAGCAGAGCCACCGCGGACAGAAGCGCAAAAGCGGGGACCCCTATATAACCCACCCCGTGGCCGTTGCCACGATCTTGGCCGAACTCGGCCTCAGCGGGACCACGCTTGCGGCCGCGCTGCTTCACGATACGGTCGAAGACACCCCCTACACCCTCGCTGATCTGAAAGCCGACTTCGGCCCCGAGGTGGCTATGCTCGTGGACGGCGTCACGAAGCTGGACAAAGTCAGCTTCGGCGAGGCCGCACAATCCGAGACAGTGCGCAAGATGGTCGTCGCCATGGCCAAGGACATCCGAGTGCTGATGATTAAGCTCGCGGACAGGTTGCACAACGCCCGTACATGGCGCTTTGTTTCAGCGGAATCCTCGGCCCGCAAGGCGCGCGAGACGCTGGAGATCTTCGCGCCGCTCGCCCACCGCCTCGGCATGAACACCATCAAGTGGGAGCTCGAGGATCTATCCTTCGCGGCGCTGTATCCGAAGGTCTACGAGGAGATCGTCCGGATGGTGGGGGACCGGACTCCTGAGCGCGAAAAGAGCCTCAGCGTTATCCGGAACCAGATCGCCGAGGATCTGCGCGTGGCCAAGATCAAAGCCACCATCACCGGCCGCCCGAAGCATTATTACTCGATCTACCAAAAGATGATCGTCCGGGACAAGGACTTCGACGACATCAACGACCTCATGGGCGTGCGTGTGCTGGTTGATTCCGTCCGCGACTGTTACGCGGCACTCGGCACCCTGCATTCGCGGTGGAACCCCCTGCCCGGGCGGTTCAAGGACTACATCGCCATGCCCAAGTTCAACATGTACCAGTCGCTGCACACCACCGTCATCGGTCCCGGCGGGAAGCCTGTTGAGATCCAGATCCGCACGCACGAGATGCACCGCCGCGCGGAGTATGGCGTGGCCGCGCACTGGAAGTACAAGGACCAGCCGAACCGGACCGCCACCGGGCCCGGCAGCCCCCGCGACGGGGACATGGGATGGCTGCGGTCGCTCGTGGACTGGCAGCAGGAGACCTCCGATCCCGGCGAATTCCTGGACTCCCTGCGCTTTGAGATCAACGCCAGGGAAGTTTTCGTCTTCACGCCCAAGGGTGAGGTCATGGCCCTCCCGGCAGGCTCGACGCCCGTGGACTTTGCCTACGCCGTGCACACCGAGGTGGGGCACCGCACCATCGGTGCCCGGGTCAACGGGAAACTGGTGCCTCTCAACAGCGAACTCAACCACGGCGACTGGGTGGAGATCTTCACCTCCAAGGCCGAAGGCGCCGGACCCAGTCAGGACTGGCAGCACTTCGTCAAGAGCGCCCGTGCCCGGAACAAAATCCGCCAGTGGTTCAGCAAAGAGCGCCGTGAAGAGGCGATTGACCGCGGCAAGGAGCTGCTGACCCGCGCCATGCGGAAGCAGAACCTGCCGCTGCAGCGCCTCATGACCCACGACGCCCTTGCCGCCGTGGCGGAGGAATTCAAGTATGTCGACATCTCCGGGCTGTACGCAGGCGTGGGCGACGGGCACACCTCAGCGCAGCACGTCATGGAGAAGCTCGTCGATCTGCTCGGCGGAAACGAAACCCCGGATGACGACCTCACTGAGGTGAGCATCCCCACCCAGGTCACCAAGGCACGTTTCTCAGACTCCGGTGTGGTGGTCCGCGGCGTGGGAGACGTATGGGTCAAGCTGGCACGCTGCTGCACGCCTGTGCCACCCGATCCCATTCTGGGCTTCGTCACGCGCGGCTCAGGCGTCTCCGTGCACCGCACCGACTGCACCAACGTCGCCGGCCTGAAGGACCAGCCGGACAGAATCGTGGACGTGGACTGGGCACCCACGCAATCCAGCGTGTTCCTCGTTGAGATCCAGGTGGAGGCCCTGGACAGGAAGTCCCTCCTCTCGGACGTCACTCGCGTGCTGTCCGAGAACCACGTGAACATCCTGGCTGCGAGCGTCCACACCTCAACCGACCGTGTGGCCATCTCCAAGTTCGCTTTCGAAATGGGCGATCCCAAGTACCTCAGCCACGTTCTCAGTGCTGTCCGCAGGATTGACGGCGTGTTTGATGTCTACCGCACCACCGGGAACAGCCGGCGCAGCTAG	MEERSTSAPEAAGGSGPGQGPQTGLVAAGRPGPGVPVDASGVRPTFPGRRERTRSRLARLTGRSTATYSPILEPLLRTVRANNPKEDFDLIQRAFVVAEQSHRGQKRKSGDPYITHPVAVATILAELGLSGTTLAAALLHDTVEDTPYTLADLKADFGPEVAMLVDGVTKLDKVSFGEAAQSETVRKMVVAMAKDIRVLMIKLADRLHNARTWRFVSAESSARKARETLEIFAPLAHRLGMNTIKWELEDLSFAALYPKVYEEIVRMVGDRTPEREKSLSVIRNQIAEDLRVAKIKATITGRPKHYYSIYQKMIVRDKDFDDINDLMGVRVLVDSVRDCYAALGTLHSRWNPLPGRFKDYIAMPKFNMYQSLHTTVIGPGGKPVEIQIRTHEMHRRAEYGVAAHWKYKDQPNRTATGPGSPRDGDMGWLRSLVDWQQETSDPGEFLDSLRFEINAREVFVFTPKGEVMALPAGSTPVDFAYAVHTEVGHRTIGARVNGKLVPLNSELNHGDWVEIFTSKAEGAGPSQDWQHFVKSARARNKIRQWFSKERREEAIDRGKELLTRAMRKQNLPLQRLMTHDALAAVAEEFKYVDISGLYAGVGDGHTSAQHVMEKLVDLLGGNETPDDDLTEVSIPTQVTKARFSDSGVVVRGVGDVWVKLARCCTPVPPDPILGFVTRGSGVSVHRTDCTNVAGLKDQPDRIVDVDWAPTQSSVFLVEIQVEALDRKSLLSDVTRVLSENHVNILAASVHTSTDRVAISKFAFEMGDPKYLSHVLSAVRRIDGVFDVYRTTGNSRRS	PGPT0014310_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
D1-17_01787	708			hypothetical protein	ATGCGCAGCCCCGACTCCCCCACGCAGCTTCTGGATCTATACGCGCCCGGGCAGCTGTTCTCGTGGCCCGAGCTCCAGTCCATGGCGGCCGACGGCGTGCTCACGCAGCTCTACCAGTACGGCTACACGCTGCCTGGTGTTCCTGCCTCGCCGCAGTTGCGCGCCCGAGCGGCAGCCTGTGCCGTGCCGCCGGCGATCCGGCGGCGGGTGGTCGCCGGAAGGATGACTGCGGCCTGGATCTACGGCTGCGCCCGGGAACCGGACCGGCTGGCCCTGCTGGTGGATGCCAAACGCCGCATCTCCAGCCTGCGCTCCACCAGAGGCTGCACTCTCCATGAGGTGCGGCTCGGTCCTTTTGACGTTGTCAGCCTCGGCGGCCTTATGGTGTCCAGCCCCCTGCGCACCGCCCTGGATATCGCCTTGCACGTGGAGGCCGAACGGGCAGTTCCCGCCCTGCGGCGCCTGCTCGAGCGCCCCGAACTCGAGGTGCGGTTGCGGCTGCTGACCCTCGCCGTGGAGGCGTCCCCCCGGCTGCCACATAAAAAGGCAGCACTGGAGAAACTGGCCCTAGCTGCGCCGGCTGTTCCCGGTGGTGCGGTAGACATCAAACACGCCGTCAATCCTGCGGACAGCACTGAGAACGTGGCTGAGGTACTTGGGATCGCCCATTTCGAAAGCGAACTTGGAGATGGCCACACGGTCGGTTGA	MRSPDSPTQLLDLYAPGQLFSWPELQSMAADGVLTQLYQYGYTLPGVPASPQLRARAAACAVPPAIRRRVVAGRMTAAWIYGCAREPDRLALLVDAKRRISSLRSTRGCTLHEVRLGPFDVVSLGGLMVSSPLRTALDIALHVEAERAVPALRRLLERPELEVRLRLLTLAVEASPRLPHKKAALEKLALAAPAVPGGAVDIKHAVNPADSTENVAEVLGIAHFESELGDGHTVG				NA	NA	NA	NA	NA
D1-17_01788	1695			hypothetical protein	GTGACAGACAGTCAGAAATCCGACGAAACAGCAGCAGCAGACCTGATTGAGGTTCCGGCTCCTCCGGCCGAACCCAAGGAGGCTGCGGCTGAAGGTACCCAGGCCGAAGCGACTCAGCCGGAGAACACGCCGGCGGAGAGTGCGGCGGAGGAAAGCGCCCCAGAGGAAAGCGCCCCGGTGGAGAGCGTGCCAGAGGAAAGCGCCCCGGCAGAGAGCGCCCCGGAGGAAAGCGCCCCGGAGGAAAGCGCCCCGGTGGAGAGCGCGCCGGAGGCCGGCGCAGCTGCGGTTCCCGCCGCCAGCCCGGCTGCCCCCACCAGTTCGACGCCGCCACCCAGCCCGGCGCCGGCACCGCGCCCTGCGCCGTCTCCCGCTGCATTCGCGGCACGCCCCAAGGCGGGCACAGCTGCACCCGCTGTGTCCTCCCCTGCCGCGTCTGCCACGTCACTGGCGGAAGCTGCCAAATGGGGCCGCGTGGAGGGCGACGGTCACGTCTTCCTGACCATCGACGGCGAGGAGCACCCGGTCGGCCAGTACCCCGGCGTGAGCGACGACGAGGCGCTGGCCTACTTCGCCCGAAAGTACGACGACGTCGTGGCCCAGATCGTGCTGCTGGAGCACCGGGTGGCGTCCAAGGCGCCCACGACCGACATGCAGAAGACTGTCACCCACCTGCGTGAGCAGCTGGCCGAGCGGAACATGGTGGGGGACATCCGCTCCGCCGAAGGCCGCCTGGACACGCTGTCCACGCAGATCACGGAGCTCGAAAAGGCCGAAAAGGCCAAGCATGACGCCGTCCGGGCAGACGAACTCGCTGCCCGCGAGGCCATCGTGTCCGAGGCTGAGGCCATCTCCGGAACCGATCCGGCACAGATCCAGTGGAAGACCTCCAGCGCGCGGATGAATGAGCTCTTTGAGAGCTGGAAGGCCGCACAGAAGAGCGGTATCCGCCTCGGGCGCAGCAATGAAGACGCACTGTGGAAGCGGTTCCGTGCTGCCCGCACCGTCTTTGACCGCCACCGCCGTGCCTACTTCTCCCAACTGGACAGCAACAACTCGGCAGCAAAGGCTGCGAAGGAAAAGCTGATCGCCGAGGCCGAGGCACTATCCTCGTCAACGGACTGGGGCTTCGCGGCAGGGGAGTACCGCCGCCTCATGGACGAGTGGAAAGCCTCGCCCCGCGCCAGCCGCAAGGACGACGACGCTCTGTGGGCCCGGTTCCGCGCCGCCCAGGATATCTTCTTCACCAACCGCCAGGCAGCAAACGATGAGATCGACCAGGAGTACGCAGCCAACCTAAAGGTGAAGGAAGCCCTCCTCGAGGAGGCCAGCGCCATCCTTCCGGTTAGGGACCTCGGCGCCGCGAAGAAGGCGCTTCAGTCCATCCGTGACCGCTGGGAGGAAGCCGGAAAGGTGCCGCGCGCAGACATGGGGCGCATCGAGGCTGGCCTGCGCCGAATCGAAGACGCCGTCCGCCAGGCCGAAGAGGAAAACTGGCAGCGGTCCAACCCGGAGACCAAGGCGCGCACCAACAGTGCCCTGAGCCAGCTGGAGTCTGCCATTGCCGGTCTGAGGGAAGACCTGGCGAAAGCGGAGAAGGTTGGCGACCAGCGCAGGATCAAGGCCGCACAGGAGGCCCTCGACGCCCGCCAGGCCTGGCTTGACCAGATCCAGCGCTCCGCAAGCGAGCTCTCCTAA	MTDSQKSDETAAADLIEVPAPPAEPKEAAAEGTQAEATQPENTPAESAAEESAPEESAPVESVPEESAPAESAPEESAPEESAPVESAPEAGAAAVPAASPAAPTSSTPPPSPAPAPRPAPSPAAFAARPKAGTAAPAVSSPAASATSLAEAAKWGRVEGDGHVFLTIDGEEHPVGQYPGVSDDEALAYFARKYDDVVAQIVLLEHRVASKAPTTDMQKTVTHLREQLAERNMVGDIRSAEGRLDTLSTQITELEKAEKAKHDAVRADELAAREAIVSEAEAISGTDPAQIQWKTSSARMNELFESWKAAQKSGIRLGRSNEDALWKRFRAARTVFDRHRRAYFSQLDSNNSAAKAAKEKLIAEAEALSSSTDWGFAAGEYRRLMDEWKASPRASRKDDDALWARFRAAQDIFFTNRQAANDEIDQEYAANLKVKEALLEEASAILPVRDLGAAKKALQSIRDRWEEAGKVPRADMGRIEAGLRRIEDAVRQAEEENWQRSNPETKARTNSALSQLESAIAGLREDLAKAEKVGDQRRIKAAQEALDARQAWLDQIQRSASELS				NA	NA	NA	NA	NA
D1-17_01789	795			hypothetical protein	GTGGCGGCCAGTCCACGTGAAATGCGTGAAGCAAAGCGGCGCATTCAGCAGATGGAAGCCAAACGCGCGCTTCGGCGGGACCAGGAGAAACGGCGGAAGCGGGACAACCTCATTGCGGGGGCTGCCGGCGCAGCGGCGGTGATTCTCGCCGTCGTCCTCCAACTCGCAGTTTACTCCGGCAACCCGACCGAAGAGGAGTTTGCTGCGGCACAGGCAGGCCTGGAATCTCCGTCGGCTTCCCCGTCGCCCACCAACGCACCCAACATCCCCAAGCCGGAAACCGCCGCCGGAAAGGTCTTTACCGGCGAGCTCAGGCTGAACCGGGGCGCGCTGGGAGTGCAGCTGGACGGCACCAGGGCCCCGCAGGCCGCCGCTGTCTTCAAATCCCTCGCCGACGAGGGCTACTACAAGGGTGTCAGCTGCCACCGGCTCACCACTGCGGAAAACTTCGGCGTACTGCAGTGCGGTTCCAAGACCGGTGACGGCCAGGGAGACCCTTCCTACACATGGGGCCCACTGGAAAACACGCCGCCCGACAATAAATACCCGGCTGGCACCATTGCGGTGGCACGCACCGGCGGGAACGCCCACGGCAACGGCACTCAGTTCTTCATTGTGTATAGGGACACCGTCATTCCGGCTGACGCCGCAGGCGGCTACACAATAGTGGGCAAGGTGACCTCCGGACTGGACGTAGTCACAAAGATTGCGGCTGCAGGTCTTAAGAAGGGCGAAAACGCCACGGACGGCGCTCCTGTGGAACCAGTCACGATAGACTCGTTTTCTCTGAAGTAA	MAASPREMREAKRRIQQMEAKRALRRDQEKRRKRDNLIAGAAGAAAVILAVVLQLAVYSGNPTEEEFAAAQAGLESPSASPSPTNAPNIPKPETAAGKVFTGELRLNRGALGVQLDGTRAPQAAAVFKSLADEGYYKGVSCHRLTTAENFGVLQCGSKTGDGQGDPSYTWGPLENTPPDNKYPAGTIAVARTGGNAHGNGTQFFIVYRDTVIPADAAGGYTIVGKVTSGLDVVTKIAAAGLKKGENATDGAPVEPVTIDSFSLK	PGPT0015111_816	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015111-ppiB-K03768	NA	NA
D1-17_01790	1353	hisS	COG0124	Histidine--tRNA ligase	ATGGCACGCACCGCCTCCCTGTCCGGATTCCCCGAGTGGCTTCCCGAGGAACGGCTGGTGGAGCAGCATGTGCTGGACACCCTGCGCCGCACCTTTGAACTGCACGGGTTCTCTTCGATCGAGACCCGCGCGGTGGAGACTGTGGGCCAACTGCTGCGCAAGGGGGAGATCGACAAAGAGGTCTACGGCCTCAGCCGCCTCCAGGACGACGAAGGCGAGGAGTCCAGGAGCAAGCACGATCCGCACGCCCTGGCACTGCATTTTGACCTGACGGTTCCGTTCGCCCGTTACGTCGTGGAGAATGCCGGTTACTTGGCGTTCCCGTTCCGCCGTTACCAGATACAGAAGGTGTGGCGCGGTGAACGTCCCCAGGAGGGCCGCGCCCGCGAATTCACCCAGGCCGACATTGACGTGGTGGGGGACGGCGACCTGCCGTTCCGCTATGACGTGGAAATCGCGCTGGTCATCGCCGAGGCCTTGAGCGCCCTCCCCATTCCGGACTTCCGCCTGCGCATCAACAACCGCAAGCTTGCCGAAGGGTTCTACCGTGGCATCGGCCTGGACGACACCGCCGGAGTGCTGCGCAGCATCGACAAACTGGAGAAGATCGGCCCGGACAAGGTTGCCGAACTTCTCAAGACCGAACTCGGCGCCAGCGAGGACCAGGCGCAGGCGGCTCTGAAGCTGGCCGGCATACGGACCGAGGACACCTCCTTCGTGGGTCAGGTCCGTTCCCTCGGCGTGAACGACGAACTCCTCGAGGAAGGCCTGAACGAACTGGAGCAGGTCATTGAGGCCGCCGTGAAGCACGCACCGGGGAAGGTCGTGGCTGACCTGAGTATCGCCCGTGGCCTCGACTACTACACCGGGACGGTCGTCGAAACAGTTCTCGTGGGCCACGAACAGCTTGGCTCCATCTGCTCCGGCGGCCGCTATGACGCCCTGGCGAGCAAAGGCAACCGGAAGTTTCCCGGGGTTGGCCTTTCCATCGGCGTTACCCGCCTGGTCTCCCGCATCCTGAGCCAGGACCTCGCCAAGGCCTCCCGCTCTGTGCCCACCGCTGTGCTGGTCGCGCTGAATAACGATGACAGCTGGGGCGAGGCGCAGGACGTCGCCACGCAGCTGCGCAGCCGGGGGATTGCCACGGAGGTCGCCGCGAAGGCCGAGAAGTTCGGAAAGCAGATTAAGTTTGCGGACCGCCGCGGCATCCCCTTCGTCTGGTTTACAGATGACGACGGCAAGCACCAGGTCAAGGACATCCGGTCCGGCGTGCAGACCGACGCCGATCCGGCCACCTGGACGCCGTCGGATGAGGATCTGTACGTCCAGGTCACCGCGGCCGCATCCGAGTAG	MARTASLSGFPEWLPEERLVEQHVLDTLRRTFELHGFSSIETRAVETVGQLLRKGEIDKEVYGLSRLQDDEGEESRSKHDPHALALHFDLTVPFARYVVENAGYLAFPFRRYQIQKVWRGERPQEGRAREFTQADIDVVGDGDLPFRYDVEIALVIAEALSALPIPDFRLRINNRKLAEGFYRGIGLDDTAGVLRSIDKLEKIGPDKVAELLKTELGASEDQAQAALKLAGIRTEDTSFVGQVRSLGVNDELLEEGLNELEQVIEAAVKHAPGKVVADLSIARGLDYYTGTVVETVLVGHEQLGSICSGGRYDALASKGNRKFPGVGLSIGVTRLVSRILSQDLAKASRSVPTAVLVALNNDDSWGEAQDVATQLRSRGIATEVAAKAEKFGKQIKFADRRGIPFVWFTDDDGKHQVKDIRSGVQTDADPATWTPSDEDLYVQVTAAASE				NA	NA	NA	NA	NA
D1-17_01791	1206		COG0531	putative transporter	ATGCTCGGCGCCGGCGTGTTCGTGGTGTTCGCACCGGCCGCGGGACTGGCAGGCACACTCCTTGTCGTTTCCATCGTCATCGCAGGGGCCGTCGCCTACTGCAATGCGGTGGCGTCCGCCCAGCTGGCCTCGAAGTATCCGCATAGCGGCGGCACGTACGTCTATGGGCGCAAGCAGCTGGGCGAGTGGCCCGGGTTCCTCGCCGGCTGGGGGTTCGTGACCGGCAAAACCGCCTCCTGCGCAGCGATGGCGTTGACCTTCGGACAGTACGTCTCGCCCGGCTATGCCACGCCGGTGGCACTAGCGGCCGTCGCCGTGCTGACCGGAGTAAATCTTCTGGGCATCACGCGGACCGCGTTTCTGACCCGCATCCTGCTGGGGATCGTCCTGGCCACCCTCGTCTTTGTTGCCGTGGCCAGTCTCATGGGACCTCATCCTGAGGGCGCCGGATCCCCGGCATCGCCTGACGGGCCGGGCGGTGCGGCGGGCGTCCTTCCAGCCGCCGGCCTCGTGTTTTTCGCCTTCGCCGGATACGCCCGGATTGCCACCCTGGGAGAAGAGGTCAGGGACCCTGCGAAGGTGATTCCGCGGGCCATCCTCGGCGCCCTCGCGGGAGCCTTCACCGTTTACCTCGTCCTGGCACTGCTGCTGCTGGGGCATCTTCCCTTGGCGCAGCTTGCCGCATCACCGGCCCCGCTGCTGGACGCGGTGAAGCACTCCCGGTTTGCCGCGGCGGCGCCCCTCGTCCAAGCGGGGGCGGCCGCGGCCTCCCTCGGCGCACTGCTTGCACTCATCGCGGGAGTAGGACGCACCACGATGGCGATGGCCAGGGAGCGCGACCTGCCCGCTCCGCTCGCCCGCGTCGGGGGACGGCACACCGTTCCGTTCGCGGCCGAACTGGCTGTGGCCGCCGTCGTCATTGTGCTGTTGCTGACCAGCAATGTGCTGACAGTGGTGGGGTTCTCCAGCTTTGGCGTCCTCATGTACTACGCCGTAGCGAACGCCGCTGCCTACACGCTGACGGAACGCCCATGGCACGCGCCGAGGTGGCTCAACGCACTGGGGCTCGCCGGATGCCTGGTCCTGGCCTTCACGCTGCCGCAGGCATCGGTCCTCACCATGGTGGCCGTGCTGGTTGCGGGGCTGGCGGGCAGGGCGGCGGTGCTGCGGATCCGCGGCCGCCGGGCCCAAGCCGTTAAACGCTAG	MLGAGVFVVFAPAAGLAGTLLVVSIVIAGAVAYCNAVASAQLASKYPHSGGTYVYGRKQLGEWPGFLAGWGFVTGKTASCAAMALTFGQYVSPGYATPVALAAVAVLTGVNLLGITRTAFLTRILLGIVLATLVFVAVASLMGPHPEGAGSPASPDGPGGAAGVLPAAGLVFFAFAGYARIATLGEEVRDPAKVIPRAILGALAGAFTVYLVLALLLLGHLPLAQLAASPAPLLDAVKHSRFAAAAPLVQAGAAAASLGALLALIAGVGRTTMAMARERDLPAPLARVGGRHTVPFAAELAVAAVVIVLLLTSNVLTVVGFSSFGVLMYYAVANAAAYTLTERPWHAPRWLNALGLAGCLVLAFTLPQASVLTMVAVLVAGLAGRAAVLRIRGRRAQAVKR	PGPT0020810_6443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
D1-17_01792	1788	aspS	COG0173	Aspartate--tRNA(Asp/Asn) ligase	GTGCTGCGCACACATGACCTCGGATCCCTGCGCTCCGAGCACATTGGACAAACCGTAACCCTGGCCGGCTGGGTAGGCCGCCGTCGTGACCACGGTGGTGTCGCATTCGTCGATCTGCGTGACGCGTCCGGCGTCGCCCAGGTCGTGGTCCGGGAGGAAGAGGTGTTCCACGGCCTGCGCAACGAATACGTGCTGCAGGTGACCGGCACGGTGTCCAAGCGCCCCGAGGGCAACGAGAACCCTGCTCTCGCCACGGGCGAGGTTGAGGTCATGGCCGACAAGGTGGTCATCCTGAACACCGCGGACGCGCTGCCCTTCCAGATCGACGAGCACGTGGAAGTGGGCGAGGAGGCCCGCCTCAAGCACCGCTACCTCGACCTGCGCCGCCCCGGCCCCAGCCGCAACCTCCGCCTCCGTTCCGAGGCCAACCGCGTCGCCCGTGAACTCCTGCACAAGGAGGGCTTCGTGGAAATCGAAACCCCCACACTCACGCGATCGACGCCGGAAGGCGCCCGTGACTTTCTGGTCCCCGCCCGCCTGGCGCCGGGTTCCTGGTACGCGCTGCCGCAGTCGCCGCAGCTTTTCAAGCAGCTGCTGCAGGTGGGCGGCTTCGAGAAGTACTACCAGATTGCCCGCTGCTACCGCGATGAGGACTTCCGCGCGGACCGGCAGCCCGAATTCACCCAGCTGGACATCGAGGCGAGCTTCGTTGACCAGGACGACATCATTGCGCTCGGTGAAAGCATCGTGAAGGCCCTGTGGCAGCTGATCGACGTCGACATCCCGACGCCCATCCAGCGGATCACCTACGCCGACGCCATGGCCCGCTACGGCTCCGACAAGCCGGACCTCCGCTTCGGCCAGGAGCTGACCGAGCTGACCGAGTTCTTCAAGGACACCAACTTCGGTGTCTTTAAGGCGCCTTATGTCGGCGCAGTTGTCATGCCCGGCGGCGCCTCCCAGGCGCGCCGGGCCCTGGACGCCTGGCAGGAATGGGCGAAGCAACGTGGCGCCAAGGGCCTGGCCTACGTCCTTTACAAGGAAGACGGCGAGCTTGCGGGTCCGGTCGCCAAGAACCTCACCGAGACCGAACGTGCCGGCCTGGCCGATGCCGTCGGTGCCAAGCCGGGCGACTGCATCTTCTTCGCCGCCGGCGAGAAGACCCCGTCCCGGGCACTGCTCGGTGCTGCCCGTGTTGAAATCGGCCACCGCACCGGGCTGATCGATCCCACCGCCTGGGCGTTCTGCTGGGTTGTCGACGCCCCGATGTTCGAGCCGGCCGCTGCCGCGGTGGCCTCCGGTGACGTTGCCGTGGGCGGCGGCCAGTGGACGGCCGTCCACCACGCCTTCACCTCGCCCAAGCCGGAGTTCCTGGAGACCTTCGACAAAGACCCCGAATCTGCGCTGTCCTACGCGTACGACATCGTCTGCAACGGCAACGAAATCGGCGGCGGCTCCATCCGCATCCACGAGCGCGAAGTCCAGGAACGGGTCTTTGAGCTCATGGGCCTGGACAAGGCAGACGCCCAGACCAAGTTCGGCTTCCTCCTCGAAGGCTTCAAGTACGGCGCCCCGCCGCACGGCGGCATCGCCTTCGGCTGGGACCGCGTGGTTGCACTGATGGCAGGCGTTGACTCCATCCGCGACGTCATCGCGTTCCCGAAGTCCGGCGGAGGCCACGACCCCCTCACGGACGCTCCGGCTCCCATCACCCCGCAGCAGCGCAAGGAAGCCGGGGTGGACTTCAGGCCCGAGGTGAAGAAGCTCGAGGACAAAAAGCCCGAGTAG	MLRTHDLGSLRSEHIGQTVTLAGWVGRRRDHGGVAFVDLRDASGVAQVVVREEEVFHGLRNEYVLQVTGTVSKRPEGNENPALATGEVEVMADKVVILNTADALPFQIDEHVEVGEEARLKHRYLDLRRPGPSRNLRLRSEANRVARELLHKEGFVEIETPTLTRSTPEGARDFLVPARLAPGSWYALPQSPQLFKQLLQVGGFEKYYQIARCYRDEDFRADRQPEFTQLDIEASFVDQDDIIALGESIVKALWQLIDVDIPTPIQRITYADAMARYGSDKPDLRFGQELTELTEFFKDTNFGVFKAPYVGAVVMPGGASQARRALDAWQEWAKQRGAKGLAYVLYKEDGELAGPVAKNLTETERAGLADAVGAKPGDCIFFAAGEKTPSRALLGAARVEIGHRTGLIDPTAWAFCWVVDAPMFEPAAAAVASGDVAVGGGQWTAVHHAFTSPKPEFLETFDKDPESALSYAYDIVCNGNEIGGGSIRIHEREVQERVFELMGLDKADAQTKFGFLLEGFKYGAPPHGGIAFGWDRVVALMAGVDSIRDVIAFPKSGGGHDPLTDAPAPITPQQRKEAGVDFRPEVKKLEDKKPE				NA	NA	NA	NA	NA
D1-17_01793	705			hypothetical protein	ATGCCACACAGTGCTACAGCAGGCGGAGCAGCGGGCCGGGCTACGCCCGGCGGCCATCCGTCACCGCCGTCGCGGACCGCGTTCGTATCCGGTCCCCGGCTGGCCGGCTGGGTGGAGCGGTTCCGGTCCAGTCACGGCGTGCTGGAGATCGAAGACCACGACGACGGCGTGCGGCTTCTCGCAGCCGACGGCGCCAGTGCACTGCTGCAGGCGCCTTGGCCGGCGGACGGCAGGCCAGGGCGCGGACCCGGCTTGGTGGAGCGTCTGGCTTCCCTCGCCTCCCAGCCGCGCAGGATCGGCCTGGTCCTGGTGCGCCGGGGTGGGTACGGTGTGGCGGTTGCCAGCGAGGGGCACATCCTGGCGTCCAAGACCGGCTCCAAGTATGTGCAGTCACGGACCGCTGCCGGAGGCCAGTCCCAGCAAAGGTTTGCGCGGCGCCGTTCCAACCAGGCCGATGCGATGGTCGAGGCAGTGGCGGAACAGGCCGGGCGTGTCTTCAGCGGGGAGGTCTTCGAGTATGTGCTGCCTGGCGGGGACCGCGCGCTGGCGGACCTTGTCCTCGAGCAGCCTGCCCTCAAGGCTTATGCCCGGCTGCCGCGCCTGGCGTACCTCGATGTCCCCGATCCACGCGCTGCGGTCCTGAAGAAGGCCGCGGCGGACGCGTGCTCGGTGCGGATCACAGTCAGCGACCCGCCGGCCCCCTAA	MPHSATAGGAAGRATPGGHPSPPSRTAFVSGPRLAGWVERFRSSHGVLEIEDHDDGVRLLAADGASALLQAPWPADGRPGRGPGLVERLASLASQPRRIGLVLVRRGGYGVAVASEGHILASKTGSKYVQSRTAAGGQSQQRFARRRSNQADAMVEAVAEQAGRVFSGEVFEYVLPGGDRALADLVLEQPALKAYARLPRLAYLDVPDPRAAVLKKAAADACSVRITVSDPPAP				NA	NA	NA	NA	NA
D1-17_01794	1509		COG2256	putative AAA domain-containing protein	GTGGATGATCTCTTTGGCCCGGGGCAGGGCAATGACGACGACGGCGACTCGCCTGACGCTGCCGACCGCACTGCCGGCAGCGGCACTGCCGACAAGACGGCCGGCGGCGGTGCTACTGGCAGGACGGCCGGCGCCTCGCGAAACGCCGCGCCCCGCAGCCCCCTCGCCGTCCGCATGCGGCCCCGCACCCTGGACGATGTGGTGGGCCAGCAGCACCTGTTGGGCCAGGGCTCGCCGCTGCGCCAGCTGGCAGCCGGGGCAGACGCCGGCGGCCCCGCAGGCCCCAGCTCGGTCATCCTCTGGGGTCCGCCTGGCACCGGCAAGACCACGCTGGCCCATGTCATCGCCAGGGGGCCCGGCAGGAAGTTCGTGGAGCTCTCGGCGATCACCGCCGGAGTCAAGGACGTGCGCAAGGTCATGGATGATGCGCTGACTGCCCGCGACCTCTACAAAACCACCACGGTGCTGTTCCTGGATGAAATCCACCGATTCAACAAAGCCCAGCAGGACGCTCTGCTGCCCGGCGTCGAAAACCGCTGGGTGGTGCTCGTGGCAGCGACCACCGAGAATCCCTCCTTCTCCGTGGTCTCCCCGCTGATGTCCCGTTCCCTGCTGCTCACGCTGAAACCGCTGACCGACTCCGACGTCGAGGGCCTGCTGCTGCGGGCCGTGGAGGACTCCCGCGGCCTGCGCGGCGAAGTCCGGCTCAGCCCCGAGGCACTGGCGCACCTCGTCCGGCTCTCGGGCGGGGATGCCAGGCGGGCCCTTACGGCGCTGGAGGCGGCCGCCGGCGTCGCGTTCGGCGACGCGGACGACGTCGGAAGTTCCGATTCCGGGGAGGGTGGCGCTGCCGGCGGCAGCCCCGGCGATCCGGTCACCGTGGAACTGCGGCATACGGAGCGTGCCCTTGATGTGGCGGCCGTTCGGTACGACCGTGCGGGGGACCAGCACTACGACGTTGCCAGTGCCTTCATCAAGTCCATCAGGGGTTCGGACGTGGACGCGGCACTGCACTACCTGGCCCGGATGCTCGAAGCGGGGGAGGACCCGCGGTTCGTCGCCCGCCGTATTGTGATCTCCGCCGCTGAAGACGTCGGCATGGCCGACCCCACTGCGCTGCAGACGGCCGTCGCGGCGGCGCAGGCGGTCCAGCTCATCGGAATGCCGGAAGGCCGGATCATCCTCGCCGAGGCGGTTGTCCACCTCGCCACGGCGCCAAAGTCCAACGCCGCCTACATGGGCATTAACAAGGCCATCGCGGACGTCCGCGCGGGGCTGGGCAACGGAATTCCGCCCCACCTGCGGGACTCGCACTACCCTGGGTCGAAGCAGCTGGGGCACGGACTGGGCTACAAGTACGCCCACGACGCCCCCCACTCGGTGGCATCCCAGCAGTATCCTCCGGACGACCTCGTGGGCCGCGATTACTACGAGCCGACGGCCAACGGGGCGGAGCGTGACATCGCGGTGCGGCTCGAACGGCTCCGCAAGATTATCCGGGGCAAGTGA	MDDLFGPGQGNDDDGDSPDAADRTAGSGTADKTAGGGATGRTAGASRNAAPRSPLAVRMRPRTLDDVVGQQHLLGQGSPLRQLAAGADAGGPAGPSSVILWGPPGTGKTTLAHVIARGPGRKFVELSAITAGVKDVRKVMDDALTARDLYKTTTVLFLDEIHRFNKAQQDALLPGVENRWVVLVAATTENPSFSVVSPLMSRSLLLTLKPLTDSDVEGLLLRAVEDSRGLRGEVRLSPEALAHLVRLSGGDARRALTALEAAAGVAFGDADDVGSSDSGEGGAAGGSPGDPVTVELRHTERALDVAAVRYDRAGDQHYDVASAFIKSIRGSDVDAALHYLARMLEAGEDPRFVARRIVISAAEDVGMADPTALQTAVAAAQAVQLIGMPEGRIILAEAVVHLATAPKSNAAYMGINKAIADVRAGLGNGIPPHLRDSHYPGSKQLGHGLGYKYAHDAPHSVASQQYPPDDLVGRDYYEPTANGAERDIAVRLERLRKIIRGK				NA	NA	NA	NA	NA
D1-17_01795	627	rpsD		30S ribosomal protein S4	GTGGCTAACAACACTCGTGCTCGCCGTCAGGCCCGCCTCTCGCGGTCCCTCGGCATCGCTCTGACCCCCAAGGCCGCTAAGTACATGGAGCGCCGCCCGTACGGCCCCGGTGAGCATGGCCGCGCCCGCAAGAAGCAGGACTCCGACTACGCCGTCCGTCTGCGCGAAAAGCAGCGCCTGCGCGCTCAGTACGGCATCCGCGAAGCCCAGATGACCCGCGCCTTCGAAGAAGCACGCCGCACCAAGGGCCTGACCGGTGAAAACCTGATCGAACTGCTCGAAATGCGTCTCGACGCCCTCGTACTGCGTGCCGGCTTTGCCCGCACCATCGCCCAGGCCCGCCAGCTGGTTGTGCACCGCCACATCCTGGTTGACGGCATCCGCGTTGACCGCCCGTCGTTCCGCGTCGGCGAGGGCCAGCTGGTCCACGTTCACAGCCGCAGCGAAACCATGCCTCCTTTCCAGGTTGCAGCAGCCGGCGCACACCGCGACGTCCTGCCCGCCGTTCCGGCGTACCTGGACGTCAAGCTTGACGCCCTGCAGGCACGCCTGGTCCGCCGCCCGAAGCGCTCCGAGGTCCCCGTGACCTGCGAAGAGCAGCTCGTCGTCGAATTCTACGCACGCTAA	MANNTRARRQARLSRSLGIALTPKAAKYMERRPYGPGEHGRARKKQDSDYAVRLREKQRLRAQYGIREAQMTRAFEEARRTKGLTGENLIELLEMRLDALVLRAGFARTIAQARQLVVHRHILVDGIRVDRPSFRVGEGQLVHVHSRSETMPPFQVAAAGAHRDVLPAVPAYLDVKLDALQARLVRRPKRSEVPVTCEEQLVVEFYAR				NA	NA	NA	NA	NA
D1-17_01796	375			hypothetical protein	ATGTCTGGTGGCGATATTGCCGGCCTGATCGCGGCCGGAGTATTTGCGCTCCTGGTCCTGTTGCTTGCTGTCCCCATCCTTAAGCTGGGGCGGGTTTTTGATGAGGTGCGGACCTCCATCCGTTCCATCAGCGACGGCGCAACTCCCCTCATGGACGAAGTCACCGCGACCGTTTCCGCCACCAACCAGCAGCTGAAGAAGGTCGACGGCATCGCCTCCAACGTGTCGGACGCCACGGCCAACATCTCCGCGCTGTCCTCGCTGATGGCCGCCACTGTCGGTTCGCCGCTGATCAAGGTCGCCGCCTTCAGCTACGGCGTGCGCTCCGCCCTGGCCGCCCGCAAGAAGCCCGCCACCGGCCGTCGCAGCCGCTAA	MSGGDIAGLIAAGVFALLVLLLAVPILKLGRVFDEVRTSIRSISDGATPLMDEVTATVSATNQQLKKVDGIASNVSDATANISALSSLMAATVGSPLIKVAAFSYGVRSALAARKKPATGRRSR				NA	NA	NA	NA	NA
D1-17_01797	231			hypothetical protein	ATGAAGAGACTTGTCTGGATGGGCATCGGCGTTGCCATCGGTGTCATCGCGTTCCACAAGGTCACCGAGGCGCAGGCCACCCTCGGACCGGAAGGCCTGAACCGTGCGGTCGGCCGGCTGGCGGACGGTGTTTACGACTTTGCCGATGCCGTCCGAAGCGGCATGCGTGAGCGGGAGACCGACCTGCGCACGGCGCTCGGCGTCGAGCCCCAGGACGTTGCCGGCCGCTAG	MKRLVWMGIGVAIGVIAFHKVTEAQATLGPEGLNRAVGRLADGVYDFADAVRSGMRERETDLRTALGVEPQDVAGR				NA	NA	NA	NA	NA
D1-17_01798	2679	alaS	COG0013	Alanine--tRNA ligase	ATGAAGTCGCAGGAGATCACAAAGCGCTGGGTGGACTTTTTTGTCAGCAAAGGCCACACCGCGGTTCCCTCCGCGTCGCTGGTCTCCAGCGACCCCTCCCTGCTGTTCACGGTTGCGGGCATGGTCCCGTTCATCCCTTACTTGACGGCCCGTGAAGAAGCTCCCTACTCCCGCGCCACCAGCGTGCAGAAGTGCATCCGCACCGGTGACATCGAAGAAGTGGGCAAGACCGCCCGTCACGGCACCTTCTTCCAGATGTGCGGCAACTTCTCGTTCGGCGACTACTTTAAAGAAGACGCCATCAAGTTCGCCTGGGAACTGCTCACCACCAGCGTGGACGACGGCGGGTACGGGCTTCCGCCGGAACGCCTCTGGGTGACTGTCTACGAAGAGGACGACGAAGCCGAGGAACTCTGGCTGAAGAACACGGGCGTGCCCGCGGAGCGCATCCAGCGCATGGGCAAGGCCGACAACTACTGGTCCACCGGCCAGCCCGGCCCGGCCGGTCCCTGCTCGGAAATCTACTACGACCGCGGCCCCGCTTATGGCGTCGAAGGCGGACCGATCGCCGACGAGAACCGCTACGTCGAGATCTGGAACCTTGTGTTCATGCAGTACCAGATCGACAACGTCCGTTCGAAAGTGGAGTTCGATATCACGGGCGAACTGCCCAAGAAGAACATCGACACCGGCCTGGGCATGGAACGTCTCGCAATGATCCTGCAGGACGTCGAGAACATGTACGAGACCGACCAGGTCCGCCCGGTCATCGACATGGCTTCCAAGCTCTCAGGCAAGGAATACACCTCCGCCGAGACGGAGGATGACCCCCACCATGCCGACGACGTCCGCATGCGGGTGGTCGGAGACCACATCCGCTCCGCCCTCATGCTCATCGCCGACGGGGTAACGCCTTCCAACGAAGGCCGCGGTTACGTGCTGCGCCGCCTGATCCGCCGCGCCGTCCGCTCGATGCGCCTGCTGGGCGTCGAAAAGGCCTGCCTGCCGGATCTCCTGCCCGCCTCCCGCGATGCCATGAAGGGCGTCTACCCGATCGTGGAGACGGACTTCGACCGCATCAGCCGGATCGCCTACGCGGAAGAAAAGGCGTTCCTGCGGACCATCGCCTCCGGCACTGCCCGGCTGGAAGACGCCGTGAAGGAATCCAAGGCAGCAGGCCGCCCGCTCTCAGGCGCCGACGCCTTCACCCTGCACGACACCTACGGGTTCCCTATCGACCTCACCCTTGAAATGGCCGAGGAAGCCGGCCTGAAAGTGGACGAGCCCGAGTTCCGCAAGCTCATGCTCGAACAGCGCCAGCGTGCCCAGGCCGATGCCAAGGGCAAGAAGGGCGCCCACGCCGACCTTAGTGCCTTCCAGGAACTGCTGGCGGAGGGTGAGACCGTCTTCACCGGCTACACCGACCTTGAAGGCGAATCGAGGGTCCGCGGGATCCTGAGCGCCGGCCGTAAGGTATCGCAGGCCGCCACGGGCGACGAGATTGAGCTTGTCCTCGCCGAAACGCCGTTCTACGCCGAAGCCGGCGGCCAGGCCGCGGACACAGGCCTGATCACCGGTGACGGGTTCGTCGTCGAGGTGCTGGACGTCCAGCGGCCGGTGAAGGGACTCAGCGTCCACAAGGCCATCGTCCGCGAAGGTGAGATCGCCTCCGACGCGCTGGTCCGTGCGGCCGTTGACCGGGAACGCCGCCATGCCGCTGAGCAGGCCCACACGGGCACCCACATTGTCCACGCTGCCCTGCACCAGATCCTGGGACCGCAGGCCGTCCAGCGCGGCTCCTTCAATAAGGCCGGCTACCTGCGCTTCGACTTCGCCTGGGGCGAGGGACTGAGCACCGCGACCCGTTCGGAGATTGAGGAAGTGTCCAATCTCGCCATCCGGAACAACTTCCAGGTGGACACCAAGGTCATGCCCCTCGCCGAAGCAAAGGCCCTCGGTGCCATGGCGCTGTTCGGGGAAAACTACGGCAGCGAAGTGCGCGTGGTGGAAATCGACGGCGCATGGTCACGCGAGCTGTGCGGCGGTACGCATGTGCCGAACACGTCGCTCATCGGCAGCCTGTCGCTGCTGGGTGAGCAGTCCGTAGGCTCAGGGAACCGCCGTGTGGAGGCCTTTGTGGGCATGGACGCCTTCCGGCACCTGGCCGCGGAACGGGCACTCGTTACCGAGCTGACTGAGATGCTGAAGGTGCCCTCGGGGCAGCTTGCCGACCGCATTGCAGCCACCCTGACGAAGCTCAAGACAGCCGAAAAGGAACTCGAACGGCTCCGCAAGGAGCAGCTCGCAGCAGCTGCCGCGCAGCTCGTCGGAACTGCCAAGGACGCTGCCGGAGTGCGTGTCATCGCCCACGACGCCGGACAGGTGGGCGGTGCGGATGATCTCCGGGGCCTTGCCCTGGACCTGCGGAACCGCCTTGGCTCCGAGGCGGCCGCGGTAGCCGTGGCCGGCGTCAGCAACGACCGCCCGGTCATCCTTATCGCCACCAACGACGCTGCCCGCACGGCCGGTGTAAAGGCTGGAGCGCTGGTACGCCTTGCGGCCGGCATCCTGGGCGGCGGCGGAGGCGGCAAGGACGACGTCGCCCAGGGCGGCGGCACCGACGCCTCCAAGGTCGGAGCCGCGCTGTCCGCCATCGTCGATGCCGTGACCCGGCGCTAA	MKSQEITKRWVDFFVSKGHTAVPSASLVSSDPSLLFTVAGMVPFIPYLTAREEAPYSRATSVQKCIRTGDIEEVGKTARHGTFFQMCGNFSFGDYFKEDAIKFAWELLTTSVDDGGYGLPPERLWVTVYEEDDEAEELWLKNTGVPAERIQRMGKADNYWSTGQPGPAGPCSEIYYDRGPAYGVEGGPIADENRYVEIWNLVFMQYQIDNVRSKVEFDITGELPKKNIDTGLGMERLAMILQDVENMYETDQVRPVIDMASKLSGKEYTSAETEDDPHHADDVRMRVVGDHIRSALMLIADGVTPSNEGRGYVLRRLIRRAVRSMRLLGVEKACLPDLLPASRDAMKGVYPIVETDFDRISRIAYAEEKAFLRTIASGTARLEDAVKESKAAGRPLSGADAFTLHDTYGFPIDLTLEMAEEAGLKVDEPEFRKLMLEQRQRAQADAKGKKGAHADLSAFQELLAEGETVFTGYTDLEGESRVRGILSAGRKVSQAATGDEIELVLAETPFYAEAGGQAADTGLITGDGFVVEVLDVQRPVKGLSVHKAIVREGEIASDALVRAAVDRERRHAAEQAHTGTHIVHAALHQILGPQAVQRGSFNKAGYLRFDFAWGEGLSTATRSEIEEVSNLAIRNNFQVDTKVMPLAEAKALGAMALFGENYGSEVRVVEIDGAWSRELCGGTHVPNTSLIGSLSLLGEQSVGSGNRRVEAFVGMDAFRHLAAERALVTELTEMLKVPSGQLADRIAATLTKLKTAEKELERLRKEQLAAAAAQLVGTAKDAAGVRVIAHDAGQVGGADDLRGLALDLRNRLGSEAAAVAVAGVSNDRPVILIATNDAARTAGVKAGALVRLAAGILGGGGGGKDDVAQGGGTDASKVGAALSAIVDAVTRR				NA	NA	NA	NA	NA
D1-17_01799	600	yqgF		Putative pre-16S rRNA nuclease	GTGTCGTCAACTGCTGAGTCGCCCGCCTACCCCCAGGGAATTAAACTGGGGGTAGACGTGGGGACCGTCCGTGTGGGCGTTGCCATCTGTGACAGGGATGCGATCCTGGCCACCCCGCTAAAAACGCTGGACCGCAACCCCAAAAAGAACTCCGACGTGCGGGCCCTCGCTGCCCTGGCAGTGGACAGGGGAGCGGTGCAGGTTTTCGTAGGTCTTCCGCGCACCCTGAAAGGCGAGGAACACGCTTCCGCGCGCATGGCCACGGATTACGCCCAGCTGCTGGCCGACGCGCTGAACCGGGCCGGAGCAGACGTGCCGGTGCACCTCGTGGACGAGCGGCTAAGCACGGTCACCGCGCACCGACACCTGCACGAAGCTGGCATGAGCAGCAAAAATCACCGTAAAGTGGTGGATCAGGTTGCTGCTGCGGGAATTCTGCAGCACGCCATTGATATGCAAAAGGCCAGGGGAACGGATGTGGGAAGCCGCGTATGCGCGCTTGCCCAGCCGGGGCTGACCGGAGACGCCGCAGCAGATGATGGCGGGCAGGACGTCCCGGGGAAAGACATGCAATCTTCAAAAGATGGAAGGCAACAGTGA	MSSTAESPAYPQGIKLGVDVGTVRVGVAICDRDAILATPLKTLDRNPKKNSDVRALAALAVDRGAVQVFVGLPRTLKGEEHASARMATDYAQLLADALNRAGADVPVHLVDERLSTVTAHRHLHEAGMSSKNHRKVVDQVAAAGILQHAIDMQKARGTDVGSRVCALAQPGLTGDAAADDGGQDVPGKDMQSSKDGRQQ				NA	NA	NA	NA	NA
D1-17_01800	1704	mltG		Endolytic murein transglycosylase	GTGAGCCCGGTCAACAGTGACGACTCCTCCGGCAGGAACTTCAGGGGCGCCGGACGGGCGCTGACGCGCAAGGAAATCCGTGCGCGGGAGAAGTCCCTCACGGCGGATTCCGGGAACCTCGTGCCCGAACAGGCCTACGAGTCCGGGAACGATGGCCCGGACGTTCCGGAGCGCCTTCCAACAGCGCAGGCGACTACAGGTGCGCCCACCACCGGCGTTCCGATGGTTCCGACTGCGCCGCCCACCATTGCGGTTCCTGCCGCGGAACACGGGGACGGCCACTCAGGCGAACACGGCATGCACGCCGCCGGCGCCCCCGGCACGCCAGCAGTTGAAGCCCATACGGACCGCCTTCACCACGCAGCCCACGCCGAGGGCAGGCACGAGGAGCATGTGTTCTCCTCCGCCGAAACCCAGCACTATGGCGAACCCCACCACAATGCCGAACCCCATCACGACGGCGGGCATGCCGGCGATGGCTACACGGCCTACCACCACGGGGCGCACCCGGATGACGCGCACCACCACGACCTCCTCCACCAGGACCCGCACGCAGGGACGTATGAGGACCATGAGCACTACGGGCACGACTCCGTCGGCCAGCAGCTGCTCGGCACCCCTGAGGTCGTCAAACCCCGTCCCTCGAAGAAAGTCCGCCGCAGGCGCCGGATCGTCGCGCTGCTGCTGACGCTTGCCCTGTTCGTCACTGCGACGGTCGTCGGGGCGCAGTTCCTCAAACCGCTGCTGGGCGACAGCAGGCCCAGCGACTACCCGGGACCGGGCACGGGACAGGTCACTGTGGCAGTCCAGCCCGGCGAAGGGCCGATGTCCGTCGCCGCCAAGCTCGAGGACGCTAAGGTGGTGGCCAACGCCGACACGTTCGTGTCAGCCCTTGCCGCTTCGGGCGGCACCCTGGCTCCCGGTGAATACGACTTCAAACAGGAAATGAAGAATTCCGACGCCGTCGCCGTCCTGCTCAACGAGGGCCAGTCCAAGGTCATGTACGTCGCTCTGAGCGCCGGCCTGCGGATCAACGAATCACTGGAGGCCATCTCCGAAGGCTCCGGGATCCCCGTGTCGCAGTTCAAGACCCTCAGCGACTCTCCCCAGCAGTTTGGCCTGCCGGCTAAGGCCAAGAATCTTGAAGGCTACCTCGCCCCGGGCGAGCACCGGTTCCCGCTGGGGACCACGCCCAAAGAGATCCTGACGCAGCTTGTCAAGATCACCACCGAGGAACTGAATGCCCAGGGCGTCGCTGACCCGGCCAAGCAGTACGAGGTCCTGACGGTGGCGAGCATCGTCCAGGCCGAAGGCGGCCAGGCAGAGTACAAGGACGTTGCCGGCGCCATCTACAACAGGCTCAAGCCGAACAACACAGAGACGGCCGGGCTGATCCAGTCCGACGCCACCGTCACTTACGGCCTGGGCAGGAAAAGCTTCCACATCACTGAAGAGGAAAAGGCGGACAAGTCCAACCCGTACAACACGTACGCCATCCAGGGGCTGCCCGTTGGCCCTATCGGTTCGCCGGGTAAGACGGCCATCGATGCGGCGGCGCAGCCGAACAAGAACGAGTACATGTACTGGGTGACCATCAACCTGGATACCAAGGAAACAAAGTTCTCCAAAACACTGGCGGAGCACCAGCGTTACGTTGATCAGTACAATGCCTGGTGTGAGGCCAACCCCGGCCGTTGCGTATGA	MSPVNSDDSSGRNFRGAGRALTRKEIRAREKSLTADSGNLVPEQAYESGNDGPDVPERLPTAQATTGAPTTGVPMVPTAPPTIAVPAAEHGDGHSGEHGMHAAGAPGTPAVEAHTDRLHHAAHAEGRHEEHVFSSAETQHYGEPHHNAEPHHDGGHAGDGYTAYHHGAHPDDAHHHDLLHQDPHAGTYEDHEHYGHDSVGQQLLGTPEVVKPRPSKKVRRRRRIVALLLTLALFVTATVVGAQFLKPLLGDSRPSDYPGPGTGQVTVAVQPGEGPMSVAAKLEDAKVVANADTFVSALAASGGTLAPGEYDFKQEMKNSDAVAVLLNEGQSKVMYVALSAGLRINESLEAISEGSGIPVSQFKTLSDSPQQFGLPAKAKNLEGYLAPGEHRFPLGTTPKEILTQLVKITTEELNAQGVADPAKQYEVLTVASIVQAEGGQAEYKDVAGAIYNRLKPNNTETAGLIQSDATVTYGLGRKSFHITEEEKADKSNPYNTYAIQGLPVGPIGSPGKTAIDAAAQPNKNEYMYWVTINLDTKETKFSKTLAEHQRYVDQYNAWCEANPGRCV				NA	NA	NA	NA	NA
D1-17_01801	861	aroE_2	COG0169	Shikimate dehydrogenase (NADP(+))	ATGAGCCTGCGCGCGGCCGTCCTCGGTCATCCGATCGGCCACTCGAAATCCCCGGCCCTGCATCTCGCCGCCTATGCCCGGCTGGGGGAGGACATCGGTTACAGCGCCATTGATGTCACCGAGGAGGGCCTGCCCGCCTTCATGGCGAGTGTTCGCGGCCAGGAGGGCTGGCGCGGGCTTTCCGTGACGATGCCGCTCAAGACGGCCATGGTGCGTGAAGTCGACGAGGTCCGCGGCGTTGCCCGCGTGCTTGGTGTCATCAACACGGTGGTGTTTGAGGGCGAAGGAGAGTCCGCACGGCGGATCGGTTACAACACGGACGTCGCGGGAATCGTCAACGCCCTGCGCAACGCCGGCGCCGTTCAGGCTCCGGCCGCCGTGGTGCTGGGCGGCGGCGGAACGGCAGCGGCCGCCGTGGCGGCCCTGCAGGAACTCGGCGCGCAGTCCGTCGACGTCTTCGTGCGGAACACGGGCCGCGCCGCGGAAGCGCGGGCGGCAGCACGTGGTTTGGCCATGGACATCGGTGTGCACCCCATGAGTGGCGCCGTTGACGCAATGGCGGCTGCCGACGTCGTCATTTCCACCCTGCCGCCGCGGGCGGCGGACGGAATGGCGGCTGAGCTTGAGCAGCGGGGCCAGGCAACAGACGGGATCCTGCTCGACGTCGCCTACGATCCATGGCCCAGCAAAATCGCCGCCGCATGGCAGCAAGGGGGCGGAACCGTGGTGCCCGGACTTGAGATGCTGCTCTACCAGGCGGTCGAACAGGTGCGCTACTTCACCGGCCGCGAAGACGCCGCCAGCGCCGAAGTCATAGATGTGATGTGTATCGCAGTCGGGGCACCCCGGCGCGTACTCTGA	MSLRAAVLGHPIGHSKSPALHLAAYARLGEDIGYSAIDVTEEGLPAFMASVRGQEGWRGLSVTMPLKTAMVREVDEVRGVARVLGVINTVVFEGEGESARRIGYNTDVAGIVNALRNAGAVQAPAAVVLGGGGTAAAAVAALQELGAQSVDVFVRNTGRAAEARAAARGLAMDIGVHPMSGAVDAMAAADVVISTLPPRAADGMAAELEQRGQATDGILLDVAYDPWPSKIAAAWQQGGGTVVPGLEMLLYQAVEQVRYFTGREDAASAEVIDVMCIAVGAPRRVL	PGPT0012890_1606	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
D1-17_01802	1200	aroC	COG0082	Chorismate synthase	ATGTTGCGTTGGTTGACTGCCGGTGAGTCCCATGGTCCGGCACTTGTCGGAATAATCGAAGGCGTCCCCGCCGGTGTTGAACTCACCAGCGGACAGATCGCCGATGCCTTGGCGCGCCGCCGCCTTGGCTATGGCCGCGGTGCCCGGATGAAGTTCGAGCAGGATGTTGTCACCATTCTTGGGGGAGTCCGCCACGGACTGACCCAAGGCGGCCCCGTTGCCATCCAGGTGGGGAACACCGAATGGCCCAAATGGGAGCAGATCATGTCTGCCGACCCCGTTGACCCCGAGCTGCTGGCCGACCAGGCACGCAACGCCCCGCTGACCCGTCCGCGGCCAGGACATGCAGACTTTACCGGGATGCAGAAATACGGGTTCGACGAGGCCCGGCCCGTGCTGGAGCGTGCCAGCGCCCGCGAAACCGCCACGCGCGTTGCCATGGGCACCGTCGCTGCGCAGTTCCTGAAGCACCTGGGCATCGAACTCGTCAGCCACACCGTATCGATCGCGAGCGTCGCCGTTCCCGAAGGCAGGCCCCGCCCGCTTCCGGTCAACGTGATAGCGCTTGACGCCGACCCCCTGCGCTGTTTCGACCGCGAAACCTCTGATGCCATGGTGGCGGAGGTGGACGCAGCCCACAAGGAAGGCGAAACCCTCGGCGGGGTAGTGGAGGTGCTGGCTTACGGGCTCCCGCCTGGACTGGGCAGCTACGTTCACTGGGACCGCCGCCTCGATTCCCGCCTTGCCGCCGCCCTCATGGGCATCCAGGCCATCAAGGGTGTGGAAGTCGGTGACGGGTTCCTCACCGCCGCCAGGCGCGGTTCGGCAGCCCACGATGAAATCGTCAAGGACGCCGACGGCAGGATTGTCCGTACCACCAACCGTGCCGGCGGCATCGAAGGGGGCATGAGCATCGGCGACGTCCTGCGCGTCCGGGCTGCCATGAAGCCGATCGCCACCGTCCCGCGCGCCCTGAAGACCATCGACATCAGCACCGGCGAGGCCGCGAAGGCCCACCACCAGCGCTCCGACGTCTGTGCAGTCCCGGCGGCGGGTGTTGTCGCCGAGGCCATGGTTGCCCTGGTCCTCGCCGAGGCTGTCACCGAGAAGTTCGGCGGTGACTCGGTGGAGGAGACTGCCCGCAACATCAAGGGCTACCTGCAGAACATTCCGGCGTCGCTGGACTCGATCGGACTCTAG	MLRWLTAGESHGPALVGIIEGVPAGVELTSGQIADALARRRLGYGRGARMKFEQDVVTILGGVRHGLTQGGPVAIQVGNTEWPKWEQIMSADPVDPELLADQARNAPLTRPRPGHADFTGMQKYGFDEARPVLERASARETATRVAMGTVAAQFLKHLGIELVSHTVSIASVAVPEGRPRPLPVNVIALDADPLRCFDRETSDAMVAEVDAAHKEGETLGGVVEVLAYGLPPGLGSYVHWDRRLDSRLAAALMGIQAIKGVEVGDGFLTAARRGSAAHDEIVKDADGRIVRTTNRAGGIEGGMSIGDVLRVRAAMKPIATVPRALKTIDISTGEAAKAHHQRSDVCAVPAAGVVAEAMVALVLAEAVTEKFGGDSVEETARNIKGYLQNIPASLDSIGL	PGPT0012875_690	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
D1-17_01803	630	aroK		Shikimate kinase	GTGCCCCCCAGCAATACACCCCGCACCCCGGGGAATCGTCCCATCGTGCTCATCGGCCCCATGGCAGTGGGGAAGTCCGCCCTCGGCCACCAACTGGCACAGCAGCTTGGTGCACTGTTCGTGGACACCGACTCCGTCATCGTCGAGCACCACGGCTCCATCGCGGACATCTTCGCAGGACGTGGTGAACACGCCTTCCGGGAGATTGAGGCACGGACCGTAGCCCGCGTCGTCGAAGCCGCCGCCGGTACGGACACCGTCATTTCACTCGGCGGCGGATCCGTCCTGGACTCCGGCACCCAGCAGCTGCTGCAGCGCTGCACGGTGGTCTACCTGGAGTGCGACGTCGACACCGTGGCTGCCCGGATCGCCAGGAACTCCGGCCGTCCGCTGCTGGCCGGTGACGGCATCAGCCGGTGGAAGGACCTCTTTGCGACGAGGAAACCCGTCTACGAACGCCTCGCGGACATCGTCCTCGATGTGCGGCGGGGATCGGTGGCGGAACTGGGCCGCCGGCTTGAAACGGCGCTGCAGGAGTATACGGAAGCGGGCTATAAACGCGCGGCGCACAACGCCGCGGACGCAGCGGCCGGGGACAATACGGCCGCTAAACAGGAAGCTGAAAAGTGA	MPPSNTPRTPGNRPIVLIGPMAVGKSALGHQLAQQLGALFVDTDSVIVEHHGSIADIFAGRGEHAFREIEARTVARVVEAAAGTDTVISLGGGSVLDSGTQQLLQRCTVVYLECDVDTVAARIARNSGRPLLAGDGISRWKDLFATRKPVYERLADIVLDVRRGSVAELGRRLETALQEYTEAGYKRAAHNAADAAAGDNTAAKQEAEK	PGPT0012900_618	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012900-aroL|aroK-K00891	NA	NA
D1-17_01804	1089	aroB	COG0337	3-dehydroquinate synthase	GTGAGCGAATCAACTGTCATCAAGGTCACGGGCGAATCGGCCGCCAACAACTACGACGTCGTAGTTGGCCGCGGCCTGCTCGGCGCCCTGCCCGAACAGCTGGGCGAGCGCGTCCGGCGCGTCCTTGTGATCCACCCTCGGGCGCTCCGCCTCACGGGTGACACGGTCCGGGATGAACTGGCCGCAGCCGGCTTCACCGCCCTGACCGCGGAAATACCTGACGCTGAAGAAGGCAAGCACATCCAGGTGGCCGCCTTCTGCTGGCAGGTGCTCGGGCAGAACGACTTCACCCGGTCGGACGCTGTGGTGGCCGTCGGCGGCGGAGCCGTCACCGACCTCGCAGGCTTCGTGGCTGCCACGTGGCTCCGCGGCGTCAAGGTCATCCACATGCCCACCAGCCTGCTGGGCATGGTGGACGCATCCGTCGGCGGCAAGACGGGCATCAACACGGCCGAGGGAAAGAACCTCGTGGGTTCATTCCATCCGCCCGCCGCCGTGCTCGCTGACCTCGACACGCTGGACACCCTGCCAAGGAACGAGCTTGTCTCCGGCATGGCCGAAGTCATCAAATGCGGATTCATTGCCGATCCCGTGATCCTGGACCTGGTGGAGAAGGATCCGGACGCTGTCACGGACCCGCAGTCGGCTGTGCTCCGCGAACTCATCGAGCGTTCCATCGCCGTGAAAGCCCGCGTCGTCTCGGCAGACCTGAAGGAATCCGGCCTGCGCGAAATCCTGAACTACGGCCACACCCTGGGCCACGCGATTGAGCTCGTGGAGCGTTACTCCTGGCGTCACGGCGCCGCCGTATCCGTCGGCATGATGTTTGCGGCCGAGCTGGCCCGCAGCGTGGGCCGGCTGGGGGACGCCGACGCCGACCGCCACCGCACCATCCTGGAATCACTCGGGCTGCCTGTCACCTACCGCAAGGACCGCTGGCAGGGCCTGCTGGACGGCATGCGCCGCGACAAGAAGTCACGCGGCGACCTGCTCCGCTTCGTCGTGCTCGACGGGATCGGCAAGCCCGGGATCCTGGACGTGCCCGACACCTCCCTGCTCTTTGCTGCCTACCAGGAGATCGCGTCCTGA	MSESTVIKVTGESAANNYDVVVGRGLLGALPEQLGERVRRVLVIHPRALRLTGDTVRDELAAAGFTALTAEIPDAEEGKHIQVAAFCWQVLGQNDFTRSDAVVAVGGGAVTDLAGFVAATWLRGVKVIHMPTSLLGMVDASVGGKTGINTAEGKNLVGSFHPPAAVLADLDTLDTLPRNELVSGMAEVIKCGFIADPVILDLVEKDPDAVTDPQSAVLRELIERSIAVKARVVSADLKESGLREILNYGHTLGHAIELVERYSWRHGAAVSVGMMFAAELARSVGRLGDADADRHRTILESLGLPVTYRKDRWQGLLDGMRRDKKSRGDLLRFVVLDGIGKPGILDVPDTSLLFAAYQEIAS	PGPT0012865_2198	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012865-aroA-K01735	NA	NA
D1-17_01805	507			hypothetical protein	ATGAGTGACGTCATCGAATGGCCTGACGGAGGCTTCCCCGGGATCCGGATCAACCCGGAATTTCTGCTGCCCGAAATCACCAGCCCGGAAACATGCGCGGCCGCACTTGAGGCTTCGACCGACCCGGCCGACCGCGTGTTCGTGCTGCTGGTCGAGGGCCACGCGTCCGACGCCGCGGAGCTGCTGGCGGAGGCCCGGTACAAAAACCCGGAGTCGTTCCGGCTGCGTGCTTTTGAATCTGAAGTGCTGCGCGTCTCCCACCGCTACGACGAGGCGGTCGAGCTTTTCAAGCAGCTGCTCGCGGAGGTGTCCGGAACCTCCGATGAGGCGCTGGTGTACCAGTACCTGGGCAGGACCCATTTCGCCGCAGGGCACATCGGAGCTGCTGTGGAATCGTTCACGCGGGCGCTGGACCTCAGGGTCGAGCAGTCAGCCGACGCCGCGCAGATCTATTCCTCCACGGTGGCGCTGCAGCGCGCGCGGGACGTACTCGAACTGGCCTCCTGA	MSDVIEWPDGGFPGIRINPEFLLPEITSPETCAAALEASTDPADRVFVLLVEGHASDAAELLAEARYKNPESFRLRAFESEVLRVSHRYDEAVELFKQLLAEVSGTSDEALVYQYLGRTHFAAGHIGAAVESFTRALDLRVEQSADAAQIYSSTVALQRARDVLELAS				NA	NA	NA	NA	NA
D1-17_01806	564	efp	COG0231	Elongation factor P	GTGGCAACCACAAACGACATCAAGAACGGTACCGTCCTGAAGCTCGAGGGCCAGCTCTGGAACGTCATCGAGTTCCAGCACGTCAAGCCGGGCAAGGGCGGCGCGTTCGTGCGCACCAAGATGCGCAACGTCATGTCCGGCAAGGTGGTCGACAAGACCTTCAACGCCGGCCTCAAAATCGAAACCGCCACCGTGGACCGCCGCGACTACCAGTACCTGTACCAGGACGGCGCAGACTTCGTTTTCATGGACACCCAGGATTACGACCAGATCACCGTCTCCGGCGCGACGGTGGGGGACGCCACCAACTTCATGCTCGAAAACCAGATGGTCAACATCGCCATCCACGAAGGCACCCCGCTCTACATCGAGCTGCCGCCGAGCGTTGTCCTCGAAATCACCTACACCGAGCCTGGCCTGCAGGGCGACCGCTCCTCCGCCGGAACCAAACCGGCGACCCTTGAGACCGGCTACGAGATCCAGGTCCCGCTGTTTGTCGAGAACAACACCAAGGTCAAGGTCGACACCCGTGACGGCAGCTACCTGGGCAGGGTCAGCGAGTAG	MATTNDIKNGTVLKLEGQLWNVIEFQHVKPGKGGAFVRTKMRNVMSGKVVDKTFNAGLKIETATVDRRDYQYLYQDGADFVFMDTQDYDQITVSGATVGDATNFMLENQMVNIAIHEGTPLYIELPPSVVLEITYTEPGLQGDRSSAGTKPATLETGYEIQVPLFVENNTKVKVDTRDGSYLGRVSE	PGPT0016205_2730	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
D1-17_01807	411	nusB	COG0781	Transcription antitermination protein NusB	GTGAGCGCCCGCGGTAAAGCCCGTAACAGGGCCCTGGACGTCCTCTTTGAAGCTGAGCAGCGCTCGGTTTCCCCGTTCGATGTGCTGCGCGCACGGCGGGAGAAGACCGACCAAATCGTCAACCCTTACACGGTTGAAATCATCGAAGGCGTCGTTTCGCTGCAGCCGGCGATCGACGAGTTCCTTGAGACGTACTCGCAGGGCTGGACCCTGGAGCGCATGCCTTCCGTGGACCGCATCATCCTGCGCATCGGAACCTGGGAGCTGCTCTACAACGACGACGTCCCGGACGGCGTCGCCGTGAGCGAGGCTGTCGCTCTGGCGAAGACGCTCTCAACGGATGAGTCGCCGTCGTTCATCAATGGCCTCCTCGGCCGTCTCCAGCAGCTAAAACCTTCGCTGCTGGCCTGA	MSARGKARNRALDVLFEAEQRSVSPFDVLRARREKTDQIVNPYTVEIIEGVVSLQPAIDEFLETYSQGWTLERMPSVDRIILRIGTWELLYNDDVPDGVAVSEAVALAKTLSTDESPSFINGLLGRLQQLKPSLLA				NA	NA	NA	NA	NA
D1-17_01808	1269			hypothetical protein	ATGTCGATGAACCCGCAGCAGCCAGCGCCCGGACCGTCCGGCAACCGCCCCGGTGACCCGCAGTGGCAGTTCCATGAGCAGACGAACCCGAGCTGGATGGGCCACGTCCAGCAGCAAAACTACCGGCCGGCGCCCGGTCACCACGGCGGAGAGGTTTCCCAGGTCATACCGCCGTCGGCAACAACGGTGGCCGCCCGGCCGTCGTCGGGCGTGCTGTCCCTGGTGGTGGGCGGGGCGATTCTCGCCTTTGTCAGCCTGTTCCTGGTGATCCCCTTCCTCCTCGCCAATACGGGAGTCACCGGTTTTGCCGTGGGCTTTGTCGTTTCACTTATCCCATTGGGGGCCGTGCTCTTTTCGGTCCGCGTCATTGACCGCTGGGAGCCGGAGCCCAAACGCCTGCTGGTGTTCGCCTTCACCTGGGGCGCGGCGGTGTCCATCGCCGTCACCCTGTTGATCCAGCCGGTCTTCGCGCTGGCAGCCCCCACCGCCAGCGAGGAGTCCTTCCGGGATTTCATGACCACTGTCCAGGCCCCCGTCGTGGAGGAATTCGCCAAGTCCCTCGGCCTGCTCCTTCTGCTGCTGATGGCCCGCCGGCACTTCGACGGGCCGGTGGACGGCGTTGTCTTCGCCTTTACGATCGCCGGCGGCTTCGCCTTCACCGAGAACATCCTGTACTTCGGAAGGGCCATCGCCGAGTCCAGCACGCCCGGCAGCGACCTTGCGCAGATCTTCTTCCTGCGCGGCGTCATGTCGCCCTTCGCGCACGCAATCTTCACCGGCACCACGGGCCTGATCATGGGCTTCGCGGCGCGCCGCTGGCACTCCGGCCTGTCAGTGGCCGGGTTCGTCATTGGACTCATCCCGGCCATGATCCTGCACAACCGCTGGAACAGTATGGGCCAGGACTTCCTGGCCCAGTACGTGCTGGTGCAGGTGCCCATCTTCCTGCTGGCCGTGGGCTGCATCATTGCGCTGCGGGTTGCGGAGACACGGCTCACCCGGCAGCGGCTGCTGGAGTACTCCGCCGCCGGCTGGTTCACCCCCGCGGAGGTGGGCATGCTCTCTACCGCCGGCGGCCGCCGGCAGGCTGTACGGTGGGCTGCCGCGTACAACCGCGGGCCCCAGATGAAGGCCTTCGTGAAGGCGGCCACGCAGCTGGCTTTCACGCGCCAGCGCATTCTTAGCGGCAGGGATGTGCAGTCGCATCAGCAGGAAGAGCTGCAGCAGCTTCATCACCTCATGGCGCTGCGCGCCGCCGTCGGGCATTGA	MSMNPQQPAPGPSGNRPGDPQWQFHEQTNPSWMGHVQQQNYRPAPGHHGGEVSQVIPPSATTVAARPSSGVLSLVVGGAILAFVSLFLVIPFLLANTGVTGFAVGFVVSLIPLGAVLFSVRVIDRWEPEPKRLLVFAFTWGAAVSIAVTLLIQPVFALAAPTASEESFRDFMTTVQAPVVEEFAKSLGLLLLLLMARRHFDGPVDGVVFAFTIAGGFAFTENILYFGRAIAESSTPGSDLAQIFFLRGVMSPFAHAIFTGTTGLIMGFAARRWHSGLSVAGFVIGLIPAMILHNRWNSMGQDFLAQYVLVQVPIFLLAVGCIIALRVAETRLTRQRLLEYSAAGWFTPAEVGMLSTAGGRRQAVRWAAAYNRGPQMKAFVKAATQLAFTRQRILSGRDVQSHQQEELQQLHHLMALRAAVGH				NA	NA	NA	NA	NA
D1-17_01809	585	pyrR		Bifunctional protein pyrR	ATGACACCTGTCACGCAGGCACCGGTTCCGGCCAGGGTTGTACTCAACCAGGCGGACATAGACCGTGCACTCACTCGTATCGCCCACGAGATTCTCGAGGCCAACAAGGGCTCCCAGGACCTGGTGCTGCTGGGAATTCCCCGCCGCGGTTACCCGCTGGCAGTCCGGCTCGCCCAAAAGATTGCCGCCGCGGACAGTGCGGTTGATGCTTCCGCGATTGTCGGCCAGTTGGACGTCACCATGTTCCGCGACGACCTCTCGCACCAGCCGACCAGGCCGCCGCACCGCACCCAGCTGCCGCTGACCGGCATCGACAACAAAGTTGTAGTCCTGATCGACGACGTCCTGTACTCCGGCCGTACCATCCGCGCCGCCCTCGATGCCCTCGTGGATCTTGGCCGACCCCGGATCGTGCGCCTCGCCGTGCTGGTTGACCGCGGGCACCGCGAGCTGCCCATCCGTGCCGACCACGTCGGCAAGAACCTCCCCACCTCCTCCTCGGAAAAAGTCAGGGTCCGCCTCGAGGAAACCGACGTCATTGACGGGCAGCCCGTCAATGAGGTGGTTATCGAGGCCGGCGCATGA	MTPVTQAPVPARVVLNQADIDRALTRIAHEILEANKGSQDLVLLGIPRRGYPLAVRLAQKIAAADSAVDASAIVGQLDVTMFRDDLSHQPTRPPHRTQLPLTGIDNKVVVLIDDVLYSGRTIRAALDALVDLGRPRIVRLAVLVDRGHRELPIRADHVGKNLPTSSSEKVRVRLEETDVIDGQPVNEVVIEAGA	PGPT0021245_317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
D1-17_01810	996	pyrB	COG0540	Aspartate carbamoyltransferase	ATGAAGCACCTGCTCTCCACCGAAGACCTGACTCTGGCCAACGCCGTCCGCATCCTTGACACCGCCGAGGAAATGTCGGCAGTGGGCGAGCGCGAGGTCAAGAAACTCCCTGCGCTGCGCGGCCGCACGGTGGTGAATCTCTTCTTCGAGGACTCCACCCGCACCCGCATCTCCTTCGAGGCGGCCGCCAAGCGGCTATCCGCCGACGTCATCAACTTCGCCGCCAAGGGGTCATCGGTGTCCAAGGGGGAGTCCCTCAAAGACACAGCCCAGACACTGTCCGCGATGGGTGCGGACGCCGTCGTGATCCGCCACTGGGCCTCCGGCGCACCGCACCGGCTCGCGGCGACGGACTGGATCGATGCCGCCGTCATCAACGCCGGCGACGGGACGCACGAGCACCCCACCCAGGCCCTGCTGGATGCGTTCACCATGCGCCGGCACTGGACGAAGCTTTCCGGCCTGCCGTCTTCGGGAGCGGACCTCAAGGGCATGCGGGTGGCTATCGCCGGTGACGTCCTGCACTCCCGCGTCGCCCGCTCCAACGTCTGGCTGCTCCGGACCCTCGGCGCTGAGGTCACCCTCGTGGCGCCGCCCACCCTGCTGCCGATCGGCGTCGAAAAGTGGCCCTGCAAGGTCAGCTACAACATGGACGAAACCCTTGAGCGGGGCGTTGACGCCGTCATGATGCTCCGTGTCCAGGGCGAACGGATGAACGCGTCGTTCTTCCCCACCACCCGCGAATACTCACGCCGCTGGGGTTTCGATGACACCCGCCTCCAGGCCTTGGACAGCCTGGGGCTCAAAGACACCATCATCATGCACCCCGGCCCCATGAACCGCGGCCTGGAAATATCCGCCGCCGCCGCGGACTCACCCCGTTCCACTGTGCTGGCACAGGTCCGGAACGGTGTGTCCGTCCGTATGGCCGCCCTGTATCTGCTGCTCTCCGGGGACACCCGCGAACCAGCTGCCACCCTGAAGGAGAGCAAATAA	MKHLLSTEDLTLANAVRILDTAEEMSAVGEREVKKLPALRGRTVVNLFFEDSTRTRISFEAAAKRLSADVINFAAKGSSVSKGESLKDTAQTLSAMGADAVVIRHWASGAPHRLAATDWIDAAVINAGDGTHEHPTQALLDAFTMRRHWTKLSGLPSSGADLKGMRVAIAGDVLHSRVARSNVWLLRTLGAEVTLVAPPTLLPIGVEKWPCKVSYNMDETLERGVDAVMMLRVQGERMNASFFPTTREYSRRWGFDDTRLQALDSLGLKDTIIMHPGPMNRGLEISAAAADSPRSTVLAQVRNGVSVRMAALYLLLSGDTREPAATLKESK	PGPT0021160_1073	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
D1-17_01811	1374	pyrC	COG0044	Dihydroorotase	ATGGCTGAGCAAACCACGTACCTCATCCGCGGTGCGGCAATCCTAGGCGATGACGCCGCGGATCTCCTCATCCGCGACGGCATCATCGCCGCGCGCGGAACGGATCTGTCCACAACAGACGCAGCCGACGGCGCCACCATCATCGACGCCGACGGCCTGATCGCGCTGCCCGGCATGGTCGATGTGCACACGCACCTCCGCGAACCGGGCCGTGAAGACGCCGAGACGGTCGAAACCGGAACCAGGGCAGCAGCGCTGGGCGGCTTCACCGCGGTCCACGCCATGGCCAACAGCACCCCCGTTGCCGACACCGCCGGCGTGGTGGAACAGGTGCACAGCCTCGGCCGCGCTGCCGGCTGGGTCGACGTCCGCCCGGTAGGAGCGGTCACAGTCGGCCTCGCGGGGGAGCAGCTGGCGGAACTCGGCGCCATGGCGGATTCCCGTGCCCGCGTCCGCGTTTTCTCCGACGACGGCATCTGCGTCCACGACCCCGTCCTGATGCGCCGGGCGCTGGAGTACGTCAAGGCGTTTGACGGCGTCGTCGCACAGCACGCACAGGAACCCCGCCTCACCGCCGGCGCCCAGATGAATGAAGGCGAGGTCTCCGCCGTCCTGGGCCTGGCCGGATGGCCAGCCGTCGCCGAGGAAAGCATCATCGCCCGCGATGTCCTGCTCGCCCAGCACGTCGGCTCACGGCTGCACGTCTGCCACGTCTCCACCGCCGGGTCCGTCGAGATCATCCGCTGGGCCAAGGGCCGCGGAATCAACGTCACCGCCGAGGTGACGCCGCATCACCTGCTGCTGACAGACGAACTGGTCCGCAGCTACGACCCCGTGTACAAGGTCAATCCGCCGCTGCGCACCGACGCGGATGTCCAGGCCCTGCGCGAGGCCCTCGCGGACGGCACCATCGATGTCGTCGGCACCGACCACGCCCCGCACCCCAGCGAGCACAAGGAATGCGAGTGGGCCCAGGCCGCCATGGGTATGACCGGACTGGAAACCGCCCTCTCCGTGGTGCAGCACGCCATGATCGAGACCGGCCTCATGACATGGGCCGATTTCGCCCGGGCCACGTCCACAGCGCCTGCCGCCATCGGCCGGCTGACCGACCAGGGCCGACCGCTCGAGGAAGGCGAACCCGCCAACCTCATCCTTGTAGACCCGGCAGCGCGCTGGACTGTGGACCCCTCCGCCATGGCAACCATGGGCCGCAACTCGCCGTTCCGCGGCATGGAACTTCCGGGCAAGGTGCGGGCGACCTTCTTCAAGGGCCACCCCACCGTCCTGGACGGCAGCCTCAACACCCCGTACCGCTACCCGTCTGATGCCGTAGCAGCCGGTACTCGAGTCGGTAGGGCGGCCACTGCCTGA	MAEQTTYLIRGAAILGDDAADLLIRDGIIAARGTDLSTTDAADGATIIDADGLIALPGMVDVHTHLREPGREDAETVETGTRAAALGGFTAVHAMANSTPVADTAGVVEQVHSLGRAAGWVDVRPVGAVTVGLAGEQLAELGAMADSRARVRVFSDDGICVHDPVLMRRALEYVKAFDGVVAQHAQEPRLTAGAQMNEGEVSAVLGLAGWPAVAEESIIARDVLLAQHVGSRLHVCHVSTAGSVEIIRWAKGRGINVTAEVTPHHLLLTDELVRSYDPVYKVNPPLRTDADVQALREALADGTIDVVGTDHAPHPSEHKECEWAQAAMGMTGLETALSVVQHAMIETGLMTWADFARATSTAPAAIGRLTDQGRPLEEGEPANLILVDPAARWTVDPSAMATMGRNSPFRGMELPGKVRATFFKGHPTVLDGSLNTPYRYPSDAVAAGTRVGRAATA	PGPT0021145_315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
D1-17_01812	516			hypothetical protein	ATGGACAAAGTTCTTCCCGGACTGGCGATGCTGGCCATCATTGCCGTCGTCTTTGTCCTCCTTGGCCTTGGCTGGCGAAACCGGCTGCGGCGGCAGGCGGACATCGCCGCGCTGCCTGCCGTGCCCGAACTCGGCGGACCGCTGCTGGCGGCTGAAGGCCAGTACGTGGCGACCACCACTGCCGGGGACTGGCTGGACAGGATCGCGGTACACGGCCTCGGGATCCGCACCAATGCGCAGCTCACCGTCCATCCGGAAGGCGTCCTGTTGGACAGGTCCGGCGCCGGCCCGCTGTTCATCCCGGCAGCCTCGCTGGCAGGCGTCCGCCAGGACAGCGGCATGGCCGGCAAGTTCGTCGAGAAGGACGGGCTGCTGGTCCTGAGCTGGACCCTCGGGACGCACCAGCTCGACACCGGGTTCCGCACCCGCCGGGCGGCCGACAAGCCGGCCCTCCACCAAAAACTTCAGGAATTAATCTCCGCAGGCCCGCAGGCAGATGCCCATAGTGGAAAGTAA	MDKVLPGLAMLAIIAVVFVLLGLGWRNRLRRQADIAALPAVPELGGPLLAAEGQYVATTTAGDWLDRIAVHGLGIRTNAQLTVHPEGVLLDRSGAGPLFIPAASLAGVRQDSGMAGKFVEKDGLLVLSWTLGTHQLDTGFRTRRAADKPALHQKLQELISAGPQADAHSGK	PGPT0021155_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
D1-17_01813	1335	carA	COG0505	Carbamoyl-phosphate synthase small chain	ATGCCCATAGTGGAAAGTAATACAGTGACGGAAACCGAAGTGACAGCAAACACAGAGACGGCGCCCAAGACGGCACCTTCCACCCCCGCGGCCCTCGTGCTCGAAGACGGCCGCATCTTCCGCGGCCGGAGCTACGGCGCCCAAGGCACTGCCCTCGGTGAAGCGGTCTTCGCGACCGGAATGACCGGCTACCAGGAAACCATCACCGACCCGTCCTACGCCCGCCAGCTGGTGGTCCAGACGGCGCCGCACATTGGCAACACCGGAGTCAACAGCGAGGACGCCGAGTCCCGCCGCATCTGGGTGGCAGGCTACATCGTCCGTGATGCGGCCCGCCGCCCGTCCAACTGGCGTTCGGAGCGTTCCCTGGACGAGGAGCTCGAGGAGCAGGGGATCGTGGGCATCCAGGGCGTGGACACCCGCGCCATCACCCGCCACCTGCGTGAGCACAAGACCATGCGCGCCGGTATCTTCTCCGGCGCAGCCGCAGAGGCCACCGAAAAGGAGCTGCTCGAGGCGGTCCTCGCCAGCGCCCCCATGGAAGGCGCCCGGCTGGCTGAGGAAGTCAGCATCGACGAAGCCTACGTCGTGGAGCCCAAGGACCACGGCTGGGACGGTGAGCCCCGGTTCAGCATCGCCGCGATCGACCTCGGCATTAAGGCCATGACGCCGGTCCGCTTCGCCGAACGCGGCGTGCGCGTCCACGTGCTGCCTGCCACCGCCACGATGGAGGACGTCAAGGCGCTCAACCCGGACGGCTTCTTCATGTCCAACGGTCCCGGTGACCCGGCCACGGCCGACAACCAGGTTAAGCTGCTGCGCTCCGTTCTGGACGACAAGCTGCCCTACTTCGGCATCTGCTTCGGCAACCAGATCCTGGGCCGCGCACTCGGCTTCGGCACGTACAAGCTGAAGTACGGCCACCGCGGCATTAACCAGCCGGTCATGGACCGACGCACCGGCAAAGTGGAAATCACCTCGCAGAACCACGGCTTCGCCGTGGACGCCCCCCTCGACGGCCCCACCACGGCGCCGGAGGAGCGGTTCGGCCGGGTGGAAGTGAGCCACATCAGCCTGAACGACGACGTCGTCGAAGGACTCGCGTGCCTGGACATCCCGGCGTTCTCGGTCCAGTACCACCCGGAGGCGGCCGCCGGCCCGCACGACGCCGCGTACCTGTTCGACCGCTTCATTGCACTGATGGAAGACTCTAGGTCAATCACCGACGGCCGCACCGCCAACCTGTCAAAGGAACCCGTGGATTCTGTGCACAATCCGATCGATCGCGCCGCCGCGCCGCACAAGACTGACAACAAGACTGAGGACAAGAAGTAA	MPIVESNTVTETEVTANTETAPKTAPSTPAALVLEDGRIFRGRSYGAQGTALGEAVFATGMTGYQETITDPSYARQLVVQTAPHIGNTGVNSEDAESRRIWVAGYIVRDAARRPSNWRSERSLDEELEEQGIVGIQGVDTRAITRHLREHKTMRAGIFSGAAAEATEKELLEAVLASAPMEGARLAEEVSIDEAYVVEPKDHGWDGEPRFSIAAIDLGIKAMTPVRFAERGVRVHVLPATATMEDVKALNPDGFFMSNGPGDPATADNQVKLLRSVLDDKLPYFGICFGNQILGRALGFGTYKLKYGHRGINQPVMDRRTGKVEITSQNHGFAVDAPLDGPTTAPEERFGRVEVSHISLNDDVVEGLACLDIPAFSVQYHPEAAAGPHDAAYLFDRFIALMEDSRSITDGRTANLSKEPVDSVHNPIDRAAAPHKTDNKTEDKK	PGPT0021155_158	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
D1-17_01814	3300	carB_1	COG0458	Carbamoyl-phosphate synthase large chain	ATGCCTAAGAGAACTGACCTTAAGAGCGTCCTGGTCATCGGGTCCGGCCCGATCGTGATCGGCCAGGCGGCCGAGTTCGACTACTCCGGCACCCAGGCGCTCCGCGTCCTCAAGGACGAAGGCCTGCGCGTCATCCTCGTCAACTCCAACCCGGCCACCATCATGACGGACCCTGAGTTCGCGGACGCCACGTACATCGAGCCGATCACGCCCGAGGTGGTCGAGAAGATCATCGCCAAGGAGCGCCCCGACGCCGTGCTGCCGACCCTGGGTGGCCAGACGGCACTGAACACCGCCATCGCGCTGGACAAGAACGGCGTGCTGGAGAAGTACAACGTGGAGCTGATCGGTGCGAACATCGCCGCCATCGAACTTGGCGAAGACCGTGAGAAGTTCAAGGGCGTCGTTGAGCGCTGCGGCGCAGAATCTGCCCGCAGCCACATCATCCACACCATGGACGAGGCCCTGAAGGCAGCAGACGACCTCGGCTACCCGATGGTGGTCCGCCCCTCCTTCACCATGGGCGGCCTGGGCTCCGGCCTGGCCTACAACGAGGAAGATCTCATCCGCATCGTCGGCCAGGGCCTGCAGTACAGTCCCACCAGCGAGGTGCTGCTCGAAGAGAGCATCCTCGGCTGGAAGGAATACGAGCTCGAGATGATGCGCGACAAGAACGACAACGTCGTGGTGGTCTGCTCCATCGAGAACTTCGACCCGGTCGGCGTGCACACCGGCGACTCCATCACGGTGGCCCCGGCGCTGACCCTCACCGACCGTGAGTACCAGAAGCTGCGCGACGTCTCGATCGCCGTGATCCGCGAGGTCGGCGTCGACACCGGCGGCTGCAACATCCAGTTCGCCATCGATCCCAAGACCGGCCGCGTGGTGGTCATCGAGATGAACCCCCGCGTCTCGCGCTCCTCGGCCCTGGCCTCCAAGGCCACCGGGTTCGCCATTGCCAAGATCGCCACCAAGCTCTCGCTCGGTTACACCCTGGACGAGATCCCCAACGACATCACGCAGAAGACGCCCGCGTCCTTCGAACCGACGCTGGACTACGTGGTTGTCAAGGTGCCGCGCTTCGCGTTCGAGAAGTTCCCGGCGGCGGACCCAACGCTGACCACCACCATGAAGTCCGTCGGCGAGGCCATGGCCATGGGCCGCAACTTCACCGAGGCGCTGCAGAAGGCGCTCCGGTCCCTGGAGCAGAAGGGCTCGCAGCTGGACTTCAGCCCCGTCCCCGAGTGGGAAGTACCGGAGCTGGTCGAGCAGGCGAAGCGCCCCACCACCGAACGCCTGCACCAGGTGCAGCGGGCGCTGCTCGGCGGCGCCACCGTGGAGGAGCTCCACGAAGCCACCGGCATCGACCCCTGGTTCCTGGACCAGCTCCAGCTGCTCAACGAGATCTCCGGCGAGATCCGCAAGTCCGGCGCCCTTACCCAGGACATGCTGCAGCGCGCCAAGCGCCACGGCTTCTCTGACGAGCAGATCGGCGCCCTGACGCACAACCCGGAAGCTGTGGTCCGCGGCGTCCGGCAGGCGCTCGGGATCCGGCCGGTCTACAAAACGGTTGACACCTGCGCCGCGGAATTCGCCGCCTACACCCCCTACCACTACTCCTCCTACGACGAGGAGGACGAGGTGGCGCTGCACTCCAAGCCGTCCATCCTGATCCTCGGCTCCGGTCCCAACCGTATCGGCCAGGGCATCGAGTTCGACTACTCCTGCGTCCACGCCTCCATGGCGCTGCGCAAGGCCGGTTACGAGACCGTCATGGTCAACTGCAACCCGGAAACCGTCTCCACCGACTACGACGTCTCCACCCGGCTGTACTTCGAGCCGCTGACCCTGGAGGACGTCCTCGAGGTCATCGCCGCCGAGGAGCGCACCGGCGGCGTCATGGGCGTGTTCGTCCAGCTCGGCGGCCAGACCCCGCTGAAGCTGGCCCAGCAGCTCGCCGATGCCGGCGTTCCCATCCTCGGCACCAGCCCGGAAGCGATCGACCTTGCCGAGCACCGCGGCGCCTTTGCCCGTGTGCTGGATGAAGCAGGGCTTGTTTCCCCGAAGAACGGCACCGCCGTGTCCTTCGAGGACGCCAAGAAGATCGCGGACGAAATCGGCTACCCGGTGCTGGTCCGGCCGTCCTATGTCCTGGGCGGCCGCGGCATGGAGATCGTCTACGACGAAGCCAACCTGTCCCGCTACATCGCCAACGCCACGGAGATCACGCCGGACCACCCCGTGCTGATCGACCGGTTCCTTGAGGACGCGGTGGAGATCGACGTCGACGCCCTGTTCGACGGCAAGGACCTGTACCTCGGCGGCATCATGGAGCACATCGAGGAAGCCGGCATCCACTCCGGCGACTCCGCCTGCGTGCTGCCCCCGATCACCCTGGGCAGCAATGTGCTGGAGCGCGTCCGCACCGCCACCCGCGCCATCGCTGAAGGCGTCGGCGTCCGCGGCCTGATCAACATCCAGTTCGCCCTGGCCTCGGATGTGCTGTATGTCCTGGAAGCCAACCCCCGCGCCTCCCGCACCGTGCCGTTCGTCTCCAAGGCGACCGGCGTGCAGATGGCGAAGGCTGCCGCCCTGATCGGCACCGGAGTCACCATCCACCAGCTCCGCAGCGCCTACAAAATCCTTCCGGAGACCGGCGACGGCTCCACGCTGCCGCTGGACGCGCCTGTCTCGGTGAAGGAGGCGGTCCTGCCGTTCAGCCGCTTCCGCACCCCGGAAGGCAAGGTCGTAGACTCCCTGCTCGGACCGGAAATGCGCTCCACCGGCGAGGTCATGGGCATCGACAAGCACTTCGACACCGCCTTCGCCAAGAGCCAGGCCGGTGCGAACAACGCGCTGCCCACCGAGGGCAAGATCTTCGTCTCCGTGGCCAACCGCGACAAGCGTTCGGTGATCATGGGCGTCAAGCGGCTCTCCGACCTCGGCTTCGAGATCGTCTCCACGGGCGGCACAGCCGATGTGCTGCGCCGCAACGGAATCCAGGCGACCCCGGTGCGCAAGGTGGCCGAGGGCAGCAGCGCCGAAGGGGAGGGCACCATCGCCGACCTCGTCATCGCGGGCGAGATCGACATGGTGTTCAACACCCCCTCCGGCGGCGAAGCCCGCAGCGACGGCTACGAGCTCCGCGCCGCCGCCACGTCCATCGGTATCCCCTGCATCACCACGGTGGCCGAGTTCAACGCTGCCGTCCAGGCCATCGAAGCGCTGCGCACCTACGCGTGGTCCGTTACGAGCCTGCAGGAGCATGGCGCCAACCTCAAGGCATCCTGGCATGGCTGA	MPKRTDLKSVLVIGSGPIVIGQAAEFDYSGTQALRVLKDEGLRVILVNSNPATIMTDPEFADATYIEPITPEVVEKIIAKERPDAVLPTLGGQTALNTAIALDKNGVLEKYNVELIGANIAAIELGEDREKFKGVVERCGAESARSHIIHTMDEALKAADDLGYPMVVRPSFTMGGLGSGLAYNEEDLIRIVGQGLQYSPTSEVLLEESILGWKEYELEMMRDKNDNVVVVCSIENFDPVGVHTGDSITVAPALTLTDREYQKLRDVSIAVIREVGVDTGGCNIQFAIDPKTGRVVVIEMNPRVSRSSALASKATGFAIAKIATKLSLGYTLDEIPNDITQKTPASFEPTLDYVVVKVPRFAFEKFPAADPTLTTTMKSVGEAMAMGRNFTEALQKALRSLEQKGSQLDFSPVPEWEVPELVEQAKRPTTERLHQVQRALLGGATVEELHEATGIDPWFLDQLQLLNEISGEIRKSGALTQDMLQRAKRHGFSDEQIGALTHNPEAVVRGVRQALGIRPVYKTVDTCAAEFAAYTPYHYSSYDEEDEVALHSKPSILILGSGPNRIGQGIEFDYSCVHASMALRKAGYETVMVNCNPETVSTDYDVSTRLYFEPLTLEDVLEVIAAEERTGGVMGVFVQLGGQTPLKLAQQLADAGVPILGTSPEAIDLAEHRGAFARVLDEAGLVSPKNGTAVSFEDAKKIADEIGYPVLVRPSYVLGGRGMEIVYDEANLSRYIANATEITPDHPVLIDRFLEDAVEIDVDALFDGKDLYLGGIMEHIEEAGIHSGDSACVLPPITLGSNVLERVRTATRAIAEGVGVRGLINIQFALASDVLYVLEANPRASRTVPFVSKATGVQMAKAAALIGTGVTIHQLRSAYKILPETGDGSTLPLDAPVSVKEAVLPFSRFRTPEGKVVDSLLGPEMRSTGEVMGIDKHFDTAFAKSQAGANNALPTEGKIFVSVANRDKRSVIMGVKRLSDLGFEIVSTGGTADVLRRNGIQATPVRKVAEGSSAEGEGTIADLVIAGEIDMVFNTPSGGEARSDGYELRAAATSIGIPCITTVAEFNAAVQAIEALRTYAWSVTSLQEHGANLKASWHG	PGPT0021150_765	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
D1-17_01815	798	pyrF	COG0284	Orotidine 5'-phosphate decarboxylase	ATGGCTGAGCGCGGTCCGCTGTGCGTTGGCATCGATCCGCACCCTGCGCTGCTCGCGGCCTGGGGACTGAACGACGACGCCGCCGGCGTGGAGCGCTTTTCGCTCACCGTCCTGGAGGCCGTTGGTTCCCTCGCTGCCGCGGTCAAGCCGCAGGTGGCGCTGTATGAGCGCCACGGCTCGGCGGGCATGGCGGCTCTGGAGCGTACCCTGGGTGCGGCGGCCGATGCTGGAGTGCTGAGCATCGCCGATGCGAAGCGCGGGGACATTGGCTCCACTATGGCTGCCTACGCCGACGCCTGGCTGCGTGACGGCTCGTCCCTGGCTGCCGATTCGGTGACGCTGAGCCCGTACCTGGGTTTTGAGTCCCTCCGTCCGGCACTGGACCTCGCGGCGGAATACGGCCGGGGCGTTTTCGTCCTGGCCCTGACCTCCAACCCTGAAGGTGCGTCAGTCCAGCACGTTGGCGGCCGCGATTCCGTTGCCCGCAGGATTGTCGAGGCCGCGGCCGGGGAAAACGCCCGGTACCAGGGGAACCTCGGGTCCGTGGGGCTGGTGGTCGGTGCCACAGTGGGATCGGCCCTGGCCGACCTTGGCCTGGACCTGGGGGCCGTTCGCGGACCCATCCTGGCCCCGGGCCTCGGCGCCCAGGGCGCCACGCCCGCGGACCTGCGCACGACCTTCGGCGCCGCCTATCCACAGGTGCTGGGGACGTCCAGCAGGGACATCCTCAAAACAGGCCCCGGAGTCCGAGACCTGGCTGCCGCAGCCGCGCGCACACTGGACGGGCTCCGGTCCTAA	MAERGPLCVGIDPHPALLAAWGLNDDAAGVERFSLTVLEAVGSLAAAVKPQVALYERHGSAGMAALERTLGAAADAGVLSIADAKRGDIGSTMAAYADAWLRDGSSLAADSVTLSPYLGFESLRPALDLAAEYGRGVFVLALTSNPEGASVQHVGGRDSVARRIVEAAAGENARYQGNLGSVGLVVGATVGSALADLGLDLGAVRGPILAPGLGAQGATPADLRTTFGAAYPQVLGTSSRDILKTGPGVRDLAAAAARTLDGLRS	PGPT0014965_469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
D1-17_01816	318			hypothetical protein	GTGACCTTGCGACCCTTGTCAGCCCAGGAACGTGCTGACGCGCTGAAGAAAGCCGCCGCAGCGAGGGCATCGAGGGCCACGGCCAAGGAAAGACTCAAGGCAGGGGACCTGACCATCGCGGAGGTGCTGGATTCGGGCGGCACGGAAGATGCGATTGCGCGCATGCGCGTCTCCGAGCTGCTTGAGGCCCTGCCGGGCATCGGCAAGGTCCGGGCGGCGGCCATCATGGAGGCTGTGGGGATCGCCGCGTCACGGAGGGTGCGGGGACTGGGCGTGCACCAGCGCCGGGCGCTGGTAGATTTTATGAACGAGAAATAG	MTLRPLSAQERADALKKAAAARASRATAKERLKAGDLTIAEVLDSGGTEDAIARMRVSELLEALPGIGKVRAAAIMEAVGIAASRRVRGLGVHQRRALVDFMNEK	PGPT0021475_389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
D1-17_01817	573	gmk	COG0194	Guanylate kinase	GTGAGCAAGAAACCCGGACTGACAGTCCTCGCTGGTCCTACGGCTGTTGGCAAAGGCACCGTGTCCACCTATATCCGGGACAACTACCCGGAAGTCTGGCTGTCGGTTTCGGCGACCACCCGCGCCCCGCGGCCCGGCGAGGTCGACGGAGTGCACTACTACTTCAAGTCCAAGGAAGAGTTCGAGTCCCTGGTGGCCGCCGGTGAATTCCTGGAATGGGCCGTGGTGCACGGGCAGAACACGTACGGCACCCTGAAGAGCACAGTGAACAAGGCCATCGCGGAGGGCCGCTCGGTACTGCTGGAGATCGACCTGCAGGGAGCCCGCCAGGTCAAGAAGGCCCTGCCGGATGCGCAGTTCGTGTTCCTGGCACCGCCGAGCTGGGAAGAATTGGTGCGCCGCCTGGTGGGCCGCGGCACGGAATCCGCCGAGGAACAGCAGCGCCGCCTGGAAACCGGTAAAGTAGAACTTGCTGCTGAACCGGAGTTCGACCACACCGTCATTAATGACGACGTTCGCCGGGCAGCGGACGAGCTTGTTTCACTCATGGGGCTGACCCCGCACCCGCGCTAA	MSKKPGLTVLAGPTAVGKGTVSTYIRDNYPEVWLSVSATTRAPRPGEVDGVHYYFKSKEEFESLVAAGEFLEWAVVHGQNTYGTLKSTVNKAIAEGRSVLLEIDLQGARQVKKALPDAQFVFLAPPSWEELVRRLVGRGTESAEEQQRRLETGKVELAAEPEFDHTVINDDVRRAADELVSLMGLTPHPR	PGPT0021475_4164	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
D1-17_01818	261	rpoZ	COG1758	DNA-directed RNA polymerase subunit omega	GTGTCCACGAACCTTGAAGGCATCATCAACCCGCCGATCGACTCGCTGCTCCAGGCAGCCGATTCCAAGTACGGCCTGGTGATCTTCGGTGCCAAGCGAGCACGTCAGATCAACGCTTACTACGCCCAGCTGCACGAGGGCCTGTTCGAGTACGTCGGCCCGCTGGTCGACACCAAGCTGAACGAGAAGTCGCTGTCCATCGCCCTGCGCGAGATCAACGAGGGCAAGCTCGTTTCAACGCCCATCGAGGCGTCCGAGTAA	MSTNLEGIINPPIDSLLQAADSKYGLVIFGAKRARQINAYYAQLHEGLFEYVGPLVDTKLNEKSLSIALREINEGKLVSTPIEASE				NA	NA	NA	NA	NA
D1-17_01819	1257	coaBC	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	GTGCGCATAGTCCTCGGAGTCGGGGGAGGGATAGCCGCCTACAAGGTGGCGTCGCTCCTCCGGCTTTTTACTGAAGCCGGCCATGACGTCTCCGTCATCCCCACTGAGGCCGCTACCCGATTTGTCGGCGTGGCCACCTGGGAGGCCCTCTCCGGGAACCCTGTCAGCAACAGCGTCTTTGACGATGTCCACCTGGTGAACCATGTCCGGCTGGGGCATGAGGCAGATTTGATTGTTGTCGCTCCGGCTACAGCCGACCTCCTCGCGCGCGCTGCGACGGGACAGGCCAGCGATCTCCTCACCAATACGCTGCTGATGGCCAATGGACCCGTTCTGTTCGCCCCCGCCATGCACACCGAGATGTGGCAGCATGCCGCCACCCAGGCCAACGTGGAAACCCTCCGCAGCAGAGGGGTAACCGTACTGGAACCGGCGAGCGGCAGATTGACCGGCTCTGATTCCGGCCCCGGGCGGCTGCCCGAGCCGGAGTCGATCTTCCATGCCGCCATGGCCCTGGTCCAGGGCCTCCGCGATGCCGGGCCCGGCTCACCCGAGGCGGCTGTTTTCCCCCTCGCCGGCCGCATCGTGACCATCAGTGCCGGCGGCACCAGAGAACCGCTGGACCCGGTACGCTTCCTGGGCAACCGGTCCTCCGGAAAGCAGGGTGTTGCGCTGGCAGCCGCCGCCCGTGACGCCGGGGCGCAGGTGCGCCTGGTCGCCGCCCACATGGAAGTGCCCCCGCCCCCCGGCGTCGAGGTGCTGCAGGTCGAAACGGCCCTGCAACTCCGGGAAGCCATGCTGACAGCGGCAGCCGGTTCCGACGTCGTTATCATGGCCGCCGCTGTGGCGGATTTCCGCCCCGCGGACATCTCCGGCACCAAAATCAAGAAGCGGGACGGCCACGCCGACCCGGTCATCACCCTGGTCCGGAACCCTGACATTTTGCAGGAGCTCGTCGAAGTCCGCGATGCCGGCGGAACCAGCCAGCTCGTGGTGGGCTTTGCCGCCGAGACGGGGGATGCGCACGGCGACGTCCTCGAATACGCCGAGGCCAAACTCAAGCGCAAGGGCTGCGACCTGCTGGTGGTCAACCACGTGGGATCGGACAAGGTGTTCGGCCAGGACCGTAATTCAGTGGTCATCCTGTCCCGGGACGGTTCTGATCCCCAGTCGGCCTCCGGCACTAAGCAGGACGTCGCCGCCGTAGTCATCGACCGGATCAGCGCCGAGCTGAGCAGGGTCTTCCCGCGAACCTGA	MRIVLGVGGGIAAYKVASLLRLFTEAGHDVSVIPTEAATRFVGVATWEALSGNPVSNSVFDDVHLVNHVRLGHEADLIVVAPATADLLARAATGQASDLLTNTLLMANGPVLFAPAMHTEMWQHAATQANVETLRSRGVTVLEPASGRLTGSDSGPGRLPEPESIFHAAMALVQGLRDAGPGSPEAAVFPLAGRIVTISAGGTREPLDPVRFLGNRSSGKQGVALAAAARDAGAQVRLVAAHMEVPPPPGVEVLQVETALQLREAMLTAAAGSDVVIMAAAVADFRPADISGTKIKKRDGHADPVITLVRNPDILQELVEVRDAGGTSQLVVGFAAETGDAHGDVLEYAEAKLKRKGCDLLVVNHVGSDKVFGQDRNSVVILSRDGSDPQSASGTKQDVAAVVIDRISAELSRVFPRT	PGPT0008815_337	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008815-coaBC|dfp-K13038	NA	NA
D1-17_01820	1236	metK	COG0192	S-adenosylmethionine synthase	GTGACTTTACCGCTGCACTTTCCTGAATCCCACGGGTCCGCGCCCTCCTCGCTCCGGCTCTTCACGTCTGAGTCGGTCACCGAAGGGCACCCCGACAAGATCTGTGACCAGATCAGCGATGCCATCCTTGACGCCCTCCTGGACAAGGACCCGGAATCGCGCGTCGCCGTGGAGACCATGGCCACCACCGGCCTGGTCCACGTTGCCGGCGAGGTGACCACGGACGCCTACGTGGAGATTCCGCAGATCGTGCGCGAGACTATCCTCGGCATCGGCTATGACTCGTCTGCCAACGGCTTCGACGGAGCCCGCTGCGGCGTTTCCGTCTCCATTGGCCAGCAGTCGAATGACATCGCCGGCGGAGTCTTCAATTCGCTGGAAGCACGCGAAGGTCGCCAGGAGGACGACTACGACCTCCAGGGCGCCGGCGACCAGGGCCTCATGTTCGGCTACGCCAGCGACGAGACGCCGTCCTACATGCCGACTCCCATCTGGATTGCGCACCGGCTGTCCGAGCGCCTCACCGAGGTCCGCAAGAGCGGGGAACTGTCTTACCTCCGTCCCGACGGCAAGACCCAGGCGACCATCGGGTACGACCGCGACCGTCCAGTGTCGGTGGAGACGATTGTCATCTCCAGCCAGCACGCCGAGGGTTTCAGCCTCGACCAGCTCCGCGCAGACCTTGCAGCGCACGTGATCAACCCCGTGCTGGCCGCCGCAGACCTCGACATCTCCCGCACCACCAATATCCTCAACCCTGCCGGCGCCTTTGTCATCGGCGGTCCGGTGGGGGACGCAGGCCTCACCGGCCGCAAGATCATTGTGGACACCTACGGGGGCATGGCCCGCCACGGCGGCGGAGCCTTCTCTGGCAAGGATCCCTCGAAGGTGGACCGTTCTGCTGCCTACGCGATGCGATGGGTGGCGAAGAATGTCGTGGCCGCAGGGCTGGCAAAGCGGGCGGAGATCCAAATCGCCTATGCGATCGGCCAGGCCCGCCCCGTGGGTACCTACGTGGAGACTTTCGGCACTGAGACCGTGGACCCGGCCAAGATCAGCGCCGCAATCGCGGAGATCTTCGACCTCCGCCCGAGGGCCATCATCGACGCCCTGGACCTCAAGCGTCCCATCTACGCCAAGACGGCGGCGCACGGCCACTTCGGCCGCGACGATCCCGACTTCACGTGGGAGCGCCTGGACCGCGTCGACGACCTCAAGGCCTACTTCAACGCCTGA	MTLPLHFPESHGSAPSSLRLFTSESVTEGHPDKICDQISDAILDALLDKDPESRVAVETMATTGLVHVAGEVTTDAYVEIPQIVRETILGIGYDSSANGFDGARCGVSVSIGQQSNDIAGGVFNSLEAREGRQEDDYDLQGAGDQGLMFGYASDETPSYMPTPIWIAHRLSERLTEVRKSGELSYLRPDGKTQATIGYDRDRPVSVETIVISSQHAEGFSLDQLRADLAAHVINPVLAAADLDISRTTNILNPAGAFVIGGPVGDAGLTGRKIIVDTYGGMARHGGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLAKRAEIQIAYAIGQARPVGTYVETFGTETVDPAKISAAIAEIFDLRPRAIIDALDLKRPIYAKTAAHGHFGRDDPDFTWERLDRVDDLKAYFNA	PGPT0020000_845	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI-2_BIOSYNTHESIS,PGPT0020000-metK-K00789	NA	NA
D1-17_01821	2172	priA	COG1198	putative primosomal protein N'	ATGAACGAGCCGCAACAGCTTTCCCTGCTGCAGGGCTTTCCTGGCGTCCCTCCCAAGAGGTCACCGGGGCCGCCCCTGGCAGCGGACCTTCCTGTGGCGCGCGTGCTGCTTGAATCGCCACTGCCGCACCTGGACCGGCCCTTTGACTACAGTGTTCCTGCCGAACTTGATGAATCAGCCCAGCCCGGCGTGCGGGTCAGGGTGAAGTTCAGCGGGCAGGAGCTTAACGGCTACATTCTGGAGCGGACCGAGGAGTCCGACGCCGGCCATGTGCTGGTGCCGCTGCATAAAGTCGTGTCGCCCGTCGCTGTCCTGACGCCCGCACTTCAGGAGCTCGCCAACCGGGTGGCCGCCCGCTACGGGGGCACCGTCAGTGACGTGCTGCGTGTTGCCATTCCGCCGCGCGTGGTCAAAGTAGAGAAGGAATTGTCTGGGGCAGATGGTGCTGAGGGAGCTCAAGGCGGGGAGCAGGAGGAATCGGTACCGCTCCCGGCACATGTCCCCGCCCACGGCCCGGCCTGGTCCGAGGATCCGGCGTGGTCGCGGTACCGGAACGGCAGTGCGTTCCTCCGCCACCTCAGCGCCGGCGGGTCGCCGCGGGCCGTGCTCAATGCCTTGCAGGGTTTCGGCGCTGCAGGCTGGCCGCAGCTCATTGCAGGAGCTGTGGCAGCGGTCCGGCAGTCCGGACGGGGCGCGGTTGTCGTGCTCCCTGACTATCGTGACCTTGACCGGGTGCAGGCCGCCCTCGAGGAGGTCCTTTCCGCCGGAGACATTGCCCGGCTGACGGCGGACGACGGCCAGACGCCCAGGTACCGCAACTACCTGCGGGTCCTCAGGGGCACGGCAGGCGTCGCGGTCGGCACCCGCTCGGCGGCCTACGCCCCCGTTCAGAACCTCGGCCTCGTCGTGTGCTGGGATGACGGCGATGATCTGCACATCGAGCAACGCTCTCCTTACGCGCACACCCGCGAAGTACTGCTGCTGCGCGCAGAGCAGGAAAATGCCGCCTGCCTGCTCGCCGGGCATGCCCGCAGCACCGAGGCCCAGCGTCTCGTGGACGTAGGCTGGGCCATGCCGGTCGAAGCTGAACGGCTGGTAGTCCGCAGCACCGTGCCGCGAGTCCTCAATACGGCAGACAGCTTCGAACAGGAACGTGACCCCCTGGCGCGGATCGCCCGGCTCCCCGGCGCGGCATGGCGTGCGGCCAAGGAAGGCCTGGAACGCGGCCCCGTGCTGGTCCAGGTGGCACGCTCCGGGTATGCCCCGTCGCTGATCTGCGATACCTGCCGCGAGCCGGCCCGCTGCCAGTCGTGCCAAGGGCCCCTGGCAATTGCCGGAGCCTCCGGCAGTTCGGCCGTGCCGCAGTGCCGGTGGTGCTCAGCCCCGGCACCGGCTTGGCGCTGCAGCCACTGCAACAACACCCGCCTGCGCCGCGGCGCCACGGGGGTCCTCCGCACAGCCGAGGAACTGGGAAGGGCCTTCCCCGGCAAGCCCGTGGTCACGTCCTCCGGCGACCACGTCAAAGCCACAGTTCCGGACACCGGTTCCCTCGTGGTGGCCACCGTCGGCGCCGAACCGGTGGCTGCCGGCGGTTACGCTGCGGCACTGCTCCTCGACGGCGATTCTCTTCTGCGGCGCGAAAACCTCCGGGCGGGAGAGGACGCCGTGCGGCGCTGGTTTAACGCTGCGTCCCTGGTGCGCCCCGCTGCAGGTGGCGGAATCGTCGTCATCACGGCCGACGACACGGCCGCCGTAGGCGCGCTGCTGAGGTGGGACCCCGCGGGTTATGCCCAGCGGGAACTTTCGCTCCGCACGGAGTTGCAGCTGCCACCGGCGGTGAGGGTGGCCTCCGTAACCGGCGGCAGCGCCGCCGTCGGGCATTTCACGGCGGAAGTCACCCGGCGGCTAACGGCGGAGGGAGTGGAACTGCGCGTTGCGGGTCCTGCGCCGCTGCTGCCGGGCCAGCTTCCTCCCGCAGGGAAGACGGCAGCCAAAGCGCCGGGTCAGGCAATGGCAGCTGCTGACGGCGGGGATGTCCGCACCCTGCTCTTCATTCCGTACAGCCAGGCCGGCACCGTGACGCAGGTACTGCGGGCGGTCAAGGCCGCCAGCGCGGCGAAGCGCACGGAGGCTCCGGTGCAGCTGCGGCTGGACGGCGTGGACGTTCTTTAG	MNEPQQLSLLQGFPGVPPKRSPGPPLAADLPVARVLLESPLPHLDRPFDYSVPAELDESAQPGVRVRVKFSGQELNGYILERTEESDAGHVLVPLHKVVSPVAVLTPALQELANRVAARYGGTVSDVLRVAIPPRVVKVEKELSGADGAEGAQGGEQEESVPLPAHVPAHGPAWSEDPAWSRYRNGSAFLRHLSAGGSPRAVLNALQGFGAAGWPQLIAGAVAAVRQSGRGAVVVLPDYRDLDRVQAALEEVLSAGDIARLTADDGQTPRYRNYLRVLRGTAGVAVGTRSAAYAPVQNLGLVVCWDDGDDLHIEQRSPYAHTREVLLLRAEQENAACLLAGHARSTEAQRLVDVGWAMPVEAERLVVRSTVPRVLNTADSFEQERDPLARIARLPGAAWRAAKEGLERGPVLVQVARSGYAPSLICDTCREPARCQSCQGPLAIAGASGSSAVPQCRWCSAPAPAWRCSHCNNTRLRRGATGVLRTAEELGRAFPGKPVVTSSGDHVKATVPDTGSLVVATVGAEPVAAGGYAAALLLDGDSLLRRENLRAGEDAVRRWFNAASLVRPAAGGGIVVITADDTAAVGALLRWDPAGYAQRELSLRTELQLPPAVRVASVTGGSAAVGHFTAEVTRRLTAEGVELRVAGPAPLLPGQLPPAGKTAAKAPGQAMAAADGGDVRTLLFIPYSQAGTVTQVLRAVKAASAAKRTEAPVQLRLDGVDVL				NA	NA	NA	NA	NA
D1-17_01822	1089	mshA_5		D-inositol-3-phosphate glycosyltransferase	GTGAAAATTGTCATCGACGCCCGCTTCACCAGGACCGACCACCACGACGGCATCAGCCGCTACGGGGCGAGCCTGATCGCGGCCACGTCCAGGATCGCTGACGTCTCCATGCTGGTCAGCGACCCGCGCCAGCTGTCCCTGCTGCCCGACGTGCCCTACACCCTCATCAACAGCCCGCTCTCCCCCGCGGAACTGTTCGTAGCGGGGAAGGTCAACCGGCTCGGAGCCGATGTGGTGGTCTGCCCCATGCAGACCATGGGCACGTGGGGACGGAAGTACGGGCTTGTGCTGACCTTGCACGACCTGATTTACTACGAACACCCCGCCCCTCCCGGCTTCCTCCCGGCTCCCGTCCGCATCCTGTGGCGCCTCTATCACAAGGCCTTCTGGCCGCAGCGGCTCCTGCTCAACCGGGCCGACGTCGTCGCCACCATCAGCCACACCACCGAGGCGCTGATGGCGAAGTACCGGCTGACGGCCCGTCCCGTAAGGATCATCAGCAACGCCCCGCAGCCGGCGCAGCTCCCCCGCGACCCTGACGCGGGAAGGGATAAAACCTTGCTGTACATGGGTTCCTTCATGCCCTACAAGAACGTCGAAACCATGCTGGCGGCGATGGCCGAGCTGCCCGGCTACACGCTGCACCTGCTGAGCCGGATCACCCCCCAGCGGCGCGCCGAACTGGAGACCCTGATGCCCGCCGGCGCCAACATCGTCTTCCACAACGGCGTGACCGACGACGAGTACAGCAAACTGCTCAAGCGCACCGCAGCGCTCGTCAGCCTGTCGAAGGCGGAAGGCTATGGCCTTCCCATGGTGGAGGCCATGGCGCTGGGAACACCGGTCATCGCCAGCGACATCCCCATTTTCCGCGAGGTCGGCGCCGGCGCTGCCACCTACGTCGATCCGGAATCCCCCGCTGCCTTCGCCGCTGCGGTGCGCAGCCTGGACGACGATGCGCACTGGCAGGACGTATCGCGCCGCTCGGTGCGCCGCGCACAGGACTTCAGCTGGGAGGACTCGGCGCGGCAGCTGGTACAGGTGGCAGCAGAGATCATGGACATGCGCGGCAGAAGGCGGCCGCGCTAA	MKIVIDARFTRTDHHDGISRYGASLIAATSRIADVSMLVSDPRQLSLLPDVPYTLINSPLSPAELFVAGKVNRLGADVVVCPMQTMGTWGRKYGLVLTLHDLIYYEHPAPPGFLPAPVRILWRLYHKAFWPQRLLLNRADVVATISHTTEALMAKYRLTARPVRIISNAPQPAQLPRDPDAGRDKTLLYMGSFMPYKNVETMLAAMAELPGYTLHLLSRITPQRRAELETLMPAGANIVFHNGVTDDEYSKLLKRTAALVSLSKAEGYGLPMVEAMALGTPVIASDIPIFREVGAGAATYVDPESPAAFAAAVRSLDDDAHWQDVSRRSVRRAQDFSWEDSARQLVQVAAEIMDMRGRRRPR				NA	NA	NA	NA	NA
D1-17_01823	930	lip3		Lipase 3	ATGAAAACCACAGGCTCCCGGCCCTCGGCCGCACCGGCCTTTTTCAGCAGCGACCTGGCAGCCCGCACCCGGGCCTTCACTATAAACCTCGCCGGCACGCCCGTGGCCTACTGGGTTTACGAACCAGTCCAGGCCACCCGCGACACCCGCACCATCCTGGTCATCCACGGCTTCCGCGGCGACCACCACGGACTGCTGAGGGTGGCCGACCAGCTGCCGGACATGCGCCTCATCATGCCTGACCTTCCCGGTTTCGGCGGTTCCGGGGCCTTCGTGGAAGGCGAACACAGCGTCCGCCGATACGGCCAGTTCATTAAGGACTTCATGGACGCCCTGGGCCTCGGTCCCGACACGGTTCTGCTGGGACACTCGTTCGGCTCCATCATCGCCGCCCATTTCGTGGCAGACCACCAGGACGCTGTCCGCCCCCTCATCCTCATTAACCCCATTGCGGCACCCGCGCTGGAAGGCCCGAAGGGCCTCATGACCCGTCTGGCAGTGTTCTACTACTGGCTCTCCGCCCGCTTGCCCCGCACACTGGGCCTGCGCCTGCTGCGCAGCCGCCTCATTGTCCGCGTGATGAGCGCCGCCATGGCTAAAACGAAGGACCCGGACCTCCTGCGGTTCATCCACGGCCAGCACCATGCCTACTTCAGTGCATTCGCAAACCGCGAGAGCCTGCTGGAATCCTTCACGGCCTCCGTAGGCAGCAACGTCACGGAGGTGGCGCACAAGCTCAGGCTCCCCGTCCTGCTGGTGGCAGGGGAAAAAGATGAGATAGCCCTGCTCCGGGACCAGCACACACTTGCCGGCGCTCTTCCCGACGGCAGGCTGGAAGTGATCTCCGGCGTCGGGCATCTCATCCACTACGAGACTCCGGAGCCCGCCGCCGACTTCATCCGGAGCTTCCTGAAGGACCATACTGCGTGA	MKTTGSRPSAAPAFFSSDLAARTRAFTINLAGTPVAYWVYEPVQATRDTRTILVIHGFRGDHHGLLRVADQLPDMRLIMPDLPGFGGSGAFVEGEHSVRRYGQFIKDFMDALGLGPDTVLLGHSFGSIIAAHFVADHQDAVRPLILINPIAAPALEGPKGLMTRLAVFYYWLSARLPRTLGLRLLRSRLIVRVMSAAMAKTKDPDLLRFIHGQHHAYFSAFANRESLLESFTASVGSNVTEVAHKLRLPVLLVAGEKDEIALLRDQHTLAGALPDGRLEVISGVGHLIHYETPEPAADFIRSFLKDHTA				NA	NA	NA	NA	NA
D1-17_01824	921		COG0656	putative oxidoreductase/MSMEI_2347	ATGTCCCGCCGGTCACCCGACCCGCGCCGCGGTGTCGGTAGAGTCATAGCCATGACTACCTCATCCCGCCTCAGCCTGAACAACGGCGTGCTGATCGACCAGTTGGGATTCGGGCTCTACAAGGTGCCGCCGGAGGACGCGGCCAACCTGGTGATCATGGCGCTCGAAGCCGGCTACCGGCACTTCGATACTGCGGCCATGTACAGCAACGAGTCCGGCGTCGCGAGCGGCATCGTGTCCCTGTACGGCGTTGAGGGAGGGCATGGCGGGTCGGGCGAGTCGGTGCGGTCCACCGCACGTGACGACCTGTTCATCACCACGAAAGTGTGGAACGAAGACCACGGCTACGACGCCACGCTGCGCGCCTTCGACAGCTCCATGATCAAGCTGGGGCTGGAGTACCTGGACATGTACCTGATTCACTGGCCGTGTCCCCGGCGCGGACTGTTCCAGGAGACCTACCGCGCGCTGGAAACGCTCTACCATGAGGGCAAGGTGCGCGCGATCGGGGTTTCAAATTTCCAGCCCGAGCACCTGGACCGGTTGCTGGAGACCGCCGAGGTGGTGCCCGCCGTGAACCAGATCGAGCTTCATCCGTGGCTGCAGCAGGATGAGCTGCGGGAAAAGCACCGCGAGCTGGGCATCCGCACGGAAGCATGGAGCCCGCTGGGGCGCGGCCAGGTCCTGAAAGACCCGGACATCCTGGCGCTGGCGGCCGAGCACAGGGTGACGGCAGCCCAGGTCATCCTCCGCTGGCACCTGCAGCTGGGGAACATCGCGATCCCCAAAGCGAGCTCGTGGGACCGCATCAAAGAGAACTTCGACATTTTCAGGTTCGAACTTTCCGCCCTGGACATGGCCGACATCGCCCGGCTGGAACGAGGCCACCGCACCGGCTCCCACCCTGACAACGTCAACTAG	MSRRSPDPRRGVGRVIAMTTSSRLSLNNGVLIDQLGFGLYKVPPEDAANLVIMALEAGYRHFDTAAMYSNESGVASGIVSLYGVEGGHGGSGESVRSTARDDLFITTKVWNEDHGYDATLRAFDSSMIKLGLEYLDMYLIHWPCPRRGLFQETYRALETLYHEGKVRAIGVSNFQPEHLDRLLETAEVVPAVNQIELHPWLQQDELREKHRELGIRTEAWSPLGRGQVLKDPDILALAAEHRVTAAQVILRWHLQLGNIAIPKASSWDRIKENFDIFRFELSALDMADIARLERGHRTGSHPDNVN	PGPT0001320_204	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001320-dkgA-K06221	NA	NA
D1-17_01825	111			hypothetical protein	ATGGACTGCCTCGCCTTGGAGCAGGGGCTCGAGGATGCCGCCACGAAGTTCATCGGCCCAGTCAAAAAACGAGAGATGCCACGCTACATCGTCCGTGTGAACGGCATCTGA	MDCLALEQGLEDAATKFIGPVKKREMPRYIVRVNGI				NA	NA	NA	NA	NA
D1-17_01826	675			hypothetical protein	ATGTCAACTACAAACTTCCGGCCGAAGTACGTCTCCTTTGACTGCTACGGCACACTGATCAACTGGAATACTGATCCCACCGCCCGCCGGCTGCTCGGGGGCCGTCTGCCTGAAGAGCAGTGGCCTGCGTTCAAGAAGATGTTCCGCGGGTACCGGTTCGACGAGGTTTGCGGCGACTACAAGCCCTACGAGGCGATCCTTCAGGATTCCTTTGACCGGGTGTGCAAGCGCTGGGGCATTGGGCCGACCGAAGGCGCCGGCGCCGAGTTCGCCGAGGCTGTACGCGGCTGGGGTGCCCACGATGACGTGCCGGCTCCGCTGAAGCTCATGGGCGACAACTACAAGCTGGTGATTCTGTCCAACGCAGACGACAGCTTCCTGGACATCAGCATTCCGAGACTGGGCGCCGATTTCCACGCCGTGTTTACCGCTGAGCAGGCCCAGGCCTACAAGCCGCGCTACCAGGCCTTCGAGTACATGCTTGACCAGCTCAACGCGGCTCCGGAGGACTTCCTGCATGTCTCCTGCCACACACGGTACGACATAATGCCGATGCACGACATGGGCTTCAGGAACCTTGTTTTGCTGGACCGCGGCTATGACCCCGTTACCGAGGGCTACGACTACACCACGGTCAGGTCCCTCGACGAACTCAACAAGCACCTCGGTCTCTAA	MSTTNFRPKYVSFDCYGTLINWNTDPTARRLLGGRLPEEQWPAFKKMFRGYRFDEVCGDYKPYEAILQDSFDRVCKRWGIGPTEGAGAEFAEAVRGWGAHDDVPAPLKLMGDNYKLVILSNADDSFLDISIPRLGADFHAVFTAEQAQAYKPRYQAFEYMLDQLNAAPEDFLHVSCHTRYDIMPMHDMGFRNLVLLDRGYDPVTEGYDYTTVRSLDELNKHLGL	PGPT0006885_2053	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-17_01827	981	deoR	COG2390	Deoxyribonucleoside regulator	GTGCAGAAAGAGAGCAGCGTGTCCCGTCCCCGCCATTCCGACGCTCTTCGCGCCGCCCAGCTGTATTACATGCAGGACCTCACGATGGACGCCATCGCCCGGGAGCTTCGCACGTCCCGCTCCACAGTTTCGCGGCTGCTTGCAACGGCCCGCGAGACGGGTCTGGTCCAGATCCAGATCCGCAGCCCGCTGGACACCGGACCTGAGCTTGAACGCCTGATCCGGACCCGGTACAACGTGGATGTGCACGTGGTGCCCGTGCTGGACACCCTGAATGAAGCGGAAACACTGGACCGGGTGGCGATGCAGGCTGCCCGCACCATCGGCCCGCTTGTCGATTCCAACGCCATCATCGGTGTGGCTTGGGGCTCAACCCTCAGTGCAGTCAGCCGGCACCTGACCCGGAAGATCACCCACGACACCGTCGTGGTGCAGCTGAACGGGGCGGGCAATATGCAGACCACCGGCATCACGTACGCCAGCGACATCATGCGGCGCTTCGGCAGCGCGTACGGGGCACGGGTGGAGCAGTTCCCCGTGCCGGCCTTTTTTGATCACGCGGCCACGAAGACGGCCATGTGGAATGAGCGAAGCGTGCAGCGCATCCTCGATCTGCAGGCGCGGATGAGCATCGCAATCTTCGGCGTCGGCTCGGTGGATGCGGACTACCCCAGCCACGTGTACGCCGGGGGCTATCTCGACGAAGCCGACCTCAACGTTCTTGCCAGTTCAGACGTGGTGGGCGACGTGGCCACCGTCTTCTTCCGCGCTGACGGCTCCTCAGACGGCATTACCCTGAACGAACGGTCCACTGGACCCTCCCTGGACCAGTTGCGCCAGGTGCGGCGGAGGATCTGCGTAGTGTCGGGCGCGTCCAAGATCAACGGTCTGCGCGGGGCCCTGGCGGCCGGGCTTGCCACCGACCTGATCCTGGATGAAGCCTCAGCCAGACGGCTCGTCAGCCTTGAACATGGAACCTGA	MQKESSVSRPRHSDALRAAQLYYMQDLTMDAIARELRTSRSTVSRLLATARETGLVQIQIRSPLDTGPELERLIRTRYNVDVHVVPVLDTLNEAETLDRVAMQAARTIGPLVDSNAIIGVAWGSTLSAVSRHLTRKITHDTVVVQLNGAGNMQTTGITYASDIMRRFGSAYGARVEQFPVPAFFDHAATKTAMWNERSVQRILDLQARMSIAIFGVGSVDADYPSHVYAGGYLDEADLNVLASSDVVGDVATVFFRADGSSDGITLNERSTGPSLDQLRQVRRRICVVSGASKINGLRGALAAGLATDLILDEASARRLVSLEHGT				NA	NA	NA	NA	NA
D1-17_01828	1803	eryB	COG0578	D-erythritol 1-phosphate dehydrogenase	TTGGGACTCAAGGATTCATCCGGCCATAAGTACACCTCCGGCGCAGGGGGCACTCCCCGCGCCTCGGTCGCCAGCCTCCGGCAGCGGCCTGCAGCCCGCGTTCTGATTGTCGGCGGCGGTATCAACGGTGTCGGTACCTTCCGGGACCTTGCCCTGCAGGGGGTGGACGTGGCACTTGTGGAGCGCGGCGACTACTGCCAGGGCGCCAGCGGTGCCTCCTCCCACATGATCCACGGCGGCATCCGCTACCTGGAAAACGGCGAGTTCCGGCTCGTCCGGGAATCCGTAGCCGAACGAAACCGCCTCCTGCGGATCGCGCCCCACTACGTCAAGCCGCTGCAGACCACCATCCCCATTTTCAGCACCTTTTCCGGCGTACTCGCGGCACCGCTGCGTTTCCTGACACACAAGCAGCGGGGCAAGCCGAAGGAACGCGGCGCGTTCCTCATCAAACTTGGGCTGAGCCTTTATGACTCCTTCTCCCGCGACGGCGGCAGCGTCCCCCGCCATCAGTTCCGGGGCCGTGCCAAAGCCCTGACCGAACTTCCCATGCTGCACCCCGGCGTCAAATACACCGCCACCTACTTCGACGCCTCGGTTCACAACCCCGAGCGCCTCACGCTGGATGTGCTTCAGGACGGCGAGAAGGCAGGGGCTGCAAACCCCGCCGCCAACGGCGCTGCCAGCAGCGCCCGGGCCAGCAACTACCTGTCGCTGGTAACGGTGAAGCCGCAGTCGGATGGCTCCAGTACCGCGGAGCTGCGCGATGAACTGACCGGCGAGGTCTTTGATTTCACCGCCGATGTGATCGTTAACACCACAGGCGCCTGGGTGGACGTCACAAACCAGGCGATGGGCGCGGCTTCCGCCTTCATGGGCGGCACCAAGGGCTCCCATATAGTCCTCGACCACCCCAACCTCCTCGCAGCCTGCGATGGCCGCGAGATCTTCTTTGAACACACGGACGGTCGGATCGTGCTGATCTACCCGATGGGTGACCGTGTGCTTGTCGGGACCACTGACGTGGACGCTGACATGGCGGAAGACGCGGTCTGTACGGAAGCCGAGATCGACTACTTCTTCGACCTCATCGGCCACGTGTTCCCGGACATCGCGGTGGGCCGGGAACAAATCGTCTACACCTTCTCTGGCGTCCGACCGTTGCCCAGGCATGATGCCACCCAGCCGGGCTTCGTCTCCCGCGACTACCGCATCGAGCGGCGTGCTCCCGAAGCCGGCGGCAGCGGAGCCGTCGTCCTTAGCCTTGTCGGCGGAAAGTGGACCACGTTCCGGGCGCTTGCCGAGCACCTCAGCAATGACGTCCTCACGGAACTGGGTATGGAACGGAAAGTCTCGACGGCGAAACTTCCCATTGGAGGCGGCGCAGGCTTTCCGGACTCTGAAGCCGGAGTCCAGAACTGGATCAAAGCGCACATGAACGGACCACGGGATGCCGACCGGACCGCCGGCCTGCTGACCCGGTACGGTACCCGCGCTGAGGAGGTCATCCGCTATCTCGACGGCGGCCCCGACCACCTGCTCCGTTCTACCCGGGAACTGAGCAGGCGGGAGCTGGAGTTCATGGCAGCCAATGAGCAGGTGGGCCATCTCGTCGACGTCCTGATCCGCCGGACATCCCTGGCTTTCCGCGGGCTGGTCACGGGCGAGCTGCTGAACGAGGTCGCTGACATCCTGGCGGAGCCGCTCGGGTGGGACGCGTCCAAGCGCGCCGCCGAGATCGATCACGCTCAGGAGGTGCTCAAGCGGTACCACGGCGTCGAGGTACACAGCCTCGTCGCCTAA	MGLKDSSGHKYTSGAGGTPRASVASLRQRPAARVLIVGGGINGVGTFRDLALQGVDVALVERGDYCQGASGASSHMIHGGIRYLENGEFRLVRESVAERNRLLRIAPHYVKPLQTTIPIFSTFSGVLAAPLRFLTHKQRGKPKERGAFLIKLGLSLYDSFSRDGGSVPRHQFRGRAKALTELPMLHPGVKYTATYFDASVHNPERLTLDVLQDGEKAGAANPAANGAASSARASNYLSLVTVKPQSDGSSTAELRDELTGEVFDFTADVIVNTTGAWVDVTNQAMGAASAFMGGTKGSHIVLDHPNLLAACDGREIFFEHTDGRIVLIYPMGDRVLVGTTDVDADMAEDAVCTEAEIDYFFDLIGHVFPDIAVGREQIVYTFSGVRPLPRHDATQPGFVSRDYRIERRAPEAGGSGAVVLSLVGGKWTTFRALAEHLSNDVLTELGMERKVSTAKLPIGGGAGFPDSEAGVQNWIKAHMNGPRDADRTAGLLTRYGTRAEEVIRYLDGGPDHLLRSTRELSRRELEFMAANEQVGHLVDVLIRRTSLAFRGLVTGELLNEVADILAEPLGWDASKRAAEIDHAQEVLKRYHGVEVHSLVA	PGPT0006775_690	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
D1-17_01829	747	glpF	COG0580	putative glycerol uptake facilitator protein	ATGTCTCTTGAATTGGTTTTTCTTTCCGAAGTATTCGGAACTGCCATGCTGACCCTCCTGGGCTGCGGCGTTGTGGCCAACGTCGCGCTCCAGGGTACGAAGGGCAACAACGGCGGGTTCCTGATGGTCACATGGGGGTGGGGCATCGCGGTTTTCGCCGGCGTCTACGTAGCCGCCAGGTCCGGCGCCCACATTAATCCCGCCGTCACTCTGGGCCTTCTCGTCAACGGCAAGGAGGAATATGCCCCTGGCGTGCCGGTGAACGCGGCCTCGACGCTAACGTACTTCGGTGGAGAGTTTCTGGGGGCCTTCCTGGGAGCCGTAATCGCGTGGCTGGCGTACAGGCAGCACTTCGATGCGGAACCTGAACCGGCGAACAAGCTGGGCGTCTTCTCCACGGGCCCGGCCATCCGCTCAAAAATATGGAACCTCGTCACCGAGATCATCGGCACCTTCGTTCTGGTCTTCGTCATCCTCACGTTCGGAGGAACCCCCTCGGGCCTTGGCCCGCTGGCTGTGGCGCTGCTGGTTGTGGGCATCGGCGTTTCCCTGGGCGGCCCCACCGGTTACGCCATCAACCCTGCCCGTGACCTTGGCCCCCGGGTGGCCCACGCAGTGCTGCCCATTAAGGGCAAGGGCTCCAGCGACTGGAGCTACTCCTGGGTCCCGGTAGTCGGCCCCCTGATCGGCGGAACACTGGCCGGCCTGGCGGGACTGCTGCCGATCGTTTTCACAGCGGCTACCTGA	MSLELVFLSEVFGTAMLTLLGCGVVANVALQGTKGNNGGFLMVTWGWGIAVFAGVYVAARSGAHINPAVTLGLLVNGKEEYAPGVPVNAASTLTYFGGEFLGAFLGAVIAWLAYRQHFDAEPEPANKLGVFSTGPAIRSKIWNLVTEIIGTFVLVFVILTFGGTPSGLGPLAVALLVVGIGVSLGGPTGYAINPARDLGPRVAHAVLPIKGKGSSDWSYSWVPVVGPLIGGTLAGLAGLLPIVFTAAT	PGPT0004760_1629	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
D1-17_01830	1515	glpK	COG0554	Glycerol kinase	ATGAGCCAGTACGTAATCGCCATCGACCAGGGCACCACCAGCACCCGCGCCATCGTCTTCGACCAGTCGGGCAGCATCGTCTCTTCAGGACAGATGGAACATGAGCAGATTTTCCCGCAGGCGGGCTGGGTGGAGCACAATCCCGCGGAGATCTGGGACAACACGCGCGAGGTCGTCGCCTCCGCGCTCTCAAAGGCGAACCTGACGCGGCACGATATCGCCGCCGTCGGAATCACAAACCAGCGTGAGACGGCCGTGGTCTGGGACAAGACCAGCGGAAAGGCCATCTACAACGCCATTGTGTGGCAGGACACCCGCACCCAGCCCATCGTCGATGAGCTTGCAAAGGACGGCGGGGCGGACCGCTTCAAGCAGAAGGTCGGCCTGCCGCTGGCCACCTATTTCTCCGGAACGAAGATCAAGTGGATCCTGGACAATGTCGACGGCGCACGGGCCAAGGCGGAGGCGGGAGACCTGGTCTTCGGCAACACCGACGCATGGGTGCTGTGGAACCTGACAGGCGGTGTGGACGGCGGCGTGCACGTCACCGACGTCACCAACGCCTCCCGGACACTGTTCATGGATCTAGATACGCTGCAGTGGGACGAGGAGATCCTGGGCATCTTCGGCGTCCCGGTGTCCATGATGCCGGCCATCAAGTCCTCATCGGAGGTCTACGGGACGGTGCACACGTCGCAGCTGTTGCGCGAGGTGCCGGTCGCCGGCATCCTGGGCGACCAGCAGGCAGCCACGTTCGGCCAGGCCGCCTTCGAAACCGGTGAAGCCAAGAACACCTACGGCACCGGCTGCTTCCTGATCTTCAACACGGGCGAGGAGATCGTTCACTCCAAGAACGGCCTGCTCACCACCGTGGGGTACAAGCTGGGGGATGCGGCCCCGCACTACGCGCTGGAAGGGTCCATCGCCGTCACCGGTTCACTGATCCAGTGGCTGCGGGACAACCTGGGCTTGATCAGCAGCGCACCCGAAGTGGAAAAGCTGGCGGCCTCCGTGCCGGACAACGGCGGGGTGTACATCGTCCCTGCCTTCTCGGGCCTGTTCGCGCCCTACTGGCGTTCGGATGCCCGGGGAGCCATCGTTGGCCTGACGCGGTATGTCAACAAGAACCACATCGCCAGGGCCGCCCTGGAGGCCACCGCCTTCCAGACCCGCGAGGTGCTCGACGCCGTCAACGCGGACTCGGGCGTTCCGCTCAGTGAACTGAAGGTCGACGGCGGCATGGTCGCCAACGACGCCCTGATGCAGTTCCAAGCGGACATCCTCGGCGTCCCCGTCATCCGGCCCAAGGTGGTGGAGACCACCGCGCTCGGGGCAGCGTACGCCGCCGGCCTCGCGGTCGGATTCTGGAAGGACCTCGGCGAGTTGTCCGCCAACTGGTCTGAGGACAAGCGCTGGGAGCCGAACCTGGACGCGGAAGAGCGGGAACGGCAGTTGCGGCTTTGGAGGAAGGCCGTGACCAAGTCCATGGACTGGGTAGACGAGGACGTGAGGTAG	MSQYVIAIDQGTTSTRAIVFDQSGSIVSSGQMEHEQIFPQAGWVEHNPAEIWDNTREVVASALSKANLTRHDIAAVGITNQRETAVVWDKTSGKAIYNAIVWQDTRTQPIVDELAKDGGADRFKQKVGLPLATYFSGTKIKWILDNVDGARAKAEAGDLVFGNTDAWVLWNLTGGVDGGVHVTDVTNASRTLFMDLDTLQWDEEILGIFGVPVSMMPAIKSSSEVYGTVHTSQLLREVPVAGILGDQQAATFGQAAFETGEAKNTYGTGCFLIFNTGEEIVHSKNGLLTTVGYKLGDAAPHYALEGSIAVTGSLIQWLRDNLGLISSAPEVEKLAASVPDNGGVYIVPAFSGLFAPYWRSDARGAIVGLTRYVNKNHIARAALEATAFQTREVLDAVNADSGVPLSELKVDGGMVANDALMQFQADILGVPVIRPKVVETTALGAAYAAGLAVGFWKDLGELSANWSEDKRWEPNLDAEERERQLRLWRKAVTKSMDWVDEDVR	PGPT0018435_2289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
D1-17_01831	2526	leuS	COG0495	Leucine--tRNA ligase	GTGAGCGTTCAGCCGGAGACCGAGACCGGAGCAACAGCAGGTGGAGCCGAAAGCCCCGAGGAGGGGTCCTACAGCTTCGCGGCGATGGAGGCCCGGTGGCCACAAGTGTGGGAGGACCTTAAGGTCTTCACCCCCGTGGACGACGGTTCGCGCGAGCGCCGCTATGTCCTGGACATGTTCCCCTACCCATCCGGCGACCTTCACATGGGGCATGCTGAGGCCTTTGCCATGGGCGACGTCGTTGCACGGTATCTGCGCCAGCAGGGTTTTGACGTCCTGCACCCGATCGGTTGGGATTCCTTCGGACTTCCGGCCGAGAACGCGGCGATCAAGCGCAACGCGCACCCGAGTGAGTGGACCTACGCCAACATCGAGACGCAGGCAGCCTCGTTCAAGCGGTACGCCATCTCTGCTGACTGGTCCCGCCGCCTGCACACGTCCGACCCGGAGTACTACCGGTGGACCCAGTGGCTGTTCAAACGCTTTTACGAGCGCGGACTCGCTTACCGCAAGGACTCGCCGGTCAACTGGTGCCCGAAGGACCTGACCGTGCTGGCCAACGAGCAGGTCGTCAACGGCGCCTGTGAGCGTTGCGGCACGGCGGTGACCAAGAAGTCGCTGAACCAGTGGTACTTCAAGATCACCGATTACGCCGACCGGCTGCTGGATGACATGTCCGAGCTGCAGGGGCACTGGCCTGAGCGTGTACTGGCGATGCAGCGAAACTGGATCGGGCGTTCAGAGGGCGCCCACGTCCGCTTCGTGATCGAGGCGTCGGGCGGACGGGACGAGCGCGAAGTCACAGTCTTCACCACGCGTCCGGACACCCTGTACGGCGCCACATTCTTCGTCGTGGCCGCGGACGCGCACCTGGCTTTGGACTTGGTCACGCCGGAACACCACGACGCACTCATGGCCTACCGCGAAAAGGTCAAGGCACTCTCTGACATCGAACGCCAGTCCACCGAGCGCGAAAAAACCGGTGTCTTTACCGGCCGCTACGCCATCAACCCCCTGAACGGTGAGAGGCTTCCCGTATGGGCGGCGGACTACGTCCTGGCCGACTACGGCACCGGCGCCATCATGGCCGTTCCTGCGCATGACCAGCGCGACCTCGACTTCGCCAAGGAGTTCGGCCTGCCCGTGCGCGCGGTACTGGACACCGGCGAGGAGGACCCGGGCGTCTCCGGCAAGGCAACGGCCGGCGAGGGCACGCTCATCAACTCCGGTCCGCTGGATAGCATGCCCAAGGGCGAAGCCATCCCCGCGGCCATCAAGATCCTCGAGGACCAGGGCACAGGGGAGAAGTTTGTGAACTTCCGGCTGCGTGACTGGCTCCTGAGCCGACAGCGCTTCTGGGGCACCCCGATCCCCATCATTCACTGTGCGGAGTGTGGCGAAGTGCCGGTCCCTGACGAACAGCTGCCGGTGAGGCTTCCTGAGAATCTGCGCGGCGAGGCGCTGTCACCACGGGGCACGTCGCCACTGGCCGCGGCCGCCGAGTGGGTCAACGTTGAGTGCCCGAACTGTGGACGCGCAGCCCAGAGGGACACGGACACCATGGACACGTTCGTGGACTCGTCCTGGTACTTCCTGCGTTTCGTCTCCCCGCACTACACGGACGGTCCGTTCGACCCGGCGAAGATCAACGACTGGATGCCGGTCGGCCAGTATGTCGGCGGCGTAGAGCACGCCATCCTGCACCTGCTCTATGCCCGCTTCTTCACCAAGGTCATTCATGACATGGGCCTCCTGGCGGCGGACGAGCCTTTCAGTGCGCTGCTGAACCAGGGGCAGGTCCTTAACGGGGGTAAGGCGATGAGCAAGTCCCTGGGCAACGGCGTGGACCTGGGGGAGCAGCTGGACAAGTTCGGTGTGGACGCCGTCCGGTTGACGATGATCTTCGCCTCCCCGCCGGAGGACGACGTCGACTGGGCGGACGTTTCGCCGTCCGGATCTGCCAAGTTCCTCGCCCGCGCCTGGCGGCTGGGGCAGGATGTGGCCAGCAAGCCCGGGGTCGACTTCAGCGCCGGTGACCGTGCCTTGCGCGCGGTCACGCACCGGACGGTTGCCGACGCTGCGGAACTGCTGGACAACAACAAGTTCAATGTCGTGGTAGCCAAGCTTATGGAACTGGTCAACGCCACGCGCAAGACCATCGACACAGGCGCCGGCGGGGCGGATCCGGCAGTCCGGGAAGCAGCGGAAGCCGTGGCAGTCATCCTGAGCCTGTTCGCGCCCTACACCGCCGAGGACCTGTGGAACGTGCTGGGGCACCCCGCCTCGGTTGCCAATGCGGGTTGGCCGACCCACGACAAGGCCTTGCTCGTGCAGGACACCATCACGGCCGTGGTCCAGGTTCAGGGCAAGGTCAGGGACCGTCTCGAGGTGTCCCCGGACATCTCCGAGGACGAGTTGCGCGGGCTGGCCCTGGCCTCGGAGAATGTCCAGCGGGCGCTGGACGGACGCGGGATCCGCACAGTCATTGTGCGCGCCCCTAAACTGGTCAACATCGTCCCGGCCTAG	MSVQPETETGATAGGAESPEEGSYSFAAMEARWPQVWEDLKVFTPVDDGSRERRYVLDMFPYPSGDLHMGHAEAFAMGDVVARYLRQQGFDVLHPIGWDSFGLPAENAAIKRNAHPSEWTYANIETQAASFKRYAISADWSRRLHTSDPEYYRWTQWLFKRFYERGLAYRKDSPVNWCPKDLTVLANEQVVNGACERCGTAVTKKSLNQWYFKITDYADRLLDDMSELQGHWPERVLAMQRNWIGRSEGAHVRFVIEASGGRDEREVTVFTTRPDTLYGATFFVVAADAHLALDLVTPEHHDALMAYREKVKALSDIERQSTEREKTGVFTGRYAINPLNGERLPVWAADYVLADYGTGAIMAVPAHDQRDLDFAKEFGLPVRAVLDTGEEDPGVSGKATAGEGTLINSGPLDSMPKGEAIPAAIKILEDQGTGEKFVNFRLRDWLLSRQRFWGTPIPIIHCAECGEVPVPDEQLPVRLPENLRGEALSPRGTSPLAAAAEWVNVECPNCGRAAQRDTDTMDTFVDSSWYFLRFVSPHYTDGPFDPAKINDWMPVGQYVGGVEHAILHLLYARFFTKVIHDMGLLAADEPFSALLNQGQVLNGGKAMSKSLGNGVDLGEQLDKFGVDAVRLTMIFASPPEDDVDWADVSPSGSAKFLARAWRLGQDVASKPGVDFSAGDRALRAVTHRTVADAAELLDNNKFNVVVAKLMELVNATRKTIDTGAGGADPAVREAAEAVAVILSLFAPYTAEDLWNVLGHPASVANAGWPTHDKALLVQDTITAVVQVQGKVRDRLEVSPDISEDELRGLALASENVQRALDGRGIRTVIVRAPKLVNIVPA				NA	NA	NA	NA	NA
D1-17_01832	1095			hypothetical protein	GTGATTGACCGTGAGCCGGGCGCCTGGCTGTGGCTGAAGGACCATCTGGCCCGCCTCCGCCAGGCCACTGTTCCCGGGCGGCTGCAGTCCTCGGCGGAACCGGCTGTCGTCGTTCGCACCGCGGTGGTGACCGACTCCGCTGCCGCGCTGCCCGCCGACTGGGTCCGGGGCTTTTCCCTGGACGGCCGGCTCGCGGTGGTGCCCATGCCGGTCATGGTGGGCGAGGAAATCTACGGCGAGGGAGAGGACGACATCGCCGAAACTATCGCGGTTGCCCTCGCGGCCGCCACCCCGGTGAAGACGTCCAGGCCTTCCCCCGGGCAGTTTGAACAGGCATACCAGGCGGCAGCAGCCCGCGGCTATGAGGCCGTGGTATCCATCCATATCTCAGGCGACCTGTCCGGCACCGCCGATGCTGCCCGGATCGCGTCCGCCCGCGTCGGCATTCCCGTTGAGGTGCTGGACAGCCGGACCGTCGGCATGGCCCAGGGGCTGGCGGTGCAAAGCGCCGTTGTCGCTGCTGCTGATGGCCGCAGTGCCGAGGAAGTCCGGAAATTCGCTGAGGAACGCCTCGCCAAGACCAAGGTCTATTTCTATGTCCCGAGTCTGGAACAGCTGCGGCGGGGCGGCAGGATCGGGGCAGCTGCCTCCCTCGTGGGAACGATGTTCTCGATAAAGCCGATTCTCGCCATCGACGGCGGGAAGATCGTTCCGCTGGAAAAGATCCGGTCTGCACCGAAGGCTGTTGCCCGGCTCGAGGAGCTTGTGGCGGCCGACGCAGCGGGGCGGCCGCAGGGGGAAGCCCGGCTGGCCATCCACCATTTCGGAAACCAGTCCGAAGCCGAACTCCTTGCCGCCAGGCTTGCAGCGGCCCTGCCCGACACCCCGCCGGCGCAGATCAGCTCCCTGCCGGCCGTGCTTGCCGCCCACGCCGGGCTCGGGGTACTCGCTGTGATCGTCAGTGAGAGCACCGTCTGCGGCGCCGGCGTGCTCGCCCCGGCACCTGCTTCCGGGCCATCCGGGCCCGCACCCGCGCCTGCCGCGGCTCCCGCGCCGGGTGTTCAGGGAAAGCCGGGCAAGGAACCGGGCCACTAG	MIDREPGAWLWLKDHLARLRQATVPGRLQSSAEPAVVVRTAVVTDSAAALPADWVRGFSLDGRLAVVPMPVMVGEEIYGEGEDDIAETIAVALAAATPVKTSRPSPGQFEQAYQAAAARGYEAVVSIHISGDLSGTADAARIASARVGIPVEVLDSRTVGMAQGLAVQSAVVAAADGRSAEEVRKFAEERLAKTKVYFYVPSLEQLRRGGRIGAAASLVGTMFSIKPILAIDGGKIVPLEKIRSAPKAVARLEELVAADAAGRPQGEARLAIHHFGNQSEAELLAARLAAALPDTPPAQISSLPAVLAAHAGLGVLAVIVSESTVCGAGVLAPAPASGPSGPAPAPAAAPAPGVQGKPGKEPGH				NA	NA	NA	NA	NA
D1-17_01833	1065			hypothetical protein	ATGCTGCCTGCCAGCCGCCTGGCCGCCACGCTGGCCCGTGCCCGCGACCCTGCCCGCGTGGATTCTGCCCGCGCAGACCCTGCCCGCGCAGACCCTGCCCGCGCAGACCCTGCTCACGTAGACACTGCCCGCGCGCACCATGGCGCGAACGGGCCTCCGGGTCTGCTCGACACGGGCGGAGGCGAGGACTTGTCATTCGGCGCCGGACCCGGCAGTTCTTTACCGGCTTCCACCGCCGCGGTGGCACCCCGGCTCAGGTGGCGGCTGGGGCTGCGGGCTGCGGTGTTGCTGGGCGTCCTGTCGCTGGCCGCCGGTGCCTGGTTCTGGTGGCGGATTGCAACCGCCGTTCCCGAAGTGACGCCACTGATCGCCGTCACCGAAACAGGCACCGCCGACGCCGGAACCGGCACCACCGCTGGGGAGGATGACGCGGAAACGTCCGACGGCGCCGGCAGCGGCTCCCAGTCCGGATCCGCAGGTGGCGGCGCTGACGATTCCGGGGGAACCGCAGTGGTACACGTCGCGGGAGCCGTGAAGAAGGCCGGGGTGGTCGCGTTACGGAAGGGGAGCCGCGTCCACGACGCCATCGTGGCGGCCGGCGGTGGGACGGCTGCAGCGGACCTCAACAGGCTCAACCTCGCAGCCGTCCTGCAGGACGGCCAAAAGATCCACGTCCCGCGGCAGGGGGAACCGGCCCAGCAGGAGAGTGCGGTCGATGGAGGGCAGCGGGAAGGCTCCCCGCCGGCAGGGCCCCGGGCGGTAGGGCCAGGCACCGCAGGCTCAGGCACCGCAGGCTCAGGCACAGCGGGCACTGGCACAGCCGGATCAGCCGGTGCAGACTCAGGACCGGGCGGCGCCAGCGGTGCATCAGGGGCCAAGGTCAATCTCAACACCGCCACCGTGGAGGAACTGGACGGTCTGCCCCGGGTGGGGCCTGTACTGGCGCAGCGCATCGTTGACTGGCGCGCAGAACACGGCCACTTTAGGGCCGTGGAGGAGCTCGACGCCGTGGACGGGGTCGGGCCCAAAATGCTGGAGGCTCTGCTGCCGCTGGTAACGGTCTGA	MLPASRLAATLARARDPARVDSARADPARADPARADPAHVDTARAHHGANGPPGLLDTGGGEDLSFGAGPGSSLPASTAAVAPRLRWRLGLRAAVLLGVLSLAAGAWFWWRIATAVPEVTPLIAVTETGTADAGTGTTAGEDDAETSDGAGSGSQSGSAGGGADDSGGTAVVHVAGAVKKAGVVALRKGSRVHDAIVAAGGGTAAADLNRLNLAAVLQDGQKIHVPRQGEPAQQESAVDGGQREGSPPAGPRAVGPGTAGSGTAGSGTAGTGTAGSAGADSGPGGASGASGAKVNLNTATVEELDGLPRVGPVLAQRIVDWRAEHGHFRAVEELDAVDGVGPKMLEALLPLVTV	PGPT0029410_286	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029410-comEA-K02237	NA	NA
D1-17_01834	1908			hypothetical protein	GTGACCATCCCTGCCGCCGGCGCTCCTGCCAGGGATACACGTGCTTCCAAGTGCCGGCCGGACTTGGCACTGCTGAGTGGATTCCGCGACGGGCTGCGCTCCCGGTTGGTGCCAGAGGAACGTGCAGCCGGGGAAGACGACACAAGACGGCGCCGGTTAGACCTTCGCCTCGTACCGGCCGCCCTCCTCGTCTGGGCTGCCGCCGGTGCCGGTCCCTGGCTTGCTCCCGCCGGGTTGCTTGGCCTCTGTAGTGTGATGACCTTCGCCGCTGCCATGCTGCTGGCCAAGTCAGTACGGCAGCGGCGCAGAGCAGGGCAGGCCGCCGGCCGGAGCTTCCTGCTGACCGTCGCGGCGGCACTGTTCCTGGCTGTTGCCGTTGCGGCGCACTCAGCCGTCTCGTCCGTCCAGCGGCATGAGGGGCCGGTGGCTGGCGCAATCGCGGCTAAGGCATCGTCCTTTGCAGAACTCGAAATTACGGGCGCCCCGCGGGCCCTGACAGCATCAGGCGGTCCAGGCCTGTCATCCCGGTGGGCCGTGAACGCCAACCTCAGGTCGCTGAGCACCGGTGGCCGGTTGCTCCACGCTGATACGGCGGTTGTCATTATGGGGGGACCGGCCTGGCAGCACGTGCTTCCGGGGCAGAAAATTCGGGCTGCCGGAAAGCTCCGTCCGCCCGATCCCGGGCAGGTGGAGGCGGGCCTGCTGTCCGCTTCCACGGCCCCACTGCCGCTTGAACCGGCCGGCGCCTGGGCAGCGGGGCCCGCTTCGTTGGGACAGGAGTTCGCACATGCAGCCGGCTGGCTGAATCCTGACGCCAGGGGACTCCTTCCGGGGATGGTCACGGGGGACACGGGACATTTGGATGAGCAGCTGGAGGCGTCCATGCAGGCCGTGGGCCTCACGCATCTGACGGCCGTCTCCGGCGCTAACTGCAGCCTGATTCTGGGAGCACTGCTGCTGGGCGCAAGGAGCCTGCGGCTGCCCCGTCTGCCCGCGGCACTCCTGGCCCTCGCCGGCCTGGCCATGTTTGTGCTGATGGTGGGACCGGATGCCAGCGTCCTGAGGGCTTCCCTGATGGGTGCCATAGCGCTGGCGTCCCTCGCATGCGGAAGAACCGGGCGAGGCCTGAGCTTCCTCTGCCTCGCAGTGATCGGACTCCTGCTGATTGAACCAGCGCTCGGCACCAGCTTCGGGTTCCTGCTGTCAATCCTGGCGACCCTCGGAATCATTCTGCTGGGCAGTGAAATTGCGGGGTGGGTTCCGCACTCCGTGCCGCGTTGGCTGGCCGCGGCCCTGGCCGTGCCGTTATCCGCACAGCTGCTCTGCGGCCCCGTGGTCGTGCTGCTCCAGCCTCAGTTCTCAACCTACTCGCTGCTGGCCAATGTGCTGGTGGGACCGCTCGTGGCGCCGGTAACCATTCTGGGCACCATGGCAGTTCCACTTGTTCCGCTGGTGCCGATCGCAGCGGCAGCGCTGATCGGAGCTGCCGGGCTCTTTGCAACAGGGGTGGCCGGAGTGGCGAGGTTCATGGCGGGGCTGCCGGGCGCTGCCCCACCTTGGCCCGAAGGCCCCTTTGGCCTGCTCACCATGGTGCTGTTTTCGGCCCTCAACATCCTGGTCGTCTGGCTCGCCGTCCGCCCGCGCCGGACGCTGCAGGCTGTTTTTCGCGCGCACCGGGCATTGACCGCAGCGCTGGAGCGGAGTGAGCGAAAGCACCTGTCCAGCCGGGACCTGCGGCAAGGAGGGTTGTGCCGACCGGGCCCGCCTGCCCGCCGTTTGGTGCGGCCGGTGCGCCGCGGAAGGCTTAGAATCAGTAGTCTGTACCCCAGGAGGAACCAAGAGTGGCGGCAGCCCAGACCCAACGATCCAGGACGTCGGCGGCCAATACGGCCACCTGGCGGGACGTAA	MTIPAAGAPARDTRASKCRPDLALLSGFRDGLRSRLVPEERAAGEDDTRRRRLDLRLVPAALLVWAAAGAGPWLAPAGLLGLCSVMTFAAAMLLAKSVRQRRRAGQAAGRSFLLTVAAALFLAVAVAAHSAVSSVQRHEGPVAGAIAAKASSFAELEITGAPRALTASGGPGLSSRWAVNANLRSLSTGGRLLHADTAVVIMGGPAWQHVLPGQKIRAAGKLRPPDPGQVEAGLLSASTAPLPLEPAGAWAAGPASLGQEFAHAAGWLNPDARGLLPGMVTGDTGHLDEQLEASMQAVGLTHLTAVSGANCSLILGALLLGARSLRLPRLPAALLALAGLAMFVLMVGPDASVLRASLMGAIALASLACGRTGRGLSFLCLAVIGLLLIEPALGTSFGFLLSILATLGIILLGSEIAGWVPHSVPRWLAAALAVPLSAQLLCGPVVVLLQPQFSTYSLLANVLVGPLVAPVTILGTMAVPLVPLVPIAAAALIGAAGLFATGVAGVARFMAGLPGAAPPWPEGPFGLLTMVLFSALNILVVWLAVRPRRTLQAVFRAHRALTAALERSERKHLSSRDLRQGGLCRPGPPARRLVRPVRRGRLRISSLYPRRNQEWRQPRPNDPGRRRPIRPPGGT	PGPT0029415_3667	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
D1-17_01835	936			hypothetical protein	GTGCTGATTACCGGTCCGGAGGAATACCTCGGCATCCGGGCCATCGACCGTGTCCGCGCGCAGGTCCGTGCCGCTGCCCCGGACGTCGAAGTGACCCGGCTCAACGCCGGCAGCTACGAAGCAGGCTCGCTGGCCATGAACGTCAGTCCCTCGCTGTTCGGCGAAAGCAAACTCATCGAGGTCGAGGGGCTCGAGTCCATGAACGATGCGTTCCTGGCCGACGCCCTGACCTATCTCAAGCAGCCCGAGCAGGAAGCTGTCCTGGTCCTCCGGCACGGTGGCGGGGTCCGGGGCAAGAAACTTCTGGACGCCGTCAAGGCCGGAGGATGGCCCGTTGTGGATTGCCAGCCGCTGAAGAAGGACGCGGAAAAAACCGCATTCGTCGCCGCGGAGTTCAAGGCGGCCTCGCGGCGCATCGAACCGGCTGCGGTGCAGGCTCTCGTGAACGCAGTCGGAGCCAACCTCTCGGAGCTCGCCGCGGCGTGCAGCCAGCTGATCTCCGATGCCTCCACAACGGTGGACGCGGACATGGTCGAACGCTATTACGGAGGCCGGATAGAGGCTACGGCCTTCAAGGTGGCAGATGCTGCCATGGCAGGAAACGGTCCACTGGCGCTGTCCACTCTCCGTCACGCGCTGGCAACCGGAGCGGACCCAGTTCCGCTCGTGGCCGCGCTGGCCGCCAAGCTGCGGACGGTTGCCAAGGTAGCCGGCGCCCAAGGATCATCGGCCCAGATCGCCAAGCAGCTGGGCATGCAGCCTTGGCTCGTGGAACAGGCACAACGTGATGTCAGGCGTTGGACGCCGGAGGGCCTGGCCCGTTCCATTCAGGTGACGGCGGAGGCCGATGCACAAGTTAAGGGACTTTCCCGCGACCCGGTCTACGCGGTGGAGCATGCAGTCACCGTCATAGCAACATCGGCCCGCGGCCGCTAA	MLITGPEEYLGIRAIDRVRAQVRAAAPDVEVTRLNAGSYEAGSLAMNVSPSLFGESKLIEVEGLESMNDAFLADALTYLKQPEQEAVLVLRHGGGVRGKKLLDAVKAGGWPVVDCQPLKKDAEKTAFVAAEFKAASRRIEPAAVQALVNAVGANLSELAAACSQLISDASTTVDADMVERYYGGRIEATAFKVADAAMAGNGPLALSTLRHALATGADPVPLVAALAAKLRTVAKVAGAQGSSAQIAKQLGMQPWLVEQAQRDVRRWTPEGLARSIQVTAEADAQVKGLSRDPVYAVEHAVTVIATSARGR	PGPT0029415_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029415-comEC-K02238	NA	NA
D1-17_01836	261	rpsT	COG0268	30S ribosomal protein S20	GTGGCAAATATCAAGTCCCAGAAGAAGCGCATCCTGACCAACGAGAAGGCTCGCCAGCGTAACAACGCCGTCAAGTCCGAGCTCAAGACTGCCATTCGCGCCGTCAACGCGGCCGTTGAGTCCACTGACAAGGAAGCTGCTACTACTGCGCTCGTTACTGCCAGCCGTAAGCTGGACAAGGCTGTCAGCAAGGGTGTTCTGCACAAGAACAACGCTGCAAACCGCAAGTCGGCGATCTCCAAGAAGGTCAACGCACTCTAA	MANIKSQKKRILTNEKARQRNNAVKSELKTAIRAVNAAVESTDKEAATTALVTASRKLDKAVSKGVLHKNNAANRKSAISKKVNAL				NA	NA	NA	NA	NA
D1-17_01837	1854	lepA	COG0481	Elongation factor 4	GTGTCTCCCATGGCCCGCACCGCCCCGGTGCCCGCCGCGACAGATCCGGCCATCATTCGGAATTTCTGCATCATCGCGCACATTGACCACGGTAAGTCCACCCTGGCCGACCGAATGCTGCAGTTCACCGGCGTCGTGCAGTCCCGCGACATGAAGGCCCAGTATCTGGACCGCATGGATATCGAGCGTGAGCGCGGCATCACCATCAAGTCCCAGGCTGTCCGCATGCCTTGGGAACTGGATGGTGTGAACTACGCGCTGAACATGATCGACACGCCGGGTCACGTGGACTTCACCTATGAGGTGTCCCGTTCCCTGGCCGCCTGCGAAGGTGCGGTTCTCCTGGTGGACGCCGCGCAGGGCATCGAGGCCCAGACGCTGGCCAACCTGTACCTGGCCATGGAGAACGATCTCACCATCATCCCGGTCCTGAATAAGATCGACCTCCCCGCCGCCCAGCCCGAGAAGTACGCCGCCGAACTGGCCAGCCTCATCGGCGGGGACCCCGAGGACGTGCTGCTGGTCTCGGGGAAGACCGGAGTTGGCGTCGAAGCGCTGCTGGACAAGATCGTGCGCGACCTTCCCGCCCCGGTCGGTGATCCGGAGGCACCTGCCCGCGCCATGATTTTCGACTCCGTCTACGACACGTACCGCGGCGTCGTCACGTACGTCCGTGTGGTTGACGGCATGCTGCATCCGCGCGAGCGCATCCAAATGATGTCCACCAGGGCCAGCCATGAGCTCCTGGAAATCGGCGTCAGCTCCCCGGAGCCGACGCCCTCCAAGGGCCTCGGCGTCGGCGAGGTGGGCTACCTCATCACCGGCGTGAAGGACGTCCGCCAATCGAAGGTGGGCGACACCGTCACCAACCTCGCCAAGCCCGCTGCGGAATCCCTGAGCGGCTACGCGGATCCCAAGCCGATGGTGTTCTCAGGCCTCTACCCACTGGACGGCACCGACTACCCTGTGCTGCGCGACGCGCTGGACAAGCTTAAGCTGAACGACGCAGCCCTGATCTACGAACCGGAAACCTCCGCAGCCCTCGGCTTCGGCTTCCGCGTGGGCTTCCTCGGCCTCCTGCACCTGGAGATCGTCCGTGAGCGCCTCGAACGCGAATTCAACCTGGACCTGATTTCCACCGCGCCGAACGTGGTCTACGAGGTCACGCTCGAGGACAAGAACGTGGTCACCGTGACGAACCCCAGCGAGTTCCCCTCCGGAAAGATCAATGAGGTCCGCGAACCCATGGTGGCCGCGACCATCCTGGCCCCCAACGAGTTCGTCGGTGCCATCATGGAGCTGTGCCAGGGCCGCCGCGGCGTCATGCGCGGCATGGATTACCTGTCCGAAGACCGGGTTGAGCTGCGGTACTGGATGCCGCTGGCCGAGATCGTCTTCGACTTCTTTGACCTGCTCAAGTCCAAGACGCGCGGCTACGCCTCTCTGGACTGGAAGGCTGACGGCGAACAGGTTGCCGACCTGGTCAAGGTGGACATCCTGCTGCAGGGCGAACAGGTGGACGCTTTCAGCGCCATCACCCACAAGGACAAGGCCTACGCCTACGGCGTGATGATGACCGGCAAACTGCGCGAGCTCATCCCGCGCCAGCAGTTCGAGGTGCCGATCCAGGCAGCCATCGGCTCGCGCATCATCGCACGTGAATCAATCCGAGCCATCCGCAAGGACGTTCTGGCAAAGTGCTACGGCGGTGACATCTCCCGTAAGCGCAAACTGCTGGAAAAGCAGAAGGAAGGCAAGAAGCGCATGAAGATGGTGGGGCGCGTGGAAGTGCCGCAGGAAGCCTTCATCGCAGCCCTGACCACCGACGAATCCAAGGACAAGGCCAAGAAGTAG	MSPMARTAPVPAATDPAIIRNFCIIAHIDHGKSTLADRMLQFTGVVQSRDMKAQYLDRMDIERERGITIKSQAVRMPWELDGVNYALNMIDTPGHVDFTYEVSRSLAACEGAVLLVDAAQGIEAQTLANLYLAMENDLTIIPVLNKIDLPAAQPEKYAAELASLIGGDPEDVLLVSGKTGVGVEALLDKIVRDLPAPVGDPEAPARAMIFDSVYDTYRGVVTYVRVVDGMLHPRERIQMMSTRASHELLEIGVSSPEPTPSKGLGVGEVGYLITGVKDVRQSKVGDTVTNLAKPAAESLSGYADPKPMVFSGLYPLDGTDYPVLRDALDKLKLNDAALIYEPETSAALGFGFRVGFLGLLHLEIVRERLEREFNLDLISTAPNVVYEVTLEDKNVVTVTNPSEFPSGKINEVREPMVAATILAPNEFVGAIMELCQGRRGVMRGMDYLSEDRVELRYWMPLAEIVFDFFDLLKSKTRGYASLDWKADGEQVADLVKVDILLQGEQVDAFSAITHKDKAYAYGVMMTGKLRELIPRQQFEVPIQAAIGSRIIARESIRAIRKDVLAKCYGGDISRKRKLLEKQKEGKKRMKMVGRVEVPQEAFIAALTTDESKDKAKK	PGPT0015105_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015105-degP|htrA-K04771	NA	NA
D1-17_01838	1230	hemW	COG0635	Heme chaperone HemW	ATGCCTAGCGTTCTTCCCCTGGGTGACCCAGCGCCGTCGGACGGCCTGCTGCCGCAGCAGGCGGCGGACGGTGCAGCCGACAGGGCCTTCGGGCTCTATGTGCACATCCCGTTTTGCGCGGTGCGCTGCGGTTACTGCGACTTCAACACCTATACCGCAACCGAACTCGGCGGCGGCGCGTCCCAGGACGCCTACGCCTCCACCGCCATCTCGGAAGTGGACTTTGCCGTGCGGGTCCTCGAGCAGTCGGGCCTGCCTGCCCGGAAGCTGCGCACCGTGTTTTTCGGCGGCGGCACGCCGACACTGCTGCCGGCAGAGGACCTGGCCAGAATACTCGGTGCCGCCATAGACCGGTGGGGGATCGAACCGGGCGCCGAAGTGACCACCGAAGCCAACCCGGACTCAGTCACGCCGGAATCCCTGCAGCTGCTCGCCGATGCGGGCTTTACGCGGGTTTCCTTCGGCATGCAGTCCGCGGTGCCGCACGTGCTGAAGGTCCTTGACCGCACCCACAGTCCGAGCCGTGTCCCGCTTGTGGTGCAGTGGGCGCGCGACGCCGGGCTCGCAGTCAGCCTGGACCTGATCTATGGAACTCCCGGGGAGTCCCTTGAAGACTGGCGCTTTTCCTTGGAGACGGCACTGTCGTACCAGCCGGACCACATCAGCGCCTACGCGCTGATCGTTGAGGACGGCACCAAGCTGGCCGCCCAGATCCGCCGGGGTGAAGTTCCCGGAATAGACGACGACGACCATGCCGACAAATACGAACTCGCCGACCAGATGATCACCGACGCCGGCCTCCGCTGGTATGAGGTCAGCAACTGGTCGGCCACTGCCGAACAGGCATGCCGCCACAACCTGGCCTACTGGCGCGGGGATGACTGGTGGGGCGTCGGACCCGGCGCGCACTCGCATGTCGGCGGCGTGCGCTGGTGGAACGTAAAGCACCCGACCGCCTACGCGGGCAGGCTCGGTTCCGGGGTGTCACCCGCAGCCGGCCGCGAGACCCTTGACGAGGGGACGCGGGCCATCGAACGGGTCATGCTCGAGACGCGCCTGGCCTCAGGGCTCGCTGTCAATATGCTGTCCGATCAGGGCAAGCGCGGTGTTGCGGGCCTTATTGCAGACGGGCTCGTGGAGCCCACTGAGGCATTCCGCGGAAGGCTCGTCCTGACGCTTAAGGGACGCCTCCTCGCTGATGCGGTGGTCCGCAGGATCCTGCCGGACTAG	MPSVLPLGDPAPSDGLLPQQAADGAADRAFGLYVHIPFCAVRCGYCDFNTYTATELGGGASQDAYASTAISEVDFAVRVLEQSGLPARKLRTVFFGGGTPTLLPAEDLARILGAAIDRWGIEPGAEVTTEANPDSVTPESLQLLADAGFTRVSFGMQSAVPHVLKVLDRTHSPSRVPLVVQWARDAGLAVSLDLIYGTPGESLEDWRFSLETALSYQPDHISAYALIVEDGTKLAAQIRRGEVPGIDDDDHADKYELADQMITDAGLRWYEVSNWSATAEQACRHNLAYWRGDDWWGVGPGAHSHVGGVRWWNVKHPTAYAGRLGSGVSPAAGRETLDEGTRAIERVMLETRLASGLAVNMLSDQGKRGVAGLIADGLVEPTEAFRGRLVLTLKGRLLADAVVRRILPD				NA	NA	NA	NA	NA
D1-17_01839	420			hypothetical protein	GTGGCAGACGACGCTCGAGACCGCAGGGACCTCCAGTCCGGCCCTGACCGGCCCCAGTACCATGGCGTGCCTGCGAATGCGCTTCCGCTGACCGCCAGCGAAGACCGCCAGTGGGCAACCCTGTCGCACTTCGGCGGCATCCTCGGCTGCGTGCCGGCACTGCTGATCTATCTGATCTTCAAGGACCGCGGCCCGTTCACCGCCCAGGAATCCAAGGAAGCCCTCAACTTCACCCTGCCGCCTACCATCGCTGCTGTCCTGGCCAACCTTTTGGTACTGCTCCCGGTGGTGGGCAACATCTTCGCCGTGCTCGCGACCCTGATCTGGATTGCACTAACGTGCTTCTCGGTCTCGGCCGGCATCCACGTGAACCGGGGCCAGCCGCACCGCTACCCGTACAACCTCCGCTGGATCAAGTAG	MADDARDRRDLQSGPDRPQYHGVPANALPLTASEDRQWATLSHFGGILGCVPALLIYLIFKDRGPFTAQESKEALNFTLPPTIAAVLANLLVLLPVVGNIFAVLATLIWIALTCFSVSAGIHVNRGQPHRYPYNLRWIK				NA	NA	NA	NA	NA
D1-17_01840	234			hypothetical protein	GTGGCAGAGCCCGATACAGATGACGAACACTTCTGCGAACTCGAGCAGAACAGTTACCCCGCGAAGCATTTCGGCATAAGCCCGGATGGGCAGATCATCCACATCAAGGTCAGGCCCAACTGGAACAATCCCGGCCAGGGGCACACGCTCACCGGATGGGACGTCTGGTTCGAAGGCAAGGAAGTTGATTTCCAGCCGGAATGGGACTTGAGCAGAGTTTGGCCGCGGCCGTGA	MAEPDTDDEHFCELEQNSYPAKHFGISPDGQIIHIKVRPNWNNPGQGHTLTGWDVWFEGKEVDFQPEWDLSRVWPRP				NA	NA	NA	NA	NA
D1-17_01841	2034	ftsH3		ATP-dependent zinc metalloprotease FtsH 3	ATGTCAGATCATTTACCCAGGGGCCAGCAGGGCCAACAGGAGGTACAGCCGGGCGGGGGCGGCCGGCCCGGCTGGCCTGTCCCATGGCGCACGGAAGGGCTGGCTGATGACAGGTCCGGGACCCGCGGTCAGGAAAACGCCCCGGCGCCCGGCGGCTGGTGGAAAGCCATGCTCTGGGCACTGGTGCTGTATCTCGGTGTTTTCGTGATGCTGTCGCTGCAGGACCAGTCGGGAAGGCCGCAGCCCGTCTCCTATACCGAATTCAAATCCCAGGTGGCGTCCAACAACGTGGCCGAGATCTTTTCCCGGGCCAACACCATCGAGGGCAGCCTCCGGCAGGAAAGGCAGCTGCCGGGGTCCGACGCCACGATGTACCGCCAGTTCGTCACTGAGCGGCCCGTCTTTGCAACCGATGATCTGCTGGGTGCGCTGGAACGCAACGAGGTTATTGTCAGGGCGACCCCCGTGGTCCAGGAGCGGGGCATCCTCCTCAATCTGCTGATCTCAGTCGCCCCCATACTCCTACTGGTGCTCTTCTACCTGTGGCTGCTTAAGCGCCAGTCCGGACTGTTGGGGATGGGAGGCGGCAAGAAATTCCAGCCCGTGGATCCCGGTAAGGTACGGGTCACCTTCAAGGACGTCGCCGGAATCGATGAGGTGGAGGCTGAGATTTCTGAGGTCGTCGACTTCCTCAAGGCACCCGGGAAATATCAGCAGATCGGTGCGAAACCGCCAAAGGGAGTGCTGCTCAGCGGTCCTCCCGGGACGGGGAAGACGCTCCTGGCCCGGGCGACGGCGGGTGAGGCGGGCGTGCCGTTCTTCCACGCCAGTTCGTCTGAATTTGTGGAAATGGTGGTTGGCGTCGGGGCCAGCCGGGTGCGTGAGCTTTTCCAAGCGGCCCGCAACGCCGCGCCGTCGATCATTTTCATAGATGAAATTGACGCCATTGGCCGCAAGCGCGGGGGGTCGCTGACCGTGGGGGGACACGATGAACGGGAGCAAACCCTGAATCAGATCCTGACCGAGATGGATGGTTTCTCCTCCTCGGAGGGCGTTGTCGTCCTGGCCGCGACGAATCGGCCGGATGTCCTGGATCCGGCGCTGTTGCGCCCCGGGCGTTTTGACCGCTCCATCACGGTTCACGCCCCGGACCAGAACGGGCGGGCACAGATCCTGCGGGTCCATGCCCGGAATGTGCGGCTGGACCCTGACACGGACCTTGACGCTGTGAGCCGCGCGACGCCGGGAATGACCGGCGCCGAACTGGCCAACCTGGTGAACGAGGCTGCGTTGCTGGCTGTGAAGCGCGGTCACGCAGCCGTCAGCCAGCGGGACCTGCTGGATGCCTTGGAAAAGGTGCAGCTCGGGACAGCACGAAATGTTGTGATGCCCGAAGAGGAGCGCAGGCGGACGGCGTTCCATGAATCCGGCCACGCCTTGCTGGGCATGCTCGAGCCGGGGGCCGATCCGGTCCGCAAGATCTCCATTATTCCCCGCGGCCGCTCTTTGGGCGTGACACTGTCCACACCTGACACCGACAGGTACGGCTACGACGAAAACTATCTCAAAGGCAGGATCGTGGGTGCGCTGGGCGGGATGGCAGCCGAGGAACTGGTCTTTGGGGTCGTCACCACCGGCGCGGAAAGCGATCTTCAGACCAGTACCCATCTGGCCCGCATGATGGTGGGCCGCTGGGGAATGTCAGAGCGCATCGGGCCGGTACAGGTACTGCCGGAAGAGGGCGACCCGCGCCTCGCCGGTGTCTCTGAGGGGATGCTGGACGCGGTGGCCGAAGAGGTCAGGGCGCTGGTGGATGACTGCCACCGGCGCGCCCGCAAACTCCTGCAGGAGCACCGCTGGCGGCTGGACGCGCTGGCCCGCCGGGTCCTGGAGAAGGAGACGCTGGACGAGCAGGAAATTTACGAGGCAGCAGGCCTTGAACGTCCCCGCGTAGCAGGCGGCGGGCGGACAGGGGCGGCCCCGCTGCAACAGGACCCCGGGGAGAACGAGCCCGCATTGCAGGCGGAGAGTTAG	MSDHLPRGQQGQQEVQPGGGGRPGWPVPWRTEGLADDRSGTRGQENAPAPGGWWKAMLWALVLYLGVFVMLSLQDQSGRPQPVSYTEFKSQVASNNVAEIFSRANTIEGSLRQERQLPGSDATMYRQFVTERPVFATDDLLGALERNEVIVRATPVVQERGILLNLLISVAPILLLVLFYLWLLKRQSGLLGMGGGKKFQPVDPGKVRVTFKDVAGIDEVEAEISEVVDFLKAPGKYQQIGAKPPKGVLLSGPPGTGKTLLARATAGEAGVPFFHASSSEFVEMVVGVGASRVRELFQAARNAAPSIIFIDEIDAIGRKRGGSLTVGGHDEREQTLNQILTEMDGFSSSEGVVVLAATNRPDVLDPALLRPGRFDRSITVHAPDQNGRAQILRVHARNVRLDPDTDLDAVSRATPGMTGAELANLVNEAALLAVKRGHAAVSQRDLLDALEKVQLGTARNVVMPEEERRRTAFHESGHALLGMLEPGADPVRKISIIPRGRSLGVTLSTPDTDRYGYDENYLKGRIVGALGGMAAEELVFGVVTTGAESDLQTSTHLARMMVGRWGMSERIGPVQVLPEEGDPRLAGVSEGMLDAVAEEVRALVDDCHRRARKLLQEHRWRLDALARRVLEKETLDEQEIYEAAGLERPRVAGGGRTGAAPLQQDPGENEPALQAES				NA	NA	NA	NA	NA
D1-17_01842	852			hypothetical protein	ATGCAGTACCAGTCCTGGGGCCCGCAGGAGATGTCAGCGCCCGCCAAGAACGAGTTGCCCGAAGTTCCCGTGCAGCGCGGAATGGTTCTCGAAGATGTCCAGTCCGGTTGGGTGGGTGCTGTGACCCGGGTGGAGAAGTCAGGCGGTATGCACGTTGTGGCCCTCGAGGACCGCCGTGGCAAGTCACGTTCCTTCAAGCTCGGTTTCGGGTTCCTGCTGGAAGGCCGGCCCATCCGGCTGGTGCCGCCTGCTCCGGCCGCCCGGCAGGCCGGCTCGGTTCCTGGCCGGACGGCCTCCGGGTCCGTTCGCGTCGAGGGCCAGCGCGCCCAGGTGGCCAAGGCCAGCCGTATCTGGGTTGAAGGCAAGCATGACGCCGAACTGGTTGAGAAGGTCTGGGGAGATGACCTTCGGGTGGAGGGCATCGTCGTCGAGCCCCTGCACGGCATTGACGATTTGGCGGGGGCGGTGGCAGCGTTCCGTCCCGGGCCCGGCCGCAGGCTGGGAGTCCTCGTGGACCACCTCGTTCCCGATTCCAAGGAGTCCCGGATCGCGGAGGCTGTGATGGCCTCTCCCGGCGCAGCGGGAAATGTGCTCATTGTGGGCCATCCCTACGTGGACGTCTGGCAAGCGATCCGGCCCTCGGTCCTCGGCATCGCGCAGTGGCCCGTGATACCCCGCGGCACCGACTGGAAGACCGGGATCCTCGCAGCTTTTGGCTGGCCGCACGAGACGAAGGAAGACATCGGGCTGGGCTGGCAGAAGCTGCTGGGGGCAGTGCGCACCTACGCCGACCTTGAACCGGCCCTGCTGGGCAGAGTGGAGGAAGTCATCGACTTCCTCACGGTGCCCTAA	MQYQSWGPQEMSAPAKNELPEVPVQRGMVLEDVQSGWVGAVTRVEKSGGMHVVALEDRRGKSRSFKLGFGFLLEGRPIRLVPPAPAARQAGSVPGRTASGSVRVEGQRAQVAKASRIWVEGKHDAELVEKVWGDDLRVEGIVVEPLHGIDDLAGAVAAFRPGPGRRLGVLVDHLVPDSKESRIAEAVMASPGAAGNVLIVGHPYVDVWQAIRPSVLGIAQWPVIPRGTDWKTGILAAFGWPHETKEDIGLGWQKLLGAVRTYADLEPALLGRVEEVIDFLTVP				NA	NA	NA	NA	NA
D1-17_01843	1014	hrcA	COG1420	Heat-inducible transcription repressor HrcA	GTGAGCGAACCGCGCAAGCTCGAAGTGTTGCGCGCCATTGTCGAGGACTACGTTCATTCCCGAGAACCCGTGGGATCCAAGGCTCTTGTTGAACGCCATCACTTGGGCGTCTCCAGCGCTACCATCCGCAACGACATGGCAGCGCTGGAAGACGAGGGGCTCATCACTGCCCCCCACACCAGCGCCGGCAGGATTCCCACCGACAAGGGATACCGGCTCTTCGTCGACCAGATTTCGGCTGTGAAGCCGCTGTCGGCCGCCGAACGGCGGGCCATCCAGTCCCTGCTGGAGGGCTCCGAGGACCTCGACGACGTCCTGGACCGTACCGTCAGGCTCCTGGCGCAACTGACAAACCAGGTCGCCGTCGTGCAATACCCGCACCTGAGCCGCGCCGTGGTGCGGCACATCGAATTCGTGCAGATGGCACCCCGCAAGGTCCTGATCGTGCTGATAGCCGACTCGGGGAAGGTCGAGCAGCGTGTTATCGACGTAGGCCAGGAACTCAGCGATGATGCGCTGACCTCCCTCCGCACCCGCTTCCTGACGGGCCTTGCCGGAACCCCGCTGACACAGCTGGCCCAGCATTCGGCGGCGGTCGTCGCGGGGTGTGCCCCCAATGAGCGCCCCGCAGCGCAGGCCCTGAGCAAGGCCCTTGAGGTGCTCTCGCACAGCAGCCGGGAAGACCGCATGGTCATGGCCGGCACCGCCAACCTCGCACGCTCCAACGTCGACTTCCCGCTCAGCATCGGCCCGGTCCTCGAAGCGCTCGAGGAACAGGTGGTCATGCTCCGCCTCCTCAGCGAGATGGCTCAGGACCACCGCGGCATCGCTGTCAGCATCGGACGGGAAAACCCCTACGACGGGCTGGCCGAGGCGTCAGTAGTCGCCACCGGTTATGGGCCGGACGCCACCGCCAAGGTCGGCATCCTCGGGCCCACCCGGATGGACTATCCCACCACCATGGCCGCCGTCCGAGCGGTGGCCCGCTACCTTTCGAGGATTCTCGGCCCGTAA	MSEPRKLEVLRAIVEDYVHSREPVGSKALVERHHLGVSSATIRNDMAALEDEGLITAPHTSAGRIPTDKGYRLFVDQISAVKPLSAAERRAIQSLLEGSEDLDDVLDRTVRLLAQLTNQVAVVQYPHLSRAVVRHIEFVQMAPRKVLIVLIADSGKVEQRVIDVGQELSDDALTSLRTRFLTGLAGTPLTQLAQHSAAVVAGCAPNERPAAQALSKALEVLSHSSREDRMVMAGTANLARSNVDFPLSIGPVLEALEEQVVMLRLLSEMAQDHRGIAVSIGRENPYDGLAEASVVATGYGPDATAKVGILGPTRMDYPTTMAAVRAVARYLSRILGP				NA	NA	NA	NA	NA
D1-17_01844	1128	dnaJ2	COG0484	Chaperone protein DnaJ 2	TTGAGCAGCCACTACGACGTTCTTGGCGTCTCCCCGGAAGCCACCGGAGAAGAAATCAAAAAGGCCTACCGAAAGCTGGCCCGCACCCTGCACCCGGACGTCAACCCCGGACCCGAGGCTTCTGACCGCTTCAAGGCAGTCACGCACGCCTACGAGGTGCTCTCCGATCCGCAGAAGCGGCGGGTCTATGACACAACGGGCAACGAGAACGGCACGGACAACGGCTTCGGCGGCGGCAGCTACGCGGGCCAGGGCTTCGCGTTCCAGGACATTTTCGACACCTTCTTCGGCGCCGGCGGCACCGCCGGCCCCGCCTCGCGCGTCCGCCGCGGCCAGGACGCCCTCATCAGCGTACGCATCGACCTGCGCGACGCCGTTTTTGGAGCGAACAAGAAAATTGAGGTTGACACCGCCGTCGTCTGCCCCACCTGTGAAGGCTCCTGCTGCCGTGAAGGCACACATCCGGAACGCTGCGACATCTGCGGCGGCAGCGGCCAGGTGCAGCGGGCGGTCCGCTCTATCCTCGGCCAGGTCATGACATCCGCACCCTGCGGCTCGTGCGAGGGCTTCGGGACCGTCATCAAGGATCCCTGCAACGAGTGCAGCGGCCAGGGCCGCATCCGCAGCCGCAGGTCGCTGACGATTAAAGTTCCCGCAGGCGTTGGCACCGGCACCCGCATCCAGCTCTCCGGACAGGGCGAGGCCGGCCCTGCCGGCGGGCCGTCGGGCGACCTCTATGTCGAAATCCGGGTCAACAACGACCCCACCTACGTTCGCGACGGCGACGATCTGCATGCCACGCTGCACATCCCCATGACTGCGGCCGCGCTCGGCACCGAACTGAGCCTGGACACGTTCGACGGAAAGCAGGACATCGACGTCAAGGCCGGAACGCAGTCGGGTGAGATCATCACTCTCCGGGGCTTGGGCGTGACGCACCTGCGCGGTTACGGCCGCGGAGACCTCAAGGTGCATCTGCAGGTCGAGACGCCCACGAAACTCGACGCCGCCCAGGAGGACCTGCTGCGGCAGCTGGCCAAGCTTCGCGGCGAGCAGTACTCCGAGGGGAAGCTGGCCGCGAGCGGCGGCGTCTTCGCAAAGCTCCGGGACCGCTTCGGTAACCTGTAG	MSSHYDVLGVSPEATGEEIKKAYRKLARTLHPDVNPGPEASDRFKAVTHAYEVLSDPQKRRVYDTTGNENGTDNGFGGGSYAGQGFAFQDIFDTFFGAGGTAGPASRVRRGQDALISVRIDLRDAVFGANKKIEVDTAVVCPTCEGSCCREGTHPERCDICGGSGQVQRAVRSILGQVMTSAPCGSCEGFGTVIKDPCNECSGQGRIRSRRSLTIKVPAGVGTGTRIQLSGQGEAGPAGGPSGDLYVEIRVNNDPTYVRDGDDLHATLHIPMTAAALGTELSLDTFDGKQDIDVKAGTQSGEIITLRGLGVTHLRGYGRGDLKVHLQVETPTKLDAAQEDLLRQLAKLRGEQYSEGKLAASGGVFAKLRDRFGNL	PGPT0014545_4346	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
D1-17_01845	771	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	GTGAGCAACCCGGTATTCTTCACGCCCGCAGGTTCCCTGGATGAGGTTCGCGAGGGTTCGCTGTTCGTGCTGGACGGTGCCGAGGCACGCCATGCAGTGACAGTTAGGCGGCTGGCGGCGGGGGAGTCTGTGGACATCGCCGACGGCGCCGGACGGCGGCTCACGGGCACTGTCACCAAGGCGGCGCCCGCGGAGCTGACCGTCGAATGTTCGTCTGTCACCGAGGAGGACCGCCCTGCGGTCCGCCTGGTGCTCGTCCAGGCCCTGGCCAAGGGCGACCGCGATGAACTGGCGATCGAAACAGCCACGGAGCTGGGGATCGACGCGGTGGTTCCGTGGCAGTCCGACCGGTCCATTGTGCGCTGGAAGGGCGAAAGGGCTGCAAAGGCCCACGGCAAGTGGCAGTCGGCGGTCTCTGCTGCGGCCAAGCAGGCCCGCCGGGCCTGGATCCCGGAGGTGCGTGCCGCCGTCGACACCTCCGGCCTGGTAAAGCAGGTGGCGGACGCCGCGCTGGCGGTGATCCTACATGAAGACGCCGTCAGGCCCCTGCGCGGAGTGCTGGAGGCGTGGCAGGAAGCCGCGCTCCGGAGCCAGGAGCCATGCGAGGTGCTGCTGATCGTTGGTCCGGAAGGCGGTATCAGCCAGCGGGAGGTCACAAAGCTGTGCAGCGCCGGAGCGGTGACGGCACTCCTGGGACCGCACGTGCTCCGGTCATCGACGGCGGGCCCGGCCGCCGTCGTCGTCGCGAGTGACGTCCTGGGCCGCTGGTAG	MSNPVFFTPAGSLDEVREGSLFVLDGAEARHAVTVRRLAAGESVDIADGAGRRLTGTVTKAAPAELTVECSSVTEEDRPAVRLVLVQALAKGDRDELAIETATELGIDAVVPWQSDRSIVRWKGERAAKAHGKWQSAVSAAAKQARRAWIPEVRAAVDTSGLVKQVADAALAVILHEDAVRPLRGVLEAWQEAALRSQEPCEVLLIVGPEGGISQREVTKLCSAGAVTALLGPHVLRSSTAGPAAVVVASDVLGRW				NA	NA	NA	NA	NA
D1-17_01846	945			hypothetical protein	TTGACCGGCCGCGCCGCGGCAACCGGGCGCATGCGCTGCGCACTGTTGCTGGGGCTGCTGCCTGCCGCCTTGCTCCTGTCCGGATGCATTGCCGATCCCGGCCCCGCCCAACCCACCGCCGGCAGCCCCACCCAGACGCGGCTGTCCGACGGGGTTGACAGTGCCCCCACCACAAGCGCACCGCTGGAAACGATGCAGTCCTCCAATAAGGCCCCTGTCTACTGGATTGGCCGCAGCAATACGGACGTCTACCTGTATCGCGAGTTCAGGGACGTGCCGGGCGAAGACAACCCCATCACAAAGGCTCTCCGGGCCATGATGTCCGAGGCTCCCCTCGACCCTGACTTCTTCACCCCCTGGCAGAACCCCAAGAACCTCGCCACCTCCATTTCGGGGACGAACGTCATCACGGTGGATGTTTCCGCCGACGCCTTCAACAGCAACCTGGACGCGGACATGGCCCAGCGCGCCATCCAGCAACTCGTGTATACAGCGACGGCCGCCGGAGCGAGTTCGGGCCTGGTTGATGCCGCCCAGCCACTCGAAGTGGTGATCCTTGTCGACGGGCACACGGACTACCACGCCTTCAAGCACGTTAGGCTCGGGGCGCCCATGCCCCGCAGCGTTGGCATGGTCGCCCCGGTGTGGATCATCGATCCCCAGGAAGGCGTCGAGGTTGCGGACGGCCGGGTCAAGATTAACGGCCGCAACACGGTTCGGGGGGGAAAGCTGCGCTGGCAGATCCTGAAGGTCCAGGAAAACGGCGAGAAAGAAAAGTATCTCAATGGGGAGGCCACGGCCGCCACGGAGGCTGATACGTCTGGCGTCTTCAGCATCAGCGTGAAACTGGCACCCGGCGACTACGAGATCCGTGTGTCCCAGCTTGATCCAGACCGGCCCGAGGACGAACCCAACGTGGACACCAGGGGCTTCTCAGTCCGCTAG	MTGRAAATGRMRCALLLGLLPAALLLSGCIADPGPAQPTAGSPTQTRLSDGVDSAPTTSAPLETMQSSNKAPVYWIGRSNTDVYLYREFRDVPGEDNPITKALRAMMSEAPLDPDFFTPWQNPKNLATSISGTNVITVDVSADAFNSNLDADMAQRAIQQLVYTATAAGASSGLVDAAQPLEVVILVDGHTDYHAFKHVRLGAPMPRSVGMVAPVWIIDPQEGVEVADGRVKINGRNTVRGGKLRWQILKVQENGEKEKYLNGEATAATEADTSGVFSISVKLAPGDYEIRVSQLDPDRPEDEPNVDTRGFSVR				NA	NA	NA	NA	NA
D1-17_01847	1143		COG1702	PhoH-like protein	ATGACTGAACCAGCAAACGGAAAGCGCCGCCTCAACACGGGGGACCGCACTGCGGGGGAATTCCCGCATACTCTGCCAGGGATCCGAACAGAGGTGGTCATCTTTGATGACTCAGACCAGATGGTGCAATCCCTCGGCAGCCACGATGAAGCCCTCCGCTTCATTGAAGAGCAGTTCCCGGCCGTCAGCTTCCACGTCCGGGGCAACGAGCTTTCCATCAGCGGACCCGCAGCGGACGTTCCCCGGATCATGCGCCTTCTTCATGAAGTGCGGGGCCTGGTAGCCCGGGGCACGGTCATCACCCCGGCAGTGCTGCAGCAGCTGGTGCTGATGCTGCGCAGCCAGTCGCTGCAGAACCCCGTGGAGGTCCTGACCCACGACATCCTGTCCAGCCGCGGCAAGACCATCCGGCCCAAGACCCTGAACCAGAAGAACTACGTGGACGCGATCGACGCCAACACCGTGATCTTCGGCATCGGACCGGCGGGCACGGGCAAGACCTATCTTGCGGTCGCCAAAGCTGTGCAGGCGCTGCAGCAAAAGGAAGTCAACCGGATCATCCTGACCCGTCCCGCGGTGGAGGCGGGCGAGCGGCTTGGGTTCCTGCCCGGAACGCTCAGCGACAAAATCGATCCCTACCTGAGGCCGCTGTACGACGCGCTGCACGACATGATCGACCCGGAATCCATTCCCCGGCTCATGGCCGCCGGCACCATCGAAGTGGCGCCGCTCGCGTACATGAGGGGCCGCACCCTCAACGACGCGTTCATCATCCTGGACGAGGCACAGAACACCACGCCCGAACAGATGAAGATGTTCCTGACCCGTCTGGGCTTCGGCTCCAAGATGGTGGTGACCGGTGACATCACGCAGGTGGACCTCCCGTTCGGTACCCGCTCGGGCCTTCGGATCGTCGAAAACATCCTGCAGGGCATCGACGACGTAAGCTTCTCGGTCCTCGATGCCGCGGACGTGGTGCGGCACCGGCTGGTGGGCGACATCGTCAACGCCTACAGCATCTGGGATGAAGCCCAGCGGAACCGGGTCAAGCACGCTGCCACCCGGGATGCCCGGCCAGCCCGCGAAGCCAGCGAGACCAGGCAGGCCAGCGGTGCCCGCGAAAAACGGGGGGAGCGCGCATGA	MTEPANGKRRLNTGDRTAGEFPHTLPGIRTEVVIFDDSDQMVQSLGSHDEALRFIEEQFPAVSFHVRGNELSISGPAADVPRIMRLLHEVRGLVARGTVITPAVLQQLVLMLRSQSLQNPVEVLTHDILSSRGKTIRPKTLNQKNYVDAIDANTVIFGIGPAGTGKTYLAVAKAVQALQQKEVNRIILTRPAVEAGERLGFLPGTLSDKIDPYLRPLYDALHDMIDPESIPRLMAAGTIEVAPLAYMRGRTLNDAFIILDEAQNTTPEQMKMFLTRLGFGSKMVVTGDITQVDLPFGTRSGLRIVENILQGIDDVSFSVLDAADVVRHRLVGDIVNAYSIWDEAQRNRVKHAATRDARPAREASETRQASGAREKRGERA	PGPT0002700_373	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
D1-17_01848	474	ybeY	COG0319	Endoribonuclease YbeY	ATGAGCATTGAAGTGAACAACGAATCGGGCGTGCAGGTGGACGAGGCCCAGCTGGTGGCCCTGGCCCGGTTCATCTTCGAACAGCTGTACATCCATCCCCAGGCCGAGCTGTCCCTCCTGCTGGTTGATGAACCGGCCATGGAAAAACTCCACATCGAGCTCATGGATGAGCCAGGCCCTACGGACGTGCTCTCCGTCCCCATGGACGAGCTCACCCCCGGCACCCCGGACAAGCCCACGCCGCAGGGGATGCTCGGCGACATCGCCATCTGCCCCCAGGTGGCGGAGGCCCAGGCACGCAGTGCCGGCCACTCCACCCAGGACGAGATGTTGCTGCTGACAACGCATGGCATCCTGCACCTGCTCGGCTATGACCATGCGGAACCCGAAGAAAAAGCAGAAATGTTCGGCCTGCAGCGTGAGCTGCTTGCGGAGTTCACCGGCAAAGAAGCTCCTTCCGAGACTATCCAGTGA	MSIEVNNESGVQVDEAQLVALARFIFEQLYIHPQAELSLLLVDEPAMEKLHIELMDEPGPTDVLSVPMDELTPGTPDKPTPQGMLGDIAICPQVAEAQARSAGHSTQDEMLLLTTHGILHLLGYDHAEPEEKAEMFGLQRELLAEFTGKEAPSETIQ	PGPT0002700_49	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
D1-17_01849	1359			hypothetical protein	GTGACGTCCCTGCTCCTTGTCTGCGTGGCGCTGGTGTTTTTGGCCGTCGCGGCATTCCTGACGGCCGCCGAGGCCGCATTCAGTTTCCTCCCGCGGCACGACGCCGAACAGGCGCTCCTCAAAAGCCGCGGCACGGCACTGCGGCGCATCCTGGACCAGCCCATCACTCACATGCGTGCGCTCAGGTTCTGGCGCATCTGGTTCGAGACGGCCTCGGCGGTGGCCGTCGCGGTGCTCTTCTACAGCCTGTTGGACAACGTATGGCTGGCCGGCCTGGCTGCAACGGGCATTATGGCCGTGCTGGGTTTCGTGATTGTAGGCGTCTCGCCGCGCCAATTGGGCCGCTCCCACTCGGCGGGCGTGGTGCTGTCTTCAGCGTCGATGGTCAGGTTCCTCGCCTGGATCCTCGGCCCCATCCCCGCCTGGCTGGTGCGGCTTGGCAGCGCGGTGGCGCCTGGCTCGCCGGGCGGAGACGACTCGTTCTTCAGCGAGGAAGAGTTCCGTGAGCTCGTGGACAGGGCCACCGAGTCCGACGTGATCGAGGACAACGAGGCGGAGCTTATCCAGTCCGTCTTCGACTTCGGCGATACTCTGGTCCGCTCCGTCATGGTTCCGCGCACGGACATTCTGAGCATTGAGGCAGGTTCCAGCCTGCACCATGCCATGTCCTTGTTCCTCCGCTCCGGATACTCAAGGATCCCGGTCATTGGGGAAAACACCGACCAGATCCTCGGCATCATCTATTTGAAGGACGTCGCGGCCGTGCTACACAACCTGGCGCCGGGCGAGGAACCTCCGCTGGTTGATGAGCTGGCCCGCGAAGTGCGCTACGTTCCCGATTCCAAACCCGTAAGCGGCCTGCTGCGCGAACTCCAGAAGGAGTCCACGCACGTCGCCATTGTCATTGACGAGTACGGCGGTACGGCCGGGCTTGTGACCCTCGAGGACCTGATCGAGGAGCTGGTCGGCGAGATCGTGGACGAATATGACAGCGAAAGTGCCGAAGCTGTGGACCTGGGCGACGGCACGTTCCGTGTGAGCGCCCGGATGAGCATCGATGACCTCGGTGAACTCTTTGACCTCGAACTTGACGACGACGAAGTGGACACCGTGGGCGGCCTCCTGGCCAAGGCGCTGGGCCGCGTTCCGATCGTCGGCAGCACCGTTGAAGTTGACGGCGTACTGCTGCGGGCGGAGCGGCTCGAAGGACGCCGCAACCGCGTCAGCCACATCATTGCGGCCGCGGTTCCACAAGACGCTGTTCCAACCAATGACGTTCCAAACGATACTGACCTTGACGACTTTCTCGACGAGGCAGAACACATGCAACAGGGAGTTCCACGTGAGCAAGCAGAATAA	MTSLLLVCVALVFLAVAAFLTAAEAAFSFLPRHDAEQALLKSRGTALRRILDQPITHMRALRFWRIWFETASAVAVAVLFYSLLDNVWLAGLAATGIMAVLGFVIVGVSPRQLGRSHSAGVVLSSASMVRFLAWILGPIPAWLVRLGSAVAPGSPGGDDSFFSEEEFRELVDRATESDVIEDNEAELIQSVFDFGDTLVRSVMVPRTDILSIEAGSSLHHAMSLFLRSGYSRIPVIGENTDQILGIIYLKDVAAVLHNLAPGEEPPLVDELAREVRYVPDSKPVSGLLRELQKESTHVAIVIDEYGGTAGLVTLEDLIEELVGEIVDEYDSESAEAVDLGDGTFRVSARMSIDDLGELFDLELDDDEVDTVGGLLAKALGRVPIVGSTVEVDGVLLRAERLEGRRNRVSHIIAAAVPQDAVPTNDVPNDTDLDDFLDEAEHMQQGVPREQAE				NA	NA	NA	NA	NA
D1-17_01850	960	era_2	COG1159	GTPase Era	GTGAGCAAGCAGAATAAGGCCGACGGCGGCGCCCCCTTTGGTGGTTACCGCGCCGGATTCTCGGTCCTGGTGGGCCGGCCGAACGCCGGAAAATCGACGTTGACGAACGCCCTGGTGGGCCAAAAGGTGGCCATCACCTCCGCGAAACCACAGACCACGCGCCACACCATCCGGGGCATCGTGCACCGGGACGACGCTCAGTTGGTCCTGGTGGACACACCAGGCCTCCACCGGCCGCGCACGCTGCTGGGGAAGCGCCTCAACGATCTTGTTGCAGACACACTGGCAGAAGTGGATGCCATCGGTTTCTGCATCCCTGCCAACGAAAAGATCGGCCCGGGCGACAAGTTTATTGCCGCCCAGCTTGCAGCCGTGGGCAGCAAGCCCGTGATCGCCATTGTCACGAAGGCGGACCTCGTTGACAAGCAGGCGCTGACCGAACAGCTGCTCGCCGTCGCCGCGCTGGGTCGGGAAGTCCTCGGTGAAGAAGGCTGGAAGGACATTGTGCCGGTCTCGGCCACGGACGGTTTCCAGGTGGGCACCGTGACCGATGTCCTGATCAGCCACATGCCACCGTCGCCGCCGCTGTACCCGGACGGTGAGCTGACGGACGAGCCGGAGGCCGTGATGGTGGCCGAGCTTATCCGGGAGGCCGCACTTGAAGGCGTCCGGGATGAACTGCCGCACTCCCTGGCCGTCGTTGTCGAGGAGATCGTGCCGCGTGAAGGGCGGGACGAGGACAAGCCGCTCCTCGACGTCCGCGTGAACCTTTACGTGGAACGTCCCTCGCAGAAGGCCATCATCATCGGCAAAGGCGGAAGCCGGCTGCGGGAGGTCGGAACGAACGCCCGCAAGGGCATTGAAGCCCTGCTGGGCACGCGGATCTACCTCGACCTGCACGTCAAGGTCGCGAAAGACTGGCAGCGGGACCCCAAGCAGCTGGTAAAGCTGGGATTCTAG	MSKQNKADGGAPFGGYRAGFSVLVGRPNAGKSTLTNALVGQKVAITSAKPQTTRHTIRGIVHRDDAQLVLVDTPGLHRPRTLLGKRLNDLVADTLAEVDAIGFCIPANEKIGPGDKFIAAQLAAVGSKPVIAIVTKADLVDKQALTEQLLAVAALGREVLGEEGWKDIVPVSATDGFQVGTVTDVLISHMPPSPPLYPDGELTDEPEAVMVAELIREAALEGVRDELPHSLAVVVEEIVPREGRDEDKPLLDVRVNLYVERPSQKAIIIGKGGSRLREVGTNARKGIEALLGTRIYLDLHVKVAKDWQRDPKQLVKLGF				NA	NA	NA	NA	NA
D1-17_01851	1581	tagU_1		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	GTGGTGCTACGCCGCGACAACCGCGCCCAAGGACCGGGCACACCCGCCCGGACCGAGCCAGCTGCCCGGCATGCCGCAGACCCCCGCGTGGGCGCTGCCCGGCATTTGAACTTGCGCCACGTGCCTGTGTGGCTGAAGGTGACAACCGGCGTCCTGTCCCTTGTCCTGCTCGGAGGCCTCGCGTTTGCCGGCTACTGGTATTTCAGGCTGCAGTCGAACATCTCGTCGTCTGCCCTGGGGGCCGGCAGTGACAAGACCGACTCTGTCGATGACGCCACCGGACGGCTGCAGATCCTCATCCTGGGATCCGATACCCGTGACGGCAAGAACGCCAATTACGGCACGGCCGATGATTCCAAGGGCTACGGCAAGTCGGACGTCATGATGCTGATGGACATCTCGGAGGACAACAAACGGGTCAGCGTTGTCAGCTTCCCCCGGGACCTTCTGGTGGACATCCCCGACTGCACCGACCAAAAAACCGGCAAAAAGTACCCTGCGCGCCAGGATGTGATGATCAACGAGGCCATGGGTGAAGCGGGCATCGGCTGCGCCGTGGACACCGTGAACAAGCTCACCGGCCTCGAGGTGGACCACTTCATGATGGCTGACTTCAACGCCGTAAAGGAGCTGTCCAATGCCGTCGGCGGCGTGGAGGTCTGCATCAGCGACGCAGTCTACGACCCCGACTCCCGGCTGCGGCTGCCCAAGGGCAAGTCGCAGGTGCAGGGTGAGCAGGCCCTTGCCTTCCTGCGTACCCGCCACGCCTTCGGCAACGGGGGAGACCTCGGCCGCATCAAGGCCCAGCAGGGGTTCTTGTCGTCCCTGACCAGGAAAATCAAGGAGGACGGCACCCTCTCCGATCCGGTGAAGATGCTCAACATCGCAGACGTCGTGACCAAGAACCTTACCGTCGACGACGGGCTGTCCTCTGTTCCGGCGATGATCACCATTGGCAACCGCCTTAAGACGATCGACGTCGGCAAGGTCGCCTTCGTTGCGGTGCCGACCGTTCCCGCAGCCAGCGACCCCAACAGGCTGGACCCGGCCCAGCCGGCGGCATCCCAGCTCTTTGAAGCCCTGAAAAAGGACATCGACCTCACCGACCCCGAGGGCAAAGAGAGCCCCTCGCCGTCGGCTACACCAAAGCCGACCACCAGCCCGACCCCGACTGCCAAACCCAAGCCCACACCTTCGGCGCCGGCCTACGACAAGTCCTTGCAGCCCGTTACGGTAGCCAACGGCTCGCCGGTACCGGCCAGGACGCAGGAAATCGTAGAAGCGCTCGTCGCTGGCGGGTTTACCCAGGTGGGCCAGCTCGACGCCAGCCCGGTTGAAACGACCATGGTGTATTACGGCACCGACTTCGCCGATGTGGCAGCGGACGTGGCTGCGCTGTTCGGCATCCCCGCGAACCGGGTGCTGCCGTCGGAAGGCGTCTCCGGAGTCCAGATTTACCTCGGTGCCGATTTTGCCTCCGGGTCCAAGCTGGGCAAGACATCGGTCCCCAAGGACATCGTGAACCAGACGGCCAAGGACGCAACATGCCAGACGGCGAACCCGGAGCTGATCGTCCGGTAG	MVLRRDNRAQGPGTPARTEPAARHAADPRVGAARHLNLRHVPVWLKVTTGVLSLVLLGGLAFAGYWYFRLQSNISSSALGAGSDKTDSVDDATGRLQILILGSDTRDGKNANYGTADDSKGYGKSDVMMLMDISEDNKRVSVVSFPRDLLVDIPDCTDQKTGKKYPARQDVMINEAMGEAGIGCAVDTVNKLTGLEVDHFMMADFNAVKELSNAVGGVEVCISDAVYDPDSRLRLPKGKSQVQGEQALAFLRTRHAFGNGGDLGRIKAQQGFLSSLTRKIKEDGTLSDPVKMLNIADVVTKNLTVDDGLSSVPAMITIGNRLKTIDVGKVAFVAVPTVPAASDPNRLDPAQPAASQLFEALKKDIDLTDPEGKESPSPSATPKPTTSPTPTAKPKPTPSAPAYDKSLQPVTVANGSPVPARTQEIVEALVAGGFTQVGQLDASPVETTMVYYGTDFADVAADVAALFGIPANRVLPSEGVSGVQIYLGADFASGSKLGKTSVPKDIVNQTAKDATCQTANPELIVR				NA	NA	NA	NA	NA
D1-17_01852	1953	pepO		Neutral endopeptidase	GTGCCACATTCGGGGATTGCCCTGTCAAATATCGATCACAGCGTCAGGCCGCAGGACGACCTATACCAGCATGTGAACGGGGCATGGCTCAAGAGCACCGCGATTCCGGATGACCGCCCGCTGGAGGGGACGTTTACCTCGTTGCGCGATGGCGCGGAACTGGCGGTCCGGGAAATTATCGAAGAAGCGGCCGCCAAGGGTGAGGCTGCGAGCGGCATCGAACGCAAAATCGGCGACCTGTACAGCAGCTTCATGGACGAGGCCGCCGCAGAAGCGAAGGGTATGGAACCTATCCGTGCCCGGCTTGCCGACGTCTTCGCCACCTCCGGCATCAGCGAGCTTGTCGCACTGACCGGGCGGCTTTTCCGGTCCGATGTGTCCGGGCTCTTTTACCTGTACCCGGCTCCTGACGCGGGAAACCCTGAGCGCGTGCTGCTGTACACCGGGCAGGGCGGCCTCGGGCTCCCGGACGAGTCCTACTACCGCGAGGAGAAGTTCGCGCCGATTGTTGAGTCATACCGCGACTACGTGCGTACCATGTTCACTTTGGCCGGTATCCCGGATTCAGAGAACGCTCCGGCCCGCGTCGTGGCCTTGGAAACCGCCCTCGCCTCCCACCACTGGGACAACGTCACTCTCCGCGATCCGCAAAAGACCTACAACCTGAAGTCCGCCGACGAGGCGCGTGAGATGTTTCCCCTGCTGGATACCTGGTTTGAAGCCGCGGACATCGTTCCGGACAAGCGCCAGGAGATGGTGGTCAGCACACCGGACTTCTTCACCGGCGCCGCCGCCCTGCTCAGCACGGAGTCGCTCCCCGTGTGGCAGGAGTGGCTGGCGCTGCGGGTGATCAACGCGGCCGCCCCATATCTGTCCCCGGCCTTCGTGGACGCCAACTTTGCCTTCTACGGCACGCGGCTGAGCGGTACCCCCCGGAACAAGGACCGCTGGAAGCGGGGCGTTGCCGTCGTCGAAGCGGCTCTGGGTGAAGCGGTGGGACAGATATACGTGGCCCGCCACTTCCCGGAGACCCACAAGGCCCGGATGCAGACCCTCGTGGACAACCTGATCGAGGCTTACCGCCAGAGCATCACGGACCTGCCATGGATGGGCGAGGAAACGAAAGCGGAGGCGCTGCGAAAATTGGGCTCCTTTCGGGCCAAGATCGGCTACCCGGACGAGTGGATCGACTACTCAGCCGTCACCATCGACCCGGCCGACCTGCTCGGCAACGTGGAGCGCGCCCATAACGCCGACGTCGACCGCCACCTCGACGAGGTAGGCAAGCCTGTGGACCACAACAAATGGCTGATGACGCCCCAGACGGTCAACGCCTACTACCATCCGATGCTGAACGAGATCGTCTTCCCGGCCGCGATCCTGCAGCCGCCGTTCTTCACGGCAGACGCCGATGACGCGGTTAACTACGGGGGCATCGGAGCGGTGATCGGGCATGAAATCGGCCACGGGTTCGATGACCAGGGCTCGCAGTTCGACGGCTCCGGCGAACTCCGCAACTGGTGGACCGAGGATGACCGGAAGGCATTCGAGGCGCTAACAGGACGGCTGGTCGAGCAGTTCAACGCCCTCTCCCCGTATGCGGCGCCCGGGCACACCGTCAACGGACGCCTGACGCTGGGGGAAAACATCGGAGACCTCGGTGGGCTCACCATCGCCTACAAGGCCTATCGGCTCAGCCTGAACGGGCAGGAGCCCCCGGTGCTGGACGGCCTGACCGGTGAGCAGCGGTTCTTCGCCTCGTGGGCGGCCGGCTGGCGCCAGGTCATCCGCGAAGAGGAGGCCATCCGGCGGCTCGCTACCGATCCGCACTCCCCGAACGAGTTCCGCACCAACGCCATCGCCAAAAACCTGGATGCCTTCCACGCCGCATTCGGTGTCACCGAGAAGGACGGCATGTGGATGCCGCCGGAGGAGCGCGTCAGCATCTGGTAA	MPHSGIALSNIDHSVRPQDDLYQHVNGAWLKSTAIPDDRPLEGTFTSLRDGAELAVREIIEEAAAKGEAASGIERKIGDLYSSFMDEAAAEAKGMEPIRARLADVFATSGISELVALTGRLFRSDVSGLFYLYPAPDAGNPERVLLYTGQGGLGLPDESYYREEKFAPIVESYRDYVRTMFTLAGIPDSENAPARVVALETALASHHWDNVTLRDPQKTYNLKSADEAREMFPLLDTWFEAADIVPDKRQEMVVSTPDFFTGAAALLSTESLPVWQEWLALRVINAAAPYLSPAFVDANFAFYGTRLSGTPRNKDRWKRGVAVVEAALGEAVGQIYVARHFPETHKARMQTLVDNLIEAYRQSITDLPWMGEETKAEALRKLGSFRAKIGYPDEWIDYSAVTIDPADLLGNVERAHNADVDRHLDEVGKPVDHNKWLMTPQTVNAYYHPMLNEIVFPAAILQPPFFTADADDAVNYGGIGAVIGHEIGHGFDDQGSQFDGSGELRNWWTEDDRKAFEALTGRLVEQFNALSPYAAPGHTVNGRLTLGENIGDLGGLTIAYKAYRLSLNGQEPPVLDGLTGEQRFFASWAAGWRQVIREEEAIRRLATDPHSPNEFRTNAIAKNLDAFHAAFGVTEKDGMWMPPEERVSIW				NA	NA	NA	NA	NA
D1-17_01853	1743	leuA	COG0119	2-isopropylmalate synthase	ATGCGAAACGCACAGAAGCCCTCCGGGATGCCCGTCCACCGCTACATTCCGTTCCAGGACCAGATCAAGGTCGAGGTACCTGACCGCACCTGGCCGGACAAGGTCATCACCAAGGCCCCGCGCTGGTGTGCGGTGGACCTGCGCGACGGCAACCAGGCGCTGATCGATCCCATGAGCCCGACCCGCAAATTGAAGATGTTCGAACTGCTGGTGCGCATGGGCTACAAGGAGATCGAAGTCGGTTTCCCTTCCGCTTCGCAGACCGACTTCGACTTCGTCCGCCAGCTCATCGAGGGCAACCACATTCCGGATGATGTGACCATCCAGGTCCTCACGCAGGCCCGCGAACACCTGATCGAGCGGACCTACGAGTCGCTGGTCGGCGCCAAACAGGCGATCGTCCACCTGTACAACTCCACCTCGGTCCTGCAGCGCCGGGTCGTGTTCAACCAGGACGAGGACGGCATTCTGGACATCGCGCTCCAAGGTGCCCGCCTGTGCAAGAAGTACGAAGAGACGCTGGCAGACACCCACATCACCTACGAGTACTCTCCGGAGTCCTTCACCGGCACGGAACTCGAGTACGCCGTACGGGTCTGCAACGCGGTCGCAGATGTTTTCGAGGCTTCCGCTGACCGCCAGGTGATCATCAACCTGCCGGCCACCGTTGAGATGGCAACCCCGAACGTCTACGCCGACTCCATTGAGTGGATGAGCCGGAACCTGCACCCCCGTGAAGGCATCATCCTGTCCCTGCACCCGCACAACGACCGCGGCACCGGTGTCGCTGCAGCCGAGCTGGGCTACCTGGCCGGCGCGGACCGCATCGAGGGCTGCCTGTTCGGCAACGGCGAGCGGACCGGCAACGTTGACCTCGTGACCCTGGGACTGAACCTGTTCGTCCAGGGCATCGACCCCATGATCGACTTCTCCGACATCGACGAAGTCCGCCGCACCGTGGAGTACTGCAACCAGCTGCCAGTGCCCGAGAGGGCCCCGTACGGCGGCGATCTCGTCTTCACCGCCTTCTCAGGCTCCCACCAGGACGCCATCAAGAAGGGCTTTGAGGCGCTCGAGAAGGATGCCGCCGCCGCAGGCAAGGACGTTGCCGATTTCACCTGGCAGGTCCCTTACCTGCCCGTTGACCCGAAGGACCTGGGGCGCAGCTACGAAGCCGTCATCCGCGTCAACTCCCAGTCCGGCAAGGGCGGCGTGGCGTACCTGCTGAAGAACGAGCACAACCTCGACCTGCCGCGCCGTGCCCAGATCGAGTTCTCCGGCGTCATCCAGCGCCGCACAGACACTGTGGGTGGGGAGGTCAGCGCCGCCCAGCTGTGGCAGGTGTTCCAGGATGAGTACCTGCCCTCCGATTCAGCCGACCGCCAGTGGGGCCGCTACTCGCTCGGAACGGTCAAGACCGAGACCGACGACAACGGGACCATGACGCTGCACACCACGCTCTCCGTGGACGGCGTCCAGGTCAAGCGGACCGGCACCGGCAACGGTCCCATCGCTGCTCTGCTGGACATTCTTGGCCAGGACGGCGTGGATGTCCGGGTGCTGGACTTCAGTGAACACGCCCTGTCCGAAGGCGGCAACGCCCGCGCCGCTGCCTACGTGGAGTGCGCTGTGGGGGAGCGCGTGTTGTGGGGAATCGGCATTGACCCGAACACCAGCATGTCCTCGCTGAAGGCCGTCATCTCGGCCGTGAACCGCGCCGTCCGGGACGCCCAGGAGGCGTAG	MRNAQKPSGMPVHRYIPFQDQIKVEVPDRTWPDKVITKAPRWCAVDLRDGNQALIDPMSPTRKLKMFELLVRMGYKEIEVGFPSASQTDFDFVRQLIEGNHIPDDVTIQVLTQAREHLIERTYESLVGAKQAIVHLYNSTSVLQRRVVFNQDEDGILDIALQGARLCKKYEETLADTHITYEYSPESFTGTELEYAVRVCNAVADVFEASADRQVIINLPATVEMATPNVYADSIEWMSRNLHPREGIILSLHPHNDRGTGVAAAELGYLAGADRIEGCLFGNGERTGNVDLVTLGLNLFVQGIDPMIDFSDIDEVRRTVEYCNQLPVPERAPYGGDLVFTAFSGSHQDAIKKGFEALEKDAAAAGKDVADFTWQVPYLPVDPKDLGRSYEAVIRVNSQSGKGGVAYLLKNEHNLDLPRRAQIEFSGVIQRRTDTVGGEVSAAQLWQVFQDEYLPSDSADRQWGRYSLGTVKTETDDNGTMTLHTTLSVDGVQVKRTGTGNGPIAALLDILGQDGVDVRVLDFSEHALSEGGNARAAAYVECAVGERVLWGIGIDPNTSMSSLKAVISAVNRAVRDAQEA				NA	NA	NA	NA	NA
D1-17_01854	753	recO		DNA repair protein RecO	GTGGTCGAACAGTCATTTGCAGCGCGGGCCTACCGCGATGAGGCCGTGGTGCTGCGTACCCACAAGCTGGGCGAAGCGGACCGCATCATCACCCTGCTGACCAAGCACCATGGCCAGGTGCGGGCGGTCGCGAGGGGCGTCCGCCGCACCAGCAGCCGCTTCGGTGCCCGCCTTGAGCCCTTCATGGTGGCGGACCTGCAGCTGGTCTCCGGCAAGTCCCTGGACATCGTGACCCAGGCCGTCGCGAGGGGCGCCTATGGCGGATACATCGCGGCGGATTATGCGAGTTACACCGTTGCTGCCGCCATGACGGAAACCGCCGAAAAATTGACCGACGTCGACAGCGAGGCCGGCACCGCGCAGTACAATCTGCTCGTAGGCGCACTGGCTGCCCTGAGCCGCGGGGACCATACACCCGAATTGATCCTGGACTCCTATCTGCTGCGCGCCCTGGCCACGGGCGGCTGGGCGCCGAGCTTCACCCACTGCGCACGCTGCGGAGCGGCGGGACCGCATAATGCTTTCTCCGCGCCGCTCGGCGGCATGGTGTGCGGTGACTGTCGTCCCCCCGGCTCAGCGGCCCCCGCGCCGGAAACGGTGGCGCTGCTGGGCGCGCTGTTGACCGGCAACTGGACGACGGCGGATTCCTCACTGCCGCTGCACCGCCGGGAGGCTGCCGGCCTGGTGGCCAGTTATCTCCAGTGGCACCTTGAACGAGTCCTGAAATCCCTCAAACATGTGGAGCGTACCTGA	MVEQSFAARAYRDEAVVLRTHKLGEADRIITLLTKHHGQVRAVARGVRRTSSRFGARLEPFMVADLQLVSGKSLDIVTQAVARGAYGGYIAADYASYTVAAAMTETAEKLTDVDSEAGTAQYNLLVGALAALSRGDHTPELILDSYLLRALATGGWAPSFTHCARCGAAGPHNAFSAPLGGMVCGDCRPPGSAAPAPETVALLGALLTGNWTTADSSLPLHRREAAGLVASYLQWHLERVLKSLKHVERT				NA	NA	NA	NA	NA
D1-17_01855	843		COG0020	Trans,polycis-polyprenyl diphosphate synthase ((2Z,6E)-farnesyl diphosphate specific)	GTGTCCTTGGGAAAGAAGACCACCCCTGCCCGGCACCGGACCTCTCCGGTGGTCCGCCCCTATCCACATCCTTCCGGGGCTGTCGCCCCTGCAATCCCCGAGGACTTCGTTCCCAGGCACGTGGCCATCGTCATGGACGGCAACGGGCGCTGGGCGAACCAGCGGGGACTGCCCCGCATCGAGGGCCACAAGGCGGGGGAGCCGGCCCTGCTCGACGTGGTGGCCGGTGCCATTGAACTCGGCATCAAGTATGTGACCGTCTACGCGTTCTCCACGGAGAACTGGCGGCGATCCCCGGAGGAAGTGCGGTTCCTCATGGGGTTCAACAAGGATGTGCTGCGCAGGCAGCGGAACCAGCTGGACGAATGGGGAGTCCGGGTGCGGTGGTCCGGCCGCCGGCCGAAGCTGTGGGGCTCCGTCATCCGCGAGCTGGAGGAGGCCGAGGCCTACACGGCCGGCAACAGCACCTGCACTTTGACCATGTGCGTCAACTACGGCGGGCGTGCTGAGATTGCCGACGCCGTCTCGGCCATCGCCGAAGACGTGGCCGCCGGACGCCTGAAGCCCGGTTCCATCACCGAGAAAACCATCCAAAAGTACCTCGACGAGCCGGACCTCCCCGACGTCGACCTTTTCCTCCGGAGTTCAGGCGAGCAGCGGCTGTCCAACTTCATGCTGTGGCAGTCGGCGTATGCGGAGTTTGTTTTCCTCGACACCCTGTGGCCGGATGTGGACCGCCGGACGCTCTGGGATGCCGTGGGCATCTACGCCAAGCGGGACCGTCGGTATGGGGGAGCGGTGGACGCCGCCGATACCGGAGCGGCTGTCAACCCGCCGGGCTAG	MSLGKKTTPARHRTSPVVRPYPHPSGAVAPAIPEDFVPRHVAIVMDGNGRWANQRGLPRIEGHKAGEPALLDVVAGAIELGIKYVTVYAFSTENWRRSPEEVRFLMGFNKDVLRRQRNQLDEWGVRVRWSGRRPKLWGSVIRELEEAEAYTAGNSTCTLTMCVNYGGRAEIADAVSAIAEDVAAGRLKPGSITEKTIQKYLDEPDLPDVDLFLRSSGEQRLSNFMLWQSAYAEFVFLDTLWPDVDRRTLWDAVGIYAKRDRRYGGAVDAADTGAAVNPPG	PGPT0024180_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
D1-17_01856	1002			hypothetical protein	ATGGAGTGGCAGAGTGACATCCTCGGCGGGGGCTTTGAGTCCCACGCCTTTGATGCCCTGGGCGCGGACGGCGTTACCCGGACCGCCACACTCGTCCGGTACGCTCCGGTCCGGGAGGCAGAGCTTTTCCCGGCTCAGGACATCAGGCGCCCCCACCGCCGGGCCGTGCTGTTCCTGCACGGATGGAGCGACTATTTCTTCAACACAGAGCTGGCCCGCTTCTGGCACAGCCAAGGCTATTCCTTCTTCGCGTTGGATATGCACAACCACGGCCGCAGCCTGCAGCCCGAAGAGCATGGCGGCTATGTTGGGGACCTCTCGAACTACGACGCCGAGATCCACTGCGCCGTCAGCATGATCCGGGACATGCGGCCCGGGCAGCCGCTTCAGCTGGTCCTGATGGGGCATTCCACGGGAGGCCTCGTGGCGGCGCTCTGGGTGAGCCGCAATCCGGGTGTGGTGTCACAGCTGGTGCTGAACAGTCCTTGGCTGGAGATGCATGGCAGTTCCCTGGGGCGGCGGGCTGCATGGACCATGGTGGAACCCCTGGCCCGGCTGAAGCCTGAGGCTGTGTTGCGCCTGCCCGAGCGTGGTTTTTACTGGCGCAGCATCAGCAACGCCGCTGAGGGAGAGTGGGCCCTCGACGACCGGTATCGGCCGCCCATGGCGTTTCCGGTCCGTGCCGGCTGGCTGAGCGCCGTCCTCGCCGGGCATGCCCAGGTTGCCCGGGGGCTCCGCATCGAAGTCCCTATCCTGGTCCTGATCTCCGGGGCCAGTTCTACCGGTCCCTTCTGGAGGGAGGAGATGCGGAGCGCCGATGCCGTGCTCGACGTCAATGTCATCGCCGTCCGGGCATTGTCTTTAGGCCGGAGCGTCACTGTGGAGCGGATCGACGGCGCCCTGCATGACGTCTTCCTCTCCCGCGCTGAGGTGCGCGCCGACGCGTACCGGCGGCTGGAACGGTGGATCCGCGGCTATGCGGATGGCCCAAACGTAGGCTGA	MEWQSDILGGGFESHAFDALGADGVTRTATLVRYAPVREAELFPAQDIRRPHRRAVLFLHGWSDYFFNTELARFWHSQGYSFFALDMHNHGRSLQPEEHGGYVGDLSNYDAEIHCAVSMIRDMRPGQPLQLVLMGHSTGGLVAALWVSRNPGVVSQLVLNSPWLEMHGSSLGRRAAWTMVEPLARLKPEAVLRLPERGFYWRSISNAAEGEWALDDRYRPPMAFPVRAGWLSAVLAGHAQVARGLRIEVPILVLISGASSTGPFWREEMRSADAVLDVNVIAVRALSLGRSVTVERIDGALHDVFLSRAEVRADAYRRLERWIRGYADGPNVG				NA	NA	NA	NA	NA
D1-17_01857	1077	pyrD	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGCGCGTATACCCCACTTTCTTCAGGCTGGCCTTTTCATGGATGGACGCCGAGCGCGCCCACAAGATCGGCTTCAAAGGCATCCGGCTGGCCCACACCACCGGAGCCGGCCGGCTGCTGGCCCGCTTTACGGCGCCGCCAGCCTCCCTGCAGACCCGTGCGTTCGGACTCACCTTCCCGTCCCCGTTCGGGCTGGCTGCCGGTTTCGACAAGGAGGGGCACGGCATCGAAGCCCTGACGGAGCTCGGCTTCGGTCACGTTGAGGTCGGCACCATCACGGGCCAGGCCCAACCCGGCAATGAGCGGCCGAGGCTGTTCCGGCTCATCGAAGACCGCGCGGTCATCAACCGCATGGGGTTCAACAATGACGGCGCCTCTGCTGTGGCTCCCCGGCTCAAGTCAGCCCGGGCCGCCCTGCAGCGGCGCCATCCGAAGGTGCGCCCGCTTATCGGTGTCAACATCGGCAAGAGCAAAGTGGTGGAGCTCGAGGACGCTGTGGAGGACTACCGCATCAGCGCCCGCAGTCTCGCTCCGGCCGCAGACTATCTCGTGGTGAACGTCAGTTCGCCCAACACTCCGGGGCTCCGGCTCCTGCAAAACGTGGACACTCTCCGGCCACTCCTGACAGCAGTGGCGGAAGAAGCCGACAAAGCCGCAGGCCGGCATGTGCCCCTCCTGGTGAAGATCGCACCGGACCTCACCGACGAAGATATCGACGACGTCGCACAGCTCGCACTGGATCTCGGGCTGGACGGCATCATCGCCACGAACACGACCATCGGGCGCTCAGGTCTCCGTGCAGACTCAGGGGAAGTCGAGGCCTGCGGAGCCGGCGGGCTGTCCGGTGCGCCCCTGAAAGCCCGGTCGCTGGAGGTGCTGCGCAGGCTGAGGGACGCAACGGACGGCAAGATCACGCTTGTTTCGGTAGGCGGCGTCGAGACGGCACAGGACGTCCAGGAGCGACTGGAGGCAGGGGCAAGCCTCGTTCAGGGCTACACGGCCTTCCTCTACGAAGGACCCTTCTGGGCGGCCCGCATCAACCGGGAGCTGGCCAAGGCAGGGCGGCACAAGTCCTGA	MRVYPTFFRLAFSWMDAERAHKIGFKGIRLAHTTGAGRLLARFTAPPASLQTRAFGLTFPSPFGLAAGFDKEGHGIEALTELGFGHVEVGTITGQAQPGNERPRLFRLIEDRAVINRMGFNNDGASAVAPRLKSARAALQRRHPKVRPLIGVNIGKSKVVELEDAVEDYRISARSLAPAADYLVVNVSSPNTPGLRLLQNVDTLRPLLTAVAEEADKAAGRHVPLLVKIAPDLTDEDIDDVAQLALDLGLDGIIATNTTIGRSGLRADSGEVEACGAGGLSGAPLKARSLEVLRRLRDATDGKITLVSVGGVETAQDVQERLEAGASLVQGYTAFLYEGPFWAARINRELAKAGRHKS	PGPT0021190_1537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
D1-17_01858	453			putative protein	GTGCCCGAGGACCGCAAGGCCTCCAAGGCGGCAGAGCGTGCCGCCGTGCAGGAGCAGCGCCTGAAGATGCGCCAGGCCCTCGATACGGGTGACGAGCGGTTCCTCCCACTCAGGGACAAGGGCCCGCAGAAGCGGTTCGCCCGCGATTACGTGGATGCCCGGTTCAGCCTGGGCGAGTACCTCATGTTCGGTGCTTTGATCTTCGTGATCGTCTCCTTGGTGGTTCCGTCCACAAGCGAGCAGATGATCTACGTCCTCGGTGGATTCTGGGTGATGTTCCTGGCTGTCTTCGTGGACGTGTTTATCCTGTCCCGCAAACTTCGCAAGAGGCTCGCGGAGAAGTTCGGCGAAGTGGAGCGCGGCACTGTCTGGTACGGATCGATGCGGTCCCTGCAGTTCCGGAAGCTCCGTCTCCCCAAGCCCCAGGTCCGGCGCGGCCAGTACCCCTCCTAA	MPEDRKASKAAERAAVQEQRLKMRQALDTGDERFLPLRDKGPQKRFARDYVDARFSLGEYLMFGALIFVIVSLVVPSTSEQMIYVLGGFWVMFLAVFVDVFILSRKLRKRLAEKFGEVERGTVWYGSMRSLQFRKLRLPKPQVRRGQYPS				NA	NA	NA	NA	NA
D1-17_01859	1431	dapE_3		Succinyl-diaminopimelate desuccinylase	ATGACTTCAGCATCAGCGGCCTTTCCGCCCCCCTCCGGCAGCACGGTATCCGGCGTCGACACTGACGCCCTCCGATCCGCTGTCACCGCCGGTTTTGGCACCACCATGTCCCGGCTTCGAGATCTGGTCAGTTTCCCGGGCATTGCCTGGACTAGCTTCGATCCTTCGGAACTGGACCGCAGCGCGGACGCCGTTGCCAGTCTGGTGCGCGAGGCAGGCTTTTCCGACGTCGGGATCCTGCGGTGTGATAAAGCTGACGGAACGCCGGGAGGCCCGGCTGTTGTGGCCCGGCGGAAGGCGGCCGCAGGCAAGCCGACCATCCTCCTTTACGCCCACCACGACGTCCAGCCGCCCGGCGACCCGGCCCTGTGGGAATCCGAGCCGTTTGCCGCCGTCGAACGCGATGGACGGCTGTACGGCCGCGGTGCCGCCGACGACAAGGCCGGCATCATGGCGCACCTTGCTGCCTATGCGGCAGCAACCGAGGTCCTGGGCGAAGAGTTCGGGCTCGGAGTGACGCTGTTCTTCGAGGGGGAGGAGGAGGCAGGTTCACCGACCTTCCGCACCTTCCTGGAGAACTACCGCGAACTGCTCCGGGCGGACGTCATAGTTGTCGCTGATTCCAGCAACTGGAAGGTAGGCGTGCCCGCGCTGACGACGAGCCTCCGGGGACTCATCGACGGAACCATCGAAGTGCAGGTCCTGGAGCACGCTGTCCACTCCGGGATGTATGGGGGTCCGGTGCTGGACGCTCCAACGCTGCTGTCACGCCTCATTGCCACCCTGCACGACGACGAGGGCAGCGTGGCGATTGAGGGCCTGGTGGGCTATGACGAAGCCACTGTGGACCTTACCGAGGACGAATACCGGGCGGACGCCTCGGTGCTCGACGGAGTGAAGCTGGCCGGCATCGGAAGCATTTCATCGCGCATGTGGACCAAGCCGGCCTTGTCCATCATCGGTTTCGACGCGCCGGCAGTAGAGATGGCCTCGAATACGCTGTTACCGCGCGCCCGGGCCAAGTTCAGCCTCCGGCTGGCGCCCGGTCAGGTGCCGGCTGAAGCCATGGAAGCGGTGCGGCGGCATGTGCAGGCCCATGCGCCATTCGGGGTGAAGGTTGTCTTCACCCCGGGCGAGAGCGGTAACTCCTACTTGGCCGACAGGTCATCCAAGGCGGCAGGATATGCGATGTGGGCGCTGGGGGAGTCATGGGGTGTGCCGGCGGTGGAAATGGGCATCGGCGGTTCCATTCCGTTCATCTCAGATCTGACAGAGGTGTACCCGGAAGCCCAGATCCTCGTGACCGGGGTCGAGGACCCGGATTCCCGGGCCCACTCCGCCAACGAATCGCTTCACATCGGGGATTTCCATAACGCTGTTGTGGCAGAGGCGCTGCTGCTGGCCCGACTTAACAGCGAGGGTCTGAACTGA	MTSASAAFPPPSGSTVSGVDTDALRSAVTAGFGTTMSRLRDLVSFPGIAWTSFDPSELDRSADAVASLVREAGFSDVGILRCDKADGTPGGPAVVARRKAAAGKPTILLYAHHDVQPPGDPALWESEPFAAVERDGRLYGRGAADDKAGIMAHLAAYAAATEVLGEEFGLGVTLFFEGEEEAGSPTFRTFLENYRELLRADVIVVADSSNWKVGVPALTTSLRGLIDGTIEVQVLEHAVHSGMYGGPVLDAPTLLSRLIATLHDDEGSVAIEGLVGYDEATVDLTEDEYRADASVLDGVKLAGIGSISSRMWTKPALSIIGFDAPAVEMASNTLLPRARAKFSLRLAPGQVPAEAMEAVRRHVQAHAPFGVKVVFTPGESGNSYLADRSSKAAGYAMWALGESWGVPAVEMGIGGSIPFISDLTEVYPEAQILVTGVEDPDSRAHSANESLHIGDFHNAVVAEALLLARLNSEGLN				NA	NA	NA	NA	NA
D1-17_01860	390			Protein	ATGAGCACTACGACCAATGAAAACAGCACTGAATCCAACGGCACCGCCAGTGCCGAACTGGCGACCCACGAGGTTCAGCTGACCGACGTTGCCGCAGGCAAGGTCCGCAGCCTCCTTGAGCAGGAAGGCAGGACTGACCTCCGCCTCCGCGTCGCCGTGCAGCCTGGCGGCTGCTCCGGGTTGATTTACCAGCTCTACTTTGACGAGCGCCTCCTGGACGGGGACGCCGTACGTGACTTTGACGGCGTGGAGGTCGTTGTCGACAAGATGAGCGTGCCGTACCTCAGCGGTGCCAGCATCGACTTCGAGGACACCATCTCGAAGCAGGGGTTCACTATCGACAACCCCAATGCCGGCGGGTCCTGCGCCTGCGGCGATTCGTTCCACTAA	MSTTTNENSTESNGTASAELATHEVQLTDVAAGKVRSLLEQEGRTDLRLRVAVQPGGCSGLIYQLYFDERLLDGDAVRDFDGVEVVVDKMSVPYLSGASIDFEDTISKQGFTIDNPNAGGSCACGDSFH				NA	NA	NA	NA	NA
D1-17_01861	873	ctaC_1	COG1622	Cytochrome c oxidase subunit 2	GTGAGTTCGCAGAACCGAACCGGCAGCCGACGCAAAAAGATCGCTAAGATCACTGGCTTGGCAACTGCCGGCGCGTTGGTTTTGACTGGATGTTCGCCATTGGTAGAGAAGGGGTGGCTTCCGACCGAGCGCGGGACCACCAGTAACACCGACCGGATCATGGACCTGTGGGTCAACTCATGGATTGCCGCTCTCGCGGTGGGCATCATCACTTGGGGCCTGATCGTCTGGTGCCTCGTTGCCTACCGGCGCCGCAAGGGGACCGTTGGCTTCCCCAGGCAGACCAGCTTCAACCTTCCGCTGGAAGTTTTCTACCTGACCATTCCGCTGTTCATGGTGCTGGTGTTCTTCTACTTCACCGACCGCGACCAGCAGGCGATCGATGACCGCTCCCAGCCGGCCGACGTCGTTGTCGACGTCCGCGGCAAGCAGTGGGCCTGGGACTTCAACTACAAGAAGGGTGAGGTCATCCAGGAAGACGTCTACGAAGCCGGCGTGCAGGCGCATCTGACCGGCAACGCCGTCGACAAGGAAAAGCTTCCGACGCTTTACCTGCCCGTCAACAGGTCCATTGACGTTGAATTGAACGCCCGCGACGTCATCCACTCCTTCTGGGTCCCCGCGTTCCTGCAGAAGCGCGACATGATCCCGGGCAAGACCAACTACATCCGGTTCACGCCCACGAAGGAAGGCACCTATGACGGAAAGTGCGCCGAGCTCTGCGGCGAGTACCACTCCGAAATGCTCTTCCGCGTGAAGGTCGTCTCCGAGTCCGAGTTCCAGGCGAAGATGAACCAGCTGCGCCAGGACGGCAACACGGGCCTGCTCGGCGAAGAGTACGACCGCAACCCCGGCCTGACCGAATCGAAGTAA	MSSQNRTGSRRKKIAKITGLATAGALVLTGCSPLVEKGWLPTERGTTSNTDRIMDLWVNSWIAALAVGIITWGLIVWCLVAYRRRKGTVGFPRQTSFNLPLEVFYLTIPLFMVLVFFYFTDRDQQAIDDRSQPADVVVDVRGKQWAWDFNYKKGEVIQEDVYEAGVQAHLTGNAVDKEKLPTLYLPVNRSIDVELNARDVIHSFWVPAFLQKRDMIPGKTNYIRFTPTKEGTYDGKCAELCGEYHSEMLFRVKVVSESEFQAKMNQLRQDGNTGLLGEEYDRNPGLTESK	PGPT0004030_3041	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
D1-17_01862	1731	ctaD_2	COG0843	putative cytochrome c oxidase subunit 1	GTGACTACTTACACTCAATCCGCCGGGACCCTGGAAGCTCCCGCAGCACCTGTGGTTCCCAAATCCAAGGGACGCATCGTCGTCAACTGGATCACCTCCACTGACCACAAGACCATTGGGTACATGTACCTGATTGCGTCCTTCGTGTTCTTCTGCCTCGGCGGCGTGATGGCCCTGCTCATCCGCGCCGAGCTGTTCGAACCCGGTATGCAGATCCTGCAGACCAAAGAGCAGTACAACCAGATGTTCACCATGCACGGCACCGTCATGCTGCTGATGTTCGCCACCCCGCTCTTTGCGGGCTTCGCAAACGTCATCATGCCCCTGCAGATCGGTGCCCCGGACGTTGCCTTCCCGCGGCTGAACGCCCTGGCATTCTGGTTCTTCCTCTTCGGCTCCACCATCGCCGTCTCCGGCTTCATCACCCCGCAGGGTGCTGCATCGTTCGGCTGGTTCGCCTACGCGCCGCTGTCCAACACGACCTTCAGCCCCGGTGTGGGCGGTGACCTGTGGGTCTTCGGCCTTGCACTGTCCGGTTTCGGCACCATCCTTGGTGCGGTCAACTTCATCACCACCATCATCTGCATGCGCGCTCCGGGCATGACCATGTGGCGGATGCCGATTTTCACCTGGAACACCCTCGTGACGGCCATCCTCGTCCTGATGGCGTTCCCGCCGCTGGCCGCCGCCCTGTTCGCCTTGGGTGCAGACCGCCGCTTCGGTGCTCATATCTTCGATCCGGAAAACGGCGGTGCCGTGCTCTGGCAGCACCTGTTCTGGTTCTTCGGCCACCCGGAGGTGTACATCATCGCGCTGCCGTTCTTCGGTATCGTCTCGGAGATCTTCCCGGTGTTCAGCCGTAAGCCGATCTTCGGTTACAAAGGCCTGGTCTACGCCACCATCGCCATCGCGGCCCTCTCGGTGACGGTGTGGGCGCACCACATGTACGTGACCGGTGCGGTGCTGTTGCCGTTCTTCGCCTTCATGACCATGCTCATCGCGGTTCCCACCGGCGTGAAGTTCTTCAACTGGATCGGCACCATGTGGCGGGGTTCGCTGACGTTCGAGACCCCGATGCTGTGGAGCATCGGCTTCCTCATCACGTTCCTCTTCGGCGGCCTGACCGGCATCATCCTGGCTTCACCGCCGCTGGACTTCCACGTTTCGGACTCCTACTTCGTGGTGGCGCATTTCCACTACGTGGTCTTCGGCACCGTGGTCTTCGCGATGTTCGCCGGCTTCTACTTCTGGTGGCCGAAGTGGACGGGCAAGATGCTCAACGAACGCCTGGGCAAGATCCACTTCTGGCTGCTGTTCCTGGGCTTCCACGGTACGTTCCTCATCCAGCACTGGCTCGGTGTGGAAGGCATGCCCCGCCGCTATGCTGACTACATGATCGAGGACAACTTCACCTGGATGAACCAGTTCTCCACCATCTCCTCGTTCGTCCTGGGCGCGTCCCTGATCCCGTTCTTCTGGAACGTGTACATCACCGCCCGGAGCAGCGAAAAAGTCCTCGTGGACGATCCTTGGGGCTTCGGGGCTTCCCTGGAGTGGGCAACGTCCTGCCCGCCGCCGCGGCACAACTTCACGTCGCTGCCGCGTATCCGCTCAGAGCGTCCCGCGCTGGACCTGCACCACCCTGAGCTTTCCCAGTCACACACCATTGAGTCACCGGCACCGGCAGCAGCTGTGCTCGGTAACGCCGATCAGAAGGACGCCTCGCAGTGA	MTTYTQSAGTLEAPAAPVVPKSKGRIVVNWITSTDHKTIGYMYLIASFVFFCLGGVMALLIRAELFEPGMQILQTKEQYNQMFTMHGTVMLLMFATPLFAGFANVIMPLQIGAPDVAFPRLNALAFWFFLFGSTIAVSGFITPQGAASFGWFAYAPLSNTTFSPGVGGDLWVFGLALSGFGTILGAVNFITTIICMRAPGMTMWRMPIFTWNTLVTAILVLMAFPPLAAALFALGADRRFGAHIFDPENGGAVLWQHLFWFFGHPEVYIIALPFFGIVSEIFPVFSRKPIFGYKGLVYATIAIAALSVTVWAHHMYVTGAVLLPFFAFMTMLIAVPTGVKFFNWIGTMWRGSLTFETPMLWSIGFLITFLFGGLTGIILASPPLDFHVSDSYFVVAHFHYVVFGTVVFAMFAGFYFWWPKWTGKMLNERLGKIHFWLLFLGFHGTFLIQHWLGVEGMPRRYADYMIEDNFTWMNQFSTISSFVLGASLIPFFWNVYITARSSEKVLVDDPWGFGASLEWATSCPPPRHNFTSLPRIRSERPALDLHHPELSQSHTIESPAPAAAVLGNADQKDASQ	PGPT0004025_1587	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-17_01863	402	ctaF_1		Cytochrome c oxidase polypeptide 4	GTGAAGATCGAATCATGGATATTTGGAGCCGGAGTCTTCTTCTTCGTACCGGTCGCCCTGATTTACGGTTTCCTCACCAACTGGTCTGAGTGGGTCGGTGTCCTGGGCATCCTGCTCGTCGGGGGCCTCGCGGGCATGATTGGGGCTTACCTCGGCTTCACCGGCAAGCGGGTGGGGCTGCGCCCCGAGGACCGCGCCGACGCCGAGATCCACGAGGGCGCCGGTGAACAGGGCCACTTCAGCCCCTGGAGCTGGTGGCCGCTGATGCTTGGCCTCTCCTGTGCCGCTGGCTTCCTTGGCCTTGCTGTGGGCTACTGGATCGTGTTCATCGCCGCAGGCATGGCGGTCGTGGCACTCATCGGCTGGGTGTACGAGTACAGCCGGGGCGATCACGCCCACTAG	MKIESWIFGAGVFFFVPVALIYGFLTNWSEWVGVLGILLVGGLAGMIGAYLGFTGKRVGLRPEDRADAEIHEGAGEQGHFSPWSWWPLMLGLSCAAGFLGLAVGYWIVFIAAGMAVVALIGWVYEYSRGDHAH	PGPT0004025_23	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-17_01864	318	ptsH_1		Phosphocarrier protein HPr	TTGCCAGTACGTAAGGCAATTGTCACAGCGGCCATCGGGCTGCATGCCCGCCCTGCGGCCGAATTTGTCCGCGCCGTCAACGAGACCGGCTTGCCCGTGACCATCAGCAAGGCCGGCAGCGACGCCGTTGATGCCCGGTCACTGCTTGAGGTCATGGCCGGCGACTTTAACTGCGGCTGCCAGGTGGAACTGGGAATTGCGGAGGAAGCCCTTCCGGCCGGGCGGACCCTCAACGACGCGGAAGAGGCCCTGGACAACCTTGCGGGCCTCCTGTCAGCTCAGGCAGCACAGGCGCCAAAGGCACCGGCAGCACCGTAA	MPVRKAIVTAAIGLHARPAAEFVRAVNETGLPVTISKAGSDAVDARSLLEVMAGDFNCGCQVELGIAEEALPAGRTLNDAEEALDNLAGLLSAQAAQAPKAPAAP	PGPT0016875_423	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
D1-17_01865	792	dasR_1	COG2188	HTH-type transcriptional repressor DasR	ATGGCTGCTAGTGCTGCAGCCATCGCCGGCGAGATCGACCGGAAAAGCGGCGTCCCCATCTACATCCAGCTCCGGGAAATCCTCCGGACGTACATCGCTACATCCTGCCCGCCGGGTTCCGCCCTTCCTTCGGAGCGGGACCTCGCCGAACGGTTCGGGCTTGCGCGCATGACTGTCCGCCAGGCCATCGACGCCTTGGTGGGAGAGGAGGTCATTGAGCGCGTGGTCGGCCTCGGGACCTTTGTCCGGAAGCCAAAGCTGGACCTCCAGGTCAAGCTCACCTCCTACAGCGAGGAAATGCAGCGCCGCGGCATGGTTCCTGCAGCAAAGGTGCTGAGCTTCGAGCAGATCGCCGCAAGCGCCTTCCTCGCCCGGGAATTGCAGCTGGAGGAGGGAACACCGCTGGTACGGTTCAGAAGGCTGCTGCTGGCCGACAATGAGCCCATGAGCGTGGATGAGAACTTTATCCCGGCCCACCGTGTACCCGGGCTCCTTGACGGCGAGCCGCCCACCTCGCTGTACAACGTGCTGAGCGAACAGTACGGCCTGGTGATGGAGTGGGGCGAGGACATGATTGAAGCCACTGCAGCCTCACCCTCCACCGCACGGTTGCTCAACGTGGAGATCGGGGCGCCCCTGCTGAAGATCCAGCGGCACGCGTTTGTCGCGAGGGCCATGGTGGACTATTCGGTGTCCTTTTACCGTGCTGACCGGTACAAGCTGTGGGTGCCGCTGCAGCGCCCCGGCGTCCGGCCGACACGCAATTACGCCTCCGGATACCGCAACGCCTGA	MAASAAAIAGEIDRKSGVPIYIQLREILRTYIATSCPPGSALPSERDLAERFGLARMTVRQAIDALVGEEVIERVVGLGTFVRKPKLDLQVKLTSYSEEMQRRGMVPAAKVLSFEQIAASAFLARELQLEEGTPLVRFRRLLLADNEPMSVDENFIPAHRVPGLLDGEPPTSLYNVLSEQYGLVMEWGEDMIEATAASPSTARLLNVEIGAPLLKIQRHAFVARAMVDYSVSFYRADRYKLWVPLQRPGVRPTRNYASGYRNA				NA	NA	NA	NA	NA
D1-17_01866	1671	qcrB	COG1290	Cytochrome bc1 complex cytochrome b subunit	ATGAGCGCAGCATCAACAGCTAAGGCCCCCGCTTATGTAGCCAACACCAAAGTCGGACGTGTTACCGACTTCGTCGATGCACGCGTCGGCGGCTCCGGAATTCTTCGCGAATTCGGCCGCAAGGTGTTCCCGGACCACTGGTCCTTTATGTTCGGCGAAGTCGCGCTGTACTCCTTCGTCATCCTTCTGCTCTCCGGAACGTTCCTGACGTTCTTCTTCGACCCGTCCATGGCGGAGACGCACTACAACGGCTCGTACACTCCGCTGAAGAATGTTGAAATGTCGGTGGCGTACAGCTCCTCGCTGGACATTTCCTTCGACGTCCGCGGCGGCCTGTTCATGCGCCAGGTGCACCACTGGGCAGCCCTGCTGTTCGTGGCCTCCATCGCAGTGCACATGCTCCGCGTGTTCTTCACCGGCGCGTTCCGCAAGCCGCGTGAGTTGAACTGGGTGGTGGGCGGCGTCCTGCTCATCCTGGCCATGGCCGCCGGTTTCACCGGCTACTCGCTCCCCGATGACCTGCTGTCCGGCAACGGCCTCCGCATCATCGACGGCGTGATCAAGTCCATTCCGGTCATCGGCACGTACATCTCCTTCTTCCTCTTCGGCGGGGAGTTCCCCGGCACGCTGATCATCGGCCGCCTGTACGTCCTCCACATCCTGCTGGTCCCGGCACTGATCCTCCTGATGATCGTCCTGCACCTCTTCATGGTGGTCGTGCACAAGCACACCCAGTACCCCGGCCCGGGCCGCAACGACCACAACGTCGTCGGCTACCCGCTCGGTCCGGTCTACGCCGCCAAGGCCGGCGGATTCTTCTTCATCGTGTTCGGTGTCATTGCCCTGATGGCAGGGTTCTTCACCATCAACCCGATTTGGAACTACGGCCCCTACGACCCCTCCCCGGTTTCCGCAGGCACGCAGCCTGACTGGTACATCGGCTGGGTTGACGGTGCGCTTCGCCTCATGCCCGGTGTGATTGGCGACTTCCACTTCGAGTACGTCATCTTCGGTTACGTGCTGACGCTGAACGTCCTGCTTCCGGCCCTGGTGCCGGCTGGCATCGTCTTCACCGTTCTGTTCATGTACCCGTGGATTGAGCGCTGGGTCACGAAGGACGACCGGGAACACCACGTTCTTGACCGTCCCCGCAACGCCCCCACACGGACCGCGATCGGCATGGCCGGGTTCACGTTCTACTGCGTCATGTGGGCTGCAGCCAGCTCCGACCTCATCGCGACCCACTTCATGGTCTCCCTGAACGACGTCACGTACTGGCTGCGTGCACTGTTCTTCCTCGGACCGATCATCGCCTTCGTCGTCACAAAGCGCGTGGCCCTGGCTCTGCAGCGCAAGGACCGCGAGATCGCCCTCCACGGACGTGAGACCGGACGTATCGTGCGGCTTCCGCATGGTGAGTTCATTGAAGTTCACGCTCCGCTCGATGAATACAAGCGCTACAAGCTCGTCGGATTCGAGTCGCCGGCTCCGCTGCCTGCCGAGCCGAACGAGCACGGCGTCGTCACCAAAAACGAAAAGCGCCGTGCGGCACTCTCCCGCTGGTTCTTCGAGGACAGGGTTGCCCCGGCCACTCCTGCCGAATTGGCAGCCGGCCACGGCCACCACGAAGCCGTTGAGGCTGGCGAGGGACAGAAGACCCTCAGCCACTAG	MSAASTAKAPAYVANTKVGRVTDFVDARVGGSGILREFGRKVFPDHWSFMFGEVALYSFVILLLSGTFLTFFFDPSMAETHYNGSYTPLKNVEMSVAYSSSLDISFDVRGGLFMRQVHHWAALLFVASIAVHMLRVFFTGAFRKPRELNWVVGGVLLILAMAAGFTGYSLPDDLLSGNGLRIIDGVIKSIPVIGTYISFFLFGGEFPGTLIIGRLYVLHILLVPALILLMIVLHLFMVVVHKHTQYPGPGRNDHNVVGYPLGPVYAAKAGGFFFIVFGVIALMAGFFTINPIWNYGPYDPSPVSAGTQPDWYIGWVDGALRLMPGVIGDFHFEYVIFGYVLTLNVLLPALVPAGIVFTVLFMYPWIERWVTKDDREHHVLDRPRNAPTRTAIGMAGFTFYCVMWAAASSDLIATHFMVSLNDVTYWLRALFFLGPIIAFVVTKRVALALQRKDREIALHGRETGRIVRLPHGEFIEVHAPLDEYKRYKLVGFESPAPLPAEPNEHGVVTKNEKRRAALSRWFFEDRVAPATPAELAAGHGHHEAVEAGEGQKTLSH				NA	NA	NA	NA	NA
D1-17_01867	1071	qcrA	COG0723	Cytochrome bc1 complex Rieske iron-sulfur subunit	ATGGGCAACCATAGTGACGGCAGTCCGATCCACTCGGGCACCGTAGCTACGGCTGGTCAGAATGAGGTGGAGAAGTTCCAGGACCCTGGAATTCCTCCGCATCGTTTGCGCCTGGCTGACACGGACCCGAAGGCCGCAAAGCGAGCAGAACGGCAGGTAGCCGCGCTGTTCGGCACGTCGGTCGTTGGCACCGTGATCTTCCTGGTGGCGTACTTCGCCATCGATCTGGGCGGCGACTCCACGATAGCCACTATCAGGCTGCAGAACATGTTGCTTGGCATCGGCACGGCCTTTGCCATGCTTGGCATCGGCACCGGCATCGTGCACTGGGCGAAGGCCCTCATGCCGGACCACGAAGTCTCCGAGGAGCGCCACGCCATCCGCGAGGAGGATGACCGCGCGGCAGCAGTCCGGATCGTCGATGACATCGTTGAGGAAACCGGCATCAAACGCCGTCCCCTCATCCGCAACACCCTGCTCGGCGCCGTGGCACTTGCCCCGCTCCCGGCACTCGCGGTGTTCGGCGACCTTGGTCCGCGCCCCGACGACAAGCTCGCCCACACCTTGTGGGCACCGGAGGGCGACAAGCTCAAGCGCCTGGCGCGTGACCCCGACGGCACCCCCATCAAGGCCTCGGATGTCACCATCGGCTCCGCCTTCCACGTCATCCCGGAAGGCCTCAACGACCTCCACGAAGGCAAGCTGAACGAGAAGGCCAAGGCCGTCGTGCTGCTCATGCGCCTCGACCCGGCAAAGCTGAACCCTTCCGCAGGCCGTGAGGACTGGGGTTACAACGGCATCGTTGCCTACTCCAAAATCTGCACCCACGTCGGTTGCCCTGTCGCCCTCTATGAGCAGCAGACGCACCACCTGCTGTGCCCGTGCCACCAGTCGACCTTTGACCTGACCCAGGAATGCAAGGTTATCTTCGGCCCCGCCAGCCGCCCTCTCCCCCAACTGCCTATCGCAGTCGACGACGAGGGCTACCTGGTCGCAACCAGCGACTTCAAAGAACCCGTAGGACCAAGTTACTGGGAGCGTGATCAGCATGAGCGCAGCATCAACAGCTAA	MGNHSDGSPIHSGTVATAGQNEVEKFQDPGIPPHRLRLADTDPKAAKRAERQVAALFGTSVVGTVIFLVAYFAIDLGGDSTIATIRLQNMLLGIGTAFAMLGIGTGIVHWAKALMPDHEVSEERHAIREEDDRAAAVRIVDDIVEETGIKRRPLIRNTLLGAVALAPLPALAVFGDLGPRPDDKLAHTLWAPEGDKLKRLARDPDGTPIKASDVTIGSAFHVIPEGLNDLHEGKLNEKAKAVVLLMRLDPAKLNPSAGREDWGYNGIVAYSKICTHVGCPVALYEQQTHHLLCPCHQSTFDLTQECKVIFGPASRPLPQLPIAVDDEGYLVATSDFKEPVGPSYWERDQHERSINS				NA	NA	NA	NA	NA
D1-17_01868	789	qcrC	COG2010	Cytochrome bc1 complex cytochrome c subunit	GTGAAGGCACTTTCGCAGAAGCGACGTCACCCACTGGCAGCCATAGCGCTGCTGTTGATGGGCCTCCTCCTCACTGGTGGGCTGTACGCCGTTGCCACCACCGTCAACGAGGCGAAGGCCAGCACCACCAACTTCAGCGCCAGTGATGTCGAGGAAGGCGAGAAGCTCTTCGAAGCGAACTGCGCCACCTGCCACGGCATGGGTGCCGGCGGCACCCAGGACGGTCCGTCACTGGTAGGCGTCGGCGCCGCTGCCGTCGACTTCCAGGTCGGCACCGGCCGTATGCCCATGCAGGCGAACGGCCCCCAGGCATATGAGAAGCCTGTCCAGTTCAACGAGCAGCAGACCCACCAGCTCTCGGCGTACGTCGCCTCCCTGGGCGCCGGCCCGGCCATCCCCGAAGCAGCCCTCCTGGACGAACAGGGTGACGCAGCCAAGGGCGGCGAGCTGTTCCGCACCAACTGCGCCATGTGCCACAACGCGGCGGCAGCCGGCGGCGCACTGACCCGCGGCAAGTTCGCTCCGGCCCTGGCCGACACTTCGGGCAAGCACATCTACGAGGCGATGGTGACCGGTCCGCAGAACATGCCGGTCTTCAGTGACTCCAACATCACCCCTGAAGGCAAGCGCGACATCATCACATTCCTCAAGCAGATCGAGACCACCGGCTCCCCCGGCGGCGCTGACCTTGGAGCCCTTGGCCCCGTATCCGAAGGCCTCTTTGTCTGGATTGCAGGCCTTGGCGTCATCATCGCCTTCACCATCTGGCTGACGTCCCGCACGTCCTAG	MKALSQKRRHPLAAIALLLMGLLLTGGLYAVATTVNEAKASTTNFSASDVEEGEKLFEANCATCHGMGAGGTQDGPSLVGVGAAAVDFQVGTGRMPMQANGPQAYEKPVQFNEQQTHQLSAYVASLGAGPAIPEAALLDEQGDAAKGGELFRTNCAMCHNAAAAGGALTRGKFAPALADTSGKHIYEAMVTGPQNMPVFSDSNITPEGKRDIITFLKQIETTGSPGGADLGALGPVSEGLFVWIAGLGVIIAFTIWLTSRTS				NA	NA	NA	NA	NA
D1-17_01869	675	ctaE	COG1845	putative cytochrome c oxidase subunit 3	TTGGGCAGGACGAAGTTTTACAGACATAATGTCTATGTGACATCTGCGACCCATGCCCCCAGTACCCCGGCGCACCCCACGCTGAACCGCCCCAATATGGTTTCCGTCGGAACCGTAGTTTGGCTGTCCAGCGAGTTGATGTTCTTCGCCGGTCTCTTTGCCATGTACTTCACGCTCCGGTCCACCTCCGGACAGATGTGGGCTGAAGAGACGGCCAAGCTCAACTTCCCCTTTGCGCTTGTTAACACGATCGTCCTTGTGGCGAGCTCCTTCACTTGCCAGATGGGGGTCTTCGCCGCGGAACGGCTCCAGCCGCGGCGCAGCGGCGGCCCGCTGCAGTTCACCCGCTGGGGCATGAACGAGTGGTTCACCCTGACCTTCCTCATGGGTGCCTTCTTCGTGGCAGGCCAGACGATGGAGTACGCCATGCTCGTCTCCGAGCACGTCTCGCTCTCGTCCAACGCCTATGGATCGGCCTTCTACATGACGACCGGCTTCCACGGCCTGCACGTCATCGGCGGCCTCGTGGCATTCCTCCTCATCATGGGCCGCTCCTTCGCCGCGAAGAAGTTCGGTCACTTCGAGGCGACCTCGGCGATTGTCACCTCGTACTACTGGCACTTCGTGGACGTTGTCTGGATTGGCCTCTTCCTGGTCATCTATGTCCTCAAGTAA	MGRTKFYRHNVYVTSATHAPSTPAHPTLNRPNMVSVGTVVWLSSELMFFAGLFAMYFTLRSTSGQMWAEETAKLNFPFALVNTIVLVASSFTCQMGVFAAERLQPRRSGGPLQFTRWGMNEWFTLTFLMGAFFVAGQTMEYAMLVSEHVSLSSNAYGSAFYMTTGFHGLHVIGGLVAFLLIMGRSFAAKKFGHFEATSAIVTSYYWHFVDVVWIGLFLVIYVLK	PGPT0004035_1996	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
D1-17_01870	1059	trpD	COG0547	Anthranilate phosphoribosyltransferase	GTGACTTCACAGGTATCGGCACAGGCGGCAGCTAACACCTGGCCGCGTCTCATTTCCGCCCTGATTGACGGCGAGGACCTTACGGCGGAAAGTACGGCCTGGGCCATGGGCACCATCATGTCGGGTGAGGCTACGCCGGCGCAGATCGCCGGATTCCTTGTGGCGCTGCGGGCCAAGGGCGAAACGGTGGACGAGATCGCCGGCCTGGTTGAAGCCATGGTGGCCCATGCCAAACCCATTGAGATCTCCGGGGAGAAGCTCGACATCGTTGGCACCGGAGGTGACCAACTTAACACCGTTAACATCTCCACCATGGCTGCGCTCGTGTGTGCCGGAGCGGGCGCCAAGGTGGTCAAGCACGGCAACCGCGCGGCGTCGTCGTCTTCGGGTTCGGCGGATGTGCTGGAGGCACTCGGTGTCCGCCTTGACCTGCCCATCGAGGGCGTGGCGCGCTGTGCCGAAGAGGCAGGAATCACATTCTGCTTTGCCCAGGTGTTCCATCCGTCCTTCCGCCACACGGCCGTACCTCGGCGTGAGCTTGCGGTTCCCACCGCCTTCAACTTCCTCGGTCCGCTCACCAATCCGGCGAGGGTGCAGGCTTCGGCGGTCGGCGTCGCCAACGCGCGCATGGCGCCGCTGGTGGCCGGCGTCCTGGCCAAGCGCGGCAGCCGCGGGCTCGTCTTCCGGGGCAGCGACGGGCTTGACGAGATGACCACCACCGGTCCGTCAACCGTGTGGGAAATCCGCAACGGCGGAGTCACCGAACAGCTGTTTTCGCCTGCAGAACTCGGGATTCGTCAGGCGACGGTCGAGGAACTCCGCGGCGGGGACGCCCAAGCGAACGCCGCCGTCGTCCGTCAGGTGCTTGACGGGGCAGCCGGACCGGCGCGCGACGCCGTCCTGCTTAATGCCGCGGCCGGCCTCGTGGCCTTTGACCTCGAGGCCGAGGGAACGCTGGCAGAGCGCATGAAGCACGGCCTGGAACGGGCCGCCACGTCCATTGACTCCGGTGCGGCCGCTGCCGTCCTGGGGAAATGGGTCGGCCTGACCCAGGCATAG	MTSQVSAQAAANTWPRLISALIDGEDLTAESTAWAMGTIMSGEATPAQIAGFLVALRAKGETVDEIAGLVEAMVAHAKPIEISGEKLDIVGTGGDQLNTVNISTMAALVCAGAGAKVVKHGNRAASSSSGSADVLEALGVRLDLPIEGVARCAEEAGITFCFAQVFHPSFRHTAVPRRELAVPTAFNFLGPLTNPARVQASAVGVANARMAPLVAGVLAKRGSRGLVFRGSDGLDEMTTTGPSTVWEIRNGGVTEQLFSPAELGIRQATVEELRGGDAQANAAVVRQVLDGAAGPARDAVLLNAAAGLVAFDLEAEGTLAERMKHGLERAATSIDSGAAAAVLGKWVGLTQA	PGPT0007090_1033	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007090-trpD-K00766	NA	NA
D1-17_01871	279			hypothetical protein	GTGGTCACCGCATTCGTCCTGATCAAGACTGACGCTTCCCGCATCCCCGAGACGGCTGAAGAAATCTCTGCCATTCCGGGCATCAGCGAGGTGTACTCCGTCACCGGTGAGTGGGACCTGATCGCGGTTGCCCGCGTCTCGCAGCACGATGAGCTTGCCGATGTCATTGCTGACAAACTTTCAAAGGTTCCTGCAGTGGTCCACACGACCACACACATTGCTTTCCGCGCGTACTCCCAGCATGACCTGGACGCAGCGTTCGCACTGGGCTTCGAGTAG	MVTAFVLIKTDASRIPETAEEISAIPGISEVYSVTGEWDLIAVARVSQHDELADVIADKLSKVPAVVHTTTHIAFRAYSQHDLDAAFALGFE				NA	NA	NA	NA	NA
D1-17_01872	408			hypothetical protein	ATGCGTTCGACAGAAATCCCGGCCCCCCGGCCGGCGCCCGCCATCGCCGGCGCCGCAGCCGCAGATGCCCTGCTCATCATGGTGTTTGCCGCCATTGGCCGTGACGCCCATGCCCGCGGAGATGTCATAGCCGGTGTCCTGCTGACGGCGTGGCCCTTCCTCACGGGTGCGGCTGTCACCTGGGTTGTCCTGCGGCTCTGGCGCGGACCGCTGGCGCTGTGGCCGGCCGGCGTTGCCGTATGGCTTGGCGCCGCCGGAATCGGCATGGCTCTTCGCGCTGTCACCGGACAGACAGTGGTGCTGCCCTTTGTCATCGTCGCGCTGACCAGCCTCGCGGTGCTGCTCCTTGGCTACCGCCTGCTCGTGCTTGGACTCCTGCGCCTGCGGCGGTCACGGCGCAAGGCCTGA	MRSTEIPAPRPAPAIAGAAAADALLIMVFAAIGRDAHARGDVIAGVLLTAWPFLTGAAVTWVVLRLWRGPLALWPAGVAVWLGAAGIGMALRAVTGQTVVLPFVIVALTSLAVLLLGYRLLVLGLLRLRRSRRKA				NA	NA	NA	NA	NA
D1-17_01873	474			hypothetical protein	ATGCAGAAGATCAACGCCTGCCTTTGGTTCGACAATCAGGCCGAACAAGCCGCAGAATACTACGTCTCCGTCTTTGACAATGCACGAATCACCAGCATTTCCCGTTTCGGGGAGGGCGCCCCCGGCCCGGCAGGCGAGGCAATGGCTGTGGAGTTCGACCTTGAAGGCCAGAAGTTCCAGGCCCTGAACGGCGGGCCGACGTTCACTTTCACAGAGGCGGTGTCCTTCGTCATCGACTGTTCCACCCAGGATGAGGTAGACCGTTACTGGAAAGCACTGACCGACGGCGGAAGTGAGGGCCGGTGCGGTTGGTTGAAGGACAGGTACGGGGTCTCATGGCAGGTGGTCCCTTCAGCGCTGGGCGGGCTGATCGGCGGGCCGGATTCCGCCGGTTCCCAGCGCGCCCTGCAGGTGATGCTGGGCATGAAGAAACTGGACATTGCCGAACTCCGGAAGGCGTACGACGGCGGCTAG	MQKINACLWFDNQAEQAAEYYVSVFDNARITSISRFGEGAPGPAGEAMAVEFDLEGQKFQALNGGPTFTFTEAVSFVIDCSTQDEVDRYWKALTDGGSEGRCGWLKDRYGVSWQVVPSALGGLIGGPDSAGSQRALQVMLGMKKLDIAELRKAYDGG	PGPT0003920_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003920-pmrB-K07645	NA	NA
D1-17_01875	1464	iolT_1		Major myo-inositol transporter IolT	ATGTCGTTGCATGCAGCACGCCCTCCCGCAACTGGATCCAAGCACCGCGGATATCTTGCCCGCCTCACCGTCATTTCCACGCTCGGCGGACTCCTCTTCGGCTATGACACCGGCGTAATCTCCGGGGCCCTGCTGTACATGCAGGACTCGCTCAGCATGACTCCCGTGGAAGAAGCGACTGTGGTCAGCGCCCTGCTCTTCCCGGGGGCCGCGGTTGGCGCCCTGAGCGGCGGCCGGCTCGCCGACAAGCTGGGACGCCGCGGCAGCCTGCTCGTGTGCGCTTTCCTCTTCCTTATCGGGGCCCTGGGATGTGCCGTCGCTCCCAACGTGGGCTTCATGATCGTGGCCCGTGTCATTCTTGGCCTTGGCGTCGGCGCAGCAGCCGTAACCTGCCCCCTCTACTTGGCTGAGATGGCGCCCGCCCACCTGCGCGGCCGCATGGTGACCATCAATGAACTGATGATCGTGACGGGCCAGATGCTCGCCTTCGCCATCAACGCCCTCCTGGACACCCTCATTCACGACCCGGAAGTCTGGCGGCTCATGCTGGGCGTGGCATCGATACCCGCCATTGCGCTCCTGATCGGCATGCTGGTCCTGCCCGAATCACCCCGCTGGTTCGCCATCCGGGACCGCTTCGCTGACAGCCGCCGGATCCTGGACCTGAGCCGCAGCCCGGAAGAGGCAGACTTCGAGTACAAGGAAATCGTGGAAGCCGCCACAACCGCGCGCAACGAGCGCTCCCATGCATGGCGCGACCTCAAGGAGAATCCGTGGATGCGCAAACTGCTGTGGATCGGCATTGGCCTGGCCGTGGTTCAGCAAGCCACCGGCATCAACACTGTGAACTACTATGCACCGTCGATCCTTGAGCGCAGCGGGCTGGGCGTCAGCGCATCATTGGTGGCAACCGTGGCAGTGGGCCTGACATCAGTTGTGATGACTATTCTGGGCATCTGGCTGCTGGGCTTCGTCGGACGCCGGCGGATGCTGGTTATCGGATTCTCCGGCGTCGTTGCCTCCCAGGCGCTGCTCGCCGTCGTCTTCATGCTGCCGCAGTCGGATCTGGTCAGCTACACGATCCTTGCCGCCATGATGCTGTTTGTTGCCTTCGTGCAGTGCTTCATCGGTACCTGCGTCTGGCTGCTCCTCTCCGAGATCTTCCCGCTGGCAATCCGGGGCTTCGCCATGGGTATCGCCGTCTTCGCCCTGTGGACCGTCAACGCCGCCATCTCCTTCCTGTTCCCGATCCTGGTGGTCGCTTTGGGCTCGACGGGGACGTTCACAGTCTTCGTGCTGGTCAATATTGTTTCGCTCGTCTTCGTGGCCAAGTGCGTGCCGGAAACGAAGGGGCATTCGCTGGAAGAACTGGAAGTGCACTTCCGCACCGGCAGCCTGCCTGTCATCGTGCCCCCGGCTGCCTCCGCAGGGAAGGCCACGGCGCAGAAGAAGACCACGGCATAG	MSLHAARPPATGSKHRGYLARLTVISTLGGLLFGYDTGVISGALLYMQDSLSMTPVEEATVVSALLFPGAAVGALSGGRLADKLGRRGSLLVCAFLFLIGALGCAVAPNVGFMIVARVILGLGVGAAAVTCPLYLAEMAPAHLRGRMVTINELMIVTGQMLAFAINALLDTLIHDPEVWRLMLGVASIPAIALLIGMLVLPESPRWFAIRDRFADSRRILDLSRSPEEADFEYKEIVEAATTARNERSHAWRDLKENPWMRKLLWIGIGLAVVQQATGINTVNYYAPSILERSGLGVSASLVATVAVGLTSVVMTILGIWLLGFVGRRRMLVIGFSGVVASQALLAVVFMLPQSDLVSYTILAAMMLFVAFVQCFIGTCVWLLLSEIFPLAIRGFAMGIAVFALWTVNAAISFLFPILVVALGSTGTFTVFVLVNIVSLVFVAKCVPETKGHSLEELEVHFRTGSLPVIVPPAASAGKATAQKKTTA	PGPT0016801_217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_2,PGPT0016801-iolT-K06609	NA	NA
D1-17_01876	2163	pbpG	COG0744	Penicillin-binding protein 2D	ATGATGGCAAGCAAGCGCCAGTCATCCCGATTGCGCAGTTTCGTGGCAACGATGCTCGGGTTCGTGGTCCTGAGTAGCTTCTGTGGCGTCCTGGTGGCCGCCTATCTGGTTCCACAGGTTGCGTTAGCCGGAACCACCCTCAGCAGCTCGATCAACTATTTCAACAGTCTGCCTACGGAACTCGCGGTGCAGCCGCCGTCGCAGACCACGCGGATGGTGACGGCCGATGGAAAGCTGATTGCGACCTTTTACGAGGAAAACCGCGTGCGGGTTCCGCTGAAAACGATGTCGCCATACGTTAAGGATGCGATCGTTGCCATTGAGGACAGCCGTTTCTATGAGCACCGCGGTGTTGACCCGCAGGGTATTCTCCGTGCGCTGACGACCAACCTGGCGGAGGGGGAACGGCAGGGAGCGTCGACGCTAACCCAGCAGTACGTCACCAATGTGGCGAATGAAGCCAGGATCTCCGCAGGGCGCGAGGAGCAAGTGATTCTCAGCGGGCAGAAGAATGTTGCGGACAAACTGCGTGAGATGCGCCTGGCCTTGGCGCTGGAGAAGAAGTTCACCAAGGACCAGATTCTTGAGGGGTATCTGAACATCGTATTCTTCAACCGCAGTGCCTACGGCATCGAAGCGGCCTCCCAGTACTTCTTCAGTGTTCCTGCGAGCAAGCTGACACTGCCTCAGGCAGCCCTGCTTGCCGGCCTCGTCAACAGCCCCAGCCTCTACGATCCTGTGGCGAACCCAGAGAACTCCATCCAGCGCCGCAACCAGGTCTTGAACGCGATGCTGGAGCAGGGCAAGATCAGCCAGAGCCAGCATGACAAGGCTGTGGCCAGCGGCGTCGGCCTGAAGATCAAGCCCTCCAAACAGGGCTGTGCCGCTGCGGCGATGGCTCCCTACTTTTGCGACTACGTTGCACAGCTGTTCCTCAACAACCCCGCGTACGGTGCGGACAGGCAAGCGCGGGAACAGAAGCTGCTACGCGGCGGACTGACTATCACCACCACGCTCGACAGCCGGCTCCAGGCCGCGGCGCAGTCTCAGGTGAACGCAACGGCCGGGGCGAACCCCACCAAATGGGGTGCATCCCTGGTCTCGATCCAGCCGGGGACGGGCAAGATTCTCTCCATGGCTCAGAATACGGTCTTCCTCCCGCAGCGCGGAAAGTTCGATACTCAGCTGAATTTCAATGTGGAAGCCAAGGACCCCAACGGCAACGGCCTGAACGGCGCGGGCGGCTTCCAGCCAGGATCTACCATGAAGCCGTTCATCTTCGCGGAATGGCTGGACCAGGGAAAGACCATGACAACAGTGGTCGACGCCTCCAAGCGGGAGTACCCGCTCGGATTCCGCTGGCAGTCCTCCTGCGGGAAAGTCGTCGGCGGCTACAGCAGCAAGCAGCGGGCGGCAGGCCTCGAGGCGGCAGACGACCTGCAGAACGCTGACGCCGGCTACTACCGGAAGATGCCGGTTGACTACGGGCTCTACAACTCGATCAACACTGCGACTTTCGCCGAAGCGGCTCAGCTGGACTTCTGCGGCATCCAGAAGATGGTGGACGCAGTGGGCCTCCACAGCGGACTGGACGGCGACCGGATCAACATGCACCAGCTCGGCAACCTGTTGGGTGGCACGGAAGTCGCACCGCTGACAATGGCCAATGCCTTTGCCACCTTCGCTGCGGATGGCCGCTACTGCCAGCCCATCTCGATGACGCGCCTCACCGACCGTGCCGGGAAGCAGCTGCCGGTCCCGGAGATTAAGTGCCGGGACGCTGTGGATCCGAAGGTGGCCAGGGGCGTGAACGCCGTCCTGCAGGACACCCTAAAGAAGGGCTCCGGCGTCTATATCAAGCCTACGGTCCACGACCGCATGCCCGTGGCGGCCAAAACCGGGACAAACAACATCAACAGCGCCACCTGGGTGGTGGGCTACACCACGGGGATCGCCACCGCGTCATTCTTCGGCGACACACTCGAAGGCCAGAGCCGGGCCGGCAGGAACCTGAACATCAACGGCAAGGTCTACAAGCGCATCGACGGATACATGATTGCCGGTCCCCAGTGGGCACATTACATGCTGAAAGTGGGCAAAATGTACCCCGCCAAGGCCTTCCCCAAGCCGCCCGCGTCCATAGTGGGCAAACGCACAAGCTGA	MMASKRQSSRLRSFVATMLGFVVLSSFCGVLVAAYLVPQVALAGTTLSSSINYFNSLPTELAVQPPSQTTRMVTADGKLIATFYEENRVRVPLKTMSPYVKDAIVAIEDSRFYEHRGVDPQGILRALTTNLAEGERQGASTLTQQYVTNVANEARISAGREEQVILSGQKNVADKLREMRLALALEKKFTKDQILEGYLNIVFFNRSAYGIEAASQYFFSVPASKLTLPQAALLAGLVNSPSLYDPVANPENSIQRRNQVLNAMLEQGKISQSQHDKAVASGVGLKIKPSKQGCAAAAMAPYFCDYVAQLFLNNPAYGADRQAREQKLLRGGLTITTTLDSRLQAAAQSQVNATAGANPTKWGASLVSIQPGTGKILSMAQNTVFLPQRGKFDTQLNFNVEAKDPNGNGLNGAGGFQPGSTMKPFIFAEWLDQGKTMTTVVDASKREYPLGFRWQSSCGKVVGGYSSKQRAAGLEAADDLQNADAGYYRKMPVDYGLYNSINTATFAEAAQLDFCGIQKMVDAVGLHSGLDGDRINMHQLGNLLGGTEVAPLTMANAFATFAADGRYCQPISMTRLTDRAGKQLPVPEIKCRDAVDPKVARGVNAVLQDTLKKGSGVYIKPTVHDRMPVAAKTGTNNINSATWVVGYTTGIATASFFGDTLEGQSRAGRNLNINGKVYKRIDGYMIAGPQWAHYMLKVGKMYPAKAFPKPPASIVGKRTS				NA	NA	NA	NA	NA
D1-17_01877	798			hypothetical protein	ATGGCTGAAGCTTCCCCTTCCAATCTCGGGCCCGGGTTCCAGGCCGCTTTTCCGGTTGCGGTTCTGGCCACTCCCGACGTGGAGAATTTCCTCCGTGACGCCCTGCACGAGTTTGCCTATTCCATCGGTAACGAGTCACGTGACGTGCTGTGGGCTGTCTCGTTGGTGGGCGGTGAAACCGTCCGGACCTGGGTGTCCGGTTCACCTGACGCCCGTAGGGTCGACGCCCTTCACGGCTCGTTCGACGACGGTCCGCTACGCGCAGCCGTACGTTCCGGTGAGTTCGTCCATATAGCCGACGTGGCCACGGAACGGCGGTGGCCAGGCTACGCCACCTTCCTGGCCGGGCACGGCGCCGCCTCCCTGCTGACAGTTCCCCTGATGGTGGGCGGCGAGATCGGTGCTGCCCTCACGCTTTATGCCCCCATCCCCCATGCGTTCACGAGCGATGACATAGCCGGCGCCGCTGCATGCGCCCGGCGGATTGCCGCCGACATCCACCTACTGCTGCAGCTGGCGCAGCGGGCAGAGGCCACTGCCGTTGAAAGCCCGCTTTCCCTGGTGGACCTTGCGGTGTGGTCCCTGATGCGGGAATACGGGTTGAGCCGGGACAATGCGGCCCAGTATCTCCAGGAAGTTGTCCAGAACCGCGTCTCCGGGCCGCCGGGCGCGGGCATCACGGCTGTCCTGCCGACTTCCGGGCTGGCCGCCGACGGCGGGCTGGCCCACGACGACGGGAGCCGCCCGGTCGCGAACGCCACGGCCAAGCGCCGCCGTGCTGCGGGGCGGAAATCATAG	MAEASPSNLGPGFQAAFPVAVLATPDVENFLRDALHEFAYSIGNESRDVLWAVSLVGGETVRTWVSGSPDARRVDALHGSFDDGPLRAAVRSGEFVHIADVATERRWPGYATFLAGHGAASLLTVPLMVGGEIGAALTLYAPIPHAFTSDDIAGAAACARRIAADIHLLLQLAQRAEATAVESPLSLVDLAVWSLMREYGLSRDNAAQYLQEVVQNRVSGPPGAGITAVLPTSGLAADGGLAHDDGSRPVANATAKRRRAAGRKS				NA	NA	NA	NA	NA
D1-17_01878	1113			hypothetical protein	ATGGCCGGCTCGGCAGTAGCGATCCCCATCCTGGCCGTTCAGCAATTGGACGACGTGGGCGTGGGCGGCGCCCTGGTTGCTGCATCGCTCGGTCCGAGTGTCCTAGCAGCCCCGGTCGCAGGTGCAGCGCTCGACGCCGCCCGCCGCCCGGGCGCTTTGGTTGCCGCCTCCGTAGTGCTGACAGCCGTTGCCTTCGCGGTCACCTCGTTCCTCGGCCAGATCCCCATGCCGGTTGTGTTCGCGGTGCTGGCATTGGCCGGAGCGGCCGCGCCCTTCTACATGGGCGGGCTCTCGAGCTTCGTGGCCGACGCCATACCCGACGGACGCAGGGCATTCGCCTACGACGCCCTCTCCTACAACTTCTCAGCCGTGGCGGGACCGGCCCTTGTCGCCGTCATGCTGGCCTTCTTCCCGGCCGGCGCTTCCCTCACAGTGCTGGCAGCCGCCGCGATGGTGGGCGCAGTCTGCGTCAGCGTTATCGGTCTTCGACCGCATGCTGCGGGCACAATTTCCCCGCGGCGCGCAGTGGCTGCAGGGCTGCACCGGATTTTCCGACACCGGCCGCTGGCGGTGGTGACTGCGGCGTCAACGCTGAGCCAGCTCGGCCAGGGCGGATTGGCGATCGCAGCGGTTGCTCTCTCGATTGACCGGATCGGCTCACCGAGCGAAGGCGCGCTGGTGGTGACGGCTTTCGCCGTCGGCAGCCTGCTGGGCGCCCTGTATGAAACTGCCCGCCCAACCAGGGCACGCCCCCATGTTGTTATGATGGCCGGTTTCCTGGGGACCGGGCTGCTGACGATCGGCGCCGCGCTCGACCTGGGAACGCTCTGGACCGTAATCACCATCGGTGCTTCCGGCGTCTTTACGGCGTCCACCGCAGCGGCAATGCTTTTCCTCCGCAACCTGCTGAGCCCGCACCACCTCAAGTCGCAGATCTTTACTGTCGGCGCGGGCCTGCGCGCCAGCGCCTCCGCAGCCGGCGCTGCCCTGGCTGCCTCCGCGACGGGCTTTGGCGGCGCATTCACGGTGGCGGTCATCGGACTTGTATGGGTCCTGTCGGCGGCGGTCATGGCGGCCTATCCCACGTCCTCAGCGACCGTCAGCGCCGCCTGA	MAGSAVAIPILAVQQLDDVGVGGALVAASLGPSVLAAPVAGAALDAARRPGALVAASVVLTAVAFAVTSFLGQIPMPVVFAVLALAGAAAPFYMGGLSSFVADAIPDGRRAFAYDALSYNFSAVAGPALVAVMLAFFPAGASLTVLAAAAMVGAVCVSVIGLRPHAAGTISPRRAVAAGLHRIFRHRPLAVVTAASTLSQLGQGGLAIAAVALSIDRIGSPSEGALVVTAFAVGSLLGALYETARPTRARPHVVMMAGFLGTGLLTIGAALDLGTLWTVITIGASGVFTASTAAAMLFLRNLLSPHHLKSQIFTVGAGLRASASAAGAALAASATGFGGAFTVAVIGLVWVLSAAVMAAYPTSSATVSAA				NA	NA	NA	NA	NA
D1-17_01879	975	hcaB_3		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAGACTCGAGGACAGCGTTGTCGTCATCACAGGTGCATCGAGCGGCATTGGCCGCGCCACGGCCCTGCACCTGGCACACAAAGGTGCCCGTCTCGTTCTCGCTGCCCGCGGGGAAGAGGTGCTCCAGGCGCTGGCCAAGGAATGCCGTAAGCGGGGCGGGAAGGCTATCGCCATCGCCACGGACGTGACGGATGCCGAGGCCGTGGAGGCCTTGGCTTCCCGCGCCGTGGAGGAGTTCGGGCGGCTCGACGCCTGGGTAAACAATGCAGCGGTGTCCGTTTTCGGCCGGCTGACGGAGGTTCCGCTTCAGGACTTCAAGCGGGTGCTCGATGTCAACGTGAACGGCTACGTCCATGGCGCCCGGGCTGCCCTGCCATACATGCAGGCCCAGGGTTCGGGCGTGCTCGTCAATGTGGCCTCAATAGTGGGCGAAATCGGCCAGCCCTACACTGCTGCCTATTCCATGTCGAAGGCGGCAGTCCGGACGCTCGGGGTGAGCCTTCGGTCGGAACTCCTGCTGGACGGGGTGACGGGTGTCAAAGTCTGCACTATTCTGCCGGCAGCCATCGACACGCCTTTCTTCCAGCACGCGGCCAACCACACGGGCCGCCGCGTGGTTGCCATGCCCCCGGTTTACACCGCGGCGCGCGTGGCCAGGACAATAACGGATGTCCTGAAAAGGCCGCGCCGGGAAGCAGTAGTGGGTCCGGCAGGCCGCTACATGGTGCTGAAGCACAGGGTTCTTCCCGGCCTCACTGAAAATGTCATGGCTGTCCAGGTGGACAAGACGCACCTGTCCCGGAAGCGCGCTGCGCAGGACTCGTCGGGAAACCTGTATCAGCCCTCAAGCCGGGTACGGGCGGCGTCCGTGTCCGGCGGATGGCACGGCGCCCGCCGGACGGCAAGGCGCAGGGCCTTTACTGCCCTGGCTGCCGCAGCCGGGGTGGTGGCCCTCAAAAACCGCTTACGCTGA	MRLEDSVVVITGASSGIGRATALHLAHKGARLVLAARGEEVLQALAKECRKRGGKAIAIATDVTDAEAVEALASRAVEEFGRLDAWVNNAAVSVFGRLTEVPLQDFKRVLDVNVNGYVHGARAALPYMQAQGSGVLVNVASIVGEIGQPYTAAYSMSKAAVRTLGVSLRSELLLDGVTGVKVCTILPAAIDTPFFQHAANHTGRRVVAMPPVYTAARVARTITDVLKRPRREAVVGPAGRYMVLKHRVLPGLTENVMAVQVDKTHLSRKRAAQDSSGNLYQPSSRVRAASVSGGWHGARRTARRRAFTALAAAAGVVALKNRLR				NA	NA	NA	NA	NA
D1-17_01880	1764	ilvG		Acetolactate synthase isozyme 2 large subunit	ATGACAACAGAGTCTCAGTCCACGTTGACCGCATCCGACAACCGTTCCCGCGATGAACGGCCCCACGAACCACAGCCCGGGCCGGCCGGCTCCACAGGCGGAGCCGAAGCACATCGCCCTTCCCTGAAATCCGCCGGCCATGTCATCGTTGATTCACTCGCGGCCCATGGCGTGGAACGGACCTATGTAGTGCCCGGTGAGAGCTTCCTGGACGTCCTGGACGGGCTGCACACCTCGGACATCGAGACCATTGTGTGCCGGCACGAGGGCGGGGCAGCCTATATGGCCGAGGCAGACGGAAAAATGAACCAGCGTCCCGGGGTGGCCATGGTCACGCGCGGCCCTGGGGCCGCCAATGCGCACGTCGGACTGCACACAGCATGGCAGGATTCGACTCCGATGCTGCTGTTCGTCGGGCTGATTCCGTTCGCGCACCGGGACCGTGAAGCGTTCCAGGAGTTCGATATCAAGGCCTGGTTCGACACCGGCGCCAAGCGGGTCATGGTCCTCGACCACGCGGAACGGGCATCCGAAATTGTGGCCGAGGCGATGTTCGCCGCGATGAGCGGGCGGCCGGGCCCGGTGGTGGTGGGTCTTCCCGAGGACATCATCCGGCAGCAGATCCACCCGGAGCTGCACCCGGCTATTCCGGTGGCAGCGGGCGGCATGAGCAGCAGGGACGCCGAGGCCCTGAAGACTGCGCTGGCCCAATCAAGCAAACCTCTTTTTGTGACGGGCGGCAACGACTGGAGCCAGTCGGCGGCTGACCGGCTCACCGCCTGGCTTGAGCGGCACCAGATACCCGCTGCTGCGGAGTGGCGCACCCAGGGAACCGTGTCCTGTGATTCCCCGTCCTATGTTGGCCCCATCGGCTATGGCCGCCCGCGGCCCACATATGACCTGCTCGAGGAAACTGATCTCCTGGTATTTGTGGGCACGGTGCCGGGAGACGTGATCACGGACGGATTCGTCTGCCGACAGGACTGGAGCAAGAAAAACTTCCTGGTGACCGTCGACCCCTCCTTGCGAGGCCGGTCGGGGCCGGTCTCACGGCAAATCCTGGCGAAACCGGAAGCGTTCGTCCTTGGCTTAGCGGAGATCGAGCTGCCGGTGAAGGAGGAGTGGAAGGCATGGACGGGCCGGATGCGGGCTGAGCAGGAGTCCTTCGCCGCGCTCCCCCCGTCCACTCCCGCCGCCGGACGGGCAAGAATGGACACGCTGATGGCGCACCTCGTCCCCGGACTGCCGGAGGACGCACTGGTGACGTTCGGGGCCGGCGAGCACACCAACTGGGCCCACCGGTACTTCCCCACCCGCCGCTACGCTTCGATGATCAGCGCCCGGAACGGCTCCATGGGCTACTCCATCCCCTCTGCCATCGCGGCGTCCCTGGCGGAACCGCACCGCCGCGTGGTGACCATTGCCGGCGACGGGGAATTCCTGATGAACGGCCAGGAACTGGCCACCGCTGCCCAGTACGGTGCCACCCCCCTGGTCATCGTCATGGACAACCAGGAGTACGGCACCATCCGCACCCATCAGGAGCGGCATTACCCCGACCGTGTTTCCGGCACCCAGCTGAAGAATCCGGACTTTGGCCTGATGGCCAGGGCATTCGGCGGTTTCGGTATCACAGTCACCGAGGACAAGGCCGTTCCGGCGGCCCTGGACGCGGCTCTGGCCGCTATTGATGAAGAGGGCGTCTTCGCTCTCATCCATCTCGTGGTCGAACAGCGGGTCAAGGCGTACCCGACAACCGTCTGA	MTTESQSTLTASDNRSRDERPHEPQPGPAGSTGGAEAHRPSLKSAGHVIVDSLAAHGVERTYVVPGESFLDVLDGLHTSDIETIVCRHEGGAAYMAEADGKMNQRPGVAMVTRGPGAANAHVGLHTAWQDSTPMLLFVGLIPFAHRDREAFQEFDIKAWFDTGAKRVMVLDHAERASEIVAEAMFAAMSGRPGPVVVGLPEDIIRQQIHPELHPAIPVAAGGMSSRDAEALKTALAQSSKPLFVTGGNDWSQSAADRLTAWLERHQIPAAAEWRTQGTVSCDSPSYVGPIGYGRPRPTYDLLEETDLLVFVGTVPGDVITDGFVCRQDWSKKNFLVTVDPSLRGRSGPVSRQILAKPEAFVLGLAEIELPVKEEWKAWTGRMRAEQESFAALPPSTPAAGRARMDTLMAHLVPGLPEDALVTFGAGEHTNWAHRYFPTRRYASMISARNGSMGYSIPSAIAASLAEPHRRVVTIAGDGEFLMNGQELATAAQYGATPLVIVMDNQEYGTIRTHQERHYPDRVSGTQLKNPDFGLMARAFGGFGITVTEDKAVPAALDAALAAIDEEGVFALIHLVVEQRVKAYPTTV	PGPT0008185_8047	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
D1-17_01881	1548	ansP2_3	COG1113	L-asparagine permease 2	ATGCCTTACAACAACCCCAATGATGCGGTTGCGTTGCACCAGGCTGTCCCGCACCCGGCCGTCACGGACCACACGGTCCCGGCGCAGGCGCATGCCACCGAGACCCTCCTGCACGCCGAGGATAAGGGTTACCACAAGAGCCTGAAGCCGCGGCAGATCCAGATGATCGCGATCGGCGGTGCGATCGGCACCGGCCTGTTCCTGGGTGCCGGCGGGCGCCTGAACGCCGCGGGCCCCTCCCTCGTGATTGCCTACGCGGTGTGCGGGTTCTTCGCGTTCCTGATCCTGCGCGCCCTGGGCGAGCTGGTCCTGCACCGGCCCTCCTCGGGCTCGTTCGTCTCCTACGCCCGCGAGTTCTACGGCGAGAAGGCCGCGTTCGTCTCGGGCTGGTTCTACTGGATCAACTGGGCCACCACCACCATCGTGGACATCACCGCCGCAGCCCTGTACATGAACTTCTTCGGCAACTACGTCCCCTGGATCGCCGCCGTGCCGCAATGGGCCTGGGCGCTGATCGCACTCATCGTCGTGCTGTGCCTGAACCTCGTCTCCGTGAAAGTCTTTGGCGAGATGGAATTCTGGTTCGCCCTGATCAAGGTCGCAGCCCTGGTCGGGTTCCTGATCGTGGGCACCTACTTCGTCATCTTCGGCACCCCCGTCCCCGGGGCCGAAACCGGCTTCAGCCTCATCACCGACAACGGCGGGATCTTCCCCACCGGCCTGCTGCCCATGATCATCCTGATGCAGGGCGTGCTGTTCGCCTACGCCTCCATCGAACTCATCGGCACCGCCGCCGGCGAAACCGAAAACCCCGAAAAGATCATGCCCAAAGCCATCAACTCCGTGGTCTTCCGCATCGCGGTGTTCTACGTCGGCTCCGTGATCCTGCTGGCCCTGCTGCTGCCCTACACCTCCTACGAAAAAGGCGTCAGCCCCTTCGTGACCTTCTTCGGCTCCATCGGCATCCAGGGCGTGGACGTCATCATGAACCTCGTCGTGCTCACCGCGGCCCTGTCCTCCCTGAACGCCGGGCTCTACTCCACCGGCCGGATCCTGCGCTCCATGTCCGTCGCCGGCTCCGCCCCCAAATTCGCCCAGCGCATGAACAAAGCAGGCGTCCCCTACGGCGGCATCGCCATCACCGCCGGAGTGTCCCTGCTCGGCGTGCCGCTAAACTACCTCGTCCCCTCCCAGGCCTTCGAAATCGTCCTGAACGTCGCCTCCGTAGGCATCATCGTCACCTGGGCCACCATCGTGCTGTGCCAAATGCAGCTCAAACGCTGGGCCGACAAGGGCTGGCTGAAACGCCCCTCCTTCCGCATGTTCGGCGCCCCCTACACCGGCTACCTCTCCCTGCTCTTCCTCCTCGGCGTGCTGGTCATGGTCTTCATCGACTCCCCCCTGACCCTGCTCGTCACCCTCGTCGCCTGCGCCCTCATGACCGCCGGCTGGTACGCCTGCCGCAAACAAATCCACGACATCGCCCAAACCCGCGAAGGCTTCACCGGCATGTCCCCCGTCATCGCCAACCGCACGCCCCTCAGGTAA	MPYNNPNDAVALHQAVPHPAVTDHTVPAQAHATETLLHAEDKGYHKSLKPRQIQMIAIGGAIGTGLFLGAGGRLNAAGPSLVIAYAVCGFFAFLILRALGELVLHRPSSGSFVSYAREFYGEKAAFVSGWFYWINWATTTIVDITAAALYMNFFGNYVPWIAAVPQWAWALIALIVVLCLNLVSVKVFGEMEFWFALIKVAALVGFLIVGTYFVIFGTPVPGAETGFSLITDNGGIFPTGLLPMIILMQGVLFAYASIELIGTAAGETENPEKIMPKAINSVVFRIAVFYVGSVILLALLLPYTSYEKGVSPFVTFFGSIGIQGVDVIMNLVVLTAALSSLNAGLYSTGRILRSMSVAGSAPKFAQRMNKAGVPYGGIAITAGVSLLGVPLNYLVPSQAFEIVLNVASVGIIVTWATIVLCQMQLKRWADKGWLKRPSFRMFGAPYTGYLSLLFLLGVLVMVFIDSPLTLLVTLVACALMTAGWYACRKQIHDIAQTREGFTGMSPVIANRTPLR	PGPT0000815_1640	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
D1-17_01882	933	glsA	COG2066	Thermolabile glutaminase	ATGACCACAACGCTCGATGCGCCGCCCTTGAAACCGCTACTTGATGACATTGTCCGAACCCATCGGCCGCAAAGGGAATCCGGCTCCGTCCCGACCCACATTCCCTCCCTGGCAGCAGTTCCCTTCAACAGGTTTGGGATAGCTGTGGCTACGGCGTCCGGGGAGGTCTTTACTGCAGGGGACGCCCATATTCCGTTCTCAATCCAGAGCATCTCCAAGGTGTTCACGCTGGCGATCGCCCTACAGCGTGGCGGACCGGGATCGGTGTGGTCACGGGTGCTGCGGGAACCTTCCGGCACCGCCTTCAACTCGCTGGTTCAGCTGGAAGTGGAGCACGGCATCCCGCGTAACCCGTTCATCAACGCCGGCGCCTTGGTGGTCACCGACCACCTGATGGAGGAAACCCCCGACGCCGCCACCGCACTGCTGCGCTTCCTCACGGGCGAGGCGGGCGGACCGGGGCCGTTCATCGACGAGCCAGCGGCCGCCAGTGAACTTTCCAACAGCAGCCGCAACCTCGCCCTGGCCCACTTCCTCAAAGGCTTCGGGAATCTCCGGCAGTCCGCCGGGTCCGTGGTGGAAAGCTACGTGCGCCAGTGCTCGATCATGATGACCTGCGTGGAACTGGCCAAGGCCGGGCTCTTCCTGGCGCGGGACGGCCGCGGAAACTCCGGAACAGTGCTGTCCCGGAGCGAGGCAAAGCGCATCGGTTCCATCATGCTGACCTGCGGCATGTACGACGCCGCCGGTGAATTCGCCTACCGTGTGGGACTGCCCGGGAAAAGCGGCGTGGGCGGCGGCATCCTGGTCATCGTTCCGGGCCACTGCACCATCTGCGTCTGGAGCCCCCGTCTGGACGCCAAAGGCAACTCCCTTGCGGGCAGCGCTGCCCTCGCTGACCTGTCCGACCGCACCGGCTGGTCTGTTTTCTGA	MTTTLDAPPLKPLLDDIVRTHRPQRESGSVPTHIPSLAAVPFNRFGIAVATASGEVFTAGDAHIPFSIQSISKVFTLAIALQRGGPGSVWSRVLREPSGTAFNSLVQLEVEHGIPRNPFINAGALVVTDHLMEETPDAATALLRFLTGEAGGPGPFIDEPAAASELSNSSRNLALAHFLKGFGNLRQSAGSVVESYVRQCSIMMTCVELAKAGLFLARDGRGNSGTVLSRSEAKRIGSIMLTCGMYDAAGEFAYRVGLPGKSGVGGGILVIVPGHCTICVWSPRLDAKGNSLAGSAALADLSDRTGWSVF	PGPT0020215_1566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
D1-17_01883	1599			hypothetical protein	ATGACCGCGGTTACGGTGGACGACATCCTTTCGGACGTCCCTTTGGGTTTCGCCAGCCTCATCCTGCGCCCCGCCCCCGAGCGTTCGGTCATCGAGCGGTTCCTGATTGTCGACGGCGATGATGAGACGTCCGACGCCGGTGCCGCCTTTGTGCTGCTGATCGGCGTCCGTGGGCGCTCGGCCTTGCCCGCGCTTCGGCGGCTCCTGGGGAACCCGCCGCCGGTCGTCGCCGTCAAGGGAACGCGCGAAGAGCTGGCTGACGCCGAAGAACTCCTCAGTGCCGCAGGAACCGGGCTGCTGCTCGTGGAGCCGTCCGCCGACTGGGACCGGCTGCTGTCCATCTCCAAGGACCGGATCCAGCCGCGCAGCTACCAGAGCGAAGTGCTGACGCTGCTCGAAGAGGACCTGTTTGCCATCGCCCAGACCACCGCCCGGCTGACCTCCAGCCACGTGGTCATCGAGGACGCCGCCAACAAGGTCCTGGCCTACTCCACCGTTTCCAACGACATCGACGAACTGCGCAAGGCATCCATCCTGGCCCGGCGCGGCCCGCGTAAATACGAACTGCTGCTCAAGGATCTCGGCGCGTACCGCGAACTGCACAGAACCCGGCTGCCCGTGCGTGTGCCTGCGCGCCCGCAGGACGGCTTGCGGGAACGCGTCGCAATTACGCTTTTCGCCGGAGAGCGAGTCATGGGTTACATCTGGCTTCAGGAAACCGGGGACGGCTTCGGCAGTGACGTTGACTATGTACTGACAGGATCAGCAGCCAGGGTTTCCGCCGAGCTCATCCGTTATCGCAACCAGCAGTCCGTGCACATGCGCGAGGACGTGATTGCCCGGATCCTGTCCGGCCCTGCGGAGGCCGCCGCCACTGCCCACAGCGGGAAGATTCCCGTAGACCGACCCGCGGCGCTGATCCTGATCGGAATGTCCCAGTCGGACTCCCAGGCTGATGACGCGGCGCTGAAGCACGGCGAGCTTGCAAACCTTGCGTCCATCCATGCGGCCGCCTACAAGGCGTCCGCGGTCATCGGCCAGTTCAGGGGCGACACGGCCGTCATCATCCCGGGCCTGCAGTCCGCCGCGTCCGAACCCGGTCTGCGCAGCATGGCTGAATCCATCGTCCGCGACGCAGCCAAGCACCTGGGCATCAGCCCTTTTGCCGCCGTCGGCCCGGTAGCCCCTGACCTGCTGACACTCCATACCGTCACCCCAGTCACCGAGGCCCTGCTTGACTGTGTAGGGGCCTCCGGTGAAGCCTCCGTCGGGACGGTGGCTGAATTCGAGGGCGAAATCCTCTACCGCGATGCCGTCCGGAGCTTTCTGTCGTCGACGTTCCGCCACCGCAGCCTGTCCGCCCTTTTACGTGACGACGGCGAACTCGCGGAGACCCTGCGGGTGTACTTTGATGCCTCGCTCGACGTTGCCGAGTGCTCCAAACGCATGGGACTGCACAAGAACACCGTCTACTACCGCATCAGCAAGGCCGCCCGGGTCACCGGGCTGGACTTCGGCGATCCACGCGATGCACTGGTGGCCCTGCTCCATGTACAGGAATGGGCGGACATCCACAAAGAACCTCAAGGCAGGAAATGA	MTAVTVDDILSDVPLGFASLILRPAPERSVIERFLIVDGDDETSDAGAAFVLLIGVRGRSALPALRRLLGNPPPVVAVKGTREELADAEELLSAAGTGLLLVEPSADWDRLLSISKDRIQPRSYQSEVLTLLEEDLFAIAQTTARLTSSHVVIEDAANKVLAYSTVSNDIDELRKASILARRGPRKYELLLKDLGAYRELHRTRLPVRVPARPQDGLRERVAITLFAGERVMGYIWLQETGDGFGSDVDYVLTGSAARVSAELIRYRNQQSVHMREDVIARILSGPAEAAATAHSGKIPVDRPAALILIGMSQSDSQADDAALKHGELANLASIHAAAYKASAVIGQFRGDTAVIIPGLQSAASEPGLRSMAESIVRDAAKHLGISPFAAVGPVAPDLLTLHTVTPVTEALLDCVGASGEASVGTVAEFEGEILYRDAVRSFLSSTFRHRSLSALLRDDGELAETLRVYFDASLDVAECSKRMGLHKNTVYYRISKAARVTGLDFGDPRDALVALLHVQEWADIHKEPQGRK				NA	NA	NA	NA	NA
D1-17_01884	360			hypothetical protein	ATGCAGCTGAGAACCACGACCAACGTCTCCGTGGACGGCGTGATGCAGGGGTTGGGCGGGCCTGATGAGGACCGCACGGGCGGCTTCGAGCGCGGGGGATGGGCCATGCCGCTTCTTGACGCGGAAACCGGTGACTATCTCAACCAGGTCTACGGGAGCGCGGCCGCGTTCCTCTTCGGCCGGCGGACGTACGGGATCTTCGCCGGCTACTGGGGAGTGATGGCAGATTCGAGCACAAACCCCATCGCTTCCGCGCTGAACAGCCGGCCCAAATACGTGGTGTCGACCAGTCTCGCCGACCCCAGTGGGCGGGCACCACGGTCCTGCACGGCGACATCGCCGCGGCCATCGTTGACCTAA	MQLRTTTNVSVDGVMQGLGGPDEDRTGGFERGGWAMPLLDAETGDYLNQVYGSAAAFLFGRRTYGIFAGYWGVMADSSTNPIASALNSRPKYVVSTSLADPSGRAPRSCTATSPRPSLT				NA	NA	NA	NA	NA
D1-17_01885	1560			hypothetical protein	ATGAAACCATGTTCCCGCGCGAAGGTCGTCAGTAAACTGGGACGCATGACCGAGCAGGAACCGGCACCGTCAGGGGCCGCTGCGACTGCAGACGGCGGCGCGGGCGTCCCCGATGACGTGGCCGTTACCTCAACGCAGGTCGAGGATGCAGGGGCAGCCCGCCTGGCTGATCCCGGCGCCGTCGACACGTCCTTGCGCAGCCCGGCGCAGCGTTCCCGTACATTCGCCGGAATTCTGGTGAACACCGCCCTCGCCAACATCACTACCAGCTACCTGTGGTTCGCCCTGACATTCTGGGTGTACCTGGAGACGCGCAACGTGATCGCCACGGGGGTGATCGGCGGGGCCTACATGCTGCTGATCGCACTGTCCAGCATCAGCTTCGGCACGTTCGTGGACCGCTACCGAAAACTGGCTGTGATGCGGTCTGCCGCGGCCTTCACCTTAGTGATGTTCCTGCTCTCCGGAATCATGTTCCTGCTGACACCCACTGCACAGCTGCTGCACCTGACCCAGCCGTGGTTCTGGCTCTTCACCCTGATCATCCTCGTCGGAGCGGTGGTGGAGAACATGCGCAACGTTGCCCTCTCCACCACAGTCACCATCCTCATCGAACCGGACCGGCGGGCCAACGCCAACGGAATGGTGGGCATGGTGCAGGGGCTGGCCTTTATCGTCACCTCGGTGCTGTCCGGCCTGTCGATCGGGTTACTGGGCATGGGCTGGACTGTCGTGGTCGCCGTCGTGCTCACGGCGCTGGCCTTCGTGCACCTGCTCACGCTGCGCATGCCCGAGGAGGTGCGGGTGGCCGCCACAGACGCGCACGGGGCGTTCGACCTGCGCGGTTCGCTTGCGGCCGTGCTTGCCGTCGCCGGACTGTTTGCCCTGATCTTGTTCTCCACGTTCAACAACTTCATTGGCGGCGTCTACATGGCGCTCATGGATCCCTATGGCCTGGAGATGTTTCCCGTGGAGTTGTGGGGGGCCGTCTTCGCGCTCGGTTCCACCGGGTTCATTGTGGGCGGCGCGCTAATTGGCAAGTTCGGCCTGGGGCCCAACCCGTTGCGCAGCATGCTGCTCGCGGTCATCGTGATGGGGGTCCTCGGCGCTGTGTTTACGGTCCGGGAATGGGCATGGCTGTACGTCGCCGGCATCTGGCTGTACCTGGTCCTGATACCTGTCGTGGAGGCCGCCGAGCAGACGGTCATCCAGCAGGTTGTGCCACTGCCCAGGCAGGGCCGGGTGTTCGGATTCGCCATGGCGTTTGAGTCTGCGGCAGCACCGGTCACCGCGTTCGTCATCGCGCCCATCGCCCAGTTCTGGATCATTCCGTACGCACGGTCGGCTGAAGGCGCCGCCCAGTTGGCCCCGCTGCTGGGCGAGGGCGTCTCGCGCGGCATCGCCCTGGTGTTTCTGATCGCCGGGATCATCATGGCCGTAGCCGCGTTGCTCGCCTTCCTGACTCCGGTTTACCGCCGGGTCTCGGCGTCGTACGCCCGGGCGGCTGCCGATGCATCGGGGACGGCGGGTCACACCTCTCCCCCGCCCAAGGATGAGTAG	MKPCSRAKVVSKLGRMTEQEPAPSGAAATADGGAGVPDDVAVTSTQVEDAGAARLADPGAVDTSLRSPAQRSRTFAGILVNTALANITTSYLWFALTFWVYLETRNVIATGVIGGAYMLLIALSSISFGTFVDRYRKLAVMRSAAAFTLVMFLLSGIMFLLTPTAQLLHLTQPWFWLFTLIILVGAVVENMRNVALSTTVTILIEPDRRANANGMVGMVQGLAFIVTSVLSGLSIGLLGMGWTVVVAVVLTALAFVHLLTLRMPEEVRVAATDAHGAFDLRGSLAAVLAVAGLFALILFSTFNNFIGGVYMALMDPYGLEMFPVELWGAVFALGSTGFIVGGALIGKFGLGPNPLRSMLLAVIVMGVLGAVFTVREWAWLYVAGIWLYLVLIPVVEAAEQTVIQQVVPLPRQGRVFGFAMAFESAAAPVTAFVIAPIAQFWIIPYARSAEGAAQLAPLLGEGVSRGIALVFLIAGIIMAVAALLAFLTPVYRRVSASYARAAADASGTAGHTSPPPKDE	PGPT0027970_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0027970-cmr-K18833	NA	NA
D1-17_01886	552	yyaP_3	COG0262	putative protein YyaP	ATGCGTAAAGTCACCGCCGGCCTGTTTCATTCCGTTGACGGCATAGTGTCGGATCCGTTCATGTTCCAATTCGACAGTTTCGACGACGAACTCGCTCAGGGACTGACCAGGATGATGGGCACTGTGGACACGGTGGTGCTGGGGCGGGTGAGCTACCAGGAGTGGGCGGGCTACTGGCCCACCGCCGCAGCGGACGAGGACTTCGCAGCCTTCATCAACCCTGTTGAGAAGTACGTGGCGTCGCGGACGCTCAGCAAGCCTCTGGAATGGCAGAACTCGCACCTGATGGATGCCCCGCTGGAGGAGTACGTAGCGAAGCTGAGGGAGCGCGGCGGCGGCGAGATCGCAGTGTGCGGCAGCATCTCGGTGACGCGGCAGCTGCTGTTCGCCGGGCTTCTGGACTCGCTCACACTCATGACCCACCCTGTGGTCGCAGGAAGCGGCCGCCGCCTGTTCGAGGACGGCGACCCGCTCACCCGGCTGGAACTTCAGGACCAGTCCCGGACCAGCAAGGGCAACGTGATCAGCACATACGGGCGGCTTGAGGGCTAG	MRKVTAGLFHSVDGIVSDPFMFQFDSFDDELAQGLTRMMGTVDTVVLGRVSYQEWAGYWPTAAADEDFAAFINPVEKYVASRTLSKPLEWQNSHLMDAPLEEYVAKLRERGGGEIAVCGSISVTRQLLFAGLLDSLTLMTHPVVAGSGRRLFEDGDPLTRLELQDQSRTSKGNVISTYGRLEG				NA	NA	NA	NA	NA
D1-17_01887	969	yegS_2		lipid kinase YegS	ATGAAAGTTGCCCGAGACGCAGGCTCTGCTGCCGTGGTGATTAACGCCGGGTCCCGCCGGGGAGCGGCGGCGCACGAACGCGCCGTGGTCGCGCTGCGAAAGGCAGACGTGCCGATCACCTCCGTGCACCGCGTGCTCTCCGGTGCGGAGCTGGCCGAAACGCTCGACCGGGTGGTTGCGGACGGGCACGAGCTGGTCATTGTCGGTGGCGGAGACGGGACTGTTGCCACCGCCGCCGGTAGCGTTGCTGGCACCAACGTCGTGCTCGGCGTCCTTCCGCTCGGCACTGCAAACGACCTCGCCCGCACGCTTGAGATACCAACTGATTTGGACAAGGCGTGCGCTGCCGTCGCAGGCGGGAAGGTGGTCGACATCGACCTTGGACGGGCGAACGGCCAGCCGTTCCTCAACGTAGCCTCGGTTGGCCTGTCGGTGGGTGTCACCCAAGTTCTCAGCCCCCGCCTGAAGCGGCATCTCGGGCCCTTGGCGTACGGCATTGCCACCCTGCTCGCCTACCGTCGACACGAGCCGTTCCGAGCCCGTCTCGAGTTCCCGGAAGGGGACCACGGGCCGATGGAGCTCGAGGACCTGCTCCAGGTGGCCGTCGGCAATGGCAGGCACTACGGAGGCGGCAATACGGTCTCGCCGACGGCGGGGATCGACGACCATATTCTTGATATCTACGCCATCCTGGTAGCGCCGCTGCGCGAGCACGTGAGGGTCGCGCGGCTGCTCAAGGACGGAAGCTTCGTCAGGCACGACCGGGTGCACCACCTGACCAGCCGGAGTGTCCGGCTGGTCACTGAGCCTCGGCTGTCGGTGAACCTCGACGGCGAGATCGCTACCGAGACACCAACCAACTTCACAATCGAGCGCAACGCCGTCCACATTGTGGTGCCCCAGAGCAGCAGCAGCGCATCGCTCGACGGACGGCGTGACCGGGGAGAGGACCATACACCTGAGAGCTGA	MKVARDAGSAAVVINAGSRRGAAAHERAVVALRKADVPITSVHRVLSGAELAETLDRVVADGHELVIVGGGDGTVATAAGSVAGTNVVLGVLPLGTANDLARTLEIPTDLDKACAAVAGGKVVDIDLGRANGQPFLNVASVGLSVGVTQVLSPRLKRHLGPLAYGIATLLAYRRHEPFRARLEFPEGDHGPMELEDLLQVAVGNGRHYGGGNTVSPTAGIDDHILDIYAILVAPLREHVRVARLLKDGSFVRHDRVHHLTSRSVRLVTEPRLSVNLDGEIATETPTNFTIERNAVHIVVPQSSSSASLDGRRDRGEDHTPES	PGPT0024345_999	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-17_01888	4173			hypothetical protein	GTGGTGCCGGTCCCGGCGTCGGCCGCCCCGGGTGACGTTGGGGTTGAGGGTCCCTCGCATACGGGGACGGGGACGCCGACGGGTTCGAAGCGGGCGACGAGTGGCCTGTGGTTCAACGACGGGTCCTGGTGGGGGAACCTGTGGGACACTGCCAGCTCGGATTTTCATATCTTCCGGTTCAATGCCGCGACCAGCTCGTGGGTTGATACCGGTGTGGCGACAGACACGCGGGCGAACACCCATCATGACGTGCTGTGGGACGGGACAACGCTGTACGTGGCGAGCTACCGGTTCGTCAACGACGGCCTGCCGGCCGAGCCGAACTTCCCGACGACGATGCGGCGTTACAGCTACAACGCGACGAGCAAGACCTATACGTTGCGGGGTTCGTCAACCATCAACAACCACCGTGTCGAGGCCCTGACCATCGATAAGGACTCCACGGGCCGGGTGTGGGCTACCTGGCAGCAGGCGAACCGGATCTACCTGAACGTCACCGGCACGGACGGAGCAACGTGGGGGACACCGTTCCCGCATCCCGCGGCATTGAGCAACGTGTCGGTGGATGACACCTCGGCTGTGATCGCGTTCGGGCCCGGCAAGATCGGGGTGATGTGGAGCCGGCAGGTCGGTGACGCCACCGACGGCATGTACTGGAGCTACCACGTCGACGGAGCGGCGAACACCGCCTGGACCACTCCTGTGGCGGCGGTGGACGGGCAGCGCAGCGGTGATGACCATATGAACCTGAAGTGGCTGGATTCCTCCGGCGGCCGGGTGTTCGCGGCCATTAAGACGTCGTTCACGTCGGCGTCCCAGCCGCTGATCCAGCTGTTGGCCTTGAATAATGCGACCTCGGCATGGTCGGCGCACACGATCGCGACGGTGGCGGAGTGCCCGAACCGGGTGATTGTCCTGATTGATGAGAGCACGCAGAGGCTGCGGACCTTCGCTACCTATCCGAAGCCCAGCGGCACGACCAACGCCGGTGTCTGCACCACCTCGGGCGGTGCGATCTACGAGAAGTCCGCGTCACTGAGCGACATCACCGGCAACTTCAGCTTCACCACCACGAAGACGGCTCATATCGTGGACGCCGACCAGTATGTCCACAACGTGACCTCGACGAAGCAAAACCTGAACAGCGCGGCGCGGGGCACCGCGAACAGCGGTCTGCTGCTGCTGGCCGATGTGAACGCCACCAGCCGGTACTGGCACGCTTACGACCCCAGCGGCGGCAGCGGCGGCGGCGACACAACGGCTCCGACAGTGACGGGTACTTCTCCGGCTGATGGTGCGACCGGTGTAGCGGTGTCGGCGAATGTGACGGGGACCTTTTCGGAGGCGATGGACACCTCGACGATCACTCCGGCCACGTTCACGTTGCGGACGGGGACGGCGACGGGAACAGGGACAGCGGTGTCGGCCGCTGTGACGTACGACAGCACGAACCGGGTTGCGACGTTGAACCCCACCGCCGACCTGGCAGCAGGCACGACATACACCGCGACGATCAAGGGCGGCTCCACTGGGGTGAAGGATGCTGCCGGTAACACGCTGGCCACAGACAAGGCCTGGACCTTCACCACCGCTGCCGCCGGCGGCGGCACCTCCGAGACCGTCACGCTCACGACCACCGCTGACAGCTACGTCTCCAGCGGAGCGGCGACGACGAACAACGGCACGAGTACCCTGCTGGGCGTAGACAACAGCCCCGTGGAGGTCACATACCTGAAGTTCGACCTGTCCGCCTACGCGGGCAGAACCCTGGAAAGCGCGGAGCTGCAACTGCGCAGCGCCGGGAGCGGATCCACAGGCACCCAGAACATCAAACTGGTCACCACTGACACCTGGACCGAAACCGGGATCACCTACAACAACCGCCCGGCCCTCGGCACCAGCATCGGCCGGCTCGGCCCGACAACAACCAACACCAACTACACCGTCCCCCTGACCGCCACCGGCCTGGCCGGTGAACTCGGCCAACAGCTCTCCCTCGGTATGGACGCCAACAGCAGCGACGGCCTGGACCTGAACTCCAAGGAAGCCGGCAGCACGGCCATACCCAAACTCGTGCTCACCCTCAGCGGCTCCAGCGGCGGCGGCACCCCCAGTGATACGACGGCTCCGACCGTGACGGATACCTCTCCGGCTGCCGGTGCCACCGGTGTGGCCGTGACGGCGAATGTGACCGGGACCTTCTCCGAGGCGATGAATGACGCGACGGTCACGCCGGAGACGTTCACGCTGAGCACGGGAACGACGACGGTGCCGGCCGCTGTGACGTACACCGGCACGGACCGGACCGCGACGCTGAACCCCACCGCCGACCTGGCTGCAGGCACGACATACACCGCCACGATCAAGGGCGGCACCGACGGAGTGAAGGATGCTGCCGGTAACACGCTGGCCGCGGACAAGACCTGGTCTTTCACCACGGCTGCCGCGGGTGCCCCCAGTGATACGACGGCTCCGACCGTGACCGGTACGTCTCCGGCTGCCGGTGCAACCGGCGTGGCGGTGACGGCGAACGTGACAGGGACCTTCTCCGAGGCGATGGATGCCGCGACGATCACGCCGGCCACTTTCACGCTGACGACGGGGACGGGCACGGGGACGACGACGGTGCCGGCGGATGTGAGGTACGACAGCACGAACCGGGTGGTGACGTTGAACCCTGATGCCGACCTGGCGGCAGGTACGGCCGGTACAACATACACCGCCACGATCAAGGGCGGCACCGACGGAGTGAAGGATGCTGCCGGTAACACGCTGGCCGCGGACAAGACCTGGACGTTCACCACCGCTGCCGCCGGCGGCGGCACGACGGAGACCGTCACGCTCACGGCCACCGCTGACAGCTATGTCACCAGCGGAGCAACAGGGACGAACAATGGCACGAGCACCATGCTGGGCGTGGACAACAGCCCGGTGGAGGTCACATACCTGAAGTTCGACCTGTCCGCCTACGCGGGCAGGACCCTGGAAAGCGCGACGCTGCAGCTGCGCAGCGCCGGAAGCGGCTCCACAGGCACGCAGAACATCAAACTGGCCGGTGACGGCTGGACCGAAACCGGAATCACGTACAACAACCGCCCGGCCCTCGGCACCAGCATCGGCACCCTCGGCCCGACAACGACCAACACCAACTACGGCATTCCCCTGACCGCCACCGGCCTGGCCGGTGAACTCGGCCAACAGCTCTCCCTCGGCATGGACGCCAACAGCAGCGACGGCCTGGACCTCAACTCCAAGGAAGCCGGCAGCGCGGCCGCACCCAAACTCGTGCTCACGCTGAGCCCCGCCAGCGGCGGCGGCACCCCCAGTGATACGACGGCTCCGACCGTGACCGGTACGTCTCCGGCTGCCGGTGCAACCGGCGTGGCGGTGACGGCGAACGTGACAGGGACCTTCTCCGAGGCGATGGATGCCGCGACGATCACGCCGGCCACTTTCACGCTGACGACGGGGACGGGCACGGGGACGACGACGGTGCCGGCGGATGTGAGGTACGACAGCACGAACCGGGTGGTGACGTTGAACCCTGATGCCGACCTGGCGGCAGGTACGGCCGGTACAACATACACCGCCACGATCAAGGGCGGCACCGACGGAGTGAAGGATGCTGCCGGTAACACGCTGGCCGCGGACAAGACCTGGACGTTCACCACGGCTGCCGTCGCCGGCGGCACGACGGAGAGCGTCACGCTCACGGCCACCGCTGACAGCTATGTCACCAGCGGAGCAACAGGGACGAACAATGGCACGAGCACCATGCTGGGCGTGGACAACAGCCCGGTGGAGGTCACATACCTGAAGTTCGACCTGTCCGCCTACGCGGGCAGGACCCTGGAAAGCGCGACGCTGCAGCTGCGCAGCGCCGGAAGCGGCTCCACAGGCACGCAGAACATCAAACTGGCCGGTGACGGCTGGACCGAAACCGGAATCACGTACAGCAACCGCCCGGCCCTCGGCACCAGCATCGGCACGCTAGGCCCGACAACGACCAACACCAACTACAGCGTTCCCCTGACCGTCAGTGGCCTGGCCGGTGAACTCGGCCAACAGCTCTCCCTCGGCATGGACGCCAACAGCGGCGACGGCCTGGACCTCAACTCCAAGGAAGCCGGCAGCACGGCCGCACCCACACTCGTGCTCACCCTGACGCAGTGA	MVPVPASAAPGDVGVEGPSHTGTGTPTGSKRATSGLWFNDGSWWGNLWDTASSDFHIFRFNAATSSWVDTGVATDTRANTHHDVLWDGTTLYVASYRFVNDGLPAEPNFPTTMRRYSYNATSKTYTLRGSSTINNHRVEALTIDKDSTGRVWATWQQANRIYLNVTGTDGATWGTPFPHPAALSNVSVDDTSAVIAFGPGKIGVMWSRQVGDATDGMYWSYHVDGAANTAWTTPVAAVDGQRSGDDHMNLKWLDSSGGRVFAAIKTSFTSASQPLIQLLALNNATSAWSAHTIATVAECPNRVIVLIDESTQRLRTFATYPKPSGTTNAGVCTTSGGAIYEKSASLSDITGNFSFTTTKTAHIVDADQYVHNVTSTKQNLNSAARGTANSGLLLLADVNATSRYWHAYDPSGGSGGGDTTAPTVTGTSPADGATGVAVSANVTGTFSEAMDTSTITPATFTLRTGTATGTGTAVSAAVTYDSTNRVATLNPTADLAAGTTYTATIKGGSTGVKDAAGNTLATDKAWTFTTAAAGGGTSETVTLTTTADSYVSSGAATTNNGTSTLLGVDNSPVEVTYLKFDLSAYAGRTLESAELQLRSAGSGSTGTQNIKLVTTDTWTETGITYNNRPALGTSIGRLGPTTTNTNYTVPLTATGLAGELGQQLSLGMDANSSDGLDLNSKEAGSTAIPKLVLTLSGSSGGGTPSDTTAPTVTDTSPAAGATGVAVTANVTGTFSEAMNDATVTPETFTLSTGTTTVPAAVTYTGTDRTATLNPTADLAAGTTYTATIKGGTDGVKDAAGNTLAADKTWSFTTAAAGAPSDTTAPTVTGTSPAAGATGVAVTANVTGTFSEAMDAATITPATFTLTTGTGTGTTTVPADVRYDSTNRVVTLNPDADLAAGTAGTTYTATIKGGTDGVKDAAGNTLAADKTWTFTTAAAGGGTTETVTLTATADSYVTSGATGTNNGTSTMLGVDNSPVEVTYLKFDLSAYAGRTLESATLQLRSAGSGSTGTQNIKLAGDGWTETGITYNNRPALGTSIGTLGPTTTNTNYGIPLTATGLAGELGQQLSLGMDANSSDGLDLNSKEAGSAAAPKLVLTLSPASGGGTPSDTTAPTVTGTSPAAGATGVAVTANVTGTFSEAMDAATITPATFTLTTGTGTGTTTVPADVRYDSTNRVVTLNPDADLAAGTAGTTYTATIKGGTDGVKDAAGNTLAADKTWTFTTAAVAGGTTESVTLTATADSYVTSGATGTNNGTSTMLGVDNSPVEVTYLKFDLSAYAGRTLESATLQLRSAGSGSTGTQNIKLAGDGWTETGITYSNRPALGTSIGTLGPTTTNTNYSVPLTVSGLAGELGQQLSLGMDANSGDGLDLNSKEAGSTAAPTLVLTLTQ				NA	NA	NA	NA	NA
D1-17_01889	1524	dauA_1	COG0659	C4-dicarboxylic acid transporter DauA	TTGGCCGTCGAAACTGCAGGGGAATCCCCTGCCTACACCCCTGAACAGCTTCAATCGGTACGAAAAACCCTGAAATCCCCGCGCCGGCTCAAGACCGAAGTCCTCGCCGGTCTCGTCGTTGCCCTGGCGCTGATCCCGGAAGCGATCGCATTCTCAATCATCGCCGGCGTCGATCCCCGCTTGGGACTCTTCGCTTCCTTCACGATGGCTGTGACCATCGCGTTTGTGGGCGGCCGTCCGGCGATGATTTCAGCGGCCACGGGGGCCATTGCCCTGGTGATTGCCCCGCTGGTGAGGTCCCACGGGATGGATTACTTCATCGCCGCCGTCATTCTTGCCGGGATCTTCCAGATCATCCTGGGCATCTCCGGGATCGCCAAGCTGATGCGCTTCATCCCCCGGTCAGTCATGGTGGGTTTCGTCAACGCCCTGGCCATCCTGATCTTCATGTCCCAGGTCCCCGAACTCCTCGGCGTCCCGTGGATGGTCTACCCGCTCACCGCGCTGGCCCTTGTTATCGTTTTCGGCCTGCCCAAGCTCACCAATGTTGTGCCGGCCCCGCTGGTCGCTATCGTGGCCCTGACCCTCATCACGGTGCTCGCCGCCATTGCCGTCCCCACCGTCGGCGACAAGGGCAACCTGCCCGAATCCCTGCCGTCGCTGTTCATCCCGAACGTGCCGTTCAACGTGGAGACTCTGCAGGTCATCTTCCCGTTCGCGCTGGCCATGGCCTTCGTCGGCCTCCTCGAATCCCTGATGACTGCAAAGCTCGTCGACGACGTCACCGACACCCGTTCGCACAAGTCCCGGGAAGCCTGGGGGCAGGGCGTGGCCAACATCGTCACGGGCTTCACCGGCGGCATGGGCGGCTGCGCCATGATCGGTCAGACCATGATCAATGTCAAAGCCTCTGGCGCCCGTACCCGGATCTCCACATTCCTCGCCGGAGTCTTCCTGCTCATACTCGTCGTCGCCCTCGGCGACGTAGTGTCAGTAATCCCCATGGCCGCCCTCGTCGCGGTGATGATCTTCGTTTCCTGGGCCACGTTCGACTGGCACAGCATCCACCCCCGCACCCTGAAGATGATGCCCAAGAGCGAAACCATGGTCATGGTCGCCACGGTCATTGTCACCGTCGCGACCCACAACCTCGCCATCGGAGTCGGTGTCGGAGTCCTCGTCGCCATGGTCCTCTTCGCCCGCCGCGTGGCGCACTTCGTCACCGTCGAACGGAACGTGAAGAACGTGGACGGCCAGGAGACAGCCACCTACGTGGTGAACGGTGAGCTGTTCTTCGCCTCCTCCAACGACCTCTACACCCAGTTCGAGTACGCGCTGGACCCCGACCACGTGGTGATCGACATGCACGCCTCCCACCTCTGGGACGCGTCCACCATCGCGGCCCTGGACGCCATCACGGAGAAGTACCGCCACCACCGCAAGGATGTGAAAATCATCGGCCTCAACGACGCCAGCGCCACCATGCGCGAACGCCTCGGGGGGAAACTGGGCGCGGGCCACTGA	MAVETAGESPAYTPEQLQSVRKTLKSPRRLKTEVLAGLVVALALIPEAIAFSIIAGVDPRLGLFASFTMAVTIAFVGGRPAMISAATGAIALVIAPLVRSHGMDYFIAAVILAGIFQIILGISGIAKLMRFIPRSVMVGFVNALAILIFMSQVPELLGVPWMVYPLTALALVIVFGLPKLTNVVPAPLVAIVALTLITVLAAIAVPTVGDKGNLPESLPSLFIPNVPFNVETLQVIFPFALAMAFVGLLESLMTAKLVDDVTDTRSHKSREAWGQGVANIVTGFTGGMGGCAMIGQTMINVKASGARTRISTFLAGVFLLILVVALGDVVSVIPMAALVAVMIFVSWATFDWHSIHPRTLKMMPKSETMVMVATVIVTVATHNLAIGVGVGVLVAMVLFARRVAHFVTVERNVKNVDGQETATYVVNGELFFASSNDLYTQFEYALDPDHVVIDMHASHLWDASTIAALDAITEKYRHHRKDVKIIGLNDASATMRERLGGKLGAGH	PGPT0003020_4424	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-17_01890	384			hypothetical protein	ATGACGGCCAAAACCGGCAGTACGATCATGCACATCGGTGAACTGGCGGAACGGACAGGCCTGTCGTTGCGGACCATCCGGCACTATGACGACGTCGGCTTGCTGCCAGCCACAGCGCGGACCGAGGGTGGCTTCCGGGTCTATTCGGAGGACGACTTCGAACGGCTCATGGTCATCAAACAAATGAAACCCCTCGGGTTCTCACTCGAAGAAATGGGCGAGATCCTCGACCTGCTGTCACCGCATAAGACCACAGCAATGACTGATATGCCCGACACCAAACTTATGGAGTTCCTGGAAAGGGCCATCCACCAGCGTGCCAAGATGGCGCGCAACCTCGCCCAGGCGGACGAATTCATCCAAAGACTCAGCGGACAAAACTAA	MTAKTGSTIMHIGELAERTGLSLRTIRHYDDVGLLPATARTEGGFRVYSEDDFERLMVIKQMKPLGFSLEEMGEILDLLSPHKTTAMTDMPDTKLMEFLERAIHQRAKMARNLAQADEFIQRLSGQN	PGPT0004135_2100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
D1-17_01891	528			hypothetical protein	ATGACGGCGCATGGCCAGTTCCAAGGAGATCGAGCCCGCACGCCCGAAGAGGAGAAGTTCCTGAAGGAGCTCGCTCGCGGCATCGCCGGCTGGCCCCCGACGAACCCCAAGCTTGATTCCTTTAAAGTGTTCGCACGCATCAAACCGCTAGTCGTGATTCTGGACGTCCCTGGTATCGAGACGCCGGACGCGTGCACACTTCAGGTTGCGTACTGGCACGACGGACCCAGCGGCCGCACTTTGGAAGGTGAATGGGGAGATAGCCACGTCTTGGACAACCATGTCTACGACGGAGATGGCCTCACAATTATCGGCTTGGAGGAAGCGCCGGATACCTACGGCCACTTCGCAGCCAACTGGCTGGAACGTCAGCTTAAACGCCCCGTGGAACGGCTTGATTGGCTACAGGGTGGACAGGTCAAGGAGTCAACATGGCGCCTGCAAGACTCGGGAAAAATAATTGCCCGAAGTGGCCGGTCGTTGCGCCTTCCCTCCAAACAACCCGATCGCGTGCTCAAAGTTCGGTAG	MTAHGQFQGDRARTPEEEKFLKELARGIAGWPPTNPKLDSFKVFARIKPLVVILDVPGIETPDACTLQVAYWHDGPSGRTLEGEWGDSHVLDNHVYDGDGLTIIGLEEAPDTYGHFAANWLERQLKRPVERLDWLQGGQVKESTWRLQDSGKIIARSGRSLRLPSKQPDRVLKVR				NA	NA	NA	NA	NA
D1-17_01892	1518			hypothetical protein	ATGACCACTGACAAACCCGAAGGCCTCAGCCCCCGCAGCACCAGCCGCGGCCGGCCCCGCACCACCGGGACCGCGACGTGCGCACGTTGCGGCCGGGCCGCCGGCCGAACACGCGCCACCTGGCCCGAAGGCCGAATCTGCGGGCCCTGCTTCACCACCGCCACCCGCACCCACGGGACCTGTCCGGATTGCGGCCAGCACGGACTTCTACCCGGACCACCGGACAGCAGCGGAGGGCCCCGCTGCGCGCCCTGCGCCGGCATCCTCCATGACTTTCACTGCACCCGCTGCAATGTTGAAGGTGAGTTCTACCGACGCGGTATCTGCGCCCGCTGCGCCCTCCGGGAGGACCTCAATGAGCAACTGCTGACAGAATCTTCCGACCCCGAAACAGCCAGCAGAATTGTCGATGTCCTCTGCAAAGCAGACCGGCCTGAAAGCATCATCACGTGGAAGCGCTCCCCCAAAGTCCAAGCCCTCCTCCGCTCTCTATCGAGCGGGGAGACTCCGCTGACGCACGAAGGACTCGATGCCGCGGCTGAGTCAGCGAACCGCGAAGCCAATCACCTGCGCGCCCTGTTCATTCATCACGGACTCCTCCCCTACCAGGACCCGTATTTGGCCCGGTTCGAGACCTGGGTTGACGACAAGCTCCGCGACTTGTCCGAGGAGGTCGCCAAACCCGTCGCGCAGTTCGCCACCTGGCATCACCTCCGGCGCATCCGATCCATGACAACACCGGAGAAGAGTGCCCAGGCCCCGGTGCACTCCGCCAAACAGGAGATCACGGAGACCATCAAGTTTCTGGACTGGCTCTGGGAAACCCACCAGCGGACAGCGGCGAACTGCACCCAACAAGACATCGAAACCTGGCTCGCAACCGGTCCCACGACCAGAAAAGCCATCCGCACCTTCATCGTCTTCATCAAGAACACCGGCACAAACCACCGAGTGGACATGGGCCACTACACAGCCAAGACCCGCCCCGCGATCACCCAGGACCAGCGCGTGGCCTGGCTCCGGGAACTGCTTACAGGCACCAGCGAGTCCCTGACCTACCGAGTCGCCGGCATCCTGCTGCTTCTCTACGCCCAGCCGCTCGTTCGGGTCGCCAAACTCCGGACCGACGCTATCGAAACCAATGAAAGCACCGGCAACATGTGGATCACCTTCGGCCCGCACCCAGTGCCCATTCCCGAACCCTTCGCCGACTTGCTTCGAGAGCACCTTAAAGGCCGTCCGAATCTCAGAACAGGATCAGACGCACAAAGCCCTTGGCTCTTCCCGGGGACCCGGGCCGGACAACCACTTCACCCAAACGGCATCATGGATAGGCTCCGCAGCCTGGGCATCGACCTGCGCGGCGCACGAAACACTGCCCTGGACGAACACCTGTTAGTCTCACCGCCGCCACTGGTCGCCGACGCCCTCGGCTACAGCCATCAAATCGCGTTCCTCCACGCCGACGCAGCAGGCGACGCCTGGTCCCGCTACGTCAACCTCCGAACCAAACCATGA	MTTDKPEGLSPRSTSRGRPRTTGTATCARCGRAAGRTRATWPEGRICGPCFTTATRTHGTCPDCGQHGLLPGPPDSSGGPRCAPCAGILHDFHCTRCNVEGEFYRRGICARCALREDLNEQLLTESSDPETASRIVDVLCKADRPESIITWKRSPKVQALLRSLSSGETPLTHEGLDAAAESANREANHLRALFIHHGLLPYQDPYLARFETWVDDKLRDLSEEVAKPVAQFATWHHLRRIRSMTTPEKSAQAPVHSAKQEITETIKFLDWLWETHQRTAANCTQQDIETWLATGPTTRKAIRTFIVFIKNTGTNHRVDMGHYTAKTRPAITQDQRVAWLRELLTGTSESLTYRVAGILLLLYAQPLVRVAKLRTDAIETNESTGNMWITFGPHPVPIPEPFADLLREHLKGRPNLRTGSDAQSPWLFPGTRAGQPLHPNGIMDRLRSLGIDLRGARNTALDEHLLVSPPPLVADALGYSHQIAFLHADAAGDAWSRYVNLRTKP				NA	NA	NA	NA	NA
D1-17_01893	339			hypothetical protein	ATGGTGAGACGCGAAGTCGAATACAAATGGCGGCTCTCTGAGCTCATGGCAGCGCGGGGACTGCACAACACCACGGACCTCATCCCCCTGCTGGCCGAGCGCGGCATCACCTTGTCCCGGCCACAGGTCTACCGGCTCGTCAACCAGAAACCCGAACGCGTTGCGCTGCAGGTCATCGCCGCGATCTGCGACATCTTCTCCTGCGGACCCGAGGACCTCATCACCGTCACAGCCGCCGACGTCCGCGCCCGCAAGACAGGAACCAGCGCCCCCAACGTCGTTGACCTGAACCGCACCGTCAGACCACGACGGGCACGCATCATCGACGATGACCACTGA	MVRREVEYKWRLSELMAARGLHNTTDLIPLLAERGITLSRPQVYRLVNQKPERVALQVIAAICDIFSCGPEDLITVTAADVRARKTGTSAPNVVDLNRTVRPRRARIIDDDH				NA	NA	NA	NA	NA
D1-17_01894	1107	xerC_2		Tyrosine recombinase XerC	ATGGCGGTCGACGCGTCCGGGCGTGTGCTGCAGCTGAGCAGTGTTCAGCTGCTGCATCCCGAGGAACAGACGCTTGAGGACATGCTGACCGGGTGGCGCAACCAGCAGCTCTCCAGGAACCTCCAGTTCGACACGATCGGCAAGGGAATCGCAAGTGTCCGCAGGTTCGTCAACCATGTGAACGAGTTCCCCTGGAACTGGGCACCGGAGCATGTCGAGGAGTATTTCGGTGACCTCCGCTCGATCCACCAGCTGAAGCACTCCACCGTCCGCGGCTACCAGTCGACGCTCCGCCGGTTCACGTCATACGTGTCGAACCCCGACTACGGCTGGGACCAGGTCTGCGAACAGCGCTTCGGCACACACCCGTCCCAGGTCTTCTTTGACTGGAACACCGCCTCCCACACACAGGAGTACGAAGGACGCGCCTCCAAGCGGCCGTTCACAAAGACGGAACTGCAGATGCTGTTCGATCACGCCGACGACCAGGTCGAACTCATCGCCGCCTCAGGCAAGAAAGGCTGGCAGGCAGCCTACCGGGACGCCGTCATGCTGAAAGTCGCCTACTCGTACGGGCTCAGATTCAACGAGCTCCGGCACCTGCAAACCATCGACTTTGCGGCCAACCCCCAAGCACGAAGGTTCGGCAAGGCAGGCGTCTGCAAGGTCCGGTTCGGCAAATCACGCAAGGGCTCCCCGCACAAACCCCGCAGCGTCCTGACGGTCTTCGACTGGACCGCCGGCGTTATCGAGGACTGGCTCGCCAACGGACGCGGCACGCTCGACACGCTGGACCTGTTCCCCAGCGAACGCGGCGGCCTGATCTGTGAATCCACCCTGCTGCGCCGGCTCCGGCGCTACCTCAACGAGCTGGGCCTGCCGCTGGATGGCCTGGACCTGCACTCGCTCCGGCGCTCCTATGCGACGCACCTGCTGGAGGACGGATGGGATCCTAGATTCGTGCAACATCAGATGGGCCACGAACACGCCTCAACCACCGGGATCTACCAGTTCGTCAGCGACGACTTCCGCAACGCGACCCTCCGGGCGGCGTTGGACCGCACCATGGATGAAGTCCTGGGCGTGCAGATGAGGGGTCAATGGTGA	MAVDASGRVLQLSSVQLLHPEEQTLEDMLTGWRNQQLSRNLQFDTIGKGIASVRRFVNHVNEFPWNWAPEHVEEYFGDLRSIHQLKHSTVRGYQSTLRRFTSYVSNPDYGWDQVCEQRFGTHPSQVFFDWNTASHTQEYEGRASKRPFTKTELQMLFDHADDQVELIAASGKKGWQAAYRDAVMLKVAYSYGLRFNELRHLQTIDFAANPQARRFGKAGVCKVRFGKSRKGSPHKPRSVLTVFDWTAGVIEDWLANGRGTLDTLDLFPSERGGLICESTLLRRLRRYLNELGLPLDGLDLHSLRRSYATHLLEDGWDPRFVQHQMGHEHASTTGIYQFVSDDFRNATLRAALDRTMDEVLGVQMRGQW	PGPT0022000_1005	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
D1-17_01895	1218		COG3424	Alpha-pyrone synthesis polyketide synthase-like Pks18	ATGACGGTCTATGTGAGAGCTCTCGAAACTGCAGTTCCGCCCACAGTGCTCATCCAGACGGAGGCACGCGACGTGTTCAGCGCCCAGCCCGGGCTCACAAGGCTCGGTTCGAGGCTGGTCTCCACATGCTTTGACTCGGCGGCGATCGACACCCGCTACACAGCGGTAGACGAACTGACCATGGAGTCAAAATCCGAGGAACCGCAGTTTTTCGACCCGGCCAGCGGACTGTTGCGCAGCCCGAGCACAAAGACCCGCAACGACCTGTTCGCCAGGGAAGCCACGAAGCTGTTCATTGAAGCCGCATCCTCTGCCGTTGCTCATTGCCCCGGAATCGATCCACTTGACATAACTCATCTCATCACCGTTTCCTGCACCGGGTTTTTCAACCCCGGTCCGGACTACAAAATTGTCCGGGCGCTCGGGCTCAACCCGGCTGTCCAGCGCTACCACCTCGGGTTCATGGGCTGCTATGCGGCGTTCCCTGCCCTCCGGGCAGCCAAATCCTTCTGTGAGGCCGATCCCCAGGCCGTGGTCCTCGTGGTTTGCGCCGAACTGTGCTCGCTGCACGTCCGGACCTCCAACGATCCGGACACGATCATGGGGTCAGCCCTTTTTGCGGACGGTGCGGCTGCCGCCGTCGTCACCGCGCGCGAAGTGGCCGAATCAACGGCGCTCCTGCAGCTGGACCACTTCGAAACCGTCCTGACACCCGTCGGTGAAGACTCCATGGCGTGGAACATCGGCGACGAAGGGTTCGAGATGGTCCTGGGCAACTACGTTCCGCACATCATTGATGATCACATCGTCGGCGCGCTGGAACCCCTTTTGGCCCGCGACGCCTCCCTGCGGGGACTCCCCTACCGCGACATCACGCACTGGGCGATCCATCCTGGCGGCCGCAGCATTCTGGACAAGGTGCAGTCCCGGCTGGACCTGACCGATGAGCAGCTGGTGCCCGCCCGCGAAACCCTGAGGAACTACGGCAACATGAGCAGCGCAACGGTGCTCTTCGTCCTCAAACACATCCTGGACCTGCCAGAGCAGGCCGGCTCCAGGGGAAGCGCCCAGGAAAACGCCCGGGACAGCGGCGGCGAGCGTATCTGCTCCATGGCCTTCGGCCCGGGTCTGACGGTTGAAACCGGCCTTTTCACCAAGATCAGCCAGCCATCCGCACGGCACCGGACAGCGGACGAGTCCCAGTCTTCGCTGGCCTGA	MTVYVRALETAVPPTVLIQTEARDVFSAQPGLTRLGSRLVSTCFDSAAIDTRYTAVDELTMESKSEEPQFFDPASGLLRSPSTKTRNDLFAREATKLFIEAASSAVAHCPGIDPLDITHLITVSCTGFFNPGPDYKIVRALGLNPAVQRYHLGFMGCYAAFPALRAAKSFCEADPQAVVLVVCAELCSLHVRTSNDPDTIMGSALFADGAAAAVVTAREVAESTALLQLDHFETVLTPVGEDSMAWNIGDEGFEMVLGNYVPHIIDDHIVGALEPLLARDASLRGLPYRDITHWAIHPGGRSILDKVQSRLDLTDEQLVPARETLRNYGNMSSATVLFVLKHILDLPEQAGSRGSAQENARDSGGERICSMAFGPGLTVETGLFTKISQPSARHRTADESQSSLA				NA	NA	NA	NA	NA
D1-17_01896	702	COQ3		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGGCACTGCTGGGCCCACGTCTGGTCGACGCCATTGAGGAGATGGACAGGCCCGACTGCGATCCGGAACGCCTCGACCGCACGTACCGACAGTTTGCCCTGGTCAACCGCACAATCTCCGGCTGGCACGGCCTGTACCGCCGCCGGCTTCGGCCCCTGCTGTCGCACTCGGTGCCGGCGACGCTGCTCGACATTGGCTGTGGCGGCGGGGACCTGGCGCTGATGCTGGCTGGGTGGGCCGCCCGTGACGGCCTGCAGCTTAATATCACCGGCATTGATCCCGATCCGCGGGCCTTCCGTTTTGCCGCTCAACGGCCGCCGGTGCAAAGCGTGTTTTTCCGCCAGGCGGTGAGCGCCGAGCTCGTCGCGGAGGGTGCCACCTTCGACTTCACGATCTCGAACCATGTGCTGCACCACCTGGATGCCGCGGAGCTGCAGGGGCTGCTCAACGATTCCGCGCAGCTCACCCGGCGCCTGTCCCTGCACAACGACCTGCGCCGCAGCGCTCTCGCCTACGCGCTGTTCGCCGCCGGAGCGTTGCCCCTCACCGGCTCGTACATCCGAGGGGACGGCCTGACCTCCATCAGGCGCAGCTACACCGTCACTGAGCTGGCCGCCGTCGTGCCGCCTGGCTGGACAGCAGAGCCCCACTCCCCTTTCCACTGCCTGCTCAGCCACCGCCCGGAGGGTGGCGGTGGCTGA	MALLGPRLVDAIEEMDRPDCDPERLDRTYRQFALVNRTISGWHGLYRRRLRPLLSHSVPATLLDIGCGGGDLALMLAGWAARDGLQLNITGIDPDPRAFRFAAQRPPVQSVFFRQAVSAELVAEGATFDFTISNHVLHHLDAAELQGLLNDSAQLTRRLSLHNDLRRSALAYALFAAGALPLTGSYIRGDGLTSIRRSYTVTELAAVVPPGWTAEPHSPFHCLLSHRPEGGGG				NA	NA	NA	NA	NA
D1-17_01897	1134	rox	COG0654	Rifampicin monooxygenase	GTGGCTGACGTCCTCATCGTCGGCGCTGGCCCCGTCGGGTTGTACCTCGGCGCACTGCTGCTGCAGCACGGCGTCACCGTCCGGATTCTGGAGCGGCGCACCGCAAGGAGCGCGCACACCAGGGCCATCGGCATCCATCCCCCGGCGCTGGCGGCGCTGGCCCGCGTCGGCGTTGCCGAGCCGCTGATTCGCCAGGGAATCTGCATCCGGCACGGCCATGCGGTCTGGGCCGGCCGGGACATCGCCCACATGCCGTTCGCCCCCGTCTCGCAACGGTATCCGTTTGTCCTCGCCGTTCCCCAGCCGGTCACCGAGGCGGTCCTCGAAGCCCGCGTGCTGGAGTTGGACGGCAGCGCCCTGCTGCGCGGGGCAGAAGTCACAGGACTGGACGACGACGGCGCCCGGGTCATCGTGGACGCCGCCGTTGGCGGCACCCGGCAAAGGTTCACGGGCGCTATCGCGGTGGGCGCCGACGGCGCCAATTCCGCCGTGCGGCAGCTGCTGAGGGTACCGGCACCTGCGAAGCGGTACCCGGAGCACTACCTGATGGGTGACTTTCCCGAATCCACCGCGTACGGCCTGGATGCTGCCCTGTTCCTCGAAGCCGGCGGAATCGTTGAATCCTTCCCCCTGCCGGGTTCTGTACGGCGGTGGGTGGTCAGGCTGTCCGCCCCGCCGCCTAACCCCGACGCCGACCTGTTGGCCGGCCTGATTTGCGAGCGGACGGGCATCGCTGTGGATGCGGGCGCCAACAGCATGCTCAGCAGCTTCGGCGTCCATTCCCGCTTGGCGGCCCGTATGGTTGCAGGAAGGGCGGCGCTCATCGGCGACGCCGCCCATGAGATCAGCCCCATCGGCGGCCAGGGCATGAACCTCGGCTGGCTGGACGCGGCAGCTGTAGAGCCTCTCATCCTGGGCGCCCTGCAGGGCAGGCCCGTGGGAACCGAACTCCGCCGCTTTGACTCTTCACGCCGGCGCGCCGCAGCCAGGGCAAGGCGCCAGGCCGAGATCAACATGGCGCTGGGCAGGCCGCTTACCGGTTGTCCGCTGCTGGTGAGGAACGGGGCAGTTGCGCGCGTCACAGCTGTTCCGGGGCTCAACGCCTTGATCGCCCGCCGCTTCACCATGCAGTGA	MADVLIVGAGPVGLYLGALLLQHGVTVRILERRTARSAHTRAIGIHPPALAALARVGVAEPLIRQGICIRHGHAVWAGRDIAHMPFAPVSQRYPFVLAVPQPVTEAVLEARVLELDGSALLRGAEVTGLDDDGARVIVDAAVGGTRQRFTGAIAVGADGANSAVRQLLRVPAPAKRYPEHYLMGDFPESTAYGLDAALFLEAGGIVESFPLPGSVRRWVVRLSAPPPNPDADLLAGLICERTGIAVDAGANSMLSSFGVHSRLAARMVAGRAALIGDAAHEISPIGGQGMNLGWLDAAAVEPLILGALQGRPVGTELRRFDSSRRRAAARARRQAEINMALGRPLTGCPLLVRNGAVARVTAVPGLNALIARRFTMQ				NA	NA	NA	NA	NA
D1-17_01898	675	def_2		Peptide deformylase	ATGAACCCCTCGCCGCCGTCCACGTCCAGCTCCTCCGAGCAGATCCGGGAGATGGTGCGTGAACTCCTGTCAGCCGACGCTTTGCCGCCCATCGTGCAGGCCGGCCACCCTGCACTCCGGCAACGTTCAGCCGCCTTCGAGGGGCAGCTGGATGCGGCGGAACTTTCCGCCCTGATCGCGCTGATGCGGAAAGTCATGCACGCGGCGCCCGGGGTGGGACTGGCCGCGCCACAACTGGGGATACCGCTGCAGCTGGCCGTCCTCGAAGACCAGTTCGAAATCGATGCGGACACCGCCGCGGCACGGGGCCGGGAACCGCTCGAGTTCTTCGCCATCCTCAACCCCTCCTACACGCCGCTGGGGGCCGGGACGGCGGCCTTCTTCGAGGGATGCCTGTCCCTGAGCGGGCTGCAGGCGGTGGTGCAACGCGCCGAGAGCGTCCGCCTGGAGTACACAACTCCTGAGGGAGAACGCACTTCCCGCGGCTTTACCGGGTGGCAGGCGAGGATTGTCCAGCATGAAACGGACCACCTGCACGGCACCCTGTACATCGACAGGGCCGAACTCCGGTCCCTCACCACCACCAGCGAATACGCCGCGCGGTGGGCGGAATCGGGCATTCGGCGGGCGCGCCAGGAGCTCGGCTTCCTGCCGGATGCACCCTGGACGTACTAG	MNPSPPSTSSSSEQIREMVRELLSADALPPIVQAGHPALRQRSAAFEGQLDAAELSALIALMRKVMHAAPGVGLAAPQLGIPLQLAVLEDQFEIDADTAAARGREPLEFFAILNPSYTPLGAGTAAFFEGCLSLSGLQAVVQRAESVRLEYTTPEGERTSRGFTGWQARIVQHETDHLHGTLYIDRAELRSLTTTSEYAARWAESGIRRARQELGFLPDAPWTY				NA	NA	NA	NA	NA
D1-17_01899	2136	dpp5	COG1506	Dipeptidyl-peptidase 5	GTGAAGCCTGAACACTTGCCGCTGCTGAAGTCCGTCTCCGCTCCTGCCGTCCACCCGGACGGGACCCGCGCCGTTGTTTCCGTGATTCGTCCCGATTTTGATGCCGACGCCTACGTAGGCCAGTTGTGGACGGTGCCTCAGGATCCCGAACGACCGGCCCGAAGGGTGACGCGCGGTTTCCGGGACACGACACCGGCCTTTTCACCGGACGGCCGCGTTCTTGCCTTCCTGCGCTCCGATCCTGACGGCAAGCCGCAACTGCACGTAGTGGAGGCGGCGGGCGGTGAGCCACAGGTCCTAACAGACCGTCCTCTGGGGGTTTCCTCCTTCGCCTGGTCACCCGATTCACAGCGCATCGTCTTTGGCTCCCGCGAACCTGAGGACGGCCGGTACGGCACTGTGGACGGCGTTGGTCCCGCCGGGGAAAGCGGCCGCTTCATCACCAGCTTCAAGTACCGGATGAACGGAGTGGGCTACACGCAGGACAAGCCGCAGCAGTTGTTCCTCCTGCAGGTTCCGGATCTCGGCGGGGAACCTCCCGTTCCCCGGGCAGGACGTGCCCTGAAGCCGAAAAAGGCCCGGGACGGCGGGGAGCGAAAGGACAAGGGCGGCAGGGCCGAGGCCCAACCCCAGACGGCAGGAGAACCAGCCGTTGCCGTTGAACTTCCTGAGGTGAAGCAGCTGACCTTCGCGCCCACGGACCATACCGGCGAGTCCTTCAGCGCGGACGGTCAATGCGTGTACTTCGTGGCCTCGCTCCATGCCACGGAGGATGAAGACCTCGTGAGCGGGATTTACCGGGTACGCGTCGGCGGCTGGGAACCGGAACAGGTCCCGGTATCCGCCGGGGATCCCCAGAGCATTCATGAAGTCCGCGAGTCGCAGGACGGGAAATGGCTGTTCTTCACCGCCCAGGACCTCGGCGCTTCCGGGCGTGATTTCGTGGCCAAGAACACCGTCCTGCACGTCATGCCAGCCGGCGGCGGGGCGGCACGCGCGCTCAGCGACGCCGGGGAAATGGATGTTACCGCTCCCGGAACCCACATCGGGCTCCGCGGACGGGATGCGGCACTGGTCCTGAACGACGCCCAGGGCACAGTGGAACTGCTTGAGTTCAGCGCCACCGGCGACCACGCGCTCTTGGTCCATGGCGACCGCGTGGTCACGGGGGCGGCTGCTGCCGGGGACTCACTCTTCATCAGCTTCACCGACGCTTCCACGGCAGGCGACGTTGCATGCCTGGACCAGGGCCAGCTGCGGCTGCTGACCGATTTCTCGGCGGAGCTCCGGACAGAAGCGGGAATTATCGAGCCCCAGGAGCTGGTTTTCCCGTCTGCCGACGGCCACGAGGTGCACGGGTGGGTGGTGATGCCGCCCGGACCTGGGCCGCATCCGGTGCTGCTTAACATCCATGGCGGGCCGTTCGCCCAGTATACGGTCGGGCTGTTCGACGAGGCCCAGGTCTATGCGGCTGCCGGGTATGCGGTGGTGATGTGCAACCCGCGGGGCTCCTCCGGCTACGGACAGGCACACGGCAGGGCCATCAAGGAGCGGATGGGCACCGTGGACATGCAGGATGTTTTGTCGTTTTTGGACGGGGTTTTGGAAAAATTCGCTGCACTGGACGCCGGCGCTTTGGGAATCATGGGCGGGTCCTATGGCGGCTACCTGACGGCGTGGACCATCAGCCAGGACCACCGGTTCACAGCTGCGATCGTGGAGCGGGGCTTCCTCGATCCCGTCAGCTTTACCGGCTCTTCGGATATTGGCTGGTTCTTCGGCGGCGAATATACCGGGACCGTCCCGGAGCAGGTCGCAGCCCAAAGCCCTATGGCCACGATCGGACAGGTGCGCACGCCCACCCTGGTCATCCACAGCGAGGATGACCTCCGCTGCCCCGTGGAGCAGGGCCAGCGGTATTTCACGGCGTTGAAGCAACAGGGCGTTGAGTCCGCGTTCCTGGTGTTCCCCGGCGAGGACCACGAATTGTCCAGGTCCGGCACGCCGCATCACCGCCGCCAGCGTTTCGAGCACATCCTCGCCTGGTGGGCACGCCACCTTCCCACAGCATCGAACCGCACCGAGGATGACCAGGACAGGCTTGCCCGCACACGGGATGATCAGGCAGCGGGCTAG	MKPEHLPLLKSVSAPAVHPDGTRAVVSVIRPDFDADAYVGQLWTVPQDPERPARRVTRGFRDTTPAFSPDGRVLAFLRSDPDGKPQLHVVEAAGGEPQVLTDRPLGVSSFAWSPDSQRIVFGSREPEDGRYGTVDGVGPAGESGRFITSFKYRMNGVGYTQDKPQQLFLLQVPDLGGEPPVPRAGRALKPKKARDGGERKDKGGRAEAQPQTAGEPAVAVELPEVKQLTFAPTDHTGESFSADGQCVYFVASLHATEDEDLVSGIYRVRVGGWEPEQVPVSAGDPQSIHEVRESQDGKWLFFTAQDLGASGRDFVAKNTVLHVMPAGGGAARALSDAGEMDVTAPGTHIGLRGRDAALVLNDAQGTVELLEFSATGDHALLVHGDRVVTGAAAAGDSLFISFTDASTAGDVACLDQGQLRLLTDFSAELRTEAGIIEPQELVFPSADGHEVHGWVVMPPGPGPHPVLLNIHGGPFAQYTVGLFDEAQVYAAAGYAVVMCNPRGSSGYGQAHGRAIKERMGTVDMQDVLSFLDGVLEKFAALDAGALGIMGGSYGGYLTAWTISQDHRFTAAIVERGFLDPVSFTGSSDIGWFFGGEYTGTVPEQVAAQSPMATIGQVRTPTLVIHSEDDLRCPVEQGQRYFTALKQQGVESAFLVFPGEDHELSRSGTPHHRRQRFEHILAWWARHLPTASNRTEDDQDRLARTRDDQAAG				NA	NA	NA	NA	NA
D1-17_01900	885	rlmAII		23S rRNA (guanine(748)-N(1))-methyltransferase	ATGCCTCCCCGCCTGCCGCCCCTGCTTTGTCCGGTCTGCCGGAAGCCGCTCTCGCCCCTGCCTGCAGAAAACACTGCCCCACCACGCATCCGGGCCCTCGCATGCGCCGGCGGCCACAGTTTCGACGCCGCGAGGCAGGGCTACTTTAACCTGCTCGTCGGCAAGGGAACATCGTTTGAGGCAGATACCGCTGACATGGTCGCGGCCCGTACAGCCTTTCTCGACGCCGGGCATTACCGGCCGCTTGCCGATGCGGTTGCCGGCGCCGCCAAACCGGCTCTGCAGGGTCCGCATCCGGCGCTGCTCGACTCCGGTACCGGAACGGGGCACTACCTGCGTGCCATTCTCGATCTTCCCTTCAGCGAGGTTCCGGCCGCCGTCGGGCTGGACATCTCGAAGTTCGCGCTGCGGCGCGCCGCACGGCTCAACCCTGAAGCGGTAAACATGGTGTGCGATATCTGGCAGCCACTGCCGGTGGCTGACGCTTCAATCGACGTCGTGACGGTGGTGTTCGCACCCCGGAACGCCGCGGAGTTTTCCCGGGTCCTGCGGCCGGGGGGCCGGCTGGTGGTTGTAACACCGCGTCCGGGGCATCTTCAGGACATCGCGGGCCAGACCGGCATGCTCGGAATCGAGCCGGCGAAAGAGGAACGGCTGGCTGAGTCACTGGCCGGGTATTTCGAGCTGCTGGGAGCGGAGGACCTCGACCTTGATCTGGAGCTATCGCCCGAGGATGTAGCCAACGCGGCCATGATGGGACCCGCGGGCCACCACATCGACCGTGCCACATTGAACGGGCGTCTGGCCGGCTTCCCCGCCCCGACGCCTGTCTCCGCCAGGTTCAAAATCAGCGTCTTCTCCCCCGCCCGGCAACTGCCTATGTGA	MPPRLPPLLCPVCRKPLSPLPAENTAPPRIRALACAGGHSFDAARQGYFNLLVGKGTSFEADTADMVAARTAFLDAGHYRPLADAVAGAAKPALQGPHPALLDSGTGTGHYLRAILDLPFSEVPAAVGLDISKFALRRAARLNPEAVNMVCDIWQPLPVADASIDVVTVVFAPRNAAEFSRVLRPGGRLVVVTPRPGHLQDIAGQTGMLGIEPAKEERLAESLAGYFELLGAEDLDLDLELSPEDVANAAMMGPAGHHIDRATLNGRLAGFPAPTPVSARFKISVFSPARQLPM	PGPT0027925_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027925-rlmA2-K14336	NA	NA
D1-17_01901	462			hypothetical protein	ATGTTTGAATGGTTGGGCCAAAACTGGTGGGCGTTGTGGCTCACGGCCTTCCTCGCGTTCGCCGCCGTGGAGATGCTGACCCTTGATCTTTTCTTCATCATGCTCGGTGGCGGTGCCCTCGCCGCGCTCGTAGCCGATTTCGCCGGTGCCGACCTGTGGCTCCAAATCGTCGTCTTCTGCGTTGTGTCGCTGTTGATGATCGCCTTTGTCCGACCCGTCACACTGAAACACCTGCATAAGGGACCCGGTGAACGGCGCACGAACATCGACAGGCTGATCGGCGAAACCGCGGTGGTCATGGAGCCGGTGTCCTCGTCCGGCGGGCGTGTGAAGATCGGCGGAGATATCTGGAGTGCCCGGTCCAATTCCGGCACCCTCACGGAAGGCCAGCGGGTAGTCGTGGCTGCTATTGAAGGCGCGACGGCGGTTGTGGCACCTCAGTCGGAATCAGCCGTCCAGTAG	MFEWLGQNWWALWLTAFLAFAAVEMLTLDLFFIMLGGGALAALVADFAGADLWLQIVVFCVVSLLMIAFVRPVTLKHLHKGPGERRTNIDRLIGETAVVMEPVSSSGGRVKIGGDIWSARSNSGTLTEGQRVVVAAIEGATAVVAPQSESAVQ				NA	NA	NA	NA	NA
D1-17_01902	951		COG0330	putative protein	ATGGAGAGTCCAGGAGGCGCCGCCCTCACTATTGTGATGCTGGTCCTGATCGTCTTTGTGGTCATAGTGCTGGTTCGTGCAGTGCGGATCGTGCCCCAGGCCCGGGCGGGCGTGGTCGAACGCCTCGGCAAGTATCAGCGGACTCTAAACCCGGGACTGACCCTCCTGATACCGTTCGTGGACCGCCTTCTGCCGCTGCTGGACCTCCGCGAGCAGGTAGTTTCGTTTCCGCCGCAGCCCGTGATAACCGAAGACAACCTGGTGGTCTCCATCGACACCGTCGTCTACTTCCAGGTAACCGACGCCCGCGCTGCGACCTATGAGATCGCAAACTACATCCAGGCCGTGGAACAGCTCACCACCACCACATTGCGCAACGTGGTTGGCGGACTGAACCTGGAAGAGGCACTGACCTCCCGGGACCAGATCAATGGCCAGCTCCGCGGTGTGCTGGACGAGGCAACGGGGCGCTGGGGGATTCGAGTCTCCCGGGTTGAGCTGAAGGCCATCGAACCCCCGCACTCCATCCAGGATTCGATGGAAAAGCAGATGCGGGCAGAGCGTGACCGCCGGGCCGCCATCCTCACCGCTGAGGGCACGAAGCAATCCGCCATCCTGACTGCCGAAGGCCAGCGGCAGGCAGCCATTCTGAAGGCAGAGGGTGATGCCAAGGCAGCGATTCTCCGCGCCGATGGTGAGTCACAGGCCATTCAAAAGGTGTTTGATGCCATCCACAAGGGCAACCCGGACCAGAAACTCCTGGCCTACCAGTACCTCCAGACCCTCCCCAAGCTGGCCGAGGGTTCCTCGAACAAGCTGTGGATCATTCCCAGCGAAGTCGGCGAAGCCCTAAAGGGAATAGGCAACGCCCTGGGCGGAACGGTTATGGACCCCCGGTCCGGGGACCTGTTCGGCCCGTCGGAGGACACCGGCAAACAGCCCGAGTCCTAG	MESPGGAALTIVMLVLIVFVVIVLVRAVRIVPQARAGVVERLGKYQRTLNPGLTLLIPFVDRLLPLLDLREQVVSFPPQPVITEDNLVVSIDTVVYFQVTDARAATYEIANYIQAVEQLTTTTLRNVVGGLNLEEALTSRDQINGQLRGVLDEATGRWGIRVSRVELKAIEPPHSIQDSMEKQMRAERDRRAAILTAEGTKQSAILTAEGQRQAAILKAEGDAKAAILRADGESQAIQKVFDAIHKGNPDQKLLAYQYLQTLPKLAEGSSNKLWIIPSEVGEALKGIGNALGGTVMDPRSGDLFGPSEDTGKQPES				NA	NA	NA	NA	NA
D1-17_01903	348	rbpA		RNA polymerase-binding protein RbpA	ATGAGCGATCGCAGCCTGCGGGGCATGCGTCTTGGCGCCCAAAGCATGGAGACCGAGTCCGGTGTGGAGCCGGCTCCGCGCCAGCGGGTTGAATACCGGTGTGAGGACGGCGAACAGGTTTTTGTCACGTTTTCCTCCGAGGCCGAAATTCCCCCTGTCTGGGTCTCCAAGACCGGCAAGGAAGCGCTGCTCGTTGATGGCGAACGCCCGGACACCAGCAATGAAAAGGCTGTCCGCACACACTGGGACATGCTGCTGGAACGCCGTACGCTCCCCGAGCTCGAGCAGATCCTCGAAGACCGCCTGACCATCCTGCGTGAACGCCGCGGCGAAAGGCGCTCGGCCTAG	MSDRSLRGMRLGAQSMETESGVEPAPRQRVEYRCEDGEQVFVTFSSEAEIPPVWVSKTGKEALLVDGERPDTSNEKAVRTHWDMLLERRTLPELEQILEDRLTILRERRGERRSA				NA	NA	NA	NA	NA
D1-17_01904	747			Undecaprenyl-phosphate mannosyltransferase	GTGCGTGTCCTCACCATCATTCCCACCTACAACGAGCTGGAGTCGCTGCCCATAACCTTGGGTCGCCTGCGCGCTGCAGTGCCGGCGTCGGATGTCCTCGTTGTGGATGACAACAGCCCGGACGGGACCGGACAGCTCGCCGACAGCATTGCCGCCAAAGACAGCCAAGTCCATGTCCTGCACCGCAAGGGCAAGGAAGGGCTCGGCGCCGCCTACATTGCCGGTTTCAAGTGGGGTCTCGAAGCCGGGTACGACGTTCTGGTTGAAATGGACGCGGACGGATCCCATCAGCCGGAACAGCTTCCCCAGCTGCTCGACGCCGTAGAAAAGGGCGCCGATTTGGCCATGGGTTCGCGCTGGGTTCCCGGCGGCAGCGTCGTCAACTGGCCGCTCTACCGGCAGGCGATTTCCCGTATCGGCAGCACCTACGCCCGCCTCATGCTGGGCGTCAGGATCCAGGACGTGACCGGAGGCTACCGTGCCTTCCGCCGCACCACGCTCGAGAAACTGAACCTGGACCAGGTGGAGTCCGTGGGTTACGGGTTCCAAGTGGATCTGGCCTGGCGGGTGGCCAAGCTCGGCCTGAGAATCGTTGAGTGCCCCATTACGTTCGTTGAGCGTGAATTGGGCGCTTCGAAAATGAGCGGGCACATCGTTGTCGAGGCCATGATTAACGTGACCAGGTGGGGACTGGCTGCCCGCTGGAACAAGCTGAAGGCCCGCAGACCTGTAACTGCCAGAAGCTAA	MRVLTIIPTYNELESLPITLGRLRAAVPASDVLVVDDNSPDGTGQLADSIAAKDSQVHVLHRKGKEGLGAAYIAGFKWGLEAGYDVLVEMDADGSHQPEQLPQLLDAVEKGADLAMGSRWVPGGSVVNWPLYRQAISRIGSTYARLMLGVRIQDVTGGYRAFRRTTLEKLNLDQVESVGYGFQVDLAWRVAKLGLRIVECPITFVERELGASKMSGHIVVEAMINVTRWGLAARWNKLKARRPVTARS	PGPT0017834_2230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017834-DPM1_like|arnC|ppm1|wcaA-K00721	NA	NA
D1-17_01905	1683	hutI_1		Imidazolonepropionase	ATGACCGATGCACCCTTCAGCGCAGAACCCGGCCCGCGCCGCGCCGTGACGTTGTACCGCAATGGTTCCGTTTACACCGCCGCCGATCCTTTCGCCACCGCTATGGTGGTGGACGGCGACACCGTGGCGTGGGTCGGATCAGAACAGGCAGCCACGTCGATTGCCGACAGTTCCATGGAGGTCATTGACCTCCGCGGAGCCCTGGTGACGCCCGGGTTTGTTGATTCCCACATCCATTTGACGGAGACAGGGATTGCGCTGGAGTCCCTCGAGCTCGGAAGCGTCCGCTCCGCCGGGGAGCTTCTCGATGCTGTGGCGGCGGCAGCGGCCGGCGGCTCCGGGCCCCTTCTCGGTCACGGCTGGGACGAATCCCTGTGGATGGATCCAACGCTCCCGGGGCAGGCCGAGCTGGAGCGGGCCGCGGGCGGCCGGCCGGTTTACCTCTCCCGCGTGGACGTGCACTCCGCCCTCATTTCGCCGTCGCTCGCCGCGTCGGCCCGGGCTGATGAATTAGACGGGTACTCCGCTGACGGGCTGGTCAAGCGCCAGGCGCACGCGGCGGCGAGACTGGCTGCGCGGGACCTCCCTGAAGACGCACTCCAGGCCTATCAGAAACGGGCTTTGGACGAAGCTGCAGCCAACGGCTACGTGGCACTTGCCGAAATGGGCGCGCCCCACATCGGCAGCATTCTCGACCTGCAGCTTGCGGCGGGATGGAACGCCATCGGCGGGACGGCGGCTGGAGACACAGCGGAGGCGCGGCCCGAGATCCTGCCGTACTGGGGACAGCTGGTTGCGTCGGCCGCAGCGGCGGAGTCGATGCTCGCGGAACTCGGCGTACCGGTGCGCGGGCTGGCCGGCGACCTGAACATCGACGGTTCGATCGGTTCACGCACAGCAGCCCTCCGGGCGCCGTATGCCGATGCACCGAGGGAGCGGGGCGAGACATACCTTTCCACCGGCGAGGCTGCCGCGCACCTGGCTGCCTGCTCGGTCCTGGGAATCCAGGGCGGCTTCCACATCATCGGTGATGCCGGACTGGATGCCGCGCTCGACGCGCTCGACCTGGCGGCCGCGGAGGTCGGGGAGCAACGCATACGTGCCTCAGGGCACCGCTTTGAGCATGTCGAAATGGCTGATGCCCAAGCCCTTGAGAGGCTTGCCAAGTATTCCATAACCGTAAGCGTGCAGCCCGGTTTTGATGCTGCCTGGGGAGGGCCGGGCCGGCTGTACGAGAAGCGGCTGGGCAGCAGAGCTGCTGACATGAATCCCTTTGCCTCCTTTTACTCAGCCGGTGTTCCCATCTGCTTCGGCAGCGACAGCCCGGTGACGCCGCTGCGTCCCTGGGCAGCTGTGCGGGCATGCCTGCAGCACAGCAACCCGTCCCAGCGAATATCCGCCCGGGCTGCCTTCCTTGGGCATACCCGTGCCGGCTGGCGCGCGGCCCGGCAGGCCAACCCCATGGCCGGGCAACTCGTTCCGGGCGCGCCGGCGACCTTTGCCGTGTGGGACGTCGAGGAGCTCATGGTCCAGGTTGCCGACGGAAGAGTCCAGTCGTGGAGCACAGATCCACGTGCACGCACACCGCTGCTCCCGGCCCTGGACACCGGATCTGATCCACGGTGCCTGCAGACTGTACGGGACGGACTCGAACTGTACACCGCCGACGCCCTGCGCTCCTGA	MTDAPFSAEPGPRRAVTLYRNGSVYTAADPFATAMVVDGDTVAWVGSEQAATSIADSSMEVIDLRGALVTPGFVDSHIHLTETGIALESLELGSVRSAGELLDAVAAAAAGGSGPLLGHGWDESLWMDPTLPGQAELERAAGGRPVYLSRVDVHSALISPSLAASARADELDGYSADGLVKRQAHAAARLAARDLPEDALQAYQKRALDEAAANGYVALAEMGAPHIGSILDLQLAAGWNAIGGTAAGDTAEARPEILPYWGQLVASAAAAESMLAELGVPVRGLAGDLNIDGSIGSRTAALRAPYADAPRERGETYLSTGEAAAHLAACSVLGIQGGFHIIGDAGLDAALDALDLAAAEVGEQRIRASGHRFEHVEMADAQALERLAKYSITVSVQPGFDAAWGGPGRLYEKRLGSRAADMNPFASFYSAGVPICFGSDSPVTPLRPWAAVRACLQHSNPSQRISARAAFLGHTRAGWRAARQANPMAGQLVPGAPATFAVWDVEELMVQVADGRVQSWSTDPRARTPLLPALDTGSDPRCLQTVRDGLELYTADALRS				NA	NA	NA	NA	NA
D1-17_01906	2901	helY	COG4581	putative helicase HelY	ATGTCCATATCACCGGATTCACTGTCGCCAGCCGAACGCTACAGGGCCAGCGCTGAGCGGATGGCGGAATCCAAAACCCACCTCGGATCATTCGCCCGCACCCTGGACTTCGAACTGGACGACTTCCAGCGACAGGCGTGCCGTTCCCTACAGGAGGGCAGGGGAGTCCTCGTGGCCGCGCCCACCGGTGCAGGCAAGACCATCGTGGGTGAATTTGCGGTCTACCTGGCGCTGCAACGGGGGCTGAAAGCCTTCTACACCACGCCCATCAAAGCCCTGAGCAACCAGAAATACACGGAACTGGCCGAGAAATACGGCCAGGACAACGTCGGGTTGCTGACAGGTGACACCAGCATCAACGGCGACGCTCCTGTTGTGGTGATGACCACCGAAGTCCTGCGAAACATGCTGTACGCCGACTCCGCCACCCTCGACGATCTTGGCTTCGTGGTCATGGATGAGGTCCACTACCTTGCTGACCGCTTCCGGGGTGCTGTATGGGAGGAAGTCATCATCCACCTCCCCAGCGAGGTCCAGGTGGCTTCACTGAGCGCAACGGTATCCAATGCTGAAGAATTCGGTGCGTGGCTGGACACCGTCCGGGGCGACACGGACGTCATCGTTTCCGAGCATCGCCCTGTGCCTCTCTGGCAGCACGTGATGGTCGGCAGGGAGATAATCGACCTGTTCGCCGGAGAGACCACCTTCGACGAGATTGCTCCGGTGGGTAACCCCGGAGTGGTCTCCGCTGTGCCCGCGGCGCCTTCCCCGGACGATGCTGGCCGCCGCGGCTTTGAAGTTAACCCGGAGCTGCTGACGCTCTCCAGGGCCGAAAGCCAGCTGAACTTCCAGGGCCGCTTCGGCCATGGCGGACGCAGCCAGCGGCGCCAGCAGCGTCAACGCAACGAGGACAGGTCCCAGCAGGACCCCAGGGGCACTGTGCGCAGGGCTGGCAGGCCCCAGGTCATCGCCAGCCTGGAACGGCAGGATCTCTTGCCGGCGATCACCTTCATTTTTTCCCGCGCAGGCTGCGACGCTGCCGTTTCCCAGTGCGTGGCCGCCGGCTTGTGGCTCACCACGGAGAAGGAACAGCGGATTATTGCCCAGCGCGTCGATGAAGCCGGCCAGGACATTCCCACGGACGACTTGGAAGTGCTCGGCTTCTGGAACTGGCGCGAGGGCCTGCTCAGGGGCCTTGCCGCCCACCATGCGGGAATGCTGCCGACATTCAAGGAGGTCGTGGAGAAGCTCTTCGCCGACGGCCTCGTGAAAGCCGTCTTCGCCACGGAAACCCTGGCGCTCGGCGTGAACATGCCTGCCCGCTCGGTGGTTCTTGAAAAGCTGGACAAGTTCAACGGCGAGGCACACGTGGACATCACGGCCGGCGAATACACCCAGCTGACCGGACGGGCAGGGCGGCGGGGCATCGACGTCGAAGGTCACGCTGTGGTCCTCTGGCAGCCAGGTACCGACCCGGCGGCGGTCGCCGGTCTCGCGTCGCGGCGGACCTATCCGCTGAACTCCAGCTTCCGGCCCACGTACAACATGAGCATCAACCTCCTGGCCCAGTTCGGCCGCTCCCGGGCCAGGGAGATCCTCGAGTCCTCGTTCGCCCAGTTCCAGGCCGACCGGTCCGTGGTTGGCCTGGCCAAGCAGGTGCGGAGCCGCGAGGAATCGCTGGCCGGGTACGCCAAGTCCATGACATGCCATCTGGGCGACTTCACCGAGTACGCCCGGCTGCGGCGTGAGCTCTCCGACGCCGAGAACTTCGCCTCACGCGGCAAATCACGGGCCCGGAGAGCCCTTAACGAGGATTCGCTGAGCAGGCTTTTGCCCGGTGACGTTGTGGATGTCCCCGCTGGCCGTGCTCCCGGGTATGCGGTCGTGCTGAGCTCTGACCACACCTCGCGTGAGCCCCGGCCTGCCGTGCTCACCCTGGAAAGCCAGCTGCGGCGGATCGGAGTCGACGATCTTGAAGGTCCTATCGTCCCGCTGACCAGGATCCGGATTCCGAAGTCCTTCAACGCGAAGGTTCCCAAGTCACGCCGCGACCTTGCATCGTCCGTCCGCAACGCACTCCGGGAGAACAGGCCGCCGGCCCGGGGCAGCAGCCGGAACACGGACTTCGGACTCGGCTCGGCAGCTCAGAACCAGGAAAAGAAGATCACCGGACTCCGGCAGGCCCTGCGGGCGCACCCCTGCCACGGCTGCAGCGAACGCGAGGAACACGCCCGATGGTCCGAGCGCTGGTGGAAACTGCGGAAGGAAACGGACGGCCTGGTCCGCCAGATCCAGGGCAGGACCAACACGATCGCCAAGACGTTTGACCGCGTCTGCGACGTCCTGTCCGCTTACGGCTACCTTGAATCGCCTGAACCGGGCACGCACACCATCAGCCCGGACGGCCAGCGGCTGCGCCGCATCTATGGCGAGAAGGACCTGCTGATTTCGCAGTCACTGCGGCAGGGTGCCTTTGATGACCTCGATGCCGTGGAAGTGGCCGCCCTTGCCAGTGTGCTGGTGTACCAGGCCAAGCGTGAGGACCGCGGCCTGCGTCCGCGCATGCCAAGCGTCTCCCTGGAGACAGCGGTGGACATTGTGGTCCGTGAATGGTCTGCGCTGGAGGATGTGGAGGAGCAAAACAAGCTGCCCCTGACCGGTGAGCCGGAGCTTGGACTGGTCTGGCCTATCTACAAATGGGCCCGCGGCAGGCACCTCCAGGACGTGCTCAACGGCACTGACCTCGCCGCCGGCGACTTCGTGCGCTGGGTCAAGCAGGTGATTGACCTGCTCGACCAGCTGGCCGCGATTCCGGGCCTTGAGCCCCGCCTGGCGAGGCTGTGCAGCGACGCCATCAAGATGATCAGGCGGGGAGTGGTGGCCTACTCCACGGTCGCCTGA	MSISPDSLSPAERYRASAERMAESKTHLGSFARTLDFELDDFQRQACRSLQEGRGVLVAAPTGAGKTIVGEFAVYLALQRGLKAFYTTPIKALSNQKYTELAEKYGQDNVGLLTGDTSINGDAPVVVMTTEVLRNMLYADSATLDDLGFVVMDEVHYLADRFRGAVWEEVIIHLPSEVQVASLSATVSNAEEFGAWLDTVRGDTDVIVSEHRPVPLWQHVMVGREIIDLFAGETTFDEIAPVGNPGVVSAVPAAPSPDDAGRRGFEVNPELLTLSRAESQLNFQGRFGHGGRSQRRQQRQRNEDRSQQDPRGTVRRAGRPQVIASLERQDLLPAITFIFSRAGCDAAVSQCVAAGLWLTTEKEQRIIAQRVDEAGQDIPTDDLEVLGFWNWREGLLRGLAAHHAGMLPTFKEVVEKLFADGLVKAVFATETLALGVNMPARSVVLEKLDKFNGEAHVDITAGEYTQLTGRAGRRGIDVEGHAVVLWQPGTDPAAVAGLASRRTYPLNSSFRPTYNMSINLLAQFGRSRAREILESSFAQFQADRSVVGLAKQVRSREESLAGYAKSMTCHLGDFTEYARLRRELSDAENFASRGKSRARRALNEDSLSRLLPGDVVDVPAGRAPGYAVVLSSDHTSREPRPAVLTLESQLRRIGVDDLEGPIVPLTRIRIPKSFNAKVPKSRRDLASSVRNALRENRPPARGSSRNTDFGLGSAAQNQEKKITGLRQALRAHPCHGCSEREEHARWSERWWKLRKETDGLVRQIQGRTNTIAKTFDRVCDVLSAYGYLESPEPGTHTISPDGQRLRRIYGEKDLLISQSLRQGAFDDLDAVEVAALASVLVYQAKREDRGLRPRMPSVSLETAVDIVVREWSALEDVEEQNKLPLTGEPELGLVWPIYKWARGRHLQDVLNGTDLAAGDFVRWVKQVIDLLDQLAAIPGLEPRLARLCSDAIKMIRRGVVAYSTVA				NA	NA	NA	NA	NA
D1-17_01907	795	tatC	COG0805	Sec-independent protein translocase protein TatC	ATGGCTCTGCTTGACCATCTGAAAGAGCTCAGAAACCGGCTGTTCAAATCCGCCATCGCGGTGGTCCTTGCCACTGTTGCGGGATTCATGGTCTATCAGCCCATGCTCGCGGCCCTGATTAAGCCGATCCGCGACCTCAACGAGAATGAGGGCCGTCAGGCGAGCCTGAACTTTGATGGCGTGGCAAGCTCGTTCGACCTGATGATCCAGGTCTCCGTCTTCCTTGGCCTGATCATTGCCAGCCCCGTATGGCTCTACCAGTTATGGGCCTTCATCGTGCCCGGCCTCCACAAGAAGGAGCGGCGGCTGGCGTTGTCGTTTGTAGCCGCGGCCGTTCCTCTGTTCGTCGGCGGTGTCACCCTCGCGTGGCTGGTGCTGCCGAACGCTGTCCGCGTTCTGACCGACTTCACGCCCTCCGGCGGGTCCAACTTCATCAGCGCCCAGGTCTATCTGTCGTTCGTGCTGCGGCTGCTACTGGCCTTTGGCATCGCATTCCTGCTGCCCGTGGTCCTTTTTGGGTTGAACCTTGCGGGGATCCTCCGCGGCGAACAGCTCGTCAAGAGCTGGCGCATCACCGTCTTCCTCGTATGCCTGTTCGCTGCAATGGCAGCTCCCGGAGCGGACGCCATGAGCATGTTCTATCTCGCCGGTCCCATGCTGGCGCTGTTCTTCGCCGCGATCGGGCTCTGCGTGCTCAATGATCGCCGGCGCGACCGCAGGGCCGCGAAGCAGGCGGCTGAGACAGAAGCCACCGCCGATATCGGAACTCCGGGCAGCCAGCTAAAGAATCTCTAG	MALLDHLKELRNRLFKSAIAVVLATVAGFMVYQPMLAALIKPIRDLNENEGRQASLNFDGVASSFDLMIQVSVFLGLIIASPVWLYQLWAFIVPGLHKKERRLALSFVAAAVPLFVGGVTLAWLVLPNAVRVLTDFTPSGGSNFISAQVYLSFVLRLLLAFGIAFLLPVVLFGLNLAGILRGEQLVKSWRITVFLVCLFAAMAAPGADAMSMFYLAGPMLALFFAAIGLCVLNDRRRDRRAAKQAAETEATADIGTPGSQLKNL	PGPT0029295_1540	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0029295-tatC-K03118	NA	NA
D1-17_01908	273	tatA		Sec-independent protein translocase protein TatA	ATGAGGCTTGAAGGCTGGCATCTCATCATCATCATCGTTCTGGCTTTGGTGCTTTTCGCTGCACCCAAGCTACCCGGCATGGCCCGCAGCCTGGGGCAGTCGATGCGGATCTTTAAGTCGGAAGTCCGCGAAATGAAGAAGGACGACACTGCCGCCAACGCCCAGGAGGGTACGGGACCGGTCGAGGGCCGGGTCGTAAACCACCCGCGTTCCACCACGCCGGACAGCAATCCGTCGGACGGTAACGAAACCCAGCCGCCTAACCGCGCTTAA	MRLEGWHLIIIIVLALVLFAAPKLPGMARSLGQSMRIFKSEVREMKKDDTAANAQEGTGPVEGRVVNHPRSTTPDSNPSDGNETQPPNRA	PGPT0029290_1521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PATHWAY	CE-TAT-TWIN-ARGININE_TRANSLOCATION_PROTEINS,PGPT0029290-tatA-K03116	NA	NA
D1-17_01909	381			hypothetical protein	ATGCCTTGGTGGTCATGGTTCCTGATCTGGATTGCGCTGATAGCGCTTTCGCTGCTCTTCTATCTGTTGCTCGGAATCCGGTTGTTCCGGAAATTCATGGTGACCGTGCGTGAACTGAGCGCTGCCGGAGAGAAGCTGGGCCATCTGCCGGAGGCCGGCCCCGTTCCCGGTGCTCCCGGCAGCCCGGACGACCCCGGCGATGACACCCCTGGGATGCCGCACCTGGTGCCGGGACCGGCAGTTTTTGCCTCACCGCGCCGGGTGCGCCATGCTTACCATGCATCCAAAGCTTTCCGGGTGGAGGCCCGGCGGCAGCGCCGTATCCGGCGCAAGGCCGAACGCGGCCAGCCCCAGAGGCTGCGCGACATCGAATTGGGATAA	MPWWSWFLIWIALIALSLLFYLLLGIRLFRKFMVTVRELSAAGEKLGHLPEAGPVPGAPGSPDDPGDDTPGMPHLVPGPAVFASPRRVRHAYHASKAFRVEARRQRRIRRKAERGQPQRLRDIELG				NA	NA	NA	NA	NA
D1-17_01910	2016			hypothetical protein	GTGTCCGCACAACGTACAGAACGCCTGCTTAACCTCCTGATCGCCCTGCTGAACTCCAAGTACGGGCTGCGCCGCAGTGAGCTTCGGGAAAAAATTTATGATGCTGCTGCCAGCGACGCCGCCTTCAGCCGGATGTTCGAGCGGGACAAGAACGACCTGCGGGACTTCGGCTTTGACGTGGAGACCGTCACGGATCTCGGCTGGAGTTCCGACGACCCGGCCACCACCCGCTACCGAATCGGTAAGGAATCGAACCGCCTTCCGGACGTGGAGCTGACCCGTGACGAGTGGACGGTGCTGCTCCTGGCCTCCCAGCTGTGGGAGCAGGCCGCACTCGGTCCTGCCGCCACCAACGCGATGCGCAAGCTGCAGGCATCCGGCAGCCTTGCCGATGTGGAACTTCCCGCCGGGCTGCAGCCCCGGATCAAGCCCGCGGGTCAGGCGTTCGAGGACCTGGTGGCGGCCATGTACAGCCAGCATGCCGTTCGATTCAGGTATCTGGCGAGCAGCACCGGCAGGGAAGAGGAGCGCACCGTAGAACCTTGGGGGCTGGGCAGCCGGTTCGGCCAGTGGTACCTGGTGGGCTTTGACCGGGGCCGGGGCGCTCAGCGGTTCTTCCGGCTCTCGCGCTTTGCATCAACAGTTTCAGTACTCGCGAAGGAGACTTTCACGGCCCCTGCAGGCTTCAACGTCCGGACCGAACTTGGTGGCCTTCCGGAACTCCCGCTCCAGTCCGCCGTCGTGGACGTCCGGAAGGACCGCCTGCTGGGGCTGCGGAAGCGGGCCACGCCGGTTATTGAAACCCGCGACGGCGGAACGTCCGGCAGGGGAGCTCCCGGTGGCGGAGCACCGGACATCGGCTGGGACCGGTTGTCTGTTCCGTACCGGGATGCTGAGCTGCTTGGCGAAGAACTCTCCTCCTACGGCCCGAACGCCAGGGTCGTCTCCCCCCAGGACCTCGCCGCCGCAGTGCAGCGCCGGCTGGCGGCCGCCGCGGCATTTCTCGCCGAGGCTGCGCCCTCCTATGTGTTCCCGGCCGGCGGCGCCGGCAAGCCGATCCGCAAACGGACCTCGGAAGACCAGCTGAAGCGCATGCTCCAGCTGGTGCCGTTCCTGGTGCACAACCAGGGACTGCATATCCAGGACGTGGCAGACAGGTTCGGAATCACGCGCCGCGAGCTCGAAGCCGACCTGCTGATTCTGATCTGTTCCGGTCTGCCGCAGGGCTACCCTGATGAGCTGCTGGACATCCAGTGGGAGGATGACCACGTCTTCATCACCCAGTCGCTAGAGCTCAACAAGCCCGTGCGGTTTACGGTGGACGAGGCTTGCGCCCTGCTGACGGGCCTGGAGACGCTCCACGGCCTGCCGGGGTTGGCCGAAGGAAGCGCTCTGGAGTCCGTCACCCTCAAGCTCATGGCGGCCGCCGGCGAGGAAGGGCTCCGGGCGGCCTCCCTGTCCGGTCCCGAGGTGAGTCCCGCCGATACGGCCAGCCTGGAAACGATCCGCGGTGCCATCGAAGCCGGAGAACAGCTCCGCCTCGTCTACTTCTCCGCGCAGAAGGATTCCCTGTCGGAACGCGACGTGGACCCCCTGCGGCTCTACTCCATGGACAACACGTGGTACTTCGAGGCTTACTGCCACTCGGCGGCCGGTGTGCGAAACTTCAGACTTGACCGTATTGAGGACCTTCAGCCGACGGGTAAGCCTGCGTCACCGCCGGTACTTCCCGAAGGCGGGGTTCCAGTCAAGCTGTTCACCCCCAACGACGACGACACCCTGGTGACCGTACAGCTCACCGCGCGCGGAGCCGGCCTGGCAGACGACTACTATGCCGAACGGACTGCTGCCCTGCCCGACGGCGGTCTGGTGGCGGAAATCCGGTTCGGCACCACCTCCTGGCTGCCGATGTTCGTGGCCCAGCACGGCGGGGCTGTGCGTATTTTGGCGCCTGAGCTGCTGGCCGATGCCTCGCGGGAGTGGATTGACGCAGCCCTGGCCCAGTACGCCCGATAG	MSAQRTERLLNLLIALLNSKYGLRRSELREKIYDAAASDAAFSRMFERDKNDLRDFGFDVETVTDLGWSSDDPATTRYRIGKESNRLPDVELTRDEWTVLLLASQLWEQAALGPAATNAMRKLQASGSLADVELPAGLQPRIKPAGQAFEDLVAAMYSQHAVRFRYLASSTGREEERTVEPWGLGSRFGQWYLVGFDRGRGAQRFFRLSRFASTVSVLAKETFTAPAGFNVRTELGGLPELPLQSAVVDVRKDRLLGLRKRATPVIETRDGGTSGRGAPGGGAPDIGWDRLSVPYRDAELLGEELSSYGPNARVVSPQDLAAAVQRRLAAAAAFLAEAAPSYVFPAGGAGKPIRKRTSEDQLKRMLQLVPFLVHNQGLHIQDVADRFGITRRELEADLLILICSGLPQGYPDELLDIQWEDDHVFITQSLELNKPVRFTVDEACALLTGLETLHGLPGLAEGSALESVTLKLMAAAGEEGLRAASLSGPEVSPADTASLETIRGAIEAGEQLRLVYFSAQKDSLSERDVDPLRLYSMDNTWYFEAYCHSAAGVRNFRLDRIEDLQPTGKPASPPVLPEGGVPVKLFTPNDDDTLVTVQLTARGAGLADDYYAERTAALPDGGLVAEIRFGTTSWLPMFVAQHGGAVRILAPELLADASREWIDAALAQYAR				NA	NA	NA	NA	NA
D1-17_01911	396	fkbP		FK506-binding protein	ATGTCATTTGGCCAGCGCAACCTCGACCGCGAGAAGCCGGAAATCGACTTCCCGGAAGGTCCGGTCCCCACCGAACTCGTCATCACCGACCTCATCGAGGGCGATGGACCCGAGGCGAAGGCCGGAGACACTGTCTCCACGCACTACGTCGGTGTGGCCTGGTCCACCGGTGAAGAGTTTGACGCCTCGTGGGGCCGCGGCGCTCCGCTGGACTTCCGCGTGGGCGTCGGCCAGGTCATCCAGGGTTGGGACCAGGGTCTCCTCGGCATGAAGGTCGGGGGCCGCCGCCGCCTGGAAATCCCTTCCGAGCTCGCCTACGGCTCCCGCGGCGCCGGTGGAGCGATTGGGCCCAACGAGGCCCTGATCTTCGTCGTGGACCTCGTGGGCGTCCGCTAA	MSFGQRNLDREKPEIDFPEGPVPTELVITDLIEGDGPEAKAGDTVSTHYVGVAWSTGEEFDASWGRGAPLDFRVGVGQVIQGWDQGLLGMKVGGRRRLEIPSELAYGSRGAGGAIGPNEALIFVVDLVGVR	PGPT0015110_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015110-ppiA-K03767	NA	NA
D1-17_01912	927			hypothetical protein	GTGCGCCGACTACTTGCAATTCTCATTCCCGGACTGCTTCTGCTGACCGCTTGCGGGGGCGAGCCTGCAGCCCCGGAACCCACCAGCCAGTCCGCAGGTGAGACAGCAAAGCTGGACTCCCTGAAGCTGACTGAAAACGGAGACAAGAAGGCTCCAAAAGTCGAATTCACCAAGCCCCTTGAAGTGGCCGAACCCACCGTCAAGGTGGTGACCGAGGGCGGCGGGGACCGCGTCAAGGCCAATCAGGTCGCCGAAGTCTCCGTGCTGGCCCTAAACGGCAAAGACGGAGCCACCCTCGATGACAGCTTCCCCAAGGAACCGCAGCCCATCGAGCTGAACGACGAGCTCAAGACCCAGAGCCCCATCATCTACAACGCTTTTGTCGGCGCAAAGGTCGGTTCCCACCTGGCCCTGGCCGCACCGGGCAAGGCTGCCTCAGAGGGCGTTCAGGCCCAGCCTTCGCAGCTGCTCATCATCAAGGTCCTGTCCGCCAAGGACGCACCGAAGGTTCTGGACAAGCCTGAAGGTGACGCCGTCACCCCGCCCGCCGGCCTGCCGAAGGTCACGGAGAAGGACGGCGTGCCCGAACTGGACGTCAAGGGCGTCGCGGCACCCAAGAAGCTCATTTCCCAGGACCTGATCAAAGGCAAGGGCCCTGAGGTCAAGGCCACGGACACCCTGACGGTGAACTACGTGGGCGTTGCCCTGGCCAGCGGCAAGAAGTTCGACTCAAGCTTTGACCGCAAGGAGAAGGCATCCTTCCCCCTGAGTGGAGTGATCAAGGGCTGGACGCAGGGCCTAACCGGCAAGACCGTCGGTTCCCGCGTGCTGCTCGTCGTCCCCAAGGACCTCGCGTATGGCGATGCCGGCCAGGGAGAAGCCAAGGGCGATCTCGTGTTCGTCGTCGACATTCTCGGCGCCAAGTAA	MRRLLAILIPGLLLLTACGGEPAAPEPTSQSAGETAKLDSLKLTENGDKKAPKVEFTKPLEVAEPTVKVVTEGGGDRVKANQVAEVSVLALNGKDGATLDDSFPKEPQPIELNDELKTQSPIIYNAFVGAKVGSHLALAAPGKAASEGVQAQPSQLLIIKVLSAKDAPKVLDKPEGDAVTPPAGLPKVTEKDGVPELDVKGVAAPKKLISQDLIKGKGPEVKATDTLTVNYVGVALASGKKFDSSFDRKEKASFPLSGVIKGWTQGLTGKTVGSRVLLVVPKDLAYGDAGQGEAKGDLVFVVDILGAK				NA	NA	NA	NA	NA
D1-17_01913	1365	pafA		Pup--protein ligase	ATGGACAAGAGGATATTCGGCATAGAGACCGAATTCGGCATTTCGTATTCAAGCCCCGATTCACGCCCGCTGGCGCCCGAGGAAGTGGCCCGGTACCTCTTCCGCAAAGTGGTGAGCTGGGGCCGGTCGTCGAACGTCTTCCTGACCAACGGTTCGCGCCTGTACCTGGACGTAGGATCGCACCCGGAATACGCGACCGCGGAGTGCGACGACCTGGCACAGCTGATAGCCCATGACCGTGCCGGCGAACTTATCCTTGATGACCTCGTGGATGAGGCCCAGTCACGGCTGGCGGCGGAGGGCTTCAACGGCACGGTGTACCTGTTCAAGAACAACACTGATTCTGCAGGCAATTCCTACGGCAGCCACGAGAACTACCTGATTCCCCGCCGCGGTGAGTTCACCCGGCTTGCGGAAATCCTCATTCCCTTCCTGGTCACCCGGCAGCTGATTGCTGGCGCCGGAAAGATTCTGAAGACACCGCACGGCGCAACGTACGCATTCTCGCAGCGCGCAGACCACATCTGGGAGGGCGTCTCGTCGGCCACAACAAGGTCTCGGCCTATCATCAACACACGAGACGAGCCGCATGCTGATGCCGAGTTCTACCGCAGGCTCCATGTCATCGTCGGCGACTCGAATATGTCCGAGACGACCGCCCTGCTCAAGGTGGGTACGGTTGACCTGATCCTGCGGATGATCGAGGCCGGCGTGATCATGCGGGACATGCGGATGGAGAACCCGATCCGGAGCATCCGGGAGATCTCGCACGACCTGAGCGGCCGCGCCCTGGTCCGGCTGGCCAATGGACGGCAGCTGACCGCTCTGGAGATCCAGCAGGAATACCTGAACAAGGTCACGGCCTTCGTCCAGGAGAACGGAGCACACAACCCGCATGTCCCGCTGATCCTGGATCTGTGGGGGAGGACCCTGCGGGCCATCGAAAGCGGCGACACCAGCACCATCGACACCGAGGTCGACTGGGCGATCAAGAAGAAGCTGATGGACGGCTACCGGAACCGACACGGACTGGGACTGGACTCGCCGCGTATCGCCCAGCTGGACCTGACCTATCACGACATATCCCGCAGCCGCGGTCTGTACTACCTCCTCCAGTCACGCGGGGCAGTTCGCCGGGTAACCGACGAAACGGTCATCAAGGACGCAGTGGATGCTCCACCGCAAACCACAAGGGCGAAGCTGCGCGGTGACTTTGTGCGCCGGGCGCAGGAGCTTGGACGCGACTACACCGTGGACTGGGTGCACTTGAAGCTCAATGACCGGGCCCATCAGACCATCCTTTGCAAGGACCCGTTCCGCAGCGTCGATGAACGGGTGGATGCTCTTCTGGATTCTATGGGCTGA	MDKRIFGIETEFGISYSSPDSRPLAPEEVARYLFRKVVSWGRSSNVFLTNGSRLYLDVGSHPEYATAECDDLAQLIAHDRAGELILDDLVDEAQSRLAAEGFNGTVYLFKNNTDSAGNSYGSHENYLIPRRGEFTRLAEILIPFLVTRQLIAGAGKILKTPHGATYAFSQRADHIWEGVSSATTRSRPIINTRDEPHADAEFYRRLHVIVGDSNMSETTALLKVGTVDLILRMIEAGVIMRDMRMENPIRSIREISHDLSGRALVRLANGRQLTALEIQQEYLNKVTAFVQENGAHNPHVPLILDLWGRTLRAIESGDTSTIDTEVDWAIKKKLMDGYRNRHGLGLDSPRIAQLDLTYHDISRSRGLYYLLQSRGAVRRVTDETVIKDAVDAPPQTTRAKLRGDFVRRAQELGRDYTVDWVHLKLNDRAHQTILCKDPFRSVDERVDALLDSMG				NA	NA	NA	NA	NA
D1-17_01914	708	prcA	COG0638	Proteasome subunit alpha	ATGACCCAGCAGTTTTATGTTTCGCCCGAACAGCTGATGAAGGACCGTGCGGACTTCGCACGGAAAGGCATCGCCCGCGGCCGTTCCGTGGTGGTGATCAGCTGCGAGGACGGCATCGCCCTGGTAGCAGAGAACCCCTCTCCATCGCTGCACAAGATCGGCGAAATCTACGACAAGATAGCTTTCGCCGCCGTGGGAAAGTACAACGAGTTTGAAAGCCTCCGCCAAGCCGGCGTGCGCTACGCCGATGTCCGCGGGTACTCCTACGACCGTGAGGATGTCACCGCGCGCGGACTCGCGAGCGTCTACGCCCAGAGCCTCGGGGCCGTCTTCACTGCAGAACAGAAGCCCTTCGAAGTGGAACTGGCTGTCACCGAGGTGGGGCCGTCCCAGGACCGGGACCATCTCTACCGGCTCACGTTCGACGGTTCCATCGCCGACGAACACGGCTTCATCGTGATGGGCGGGCAGGCCGACAAAGTCTCCGGCGCCGTTGAAACCGGATGGCAGCGGGACCTTTCCTTTGCCGCCGCAATCCGCCTCGCCGTCAAGGGGCTCACGACGGATGATGAATCCCCGGATCTTCCCGCCAAAGCCCTTGAAGTTGCAGTGCTTGACCGGGGATCGGAAAGCAGCCGTGGGACCAGGCGCGCTTTCCGCAGGTTGTCCGACGCTGATGTCATGGACCTGCTGGCTAAGGAGAGCTGA	MTQQFYVSPEQLMKDRADFARKGIARGRSVVVISCEDGIALVAENPSPSLHKIGEIYDKIAFAAVGKYNEFESLRQAGVRYADVRGYSYDREDVTARGLASVYAQSLGAVFTAEQKPFEVELAVTEVGPSQDRDHLYRLTFDGSIADEHGFIVMGGQADKVSGAVETGWQRDLSFAAAIRLAVKGLTTDDESPDLPAKALEVAVLDRGSESSRGTRRAFRRLSDADVMDLLAKES				NA	NA	NA	NA	NA
D1-17_01915	822	prcB	COG0638	Proteasome subunit beta	GTGCAGGAGACAACAGCCAACAAGGTAGCCGCCAACGCGACATCGTCGTTCACTGAGCATCTCCAACGCGACCGTCCGGATCTGCTTCCCTACACCCGGACGCCGGCCCACAGCCAACCGGCCGGCACGCACCTGCAGACGCCCCATGCCACCACCATCGTGGCCATGACGTATGCGGGGGGCATCGTGATGGCTGGCGACCGCCGCGCCACGATGGGCAACATCATCGCCAGCCGGCACATCGAGAAAGTCTTTCCCGCGGACCAGTACTCCGTTCTCGGCATTGCCGGCACAGCAGGCATCGCGATCGACCTTACCCGGCTGTTCCAGGTTGAGCTGGAGCACTACGAAAAAATCGAAGGCACGCTGCTGAGCCTCGACGGCAAAGCCAACAGGCTCGGCGCGATGATCCGCGGCAATCTGCCTATGGCCATGCAGGGGCTGGCCGTCGTTCCGCTCTTTGCCGGTTTCGACACCGCGGCCGGTGTGGGGAGGCTGTTTTCCTACGACGTGACCGGTGGCCGCTATGAGGAGCAGGAACATCACGCCGTGGGCTCGGGCTCCGTGTTTGCCCGCGGAGCCCTGAAGAAGCTTTGGCGGCCCAACCTCACCGAAGACGAGGCCGTCTCCGTGGCTGTGGAATCCCTGTACGACGCCGCCGACGACGACTCCGCCACAGGCGGTCCGGACCCAATCCGCCAACTGTGGCCGGTGGTCTACAGAGTCAATAGCGCCGGCGCCCGGCGCGTCCCGGAGCGGGAACTCGCTACCATCGCCGGAAACATCATTGAATCCAGGGCTGCCGCCCGGCGGGAGGCCTGA	MQETTANKVAANATSSFTEHLQRDRPDLLPYTRTPAHSQPAGTHLQTPHATTIVAMTYAGGIVMAGDRRATMGNIIASRHIEKVFPADQYSVLGIAGTAGIAIDLTRLFQVELEHYEKIEGTLLSLDGKANRLGAMIRGNLPMAMQGLAVVPLFAGFDTAAGVGRLFSYDVTGGRYEEQEHHAVGSGSVFARGALKKLWRPNLTEDEAVSVAVESLYDAADDDSATGGPDPIRQLWPVVYRVNSAGARRVPERELATIAGNIIESRAAARREA				NA	NA	NA	NA	NA
D1-17_01916	207	pup		Prokaryotic ubiquitin-like protein Pup	ATGGCAGGGCAGGAGCAGCAGCAGCCGCAGCCGCAGCCACGCGACAGCGAGGTCGAAGAAGAGGTCCCCGTGCCGCCCGCACCGGCGGAGGGACAGGCATCCGCATCCACACAGGGTGTCGACGACCTGCTGGACGAAATCGACGGTGTCTTGGAGTCCAACGCCGAGGAATTCGTCCGGGCTTTCGTGCAAAAGGGCGGTCAGTAA	MAGQEQQQPQPQPRDSEVEEEVPVPPAPAEGQASASTQGVDDLLDEIDGVLESNAEEFVRAFVQKGGQ				NA	NA	NA	NA	NA
D1-17_01917	1620	dop		Depupylase	ATGCGGGTGATGGGGTCGGAAACCGAGTACGGGATCCACGCCCCGTCCGCCCCGGGCGCCAACGCCACCATGATGTCCGCCCGCGTGGTGCAGGCCTACGCCCAGGTCACCCGGCTGCGTGCAGCCGGAGGTGCGGAGACCCGGTGGGATTACACGGACGAGGAACCGCTGCATGACGCCCGCGGCTGGACCCTTGAACGCGGGCAGGCCCACCCGAGCCAGCTCACCGACCAGCCCCCGGTGCTCGACGCTGAGGCCGTCGCCCTCGCCTATGGCCGGGAAGAGCTGGAGTTGGAGGGTGAAGACGAGTCGGGGACGCTGCTGATGAACATGGTCCTGGGCAACGGCGCGCGGCTCTACGTGGACCACGCGCATCCGGAATATTCCAGCCCCGAAGTGACCAACCCGTCCGACGCCGTGGTCTGGGACACGGCCGGCGACCTCGTGGCGCTGGCGGCCGTCCGGCGGCTCGCGGGGGACCCTGAACTCCCGCCCATCAATCTTTATAAGAACAACACAGACAACAAAGCGGTCTCGTACGGATCCCACGAGAACTACCTCATGCCGCGGTCCGTCCCTTTCAGCGACATCGTCCGCGGCCTGACGCCGTTTTTTGTGACCCGCCAGATCATCTGCGGGTCCGGGCGGGTGGGGATCGGTCAGGACAGCTCACGCCCCGGCTTCCAAATCAGCCAGCGTGCGGACTTCTTCGAGGCCGAGGTCGGCCTGGAAACCACCATCCGCCGACCCATCATCAACACCCGCGATGAGCCCCACGCCACCGCAGACAAGTACCGCAGGCTCCATGTGATCATCGGCGACGCGAACCTGAGCCAGGTGTCCAACTACCTCAAGTTCGGAACCACCGCCATGGTGCTGAGCCTCATCGAGGCGGGACTGGCGCCCCGGATTGAGGTCCACGAGCCTGTGGCGGCACTGCAAAGCATCAGCCATGACACATCGCTCACGGCGAAAATCAGGCTGACGGACGGGCGCCGAGTGACAGCCCTGGATGTCCAGTGGATGTACCACGAGGCCGCAGCCAAGCTGGCCCAGGACACCGGCGTCTCCGACCCCGTGGACGGTGACGGGCACACGCACGCGGTGCTGGAACGGTGGGCCGCCACGCTGACCCAGCTGGACAGTGACCGCACCGCGGCGGCCTCGTCCGTCGAGTGGCTTGCCAAACTCTCCATCCTTGAGGGCTACCGGCAGCGCGACGGGCTGGACTGGGGCGACGCCCGCCTCGGCCTCGTGGACCTGCAGTGGGCCGACATCCGGCCGGAAAAGGGGCTGTACTACCGCCTACTCTCGCGGGAGCGCATGCAGCGCATCGTGAACGACGCCGACATCGCCGCCGCGGTGACCGAACCGCCGTCGGACACCAGGGCCTACTTCCGCGGGCGCTGCGTGAGCAGCTTCAGCAAGGACGTGGTCGGGGCGAGCTGGGATTCAGTCATCTTCGACGTTCCCGGCTACGGAAGGCTGCAGCGGGTGCCCACCAGGGAGCCGTTGCGGGGCACCAAAGCCCTCACCGGAGCGCTGTTTGCGCGGCACCGCGAGGCCGGCCCCTTCCTTGCCGAACTGCTCGGATCAACACCTGTGCCGCCACCGGCATAA	MRVMGSETEYGIHAPSAPGANATMMSARVVQAYAQVTRLRAAGGAETRWDYTDEEPLHDARGWTLERGQAHPSQLTDQPPVLDAEAVALAYGREELELEGEDESGTLLMNMVLGNGARLYVDHAHPEYSSPEVTNPSDAVVWDTAGDLVALAAVRRLAGDPELPPINLYKNNTDNKAVSYGSHENYLMPRSVPFSDIVRGLTPFFVTRQIICGSGRVGIGQDSSRPGFQISQRADFFEAEVGLETTIRRPIINTRDEPHATADKYRRLHVIIGDANLSQVSNYLKFGTTAMVLSLIEAGLAPRIEVHEPVAALQSISHDTSLTAKIRLTDGRRVTALDVQWMYHEAAAKLAQDTGVSDPVDGDGHTHAVLERWAATLTQLDSDRTAAASSVEWLAKLSILEGYRQRDGLDWGDARLGLVDLQWADIRPEKGLYYRLLSRERMQRIVNDADIAAAVTEPPSDTRAYFRGRCVSSFSKDVVGASWDSVIFDVPGYGRLQRVPTREPLRGTKALTGALFARHREAGPFLAELLGSTPVPPPA				NA	NA	NA	NA	NA
D1-17_01918	1752	mpa	COG0464	Proteasome-associated ATPase	ATGGAGACGCCAAACAATGACTCCGTGCCTACTCCGGCCGAGCAGCCGGCAGCCAATGAGCTGTCTGTTGCAGACCGGCAGGTCAACATCCTTCGGGATAAGCTGCGGCATATAGACCGCCAGCTGGCCGCTGCCACACAGAACAATTCCAAGCTCGTGGCGATGCTCGAAACGGCCAAGGCCGAAATCCTCAGGCTGAAGAATGCCCTCGACCAGGAGGGCCAGCCGCCGTACAGCTTTGGCACAATCCTCCAGCTGAACCCGCGGCGGCAATCCACATCGGGGAGCAGCGGGCAGGCCGCCACTGAGGAATCGGCCGACATTTTCAACGCCGGCAGGAAGATGCGTGTGGGCATCAGCCCGCTCGTGAACATCAACCAGCTGGCCGTTGGCCAGGAGGTGCTCCTCAACGAAGCACTCCTTATCGTGGCAGGACTGGGGTATGAGCGCGCCGGGGAGCTCGTCACGCTCAAGGAGATGCTCGGCCCTGACCGCGCCCTCGTCCTCGGCCGGGCCGATGAGGAACGGGTGGTCCGGCTGGCCGGGCCCCTCCTGTCCGAGAAGCTCCGGGTGGGGGATGCCCTGTCCATCGACTCCCGGACCGGCTACGCCCTGGAAAAGGTCCCGCGGTCCGAGGTGGAAAACCTGGTGCTGGAGGAAGTCCCGGACATTACGTACGAGGACATCGGCGGCCTTGGCCCCCAGATCGAACAGATCCGGGACGCCATCGAACTGCCGTTCCTGCACCCGGACCTGTACCGCGAACACGGCCTCAAGGCACCCAAGGGCATCCTGCTCTACGGCCCTCCCGGATGCGGCAAGACCCTGATCGCCAAGGCGGTGGCCAATTCCCTCGCGGCCCGCGCTGCGGAGCGGTCGGGAAACGTCGACCTGAAGAGCTACTTCCTCAACATCAAGGGCCCGGAGCTGCTCGACAAGTATGTCGGCGAAACCGAGCGCCACATCCGGCTCATCTTCTCCCGGGCCCGCGAGAAGGCCTCGGACGGCAGCCCGGTGGTCGTATTCTTCGACGAGATGGATTCCCTGTTCCGGACACGCGGCACAGGTATCTCCTCCGACGTCGAAACCACCATCGTGCCGCAGTTGCTCAGCGAGATTGACGGCGTCGAGCGCCTGGACAACGTGATCGTGATCGGTGCCTCCAACCGTGAGGACATGATCGACCCCGCCATCCTCCGGCCGGGACGCCTTGACGTGAAAGTCAAGATCCACCGCCCGGACGCCGAGGCGGCCGCCGACATCTTCAAGAAGTACATCACCACGGACCTTCCGTTCCATGAGGATGACCTTGTCGAGCATGACGGTGACGTCCAGGAAACGGTGGACGCCATGATCCAGCGCACGGTGGAGGCGATGTACTCCACAGAGAAGTCCAACGAGTACCTCGAAGTCACGTACGCGAACGGTGACACGGAAATGCTCTACTTCAAGGACTTCAACTCCGGCGCCGTGGTGCAGAACGTCGTTGACCGCGCCAAGAAGTACGCGATCAAGGACCTGCTGACCACCCACCAGAAGGGTCTGCGCATCGATCACCTCCTCAGGGCCGTCGTAGACGAGTTCCGCGAGCATGAGGACATGCCGAACACCACGAACCCGGACGACTGGGCCCGTATCTCCGGCAAGAAGGGCGAACGCATCACCTACATCCGCACCATCGTCCAAGGCAAGGCTGGGCAGGAGCCGGGCAAGTCCATCGAGACGATGCCTAACACGGGCCAGTACCTGTGA	METPNNDSVPTPAEQPAANELSVADRQVNILRDKLRHIDRQLAAATQNNSKLVAMLETAKAEILRLKNALDQEGQPPYSFGTILQLNPRRQSTSGSSGQAATEESADIFNAGRKMRVGISPLVNINQLAVGQEVLLNEALLIVAGLGYERAGELVTLKEMLGPDRALVLGRADEERVVRLAGPLLSEKLRVGDALSIDSRTGYALEKVPRSEVENLVLEEVPDITYEDIGGLGPQIEQIRDAIELPFLHPDLYREHGLKAPKGILLYGPPGCGKTLIAKAVANSLAARAAERSGNVDLKSYFLNIKGPELLDKYVGETERHIRLIFSRAREKASDGSPVVVFFDEMDSLFRTRGTGISSDVETTIVPQLLSEIDGVERLDNVIVIGASNREDMIDPAILRPGRLDVKVKIHRPDAEAAADIFKKYITTDLPFHEDDLVEHDGDVQETVDAMIQRTVEAMYSTEKSNEYLEVTYANGDTEMLYFKDFNSGAVVQNVVDRAKKYAIKDLLTTHQKGLRIDHLLRAVVDEFREHEDMPNTTNPDDWARISGKKGERITYIRTIVQGKAGQEPGKSIETMPNTGQYL				NA	NA	NA	NA	NA
D1-17_01919	1077			hypothetical protein	ATGAGCAGCGAATCTGCCGCCATCGGAACCAGCACGGACCCTTCCGCCACGGCACAGGGCACTGCAGCCGGCATCGCGGACCAGCCGGTCGGTGCTGCACGGCGCCGCGGCCCCTTCCGCGAGGGCGAGCGGGTGCAGCTGACTGACGAGCGCGGCCGCATGAATACGATCAGCCTTGAAGCCGGCGGAGCCTTCCACACGCACCGCGGTTTCCTCAACCACGACGACATCATCGGCAAGGTGGACGGTTCCGTTGTAGTGAACAACGTGGGGCAGCAGTACCAGACCCTGCGCCCGCTGCTCTCTGACTTTGTGCTCTCCATGCCCCGCGGCGCCGCCGTCGTCTATCCAAAGGACGCCGCACAGATCGTCACCATGGCAGACATCTTCCCCGGAGCCCGGGTGGTCGAGGCCGGTGTCGGTTCCGGTGCGCTCTCCATTTCACTACTGCGCGCGGTGGGGGATCAAGGCTACCTGCACTCGTTCGAGCGGCGCGAAGAATTCGCCGCCATTGCGCGCGGCAATGTTGAAACCATCTTTGGCGGAGCGCACCCTGCTTGGAAGATCTCGCTGGGCGACTTCCAGGATGAAGTAGTCCGCAGCGAAGAACCGGGATCAATTGACCGTGTGGTGCTTGACATGCTGGCGCCCTGGGAATGCCTCGATGCAGTCGCGACTGTCCTTGCCCCCGGCGGTGTCTGGATCAACTACGTCGCTACCGTCACCCAACTCTCGCGCACCGCCGAGGCCATCCGCGCGGACGGCCGATTCACCGAGCCTGACGCCTGGGAATCGCTGGTCCGCGGCTGGCATCTGGAGGGCCTTGCCGTGCGCCCCGACCACCGGATGGTGGCCCATACCGGCTTCCTGCTGGTGACGCGGCGGCTGGCTGACGGTGTTACCGGTATCTCGGTCAAGCGCCGGCCCTCCAAAACGGACTTCAACGAAGACGACGTGAACGCCTGGACGCCCGGTGCCGTGGGCGAACGCACGGTGTCGGACAAGAAGCTGCGGAGGGCTGCCCGCGACGCGATCGCGGGAACCAATGTCAAGGATGACCCGGAGATCACAAACTAG	MSSESAAIGTSTDPSATAQGTAAGIADQPVGAARRRGPFREGERVQLTDERGRMNTISLEAGGAFHTHRGFLNHDDIIGKVDGSVVVNNVGQQYQTLRPLLSDFVLSMPRGAAVVYPKDAAQIVTMADIFPGARVVEAGVGSGALSISLLRAVGDQGYLHSFERREEFAAIARGNVETIFGGAHPAWKISLGDFQDEVVRSEEPGSIDRVVLDMLAPWECLDAVATVLAPGGVWINYVATVTQLSRTAEAIRADGRFTEPDAWESLVRGWHLEGLAVRPDHRMVAHTGFLLVTRRLADGVTGISVKRRPSKTDFNEDDVNAWTPGAVGERTVSDKKLRRAARDAIAGTNVKDDPEITN				NA	NA	NA	NA	NA
D1-17_01920	1191			hypothetical protein	GTGACTGACCCCGCATCAACCGGCCAACGGCCTGACGGCGGCAGAGCCCGCCGCGAAGGCATTCCCCTGGGCAGGATTGCCGGCGTTCCGGTCATCCTTGCCTACTCGTGGTTCGTCATTGCCGCCTTCACGGTGGTCGCCTACGGGCCCGTGCTGCAGTTTGCCAACCCGTCCCTCGGCGTGGCCGCCTACTACGTGGCCTTCGCTTACGCGCTGCTGCTCGCGATCTCCGTACTGGTTCATGAACTCGCCCATGCCCTGACGGCGAAGATGTACGGCTGGCCGAGCGAAAAGATCGTCCTCAACCTGTGGGGCGGGCACACCCAGTTCGAAAGTTTCACCGCCACACCGGGACGTTCCGTTGTGGTGGCCCTTGCCGGCCCCGCGGCCAACTTTGTGCTTGCCGGAGCCACCTGGCTCGTGATTTCCGCCGCCAACCCGACGGGCGTGGCAGACACCCTCACCAACATCTTTTTCTGGGCCAACCTCGTGATCGGCATCTTCAATGTGCTGCCCGGGCTGCCGCTCGACGGCGGACGGCTGGTGGAATCAGCCGTGTGGAAGGCAACGGGCAGCCACGCCAAGGGGACCATTGCAGCAGGCTGGGGCGGGCGTATCATCGTCGGGGCCCTGGTCCTGTGGTTCGTCATCCGCCCGCTGCTGGCCGGCGGCCGCCCGGACACCAGCATGCTCCTCATCACCGTCCTGGTCTGCGGGTTCCTGTGGATGGGGGCTTCGGCGTCGATCCAGCAGGGCCGGCTGCGCAGCCGGCTCCACCTGGTGAGCGCGGCGGCACTGGCAGAGCCCGCCGTCGGCATCCCGGAAACGGCAACTGTCGCCGAAGTCCTGCAGTTTACTGCAGGCGGCGGGACCGCCGTCGTGCTTTGCGCTCCGGACGGGAGGCCGGGAAGCGTGGTCGATGCCGCCGCGCTGGCGGCAGTTCCTGCACCTGCCGCAGCCGCGACGCCCGCCACCGCCGTTTCCCGCGCGCTTGGGGCAGGGGCCTATGTGCCGGAATGGGCGAAGGGCCAGGAGCTTCTCCAGTATCTTTCCCAGTTGGAAGGCCAGGACTACGCGGTGATTGACCACAATGGGCACGTGACCGGCCTGCTGCGGCAAGCGGCAGTGGTGACAGCCATTACAGGCAAGGCTCTCCGCGAAAACAGGCGGCCCCAGGGCCAGAACCGGTAG	MTDPASTGQRPDGGRARREGIPLGRIAGVPVILAYSWFVIAAFTVVAYGPVLQFANPSLGVAAYYVAFAYALLLAISVLVHELAHALTAKMYGWPSEKIVLNLWGGHTQFESFTATPGRSVVVALAGPAANFVLAGATWLVISAANPTGVADTLTNIFFWANLVIGIFNVLPGLPLDGGRLVESAVWKATGSHAKGTIAAGWGGRIIVGALVLWFVIRPLLAGGRPDTSMLLITVLVCGFLWMGASASIQQGRLRSRLHLVSAAALAEPAVGIPETATVAEVLQFTAGGGTAVVLCAPDGRPGSVVDAAALAAVPAPAAAATPATAVSRALGAGAYVPEWAKGQELLQYLSQLEGQDYAVIDHNGHVTGLLRQAAVVTAITGKALRENRRPQGQNR				NA	NA	NA	NA	NA
D1-17_01921	663	gph_2		Phosphoglycolate phosphatase	GTGGATACCGAACCCTACTGGATCGAGGCAGAGCACGACCTTGTGGCCGCACACGGCGGCACATGGTCCCATGAGCAGGCCATGCAACTGGTGGGCCAGTCCCTTGTCTTTTCGGCCGGCATCCTCCAGCGGGCAGGAGTTGATCTGGAAGCCCGCGAGATCATTGACACGCTGACGGCCCAGGTCATCAGCCGGGTGCGGCAGCATGTCCCGTGGCGACCGGGCGCCCGCGAACTGCTCGACGAACTTTCCACCGCCGGCGTGCGTTGTGCCCTTGTGACCATGTCCGAGGCCCCCCTTGCACGGGAGATCGTGGCGAGCCTCCCCAAGCCCTACTTCGAATTCCTGGTTACGGGTGACACCGTGACCAAGGGCAAGCCCGACCCGGAGGCCTACCTCAAGGCCGTGGAAATGCTCCGGCGGGAAGATCCGGACCTCACCGTTGACAACTGTGTGGCCCTTGAGGACTCAGCCCCGGGTGTCGCCGCTGCGGTGGCCTCAGGCGCCGTCACGGTTGCCATTCCCCACATCGTGGCGCTGCCCGCGGACCCGCGCCGGACCCTGTGGGACACCCTCGAAAACCGCAGCGTCTCCGACCTGCAGGATCTTGTTGCCGCCCGCCAGGGCCTCGCCGCCGCAGCGGCGCTGGACAACGCCAGTTAA	MDTEPYWIEAEHDLVAAHGGTWSHEQAMQLVGQSLVFSAGILQRAGVDLEAREIIDTLTAQVISRVRQHVPWRPGARELLDELSTAGVRCALVTMSEAPLAREIVASLPKPYFEFLVTGDTVTKGKPDPEAYLKAVEMLRREDPDLTVDNCVALEDSAPGVAAAVASGAVTVAIPHIVALPADPRRTLWDTLENRSVSDLQDLVAARQGLAAAAALDNAS				NA	NA	NA	NA	NA
D1-17_01922	912			hypothetical protein	ATGAATAGCTTCGACGGAGATACCACGGAACCCGGTGCCACCGCCTCGCCCGGCTCGGAGCAGCTGCTGCAGCCAGTTCCGGAGGGACAGCGCATTACCGTGATGCTCGCCGCCTTCGAGGGCTGGAATGACGCCGGGGAAGCGGCCAGCGACGCATTGCGGTACCTGAACAAGCTGTGGGGCGGCAAGAAGGTCGCCTCGATTGATGCCGACGAATACTACGACTTCCAGTTCACCCGCCCCACAGTGCGGCGCACTGCATCCGGCGAACGCAAGATCAAGTGGCCGTCCACACGTATCTACAAGGCGACCGCGCCGGGCACGAACGTGGACGTGATTTTTGTGCAGGGGACAGAGCCCTCCTACAAGTGGCGGGCCTATACAGCCGAGCTGCTGGTTCACGCCGAGGCGCTTCATGTGGACTACGTGGTGCTGGTAGGGGCCCTGCTGGCCGACGTACCTCACAGCCGGCCCATTCCAGTCAGCACGTCAACGGATGACAGCGCACTGCGTGAACGGCTGAACCTGGAAGCCTCACAGTATGAAGGGCCCGTAGGCATCGTGGGGGTCCTCTCCGAAGTGGCGCTGCTTGCAGGCATTCCCACGGTGTCGCTCTGGGCCGCCGTTCCACATTATGTGGCGCAGGCGCCTTCGCCCAAGGCGCAGCTCGCGCTGCTCCACCGCATTGAGGAACTGCTGCAGGTACCGCTCGACACGCACGAGCTGGCTGAAGAGTCTGACGCCTGGGAGCGCGGCGTGAACGAACTGGCCACCGAAGACCCGGAGATCGCCGCCTACGTCCGGCAGCTGGAAGAGGCCAAAGACACAGCTGATCTTCCGGAGGCCAGCGGCGAGTCCATCGCAAGGGAGTTCGAGCGGTACCTGAAACGGCGGGGCAAAGACAAGCAGTAG	MNSFDGDTTEPGATASPGSEQLLQPVPEGQRITVMLAAFEGWNDAGEAASDALRYLNKLWGGKKVASIDADEYYDFQFTRPTVRRTASGERKIKWPSTRIYKATAPGTNVDVIFVQGTEPSYKWRAYTAELLVHAEALHVDYVVLVGALLADVPHSRPIPVSTSTDDSALRERLNLEASQYEGPVGIVGVLSEVALLAGIPTVSLWAAVPHYVAQAPSPKAQLALLHRIEELLQVPLDTHELAEESDAWERGVNELATEDPEIAAYVRQLEEAKDTADLPEASGESIAREFERYLKRRGKDKQ				NA	NA	NA	NA	NA
D1-17_01923	1278	mshC	COG0215	L-cysteine:1D-myo-inositol 2-amino-2-deoxy-alpha-D-glucopyranoside ligase	GTGAAGTCCTGGATATCCCGCCCCGTTCCTGAGCTCCCCGGCGAAATGGCTGCCGTTCGCCTGTTCGACACAACAGCGCGCGGAGTGGTCAGCCTCCAGGCAGACGGCCAGCAGTCCATGTATGTCTGCGGCATTACGCCGTACGACGCCACGCACATGGGCCACGCGGCAAGCTATGTCGCCTTTGACCTCCTGAACCGAGCCTGGCGCGACGGCGGCCAGCAGGTTGCCTACGTCCAGAACGTCACGGACGTTGACGACCCCCTGCTGGAAAGGGCAAACCTCACCGGCGTGGACTGGCGTGATCTGGCCGAGAGCCAGATTCAACTTTTCCGGACGGACATGCAGGCCCTGAATGTCCTCCCGCCGGACCACTACATTGGCGCTGTCGAGGCCATGCCGCTCATCGTCCCTGCCATCGAGCGGCTGCTCCGCCAAGGCCTTGCCTACCGTGTTATCGGCACGCCCGGGGAGCCTGACGGCGACGTCTACTATGACGTTGAAGCTGCCGGGAAGCACGCCGTCGACGTCGACGCATGGACGCTGGGTGCCGTGTCCGGGCTGCCCGAGCCCGAAATGCTTGAACTGTTCGCCGAGCGCGGCGGCGATCCCGGCCGCGCCGGAAAGCGCCAGGCCCTGGACCCCCTGCTGTGGCGGGTGGCCCGCGACGGCGAACCCCGCTGGCCCGGCGGCGAACTGGGGGAGGGGCGCCCCGGCTGGCACATTGAATGTACGGTGATCGCCCAGGAATACCTGCCGGCACCGTTCACCGTGCAAGGCGGCGGCTCCGATCTGGTTTTCCCGCACCACGAAATGGGAGCCGGCCACGCTTACTCCCTCTCCGGCGTTCCGCTCGCCAAGCACTTCGCCCATGCCGGAATGGTCGGCCTTGACGGCGAAAAGATGAGCAAGTCCAAGGGCAACCTTGTCCTCGTTTCGAAGCTGCGGGCAGCAGGCGAGGAGCCAGCTGCGATCCGCCTGGCGATCCTTGCGCACCACTACCGCTCTGACTGGTCCTGGACGGACGGGGGATTCTCAGGCGCCAAACAGCGGCTTAGCCGCTGGCGCGCCGCCCTGGCCGCTGCCCCGGCCGACTCCGCTGTCCGGGTCCTCGAAGACATGCGGTCAGCCCTGGCGAACGACCTTGACGCACCTGCTGCCCTGGCCGCCGTCGACCGCTGGGCCGACGAGGCTCTGGCTGGCCATGCTGACCCATCCGCAGCCGACGGGGCGCTGGTGCGGGACGCCGTCAACGCCCTGCTGGGTGTCGAACTCTAA	MKSWISRPVPELPGEMAAVRLFDTTARGVVSLQADGQQSMYVCGITPYDATHMGHAASYVAFDLLNRAWRDGGQQVAYVQNVTDVDDPLLERANLTGVDWRDLAESQIQLFRTDMQALNVLPPDHYIGAVEAMPLIVPAIERLLRQGLAYRVIGTPGEPDGDVYYDVEAAGKHAVDVDAWTLGAVSGLPEPEMLELFAERGGDPGRAGKRQALDPLLWRVARDGEPRWPGGELGEGRPGWHIECTVIAQEYLPAPFTVQGGGSDLVFPHHEMGAGHAYSLSGVPLAKHFAHAGMVGLDGEKMSKSKGNLVLVSKLRAAGEEPAAIRLAILAHHYRSDWSWTDGGFSGAKQRLSRWRAALAAAPADSAVRVLEDMRSALANDLDAPAALAAVDRWADEALAGHADPSAADGALVRDAVNALLGVEL				NA	NA	NA	NA	NA
D1-17_01924	834	uppP	COG1968	Undecaprenyl-diphosphatase	GTGAACTGGTTTGAAGCGGCCCTGCTGGGTCTTGTGCAGGGACTAACCGAATTTCTCCCGATTTCATCGAGCGCCCACCTCAGAATTGTGGGCTCCTTCCTGCCCAATGCCGCGGACCCCGGCGCAGCCTTCACCGCCATCACACAGCTTGGCACCGAGACGGCCGTGATCGTCTACTTCTGGCGCGACATCATGCGGATTGCACGGGCCTGGATCGGTTCGCTGAAAGGCCGGGTCTCCCGCCACGACCCTGACGTGCGAATGGGATGGCTGGTCATCCTGGGCAGCCTGCCCATCATTGTCCTGGGACTGCTCTTCCAGGACCAGATCGAATCCGTGCTGCGCAGTCTGTGGATCGTCGCCACCACCCTGATCGTTTTCGGCCTCATCCTGGCGGTGGCGGACGCCGTCGGCAAACAGGACCGGGACTTGAGCCGGCTCACCTACAAACACGGCATCCTCTACGGCTTCGCCCAGGCCATGGCGCTTATTCCGGGCGTATCCCGCTCCGGCGGCACCATCACTGCGGGGCTGCTGATGGGTTACACCCGGGAAGCGGCGGCCCGTTATTCCTTCCTGCTGGCCATTCCCGCGGTCTTCGGCAGCGGTCTGTTCCAGCTCTATAAGGTGGTGTCGAAGGAAGGCGTGAGCGGACCTTATGGACTGCCCGAGACGGCCCTGGCCACGGCCATCGCCTTCGTGGTGGGATACATCATCATCGGTTGGTTCCTGAAGTTCATCTCCACCCGCAGTTACCGGCTCTTCGTCTGGTACCGCATCCTGCTTGGCCTCGCCCTGTACCTGCTGCTCGGTTTCAATGTCATCAGCGCCTAG	MNWFEAALLGLVQGLTEFLPISSSAHLRIVGSFLPNAADPGAAFTAITQLGTETAVIVYFWRDIMRIARAWIGSLKGRVSRHDPDVRMGWLVILGSLPIIVLGLLFQDQIESVLRSLWIVATTLIVFGLILAVADAVGKQDRDLSRLTYKHGILYGFAQAMALIPGVSRSGGTITAGLLMGYTREAAARYSFLLAIPAVFGSGLFQLYKVVSKEGVSGPYGLPETALATAIAFVVGYIIIGWFLKFISTRSYRLFVWYRILLGLALYLLLGFNVISA	PGPT0024165_1847	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
D1-17_01925	939	yajO_2	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGCAGCAGCGTTACGTCGGCAACAGTGGGCTTCGGGCCTCCGCACTCTCCCTCGGCACCATGTCATGGGCCCGCGAAACAGATGAACAGGACGCCGCGGAACTGCTGCACGATTTCGTTGATGCCGGCGGCACCCTGGTGGACACGGCCGCGTCGTACGCGGACGGCATGGCCGAGGCCATGCTGGGGGAAATGCTTGGCGACGTCGTCTCCCGCTCGGAAGTGGTGATCTCCACCAAGGCCGGCCTGTCGGCGTCAGACGCACGGCAACGCGTGGACACCTCACGCAACGCCATGCTGTCGTCTTTGGACGCCAGCCTGACGCGGCTGGGCACCGACTATGTCGACATCTGGTCTGCCCAGGCGTGGGACCGCAACGTTCCGCTGGACGAGACGCTGTCCGCCCTTGAGCTGGCGGTGCGCAGCGGAAGGGCGCGCTACGCCGGGATTGCCAACTTCAACAGCTGGCAGACCGCGAAGGCGGCCGCCGTTGCCGGATTCCCGCTCGTGGCCGGCCAGTCGGAATACTCCCTGCTCAGGCGCAAGCCCGAAGAAGAGCTGATTCCCGCCATCGAGGACGCCGGGATGGGCCTCATGGCCTGGGCTCCGCTGGGGCGGGGGGTGCTGACCGGCAAGTACCGGGGGCAGGTACCGGCCGACTCCCGGGCGGCTGGCAGCCGCCTGGCCACTTATGTGGAGGTTTACCTGGAACAGTCTGCGGCGCAGGTGGTGGAGGCTGTGGCCATGGCGGGCCGGGGACTGGGGCGTTCGGCGCTTGATGTGGCCCTCAGCTGGCTGCTTTCACAGCATGGCGTTGCCACGGCCATTGTCGGGCCGAGGACGCCTGTGCAGCTGAAAGAGATTCTCGATGCACAGCTAACGCCGCTGCCCGCGGAGATCGCAAGGGCCCTTGAGGACGTGTCCAGCAGCCTGGCCTAG	MQQRYVGNSGLRASALSLGTMSWARETDEQDAAELLHDFVDAGGTLVDTAASYADGMAEAMLGEMLGDVVSRSEVVISTKAGLSASDARQRVDTSRNAMLSSLDASLTRLGTDYVDIWSAQAWDRNVPLDETLSALELAVRSGRARYAGIANFNSWQTAKAAAVAGFPLVAGQSEYSLLRRKPEEELIPAIEDAGMGLMAWAPLGRGVLTGKYRGQVPADSRAAGSRLATYVEVYLEQSAAQVVEAVAMAGRGLGRSALDVALSWLLSQHGVATAIVGPRTPVQLKEILDAQLTPLPAEIARALEDVSSSLA				NA	NA	NA	NA	NA
D1-17_01926	267			hypothetical protein	ATGAGCATCGATCCGCGTGTCGCGCTTCAGTCCCTGACCTCCGCCCTGGAAGAACATCTGGTAGCAGCCTCAACGCGAAGGGGGGACGGCGACCCCGCTGTCGAAGCAGCATTCTTCGCCGTCGCTGATGCTTTTGAAGTCTACGAGGACGCGCTCTATGAGGCCTACAACGAGGTCACCCCGCTTCAGGTTTTCGAAGAGGATGAAGACGAGGAAGACGAAGAGCGCCAGGTTGATGATGACGACCTGGAGATCGTCGAAGAATAG	MSIDPRVALQSLTSALEEHLVAASTRRGDGDPAVEAAFFAVADAFEVYEDALYEAYNEVTPLQVFEEDEDEEDEERQVDDDDLEIVEE				NA	NA	NA	NA	NA
D1-17_01927	234			hypothetical protein	ATGAAGGAACATTTTCTGACCAGCTCGGTCCTGCGGGAACGGGACTACGTGAAGCAGTACGAGTACCTCGTATTGACGATTGGTCCTGACGACTCGCTGCCCGATGCTCGCCGTCGCCTCGTTGAACATTCCGAATACGGCAAGTGGGAACTGGAACGCAGCCGGTTGTACGTGGGTGGAGGGCGCCGCTTCTGGCTCCGCCGCCGCGTCACGCAGGTTCAGCGGACCGTCTAA	MKEHFLTSSVLRERDYVKQYEYLVLTIGPDDSLPDARRRLVEHSEYGKWELERSRLYVGGGRRFWLRRRVTQVQRTV				NA	NA	NA	NA	NA
D1-17_01928	1161	ydbM		Putative acyl-CoA dehydrogenase YdbM	ATGGAGCCCGAAGAGCTGTTGCCGGATTCGCTCCTTGACCGCCTGCGGGGGAGAGCCGCCGGCTACGACGCACGGAACGAGTTCTTCTTCGAGGACCTTGAGGAGCTCACCTCTGCCGGGTACCTGAAGCTTTTCGTGCCAGTATCCGACGGCGGTCACGGGCTTGGGCTTGCAGGCGCCGCCGGGTGCCAGCGGCGGCTGTCGACGGCGGCTCCCGCCACTGCGCTGGCAGTGAACATGCACCTGGTGTGGACGGGGGTGGCGCGGGTCCTGGCCGACCGGGGTGACACATCCCTAAATTTCGTGCTGAAAGAAGCCGCCGCCGGTGAGCTCTTCGCCTTCGGGAATTCGGAGGCCGGCAACGACTCCGTCCTGTTCGACTCCCTGACGGAGGCGAAACCCCTGCCCGGCGGGAGCTATTCATTCACGGGCACGAAAATTTTCACCAGCCTTTCCCCCGCCTGGACCAGACTCGGCATTTTCGGCAAGGACAGCGCGGCAAGGGACGGCGACGGCGAGCTCGTGCACGGGTTTATCGACAGGGCCACCCCCGGCTACGAAATCCTCGAGGACTGGAACACTCTTGGGATGCGCGCCAGCCAGTCGAACACCACGGTCCTGCGCGGCGCAACCGTGCCGCCCGAACACATCTTCCGGAAGCTGCCTGTGGGGCCCAACGCCGACCCCCTGATTTTTGCGATCTTCGCCTGCTTCGAAACGCTGCTTGCCGCGGTGTACACGGGCATCGGGGAGCGGGCCCTCGTCCTCGGCGCTGAGGCTGCCAAACGCCGCACATCCTTCAAGAACGGCGGCCGGAGTTATGCCCAGGACCCGGACATCCGGTGGAAGGTGGCAGAGGCTGCCATGGCCATGGACGCCCTCTACCCCCAGCTGTCACTCGTGGCGCAGGATGTGGACCAGCTGGCGGACCACGGCCCCCAGTGGTTCCCGAAGCTCGTGGGACTCAAGGTCCGGGCAACGGAGACAGCCCGGACCGTGGTGGATCTGGCCATCCGGGTCTCCGGCGGTTCAAGCTACTACCGGGGGACCGAGCTCGAGCGCCTCTACCGGGACGTCCTTGCGGGCATGTTCCACCCGTCCGACGACGAATCGGCCCACAACACGGTCGCCAACGCCTGGCTCGGCCCGCTGGAGACGTAG	MEPEELLPDSLLDRLRGRAAGYDARNEFFFEDLEELTSAGYLKLFVPVSDGGHGLGLAGAAGCQRRLSTAAPATALAVNMHLVWTGVARVLADRGDTSLNFVLKEAAAGELFAFGNSEAGNDSVLFDSLTEAKPLPGGSYSFTGTKIFTSLSPAWTRLGIFGKDSAARDGDGELVHGFIDRATPGYEILEDWNTLGMRASQSNTTVLRGATVPPEHIFRKLPVGPNADPLIFAIFACFETLLAAVYTGIGERALVLGAEAAKRRTSFKNGGRSYAQDPDIRWKVAEAAMAMDALYPQLSLVAQDVDQLADHGPQWFPKLVGLKVRATETARTVVDLAIRVSGGSSYYRGTELERLYRDVLAGMFHPSDDESAHNTVANAWLGPLET				NA	NA	NA	NA	NA
D1-17_01929	1305	dapE_4	COG0624	Succinyl-diaminopimelate desuccinylase	ATGACACAGATCCGGCCCGAGGATGAAGTCGTCAACATCTGCCAGGAGCTCATCCGTATCGACACATCCAACTATGGGGACGGATCTGGACCCGGGGAACGCGCTGCCGCCGAATACGCTGCCGGGCTAATCACCGAGGTGGGGCTCGACGTCGAAATCTTCGAGTCCGAGCCCGGGCGAGCCAACGTGGTCACCCGGCTGGCGGGGGAGGACCCGGCGGCGAGCGCGCTCGTGGTGCACGGTCACCTGGACGTTGTCCCGGCGCTAAAGGACCAGTGGACGGTGGACCCGTTCGGCGGTGAATTGAAGGACGGGCTTATTTGGGGCCGCGGAGCCGTGGACATGAAGGACATGGACGCCATGATCCTGTCCGTCATGCGGGACTTCGCGCGCACGGGCCGCAAGCCGAAGCGGGACCTGATCTTTGCCTTCTTCGCCGACGAGGAAGCCGGCGGCACCTACGGCGCCCGCCACGCCGTCGACAAGCGCCCCGAGCTCTTCGAGGGCGCCTCCGAGGCGATCTCGGAAGTGGGCGGTTTCTCGGCCACAATCGGCGGCCAGCGCACCTACCTGCTGCAGACCGCCGAAAAGGGACTCTCGTGGCTTCGTCTGGTGGCCCATGGCCGTGCCGGCCACGGCTCGCAGATCAATACGGACAACGCCGTGACCCGCCTCGCCAGCGCCGTGTCCCGCATCGGTCAATACCGGTGGCCTGTGGAACTGACCCCCACCACCCGGCAGTTCCTCGACGGCGTCACGGAACTTACCGGCGTCGAATTCGATCCTGACGATCCGGACAAACTGCTCAACGAGCTGGGAACCGTGGCCCGGTTCGTCGGAGCAACCCTGCAGAACACCACCAACCCTACGCAGCTCCGGGGCGGCTACAAGCACAACGTCATCCCCGAATCCGCCGAAGCGCTCATCGACTGCCGTACGCTGCCCGGGCAGGAGGAACAGGTCCTCGAGATCGTCCGGGAATTGGCCGGAACCGGTGTGGACGTCAGCTACGTGCACAATGACGTCTCCCTGGAGGTTCCCTTCGCCGGGAACCTGGTGGACTCCATGATCGACGCCCTGCATTCCGAAGATCCGGGAGCGACGGTACTGCCCTACACGCTGTCTGGCGGCACCGACAATAAGTCTCTGAGCCGGCTGGGCATCGCCGGCTACGGGTTTGCCCCACTGCTGCTGCCCGACGAACTGGATTTCACGGGGATGTTCCACGGCGTGGACGAACGCGTTCCCGTGGACTCGCTAAAGTTCGGCGCCCGGGTCCTCAACACCCTGCTGACCAACTACTGA	MTQIRPEDEVVNICQELIRIDTSNYGDGSGPGERAAAEYAAGLITEVGLDVEIFESEPGRANVVTRLAGEDPAASALVVHGHLDVVPALKDQWTVDPFGGELKDGLIWGRGAVDMKDMDAMILSVMRDFARTGRKPKRDLIFAFFADEEAGGTYGARHAVDKRPELFEGASEAISEVGGFSATIGGQRTYLLQTAEKGLSWLRLVAHGRAGHGSQINTDNAVTRLASAVSRIGQYRWPVELTPTTRQFLDGVTELTGVEFDPDDPDKLLNELGTVARFVGATLQNTTNPTQLRGGYKHNVIPESAEALIDCRTLPGQEEQVLEIVRELAGTGVDVSYVHNDVSLEVPFAGNLVDSMIDALHSEDPGATVLPYTLSGGTDNKSLSRLGIAGYGFAPLLLPDELDFTGMFHGVDERVPVDSLKFGARVLNTLLTNY				NA	NA	NA	NA	NA
D1-17_01931	189			hypothetical protein	ATGATTGAAGATCAGATCGCGTTGCTGACGGACGCCGACGGCTACACCGTGAGGCGCTACAAGGGGAATCTCAGGTGCCACATCGCAGGCACCCTCGGCCAGCTGGATGCCACAGAGGTCGAATACAGGAACATCGTGAAGTGGATCAAGATTGCAGGCAAAGGGGCTGGCATCCAAGACGATCGCTAA	MIEDQIALLTDADGYTVRRYKGNLRCHIAGTLGQLDATEVEYRNIVKWIKIAGKGAGIQDDR				NA	NA	NA	NA	NA
D1-17_01932	393			hypothetical protein	ATGAGCTACGAGCGGAACCTGACCTTCAACCTCAGATTGCGGGGGTTGTCAGAACCCGAGATCGCCGAAACACTCGAGGAGGTGCGGGCGCATGAGGCCGCCACGGGGACTCCCGCGGAAGCCGAATTCGGCACCGCCGAGGAGTACGCGAAACAGTTCCCCAGGAAGAAGAGGCGCACCCGGGGGAGCATGATCGCCATGATTGGAGGAGCATTGGCGGTCGCCTACATACTCCTCATGGTCCTCCTGGTGGTCCTCTTCAGGATTGACATCCGCGAGTACGTCGGCCCGCTCGAGCTCTGGCCGGGGCTCGTGCTGATCCTGTCCGATGTCCTGGCTGGCTTCCTGACCGATTACTTCCAGCCCGCGCCAAGCTCCCGCGCCAAGCGCTAA	MSYERNLTFNLRLRGLSEPEIAETLEEVRAHEAATGTPAEAEFGTAEEYAKQFPRKKRRTRGSMIAMIGGALAVAYILLMVLLVVLFRIDIREYVGPLELWPGLVLILSDVLAGFLTDYFQPAPSSRAKR				NA	NA	NA	NA	NA
D1-17_01933	345			hypothetical protein	GTGAGCGACATCGACTTCGACCAGGAACTGACCCGCGCGGCGCTCCCGCACGCAGTGCTCGCGGTGCTCAGCCACGGGGAAAGCCACGGCTATGCCATCGCTGAGGTCCTCCGGCAGAGCGGCTTCACACGCATCAAGGGCGGAACGCTGTACCCCCTCCTCAAGAGGCTGGAAGACCAGGGCCTTGTTGAGCACACATGGCTGCACGATCAGGCAGGTCCTGGCCGCAAGCAGTTCACCCTCACCGGACAAGGCCGGAGCGAGCTGGACCGCCTGGCAGCCGCCTGGAACCGGATGGGCCAGGCCCTCACCGACATCCGCACGACCCGACAGGAACAACCATGA	MSDIDFDQELTRAALPHAVLAVLSHGESHGYAIAEVLRQSGFTRIKGGTLYPLLKRLEDQGLVEHTWLHDQAGPGRKQFTLTGQGRSELDRLAAAWNRMGQALTDIRTTRQEQP				NA	NA	NA	NA	NA
D1-17_01934	417			hypothetical protein	GTGCCTGAGACGCCGCAAGAAGAGTATGTAGCTGAGCTGACGGAGGCTCTCGAACTCCGGGACGTTCCTGCAGCAGCCGCGGCGCACATCGTGCGCGAGGTCCAAAGCCACATCGCCGACTCCGGGCAGGACCCGACCGCCGCCTTCGGAAGCCCCAGCGAGTACGCAGACAAGTTCGCACCGAATCACCCTTCCAGGCTTTGGGAGCTGATCATCGCATCCGTGGTTTTGGCAGCGGGAGGCGGCTACGTGCTGATCTCCGGGGTCTTCGGGTTACTTGCACCAACCCATGAATTGTGGGGCCTGCCACCTTGGATGCGCATTGTGATCGGCTCAGTGGGTGTAGCTTCGTTCATCGCACTGGTCCTCATCGCAGGGGCACGCGCGAAACGCCGATCCCTCGACTGGCAGGCTTAG	MPETPQEEYVAELTEALELRDVPAAAAAHIVREVQSHIADSGQDPTAAFGSPSEYADKFAPNHPSRLWELIIASVVLAAGGGYVLISGVFGLLAPTHELWGLPPWMRIVIGSVGVASFIALVLIAGARAKRRSLDWQA				NA	NA	NA	NA	NA
D1-17_01935	120			hypothetical protein	ATGAAACTCCGGGACATCAGCACCCACTCGTGGTTCGGAACCGTGACCCGCCTCGTTGTCGCCACGGAATCCATCCTGCCAGCTGGCGTGAGAAGCCGGGCCGCTCATCGTTCCTTATAA	MKLRDISTHSWFGTVTRLVVATESILPAGVRSRAAHRSL				NA	NA	NA	NA	NA
D1-17_01936	516			hypothetical protein	ATGGATGGCGCTGAATTCGGAACGAGCCAGCAGAGGACTGACGGTCGCGCTGAGGTCGGGCACCCGACGATGGTGATCGGGCGGCCCGCTCTGAGGGAATCTGCGATGCTGTTCAACATGACTGTCATCTTTGAATGGCGCGGAGCCCTGCGGAACGAAGAAATCAATCAGGTCCATGCAGCGGGTTTCGATCACACCCCCGAGGATGAGGATTGGATCGAGAGGCTCTCTCGCCTCAGCCTGGGATGGGTCACAGCGAGAGACGAGCAGGGTCTAGTGGGGTTCGTCAACGTGATCTGGGACGGCAGCGTCCACGCGTTCATCCAGGACACGCTGGTGGCGCAGCGTGCCCGCCGGCAGGGCATCGGGAAGAAACTTCTTTCCCTGGCCGCGGAGCACTCCAGAGCTGCGGGCTTGGAGTGGCTTCACGTGGACTTCGACGACCATCTGAAGAGCTTTTACTTCGACGCATGCGGTTTCCGCCCCACCAGCGCTGGACTCATTCAGCTGCGCTAG	MDGAEFGTSQQRTDGRAEVGHPTMVIGRPALRESAMLFNMTVIFEWRGALRNEEINQVHAAGFDHTPEDEDWIERLSRLSLGWVTARDEQGLVGFVNVIWDGSVHAFIQDTLVAQRARRQGIGKKLLSLAAEHSRAAGLEWLHVDFDDHLKSFYFDACGFRPTSAGLIQLR				NA	NA	NA	NA	NA
D1-17_01937	1437			hypothetical protein	GTGACCAGCCCGAGCCATGATTCGCAGGATCCGCGCGCGTACTTCATCATTCGGGACCTGGCGTCGGGTTTGGCAGAAGTCTTCGAAGACCTTCGGTTCGAGCCGCTCTTCAAGCGATACCCTGACACCGTCTCTGTGGTGGCGTTGCTGCCTGGGGATTACGCCGCCGGCGAGCAGGACACGTGGCTGACGCTGTGGCGGGGGCACCGTGAAGGCGGCGGCCAGGAAGGCAGCGGGCAGCGGATGTGGCTGCGGATCGACAGGCCGGCGGACCGTCGTGCCGATGACTGGGTTCAGGCAGTTGATCCGGAGTCCCCCGGTTTTGGATTGGAGTTGCCGGAGGTGGACAGCGTGCTGGAGGGTGTCTCGGGCATGGTGAAGCTGCTCGAAACCGCGGTGCCCGTCCATCGAAGCAACAGCGACACGGACCTGGTGTTCCGCGCGCTGAACGACACGCTGCGCGAAGGCACCGGACACAATGGGTGGGACCCCGACGTGAATCCCTTCGATGATGGCGAAGAAGACCTGGTGGACGGGCTGGTGCAGCTTTGCGTGGAGAGCGGTCTGGAGGCCGTGGATTTCGGTCCCTACGACGCGACAGGTGACAAGCCGTTCGCCACCCGCACGGTGCTGGACCTGACAGACCAGCTGCAGATCACCGTATGGTCCGATCAGGACGGCACCAACTGGATCGATGTCGCCGGTCGCGTACAACAGATGGATGCGCCGCACCTGGAGGTTCCGGCTGAGAACCAGGACGAGGCGGACATGGTCGCAGAACATGCCGCGCAGCTGACCGCGATCCACCATGCCGCCGAGGCTATCTTCCGTGACCTGGACCCGCAAAGCCCCGAGACCGCCTTCGAGCTGCTCAACACGGTGGCCTACGTGGCCATGAACGGCGGGATGGACCTGCCTGATCCCAGCGTCCGCCCCTGGTATGCGTGGGCTGACCAGTTCAGCGGTCACTGCCGGCTCGGCTTCCTGGCCGGGGTAATGCTCGAAGAGAGCCCCTTTGGGAACCTGAACATCAGGGCAACCACCGTGGACCCGGACACGCGGGCGTCCATAGACCTGCAGGTCTACTGGAAGCAGGACGACGAACACGACACTCCCGAGCACTGGCTGGCGGTCGGGACCGCGACAGGGCCGGCCCACGACGTTGACCCCGAGTACCCGGAGCTGCTGGCCGGCGTCGCTGCGGGCGGCCGCGAGCACATTCGGCACGCCATCACCCACCTGCACGAGATGGTGCACTTGGCTGGAGCGATCCTGGAGGCCCGCGCCCAGGAGGCCAGCGATTTCGTTGACGCCAGGAAGGAGTTGGAGGCCGTCCCTGATGAGGTCCAGTACGAGATGGTCCACAGCACGATCGAGGATGCGATCGCCGGGCTGAACGGGACGGCGAGGCTCTACACCGGCGCCATGCCCTCGTAA	MTSPSHDSQDPRAYFIIRDLASGLAEVFEDLRFEPLFKRYPDTVSVVALLPGDYAAGEQDTWLTLWRGHREGGGQEGSGQRMWLRIDRPADRRADDWVQAVDPESPGFGLELPEVDSVLEGVSGMVKLLETAVPVHRSNSDTDLVFRALNDTLREGTGHNGWDPDVNPFDDGEEDLVDGLVQLCVESGLEAVDFGPYDATGDKPFATRTVLDLTDQLQITVWSDQDGTNWIDVAGRVQQMDAPHLEVPAENQDEADMVAEHAAQLTAIHHAAEAIFRDLDPQSPETAFELLNTVAYVAMNGGMDLPDPSVRPWYAWADQFSGHCRLGFLAGVMLEESPFGNLNIRATTVDPDTRASIDLQVYWKQDDEHDTPEHWLAVGTATGPAHDVDPEYPELLAGVAAGGREHIRHAITHLHEMVHLAGAILEARAQEASDFVDARKELEAVPDEVQYEMVHSTIEDAIAGLNGTARLYTGAMPS				NA	NA	NA	NA	NA
D1-17_01938	111			hypothetical protein	ATGCCTGAGCGCTACCTTGCCGAGCTGACACAGGGCCTCAGTCCCCTCGAGGCGTTGGCACGGCAGCCGGGGACCGCACTGGCCCGGGCAGTTCCCGCCTGTCCGGGATAG	MPERYLAELTQGLSPLEALARQPGTALARAVPACPG				NA	NA	NA	NA	NA
D1-17_01939	369			hypothetical protein	GTGCCCTGGGCCGCTCTGGTCATTGTCTCCATTGTCCTGACCGGTATTGCCTTGGAGCGGACGGCGTTCTTTGTTTACGAGCCCGTGCCGGCGTTCGTCGAGCGGCTGCGGGTGGGCAGGCTGTTCATGCTGACCGGCTCGGCCGCGTCCCTTGCAGCCGCAATCTGGTCCCAAGTAAGGGGCAGTCCCCTGTGGGTGACAATCTGTGTGGCCGCGCCGGCAGTGCTGGTGGGCCTCGCCACAATGGTGATGACGCCCCCGTCGCTGGCCCCGCACATCACCGGTATCGTGGCCCTGCCGGCGGCCGTGGCAGGGCTCATCGGAGGGTTGCTGCCCAGAAACCAGGGACTGATCCAGGCCGGCCAGTGA	MPWAALVIVSIVLTGIALERTAFFVYEPVPAFVERLRVGRLFMLTGSAASLAAAIWSQVRGSPLWVTICVAAPAVLVGLATMVMTPPSLAPHITGIVALPAAVAGLIGGLLPRNQGLIQAGQ				NA	NA	NA	NA	NA
D1-17_01940	285			hypothetical protein	GTGGGCATCGAATTCTCCGAGCTGCTCCCGGACCGGCGCATCGACTACGTCTGGACCTACGGCTGGGCTTACGGCCGTCCCGGCTGCCCTGTTGCGATGCAGCGGTCTTTCACCGACACCACCCGCTACGGCTACCCGGTCTCCGACCGCTACGGGCTGACGGTGGACTTCTGGGTCCCGCCAGTACTGGCCCCGGTGCCGGCCGAAACGGGGCAACTGGACGCGGTCCCAGCCGAGGAGCTCATGCTCGAACTTGAAGCCGCCCAGGACAACGCCCTGGTGTGA	MGIEFSELLPDRRIDYVWTYGWAYGRPGCPVAMQRSFTDTTRYGYPVSDRYGLTVDFWVPPVLAPVPAETGQLDAVPAEELMLELEAAQDNALV				NA	NA	NA	NA	NA
D1-17_01941	267			hypothetical protein	ATGAACACCCCTTGTAGTGGCGGCGAAACAGCAGGTCTGCTGGGTGCAGCCATGCACAGGGTAAAACACCCCCGCGCGTGCGGGGAGGACGTCATGCCGAGCTTGGACATCATCTGCTCGATGGAAACACTGTGGGTCGTGCCGGGGGTCAGCTCTCGCGGGAAGATGCGCCCCGCTACGGTTGCGGTGGTCACGGCGGTGCTCCTTTGCTTGATGATACAAACCAACAGGGACGCTCCCCTGCTGTCGGTGATCATGCGTAGATAA	MNTPCSGGETAGLLGAAMHRVKHPRACGEDVMPSLDIICSMETLWVVPGVSSRGKMRPATVAVVTAVLLCLMIQTNRDAPLLSVIMRR				NA	NA	NA	NA	NA
D1-17_01942	255			hypothetical protein	GTGCCGGAGGAGAAAGAACCTCGTACGTGGCAGTCCGCTGCTGCCTCGGTCGCCAAGGGCATTACCGGCTTGGCAGGTCTGGGTGGCGCACTGGTCGCTATTTTTGCCTGGTTCCCCATGGCCAGGGACACGCTGTGGCCGAACCTGAAGGAGTACGAGATCGTCTCGTCCCTCCACGCCGGCTACAGTGTTGTGTTTCCACCGCCGCAGTCCCGTTTCCTCTGGGGCGGGAGGCCTCAGCACCCAAAGCTTTAG	MPEEKEPRTWQSAAASVAKGITGLAGLGGALVAIFAWFPMARDTLWPNLKEYEIVSSLHAGYSVVFPPPQSRFLWGGRPQHPKL				NA	NA	NA	NA	NA
D1-17_01943	1422			hypothetical protein	ATGTCCACGCCCGTCTCCCGGCGTAACTTCCTCGGGGCCGGCGCAAGCGCCGCCGCCCTGGGCTTCGTGTTCGCCGGCGCCGGCAGCCTCGCCCCGTTCGTCCGTCCTGCCAACGTTGCCACCCGCAATGCTGTCGGCTACGGCACCCTGGTTTCGGACCCCAACGGTATTCTCGCGCTGCCCGAAGGCTTTTCCTACAAGCTGCTTGCCCGTTCCGGCCAAACGGCAACGGCCGAAGGTATCCACCCGTCAGATCCGGACGGCATCGGAGTGTTTGATGGTCCCAACGGGGGATCTGTGTTGATTTGCAATCATGAAAACAGCGGAGAGGAGCCCTTCCCCGTTCCCCTGGTCGAGGGACTCACATATGATCCCGGAGCCAAGGGCGGCACCTCCACTCTCATCGTGGACGCAGAAGGCAACCGCGTGGGGCAGTACACGTCCGTCGCCGGCACCAACAACAACTGCGCCGGCGGCATCTCTCCATGGGGCACATGGCTGACCTGCGAGGAGACCGAAGACCGTGCCGGATCCGGAACAAACACCAAGGACCACGGCTACGTCTTCGAAGTGGACCCTGCCAGCCGCGAGGCCAACATCGGCCGCTCCACGGTGCCGCTGAAGTTTCTGGGCCGTTACTCCCACGAAGCCGTCGCGATCGACCCTGCCACCACCCAGATCTACCTTACTGAGGATGCGGGCAACCCCAATGGCCTCTACCTGCGTTGGAGCCCGCCCTCAGGTTTCAGCCCCGGGAAAGGCATGCTGCAGGCCCTCGCCCTGTCCTCGGGCGGCGACGTTGCGGGACGCCTGCAGGCGATGAAGTGCTTCCGCGGGTCCACCCACGTCGAGGACCTCTCCGAGGCCACCACGGTGGGCACGCGCTACGAGGTTGAGTGGATCGACGTTCCGGACCGTGACGCTCGCACCGCCGCAGTACGGAAGCAGTTCACGAAGGACCAGATCACCCGTGTCCGCAAGCTCGAAGGCCAGTGGTGGGGCGATGATGGAGCCTACTTCGTCTCAAGCTTCGCCCGCATCATTTACGGCAGCGCCAATAGCCATGACGGACAGGTCTGGTTCTACGACCCCGCCACCCAGAGCATCACCCTCAAGACCATCTTCGGGGTCAACCCCAACCCCAATGCGGAAAGCGGCCACTTCGACGGGCCCGATAACATCACCGTGGCACCGCAAGGCGGCCTGATCCTGGCGGAGGACGGCGACGGCGTCTCGCACCTGGTAGGCGTGACCAGTCAGGGCAGGTCCTACCCGTTGGCCCGGAACGAAGTGAACGATTCTGAGTTCTGTGGGCCGGCTTTCAGTAAGGACGGCAAGTGGCTCTTCGCCAACATTCAATCCCCTGGCTTTACCTTTGCGATCACTGGCCCTTGGATCCGTCCGTCCAATGACGCAGCCTAA	MSTPVSRRNFLGAGASAAALGFVFAGAGSLAPFVRPANVATRNAVGYGTLVSDPNGILALPEGFSYKLLARSGQTATAEGIHPSDPDGIGVFDGPNGGSVLICNHENSGEEPFPVPLVEGLTYDPGAKGGTSTLIVDAEGNRVGQYTSVAGTNNNCAGGISPWGTWLTCEETEDRAGSGTNTKDHGYVFEVDPASREANIGRSTVPLKFLGRYSHEAVAIDPATTQIYLTEDAGNPNGLYLRWSPPSGFSPGKGMLQALALSSGGDVAGRLQAMKCFRGSTHVEDLSEATTVGTRYEVEWIDVPDRDARTAAVRKQFTKDQITRVRKLEGQWWGDDGAYFVSSFARIIYGSANSHDGQVWFYDPATQSITLKTIFGVNPNPNAESGHFDGPDNITVAPQGGLILAEDGDGVSHLVGVTSQGRSYPLARNEVNDSEFCGPAFSKDGKWLFANIQSPGFTFAITGPWIRPSNDAA				NA	NA	NA	NA	NA
D1-17_01944	330		COG3631	putative protein	ATGGACGCGCTGCGAAATCTCTTCACCGAAGACGCGATCTGGCACCTTGGAGGCACAGGCGGGCTGACCGGTGACAAGCAGGGCCGGGATGCCATCCTCGCGTATTTCGGCGAGCTGTTCTCGCGGGCCGCCGGGACAGTGAAAGTTGAAGTCGATGATCTGATTAGTGGCCATAAGCACACCGCCGGCTTTCAGAGAGTGCACGCCGAGCGGAATGGAAAGGCCATCGACCAGCGCGCGGCCCTCGTATTCACGCTCCGCGACGGGAAAGTAAGTGAAGTGTATGAGTTCCAGCAGGACAGCGCCAAGGCTGCAGAATTCTGGTCATAG	MDALRNLFTEDAIWHLGGTGGLTGDKQGRDAILAYFGELFSRAAGTVKVEVDDLISGHKHTAGFQRVHAERNGKAIDQRAALVFTLRDGKVSEVYEFQQDSAKAAEFWS				NA	NA	NA	NA	NA
D1-17_01945	297			hypothetical protein	ATGGCAAACACAGTGACTTTTTCCGTGACGACCATGCCCAAGCCGGGCTCCCAAGGCAGTTTCCGCGACACAGTCCAGAACCTGCCCACAGATCAGCTTGAGGACTGCTTTCTGTCGGTCTTCCACATCAGTGACTCCTATGCCCTGCTCAATGGTGAGGCGCTCCCCGGTGCGCACACAGCCTCCAATGCCGCGCTCCGCGCGTACTTGGCCCGCCGGCTCACCAGCAACGGTGACCTGCTGGATTTCGATGTGAAGATCGATCATGCCTCGGAGTCCGCCCGCTCCCGCTCGTAA	MANTVTFSVTTMPKPGSQGSFRDTVQNLPTDQLEDCFLSVFHISDSYALLNGEALPGAHTASNAALRAYLARRLTSNGDLLDFDVKIDHASESARSRS				NA	NA	NA	NA	NA
D1-17_01946	1467	yhdG_3	COG0531	putative amino acid permease YhdG	ATGAGCACGACTTCTGATGAACTGTATGACGCACCTGCCGCCGGAGAAGAACCACAGCTCAAACGTGTCCTTGGACCCAAGCTCCTGCTCCTTTTCATCGTTGGCGACATCCTTGGTGCCGGAGTTTACGCTGTCACGGGAACCATGGCCGGAACCGTCGGGGGCATCGTCTGGCTGCCGTTCCTGCTGGCATTCGTCGTCGCCACTCTGACAGCGTTCTCCTATCTGGAGCTCGTAACGCAGTACCCCCAGGCTGCGGGCGCAGCGCTGTACACCCATAAGGCGTTCGGCATTCACTTCGTGACCTTCCTGGTGGCGTTCGCCGTCGTCTGTTCCGGAATTACGAGTGCTTCAACATCCGCCAATGTGCTTGCCCAGAACTTTTTCGGCGGCCTCGCGATCAATGGCTGGATGGGCCTGCCCGGAAGGGAAACGACCACCGCAGTGGCCATGGGCTTCATGCTGCTGCTGGCGGCGGTCAACCTGCGGGGTGTGGGGGAGAGCGTGAAGTTCAACGTTGTCCTCACGCTGGTCGAGATGACGGCGCTGTGCATCGTCATCGGTGTCGGTTTCTTCGTTCTGACGCAGGGGACCGGGAACGCCGGAGAAATCTTCGTCTTTAATGACTATCAGGACAAGGGCCTGTTCCTGGCAGTCACAGCGGCAACGTCCATTGCGTTCTTTGCCATGGTGGGTTTCGAGGATTCAGTAAACATGGTTGAGGAGACCAGGGAGCCCGAAAAGATCTTCCCGAGGAGCATGCTCACCGGCCTGGGCATAGCAGTGCTCCTCTACATGCTGGTGGCTGTTTCCGTGGTCAGCGTGCTCTCGCCCACCGAGCTTGAGGACATCAGGAAGGCCGAGGGCGCCGCGCTCCTCGAAGTGGTGCACAAAGGTTCCCCGGACTTCCCGATCGATAGGATTTTCCCGTTCCTGGCCGTGTTCGCGGTGGCCAACACCGCGTTGATCAACATGCTGATGGCCAGCCGCCTGATCTACGGTATGGCTCGTGCACACGTCCTGCCGCGACCGTTGGGAAAGGTGCTGCCCGTCCGCCGCACACCGTGGGCCGGCATTCTCTTCTCCACAGTGCTCGCGCTCGGATTGATCTGGTACGTCAGCAGCGACCCCGAAAGCAATATCGTCGCCAACCTTTCGGGTACGACGGCGTTCCTGCTGCTGTGCGTCTTCACCGTGGTAAACGTGGTCTGCCTGGTGCTTCGGCGCAAGAGGGACCCCAACCGCAAGGTATGGTTCACCTCACCCGGGCAGCTGCCCCTGCTGGCTGCCCTGCTGTGCGCCTTCCTGGCTGGGCCGTGGGTGGGTCGGAACCCGGTTCAGTACCAGGTGGCCGGAGGGCTGATAGCCATCGGCATTCTGCTGTGGTTTATTACCTGGCTGATAACCAAAAGGACCAATGCCGGCAGGGACGGAGCGGCCGGCGCCAGCCACAGCGGACATCCATAA	MSTTSDELYDAPAAGEEPQLKRVLGPKLLLLFIVGDILGAGVYAVTGTMAGTVGGIVWLPFLLAFVVATLTAFSYLELVTQYPQAAGAALYTHKAFGIHFVTFLVAFAVVCSGITSASTSANVLAQNFFGGLAINGWMGLPGRETTTAVAMGFMLLLAAVNLRGVGESVKFNVVLTLVEMTALCIVIGVGFFVLTQGTGNAGEIFVFNDYQDKGLFLAVTAATSIAFFAMVGFEDSVNMVEETREPEKIFPRSMLTGLGIAVLLYMLVAVSVVSVLSPTELEDIRKAEGAALLEVVHKGSPDFPIDRIFPFLAVFAVANTALINMLMASRLIYGMARAHVLPRPLGKVLPVRRTPWAGILFSTVLALGLIWYVSSDPESNIVANLSGTTAFLLLCVFTVVNVVCLVLRRKRDPNRKVWFTSPGQLPLLAALLCAFLAGPWVGRNPVQYQVAGGLIAIGILLWFITWLITKRTNAGRDGAAGASHSGHP	PGPT0020810_2436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
D1-17_01947	618			hypothetical protein	ATGACCGTGATCGATCCGGAATTGCTGATCTTTGAGTACAGGCTCCGCTACCGGGGCGTTCCAGGGCCGGAGCATTCCCCGCGGGGCTACCCGATGCGATGGGAGATTACCGTTACGACTGCCAGCGGGACGGCAGGCAGTTCTGACGCAAGACAGACTGACGGCATTGCCGAGGGGCGAGAAGTGCAGGTGGGCAGCGCCGTCGTGCAGATTGTCCCGAAAGCCGGAATGATTAATCTGTTCGTTACGACGGATGGTGCCGATCCTGAGATGACACGGATCGCGGACATGCTCACCGCCGAGCGCCCGGACCTGGTCAGTGAGTACCTGCAGGACGGCGGGGACCTGATGATCGTCTCTACCTTGGAGATCCTCCCCGAGTACCGCGGCGGCCGCATGGGATACACGGTCCTGCACGCGATTGTGGAAACTGTGGGCCGGTCCGTGGACCTGGTCGTCGTCCACCCTGTGCCGGCCGCGGGCTGCGGTTCTCCCCCGGAGGGTTCGGCGGAGTATGAAGAGGCTAAAGCCGCTCTTAAGGCATACTGGCAGGACTTCGGGTTCGACGAGGCAGCCGGCGAGTATCTGGCCTTTGCCAAGAGGCGGCTTCTGGAATAG	MTVIDPELLIFEYRLRYRGVPGPEHSPRGYPMRWEITVTTASGTAGSSDARQTDGIAEGREVQVGSAVVQIVPKAGMINLFVTTDGADPEMTRIADMLTAERPDLVSEYLQDGGDLMIVSTLEILPEYRGGRMGYTVLHAIVETVGRSVDLVVVHPVPAAGCGSPPEGSAEYEEAKAALKAYWQDFGFDEAAGEYLAFAKRRLLE				NA	NA	NA	NA	NA
D1-17_01948	198			hypothetical protein	ATGTGCTATTCATCGTGCGAGGGGTGGCGGAGCTACAGGAAGGATCGCGCCCGGGAAACCGAAGACCGCCAGGAGACGAGGCCTGACAGGGCCCCCGAACCTCAGGTGCAGACAGAGGAATCCAGGATGTGGGCCTACCTGGCCCGCATGGAAAAGAGCGCTGCTGATCAGCCTGACCGGATCGGCGAACGCGTTTGA	MCYSSCEGWRSYRKDRARETEDRQETRPDRAPEPQVQTEESRMWAYLARMEKSAADQPDRIGERV				NA	NA	NA	NA	NA
D1-17_01949	543	yqeY	COG1610	putative protein YqeY	ATGTGCAGGCGGCCCTCAAGGGTGCACGATGGGATTACCCACGCCCTTACGGTGCCGCTACTGCTGGATGAGGAAGCCATGAGCACATTGAAGGAACGCCTGCACGCCGACGTTGTCGCCCACATGAAGGACCGCAACAAGGTGGCCCTCACTACGGTCCGTAATGTCCTTGGTGAAATTGAAACGCGTGAGAAGTCAGGCAAGACGCCGGTGGAGCTCGATGACACCCAGGTCACGGCTTTGCTGCAAAAGGAGGCTGCCAAGCGCCGCGACACCGCCCGGATTTATACGGAAGCGGGGGAGAACGACCGTGCTGCAGCGGAAGTTGCCGAGGCTGAGGTCATCGAGGCGTACCTGCCCCAGCCGCTGACGGCAGCCGAGGTCGAAGCGATCGTGGATGAATCCATCGAGGCCCTCAGGGCGGAGGGCGCCGAGCTGTCAGTGCGGCAGATGGGCGCCGTGATGAAGCCTGTGACCGCACGGGTTGCCGGGCGCTTCGATGGGAAAGCTGTGAGCGAGATTGTCCGCACGCGCTTGTCCTGA	MCRRPSRVHDGITHALTVPLLLDEEAMSTLKERLHADVVAHMKDRNKVALTTVRNVLGEIETREKSGKTPVELDDTQVTALLQKEAAKRRDTARIYTEAGENDRAAAEVAEAEVIEAYLPQPLTAAEVEAIVDESIEALRAEGAELSVRQMGAVMKPVTARVAGRFDGKAVSEIVRTRLS	PGPT0030490_516	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
D1-17_01950	771			hypothetical protein	ATGCCTATGGTTTCTTTCACCGCAGCAGTCCCGACCGTGCCCGAGGACTGGTGGAACCGGATAGCCGCAGGTTTCGCCCGGTCCGAGGTTCCGGCAGTCACCGTTACCGAGCTGCTCACCGTCGTCCTGATCGCCGTCGTCCTTTCTGTCCCGAACGCAACGTGGCGGTATTTCGGTTTGTTCGCGACAGTGACGCATGAACTTGGACACGCGTTTGCGGCTCTAACCAGCGGCCAGCGTCTGGGCGGAATCAAGCTCAGGCTCAACCACTCCGGCACCACCACCTCGTTTACGCGAGGGCGTTTCGCAGCGGTGTGGTCAGGATTCTGGGGGTATCCCGTCCCCGGCGTTACGGGTGCGGCCCTGGTCTGGTCAGGCTTCAATGGCTGGGGACCCGCAGCCATGTCCACCGGGCTTCTGGTTTTGCTTGCATCCCTGATCTTCATCCGCAATGCGTCGGGTGTGCTGATCCTGCTGGCAACAGTGGCCTGTGCCGGAGCCCTGGTCCTGGCAGTGCCCTCAGTATTCGCGGGGCATATAGCCATCATCCTGGGACTTGCCCTGCTCGTAGCCGCCGTCCGGGATCTGGGCAAGCTCACGAACGTGCACCTTCGCAGGCGCGATCAGCTGGCCACCTCCGACGCGTACATCCTGTACCGGGCGACCGCGGTACCCTCCGGGGTGTGGATCGCCCTTTTCTCCCTCGTCGTGGCCGTTTCATGGATTGTTGCCTGGCAGCGGATGTCGCGGATCTTCGCAGGTGGCGCATAG	MPMVSFTAAVPTVPEDWWNRIAAGFARSEVPAVTVTELLTVVLIAVVLSVPNATWRYFGLFATVTHELGHAFAALTSGQRLGGIKLRLNHSGTTTSFTRGRFAAVWSGFWGYPVPGVTGAALVWSGFNGWGPAAMSTGLLVLLASLIFIRNASGVLILLATVACAGALVLAVPSVFAGHIAIILGLALLVAAVRDLGKLTNVHLRRRDQLATSDAYILYRATAVPSGVWIALFSLVVAVSWIVAWQRMSRIFAGGA				NA	NA	NA	NA	NA
D1-17_01951	1062	yqjG	COG0435	Glutathionyl-hydroquinone reductase YqjG	ATGAATGAGAAACCCAGCAGCGTCAGGGAACACAGCACTAAGGGCGCCTACGTCACCGGCGGTGAATTCAACCGCGACACGAACTACATCGAGGACAGGATCACCCGGGACGGACACCCTGGGCCCAACGGTGAACCGGGCTGGCCAGTAGAGCCGGGCCGCTACAGGTTGATCGCTGCCCGTGCCTGCCCCTGGGCCAACCGCACCGTCATCGTCCGACGTCTGCTGGGACTGGAGGACGTCATCTCGCTCGGCCAGCCCGGCCCCACGCATGACGCCCGTTCCTGGACCTTCGACCTTGACCTCGATGGCAAGGATCCCGTCCTCGGCATCGAGCGGCTCCAGGAAGCGTACTTCACCCGGTTCCCGGACTATCCGCGCGGCATCACCGTTCCCGCCATCGTCGACATCGCCAGCGGTGCGGTGGTGACCAACAACTATCCGCAGATCACCCTTGACTTCTCCACGGAGTGGACCGACTTCCACCGGCCTGGCGCCCCGCAGCTCTATCCGGAACACCTCCGGAACGAAATCGACAGTGTCAACAAGCGAGTCTTCACCGAGGTCAACAACGGCGTCTACCGGTGCGGTTTCGCCGGCTCGCAGGAAGCTTACGACGCCGCTTACGCCCGCCTCTGGACGGCGCTGGACTGGCTGGAGGAACGGCTGGCACGGCAGCGGTACCTCGTAGGCAATTCCATCACCGAGGCTGACGTCCGGCTCTTCACAACTCTTGCCCGGTTCGACGCCGTCTACCACGGGCATTTCAAGTGCAACCGGAACAAGCTCAATGAGATGCCGAACCTGTGGGGCTACGCCCGGGACCTGTTCCAAACCCCAGGCTTCGGGGACACCATCGACTTCGTACAGGTTAAGCAGCACTATTACATCGTCCATGAGGACATCAACCCCACCGGCATCGTCCCCGCCGGACCCGACCTTTCCGGGTGGCTCACTCCCCACGGCCGGGACGCACTGGGCGGCAAACCTTTCGGCGAAGGAACCCCGCCTGGGCCTGTCCGCGCCGGGGAAGAAGTTGCCCCCGGGCACGGAGCCGGCTGA	MNEKPSSVREHSTKGAYVTGGEFNRDTNYIEDRITRDGHPGPNGEPGWPVEPGRYRLIAARACPWANRTVIVRRLLGLEDVISLGQPGPTHDARSWTFDLDLDGKDPVLGIERLQEAYFTRFPDYPRGITVPAIVDIASGAVVTNNYPQITLDFSTEWTDFHRPGAPQLYPEHLRNEIDSVNKRVFTEVNNGVYRCGFAGSQEAYDAAYARLWTALDWLEERLARQRYLVGNSITEADVRLFTTLARFDAVYHGHFKCNRNKLNEMPNLWGYARDLFQTPGFGDTIDFVQVKQHYYIVHEDINPTGIVPAGPDLSGWLTPHGRDALGGKPFGEGTPPGPVRAGEEVAPGHGAG	PGPT0013050_449	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393	NA	NA
D1-17_01952	1056			hypothetical protein	ATGGCCGAACGAATCCGGCGTGCCCTTGCGGCTCCGCGGCTACAGCTGGCGGCCAAAGCAGGCCTTGCCGCCGGCCTGGCGTTCCTCACCGCCCCCCACATGCCGGGCGCCGCTGCCAACTACGCCTACTACGCGCCCCTGGGCGCCCTGGTGGTGATGTACGAAAACGTCGCCGGCTCCATGCGACAGGGACTCCAGACTCTCGCAGGCCTCGCCGTAGGAATCGGACTGGCCTTCCTGCTTCTCCGTTTCGGCGCGACGCCGCTTTCAGTAGGTTTGGTGATGGCGCTAGGGGTGTTGCTGGCCGGGCTTCCCCGGGTTGGGGCCGGCCGGGACTGGATCCCGACGGCGGCGCTGTTGGTCCTGCTGGTGGGCGGCAGCAATCCCGACGATTTCTCCTACGGCTACCTGTTCCAGATGGGGGTCGGCGTCGCGGTGGGCGTCGCCGTCAACCTGCTCGTCTTCCCGCCCCTCCACTTCAACGCGGCCGCCCTGAGCCTGGCCGAACTGCGGTTTGCCCTGGCCCGGCAGCTGAAGGATATGGGAGCGGCAGTCCACGAAAAGTGGCCACCGGAGCACGAGGACTGGTCCCTTCGCTCCGACGAGCTGGCAAAGTCAGCGGGGTCTGTCCGCGCCGCCGTCCAGAAGGCCGATGCAAGCCGGGAAGCGAACCCGCGGCGGCGCTTCCACCCCCGCAACGTGGACCTGGATTACCGCAACCTCCGCGACCTGGAACGCATCACGTTCTACATCCAGGACATGACAGAGGTCCTCGCCGAAGTTATCTGGAACAAGGACCTGCCCTTCACCATCCCCATGGCCCACAGCGAGCCCCTGGCCAAGGCACTTACCACCGTCGGAGAGGTTCTGCGCGCGGCCGAAGAGGAAGACGAAGAGCGGCAGCACGAGCTGAAGCAGGAAGCGCACCGAGCTGTCGACGCCCTGAGGGCGCGCATCCTTGAAGACGACGCCGACGCTGGCGCGCCAAGCGCCGCCGAGTCCATCCTGCTCAGCCTCCACCGGATCCTGCGTGTGACCCGGGCGCAGGACAGCTAA	MAERIRRALAAPRLQLAAKAGLAAGLAFLTAPHMPGAAANYAYYAPLGALVVMYENVAGSMRQGLQTLAGLAVGIGLAFLLLRFGATPLSVGLVMALGVLLAGLPRVGAGRDWIPTAALLVLLVGGSNPDDFSYGYLFQMGVGVAVGVAVNLLVFPPLHFNAAALSLAELRFALARQLKDMGAAVHEKWPPEHEDWSLRSDELAKSAGSVRAAVQKADASREANPRRRFHPRNVDLDYRNLRDLERITFYIQDMTEVLAEVIWNKDLPFTIPMAHSEPLAKALTTVGEVLRAAEEEDEERQHELKQEAHRAVDALRARILEDDADAGAPSAAESILLSLHRILRVTRAQDS				NA	NA	NA	NA	NA
D1-17_01953	912			hypothetical protein	ATGAGCGTGGGCCAGCCCGTCATCCTGGGCGAGATGCCGTCGCTGTCCAAGCTGTATGTGAATGCGGCTGCCGGGGCGGCACGGCGCCGGATCCTGGGATCCCCGGCCGGTGACGCCCTGCCTGCCGTGAGCCATGAAGTTCGCGAGGCAAGGGCCGACGTCGAAAACCTGACCGCCTACCAGCACCTGATCGGTGAGTCCGCCAGCGATGTACTCCCCGCAGGGTTTATGCATGCCATGGCCTTCCCCGTGGCGATGAGCGTTCTGAACAGGGATGACTTCCCCTTGCCGCTGCTGGGCATGATCCACCTCCGCAATGTGGTCGAACAGTTCATCCCGGTGCTCTTTACCGAGCGCTTGGACATTACTGCCCGCGCGGAGGGGCTGCGCGCCCATCGGGCAGGGACCCAACTGGACGTCGTGGCCGAAATCCGCGGTTCAGGGGACGGTATGGTCCGCTGGCGGGGAGTTTCGACGTATCTTGCGAAGGGCATCTTTCTTCCCGGGATAGATAAGGCCTCGGCCGTGGGGCGTCCGGGGGACTTCAAAGCGCCGAACCCGACGGCGGTCTGGCAGTTGGGAGTCGACACCGGGCGTGCTTACGCGGCCGTCTCCGGGGATTTTAATCCCATCCACCTCAGCGCGCTCTCTGCGAAAGCCCTGGGGCTGCGGCGGTCAATCGCCCATGGCATGTACCTGGCGTCACGGGCGCTCGCGGTGGTCGGCACCGCCAAGGGCGACTCGTTCCGCTGGGACGTTTCCTTCGAGGCGCCCGTGTACCTCCCGGCACGCGTCGCGCTGGAGATCTCCACCGCGCAGGGGGAGGGTGACGCGTTGCTGAGGTCGGATTACGTGGCCTGGAGCCCAAGTTCGGGCCGCCGGTATTTCAGCGGATCCGTCACTGCCCTGTGA	MSVGQPVILGEMPSLSKLYVNAAAGAARRRILGSPAGDALPAVSHEVREARADVENLTAYQHLIGESASDVLPAGFMHAMAFPVAMSVLNRDDFPLPLLGMIHLRNVVEQFIPVLFTERLDITARAEGLRAHRAGTQLDVVAEIRGSGDGMVRWRGVSTYLAKGIFLPGIDKASAVGRPGDFKAPNPTAVWQLGVDTGRAYAAVSGDFNPIHLSALSAKALGLRRSIAHGMYLASRALAVVGTAKGDSFRWDVSFEAPVYLPARVALEISTAQGEGDALLRSDYVAWSPSSGRRYFSGSVTAL				NA	NA	NA	NA	NA
D1-17_01954	1335			hypothetical protein	ATGACGGATACATACGCCCGGCTGGTCAGCAAGGATCCGGGCAAGGACCTTGCCAGGAAGCTAGGGCTTCCGCAGCCGGCCGCGCTCCGGCGCTACGAACCCGGCCAGCCCCTCGTTGCCGGACCTGTGCTGGTCATAGGGACCGGTACTGGAGCGGATGACCTGGCCGGGGAGCTCGTGGCCTGGAACCTGGATGTCCGGCGGCACCCTGTTGCCAGGGAACGGCTCGGCGCGGTTCTGCTGGCGCTGGACGATCTTGAATCACTTGCCGACCTTGAACAGCCGGTGCTTTCGGCGGGGAACGCCCTGCGGGAGCTGGCACCGAACGGGCGCGTGATCATCATTTCCCGCGATCCCGACGGCAGCCGCCCGGCCGCTGCTGCCGCCCGCCAAGCGGTGGGCGGCCTGCTCCGTTCCCTGGCCAAGGAACTGCGGGCCGGAGCCACGGGCAACGGCATCGTCCTTGCCGGCGGCGTCGGCACCACCGCTCCCTCCGTGCTCGGTGCGCTCCGGTTCTTCCTCTCGGGCCGGTCGGCCTTCGTCGACGGGCAGTTGCTGCGGGTCGGGTCGGCGTCGGGCAGCCTCGCCGCAGCACCCGATGCACCCCTCGCCGGAAAGGTCGCCGTCGTCACGGGCGCCGCCCGCGGCATTGGGGCTTCCATTGCCCGGACGCTGCACCGGGATGGAGCAACGGTGGTGGCTGTGGACATTCCCGCCGCGGGAGACCATCTGGCAGCGGTCGTCAACGGGATCCGCGGCACCGCGCTCCAGCTCGATGTCACGCGGCGGGACGCCGGCGAGCGGATCCTTGACCACGCCGGCCGGCACGGACGGCTGGACATCATGGTGCACAATGCAGGCATCACCCGGGACAAGCTGCTGGTGAACATGGATCATGCGCGGTGGAGTTCCGTCATGGCAGTGAACGTCGAGGCCCAGCTGAGGATCAATGATGTCCTCCTGCCTTCCGGCCTCTTCCGCTCCGCTCCAAGAATCGTCTCGGTGGCGTCCACCAGCGGCATCGCTGGCAACAGGGGGCAGACGAACTATGCGGCCTCCAAGGCGGGCGTGATCGGCATGGTCCGGGCCACGGCCCCCCTGCTCGCGGAGTACGGCGGTTCCATCAATGCTGTGGCTCCGGGTTTCATTGAGACGGAAATGACGGCCCGGATGCCGTTTGCGCCCCGGGAGATTGCGCGGCGGCTGAATTCGCTCCAGCAGGGCGGACGGCCTGAGGACGTTGCCGAAGCCATCGCGTTCCTCGCCAGCGACGCCGCCGGGGGCATATCCGGAGAGGTGCTGAGAGTGTGCGGACAAAATCTGGTGGGGGCATGA	MTDTYARLVSKDPGKDLARKLGLPQPAALRRYEPGQPLVAGPVLVIGTGTGADDLAGELVAWNLDVRRHPVARERLGAVLLALDDLESLADLEQPVLSAGNALRELAPNGRVIIISRDPDGSRPAAAAARQAVGGLLRSLAKELRAGATGNGIVLAGGVGTTAPSVLGALRFFLSGRSAFVDGQLLRVGSASGSLAAAPDAPLAGKVAVVTGAARGIGASIARTLHRDGATVVAVDIPAAGDHLAAVVNGIRGTALQLDVTRRDAGERILDHAGRHGRLDIMVHNAGITRDKLLVNMDHARWSSVMAVNVEAQLRINDVLLPSGLFRSAPRIVSVASTSGIAGNRGQTNYAASKAGVIGMVRATAPLLAEYGGSINAVAPGFIETEMTARMPFAPREIARRLNSLQQGGRPEDVAEAIAFLASDAAGGISGEVLRVCGQNLVGA	PGPT0003180_566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_01955	1356	fadI	COG0183	3-ketoacyl-CoA thiolase FadI	ATGTCCACTGAGGGGCACTCATTTAATGGAACCGGGGAAGCTGTGGCCTCGTCCGGCCCAACCCTGCGTTCGGCAGTTGTGGTGGGCGGCAACAGGATTCCCTTTGCCCGCACTGGTGGCGCCTATACGAAGTCCTCAAACCAGGACATGCTCACAGCTGCCCTTGACGGCCTGGTGGCCCGCTTCGGCCTGCAGGATGAACGGATCGGAGAAGTTGCTGCCGGCGCGGTGCTCAAGCACTCCCGCGACTTCAACCTCACCCGCGAAGTCGTCCTCGGCTCGGCTCTCTCTGCCGAAACCCCCGCCTATGACCTGCAGCAGGCCTGCGCCACCGGGCTGGAAGCGGTGCTCGGCCTGGCCAATAAGGTCAGGCTGGGGCAGATTGAGTCGGCCATCGCGGGCGGTGTGGACTCCGCATCCGATGCGCCGATTGCAGTGAGCGAGGGGCTCCGGGAAATCCTTTTGGACCTGAGCCGGGCCAAAACTCTGCCACAGAAGCTGCAGGTTCTCGCGAGGCTGCGCCCCAAGGACCTTGCTCCCGACGCTCCCAGCACCGGCGAACCCAGGACCGGCCTGTCAATGGGGGAGCACCAGGCCCTGACCACTGCCCAGTGGAAGATCACCCGCGAGGCGCAGGACGAGGTGGCCTACAACAGTCACCGCAATCTCGCCGCCGCCTATGACGCCGGATTCTTCGACGACCTCCTCACCCCCTACCGGGGGCTGGGCCGGGACTCGAACCTTCGCCCGGACACCAGCCTTGAGAAGCTGGCCACCCTGAAGCCCGTCTTCGGGCGCAACCTTGGCTCGGAAGCCACCATGACGGCTGGCAACTCCACTCCGCTGACCGACGGAGCCTCTACCGTTTTGCTGGCTTCGGAGGAGTGGGCTGACAGTCACGGTCTGCCCAAGCTCGCAACTGTCGTGGATGGTGAAGCCGCGGCAGTGGACTTTGTCCATGGCAAGGACGGCCTGCTGATGGCCCCGGCGTTCGCTGTGCCGCGCCTGCTAGCACGCAACGGCCTGACCCTGGACGATATTGACTACTTTGAAATCCACGAGGCCTTTGCCGGAACCGTCCTGAGCACGCTCGCCGCCTGGGAGGACGAGGAATTCGGACGGACACGGCTTGGACTGGACGGCGCATTCGGCAAGGTAGACCGTTCCCGGCTCAACGTCCACGGTTCCTCCCTGGCTGCGGGGCACCCCTTCGCGGCCACCGGGGGCCGTATCGTGGCGACACTTGCCAAGATGCTGCACGAGAAGGGCACCGTCAATGGGCGGCCCGCCCTGGGCCTCATTTCCGTCTGCGCTGCCGGTGGACAGGGCGTCGCCGCACTGCTGGAAGCACGCTAG	MSTEGHSFNGTGEAVASSGPTLRSAVVVGGNRIPFARTGGAYTKSSNQDMLTAALDGLVARFGLQDERIGEVAAGAVLKHSRDFNLTREVVLGSALSAETPAYDLQQACATGLEAVLGLANKVRLGQIESAIAGGVDSASDAPIAVSEGLREILLDLSRAKTLPQKLQVLARLRPKDLAPDAPSTGEPRTGLSMGEHQALTTAQWKITREAQDEVAYNSHRNLAAAYDAGFFDDLLTPYRGLGRDSNLRPDTSLEKLATLKPVFGRNLGSEATMTAGNSTPLTDGASTVLLASEEWADSHGLPKLATVVDGEAAAVDFVHGKDGLLMAPAFAVPRLLARNGLTLDDIDYFEIHEAFAGTVLSTLAAWEDEEFGRTRLGLDGAFGKVDRSRLNVHGSSLAAGHPFAATGGRIVATLAKMLHEKGTVNGRPALGLISVCAAGGQGVAALLEAR	PGPT0008320_534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-17_01956	684			putative HTH-type transcriptional regulator	GTGAACAACCTCCTGCCTTCCGCCGGTTCTGAACCCGAAGCCGCTGCCATCGACGGCCGGGCTTCGAGATGGCAGTCTCATCGTGAGGAGCGCCGGAGGGAACTCATCAAAGCTGCCCGTCGGGCGGTCCACCTCCTAGGCAGCGACGCCTCGATGGAAGACATCGCCGCCGCCGCCGGAACCTCAAAGTCCGTTTTCTACCGGTACTTCCGGGACAAAGCCGGACTTCAGCAGGCCGTGGGAGACGTGGTACTCAACCAGATGCAGCGGCGAATCCAGGAGGCGGCGCAGGCGGCCCAGACCCCGCGCGAGGGCCTGCACGCCATGGTCTCGGCCTATCTGCAGATGGCCGAGACCAGCCCTAACGTGTACACGTTTGTTACCCGGTACTCGGCATCGGATACCGACGGCGGCCAGGGCATCGCCACGGCCGGGGCGCTGGGCCACTTTTTTGACGCTATCGCGGACATGATCGCCCGGCCCATGCGCGCCCACCTCGGTCCGGGCAAGGAAGCTGTGATCGGCTACTGGCCGAACGCCGCGATCGGGCTTGTCCGGAACGCGGGTGAACAGTGGCTGGCCAGCCCCGACTCCCCCGAGAAGCCTGATCAGGAAACGATGGCACGCCAGATCACGGCCTGGCTGTGCCTGGGTATCGCACCCGAGCTCAACGACGTTCCCTAA	MNNLLPSAGSEPEAAAIDGRASRWQSHREERRRELIKAARRAVHLLGSDASMEDIAAAAGTSKSVFYRYFRDKAGLQQAVGDVVLNQMQRRIQEAAQAAQTPREGLHAMVSAYLQMAETSPNVYTFVTRYSASDTDGGQGIATAGALGHFFDAIADMIARPMRAHLGPGKEAVIGYWPNAAIGLVRNAGEQWLASPDSPEKPDQETMARQITAWLCLGIAPELNDVP				NA	NA	NA	NA	NA
D1-17_01957	2058			hypothetical protein	ATGACTGAACTAGCAGACCGTCCCCCTGGCACCACCATCGGCGCAGTCGACGGCGGCCGGCCGGCCGTTGACGTGGCGGCACTGCATGAGCAGCTGCTGGGGAAATGGGCGGACATCCGGCGCCAGGCGCGGGAACTTGCAGCGAGGCCCGAGCTGCACAAGATCGAGGGCCTGACGCACACCGAACATCGGCAGCGCACGTTCGGCCAGCTCCGCTACCTTGTGGACAACGGAGGCGTGCACCGCGCGTTCCCCTCGGACGTGGGCGGTTCAGACGACCACGGTGGCAACATTGCAGGATTCGAGGAACTGGTCACCGCCGACCCGTCCCTCCAAATCAAGGCCGGCGTGCAGTGGGGACTCTTTGGTTCGGCCGTGATGCACCTGGGCACCGGTGAGCACCACCGGAAGTGGCTGCCGGGCATCATGAACCTGGAAATCCCGGGCTGTTTCGCCATGACGGAGACGGGGCACGGTTCGGACGTGGCGAGTATCGCCACCACCGCCACGTACGACGCCGGCACCCGGGAATTCGTCATCAACACGCCATTCCGTGGTGCCTGGAAAGACTACATCGGCAACGCCGCCGTCGACGGGCTCGCTGCCGTGGTGTTCGCACAGCTCATTACCCGCGGCGTGAACCACGGGGTCCATGCCTTCTACGTGAATCTGCGGCACCCGGACACCAAGGAGTTTCTGCCCGGGATCGGCGGCGAGGACGACGGCGTCAAGGGCGGCCTGAACGGGATCGACAACGGCCGCCTGCACTTCAGCAATGTCAGGATCCCCCGCACGAACCTGCTCAACCGCTACGGCGACGTGGATGCCGACGGACATTACAGCTCGCCCATCGCCAGCCCGGGCAGGCGCTTCTTCACGATGCTTGGCACCCTCGTGCAGGGCAGGGTCAGCCTCGACGGGGCCGCTGTGGCGGCCTCAAAGCTCGCCCTGAAGACTGCCATCACCTATGCCGCCGAGCGCCGTCAGTTCAACTCCTCCTCGCTGACCGAGGAAGAGGTGCTCCTTGACTACCAGAGGCACCAGCGCCGGCTCTTCACCCGTCTGGCCACCACTTACGCCGCCGCGTTCGCCCATGAGCAGCTGCTGCAGAGGTTCGATGACGTGTTCTCCGGCCCGGAATGCACCGACGCGGACCGGCAGGATCTCGAGACTCTCGCCGCTGCCCTCAAGCCGCTGAGCACGTGGCACGCGCTGGACACCCTGCAGGAGTGCCGCGAGGCGTGCGGCGGCGCCGGCTTCCTGATGGAGAACCGTTTCGCCTCACTCCGCGCAGACTTGGACGTCTACGTCACCTTCGAGGGCGACAACACAGTGCTGCTGCAGCTGGTGGCCAAAAGGCTGCTGGCCGACTACGCCAAGGAATTCCGCAACGTCAACTTCGGGGTGCTGGCGCGCTACGTCGTGAACCAGGCGGCGGGTACCGCCATCCACCGGACCGGCCTGCGGGGTGTCGCGCAGTTTGTGGCGGACACCGGACTGCCCCAGAAAGCGGCCATCGCGCTGCGGGATGAGGAGAGCCAGCGCACCCTGCTATCGGACCGGGTGCAGACCATGGTTGCCGAGGCGGCCGCTTCGTTGAAGGGGGCCAACAGGCTCCCGCAACGCGAAGCTGCCGCCGTCTTCAACCGGCACCAGAACGAGCTGATCGACACGGCGCAGGCGCACGCCGAGCTGCTGCAGTGGGAAGCGTTCACTGAGGCCCTGACGCAGGTCAGGGATCCAGGGACGAAGAGCGTGCTCACGTGGCTCAGGGATCTCTTCGGGCTCTCCCTGATCGAGAAGAACCTGTCCTGGTACCTGATGAACGGCCGGCTTTCCATGCAGCGGGCGCGGACCGTGGGCGCCTACATCGACAGGCTGCTGGTCAAGATCCGGCCGCACGCCCTGGACCTGGTGGATGCCTTCGGTTACGGTCCGGAGCACCTTCGGGCCGCCATCGCTACCGGAGCGGAGCAACTGCGGCAGGACGAAGCACGCCAGTTCTACCGCCTCCAGCGGGCCAGGGGCAACGCCCCTGTCGACGAAAAGTCAGCTTAA	MTELADRPPGTTIGAVDGGRPAVDVAALHEQLLGKWADIRRQARELAARPELHKIEGLTHTEHRQRTFGQLRYLVDNGGVHRAFPSDVGGSDDHGGNIAGFEELVTADPSLQIKAGVQWGLFGSAVMHLGTGEHHRKWLPGIMNLEIPGCFAMTETGHGSDVASIATTATYDAGTREFVINTPFRGAWKDYIGNAAVDGLAAVVFAQLITRGVNHGVHAFYVNLRHPDTKEFLPGIGGEDDGVKGGLNGIDNGRLHFSNVRIPRTNLLNRYGDVDADGHYSSPIASPGRRFFTMLGTLVQGRVSLDGAAVAASKLALKTAITYAAERRQFNSSSLTEEEVLLDYQRHQRRLFTRLATTYAAAFAHEQLLQRFDDVFSGPECTDADRQDLETLAAALKPLSTWHALDTLQECREACGGAGFLMENRFASLRADLDVYVTFEGDNTVLLQLVAKRLLADYAKEFRNVNFGVLARYVVNQAAGTAIHRTGLRGVAQFVADTGLPQKAAIALRDEESQRTLLSDRVQTMVAEAAASLKGANRLPQREAAAVFNRHQNELIDTAQAHAELLQWEAFTEALTQVRDPGTKSVLTWLRDLFGLSLIEKNLSWYLMNGRLSMQRARTVGAYIDRLLVKIRPHALDLVDAFGYGPEHLRAAIATGAEQLRQDEARQFYRLQRARGNAPVDEKSA	PGPT0002290_347	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002290-aco|acx-K00232	NA	NA
D1-17_01958	1197	glgM	COG0438	Alpha-maltose-1-phosphate synthase	ATGCGAATAGACATTGTGACTAAAGAGTTTCCGCCGGAGATCTACGGCGGTGCGGGTGTCCACGTGGCCGAGCTGAGCCGGGTCCTGGCCCGGCAGGTAGACCTGCAGGTGCGTGCCTTTGGTGCACCCAGGGATGCTGACTACCACGGGGCGCACGTGACCTCCTACTCGGTCCCTGAGGATCTCGGATCCGCGAACGCGGCCGTCCAGACCCTCGGCGTCGACCTTCGCATCGTTCCGGACGTCCAGGGAGCCGACCTGGTCCATTCGCATACGTGGTACGCCAACATGGCAGGACACCTCGCCTCGCTGCTGCACGGCATCCCGCACGTGCTCAGCGCCCACAGCCTGGAACCGCTCCGCCCATGGAAGGCCGAACAGCTCGGCGGCGGCTACGCGCTGTCCTCCTGGGTCGAGAAGACTGCCTACGAGGCGGCCGCCGCGATCATCGCCGTGTCCGAAGGCATGCGCCAGGACATCCTGCGCAGTTACCCCGAGGTTGACCCGGCCAAGGTCAAGGTGGTGCACAACGGCATCGACGTCAGCCTGTGGAACCGGGACGAAAACGACGACGTTGTCCGCTCCCTCGGCATCGATCCCGAGCTGCCCAGCGTTGTGTTCGTGGGACGGAACACCCGGCAGAAGGGGGTTCCCTACCTCCTGCGTGCTGCCGCAAAGCTCCCCGCCGACGTGCAGCTGGTGCTTTGCCTCGGAGCCGCCGACACCCCCGAGCTCGCCGCCGAAACCGCACGGCTGATCGAGGAGCTGCAGAGCCAGCGCAGCGGCGTTGTGCTCATTGAGCGGATGCTGCCCCGCAACGAACTCATCCAGGTCCTCAGCCACGCCACCGCCTTCGCATGCCCGTCCATCTACGAACCGCTCGGCATCGTGAACCTCGAGGCCATGGCCTGCGGCGCCGCCGTGGTGGCCAGCGCCACCGGCGGAATCCCGGAGGTGGTGCAGCACGGTGACACCGGGCTGCTCGTGGACCTCGAACAGGTCACCGACGGCACTGGTACGCCGCTGGATCCGGAGAAGTTCGTCACGGACTTTGCCGCTGCCCTGACCGAAGTGGTTTCCGACCCCCAGCGCGCCCGAGCCATGGGCGAGGCCGGCAGGCGCCGCGCCGAGGAGCACTTCTCGTGGGAGTCAATTACCGAGACCACGCTCGACGTCTACCGTTCAGTGCTCAAATAG	MRIDIVTKEFPPEIYGGAGVHVAELSRVLARQVDLQVRAFGAPRDADYHGAHVTSYSVPEDLGSANAAVQTLGVDLRIVPDVQGADLVHSHTWYANMAGHLASLLHGIPHVLSAHSLEPLRPWKAEQLGGGYALSSWVEKTAYEAAAAIIAVSEGMRQDILRSYPEVDPAKVKVVHNGIDVSLWNRDENDDVVRSLGIDPELPSVVFVGRNTRQKGVPYLLRAAAKLPADVQLVLCLGAADTPELAAETARLIEELQSQRSGVVLIERMLPRNELIQVLSHATAFACPSIYEPLGIVNLEAMACGAAVVASATGGIPEVVQHGDTGLLVDLEQVTDGTGTPLDPEKFVTDFAAALTEVVSDPQRARAMGEAGRRRAEEHFSWESITETTLDVYRSVLK	PGPT0017715_310	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017715-glgM-K16148	NA	NA
D1-17_01959	1416	glgC	COG0448	Glucose-1-phosphate adenylyltransferase	ATGCCGTTGACTAAAAAAGTATTGGCGATTGTCCTGGCGGGCGGAGAAGGCAACCGCCTGATGCCGCTGACGGCAGACAGAGCCAAGCCAGCCGTGCCTTTTGCGGGCAGTTACCGGCTAATCGACTTCGCCCTCTCCAACCTCGTGAACTCCCGGTATCTCCAGATCGTGGTCCTGACCCAGTACAAGTCCCACAGCCTTGACCGCCACATCTCCGAAACCTGGCGCATGTCCACGCAGCTCGGCAACTACGTCGCCTCCGTTCCCGCGCAGCAGCGCGTGGGCAAGAGCTGGTTCCTGGGCAGCGCCAACGCCATTTACCAGTCGCTGAACCTGATCCACGACGCCAATCCTGACATTGTTGTCGTAGTCGGTGCCGACCACGTCTACCGGATGGACTTCGCGCAGATGGTGGAGCAGCACGTTCTCAGCGGCGCCAAGGCCACCGTTGCCGCCGTCCGGCAGCCGCTGCACATGGCCGACCAGTTCGGCGTCATCGAGGTGGACCAGGCGGACCCGCAGAAAATTGCGGCGTTCGTTGAAAAACCAGCGTCAACGCCGGGCCTTGCCGCCGACCCTAGCCAGTTCCTGGCGTCGATGGGCAACTACGTCTTCAACGCCGACGCCCTGGTCGACGCGCTGCACGTTGACGCCGAACGCCTCGACACCAAGCACGACATGGGCGGCGATATCATCCCCTACTTCGTGAACCGTGGCGAGGCCGGAGTCTATGACTTCACCCTCAACGACATCCCCGGGTCCACGGAACGTGACCGCACCTACTGGCGCGACGTCGGAACGATCGACTCGTTTTACGATGCCCACATGGACCTGATCTCGCCACTGCCGGTGTTCAACCTGTACAACTCCGAGTGGCCCATCTACACCCGCCAGAGCATCTCTCCGCCCGCGAAGTTTGTCCGCGGCGACAACAATACTGTCGGAACTGCCCTTGATTCCATCGTGGCCAGCGGCGTGGTCATCTCGGGCGGCATCGTGGAGGGCTCGGTGCTGTCCAACGACGTATACGTCGGAACCGCCAGCCGGGTCATTGACTCCGTGCTGATGGACAAGGTCCAAATCGGTGGGGGTGCCGTAGTACGGCGGGCCATCATCGACAAGAACGTGCGTGTCCCTGACGGTGCAGCCATTGGCCTCGACCCGGAACTGGACCGCGCCCGCGGCTTCAAAGTCACCGATTCGGGCATCACGGTGCTCTCCAAGGGGCAGTTCGTGCCGGAGCCGGACGACGCCGAGCGCGCGCTGTCCGCCGCAAACCTGCATTTGGTCCCCGATGCTGTGAAGGCCGCGACGGAGAACTGGCCAGAGGTACGCAGTTCGGTTGAGCAGGTGGGCAAGGTCCATGCTGCAGCTGTCGGCGTTGACTCCCCGCCCCAGCCTGCTGTTCGTTCCTGA	MPLTKKVLAIVLAGGEGNRLMPLTADRAKPAVPFAGSYRLIDFALSNLVNSRYLQIVVLTQYKSHSLDRHISETWRMSTQLGNYVASVPAQQRVGKSWFLGSANAIYQSLNLIHDANPDIVVVVGADHVYRMDFAQMVEQHVLSGAKATVAAVRQPLHMADQFGVIEVDQADPQKIAAFVEKPASTPGLAADPSQFLASMGNYVFNADALVDALHVDAERLDTKHDMGGDIIPYFVNRGEAGVYDFTLNDIPGSTERDRTYWRDVGTIDSFYDAHMDLISPLPVFNLYNSEWPIYTRQSISPPAKFVRGDNNTVGTALDSIVASGVVISGGIVEGSVLSNDVYVGTASRVIDSVLMDKVQIGGGAVVRRAIIDKNVRVPDGAAIGLDPELDRARGFKVTDSGITVLSKGQFVPEPDDAERALSAANLHLVPDAVKAATENWPEVRSSVEQVGKVHAAAVGVDSPPQPAVRS	PGPT0025885_658	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
D1-17_01960	105			hypothetical protein	ATGCTGCAGCTGTCGGCGTTGACTCCCCGCCCCAGCCTGCTGTTCGTTCCTGATTCCGGCTGCCGCCAACTCACCGAGGCAGGCCCGAATCCCAACAGGCTGTAA	MLQLSALTPRPSLLFVPDSGCRQLTEAGPNPNRL				NA	NA	NA	NA	NA
D1-17_01961	1452			hypothetical protein	ATGAGCTCCTCCGATCTGACGCCTGAAGAGATTCAGGCCTGTCTCAAGGTTTTGAACAGCATCCACGTCTACGACGAGGAGCATCCTGACTACGTCTCGGTACGCCGCGCCACCGGGAAGATGTTCAAGGCCGTCAAGCGCCACCGCCGCGTCACGAAACGGGACCTCATCGCAGAGGCTGACCGGGCCGTGCTCGCCCAGACCGCGACGGCCGCCCCGGACCGGATTGATGACGAAACCCGCGGCAACAAACTCGCCCCCTCGGCGACGGGCAAAGTGGCCGGCCACCTGATCAGGTCCCGGCCGTGCTACATCTGCAAGCAGCACTACACCCAGGTGGACGCCTTCTACCACCAGCTGTGCCCGGAGTGCGCGGCATTCAGCCACACCAAGCGGGACGCGCGCACCGACCTCACCGGCAGGCGTGCCCTGCTGACGGGCGGCCGGGCCAAGATCGGCATGTACATCGCCCTGCGGCTGCTCCGGGACGGCGCGCACACCACCATCACCACCCGCTTCCCCAAGGACGCCGCCCGCCGCTTCGCCGCCATGGAGGACAGCGCCGAATGGCTGCAACGGTTGAAGATCGTGGGAATCGACCTGCGCGACCCGTCCCAGGTCATGGCGCTCACCGACGACCTCAACGCCGCCGGGCCGCTGGACATCATCATCAACAATGCAGCGCAAACCGTCCGCCGCTCAGGCAACGCCTACAAGCCCCTGGTGGACGCGGAGGACGAGCCGCTTCCGGCCGCGCTCCAGGCAGGCAACGGAGGCCCTGAGCTGGTCACTTTCGGCCACGCCCATGACAAGCACCCGCTCGCCCTCGCCAGCAGCGTAACCGAGCATCCGGTGCTGGCCGGCGACGCCATCACATCCCTTGCCCTGTCCACTGGCTCCGCCTCCCTGGAACGCATTGCCTCCGGCACCGCAATTGACGCCGGCGGCCTGGTGCCCGACCTCGCGACCATCAACAGCTGGACGCAGGTAGTGGACGAGGTGGACCCGCTTGAAATGCTGGAAGTGCAGCTCTGCAACGTGACGGCACCCTTCCTGCTGGTCAGCAGGCTGCGTGACGCCATGAGGCGCTCCACCGCGCGGCGGAAGTACATTGTGAACGTCTCGGCAATGGAGGGGCAGTTCTCCCGCGCCTACAAGGGCCCAGGCCACCCGCACACGAACATGGCCAAGGCCGCCCTGAACATGATGACCAGAACCAGCGCCAAGGAAATGCTGGACACCGACGGCATCCTGATGACGGCTGTGGACACCGGCTGGATCACGGACGAGCGGCCGCACTACACCAAGGTGCGCCTGATGGAGGAAGGCTTCCATGCACCGCTGGACCTCGTGGACGGGGCTGCCCGCGTGTACGATCCGATCGTCATGGGCGAAAAGGGCGAGGACCAGTACGGCGTGTTTCTCAAGGACTACAAGCCGAGCCCTTGGTAA	MSSSDLTPEEIQACLKVLNSIHVYDEEHPDYVSVRRATGKMFKAVKRHRRVTKRDLIAEADRAVLAQTATAAPDRIDDETRGNKLAPSATGKVAGHLIRSRPCYICKQHYTQVDAFYHQLCPECAAFSHTKRDARTDLTGRRALLTGGRAKIGMYIALRLLRDGAHTTITTRFPKDAARRFAAMEDSAEWLQRLKIVGIDLRDPSQVMALTDDLNAAGPLDIIINNAAQTVRRSGNAYKPLVDAEDEPLPAALQAGNGGPELVTFGHAHDKHPLALASSVTEHPVLAGDAITSLALSTGSASLERIASGTAIDAGGLVPDLATINSWTQVVDEVDPLEMLEVQLCNVTAPFLLVSRLRDAMRRSTARRKYIVNVSAMEGQFSRAYKGPGHPHTNMAKAALNMMTRTSAKEMLDTDGILMTAVDTGWITDERPHYTKVRLMEEGFHAPLDLVDGAARVYDPIVMGEKGEDQYGVFLKDYKPSPW				NA	NA	NA	NA	NA
D1-17_01962	852		COG1305	putative protein	ATGACCCGGCTAAGCATCATCCACAAGACCGGCTACAAGTACAACAAGCGGGTGACGCTGTCCTACAACGAGGCGCGCATGACGCCGCTGACGGATCCGCAGCAAGTGGTGCTGGAGTCATCCCTGAAGGTCCTCCCGTCACAGGCTGCGGTGAGCAGTTACCGGGACTACTGGGGCACCCGGGTCACGGCTTTTGACATGCAGATGCCGCATGAACACCTCGAAGTCCTCTCCACCACCACGGTCGAAGTACACCGGGTGGAGCGCATCCCCTCTGAAGCGGACATTGTGGGCTGGGACCACTTGGCGTCATATGAGGTGCTGAACCAGCACAGCGACTGGATCCCGCAGTCGCAGCTCACCGGTCCCGGCGACGAAGTGCTCGCCATCGTCCCGGGCGTGGTGGAGGGTAAGAACCCCCACGACGCCGCGTTGGCGGTTTTTGAGTGGATGCGGGGTGAGATGACGTATATGAAGGGCTCCACCGGCGTCACCACCAATGCCGAGGAGGCCTGGAACCAGCGGCAGGGCGTCTGCCAGGACCTCGCCCACCTTGCCATCGGCGCTCTGCGCAGCTGCGGGATCCCCGCCCGATATGTGTCCGGTTACCTTCACCCGCGTTCGACGGCGGACATCGGTGAGACGGTTGCCGGCCAGTCCCACGCCTGGCTGGAGTGGTGGGACGGCGAATGGCGCAGTTGGGATCCGACCAACCACAAGCCGGCAGGGGATTTCCACGTCACCGTGGCACGCGGCCGGGACTACCGGGACGTGCCGCCGCTGAAGGGCATCCTCTCGGGCGGCGGAGGATCCGCCCTCAGCGTGAGCGTCGAAATCACCCGTTTGGCCTAG	MTRLSIIHKTGYKYNKRVTLSYNEARMTPLTDPQQVVLESSLKVLPSQAAVSSYRDYWGTRVTAFDMQMPHEHLEVLSTTTVEVHRVERIPSEADIVGWDHLASYEVLNQHSDWIPQSQLTGPGDEVLAIVPGVVEGKNPHDAALAVFEWMRGEMTYMKGSTGVTTNAEEAWNQRQGVCQDLAHLAIGALRSCGIPARYVSGYLHPRSTADIGETVAGQSHAWLEWWDGEWRSWDPTNHKPAGDFHVTVARGRDYRDVPPLKGILSGGGGSALSVSVEITRLA				NA	NA	NA	NA	NA
D1-17_01963	927			hypothetical protein	ATGCTTAGCCGAATCGCCGAGTCCCTTTTCTGGATCGGCCGCTACGTTGAACGGGCTGACGGCACCGCCCGCATTTTGGACGTCCACCTCGAGCGGCTGAACCACCTGCCTACGGAGGAGCGCCGCAGCGTGGCCCGGGAGCTGCTCGCGGTCATGGGCGCGCGTCCGCAGAGTGGGGACTTCGGACTGGAGGAACTGCTGAACGCCCTCGCCTACGACAAGCACAGTGCCACCTCCATCGCCGGGTCCCTCGGCGCCGCCCGCGAGAATGCACGGCGTGCCCGCGAGACGGTGTCGTCCGGGCTGTGGGAAAGCCTGAACACCACGTACTACGGGCTGAACCAGCACCGCAAGGACGTGGTGGGCACCTACCGGTACTGCCACTGGGTGCTGGAGCGCACCGCGATGGTCAGCGGTTTGGCGGACACCACGGTGAGCCACGACGACTCCTGGCTCTTTCTTGCCTTGGGCCGTTCGCTGGAGCGGGCGGACATGACGGCGCGCATGCTTTCCACCCGGGACGTGCTCTCCGCTGGCATGTCCTGGGTCAACATGCTGCGCTGCGCCGGCGCCTACGAGTCCTTCCTGCGCACCCGGCGCGCCGCCTTCGGTGACCAGCACGCCGCCGAGTTCCTGCTGCTGGACAGGCTCTTTCCGCGCTCCATCGTCTACGCCCTGCGCGACGCGGACGAGTGCCTGGCGAAGCTGGACCCCACGGCACAGCGCGTCGGCTTCATCAACGACGCCCGTCGGATCGTGGGCCAGGCGCGCACGTTCCTCGAGTTCCACCGCACGGACGATCTCATGTCGGAGTTGCCGGAGCACATGGAGCGCGTGCAAAAGGCTGTCTCGCAGGCCTCGGACGCCATTTCCCGTAAGTACTTCAATCAGGCGGACGAACTGGCCTGGGTGGGAGAAGTTTCATGA	MLSRIAESLFWIGRYVERADGTARILDVHLERLNHLPTEERRSVARELLAVMGARPQSGDFGLEELLNALAYDKHSATSIAGSLGAARENARRARETVSSGLWESLNTTYYGLNQHRKDVVGTYRYCHWVLERTAMVSGLADTTVSHDDSWLFLALGRSLERADMTARMLSTRDVLSAGMSWVNMLRCAGAYESFLRTRRAAFGDQHAAEFLLLDRLFPRSIVYALRDADECLAKLDPTAQRVGFINDARRIVGQARTFLEFHRTDDLMSELPEHMERVQKAVSQASDAISRKYFNQADELAWVGEVS				NA	NA	NA	NA	NA
D1-17_01964	1563		COG2308	putative protein	ATGACCATGTCTGACCTATTCCAGGATTACTCGACGGCCGCCGGCCGCACGGGTGCCTACGACGAGATGTTTGCCCCCGGGCAAACGGCCCGCACATCCTACGGCCAAGTCGCCGGTGCCCTCCGTGAGCTGTCCCTCGCCGACGTCAGCGCGCGAGCGGACTCAATGGCACGGACCTTCCTGGACCGCGGGGTGACATTCGACTATGCCGGGGAGGAGCGTCCCTTCCCGCTGGACATCGTCCCGCGCGTGATTCCCGCCGATGAGTGGGCTGTGCTTGAGCGCGGTGTGGCGCAGCGCGTCAAGGCCCTCGAGGCATTCCTTAATGACGTCTATGACAAGATGACGGTCGTCTCGGACGGCGTGATTCCCCGCCAGCTGGTCACCACGAGCGCGCACTTCCACCGCGCCGTCCACGGATTCGAACCGGCCGGCGGCGTCCGTGTGCACATCTCCGGCATCGACGTTGTCCGTGACGCCGCGGGCACGTTCCGCGTCCTGGAGGACAACGTCCGCGTGCCGTCCGGCGTCAGCTACGTACTGGAGAACCGGCGGGCCATGGCAAAGGGTCTTCCCGAGGCTTTCGGATCCCAGCTCATCCGCCCCGTAGAGGAATATCCGCGGCGGCTGCTCTCGGCCCTGCGCAAGACCGCTCCCTCCGGCGTCGACGATCCCACCGTGGTGGTGCTGACCCCCGGCGTCTTCAACAGCGCCTACTTCGAACACACCCTGCTCGCCGGGCTGATGGGCGTCGAGCTCGTCGAAGGCCGGGACCTCATCTGCCGCGGCAACCGTGTTTACATGCGGACCACCGCCGGCGAACAGCGGGTGGACGTCATTTACAAGCGGATCGACGACGACTTCCTTGACCCGCTGCAGTTCCGCTCCGACTCCATGCTCGGCTGCCCGGGCCTGGTCAACGCCGCGCGGGCCGGCGGTGTCACCATCGCCAACGCCGTGGGCAACGGCGTGGCTGACGACAAGCTGGTCTACAGCTACGTTCCGGACCTGATCCGCTACTACCTGGGCGAAGAGCCCGTTATCGCAAATGTGGACACGTTCCGGCTCGAGGAAGACGAAGCCCGCGAGCACGTCCTCGACCGGCTCGATGAACTCGTGGTCAAGCCAGTGGACGGTTCGGGCGGCAAGGGCCTGGTCATCGGGCCGGACGCGTCCAAGGAGGAACTCGACGCCCTCCGCAAGCGCATCATTGCGGACCCTCGCGGGTGGATCGCGCAGCCGGTCCTGCAGCTGTCCACTGTGCCCACGCTCAGCGGAGACAAGTTTGGTCCGCGCCACGTGGACCTGCGTCCGTTTGCCGTGAACGACGGCGATGAGGTATGGGTCCTCCCTGGCGGACTCACCCGCGTTGCGTTGAAGGAGGGCTCCCTGATCGTGAATTCCAGCCAGGGCGGCGGCTCGAAGGACACCTGGGTGTTGGCAGATTCCCCGCAGGTGCCGGTGGAGCAGCTGCCCCGGCAGCCCATCACAGTCCGGGAACGCGTATCCGTCTGGCCCGTCGAAAGCAACTGGCGGGACCGCCAGTCGGAGCAGCAGCAGTGA	MTMSDLFQDYSTAAGRTGAYDEMFAPGQTARTSYGQVAGALRELSLADVSARADSMARTFLDRGVTFDYAGEERPFPLDIVPRVIPADEWAVLERGVAQRVKALEAFLNDVYDKMTVVSDGVIPRQLVTTSAHFHRAVHGFEPAGGVRVHISGIDVVRDAAGTFRVLEDNVRVPSGVSYVLENRRAMAKGLPEAFGSQLIRPVEEYPRRLLSALRKTAPSGVDDPTVVVLTPGVFNSAYFEHTLLAGLMGVELVEGRDLICRGNRVYMRTTAGEQRVDVIYKRIDDDFLDPLQFRSDSMLGCPGLVNAARAGGVTIANAVGNGVADDKLVYSYVPDLIRYYLGEEPVIANVDTFRLEEDEAREHVLDRLDELVVKPVDGSGGKGLVIGPDASKEELDALRKRIIADPRGWIAQPVLQLSTVPTLSGDKFGPRHVDLRPFAVNDGDEVWVLPGGLTRVALKEGSLIVNSSQGGGSKDTWVLADSPQVPVEQLPRQPITVRERVSVWPVESNWRDRQSEQQQ	PGPT0026300_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-17_01965	1014			hypothetical protein	GTGGTTGCGCTGGCCTTGGCGTTCCTCATCCATGCCGCCGTTCCGCCTCTTCCGGTGATGACCTTGGCCGTGGTGCTGGGCCTGCTGGCGGCCAACCTGCCGGTCACCGCAGTATGGGCCGCGGGCCGGGCAAGGCCGGGTCTGGACTTTGCGGGAAAGCACCTGATGCGCGGCGGCATTGTGCTCCTCGGGCTGCAGGTGGGCATCGGGGACGTACTCGGTCTCGGCTGGGCCTCGCTGCTGCTGATTGCGGCGGTAGTGGTGGCCAGCTTCGCGGGAACCTACGGCATTTCCCGTCTCTTCCGACTGACGCGGGATACCTCGCTGCTGATCGCGACCGGATTCTCGATCTGCGGCGCCTCGGCCATCGGGGCGATGGCCGCCGTGCGGCGCATCAGGCACCCGGACACCGTGCTGCCAGTGACTCTCGTGACCCTCTGCGGGACACTTGCCATTGGCGTCCTTCCGCTGTTGATCCATCCGTTGCGGCTAAGCCCCGAGGCCTTTGGCGCGTGGACCGGCGCCTCGGTACACGACGTGGGCCAGGTGGTGGCTGCCGCGCAGACCGCAGGTCCCGCGGCCCTGGCGATCGCCGTCGTCGTCAAGCTGACGCGGGTCATCCTGTTGGCTCCCATGGTGGCGGCCGCCGGGGTGCACCAACGGGTCGTGTCCGTGCGGCGGACCCGCCGCGCAGGGGATCCTGCCGCCCCTGCAGGCGAGGACTCCGTAGGCCCGCTGCCTACGGAGGCGCTGCCGCCCGTGGTCCCGCTGTTCGTCGTCGGATTCGTGGCCATGGTGGCGCTGCGCTCCACCGGCTGGATCCCGCAGGCCGGGCTCGAAGCGGCCGCCGGATTGCAGGACATTCTTCTGGGAGCGGCGCTGTTCGGGCTTGGGACTGCCGTGCGGATCCAGACCCTGCTGCACACCGGGCTGCGGGCCGTCAGTGCCGCGCTGGCGGCATGGCTGCTGATTGCCGCCCTCGGACTGGCCGCCGCACTCCTCATGCTGCAATAA	MVALALAFLIHAAVPPLPVMTLAVVLGLLAANLPVTAVWAAGRARPGLDFAGKHLMRGGIVLLGLQVGIGDVLGLGWASLLLIAAVVVASFAGTYGISRLFRLTRDTSLLIATGFSICGASAIGAMAAVRRIRHPDTVLPVTLVTLCGTLAIGVLPLLIHPLRLSPEAFGAWTGASVHDVGQVVAAAQTAGPAALAIAVVVKLTRVILLAPMVAAAGVHQRVVSVRRTRRAGDPAAPAGEDSVGPLPTEALPPVVPLFVVGFVAMVALRSTGWIPQAGLEAAAGLQDILLGAALFGLGTAVRIQTLLHTGLRAVSAALAAWLLIAALGLAAALLMLQ				NA	NA	NA	NA	NA
D1-17_01966	2646	pepN_2		Aminopeptidase N	GTGTCGAATGCGAACCTCCAGCGCTCTGAAGCGGCAGCCCGGTCTGCCCTGATCACCACCCACGCGTACGACGTCCTGCTCGACGTCCGCAGCGCCGCGCTGCAGGACACTGCCGGATACGCCAGCCGGAGCACTATCGCCTTCTCGGCCAGCCAGCCCGGAGCTACGACGTTCCTGGACTTCATCGGTGAAGTGAAGAGTGTGGTCCTCAACGGTGTGGCGCTTCGGGTGGAGGAAGTCGTGGACGGCGCCCGGATCCGGCTGGACGGCCTGCAGGTGGAAAACACGGTCACGGTGGCGGGCACGGCGTTTTACAGCACGTCCGGAGAAGGCATGCACCGCTTTTTCGATCCGGCGGACGGCCGGTGCTACCTCTACACGCAGTACGAGCCCGCCGACGCCCGCCGCGTGTTCGCCAACTTCGAACAGCCCGACCTCAAGGCAGCCTTCACCTTCCACGTCATCGCGCCCTCCGGGTGGCATGTCGCCTCCAATGGCGCGGAGGCGGCGCGCATCCCCGTCGACGGCGATCCTGCCGCCAGCCAGTGGGACTTTCTGCCCACCCTCCCGATGTCCACCTACATCACCACCGTGCTGGCGGGCCCCTATTTCAAGGCGGACGAGCGCTGGAGCGCAACGCTCGACGATGGCACCCGGCTTGAGGTGCCGCTGGCCCTTTACTGCCGGGCTTCCATGGCAGACTCTTTCGACACCCATGAGCTGTTTAAGCTCACGAAGCAGGGGCTCGAGTTCTTCAACCGCCTCTTCGACTACCCGTACCCGTGGGGAAAGTACGACCAGGCGTTCGTGCCAGAGTACAACCTGGGCGCGATGGAGAACCCCGGCCTTGTCACGTTCACGGAGAACTACGTCTTCACGTCCCGGGCCACAGATTCCCAGTACCAGGGCCGCGCCAACACTCTGATGCATGAGATGGCCCACATGTGGTTCGGGGACCTCGTCACGATGCAATGGTGGGACGATCTGTGGCTTAAAGAGTCCTTCGCGGACTATATGGGGACCCTCGGAGTGGACCGGGCCACCGGATGGGAGACTGGCTGGGTCAACTTTGCAAACAACCGGAAGGCCTGGGCCTACGTCCAGGACCAGCTCCCCACCACGCACCCCATCGTGGCCGACATCCCGGACCTTGAAGCGGCAAAACAGAACTTCGACGGCATCACCTACGCGAAGGGGGCCTCAGTCCTGAAGCAGCTCGTGGCCTACGTCGGCTTCGACGCTTTCATCGCCGGCTCCCGGGAGTACTTCCGGGAGCACGCATTCGGCAACACCACCCTGGCCGATCTCCTCGCAGCGCTCAGCCGGGCGTCAGGAAGGGATTTGGGCGTGTGGGCGCGGCAGTGGCTCCAGACGTCCGGCATCTCCACCCTCACAATGGAGCCGGAAACTACAGCGGAGTTCGAAACGGCTCAAGGAACGCCTGGCGGGCCCGTGCTCGTGAGAGCCACGCTGCTTCAGGACGCGCTGGACCCGGCGACCGGACGGCAGGAACTGCGCCCGCACCGGCTGCGTATCGGGCTCTACAATTTCGACGCCGCAGGCGCACTGGTCCGGACAGACTCGGTTGAATGCGACCTGTCAGGCCCCGCCGAGGAGGTTCCCGCCCTGGCCGGCAAGCAGCTTCCAGCCCTGCTGATCGTGAATGACGAGGACCTGAGCTACGCCAAGGTACGGCTGGACCCGGTCTCCGAGGCGACCGTCCGGTCCTCGCTGGACAGGATCAGTGACCCCATGGCCCGGGCCCTGTGCTGGTCGGCGCTGTGGAACTCCACCCGCGACGGACTTAGTCCGGCCTGCCGGTATGTGCAGGCCGTGCAGCAGTTCGCGCCAGCCGAGACGGGAGTCGGCGTCCTGCTGAACGTCCTCGGCAACGCTTCGACGGCGCTTGAACACTTCACTGCGGCCGGTGAACGCACAGGCCTGCGGGAAGCATTCACCAAGGCCGCGGCCATTGAATTTCGCCGTGCCTCCCCCGGCTCGGACCAGCAGCTAGCCTGGGCACGGACGCTGGCCACGCTGAGCCGCAAGAACGGCAGCGAGCTGAACCTCCTGCGCGCCCTGCTGGAGGGCACTGAAACTGTGCCGGGCCTGGCGGTCGACGCGGAACTCCGCTGGAGCCTCTGGCACGCCCTCGCCGCCCACGGGCTGGCCAGTAGCGACGAGCTCGACGCCGAGCTGTCAAGGGACCTGACAGCCTCCGGACGCGCGGGGCACGCCACCGCGCTCGCGGCCCGGCCTGAGCCAACAGTCAAGGCAGCAGCGTGGCGTGCAGCTGTGCACGGAACAGAGCTGTCCAACCAGCTTCTCAGCGCCACGATTGCCGGCTTCACCACGAGCCCGCCGGAGCTGCTGGAGCCCTTTGTGGAGCCATACTTCGACTGCCTGGTGCCGGTGTGGGCTGGGCGCAGCATCGAGATAGCCGGCCGCATCATCCGCGGTCTGTACCCCGGGTCCCAGGACCTCCTCCCGGGAGCCTCCCCTGAGGACCACCCGGTGATTGTGCGCACTGATTCCTGGCTTGCCGTGCACCGGGACGCGCCGCCGGCGCTGCGCCGCATCGTCATCGAACAGCGCAGCCACCTCCACCGCGCTCTCACGGCCCAGGCAGTGTCACTGAATTCTTAG	MSNANLQRSEAAARSALITTHAYDVLLDVRSAALQDTAGYASRSTIAFSASQPGATTFLDFIGEVKSVVLNGVALRVEEVVDGARIRLDGLQVENTVTVAGTAFYSTSGEGMHRFFDPADGRCYLYTQYEPADARRVFANFEQPDLKAAFTFHVIAPSGWHVASNGAEAARIPVDGDPAASQWDFLPTLPMSTYITTVLAGPYFKADERWSATLDDGTRLEVPLALYCRASMADSFDTHELFKLTKQGLEFFNRLFDYPYPWGKYDQAFVPEYNLGAMENPGLVTFTENYVFTSRATDSQYQGRANTLMHEMAHMWFGDLVTMQWWDDLWLKESFADYMGTLGVDRATGWETGWVNFANNRKAWAYVQDQLPTTHPIVADIPDLEAAKQNFDGITYAKGASVLKQLVAYVGFDAFIAGSREYFREHAFGNTTLADLLAALSRASGRDLGVWARQWLQTSGISTLTMEPETTAEFETAQGTPGGPVLVRATLLQDALDPATGRQELRPHRLRIGLYNFDAAGALVRTDSVECDLSGPAEEVPALAGKQLPALLIVNDEDLSYAKVRLDPVSEATVRSSLDRISDPMARALCWSALWNSTRDGLSPACRYVQAVQQFAPAETGVGVLLNVLGNASTALEHFTAAGERTGLREAFTKAAAIEFRRASPGSDQQLAWARTLATLSRKNGSELNLLRALLEGTETVPGLAVDAELRWSLWHALAAHGLASSDELDAELSRDLTASGRAGHATALAARPEPTVKAAAWRAAVHGTELSNQLLSATIAGFTTSPPELLEPFVEPYFDCLVPVWAGRSIEIAGRIIRGLYPGSQDLLPGASPEDHPVIVRTDSWLAVHRDAPPALRRIVIEQRSHLHRALTAQAVSLNS				NA	NA	NA	NA	NA
D1-17_01967	1095	lipM		Octanoyltransferase LipM	ATGACCGCCACGCCTTTTTTCGCCCGCGACGACGACGCCCCGCGTCTTCACGGGGAGTACAAGGTGCCGGGCGGGAAGCTCGTCGTGGTAGACCTCGACGTCGTCAATGGCGCCTTCGCCGGCGTCTCCCTTAGCGGCGATTTCTTCCTCGAACCCGATGAGGCGCTGCTGGACATCAACGCTGCACTGGAAGGACTTCCGGAAAGTTCGACGGCGGAGGATATCGCCGCCGCCGTAAAGACCTCCCTGCGGGAAGACGCAGTGCTGTTTGGATTCTCCCCGGAAGCCGTGGCCGTGGCCGTCCGGCGGGCGTTGTCCAAGGCCACGTCCTGGTCCGACCACCACTGGAACATCATCGCGTCCGCTGTGCTGCCCACCCACCTGAACGTGGCGCTGGACGAGGTCCTGACAGAGGAGGTGGGCGCTGGCCGCCGCAACCCCACAATTCGGTTCTGGGATTGGGAGGAACCTTCGGTGGTCATCGGCAGCTTCCAGTCCTACCGCAACGAGGTGGACCCGGCAGGGGTTGCCAGACACGGCATCACCGTGGTCCGCCGGATCAGCGGCGGCGGAGCCATGTTCATGGAGGCTGGCAACTGCATCACCTACTCGCTTTACCTGCCCCAGACCCTCGTGGACGGCATTAGCTTCGTGGATTCGTACGCGTTCCTGGATGCCTGGGTCATAGCCGCCCTCAAGCAGCTCGGCATCAACGCCTTCTACGTGCCGCTCAACGACATCGCAACGGACCAGGGAAAGATCGGCGGCGCCGCCCAGAAGCGGCTGGCCAACGGCGGCATGCTGCACCACGTCACCATGAGCTACGACATCGACGCGGACAAGATGGTGGAGGTGCTGCGGATAGGCAAGGAGAAGCTCTCGGACAAGGGCACCACCAGCGCCAAGAAGCGCGTGGATCCGCTGCGGCGCCAGACCGGACTTTCCCGCGCCGACATCGTGGCCGCCATGATGGATGTTTTCGCCGGACGCTATGGCGCGGTGCCCTCGGAAATCACGCCTGCCGAACTGGAGACGGCGCGCGGCCGCATCCGCACCAAGTTCGGCACGGACGAATGGCTGCATCGCGTTCCCTGA	MTATPFFARDDDAPRLHGEYKVPGGKLVVVDLDVVNGAFAGVSLSGDFFLEPDEALLDINAALEGLPESSTAEDIAAAVKTSLREDAVLFGFSPEAVAVAVRRALSKATSWSDHHWNIIASAVLPTHLNVALDEVLTEEVGAGRRNPTIRFWDWEEPSVVIGSFQSYRNEVDPAGVARHGITVVRRISGGGAMFMEAGNCITYSLYLPQTLVDGISFVDSYAFLDAWVIAALKQLGINAFYVPLNDIATDQGKIGGAAQKRLANGGMLHHVTMSYDIDADKMVEVLRIGKEKLSDKGTTSAKKRVDPLRRQTGLSRADIVAAMMDVFAGRYGAVPSEITPAELETARGRIRTKFGTDEWLHRVP	PGPT0003945_225	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003945-lplA|lplJ|lipL1-K03800	NA	NA
D1-17_01968	258	rpmE2	COG0254	50S ribosomal protein L31 type B	ATGAAGTCTGATATCCACCCGAAGTACGAAGCTGTTGTATTCAACGACCTGGCTTCCGGCGTCAAGTTCCTGACCAAGTCCACCGTGTCTTCCTCCAAGACCATCGAGTGGGAGGACGGCAACACCTACCCGGTCATCGACGTCGAAATCTCCTCGGAGTCCCACCCGTTCTACACGGGCAAGCAGCGCATCATGGACTCCGCAGGCCGCGTCGAGCGCTTCAACGCTCGCTTCAAGGGCTTCGGCGGCAAGAAGTAA	MKSDIHPKYEAVVFNDLASGVKFLTKSTVSSSKTIEWEDGNTYPVIDVEISSESHPFYTGKQRIMDSAGRVERFNARFKGFGGKK	PGPT0014325_1319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
D1-17_01969	819	rlmB_1		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGACCTTCCACTACCTCGAATCCGCCAACGACCCGCGGGTCTCGGATTACACCCAGCTGACGGACGTGCACTTGCGCAAGGTCCGTGAGCCCGCCGAAGGCATGTACATTGCCGAGTCCTCCCGGGTACTGCGGCGGGCCCTCGCCGCAGGGCACCGGCCACGCTCGTTTTTCCTGGCAGAGAAGTGGGTCGACGACCTCGCCGACATCTTCCAGCAATATCCGGACGTGCCTGCCTTCGTGGGCAGCTCCGCGCTGCTCGAGGAAATCACAGGATTCCACCTGCACCGCGGGGCCATGGCCGCCATGCACCGTCCGGCTCCCGTGCCGCTGCACGACCTCCTGGCCGGTGCCCGGCGCGTGGCGGTGCTTGAAGACATCGTGGACCACACGAACGTCGGCGCCATTTTTCGTTCCGCGGCGGCGCTGGACATGGACGCTGTCCTCATCTCGCCGCGCTGCGGCGATCCCCTGTACCGTCGCAGCGTGCGGGTAAGCATGGGCACGGTGTTCCAGGTGCCGTGGGCGCGGCTGGCCAGCTGGCCGGAGGACATTGCAGCACTCAAGGCAGAAGGCTTCACCGTGGCCGCCATGGAGCTCACGCCGGATGCCCTGGACCTCGATGACCTCGCGGCCCGCAACCCTGACAGGCTCGCGCTGGTGCTGGGAACGGAAGGTGCCGGTATGAGCGCGGCCACCCTTGCCGCCGTCGACCTCGCCGTGAAGATTCCGATGCGGGCCGGCGTTGATTCGCTAAATGTTGCCGCTGCGTCAGCCGTGGCTTTCTGGGAACTGCGCCCGCGGAGGAAAACCCGCTAA	MTFHYLESANDPRVSDYTQLTDVHLRKVREPAEGMYIAESSRVLRRALAAGHRPRSFFLAEKWVDDLADIFQQYPDVPAFVGSSALLEEITGFHLHRGAMAAMHRPAPVPLHDLLAGARRVAVLEDIVDHTNVGAIFRSAAALDMDAVLISPRCGDPLYRRSVRVSMGTVFQVPWARLASWPEDIAALKAEGFTVAAMELTPDALDLDDLAARNPDRLALVLGTEGAGMSAATLAAVDLAVKIPMRAGVDSLNVAAASAVAFWELRPRRKTR				NA	NA	NA	NA	NA
D1-17_01970	786			hypothetical protein	GTGGAGTTACTCAGCGGCATCCTTGTGTTCTTCGCCGGCCTCTGGGCAGGCACAATCAACAGCGTTGTCGGTTCCGGCACCCTCGTTACGTTCCCCGTGCTGATCGCCTTGGGGCTTGCTCCGGTGACAGCCTCCATGAGCAACGCCATGGGCCTCGTGGCCGGCGGTGCAGCTGGAGCGTGGGGCTACCGCCGCGAACTCAAAGGCCGGGGGCGCCAGCTGCTGAAGCTGCTCCCTGCCTCCCTCTTGGGTGGAATTTCGGGTGCCTGGCTGCTGCTGCACCTGCCGGAGGAGGTGTTCCACTACGCGGCTCCCGCGCTGATCGTGCTGGCCCTGCTGATGGTCGTCTTCCAGCCGCGGCTGCAGCGCTGGGTCCGTAACAGGGAAGAAAACCCCGAGCACGCACTCCGGGACAAACACCACGGCATTCTGCTGGTGGTGCTCGTGTACCTTGCGGGCGTCTACGGCGGTTACTTTGTTGCCGCCCAGGGGATTCTGCTGGTGGGCATCCTCGGCGTCTTCATGACAGGAACCATCCAGAACGCCAACGCCATGAAGAACTTCCTGGTGCTGGGCGTCAACCTGATCGCTGCGACCTCCTACATGCTCTTCGCTATGGACCGGATTGACTGGGTCGTGGTGGCCATCATCGCTGTCAGCTCGCTCATCGGCGGCGTGGTCGGATCCAAGGTGGGCCGCAGGCTCTCCCCTCCGGTCTTGCGCGGGGTGATCTTCGCGCTCGGGCTGGTCGCGCTGGGCGTCATGATCGCGAATCTGCTCCAATGA	MELLSGILVFFAGLWAGTINSVVGSGTLVTFPVLIALGLAPVTASMSNAMGLVAGGAAGAWGYRRELKGRGRQLLKLLPASLLGGISGAWLLLHLPEEVFHYAAPALIVLALLMVVFQPRLQRWVRNREENPEHALRDKHHGILLVVLVYLAGVYGGYFVAAQGILLVGILGVFMTGTIQNANAMKNFLVLGVNLIAATSYMLFAMDRIDWVVVAIIAVSSLIGGVVGSKVGRRLSPPVLRGVIFALGLVALGVMIANLLQ				NA	NA	NA	NA	NA
D1-17_01971	768	ylmA	COG1119	putative ABC transporter ATP-binding protein YlmA	ATGGCCGCCGTTAGCGTTGTCCGCGGAGCGAAAACGCTGCTGAGCAGGGTCGACTGGCAGGTCAAGGAGGGCGAACGCTGGGTGATCCTCGGCCCCAACGGCGCCGGCAAGACCACTCTGCTGCAGATCGCAGCCGCCAGGCTCCACCCCACCAGCGGCATGGCCGGCATCCTCGAGGAAATGCTGGGCTCGGTTGACGTGTTCGAGCTGCGCCCCAGGATCGGCCTGTCTTCCGCTGCCTTGGCGAACCAGATCCCCGAGCACGAGAAGGTCCTCAACGTTGTGGTGACGGCCGCCTACGGTGTCACCGGCCGCTGGCGCGAAGGGTACGAGAAGGACGACGAACGCCGTGCCTTCGCCCTGCTGAACGACTGGGGCATGGGGCCCCTGCTGAACCGCACCTTCGCTTCGCTGTCCGAGGGGGAGCGCAAGCGCGTGCAGATCGCCCGTGCCCTGATGACCGATCCGGAGCTGCTGCTGCTGGACGAGCCGGCCGCCGGCCTGGACCTCGGCGGGCGCGAGGACCTGGTGCACCGCCTCAGCGAGCTCGCCCGCGACGAAGCCGCCCCCGCCATCGTGCTCGTCACGCACCACCTTGAGGAAGTCCCGCCGGGCTTCACGCACGCCATGCTGATGCGCGACGGCGCTGTGGTCGCCGCCGGGCCCGTCGCGGAGGTCCTCACCTCCGGGAACCTGAGCGAGACTTTTGGCCTGCCGCTGGACGTCAGCGTCAACGCCGGGCGGTACACCGCTACAGCCACCCGCTGA	MAAVSVVRGAKTLLSRVDWQVKEGERWVILGPNGAGKTTLLQIAAARLHPTSGMAGILEEMLGSVDVFELRPRIGLSSAALANQIPEHEKVLNVVVTAAYGVTGRWREGYEKDDERRAFALLNDWGMGPLLNRTFASLSEGERKRVQIARALMTDPELLLLDEPAAGLDLGGREDLVHRLSELARDEAAPAIVLVTHHLEEVPPGFTHAMLMRDGAVVAAGPVAEVLTSGNLSETFGLPLDVSVNAGRYTATATR	PGPT0003760_5154	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
D1-17_01972	960		COG0560	Phosphoserine phosphatase	GTGCGCGGTGAAACGAATTCGGGCCGGACCCCCGCGCTGGCTAAGATTGCAGCCATGACTTCGAACGTGACTGCGGTCAGCTACGGCGTGCACCTGCCCTCCTCCGAAGCGGAAATCCTCCGCTCCCTTCTGGTCGGTTCCGGGACCACATTTGCAGCGGATTCCAGCAGCAGCAGCGGCCGCTATGACGTCTGCACGGTCGACTTCGTGTTGCCGTCCGGTTCGGCCGCAGAGATCGCCGGCCTGCGCCACCTCATTGCCGCAGCAAAGGAGAACGGCGCCCGGGACGGCGTGGATACCGCCGTCGTACCGGCCGAACTGCGCCAGGCCAAGCGCAAGCTCCTCATCATGGACGTCGATTCGACTCTTATCCAGCAGGAAGTCATCGAACTCCTCGCCGCCTACGCCGGCAAACGCGACGAAGTCGCCGCTGTCACTGAAGCCGCCATGCGCGGTGAACTGGATTTCGCGCAGAGCCTCCATGCCCGCGTGGCGGTGCTCGGAGGACTTCCGGCCGCCGTCGTCGATTCGGTCCGGACAGAAGTGAAGCTCAGTGAGGGTGCGGCCGAACTCGTGGCGGCGTTCAAGGCAGCAGGGCATGTGGTGGCCGTGGTGTCCGGAGGCTTCAACCAGATCCTCCGACCCATCGCGGAAGACCTCGGCCTGGATTACTGGATCGCCAATGAACTCGAAATTGTGGACGGCGCGCTCACGGGCAAAGTGCTCGGCGACGTGATCGACCGTGCCGCCAAGGAGAAGTACCTGCGCGAATGGTCCGCCGCGGAGGGCATCGCCCTGGAGCACACAATCGCGGTGGGTGACGGAGCAAACGATCTGGACATGCTCGGAGCGGCAGGCATCGGCGTGGCGTTCAACGCCAAGCCGGCAGTCCGCGCCGTGGCGGACGCCGCCATCAACATGCCGTTTCTCGACGCCGTGCGGCACATTGCCGGCGTCTGA	MRGETNSGRTPALAKIAAMTSNVTAVSYGVHLPSSEAEILRSLLVGSGTTFAADSSSSSGRYDVCTVDFVLPSGSAAEIAGLRHLIAAAKENGARDGVDTAVVPAELRQAKRKLLIMDVDSTLIQQEVIELLAAYAGKRDEVAAVTEAAMRGELDFAQSLHARVAVLGGLPAAVVDSVRTEVKLSEGAAELVAAFKAAGHVVAVVSGGFNQILRPIAEDLGLDYWIANELEIVDGALTGKVLGDVIDRAAKEKYLREWSAAEGIALEHTIAVGDGANDLDMLGAAGIGVAFNAKPAVRAVADAAINMPFLDAVRHIAGV				NA	NA	NA	NA	NA
D1-17_01973	753			hypothetical protein	ATGGGACAGCTGGACAACAAAACAGCGATCGTCACCGGTTCTTCGCGCGGGATCGGCGCGGAAGTGGCCAAGATCCTCGCCGGCGAGGGCGCAGCCGTCGTCGTTAACTACCGCCAGAAGGCGCCGCGCGCCAACAAAGTCGTGGCGGAGATCGAGGCCGCGGGCGGCCGGGCAGTGGCTGTGGGCGCTGACCTGACCACAAACGAGGGCGTCCACGCGCTGGCAAGCGCGGCTATGGAGAACTTCGGCTCGCTCGACATCCTGGTCCTCAACGCCTCCGGCGGCATGGAGTCAGGAATGGAAGAGGGCTATGCCCTGAAGCTCAACCGCGACGCGCAGATCAACATGCTCAACGCCGCTGTGCCTGTGATGCAGGAGGGCTCGCGCGTGGTGTTCGTGACCAGCCACCAGGCGCACTTCATCAACAGCGTCCCCACCATGCCCGAATACGAACCAGTTGCCCGCAGCAAGCGTGCCGGCGAGGACGCCCTCCGCGAGCTTCTGCCGAACCTTGCGGAAAAGGGCATCTCGCTGGTGGTCGTGTCCGGGGACATGATTGAAGGCACCGTCACCGCTACACTGCTGGACCGCTCGAACCCGGGCGCCATCGAAGCCCGCCGCGCTGAGGCTGGCAAGCTGTACTCCGTCGAGGAGTTTGCTGCCGTTGTGGCTGGCATGGTGACCGCCGACGTCGAATCCGGCCACACCGAGTACGCCGGCGGCGCAGACTACTTCGGCAAGAACGCGCAGTAA	MGQLDNKTAIVTGSSRGIGAEVAKILAGEGAAVVVNYRQKAPRANKVVAEIEAAGGRAVAVGADLTTNEGVHALASAAMENFGSLDILVLNASGGMESGMEEGYALKLNRDAQINMLNAAVPVMQEGSRVVFVTSHQAHFINSVPTMPEYEPVARSKRAGEDALRELLPNLAEKGISLVVVSGDMIEGTVTATLLDRSNPGAIEARRAEAGKLYSVEEFAAVVAGMVTADVESGHTEYAGGADYFGKNAQ	PGPT0003180_11567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_01974	726	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTCTGAAGCAGCCACCCAGGCCCGCAGTGTCCTCATCACCGGCGGAAACCGCGGCATCGGCCTCGCCATCGCGGAGGCCTTCCTGGCCAACGGGGACAAGGTGGCTGTGACCTACCGCAGCGAATCCAAACTGCCCGAGGGGCTCCTCGGCGTCAAGGCCGACGTCACCGATGAGGCGTCTGTCGACGCAGCCTTCGCCGAGGTCGAGGCTGCCCACGGCCCGGTCGAGGTGCTCGTGGCCAACGCCGGGATCACCAAGGACACGCTGCTGCTGCGCATGAGCGAAGATGACTTCACCTCCGTGATCGACACCAACCTCACCGGCGCCTTCCGCGTCATCAAGCGGGCCTCAAAGGGCATGATCCGTCTGCGTAAGGGCCGCGTGGTTCTGATCTCCTCGGTCTCCGGTCTCTACGGAGCCCCGGGCCAGATCAACTACTCCGCGTCCAAGGCGGGCCTGGTCGGCATCGCCCGTTCCCTGACGCGTGAACTCGGTTCGCGGGGCATCACCGCGAACGTCGTGGCCCCAGGATTCATCAACACCGACATGACGGCCGAGCTGCCCGAAGCAACCCAGAAGGACTACCTCGCCAAGGTTCCGGCGGGCAGGTTTGCCGAGGCCTCCGAAGTGGCCAACGTTGTCCGCTGGATCTCCAGCGACGAGGCCGCCTACATCACCGGCGCTGTAATTCCTGTCGACGGCGGACTTGGGATGGGCCACTAG	MSEAATQARSVLITGGNRGIGLAIAEAFLANGDKVAVTYRSESKLPEGLLGVKADVTDEASVDAAFAEVEAAHGPVEVLVANAGITKDTLLLRMSEDDFTSVIDTNLTGAFRVIKRASKGMIRLRKGRVVLISSVSGLYGAPGQINYSASKAGLVGIARSLTRELGSRGITANVVAPGFINTDMTAELPEATQKDYLAKVPAGRFAEASEVANVVRWISSDEAAYITGAVIPVDGGLGMGH	PGPT0003180_20679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_01975	408			hypothetical protein	ATGCCCGAGAAGCCTGGCACCGCATCCGGTCATCCGGAGGTGCACAGCATCACGGACGCTGCGGCGGCGCATTCCGACGACATGCGGGAGCGCATGATCAAGTACGCGCTGGCCATGGGTATCCGCATGGTCTGCCTCATCCTGATCTTCGTGGTGGACGGCTGGTTCAAGCTCGTTGCTGTTGCAGGCGCCGTCTTCCTGCCGTGGATCGCCGTGGTGATCGCCAACGGCACCGACAAGGCCGAGATGCACAGCGATGCGCTCCTCGACTACGCACCGTACGCCGAACTCGAATCACCCGCGGGGCCCGAGCCGGGTGAACCCGGCCAGGACCCGCCAACTGTGTTGCGGGGCGAACTGATCGATGATGAAGAAGACGACGACGGCCCGGGACGGAAAGCCTCATGA	MPEKPGTASGHPEVHSITDAAAAHSDDMRERMIKYALAMGIRMVCLILIFVVDGWFKLVAVAGAVFLPWIAVVIANGTDKAEMHSDALLDYAPYAELESPAGPEPGEPGQDPPTVLRGELIDDEEDDDGPGRKAS				NA	NA	NA	NA	NA
D1-17_01976	354			hypothetical protein	ATGAACATTTTCAACCTGGGCGGAGACGCCGGTGCGGCCGCCGGCCCGGCCTCCGCAACCATGTGCTCCCGCAAGGCATGCCGGGCTGACGCATCCTGGCAGCTGCTGTGGAACAATCCGAAGATCCACGCTCCGGACCGCCGGAAGGTGTGGCTGGCCTGCAGTGAGCACAAGGAGTGGCTGGAAGATTACCTCCAGGTCCGGGGGCTGTGGAAGGAAACGCTTCCAGTTGATGCGGCGCCAGCCAATGAAGGGACGCCGGCCAACGATACGGCGCCGGCCAGGGACGCGGCGCCAGCCATTGAAGGGACGCCATCCTCGGCGAGCGCGCCAATTTCCGGCGGGATGGGCTGA	MNIFNLGGDAGAAAGPASATMCSRKACRADASWQLLWNNPKIHAPDRRKVWLACSEHKEWLEDYLQVRGLWKETLPVDAAPANEGTPANDTAPARDAAPAIEGTPSSASAPISGGMG				NA	NA	NA	NA	NA
D1-17_01977	927			hypothetical protein	ATGTACCGCTTCCTGTTCTCCAGCAAGTGGCTGGGCTACTTCCTGCTGGCCGTGATTTTCGCCACGGGCTGCGTCTTTCTTGGCCGCTGGCAGATGGATCGCCGGGCAGAAGCTTTGGCTGAGATCCAGCGTGTTACGTCCAATTACTCCGCTGCCCCGATCACTTTTGCTGAGGCAAAGGACCAGTTCCGGCAGCTGGACCCCGCCCGGGAGTGGACTCAGGTGGAATTGCGTGGCACCTACGACATCGCCGGGCAGCGGGTTGTCCGCAACCGGCCCCTCAACGGCCAGCCCGGTTACGAGGTGGTGGTGCCGTTCAGGCTCGTCTCTGGCGAAGCTGTCGTTATTGACCGCGGCTGGCTGCCGATCGGCAACAACAACCCCGGCCGCCCGGACTCCATTCCTGCACCGCCTTCCGGTGAAGTCACAGCCGTGGTGCGCCTGAAGCACGGTGAACCTGCCCTGGACCGGGGTGCCCCCGAGGGCCAGCTCGCCTCCATCGACCTGGCGGCCTATTCGGAAGAACTGGGGTATCCGCTGCTGACCGGAGCCTACGGACAGCTGGCCTCCGAGACGCCGCCCGCTTCTGAGATGCCGCGTCCGTTCCCTATGCCCTCCCTGGAGGAAGGTACCCACCTGTCCTATTCGCTGCAATGGTTCGCCTTCGGAGTGCTGATGTTCGTCGGCTTCGGCTATGCGGCCCGCCAGCAGGCCCGGAACGCAGCGATCGACGCCGAAGACGCCGCCGAAGCAGCCGCCACCGCCGGTGACACCGCGTACGCTGCCGCCGGAGACCGCCGTCGTACGAGCGCCCAGCGTTCATCCGCACAGCGTCCGGTTACACACCGTCCATCGGCAGCCCGCAAGCGTAAACGCCCTACGGCGGAAGAAGAGGAAGACGCGATCCTGGATGCGCAGGGTTATTGA	MYRFLFSSKWLGYFLLAVIFATGCVFLGRWQMDRRAEALAEIQRVTSNYSAAPITFAEAKDQFRQLDPAREWTQVELRGTYDIAGQRVVRNRPLNGQPGYEVVVPFRLVSGEAVVIDRGWLPIGNNNPGRPDSIPAPPSGEVTAVVRLKHGEPALDRGAPEGQLASIDLAAYSEELGYPLLTGAYGQLASETPPASEMPRPFPMPSLEEGTHLSYSLQWFAFGVLMFVGFGYAARQQARNAAIDAEDAAEAAATAGDTAYAAAGDRRRTSAQRSSAQRPVTHRPSAARKRKRPTAEEEEDAILDAQGY				NA	NA	NA	NA	NA
D1-17_01978	501			hypothetical protein	ATGCGCAGGGTTATTGACGACGTGCGGCGGGAGGGCGGCGCTGATCCCGTGGAAAACGTGAGGCGCGCCCTCACGGGGGCCGGACTCCGGGACACCGTCACGGTGCTTCCGGGAAAGGTGCCGACGGCGGCTGCCGCTGCCGCAGCGCTCAAGTGTGATGTCGCCGCGATCACCAACAGCCTGGTCTTCGAACTCGACGGCGCTCCCCTGCTCATCCTTGCCAGCGGCGCCGCGAAAGTGGATACCCGCTACGTCGCCTCCCAGCTGGGCTCGGGGCGCATCCGCCGCGCTGACCCCGGTTTCGTTTTGGCGCACACCGGCCAGGAGGTGGGCGGCGTTGCACCTGTCGGCCACCCGGAGAAGATCCGCACGCTCCTGGACGCCTCACTGGAGGACCATGCAGTGCTGTGGGCCGGAGCAGGCGACCACCATTCCATGTTCTCCATCAGCTACGAAGAGCTGCTCCGGATCACCGGGGCACAGATTATGCAGGTCCGCTAA	MRRVIDDVRREGGADPVENVRRALTGAGLRDTVTVLPGKVPTAAAAAAALKCDVAAITNSLVFELDGAPLLILASGAAKVDTRYVASQLGSGRIRRADPGFVLAHTGQEVGGVAPVGHPEKIRTLLDASLEDHAVLWAGAGDHHSMFSISYEELLRITGAQIMQVR				NA	NA	NA	NA	NA
D1-17_01979	117			hypothetical protein	ATGAATGCCGGAGCCGCCCTGATCATCCTCGTGCTGCGCGCCCTGCTTGCCCAGGCAGTTGCCCGCGACGCCGTGGCCCATTCGGGAGAGACAGCGTCCGGTCAGGCACCGACATAG	MNAGAALIILVLRALLAQAVARDAVAHSGETASGQAPT				NA	NA	NA	NA	NA
D1-17_01980	2370	uvrA_2		UvrABC system protein A	ATGGAGAGCCGGTCTTCCGCCCTGCACGTGGCGGACAGCCACGACCTCATCAGGGTGCACGGCGCCCGGGAGAACAATCTCAAGGACGTCAGCGTTGAGATCCCCAAGCGCCGGCTGACCGTTTTCACCGGTGTCTCCGGTTCGGGCAAAAGCTCGCTGGTGTTCGGAACAATTGCCGCAGAGTCGCAGCGCATGATCAACGAAACCTACAGCGCTTTCGTGCAGGGATTCATGCCCACGTTGTCGCGGCCCGACGTCGACGTTTTGGAGGGCCTGACCACCGCGATCATTGTTGACCAGGAGCGGATGGGGGCCAACCCCCGATCAACTGTGGGCACAGCCACGGACGCCAACGCGATGCTGCGTATTCTCTTTAGCCGGCTCGGCCAGCCCAGCATCGGCTCGCCTAACGCGTATTCGTTCAACGTCCCGTCGGTGAAGGCCAGCGGCGCCATCACCATCGAGCGCGGCAACAAGACCAAGGCCGAGAAGGCGACGTTCAATCGGCTGGGCGGCATGTGCCCGCGCTGCGAAGGAATGGGCAATGTCAGTGACTTCGACCTCACGGCGCTCTACGACGACAGCAAATCCCTTAGTGAGGGCGCGCTGAGCATTCCGGGTTACAGCATGGACGGCTGGTACGGCCGCATCTTCAGCGGTGCCGGCTTCACCATGGACAAGCCGATCAGCAAGTTCACCAAAAAGGAGCTCCACGATCTGCTCTACAAGGAGCCGACCAAGATCAAGGTCGAGGGCATCAACCTGACCTACGAGGGCATCATCCCGAAGATCCAGAAGTCGATGCTGTCCAAGGACGTTGATTCGCTGCAGCCGCACGTCCGCGCGTTCGTGGAGCGGGCCATCACCTTCCAAACCTGCCCCGAGTGCGGCGGCACCCGGCTCAGCAAGGAGGCGCTGTCCTCCAAGATCAACGGCAGCAACATCGCCGACGTCTGCGCGATGCAGATCAGCGACCTGGCCGGCTGGGTCCGAGGCATCGACGAACCCTCCGTGACCCCGCTGCTCGCCGGGCTGCAGCACCTGCTGGATTCGTTTGCCGAGATCGGACTGGGGTACCTTTCACTGGACCGGCCGTCGGGGACGCTCTCCGGCGGCGAGGCGCAGCGCACGAAAATGATCCGCCACCTTGGCTCGTCCCTCACCGACGTTACCTACGTGTTCGACGAACCCACGATCGGTCTGCACCCGCATGACATCGAGCGGATGAACCACCTTCTGCTGCAGCTGCGGGACAAGGGCAATACGGTGCTCGTCGTGGAGCACAAGCCCGAGGCCATCGCGATGGGAGACCATGTCATCGATCTCGGACCGGGGGCCGGCACGGAGGGCGGCACCGTCTGCTTCGAGGGCACCGTGGAGGGCCTTCGGAGGAGTGGCACCACCACCGGCCGCCACCTCGACGACCGGGCTGCCCTGAAGGATTCGGTGCGTTCCTCGTCCGGTGCATTGGAGGTGCGCAGCGCCTCGACGCACAACCTCCGCGACGTCGACGTCGACATCCCTCTCGGCGTGCTCTGCGTCGTTACCGGCGTTGCCGGTTCAGGGAAGAGCTCGCTGATCCGCGGTTCGGTCGCTGGCCGCGAAGGCGTGGTGGTCATAGACCAGGCGGCGATCCGCGGTTCGCGGAGGAGCAACCCGGCAACATATACCGGCCTGCTCGAGCCCATCCGCAAGGCGTTCGCGAAGGCCAACGGCGTGAAGCCGGCGCTCTTCAGCTCCAACTCGGAAGGTGCCTGCCCCACGTGCAACGGCGCGGGTGTGATCTACACGGACCTCGGCGTCATGGCCACTGTGGAGTCCACCTGCGAGGAATGCGAGGGGAAGCGGTTCCAGGCGTCGGTGCTGGACTACAAGCTGGGCGGCAAAAACATTGCCGAGGTGCTCGCCATGCCGGTGGCGGAAGCCGAGAGTTTCTTCGGAAGCGGGGAAGCCCGGACTCCCGCGGCGCACAAGATCCTAGACCGGCTCGCTGACGTCGGCCTTGGCTACCTTACGCTTGGCCAGCCGCTCACCACGCTTTCCGGCGGGGAGCGGCAGCGGCTCAAGCTGGCCACGCAGATGGCGGAGAAGGGCGAGGTCTACGTTCTCGATGAGCCCACCACCGGGCTGCATCTCGCCGACGTCGAACAGCTGCTGGGCCTGCTCGACAGGCTCGTCGATTCCGGCAGGTCGGTCATCGTCATCGAGCACCACCAGGCAGTCATGGCGCACGCCGACTGGATTATCGACCTTGGCCCGGGTGCGGGGCACGACGGCGGCCGGCTGGTCTTCGAGGGCAGGCCCGCTGACCTTGTGGCCGCCCGTTCCACCCTGACGGGTGAGCACCTCGCCGCCTATGTCGGTGCCTGA	MESRSSALHVADSHDLIRVHGARENNLKDVSVEIPKRRLTVFTGVSGSGKSSLVFGTIAAESQRMINETYSAFVQGFMPTLSRPDVDVLEGLTTAIIVDQERMGANPRSTVGTATDANAMLRILFSRLGQPSIGSPNAYSFNVPSVKASGAITIERGNKTKAEKATFNRLGGMCPRCEGMGNVSDFDLTALYDDSKSLSEGALSIPGYSMDGWYGRIFSGAGFTMDKPISKFTKKELHDLLYKEPTKIKVEGINLTYEGIIPKIQKSMLSKDVDSLQPHVRAFVERAITFQTCPECGGTRLSKEALSSKINGSNIADVCAMQISDLAGWVRGIDEPSVTPLLAGLQHLLDSFAEIGLGYLSLDRPSGTLSGGEAQRTKMIRHLGSSLTDVTYVFDEPTIGLHPHDIERMNHLLLQLRDKGNTVLVVEHKPEAIAMGDHVIDLGPGAGTEGGTVCFEGTVEGLRRSGTTTGRHLDDRAALKDSVRSSSGALEVRSASTHNLRDVDVDIPLGVLCVVTGVAGSGKSSLIRGSVAGREGVVVIDQAAIRGSRRSNPATYTGLLEPIRKAFAKANGVKPALFSSNSEGACPTCNGAGVIYTDLGVMATVESTCEECEGKRFQASVLDYKLGGKNIAEVLAMPVAEAESFFGSGEARTPAAHKILDRLADVGLGYLTLGQPLTTLSGGERQRLKLATQMAEKGEVYVLDEPTTGLHLADVEQLLGLLDRLVDSGRSVIVIEHHQAVMAHADWIIDLGPGAGHDGGRLVFEGRPADLVAARSTLTGEHLAAYVGA				NA	NA	NA	NA	NA
D1-17_01981	357			hypothetical protein	ATGGCCGACTCATCCACGCAGGGAATTAAGACGGTGCTGCATCCGGTATCCGATCTGGCAGCGGCCAAGGCGGTGTACACGGCACTGCTTGGGGTTCCGCCCCAGACCGACGACTCCTACTACGTGGGCTTTGAGGCCGCAGGGCAGCACATCGGACTGGTGCCCGGCGGCGGCCCCCAGGGCATGACATCCCCCGTGGCCTACTGGCATGTGCCGGATATCGAGGCAAAGCTGGCTGAAGTGACGGCCGCAGGCGCCACCATTAAGGAACAGCCGCGCGACGTCGGCGGAGGACGTCTGGTGGCCAGCGTCACCGACCCGGACGGAAACGTTCTCGGCCTGCTTCAGGACCGGTGA	MADSSTQGIKTVLHPVSDLAAAKAVYTALLGVPPQTDDSYYVGFEAAGQHIGLVPGGGPQGMTSPVAYWHVPDIEAKLAEVTAAGATIKEQPRDVGGGRLVASVTDPDGNVLGLLQDR	PGPT0013300_6175	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
D1-17_01982	1599	yheS	COG0488	putative ABC transporter ATP-binding protein YheS	TTGATTACCGTCCAGGATCTTGAACTGCGCGCCGGCGCCCGGCTGCTCATGGATCAGGTCAGCTTCCGGATCGACAAAGGTGACAAGGTCGGCCTCGTCGGGCGGAACGGCGCGGGCAAGACCACCCTCACCCGCGTCCTGGCGGGGGAGGGCCTGCCTGCCGCGGGCAAGGTGACCCGCAGCGGCGAGATCGGATACCTGCCGCAGGATCCGCGGACGCCGGACATGGAGCAGCTGGCCCGTGACCGGATTCTGTCTGCGCGCGGCCTGGATGTGGTGGTCGGCAAGCTGAAGCAGGCACAGACGGACATGGCCAGTGATGACCCGGTGGTGCACAGCAAGGCCATGGGCAGGTATGACCGGCTCGAGGCCGAATTCCTTTCCGGGGGCGGCTATGCGGCCGAAGCCGAAGCGGCTGCCATCTCGTCCAATTTGGCCCTGCCTGAACGAATTCTCAACCAGCCCCTCAAAACCCTGTCGGGCGGACAGCGGCGGCGCGTGGAGCTGGCCCGCATTCTCTACTCCAACGCGGAAACCATGCTGCTGGATGAGCCCACGAACCACCTGGACGCCGATTCCATCTCTTGGCTCCGTGACTTCCTGAAAAACCACCAGGGCGGGCTTATCGTGATCAGCCACGACGTCGAACTGCTGGAAGCCACCGTCAACAAGGTCTACCACCTGGACGCGAACCGCGCCCAGATCGACTTCTACAACATGGGCTGGAAGCGCTACCTCCAGCAGCGTGAGACTGACGAGCGCGCCCGGAAGCGCGAACGCGCCAACGCAGAAAAAAAGGCCCAGGTTCTCATGGACCAGGCCAACAAGATGCGGGCCAAGGCCACCAAGGCCGTGGCTGCACAGAACATGGCCAAGCGTGCCGAGCGGCTGCTCAGTGGCCTCGAAGCCGTCCGCGAGCAGGACCGCGTGGCCGCGCTGCGCTTCCCGGACCCGTCCCCCTGCGGCAAGACCCCTCTTACGGCTGAAGGGCTCAGCAAGTCCTACGGCTCGCTGGAAATTTTCACGGACGTTGACCTCGCGATCGACCGGGGATCCAAGGTCGTCATCCTGGGGCTTAACGGTGCCGGCAAGACGACCCTGCTGCGGATGCTCGCCGGTGTGGACCGGCCCGATACCGGCGATATTGTTCCGGGCCACGGGCTCAAGGTGGGTTACTACGCCCAGGAACATGAGACTCTCGACCACGACCGCACCGTCCTGGAAAACATGCGTTCCGCCGCCCCCGACATGAAGGACGCCGAAGTCCGCGGCATCCTTGGCTCGTTCCTGTTCTCCGGCGACGACGTCGACAAGCCCGCCGGAGTGCTCTCGGGCGGTGAGAAGACACGCCTGGCCCTGGCCACTATCGTGGCCTCCAGCGCGAACGTCCTGCTCCTCGATGAGCCCACCAACAACCTCGATCCGGCCAGCCGTGCCGAGATTCTGGGTGCGCTGCGCAACTACACCGGCGCTGTCGTCCTCGTCAGCCACGACGAAGGCGCCGTCGAGGCGCTCAACCCCGAGCGTGTGGTGCTGCTGCCCGACGGCGTCGAAGACCTCTGGAATGAGGACTACCTGGACCTGATCACACTGGCTTAG	MITVQDLELRAGARLLMDQVSFRIDKGDKVGLVGRNGAGKTTLTRVLAGEGLPAAGKVTRSGEIGYLPQDPRTPDMEQLARDRILSARGLDVVVGKLKQAQTDMASDDPVVHSKAMGRYDRLEAEFLSGGGYAAEAEAAAISSNLALPERILNQPLKTLSGGQRRRVELARILYSNAETMLLDEPTNHLDADSISWLRDFLKNHQGGLIVISHDVELLEATVNKVYHLDANRAQIDFYNMGWKRYLQQRETDERARKRERANAEKKAQVLMDQANKMRAKATKAVAAQNMAKRAERLLSGLEAVREQDRVAALRFPDPSPCGKTPLTAEGLSKSYGSLEIFTDVDLAIDRGSKVVILGLNGAGKTTLLRMLAGVDRPDTGDIVPGHGLKVGYYAQEHETLDHDRTVLENMRSAAPDMKDAEVRGILGSFLFSGDDVDKPAGVLSGGEKTRLALATIVASSANVLLLDEPTNNLDPASRAEILGALRNYTGAVVLVSHDEGAVEALNPERVVLLPDGVEDLWNEDYLDLITLA				NA	NA	NA	NA	NA
D1-17_01983	672	bioY	COG1268	Biotin transporter BioY	ATGACCCAAACCCATTCCGTGACCAACCGCCCGGCGAAACGCTCCCGCTGGAATGCCACCGACCTCGGTCTCATCGCCGTTTTCGCGGCGCTCGTAGCCGGCTCTGCCCTCGTCGCCGCCATTCCGGTCGGCGGGCTCGGCGTTCCCATTACGCTGCAGACCCTCGCCGTCATGCTGACCGGCCTTGCCCTGGGACCCGGCAGGGCTTTCGGGGCCGTCGGGCTCTACACCCTGCTGGGGCTTGCCGGACTCCCGATCTTCAGCGGCGGACGCAGCGGCCTGGGAATCCTGGCAGGCCCCTCCGCGGGCTACATCATCGCCTTTCCGCTTGCCGCGGCAGTGGTCGGCTGGCTTGCCGCCCTCGTCATCCGGCGCACTCTGAAGTACCGGGGGGTCCTTCTTTTCGCCGCCACCATGGTGACGAGCATTGTGGTGATCCACGGGCTCGGGGTACTCGGCATGATGGTCAATGCAAAGTTGGACTGGTCCAAGGCGTTCCTCGCCGACCTCGCCTTCTACCCCGGAGACACCATTAAGAACGTCCTGGCCGTTACCGTGGCCCTGGCCCTGCACAAAGCCTTCCCGGATCTGCTGGTCCGCCGTGTCCGCCCGCTGGGTGCGACTCCTTCCGGAGAGAAGGCGTCCGGGCAGCCTTCTCCCGGCCAGCCGTGA	MTQTHSVTNRPAKRSRWNATDLGLIAVFAALVAGSALVAAIPVGGLGVPITLQTLAVMLTGLALGPGRAFGAVGLYTLLGLAGLPIFSGGRSGLGILAGPSAGYIIAFPLAAAVVGWLAALVIRRTLKYRGVLLFAATMVTSIVVIHGLGVLGMMVNAKLDWSKAFLADLAFYPGDTIKNVLAVTVALALHKAFPDLLVRRVRPLGATPSGEKASGQPSPGQP	PGPT0022050_26	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
D1-17_01984	780	bioM	COG1122	Biotin transport ATP-binding protein BioM	GTGACAGCGATTACCCTCACCGGCGTCGGGGTCCGGGTGGCCGTGGACGGCCGTCCGGACCCCAAGGTGCTGCTTCAGGACGTCACGCTGGACTTGCCGGAGCGCAGGATCGGCGTCATCGGCGCCAACGGTTCCGGCAAGTCCACGCTGCTCCGGCTCCTGAACGGCCTGGTAGCGCCCACCGGGGGAACGGTCACCGTCAACGGAGCAGACACCATCCGAAAGGTACGGGCTGTCCGGCAGCAAGTTGGCTTCGTCTTTACTGATCCGCTGTCGCAGCTGGTCATGCCGACCGGCCGGGAGGACGTTGAGCTGTCCCTGCGGCGTTCGATTCGGAATGGAGCCGAACGCCGGGCGAAGGCCGATGCCGTACTGGACCGGTTCGGATTGCTCCCGCTGGCCGACCAGAGCATCTACGAGCTGTCCGGCGGTGAACGGCAGCTCCTTGCGCTGGCGACCGTGCTGGCGGTCGAACCCGACGTGCTGGTCCTCGACGAGCCGTCAACCCTCCTTGACCTCCGTAACCGCGAGCTGCTCCGCACCACACTCGCGGGCCTCCGCCAACAGGTCATCATGTCCACCCATGACCTTGAGCTTGCCCTGGACATGGATCGTGTCCTGGTGGTTGAGGCCGGCCGGATCGCGTTCGACGGCGGTGCTGGCGCCGCCGTCGCGTATTACCGTTCGCTGTGCACAGGTGGAGGTGCGCTACCCACCAGTACGCTACCCAGCAGTGCGCTTTCCAGCGGCGCCGGCGTGGACGGCAAGGACACCCTGTGA	MTAITLTGVGVRVAVDGRPDPKVLLQDVTLDLPERRIGVIGANGSGKSTLLRLLNGLVAPTGGTVTVNGADTIRKVRAVRQQVGFVFTDPLSQLVMPTGREDVELSLRRSIRNGAERRAKADAVLDRFGLLPLADQSIYELSGGERQLLALATVLAVEPDVLVLDEPSTLLDLRNRELLRTTLAGLRQQVIMSTHDLELALDMDRVLVVEAGRIAFDGGAGAAVAYYRSLCTGGGALPTSTLPSSALSSGAGVDGKDTL	PGPT0022045_231	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022045-bioM-K16784	NA	NA
D1-17_01985	627	bioN	COG0619	Energy-coupling factor transporter transmembrane protein BioN	GTGAGGGGCCACGGCTTCCTGCTGGCGAACTATGTTCCCGGCACCTCCCTGCTCCACCGCACTCCCCTGTGGCTCAAGTTCCTGGTGGTGGTGGGCTGCGGCATGGCGTCGTTCCTGATTGTCGACTGGCGGCTGTCCGTTGCGGCTTTTGGCGTGATGTCGGGTCTGTTCCTGCTCAGCGGCGCGGGGGCTGGCCGGCTTTTTCGTGCCGTCCGGCCGCTGCTGCCTATCCTGCTCGCCATCGGTCTGTTTCAATGGTGGCAGCTTGGGGCGCCGGTTGCGGCCCGCATCGTCCTGAACGTGCTGCTCTGCGTGGTGGCGGCGTCGCTGCTGACCGCCACGACCCCGCTGCAGCGGCTGCTGGACGGCGTCGTCTCCCTCGCCCGCCCGCTTAGGCGCTTTGGCGCCGACCCGGAACGTTTCGCCCTCACCATCGCCATCATGCTGCGCAGCATCCCCTTTATCGCCGGCGCTTTCGCCGATGTTCGGGATTCTGCACGTGCCCGCGGCCTGGAGCGCAACCCCCGGGCGCTCATTCTGCCGGTCTTTATCACCACCGTTGCCTATGCCCGCCATACAGGAGAGGCTCTGGCGGCTCGGGGACTGGGCGAGCCTGAGGACGACTGA	MRGHGFLLANYVPGTSLLHRTPLWLKFLVVVGCGMASFLIVDWRLSVAAFGVMSGLFLLSGAGAGRLFRAVRPLLPILLAIGLFQWWQLGAPVAARIVLNVLLCVVAASLLTATTPLQRLLDGVVSLARPLRRFGADPERFALTIAIMLRSIPFIAGAFADVRDSARARGLERNPRALILPVFITTVAYARHTGEALAARGLGEPEDD				NA	NA	NA	NA	NA
D1-17_01986	744			hypothetical protein	ATGGCGAGGATTCTCATCACAGGGTCTACTGATGGTCTGGGCCTCGCTGCGTCGGAAACGCTGCTAGGCGAAGGACATGACGTTCTCGTGCACGCCCGCTCCCGTCAAAGGATGACGGCTGTGCAGCACCTGCTCGATCGCGGCGCGCATTGCCTCCTAGGGGACTTGGGCGACGCGGCCGAGGTCCGGCAGATCGCCGACGACGCGAACCGGATCGGCGGGATTGACGTGATGATTCATAATGCGGGCGTGCTCAACGGTCCCGCGCTGCTGCCCGTAAATGTGGTTGCCCCGTACTTGCTGACGGCCCTCATTCCGGGCCCACGGCGGCTGATTTATCTGAGCAGCGGCATGCACCGTGGCGGCGACACCGGGTTGAGCGGTCTGGACTGGGCGGGTCAGGTGGTGACGGCGTCTTATTCGACCAGCAAGCTTCACCTCACGGCGCTCTCGGCTGCGGTAGCCCGCCTTTTTCCACACCTCCTGAGCAACGCCGTCAATCCGGGGTGGGTCCCGACGCGGATGGGCGGGCCGTCGGCACCTGATGATCTGCGGCTTGGCCATCGCACCCAGGAGTGGTTGGCAACGAGCAGCGAGCCGGCCGCGCTGACCAGCGGCGGTTACTGGTTCCACCAGCATCGCCAAACCCCTCACCCGGCGGTCAAGGATGAACAGTTTCAGGAGTCGTTGCTGGCGCAGCTGGCAGAGCACACCGGTGTCACCCTCGAGGCACTGAGCCATTAA	MARILITGSTDGLGLAASETLLGEGHDVLVHARSRQRMTAVQHLLDRGAHCLLGDLGDAAEVRQIADDANRIGGIDVMIHNAGVLNGPALLPVNVVAPYLLTALIPGPRRLIYLSSGMHRGGDTGLSGLDWAGQVVTASYSTSKLHLTALSAAVARLFPHLLSNAVNPGWVPTRMGGPSAPDDLRLGHRTQEWLATSSEPAALTSGGYWFHQHRQTPHPAVKDEQFQESLLAQLAEHTGVTLEALSH				NA	NA	NA	NA	NA
D1-17_01987	1278	yhfS	COG0183	Putative acetyl-CoA C-acetyltransferase YhfS	GTGGGTGGCGCCGGCACGCTGGAGGTGCAGCGCCCCGGATTCCTTCCTCCCGAGCGGCAGCCGGTCATCATCTCGGCGTTGCGTACGCCCATTTGCCGGGCCAACGGATTGCTCAGGCAGTTCCGAGCCCACGAACTTCTTGCGCCCGTCCTCGCGGCGCTACTGGCCGAAACTGGCGTCGAACCTTCAGCAGTGGCAGACGTCGTTATGGGCAATGCAGTGGGGGGCAGTGGCAACGTCGCGCGGCTGGCGGCCCTCGAGGCCGGTCTGCCCGTGACCGTTCCGGGCCTCACAGTCGACCGCCAATGCGGTTCCGGCCTGGACGCCATTGTCCTTGCGTCCCGCCTCGTGGCGGCAGGCAGCGGGGGGATCTACCTCGCCGGGGGCGTGGAAAGCATCAGTACCGCGCCGCTGCGGGCACACCGGAACGACGACGGCGAACCGGCCTTTTTCAGCCGCGCCCGGTTCGCCCCGGACAGCCTCGGTGACCCCGACATGGGCGTGGCGGCTGAGAACGTTGCTGCCGAGTTCCGCATCAGCCGGGAACGGCAGGACGAGTTTGCACTGCGCAGCCATCGCCGGGCCGTTGCTGCAGCCGCCGCGGGTGCCTTCGTCGGGGAGACTGTCCCGTTGGAGTCAGACGCCGGGACAGTCAAGGCAGACGACGGGCCCAGGCCCAAGCTCAACGAGCCCCTGATGGCGCGGTTCCCTGCCGCCTTCGTCGAAACCGGAACGGTCACGGCCGGAAACTCCTGCTTCGATGCGGACGGTGCCGCCGCCGTCGTGATCACCTCGTTGGCGCGCGCCAGGGAACTGGGCGGCGCGGACGCCCTGCTGGTTTTGGGGACCGATACGGCCGGAGTGGATCCTCGGCTGTTGGGCATCGGGGCAGCCGACGCCGCGTCACGGCTTCTGGGGTCGTGTGGGGTGGAGGCCGGCACTGTTGACTTCCTTGAGTTCAACGAAGCCTTCGCGTCGCAGACCATTGCCTGCCTTCAGCGCTTGGGCATTGACCCCGCGCATGCGAATGCCGACGGCGGTGCCCTGGCATTGGGTCATGCCTACGGAGCGTCCGGGGCCGTGCTGGTCACAAGGCTGCTGGCCCAGGCCCGTAGGGCGGGGCAAGCCGCGCACGCTCAGGCGGCTTCGGCGCCAACAGGAGCGGTGCCAGCACGAGCGGATTCGGATACCGCGTATCGGGGAAAGCTGGCTTTGGCCATGATCAGCATCGCCGGGGGCATGGGCACTGCGGCGCTGTTCCGCCACATCCGGCTGTAG	MGGAGTLEVQRPGFLPPERQPVIISALRTPICRANGLLRQFRAHELLAPVLAALLAETGVEPSAVADVVMGNAVGGSGNVARLAALEAGLPVTVPGLTVDRQCGSGLDAIVLASRLVAAGSGGIYLAGGVESISTAPLRAHRNDDGEPAFFSRARFAPDSLGDPDMGVAAENVAAEFRISRERQDEFALRSHRRAVAAAAAGAFVGETVPLESDAGTVKADDGPRPKLNEPLMARFPAAFVETGTVTAGNSCFDADGAAAVVITSLARARELGGADALLVLGTDTAGVDPRLLGIGAADAASRLLGSCGVEAGTVDFLEFNEAFASQTIACLQRLGIDPAHANADGGALALGHAYGASGAVLVTRLLAQARRAGQAAHAQAASAPTGAVPARADSDTAYRGKLALAMISIAGGMGTAALFRHIRL	PGPT0008320_4778	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-17_01988	1461	menE_2		2-succinylbenzoate--CoA ligase	ATGCCTTTCCTCAACAGACTCCAGCGCTGGGCTGCTGACCGCCCGGATGACACGGCCGTCGTCGTGGCCGGCCGGCGTCTCAGCTGGGCCGAACTCCGCGACGCTGCGGAGGCCACGGCCGCCGGCAACCCCGCAGGGATTACCGTCCTTGCCGAACGCAACTCGACGCACTTTGCTGTGGCCTTCACCGCAGCCGTGGCGGGAGAGCGGCAATGTGCTGTCCTGGATCCGTCGTGGCCGGAACCCTTGCTGGACGAGATTGTCGGGAGGTTGGGCACAGCGTCCCGGGCGGTGCCCGGGCCGGTTGCCGTCCCTGGCTACGGCGCCGCAGGGCGGATCGCACCCGGGGCGGAGCCCGCAGACGTGTTGCTGGTGGACGGCGACCCGGGGACCTCGTTCCTGATCGGTCTGACCTCCGGAACCACGTCCGTGCCGAAGGCGTTCACCCGTTCGCGGCGATCATGGCAGGAATCCTTCGAGGCCTCGATGCAGTTTTTCGGCCTCAGCCAGGAGGACAAAACCCTGGCTCCCGGTCCGCTCACCTCCAGCCTGAATCTCTACGCCCTTGCCGAGTGTCTGTACGCCGGCTCGGAGTTCCACACCCTGGAATCCTTCGACGTCGGGGACGTGCACACTGCCATTGGCCACGACGGCATCACGCGGCTGGTGCTCGTTCCCACAATGCTGCGCATGCTGAGCGAGCGTGGACTCACGGGATGTGTTGACGCCTCAGGGGTGCGGACCATCATCTGCGCAGGTTCGAAGCTGGACGCCCGCACTCTGGAAGCAGCCCGGCGTTGGGCCCCCAACGCCACGATCTACGAGTATTACGGCGCGTCCGAGCTGAGTTTCGTGTCGGGCATCGGGCTGCCGGCCGGCACGCCCCTTGATGCCGGCGGAACCGGCATCGGCCGGCCATTCCCTGGCGTGCAGGTCCGGATTCTGGACGACGCCGGCGTCGTCCTTCCGGACGGCGTAGCCGGAAACATCTGTGTCCGCAGCGGCATGGTCAGCAACGGCTATCTCTGGGGCGACGACGGCCAGGCACTGCGGTCCTTCAACGGCTGGTTCACGGTGGGAGACCAGGGATACCTCGAAAACGGCGAACTCCACATCCTTGGCCGCCGCTCGGACATGATCATCACCGCCGGTAAGAACGTTTACCCCCACGAAGTGGAACTTGCCCTCGCTTCAGTCCCCGGGGTCGCCTCGGCTGTCGCGGCCGGCATGGCGGACGATGTTCGAGGACAGCGGGTGGTGGCCGGCATTATCCCGTCACATGGGGGAGTCACTGCCACGCAGCTGAAGACCGGGCTTGAAGAAATCCTGCCTTGGGACAAGAGGCCGCAGCAGTATTTCGCGCTGACGGAGCTGCCCATGACGGACCGCGGAAAAGTCAGCAGGCGGATCATGCTCGACTGGATCTCCGCCAGTGATTCCCGGGTGAAGCGCCTTGTTTGA	MPFLNRLQRWAADRPDDTAVVVAGRRLSWAELRDAAEATAAGNPAGITVLAERNSTHFAVAFTAAVAGERQCAVLDPSWPEPLLDEIVGRLGTASRAVPGPVAVPGYGAAGRIAPGAEPADVLLVDGDPGTSFLIGLTSGTTSVPKAFTRSRRSWQESFEASMQFFGLSQEDKTLAPGPLTSSLNLYALAECLYAGSEFHTLESFDVGDVHTAIGHDGITRLVLVPTMLRMLSERGLTGCVDASGVRTIICAGSKLDARTLEAARRWAPNATIYEYYGASELSFVSGIGLPAGTPLDAGGTGIGRPFPGVQVRILDDAGVVLPDGVAGNICVRSGMVSNGYLWGDDGQALRSFNGWFTVGDQGYLENGELHILGRRSDMIITAGKNVYPHEVELALASVPGVASAVAAGMADDVRGQRVVAGIIPSHGGVTATQLKTGLEEILPWDKRPQQYFALTELPMTDRGKVSRRIMLDWISASDSRVKRLV	PGPT0008380_15925	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-17_01989	897			hypothetical protein	ATGAGTTTCAATGACGGGGTCGAGCTCGACCCATCCCAGGTGGAAGACCGGCGTGGCGGCAGAATGGGCCGCGGCACGAAGATCGGCGGAGGCATCGGCGGCGGCGTGGTCCTGCTCCTGGCGGCGTTGTTCGGCATCAACCCGCAATTGCTGGAAGGACTCGTCGGCGCTGGCCAGGAACAACCCGGCCAGAGCCAGGGCACGGCGCCAAGTGAGTGCAAGCTCGGCTCCGACGCCGACCAGCGCCTCGACTGCCGCATCACCGGCACGGTAAACAGCCTCAACGCCTTCTGGCCCGCCTATCTTGCCGAGTACAGCCTGAGCTATCCGCAGCCGCGGACCGTGCTGTTTGAGGTCGGCACCAACACCGGCTGCGGCGCGGCGACATCAGAAGTGGGCCCGTTCTACTGTCCGGCTGACACCACGGCGTATTTCGATCCCGGCTTTTTCCAGGACCTGGTGGACCGATTCGGGTCCTCCGGTGGCCCCCTGGCCCAGGAGTACGTGGTTGCCCATGAGTTCGGCCACCACATCCAGAACGTGCTCGGGGACCTGGACCAGGCACAACGCGATCCGCGCGGACCTGAGTCCGGTGCCGTCCGCGTGGAACTGCAGGCGGACTGCTATGCCGGGCTCTGGGCCCGTTACGCCACCACGCAGAAGGATCCCAAGACGGGCCAGCCGTTCCTTGAGCCGCTCACGCAGCAGGACCTGAACGACGCCCTTTCCGCGGCGTCCGCCGTCGGGGATGACCGCATTCAGAAAGCGGCCACCGGTCGTGTCACCCCTGAAGCCTGGACACACGGCTCAAGCGAGCAGCGCCAACGGTGGTTCTACCGGGGCTACCAGAGCGGCAACATCGGCCAGTGCGACACCTTCAGCGCTGCGAAGCTGTAA	MSFNDGVELDPSQVEDRRGGRMGRGTKIGGGIGGGVVLLLAALFGINPQLLEGLVGAGQEQPGQSQGTAPSECKLGSDADQRLDCRITGTVNSLNAFWPAYLAEYSLSYPQPRTVLFEVGTNTGCGAATSEVGPFYCPADTTAYFDPGFFQDLVDRFGSSGGPLAQEYVVAHEFGHHIQNVLGDLDQAQRDPRGPESGAVRVELQADCYAGLWARYATTQKDPKTGQPFLEPLTQQDLNDALSAASAVGDDRIQKAATGRVTPEAWTHGSSEQRQRWFYRGYQSGNIGQCDTFSAAKL				NA	NA	NA	NA	NA
D1-17_01990	333			hypothetical protein	ATGACCGAAATCGATGCATCCCGCACCTCGCTGGAGGATGTCGAAGAGGCGCTCAAGGACGTCATTGACCCCGAACTCGGTGTCAACATCGTGGATCTCGGGCTGCTCTACGGACTGCGGTACTCCGACGACGACGGCGCCTTGCTGATCGACATGACCCTCACCACCGCGGCCTGCCCGCTGACCGATGTGCTCGAGGAGCAGGTTGGTCAGGCCCTTGAGGACGTCGTGGACGAGTGGCGGCTCAACTGGGTATGGATGCCGCCGTGGGGTCCGGAGCGGATCACTGACGACGGCAAGGACCAGATGCGCGCCCTCGGGTTCAACATCTAA	MTEIDASRTSLEDVEEALKDVIDPELGVNIVDLGLLYGLRYSDDDGALLIDMTLTTAACPLTDVLEEQVGQALEDVVDEWRLNWVWMPPWGPERITDDGKDQMRALGFNI	PGPT0020265_615	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0020265-cysE-K00640	NA	NA
D1-17_01991	789	sufC	COG0396	Vegetative protein 296	ATGTCTACTCTTGAGATCAAGGACCTGCACGTCAGCATCGACACCGAGCAGGGCACCAAGGAGATCCTGAAGGGCGTCAGCCTGACCATCCGCACCGGAGAGACCCACGCCATCATGGGCCCCAACGGCTCGGGCAAGTCCACGCTCGCGTCCACCATCGCCGGCCACCCGCGGTACAACGTCACCGGCGGCACCATCACTTTGGATGGCGAAGACGTCCTCGCCATGAGCGTCGACGAGCGCGCCCGCGCCGGCGTCTTCCTCGCGATGCAGTACCCGGTGGAGGTTCCGGGTGTGACCATGACCAACTTCCTTCGCACCGCCAAGACTGCCATCGACGGTCAGGCCCCCGCCCTGCGCACCTGGACCAAGGACGTCAAGGCTGCCATGCAGCAGCTGCGCATCGATGCCGACTTCGCCCAGCGCAACGTTAACGAGGGTTTCTCCGGCGGTGAGAAGAAGCGTGTGGAGATTCTGCAGCTCGAACTCTTCAAGCCCAAGTTCGCCGTCCTCGACGAGACCGACTCCGGCCTCGACGTCGACGCCCTCAAGGTCGTCTCCGAAGGCGTCAACCGGGCGCACGCTGAGGGCAACATGGGCACGCTGCTCATCACGCACTACACGCGCATCCTGCGCTACATCAAGCCTGACTTCGTCCACGTTTTCGTGAACGGCCAGGTAGTGGAAGAGGGCGGCCCGGAACTGGCCGACCGCCTGGAAGAAGAAGGCTACGACCGCTACGCCGCGGGTGCCGGTTCCGCCGTGGTTGCCCCTGCGGTCCAGGCCTAG	MSTLEIKDLHVSIDTEQGTKEILKGVSLTIRTGETHAIMGPNGSGKSTLASTIAGHPRYNVTGGTITLDGEDVLAMSVDERARAGVFLAMQYPVEVPGVTMTNFLRTAKTAIDGQAPALRTWTKDVKAAMQQLRIDADFAQRNVNEGFSGGEKKRVEILQLELFKPKFAVLDETDSGLDVDALKVVSEGVNRAHAEGNMGTLLITHYTRILRYIKPDFVHVFVNGQVVEEGGPELADRLEEEGYDRYAAGAGSAVVAPAVQA				NA	NA	NA	NA	NA
D1-17_01992	360	bphA3		Biphenyl 2,3-dioxygenase, ferredoxin component	ATGACTGAACAACCAAGGGGCGAGCTGGTCTGCAAGGCCAGCGAGATCCAGCCCAAGCAGGCCCTGAGGATCCTGGTCGACGACTACCCTGTCGCGATCGTCAAGGATTCCATGGGCGAGATCCACGCAATCGGTGACACCTGCTCGCACGCGGATATCTCCCTATCCGAGGGTGAAGTTGAGGGCTGCGCCATCGAATGCTGGGGCCACGGTTCGCAGTTTGACCTGCGCACCGGCGAACCGCTCCAGCTGCCGGCCTACGACCCCGTCCCTGTCTTCGCTGTGGACATCGTCGGTGACGAGGTTTACGTCGACTTCACCCGTGTCCTGAACGGGGCCGAGGCCCCGAACTTCAGCTAG	MTEQPRGELVCKASEIQPKQALRILVDDYPVAIVKDSMGEIHAIGDTCSHADISLSEGEVEGCAIECWGHGSQFDLRTGEPLQLPAYDPVPVFAVDIVGDEVYVDFTRVLNGAEAPNFS	PGPT0019745_96	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,PGPT0019745-hcaC-K05710	NA	NA
D1-17_01993	1251			hypothetical protein	ATGACTGCCGAAATTACTACTGAAAAGGCCCGCATCGGAGCGCCTTCCATCGCAGGGTTCACCGAGGAAGGCGAGGCGCTGGTCCCGGCCAAGGTCGACCACAGCCACAATCACGGTGTGACTGTAATGTCCTCGCGCGCTGAGCGGCTTACAAGCTTCAACGTTGCCGACTTCCCGCTGCCCACCGGCCGCGAGGAAGAGTGGCGCTTCACACCGGTCCGCGGCCTGGCCAACCTGTTCTCGGACACGGCGACGGAGAACAGCCCTGAGCCGGCTGCCGCCGTCACCGTGGACGCCCCGGAAGGCTACGTCCGCGGCAGCCTGGCGAAGGAGGCCGCCCCGCGCGGAACTGTCCTGACCCCGGCCGACCGTGCCGCCGTCGTCGCCTCCGCGAACGTGGAGGAGGCCCTTCACGTGGTGATTCCTGCGGAGGCCGAGCCCGCTGAACCCGTCCGGATCCACGTCCACGGTACCGGCGCTGGCCGCCGCTCGAACGGGCATGTGGTGCTGGAGGCAGGCCCCAACTCGCGCAGCGTCGTGATTGTGGAGCACACCGGTGCTGCCGACCACAACGGCAACGTGGAAGTCATCGTCGGTGAGGGCGCAAAGCTCACCGTTATTTCGGTGCAGCTCTGGGAGGACGACGCCAAGCACCTCGGCCAGCACGACGCCCAGGTGGGCAAGGATGCTGTGTACAAGCACATCGCCGTGTCCCTGGGCGGCTCCATGGTGCGCCTGAACTCCAACGTCCGCTTCGCCGGTGAAGGTGCCGAGGCTGAATTGCTGGGCCTTTACTTCGCAGACGCCGGCCAGCACCTGGAGCACCGCTCCTTTGTTGACCACAACGTGCCCAACTGCAAGTCCAACGTCCTGTACAAGGGCGCGCTGCAGGGCAAGAACGCGCATACCGTATGGGTTGGCGACGTCCTGATCCAGAAGCAGGCCGAGGGCACCGACTCGTACGAGAAGAACCAGAACCTCGTCCTCACAGACGGCTGCCGGGCGGACTCCATTCCGAACCTGGAGATCGAAACCGGCCTCATTGAAGGCGCCGGCCACGCGAGCTCCACCGGTCGTTTCGACGACGAGCACCTGTTCTACCTCATGGCCCGCGGTATTCCGGAAGAGGTAGCCCGGCGACTCGTGGTGCGCGGCTTCCTTAACGAGATCATTCAGCAGATCAAGGTACCGGCCCTCGAAGAGCGCCTGACCGAAGCTGTTGAGCGCGAACTCGCGGCAACCCACAGCTAA	MTAEITTEKARIGAPSIAGFTEEGEALVPAKVDHSHNHGVTVMSSRAERLTSFNVADFPLPTGREEEWRFTPVRGLANLFSDTATENSPEPAAAVTVDAPEGYVRGSLAKEAAPRGTVLTPADRAAVVASANVEEALHVVIPAEAEPAEPVRIHVHGTGAGRRSNGHVVLEAGPNSRSVVIVEHTGAADHNGNVEVIVGEGAKLTVISVQLWEDDAKHLGQHDAQVGKDAVYKHIAVSLGGSMVRLNSNVRFAGEGAEAELLGLYFADAGQHLEHRSFVDHNVPNCKSNVLYKGALQGKNAHTVWVGDVLIQKQAEGTDSYEKNQNLVLTDGCRADSIPNLEIETGLIEGAGHASSTGRFDDEHLFYLMARGIPEEVARRLVVRGFLNEIIQQIKVPALEERLTEAVERELAATHS				NA	NA	NA	NA	NA
D1-17_01994	1464			hypothetical protein	ATGACGGACCAACTATCAGAGAACAAGGTTGCTGAGACTGCTGTCATTTCGGAGATTCTGGAGAAGAACCCCGAACTGCACGGCATCGGCACCTACGAGTACGGCTGGGCCGACAAGAACGACGTCGGAGCCAACGCCCGCCGTGGTCTTGACGAGGCAGTCGTGCGCGACATCTCGGCCAAGAAGAGCGAGCCGGAATGGATGCTGGATCTTCGTCTCAAAGGTCTGAAGTACTTCGGCCGCAAGCCCATGCCCACTTGGGGCGCGGACCTGTCCGGCATCGACTTCGACAACATCAAGTACTTCGTGCGCTCCACTGAGAAGCAGGCGGCCACTTGGGAAGATCTGCCTGAGGACATCCGCAACACCTATGAGAAGCTCGGTATCCCGGAAGCCGAGCGCAGCCGCCTGGTCTCCGGTGTAGCAGCCCAGTACGAATCCGAAGTGGTGTACCACCAGATCCGCGAGGACCTTGAGGCCCAGGGCGTCATCTTCCTGGACACCGACACCGCGCTGCGCGAGCACCCGGAGATCTTCCAGGAATACTTTGGCACCATCATCCCGGTGGGCGACAACAAGTTTGCCTCGCTGAACACGGCCGTTTGGTCCGGCGGTTCCTTCGTCTACGTGCCTAAGGGCGTCCACGTGGACATCCCGCTGCAGGCCTACTTCCGTATCAACACGGAAAACATGGGCCAGTTCGAGCGCACCCTGATCATCGCTGATGAGGACTCCTACGTGCACTACATCGAGGGCTGCACCGCCCCGATTTACACGTCGGACTCCCTGCACTCCGCCGTTGTGGAAATTGTGGTCAAGAAGGGCGCACGCGTCCGCTACACCACCATCCAGAACTGGTCCAACAACGTGTACAACCTGGTGACCAAGCGTGCCATCTGCGAAGAAGGCGCCACCATGGAGTGGATCGACGGCAACATCGGCTCCAAGGTCACCATGAAGTACCCGGCCGTTTACCTCACGGGCGAGCATGCCAAGGGCGAGACCCTGTCCATCGCCTTCGCCGGCGAGGGCCAGCACCAGGACACCGGCTCGAAGATGGTCCACATCGCGCCGAACACCAAGAGCTCCATCATCTCCAAGTCCGTGGCGCGCGGCGGCGGACGGGCGGCTTACCGCGGCCTCGTCCAGGTCCGTGAAGGCGCCAAGCACTCGGCCAACACCGTGCGCTGCGATGCCCTGCTGGTGGATACCATCAGCCGCTCGGACACGTACCCCTACATCGACATCCGCGAGGATGACGTCCAGCTGGGTCACGAGGCAACAGTTTCGCGCGTCTCCGAAGAGCAGCTCTTCTACCTCATGTCCCGGGGCATGCGCGAAGACGAAGCCATGGCCATGATTGTGCGCGGCTTCATCGAGCCGATCGCCCGTGAGCTGCCGATGGAATACGCCCTCGAGCTGAACCGCCTCATTGAACTCCAGATGGAAGGATCCGTCGGTTAA	MTDQLSENKVAETAVISEILEKNPELHGIGTYEYGWADKNDVGANARRGLDEAVVRDISAKKSEPEWMLDLRLKGLKYFGRKPMPTWGADLSGIDFDNIKYFVRSTEKQAATWEDLPEDIRNTYEKLGIPEAERSRLVSGVAAQYESEVVYHQIREDLEAQGVIFLDTDTALREHPEIFQEYFGTIIPVGDNKFASLNTAVWSGGSFVYVPKGVHVDIPLQAYFRINTENMGQFERTLIIADEDSYVHYIEGCTAPIYTSDSLHSAVVEIVVKKGARVRYTTIQNWSNNVYNLVTKRAICEEGATMEWIDGNIGSKVTMKYPAVYLTGEHAKGETLSIAFAGEGQHQDTGSKMVHIAPNTKSSIISKSVARGGGRAAYRGLVQVREGAKHSANTVRCDALLVDTISRSDTYPYIDIREDDVQLGHEATVSRVSEEQLFYLMSRGMREDEAMAMIVRGFIEPIARELPMEYALELNRLIELQMEGSVG				NA	NA	NA	NA	NA
D1-17_01995	849			hypothetical protein	ATGAGCAACTCCACATCCCTGGCTAAGGCCGGGCCCGGTGCGCGAATCCGCGTACTGCGCGGTGGAAAACCGCCTGCCCATGGCGCGACGGCGCCTGTGCCCGACAGTGACGAGCGCACGCGGGACCGGGTGCTCAATGCGGTGCTGGAGCACGGCCCCGTCAGCGCGGCCGAACTGGGCGACCTCCTGGGGTTTACCCCGGCCGCGGTCCGGCGCCATCTGGATCACCTCTCGCGTGAAGGCGTCATCGAAGTTAAGCGCGTGGCACGGGCAGGCGCGGGAGCCGGGCGCCCTGCGCGCCGCTACGTGCTCAGTTCCGAGGGTCAGTCCACTCTCGGCGATGACTATTTGAACATCGCGAGTACGGCGCTGACGCAGCTGGAAGAAATCGCCGGCCCCGAAGCGGTGCGCGCGTTTGCTGCCCAGCGGTTTGCCGACATGGAACGCCGCTATGCCCCTGAGGTCGAGCAGGCGGGCAGCGACATCACGGCGCGAACCCAGGCTCTCTCCGCCGCCCTGTCCCGTGACGGCTTCGTATCCTCCACAGCATCCATCGAGGCCAAGGCGCCGCTGCCGGCAGCACTGTCCAGCGTCCAGCTCTGCCAGGGTCACTGCCCGATCCAGCAGCTGGCCAGGCAGTTCCCCGTGTTCTGCGACGTGGAGACGGAAATGTTTTCCCGCTTGGTGGGCGTCGACGTCCGAAGACTCTCGACCCTCGCCCGCGGCGGCCACGTCTGCACCACCCACGTACCAACAGGCCGTCCGGCCGCGATGGGGCCCAGTGCTCCCGGAGCCGGACAGGACACCCTGAACGAAGAATCCAACCATCTGCAAGAAAGGCCGCTATGA	MSNSTSLAKAGPGARIRVLRGGKPPAHGATAPVPDSDERTRDRVLNAVLEHGPVSAAELGDLLGFTPAAVRRHLDHLSREGVIEVKRVARAGAGAGRPARRYVLSSEGQSTLGDDYLNIASTALTQLEEIAGPEAVRAFAAQRFADMERRYAPEVEQAGSDITARTQALSAALSRDGFVSSTASIEAKAPLPAALSSVQLCQGHCPIQQLARQFPVFCDVETEMFSRLVGVDVRRLSTLARGGHVCTTHVPTGRPAAMGPSAPGAGQDTLNEESNHLQERPL				NA	NA	NA	NA	NA
D1-17_01996	879	lnrL_1	COG1131	Linearmycin resistance ATP-binding protein LnrL	GTGGTGAGCGACGTCTCACTCGTCGCCGGCCGCGGCGAAGTCACCGCACTCCTCGGGGCCAACGGCGCAGGAAAAACCACCACCATTGAGTGCGCCCAGGGCCTGCAAAAGCGCAGCGGCGGCACGATCTCCCTGCTTGGGCAGGACCCGGGGCAGGCCGGTGCCGACCTGCGCTCCCGCGTAGGCGTCATGCTTCAGGAAGGCGGGCTCCCGCCGTCGGCCCGTCCCTTGCCTCTCCTCCGGCACATCGCCGGCATGTACCGGAACCCCCGGCCCGTGGAGGAGCTCGTAGAGCGGCTCGGCATTGATGCATTCAGCCGGACCACCGTCCGTCGGCTGTCCGGCGGCCAGAAGCAGCGGCTTGCCCTCGCGGCGGCGCTTATCGGCAACCCGGAGGTACTGTTCCTGGACGAACCGAGCGCGGGCCTGGATCCCCAGTCCCGCCAGCTTGTCTTTGAACTGATCTCAGAACTCCGGGACAGCGGCATGGGCATCATTCTGACCACCCACCTGATGGACGACGCCCAGCGGCTGGCTGACTACGTTTACATCATCGACGCCGGCAGGAACGTCGCGGAGGGCACAGTCGCCCAGCTGCTGCGGCACCAGACGCCGGAAATGACACACAAGGGCCACGTCCGCACCCTGCACTTCGAGGCGCTTCCGGGTCTCGACTTCACCGGCGTGCTGCCGCCCGAGGTGGAGGTCCGGGAAACGCGGGCCGGCAGCTACTCGGCCACCGGCGTGCTCACGCCGGAGGACCTCGCAGCACTGACCGTCTGGTGGGCGCAGCACGGCATCATGCCCGGTTCGATGAGCATGGAGGCGCGAAGCCTCGAAGACGTTTTCCTCGACATTTCCGGAAGGGACGTCCGATGA	MVSDVSLVAGRGEVTALLGANGAGKTTTIECAQGLQKRSGGTISLLGQDPGQAGADLRSRVGVMLQEGGLPPSARPLPLLRHIAGMYRNPRPVEELVERLGIDAFSRTTVRRLSGGQKQRLALAAALIGNPEVLFLDEPSAGLDPQSRQLVFELISELRDSGMGIILTTHLMDDAQRLADYVYIIDAGRNVAEGTVAQLLRHQTPEMTHKGHVRTLHFEALPGLDFTGVLPPEVEVRETRAGSYSATGVLTPEDLAALTVWWAQHGIMPGSMSMEARSLEDVFLDISGRDVR	PGPT0006725_4968	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-17_01997	759			hypothetical protein	ATGACCTCCACCCTTGGCAGCACTCCCGCTCCCCTGCTGCGGCGCATCGTCCTGCACGGCAAGTACGAGGCCGTAACCATGCTTCGGAACGGCGAACAGCTGATTCTGGCGGTGGTGCTGCCGCTGCTGGCACTCGTTGGCCTCACCGTCACCCCGCTGCTGGACGGCATGGGTGACACCAGGATTAACGTGGCGGTCCCGGGCATCCTCGCCCTCTGCGCCATGTCCACGGCGTTTACCGGGCAGGGTATCTCCACGGGTTTTGACCGCCGCTACGGCGTCCTGCGGTTCCTTTCCACCACGCCGCTGGGCCGCGCGGGGCTCATTGCCGGCAAGATCATCGCCGTGCTCGCCGTGCTTGCCCTGCAGGTCCTCGTGGTCACGGGCGTGGCGTTGAGCCTCGGCTGGAAACCGGAGGCATCCGGGTGGCTCCTGGGGCTGGGCTTGCTGGTACTGGGTGCGGCCGCCTTTACCGCGATAGGCCTTTTGGTGGCCGGGACAGTCCGGCCGGAAGCAACTCTGGCGATCACCAACCTGCTGTGGATCCTGCTGGGAGCCCTAGGCGGCATCGTGATTCCCTCCGAGCGGCTGCCGCGCCTCGCGCAGGACACCGTGCACCTCCTACCCTCCGGTGCCCTCGGCGACGGGCTCCGCGATGCGTTCCTGCACGGCGCCCTGAACGGCACCGCCGTCCTCGTCCTGCTGCTGTGGCTGCTTCTTGCCGGCACAGCAGCCATCCGTTGGTTCAAGTGGAATTGA	MTSTLGSTPAPLLRRIVLHGKYEAVTMLRNGEQLILAVVLPLLALVGLTVTPLLDGMGDTRINVAVPGILALCAMSTAFTGQGISTGFDRRYGVLRFLSTTPLGRAGLIAGKIIAVLAVLALQVLVVTGVALSLGWKPEASGWLLGLGLLVLGAAAFTAIGLLVAGTVRPEATLAITNLLWILLGALGGIVIPSERLPRLAQDTVHLLPSGALGDGLRDAFLHGALNGTAVLVLLLWLLLAGTAAIRWFKWN	PGPT0006730_20763	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-17_01998	945	ctaA		Heme A synthase	GTGAGTACGGCTTCGCGCCTCCCCCAGATCCTCGGCCGCGTAACCTCCAGGCTGCCGGTGTCCGTTGATCCAGCCATCCGCCGCCTGGCGGTGCTGTCCCTCGTGGGCCAGACCATACTGGTTGTGACGGGCGGCGCCGTCCGGCTGACGTCGTCCGGCCTGGGTTGCCCCACGTGGCCGCGCTGCACTGAGGCGTCGCTGGTGAACACGCCTGAAATGGGCATCCACGGCTTCATTGAGTTCGGCAACCGGCTCCTGACCTTCGCCCTGGCCGCCGTTGCAGCCATGATGCTCGTGTACCTGTGGAACCTCCGGAAGGAGCGCAGGGACCTCTTCCTGCTCGCCCTGGGCCTGCTGGCAAGCATTCCCGCCCAGGCAGTTATCGGCGGCATCACCGTGCTCACCAAGCTGAACCCGTGGGTGGTTGGCCTGCACTTCCTCGTTTCCATGGCGCTGGTGGTGTTCGCTACGCTGCTCGTCAACAGGGCCTATGGCCGGACCGGCGGCTTCATGGACCGTACGCTGCCGGCACTGCCAGGTGTTGCACGCCCAGTGATGACCGCCGTCGCGGTGTTCTCTGCCCTGGCGGTCATGCTTGGAGTCGTGGTCACCGGGGCAGGGCCACACGCGGGTGACGCGGACGCGCCTCGCAATAACCTCGATTGGGACCTGTTTTCCCACATCCATGCCGTGCCGGCCTACCTGATCACCGCGGGCACACTCTTCGCCTGCTACCTGGTCTTTCAGCACAGGATTACGGGCCCGTTCCGTTCAGCCGTGCTGATGCTCCTTGGCGTGACGCTGCTGCAGGCCGCCATCGGCTTCACCCAGTACTACAACGGCATCCCGGTGCTCCTTGTGGGGGCACACATGCTCGGAGCGGCCCTGCTGATGAGCACCGCAACTAACGCGTGGGACGTGGCGCGCTCCAGCCCGGCGCACTAA	MSTASRLPQILGRVTSRLPVSVDPAIRRLAVLSLVGQTILVVTGGAVRLTSSGLGCPTWPRCTEASLVNTPEMGIHGFIEFGNRLLTFALAAVAAMMLVYLWNLRKERRDLFLLALGLLASIPAQAVIGGITVLTKLNPWVVGLHFLVSMALVVFATLLVNRAYGRTGGFMDRTLPALPGVARPVMTAVAVFSALAVMLGVVVTGAGPHAGDADAPRNNLDWDLFSHIHAVPAYLITAGTLFACYLVFQHRITGPFRSAVLMLLGVTLLQAAIGFTQYYNGIPVLLVGAHMLGAALLMSTATNAWDVARSSPAH	PGPT0008525_2867	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
D1-17_01999	801			IS3 family transposase ISBli34	TTGGACGTCGCCGGGCTGGCCAGATCCACGTTTTTCTATCACCAGCTCCGGCTCCAGGCGCCGGACCCGAAAGAGAAGCTCAAAGCGGCGATCACGGAGATCTTTGAAACGAACCATGGCCGGTACGGGCACCGCCGGGTCCACACGGAGCTACTCAAGCACGGGTGGACGGTCGCGAAGAAGACCGTGCTGAAGCTAATGGAGGCCCTTGGGTTGGCCCGCAAGGTCCGGCGCAGGAAGCGCTACAACTCCTACCAGGGCGAACAGGGCGCGGTAGCGCCCAACGTGCTGAACCGGGAGTTCGAGGCTGATGCGCCGAACCGGAAGTGGGTTACGGATGTGACGGAGTTCAGCGTCGGCGGCGGGAAGCTCTACCTCTCACCGGTGATGGACCTCTTTGACCGGCAGATCATTTCTTACTCGCTGGGCTTATCCCCGAACCTGGCGCTCACCAACGATTCCCTGCGTGAGGCCCTGACCTGTCTGCAGCCCGGTCAGCAGCCGCTGGTGCACTCGGACCAAGGTTTCCAATACCGTCACGCGTCCTGGCGCACCCTCATCCAGAACGCCGGCGCGGTCCAATCCATGTCCCGCAAGGGCAATTGCTACGACAACGCCGTCATGGAGAACTTCTTCGGCCACCTCAAGGAAGAACTCTTCCACCGCGTCCGATTCCTCAACACCGACGCACTGGCAGCTGCAATAGAGGAATACATCCACTGGTACAACAACAAAAGAATCTCCACAAAGCTCAAGGGCCTGAGCCCGGTGCAATACCGGGCCCAGACCCTTGCAGCCTAG	MDVAGLARSTFFYHQLRLQAPDPKEKLKAAITEIFETNHGRYGHRRVHTELLKHGWTVAKKTVLKLMEALGLARKVRRRKRYNSYQGEQGAVAPNVLNREFEADAPNRKWVTDVTEFSVGGGKLYLSPVMDLFDRQIISYSLGLSPNLALTNDSLREALTCLQPGQQPLVHSDQGFQYRHASWRTLIQNAGAVQSMSRKGNCYDNAVMENFFGHLKEELFHRVRFLNTDALAAAIEEYIHWYNNKRISTKLKGLSPVQYRAQTLAA				NA	NA	NA	NA	NA
D1-17_02000	486			hypothetical protein	ATGCGTGCACGTAGTTCATTGGCTGAGGCGCAGCGCGAGGCAGCTGTAGCGTTGTTTGAGAAGGGCATCGGCTATCGGGCGGCGGCCCGGTTGCTGGATGCGCCTTGGGTACCGGTCAGGGCACTGTATGGGCGGTGGAGGATTCATGGGCAAGGAGTGCTGGTGAGCAGGCCTGCGAAGTCCTACTCTTTCGAGTTCAAGCTGGCCTTGGTGCAGCGGTTCCTCGCGGGCGAGTCCGGCCCGGAGTTGGCGGTGGAGGCCGGTTTGGCCTCCCGTGAGCTGCTGCAAAAGTGGGTCCGGGCGTATCGAATGGACGGTGAGGACGGGTTGCGGCCAAAGCCCAAGGGCAGACCGCGGAAACCCGATTCCCCGCCGACTGGGGAGCTGCCGGAGCTTGAGCGGTTGCGGCGGGAGAACGAGCGGCTGCGCGCTGAGGTGGCGTACCTGGGAAAACTGCGGGCCTTGAGGGAACAGGGACGACGGTAA	MRARSSLAEAQREAAVALFEKGIGYRAAARLLDAPWVPVRALYGRWRIHGQGVLVSRPAKSYSFEFKLALVQRFLAGESGPELAVEAGLASRELLQKWVRAYRMDGEDGLRPKPKGRPRKPDSPPTGELPELERLRRENERLRAEVAYLGKLRALREQGRR				NA	NA	NA	NA	NA
D1-17_02001	951	cyoE	COG0109	Protoheme IX farnesyltransferase	GTGAGCACAACAGATACGCCGCTGACCTCAGCCAGGGTCCACGGAAAAGCCGGACTAGCCCGCAAGGCGAAGGCCTACCTTGCTCTCACCAAACCGCGGGTCATTGAACTTCTGCTGGTCAGCACGCTCCCCACCATGATCTACGCGCAGCGCGGCTTCCCGTCGCTGGGCCTGATCCTTGCCACGCTGGTAGGCGGTGCTTTTGCGGCGGGCAGCGCGGGTGCCTTCAACTGCTACATTGACCGTGACATCGATAAGCTCATGCACCGCACCGAAAAGCGGCCGCTGGTTACCGGCGAAGTGACCCCGCGGGAAGCCCTGGTCTTTGCCTGGCTCCTGGGCGCGGCCGCCATCGCCATCCTGTGGTTCGGCGCGAACCCGCTCTCTGCGTGGCTGGGCCTCGGCGCCATCCTGTTCTACGTGGTCATCTACACCATGATCCTCAAGCGCCGCACAGCACAGAACATCGTCTGGGGAGGCGCGGCCGGCTGCTTCCCGGTGCTCATCGCCTGGTCGGCCGTCACCAACACTGTTGAGTGGCCCGCCGTCGTGCTGTTCATGGTGATCTTCCTCTGGACGCCGCCGCACTACTGGCCGCTGTCCATGCGGTACGGCGAGGACTACCGCAACGCCAAGGTGCCCATGCTCGGCGCCATCGCCGGTGCCAAGGTGGTGTCGGTGCAGGTGGTTCTGTACGCGTGGGCCATGGTCGCCTGCTCTCTGCTCATGGTTCCTGCCGGCGGTGCCGGCTGGGTGTACACCGTCACGGCAGTCCTGGCCGGCGCCTGGTTCCTGTACGAATCCCACGGGCTGTACAACCGGGCCCAAGGCGGGGACCTCTCCGACAAGGGTGCCATGAAGGTCTTCCACGGCTCTATCAGCTACCTGACGCTCCTGTTCATCGCACTGGCCGTGGACCCGTTCGTCGGCTCGGCAATAATGGGCGCCTAG	MSTTDTPLTSARVHGKAGLARKAKAYLALTKPRVIELLLVSTLPTMIYAQRGFPSLGLILATLVGGAFAAGSAGAFNCYIDRDIDKLMHRTEKRPLVTGEVTPREALVFAWLLGAAAIAILWFGANPLSAWLGLGAILFYVVIYTMILKRRTAQNIVWGGAAGCFPVLIAWSAVTNTVEWPAVVLFMVIFLWTPPHYWPLSMRYGEDYRNAKVPMLGAIAGAKVVSVQVVLYAWAMVACSLLMVPAGGAGWVYTVTAVLAGAWFLYESHGLYNRAQGGDLSDKGAMKVFHGSISYLTLLFIALAVDPFVGSAIMGA	PGPT0008520_1337	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008520-ctaB|cyoE-K02257	NA	NA
D1-17_02002	2073	tkt	COG0021	Transketolase	GTGGACACTGTGCGTGTCCTGGCCGCCGACGCGGTGGAGAAGGTGGGCAACGGCCATCCCGGCACCGCTATGAGCCTGGCTCCGGCCGCATACCTTCTCTTCCAGAAGATGATGCGGCACGATCCGCAGAACCCGGACTGGATTGGGCGTGACCGGTTCATACTGTCCCCCGGCCACACGTCCCTGACGCTGTACATCCAGCTCTTCCTCTCCGGCTACGGCCTGGAACTGAAAGACCTGCAGGCGCTGCGGACCTGGGGCTCACTCACTCCGGGCCACCCCGAATACAAGCACACCGCTGGCGTGGAAATCACCACGGGTCCGCTCGGCCAGGGTCTCGCGTCCTCGGTGGGCTTCGCGTACTCCCAGCGCCGCCAGCGCGGCCTGTTCGACGCCGACGCCGCCCCCGGCACCAGCCCGTTCGACCACACCATCTGGGTCATCGCTTCCGACGGCGACCTGCAGGAAGGTGTGACCTCCGAGGCCTCGTCCCTTGCGGGCCACCAGGAACTGGGCAACCTCGTAGTTATCTACGACGAGAACCACATCTCCATCGAAGACGACACCGACATCGCGTTCACCGAGGATGTCCTGAAGCGCTACGAGTCCTACGGCTGGCACACCCAGCGCGTCGACTGGACCAAGACCGGCGAATACAAGGAAGACATCCAGGAGCTGTACTCGGCGCTGGTGGCGGCCAAGGCCGAAACGTCCAGGCCCTCCATCGTCTCGCTGCGCACGATCATCGGCTACCCGGCCCCCAAGAAGCAGAACACCGGCAAGATCCACGGCTCGGCCCTGGGCTCGGAGGAAGTTGCAGCACTGAAGGAAGTCCTGGGCTTTGACCCGGAGAAGTCCTTCGAGGTGGACGAGGATGTGCTGGCCCACGCCCGCGGCGTCGTGGACCGCGGCGCCCACGCCCGCAAGGCCTGGGAAGAGTCCTTTAACGCCTGGCAGTCCGCCAACCCGGAGGCCGCTGCCCTGCTCGAGCGCGTCGAGACCCGTCAGCTCCCGTCCGAACTGGACGCTGCCCTGCCCGTCTTCCCGGCCGGCAAGGACGTTTCCACCCGTGCCGCCTCAGGCAAGGTCCTGAACGCCATCGGCCCGGTCATGCCGGAACTGTGGGGCGGCTCTGCCGACCTCGCGGAGTCGAACAACACCACGATCGAAGGCTCGCCGTCGTTCGTTCCCGCTTCCAAGCAGACAGACGCCTGGTCCGGTAACCCCTACGGCCGGGTACTGCACTTCGGCATCCGTGAACACGCTGCCGCCTCGATCGTGAACGGCATCGCCCTGCACGGCAAGACCCGCGCGTTCTCCGGCACGTTCCTGATCTTCAGCGACTACCAGCGCCCCGCCATCCGCCTCGGCGCGCTGATGGGCGTGCCGTCGCTGTACGTCTGGACGCACGACTCGATCGGCCTTGGCGAGGACGGCCCCACCCACCAGCCGGTGGAGCAGCTGGCCTCCCTGCGCGCCACCCCGGGCCTGGACGTCGTCCGCCCCGGTGACGCGAACGAAGTCGCGGCAGCGTGGAAGACCATGCTTGCCAACCACGAGAACCCGGCAGGCATCGTGCTGACCCGCCAGAACATCCCCACTTGGGACCGCGGCGAAGGCGACGCCACCGGCGACACCTTCGCGTCCACCGCAGGCGTGGCCAAGGGCGGTTACGTCCTGGCCGAAGCATCCGAGGACGGACAGAGCGTACAGCCGCAGGTCATCCTGATCGGCACCGGCTCCGAAGTCCAGCTCGCCGTCCAGGCACGCGAAGCGCTGCAGGCCGAGGGCATCGCCACCCGCGTGGTGTCCATGCCCTGCGTCGAGTGGTTCACGAAGCAGGACGCCGCCTACCGCGAAGCAGTCCTGCCCGCGGCCGTGAAGGCACGCGTCTCGGTCGAAGCCGGCCTGGCACTGGGCTGGAAGGAGTTCGTCGGCGACGCCGGACGCTCCATCAGCCTCGAGCACTACGGTGCCTCCGCCGACTACAAGCGCCTCTTCCAGGAATTCGGCATCACCGCGGAAGCTGTCACCGCCGCCGCCAAGGATTCCCTCGCCGGACTCCAGTCCTGA	MDTVRVLAADAVEKVGNGHPGTAMSLAPAAYLLFQKMMRHDPQNPDWIGRDRFILSPGHTSLTLYIQLFLSGYGLELKDLQALRTWGSLTPGHPEYKHTAGVEITTGPLGQGLASSVGFAYSQRRQRGLFDADAAPGTSPFDHTIWVIASDGDLQEGVTSEASSLAGHQELGNLVVIYDENHISIEDDTDIAFTEDVLKRYESYGWHTQRVDWTKTGEYKEDIQELYSALVAAKAETSRPSIVSLRTIIGYPAPKKQNTGKIHGSALGSEEVAALKEVLGFDPEKSFEVDEDVLAHARGVVDRGAHARKAWEESFNAWQSANPEAAALLERVETRQLPSELDAALPVFPAGKDVSTRAASGKVLNAIGPVMPELWGGSADLAESNNTTIEGSPSFVPASKQTDAWSGNPYGRVLHFGIREHAAASIVNGIALHGKTRAFSGTFLIFSDYQRPAIRLGALMGVPSLYVWTHDSIGLGEDGPTHQPVEQLASLRATPGLDVVRPGDANEVAAAWKTMLANHENPAGIVLTRQNIPTWDRGEGDATGDTFASTAGVAKGGYVLAEASEDGQSVQPQVILIGTGSEVQLAVQAREALQAEGIATRVVSMPCVEWFTKQDAAYREAVLPAAVKARVSVEAGLALGWKEFVGDAGRSISLEHYGASADYKRLFQEFGITAEAVTAAAKDSLAGLQS	PGPT0011200_519	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0011200-tktA|tktB-K00615	NA	NA
D1-17_02003	1119	tal	COG0176	Transaldolase	ATGACTACCACCCCCACCCAGCAGCTCTCCGACGCCGGCGTGTCTATCTGGCTCGATGACCTCTCCCGCGGCCGGCTCAAGACCGGCACGCTGCAGAAGCTGATCGAAGAGAAGAACGTTGTAGGTGTCACCACGAACCCCTCCATCTTCCACGCCGCCATCACCACGGGGCACGACTACGACGCCGTCATCGCCAAGGAGGCGGCAGCCGGCGCGTCCATCGAGGACACCATCTTCGAAATCACCACCACCGATGTCGCCGACGCCTGCGACCTGTTCGCACCCATCGCCGCCGCGACCAACGGTGTGGACGGCCGTGTCTCCATCGAGGTCGACCCGCGCCTGGCCTGGGACACCGCCGGCACCATCGCCGAGGCCAAGCACCTGTACAAGAAGGTCAACAAGGACAACGTCCTGATCAAGATCCCCGCCACGCTCGAAGGCCTTGAGGCCATCACGGCCACCCTCGCCGAAGGTATCAGCGTCAATGTGACCCTGATCTTCTCCCTCGAGCGCTACCGCGCGGTCATCAACGCCTTCCAGACCGGCCTGGAACAGGCCAAGGACAACGGCCACGACCTGTCCAAGATCCACTCCGTGGCCTCGTTCTTCGTCTCCCGCGTCGACGCCGAAATCGACAAGCGCCTCAACGCCATCGGCACCGAGGAAGCCAAAGCACTTAAGGGCAAGGCCGGCCTGGCCAACGCCCGCCTGGCCTACCAGGTCTACGAAGAGCAGTTCTCCACCGAGCGCTGGGCCGTCCTCGCCGAAGCCGGCGCCCGGCCGCAGCGCCCGCTGTGGGCCTCCACCGGCGTGAAGGACCCCGCCTACCCGGACACCCTCTACGTCACCGAACTCGTCGCTCCCGGCGTGGTGAACACCATGCCGGAAAAGACCCTGGAGGCCACCTTCGACCATGGCGTCATCACCGGTGACACCGTGACCGGCACCTACGAGGAAGCGAACGCCACCCTCAACGCCCTGGAAAACCTCGGGGTCTCCTACAACGACGTCGTCGCGCTCCTCGAATCCGAAGGCCTCGACAAGTTCGTCGCCAGCTGGAAGGAACTGCTGGCCGACGTCGAGGGTGCCCTCGCCTCTGCACGGAAGGCTTCCTAG	MTTTPTQQLSDAGVSIWLDDLSRGRLKTGTLQKLIEEKNVVGVTTNPSIFHAAITTGHDYDAVIAKEAAAGASIEDTIFEITTTDVADACDLFAPIAAATNGVDGRVSIEVDPRLAWDTAGTIAEAKHLYKKVNKDNVLIKIPATLEGLEAITATLAEGISVNVTLIFSLERYRAVINAFQTGLEQAKDNGHDLSKIHSVASFFVSRVDAEIDKRLNAIGTEEAKALKGKAGLANARLAYQVYEEQFSTERWAVLAEAGARPQRPLWASTGVKDPAYPDTLYVTELVAPGVVNTMPEKTLEATFDHGVITGDTVTGTYEEANATLNALENLGVSYNDVVALLESEGLDKFVASWKELLADVEGALASARKAS	PGPT0017375_760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_PENTOSE_METABOLISM,PGPT0017375-talA|talB-K00616	NA	NA
D1-17_02004	1635	pgi		Glucose-6-phosphate isomerase	ATGAACACACTCAGCTATGACGCCACCGGCGCGGCCCGGAAGGCCCTCGAGCAGCACTTGCCCGCCCTGGTGGAGGACCGCGTCGCCACCCGGATCTTCGCGAAGGACCATACCCTCTGGGGACCCGATGCAGAGGCCGAGTCCTCAATCCGGCTGGGCTGGGTCGAGGCGGCCACCGTCTCCCAGCCCCTGGTGGCGGACATCCTGGAACTCCGCGCTGCGCTAAACGCCGAAGGCGTCACCCGTATTGTCCTCTGCGGCATGGGCGGCTCCTCGCTGGCACCTGAGGTCATTACCGGGACCGCCAGTGTAGAGCTGACCGTGCTGGACAGCACCGACCCTGAACAGGTCGGTGCTGCCCTCGCGGACCGCCTTGCCGAAACTGCAATCGTGGTCTCATCCAAGTCCGGCTCAACCCTGGAAACGGATTCCCAGCGGCGGATCTTCGAGCACGCCTTTGCCGAGGCCGGCATCGATGCCAAGAGCCGGATCATCGTCGTCACCGACCCCGGTTCCCCCCTGGACAAAGCCTCCCGCGAGGCGGGCTACCGGGCCGTCTTCAACGCCGACCCCAACGTGGGCGGGCGCTACTCCGCGCTGACTGCGTTCGGGCTCGTCCCCTCCGGCCTGGCCGGCGTGGACATCCAGTCTTTCCTGGATGAAGCCGAGGAAGCAGCGGAGATCCTTAACGAGGACGGGCCGGAAAACATCGGCCTGGCGCTTGGAACGGCTCTCGGCGGCACCAACCCGCTGCGGGACAAGATCGTCATTGCCGAGGACGGCTCAGGCATCGTGGGTTTCGCCGACTGGGCAGAACAGCTCATCGCGGAATCCACCGGCAAGCTCGGCACCGGCGTCCTGCCGGTGGTCGCCGGTCCGAACGCACCGGAGGTCACCTCCGGCGCTGAAGACGTCCTGGTGGTTCGGCTGGTAGGCGCCGATGCCGACGTCGAACTCGGAGAAAACGAAGTTGCCATCGCCGGTGGACTGGCCACCCAGATGATGGTGTGGGAATTCGCCACGGCGGTGGCCGGACGCCTCCTGGGCATCAACCCGTTCGACCAGCCCGACGTGGAAGCCGCCAAGGTGGCTGCCCGCGGCCTCCTGGATGCGCAGCCGGAACCCACGCCGGCAGCCTTCACCGACGGTGCCATCGAGGTCCGCGGCGGCGAATGGCTGGGGAACGCCGGTTCAGCGGCCGAGGCTGTGTCCGCGCTCCTGGCGCAGCTGGACGCGAACGGCTACCTGAGCGTGCAGGCATACTTCGACCGCTTGGCGTACTCCCGGCTGGAAGGGGTCCGGGACGAGCTCGCCGCCGTGAGCGGCCGCCCCGTCACCTTCGGCTGGGGCCCGCGCTTCCTGCACTCCACCGGCCAATTCCACAAGGGCGGCCCCGCGATCGGCGTGTTCCTGCAGGTCACGGCGGCTTCCAGCCAGGACCTGGCCATCCCGGAACGCCCGTTCACCTTCGGCGAGCTCATCTCGGCGCAGGCTGCGGGCGACGCACAGGTGCTGACCGAACACGGCCGGCCTGTCCTGCGGCTGCACCTCACCGACCGGGCAGCGGGCGTGGGCCAGCTCCAGGAGATCGTTTCGTCGCTTGCCGTGAAGGCGGCTTCCGGCGCTGAAAGCTAA	MNTLSYDATGAARKALEQHLPALVEDRVATRIFAKDHTLWGPDAEAESSIRLGWVEAATVSQPLVADILELRAALNAEGVTRIVLCGMGGSSLAPEVITGTASVELTVLDSTDPEQVGAALADRLAETAIVVSSKSGSTLETDSQRRIFEHAFAEAGIDAKSRIIVVTDPGSPLDKASREAGYRAVFNADPNVGGRYSALTAFGLVPSGLAGVDIQSFLDEAEEAAEILNEDGPENIGLALGTALGGTNPLRDKIVIAEDGSGIVGFADWAEQLIAESTGKLGTGVLPVVAGPNAPEVTSGAEDVLVVRLVGADADVELGENEVAIAGGLATQMMVWEFATAVAGRLLGINPFDQPDVEAAKVAARGLLDAQPEPTPAAFTDGAIEVRGGEWLGNAGSAAEAVSALLAQLDANGYLSVQAYFDRLAYSRLEGVRDELAAVSGRPVTFGWGPRFLHSTGQFHKGGPAIGVFLQVTAASSQDLAIPERPFTFGELISAQAAGDAQVLTEHGRPVLRLHLTDRAAGVGQLQEIVSSLAVKAASGAES	PGPT0017735_3019	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017735-pgi-K01810	NA	NA
D1-17_02005	1569	zwf2_2	COG0364	Glucose-6-phosphate 1-dehydrogenase 2	ATGCCAGATACTTTGAAGAGGCTTGTGTCCCGGGGCGGGAATCCGTTGCGGGATCCGCGGGATCGTCGTTTGAACCGTATTGCCGGTCCGTCCTCGCTTGTGCTGTTCGGGGTCACGGGTGATCTTGCCCGGAAGAAGCTGATGCCGGCGGTGTATGACCTTGCCAACCGGGGGTTGTTGCCGCCGAGTTTCGCGCTGGTCGGTTTCGGGCGGCGGGGCTGGGATGACGAGGAGTTCGCCGCGGAGGTCAGGGACGCGGTCACCTCGTATTCGCGGACGCCTTTTGATGAGGCGGTGTGGAACCAGCTTTCGGAGGGTATCCGTTTTGTGCAGGGCGAGTTCGACGATGACGCCGCGTTTGAGCGGTTGGGTGAGACGATCAAGGAACTGGACGAGAACCGGGGCACGCGGGGGAATCACGCGTTCTATTTGTCGATCCCGCCGAAGGCGTTTGAGCAGGTGTGCCGGCAGCTCTCGAAGCACGGGTTGGCGCAGGCCGAGGGTGAGAAGTGGCGGCGGGTGGTGATCGAGAAGCCGTTCGGGCATGACCTGGAATCGGCGCGGGCGCTGAATGACATTGTGGAGTCGGTGTTCCCGCCGGATGCGGTGTTTAGGATCGATCATTATCTGGGCAAGGAGACGGTGCAGAACATCCTGGCGCTGCGGTTCGCGAACCAGCTGTTTGAGCCGTTGTGGAACGCGAACTACGTGGACCATGTCCAGATCACCATGGCTGAGGACATCGGCACCGGCGGCCGGGCGGGGTATTACGACGGGGTCGGCGCGGCGCGGGACGTGATCCAGAACCACCTTTTGCAGCTGCTGGCGTTGACGGCGATGGAGGAACCGATCTCCTTTAACGCCGATGATTTGCGGGCGGAGAAGGAAAAGGTTCTGGCCGCGGTGCGGTTGCCGGAGGATCTGTCCACGCACTCGGCGCGGGGGCAGTTCGCCGGCGGCTGGCAGGGCGGGGAGCAGGTGCTGGGGTACCTGGAGGAAGAGGGCATCCCGGCGGACTCGACGACTGAGACGTTTGCGGCGATCCGGGTGGACATCAACACCCGGCGCTGGTCCGGGGTGCCGTTTTACCTGCGTGCGGGCAAGCGGCTGGGCCGGCGGGTGACGGAGATCGCGGTGGTGTTCAAACGCGCCCCGAACCTGCTCTTCGGCGCTCACGGGGGCGTTGGCCACGGGGATGATGATTTCGGGCAGAACGCGGTGGTGATCCGGGTCCAGCCCGATGAGGGCGCGACGATCCGGTTCGGGTCCAAGGTCCCGGGCACCCAGATGGAAGTGCGGGACGTGACGATGGACTTCGGTTACGGGCATTCCTTTACCGAGTCTTCCCCGGAGGCGTATGAGCGGCTGATCCTGGACGTGCTGCTGGGCGAGCCGCCGTTGTTCCCGCGGCACGAGGAGGTGGAGCTGTCCTGGAAGATCCTGGACCCCTTCGAAGAGTACTGGGCGGCCCTGAACGAACAGCCCGAACCCTACGCCCCCGGCAGTTGGGGCCCGGCCAGCGCTGATGAGCTGCTCGCCCGTGACGGACGCACCTGGAGAAGGCCATGA	MPDTLKRLVSRGGNPLRDPRDRRLNRIAGPSSLVLFGVTGDLARKKLMPAVYDLANRGLLPPSFALVGFGRRGWDDEEFAAEVRDAVTSYSRTPFDEAVWNQLSEGIRFVQGEFDDDAAFERLGETIKELDENRGTRGNHAFYLSIPPKAFEQVCRQLSKHGLAQAEGEKWRRVVIEKPFGHDLESARALNDIVESVFPPDAVFRIDHYLGKETVQNILALRFANQLFEPLWNANYVDHVQITMAEDIGTGGRAGYYDGVGAARDVIQNHLLQLLALTAMEEPISFNADDLRAEKEKVLAAVRLPEDLSTHSARGQFAGGWQGGEQVLGYLEEEGIPADSTTETFAAIRVDINTRRWSGVPFYLRAGKRLGRRVTEIAVVFKRAPNLLFGAHGGVGHGDDDFGQNAVVIRVQPDEGATIRFGSKVPGTQMEVRDVTMDFGYGHSFTESSPEAYERLILDVLLGEPPLFPRHEEVELSWKILDPFEEYWAALNEQPEPYAPGSWGPASADELLARDGRTWRRP	PGPT0017380_888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-17_02006	942			hypothetical protein	ATGATTGTAGATTTGCCGAACACCACCACCTCCAAGGTTTCCAAGAAGATCATGGCCCTGCGCGAGCAGGGCGGGGTGATCGCGCTGGGCCGGGTCCTGACCCTGGTGGTCGTCACCAAGTCCGGCCTGGAGGAGGAAGCGATCGAGGCGGCGAACGACGCCAGCCGGGAACACCCCTGCCGGATCATCGTGCTCGCCGACGCCGGCTCGGCCGCCCCGAACCGGCTCGACGCGCAGATCCGGGTCGGCGGGGACGCCGGCGCCTCGGAGGTCATCGTGCTGCGCGGCTACGGCGAACTCGCCGAGGAAAGCGAGTCCCTGGTCGCGGCGCTGCTGCTGCCGGACGCACCGATCGTGGCCTGGTGGCCCCACGGGGCACCGAAAAACGCCTCCGAAACCTCCATCGGCCGCATCGCCCACCGCCGGATCACCGACTCGGCGAACGAAGCCGAACCCCAGGTCGCTTTGGAGAACATCCGCAACACCTACAAAGCCGGCGACACCGACCTCGCCTGGACCCGCCTGACCAACTGGCGCATCCAACTCGCCGCCGTCCTGGACCAGGTCGATCCCTCCCCGGTCACCGCCGTCACCGTCGAAGGAGCCTCGGACTCACCCTCCACCATCCTCCTCGCGGCCTGGCTCACCCTGTCCCTGGACGCCCCCGTCACCATCGTCGCGGACCCCGCCGGCACCGGCATCCGCAGGGTCCGCCTCACCCGCCCCAGCGGAGACGTCCAGCTCTTCCGCCCCGGACTCTCCGTCGCCGAACTCACCCAACCCGGCCAACCCGCCCAACGCATCTCCCTCCCACGCCGCAGCCTCCGCGACTGCCTCGCCGAAGAACTCCGCCGCCTGGACCCCGACGAAGTCTTCGGTGAAGTGATTACTATTGGACTGCCACGTACCAATCTAAGGAGTGTCCGTCCCAGTGAGCGCTGA	MIVDLPNTTTSKVSKKIMALREQGGVIALGRVLTLVVVTKSGLEEEAIEAANDASREHPCRIIVLADAGSAAPNRLDAQIRVGGDAGASEVIVLRGYGELAEESESLVAALLLPDAPIVAWWPHGAPKNASETSIGRIAHRRITDSANEAEPQVALENIRNTYKAGDTDLAWTRLTNWRIQLAAVLDQVDPSPVTAVTVEGASDSPSTILLAAWLTLSLDAPVTIVADPAGTGIRRVRLTRPSGDVQLFRPGLSVAELTQPGQPAQRISLPRRSLRDCLAEELRRLDPDEVFGEVITIGLPRTNLRSVRPSER				NA	NA	NA	NA	NA
D1-17_02007	819	pgl_1	COG0363	6-phosphogluconolactonase	GTGAGCGCTGAGCCCAGAGTAAGCATCCATCCAGACTCTTCCGTCCTCATGGCCGCCATCGCCGCACGCCTGATCACCAAGCTTGTTGACGTCCAGGATAGGTTCGGAGAGGCGACGGTGGTGCTCACCGGCGGCACGGTGGGTATTGGCACCCTTAAAGCAGTGGCGGATTCGCCTGCAGCGCCCGCAGTGGACTGGAGCAAGGTGAATTTCTGGTGGGGCGATGAGCGCTTCGTCAGTGCCAAGGATCCGGACCGCAACACCGTCCAGGCTCACCAGGCACTGCTGCAGCACATCCCGGTCGACCCTGAGCGCGTCCATGAACCGGGCTCCTCGGATGAGTTCGACAGCCCCGACTTGGCGGCTGAAGATTATGCCCGCCAACTTGCGGAAGCTGCTGCAGCCGAACACGCCGCAGATATGTCGGACAACAGGCCGGACACCCCCGGAAAGCTCCCACGTTTCGACGTGGTTCTGCTCGGCGTGGGACCGGATGCCCACATCGCATCACTGTTTCCCGAGCAGGCCGGCATTCGGGAAAAACAGCTCACCGTGGTGGGAGTGCGCAACTCCCCCAAGCCGCCGCCCGAGCGGATCTCGCTGACGCTTCCTGCGATCAACACCGCCGCAGAGGTGTGGATGGTGGTCGCGGGCGAGGACAAGGCCGGTGCCGTTGGCCTGGCTCTCGCCGGAGCCAACCCGGTCCAGGTTCCTGCGTCCGGCCCGGCCGGACGCTCACGCACGCTGTGGCTGATTGACGAGAATGCGGCGTCCCGCGTACCCGAGCAGCTAGTCCGCAAGGCCCCTGCCGGCTCGTAG	MSAEPRVSIHPDSSVLMAAIAARLITKLVDVQDRFGEATVVLTGGTVGIGTLKAVADSPAAPAVDWSKVNFWWGDERFVSAKDPDRNTVQAHQALLQHIPVDPERVHEPGSSDEFDSPDLAAEDYARQLAEAAAAEHAADMSDNRPDTPGKLPRFDVVLLGVGPDAHIASLFPEQAGIREKQLTVVGVRNSPKPPPERISLTLPAINTAAEVWMVVAGEDKAGAVGLALAGANPVQVPASGPAGRSRTLWLIDENAASRVPEQLVRKAPAGS				NA	NA	NA	NA	NA
D1-17_02008	258	secG	COG1314	putative protein-export membrane protein SecG	GTGGACGTTCTTCATGTCATTCTGCAGATCCTCCTGGGTGTCACCAGCCTCCTGCTGACCCTGCTCATCCTGCTCCACAAGGGACGTGGCGGCGGTCTGTCGGACATGTTCGGCGGCGGCATGAGCTCCGGCCTGAGCTCCTCGGGTGTCGCGGAAAAGAACCTGAACAGGTTCACCGTTATTCTCGGCATCACGTGGGGCGCCGTAATCATCGCCCTCGGCCTGCTGATGAGGTTCACGGGCGTAGCCGACTCCTAG	MDVLHVILQILLGVTSLLLTLLILLHKGRGGGLSDMFGGGMSSGLSSSGVAEKNLNRFTVILGITWGAVIIALGLLMRFTGVADS	PGPT0025720_2777	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
D1-17_02009	816	tpiA	COG0149	Triosephosphate isomerase	GTGACAACGTCAACTAACGGCACCTTTGACCGCACGCCACTGATCGCGGGCAACTGGAAGATGAACATGGACCATGTCCAGGGCATCACCCTGCTGCAGAAGCTGGCCTGGACCCTGTCTGATGCCAATCACGACTACAGCCGCGTTGAAGTGGCAGTCTTCCCGCCCTTCACTGATCTTCGGGGCGTCCAGACGCTTGTCCATGGTGATGACCTCGACATCGCTTACGGAGCCCAGGACCTCTCGCAGTTTGACTCCGGCGCCTACACCGGCGACATCTCCGGCCAGTTTCTCAGCAAGCTCGGATGCAGGTACGTGCTGGTGGGCCACAGCGAACGCCGCACAATCCACAACGAGTCGGATGACGTGCTCAACGCCAAGGTCAAGGCCGCTTTCCGCCACGGCGTCACTCCGGTGCTCTGCGTTGGCGAGGGCCTGGACATCCGCCAGGCCGGAACCCACGTCCAGCACACCCTCGATCAGCTCCGCGCGGATGTTGCCGGACTCGACCCCGAGCAGGCCGCCGAACTCGTGGTTGCCTACGAGCCCGTCTGGGCGATTGGGACGGGTGAAGTTGCCGGACCGGAAGATGCGCAGGAAATGTGCGCCGCCATCCGGGCAGAGTTGACCGAACTGTTCGGCGCCGACGTCGCGGCCAAGGTGCGGCTGCTCTACGGCGGTTCTGTAAAGGCCAACAACGCGGCCGCCATCCTGCAGCAGCGCGACGTCGACGGCGTGTTGGTCGGCGGGGCCAGCCTCGACCCGGCTGAATTTGCTAATATTGTCAGGTTCGAGAGCCACCTGGTGACTGACTAG	MTTSTNGTFDRTPLIAGNWKMNMDHVQGITLLQKLAWTLSDANHDYSRVEVAVFPPFTDLRGVQTLVHGDDLDIAYGAQDLSQFDSGAYTGDISGQFLSKLGCRYVLVGHSERRTIHNESDDVLNAKVKAAFRHGVTPVLCVGEGLDIRQAGTHVQHTLDQLRADVAGLDPEQAAELVVAYEPVWAIGTGEVAGPEDAQEMCAAIRAELTELFGADVAAKVRLLYGGSVKANNAAAILQQRDVDGVLVGGASLDPAEFANIVRFESHLVTD	PGPT0017995_427	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017995-tpiA-K01803	NA	NA
D1-17_02010	1227	pgk	COG0126	Phosphoglycerate kinase	ATGACATTTCACACCCTCAACGAACTGATCGCTGAAGGTGTCCGCGGGCGGTACATTCTGGTTCGAAGTGACCTGAATGTGCCGCTCGACGGCTCTACAGTGACTGACGACGGCCGCATCAAGGCCTCACTGCCAGTGCTGGGAAAGCTCACGGACGCCGGTGCCCGCGTGCTGGTAACAGCCCACCTAGGACGCCCCAAGGGCGCGCCGGAGGAAAAATACTCACTCAGGCCCGCCGTATCCCGGCTGGCCGAGCTGGCCCCGTTCCCCGTCACGCTCGCCGGAGACACGGTGGGCCCTTCGGCTAAGGAGCTCGCTGCCGGGCTGCAGGACGGCCAGGTCCTGGTGCTTGAGAACGTCCGCTTCGACGCCCGCGAAACCAGCAAAGACGACGCCGAGCGCGGCGCCTTCGCGGATGAACTGGTCGCCCTGACCGGAGACACGGGCGCCTTCGTGGACGACGCCTTTGGGGCTGTCCACCGCAAGCACGCCAGCGTGTACGACGTCGCCACCCGCCTCCCGGCGTACCTCGGCGATCTTGTCGGCACGGAAGTGGAGGTCCTTCGTAAGCTGACGGCTGACACTCAGCGTCCGTACGTCGTGGTTCTTGGCGGTTCCAAGGTTTCCGACAAGCTCGCCGTGATCGACAACCTCATCGGCAAGGCTGACACCATCCTTGTGGGCGGTGGCATGCTCTTCACGTTCCTGGCAGCCGACGGGCACAAAGTGGCAGGCAGCCTGCTGGAAGAGGACCAGATCCCGGTGGTCCAGGATTACCTCAAGCGCGCTGCAGACGCCGGCACCGAGTTCGTGATCCCCACCGACGTTGTTGTGGCAGCGAAGTTCGCTGCCGACGCGGACCACGAGACTGTCAGCGCTGAAGCCATCGAAAGCAGCAGCTTCGGTGCGCAGGGTATCGGGCTCGACATCGGCCCGGATTCCGCGAAGGCCTTCGCCGACCGGATCACGGCAGCCAAGACCGTCTTCTGGAACGGTCCCATGGGGGTCTTCGAGTTCGAGGCATTCTCTGCCGGCACCCGCGCTGTGGCCCAGGCCCTCACCGAGACGGAAGCTTTTACCGTCGTCGGCGGCGGTGACTCGGCCGCAGCAGTCCGCACCCTCGGCTTCGCCGATGACCAGTTCGGGCACATTTCCACCGGCGGCGGCGCCAGCCTGGAATACCTTGAGGGCAAGGAACTTCCGGGCCTGAGCGTGCTGGACCGCTAA	MTFHTLNELIAEGVRGRYILVRSDLNVPLDGSTVTDDGRIKASLPVLGKLTDAGARVLVTAHLGRPKGAPEEKYSLRPAVSRLAELAPFPVTLAGDTVGPSAKELAAGLQDGQVLVLENVRFDARETSKDDAERGAFADELVALTGDTGAFVDDAFGAVHRKHASVYDVATRLPAYLGDLVGTEVEVLRKLTADTQRPYVVVLGGSKVSDKLAVIDNLIGKADTILVGGGMLFTFLAADGHKVAGSLLEEDQIPVVQDYLKRAADAGTEFVIPTDVVVAAKFAADADHETVSAEAIESSSFGAQGIGLDIGPDSAKAFADRITAAKTVFWNGPMGVFEFEAFSAGTRAVAQALTETEAFTVVGGGDSAAAVRTLGFADDQFGHISTGGGASLEYLEGKELPGLSVLDR	PGPT0018015_1344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018015-pgk-K00927	NA	NA
D1-17_02011	1011	gap2_2		Glyceraldehyde-3-phosphate dehydrogenase 2	GTGACCACCCGTATTGGTATCAACGGCTTTGGCCGCATTGGCCGCAACTACTTCCGCGCAGCACTTGCCCAGGGTGCGGACCTCGAGATCGTTGCCGTCAACGACCTCACCAGCCCCGAGGCACTGGCCCACCTGCTGAAGTACGACTCCGTCGGCGGACGCCTGGCCGAAACCATTGAGGTCAAAGAGGGCAACCTGGTCGTTAATGGCAACGCCATCAAGGTGCTGGCCGAACGTGATCCCGCAAACCTCCCCTGGAGCGACCTGGGTGTGGACATCGTCATCGAATCCACGGGCTTCTTCACCAAGGCCGCCGCGGCAAAGAAGCACATCGAGGCAGGCGCCAAGAAGGTCCTGATTTCCGCTCCGGCCTCCGACGAGGACATCACTATCGTGATGGGCGTCAACGACGGGCTGTACGACCCCGAAAACCACCACATCATTTCCAACGCCTCCTGCACCACCAACTGCCTCGGCCCCCTGGCCAAGGTCGTCAATGACGCCTTCGGCATCGAGCGTGGCCTGATGACCACCGTCCACGCCTACACCGCAGACCAGAACCTGCAGGACGGCCCGCACAACGACCTCCGCCGGGCACGTGCAGCCGCCATCAACATGGTCCCCACGTCCACCGGTGCCGCCAAGGCCATCGGCCTGGTCCTGCCGGAGCTCAAGGGCAAGCTGGACGGCTATGCCATCCGCGTTCCGGTCCCCACGGGCTCGGCTACCGACCTGACCGTCACCGTCTCCCGCGAGACCACGGTCGAGGAAGTCAACGCCGTGCTGAAGAAGGCTGCAGAGTCCGACGAATGGCAGGGCATCCTGACCTACACGGACGCTCCGATCGTCTCCTCGGACATCGTCGGCGATCCCGCCTCGTCCATTTTTGACTCCGGCTTGACCAAGGTCATCGGCAACCAGGTCAAGGTTGTTTCCTGGTATGACAACGAATGGGGCTACTCCAACCGTCTGGTGGACCTCACGGAGCTCGTGGCCGCAAAGCTGGGCTAG	MTTRIGINGFGRIGRNYFRAALAQGADLEIVAVNDLTSPEALAHLLKYDSVGGRLAETIEVKEGNLVVNGNAIKVLAERDPANLPWSDLGVDIVIESTGFFTKAAAAKKHIEAGAKKVLISAPASDEDITIVMGVNDGLYDPENHHIISNASCTTNCLGPLAKVVNDAFGIERGLMTTVHAYTADQNLQDGPHNDLRRARAAAINMVPTSTGAAKAIGLVLPELKGKLDGYAIRVPVPTGSATDLTVTVSRETTVEEVNAVLKKAAESDEWQGILTYTDAPIVSSDIVGDPASSIFDSGLTKVIGNQVKVVSWYDNEWGYSNRLVDLTELVAAKLG	PGPT0018000_4161	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018000-gapA-K00134	NA	NA
D1-17_02012	681	sodA	COG0605	Superoxide dismutase [Mn]	ATGCATAATCCGAGAGTTACCGAACCGGACAAACTGTCCACGACATTGGAGGATTTTGTGACCGAGTACGTTCTGCCCGAACTCAAGTACGACTACGCAGCGCTGGAGCCCCACATCTCCGCAAAAATCATGGAGCTGCACCACAGCAAGCACCACGCAGCCTACGTCACGGGCGCCAACAACGCGCTGGCCCAGATGGCCGAGGCCCGCGAGAAGGGCGACTTCGCCAACATCAACCGCCTCTCGAAGGACCTGGCGTTCCACACCGGCGGCCACGTCAACCACTCCGTGTTCTGGAACAACCTCTCCCCGGACGGCGGGGACAAGCCCGAAGGTGAGCTGGCCGCAGCCATCGACGACGCCTTCGGATCGTTCGACGCTTTCCGTGCCCAGTTCTCCGCAGCCGCCCTCGGCCTGCAGGGATCCGGCTGGGGCTTCCTGGCCTACGAGCCCATCGGCGGCAACCTTGTCATCGAGCAGCTCTACGACCAGCAGGGCAACACGGCACTGGGCACCACCCCGCTGCTGATGCTGGACATGTGGGAGCACGCCTTCTACCTGGACTACGTCAACGTCAAGGCTGACTACGTCAAGGCATTCTGGAACATCGTGAACTGGGCCGACGTCGCACAGCGCTTCGCCGCCGCGCGTGCCAACGCCACGGGCCTGATCACGCTGTAA	MHNPRVTEPDKLSTTLEDFVTEYVLPELKYDYAALEPHISAKIMELHHSKHHAAYVTGANNALAQMAEAREKGDFANINRLSKDLAFHTGGHVNHSVFWNNLSPDGGDKPEGELAAAIDDAFGSFDAFRAQFSAAALGLQGSGWGFLAYEPIGGNLVIEQLYDQQGNTALGTTPLLMLDMWEHAFYLDYVNVKADYVKAFWNIVNWADVAQRFAAARANATGLITL	PGPT0004190_1403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004190-chrC|sodB|sodA-K04564	NA	NA
D1-17_02013	981	whiA	COG1481	putative cell division protein WhiA	ATGGCACTGACAGCATCAGTCAAGGAAGAACTGTCCCGCCTGGACATTAAGAAATCCTCCGTTCGCAAGGCCGAGGTTTCAGCCATGCTCCGCTTCGCCGGAGGGCTCCATATCATCTCCGGCCGGATTGTCATCGAGGCCGAGGTGGATCTGGCATCCACGGCCAGGCGCCTGCGGGCGGCCATCGCCGAGGTCTACGGGCACCAGAGCGAGATCATTGTGGTTTCCGGCAGCGGGCTGCGGCGCGGCAGCCGTTACGTGGTGCGGGTTGTCCGTGACGGGGAGGCGCTGGCACGCCAGACCGGCCTCTTGGATTCCCGGGGTCGTCCCGTCCGCGGTCTCCCGTCCGTTGTGGTCAACGGCTCCGCCGCCGACGCCGAGGCCGTGTGGCGCGGCGCCTTCCTGGCCCACGGCTCCCTCACAGAACCGGGCCGGTCCTCCTCCATGGAAGTCACCTGCCCCGGCCCCGAGTCCGCCCTGGCCCTCGTTGGCGCCGCCCGCCGGCTCGGCATTCAGGCTAAGGCGCGTGAAGTCAGGGGAGTGGACCGCGTAGTGATCCGTGACGGAGACACCATCGCCGCGCTCCTCACGCGGATGGGCGCCCACGACGCGCTCATGGTCTGGGAGGAACGGCGGATGCGCAAGGAAGTACGGGCCACCGCCAACCGGCTTGCGAACTTCGACGACGCCAACCTCCGCCGCTCCGCACAGGCGGCAGTCGCTGCAGGTGCACGCGTGGACCGGGCGCTCGAAATCCTGGGCGACGACGTTCCCGAACACCTCAAGTACGCCGGTGAACTGCGCGTGGCCCACAAACAGGCCAGCCTCGACGAACTCGGGCGCCTCGCAGACCCGCCCATGACCAAGGACGCCATTGCCGGCCGCATCCGCAGGCTGCTGGCCATGGCGGACAAACGTGCAGCCGACCTCGGCATTCCCGGCACGGATGCCAATGTGACGCCGGAAATGCTGGACGAGTAG	MALTASVKEELSRLDIKKSSVRKAEVSAMLRFAGGLHIISGRIVIEAEVDLASTARRLRAAIAEVYGHQSEIIVVSGSGLRRGSRYVVRVVRDGEALARQTGLLDSRGRPVRGLPSVVVNGSAADAEAVWRGAFLAHGSLTEPGRSSSMEVTCPGPESALALVGAARRLGIQAKAREVRGVDRVVIRDGDTIAALLTRMGAHDALMVWEERRMRKEVRATANRLANFDDANLRRSAQAAVAAGARVDRALEILGDDVPEHLKYAGELRVAHKQASLDELGRLADPPMTKDAIAGRIRRLLAMADKRAADLGIPGTDANVTPEMLDE				NA	NA	NA	NA	NA
D1-17_02014	1014		COG0391	Putative gluconeogenesis factor	ATGGGAGTGCTCACCGGCCCCCTGCCCCTTATTCCGCCGTCGGGCCTGACAGGCTCCCAGCAAAACAAGGGCCCCACGGTAGTGGCCCTTGGCGGGGGCCACGGGCTTTCGGCGTCGCTTTCGGCGCTGCGGCTGCTGACATCCGAACTTACCGCCGTGGTCACCGTGGCGGACGACGGCGGATCCTCCGGCCGCCTCCGCCAGGAGTACGGCGTTCTGCCGCCGGGCGATCTCCGCATGGCCCTTTCGGCTTTGTGCGACGACACCGACTGGGGTCGCACGTGGCGGGATGTCATGCAGCACCGTTTCCGGTCAGCGCCGGGCGGGGGCTCGCTGGACGACCATGCGATGGGGAACCTGCTGATCGTCACACTCTGGGAGCTACTGGGCGACGCGGTGGCCGGTCTGAAGTGGGCCGGCGCACTGCTCGGCGCCCGCGGCCAGGTGCTGCCGATGTCCACCGTGCCGCTCACCATCGAGGGCGACGTGCGTGTCACCGCCCCGGACGGCAGCAGCACCGTCACCACCATCAAGGGCCAGGCCCGCTGTGCAGTGGCCGGCTCGCTCGAAAGTGTGCGGCTCCTGCCCGAACAGGCGCCGGCCTGCGTGGAAGCCCTCTCCGCGATTGAGCTCGCAGACTGGGTGGTCCTGGGCCCTGGATCCTGGTACACCTCGGTCCTGCCGCATCTGCTGCTGCCCGAGATGCGGCAGGCACTGTGTGACACCCCGGCCAAGCGCTGCCTCACAATGAACCTCGCGATGGACACCAAGGAAACCTCCGGGATGTCCGCCGCCGACCACCTGCATGTCCTGCGGGGCTACGCGCCGGACTTCAGCGCCGACGTCGTGCTGGCCGACCCCGCATCGGTCGCGGATCTGAAGGAGTTTGAGCGGGCCGCGGGGATGATCGGAGCCGAGGTTGTCTTGGGTAAAGTAGGGGCTTCGGGTCGGCGTCCCGTCCACGACCCCCTGCGGCTGGCAACGGCCTACCAGGACATTTTCGGGAACAGTTAG	MGVLTGPLPLIPPSGLTGSQQNKGPTVVALGGGHGLSASLSALRLLTSELTAVVTVADDGGSSGRLRQEYGVLPPGDLRMALSALCDDTDWGRTWRDVMQHRFRSAPGGGSLDDHAMGNLLIVTLWELLGDAVAGLKWAGALLGARGQVLPMSTVPLTIEGDVRVTAPDGSSTVTTIKGQARCAVAGSLESVRLLPEQAPACVEALSAIELADWVVLGPGSWYTSVLPHLLLPEMRQALCDTPAKRCLTMNLAMDTKETSGMSAADHLHVLRGYAPDFSADVVLADPASVADLKEFERAAGMIGAEVVLGKVGASGRRPVHDPLRLATAYQDIFGNS				NA	NA	NA	NA	NA
D1-17_02015	924		COG1660	Nucleotide-binding protein	ATGGCAGAGCCGACGGCACGAACCGGCGTGGACGAGGACGGCCTCACGCCAGTCAAGCCAGTCGAGGCGGAACTGCTCGTGGTGACGGGCATGTCCGGCGCCGGGCGCAGCACGGCGTCAGACGCGCTGGAGGACCACGGCTGGTACGTCGTCGAAAACCTGCCGCCCCAAATGCTCGGGACGCTGGCCGAACTGGTGTCCCACGCCCCGCAGTCGATCCCGCGTCTCGCCGTCGTGGTGGACGTGCGGAGCAAGGGGCTGTTCGCCGACATCCGCGCCGCCCTTCACGCCCTCGCGGCCAGCGGCGTCACCTTCCGGGTGCTGTTCCTCGACGCGAGCGACGACGTCCTGGTCCGCCGCTTCGAACAGGGCAGGCGCCCGCATCCGCTGCAGGGCGGCGGCCGGATCCTGGACGGCATTGCGGCTGAACGTGAACTGCTGAAGGAACTGAGGGATTCCGCCGACGTCGTCCTGGACACGTCCGCGTTCAATGTCCACGGCCTCGCCACGGCCATCACCGAACTCTTCACCGAGACGGGGCCCGTGGCGCTGCGCCTGAACGTCATGAGCTTCGGCTTCAAGTACGGACTGCCGGTTGACGCCAACTACGTGGCGGACGTCCGCTTTATCCCCAACCCCCACTGGGTGCCCAAACTGCGGCCCCATACCGGGCTTGACCGGGACGTGAGCGATTACGTCCTGGAAGCGGAAGGCGTCCCGGACTTCGTGGAACGCTACGTCATGGCGCTCGAGCCGGTCCTCGACGGTTACCGCCGGGAAAACAAGCACTACGCCACCATCGCCGTCGGCTGCACCGGTGGCAAACACCGGTCAGTGGCTGTCGCCGTCGAACTTTCCAAGAAACTTGCGCAATACCCGCGCGTCACGGTGACCACCACGCACCGGGACCTGGGCCGCGAATAA	MAEPTARTGVDEDGLTPVKPVEAELLVVTGMSGAGRSTASDALEDHGWYVVENLPPQMLGTLAELVSHAPQSIPRLAVVVDVRSKGLFADIRAALHALAASGVTFRVLFLDASDDVLVRRFEQGRRPHPLQGGGRILDGIAAERELLKELRDSADVVLDTSAFNVHGLATAITELFTETGPVALRLNVMSFGFKYGLPVDANYVADVRFIPNPHWVPKLRPHTGLDRDVSDYVLEAEGVPDFVERYVMALEPVLDGYRRENKHYATIAVGCTGGKHRSVAVAVELSKKLAQYPRVTVTTTHRDLGRE				NA	NA	NA	NA	NA
D1-17_02016	2061	uvrC	COG0322	UvrABC system protein C	GTGGCAGATCCAGTAAGTTACCGCCCTAAAACGGGTGAAATTCCGACCAACCCGGGCGTTTACAGGTTCCGCGATCCCCACGGACGGGTCATCTACGTGGGCAAGGCCAAGAACCTCCGCTCCCGCCTGAACTCGTACTTCGCCAACCCTGCGGGCCTGCTGCCCAAGACGCATGCGATGGTCTACGCGGCCAGCAGCGTCGAATGGACAGTGGTGGGCAGCGAACTGGAATCGCTGCAACTGGAATACACCTGGATCAAGGAATTCAAGCCACGGTTCAACGTCGTGTTCCGCGATGACAAGACCTACCCGTACCTCGCGGTCACGATGGGGGAGAAGCTGCCCCGCGTGCAGGTCATGCGCGGTGAACGCCGCAAAGGTACGCGCTATTTCGGCCCGTACACAGCGGGGGCCATCCGTGAAACCATGGACACACTGCTGCGGGTCTTTCCCGTCCGCAGCTGCAGCGCGGGTGTTCTCAAGCGCGCCCAGGCCAGCGGCAGGCCCTGCCTGCTCGGCTACATCGACAAATGCTCCGCCCCTTGTGTCGGCAGAGTCACCCCCGAGGAGCACCGGGCGCTGGCGGAGGACTTCTGCGCCTTCATGGGCGGAGAGGCCAAGCGCTTCATCGCACGGCTCGAGAAGGACATGGCCGCTGCTGTCGCCGAACTGGACTACGAACGCGCGGCCAGGATCCGCGACGACATCACCGCCCTGCGCAAGGTCTTTGAGCGGAACGCCGTCGTGCTGGGGGAAGACACCGACGCCGATGTGTTTGCGCTCCACGAGGATGAGCTCGAAGCCGCCGTCCAGGTGTTCCACGTCCGCGGCGGCCGGATCAGGGGTCAGCGAGGCTGGGTGGTCGAAAAGGTCGAGGACTTCACCACCCCGGACCTCGTTGAGCACCTGCTGCAGCAGGTCTACGGTGAAGACGCGGAAGTCCAGGGCAGGCTTCCCCGTGAAGTGCTTGTCCCCGTGGAGCCGAGCAACGCGGCTGACCTGGCAGTGTGGCTAGGCGGCCTGCGGGGCGCCAAGGTGGAAATCCGCGTACCACAGCGCGGCGACAAGGCGGCCCTGATGTCCACGGTCCGCGAAAACGCGGAGCACGCCCTGAAGCTGCACAAGACCCGGCGCGCCGGCGACATCACCGTGCGGTCGCTGGCCCTTCAGGAACTGCAGGAGGCCCTGGACCTGCCCGTGCCGCTGCTGCGGATCGAGTGCTACGACGTCTCGCACGTCCAGGGCACCAACGTCGTGGCATCCATGGTTGTGGTGGAAGACGGATTGCCCAAGAAGTCCGACTACCGGAAGTTCTCCATCACGGGGGCCGCGGCCGCCGACGACACCGCTGCGATGCACGACGTCCTGACGCGGCGTTTCCGGCACTACCTCACGGACAAGACAGCGCAGGTGGAGGTTTCGGAACTCGTGCCGGCCGCGGCAACGGCCAGCCCGCACGCCGCCGGCGCCAGCACAACAGCCACCCGGAATAAGGACACCGGGGCGGCTGTGGAGCTGCAGGACACCACCACCCCGGCGCCGCGCGCCAGGTTTGCCTACCCTCCCAACCTCGTGGTGGTGGACGGCGGAAAGCCCCAGGTCAATGCGGCTGCCCGGGCCCTCGCCGACTTGGGGGTGGACGATGTCTACGTGGTGGGGCTGGCGAAACGGCTCGAGGAAGTCTGGCTGCCGGACAGCGACTTCCCGGTGATCCTGCCCCGCTCTTCCCAGGGCCTGTACATGCTGCAGCGCATCCGGGACGAGGCGCACCGCTTTGCCATCTCCTTCCACCGCCAGAAGCGCGGCAAGGCGATGACGGTCTCCGCCCTGGATGCCGTTCCGGGTCTGGGGGCATCCAAGCGCAAGGCGCTGCTCGCGCACTTTGGCTCGGTCAAAAAGATCAAGGCGGCGACGGCTGAGGAACTGACGGAGGCGAAAGGCATAGGCCCCGCGCTGGCGGCGGCGATCGTCGCCCATTTCAATGCCGATGGCGCCGGCGCGGACTCTGCTGACGCCCTGCCCGCCATCAACATGACCACCGGCGAAGTGCTCGAAACTTAA	MADPVSYRPKTGEIPTNPGVYRFRDPHGRVIYVGKAKNLRSRLNSYFANPAGLLPKTHAMVYAASSVEWTVVGSELESLQLEYTWIKEFKPRFNVVFRDDKTYPYLAVTMGEKLPRVQVMRGERRKGTRYFGPYTAGAIRETMDTLLRVFPVRSCSAGVLKRAQASGRPCLLGYIDKCSAPCVGRVTPEEHRALAEDFCAFMGGEAKRFIARLEKDMAAAVAELDYERAARIRDDITALRKVFERNAVVLGEDTDADVFALHEDELEAAVQVFHVRGGRIRGQRGWVVEKVEDFTTPDLVEHLLQQVYGEDAEVQGRLPREVLVPVEPSNAADLAVWLGGLRGAKVEIRVPQRGDKAALMSTVRENAEHALKLHKTRRAGDITVRSLALQELQEALDLPVPLLRIECYDVSHVQGTNVVASMVVVEDGLPKKSDYRKFSITGAAAADDTAAMHDVLTRRFRHYLTDKTAQVEVSELVPAAATASPHAAGASTTATRNKDTGAAVELQDTTTPAPRARFAYPPNLVVVDGGKPQVNAAARALADLGVDDVYVVGLAKRLEEVWLPDSDFPVILPRSSQGLYMLQRIRDEAHRFAISFHRQKRGKAMTVSALDAVPGLGASKRKALLAHFGSVKKIKAATAEELTEAKGIGPALAAAIVAHFNADGAGADSADALPAINMTTGEVLET	PGPT0014925_599	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
D1-17_02017	669	aas		Bifunctional protein Aas	ATGGAACTCTTTGACGGCATCCGGTGGACCACCCGCGGGCTCATCTCCGGTTCCTGCAGGCCCACAGTCATCGGCCTGGAGAATGTGCCAACGGAGGGCCCGTTCATCGTGGCCCCCAATCACCTGTCCTTCCTGGACAGCGTTATTGTCCAGGCGCTGATGCCGCGGCCCGTCGCATTTTTCGCCAAGGCCGAATACTTCACCACCAAAGGCATTAAAGGCCGGCTCATGAAGTCGTTCTTCGAAGCCGTCGGATCCATCCCCGTGGAACGCGGTGAACAGGCCGCCAGCGTGCAGGCACTGAAGACGCTGCTGGATATCCTCGAGGACGGCAGGGGCATCGGCATCTACCCCGAGGGAACCCGCTCCCGGGACGGGATCCTTTACCGGGGCCGAACCGGCGTCGGCTGGCTTGCCCTGACCACAGGCGCCCCCGTCGTCCCCGTGGGCCTCATTGGAACGGAAAAGCTGCAGCCCGCTGGCCGCAACGCCGTGAAGCCGCAGCATTTCACCATGAAGGTGGGGGAGCCCCTGCACTTCGAGAAGACCGGGCCGGACCACTCGCTGCCGGCACGGCGGCAGGTCACCGACCGGATCATGGACGCCATCGCGGAACTCAGCGGGCAGGAACGCTCAACCAGCTACAACCAGAGCAAGGCCGTCGAGTAG	MELFDGIRWTTRGLISGSCRPTVIGLENVPTEGPFIVAPNHLSFLDSVIVQALMPRPVAFFAKAEYFTTKGIKGRLMKSFFEAVGSIPVERGEQAASVQALKTLLDILEDGRGIGIYPEGTRSRDGILYRGRTGVGWLALTTGAPVVPVGLIGTEKLQPAGRNAVKPQHFTMKVGEPLHFEKTGPDHSLPARRQVTDRIMDAIAELSGQERSTSYNQSKAVE	PGPT0024380_5948	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-17_02018	717		COG0546	5'-nucleotidase	GTGACTTCAACAACAGTGCCCGTAATCTTCGACCTGGACGGCACTCTTGTCGATCCCGCCGGCGGCATAACTGACGGTATTGCCGCGGCCCTCAGGGAGTACGGACTTCCCGTCCCAAGCGAGGAGCTGCTCAACGCTATGGTTGGGCCGAAGCTGAGCGACGCACTGCTGACGGTCGCTGCCGTTCCGCCGGCCATGCTGAAGAACGTCATCCGCAGCTACCGCATGCGCTACCTTGACACCGGCATCTCACAAAGCCGGCTGTATCCCGGGATCATGGAGCTTCTGGACAGCTTCGCAGCAGCCGGCCGGCCTATGGCGGTGGCTACGCAGAAGCCGGAACACCTGGCGCCCCTCGTCCTTCAGCACCACAAAATCCTCGACCGCTTCGTGTCGGTCCAAGGGTCAGCCGCGGATGAGACTGCCGCTGCCGCCGGGCCTGTGGGCAAAGCCGGCATCATCGCTGCCGCGATGGCTGAACTGCGTACACAGCACGCCATGATGGTAGGAGACCGCGCACAGGACGTTTCCGGAGCGATCGCCAACGGCATAGACTGCATCGGTGTCCGGTGGGGTTTTGCTCCGGACGGCGAGCTTGAAGAAGCCGGTGCCGTGGCTGTGGTGGATGATGTTCCGGCGCTCCGCACCACGATCGAGCAGCTGGAATCAGCCCGGGCGGCAGCGTTGAGCGAGGTGCGCAACGATGGAACTCTTTGA	MTSTTVPVIFDLDGTLVDPAGGITDGIAAALREYGLPVPSEELLNAMVGPKLSDALLTVAAVPPAMLKNVIRSYRMRYLDTGISQSRLYPGIMELLDSFAAAGRPMAVATQKPEHLAPLVLQHHKILDRFVSVQGSAADETAAAAGPVGKAGIIAAAMAELRTQHAMMVGDRAQDVSGAIANGIDCIGVRWGFAPDGELEEAGAVAVVDDVPALRTTIEQLESARAAALSEVRNDGTL	PGPT0001730_1182	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
D1-17_02019	2931	uvrA_3	COG0178	UvrABC system protein A	ATGGTGCCTAAAGCCGTAGCTGAAGAAACAGCCGTAGATACCAACTCCGCCGTCGTGCCACTGAACTCTGCGAAACCAGGGCGTCCGGACCTTTCCCGCCTGGTGGTCAAGGGCGCGCGGGAACACAACCTGCGCAACGTTGACCTCGATCTGCCGCGCGACGCCATGATCGTCTTCACCGGACTGTCCGGCTCAGGGAAGTCCTCCCTTGCCTTTGACACCATCTTCGCGGAGGGCCAGCGCCGCTACGTCGAATCGCTGTCGGCCTACGCCCGCCAGTTCCTCGGGCAGGTGGACAAGCCTGACGTCGATTTCATCGAAGGCCTTTCGCCGGCTGTGTCGATCGACCAGAAATCGACGAGCAAAAACCCACGTTCCACAGTCGGCACCATCACCGAGATCTACGACTACATGCGCCTGCTGTGGGCGCGTGTTGGCCGCGCGCACTGCCCGGTCTGCGGTGAACCCATCATCAAGCAGACGCCGCAGCAGATCGTGGACCAGCTGCTGGAACTGGAGGACGGCACACGGTTCCAGATCCTGGCGCCCGTGGTGCGCGGACGCAAGGGTGAATTCGTCGAGCTCTTTAAGGAACTGACCGCCAAGGGCTACTCCCGTGCCCGCGTGGACGGGGATCTCGTCCAGCTCAGCGACCCGCCCAAGCTTGGCAAGCAGTTCAAGCACACCATCGAGGTGGTGGTGGACAGGCTCGTGGTGAAGGAGGGCATCCGCCAGCGTCTTACCGATTCCATCGAGACGGCGCTGGGACTGGCCGAGGGCCGTGTGCTGGCTGATTTCGTAGACCTTGACGCCGAGGACCCGGGCCGGTTGCGCGCGTTTTCGGAGAATCTCGCATGCCCGAATGAGCATCCGCTGGCCATCGACGAAATCGAGCCGCGCTCGTTCTCCTTCAACAACCCGTTCGGTGCATGCTCGGCCTGCAGCGGCATCGGCAGCAAGCTCGAAGTGGATGAAGACCTCATCGTCCCCAACCCCGAGCTTTCCCTCTCCGAGGGCGCCATTGCACCCTGGTCCCTCGGAACTGCCACCACCGAATACTGGAACCGCCTGCTGGACGGTCTCGCCAAGGAGGTGGGCTTCTCCATGGACACTCCGTGGGAGAAGCTGCCGGCTGACGTGCGCCAGACTGTGCTGCACGGCAAGGACCACAAGGTGGTGGTGCAGTACCGCAACCGTTTTGGCCGGGAGCGCAAGTACAGCACCGGTTTTGAGGGCGCCATCCAGTACGTGCACCGCAAGCACGGCGAGACGGACTCGGACTGGACGCGCGACCGTTACGAGGAATACATGCGGCAGGTTCCCTGCCCGGCATGCAACGGTGCCCGGCTCAACCCGGCGTCGCTCTCCGTCCTCATCAACGGCAAGTCCATTGCCGAGGTTGCGGCGCTGCCCATGCGGGAATGCGCCGACTTCCTCAACAGCCTCGTACTGACGGGCCGGGAGGCGCAGATCGCGCACCAGGTCCTGAAGGAAATCCAGGCCCGGCTCACCTTCCTGCTGGACGTCGGCCTGGAGTACCTGAACCTGGAACGCGCTTCGGCGACCCTCTCCGGCGGCGAGGCGCAGCGCATCCGGCTCGCCACCCAGATCGGGTCCGGCCTGGTAGGCGTGCTCTATGTCCTCGACGAACCCTCAATCGGGCTTCACCAGCGGGACAACCGCCGCCTCATCGAGACCCTTACCCGGCTCCGGGACATGGGCAACACGCTCATCGTGGTGGAGCACGACGAAGACACCATCCACGAAGCCGACTGGGTTGTGGACATCGGGCCCGGTGCGGGGGAGCACGGTGGCCAGGTGGTCCACTCCGGCTCCTACAAGGCGCTGCTCGAGAACAGCGCGTCCCTTACCGGCGACTACCTCTCCGGGCGCAGGAAGATCGACATTCCCAAAAAGCGGCGCAAATACGACAAGAAGCGCGAGCTGAAGGTCGTAGGAGCCCGCGAGAACAACCTCCTCAACGTCGATGCCGCCTTCCCGCTGGGACTCTTCACGGCAGTCACCGGCGTCAGCGGCTCCGGCAAGTCCACCCTCGTGAACGAGATCCTTTACAAGGTCCTGGCCAACAAGCTCAACGGCGCCAAGCAGGTCGCCGGCAGGCACCGCACGGTCCAGGGGCTGGAGCACCTGGACAAGGTGGTCCATGTGGACCAGAGCCCGATCGGGCGTACCCCGCGGTCCAACCCGGCCACCTACACGGGCGTCTTCGACAACATCCGCAAGCTCTTCGCGGAGACCACCGAGGCGAAGGTCCGCGGCTACATGCCCGGACGGTTCTCCTTCAACGTCAAGGGCGGCAGGTGCGAGGCCTGTTCCGGCGACGGCACGCTGAAGATCGAGATGAACTTCCTCCCCGACGTCTACGTGCCGTGCGAGGTCTGCCACGGTGCACGGTACAACCGGGAGACGCTCGAAGTGCATTACAAAGGCAAGACCATCGCGGACGTGCTCAACATGCCCATCGAGGAAGCCGCAGAATTCTTTGCGGCCTTCTCGCCCATCGCCCGACACCTTAATACGCTGGTGGACGTCGGTCTCGGATACGTCCGCCTGGGACAGCCCGCAACGACGCTCTCCGGCGGCGAGGCCCAGCGCGTCAAACTGGCGTCCGAACTGCAAAAGCGCTCCAACGGGCGCAGCGTCTACGTTCTCGACGAGCCCACCACAGGGCTGCACTTCGAAGACATCCGGAAGCTGCTGCTGGTGCTCCAGGGCCTGGTGGACAAGGGCAACACCGTCATCACCATTGAGCACAACCTGGACGTCATCAAGAGTGCGGACTGGATTGTCGACCTGGGACCGGACGGCGGCTCCGGTGGCGGACGGATCGTGGCCTCAGGTACACCCGAGCAGTTGGCCAAGTCCACGGAGAGCCACACAGCGAGGTTCCTGGCCGAAATTCTCGCCTAG	MVPKAVAEETAVDTNSAVVPLNSAKPGRPDLSRLVVKGAREHNLRNVDLDLPRDAMIVFTGLSGSGKSSLAFDTIFAEGQRRYVESLSAYARQFLGQVDKPDVDFIEGLSPAVSIDQKSTSKNPRSTVGTITEIYDYMRLLWARVGRAHCPVCGEPIIKQTPQQIVDQLLELEDGTRFQILAPVVRGRKGEFVELFKELTAKGYSRARVDGDLVQLSDPPKLGKQFKHTIEVVVDRLVVKEGIRQRLTDSIETALGLAEGRVLADFVDLDAEDPGRLRAFSENLACPNEHPLAIDEIEPRSFSFNNPFGACSACSGIGSKLEVDEDLIVPNPELSLSEGAIAPWSLGTATTEYWNRLLDGLAKEVGFSMDTPWEKLPADVRQTVLHGKDHKVVVQYRNRFGRERKYSTGFEGAIQYVHRKHGETDSDWTRDRYEEYMRQVPCPACNGARLNPASLSVLINGKSIAEVAALPMRECADFLNSLVLTGREAQIAHQVLKEIQARLTFLLDVGLEYLNLERASATLSGGEAQRIRLATQIGSGLVGVLYVLDEPSIGLHQRDNRRLIETLTRLRDMGNTLIVVEHDEDTIHEADWVVDIGPGAGEHGGQVVHSGSYKALLENSASLTGDYLSGRRKIDIPKKRRKYDKKRELKVVGARENNLLNVDAAFPLGLFTAVTGVSGSGKSTLVNEILYKVLANKLNGAKQVAGRHRTVQGLEHLDKVVHVDQSPIGRTPRSNPATYTGVFDNIRKLFAETTEAKVRGYMPGRFSFNVKGGRCEACSGDGTLKIEMNFLPDVYVPCEVCHGARYNRETLEVHYKGKTIADVLNMPIEEAAEFFAAFSPIARHLNTLVDVGLGYVRLGQPATTLSGGEAQRVKLASELQKRSNGRSVYVLDEPTTGLHFEDIRKLLLVLQGLVDKGNTVITIEHNLDVIKSADWIVDLGPDGGSGGGRIVASGTPEQLAKSTESHTARFLAEILA	PGPT0014915_1486	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
D1-17_02020	381			hypothetical protein	GTGAGCACCGGACAGACTTTCCCGGGGCGCTGGAAACCCAACCACGGCAGCTCCGTGGCCCTCTACGAACAGCTCCGGCTCCACATCATCGAACAAGCGGACAAGGGGAACATCCCGCCCGGAACCAGGCTGCCTGCCGTCAGGAGTCTTGCCGAGGTCCTTGGCATGGCTCCCCACACGGTGGCGCGGGCCTACAAGGAGCTTGAGGCTGCAGGGGTAGTGGCCACCAAGGGGCGGAACGGCACAGTCGTCTGCGCACGGGACGAACGGTGGGGAGCTCTTTCGGCGGCCGCCGCCGAATATGCTGCAGCAGCCAAGGCACAGGGGGCGACGTTTGCGGAGGCAGTCCATCTCCTGGCGGCGGCCTACGACGCCGAGTAG	MSTGQTFPGRWKPNHGSSVALYEQLRLHIIEQADKGNIPPGTRLPAVRSLAEVLGMAPHTVARAYKELEAAGVVATKGRNGTVVCARDERWGALSAAAAEYAAAAKAQGATFAEAVHLLAAAYDAE				NA	NA	NA	NA	NA
D1-17_02021	1809		COG1132	Fatty acid ABC transporter ATP-binding/permease protein	GTGAGGGGTGCACACACGGCCGGGCGGCCGACCGGCATTTTCCTCCCGGCAGCAGCACGTTTGGTGGGGCTCCTGGCCCCGGTCCGGGGCAGGATGATCGCCGCCGTTGCTGCGACCTGCGCCTTCGCCGCCCTCAATATCGCAGCGCCCAAACTCCTCGGGGACGCCACGGACGTTGTCGTGGAAGGTTTCGTCGGCGGCGCCTTCGACCAAGGCAGGTTGGCGGGGCTGCTCCTGGTGGTGGCAGTGATGTATCTGGGGACGTCCCTGTTCAACTGGACGCAGGGCGTGCTCGCTGCGGGCGCCGTGCAACGGCTCGTCTATAACCTGCGGGCCGCCGTCGAAAACAAGGTGCACCGCTTGCCGTCCTCGCACTTCCAGGAACAAGCCCGCGGCGACGTGCTCAGCCGCGCAACCAACGATGTCGACAATATTGCGCAGTCCCTCAACCAGCTGCTCACGCAGGTGATCGTGGCTGTCCTGATGCTCTGCGGTTCCTTGGCCATGATGCTGTGGATCTCACCGCTGCTCGCGGCCATCGCGCTGGTTTCGGTTCCTGTCTCCACCCTCATCACCGTACTCATTGCCCGGAAGTCCCAGGCGTACTTTGCGGAACAATGGGCTGCAACGGGGGCACTGAACGCCCACATCGAGGAATTCGTGACCGGGCACGAAGTCATCAAGGCGTTCGGACAGCAGGAAGCTGTCTCAGAGATATTCGCAAGCGGAAATGACCGCCTGGCCCGCACCGCGGCAAAGGCGCAATACATGTCGGGGGCCGTGCAGCCCCTGATGGTGTTTATCGCGAACCTCAACTACGTGGCCGTTGCGGTCGTCGGCGCCCTCCAAGTCACTGCGGGCCCCATGACTATCGGCGGCATCCAGGCATTCATCCAGTTCAACCGCCTGTTCACCCAGCCCATGGGACAGCTTGGCGGCATGCTCACTCTGATGCAGTCGTGCGCAGCCTCCGCAGAACGCGTCTTTGCCCTGTTGGACTCGGAGGAGATCGATGACCGTCCTGCTGCAGGCCGCCCTGCTGCAGACGGCATTCGCGAACTCAGGGGGCCGATCAGGTTCGAGGACGTGACCTTTGGCTACGTCACGGACGCTCCCGCCGTCAGCGGGCTCGCCTTCTCGGTCCAGCCCGGACAGACCGTGGCCATCGTCGGCCATACGGGGGCGGGCAAAACGACGGTGGTCAATCTACTGATGCGCTTTTACGAGCTCGACTCCGGCCGCATCACGTTCGGCGGCACCAACATCGCCGATCTGCCGCTGAACTTGCTGCGGTCGCATTTCAGTATTGTTCCGCAGGATGTCTGGCTCTTCAGCGGGACAATCAGGGAGAACATCGAGTATGGACGGCCCGGCGCAGGCGACGCAGAAATCGAGGCCGCTGCCGAGGCTACCCATGTGGATCGTTTTGTCCGTACATTGCCGGCCGGATATGCCACCCTACTGGGCAACGGCGGAGACTCCCTGAGCCAGGGCCAGCGGCAGCTGATCACCATCGCACGTGCGGAGCTGGCCAGCCGTGCCGTCCTGATACTGGACGAGGCCACCAGCTCCGTGGACACGAGGACCGAGCTGCAGATCCGCCTGGCCATGAAGAGGCTGAGGCAGGGCAGAACGAGCTTCGTCATTGCCCACAGGTTGTCCACGATCCGTGACGCTGATCTAATCTTGGTCATGGATCACGGACGCCTCGTTGAACAGGGAACCCACCAGAGCCTGCTGAACGGCGGCGGATACTACACTCGGCTGTACAACGCCCAGTTCCGCGGGCTCGGAGAGCCAGCCCTGTGA	MRGAHTAGRPTGIFLPAAARLVGLLAPVRGRMIAAVAATCAFAALNIAAPKLLGDATDVVVEGFVGGAFDQGRLAGLLLVVAVMYLGTSLFNWTQGVLAAGAVQRLVYNLRAAVENKVHRLPSSHFQEQARGDVLSRATNDVDNIAQSLNQLLTQVIVAVLMLCGSLAMMLWISPLLAAIALVSVPVSTLITVLIARKSQAYFAEQWAATGALNAHIEEFVTGHEVIKAFGQQEAVSEIFASGNDRLARTAAKAQYMSGAVQPLMVFIANLNYVAVAVVGALQVTAGPMTIGGIQAFIQFNRLFTQPMGQLGGMLTLMQSCAASAERVFALLDSEEIDDRPAAGRPAADGIRELRGPIRFEDVTFGYVTDAPAVSGLAFSVQPGQTVAIVGHTGAGKTTVVNLLMRFYELDSGRITFGGTNIADLPLNLLRSHFSIVPQDVWLFSGTIRENIEYGRPGAGDAEIEAAAEATHVDRFVRTLPAGYATLLGNGGDSLSQGQRQLITIARAELASRAVLILDEATSSVDTRTELQIRLAMKRLRQGRTSFVIAHRLSTIRDADLILVMDHGRLVEQGTHQSLLNGGGYYTRLYNAQFRGLGEPAL	PGPT0029030_717	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
D1-17_02022	1824		COG1132	putative ABC transporter ATP-binding protein	GTGCTCTTTCGGCTTATGCGCAGCCTCCTGTCGGAACACCGTGCCGCGGTGTGGGCCATCCTCGTGCTGCAGATGCTTCAGACCGCCGCCAACCTGATGCTGCCTACGCTGAATGCAAGCATCATTGACGACGGCATCCTCCGCGGGCGGAGTGACGTGATTCTGGAGCTGGGAGCATGGATGGCCGGGCTGTCCCTCGTCCAGGCCGGCGCTGCGCTGGGCGCAGGCTACCTCGGCGCCGTCGTGGCCATGAAGCTCGGCCACCGGCTCCGGCGCAGCCTGTTCGCGCACGTCCAGGCCATGTCCTCGCAGGAGGTCAACGCGTTCGGCGCCCCCACCCTGGTCACCCGTGCAACCAACGACGTGCAGCAGATTCAGACCTTCGCAGTGCTGGTATTCACGATGCTGGCCGCCGCGCCGGTCATGGGCATCGGCGGGGTAGTCCTGGCTGTGCAGCAGGACGCAGCCCTGTCCGCCGTCGTGATCGTCGTTGTTCCGCTGCTGGTGCTCATCATGGCACTGATTGTGCGGCGGCTGATCCCGTTGTACCGGGAGGGGCAAACACTGATAGACGGCGTAACGCGGATCCTGCGGGAACAGATCGTCGGTTCGACCGTCATTCGTGCCTTCGTGCGGCAGGACCATGAGGCCGGCCGCTTCGCCGAGGCAAACCGGAAGCTGACCGGCAACAATCTGCAGTCAGCGCTGCTCGTGGCAGGCATGCTCCCGTTGATCATGATCGTGGTGAACCTGTCCTCCGTGGCAGTGGTCTGGTTCGGCGGGCATCTCATCCAGGCCGGGAACATGCAGGTGGGGGCGCTGTCCGCCTTCATCGCCTACATCCTGCAGATCCTGCTGGCCATCATGATGGCAATGTACGTCTTCATGACCGCTCCCCGCGCGGCCGTCTGCGCAGAGCGCATCCAGGAGGTGCTGGATGTGCAGCCTGCCATCGCGGGTCCGGAAAAGGCCGACGGCGATGCAGACGCGGCAGCCGCCGGCCCCGATGCGGCCGCGTCCCATGCCGCAGGCCCGGATCCCGCCAATTCAGATCCAGCCGGTTCACATTCGGCCGGTTCAGATGCGACGGTGGAGTTCCGGAACGTCACCTTTGCCTATCCCGGGGCGGAAACCCCCGTCCTTGCGGGCATTTCCTTCACCGCCCGGCCCGGGTCCATCACTGCAATCGTCGGCTCCACAGGCAGCGGAAAATCCACACTGCTGAACCTGTTGCCCCGCTTCGTGGATGCCGTAGACGGTGTGATCACCCTCGGCGGACGGGATATCCGCAGCTTCGGGCTGAATGACCTCCGGGAGCGGATGGCCGTGGTCCCGCAGCATGCTTACCTCTTCTCCGGGACAGTGGCAGGAAACCTCCGCATGGCGGCCCCCGACGCCAGCGAGGAAGAGCTGTGGCAGGCCCTCCGGCGCGCGCAGGCGGATGAGTTCGTCCGCCGGCTGCCGCATGGCCTCAATGCCGCGATCGGACAGGGCGGCGCAGGGCTTTCCGGCGGCCAGCGGCAGCGGCTTTGCATCGCCAGGGCTGTCCTCCGCAAGGCTCAGCTGTTCCTTTTGGACGACTGTTTCTCAGCACTGGACTACTCCACCGAGGCCCGTGTCCGACATGACCTTGCACCGGTCCTGGCGAAGGCCACCACGATCGTCGTAGCCGAACGCATCACCAGCATTATGGACGCGGGGCAGATCCTCGTCCTTGATGAGGGACGCCTTGTAGCTCAGGGAACACACACCGAGCTCCTAAAAACCTGCCGGACATACCGCGAGATCGCGGAGTCCCAGCTCGAACTGAACCGGCAGCCGTGA	MLFRLMRSLLSEHRAAVWAILVLQMLQTAANLMLPTLNASIIDDGILRGRSDVILELGAWMAGLSLVQAGAALGAGYLGAVVAMKLGHRLRRSLFAHVQAMSSQEVNAFGAPTLVTRATNDVQQIQTFAVLVFTMLAAAPVMGIGGVVLAVQQDAALSAVVIVVVPLLVLIMALIVRRLIPLYREGQTLIDGVTRILREQIVGSTVIRAFVRQDHEAGRFAEANRKLTGNNLQSALLVAGMLPLIMIVVNLSSVAVVWFGGHLIQAGNMQVGALSAFIAYILQILLAIMMAMYVFMTAPRAAVCAERIQEVLDVQPAIAGPEKADGDADAAAAGPDAAASHAAGPDPANSDPAGSHSAGSDATVEFRNVTFAYPGAETPVLAGISFTARPGSITAIVGSTGSGKSTLLNLLPRFVDAVDGVITLGGRDIRSFGLNDLRERMAVVPQHAYLFSGTVAGNLRMAAPDASEEELWQALRRAQADEFVRRLPHGLNAAIGQGGAGLSGGQRQRLCIARAVLRKAQLFLLDDCFSALDYSTEARVRHDLAPVLAKATTIVVAERITSIMDAGQILVLDEGRLVAQGTHTELLKTCRTYREIAESQLELNRQP	PGPT0029025_400	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029025-efrA-K18887	NA	NA
D1-17_02023	777	tam	COG4106	putative trans-aconitate 2-methyltransferase	GTGAAATGGAATCCCGCCAAGTACGTGCAGTTCGGCGACCACCGGCAGCGGCCGTTCTTTGACCTGACATCACGGATCGACGCTGCAAGCCCGCGTGAGGTGGTCGACCTTGGATGCGGGCCGGGCAACCTCACCGCCACACTCGCGGAGCGCTGGCCGGCGGCGAAGGTGGTGGGGCTGGACGCCTCCGCCGAGATGCTCGCCAAAGCTGAAACGCAGGAGGGATCTTTGCCGAACCTCGAGTTCCGGCTCGGGGACATCGCCGCCTGGATACCTTCCCCGGAAACCGACGTCGTCGTGAGCAACGCCGCCCTGCAGTGGGTCCCCGAACACACCAACCTGCTCCCGGGATGGCTGGCGGCACTCCGGCCGGGGGCATGGTTCGCGCTCCAGGTACCCGGCAACTTCACCGCCCCGTCCCACACCCTGCTGCGCGGGCTCGCCGAATCCCCGGCCTGGGCAGCAAAGCTCGACGGCGTGCTCCGCCATGACGGTGCCGTTGACGATACATCCCGCTACCTCGACATGATGCTGCGCGCCGGCTATGCGGCCGACGCCTGGGAAACCACCTACCTGCAGGTACTTCCGGGGGACAACGCAGTCCTCGAGTGGGTGCGCGGGACGGCGCTGCGTCCCGTCCTCGCGGTCCTGTCGCCCGAGGACGGGGCCGCATTTGAGCGGGAGTACGGCCAGCGGCTGGCCGAAGCCTATCCGTCCACCGAGTACGGCACCGTCTACCCGTTCCGACGGATCTTCGCGGTGGGCCGGAAACTTTAG	MKWNPAKYVQFGDHRQRPFFDLTSRIDAASPREVVDLGCGPGNLTATLAERWPAAKVVGLDASAEMLAKAETQEGSLPNLEFRLGDIAAWIPSPETDVVVSNAALQWVPEHTNLLPGWLAALRPGAWFALQVPGNFTAPSHTLLRGLAESPAWAAKLDGVLRHDGAVDDTSRYLDMMLRAGYAADAWETTYLQVLPGDNAVLEWVRGTALRPVLAVLSPEDGAAFEREYGQRLAEAYPSTEYGTVYPFRRIFAVGRKL				NA	NA	NA	NA	NA
D1-17_02024	2544			hypothetical protein	ATGAAACTCGTTGAACAGCTCCCCGCCCCGGCCGCACGGACAGCAGCTGCGGAGGCAGATCCGGATGCCCTCTACATGCGCTTTCTGGAATGGACGGAAAACCGCGGGCTTGAGCTGTACGCCGCCCAGGACGAGGCGATTATGGAGCTCGCTTCCGGCGCCAACGTAATCCTCGCGACACCCACTGGGTCAGGCAAGTCCCTGGTGGCCATTGCCGCGCATTTCCAGGCCATGGCGCGCGGCCAGCGCAGCTACTATACAGCGCCGATCAAGGCCCTGGTGTCGGAGAAATTCTTCGCCCTGTGCGAGATATTCGGCGCAGAGAACGTGGGCATGATCACCGGCGATTCCGGCGTCAACCAGGACGCACCGATCATCTGCTGCACGGCGGAAATCCTCGCCAACACCGCCTTGCGGGAGGGGGCAGCCGCTGAGCTCGGGTCCGTGGTCATGGACGAGTTCCACTTCTACTCGGATCCTCAGCGGGGCTGGGCCTGGCAGGTGCCCCTGCTTGAGCTGCCGCAGGCCCAGTTCCTGCTGATGTCCGCAACCTTGGGTGATGTCAGCCGCTTCGAGGAGGGCATGACCAAGCTCACGGGCCGCCCCACCACGACAGTCAGCTCGGCCGAGCGGCCCATCCCGCTGCATTACTACTACCACGAGACCGCAGTGCACGAGACGCTGGAGGAACTCCTGTCCACCAGGCAGGTTCCGGTCTACGTGGTGCACTTCAGCCAGGCCGAAGCGATCGAACGCGCCCAGACGCTGATGAGCATCAATGTCTGCAGCAGGGAGGAGAAAGACCGGATCGCCGAGCTGATCGCGAACTTCCGCTTCGCTGCGGGCTTCGGGAAGACACTTAACCGCCTCGTCCGGCACGGCATCGGCGTCCACCACGCGGGCATGCTGCCCAAGTACCGGCGCCTCGTGGAGCAACTCGCCCAGGCAGGTCTCCTGAAGGTCATCTGCGGCACGGACACCCTCGGCGTCGGCATCAACGTCCCCATCAGGACCGTGCTGCTCACGGCCCTCAGCAAATATGACGGCGTCCGCACCCGCCTGCTCAACTCGCGGGAATTCCACCAGATCGCCGGGCGCGCCGGCAGGGCAGGCTACGACACCGCCGGCACCGTTGTGGTGCAGGCGCCGGAGCACGTGGTGGAAAATGTCAGGGCCATGGCCAAGGCCACGGCGAAGTTCGGCAATGACCAGAAGAAGCTGCGCCAGGTTGTGAAGAAGAAGCCGCCGGAAGGCTTTGTCTCCTGGGGCGAGCCCACCTACAAGCGGCTGGTGGAATCCGTTCCGGAACCCCTGACCTCAAGTTTCACCGTCACCCATGCCCTGCTCATGAACCTCATGGAACGGCCCGGCGACCCGTTCGCAGCGGCGCGCCGGCTGCTCACCGAGAACCACGAATCGCGCCCGTCCCAGCTTCGGCTGATGAAAAAGGCCCTCGCCATCTACCGCGAGCTGCTCGCCGCCGAGGTCGTCGAGCGCATCCCGCCGGCGGAGCAGGGGCCCGACGGCCGCACGGTCCGGCTCACCGTGCACCTGCAGCCCAACTTCGCGCTGAACCAGCCGCTCTCCCCCTTCGCCCTCGCCGCGCTGGAACTGCTGGATCCGGAGTCGCCGTCGTACGCGCTCGACGTCGTCTCCGTCATCGAGGCCACGCTGGAAAAGCCGCGGCAGATTCTCTCTGCCCAGCAGAAGAAGGCCCGCGGCGAGGCCATTGCGGCGATGAAGGCCGACGGCATCGAATACGAGCAGCGCATGGCCATGCTCGACGAGGTGACCTACCCGCAGCCACTCGCTGAGATCCTAGGCGAGGCCTTCGAGGTTTACCGCAAGGCAGCGCCGTGGATTGGCGACTTCGAACTGGCCCCCAAGTCCATCATCCGGGACATGTACGAGCGTGCCATGAACTTTGGCGAGTTCGTCCAGTTCTACGGACTGGCGCGTTCCGAGGGCATCGTGCTGAGGTATCTGGCCGACGGGTTCAAGGCACTGCGCCAGACCGTACCCCAGGATGCCCTCCGCGAGGACCTGGAGGACCTCATCGCCTGGCTCGGCGAACTGGTCCGCCAGGTTGACTCCAGCCTCCTCGATGAATGGGAGGAGCTGACCTCCGGTGCGGCGCCCACACCCCATGACGCCCCGCCACCCCCGCCGCCGTCGCTGACATCCAACATCCGCGCCTTCCGGGTCATGGTCCGGAACGAGATGTTCCGGCGCGTTGAGCTGTTCGCGGAGGAGGATGCAGCAGCTCTCGGAGAGCTCGACGGCGCCGCCGGCTGGGACGCGGACCGCTGGGAAGACGTATTGGATGACTATTTCGACGAACATGACGACATCGGTACAGGACCTGACGCCCGGGGGCCAGGGCTGCTGATCATCACCGAGGAACCGGGCGCGTGGAAGGTCCGGCAGATTTTCGATGACCCCGCCGGCAACCACGACTGGGGCATCTCCGCTGAGGTGGACCTCGCCGCCTCCAACGAAACCGGTACCGCGGTGGTCCGCGTGACGGACGTCAACAGACTCTGA	MKLVEQLPAPAARTAAAEADPDALYMRFLEWTENRGLELYAAQDEAIMELASGANVILATPTGSGKSLVAIAAHFQAMARGQRSYYTAPIKALVSEKFFALCEIFGAENVGMITGDSGVNQDAPIICCTAEILANTALREGAAAELGSVVMDEFHFYSDPQRGWAWQVPLLELPQAQFLLMSATLGDVSRFEEGMTKLTGRPTTTVSSAERPIPLHYYYHETAVHETLEELLSTRQVPVYVVHFSQAEAIERAQTLMSINVCSREEKDRIAELIANFRFAAGFGKTLNRLVRHGIGVHHAGMLPKYRRLVEQLAQAGLLKVICGTDTLGVGINVPIRTVLLTALSKYDGVRTRLLNSREFHQIAGRAGRAGYDTAGTVVVQAPEHVVENVRAMAKATAKFGNDQKKLRQVVKKKPPEGFVSWGEPTYKRLVESVPEPLTSSFTVTHALLMNLMERPGDPFAAARRLLTENHESRPSQLRLMKKALAIYRELLAAEVVERIPPAEQGPDGRTVRLTVHLQPNFALNQPLSPFALAALELLDPESPSYALDVVSVIEATLEKPRQILSAQQKKARGEAIAAMKADGIEYEQRMAMLDEVTYPQPLAEILGEAFEVYRKAAPWIGDFELAPKSIIRDMYERAMNFGEFVQFYGLARSEGIVLRYLADGFKALRQTVPQDALREDLEDLIAWLGELVRQVDSSLLDEWEELTSGAAPTPHDAPPPPPPSLTSNIRAFRVMVRNEMFRRVELFAEEDAAALGELDGAAGWDADRWEDVLDDYFDEHDDIGTGPDARGPGLLIITEEPGAWKVRQIFDDPAGNHDWGISAEVDLAASNETGTAVVRVTDVNRL				NA	NA	NA	NA	NA
D1-17_02025	501			hypothetical protein	ATGAGTGTTATCCGACCTGCCATCCCCGCCGATGTCCCCGTAATCCTGCAGATGATCCACGAACTGGCCGTCTACGAGAAGGAACCGGATGCCGTCCGCAACACACCGGAGATGCTGCACGCCGTGCTCTTCGGGGAAAGCCCCCGTGTATTCGCCCACATGGCGGAAAATGAGGCAGGGCAGGTCCGCGGGTTCGCGTTGTGGTTCCTGAACTATTCAACCTGGGAAGGTGTGCACGGCATCTACCTCGAGGATCTCTACGTCACTCCCGAGGCCCGCGGCGAGGGACACGGCAAGGCCCTCCTGCAGCACCTGGCCGCGACCGCCGTCGACCGCGGTTACGCGCGTGTCGAATGGAGCGTCCTGGACTGGAACGAGCCCTCCATTAACTTCTACCGGAAGCTGGGGGCCAGCCCGCTGGAGGAATGGTCCACCTTCCGCCTTACCGGAGACGCCCTCGCGGCCTTTGGAGCCCGCAGCGGGGCCGGGGCGCGTGGCTGA	MSVIRPAIPADVPVILQMIHELAVYEKEPDAVRNTPEMLHAVLFGESPRVFAHMAENEAGQVRGFALWFLNYSTWEGVHGIYLEDLYVTPEARGEGHGKALLQHLAATAVDRGYARVEWSVLDWNEPSINFYRKLGASPLEEWSTFRLTGDALAAFGARSGAGARG	PGPT0007790_685	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007790-speG-K00657	NA	NA
D1-17_02026	1407	pip_2		Proline iminopeptidase	GTGGCTGACGTCGCGGCGCCCGGGGAGGTTCATAACAGCGCCGTTCAGAATCGGATCCCTCAGGCGACCAGCGCCATTCCCGGGGCCCGGGCGTCCCACACCGTCCGCGCAAGGCACGAGTTCCGCGGGATGCGCACCACGGAGCACTACTTCACCGTCCCGTTGGACCATTTCAGCTCCCCGGAGGAGCCCGACGCCGAGACGATCACCGTTTTTGCCCGCGAATACGTATCGACGGAGCATACTGAAACGGCTGCGAAACAACTGCCCTGGCTTGTATACCTGCAGGGCGGACCCGGCGGCCGCGGAAACCGGTTCATGTCGCTCGGCGGCTGGAGCAAGGCCGCCGCCAAAGAATTCCGCATCCTCATGCTGGACCAGCGGGGCACCGGGCTGTCCTCCCCCGCGGACCGCAACACGCTGCCCCTGCGCGGCGACGCCCAGGCACAGGCCCGCTACCTGGAACACTTCCGTGCCGATTCGATCGTCGCCGACGCCGAACTGATCCGCCATGCGCTGGGGTCGGAACCATGGACCATCTACGGCCAAAGCTACGGCGGCTTCATCGCGCTGACCTACCTCTCGTTCGCGCCAGAAGGCTTGAGGGAAGTGCTCATCACCGGCGGTCTCGCCCCGCTCGAGGGCACAGCAGACCGGGTGTACCGCGAGACGTTCAGGCGGGTCGCCGCCCGCAATGCCGAATACTTCGGCTGGTACCCGGAAGACCGTGAAATTGTAGACCGGATCGCCGGGCACCTGCGGAGCACCGAGGAGTTCCTGCCCGGCGGAGAACGCCTCACGGTGGAACGCTTCCAGATGGTGGGAGCCTTCCTCGGCGGCAATACGAGAGTGGACTGGCTGCACAACCTGCTGGAGGACGCCTTCGTGGACACTCCCCGAGGCCACAGGCTGTCTGACTCGTTCCTCGAGCAGCTCCGCCCTCAGGTTTCCCGCGCTGCCAACCCCCTGTACGCCCTCATGCACGAGTCCATCTACGCCCAGGGCCAGGCGACTGACTGGGCGGCCTGGCGGGTCCTCCGGGAATTTCCGGAGTTCAGCCCGGACGCCCCGCAGATACTGCTGACCGGCGAGATGATCTACCCCTGGTACTTCGAGCAGGACAACTCGCTGCGCCCGCTCAAGGATGTAGCTGAACTGCTGGCGGCCAAGACGGACTGGAAACCGCTGTACGCACCCGCACAGCTGGCAGCCAACACGGTGCCGGCCGCCGCCGCCGTCTACACGAATGACATCTATGTGGATCGCGCCCTTTCCCTGGAAACTGCCGCGGCGGTCCGTAAACTGCAGACGTGGGAAACGGCCGACTTCCATCACGACGGAATCGCCGACGACGGGGAAGCGATTTTCGGCCGGCTCCTGGGCATGGTGCGGTCAGTCCGGAACTGA	MADVAAPGEVHNSAVQNRIPQATSAIPGARASHTVRARHEFRGMRTTEHYFTVPLDHFSSPEEPDAETITVFAREYVSTEHTETAAKQLPWLVYLQGGPGGRGNRFMSLGGWSKAAAKEFRILMLDQRGTGLSSPADRNTLPLRGDAQAQARYLEHFRADSIVADAELIRHALGSEPWTIYGQSYGGFIALTYLSFAPEGLREVLITGGLAPLEGTADRVYRETFRRVAARNAEYFGWYPEDREIVDRIAGHLRSTEEFLPGGERLTVERFQMVGAFLGGNTRVDWLHNLLEDAFVDTPRGHRLSDSFLEQLRPQVSRAANPLYALMHESIYAQGQATDWAAWRVLREFPEFSPDAPQILLTGEMIYPWYFEQDNSLRPLKDVAELLAAKTDWKPLYAPAQLAANTVPAAAAVYTNDIYVDRALSLETAAAVRKLQTWETADFHHDGIADDGEAIFGRLLGMVRSVRN				NA	NA	NA	NA	NA
D1-17_02027	1428	rfnT		Riboflavin transporter RfnT	ATGGCAACCACCTCCCGGACGGACCCGGATGTGCGGCTGGTGCAACGGCGCACCGTGGTGCTCCTGGGGTCCGCGCAGCTGTTCAGCGCCATTGGAACCGGGGCGACTGTCTCCATCGGTTCCCTGCTGGCCGTCGATTTGTCCGGTTCCGAGGCGTGGGCCGGCTCAGTCGCCACCATGATGACGCTCGCGGCAGCGATCGCGGCGCTGCCGCTCGCCTCCCTTGCCGAACGGCGCGGACGCAGGATCAGCCTTGCCACCGGACTGGCCGCGGCCCTGGCAGGTGCTGTGCTCATCATCGTGTCCGTGGTTTCCGGGGCCTTCGCCTTCCTTGTCATAGGCTCCGCGGGCGTAGGGGTGGGAACAGCCGCAAACCTTCAGGCGCGGTTCGCCGCCGTTGACCTTGCAGACGCAGAACACCGCGGCCGCTCCCTGTCCGCCGTCGTCTGGGCCATCACCATTGGGGCCGTGGCCGGACCAAATCTGATACAGCCGGGCGCTGTTGTTGGCCAGAGCCTGGGGCTGCCGCCTATCGCGGGGCCGTTCATTATCTCCGGAGCCGGACTGGTTCTTGCCTGTGGCCTGCTGCTGGCGGGGCTCCGCCCAGACCCGCTCCTGCTGGCCCGCCAGATAGCAGCGCAGACCCAACCGGTGGCAGCTGAGCCGGCGGCGGAAGCTCACCCGGCTGCCGCAGCGCAACCGGCGGCAGCGTTGGCCCCGCCATCGGCCGGAGCCCAGCCGGCCCAACTCCCGGCAGCGGCAGCGCCCGCCGGAGGTTCACTCGCCCGGGGGTTGCGGGCCATCCGGCGTGCGCCGGCAGCGATCCTGGCGCTGGCCGCCGTCGTCGGTGCCCATGCGGTCATGGTGGGCGTGATGTCGATGACCCCGCTCCATCTGCAGGAGATCGTCGCGGGCCCGGCCGGCGCCCACGGCAGCCATACCGCGGGCAGTGATGTCCTGGTTATCATCGGATTCACTATTTCGCTGCACATCGCCGGGATGTTTGCGCTCTCGCCGGTGATGGGCTGGCTGACGGACAAGCTGGGCCGTACCCAGACCATCGCCCTCGGCTTCACCACCCTGACGGCTGCCGTGCTCGTGGCGGGCTTTGGGCAGGCGTCGACGGCGGCCGTTGCCGTGGGCCTCGTGCTCCTGGGCGTGGGGTGGTCGGCGTCAACGATTGCCGGCTCGACGCTCCTGGCCGAGAGCGTCGCGCAGCAGGACCGGGTGGCAGCGCAGGGTGTGTCGGACATGCTGATGGGCGCGGCAGGCGCCGCGGGCGGCGCCGTCTCGGGCCTGGTGCTGAGCTGGGCGGGCTACCTGGGCCTTAACCTGGCCGGCGGCCTGCTGGGAGCCGGCATCCTCGCGGCCGCGGTCGCGGTGCTGCTGGCGGGGCGGGCCCGGGAGGGACAGTCAGTTCCGGACTGA	MATTSRTDPDVRLVQRRTVVLLGSAQLFSAIGTGATVSIGSLLAVDLSGSEAWAGSVATMMTLAAAIAALPLASLAERRGRRISLATGLAAALAGAVLIIVSVVSGAFAFLVIGSAGVGVGTAANLQARFAAVDLADAEHRGRSLSAVVWAITIGAVAGPNLIQPGAVVGQSLGLPPIAGPFIISGAGLVLACGLLLAGLRPDPLLLARQIAAQTQPVAAEPAAEAHPAAAAQPAAALAPPSAGAQPAQLPAAAAPAGGSLARGLRAIRRAPAAILALAAVVGAHAVMVGVMSMTPLHLQEIVAGPAGAHGSHTAGSDVLVIIGFTISLHIAGMFALSPVMGWLTDKLGRTQTIALGFTTLTAAVLVAGFGQASTAAVAVGLVLLGVGWSASTIAGSTLLAESVAQQDRVAAQGVSDMLMGAAGAAGGAVSGLVLSWAGYLGLNLAGGLLGAGILAAAVAVLLAGRAREGQSVPD	PGPT0008460_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
D1-17_02028	1026		COG0861	putative membrane protein	GTGCAGCTTCCTGTCTGGTTTGAGGTCGGCTCGTTCGTCGCCCTCGGCATCATCCTCCTGTTAGACCTGCTCCTGGTGGTGCGGCGCCCGCACGAACCCTCCATGAAGGAAGCCGGCTTGTGGGTCGCCTTCTATGTGGCCCTTGCCCTGGCCTTTGCCGGTGCGATGTTCGCGTTCGCGGGTCCGGAGTACGGCGGACAGTTCGTCGCCGGTTGGGTGACCGAATACAGCCTCAGCATCGACAACCTCTTCGTCTTCATCATCATCATGGCGCGGTTCTCGGTGCCCCGTAAGTACCAGCAGGAAGTGCTGATGGTGGGCATCATCATCGCCCTCATCCTGCGCGGCATTTTCATCATGCTCGGCGCCATCGTCATCGAGCAGTTCAGCTGGGTGTTCTACATCTTCGGCGCCTTCCTGCTGTGGACCGCCTGGAAGCAGGCCAAGGACGAAGGCGAAGACGAGGAGGACACGGAAAACGCGCTGATCGCGAAGCTCCGCAAGGTCATCCCCATGTCGGAGAAGTTCGACGGCGGCAAGCTCCGCACCGTCGTCGACGGCAAGAAGGTCTTCACCCCCATGCTGATCGTCTTCGTGACCATCGGCATGACGGACCTGCTGTTCGCCGTGGATTCCATCCCCGCGATCTTCGGCCTCACCCAGAGCGCATTCATCGTCTTCACCGCGAACATCTTCGCGCTCATGGGCCTGCGCCAGTTGTACTTCCTGCTCGGCGGCCTGATGAACCGCCTGATCTACCTCAAGCACGCACTGTCCGTCATCCTGGCCTTCATCGGTGTGAAGCTTATTCTGCACGCCATGCACGTCAACGAACTGCCCTTCATCAACGGCGGCCAGCACATCGAGTGGGCACCCGAGATCCCCACGTACGTCTCGCTTGGCGTCATCGTCGGCACCATCGTCATTGCCGTGATCGCCAGCCTGATCAGCTCCAAGGCACAGCAGGCCAAGCTGGATGCCCGCCTCGAAGAGGATGCCAGGAAAAGCATGAGCGACGTCGACTAA	MQLPVWFEVGSFVALGIILLLDLLLVVRRPHEPSMKEAGLWVAFYVALALAFAGAMFAFAGPEYGGQFVAGWVTEYSLSIDNLFVFIIIMARFSVPRKYQQEVLMVGIIIALILRGIFIMLGAIVIEQFSWVFYIFGAFLLWTAWKQAKDEGEDEEDTENALIAKLRKVIPMSEKFDGGKLRTVVDGKKVFTPMLIVFVTIGMTDLLFAVDSIPAIFGLTQSAFIVFTANIFALMGLRQLYFLLGGLMNRLIYLKHALSVILAFIGVKLILHAMHVNELPFINGGQHIEWAPEIPTYVSLGVIVGTIVIAVIASLISSKAQQAKLDARLEEDARKSMSDVD	PGPT0004905_763	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
D1-17_02029	2100	uvrB	COG0556	UvrABC system protein B	ATGAGTCTTGCGCAGGAGATCAACCGCGTCGTAGCGCCATTCGAAGTCATCAGCGAATTCAAGCCCGCGGGCGACCAGCCGGCCGCCATCGCCGAGCTCACCGAACGCATCAGGAACGGCGAAAAGGACGTGGTGCTCCTGGGCGCCACCGGTACCGGAAAGAGCGCCACCACGGCGTGGCTCATTGAGCAGGTGCAGCGGCCCACCCTGGTCATGGTGCAGAACAAGACGCTGGCCGCCCAGCTGGCCAATGAGTTCCGCGAGCTGCTGCCCAACAATGCGGTTGAGTACTTCGTCTCGTACTACGACTACTACCAGCCGGAAGCCTACGTTCCCCAGACGGACACCTTCATCGAAAAGGACTCCTCCGTCAACGAGGAAGTGGAGCGCCTGCGCCATTCGGCCACTAACGCGCTGCTGACAAGGCGCGATGTGGTGGTGGTGGCCACCGTTTCCTGCATTTACGGCCTTGGCACCCCCGAGGAGTACATCGCCGGCATGGTGACGCTGCGGCGGGGCCAGGAGATGAACCGCGATGACCTGCTGCGGAAATTCGTCTCCATGCAGTACGTCCGTAACGACATGGACTTCCACCGCGGGACGTTCCGGGTCCGGGGCGACACCGTGGAGATCATCCCGATGTACGAAGAACTCGCGCTGCGGATTGAGTTTTTCGGTGATGAAGTAGAAAACATCTACACGCTGCACCCGGTCACCGGGGAGGTTATCCGGGAGGAGACGGAGATGTACGTCTTCCCGGCTTCACATTACGTTGCCGGACCCGAGCGCATGTCACGTGCGATCACCGCCATCGAGGACGAACTGGCCGAGCGTCTTAGCGTTCTGCAGGGCCAAAACAAGCTCGTGGAGGCCCAGCGCCTCCAGCTGCGAACCAACTATGACCTCGAGATGATGCAGCAGATGGGTTTCTGCAACGGCATCGAAAACTACTCGCGCCATATCGACGGGCGGCCTGGCGGCTCCGCGCCGCACTGTCTCCTGGACTACTTCCCGGACGATTTCCTGCTGGTCATCGATGAGTCCCACGTGACGGTGCCGCAGATCGGCGCGATGTACGAAGGTGACATGTCCCGCAAGCGGACGCTCGTGGACCACGGCTTCCGGCTGCCGTCCGCTATGGACAACAGGCCGCTGAAGTGGGATGAATTCCTGGAGCGCATCGGCCAGACCGTCTACCTGTCCGCGACCCCCGGGAAGTACGAACTCGGGAAAGCCGACGGGTATGTGCAGCAGATCATCCGCCCCACGGGCCTCATCGATCCGGAAGTCGTCGTCAAGCCCACGAAAGGCCAGATCGACGACCTCCTGGGCGAGATTCGCACCCGGGTGGACAAGGACGAACGTGTCCTGGTCACCACCCTCACCAAGCGCATGGCGGAGGATCTCACGGACTACCTGCTGGGCCACGGCATCAAGGTGCAGTACCTGCACTCGGACGTTGACACCCTCCGCAGGGTGGAGTTGCTGCGCGAGCTCCGGATGGGCGTCTTCGACGTCCTGGTGGGCATCAACCTGCTCCGCGAAGGCCTTGACCTGCCCGAAGTGTCCCTGGTGAGCATTCTCGATGCTGACAAGGAGGGCTTCCTCCGATCCTCCACTTCCCTGATCCAGACCATCGGCCGTGCCGCGAGGAATGTGTCCGGCCAGGTGCACATGTACGCGGACCGCATCACGGATTCCATGGCCCACGCGATCGAGGAAACCAACCGCCGCCGGGCCATCCAGGTCGCCTACAACAAGGAGAACGGCGTCGATCCGCAGCCGCTGCGAAAGAAGATCGCGGACATCACCGACCAGCTGGCCCGGGAGGACGCGGACACCCAGGAACTGCTGAACAACAACCGCCTGGCCAAAGGCGGCAAGCGCGCCAAGTCCGCAGCCAAGGGCGCCGCGACCGTGCGCTCCGACGGGCTCGCGGCAGCACCTGCCGAGGACCTGGTGGGGCTGATCGAACAGCTGACGGAACAGATGCACGGCGCCGCCGCCGAGCTGCAGTTCGAGGTGGCTGCCCGGATCCGCGATGAGGTGGCTGAGCTGAAGAAGGAACTGCGGCAGATGCAGGCGGCAGGCCACGCCTAG	MSLAQEINRVVAPFEVISEFKPAGDQPAAIAELTERIRNGEKDVVLLGATGTGKSATTAWLIEQVQRPTLVMVQNKTLAAQLANEFRELLPNNAVEYFVSYYDYYQPEAYVPQTDTFIEKDSSVNEEVERLRHSATNALLTRRDVVVVATVSCIYGLGTPEEYIAGMVTLRRGQEMNRDDLLRKFVSMQYVRNDMDFHRGTFRVRGDTVEIIPMYEELALRIEFFGDEVENIYTLHPVTGEVIREETEMYVFPASHYVAGPERMSRAITAIEDELAERLSVLQGQNKLVEAQRLQLRTNYDLEMMQQMGFCNGIENYSRHIDGRPGGSAPHCLLDYFPDDFLLVIDESHVTVPQIGAMYEGDMSRKRTLVDHGFRLPSAMDNRPLKWDEFLERIGQTVYLSATPGKYELGKADGYVQQIIRPTGLIDPEVVVKPTKGQIDDLLGEIRTRVDKDERVLVTTLTKRMAEDLTDYLLGHGIKVQYLHSDVDTLRRVELLRELRMGVFDVLVGINLLREGLDLPEVSLVSILDADKEGFLRSSTSLIQTIGRAARNVSGQVHMYADRITDSMAHAIEETNRRRAIQVAYNKENGVDPQPLRKKIADITDQLAREDADTQELLNNNRLAKGGKRAKSAAKGAATVRSDGLAAAPAEDLVGLIEQLTEQMHGAAAELQFEVAARIRDEVAELKKELRQMQAAGHA	PGPT0014920_1264	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
D1-17_02030	1251	coaE	COG0237	Dephospho-CoA kinase	TTGAAGATCGGACTGACGGGCGGCATCGCCTCGGGGAAGTCAATGGTGGCCGCGCGCCTGAAGGACCTGGGCGCGGTGCTTGTGGATGCTGACGCGATAGCGCGCGAAGTCGTTGAACCGGGCACGCCCGGGCTGGCAGCCGTGGTGCGGGCCTTCGGGGAGGACCTTCTCGACTCCTCGGGGTGGCTGGACAGGGCCCGTCTTGGTGGAATTGTCTTCCAGGATCCGGAGCGGCGTGCCGAGCTGAACGCCATCGTCCACCCTCTGGTACGGCAGCGGGCCGCAGCGGTGATCTCCGCAGCCCCCGCAGACGCTGTGGTGGTGCAGGACATCCCACTCCTCGTCGAGACCGGGCAGCAAAGCGCCTTCCATCTCGTCGTGGTGGTAGACGCCGCGTCGGAAGTGCGGGTCCAGCGGATGGTCCGCCACCGCGGTATGACGGAGGAGGAAGCCCGTTCCCGGATGGCCGCCCAGGCCTCCCGCGATGTCCGCTTGGCCGCCGCCGATGTGGTCCTGGATAATTCCGGGTCACCGGAAGACCTGCAGCTGGCGGTGGACCGGCTGTGGGAGGACCGGCTGGTGCCCTTCGCCCGCAACCTCAGCGTATCTGCCGTCGCAGGGCGCAGCGGCGGACCGGTGCTGGCCCCGCACGACCCCGACTGGGCGCGTCAGGCGTCCCTGCTGATGGCGCGGCTGCGTGCCGCGGCCCCGGAAGACATCCTCGCGGTTGACCATGTCGGGTCCACCGCCGTGCCCGGACTCGATGCCAAAAACGTGATAGACCTCCAACTCGCTGTGGCGGACCTGGAAACAGCGGACCGGATTGCGCCGCTGCTCGGTGCCGCAGGCTTCCCCGTCTGGCCCGGCATCCTGCTCGACAACCCCGCCCCCGGCCGCCCCGATCCGGCGGCCTGGTCCAAGCGGCTGCATGGGAATGCCGATCCCGGCCGGCCCGTGAACCTCCATGTCAGGGTCGCAGGCTCACCGGGCTGGCGTTTCGCGCTCTGCTTCCGGGACTGGCTCACCGCTGTTCCCGCTGCCCGGGAAGCCTACGCTGCCGAAAAGCACCGTGTCGCGGCCCGCCACGCTGCGGACACCTCAACGGCCGCATACGCGCAGGACAAGGAAGCGTGGTTCACCGCGACCGGAGGTCCCGGCATGGAGCGGTGGGCCGCAAGCAGCGGCTGGCAGCCGCCGTCGTACATTGCTGCCGGCACCATCACCGGCAGCGCCGGTACAGCCCAAAGCTGA	MKIGLTGGIASGKSMVAARLKDLGAVLVDADAIAREVVEPGTPGLAAVVRAFGEDLLDSSGWLDRARLGGIVFQDPERRAELNAIVHPLVRQRAAAVISAAPADAVVVQDIPLLVETGQQSAFHLVVVVDAASEVRVQRMVRHRGMTEEEARSRMAAQASRDVRLAAADVVLDNSGSPEDLQLAVDRLWEDRLVPFARNLSVSAVAGRSGGPVLAPHDPDWARQASLLMARLRAAAPEDILAVDHVGSTAVPGLDAKNVIDLQLAVADLETADRIAPLLGAAGFPVWPGILLDNPAPGRPDPAAWSKRLHGNADPGRPVNLHVRVAGSPGWRFALCFRDWLTAVPAAREAYAAEKHRVAARHAADTSTAAYAQDKEAWFTATGGPGMERWAASSGWQPPSYIAAGTITGSAGTAQS	PGPT0008835_14	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008835-coaE-K00859	NA	NA
D1-17_02031	684	yigZ	COG1739	IMPACT family member YigZ	GTGCAACAGCAAGAAAGCAGGACGTCGTCCTACACCACGCTTGCCGCCTGCCGTGATTTCCGCCAGGAGCTGGAGATTAAGCGGTCGCGGTTCATCACGGTGTTGCGGCGGGCAGACAGCGAGGAAGCAGCCCGAGCCCTCGTGGCGGACCTCCGCCGGGAATTCCACGACGCGCGGCACCACTGCTCCGCGTTCGTGCTGGGTGCCGACCGGGACGTCCAGCGCTCCGGTGACGACGGCGAACCGTCCGGCACGGCCGGAATCCCTATGCTGGAGGCCCTGCTCCGCCGTGAAACCGCACCTGGGGTGACGGACCTCAGTGACGTCAGTGCCGTCGTCGTGCGCTATTTCGGCGGCGTGCTGCTGGGTGCCGGCGGGCTGGTGCGGGCCTACTCGGAGTCGGTGTCGACAGCGCTCGGCTTGGCCCCATTGGTGCAGCGCCGCCGCCTCAGGATCTGTGCCGTAAGGATCCCCCACGCGGCGGCCGGCCGGCTGGAGAACGACCTGCGCAGCGCCGGCTATGCCATGGCGGGAACAAGGTACCATGCGGATTCTACTGTCCTGCGGCTGGCCCTTCCGGACTCACCTGCAGTGCTGGCTGACACCGCCGGCCGCGTGGCCGCGATGACGGCCGGAGCTGCAGTCCTGGAGCCGGAAGGCACGGAGTGGGTGGACCTCCCGTAG	MQQQESRTSSYTTLAACRDFRQELEIKRSRFITVLRRADSEEAARALVADLRREFHDARHHCSAFVLGADRDVQRSGDDGEPSGTAGIPMLEALLRRETAPGVTDLSDVSAVVVRYFGGVLLGAGGLVRAYSESVSTALGLAPLVQRRRLRICAVRIPHAAAGRLENDLRSAGYAMAGTRYHADSTVLRLALPDSPAVLADTAGRVAAMTAGAAVLEPEGTEWVDLP				NA	NA	NA	NA	NA
D1-17_02032	252			hypothetical protein	ATGGCGCTGTCGGATGAGGAACGCAGGCTCCTTGAACAGCTCGAAAAGGAACCCGCGGCAGCACATCCGGACCTGGCACGGGAACTGCAGTCCGGCTTCACCCGCAGCAGGGCAACGTCCCGAATGATCAACGGCGTCCTGGCCGCGTTAGCCGGCTTCGCGGCGGTCATCCCCGGAATCATCACGGGACTCACGATCATCGCCGCCATCGGGTTTCGCGCTCATGGTTGCGGGCGGTCACCCGTTCCTTAA	MALSDEERRLLEQLEKEPAAAHPDLARELQSGFTRSRATSRMINGVLAALAGFAAVIPGIITGLTIIAAIGFRAHGCGRSPVP				NA	NA	NA	NA	NA
D1-17_02033	216			hypothetical protein	ATGGAAGACCTGCTGAGCACGGCGAGATCCTTGCTGATGCAGCCGGATCTGGCCTTAGTTGACCTGTGGATCCTGTATTGGAACCGCGGCGGGCACTGTCATCCTTTCGATTTCGACGCCTTCATTTACGAGTTGCTGCCCTCCTCCGGTCTCGACCTCTCTGCCCTTGCCTCTGCCCTTGATGAATTGATGATGGAAACCGGCTGCCAACAATGA	MEDLLSTARSLLMQPDLALVDLWILYWNRGGHCHPFDFDAFIYELLPSSGLDLSALASALDELMMETGCQQ				NA	NA	NA	NA	NA
D1-17_02034	354			hypothetical protein	TTGCTCGGACCCCGGTTCTTCTTCCAGCACGTGACCCGCTTTTCCTTGCGCCGCCTGGCCTGGATTATTTTGATTGGGGGGCAGCGGACTGTCGTCAGAATTCCGACCGGTTTCAGCACGCCTGTTGTGCACGTAGGCGGCAGGGGGCAGGTCGCCGCCAGAGGTGTTCTCAGTCATGGCTACAGCGAAGCATTCCCGCAGAACGTCCGCAAGGTCATGTCAAAGACTTGGGGGAGCTCCCTCGCCAAAGTGACAGGAGGCAACGCAGCGCACCGGTGGCGCGGAACGGAATCCCTCATCGGCCAAGCCGCCTTGATGCTGCAAGTCCAGAGGCCGACTGCTGGCGGAATTTAA	MLGPRFFFQHVTRFSLRRLAWIILIGGQRTVVRIPTGFSTPVVHVGGRGQVAARGVLSHGYSEAFPQNVRKVMSKTWGSSLAKVTGGNAAHRWRGTESLIGQAALMLQVQRPTAGGI				NA	NA	NA	NA	NA
D1-17_02035	1134			hypothetical protein	ATGCAAAGTGAACTCATAGTACTGTCACATCTGCGCTGGAACTGGGTATGGCAACGCCCCCAGCAACTCATCTCAAGGATGAGCACGAACCGGAAGACCTGGTTTGTCGAGGAACCTCTAACCCCGCCGGGAGGGCCGGCTGAGCCCAACCGGCTCAACAGCTGCAAGGCCGACGGACTCAACCGTGTCTGGCTGGAAATTCCCGAGCAGGGGCACCATGTGGGCTTCTTTGACCAGGTGCTGCCGCACTACATCCAGCAGCTGCCCCGACTCATCGGTGAACCCACGGGAGAACGCGTTGTCTGGCTCTACACGCCGCTGGCTCTGGAAATCGCCCTGGCTCTGCAGCCCACAAGGCTCGTCTACGACGTGATGGACGACCTCGCCGCCTTCAAGGACGCCGCTCCTGAACTGATCGTGCGGCAGCGGCAGGCCCTGCGCCGAGCCGACGTCGTCTTCACCGGAGGAAGGTCTCTGCACAACTCCATCACCAGGCAGGGGCGGACAGAAGCGCAGCTCTTTGCCAGCGGCGTCGCCCCCGAACACTACGCCCCCTCACTGTGCAGGCAACCTTCCGCTGGAGGCAGCCCGGTGGCAGGCTATGTCGGAGTCATCGATGAGCGGCTGGACCTGGACCTCATCGCCGAAACGGCAGCCCGGCTGCCGCACTGGGAAATCCGGATGATCGGCCCCCACGCCAAAATCAGCCCCGACGACCTCCCCCAGGCACCCAACATCACGTATGTCGGCCACAAGACCTACGCCGAACTGCCCGCCGTCATGGCGGAACTCGATGTCGCCCTGATGCCGTTCGCATTGAATGAGGCAACCCGCTCCATCAGCCCCACCAAGACACTCGAATACCTCGCCGGCGGGCTGCCCGTCATCTCCACACGCGTCCCGGACGTGGTGACCGACTTCTCCGGAGCAGTCCACTTGTGCGATACCGCGCTGGAATTTGCAACAACCTGCGCCCGCTTAGGGCATAGAAAGCCCTCCACCCGGCCTGAACGCAACATCCGCGAGCTGCTCAAGAAACACCACTGGAAAACCATTGCAGCACAAATGGAGGAATCAGCATTCCCCACCGCCGAGGAGGACGGGACAGCAGCCGCAGGAGAGGCCACAGCTTAG	MQSELIVLSHLRWNWVWQRPQQLISRMSTNRKTWFVEEPLTPPGGPAEPNRLNSCKADGLNRVWLEIPEQGHHVGFFDQVLPHYIQQLPRLIGEPTGERVVWLYTPLALEIALALQPTRLVYDVMDDLAAFKDAAPELIVRQRQALRRADVVFTGGRSLHNSITRQGRTEAQLFASGVAPEHYAPSLCRQPSAGGSPVAGYVGVIDERLDLDLIAETAARLPHWEIRMIGPHAKISPDDLPQAPNITYVGHKTYAELPAVMAELDVALMPFALNEATRSISPTKTLEYLAGGLPVISTRVPDVVTDFSGAVHLCDTALEFATTCARLGHRKPSTRPERNIRELLKKHHWKTIAAQMEESAFPTAEEDGTAAAGEATA				NA	NA	NA	NA	NA
D1-17_02036	1338			hypothetical protein	ATGAACCACCCTTCTCCGCACCCAGCCATTCAGCTGATCGGTGCATTCGAAAGCACCTACCTCCCGGCCCACGACAGGGACATCACCGAAACCACTGGCCACGACACGAGCTGGAAGCAAGACCTTGAACTACTTGCCGCGTCGGGGGTGACCAGGCTGCGGTACCCGGTGCGGTGGCACCGCATCGAAGCCGAAGAAGGCAACTTTGATTGGTCGGGCACAGACAAGGTGCTGCGCTACCTCAGAGACCACGGCTTCAGCCCGATCGTCGACCTGGTCCACCACACCAGTTACCCTCGCTGGCTGGCCGGCGGCTTCGCCGACCCCCGCTTTGGCCCCGCCTACTTGAGATACGCCAAACTGTTCGCACTGCGCTATCCCTGGATACAGGAATACACACTCTTCAACGAGCCGTTTTCCACGCTCTTCCTTAGCGGCCACGAAGCGATCTGGCCCCCCTACCACCGGGGGCTCGCCGGCTTCATCGAACAGATCCTGAACGTACTGCCCGCCGTAGCTGAAGCCAGCAGACTCTACGCTGAACTGCTGCCAGGCGCCAGGCACGTCTGGACCGACACCTGCGAGCACCATACAGGGTCAGACGCAGCCGGACGGGACTACGCCCGCATGGCGAACGAGCGCCGCTTCCTGGTCATCGACACCTTCCTCGGACGCGGCTACGACCCTGACGGCCCGATGGCCGGGCCGCTCCGGGAAGTAGGCGGAGAACGCCTGCTTGAACTCCCGACCGGGCGAATCGACACCCTCGGACTGGATTACTACGCACACTGCCAGTGGAATTTCGGATCAGGAGGAGGAACAGCTCCCACGAAGCGGCCACGCCCCTTGGCGGAACAGATACGCGACTACTGGCACCGCTACAACCTCCCCTGCATCCTCACCGAGACCAATATCAGGGGACGGACCACCGACAGGGCCACCTGGTTCAAATACGTCCTGGAACAATGCGAACTTGCCCAATCCATGGGAGTCCCGATGGAGGGTCTTTGCTGGTTTCCCTTCATTGACTCCACCGACTGGGATTCCCTCCTCTTCCGCTGTGACGGCCACATTGACCCCGTCGGCGTCTATTGGCTGGATGCGGAACTGGCACGCAGGCCCTCCGTGATGTCGGACTCCTATGCCCTGGCTGCCGCTGGCACCAGGGCCGAGGACCTCCCTGCCTACCCGTTGGGTGAGCCCGCCGCCACCTGGCTCGAGGGCTACCTGCCCCACATGGCCCACTGGGCCTGGTCACCCTGCCCTGAATCCGGCCTGGGAAGCGGCCTCCCGAACCAAGACACCCGAATGGAATTGAGGATCGTCGATGCAAAGTGA	MNHPSPHPAIQLIGAFESTYLPAHDRDITETTGHDTSWKQDLELLAASGVTRLRYPVRWHRIEAEEGNFDWSGTDKVLRYLRDHGFSPIVDLVHHTSYPRWLAGGFADPRFGPAYLRYAKLFALRYPWIQEYTLFNEPFSTLFLSGHEAIWPPYHRGLAGFIEQILNVLPAVAEASRLYAELLPGARHVWTDTCEHHTGSDAAGRDYARMANERRFLVIDTFLGRGYDPDGPMAGPLREVGGERLLELPTGRIDTLGLDYYAHCQWNFGSGGGTAPTKRPRPLAEQIRDYWHRYNLPCILTETNIRGRTTDRATWFKYVLEQCELAQSMGVPMEGLCWFPFIDSTDWDSLLFRCDGHIDPVGVYWLDAELARRPSVMSDSYALAAAGTRAEDLPAYPLGEPAATWLEGYLPHMAHWAWSPCPESGLGSGLPNQDTRMELRIVDAK				NA	NA	NA	NA	NA
D1-17_02037	375			hypothetical protein	ATGAGAAATTGGAGCACGATCCTGCTGAAGAGTGTTGCCGGACTGGTCAGAAGTGCCTCCGGTGCCAGACGGCCGGCGCAGGGCCGAACAACGGAATCGGCGCCGGGCCGAACAACGGAATCAAGGAGTGGGCCGGACGAGCTGACGGCAGAACTTTCACGTTTAAAGGCGCAGCTGGAGGACCTGACGGCCGAAACGGCGCACATCAAGATGGAGCTCTCACGTTTGGACGGCGACCTTGACGAATCCCGCCGGTTGAACCTGCGCGCTGCTGAGCTTCTTGACATTGTCTATACCGAGCTAAGTTGCAGTGCAGGCTCGCAGTCTCGGGAATACCACCGGGAGACTCCGGAAGCCGGGGAAGGGGGAGCATGA	MRNWSTILLKSVAGLVRSASGARRPAQGRTTESAPGRTTESRSGPDELTAELSRLKAQLEDLTAETAHIKMELSRLDGDLDESRRLNLRAAELLDIVYTELSCSAGSQSREYHRETPEAGEGGA				NA	NA	NA	NA	NA
D1-17_02038	1557			hypothetical protein	ATGACACACACGATCCACGCCGACAGGACGGCCTTGACCGTGGCCGGGCCCGCGTTCCCTGAAACCTGCAGCCTCTCAGTGTCGCTGGCAAACCGGCGCATCTGGACCTTTCGCCCTGCCGACGGGACGGTCTCCGGAGACCGCCTCACCATCCCATGGCCAGCCGCGCTGGTGCCCCGGCTCACCGGATCCGCGAACCTGCTGCTCCTTCAGGACCGCATCCCTGTATGCGGACCCACCACCGTTCACTTCGATGACTCGGGGGAAGAATTCACCCTCACCGAACCGGGAACGGGCATCCCTCAGGTCATCAACAAGTGGGGACGGGTGGGCCGGTCCTTCGAAGGCCGCGACCCGGCACTGATCCAGGATGTCCTGGACGCCACAGAGGATCTGATCAGGCTCGTGAAAAAGCACGCCGGGCTAGATCTGTTCGTCACTGGTGGAACGTTGCTCGGTCCTGTCCGGGACGGCCACATCATGCCCAACGATGACGACGCCGACCTTGCCTATCTGAGCGCCTACAACAATCCCTCCGACATCGCCCTGGAAAGCTTCCGCCTCGAGCAGATCATGCAGGACGAGGGCTACGAGACCGTCCGCCACTCAGCAGGCCATCTCCAGATCATGTTTCCCGGTGCAGGGATTGAAGACCGCTTCTATGTCGACATTTTCACTTACTTTATGGTTGGCGGATGGTTCCACGGAACATTCCATGCCCGTGAACCGGAGGCGCACGTCAGCGTGCTCCCACTCCAGCCGGTCGAGGTCAACGGGCGAATGCTTCCCGGCCCGGCAAGCCCGGAACAGTTGCTGGCCGCCATCTACGGCCCTAGCTGGCGGACTCCGGATCCAGCCTTCCGGTTCATCACGCCCCCGCCCGCCCGGCGACGGTTCCACGGCTGGCTCAACAGCTTCGACGTGGACCGGGAAAACTGGGAGGACCATCACCGCGCCCAGCTTGCTGCACAAACGACAGCTGTGCCCTCGGAATGGGCACGACAACTTGCCCGCGAGTTGCCCACCGGAACCCGGATACTGGAACTCGGCTGCGGGCTGGGATCAGATGCCCGGCACCTTGCACGTCACGGACATGATGTGCTTGCCGTTGACTACAGCCGTCCTGCCCTGGCAGCGCTAGCGGGCCAGAGCCTGCGCTCCGGACAGCACCTTCAGCTCAAACGCGTGAACCTCAACTCAGTGCGCCAGGTCGCACCCCTGGCCAAGACCTGCCGCGATAACGCAGTTCCCCTCCACGTCTACGCCCGGCTGCTGCTCAACGCGCTTCCCCCGGAAGGCCAGGAGAACGTCCTGTCCCTTATCCGACACATCCTGGGCCGCCATTGTGTGCAGGGTCGCGCATACCTCGAAGTAAGTGCAGGGGCAGAAGACGAAGCACTCTCCTCCTGGAACATTTACGCGCCCATAAACGCGGGGGAGTTGCGGCGCCACCTTGCCCTGAAAGGGCTCGAGATTGAAGAAAGCGATTCCCGCCCAGCTGGCGAGGACGGGAACCGCAGCCATATGCGGCTAACGATCAAAGCGAGGACAACATGA	MTHTIHADRTALTVAGPAFPETCSLSVSLANRRIWTFRPADGTVSGDRLTIPWPAALVPRLTGSANLLLLQDRIPVCGPTTVHFDDSGEEFTLTEPGTGIPQVINKWGRVGRSFEGRDPALIQDVLDATEDLIRLVKKHAGLDLFVTGGTLLGPVRDGHIMPNDDDADLAYLSAYNNPSDIALESFRLEQIMQDEGYETVRHSAGHLQIMFPGAGIEDRFYVDIFTYFMVGGWFHGTFHAREPEAHVSVLPLQPVEVNGRMLPGPASPEQLLAAIYGPSWRTPDPAFRFITPPPARRRFHGWLNSFDVDRENWEDHHRAQLAAQTTAVPSEWARQLARELPTGTRILELGCGLGSDARHLARHGHDVLAVDYSRPALAALAGQSLRSGQHLQLKRVNLNSVRQVAPLAKTCRDNAVPLHVYARLLLNALPPEGQENVLSLIRHILGRHCVQGRAYLEVSAGAEDEALSSWNIYAPINAGELRRHLALKGLEIEESDSRPAGEDGNRSHMRLTIKARTT				NA	NA	NA	NA	NA
D1-17_02039	1473	bcs1		Bifunctional ribulose 5-phosphate reductase/CDP-ribitol pyrophosphorylase Bcs1	ATGACGCCTTACGACAACTTGGGGCGGCACCCGAGGCTGGCCAGGAACCTGGCGCGGCCTTCCAGGTGCAGGAACGTGGCCGTGATCCTCGCCGGCGGGGTGGGATCCCGGATGGGCTTGGACATCCCCAAGCAGTTTGTTCCTGTCGCTGGCCGGACGAGTCTGGAGCACACTGTCGACGTTTTCCAAGCCTGTCCCGTCATCGACGACATTCTGGTCATGATGGAAGCGGGCTACATTGCCCGCGCCGAAGAGCTTCTGCCCCTGAGTCGGTTCAGCAAATTGCGCGGCATTTACCGCGGTGGATCCGACCGCAACGAAACCTCATACCTGGCGCTGACTTTGATCCATGACACCGACTCCAACATCATCTTCCACGACGCCGTCCGCCCACTGATCGACTCCGACGTGATCAGGGCCTGCGTCACAGCACTGGACCGTTTCGACGCTGTGGACACCGCCATCCCGTCCGCCGACACCATCATCGAAGTCGACGACCGCGGTTTCATCAAGGCCGTGCCCCAGCGCGCACGGCTGCGCCGGGGCCAGACACCCCAGGCGTTCAGGTTCCCTGTCATCAGCGCGGCTTACGACCTGGCACGGAAGGACCCCGCTTTTTCCGCGACCGATGACTGCTCGGTTGTGCTGAAGTACCTGCCGGAAGTACCGATCTTCGTGGTGGCAGGCGATGAAGCCAACATAAAAATCACCCATCCAATTGACATCCACCTCGCCGACAAGCTGTTCCAACTCAAGCACAAGACCTCCGGCGCCTCCTCCGGTCCCGTTGACCTGCATGGATCAACAGTGCTCATTTTTGGCGGAAGTACCGGTATCGGTGCCGAACTAGCCCGGCAGCTTGAGGACGAGGGCGCAGCGGTGGTAACGCACAGCCGGACAGGGAGCGGCACCTTCGTTGAAGACCGCAAGTGCGTTGCCGCTGCCCTGTCCGCCGCGGCCAGGGCCAACGGAAAAGTGGACCACGTAGTCCTCACAGCAGGAGTCCTGACGGTGGGGCCACTGACGGCGCTCACAGATAAGCAACTGCACCATGACGTGGACGTGAACCTCATGGCAGCCTTCATCGTCGCCCAGGAGTCCTACCCGTACCTGGCCGGCACAAAAGGGTCCCTAACGCTTTACGCGTCCAGCTCCTACACCCGGGGACGGGCCAATTACACGGTGTATTCAGCCACCAAGGCGGCCATCGTGAATCTCACCCAGGCGCTGGCGGACGAATGGGGGGACGTGGGGATCCGCGTCAACTGCATCAGCCCCAGCCGCACCGCCACCCCCATGCGCACGAAAGCATTCGGCGCCGAGGCCGAAGAAACTTTGCTGCAAGCGGGGACGGTGGCTGCAGCAAGTGCCCGTGTGCTGGGTTCGGACATGACCGGGCAGATCATCGACGTCAGGCTTCCGGGCACTGACCCGCTGAGCGAGACCGAAACCAACCTCGTGAGCACGCCATGA	MTPYDNLGRHPRLARNLARPSRCRNVAVILAGGVGSRMGLDIPKQFVPVAGRTSLEHTVDVFQACPVIDDILVMMEAGYIARAEELLPLSRFSKLRGIYRGGSDRNETSYLALTLIHDTDSNIIFHDAVRPLIDSDVIRACVTALDRFDAVDTAIPSADTIIEVDDRGFIKAVPQRARLRRGQTPQAFRFPVISAAYDLARKDPAFSATDDCSVVLKYLPEVPIFVVAGDEANIKITHPIDIHLADKLFQLKHKTSGASSGPVDLHGSTVLIFGGSTGIGAELARQLEDEGAAVVTHSRTGSGTFVEDRKCVAAALSAAARANGKVDHVVLTAGVLTVGPLTALTDKQLHHDVDVNLMAAFIVAQESYPYLAGTKGSLTLYASSSYTRGRANYTVYSATKAAIVNLTQALADEWGDVGIRVNCISPSRTATPMRTKAFGAEAEETLLQAGTVAAASARVLGSDMTGQIIDVRLPGTDPLSETETNLVSTP	PGPT0018340_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_RIBITOL_METABOLISM|DEGRADATION,PGPT0018340-bcs1-K21681	NA	NA
D1-17_02040	927	cpdA_2	COG1409	3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGCCTTCTGTCGACGCACAGCACCCGCGGCCGGATCATTTTCTGCTCCATGTCAGCGACACGCATCTGGTGGGCGAAGGCCTGCTGTACGGCGAGGTCGATGCAGAGGCCCGTCTGGCTGACGTCTTCGCAGCGATACGCGCGTCCGGCCTGAGCCCGGAAGCGTTCATCTTCACCGGTGATCTCGCCGACAAGGGAGAACCGGAAGCCTACCGTAAGCTGCGGAAGGCGGCGGAGGCTGCTGCTGCCTCGGCACAGGCGCAGCTGATCTGGGTGATGGGGAACCATGATGACCGCCGGCACGTCCGCGCTCTGCTGCTCGACGAGGATCCTGATGAAGCCCCGCTGGACCGGCGATACGACCTGGGCGGTCTGCGGGTGCTGGTCCTGGACTCATCCGTTCCCGGATTCCACCACGGGGAAGTGAGCGAAGAACAGCTGCACTGGCTCGCGAGCGAACTGCAGTCACCAGCCCAAGACGGGACCCTGCTGGTCCTCCATCATCCACCCATTCCTTCCCTGCAGGACCTGGCGGTAGTGACGGAACTGCGGAACCAGGATGGCCTGGCCCGCGTCGTAGCGAACACTGACATCATCGCCATCCTCGCCGGACATCTGCATTTTTCCGTCTCGTCAACTTTTGCGAACGTGCCGGTTTCCGTGGCCTCTTCGACCTGCTATACCCAGGACCTGGTCGTTCCGGACGGCGGAGTCCAGGGCCGGGACGGTGCCCAGACATTCAATCTCGTGCACCTGCATGGCCGGACGGTTGTGAATTCCGTCGTGACTCTTGGCTCCTTCCCGCCCGTTGGTGCGTACGTCTCGGCAGAAGAAACGCGCCGGCGGCTTTCCGTGGCAGGGATCCGCATAGCGGACGCCCGCGGACATCCACGGGGATCACTAGCCCAATCCGGAAACAGTCGATAG	MPSVDAQHPRPDHFLLHVSDTHLVGEGLLYGEVDAEARLADVFAAIRASGLSPEAFIFTGDLADKGEPEAYRKLRKAAEAAAASAQAQLIWVMGNHDDRRHVRALLLDEDPDEAPLDRRYDLGGLRVLVLDSSVPGFHHGEVSEEQLHWLASELQSPAQDGTLLVLHHPPIPSLQDLAVVTELRNQDGLARVVANTDIIAILAGHLHFSVSSTFANVPVSVASSTCYTQDLVVPDGGVQGRDGAQTFNLVHLHGRTVVNSVVTLGSFPPVGAYVSAEETRRRLSVAGIRIADARGHPRGSLAQSGNSR	PGPT0021595_586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
D1-17_02041	894	ctaC_2	COG1622	Cytochrome c oxidase subunit 2	ATGCACAAGAAGTCAAGATTTACAGGCAGTTGGGCCGGGTTACTCCGTTCCGCGGGCGCCGTCCTTGTGGTGCTGGGCTTGTCCGGCTGCTCTGCGGAAGTCCAGCGCGGATGGCTTCCTACCGAGCGGAACACCACCGAGCACACGCCCCGGATCATGGATCTCTGGGTTAACTCCTGGATCGCTGCCTTGGTCATCGGGGTCATCACCTGGGCTCTTATTCTGTGGTGCATGCTGGCGTACCGTCGCCGGAAAAAGACGGTCGGACTCCCTCACCAGTTGAGCTATAACCTGCCCCTGGAGGTCTTTTACCTCTCCATTCCGCTGATGGTGGTCGGTGTCTTCTTTATCTTTACTGACCGGGAGCAGACGGCTATTGATGCCAGATACCCCGATCCTGACGTTGTTATTGATGTCCGGGGCAAGCAGTGGTCTTGGGACTTCAATTACGTCAAGGAGGACGTGCATGAAGACCCCGGTGAACAGACCCATCAGACCGGTGAGGTGGGCTTCCGGGAACGGGTGCCCGTACTGCACGTGCCGGTGGGCAAGAAGGTGGAGCTGCAACTAAACTCGCGGGACGTTCAGCACTCGTTCTGGGTGCCCGCGTTTCTGCAAAAACGCGACCTTTACCCGGGTGCCAGCCAGCTCAACAGGTACATCAACATCACGCCGGGCCGTGTTGGAGATTTCGACGGGAAGTGCGCCGAGCTCTGCGGTGAATACCACTCTGAGATGCTCTTCCGGGTCAAAGTCGTCTCCGAACAGGAGTACGCCGACCACATCAGGGAGTTGCGGGACCGCGGGAACGTTGGCATCCGCGGAGATGAATTTGACAGGGCACCGGGCCGTCCGGCGCTGGAACCCGCGCAACAGCAGGCAGGGAACAAATGA	MHKKSRFTGSWAGLLRSAGAVLVVLGLSGCSAEVQRGWLPTERNTTEHTPRIMDLWVNSWIAALVIGVITWALILWCMLAYRRRKKTVGLPHQLSYNLPLEVFYLSIPLMVVGVFFIFTDREQTAIDARYPDPDVVIDVRGKQWSWDFNYVKEDVHEDPGEQTHQTGEVGFRERVPVLHVPVGKKVELQLNSRDVQHSFWVPAFLQKRDLYPGASQLNRYINITPGRVGDFDGKCAELCGEYHSEMLFRVKVVSEQEYADHIRELRDRGNVGIRGDEFDRAPGRPALEPAQQQAGNK	PGPT0004030_2593	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
D1-17_02042	1761	ctaD_3	COG0843	putative cytochrome c oxidase subunit 1	ATGACCACCACCCCAGCAACAACACCCGAATCAGGTCTCGCTGCTACAGCCGCTCCGGCTGTCAGTCCACGGCGCAAGGGCAGCATTGTGGTCGCGTGGATCACCTCCACGGACCATAAGACCATCGGCTACATGTACATGATCGCTTCATTCGTCTTTTTCATCCTCGGCGGGATCATGGCCCTGGCCATCCGGGCCGAGCTCTTCGAACCCGGCATGCAGATCCTGCAGACCAAAGAACAGTACAACCAGCTGTTCACCATGCACGGCACTGTGATGCTGCTGATGTTCGCCACCCCGCTCTTCGCCGGGTTCGCGAATGTGATCATGCCGCTGCAGATCGGCGCCCCTGACGTTGCATTCCCGCGGCTGAATGCCCTCGCGTTCTGGTTCTTCCTCTTCGGCTCCACCATCGCGATGTCCGGCTTCATCACCCCGCAAGGGGCCGCCTCCTTCGGCTGGTTCGCCTACACGCCCCTGTCCAACACCACCTTCACTCCCGGATTGGGCGGTGACCTGTGGGTCTTCGGCCTGGCCTTGTCCGGCTTCGGCACGATCCTTGGTGCGGTCAACTTCATCACCACCATCATCTGCATGCGCGCCCCCGGCATGACCATGTGGCGGATGCCGATCTTCACCTGGAACACTCTCGTGACGGCAGTCTTGGTGATCATGGCCTTCCCGCCGCTGGCCGCGGCCCTGTTCGCCCTCGGCGCCGACCGGAAGTTCGGCGCCCACATCTTCGACCCGGCCAACGGGGGCGCCATCCTGTGGCAGCACCTGTTTTGGTTCTTCGGCCACCCGGAGGTGTACATCATCGCGCTGCCGTTCTTTGGGATCGTGTCCGAGATTTTCCCCGTCTTCAGCCGCAAGCCGTTGTTCGGCTACAAGGGGATCGTCTATGCCACCATGGCCATCGGCGCCCTGTCGGTCACGGTCTGGGCGCACCACATGTACGCCACAGGTGCGGTGCTGCTGCCCTTCTTCGCCTTCACGACGATGCTCATCGCGGTTCCCACCGGCGTGAAGTTCTTCAACTGGATCGGCACCATGTGGCGGGGTTCGCTGACGTTCGAGACCCCGATGCTGTGGAGCATCGGCTTCCTCATCACGTTCCTCTTCGGCGGCCTCACCGGCATCATCCTGGCTTCACCGCCACTCGACTTCCACGTCACCGACTCCTACTTCGTCGTCGCCCACTTCCACTACGTCGTCTTCGGCACGGTCGTGTTCGCGATGTTCGCCGGCTTCTACTTCTGGTGGCCGAAATGGACCGGGACCATGCTTGACGAACGCCTCGGCAAGATCCACTTCTGGTCGCTGTTCCTGGGCTTCCACGCAACCTTCCTGATCCACCACTGGCTCGGAGTGCTGGGGATGCCCCGCCGGTACGCCGACTACCTGCCGGAGGACAATTTCACGCCTATGAACCAGTTCTCAACCATCGGCTCCTATTTGCTGGGCGTGTCCCTGGTCCCGTTCCTCCTGAACGTCTTCCTCACTTGGCGCAAGGGCAAGAAAGTAACAGTCGACGACCCCTGGGGCTTCGGTGCCTCCCTGGAATGGGCCACCTCCTGCCCACCACCCCGCCACAACTTTACCTCCCTGCCCAGGATCCGCTCAGAACGCCCGGCCCTGGATCTCCACCACCCCGAAATCAGGACGCGGGAACACGAGCCCAGCCACACCCCTGCCGCAGACATACTCGGAGCAGCGGACATCGGATCCCGAGACGTCCGGGACCCCAGCCCCGACAAATAG	MTTTPATTPESGLAATAAPAVSPRRKGSIVVAWITSTDHKTIGYMYMIASFVFFILGGIMALAIRAELFEPGMQILQTKEQYNQLFTMHGTVMLLMFATPLFAGFANVIMPLQIGAPDVAFPRLNALAFWFFLFGSTIAMSGFITPQGAASFGWFAYTPLSNTTFTPGLGGDLWVFGLALSGFGTILGAVNFITTIICMRAPGMTMWRMPIFTWNTLVTAVLVIMAFPPLAAALFALGADRKFGAHIFDPANGGAILWQHLFWFFGHPEVYIIALPFFGIVSEIFPVFSRKPLFGYKGIVYATMAIGALSVTVWAHHMYATGAVLLPFFAFTTMLIAVPTGVKFFNWIGTMWRGSLTFETPMLWSIGFLITFLFGGLTGIILASPPLDFHVTDSYFVVAHFHYVVFGTVVFAMFAGFYFWWPKWTGTMLDERLGKIHFWSLFLGFHATFLIHHWLGVLGMPRRYADYLPEDNFTPMNQFSTIGSYLLGVSLVPFLLNVFLTWRKGKKVTVDDPWGFGASLEWATSCPPPRHNFTSLPRIRSERPALDLHHPEIRTREHEPSHTPAADILGAADIGSRDVRDPSPDK	PGPT0004025_1115	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-17_02043	453	lpxD		UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGCACAGCACAACAGAATACGTTGAGGACGATCACGGCAACGTCCTCACATATCGCCGGCATCCCAACGGCGGTGGCCTCATCGGCCGGGGCGCCAAAGTAGGCCCAACATCATTCATACAGTCCACAGCCTATGTGGAGCCAGGCAGCCAGATCGATTCCGGATGCCGCATAGGAGCTGGCAGCTGGATCGACCGGAAAGCACGGATCGGGCACCAGGTAATCATCGGAGATGCCGTATACGTCGGCCCTGAAGCGGTAATAGGCGACCGTGTCCGCATCGGCAGCCACTCACGCATCGGAGCCCGGGCGCGGCTCGGTGACTGCGTTCGCATCGAACCAGACACAATCGTCCCCGAAGACGCCGTCATCCCGCCAGCTGCCAGGAGAGCCCCACGCCCTGCGGCACGCAAGCAGCATCACCATGAAAAGTCCAGGCTCAGCGCCGCATAG	MHSTTEYVEDDHGNVLTYRRHPNGGGLIGRGAKVGPTSFIQSTAYVEPGSQIDSGCRIGAGSWIDRKARIGHQVIIGDAVYVGPEAVIGDRVRIGSHSRIGARARLGDCVRIEPDTIVPEDAVIPPAARRAPRPAARKQHHHEKSRLSAA				NA	NA	NA	NA	NA
D1-17_02044	327			hypothetical protein	ATGTCCACCCTAGGAAACGTGAAAGTCCTCAGCAAGCTGATGATGGTGTGGATGAACGGACCCCGCGCCCAGAAAGTCTGCGACTCCCTGGCCCGTGACACATTCCGCTGGAGGGACACGCTGATGCTCCTTCATCCTGGGCAACAGCTGCGGATGAGGTTCCAGCTATGCGGCGCTGAGCCTGGACTTTTCATGGTGATGCTGCTTGCGTGCCGCAGGGCGTGGGGCTCTCCTGGCAGCTGGCGGGATGACGGCGTCTTCGGGGACGATTGTGTCTGGTTCGATGCGAACGCAGTCACCGAGCCGCGCCCGGGCTCCGATGCGTGA	MSTLGNVKVLSKLMMVWMNGPRAQKVCDSLARDTFRWRDTLMLLHPGQQLRMRFQLCGAEPGLFMVMLLACRRAWGSPGSWRDDGVFGDDCVWFDANAVTEPRPGSDA				NA	NA	NA	NA	NA
D1-17_02045	567	yraA	COG0693	Putative cysteine protease YraA	ATGTCAGAGCACAATATTACCGGCAAGAGGGTCGCCTTCCTGCTGACGGACGGCGTTGAGCAGGTTGAACTGACCAGCCCTTGGGACGCCGTCAAAAACGCCGGCGGGGAACCCGTCCTGGTTGCACCGAAGAGCGGCAAGCTCCAGGGTTTCGAAGGCGTGGGCAAGGGTGAGACTTTCGACGTCGACCTGACTCTCGCAGACGCCAATGCCTCGGACTTTCACGCGCTGGTGATTCCCGGGGGTGTGGTGAACGCCGACCACCTGCGCGTGAACAAGGACGCCCAGAACTTCGCCAGGAGCTTCTTCGAGCAGCACAAGCCGGTGGCCGCGATCTGCCACGGCCCGTGGCTGCTCATTGACGCAGGCGTAGTCAGGGGCCGGAACCTCACGTCGTACCACACGCTCGCGACCGACCTGAAGAACGCCGGCGCGAACTGGACGGATGAGCAGGTGGTGGTGGACCAGGGCCTCGTGACCAGCCGGAAGCCGGGCGATCTCCCGGCCTTCAACGAGAAGGTACTGGAGGAAATCGCGGAAGGCGAGCACGCCGGGCAGACGACCTGA	MSEHNITGKRVAFLLTDGVEQVELTSPWDAVKNAGGEPVLVAPKSGKLQGFEGVGKGETFDVDLTLADANASDFHALVIPGGVVNADHLRVNKDAQNFARSFFEQHKPVAAICHGPWLLIDAGVVRGRNLTSYHTLATDLKNAGANWTDEQVVVDQGLVTSRKPGDLPAFNEKVLEEIAEGEHAGQTT	PGPT0015010_1495	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0015010-yfkM|pfpI|yraA-K05520	NA	NA
D1-17_02046	1476	rpsA	COG0539	30S ribosomal protein S1	ATGACCATCACCTCCACCGAGAAGCCCGGTACCCCCGTAGTCGCGATTAACGACATCGGTACCGCTGAGGACTTCCTCGCAGCAGTCGACGCCACCATCAAGTACTTCAACGACGGAGACCTCGTCGAAGGTACCGTCGTCAAGGTCGACCGCGACGAAGTTCTGCTCGACATCGGTTACAAGACCGAAGGTGTCATCCCCTCCCGCGAGCTTTCCATTAAGCACGACGTTGACCCCGGAGACGTCGTCTCCGTTGGCGATCAGGTCGAAGCCCTGGTGCTCACCAAGGAAGACAAAGAAGGCCGCCTGATCCTCTCCAAGAAGCGTGCTCAGTACGAGCGTGCCTGGGGCGACATCGAGAAGGTCAAGGAAGAAGACGGTGTTGTCACCGGTACCGTCATCGAGGTTGTCAAGGGTGGTCTTATCCTCGACATCGGTCTGCGCGGCTTCCTGCCGGCGTCCCTCGTCGAGATGCGCCGCGTGCGCGACCTGGCTCCGTACATCGGTCAGCAGATCGAAGCCAAGATCATCGAGCTGGACAAGAACCGCAACAACGTTGTGCTGTCCCGCCGTGCATGGCTCGAGCAGACCCAGTCCGAGGTCCGCTCCACCTTCCTCAACAAGCTGGAAAAGGGCCAGGTCCGTCCCGGCGTTGTTTCCTCCATCGTCAACTTCGGTGCCTTCGTGGACCTGGGCGGCGTAGACGGCCTCGTCCACGTTTCCGAGCTCTCCTGGAAGCACATCGACCACCCGTCCGAGGTTGTCGAAGTTGGCCAGGAAGTCACCGTCGAGGTCCTCGAGGTCGACCTGGACCGCGAGCGCGTCTCCCTGTCGCTCAAGGCTACGCAGGAAGACCCGTGGCAGACCTTCGCCCGCACCCACGCCCTCGGCCAGGTTGTCCCGGGTAAGGTCACCAAGCTCGTTCCGTTCGGTGCGTTCGTCCGCGTCGAAGACGGCATCGAAGGCCTGGTCCACATCTCCGAGCTCGCTGTCCGCCACGTTGAGCTGGCCGAGCAGGTTGTCTCCGTTGGCGACGAGCTGTTCGTCAAGGTCATCGACATCGACCTCGAGCGCCGCCGCATCTCCCTCTCCCTCAAGCAGGCCAACGAGGGCGTCGACGCCGACAGCACCGAATTCGACCCGGCACTCTACGGCATGGCTGCCGAGTACGACGAAGAGGGCAACTACAAGTACCCGGAGGGCTTCGACCCGGAGTCCAACGAGTGGCTTGAAGGCTACGAGGCTCAGCGCGCCGCCTGGGAGCAGCAGTACGCTGACGCCCAGACCCGCTGGGAAGCCCACAAGAAGCAGGTTGCCCAGCACGCCGCTGATGACGCTGCAGCTGCAACGTCCGGTGAAAGTGACTCCGGTACCACGAGCTACTCCTCCGAGCCGGCTGCGACCGAAACCGGTGCAGGCACGCTTGCTTCGGACGAGGCTCTTGCCGCACTGCGCGAGAAGCTGACCGGCAACTAA	MTITSTEKPGTPVVAINDIGTAEDFLAAVDATIKYFNDGDLVEGTVVKVDRDEVLLDIGYKTEGVIPSRELSIKHDVDPGDVVSVGDQVEALVLTKEDKEGRLILSKKRAQYERAWGDIEKVKEEDGVVTGTVIEVVKGGLILDIGLRGFLPASLVEMRRVRDLAPYIGQQIEAKIIELDKNRNNVVLSRRAWLEQTQSEVRSTFLNKLEKGQVRPGVVSSIVNFGAFVDLGGVDGLVHVSELSWKHIDHPSEVVEVGQEVTVEVLEVDLDRERVSLSLKATQEDPWQTFARTHALGQVVPGKVTKLVPFGAFVRVEDGIEGLVHISELAVRHVELAEQVVSVGDELFVKVIDIDLERRRISLSLKQANEGVDADSTEFDPALYGMAAEYDEEGNYKYPEGFDPESNEWLEGYEAQRAAWEQQYADAQTRWEAHKKQVAQHAADDAAAATSGESDSGTTSYSSEPAATETGAGTLASDEALAALREKLTGN	PGPT0007615_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
D1-17_02047	1320	eis		N-acetyltransferase Eis	ATGGGGGAGACGGACGTGCCAGATACGCAGGAACCTGACCGGTACGTGGTGAGGCGGTTCCGGGCCACGCAGAACGGCGGCGCCGACTACGAATCCGGCGCCGCCTGGATGCGGGCCGTGGGACTCGGTTTCCATGACAGCAGCCGCAATGACGCGTTCACCCGCAAGCTCATGGACATGTACCGCGTGGATGAACGCGAACTGACCGGTGTCTATCAGGCCGCGGACGTGCCACCGTATTCCCTCGGCATAGAGGTCCCGGTGGCCACGTTCGCGACGCTCCGCAAGGACCTCAACGTCGGCTACGGCCGGCGGCTTCCGGCGCAGCTCGTTACCTCCGTCACAGTGCGCGGCACGCACCGCAGGCGGGGCCTGCTGCGCCGGATGATGACGGAGGATCTGGCAGCCGCCCGGGCCAACGGTCTGGCTGTCGCGGCGCTCACCGCTTCGGAGGGGTCGATCTACGGCCGGTTCGGCTTCGGCGTGGCGACGTTCGAGCGCAGCATCAAGGTGGACACCGGACCGAGATTCCGTCTCCGCCACACGGCAACCGGAACCGTGGAGATTGCGGACCGGAAGGTTCTCCTGGACCTGGCGCCACGCGTGTTCGGGCGGGTCCACCGGCTGACGCCAGGGTCCATCCTGCGGCAGGAGGCCTACCGCCAGACCGTGTCCGGGACATGCGGCCGTGACGGCAGCGAGGATGAGGCCATCCGTTGCGCCCTGCACTATGACGCTGACGGCACGGTTGACGGTTACGTTTCCTACAAGTTTGCCGGGTGGGACAGCAAGCCCTACACGATTGAGCTGGTGGATCTTGTGGCGGCCACCGATTCCGCATACCTCGAGCTCTGGCAGTTCCTGGGAAACATCGACCTGACCGAGCGGGTCAGCTGGGCCGACGCTCCCGTAGACGATCCGCTCCCATGGGTGCTGGAGGACCCGAGGTGCATCGAGTCCTCGGACCAGCGCGACATGCTCTGGCTGCGGATCCTGGACAGCGGTACAGCCCTCGCGGCGCGCCGTTATTCAAAGGACGGTGTTCTGACGCTGAAGGTCACCGACGCCCTGGGCATGGCCAACGGCACCTGGGTCATCGAGGTCAGCGGCGGGGACGCCCGCGTGACACCGGCACCGGCCGGCATGAGGCCGGAGCTGTCCCTGGACGTCGGGGAGCTAGGCTCCATCTACCTCGGCGGCGTCTGTCCGGTGACACTGGCCTCGGCTGGCAGGATTGCCGAGCACGTGCAGGGGGCGGCGCTGAAAGCGCGTCTCATGTTCGCCGTCGAACGGCCGCCGCACTGCCTGACCCACTTCTAA	MGETDVPDTQEPDRYVVRRFRATQNGGADYESGAAWMRAVGLGFHDSSRNDAFTRKLMDMYRVDERELTGVYQAADVPPYSLGIEVPVATFATLRKDLNVGYGRRLPAQLVTSVTVRGTHRRRGLLRRMMTEDLAAARANGLAVAALTASEGSIYGRFGFGVATFERSIKVDTGPRFRLRHTATGTVEIADRKVLLDLAPRVFGRVHRLTPGSILRQEAYRQTVSGTCGRDGSEDEAIRCALHYDADGTVDGYVSYKFAGWDSKPYTIELVDLVAATDSAYLELWQFLGNIDLTERVSWADAPVDDPLPWVLEDPRCIESSDQRDMLWLRILDSGTALAARRYSKDGVLTLKVTDALGMANGTWVIEVSGGDARVTPAPAGMRPELSLDVGELGSIYLGGVCPVTLASAGRIAEHVQGAALKARLMFAVERPPHCLTHF				NA	NA	NA	NA	NA
D1-17_02048	2736	polA	COG0258	DNA polymerase I	GTGTCATCGCCTGCCGGCCCGTCGGTGTCGGCCACCGAGGCCCCGGTGATTCCCCTGACGGACCAGCCCCGGCTGCTGGTGCTGGACGGACACTCCATGGCATTCCGGGCTTTCTTCGCCCTCCCGGCCGACAAGTTCTCAACCGCCAGGGGCCAGCACACCAACGCGATCCATGGCTTCACCTCCATGCTGATCAACCTCATCAAGGAACAGAAGCCCACGCACATCGCTGTGGCCTTCGACGTCTCGGACGACACCACTCACCGCAAAGCCGAGTACAGCGAGTACAAGGGCGGCCGCAACGAGACTCCCCGTGAAATGAGCGGGCAGATCGACCTCATCGACAAGGTGATGGGTGCCTGGGGCATCAAAACCATCAAAATGCCCGGCTACGAGGCGGACGACATCCTGGCCACGCTGGCCGCCATGGGCGAAAAGGCCGGCTATGAAGTCCTGCTCGTCTCGGGCGACCGCGACGCCTTCCAGCTCATCACTGACAACGTCTTCGTGCTGTACCCCAGGAAGGGCGTCAGCGATATCCCGCGGATGGATGCCGCCGCCGTCGAGGAAAAGTACTTCGTCTCGCCGGAGCGCTACTCGGACCTCGCAGCGCTGGTGGGAGAGACCGCGGACAACCTCCCCGGAGTTCCCGGCGTGGGCCCCAAGACCGCCGCCAAGTGGATCAACCTCTACGGCGGCCTGGAAGGCGTGCTGGAAAACCTCGACGCCATCGGCGGGAAGGTGGGCGAAGCGCTCCGCGCCAACGTCGACGCTGTCAAGCGAAACCGCAAGCTGAACAGGCTCCACACCGACCTTGACCTGCCGGTGACGCTGGATGAACTGGCGGATCCGCAGCCGGACCGTGAGGCTCTGGAGGCGCTGTTTGATGACCTTGAATTTAAGACCATCCGCGCCCGGCTCTTTGAGCTGTACGCCGGCGAGGTCCCGGAAGCAGAACGCAAGACCCTTGAGAGCCGGGACTTCGCAACGCTGCAGGACGCGGACGCGCTCCGGGCTTTCCTTCAGGCAGGGACAGGACAGCGGTCCGCCCTTGCCGTGGATGTGCTGCCCGGCCGGATCGGCGAGGACGCTGATGCCGTCGCAATCGTGCGGGAAGACGCCGCCGCTTACGTCGACCTCACGGCTCTGGATGCCGATGCCGAGAAAGTGCTGGTGCAGTGGCTCCGGGATAAGGGGGCGCCGAAGGTCATGCACGGTTATAAGGCAGGCCTGAAGGCGCTGACCAACCGCGGGCTTGGCCTGGAGGGCGTGGTGGATGACACTGCCATCTCCGGCTACCTCATCGAACCGGACCGCCGCACGTACGAACTCGCGGAGCTGGCCCAGCACCACCTGAACGTCCATGTGTCACCGGAGGCCGCCAAGGCCGGCCAGCTGGAGCTGGCGTTCGACGACGACGCTGCCGCCGCCTCGGGGGCGCTGGTTCAGGTCGCCGCCGTCGTCCATCAACTGAGCCGGTTTTTCGCGTCGGAACTGCAGGAACGCAAGGCAGAGGAGCTACTGGCAACGCTGGAGCTGCCCGTGAGCAGGGTCCTGGCGGACATGGAGCGGACCGGCATCGCCGTCTCCATGGAACTGATGGACGAGCAGTTGGCGGATCTGGCCAGGGTGATCGATGACGCCCAGGAGCGCGCGTATGCCGCCATCGGCCATGAGGTAAACCTCGGTTCGCCGAAGCAGTTGCAGACCGTCCTGTTCGATGAACTGCAGCTGCCGAAAACCAAAAAGATCAAGTCCGGCTACACCACGGACGCGGCCTCGCTGAAGAACCTGCTGGAGAAGACCGGGCACGAGTTCCTGGTCCAGCTCATGGCGCACCGCGAATCGGCCAAGCTGCGGCAAATGGTGGAGACGCTCAAGAAGTCCGTGGCTGAGGACGGCCGGATCCATACCACGTACGCCCAGAACGTCGCGGCCACGGGGCGCATTTCGTCCAACAACCCCAACCTGCAGAACATCCCCATCCGCAGTGAGGAAGGCCGGCGGGTCCGCGGCATCTTCGTGGTCAGTGACGGATACGAATGCCTGCTGTCCGCTGACTACTCGCAGATCGAAATGCGCATCATGGCGCACCTCTCCGGAGACGCCGGGCTGATTGAAGCCTACCGGCAGGGCGAGGACCTCCACCGGTTCGTGGGCTCGTCCATCTTCCACGTGCCGCCTGCTGAAGTCACGAGCGCGATGCGCTCCAAGGTCAAGGCAATGTCCTACGGCCTGGCCTACGGGTTGACCTCCTTCGGGCTGTCCAAGCAGCTGGAAATCTCGGTTGACGAGGCCAGGACGCTGATGAAGAACTACTTCGACCGCTTCGGCGCGGTCCGTGATTACCTCCGGGGAGTGGTAGACCAGGCCCGGATCGACGGGTACACGTCCACCATCGAAGGCCGGCGCCGCTACCTCCCGGACCTCACCAGCACCAACCGGCAGCTCCGGGAGAACGCCGAGCGCATCGCCTTGAACTCACCGATCCAGGGATCGGCGGCGGACATCATCAAGCGCGCCATGCTGGGCGTGCACTCTGAACTCGCCGCCCAGGGTCTGAAGTCGCGCATGCTGCTGCAGGTGCACGACGAACTCGTCCTCGAGGTTGCCGCAGGCGAGCGAGAGGCTGTCGAGAAGCTTGTCACGGAGCAGATGGGGGCAGCGGCGCAGCTGACCGTGCCCCTGGAAGTGCAGATCGGCGTCGGAGACAGCTGGTACGACGCCGGGCACTAA	MSSPAGPSVSATEAPVIPLTDQPRLLVLDGHSMAFRAFFALPADKFSTARGQHTNAIHGFTSMLINLIKEQKPTHIAVAFDVSDDTTHRKAEYSEYKGGRNETPREMSGQIDLIDKVMGAWGIKTIKMPGYEADDILATLAAMGEKAGYEVLLVSGDRDAFQLITDNVFVLYPRKGVSDIPRMDAAAVEEKYFVSPERYSDLAALVGETADNLPGVPGVGPKTAAKWINLYGGLEGVLENLDAIGGKVGEALRANVDAVKRNRKLNRLHTDLDLPVTLDELADPQPDREALEALFDDLEFKTIRARLFELYAGEVPEAERKTLESRDFATLQDADALRAFLQAGTGQRSALAVDVLPGRIGEDADAVAIVREDAAAYVDLTALDADAEKVLVQWLRDKGAPKVMHGYKAGLKALTNRGLGLEGVVDDTAISGYLIEPDRRTYELAELAQHHLNVHVSPEAAKAGQLELAFDDDAAAASGALVQVAAVVHQLSRFFASELQERKAEELLATLELPVSRVLADMERTGIAVSMELMDEQLADLARVIDDAQERAYAAIGHEVNLGSPKQLQTVLFDELQLPKTKKIKSGYTTDAASLKNLLEKTGHEFLVQLMAHRESAKLRQMVETLKKSVAEDGRIHTTYAQNVAATGRISSNNPNLQNIPIRSEEGRRVRGIFVVSDGYECLLSADYSQIEMRIMAHLSGDAGLIEAYRQGEDLHRFVGSSIFHVPPAEVTSAMRSKVKAMSYGLAYGLTSFGLSKQLEISVDEARTLMKNYFDRFGAVRDYLRGVVDQARIDGYTSTIEGRRRYLPDLTSTNRQLRENAERIALNSPIQGSAADIIKRAMLGVHSELAAQGLKSRMLLQVHDELVLEVAAGEREAVEKLVTEQMGAAAQLTVPLEVQIGVGDSWYDAGH				NA	NA	NA	NA	NA
D1-17_02049	537	entH		Proofreading thioesterase EntH	ATGATGGACAATTTCACGCCCGGCCAACCTGCCGGGGACGCCGGATCCGCCGTCGAGGGGCACGCCGATAACGAGGCCGGCACCGCCGTCGACATGCAGTTCAGGGAGGAGCTGTTTGCCGCGGGGGTGCCGGAGCACCTGCACGACTGGCTTGCCGGGTACGGCATCGGTGCCCTGGTGGTGAAGATGGGAATCCGGTTCCTGGAGATGAGTCCGGAGCGGACGGTGGCGACGATGCCCGTTGAAGGGAACACGCAAGTGGCCGGCATTCTCCACGGCGGCGCCCATGTGGTGCTGGCCGAGACGCTCGGATCCTTCGCCGCGGGGATGCACGCCGGGCCGGGCCGTCAGGCGCTGGGCATCGAAGTGGGCGCGACGCACCACCGCGCGGTCACGTCAGGCACCGTCACGGGAACGTGCACAGCAGTCCATCTGGGGCGGACGCTCACCACCCACGAGATCGTGATGACTGATGAGCAGGGCCGCAGGCTCTCGACTGCCCGCATTACCAACCTGATCCGGGATATCGGCAGGTAG	MMDNFTPGQPAGDAGSAVEGHADNEAGTAVDMQFREELFAAGVPEHLHDWLAGYGIGALVVKMGIRFLEMSPERTVATMPVEGNTQVAGILHGGAHVVLAETLGSFAAGMHAGPGRQALGIEVGATHHRAVTSGTVTGTCTAVHLGRTLTTHEIVMTDEQGRRLSTARITNLIRDIGR	PGPT0001845_124	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0001845-menI|ydiI|ydiL|ydiI|ybdB-K19222	NA	NA
D1-17_02050	558	yyaP_4	COG0262	putative protein YyaP	ATGTCAAGTGTCCAGTACTACGTGGCGTCCTCCCTCGACGGATTCATCGCCACGACCGATGATGACCTTGCCTGGCTGCTGCAGTTCGACGGCTTCGAAGGTGGAAAAGAAAGCTACGACACCTTCATGGCCGGCGTGGGCTGCATCGTCATGGGCGGGAGCACCTATCAATGGCTCATGGACCACGAGCCGGGAAACTGGCCGTACACCGGTACCCCCTGCTGGGTCTTCACCCACCACGAATTCACCGCCCCGCCGGGTGCCGACGTCACCTTCGTCCGCGGTGACGTCAGCGAGTTCGCAGACGACTTCACCAGGGACGCCGCAGGGAAAAACGTCTGGGTGGTCGGAGGCGGTGAACTGGCCGCCCAGTTCGCCGACGCCGACCTGCTGGACGAGCTCATCGTCTCGATCATCCCCATCGTGCTCGGGCAGGGGAAGCGGCTGCTGCCGCTGAAGGGCCCGACGCCGCCACTCGAGTTGGCGGACTCCCGCACCCAAGGACGGGGGATCGTGGAGTTGCGGTACCGTTTCGCGGGAACGCGCGGCAACCCGTAA	MSSVQYYVASSLDGFIATTDDDLAWLLQFDGFEGGKESYDTFMAGVGCIVMGGSTYQWLMDHEPGNWPYTGTPCWVFTHHEFTAPPGADVTFVRGDVSEFADDFTRDAAGKNVWVVGGGELAAQFADADLLDELIVSIIPIVLGQGKRLLPLKGPTPPLELADSRTQGRGIVELRYRFAGTRGNP				NA	NA	NA	NA	NA
D1-17_02051	534			hypothetical protein	ATGACCAGTGCCGAGGGAACGGACACAGCACCGAGAGTCTCCCTCTACCTCGACGTGGACGGCGTGGTCTGCCCGTTCGGAGCGGCGGACAACACTCCGTGGGGCTCGGCTTGGAGCTACGCGTTCGCCGGAATGCTTGAGGTGGCCTATGCACCGGAGCTCGTGGAGGCGCTGAACGGACTCGCCCAGGTTCCCGGCCTGCGGTGCGTCTGGCTGACCAGCTGGGAGAACCTGGCGCCGCAGGTCCTGTGCCCGGCCTCCGGCATCCATGGGACAGGATGGCCAGTGCTGACAGCCGCCGGTGCAGGCAGCGGACGGGACTGGTGGAAGCTCGAAGCCCTGCAGGCAGACCTTGAAGCATCCGGCACGGAGCGGATTATCTGGGCCGACGACCAGCTGGCCTTCGAGCGCCAGGCCCAGGCTTGGGCCAGGATCATCGGCGGACGCGCGCTGCTCATCTCACCCGATCCGAGAAGGGGCCTGACTCCTTTAGACCTGGAGGCCATCCGGGCCTTCGCGGAGCAGCAGGTTTGA	MTSAEGTDTAPRVSLYLDVDGVVCPFGAADNTPWGSAWSYAFAGMLEVAYAPELVEALNGLAQVPGLRCVWLTSWENLAPQVLCPASGIHGTGWPVLTAAGAGSGRDWWKLEALQADLEASGTERIIWADDQLAFERQAQAWARIIGGRALLISPDPRRGLTPLDLEAIRAFAEQQV				NA	NA	NA	NA	NA
D1-17_02052	2427	xpkA		Xylulose-5-phosphate phosphoketolase	ATGGGCGAGAACCCGGCAGCCACTGCTGCTGCGACCGAAGATTTCGAGCTGCTGAACAGGTACTGGAACGCGGCAAACTATCTGACAGCGGCGCAGATCTACCTGCAGGAAAACCCACTGCTCCGGGAGCCCCTGAAGCCGGAGCACATCAAGCCGCGCCTGCTCGGACATTGGGGAACGGGACCGGGCCTGTCCCTGGTCTACGTGCATCTGAACCGGCTGATTAAGCGGACCGGTGCGCAGGTCCTTTTCCTGGCCGGGCCGGGCCATGGCGGCCCTGCCATCGTGGCCAACGTGTACCTTGAAGGCACCTATTCGGAGCTGTATCCCAAGGTGAGCCGGGACGAGGAAGGCCTGCGGCGCCTGACCCGTCAGTTTTCCACGCCCGGCGGAGTGGGAAGCCACGCGGGTCCGGCCACCCCGGGCTCGATTCATGAAGGCGGTGAACTCGGATATTCGCTGATGCATGCGACCGGCGCGGTCATGGACAACCCGGACCTGATTGCCGCCTGCGTGGTGGGCGATGGCGAGGCTGAAACGGGTCCGCTCGCGGCCTCCTGGGACGCACCCTTCTTCCTCAACCCCGGCAGGGACGGCGCGGTACTGCCGGTTCTCCATCTGAACGGCCACAAAATCTCAGGTCCGACCGTACTGGGCCGGCGGTCCGACGACGACGTGGAAGCGCTGCTTGGTGCCCATGGCTGGGCTCCCGTCACGGTTTCCGGGAACGATCCGGAGCGGGTCCACCGGGAGTTGGCCTCCGCCATGGACGGTGCCTACGAGGAGATCCGCAGCATCCAGAAGGCTGCGCGCGGCAACGGCGTCACAGCTGCCGCGCGCTGGCCGGCCATCATCCTGCGGACACCTAAAGGGTGGACCGGTCCGGAAACTGTTGACGGCAGCCCTGTGGAGGGCACGTTCCGCTCACACCAGGTGCCGTTGTCAGGAGTGAAGGACGCCCCGGACCACCTGGCACTGCTGGAACAGTGGCTGCGTTCCTATGAGCCGGAGGCACTGTTCGATGCCGGCGGCAGGCTGGTGCCCGAACTGGCCGCCTTGGCCCCCGAGGGACCGCTGCGGATGGGGTCACTGCCCGCGGCCAACGGCCGGCCGTCGGTCCCGCTGGTCATCCCCGGCCTGGAACGCTATGCCGTGGATCCCGGCGAACGCGGCTCGACGAGCAGCGAAACGACTAAACCGCTCGGAGAGCTGTTCCGGGACCTGTACCGCGGCACTGAATCCGCTCCGAGGTTCCGGCTCTTCTGCCCGGACGAAACCAACAGCAACCGCCTGGGCGCCGTCTTTGAGGCGAGCGACCGTTGCCTGCTGCTGCCGCCCGGGAGCGGTGACGCTGCTGACGACCACGTCTCACCCGACGGCCGTGTGATGGAAGTCCTCTCCGAGCACCTGTGCCAGGGCTGGCTGGAGGGTTACCTGCTCACCGGTCGGCACGGATTCTTCGCCAGCTACGAGGCGTTCGCCATGATCAGCGCCTCCATGACGGTCCAGCATGCCAAGTGGCTGCAGCATGCGCGCGAACTGGAGTGGCGCTCCCCCGTGCCAAGCCTCAACATCCTCCTGACATCAACGTGCTGGCGCAACGACCACAACGGCTTCAGCCACCAGGGCCCCGGCCTCATCGATACTGTGCTGTCCCTCTCGGGTGAAGTGACCCGCATCTACCTTCCGCCGGACACGAACACCCTGCTGGCGGCTGCGGAGCACGCGCTGCTCAGCACCGATTACGTCAACCTCGTTGTCGTGGACAAGCAGTCACATCCGCAATACCTGACACTTGAGGAGGCCCGGGCCCATGCCGAGGCGGGTGCGTCGCGCTGGGACTGGGCGGGCAACGAGACGGGCACGCCGCCGGGCGGCAGCACAACGCCTGCCAGCACGGCCATGCCGGATATCGTCTTTGCCTCGGCAGGGGACATCCCCACGGAGGAGATGCTGGCGGCGGCCTGGCTGCTGCAGCGCTATGTTCCTGACGCCCGGGTCCGGGTGGTGAATGTCATGGATGCCATGGTGCTGCCGCCCCGGGAGGTACACCCGCACGGGCTCGACGACGGGACGTTCGCGTTGCTTTTCACGGATACCTGCAAGGTGGTGGTGGCATGGCACGGTTACGCCCGGTCCTTCCATCAACTGCTGCACGGACGCCCGAACCCGGAACGTTTCCATGTGCGCGGGTACAGCCAGCAGGGAACAACGACCACGCCATTCGACATGGTGGTGCTCAACCGGATGAGCCGCTACCACCTGGCACTTGAAGCCCTGCGCCGCATCCCCCGGAGGCTGCCGGGCGTGGACGATCTCGCCGGCCACTGCAAACGGCAGCTGGACGCCCACGCAAAATACATCCGTGAGCATTTCGAGGACCTCCCCGAAATTCGCGAGTGGGTCTGGTCACCTCCCGGTTCCTAA	MGENPAATAAATEDFELLNRYWNAANYLTAAQIYLQENPLLREPLKPEHIKPRLLGHWGTGPGLSLVYVHLNRLIKRTGAQVLFLAGPGHGGPAIVANVYLEGTYSELYPKVSRDEEGLRRLTRQFSTPGGVGSHAGPATPGSIHEGGELGYSLMHATGAVMDNPDLIAACVVGDGEAETGPLAASWDAPFFLNPGRDGAVLPVLHLNGHKISGPTVLGRRSDDDVEALLGAHGWAPVTVSGNDPERVHRELASAMDGAYEEIRSIQKAARGNGVTAAARWPAIILRTPKGWTGPETVDGSPVEGTFRSHQVPLSGVKDAPDHLALLEQWLRSYEPEALFDAGGRLVPELAALAPEGPLRMGSLPAANGRPSVPLVIPGLERYAVDPGERGSTSSETTKPLGELFRDLYRGTESAPRFRLFCPDETNSNRLGAVFEASDRCLLLPPGSGDAADDHVSPDGRVMEVLSEHLCQGWLEGYLLTGRHGFFASYEAFAMISASMTVQHAKWLQHARELEWRSPVPSLNILLTSTCWRNDHNGFSHQGPGLIDTVLSLSGEVTRIYLPPDTNTLLAAAEHALLSTDYVNLVVVDKQSHPQYLTLEEARAHAEAGASRWDWAGNETGTPPGGSTTPASTAMPDIVFASAGDIPTEEMLAAAWLLQRYVPDARVRVVNVMDAMVLPPREVHPHGLDDGTFALLFTDTCKVVVAWHGYARSFHQLLHGRPNPERFHVRGYSQQGTTTTPFDMVVLNRMSRYHLALEALRRIPRRLPGVDDLAGHCKRQLDAHAKYIREHFEDLPEIREWVWSPPGS	PGPT0017575_361	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017575-xfp-K01621	NA	NA
D1-17_02053	432			hypothetical protein	GTGCCCACCATCCTCAATCCGTACCTTAGCTTCCGTGACAACGCCCGTGAGGCCATGACTTTCTATCAGTCCGTTTTCGGCGGCGACCTGCAGCTCAGCACGTTCGGTGATTTCCATGCCAGCGAGGACCCGGCGGAAGCCGACAAGATCATGCACGGGATGCTGACCAGCGAAAAGGGCTTCGTGCTCATGGGGGCCGACACCCCGGACTCCATGGACTACTCGGCGGGGAGCAGCATCTCCATATCCCTCAGCGGCGAGGACGAGACGGAACTCCGCGGCTACTATGACAAACTGTCCGGCGACGGCGGCACCGTCACCGTCCCGATGGAGCCCGCGCCCTGGGGCGACATCTTCGGAATGTGCACGGATAAATTCGGCGTCGCCTGGCTGGTGAACATCAACGGAGACCAGGCAGGTCCTGCCTCCTAG	MPTILNPYLSFRDNAREAMTFYQSVFGGDLQLSTFGDFHASEDPAEADKIMHGMLTSEKGFVLMGADTPDSMDYSAGSSISISLSGEDETELRGYYDKLSGDGGTVTVPMEPAPWGDIFGMCTDKFGVAWLVNINGDQAGPAS	PGPT0030505_1791	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
D1-17_02054	249			hypothetical protein	ATGGGCTGTTCCCGCACTTATCCCGCGGGTTACCGTGGACACATGGAGTTCCTGAGGGGTTCTTTGTACCTGGATATCACCGCCAAGGGTCTCGGTTTGATTGGCGTGGCAATGATGATTTTCGGGCAGGGCGGCTGGTTCGCCGTCGGGGTCGTCCTCGTTGTCATCGGGGTGCTTGTGGGCGGATGGTCCATGGTGGCTGCCAGGCGGCTGCGGCGGCGGGGGTGGGACGGTGTGAACCGGGTCTGA	MGCSRTYPAGYRGHMEFLRGSLYLDITAKGLGLIGVAMMIFGQGGWFAVGVVLVVIGVLVGGWSMVAARRLRRRGWDGVNRV				NA	NA	NA	NA	NA
D1-17_02055	621	yciO	COG0009	putative protein YciO	ATGGCGAGATTCTTTGATGTGCACCCCGAAGACCCGCAGCCGCGCGCGATTTCCCAGATCGTGGACCTCCTGCATTCCGGCGGCCTGATCGCTTACCCCACCGACTCCTGCTATGCGCTCGGGGCGCAGCTGGGCAACAGGGAGGCTCTGGACCGGATCCGAACCATCCGCCAGCTCGACGGCAAGCACCACTTCACGCTGGTGTGCCGGGACTTCGCGCAGCTGGGCCAGTTTGTGAACATCGGAAACGACGTGTTCCGCAGCATCAAATCCGTGACGCCGGGCAGCTACACCTTTATCCTGCCGGCCACCAAGGAGGTGCCGCGCCGGCTGCTGCATCCGAAGAAGAAGACCGTGGGCGTGCGGATTCCCCGCCACACCTTTGTCCAGGCTCTCCTGGCCGAGATGGGCGAGCCGCTGCTGTCCAGCACCCTGCTCCTGCCGGACGAGGAAGATCCGCTGACGCAGGGATGGGAGATCAAGGAGCGGCTCGACCACGTGGTGGACGCCGTCGTCGACTCCGGCGACTGCGGGGCGGAGCCGACGACGGTCATCGACTTCTCCGGCGGGTCCGCCGAGGTGGTGCGCCGGGGAACCGGGGACCCGTCCCGCTTCGAATAG	MARFFDVHPEDPQPRAISQIVDLLHSGGLIAYPTDSCYALGAQLGNREALDRIRTIRQLDGKHHFTLVCRDFAQLGQFVNIGNDVFRSIKSVTPGSYTFILPATKEVPRRLLHPKKKTVGVRIPRHTFVQALLAEMGEPLLSSTLLLPDEEDPLTQGWEIKERLDHVVDAVVDSGDCGAEPTTVIDFSGGSAEVVRRGTGDPSRFE				NA	NA	NA	NA	NA
D1-17_02056	1023	ligD	COG1793	Multifunctional non-homologous end joining protein LigD	ATGGCCAGCGAACAGACCATCCTGACAGTTGACGGCCCGGACGGGCCCCGGGACATGCGGATCTCCAGCCCGAGCCGGGTCCTCTGGCCTGAGCTGGGCCTGACCAAGCTGGACCTCGCGCAGTACATGGTGGATGTGGGGGAGGCCTTCATCAGGGCGAACGGCGACCGGCCGGTGGCGCTGCAGCGGTTCTCGGACAATGTGGACGGCGACCAGTTCTTCTCCAAGAACCCGCCGAAGGGCGCGCCCGAATTTATCCGGTCGGTGAAGGTCACTTTTCCGAGCGCGCGCTCGCACCCCATGCTGGTCCTCGATGAACCTGCGGCCGCTGTGTGGGCCGTCCAAATGAACACGGTGGTCTTCCACCCGTGGCCGTCCCATGCTGACAACTCTAACAATCCGGATCAGTTCCGCATGGACCTGGATCCCCAGCCGGGCACCGACTTCGACGACGCCATCCCCGCCGCGCTGGAATTGCGGAAGGTTCTCGCGGAGGCGGGACTCGATGCGTTCCTCAAGACGTCGGGAAACCGCGGCCTGCATGTCTATGCCCCGATCGAGCCCAAGTGGGAATTCCTCGACGTACGCCATGCGGTGATCGGGGCGGCCCGAGAGCTCGAGCGCCGGATGCCTGAGCAAGTTACCACCAACTGGTGGAAGGAGGAGCGGGGGGAGCGCATCTTCGTGGACTTCAACCAGGCCAACCGCGACCGCACCATCGCCGGCGCGTACAGTCCCCGCGCGCTCCCGAATGCCGCCGTCTCCTGTCCAATCAGCTGGGACGAACTGGAGAGCGTCAACCCGAGGGACTTCACCATCCTGACCGTCCCGGAACGGCTGAAAACTGTCGGTGACCCTTGGGCGGACATGAACGCCAAGCCCGGGACGATCGATACTCTGCTTGGCTGGTGGGAGCGGGACCTCAAGGACGGACTGGGCGAACTGCCGTTCCCCCCCGATTACCCCAAAATGCCCGGCGAGCCGCCCCGCGTGCAGCCGAGCCGGGCAAAGAAGCAAGAGTAG	MASEQTILTVDGPDGPRDMRISSPSRVLWPELGLTKLDLAQYMVDVGEAFIRANGDRPVALQRFSDNVDGDQFFSKNPPKGAPEFIRSVKVTFPSARSHPMLVLDEPAAAVWAVQMNTVVFHPWPSHADNSNNPDQFRMDLDPQPGTDFDDAIPAALELRKVLAEAGLDAFLKTSGNRGLHVYAPIEPKWEFLDVRHAVIGAARELERRMPEQVTTNWWKEERGERIFVDFNQANRDRTIAGAYSPRALPNAAVSCPISWDELESVNPRDFTILTVPERLKTVGDPWADMNAKPGTIDTLLGWWERDLKDGLGELPFPPDYPKMPGEPPRVQPSRAKKQE	PGPT0014910_1123	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-17_02057	1926	ams	COG0366	Amylosucrase	ATGGTTGAATCCGCCAGTCTGGACCAGGCAGCGGGCCAGCAGCTGCTCAGTGCCGTCGCCGAGCAGGCGGGTTTTCCACAGGGCAGCCGGGAATGGGCAGACTTCGAGCGGCGGTTCGGCCGTTACTTCCCCGACCTGGCCCGGTTGTTCCACTCGCTGTACGGCTCTCGTCCGGACTTCCAGGAACAGCTGGAAACACTCGTCCTGGAGGCAGCCCTCTCGTGGAAGGAACGGCCCGCTGACCTGAAGGAGATCGACTCCCGCCGGGAAAGCAACAGCGACTGGTTCCAGTCCAACCGCATGCTCGGTGGGGTCTGCTACGTGGACCGGTACGCCGCCGATCTCGAGGGCGTCCGCGCACGGATTCCGTACTTCAAGGAACTCGGGCTCACGTACCTGCACTTGATGCCACTCTTCCTGGCCCCGGAACCGCTGTCCGACGGCGGCTATGCCGTGTCAAGCTACCGCGAGGTAAACCCCAAACTCGGGACGATGGAGCAGCTCCGCGACCTTGCGGCTGAGCTGCGTGCCAACGGCATCAGCCTCGTGGTCGACTTCATCTTCAACCACACGTCCAACGAACATGAGTGGGCCCGCAAGGCCAGTGCCGGCGATCCGCGCTACAGCGACTACTACTGGATCTTTCCCGACCGCACCATGCCCGATGCCTTCGAGCAGAACGTCCGGGAAATTTTTCCGGAGGACCACCCCGGCTCGTTTGTCCAGCTGCCGGACGGACGCTGGGTGTGGGCCACATTCCACACGTTCCAGTGGGACCTGAACTATTCGAATCCGGAGGTCTTCCGAGCGATGGCCGGCGAGATGCTCTTCCTCGCCAACCAGGGCGTAGACATCCTGCGCATGGACGCCGTGGCGTTTATCTGGAAGCAGCTCGGGACGACCTGTGAGAACCTGCCGGAGGCACACGCCCTGCTGCGGGCGTTCAATGCCGTCTGCCGGCTCGCGGCGCCCTCGCTGCTCTTCAAATCCGAGGCCATCGTCCATCCGGACGAAGTGGCCCTCTACATTGATCCGGCTGAATGCCAGATCTCCTACAACCCGCTGCAGATGGCGCTCATCTGGGAGGCCCTGGCCACCCGGGACGTTTCACTGCTCGCCCAGGCCTTGGAGCGCCGCCACAACATCCCGCCCGGAACCTCCTGGGTCAACTACGTGCGCAGCCATGACGACATCGGCTGGACATTTGCCGATGAGGACGCCGCGGAACTGGGCATCAACGGCTTCGACCACCGCCGCTTCCTAAACTCCTTCTACGTCAACCGATTCCCCGGGAGCTTCGCCCGCGGGGTGCCGTTCCAGGACAACCCGCGCACGGGAGACTGCCGCATTTCCGGAACCACGGCGTCACTCTGCGGGTTGGAGGACGGCTCGGTGGAAGCCATCCGGCGGATCCTGCTCGCCCATTCGGTAGCCTTCAGCACCGGAGGCATCCCCTTGCTCTATTTGGGTGACGAAGTGGGCCAGCTCAACGATTATGACTACGCCCTTGAGGAAGGCCATGGTGCCGACAGCCGCTGGGTGCACCGTCCGCAGTTCCCCGCCGAGCGGTACGCCAACCGGAACGATCCGTCCACTCCCGAAGGGGCGATCTACGCCGGACTGCGGAAGATGACGGGAGTGCGGGCCGCCACACCCGAACTGGCCGGAACGCGCCTGATTCCTTTCGCCACCCACAATCCCGGCGTGCTGGGCTACCAGCGGCCCGGGGAAGGGTCCCGGATCCTCGCCCTCGCGAACTTCAGCGACGGCCCGCAGGTGATTTCCGCCGAGACACTGTCCGGTTTCCAGGCGGAGGCCGTGGACCTGTTCACGGACCAGCCGGTGCGCATCAATGAGGGCATAGTGCTGCGGCCGCAGGACTATGCATGGCTGAGAGTGGTGCCGGAGGCCCATGCAGATTCCTGA	MVESASLDQAAGQQLLSAVAEQAGFPQGSREWADFERRFGRYFPDLARLFHSLYGSRPDFQEQLETLVLEAALSWKERPADLKEIDSRRESNSDWFQSNRMLGGVCYVDRYAADLEGVRARIPYFKELGLTYLHLMPLFLAPEPLSDGGYAVSSYREVNPKLGTMEQLRDLAAELRANGISLVVDFIFNHTSNEHEWARKASAGDPRYSDYYWIFPDRTMPDAFEQNVREIFPEDHPGSFVQLPDGRWVWATFHTFQWDLNYSNPEVFRAMAGEMLFLANQGVDILRMDAVAFIWKQLGTTCENLPEAHALLRAFNAVCRLAAPSLLFKSEAIVHPDEVALYIDPAECQISYNPLQMALIWEALATRDVSLLAQALERRHNIPPGTSWVNYVRSHDDIGWTFADEDAAELGINGFDHRRFLNSFYVNRFPGSFARGVPFQDNPRTGDCRISGTTASLCGLEDGSVEAIRRILLAHSVAFSTGGIPLLYLGDEVGQLNDYDYALEEGHGADSRWVHRPQFPAERYANRNDPSTPEGAIYAGLRKMTGVRAATPELAGTRLIPFATHNPGVLGYQRPGEGSRILALANFSDGPQVISAETLSGFQAEAVDLFTDQPVRINEGIVLRPQDYAWLRVVPEAHADS	PGPT0018825_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_SUCROSE_METABOLSIM|DEGRADATION,PGPT0018825-suxB|ams-K05341	NA	NA
D1-17_02058	681			hypothetical protein	ATGCAGATTCCTGAACTACCCATCACCGAATTACCGGTCACCGTTGCGGTAGGCGACGTCCATGTTTCGGGGCTCTACGCCCGCCCCTCCGTCCCTCGCGCCACGCTGGCCGTTGCGCACGGCGCGGGCGCGGGTATGGAGCATCCGTTCCTGAGCGGCTTCACGCGGGCGTTGTACGACGATGGCGTCGCCACCTTGCGCTTCAACTTCCCCTACCGCGAGGCCGGCAGGAAGTTTCCCGACCGGCCGCCGGCGGCCATCGCCACCTGGCGGGCCGTCATGGACGCCGCCCGTGAACGGTCGGACGGCGAGCCCCTCTGGGCTGCAGGCAAGTCCTTCGGCGGCCGCATGGCGTCGATGGCCGTTGCTGAGGGGATGCCCGCCGCCGGGCTGGTTTACCTCGGGTATCCGCTGCACCCGCCCGGAAAACCGGAGAAGCTGCGGGATGAGCACCTGTATGGTCTGACACTGCCGATGCTATTCCTGCAGGGCACGCGCGACACCTTCGCGACGCCGCAGCTGCTCGAGAACGTGGTGTCCCGCATCGGACCCAACGCCGCCCTGCATTGGTGCGACGGCGGCGACCACTCCTTTGCCGTGGCAGGAAACAAGCGCGGAGCGGCCGAGATCGGCGCATCTCTGGCCGCCCCCGTGGCCAAGTTTCTGCGCGCCAACAGCTGA	MQIPELPITELPVTVAVGDVHVSGLYARPSVPRATLAVAHGAGAGMEHPFLSGFTRALYDDGVATLRFNFPYREAGRKFPDRPPAAIATWRAVMDAARERSDGEPLWAAGKSFGGRMASMAVAEGMPAAGLVYLGYPLHPPGKPEKLRDEHLYGLTLPMLFLQGTRDTFATPQLLENVVSRIGPNAALHWCDGGDHSFAVAGNKRGAAEIGASLAAPVAKFLRANS				NA	NA	NA	NA	NA
D1-17_02059	2187		COG0480	Elongation factor G-like protein	ATGGTCATGTCCGTGAAAGGAAGCAATGGCCGGGGCAAGGCCCCCGGCCGCGGCAGTTCGGATCTGCGGGGAGCCGAAGCTGCTGCGGGAGCGCCGGTTGATTCGCCCGAAAAGGTGCGCAACGTGGCCCTGGTCGGGCATTCGGGGGCAGGAAAGACCCTGCTGCTCGAGGCTCTGCTGGCGGCCACGGGCGTCATCTCCAGGAAGGGCACAATCGAGGACGGCAACACCGTCAGTGATGCAGAACCGTCTGAAATCCACCAGCAGCGCTCGGTGGTCCTGTCGGTGGCGCCGCTGGTGGCCGACGGCATCAAAATCAACATTCTCGACACTCCCGGCTACGGTGACTTCACCGGCGAGCTGCGCGCCGGACTCAGGGCGGCAGACGCCGTGCTGTTCGTCGTGTCCGCCTTGGAGGACATCGACGCCGCCACCACAGCCCTGTGGGCCGAGTGCGACCAGGTGGGAGTGCCGCGGGCAGTGGTGATCAGCCGGCTGGATCATCCGCGGGCGAACTTCGACGCGGCCCTGGCCGCATGCCGGCGCGCCTTCGGTGACGGCGTTGTGCCCGCTTATCTGCCTGTCCGCACAGGGGAAGCCGTCACCGGCCTGCTGGGACTGCTCTCCGGGACGGTTTCGGACTACTCCGCCGGGGACGCTGTGCCTGCGGTGCGTGCGGCGACGCTCGAGGAACTTTCCGATTCGGAGGAGGCCCGGGGGTCGCTCATCGAGGGAATAATCTCGGAAAGCGAAGACGAGACGCTGATGGACCGCTACCTCGGCGGTGAGGACATCGACGTCGACGTCCTCGTAGCGGACCTGGAGACAGCGGTGGCCCGCGGGTCCTTCTTTCCCGTGCTCGCTGCGTCCGCGGTAACCGGACTGGGGCTGGCCGAGCTGCTGGACATGCTGACCCGGGCCTTCCCGTCGCCGGCGGAACGGCCGTTGCCGGAGGCCACGGACCTGTCCGGGGCTCCTGCCGGACAGTTGACCTGCGATCCGGAAGGACCTTTGGCAGGTGAAGTCGTGCGCACCACCATCGATCCGTTCCTGGGACGGGTATGCCTGGTCCGAATCTTCTCCGGCACCTTGCGGGAAGATTCCGCGGTACACGTGGGAGGCCGCGGCCTGGCTGAACGCGGCCACGAGGACCACGACAGCGACGAGCGCCTCACACACCTATACGCGCCAGTCGGAGCGAGTCTTAAGCCGGTGCCTTACTGCATTGCCGGGGACATCTGCGCAGTGGCCAAGCTGGCCAACGCGGAGACCGGGGACACCATTTCCGCCAAAGACCGGCCGTTGCTGGTGGAGTCGTGGGACATGCCCGAGCCGCTGATGCCCTTGGCCGTCGAAGCAGCGACCCGCAGCGATGAGGACGCCCTCGCCAAGAGCCTCGGGAAAGTTGCGGCCGGAGACCCGACCCTGCGCGTGGAACGCAACCCAGAAACCCATCAGCTGATCCTGTGGTGCATGGGGGAGGCCCACGGCGAGGTGGTGCTGGACCGGCTGCGCGACCAGGGGGTGAAACTGCAGACGGTGCCGGTGGTCACGCCGCTGCGGGAAACCTTCGCCGCACCCGCCGCAGGGCATGGGCGCCATGTCAAACAGTCAGGTGGCCACGGCCAGTACGCAATCTGTGACATTGAAGTTGAGCCGCTGGACCGTGGCGGAGGATTCGACTTCATCGACAAGACCGTGGGCGGTGTGGTCCCTGGCCAGTACATTCCGTCGATCGAAAAGGGCATTCGGGCCCAAATGCAGAAAGGTGTCTCTGCGGGCTACCCGATGGTGGACATCCGGGTGACGCTGGTGGGCGGCAAGGCCCACAGCGTCGACTCGTCGGACGCCGCCTTCCAGTCTGCTGGAGCGCTGGCCCTGCGGGAAGCTGCCGCCGCCGGCCGGATCCAGCTGTTGGAGCCAGTCTCGTCGGTGACCATCAGCATTCCGGACGAGTACGTCGGGCCGGTGATGAGCGACCTGTCGTCCCGCCGCGGCAGGCTGACGGGCACGACGTCGGCAGGAGGCGACCGCACGGAGGTCACCGCCGAGGTGCCCGACGACGAACTCTTGCGGTACGCCGTCCACTTGCGTGCGTTGACGGCCGGGACCGGCCGCTTCCGGCGCAGCTACCTGCGGCACGAACCGGTGCCGGGCAACGTGGCGCCCGCGGCGGCCAACGCCTGA	MVMSVKGSNGRGKAPGRGSSDLRGAEAAAGAPVDSPEKVRNVALVGHSGAGKTLLLEALLAATGVISRKGTIEDGNTVSDAEPSEIHQQRSVVLSVAPLVADGIKINILDTPGYGDFTGELRAGLRAADAVLFVVSALEDIDAATTALWAECDQVGVPRAVVISRLDHPRANFDAALAACRRAFGDGVVPAYLPVRTGEAVTGLLGLLSGTVSDYSAGDAVPAVRAATLEELSDSEEARGSLIEGIISESEDETLMDRYLGGEDIDVDVLVADLETAVARGSFFPVLAASAVTGLGLAELLDMLTRAFPSPAERPLPEATDLSGAPAGQLTCDPEGPLAGEVVRTTIDPFLGRVCLVRIFSGTLREDSAVHVGGRGLAERGHEDHDSDERLTHLYAPVGASLKPVPYCIAGDICAVAKLANAETGDTISAKDRPLLVESWDMPEPLMPLAVEAATRSDEDALAKSLGKVAAGDPTLRVERNPETHQLILWCMGEAHGEVVLDRLRDQGVKLQTVPVVTPLRETFAAPAAGHGRHVKQSGGHGQYAICDIEVEPLDRGGGFDFIDKTVGGVVPGQYIPSIEKGIRAQMQKGVSAGYPMVDIRVTLVGGKAHSVDSSDAAFQSAGALALREAAAAGRIQLLEPVSSVTISIPDEYVGPVMSDLSSRRGRLTGTTSAGGDRTEVTAEVPDDELLRYAVHLRALTAGTGRFRRSYLRHEPVPGNVAPAAANA				NA	NA	NA	NA	NA
D1-17_02060	2793	hrpB	COG1643	ATP-dependent RNA helicase HrpB	ATGCTTTCCTTGCCCGTTCCTCCTGAGTCAGCGCCTCCCTCCGGCCCCTTCGACCTGGCCGCGATCGGTGCCGGCCTGGTCTTTGCGGACTCGCTGGGCCTGCTCGCCGCCGCCCTGAAAGTGCGCAGTGCGCCTAAACCACACAGTGCCTCTAAACAGCGCAGTGCCTCTCCGTTCAGCAACGGGGCGGGCGGTACCGCCATCGTGCAGGCGCCGCCTGGAACCGGAAAGACCACCCTGGTTCCGCCGCTGGTCGCCAACCTCCTGTCCGGCGTTTCCGGGCAGGAGGTGCAGCTCCCGCGCGTCGTGGTGACCCAGCCACGCCGTGTGGCTGCACGTTCGGCGGCGCGGCGCCTCGCCTCCCTGGACGGCAGCCGGCTGGGGGAGCGGATCGGATACACAGTGCGGGGTGAGCGCAAGGCCGGAGCGGGCACCCTCATAGAGTTCGTCACCCCCGGCATTCTGTTGCGCCGGCTGCTCTCCGATCCGGGGTTGGAGGGCACGGCCGCCGTAATCCTCGACGAAGTCCACGAGCGAGGACTGGAGACCGACCTCCTGTTCGGCATGCTCTCCGAGGTCCGACAGCTGCGCGGTGACCTCACTTTCGTCGCCATGTCCGCGACACTGGACGCAGCGCGGTTCGCCGCACTGATGGGCTGCGGCTTAATTGACGCCTGCCAAACAGGCAAAACACCTGACGGTGAGTACGACGACGGCGACGGGCCCGCTCCCGTCGTCCACTGCCCGTCCGCGCTGCACCGGCTGGAGGTGGAGTGGGCACCCGCCCCGGTGCCGCGGCTTGATGAACGCGGTGTAACCCGCGGTTTCCTTGACCACGTGGCAGCCACGGCAGCTGCGGCGCACGCGTCGGCGCTGGACAAGAACCCGGGCGCAGACGCTCTGGTGTTTCTCCCCGGCGCGTGGGAGGTGTCCCAGGTGGCAGCCCGGCTGCGCGGCAGCGTCTCGGCGGACGTGCTGGAGCTGCACGGCCAGGTATCCCCGGCCGAGCAGGACCGGGTGGTCTCCGGGCGGGAGTCGGGAGGCCCGGCACGGATCATCATTTCGACAGCCTTGGCCGAGTCCTCACTGACCGTGCCCGGCGTCCGGCTGGTCATTGACGCCGGCCTGTCCCGCGAGCTCCGCCGCGACGCGGCCCGCGGCATGTCCGGCCTGGTGACTGCCTCCTGCTCGCGGGCGTCTGCGGAGCAGCGGGCCGGCCGCGCCGCCCGCCAGGGACCCGGAACCGTGGTCCGCTGCTATGACCAGAAGGCCTTTGGCGCCGCTCCAGCCCACCCCACACCGGAGATTGCCGCGGCTGATCTCACCGGAGCCGCATTGCTGCTCGCCTGCTGGGGGTCGCCGCGCGGCGAAGGAATGCCGCTCCCGGACGCCCCGCCCAAGGCTGCAATGGACGAAGCGGTGGAGGTGCTGCGGGAACTCGGCGCGGTGGAGCCCGACGGCCACGCCACGGAGCTCGGCAAAATCCTGGCGGGAATCCCCGCAGACCCCCGCCTGGGACGTGCCCTGCTGGCGGGGGCCGCCGCCGTCGGACGCCGGACTGCGGCGGAAATAGTCGCCATCGTGTCCGGTGACTACCGGGCGCCCGGCGCGGACGTCCCGGGTCTGCTGGCATCACTGCGGTCCGGCAAGGATCCGGCATCCACTCGTTGGGCTGAGGAGGTCCGGCGGCTGGAGGCCATCACACGCAGGGAAGGCTCCGTCGGCCACCGGCCCGCTGGCACCGCAGCTGCGGCCGCCAACACCACTGCCCCGGCCATCACCGCTGCGGCTGCTGGTGCCGCTGAGGCTGCCGGTTTCGTCGTCGCCCTTGCTTTTCCTGATCGGGTGGCGCGCCGGGTATCGGGCGGGGGACCGGAGCGCTACCAGTTGACCTCCGGCACGCGGGCGGGCCTTCCGGCTGGTAGCCCGCTGTCAGGGCACGAGTGGCTCGCTGTCGCGGAGGTCGCGCGGGCGGAAGGACGGGATGCCGCCGGGACAGGTGCCGTCATCCGCTCCGCCGCGCCGCTCACCCCTGAGCAGGCCGAAGCGGCTGCACGGCAGTTGCTGGATGAGACTGTGGAAGCGCAGTTCAACCAGGGCAGGATCTCCGCCCGGAGGGAACGGCGGCTGGGGGCCATTGTCCTTGCCTCCACGCCGGTAAAACCCTCCGCAGAGGAGGGGCGGACTGCCGTAGCCCGCGCTCTAAAACGCGAAGGTCTGCAGGCCATCGGATGGTCGACGGCGGCGGATGCCCTGCGCCGCCGGCTCGCCCTGCTGCACCGGGAACTGGGGGACCCCTGGCCGGAGGTGTCCGAGGAGGCGCTGTTATCCAGGCTGGAGGAGTGGCTCGCTCCGGAACTGGAAGCGCTTGCAGGGGGAACGGCCGCAGACAGGATCGATCTTGCGGATCCGCTCCGGCGGCTGCTGCCGTGGCCTGAGGCCTCCCGGCTGGACGAGCTTGCCCCGCAGGCACTGAAGGTGCCCAGCGGGACGAGTGTACGGATCGACTACCCGGACGTCAACGACGGCGGCCGCCCGGTGGTGGCGGTGAAGCTGCAGGAATGCTTCGGCTGGGCTGGAACGCCGCGGCTGGCGGACGGGAAGGTGCCGGTGCTGTTCCACCTTCTGTCGCCTGCGAGGCGCCCCTTGGCCGTGACGGACGACCTCGCTTCCTTCTGGTCTGGCCCTTACGCGCAGGTCCGGGCGGAAATGCGGGGCCGCTATCCGAAGCATCCGTGGCCCGAGGACCCGTGGTCGGCTCCGGCCACGTCCCGGACCAAGGCAAGAATGTAG	MLSLPVPPESAPPSGPFDLAAIGAGLVFADSLGLLAAALKVRSAPKPHSASKQRSASPFSNGAGGTAIVQAPPGTGKTTLVPPLVANLLSGVSGQEVQLPRVVVTQPRRVAARSAARRLASLDGSRLGERIGYTVRGERKAGAGTLIEFVTPGILLRRLLSDPGLEGTAAVILDEVHERGLETDLLFGMLSEVRQLRGDLTFVAMSATLDAARFAALMGCGLIDACQTGKTPDGEYDDGDGPAPVVHCPSALHRLEVEWAPAPVPRLDERGVTRGFLDHVAATAAAAHASALDKNPGADALVFLPGAWEVSQVAARLRGSVSADVLELHGQVSPAEQDRVVSGRESGGPARIIISTALAESSLTVPGVRLVIDAGLSRELRRDAARGMSGLVTASCSRASAEQRAGRAARQGPGTVVRCYDQKAFGAAPAHPTPEIAAADLTGAALLLACWGSPRGEGMPLPDAPPKAAMDEAVEVLRELGAVEPDGHATELGKILAGIPADPRLGRALLAGAAAVGRRTAAEIVAIVSGDYRAPGADVPGLLASLRSGKDPASTRWAEEVRRLEAITRREGSVGHRPAGTAAAAANTTAPAITAAAAGAAEAAGFVVALAFPDRVARRVSGGGPERYQLTSGTRAGLPAGSPLSGHEWLAVAEVARAEGRDAAGTGAVIRSAAPLTPEQAEAAARQLLDETVEAQFNQGRISARRERRLGAIVLASTPVKPSAEEGRTAVARALKREGLQAIGWSTAADALRRRLALLHRELGDPWPEVSEEALLSRLEEWLAPELEALAGGTAADRIDLADPLRRLLPWPEASRLDELAPQALKVPSGTSVRIDYPDVNDGGRPVVAVKLQECFGWAGTPRLADGKVPVLFHLLSPARRPLAVTDDLASFWSGPYAQVRAEMRGRYPKHPWPEDPWSAPATSRTKARM				NA	NA	NA	NA	NA
D1-17_02061	387			hypothetical protein	ATGCTCAAGGAACGTGAAGTGCTTGCCGTACTTCCGGCGAAGGACATTGCCAGGGCGCGGGATTTCTATCGGGACGTCCTGGGGTTAGAAGCTCCTGATGAGCTGGACAACGAGAACCTGCTCTACCGCTGTGGAAATGGAACATCTTTCCTGCTGTACCAGACTGACAACGCGGGGACAGCGAAAAACACGCAGTTGAGCTGGGGGACGGACAACCTGGAGCGGGAGATGGAGGAGCTGCGGGGCCGGGGCGTAGTTTTTGAGGAGTACGACTTCCCGGGTTTGAAAACAGAGAACGGCATCGCCACCAGCAGCGCCGGCAAGGCTGCCTGGTTCACGGACACGGAGGGCAATATCCTCAGCCTTTTCCAGTACGAGCGCCCATAG	MLKEREVLAVLPAKDIARARDFYRDVLGLEAPDELDNENLLYRCGNGTSFLLYQTDNAGTAKNTQLSWGTDNLEREMEELRGRGVVFEEYDFPGLKTENGIATSSAGKAAWFTDTEGNILSLFQYERP				NA	NA	NA	NA	NA
D1-17_02062	1650			hypothetical protein	ATGTCAGTGGTTACCCTCACACTTTTATTTATGGATGGAAACGAGGAACCGCAGCTGACAGCGGCAGACGCCGGTGCACCCCGTGCCGCGCCTGCATCCGCCGGTGCCATGGAGCCCGTTCTCGCACGTGCCGCCGTCTCCGGTGCCGCTGTTCCCGGTGCTGCCATCCCTGTCCCCGGCGCTGTCGTCCTCGGTGCTGTCGTCCCGCGTGCTGTCGTCCCGCGTGCTGTTGTCCCGGGTGCTGTTTCCGGGCTCACCGTGGAGGAGTGGATCGCCGCTGCCGGCTCGGTGCGGTTGCCCGCTGATGGTGGCGGTTTGATCGATGAACTGCGCCGGCTCGAGGACGCGAAATCGGCGTTCTCGGCCATGCAGGTCCGGATCAGTGTTGCCTTCGACGCCGCCCAGCGCCGCGCCCAGGCGGAGGCCGGGGTCCCTCCCGCGGAGCGGGGCGAGGGCGTCGCCGCGCAGATCGCCCTCGCCCGGCGCGAGTCACCCAACCGGGGAGGCCGCCTGCTCGGACTGGCAAAAGCCCTCGTGACCGAAATGCCCCACACCCTCGCCGCCCTGGAAACAGGACAACTCAATGAATGGCGCGCCACCCTCCTGGTGAAAGAAACCGCCTGCCTGTCCGCGGAGGACCGCTGCGCCGTCGACGAAGAACTCGCCCCCGACACCGGCACCCTCGCCGGGATGGGCGACCGCACCCTCGTCGCCGCGGCCAAAGCCGCCGCCTACCGCCGGGACCCCCACTCTGTCGTTAAGCGCGCCAGCCACGCCGTGACCGATCGGACCGTGAGCCTGCGCCCGGCCCCGGACACCATGACCTACCTCACGGCCCTGCTCCCCGTCGGCCAGGGCGTCGCCGCGTACGCCGCGCTCAGCCGCCACGCCGACACCGCCCGCTCCGGCGGGGACCAGCGGACCCGCGGCCAGCTCATGGCCGACACCCTCATCGAACGCACCACCGGCACCCGCGGCGGCATCACCGGCGTGGAGATCCAGCTCCTCATGACCGACCGCACCCTCCTCCACGGCGATAGCGAACCCGCCCGCCTCACCGGCTACGGAACCGTCCCCGCCGGCTGGGCCCGCCGACTGATCAGCGCCAGCGGGGAGGCCGATGCGGGCGAGGATGACAACGCCGGCGGTGGCAAGCAGGACCAGAACCATGGACCACGTGCCCAGAGGCAAGCCCAGCAGGAGCAGACGCTCAAGGCCTGGGTCCGGCGGCTCTACACCGCCCCCGGAACCGGTGAACTCATCGCGATGGACTCCCGGGCACGGCTCTTCCCGCCCAGGCTGCGGCGGTTCATCCAGGCCCGCGACGACACCTGCCGCACCCCCTACTGCGACGCCCCCATCCGCCACATCGACCACATCATTCCCTGGCACGACAACGGGACCACCACCACGGCTAACGGCGCCGGACTGTGCGAAGCCTGCAACCACACCAAAGAACACCCCGGCTGGCAAACCAGCCCACGGCCAGGACCACGGCACACCATCGAACTCCGAACCCCCACCGGCCACACCTATCACTCCACAGCACCCCCACTCCCCGGGGACCGGCACCCTCCTAAAGCCAGCATCACCACCGAGCAACCGGCAACAGAGCGACTGGCCACAAAACGGCTCGCCCGCGCTTCCTGA	MSVVTLTLLFMDGNEEPQLTAADAGAPRAAPASAGAMEPVLARAAVSGAAVPGAAIPVPGAVVLGAVVPRAVVPRAVVPGAVSGLTVEEWIAAAGSVRLPADGGGLIDELRRLEDAKSAFSAMQVRISVAFDAAQRRAQAEAGVPPAERGEGVAAQIALARRESPNRGGRLLGLAKALVTEMPHTLAALETGQLNEWRATLLVKETACLSAEDRCAVDEELAPDTGTLAGMGDRTLVAAAKAAAYRRDPHSVVKRASHAVTDRTVSLRPAPDTMTYLTALLPVGQGVAAYAALSRHADTARSGGDQRTRGQLMADTLIERTTGTRGGITGVEIQLLMTDRTLLHGDSEPARLTGYGTVPAGWARRLISASGEADAGEDDNAGGGKQDQNHGPRAQRQAQQEQTLKAWVRRLYTAPGTGELIAMDSRARLFPPRLRRFIQARDDTCRTPYCDAPIRHIDHIIPWHDNGTTTTANGAGLCEACNHTKEHPGWQTSPRPGPRHTIELRTPTGHTYHSTAPPLPGDRHPPKASITTEQPATERLATKRLARAS				NA	NA	NA	NA	NA
D1-17_02063	588			hypothetical protein	ATGCGTGGTCTTCCGCGCATCACTGTGGAGGTACCGGTACTGAGCATCGGGTCCCGGCCCACTGACTACGAGGAACTGGGTAACTACGTCAATGGCCTGCGCAGAGAGCAGGGCCTGCACATGACCCTGCTGCACATCGGCATCTTGCCGGATTTCGTCCAGGACATCTCCGACTGGACCAAAGGCCTGACCCCCGCTGAAGTGGCCACCCGGCGGACGGCGGCATGGCTGCGGGAACTTCCGGTACTGCCGGGCTTCTCCGGAACCGCCGAACGCCTGATTTCGCTGGCCGGAGGGAACGTGTCCGGCCTTGAGGTCCACGTGCCCCAGCATGTCCATGATTACCAGGTCTTTCTGGTGCAGGCACTCCATGGACTGTTGGAAGAGCTGCAGGTGGACAACGTCGATGACTTCATCCTGAGCTCGCCCGCCCTAGGCTTCAGATACCCGCGGTGGGTTCCCCACGTGGCAGTCGGCCGTCCGAAAACCAGGAGTGGCGGCTTTTGGGAGATCCGGCCGCTGACCGTTGATTTTGGCCGGTCGCAGATCAGAAACGGCCGTTCGCTGCCGGCCGCAGGCGACATGTGA	MRGLPRITVEVPVLSIGSRPTDYEELGNYVNGLRREQGLHMTLLHIGILPDFVQDISDWTKGLTPAEVATRRTAAWLRELPVLPGFSGTAERLISLAGGNVSGLEVHVPQHVHDYQVFLVQALHGLLEELQVDNVDDFILSSPALGFRYPRWVPHVAVGRPKTRSGGFWEIRPLTVDFGRSQIRNGRSLPAAGDM				NA	NA	NA	NA	NA
D1-17_02064	1827	ggt	COG0405	Glutathione hydrolase proenzyme	ATGCCCTATATCAAGCGTCGCCTGGCTGCCATCACGGCGGCTGTGGCCATGAGCGTGACAGGTGGGGCGGTCAGCAGCCCCGCATTCGCCGATGAGCGGGTAACTGAGAAAACCGCGACTGCCAGAGGCTACGGCGGGGCGGTCAGCACCGTTGATCCGGAGGCCTCTGCCGCTGCGATCGAAGTCCTGCGCGACGGCGGCAACGCAGCGGATGCGGCGGTGGCCGCTGCCGCCACTCTGGGAGTCACCGAACCCTACAGCGCCGGGATCGGGGGAGGCGGCTACTTCCTGTTCTACAACGCCAAGACGGGCCGGGTCGGCACGATCGACGGCCGCGAGACGGCGCCGGCAGCGATGCCGCGCAACGCGTTCATCGATCCAAAGACGGGGAAACCCTACAACTTCACTCCTGAACTCGTCACGAGCGGCGTCTCCGTCGGCGTGCCCGGAACTCCCGCTACCTGGGAGCGGGCGCTGAAGCGCTGGGGAACCTTGGGCCTCGACGATGTCCTCGAGCCCGCGATCGACGTGGCGACCCGTGGCTTCGTGGTCGATGAAACATTCCGCCAGCAGACACTCGACAACAAGGTCCGTTTTGAGGCGTTTACCTCGACGAGCAAACTTTTCCTCCCCCGCGGTGACGCGCCCGCCGTCGGAAGCATTTTTAGGAGCCCAGACCTTGCCAGAACGTACAAGCTCCTCGCGGATAAGGGCACGCGCGCTTTCTACCACGGGCAGCTCGCGAAAGAGATCGTAGCCGCGGTCAAGGCGCCGCCTAAGACTGCTACGACGAGGCTGCCTGTCCCGCCAGGCCACATGACGACGGCGGATCTCGCCCGCTACCGTGCTCTCAATCAGGCGCCCACACATGTTGATTACCGGGGCTTTGATGTCTACGGCATGGCACCGTCCAGCAGCGGCGGCACCACGGTGGGCGAGGCGCTGAACATCTTGGACACGTTCAATATTGCCAAAATGTCCACCCGCGACGCCCTGCATCACTACCTTGAGGCCAGTGCCCTCGCATTCGCGGACCGGGGCAAGTACGTGGGCGACCCGAAGTTCGTTGACGTTCCCACCGCCGAGCTCACGGACCAGCTGTTTGGCAAGGAGCGCTCCTGCGCCATTGACCCGAAGCTTGCGGCTAAGAAGCCCGTCGCGCCGGGCGATGTGGCCAACTACGACGGCGCGTGCCCCGCTGCCGCCGCGTCCGTGGCCGATGAGAAGGACACCGAGAACATCTCCACCACCAACCTGACCGTCGCTGACAAGTGGGGGAACGTGGTCGAATACACGCTCACCATTGAGCAGACCGGCGGGTCCGGGATCGTGGTTCCGGGCCGGGGGTTCCTGCTCAACAACGAGCTGACGGACTTCTCAACCGTGTACGATCCGAATGACCCGAACCGGATCGAACCAGGGAAGCGCCCTCGCTCTTCGATGTCGCCGACCATCATCCTTGATGAGGGAAAGCCGTTCCTCGCGCTGGGTTCGCCCGGCGGCTCGACCATCATCACCACGGTTCTGCAGACGATCCTAAACAGGGTGGACCGCGGAATGACCATCTCCCAGGCGATTGCTGCCCCCCGGGCGGCGCAGCGGAACACGCCCAACGTCACGGCGGAGCCGGCCTTCATTACAGCATATGGAACCCGGCTGGCGCCGTATGGTCACAAGCTGGCGCCGGCGGGTGATGCCTTCACCTCCGCCGCCGAGATTGGCGCAGCCACCGCAATCGAATTCAAACCCGACGGCAGAATGATTGCCGCAGCTGAGCCTGTCCGGCGCGGAGGCGGGTCTGCGATGGTGGTCAAGCCCTCCCGGTGA	MPYIKRRLAAITAAVAMSVTGGAVSSPAFADERVTEKTATARGYGGAVSTVDPEASAAAIEVLRDGGNAADAAVAAAATLGVTEPYSAGIGGGGYFLFYNAKTGRVGTIDGRETAPAAMPRNAFIDPKTGKPYNFTPELVTSGVSVGVPGTPATWERALKRWGTLGLDDVLEPAIDVATRGFVVDETFRQQTLDNKVRFEAFTSTSKLFLPRGDAPAVGSIFRSPDLARTYKLLADKGTRAFYHGQLAKEIVAAVKAPPKTATTRLPVPPGHMTTADLARYRALNQAPTHVDYRGFDVYGMAPSSSGGTTVGEALNILDTFNIAKMSTRDALHHYLEASALAFADRGKYVGDPKFVDVPTAELTDQLFGKERSCAIDPKLAAKKPVAPGDVANYDGACPAAAASVADEKDTENISTTNLTVADKWGNVVEYTLTIEQTGGSGIVVPGRGFLLNNELTDFSTVYDPNDPNRIEPGKRPRSSMSPTIILDEGKPFLALGSPGGSTIITTVLQTILNRVDRGMTISQAIAAPRAAQRNTPNVTAEPAFITAYGTRLAPYGHKLAPAGDAFTSAAEIGAATAIEFKPDGRMIAAAEPVRRGGGSAMVVKPSR	PGPT0002935_983	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-17_02065	1371			hypothetical protein	ATGAAAAGGGCCGCTCTGGCGGCTTCCTGCCAGCGGGACGAGAATGGGCTGGTGCCTTCCCCTCGCCCCAATGGGGGCGGCGCCACCATGAACGCCGGCGCCCGCAAGATCCAGCGCGTCTACCTGACGTTGACGCTGGGCAATACGGTTGCGGCTTCGTTCATCTGGGGCATTAACACGCTGTTCCTGCTCGACGCCGGGTTGAGCAACTTTGAGGCCTTCGCCGCGAACGCGTTCTTCACCGCCGGCATGGTGCTGTTCGAGGTTCCTACCGGTGTCATCGCCGACGGATGGGGGCGCCGGGTTTCGTTCCTGCTGGGCACCCTCACACTGGCTGGATCGACGTATCTCTATTACATGTTGTGGCAGCTGTCCGCCCCGTTCTGGTCGTGGGCGGTGGTGTCTGTGCTGCTTGGTCTGGGATTCACGTTTTTCTCAGGGGCCGTAGAGGCATGGCTCGTCGACGCTCTGCGCTTCTCTGGGTATGAAGGCGGGCTGGAAGCAGTGCTCGGCAGGGGGCTGATGGTGCAGGGCGCTGCAATGCTCCTCGGTTCGGTGGCGGGTGGCGTGGTGGCGCAGGCCACCGACCTCGGCTGGCCGTTCCTGCTGCGCGTGGGCGTGCTGGTGGCCATGTTCCTCGTGGCCTTCTGGCTCATGCACGATGTGGGCTTCACGCCAGAACGCTCCGCCCATCCCCTCCGGGCAACCCGCAGCGTGCTCTCCGCCTCCATCGAGAACGGGCTGAAAAACCCTCCGGTGCGCTACGTGATGCTGGCCGCCCCATTCAGCTCAGGCGTGGCGATCTACGTGTTTTATGCCCTGCAACCGTATCTGCTCGGGCTCTTTGGCGACCCCGGCGCGTACTCCATCGCCGGCCTGGCGGCGGCGCTGGTGGCCGGCGCGGAGATACTCGGGGGCTGGCTGGCCCCCCGTGTCCGCAGTCTTGTGCACAAGCGCACCACGGTATTGATGCTGAGCAGCAGCATGAGCGCGTTGATCCTGCTCACGCTCGGGCTCGTCCAGGTGTTCTGGGTGGCGCTGGTCCTTCTGGCGGTGTGGGCGCTGGTTGCCGCGGCGGGGACTCCGGTGCGGCAGGCTTACCTGAATGACATGATCGCCTCGAAGCAGCGCGCAACAGTGCTCAGCTTCGACTCACTCATGGGCTCAAGCGGAGGAGTGGTGGTGCAGCCCGCGCTGGGGCGCGCAGCCGACGTGTATGGCTACCCGGCCTCGCTGACCGTCAGCGGCCTGATCGAGCTGATCGCCGTGCCTTTCCTGCTGGCCAGCCGCCAGCAGCGGCACCAGGCGGACGATTCCTCGGGCGCATCAGACACGACGGACGCGAAGTCCCCGCCGTTGCAGGACTCCTGA	MKRAALAASCQRDENGLVPSPRPNGGGATMNAGARKIQRVYLTLTLGNTVAASFIWGINTLFLLDAGLSNFEAFAANAFFTAGMVLFEVPTGVIADGWGRRVSFLLGTLTLAGSTYLYYMLWQLSAPFWSWAVVSVLLGLGFTFFSGAVEAWLVDALRFSGYEGGLEAVLGRGLMVQGAAMLLGSVAGGVVAQATDLGWPFLLRVGVLVAMFLVAFWLMHDVGFTPERSAHPLRATRSVLSASIENGLKNPPVRYVMLAAPFSSGVAIYVFYALQPYLLGLFGDPGAYSIAGLAAALVAGAEILGGWLAPRVRSLVHKRTTVLMLSSSMSALILLTLGLVQVFWVALVLLAVWALVAAAGTPVRQAYLNDMIASKQRATVLSFDSLMGSSGGVVVQPALGRAADVYGYPASLTVSGLIELIAVPFLLASRQQRHQADDSSGASDTTDAKSPPLQDS				NA	NA	NA	NA	NA
D1-17_02066	2160			hypothetical protein	ATGACTGGATGGAATGCCGACACGGCTGCCGGGCCCATCGGGGCAGGCACGGTAACCCTGGTGGAGGGCTCATCCTTTTGCATATCGATGGCGAACGGGGACATTCATCCGGAACTCCCGCACGGGGCGTTCTTTGAGGACACCCGCATCCTGTCCCGCTGGAATCTGACGGTGAACGGCCAGCCGCTGGAGCCGCTGACGGCCGAGACGAAGGAGCCGTACCGCGCACTGTTTATTGGACGCGTTCCCCGCTCCGACGGGTACGCCGACAGTCCGCTGATCGTGGAGCGCCTCCGGGAGGTCGGTGCCGGCATCCTCGAAGAAATCACCATTCGCAACTACTCGCCCGATGAGGCCGAATGCGTTGTTACCCTGAGCGCAGAGTCGGATTTCGCAGATCTCTTCGAAGTGAAGGAGGCCCGCGTCCAGCGGCACTGGGAGGAGTCCCGCCAGCCCGGCGGCGACTCCCTGCTGATCAGGGCCGTCTGGCAGGACGTAACGAAGGGTGTCATCGTCATCGGAGGCGGCGCCGAGGTCACCGCCGATGCCCTGAGCTATCGGACAGTTGTCCCGGGGCGGGGCCAGTGGACCACGCAACTGAGCGTGGTCCCCACCGTCGGCGGCAGTGCGGTCCCGGCGTCGTCATTTATTGGACACGCCGGCGGTGAAGCATCGCCCAGCGACCGGCGCCGGCAGCAATGGGTAGCGAAAATCCCCAAGCTGCACATGGGCAACCGCTCCATTGAACGGACGCTGCGGCGCAGCTACGACGACCTCGGGGCCCTGCGGATTGAGGATCCGGCGCATCCCGAGCGGATCGTGGTGGCTGCCGGCGCGCCGTGGTTCATGACGCTCTTCGGCCGGGACGCACTCTGGGCCTCAGAAATGGCGCTTCCCGTGGACCCGTCGCTGGCGCTGGGCACCCTGCAAACACTGGCGGACCGCCAAGGCAGCGTGGTGGACCGGATGAGCGAGGAGGAGCCGGGGAAGATCCTGCACGAGGTCCGGCTCGGAGTCTCCAGCGGGCTGGCGTTGGGCGGCAAGTCCGTCTACTACGGCAGTATCGACGCCACACCCCAGTTTGTGATGGCGGTCGGTTCGGTGAGCCGCTGGGGTTTTGCCAAGGACACCATCACTGCGCTGCTGCCCCATGCGGACCGCGCACTGGACTGGATCCGGGATTACGGAGACAAGGACGGCGACGGTTTCGTCGAGTATGAACGCCTCAACGACCAGGGCCTTATTAACCAGGGCTGGAAGGACTCCTGGGACGGCATCAACTTCGCCGACGGAACGCTCGCCGAGCCTCCAATCGCGCTGTGTGAAGTCCAGGCGCTGGTGTACAGCGCGTACATGGCCCGGGCATGGATGGCGTACGACGCCGGTGACGCGCCTTTGGCTGCGCGGCTCGTCGACCAGGCAGCCCACCTCAAGAAACGCTTCAACGAAGAATTCTGGCTGCCCGACCGCGGCTACTTCGCCGTAGCCCTCGACGGCAAGAAGCGGCCGGTCGACGCATGCGCCTCCAATATGGGGCAGTGCCTGTGGCACGGCATTATCGATGAGGACAAGGTGCCGTTGGTTGCCGAACGGCTCATGGCCCCGGAGATGTTCAGCGGCTGGGGCGTCCGCACCCTGGCCAGCGACATGGGGGCATACAATCCCGCCAGCTACCACAACGGCTCAGTCTGGCCGCATGACAACGCCATCATCGCGGCGGGCCTGCTGCGCTACGGCTTCGTGAAGGAGGCTCAGCGCATCGCCTCGGCCCTGCTGGAAGCGGCCGATTTCAGTGACGGCCGGCTGCCGGAGCTGTTCTGCGGCTTCAGCCGGGACCAGGTGGCCGTGCCGGTGCCGTACCCGACGGCGTGCTCCCCGCAGGCCTGGGCAGCCACCACACCGATCATGCTCGTGACGAGCCTGATGCGGTACGACGCGCACGTGTCCAGGGGCGGCGTGTGGATGGATCCCGTCCTTCCGGAGTCCTACGGCGACCTCCACATCACCAACGCCCCGCTGGCCGGGGACCGGATCGCCATCGACATCACCGGTTCAGGCCCTTCCATCCAGGGGCTGCCCGATGGGATAACCTTCCACCGCGAGCACCGGCCCTGGCTGACAGAGCTCATGGAGCAGGCCGAACTGGGCCGAGAGAGCTAG	MTGWNADTAAGPIGAGTVTLVEGSSFCISMANGDIHPELPHGAFFEDTRILSRWNLTVNGQPLEPLTAETKEPYRALFIGRVPRSDGYADSPLIVERLREVGAGILEEITIRNYSPDEAECVVTLSAESDFADLFEVKEARVQRHWEESRQPGGDSLLIRAVWQDVTKGVIVIGGGAEVTADALSYRTVVPGRGQWTTQLSVVPTVGGSAVPASSFIGHAGGEASPSDRRRQQWVAKIPKLHMGNRSIERTLRRSYDDLGALRIEDPAHPERIVVAAGAPWFMTLFGRDALWASEMALPVDPSLALGTLQTLADRQGSVVDRMSEEEPGKILHEVRLGVSSGLALGGKSVYYGSIDATPQFVMAVGSVSRWGFAKDTITALLPHADRALDWIRDYGDKDGDGFVEYERLNDQGLINQGWKDSWDGINFADGTLAEPPIALCEVQALVYSAYMARAWMAYDAGDAPLAARLVDQAAHLKKRFNEEFWLPDRGYFAVALDGKKRPVDACASNMGQCLWHGIIDEDKVPLVAERLMAPEMFSGWGVRTLASDMGAYNPASYHNGSVWPHDNAIIAAGLLRYGFVKEAQRIASALLEAADFSDGRLPELFCGFSRDQVAVPVPYPTACSPQAWAATTPIMLVTSLMRYDAHVSRGGVWMDPVLPESYGDLHITNAPLAGDRIAIDITGSGPSIQGLPDGITFHREHRPWLTELMEQAELGRES				NA	NA	NA	NA	NA
D1-17_02067	939		COG0258	5'-3' exonuclease	ATGGTCCACCGCCTGATGCTGCTCGACACCGCGTCGTTGTACTTCCGCGCCTTCTACGGCCTGCCGGACACCATCCGCCGCGCCGACGGGACGCCCGTGAACGCCGTCCGCGGCCTGCTCGACATGATCGCCCGGCTCATCACCGACTACGGCGCCACGCACCTTGTGGCCTGCTGGGATGATGACTGGCGTCCGCAGTGGCGGGTCGACCTCCTCCCGACGTACAAGTCGCACCGGGTGGCTGAGACCGTCGCAGCCTCCCGGGACCTGGAAGTTGTGCCGGACGGCCTCGAGGCGCAGCTCCCGATGATCCGCCGTGTGCTGAACCTCGCCGGCATCGCCGTCGTCGGAGCTCCCGAGCACGAGGCCGACGACGTCGTCGGCACCTATGCCAGCCATGCCCGACTGCCGGTCGATGTGGTGACAGGGGACCGGGACCTCTTCCAGCTGGTCGACGACGAACGCCAGGTGCGCGTGATCTACACCGCCCGCGGCATGAAGAACCTCGAAATAATGACAGACGCAGCCGTCGTCACGAAATACCGCGTGCTCCCCGAACAGTATGCCGACTACGCAATCCTCCGCGGCGACGCCTCCGACGGTCTGCCGGGCGTGCACGGGATCGGCGAGAAAACGGCCGCTTCGCTGCTGCTGGAGCACGGGACTCTCGAAGGGCTGCTTGAGGCGGCCGCGGATCCCGGCAGCCGGATGACGTCGGCCATCCGGTCCAAACTCGCCGCGGCTGCGGACTACCTCGTTGCGGCTCCCGCCGTCGTGAACGTGGTGCGCGACCTCAAGCTGCCGTCTCTTGAGGAAGCCCGGGCCGAGCTGCATCCAGTAGCCGGCGAGGCGCGGGCCGAATTGGAGCAGCTCACCACGGAGTGGAACCTCGGCGGCTCCCTCCGGCGGCTCCTCGCGGCGCTCGACCGGCTGCAGTAG	MVHRLMLLDTASLYFRAFYGLPDTIRRADGTPVNAVRGLLDMIARLITDYGATHLVACWDDDWRPQWRVDLLPTYKSHRVAETVAASRDLEVVPDGLEAQLPMIRRVLNLAGIAVVGAPEHEADDVVGTYASHARLPVDVVTGDRDLFQLVDDERQVRVIYTARGMKNLEIMTDAAVVTKYRVLPEQYADYAILRGDASDGLPGVHGIGEKTAASLLLEHGTLEGLLEAAADPGSRMTSAIRSKLAAAADYLVAAPAVVNVVRDLKLPSLEEARAELHPVAGEARAELEQLTTEWNLGGSLRRLLAALDRLQ				NA	NA	NA	NA	NA
D1-17_02068	576			hypothetical protein	ATGGAACTGCACATCACTGGAGACCCCGCCGCCGACAAGCTGCTCAGCGATGACGCGTTTGCGCTGCTGACCGGCATGCTGCTTGACCAGCAGGTGACCATGGAGTCAGCCTTTGCCGGACCCGAAAAGATCCGCACACGCATCGGCTCCATGGATCCCGCCGCCATCGCCGAATATGACCCCGCCGGCTTCGTCGAAGTTTTCAAGGAACGCCCGGCTGTCCACCGCTTTCCCGGCTCCATGGCCAGCCGCGTCCAGGCACTCGCCGAGACCGTGCAGCGCGATTGGGACGGGGACGCAACTGCGATCTGGACGCAAGGCAATCCCGACGGCGCGGAAGTGCTCCGCAGGCTGAAGGACCTGCCGGGGTTCGGGGAGCAAAAAGCGACAATCTTTCTGGCGCTGCTTGGCAAGCAGTGCGGGCTCCGGGCGGAAGGCTGGCGCGAGGCTGCCGGCCACTACGGCCAGGACGGGGCGTTCCTCTCCGTTGCCGACATTACGGATCCGGAGTCGCTGAGCAAAGTACGTGCCAGCAAGCAGGCTGCCAAGGCAGCGGCCAAAGCGGCAAAGGGTTAG	MELHITGDPAADKLLSDDAFALLTGMLLDQQVTMESAFAGPEKIRTRIGSMDPAAIAEYDPAGFVEVFKERPAVHRFPGSMASRVQALAETVQRDWDGDATAIWTQGNPDGAEVLRRLKDLPGFGEQKATIFLALLGKQCGLRAEGWREAAGHYGQDGAFLSVADITDPESLSKVRASKQAAKAAAKAAKG				NA	NA	NA	NA	NA
D1-17_02069	267			putative protein	ATGCAAGAGAAAAGCTGGTCGGTGAACATCGCTATTGACGAACACGAAAGCCAAACCCGCGCCACCGCCCGACTGCACGTCGGGAATCGTCCTGAACTGGTTGGAATAGGAATGGCCAGGCTGAACCCGGCTGACTCCGACGTCCCCGAAATCGGGGACGAGTTAGCAACCGCTCGGGCTTTGGCCGATCTGGCGCATCAGCTGATCGAGGTCACCGCGGCCGACATCGAAAAAATAACCAAAGAACCGGCTCATCTGCGTGCCTAG	MQEKSWSVNIAIDEHESQTRATARLHVGNRPELVGIGMARLNPADSDVPEIGDELATARALADLAHQLIEVTAADIEKITKEPAHLRA				NA	NA	NA	NA	NA
D1-17_02070	696			hypothetical protein	GTGGCCGTCCCTGATGGCTTCCAGCCGCCGTCGAATCCCGTTAGGGTTGGCGCTAATGACCTGTTGCTCTTCACAAGCCTGCCTCGGCGGAAGGAACTCATGAACAGCGTGACGTGCGACCTCACCGTATCTCTCGACGGATTCCTCGCCGGTCCGAATCAGAGCCTAACGAACCCCTTGGGTGAGGGCGGAGAGGACCTGCACAGGTGGCAGTTCGAAGAACGCGAGGCAAACGCGGCTGCAATCGAGGGCATCCTCTCGTCGGGCGCCTACATCATGGGCCGCAACATGTTCGCTGGCCCCGGGCAAGGACCGTGGGATGAGGACTGGCGCGGTTGGTGGGGTGAGGAGCCTCCATACCACGCCCCCGTGTTTGTTCTCACGCATCATCCACGCCCTCCCCTGGAGATGCAGGGAGGAACAACGTTCAATTTCGTGGCTGACGGGGTTGAGTCTGCCCTCGCCCAGGCGCGTTCGGCCGCAGGCGGCAAGGACGTCGCCGTAGCCGGAGGCGCAAACACTGCCCGGCAGTACCTTTCGGCAGGATTGATCGACGAGCTGCGGCTCCACATCGCACCGATCGTCCTCGGAGCGGGCGAACGGCTCCTGGACGGCGTCGAAAACCTCAGGCTTGAACCGACGGAAGTAAGCGGCACGCGCCTGGTGACGCACGTACGCTATCGGACAATCCACTAG	MAVPDGFQPPSNPVRVGANDLLLFTSLPRRKELMNSVTCDLTVSLDGFLAGPNQSLTNPLGEGGEDLHRWQFEEREANAAAIEGILSSGAYIMGRNMFAGPGQGPWDEDWRGWWGEEPPYHAPVFVLTHHPRPPLEMQGGTTFNFVADGVESALAQARSAAGGKDVAVAGGANTARQYLSAGLIDELRLHIAPIVLGAGERLLDGVENLRLEPTEVSGTRLVTHVRYRTIH				NA	NA	NA	NA	NA
D1-17_02071	375			hypothetical protein	ATGTCCGCAGTAACTGTTAAGGCCCTTGAATCGAAGTCCTTCAACGACCCTGACGAGAAACGCCGGCCGCCAAAGACCGAAGTTGACGTAGTCACCATTGGTGACACCACCCTGGGGAGATTCACCTTCGAGCCAGGCTGGCGGTGGTCGGAGACCGTCAAGACTGTGGTGCACACGGACAGCTGCCAAAATAACCATCTTGGATTCTGCACATCTGGAACGCTAACCGTCGAAATGGAGGACGGGACGCGTGCCACCGTTAAGGCCGGTGACGCCTACGCGATTCCCGCTGGTCACGACGCATGGGTTGAAGGTCAGGAGGCTTTCGTCGGCTACGAAATCATGAGCGCCGCAAGCTACGCAAAGCCTTCTTAG	MSAVTVKALESKSFNDPDEKRRPPKTEVDVVTIGDTTLGRFTFEPGWRWSETVKTVVHTDSCQNNHLGFCTSGTLTVEMEDGTRATVKAGDAYAIPAGHDAWVEGQEAFVGYEIMSAASYAKPS				NA	NA	NA	NA	NA
D1-17_02072	105			hypothetical protein	ATGGGCGGGACAACTGCAGAGACGTCAATGGTGGACAGCAGGACCTTCGACGGCCGGCTCCAGCTGCCGAGTACGTCCCCACTGTACCCAGCGGTCCTGTACTAA	MGGTTAETSMVDSRTFDGRLQLPSTSPLYPAVLY				NA	NA	NA	NA	NA
D1-17_02073	2001		COG4867	putative protein	ATGGGCACTCACAACCGGTCCTCCCGGTACGGCCGTTACGCCGGCGGGCCGGATCCGCTGGCCCCGCCCGTGGACCTGGCAGAGGCGCTCGACGCCATCGCAGAAGACGTCATGGCGGGCTACTCGCCCCGGCATGCGCTGCAGGAGTTCCTGCGGCGGGGCGGACGGAACCGTGACGGCCTGGACGACCTCGCGGGCCGCGTCCAGCAGCGCCGCCGTGATCTGCTCGGGCGGCACCGGCTGGACGGCACGCTGAGCGAGGTCCGGAAGCTGCTCGACACCGCTGTGCTGGAGGAGCGCAAGCAGCTTGTCCGGGACCCCATGATGGACAATACCGACCGAGCACTGCGGGAAATGCAGCTCCAGAACCTGCCCGCATCCGCGGCGGCCGCGGTCAACGAGCTCGCCTCCTATGACTGGCAGTCGAGCACCGCCCGGGAGGTTTACGAGCAGATCAAGGACCTGCTGGGGCGGGAGATCCTTGACCAGCGGTTCGCCGGCATGAAACAAGCGCTCGAGAACGCCACCGACAAGGACCGTGCGGCCGTGAGCGAGATGCTGCGCGACCTCAACGGGCTGCTGGACAAACACCGGCGCGGCGAGGACACGGACGAGGACTTTCAGGAGTTCATGGCGAAGCACGGCAGCTTCTTCCCGGAGAATCCGCAATCGGTCGAGGAACTGATCGACGCACTGGCGCAGCGCTCGGCTGCGGCCCACCGGCTGCTGCAATCCATGTCCCGGGAGCAGCGCGATGAGCTGATGCGTCTTTCGGCGCAGGCGTTTGGTTCGGCAGAACTGATGGGCCAGCTCGACCAACTCGATTCGAATTTGCGCGCCCTGCGCCCCGGCGAGGACTGGACTGGCTCGGAACGCTTCGAGGGCCAGGAGGGGCTCGGACTAGGCGACGGCACGGGGGTGCTCCGGGACATCGCCGAACTCGATCAACTGGCCGAACAGCTCTCCCAGTCCTACAGCGGATCACGTCTGGATGATCTGGATCTGGACGCCCTGGCCCGCCAGTTGGGCCCGGACGCCGCCGTGACCGCCCGCACGCTCGCGGAGATAGAGCGGGCGATGCAGGACGGCGGTTATCTCCGGCGGGGCACAGACGGCGACCTGCGGCTGTCGCCCCAGGCTATGCGGCGGCTCGGGAAGTCACTGCTCCGGGACACAGCCAAACAGCTGTCCGGCCGGCAGGGGCGCCGGGACACACGCCTGGCCGGGGCCGCCGGAGAGCAGACCGGCTCCAGCCGTGAGTGGCAGTTCGGCGACGCCGAACCATGGGACGTCACGCGCACCCTCACCAATGCGATCCGCCGCACCAAGGCCGACGGCGGTAATCCGGGCAGGGGGCTTCGCCTCGGGGTGGCCGACATTGAGGTGGCGGAAACTGAGGCACGCACCCAGGCAGCCGTCGCGCTGCTTGCCGACGTGTCCTTCTCCATGGCTGCGGAAGGGCGGTGGGTGCCGATGAAACGCACCGCACTGGCTTTGCACCACCTCGTCTCGACCCGGTTCCGCGGGGACCGGTTGAAGCTGATCACCTTCGGCCGCTACGCGCAGTCCATGGACATCGGTGAGCTTACGGCCCTGCCGGTGAGGCGGGAACAGGGAACAAACCTGCATCACGGCCTGCTGCTGGCGAACCGGTTCTTCCGCCAGCACCCGTCACTGCAGCCGCTACTTCTGGTGGTGACGGACGGCGAACCCACCGCACACCTGTTGGGGGACGGCGAGTCGTGGTTCTCCTGGCCTCCGGACCCGGAGACGATCCGCGTGACGGTTGCGGAACTTGACCGGCTGGGGCGCGCGGGCGTGCAGGCCACGTTCTTCCGACTGGGCGAGGACCCGGACCTGGAACGGTTCGTCCAGCGGATCGCCCGGCGCATCGACGGCAGGGTAGTGGCGCCCGACGTCGGAGATCTTGGTGCCGCCGTCGTTGGGGAATACCTTCGCGCCCACTTTAACAGCCCCTACGACGACACCGACTGGGTCTAA	MGTHNRSSRYGRYAGGPDPLAPPVDLAEALDAIAEDVMAGYSPRHALQEFLRRGGRNRDGLDDLAGRVQQRRRDLLGRHRLDGTLSEVRKLLDTAVLEERKQLVRDPMMDNTDRALREMQLQNLPASAAAAVNELASYDWQSSTAREVYEQIKDLLGREILDQRFAGMKQALENATDKDRAAVSEMLRDLNGLLDKHRRGEDTDEDFQEFMAKHGSFFPENPQSVEELIDALAQRSAAAHRLLQSMSREQRDELMRLSAQAFGSAELMGQLDQLDSNLRALRPGEDWTGSERFEGQEGLGLGDGTGVLRDIAELDQLAEQLSQSYSGSRLDDLDLDALARQLGPDAAVTARTLAEIERAMQDGGYLRRGTDGDLRLSPQAMRRLGKSLLRDTAKQLSGRQGRRDTRLAGAAGEQTGSSREWQFGDAEPWDVTRTLTNAIRRTKADGGNPGRGLRLGVADIEVAETEARTQAAVALLADVSFSMAAEGRWVPMKRTALALHHLVSTRFRGDRLKLITFGRYAQSMDIGELTALPVRREQGTNLHHGLLLANRFFRQHPSLQPLLLVVTDGEPTAHLLGDGESWFSWPPDPETIRVTVAELDRLGRAGVQATFFRLGEDPDLERFVQRIARRIDGRVVAPDVGDLGAAVVGEYLRAHFNSPYDDTDWV				NA	NA	NA	NA	NA
D1-17_02074	1461			hypothetical protein	GTGCCCCGGGTGGGGGAATCGGAAGAAGCCGGGCCCTCGATTCAACACCGGTTCGAGGACTACCGTGTACGTGTGAGTAATCGTCCCGATATCTTCACCGTTGGAGAACTGCGCGCAGCCGGCCATCTCCATAAAGACCTGCGCCACGAGATCCGCGACAACCTGCTCGCCGCGCTCGCCGCTGACCGCGATCCTTGGCCCGGCATGTTCGGTTTCAGCCGAACCGTCCTGCCCCAGCTTGAGCGTGCCCTGATCGCCGGGCACGACGTCGTCCTGCTCGGTGAGCGCGGACAGGGCAAGACGCGGCTCCTGCGCACCCTGGTCGCGCTGCTTGACGAGTGGTCACCGGTGATCGAGGGTTCGGAACTGAATGAGCACCCATACGAACCAATCACGGAGCAGTCCCGGGCGCACGCACTCACCGAAGGGGACAGGCTCCGCGTGGCCTGGCGCCACCGCTCCGAACGGTACGTCGAAAAGCTCGCCACCCCAGACACTTCTGTTGCGGACCTCATCGGCGACGTCGACCCCATGAGGGTTGCCGAGGGCCGGCGGCTCGGTGATCCGGAAACCATTCACTATGGTCTTGTCCCACGCTCCAACCGCGGCATCGTGGCCATTAATGAACTGCCCGACCTCGCCGAGCGGATCCAGGTGGCGATGCTCAACGTCATGGAGGAGCGCGATATCCAGATCAGGGGCTACGTGCTGCGGCTGCCGCTGGACGTGCTGGTCGTTGCCTCCGCCAACCCCGAGGACTACACCAACCGAGGCCGGATCATCACACCCCTAAAGGACCGCTTCGGGGCCGAGATCCGCACCCACTACCCTGTGGAGCTTGAGGACGAGCTCGCCGTCATCCGGCAGGAGGGGCGGCTGGTGGCCGATGTCCCGTCGATTCTCCTGGAGATCCTGGCCCGTTACACGCGTGCGCTTCGCCAGTCCCCGGCGATCAACCAGAGCTCCGGCGTCTCCGCCCGCTTTGGCATCGCCGGCGCCGAGACCGTGGCAGCAGCGGCCCTTCGCCGGGCAACGGTGCGCGGGGAGGACGAGGCGGTCGCACGGATCGTCGATCTGGAGAGTGCCGTCGATGTGCTCTCCGGCAAGATCGAGTTTGAATCTGGCGAAGAGGGGCGCGAACAGGCAGTCCTTGATCATCTGGTGCGCACGGCCACCGCCGAAGCCGTACGGGAACATTACCGCGGTCTCGACTTCAGCCCGCTGGTGGCGGCGTTCGACGGCCGCAGGACCGTGACCACCGGCGAAGAAGTCACCGCGCGGGAGTTTCTCGAAAACCTGCCATCCCTCAACGGATCACGCCTGTACGACGAGATCGGCGCACGGGCAGACGCAAAAACTGTCGGGCAGCGGGCGGCTGCCATCGAACTGGCACTGGAAGGTCTCTACCTTGCGCGTCGGATATCAAAGGAGTCCGACGACGGGGCAACGATTTACGGCTAG	MPRVGESEEAGPSIQHRFEDYRVRVSNRPDIFTVGELRAAGHLHKDLRHEIRDNLLAALAADRDPWPGMFGFSRTVLPQLERALIAGHDVVLLGERGQGKTRLLRTLVALLDEWSPVIEGSELNEHPYEPITEQSRAHALTEGDRLRVAWRHRSERYVEKLATPDTSVADLIGDVDPMRVAEGRRLGDPETIHYGLVPRSNRGIVAINELPDLAERIQVAMLNVMEERDIQIRGYVLRLPLDVLVVASANPEDYTNRGRIITPLKDRFGAEIRTHYPVELEDELAVIRQEGRLVADVPSILLEILARYTRALRQSPAINQSSGVSARFGIAGAETVAAAALRRATVRGEDEAVARIVDLESAVDVLSGKIEFESGEEGREQAVLDHLVRTATAEAVREHYRGLDFSPLVAAFDGRRTVTTGEEVTAREFLENLPSLNGSRLYDEIGARADAKTVGQRAAAIELALEGLYLARRISKESDDGATIYG				NA	NA	NA	NA	NA
D1-17_02075	636	pspA	COG0406	Phosphoserine phosphatase 1	ATGCTGAAACAGGAGACTACCCTGCTCCTGCTGGTGCGGCACGGTCAGACGCCTACCACGGGCGCGGTGCTGCCCGGGCGCGCTCCGGGACTGCACCTGTCGGACCGGGGGCGGGTCCAGGCTGAACGGGTGGCGGAGCGGCTCGCAGGCCTTCCCGTCGACGCCATCTACTCCTCGCCGCTGGAGCGTGCCCGGGAGACGGCCGAGCCCGCGGCCGCGAGCACCGGACTAGAGGCACATCTCAACATGGGGCTGGTCGAATGTGACTTCGGCGAGTGGACCGGGGCAGCGCTCGCCGAACTGGCGGGTTTGCCGCAATGGCAGAGCGTGCAGCACACCCCCTCTGCCTTCCGCTTCCCCGGCGGGGAGAGCTTCCAACAAATGCAGGCGCGGATGCTCGGAACACTTCAGGACCTGTGCAGCGCGCACGCCGGGGGCGTCCTCGTCTGCTTCTCCCATGCCGATCCGATTAAGGCAGCCCTCGCCCACGCCCTTGGGACGCATCTGGACCTCTTCCAGCGGATCGTTATCAGCCCGGGCTCCGTCTCCGTCATCTCATACGCTGAAGGCCAGCCGCCGGCCGTGCTGGCGGTGAACTCGACCCTGGAACCCTTGAGCGGGCTGCGAGCGCCGTGA	MLKQETTLLLLVRHGQTPTTGAVLPGRAPGLHLSDRGRVQAERVAERLAGLPVDAIYSSPLERARETAEPAAASTGLEAHLNMGLVECDFGEWTGAALAELAGLPQWQSVQHTPSAFRFPGGESFQQMQARMLGTLQDLCSAHAGGVLVCFSHADPIKAALAHALGTHLDLFQRIVISPGSVSVISYAEGQPPAVLAVNSTLEPLSGLRAP				NA	NA	NA	NA	NA
D1-17_02076	720			hypothetical protein	GTGAACGGGAAAGAAAGGTGTCCGGGCCGTGAACTGGCACTGCTGGCCGAGGGCCGCATCGAACTGCTCGGACGCATCCTGCGCAGCAGCAACGCGACGTTCCTGGTCCGGCTCTCCTGCCGAGACGATTCGGCGTGGGCGGTCTACAAGCCGGAGGCCGGCGAACGTCCGCTGTCCGATTTCGAATCCGGGCTGTACAGGCGGGAACGCGCCGCTTACCTGCTCAGTGAACGCCTTGAATGGGCAATCGTGCCGCCGACCGTGATCCGCGAGGACCCGCCCCTGGGGGTCGGGTCGCTGCAGTGGTTCATCGAGGGCGACCAGCGTGAGCACTACTTCACCCTGTACGCGGACTCCCCCGAAACCCATGCCGCGTTGGCCCAGATCGCCCTGTTTGACTGCATCACCAACAACACCGACCGCAAGAGCGGGCACGTGCTGCGCGGCGACGACGGACATGTGTGGGGCATCGACCACGGGCTGTGCTTTTCCGCAGACTTCAAACTGCGAACCGTGATCTGGGACTTCGCGGGAGAGCCCATCCCCAGTTCGCTGCTCAAGGACATCGCGCCGCTCGCCGAAGCCGTGCCTCCGGGCGTCGCCGAACTCCTGGACGACGCCGAGACCGCCGCCCTGAGGCGGCGCGTGCAGCGCCTGCTGCGCGAAGGTGTATTGCCCGTGGACCGTACCGGCAGGCGTTACCCCTGGCCGCTCGTGTGA	MNGKERCPGRELALLAEGRIELLGRILRSSNATFLVRLSCRDDSAWAVYKPEAGERPLSDFESGLYRRERAAYLLSERLEWAIVPPTVIREDPPLGVGSLQWFIEGDQREHYFTLYADSPETHAALAQIALFDCITNNTDRKSGHVLRGDDGHVWGIDHGLCFSADFKLRTVIWDFAGEPIPSSLLKDIAPLAEAVPPGVAELLDDAETAALRRRVQRLLREGVLPVDRTGRRYPWPLV				NA	NA	NA	NA	NA
D1-17_02077	1356		COG1926	Putative phosphoribosyl transferase	ATGGGGATCTTCGAGGACAGAGCTGATGCAGGGCGGCAGCTGGGGCTGCGGCTGGACTATCTCCGTGGCCAGGATCCGGTCGTCCTTGGATTGCCCCGCGGCGGGGTTCCGGTAGCGTTCGAGGTTGCGGCGGCCCTTGGCGCTCCCCTGGATGTGATCGTGGTGCGCAAGCTGGGCTTACCGTTTGAGCCCGAACTTGCGATGGGAGCGATAGGGGAGGACAACGCCTACGTGCTTGATCAACGTGTCCTGTCGGCAACCAGGGTCAAGCAGGAGGAACTGCGTGCTGTTGAACGGCGGGAACATGCCTTGCTCGATGATCGCGTGGCCCGATACCGCAGCCGACGGAAGCGCATAGATCTGAAAGGCCGCACGGCCGTGATTGTCGACGACGGAATCGCCACCGGGTCAACGGCCAGGGCGGCCTGTAGCATCGCACGGAAGCGGGGAGCTGTGAGAGTAATTCTCGCCGTCCCTGTCGCGTCTGCCCAGGTCCTCTCCACGCTGACGGAAGCCGACGACGTCGTATGCCTTGCGACGCCACTGAACGTGACCGCCGTCGGCTACCACTACCGCGACTTCTCACCAACCCATGACGATGAGGTGCTGCGGCTCCTCGGTGCTGCTGCCGATCGGCTGGAAGACGCGATATCAGGCGGCGGCGATCCTGCACTGGATGACGACGTGCAGATTGACGTGCAGGGGATGCGGCTCGAAGGACACCTCTACCTTCCAGGAGAGGCCGCCGGAGTGGTGATATTTGCCCACGGAAGCGGAAGCGGCCGGAAGAGCCCGCGAAACCGGTTCGTCGCCTCGACACTTCAGAGGGCAGGCCTGGGGACCTTGTTGCTGGACCTGCTCAGCCCGGCGGAGGAGCTTGATCGCTCCAACGTGTTCAACATAGAGCTGCTGGCACACAGACTGAACGCGGCCAAGTACTGGCTTCACAGCAGGCCGGAAGCCACGTCGTCCACTGTGGGGTACTTCGGGGCGAGTACCGGAGCCGGTGCCGCGTTGTGGGCGGCAGCGGAACAGCGGGAAGGAGAACAAGGAGAAGGAATCGGCGCAGTCGTTTCCCGAGGAGGCAGGCCGGATCTGGCCGGCGACAGGCTGAACCTTGTCCGCGCCCCGACACTCCTGATCGTTGGCAGTGCGGATCACCGTGTCCTTGAACTCAACCGTCAGGCGCAAGCCCTCCTGCGCTGCCCAAACCAGCTGGAGGTTGTCAAGGGAGCCACTCATCTGTTTGAAGAGCCCGGCACCTTGCAGGAAGCTGCGGTTTTGGCCCGGGACTGGTTCGCCCGCTACCTGATGCCGCGGAAGAGCAGCGGGGGAGCTAATGCCCCGCAGGAATGA	MGIFEDRADAGRQLGLRLDYLRGQDPVVLGLPRGGVPVAFEVAAALGAPLDVIVVRKLGLPFEPELAMGAIGEDNAYVLDQRVLSATRVKQEELRAVERREHALLDDRVARYRSRRKRIDLKGRTAVIVDDGIATGSTARAACSIARKRGAVRVILAVPVASAQVLSTLTEADDVVCLATPLNVTAVGYHYRDFSPTHDDEVLRLLGAAADRLEDAISGGGDPALDDDVQIDVQGMRLEGHLYLPGEAAGVVIFAHGSGSGRKSPRNRFVASTLQRAGLGTLLLDLLSPAEELDRSNVFNIELLAHRLNAAKYWLHSRPEATSSTVGYFGASTGAGAALWAAAEQREGEQGEGIGAVVSRGGRPDLAGDRLNLVRAPTLLIVGSADHRVLELNRQAQALLRCPNQLEVVKGATHLFEEPGTLQEAAVLARDWFARYLMPRKSSGGANAPQE				NA	NA	NA	NA	NA
D1-17_02078	837			hypothetical protein	GTGCCGAAAGCTGCGCGGTTCCTGCTCCTGCCGTTTGTCATAGTGGCAGCATTCACGGCCGCGCAGCCTCGGCCACCTTCCTCCCCGCCGGCTCCCTTGCCGCCTGCGGCCTCTATGGCAGCCTTGGGCGACTCCATTACCCGCGCACTGGCAGTGTGTTGTTCGGATGGCGACAACGCACGCCACTCATGGTCCACGGGGGACCGCACCGGCGACGGAGTCACCAGCCACTATGAGCGGCTGAGAGGGCTGGACGCGGCCATCACGGGCCGCAACCACAACAACGCCCTCAGCGGCTCCAGAGCCGTGCACCTTCCGGGCCAGGCCGAAACAGCCATCCAGCAGAATGTGGAATACGTGACCATTCTGACCGGAGCAAACGACCTTTGCGCTTCTTCTGCCGCCACAATGACATCGGAGGCAGACTTCGCTGCGCACATCAATACCGCCTTGGCTACGCTCCGTCGTGGTTTGCCCAGGGCACGCATCTTCGTTGCCAGCATCCCGGACCTCTACCAGCTTTGGAAGGTTTTGGAAGGCAACGCCGAGGCACGCGAGGCATGGGCCCGCGGCACCTGTCCTTCTATGCTTTCCGGTGGCAACACCGAAGAGCAGCGGCAGTTGGTGGTCACGCGCGAACTGGCGTTCAACCGGATCCTTGCCCAGGCATGCTCCCGGTACAAGAACTGCCGGTGGGACAACAACGCTTTGTATGACTTTAACTTCTCGGCAAGCGACGTCAGCACCCTCGACTACTTCCACCCAAGCCTGGAAGGCCAGGCCCGTCTCGCCGAACTGACGTGGCGGGCCTCATGGTGGGGCAACGAGTCGACTTAG	MPKAARFLLLPFVIVAAFTAAQPRPPSSPPAPLPPAASMAALGDSITRALAVCCSDGDNARHSWSTGDRTGDGVTSHYERLRGLDAAITGRNHNNALSGSRAVHLPGQAETAIQQNVEYVTILTGANDLCASSAATMTSEADFAAHINTALATLRRGLPRARIFVASIPDLYQLWKVLEGNAEAREAWARGTCPSMLSGGNTEEQRQLVVTRELAFNRILAQACSRYKNCRWDNNALYDFNFSASDVSTLDYFHPSLEGQARLAELTWRASWWGNEST				NA	NA	NA	NA	NA
D1-17_02079	423	arfB	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGGACCTGGAAGTCTCACCGGCGCTCACTATTCCCGCATCGGAACTCAGCTGGCGGTTCTCGCGATCATCCGGGCCTGGCGGTCAACACGTCAACACCTCGGACAGCCGTGTTGAGCTCTCGTGGAACGTTGGCAACTCCGGGGCGCTTTCGGACTTCCAACGGCTGATCCTGCTCAAGCGTCTCGGCCGACGGCTCGTCGACGGGGTGATCACCGTGACCGCCTCCGAGCAGCGCTCTCAGCTGCGCAATCGCGAGATCGCCCTAGCCAAGCTCTCCGACCTTGTTGCGCAGGGCATCGCTCCCGAAGCTGCACCCCGCCGTGCGACCAAACCCACCCAAGGCTCGAAACGTCGGCGCCTGGCCGCAAAGGAACAGCGGGCAGCTACGAAACGACAGCGGAAGCGACCGTCCGCCGAGTAG	MDLEVSPALTIPASELSWRFSRSSGPGGQHVNTSDSRVELSWNVGNSGALSDFQRLILLKRLGRRLVDGVITVTASEQRSQLRNREIALAKLSDLVAQGIAPEAAPRRATKPTQGSKRRRLAAKEQRAATKRQRKRPSAE				NA	NA	NA	NA	NA
D1-17_02080	441	hrp1_3	COG0517	Hypoxic response protein 1	ATGAGTGCTGTACGTGAATTCATGACTACGGATGCACGGTGTATCAAGGAGAGCGAGTCCCTCGCAGATGCCGCGCGGATGATGCTGGACCTGGACTGTGGATCGTTGCCGATCTGTGGTGACGACGGCAAGTTGAAGGGCATGATCACCGACCGGGACATCGTGCTCAAGTGTGTTGCTGTCGGGCGTGATCCACGCGAGATGATGGCCCGCGACCTCGCCACCGGCACCCCCCACTGGGTTGACGCCGATGCGAACATTGACGCCGCTATCGAGATGATGGAGAAGTATCAGGTCCGCCGGCTGCCTGTCATTGCTGACCATAAGCTGGTCGGCATCATCAGCCAGGGTGACATCGCGCGCAACTACACGGAGGAGAAAGTGGGCGAACTGGTCGAGCACATCTCGGAACGCAAACGAATGCAGTCGAGCAGTTCCTAA	MSAVREFMTTDARCIKESESLADAARMMLDLDCGSLPICGDDGKLKGMITDRDIVLKCVAVGRDPREMMARDLATGTPHWVDADANIDAAIEMMEKYQVRRLPVIADHKLVGIISQGDIARNYTEEKVGELVEHISERKRMQSSSS				NA	NA	NA	NA	NA
D1-17_02081	450			hypothetical protein	GTGAAAGCCTCTGCAAGGGATGATCGGCTAAGCGGAAAGCGGCCTCTGGGCCGTGTCGCAACGCTGGCTTTAGTCCCAACGGCCGCCACGGCCCTGGTGTTGATCCCCATGTTGCTGCGCGAACCATCCACGACGGAAGCCGTCCCGCCGGCCTGGCTGGGCGTCCTGCTTCTGGCGCCTCCCGCTACGGCCTACCTGGCCAGCCTTCGTTTCGGAGATGGCTTGCACCTCATCTCTTACCTTTTGATCGGACTGCCCCAGTTGCCTCTGATCATGCTGCTGTCGACGGCGGCCGTTTGGTTTGACGTGCAGCGTGGTCACTTGCTGGCTGGCTCTGGTGAAGAAGCCATGTCGTACGGGTTAGGAACGGCGGTCGCGTTCGTGGCAGGAACCATCCTGGCCCTGTTGGTGGCCGCTGCCGCCCGGCTGGGCGCGCGGCGTGCCAAATAA	MKASARDDRLSGKRPLGRVATLALVPTAATALVLIPMLLREPSTTEAVPPAWLGVLLLAPPATAYLASLRFGDGLHLISYLLIGLPQLPLIMLLSTAAVWFDVQRGHLLAGSGEEAMSYGLGTAVAFVAGTILALLVAAAARLGARRAK				NA	NA	NA	NA	NA
D1-17_02082	534			hypothetical protein	ATGAAGCCGATCACTGAGCTGCTACGCGAATACGACCGGGCACGTTCCTACACCGACCAGTTGTGGCGTGACCTCACCCCCGACGAGGTGGTCTGGCGGCCTCGTGAAGACTTCAGTGCAATAGGGTGGCACTTGGGCCACCAGGCTCATGTGGCACATTTCATGGTGCGCAACCTGACAGCGGCTGAACCAAGTCCAGATCCAGAACTCGACGGACTGATGGACTCTGCGTGCCCAGAGCGCTTCCGCGGGGCCCTTCCAACCGTGGAGAGACTCATCCAGTTCCGTGATGTTGTCGCTGAGCGCGTGCATGCCCGGCTGGGCGCCATTGCAGGTGGTCATGTTGGTGCACCTGACCAGATGATGATTGTCGGCGGGCACCTGCTCACCATGTTGATCAACCACGAATACCAGCACGATCAGTGGATTTCTGAGGTGCGTTCCCAGAACCTTGGCCACGCACTCCCGGACGATCCTGACACTGATACGGTCCGGCGGGTTGACGGATACCTCGTACTTAATCCACTCAGCTAA	MKPITELLREYDRARSYTDQLWRDLTPDEVVWRPREDFSAIGWHLGHQAHVAHFMVRNLTAAEPSPDPELDGLMDSACPERFRGALPTVERLIQFRDVVAERVHARLGAIAGGHVGAPDQMMIVGGHLLTMLINHEYQHDQWISEVRSQNLGHALPDDPDTDTVRRVDGYLVLNPLS				NA	NA	NA	NA	NA
D1-17_02083	357			hypothetical protein	ATGACGACAGCGACGGCGCGGAAGTCCACGTCGGGACGCCCGATCGGTGTCGTCGGAGCGGTCGTCGCAGTCGCTGTCCCGGTCCTGATCTTCGAGCTCTGCCTTTTCGCCCTGTACACCTACATGGTTCAGGAATTCGATGGCTTCCACATCGTGCTGATCACGGCGACCGTCACTCTCGTGATCGCAGTCGTCGTCCTGGCGTGGTCGGGAGCCTCCCTCGGTCTTTGCTTGATCATCATCACGCTCTCCCCCGCCGTCGTTGTCGTGGGCTACGAGACCATTGGACACAAACACCCTGCCCGTGCACTGGGTCGAACATTGAGCTCGACAAAGTCATTCCCTGGCTCCCAGTAG	MTTATARKSTSGRPIGVVGAVVAVAVPVLIFELCLFALYTYMVQEFDGFHIVLITATVTLVIAVVVLAWSGASLGLCLIIITLSPAVVVVGYETIGHKHPARALGRTLSSTKSFPGSQ				NA	NA	NA	NA	NA
D1-17_02084	1041			hypothetical protein	ATGGCTCCCAGCCGCCATCCGCTCGACGACCTGCGCGAAACCATCGGCCATCTGGCCGATCAGCTCAAGCTGCCCAGTTCGGAGCGCGTCGACGACCTGCTCGGCGATCTCATCGGTGCGAGGCCCGGACCGGCCCGGCCGCTGTCCGAGGTGCAGGCCGAGCTCGACGCACTGGTCGGACTGGAGACCGTGAAGGAACAGGTGCGGGCCCTCGTCGCCCTGCTCCAGGTTCAGGCCCGCCGCAAGGCACACGGCCTGCCGGAGGTGGCCACGTCACAGCATCTGGTGTTCCTCGGAAACCCGGGCACGGGCAAGACCACCGTGGCGCGGCTCCTGGCCGAGATGTACCACGCCGTCGGTCTGCTGCAGAAAGGCCACTTGGTCGAGGTCGACCGTTCGGGCCTGGTGGGGCAATATGTCGGCGCGACCGCCATCAAGACGGACCGAGTGATCCGGCGTGCGCTGGACGGCGTCCTGTTCATCGACGAGGCCTACGCGCTGGCCCCGGAGGACGGCCGGACGGACTTCGGCCCCGAGGCGATCGAGGTCCTGCTCAAGCGGATGGAGGACCACCGCCACCGCCTGGTCGTGATCGTGGCCGGGTACCCGCGGCTGATGGAGTCCTTCTTGCTCTCGAACCCCGGACTGCGCTCCCGGTTCGCCCGCGAGATCACGTTCCCCGACTACTCCGTCGACGCACTCCAGACAATCTTCCACCAGATGCTGGCCCAGCACGAGTACACGCTGGAGCCGGGTGCCGACCAGATGCTGCGCCGCATCCTCACCGGGCTCCACGCCGGCGAGGACTCCGGCAATGCCCGATTCGCCCGCACGCTGTTCGAGCAGGCGCTCAACCGCCAGGCGCTCCGGCTGTCGCTCGACGAGGAACAAAGTCTCGACGCGCTCGATCGTGACGCCGTCATGACGCTCACCGCGAATGACATCGTCGAGGCCGCGCTGGCCTTGGGCGAGGAGCCGGAGCCGGAGCCCGAACCGACGCCGGAACCGGAGCAGTCACGCTGGTGGCGCTGGCTCGCCTGA	MAPSRHPLDDLRETIGHLADQLKLPSSERVDDLLGDLIGARPGPARPLSEVQAELDALVGLETVKEQVRALVALLQVQARRKAHGLPEVATSQHLVFLGNPGTGKTTVARLLAEMYHAVGLLQKGHLVEVDRSGLVGQYVGATAIKTDRVIRRALDGVLFIDEAYALAPEDGRTDFGPEAIEVLLKRMEDHRHRLVVIVAGYPRLMESFLLSNPGLRSRFAREITFPDYSVDALQTIFHQMLAQHEYTLEPGADQMLRRILTGLHAGEDSGNARFARTLFEQALNRQALRLSLDEEQSLDALDRDAVMTLTANDIVEAALALGEEPEPEPEPTPEPEQSRWWRWLA	PGPT0024835_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024835-spoVK-K06413	NA	NA
D1-17_02085	3159	czcA_1		Cobalt-zinc-cadmium resistance protein CzcA	ATGCGTCGGATCGTCGGGTTCAGCCTGAAATTCCGCGCATTGGTGGTGGCCCTCGCGGTGGCAATGATGGCGTTCGGCGGCGTTCAGCTCAGCACAGCCTCTGTGGACGTCTTTCCCGAATTTGCGCCACCGAAGGTGGAGATTCAGACGAGCTGCATCGGTCTGACCGCTGCCGAGGTGGAGCAGTTGGTGACCGTTCCGCTCGAAGACGCCCTCAGCGGCGTTGAGGGATTGAACGAGATACGCTCCAAGTCCGTGGAACAGCTGTCCTCGATCGTGCTCCTTTTCGCGCCGGGGGCGGATCTCCTGAGGGCCCGCCAGCTGGTGTCGGAACGCATTGCCACTGTCACGCCGTCGCTGCCTAGCTGGGCAACGCCGCCTGTTATGCTGCAGCCGCTGTCATCCACAAGCCGGGTCATGAAAATTGGCATGACATCGGATGAACGCTCGCTGATTGAAATGTCGATGATCTCCTACTGGAAGATCCGGCAGCACCTGCTGCGTGTCCCGGGCGTGGCCAACGTCGCCATCTGGGGTCAGCGAAAGGAGATGCTTTTCGTACAGGCTGTTCCGGAGAAGATGAAGGCCCACGACGTCACCTTGAACCAGGTCATGGACGTCACCGCCAACGCCCTCGACTCAGGTCTGCTGCAGTACACGCCCGGTTCCGTCGTTGGCACCGGTGGCCACGTTGAGACGCCAAACCAGCGGCTCAATATTCAGCACGTGCTGCCGATCGTTACCCCAGAGGACCTCGCGGAGGTCGTCATCAAGGAGAGAAACGGGAAACCTCTCCGCCTCGGGGATGTGGCGAATGTGGTAACGGATCATCAGCCGCTCATTGGTGACGCCGTGATCAACCAGGGTCCGGGGCTGATGCTGATCGTTGAAAAGCTTCCCTGGGGCAACACCCTGGAAGTCACCAAGGGTGTGGAGGCAGCCCTCAAGCAGATGGAGCCGGGCCTCAGCGGCATCGCCATTGATACGGAGATTTTCCGCCCCGCCACGTTCATCGAGGAGTCCATCGACAACCTCAGCCGGGCACTGCTGTTGGGCTGCCTCTTCGTGGTGCTGGTGCTGGGAGCGTTTCTCTTCCAGTGGCGGACCGCGCTCATCAGCCTGATCGCCATCCCGCTGTCGCTGGTGACGGCGGCCTCCGTCCTGTACCTGACCGGTACTGCGGTGAACACCATGGTCCTGGCCGGGTTGGTGATTGCCGTCGGGGTGGTGGTCGATGATGCCATCATCGACATTGAAAACATCATCCGAAGACTCCGGCAGAACCGGGCGGAGGGCGGAACGCGCTCCACCACTTCCGTGGTGCTGGAGGCTTCCCTCGAAGTCCGTGGACCGATTGTCTATGCCACTCTGATCATCATCGCCGCGGCCGTGCCGATCTTCTTCCTTCAGGGACTCACGGGCGCCTTCTTCAGACCGCTGGCCATTTCCTACACCCTGGCGGTGCTGGCATCGATGGTTGTGGCCCTGACAGTGACCCCTGCCCTCGCGCTGATCTTCATGCGCAACGTCCCGCTCAAGGAACAGGAACCGCCCCTGGTCCGGGTCCTCAAGCGCGGCTACCACAAGATTCTTCGCAGGATCGTCCGGCGGCCCGCTGCAGGCTACGCCACCTTCGGCGCCATGGCTGCCGTCGGTGCCTTCACCGCACCGCTGCTGGGACAGTCGCTGCTGCCGGACTTCAAGGAACGCGACTTCCTGATGCACTGGCTGACCCAGCCGGGCACATCCTTGCAGGAAGAGTATCGCGTCAGCCAGAAGGCCTGCGCTGAACTATTGACCATCCCTGGGGTCCGGAACTGCGGCGCCCACATCGGGCAGGCCTTCAACGCCGACGAAGTGGTGGGTGTTTATTTCGGTGAGAACTGGATCAGCATCGATCCTGCCGTGGACTATGACGAAACCTTGGCCAAGGTCCAGGAAGTTGTCGAAGGTTATCCCGGCATTGTGCGCGACGTTCAAACATATCTGAAGGAGAGAATCCGCGAGGTCCTGACGGGCGCCAGCAATGCCGTCGTCGTCCGGCTCTACGGAAACGACTTGGAGCTCCTGCGCTCAAAGGCCGCCGAAATCCAGGCGATTTTCGACAGCACCGAGGGAGCCATCGACGTCCACACCGAGCTGCAGAAGGACATCCCACAGCTCGATGTTGAAGTCGACCTGGACAAAGCCCTGAAGTACGGGCTGAAGCCCGGCGATGTGAGGCGTGCGGTGGCGACACTGGTAGGCAGCGAAGAAGTAGGCGACCTTTACCGGGCAGGAAAAACATATGACGTCCGTGTCTGGAGTTCCCCCACCATGCGTTCGGACGTCACGAGCATCAGGGACCTGCCCATTGATACCCCCAGCGGAGAGAAAATCCTGTTGTCCGACGTCGCCACCGTCGAAGTGAAGCCGACGCCCAACGTTATCGAGCGTGATGCCCACTCAAGGCGCATCGACATCGAGGCAAATGTGACAGAAGGATCCCTGGCCACTGTGGTTGCGGCCATGGAGGAAGGGCTCAAGAAAGTGGAGCTGCCCCCGGGCTTCCGCACGGAAATCCTCGGCGAATTCAAGGAGCGCCAAGAGGCAACCAACACCCTGCTGACCCTCGCCACCATAGCGCTGGCCGTGATCTACCTGCTGCTGCAGGTGGCCTTCTCAAGCTGGCGGCTAGCCACGCTGGTCATCCTCACGCTGCCAATCGCCCTCGTCGGCGGTGTATTCGCCGCCTTCCTCGGAGGAGGCGTGCTGTCACTGGGCTCGATCGTGGGCTTCCTGACAGTCATGGGCATCGCGGCCAGGAACGGCATCCTGCTCATTAACCACTGCCAGCACCTGGAGAAAAATGAGGGCATGAAGTTCGGGCCCGATCTCGTGCTGCGCGGCGCGGGCGAGCGGCTTTCACCGATCCTGATGACCACCCTTGCCACCGGGCTGGCACTCGTTCCACTGGTGGTCCTGGGCAACCTTCCAGGCCACGAAATCGAACATCCCATGGCACTGGTCATCCTTGGCGGGCTGGTGACGTCCACACTGCTTAACCTCTTCGTGGTGCCATCGCTGTATCTGAGGTTCGCCAAACCCAGGGAACGAGACCACCACGCTAATAAGGAGCTGGCGACGACAAGTCACGAGCCGATCAGACCCCGAGCCTGA	MRRIVGFSLKFRALVVALAVAMMAFGGVQLSTASVDVFPEFAPPKVEIQTSCIGLTAAEVEQLVTVPLEDALSGVEGLNEIRSKSVEQLSSIVLLFAPGADLLRARQLVSERIATVTPSLPSWATPPVMLQPLSSTSRVMKIGMTSDERSLIEMSMISYWKIRQHLLRVPGVANVAIWGQRKEMLFVQAVPEKMKAHDVTLNQVMDVTANALDSGLLQYTPGSVVGTGGHVETPNQRLNIQHVLPIVTPEDLAEVVIKERNGKPLRLGDVANVVTDHQPLIGDAVINQGPGLMLIVEKLPWGNTLEVTKGVEAALKQMEPGLSGIAIDTEIFRPATFIEESIDNLSRALLLGCLFVVLVLGAFLFQWRTALISLIAIPLSLVTAASVLYLTGTAVNTMVLAGLVIAVGVVVDDAIIDIENIIRRLRQNRAEGGTRSTTSVVLEASLEVRGPIVYATLIIIAAAVPIFFLQGLTGAFFRPLAISYTLAVLASMVVALTVTPALALIFMRNVPLKEQEPPLVRVLKRGYHKILRRIVRRPAAGYATFGAMAAVGAFTAPLLGQSLLPDFKERDFLMHWLTQPGTSLQEEYRVSQKACAELLTIPGVRNCGAHIGQAFNADEVVGVYFGENWISIDPAVDYDETLAKVQEVVEGYPGIVRDVQTYLKERIREVLTGASNAVVVRLYGNDLELLRSKAAEIQAIFDSTEGAIDVHTELQKDIPQLDVEVDLDKALKYGLKPGDVRRAVATLVGSEEVGDLYRAGKTYDVRVWSSPTMRSDVTSIRDLPIDTPSGEKILLSDVATVEVKPTPNVIERDAHSRRIDIEANVTEGSLATVVAAMEEGLKKVELPPGFRTEILGEFKERQEATNTLLTLATIALAVIYLLLQVAFSSWRLATLVILTLPIALVGGVFAAFLGGGVLSLGSIVGFLTVMGIAARNGILLINHCQHLEKNEGMKFGPDLVLRGAGERLSPILMTTLATGLALVPLVVLGNLPGHEIEHPMALVILGGLVTSTLLNLFVVPSLYLRFAKPRERDHHANKELATTSHEPIRPRA				NA	NA	NA	NA	NA
D1-17_02086	807	COQ5_3		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAACGAAACCTTCAACCTCAGCCTTGAACAGGCCCACGCCTACGAGGACCTGTTCGTTCCCGCCCTTTTTGCACAGTGGGTGCCGACACTGCTTCAGCATGCAGCGGTGTCCCAGGGCCAGCACGTCCTCGATGTTGCCTGCGGAACGGGTGTCGTCGCGCGGGCCGCCGCCGAACTGGTCGGCCCTTCTGGCCGGGTGAGTGGGGTCGACCTCAATCCCGCCATGATCCAGGTCGCGGGTGAGCGCGAGTCCGGGATCGACTGGCAGGTCGGCGACGCGGCCAATCTCCCGTACGACGATGAGTCCTTCGACGCCGTCCTATGCCAGTCCGCGCTGTTCTTCTTTCCAGACCCTGCCCAGGCTATCCGGGAGATGGCGCGTGTGTTGCGCAACGGCGGGATAGTCGCCCTCCAGACCTACGCCAACCTGGGGGACCAGCCCGGATACGGTCCGTTCGTCGACACCGTCGTCCGCCACGCCGGTGCCGAGGCCCGCAGTCTTTTAGGCACCTACTGGTCGAAGGGCGACGAGGCGGAGTTGCGGTCACTGCTCAAGCAGGCGGATCTCGACCCGACCGCGGGCCAGAGTGTGCTGGGCCAGGTCACGCTGCCCTCTATAGATGCGTTGGTGCATACCGAGATTCAGGCAACCCCGCTGGCCGAGCGGATCGACAAGTCGGCGTATCTCGCCATCGCCCGGGACGCCCGGGCCGCTCTCGCGGACTACGTCGATGGGCAAGGCACCGTCAGGCTGCCCATCCGGGCGCAGTTTATTATCGGCCGGAAGCGGCGCCCGTCCCGCTGA	MNETFNLSLEQAHAYEDLFVPALFAQWVPTLLQHAAVSQGQHVLDVACGTGVVARAAAELVGPSGRVSGVDLNPAMIQVAGERESGIDWQVGDAANLPYDDESFDAVLCQSALFFFPDPAQAIREMARVLRNGGIVALQTYANLGDQPGYGPFVDTVVRHAGAEARSLLGTYWSKGDEAELRSLLKQADLDPTAGQSVLGQVTLPSIDALVHTEIQATPLAERIDKSAYLAIARDARAALADYVDGQGTVRLPIRAQFIIGRKRRPSR				NA	NA	NA	NA	NA
D1-17_02087	1653			hypothetical protein	ATGGTGGTTGGGCCGAGCCTCGCAGACGCCGCGGCCTTGGCCGACGCTGGTGATTGGCTGGCGGCGCGGGACGCGTACACGGCAGTGCTCACGCGGGATGAGTCCGGCAAGGCACATCAAGGTCTCGCGCGGGCCTACTGGTGGCTGGGCGATGTGCGGGCTGCCTTGGAACACGCTGAGCTGGCATTCGCCGCCTATGAGGAAAAGTCGCGATATGCGGAAGCGGCCATGGTCGGCGTGCACCTGTGCATCTGGTACCTCAGCAACTTCGACAACCTCGCTGCAGCCGACGGCTGGCTCGCACGGGCGCGTCATCTGGCACGGCGCAGTGGAGACGCCGTAGCAGTTGGGTGGATCACGCTGGTGTCGGGATATGTCGCCGCCGATCAAGGCGAAGCCCGGCGCCTCATAGAGGCCGCGGCATCGAGCGCAGCGTCACTGTCGGACCGCGATCTGTCCACGATGGCCTTGGCGGACCTCGGCCTGTGGCATGTGACGACCGGTGACGCAGGCCAGGGCATGGCCATGCTGGACGAAGCCATGGCCGCCACCTTCGCGGAGCCACGTCGGATGCTTGAGGTAGTGGTTTGGTCCAGCTGCAACATGCTGGCGGCGTGCAGCTTGGTGGACGACCTCCGACGGGCCACGGAATGGTGCCGTGCGGCAGACCGGTTCATGCAGACCTACGGGTGCCCATTCCTCCAAGCCAGGTGCCGTGCACACTACGGCCGTATCCTGGTCGCGACCGGACATTGGAGCCAGGCAGAGCGCGAGCTTGCACATGCGCTCTCCATGTCCGCCGACACCGGCCGCGGTCCCCGAACGGAGGCGCTGACCGCACTGGCCGAACTCCGGCTACGCCAGGGCGACCCGGATGCCGCACTTGTGCTGTTGGACGACGCCGACGCCACACCGTCAGGCTCTGTTGTCCGGGCCCACTGCCTGCTCCGCCTCGGCCGGCCCACAGAGGCCCGTTCGATCCTCAAGGGCGAATTATCCCTACAGGAGCACGACAGCCCAACGTTCCCAACGCTGGTGGCCACGCTCGCGGAGGCTGAGCTGGCCTCCGGCCGACCCGCCGCCGCGGCCGGGCTGGTTGGATCCGAATCCCCGGTATGGACGGCGCCCGCATTCCCCCGTGCTGCAGGACTCCTCGCCCACGCCGCCGGACTGGTGGCCGCCGCGCAGGGTAATCCGGAATCGGCCCGCCGACACCTCGGATTCGCGCTCGACGTCTTTACGCGGCTGGAGCTGCCCTTTGAAACGGCCAACGCCGAACTCGACCTGGCCCGGCTGTTCCAGCCCGTCGACCCCGAAGCTGCAGCTGCCCGGGCACGCTCAGCCCTGGCGCGACTTGAGGCGCTGGGCGCTCGACGCGAAGCCGCCGAAGCGGCGGCTGTCCTGCGCTCGCTCGGCGTGACCCCACCACCTGGTCCCCGACGGGCGGAGCTGCTCTCGGCGCGCGAGCGTGACGTGCTGAGCCTCCTCGCGCAAGGACTCACCAACCCGCAAATCGCTGAACGACTCTACCTCAGCCCCCGCACCGTTGGGCACCACGTCAGCAGCATCCTGCTCAAACTGGGTCTGCAATCCAGATCCGAGGCCGCCGCATTTGCGGCCCGCCAGGCAGCCGCACCGCGTCATCCCGTCTGA	MVVGPSLADAAALADAGDWLAARDAYTAVLTRDESGKAHQGLARAYWWLGDVRAALEHAELAFAAYEEKSRYAEAAMVGVHLCIWYLSNFDNLAAADGWLARARHLARRSGDAVAVGWITLVSGYVAADQGEARRLIEAAASSAASLSDRDLSTMALADLGLWHVTTGDAGQGMAMLDEAMAATFAEPRRMLEVVVWSSCNMLAACSLVDDLRRATEWCRAADRFMQTYGCPFLQARCRAHYGRILVATGHWSQAERELAHALSMSADTGRGPRTEALTALAELRLRQGDPDAALVLLDDADATPSGSVVRAHCLLRLGRPTEARSILKGELSLQEHDSPTFPTLVATLAEAELASGRPAAAAGLVGSESPVWTAPAFPRAAGLLAHAAGLVAAAQGNPESARRHLGFALDVFTRLELPFETANAELDLARLFQPVDPEAAAARARSALARLEALGARREAAEAAAVLRSLGVTPPPGPRRAELLSARERDVLSLLAQGLTNPQIAERLYLSPRTVGHHVSSILLKLGLQSRSEAAAFAARQAAAPRHPV				NA	NA	NA	NA	NA
D1-17_02088	1200	nimT	COG2807	2-nitroimidazole transporter	GTGCAGGTGACTGAACGAGTAACAACGATACGCACGGCACAGGCTGGCGCGGCTTTCCTCGGCATCCTGCTCATCGCCGTGAACCTGCGGGTAGCCTTCGTCATCGTAGGTCCGGTGCTCTCAGACATCAGCGCCGAATTCGGTTGGTCCGGCAGCACTGCCGGCCTGCTGACCGGGCTGCCGTTGATTTCTTTTGCCGTCTTCTCACCCGTCGCCCCGGGTCTGGCGCGCCGGCTGGGCTTAGAGAGGGCACTGTGGGTATCGCTGTTGCTGCTAGCGACAGGAATCCTCGCCCGCTCCATTCCGGTGGAAGCCGCTGTCTGGGCCGGTACCGTGCTCATCGGAAGCGGCATCGCCTTCCTGAACGTCCTGCTGCCCTCGCTGGTCAAAAGGGATCTCCCTACGCGGGTCAGTCAGGTGACCGGAATTTACACTGCCGCTCAAGGTGCCGTTGCCGCGTCCGGCGCCGCCGTCGTCGTTCCTATTGCCAATACCAGCACATACGGCTGGCGGCTGGCGCTTGGCGTCTGGGCGGGATTGGCGCTGATCGCGCTGGCCATCCTGCTCCCAAAGCTGCGGTCCCGGAATCCCATCGCGGCCAAGGCCGAAGGCCATTCCCAGGGCCATCTGCGTTCACCGTGGAAGTCAGCGCTGGGCTGGCAGGTCACGCTCTTCATGGGGCTGCAGTCGCTGGCGTTCTTCGTCATGGTCGCCTGGCTACCCGCAATTGAGCATGAACAGGGGATCCCTGCGGCCACGTCCGGCCTGCACACCTCGGTGTTCCTGTTGGTTGGCGTGCTGGCCAGCCTAGCCGCCGGAGCCGTGTTGCATCACACGTCTGATCAGCGGCCGATCGCCCTTGGCAGCAGCATCCTCGCGTTCTGCGCGTATGCGGGCCTCTCCCTTGCGCCGCAGCTCACGCTGCTGTGGGTGGTGGTTGCAGCCCTGGGGTGCGGGAGTCTCATTGTAATCGCGTTGTCACTGTTCAGCCTCCGCGCCGGGAACCACCAGCAGGCCGCCTCGCTTTCGGGAATGGCCCAGTCGGTGGGTTACGCGATCGCGGCCGCCGGGCCGGTGGCATTCGGCGCCCTCCACGATCTCAGCGGCAGCTGGATTCTCCCGCTGACCGCCACCGCCATGCTGATGCTCGTTCTGTGCGTCATGGCCGTACTGTCCGGGAGGAACCGTGTCATCAGTTGA	MQVTERVTTIRTAQAGAAFLGILLIAVNLRVAFVIVGPVLSDISAEFGWSGSTAGLLTGLPLISFAVFSPVAPGLARRLGLERALWVSLLLLATGILARSIPVEAAVWAGTVLIGSGIAFLNVLLPSLVKRDLPTRVSQVTGIYTAAQGAVAASGAAVVVPIANTSTYGWRLALGVWAGLALIALAILLPKLRSRNPIAAKAEGHSQGHLRSPWKSALGWQVTLFMGLQSLAFFVMVAWLPAIEHEQGIPAATSGLHTSVFLLVGVLASLAAGAVLHHTSDQRPIALGSSILAFCAYAGLSLAPQLTLLWVVVAALGCGSLIVIALSLFSLRAGNHQQAASLSGMAQSVGYAIAAAGPVAFGALHDLSGSWILPLTATAMLMLVLCVMAVLSGRNRVIS	PGPT0005211_1656	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-17_02089	192			hypothetical protein	ATGGAAAAGCTCACGATCACAACACCATCAGATGTCCTCAGCTTCATCGGGCACACCCTGGGCTTTTGGCCAAAGGAAAGCCTGGCCTGCATCACGATGAACGACAACAGCATCGGCGCGACCCTGCGCATCGATCTCCCCCGCCAGCCCGGCCGGGAACTCCCCTACGCGCGCACCGTCGCGAAGTACTGA	MEKLTITTPSDVLSFIGHTLGFWPKESLACITMNDNSIGATLRIDLPRQPGRELPYARTVAKY				NA	NA	NA	NA	NA
D1-17_02090	273			hypothetical protein	ATGCGCTCAACATCTTCGGGCGAGCCAGACTTGATCACGACAACTATTATAGAACATATGTTCGAATGCCCGGGCGTGTGGAGGAACCGGACTTACAGGCGATGCTACGGCGCTCGCCGGAATGGTTTCGTCTCCGACGAAGAGTCCGTCTCGGATGGTGATGCCCTGTTCGGCGAGTACTCCGGTGAGCGCGGCGATGGTGCCCGCCTGGGGTCTGGTTTGTCCTGGGTGGCAGGCTTCGCTGGTCAGTACTTCGCGACGGTGCGCGCGTAG	MRSTSSGEPDLITTTIIEHMFECPGVWRNRTYRRCYGARRNGFVSDEESVSDGDALFGEYSGERGDGARLGSGLSWVAGFAGQYFATVRA				NA	NA	NA	NA	NA
D1-17_02091	246			hypothetical protein	ATGGCTCGGATGGACGCTGAGGCAAGCCGACCGATAGATGACCCCGCGCCTATCCGGGACTTCCCGAAGCACGGCCGGCCATTGGTGTACGTCGGCGGTGTCTACGGCAAGGCTGTGGGATGGACCCATAAGTATGGCCTCATTGAGTGGCTGGATTCATCCGGTAAGTACCACATGGGTTGGGCGCACTCATCGAGCATCAAGCGTGTGCAGCCGGAAGAGTGGAAAGGCAGTAGCGGGCTATAG	MARMDAEASRPIDDPAPIRDFPKHGRPLVYVGGVYGKAVGWTHKYGLIEWLDSSGKYHMGWAHSSSIKRVQPEEWKGSSGL				NA	NA	NA	NA	NA
D1-17_02092	264			hypothetical protein	ATGTTGATGCCCGAGCGTTTCCCGGTCAGGAACGGTGAGATCGAGGTGCATCTGCATCGGCACATCAGGCAAGGGCCAGGTGGTCCGCTCCAGGTGATCAACCTGCTGGAAAGCAAGCTTGCGGTTGCCTTGCGCATCCGTGAGCACCAGCCAATCGACATCATCGCGTGTGCCCTCGGCGGCCGGCTCGTCTCCTGGCCGGTACTGGAGTCCGAGAAGCTGGCGGTAGAACTCCGCCAGTCCTCGCACATCAGTAGTATCTAG	MLMPERFPVRNGEIEVHLHRHIRQGPGGPLQVINLLESKLAVALRIREHQPIDIIACALGGRLVSWPVLESEKLAVELRQSSHISSI				NA	NA	NA	NA	NA
D1-17_02093	846			hypothetical protein	ATGTCCGCTCCAACTGAGGTCACACCGTTGATTCGGCCGATGCGGTGGCTGCTCTACGTTGCTGCATTCCTCGTGTTTCTTGCAGGGCTCGTGCTGTTCGTGTTTCCGCTCCGGACTGAGGAATGGTTCGCGTGGACAGTCAATCCGCCAATGACCGCGGTCTTCCTCGGGGCGGCATACTGGTCGAGTGCCGGCCTGGAGGTGACGGGCGCCCGCACAGCGAATTGGGATTCAGCGAGGCTGGCAGTCTGGCCCGTGTTCGTCTTCACGACATTGACCCTCGGAGTCACCCTGCTTCATCTCGATCGATTCCACCTGTCGTCAGACACTGCCCCCACTGCCCAAGTAGCCACTTGGGCGTGGCTGGCAATCTATGCCGTCGTGCCCGTGGCGATGCTCGTCATAAGCTGGATGCAGATCCGGTCCGGGCGTCCTGCCCCAAAGTCGGTAACGGCGGGACGGCCAGTGCTACCCCCTGCGCTCCGGCTGCTCCTGGTGGGAATCGCCGCGCTACTGCTGTCATATGGCGTGGCGCTCCTGGCAGTACCCATTCCTGCCGCGACGTGGTGGCCGTGGCCGCTGTCCGAGCTCACCGCTAGGGCGATCGGAGCGTGGCTGGTCGGTCTTGGGTGGGCTGCAGCCCAGGGCCAGTTGAGCGGTGATCTTCGCACCGTCCGCCCCGTGGCCCTAACCTCCGTTGCCTTCGTCATTCTGCAGGCGCTTGCCCTGCTGCGGTATGGCGACGCCCTGACATGGCCGAGCGCTCCGGCGATCGGCTTCGTAGCCGTACTACTGGCCATTGGAGTGGCCGGCGGATGGGCATTCGCACTTTCCCGTCGCCGGTAG	MSAPTEVTPLIRPMRWLLYVAAFLVFLAGLVLFVFPLRTEEWFAWTVNPPMTAVFLGAAYWSSAGLEVTGARTANWDSARLAVWPVFVFTTLTLGVTLLHLDRFHLSSDTAPTAQVATWAWLAIYAVVPVAMLVISWMQIRSGRPAPKSVTAGRPVLPPALRLLLVGIAALLLSYGVALLAVPIPAATWWPWPLSELTARAIGAWLVGLGWAAAQGQLSGDLRTVRPVALTSVAFVILQALALLRYGDALTWPSAPAIGFVAVLLAIGVAGGWAFALSRRR				NA	NA	NA	NA	NA
D1-17_02094	1746			Ferredoxin--NADP reductase	ATGGATGACTCGGTTCCGGTCATGCTGATTGCTACCACAGACCCGACCTCTCGGCGCGTTCTTGGAGATGAGTTACGTCGACGGTACGGTGCCGACTACGAGGTGCTGGCCTGCGCAGGCCATGCCCACGGGCGGGCGGTGCTTGAGGGGCTCCGGCGCTGGAATCGGCAGGTCGCCCTCATCCTCGGGTGCTACGGGCCGGCTGACCGCGGCGGACTCGATTTCCTGCGGCGTGCCTATGGCTTTCACCCGGCCGCCAAGCGTGGAGTAGTGGTGACATGGGGTGACTTCGCCAGCGCCCCCACTGTATTCCGGGCGATCGGGCAGGGGTACGCCGAATTGGTGATCATACGTCCCGAACGATCGCGCGACGAAGAATTCCATGGGGCGATTACCGACGCCCTCGACGACTGGCACCTGGCCCAGGGGGTCGGGTTCGAGGCGGTCCGGCTGATCGGGGAGGTAGGCGACGAAAGGACTCATATGTTGCGCGACTCCTTAAGTCGGAACCACATCCCGGTGGGCTTCCACCCTGTGGGGTCCGAGACCGCGCAACGGACGCTGGAGAGCCTGGGCCTGCGCGACCCCCTGCTGCCGGTCATGGTGCTGGAGTTCACCGCCTCACCAATCGTCCTCGAGAACCCCAGCGACCTGGAGATCGCCGAAGCGATGGGGGTGACGCGACCGCCGCCGGCGGACAAGATCTTCGATGTGGTGGTTGTGGGAGCCGGTCCATCCGGTCTTGCGACCGCCGTTTATGCCTCCTCCGAAGGCCTCTCCACCATGGTGGTGGAGGGTGAGGCTGTGGGAGGCCAGGCTGGCACCAGCTCATTGATCCGCAACTACCCTGGTTTCTCCCGCGGTGTGAGCGGCGCCCACCTGGCCTACCGCTCATTTCACCAGGCCTGGACTTTGGGCACGGACTTCCTGTTCATGCGGAAGGTGGAGGGGGTCCGCGTGGACGGAGCGTTGTACGCTGTGTCGATTTCGGATGGAAGTGTCGTGCGGTGCCGCACAGTCGTCGTGGCCACCGGCGTTGACTACCGTCGCCTCGGTATACCTCAGCTGGAGGGTCTGGTCGGCAGAGGCGTCTTCTACGGGGCCACAGTCTCGGAGGCGCCGTCGATGGCGGGAAAGCATGTCTGTGTCGTGGGTGGCGGCAACTCGGCCGGACAGGCGGCTCTGCACCTTGCTAAGTACGCGAAGCAGGTGACGCTGCTGGTGCGCGGGCCCACCCTGTCGGTCAGTATGTCGGAATACCTCATCTCCCAACTTGAGGCCACCCGGAACGTTGCGATCCGCTATAGTACCGTGATCGTTGGGGCCCGCGATCAGGACGGATTCCTTGCCGCAGTCAAGGTCGCCGCATCCGGACCCGACGCAACACCGAGCGATGAGATCGAAGCGGGCGGCTTGTTCGTGCTGATCGGTTCGGCGCCGCGGACCTCCTGGCTGCCCGACACCGTGGAGCGTGACCCAGCCGGTTTTCTGCGGACGGGCGCCAGCCGGGATGTCAGTGACGCCGGGTCCAGCAAGTCGGAAAGGGCGCCTTTAGCGCTGGAAACCAGCATGCCCGGCATTTTCGCGATCGGCGACGTGCGGGCCGGTTCGATCAAAAGGGTGGCTACCGCCGTCGGGGACGGCGCCACCGTTGTCTCGATGCTTCACACCTACCTAGCCGAGAATCCTACCCCTGGTGAGGCAGCCGCACCCGAGGAGCTGCCCGGTGATGTCCGCTCCAACTGA	MDDSVPVMLIATTDPTSRRVLGDELRRRYGADYEVLACAGHAHGRAVLEGLRRWNRQVALILGCYGPADRGGLDFLRRAYGFHPAAKRGVVVTWGDFASAPTVFRAIGQGYAELVIIRPERSRDEEFHGAITDALDDWHLAQGVGFEAVRLIGEVGDERTHMLRDSLSRNHIPVGFHPVGSETAQRTLESLGLRDPLLPVMVLEFTASPIVLENPSDLEIAEAMGVTRPPPADKIFDVVVVGAGPSGLATAVYASSEGLSTMVVEGEAVGGQAGTSSLIRNYPGFSRGVSGAHLAYRSFHQAWTLGTDFLFMRKVEGVRVDGALYAVSISDGSVVRCRTVVVATGVDYRRLGIPQLEGLVGRGVFYGATVSEAPSMAGKHVCVVGGGNSAGQAALHLAKYAKQVTLLVRGPTLSVSMSEYLISQLEATRNVAIRYSTVIVGARDQDGFLAAVKVAASGPDATPSDEIEAGGLFVLIGSAPRTSWLPDTVERDPAGFLRTGASRDVSDAGSSKSERAPLALETSMPGIFAIGDVRAGSIKRVATAVGDGATVVSMLHTYLAENPTPGEAAAPEELPGDVRSN	PGPT0013060_95	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-17_02095	933	cysB		HTH-type transcriptional regulator CysB	ATGATCGATCCAAGGCTCCTTACGCTTCGGGTGTTTGCCCGGTGCGGCACCATAGGCGCAACCGCGGAGCTCACAGGTTATTCTCCCTCCGCCGTCTCCGCGCAGTTGCGGGAGCTCCAGCGCGTGCTTGGAATGCAGCTGCTAACTAAGGACGGCCGGGGTGTGCGGCTGACCGCCACGGGCCGCTTTCTCGTGGCGGGCTCGGACACCCTCATTGCCGGATGGGAGAGCCTGCGCGCCGCAGCCATGGAGGCAGGCGACCAGGTGCCATCTCATTTTGGCCTCGGCGGATTTTCCACTGCGGCCGCACAATTGCTCGCGCCGCTGGCCGCCACCCTGCGCTCGACACGCCCCCTGCTGGAGGTGCAGGTACTCGAGGCCAACCCGGCCCGCTGCTTCGACTTGTTGGTTGCCGAGCGAATCGACCTCGCGGTCATCGTCGCCATGCAGTCCGACACCTCGGTTGAGGATGATCCGCGCTTCGAGCAGACCGTTTTGCTCGACGATCCCCTGGACGTGATCATCCCCTCCGACCATCCGTTGGCATCGCGGGAAACGGTGACGCTCGAAGAGCTGGCATCCGAACCCTGGATCACTGAGTCCGCCGGTTCCGCCTACCATTCCCTGTTCACCGCGGCGTTCACGGCAGTCGGGGTGACGCCGCGGATTGCCCACGAGGCCGTTGAATGGGAAACCCAGATCGCCTTCGTTGGTGCGGGGCTGGGCGTGGGCCTGCTGCCGCGACTGGCCCCCCTGCACAGTGCCGAAAACGTGGTTCGACTGCGCATTACTGGCAAGGGAAAGCCCACGCGCCGTATTGTCGCTGCGGTGCGCAGGGGCAGCATCGCATCGCCCCTGATCCAGGAGTCGCTCGGTATCCTGCAGGTCAGCGCCAACCGGATCCTCGCCGCCCGACCCGGAGACGATCTCTGA	MIDPRLLTLRVFARCGTIGATAELTGYSPSAVSAQLRELQRVLGMQLLTKDGRGVRLTATGRFLVAGSDTLIAGWESLRAAAMEAGDQVPSHFGLGGFSTAAAQLLAPLAATLRSTRPLLEVQVLEANPARCFDLLVAERIDLAVIVAMQSDTSVEDDPRFEQTVLLDDPLDVIIPSDHPLASRETVTLEELASEPWITESAGSAYHSLFTAAFTAVGVTPRIAHEAVEWETQIAFVGAGLGVGLLPRLAPLHSAENVVRLRITGKGKPTRRIVAAVRRGSIASPLIQESLGILQVSANRILAARPGDDL				NA	NA	NA	NA	NA
D1-17_02096	1305			Carnitine monooxygenase oxygenase subunit	ATGTCTGTTCCAGTGAACTTGTCCCTCAACACCCGCGGAAAACTCGCTTCATCATTGCCTGCAGAGCAGCTGGCGGAGATCTCCGAGTTGTTCCATCTCCGGCGTACGGGATATTCCCTCGATGCACCCTTCTACACTGATCCGACGATTTTCAACGTCGACATGCAGGCCATTTTTGGCCAGCACTGGATCTTTGCCGCCAGCATCGCCGAGCTCCCGGAGCCGGGGGACTACGTCACCGTCGACTATGGGCCTTACTCCCTAATCGTGCTGCGCAACGACGACGGCGGCGTGAACGTCCTGCACAACGTGTGCCGCCACCGAGGGGCCCGCGTCCTGACCGAACCCTCGGGGTCAACAGGCAACCTGGTATGCGGCTATCACTCCTGGACCTACTCCCCCAACGGCGATCTAATCCATGCCTCGGCACCGGGTGAAACGAAGTTCGACAAGGGCTGCTTCGGTCTCAAGCGCGCCCACAGCCGCGTGTTTGCCGGACTCATTTTCGTCTGCATTGCGGATGAACCGCCCACGGATTTTGACGAAACCGGAAAGATCTTCGAGCCTTACCTTGCGCCCCACGATCTGGCGAAGACGAAAATCGCCTACCAGCAGAACATCATCGAGGAGGGCAACTGGAAGCTCGTCATGGAGAACAACCGTGAGTGCTACCACTGCGACGGCCACCCGGAGCTCGCGTGTTCCCTCTTTCCCACCTGGGGCCTGACTGAGGGCCTGGTCCCGCCTCATCTCGAAGAAGTGTGGGACCGCAACAAGGAAGCGCAGTCATCGCTCGAGGAGCGTTGCAGGCGCTATGGCCTTCCCTACGAGGTCATCGAGGAGCTTGACACGCGCATAGCGGGAATCCGCATTTCACGGGAATCGCTTGACGGTGAAGGCGAATCGTTCTCGCCCGATGGGCGCAGGCTTTCCAAGAAGCTGCTCGGTGACTTGCGGGACTTCCGTCTTGGCCGCTGCTCGATGCACCTGCAGCCCAACAGTTGGTTCCATTTCCTCGGGGACCACGTCATCACGTTCGCCGTCTTCCCCGTCAACGAACACCAGACACTGGTACGTACCACCTGGCTGGTGGCTGACGACGCCGAGGAAGGCGTCGATTACGATCTGGAGAAACTCACCTACACCTGGAAGCAGACAAATCTGCAGGACAAGGCGTTCGTGGAGCTGTGTCAGAAGGGCGCCAGCAGCCCCGCCTACGAGCCCGGCCCGTACATGAAGAGCGAATACCAGGTCGAGGCGTTCATCAACTGGTACGTGCAGCGCGTGCAGGAGCACTTGGCATGA	MSVPVNLSLNTRGKLASSLPAEQLAEISELFHLRRTGYSLDAPFYTDPTIFNVDMQAIFGQHWIFAASIAELPEPGDYVTVDYGPYSLIVLRNDDGGVNVLHNVCRHRGARVLTEPSGSTGNLVCGYHSWTYSPNGDLIHASAPGETKFDKGCFGLKRAHSRVFAGLIFVCIADEPPTDFDETGKIFEPYLAPHDLAKTKIAYQQNIIEEGNWKLVMENNRECYHCDGHPELACSLFPTWGLTEGLVPPHLEEVWDRNKEAQSSLEERCRRYGLPYEVIEELDTRIAGIRISRESLDGEGESFSPDGRRLSKKLLGDLRDFRLGRCSMHLQPNSWFHFLGDHVITFAVFPVNEHQTLVRTTWLVADDAEEGVDYDLEKLTYTWKQTNLQDKAFVELCQKGASSPAYEPGPYMKSEYQVEAFINWYVQRVQEHLA	PGPT0013680_46	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
D1-17_02097	1416	hmp_2		Flavohemoprotein	ATGACGCAACTCGGCACGGAGACGGCAATCCAGGAACCACAGCGCATCCGCGGTCTTGAGATGCCGTGGAACAGGGTGATGGGCAGCAGCGAGGGACCCGCCCGCGCCGCCCACGCACTGGGTCCCTGGCATCCGCAGGAGTTCATGGCGGAATGTGTCGAGACCGTTCCTGAGGCAGGCGGCATGATGACCTTCGTGTTCCGCCGCTGCGACGGTGCGCCCCTGGCGTTCCGTGCGGGCCAGTACGTGAACATCGCATTTCCCGTGAACGGCGAGGACCAGGATCCGGTGGACCGCAGCTACTCGCTGTCGAGCTCGCCCACCCAGCCGTGGACTTTCAACATCACAGTCAAACGCGACCCCGCTGGGCTGGTCTCACCGTGGGTGCACCAGAACGTCAAACCCGGCACCGTCCTGGAGATGCTCGGACCGGTCGGGGCATTCCACCTGCCTGACGCCGACCGCCGGGCACGATACCTCTTGCTGGCCGCCGGCGCAGGCATCACCCCCATCATGTCGATGGTGCGGACCATCCACTCCCTGCCCGGCCAAGCCGATGTCGTGGTGCTCTACCACGGAGCGGAGGCCGGCGGATATGCCTTCCACCAGGAGCTGGCCTACATCGCCTCCGTGGACTCGCGAGTCAAGGTCTTCTACGCCCTGGGCGACCGCAGCAAACCCGAAGGGTGGGAATGGCTCAGCGGAAGGCTGACGGCGGCCATGCTCGAGGAGGTTGCCCCCGATGCCAACGGCCGCCAAGTCTATGCCTGCGGCCCCGAGGGTTACCTAAATACCGCCACCGAGCTCCTGGGGAAGGTCGGCGTCGACGACACCTCCATCAACATGGAATTCTTCTCGGGAGACCGCCAGACGATCCTTGAATATCAGGCGGAGATCGCGCTTGCAGTCGACATTGCAGAGGAAATCGCCGAGGAAATCGCCGATTCCGCCGAGGACTACTACGAAAGCCAGCCCACAGCGTTCGGGCTCTACGAGCCCGGCTACAACGCCGAGGGACCACTGAAGGCCACGGGGCTGCCGCTGGAAACCGCGGACCCGGACGCCCCCTATTCCGAAGCCCCCGACGGCAGTCCGGACGTGGGGCCGCAGGCCGGGTCCCCCGATGCCTCGGGCTTCGACACGGTCGGAACGGGAAGCCTCACACTGTCCTTCATGCGCACCGGCATCAATGTCCGCATCGACCCCACCGAACACATCCTCGGGGTAGCCCAGCGTGCGGGCGTCCGGATCGGCGCGAACTGCAAGGAAGGCATGTGCGGCTCCTGCAAGGTCGTCAAGCTTTCCGGGGAGGTCGAGATGAACCACCAGGGCGGGATCCGGGCACGGGAAATCGATGCAGGCAAGTTCCTGCCCTGCTGCTCCACCGCGCGGACCGATTTGGTGATCGATGCCTAA	MTQLGTETAIQEPQRIRGLEMPWNRVMGSSEGPARAAHALGPWHPQEFMAECVETVPEAGGMMTFVFRRCDGAPLAFRAGQYVNIAFPVNGEDQDPVDRSYSLSSSPTQPWTFNITVKRDPAGLVSPWVHQNVKPGTVLEMLGPVGAFHLPDADRRARYLLLAAGAGITPIMSMVRTIHSLPGQADVVVLYHGAEAGGYAFHQELAYIASVDSRVKVFYALGDRSKPEGWEWLSGRLTAAMLEEVAPDANGRQVYACGPEGYLNTATELLGKVGVDDTSINMEFFSGDRQTILEYQAEIALAVDIAEEIAEEIADSAEDYYESQPTAFGLYEPGYNAEGPLKATGLPLETADPDAPYSEAPDGSPDVGPQAGSPDASGFDTVGTGSLTLSFMRTGINVRIDPTEHILGVAQRAGVRIGANCKEGMCGSCKVVKLSGEVEMNHQGGIRAREIDAGKFLPCCSTARTDLVIDA	PGPT0013685_69	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
D1-17_02098	270			hypothetical protein	GTGGAGGCGGCCAAGGAAGCCGTGGTGAGCCTGAAGGTCACCTCCGCGATGGCCGGAGCCGTCCGGATGGAGCGCTACTGCCATGACCTCGAGGACACGCTGGCGGCGCACAGGATTCCGGACGCTGCGGCAGTGCTCGTGGGGATGTCCAGGACGTCGAGACTTTACATCCGCACTTTACATCCGCCAGGTCCGCCAGTGCAGAGACAGGCGAGGCAGGTAGCCGGCGGGAGTTTGGGGGAGAATGCTTCCGGGCCCGGCAAGCCCTGA	MEAAKEAVVSLKVTSAMAGAVRMERYCHDLEDTLAAHRIPDAAAVLVGMSRTSRLYIRTLHPPGPPVQRQARQVAGGSLGENASGPGKP				NA	NA	NA	NA	NA
D1-17_02099	507			hypothetical protein	ATGGAAACTCGTCAAGTCTCTGCCCCAGCCACAGAAACGCGAAGCCTGTGGAGCTCGACCATCCAGGGCAGGTTCACCGCGCCGGCAGCCCCCATCATTCAGGGCAACCGCGCTGGCCGGCCAGCTGCTCACCGCCGTCCGGGCCCAGCCCCCACCCCGGCAGCGGACAGCGTGCAGTACGTTTGGTACCGGGACGGGCAGCACATGACCTACCACTCAACCGACCCAAGCTACCGGCTCACCCCTGCCGGCGGCGGCCGCAAGATTACCGTCAAGGCGTTCTACAACAAGGCCAACTACCTCAGGGCTGTCAGTCCCGCCTCCGCTGCCGTGAGCTGGCCGTGTTACTTCACACTGGGAGCCGCCTCAATCATCGGGACCGCGGCAGTCGGGTACACGGTCGAGGCCGGAACAGCCGGTGTCTCACCCGCGATGGCTCCCGCAATCAGGCCGAGCACGAGAAATGCGAGAAATCCCATGACGCTTCGTTTCCACAGTGATCATTGA	METRQVSAPATETRSLWSSTIQGRFTAPAAPIIQGNRAGRPAAHRRPGPAPTPAADSVQYVWYRDGQHMTYHSTDPSYRLTPAGGGRKITVKAFYNKANYLRAVSPASAAVSWPCYFTLGAASIIGTAAVGYTVEAGTAGVSPAMAPAIRPSTRNARNPMTLRFHSDH				NA	NA	NA	NA	NA
D1-17_02100	489			hypothetical protein	ATGAAACCGTTGATCCTCCTCGACATCGAAGGAGTCCTGAACCCGACGGCGCATCATCGCAGGGGCGAGGACTATCCCGCGCTCGGGCTCTCAGATACCAAGGTGTCGTTGGTCAGACGGCTCGCCAGGTGCGGGCGGATCGCCTGGGTGTCGACGTGGCCGGCGGCCATGATCGGGGGGCTGGAGAGGCAGCTGCAGCTCGAGGTGGAACCCTTACGCATCACGCTGACGCTTAGCCCCGACGATGGTGATGAGCCGACGCCGAAGCTGCGCTCGGTGATCCGGTGGCTGGCCCGGATGGAGGACCTGGGCGAAGCGGATTGGGACTCGGTGGTGTGGGTTGATGACGTGCTCGGTCCGGACGCCCGGGAGTGGGCCCATCACCACAGCCAGCCCGTCCTGCTGGAGAAGCCGGTTCCGGACCATGGCTTGACCGAAGCGCACGTCGTGGCCGTCGAGGTGTTCCTTGATAGCGGCGCCGGGGGGTGA	MKPLILLDIEGVLNPTAHHRRGEDYPALGLSDTKVSLVRRLARCGRIAWVSTWPAAMIGGLERQLQLEVEPLRITLTLSPDDGDEPTPKLRSVIRWLARMEDLGEADWDSVVWVDDVLGPDAREWAHHHSQPVLLEKPVPDHGLTEAHVVAVEVFLDSGAGG				NA	NA	NA	NA	NA
D1-17_02101	732			hypothetical protein	GTGACTGTGACTGTCTTGGAATTCTGTGTCCTCGCATCGGTCCTGTTCGCCGCAGCATGCCTCCAAGGATCCGTAGGCTTTGGCTTAGGAATGGTCGCGGCGCCGGTGATTGCCATCATCGATCCGTCGCTGTTGCCAGCCTCGCTGATCCTGCTTTCTGTTCTGCTGACCTTGATCATCACCGTACGGGAACACCAACACTTGGACATTCGCGGCGTCGGCTGGGCCTTGGCTGGCCGCATTCCGGGCAGTATCGTCGGGGCCTGGCTAGTCATCGCGCTCCCGCCGGAGGGCCTGGTATGGCTGGTGGCGTTCGCGGTAACTGCAGGGATCTTGGCAGCCTTCCTCGGCTGGGTCCCGCCACCACTAAGGCGCAATCTGATAGCTGCTGGAGCCGCCTCAGGAATCCTAGGGACTGCCACATCCATCGGGGGCACTCCCATGGCAATCATTTGGCAGCGCTCCGAAGGTCCTCGACTCCGCGGAACGATGAGCGCCTTCTTCCTGGTCGGTTCCTGCATGTCCCTCCTGGCTCTGGCCTTGGCTGGTGCAATCAACGAAAAAATACTCCAGGTATCACTCGCAATGGTTCCGTCCGTGCTAGCAGGATTCTTTCTGTCCCGCTTCCTCACCAGATTCCTGCAGCCACAGCGGACACGTCTAGTCGCGCTGGCTGCATCCTCAGCGGGTGTACTGCTGCTCATCGGCCAGCAACTGCTGCAGCAGGGCTAG	MTVTVLEFCVLASVLFAAACLQGSVGFGLGMVAAPVIAIIDPSLLPASLILLSVLLTLIITVREHQHLDIRGVGWALAGRIPGSIVGAWLVIALPPEGLVWLVAFAVTAGILAAFLGWVPPPLRRNLIAAGAASGILGTATSIGGTPMAIIWQRSEGPRLRGTMSAFFLVGSCMSLLALALAGAINEKILQVSLAMVPSVLAGFFLSRFLTRFLQPQRTRLVALAASSAGVLLLIGQQLLQQG				NA	NA	NA	NA	NA
D1-17_02102	681	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCCTCCTGAGCAGCATGCGGTAGTCACGGGCTGCAGCTCGGGAATCGGCCTGGCCATCACGCGCCGGCTGCTGGACGACGGGTGGGCCGTGACCGGGCTGAGCCGGACCGAAACCTCGCTGGACGGGAAGTTCGAGTGGCTGCGGGCGGACCTCTCGGAGCCGGAGTCTTTGGCTGACGCGGTGGGCGGGTTGCGCCCTGCCGATGCGCTGGTCCACGCCGCCGGGTTCCAGCGGACGGCGTCGCTGGGGGAGCTCGACCCTTCGGCCTTATCCGGGATGTTCGCCGTTCACGTAGCGGCGGCCAGCGTGCTGGCCAACGCCTTGGTCCCGACAATGCCCGACGGCGGAAGGGTAGTTTTGCTGGGCAGCCGCACCTCCACTGGGTCTCCGGGCAAGAGCCACTACGCCGCCACCAAGGCTGCGCTCATGGGGCTCGGCCGGACATGGGCCCAGGAACTTGCGCCGCGCGGGATCACGGTCAACGTGCTTTCCCCAGGCCCGACGGACACCCCCATGCTGAACGACCCCGGCCGGGCCGCTACTCCCGTGCGGATGCCGGCCCTTGGGGCCTTGGTGGACCCGGATGATGTGGCAGCTCTGGCAGCTTTCCTGCTCGGGCCCCACGGCAAGTCCATCACCGGCCAGAACTACGTCATCTGCGGAGGTGCATCGCTCTGA	MPPEQHAVVTGCSSGIGLAITRRLLDDGWAVTGLSRTETSLDGKFEWLRADLSEPESLADAVGGLRPADALVHAAGFQRTASLGELDPSALSGMFAVHVAAASVLANALVPTMPDGGRVVLLGSRTSTGSPGKSHYAATKAALMGLGRTWAQELAPRGITVNVLSPGPTDTPMLNDPGRAATPVRMPALGALVDPDDVAALAAFLLGPHGKSITGQNYVICGGASL	PGPT0003180_22923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_02103	1266			hypothetical protein	ATGCAGAACACCACCACCGACGCCTACAGCACCATCACCCCGGACGGGGTCATGAAGCGGGCCGACGGCGCCGACTTCGCCTACCTGCCGGCTCCTACCGTCCAGAGCCACGCCGCCAACCTGCTCACCCTGCCCGACGGCCGGCTCGGCTGCGTCTGGTTTGGCGGAACCCAGGAAGGCGTGCCGGACATCTCCATCTGGTTCTCAGCCCTCGAACCCGGCAGCAGCCAGTGGTCCGAACCGCAGCAGCTTTCCAATGACTCCACCCGGTCGGAGCAGAACCCCATCCTGTTCACCGCAGCTGACGGCGCCCTGTGGCTGCTGTACACCGCCCAGAAGGCGGGCAACCAGGACACCGCCGAGGTCCGCCGTCGTATTTCCACGGACAGCGGCCGCACCTGGGGCGAGGTGGAAACACTGTTCCCCGCGAACGAGACCGGTGGTGTGTTTGTCCGCCAGCTGCCCGTGGTGCTGCCGTCCGGCCGCCTGATCGTGCCGATCTTCCGCTGCATCACCGTCCCGGGCGAGAAGTGGGTGGGCAACAGCGACGACAGCGCCGTGATGATCTCCGACGACGCCGGCGCCACCTGGACCGAGCGCGTCCTGCCGGGGAGCCTGGGTTGTGTTCACATGAACATCCAGCCGATGGCAGACGGTTCGCTGCTGGCCCTGTTCCGCAGCCGCTGGGCCGACTCGATCTACGAATCCCGCTCCACCGATGACGGCTCCACCTGGAGCGAGCCCATCCCCACCGAGCTGCCGAACAACAACTCCTCCATCCAGTTCACCGCCCTCGCCGACGGCCGCCTGGCCCTGGTCTACAACCACAGCCGCGCAGGGGAGAACACCGAGCGCAGGCTGTCCCTCTACGATGAAATTGATGACGACGGGCTGGCCGAGGAGCAGGGTCAGCTCGCTGAACCGGTGCCCGGTGCCGCTTCCTCCGACGGTGAGGAGCGCCGCGCGTTCTGGGGGACGCCGCGGTCTCCGATGACCCTGGCCATCTCCGAGGACTCCGGCCGTTCGTGGCCCATCCGCCGGAACCTGGATGTGGGGGATGGGTACTGCCTGTCAAACAATTCCCGCGACGGACTTAACCGTGAGTATTCCTACCCGTCCATCCATCAGGGCCCGGACGGTGCCCTGAACATCGCCTACACATACTTCCGCCAAGCCATCAAGTTCGTCCGCGTTGACCCGCAGTGGGCGTACGAGGGCATTCAGACGCCGGGCGGCCTCGAGGATGCTTCGATCCATGCCTCCTGA	MQNTTTDAYSTITPDGVMKRADGADFAYLPAPTVQSHAANLLTLPDGRLGCVWFGGTQEGVPDISIWFSALEPGSSQWSEPQQLSNDSTRSEQNPILFTAADGALWLLYTAQKAGNQDTAEVRRRISTDSGRTWGEVETLFPANETGGVFVRQLPVVLPSGRLIVPIFRCITVPGEKWVGNSDDSAVMISDDAGATWTERVLPGSLGCVHMNIQPMADGSLLALFRSRWADSIYESRSTDDGSTWSEPIPTELPNNNSSIQFTALADGRLALVYNHSRAGENTERRLSLYDEIDDDGLAEEQGQLAEPVPGAASSDGEERRAFWGTPRSPMTLAISEDSGRSWPIRRNLDVGDGYCLSNNSRDGLNREYSYPSIHQGPDGALNIAYTYFRQAIKFVRVDPQWAYEGIQTPGGLEDASIHAS				NA	NA	NA	NA	NA
D1-17_02104	792			2-dehydro-3,6-dideoxy-6-sulfogluconate aldolase	ATGACCTCCGAACTGGCCACCGAATTCGCCCGCAAGATCCGCGCCCGTGAGCAGGCGGTGGGCTACTGGGCGGTGCTGGACGCGCCCGTGGCTACCGAACGCATCGGCCGGCTCGGCTACGACTACGTGGCCCTCGACGCGCAGCATGGCCTGCTCGGCTACTCGGGCGTGCTCAACGGGCTGATGGCCATCGATGCCGGACATATCGCCGTCGGCATGGTCCGGGTGGAGGCCAACGACTTCACAGCGATTGGCAAGGCCCTTGATGCGGGGGCCGTGGGCGTCATTGTCCCGCTCATCAACAACGCCGCCGACGCCGCCGCCGCCGTGGCCGCCGCCAAGTACCCGCCCATGGGCGGCCGCTCCTACGGTCCGATGCGCTCGGCCCTGCGGATCGGGCCGAAGCCCGCTGACGCCAACGGCACCACGCTGGTGTTCGCCATGATCGAAACGCCGGAGGGACTGGCCAACGTCAAGGAAATCTGCGCCACCCCAGGCCTGGACGGGATCTACGTCGGACCCTCGGATCTCACCATCGCGGTGGGCGGGGCATTCCCGGGGGACCCTCAGGTGGAAGCCGAATTCAATGCTGCGCTGGAGACCATTGCCGAGGCCGCGGCCTCTGCCGGCATTGCCGCCGGGATCCACACGCCCGCCGGTTCCGTCGCAGCGCAGCGGCTGGCTCAGGGCTACACCTTCGCCACCATCGCTTCCGATCTGACGCACCTGGAACAGATCGCCAAATCCCACCTCGACACCGCTCGCTCGGATGCCGGAACCAAGGAGAGCTAA	MTSELATEFARKIRAREQAVGYWAVLDAPVATERIGRLGYDYVALDAQHGLLGYSGVLNGLMAIDAGHIAVGMVRVEANDFTAIGKALDAGAVGVIVPLINNAADAAAAVAAAKYPPMGGRSYGPMRSALRIGPKPADANGTTLVFAMIETPEGLANVKEICATPGLDGIYVGPSDLTIAVGGAFPGDPQVEAEFNAALETIAEAAASAGIAAGIHTPAGSVAAQRLAQGYTFATIASDLTHLEQIAKSHLDTARSDAGTKES	PGPT0001575_968	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
D1-17_02105	990	yhdN_1	COG0667	Aldo-keto reductase YhdN	ATGAGCACTCAGCCCGAAGGCGCCCAGGTGGACGGCCTGAAACTTCCCATTTCCCGGCTGGTCCTGGGAACCATGACCTTCGGCGACACCGCCGACGAAGCCACAGCGGGGCGGATGGTGGAAGAAGCGCTCGACGCCGGCATCACCACCATCGACACCGCCAACGCCTACGTGGGCGGGGTCACCGAGGAGATGCTGGCACGTCTTTTGAAGGGAAAGCGCGACGGCGTCATCCTGGCCTCCAAGGCCGGCATGCCTCATGCGGACCACGGCTCCAACTCGCCGCTCTCGCCCGCCGGGCTGCGGGCCAGCGTGGAGGGGAGCCTGCGGCGGCTGGGTGTGGACAGCATCGACCTGTTCTACCTGCACCAGCCGGACCGGGCCACGCCTTTGGCTGACACTCTGTCCACGGTTGCCGAGCTGGTTGCGGAGGGGAAGATCGGCGCGCTGGGCGTCTCCAACTTCGCCGCCTGGCAGATCGCCGACGTGATCCACACCGCGCGGGAAGTGGGGGCGCCGCGGCCCATCGTCGCGCAGCAGCTCTACAACCTGGTGGCCCGCCGGCTCGAGGAGGAATACCTCGAATTCGCCGCCACCCATAACGTGCACACCATGGTCTACAACCCGCTGGGTGGCGGCCTGCTCACCGGCAAGCACAGCTTCGACGCCAAGCCCACCGAGGGCCGCTACGGCGACTCCAAGCTCGCTGCCATGTACACGCAGCGGTACTGGGACAAGCAGCTGTTCGACGCGATCGGCGAGCTGTCCCGCATCGCATCGGACGCCGGGGTTTCCCTGGCTGAGCTGTCGCTGCGCTGGCTCGCCTACCGGCCCGGGGTGGGGTCCATGCTGCTGGGCGGATCGAAGGTGGAGCAGCTCCGCGCCAACATCGACGCCGTGGCCAACGGGCCCCTGCCGACCGACGTCGTGGAAGCCTGCGACGCCGTTGGCACCTCGTTGCGCGGCCCGATGCCCGCCTACAACCGCTGA	MSTQPEGAQVDGLKLPISRLVLGTMTFGDTADEATAGRMVEEALDAGITTIDTANAYVGGVTEEMLARLLKGKRDGVILASKAGMPHADHGSNSPLSPAGLRASVEGSLRRLGVDSIDLFYLHQPDRATPLADTLSTVAELVAEGKIGALGVSNFAAWQIADVIHTAREVGAPRPIVAQQLYNLVARRLEEEYLEFAATHNVHTMVYNPLGGGLLTGKHSFDAKPTEGRYGDSKLAAMYTQRYWDKQLFDAIGELSRIASDAGVSLAELSLRWLAYRPGVGSMLLGGSKVEQLRANIDAVANGPLPTDVVEACDAVGTSLRGPMPAYNR	PGPT0017540_415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017540-yajO|iolS-K23107	NA	NA
D1-17_02106	828	oppF	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACTAAGCCGTTCCTCGCCGTCGAAAACCTCGTGGTGGACTACCACGTGCCGGGTGGCACCTTCCGGGCCGTTGACGACGTCTCCTTCTCCGTGGACAAAGGCAAGACGATCGCCGTGGTGGGTGAATCCGGCTGCGGCAAGTCCACGATCGCCAAGGCGCTGATGCGGCTTGTGACGCCCACCAGCGGGCGGATCGAGCTTGATGGCACGGACATCGCGGCCATGAGCGAGTCGAAGCTGCGGCCGATGCGCTCCAGGTTCCAGATGGTGTTCCAGGACCCGTACGGCTCGCTGGACCCGCACATGACCGCGCAGGAGATTGTGGCCGAGCCGCTGAAGCTGCAGGGCGTCCGGTCCAAGGTGGAGCGGCACAAGGCGGCCGCGAAGCTGATCGACCAGGTGGGCCTGCCCGTGCGGTCCCTGGACAAGCACCCGTCCGAGTTCTCCGGCGGCCAGCGCCAGCGCATTGGCATCGCCCGGGCTCTCGCGTCCAAGCCCGAACTGCTGGTCTGCGACGAGGCTACCAGCGCGCTGGACGTGTCCGTGCAGGCGCAGGTCCTGCGGCTGCTGAAGTCCATCCAGGACGAAACCGGCATCACCTACGTGTTCATCTCGCACAACCTTGGCGTGGTGCAGGAAATCAGCGATAGCGTCATGGTGATGCAGCGCGGCAAGCTGGTTGAGCACGGCTCCACCGCCTCAGTCCTGACCAGCCCAAAGGAGGACTACACCCGCAAGCTCCGCCGCGCGGCGCTGGACCCCTCTACCATGACGGGCCTGAAGCCGCGGCACCTGGTCCGCTCCCTGGCCCTGGCCAACTCCTAA	MTKPFLAVENLVVDYHVPGGTFRAVDDVSFSVDKGKTIAVVGESGCGKSTIAKALMRLVTPTSGRIELDGTDIAAMSESKLRPMRSRFQMVFQDPYGSLDPHMTAQEIVAEPLKLQGVRSKVERHKAAAKLIDQVGLPVRSLDKHPSEFSGGQRQRIGIARALASKPELLVCDEATSALDVSVQAQVLRLLKSIQDETGITYVFISHNLGVVQEISDSVMVMQRGKLVEHGSTASVLTSPKEDYTRKLRRAALDPSTMTGLKPRHLVRSLALANS	PGPT0004440_8858	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
D1-17_02107	957	oppD	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGACCGCACAACCTCAGACCTCCGCTCACCGGGAGCAGCCGCTCCTCGAGGTCCGTGACTTCCAGGTGGAACTGATTACCGACGCCGGAATCATCCGCGCCGTTGACTCCGTCAGCTTCAGCATCCACCGGGGCGAGACGGTCACCATCATCGGCGAGTCCGGCTCCGGCAAGTCCACGACGGCGATGGGCATCCTCCGCCTGCTGCCCGAGGACCTGGCGGTGCTGTCCGGCACAGTGCTGATTGACGGTGTCGACGTCACCGCCGATCCCAAAGCGATCGACAAGGTGCGCGGCAAGACCCTGGCGCTGATCCCGCAGGACCCGATGACGGCGCTGAGCCCGGTCCATTCGATCGGCAGCCAGCTCTTCGAGGCCATCCGGATCGCCGGTGCGGCCTCGGCCAAGGACAAGGGCGCGCTGCAGGCCCGGGCCATCCGGCTGCTGGAGCAGGTGCACATCCCCACCCCGGAGAAGCAGCTGAAGAAGTACCCGCACCAGCTCTCCGGCGGCATGCTGCAGCGCGTGCTGATCGCCATTGCCCTGGCCAGCGAGCCGCAGCTGCTGGTTGCGGATGAGCCGACGTCGGCCCTGGACGTCACCGTGCAGGGCGGGATCCTGGACCTGCTGCTGGAACTGCAGGAGCAGCGCGGCATCGGCATCCTGATGATCACGCACGATCTCGGTGTGGCCCGGCTGATCTCGGACCGCATCCACGTGATGAAGGACGGCTCGTTTGTGGAGTCGGGCGAGGTCCAGCAGATCGTGGACCACCCCGCCACCCAGTACACCCGGGACCTTCTGGCTGCCGTGCCCGTCCTGGGCCCGTGGGACGAAACTCCCGCTGCCTCCCCGGGCCGCTCCCACGGTGCGCACGGCCTGCAGCCCGGTGACTCAGCCACCGGTTTAACCGCCACCGATTCCGCCCTGACCCAGACCGGAGCCAGCCATGACTAA	MTAQPQTSAHREQPLLEVRDFQVELITDAGIIRAVDSVSFSIHRGETVTIIGESGSGKSTTAMGILRLLPEDLAVLSGTVLIDGVDVTADPKAIDKVRGKTLALIPQDPMTALSPVHSIGSQLFEAIRIAGAASAKDKGALQARAIRLLEQVHIPTPEKQLKKYPHQLSGGMLQRVLIAIALASEPQLLVADEPTSALDVTVQGGILDLLLELQEQRGIGILMITHDLGVARLISDRIHVMKDGSFVESGEVQQIVDHPATQYTRDLLAAVPVLGPWDETPAASPGRSHGAHGLQPGDSATGLTATDSALTQTGASHD	PGPT0004435_12591	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
D1-17_02108	927	ddpC	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGAGCCTCGACACCGCAACCCCAGCCGCGGCCGGCCAGCCGGCCAGGCAGCCCAGCCCTTCCGCCATCACCAAGGAGGACATCGCCAAGGCAGGAGCCACCCGCCGTCGTAAAGCCGCCAAGTGGAAGCTCATCGTCGGCACCGTCTGCACCCTGCTGGTGATCATCCCGATCATCCTGGCCCAGGTGCTTCCCCTCCCGGACGCGAACTTCCAGGACCTCGGAGCACGGCGCCTGCCGCCGCTCACCGACGGGCACCTGTTCGGCACAGACCAGCTGGGCCGCGACCTCCTCTCCCGGGTGCTGCACGGGGGCCAGGTCTCGCTGACCATCGGCCTGCTGGCGGTGCTGGTCTCCGGCGCCATCGGCATCATCCTCGGCGCGGCCGCCGGCTACTTCGGCGGCTGGGTGGACACCATCGTCTCCCGCGTCCTCGAAGCCCAGATGTCCCTGCCGCTGCTCATGATGCTGCTGCTGGTGGTGGCCCTGTTCGGCCCCTCCATCCCGGTGATCACCTTCGTGATCGCCATCGCCCAATGGCCCGAAGTGGCCCGCCTCACCCGCTCCATGGTGCTGGTGGAACGCGAAAAGCCGTACGTCTCCGCCGCCCGGATCCTGGGCCTGCACAAGATCCAGATCCTCATCCAGCACATCATCCCCAACGTCATCAAGCAGGCAACCTTGGTGGTCCTGCTCCTGCTGGCTCAGGCCGTGCTGCTCGAGTCCGCGCTCAGCTTCCTCGGTGCCGGCCCGCAGCGGCCCTTCGCCACCTGGGGCCGCATCATCTCCGACGGCCAGGACTACATCACCACCTCCTGGTGGATGGTCACCCTGCCCGGCCTGGTGATCGTGCTCATGGTGGTGGGCGTGAACCTGCTGGGCGACGGCCTCCGCGACCGTCCCCGCCGCAAGAAGAAGGGTGCCTGA	MSLDTATPAAAGQPARQPSPSAITKEDIAKAGATRRRKAAKWKLIVGTVCTLLVIIPIILAQVLPLPDANFQDLGARRLPPLTDGHLFGTDQLGRDLLSRVLHGGQVSLTIGLLAVLVSGAIGIILGAAAGYFGGWVDTIVSRVLEAQMSLPLLMMLLLVVALFGPSIPVITFVIAIAQWPEVARLTRSMVLVEREKPYVSAARILGLHKIQILIQHIIPNVIKQATLVVLLLLAQAVLLESALSFLGAGPQRPFATWGRIISDGQDYITTSWWMVTLPGLVIVLMVVGVNLLGDGLRDRPRRKKKGA	PGPT0004450_5454	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
D1-17_02109	936	nikB	COG0601	Nickel transport system permease protein NikB	ATGACGAATTACATCCTCAAGCGCCTGGGACAGGGCCTGCTGACCGTGTTCCTCACGGTGTCCACCGTGTTTATCCTCATCCGCATGGCACCGGGCGATCCGGCAGTCTCCTACGCAGGCCCACTGGCCAGCAACGAACAGCTCGCGAAGGTGCGGGAGCAGTTCGGCCTGGACCGGACCGTGCTGGAGCAGTACTGGATCTTCCTGCAGCAGCTGTTCACCGGCAACCTGGGCCAGTCCTACTCCTTTCAAGCCCCGGCCATGCAGGTGGTGGCCGAACGGATGCCCTACACGCTGACCCTCGCCACCGCCGCGATCCTGCTCACCGCCGTCGTCGCCATCCCGCTGGGCGTGTGGATGTCCCGCCGCCCGGACACCGGCAAGGAATTCGGCGTGAACGTGCTGACCATCGCCGGGCAATCCATGCCCGACTTCTGGACCGGCATCATGCTCCTCACCGGCTTCGCCGTCTTGATCCCGATCTTTCCGGCCTCCGGCTTCGCCACCTGGGGCGGACTGGTCCTCCCGACCATCACCATCGCCATCCTGCAGATCGCCCTGATCTCCCGCATGGTCCGGCGGGAAATGACCGCCAACCTGGCGGCCCCGTTCCTCACCGTGGCCCGCTCCCGCGGCGTCCGCAGCTCGGCGCTCACTTGGCGCTACGCCATGGGCAACTCCGCCATCCCCGTCTTCACCGCCCTCGGCACCCGGTTCGCCGCGATGCTCAACGGTGTGGTGGTCGTCGAGGTGGTGTTCGCCTGGCCCGGCGTCGGCTCCCTGATTGTGCGGGCCCTCGAAACCCGCGACTACCCCCTCATCCAGGCCACGGTCCTCCTCACCGCGCTGCTGGCGGTGGCTGTCCAGCTGCTCATCGACCTCGCCTACCCGCTCCTTGATCCCCGCGTTCGTCTTGGAAAGGCGGCAACAGCATGA	MTNYILKRLGQGLLTVFLTVSTVFILIRMAPGDPAVSYAGPLASNEQLAKVREQFGLDRTVLEQYWIFLQQLFTGNLGQSYSFQAPAMQVVAERMPYTLTLATAAILLTAVVAIPLGVWMSRRPDTGKEFGVNVLTIAGQSMPDFWTGIMLLTGFAVLIPIFPASGFATWGGLVLPTITIAILQIALISRMVRREMTANLAAPFLTVARSRGVRSSALTWRYAMGNSAIPVFTALGTRFAAMLNGVVVVEVVFAWPGVGSLIVRALETRDYPLIQATVLLTALLAVAVQLLIDLAYPLLDPRVRLGKAATA	PGPT0004445_13204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
D1-17_02110	1575	gsiB	COG0747	Glutathione-binding protein GsiB	ATGACCGTTCTTCCTCAAGGAAGTGAGATTTCCCGCCGCCGCCTGCTGCAGTTCGGCGCCGCGGCCGGGTTTCTGCTGGGCACCGGCAGCCTCGCAGGCTGCGCCGGCCCTACCGGCCTTCCCGGACCCAGCACCCTGACCCTGGCCCTGAACCGCTCCCTGGTCAGCCTGGACAACAAGCTCAACCAGTTCGACGCCGCCGTCACGGTGCAGCGTGCCGTCCGCCAGGGCCTCACCGCCATCGGCCCCGAAACCAAGCCTGTGCTGGTCCTGGCCGAACGCTTCGAGATGACCGGCCCTACCGAATGGACCGTCCGGTTCCGCGAGGGCATCCGCTACTCGGACGGCAGCCCCGTGACGGTGGAGGACGTTGCCACCGCACTGAAGATGTATCAGCAGGTGCAGGGCTCCTTCGTGGCCGGCTTCTTCCCCGAATTCCCCAAGGTGGTGCCGGTGGATGACCGCACCTTCAAGATGGTGTCCAAGAGGCCCATCCCTATCTTGGACTCGCTCATGAGCATGATCCTGATTACCCCCGCCGCGCAGAACAAGCCGGAGGAACTGCAGGAAGGCGTGGGCACCGGCCCCTACGTGGTCACCAAGTTCAACCGTGGCGCCGGCACCTACAGCCTGGCCCGCAACGAGAACTACTGGGGCCCGGCACCGCAGGTGGACAATGTGGAAGTCCGGTTCCTCCCCGAGGAATCCAGCCGCGTTATCGCCCTGCGCAGCGGCGAGGTGGACGTCATCGACTCCATCACGCCCGACTCCCGCGAACAGCTCGCCGGACTTCCCGGCGTCGAACTCCAGGAGGCGTCCAGCCTCCGCCTGAACCAGATCTTCTTCAACTTTCGCAAGCCCGCCGGCCACCCGCTGGCCAATCCCCGAGTCCGCCAGGCACTCAGCATGGCGATCGACGGCGAGGCACTGGTCCGCGATGTCCTGGTGGACTCCGTCACCCAGGCCGAGGGCGTCACCCCGTCCAGCCTCACCGGTTACAACAAGACAGGCGAATACGTTTACGATCCCGAGAAGGCCAAGGCCACCCTCGCCGAGCTTGGCGTCAAGGACCTCACCCTGAAGATCATCTGGGAGACCGGCGAATTCGCCTCCGACACCTCCGTGATGGAGGCCCTGGTGGAGATGTTCGGCAAGATCGGCGTGAAGGCCGAGCTGCAGCAGTTTGAACCCGGCGGCAATATCCTGGCCTGGCGCCAGGGCAAGCAGGGTGACTGGGACCTGCTGGGCAACGGCTACCCGAGCCCCACCGGCCTGGCCATCACCATGCTGCAGGGCATGTACTCCGGCACCCCCGAAAAGGAAGCCACGCGCGACACCTACCAGGGCTATGTGATCCCCGAGGTCACCGCCAAGATCCAGGCCGCGTCTGCCGAAGCGGACCCGGCCCGCCGCACTGAACTGTTGAATGACGCACAGCAGGCCGTTTGGGACACCTGGCCCTGCGCCTGGGCGTTCGTCCCCAAGTCCGTCCTCGCCCACCGGGAGCGGGTGTCCAACATCAACCTGGCACCCACCAACTCCTACCCCCTCGTTGATGTCCGGCTGGAGGCCTAA	MTVLPQGSEISRRRLLQFGAAAGFLLGTGSLAGCAGPTGLPGPSTLTLALNRSLVSLDNKLNQFDAAVTVQRAVRQGLTAIGPETKPVLVLAERFEMTGPTEWTVRFREGIRYSDGSPVTVEDVATALKMYQQVQGSFVAGFFPEFPKVVPVDDRTFKMVSKRPIPILDSLMSMILITPAAQNKPEELQEGVGTGPYVVTKFNRGAGTYSLARNENYWGPAPQVDNVEVRFLPEESSRVIALRSGEVDVIDSITPDSREQLAGLPGVELQEASSLRLNQIFFNFRKPAGHPLANPRVRQALSMAIDGEALVRDVLVDSVTQAEGVTPSSLTGYNKTGEYVYDPEKAKATLAELGVKDLTLKIIWETGEFASDTSVMEALVEMFGKIGVKAELQQFEPGGNILAWRQGKQGDWDLLGNGYPSPTGLAITMLQGMYSGTPEKEATRDTYQGYVIPEVTAKIQAASAEADPARRTELLNDAQQAVWDTWPCAWAFVPKSVLAHRERVSNINLAPTNSYPLVDVRLEA	PGPT0004430_13264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
D1-17_02111	2382	pdxA		4-hydroxythreonine-4-phosphate dehydrogenase	GTGGCTTCCGTATTTGTGCAGGCCGACGACTTCTCCGGTGCCGCCGAGGTTGGCTACTGCTTTGTACAGCACGGCCTGACCGCACAGGTGCTGCTTGGGAAGCACGACGGCGTTTCCTCATTCGCCGGGCCTGTCACCGACGCGGTGGTCACCGATACCCATTCACGCGGGCTCGCTGAACCTGCGGCTGAAGCCCTGGCGAAGGAAGCTTTTTCCAGTACTGCAGCTTCGGGCGCGCAGGTGATGTTCAAGAAGATGGACTCCCTGTGGCGCGGAAATGTCCGCGCCGAAGTTGCCGCGCTAACAAGCCTTGGTTTTCACGCTGTAGTTGCGGGAGCACTCCCCCAGCTGCAGCGGTCCGTACGGGACGGCCAGCCCCTGATTGCCGGGACTCCCCTGGCCCAGACGGACCTGTGGCAGGCCGAACGTTCGGCCCCGCCTGCGGACGTTCCGTCGCTGCTGCGCCCGGAGGATCCGGCTTCGGTGCAGACCCTGGATTTGGCCGAGGTCCGGTCCGGCCCGCTTCCGTCGAAGTTGGCGGCGCTGCTGGCCTCTGACCGGCCAACACTGATCGTGGCCGACGGCGAAACGGTCCAGGACCTGGAGCACGTGGTGGACGCCCTGCTGGAGCTCGGCTTCACTGCCGGCACCCGCCGCATCGTGCTGGTTGGCACCGGCGGGACGGCGGACGTGCTGGCTCAACGACTTGCAGGGCAGCGCCTGGCTGCACAAGTTGCGCGGAATGCGCAAAGTATGACACGGGCTAACCCGACCACCTCGGAACTGCAGGGAGCCGCCAGGCCGGTGCTCGCCGTCGTCGGCTCCGCTTCCAAAACTGCGCAGGCGCAGCTGAACCAGCTCGCGGCCCACGGCTTCGAAGTCATCAAGCTTCACCCGCAGTACGCCGGCGCCACTGGTGCGTATGGACCACAACTGCAGGAAGCAAGGGTGGCCCTGGCTGCGGGAACCCACGTGGCCGTCACCCTGGCCGAAAGCAAGGTTGACCCCGCAAGGGCCAGCAGCATCGTCCGAGCGCTATCCCAATTCGCCGCCAAGGCAGCAACGGGGCTGAAAGCAGACCTTATCCTCACCGGTGGTGAGACGGCCCGGGAAGTCCTGGACGCCGTCGGTCTCCAACGGCTAGTGCCGCTAGCGGCCGTGCAGCACGGGGCGGTGCTAAGCCGCGCCGACGACGGAACCCTGGTGGGCACCAAGCCCGGCAGCTTCGGCGACGACTTGGCCCTCCTACAGCTTTACGACGAAATCCGGGAGCGCCGCGGACAGTCCGCGCAGGCTCCCACCTACACCCTTCCCAGCAAGCCTTCCGAACGATCTGGAGCAGACATGACAACCGACGCAGTGACCAAGACCGAGCAGGCCGCCCTCCCCTACGTGGCCGTCACCATGGGCGATGGCGCCGGGGTGGGGCCGGAGGTGGTGGTGGCCGCCGTGCTGGATCCGCAGAGCAATGCCGAGTGCCGGCCCGTGGTGATCGGCGACGCGCTGCGCCTGCGCCAGGCCGCGGACGTCCTGGGCATCGAGGCTGACATCCAGAGCATCAAAAACGTGGAGGACGCGGTGTTCACGCCGGGCCGGGTGAACGTGATTGACCTGGCGCTGCTGCCGGAGGACCTGGCGTGGGGGCAGCTCTCCCCCGTGGCCGGGCATGCCGCGTACGAATACATCCGGGTGGCCAGTGAACTGGCGATGGCCGGGAAGGTGCAGGCCATCTGCACCGCGCCGCTGAACAAGGAGGCGCTGCACGCCGCCGGGCACATCTTCCCCGGGCACACCGAGCTGCTGGCGCACCTGACGGGCACGGAGGAAGTGTCCATGATGCTCTCCACCCCTAAGATCCGGGTGATCCACGTGACCACGCACATCGGGCTGGTGGACGCCATCCGCAAGATCAACCCGGACCTGGTGGAGCGCACCATCCGCCGCGGCCACGAGGCGCTGATCCGTGCAGGTATCCCGAACCCGAAGATCGGTGTCTGCGCCATCAACCCGCACGCCGGGGAAAACGGCCTGTTCGGCCAGGGCGAGGAAGCGGAGAAGATCGAACCCGGTGTGAAGGCCGCTCAGGCGGACGGGATCAATGCGGTGGGCCCGCTGCCGGCGGACACGCTGTTCTTCCTGGCCGGCCGGGGCGATTACGACCTGGTGGTGGCTATGTACCACGACCAGGGGCACGGCCCGGTGAAGGTGCTGGGCATCGAGGCCGGCGTGAACATCACAGTGGGCCTGCCCGTGATCCGCACGTCCGTGGACCACGGCACCGCCTTCGACATCGCCGGCAAGGCGATCGCAGATTCGCGGTCCATGGTGGAGGCCCTGCACCAGGCCGCGGAGATGGCCACCCGGCCTGCCGTAGCCGTGTAG	MASVFVQADDFSGAAEVGYCFVQHGLTAQVLLGKHDGVSSFAGPVTDAVVTDTHSRGLAEPAAEALAKEAFSSTAASGAQVMFKKMDSLWRGNVRAEVAALTSLGFHAVVAGALPQLQRSVRDGQPLIAGTPLAQTDLWQAERSAPPADVPSLLRPEDPASVQTLDLAEVRSGPLPSKLAALLASDRPTLIVADGETVQDLEHVVDALLELGFTAGTRRIVLVGTGGTADVLAQRLAGQRLAAQVARNAQSMTRANPTTSELQGAARPVLAVVGSASKTAQAQLNQLAAHGFEVIKLHPQYAGATGAYGPQLQEARVALAAGTHVAVTLAESKVDPARASSIVRALSQFAAKAATGLKADLILTGGETAREVLDAVGLQRLVPLAAVQHGAVLSRADDGTLVGTKPGSFGDDLALLQLYDEIRERRGQSAQAPTYTLPSKPSERSGADMTTDAVTKTEQAALPYVAVTMGDGAGVGPEVVVAAVLDPQSNAECRPVVIGDALRLRQAADVLGIEADIQSIKNVEDAVFTPGRVNVIDLALLPEDLAWGQLSPVAGHAAYEYIRVASELAMAGKVQAICTAPLNKEALHAAGHIFPGHTELLAHLTGTEEVSMMLSTPKIRVIHVTTHIGLVDAIRKINPDLVERTIRRGHEALIRAGIPNPKIGVCAINPHAGENGLFGQGEEAEKIEPGVKAAQADGINAVGPLPADTLFFLAGRGDYDLVVAMYHDQGHGPVKVLGIEAGVNITVGLPVIRTSVDHGTAFDIAGKAIADSRSMVEALHQAAEMATRPAVAV	PGPT0018130_5	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018130-pdxA2-K22024	NA	NA
D1-17_02113	1461	yhdG_4	COG0531	putative amino acid permease YhdG	ATGAAAGTCTCTCAACCTGCGCAACCGCAGGACACTTCTCTTCTAAAGGTCCTGGGCAACTGGGACGCCTTGGCGCTTGGCTTTGGTGCCATGATCGGTTTTGGTTGGGTGGTCCTCACCGGCGGCTGGATAGCTTCTGCCGGCACTATGGGGGCCGTTCTCGCCATGATTACCGGCGGTGTGATTATGGGCGTGGTGGGATTGACGTACGCCGAATTAACGGCAGCCATGCCTAAGGCCGGCGGTGAGCATAACTTCCTGCTCCGCGGTATGGGTCCTCGATGGTCATTTATCGGGTCCTGGGCCATTACCGGAGGCTACATAACGATTGTTGCCTTTGAGGCTGTTGCGTTGCCGCGCACTGCACAGTACCTCTTCCCTGACCTGAGCCAGATTCCTCTGTGGGAAGTGGCCGGCTACCAGGTGCACCTGACATGGGCACTGGTGGGGGCTGTTGCCGCGGTGGTGATCACGGGAATCAACATTCTTGGAGTTAAGCTGGCCGGAGTGGCCCAGACGTTTGTGGTGGTTTTCCTCCTGGTTATTGGTTTGGTGCTCGTGTTCGGCTCCTTTACCGGCGGCTCGGTAACGAATATGCAGCCGTTCTTCACCGGCGGCATGAACGGCTACTTTGCCGTCCTCGTAGTAGTTCCGTTTCTGTTCGTCGGCTTTGACGTTATTCCCCAGTCTGCGGAAGAAGTGAACATCCCGGCGCGGCAGATAGGAAAGCTGGTGGTCGTTGCCGTCCTGCTAGCCACGGTCTGGTACACCATGACCGTCCTGACCACTTCTTCCGCAATGCCTGCCGGTGAAATTGCCCAGGCCGACATAGCGACTGCCGATGCCATGGGGGCACTGTTCGGCAGCGACGTGATGGCCAAGATCCTGATCGCCGGTGGGATTGCCGGCATCCTGACCTCGTGGAACTCGCTGCTTCTCGGCGCCTCACGCCTGATGTTCTCGATGGCCCGCTCCGGCATGTTGCCGGCATGGTTCGCTAAGCTGCACCCCAAGTACAGGACCCCAGTCAACGCCCTGCTATTCGTCGGTGCACTGTCCTTTCTCGCACCGTTCTTCGGTGTATCGATGCTTGGCTGGCTCGTGGACTCCGGCGCGCCGAGCATTGTCATCGCGTACATTCTTGTATCAGTGGTGTTCGTCATCCTGCGTCGCCGCGAACCCCGGATGGACAGGCCGCTCCGCGTAGGCGGCAAGGGCAACGGCGGCATCATAATCGGCGTCCTGGCCGTTGTCCTTTGCATTGGGCTCCTCAGCCTTTATCTGCCAGGCATGCCGGCATCCCTCACCCCGCCGCCATGGATTCTCTTCGGCCTCTGGTGGGTCCTCGGATTGGTCCTCTTCTTCCGAATCCCGACCGGAATCGCTCCTGGCGAAGATGCTGAGCACAATCTGCTGGAACGCCTCAAGCAGCGCCGGCTCCAAGGGACCAGGAACGGCTAA	MKVSQPAQPQDTSLLKVLGNWDALALGFGAMIGFGWVVLTGGWIASAGTMGAVLAMITGGVIMGVVGLTYAELTAAMPKAGGEHNFLLRGMGPRWSFIGSWAITGGYITIVAFEAVALPRTAQYLFPDLSQIPLWEVAGYQVHLTWALVGAVAAVVITGINILGVKLAGVAQTFVVVFLLVIGLVLVFGSFTGGSVTNMQPFFTGGMNGYFAVLVVVPFLFVGFDVIPQSAEEVNIPARQIGKLVVVAVLLATVWYTMTVLTTSSAMPAGEIAQADIATADAMGALFGSDVMAKILIAGGIAGILTSWNSLLLGASRLMFSMARSGMLPAWFAKLHPKYRTPVNALLFVGALSFLAPFFGVSMLGWLVDSGAPSIVIAYILVSVVFVILRRREPRMDRPLRVGGKGNGGIIIGVLAVVLCIGLLSLYLPGMPASLTPPPWILFGLWWVLGLVLFFRIPTGIAPGEDAEHNLLERLKQRRLQGTRNG	PGPT0020810_3810	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
D1-17_02114	708			hypothetical protein	GTGGCCACGTTTGTATTTGCTGCGCTCAAGCGGCGAGAGCCGGGGCTTTCTAGCCCAGATGGTAGTAGGCGCCCCGATTCCCGCGACGCTGGGGACGACTTATCAGGCCCCCCGGGACGCTGCTTCATGCCACCTCGAGCGGGAAGGTCCTGCTGGCGGCGCTGCCAGCGGAAGAAGGGACCGGATCCTGAAGGAGACCGGCCTGCCGGAGCGGACCTCGCGGACCATCACCGACCTGAAAGAGCTGGGCGGCCGAGCTGGTCCAGCGGGCGGCCAGCGGCGTCCCGAAATCCGTCCTCGCCACCGACTACGGCATCAGCCGTAAACCGGTGTATCAGTACCTCCGTCAGGCCAAACTGGCCTGACGCGGCGGATGTTCGGCTGGGGCGACACCGCCGCCGAACCCGTCATCCTGCCCTTCACCTCCCGACTCAGCCTCCTGAACACCACCGAATACCCACAAGATACCCACGAGCACTAGCCCGCGCGGGGATGTTCCGCTCCCGCCCGCGCTTTCTGATGCCCCCGCAAGCGGGATCAGGGGCGTCTGCTCATGCCCCTACCGGGCGGCCGGGCTGCGGCCACCAGATCTCCAACAAAGATGCCAAGACGCAATCTTCCCGAGGATCACCAACGTTAGGATCACAAGATGACACCCGGCCAGGAGGGCCCTGGAAACAGTCACAGCAGCAGTGCGCCTCTAAATAG	MATFVFAALKRREPGLSSPDGSRRPDSRDAGDDLSGPPGRCFMPPRAGRSCWRRCQRKKGPDPEGDRPAGADLADHHRPERAGRPSWSSGRPAASRNPSSPPTTASAVNRCISTSVRPNWPDAADVRLGRHRRRTRHPALHLPTQPPEHHRIPTRYPRALARAGMFRSRPRFLMPPQAGSGASAHAPTGRPGCGHQISNKDAKTQSSRGSPTLGSQDDTRPGGPWKQSQQQCASK				NA	NA	NA	NA	NA
D1-17_02115	312			hypothetical protein	ATGACACCCGGCCAGGAGGGCCCTGGAAACAGTCACAGCAGCAGTGCGCCTCTAAATAGGTGCCTGGCTGCCGGTCTTACGTCTCTTGTTGTCGGGTACGTTTTGGGCAGCCGGAACAGCACCCCTCAATACGCAGCGATCTTAGGCGGGGCGCTCCTATGCTTTGCGGCCGGTCTGATCATAGTGATGTGGCATTTCGCCCAGAGTGCAATACATTCGTCCCGCTCGTTTCACCGGGCGTCCGCGTGGGTTGTTACCACTCTGATGGCTGCATCCGGGGCGCTCCTAATTTGGGGAACCCTCGTCGATTAG	MTPGQEGPGNSHSSSAPLNRCLAAGLTSLVVGYVLGSRNSTPQYAAILGGALLCFAAGLIIVMWHFAQSAIHSSRSFHRASAWVVTTLMAASGALLIWGTLVD				NA	NA	NA	NA	NA
D1-17_02116	804			Glycyl-glycine endopeptidase ALE-1	TTGCCTTCCCACGACAAGCACGGCCTACGCCGTGCCATTTTCTCACGCACATCCGGCAAGGGCCGCCGCCGGGCAGTCTCATCCCCAGTGCCAAAGCTGCGGGGCCGCGGCCAAAAGCTGGCTGTTGCGGCGGCGGTGACCGGAATGATTGGCATGACCGTGCTCTCCGCGGCTCATGCCGACCCAACAGGGATTTCGGCGGTGCGGGAAATTCCCGCCGAGGCAGTGGCCGCTCCGGTCGCACAGCCGTCCCTGGCCGCGGATGCAGGATCGTCGCTGGTTTTTGACCGGCCCCAGGTCAAATCCTCCCCGGCGCGGGAAGCGGCACCCAAACCGCGGAAACCGGCACCGAAAGCGGCAGCCAAACCGGCACGGAAACCGGCATCGAAATCCGCCCGGGTTTCCGCGCCTTCGCCAGGTCTGCGGGCACCGCTCGCCTCGGTGAACGTGAGTTCCCCATTTGGGCTTCGCGGCAATCCCCTGACCGGGGCAGCCGGCGAAATGCATACGGGGCTTGACCTCGCCGGGGCGTGCAATACGCCCGTTCTGGCTGCAGCTGCGGGAAAAGTAACGGAGGCAGGCTGGAGCCCGTACGGCGGCGGAAACCGGATTGTAGTTGACCACGGAAACGGCCTGAAGACCACATACAACCACCTGGCCAGCATCGGCGTTTCAAAGGGGCAAACCCTGGGCAAAGGTAGCCGAATAGCCGCTGTCGGAACGACCGGTAACTCCACCGGCTGCCATCTTCACTTTGAAGTCATGGTCAAGGACCGGACCGTCAACCCCGCAGCCTACCTCTAG	MPSHDKHGLRRAIFSRTSGKGRRRAVSSPVPKLRGRGQKLAVAAAVTGMIGMTVLSAAHADPTGISAVREIPAEAVAAPVAQPSLAADAGSSLVFDRPQVKSSPAREAAPKPRKPAPKAAAKPARKPASKSARVSAPSPGLRAPLASVNVSSPFGLRGNPLTGAAGEMHTGLDLAGACNTPVLAAAAGKVTEAGWSPYGGGNRIVVDHGNGLKTTYNHLASIGVSKGQTLGKGSRIAAVGTTGNSTGCHLHFEVMVKDRTVNPAAYL				NA	NA	NA	NA	NA
D1-17_02118	294	mtrA_2	COG0745	DNA-binding response regulator MtrA	TTGGTCGCGCTTATTCTGGCGCGGATAGGTTTTGATGTTCTCGCTGTCCGCAACGGCGTCGAAGGGGGCGCCGCCGCCTGGGAACACCATCCTGTCCTGATAACGGCGGATCTGAACCTGCCGGACCTTGACGGCCAGGACGTGGCCCGGCATATCCGGGCACGGTCTGACGCGCCGATGCTCTTTATTACCGCCCGGGCAGACGTCGACGATGAAATGGTCCGCATGGCCTCGGGAGCCGCGGCGTACCTGACCAAACCCTTCCGCACCTGGCACCTGGCACCTGGCAGCTGA	MVALILARIGFDVLAVRNGVEGGAAAWEHHPVLITADLNLPDLDGQDVARHIRARSDAPMLFITARADVDDEMVRMASGAAAYLTKPFRTWHLAPGS	PGPT0013765_809	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
D1-17_02119	717			hypothetical protein	GTGGGGTCCTTTTTAGGCGTTGCGGGGACGCTGATCGGCGCGGCGCTCGGCTCTATTATTGCCACAGTGGGTGCCGCTCTCTATGCCCGAACGCTCAGTTCGGCCGCCATTTTGGCCTCGACGAAAATCCCCCAGCGGCGCAGGCCCGGACTGCCAGCTGACGACGGGGACGAGCTGGCCGCCAGCGCTCCGGCCAAGAGCGACGAACCTCGTGCCAAGCGTGTGAGGAGGCATTTCACGGCCTTGACCTGGATCAAGGTTGGGGCGGGCAGTGCTGCCGCATTCGTTATCGCGATGGTCGGCGTCACTGCTTTCGAATTCGGAACCAATCAGCCCATCTCCAGCCTTGTCTCGTCGACGTCGAGCATCGACGACGGTGCGGCCGCGCACACGACGACGCTGGGCAAGGCACTGAGCGGGAATCCGACGGTCCCGGACGAGCCAGAGAAACCGATTGAGAACGTGGAGGAGCTGCCTGGGCAAGTCGAGGAAGGCCCTCCCAAAGAAGGTGGCCTGACTACGGACGGTAGCCCCGATGGCGGGGATAGCGGTCCGCCCGGAACTGAAGCACCGGGAACGGACGAATCAAGCGATACCCTGCCGACGGACCTCGCCCCCGCAACGGAACAGAGCATTGAGCCTGCCCCCGAGACCGAACAGCCCTCGGTGCCGGAGGTGTTCACAGATCCGGGAACGGACGGGCAGCCCGCACCGTAA	MGSFLGVAGTLIGAALGSIIATVGAALYARTLSSAAILASTKIPQRRRPGLPADDGDELAASAPAKSDEPRAKRVRRHFTALTWIKVGAGSAAAFVIAMVGVTAFEFGTNQPISSLVSSTSSIDDGAAAHTTTLGKALSGNPTVPDEPEKPIENVEELPGQVEEGPPKEGGLTTDGSPDGGDSGPPGTEAPGTDESSDTLPTDLAPATEQSIEPAPETEQPSVPEVFTDPGTDGQPAP				NA	NA	NA	NA	NA
D1-17_02120	255			hypothetical protein	GTGGTTGACCGACATCACGGAGCACCCGGAATCCAAGCTGCCGAAGGAAAGCTCTACCTCTGCGCGGTGAAGGACGTCTATTCCGGCAGGATCATCGGGTACTCGATGGACTCGCGGACGACATCCTCGCTGGCCGTTGCTGCGCTGGAGAACGCGGTGCAGGCACGCCGCCCGGCAGCGACTGTCGTGCACTCGGACCGGGGGGCCAGTTCCGGACTCGACGCTTCGTCGAATCGCTCCGGCACCACCGGCTGA	MVDRHHGAPGIQAAEGKLYLCAVKDVYSGRIIGYSMDSRTTSSLAVAALENAVQARRPAATVVHSDRGASSGLDASSNRSGTTG				NA	NA	NA	NA	NA
D1-17_02121	1299	amdA	COG2421	Acetamidase	ATGCCCGAGCTAATTTTCCCGCTTGATTCTTCAAAGAAATTTGAGGACCAAGAGAAAATCGGTCACAACCGATGGCATCCGGAGATCCCGCCCGTGGCAGCGGTCAGGCCCGGCGATGTTTTCCGTGTGCATTGCCGCGAGTGGTTCGACGGCGCGATCGTCAACGACGATTCGGCCGAGGACATACTCAACGCCCCCTTGCTGACCGTCCACAAACTCAGCGGACCCTTCGCCGTCGAAGGGGCACAGCCGGGCGATCTGCTGATAGTGGACATTCTTGATGTAGGGCCGATCCCGCAGGAGGACTCCGGGCCGCTGGCCGGACAGGGCTGGGGCTATACCGGCATCTTCGCCACAAACAACGGCGGCGGGTTCCTCACCGAGCAGTTCCCGGACGCCTACAAAGCCATCTGGGACTTCACCGGCCAGATAGCTTCATCCCGGCACGTTCCGGAAGTCTCGTTCACCGGGCTCATCCACCCCGGACTGATGGGCACCGCCCCGTCCGCGGAACTGCTGGCCAAATGGAACAGGCGCGAGGGCGACCTCATCGCCACCGACCCAAACCGGGTTCCACCACTCGCGTTGCCTCCGAATCCCGAGTACGCCGTCCTGGGTAGCTTGCCAGAATCCGAATTCGGCCGGGTGGCCGGGGAAGCGGCCCGTACCGCACCTCCACGGGAAAACGGCGGCAACCAGGACATCAAAAACCTCTCGAAGGGCACCAGGGTCTTCTATCCGGTCTTTGTGGACGGCGCGAACCTGTCCATGGGTGACCTTCACTTCTCCCAGGGCGACGGCGAAATAACGTTCTGCGGTGCCATCGAGATGGGCGGCTTCCTGGATCTGCGGGTCGACCTAATCAAGGGGGGCATGGACACCTATGGGGTGAGCGAAAACGCGATCTTCATGCCCGGAATCGTGGATCCGCGGTTCAGCGAATGGCTCGCGTTCTCCGGAACATCGGTGACACTGGACGGTGAGCAGAAGTACCTTGATTCGCACCTTTCCTATCAGCGGGCCTGCCTGCACGCCATCGACTACCTGACCCGGTTCGGCTACAGCCCCGAGCAGGCGTATCTGCTGCTCGGCGCCGCGCCGATCGAAGGCCGGCTCTCCGGCGTCGTAGACATCCCAAACTCGTGCTCCACCGTCTACCTGCCCACTGCGATTTTCGACTTCGACATCCGGCCCTCCGCCGCCGGCCCGCACCAGGTAGAAGCCGGCATGGGCGCACCCATGGCCAGCAACACGGCTCTGCCCGGTGCCGAGGGATCCGATGCTGATGCCTCGGCTTAG	MPELIFPLDSSKKFEDQEKIGHNRWHPEIPPVAAVRPGDVFRVHCREWFDGAIVNDDSAEDILNAPLLTVHKLSGPFAVEGAQPGDLLIVDILDVGPIPQEDSGPLAGQGWGYTGIFATNNGGGFLTEQFPDAYKAIWDFTGQIASSRHVPEVSFTGLIHPGLMGTAPSAELLAKWNRREGDLIATDPNRVPPLALPPNPEYAVLGSLPESEFGRVAGEAARTAPPRENGGNQDIKNLSKGTRVFYPVFVDGANLSMGDLHFSQGDGEITFCGAIEMGGFLDLRVDLIKGGMDTYGVSENAIFMPGIVDPRFSEWLAFSGTSVTLDGEQKYLDSHLSYQRACLHAIDYLTRFGYSPEQAYLLLGAAPIEGRLSGVVDIPNSCSTVYLPTAIFDFDIRPSAAGPHQVEAGMGAPMASNTALPGAEGSDADASA	PGPT0000620_313	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0000620-fmdA|amiE|amiF-K01455	NA	NA
D1-17_02122	288			hypothetical protein	ATGCCCATTTACGAATACCGGTGCCCGCAATGTTCGGTTTTCGAGGTGATCTGCGCGATGAGTGAAGCGACCGATTCTTCGCCTTGCCCCTCATGCCAGCAATCCGCTCCACGGAAAATGGGCACCCCTCATCTTTCACGCAGCAGCTCCGCCGAATTCCGGCTCTTCGACGCCACCAAACGCAGCGCCCACCAGCCTCAGGTGGTTAGGGAACTGCCGGGGACGAAGGGAAAGAACGCTCAGCACTATACGACTAATCCGTTGCATAAAAAGCTTCCGCGACCATAA	MPIYEYRCPQCSVFEVICAMSEATDSSPCPSCQQSAPRKMGTPHLSRSSSAEFRLFDATKRSAHQPQVVRELPGTKGKNAQHYTTNPLHKKLPRP				NA	NA	NA	NA	NA
D1-17_02123	639			hypothetical protein	ATGGGCAGTGTCGGTTTACTGTACGTTGGAGCCGTGCTTTTTATCAACGGTTTGATGTTGATCGGATTGATTCCCGGCAAATCAGCAGCAATTCTCAACTTTTTTGTTGGAATCATGCAGGTGGTCTTCCCGACGATCATTCTGCTGCAGGCAAATAATGACCCTTCGATCATTTTCGGTGCCGCTGGGCTTTACCTTTTCGGTTTCACCTATCTCTACGTGGGGATCCTTCAGGTTACCGGGGTCAGCGGGGAAGGGCTGGGCTGGTTCTCGCTGTTCGTGGCCGCCTGCGCCGTGGCCATCGGCGTTCTCCAGTTCACTTCAGTGAATGATCCTGTGTTCGGCTCCATCTGGCTTATTTGGGCCGTGCTCTGGTTCCTGTTCTTCCTCGTTCTTGGGCTGCACAAAGAGACATTGACCCTCGCGACGGGCTGGTTCACGATCTTTGTCAGCCATCTGACCGGGACCATCCCGGCGTTCTTCCTGCTGCTTGACAGATTTGAGACCAATACCGTCAACGCGCTGGTCGTCGCAGCCTTGGGGGCCGTGTCCCTGGCGGTGGCATTCTTCCTGGCCCGCCGGGGCCTGCCCCACCATACCGTGGCCGCGAAAGACACTGCAGCGGCCTCTGCGGCCTAG	MGSVGLLYVGAVLFINGLMLIGLIPGKSAAILNFFVGIMQVVFPTIILLQANNDPSIIFGAAGLYLFGFTYLYVGILQVTGVSGEGLGWFSLFVAACAVAIGVLQFTSVNDPVFGSIWLIWAVLWFLFFLVLGLHKETLTLATGWFTIFVSHLTGTIPAFFLLLDRFETNTVNALVVAALGAVSLAVAFFLARRGLPHHTVAAKDTAAASAA				NA	NA	NA	NA	NA
D1-17_02124	375			hypothetical protein	GTGGCAGACAAACTTCAAGTGCTGGTCCGGGTGGACCTAGACGGCAGGCAGGCCAAGGTCGCGACCGCGGGCCATGTGATTGTCCAGGGCGCCCAAGGCCTATACGACGTGATGAAACGCGCGACCTCGCTCGTGGCTGGCCTGGCGCTGGAACTGGACATGACCCAGGCCGAGATCGAACCCGGCGCCTTGGAACAGCTCCACGCCTGCTCCACAGTCATGCCACATGCCACCACACATCGATCAGCTCCAGTCGGAGTACAGGATCAGCATCCTCATGCCAAGCCATCCAGTGTCTTGTATGGCATCACCCGCTTTGGCAGCGTGACCCTAGGCCCAAGTGACCGACCCTGCGGGCTATTGCACTGGGGCTGA	MADKLQVLVRVDLDGRQAKVATAGHVIVQGAQGLYDVMKRATSLVAGLALELDMTQAEIEPGALEQLHACSTVMPHATTHRSAPVGVQDQHPHAKPSSVLYGITRFGSVTLGPSDRPCGLLHWG				NA	NA	NA	NA	NA
D1-17_02125	705			hypothetical protein	ATGGCGAAGCCCCTGAAAGTGAGAGACATGCCCGAGAACAGCGAGGACAATGCAACATCTTTGGCAGAGATGCTGCAGGACATGGTCCTAAACAGCGGGGACGTCGAGGGATTCCTGACAGGTCTGGCAAAGTTTGCCGCAGACAAGCTCTCGATCGACGGAACTGAGGTGCTTGGTGCTGTGACGCTCCTGCGGCCGCGGACCGCCGCGACGGTGGCCAGCAGCAGCGAGCACGCGAAGAATTTGGACGAAGTGCAGTATTCCTTCGACGACGGACCCTGCCTGCGGGCCGCCAGGGAAGAAAAGACGTATGTCGTCAGGGACTTCCGGACAGAGACGAGATTCCGCGGATACACCGAAGCAATCGCCAGCCACGGGATCCTTTCGGCCCTCGGCATCCCCATACCGCTCGACGGGGACGCCAATGCAGGACTCAACCTATATGCGCGCGCTGCCGACCATTTTTCGGACCAAGACATTGCCGAGGCCGAACTCCTGGCGCAGGCAGCATCAACGTCGCTGCGCATGGCCGTGCGCATCGCGAAGCTGACCGATACCGGCGAACAGCTTAAAGCCGCAATGAGTTCACGCACCACTATCGACGTCGCCGCCGGGATCGTCATGGCCCAGAACCGATGCAGCCACGACACCGCCATGACCATACTGAAAAGCCGCCTCCAGCGGACGGAACATCAAACTGCATAA	MAKPLKVRDMPENSEDNATSLAEMLQDMVLNSGDVEGFLTGLAKFAADKLSIDGTEVLGAVTLLRPRTAATVASSSEHAKNLDEVQYSFDDGPCLRAAREEKTYVVRDFRTETRFRGYTEAIASHGILSALGIPIPLDGDANAGLNLYARAADHFSDQDIAEAELLAQAASTSLRMAVRIAKLTDTGEQLKAAMSSRTTIDVAAGIVMAQNRCSHDTAMTILKSRLQRTEHQTA				NA	NA	NA	NA	NA
D1-17_02126	732			hypothetical protein	ATGGCAAACCGGCTCCCACTTGATGAACTCAGCCTTGTACTGGCCCGCATCAAGGGCATGCTCCTGACCGAGGAGAAAGTCGATCGTGCCGTGCAGCTGCTGGCTGAGGCCATCAGGGACGCTATCCCCGGAACAACCGGGGCGGGTGTTTCCCTGCTCGATGACCGGGGCCGCAGAATGAGCCACGGTGCCACGGATGCCGTCGTCGAACAGGCTGACGCCACGCAGTATGACCTTGGCCAAGGACCCTGCCTCACGGCCTGGGCGGCGCGAACAACGGTGCTGATTGATGACGTTGCCAAGGATAAACACTGGCTGCGCTGGAGCACAGCAGTCGCCTCGCTGCCCGTCCGTTCGGTTGTCAGCACGCCCTTGATTGCGGGCACAGACTGCATTGGTGCCCTGAAGATCTACGCCGCAGTCCCCTCCGCCTACGACGCCGCCGTAGCCCGCCTGCTCGAAAAGTTCACCGGCCCCGCCGCCACGTTGCTCGCAAACATCCAAGGCAACGAGACCCCGCACCGGATCAGCGAAACTCTCGAAAGCGCCCTGGGCAGCCGGGACACGATCAACCGCGCCTACGGCCTGCTCATGGAACGGCACGGGTTCGGGCCGGAGCAGTCCATGCAGGACCTGCTCAGGATTGCCCTCACCCAAAAAATCCCCCTGCTTCAGGCTAGTGCCGCCCTCCTCGATTCCGCCTCGTCAGATGCGGCCTCCGGGAAGGAATAG	MANRLPLDELSLVLARIKGMLLTEEKVDRAVQLLAEAIRDAIPGTTGAGVSLLDDRGRRMSHGATDAVVEQADATQYDLGQGPCLTAWAARTTVLIDDVAKDKHWLRWSTAVASLPVRSVVSTPLIAGTDCIGALKIYAAVPSAYDAAVARLLEKFTGPAATLLANIQGNETPHRISETLESALGSRDTINRAYGLLMERHGFGPEQSMQDLLRIALTQKIPLLQASAALLDSASSDAASGKE				NA	NA	NA	NA	NA
D1-17_02127	318			hypothetical protein	ATGGGTTTCGACACTCACCAGGAACAGCAGCGCAGACTGCTTCGGGAAGCCCTCGGGCAGGCCCGGATCGGTACCGATGAATTGTGGCTGCATTACTTCAGCATCGGAGGGAGCGTCGGAGAATACGAAATAGCCGCACATCTTCAAGGCGCGTTCCCGCTTCCCGAACTGCAACGCGATCTACTGGCCCATGCAGCCAACGAGCTGATCGACGAGCTACCCCCGCCTCCACGGGCCCCCTACTCCAATGATCTGCGGGCTGCCGGGAGTTCCGGAAGCAACCACAGCGCCGAGTGGACGCAACGACCCCAACCGTAG	MGFDTHQEQQRRLLREALGQARIGTDELWLHYFSIGGSVGEYEIAAHLQGAFPLPELQRDLLAHAANELIDELPPPPRAPYSNDLRAAGSSGSNHSAEWTQRPQP				NA	NA	NA	NA	NA
D1-17_02128	1446			IS1182 family transposase ISNml3	ATGTGGGGCGCGTCGGCTGGACTGGTGGGCCTGGTGGGCCTGGTGATTAAGACTGGTCTTATGCAGGGACGCGAGGACGGGCAACGCGGGTATTTGGATGTGGAGGCGCTGGCCGGGGCGCTGTTGGCTCCGGGCAGCGTCTTCGTGTTTCTGGCCAAGCATCGGGGGCGGCTGTTTCCGGATTCTATGATGGAGGACCTGTTTCCGTCGCGGCGGGGCCGACCTTCAGTTCCGGCGCCGGTGATCGGTTCGGTGCTGGTGTTGCAGGCGCTGCAGGGCCTCTCTGACCGGGAAACCGCCGAGGCGTTGACGTATGATCTGCGCTGGAAAGCGGCGTGCGGATACGGGTTGACTGATACCGCGTTCCACCCGAGCACGCTGACGTACTGGCGCAGGCGTCTGGCCGGATCGGGAAACCCGCACCGAATCATGGACGCCATTGCCGAGGTCGTCGCGGAAACCGGAATCCTGAAGGGCAGGCGCCGGCGGGCAGTGGATTCAACAGTCCTGGATGACGCGGTCGCCAGGCAGGACACCATCACGCAACTGATCGCCGGGATCCGCCGCTTCGGCCGTGACGTCCCCGGCGGCCGGGAACTGCTGGCCGCCCATGCGAACGGGTATGACTACACCCGCACGGGTAAGCCGGACATCGCCTGGGATGACCAGGACGCCAAAGACGGGCTCGTCTCGGCGCTGGTCACCGACGCGCTGGCGCTGCTGGCGGCGGTCGATCCCGGGACCTTGGAGGGCAAGGCGGCCGATGCGTACGCGCTGCTGGCCCTCGTGGCCGGGCAGGACGTGGAACCGGCCGAGGGCTCGGAGGGGACCGACGGGCGGTGGCGTATCGCCCGCAGGGTCGCCCCGGATCGGATGATCTCCACCGTGGACCCGGATACCCGGCACGCGCATAAGACCCAGTCCCGGCAGCAGGACGGATTCAAGGCCCACATCGTGATCGAGCCCGACACCGGGCTGATCACCGCCACGGAACTGACGAAAGCCTCCGGACCGGAGAACAGCGACGGGGCCGTCGGTGCCCGGCTGATCTCCATGGATCCTACGATCGCCGGCACCAGCGTGGACGTCCTGGCCGACTCGGCCTACGGTTCCGGCGAGATGCTCGCCGCCCTCGCCCTGACCGACCACATCCCGGTGATCAAGCCTTGGCCGCTGCGCTCAGCCGTTGAGGGCGGGTTCACTCTCGATGATTTCAGCGTCGATGAAGCTGCCGGCACCGCGACCTGCCCGAACGGCATCACCAGGAACATCACCGCCAAACGACGGGTCACGTTCGGCGCCGCGTGCACCGGCTGCCCACTCCGGGACCGGTGCACCGCCTCACCGCGGGGACGAAAGCTCGAACTCCACGAACACGACGCGTTGCAGCGCGAACACCGTCGACGCGCCACGGATCCAGCCTTCCAGGACGCTTACGGCAGGTAA	MWGASAGLVGLVGLVIKTGLMQGREDGQRGYLDVEALAGALLAPGSVFVFLAKHRGRLFPDSMMEDLFPSRRGRPSVPAPVIGSVLVLQALQGLSDRETAEALTYDLRWKAACGYGLTDTAFHPSTLTYWRRRLAGSGNPHRIMDAIAEVVAETGILKGRRRRAVDSTVLDDAVARQDTITQLIAGIRRFGRDVPGGRELLAAHANGYDYTRTGKPDIAWDDQDAKDGLVSALVTDALALLAAVDPGTLEGKAADAYALLALVAGQDVEPAEGSEGTDGRWRIARRVAPDRMISTVDPDTRHAHKTQSRQQDGFKAHIVIEPDTGLITATELTKASGPENSDGAVGARLISMDPTIAGTSVDVLADSAYGSGEMLAALALTDHIPVIKPWPLRSAVEGGFTLDDFSVDEAAGTATCPNGITRNITAKRRVTFGAACTGCPLRDRCTASPRGRKLELHEHDALQREHRRRATDPAFQDAYGR				NA	NA	NA	NA	NA
D1-17_02129	249			hypothetical protein	ATGGTCGAGCGGTCCATCGCCTGGCTCACCCGCGGCAACCGCCGCGTTCCCCACCGCGGCATCACACGGAACAACGTCTGGCTGCACCTGCGGATCACGGGACTAAACCTGCGCAGACTCCTGAACCTGGGACTGCGCGTGAACGAGGGATCATGGGTGCTGGTCCCGACACTGGATGAGGCCCCACATCCGAGGCACCATGAACCGAGCGGGCGGAACGACCCCGTTGTCGCACCCGAAAAGTGCTGA	MVERSIAWLTRGNRRVPHRGITRNNVWLHLRITGLNLRRLLNLGLRVNEGSWVLVPTLDEAPHPRHHEPSGRNDPVVAPEKC				NA	NA	NA	NA	NA
D1-17_02130	873	focA_1	COG2116	putative formate transporter 1	ATGTCCTATGTGAAGCCCGGTGATCTGATCACGACGATGATCGACGCCGGCGCGTCGAAGGTATTCATGTCCACCCGGGACACGGTGGTGCGCGCGGCGATGGCCGGTGCGTTGCTCTCGCTGGCGGCCGCGTTCGCCGTCACGGTGAGCGTGACCACCGGCATCCCGCTGTTGGGGGCGATCCTTTTCCCGGTCGGGTTTATCCTGCTGTACCTGCTCGGCTATGACCTGCTCACCGGGGTGTTCGTCCTGACACCCCTGGCACTGCTGGACAAGCGGCCCGGCGTTACCGTCCGGGGAATCCTGCGCAACTGGGGGCTGGTGTTCGTCGGGAACTTCCTCGGAGCGTTCACGGTGGCCCTGCTGATGGCGGTCGTCGTTACCTACGGTTTCGCCATCCCGCCGAACGAGGTCGGTGTCGCCATCGGTCACATCGGCGAGGGGCGCACGCTCGGCTATGCCGAGCACGGCGCGTCCGGGATGCTGACGCTGTTCGTCCGCGGAATGTTGTGCAACTGGATGGTCTCGATCGGCGTGGCCGGCGCCATGATCGCCAAGGACGTCCCCGGGAAAGTGATCGTAATGTGGATGCCGATCATGCTGTTCTTCTACATGGGCTTCGAACACTCCATCGTCAACATGTTCCTGTTCCCGTCGGGTCTGCTGCTCGGCGGCCAGTTCACCATCATGGACTACCTGGTCTGGAACGAAATCCCAACGGTGCTCGGCAACCTCGTCGGCGGCCTGCTGTTCACCGCCCTGCCCCTCTACGTCACCCACGCACGGACCAAAGCGCCGTCCAACACCGTCGGGAACCTCGAGCTCCCGGCCGGGGACGAGGTCGCGCGCACCGAAAGCGGAATCCGCCCCTAG	MSYVKPGDLITTMIDAGASKVFMSTRDTVVRAAMAGALLSLAAAFAVTVSVTTGIPLLGAILFPVGFILLYLLGYDLLTGVFVLTPLALLDKRPGVTVRGILRNWGLVFVGNFLGAFTVALLMAVVVTYGFAIPPNEVGVAIGHIGEGRTLGYAEHGASGMLTLFVRGMLCNWMVSIGVAGAMIAKDVPGKVIVMWMPIMLFFYMGFEHSIVNMFLFPSGLLLGGQFTIMDYLVWNEIPTVLGNLVGGLLFTALPLYVTHARTKAPSNTVGNLELPAGDEVARTESGIRP	PGPT0017240_259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
D1-17_02131	408			hypothetical protein	ATGCTCGACGAGACAGACCTCCTGCAGGCTCTGCGGCGTCACTGGGAGTACTCCGGCAAGGACGAGGACGTCTCCCACGAGATCTACCACGACGACGCGGTGCTTGAGTTCCCTCAGTCTGGCGAACGGTTCGAAGGTGTGGAGAACTTCCGCGAATGGCGACGACAGTACCCAGCGAGGCTCAAGTTCCACACTCGACGAATCACTCATCGTAAAGACCTGGTCGTTGTGGAGAACCTGATCAGCTACGACGGCGCGCCGTGGATGTACACCGTCAGCTTGATGGAATTCCGGGGCGACCGGGTTGCGCACGAGCGGATCTACATCATGGATGGCTGGGATGCTGCCGAGTGGCGCACCCCATGGCGCGCCGAGAGGTCTGCAGACCCGCCACCGCCACCTCCGTAG	MLDETDLLQALRRHWEYSGKDEDVSHEIYHDDAVLEFPQSGERFEGVENFREWRRQYPARLKFHTRRITHRKDLVVVENLISYDGAPWMYTVSLMEFRGDRVAHERIYIMDGWDAAEWRTPWRAERSADPPPPPP				NA	NA	NA	NA	NA
D1-17_02132	639			hypothetical protein	GTGATGTTTCGTGTGTTGCGAAACAGACGAGCCTTCCTGTACTTGTCCGGTTTTACACTCAGTTCGGCCGGAAGCAGCATCCTCTTTCTCGCTGTTGGCATTTGGGTCAAGTCTTTGACCGGGAGTAGCGCAGCGGCGGGCGCCACGGTGTTCTTCATCATGGCACCTTCCCTGTTCGCGCCCCTACTGGGTGTGCTGATTGATCGAATGGAACGGACGGTTGTGGCTACTAGCGCCGTATTCGCCATGGGGGGCCTCTTTGAAGCCGTGGTCTTCGATGTGGTCGCCAATCTGAAGCGTGACCCTGCGTTTCTTGGCGTGTTGGTCAGCGTGCAGGGTGCCGGCGCAATCGGGCTGCTGGCGGCTGCGCTGTCCCTGGGTTTGCTCCTCATTCCGTCCTCCGCTGCAGCACTCCTCGCAATGCTGATGCTCGGTGCGGGGATTGCCGCAGCCATGATCGCCTTGAACACGCTGGTCCAGCGGCGAACGCCCGCCGATCTTCTGGGTCGGGTCGGGTCGGGTCGGGTCGGCTGTGCAGACCAGTCTTTTTGTCCCGCAGACGGCGCTCATTGCTCTCGGCGCTGCCCTGGTGACCGTCATCGATCACAGGGTCTTGCTTGGTCGCCATGGTCGTCGTAA	MMFRVLRNRRAFLYLSGFTLSSAGSSILFLAVGIWVKSLTGSSAAAGATVFFIMAPSLFAPLLGVLIDRMERTVVATSAVFAMGGLFEAVVFDVVANLKRDPAFLGVLVSVQGAGAIGLLAAALSLGLLLIPSSAAALLAMLMLGAGIAAAMIALNTLVQRRTPADLLGRVGSGRVGCADQSFCPADGAHCSRRCPGDRHRSQGLAWSPWSS				NA	NA	NA	NA	NA
D1-17_02133	1698			hypothetical protein	ATGCAAACACATATCCGCAGAGGGCTGCTTGGCACCGTCTTGGCCGGCGGGCTACTAGCCCTGGGCTGTTCTGCCGCCAGCGCATCAGAGCCCCTCGAGGGTCTGCCCGTCACGGCCAAAACCTCCGGTGATCACAGCATCGCCTCCGGTAACCAGGTCATTGCCCCGGTTACTGCCCCTGTCACCGTGGGTGCCGTCCCGGCGGCGGTCCTGGGTGATTCCACCGCCATCAACAAGGACGGCGGCGACAAGGACGGGAAGTCCAAGAGGTCGGCGGTGGGACCGCGGATCAATGCAATGACATCTGGTGATCACAGCATCGCCTCCGGAAACCAGGTCATTGCCCAAGTTACTGCCCCTGTCACCGTTGGTGCCGTCTCGGCGGCAGTCCTGGGTGATTCCACTGCCGTCAACAAGGACGGCGGCTACAAGGACGAGAAGTCCAAGGACGGCGGCTACAAGGACGGGAAGTCCAAGAGGCCGGCGGTGGGACCGCGGATCGACGCGGTGACATCCGGTGATCACAGCATCGCCTCCGGAAACCAGGTCATTTCCCCGGTTACTGCCCCTGTTACCGTGGGTGCCGTCTCGGCGGCAGTCCTGGGTGATTCCACCGCCATCAACAAGGGCGGCGGGAACCACCAGGGTGGGGACAAGGGGTCCGCGGCGGGACCGGGGATCAACGCGGTGACATCTGGTGATCACAGCATCGCCTCCGGAAACCAGGTCATCGTCCCGGTTACTGCCCCTGTCACCGTTGGTGCCGTCTCGGCGGCAGTCCTGGGTGATTCCACTGCCATCAACAAGGACGACGGCTACAAGAACGACAAGCCCAAGGACGACGGCTACAAGAACGACAAGCCCAAGGACGACGGCTACAAGAACGACAAGCCCAAGGACGACGGCTACAAGAACGACAAGCCCAAGGACGGGAACCACAAGGGGTCCGGTGCGGGACCGCGGATCAACGCGGTGACATCCGGTGATCACAGCATCGCCTCCGGAAACCAGGTCATCGCCCCGGTTACTGCCCCTGTCACCGTTGGTGCCGTCTCGACGGCGGTCCTGGGTGATTCCACCGCCATCATCAAGGACGACGGCTACAAGAACGAGAAGCCCAAGGGTTCCGTGGCGGGACCGCGGATCAACGCGGTGACCTCCGGTGATCACAGCATCGCCTCCGGCAACCAGGTCATCGTCCCGGTTACTGCCCCGGTGACCGTTGGTGCCGTCTCGGCGGCGGTCCTGGGTGATTCCACTGCCATCATCAAGGACGACGGCTACAAGAACGAGAAGCCCAAGGGTTCCGTGGCGGGACCGCGGATCAACGCGGTGACCTCCGGTGATCACAGCATCGCCTCCGGCAACCAGGTCATCGTCCCGGTTACTGCCCCGGTGACCGTGGGTGCCGTTGCGGCGGCGGTCCTGGGTGATTCCACTGCCATCAACAAGAACGGCGGATACTCCAAGGACGGTGGTTACAAGGACGGGAACCACAAGGGGTCCGCGACGGGACCGCGGATCAATGCGGTGACGTCCGGTGATCACAGCATCGCCTCCGGAAATCAGGTCATCGTCCCGGTTACTGCCCCTGTCACGGTTGGTGCCGTCTCGGCGGCGGTCTTGGGTGATTCCACTGCCATCAACAAGAATGGCGGGTATTCCAAGGACGGCGGTTACAAGGACGGCGGCGATTGA	MQTHIRRGLLGTVLAGGLLALGCSAASASEPLEGLPVTAKTSGDHSIASGNQVIAPVTAPVTVGAVPAAVLGDSTAINKDGGDKDGKSKRSAVGPRINAMTSGDHSIASGNQVIAQVTAPVTVGAVSAAVLGDSTAVNKDGGYKDEKSKDGGYKDGKSKRPAVGPRIDAVTSGDHSIASGNQVISPVTAPVTVGAVSAAVLGDSTAINKGGGNHQGGDKGSAAGPGINAVTSGDHSIASGNQVIVPVTAPVTVGAVSAAVLGDSTAINKDDGYKNDKPKDDGYKNDKPKDDGYKNDKPKDDGYKNDKPKDGNHKGSGAGPRINAVTSGDHSIASGNQVIAPVTAPVTVGAVSTAVLGDSTAIIKDDGYKNEKPKGSVAGPRINAVTSGDHSIASGNQVIVPVTAPVTVGAVSAAVLGDSTAIIKDDGYKNEKPKGSVAGPRINAVTSGDHSIASGNQVIVPVTAPVTVGAVAAAVLGDSTAINKNGGYSKDGGYKDGNHKGSATGPRINAVTSGDHSIASGNQVIVPVTAPVTVGAVSAAVLGDSTAINKNGGYSKDGGYKDGGD				NA	NA	NA	NA	NA
D1-17_02134	1221			hypothetical protein	ATGGCAACGTCATTAGTGTCGTTCAATGCGCTGCGCCCTGTGCTTTTTGCCGGCACCCTCGCAGTTGCCTGGCTGGCCTTTTCAGCCCCGTCCGGTGCGGCAGACACGGGCGCGGAATCCGGACCAGTGCTTGGCACCATTTCCGCTGCCGCGCCGGTGAATTCCACCGCCGCCGGAGCTGCAGGCAACGTCAGTTCCAGTCTCGGCACTTCCGTGGCAGCTGTGACCAGGGCGGCGGCGCTGGCGGCACCTGCCCCGCGTCCGCCGGCACCGACGGTAGCGTATCCCGCACCCGTCCCCAGCGCTCCCCAGTCCGTTCCCGCAGACCCGGCCTGGCCGGCGAGTGTCCCGGTGATCCCACTCCCCGTGACGGACGGGCTTGATCCGTCGAAGACTGTGGCCACAGTGATCGAACCGGCCCGCCCGGTGATTGACGTCGCTTCGCCGGTGGTCGATGAAGCGGCTGTGCCGAATGCCGCCCTGCAGCCTGTAACCAACCTGGTGACAGAGTCCGCAGGACCACTTGCCCCAGGAACTCCTAACCCCGTAACCAAGGTCGTGTCGCCGGTGGTAGAGGTGGTCTCGCCGGTGGTTGACGTCGTGTCGCCGGTGGTTGGCGTGGTCTCGCCGGTGGTTGACGTGGTCTCGCCGGTGGTTGACGTCGTGTCGCCGGTGGTGGACGTGGTCTCGCCGGTGGTTGACGTCGTGTCACCGGTGGTTGATGATGTGGCTGCGCCGGATGACGTCCTGCAGCCTGTTCCCGCCCTGGTGAGAGACGTAGCACCAGTGCTTGTTTCAGGCTTCGTTCCGGCCACGGTTCAAGACGATACAGTCATGGTCCTGTCCGGGGTCTCCGCAGCTGACGCTGGTGCCGCTGTCGGAAGCACCGGTCTCTGGTCCGCAGGACCGCTTGACGCACTGACTCCTTGCGGTTTGCTCACGGGGCCCCTGAGCACGCTACTGGTACCGGCTGCTGCCGGTTCTGGCTTCCAAGCCTGGGCTGGTGCTGCCGGGGGATCCTCAGGCGCATTGCCGGAGCCAATCCGGGCCGCGGTTTCCGGATCGGGATCGGGCCAGGGGCCCAGCGGTTCCCAAACTCCCGCGGCGTGGCTCTCCAACAATTTTGCTTATCTTTCCGTGCCGGGGTCGGTTCCCGTCAGCGGACCAATTCAGCATGTACCTGCGCCGGTGTCCTTCGACCCCGGCTCCTCCCCTGACTAG	MATSLVSFNALRPVLFAGTLAVAWLAFSAPSGAADTGAESGPVLGTISAAAPVNSTAAGAAGNVSSSLGTSVAAVTRAAALAAPAPRPPAPTVAYPAPVPSAPQSVPADPAWPASVPVIPLPVTDGLDPSKTVATVIEPARPVIDVASPVVDEAAVPNAALQPVTNLVTESAGPLAPGTPNPVTKVVSPVVEVVSPVVDVVSPVVGVVSPVVDVVSPVVDVVSPVVDVVSPVVDVVSPVVDDVAAPDDVLQPVPALVRDVAPVLVSGFVPATVQDDTVMVLSGVSAADAGAAVGSTGLWSAGPLDALTPCGLLTGPLSTLLVPAAAGSGFQAWAGAAGGSSGALPEPIRAAVSGSGSGQGPSGSQTPAAWLSNNFAYLSVPGSVPVSGPIQHVPAPVSFDPGSSPD				NA	NA	NA	NA	NA
D1-17_02135	651			hypothetical protein	ATGACGATAGGGGTCAGGCGGCCTGTAACAAGAAGTGAACGCCAACCGCCAGCGGTACGAGCATGGCAGCCACTGCGGCACAACGGTCTTTCCGAGCCCGACCCCTGCATATGCAGCGGCAACCATTGCCCCACGTCGCCTTGCGGGAATGAGATCAGCAAGGGGGCGATACCGGTTGGCATCACCGCGCCTACCCTCAGACAAGCTAGGAGCCGCCACATGGTGACGGAGGAAATCTGGAGATGCTGCCTCGAGCGTCGTAGCGACAGAGAAGAGGCCGGCCGCGCTAACCAGCACTGTCTTCCGCCCGAACAAATCCGCAAGACGACCGGCGATGATTGCCGGGCATCCCATGTTTATCTCCTCTTGAACTGGCGGGTTTGCTGTCGGGGGAAGTGCGGCACGGTGTGCCGCACTTCCGGAATGGCGGAAGTCCGCATTCCACAGCTGTCTGTTGCCCCATGCTGTTGTAGGGGCCCAACCGACTTATTGGTCAGGTGGTGGCGCTGTGGAGGAGCGGACGAGAAAGTTCGTAGGAAGAACGTTATTGGTGGGTTCGGCAGAAGTGCTGACGAGCTGATCGAGGATGCTCTCCACGGCTTGGACGCCTTGGTCGTGGGCATGCTGGTCCAAGGTAGTGAGACCAAATGA	MTIGVRRPVTRSERQPPAVRAWQPLRHNGLSEPDPCICSGNHCPTSPCGNEISKGAIPVGITAPTLRQARSRHMVTEEIWRCCLERRSDREEAGRANQHCLPPEQIRKTTGDDCRASHVYLLLNWRVCCRGKCGTVCRTSGMAEVRIPQLSVAPCCCRGPTDLLVRWWRCGGADEKVRRKNVIGGFGRSADELIEDALHGLDALVVGMLVQGSETK				NA	NA	NA	NA	NA
D1-17_02136	1053	ccpA_2	COG1609	Catabolite control protein A	ATGGCTACGGCTGGACTGACAACCGAAGGGACGAAGCCAGGCGCCCCACGTCTAAAGGATGTGGCCGCGCTCGCCGGCGTCTCATCAGCCACTGTTTCGCGCGCCCTAAGCGGTAACGGGCTGGTATCCGCCCGGACGAGAATCAAGGTGCAGAAAGCTGCTGATGAGCTGGGTTTCGTCATGTCATACCATGCCTCAAGCCTCGCTAGCGGGCGCAGTCGCAACATTGGCATCGTCTTGCCCTTCGTCGGCCGGTGGTACTTTTCCACGGTTCTGGAAGGTGCCGCAGCCGCACTCATGGAAGCTGGATACGACCTCACCCTTTATAACTTCGAGGGTGACCGCTATCGGGAAAGCATCCTGTCGAACTTTCTCCTTAGGAAAAGACTGGACGCAGTGGTCGCTGTGGCCCTGAACCTGGATAAGCAAGAAACCGAACAGCTACTCTCAACAGGCATCCCGGTTGTTGGAGTCGGGGGCCCCTTGGCAGGCGTAAGCACCATCAGCATTGACGAGTTCGACGCTGGCCGTCGTGCAACAGAACACCTCATCGGCCTGGGCCACAACAAAGTCGCGCATGTGGGCGGCGAGAACGAACAGGACCGCTATTTCAGAACGTCGGGCGACCGGCGGTCGGGTTACCTGCACGCCATGAAAAGTGCCGACCTGCCTGTGAATCCGGCGTGGCTTCTGACATCCGATTACTCCTTCAACGACGCTTACCAGCAGGCCAAAAATCTTCTCGCTGACCCTGTCAACAGGCCCACAGCAATATTCAGTGCCTCCGACGAAATGGCTGCAGGAGTAATTCTCGCAGCCAGGGACCTTGGGCTCAGCGTCCCGGGCAATCTTTCCGTGATCGGGATTGATGCCCATCCAATCGGCCAATCATTTGGTCTCACTACCTTGGACCAGCATGCCCACGACCAAGGCGTCCAAGCCGTGGAGAGCATCCTCGATCAGCTCGTCAGCACTTCTGCCGAACCCACCAATAACGTTCTTCCTACGAACTTTCTCGTCCGCTCCTCCACAGCGCCACCACCTGACCAATAA	MATAGLTTEGTKPGAPRLKDVAALAGVSSATVSRALSGNGLVSARTRIKVQKAADELGFVMSYHASSLASGRSRNIGIVLPFVGRWYFSTVLEGAAAALMEAGYDLTLYNFEGDRYRESILSNFLLRKRLDAVVAVALNLDKQETEQLLSTGIPVVGVGGPLAGVSTISIDEFDAGRRATEHLIGLGHNKVAHVGGENEQDRYFRTSGDRRSGYLHAMKSADLPVNPAWLLTSDYSFNDAYQQAKNLLADPVNRPTAIFSASDEMAAGVILAARDLGLSVPGNLSVIGIDAHPIGQSFGLTTLDQHAHDQGVQAVESILDQLVSTSAEPTNNVLPTNFLVRSSTAPPPDQ	PGPT0021075_220	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-17_02137	1869			hypothetical protein	ATGTCTTCCTTCGATGCACCCTCCGTGCGGCAGGACCAGCCACTTTGGAACGTGCCGCACCACGACGGCTCGGCCATGTACGTCTCCGACCTGGCACCTGACCTCGGGGACCAAGTCACCGTTTTCTTGCGCGTCCCGCGGGCAAGCGGGGTGACCCAGGCCCTCCTGCGTGTACTTGTGGACGGAGAACAGGCGCTGCTGGAGACGACAGTCGACCGGGCGAATGAACACGAGTTCTGGCTGCGGGCGGACATTGCCGTTGAGAACCCCGTTGTGAACTATCGCTGGCTCCTTGACGGGATCCAGGACGGGTACCAGTGGCTCAATGGAACGGGCCTGCACACCCATGACGTGACCGACGCCTCGGACTTCCGGATCAGCACCCATCCGGCACCTCCGGCGTGGGCGGGCGACGCTGTGCTTTATCAGATTTTTCCTGACCGCTTCGCCAAGTCAGTTGACCGGCCCGCGCCGGAATGGGCTATTGCAGAGGACTGGGACAGCCCCGTCATCGGCAGGGGGCCGGAAACGCCGTACCAGTATTACGGCGGGGACCTCGACGGCATCATTGAGCACCTTGACCACATTCAGTCAACCGGCGCCAACACCATCTACCTCACGCCGATCTTTCCGGCCCGCTCCAATCATCGATACGACGCCTCAAGATTCGACCAGGTGGACCCCCTTCTTGGCGGAGACGCCGCCTTGAAACGCCTGTCCGAGGCCGTCCACGCCCGCGGCATGCACCTGCTCGGAGACCTCACAACGAACCATTGCGGAAATGTTCACGAATGGTTCAAGGCAGCCGTCAATGACCCGGGCAGCACCGAAGCAGGGTTCTTTCTCTTCAACCACCATCCGGACGATTACGTGTGCTGGTTCGGGCACCAGTCCTTGCCCAAGTTCGACCACAGCAACCCGGAGCTGCGGCAGCGCCTGTACGAAGGTGAGCAGTCTGTTGTGGCCCGCTGGCTCGGACCTAGCGGCTTCGACGGATGGCGTATCGACGTCGCCAACATGACAGGCCGATTGGGCGCCACTGACCTGAACCACCAAGTGGCCACCACCTTGCGCAAGACCATGGCTGAAGCCAGCCCTGACGCGCTGCTGCTGGCCGAGCACAGCCACGATGCGTCCCACGACCTTGACGGGGACGGCTGGCACGGAGTGATGAACTACGCCGGTTTTACCCGCCCCGTCTGGCAATGGCTCAAGGGACCGTCGGAAGTCCCCTTTGAACCAGGGCCATTTACCGCGATTCCCAGACTGTCCGGGCACGACATTGTTGCTTCCATGCGGGAGTTTTCCGCAGCTGCGCCCTGGCGTGCCACATCACACGCTCTCACGCTCGTGGGGTCCCATGACACGATGCGGATCAGCACCATGCTGGGCGATCCGCGGCTGGTTACCGTTGCGCTGGGCTTGCTGGCCACCATGCCAGGCATCCCGATGCTGTGGGCCGGTGACGAGATTGGCCAGGAGGGCGTGAACGGGGAGGACGGCCGGCGGCCTTTCCCCTGGGCCGACGAGGGGGATTGGAATTCCGAGCGTCTCGCTCTCGTCCAAGCCCTGTTTGAAGCGCGGAAACAGTCCCCCGTCCTTCGCCAAGGTGGCCTGCGGTGGCTGTCTGTGGGCAATGACGCGTTCACGTTCCTGCGCGAAACCCCGGGGGAGAGCATCCTTGTCCATGCGGCACGGGCCAACCACGCGCCGGTGAAGCTGCCCTCCAAAACCGTCGGCGCGAACCTCCGCGGGCTCGCGGGCACAACGGACCTCCATGCAGACAAGAATGGCCTCTTCAAACTGCCGAGCGACGGCCCGGCTTTCAGCATGTGGCGCTGCGGCAGCACCAGCCAAGACACCAGATAA	MSSFDAPSVRQDQPLWNVPHHDGSAMYVSDLAPDLGDQVTVFLRVPRASGVTQALLRVLVDGEQALLETTVDRANEHEFWLRADIAVENPVVNYRWLLDGIQDGYQWLNGTGLHTHDVTDASDFRISTHPAPPAWAGDAVLYQIFPDRFAKSVDRPAPEWAIAEDWDSPVIGRGPETPYQYYGGDLDGIIEHLDHIQSTGANTIYLTPIFPARSNHRYDASRFDQVDPLLGGDAALKRLSEAVHARGMHLLGDLTTNHCGNVHEWFKAAVNDPGSTEAGFFLFNHHPDDYVCWFGHQSLPKFDHSNPELRQRLYEGEQSVVARWLGPSGFDGWRIDVANMTGRLGATDLNHQVATTLRKTMAEASPDALLLAEHSHDASHDLDGDGWHGVMNYAGFTRPVWQWLKGPSEVPFEPGPFTAIPRLSGHDIVASMREFSAAAPWRATSHALTLVGSHDTMRISTMLGDPRLVTVALGLLATMPGIPMLWAGDEIGQEGVNGEDGRRPFPWADEGDWNSERLALVQALFEARKQSPVLRQGGLRWLSVGNDAFTFLRETPGESILVHAARANHAPVKLPSKTVGANLRGLAGTTDLHADKNGLFKLPSDGPAFSMWRCGSTSQDTR	PGPT0018560_2633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-17_02138	1299	malE	COG2182	Maltose/maltodextrin-binding periplasmic protein	ATGAAGGTGACTTCCATCGCCGCGACCCCTACCCGCCGCCTCTTTTCCATCGCCGCCCTCGGTGCGGCCGGCGCCCTTGCCCTCAGCGGCTGCGGAAGCAGCGGCACATCGTCTGCTCCGGCATCCGCTCCGGTTCAGGAGAACAAGAACCTCGCCGAGGCAGGCTCCTCCACCATCACCCTGTGGGCCGACAATGCCCGGGTAAAGGTGCTGAAGGACGTGGCAGCCAAATTCAAGGCAGAAACCGGAATTGAAGTGAAGCTGGTCGGGAAGGACACGGTCCGCGAAGACTTCATCACCCAGGTCCCCACGGGCAAAGGCCCTGACCTGATCGTTGGCGCCCACGACTGGCTCGGCCAGCTCGTGCAGAACGGCGTCGTCGCACCGGTTGAACTGGGCGAGAAGGCGAAGCTCTTCGAGGATTCAGCCATGAAGGCAATGACCTACAAGGGCTCGGTCTACGGCGTTCCCTTCGCCATTGAAAACATCGGGCTTGTCCGGAACACAGCGCTGGTCAGCGAACCTGCCGAGACCTTCGATCAGGTGATAACCAACGGAAAGAAGGCCGTCACTGAAGGAAAGGCCGCGTACCCGTTCCTGGTCGGGCTTGATCCGAAGCAGGGTGACCCCTACCACCTGTATCCGCTGCAGACCTCGTTCGGGGCCCCGGTGTTCGGCACCGGCGAGGACGGCGGGTACGACGCGAGCAAGCTAACGCTGGCCAATGCCGGCGGCGTCGAGTTCGCCAAGAAGCTCAAGGCATGGGGAGACACCGGGGAAAAGGTCCTCAACTCGAACATCACAGCCGATATTGCCAAGGAAAAGTTCCTGAAAGGCGAGTCGCCGTATCTGCTGACCGGCCCGTGGAACGTTCCTGACTTCCAGAAGGCCGGCATCAACGTCGCTATCGATCCCCTTCCCACCGCGGGATCAGAACCTGCCCAGCCATTCATCGGTGTCAATGGGTTCTTTATCAGCTCCAAGAGCCAGAACTCCCTGGCAGCCACAGAATTCGCCGTGAACTACCTGACCACCGAAAGTGTGCAGGATGCCCTCTTCTCAAGCGGCGGCCGGCCGCCGGCATTGAAGACTTCCTTCGAGAAAGCGGCAACGGATCCAGTTGTGGCAGCATTCGGCAAGATCGGCGCCAACGGCGTGCCCATGCCGGCACTTCCTGAGATGGACGCCGTCTGGGCCGACTGGGGCGGCACTGAACTGGCTCTGATCAAGGGACAGGGTGACCCGGAGGCTGCGTGGAAGACCATGGCCGACAACATCCAAAAGAAGATCGCAAAGTAA	MKVTSIAATPTRRLFSIAALGAAGALALSGCGSSGTSSAPASAPVQENKNLAEAGSSTITLWADNARVKVLKDVAAKFKAETGIEVKLVGKDTVREDFITQVPTGKGPDLIVGAHDWLGQLVQNGVVAPVELGEKAKLFEDSAMKAMTYKGSVYGVPFAIENIGLVRNTALVSEPAETFDQVITNGKKAVTEGKAAYPFLVGLDPKQGDPYHLYPLQTSFGAPVFGTGEDGGYDASKLTLANAGGVEFAKKLKAWGDTGEKVLNSNITADIAKEKFLKGESPYLLTGPWNVPDFQKAGINVAIDPLPTAGSEPAQPFIGVNGFFISSKSQNSLAATEFAVNYLTTESVQDALFSSGGRPPALKTSFEKAATDPVVAAFGKIGANGVPMPALPEMDAVWADWGGTELALIKGQGDPEAAWKTMADNIQKKIAK	PGPT0016315_277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016315-cycB|ganO-K15770	NA	NA
D1-17_02139	1608	malF	COG1175	Maltose/maltodextrin transport system permease protein MalF	ATGACTGCACTCGACACCGCTCAAGCCCCACCTACGTCACCGACCAATCCGCAGAAGCCCAGGCGCGGGCCGGACTCACTGGGCGGCATCCTCGCCAAGATCGTGCTGCTCGGTCTGGTCGACGCCTTCGCGGTGTACGTCATGATCGTTCTTTTCATGAGTGAGAACTGGACCGTGCTCGTTGTCGCCGCCCTCGTCACGGTCCTGATCAACTGGATCTATCTGCGCAAGGGTGGTCTTCCCGCCAAATACCTTGCTCCGGGCGTCTTCTTCCTCGCGATTTTCCAGATCTGCGTTGTGGCCTTTACGGGCTACATTGCCTTCACCAACTACGGCGACGGTCACAACAGCAGCAAGGAAGACGCAATCAGCGCCATTCAACGCTCGGCCCAGCAAAGGGTTCCGGACTCCCCCGCCTACCGGGTCTCCGTGCTCGGCCAGGGCGAGAACTTCTACCTCCTTCTCACAGACCCCGACGGCCAGGCCCTGCTTGGAGGACCTGACCGGCCGGCCGAGAAAGTAGAAGACGTCCAGCGCGACGGTAGCGGCAAAGCAACCGGCATGGATGGCTACAGTACGCTGAACCTCCGCCAGATCATCGCCAACCAGGACAAAATCACCTCCCTTGAAGTTCCCCTGTCCCAGGACGCGGCGGACGGATCGCTGCGCACCGCCGACGGAAGCAACGCCTACATCTATAAGCCGACCCTGACCTATGACCCGGCGGCTGACACCTTCACGGATGCGACTTCCGGAAAGACCTATCGTGACGGAGGCCAAGGCAACTTCGTCGACGAGACCGGGACCGTCCTGGATCCGGGCTGGAAGATCGATGTCGGCTTCGCCAACTTCACCAAAGCCTTCACCGATGAAAACCTCCGCGGGCCCCTCCTGCAGGTCGCGGCCTGGACACTCACCTTCGCGCTGGCCTCTGTCGCCACAACCTTTGCGATGGGACTCTTCCTCGCCATCACGTTCAACCGGCAGGATCTGCGGGGCAAACGCATCTACAGGATCCTGATCATTCTGCCCTACGCCTTCCCGGTCTTCCTCTCCGGCCTCGTATGGTCCGGCCTGCTGAACCCTGAATACGGCTTCATCAACCAGACGCTCTTCGGCGGCGCCCAAATCCCGTGGCTCACTGATCCATGGCTCGCAAAATTCAGCGTCCTGCTGGTAAACCTTTGGCTCGGCTTCCCCTACATGTTCCTCGTCTGCACCGGGGCACTGCAGTCGCTGCCCGAAGAACTGGATGAGGCAGCCCGCGTGGACGGCGCCAGCGCATGGCGGATTTTCCGGTCCATCAAGCTCCCGCTCCTGCTCGTATCCGTGGCTCCGCTGCTGATTTCGACGTTCGCCTTCAATTTCAACAACTTCAATGTCATCTTCATGCTCACCTCCGGCGGCCCGCGGTTCTCCGGAACCACGATGGACATCGGCGCGACAGACATCCTGATCACCATGGTCTATAAGGTCGCCTTCGGCGGCGGCGCCGGCCGGGATTACGGCCTTGCCAGCGCCCTTGCCATTCTCATCTTCATCATCGTGGCGGTTATCTCGGCATGGAGCTTCAAAATGACCAAGTCCCTGGAAGAAGTAAACTCATGA	MTALDTAQAPPTSPTNPQKPRRGPDSLGGILAKIVLLGLVDAFAVYVMIVLFMSENWTVLVVAALVTVLINWIYLRKGGLPAKYLAPGVFFLAIFQICVVAFTGYIAFTNYGDGHNSSKEDAISAIQRSAQQRVPDSPAYRVSVLGQGENFYLLLTDPDGQALLGGPDRPAEKVEDVQRDGSGKATGMDGYSTLNLRQIIANQDKITSLEVPLSQDAADGSLRTADGSNAYIYKPTLTYDPAADTFTDATSGKTYRDGGQGNFVDETGTVLDPGWKIDVGFANFTKAFTDENLRGPLLQVAAWTLTFALASVATTFAMGLFLAITFNRQDLRGKRIYRILIILPYAFPVFLSGLVWSGLLNPEYGFINQTLFGGAQIPWLTDPWLAKFSVLLVNLWLGFPYMFLVCTGALQSLPEELDEAARVDGASAWRIFRSIKLPLLLVSVAPLLISTFAFNFNNFNVIFMLTSGGPRFSGTTMDIGATDILITMVYKVAFGGGAGRDYGLASALAILIFIIVAVISAWSFKMTKSLEEVNS	PGPT0016320_107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016320-ganP-K15771	NA	NA
D1-17_02140	924	malG	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGACAGTCGGCACCTCGACGCGCAGCATTTCACACCGCAAAACCCTGCCCGCCCGAGGGCCTGACAGCGGCAGAACAACGTGGGCAAAAAACAAGGGCTGGCGCCATGTCGTTGGAATTGTCACGATCATCTTCGCGCTGTTTCCCCTGCTCTATGTGCTCTCGGCCGCCCTGGACTCAAGCGGGACCCTTGCCGGAAGCAATAGACTGTTCGGCCAGATCGACTTTGAGAACTTCGCCCAGCTCTTCTCTGACCCTGCCCGCCCCTTCGGGCGATGGTTCCTCAACACACTCTTCATCGGAGCAGTAACGTCCCTGGCCAGCGTGCTGCTGGGGGCCCTCGCTGCCTACGCGTTCTCGCGCATGCGCTTCAAAGGCCGGCGATTCGGCCTGCTAAGCCTCATGCTGCTGCAGCTGTTTCCCCAGCTGCTCGCCATCGTCGCCATCTTCCTGCTGCTCAGTGGCATCTCCGACGTTATTCCGTGGCTGGGCCTGGGAAGCCAGCTCGGACTGATCATGGTCTACTTGGGCGGAGCCCTGGGAGTAAACACCTACCTGATGTACGGCTTCTTTAACACCGTGCCCACGTCCCTTGACGAGGCAGCACGTCTCGATGGAGCCAGCCACGTCCAGATTTTCTTCGGCATCATCCTGCGCCTGGTGACCCCGATCCTGGCCGTGGTCGGACTGCTGTCCTTCATCGGCATCAGCAGCGACTTCATCATCGCCTCCGTCGTACTCCAAGATCCGGATTCGCAGACTCTCGCCGTCGGACTGTATTCCTATGTCGCAGAACAGCGCTCCGAAAACTGGGGCGTCTTCGCCGCAGGGTCCGTCCTGGCTGCTCTTCCGGTAATGGCCCTCTTCCTGTTCCTCCAGAAGTACATCACCAGCGGGCTGATTCAGGGCTCCGTGAAGGGATAG	MTVGTSTRSISHRKTLPARGPDSGRTTWAKNKGWRHVVGIVTIIFALFPLLYVLSAALDSSGTLAGSNRLFGQIDFENFAQLFSDPARPFGRWFLNTLFIGAVTSLASVLLGALAAYAFSRMRFKGRRFGLLSLMLLQLFPQLLAIVAIFLLLSGISDVIPWLGLGSQLGLIMVYLGGALGVNTYLMYGFFNTVPTSLDEAARLDGASHVQIFFGIILRLVTPILAVVGLLSFIGISSDFIIASVVLQDPDSQTLAVGLYSYVAEQRSENWGVFAAGSVLAALPVMALFLFLQKYITSGLIQGSVKG	PGPT0016325_176	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016325-ganQ-K15772	NA	NA
D1-17_02141	2022			hypothetical protein	ATGGAGAATCAAGCGGTGAAGACCGATATCCCCCACCATGACGGTTCGTCGCTGTATGTCTCTGACCAGGCGCCGGCCGTGGGCAGCCAGGTACGGCTCCGGATGCGAATCCCGGCCACGTACGGCAGCGTTGACCGCGTTTTCGTTCGTTCCCTCAGAGACGGCGAACCACACTTTGACGAAGCCCGCCGGGTCGATGCACCGGACTGCCCGACCCGGTCCGACCACTCCTGGCAATGGTGGGAATGTGTGGTCCTCGCCGTCAATCCCGTGCTCCGGTACCGCTTCCTGATCGAAACCAATCATCAGGGCAGGCCCGCCTGGGAATGGTTGAACGCGGAAGGCCTCTTTAACCGGGAGACCCCCGATTTTCAGGACTTCCGGTTGATCGCCCATGCCCCGGCCCCGGACTGGGTTCACCGCGCAGTGATCTACCAGGTCTTCCCGGACCGCTTTGCCCGTTCCTCAGCCGCCGCCACCCGGCCCACGCCTGACTGGGCGGTCCGCTGCGCCTGGGATGAACCCGTTCAGCCTGCAGGAGAAGCCACACCGCGCCAGCTCTACGGCGGGGACCTCGACGGCATTGCCGGGCATCTCGACCACATTCAGGCCCTCGGGGCCACCGTCCTCTACTTGACTCCCTTCTTCCCCGCCCGCTCCAATCACCGATACGACGCGACGACCTTCACGAAAGTGGACCCCCTGCTGGGCGGAGACGAGGCGCTCATCCGTCTGGTGGACGCCGCACACCACCGCGGGCTACGAGTGATCGGCGACCTCACGGCAAACCATTCAGGCGACGCCCACGAGTGGTTCACAGCCGCGCTTGCTGATCCGCACTCCGCAGAGGCCGGCTTCTACTATTTCAACGAAGACCACACCACGTACGCCTCGTGGTTCGGTGTGCCCAGCCTGCCGAAATTCAACTGGAACTCACCCGAGTTGCGCCGGCGCTTCATCACCGGAGAATCGTCGGTCATAAGCCGTTGGCTCGCCCCTCCCTTTAACCTGGATGGGTGGCGCATTGATGTGGCAAACATGACCGGCCGCCACGGAACCGACGACATGAACCGCGAAATTGCCACGATGATCAGGCACACGATGCAGTCCATCAAGCCGGATTCCATGTTGCTCGCAGAGTCAACAAATGATGCAGCAGCCGATTTCGACGGTTCAACCTGGCACGGGGCGATGACGTACTCCAACTTCACCCGCCCGCTCTGGCAATGGCTCACGAAAGAGGAAGCTCCGGTTAACTTCTTCGGGACGCCCATTCCCGGTCCCAACCGCATCAGCGCGGAACACTTCGTCCAGACCCACCAAGCCCTGTCCGCGGCCTTTCCCTGGCGCATCCGCACGCAGAACATGAACGCCCTGAATTCCCATGACACTGCCCGGGCAGCCACCGTCATGATCCCGGACGGCCAACTGGTGGGCCTGGCCATGATCTTCACGCTGCCCGGAATCCCGACGCTGTTCGCCGGCGACGAATTCGGCCTCGAAGGGATCAACGGTGAAGACGCCAGAACACCCATGCCATGGGCGGAACCCGAAAAGATACGCGCCGACCTGGGCCCGGGCATCGCCGAGCTCAGCCGGCTACGCCGGGAGCTGCCGGCATTGCACGAAGGAAACCTGCGATGGCTGTACGCGGGCGACGACGTGTTGATCTACGTGCGCGAGCACAACGACGTTTGCGTCCTGGTAGCGGCATCCCGAGCTGCATTCGAAGCCGTGGAACTACCCGCATCGCTCGTCCATCCGCGTACTGAGAACGCCACGCCATCCCCGTTATGGGGTTGTGGCACTCTTACCGCAAGGAACACAGCGCAATCCACCACCTTCTCAGGTTCCGGACCATCACTGCAGCTCTGGAGACTCCCGGGGATCAAAGCTCCTGCCGGGCAATCCGGATCGCACATCTCCAGTGCCACCCCGAAAGATGACCCCATCGGAGACACCACCAGCGACCTGCCCTGGACGGACCAAGCGCCTCGGCTGCAAGCAATGCAGCATCACTGA	MENQAVKTDIPHHDGSSLYVSDQAPAVGSQVRLRMRIPATYGSVDRVFVRSLRDGEPHFDEARRVDAPDCPTRSDHSWQWWECVVLAVNPVLRYRFLIETNHQGRPAWEWLNAEGLFNRETPDFQDFRLIAHAPAPDWVHRAVIYQVFPDRFARSSAAATRPTPDWAVRCAWDEPVQPAGEATPRQLYGGDLDGIAGHLDHIQALGATVLYLTPFFPARSNHRYDATTFTKVDPLLGGDEALIRLVDAAHHRGLRVIGDLTANHSGDAHEWFTAALADPHSAEAGFYYFNEDHTTYASWFGVPSLPKFNWNSPELRRRFITGESSVISRWLAPPFNLDGWRIDVANMTGRHGTDDMNREIATMIRHTMQSIKPDSMLLAESTNDAAADFDGSTWHGAMTYSNFTRPLWQWLTKEEAPVNFFGTPIPGPNRISAEHFVQTHQALSAAFPWRIRTQNMNALNSHDTARAATVMIPDGQLVGLAMIFTLPGIPTLFAGDEFGLEGINGEDARTPMPWAEPEKIRADLGPGIAELSRLRRELPALHEGNLRWLYAGDDVLIYVREHNDVCVLVAASRAAFEAVELPASLVHPRTENATPSPLWGCGTLTARNTAQSTTFSGSGPSLQLWRLPGIKAPAGQSGSHISSATPKDDPIGDTTSDLPWTDQAPRLQAMQHH	PGPT0018560_2037	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-17_02142	1746	malL_3	COG0366	Oligo-1,6-glucosidase	TTGTCCACCACCGCCACTATGGCAACCTCCTCTGAATCCGAACGCATGGCCGACCCGAACTGGTGGCGCCAAGCAGCCGTCTACCAGATCTACCCGCGCAGCTTCTCCGACTCCAACGGCGACGGCATCGGAGACATCAAGGGCATCACCGCCAAGGTCCCATACCTGAAGTCACTTGGAATCGACGCCGTCTGGCTGAGCCCGTTCTACCCGTCAGCCCTCGCCGACGGCGGCTACGACGTGGACGACTACCGCAACGTAGACCCAAAACTCGGCACCCTCGAGGACTTCGACGAGATGGTGGCTGCCCTGCACGCCGCCGGCATCAAGCTAATCGCCGACATTGTCCCGAACCACTCCTCCGACCGGCACGAATGGTTCCGGGAAGCCCTCGCCTCCCCGAAAGGCTCACCTGCACGCGACCGCTACATCTTCCGCGACGGGAAAGGCGAAAACGGCGAGCTGCCGCCGTCGGACTGGGATTCGGTGTTCGGTGGACCAGTCTGGGAGCGCATCACCGAGCCGGACGGCACCCCCGGCCAGTGGTACATGCACATCTTCGCCAAGGAGCAGCCGGACTTTAACTGGGACAACCCCGAGGTTCGCCAGGACTTCCTGAAGACGCTGCGTTTCTGGTCCGACCGCGGCGTTGATGGCTTCCGCATTGACGTCGCCCACGGCATGGCAAAGGATCTCTCAGAGCCGCTGCCGTTGAAGGCGGACTTGGAAGCCAAAGCCGGCGCGGACGGGTTCATTGACGGATCACACCCTTTCTGGGACCGCGACGAGGTCCACGAGGTCTATGCCGAGTGGCGCAAGCTCTTCAACGAGTACAACCCGCCTCGCACCGCCGTCGCCGAGGCCTGGGTCCACGAGACGCGCCGCGCCCGCTACGCCAGCCCTGAAGGTCTCGGCCAGGCCTTCAACTTCGACCTCCTTCAGGCCGACTTTGAGGCCCCGAAGTTCAAGAAAATCATCATGGACAACCTCATCGCGGCCAAAGAAACGGGGGCATCCTCGACCTGGGTGTTCTCCAACCACGACGTTGTCCGCCACGCCACCCGCTACGGACTGCCCAAGGGCAACGCCACGGCAGCCCAGGGAACCAACGCCGCCCAGGACGTCACGGCAACGGAACCCAAAGGCCAGGACGGCAAAGCCTGGCTCCTGGCAGGCGGCCCGGCCCAAGAACTGGACGTCGAGCTTGGCCTGCGCCGCGCCCGCGCCGCGTCCCTGCTGATGTTCGCCCTGCCCGGATCGGCCTACCTGTACCAGGGTGAAGAACTCGGCCTCCAGGAAGTCGCCGACATCCCTGACTCCGAGCGCCAGGACCCCGCCTTCTTCCGCAACAAGGGCGTCGAGATCGGCCGCGACGGCTGCCGCGTGCCCCTGCCCTGGAGTATTGAAGGCAGCTCCTTTGGATTCGGCGACGGCCGAGCCCACCTGCCCCAGCCGGACTGGTTCAGCAAGTACGCCGTCGAGGCCCAGGACGGGACCGAAGGTTCCACCCTGGAGCTCTACCGCAGCGCACTTCGCCTGCGCCGTGAACTCCAAGCCGACGAAGAGCTCGAATGGGTCGAGTCCGGCAACCCCGAGGTCCTGCACTTCCGCCGACCCGGCGGCTGGCAGTCCGTGACCAACTTCGGAGACACGGCAATCGACCTGCCGGCAGGCACCGTCCTGGTCAGCAGCGCAATCCTCGAGGACGGCAAGTTGCCGGCCAACACCACGGCCTGGCTGCGCTGA	MSTTATMATSSESERMADPNWWRQAAVYQIYPRSFSDSNGDGIGDIKGITAKVPYLKSLGIDAVWLSPFYPSALADGGYDVDDYRNVDPKLGTLEDFDEMVAALHAAGIKLIADIVPNHSSDRHEWFREALASPKGSPARDRYIFRDGKGENGELPPSDWDSVFGGPVWERITEPDGTPGQWYMHIFAKEQPDFNWDNPEVRQDFLKTLRFWSDRGVDGFRIDVAHGMAKDLSEPLPLKADLEAKAGADGFIDGSHPFWDRDEVHEVYAEWRKLFNEYNPPRTAVAEAWVHETRRARYASPEGLGQAFNFDLLQADFEAPKFKKIIMDNLIAAKETGASSTWVFSNHDVVRHATRYGLPKGNATAAQGTNAAQDVTATEPKGQDGKAWLLAGGPAQELDVELGLRRARAASLLMFALPGSAYLYQGEELGLQEVADIPDSERQDPAFFRNKGVEIGRDGCRVPLPWSIEGSSFGFGDGRAHLPQPDWFSKYAVEAQDGTEGSTLELYRSALRLRRELQADEELEWVESGNPEVLHFRRPGGWQSVTNFGDTAIDLPAGTVLVSSAILEDGKLPANTTAWLR	PGPT0018560_3009	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-17_02143	516	iolS_3	COG0667	Aldo-keto reductase IolS	ATGTTGGAGCGAAGGCCCTTTGGTAACACTACTTTCAGCGTCTCCGTCGTCGGGCTCGGCGCCGGTCAAGTTGGTGAAAACGATGTTACCGAGGCCGAAGCCGCCGAGGTGCTTAACGGAGCACTGGATCTCGGAGTAACGCTGATCGATACCGCCGCTAGTTACGGGCTGAGCGAAGAGCGTATCGGCCGGCACCTCGGCCGACGTCGGGAAGAGTTCGTGCTTTCAACCAAAGGTGGACCCAAGATCAATGGTCAACCGGATTGGTCGCCAGGAAGCGTATTGGCAAGTATCGAGCGTTCATTGCGCCTGACACAGTCGGAACAGATCGATATCTTCTATCTGCACTCCTGCCCCATCGAAATTCTGCGGCGTGGTGACCTGCAGGACACCCTTGATGAAGCCGTCGCTGCTGGCAAAATCGGTGTCGCAGGCTACAGCGGCGACAATGAACCTCTAGCATGCGGTGGAATCCGGGCGCTTCGGTTCCATCGAAACAAGTGTCAACATAGCTGA	MLERRPFGNTTFSVSVVGLGAGQVGENDVTEAEAAEVLNGALDLGVTLIDTAASYGLSEERIGRHLGRRREEFVLSTKGGPKINGQPDWSPGSVLASIERSLRLTQSEQIDIFYLHSCPIEILRRGDLQDTLDEAVAAGKIGVAGYSGDNEPLACGGIRALRFHRNKCQHS				NA	NA	NA	NA	NA
D1-17_02144	699			hypothetical protein	ATGATCACTCCCGCACGCCTGCACTCGGACCTGTCCCGTCTGGGCAGGGAAACCGGCATGTTCCTTGCCACCGTCGCGTCCCTTTCGGACGATGAAATGGCGGCCGCGCCGCTGTGTGAAGGATGGTCCAGGGCGCACGTGATCGCCCACGTCGCCGCCAACGGGCGGGCGCTGGTCCAGCTCATCGACTGGGCCGCCGCGGGAGAAGAGCGCCGGTTTTACGCCTCGCCCGAAGCCCGCGCCGGTGCCATCTCCGCCCTGGCAGCGCTGCCCCGGGAGGAGTTGCTGGAGGACTTGCGGGCCTCGGCCAAACACTTCGCAGAGCAGGCGCAGCGGCTGGCCGGCACGCTCGTTGCTCCGGAAGTCCAGGTTAACGGCTGTCCACTTCCGGCAACGTCCATCGTGGCGCTCCGGATCGCGGAAGTGGTGGTGCACCACCATGACCTGGACACCGCCTGGACAATCGAGGAAGCCGACCCGGACTCGCTGCTGGATGCCCTCGAGGCCGTAGTGCGTTCGCTGGGCGCCAAGGATGTGCCGGGCATGACCCTGGTCACCGAGGAACGCGACCAGTGGATTATCGGCAACGGCGCGCTGCGCGTTGAGTCCGACCGTGAGGGCCTGCTCCAGTGGCTGGCGCGCGGTGATGCCGCGCATATCGAGGCGGCAGGCCCGGTGCCGGCATTGCCGCGCTGGTGA	MITPARLHSDLSRLGRETGMFLATVASLSDDEMAAAPLCEGWSRAHVIAHVAANGRALVQLIDWAAAGEERRFYASPEARAGAISALAALPREELLEDLRASAKHFAEQAQRLAGTLVAPEVQVNGCPLPATSIVALRIAEVVVHHHDLDTAWTIEEADPDSLLDALEAVVRSLGAKDVPGMTLVTEERDQWIIGNGALRVESDREGLLQWLARGDAAHIEAAGPVPALPRW				NA	NA	NA	NA	NA
D1-17_02145	1386	genK_2	COG0477	Gentisate transporter	ATGACACAACCGCACGCGGTTATCGCTGACAATCCACAAAAGGAGGCCCGCACCGCCAATTGGGTGGCCTTCATCATCTGCACAGCCCTGCTCTTTGACGGCTACGACCTGGTCATCTACGGCACCGTCCTGCCGGGACTCCTGGCGGACCCTGGCCAGATCGGGAAGTTCGATGTGGCCACCGCCGGCCTCCTGGGCTCCTGGGCCCTCATCGGCGTGCTGGTGGGATCGCTCGTCTGCGGCGCCGTGGGCGACTTCTTCGGCCGCCGCCGGCTGATGCTCCTCGGCATCGCCTGGTTCTCGGTGGGCATGTTCATCACCGCACTGACCACCACCGTGCCGGCCTTCGGTGCCATGCGGTTCATCACGGGCCTTGGCTTGGGCGTTGTCATCGCCAGCGCCGGCGCCACCATGGCCGAATTTGCACCCGCCGGACGCCGCCAGTTCTACAACGCCATCGTGTACTCCGGCGTCCCGGCAGGCGGCGTGGCCGCCTCCGTCATGGGCATCCTGTTCCACGAGAGTCTCGGCTGGCGGGGGCTGTTCATCATCGGCGCACTGCCGCTGGTCATCCTGCTCCCCATCGCCTGGCGCAAACTCCCCGAGTCCCCCCGCTGGCTGCTGTCCCGCGGCCGGGAAGAGGAGGCCCTGGCCGCCGCGAAGCGCACCGGCGTGCCGCTGCTTGAAGAGCGCGTCATCCTCGACACGGGCGCAGCGCCGCTGAAGTCCGGGTTCGCCGCAGTCTTCTCCAGGCAGTTCGCGCTGGCCTCGATCCTGCTGGGGCTCATGTCCTTCTGCGGCCTCCTCCTCACCTACGGCCTCAACACCTGGCTCCCCAAGATCATGGAGGGCTACGGCTACGGCCGGACCTACTCCCTGTTCTTCCCGCTGGCGCTGAACCTCGGCGCGGTGGCGGGCGGGCTGGTCGCCTCCCGGCTGGCGGACAAGAGCGGCCCGCAGCGGGTCATCGCCACAACCTTCGGGCTTGCCACCGTTTCGCTGGTCCTCATGACCTTCAACTTCCCGCTGCCGATGCTCTTCACGTTCATTGCTGTGGCCGGCGTTGGAACACTGGGCACCCAGGTGCTGATCTATGGGTTCCAGTCCAACTACTTCACCACCAACGCCCGCGCGGCCGGCGTGGCTTGGTGCGCCAGCGTGGGCAGGCTGGGCGGCGTACTGGGCCCGATCATCGGCGGCTGGCTCGCGGCAGCGGGCATCGGCGGCTCCACAGCCTTCTACATCTATGGCGTCGTTGCCCTCCTTGGCGCCCTGGTCACGGTCCTGGTCCCGCACCAGCGCAAGCTGGAGGAAGCCGAACACAAGGTCGAGGAGATCGCCGGGCACCGCACCGAACCCAACGTCACGGCGAAGCAGCCCCAGTAG	MTQPHAVIADNPQKEARTANWVAFIICTALLFDGYDLVIYGTVLPGLLADPGQIGKFDVATAGLLGSWALIGVLVGSLVCGAVGDFFGRRRLMLLGIAWFSVGMFITALTTTVPAFGAMRFITGLGLGVVIASAGATMAEFAPAGRRQFYNAIVYSGVPAGGVAASVMGILFHESLGWRGLFIIGALPLVILLPIAWRKLPESPRWLLSRGREEEALAAAKRTGVPLLEERVILDTGAAPLKSGFAAVFSRQFALASILLGLMSFCGLLLTYGLNTWLPKIMEGYGYGRTYSLFFPLALNLGAVAGGLVASRLADKSGPQRVIATTFGLATVSLVLMTFNFPLPMLFTFIAVAGVGTLGTQVLIYGFQSNYFTTNARAAGVAWCASVGRLGGVLGPIIGGWLAAAGIGGSTAFYIYGVVALLGALVTVLVPHQRKLEEAEHKVEEIAGHRTEPNVTAKQPQ	PGPT0005390_44	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005390-benK-K05548	NA	NA
D1-17_02146	945	hcaR_1		Hca operon transcriptional activator HcaR	GTGGACATCCGGCAGTTGAACTACTTCATTGCGGTGGCGGAAGAGCGGCATTTCGGCCGGGCGGCCAAGCGCCTCCACATGGCCCAGCCGCCCCTCTCCCAGCAGATCCGCCAGCTCGAGGAGCAGCTGGGGGTCCGCCTGCTCAACCGCACCACGCGGCGCGTGGACCTCACGGCCGCGGGACAGCTCCTGCTTGAGCGGGGCCGGCAGATCGTCAACGACATAGGGACGCTGGAGGCGGACGTGTACCAGGTGGGCAAGGGTGCCACCGGGGTCCTCCGGGTGGGATTTTCAGGCTCTGCAACTTACGGCGTCATGCCCCAGATCGCACGCCTTGCCAAGCAGGTCCTTCCCGGCCTGTCCCTGGCATTGAACGGCGAGATGCTCACCCCGTCCATGGAAGCAGGTCTCCGCGACGGAACTTTGGACGCAGCACTGCTGCGTCCCCCCGTCTCATCCCAGGAGATCGACTACCGCGTCGTCTCCCAGGAGCCGCTCGTCGTCGCGGTTCCCTCATTCAGCGCGCTGGCGGAGGACAGGTCTGTGGCGATACATGAACTGCAGGACCAGGACTTCATCGCATATGCGCCCGAGTCCGTGCTCTACCGCATCACCTCCGACCTGTGCCGCCAGGCCGGCTTCCAACCGCGCATCACTCAAGTTGTTGGTGAGACCTCCACGATGCTGGCATTCGTTGCCGCCGGCGGCGGCGTGGCGGTCATGCCGTCCCGGGTGCGGGCTTTCCAGCTCGACGGCGTTGCTTACCGGGAGATCGAAAACGTCCCTACCGTGGAACTCGCTGTCGCCTGGCTGCGCGGAAACCACTCCACCCTGCTGCAGAACTTTTTGGATGTCGTCGGCGCCGCTACAGCCGCTCAGCCGCTGCCCGACCCAGCCCCCGGGCCCGTCCCGCTTCCCACTGATGAAAGGCTTTCCCAGTCATGA	MDIRQLNYFIAVAEERHFGRAAKRLHMAQPPLSQQIRQLEEQLGVRLLNRTTRRVDLTAAGQLLLERGRQIVNDIGTLEADVYQVGKGATGVLRVGFSGSATYGVMPQIARLAKQVLPGLSLALNGEMLTPSMEAGLRDGTLDAALLRPPVSSQEIDYRVVSQEPLVVAVPSFSALAEDRSVAIHELQDQDFIAYAPESVLYRITSDLCRQAGFQPRITQVVGETSTMLAFVAAGGGVAVMPSRVRAFQLDGVAYREIENVPTVELAVAWLRGNHSTLLQNFLDVVGAATAAQPLPDPAPGPVPLPTDERLSQS				NA	NA	NA	NA	NA
D1-17_02147	1104	ykfB	COG4948	L-Ala-D/L-Glu epimerase	ATGAAAATCGCAGCCATTGAGGCGATTCCTTACTCGATCCCCTATCGCCACCCGCTGCATTTCGCCTCCGGATCCGTCCACGAGGCGGACCACGTGCTGGTCCGCCTCCGCACGGACGATGGCGTGGTGGGCCTCGCGGACACCCCGCCGCGCCCGTACACCTATGGTGAGACGCAAAAGTCCATCGTGGCGGTGGTGCAGGATGTGTTCGCTCCGCAACTGATCGGCGTCGACATTTTTGACCGGGAGAAGATCCAGGAGATCCTCTACCGCACCATCCACAACCAGACCGCCAAGGGCGCCGTGGACATCGCCCTGTGGGACGTCATCGGCAAGACGCTGGGGCAGCCGGTGACCAAGCTGCTGGGCGGCTACACCGACTCGCTGCGGGTCTCCCACATGCTCGGCTTCAAGCCCGCCCAGGAACTGCTCGACCTGGCACTGGAGTTCCGCGAGACCTACGGCATCAACACCTTCAAGCTCAAGACCGGCCGGCGCCCCCTCCACCTGGACGTCGAGGCGGCCCGCGTGCTGCGCGAGGGCCTCGGCGGGGACGCCGAACTGTATATGGACGCCAACCGGGGCTGGTCCGCGAATGAGGCCGCGGAGGTGCTGCGCCGCACCGCGGACCTGGGCCTGCAGTTCCTCGAGGAGCCGGACGACGCCCGCGAAGTCCTGGGCCGCCGTCGGCTCGTTGCCAACTCCCCCATCCCCATCGCCGCGGACGAATCCGCCCCCAACCTTGGAGAGGCCGCCCGGGAAATCCTCAACGGCGGGGCCAACCTGCTCGCGGTCAAGACGGCCCGCTCCGGATTTACCGAGGCTGCCAAGATCGTGGGGATGGCCGAGGGCATGGGCATCGACGTGTACATCGGCAACCAGATCGACACCCAGGTGGGCACGGTGGCTTCGGTGGTGTTCGGCGCTGCGTTCGCCCACACTGCAAAGCGCGCCGCGGAACTGTCCAACTACCTGGACATGGCGGACGATCTACTGGCCGAACCCCTGCAGATCATCGAAGGGCGCATCCGCGTCCCCGAGGGCCCCGGCGTGGGCACCGGGGTCAACGAGGAAAAGCTTGAACGCTACCGCAGCGACCGCTAA	MKIAAIEAIPYSIPYRHPLHFASGSVHEADHVLVRLRTDDGVVGLADTPPRPYTYGETQKSIVAVVQDVFAPQLIGVDIFDREKIQEILYRTIHNQTAKGAVDIALWDVIGKTLGQPVTKLLGGYTDSLRVSHMLGFKPAQELLDLALEFRETYGINTFKLKTGRRPLHLDVEAARVLREGLGGDAELYMDANRGWSANEAAEVLRRTADLGLQFLEEPDDAREVLGRRRLVANSPIPIAADESAPNLGEAAREILNGGANLLAVKTARSGFTEAAKIVGMAEGMGIDVYIGNQIDTQVGTVASVVFGAAFAHTAKRAAELSNYLDMADDLLAEPLQIIEGRIRVPEGPGVGTGVNEEKLERYRSDR	PGPT0020045_370	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
D1-17_02148	279	catC_2	COG4829	Muconolactone Delta-isomerase	GTGAAGTACCTGGTCCATATGGACGTCAAACTGCCCGCAGACCTGCCCGCATCCGAGGCGGCTGAGATCAAGGCCAAGGAGAAGGCCTACTCGCAGGAGCTGCAGCGCTCGGGGAAATGGCCGGAAATCTGGCGCGTGGTGGGTGAATACGCCAACTACTCGATCTTCGACGTGGATTCCAACGACGAACTCCACGACATCCTGCAGAACCTTCCGCTGTTCCCGTACATGGAGATCTCGGTGGTGCCGCTGGCCAAGCACCCCTCCGACGTGAAGTAG	MKYLVHMDVKLPADLPASEAAEIKAKEKAYSQELQRSGKWPEIWRVVGEYANYSIFDVDSNDELHDILQNLPLFPYMEISVVPLAKHPSDVK	PGPT0005045_483	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005045-catC-K03464	NA	NA
D1-17_02149	2832			hypothetical protein	ATGACTGCGGAGTCCGCCCACGGCGATATCGGTGCGGATTCGCCGCTGGTGGGCCGCGATGCGGTGTTCGAGGAGCTCCTGGAAACCCTCCGCACGGTCCGCAAGGGCAAGGTGGCCACCGTGGTCCTCACCGGCCCCTCGGGTTGCGGAAAAACCGCCGTGCTGGAGTCCTTCCTGGAGCATTGCCGCACCGGCGCCCGGGGCGTCCGCATCCTTTCGGCCATGGGCGATGAGTGGGAAGCGCAGTTTGCGCTCGCAGGCTACTCCCAACTCATGCTCACCTCGCCGCTGCGCTCGGCAAAGGCGTACGACGACGGCCCGCACCTTCCGGCTACGCCGGTCGCCGCCCTGGGCGCGGACCAAGTGGTCAACTACGCGTCCACCCTCAGCACCCACCTCGAAGGGCTGCAGTCGCACGGAAGCGTGGTGGTCGCCGTCGACGACGTCCACAAACTGGACGTGGAAAGCCTGCGAATCCTCACGTTCGTCATGCGCCGGCTGCACGGCAAGCGGATTCTTTTCCTGCTGACGCTCAATCCCGACGAGGCGCCGCGCATCCCCGCCGGCGTCCTGGACTTCCTGACCGGGCACCAAGTGGAGCGGATCCCGATGGAACCGCTCACCGCGCAGCAGGTCCAGGAAGTCGCCCGGCGCTTCCACGGCATTGACCTCAGCGTCACGGCGGCCCACGGGCTGGTCCGGCACACGGGCGGCCTGCCGCAGCCCGTGGTGGAGTTGCTGCGCGAACTGCCCCCGGAGACCTGGCTGACCTGGTTCCCCTCGCTGCCGCCCACGTCCAGGATCCGGGCCAGGGTGCGCAGCGTCCTGGACGCCGCCTCGCCCGGACTCGTTGCCGTCGCGGAGGCCGCGTCCGTGCTAGGGCGCAGCGCCGGACTGACGGAAGTGGCCGCGGTCAGTGGCGTGGCGTCCGTCCTCGAAGCCCTGGACGAAGGCCACCGCGCCGGCCTCCTGGGGCTGTCCGTGGACCAGGCGCGCTCCGCCGTCGTCTTCGTTGAACCCGGCACCGCCGAAGCGATTTACGAGCAGATTGTTCCCAGCCGCCGCATCGCGCTGCACCGGCTGGCCGCCGAGGCCGTGGAACCGGAAGGCGAGAAACTGGGGCACCGGGTTTCGGCAACGCCGGCCGCGGACCAGTCGCTGGCCGAAGAACTCGAGGATTTCGCCAACCGCCAGGCCGCCGTGGGGGCATGGCAGGACGTGGCGACGGCCCTGTTTTCCGCTTCCCGGCTTTCGTTGGAGATCCGGGCCCGCAACGACCGGCTCCTGCGCGCAGTGGACGCGCTGGTGGGGGCCGGAAACGTAGCCGAGGCGCAGACCTGGTCCGCAGCCGTTGACGCCCTGCCGCCCTCGCCGCTGCGCTCCTCGGTGCTGGGCTACCTGTCCACTGTGTCCGGCCAGAACGACAGCGCCCAAAGCCAGTTGGAAATGGCGTGGCGCACCAGCAACCCGGAGCGCGAACCGAAGGCCGCCGCCCAGGTAGCACAGCGTTTCGTCCTGCACGGGGTGGCATCCTGGGACGGGCCGATGATCACCGGCTGGGCGGAGCGTGCGATGGCCCTGACCGAGCCCGGGACGCCGGCGCACGTTGAGTCAGAAGCCATCTACGGCCTGGGCCTGTACGCGCGGGGCCGTCTGGGGGAGGCGGAGGCATCCTACCAGCGGGCGTTCGCGCACGCCGCCGAGAACGCGCAGAAGCAGCGGGTGCAGATGGGAGCTGGCTGGCTGGCGCTGCGGATGGACAACGTGGAAGCGGCCCTGGTGAACTTCGAGTCCGCCGCCCCCACCGAGTACCGCGGCGGGTCCCTGCGGATCTCCCTGTGGGCCGAGGCGTGGCTGGCCCGCACCCATCTGGTGCTGGGGAACTGGGATTCCGCGGCGGCCACCATCGCCCGCTCCAGTGTCCGCCTGGAAACCTCCCGGATGCCCCTGATCCGGCCCCTGCTGTACTGGACCGCCGCGGAGCTCTGGTCCATGCGCGGAGACTGGGACCGCGCCCGCTATTACGTCTCCCAGGCCGCGGTCCAGCCGGGAACCTACCGGGCCATGCAGGTGCCGGCCAGCCTGGCGCGGGCCCGGTTCCACGAGGCGCGGGCTGATTATGAAAGCGCCCTCGCCGTGCTGCAGCCGCTGACCGAACTGGACCCGTGGACCGAGGACCGGGTCTCGTTCTGGCCCTGGCAGGACACGTATGTTAACGCCCTGGTGATGACTGATCAGCTGGACACCGCCGACGCTTTCCTGACCTCCTTCGAGGGGTTGCGGCGCGAACGCGAAGTCCCCTCCGACATGGCACGGATGGCTTGGGCGCGGGGCCGGCTGCTGGCGGCCCAGGGGGATCCCGACGCTGCCAGGGAGCATTTCGAGGCCGCCTTGGGCCACCTCCGCGGGCTCAACCGGCCCTACCTGCGGGCCCGGATCAGCTTTGCTTTCGGGCAGAGCATGCGCCGCGCCGGCAAGCGGCGGCTGGCGTCTTCGGTGCTGCGTGCGGCACGGGACCTCTACGACTCACTGGGCGCGGCCACCTATGTGGAGCGCTGCGACAGGGAGCTCAAGGCGACCGGTCTCGACGTCGGAAATCTCCCTGACCCTGCCGATTCGGTACTCACAGCCGCCCGGGACCACCACGTCCAGCTCACCGCGCAGGAGCAGGCGGTGGCCGAACTCGTCGCCGGGGGTGCGACCAACAAGGAGGCGGCCCGGGCCCTGTTCCTCGCCGAGAAGACGGTGCAGTACCATCTCACGCGGCTTTACCGGAAGATGGGCATCCGGTCCCGCAGCGAGCTCGCCGCCGCGTTCCGGGCCGGGGACTGA	MTAESAHGDIGADSPLVGRDAVFEELLETLRTVRKGKVATVVLTGPSGCGKTAVLESFLEHCRTGARGVRILSAMGDEWEAQFALAGYSQLMLTSPLRSAKAYDDGPHLPATPVAALGADQVVNYASTLSTHLEGLQSHGSVVVAVDDVHKLDVESLRILTFVMRRLHGKRILFLLTLNPDEAPRIPAGVLDFLTGHQVERIPMEPLTAQQVQEVARRFHGIDLSVTAAHGLVRHTGGLPQPVVELLRELPPETWLTWFPSLPPTSRIRARVRSVLDAASPGLVAVAEAASVLGRSAGLTEVAAVSGVASVLEALDEGHRAGLLGLSVDQARSAVVFVEPGTAEAIYEQIVPSRRIALHRLAAEAVEPEGEKLGHRVSATPAADQSLAEELEDFANRQAAVGAWQDVATALFSASRLSLEIRARNDRLLRAVDALVGAGNVAEAQTWSAAVDALPPSPLRSSVLGYLSTVSGQNDSAQSQLEMAWRTSNPEREPKAAAQVAQRFVLHGVASWDGPMITGWAERAMALTEPGTPAHVESEAIYGLGLYARGRLGEAEASYQRAFAHAAENAQKQRVQMGAGWLALRMDNVEAALVNFESAAPTEYRGGSLRISLWAEAWLARTHLVLGNWDSAAATIARSSVRLETSRMPLIRPLLYWTAAELWSMRGDWDRARYYVSQAAVQPGTYRAMQVPASLARARFHEARADYESALAVLQPLTELDPWTEDRVSFWPWQDTYVNALVMTDQLDTADAFLTSFEGLRREREVPSDMARMAWARGRLLAAQGDPDAAREHFEAALGHLRGLNRPYLRARISFAFGQSMRRAGKRRLASSVLRAARDLYDSLGAATYVERCDRELKATGLDVGNLPDPADSVLTAARDHHVQLTAQEQAVAELVAGGATNKEAARALFLAEKTVQYHLTRLYRKMGIRSRSELAAAFRAGD				NA	NA	NA	NA	NA
D1-17_02150	828		COG1028	3-beta-hydroxycholanate 3-dehydrogenase (NADP(+))	ATGGCGGCGCCGTACGCCGGGCAATTCGTGACGCCCGGCAGGTTCGGCGGCAAGGTTGCCGTCGTCACCGGCGCCGCCCAGGGGATCGGCCAGAAGGTGGCCGAACGCATCGGTGCCGAAGGCGGGACAGTGGTCCTGGTGGACCGGGCGGAACTGGTCCACGATGTGGCTCGCGGCATCGAAGAGGCCGCAAACGCGTCCGGCTCCGGCGGCTCGGCCACATCCGTCACGGCGGACCTGGAGACCTTTGCCGGCGCCACCCAGGCCGTCAAGGCGGCGCTCGCGGCCCACGGACGCGTGGACGTGCTGGTCAACAACGTGGGCGGCACCATCTGGGCACGGCCCTACGAGGAATACGACGAGGAGAAGATCGAGAAGGAAATCCGCCGCTCACTCTTCCCCACCCTCTGGAGCTGCCGGGCGGTACTGCCGGTGATGCTCGAACAGGGATCGGGGACCATCGTCAACGTTTCCTCGGTGGCCACCCGCGGCATGCACCGGGTCCCGTACGCCGCGGCAAAGGGCGGCGTTAACGCCCTGACCCAGGCCTTGGCCATGGAGGTGGCCGGCCACGGCATCCGCGTGGTTGCCACCGCGCCGGGCGGCACCGAGGCGCCTCCGCGGAAGGTCAAGCGCGGGCCGGAAGCCCAATCCGCCACCGAGAAGGCCTGGTACCAGGTGATCGTGGACCAGACCGTGGAGTCGTCCTTCATGAAGCGCTACGGAACCCTGGACGAGCAGGCCGCGCCCATCGTCTTTCTCGCCTCCGACGAAGCGTCCTACCTCACCGGCAGCATCCTCCCGGTCGCCGGCGGGGACCTGGGGTAG	MAAPYAGQFVTPGRFGGKVAVVTGAAQGIGQKVAERIGAEGGTVVLVDRAELVHDVARGIEEAANASGSGGSATSVTADLETFAGATQAVKAALAAHGRVDVLVNNVGGTIWARPYEEYDEEKIEKEIRRSLFPTLWSCRAVLPVMLEQGSGTIVNVSSVATRGMHRVPYAAAKGGVNALTQALAMEVAGHGIRVVATAPGGTEAPPRKVKRGPEAQSATEKAWYQVIVDQTVESSFMKRYGTLDEQAAPIVFLASDEASYLTGSILPVAGGDLG	PGPT0005250_26	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005250-benD_xylL-K05783	NA	NA
D1-17_02151	1572	nqrF		Na(+)-translocating NADH-quinone reductase subunit F	ATGGGCCACAAAGTAGCCCTCAGCTTCGAGGACGGCGTCACCAAAGTCATTAAGGTCGGCGACTACGAAACCGTCATGGACGCGGCCTACAAGGCGCGCATCAACATCCCGTCGGACTGCCGCGACGGTGCCTGCGGCACCTGCAAGGCGTTCTGCGATTCCGGCTCCTTCGACCCGGGGGACTACATCGACGACGCCATGACCGAAGAGGAGCTCGAAAAGGGCTACCTGCTGACCTGCCAGGCCGTCCCGGAATCCGACCTGGCCATCCAGATCCCGGCCACGTCGGAGTCGGCGAAGACGGCCGCGGCCACCTTCACTTCCACCATCAAGGAGCTCAACCGGCACACAGACACCACGGTGTCCTTCACCCTCGAGGTGGACAACCGGGACGCGCTGGCCTTCCTTCCCGGCCAGTACGTCAACCTCAAGGTCCCCGGAACCGACGCCGAGCGCTCCTACTCCTTCAGCAGCGGCCCCGAGGACCAGGACGCGTCCTTCATGGTGCGCGTGACCCCGCAGGGCGCCATGTCCGAGTACCTGCGCGACCGCGCAGCAGTGGGCGACTCCATCGACTTCACCGGCCCCTACGGATCGTTCTTCCTGCGCGAGCCCAAGCGGCCCCTGCTGCTCCTGGCCGGCGGCACCGGCCTGGCCCCGCTCCTGTCCATCCTGGAAAAGCTCTCCGAAAACCCGCCGTCCACCCCGGTCCACCTGATTTACGGGCTCACCCGCGAGGCGGACATCGTGGGCCTCGACTGGCTGCGCGCCTATGAAGCGAAGCTGCCCGGCTTCACCTGGGACTACATTGCCTCCGAGCCCGGCACGTCCGCCCCGCACACTGGCTACGTCACGCAGATCATCGAACCCGCGCACCTCAACGAAGGCGACGTGGACATCTACCTCTGCGGCCCGCCCCCCATGGTCAACGCCGTCTCCAAGTGGCTGGACACCGAAGGCATCCAGCCCGCCAACTTCTACTTCGAACGGTTCGCGCCGAAGGAGACCACCGGAGGCGACGCCGAAACGGGCGCCCCGGCGCCGGCTGAAAAGATCCAGGCCGCAGGCGACACGATGAGCCGCGGTGAGGCACTGTCCTCGCTGGAGACCGGCAGGCTGGATTTCCGCAAGGAGGACAGTTTCGCTCAGCTCGACGCACGCATGGGCCTGGAGCTTGCCGTCAGCGAACTGCTGCTGGGCCGGCTCACCGAAGAGCAGCTGCGCCAGTTCCGTCGGCTGGCCGAAGCCACCACCGGCTCGGTTGCGGGCGGCAACATCATCAATCCCGAGGAGTTCGCGCGCACCAACGAGGAATTCCACGAGTACCTCTTCATGATCTGCGACAACCCCATGCTCCTGGAGTCCTACCGCCGCCTGGACGTGCACGCCCAGATGGCCGCGGCATTCGAGACCGGAACGGCGATCTTCGAGCGCGTCACCCAGGACCACCTGGACATTGTGGACGCCTTCGAACGCGGCGACAAGGACCGCCTCCGCGCCGTCATCACCGCGCACGCCCACGACGCGAAGGACACCATGGCCGGGGCCATCGACGCCAAGGCCGCCCGCTGA	MGHKVALSFEDGVTKVIKVGDYETVMDAAYKARINIPSDCRDGACGTCKAFCDSGSFDPGDYIDDAMTEEELEKGYLLTCQAVPESDLAIQIPATSESAKTAAATFTSTIKELNRHTDTTVSFTLEVDNRDALAFLPGQYVNLKVPGTDAERSYSFSSGPEDQDASFMVRVTPQGAMSEYLRDRAAVGDSIDFTGPYGSFFLREPKRPLLLLAGGTGLAPLLSILEKLSENPPSTPVHLIYGLTREADIVGLDWLRAYEAKLPGFTWDYIASEPGTSAPHTGYVTQIIEPAHLNEGDVDIYLCGPPPMVNAVSKWLDTEGIQPANFYFERFAPKETTGGDAETGAPAPAEKIQAAGDTMSRGEALSSLETGRLDFRKEDSFAQLDARMGLELAVSELLLGRLTEEQLRQFRRLAEATTGSVAGGNIINPEEFARTNEEFHEYLFMICDNPMLLESYRRLDVHAQMAAAFETGTAIFERVTQDHLDIVDAFERGDKDRLRAVITAHAHDAKDTMAGAIDAKAAR	PGPT0005255_57	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005255-benC_xylZ-K05784	NA	NA
D1-17_02152	537	cbdB		2-halobenzoate 1,2-dioxygenase small subunit	ATGAGCAACCTGACCCAAACCGCCCCGGTCCTGAAGACCGCGGAGGAGATCGCAACCCTCGAGACCGTCCGGGCGTTCCTTTACCGGGAAGCCCGCCTGCTGGATGACCGCCAGTTCGATGAATGGCTTGAGTGCTACCACCCGGACTCCGAATTCTGGATGCCGGCGTGGGACGTCGACGACCAGCTGACGCAGGATCCCCAGAACGAGATCTCCCTCATCTACTACGACAACCGCGGCGGCATCGAGGACCGCGTGTTCCGGATCAAGACCGACCGGTCTTCTGCCACCTCCCTTCCCGAGCCGCGCACGGGCCACAACATCACGGACATCGAGGTTTTGGCGGACGACGGCGGCCAGGTCCAGGTGCGCTTCAACTGGTTCACCCTCTACTTCCGCTACAACACGACCGACACGTACTTCGGCACCAGCTTCTACACGATCGACCTTTCCGGCCCGGAGCCGGTGATCCTGAAGAAGAAAGTGGTCCTGAAGAACGACTACATCCACCACGTGGTGGACGTCTACATGATCTGA	MSNLTQTAPVLKTAEEIATLETVRAFLYREARLLDDRQFDEWLECYHPDSEFWMPAWDVDDQLTQDPQNEISLIYYDNRGGIEDRVFRIKTDRSSATSLPEPRTGHNITDIEVLADDGGQVQVRFNWFTLYFRYNTTDTYFGTSFYTIDLSGPEPVILKKKVVLKNDYIHHVVDVYMI	PGPT0005245_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005245-benB_xylY-K05550	NA	NA
D1-17_02153	1386	cbdA		2-halobenzoate 1,2-dioxygenase large subunit	ATGACCGAGAACCTGATCCATGCCCGCGAGGTCCTTGCCGACGCCGTGATCGATGACCGTGAGAACGGCATCATCCGGGCCAAACGCGAGATCTTCACCGACCAGGACATCTTCGAACTCGAGATGAAGCACATCTTCGAAGGCAACTGGGTTTACCTCGCCCACGAGTCGCAGATCCCCAACGTGGGTGATTACTTCACCACGTACATCGGCCGCACCCCGGTGATGATCACCAGGGACAAGGACGAACAGCTGAACTGCATCGTCAACGCCTGTTCGCACCGCGGCGCCATGCTGTGCCGCCGCAAGACGGACAACCGCACCACCTTCACCTGCCCGTTCCACGGCTGGACGTTCAAGAACTCCGGCGAGCTGCTGAAGGTCAAGGATTCCCGGAACGCCGGCTACCCCGAGACCTTCAACAAGGAAGGCTCGCACGACCTCACCAAGGTGGCCCGCTTCGAGTCCTACCGCGGCTTCCTGTTCGGCTCGCTGAAGGCTGACGTGCTCCCGCTCGAGGAGCACCTGGGCGACGCCACCAAGGTAATCGACTCGATCGTTGACCAGTCACCTGAAGGCCTGGAGGTGCTGCGCGGTTCCTCCACCTACACCTATGACGGCAACTGGAAGGTCCAGGCCGAGAACGGCGCGGACGGCTACCACGTCACGGCCGTGCACTGGAACTACGCAGCCACCACCGCCCGCCGCAGCGCCGGTGATTCCGCGAACAAGACCAAGGCCATGGACGCCGGCAAGTGGGGCAAGGTCAAGGGCGGCTTCTACTCCTACGACCACGGACACCTGCTCCTGTGGCAGGAATGGACCAACCCCGAGGACCGCCCGCTCTGGGACCGCCGCGACGAACTGGTCCAGAAGTACGGCGAGGAGATGGCCAACTTCATGATCAACATCTCGCGCAACCTTTGCCTGTACCCGAACGTCTACATCATGGACCAGTTCTCCTCCCAGATCCGCCACTTCCGGCCGATTTCCGCGGACCAGACCGAGGTGACGATCTACTGCATTGCACCCAAGGGCGAGTCCCAGGAGAACCGCTCCAAGCGCATCCGCCAGTACGAGGACTTCTTCAACGCCACCGGCATGGCCACGCCGGACGACCTGGAGGAATTCCGCTCCTGCAACAAGACCTACTGGGCCACCAGCGCCCCGTGGAACGACATGACCCGCGGCTCCACCCATGAGATCACCGGCCCTGACGAGCAGGCCCAGGCCCTGGGCATGACCAGGGTGATTGCCTCCGGCGTGCGCACCGAAGACGAAGGGCTTTACCCCATCCAGCACGGGTACTGGAAGGAAGTCATGGACCGTGCCCTGGCGGAGCAAGAGGAGCGCTCCGCGCGGGATTCCGTCCCCGCCACCGCCTGA	MTENLIHAREVLADAVIDDRENGIIRAKREIFTDQDIFELEMKHIFEGNWVYLAHESQIPNVGDYFTTYIGRTPVMITRDKDEQLNCIVNACSHRGAMLCRRKTDNRTTFTCPFHGWTFKNSGELLKVKDSRNAGYPETFNKEGSHDLTKVARFESYRGFLFGSLKADVLPLEEHLGDATKVIDSIVDQSPEGLEVLRGSSTYTYDGNWKVQAENGADGYHVTAVHWNYAATTARRSAGDSANKTKAMDAGKWGKVKGGFYSYDHGHLLLWQEWTNPEDRPLWDRRDELVQKYGEEMANFMINISRNLCLYPNVYIMDQFSSQIRHFRPISADQTEVTIYCIAPKGESQENRSKRIRQYEDFFNATGMATPDDLEEFRSCNKTYWATSAPWNDMTRGSTHEITGPDEQAQALGMTRVIASGVRTEDEGLYPIQHGYWKEVMDRALAEQEERSARDSVPATA	PGPT0005240_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005240-benA_xylX-K05549	NA	NA
D1-17_02154	885	clcA_1		Chlorocatechol 1,2-dioxygenase	ATGACTGAGACCCAAGTGAATACCCGGAACGAGAACGAGGGCACTGCCGTTGAGGCCGGCTCGAAGGCCACCGAGCGCTTCACCGCCTCCGGCAAGCTCTCGGAACTGCACGTGCCCAAGGAACGCGTGAGCCTGCTGGCCGGCGCCCTCATCAAGGCCGCCAACGACATCGTCGTTGAGCACCAGGTCACCTACGAGGAGTACAACGCGCTGAAAGCGTGGCTGATCAAGGTGGGTACCGACGGCGAGTGGCCGCTGTTCCTCGACGTGTGGCTTGAGCACACCGTGGAGGACGTGAACTCCCAGGAGCGCCCCGGCACCAAGGGAACCATCGAGGGGCCCTACTACGTGCCCGGGTCCCCTGAGCTTTCTACGCCGGCAACCGTCCATATGCGCGACGGCGAAGAGGGCACCCCCCTGCGCTTCACCGGCCAGTTCACGGACACCAACGGCAACGCCCTCAAAAACGCACAGGTGGAGATCTGGCACGCTGACGCCGCCGGCTTCTACTCGCAGTACGCACCGGGCCTGCCCGAATGGCTCTTCCGCGCCACGGTCAAGGCAGATGACCAGGGCCGCTTCGAGATCAACACGATGCGCCCCGCGCCGTACCAGATTCCAACCGACGGCGCCTGCGGCCAGCTCATCAAGGCTGCCGGCTGGCACGCCTGGCGTCCGGCCCACATCCACATCAAGGTGTCGGCACCCGGCTACCAGCCCGTCACCCAGCAGCTCTACTTCCCAGGTGACCCGCACAACGCAGACGACATCGCATCGGCTGTCAAGCCCGAACTGATGCTCGACCCCCGACCGCGGACGGACGGCGGAACCGGCGAGGAAGTTGTCTACAACTACATCCTCGCCAAGGAAGGCCAGACCAAGTAG	MTETQVNTRNENEGTAVEAGSKATERFTASGKLSELHVPKERVSLLAGALIKAANDIVVEHQVTYEEYNALKAWLIKVGTDGEWPLFLDVWLEHTVEDVNSQERPGTKGTIEGPYYVPGSPELSTPATVHMRDGEEGTPLRFTGQFTDTNGNALKNAQVEIWHADAAGFYSQYAPGLPEWLFRATVKADDQGRFEINTMRPAPYQIPTDGACGQLIKAAGWHAWRPAHIHIKVSAPGYQPVTQQLYFPGDPHNADDIASAVKPELMLDPRPRTDGGTGEEVVYNYILAKEGQTK	PGPT0005035_587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005035-catA-K03381	NA	NA
D1-17_02155	1293	ydcO	COG3135	Inner membrane protein YdcO	ATGCCCAGTTCCCGCCAGGACCCAGCCCCAATCCATCCCCAGACCACAACGGCGCCGGTGCCCGCGCCAGTACAGCAACCGCTCCTGGAACGGCCCGGGAACCGTCCGGCCGGACCTCGCCGGTTCCTTCGCGACGTGGACCTGCCCTACCTGTCCAACGGCGTCATCGGACTGGTCTTCACCGCGTCCGGGCCCATCGCCGTCACCCTGGCCGTAGGCGCGGCGGGCGGGCTGACCCAGGACCAGCTCGCCTCGTGGGTTTTCGGCATCCTGTTCTCCGGCGGCGCCGCGACACTCATCATGTCGCTCCTCTACCGGCAGCCGCTGGGGTTTGCCTGGTCCATTCCCGGCACGGTGCTGCTGGGGCCGTCGCTGCAGCATCTGTCCTTCCCGGAAGTGGTGGGCACATTCCTCACGGCCGGCCTGCTCATCCTGGCCTTGGGCGCGACCGGGGTGGTCCGGCGAATCATGGCCAGGGTGCCGATGCAAATCGTCATGGCCATGGTGGCCGCGGTGTTCCTTAAGTTCGGCACGGACATTGTTGCTTCAACGCAATCCAATCTGGCCATAGCCGGCCCGATGGTGGCAGCGTTCCTCCTCCTAACCGCCGTTCCGGCCCTGGGAAAGTTCCTTCCCCCCGTCCTCGGCACGCTGGTGGCAGGATGCCTGGCCGTTGCCGCCAGCGGGCAATTCGTTCCCGGCCGGCCGGGACCGCTCCTGGCCGCCCCGGTCTTCACCCCTCCCATGTTTACCTGGGCCGCGCAGCTGGAGCTCGTGGTTCCCCTGGCGCTGACAGTGCTGTTCGTCCAGAACGGCCAAGGCATCGCCGTGCTCCGCGCCGCCGGGCACCAACCGCCCGTCAACGTTTTTGCGATTGTGTCCGGCGCGTTCTCCGTACTGAACGCCGGCTTAGGTGCCATATCGGCCTGCGTGACCGGCCCCACCAACGCCCTGTTGACGTCGTCGGGAGCCAAAGAGCGCCAGTACACTGCAGCGGTGACCTACGGCTGCCTCGCACTGGCCTGCGCGGCGCTGGCTCCCACCCTGACCCGGCTGATGCTGGCCACGCCCAAGGAATTCGTCCTGGTCCTGGGCGGAATCGCCATGCTGCGGGCACTCCAGCAGGCGTTCGTGACCGCCTTCTCCACCACCTTCACCCTGGGCGCGCTGGTGACCTTCGTGGTCACGATCTCAGGCCTGAACCTTTTCAACATCCACGCGGCCTTCTGGGGCCTGGTCATCGGCTACGCCGCCTCACGGCTGCTGGAGCGTCCGGACCATGCAGGATCGTAA	MPSSRQDPAPIHPQTTTAPVPAPVQQPLLERPGNRPAGPRRFLRDVDLPYLSNGVIGLVFTASGPIAVTLAVGAAGGLTQDQLASWVFGILFSGGAATLIMSLLYRQPLGFAWSIPGTVLLGPSLQHLSFPEVVGTFLTAGLLILALGATGVVRRIMARVPMQIVMAMVAAVFLKFGTDIVASTQSNLAIAGPMVAAFLLLTAVPALGKFLPPVLGTLVAGCLAVAASGQFVPGRPGPLLAAPVFTPPMFTWAAQLELVVPLALTVLFVQNGQGIAVLRAAGHQPPVNVFAIVSGAFSVLNAGLGAISACVTGPTNALLTSSGAKERQYTAAVTYGCLALACAALAPTLTRLMLATPKEFVLVLGGIAMLRALQQAFVTAFSTTFTLGALVTFVVTISGLNLFNIHAAFWGLVIGYAASRLLERPDHAGS	PGPT0005385_58	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
D1-17_02156	834			hypothetical protein	ATGAGCGACGCTGACAACAGCAGGCCGGGGGGTCCGGCGAAGGAGCCGGAGGAGAAAGAACCTCGTACGTGGCAGTCCGTTGCTGCCTCGGTCGCCAAGGGCATTACCGGCTTAGCAGGGCTGGGTGGCGCACTGGTTGCTATTTTTGCCTGGTTCCCGATGGCCAGGGACACGCTGTGGCCGAACCTGAAGGAATACGAGATCGTCTCGTCGCTCCACGCCGGTTACAGCGTGGATGCCTTTGACGCCGTCCTCGGCCCGCCGTCTATCGTGATGGAGCGTGAAGATGACGGGACAACTAAACGGCTGTACGTCAAGGACAACTACGTGGTGCAGACGGTTGCCCTGCCCTCGAAGCAGACGGTGCTCTACTCGGTCCTGTCCTGCGATCTGGGCTTCCAGCCGACCTTCACAAAGTTCGGTAAGTCGATCACCTTGAACGTCGCATCAATGGCCGCCCAGTCCACCGGGAGCAATGGTCCGGACGCACCTGTGAAGCTCTACTACGCCGCCCAGGACGAGGTGGGGATCATGAACGCGGAAAAGTTCCACTGGCGTGTAGAAGTACTCAGCGAAGATACCGACGGTTCCCAGAGCCGCGGCATCGGCTTCGGCGTAAATACCGTGTGCACAGCAGCAGGGCAGCCTGCGACCACCGTTAACTATCAGGGCCCTCTGGATGAGGCGCCTGAGGAGGTGAAGAACTTCAGAGCCGCGACAGCGCCGAACTTCTATGTCGAGACGTATGCATGGAGTTTTCCGACCTCCGCACTTCGGCAGGTGTCCCCGTACTACCAAGACTTGCCTACGCTGACGGTGGCAGCGGGCTCGTAG	MSDADNSRPGGPAKEPEEKEPRTWQSVAASVAKGITGLAGLGGALVAIFAWFPMARDTLWPNLKEYEIVSSLHAGYSVDAFDAVLGPPSIVMEREDDGTTKRLYVKDNYVVQTVALPSKQTVLYSVLSCDLGFQPTFTKFGKSITLNVASMAAQSTGSNGPDAPVKLYYAAQDEVGIMNAEKFHWRVEVLSEDTDGSQSRGIGFGVNTVCTAAGQPATTVNYQGPLDEAPEEVKNFRAATAPNFYVETYAWSFPTSALRQVSPYYQDLPTLTVAAGS				NA	NA	NA	NA	NA
D1-17_02157	318			hypothetical protein	ATGCGCGCCCATGCGCGGCCGGTCTCCGGCTGCGCAGACGAGCGACGTGTTGCGCTCAACCTCACGGACTCCCGACGCCCGGATGCCCAGCCAGTCACCTACCTGGCCCGGATATCTGCCCGAGCTGTAAGCATCGACAGATCGCTCGAGCCGGAACGGCCCGACGCCGAGGTGTCGGCCACTACCAGGGATTGGAAGGCATGCGTGATCGGCGGCGTCCCCCTCAATCGGCTGCCGGATGCCAGTATGTCCGGCAGCGACGACGCGGTGCAACAACTGATCGAGGCAACGTCGCTGACTGATCCTCCGGAGCCCTAA	MRAHARPVSGCADERRVALNLTDSRRPDAQPVTYLARISARAVSIDRSLEPERPDAEVSATTRDWKACVIGGVPLNRLPDASMSGSDDAVQQLIEATSLTDPPEP				NA	NA	NA	NA	NA
D1-17_02158	339			hypothetical protein	GTGTCAGGACTCATGTCCGCGTCGCGCGGCAACGCTGACCCCGACAGCGACGAAATACGCATGATGACCGGCCGGGCCACCGCACCCGTTTCGGGACTGTCCTTCTACGACGCCTGGGAAGTGGCCGGCCACGCAGGCCGGGGCTGCACACGGTCTAACAGCAATCCCTGGGCCACTCAACTGCTGTGGCCCGACCGTCGGATCGACTACATCCTCACGGCAGCACCAAGGCGCGGCGGAACCGGCCATCCACTCGCCGCGGCGCTGCTCGGCACCCGCCCGGTGAGCGGCACGTACGCGTCGGACCACTTCGCGGTGCAGGCCGATGTCCGCTACTGA	MSGLMSASRGNADPDSDEIRMMTGRATAPVSGLSFYDAWEVAGHAGRGCTRSNSNPWATQLLWPDRRIDYILTAAPRRGGTGHPLAAALLGTRPVSGTYASDHFAVQADVRY				NA	NA	NA	NA	NA
D1-17_02159	366			hypothetical protein	GTGTCCCGGAAAATAGTCCCTCCGCCGCCGGCCGCGAGGATGCTGGTCGCGAGCTCAGCGGCCGGCGCCTATCCGATCACGCGCGCAATCCCCAACGGCGGACAAATCGAGCCCGTAGGTCGGCCCTTCGCCGGAACCGTACTCCTCGAGTCGGGCCGCACCGCGCTCGAAGAGCCGGAGCGCGCCAACGCTGTTCCCCCGGGCGGCCTGGGTGAGCCCGGCGCAGATCTGGGCGAGGCCTTGCCAAAGGTTGCGTTTGTACGCGACCACTCCCGCAAGGACGACACGAACTGGCTGGTCGCGACCTGGAACGTCCGAGGCTTCGGGGAGTTGACCATGCCTTCGACTTCATCGCGCACATCATGA	MSRKIVPPPPAARMLVASSAAGAYPITRAIPNGGQIEPVGRPFAGTVLLESGRTALEEPERANAVPPGGLGEPGADLGEALPKVAFVRDHSRKDDTNWLVATWNVRGFGELTMPSTSSRTS				NA	NA	NA	NA	NA
D1-17_02160	396			hypothetical protein	GTGCCCTTGACAAGCGAGAACTACGTATCAGCTGTAGCTCCCAGGGACGTTGTTATCGAACTGCTGGTGCTCCGCGAAGTCGAAGCCATTGTCGGACAGGAATGTGGTCACGGGCGGGCAGGACGATGCCGGGGCCGTTCGGGGCCCGTCAGCGTAAGGACGAACTCCGCCGTCCTCGCCCCTGCCCCTGCTGTCGGAGCGCTGGTGAGGCGACCTGGAAGAACTGAGTCACTGGTCTCCCCTCGTTGTTGCTTGCATCGTGTGTGGGCTGCGCACACCGTCAGGATGTTCATCGGATTCATGTTTAGTCACAAGATCGAACTGGACACCGCCGTGTTCATTCACACCGGTGCGGATGGCGCGTTCGACAACGGACTCCGCCAGGCGGTTTCGTAA	MPLTSENYVSAVAPRDVVIELLVLREVEAIVGQECGHGRAGRCRGRSGPVSVRTNSAVLAPAPAVGALVRRPGRTESLVSPRCCLHRVWAAHTVRMFIGFMFSHKIELDTAVFIHTGADGAFDNGLRQAVS				NA	NA	NA	NA	NA
D1-17_02161	1899	betP_3	COG1292	Glycine betaine transporter BetP	ATGGCAATAACCACTGGAGCCGCTCTTCGCGACGGCGCCAATGACCCTTCCGCTCCCGGCAATGACGCCGAAGTGGAACAGCTTGAGCAACACGAAGACGACGAGCGGATCCTGCAAGAATTGCGGGAGAGCGAAACGGACCTTTCGGCCGGAAGGCATCGTCTTGGCCTCTCACTCGAGGGCCTGGATAAGGTTATTTTCGGAGTGACAGGGGCCTTGGCACTGGCCTTTGTGGTCTGGGGCTTCACCAATTCCGACTCCCTCGGAGCGACTTCCACCGCTGCGCTGGCATGGGTAATCGAAAACACCGGCTGGATTTTCGTAAGCCTGGCTTCTCTCTTTGTCGTTTTCGTCCTGTGGCTAGCACTGGGGCGCTTTGGCAGTATCCCGCTTGGCAGGGACGGCGAGAAGCCCGAGTTCCGGACCGTGTCCTGGATTGCCATGATGTTCAGCGCGGGCATGGGCATCGGACTGGTGTTCTACGGCGTGGCCGAACCGCTCTACCACTACGTGGCCCCACCGCCCGGCACCGTGGCGGGCGTGACCCCGGAGGCAATTCAGACTGCCATGGCCACCTCCATTTTCCACTGGAGCGTCCATCCCTGGGCCATGTTCGCGGTTGTTGGCATCGCCATGGCCTACAGCACCTTCCGACTCGGTCGGCGCCAACTCATTTCCTCGGCATTTGCTTCCCTTTTCGGAAAGCGCGCGGATGGACCCGCGGGCAAGGTCATTAACGGTCTGGCTATCTTCGCCACCCTCTTCGGCACCGCTGCTTCGCTGGGCCTGGGAGCCCTTCAAATCGCCAGTGGATTGCAGTTTAACGGCTGGGTTGGCGAGATTGGCTCTCCCGTGCTGGTCCTGATTATTACCGCACTGACAATTTGCTTTGTGGCTTCCGCGGCCTCAGGCATTGCACGCGGTATCCAGTGGCTCTCCAACATCAACATGGTGCTTGCTTTGGCGCTGGCCGGAATTGTTTTCATTGTCGGGCCAACGCTGTTCATCCTGAACCTGATTCCCTCTGCAATCGGAGACTACGCAGGGGATCTGCCGTCCATGGCTTCCCGGACTGAGGCCGTAGGGGACGAGGCGCTTCGTGATTGGATGTCCGGTTGGACGATCTTCTACTGGGCATGGTGGGTGTCGTGGGCTCCGTTTGTCGGTATTTTCATCGCGCGCATCAGCCGGGGCCGCACTATTCGACAGTTCGTTACGGGCGTTCTGCTGGTGCCAAGCGTCGTTAGCGTCATCTGGTTCTCGATTTTTGGCGGCACTGCATTCGACATCCAGCAGCGTGCCAATGCCACGGCTGATGCTACCGACGGCTTGGTCAAAACGGTTGACGGAGCACCAAGCATCTCCTTCCAGGGCGCGTTGTTCGACCTGATCCGGAACCTTGAAGTCCCGCCGGCAGTCGGCATCGGAATTGCCCTGCTCGCCATGGTCTTGATCGGCATTTTCTTCGTCACCAGCGCTGATTCGGCCTCTATCGTCATGGGTTCCCTGAGCTCCAATGGACGCCTGGAACCGTCCAAGCGGGTGCTGATCTTCTGGGGAGTCCTGACCGGAGCCATCGCAGCTGTCATGCTGCTGGCCGGCGGAGACGACCCCAGCGCAGCACTAAACGGCCTTAAGAACATCACGATTGTCTCCGCACTGCCCTTCGCAATAGTCATGTTCCTACTTTGCTTCGCACTGGTCCGGGATCTGCGCCGCGATCCCATCGCTTTACGAAACCGCCTGGCGGAGTCCGTTGTCGAACGCGCCATCCGCACCGGTGTGAATGAACACGGCGGTGTCCAGTTCGATCTTGTGACTAAACATGAATCCGATGAACATCCTGACGGTGTGCGCAGCCCACACACGATGCAAGCAACAACGAGGGGAGACCAGTGA	MAITTGAALRDGANDPSAPGNDAEVEQLEQHEDDERILQELRESETDLSAGRHRLGLSLEGLDKVIFGVTGALALAFVVWGFTNSDSLGATSTAALAWVIENTGWIFVSLASLFVVFVLWLALGRFGSIPLGRDGEKPEFRTVSWIAMMFSAGMGIGLVFYGVAEPLYHYVAPPPGTVAGVTPEAIQTAMATSIFHWSVHPWAMFAVVGIAMAYSTFRLGRRQLISSAFASLFGKRADGPAGKVINGLAIFATLFGTAASLGLGALQIASGLQFNGWVGEIGSPVLVLIITALTICFVASAASGIARGIQWLSNINMVLALALAGIVFIVGPTLFILNLIPSAIGDYAGDLPSMASRTEAVGDEALRDWMSGWTIFYWAWWVSWAPFVGIFIARISRGRTIRQFVTGVLLVPSVVSVIWFSIFGGTAFDIQQRANATADATDGLVKTVDGAPSISFQGALFDLIRNLEVPPAVGIGIALLAMVLIGIFFVTSADSASIVMGSLSSNGRLEPSKRVLIFWGVLTGAIAAVMLLAGGDDPSAALNGLKNITIVSALPFAIVMFLLCFALVRDLRRDPIALRNRLAESVVERAIRTGVNEHGGVQFDLVTKHESDEHPDGVRSPHTMQATTRGDQ	PGPT0013600_540	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-17_02162	318			hypothetical protein	ATGCAGAAGGCAGGCCCGCGCAGTGAACTGGCACCAGGGGAAGCGTCTGGACACGTTTCCCCCGTCGCCGTCTTCCACACCGAGGGCGAGCTCTTTGCCATTGACGGCACGTGCACTCACCAGGACGCCTCCCTGGCCGACGGCTGGTCGAAGACTGCTGGGTCAATGCCCGCTTCACCTCATGCTTTTACCTGGGCACCGGGAGCGTCGAGGCGCGCCACTGGCCAAACTCCCGGTTCGTACACTAAGCAACAGCGATCGAACCGCGACATCATGATCATCGAATCCGACGGGGTTCCCAACCTCCCCCTGGCCTGA	MQKAGPRSELAPGEASGHVSPVAVFHTEGELFAIDGTCTHQDASLADGWSKTAGSMPASPHAFTWAPGASRRATGQTPGSYTKQQRSNRDIMIIESDGVPNLPLA	PGPT0019745_169	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,PGPT0019745-hcaC-K05710	NA	NA
D1-17_02163	1011	tdh_1		L-threonine 3-dehydrogenase	ATGAAAATACAGCAACGGGCTCAGCGACAGGGCACCAGGGCCGGCGGCATGCTCGCTCTCGTTCGGGAAGCTTACGGTGGGCCGGAGGTGCTTCGCCTGGAGCGGGTGCCACGCCCTGCTGTCCAAGGCGACGACGTACTCGTTAGAGTCAGGGCGGCCGGCGTCGACCGCGGAATCTGGCACATGATGACCGGGCTGCCATATTTAGGCCGCCTCGCATTTGGCTCCCGGAAACCAAAGGACGCGGTTCTGGGCCTGGATCTCGCAGGAACCGTAGAGGCCGTAGGTCCCGACGTCACGCGGTTCGCCGTGGGGGACGCGGTGTACGGCAGCGGCCGTGGTTCCTATGCGGAATACGCCATTGCACCCGAGACCAAGCTGGCCGCGAAGCCCCAGGCGCTCTCCTTCGAGCAGGCCGCGGCGGTGCCGGTTTCCGCGGTCACTGCCCTCCAGGGCCTGCGGGTCGGGAAGATCGGGGAGGGGCAGAAGGTGCTGATCACCGGCGCGTCCGGCGGCGTCGGCAGCTACGCGGTCCAGCTGGCCAAAGCCTACGGTGCGCAGGTCACCGGAGTCTGCAGTACCGGCAAGGTCGGGTTTGTCCGGTCCCTCGGCGCGGACCACGTCATCGACTACACCCGGGAGGACTTCGCAGAGACCGGCCCGTACGACCTCATCCTGGACATCGCGGGGAATCCGCCGATCTCGCGCCTGCGCCGCGCCCTGACACCTACAGGAACCGCCGTCATCACCGGCGGTGAGAGCGGAGGAAAACTGACCGGAGGCCTCCACCGCCAGCTCGGCGCCCTGGCGCTGTCACCCTTCATCAGCCAACGGCTGACCACGTTCCTCGGACTGGTCCGTGCCGCCGAACTTCAGGACCTCACCCCGCTTATCGAGGCCGGCACAATAGCCCCAGCCCTCCACCGGACCTTCACGCTGGCCGAGGCTAAAGAAGCCCTCCGCTTCCTGGAAGACGGCCAGGTGTCCGGAAAGGTGGCCCTCACCATCTGA	MKIQQRAQRQGTRAGGMLALVREAYGGPEVLRLERVPRPAVQGDDVLVRVRAAGVDRGIWHMMTGLPYLGRLAFGSRKPKDAVLGLDLAGTVEAVGPDVTRFAVGDAVYGSGRGSYAEYAIAPETKLAAKPQALSFEQAAAVPVSAVTALQGLRVGKIGEGQKVLITGASGGVGSYAVQLAKAYGAQVTGVCSTGKVGFVRSLGADHVIDYTREDFAETGPYDLILDIAGNPPISRLRRALTPTGTAVITGGESGGKLTGGLHRQLGALALSPFISQRLTTFLGLVRAAELQDLTPLIEAGTIAPALHRTFTLAEAKEALRFLEDGQVSGKVALTI				NA	NA	NA	NA	NA
D1-17_02164	669			hypothetical protein	ATGAAGGACGCAGGCGCCGGCGGCAGGGACCGACCGGGGCTCAGCCGCGAGAAGGTACTGCAGAACGCCCTGGAGTTGGCGGACAGGGAGGGTATCGCTGCGCTGTCGATACGTTCCCTCGCCCATAGCATGGGCACCAAGCCGATGACGCTCTACTATTACGTGGCCAACAAGGAGCAGATCCTCGACAGCCTCGTGGACCTCGTTTTCAGCGAGATCGACACACCGGATGCTGGAGGCGAGTGGAAGGAACAGATGCGCCGCCGGGCCCACTCGGCCCGCGAGGCGCTGCGCCGGCACCCGTGGGCGGTCAGGTTGCTGGAATCCCGCAAAGCTCCCGGCCCGGCGACCCTAAAGCACCACGAGGCAACCCTGGGGACCCTGCGTGCCGCGGGCTTTACCGTGCAACAGACTGCCCGGGCCTACTCGCTTCTGGACAGCTACATCTACGGGTTCGCCCTCCAGGAAGCCGCACTGCCCATAGCCGGCAATAAGCCCATGGCGGAGGTGGCCGGTCCCATCATGGAACGGTTCGCGACCGGGGAATACCCGCACATGGTCGAGATCGCCACGCAAGTCATCATGCAGCCAGGCTACGACTACGGCAACGAATTCGCCTACGGTCTCGAGTTAATCCTCGATGCGTTGGAACCGGCACCGGCGGGCTAA	MKDAGAGGRDRPGLSREKVLQNALELADREGIAALSIRSLAHSMGTKPMTLYYYVANKEQILDSLVDLVFSEIDTPDAGGEWKEQMRRRAHSAREALRRHPWAVRLLESRKAPGPATLKHHEATLGTLRAAGFTVQQTARAYSLLDSYIYGFALQEAALPIAGNKPMAEVAGPIMERFATGEYPHMVEIATQVIMQPGYDYGNEFAYGLELILDALEPAPAG				NA	NA	NA	NA	NA
D1-17_02165	969			hypothetical protein	ATGAGTGAAATTGCGAAGGGCGTCCTTGGCGGGGCATGGACTCTACTCGTCGGTTGGATCTTTCCGGCTTTCTTGGTGTTGGAGAGTGCACTCATTTTGTGGCTGCCGGCGGTGGCGGCCGAGGAGCCTTTTAGCCGCTTCGCAAGGCAAGGGCTTGATCAGCAGCAGCTCGTGGTGCTGCTAGTTTCCGTCGCCGTAGGGTTTCTGCTGGCGGCCCTTCAGACGCCGCTCTACAAGATATTGGAGGGGTACTGGCTGTGGCCCAAACCTCTGAAGGACAGCGGAACTGCACGGCAGAAGCGCATCAGGGCGAAGCTTATTGAGGAAGCCCAAGAAAGCGGGCCGGACAATGAACCCAACCACTGGGTGGAGATGCGCTTCTCATCCATCGATAATCAGTTAGCTCCAACGGCGTTCGGCAACGCCATGAGGCGTTTTGAAACCTATGCAGTTGATCGGTACTACCTGGACTCGCAAACGCTGTGGCACCATTTGGCCGCCAGCGCGCCGGAGTACATCGTGAAGGCGGAAGCTTCTGCGCGAACGAATGTCGATTTCGCGGTAGCTCTGACTTGGCTGAGTTCGCTTCTCGCTGCCGTGGCGGGAGCCACGTGGATAATGCAACCAAACGACAGCGGTCTAATTGTGTCGTTCTTCTTAGCGGCCGTTGCTGCTTACGGTGCGTATCGGTTGGCCATTTTGGGCACGGACGAGTGGGCGGCAACTGTGCGCGCCCAAGTTGACCTGGGGAGAGTAAAACTTGCTGAATCTATGGGCTACAAACTGCCAAAATCACTCCACAACGAACGGGCGCTCTGGTCTCACCTTAACTACTTCGTGAAAGAGCCTTTTGACCGCTCTAACGTTGAAGATGTGCTGAACAAGTTCCGCATCGCGGACAAGAAGGACGAGAGTGAATCGCAGGGCCACCAGCGCCTGATCGGAGGCCACTCCGCGGGTGGTCCCTAG	MSEIAKGVLGGAWTLLVGWIFPAFLVLESALILWLPAVAAEEPFSRFARQGLDQQQLVVLLVSVAVGFLLAALQTPLYKILEGYWLWPKPLKDSGTARQKRIRAKLIEEAQESGPDNEPNHWVEMRFSSIDNQLAPTAFGNAMRRFETYAVDRYYLDSQTLWHHLAASAPEYIVKAEASARTNVDFAVALTWLSSLLAAVAGATWIMQPNDSGLIVSFFLAAVAAYGAYRLAILGTDEWAATVRAQVDLGRVKLAESMGYKLPKSLHNERALWSHLNYFVKEPFDRSNVEDVLNKFRIADKKDESESQGHQRLIGGHSAGGP				NA	NA	NA	NA	NA
D1-17_02166	333			hypothetical protein	ATGAACGTAAAACGCGACGATATCGATGGGACCGAACCGGGCGGTACGCCTGCCGGTTGGGTGACGGGTGAAGGCTTTGTCATGCCGAAGTGGGATGCGCCTGATGTGGTCGCGCCTCACCAGGACAAGCCAAGTCCTGACAAGGAGGCGGACAACGCCACTCCTGCGGGACCGCCAGCGCCAGGAGGCCTAGTCCTGCCGGACTGGGATGAGGAAGAGAGCGAAGCGTCGCGGGACGCTCGGGTCGGGAAAGGCGATGGCAGCGGGCCGACCGGCTATGTACCACCTGGTGGGGCAACAGGAGAGGGAAAGATCGAGCCCGACGGACTTTGA	MNVKRDDIDGTEPGGTPAGWVTGEGFVMPKWDAPDVVAPHQDKPSPDKEADNATPAGPPAPGGLVLPDWDEEESEASRDARVGKGDGSGPTGYVPPGGATGEGKIEPDGL				NA	NA	NA	NA	NA
D1-17_02167	528			hypothetical protein	ATGAGTTACCCCGGCGATGATGACAGGCTACCTGTGATCTACGTACTCGGATTCGCCGACAACGACTCCGCCATCAACAGCGCAGTAGACGCTCAGTTTTACGGATTCAGCCAATGTTCCGTCCATGTCCGCACCGACAGCAGCGGCAGGGCCAGGTTTCATCAGTCGGAATCGCCGCTGTTGCGGCTAATTTCTGGCCACAAGTACGAAGTACCGGTGCACTGTGACCAATGGGCTTTCGTGCAATGGAAGCCGGCACGGTCGGCCCAGCATCGGTGTGGATTCATCGTTTTCACGATGATTCAGCTGCCACCCTTTCAAGGAACCCAGGCGGCGCTGGACCTGTTTGAGATGGTCAAGCTGGTTTTGGAAAAGACCGGCGCGCCGAAGGTCTTTCTTGTGGGGAACCCCATTGGAGGTCTGATCTTCCGCTCACTCCCGAGGCGGCCTTCGGCAATCCATCTCAAGAGGACTTTGAGCGGCCTGCAGTCCGGGCCGGAAGAGCTAGCAGTGCGCGGAGGAGCTTAG	MSYPGDDDRLPVIYVLGFADNDSAINSAVDAQFYGFSQCSVHVRTDSSGRARFHQSESPLLRLISGHKYEVPVHCDQWAFVQWKPARSAQHRCGFIVFTMIQLPPFQGTQAALDLFEMVKLVLEKTGAPKVFLVGNPIGGLIFRSLPRRPSAIHLKRTLSGLQSGPEELAVRGGA				NA	NA	NA	NA	NA
D1-17_02168	684			hypothetical protein	ATGATCGTTAATGAAGTAAAAGAAACCGTTGCCTTGATAGCCGAGATAATTGAGAACACGCGCACCATTCTCAGCGCGCTTGAAGACGGCCAAGCATACCTGAAAAAAAATCATCCTGACGCAAAGAATGACCTTGCAGACATGATGAAACAGATGAAAGCTACTGTTGCAGGATTAATCAGCATCACCAGAGTCGTGACCTACTTCGACTTCACAAGTGACGGCACCGACATGAACAGAGAACCAGCGCGATTTAATGAACACCTACTTGCAGCGCGGAATCAGGTAGCAGATCTAGAATCAGATATTCAATCGCTAAAGGGTTCATGCAGCCGCATCCAAGAACTAAGTCTGAAGTTGGAAAAAAGAGCCGGCAATCGACCTTGGTGGGCATTGCTCGGCGACAGGGCTGGGCAGCGGGCCGGCGAGCTGTCGTGGCGCCTGGGTAGTTTGTATTTCAATGACTTGGATATGGCTCAAACGGCAAAAAGGACGCTTCACGCCTGTGAGCAGGCACTGGATGCTGTACGTCAGGAACTGCGGCGTGGAGGTGCCGTAAGCACCTCCAACGTACCGCGCGCTCAAAACCTCCTAGATGAATATGCCGCAGAGTTCCGCACAGCAGAAACGGGGCTAAGAGACCTCCGCGACCGGCTCAGCGACCAGATCGGTGCCCTGTCTTGA	MIVNEVKETVALIAEIIENTRTILSALEDGQAYLKKNHPDAKNDLADMMKQMKATVAGLISITRVVTYFDFTSDGTDMNREPARFNEHLLAARNQVADLESDIQSLKGSCSRIQELSLKLEKRAGNRPWWALLGDRAGQRAGELSWRLGSLYFNDLDMAQTAKRTLHACEQALDAVRQELRRGGAVSTSNVPRAQNLLDEYAAEFRTAETGLRDLRDRLSDQIGALS				NA	NA	NA	NA	NA
D1-17_02169	159			hypothetical protein	GTGAGCAGCAGTCCTGTGGCTACTCGGGAGCGGCTGCCCGCGTACCATGAGCGTGAATCCGTCGCATCAGCCGACGCGGGGATGCGCGGCCAGCGGTGGGGCCAGGTCGTGGTTTTCGAGGCAGTTGTCGCACTGCCGGCGCATATGTACAACCGCTAA	MSSSPVATRERLPAYHERESVASADAGMRGQRWGQVVVFEAVVALPAHMYNR				NA	NA	NA	NA	NA
D1-17_02170	252			hypothetical protein	ATGACAAGCGATGATGGTCCGTCAGGAATGTCCGATCAAGACGGGACAGACTCGGCCGTCCCGCCCATGGGGACCCTGGTCATCCGTACCTGGCTCGAGCCCGATCAGGCACCCGGTTTCCGCGCCAGGCTAACTTATAGCAGGGGTCCGGACGGCGAGCCCGATTGGATTGCCACTGCCGATCGGGACGAGGCCTTGCGTATCGTGCGTCAGTGGCTCTTTGCCCAGCCGGGCTCTCCAGACGAAGCCTAG	MTSDDGPSGMSDQDGTDSAVPPMGTLVIRTWLEPDQAPGFRARLTYSRGPDGEPDWIATADRDEALRIVRQWLFAQPGSPDEA				NA	NA	NA	NA	NA
D1-17_02171	708			hypothetical protein	ATGGGCAACGGCGACTATGGTGAGTTTCAACTGACCCTTTTTCAGTCATGGAAACTTCTTAAGGGCGCTAATGTTGTGCACGTCGCAGCGCGCCAGCAACGGCTGATTACGGCGTTGGCGATAAACGGTCCGCGGCCCCGCAGCTATCTCGTCGGGCTACTTTGGCCGGAGCATGCCGAGCCGAGAGCCATGGAAAGTCTGCGTGTGAGCGTGCATCTGATTACAAGGCAGGTGCCGGGTCTGTTAGTCAATGAGGGGGCTGTGCTTTCGCTCAGCGAGCTGCTGGACGTCGACCTGCATCGCTTCCGGTCGCAAATTCGACACCTGAGCCAAGCCGGGCTCAATGGAAATGCTGCTTCATGCCTTTACGATTTACGTCGTGCAGAGCTGCTTCCTGGCTGGTACGAAGACTGGATTATTTTTGAGCAGACCCGGCTTAGGCAGGACCGATTGCACGCGTTTCTCGTCATAGCCCGCGAATCGCTGGTACGGCGCGACTATGAGATTGCATTGGAAGCCTCTGAGGCAGCACTGGAACTTGAACCCCTCTACGAAAGAGCGGTTGGACTATTAATTCAGGCCGAGCGGCAGCAGGGCAACAACGCCTCAGCACTTCGGGCCTTTGAGAAGTATCAAGCGCAGCTGAAGGCAGATATGGGAATTGCTCCGTCAGAGGCAATTCGAAGGCTTGTCGCGGACGTTCGGTGA	MGNGDYGEFQLTLFQSWKLLKGANVVHVAARQQRLITALAINGPRPRSYLVGLLWPEHAEPRAMESLRVSVHLITRQVPGLLVNEGAVLSLSELLDVDLHRFRSQIRHLSQAGLNGNAASCLYDLRRAELLPGWYEDWIIFEQTRLRQDRLHAFLVIARESLVRRDYEIALEASEAALELEPLYERAVGLLIQAERQQGNNASALRAFEKYQAQLKADMGIAPSEAIRRLVADVR				NA	NA	NA	NA	NA
D1-17_02172	1860			hypothetical protein	ATGACCACCGGGAAGGGTTCATCAGATGAGCCGAAGCCGGCCGATGAAAAGGCGTCGAAATCGCTGCGGCAGTTCATCAGGACCAGGGGAGCGGAGTATCTTAAGGATCCGAACATCTCGTCTATCGGGGTGGGTTACAAGGTCACCGAAGGTAAATCGACCGGGGAAATCGCCCTGCAGTTCACTGTGGATCAGAAGGTGGCCCCGGAAGCGCTGGAATCCCTGGATACTGTGCCGATCCCGGAGACGATTGTGGTGGACGGCGTTTCGGTTCCCACTGATGTGATCGAGCGCAGTTACGAGCCCGCGTTCCGCATCGTGGCCGAAGCCGAACCGCCGCAGTCCAAGGTCAGGGTCGATCCGGTTCTGCCCGGGGTCAGTGTCGCCCATAGCAAGGGCAGCGCAGGCACCATAGGTTGCATCGTCTATGACAAGACCGACGGTACCCCCCTGGTGCTGAGCAATTGGCATGTCCTGCATGGATCCGGCGGCAGACTCGGGGACACCGTCGTGCAGCCCGGCCCGCACGATGACAACCGGGTCGAACGTAACCGCCTCGGAATACTGAAGCGCTCCCACCTTGGGCCCGCCGGCGACTGCGCGGTGGCCAGCATTGAAGGGCGTGGCATGGTCCCGGAAATTCTGGGTATCGGCACGGCCCCACAGAAGCTGGGTGAGCCGGAGATCGGGGACAAGGTCCTCAAGAGCGGCCGCACCACCGGACTCACCCACGGGGTCGTGCGCCGCATCGACGTTCTTGCCAAGCTGCATTATGGAGCGGAAGGTGAACATGCCATCGGTGGCTTCGAAATTGGCCCCGATCCCCAGAATCTGCCGGACGACGGGGAGATCAGCCGGGGCGGGGACTCGGGTGCGGCCTGGATCTTCAAAAACGCAAACGGTGAACCCGGAACTGTACTCGCAGGACTGCACTTCGCAGGCGAAACCGGCGCCAGCACCGACGAACACGCCTTGGCGTGCCTGCCCGAATCCGTGTTCGAGAAACTTGAAATCACGCTGCTGCCCCCCGACCCAGAAACCGTCGCCGAGGCCGCCGACAAGGGCTATGCTCCCCGTTTCCTCGGCACGCGCTTGGACCCGCCTGCCCTGGACGCCGCCCTCAAAGAGGACGCCGTGCTGATGGAGGGCTCGGAAATTATTCCCTACACCCACTTCTCAGTGGCAATGAGCCGGTCCCGTCGGTTGGCCCGATGGGTGGCATGGAATATAGACGGCACTGCGCTGCAGAAAATCAGCCGCAAAGGTATCAAGTTCACCAAGGACCCCAGGATCCCGGCGGTGTTCCAATGTGGCGATGAACTCTACAGCGGCAACCGGCTGGACCGCGGCCATGTTGCCCGCCGCGCAGACCTGCTCTGGGGCAGCCGGGCAGAAGCCGGCCGTGCCAACAAGGACTCCTTCTACTTCACGAACATCACTCCACAAATCGAGGACTTCAACCAAAGTAGCCAAAACGGAGTGTGGGGGCGAATCGAGGACGCTGTGTTCTCCGACGTCGAAGTGGATGACCTGAAAGTCAGCGTTCTCGGTGGTCCGGTCTTCCGAGAGGATGACCGCCTCTATCGCCACGTCCCGTTGCCCCGGGAATACTGGAAAGTGCTCGCTTTCACCGACCACGGAGAGCTGAAGTCCAGAGCTTTTCTGCTGACCCAGAACCTGAACCAGCTTGAGGCACTGGAACTGGACGAATTCCGGGTCTTCCAAGTGACTGTCAGTGAAGTCGAAGAACGTACCGGCCTGCGGTTTCCCGACGAGCTGCGCACTGCCGACACCTTCACCGCACCCGAGTCTCTGGAGGCCAGGAAACCTCTGGACACTCCCGCCAGCATCCGCTGGTAA	MTTGKGSSDEPKPADEKASKSLRQFIRTRGAEYLKDPNISSIGVGYKVTEGKSTGEIALQFTVDQKVAPEALESLDTVPIPETIVVDGVSVPTDVIERSYEPAFRIVAEAEPPQSKVRVDPVLPGVSVAHSKGSAGTIGCIVYDKTDGTPLVLSNWHVLHGSGGRLGDTVVQPGPHDDNRVERNRLGILKRSHLGPAGDCAVASIEGRGMVPEILGIGTAPQKLGEPEIGDKVLKSGRTTGLTHGVVRRIDVLAKLHYGAEGEHAIGGFEIGPDPQNLPDDGEISRGGDSGAAWIFKNANGEPGTVLAGLHFAGETGASTDEHALACLPESVFEKLEITLLPPDPETVAEAADKGYAPRFLGTRLDPPALDAALKEDAVLMEGSEIIPYTHFSVAMSRSRRLARWVAWNIDGTALQKISRKGIKFTKDPRIPAVFQCGDELYSGNRLDRGHVARRADLLWGSRAEAGRANKDSFYFTNITPQIEDFNQSSQNGVWGRIEDAVFSDVEVDDLKVSVLGGPVFREDDRLYRHVPLPREYWKVLAFTDHGELKSRAFLLTQNLNQLEALELDEFRVFQVTVSEVEERTGLRFPDELRTADTFTAPESLEARKPLDTPASIRW				NA	NA	NA	NA	NA
D1-17_02173	1023			hypothetical protein	GTGAAACTGGAATCTCTCCCTGACGAGGTACTGGCCTCCCTCGAGGTCCGGGATGCATGGCGGAGGCACGTGGGCGGCAACGGCTCAGGCCTGGAGTTTCTCATCTCTGATCTCGCACGTTGGGTACCAGGATCTGTGGTGCGAGTGGCTTTTTTGGATGGCGATACCGCCCTCCACCAGGAGGTGGCGGGGGCTACCAAACAGATCACCGATGCCTGCAACCTGGACCTTGATTTTGGGCTTAGCCCTTCCGGGGAGTACCGGCGCTGGGATGAGAATGATACTGAGTTGGCGGCCGAGATCCGAGTCGGTTTCAACATGGGCGGTTACTTCTCCCTGGTCGGCACCGACAGTACTGACCCTACCGTGGGATCCCCCGGGGACCCGGTGGGAGGCCGGCCAAACCAGCGGAGCCTGAATTTGGGCGGCTTCGCAGCGGACCGGCCCGATGACTGGGAGGGCACGGTCAGACACGAGTTCCTGCATGCCCTGGCGTTCCACCATTCGCATCAGAACATGCGCGGTGCCTGTGAACAGGAGTTCCGGTGGGAGGATGACCCCGGATATGTGCCCACGAGGAATCCTCGGGGGGTGTTTATCCCCGATGCGGCGGGGCGCCGGCCGGGAATCTACACCTTCCTGGCGGGTCCGCCCAATAACTGGCCGCGCCGTAAGGTCGATCATAACCTTCGCACTGAGGAGGACCCGGGCGTCGTAGCCGGCCCGTTCGATACTGACTCCGTCATGCTGTACAGCTTTCCGTCCTTCTTTTACAAGTCCGATCCAAGTACCTGCGCGCCGACGGGCAACGGTATTGACCTCTCGGCCGGGGACCGACGGGGCCTGGCGCTGCTGTACCCGCATACCGCCGAGCCGGTTGCGGACCTTCAGGAACGGGCCGGCGCCGCCCTGCAGGTGCTGGAGGGCGACGGATTTACGCCGGAATCGGCTGAGACTACCGGCGGGGAGTACCGGGACCGCGCTCTCGAACTGCTGCGCAGGCTTTCCGGAACTGGGTCCTGA	MKLESLPDEVLASLEVRDAWRRHVGGNGSGLEFLISDLARWVPGSVVRVAFLDGDTALHQEVAGATKQITDACNLDLDFGLSPSGEYRRWDENDTELAAEIRVGFNMGGYFSLVGTDSTDPTVGSPGDPVGGRPNQRSLNLGGFAADRPDDWEGTVRHEFLHALAFHHSHQNMRGACEQEFRWEDDPGYVPTRNPRGVFIPDAAGRRPGIYTFLAGPPNNWPRRKVDHNLRTEEDPGVVAGPFDTDSVMLYSFPSFFYKSDPSTCAPTGNGIDLSAGDRRGLALLYPHTAEPVADLQERAGAALQVLEGDGFTPESAETTGGEYRDRALELLRRLSGTGS				NA	NA	NA	NA	NA
D1-17_02174	603			hypothetical protein	ATGGCAGACGAAAAACCAACCAACTGGTGGGTCACGTTGCCCGGCCTTCTGACAGCCGCGGCGGCAGTGATCACGGCAGTGACCGGGCTTTTGCTCGGCCTGGGCCAGCTCGGAGTATTCGACGCCGGCAAGCCGGCCACCGCCCCCGGCTCACCTGCCGGCACCGGCTCTTCGCAGCAGCCCGGCAGCCCGGCGCAGCCGGACATTTCGGCTTCGGCACCGAGTAACGCGCAGCCGGATAACGGTACAGGGTGGGCGGTATCACTGCCGGCCGAGCGTAAGTACCGGTCTGCCGACGTGGAATACGAGATTCTCGACGCGCAGGTCCGCCCCGACGTCGCCGGGCAGATCACACTGACTTTCTCGATCAGATGCACCAACCACGGCAGGTACGACATAAACTTCTGGGACGCCACCTTCCGGCTCAACGCTGACGGGGTAAGCGTATCCCCCGATTCCGGCCTCAACGACCTCGTCGCAGGTGATTCAAGCAAGTCCGGCAACGTCAGTTTCACCGTTCCGGCTGACACTCGAGACCCAGTCCTGCGCATCAAGTTTCCGCGGGGGGAGAGTACGGTTCAGATCGCTTTGTCACCGCTCTGA	MADEKPTNWWVTLPGLLTAAAAVITAVTGLLLGLGQLGVFDAGKPATAPGSPAGTGSSQQPGSPAQPDISASAPSNAQPDNGTGWAVSLPAERKYRSADVEYEILDAQVRPDVAGQITLTFSIRCTNHGRYDINFWDATFRLNADGVSVSPDSGLNDLVAGDSSKSGNVSFTVPADTRDPVLRIKFPRGESTVQIALSPL				NA	NA	NA	NA	NA
D1-17_02175	678	nreC_3	COG2197	Oxygen regulatory protein NreC	ATGAGACTGCGAGTTGCCATCGCCGATGACTCAGCTTTACTGCGCCGGGGGCTCTCGGCCCTGCTGCAGTCGGAAGGACTGGAGGTGGTGGGTGAGGCTGCTGATGGGCCGCAGCTGCTGGAAGTCATTGACAAACACGGGACCGACGTTGCCGTAGTGGATATCCGGATGCCTCCCACTTACACGATTGAGGGGATCCAGGCAGCAGAGACCCTAAAAAGCAGATACCCAGAGATAGGCGTTCTCCTACTATCCCAATACGTGGAAACCGAAAATGCAATGTCACTATTGAAGAACGGAGCCAAAGGCCTGGGCTACTTGCTCAAGGAGCGCGTGTCCGACGTCGACGAATTCATTGACGCCCTGCACCGCGTTTCTGCAGGTGGCACTGCGATCGATGCAGAGCTCGTCACACGTCTGGTTACTCGTCCACACAAAGGTCACGATCGAGGCGATGACCTAACGAGCCGGGAGAAAAGCGTCCTTGAGCTGATGGCCGAAGGGCGAACCAACCAGGCCATAGGTAAGGCCCTCTTCTTAGGGGAGCGCACCGTAGAAGCCCATATCAGGAGTATTTTCCTGAAGCTTGAGCTGAGGCCTGAGCCAGAGAACCACAGGAGAGTCCTTGCTGTCCTGACATACCTTCGCGGGGTCGGACAGAACCATGATTCCAACTAA	MRLRVAIADDSALLRRGLSALLQSEGLEVVGEAADGPQLLEVIDKHGTDVAVVDIRMPPTYTIEGIQAAETLKSRYPEIGVLLLSQYVETENAMSLLKNGAKGLGYLLKERVSDVDEFIDALHRVSAGGTAIDAELVTRLVTRPHKGHDRGDDLTSREKSVLELMAEGRTNQAIGKALFLGERTVEAHIRSIFLKLELRPEPENHRRVLAVLTYLRGVGQNHDSN				NA	NA	NA	NA	NA
D1-17_02176	1839			hypothetical protein	GTGAGTCCCAAGCAGCTGATGTCAGTGGCAGCGGTGACTTTTGGCATCGTGTTGCTTGTCTTGGTCTGCATTGACTGGTCTCCCATCGCTGTTCAAGATCCTGCGCGGACTTTGGGCTTAAGCGCCCAGGGCGTGCTGCGGTGGGGCGAGAACCCGGGCCGAACGCCGTTTTCGGTTTTTGAACTTGCGCTGTTCCTGGCCGTGGGTCTTGCTTTCATTGTGGCCGGTGTTACGGCTTGGGGGAGCCGCCCGACCCGAAACCCTGGAGTGCTGTTGTGTGTAGCGGGGTGGTTGTGGCTCGCGTCAGGTATCCGCCGTTCCAGCGATCCGGTGGCATTTACGCTGGGCGTCACGCTGACGCTGATGTATCAGCCTCCGCTGCTGCAGTTGGCGCTTAGCTTTCCCTCAGGCCTTTTGCGTAGCCGGGCCGAGAAGGCCGGCGTGACGTTTTTCTACGTGTCCTGGTTGTTGGCCCCTGTTGCTGGCTGGGCGTTCTTCGACCCACGCCCTCATATCAAGGAAGGGGTGTCCACCTCCCGTAATCTGCTGCTGCTCTGGGACAGTCCAGCACTCATGGATACTGTCGGGAACGGAGTTCGAACGTTTCAGATCTCGGTGGGAGTCGCGATCGTAGCGGTCCTCATTGACCGCTGGCGCACCGGTACAAGGGCATACCGGTCGGCTTTCTTGCCCCTGTGGCTAGCGGTGATAGTGAAGACAGCGGCCACTGTGTGGGTCTCCCTTGCAGTGATCCAGGTGTCCGGGTCACTATCCTCCGAAGCGCTCCTATGGCAGTATCCCGCGACCGCGATGGTCCCGCTGGCGGTTTTGTTCGGTCTGTGGCGTTACCGATTTGCTCGTGGCTCGTTGGGTGATCTCATGGTCGAAGTCGGTTCAGCCCCGGTGGGTGACAGGCTTGTCGGCGCGCTCCGCCGTTCGGTCCATGACCCAACGCTTACGTTGCTGCGTTGGGTCCCTGATCAGGTATCTTTTGTTGACAGCAACGGAGTTTCCCAATCGTTGCCAGATGCCTCCACTGGGCGCGCCTCCATGGTCCTGGAGCGCCATGGCGTACCAGTAGGGGCGTTAATATTCGACGAAGCCCTCCAGGACCAGCCGCAGTTGCTGGCAGCCGTACGCAGTGCAACTTCCCTGTCGTTGGAAAATCAGCAGATGGAGCAACAGCTTCGGGACCAGCTCATTGAGGTCCGGCGGTCAAGAGAACGAATCGTCACGGCTGGAGACTCCCGCCGTCGTCAGCTTGAACGGGATCTTCACGACGGGGCTCAGCAACGCTTGGTTGCGGTGGCGATGGAGCTGGCCCGGGCCAACCGGGCGACGGATCTTCGGGAAGTACAAGACCTGGTCGGCCAGGCCAGCGCCGAGCTTTCGGAGGCACTCGACGAACTGCGCGAATTGGCGCGGGGCGTATATCCGCCCTCCCTCCGAGAAAAGGGTCTCGCTGGTTCCCTTGCTGCGCTAGCGGAACGGTCATCCGTACCCGTAGAGCTGGATCTCAAGACGGACAATGCGATTCCTGCTCACGTGGAGGTGGCCGCTTACTTCATTTGCGCAGAAGCTGTTACTAACGCCACGAAATACGCCAAGGCGGGCTCGATCCGCATTTGCATCAACGGAGACGACAGAGAAATGCGTATGGTGATCGTGGACAACGGAATTGGTGGTGCCCGTCCGGGAGCCGACGGCGGCCTACAGGGCATTGCGGACCGGGCAGCGGCACTCGGCGGGTCGCTGTCAGTCGACAGCCCTGACGGTAAAGGGACGGCTATACGTGCCGTCCTCCCCTTCTCAACCGACCAGGAAGGCGACCTGCCATGA	MSPKQLMSVAAVTFGIVLLVLVCIDWSPIAVQDPARTLGLSAQGVLRWGENPGRTPFSVFELALFLAVGLAFIVAGVTAWGSRPTRNPGVLLCVAGWLWLASGIRRSSDPVAFTLGVTLTLMYQPPLLQLALSFPSGLLRSRAEKAGVTFFYVSWLLAPVAGWAFFDPRPHIKEGVSTSRNLLLLWDSPALMDTVGNGVRTFQISVGVAIVAVLIDRWRTGTRAYRSAFLPLWLAVIVKTAATVWVSLAVIQVSGSLSSEALLWQYPATAMVPLAVLFGLWRYRFARGSLGDLMVEVGSAPVGDRLVGALRRSVHDPTLTLLRWVPDQVSFVDSNGVSQSLPDASTGRASMVLERHGVPVGALIFDEALQDQPQLLAAVRSATSLSLENQQMEQQLRDQLIEVRRSRERIVTAGDSRRRQLERDLHDGAQQRLVAVAMELARANRATDLREVQDLVGQASAELSEALDELRELARGVYPPSLREKGLAGSLAALAERSSVPVELDLKTDNAIPAHVEVAAYFICAEAVTNATKYAKAGSIRICINGDDREMRMVIVDNGIGGARPGADGGLQGIADRAAALGGSLSVDSPDGKGTAIRAVLPFSTDQEGDLP				NA	NA	NA	NA	NA
D1-17_02177	507			hypothetical protein	ATGTTCATGAACACCTTCCGGCAAAAGACGGGCCGGCCCGCCATCGTCCTGATCGCCACGATGCTTGCTGCCTTCGCCTTCGTTTTCATCGGCAGCACGGTGACGGCGGCGCCTGCCCACGCCCTGTGTAGCGGCTCCAGCCCGGCGAACGGAACCTGGAAGAACATCGACCCAAACACCAACTCAGTCACCAAAGTGGTGCTCGACTGGGGCTGCGCAGACCAAGCATTGTGCGACACCAGCGGCCACTGTGTCTATCCCGCGGGCTCCATCCGGGTGTTTGGAAAGTGCCACCCCACCGACTGCGACTGGGGATCGCGACGGACCTACGCCGAAAACGGCGGATGGGAAAGCGCCACCTACAAGTACAGCTGGGCAACCAAGAGCGTCTGGGTCAAGCCCTACCAGTATTACGGCAAAACTTACCTGCGGGTCTGGGTCCACACAGACTTCACGCCAGCGGATGGCCGGCAGGACTACACCACCGACGTGTGGATGCTGAAGTAA	MFMNTFRQKTGRPAIVLIATMLAAFAFVFIGSTVTAAPAHALCSGSSPANGTWKNIDPNTNSVTKVVLDWGCADQALCDTSGHCVYPAGSIRVFGKCHPTDCDWGSRRTYAENGGWESATYKYSWATKSVWVKPYQYYGKTYLRVWVHTDFTPADGRQDYTTDVWMLK				NA	NA	NA	NA	NA
D1-17_02178	936	lnrL_2	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGGGCGAGGCACTGGTACATGTAAACGGCTTCAGCATGGCCTTCGGAGGCACCACAATCATCCGTGACTTGTCCTTCGACGTGCAGGCCGGTGAGACTTTCGGGTTCCTGGGCAGCAACGGATCCGGAAAGACGACCACGATCCGTGCCCTACTGGGAATCTATCAGCCGTCGGCCGGTGTCCTGCACATCAACGGTAAATCCTTCAGGCCGGAGGACGGCGGTCGGCTCGGGTATTTGCCGGAGGAGCGCGGCCTGTACAAGAAGGAAAACGTCATCGAGGTCATGACCTACTTTGGCAGGCTCAAAGGGCTGGGGCGTCACGCTGCGAGGCGCTGGTCATTGACCTATCTCGAGCGGGTGGCTTTGGCCGACAAGGCCACAGTGCAACTGGACAAGCTCTCCGGCGGGCAGCAGCAGAAGGTCCAGCTCGGTGTGACCATCATGAACGAACCCGAGCTGCTGATCCTGGACGAACCGACCAAGGGCTTTGACCCGGTCAACCGTAAGCTGCTGATGGATATCATCGCGGAGCAGAAAGCTAACGGCGCGACTGTTGTCATGGTCACCCACCAAATGGAGGAAGTCGAACGCCTCTGTGACCGGGTGATCCTGTTGAAGAACGGAACCGCGGAAGCTTACGGCACCGTAGACGAGGTCCAGAACCAGTTCGGTGGCCGTGTCGTCCGCCTCAGACACGCCGGCCAGATCCCGGAATCGCCGCGGTACACAGTCACGGTCAGCGAGACGAACTACTCCGAGCTGTCCATCGCTGATGGCGCCGACGAAGCGGACATCCTGAAGGAACTCGTCTCCGGTGGCGTCGCGGTCCGTTCCTTCACTACGACCAAGGTCTCCCTGGAGGACATCTTTATCCGCGTCTACGGCGAGCAGAACAAGCCAAGCAACCGCGACTACGCGATGGCGGAGGTGTAA	MGEALVHVNGFSMAFGGTTIIRDLSFDVQAGETFGFLGSNGSGKTTTIRALLGIYQPSAGVLHINGKSFRPEDGGRLGYLPEERGLYKKENVIEVMTYFGRLKGLGRHAARRWSLTYLERVALADKATVQLDKLSGGQQQKVQLGVTIMNEPELLILDEPTKGFDPVNRKLLMDIIAEQKANGATVVMVTHQMEEVERLCDRVILLKNGTAEAYGTVDEVQNQFGGRVVRLRHAGQIPESPRYTVTVSETNYSELSIADGADEADILKELVSGGVAVRSFTTTKVSLEDIFIRVYGEQNKPSNRDYAMAEV	PGPT0006725_7601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-17_02179	1254			hypothetical protein	ATGGCACGGCACAACCTTGGCGCGGTGGCCGGATTCGAGTTCACACGCGTCGTCACCAAGAAGTGGTTCTGGGCCGGTACCCTGGCAGTCCCCCTGATCATGGCCGTCGTGTTTAGCCTGATGAGTGTCAGCAGCACCACGACCGCCACCGCCTCCGAGACGCAACAAAGCGGAGGCTTCTCCATCGCCTACACCGACCAGTCGGGTCTCATCACCGCCAGGCAGGCGGCGGAGTTCGGAGCGACCAAGGCGTCCTCTCGGGAGGACGGCGTCCAGGCCGTGCAGTCCGGGTCCGTGGACGCGTTCTTCGATTTTCCCGCCGACCCTGCCCAGTCAACCGTCAACGTTTACGGCGCCGATCGGGGCATCTTCGAGAACGACAAGTATTCCGCGACCGCCCAGGCGATGCTCTCGCAGGCAGCCACCGCCAAGATTGGCTCCGCCGAGCTTGTCGCCCTGACAGGTAACGCAGTGAGAATCGACGTCAAGACCTACCGAGGGACGGTGGAAGCCAGCGGAATCAACGCTGTAATCCCGCCCCTGCTGTTCCTGATCATCTTTTACATGATGATCTTCCTGCTCGCCGGGCAGATGCTCAACTCCGCCTTGGAAGAGAAGGAAAACCGCGTCAGCGAGATGATCTTGACCACTTTGAAGCCGGCCGTACTGATCAGCGGCAAAGTCCTGGCGCTCTTTGCAATCGGGCTCCTTCAAATGGGCATCTTCACCTCCCCAATCATCGTTGGGTCCCTGTTCTTCCGGGAGCAGATCAATATCCCTGCTTTCGACTTCGCAGCCCTGATCTTTGAGCCGGTCCCGGTGATCACAGGGTTCCTCATCCTAATCGGCGGGTTCGCGCTGTTCACCACTACCCTCGTCGCGGCCGGAGCCGTTATGCCCACTGCCAAAGAGGCAGGAAACTTGATGTCCGTGATAATCGTGTTGGCCTTCGTGCCCTTGTACGCCGCATCGATGATCATCTCGGACCCGCAGGACATGGCGGTGCAGATCTTCACGTACTTCCCGTTCTCCGCCCCGGTCACTGCCTTGCTGCGCAACGGTCTAGGGTCCCTCAGCACTGGCGAGGCCGCCATCGTCATCGCGATCCTCTACGTCAGCGCGGCACTCATGTTCCGTCTGTCCGTAAGGCTCTTCCAGCATGGCTCCATCTCCTACACCTCCAGAGTCAACATCAGGGCGGCACTCGACTGGCCAGCAAAAGGTGCTACCACTCCTGGCAAAAAGCCGGCTTAA	MARHNLGAVAGFEFTRVVTKKWFWAGTLAVPLIMAVVFSLMSVSSTTTATASETQQSGGFSIAYTDQSGLITARQAAEFGATKASSREDGVQAVQSGSVDAFFDFPADPAQSTVNVYGADRGIFENDKYSATAQAMLSQAATAKIGSAELVALTGNAVRIDVKTYRGTVEASGINAVIPPLLFLIIFYMMIFLLAGQMLNSALEEKENRVSEMILTTLKPAVLISGKVLALFAIGLLQMGIFTSPIIVGSLFFREQINIPAFDFAALIFEPVPVITGFLILIGGFALFTTTLVAAGAVMPTAKEAGNLMSVIIVLAFVPLYAASMIISDPQDMAVQIFTYFPFSAPVTALLRNGLGSLSTGEAAIVIAILYVSAALMFRLSVRLFQHGSISYTSRVNIRAALDWPAKGATTPGKKPA	PGPT0006730_3032	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-17_02180	1866	amy		Alpha-amylase	GTGCTTTCCATCGAGGCCATACCGTGGGCCAACCTCCTGAGCCAAAACAACTTCCACCCGTCTCCCCACGACTGGTCCGACCAGGTCATTTACTTCCTCCTCATCGACAGGTTCTCGGATGGAAAGGAAGACGGATACAAGGACGCATCCGAACAGGTCGTCCAAGGCCAGACCCCTCTGTTCTCCGCCGTCGACGTCAACAATGCCGTCGCGACCCCTGCCGACATCGGAATCTGGGAGACCGCCGGTACCCAGTGGCTCGGCGGAACCCTGAGAGGGATAGCCACCAAAATCGGCTACCTCAAGCGACTCGGTGTGACCGCACTGTGGATCAGTCCCGCGCTGCGGCAGCGGCAAGGTCTGGATGACTACCACGGTTACGGCACGCAGAACTTCCTAGAGGTCGACCCGCACTTCGGAACAGCCCAAGACTTCAAAGACCTGGTGGCCGCCGCGCATGAGGCCGGGCTGTACGTCATCCTCGATGTCATCCTCAACCACTCCGCAGACGTCTTCCAGTATGCAACGCCCGAGCCGGAACCGGCATGGAACGGCACAACGTTCCCAGTTGCCGGGTGGAGAGACTCCAACGGAACCCCCAGCCTTCCCTTCCCCTCGCCCGTTGATCCGACTGAGCCGGCCAGCGCCGTCTGGCCAAGTCAGCTCCAGGCTCCCGGCACCTTTACCTGCAAAGGAAAAATCATCCGCTGGGACGACAGGCCGGAGACGACCGAGGGTGATTTCGAAGGCCTGAAGGACATTCAGCAGGGAGCCGGTCCCGTCCACGACTACCACCCCTCCCCTGCCTTTCAAGTCCTCACCGAGGCGTACCAGTACTGGATCGCTTTTGCGGACGTGGATGGGTTCCGGGTCGACACCGTGAAGCACATGGACGCCGGGGCCACACGCTACTTCGCATCCGCCATCCACGAGTTCACCCAGACCATCGGCAAAGAATCCTTCTTCCTTGTCGGCGAGATCACCGGTCCCCGCGGAGATGCCATCAGGACCCGTGACGAAACTGGCCTTGATGCGGCCCTGGGCCTTGCCGACGTACAGGGAAGAATGGTGGACGCCGTCAAGGGCTGGGGCAACCCTGCCGACTACTTCGAGCTTTTCCGCAACTCCTATGAAGTCGGCAAGGAATCACACACCTGGTTCCGCAAGCACGTCGTCACCTCCTTCGACGACCACGACCTGGTCCGCATGGGCAGGAGCTACAAAGCCCGCTTCGCGTCTGACCCTGAGGGCCGTGCACTGGAGCTCGCGGTTCTGGCCATGAACGCAACGACGCTCGGTATCCCCTGCATCTACTACGGCAGCGAGCAGCTCTTCAACGGCAAGTTCCCAACTGAGGTAAACCTGGACCCGGGTAACGACCACAAGGCCGACCGCTACATCCGCGAAGCCATGTTCGGCAGCGGCTTCGGCTCATTCCGCAGCAAGGACCGCCACTTCTTTGACGAGTCGACCGACACCTACAACCAACTTGCCAAGGTTCTGGAGCTTCGCAGGAACGACCATGCGCTCCGCCGTGGCCGCCAGTACTTCAGGCCCATTTCCGAGGACGGGTCCAACTTCTGGTATCCGAACCGCATTGGCGAGGGACGCATGACTTCCGTCGTGGCCTGGAGCCGGATCATGTCCAGCCGCGAGGTCGTGTGTGCCTTCAACACCGATCTTGTGCAGAAAAGGACCGTGTGGGTGACCATCGACGCAGGGCTGCATTCTGCCGGAGACAAGTTCCGGTACGCATACTCGACAGACCAAAACCAACAAGGATCAGAGACAGCGATCGAGGCACGAAACGGCAGGGCCATCAGCATCAGTGTCCCGGCAGCCGGCTTCGTCATCATGGCACCTTAG	MLSIEAIPWANLLSQNNFHPSPHDWSDQVIYFLLIDRFSDGKEDGYKDASEQVVQGQTPLFSAVDVNNAVATPADIGIWETAGTQWLGGTLRGIATKIGYLKRLGVTALWISPALRQRQGLDDYHGYGTQNFLEVDPHFGTAQDFKDLVAAAHEAGLYVILDVILNHSADVFQYATPEPEPAWNGTTFPVAGWRDSNGTPSLPFPSPVDPTEPASAVWPSQLQAPGTFTCKGKIIRWDDRPETTEGDFEGLKDIQQGAGPVHDYHPSPAFQVLTEAYQYWIAFADVDGFRVDTVKHMDAGATRYFASAIHEFTQTIGKESFFLVGEITGPRGDAIRTRDETGLDAALGLADVQGRMVDAVKGWGNPADYFELFRNSYEVGKESHTWFRKHVVTSFDDHDLVRMGRSYKARFASDPEGRALELAVLAMNATTLGIPCIYYGSEQLFNGKFPTEVNLDPGNDHKADRYIREAMFGSGFGSFRSKDRHFFDESTDTYNQLAKVLELRRNDHALRRGRQYFRPISEDGSNFWYPNRIGEGRMTSVVAWSRIMSSREVVCAFNTDLVQKRTVWVTIDAGLHSAGDKFRYAYSTDQNQQGSETAIEARNGRAISISVPAAGFVIMAP				NA	NA	NA	NA	NA
D1-17_02181	252			hypothetical protein	GTGATCAGTGTCCAGAGGGTCGGGAGCGGCAACGGTGGCACCAAGACCCTCACCGGAACCAGTATGGCGACCCCGCACGTGGCTGGCGTAACGGCGCTCTCGGCCGAACAACTTCTTGCACAGGGTCCGCTGAGTCCGCTACTCCTACAGGCCAAACTTATCGGTTCCGCGACGTTCGTGCCCCTGAGTGCCGGTACGGACCCGTTGGACGCCGGTGCCGGTTTGGTCCAAGCACCCACGAACACCCACTAA	MISVQRVGSGNGGTKTLTGTSMATPHVAGVTALSAEQLLAQGPLSPLLLQAKLIGSATFVPLSAGTDPLDAGAGLVQAPTNTH				NA	NA	NA	NA	NA
D1-17_02182	1623			hypothetical protein	ATGAGCTATCAACCGGGCGACCTCCGGCTCCCCATCATCTATGTCCGGGGTTTTGCCGGGGGCGACATAGAGGGCGCCGTAGAAGACCCTTTCTACGGCTTCAGCACCGGTTCGGTACATGTTCGAGCCAATCGTAGGGGCGATCCCAAGTTCCATCAGTTCGAGTCACCGATGCTGCGGCTGATGTCCGACATGGACTACGAAGTTCGGGTGCACGGGAACCAGAAACGTTATCTGGATCAGGCCAGGGAAGGGGAAATTCCCGCAGCCACGATCTGGATCCACCGCTTCTACGATGTCTCAGCTTCAAGTATCCAGGACGAACCTGAGAAGTTTTCTCTGGAACAGGCAGCCATGAATCTTTTCAGCCTGATCAAGCTGGTCCGGCTCAAGACCGGCGCGCCGAAGGTTTTCCTCGTAGCGCACTCCATGGGCGGGCTCATCTGCCGTTGCCTGCTTCAGCGCGTCATCCCCGAAGCGGAGGTCGACCAACGGGCTGAACATAACTTACGGGCTGGGGAGAAATACGTGGCAAGCCTTTTCACCTATGCCACACCACACGGCGGAATCCGGTTCGCGATAGGCGGCGGATTCCTCGAGCGGCTCCGCGACTTCACAGGGCTCTTCGGCGCGGATGTCTTCGGCCCGGACCGGATGTACGAGTACCTCACCCCGGAGTTCTTGAGGGATCAGGAGCCACGCCGCGGCTTCACAGGCACCGTTATACCCCAGGACGGGTTCTCCTTATCAAAAATCTTCTGCCTTGCCGGCTCCAATCCGGGGGACTATAAGCAGCTTTTCGGGCTTTCCTCCCGGGCGGTAGGGGTCAAGAGCGACGGTCTGGTCCAGCTTGAGAACGCGGTGATCAAGGATGCCCACTGCGCAATTGTCCACCGCAGCCACGGGGGCAGGTATGGCATCGTCAATTCAGAAGAGGGTTACCAGAACCTAAACCGATTCCTGTTCGGGGACCTTCAGGTCACCTTGGATCTGGTCAACGCCGATGTCGGCCGTCAGGACGATTCGGATCTGGAGTTCCAGCTGGACCTGGGGTTGACCATCCGTGGCCTGCCTGTGCTGGTGCACGAGCAAACCGCAGCCCACCACTGCCCGATCCTCGTGGAGCGGTTAGAAGAGGGCGAGGATCCAGTCGATCACCCCAGGCCCCTGCTCACCACTTTCCTGTCCTCGAAGGCTCCCCGGCCCTTGGATGAGGAAGGTAACAAGGTTTCTACTCTCCGTCATGTCTTGAACCTTCGGCTCATGTCGATCCGGGAAAAAGAACACAAGAAAAACGACCCGTATGATGGGGAGTCCACCATCGACATGCGTGACCACCTGGAGCAGACGGCTGACTGGGAAGACGCACTCGTGGTCGACATCCTGCCAGGAGACGGGGCTTCCGCGCTGCCGAGGGCCTGGGCCGCTTGGACAAGCACCCTCGCAAGGCCTGTCCGCCTCTGGAAACCAATGGAGGAAGGTGAAACGGCACTGGAGGACAAAGCGCCGGATGTCAAAGGGTCGTGGGTCGGTGAAATCGCCGTTCCCTCCATTGCGCACCGGCTGCTAGGTGATAAAGCCTTGATTCGTATCACGGTCATTCCCCGAACCAGGGACTTCTGA	MSYQPGDLRLPIIYVRGFAGGDIEGAVEDPFYGFSTGSVHVRANRRGDPKFHQFESPMLRLMSDMDYEVRVHGNQKRYLDQAREGEIPAATIWIHRFYDVSASSIQDEPEKFSLEQAAMNLFSLIKLVRLKTGAPKVFLVAHSMGGLICRCLLQRVIPEAEVDQRAEHNLRAGEKYVASLFTYATPHGGIRFAIGGGFLERLRDFTGLFGADVFGPDRMYEYLTPEFLRDQEPRRGFTGTVIPQDGFSLSKIFCLAGSNPGDYKQLFGLSSRAVGVKSDGLVQLENAVIKDAHCAIVHRSHGGRYGIVNSEEGYQNLNRFLFGDLQVTLDLVNADVGRQDDSDLEFQLDLGLTIRGLPVLVHEQTAAHHCPILVERLEEGEDPVDHPRPLLTTFLSSKAPRPLDEEGNKVSTLRHVLNLRLMSIREKEHKKNDPYDGESTIDMRDHLEQTADWEDALVVDILPGDGASALPRAWAAWTSTLARPVRLWKPMEEGETALEDKAPDVKGSWVGEIAVPSIAHRLLGDKALIRITVIPRTRDF				NA	NA	NA	NA	NA
D1-17_02183	162			hypothetical protein	ATGGCTGAACTGTTCAAGGCAGAACTCGCCAAGCAGGGACGCTGGCGGGCTCATACAGCTCCGCGGCAGGAACCTAAAACTGGCCAGACGCTCTGCGTCGGCACGCACCTGCGCATGCTGTGGCAGGAGGTTCAGTTCAGAAGTCCCTGGTTCGGGGAATGA	MAELFKAELAKQGRWRAHTAPRQEPKTGQTLCVGTHLRMLWQEVQFRSPWFGE				NA	NA	NA	NA	NA
D1-17_02184	1104			hypothetical protein	ATGAAGGTCATGTCAGAATCAAACAGCAGAGCCAAACCTAGAAAGAGCAAACCTTGGCGGGAAGATATCCTCACCAAGGTTACAGACCTGAGTGCCCTCACCAAATGGTTTGCTGCGCAAGACTCCCGGGCAACAGCCCCAGGGACAACCTACCTTAATGCCGCTCTGGACGACGGAATTCTGGAGCATCTGCAGAAGGCTCGGGAGGCAGCAGAAGGAACTGCCAAGATTTCCCGCTGGTACAGTGATGCGCCGGCGATGGAACGGGCAGTCAGCCGCACCGACGCGGCCGAAGAACTGATTCTGCGTAGGGCGCCGTGGTCTTATGTTAAGGGCCGGTTGCCTGAAATCCACTCCGACGTCATGAAGTACTTGGACGCCAACGATCCCCGACGGCTGCGCCTCGAGCAAGAGTTGAACCCACACCCGTGCGACCCTCAAACCGCTGATGACGGTAGTTCTCGTGACAGCCTCGTGGACGCAACTGCTGCCGCGCACTCGCGCGCTCGGCAGGAGTACGCTCGGGTGCGCAGCTTTCATCGCGTCCTCCTCGTGACCGCCGTCATACTGATGATAATGGCTGCTTCATTGGCAGTCCTGGGAGGAATATTCCCGCGGGAGTTTTCTCCTTGCTTCAATCCTCAGGGCACCGCTCAGGAGCCGTCCAAGATAGTGTGTGCCGTTCATGAAACCCAGTTTCCTCCCAGCGCCGGCGTACCCGACGGAACAGACATAGACGAGGCAATACACGCGACGGCCCGTTTTTACGACGTCGGTCTCGTGGAGCTACTGGGACTAGTTGCAGCAGCGGTTTCGGGGGCCAGTTCCCTACGCAACATACGAGGCACGTCGACCCCATTTGCCCTGCCCGTGGCATTAGCACTGGTCAAACTCCCCGCTGGCGCCCTCACGGCATACTTGGGGCTCGTCCTCATGCGGGGCGGATTCGTACCAGGCCTTTCCGCCCTTGATACCGCCCCGCAGATTCTTGCTTGGGCAGTAATCTTCGGCGCCTCCCAACAACTGTTCACCGGAGTAGTGGACCGGCAGGCTAAAAGCGTCTTGGACAAAGTCGGTGGCAAACCGCATAGCGCTAAGGCGTAG	MKVMSESNSRAKPRKSKPWREDILTKVTDLSALTKWFAAQDSRATAPGTTYLNAALDDGILEHLQKAREAAEGTAKISRWYSDAPAMERAVSRTDAAEELILRRAPWSYVKGRLPEIHSDVMKYLDANDPRRLRLEQELNPHPCDPQTADDGSSRDSLVDATAAAHSRARQEYARVRSFHRVLLVTAVILMIMAASLAVLGGIFPREFSPCFNPQGTAQEPSKIVCAVHETQFPPSAGVPDGTDIDEAIHATARFYDVGLVELLGLVAAAVSGASSLRNIRGTSTPFALPVALALVKLPAGALTAYLGLVLMRGGFVPGLSALDTAPQILAWAVIFGASQQLFTGVVDRQAKSVLDKVGGKPHSAKA				NA	NA	NA	NA	NA
D1-17_02185	495			hypothetical protein	TTGTTCAAAACATCAGACAACAAAATGTCCCACCCTGTCCGCCGCAAGCTCGCCCTGCTGTCGGCGATCGGGCTGGGATTCGCGGCTGTGCCTGTTGCCTTGGCGGCCCCGGCCCAAGCATCTACCACCAGTTACGCCTGCTCTGTCACCCCGCTGAAGCCAATCTTCGCCGGGCACAACTCGTCGGGCGTCAAGCTGGTGGACTACCGGATCCAGGTCCGATGCTACGGCGACCGCTATATCAACATCACCCAGGAACGCTGGGAGGATGACGACTGGCCCAACGGTGATGACCACCTCGGCACCTCGTACTTCAGCCGCCATCTGAACAACGCGAGCGGTTACGTGACGATTTCCAACGTTCGGACACTGGTCGATGGCGAAATCGGCAACGAGGAGGTCTACCACAAGATCCGGTGGCAGGAAGGAAGCGGCGGAGTGTGGTCTCCGTACACGGGGTGGCGCTACAGCCCTTCCACGTCGATGTCTAACTGA	MFKTSDNKMSHPVRRKLALLSAIGLGFAAVPVALAAPAQASTTSYACSVTPLKPIFAGHNSSGVKLVDYRIQVRCYGDRYINITQERWEDDDWPNGDDHLGTSYFSRHLNNASGYVTISNVRTLVDGEIGNEEVYHKIRWQEGSGGVWSPYTGWRYSPSTSMSN				NA	NA	NA	NA	NA
D1-17_02186	261			hypothetical protein	ATGCGCTGGCCAGCGTTCACCGCACTGGGGTTCGGCGGCCTCGGTGACGAGGTGTTCCGCGACCTGGTGATCGCCCGGGGCGTCGAACCGACATCGCTGCTTGATACAGGCAGAGTCCTGCGCAAGGCGTCATCGAAACCACCCGCAGAATTGCCCGCGGCTTCCGCAACTTCCCAAGACTCAGATGCCTACTCGCCGCCGGCGGGTACCGCCCATACCGGACCAAACAGGCCAACCGTGCCTAATACGAAGGGCCGGTAA	MRWPAFTALGFGGLGDEVFRDLVIARGVEPTSLLDTGRVLRKASSKPPAELPAASATSQDSDAYSPPAGTAHTGPNRPTVPNTKGR				NA	NA	NA	NA	NA
D1-17_02187	372			hypothetical protein	GTGGCGTTCATCAGGAGGGTGCGGACGGCCTCGGGAGCGACGGCAGTACACATCGCCGAGTATGTACGCGGCCGCCAGCAGATTGTGGAGCACGTCGGCTCGGCGCATACGGAGGCAGAACTCGGCATGCTGCTCCGGCGCGCCCGTGAGCCGCTGGACAACCCGGCCCAGGGCGTCCTGGACCTCGGTGTTGAGCCGACACCGCCGGTGAAAGGCCGAATTGTGCCCGCCGATACGGGCCTCTTCGAGACAGCCGGCGCGGTCACGCGAGCCGGTCGCGACAGTCCGGGACGGGTGGTCGGCACGGACTCGCGGATCCTGTTCGATGCGCTGGCCAGCGTTCACCGCACTGGGGTTCGGCGGCCTCGGTGA	MAFIRRVRTASGATAVHIAEYVRGRQQIVEHVGSAHTEAELGMLLRRAREPLDNPAQGVLDLGVEPTPPVKGRIVPADTGLFETAGAVTRAGRDSPGRVVGTDSRILFDALASVHRTGVRRPR				NA	NA	NA	NA	NA
D1-17_02188	1206			hypothetical protein	ATGTGGTCCTCCTCCTTGAATTTGTTTTACTACCCCTACGCCACTTTGGGCCAAAAGCAACAGCCTCTACTGACAGCTGTCGCAGCTTTTTTCGACACGCTAGCAATACTTGACCCTTATCAGGCGAGTGGTGACAGGGTTGGCGTGGGCGATTCATCCGAAGCGTTGCACCTCCTGGAAGAAGCAAAGCTTTTGAAAAGGATCGCTCCGGCTGATGTGCTGTTTAAGTACGAGAGCGAACTAGAATGTGCTATTGAAGCTGACATGAACGATCCGGATTTCATTCGCACGTGCCAGAATCGGAGTGAATATCCGTGGACCTTGGCGTTGGAAAAGATCCCGAAGGCGATCCGGAATGATCCCGACTACATGACGTTGGATCAGGCCATGCAGCGTCTGATGCAGCGGGGAAGCAGCGAATACCAAGAACGCTACCTCGAAAAAATTGTTTCAGTCGCCGGTACAAATGTGCCGCAGGCGTCATCAAATCCAGGTGCAGCCGAGGTCGGTTCCTTTCCCTTTGAGAGAGAATACCGCTATGTGCAGGTCCCCTTCGCACTAGGTGAGTCGATAATGCTCAACCATTGCCTGTTCGCAGGCTTAGTTGAGGAAAGGGCGACTCCGTTCACCATGGATGCGTTTCATCAGGAAATGTTGGCCCACAAGATACGGCGCGCGCCTTCCACTGTCCTAAACACTTTGGACGATGGAGTAGGCAGACGGCAGCAAAAAACAAACATACTATCTCTGGTGGCACTTACTGCAACTGACTTGTCGATTCCCGTGGTTTCTCCGGAACTCCCGTTGGAAGAAGTCCTAGACTACCGCAATAAGCATGCAGACACTTTAGATGCATCCCGTTCTTTGCTGGCCGATCTAGCGTGGGAGATGGAATCAGCGCCACTATCGGGGGAGTTTTTCCGGGAGACCGATTCGGCATTGGCCGCACTACGCCGTTCGCTCCTAGAGGTTGGTAAAGCGCGGGATAGTTGGATCAAAGCCAATTCGTGGAGGTTGGATACCGTCGGAGTCGCGACTGCTGCTGCGTCCATGATGCTTTCTCTTGCTGCAGCGCCGGTAACCCCATTCGCATTTTTTGGAGCGGCTTTAGGCCTGGCCGCAACTGCCCTGCCTTTCGGCAAGAACATGGCACAGGCGGCCGGCGGCTCTACGAACAGCGTCTGCTACCTATTGCGGGAGAAGTGA	MWSSSLNLFYYPYATLGQKQQPLLTAVAAFFDTLAILDPYQASGDRVGVGDSSEALHLLEEAKLLKRIAPADVLFKYESELECAIEADMNDPDFIRTCQNRSEYPWTLALEKIPKAIRNDPDYMTLDQAMQRLMQRGSSEYQERYLEKIVSVAGTNVPQASSNPGAAEVGSFPFEREYRYVQVPFALGESIMLNHCLFAGLVEERATPFTMDAFHQEMLAHKIRRAPSTVLNTLDDGVGRRQQKTNILSLVALTATDLSIPVVSPELPLEEVLDYRNKHADTLDASRSLLADLAWEMESAPLSGEFFRETDSALAALRRSLLEVGKARDSWIKANSWRLDTVGVATAAASMMLSLAAAPVTPFAFFGAALGLAATALPFGKNMAQAAGGSTNSVCYLLREK				NA	NA	NA	NA	NA
D1-17_02189	1221			hypothetical protein	ATGAACCAGCAGGAGCTTCCCTTGGTAGCAGTTACACCAGAACGCCGGGCCGCCGCCGAAGGCATCCATGCCGAGTTGATGCCCTCGGCCAACCCCATCGATGACTTGGCCATGCACAACCGCCGCGACCCGTACTGGGACCGGCTCTGGGTTCCCGGCTCCCAGGCCAACTGGATCACTGGCCCGATGGCCAGGCACCACAAGAAGGAAGGCATCAGCCCGGTCAACGCCAAGCTTCTCCTGGACGAGGACGAGGCACTGCGCATCGCCACAGCCAACCGGGGACGCTCGGACCGACTCGCGGCCTGGGGTGTCCTGGACTCGTGGCGGACCATTTCCTCCGAGCAACTTGCGGCCCTGACCGGCTGCCAGTATTTCCTGGACCCGAACTACTCGTCGATGGCCGCGTCCTTCTCCCTGGACCTGGTCGACGTCGGCACCTACGCGAACAAGCTCCGGCCAAACTCGGGCATGAACAGCAGCGTCGTGTTCCGGACCGCGAACTCCGACGCGTTCAACAAAGTCATCGGGCCCACCCTCACCGGACCGGAATGGCTCAGCGTCACCGCCGGCCAGCCGTGGTCCACCGGCGGCCACTACGACCGGCACAACGTGCTCTCCACCGAGCTGGGCCTGCGCGCCGCGGAGTACCTGGACATCTGGACAGTCCTGGGCGAAAAGCTGTCTTCCATCGACCTGCTCGCCGGCTCCGGGCTCGAGAAGAAGCTGAACCGCACGGACGGCCGCCACGCCGACGGCACCATCGTCCGGCACGACGGAATGCGCATCGTCTTCGAACTGACGGCCACCGCCTCGACCTCCTTCGAGAACAAGGTCCGCCGCTGGGCCCAGGTCATTTCGGAACGGCCACTGGAAACCTCAGGCCTGACCGTGGTGTTCATCGTCGCCCCGCACCCGGACCGCTCCAGCAACACCGGCACCGACCCGCGACACGAGATCTACCGGATCCTCTCCCAGGTCCTTCGCGAATTTCCCGGCCGCGGCCAGGACTCCCCCGCCGCCCGTATCGGCATCGCCCACTGGGAGGAATGGTTCCCGGACCGGCACCTGATGAGCGAAGGATTTTTCAACCTCGAAGCAGACTTCGCCATCAACGACGCCATCGGCCCGGATCGGTGGGCCCGGCACCGAATGCTGACCGATTATGCCTCCACCCCGTGGCACACCTTCGATGCGACAGTAGTCTTGGAGAACTCCTAG	MNQQELPLVAVTPERRAAAEGIHAELMPSANPIDDLAMHNRRDPYWDRLWVPGSQANWITGPMARHHKKEGISPVNAKLLLDEDEALRIATANRGRSDRLAAWGVLDSWRTISSEQLAALTGCQYFLDPNYSSMAASFSLDLVDVGTYANKLRPNSGMNSSVVFRTANSDAFNKVIGPTLTGPEWLSVTAGQPWSTGGHYDRHNVLSTELGLRAAEYLDIWTVLGEKLSSIDLLAGSGLEKKLNRTDGRHADGTIVRHDGMRIVFELTATASTSFENKVRRWAQVISERPLETSGLTVVFIVAPHPDRSSNTGTDPRHEIYRILSQVLREFPGRGQDSPAARIGIAHWEEWFPDRHLMSEGFFNLEADFAINDAIGPDRWARHRMLTDYASTPWHTFDATVVLENS				NA	NA	NA	NA	NA
D1-17_02190	1128			hypothetical protein	ATGCGCAAGGGCGACCACACCGCGACGATCGGTTCACCCACGGACGCCCAAGTCGAGGTTCCGCACCCGGCGCCGGCCAAGCCGCACCTGACCAAAGGCCGGCCGCTCGCAGCTGCCATCGGCAATGGCGCGACGCCAAACTTCCGAAACGCCTTCGCATTGAGTGGTGAGTCGCTGGCAGAGCTAAGTCCTGTGGCAGTGCATACTGCACGCATGACGAGTCGGCCGGTCAGTACTGATCAGGGAAGCACCGATGATGGGGCCCTTGAGGTTGAGCAGGAAAAACGACGAAGTCCGCTGCGGGTAGATGTGGCGTGGCTCGGTGCGGCAGGGGTCGCACTGTACGCTTTCCTGCGTTTCCCATTCGCCACTTTTTACGAACATCTGGGAACCACCCCTGAAGAGGTCGGCCTGGGATACGCTCAGCTCCTCGCCCAGTCTTCGGTGCTTGTTGCCCTCGTCGCCGCGGCCGCCAGCATCGTTACGTTCTACGTGTTCTTTGGCGGCTTCCCCACCGCAATTTTCACCATCGGCGCCAGCTACCGTAGCTGGAACGGCGGTGGGCGCGAGGTTCTTGCGCAGATGACGGACGCTGACTTCGACAATTATCTGGCTGCCTCTCGGACCGCCAATGAGTCGCGTATATTCGGGCGCAATCTAATGGCGAATGCGTTGAGGCGCCAGTCGCGGCTTCGTGAGCTGGACCGCAAGGGAGTCCTGGATAAGAAGGAGACCAAGGAGAGCCAGCGGCTCTACTCGGGCATCGCCACGATCATCAGCCGCCCTCTCCTCGGCTTCATCTACGAGGCAAATGAAAAGCGGCACCGGCTTCTCGCACTGTTCCTGCTCTGGTCCCTTGCCATCCTGGGGATCGGGTTGCCGCTTCTCGCGGCCCAGCAGGGACGCACGGTTAGGGACTGCGGAACCGCCGACCGCATCCCTGGCATGAGCTACAGCGGCACCAAAGTTGAACTGCTCGACAGCACAAAACTCGCCCCTCAGTTCCCCGAGAGGAACCTCCTGCTGCTCGGTGGAGACTCGAACAGGTACGTTCTGTTTGACTGCACGGACGACACCACCCTGCGGCTGCCGACATCCATCTATGTAGTCATCCACCAAGGCCAATAG	MRKGDHTATIGSPTDAQVEVPHPAPAKPHLTKGRPLAAAIGNGATPNFRNAFALSGESLAELSPVAVHTARMTSRPVSTDQGSTDDGALEVEQEKRRSPLRVDVAWLGAAGVALYAFLRFPFATFYEHLGTTPEEVGLGYAQLLAQSSVLVALVAAAASIVTFYVFFGGFPTAIFTIGASYRSWNGGGREVLAQMTDADFDNYLAASRTANESRIFGRNLMANALRRQSRLRELDRKGVLDKKETKESQRLYSGIATIISRPLLGFIYEANEKRHRLLALFLLWSLAILGIGLPLLAAQQGRTVRDCGTADRIPGMSYSGTKVELLDSTKLAPQFPERNLLLLGGDSNRYVLFDCTDDTTLRLPTSIYVVIHQGQ				NA	NA	NA	NA	NA
D1-17_02191	174			hypothetical protein	ATGTTTCAGGGCATGAGCGAAAAGAGATTTAAAGACCGCGTCCTGGACAGCAGCGCCAAAGACAAGAAGGACATTGACGACTGGATGGCCTCGGCCAGGGGCGGCAAAGTCCTCGGCGCCATCCTCGTCCTCCTCGGGCTGTGGGCCGTCGTCCGGATGATTTGGAACTTCTGA	MFQGMSEKRFKDRVLDSSAKDKKDIDDWMASARGGKVLGAILVLLGLWAVVRMIWNF				NA	NA	NA	NA	NA
D1-17_02192	825		COG1842	Phage shock protein A	ATGTGTGCGGACATCCGCTGGGCATCACCGGGTCTGATCCCCCAGCATGCCGCACGCATGGGCACCGAATATCCGCCCCTAGAGAAAGAACGCATGAAACAGAGTATTTTCGGCCGCGTCGCACAGCTGGCGAAGGCCAACCTCAACGACCTCCTGGACCGCGCCGAGGATCCGCAGAAGATGCTGGACCAGATGGTGCGAGACTATTCGGCCAACATCTCCGAAGCCGAAGCAGCGGTCGCCCAAACCATCGGCAACCTTCGCATGCTCGAACAGGACCACTCACAAAATATCGCTTACGCGAACGAATGGGGACGCAAGGCCTTGGCCGCCTCCACCAAGGCAGATGGCTTCCGGTCCGTCGGCAACGCCACGGACGCCCAGAAGTTCGACAACCTCGCCAAGGTGGCTATCCAGCGCCAGTTGGCCGCCGAGAAGCTGGCGAGCGACGCAGCCCCTGGCCTCGCCGCGCAGAACGAGGTGGTGGAGAGGCTGAAGGGCGGGCTGGACTCGATGAAGTCCAAGTTGCGGGAGCTCACCGCCAAACGCAACCAACTGGTTGCCCGATCCCGGACCGCTGCAGCCCAGTCCCAGGTCCAGGAAGCGCTCAAGGGACTGGACGTTCAGGACCCGACCAGCGCCATCGGCCGGTTCGAGGAACGCGTCCGCCGCCAGGAGGCCACGGCCCGGGGCCAGCAGGAGCTCGCCGCCGGCAGCCTGGGGGCTCAGTTCGCGTCGCTCGAGAACCTCGGTGAACAGACGGAGGTGGAGGCCCGTCTCGCCGCCCTGAAAGCCGGTGGCAACCAGAAGGCGATCGGGTACTAG	MCADIRWASPGLIPQHAARMGTEYPPLEKERMKQSIFGRVAQLAKANLNDLLDRAEDPQKMLDQMVRDYSANISEAEAAVAQTIGNLRMLEQDHSQNIAYANEWGRKALAASTKADGFRSVGNATDAQKFDNLAKVAIQRQLAAEKLASDAAPGLAAQNEVVERLKGGLDSMKSKLRELTAKRNQLVARSRTAAAQSQVQEALKGLDVQDPTSAIGRFEERVRRQEATARGQQELAAGSLGAQFASLENLGEQTEVEARLAALKAGGNQKAIGY	PGPT0014646_640	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014646-pspA-K03969	NA	NA
D1-17_02193	630			hypothetical protein	ATGCTCTCCCGGCCGGAACGTCGCGGTGACCTGGTGAAAGACCTCGCCTACGACGTCCCTACCAACACCATCCTTACCCTGATCGGTGCGGACGTCTCGCAGGTGGATACCTTCAAGCGCTGGAGCGATTCCCGGGCGGCCATGACCTGGGGCGACCTGAGCGATGAGGAGCAGATCCCGCACGCGCACAACCTGGTGGAGTACTGGCAGGAATGCCTGCGCCTGGTCAAGGCGGCGCACGAGGAAGGCGGGGACAACCTCACCGGAGACCTCGTCAAAGCCCAGCAGGATGGCGCCGAGATTTCCGACCATGAGATCGCCTCCGTGCTTTACAGCCTGCTCTTCGCAGGCCACGAAACCACCACCACCCTGATCTCCAACGCCCTGCGCGAACTCCTCACCCGCCCCGGGCAGTGGCGGCAGCTGGTTGAGGATCCCAAGAAGATCCCCGGAGTGCAGGCGGCGGTTGTCTTGACACGGCCGACAGCCCTCGTCGCCCTGGCCATCCGGTACTGGAGCTTCCGCTCGGCGTCCCACAGCTCCTACTGGGCGGTCAGGTCGCCCCTAGCTGCTAGGCGAAGACAGCGACTGGCTCATCCAGACGGATGTCGGCACCGACAATCTGGGTGA	MLSRPERRGDLVKDLAYDVPTNTILTLIGADVSQVDTFKRWSDSRAAMTWGDLSDEEQIPHAHNLVEYWQECLRLVKAAHEEGGDNLTGDLVKAQQDGAEISDHEIASVLYSLLFAGHETTTTLISNALRELLTRPGQWRQLVEDPKKIPGVQAAVVLTRPTALVALAIRYWSFRSASHSSYWAVRSPLAARRRQRLAHPDGCRHRQSG				NA	NA	NA	NA	NA
D1-17_02194	429			hypothetical protein	ATGTCATCGTCGACAGAAACGGCCGGCCGCTGTCCCTTCGGCTACGGCGCCGAAGCCCCGGCCGGGCACCACGGCTACGAGCCGTTCCAGATGGAGGATCCCTTCCCGGCTTATGCCGAACTACGGGCGGAACAGCCGGTCATGTTCGATGAGCGCGTTGGCCTGTACGTTGTCTCCCGCTTTGATGATGTCAAGGCTGTTTTCGAGGACTGGGAGACGTTTTCGAGCGAAAACGCCCAGGCGCCGGTCCGGGAACGGAGCCCGGCTGCGAAAAAGATCATGGAAGACGGCGGGTTTACCGCCTATTCAGGCCTTTCGGCCCGGCGCCCGCCGGAACACACCCGGATCCGCGCGGTGGTTCAGAAAGCGTTCACACCCCGACGATACAAAGCGCTGGAACCCTTCATTCGGCAGACGTCGTCACCCTGA	MSSSTETAGRCPFGYGAEAPAGHHGYEPFQMEDPFPAYAELRAEQPVMFDERVGLYVVSRFDDVKAVFEDWETFSSENAQAPVRERSPAAKKIMEDGGFTAYSGLSARRPPEHTRIRAVVQKAFTPRRYKALEPFIRQTSSP				NA	NA	NA	NA	NA
D1-17_02195	792			hypothetical protein	ATGGCCGGCGGCAGCCGTGAACCAGGCCGGACCGTCACCTCCAAGGTTCTGGCCATTCTGGAGGCGTTCGAGAAATCCCGCGGGGCCCTGAGCCTGAGCGACATAGCAGCGAAGTCCGGCCTGCCCTTGAGCACGACACACAGATTGGTCAATGAACTGACGGACTGGGGATTCCTCTCGCGGGAGCCAAACGGACGCTACCAGCCGGGCATCCGGCTGTGGGAACTCGCCCAGAACACCGGGCGGCAGCTGCGCGACGCAGCCCGCCCTTACGTACAGGATCTGTTCTCCCTCACTGGCGAAACCGCACACCTTGCCGTCCGGGCCGGCCATGAGGTGCTCTACATCGACCGCGTCTACAGCTCCAAGAGAGTCCCGCGCGCCTCCCGCGTCGGTGGCAGGCTCCCGATGCATGCGACCGCTGTCGGAAAGGTCATTCTCGCCTTTGACGAGGACTGGGTCCGCGACGCTTACCTGAACCGGCAGCTGGAGCGGCAAACCGCCCACACTCATGTTGACCCCAAGCGCCTGGCCGAAGAACTTGTCCAAATTCGTGAGCAGGGTTATGCCACCACCTTGGAGGAGGTGCGGCTGGGATCCTGCTCCATCGCCGTCCCGGTATTCCATACCGGAAAGATCGGGGCCTCGATCGGCCTGGTGCTGCCTACGAACCAGGCCGCCACGATGACCCGGCACCTGCCGGTGCTGAAGGGAATTTCCGCCCAGATCGAGCGCGCCACCGCCCGGATTCCGCTGGAGACGCTGCTTGGCAGTCAGACCGGACCCAAGTAG	MAGGSREPGRTVTSKVLAILEAFEKSRGALSLSDIAAKSGLPLSTTHRLVNELTDWGFLSREPNGRYQPGIRLWELAQNTGRQLRDAARPYVQDLFSLTGETAHLAVRAGHEVLYIDRVYSSKRVPRASRVGGRLPMHATAVGKVILAFDEDWVRDAYLNRQLERQTAHTHVDPKRLAEELVQIREQGYATTLEEVRLGSCSIAVPVFHTGKIGASIGLVLPTNQAATMTRHLPVLKGISAQIERATARIPLETLLGSQTGPK				NA	NA	NA	NA	NA
D1-17_02196	687			hypothetical protein	ATGACCAAGCTTCAGGCGGCAGCGAACCACTACGGACACGATGTCTCGGGCGGCATTGAAGCGGAACCCGAGGGTGTCATCGTCTTGGACTCGGGCCTCGTTGCCGTGTGGGAGCTTGCTGCTCCTCTGCTTGGTGTGCGAGATAATGACGCGCACACACTGTACTCACTTGGTCTTGCCCGTGCCTTGCTGGAATCGCATGCCGAAGCCGATGCTGCCATCGTCCTCCCGGCCATAATGCTTCACGACGTTGGGTGGTCCGAGGTGCCACCGGACGAGGTTCTGCAAGCCATTGCTCCCGGGGGCGGAAGGCCGGATCTGGTCCTTCTCCATGAAAAGGAAGGCGCCAGGCTGGCCGCCAACATCTTGGCGCAGACAGGTTATGACGCGTCGAAGGTGCCGGAGATTCTTGCCATCATCGATGGTCACGATTCCCGGCCTACCGCGCTCTCTATTGAGGATGCGATCGTGAAGGACTCGGACAAGGTCTGGCGGCTCAGCCCACACGGCATTGACACCGTCATGGACTGGTTCGGACTGGACCGGGACCAGGCCCTGCGGCTGTGCAGCCAGCGAGTACATGGCCACCTCTTTACGCATGAAGCGAAAGTGATGGCCAGGGCGCTGTCCGCACTGGAATCCGTCACGCTGTGGCCTCAACGGCGTGTGCTCCTGAACGCGGACTAG	MTKLQAAANHYGHDVSGGIEAEPEGVIVLDSGLVAVWELAAPLLGVRDNDAHTLYSLGLARALLESHAEADAAIVLPAIMLHDVGWSEVPPDEVLQAIAPGGGRPDLVLLHEKEGARLAANILAQTGYDASKVPEILAIIDGHDSRPTALSIEDAIVKDSDKVWRLSPHGIDTVMDWFGLDRDQALRLCSQRVHGHLFTHEAKVMARALSALESVTLWPQRRVLLNAD				NA	NA	NA	NA	NA
D1-17_02197	1200			Cytochrome p450 CYP199A2	ATGACCGTTTCAACCCACGAAGCCAATGTCTTGGGCGAGGACCCCTTTGAAACCGCAAACCTCCTCGACCCCTACCCCTTCCTCGGCAGGCTCCGCGACGCAGGGGCCGTCTCCTACCTCGAGAGCACGGGCAGCTACGCCGTAGCCGGGTACCAGGAGGTCTACGAGGTCCTCACCGACTTCGAAACGTACATCTCCTCCGGCGGCCTTGGCCCGCGTGACATCCGGAAGGACTCCGGCTGGCGGCCGCCCAGCATCCTCGAATCGGACCCGCCCATCCACACCGTGATGCGCCGGGCGCTGACCGGCGTCATCAACCCCGCAGCCGTGCGCGCCCTCCGGGAACCATTCACGCCACCTGCCGAGGAGTTGACCGAGCAGCTCGCAGGCCGCAAGCGGTTCGACGCCATCACCGACCTCGCCGAAAAGTACCCCCTCCGTGTCTTCCCGGACGCGGTGGGGATTCCCGACGTCGGCCGTGAGCACTTGCTGCCCTACGGCAACATGGTGTTCAACGCCTTTGGCCCGGAAAATTACATCTTCAAGCAAGCCTTCGCGCAGGGCGACGAGCACGCCGCCGCGGTGATGCGCAACTGTCAGCGCGAAAACCTGGACGACACCGGTTTTGGTGCCCAGATCTGGAAGCGCGTGGAGGACGGCCTCATAACAGAACAGCAGGCGACGCTGCTGGTGCGGGCGCTGCTCTCCGCGGGCGTGGACACAACCATTTTCGGCATCGGCAACACGCTTTCGGTGTTAGCACGGTACCCGGAAGCATGGGCCCGGCTACGGGAGAACCCCAGAATGGCAAAGTTCGCCGTAGACGAGGCGCTCCGCCTGGAGTCCCCGTTCCAGAAGTTCCACCGCACCGTTTCCGTGGACACCGTCCTGGGCGGCGTGCATCTGCCAGCCGGTGCAAAGGTACTGGTGTTCCTGGGCGCTGCCAACCGGGATTCGCGCAAGTGGGGAGACAATGCCGACGAGTTCGACCTGGACCGCAACGCCTCCGGCCACGTGGCCTTTGGCATGGGCCTGCACCAGTGCGTGGGCCAGCCCATCGCCCGGCTCGAAATGGAAATCGTGCTCCAGCAGCTGCTTCAGCGCGTATCCACCATCGAACCGGACGGCGCGCCAGTGCCGATCCTGCACAACGTACTGCGCGGGTTCGAGTCCCTGCCGGTGCGGATCACGGCAGGATAG	MTVSTHEANVLGEDPFETANLLDPYPFLGRLRDAGAVSYLESTGSYAVAGYQEVYEVLTDFETYISSGGLGPRDIRKDSGWRPPSILESDPPIHTVMRRALTGVINPAAVRALREPFTPPAEELTEQLAGRKRFDAITDLAEKYPLRVFPDAVGIPDVGREHLLPYGNMVFNAFGPENYIFKQAFAQGDEHAAAVMRNCQRENLDDTGFGAQIWKRVEDGLITEQQATLLVRALLSAGVDTTIFGIGNTLSVLARYPEAWARLRENPRMAKFAVDEALRLESPFQKFHRTVSVDTVLGGVHLPAGAKVLVFLGAANRDSRKWGDNADEFDLDRNASGHVAFGMGLHQCVGQPIARLEMEIVLQQLLQRVSTIEPDGAPVPILHNVLRGFESLPVRITAG	PGPT0005380_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_METHOXYBENZOATE_DEGRADATION,PGPT0005380-cypA-K22553	NA	NA
D1-17_02198	966	pobB		Phenoxybenzoate dioxygenase subunit beta	ATGACTGCATCTGCAGGAGCCACCCTCGACGTCGTCGTCGATAGGGCGGACATTGTGGCGGACCAGGTGGTCTCCCTGGTGCTGCGGCGGGCCGACGGAATGCTATTCGAGCCCTGGCAGCCGGGCGCGCACATTGACGTGCACGTGGGCGACGGGCTGGTGCGACAGTATTCGCTGTGTTCCTCCCCCGGGGAACTGGACCACCTGCGGATCGGTGTGCTGCATGTGCCTGATTCCCGTGGTGGGTCCAAGGCCGTGCACGCGCTGTTGCCGGGAACACCGCTGGCCATTTCGGCGCCCCGCAATAACTTTCCCCTGCGCGAGTCCCGCCGCTACCTTTTTATTGCCGGCGGCATCGGCATCACCCCGATCATTCCCATGCTCGAAGCTGCCGACGCTGCCGGCAAGGAATGGACGCTGGTTTACGGCGGCCGGAGCCGGAAGACCATGGCTTTCGCCCAGCAACTGGAGGACCGGTACGGCGTTGACCGTGTCCGCATTGTCGCCGAGGACGAGGTGGGCCGGTTGGACCTGGACCAGGTCCTGGGCATGCCGCGGGCCCACATGCTGGTTTATGCCTGCGGCCCCGGCGGGCTGCTCGGTGCCGTGGAAGAACGGTGCATGGGCTGGCCGCCCGGCGCCCTGCACACCGAGCGGTTCGTCGCCTCCACCCTGGGTGCCGCTGCCGCCAACGCCCCCTTTGAGGTGGAGCTGGCGCGGACCGGAACCACCGTGACGGTAACGAATGACAAAACCATCCTCGAAGCGGTGGAAGAGGTGGGAGTGCGAGTCCTGTCCTCCTGCCGCGGGGGATTGTGCGGAACCTGCGAAACCCAGATCATCTCAGGGGAGCCTGAGCACCGCGATGCAGTCCTGACTGAGGAGGACCGTGAAGCCGGGGAGATCATGCTGGTTTGTGTTTCCCGTGCCGCTGCCGGTTGTCCGCGACTGGTCCTGGATCTCTAA	MTASAGATLDVVVDRADIVADQVVSLVLRRADGMLFEPWQPGAHIDVHVGDGLVRQYSLCSSPGELDHLRIGVLHVPDSRGGSKAVHALLPGTPLAISAPRNNFPLRESRRYLFIAGGIGITPIIPMLEAADAAGKEWTLVYGGRSRKTMAFAQQLEDRYGVDRVRIVAEDEVGRLDLDQVLGMPRAHMLVYACGPGGLLGAVEERCMGWPPGALHTERFVASTLGAAAANAPFEVELARTGTTVTVTNDKTILEAVEEVGVRVLSSCRGGLCGTCETQIISGEPEHRDAVLTEEDREAGEIMLVCVSRAAAGCPRLVLDL	PGPT0005495_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005495-vanB-K03863	NA	NA
D1-17_02199	843	xynR_2	COG1414	HTH-type transcriptional regulator XynR	ATGGCTAACGCTGCCCCGGGCGGCAGGACCGCCAGCCGTCCCGCCTCGACAACCCGGCCCAGGCACTTCCAAGCTGCCGACGGCGGTGCTGCCGCCCAGCAGGCGGTGAGTGTCACGTCCCGCGCACTGGCCCTGCTCGGGACCTTCGACGCTGAGCACTCAGTCCAAAGCCTCAGTGCCATGGCGCGCCGTGCCGGCCTGCCGGTGACCACCGCGCACCGGCTGGCAGGCGAACTGGTGGCGTGGGGAGGACTGGAGAAGGCCAATGACGGGTACCGCGTGGGGCAGCGGATCTGGCGCCTTGGCCTGCTGGCCCCTGCGCAGCAGAACATCGCCGAGGTGGCCGCACCCTTCATGCAGGATGTCCTTTTCGTGACGCACAACGTGGTGAACCTGTTCATCCTCGATGGGGAGGAGGTCCTGCTGGTGGAACGGATGTCCGGCACTGGAGCAGGCCAGCCTTTCCGGCGCGTGGGCGCACGCCTGCCGCTCCATGCAAGCGCCGCGGGCAAAATCATGCTGGCTTATGGGGCCAAGGACTTGTTGGTTGCCGCGGCGCAGCGTCTGGACCCGCACACGCCGCAGACCATCACCAGCCCCGCTGCGCTCGCTGCCGAAGTCGAGCGGGTGCGGGCCAACGGTTACGCCACCACTGAGGAGGAGGCGGGGCCGGACAACTATGGCCTGGCCGTCCCCGTGTTCCTGCCCAACAAACAACTGGTGGCGGCGCTGGGCATTGTCACCCGGAGCCGTCCCGCCCCGGTCGGCAGCGTGGTTCCCGTGCTCAACATTGCGGCCCGGGGCATTGCCCGGAGGCTGGGTGTGGAGCATCTGCCGCAGTAA	MANAAPGGRTASRPASTTRPRHFQAADGGAAAQQAVSVTSRALALLGTFDAEHSVQSLSAMARRAGLPVTTAHRLAGELVAWGGLEKANDGYRVGQRIWRLGLLAPAQQNIAEVAAPFMQDVLFVTHNVVNLFILDGEEVLLVERMSGTGAGQPFRRVGARLPLHASAAGKIMLAYGAKDLLVAAAQRLDPHTPQTITSPAALAAEVERVRANGYATTEEEAGPDNYGLAVPVFLPNKQLVAALGIVTRSRPAPVGSVVPVLNIAARGIARRLGVEHLPQ				NA	NA	NA	NA	NA
D1-17_02200	801	calA		Coniferyl-alcohol dehydrogenase	ATGTCCCAAGAACAGCTATCCATCGTCCTCACGGGGGTTTCCTCCGGCATCGGCGCCCGGACGGCGCAGATTCTGTCCGCCCGCGGGGTGCCGCTGATCGGCATCGACCGCAACCCGCCTACGGGCTTCAGCGGCAGCTTCTTGCAGGCTGACCTTTCCAGCCAAGCGGGCGTCGACGCCGCCGCCGCTGCAGTCTCCACCGCAGCACCGCACGGCATCGCCGGCCTGGCCAACATCGCAGGAGTCCCCGGTACCGCCCCTTGGCGCACGGTCCTGTCAGTCAACGTCTTCGGCGTCCGCGGGCTGGTCCGAGCGCTTGCCCCGCTCCTCGGTGAGGGAACCGCGGTGGTAAACCTCGCTTCCAGCGTTGCTGTCGACTGGCGCGAGGTGAAAGGCAAGTGTGCCGCGTTTGCGTTGGCTGGGGATCAGGAGATTGCGCTGGACTCGGTTTCCGGTGACGGCAACATCACAGGGGAGTCCTACCTTTTCTCCAAGCAGTGCGTCCGCTTCCTTACCGAGCACCTGGCTGCCGAACTGTTGCCGCAGCGCATCCGGGTCAACAGCGTGAGCCCCGGGCCCGTTGCCACGCCGATCCTTGAGGACTTTAAGCAGGACCACGGGCGGGACAAGGTGGAGGGGGCAGCCGCCCTGCTGGGCCGCTTCGGGGAGCCCGACGACGTCGCCTCCGTCATCGACTTCCTGCTCCGCCCCGAGTCGGGCTGGGTGAACGGCTCGGACATCCGCGTGGACGGCGGCCTGGGTGCCTACCGGGGTTCAAACCTCGCCGCCGCCGCTAACTGA	MSQEQLSIVLTGVSSGIGARTAQILSARGVPLIGIDRNPPTGFSGSFLQADLSSQAGVDAAAAAVSTAAPHGIAGLANIAGVPGTAPWRTVLSVNVFGVRGLVRALAPLLGEGTAVVNLASSVAVDWREVKGKCAAFALAGDQEIALDSVSGDGNITGESYLFSKQCVRFLTEHLAAELLPQRIRVNSVSPGPVATPILEDFKQDHGRDKVEGAAALLGRFGEPDDVASVIDFLLRPESGWVNGSDIRVDGGLGAYRGSNLAAAAN				NA	NA	NA	NA	NA
D1-17_02201	1380	gabD	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGACGGCAGCCCATTACCAGGTCTTGGACCCGGCCACGCTTGAGCTCGTGGGATACGCCCGGGAAAACACCGGGGACGACGTTGAGCAGGCCGTTGCGGCCGCCCGCCTGGCTGCACCGCGCTGGGCAGCCGACCGTGATGCCCGCCGCGCCGCCCTGCGTGCCGGCGCCGCCCTGATCCGCCGCGACCTGGATTCCCTGGCCACCCTGCTCTCCCGTGAGCAGGGCAAGCCCAAGACGGAGGCTGCGGGTGAGTTCACCGTGGCAGCAGGACTTTTTGACTACTACGCGGACCTGGGATGGGATGAAACCGAGCCCCTTACTCCACGGGCCGACAGGACCCTTGAAGTCCAGTACCGGCCGGTGGGCATCGTTGGCACCATCACGCCGTGGAATTTCCCCATCTCCCTGCTCTGCGTGAAACTTGCCCCTGCGCTGGTTGCCGGCTGCACCGTGATCGCGAAGCCCTCCCCGTCCACGCCGCTGTCCACCATCGCACTGGTCAACCTGCTCAATGAAGTCCTGCCCGCAGGGGTGCTGCAGGTACGGACCAGTTCACGACGGACGGTCAATGTTGCGCTCAGCACCTCGCCTGGCATCCGAAAAATCTCTTTTACCGGCTCCACCGAGGTGGGCATCTCCATGGCCCAGCAGGCCGCCCCCACCGTCAAGCGCGTCACCATGGAACTCGGCGGAAACGATCCTGCCATCGTGCTCGATGACGCCGACGTCGCCGTGACTGCCCGCGGAATTGTGGGCAGCGCGTTCCGCAACGCCGGCCAGGTGTGCATGGCAGTCAAGCGTGTATATGTTCCCCGCAGCCGCAGCAGGGAACTGGCCGAGGCTATAGCCGCCGAGGCTTCCCGCCACGTGCTGGGCCACGGCATTGCGGACGGGACCACCATGGGGCCAATGCACAACGAGTCCCAGCTCAAACTCGTCCACGGTCTGGTCGATTCCGCGGTGGGTTCAGGAGCCCGCATCATCACCGGCGGCAGCCCCGGCTGCGACCTGCCCGGCTACTTCCTCTCCCCCACAGTAGTGATTGACGCTGAGCCGGGCATGGACCTGGTGGAACAGGAACAGTTCGGGGCCGCCCTGCCGATTGTGGCCTATGACAATCTCGAACAGACAATCAACGCGCTCAACGCCGGTGACTTCGGCCTGGGCGCCTCCGTGTGGAGCCCGGACCAGGAGCGCGCCTACGCCACTGCCTCCCGGATTGAAGCGGGAACAGTCTGGGTCAACCAGCATACGCTCGTGGAGCCCGATGCTCCGTTCGGGGGCTGGAAGGCATCGGGCATCGGCCGCGAGCGCGGCCGATGGGGCCTGGAGGAATACCTGGAAACCCGCGTCATCAATGCCCGCCCCCACTCCTGA	MTAAHYQVLDPATLELVGYARENTGDDVEQAVAAARLAAPRWAADRDARRAALRAGAALIRRDLDSLATLLSREQGKPKTEAAGEFTVAAGLFDYYADLGWDETEPLTPRADRTLEVQYRPVGIVGTITPWNFPISLLCVKLAPALVAGCTVIAKPSPSTPLSTIALVNLLNEVLPAGVLQVRTSSRRTVNVALSTSPGIRKISFTGSTEVGISMAQQAAPTVKRVTMELGGNDPAIVLDDADVAVTARGIVGSAFRNAGQVCMAVKRVYVPRSRSRELAEAIAAEASRHVLGHGIADGTTMGPMHNESQLKLVHGLVDSAVGSGARIITGGSPGCDLPGYFLSPTVVIDAEPGMDLVEQEQFGAALPIVAYDNLEQTINALNAGDFGLGASVWSPDQERAYATASRIEAGTVWVNQHTLVEPDAPFGGWKASGIGRERGRWGLEEYLETRVINARPHS	PGPT0001580_3883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-17_02202	927	rbn_3		Ribonuclease BN	GTGAGCGTCGAACTGATTACCCTTGGCACAGCCGCCGGGCCGGCCATCCGCGGACCGGAAAACGGCATCTCCAGCGCACTGGTAGTAGGCGACGCCTTCTACATGGTGGATTTTGGCATGGGCTGCTCGCGGGCTGCCCATGAGGCCGGGCTTCGCGGCAAGGATCTCGTGGCGGGCTTTGTCACCCACCTGCACTCGGACCACGTGGTGGAACTGCCCGGCTTCCTGCTGTGGAACTGGGGCAACCCCGTAGAGGGCTTCACCGGCCCTGTTTCGATTGTGGGCCCGGGCAAGGACGACACCCGCACAGGTGGTGCCGGGCTCTCCGGCACCCGCGGGCTGGTATCCCATTCCCTTCAGGCCTTCTCCTACGACATCGACATCCGCGTCCACGATGAAGCCCGCCCGGACCTGGCGTCCCTTGTGCGCGCCGTGGACCTCAAAACCCCCACACATGGAGGCCCGGACGCGGCCCGCCCCTTTGACGTCTACGAGGATGACAGGGTCAAGGTCACCGGCATCCTCGTCGAACACCCTCCGGTGCGCCCCGCACTGGCATTCCGCTTCGACACCGATGCAGGCTCCGTTGTTTTCTCCGGCGACACCGCGGAATGTGAGGCGATGGCCGTGCTCGCCAGCGGCGCAGACGTCCTGGTGCATGAGGCAGTGAACCTGGACTTCTATGCCGGCAAGGGCTTCGCACTGGAATTCCTTAACCACCAGCAGATTGCACACACCCCGCCAGAGGGGGCAGGCCGCGTTGCCGCCGCAGCTGGAGTGGGCCGGCTGGTCCTCTCCCACCTAGCTGGCCGCGCGGAGCCTGAATGGTGGCGCACCCGCGCCGCTTCTACTTTCGACGGCCCTGTGGACGTCGCGGTTAGCGGCCAGCGTTTCCGCATCGGCACCCCTGTGCTGGCGCCCGCCTAG	MSVELITLGTAAGPAIRGPENGISSALVVGDAFYMVDFGMGCSRAAHEAGLRGKDLVAGFVTHLHSDHVVELPGFLLWNWGNPVEGFTGPVSIVGPGKDDTRTGGAGLSGTRGLVSHSLQAFSYDIDIRVHDEARPDLASLVRAVDLKTPTHGGPDAARPFDVYEDDRVKVTGILVEHPPVRPALAFRFDTDAGSVVFSGDTAECEAMAVLASGADVLVHEAVNLDFYAGKGFALEFLNHQQIAHTPPEGAGRVAAAAGVGRLVLSHLAGRAEPEWWRTRAASTFDGPVDVAVSGQRFRIGTPVLAPA				NA	NA	NA	NA	NA
D1-17_02203	1287			hypothetical protein	TTGGAACTGACGTCGCCCGCAACAGCAATAAATGATAAAAGGACGACTGCGGACGGGGCCTGGCTGGCCGTCCTCGCGGCGGGCATCGCGGCAGCCATGCATATCTGGAAGCTGCCTGCTGCTCTGGCCGGGATCCAGGTGGATCTGGGCATTACCCTGGTTCAGGCCGGCCTGCTGCTCGGCATCATCCAGCTGGCCAGCGTAGTCGGTGGGCTGGCCACTGCCGTTGGCGGGGAACTGGCAGGCCTCCGCCGGCTCCTGATCGCCGGGCTGATCCTGCTGAGCGCAGCATCCTTGCTCGGCGCCGCCGCGCCCACCACTGAGTTGCTGATGGCAGCACGGACGCTGGAGGGCGTCGGATTCCTGCTGTCCGTCGTCGTCGCCCCTGCGCTCATCCGCAAGGTGACCCCGGCTCAGCGGCTAAATGTAGCGCTGGCAAGCTGGGGCGCGTTCCAAGGCGTGGCCACACTGATCGGACTCGCCGCCGGTGCCCTGTTCCTGCAGGCCGCAGGCTGGCGCGAGTGGTGGCTGGTGATGGCTGTCCTCACGCTGTTACCTGTGCCGCTGCTGCTTCGCCGGGTACCGAGGGACGTGCCTCCGGCCGACGCCGGGCTCAGGTCCGCCCTCCGCCGCGTCGGACGCACCGTCGCCACGCGTCCACCCTGGATTATCGGACTAGTCTTCGCCTGTTACACCGCCCAGTGGATGGCAGTGCTCGGGTTCCTGCCCTCCATTTACCGCTCGGCGGGCCTGGAAGGGTCCCTGCCCGGCATCCTCAGCGCCGCCGTCGGCGGAGTCAATGCGATCGGGGCGCTGAGCGCCGGACCGCTCATCCAGCGCGGGCTGTCCGAGCGGAAGATTATCTTCTGGACTTTTCTGGCCATGTCAGCGGCGTCCATGGGAACGTTTGCCGTGGGCTGGGAAAACATCGATAACGGCATCCTCTTCCAGTTCGTCCTCATCGCCGTATTCTCCGCCGTCGGCGGTCTCATCCCTGCCTCGGTGACCAGCTACTCTGTGCGGATTGCCCCCGAGGATGGTTCCGTCACCGCCGTGCTGGGGTTGACGCAGCAGATCTTCAACCTCGGGAACTTCCTGGGGCCCATGCTGTTCGCCCTGCTGGCCACTACCACTGGTGGCTGGGACACTGCCTGGTGGCTGACATGCGGATTGAGCATTCTGGGAATGACCCTGCTAGCGCTCCTGGCCCGCGCAAACGGCGGGGCGGCAAGAGGTGGGCGCCGCAGCGGAAAGTCGCTTTCCGTCCAACGGAAAGCTCGAATGTAA	MELTSPATAINDKRTTADGAWLAVLAAGIAAAMHIWKLPAALAGIQVDLGITLVQAGLLLGIIQLASVVGGLATAVGGELAGLRRLLIAGLILLSAASLLGAAAPTTELLMAARTLEGVGFLLSVVVAPALIRKVTPAQRLNVALASWGAFQGVATLIGLAAGALFLQAAGWREWWLVMAVLTLLPVPLLLRRVPRDVPPADAGLRSALRRVGRTVATRPPWIIGLVFACYTAQWMAVLGFLPSIYRSAGLEGSLPGILSAAVGGVNAIGALSAGPLIQRGLSERKIIFWTFLAMSAASMGTFAVGWENIDNGILFQFVLIAVFSAVGGLIPASVTSYSVRIAPEDGSVTAVLGLTQQIFNLGNFLGPMLFALLATTTGGWDTAWWLTCGLSILGMTLLALLARANGGAARGGRRSGKSLSVQRKARM	PGPT0028991_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028991-ydhP-K19577	NA	NA
D1-17_02204	1440	sauU_2		putative sulfoacetate transporter SauU	GTGTCTGAAACTCCCCTTACCGGCCGCACGCCGGACACCGCGGCTTCCCGCGATCCCCGGAACTGGTCCCGCGCCAAGCGCAACCGCTATGGCTGGTTCATGACGTTCAGCCTCCTCTTCCTGATGATGCTCAGCTGGGCGGACAAAGCAGTCCTCGGCATCGCCGCCGTGCCCATCATGAAAGAACTGGGCATCACCCCCGAGCAGTTCGGCCTGGTGGGCAGCGCCATGTTCCTCACATTCGGGATCGCCCAGATCGTCGCCGCACCCATCGCCAACAAGGTATCGAGCAAGTGGATCCTGTTGGTCCTGTGCCTGCTGTGGTCCGTGGCCCAGGTACCCATCCTGCTGTTCGCCTCTCTGCCTGCCCTCTGGGCCAGCCGCCTACTCCTGGGTGCCGGCGAGGGTCCACTGGCTCCGGTGCTGATGCACGGCATTTACAAGTGGTTCCCGGAGAAGAAGGGCGCTACCCCGGCAGCTCTTGCCTCATCCGGCGTGACCTTGGGCATTGTGGCCTTCGCACCGGTCCTGGCCTGGGTCATCGGGCAGTTCGGCTGGCAGACGGCCTTTGCACTGCTGGCCATCGTGGGACTGGTTTGGTCTGTTTTCTGGGTCATCGTAGGCAAGGAAGGCCCGTACACCAGCCGGAAAGCCGAACAGGAAATCGACGGCATCGCAGCGGAAGAAACTCCCGTCGCAGCAGAGACCAAAATCCGCTACTGGCGCACCATCCTCTCCCCCAGCTGGATCTTCGCGGTCCTGGCATCCTTCTTTGGCTACTGGACCTTCACCCTGGCCATGTCCTGGGGACCGGCGTACTTTCAGAACGTCCTGGGCTTCAGCGGACAGCAATCCGGTGCCATGATCGCGCTGCCCGCGGCATGGGGAGCGATCGCCACGGTGGGCCTCAGCGCCCTGACCCAGCGCCTGCACATAAAAGGCGTTCCCACCCGGAAGGCCCGCGGTTGGGTACTCAGCATCTCCGCGGCCTTCGCGGGAGCCTGTCTTGTGGCCGCAACCCTGACCACCTCACCCGTCCTCTCCGTCATCCTCATGGTCTTCGGCTTCGGAACGGCACCTGCACTCTTCGCCATCACCTACCTGGTCGTCGCTGAACTGACCACCATCGCCCAGCGCGGGGCAAACCTCTCCATCGCAAACGCGGTCCTGACCACCGGCGGCGTATTCGCACCCGCGGTGTCGGGATTCCTGATCGGCGGTGCGGCCACCCCGGCTGAAGGTTACCGGGCAGCGTTCACCCTGGCCGGCGGCCTCCTGCTGGTCTTCGGAATCCTGGCCCTGCTTTTCATCAACCAGCAGCGTGACCGACGCAGGCTTGGCCTGGAGGTAGCCGGTGATGGGGCTCCCGCGGCGTCCACTCTTGCTGCTTCCACCACGGCCACTGGCCTGGAAGCCACCCCTGCAAGCACCAAGGCCTAG	MSETPLTGRTPDTAASRDPRNWSRAKRNRYGWFMTFSLLFLMMLSWADKAVLGIAAVPIMKELGITPEQFGLVGSAMFLTFGIAQIVAAPIANKVSSKWILLVLCLLWSVAQVPILLFASLPALWASRLLLGAGEGPLAPVLMHGIYKWFPEKKGATPAALASSGVTLGIVAFAPVLAWVIGQFGWQTAFALLAIVGLVWSVFWVIVGKEGPYTSRKAEQEIDGIAAEETPVAAETKIRYWRTILSPSWIFAVLASFFGYWTFTLAMSWGPAYFQNVLGFSGQQSGAMIALPAAWGAIATVGLSALTQRLHIKGVPTRKARGWVLSISAAFAGACLVAATLTTSPVLSVILMVFGFGTAPALFAITYLVVAELTTIAQRGANLSIANAVLTTGGVFAPAVSGFLIGGAATPAEGYRAAFTLAGGLLLVFGILALLFINQQRDRRRLGLEVAGDGAPAASTLAASTTATGLEATPASTKA	PGPT0002190_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GALACTONATE_TRANSPORT,PGPT0002190-dgoT-K08194	NA	NA
D1-17_02205	1191	praI_2		4-hydroxybenzoate 3-monooxygenase (NAD(P)H)	ATGGCAACACGAAAAGTCATCACCACCCAGGTGGCCATCATGGGCGCCGGCCCCGCCGGGCTGATGCTCTCCCACCTGCTGGCCAAGGCCGGCATCGAGTCCACAGTCATTGAGGTCCGCAGCCACAAGGACATCTCCGAAACCGTCCGGGCCGGCATCCTGGAGCACGGCACCGTGAACCTGCTGGTGGACAGCGGCGCCTCGGACCGTGTCATGCGTGAAGGCGACCGGCATGACGGGATTGAACTGCGGTTCAACGGCGAAAGCCACCGCATTGACTTCAAGGACCTGGTGGGCGAGGCCGTCTGGCTGTACCCACAGACGGACGTGTTCCTGGACCTCGCCGCCCGCAGGAAGGCCGACGGCGGCGACGTCCGCTACAGCGTCACGGACACCAGCGTCCACGACCTCGAAGGTAAACCGAAAGTCTGGTTCACAGACGCCAACGGCGTGGAACTCGAGATCCAGGCCGACTTCCTGGTGGGTGCTGACGGTTCCCGCAGCCACTGCCGGTTCCAGATCCCGGAAGCGCACCGCAAGTGGTACTTCCACGAATACCCCTTCGCGTGGTTCGGGATCCTGGCCGAAGCCCCGCGCAGTTCCGACGAACTGATCTACGCCAACTCCGCCAACGGGTTCGCGCTGATCAGCCAGCGCACCGAGACGGTCCAGCGGATGTACTTCCAGTGCGACCCCAAGGAAAACGCAGCGGAGTGGGACGATGACCGGATTTGGGCCGAGTTCCGCAGCAGGGTCAACGGCAACGGCTTCGAGCTGAAGGAAGGCCCGGTCATCGAAAAGATGGTCCTGCCATTCCGGAGCTTTGTCCACACCCCCATGCGCCACGGCAACCTGTTCCTCGCCGGCGACGCCGCGCATACCGTTCCGCCCACCGGCGCCAAGGGCCTGAACCTCGCCATCCATGACGTCAAAGTCCTCTTCGAAGGACTCGACAGCCACTACAACTCCGGCTCCGACCGCCTGCTCGAGTCCTACAGCGATCGCGCCCTGGAGCGGGTATGGAAGGCGCAGCAGTTCTCCTACTGGATGACCACCATGCTGCACACCCCGGCTGACGCCGACGACTTTTCCCGCGCCCGCCAACTGGGCGAACTCAACTCCGTTGTGTCCTCCCGGCACGGCATGGCCTACCTCGCCGAGGCCTACACCGGCTGGCCGAGCGCCTTGTAA	MATRKVITTQVAIMGAGPAGLMLSHLLAKAGIESTVIEVRSHKDISETVRAGILEHGTVNLLVDSGASDRVMREGDRHDGIELRFNGESHRIDFKDLVGEAVWLYPQTDVFLDLAARRKADGGDVRYSVTDTSVHDLEGKPKVWFTDANGVELEIQADFLVGADGSRSHCRFQIPEAHRKWYFHEYPFAWFGILAEAPRSSDELIYANSANGFALISQRTETVQRMYFQCDPKENAAEWDDDRIWAEFRSRVNGNGFELKEGPVIEKMVLPFRSFVHTPMRHGNLFLAGDAAHTVPPTGAKGLNLAIHDVKVLFEGLDSHYNSGSDRLLESYSDRALERVWKAQQFSYWMTTMLHTPADADDFSRARQLGELNSVVSSRHGMAYLAEAYTGWPSAL	PGPT0005065_348	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005065-pobA-K00481	NA	NA
D1-17_02206	207			hypothetical protein	ATGAAGCCCATCGCCCCCCGCCCGACTACTAAGCCGTGTCGCGAAGCAGCAGCGGTAAAAACTTCCTTGCAATTGGCTGCCGACATCGACGACGTTGTTGCCTCGCCTTGGATTGGACTTCACTACAAGCACGAGTTCCTGCTGCACTACAAGCATGAATCGCTAGAACGGGCAATCAGTATGGCAGACAGCCCGAATCATGGATGA	MKPIAPRPTTKPCREAAAVKTSLQLAADIDDVVASPWIGLHYKHEFLLHYKHESLERAISMADSPNHG				NA	NA	NA	NA	NA
D1-17_02207	702	glaR	COG1802	HTH-type transcriptional repressor GlaR	ATGACAGCCAGCGAGCCCAAGACCCATTCGGAAGGGGTGTACGCATCCCTTCGTACCGAGCTGCTGGGCGGCGCCTTCGTGCCGGGCAGCAAACTCAGGCTCGCAGGCATAGGAACGCGCTACGGCGTGAGCCTTTCGGTTGTCCGTGAAGCCATGACCCGGCTGGCCGGAGAGGGATTGGTGAAGGCGCTGCCGCAACGCGGTTTCTGCGTGCCCCCGCTGTCCGTGGATGATCTGCTGGATCTGACCCGCGCCCGCGTTCTCATCGAAACATCCGTGCTCCGCGAGTCCATCGCCAATGGTGGCCTTGACTGGGAATCCGCCGTGATTGCAACCCACCACACACTTCAACGCACGCCCTACACGACACAGGAAGGCCATCTGGGCGGAGACTGGTCTGCGGCGCACCACGCCTTCCACCGTGCGCTGCTCACAGGAGCAAAAAGCCCCCGCCTTGAATCCATCGCCACGGAACTACGGGACTGTTCCTTGCTTTATCAGCACTGGTCCATAGATATTGCCCACGACCTGGACCGCGACGTCGCTGCCGAGCACAGGAACCTAGCCGAACTCGCCGTCGCCAGGGACGCCGAAGGTGCGGTCAAGGCGTTGAAAGAGCACATCGAACGGACCACCGCCGCCCTTCTGGCCTATGCAGAATCACAAACGGACCCGGGGCGTGCTACCGGCATCTCCGCGTGA	MTASEPKTHSEGVYASLRTELLGGAFVPGSKLRLAGIGTRYGVSLSVVREAMTRLAGEGLVKALPQRGFCVPPLSVDDLLDLTRARVLIETSVLRESIANGGLDWESAVIATHHTLQRTPYTTQEGHLGGDWSAAHHAFHRALLTGAKSPRLESIATELRDCSLLYQHWSIDIAHDLDRDVAAEHRNLAELAVARDAEGAVKALKEHIERTTAALLAYAESQTDPGRATGISA				NA	NA	NA	NA	NA
D1-17_02208	1782	tfdB		2,4-dichlorophenol 6-monooxygenase	ATGACGGATGTACACGTTCCTGTCCTAATCGTTGGCGGCGGCGGCGCAGGCCTCACCGCTTCCATGACCCTGTCGAACCTCGGCATCGAGTCACTTCTCGTAACTGCATTCCCCAATACCTCGATCCTGCCCAAGGCCCACGTGCTGAACCAGCGTACGATGGAGATTTTCACCGAGGTCGGCGTCGCCCCCGAGATCTACAAGCGAAGCACGCCCGCGAAGAACATGAAGGCCACGGGCTGGTACGCGGGGATCACCGGCGATCACGACGGCTATGGCCGTGAATTGGGCCGGCTTGAGGTCTGGGGTGGCGGCTATACCGATCCCGACTACGTCGCCGCGAGCCCCCGCCGTACCTGCAACCTTCCGCAGATCCGCCTTGAACCGGTCCTGCGTGACCACGCCGAGTCTCTGAACCCGGGGAACGTCCGCTTCAACCATGAGCTGACCGGGCTGGTCCAGAACGAGGATGGGGTCGTAGCCACCGTCCATAACAAGGATGACGGGACCGACTTCACGGTCCATGCCCAGTACCTGTTTGCGGCCGACGGCGGCCGGACGGTCGGCAAGATCCTCGGCGTGGGCATGACCGGGCCGCGGGATCTGATGCGTATGGTCACCGTGCACTTCACCGCAGACCTCTCCGCGTACCTTAAGGACGATGAAGTCCTGATCCGGTGGCTGGTGAACCCTGACTTCGGCGGTTCCTGGTCCAGCGGCGTGCTGGTTCCGATGGGTCCGGATAACTGGGGTCCGGCGTCCGAGGAATGGATCGTTCACATGCAGTACGCCACGGACGATCCCGAGGCCATGCAGCGGGAAAAGGTCCTGGAGCGCCTCAAGGGGACCCTGGGCGTCCCGGACTTCGATCCCCAGATCAACAGCATCAGCCAGTGGGTCATGGAAGGTGTCATCTCCGACAAGTTCCGCGAAGGCTCCGTCTTCTTCCTCGGCGATGCCGCCCACCGGCACCCCCCGACAGGCGGCCTGGGCCTGAACTCCGCGGTACACGACGCCTACAACCTGTGCTGGAAGATAGCGTCCGTGCTTCGCGGACAGGCCGGCGATGCGCTGCTGGACACCTACGAGGCTGAGCGCAAGCCGGTGGACCAGAACAACATCAACAACGCCGTGGCCAACGCGATGAACCACTTCGTGATCGACAAGGCACTGAACCTCTTGCCGGAAAACACCCCGGAGCAGAACTGGGCTGAGGTCCGCCCGCTCTGGGAGGACCTGCCCGAATCCCACACCAAGCGGCACGCCCTGAACAAGGCCATCGGTTCGCAGACCATGGAATTCCGCCACCACAACGTGGAGTTCGGCTATACCTATGACTCCACGGCCATCGTCCATGACGGCAGTCCCGAGTACGTCCCGCTTGACCCGGTACGCCTCTACGAACCAAGCACCAAGCCCGGCCACCCGATGCCCCACGCCTTCGTGGAACGCGAAGGCGAGCGGATCCCGCTCGGAACGCTGGTCCATGGCGGCAACTTCCTGCTCATCGCCGGAGAAGACGGCGGCGACTGGGTTGAGGCGGCGAACAAGATCGCCGCCGAACACAGCTTGCCCATCAAGGCCGCCACCGTGGGAGTCCTGGACAGCGACTATGTTGATGTCCGCGCCGCCTGGCTCAAGCACCGTGAAATTTCACCGACCGGCGCGGTGCTGGTCCGCCCGGACCGGTACGTCGCCTTCCGTTCCGTCGAAGCCGCAGAGGATGCCCAGGCGGTCCTGAAGTCCGCACTCAGCCAGGTGCTGGCCACAGAACTGCTCTGA	MTDVHVPVLIVGGGGAGLTASMTLSNLGIESLLVTAFPNTSILPKAHVLNQRTMEIFTEVGVAPEIYKRSTPAKNMKATGWYAGITGDHDGYGRELGRLEVWGGGYTDPDYVAASPRRTCNLPQIRLEPVLRDHAESLNPGNVRFNHELTGLVQNEDGVVATVHNKDDGTDFTVHAQYLFAADGGRTVGKILGVGMTGPRDLMRMVTVHFTADLSAYLKDDEVLIRWLVNPDFGGSWSSGVLVPMGPDNWGPASEEWIVHMQYATDDPEAMQREKVLERLKGTLGVPDFDPQINSISQWVMEGVISDKFREGSVFFLGDAAHRHPPTGGLGLNSAVHDAYNLCWKIASVLRGQAGDALLDTYEAERKPVDQNNINNAVANAMNHFVIDKALNLLPENTPEQNWAEVRPLWEDLPESHTKRHALNKAIGSQTMEFRHHNVEFGYTYDSTAIVHDGSPEYVPLDPVRLYEPSTKPGHPMPHAFVEREGERIPLGTLVHGGNFLLIAGEDGGDWVEAANKIAAEHSLPIKAATVGVLDSDYVDVRAAWLKHREISPTGAVLVRPDRYVAFRSVEAAEDAQAVLKSALSQVLATELL	PGPT0006950_24	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLORPHENOL_DERIVATE_DEGRADATION,PGPT0006950-tfdB-K10676	NA	NA
D1-17_02209	858			hypothetical protein	TTGCGTATCGCAAACCATGACAACCGGGCTGTCCTGCTGACCTCTGATGAGGGCGGTATTGACATCCATACAGCCAGCGACGGCCGTTTCGGGCCGGACCTGTCCCCGGTCTACAACGACTGGGAGGCCTTCACTGCCTGGGCACAGGCACTGTCCGGTTCCGACACGGACGTGGCCATCGACCGCTCCCGGCTCGGGTCCCCGTCCCCGGCGCCGCGCCAGATCTTCGCCATTGGCCTGAACTACAGCGAACACGCCAAAGAGTCGGGGTTCGAAGAACCGGACCAGCTTCCCCCCGTCTTCACCAAGTTCGTCAGCGCCCTCACCGGCCCCGACACCACAGTGGTCCTGCCCGAGGGCGGAAACACGGACTGGGAAGTCGAACTGGTGGCCGTCATCGGCAAGGAAGCCTCGAACGTTTCCGCGGCCGATGCCTGGGGGTACGTGGCCGGCCTTTCGATCGGGCAAGACATCTCCGAACGCGTGTCCCAGCTCCGGGGTCCGGCCCCTCAGTTCGGGCTCGGCAAGTCCTTCCCCGGTTTCGCCCCGGTGGGTCCCTGGCTGGTCACCCCCGATGAGTTCTCGAATCCGGACGATCTGGAACTCGGCTGCAGCCTCGATGGTGAAGAACTGCAGAAGGGCCGCACCAGCGAACTGATTTTCTCCATTCCGGCCCTGATCCAGGGCCTGTCCGAGACGGTGACACTCCTGCCAGGTGACCTCATCTTCACCGGCACGCCCGCCGGCGTCGGCGTGGGCCGCACACCCCAGCGGTTCATCCAGCCCGGCCAGACCCTGGTCTCGCACATTGAGGGCATCGGCGAAATCACGCAGACCTTCGTCGCTGCCGGCAAGTGA	MRIANHDNRAVLLTSDEGGIDIHTASDGRFGPDLSPVYNDWEAFTAWAQALSGSDTDVAIDRSRLGSPSPAPRQIFAIGLNYSEHAKESGFEEPDQLPPVFTKFVSALTGPDTTVVLPEGGNTDWEVELVAVIGKEASNVSAADAWGYVAGLSIGQDISERVSQLRGPAPQFGLGKSFPGFAPVGPWLVTPDEFSNPDDLELGCSLDGEELQKGRTSELIFSIPALIQGLSETVTLLPGDLIFTGTPAGVGVGRTPQRFIQPGQTLVSHIEGIGEITQTFVAAGK	PGPT0001745_435	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
D1-17_02210	927			hypothetical protein	ATGTCTTTGCACCGTCTGACCCGAGTGGTGATGGGCGTGCCCAACGTCGCAGAAACCGCCGCCTACTACGAGGAGTTCGGCCTGGAGCCGCTGGGCGACAATTCGTTTGGAACGCGCGACGGCGGCGAGCAGCTTAAGGTGGTTTACGCACCGACGCGGCGCCTTGTTGAGCTCGGCGTTGGGGCCGACGACGACGACGACATCGCCAAAGTAACCACCCAGATGAGCCGCCTCGGCATTCCAATTTTCCACAACGGCTCCGAACTCCTCGCCCAGGAACCGATCTCCGGTTTTACCGCGCGAATCCACGTCGCACCGCGCATCGCGCAGGAGAAGACTCCGGCGACCCCGTACAACGGCCCAGGCCGGACTGACCGCGCAGGCCGGGCACCCGGCGTCGTGCGCGAAACCCGCATCAAGCCCCGCAAGCTCGGCCACACGGTCATCGGCACTGTTGACCTCGCCGCGACCATGCGGTTCTTCACCGAAGGCATTGGCTTCAAAGTCAGCGACTACATCAGCTACAAAGGCGCGTTCATGCGCTGCTCCCTAGACCACCACAATGTCCTCGCCCTCGCCGCCCCCGTGAACTTCCTCCACCACACCTCCTGGCAGGTCGATGACATCGACGACGTAGGGCGCGGCGCCAAAGCCATGCTCGAGAACAACCCCGAACGCCACATCTGGGGTCTCGGCCGACACCACGCCGGCTCCAACTTCTTCTGGTACCTCAAAGACCCCGCCGGCAACTTCTCCGAGTACTACTCCGACATGGATTGCATCCCGGAAGACGAACTCTGGACACCGGAAACCTTCGAAGGCGCACAGGGCCTATTCAGCTGGGGACCGCCACCACCGCCCTCCTTCTTGGAACCGGATGATCTTGCTGCCCTCATGACAGGAACCCACGCACCCGCCTCGGCATAA	MSLHRLTRVVMGVPNVAETAAYYEEFGLEPLGDNSFGTRDGGEQLKVVYAPTRRLVELGVGADDDDDIAKVTTQMSRLGIPIFHNGSELLAQEPISGFTARIHVAPRIAQEKTPATPYNGPGRTDRAGRAPGVVRETRIKPRKLGHTVIGTVDLAATMRFFTEGIGFKVSDYISYKGAFMRCSLDHHNVLALAAPVNFLHHTSWQVDDIDDVGRGAKAMLENNPERHIWGLGRHHAGSNFFWYLKDPAGNFSEYYSDMDCIPEDELWTPETFEGAQGLFSWGPPPPPSFLEPDDLAALMTGTHAPASA				NA	NA	NA	NA	NA
D1-17_02211	150			hypothetical protein	ATGCGCTTTGGCCCAGGCAGCCGAACAACACGGATCCAGGAGATACGGGAGCAAGACGCCGCATCGGACCGTACGGAAGACGAGGCTTGCTTTGGGGAGCTGATTTGTTTCCCTTGGGCCGGACTCCAGTACACCATCGAGCAGGGCTAG	MRFGPGSRTTRIQEIREQDAASDRTEDEACFGELICFPWAGLQYTIEQG				NA	NA	NA	NA	NA
D1-17_02212	1194	rbn_4		Ribonuclease BN	ATGTGCGACGTGTTGAGCAAACTGGAATCGTCCGGAGTCTCCAGACGGAATATCCTTGCCAGCTTCGGGCTCGGCGCTGCGGCTGTCACTCTGACAGCGTGCGCCGACAACAGCCCCGGAAAATCATCAGTCTCCCGATCCTTCGGCCCGGCGCCCGCTGAAGGGCATCGCACCCGTTTGGTTCTTCTCGGCACTTCAGGGGGTCCTCCATACTGGCCAGGGGGTACGCGCGAAGGTATCTCCTCCGCCCTGGTAGTTGGCGACCGCTATTACCTGATCGACGCCGGACACGGAGTGATGGGGCAGTTACGTAAGGCCAAGCTTGGTCCTAACTACGAGAAGGATCTGGACGGACCGCTCGACGTGCTGGCCGGAATATTTCTGACGCATCTCCATTCCGACCACGTTGTCGACCTGAACAACATACTCAGCGAGGGCATCTTCAACGGACTTCAGTCCGTCAGGAAGATACCGATTTGGGGACCTGGAAACCGCGGACAAGTGCCCGTCTTGTTCGGCCCTGGAGATCCGCCCGCCCCCGTCAGTCCAAGGAACCCAACCCCCGGCACTCAGGAGATGACCGATCTCATCGTTCAGGCGTTCGCCACGGACTTCAACGACCGGCTTTTCGACAACCGAAAGCCCCATCCCGATGACCTGTGGGAAGCTTTCGATGTGCCGGTTCCGTCCGAATTCACGAAAAGACCAAATACCGATCCTTGCCCGGATATGAGCCCTTTCAGTTTCTATGAAGACGACTACGTTCGCGTCTCAGCAACGTTGGTGAACCACGCCCCTGTTTTCCCTGCCTTGGCTTACCGCTTTGACACGGACGACGGCTCGGTGGTCTTTTCCGGGGACACGGGAAAAACCCCCAACCTCATCAGGTTGGCCAAAGGTGCAGATGTCTTGGTTCACGAAGTGATCGACAAGACATGGCCGCAATCGCTCTTTTCAGAGCCTCGGACTGAAGCTCAGGAGGGGCTGTATCAGCACCTGATCAATGCACACACACTCATCGAGGACGTCGGAACCGTGGCCCAAGAAGCCGGCGTCAAATCGCTCGTCCTTTCGCATTTGGTCCCGGGCAATAGACCCGACAACGTCTGGGAGGCCTGTGGCAAAGGTTTTGACGGGCAACTAATCATCGGGCACGATCTCGACGTCATCGGTGTGGGATCCGCTAAGCGATAA	MCDVLSKLESSGVSRRNILASFGLGAAAVTLTACADNSPGKSSVSRSFGPAPAEGHRTRLVLLGTSGGPPYWPGGTREGISSALVVGDRYYLIDAGHGVMGQLRKAKLGPNYEKDLDGPLDVLAGIFLTHLHSDHVVDLNNILSEGIFNGLQSVRKIPIWGPGNRGQVPVLFGPGDPPAPVSPRNPTPGTQEMTDLIVQAFATDFNDRLFDNRKPHPDDLWEAFDVPVPSEFTKRPNTDPCPDMSPFSFYEDDYVRVSATLVNHAPVFPALAYRFDTDDGSVVFSGDTGKTPNLIRLAKGADVLVHEVIDKTWPQSLFSEPRTEAQEGLYQHLINAHTLIEDVGTVAQEAGVKSLVLSHLVPGNRPDNVWEACGKGFDGQLIIGHDLDVIGVGSAKR				NA	NA	NA	NA	NA
D1-17_02213	1590	nfdA_1		N-substituted formamide deformylase	ATGAGGACCGCATACGTAAACGGACGATTTTACACAGTGACAGCTCAGACACCGTGGGCGGATGCCCTGGTGGTGGAAGACGGCAGGATAACGGCAGTTGGATCAGAGCAGGACATACGCGCCGCCGCGGGGCACGACGTGCACTTCGTGGATCTGGGTGGACGCATGGTGATGCCTGGCATCCATGACGCCCACATCCACCTGCTCTTCAGCGGTTTGAAATTCAAATTCGAACCCCGACTTCGCCCCGGGGCGGACAGCCGGCAGATAGTCGAGGACCTGAAGAACTGCCCTTGTTCCGGCCCCAGAGATATGGAAGGCAACGAATGGATCATAGGAGGCGAATTCTTCCCGCCTGCGCTCGACGCGGATGGCGTCAACAAGGAATTCCTCGACGAGGCTTTCCCGGACAAGCCCGTCTTTCTCTACGACTATTCCATTCACCACGGGCTGGCCAACAGCCGCGCCCTCGAATTGGCAGGAGTGCGCGACGACGTCCAGGATCCGGCCGGAGGCCGATTCATCCGCTACTCATCCACGGGACAGCTAACCGGCGAAATGGTGGAGCAGGCACGATGGCCGGTAATGCGGTCCATCCCCGAGTACCCGGAGCGCACCGGATCAGAAGCCGTGGCCTGGGCAGCTTCAATCTGCCACAAGTACGGCATCACTTCTGTTCAGGAAGCCTCAGCCAACCCCCAGGCACTTCAGGCGTTTAGGACCCTCGATCAGAACGACGCCCTGAAACTGCACGTGGCCGCCCACCTGATCTGGCGGGAAGAGGGCTTCGGAGGGACCAGCTCAGCTGAACTCGACAGGTTAATCGAGAACCGCGAAGCGTGGCGAAGCGAGCACGTCGACACCGGATTCATCAAGATATGGCTCGACGGAGCCCCGCTTCCGCCCCACGTGACAGAAGCAGGCCTGAACGAAAACAATGAGGTCGACACCTCCAAGATACTCATCCCGGAAGGGGAGCTGTTCCATGCTCTCCTGAAGTTCGACGCAGCCGGGCAAAGAGTAAAAATCCATTGCGCCGGAGAGGGCGCAGTCCGAGTCGCCCTGGACGCTATCGCCCGCGTGCGCGAGCTTAACGGCCAAAGCGGGCCATCGCATGAAATCGCACACGCAGGTTTCATCAGCGAACAAGACTACGGGCGGCTAGCCAGGCTCAACGTAACAGCCGAGATGTCACCGGCACTTTGGCACATCCCCGAGTTCGGCCTACAGGACGGATTCCGGTTCAAGACCATACTGAGCCACGGAGCGGAAATGACAGTGGGATCCGACTGGATCATCATGGACAACCCCAACCTTTTCCCCGGCCTGCAGGGAATGCTGCAGCACGGCGATCAAGCAATTGACCTGGCAACTGCCATCAAGGCTATGACCATTTCGGGGGCTCGCGCAGTTGGCCGTGACAGCGAACAAGGAACCCTGGAACCAGGCAAGTCAGCTGACTTCATTGTGCTGGACCGAAACCTCTTCGAGGTTCCCGTGAATGAAATTGGCACGACAAAGGTGCTGCGCACGGTTTTCGAAGGCGAAACTGTCTACGAGGACAAGACGTCAGAGCAGCCCGAAGGATAG	MRTAYVNGRFYTVTAQTPWADALVVEDGRITAVGSEQDIRAAAGHDVHFVDLGGRMVMPGIHDAHIHLLFSGLKFKFEPRLRPGADSRQIVEDLKNCPCSGPRDMEGNEWIIGGEFFPPALDADGVNKEFLDEAFPDKPVFLYDYSIHHGLANSRALELAGVRDDVQDPAGGRFIRYSSTGQLTGEMVEQARWPVMRSIPEYPERTGSEAVAWAASICHKYGITSVQEASANPQALQAFRTLDQNDALKLHVAAHLIWREEGFGGTSSAELDRLIENREAWRSEHVDTGFIKIWLDGAPLPPHVTEAGLNENNEVDTSKILIPEGELFHALLKFDAAGQRVKIHCAGEGAVRVALDAIARVRELNGQSGPSHEIAHAGFISEQDYGRLARLNVTAEMSPALWHIPEFGLQDGFRFKTILSHGAEMTVGSDWIIMDNPNLFPGLQGMLQHGDQAIDLATAIKAMTISGARAVGRDSEQGTLEPGKSADFIVLDRNLFEVPVNEIGTTKVLRTVFEGETVYEDKTSEQPEG				NA	NA	NA	NA	NA
D1-17_02214	423			hypothetical protein	ATGACCAGCAAAAACACTGCAATCGACATCACATCAAGCCTCTATAGGGCCTACAACAACCGGAACCTCGACGATTGGCTGTCCCATTTCTCGGCAGCCGCCGTCTGGTTGAACGTACCGACTCAAGAACGGTACCTGGGGCTCGAAGGTCAAAAAAAGAACTACGCAGCCTGGAACACACCGTTTCCTCATGGCCTTTGCGAAGACATCGTCATCCGTGGCGGCGACAACTTTTCCGTTGCGGAATTCAACGGCGTCGGAGTTCATGAAGGCCCACTGGCGACACCCTCCGGTGAAATAGCGCCCACCTTGAAATCCACTTCCGTTCCGTTCTGCGATGTCCACACCATCGTTGATGGCAAGGTGGCAGAAACTCATCGCTACTGGGATCTGGAAGACGCAGCCAGGCAGCTGGGACTTTAG	MTSKNTAIDITSSLYRAYNNRNLDDWLSHFSAAAVWLNVPTQERYLGLEGQKKNYAAWNTPFPHGLCEDIVIRGGDNFSVAEFNGVGVHEGPLATPSGEIAPTLKSTSVPFCDVHTIVDGKVAETHRYWDLEDAARQLGL				NA	NA	NA	NA	NA
D1-17_02215	1218			hypothetical protein	ATGCCCGAAACCAATCTGACGACGCCCCCTCCGTCAAGCGATAATCCGAATTCAAGAGGACGAATCGCTCTCATCGTTTTCTTCTCGTCGATCATCTCGACGGTTCTGCTTATGGCTCCTGCCGTAGCGGGACAGTTGCAGATTCAAATGCGGCTGGGCCCCACACAAACCGGTGACCTTTTCGCGGTCGAGCTGGGCGCCATGAGCATAGCCTCACTACCTGCGCTGTACTGGATAAAAAAGCTCAACCTGCGGATGACCTCACTGAGCTTCGGACTTGTGTTCATCGCGGGAAACATCGTTTCCGGCCATGTGACTACCTATGAACATCTAGTGGTCGTGCGGGGCTTGACCTCGCTGGCCGGTGGCTCACTTATGGTGCTGGCTATGACCCTGGCCGCACGTACCACCAACCGCGACCGCGTCTTCGGCATGTGGACAGCTGGTCAAATTGCTTTCGGGGCCATCGGATTGGCAGTCTTCCCCCGGTTCTTCGATAGTTTTGGCGTCGCCGTCGTTTACTGGACCTTGGCTGTCCTCATGATCCTGGCGCTCCCCCTGTTGCGGTTTCTCCCCTCACACGCGTTGACGCCGTTGAAGGCGCAGGGAGGCCACGCACCCAGGCTGAATCTGCACAAGACTCTGATGGGCCTTACCGCATTGCTCGTGTTCTATATAGGCCTTAGCGCGGTCTGGACATTCCTGGGAGGCATTGCAGAAACTGCCCACATCGATCCGCAGACTTTGGGGATGATCCTTTCCATTGCCACGATGGTAGGCGTCGTCGGCTCGATCGCTGCAACGTTAACGGGCGGAAGAGTCAGCCGCAGAGTTCTGCTGGCTGGAGGGCACTTGGGGATGCTGCTCGCCGTTGCACTTCTGTTTGGAGTCCCGTCCGTGCTTCAGCTCAGTGCAGCAGCAATCATCTTCAAGTTCGCCTGGCCATGGACACTGCCGTTTCTGCTGTCGACGCTCGCTGACCTGGACCGTGCCGGGCGAGCGAGCAACCTCTCCAATCTGTTCATTGGCGGCGGCTTCGCGATCGGCCCGTTTATCGCCGGCCGCATCGTCGAGAGCACAGGAGGCTACAACGCCTTGACACTGATGAGCATCATCGCCCTGTCCGCCTCCTTCGTCCTCATTCTGCTTGCGCAACCAGCTAAAGCAGCTCCAGCCCTTGACCCTGCCCCAGCAGAACCGGTTATGGCCAAGAACTAG	MPETNLTTPPPSSDNPNSRGRIALIVFFSSIISTVLLMAPAVAGQLQIQMRLGPTQTGDLFAVELGAMSIASLPALYWIKKLNLRMTSLSFGLVFIAGNIVSGHVTTYEHLVVVRGLTSLAGGSLMVLAMTLAARTTNRDRVFGMWTAGQIAFGAIGLAVFPRFFDSFGVAVVYWTLAVLMILALPLLRFLPSHALTPLKAQGGHAPRLNLHKTLMGLTALLVFYIGLSAVWTFLGGIAETAHIDPQTLGMILSIATMVGVVGSIAATLTGGRVSRRVLLAGGHLGMLLAVALLFGVPSVLQLSAAAIIFKFAWPWTLPFLLSTLADLDRAGRASNLSNLFIGGGFAIGPFIAGRIVESTGGYNALTLMSIIALSASFVLILLAQPAKAAPALDPAPAEPVMAKN	PGPT0028991_3861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028991-ydhP-K19577	NA	NA
D1-17_02216	606			hypothetical protein	ATGGAATATGGTTCGAGGCGAGACGCCCTCGTAAGGGCGGCCATTGAAATTGTTGCCGAAAAGGGCCTTCAGGGACTTACGCACCGATCCGTTGCCGCTCGGGCGGGCGTGAACCACGCACTTGTGGGGCAACATTTCGGCTCGATGGATGGCCTCGTCGCCGCCGCCATGGAGGTCGCGGTAGAACGATCGATCAGAGAAACAGGTCTTGCCGGCACCGCTGATTTCGATGAGGGTTTCGCCGATCTGATGTTGGCTTCGCTGGCGACAGATCCCGAGATAGAGATGTTCCAGGCGCAGATGGTGCTCGAGGCGCCCAGGAGGCCCGAGATCCGGGCCCTGGTCGAGCGCCTTTACGCAAACTACATCACGGCCATTGAGGAGAGGCTCCGGGCGCAGGGGATTGACACTTCTGACGGTTCTGACAGGGAATTGGCGCGGGTTGTATTCGCCGCCCTCAACGGGCTGGTACTGCAGTTCCTCGCGGTCGGCAGCCGCGAACCCATTCGAGAGGCCATTGTCGAAGTGGGCAGGCTGCTCAAGAACATAGGGGCGGATGATAATCAGCCAGACGACCGGATCGGCTCAGCCAGTAACGGGGAATAG	MEYGSRRDALVRAAIEIVAEKGLQGLTHRSVAARAGVNHALVGQHFGSMDGLVAAAMEVAVERSIRETGLAGTADFDEGFADLMLASLATDPEIEMFQAQMVLEAPRRPEIRALVERLYANYITAIEERLRAQGIDTSDGSDRELARVVFAALNGLVLQFLAVGSREPIREAIVEVGRLLKNIGADDNQPDDRIGSASNGE	PGPT0014935_241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778	NA	NA
D1-17_02217	600	betI_2		HTH-type transcriptional regulator BetI	TTGCTGTCAGCAGTGATTGCGGTCGTGGGAGAGAAGGGTCTCAAGGGGGTCACTTACCGCGCTGTTGCAGCGCGCGCAGGCGTGAACCACACGCTCGTCACGCATCACTTCGGTTCTATTGAGGGGCTTCTGGCTGCCACCATGGAATGGGCTGTTCAGCGGTCCATCGAAGAGACGGGCCTCGAGAGAATCGTCGATTTCGACGAAGCGTTTGCCGATTCACTCATTGCGACGGTGTCGGCCGAACCGGAGCTGCAACTCTTCCAGTTTGAGATGTTGTTGGAAGCCCGACGCAACCCTGAGGTCCGCTCACTAGTGGAGAGGCTGTATGCCAACTACATGAGAACCGTGGAGGATGCCCTGAAGCAACGCGGTCTGCTGGTGGATGACGGCGTTTCTCTGGCTATCTTTGCGGCACTGGATGGTCTCATGCTCCAGTTTTTGACTATCAGTGATCCGGTCAAGATCCGGGCTGCAGTGATTCAGGTGGGTCGGCTGGTCGCCGTTCTTGAATCGTCCAAAGACAGCGGGGACGGGACCGTACACGAACTGCAGCCGGCTCCTGGTGGCGCAAGTTCATCCGCTCTCTTTGTGGAGTAG	MLSAVIAVVGEKGLKGVTYRAVAARAGVNHTLVTHHFGSIEGLLAATMEWAVQRSIEETGLERIVDFDEAFADSLIATVSAEPELQLFQFEMLLEARRNPEVRSLVERLYANYMRTVEDALKQRGLLVDDGVSLAIFAALDGLMLQFLTISDPVKIRAAVIQVGRLVAVLESSKDSGDGTVHELQPAPGGASSSALFVE	PGPT0014935_241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778	NA	NA
D1-17_02218	1455			hypothetical protein	ATGAATCAAGAATCAGTCGAGTCTTCGACGGGCATCGGGTTGGAAGAGCGCGGGGACTTGGCCGGCTTGGTGCGTTTGAGGCCGAACAAACTCGGCGTGCTTGCCATTGCCTTTTTTGCCATTGCGGCAGCTGCCCCCATGGCCGCAGTCGTGGGCGCCAGCCCGGTTCTGTTTTCGGCCAGCGGCGCGGGAACACCGGTCATTTATGTGATTGCTGCGCTGCTGGTTGCCCTCTTCTCCGTTGGCTACCTGCGGATGAGCCAGTACATCACCAACGCCGGCGGTTTCGTGGCCTACATGGCCAAGGGGTTGGGCACGAAATGGGCTACCGGCGGGGCGGGGATCGCCATCCTGACCTACCTCAGCCTTCAGATCGGGCTGTGGTCGCAGTTCGGCGTCTTTGCACAGTTGCTGGTTGAAGGCCTCACGGGCATCAGCGTGCCGGTCTACTTGTGGATTGCTGTGCTGCTTGCTGTCGTGACTGGCCTGACAATGCGCGGTGTCGATGCGAGCCTCAAGGTGCTGGGGGTTCTCATCGTCGGAGAGGCCTTCGCGGTAGCCGCTCTCGTGGTGTCCCTCATCGCTGAGAAGGGACTTGGCATCTTCACGTTTGAAGGCTTCACGGGCTCCAGCGTCTTCGGACCTGGCCTGGGTATTTCCCTGCTCTTTGCCTTCGCCTGCTTCACGAGTTTCGAGGCAACAGTCGTCTTCGCTGAAGAAGCAAAGGATCCGCGGCGTACTATCCCCCGGGCTGCCTACTTCGTCATCGCCTTCGTTGGCATCTTCTACACCATCTCCACGTGGGCCATCAGTGGTGCCATCGGAATCGATAACATCCAGTCCGTGGCCACGGAGAACCCGGCGGGCCTGATCTTTGACCTTGCCCAGACCAGCGCCGGTTACTGGCTGAGCATGACCATGCAGATCCTGGTGGTTACGAGCTTCCTGGCCATGCTGCTGGGCCTGTCCAACATGTTCTCCCGCTATCTGTTCTCCCTCGGCCGGGCAGGAGCCCTGCCGACGAAGCTTTCCGCCGTGTCCAAGACCGGCGCCCCGCACGTCGCCGGATTCATCAATGGGGTTCTCGTCCTCGCAATCATCAGCGTCTTCTTGCTCGCAGGTGCCGATCCGATCACGACCGTGTTTTCGTGGTTCGTGGCCCTGGGAACAGCAGGCTTTATCACCATCCTGCTGGTGACATCAGCTGCGATCGTGGTTTTCTTCGCCAGGAACGGCATGCGAGACAACCTTTGGGTGACCGTAATCGCACCGTCTCTGTCATTCGTTGCCTTCATCGTCATCGGATACCTGACGCTGGACAACTACGACGCGCTGCTCGGCGGGGCCGGCGGCGTTGCCCGGTGGCTTTTGCTCGGCATCCCCCTCTTCTTCGTCGCCGGGCTCGCCCGGGGCGCACAAAAGCCTTCCATCAATTTCGCCGCAGTCATCGGCTGA	MNQESVESSTGIGLEERGDLAGLVRLRPNKLGVLAIAFFAIAAAAPMAAVVGASPVLFSASGAGTPVIYVIAALLVALFSVGYLRMSQYITNAGGFVAYMAKGLGTKWATGGAGIAILTYLSLQIGLWSQFGVFAQLLVEGLTGISVPVYLWIAVLLAVVTGLTMRGVDASLKVLGVLIVGEAFAVAALVVSLIAEKGLGIFTFEGFTGSSVFGPGLGISLLFAFACFTSFEATVVFAEEAKDPRRTIPRAAYFVIAFVGIFYTISTWAISGAIGIDNIQSVATENPAGLIFDLAQTSAGYWLSMTMQILVVTSFLAMLLGLSNMFSRYLFSLGRAGALPTKLSAVSKTGAPHVAGFINGVLVLAIISVFLLAGADPITTVFSWFVALGTAGFITILLVTSAAIVVFFARNGMRDNLWVTVIAPSLSFVAFIVIGYLTLDNYDALLGGAGGVARWLLLGIPLFFVAGLARGAQKPSINFAAVIG				NA	NA	NA	NA	NA
D1-17_02219	801	moaF		Protein MoaF	ATGACTTCAGCTGACATTCAGGACTACATCCCCGAAGATCAGTGGCCTCCCGTGTCCGCCATGCTGGAAGGCTTCGGTGACCAGACCTTGCCCGCCTCCCCCGCGTTGGCCGGCAGCACCTTGCGCCTCGAGGCCGACGGATCCAGCTCCGAATACGTCTTCGGCGACGAATCTTCGCTTACGTGGACGGATGTCCGTGGTGAGGAAAGCACGAGTGGGGCAGCCCGCTACAAGGCCATCGAAGCCCGCCCCGGTATTTTCATCATCGACTTCCTCCGCGGCGAAGGCCTCAGCGAAGAAAACGTCACCATCATCCTCGATCGCAACACGGGTGCCACCACCACTGGGGTATCCCGGTTCGTTGTTGTGGACGGCCGGACCCGGAGCACCACCGAGTTCAGCCAATTCAACACCGAAGGGTCCTCCGTGCGGCATGAGCGTTCCTCCGGTTTGGTCGGTAAGCGGATCTACTACCGCTACAGCGACGTTGAAACCTACGAACACATTTACCTCAACCCCGGAACCTTTACCTGGAACTGCATCCGCGGCGCGGAGGCAGGACTTGCTGACACTGACCGCTGCATGACATGGGAAGTAGCAGAAGATCTCTTCATCTTCTTTTGGACCGAGAAGGTCATGTGCGTGGAAGCAGTGCTGCTGGTAGACCTGCGCGAGCAGCGCTCCATCGGTCGGATGTTCGGCTGGGATGATCCAAAAGCCGAATCTGTCGTCATCCCCTTCAACTCAAGGCTCAGCGTTCTGAACACCACCGCATACCCCCAGGACAACCACAAGCATTGA	MTSADIQDYIPEDQWPPVSAMLEGFGDQTLPASPALAGSTLRLEADGSSSEYVFGDESSLTWTDVRGEESTSGAARYKAIEARPGIFIIDFLRGEGLSEENVTIILDRNTGATTTGVSRFVVVDGRTRSTTEFSQFNTEGSSVRHERSSGLVGKRIYYRYSDVETYEHIYLNPGTFTWNCIRGAEAGLADTDRCMTWEVAEDLFIFFWTEKVMCVEAVLLVDLREQRSIGRMFGWDDPKAESVVIPFNSRLSVLNTTAYPQDNHKH				NA	NA	NA	NA	NA
D1-17_02220	759	bacC_3		Dihydroanticapsin 7-dehydrogenase	ATGGGACTGAAGGACCGAGTGGTTTTAGTGACCGGAGGCGGGTCAGGTATAGGTCACGCATGCGTCCGCGCCCTGACCACCGAAGGAGCGAAGGTCCTCATTGTTGATCGAAACCCGAAGGGTGCTGCCCTTGCAGCGGACTTCAGGCGCGACGGTTACGAGGTCGAGTTCGTGCAGGCGGATGTAACTGAGGAAGCGGACGTACGCAGCTGCGTGCAGGCAGCAATGGACCGCTTCGGTCAGCTGGACTCGGTCATCGGCTGCGCCGGGATTTCCGGGCCTGTCGGGAGCACCGCCATTGACATCTCCGTGGACGATTGGGACCGCGTGATGGCCGTGAACGTCCGCGGAAACTTCCTGCTCGCCAAGCACGCCATCCCGCTGTTGGCAAACAGCGACGTGGCAACAATAGTGTTCCTCGCTTCCGACTCGGCTCTGGTCGCGTTTGAAGGCATGGCCCCGTACAGCACATCAAAAGCTGCCGTGCTCATGCTCACCAAAGCACTGGCAGTGGACCACGCTGATATCCGGGTCAACTGCCTTTGCCCCGGTATTGTCGACACTCCGATGTCGCGGTCGGACCTGGGGCGCGAGGAAGGCTTCGAGGGCACAAACCTTCCGGTCATGCCGCCACATCAGATTGCGTCGCATGCCGTATTCCTGGCCTCCCGTGTGAGCGCACCCATCAACGGAACCAGCATCGTGGCCGATTACGGATACCTGGCGCGGTCAGCCCAACCGGCCCTCGAATTCAATTAA	MGLKDRVVLVTGGGSGIGHACVRALTTEGAKVLIVDRNPKGAALAADFRRDGYEVEFVQADVTEEADVRSCVQAAMDRFGQLDSVIGCAGISGPVGSTAIDISVDDWDRVMAVNVRGNFLLAKHAIPLLANSDVATIVFLASDSALVAFEGMAPYSTSKAAVLMLTKALAVDHADIRVNCLCPGIVDTPMSRSDLGREEGFEGTNLPVMPPHQIASHAVFLASRVSAPINGTSIVADYGYLARSAQPALEFN				NA	NA	NA	NA	NA
D1-17_02221	1410	styD		Phenylacetaldehyde dehydrogenase	ATGAAAACGTACGAATCCTTGCTTGATCAGGTCACCGCGTACGCGGGTAAGACCCGCACCATCACTGATCCTGCGACTGGCGAGGCAGTCGGGGAGGCGCCCGTTCATGATCTTGAGTACCTTGAGCAGGTTGTCGACGCGGCTGTGGAGGCTCAGCCCGCGTGGGCGGCGCTTGGCCATGAAGGGCGGTCTGAAGCGCTGTTGAAGGCCGCGGACGCCGTTGAGCGTAACGCTGAGGAGCTGGCACGGTTGCTCTCGCGGGAGCAGGGCAAGCCGCTGAACGGGCCAAATGCCCGGTTCGAAGTCGGTGCCTGCGCGGCGTGGCTTCGCGCGGCAGCGACCATCCGCCTGGAGCCCGAAACGATCGTCGATGATGGTGAGACCCGCGCCGAACTGCACTACAAGCCCATCGGAGTCGTCGCCGCGATCGGTCCCTGGAACTGGCCGATGATGATCGCGGTCTGGCAGTTCGCCCCGGCCCTGCGGATGGGCAACGCCGCGGTGGTCAAGCCCTCGGGGAACACCCCGCTGTCAGTCCTGGCCCTGATCACGGTCATCAACGAAGCACTGCCGGAGGGTATTCTTTCCGCTGTGTCCTGCGGCCGTGACGTCGGTGCCCGTCTGACGGAACACCCCGCTGTTGGGAAGATCATGTTTACCGGCTCCACTGCGGCCGGTCGCGCCATCATCAAATCCTCCGCGGCCACCGTCAAGCGCCTCACCCTGGAACTCGGCGGGAACGATGCGGGCATCGTCCTGCCCGACGCTGATCCGAAGGCCATCGCCGAGGACCTTTTCTGGGGCGCCTTCATCAACACCGGCCAGACCTGCGCCGCGCTGAAGCGCCTCTATGTACACGAGGACATCTACGACGCGGTCTGCGAGGAACTCACGAAAGTGGCCGCCGCCATGCCCATGGGTAACGGTCTGGACGAGAACAACGTTCTGGGCCCCCTGCAGAACAAGTCGCAATACGACATCGTGACCAGCCTCGTGAACGCTGCCAAGGAATCCGGCGCGCGGGTACTGCTGGGCGGAAACCCGGACACCACCCAACCCGGCTACTTCTACCCCACCACCTTGGTGGCTGACATCGACAACGACAACCCGCTCGTGGCCGAGGAACAGTTCGGCCCGGCCCTGCCGATCATCAAGTACAGCACCGTGGACGAAGCAGTGGAAAAGGCCAACGGCCTGAACGTCGGCCTCGGCGCCTCCGTCTGGTCCAGCAACCTCACAGCGGCTCGTGCAGTAGCCAGCAGGATCGAGGCCGGCACTGTATGGATCAACAAGCACGGCACGGTGGACCCCCGCATCCCGTTCGGCGGAGCGAAACAGTCCGGCTACGGGCTGGAATTCGGCGTCGAAGGCCTCAAAGCCCTCGGAATCCCCCAGGTCATCAACGGCTAA	MKTYESLLDQVTAYAGKTRTITDPATGEAVGEAPVHDLEYLEQVVDAAVEAQPAWAALGHEGRSEALLKAADAVERNAEELARLLSREQGKPLNGPNARFEVGACAAWLRAAATIRLEPETIVDDGETRAELHYKPIGVVAAIGPWNWPMMIAVWQFAPALRMGNAAVVKPSGNTPLSVLALITVINEALPEGILSAVSCGRDVGARLTEHPAVGKIMFTGSTAAGRAIIKSSAATVKRLTLELGGNDAGIVLPDADPKAIAEDLFWGAFINTGQTCAALKRLYVHEDIYDAVCEELTKVAAAMPMGNGLDENNVLGPLQNKSQYDIVTSLVNAAKESGARVLLGGNPDTTQPGYFYPTTLVADIDNDNPLVAEEQFGPALPIIKYSTVDEAVEKANGLNVGLGASVWSSNLTAARAVASRIEAGTVWINKHGTVDPRIPFGGAKQSGYGLEFGVEGLKALGIPQVING				NA	NA	NA	NA	NA
D1-17_02222	813	lvr_2		Levodione reductase	ATGAGCAATCACCCGGTAGCAATCATCACCGGAGGAGGTACAGGGATCGGTGCGGCAACAGCGAGAGTCCTCCGCTCCGACGGCTGGGAGGTCATTGTCTCCGGCCGCCGCCTGGAACCTCTTCAACAGGTCGCCGAATCTACCGGCGCCGTCCCAGTCGTCGCCGATGCAGCATCCCAACCCGACATCAAAAGGCTGGTCGGAACCACCATCGAACGGTTCGGATCCCTTGATGGCCTCGTCTTGAACGCGGGAATTGTCCGCGCTGGATCGGTGGGCGATCTCGCAGATGATGCCTGGGACGCAATGGTCAGCACCAACCTCACCGGTCCCCTACGCCTCGCCCGGGAAGCCATGCCACACTTGCTCGCTTCGCGCGGTTCCATCGTAGGCGTCGCTTCCGCCGCTGCCCTTAGAGCAACCGAAGGCACAGCCGGCTACAACGTCACCAAGGCCGGCCTCGCCATGCTGATGCAGTCAATTGCCGTGGACTACGGTCCTCGCGGTGTGCGTGCCAATGCAATCTGTCCGGGGTGGACCCGAACTGAAATGGCCGATATGGAGATGCAGGAATACGGGGCCGAACTGGGACTGGGGTACCAGGAGGCCTACAAAGTCGCGACGTCCTTCGTGCCCGTCCGCAGACCCGCCGAGTCGTCGGAAGTCGCCGACGTCATAGCGTGGCTACTCTCCGACAAGGCCTCCTACATCAATTCAGCCGTGCTGCCAGTCGACGGCGGAATGATCGCTGTAGACCCTGGCGGACTCGCCCTCGACCCGCGGGTCACGCTAAAAACTTCTCAGCAGCAGTAA	MSNHPVAIITGGGTGIGAATARVLRSDGWEVIVSGRRLEPLQQVAESTGAVPVVADAASQPDIKRLVGTTIERFGSLDGLVLNAGIVRAGSVGDLADDAWDAMVSTNLTGPLRLAREAMPHLLASRGSIVGVASAAALRATEGTAGYNVTKAGLAMLMQSIAVDYGPRGVRANAICPGWTRTEMADMEMQEYGAELGLGYQEAYKVATSFVPVRRPAESSEVADVIAWLLSDKASYINSAVLPVDGGMIAVDPGGLALDPRVTLKTSQQQ	PGPT0008190_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
D1-17_02223	1092			hypothetical protein	ATGAATCGGACAATCAAATTCTTAAAGATGGAAGATTCGGCCATTTTTTTGGCCGGGAAGATTAAGCTGGGGAAGGAATCATTGCCGAATCAAGGGGCTTACATGAATGCCTTGGACAGTCTTGATCAACGCATAGTCGCTGCCCTTCAGATTGACGGCCGGGCGCCGTGGGCGAAAATCGCCTCCGCTCTGGGCGAGGCTGAGCGAACGGTTGCACGCCGAGGCGCAGACCTCCTGCGGGATGGACGGGTCAGGATCCGGGCACTGCCGAACCCCAGCCGTGGAAAACGTTTGGAGCAGTTCGTTTTGAAAGTCACGTGCAACCCCGGTGCTGCTGGCATATCTGCCGCTGCTTTGGCCCGGCGCCCGGAGACCTTCTTCACCTACATCCTCACGGGTTCGGCGGACTGCACAGCGGAGCTTTCCAGCCCGGCCTCTAAGTTCGCAGAACTGCTTATACGGGACATTGGGGGCATCCCAGGCGTCAGTTCGGCAGCCACGTATCCAGTTTTGAATCACCTGCGAACGATGCACCAGTGGAACCCCGGGGTGCTGACCTCCGGCGAGCTCGCAGAGTTAGGAGGGACCGAGTATTCGGAAGCTCCGACGGAACTAGCGAACCCGGAGCAGCTGAACAAAGAGGACAGACAGATCATGCGGGCCCTGGAGCGGGACGGACGATCCAGCTACGAAGACCTGGCGCGCATTACGGGGCTCTCGGTACAAACGGCTCAGCGCCGGGTGGAAAAAATGAGACGCGAAGGCACCCTATTCATTCGTGCTGTCTTTGAACCCGCGCTGCTTGGATTACCCGTGGAAGTTATGCTTTGGGTCAAAGTGCCTTTTCCTGAACTGGACCGTGTGGAGGCTGAAATCCTGCCGTCCCCAGCTGTACGGTATGCGGCGGTGCTTGCCGGCGACTTCCAGCTCGTGGTTAATGCTGTCTTCCCCAGCCGTGCCGCACTGTACGCGTACCTCAAGAGCTCCGACTGGGCAGTTCGGGCCCAATCGATAGAGCCGGCGCTTGTTGTGGACGCTCTCAAGCGAAGCGGAACACTTGCTTTATCGTTCGGAGAGGAGCTCCAAGATTGA	MNRTIKFLKMEDSAIFLAGKIKLGKESLPNQGAYMNALDSLDQRIVAALQIDGRAPWAKIASALGEAERTVARRGADLLRDGRVRIRALPNPSRGKRLEQFVLKVTCNPGAAGISAAALARRPETFFTYILTGSADCTAELSSPASKFAELLIRDIGGIPGVSSAATYPVLNHLRTMHQWNPGVLTSGELAELGGTEYSEAPTELANPEQLNKEDRQIMRALERDGRSSYEDLARITGLSVQTAQRRVEKMRREGTLFIRAVFEPALLGLPVEVMLWVKVPFPELDRVEAEILPSPAVRYAAVLAGDFQLVVNAVFPSRAALYAYLKSSDWAVRAQSIEPALVVDALKRSGTLALSFGEELQD				NA	NA	NA	NA	NA
D1-17_02224	1545	pnbA	COG2272	Para-nitrobenzyl esterase	ATGACGGACACACTCGTAAAGACACTTCAAGGTGCGGTGCGTGGAGTCGAGGCCGAGGGCACGATTAGCTGGCGGGGCATCCGCTATGCGCAGTCACCATCTGGGCCCTTGCGCTGGCAGCCTCCAAGGCCAGCTGCGCCATGGACAGGAATCGCTGCTGCCGACTCATTTCCTACCCGCGCTCCCCAAATTTTGACCCCCGAGCTGGTCCCGCCGGGAGGTGCGACCCCTTCTGACGCGGACACTCCCATGGGTGAGGATTGCCTGTTCCTCAACATCACGGCACCCAACCAGTCGACAGAAACACCCTGCCCCGTTCTGGTGTGGTTCCATGGCGGAGGCTTCACTTGGGGCTCCGGAGCGAACTTCATCGGTGACGGAACCGCCCTGGCCCGTGAAGGCACCATCGTGGTCACAGTGAACTACCGCTTGGGCGCGCTGGGCTTCCTGAAATTGGACCACCTCCTGGGACCGGAGTACGCCTCCTCAGCAAATGCAGGATTGTTGGACCAGATCGCAGCACTCTCGTGGGTGCGTGATAACGTGGCCGCGTTCGGCGGTGACACCTCCCGGATAACCATTGCCGGTGTGTCCGCCGGGGCCAAGAGCGTGGCAAACCTGATGGCCTCGCCGCTGACCGAGGGGTTGTTCCACCGCGGGATCATGCAAAGCGGGGGCGAACACCTCAACACTCCGGAAACCGCGGAACAGCTCACCGCAGCCCTGCTAAACACCCTCGGACTGACACCGGAAACTGCCTCAGAGCTCCTGACAATGCCGGCTGACGTACTCCTCGAAGCGCAGCAGGAAATTGCCACTGGCGCCCGGGCAACCTGGGTGTGGCGGCCCACCATCGATGGAAATAGCCTTCCTGAGGCACCCGTTCAGGCCTTTGCCAACGGACGCGCCAAGGGCGTTAGCATCATGGCCGGCGTCACAGCCAACGAGGCCGGGAGCTACGACCTGGCCGATTCGACGGCGGCACAGCAGACACCGCGCGTCCTGCGGGAAATCTTCGGTGCCGAAGCAGAACGAGTGCTTGACGTCTACCGGTCAACCTTTCCCGAAGCGGATGAGCGTCAGCTCCACCGCGCGGTGCTGGCCGATGAGCGATACGGCATCCCCACACTTCGATTGCTGGACGCCCAGTCCGCCCACGCATCCTGCTGGCGCTATCGCTTCGATGCCCCCACGCCAGGTGCCCCCCGAGAGAAGTGGGGTTTCCACGGAGCCGATGTCCCCTACGTGTGGAACATAGGCCTCGAAGCGGCGGAGCCGGCGCTGCGCGAGCTTGCGGATGGCATCCGGCAAGCCTGGACAAGCTTCATCGCAACCGGAAAACCCGACGCGCCCGGCCTGCCGTTCTGGCCGGAATATGAGGCGTCAGACCGGTTAACCATGCTGTTGGACGCACCCCCAAAGGTCGCCTCGGATCCCCGGTCGGAGCAGAGGCAGGCCTGGGCTGCCGCGGATTGGCAACCGGACACCTGGTGGCAACTTCCTGCTTTGGTTCAAACCTCCCATTCTCCAGCCAACAACGCCTGA	MTDTLVKTLQGAVRGVEAEGTISWRGIRYAQSPSGPLRWQPPRPAAPWTGIAAADSFPTRAPQILTPELVPPGGATPSDADTPMGEDCLFLNITAPNQSTETPCPVLVWFHGGGFTWGSGANFIGDGTALAREGTIVVTVNYRLGALGFLKLDHLLGPEYASSANAGLLDQIAALSWVRDNVAAFGGDTSRITIAGVSAGAKSVANLMASPLTEGLFHRGIMQSGGEHLNTPETAEQLTAALLNTLGLTPETASELLTMPADVLLEAQQEIATGARATWVWRPTIDGNSLPEAPVQAFANGRAKGVSIMAGVTANEAGSYDLADSTAAQQTPRVLREIFGAEAERVLDVYRSTFPEADERQLHRAVLADERYGIPTLRLLDAQSAHASCWRYRFDAPTPGAPREKWGFHGADVPYVWNIGLEAAEPALRELADGIRQAWTSFIATGKPDAPGLPFWPEYEASDRLTMLLDAPPKVASDPRSEQRQAWAAADWQPDTWWQLPALVQTSHSPANNA	PGPT0030515_1566	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
D1-17_02225	1383	nicT		Putative metabolite transport protein NicT	ATGACCTCAACCCACAACACAAGCGTCCAGCCAGGAAGCGGTGATCTTCCTTCAGCTCTGTACAAGAAGCTGGCATGGCGAATACTGCCGCTCGCGTCAATCTGCTACGCGGTGGCCATCATCGACCGTGTAAACATCGGCTTCGCCAAGCTGGAGATGAGCGCAGACATTGGACTTTCTGCTGCAGCATATGGTTTGGGCGCCGGAATCTTCTTCCTGGCCTACGTCCTTTTTGAAGTCCCGAGCAATATGATCCTCGAACGCGTGGGGGCGAAAATGTGGATCGCCCGCATCATGGTGACTTGGGGCATCGTCACCATAGCCACGGGTTTCGTTCAAACTACCGAACAGTTCTACGGAGCCAGGATCCTTCTCGGAATCGCGGAGGCCGGCTTCTACCCTGGAATGGTCTATTTCCTCTCCCTGTGGTTCCCACGCAAGCGCCTTGCCCAGGCCCTGGCCCTACTGGTGATCGCAGGACCGATCGGAAGCGTGTTCGTCGGCCCGCTCTCGGGCTGGATCATGTCCGGTTTCGCCGGGGTGGCCGACCTCGCAGGATGGCAGTGGCTCTTCATCATCCAAGGTATTCCGGCAGTGCTCTTGGGTATCGTTTTCTACTTCGCAGTCTCCAGCACCCCCAAGGATGCCGCCTGGCTCAGTGGCAGCGAGAAGGCAGCCATCGTTGCCGGCCTGGGTAGCGGGGCTCCGCGAGAGAAGGCTTCCAAGCAGTTCAAGAAGGCCGTTTCCAACAAGCGCGTCTGGATCCTGGGCTTTGTTCTTGCGTCGAACTACATCGGTATCTACGCAGTCGTTTTCTGGGTTCCTACGATCCTGAAGAATACCGGTGTCACAGACGTAGTAGCCATCGGCTATCTGTCCTCCATACCCTTTGCCGTTGCAGTCGTTGCCACCATCGCTCTGGGCATCTACTGTGACCGCACCCAGGCCCACCGGCGGATACTCGTGGCCGGCATGGTCATCGCCGCAGCAGGGTTGGTGGCCAGCGTTGCCATCAGCGACCAGCTGGCCCCCACGCTCATCGGCATCTCGGTGGCCTGCGCCCTCTTCACCGCCACCGGGCCGATCATTTGGGCCATCACCAACCTTCAACTCAAGGGGATGGCGGCAGCCGCTGCAGGCATTGCTCTGATCAACACCGTGGGTTCAATGGGCTCTTTCCTTGGGCCTTATGTCATGGGACTCGGCCAAGAATGGACCGGCAGCGTCATCGCTCCGCTCCTCTTCATCGCCGGTGTTTCCATCGTCGGCGCGCTGGTCGGCGCGTCCATTACGCGGACACGCAGCGTCCAGGAGCAGGGAAACACTCACGAGGGACCGCGCTCGGGCGATCCCTCGCCCATCACGACGGGAGCCGACAATTGA	MTSTHNTSVQPGSGDLPSALYKKLAWRILPLASICYAVAIIDRVNIGFAKLEMSADIGLSAAAYGLGAGIFFLAYVLFEVPSNMILERVGAKMWIARIMVTWGIVTIATGFVQTTEQFYGARILLGIAEAGFYPGMVYFLSLWFPRKRLAQALALLVIAGPIGSVFVGPLSGWIMSGFAGVADLAGWQWLFIIQGIPAVLLGIVFYFAVSSTPKDAAWLSGSEKAAIVAGLGSGAPREKASKQFKKAVSNKRVWILGFVLASNYIGIYAVVFWVPTILKNTGVTDVVAIGYLSSIPFAVAVVATIALGIYCDRTQAHRRILVAGMVIAAAGLVASVAISDQLAPTLIGISVACALFTATGPIIWAITNLQLKGMAAAAAGIALINTVGSMGSFLGPYVMGLGQEWTGSVIAPLLFIAGVSIVGALVGASITRTRSVQEQGNTHEGPRSGDPSPITTGADN	PGPT0002325_538	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-17_02226	339			hypothetical protein	TTGAGCGAGCTCAGCGGGACCGTTCGAAAGGTGATGGAGGCATATAACAACGGTGATCCTGAACCTCTCGTCGCTACGTTCAGGGAAGACGTTCAGTACATCATCGTGGATCTCGGCAAGACGTTCCGCGGGCTGGAGGAAGTAACGGCTTTGGCCCGCCAAGGCGCCGGGCAAACCAGATTCCATCTTCACGACATTATCTGCCACGGAACCTTAGTCTCCTTCACTTACGACCACGACAACCCAATGGCAGAAATCGCCTACCGCGGTCCTGGCCTGGCTGTCCAGAACTATGACGACGACGGCAGACTGATTGCCCAATGGGCGTACCGCGAATGA	MSELSGTVRKVMEAYNNGDPEPLVATFREDVQYIIVDLGKTFRGLEEVTALARQGAGQTRFHLHDIICHGTLVSFTYDHDNPMAEIAYRGPGLAVQNYDDDGRLIAQWAYRE				NA	NA	NA	NA	NA
D1-17_02227	1299	yfdE_2	COG1804	Acetyl-CoA:oxalate CoA-transferase	ATGACCCGCCATAAGGAGGATCGGGAGGCAATGAGGCCAAGCAACCACGACCAGACATCCGGGCCTCTCCAAGACTTCTTGGTGGTGGATCTGAGCCGCGCCCTGGCAGGACCGCACGCCGGCATGATGCTGGCCGACCTCGGCGCGCGGGTCATCAAGGTGGAAAGCCCGGGCACGGGAGACGACACGCGCGGCTGGGGGCCGCCGTTCGTCGGCCCCGAGGATGATCCCCAGGCCACATATTTCCTGTCGTGCAACCGCAACAAGGAATCCATCGCACTGGATCTGAAGAGCGATGACGGCCGCACGGTGTTGCGCGAGCTGCTGGAGCGGGCGGACGTGGTGATCGAGAACTTCCGGCCCGGGGTCCTGGACCGGCTCGGTTTCTCGGCTGCTGAGATGCACGCGCTGAACCCTTCGCTCGTGGTCCTGTCCATCACCGGCTTCGGGCACGACGGCCCCGAGTCCCGGCGCAGCGGCTACGACCAGATCCTGCAGGGCGAGGCCGGGCTGATGTCCCTGACCGGTTCCGGTCCCGATGACCCGCAGCGGGTGGGCGTGCCCATCGCGGACCTGCTCTCCGGTATGTACGGGGCGTTCGGCACGCTCGCTGCACTGCTGCAGCGCGAGCGGACAGGCCAGGGCCAGATCGTGCGGACCTCACTCCTCGCGGCGCTGATCGGGGTCCACGCCTTCCAGGGCACCCGGGCCACCGTCGCCGGCGAGGTCCCGAAGGCCCAGGGCAACCACCACCCGTCCATCGCGCCCTACGGCCTGTTCCACTGCCGGCAGGGCCGTGTGCAGATCAGCGTGGGCAGCGAGAAGCTCTGGGCTGCTTTCGCCTCGGCCTTCGGCATCGATGCCAACCGGCCGGAATTCGCCTCCAACGCCGACCGGGTGCGGAACCGGGAGAAAGTCATCGAAGAGGTGGAACGCGTCTTCGCCGATTACGAGGCGGAAGCGCTGCTCACGAAACTGAACGAGGCCGGAATCCCGGCAGGCAAGGTCCGCACCCTGGACGAGGTCTACGAATGGGAACAGGTCCACTCACAGGGCCTGGTGATCGACGTCGACCACAAACTCCTCGGCAACGTCAGCCTGCCGGGCCCGCCGCTGCGCTTCTTCACCGCCGCGGACACCGCGGAAACCACCCTCAAAAGCCACACCGCCCCGCCACTGCTGGACCAGGACGGAGCACAGATCCGGCAATGGCTCGGCCTGGTTCCCGCCGACGCCGCAGCCTCCGCGGGGGTTTCAGCCACTGCCGGAGCCGCAGCTTCTACCAGGGAGGGCCGGTGA	MTRHKEDREAMRPSNHDQTSGPLQDFLVVDLSRALAGPHAGMMLADLGARVIKVESPGTGDDTRGWGPPFVGPEDDPQATYFLSCNRNKESIALDLKSDDGRTVLRELLERADVVIENFRPGVLDRLGFSAAEMHALNPSLVVLSITGFGHDGPESRRSGYDQILQGEAGLMSLTGSGPDDPQRVGVPIADLLSGMYGAFGTLAALLQRERTGQGQIVRTSLLAALIGVHAFQGTRATVAGEVPKAQGNHHPSIAPYGLFHCRQGRVQISVGSEKLWAAFASAFGIDANRPEFASNADRVRNREKVIEEVERVFADYEAEALLTKLNEAGIPAGKVRTLDEVYEWEQVHSQGLVIDVDHKLLGNVSLPGPPLRFFTAADTAETTLKSHTAPPLLDQDGAQIRQWLGLVPADAAASAGVSATAGAAASTREGR	PGPT0014505_68	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0014505-uctC|yfdE-K18702	NA	NA
D1-17_02228	1593	accD3_2	COG0777	Putative acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	GTGAGCACCCTGACGCAGCAGAAGCCCCGGCACCTGGATGCCACCGAACTCATCACCGCCGTGCTCGATCCCGGCTCCTACAAGAGCTGGGACACCCCTGTCGTGGATCCGGACCCGGGCCCCGAGTACCGGCAGGAACTGGCCGCCGCCCGCGAGAAGACCGGCGTGGACGAATCCGTCCTGACCGGTGAAGGGCTCATCCGCGGCCGGCGGGTAGCCGTCATCGTCAGCGAATTCCGTTTCCTGGCCGGCTCCATCGGGCTCGCCGCAGCCGAGCGGATCGTGAACGCCGTCGAACGCGCAACCAGGGAGGGCCTGCCCCTCCTGGCGGGACCGGCCTCGGGCGGCACCCGCATGCAGGAAGGCACCATCGCGTTCCTCTCCATGGTGAAGATCAGCGCGGCGGTCCGGGCCCACCGGCAGGCCGGACTGCCCTACCTCGTCTACCTGCGCCACCCCACCACCGGAGGGGTCATGGCCTCCTGGGGCTCCCTGGGGCACATCACCGTCGCCGAGCCCGGCGCCCTCCTCGGATTCCTGGGTCCGCGGGTGTATGAGGCGCTGCATGGCTCGGCCTTTCCCGAGAACGTCCAGGTCGCCGAAAACCTCTTTGACAAGGGACTCGTGGACGCGGTGGTCCCGCCCTGGCAGCTGTCCGACGTCGTGGACCGCGCCCTGAGCATCCTGGTCGCCGGACCGCACCCTCAGGTCCGTCCACCAAGGACGCTGTCCGTGAAGCCGTCCGACGCCGGCGCCTGGGAATCCATCAAAATCTCCCGTAACCCGCGCCGCCCGGACCTCCGGCAACTGCTGGCGTACGGAGCCCGTGACGTGCTTCCCCTCAACGGCACGGGCCAGGGGGAAAAGGATCCCGGTCTGCTCCTGGCGCTGGCCCGCTTCGGACAGAAGTCCTGCGTGGTGATCGGCCACACCCGGCCGCGGCCCTCCCAGCAGACGGCGATGGGTCCGGCCTCGCTCCGTGAGGCACGCCGCGGCATGCGCCTGGCCGAGGAGCTCGGCCTTCCCCTGGTGACGGTGATCGACACCGGCGGTGCGGCCCTGTCAAAGGAGGCCGAGGAGGGCGGGCTTGCCGGGGAAATTGCCCGCTCACTCCATGATCTGATCGGCCTGAGCTCGCCCACGGTGTCGGTGCTGCTGGGCCAGGGCACCGGAGGCGGCGCCCTGGCGCTGTTCCCGGCGGACCGCACCATCGCCGCCCAGCACGGCTGGCTGTCCCCGCTGCCGCCCGAGGGAGCAAGCGCCATCGTCCACCGCAGCACCGACTTCGCCCCGGCCATGTCCGAGGCGCAGGGCGTCAACGTCGCCTCGCTCTACGCCCAGGGCATGGTGGAACACATCGTGGACGAGCGCCCCGACGCGGCCCTCGAAGGCCGGGCGTTTTGCCAGCGGATGGGACAGGCCATCGAATACGAACTCGCTGCGCTTTCAGCGTCCGGAGTGGCAGAGCTGCTACCACAGAGGCTCGCAAAATACCACCGCCTGGGTACCCTCACCGAGTCCGATCCTGTCGCCTCCCGCCAACGGCGTGTATTCGAAGAGCTCGCCCGCCCCGCGCGGATCGCTACTCCCTAG	MSTLTQQKPRHLDATELITAVLDPGSYKSWDTPVVDPDPGPEYRQELAAAREKTGVDESVLTGEGLIRGRRVAVIVSEFRFLAGSIGLAAAERIVNAVERATREGLPLLAGPASGGTRMQEGTIAFLSMVKISAAVRAHRQAGLPYLVYLRHPTTGGVMASWGSLGHITVAEPGALLGFLGPRVYEALHGSAFPENVQVAENLFDKGLVDAVVPPWQLSDVVDRALSILVAGPHPQVRPPRTLSVKPSDAGAWESIKISRNPRRPDLRQLLAYGARDVLPLNGTGQGEKDPGLLLALARFGQKSCVVIGHTRPRPSQQTAMGPASLREARRGMRLAEELGLPLVTVIDTGGAALSKEAEEGGLAGEIARSLHDLIGLSSPTVSVLLGQGTGGGALALFPADRTIAAQHGWLSPLPPEGASAIVHRSTDFAPAMSEAQGVNVASLYAQGMVEHIVDERPDAALEGRAFCQRMGQAIEYELAALSASGVAELLPQRLAKYHRLGTLTESDPVASRQRRVFEELARPARIATP				NA	NA	NA	NA	NA
D1-17_02229	606	betI_3		HTH-type transcriptional regulator BetI	GTGGCGGCGACGAGAACCAACGAATACGGAAAAGGCCGTGAGGCGCTGCTGGCGGCAACAGTGCAGGTGGTAGCAGAACGCGGACTACGTGGCCTCACGTTGCGGGCAGTCGCCGAAGTGGCCGGGGTCAACAACACCCTGATCAGCCACCATTTCGGCAGCAAGGACGCGCTACTGCATGAAGCAGTCGCCTGGGCCACAGCCCGCGCGATCCGGCTTAGCGACCTGTCTGCCGCTGAAACCATAGACGGCAATTTCGCAGGTGCTCTCGTCACCTTAGTGGCCAGCGAACCGCAACTTCAGATATTTCAATACGAGTTTGTCCTTGAATCGCGGCGCCGGCCGGATCTGCGGGCCGAGGCTGTTGCCCTTTATGAGGGCTACATCGAGGGTCTCGAACTTGCCCTGGCACGCCACGGACACGCAGATACAAAGCCGCTGGCACGTGCCGTCTTCGCAGCACTCGACGGTCTGGTATTCCAACAGCTCACCGTGGCAGACGGCGCCGTCGTCCAGACCGCAATCGAGCGTATAGGCAGCCTGCTGGAAGCCAATCTCGCCAGCGGCCCTTCACGTCCCATGCAGGAAATTGGCGGAGCCAGTTGA	MAATRTNEYGKGREALLAATVQVVAERGLRGLTLRAVAEVAGVNNTLISHHFGSKDALLHEAVAWATARAIRLSDLSAAETIDGNFAGALVTLVASEPQLQIFQYEFVLESRRRPDLRAEAVALYEGYIEGLELALARHGHADTKPLARAVFAALDGLVFQQLTVADGAVVQTAIERIGSLLEANLASGPSRPMQEIGGAS	PGPT0014935_101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778	NA	NA
D1-17_02230	1503	lysP	COG0833	Lysine-specific permease	ATGGCGCATGCGCTCGATGACCCCACCGCCCCGGCCCTGCACCGGACGCTCCGTTGGCAGGATGCCTTCGCCCTGGCGATGGCAGTGTCCGGCGGATTGTTCGTTTCCTTTGGTTTCACCATGGCAGCAATCGGGGCCCTTTCTGCTTTGTTCATTTGGGCTCTGGCCGCAGGCATCGGTTGGGCCCAAAACCACCTCTTTGCAGAAATGGCCTCGATGTTCCCCGATAAGCCCGGCGGCGTTCCTGTCTACGCTCATGAGGCCTGGAAGGAACGGTTTGCCCCTGCCGGCGCCCTTGCCACTTTCGGCTACTGGTTCGGGTGGTCTGCAGTTATTTCGATTGTCAGTCTCACCGCCGGTGCCATTATCGAGGCCCGTTGGCTCCCGGAGGCGGCCTGGTCACTCAATCTCGGTATCGCGCAGATTGGCACCGCCCAGATCATCGGCATCGCCTTGATTTTGGCGCTTATGGTGCCCAACCTCTTTGGCGCACAGCCCGCAGCGTGGGTCAATAAGGTATTCGGTGCGTTGCTGCTGATTCCACTGTTCACCTTTGTCATCGCCCCGCTCGTCAGCGGGCAGTGGGACATCTCCAACCTCACCTGGGGCCTTGGCCAGCCGGGGGCTGACCACTGGGGCGGCTGGCAGGACGCCATCGTCTGGCTCTACCTGGTCGGCTGGACCGCCTATGGCACCGAAATGTGCGCGGCATTCACGCCCGAGTACCGCAGCAACAAAGATGCCCGGCGGGCCCTCTCAACTTCGGGCGGCTACACCTTCCTGATGTTCGCCCTGGTACCGCTGGGTGTCGGCGGGCTGATGACACAGGCTGATGCCGCGGCCGACCCTACCGCCGTCTTCGTTTCCGGCTTCGCGTCCGTCCTCCCCGCCGGGTTCGCCGGGGACGCCGCGCTCCTGATCACCATCGGCGCCCTGCTGATGGGTGTGAATGCCTCCATGGCCGACGGATCGCGGGCACTCTATGGTGCAGCCATCGACGGACTGGTACCCCGCCAGTTCGAAAAACTCAACCGCCACCAGGTGCCCGCACGAGCCATCCTTGCCGCCGTCGTGATGAATGTCCTGCTGATGATCTTCGTATCAAACCCCATCTCCATCCTTGTCGCAGCGAACATGGGCTACCTGCTCGCCATCCTTCTCGCCGTCTCAGGCTTCCTGCTGCTGCGCAACGACCGGCCGGATGCTTCAAGGACCTTCAAGCTCGGCGCCTGGGCTGTGCCCCTTGCCGTGGCGCTGACCATCTATGGCGCTGCCGTTCTGGTCATCGGGGCACTCTCCTCCGAACTGTCCGGATACGGCGGACCGATGGAACTGGCAATCGGTGCGGGCATCCTCCTGCTATCCCTCCTCCTCTACCTCATCAGGCGCCGGTTCCAAGACCGGCTACCGCTCCTAAGGGAACCGCGTTCGCTGGCCACCGAAGCGAATACACCCACCGCCACCCCGGCACCACCCGTCAACACCAAACAAGCAAAGGAATAA	MAHALDDPTAPALHRTLRWQDAFALAMAVSGGLFVSFGFTMAAIGALSALFIWALAAGIGWAQNHLFAEMASMFPDKPGGVPVYAHEAWKERFAPAGALATFGYWFGWSAVISIVSLTAGAIIEARWLPEAAWSLNLGIAQIGTAQIIGIALILALMVPNLFGAQPAAWVNKVFGALLLIPLFTFVIAPLVSGQWDISNLTWGLGQPGADHWGGWQDAIVWLYLVGWTAYGTEMCAAFTPEYRSNKDARRALSTSGGYTFLMFALVPLGVGGLMTQADAAADPTAVFVSGFASVLPAGFAGDAALLITIGALLMGVNASMADGSRALYGAAIDGLVPRQFEKLNRHQVPARAILAAVVMNVLLMIFVSNPISILVAANMGYLLAILLAVSGFLLLRNDRPDASRTFKLGAWAVPLAVALTIYGAAVLVIGALSSELSGYGGPMELAIGAGILLLSLLLYLIRRRFQDRLPLLREPRSLATEANTPTATPAPPVNTKQAKE				NA	NA	NA	NA	NA
D1-17_02231	333			hypothetical protein	ATGACACAGGTCTTTTTCGCACAGCACGATGACTCCGCTTTCGAGCCCTTCGAGCTCGGTAACGTGCAATGGCTTCGCCGCCCGGGAGACAACGGTAACGAAAAGCTCTCCGCAGGCATCTGGAAAGTCACCCCTGAGGAGGCGCCGGAACCCTTCGACCTGCCCATCCATCAGGACGAAACCATCTTCATCTCCTCGGGCCGCATCCGCATTGAGGTCAAGGACGGCGAAACGTTCGAACTTACCGCCGGGTCAATGGCCTCCCTGTCCCAAGGGGCCATGACCCGCTGGACCGTGCTCGAACCCACAATCGAATACTTCGTCTACAGCTAA	MTQVFFAQHDDSAFEPFELGNVQWLRRPGDNGNEKLSAGIWKVTPEEAPEPFDLPIHQDETIFISSGRIRIEVKDGETFELTAGSMASLSQGAMTRWTVLEPTIEYFVYS				NA	NA	NA	NA	NA
D1-17_02232	1347	pao		Pseudooxynicotine oxidase	ATGGAAACTTCTGACGTCCTGATCGTCGGCGCCGGATTCGCCGGCCTCATCGCAGCACGCGAACTCTCCCGCCGCGGCCACAAGACCACGCTGCTGGAAGCCCGGGACCGCATCGCAGGCCGCACCTTCCTCGAGGAACGCATGGGACGCAACCTGGAACTCGGCGGCACCTGGGTGCATTGGACCCAGCCATACGTGTGGGCCGAAATGGGCCGGTACGGCATCAACCCCATACCGGGACCCGAATTCACCAAGGCCTACTGGAATGTAAACGGCCACCGCCATGAAGGGCACGCCGACGACGTACTTGAGCTGCTCGACGCGCCGAACCAGGCTCTGCTGGCCGACGCACGCCGCTACTTCCCCCTGCCCTGGGCACCGCTGACCAACCCAGACGTCGCCGACATCGACGGCATCACGCTCTCGGACGCCATCGATCGGCTGGAACTGCCGGAGAACCGGCACGAACTGCTCCGATCCTTCTGGGCCCTGAACTTCAACGGCAAACTCGACCAAGCGGCATACACCCAGGCACTGCGGTGGTGCGCTGTCGCGACCGGCTCATGGCAAACCATGTTCGAAGCCTGCGCCAGCTTCAAGATCGAAGGTGGCACCAGCAGGCTGGCCGAAGCCATCCTCGCCGATTCCACCGCTGACGTGCGCCTCAACGACGCGGTTGTTTCAATCACACAGGACGACGATGGAGTCACCGCCCGCACGGCCAGCGGCCAAGAGTACAAAGCACGTGAACTCATTCTCGCGCTGCCCCTCTCTGTGCTGAACGACATCGACTTCCAGCCCCCGCTCTCCCCCACCAAACGCGAAGCCGCCGCACGCGGCCAAGCCGGGCGGGGAGCGAAGCTCTGGGTCAAGGTCCAGGGACGGCAGGAAAGATTCGTCGCGTTCGGCCCCGAAGACGCCCCGCTCAATTTCGTGCAGGCCGAATACATTGACGACGACAGCACCACACTCGTGTGTTTCGGCCCCGATGCAGGCGCCGTCCCCGTCGATGACATCGAAGCCGCCCAGCGTATCCTCGACACCCTGGTTCCCGGATTAACGGTCCTTGAGGTTGCAGGACACAACTGGGTGGAGGACCAGCATTCCCGCTCAACCTGGCCCATGCACTACACCGGCTACCTGACCATTTCCCTTCCCGAACTGCAGCGGCCCGAAGGACGAATCCGGCTCGCCGGCTCAGACTTCGCTAACGGCTGGGGCGGGTTCATCGACGGGGCCATCGAAAGCGGACTCAACGCCGCCCGGGCGGTCGGCGAACAGTTGGCTGCCCCGGCAACCGCCAACACCATCACCAACCCGGCGCGACAACCAGTACCGGCCCCATAA	METSDVLIVGAGFAGLIAARELSRRGHKTTLLEARDRIAGRTFLEERMGRNLELGGTWVHWTQPYVWAEMGRYGINPIPGPEFTKAYWNVNGHRHEGHADDVLELLDAPNQALLADARRYFPLPWAPLTNPDVADIDGITLSDAIDRLELPENRHELLRSFWALNFNGKLDQAAYTQALRWCAVATGSWQTMFEACASFKIEGGTSRLAEAILADSTADVRLNDAVVSITQDDDGVTARTASGQEYKARELILALPLSVLNDIDFQPPLSPTKREAAARGQAGRGAKLWVKVQGRQERFVAFGPEDAPLNFVQAEYIDDDSTTLVCFGPDAGAVPVDDIEAAQRILDTLVPGLTVLEVAGHNWVEDQHSRSTWPMHYTGYLTISLPELQRPEGRIRLAGSDFANGWGGFIDGAIESGLNAARAVGEQLAAPATANTITNPARQPVPAP				NA	NA	NA	NA	NA
D1-17_02233	1410	feaB_1	COG1012	Phenylacetaldehyde dehydrogenase	ATGGAAAGCTACCAAGCACTTTTGGCCTCGATCACGGGCGGAACCGGCGAGACGAGGACGATGCTGGACCCGGCGACCGGCGCAGTGGTTGGTGAGGCGCCCGTTCACACCGTGGAGGACTTGGACCGGGCGGTCGCCGCTGCCGCAAACGCCCAGCCGGCATGGGCGGCGCTCGGACATGAAGGCCGCAGCGCAGCGCTGCTCCGGGCGGCCGATGCCGCGGAACGATCCGCAGAGGAGCTGGCGCGGCTGCTTTCCCGTGAACAGGGCAAGCCGCTAAACGGGCTGAACGCCCGCTTCGAAGTCGGTGCCTGTGTCGCCTGGCTGCGCGCTACCGCGGCCACTGTCCTGGAACCGGAGACGGTGGTGGACGATGGCGAAACCCGCGCCGAGCTGTACTACAAGCCCATCGGTGTCGTAGGCGCCATCGGTCCATGGAATTGGCCCATGATGATCACCACCTGGCAAATCGCCCCCGCCCTGCGCATGGGTAACTCTGTGGTGGTCAAACCATCCGAATACACCCCGCTGAGCGTACTGGCCCTGGCAAAGGTGATCAACGAGGAACTGCCCGAAGGCCTCCTGACTGTCATCTCAGGGGGTCGTGACGTCGGGGAACGCCTGGCCGGGCACCCGGCTGTCGGCAAGATCATGTTCACCGGATCCACCGCCACGGGCAAGGCAATCATCAAATCCTCCGCTGACACCGTCAAACGCCTCACCCTGGAACTGGGCGGAAACGACGCCGGCATCGTCCTGCCCGACGCCGACCCCAAAGCCATCGCCGAAGGCCTGTTCTGGGGCGCATTCATTAACACGGGTCAGACCTGTGCAGCCCTCAAACGGCTCTACGTCCACGAGGACATCTACGAAGCGGTCTGTGAAGAACTCGCCACGATCGCTGCAGCGGCGCCCATGGGCAACGGACTCGACGAGACCAGCGTTCTCGGTCCCCTGCAGAACAAGCAGCAGTTCGACATCGTCAACCGGCTGGTTGAATCCGCCAAAGACTCCGGTGCGCGGATCCTCATGGGAGGCAACCCTCCGCAGGATCAGCCCGGCTACTTTTACCCCACCACTCTGGTCGCGGATATCGACAACGACAATCCCCTCGTGGCCGAAGAACAGTTCGGCCCGGCCTTGCCGATCATCCGCTACAGCACAGTCGATGAGGCGGTCGCCATGGCCAACAGTCTCGAGGTCGGGCTGGGAGCCTCAGTCTGGTCATCCGATCCGGCAGCTGCCCGCGAAGTGGCAGCAAGGATCCAGGCCGGCACCGTGTGGATCAACAAACACGGAGCCGTCGACCCACGGGTTCCCTTCGGCGGTGCCAAGCAATCCGGCTACGGACTGGAGTTCGGCGTCGAAGGTCTCAAAGCCCTCGGCGTACCGCAAATCATCAACGGCTGA	MESYQALLASITGGTGETRTMLDPATGAVVGEAPVHTVEDLDRAVAAAANAQPAWAALGHEGRSAALLRAADAAERSAEELARLLSREQGKPLNGLNARFEVGACVAWLRATAATVLEPETVVDDGETRAELYYKPIGVVGAIGPWNWPMMITTWQIAPALRMGNSVVVKPSEYTPLSVLALAKVINEELPEGLLTVISGGRDVGERLAGHPAVGKIMFTGSTATGKAIIKSSADTVKRLTLELGGNDAGIVLPDADPKAIAEGLFWGAFINTGQTCAALKRLYVHEDIYEAVCEELATIAAAAPMGNGLDETSVLGPLQNKQQFDIVNRLVESAKDSGARILMGGNPPQDQPGYFYPTTLVADIDNDNPLVAEEQFGPALPIIRYSTVDEAVAMANSLEVGLGASVWSSDPAAAREVAARIQAGTVWINKHGAVDPRVPFGGAKQSGYGLEFGVEGLKALGVPQIING				NA	NA	NA	NA	NA
D1-17_02234	1386	abaF_7		Fosfomycin resistance protein AbaF	ATGAGCACGTCCACATACAGTTCGCAGGCGAACCAACGTCGTGTTGCCTTCGCTACCGTCATTGGCACCACCGTTGAATGGTACGACTTCTTCATCTATGCCACGGCTGCCGGGCTGGTGTTCGCCCAGCTGTTTTTCCAGCCAGCCGGCGAATCCATCGGTCTGCTGCTGTCCTTCGCCTCCGTCGGCATCAGCTTTCTCTTCCGGCCCCTGGGCGCCTTCCTCGCCGGCCACTACGGCGACAAGATTGGCCGCCGCGCCATGCTCGTACTGACCCTGGTACTCATGGGCGCCGCAACCACGCTGATCGGCATCCTGCCGACCTACGCGACCGCAGGTGTCATCGCCCCGGTCATGCTGCTGCTACTGCGAATTCTCCAGGGCATCTCCGCCGGCGGCGAATGGGGTGGCGCTGTCCTGATGGCAGTTGAGCACGCCCCCAACGACCGCCGCGGCCGGGCAGGCGCCTTCCCACAAATCGGCGTCCCGCTGGGACTGCTGCTGGCAACCGGCGTCACAGCACTCATGACCGGCGTCATCTCCCCCGGGGCCGCCTTCCTCGAATGGGGATGGCGCATACCCTTCCTGCTGAGCATCGTTCTCATCGTCGTGGGCTACTTCGTCCGCCGCGCCGTGGACGAATCACCCGTCTTCCAGGAAATCTCCGCAGCGAAAAAACAGCCCAAAACACCGATCGTGGAACTGTTCCGCCGTCACGGACTGCTGGTGATCATCGCTGCCGTGATTTTCGCAGGCAACAACGCCGCAGGCTACATGGCAACCGGCGGCTTCATCCCAAGCTACGCCTCCGGCCCCGCCGTCGGTCACGAACGCACCGACGTGCTCCTCGCCGTCACTTACGGCGCCGGCGTCTGGCTTGTCTTCACCTACCTCGCCGGGTACCTCTCGGACAGGATCGGCCGCAAGAACACCTACTTCATAGGATTCGGCGCCCAGCTTCTGGCCTGCTTCCCGCTATTTTGGATGATCAACACAGGGTCCTTGCCGATGCTCTACCTGGCCATGACCATCTTCACCGTGGGTCTGGGACTGTCGTACGGCCAGCAGGCTGCTCTGTACTCGGAAATGTTCCCTGCCTCGGTGCGCTTCTCCGGCGTCTCCATCTCCTACGCCCTGGGTGCGATCCTCGGCGGCGCCTTTGCCCCCACCATCGCCACAGCCCTCGTCCACGCCACCGGCGGAACCGACGCCGTTTCCCTGTACCTCGCGGGAATGACCCTTCTCTCCCTGGTAGCCGTCGCACTAGTACGGGACCGTTCCGGCATCGACCTCTCCATCCGAAACCAGGCCGAACAGGAAATTGGGGCCCTCGTCTTTGACCGACGAACCCCCGAGACCTCAAATGAGCCTGTCCGTACCAATTAA	MSTSTYSSQANQRRVAFATVIGTTVEWYDFFIYATAAGLVFAQLFFQPAGESIGLLLSFASVGISFLFRPLGAFLAGHYGDKIGRRAMLVLTLVLMGAATTLIGILPTYATAGVIAPVMLLLLRILQGISAGGEWGGAVLMAVEHAPNDRRGRAGAFPQIGVPLGLLLATGVTALMTGVISPGAAFLEWGWRIPFLLSIVLIVVGYFVRRAVDESPVFQEISAAKKQPKTPIVELFRRHGLLVIIAAVIFAGNNAAGYMATGGFIPSYASGPAVGHERTDVLLAVTYGAGVWLVFTYLAGYLSDRIGRKNTYFIGFGAQLLACFPLFWMINTGSLPMLYLAMTIFTVGLGLSYGQQAALYSEMFPASVRFSGVSISYALGAILGGAFAPTIATALVHATGGTDAVSLYLAGMTLLSLVAVALVRDRSGIDLSIRNQAEQEIGALVFDRRTPETSNEPVRTN	PGPT0002956_607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_02235	1983	mobA_1	COG0654	3-hydroxybenzoate 4-monooxygenase	GTGCAGTTCCACCACCACGGTTATGTATCCGGTGACCCGAGGGTCCAGCCCGCCGCCGGCGTCGGTGTCGACCGGCCCGCCGAGCTCCCGGACGAAGTTGACGTACTCATCGTCGGTACCGGCCCCGCCGGAATGCTCGCCGCCGCACAACTCTCGCAGTTCCCGAACGTCACCACCCGCATCATCGAGCGGCGCCCCGGACGGCTCGCCATCGGCCAGGCCGACGGCATCCAGGCCCGCAGCGTGGAAACCTTCCAGGCCTTCGGCTTCGCCGAGCGGATCATCGCCGAGGCCTACGCGATCACCGAGATGGCGTTCTGGAAGCCGGACGTCAACGACCCCTCACGAATCGTCCGCACCGCTCGGACCCCGGATGACCCCGCCGGTATCAGTGAGTTCCCACACCTCATCGTCAACCAGGCCAGGGTGCTGGACTACTTCGCAGAATTCATGGCGAACGCACCCACCCGCATGACGCCGGACTACGGCTACGAGTTCGCGGGACTCGAGGTTGCCGACGAGGGGGAGTACCCGGTTACCGTTACGCTCCTTCACACCTCCGGGCCCAACGAGGGCCAGGAGAAGATCGTCCGGGCCAAGTACGTTGTAGGCGCCGACGGTGCACGCAGCAAGGTACGCCAGGCAATCGGCTGCACCCTCGCCGGCGACGCCGCCAACCACGCCTGGGGCGTCATGGACGCCCTCGCCGTCACCGACTTTCCGGACATCCGCACCAAATGCGCCATCCAGTCAGGTGAGGGCGGCAGCATCCTGCTGATCCCACGCGAAGGCGGGCACCTCTTCCGCATGTACGTGGACCTCGGCGAAGTTGACCCCAACGACAAGGGCGCTGTCCGCAACACCACCATCGAGGAAATCATCGGCAAGGCCAACGAAATCCTCCACCCCTACACCCTGGACGTACGCAACGTTGCCTGGCACAGCGTCTACGAAGTAGGGCACCGGCTCACGGACAGGTTCGACGACGTCCTCCCGCATGAGCGCGGCACCCGCACCCCGCGGGTGTTCATCACCGGCGACGCCTGCCACACCCACAGCGCCAAGGCAGGCCAGGGCATGAACGTCTCCATGCAGGACGGCTTCAACATCGCCTGGAAACTGGGCCATGTGCTGGAGGGCCGAAGCCCCGAAAGCCTGCTGTCGACCTACTCGGCAGAGCGTCAGGTGGTCGCGAAGAACCTGATCGACTTTGATAAAGAGTGGTCCACGCTCATGGCCAAGAAGCCCGAGGAGTTTGAAGACCCCTCAGAGCTAGAGAACTTTTACGTCAGCACGGCGGAGTTCCCGGCCGGATTCATGACCCAGTACGCACCGTCGATGCTGGTGGGCGCGGCTGAGCACCCGGCCCTGGCCTCAGGTTTCCCTGTGGGCAAGCGCTTCAAGTCAGCACCCGTGGTGCGGGTGGCCGACACGAATCCCGTGCAATTGGGTCACCATGCCACGGCGGACGGCCGCTGGCGTATTTATGTTTTCGCCGATTCCGGTGTTCCGCTGGAGGGACGGGCGGCGACCGGGAACGGCGTCCCCTCGGCCACGGAACTGTTTGCCGAGTGGATTTCCAAATCTCCGGAGTCCCCGCTTGCTGCCACGCCGTCAGGTGCTGACCCTGATGCCTGGTTCGACGTCAAAGTGGTTTACCAGCAGGATCACCACAGCGTCGATATCGGTGCCGTCCCCGAAGTCTTCAAGCCGCAGGTAGGCCCGTTCAAACTGACGGACTACGAGAAGGTGTACGGCACGGACCCCAGCGCGGACATCTTCGACCTGCGCGGCGTGGACCGCGGCGGCGTCGTGGTGGTGGTCCGTCCGGACCAGTACGTTGCCAACGTCCTTCCGTTGACGGCGACTGCCGAGCTTGGCGCGTTCTTTGCACCTCTCCTGCACCCGGTGAAGCACCCGTCCTCGCGGCTGCCTGGTGTGCCGAGCGCAGATGCAATCAGCACGCCATCAGTCCCGGTTTAG	MQFHHHGYVSGDPRVQPAAGVGVDRPAELPDEVDVLIVGTGPAGMLAAAQLSQFPNVTTRIIERRPGRLAIGQADGIQARSVETFQAFGFAERIIAEAYAITEMAFWKPDVNDPSRIVRTARTPDDPAGISEFPHLIVNQARVLDYFAEFMANAPTRMTPDYGYEFAGLEVADEGEYPVTVTLLHTSGPNEGQEKIVRAKYVVGADGARSKVRQAIGCTLAGDAANHAWGVMDALAVTDFPDIRTKCAIQSGEGGSILLIPREGGHLFRMYVDLGEVDPNDKGAVRNTTIEEIIGKANEILHPYTLDVRNVAWHSVYEVGHRLTDRFDDVLPHERGTRTPRVFITGDACHTHSAKAGQGMNVSMQDGFNIAWKLGHVLEGRSPESLLSTYSAERQVVAKNLIDFDKEWSTLMAKKPEEFEDPSELENFYVSTAEFPAGFMTQYAPSMLVGAAEHPALASGFPVGKRFKSAPVVRVADTNPVQLGHHATADGRWRIYVFADSGVPLEGRAATGNGVPSATELFAEWISKSPESPLAATPSGADPDAWFDVKVVYQQDHHSVDIGAVPEVFKPQVGPFKLTDYEKVYGTDPSADIFDLRGVDRGGVVVVVRPDQYVANVLPLTATAELGAFFAPLLHPVKHPSSRLPGVPSADAISTPSVPV	PGPT0005430_245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZENE|PHENOL_DEGRADATION,PGPT0005430-mobA|pcpB|mhpA-K03380	NA	NA
D1-17_02236	1464			hypothetical protein	TTGGAGCAGGTCAATGGGGACACCTTGGCAGCGGCACGGAAAGTCATCGCTGTGCACATCAACTACCCCAGCCGGGCTGCCCAGCGGGGCCGGACCCCCGCCCAGCCTTCCTACTTCCTCAAGCCTTCGAGTTCCCTCGCCCTGACCGGCAGCAGCGTGGAGCGGCCCGCCGGGTGTGAACTCCTCGGCTATAAAGGCGAGATCGCACTGATCATCGGCAAGGCCGCCCGCAGCATCGGCATCGAGGACGCCTGGAACCATGTAGCTTCCATCACCGCCAGCAATGACCTGGGCGTCTACGACCTGCGCTACGCGGACAAGGGTTCGAACCTCCGGTCCAAGGGCGGGGACGGCTTCACACCCGTGGGCCCGGCACTGATTCCGGCAGACGCCGTCGACCCCGCCAAACTGCGCATCCGCACCTGGCACAACGACGAACTCGTGCAGGACGACACTACGGAGGATCTCCTTTTCCCGTTCGCCCGTCTGGTGGCCGACCTGTCCCAGCTGCTGACCCTCGAAGAGGGCGACATCATCCTCACGGGCACCCCCGCCGGCGCCTCCGTGGCCAAGCCGGGCGACGTGCTTGAGGTGGAAGTTAGCGCCGCTGACGGAAGCCTTACCACCGGTCGCCTTCTCACCACCGTGGAGGAAGGCACGACGCCGTTCGCCGACTTTGGTGCCGGGCCCAAGGTTGATGACCTGCAGCGGGAGGAAGCGTACGGTTCGCGCGAAGCCGCGGGGCTGCCCGCATCCGCACCCGCCCTCTCCCCCGAGTTGAAGGCGAAGCTGGAAAGCGTGGCCACGGCCACCCTGTCGTCCCAGCTGCGGAAGCGCGGCCTTAATAACGTAAGCATTGACGGGCTGCAAGCCACACGCCCCGACCGCCGCGTCGTCGGCCTGGCCCGGACCCTGCGCTATGTGCCCAACCGTGAGGATCTGTTCAAGACCCACGGCGGCGGGTTCAACGCCCAGAAGCGTGCCATCGATTCGGTGAACGAGGGCGAAATCCTGGTCATGGAGGCCCGTGGCGAAAAGGGAACCGGAACGGTGGGTGACATCCTGGCCCTGCGCGCACAGGTGCGCGGTGCGGCTGCCATCATCACCGACGGCGGCGTCCGGGACTTCACCGCCGTGGCGGGCCTGGAGATGCCCACCTACTTCGCCAACCCGCACCCTGCGGTGTTGGGCCGTCGCCACGTCCCGTGGGACACGGACATCACCATCGCCTGCGGCGGCGCCACCGTCCAGCCCGGCGACATCATCATGGCCGACTCCGACGGCATCCTGGTCATCCCGCCGGCCATCGCCGAAGAACTCGTGGATGACTGCATCGCCCAGGAACAGGAAGAAACCTTCATCTTCGAGATGGTCCAGCAGGGTAACAGCGTGGACGGCCTCTACCCCATGAATAAGGAATGGCAGGCCAAATACAAGGAATGGGAAGCAGGCCACAATGACTGA	MEQVNGDTLAAARKVIAVHINYPSRAAQRGRTPAQPSYFLKPSSSLALTGSSVERPAGCELLGYKGEIALIIGKAARSIGIEDAWNHVASITASNDLGVYDLRYADKGSNLRSKGGDGFTPVGPALIPADAVDPAKLRIRTWHNDELVQDDTTEDLLFPFARLVADLSQLLTLEEGDIILTGTPAGASVAKPGDVLEVEVSAADGSLTTGRLLTTVEEGTTPFADFGAGPKVDDLQREEAYGSREAAGLPASAPALSPELKAKLESVATATLSSQLRKRGLNNVSIDGLQATRPDRRVVGLARTLRYVPNREDLFKTHGGGFNAQKRAIDSVNEGEILVMEARGEKGTGTVGDILALRAQVRGAAAIITDGGVRDFTAVAGLEMPTYFANPHPAVLGRRHVPWDTDITIACGGATVQPGDIIMADSDGILVIPPAIAEELVDDCIAQEQEETFIFEMVQQGNSVDGLYPMNKEWQAKYKEWEAGHND				NA	NA	NA	NA	NA
D1-17_02237	681			hypothetical protein	ATGACTGAGACAGCGCTGACCGACCTGCCCGAGTTATCCACTCCTGGAAGCAAGTCCGAACAGGCCTACCAAGCGGTCAAGGCACGCATCGTGGAAGGTACCTACACCCCCGGGTACCGCCTGGTCCTCGGCACCATTGCCAAGGACCTCGGTTTCAGCGTGGTTCCCGTCCGGGAAGCCATCCGCCGCCTCGAGGCCGAAGGCCTGGTGAAGTTCGAACGCAACGTCGGCGCCACCGTCGCAGGGATTGATCCCACCGAATACCTCTACACCATGCAGACCCTGAGCATCGTGGAAGGTGCCGCCACTGCCTTGTCCGCTCCCCTGATCGATTCGGTGGCAATTGCCCGGGCCCGCGCAGTGAACAAGGAGATGCGCGAGTGCCTGGACCACTTTGACCCGGTTGGGTTCACCCAGTTGAACCAAGACTTCCATCGCGTGCTGTTCGAGCACTGCCCCAACCCGCACATCCTGGACCTTGTCTACCGCGGCTGGATCCGGCTGGCCTCCCTTCGGTCCTCCACCTTCCGTTTTGTCCCGGGCAGGGCCCGCGCCTCAGTGGAAGAACACGAAGCACTCCTGAAACTGATCGAAACCGGCGCCGATGCGGACACCATCGAAAAAGCAGCCCGCCTCCACCGCTCCGCCACCCTCAACGCTTACCTCGCCCAATCCAACTAG	MTETALTDLPELSTPGSKSEQAYQAVKARIVEGTYTPGYRLVLGTIAKDLGFSVVPVREAIRRLEAEGLVKFERNVGATVAGIDPTEYLYTMQTLSIVEGAATALSAPLIDSVAIARARAVNKEMRECLDHFDPVGFTQLNQDFHRVLFEHCPNPHILDLVYRGWIRLASLRSSTFRFVPGRARASVEEHEALLKLIETGADADTIEKAARLHRSATLNAYLAQSN				NA	NA	NA	NA	NA
D1-17_02238	1542	amnC_1		2-aminomuconic 6-semialdehyde dehydrogenase	ATGACGACCGCAGTAGAAACCACCCACCACCACATTCCGGAAAACCTGCCCACGCATCTCCAGCACTTCATCGACGGCAAGTTCGTTGACTCCGTAGGCGGCAAGACCTTCGACGTGCAGGAGCCGGTCACCAACGAGAACTACGCCACGGTCGCCTCAGCCCAGCCGGAAGACGTCGACCTCGCCGTCGCCGCCGCCAAGCGGGCCTTCAAAGAAGGCCCCTGGTCCAAGATGCTGCCCCGCGAACGCTCACGCGTGCTGCACAAAATCGCCGACATCGTCGAATCACGCGACGACGAACTCGCCCTCCTCGAGAGCTACGACTCCGGCCTGCCCATCACCCAGGCCAAGGGACAGGCCCGCCGCGCCGCCGAAAACTTCCGCTTCTTCGCTGACCTCATCGTCGGGCAGGAGGACAACGCCTTCAAGGTGCCCGGTCGCCAGATCAACTACGTGAACCGCAAGCCGATCGGCGTCGCCGCCCTCATCACACCCTGGAACGTCCCGTTTATGCAGGAGTCGTGGAAGCTCGCCCCGGCCATCGCAACGGGCAATACCGTGGTTATGAAGCCGGCCAGCTACACCCCGCTCTCGGCCGTGCTGTGGCCCGAGATCTTCCGCGAAGCAGGCCTGCCCGACGGGGTCTTCAACCTGATCTTTGGATCCGGCGGCGTCGCCGGTGACTACCTCGTCAAGCACCCCGACGTGCCGATCGTCTCTTTCACGGGTGACAGCTCAACCGGTGCCACGATCTCAACCGCGGCCGCCCCCCAGTTCAAGAGCCTCTCGCTCGAGCTCGGTGGCAAGAGCCCGGCCGTCGTCTTCGCCGACGCTGACATCGAGGCCGCCCTCGATGCCACGGTCTTCGGTGTCTTCAGCCTGAACGGTGAGCGTTGCACCGCTGGGTCCCGGGTGCTCGTGCAGCGCGACATCTACGACGACTTCGTAGCCCGGTTCGCCGAGCGCGCGAAGAACATCAAGGTGGGTCTCCCGAGCGATCCTGCAACCGAGGTCGGCTCGCTCGTGCACCCGAACCACTTCGACAAGGTCATGAGCTACATCGAGATCGGCAAGACCGAGGGCCGGCTCCTGGCCGGCGGCGGACGGCCGGAAGGCCTCCCGGAGGGCAACTACGTTGCACCGACCGTGTTCGCCGACGTCGCCCCCGACGCCCGGATCTTCCAGGAGGAAATCTTCGGTCCCGTCGTCGCGATCACCCCCTTTGACACGGACGAAGAGGCCCTCGAGCTCGCGAACAACACCAAATACGGCCTCGCTGCCTATGTCTGGACGACGAGCCTGAAGCGTGCGCACAACTTCGCACACGCTATTGAGGCGGGCATGGTGTGGCTGAACTCGAACAACGTCCGCGACCTGCGCACCCCGTTCGGCGGCGTGAAGGCCTCGGGCCTGGGCCGCGAGGGCGGGTACCGCTCAGTCGACTTCTACACCACCCAGCAATCGGTACAGATCACCCTTAACGAGGCCCACTCCCCGAAGTTCGGCAACGTCGAAGACTCGGCAGCAACCAGCGACAGCTAA	MTTAVETTHHHIPENLPTHLQHFIDGKFVDSVGGKTFDVQEPVTNENYATVASAQPEDVDLAVAAAKRAFKEGPWSKMLPRERSRVLHKIADIVESRDDELALLESYDSGLPITQAKGQARRAAENFRFFADLIVGQEDNAFKVPGRQINYVNRKPIGVAALITPWNVPFMQESWKLAPAIATGNTVVMKPASYTPLSAVLWPEIFREAGLPDGVFNLIFGSGGVAGDYLVKHPDVPIVSFTGDSSTGATISTAAAPQFKSLSLELGGKSPAVVFADADIEAALDATVFGVFSLNGERCTAGSRVLVQRDIYDDFVARFAERAKNIKVGLPSDPATEVGSLVHPNHFDKVMSYIEIGKTEGRLLAGGGRPEGLPEGNYVAPTVFADVAPDARIFQEEIFGPVVAITPFDTDEEALELANNTKYGLAAYVWTTSLKRAHNFAHAIEAGMVWLNSNNVRDLRTPFGGVKASGLGREGGYRSVDFYTTQQSVQITLNEAHSPKFGNVEDSAATSDS	PGPT0005060_151	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005060-dmpC|xylG|praB-K10217	NA	NA
D1-17_02239	1080	bphC		Manganese-dependent 2,3-dihydroxybiphenyl 1,2-dioxygenase	ATGACCAACTTCGTTCCCACTCCCACCGTTCCTGCCCCGGATATCGTGCGCTGCGCCTACATGGAGATCGTGGTCACGGACCTCGCCAAATCGCGGGCGTTCTACGTCGATGTCCTGGGCCTGCACGTCACCGAGGAAGATGAAAACACCATCTACCTGCGCTCCCTTGAGGAGTTCATCCACCACAACCTGGTCCTGCGCCAGGGCCCCATCGCCGCCGTGGCAGCGTTCGCCTACCGGGTGAAGTCTCCCGCCGAGGTGGACGCCGCCGAGGCCTATTACAAGGAACTGGGGTGCCGGACCGAGCGCCGCAAGGAAGGCTTCACCAAGGGCATCGGGGACTCCGTCCGCGTCGAGGACCCGCTGGGCTTTCCCTACGAGTTCTTCTACGAGACCGAGCACGTGGAGCGCCTCACCCAGCGCTACGACCTCTATTCCGCCGGTGAGCTGGTGCGCCTGGACCACTTCAACCAGGTCACCCCGGACGTTCCCCGCGGCCGGGCGTACCTCGAGGACCTGGGCTTCCGCGTCTCCGAAGACATCAAGGACTCCGACGGCGTCACGTACGCCGCGTGGATGCACCGCAAGCAGACGGTCCACGACACCGCCCTGACCGGCGGCAACGGCCCGCGCATGCACCACGTCGCGTTCGCCACCCACGAGAAGCACAACATCATCCAGATCTGCGACAAGATGGGCGCCCTGCGCATCAGCGACCGGATCGAGCGCGGCCCCGGCCGGCACGGCGTGTCCAACGCGTTCTACCTCTACATCCTGGACCCGGACGGCCACCGCATCGAGATCTACACCCAGGACTACTACACCGGCGACCCGGACAACCCCACCATCACCTGGGACGTCCACGACAACCAGCGCCGCGACTGGTGGGGCAACCCCGTGGTCCCGTCCTGGTACACCGAGGCCTCCCTGGTCCTGGACCTGGACGGCAACCCCCAACCAGTGATCGAACGCGAGGAAAAGAGCGAAATGGCCGTCACCGTCGGAGCCGACGGCTTCTCCTACACCCGACCCAGCGAAGCAGCCGGGGCTGAGGGCTTCAAGCTCGGCGCGCAGCTCTAG	MTNFVPTPTVPAPDIVRCAYMEIVVTDLAKSRAFYVDVLGLHVTEEDENTIYLRSLEEFIHHNLVLRQGPIAAVAAFAYRVKSPAEVDAAEAYYKELGCRTERRKEGFTKGIGDSVRVEDPLGFPYEFFYETEHVERLTQRYDLYSAGELVRLDHFNQVTPDVPRGRAYLEDLGFRVSEDIKDSDGVTYAAWMHRKQTVHDTALTGGNGPRMHHVAFATHEKHNIIQICDKMGALRISDRIERGPGRHGVSNAFYLYILDPDGHRIEIYTQDYYTGDPDNPTITWDVHDNQRRDWWGNPVVPSWYTEASLVLDLDGNPQPVIEREEKSEMAVTVGADGFSYTRPSEAAGAEGFKLGAQL	PGPT0005055_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446	NA	NA
D1-17_02240	786	hpcG_1		2-oxo-hept-4-ene-1,7-dioate hydratase	ATGCTGGATGCCAAGACGATTGAGGCCATCACCGACGAACTGGTCGAGGCCGGCCGGACCCGCACCCCCATTCCCCGCTTGACTGCCCGGTATCCGGAGATGACGGTGGAGGACTCCTATGCCGTGCAGCAGTTGTGGCGGCGCCGCAACGAGGACGCCGGCCGGACCCTGGTGGGGCGGAAGATCGGCCTCACGTCCAAGGCCATGCAGGACGCCACCGGCATCACCGAACCGGATTACGGGGCCATCTTCGATGACATGGTGCTGGAAACAGGCTGCTCGGTGGAGTGGGACCAGTACACCCATCCGCGCGTGGAGGTGGAGCTGGCGTTTGTCCTGAAAGAGGGGCTCAAGGGCCCGGGCTGCAGCATCTTCGACGTCCTGAACGCCACGGACTACGTGGTTCCGGCCCTGGAAATCCTCGATTCCCGGATCGAGATGGAGGGCCGGACCATCGTGGACACCATCTCCGACAACGCCGCCATGGGCGCCATGGTGGTGGGCGGCCGCCCGGTGAAGCCGGACGCCGTCGATCTCCGCTGGGTCTCGGCCATCCTCTACAAGAACCAGACCGTGGAGGAAACCGGCGTGGCCGCCGGAGTCCTGGACCACCCGGCCAACGGCGTCCACTGGCTCGCCAACAAGATCGCCTCCCACGGCGACAGCATGAAGGCCGGGGACATCATCCTCGCCGGCTCCTTCACCCGCCCGCTCTGGGTCTACAAAGGCGACACCGTCCACGCCGACTATGGACCCCTGGGGAGTGTCACATGCCGTTTCGTATAG	MLDAKTIEAITDELVEAGRTRTPIPRLTARYPEMTVEDSYAVQQLWRRRNEDAGRTLVGRKIGLTSKAMQDATGITEPDYGAIFDDMVLETGCSVEWDQYTHPRVEVELAFVLKEGLKGPGCSIFDVLNATDYVVPALEILDSRIEMEGRTIVDTISDNAAMGAMVVGGRPVKPDAVDLRWVSAILYKNQTVEETGVAAGVLDHPANGVHWLANKIASHGDSMKAGDIILAGSFTRPLWVYKGDTVHADYGPLGSVTCRFV	PGPT0005055_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446	NA	NA
D1-17_02241	804	hpcH_1	COG3836	4-hydroxy-2-oxo-heptane-1,7-dioate aldolase	ATGCCGTTTCGTATAGAACACACCTTCCGCGATGCCCTCGCCGCCGCGAACCGTCCGCTGGCCGGGATGTGGGTGTGCTCCGGCAGCCCGCTGATCGCTGAGCTCTGCGCGGGTTCCGGGCTGGACTGGCTCCTGGTGGACGCGGAGCACAGCCCCAACGGGCTCGAATCCATCCTCGCCCAGCTTCAGGCCACCTATGGCTACCCCGTCCACACCCTGGTCCGCCCGCCAGTGAACGACACCGTGGTGATCAAGCAATACCTGGACCTGGGCGTGCAGAACCTGCTCATCCCGATGGTCAATTCGGTAGCCGAAGCGGAGGCTGCAGTGGCCGCCACGCGTTACCCGCCCGAGGGTGTCCGAGGGGTTGGGTCGGCGCTGGCCCGCGCGGCACGGTGGAACCGGGTGCCGGACTACCTGGGGCGGGCCAATGAGACCATCAGCGTCACCGTCCAGATTGAATCGACGGCGGCAGTGGACGCGGTGGAGGACATCGTCAAGGTCGACGGCGTGGACGCCGTCTTCGTCGGCCCCTCCGACCTGGCTGCGTCCATGGGCCTGCTGGGCCAGCAGGACCACCCCGAGGTGCGCGCCGCCGTCGAACACTGCCTGTCCGCGGCCAAGGCGGCCGGCAAGCCGGCCGGCGTGAATGCCTTCAACCCCGATACCGCCCGGCACTACCTGGCTAACGGCGCCACCTTCATTCTGGTCGGCGCCGACGTGGCCCTCCTGGCCCGCGGGTCCGAAGCCCTCGCCGCGCAATACATACAGCCCACTGGCGGCGATACTCCTGCCAGCTACTAG	MPFRIEHTFRDALAAANRPLAGMWVCSGSPLIAELCAGSGLDWLLVDAEHSPNGLESILAQLQATYGYPVHTLVRPPVNDTVVIKQYLDLGVQNLLIPMVNSVAEAEAAVAATRYPPEGVRGVGSALARAARWNRVPDYLGRANETISVTVQIESTAAVDAVEDIVKVDGVDAVFVGPSDLAASMGLLGQQDHPEVRAAVEHCLSAAKAAGKPAGVNAFNPDTARHYLANGATFILVGADVALLARGSEALAAQYIQPTGGDTPASY	PGPT0001575_247	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
D1-17_02242	1506	sad_1		Succinate-semialdehyde dehydrogenase	ATGACCACTTCGCCCTTAACTTCCCCTGCCATCTCACAGGAACGGGAAGCGTCCCTCCTCGCTTCCGTGCCCACTGGCCTGCTCATTAATGGCGAGTGGCGGGACGCCTCCGACGGCGGCACCTTCGACGTCCATGACCCCGCCACCGGAAAGGTGCTCGCCACCCTCGCCTCGGCCACCAGCGAAGACGCCGTGGCGGCGCTTGATGCGGCTGACGCGGTCCAGGCATCCTGGGCGCGGACCGCCCCGCGGGTGCGGGCCGAGATCCTGCGTCGCGCCTTCGACCTGGTCACCGAACGCGCCGAAGACTTCGCTTTGCTCATGACCTTGGAGATGGGCAAGCCGCTGGCCGAGGCCCGCGGTGAAGTCACCTATGGTGCCGAGTTCCTGCGCTGGTTCTCCGAAGAAACCGTCCGGGACTACGGCCGCTACCTCACCACCCCCGAGGGCAAGAACAAAATTTTGGTCCAGCACAAACCCGTCGGGCCCTGCCTGCTCATTACCCCGTGGAACTTCCCGCTGGCGATGGCCACCCGCAAGGTCGCCCCCGCCGTCGCAGCCGGGTGCACCATGGTCCTCAAGCCCGCCAACCTCACCCCACTGACTTCCCAGTTGTTTGCGCAGACCATGATGGAAGCCGGCCTGCCTGCCGGAGTCCTCAACGTCGTTTCGACCTCTAAGGCCTCCGGTATCTCCGGACCCCTGCTGAAGGACTCCCGGCTCCGGAAGGTCTCCTTCACCGGCTCAACCCCGGTGGGCAAACGCCTAATGGCCGATGCGGCCCAAAACGTCCTCCGCACCTCCATGGAACTCGGCGGTAACGCGCCGTTCATCGTGTTCGAGGACGCGGACCTGGACGCCGCCGTCGAAGGTGCCATGGCCGCGAAGATGCGGAACATGGGCGAAGCCTGCACCGCGGCCAACCGGTTCCTTGTCCAGGAATCCGTCGCGCAGGAGTTCACCCGGAAGTTTGCCGCCGCGATGGGCGCCCTGACCACCGGCCGCGGCACTGACCCCGCCACCCAGGTCGGCCCGCTCATTGACGCCGGCGCCAGGGATGATGTGCACGCCCTGGTGAATGCCGCCGTCGACGCCGGGGCCACCGCCATCACCGGCGGAGCACCCGTGGACGGGCCCGGCTACTTCTACCAGCCCACCGTCCTCGGTGGAGTTCCCAACGACGCAGCAATCCTGGGCCAAGAAATCTTCGGCCCCGTCGCCCCCGTCACCACCTTCGCCACTGAAGAGGACGCCATTCGCCTGGCCAACGCCAGCGAATACGGCCTCGCGTCCTACCTCTACAGCCGCGACCTCAACCGCCTCCTGCGTGTGGCCGAACAGATCGAATTCGGCATGGTCGGGTTCAACGCCGGCGTCATCTCCAACGCCGCAGCACCCTTCGGCGGCGTCAAACAATCCGGCCTCGGCCGCGAAGGCGGATCAGAAGGCATCGCCGAATACACCACCACCCAATACATCGGCATCGCCGACCCCTACGCGAGCTAG	MTTSPLTSPAISQEREASLLASVPTGLLINGEWRDASDGGTFDVHDPATGKVLATLASATSEDAVAALDAADAVQASWARTAPRVRAEILRRAFDLVTERAEDFALLMTLEMGKPLAEARGEVTYGAEFLRWFSEETVRDYGRYLTTPEGKNKILVQHKPVGPCLLITPWNFPLAMATRKVAPAVAAGCTMVLKPANLTPLTSQLFAQTMMEAGLPAGVLNVVSTSKASGISGPLLKDSRLRKVSFTGSTPVGKRLMADAAQNVLRTSMELGGNAPFIVFEDADLDAAVEGAMAAKMRNMGEACTAANRFLVQESVAQEFTRKFAAAMGALTTGRGTDPATQVGPLIDAGARDDVHALVNAAVDAGATAITGGAPVDGPGYFYQPTVLGGVPNDAAILGQEIFGPVAPVTTFATEEDAIRLANASEYGLASYLYSRDLNRLLRVAEQIEFGMVGFNAGVISNAAAPFGGVKQSGLGREGGSEGIAEYTTTQYIGIADPYAS	PGPT0001580_741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-17_02243	285			hypothetical protein	ATGGCCCGAGGGAGACCCCTGCTACGTCCACCACGCACTGCGGAAGTTAGACACTTGAAATTCTTACCTCCCAGTGATGCCGTCTACATCCGGGACTGGACCATGCTCACATCCGGAGAAAAAGTTGCCATCGTCCAAGACGACGAACCTGAAATATCCGGTCGCGTTGACGCTGTAACTGAAGACGGTCTAATCCTCTGGCTGCACCTGGACTCCGGGGCAGGACGCAAACTATTCACACGCACCACCGGCGCTCTCGTCTGGCGCCTGCAAGAAAGCAGATAG	MARGRPLLRPPRTAEVRHLKFLPPSDAVYIRDWTMLTSGEKVAIVQDDEPEISGRVDAVTEDGLILWLHLDSGAGRKLFTRTTGALVWRLQESR				NA	NA	NA	NA	NA
D1-17_02244	630	eda_2	COG0800	KHG/KDPG aldolase	ATGGCTAATGCCACCAGCGTCCTGCACATCTCACCGGTCATTCCGGTGGTAACCATTAATGACCCGCAACATGCCGTTCCCCTTGCCAAGGCCCTGGTCGCCGGCGGCGTCAGCATCATCGAGCTCACGCTCCGCACCGAAAGTGCGCTTACGTCACTAAAGCTCATCGCCAACGAGGTGCCCGACATCCTCGTCGGGGCAGGCACAGTACTGACCCCCGGCCAGGCGGACGCGGCAGTCGCCGCCGGAGCGCAGTTCCTCGTCAGCCCCGGCGTGACGCCGTCCCTGCTGGACCACATGCTGACCCTCGGCATCCCTGTCCTGCCCGGCGTAGCCACAGTGGGCGAGGCAATGGCAGTGCTCGAGCGCGGGCTGGACACCCTAAAGTTCTTCCCAGCAGGACCAGCCGGTGGCCCCGACTATCTCGCCGCCATCGGAGCTCCCATCCCACAGGTCCAATTCTGCCCCACCGGAGGAATCAGCCTCGCTTCCGCACCGGCCTACCTTGCGCTGCCCAACGTATCCTGCGTCGGCGGCAGCTGGATCACCCCCCGCAGCGCCATCGAAAACCAGAACTGGCACCAAATCACCCAGCTCGCCGAAGGGGCTGCCGCACTACGCATAGAGTGA	MANATSVLHISPVIPVVTINDPQHAVPLAKALVAGGVSIIELTLRTESALTSLKLIANEVPDILVGAGTVLTPGQADAAVAAGAQFLVSPGVTPSLLDHMLTLGIPVLPGVATVGEAMAVLERGLDTLKFFPAGPAGGPDYLAAIGAPIPQVQFCPTGGISLASAPAYLALPNVSCVGGSWITPRSAIENQNWHQITQLAEGAAALRIE	PGPT0002060_3351	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0002060-eda-K01625	NA	NA
D1-17_02245	1416	por_1	COG0246	Polyol:NADP oxidoreductase	GTGCCTGCCAGCACCTTCCGGCCCGGCATTGTGCACTTAGGCCTTGGCGCCTTTGCCCGGGCCCACACTGCCGTGTTCACTGAAAACGCCATGCTCGCCACCGGCGCGTCCGGCTGGGGAATCGTTGGGGTGACCCAGCGCTCAGACACAGTCGCACGCCAACTGGCGCCTCAGGACGGGCTGTTCACCGTTGCCGAGCGTGGCATCGGCGCCGCGCCGCTCCGCGTTGTTTCCAGCATCGTGGAAGCCATCTCCGGCAGGGACAACCCGGGAACTGTCGTGGACCGGATCGCCGCACCCACCACGCACGTGGTGACACTGACCATCACCGAAAAGGGCTACCGGATAGATCCCCACACCGGATCGCTCAACACCACAGATGAACAGGTGCAGGCCGACCTTGCCGGGCACCCGCCCCTGACGGCGATCGGGCAGCTTACCCGGGGAATCCAGGAGCGTGCCCGCAACGGGGGAGGGCCCCTCACCGTCGTCTCCTGCGACAACCTCCCGGGCAACGGGGAGCTGACCGGAAACCTGGTCCGCGGCTTTGCCAGAGCCCTCCCCAATGCGGAAGCAGGGCCGCTGCTGGCATGGCTGGATGCAAACGTGACGTTTCCCAGCACCATGGTGGACCGCATGGTCCCGGCCACCACCAGCGCCGACCTTAACGCCGTCGAACTCGAACTCGGGCTGCGCGACGAAGCCGCCGTGGTGGCGGAACCCTTCATGCAATGGGTCATTGAGGATAACTTTGCCGGGGACCGACCAGCCTGGGAGGAAGCCGGCGCGCTGTTCAGCAACGACGTCGCCGCCTGGGAAGCTGCAAAGTTGCGACTGCTCAACGCCAGCCACTCGCTGCTCGCCTACCTCGGTCTTGCCACGGGCATAAAGACCATCAGTGACGCCGTGAGGGAGGACTCCTTCCGCACAGCATGCCGACTGATGCTCGCCGAGGACGCCCTCCCCACCGTCAGCCTGCCTGACGGCCTGGACGGTGAAACCTACTGCTCCGAGATCCTGGAACGTTTCGCGAACCCCGCCCTGGGACACACCACGGCCAAGGTGGGAAGTGACGGCTCCCAGAAAATCGGCCTGCGCCTACTGACCACAATCCGCGCCAACCTTGATGCCGGCCGCGCGCCCCGGTGGGCTGCCCTCGCTGTCGCCGCATGGATGCACCACGTGGCCTCCACCGGCACAAAGGAGCTGAATGACCCACTTGCCGCCGAGCTCCAAGCCGTGCTTCCCGCCAACCGGACAGCGGACAATGTCATTCCGGCGCTCCTTAACTGCCGCAGCATCTTCGACGCCGAACTCGCCGCAGACAGCACCTTCGCAGGGCTCCTCATGCACTGGTACCGCATCATTGATACCCAAGGCCTGGACGGCCTAAGAAACGAGATCAACCATGGCTAA	MPASTFRPGIVHLGLGAFARAHTAVFTENAMLATGASGWGIVGVTQRSDTVARQLAPQDGLFTVAERGIGAAPLRVVSSIVEAISGRDNPGTVVDRIAAPTTHVVTLTITEKGYRIDPHTGSLNTTDEQVQADLAGHPPLTAIGQLTRGIQERARNGGGPLTVVSCDNLPGNGELTGNLVRGFARALPNAEAGPLLAWLDANVTFPSTMVDRMVPATTSADLNAVELELGLRDEAAVVAEPFMQWVIEDNFAGDRPAWEEAGALFSNDVAAWEAAKLRLLNASHSLLAYLGLATGIKTISDAVREDSFRTACRLMLAEDALPTVSLPDGLDGETYCSEILERFANPALGHTTAKVGSDGSQKIGLRLLTTIRANLDAGRAPRWAALAVAAWMHHVASTGTKELNDPLAAELQAVLPANRTADNVIPALLNCRSIFDAELAADSTFAGLLMHWYRIIDTQGLDGLRNEINHG	PGPT0018275_737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
D1-17_02246	981	RBKS_3		Ribokinase	GTGAACCCCTCAACAATGCATATCGAGAACCAGCCGTTCGACGTCGTCGTGATGGGCGAGATCCTCGTCGAAGTGGCAACAGACGTGGCCTTTGGGCACGGCGTGCCCGCCCAGCTCGGCATCTCCGGAGACGCCCTGAACGTCGCCGCGGCCGCTGCTGCAGCCGGCGCCCGCGTGGGCCTGCTGTCGGTCCTTACCGACGACGATCTCGGCAAGGCGATCGCCGCCCGGATCGTCGAACTCGGCATTTCCCCCGACCTCCTGAAGTTCCGGCAAGGACAGCAGGGCGTCTACCTGGTGCACTGCGACCCCAATGGGCAGCGCGAGTTCTCCTACGCCCGCAGCGGCAGTGTGGGTTCCAGCCTTGGCCCCGACGACGTCGACCCCGCAGTGTTCTCGGCCGCGGGCGCAGTAGTTGCGGGCGGGATCGCGTGCGCCATCTCGGAATCTTCCCGGGCTGCAGTGCTGAAGGCTGCGGCGCTTGCCAAACGCTTCGTGTTCGATCCCAACTTCCGCCCCCGCCTCACGTCAGCAGAGGATGCGGCGGCAGTGCTCCTCCAGCTCGCACCGCGGACTTTCCTGGCGACGCCGTCCTTTCCGGGCGAAACATCTGCACTGCTGAGCTGTTCCACAGCGAGGGAGGCAGCAGCAAAACTGCGCAGCCTGGGCGCAGCGAACGTAGCCGTGACGTGCGGAGCCGAGGGCATCCAGCTTGAAGGCGAAGACCAGGACAGCACGTGGATCGACTCGATCCCCGCCCCCGCCGTCGTGGACCAGACCGGGGCAGGGGACGCATTCGTGGGCACGCTGACCGCGCGGATGGTCCTCGGTGACGCCCTCTCCGTTGCTGCCCGGTACGGCGCGGCGGCGGCGTCCCTTGTTGTCGGCGGCAAGGGTGGGACAGGATTCATCCCCACCTTCGAACAGACCCGTACCCATGCTGCCGGATCCGCCGAAGGAGCACTGTCATCACACGCCTAA	MNPSTMHIENQPFDVVVMGEILVEVATDVAFGHGVPAQLGISGDALNVAAAAAAAGARVGLLSVLTDDDLGKAIAARIVELGISPDLLKFRQGQQGVYLVHCDPNGQREFSYARSGSVGSSLGPDDVDPAVFSAAGAVVAGGIACAISESSRAAVLKAAALAKRFVFDPNFRPRLTSAEDAAAVLLQLAPRTFLATPSFPGETSALLSCSTAREAAAKLRSLGAANVAVTCGAEGIQLEGEDQDSTWIDSIPAPAVVDQTGAGDAFVGTLTARMVLGDALSVAARYGAAAASLVVGGKGGTGFIPTFEQTRTHAAGSAEGALSSHA	PGPT0018060_1948	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
D1-17_02247	1212		COG4948	D-galactonate dehydratase family member	GTGAAGATCACCGACGCACGGGTAGTGGTTTCGTCGCCAGGACGGAATTACGTCACCCTCGTTATCGAAACCGAGGACGGCATCACCGGCATCGGCGACGCCACGCTCAACGGCCGTGAGATGGCGGTCGCATCCTACCTGTCCGAGCACTTGTGCCCGATGCTGATTGGCCGCGATGCGCGTCGGATTGAGGACGCGTGGCAGTACTTCTACAAGGGGGCTTACTGGCGCCGCGGGCCGGTGACCATGACGGCGATCGCCGCCATTGATGTCGCGCTTTGGGACATCAAGGGTAAGGCAGCGGGCATGCCCGTCTACGAGCTGTTGGGCGGTGCGGCCCGCGAGGGTGTCATGGTCTACGGCCACGCCAGTGGCTCCACGCTGCAGGACCTCAGCGCCGACTTCCAGCACCACCTGGACCTCGGCTACAAGGCCATCCGGGTCCAGGCAGCGGTGCCCGGCCTGGACAAAACCTACGGCATTGCGCCGGTGGACGGGAAGCTGTACGAGCCTGCTAGCGGCAACGTCCCGCAGGAGGACACCTGGGAGACGTCGGCGTACCTGGACTTCGCACCCAGGATGATGGCGCACGTCCGTGAGGAATTCGGCTACTCCACCCATGTCCTGCACGACGTGCACCACCGCCTCTCCCCGATCGAGGCAGGGCGGCTGGGCGCCTCGCTGGAGCAGTACCGGCCGTTCTGGATCGAGGATCCCACGCCGGCGGAGGACCAGTCAGCGTTCCGCCTGATCCGCCAGCACACTACTACACCCATCGCAGTGGGTGAGGTATTCAACTCCATCTGGGACTGCCAGCAGCTGATCACCGAACGGCTGATCGACTACATCCGCACCTCCGTTTCACACTCCGGCGGCATCACGCACCTGCGCCGGATCTTCTCACTGGCGGATCTGTACGGTGTCCGTTCGGGCTCCCACGGTGCGGGCGATCTTTCCCCTGCTTCGTTCGCTGCGGCGCTGCACGTGGATATGAGCATCCCGAACTTCGGCATCCAGGAGTACATGGGCCACCGGGAACCGGCCAACGAAGTGTTCACCACGTCCTACACCTTCACCGACGGCTACATGCACCCCGGAGACGCCCCCGGCATCGGCGTGGAGTTCAACGAGGAAGCCGCCGCCCGCTTCCCCTTCAACCCCAAATACCTGCCCATCAACCGGCGGCTCGATGGATCGGTGCACGACTGGTGA	MKITDARVVVSSPGRNYVTLVIETEDGITGIGDATLNGREMAVASYLSEHLCPMLIGRDARRIEDAWQYFYKGAYWRRGPVTMTAIAAIDVALWDIKGKAAGMPVYELLGGAAREGVMVYGHASGSTLQDLSADFQHHLDLGYKAIRVQAAVPGLDKTYGIAPVDGKLYEPASGNVPQEDTWETSAYLDFAPRMMAHVREEFGYSTHVLHDVHHRLSPIEAGRLGASLEQYRPFWIEDPTPAEDQSAFRLIRQHTTTPIAVGEVFNSIWDCQQLITERLIDYIRTSVSHSGGITHLRRIFSLADLYGVRSGSHGAGDLSPASFAAALHVDMSIPNFGIQEYMGHREPANEVFTTSYTFTDGYMHPGDAPGIGVEFNEEAAARFPFNPKYLPINRRLDGSVHDW	PGPT0018285_531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018285-rspA|manD-K08323	NA	NA
D1-17_02248	1026	idnD_2	COG1063	L-idonate 5-dehydrogenase (NAD(P)(+))	ATGAAAGCCGTTGTAGTCCATGGCGCCAATGACCTTCGGATCGACGAACGGCCGGAGCCTGTAGCGGGTCCCGGAGAGGTAGTGCTCGACATTGAATGGGGCGGTATCTGCGGATCCGACCTTTCGTACTGGCGCCACGGCGCGTCGGGGACGGCGGCGCTGAAGTCACCGCTCGTCCTCGGTCACGAGGTGGCAGGACGGATCGCCCAGTTGGGCGACGGCGTGAAGAACCTTGAGGTTGGCCAGCCGGTCACCGTCCACCCCGCAGAACTGGTGGGGGACGGGGTCTTGCCGGACCGCCTGGCCGGGCGCACCAACCTGTACCCGCAAATCCGCTACTTCGGATCCGCTGCCTTTGATCCGCACACTGACGGCGGCTTCAGCGAACGGAAGCTCGCCAAGGCTTCCCAGATCCGGGTGCTTCCCGACGGAGTGGACACGCTCCGCGGAGCCTTGGCCGAACCGCTCGCCGTTGCAATGCATGCAGTCAGCCGTGCCGGTGACCTTACCGGCCGTGATGTCCTGGTCAACGGTGCCGGGCCCATCGGTTCCCTGGTGGTGGCAGCGGCAAAGTACGCCGGCGCCAGGACCGTCATCGCCGCTGACATCAACGACGCGGCGCTGAAGATCGCCAAAGCCATGGGCGCCGATGAGGTCCGGAACGTTTCCGCCGGTGGAAGCCTCCCCGAGGACATGGAGCTGGTGTTCGAAGCGTCCGGCATTCCGGCAGTGCTGGGCGGCGTTCTCCGCGCCACGGCACGTGGCGGCACCCTGGTCCAGGTCGGGAACCTTCCGGGCGCTCCGGCACCGGCCGCCCTGGGCGACCTGGTCACGCGCGAGATCACCTGGATTGGCTCCTACCGCTTCGCGGACGAGATCAGTGACGCCCTCCGCGCCATGGCCGAAGGTCTGGACGTATCCCCGGTCATCACGCACAAGTTCGGGATCGACCAGGCAGCCGAAGCCATGAGGGTTTTCGGAGATCCTGCCGCCGGCAGCAGCAAAGTCATGCTCAAGCTCAGCTGA	MKAVVVHGANDLRIDERPEPVAGPGEVVLDIEWGGICGSDLSYWRHGASGTAALKSPLVLGHEVAGRIAQLGDGVKNLEVGQPVTVHPAELVGDGVLPDRLAGRTNLYPQIRYFGSAAFDPHTDGGFSERKLAKASQIRVLPDGVDTLRGALAEPLAVAMHAVSRAGDLTGRDVLVNGAGPIGSLVVAAAKYAGARTVIAADINDAALKIAKAMGADEVRNVSAGGSLPEDMELVFEASGIPAVLGGVLRATARGGTLVQVGNLPGAPAPAALGDLVTREITWIGSYRFADEISDALRAMAEGLDVSPVITHKFGIDQAAEAMRVFGDPAAGSSKVMLKLS	PGPT0018190_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
D1-17_02249	1383	ydfJ_1		Putative transporter YdfJ	ATGACTAAGAGCATCTCGCCGCCCGTTACCAAGCCGGAAGCAAAGCCGACCCGTGAATTGGCCAAGGTGGCAGTTTCCGGTTGGCTGGGAACTGCCATGGAATTCATGGATTTCCAGCTGTATTCGCTGGCAGCAGCCATCGTGTTCAACAGACTCTTTTTCCCGGACGTCAGCCCGGTGATCGGCCTCATCGCGGCGATGGCAACCTACGGCGTTGGTTATGTTGCCCGTCTTGCGGGTGCCGTTTACTTCGGCCGCATGGGCGACAGGATTGGCCGCAAGAAGGTCCTGTTCATCACGATCGCCCTGATGGGCGCTTCCACCACACTGATCGGTGTTCTCCCCACCTACGCGATGATCGGTATCTGGGCTCCCATCCTGCTGGTGGCATTGCGCCTGGCCCAGGGTTTCGGCGCCGGTGCAGAAATCGCCGGCGCAACCGTGATGCTGGCTGAGTTCGCTCCTGCCCGCCGGCGTGGCCTGATCTCCTCCCTCGTGTGCCTGGGTACGAACTCCGGTACCCTCGCCGCCTCTGCCATCTGGGCAATCCTCGTTTCCACCCTGTCGGAAGAGGACCTGCTCAGCTGGGGCTGGCGCATCCCGTTCCTGTTCAGCTTCGTGCTGATGCTCTTCGCAGTGTGGGTCCGCCACCACGTCAAGGAAAGCCCCGTCTTCGAAGAGCGTGCCGACGTCGTGGACGGCGTGGCACTGTCCAAGCGGGAAATCGCCGCAGCCGAGGAATTGGCTAAGACCAGCACCATCGAAGCTGCCCTGCACCAGCGCAAGGGCAAGGCCTTTCTGATCGCACTCGGCCTGCGCTTCGGCCAGGCAGGCAACTCCGGCCTGATCCAGACCTTCCTCATCGGTTACCTCGCCACCGTCCTCCTCGTCGACAAGAGCGTGGGCACCACCGCCATCATGTACGGCTCACTGCTGGGCTTCATCACGATCCCGGTCATGGGCATGCTCGGTGACCGCTTCGGCCGGCGTCCGCTCTACCTTGCGCTGAGCGCCCTCACCGCACTGTTCGCGATCCCCATGTTGATGATGGTCACCAGTGGAAACACCGTCCTCATCACCGTCGCCATGGTCATCGGCCTGAACCTGGGCGTGCTTAGCCTCTTCGCCATGGAGAGTGTCACCATGGCTGAGTTCTTCGGTGCCCGGACCCGCTTCACCCAGCTCGCCCTGGCCAAGGAAATTGGTGGCATCCTTGCCACCGCCATCGGCCCGCTGCTGGCCGCTACCCTCACCGCAATCACGGGTCACTGGTGGCCGTTGGCCGCGATGCTCATCGCCTACTCGCTGATTACCCTCATCTCGGCCTTCGTGGGTCCCGAGGTTCGTGGCCGCGACATGGTCCGTCTGGAAGACGCAGTATGA	MTKSISPPVTKPEAKPTRELAKVAVSGWLGTAMEFMDFQLYSLAAAIVFNRLFFPDVSPVIGLIAAMATYGVGYVARLAGAVYFGRMGDRIGRKKVLFITIALMGASTTLIGVLPTYAMIGIWAPILLVALRLAQGFGAGAEIAGATVMLAEFAPARRRGLISSLVCLGTNSGTLAASAIWAILVSTLSEEDLLSWGWRIPFLFSFVLMLFAVWVRHHVKESPVFEERADVVDGVALSKREIAAAEELAKTSTIEAALHQRKGKAFLIALGLRFGQAGNSGLIQTFLIGYLATVLLVDKSVGTTAIMYGSLLGFITIPVMGMLGDRFGRRPLYLALSALTALFAIPMLMMVTSGNTVLITVAMVIGLNLGVLSLFAMESVTMAEFFGARTRFTQLALAKEIGGILATAIGPLLAATLTAITGHWWPLAAMLIAYSLITLISAFVGPEVRGRDMVRLEDAV	PGPT0014425_174	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014425-ydfJ-K08173	NA	NA
D1-17_02250	726	rspR_4	COG1802	HTH-type transcriptional repressor RspR	ATGGCAACCGAGAAAAGAGGCACGGCCCCACGGCTGTCCGTGAGGGACCAAACGCTGGAGACGATCCGCCGCCGCATCATCTCCCTCCAGCTGCCCCCCGGCCAGCCGCTCTCTGAGAACGAACTGGCTCAGGAACTGGGCGTGAGCCGGACGCCGGTCCGCGAAAGCCTGATCCTGCTTCGGGAAGAGGGCCTGATCCAAGTCTTCCCCCAGATTGGCTCCTTCGTCTCTCTGGTGGATCTTGGCCGCGTCTCGGAAGCCCAGTTCGTGCGGGAGGCCATCGAATGCGCCTCCCTGCGGGACCTGACCGTGGAAGACGAAGGCGTTACCAGGCTCCGGCTGATACTCAAAAGCCAGACGGAAGCCAATGCACAAAAAGACGTCGAGGAGTTTTTCCGTCTCGACGAAGAATTCCACCGCGAACTCCTCCGGCTTGCCGGGCACGAGTCCGCCTGGGCTGCAGTCAACTCCGCCAAGGCACACCTTGACCGCGCACGGCGCCTAAGCCTGCTGGACACCAGGCCCATAGCAACACTGATCCAACAACACACCGCAGTAGTGGATGCCCTGGAAACAAACAACCTCGATGAAGCCGACAGCTCGCTGCGCCTGCACCTGCGCGGCGTCTTCGAGGACGTCCAGCGAATCCAGGAAACCACCCCTGAGCTCTTCTCCGACGGCACCCTCGCCCGACCCAGCCGCCGAAGCATAGCGCGCCTGTCCTGA	MATEKRGTAPRLSVRDQTLETIRRRIISLQLPPGQPLSENELAQELGVSRTPVRESLILLREEGLIQVFPQIGSFVSLVDLGRVSEAQFVREAIECASLRDLTVEDEGVTRLRLILKSQTEANAQKDVEEFFRLDEEFHRELLRLAGHESAWAAVNSAKAHLDRARRLSLLDTRPIATLIQQHTAVVDALETNNLDEADSSLRLHLRGVFEDVQRIQETTPELFSDGTLARPSRRSIARLS				NA	NA	NA	NA	NA
D1-17_02251	993			hypothetical protein	ATGGCTGGCAGAGAGTCTTTCGTCCCGAAATTCATGACGGGGATGTCTTGCCTCAACAGCCACTACGCCATCCAGTCCGATGGGCTTTACGCCCTGGAAGTTGCGGCCAAAGACATCGCGCAGGTCGAGGCCGGCAAGGCTACCATTCCACCGGGAACTCCGATCAACATCGCGTTCCTCGGAAATGAGGATCATGCCCAGCGCATCAAAGCTGCACGGGTAATTCGAGCATGCGGTTTCGAGCCCGTCCCGATTATTTCCTCGCGCCGCCTGCACTCGGAGCGGGACCGCGATTATCTTCTCGACGCCCTGGTTGCAGAAGCAGCCCCGTCGCGGATAATCCTTGTGGGCGGTGACCCGGCCGTCCCTGCCGGTCCCTTTGAGGACTCGCTGGCCCTCCTGAGAAGCGACCTCCTGGAACGCCATTTCTTCCGCCAGGTGGGTATCGTTGGGTACCCTGAAGGACACCCTAAGATCGACACCGACACGCTCTGGCGCTGTTTGAAATGGAAGTTCGGCTTTCTCCAGAATGCGGGTTGCTCGGTCGAGATTACGACCCAGTACGGATTCGACGCCGATGCCGTGGTGCAGTGGATAGAGCGCCTGCGCCGTGAAGGAATCGACGCGCCCGTCCGCATCGGCGTGCCGGGGCCGGCCAGCGTCGGAAAGCTCCTGAGATACGCCAAGCAGTTTGGCTCGGTGCCATCGGCAGCTATCGCCCGGAGATATGGACTCTTGGTGGGCAACCCTGACCACCGCTTCAGTCCTGAGCGCTATTGGGATCACCTCGCGGCCGGGCTGGACGGCGGGAACCTCGGAGCTGTCCTGTATCACCTTTATCCGTTCGGCGGGATCATGGAAGGCGTTCAGTGGATGAACAGCCGCCTGTCAAAGGGTTTCCCACGCCTGCCCTTGGGCGCGTGGGATGAAGGTCCCCGCTCCGTGATGCCCTGCAATTATCCCGGTAAAAGTTCGGCTTTCCAGGGCGACTAA	MAGRESFVPKFMTGMSCLNSHYAIQSDGLYALEVAAKDIAQVEAGKATIPPGTPINIAFLGNEDHAQRIKAARVIRACGFEPVPIISSRRLHSERDRDYLLDALVAEAAPSRIILVGGDPAVPAGPFEDSLALLRSDLLERHFFRQVGIVGYPEGHPKIDTDTLWRCLKWKFGFLQNAGCSVEITTQYGFDADAVVQWIERLRREGIDAPVRIGVPGPASVGKLLRYAKQFGSVPSAAIARRYGLLVGNPDHRFSPERYWDHLAAGLDGGNLGAVLYHLYPFGGIMEGVQWMNSRLSKGFPRLPLGAWDEGPRSVMPCNYPGKSSAFQGD	PGPT0008160_2734	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
D1-17_02252	2373		COG0243	putative oxidoreductase	GTGTTGCGCATCGAAAGGGAGACAGTGAAGTTCAGTAAGCAGCCCGCCCCCGTTGCGGACATCAACGAGGATGACCTCGAAGTCCACGATCCCAAGACCAAGGCCGCCGGCGTCAAAGCCGTTATGGTGGCCTTGGAGCGTGCAATCGCCCAGGCGGGCGTGCCCCGCACAGCCCAGTCGCTGCTGCGGCTGAACCAACGCGGCGGCGTCGACTGCCCTGGCTGCGCCTGGCCGGAAACGGACAAGAAGCGCAAGCCTGCGGAGTTCTGCGAGAACGGGGCAAAGGCGGTGGCTGAGGAAGCTACCCTCCGGACCGTCGGAGCCGAATTTTGGGCCCGCCATTCCATCGCGGAACTGGCCGAAAAGACGGAGTACTGGCTCGGCAACCAGGGCCGGATCACCGAGCCCGTGGTGATCCGGGAAGGCGAGAAGCACTATTCGCCCATCTCCTGGGCGGACGCTTTCAAACTGATCGGCGAACATATCCGGGCCAGCACGCCGGAACGCTGCGTGTTCTACACCTCCGGCCGCACCGCGAATGAGACAGCGTTTATGTACCAGCTCTTCGCCCGGGCCCTGGGCACCAACAACCTTCCGGACTGCTCCAACATGTGCCACGAATCCTCGGGCTCGGCGCTGAACCCGACCATCGGCATCGGCAAGGGCACGGTGTCCCTCGAGGACATCCACGATTCCGAGCTGATCTTCGTCGTGGGACAGAACCCCGGCACCAACCATCCCCGCATGCTGTCCGCGCTCAAGGAATGCAAGGACAAGGGCGGGAAGGTAGTGGCAGTCAACCCGCTGCCCGAGGCCGGCCTGTTCAACTTCAAGGACCCGCAGACCGTCTCCGGCGTGGTGGGCGGCGGCACTCCCCTGGCGGACGAGTACCTGCAGATAAAGGTCGGCGGAGACCTGGCGCTGTTCCAGGCCCTTGGGCACCTGCTGCTCGCGGAGGAAGAGCGTAACCCCGGTACCGTCGTCGACCGTTCCTTCGTCGACGCGCAGACGGATGGGTTCGAACCGTACCGGCAGGCTCGCCAGGAGCTGGACTGGGCCGAAACCGAGAAGGCTACCGGGTTGTCACGTGAACAGATCGAGACCGTGGCGGGAATGCTGATCCGGTCCAAAGCCACCATCTTCTGCTGGGCCCTGGGCGTCACACAGCAGCCGCACTCGGTGGACACCATCAAGGAAATGGTCAACGTCCTGCTGCTGCAGGGCAACTTCGGCAAGCCCGGCGCCGGCGCTTGCCCTGTCCGCGGACACTCGAACGTCCAGGGCGACCGGACCATGGGCATCTGGGAAAAGCCAAAGGAAGCGCTCCTGGCAGCTCTGGACAACGAGTTCGGCATCCAATCCCCGCGCCACCATGGCTATGACTCTGTAGAGACCGTGGAGGCCTTCGAGCGCGACGAGGTGGACGTGTTCGTGTCCATGGGCGGAAACTTCTCCCTGGCGTGCTCTGACACCGACATCCTTGAGGCCGGGATGCAGCGGACCGGGCTGACGGTCCACATCTCCACCAAGCCCAACCGCTCCCACGTGGTGCACGGCCGCACCTCCCTGATCCTGCCCACCCTGGGCCGGACGGACAAGGACGACAAGCACCCCAAGGGCGCCCAGTTCCTGTCCGTGGAAGACTCCATGTCCGTGGTCCACTCCACCCAGGGCAGGCTGACCCCGGTCTCCGAGCACCTGCTGGCCGAACCGGTGATCGTGGCGCGGATGGCCGAAGCGACCTTCGGCCCGAACCATCCTGTGGACTGGAAGGCCATGGCCGAGGACTATGACGTCATCCGCGACCACATCTCCCGCGTCCTGCCCGGGTTCGAAGACTTCAACACCCGCGTCCGGACCAAGAACGGCTTCGTGCTGCCCAACCCGCCCCGGGACACCCGCTCGTTCGCCACCGACATCGGGCGGGGCCGCTTCACCGTCAGCCCGCTGGAATACCTCACCCCGCCCGAGGGACACCTGGTGCTGCAGACCATCCGCAGCCACGACCAGTACAACACCACCTTCTACGGCCTGGACGACCGCTACCGCGGCATCTCCGGCGGCCGCCGCGTCATCCTGGTCCACCCCGAAGACCTCGTAGAGCTGGGCTTCCAGGACCGCGACCTCGTGGACGTCGTCAGCACCTTCCAGGGCATCGACCGGCACGCCGAAAAGTTCCGGCTCGTGGCCTACCCCACCGCAAAGGGCTGCGCCGCAGCGTACTTCCCCGAAGCCAACGCCCTGGTCCACAAGGAAAACGTCGCCCGCGAATCCAACACCCCCGGCTTCAAAGCCATGTTCGTCCGCTTCCAAGCCCACAATGACCAAGCCGCAACGAGTGGGGCGACGGCGCTGGCGGGCACCTACGTCTGA	MLRIERETVKFSKQPAPVADINEDDLEVHDPKTKAAGVKAVMVALERAIAQAGVPRTAQSLLRLNQRGGVDCPGCAWPETDKKRKPAEFCENGAKAVAEEATLRTVGAEFWARHSIAELAEKTEYWLGNQGRITEPVVIREGEKHYSPISWADAFKLIGEHIRASTPERCVFYTSGRTANETAFMYQLFARALGTNNLPDCSNMCHESSGSALNPTIGIGKGTVSLEDIHDSELIFVVGQNPGTNHPRMLSALKECKDKGGKVVAVNPLPEAGLFNFKDPQTVSGVVGGGTPLADEYLQIKVGGDLALFQALGHLLLAEEERNPGTVVDRSFVDAQTDGFEPYRQARQELDWAETEKATGLSREQIETVAGMLIRSKATIFCWALGVTQQPHSVDTIKEMVNVLLLQGNFGKPGAGACPVRGHSNVQGDRTMGIWEKPKEALLAALDNEFGIQSPRHHGYDSVETVEAFERDEVDVFVSMGGNFSLACSDTDILEAGMQRTGLTVHISTKPNRSHVVHGRTSLILPTLGRTDKDDKHPKGAQFLSVEDSMSVVHSTQGRLTPVSEHLLAEPVIVARMAEATFGPNHPVDWKAMAEDYDVIRDHISRVLPGFEDFNTRVRTKNGFVLPNPPRDTRSFATDIGRGRFTVSPLEYLTPPEGHLVLQTIRSHDQYNTTFYGLDDRYRGISGGRRVILVHPEDLVELGFQDRDLVDVVSTFQGIDRHAEKFRLVAYPTAKGCAAAYFPEANALVHKENVARESNTPGFKAMFVRFQAHNDQAATSGATALAGTYV	PGPT0019635_3096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
D1-17_02253	501			hypothetical protein	ATGACCAAGACAACCATCAAACCGGATGCGGCACCCTCTGCCGAGGAGGACCTGCTGCTGGAGAAGCAACTGTGCTTCGCCCTGACAGTGGCTGCCCGGAGCGTGGTAGCCGCCTATAAGCCCGTGCTTGAACGTCTGGGGCTGACCCACCCGCAGTACCTGGTGATGCTGGCGCTGTGGGAAAAAAGTCCCAGGTCATTACGCGAAATCAGCGACGAGCTCGACCTCGAACCGGCGACGATCTCCCCGCTGCTTCGCCGGCTGGAGTCCGCCGGCTTCATCTCCCGCCGCAGGGCCGCAGGTAACGAGCGCTCCCTCGCAGTTGAACTGACCGCCGCGGGGGCCGCGCTCAGGGCTGAGGCCTTGTCCGTTCCCGAGACGATGATGCGGAAACTGGGGCTGGAACGCGAAGATGTGGTTCAGCTGCATGAAGCGATGACCCGCCTTATCGCTGCCACAAAGGGACAGCAGCCGACCGCAGGCGCGGTCAGTTCTTCCTGA	MTKTTIKPDAAPSAEEDLLLEKQLCFALTVAARSVVAAYKPVLERLGLTHPQYLVMLALWEKSPRSLREISDELDLEPATISPLLRRLESAGFISRRRAAGNERSLAVELTAAGAALRAEALSVPETMMRKLGLEREDVVQLHEAMTRLIAATKGQQPTAGAVSSS	PGPT0013155_1969	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-17_02254	588			hypothetical protein	GTGAGTAAAAAACAAGCCCGCCCATACAATTACCCCAAAATTGGTGCAACGAAGAGGATGGACGCACCCGCTCTCCTGCAGCGGGGCTACCGGGCCAGTGAAGAACGGATTCAAATCGGATCCGGCAAACGGCGGTGGGAGCACGCATGGAAGGAAACACTTTCCTGGGGCATCCAACGCAAATCCGGCTATACAGTCCTACCCATTCATCCTCCGCAGCCGCACCCCGGAGCCCCGCCAGCACCGCATGCTGCAGAACCTACTTCTGAATTGGCCCGGGAAGGAATGGAAGTCCTGCTCCAAAAGCGCTTCGGCCCGTTTCGGTTGAAGATGCCGGTCCGTATCGTCTACACGATCGACGAACCGGCTCGTAAGGGATTCGCGTTCGGAACTTTGAAAGGACACCCGGTCAGCGGCGAAGCCGCGTTCATCGTCCAACGAAATCCTGACGACTCGGTTTGGTTCACCCTGCGCACACTCAGCGGTCCCGGAAAGGGCCTCTGGCTCTTCGCCCACCCTCTGGTGCTCCTGCTACGCACAGGAATCCGGAACTCCTATATCAACGCCCTTACCGGACCAGTCTCCTGA	MSKKQARPYNYPKIGATKRMDAPALLQRGYRASEERIQIGSGKRRWEHAWKETLSWGIQRKSGYTVLPIHPPQPHPGAPPAPHAAEPTSELAREGMEVLLQKRFGPFRLKMPVRIVYTIDEPARKGFAFGTLKGHPVSGEAAFIVQRNPDDSVWFTLRTLSGPGKGLWLFAHPLVLLLRTGIRNSYINALTGPVS				NA	NA	NA	NA	NA
D1-17_02255	816	thyA_2	COG0207	Thymidylate synthase ThyA	ATGATCCCTACCCCTTATGAGGATCTGCTCCGAGAGGTACTCGCCCAGGGCACCCCCAAATCGGACCGCACCGGCACCGGCACACGCAGCGTGTTCGGACGACAGTTGCGGTTCGATCTCACCCAGTGCTTTCCCCTAATCACCACCAAGCGTGTGCATTTCAAATCCGTTGCCGTGGAACTGCTGTGGTTCCTCCGTGGGGATTCGAACATCCAGTGGATGCAGAACCAAGGCGTAAGCATCTGGGACGAATGGGCAGACCCACACGGCGAGCTCGGCCCCGTCTATGGGGTGCAATGGCGGTCCTGGCCCGCCCCGGACGGCCAGCACATCGATCAAATCGCAGCAGTAATGGACTCCCTCAAAGCCGATCCCTACTCCCGCCGGCACATCGTCTCCGCGTGGAACGTCGCTGAAATCCCCGGCATGGCCCTCCCCCCATGCCACGCCCTCTTCCAGTTCCACGTGGAGCCAATGCCCTCTGGCCCCGACAGGCTCAGCTGCCAGCTCTACCAGCGCAGCACAGACCTGTTCCTCGGAGTGCCGTTCAACATCGGCGCCTACTCCCTGCTTACCCACATGATCGCCCATCAACTCGGCCTTGCAGCCGGAGAATTCATCTGGACCGGCGGGGACTGCCACATCTATGACAACCACATCGATCAGGTCCGGGAGCAAATCCTGCGTGCCCCGTTCCCATCGCCGCGATTGTCCTTCCGCCGCCGCCCGGACACCCTTTTTGACTACACCTGGGAGGACCTCCAGCTTCTGGGCTACCGCCATCACCCAGCCATAGCCGCGCCGGTGGCAGTCTGA	MIPTPYEDLLREVLAQGTPKSDRTGTGTRSVFGRQLRFDLTQCFPLITTKRVHFKSVAVELLWFLRGDSNIQWMQNQGVSIWDEWADPHGELGPVYGVQWRSWPAPDGQHIDQIAAVMDSLKADPYSRRHIVSAWNVAEIPGMALPPCHALFQFHVEPMPSGPDRLSCQLYQRSTDLFLGVPFNIGAYSLLTHMIAHQLGLAAGEFIWTGGDCHIYDNHIDQVREQILRAPFPSPRLSFRRRPDTLFDYTWEDLQLLGYRHHPAIAAPVAV	PGPT0008145_2178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
D1-17_02256	633			hypothetical protein	ATGACTTCCACCAAACTGACCTACGTCTTCGATGCCTACTGCGGCTGGTGCTACGGCTTCGCCCCGGCATTGCACGAACTGGCCCAGGATGACGGCATCGATATTGAGGTCATCAGCGGCGGCCTCTTCAGCGGCCACCACGCCGGCCCCATAGGCGCGCTGCCGCACATCCCCGGCGCCAACGCGCGGATTGCAGCCCTCACCGGCGTCCGCTTCGGTGAAGCCTACGAAACAGTCCTCTCAGACGGAACCCTGCACATGGATTCCGACGATGCCGGGACGGGACTGGTCGCGCTGAAAGAAGCATCGGGCGGCAAAGACCTGGACATGGCCGCAGCCATGCAGCAAGCGTTCTACATCGACGGACTCAGCCTCTCCGACACAGGAACATACCGCACCATCGCAACCCGTAAAGGCCTGGATCCGGACCTCGTGGAAAAGCTCTACACCCATCCCGGTACACGGGAAAGGGCATTGTCAGAACAGGAACGCGTTGCAGATCTCGGAATCCAGAGCTACCCCACCCTCCTCGTGCACACAGCTGGCGGGCTGGTGAAAATCGGTAGCCCGGTCTACTCCGCCCAGCAACTGCGCAAGGCACTAAAAGATCTGCAGGAGACCCAGCCCAGCTGA	MTSTKLTYVFDAYCGWCYGFAPALHELAQDDGIDIEVISGGLFSGHHAGPIGALPHIPGANARIAALTGVRFGEAYETVLSDGTLHMDSDDAGTGLVALKEASGGKDLDMAAAMQQAFYIDGLSLSDTGTYRTIATRKGLDPDLVEKLYTHPGTRERALSEQERVADLGIQSYPTLLVHTAGGLVKIGSPVYSAQQLRKALKDLQETQPS				NA	NA	NA	NA	NA
D1-17_02257	606			hypothetical protein	GTGAAGATCGCAGTCTACGGAGCCACCGGCATGGTCGGCAGCCAGATTGTCAGCGAAGCGCTGACCCGAGGTCACGAGGTGACGGCCGTTTCCCGCCGGGGGGCAGAAGTTGCCGGCACCCAGGTCCGGGCAGCTGACCTGGCAGACGCGACAACCTTTGCCGCTGTCGCAGAAGAACACGACGCTGTCGTTCTGGCCACTGGCCCCAGCCGCACCGGCGGAGACCACGGGGAATGGCTCAGCGCGATGAAGACCGCCTACTCCAACGCCAGCGGCACCCGCCTGCTGGTCGTGGGCGGCGCAGGTGCCCTGGAAATCAACGGTATCCGGCTCGTTGACACCCCTGAGTTCCCCGAAGCCTACAAGGCCGAGGCCCTCACCCTCGGTGCAGCCTACGACGCCATCAGGGAAGCCCCGGCAGACCTGGACTGGACTATGCTCGCACCGGCCCCTGTCATCCAGCCCGGCGCACGCACCGCTAGGTACAACACGGCCAAGGACTCCCCGGCCGGGAACAGCATCTCCAGCCAGGACTACGCGGTGGCCATGCTCGATGAAATTGAGCGCCCGGCCTACCGCAACGCCCGGTTCACCGCCGCCAACTGA	MKIAVYGATGMVGSQIVSEALTRGHEVTAVSRRGAEVAGTQVRAADLADATTFAAVAEEHDAVVLATGPSRTGGDHGEWLSAMKTAYSNASGTRLLVVGGAGALEINGIRLVDTPEFPEAYKAEALTLGAAYDAIREAPADLDWTMLAPAPVIQPGARTARYNTAKDSPAGNSISSQDYAVAMLDEIERPAYRNARFTAAN	PGPT0020900_1867	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020900-putative_saccharopine_dehydrogenase-K07118	NA	NA
D1-17_02258	393			hypothetical protein	TTGGATACCAACGTCAGGACGACCAACATCCTTGACCCTGACTGCCCCTCGCGGGTGATTTTCCAACGCATCGGTGATAAGTGGGCGTCACTGATCATCCAGGTCCTCGCCGATGGCCCTGTGCGGTTCACTGCCCTGAAGAACATGGTCAACACCACGCCGAAGGTGCTGACGCAGAGTCTCCGGGCGCTGGAACGCGACGGGCTCGTCACCCGGACCGTGTATCCCACGGTTCCGCCAAGGGTCGATTATGAGCTGACCGACACCGGCCGGTCCCTGCTGGTGCCGTTGGCCCAATTACGTGCCTGGGCTGAGAGCCACGTGCCCGAAATCCTCAAAGCACGGGACGAGTATGACGACTCCCGCGACGAGGAACTCCTGGCCGGCCGCTGA	MDTNVRTTNILDPDCPSRVIFQRIGDKWASLIIQVLADGPVRFTALKNMVNTTPKVLTQSLRALERDGLVTRTVYPTVPPRVDYELTDTGRSLLVPLAQLRAWAESHVPEILKARDEYDDSRDEELLAGR				NA	NA	NA	NA	NA
D1-17_02259	873	focA_2	COG2116	putative formate transporter 1	ATGTCCTATGTAAAGCCCGGTGATCTGATCACGACGATGATCGACGCCGGCGCGTCGAAAGTGTTCATGTCCACCCGGGACACGGTGGTGCGCGCGGCGATGGCCGGTGCGCTGCTCTCCCTGGCGGCCGCGTTCGCCGTCACGGTCAGCGTGACCACCGGCATTCCGCTGTTGGGGGCAATCCTCTTCCCGGTCGGGTTTATCCTGCTGTACCTGCTCGGCTACGACCTGCTGACCGGGGTGTTCGTCCTGACACCCCTGGCGCTGCTGGATAAGCGACCCGGCGTGACCGTCCGCGGCGTGCTCCGGAACTGGGGGCTGGTGTTCGTCGGGAACTTCCTCGGAGCGTTCATGGTGGCCCTGCTGATGGCGGTTGTCGTGACCTACGGTTTCGCCATCCCGCCGAACGAGGTCGGTGTCGCCATCGGTCACATCGGCGAGGGGCGCACGCTCGGCTATGCCGAGCACGGCGCGTCCGGGATGCTGACGCTGTTCGTCCGCGGAATGCTGTGCAACTGGATGGTGTCCATCGGTGTGGCCGGCGCCATGATCGCCAAGGACGTCCCCGGAAAAGTCATCGTGATGTGGATGCCGATCATGCTGTTCTTCTTCATGGGCTTCGAGCACTCGATCGTCAACATGTTCCTGTTCCCGTCAGGCCTGTTGCTCGGCGGCCAGTTCACCATCATGGACTACCTGGTCTGGAACGAAATCCCGACAGTGCTCGGCAACCTCGTCGGCGGCCTGGTGTTTACCGCCCTTCCCCTCTACGTCACCCACGCACGGACCAAAGCGCCGTCCAACGCCGCCGCGAGCCCCGAGACGCCGGCCGGAAAAGACGCCGCACACACCGAAACTGTGATCCGCCCCTAG	MSYVKPGDLITTMIDAGASKVFMSTRDTVVRAAMAGALLSLAAAFAVTVSVTTGIPLLGAILFPVGFILLYLLGYDLLTGVFVLTPLALLDKRPGVTVRGVLRNWGLVFVGNFLGAFMVALLMAVVVTYGFAIPPNEVGVAIGHIGEGRTLGYAEHGASGMLTLFVRGMLCNWMVSIGVAGAMIAKDVPGKVIVMWMPIMLFFFMGFEHSIVNMFLFPSGLLLGGQFTIMDYLVWNEIPTVLGNLVGGLVFTALPLYVTHARTKAPSNAAASPETPAGKDAAHTETVIRP	PGPT0017240_259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
D1-17_02260	495	ohrR		Organic hydroperoxide resistance transcriptional regulator	ATGATTGGAGCAATGATGACTGAGGTGGCAAATCAGCAGGGGACTGAGAATGACCTTCTGCTTGAGAAGCAACTGTGTTTCGCCTTAAGCGTCGCGGCCAGGAGCGTGGTCGGCGCCTACAAGCCCGTGCTGGAAAGGCTCAACCTGACCCATCCGCAATACCTGGTGATGCTCTCCCTGTGGGAGAGAAGCCCGCAATCGCTTCGGGAGATCAGCAGTGCGCTGGATCTCGAGCCGGCGACACTGTCGCCGCTCCTTCGCCGCCTCGAGACGGCCGGCCTGATAACACGGCGGAGGGTACCGGGAAACGAACGCGCACTGGCCGTCGAGCTGACAGCAGCAGGTTCTGCCCTGCGGTCCGAAGCGCTGTCCGTGCCACAGACCATGATGCAAAGACTCGGCCTCAACCGGGAGGATGTCCAGCAACTCCACGCGGCAATGGTGCGGCTCATCGACGCTACAAAGGCGAGCCGCGGCCAAGGCACTGCGGACTAG	MIGAMMTEVANQQGTENDLLLEKQLCFALSVAARSVVGAYKPVLERLNLTHPQYLVMLSLWERSPQSLREISSALDLEPATLSPLLRRLETAGLITRRRVPGNERALAVELTAAGSALRSEALSVPQTMMQRLGLNREDVQQLHAAMVRLIDATKASRGQGTAD	PGPT0013155_1224	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-17_02261	216			hypothetical protein	GTGAGTTTCGTACACAAGTTCATGAACGCCACAGGCAAACTGCGGGCAGTCTTCGGTCCCGCCAATAAGAGCGCCCTGGACCACGACATGACCAAGGAGAACCAGGAACTGCTCAAGAAGCGCCAGGCGGAAACCCAGCAGTGGGAAACCCTCCGCCGTCCGGACGGCAGCACCTACGTCGTGCCCAAGAACCCTGACGATAAGTCGCTGAGGTGA	MSFVHKFMNATGKLRAVFGPANKSALDHDMTKENQELLKKRQAETQQWETLRRPDGSTYVVPKNPDDKSLR				NA	NA	NA	NA	NA
D1-17_02262	1359	csd_1	COG0520	putative cysteine desulfurase	GTGACGTTAGCAGCGACCCCATCCCTGTGGGCAGGAGCGCGTGACGCAGCCGGTGCGACGGCCGCAATAACTGCCGGAGGCATTGGTAACGCCGAAGTGTTGCGCATCCGGGGCCAGTTTCCTGCTCTGGACCAGGCGGTCAACGGCAAACCCCTGATCTACCTGGATTCCGGCGCCACCTCACAGAACCCCTTCCCGGTTATTGAAGCTGAGCGAGCGTTCTACCAGGAACGCAACGCCGCCGTCCACCGTGGGGCGCACAGCCTGGCCGTGGAAGCCACAGAGGCGTTTGAAGAAGCCCGGCAAAGCGTAGCCCGGTTCGTGGGAGCTGCAGAGGACGAAACAGTCTGGGTCTCAAACGCTACAGAGGCCATAAACGCACTGAGCTACGCTTTCTCCAACGCAACGCTCTGGGCGGCCCGGAAGAGAGGCGGGACCGAACTCGCCCCGTTCATTCTCGGGCCCGGCGATGAGATCGTCGTCACCGAAATGGAACACCACGCCAACCTGATTCCCTGGCAGGAACTGGCCTTCCGCACAGGTGCACGTCTGCGGTACATACCGGTATCGGACACCGGGACCCTGCGGATGGACGAGGCCCAAGCACTGATAGGGTCCCGCACCCGGCTGGTTGCGTTCACGCACGCTTCCAACGTCCTGGGCACCATCAACCCCGTAGACCAACTGGTATCAATGGCACGGGACGTAGGCGCCCTGACCGTCCTTGACGCCTGCCAGTCAGCCCCGCACATGGCCTTGAACCTTCACCAGCTCAACGTGGACTTTGCCGTCTTCTCCGGACACAAAATGCTCGGCCCCACAGGCATCGGCGTGCTCTACGGACGCCGCGAACTACTCAACGCACTGCCGCCCTTCCTCACCGGCGGTTCCATGATCACAACAGTCACCATGGAACGGGCCGAATACCTGCCCGCTCCCCAGCGATTTGAAGCCGGTACCCAACGGATCTCCCAGGCCGTCGCACTTGCCGCAGCCGTAAAGTACCTCGACTCCGTCGGCATGGAGCGGATTCACCAGTGGGAGTCGAAACTTGGTCAGCATTTGGTTGACGGGCTGAACAGCCTTGACGGAGTACGTGTTGTGGGTCCAGCTTCAGGAGAGCCGCGGGTCGGCCTCGCATCTTTTGATGTCGCAGGAGTGCATCCACACGACGTCGGACAGTACCTCGACGACAGGGGTATTGCCGTGCGCGTCGGCCACCACTGCGCCCAACCCCTCCACCGCCGACTCGGATTGACTGCAACCACCAGGGCCAGCACCTATCTCTACAACACCACAGACGACATCGACACACTCCTCGAAGCCGTCGCAGAAGTCCGCAGCTACTTCCGCGTCTGA	MTLAATPSLWAGARDAAGATAAITAGGIGNAEVLRIRGQFPALDQAVNGKPLIYLDSGATSQNPFPVIEAERAFYQERNAAVHRGAHSLAVEATEAFEEARQSVARFVGAAEDETVWVSNATEAINALSYAFSNATLWAARKRGGTELAPFILGPGDEIVVTEMEHHANLIPWQELAFRTGARLRYIPVSDTGTLRMDEAQALIGSRTRLVAFTHASNVLGTINPVDQLVSMARDVGALTVLDACQSAPHMALNLHQLNVDFAVFSGHKMLGPTGIGVLYGRRELLNALPPFLTGGSMITTVTMERAEYLPAPQRFEAGTQRISQAVALAAAVKYLDSVGMERIHQWESKLGQHLVDGLNSLDGVRVVGPASGEPRVGLASFDVAGVHPHDVGQYLDDRGIAVRVGHHCAQPLHRRLGLTATTRASTYLYNTTDDIDTLLEAVAEVRSYFRV	PGPT0020195_871	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
D1-17_02263	402	ctaF_2		Cytochrome c oxidase polypeptide 4	GTGAAGGTCGAAAGCGGACTCTTTATCTACCTGACGCCGTTCTTTTTCGTGGTCGGCACTGTTTATGGGTTCCTCGTCCAATGGTCAGAACCCGTAGGTTTCCTCGCGCTCTTCCTCACGGGTGGTTTGAGCGGAATGGTCGGCGCGTACCTCGCCTTCACGGGAAAGCGGGTCGGGGCACGCCCTGAGGATCGTCACGATGCAGAGATGCACGAGGGATCCGGCGAGCAGGGACACTTTGCTCCCTGGAGCTGGTGGCCGCTCGTCCTCGGTGTCGCGGCCGCGGCCGGGTTCCTCGGTTTGGCGGTTGGATTTTGGATCCTGTACATCGGCTTGGCCCTGACTTTAGTCGCCCTGATCGGCTGGGTCTACGAATACAGCCGCGGAGAGCACGCACACTAG	MKVESGLFIYLTPFFFVVGTVYGFLVQWSEPVGFLALFLTGGLSGMVGAYLAFTGKRVGARPEDRHDAEMHEGSGEQGHFAPWSWWPLVLGVAAAAGFLGLAVGFWILYIGLALTLVALIGWVYEYSRGEHAH	PGPT0004025_23	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-17_02264	186			hypothetical protein	ATGAGTTTAGAGAATCGAACTAGTAGCGCGCACGGAAGGGGTCGCAACATCATCTCCTTTATGCCGCGCGTCCTTTCGGAGCGCTTTGCGCTCCACCTGCACACCTCCGCGCTGCGGCAGATGCGCACCTGCGATGGCAGTGCCGCCTTTGTCAGCTCAGTTAATCGGAAGGACGCGGACGCGTGA	MSLENRTSSAHGRGRNIISFMPRVLSERFALHLHTSALRQMRTCDGSAAFVSSVNRKDADA				NA	NA	NA	NA	NA
D1-17_02265	705		COG3253	putative protein	ATGCCTTTGAACGGCAACTTAATGTCTTCCGTCCAGACTCCTGTGGAGGACCCTGAGCAGTTCTTTACCCTCTGGACGGTTTTCAGCCGCGGCGGAGATGACACGGCAACGAACAGCACGGCCTCCTTGGAGGACCTGCTCGCGGAACTAAACCAGGAAGGAACCACCCTTCGGGGAGCCTACGATGTCTCCTCCATGCGCGCCGATGCCGATGTGATGGTCTGGCTCCACGGCAGCCGGCCCGAGGCGCTTCAGTCGGCAGTGCGGAAAATCCGGCGGACGCACGCTTTCGCGGACACAACAATTACATGGTCCGCCATGGGGGTCCATCGGGAAGCGGAGTTCGCCAAAAACCATGTACCGGCCTACGCCCAGGGGATAAAACCCGAAGCTTGGGTTTGTGTGTACCCGTTTGTGCGCTCGTACGACTGGTACCTGCTTCCGGCAGAAGAACGCGGGCTCATGCTACGTGACCACGGACTCCTTGGACGGGAATTTCCCCAGGTTGTCTCCAACACCGTTTCGTCTTTCGCGCTCGGAGACTGGGAGTGGCTGCTTGCACTGGAAGCGCCCAAACTGACAGATCTCGTCGATCTCATGCGCCATCTGCGTACTACCAACGCCCGTCAGCACGTCCGTGAAGAAGTCCCCTTTTTCACAGGCCGGCGAATCCAGCCGAGCGAAATTGCTGATGTCCTCCGCTGA	MPLNGNLMSSVQTPVEDPEQFFTLWTVFSRGGDDTATNSTASLEDLLAELNQEGTTLRGAYDVSSMRADADVMVWLHGSRPEALQSAVRKIRRTHAFADTTITWSAMGVHREAEFAKNHVPAYAQGIKPEAWVCVYPFVRSYDWYLLPAEERGLMLRDHGLLGREFPQVVSNTVSSFALGDWEWLLALEAPKLTDLVDLMRHLRTTNARQHVREEVPFFTGRRIQPSEIADVLR	PGPT0008490_478	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435	NA	NA
D1-17_02266	204			hypothetical protein	ATGGCTGGCACAGAGTCGTTCGTCCAGAAGTTCATGCGGGGCACAGGCAAGCTAAGGGCGGTTTTCGGCCCGGCGCAGCAGGGTTCTTTTGCGGGCCGGGTGGTTGTGCGCCGGGACCCAGCGCAGCTTCAGCGCGAAGAGCAGCTGCAGCAGTGGGCTACCGTGCGCAATGCAGATGGCTCCTCCTACCTGGTGGCGCGCTAG	MAGTESFVQKFMRGTGKLRAVFGPAQQGSFAGRVVVRRDPAQLQREEQLQQWATVRNADGSSYLVAR				NA	NA	NA	NA	NA
D1-17_02267	963	nphR_1		Transcriptional activator NphR	ATGACGGACGTGACCGTTACTGATGTTCTGGCTTGGCAGGATGCAGCGAGCCGGGCGTTCGTACCGCTGCTGTGCACGGCCCCCGAACCTGGTTTCGTCGCACATCTTGAGTCTGTTGCCCTGTCCGGCGGGGTATCTCTGACGCGGGTCCAGTCGGGGCCTCTGCGGGTGGAGCGTCCCGAACGTTTGGCCCGCCGGAATGATGGTGACGACATTCTCATGTCGCTGCAGCTGCAGTCGACCGGGGCTGTCCAGCAGCACGGGCGAACTGCTGTTCTGGTTCCTGGAACGGCAGCCCTTTACGAAATCAACCATCCTTACCTGTTGGACCAGCCGCAATCGGGGCAGGACCTGATCGTCCTTCGCGTTCCACGCCGGCTTCTGGGACTAAAGGACCGGTTCGTCACCGACCTCTGCGGGCGGACAATCGACCAATCCGTCCCCGGCATGGCCGCTTTCACCGGTTATGCCGCTGGATTGATGGCTGGCCGCGGCCACATGGATGACCGTGCACGAGTTGAGTTAGGGCACATCAGTACTGATTTACTCTCGCTCGCCCTGCGCTCTTTCGCGGGACTCCAGCAAACCTCGTGGAGCGATGATGAGACCTTGTTGGAATCCGCGAAGGGGTACATCAGGCAATATCTCGCTGACCCGGACCTTTCGGTTGAACGACTGGCCAGCGCAGAGAACGTCTCCGTCCGCAAGCTCCACGAAGTCTTCGCCGCGATTGGGGAAACGCCGGCGGCGTACGTACGGCGCCGGCGCATGGAACGCGCTACCGCCCTCCTCGCTGCGAGGGCACAAACCCGCCAGAGCGTGGGATCCATCGCGATCGCGTGCGGATTCCGCGACACATCCACCTTTGTCCGGGCTTTTACACGCGTCTACCAATGCACTCCCACACAATGGCCGCTAACGGCCGGTGCCTTGGAAGCCGCCCCCGTGGCATCTGCAGACTAG	MTDVTVTDVLAWQDAASRAFVPLLCTAPEPGFVAHLESVALSGGVSLTRVQSGPLRVERPERLARRNDGDDILMSLQLQSTGAVQQHGRTAVLVPGTAALYEINHPYLLDQPQSGQDLIVLRVPRRLLGLKDRFVTDLCGRTIDQSVPGMAAFTGYAAGLMAGRGHMDDRARVELGHISTDLLSLALRSFAGLQQTSWSDDETLLESAKGYIRQYLADPDLSVERLASAENVSVRKLHEVFAAIGETPAAYVRRRRMERATALLAARAQTRQSVGSIAIACGFRDTSTFVRAFTRVYQCTPTQWPLTAGALEAAPVASAD				NA	NA	NA	NA	NA
D1-17_02268	1044	nitA		Aliphatic nitrilase	ATGAGCGAGAAGGTGCGGGTTGCTGCCGTTCAGGCCGAGCCGGTGTGGCTGGACATTGACGGGACGACGGAAAAGACCGTCCAGCTGATTGCCGAGGCCGCAGCCGGAGGAGCCGACCTGGTCGCGTTCCCGGAGACATGGATTCCCGGCTACCCCGTGTTCCTCTGGTCCTACCCGGTGTACGAGCAGATGCAGTTCGTCGCCCGGTACCACGCCAACTCCCCCACCATCGACGGGCCCCAGATAGCCAAGATCCGCGAAGCCGCCCAGCGGCACTCGATCACGGTCGTCGTGGGTTTCAGCGAGAAAGACGGTGGTTCGCTGTACATGGCCCAGGCCGTGATCGGCCCCAACGGGGAGATCATCCGGCACCGCCGGAAGCTCAAGCCCACGCACGCAGAGCGGACCCTCTTCGGGGAAGGCGACGGCAGTGACATCAAAGTCATCGACACGCCCCTGGGTCGACTCGGGGCGCTGCAGTGCTTCGAGCACCTCCAGCCGCTGACGAAGTACGCTATGTACGCGCAGAACGAGCAGATCCACGTCGCCGGCTGGCCCTGCCTCGGGATCCTGGGCAACGTGCCGGCACTGAGCCCGGAATCCATCATGGCCTGCTCCCAGACGTACGCGCTCGAAGGCAGCTCCTTCGTCGTCACCACCAGCCAGATCATGTCCGATGACGGGGCCCGCAAATTCCCGACGGCTGATGGAGGACCCACGCCCGTCTATACCGGCGGCGGAGGCTACGCGCGTGTTTACGGTCCGCACTCGGGTCTCATCACTGAGCCCCTGGACCCGACCGAGGAAGGCATCGTCTACGCTGACATTGATTTAGCGGATATCGACCTGGCCAAGAACACCGTCGACCCGGCAGGCCATTACGCCCGGGCTGACGTCACGCGGCTGATCTTCGACGACACCCCCCGCACCCCGGTCATCTGCCGCAGCACCATGCCGAAGGCGCCTGGTCAAACCGAGCCGGCATTCGACGCTGACGTCCAGTGGGACGGAGCCTCAGAGACAGAATCGCCGGCGCATGTGTGA	MSEKVRVAAVQAEPVWLDIDGTTEKTVQLIAEAAAGGADLVAFPETWIPGYPVFLWSYPVYEQMQFVARYHANSPTIDGPQIAKIREAAQRHSITVVVGFSEKDGGSLYMAQAVIGPNGEIIRHRRKLKPTHAERTLFGEGDGSDIKVIDTPLGRLGALQCFEHLQPLTKYAMYAQNEQIHVAGWPCLGILGNVPALSPESIMACSQTYALEGSSFVVTTSQIMSDDGARKFPTADGGPTPVYTGGGGYARVYGPHSGLITEPLDPTEEGIVYADIDLADIDLAKNTVDPAGHYARADVTRLIFDDTPRTPVICRSTMPKAPGQTEPAFDADVQWDGASETESPAHV	PGPT0000835_393	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_3,PGPT0000835-nitA|nitB|nitR|nit1-K01501	NA	NA
D1-17_02269	1128	rbn_5		Ribonuclease BN	ATGTGTGATGCCCGAAGCACCGACAGAAGGGCGTTCCTGGGAGCGGCCGCAGCAACCAGCGCCCTGGCTCTCACTGTCGCCGCAGCCCCATCGGCGACAGCGGCCGCACCTGCGGGGCAGTCAGCGCACCGAAACACGCGCTTCGCGGTGGTCCCCCTCGGGATTCAGGGTGGACCCCCGCCGGCCCCGGACCGGTCCGGGATCTCGACAGCTCTGGTCGTGAACGGCAGAACGTACCTGATGGACTGCGGGCGCGCTTCCCTCACCCAGTTCGTGCGCGCAGGGCTGGACGTGGCGTCGCTCAAGGCGATTTTTCTGAGCCACCTGCACGCCGACCACTGCATGGATCTGGGCAGCTACGCCGTCTCGGCCGCACAATTTCCCACACGGTACACGTACAAGGAACCGGTCGACCTTTACGGGCCGGGCAGCGCCGGCACCCCGGCTGCTGACTTGGGTCCCGATCCAAAGTGGGCGAATCCGGAACAGCCCACGCCAGGTACGGCAGAGCTTCTGCGTCTGGTCACTCAAGCATTCAACGGCTCGGCAAACTTCTTTATTGCTGAGCGGTTCATTGGGAACCCGGCGAAGATGATCCGTGCACACGAGGTCCATGTCCCCGAGGCGGCCGGCGCCTCCTGGTCCAACCCGCACCCGGACACGGCGCCCTTCCCCGTGATGGAGGACGAGAACGTACGAGTCACTGCCACCCTGGTTCCGCATGGAGCGGCCTATCCAGCGCTTGCCTACCGGTTTGATACCGACCACGGCAGCGTGGTCTTCTCCGGCGATACGGCCGTCTCAACCAATCTCATCCGGTTGGCACAGGGAGCTGACCTGCTGGTACACGAAGCCGTTGAGCTTGAATCCTCCGCCGCCCGCATGGGATGGAACGAGACCACTATGAAGCACATGCGCGAAGTCCACACCGACGTGGCCGAGATCGGCCGGATCGCCCGGGACTCGGGCGTACGCTCGGTGGCCTTGACCCACCTGGTGCCAGACGCCTTCGCGCACCGCGAGTGGGAACAGGCTCTGAAAAAGTCAGCCCGTAATGCCGGGTTCACTGGAGGGATACACGTATGCCAGGAGCTCCAGGACGTGCCGCTGAGCCGCCTCCTGCGCTGA	MCDARSTDRRAFLGAAAATSALALTVAAAPSATAAAPAGQSAHRNTRFAVVPLGIQGGPPPAPDRSGISTALVVNGRTYLMDCGRASLTQFVRAGLDVASLKAIFLSHLHADHCMDLGSYAVSAAQFPTRYTYKEPVDLYGPGSAGTPAADLGPDPKWANPEQPTPGTAELLRLVTQAFNGSANFFIAERFIGNPAKMIRAHEVHVPEAAGASWSNPHPDTAPFPVMEDENVRVTATLVPHGAAYPALAYRFDTDHGSVVFSGDTAVSTNLIRLAQGADLLVHEAVELESSAARMGWNETTMKHMREVHTDVAEIGRIARDSGVRSVALTHLVPDAFAHREWEQALKKSARNAGFTGGIHVCQELQDVPLSRLLR				NA	NA	NA	NA	NA
D1-17_02270	567	hin	COG1961	DNA-invertase hin	GTGGCTGGACAGCGGATCGGGTACGTGCGGGTCAGCACGTTGGACCAGAACGAGAAACGCCAACTCGACGGCCAGGTTCTGGACCGCGTCTTCACGGACAAAGCCTCGGGCAGGGACACGTCCAGGCCGGAGCTCTCTGAGCTGCTGCGGTTTGCCCGTAACGGGGACACTGTCGTGGTGCACAGCATGGACCGGCTCGCCCGCAACCTCGATGACTTGAGGGCCCTGGTCCAGGGCCTGACTCGTAAGGGCGTCCGCGTAGAGTTCGTCAAAGAAAGTTTGGTCTTCACCGGTGAAGACTCCCCCATGGCCAACCTCATGCTCTCCGTGATGGGCGCCTTCGCCGAGTTCGAACGCTCCCTGATCAGGGAACGCCAGCGGGAAGGCATCGCCCTGGCGAAGCAGCGCGGCGCCTACAAGGGGCGGAAGAAGACGCTCACGCCGGAACGGGCGGCCGAGCTGGTACAGCGAGCGGCCAGCGGAGTCCCCAAATCCGCCCTGGCCAACGACTACGGCATCAGCCGGGAAACGGTGTATCAGTACCTCCGCCAAGCCAAGCCCGCCTGA	MAGQRIGYVRVSTLDQNEKRQLDGQVLDRVFTDKASGRDTSRPELSELLRFARNGDTVVVHSMDRLARNLDDLRALVQGLTRKGVRVEFVKESLVFTGEDSPMANLMLSVMGAFAEFERSLIRERQREGIALAKQRGAYKGRKKTLTPERAAELVQRAASGVPKSALANDYGISRETVYQYLRQAKPA				NA	NA	NA	NA	NA
D1-17_02271	393			hypothetical protein	ATGACAGCAGTTGCAGGAGCCCGAGGCGGATTGAAGGCGCACCAGGATTCCATCCGGCTTCCCGAGGACGAGCTTGTTCGAGACCTGCGTGACATCCTCGGCGCGAAGCTGGTCGCCTACATTGGCTCGGTAAAGGAAACCCGGGCGGTGCGTCAGTGGGCCGATGGTGAACGAAAGCCGTCGGCCGAGGTGATGACCCGATTGCGACACGCCTACCACGTGGCCGCGCTGCTGGCTGAGCGCGATTCCCGCGCCGTGGTCCAAGCGTGGTTCCAGGGCATGAACCCCCAACTGGATGACGTGCCGCCGGCGCGGCTGCTGCGGGAAGGCCAGGTCGAGGATGCGGCGCAGGCGGTTCTGGCCGCAGCCCGGGCATTCGCGGCAGCAGGCTGA	MTAVAGARGGLKAHQDSIRLPEDELVRDLRDILGAKLVAYIGSVKETRAVRQWADGERKPSAEVMTRLRHAYHVAALLAERDSRAVVQAWFQGMNPQLDDVPPARLLREGQVEDAAQAVLAAARAFAAAG				NA	NA	NA	NA	NA
D1-17_02272	705			hypothetical protein	GTGGGCTCTGAACAACTGGCTGTAGCTACTTCGGAAGACCGGATTTGGCGGATTGGATTCCGTCCTGACCCTTGGGCATGGAGCGGCTGGGAATGGGCAACCAATGGCAGATTCCCTGGCCGGTGGGATGACCAGCACGGAAACTTCCGCACGGTGTACGCCGGCTCCAGCCTGCACGCATGCCTGCTCGAAGTGCTGGCAGCGTTCCGCCGCGACACCAGAATTGCCATGGAACTGGACGAGATCGTTGAAAACGATCAAGACACAGTGCTGCACCCCACCGTGCCGCCAGGGCAAGTCCCACGCGAATGGCTAGACGCCCGCGCCGCAACATCAGCCGAGCTGACCGGCACCTACTGCGCCGTGACGGACTCCAAATCCATTGCAGTCCTATACCCGCACTTCATCGGCATCGCCCTCAGCCTCGGCTTGGCGGACCTGGACGCTGCCGCTCTGAAGGACGCCCGACCACGACACCTGACCCAGGCAATCGCCGCCTGGATCTACGAGACCACAGACCTCAACGGAGTTACGTTCGCCTCCCGTCACGGCGACGACCTGCGGTTATGGGCCATTTTCGAACGGCCAGGCGACGGTTTTGTCAGCCCCCAGCTACAGCACATCAAGATCGAGGAACTCCACCACGACAGCGACGCGATTAAGCACGCCTTTCAGATGCTCGGCCTTACGTGGAAGAGCGACTAA	MGSEQLAVATSEDRIWRIGFRPDPWAWSGWEWATNGRFPGRWDDQHGNFRTVYAGSSLHACLLEVLAAFRRDTRIAMELDEIVENDQDTVLHPTVPPGQVPREWLDARAATSAELTGTYCAVTDSKSIAVLYPHFIGIALSLGLADLDAAALKDARPRHLTQAIAAWIYETTDLNGVTFASRHGDDLRLWAIFERPGDGFVSPQLQHIKIEELHHDSDAIKHAFQMLGLTWKSD				NA	NA	NA	NA	NA
D1-17_02273	906			hypothetical protein	ATGGACAACCAGGACGACCTCAGCCAGTTCCTCATCTCGCGCAGGGCGAAGCTGACGCTGGAACAAGCAGGCCTGCCCGATTTCGGCGGACGGCGCCGCGTCCCTGGCCTGCGACGGGAAGAGGTCGCCCTCCTGGCCGGGATGAGCTCCGAATACTACAAACGCCTGGAACGGGGCAACGCCAAAGGAGCGTCTGAGGCTGTAATCGATGGGGTCAGCCGGGCCCTCCAATTGGATGAGGCCGAGCAATCACATCTCTACGAGCTCATCCGCTCCGCCAATGCCGGCACCCACGCGCAGCGCAGACGCCCGGCACGCAAAACACAGATCAGCGCTGTGCTGCAGCAGACCATCGACGCCATGTCGACCGTTCCGGTGTTCGTGCAGAACGGCCGGCTGGACGCCGTCGCCACCAACCGCCTCGGCCGGGCCCTCTTCTCGGAGATGTTCGAGGACTCCCGGCAGCCGGTGAACGCTGCGCGCTTCGTGTTCCTGGATGCCAGGGCACAGACGTTCTATCAGGACTGGGAGTCCAACACCCGCCAGATTGTCGCCCTCCTCCGGGTCGAAGCGGGCCGGTCTCCGTACGACCGCCAGCTCAGTGACCTCGTCGGCGAACTCTCAACCCGCAGCGACCTCTTCCGAAAGCTCTGGGGAGCGCACGACGTCCGCGAACACCGCACGGGTCTTAAGAGCATCCACCACCCTGTCGTTGGTGACCTCGACCTGAACTACCTCGGGCTGGACCTGGCCGCCGACAGCACCCTCCAGATGCTGGTCTTCTCCGCCGAACCGGGCTCCGCGTCGCACGACGGGCTGCAACTGCTGGCTAACTGGGCGAACACCCACAGCATCGGGCTCACGGCCAACAACCCAGCAAAAACCGATCACATCACCGGAACCTGA	MDNQDDLSQFLISRRAKLTLEQAGLPDFGGRRRVPGLRREEVALLAGMSSEYYKRLERGNAKGASEAVIDGVSRALQLDEAEQSHLYELIRSANAGTHAQRRRPARKTQISAVLQQTIDAMSTVPVFVQNGRLDAVATNRLGRALFSEMFEDSRQPVNAARFVFLDARAQTFYQDWESNTRQIVALLRVEAGRSPYDRQLSDLVGELSTRSDLFRKLWGAHDVREHRTGLKSIHHPVVGDLDLNYLGLDLAADSTLQMLVFSAEPGSASHDGLQLLANWANTHSIGLTANNPAKTDHITGT				NA	NA	NA	NA	NA
D1-17_02274	840	hcaB_4		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACCAACGTTTGGTTCATCACCGGAGCCGCCCGCGGCATGGGGGTCGACCTGGCCAAGGCCGCCCTTGACGCCGGCCACCGCGTCGTCGGCACCGCCCGCGACGCCGCCAAAGTCACCGCCGCCCTCGGCGAACACGAAAACCTGCTCGTCCTGTCGCTGGACGTCACCGACGCCGCGGCCTCGGCGGCCGCCGCCGAGGCCGCCGTCGAACGCTTCGGAAGCATCGACGTCCTCGTCAACAACGCCGGCAACTTCTACGCCGGCTACTTCGAAGAGATCAGTGACAAGCAGTTCCGGGCACAAATGGAGACGAACTTCTTCGGCCCGCTGAACGTCACCCGGGCGATCCTCCCGGTCATGCGCAAGCAGCGCCGCGGACACGTCATCACCATCACCTCCGCCGCCGGCATCATCGGCCAGGAGTTCTGCGCCGCCTACGCCGCATCGAAGTTCGCCCTCGATGGCTGGATGGAATCCCTCCAGTACGACGTGCAGCCCTACGGCATACACACCACCATCGTCGAACCCGGATTCTTCCGCACCGAACTCCTCGTCGAGGGCGCCTCCTCCATCTGGCCCGAACTCTCCATCGACGACTACGCCGAACGCACTACCCAGACCATCGCCGCGTGGAAGGCCATGAACGGCCAGCAGGGCGGAGACCCCGCCAAGCTCGGCGCAGCCCTGGTCACCATCGCCGCCATGGACACCCCGCCGCTGCGGTTCGTCGCCGGAGCAGACGTCGTCGCCAGCGTCGAGAAAAAGGCCCAACTCCTCCTGGATCAAGTCAATGCCCACCGCGAGCTGTCCTCCTCAATGGCCCTCGACAACGCTTAG	MTNVWFITGAARGMGVDLAKAALDAGHRVVGTARDAAKVTAALGEHENLLVLSLDVTDAAASAAAAEAAVERFGSIDVLVNNAGNFYAGYFEEISDKQFRAQMETNFFGPLNVTRAILPVMRKQRRGHVITITSAAGIIGQEFCAAYAASKFALDGWMESLQYDVQPYGIHTTIVEPGFFRTELLVEGASSIWPELSIDDYAERTTQTIAAWKAMNGQQGGDPAKLGAALVTIAAMDTPPLRFVAGADVVASVEKKAQLLLDQVNAHRELSSSMALDNA				NA	NA	NA	NA	NA
D1-17_02275	534			hypothetical protein	ATGAAGAAATCACTGTCCCTCATCGCCATCGCCGCTACGGCCGCGATCGTCCTCGCCGGATGTTCCGCACCCGCAACCGAGAACGCCGTCACTACATCCCCGGCCCCGGCAACTGCCTCGGCCACCGCAACCACCACCGGATCACCGGCACCGGCACCGGCACCGGCGGAGGCTTCCACCGACGGAACCCCGATCACCATCACCGCCGGCGATGTGGTCATGACCGCGACCCTCAATGACACCCAGGTGGCCCAGGACTTCGCCGCCACCCTCCCGGTCACGCTCCCCTGGTTCCGGAACGCCGGCATCGAGTACATCACCGAACTCAACGCCCCAATGACGGAAACCGGTCCGTTCTACACCGACGTGCAACCCGGGGACATCGTCTACTACAACCCCCGCGACAGCATCACCATCATCTATGAAGAGACCAGCTCCGTTCCCACCCTCACCAAAATGGGAGAGATCACCTCGGACCTCAGCGTCTTCGAGAACCTCCCCGACGACGTCGAGATGCGCGTCGAGCTCGGCTAG	MKKSLSLIAIAATAAIVLAGCSAPATENAVTTSPAPATASATATTTGSPAPAPAPAEASTDGTPITITAGDVVMTATLNDTQVAQDFAATLPVTLPWFRNAGIEYITELNAPMTETGPFYTDVQPGDIVYYNPRDSITIIYEETSSVPTLTKMGEITSDLSVFENLPDDVEMRVELG				NA	NA	NA	NA	NA
D1-17_02276	771	ycjY	COG1073	putative protein YcjY	GTGAAGGAACAGACGGCCGGCGTCTACGCGCAACGGCTCGCGGAACAGGGCTACGTCACTCTCGCCTTTGACGCCTCCTACCAGGGCGCAAGCGGGGGGCTGCCCCGGTTCCTCGACAACCCGATGAACAGGGTCGGCGACATTTACAGCGCGGCCCACTACCTGACCACCCTGGACTACGTCGACAGCGACCGCATCGGCATCTGTGCCGGTGGCGGCGCAACGATCAAGGCCGCCAGCACCGACCGCCGCTTCAGGGCCGTCGCGACCGTCAGCGGAGTAGACGTTGGCGCAGCGACACGCAAGGGCTGGGACGGCAAGGCCTCCGAGGCGGACCAGATCGCCACCCTCGACGCGGTCGCCCGGCAGCGCACGGCTGAGGCAGCCGGAGCCGAGCCCGCCTATGGCCCCTATGTTCCCGCACTGGGTGACACGACCGCTCCGCGCGACATTCAGGAAGCGGCCGACTATTACCTCACGCCAAGGGGGATGCATCCCAACGCCCCGAACCGGATGTTGCTGAGCAGCCTCAGCTACCTGGTGTCCTTTACCGGGTACGACTTCATCGACACGTTCCTGACCCAGCCCCTCCTCATCGTCGCCGGGAGCGAGGCCGGCTCGCTATGGCACAGCGAAGACCTGCACGCACGCGCTGCCGGACCTAAAGAGCTCGTCATCATTGATGGGGCCACTCACATGGACCTTTACGACGGCGAAGGCCTGAATACGGCCATGAACAGTCTCGCGCCGTTTTACCGGGAAAACCTTTAG	MKEQTAGVYAQRLAEQGYVTLAFDASYQGASGGLPRFLDNPMNRVGDIYSAAHYLTTLDYVDSDRIGICAGGGATIKAASTDRRFRAVATVSGVDVGAATRKGWDGKASEADQIATLDAVARQRTAEAAGAEPAYGPYVPALGDTTAPRDIQEAADYYLTPRGMHPNAPNRMLLSSLSYLVSFTGYDFIDTFLTQPLLIVAGSEAGSLWHSEDLHARAAGPKELVIIDGATHMDLYDGEGLNTAMNSLAPFYRENL				NA	NA	NA	NA	NA
D1-17_02277	324	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACAGCAAAACTGATCGGAACTGTTGCCCTGGTAACCGGCGCGAGCAGCGGCATCGGTGACGCCACCGCCCGTGCCCTCGCCGAGCAGGGGGCTTCCGTCGCCGTCGTCGCCCGCCGGAAGGACCGCCTGGACACACTCGTGGCCGAGATCAAGGGCGCTGGCGGCACCGCCTACGCCGTCCCGGCCGACATCACCGATCAAACCCAAGCCGAACAGGCCGTAGCAGAGGTGGTAAACCAATTCGGTCGGCTGGACATCCTCATCAACAACGCCGGGCTGATGCTGCTCGGAACGGTCGTCGATCAGGAGGTCGACGAATGA	MTAKLIGTVALVTGASSGIGDATARALAEQGASVAVVARRKDRLDTLVAEIKGAGGTAYAVPADITDQTQAEQAVAEVVNQFGRLDILINNAGLMLLGTVVDQEVDE	PGPT0003180_10870	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_02278	438			putative oxidoreductase	ATGATCGCGGTCAACCAGAACGGTCTGCTCTACATGACGAAGGCGGCACTCCCCCACCTGCTGGCCGCACCGGACGACGAACTGCGCGGCGTCGCGGACATCGTCAACATCTCCTCGATCGCCGGCCGGCAGGCGTGGGCGACCTTCGACGCGTACAACATGACGAAGTTCGGCGTGAACGGCTTCACCGAAGCGCTCCGCCAGGAGATCACGAAGAAGCACGTCCGGGTCGGCGTACTCGAACCCGGCGCAGTCGAAACAGAACTGACCTCACACAACAACGACACCATCAAAGGCGACCTCGCCGTCTCCGACGCGAAGAACATGCCCGAGAAGCTGCAGCCGGAGGATATCGCCGAGAGCATCGCGTACATGGTGACCCGTCACCGCCGCTCTTCCATCGCCGAAATGTGGGCCATGCCCACCTCCCAAGCCTGA	MIAVNQNGLLYMTKAALPHLLAAPDDELRGVADIVNISSIAGRQAWATFDAYNMTKFGVNGFTEALRQEITKKHVRVGVLEPGAVETELTSHNNDTIKGDLAVSDAKNMPEKLQPEDIAESIAYMVTRHRRSSIAEMWAMPTSQA	PGPT0021285_580	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
D1-17_02279	804	yhdN_2	COG0667	Aldo-keto reductase YhdN	ATGAAAAACGCACGCCTCCGGGACCTGGAAGTCTCCCGCATCGGCCTCGGAGCCATGACCATGGCCGGCACCTACACCAGCGAAGGCGCCTTGGATAACAGCGAATCAATCCGCACGATCCACCGTGCACTCGAGCTCGGAGTCACCCACATCGACACAGCGGAGATCTACGGGCCGTTCCTGAGCGAGGAAATCGTGGGCCGGGCCATTCGTGGCCGCCGTGACCAGGTGAAGATCGCCACCAAGTTCGGCCTCGTCTCCCACTCCGGCGGCGGACCCGGCGTGATCGACAGCAGCGCAGCAAACATCCGCACAGCTGTCGAGGGGTCCCTCAAGCGACTGGGCACCGACCACATCGACCTCTACTACCAGTACCGCGTCGATCCGAACACGCCCATCGAAGAGACCGCCGGCGCAGCCGCCGACCTGATCGCCGAGGGCAAGGTGCTGCACTTCGATCTCTCCGAAGCGTCAGCACAGACCATCCGCCGGGCACACGCCGTGCAGCCTGTCTCGGCCCTGCAGATTGAGTACTCCCTGTGGACCCGCGACGTTGAAGACGAGATCCTGCCGCTGCTGCGTGAACTGGGAATCGGCTTCGTCCCCTACTCACCCCTCGGGCATGGACTTCTCACCGGGCAGATCCGAACGGTGGAGGACTTCGCCGACGATGACTGGCGCAAAACCAACCCCCGCTTCACCGGTGAAAACTTCGTCCGGAACCTGCGCATCGCCGACGAAGTCCAGAGCATCGGCGCGGAGATTGGTGCCACCCCAGCCCAGACCGCATGGCTTGGTTACTGA	MKNARLRDLEVSRIGLGAMTMAGTYTSEGALDNSESIRTIHRALELGVTHIDTAEIYGPFLSEEIVGRAIRGRRDQVKIATKFGLVSHSGGGPGVIDSSAANIRTAVEGSLKRLGTDHIDLYYQYRVDPNTPIEETAGAAADLIAEGKVLHFDLSEASAQTIRRAHAVQPVSALQIEYSLWTRDVEDEILPLLRELGIGFVPYSPLGHGLLTGQIRTVEDFADDDWRKTNPRFTGENFVRNLRIADEVQSIGAEIGATPAQTAWLGY	PGPT0009140_363	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009140-ydbC-K05275	NA	NA
D1-17_02280	330			hypothetical protein	ATGCACGATCACCAGGCAGATGCCCAGTACATGAACGATCTGAAGGAGAGCGCGCCAGAGATGGTCTCTGCGTTCTTTGCGTTCGACAGGGCGGTTTTCGGCAAGAAGACCGGCGGCCTTGACCCCCTTGTCCGGGAACTCATCGCCGTTGGTGTCGCGGTCACCACGCAATGCCACTTCTGCATCCAGGATCACACCAAGCGTGCCGTCACCGCAGGAGCCTCCAAAGCCGACATTGCGGAGGCTGTCATGGTTGCTACAGCGCTGCGTGCCGGCGGTGGAGTGACCCACGGGTGGAAAGCGATGAGAAGCATGGCCGAAAGGGACTGA	MHDHQADAQYMNDLKESAPEMVSAFFAFDRAVFGKKTGGLDPLVRELIAVGVAVTTQCHFCIQDHTKRAVTAGASKADIAEAVMVATALRAGGGVTHGWKAMRSMAERD				NA	NA	NA	NA	NA
D1-17_02281	1446	efpA_2		putative MFS-type transporter EfpA	GTGACTGAAAAGGCGGGACAGCGGAGCGGATTGATACCCCTGCTGGTGATAGCCACCGCGCAGCTGATGCTGGTGCTGGACGACTCGATCGTGAATATCGCGTTGCCGAGAATCCAGCAGGAACTCGGGATCGACGCCGTGCATTTGCCCTGGATAGTGAACGCCTACATCCTCGCGTTCGGCGCCCTGCTGCTCCTGGGCGGTCGGATCGGCGACCTCTACGGGCGCCGGCGTGCCCTGCAGGCGGGCCTCGTTATCTTTGTGCTTGCGTCACTGGTCGGCGGTCTCGGCCTGAACAGTGGGGCGCTCATCGGCCCCCGGGCCGTCCAGGGGCTGGGGGCGGCGCTGGTCGCGCCGAATGCCCTGGCCTTGATCGCCACAACCTTTGCCGAGCGCAAGACACGGGACGCCGCCCTCGGGCTGTACGGCGCGATGTCCGGCCTCGGAATCGTGGTCGGCCTGCTCCTCGGGGGCGTGTTGACCGACACCCTGGGCTGGCGCTGGGTGTTCTTCATCAACATCCCTATCGGCATCCTGGTGCTTCTCGGTAGCCGCACGCTTGTTGAAGCAGAGCCTCACCCGGGCAGCCTTGACGTCAGAGGCGCAGTGCTGGGAACCGGCGGCATGGTGGCCCTGGTGTATGCCATTACCCGCTTTGGTGAAGATGGTTTCACCGACCTGATCGGGCTTGGGCTCCTCGGCGCCGCACTGGTGCTGCTTGCAGCATTCATCGCCACTCAAGCACGCAGCAGCACGCCGCTGGTTCCGCTGAGCTTGTTCCGGGACCGCGGCCGCGCCGGCGCCTACGCGTCTATGCTGTTGCTGGCCGTTGGGCCCATGGGCACCTTCTATGTGATCACCCTTTACCTCCAGCAGGTACAGCACTACAGCCCCTTGCAGACCGGGCTGAGCTGGCTTCCTTTCGCTGCCGGGATAGTCGTCGGAGCCGGCGGCGCTCCCAAACTGCTCAACAAGGTGGCTCCGCGCGTTATCGCAGCAGGGGGCGCTTTGCTCAGCGCAGCGGCGGCCTTCTGGTTCTCCTTCATCCAGATAGACACGAGCTACTGGCTGCACCTTGCCCCGGCCATGTTCTTCCTCGCCCTCGGGTTCGGCCTCGGTGTCATTGCCCTAACCCAGGCCGCGGTCTACAACACGGCAGCCGACGAGGCCGGCATTGCCTCCGCACTGCTCAACTCCGCGCAACAGATCGGGGTGGCTCTGGGATTGGCGGTTCTGGCTGGCATTGCCGCAACCGTCACCGGGACATCCGAACCCGGCGCAACAGCGGGCGCTCAGTTGATAGCCGGGTACGGCAGTGCACTCACCGTCGCCGCCGGCATGCTCGCAGCCGCCGGACTATTGGCAGCCACCACCTTGCCGTCTAAACCAACGGCACAAGCCGATGGCAAGTCCGCTGTGGCTGCGGTCAAGCAGCCGAGCCACTAG	MTEKAGQRSGLIPLLVIATAQLMLVLDDSIVNIALPRIQQELGIDAVHLPWIVNAYILAFGALLLLGGRIGDLYGRRRALQAGLVIFVLASLVGGLGLNSGALIGPRAVQGLGAALVAPNALALIATTFAERKTRDAALGLYGAMSGLGIVVGLLLGGVLTDTLGWRWVFFINIPIGILVLLGSRTLVEAEPHPGSLDVRGAVLGTGGMVALVYAITRFGEDGFTDLIGLGLLGAALVLLAAFIATQARSSTPLVPLSLFRDRGRAGAYASMLLLAVGPMGTFYVITLYLQQVQHYSPLQTGLSWLPFAAGIVVGAGGAPKLLNKVAPRVIAAGGALLSAAAAFWFSFIQIDTSYWLHLAPAMFFLALGFGLGVIALTQAAVYNTAADEAGIASALLNSAQQIGVALGLAVLAGIAATVTGTSEPGATAGAQLIAGYGSALTVAAGMLAAAGLLAATTLPSKPTAQADGKSAVAAVKQPSH				NA	NA	NA	NA	NA
D1-17_02282	1422	merA_2		Mercuric reductase	ATGAACACCCCCACCACAAACCACACGTACGACCTGGCAGTCATCGGCGCCGGCTCCGCCGCAAAGGCCGCAGCCACGGAAGCCCGCCGCCGCGGAAAATCCGTCGTTATGATCGAGCGCGGCCATCCCGGCGGCACCTGCCTCAACGTGGGCTGCGTGCCCTCGAAGCACCTCCTGGCAGCTGCGGCGGCCCGCGCAGGAGCCGACAGCAGCCGATTCCCCGGCATCACCTCCTCCGCCGGCCCGGTGGACCTGGCATCACTGATCAGCGACAAGGACGCATTCGTCTGCCAGCTGCGGGAACGCGACCACGTCCACGCGACAGCACAGGCCGGCATCACATTGCGCCGGGGCACCGCATCGTTCATTGGTGCCGACGAAGCCGGCGTTTCCCTCAGCATCACCGATGAGGACGGCAGCGCCGGCAATATCGCTGCCCACCATGTCCTCATTGCCACCGGCGCCCAACCGTTCGTCCCGCCCATTCCAGGGATCCACACAATCGACTATTTGACCTCCTCGACATCAATGTCCCTGCACCAGCTGCCCGCATCGCTCGTAGTAGTCGGGGCCAACGCGATCGGACTGGAGCAGGCACAGCTGTTCGCCAGGCTGGGCGCCAAGGTCACCGTCATCGAAGTGGCCGACAGGATCGCCCCCTTCGAGGACCCCGCTATTTCTGCCGCACTGCAGGAGGCCCTCGAAGCGGAAGACATCGAGATACTGACAGCGGCCAACCTGACACAGGTCCAGCCGGACGGCGAAGGTGTCCTCGCCACGGTCGAGTTCAACGCCACCACCATCCGCGTCCCGGCTGAACGGCTGCTCATCGCCACCGGACGACGCCCCATCACCGACGGGCTGGACTTGGACTCCGTCGGGCTCGCCGTCGGCGCCCGCGGCGAAGTGCCTGTAGACGAGCATCTGCGCACCTCCCACCCCCGCATCTGGGCCGCCGGCGACGTCACGGGACACCCACAGTTCGTCTACGTCGCAGCAACACAGGGCGCCACCGCCGTCTCCAACGCCTTCGGGGACGCTCCCCAAGCACTCGACTACACCGTGCTGCCCCGCGTGACCTTCACCTCCCCCGCCGTGGCATCGGTGGGACTGACCCCCGCCCAAGCCGACGCCGCCGGCCACCCATTCGAGACACGCGAACTGCCGCTGAACTTCGTGCCCCGGGCACTGATCAACCGCAAGACCTCCGGCCTGCTCAGGCTGATCTCAGACCCGGACACCGGCCGGCTCCTGGGCGTCCATATGGTCGGGGAGGAAGCAGGAGAGGTCATCACAGCCGCCACTTATGCGCTGTCTGCCGGCCTCACCATCCAACAACTCGCAACCACCTGGGCCCCGTTCCTCACCATGGCCGAATCCCTCAGGATCACAGCCCAAATGCCCGCCGCTACACAAAACTGA	MNTPTTNHTYDLAVIGAGSAAKAAATEARRRGKSVVMIERGHPGGTCLNVGCVPSKHLLAAAAARAGADSSRFPGITSSAGPVDLASLISDKDAFVCQLRERDHVHATAQAGITLRRGTASFIGADEAGVSLSITDEDGSAGNIAAHHVLIATGAQPFVPPIPGIHTIDYLTSSTSMSLHQLPASLVVVGANAIGLEQAQLFARLGAKVTVIEVADRIAPFEDPAISAALQEALEAEDIEILTAANLTQVQPDGEGVLATVEFNATTIRVPAERLLIATGRRPITDGLDLDSVGLAVGARGEVPVDEHLRTSHPRIWAAGDVTGHPQFVYVAATQGATAVSNAFGDAPQALDYTVLPRVTFTSPAVASVGLTPAQADAAGHPFETRELPLNFVPRALINRKTSGLLRLISDPDTGRLLGVHMVGEEAGEVITAATYALSAGLTIQQLATTWAPFLTMAESLRITAQMPAATQN	PGPT0004775_248	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MERCURY_RESISTANCE	MERCURY_RESISTANCE-MERCURY_HOMEOSTASIS,PGPT0004775-merA-K00520	NA	NA
D1-17_02283	429			hypothetical protein	ATGCATCCCAACATTGATACGCCGCCCGTCCAGCCGACCCTCCGGCGGAGCCCCTGGTCCGTCGCCTTCGGCCTCTGCGCCGCAGCACTGGCCGCCGTCGGGGCCAATGCGATGATCGCACAGCTGGCACCCACCGCCGGCGTGCCCGGCAACTTCCAGCCCCTTAACCCGCCCTCGTACACGCTCCTGACGGTACTCGGAGTGCTGTTGGGCACCCTGGGTTGGGCCATAACACGCGCGGTTTCGAAAAATCCCCGGAAACTACTCAGCTGGCTCGTGCCGGTCGTCGTCCTGGCCTCCTGCATCCCGGACCTGTTCCTGCTCGAGCAGGGCGGGGCGACCGGCGTCCTCGCTGCAGCCCTCATGCACGTAGCACCGGCAGCGATTGCCGTCCCGGTCTACAGGCGGCTCCTGCCGCTTCCGTCCTGA	MHPNIDTPPVQPTLRRSPWSVAFGLCAAALAAVGANAMIAQLAPTAGVPGNFQPLNPPSYTLLTVLGVLLGTLGWAITRAVSKNPRKLLSWLVPVVVLASCIPDLFLLEQGGATGVLAAALMHVAPAAIAVPVYRRLLPLPS				NA	NA	NA	NA	NA
D1-17_02284	873	dhmA_1		Haloalkane dehalogenase	TTGTCTTCCCTCTTTCCCCGTGTCGCCTATCGCCATGTTGAACTGGATGGTGTCCGGGTGTTCTTCCGTGAATCACGCCCAGCCCACGCGGACGCACCGGTGTTGTTGCTCCTGCATGGTTTCCCCTCGGGATCCCACCAGTTCCTCCGTCTCATTGACGCACTGGGCTCGCGCTACCGGGTGATCGCACCGGATCTGCCGGGGTTCGGGCATACCGAGGTCCCGGAAGGTTTCGTCTATTCATTCGACAGCCTCTCGGGAGTCATTGAGAGTTTCGCCCAGCATCTAGGGCTGTCCCGGTTCGCGATGTACGTCTTCGACTTCGGCGCGCCCGTCGGATTCCGCATCGCGGAGAGGCATCCGGAGTGGATCGCCGGGCTGGTGGTACAAAACGGCAACGCCTACGAGGAAGGCCTGTCAGAGGCCGCCCGCGGGCTCCTCACGCTGGACTCTGCCGACCATGCCGCCGTGCAGACACTCCAGGACCTCCTCACCCTGCCCGGAACCCGCAGCCAGTACGAAACCGGGGTTGCCGACCCCGGCCTGATCGCCCCGGACGGATGGACACTCGACCAGCACTTCCTGGAGCTCCCGGGCCGGAAGGACGCTCAACTCTCCCTGCTGTTCGACTACCACACGAACATCGCAAGCTATGACCGCTGGCAGGAATGGCTGCGCCGGTACGCTCCGCCAACCCTCATTGTCTGGGGGCGGAACGACCCCTTCTTCATCGAGCCGGGCGCCCGAGCATACCTCCGCGACCTGCCCGGTGCCGAGCTCCACCTTTTCGACACCGGCCACTTCGCCCTCGAGACGCACGTGGCGGAGATCGCACCGCTTATCGACGGTTTTCTCGACCGGTCCTGGAGCTGA	MSSLFPRVAYRHVELDGVRVFFRESRPAHADAPVLLLLHGFPSGSHQFLRLIDALGSRYRVIAPDLPGFGHTEVPEGFVYSFDSLSGVIESFAQHLGLSRFAMYVFDFGAPVGFRIAERHPEWIAGLVVQNGNAYEEGLSEAARGLLTLDSADHAAVQTLQDLLTLPGTRSQYETGVADPGLIAPDGWTLDQHFLELPGRKDAQLSLLFDYHTNIASYDRWQEWLRRYAPPTLIVWGRNDPFFIEPGARAYLRDLPGAELHLFDTGHFALETHVAEIAPLIDGFLDRSWS	PGPT0013255_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-17_02285	558			hypothetical protein	ATGAGTGCCCTTGCCCCGCTGGTTGGGGAGCCGTTGGCTCTGGACCTGGTCAATACCCGTTACGCGCAGGGTGACTTCCTCGTCACGCCTGAGGATCTGCTCGCTTGGCTTGCCTTACAGGCCGGTCGCTGCCCGGAAGGCCTCTCCGAGAACATCGGCCCTGCGGAGCTGGCCGTTGTGCGGTGCGTCCGGGAGCGCTCGGCGCGGGCAATCGAGTGCGCCCGGAGCGGAACCGGGCTCAGCCAGGAGGACCTGGATGCCATCAACCAGGTGCTGCGTGGGGCTCCCTGCATCCTCGAGGTTGCTGATGGCCCCGACGGGCTCACTGCCAACCGGCGACGTCTGGGCTCAACAGCCGAGCGCCTGGCGGCGTGGTTGGCCGAAGGCGTCGTCGAGCTCCTCACGGACCCGGCGGTTTCCCGGATCTGCCAGTGCGAGGCTGAAGACTGCGTCCTGCTCTTCCTCCCGTCCAATCCGCGTCGTCGCTGGTGCTCGGCCAGCCGCTGCGGAAATCGGATGCGGGTCGCCCGTCACTATCAACGGCGCAAGGCGGAATAG	MSALAPLVGEPLALDLVNTRYAQGDFLVTPEDLLAWLALQAGRCPEGLSENIGPAELAVVRCVRERSARAIECARSGTGLSQEDLDAINQVLRGAPCILEVADGPDGLTANRRRLGSTAERLAAWLAEGVVELLTDPAVSRICQCEAEDCVLLFLPSNPRRRWCSASRCGNRMRVARHYQRRKAE				NA	NA	NA	NA	NA
D1-17_02286	264			hypothetical protein	ATGGGAGACAACACAGGAAGCTGCTGCGGCGGCAACACCACCAAGAACACCATGCCCCAGGACCTGACCCTGAACGCCCGGCCCGCGCAGAACGATAACACCACCGCCGAATGCCCCGTCATGCCCGGCACGCCCGTGGTCAAGGCCGTCGCCGAAGCAAAAGGCCTCTACCGCTACTACCAAGGCAACCGCTACTGGCTCTGCTGCCCCGGATGCGGACCGGCCTTCGACGCCGACCCCGCCAGATACGCCAAGGCCCGCTGA	MGDNTGSCCGGNTTKNTMPQDLTLNARPAQNDNTTAECPVMPGTPVVKAVAEAKGLYRYYQGNRYWLCCPGCGPAFDADPARYAKAR				NA	NA	NA	NA	NA
D1-17_02287	2310	ctpA_3	COG2217	Copper-exporting P-type ATPase	ATGTCTGAATCCTCGGCCCCCTATCAGGTGCTGGGCACCGGCATCGAACTCGAGATCGGGGGCATGACCTGCGCCTCGTGCGCTAACCGGATCGAGAAAAAGCTCAACAAGCTCGAGGGCGTCACCGCCACGGTGAACTACGCCACCGAGAAGGCACGCGTCAACGTCCCGCCCGGGTACGATGCGCAGGCACTCCTCGCGGAGGTCCAGAAGGCCGGCTACACCGCGACCCTGCCCGCCCCGAGGCAGGAACAGGAGATCGAAGCAGCCGACCGGCCCGACAAGGAGCTGCCGGCCCTGAAGCACCGCCTGATCGGCAGTGTCCTGCTGGCCGTCCCGGTGATCGTGCTGGCGATGGTCCCTGCCCTGCAGTTCACCTACTGGCAGTGGCTGTCCCTCGCCCTGGCAGCGCCGGTGATCGTCTGGGCGGGCTGGCCGTTCCACAAGGCAGCGTTCACTAACCTGCGCCAGGGCACCGCGACCATGGACACCCTGGTCTCCATGGGAACGGCCGCGGCGTTCCTGTGGTCGCTCTATGCCCTGTTCTTGGGCACCGCCGGGGCCCGGGGCATGACGCACCCCTTCGAATTGACCGTGGCGTCTACCGATGGTGCAGCGAACATCTACCTTGAGGTCGCCGCCGGGGTTATCATGTTCATCCTGGCCGGCCGGTACTTTGAGAAGCGGTCCAAGCGGCAGGCCGGTGCTGCGCTGCGCGCCCTGCTGGAACTGGGCGCCAAGGACGTGGCCGTCCTGCGGGACGGGGCCGAGACCCGCATCCGGATGGACCAGCTCACCGTCGGGGACGAGTTTGTGGTCCGCCCTGGGGAGAAGATCGCCACCGACGGCGTCGTCGTCAGCGGCCGCAGCGCCGTGGATGAGTCCATGCTCACCGGTGAGTCCGTGCCCGTGGAGATCGGTGAAGGCGACGCGGTGACCGGGGCGACGGTGAACGCCGGTGGCAGGCTGGTGGTTCGCGCCACCCGGATCGGATCCGACACGCAGCTGGCGCAGATGGCCCGGCTCGTGGAAAACGCCCAGTCCGGCAAAGCCGAAGTCCAGCGCCTGGCCGACAAGGTCTCCGGGGTGTTCGTGCCCATCGTCATCGCCATCGCCGTGGCCACGCTCGGCGCCTGGCTCGGCGCTGGATTCCCGGTCACGGCGGCCTTCACCGCGGCCGTGGCCGTTCTCATCATCGCCTGCCCCTGCGCCCTGGGCCTGGCCACCCCAACCGCGCTGCTGGTCGGAACCGGACGCGGCGCGCAGCTCGGCATCCTGATCAAGGGCCCGGAAGTGCTCGAATCCACCCGCAAGGTCGACACCATCGTGCTGGACAAGACCGGCACCGTCACCACCGGCAAAATGACCCTGCTGGGTGTGCACACCGCATACGGCACCGACAGCGATGAGCTGCTCCGCGTCGCCGGGGCACTGGAAGACGCCTCCGAGCACCCCATCGCCCAGGCCATCGCCCGCGGCGCCACCGAACGGATCGGCGCCCTGCCCATCCCGGAATCCTTCACCAACCATGAAGGACGCGGCGTGCAGGGAATCGTCGAAGGGCACCTCGTTATCGTCGGACGCGACACCCTGCTGACGGACTGGGCTCTGACCATGCCTGCAGACCTGGCCCGCGCCAAAGCTGAGGCGGAAACCGCGGGGGAGACCGCCGTCATCGTGGCATGGGACGGCGAAGTCCGCGGCGTGCTCACCGTCGCCGACGCCATCAAGGACACCAGCGCCGAAGCCATCACCCGGTTCCGGTCCCTCGGCCTGACCCCCGTCCTGCTGACCGGTGACAACCGGGCCGTGGCCGAACAGGTCGCCGCGAAGGTCGGCATCGAACAGGTCATCGCCGAAGTCCTGCCCCAGGACAAGGTCGACGTCATCACCCGGCTCCAAAAGGACGGCAAGGTCGTAGCCATGGTCGGTGACGGCGTCAACGACGCCGCAGCACTGGCCCAGGCAGACCTGGGCCTGGCCATGGGCACCGGCACGGACGCTGCCATCGAAGCCGCCGACCTGACCCTGGTCCGCGGGGACCTGCGCGCCGCCGCCGACGCCATCCGGCTGGCCCGCAAAACCCTGGGCACCATCAAAACCAACCTGTTCTGGGCCTTCGCCTACAACGTGGCCGCGGTTCCGCTGGCTGCTCTCGGGCTGCTCAACCCGATGCTCGCCGGTGCCGCGATGGCTTTCTCCAGCGTCTTCGTCGTCAGCAACAGCCTCCGCCTGCGCACCTTCACCAGCCAGGCGGCCACCACGTCACCGGCCGCCCGTCCCCTGATAGCCCGGCCGGTCGACGCCTGA	MSESSAPYQVLGTGIELEIGGMTCASCANRIEKKLNKLEGVTATVNYATEKARVNVPPGYDAQALLAEVQKAGYTATLPAPRQEQEIEAADRPDKELPALKHRLIGSVLLAVPVIVLAMVPALQFTYWQWLSLALAAPVIVWAGWPFHKAAFTNLRQGTATMDTLVSMGTAAAFLWSLYALFLGTAGARGMTHPFELTVASTDGAANIYLEVAAGVIMFILAGRYFEKRSKRQAGAALRALLELGAKDVAVLRDGAETRIRMDQLTVGDEFVVRPGEKIATDGVVVSGRSAVDESMLTGESVPVEIGEGDAVTGATVNAGGRLVVRATRIGSDTQLAQMARLVENAQSGKAEVQRLADKVSGVFVPIVIAIAVATLGAWLGAGFPVTAAFTAAVAVLIIACPCALGLATPTALLVGTGRGAQLGILIKGPEVLESTRKVDTIVLDKTGTVTTGKMTLLGVHTAYGTDSDELLRVAGALEDASEHPIAQAIARGATERIGALPIPESFTNHEGRGVQGIVEGHLVIVGRDTLLTDWALTMPADLARAKAEAETAGETAVIVAWDGEVRGVLTVADAIKDTSAEAITRFRSLGLTPVLLTGDNRAVAEQVAAKVGIEQVIAEVLPQDKVDVITRLQKDGKVVAMVGDGVNDAAALAQADLGLAMGTGTDAAIEAADLTLVRGDLRAAADAIRLARKTLGTIKTNLFWAFAYNVAAVPLAALGLLNPMLAGAAMAFSSVFVVSNSLRLRTFTSQAATTSPAARPLIARPVDA	PGPT0004090_5396	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
D1-17_02288	720			hypothetical protein	GTGGGGCAGGCAGGGCAGCTCTCGTTCACGATCACCGGTCCTGACGGGACGCCGGTCACCGAATTCGAGACCGAGCACGGAAAGGATCTGCACCTGATCGTGGTGCGCTCCGACGGTACCCGGTACCGGCACGTCCACCCCGTCATGGACGAAGGCGGCCGCTGGTCCCTGCCGTGGCAGTGGGACGCAGCGGGCACCTATCGGATTTACGCCGACGGCATGCCCGCAGGCGCCGGGAAGACCCTGACGCTGACCCGCACGGTGGATGTGGCGGGGGCGTTTGAGCCGGCCGCCCCGGCACCAACGACCACTGACGACGTTGATGGCTTCCGGGTTTCCCTGAACGGTGACCTCTCGGCCGGTGCGGCCTCGGCATTGACGGTGAGCGTCGCCCGCGACGGCAAGCCCGTCACTAACCTCGAACCCTATCTGGGCGCCTACGGCCACCTGGTGGCCTTGCGTTCCGGGGACCTGGCCTACCTGCACGTTCACCCCGAAGGGCCCGAACCGGTCAAGGGCAAGGTTTCAGGACCGGAGGTCCAGTTTGCCGCAACGGCCCCCACTCCGGGGCGCTACTACCTCTACTTCGATTTCCAGGTCGATGGGCAGGTCCACAGCGCCCGGTTCGTCCTCGACACCACCGGATCATCCGCCCACACCGCACCGAATGGCAGCACCGGCACTCCCGGCAGCGCCGATCACGGTCACGGCGGTCACTGA	MGQAGQLSFTITGPDGTPVTEFETEHGKDLHLIVVRSDGTRYRHVHPVMDEGGRWSLPWQWDAAGTYRIYADGMPAGAGKTLTLTRTVDVAGAFEPAAPAPTTTDDVDGFRVSLNGDLSAGAASALTVSVARDGKPVTNLEPYLGAYGHLVALRSGDLAYLHVHPEGPEPVKGKVSGPEVQFAATAPTPGRYYLYFDFQVDGQVHSARFVLDTTGSSAHTAPNGSTGTPGSADHGHGGH				NA	NA	NA	NA	NA
D1-17_02289	213			hypothetical protein	ATGGCCACCACTGAATTCCAAGTGACCGGGATGACCTGCGGGCATTGCGAGCTTTCGGTCCGGGAAGAGGTTCAGGAGATTCCCGGGGTCGAAGCAATCGAGGTAAGCCACCGGACGGGCAAGTTGACCGTGACCAGCAACGAGCCCTTGGAGCAGGGCGCGATCATCGCCGCCGTCGAGGAGGCCGGCTACCGGGCGGTGCGGGCAGGATGA	MATTEFQVTGMTCGHCELSVREEVQEIPGVEAIEVSHRTGKLTVTSNEPLEQGAIIAAVEEAGYRAVRAG	PGPT0004125_1555	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
D1-17_02290	648			hypothetical protein	ATGCGCAGACCTCCGAAGGCTTGTATTGGGGCGTTCCCCTTGGATACCGTTACGGGGTATACCTACGAGAGGAAGAGAATGAACTCCCGCAACCGTATGGCTGCAAGCGCTACCCTGCACTGCCTTACGGGCTGTGCTATCGGCGAGATTGCGGGCCTCATGATCGGCACGGCCTTGGGCCTCTCCACCGGCATCACCATTGCCTTGGCGGTCGTGCTTGCTTTCCTTTTCGGTTACGCCCTCTCGACGCTGCCGCTCATCCAAGCCGGGCTCGGCTTCACCGCTGCCCTCAGCGTCGTATTCGCGGCCGACACCCTTTCCATCGCGGTGATGGAAATCGTAGACAACGCCGTCATGGCCATCATCCCCGGCGCCATGGACTCCGGGCTGGTCAACCCGATTTTCTGGATTGGCATGATCGTTGCCCTCAGCGCAGCCTTCGTAGCCGCATTCCCGGTCAACCGCTACCTGATCGACAAGGGCAAGGGGCACGCGCTGACCCACCAGTACCACGAAGGCCACCAAGGCCACCAAGGCCACGGAACGGAGCATCACCAGGGCCACGGCGATGACCATGGCCACCATGGCCCGGCAGGTGCCAGTGGTGACGGGCCGGACGTCGGCGACCATCACGGCCACCACCACTGA	MRRPPKACIGAFPLDTVTGYTYERKRMNSRNRMAASATLHCLTGCAIGEIAGLMIGTALGLSTGITIALAVVLAFLFGYALSTLPLIQAGLGFTAALSVVFAADTLSIAVMEIVDNAVMAIIPGAMDSGLVNPIFWIGMIVALSAAFVAAFPVNRYLIDKGKGHALTHQYHEGHQGHQGHGTEHHQGHGDDHGHHGPAGASGDGPDVGDHHGHHH				NA	NA	NA	NA	NA
D1-17_02291	180			hypothetical protein	ATGAACACCAACATCCTGGCCTCCGGCTTGATCGGCTTTCTTCTAGGCGGACTCGTAGTATCGATCGCGGCCCAGCTTGAGCGCACCGGTGCTGAAGTACCCTCTCATTCCTCCAGCAGCCAGCAGATAATCGATATTGAGTACGGGATCGCAAGCCCCGGGAACAATGTGCTCCCATGA	MNTNILASGLIGFLLGGLVVSIAAQLERTGAEVPSHSSSSQQIIDIEYGIASPGNNVLP				NA	NA	NA	NA	NA
D1-17_02292	342	ricR_2	COG1937	Copper-sensing transcriptional repressor RicR	ATGACCATCTCCACCACGCAACCGCTGGACACCCCGGACCACGAAGCCGCGGGCGAGTCGACCCATGGCTACATCACTGACAAAGACCGGTACCTGGCCCGGGTGAAACGAATCGAGGGGCAGGCGCGGGGCATCCACCGGATGATCGAGGAAGAGCAGTACTGCATCGACATCCTCACCCAGATCTCAGCTCTAACCGCCGCGCTGCGAGGCGTCGCCCTAGGACTACTCGATGACCACATGAAACACTGCGTGCTCGACGCCGCCCAACTCGGTGGAGACGCCGCGGAAGCAAAGTTCAAAGAAGCCTCCGACGCCATTGCCCGCTTCGTCCGTTCCTAA	MTISTTQPLDTPDHEAAGESTHGYITDKDRYLARVKRIEGQARGIHRMIEEEQYCIDILTQISALTAALRGVALGLLDDHMKHCVLDAAQLGGDAAEAKFKEASDAIARFVRS	PGPT0004175_592	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
D1-17_02293	1521			hypothetical protein	GTGAGCGAGAGCGCAGTAGCAGGGAACGAGCGCATTGTTGACGTCCTGCACGCCCTGGCTACCCGTGCAGAGGCGACCGGCGTACGGGAACTCGCTCAGGCCCTGGGCGCCAGCCGCAGCACGGTAAACCGCATCCTGCTGGGGCTGGAGGAGCACGGGCTGGCCGCGGTCACCGGCAGCGGAAACTATCAGGTCGGACCGCGGCTGCGCGTCCTGGGTGCGGCACTCCACGCGCGCCACCCGCTGCTGCGCAATGCTGAAGCCATCATCGAACACCTGGGCGAAGAATCCGATGCCACGGTCCTCGTCGCAGTGCACGACGCACCCCGACCCCGTGTGGTCGTCGTCGCCTGCCGGCGCCGACCTGGGCCGATCAAGTATCTCCTCGAACCCGGGACGGTTTTGCCCCTCCACGCCGGAGCGACCGGCCGTGCGATATTGGGCCGGCTCGGAATCGGCGCCCTGGGCGACGCCCCGCTCGAGGCCGCGACCCCCGACACCGTCATTGATCGGGCGGAACTGGCCAAGCTGCTCCAAGAGGACAGAAGGGCCGGATATACGATCAGCGTGGGACAGCAGTTCCCGCTGGCTGCCGGCGTCGCCGCATCCTTTTACTGCGGGGGACTGACCGGGTCTGTTTCAATCACGCGTCCGCGCTTCCTCACCAGTGATGAAGACCTGGTCCGCTTCGGACCGATGGTCCAGGATGCAGCGCACGCAATAGAAGCCAAATGCTCACTGCCCCACTCGCCGGAGGATCCGAAACCCATCGACAACCCTGCCGGCTCCACCGCCTTGGTGCGCATCATCAAGCTCCTGACCGCGCTGGTCGCCGAACCGTCCGGAATCACCACCGGACAGGTGCTGGCGCGCCGGATTGGGGCCAACATAGCCACGACCAACCGCCTCGTCTCCACCGCGGTCACCACCGGCCTGGCCCTGACCCGAGGGGACACCCTGCACCCTGGCCCGCGCCTGTTCCAGTGGGCCGCCCGTCTGGGTCCCACAGTCGATGTCCCCTCCGCAGCACAACCGATCCTCCGCGACCTGGCCGAAGAATCCGGTGAGACCATCGGGCTGATCCAATTTCAGACCGACACCAAGCAGGCTGTGATGACGACGGTGATAGACGGTGTCCGACCGCTGCATTACGGGCTTGCCTCAGGCGTTGCCATTCCGCTCTACGCCGGTGCCGGCGGGAAAGCCATCCTCGCCCACTGCCCGCCGGGCGAACTGGACAAACTCGCGCTGGAACCTCTCACCGAACGCACCCAAACGAACCGTGACGCCCTCGCGAACGACCTCCGCTCCATCAGGGAGCGCGGCTGGGCGATCGGCAACGGTGAACGCATCCCGGACGCCTTCGGAGTCAGTGCGCCCTACTTCAACAACGGCGAAATCTCTGGCTCCATCACAGCGACCGTATCAAGGCTACGACTGCCAGAGCTGGACGTCGAGGCACTCGCTCACATGGTCCAGCGGGCCGCCCAGCGACTCACGCTGCTTCTCTCCGTACCCTAA	MSESAVAGNERIVDVLHALATRAEATGVRELAQALGASRSTVNRILLGLEEHGLAAVTGSGNYQVGPRLRVLGAALHARHPLLRNAEAIIEHLGEESDATVLVAVHDAPRPRVVVVACRRRPGPIKYLLEPGTVLPLHAGATGRAILGRLGIGALGDAPLEAATPDTVIDRAELAKLLQEDRRAGYTISVGQQFPLAAGVAASFYCGGLTGSVSITRPRFLTSDEDLVRFGPMVQDAAHAIEAKCSLPHSPEDPKPIDNPAGSTALVRIIKLLTALVAEPSGITTGQVLARRIGANIATTNRLVSTAVTTGLALTRGDTLHPGPRLFQWAARLGPTVDVPSAAQPILRDLAEESGETIGLIQFQTDTKQAVMTTVIDGVRPLHYGLASGVAIPLYAGAGGKAILAHCPPGELDKLALEPLTERTQTNRDALANDLRSIRERGWAIGNGERIPDAFGVSAPYFNNGEISGSITATVSRLRLPELDVEALAHMVQRAAQRLTLLLSVP				NA	NA	NA	NA	NA
D1-17_02294	1326	proP_2		Proline/betaine transporter	ATGCCCCAAGTCAGTCAGACCGTCCCCCCGGCGACGGATGCCCTCCACCTCAAAAAAGCGAAGAAGGCCACCGGTGTTGCCGCGTTCGGTACTTTCATCGAGTACTACGACTTCAGTGTCTTCGGCTATGTGGCCGCGACGCTGGCCGTGGTGTTCTTCCCCGCCGGTGATCCCGTCGCGGGGCTGCTGAACACCTTCCTGGTTTTCGGCACGGCGTTCCTGGTCCGGCCGCTGGGCGCGATCTTCTTCGGGCGCATCGGTGACCGCTACGGCCGGCGCGCCAGCCTCATCGGCTCGGTCATCCTGATGAGCGGTGCGGCAGGGCTTACCGCGCTGCTGCCCACGTACGCGCAGATCGGCATCTGGGCACCCATCCTGCTGGGCCTGCTGCGGATGCTGCAGGGCCTCTCCGCCGGCGGCGAGATCGGCGGCGCCGCGACCTACATCCGCGAATGGGCTCCGGTGGAGCGGCGCAACCTCTACATCTCCTTCATTCCCAGCGTGGGGGTGCTGGGTAAGGCCGGCGCTGCAGGCGTTGCCGCACTGGCTGCATCTTTTGTGCCGGCGGCGGAAATGGAGTCCTGGGGCTGGCGGATCCCGTTCCTCCTGGCGATCCCGCTGGGCATCCTGTGCCTGGTCATGCGCCTGAAGATCGAGGACAGCCCCGAGTTCACCCAGAGCGCGAACAAGGGCCATACAACCAAGGCTCCGATCGTTGAACTGTTCCGCAACCACCGCTCACGGCTGACCAAGGTCTTCTTCATCGCCCTCGTGCAGAACATCGGCACCTATATCGGCACCGTCTATGTTGCCGTCTACTTCAGCACGGTCTTGGACTTCACCAAGGCCGAAGCTGCAACCATCGTCCTCATCGCCGTCACCGCCGCGGCGCTGCTGATCCCACTGGCAGGCCAGCTGGGCAGCCGCATCGGCAGCAAGAAACTGCTGACAGCCTCCTACATCGCCTACATCGCGCTTACCTTCCCCTCGTTCATGCTCATGAATGCCGGTTCCTTGGCACTGGCGATCTTCGGCCTGCTCCTTGGCATGGTGCCCTACGCCCTCTGCCAGGCAGGCACCTACGCCGCCATGCCCGAGTTCTTCCCCGTCGAGGTCCGGCACAGCGGCGTCGCCTTCGGCCACAGCGTCGGGGCCGTACTCGGCGGCGCCGGCGCCCCCTACGTGGCAACCTGGCTGATCGGCAACACCGGCAACACCATGATCCCCGCCTACATGCTGATGATCTTCGGCGTCCTGGGCCTGGCCGTGCTGCTGGGCACGGTACGCAAGAACACCCTCACCGCCGCTTCCCACCTCTACCGCTAG	MPQVSQTVPPATDALHLKKAKKATGVAAFGTFIEYYDFSVFGYVAATLAVVFFPAGDPVAGLLNTFLVFGTAFLVRPLGAIFFGRIGDRYGRRASLIGSVILMSGAAGLTALLPTYAQIGIWAPILLGLLRMLQGLSAGGEIGGAATYIREWAPVERRNLYISFIPSVGVLGKAGAAGVAALAASFVPAAEMESWGWRIPFLLAIPLGILCLVMRLKIEDSPEFTQSANKGHTTKAPIVELFRNHRSRLTKVFFIALVQNIGTYIGTVYVAVYFSTVLDFTKAEAATIVLIAVTAAALLIPLAGQLGSRIGSKKLLTASYIAYIALTFPSFMLMNAGSLALAIFGLLLGMVPYALCQAGTYAAMPEFFPVEVRHSGVAFGHSVGAVLGGAGAPYVATWLIGNTGNTMIPAYMLMIFGVLGLAVLLGTVRKNTLTAASHLYR	PGPT0013645_1867	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-17_02295	1002	ghrB		Glyoxylate/hydroxypyruvate reductase B	ATGCCGACCTTCTACGTCTCCGACGAGATCCACACCGACGTCCTGGCAAAACTTCACACCCTGGGCCAGGTGCACCTTGGCTACGGCCAGGACGCTGTCCGCTACGAAGACGTCCGCACCGATATCGACGCCGTCCTGCTCCGGGCCGAACGCTTCGACCGGGAAAAAATTGAGGCCTCCCCCCGGCTGCGTATCATCGCCCGCCACGGAGTGGGAACCGACAACGTCGACATCGAAGCTGCCACCGACGCCGGTGTCTGGGTGAGCACCACCCCGGGCAGCAACAGCCGCGCCGTCGCCGAGCACGTCTTCGCCCTCCTGCTCTCCCTGGCAAGGAAAGTGCCCTATGGGGCCGCCCAGACCACCGCCGGGCACTGGGCAGCAGCCAAACCACAGATGAACGGCTTCGAACTGCACGGGCGCACCCTCGGACTGCTCGGCTTCGGCAACATCGCCCGCATGGTCGCCACCATCGCCCAGGGATTCGGCATGCACGTCCTGGTCCATGACCCCTTCGTGCAGGATTCCGCCATCCAGGCCGCGGGTGCTGCCCCCGCAACGCTCGATGAGGTTATCGGCGGCTCGGATGTTCTCAGCCTGCACATGCCGCTGACCGAGCAGACCGCCCAAATCATCGACGCAGACGCCCTGGCCAGGATGAAACCCGGGTCGGTGCTGATCAACACCTCCCGCGGCGGCCTCATCGACGAACCCGCCCTGGCCCAGGCACTGCAGAACGGGCACCTGGGCGGGGCCGGGCTGGATGTCCTGGAAGGCGAGTCCGTGGACATGAAAGACCCCATCGCACACTCCAAGATTCAGATCGCGGAGGTGCCGAACCTGATCGTGACCCCGCACGTCGCCGGGCAAAGCGAAGAGGCCTTCCTGGCCGCCGGAACCGGCGCCCTGCAGGTCATGCAACAGGCCCTCGCCGGCCAGCGGCCGGACCACGCAATCAACAACATCACACTCAATAACATCCCCTCCCCCGCCCCCGTATAA	MPTFYVSDEIHTDVLAKLHTLGQVHLGYGQDAVRYEDVRTDIDAVLLRAERFDREKIEASPRLRIIARHGVGTDNVDIEAATDAGVWVSTTPGSNSRAVAEHVFALLLSLARKVPYGAAQTTAGHWAAAKPQMNGFELHGRTLGLLGFGNIARMVATIAQGFGMHVLVHDPFVQDSAIQAAGAAPATLDEVIGGSDVLSLHMPLTEQTAQIIDADALARMKPGSVLINTSRGGLIDEPALAQALQNGHLGGAGLDVLEGESVDMKDPIAHSKIQIAEVPNLIVTPHVAGQSEEAFLAAGTGALQVMQQALAGQRPDHAINNITLNNIPSPAPV	PGPT0009155_5925	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-17_02296	681	rraA_3		Regulator of ribonuclease activity A	ATGTTTATCGACGCAGCAACTACTTCACTCACCGTCGGCCACCGTCCCACCAACTCCGTCACCGAGTTCGTTGAGGGCCTGAAGCAGTACCCCACAGCCAATGTCGGGGACGCCATGGACAGGCTTAACCTCATGGACACAGGCATCGCATCACAATGGGCCACCGGCCGGTGCGTCGGCCCGGCACTGACAGTACTGACCCGTGAAGGCGACAACCTCGCCATCCACCGCGCCCTCGATGACGCCGAACCCGGCGACGTCCTTGTCATCAACGCCCTCGGAGGAACAACCCGGGCCGTTTTCGGTGACCTGTTGGCCGAGATCTGTCTCGCCGCCGGCATCGCCGGCGTCGTCATCGACGGACTAACCCGGGACCGTGCAGCCATCAAGGAACTCGGGCTGCCCGTCTGGGCCCGCGGGGTCTCGCCCGCCGGACCCGCGAAATACGGGCCGGGAGCCGTCTCGGTGCCGGTGGCCTGCGGCGGCACCGTCGTCAGCCCCGGGGACCTCATCAGCGCCGACGACGACGGCGTTGCCGTCATACCCATGCAACGCGCCGAAAGCGTGCTGCACAGACTCGCGGACATCGACAAATTCGAAGAAGACCTCCGCACAAAGATCAGAAACTCCACCACCTCAACGGCCGCCGGAACCGTCAGGCACCTGGCAAGCAGTATCTAA	MFIDAATTSLTVGHRPTNSVTEFVEGLKQYPTANVGDAMDRLNLMDTGIASQWATGRCVGPALTVLTREGDNLAIHRALDDAEPGDVLVINALGGTTRAVFGDLLAEICLAAGIAGVVIDGLTRDRAAIKELGLPVWARGVSPAGPAKYGPGAVSVPVACGGTVVSPGDLISADDDGVAVIPMQRAESVLHRLADIDKFEEDLRTKIRNSTTSTAAGTVRHLASSI	PGPT0002085_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0002085-ligK|galC-K10218	NA	NA
D1-17_02297	291			hypothetical protein	ATGATCAAGTACCGCCATGACGCATGGGACCGGCTCGTAGGTGCCCCGGTTGAGATCCGAAAAGACGGCAATGTCATCAGATCCGGCAGAGTCGACGGGGCGATGCCCGACTCTTCCGTGATCTGGCTGGCGGCTGACGAGTGGGAACCCAGGGCTCTCTTTGAGGCCGCGCTAGGCTTCGAAGTGTGGGTCGAACCCCGGCAACTTGCAGGAAAGCTCTCCTACCGCATGACGGCCTCCGCCCTTCATCACGAAGACAAACCGCGCGGCCGGCTATCCTCATCCGGCTAA	MIKYRHDAWDRLVGAPVEIRKDGNVIRSGRVDGAMPDSSVIWLAADEWEPRALFEAALGFEVWVEPRQLAGKLSYRMTASALHHEDKPRGRLSSSG				NA	NA	NA	NA	NA
D1-17_02298	537		COG0589	Universal stress protein/MSMEI_3859	ATGGACACGAAAGGAAAAGTGGTCGTCGGCGTCGATGGCTCGGAATCTTCGGTACAGGCGCTGCGGCTTGCTGCCAGGTTAGCGCCCGCGCTGGAAGCGGCGATTCACGCCGTAGCCGTCTGGGAACTCCCGCCCGTGTACGCCGACGAGACTGGCTACGTCCCGCCGGACTTCGACGCGATGGAAGCGATCGACGCGGCTGAGGCGGCTGAGAAGAAGATTCTGGCCGATACCGTCGCCAAGGCCTTCGGGACGGACGTACCCAGGAACCTCAGCCAGGAACTGATCCGCGGCCCGGCACGGGACAAACTGGTGGAAGCCGGCGCCGGCGCCGCGCTGCTGGTGGTTGGGCGGCGTGGTCACGGAGGCTTCCTGGGCATGCATATCGGATCCGTAAGCTCAGCCTGCGTTTCCCACGCCGACTGCCCCGTGCTCGTGGTGCATTCGGATGGTGAGGTGCAGGTCGAGGGCAGCCCCCGTCCACACCATCTCTGGAAGAGCTCCAAGACCAAGGGCCAGGACCCGTCTAAGCCATAA	MDTKGKVVVGVDGSESSVQALRLAARLAPALEAAIHAVAVWELPPVYADETGYVPPDFDAMEAIDAAEAAEKKILADTVAKAFGTDVPRNLSQELIRGPARDKLVEAGAGAALLVVGRRGHGGFLGMHIGSVSSACVSHADCPVLVVHSDGEVQVEGSPRPHHLWKSSKTKGQDPSKP				NA	NA	NA	NA	NA
D1-17_02299	471			hypothetical protein	GTGAGCTCCGGCCTGGAGGTGTCCCTGCCCGAGGCCTTGTCGGTGAAGACCCGGTCCAGAATCTGGCCGTCGAGCTGGCGTTACTCGTTCTGGTCCAAAGTGCTCACGCGCACGTACCCGATCCGCTGTCCCGACACCGATGCCTCCAAACCCGTCGACCTGTCAGATCGAGTTCTAGGGCCTTCCCAGCAGAACGTCAAGACATCCGGGTTCACATCGTCAGGTTGGGGTGTGCTTGAGCCTTACATCTGCGGGTTGATTGACTACGCGTATAAGCGACGCCACCGCTGGAATGGCGGGTGGCGGGTCCCTTGGAGGCACAAGGCGCGGGATTTATGGCTTAGACGGGTCCTGGCCCTTGGTCTTGGAGCTCTTCCAGAGATGGTGTGGACGGGGGCTGCCCTCGACCTGCACCTCACCATCCGAATGCACCACGAGCACGGGGCAGTCGGCGTGGGAAACGCAGGCTGA	MSSGLEVSLPEALSVKTRSRIWPSSWRYSFWSKVLTRTYPIRCPDTDASKPVDLSDRVLGPSQQNVKTSGFTSSGWGVLEPYICGLIDYAYKRRHRWNGGWRVPWRHKARDLWLRRVLALGLGALPEMVWTGAALDLHLTIRMHHEHGAVGVGNAG				NA	NA	NA	NA	NA
D1-17_02300	381	pinR	COG1961	Serine recombinase PinR	ATGGACCGCCTCGCCCGGAACCTGGATGACCTGCGTTCACTGGTCCAGGGCTTCACGCGTAAGGGCGTGCGGGTGGAGTTCATCAAAGAGAGCTTGGTCTTCACCGGGGAAGACTCCCCCATGGCCAATCTCATGCTTTCCGTGATGGGGGCCTTCGCCGAGTTCGAACGCTCCCTGATCCGGGAGCGGCAGCGCGAAGGCATCGCGCTGGCCAAGCAGCGCGGCGCCTATAAAGGGCGGAAAAAGACCCTCACTCCGGAACGGGCAGACGAACTGGTGCAGCGGGCGGCCAGCGGCGTCCCGAAATCCGTCCTTGCCAGCGACTATGGCATCAGCAGGGAAACTGTGTACCAGTACCTCCGCCAGGCCAAATTTTCCTAA	MDRLARNLDDLRSLVQGFTRKGVRVEFIKESLVFTGEDSPMANLMLSVMGAFAEFERSLIRERQREGIALAKQRGAYKGRKKTLTPERADELVQRAASGVPKSVLASDYGISRETVYQYLRQAKFS				NA	NA	NA	NA	NA
D1-17_02301	159			hypothetical protein	ATGTGGCCGCAGACCGAGCTTGTACAGCACCTGAAGAAACGGTCGGCGTTCATCAACATCACCCTCGAGGACATCACCAAGATTAGCGACATGTTCAAAACCATCTACAGCATCGATGATGACCGGGCGCCGTCGCACCGCCGGCTGATAGATCCCTAA	MWPQTELVQHLKKRSAFINITLEDITKISDMFKTIYSIDDDRAPSHRRLIDP				NA	NA	NA	NA	NA
D1-17_02302	1059			hypothetical protein	ATGAGTCAGCACCATCTTGATGCCGCACGGCGGGCCGCTGCAGGGCAAGGACATGCCGCGGAACCAGATGGCGAGTTGCCCGGATCCAGACCTGCCAAACTCCTGAAGTTCAGCACCGACGGCATCCCAGCCACCAACAGAGTCCAGCTGTGGGAGCACCACAATTCCAAAGCGCTGATTCCGCTGGATATCCGCACTATGGATGAGGCGCCGCTGCAGGCCAGGGAGCTGAACTTGCATTTCCCGTCGCTGAAGTTCGCCCAGGTTAGGGGCAGCGCCCAGGTAGTGGAGCGTAACGAGCGGTTTATCCGGCAAAACCCCACGGACGTGATCGCGGTCTTCTTCGCCCTGGAGGGGGAAGCATTTTTCTACTATGGGGACGGGCAGGAATCGCTCAAGCCCGGACAGGCTGTCATCTACGACGCCGACCGGCCGTTTCTGCGCGGCTTCTGCAAAGGGCTGCACGAGCTGGTGCTGACGATCCCGCGCGATGACTACCTGGAGCTGTCAGGCGGGAAGCCGCTGCTCAAACCGCGGGTTTTCGACTTTAACCAGGGTAAGCCGGCGAATCGGCACATGCTGGCCCTGGCCAAACTGGTCAGCGGCACCCTCGCCGGGAAGCCCCAGTCCGGCCAGGCGGCGGATCCGGAACGTGCCGAGGACGCTGCCCTGGACCTGCTCGGCCTCCTGGTGAGTGGGGAGCGCAGCGGCACCGACCCCGGATACCTTGCCACGGCGCGCTGCTATATCGAGGATCGCCTGGGCGATCCGCAACTCAGCACGGCCGAGGTTGCCGCGGCCGTCGGCATTAGCGAACGTCACCTGACGCGGATCTTTTCTGAGGCGGGCGAGCCGCCCAGTCTGTATATTCTGGGCCGGCGGCTGGAGCTGGCGAGGAACATCCTCTGCGATCCAGCGCAAAGAACGACGCCGGTGGGACGGATTGCCGCAGAGGCCGGTTTCGCGTCGCAAAGTTATTTTACGCGCGCCTTTAAGGCCCGCTTTGGCGCCGTTCCGCTCCAGGTCCGCAAGAACACGCTCCTCGGCATCACGCTTTAG	MSQHHLDAARRAAAGQGHAAEPDGELPGSRPAKLLKFSTDGIPATNRVQLWEHHNSKALIPLDIRTMDEAPLQARELNLHFPSLKFAQVRGSAQVVERNERFIRQNPTDVIAVFFALEGEAFFYYGDGQESLKPGQAVIYDADRPFLRGFCKGLHELVLTIPRDDYLELSGGKPLLKPRVFDFNQGKPANRHMLALAKLVSGTLAGKPQSGQAADPERAEDAALDLLGLLVSGERSGTDPGYLATARCYIEDRLGDPQLSTAEVAAAVGISERHLTRIFSEAGEPPSLYILGRRLELARNILCDPAQRTTPVGRIAAEAGFASQSYFTRAFKARFGAVPLQVRKNTLLGITL				NA	NA	NA	NA	NA
D1-17_02303	858	clcA_2		Chlorocatechol 1,2-dioxygenase	ATGACTATAGAAACCCATGCCACGGCGGCGGCTTCAGGCGCCAACGCCACCGAGCGCTTCCGCGAGAACAAAAAGTACGCCGGTGATACCAGCCAGGAACGCGTAAACCTGCTGGCATCGCGGGTGATCGGTGCAATCAACGAGACGATCTTGGAAGAAAAGGTCAGCTACAACGAATACAACGCGTTGAAGGCCTGGCTCATCCAGGTCGGCGAGGACGGCGAATGGCCGCTGTTCCTGGACGTCTGGGTGGAGCACTCCGTCGAGGAGGTCGCCAATGCGAACAGGCACGGCTCCAAGGGAACCATCGAGGGACCGTACTACCTTCCGAACTCCCCCGAGCAGCACTCCCCGGCGACACTGCCGATGCGTGACGACGAACCCGGCATTCCGCTCCTATTCCAGGGACAAGTCAGCAACGTTGCCGGCCAGGCCCTGCCGGGCGCCAAGATCGAGATCTGGCATGCAGACGATCTCGGCTTCTACTCGCAGTTCGCGCCCGGCCTGCCCGAATGGAACCTCCGCGGCACTGTGGTCGCGGAACAGGACGGCAACTTCCAGATCAACACCATGCAGCCCGCGCCGTACCAGATCCCCACGGACGGTGCCTGCGGGCAGCTCATCGCCGCCGCCGGGTGGCACGCGTGGCGCCCGGCGCACCTGCACCTCAAAGTGTCGGCGCCGGGGCATCAGCCCATCACCACCCAGCTGTACTTCGAGGGTGACGAACACGTGGCGGACGATATCGCTTCGGCCGTGAAGCCCGAACTGGTGCTTGCCCCGACCAACCGCGCTGACGCCGCCGGACGCGAAGTCACCTACAACTTCGTCCTGGACCCAGAGGAGGGAGAAAAATGA	MTIETHATAAASGANATERFRENKKYAGDTSQERVNLLASRVIGAINETILEEKVSYNEYNALKAWLIQVGEDGEWPLFLDVWVEHSVEEVANANRHGSKGTIEGPYYLPNSPEQHSPATLPMRDDEPGIPLLFQGQVSNVAGQALPGAKIEIWHADDLGFYSQFAPGLPEWNLRGTVVAEQDGNFQINTMQPAPYQIPTDGACGQLIAAAGWHAWRPAHLHLKVSAPGHQPITTQLYFEGDEHVADDIASAVKPELVLAPTNRADAAGREVTYNFVLDPEEGEK	PGPT0005035_810	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005035-catA-K03381	NA	NA
D1-17_02304	579	rutF_1		FMN reductase (NADH) RutF	ATGACTCAGGAAGCAGTCACTACCCCTGTCGACCCGCGCGAGCTGCGGAACACCTTCGGCCAGTTCGCTACCGGCGTCACCGTTGTAACCTGCCGGTCCGAGGTCGGCGTCCCGCACGGTGCCACGGTCAACGCCTTCACCGCTGTGTCACTGGACCCGCCGCTGGCACAGGTGACGCTCACGCGCACCTCGCGGGCGGCGCAGTACCTTGACGGGGCCCCCTTCGCCATCAACATCCTGTCCCAGGACCAGTTGGACGTTGCCTGGCACTTCGCCGGCAAACCGCTGCCCTATGAGCCGGCCTGGACGCTGGACGGAGACGTCCCGGTCCTGCTGGAAAACAAGGCGACCCTGGAATGCGCGCCCTGGGCGATCTACGACGGCGGCGACCACATCATCGTCATCGGCGAAGTCCAAAAACTCGAGGTCACAGACCGCGAACCGTTGCTGTTCTTTGGTGGGAAATTCCGCGAAATCGGGCCCATGACCGGTTCGAGCCACTGGCACCACTGTGGTGACTCCCTGGAATCCGGCTGGTTCTCCGGCGCGGACTCCTTCAAAGCCTTCAACAGCATCTAA	MTQEAVTTPVDPRELRNTFGQFATGVTVVTCRSEVGVPHGATVNAFTAVSLDPPLAQVTLTRTSRAAQYLDGAPFAINILSQDQLDVAWHFAGKPLPYEPAWTLDGDVPVLLENKATLECAPWAIYDGGDHIIVIGEVQKLEVTDREPLLFFGGKFREIGPMTGSSHWHHCGDSLESGWFSGADSFKAFNSI				NA	NA	NA	NA	NA
D1-17_02305	1599	nphA1		4-nitrophenol 2-monooxygenase, oxygenase component	ATGACCGAAATCCTGGATGACACAGCACCCACCACCGCTCCCACGATGGACGAACGGACCACGTCCGCCAATCGGAAGATGCCCATGACGGGGGACGAGTACATCAACTCGCTCAAGGACGACCGGGAGGTGTGGATCTACGGCGAGCGGGTCAAGGACGTGACCACCCACCCGGCGTTCCGCAACTCCGTCCGCATGGCCGCCAGGCTGTATGACGGGATGCACAAGCCGGAGCTGCAGGACAAGCTGATGGTGCCTACCGATACCGGGTCCGGCGGCAAGACCATGTCCTTCTTCCGTACCCCGCACAGCGTTGAGGACCTGAAGAAGGACCGCGTCGCGATCGAGACCTGGGCGCGAATGAGCTACGGCTGGCTGGGCCGCTCCCCGGACTACAAGGCAGCGTTCCTGGGCACCCTGGGCGGCATGCCGGACTTCTACGAGCCCTTCCAGGACAACGCCAAGCGCTGGTACAAGGAGTCCCAGGAAAAGGTCCTGTACTGGAACCACGCGATCATCAACCCCCCGGTGGACCGGCACCTGCCGCCGGACCAGGTGGGCGACGTGTTCATGAAGGTCGAGAAGGAAACAGGCTCGGGCCTGATCGTTTCCGGCGCGAAGGTTGTGGCTACCGGATCGGCGATCACCAACTACAACTTCATCGCCCACTACGGACTGCCGATCAAGCGCAAGGAGTTCGCCCTCATCTGCACCGTGCCGATGGACGCTCCCGGGGTGAAGCTGATCAGCCGCGCTTCCTACAGCCATCAGGCCGCTGTGATGGGCACCCCGTTCGACTACCCGCTCTCCAGCCGGATGGACGAGAACGATTCGGTGTTCGTCTTCGACAAGGTCCTGATCCCGTGGGAGAACGTCTTCGCTTACGGGGACGTGGAGAAGATCAACAACTTCTTCCCGCAGACCGGCTTCATCAACCGCTTTACGTTCCAGGGCGTGATCCGGCTCGCCACGAAGCTGGACTTCATCGCCGGGCTGCTGCTGAAAGCCCTCGAAGTTGCCGGCACCCAGGACTTCCGCGGCGTCCAGACCCGCGTCGGTGAGGTCCTGGGCTGGCGCAACATGTTCTACGCCCTGATCGACGGCATGACCCTGAACCCGGACCAAGGCCCGAACGGGACGGTGCTGCCAAAGCTGGACTACGGCCTGGCGTACCGGATGTTCATGGCCATCGGCTACCCGCGGATCAAGGAAATCATCGAACAGGATGTCGCGTCCGGCCTGATCTACCTGAACTCCTCGGCGCTGGATTTCAAGACCCCGGAAATCCGCCCGTATCTGGATAAGTACGTCCGCGGCTCCGACGGCGTTGAAGCAGTGGATCGGGTGAAGCTGATGAAGCTGCTCTGGGACGCGATTGGCACCGAGTTCGGCGGCCGGCACGAACTCTACGAACGGAACTACTCCGGCAACCACGAGAACGTCAAGGCTGAAATCCTCTTCGCCGCCCAGGCACAAGGCACCACGGACTCCATGAAGGGTTTCGCGGACCTGTGCATGTCCGAGTACGACCTGGACGGCTGGACCGTGCCTGACCTAATCAACAACGACGACGTCAGTCTCTTCCTCAAACGCAACTAA	MTEILDDTAPTTAPTMDERTTSANRKMPMTGDEYINSLKDDREVWIYGERVKDVTTHPAFRNSVRMAARLYDGMHKPELQDKLMVPTDTGSGGKTMSFFRTPHSVEDLKKDRVAIETWARMSYGWLGRSPDYKAAFLGTLGGMPDFYEPFQDNAKRWYKESQEKVLYWNHAIINPPVDRHLPPDQVGDVFMKVEKETGSGLIVSGAKVVATGSAITNYNFIAHYGLPIKRKEFALICTVPMDAPGVKLISRASYSHQAAVMGTPFDYPLSSRMDENDSVFVFDKVLIPWENVFAYGDVEKINNFFPQTGFINRFTFQGVIRLATKLDFIAGLLLKALEVAGTQDFRGVQTRVGEVLGWRNMFYALIDGMTLNPDQGPNGTVLPKLDYGLAYRMFMAIGYPRIKEIIEQDVASGLIYLNSSALDFKTPEIRPYLDKYVRGSDGVEAVDRVKLMKLLWDAIGTEFGGRHELYERNYSGNHENVKAEILFAAQAQGTTDSMKGFADLCMSEYDLDGWTVPDLINNDDVSLFLKRN	PGPT0020455_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483	NA	NA
D1-17_02306	1191	rbn_6		Ribonuclease BN	ATGTGTGACGTATTAGGCAGACTTGAGTCGTCCGGAGTCTCCAGACGAAATATCCTCGCCAGTTTCGGGCTTGGAGCGGCGGCGGTCACCCTGACGGCGTGCACTGACAACAGGGCAGTGGGATCATCCGCGTCGCGGTCATTCAGCCCTGCACCAGCTGAAGGGCATCGCACCCGTCTGGTCCTTCTCGGCACCTCCGGGGGTCCGCCCTATTGGCCGGGTGGTACGCGCGAAGGAATATCCTCCGCCCTTGTAGTCGGGGACCGCTATTACCTTATTGACGCAGGCCATGGGGTGATGGGGCAGTTACGGAAGGCCAAACTCGGTCCCAACTACGAAAAGGATATGGAGGGGCCGCTGGATGTGCTCGCTGGAATATTTTTGACACATCTTCACTCCGACCATGTCGTGGACTTGAACAACATACTCAGCGAGGGCCTTTTCAATGGCCTTCAGTCCGTCAAGAAAATACCCATCTGGGGCCCGGGTAATCGCGGTGAGTTGCCCCCCTTGTTCGGGTCAGGAAACCCGCCCACCCCGGCCAGTCCCGGGAACCCGACCCCGGGCACGCGCGAAATGACGGATCTCATCGTGCAGGCCTACGCCACTGACTTCAATGACAGGCTTTTCGATAACCGCAAGCCACATCCCAATCAGCTGTGGGAAGCTTTCGACGTACCGGTTCCCCCCGAGTTCACGAAAAGCCCGAATACAAATCCTTGCCCCGAAATGAGTCCCTTCACCTTCTACGAAGATGACCACGTCAAGGTTTCAGCAACCCTGGTCAACCACGCCCCCGTTTTCCCCGCCTTGGCTTACCGCTTTGACACGGACGAGGGATCGGTGGTCTTTTCCGGAGATACAGGAAAGACGCCGAACCTCATTAAGCTGGCCAAGGATGCGGACGTTCTGGTCCATGAGGTAATAGATAAGACCTGGCCCCAATCCCTCTTTCCAGAACCGCGTACCGACGCGCAGGAGGGGCTCTACCAACATCTGATCGAGGCACACACTCTCATCGAGGATGTGGGACCCATTGCCCAGGAGGCCGGCGTCAAGTCACTCGTTCTCTCACATCTGGTTCCGGGCAATAGACCGGACAGCGTTTGGGAAGCTTGTGGCAAAGGTTTCGACGGGCAACTCATCATCGGTCACGACCTCGACGTCATCGGTATCGGATCTGCCACATGA	MCDVLGRLESSGVSRRNILASFGLGAAAVTLTACTDNRAVGSSASRSFSPAPAEGHRTRLVLLGTSGGPPYWPGGTREGISSALVVGDRYYLIDAGHGVMGQLRKAKLGPNYEKDMEGPLDVLAGIFLTHLHSDHVVDLNNILSEGLFNGLQSVKKIPIWGPGNRGELPPLFGSGNPPTPASPGNPTPGTREMTDLIVQAYATDFNDRLFDNRKPHPNQLWEAFDVPVPPEFTKSPNTNPCPEMSPFTFYEDDHVKVSATLVNHAPVFPALAYRFDTDEGSVVFSGDTGKTPNLIKLAKDADVLVHEVIDKTWPQSLFPEPRTDAQEGLYQHLIEAHTLIEDVGPIAQEAGVKSLVLSHLVPGNRPDSVWEACGKGFDGQLIIGHDLDVIGIGSAT				NA	NA	NA	NA	NA
D1-17_02307	222			hypothetical protein	ATGCGCACAACAGTCAAAAACCCACACGCCATGACCGCACACACCACCTCCGACTTACTTGCTTCGCTCGCCTCGCGCGTGCTCCCTATTGGCCGAAATCAGAAGCCCCCCGTACTCGTTCATTCAGCATGGGCCGGGTGGCACTACGAAACACCCGTTGATGAAGAAGTCGACGCCGGCACCGGCGTCGTCGCGTACGCGGCGCCGAAACCGCAATCGTGA	MRTTVKNPHAMTAHTTSDLLASLASRVLPIGRNQKPPVLVHSAWAGWHYETPVDEEVDAGTGVVAYAAPKPQS				NA	NA	NA	NA	NA
D1-17_02308	1077	tfdF		Maleylacetate reductase	ATGAGTTTGACGTTTGACCACGTCACCCTTGGCCAGCGGGTACTCTTCGGCACCGGCAACGCTGCAGCGAACCTCGCAGCGGAAGCAGCCAGGCTGGGTGCCCGGCATGTGATGGTGATCGCCTCCGACTCCGCGACACCGCTGGCCCGGACCGTCGCGGCCGACATTGAGGTCGCCCTGTGGCACCACGACGTGGTCATGCACGTCCCCGTCGAGACGGCCGAGAAAGCCCGCGCCGCCGCTCTCGGGCACGGCATCGACCTGCTGGTCTGCGTGGGCGGAGGCTCGACGACGGGCCTGGCCAAGGCGATCGCGATGACGTCCCGCCTGCCCATCATCGCGGTGCCCACGACCTACGCCGGCTCCGAAGCCACGAACATGTGGGGCCTGACCGAAGCCTCACGGAAAATCACCGGAGTGGACGACACCGTCCTGCCCGTCACGGTTATCTACGACGCGGCCCTGACCCTGTCCCTGCCCGTGGACATGTCCGTTGCCTCCGGCCTGAACGGCATCGCGCACTGCATCGACTCAATGTGGGCACCCCGTGCCGACCCCATCAACGCCGCCCTCGGCGCCGAAGGGATCCGCGCCCTCAGCCAAGGCCTGCCGCTCATCGTCAGTGTCCCGTCCGGGACCGAAGGACGCGAACAGGCGCTCTACGGCACCTACCTCTCCGCGGTCGCGTTCGCCTCCGCCGGATCCGGGCTGCACCACAAAATCTGCCACGCACTGGGCGGCACCTTCAACCTCCCCCACGCCCACACCCACGCCACCGTACTGCCCTACGTCCTGGCCTTCAACGCCCCCGCCGCGCCCCAAGCCGAGGCGCGCATCGCCGCAGCATTCAGCACCGCCGACGCCCTGACCGGACTCCAGGACCTCCGCAAACGACTGGACGCCCCGAAGGCGCTGGCGGACTACGGCTTCACCGCCGACGGGATAGCCGAGGCCGTCGCCGTCGTCCTCCCGGCCGTCCCGGCGTCCAACCCCCGCCCCGTCACCACCGAGAACCTCACCCGCCTCCTCCAGGCAGCCGTCACCGGCGAAGACCCCGCAGTTCTGCTGGACCTCTGA	MSLTFDHVTLGQRVLFGTGNAAANLAAEAARLGARHVMVIASDSATPLARTVAADIEVALWHHDVVMHVPVETAEKARAAALGHGIDLLVCVGGGSTTGLAKAIAMTSRLPIIAVPTTYAGSEATNMWGLTEASRKITGVDDTVLPVTVIYDAALTLSLPVDMSVASGLNGIAHCIDSMWAPRADPINAALGAEGIRALSQGLPLIVSVPSGTEGREQALYGTYLSAVAFASAGSGLHHKICHALGGTFNLPHAHTHATVLPYVLAFNAPAAPQAEARIAAAFSTADALTGLQDLRKRLDAPKALADYGFTADGIAEAVAVVLPAVPASNPRPVTTENLTRLLQAAVTGEDPAVLLDL	PGPT0005915_219	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005915-EC_1_3_1_32-K00217	NA	NA
D1-17_02309	912	npcC		Hydroxyquinol 1,2-dioxygenase	ATGTCCGGAACCACCCGGGCCGGGAACACCATCAGCCCAGAGCAGGCCGCCGTCGAGCAGAAGCTTGTGGAGACCGTCATTGCGTCCTTCGACAAAACCCAGGATCCGCGCTTGAAGGAGGTCATGCAGTCACTGACCCGCCACCTGCATAACTTCGTACGCGAAGTCCGCCTCACCGAGGACGAGTGGAACTCAGGAATCGAATTCCTCACCGCCGCCGGCCAGATCACCGATGACAAACGCCAGGAATTCATCCTGCTCTCCGACGTCCTGGGCCTGTCCATGCAGACGATTGCCATCAACAACCAGGCATACAAGGGGGCCACCGAAGCCACCGTCTTCGGGCCGTTCTTTGTGGAGGACGCCCCCGAAATACCCATCGGCGGCGACATCGCCGGCGGCGCCGCCGGCCAGCCCTGCTGGATCGAGGGCACCGTCACCGACGCCGAAGGGCGTCCGGTCCCTGGTGCGCGGATCGAAGTTTGGGAGGCCGACGAAGACGGTTTCTACGACGTCCAATACAGCGATCAGCGGGTCGCCGGACGTGCCCACCTTTTCGCCGACGACAACGGCAAGTACGCGTTCTGGGGGCTCACGCCCACCCCGTACCCCATTCCGCATGACGGGCCAGTGGGCAAGATGCTGGAGTCTGTCGGCCGTTCCCCCGTCAGAGCCGCACACCTGCACTTCATGGTCACCGCCGACGGCCACCGAACGCTGGTGACGCACATCTTCGTCGACGGCGACCCGCAGATCGAGATCGGCGACTCGGTCTTCGGAGTCAAGGAGTCCCTCATCAAACGCTTCGAACGCCAGCCCGACTGGACCCCCACCCCCGACGGGCGCGGCCTCGGCAACCAAACCTGGGCCCGCACACGCTTCGACGTCGTCCTAGCCCCTGCCCAAGTTTGA	MSGTTRAGNTISPEQAAVEQKLVETVIASFDKTQDPRLKEVMQSLTRHLHNFVREVRLTEDEWNSGIEFLTAAGQITDDKRQEFILLSDVLGLSMQTIAINNQAYKGATEATVFGPFFVEDAPEIPIGGDIAGGAAGQPCWIEGTVTDAEGRPVPGARIEVWEADEDGFYDVQYSDQRVAGRAHLFADDNGKYAFWGLTPTPYPIPHDGPVGKMLESVGRSPVRAAHLHFMVTADGHRTLVTHIFVDGDPQIEIGDSVFGVKESLIKRFERQPDWTPTPDGRGLGNQTWARTRFDVVLAPAQV	PGPT0005215_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005215-chqB-K04098	NA	NA
D1-17_02310	609			hypothetical protein	ATGCTTGACGTCAGGGTGGGGTGTGCCCAAAGCGGACGGCAATCGTCGAATTCGGTAACGCTGCAGTTCAAGGGCGCTCTAACGAACAAATACCCCGTCTCGGCGGGGAAGAACTGGCACATAGGATCCGGCACTGGGTTTCGCTACAAAAATCGTGGCTGCTGGGAATTCGTTGAACCAGCCGACTTGTTTGTAGCGAATATCGGTCGTATTGAACACCTTGGAGCTTCCTGCAAGCCGGTCCGTTATCTCCGAAATTTGGTAGCGCAATGTGATGCCCGGGCAGTCTGGCTGTTTGGCGCGGTTCCCTTCTTGCCCCCTCCCGGTTGTAGCAATCTTCTTCGGGCATTCCGTGAGTCAAAGACAGGGAAACAGCCTTCAATGCGGCCTATGTCTACTTCATTTTTGGCCCGCGTGGTCTTGGTGTTGTCAGCGAGCCTCTGGTGTGTCAGGGTTACGCCCGTGGTCAGCCATGCCCGACGAAGGGAACTATTCAAACTTGGGCAGGGGCTAGGACGACGTCGAAGCGTGTGCGGGCCCAGGTTTGGTTGCCGAGGCCGCGCCCGTCGGGGGTGGGGGTCCAGTCGGGCTGGCGTTCGAAGCGTTTGA	MLDVRVGCAQSGRQSSNSVTLQFKGALTNKYPVSAGKNWHIGSGTGFRYKNRGCWEFVEPADLFVANIGRIEHLGASCKPVRYLRNLVAQCDARAVWLFGAVPFLPPPGCSNLLRAFRESKTGKQPSMRPMSTSFLARVVLVLSASLWCVRVTPVVSHARRRELFKLGQGLGRRRSVCGPRFGCRGRARRGWGSSRAGVRSV				NA	NA	NA	NA	NA
D1-17_02311	681			hypothetical protein	ATGGGATGTGGACGACGCGGCGGCGTGCCCCGCGGCACGGGAGCCTCTCCCGCTGGTCCCAAAACTACGGTTCCCGTTCCTGGGCATAAGACCGGCCGCCAGCTTAGGGGGATTGAGACCGGCGGCGGGCTGGGGTTTCCACAGGGATGGGGGCAAACCAATGGGTCCTCCGCCGTCGGCCTGTTCTTAGGGTACGCCCGGAAGGTCTTCACGAGCCGCCTTGTGCTGGTACCGGTTTATTGTGGATGGGCCGAGGCAACCGCCGGGGGCTTCAAAGTCCGGTTTGGGGCGGCTGCAGGGTGCGTGTGGTGCAGGGATGTGGCATCTATAGGGTCGTGCAGGCTTTCTGCAGGGCGGTGCCCTCAGGCTGTTGTCATATGGCCGGAACGGCACCGCCTGATGGCTCGGCCAGGCCGTTGGCCAGGTAAGGCACTCCCTCCAACGACATTGCAAGAGGCCCTTAACGGACTGGAACGTCTCTTTGCCCGCCAGTCCGTGACACTGCCGGGGACGGCCAAGCCATGGGGCGCCAGTCGTAATCGAGCGGTCCTGGCCCCGCTAACAGGTGCATCAGCGACCCGGATGCCGTCCGTCAGTAGTGTCAGGTTGGGATCTGAGACTCCCTTTAGCCATTGTCAGAAAAGCAGAATCGGATTCCATTCTGACAGCGTGTCGGATTAA	MGCGRRGGVPRGTGASPAGPKTTVPVPGHKTGRQLRGIETGGGLGFPQGWGQTNGSSAVGLFLGYARKVFTSRLVLVPVYCGWAEATAGGFKVRFGAAAGCVWCRDVASIGSCRLSAGRCPQAVVIWPERHRLMARPGRWPGKALPPTTLQEALNGLERLFARQSVTLPGTAKPWGASRNRAVLAPLTGASATRMPSVSSVRLGSETPFSHCQKSRIGFHSDSVSD				NA	NA	NA	NA	NA
D1-17_02312	426			18 kDa heat shock protein	ATGTTGATGATGAGCGATCCGTTCCGCCAGTTCGACCGGCTGACGCAGCAGGTCCTGGGTACCGCCGCGCGTCCTGCCGTGATGGCCCTGGATGCCTGGCGTGAAGGCAACGATTTCGTGGTGGCGGTTGACCTTCCCGGCGTGGAAACCGAATCGATCGACGTGGATGTCGAGCAGAACGTCCTGAGCATCCGCGCCGAACGCAAGGACACCGGAGGTGAAGGGGTGGAATACATCGCCGCCGAGCGGCCGCGGGGGGTCTTTAGCCGGCAGCTGGTCCTGGGCGAAACGCTGGACACGGACAACGTCAAGGCGGCCTACGACGGTGGCGTCCTGACGCTCCGCATCCCGGTGGCGGAAAAGGCGCAGCCCCGGAAGATCGATATCACGTCCGGAGCCGGCGCGCAGCAGCAGATTAACGCCTAA	MLMMSDPFRQFDRLTQQVLGTAARPAVMALDAWREGNDFVVAVDLPGVETESIDVDVEQNVLSIRAERKDTGGEGVEYIAAERPRGVFSRQLVLGETLDTDNVKAAYDGGVLTLRIPVAEKAQPRKIDITSGAGAQQQINA	PGPT0014635_7225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-17_02313	150			hypothetical protein	GTGGACTTCACCCGCTACTTTCTGGGCTTTGCGATCCTGCTGGGCTCGATGCTGCTGTCACTGCTGTGCGCGCATCTGGTGTACCGCTGGTGCCTCAGGCGCCATGACCGGGCCAGGAAAGGGCTTGAGCCGGCGGCGACGGCGAAGTAA	MDFTRYFLGFAILLGSMLLSLLCAHLVYRWCLRRHDRARKGLEPAATAK				NA	NA	NA	NA	NA
D1-17_02314	261			hypothetical protein	GTGAGTTATGCCGTGCAGGTGGCGCCGGCGGCGCTGCGGCAGTTGCGCAAGCTCCCGCCCGACGCCCGCCGACGGATCCAGGCCGCCATCGAACTCCTCGCCGAAACGCCGCGTCCCCCGGGGGCGAAGAAACTCGCCGGCAGCAGCGGCGACTGGCGCGTCCGCACCGGCGACTACCGGATCATCTACGAGATCCGGGACGCTGAGCTGATCGTCCTGGTTGTCGCCATGGGCCACCGGCGGGACATCTACCAGCATTAG	MSYAVQVAPAALRQLRKLPPDARRRIQAAIELLAETPRPPGAKKLAGSSGDWRVRTGDYRIIYEIRDAELIVLVVAMGHRRDIYQH	PGPT0027425_1780	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-RelE|StbE-RelB|StbD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027425-toxin_relE_2|stbE|pasB-K06218	NA	NA
D1-17_02315	267			hypothetical protein	ATGAGCGAGATGACTGTTACTGATGCGCGGAGCCGGCTGTCGGAGGCGGTCGATACCGCCCGGGTGAGCCATGAACCGGTGTACCTGCTGCGTCGGGGCCGCCGCGTCGCGGCGCTCATCGACGCCGAGGATCTCGCCACGCTGATTGAAGCCGCCGAAGACCTGGAGGACCTTCGGGCGGCCAACGCGGCGCGGACCGAAATGGAAGAGACCGGCCAAGGTCCGGTGCCGTGGGAGGAAGTCAAGGCGGAGCTGGGCCTGGGGTGA	MSEMTVTDARSRLSEAVDTARVSHEPVYLLRRGRRVAALIDAEDLATLIEAAEDLEDLRAANAARTEMEETGQGPVPWEEVKAELGLG	PGPT0027565_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Doc-Phd_TOXIN-ANTITOXIN_SYSTEM,PGPT0027565-antitoxin_phd-K19165	NA	NA
D1-17_02316	558			hypothetical protein	ATGACCCAACCAGCCGGCGAGGGGCTTCCGGGTGCCGTGCCCGCGGCCTTCGTGCCTCGGCGGATTACTGGCCCTGTCCTGGCCGGTGTTGTGCCTGGCCAGCCGCTGGAGGTCGTCCATCGCGCCGCGGAATTGGCCCACAGCCTTGGCGTCAAGCTGATCTGCGCATACGTGGATATCACCACTTACCTCGCCGACGGCCCAGATGAGGAGAGCGAGACCGGGCCGTCCGGTTCAGAGGTGCTTGTTGACGACGTTGAGGGCGTAAGCGCCGGAATCAGAGAACGGCTTCACAGCATTCTGGACGGGGCCGGACTCCGCTGGTCCTTCCTGGTCCTGTCCGGGAATCCGACGCAGGCGCTTGGCCAGCTCGCCGAATCTCTGGATGCGTCGGTCATCGTTGTTGGCACCCGGGAACCAGGTCTGGGAACCCGGCTGGAACAGCTGCTTGTCGGCTCGGTTGCCGTTCAGCTCACACGCCGCCAACTCCGGCCCGTTCTGGTCATTCCGCTCCCACGTCAGAATCCCCGGGACGCCGAAGAGAACCCGCACACCTGA	MTQPAGEGLPGAVPAAFVPRRITGPVLAGVVPGQPLEVVHRAAELAHSLGVKLICAYVDITTYLADGPDEESETGPSGSEVLVDDVEGVSAGIRERLHSILDGAGLRWSFLVLSGNPTQALGQLAESLDASVIVVGTREPGLGTRLEQLLVGSVAVQLTRRQLRPVLVIPLPRQNPRDAEENPHT	PGPT0018050_55	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018050-eno-K01689	NA	NA
D1-17_02317	927			hypothetical protein	ATGGGCAGCGCAGCGGTCCCCAACGGCGGGCCCCAGGATCATGAAGACGGCCAAAATTCCGTAGACCCGGCCGGTGGCCTCGCTAACGACGACATCGTCGCTTATCGCTTCGAGGATGACGCCGACGCGACGCAGGCCATAGTTCAGGATCCTCGATATCCTCCGGCCGACACCGGTTACGGCGAGGACTCCGGCTACACGGAGGAACCGGGTGATCTCGATCCCGCCGGTGCCTACGTCGAGGAAACCGGTTACACCGAGGGAGCCGGCTACGACGAGGAGCCCGGCTACGCGAATCCCGCAACCGGCTTCGGTGCCGCTCTCCTCACCGCTGACGGGGGCACCGCCATCGCGGACGTCGTCATCGCCCGCCAAGAGGATCGGTTCGGTGGCATCAAAGTCGGGTCGGCCTTCTTCGGATGGCTGTCAGCCGCAGGTATTGCCGTTCTGCTGACTGTCGTTCTCATCGTGGCGGGCATGGGGGCAGGGCTCATGACGGGCTCGGAGGCCAATATCGTGTCCGGCGTGGTGTCCTCGCCGGACGGAATGTTGGGCATCATCCTTCCCTTGTCGATCGTATTCGTCTCGTTTTTCGCGGGCGGCTACGTGGCGGGGCGGATGGCGCGCTTCAACGGTGCCGGGCAGGGTCTGATGGTGTGGCTGTGGGCAGTCATTATGGCCGGTGTTGTAGTCCTGCTGAGCATGGTCGCCGGCCTGCGCCTCAATGGCTCCCGCACCGGCGGTGGTTTCCCTGGCATTCCACTGCTCGACGGGCAGCCCAGCAGCAGCGATCTCATCGCAATCATCGTCGCGGCCGCCGCAGCCCTGATAGCTGCTGTCCTGGGTGGCATCGCCGGCATGCGCTACCACCGACGGGTGGATCGCGTGGGTTTCATGCCGCCGGCGGAGGATGAGTACCAGGCCTAA	MGSAAVPNGGPQDHEDGQNSVDPAGGLANDDIVAYRFEDDADATQAIVQDPRYPPADTGYGEDSGYTEEPGDLDPAGAYVEETGYTEGAGYDEEPGYANPATGFGAALLTADGGTAIADVVIARQEDRFGGIKVGSAFFGWLSAAGIAVLLTVVLIVAGMGAGLMTGSEANIVSGVVSSPDGMLGIILPLSIVFVSFFAGGYVAGRMARFNGAGQGLMVWLWAVIMAGVVVLLSMVAGLRLNGSRTGGGFPGIPLLDGQPSSSDLIAIIVAAAAALIAAVLGGIAGMRYHRRVDRVGFMPPAEDEYQA				NA	NA	NA	NA	NA
D1-17_02318	468			hypothetical protein	ATGGACGCCACAGATGTCTTCATTGCATCGACCGGGCAGGCGGGCGTGGTCGGGCGCCTGCTCTACGACTTCAACACCGAATTTAAAACACCCGGGCCAAGCGCCGAGGAATTTACCACCCGGTTCAGGTTCCTCCTGGCCCGCACTGACGTGCTTGTCCTGCTCTCCGGGACCCCGGTCGACCCGACCGGTTTCGCGTTCCTGACCCTGAGGCCCACCCCGTACTACGACGGAGCCCTGGCCCAGCTCGAGGAACTCTACGTCCAGCCCCGCCTGCGCGGCCAGGGCATCGGCACGGCACTGCTGGCAACCGCGGTCCACGAGGTCAGTGAACGCGGCGGAGCCGAGATGCACATCAACGTCGATGAGGTCGATACCGATGCCCGCCGCTTCTACGAACGCCACGGTTTCACCAACATCCAGCCGGGCACGGACTGCCGGATGCTGTGCTACCTGCGTGAGCTCTAA	MDATDVFIASTGQAGVVGRLLYDFNTEFKTPGPSAEEFTTRFRFLLARTDVLVLLSGTPVDPTGFAFLTLRPTPYYDGALAQLEELYVQPRLRGQGIGTALLATAVHEVSERGGAEMHINVDEVDTDARRFYERHGFTNIQPGTDCRMLCYLREL				NA	NA	NA	NA	NA
D1-17_02319	303	lsr2_1		Nucleoid-associated protein Lsr2	GTGGAACTTATCGATGACCTGGACGGCACCGCAGCGAACCAGACTGTGAAGTTTGCCCTCGACGGCAACTCCTACGAGGTGGATCTGAACGACGGAAACGCCGAGGAGCTGCGCTCCTCACTGGAGCGCTTCACCGCCAAGGCCCGCCGTACGGGCGGCCGCAAGCAGAGCGCCATTGATTTGGGCCCTGCCGGACCCTCAACCAAGGACGTCCGGGCATGGGCCCTCGCCCATGGCATGGAAGTCAACCTCCGCGGGCGCGTCCCTGAGTCCATCGTGCAGCAGTACCTGGCCGCGAACTAG	MELIDDLDGTAANQTVKFALDGNSYEVDLNDGNAEELRSSLERFTAKARRTGGRKQSAIDLGPAGPSTKDVRAWALAHGMEVNLRGRVPESIVQQYLAAN				NA	NA	NA	NA	NA
D1-17_02320	249			hypothetical protein	ATGGCTGAAATCAACGCCTTACTGGCAGGGCTGACGCCTGAGGAACTGGAAGAAATCAAGGGGCTTGGCCCAAGGGGGCATCTGGGACGGCATCTGATCGAAGCCCTGGACCGCGCCGCCGGCGGGCCGGATGCAGGGAGGGGCTTCTACGTCCTCGACGGTTCGGTCAACGGAAACGGGGGACAGTTCCACATTCTCCGCGATGACGTCAGCGATCGGATCTTCCAACCCCAGACTGCCCAAGGCTAG	MAEINALLAGLTPEELEEIKGLGPRGHLGRHLIEALDRAAGGPDAGRGFYVLDGSVNGNGGQFHILRDDVSDRIFQPQTAQG				NA	NA	NA	NA	NA
D1-17_02321	792			hypothetical protein	ATGAAGTTCGGTAAGCAGCCCGCCCCCGTTGCGGATATCAACGAAGACTCCCTCGCCGTCGGTAAACCGAAAACGGAACCTGCCGGTGTGCAAGCCGTAATGGTGGCACTGGAGCGGGCTGTGGCCCAAGCCGGCGTGACCCGGACGGCACAGTCGCTGCTGCGGCTGAACCAGCGCGGCGGCTTCGACTGCCCGGGTTGCGCCTGGCCGGAATCGGACAAGAAACGCAAGGCTGCCGAATTCTGCGAAAACGGCGCCCAGGCCGTGGCCGAGGAGAACACCCTCCGAACCGTCGGTGCGGAGTTCTTGGCCAGGCATTCCATCGCCGAGCTCTCAACCAAGAGTGAGTACTGGCTGGGTAACCAGGGCCGGCTCAGCGAACCGGTGGTGATCCGGGAAGGGGAGACCCACTATTCGCCGATCTCCTGGGCCGAGGCCTTCGAGCTCATCGGGTCTATTCAAGTGCCGTTGAGTTCTTCGTCGGGCTCTTCGCCCAGTCCTACGTCCGGGAAGTCAACGAAGGAGCAGCGTTCGCCTGGTGCCCGGAATGGTACAAACAACCCCGAAGCCCTGATCCGAATGGAAGCCGTCTGGCGGGCTTGGGAACACCTCCGCCTCGAGCCGGCCCTCGGGATCAGCACCTGGTGGCTGAACCATGCCGACCCGCACATGCGTGTCCTCATGGACAAAGAAGGCCCCTTCAAGAAATGCGCTTACGACGGACATAAGACTCCCACTCCGGAGAAGGCGGCACTGCCACACGTCATACCCGAGGCAGGAATCTTCGACTGA	MKFGKQPAPVADINEDSLAVGKPKTEPAGVQAVMVALERAVAQAGVTRTAQSLLRLNQRGGFDCPGCAWPESDKKRKAAEFCENGAQAVAEENTLRTVGAEFLARHSIAELSTKSEYWLGNQGRLSEPVVIREGETHYSPISWAEAFELIGSIQVPLSSSSGSSPSPTSGKSTKEQRSPGARNGTNNPEALIRMEAVWRAWEHLRLEPALGISTWWLNHADPHMRVLMDKEGPFKKCAYDGHKTPTPEKAALPHVIPEAGIFD				NA	NA	NA	NA	NA
D1-17_02322	492	tgnB_1	COG2141	Flavin-dependent trigonelline monooxygenase, oxygenase component	ATGGTGACGCCGCTCATGAAGGGCGACGAGGAGGTCGAAGACCTCGCGCGCAAGTTCGACACCGCTGTGGAGAACAACCCCGGAGTTCCCCGCCCGGACCTCATGGTGCTCCGCCACACCCACGTCCACTCCGCAGACGAGCCCGAGGGATGGCGGCGCCCAGCCGAAGGCATCAACAAGTTCTACAGGACGTTTGATGCCTGGTTCGGAAACAAGACCACCCCCAAGAACGGTTTCCTCGAGCCCAGCCCTGAAGAGAAGTTCGCCGACCGCCCGGAGTTCACGCCAGAATCCCTCCACCAGACGGCGATGATCGGGATGCCGGACGAAGTGATCGAGCGGCTCCGCCGCTACGAGGCACTGGGCGTAACCGAGTTCAGCGTCTGGTCTGACAACAGCGTGACCCATGAGGAGAAAAAGCGCTCACTCGAACTCTTCATCGAGCACGTCGTGCCGGCATTCCAGGAGCAGCCCGCTACCGCGGCACGCTGA	MVTPLMKGDEEVEDLARKFDTAVENNPGVPRPDLMVLRHTHVHSADEPEGWRRPAEGINKFYRTFDAWFGNKTTPKNGFLEPSPEEKFADRPEFTPESLHQTAMIGMPDEVIERLRRYEALGVTEFSVWSDNSVTHEEKKRSLELFIEHVVPAFQEQPATAAR	PGPT0000910_38	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000910-tgnB-K23464	NA	NA
D1-17_02323	339	bioH	COG0596	Pimeloyl-[acyl-carrier protein] methyl ester esterase	ATGACAAGAACGCCGGAAAGCCCCGTTGCCCTCCTGCATGGGGCCGGTCTCGATTCAACCATGTGGGGGCCCGTCCAGGATGCCCTCGGGTGTGAGTCAATTGCCATCGACCTTCCCGGGCACGGGCGGCAGCCGCCCCTGACGGAACCGGTCACGCTCGAGGAACTGGCCGCCGATGTGCTCAAACGCCTCCCCGAACGAAGCCACCTCGTGGGTTTCTCGCTGGGTGCCTTGATCGCGCGCATCGCCAGATTCCATCCCGAGCGGGTCGAGACGCTCACCTGCGTGAGCTCTGTGTCTCCTCGCACGAGTTCGCCGTCGCCAACGGCTGCAACGTGA	MTRTPESPVALLHGAGLDSTMWGPVQDALGCESIAIDLPGHGRQPPLTEPVTLEELAADVLKRLPERSHLVGFSLGALIARIARFHPERVETLTCVSSVSPRTSSPSPTAAT	PGPT0000920_259	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000920-tgnD-K23465	NA	NA
D1-17_02324	396			hypothetical protein	ATGCCACAGCCTCTGATCTCGGCGCTCCTCGCCCCGAAAGTCATCGAGGCACTCGGCGCCCCTGTCGAGGCCTACGGCAAGGCAGCCATTGTGGGCATCGATGGGGAGATCGAGCACGGCTCGGCGCTTATCCACACACTGAAATTCGGCGACCACTACCGCAAGGCCGCATCCGCGACCACCCTGCCGCCCGCGGTCGAGAAACGTGCCCCGGCCGGCACCGTGTTCGACATCCCGATGAAGCACATCACGGATGCGACCATCCGCTCCCACCACCAGACCGTCGAGGTCAAAGTCGCCGATGCTCCCCACCCCGGTGAAATCCTCATTGCCCTCGCGGCCTCCGCCCAGGGCCGGCCCCAGGAGCGCCTGGCGCCCCTCTCCACCGAACAATGA	MPQPLISALLAPKVIEALGAPVEAYGKAAIVGIDGEIEHGSALIHTLKFGDHYRKAASATTLPPAVEKRAPAGTVFDIPMKHITDATIRSHHQTVEVKVADAPHPGEILIALAASAQGRPQERLAPLSTEQ				NA	NA	NA	NA	NA
D1-17_02325	357			hypothetical protein	GTGGTTTCCGAGACCGAACGCATCGCTCCGGTGCTCGCGAAGGTCCTGACGGACCGCCTCACCGCAGCGTTGGGCGGGGCTGATGAAATTGAGGCGTTCGGCAAGTCGGCTGTTGTCGGGTTGAACGGGGAGGTTGAGCACGCCGCGGCGCTGATCCATACACCGTACTGCGGCAATCTCGTTCGCGAGTTCCTCGAAGGCACATCGATCCTCTCCTTCTCAGACGACCGCGCAGAACCAGGGACTTCCATCGCCGTGCCCATGTGGCACAAAGAAGCCGCCTCCACGCGCAGCCACTACCAAACCCTGACGCTGAGCCTGAGCGAGCGCCCCATCCGAACGAAATCGTCGTCATAG	MVSETERIAPVLAKVLTDRLTAALGGADEIEAFGKSAVVGLNGEVEHAAALIHTPYCGNLVREFLEGTSILSFSDDRAEPGTSIAVPMWHKEAASTRSHYQTLTLSLSERPIRTKSSS				NA	NA	NA	NA	NA
D1-17_02326	306			hypothetical protein	ATGACGGCTCCAACGGTGGAAGCGGCAATCCATGAACTGATGGATCTCGCCTGGAATGTTGTCTACGACCTACTCGAGCAGCGGGGTCTGCTCGAGGACGGGCTGATCGTGGAAGAGTACACCGGGATCCATTCCTGGGTAGAAAACCTGACACGCTACACAGTGGTTCACTCCCGGACGGTCGCGGTCCTGTTCGTGGATACGCGGCCCGTGGACGCCATCGTCTTCCAACACGATCTTTTGGGAGGTCCGGGAATGCCGCCCGGACATCGAGGATTTCCTGCTGGAGTTCCTTCAGGCCTGTGA	MTAPTVEAAIHELMDLAWNVVYDLLEQRGLLEDGLIVEEYTGIHSWVENLTRYTVVHSRTVAVLFVDTRPVDAIVFQHDLLGGPGMPPGHRGFPAGVPSGL				NA	NA	NA	NA	NA
D1-17_02327	228			hypothetical protein	GTGGGCCTGACCGGCCTAGAACACCAGACCCACCTGAGAATCAGTGAGCGCACGAGCCCGCCGCTTCCTGACCAGTGCCCAGGACGTGAGCTCAGCATCTATACCGGCGGGCCGGGGTGTGTATGGCGCATCGCGGCGAGCGACTTCGAGGACTTTATTGTGGAGTCCCATCTGCGCACTGCAGAGCGGCTTGCCCGGACAAGCTCAAGGATGAGGGCAAGTGGGTAG	MGLTGLEHQTHLRISERTSPPLPDQCPGRELSIYTGGPGCVWRIAASDFEDFIVESHLRTAERLARTSSRMRASG				NA	NA	NA	NA	NA
D1-17_02328	744	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCCCGGCGAACGGACGACCGTATTAGTCACCGGAGGCGCCCGCGGCATCGGCCGGGCCATTGCCAAGACGCTGGCAGAGGGCGGCTGGCACGTGGTAGCCACCTACAAAACCGGGCTCGACGAAGCGAAAGAGTTGGCCCGCACTCATGACGTCCAGATACGCCATGTTGACCTGGCTGACAGAGCAGAAACACAGAATTTCGCGCAGCAGATCTGCGAGGAATTTCCACTGACTGCCCTCGTTAACAACGCCGGGATCCTCGAGAAGCAGCCATTCGAAGAGATGACGCTGGATGTCTGGGACAGGACGCTGGCGGTCAACGTCACTGCCCCGCTGATCCTCGCCCAAGCGATAGGTCCCCGCCTTTCCCCTGGTGGCAGCATAGTCAACATTGCCAGCACGGACGCATATGTCGGCTCGTTCCGGGGCATAGCCTACTCAGCCAGCAAGGCCGCACTTCTCTCAGTCACCCTGAGCCTCGCCAACGTGCTTGGGCCCCGCGGCGTCCGGGTCAACGCGGTAACACCAGGCTGGGTCGACTCCGGGATACTGACCGAGCCGTACGAGGCGGCAACTCTCACTCCCTTGGGCCGCAACGGGAGCCCCGACGACATTGCGAAAGTCGTCGCCTTCCTTCTGAGCTCCGAGGCTGCCTTCATCACCGGGGCATCGATCGTGGCTGACGGCGGATACACCAGCGTCGACTACTTCATGAACAAGGAGGATCAATCCTTCCACTGA	MPGERTTVLVTGGARGIGRAIAKTLAEGGWHVVATYKTGLDEAKELARTHDVQIRHVDLADRAETQNFAQQICEEFPLTALVNNAGILEKQPFEEMTLDVWDRTLAVNVTAPLILAQAIGPRLSPGGSIVNIASTDAYVGSFRGIAYSASKAALLSVTLSLANVLGPRGVRVNAVTPGWVDSGILTEPYEAATLTPLGRNGSPDDIAKVVAFLLSSEAAFITGASIVADGGYTSVDYFMNKEDQSFH	PGPT0003180_15767	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_02329	474			hypothetical protein	ATGAGTTCGGACCAGACTGGACCGACGTCGACCGGCACCCGCAATGACATCCTCGCTCGGGATCTGACCAACGAAACGTTCAAGCCCGGCACCCACAACTGTGTGATCGCAACGGGAACCCTGGCTGACAAGTACACCGGTACGACCATTATCTTCACGCGCGGCAAGGACACCAGCTCCGATGTCCAGATCGACCACATCGTCCCCCTCAGCGATGCCTGGCAGAAGGGCGCGCAGCAGATCAGCGCCGAGCAGCGCAAGCAACTTGCCAACGACCCGCTGAATCTCATGGCCGCCGACGGACTAATTGACAGCGCTAAGGGCGACAAGGACGCCGCCACCTGGCTGCCGCCGAACAAGGCCTTCCGATGCGAGTACGCGGCACGCCAAACTGTCGTCAAGGCCAAATACAGCCTCTGGGTTACCCAGGCCGAGCACGACGCGGTCGTCAGCACTCTGGAGGGCTGCAGGTAG	MSSDQTGPTSTGTRNDILARDLTNETFKPGTHNCVIATGTLADKYTGTTIIFTRGKDTSSDVQIDHIVPLSDAWQKGAQQISAEQRKQLANDPLNLMAADGLIDSAKGDKDAATWLPPNKAFRCEYAARQTVVKAKYSLWVTQAEHDAVVSTLEGCR				NA	NA	NA	NA	NA
D1-17_02330	207			hypothetical protein	ATGCTGCGGCCAACGCCCTTGAGGTCATCAAAGGGCGTTGCAGGCATCGGTGCGCCAGCCACGGTGGACCCGGCCTTTGCCGGTGACGCCGCCAACGCCCTCGTCCAACTGAAGAGCATCCCGGTGAAGGGGCGCGCTCCAAAGACCGGCTACACGCGCGATGAGTTCGGACCAGACTGGACCGACGTCGACCGGCACCCGCAATGA	MLRPTPLRSSKGVAGIGAPATVDPAFAGDAANALVQLKSIPVKGRAPKTGYTRDEFGPDWTDVDRHPQ				NA	NA	NA	NA	NA
D1-17_02331	273			hypothetical protein	GTGGAGATCGAATTTTTTGAGCCCGCCGAAGCAGCCGCCCTGATGCGCTGCACAGAGTCATGGCTCCGCGACGGCGCCACAAGCGGACGCTTCCCCCATGCATGCTGGGGAAAGGGAAAGATCATTTTCACTTCCGAGCACATTCTGGAAATCGCAAAGTTGAGCGAGATTCTCCCTGACAGCACTGGTTCCTCGCTCTCCGGCAGTGGGCCCGTGATGAAGGAAAGGCTCATCGGTACCCGCTCGAAGGTCAGACTGGCAAGCGCGAACTGA	MEIEFFEPAEAAALMRCTESWLRDGATSGRFPHACWGKGKIIFTSEHILEIAKLSEILPDSTGSSLSGSGPVMKERLIGTRSKVRLASAN				NA	NA	NA	NA	NA
D1-17_02332	1017	xerC_3		Tyrosine recombinase XerC	ATGGTGTTGTGGCGGGATCCGAAGAGCCGCGAGCAGCAGGGCATCACTGTTCCGACCCTCATCGAAGCCGAGACGCTGAAGAGGCTCTTGGACGCCAACGGCCAGTCCTTCGAAATCGCGCAGCATGCCATCCTGTCGAACGAGAAACGCACGCCCACTGTGGCCGAAGTCATCCAGGAACACATCGACCTGCTGATCCGTCCATCGAGCGGAACCACGAAGACGTACCAGACCATGCTGGACCTGCATATCCGGAACGTTATCGGCCATGTGCCGGTGGACAAGCTGGACTATCGACTGATCGCGCACTGGGTGAAGTCGATGATGGCAAAGGGCAAGGCGCCGAAAACCATCCACAACGTGCACGGCCTGATCTCAGCCGCCATGAATACCGCTGAGATGCTTGGCTATATTTCGCGGAACCCTTGCCGCGGCGTTCAGCTTCCCGGCATAGAGAAGGCCGAGGATGAGGCGATGTTCCTTACCCATGCGGAGTTCAGCCTGATCATGGAGGGGATGGGGGAGCGTTACAAGGCCTTCACGAACTTCCTGGTCATGACCGGCACCCGCTTCGGCGAGGCCACCGCCCTTACCGTGGCCGACGTCGACCTGCTCTCCAAACCGCCCACCGCCCGGATCAATAAAGCATGGAAGCGGGACGGCCAGTCCAAGTTTTACGTCGGGGCCACCAAGACCGGTGCCGGTAAGCGGACAATAGGCCTGAACCCGGCGCTTGTTGAGCTGCTGATCCCGTTGGTCGCAAGCAGGCCGGGAAAAGAACTTGTGTTTACGACGCCCAAGGGTGGCCGAATCATCCACAAACTCTACTGGCACCACTACTGGGTCCCTGCCGTTCGCACAGCCCAAGCTATCGGCCTCACTAAAGATCCAAGGATCCACGACCTCCGCCACACGCATGCGTCCTGGCTGATCCAGGACGGGGTGCCCTTGTTCACCATCTCGCGCCGGCTGGGACACGCCTCTACGAGGACTAGGAGCAGGTCTACGGGCACTTGA	MVLWRDPKSREQQGITVPTLIEAETLKRLLDANGQSFEIAQHAILSNEKRTPTVAEVIQEHIDLLIRPSSGTTKTYQTMLDLHIRNVIGHVPVDKLDYRLIAHWVKSMMAKGKAPKTIHNVHGLISAAMNTAEMLGYISRNPCRGVQLPGIEKAEDEAMFLTHAEFSLIMEGMGERYKAFTNFLVMTGTRFGEATALTVADVDLLSKPPTARINKAWKRDGQSKFYVGATKTGAGKRTIGLNPALVELLIPLVASRPGKELVFTTPKGGRIIHKLYWHHYWVPAVRTAQAIGLTKDPRIHDLRHTHASWLIQDGVPLFTISRRLGHASTRTRSRSTGT	PGPT0021996_1165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021996-int|intR|intV|intQ|intW|xerC-K14059	NA	NA
D1-17_02334	606	pdtaR	COG3707	putative transcriptional regulatory protein pdtaR	GTGTCAGAACCGACGGAGTCAAACACCACGTCCCAGCCGGCGCGCCGCGTAGTTGTCGCTGAGGATGAAACCCTTATCCGCCTGGACATCATCGAGATCCTGCGCGGTGAAGGCTACGACGTTATCGGCGAGGCTGACAACGGCGAGAAGGCCGTGCAGCTGGCTGAGGAACTCAAGCCTGACCTGGTCCTGATGGACGTCAAGATGCCCGTCATGGACGGTATCTCCGCCGCCGAAAAGATCGTTAAGGCCCGCATTGCCCCGGTGGTCCTCCTGACAGCGTTCAGCCAGAAGGAACTGGTGGAGCGTGCGCGCGACGCCGGCGCCATGGCCTACGTGGTGAAGCCTTTCACCCCCGCGGACCTCATCCCCGCCCTGGAGATCGCCCTGTCCCGGCACGAGGAAATCAAGGCCCTCGAGAACGAAGTGACGGACCTGCAGGAACAGTTCGCCACTCGCAAGCTCGTGGAGCGCGCGAAGAGCCTGCTGACCACCAAGATGGGACTCACCGAGCCGGAGGCCTTCCGCTGGATCCAGAAGACCTCCATGGACCGCCGCCTCAGCATGCGCGAGGTCGCCGAGACCATCATCAACCAGGTCAACTGA	MSEPTESNTTSQPARRVVVAEDETLIRLDIIEILRGEGYDVIGEADNGEKAVQLAEELKPDLVLMDVKMPVMDGISAAEKIVKARIAPVVLLTAFSQKELVERARDAGAMAYVVKPFTPADLIPALEIALSRHEEIKALENEVTDLQEQFATRKLVERAKSLLTTKMGLTEPEAFRWIQKTSMDRRLSMREVAETIINQVN				NA	NA	NA	NA	NA
D1-17_02335	1503	pyk	COG0469	Pyruvate kinase	ATGAGACGCGCAAAGATTGTGGCCACGTTTGGACCGGCAATTGCCAGCTACGAAAACACCCTCGCGGTGCTGGAAGCCGGCGTTGACGTCGCCCGAATGAACATGAGCCACGGCGATTACTCCGTGCATGACAACACCTACGAGAACGTCCGTAAGGCCGCGGCCGACCTTGGCAAGGCCGTAGCGATCATGGCCGACCTGCAGGGCCCGAAGATCCGCCTCGGCCGTTTCGTCGACGGCCCGCACGAACTCGCGGTCGGTGACATCTTCACGATCACCACCGAAGACGTTCCCGGCACCAAGGAAATCTGCTCGACCACGCTGAAGAGCCTTACCGAGGACGTCAATGTGGGCGACGCCCTCCTGATCGACGACGGCAAGGTCGCCCTGCGCGCCGTGGAGGTGGACGACGTCAAGGTCGTCGCCGAAGTGACCGTCGGCGGCATGGTGTCCAACAACAAGGGCATCAACCTGCCCGGCGTCGCCGTGAACGTCCCTGCCCTGAGCGAGAAGGATGAGGACGACCTCCGCTGGGCCATCCGCCGCGGCGTCGACCTCGTTGCGCTTTCCTTCGTCCGCGACGCGACCGACATCGCCCGCGTCCACGAGATCATGGACGAGGAAGGCCGCCGCGTTCCCGTCATCGCCAAGATCGAGAAGCCGCAGGCCGTGGAGCAGCTGCACGAGATCATCGACGCGTTCGACGCCATCATGGTGGCCCGTGGCGACCTGGGCGTGGAGCTCCCGCTCGAGGAAGTGCCGATCGTGCAGAAGCGTGCCATCGAACTGGCACGCCGCTGGGCGAAGCCGGTCATCGTGGCCACCCAGGTCCTCGAATCCATGATCGACAACCCGCGCCCCACCCGGGCCGAGGCCTCAGACTGCGCCAACGCGGTGCTCGACGGCGCGGACGCCGTGATGCTCTCCGGCGAGACGAGCGTCGGCAAGTACCCGATCGAGACCGTCAAGACCATGGCGCGGATCATCGAGTCCACCGAAGAGCACGGTCTGGAGCGCGTCCCCCCGCTGGGAACGAAGCCCAAGACCCGCGGCGGCGCCATCACCCGTGCCGCCGTCGAAATCGCCGACCAGCTGGACGCGAAGTACATCTGTACCTTCACCCAGTCCGGTGACTCCGCCCGCCGCCTCTCCCGCCTGCGCCCGATCAAGCCGGTCTTCGCCTTCACCCCGGTGGAGCAGGTGTGGAACCAGTTGGCACTGACCTGGGGCATCCAGCCGCAGCTCGTTGCCATGGTGGGCCACACGGACGAAATGACTGCCCAGGTTGACCAAAGCCTGCTGGACATGGAACTGGTGGAAGACGGCGACCTCGTGGTCATCGCTGCCGGTTCCCCTCCCGGAAAAGCCGGCTCCACCAACTCGCTCAAGGTCCACAAGGTGGGCGACCTCGCAGACACCTCACGCACAGGCGAGGGTACGACCAGGGAAAAGCTCGGCCCGTGGCCGGAAAAGAAGAAGAAGAACCAAGCCGCTGAAAAGTAG	MRRAKIVATFGPAIASYENTLAVLEAGVDVARMNMSHGDYSVHDNTYENVRKAAADLGKAVAIMADLQGPKIRLGRFVDGPHELAVGDIFTITTEDVPGTKEICSTTLKSLTEDVNVGDALLIDDGKVALRAVEVDDVKVVAEVTVGGMVSNNKGINLPGVAVNVPALSEKDEDDLRWAIRRGVDLVALSFVRDATDIARVHEIMDEEGRRVPVIAKIEKPQAVEQLHEIIDAFDAIMVARGDLGVELPLEEVPIVQKRAIELARRWAKPVIVATQVLESMIDNPRPTRAEASDCANAVLDGADAVMLSGETSVGKYPIETVKTMARIIESTEEHGLERVPPLGTKPKTRGGAITRAAVEIADQLDAKYICTFTQSGDSARRLSRLRPIKPVFAFTPVEQVWNQLALTWGIQPQLVAMVGHTDEMTAQVDQSLLDMELVEDGDLVVIAAGSPPGKAGSTNSLKVHKVGDLADTSRTGEGTTREKLGPWPEKKKKNQAAEK	PGPT0002020_2766	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
D1-17_02336	1458	gltD	COG0493	Glutamate synthase [NADPH] small chain	GTGGCTGACCCACGCGGATTTCTGAAAGTACGCCAGCGTGAAACCCAGCCACGCCGCCCCGTTCCCGTCCGCATCATGGACTGGAAGGAAGTTTACGAAGCCCAGGAAAAGGGCGTCCTGAAAAGCCAGGCCGGCCGCTGCATGGACTGCGGCGTGCCGTTCTGCCACCAGGGCTGCCCGCTGGGGAACCTGATTCCCGAGTGGAACGACCTCATGTGGCGGGACAAGGGCGAGGAAGCGATTGAGCGGCTGCACGCCACCAACAACTTCCCCGAATTCACCGGCCGCCTGTGCCCGGCCCCCTGCGAGGCGTCCTGCGTGCTGGGCATCAACCAGCCCGCCGTGACCATCAAGCAGGTCGAGGTCTCCATCATTGATGAAGCCTTCGACAACGGCTGGGTCACCCCGCTCCCGCCGCACCGCCTGACCGGCAAGACCGTGGCCGTGGTCGGCTCCGGCCCCGCCGGCCTGGCCGTCGCCCAGCAGCTGACCCGTGTGGGCCACACCGTCGCCGTGTACGAACGCGACGACAAGATCGGCGGCCTGCTGCGCTATGGCATCCCCGACTTCAAGATGGAAAAGGAGCAGGTGGACCGCCGGCTCGAGCAGATGAAGGCCGAGGGCACCCGCTTCCGCACCGGCGTCAACGTCGGCACCGACGTGACCTGGGAGCAGCTGCGCCGCCGTTACGACGCTGTTGTCATTGCCACTGGTGCCACTGTGCCCCGGGACCTGAAGATCCCGGGCCGTGAGCTCGAGGGTGTCCACTTCGCGATGGACTACCTGGTTCCGGCCAACCGTGCCGTGGCAGGGGAGACGCCGGCGAACCACATCGACGCCCGCGGCAAGCACGTGGTTATCCTAGGCGGCGGCGACACCGGTGCTGACTGCATCGGCACGGCGCACCGCCACCAGGCGGCTTCGGTGACCACCCTGGCCATCGGCAAGCAGCCCCCGGCGGAGCGCGCCAGCCACCAGCCGTGGCCGACGTTCCCCACCCTCTTCGAGGTCGCCAGCGCCCACGAAGAAGGCGGTGAGCGCACCTACCTCGCCTCCACCGTGGAGTTCGTCGGTGAGGACGGCAAGCTGACCGGCGTGAAGGTGGCTGAAACCGAATTCGTCGACGGTAAGCGCGTCCCCAAGGCCGGCACCGAGCGGATCATTCCCGCGGACCTGGTGTTCCTGTCCCTGGGCTTCACCGGACCGGAGCCTGCAGGCATCACCGAGCAGGTCCACGCCGAATTCGACGGACGCGGCAACGTGGCTCGCGACGGCTACTACATGACCAACACCGAGGGCGTCTTCGTTGCCGGTGACGCCGGCCGCGGACAGTCGCTGATCGTGTGGGCCATCGCTGAAGGGCGCGCCGCCGCCGCAGCTGTGGACAAGTACCTGATGGGGAGCACGATTCTTCCCGCTCCCGTCGCCCCGACGGACCGCGCCATCGCCGTCCTCTAG	MADPRGFLKVRQRETQPRRPVPVRIMDWKEVYEAQEKGVLKSQAGRCMDCGVPFCHQGCPLGNLIPEWNDLMWRDKGEEAIERLHATNNFPEFTGRLCPAPCEASCVLGINQPAVTIKQVEVSIIDEAFDNGWVTPLPPHRLTGKTVAVVGSGPAGLAVAQQLTRVGHTVAVYERDDKIGGLLRYGIPDFKMEKEQVDRRLEQMKAEGTRFRTGVNVGTDVTWEQLRRRYDAVVIATGATVPRDLKIPGRELEGVHFAMDYLVPANRAVAGETPANHIDARGKHVVILGGGDTGADCIGTAHRHQAASVTTLAIGKQPPAERASHQPWPTFPTLFEVASAHEEGGERTYLASTVEFVGEDGKLTGVKVAETEFVDGKRVPKAGTERIIPADLVFLSLGFTGPEPAGITEQVHAEFDGRGNVARDGYYMTNTEGVFVAGDAGRGQSLIVWAIAEGRAAAAAVDKYLMGSTILPAPVAPTDRAIAVL	PGPT0000640_2037	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
D1-17_02337	4617	gltB	COG0067	Glutamate synthase [NADPH] large chain	ATGACCCAAACTCTTTCAAGCCCCAGCTGGTCCGAACCGGTCCAGCCGGACGCTGCCATGTCACCGTTCAAGCGGTTCGCGGCGCTCCCTGAGGCATCCGGGCTCTACAACCCTGAGCAGGAGAAGGACGCCTGCGGTCTTGCGATCATCGCCACCCTGCGCGGCGAGCCCGGCTACGACATCGTTGACGCTGCACTGACGGCCCTGCGCAACCTGGAGCACCGCGGCGCTGTCGGCGCCGACGAGGGAACAGGTGACGGCGCAGGCCTCCTGATGCAGGTCCCGGACGAGTTCTTCCGCGCCGTGACCGAATTCGAGCTGCCCGCGCCGGGGCAATACGTCGTGGGCACCGCCTTCCTCCCGGCAGAGGAACGTGAAGCCAACGCGGCCAAGGCCGGCATTGAAGGCCTGGCCGCAGATGAGGGCCTCAAGGTGCTCGGCTGGCGCGAAGTGCCTGTCGTGGCCGACCTTGTCGGTGCCATGGCCCGCGCCTGCATGCCGTACTTCTCCCAGCCGTTCCTTGCCTCCGCTACCGGCGAGGAGCTCGAGCGCAACGAACTCGATGCCCGCGCCTGGCGGATCCGCAAGCGCGCCCAGAACAAGTTCGGTGTCTACTTCCCCTCGCTGTCGTCGCGCACCATTGTCTACAAGGGCATGCTGACCACCGCGCAGCTGGAGCCGTTCTACCCCGACCTTTCGGACAAGCGCTTCAAGACCAAGCTGGCGATCGTTCACTCGCGCTTTTCCACGAACACGTTCCCGTCATGGCCGCTGGCCCAGCCGTTCCGCACCATCGCCCACAACGGTGAGATCAACACCGTCAAGGGCAACCGGAACTGGATGCGCGCCCGCCAGTCGCAGCTGGCCAATCCGCTGTTGGGCGATGTCCCCGAAGAGCTGTTCCCGATCTGCACCCCCGGTGCCTCGGACTCCGCCTCGTTCGATGAAGTGGCCGAGCTGCTCTGGCTTTCCGGCCGCCCCATCACACACGCGATCATGATGATGATCCCGGAGGCGTGGGAAAACCACGCCACCATGGACCCCGCACGGCGCGCGTTCTACGAGTACCACTCCCTCCTGATGGAACCGTGGGACGGCCCTGCCGCCGTGTCCTTCACCGACGGCAACCTCGTCGGTGCCACGCTGGACCGCAACGGGCTCCGCCCGGGCCGCTTCTGGATCACCGAGGACGGCCTGGTCGTCTTCGCCTCCGAGGTGGGCGTCATCGACGTCGAGCCCTCCAAGGTGGTGCGCAAGGGCCGTGTTTCCCCGGGCAAGATGTTCCTGGTGGACACCGAAGCGGGGCGCATCATCGACGACGAAGAGGTCAAGGCCGAGGTAGCTGCGGCGAACCCCTGGTCCGAGTGGGTCAAGGACAACCTGATCGACCTGAACGACCTCCCGGAACGCGAGCATGTGGTGCACACGGCTACGTCCGTGAACATCCGCCAGCGGACCTTCGGCTACACCACGGAAGAGCTTAAGATCCTGCTCGGCCCCATGGCCCGCACCGGCGCCGAGCCGCTGGGCGCCATGGGCTCCGATACGCCGGTAGCGGTGCTGTCCAAGCGCCCCCGCCTGCTGTTCGACTATTTTGTGCAGTCCTTCGCCCAGGTCACCAACCCGCCGCTGGACGCCATCCGCGAAGAGCTGGTCACGTCCCTGATGTGCGCCATCGGACCCACCGGCAACCTGCTGGACACCAAGCAGGTCCGCCAGCCCCAGGTCCAGCTGCCGTTCCCGGTTATCAACAACGACCAGCTGGCCAAGATCGCCAACATCGAGGACGCCGACGGAAACCGCGTGGCCATGAAGGTCCGCGGCTTGTACCGTCCCGAAGGCGGCGAAGCCGCCCTCCGCGCCCGCCTCACGGAGATCTGCGAGCAGGTCTCCGGCGCCATCAACCGCGGCGTGCAGTACATCGTGCTGTCCGACCGTGACTCCAACGCCCAGTGGGCGCCGATTCCGTCGCTGCTGCTGGTCAGTGCCGTGCACCACCACCTGCTGCGCAGCGCCAACCGCACCAAGACCGCGCTCGTGGTCGAAGCCGGCGATGTCCGCGAAACGCACCACGTGGCCGTGCTCATCGGCTACGGCGCGTCGGCCGTCAACCCGTACCTGGCTATGGAATCCGTAGAGCAGCTGATCGCTGCCGGCGACGTCGTGGGCGTCACCCCGCAGGACGGGGTGTACAACCTGATCAAGGGCCTCGGCAAGGGCGTCCTGAAGATCATGTCCAAGATGGGCATCTCCACCGTGGCTTCGTACACTGGCGCGCAGACGTTCGAAGCGCTGGGCCTCGGCCAGGAGCTGGTGGACGAATTCTTTGCCGGCACGCACTCCCAGCTGGGCGGCGTGGGCCTGGATGTCATCGCGGCCGAGGTCTCCGCACGCCATCAGATGGCCTACCCCGAGGGCGGCATCGAGCAGCCGCACCGGCCCCTGCTGGGCGGCGGCGAATACCAGTGGCGCCGCGACGGCGAGCCGCACCTGTTCAACCCGGAGACGGTCTTCCGGCTGCAGCACGCCACGCGTGAGCGCCGCTACGACATCTTCAAGGCGTACACCAAGGGCGTGGACGACCAGTCCGAGAACCTGATGACCCTGCGCGGGCTCCTCAAGTTCAAGGACGGCCTGCGCCCGCCGGTGCCGCTCGAGGAAGTGGAGCCGGTCTCCAGCATCGTCAAGCGCTTCTCCACCGGTGCCATGAGTTACGGCTCCATCTCCAAGGAAGCCCACGAGACGCTCGCGATCGCCATGAACCGGCTGGGCGGCAAGTCCAACACCGGTGAAGGCGGCGAGGACGTGGACCGCCTGATGGATCCGGAGCGCCGTTCCGCCGTCAAGCAGATCGCCTCCGGCCGGTTCGGCGTCACCAGCCTGTACCTGACCAACGCTGATGACATCCAGATCAAGATGGCGCAGGGCGCCAAGCCCGGCGAGGGCGGCCAGCTGATGGCCCAGAAGGTGTACCCCTGGGTCGCCCGCACACGCCACTCGACCCCCGGCGTCGGGCTCATTTCCCCGCCCCCGCACCACGACATCTACTCGATCGAGGACCTCGCGCAGCTCATCTACGATGCCAAGCGCGCGAACCCCTCGGCACGTGTGCACGTCAAGCTCGTCTCCGAGGTGGGAATCGGCACAGTTGCCGCCGGGGTCACCAAGGCGAAGGCCGACGTCGTGCTCGTTTCCGGGCACGACGGCGGAACCGGCGCCTCGCCGCTGAACTCGCTCAAGCACGCCGGTGTCCCGTGGGAGCTGGGTCTCGCAGAGACGCAGCAGACGCTCATGCTCAACGGCCTGCGCGACCGCGTAGTCGTGCAGGTGGACGGCCAGCTCAAGACCGGACGCGACGTCGTCATTGCCGCCCTGCTGGGCGGCGAGGAATTCGGCTTCGCCACGGCACCGCTGGTGGTTGAAGGCTGCATCATGATGCGTGTCTGCCACCTGGACACCTGCCCGGTGGGCGTGGCCACGCAGAACCCCGAGCTGCGTGCCCGCTTCAGCGGCAAGCCCGAGTTCGTGGTCAACTTCTTCGAATTCCTGGCCGAGGAAGTCCGCGAAATCCTCGCGGAACTTGGCTTCCGGAGCATTGAGGAAGCGATCGGCCACGCGGAAATGCTGGACACCCAGGACGCCATCAGCCACTGGAAGGCCGAAGGGCTGGACCTCGACCCCATCCTGCACGGACTGGAGTTCGACGACGACGCGCCGCTGCGCAACCTGACCGGCCAGAACCACGAGCTGGACAAGCACTTCGACCAGCGTCTCATCACGATGTCTGCCGAAGCGCTGACCGACCGCGCCCCGGTGAAGATCGCCGTCGACGTCATCAACACGGACCGCTCGGTGGGCACCATGCTCGGCCACGAGGTCACCAAGAAGTTCGGCACGGACGTCCTGGCGACGGACACGATCGACATCACCCTGACCGGCACCGCCGGGCAGTCGCTGGGCGCCTTCCTGCCTGCCGGCATCACGCTGCGCATGTACGGCGACTCCAACGACTACGTGGGCAAGGGCCTCTCCGGCGGCCGCATCATCGTCCGTCCTGACCGCACCAACGTGTTCAAGGCGGAGAGCAACGTCATCGCCGGCAACGTGATCGGCTACGGTGCCACGAGCGGTGAACTGTTCCTGCGCGGCCAGGTGGGCGAACGCTTCCTGGTCCGGAACTCAGGAGCCACGGCGGTTGTCGAAGGCATCGGTGACCACGGCTGCGAGTACATGACCGGCGGCCAGACGCTGATCCTCGGACGGACCGGCCGCAACTTCGGTGCAGGCATGTCCGGCGGTACCGCCTACGTGCTGGACCTGGACAACGCCCGCGTGAACAAGCAGGCGCTGGAAGCCGGCGAACTGCAGCTCCTCGAGCTGGACGCCGAGGACCGTGACATCGTTCACGGGCTTTTGGTCAGGCACGTCGAGGAGACTGAATCCCAGCTGGCCGCGCGCCTGCTCGAGAACTTCGACGACACCGCTGCCCGCATTACCAAGGTGCTGCCGCGCGACTACGCGGCCGTGCTGCAAACCCGCCTTACCGCCATCGAAGAGGGCCTGGACCCCGACGGCGAAGAAGTATGGTCTCGAATCCTGGAGGTGACCGGTGGCTGA	MTQTLSSPSWSEPVQPDAAMSPFKRFAALPEASGLYNPEQEKDACGLAIIATLRGEPGYDIVDAALTALRNLEHRGAVGADEGTGDGAGLLMQVPDEFFRAVTEFELPAPGQYVVGTAFLPAEEREANAAKAGIEGLAADEGLKVLGWREVPVVADLVGAMARACMPYFSQPFLASATGEELERNELDARAWRIRKRAQNKFGVYFPSLSSRTIVYKGMLTTAQLEPFYPDLSDKRFKTKLAIVHSRFSTNTFPSWPLAQPFRTIAHNGEINTVKGNRNWMRARQSQLANPLLGDVPEELFPICTPGASDSASFDEVAELLWLSGRPITHAIMMMIPEAWENHATMDPARRAFYEYHSLLMEPWDGPAAVSFTDGNLVGATLDRNGLRPGRFWITEDGLVVFASEVGVIDVEPSKVVRKGRVSPGKMFLVDTEAGRIIDDEEVKAEVAAANPWSEWVKDNLIDLNDLPEREHVVHTATSVNIRQRTFGYTTEELKILLGPMARTGAEPLGAMGSDTPVAVLSKRPRLLFDYFVQSFAQVTNPPLDAIREELVTSLMCAIGPTGNLLDTKQVRQPQVQLPFPVINNDQLAKIANIEDADGNRVAMKVRGLYRPEGGEAALRARLTEICEQVSGAINRGVQYIVLSDRDSNAQWAPIPSLLLVSAVHHHLLRSANRTKTALVVEAGDVRETHHVAVLIGYGASAVNPYLAMESVEQLIAAGDVVGVTPQDGVYNLIKGLGKGVLKIMSKMGISTVASYTGAQTFEALGLGQELVDEFFAGTHSQLGGVGLDVIAAEVSARHQMAYPEGGIEQPHRPLLGGGEYQWRRDGEPHLFNPETVFRLQHATRERRYDIFKAYTKGVDDQSENLMTLRGLLKFKDGLRPPVPLEEVEPVSSIVKRFSTGAMSYGSISKEAHETLAIAMNRLGGKSNTGEGGEDVDRLMDPERRSAVKQIASGRFGVTSLYLTNADDIQIKMAQGAKPGEGGQLMAQKVYPWVARTRHSTPGVGLISPPPHHDIYSIEDLAQLIYDAKRANPSARVHVKLVSEVGIGTVAAGVTKAKADVVLVSGHDGGTGASPLNSLKHAGVPWELGLAETQQTLMLNGLRDRVVVQVDGQLKTGRDVVIAALLGGEEFGFATAPLVVEGCIMMRVCHLDTCPVGVATQNPELRARFSGKPEFVVNFFEFLAEEVREILAELGFRSIEEAIGHAEMLDTQDAISHWKAEGLDLDPILHGLEFDDDAPLRNLTGQNHELDKHFDQRLITMSAEALTDRAPVKIAVDVINTDRSVGTMLGHEVTKKFGTDVLATDTIDITLTGTAGQSLGAFLPAGITLRMYGDSNDYVGKGLSGGRIIVRPDRTNVFKAESNVIAGNVIGYGATSGELFLRGQVGERFLVRNSGATAVVEGIGDHGCEYMTGGQTLILGRTGRNFGAGMSGGTAYVLDLDNARVNKQALEAGELQLLELDAEDRDIVHGLLVRHVEETESQLAARLLENFDDTAARITKVLPRDYAAVLQTRLTAIEEGLDPDGEEVWSRILEVTGG	PGPT0000635_873	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
D1-17_02338	1260	lgt		Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCAGATGCTCCACTCCGCGGCGGCCCTGCTCCCGGTCAACATGATCCCGGTGAACATGGTTCCGGCCAGCATTCCGAGCCCGGACTGGTCCGGCTTCGACATTCCGCTGCCGTGGGGTTCTCTGCGTATCCACGCCTACGCCCTGTGCATCCTTGCCGGTATCGTCGTCGGCCTCTGGCTGACCTCGGTCCGATGGGCCAGGCGCGGCGCGCCGGAGGGGAGCGTCTGGGACATCGCCATCTGGGCCATCCCGTTCGGCATTATCGGCGGCCGGCTGTACCACGTCTTCTCCTCTCCGGATGCCTACTTCGGCCCCGGGTTCGACGGCACCGGCGACCTCTCCCTGATCCCGCAGATCCAGCGCGGCGGCCTCGGGATCTGGGGTGCCGTGGTGCTTGGTGCCTTCGGCGCCTGGATCGGGTGCCGCCGTGCCGGCGTCAAGCTGACAGGCTTCATGGATGCAGCGGCACCGGGACTGCTGCTGGCCCAGGCCATTGGACGGTGGGGAAACTACTTCAACCAGGAGCTCTTCGGCGGGCCCACCACGCTGCCCTGGGGACTGCAGGTGGATGCGGACAACGCCAACTTCCCCAGCGGGTATCCGGCGGACACCCTGTTCCACCCCACGTTCCTGTACGAGTCCCTCTGGAACATAGCCGGTGTGTTGCTCCTGCTGGCGCTGGACAGGCGGTTCCACTTCCGCCGGGGCCGGCTCTTCTGGCTGTACGCGATGTACTACACGCTTGGCCGGGTATGGATCGAGGCCATGCGCATCGACGACGCCGAGCAGATCGGCCTCTTCGGCGTCACGGCCCGGCTGAACGTGTGGACAAGCATTATCGTCTTTGTCGCCGCGCTGGCCGTGTTTATCGTCCTGGGGCGCCGACAGACAGCAGACGCGGACAGCGTTTACCTTCCCGGCCGGAAGCCGGCCGCCCCGGCGGCAGACCGTGCCGCAACGGCCGGACAAACGGACGACGGCGGCCCGGCGGAGCGGGATAAAGACCCGGAAGGGGAGCGGGAAGGCGGCTCCGCCGCCGTCCGGAGTCTGGTCCGTGGTACGGACCCCGTTGTCTCAGATAGTGAATCGCGTGATAATCTGCCAGATAACGAAAACGGTCCAGGCTACTCTTCTGCCCCAACGGAAGCAGTGCCGGCGTCCACCGGCGGCACTTCGCCCGCCAAGGTCTCGCCGGATGCCGGAAAGTCCGGTGCAACAGCCAATGGAACCGAGTCGGAGACTGACGGCACCCGCTAG	MQMLHSAAALLPVNMIPVNMVPASIPSPDWSGFDIPLPWGSLRIHAYALCILAGIVVGLWLTSVRWARRGAPEGSVWDIAIWAIPFGIIGGRLYHVFSSPDAYFGPGFDGTGDLSLIPQIQRGGLGIWGAVVLGAFGAWIGCRRAGVKLTGFMDAAAPGLLLAQAIGRWGNYFNQELFGGPTTLPWGLQVDADNANFPSGYPADTLFHPTFLYESLWNIAGVLLLLALDRRFHFRRGRLFWLYAMYYTLGRVWIEAMRIDDAEQIGLFGVTARLNVWTSIIVFVAALAVFIVLGRRQTADADSVYLPGRKPAAPAADRAATAGQTDDGGPAERDKDPEGEREGGSAAVRSLVRGTDPVVSDSESRDNLPDNENGPGYSSAPTEAVPASTGGTSPAKVSPDAGKSGATANGTESETDGTR				NA	NA	NA	NA	NA
D1-17_02339	789	trpA	COG0159	Tryptophan synthase alpha chain	ATGACCAGCAAGTCGGCAATAGCCATTGACAAGGCCCGTGCAGAAGGACGGGCGGCCCTCATCGGCTACCTGCCCGCGGGCTACCCGAGTGTCGAGGAAACCATCGCCGCCGGGATCGCCCTGGCGCGGAACGGCGCCGACCTGATCGAAATCGGCATTCCCTATTCGGATCCCGTGATGGACGGCCCGGTCATCCAGGCCGCCACCACCGAAGCCCTGGCCAAGGGTTTTTCCGTCCGCCAGGTCTTTGACGTGGTCGCCGGCATCACCGCCGAAACCGACGCCGCCGTTCTGGTCATGACCTACTGGAATCCCGTGGTTCGGATGGGCGTGGACGAGTTTTCCCGCCGCCTGGCGGAAGCCGGGGGAGCGGGCCTGATAACTCCGGACCTCATTCCCGACGAGGCCGCCGAATGGATGGAAGCCTCCGACAAGTACGGGCTGGACCGCGTGTTCCTTGTGGCGCCGTCCTCCACCACCCAGCGCATGCGGCGCACCGTCGAGGCCAGCCGCGGCTTCGTGTACGCCGTCTCCATCATGGGCGTCACCGGGGCACGCTCCTCCGTGAGTGCGGCCGCCGAAGGTGTGGTGACGGCGGCCAAGGCAGCCGGGGCGGAGCGGGTCTGCGTAGGCCTCGGCGTCTCCAACGCCGGACAGGTCGCGGAAATCGCAGCCTACGCCGACGGCGTGATCGTGGGAACGGCCCTCGTGTCCGCCATTCGGGGGGGCGGCGTGGACGCCGTTGCAAGCCTGACCAAAGACCTCAGCACCGGACTCACCAGGAAGTAG	MTSKSAIAIDKARAEGRAALIGYLPAGYPSVEETIAAGIALARNGADLIEIGIPYSDPVMDGPVIQAATTEALAKGFSVRQVFDVVAGITAETDAAVLVMTYWNPVVRMGVDEFSRRLAEAGGAGLITPDLIPDEAAEWMEASDKYGLDRVFLVAPSSTTQRMRRTVEASRGFVYAVSIMGVTGARSSVSAAAEGVVTAAKAAGAERVCVGLGVSNAGQVAEIAAYADGVIVGTALVSAIRGGGVDAVASLTKDLSTGLTRK	PGPT0007070_1335	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007070-trpA-K01695	NA	NA
D1-17_02340	1329	trpB	COG0133	Tryptophan synthase beta chain	ATGGCCGAAGCGCCAACAGCCGGCTCTGACGAAAGCTCGGTGGACGCGTTCCTGCAGGGAGGCACATCGCTGCGCCACGCCCCGGGACCATACTTCGGCTCGTACGGCGGCCGGTGGATGCCTGAATCACTGATCGCGGCCCTCGACGAGCTTGAAGACACCTTCGAAAAGGCCAAGGCCGACCCGGAATTCACCGCCCAGATCGACGATCTGAACAAGAACTACTCGGGACGGCCGTCGCTTCTCACCGAGGCCAAGCGGTTCTCCGAGCATGCCGGGGGAGTGCGGATCTTCCTTAAGCGCGAAGACCTGAACCACACGGGCTCGCACAAGATCAACAACGTGCTGGGCCAGGCGCTGCTGGCCAAGCGCATGGGCAAAACCCGCGTTATTGCCGAGACCGGAGCCGGCCAGCACGGCGTTGCCAGCGCAACCGCCGCCGCCCTGCTTGGCCTTGAATGCGTTGTCTACATGGGCGCCGAAGACTGCCGCCGCCAGGCACTGAACGTCGCCCGGATGGAGCTCCTCGGCGCCACCGTGGTGCCGGTGACCAACGGCTCGCAGACCCTCAAGGACGCGATTAACGAGGCGCTGCGCGACTGGGTCGCAAACGTCGGGACCACGCACTACCTGCTCGGCACCGCTGCGGGCGCGCACCCGTTCCCCGCGATGGTCCGCTACTTCCACGAAGTCATCGGCGAGGAGGCCCGCGAGCAGATCCTGGCGCAGACCGGCCGCCTGCCCGACGCCGTCTGTGCCTGCATCGGTGGCGGATCCAACGCCATTGGCATCTTCCACGGCTTCCTCGATGACCCGTCCGTCAAGATCTATGGTTTCGAAGCCGGCGGAGAGGGCGTCGACACCGGCCGGCACGCCGCGACCATTACGCTTGGCCGTCCCGGCGTGCTGCACGGTGCCCGCTCGTACCTTATGCAGGACGACGACGGCCAGACCATCGAATCACACTCCATTTCGGCGGGACTGGACTACCCCGGCGTCGGCCCGGAGCACTCCTACCTCGCCGACATCGGACGCGTCAGCTACGAGCCCATCACTGACAGCGAAGCCATGGAGGCCTTCCGGCTCCTGTGCCGCACCGAGGGCATCATCCCGGCCATCGAGTCCTCGCATGCCCTTGCCGGCGCCATCAAGGTGGGCCAGCGCCTGGCGGCAGAGGAGGGGGCCGAGGGCAAGGCATCAGACAAGATCGTGATCGTTAACCTGTCCGGCCGTGGTGACAAGGACGTGGCTACAGCAGCCGAGTGGTTCGACCTCCTGGACAAGAATTCCGCAGAGGCGGCCATCGGCAAGGAAGGGGAGCAGCTGTGA	MAEAPTAGSDESSVDAFLQGGTSLRHAPGPYFGSYGGRWMPESLIAALDELEDTFEKAKADPEFTAQIDDLNKNYSGRPSLLTEAKRFSEHAGGVRIFLKREDLNHTGSHKINNVLGQALLAKRMGKTRVIAETGAGQHGVASATAAALLGLECVVYMGAEDCRRQALNVARMELLGATVVPVTNGSQTLKDAINEALRDWVANVGTTHYLLGTAAGAHPFPAMVRYFHEVIGEEAREQILAQTGRLPDAVCACIGGGSNAIGIFHGFLDDPSVKIYGFEAGGEGVDTGRHAATITLGRPGVLHGARSYLMQDDDGQTIESHSISAGLDYPGVGPEHSYLADIGRVSYEPITDSEAMEAFRLLCRTEGIIPAIESSHALAGAIKVGQRLAAEEGAEGKASDKIVIVNLSGRGDKDVATAAEWFDLLDKNSAEAAIGKEGEQL	PGPT0007075_472	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007075-trpB-K01696	NA	NA
D1-17_02341	819	trpC	COG0134	Indole-3-glycerol phosphate synthase	GTGACCGTTCTCGATGACATCAACGCCGGTGTCAGGGAGGACATGGAGGCGCGCAGGCGTCTGGTGTCCCTCGCGGAACTGAAAGACCGCACGCTGGCAGCTGCGCCGGCGCGTGATGCCTGGGCAGCACTTGGCGGTCCTTCTGCCCGCCGGGACCAGCTCAAGGTCATCGCGGAAATCAAGCGCCGCAGCCCCTCCAAGGGCGATCTCGCGAGCATCGCCGATCCCGCGTCGCTGGCGGGGCAATACGCCGCCGGCGGCGCGGCCGTGATCAGTGTGCTCACCGAACAGCGGCGGTTCAACGGCTCGCTGGCTGACCTGGACGCGGTCCGGGCCAGCGTGGACGTCCCGCTGCTCCGGAAGGACTTCACACTCGACGAGTACCAGATCTGGGAAGCCCGTGCCCACGGTGCGGACCTGATCCTGCTGATCGTGGCCGCCCTGTCCGACGCGCAGCTTCGGGAGTTCAGCGTCCTGAGCCGCGAACTCGGCATGAACGTCCTGGTGGAAACCCACACGCCCGAGGAAGTAGAGCGGGCCGTCGCCGCGGACGCGCGCATCATCGGCGTCAACGTACGCAACCTCAAGACGCTCGACGTCGACCGTTCCCTCTTCGCATCCCTCGCCGGAAGCGTTCCGGCCGGCGCAGTGGTGGTCGCCGAGTCGGGCGTGCGCAACGCCGACGACGTAACCCATTACGCGGCGCACGGCGCCAACGCAATCCTCGTAGGAGAAGCGCTCGTCAGTGACGCGACCCCGCGTGAACGTATCGCGGAGTTCACGGCAGCCGGGGCAGCGGCAATCGCCGCCCGCGTCTGA	MTVLDDINAGVREDMEARRRLVSLAELKDRTLAAAPARDAWAALGGPSARRDQLKVIAEIKRRSPSKGDLASIADPASLAGQYAAGGAAVISVLTEQRRFNGSLADLDAVRASVDVPLLRKDFTLDEYQIWEARAHGADLILLIVAALSDAQLREFSVLSRELGMNVLVETHTPEEVERAVAADARIIGVNVRNLKTLDVDRSLFASLAGSVPAGAVVVAESGVRNADDVTHYAAHGANAILVGEALVSDATPRERIAEFTAAGAAAIAARV	PGPT0007080_991	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007080-trpC-K01609	NA	NA
D1-17_02342	285			hypothetical protein	ATGAGCAAAGCCACTGTACCCGGTACCAAGCCCAACGCCCCCAAGACGCATGACGGCGTTGACCACAGCATTGACCTGGGCCACGGCAACAGCCCGGCAGCCTGGACCTGCGTGATCGTCATGCTTATCGGCGCGCTCATCGCCTCCATCGCCTTCGTGATTGCCAACTCGCCGATCTTCTGGTCGGGCATTGCCGTTATGTTCGTCGGCCTGCTGGTTGGTTTCATCATGCGCAAGGCCGGATATGGCGTGGGCGGAAGCAAGCTGAAGAACTCCGGCCACTGA	MSKATVPGTKPNAPKTHDGVDHSIDLGHGNSPAAWTCVIVMLIGALIASIAFVIANSPIFWSGIAVMFVGLLVGFIMRKAGYGVGGSKLKNSGH				NA	NA	NA	NA	NA
D1-17_02343	678			hypothetical protein	ATGGCTGCTCCGGCAGGTTCCGCCGCGACGGACAGGGCCCGCAACGGCACTCCGGGCTGGGCGCGGAAGTCCACGGTTGTGTTGCTGATAGCTGTGCTGGCACTGACCGTGTTCGGCACCACCACACAGACCTGGCTGACGGTCCACTTGGACCCTCAGCAACTGGGACAGGGCTCCGCCGTTCAGGACGGGCTGCAGGTCCAGGGCAGCAAGGCCGCCACGACGGTGACGGCATTGGCTCTGGTGGCGCTGGCGGGAGGCCTCGCCGCGTCCATTGCAGGGAAGCTTGCCCGGTGGGTCATCACGGGCATCATCGTGCTGGCAGCCGCCGGCATCATCGCTGCTGCAGCCACCGTCCTGGCCGACCCCCTGGCCGCTGCGCAAGGCTCGATAGCCGCCGCCACCGGCGTTTCCGGGAGTACGGCAGACGTGAGCGTGACAGCGTTCCCAGTCCTCGCTGTGGTCGCCGGTGCCCTCCTGGCCGTGGGCGGACTTCTGGTGGTCCCGGCGGGACGGTACTGGAAAACCCGCACCAAATATGACGCCGCCGTGCAGGACACCACAGGTGGCCCAGGCACTGCAGTCACTACAGAGCAGGGGCGCCCCGGCGCTCCGGCCGGCCCGGTGGACGAGATTGACAGCTGGGACCGTCTCTCACGCGGCGACGACCCCACCTGA	MAAPAGSAATDRARNGTPGWARKSTVVLLIAVLALTVFGTTTQTWLTVHLDPQQLGQGSAVQDGLQVQGSKAATTVTALALVALAGGLAASIAGKLARWVITGIIVLAAAGIIAAAATVLADPLAAAQGSIAAATGVSGSTADVSVTAFPVLAVVAGALLAVGGLLVVPAGRYWKTRTKYDAAVQDTTGGPGTAVTTEQGRPGAPAGPVDEIDSWDRLSRGDDPT	PGPT0007095_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007095-trpE|phnA-K01657	NA	NA
D1-17_02344	1608	trpE	COG0147	Anthranilate synthase component 1	ATGCAGGACCTGGGAATCATCAGCCCGAGCCTGGAAGAATTCCGGGAACTGGCCGGCCACAGCCGCGTCATCCCCGTCCGGCTCAAGGTGCTGGCCGATGCCGAAACGCCCATCGGCCTGTACCGGAAGCTGGCCCAGGGCCAGCCGGGCACCTTCCTCATGGAATCGGCGGCTGTTGGCGGCGCCTGGTCCCGCTATTCCTTCATCGGCGCCAGGTCCCGCGCCACACTGACCACGAAGGACGGCCAGGCCCATTGGCTCGGCCAGCCTCCTGCCGGTGTGCCGATGGACGGCAGTCCCGTGGACGCGATCCGGGACACTGTTGCCGCGCTGCGGACCGACCGGTTCGACGGCCTGCCGCCCTTCACCTCGGGGCTGGTAGGTTTCCTTGGCTGGGAGACCGTCCGGCACTGGGAAAGGCTGACCAGCCCTCCCGAAGACGATCTTCAGCTGCCCGAGATGGCATTGAACCTCGTCACGGACATGGCCGTCCACGACAACATGGACGGCACGGTGCTGCTGATCGCCAACGCCATTAACTTCGACAACAGCCCTGACCGGGTGGACGAAGCCTGGCAGGACGCCGTCGCACGTGTGAAGGAGCTGCTGGCCCGCGTCAGCACTCCCGTGGCGCAGCCAGTGTCCGTCCTGGAACCGGCTGCCCTCGATTTTGCCTCCAGTGTCCAGGAACGCTGGGACGAGTCGGAGTACCTTGCCGCCCTCGACCGCGGCAAGGAGGCGATCGTGGACGGGGAAGTCTTCCAGGTTGTCATTTCACGCCGCTTCGAAATGGAATGCGGCGCGTCCCCGCTGGACGTCTACCGGGTCCTGCGGAACACCAACCCGAGCCCCTACATGTACATCTTCAGCCTCGAGGACGCAGAGGGCAGGGAATACTCCATCGTCGGGTCGTCACCTGAAGCGCTGGTTACTGTCACCGGCGAAGACGTCATCACCCACCCCATCGCCGGGTCCCGGCCGAGGGGCAAGACCGTCGACGCAGACAAGGCCCTGGCCGAAGAGCTCCTCGCGGACCAAAAAGAACGTGCCGAACACCTGATGCTGGTGGACCTTTCCCGCAACGATCTGTCCAAGGTCTGCGTTGCAGGTTCCGTGGACGTCACCCAGTTCATGGAAGTGGAGCGGTTCAGCCACATTATGCACCTCGTTTCCACGGTGGTGGGACGGCTCGCTCCCGCAGCCACGGCCTACGACGTCCTGAAGGCAACGTTTCCGGCCGGAACGCTTTCCGGCGCCCCCAAGCCCCGGGCCCTGCGCCTCCTGGATGAGCTCGAGCCGCACCGGCGCGGCATTTACGGCGGCGTCGTGGGCTACTTCGACTTCGCCGGGGACATGGACATGGCCATTGCCATCCGTTCGGCGCTGCTGCGCGAAGGCCGCGCCTACGTCCAGGCCGGGGGCGGCATCGTGGCAGACTCCGTCAACCCCACCGAGGCGCTGGAAACCGTGAACAAGGCCGCTGCTCCGCTGCGTGCGGTCCATACTGCGGGCTCGCTCCACAACATCAGTGCCGAAACAGTCGCCGTTGATGCAGCCCCCACAGATTCCGGGGCGGGCGCCGCCCCGGACGCCGGGACAGGATCCTGA	MQDLGIISPSLEEFRELAGHSRVIPVRLKVLADAETPIGLYRKLAQGQPGTFLMESAAVGGAWSRYSFIGARSRATLTTKDGQAHWLGQPPAGVPMDGSPVDAIRDTVAALRTDRFDGLPPFTSGLVGFLGWETVRHWERLTSPPEDDLQLPEMALNLVTDMAVHDNMDGTVLLIANAINFDNSPDRVDEAWQDAVARVKELLARVSTPVAQPVSVLEPAALDFASSVQERWDESEYLAALDRGKEAIVDGEVFQVVISRRFEMECGASPLDVYRVLRNTNPSPYMYIFSLEDAEGREYSIVGSSPEALVTVTGEDVITHPIAGSRPRGKTVDADKALAEELLADQKERAEHLMLVDLSRNDLSKVCVAGSVDVTQFMEVERFSHIMHLVSTVVGRLAPAATAYDVLKATFPAGTLSGAPKPRALRLLDELEPHRRGIYGGVVGYFDFAGDMDMAIAIRSALLREGRAYVQAGGGIVADSVNPTEALETVNKAAAPLRAVHTAGSLHNISAETVAVDAAPTDSGAGAAPDAGTGS	PGPT0007095_744	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007095-trpE|phnA-K01657	NA	NA
D1-17_02345	522	hisI		Phosphoribosyl-AMP cyclohydrolase	GTGCCAGTGTCCCCCGGCGAGGGCACTAGACTTGACGTGATGTCTGAGCAACCCGCCCCCAGTCCAGCCCCCGCATCCCCTGCCGGTGTCCCCGCCCCGTCGGCCGATACCACACTTCCTGATGCCACGGGTGCCCGTGTGCACGGCAGCGCCCTGCCCGCCGACGTTGCGGCAGTCCTGAAGCGAGACGGCGCCGGGCTGGTGGCCGCGATTGTGCAGCAGCACGATACCAACGAAGTTCTCATGCTCGGCTGGATGGATGACGAGGCCCTTAACCGCACCATGACCACGGGCCGGGTGACCTTTTACTCGCGGTCCCGCCAGGAGTACTGGCGCAAGGGGGACACGTCGGGCCACGTGCAGTGGGTCAAGTCGGTTGCCGTGGACTGCGACGGCGACGCCCTGCTGGTCCGCGTTGACCAGGTCGGCGCCGCCTGCCATACCGGAACCCGCACCTGCTTCGAGGGCCGCAGCCTCGACGTCGTAACCGGAACCGGTCCGGAAACCAGTGACCGGGTCTAA	MPVSPGEGTRLDVMSEQPAPSPAPASPAGVPAPSADTTLPDATGARVHGSALPADVAAVLKRDGAGLVAAIVQQHDTNEVLMLGWMDDEALNRTMTTGRVTFYSRSRQEYWRKGDTSGHVQWVKSVAVDCDGDALLVRVDQVGAACHTGTRTCFEGRSLDVVTGTGPETSDRV				NA	NA	NA	NA	NA
D1-17_02346	738			hypothetical protein	ATGTACACACTAAGGAAAATGGGCACGGTCGGCAGCGTCGGGCTGCTCATTTCGGGCAGTCTGATCTTCGGTTCGGCCAACGCGGCGGTGGCCGCAACCTGCCGCGCGGGGGTGGCCGTTCCCACCAGCACCTTCACCGGCACGCTGGTGGCGGCAACCAACTTCGAGGGAAACACGCTGTTGCCGTTCAGGACCACTACGTCGGGGACCGGAACAGCGGCAGTGACGAGCCCGAAGGCGCACACCGGAACATGCTCCGCCAGACTTCGTGCAACGGCAGATGCACGCTCGGTGGCAAACATGAATGTTGGACTGGCCGCCGGAACAAAACGGGCCAATGTTGACGCGTGGGTCAACATCACCACTGCCGGGCTCGCTGGCAACAATGTGCCCTATGTCCGGTTCTTCTCTGGCTCCATCAGGGTCGCGGACGTTTTCCGCAACAACGCCAACGGCCAGCTGTGGTTGCGTACCGCGAACCCCAACGGCAGCGTCACATTCACCAAGCTTCAGGCGGCCTCCGTTCCGCTGAATACCTGGCAGCGTGTCCGGATGCAGGTGCGCGCGGACGGCCCCCGGTCCTCCATTCAGATATGGTTCGGAAACGTCCTGGTGTTCAACAGGACAGTGAACCTGCCCTCCACCACCCTGACCAAGGTGCAGTTCGGCGCGGAGCACGGACGCCAGATGGGCGACAGCTATATTGACAACGTCGTCATCAAGCGTGCCCTTTCCTGA	MYTLRKMGTVGSVGLLISGSLIFGSANAAVAATCRAGVAVPTSTFTGTLVAATNFEGNTLLPFRTTTSGTGTAAVTSPKAHTGTCSARLRATADARSVANMNVGLAAGTKRANVDAWVNITTAGLAGNNVPYVRFFSGSIRVADVFRNNANGQLWLRTANPNGSVTFTKLQAASVPLNTWQRVRMQVRADGPRSSIQIWFGNVLVFNRTVNLPSTTLTKVQFGAEHGRQMGDSYIDNVVIKRALS				NA	NA	NA	NA	NA
D1-17_02347	645			hypothetical protein	ATGCATTTCGTCGACCCGTCCCGAGAAGTCCTGGCCGAAACCCTGCTGGCGGCCGGTCCCGACTCGCCCACGCTCTGCCGCGGCTGGAAAACCAGGGACCTGGCGGCGCACCTCTACCTGCGCGAACGCAAAGCCGCGGTTGGCCTTGGCCTCATCATCAAGAGACTGTCCAAGGCCTCCGACAAAGCGACTTCCCGGCTGGCTTCGAAGCTCACGACCCCTGACGAATACACCAAACTTGTGAAGGCGTTCCGCTCGGGTCCGCCGGCACTGTCGCCGATGAAGATTAAGGCGCTGGACGAAAGCTCCAACCTGATCGAGTACTTCGTCCACACCGAGGACGTCCGGCGGGCGGTGGACCGCTGGGCTCCCCGCGCACTCGACGAGGCATACTCGGAGGCACTCTGGGACGAGCTGGTCAAACGCGCCGCCATCCTGTACCGCGGAGTGGACCTCGGGATCGTCCTGGTCCGGCCCTCCGGCCCCCGGCATGTTGCCAAGCGCGCTCCCGTGTCCGTGGCCATCGTCGGCGAGCCCCAAGAACTGCTGATGCACGCCCACGGCCGTACACGCCATGCGCTCGTCACCTTCGAAGGCCAGCCGGACGCCGTGGCCCTGCTCCAGTCAGCAGAAGTCGGGCTCTAA	MHFVDPSREVLAETLLAAGPDSPTLCRGWKTRDLAAHLYLRERKAAVGLGLIIKRLSKASDKATSRLASKLTTPDEYTKLVKAFRSGPPALSPMKIKALDESSNLIEYFVHTEDVRRAVDRWAPRALDEAYSEALWDELVKRAAILYRGVDLGIVLVRPSGPRHVAKRAPVSVAIVGEPQELLMHAHGRTRHALVTFEGQPDAVALLQSAEVGL				NA	NA	NA	NA	NA
D1-17_02348	777	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGGCTGTAGCCGTACGCGTCATCCCGTGCCTGGATGTTGATGCCGGCCGCGTGGTCAAAGGCATCAACTTTGAAGGACTCCGCGACGCCGGAGATCCGGTGGAACTTGCGCACCGCTACGACAACGGCGGCGCAGACGAGCTCACCTTCCTGGATGTCACAGCATCCTCGGGCAACAGGGAAACCACCTTCGACGTGGTCCGACGCACGGCCGAGGAAGTATTCATCCCACTCACCGTAGGAGGCGGCGTCCGCGGGGTCGCCGAAGTGGACAAGCTGCTTCGCTTCGGGGCTGACAAGGCGTCGATCAACACTGCCGCTGTGGCGCGGCCGGATGTCATTGACGAAATCACCCGTCACTTTGGTTCCCAGGTGCTGGTGCTGTCCGTGGACGCACGGCGCACCCGGCCCGGTTCCGCGCCCACGGCATCGGGCTTTGAGGTCACTACCCACGGCGGCCGCCAAGGCACCGGGATCGACGCAGTTGCGTGGGCCAAGGAAGCTGCCGAGCGCGGCGTCGGGGAAATCCTGCTGAACTCAATTGACGCCGACGGCACCAAGGACGGCTTCGACCTGGAGCTGATCCGGCTGGTCCGTGCCGCCGTCAAGGTACCGATCATCGCATCCGGCGGCGCCGGCGAGCCGGCTCACTTCCCGCCCGCTGTTGAGGCCGGAGCCGACGCCGTGCTGGCCGCCTCGATCTTCCACTGGGGCCCGGACGACATGCTGGCCCAGGTCAAGAAGGCAATCCGTGAAGCGGGCTTCGAAGTCCGCTAA	MAVAVRVIPCLDVDAGRVVKGINFEGLRDAGDPVELAHRYDNGGADELTFLDVTASSGNRETTFDVVRRTAEEVFIPLTVGGGVRGVAEVDKLLRFGADKASINTAAVARPDVIDEITRHFGSQVLVLSVDARRTRPGSAPTASGFEVTTHGGRQGTGIDAVAWAKEAAERGVGEILLNSIDADGTKDGFDLELIRLVRAAVKVPIIASGGAGEPAHFPPAVEAGADAVLAASIFHWGPDDMLAQVKKAIREAGFEVR	PGPT0007095_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007095-trpE|phnA-K01657	NA	NA
D1-17_02349	861	hisG	COG0040	ATP phosphoribosyltransferase	ATGCTGCGAGTAGCCGTACCCAACAAGGGATCCCTGTCCGAAGCCGCGTCCGCCATGCTCTCCGAAGCCGGCTACCGCCAGCGCCGCGACAACCGTGAACTCGTCATGGTGGATCCGGACAATGACATCGAATTCTTCTTCCTCCGCCCCCGGGACATCGCGGTTTATGTGGGACAGGGAACGCTCGACGTCGGCATCACCGGCCGCGACCTGCTGCTGGACGCTGATGTTGAGGCGGAAGAACTGCTGCCGCTCGGTTTTGCCGCCTCCACCTTCCGCTTCGCAGGTCCCGTTGGCGACTTCGCCAAGGTCGAAGAGCTCGAGGGCAAGCGCCTCGCCACCAGCTACGACGTGCTGCTCCGCGACTACCTCGCCGAACGGGGCATCAGCGCCAAAGTGGTCCGGCTTGACGGTGCCGTCGAATCCTCGGTGCGGCTCGGCGTCGCGGACGCCATCGCCGACGTCGTGGAAACCGGCAACACCCTCAAGGCCGCCGGCATGGAAATCTTCGGCGAGCCGATTCTCAAGTCTGAAGCAGTTCTGATCCGACGCACCGGAAATGGTGGTGCCGCCAACGGCACCGCGAAAGAGATCGACGTCCTCATCCGCCGCCTGCAGGGCGTCCTTGTGGCCCGCCAGTACGTGCTGATGGACTACGACATCCGCAAGGAACTCGTGGAACAGGCCGCGGCCCTCACTCCTGGCTTGGAATCGCCCACCGTTTCCCCGCTGCGCGACTCCGAATGGGTTGCCGTCCGCTCGATGGTGCCCAAGAAGGAAACCAACCGAATCATGGACGAGCTCTACGACCTCGGCGCGCGGGCCATCCTGGTCAGCAGCATCCACGCCTGCCGCATCTAG	MLRVAVPNKGSLSEAASAMLSEAGYRQRRDNRELVMVDPDNDIEFFFLRPRDIAVYVGQGTLDVGITGRDLLLDADVEAEELLPLGFAASTFRFAGPVGDFAKVEELEGKRLATSYDVLLRDYLAERGISAKVVRLDGAVESSVRLGVADAIADVVETGNTLKAAGMEIFGEPILKSEAVLIRRTGNGGAANGTAKEIDVLIRRLQGVLVARQYVLMDYDIRKELVEQAAALTPGLESPTVSPLRDSEWVAVRSMVPKKETNRIMDELYDLGARAILVSSIHACRI	PGPT0017400_1482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017400-hisG-K00765	NA	NA
D1-17_02350	264	hisE	COG0140	Phosphoribosyl-ATP pyrophosphatase	GTGAAGAATTTCGAGACGCTGTTCGCCGAACTGAGCGAGAAGGCAGCGGCCCGCCCGGAGGGCTCCCGCACAGTCGCCGAACTGGAGTCCGGAATCCACGGCATCGGCAAGAAGATCGTCGAGGAAGCCGCGGAAGTCTGGATGGCGGCGGAGTACGAATCCGACGAGGCCGCTGCTGAGGAAATATCGCAGCTGCTGTACCACCTGCAGGTTTTGATGCTGGCCAAGGGACTCAGCCTGGAAGACGTTTACAAGCATCTGTAG	MKNFETLFAELSEKAAARPEGSRTVAELESGIHGIGKKIVEEAAEVWMAAEYESDEAAAEEISQLLYHLQVLMLAKGLSLEDVYKHL				NA	NA	NA	NA	NA
D1-17_02351	483	ribH		6,7-dimethyl-8-ribityllumazine synthase	ATGAGCGGACACGGCGCACCCCAGATCGACCTCACCACCCTTAACCCAGCCGGGACCTCCGGGCTGCGGCTGGCCATTGTGGCGGCGAGCTGGCACACCCAGATCATGGACGGACTGCTGGACGGAGCACTGCGCGCCGCCAAGGACGCAGGCATCAGCGAACCCACAGTTCTGCGCGTCCCGGGCAGCTTCGAGCTCCCCGTGGCCGCGGCGCGGCTCGCGCCGCACTTTGACGCCGTCGTCGCGCTCGGCGTCGTCATCCGCGGCGGAACGCCGCACTTCGACTACGTCTGCCAGGCGGCCACCTCCGGACTGACCGACGTCACCGTCAATACTGGCGTTCCTGTCGGATTCGGAGTGCTCACCTGCGACACCGAGCAGCAGGGCCTGGACCGGGCTGGCCTGCCCGGATCCTCCGAAGACAAGGGACACGAAGCCGTTACGGCCGCTCTGGCAACCGCCGTCGTCCTCAAGCAGTACTGA	MSGHGAPQIDLTTLNPAGTSGLRLAIVAASWHTQIMDGLLDGALRAAKDAGISEPTVLRVPGSFELPVAAARLAPHFDAVVALGVVIRGGTPHFDYVCQAATSGLTDVTVNTGVPVGFGVLTCDTEQQGLDRAGLPGSSEDKGHEAVTAALATAVVLKQY	PGPT0008605_1327	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008605-ribH|RIB4-K00794	NA	NA
D1-17_02352	708	ribA		GTP cyclohydrolase-2	ATGACGATGAGTGGATCAGCAGCAGCCGGAACCAGCACCAACGGCAGGGCGCCGCATCCGGTGAGCGGCGGGCCCGTGGTCGAGCTCCCAGGCGCTTTCGGGAACTTCGTGACCCAGGCGTGGACAGATCTCGTCACGGGTGCTGAGCACCTCGCGGTCAGCTCGCCCAACCCTCCTGCGGACGGCAAAGCCCCTCTGGTCCGGCTCCACTCCGAATGCCTCACCGGCGACGTCTTCGGCTCCTACCGCTGCGACTGCGGCGAGCAGCTCGCCTACGCCCTGGCGATGATCGAGGCCAACGGCGGAACCCTCCTGTACCTGCGGGGCCAGGAAGGCCGCGGCATCGGTTTGGCCAACAAGATCAAGGCCTACGCCCTGCAGGAAGCCGGTTTCGACACCATCGAGGCCAATGAGCAGCTGGGGCTGCCGGTCGATGCCCGGTGCTACAAGGCAGCGGCGCAGATCCTGGCGGAGATGGGGCTGCACGAGATCAGGTTGCTGAGCAACAACCCGGACAAGCAGAACAGGCTCGCCAGCGCCGGCGTCAGGGTTGTGGAAATGGTGCCCACCGAGGTGCCCTCGCGGGAACAGAACATCCGCTACCTGCAGACCAAGAAGGACCGCATGGACCACCTGCTGACCCTGGATGCCCAGGGAGCGGGTGTGCCCGGAAGCGGCGCAGACGCATTTGACCACGAACAAGACTGA	MTMSGSAAAGTSTNGRAPHPVSGGPVVELPGAFGNFVTQAWTDLVTGAEHLAVSSPNPPADGKAPLVRLHSECLTGDVFGSYRCDCGEQLAYALAMIEANGGTLLYLRGQEGRGIGLANKIKAYALQEAGFDTIEANEQLGLPVDARCYKAAAQILAEMGLHEIRLLSNNPDKQNRLASAGVRVVEMVPTEVPSREQNIRYLQTKKDRMDHLLTLDAQGAGVPGSGADAFDHEQD	PGPT0007985_695	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007985-ribA-K01497	NA	NA
D1-17_02353	705	ribBA	COG0108	Riboflavin biosynthesis protein RibBA	GTGAGCACGGCGAACCTTGACCCGTCCGCGATGGGCATGCTGACGCTCGATCCGATCGAGGAAGCAGTCCGGGCCATGGCGGCGGGACGGCCGGTCCTGGTGGTCGACAACGAGGACCGTGAGAACGAAGGCGACATCATTTTCGCCGCCCAGCACGCCACGCCTGCCCTGATGGGATGGACCATCCGCCACAGTTCCGGCGTCATTTGCGTACCGCTGGACGGCGCCCGCGCGGAAGCCCTGGACCTGCCGCCGATGGTGGAGGTCAACCAGGATTCCAAGGGAACGGCCTATACCGTCTCCTGCGATGCCGCCACCGGAGTGAGCACCGGAATCTCGGCGACGGACAGAGCACTGACGGCACGCGTCCTTGCGGATCCAGCCAGCGGTCCGGCCGTGCTGACCCGGCCCGGGCATATTTTCCCGCTCCGCGCCGTTGACGGGGGAGTGCGTGAACGGCCCGGTCACACCGAAGCGGCCGTGGACCTGTGCCGGCTCGCCGGGCTGGAGCCGGTGGGAGTGATCGCCGAGGTCGTGTACGACGACGGCGAAATGATGCGGCTTGACGGCCTGCGGGCGTTCGCTGCGGAACACGGTTGCCCTCTGGTTTCGATCGAGGATCTCGTGGCCTACCTCGACTCGATTGACCATGTATCTTCACAGGAGCTAAGTGCGGAAGCGAGCCCGGACGGAGAAAGGGAATGA	MSTANLDPSAMGMLTLDPIEEAVRAMAAGRPVLVVDNEDRENEGDIIFAAQHATPALMGWTIRHSSGVICVPLDGARAEALDLPPMVEVNQDSKGTAYTVSCDAATGVSTGISATDRALTARVLADPASGPAVLTRPGHIFPLRAVDGGVRERPGHTEAAVDLCRLAGLEPVGVIAEVVYDDGEMMRLDGLRAFAAEHGCPLVSIEDLVAYLDSIDHVSSQELSAEASPDGERE	PGPT0007990_4497	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0007990-ribBA-K14652	NA	NA
D1-17_02354	639	ribE	COG0307	Riboflavin synthase	ATGTTCACCGGAATTATTGCCGAGCAGGGGAAGGTCCTCTCCGTGGACCGGAACGGGGACACGAGCGCGACGGTGCGCCTGCACGCCCCCGGCACTGCCGAGGGCCTGCCGCTGGGTGGTTCCATCGCCGTCAACGGCGTCTGCCTCACGGCGACGGCGATTGACGGGAAGGACTTTAGTGTCGACGTCATGGGGGAGACCCTCGTCCGCAGCACCATCGGCGACCTCGCCGCGGGAGACGCCGTCAACCTGGAACGCTGTGTTCCGGCCGGCGGCCGGCTGGACGGCCATGTGGTCCAGGGGCACGTCGACGGCGTCGGCGAACTTTTGGAGCGCGAGGCCCAGGGAAACTGGGAGCGGCTACGGTTTGCCGTGCCGCCGCGGCTGGCGCGCTACATTGCCGAAAAGGGTTCCATCGCCATTGACGGCGTCTCCCTCACGGTCACCGCTGTCAGCCCGCCCCCGGAAAGCGCTCCATGGTTCGAAGTAGGACTGATCCCGACGACCCTTGCCGAAACCGGACTGGGCGCCAAGCCAGCCGGCGGCAAAGTAAACCTGGAAGTCGACGTGCTCGCCAAATACACGGAACGCCTGCTGTCCTTCAGCGGCACCGGAGCCGCATCGGAGGATCAGCTGTGA	MFTGIIAEQGKVLSVDRNGDTSATVRLHAPGTAEGLPLGGSIAVNGVCLTATAIDGKDFSVDVMGETLVRSTIGDLAAGDAVNLERCVPAGGRLDGHVVQGHVDGVGELLEREAQGNWERLRFAVPPRLARYIAEKGSIAIDGVSLTVTAVSPPPESAPWFEVGLIPTTLAETGLGAKPAGGKVNLEVDVLAKYTERLLSFSGTGAASEDQL	PGPT0008610_467	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008610-ribE|RIB5|ribC-K00793	NA	NA
D1-17_02355	1203	ribD	COG0117	Riboflavin biosynthesis protein RibD	GTGGCCGGATGCGGCGGTTACTACATGAGCACCCAGCCCGTCCACGCCTTCAGTGCCGCTGAAATTGGCGCTATGAACGCAGCCCTCGAAGCTGCATTGCACGGCCCCCGGGGCGCGAATCCCTTGGTGGGGGCCGTCGTCCTAAGTCCTGACGGAGTGCAACTGGCGACCGGCTATCACCGTGGCGCCGGAACGGCGCATGCCGAAGCTGATGCAATAGCTGAAGCGGCCAGGGCGGGGGTGGACCTCACCGGCTCCACCATGATTGTGACACTTGAACCGTGCAACCATGTGGGACGCACGGGACCCTGTGCGCAGGCCATCATTGAGGCCGGAATCACTAACGTCGTGTACGCCGTCGATGACCCCCACGATCCCGCTGCCGGCGGGGCTGCAACCCTGCGTGAGGCAGGGGTCAGCGTGCGCAGCGGACTGGCAGCGGAGCAGGCGTTGGAACTGAACCGGCGCTGGTTTGAGGCAATTGACGCCGAGCGCCCCTTCGTGACCCTGCACATCGCGCAGACGCTGGACAGCCGGATCGCCGCTGAAGACGGCACCAGCCAGTGGATTTCGTCCCCAGAGTCGCTGGCAGACAACCACGCGATCCGTCGCCGCATCGACGCCATCCTCGTCGGCACGCAAACGGTCCTGGTGGACAACCCCCGGCTCACGGCAAGGGACTCCAACGGTGATGCCACCGGCGAACAGCCGCTCAGGGCCGTCATGGGCCTCCGCGCCGTTCCGGAGGACGCCGCCGTGCATGGTGAGGACGGCAAGGTTATCCACCTGCCCACCCGTGACCCGCACGAGGCGCTGTCCCAGCTGTTTGCGGCAGGGGTCCGGCACGTCATGGTGGAGGGCGGATCCAGGATCCTGAACGCTTTCCTGTCGGAGGGCCTGGTGGATGAGCTGATTATGTATCTGGCCCCCACCCTGTTGGGATCCGGAACCTCAGCGCTCACCGGGCTCGGCATCGGCACACTCGCCGACGCCCAGCGCTGGGACTGGGACGCTGCCTCCGGCGGCGCTGTCCAGACCCTGGGCCGGGACCTGCGGCTGCATCTGCTTCCGGAAAAACCCTCCTCGCCACGGGACATTGCAGACCGACAGACAAAAAACTCCGCGCCCGCAGCGGCACAGGAACCGTCAACCGATCCACTACCAGCCCGCACCGTTGCGGGCACAGCCACGGGAGGCTACTGA	MAGCGGYYMSTQPVHAFSAAEIGAMNAALEAALHGPRGANPLVGAVVLSPDGVQLATGYHRGAGTAHAEADAIAEAARAGVDLTGSTMIVTLEPCNHVGRTGPCAQAIIEAGITNVVYAVDDPHDPAAGGAATLREAGVSVRSGLAAEQALELNRRWFEAIDAERPFVTLHIAQTLDSRIAAEDGTSQWISSPESLADNHAIRRRIDAILVGTQTVLVDNPRLTARDSNGDATGEQPLRAVMGLRAVPEDAAVHGEDGKVIHLPTRDPHEALSQLFAAGVRHVMVEGGSRILNAFLSEGLVDELIMYLAPTLLGSGTSALTGLGIGTLADAQRWDWDAASGGAVQTLGRDLRLHLLPEKPSSPRDIADRQTKNSAPAAAQEPSTDPLPARTVAGTATGGY	PGPT0008555_457	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008555-ribD-K11752	NA	NA
D1-17_02357	657	rpe	COG0036	Ribulose-phosphate 3-epimerase	ATGCCGCAGTGCTGCATCAACCCGAGCATCCTCTCTGCAGATTTCGTTAATCTTGAGGCCGAGCTGCAGCGCATCAGCAATGCCGATTCGGTCCACGTGGACGTAATGGATAACCACTTTGTTCCGAACCTGACCCTCGGGCTGCCGGTCGTCCAGCGGATCCAGGCCGTCAGCCCCGTTCCCCTCGACGCGCATTTGATGATTTCCGACGCCGACCGTTGGGCACCAGGATATGCGGACGCCGGAGTCGCGTCGGTGACATTCCATGCCGAAGCGTCCATAGCGCCGGTGAAGCTGGCGCGTGAACTTCGCGCGCGCGGGTCGAAGGCGGGCATGGCGCTGAGGCCGGCAACGGCGGTGGAACCGTATCTGGATATGCTCAGCGAACTGGACATGCTGCTGATCATGACAGTGGAACCTGGGTTCGGCGGTCAGGCCTTCCTCGATCTCACGCTTCCCAAGATCCGGCGCGCACGCGAGGCCATCGACGGCTCCGGCATCGGCGTCGCACTACAGGTGGATGGCGGTATCACCGAAGAGACCATCCTGCGTGCCGCCGAGGCCGGTGCAAACGTGTTTGTCGCAGGCTCTGCCGTCTACTGCGCTCCCGACCCTGCCGCGGCCATCGACCGGCTGCGTAAGGCCGGCTCGCTGTAG	MPQCCINPSILSADFVNLEAELQRISNADSVHVDVMDNHFVPNLTLGLPVVQRIQAVSPVPLDAHLMISDADRWAPGYADAGVASVTFHAEASIAPVKLARELRARGSKAGMALRPATAVEPYLDMLSELDMLLIMTVEPGFGGQAFLDLTLPKIRRAREAIDGSGIGVALQVDGGITEETILRAAEAGANVFVAGSAVYCAPDPAAAIDRLRKAGSL	PGPT0017425_2112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017425-rpe|cbbE-K01783	NA	NA
D1-17_02358	1572		COG0144	Putative methyltransferase	ATGAGCGAGTCCGGCAGAAGCGGCTCAGGCCGGGGCGGCCAGCGCGGTTCCGGCGCAGGCGGCGCGGATCAGCGCCGCGGCGGGGGAGGGCCCAGCCGCCGCAACGCGCAGGGCCGGGAACGCAACCGCGGCCCGCAGCGCAGCTTCACTGAGAATGCGCCGTCACAGCGCACCCGCCGCGCCGATCCCGCCCGGCTGGTTGCTTTCGAAGTGCTGCGCGCTGTCGCAGCCGAGGACGCTTACGCCAACCTCGTGCTGCCGGCAAGAATCCGGCACCATGGGCTCGACAAGCGCGACGCCGGCTTCGCCACCGAATTGAGCTACGGCGCCCTGCGCGGCCAGGGCACTTACGACGCCGTGCTGTCCCGATGCGTAGACCGGCCCCTCGAGCAGGTGGATCCGGCCATCCTTGACGCCCTGCGCATCGGCGCCCACCAGTTGCTCGCGATGCGGGTTCCCGCTCATGCGGCGCTGGACCAGACCGTGGGACTGGCGCGCGCCGTTATCGGCGCCGGTCCATCCACCCTGATCAACGCCGTGCTGCGGAAAGTCTCTGCCCACACCTTGGAGGAGTGGCTGGGAATGCTCCTCAGCGGTGAGCAGGACGGGATCAAGGTCGCCTCCGTGCGGTACGCACATCCGGAGTGGATCGTTCGGGCGTTCCGGCAGTCCCTGGTGGCCCATGGGCGGCCGGTCTCGGAGATCGACGATCTTCTCGAAGCGGACAACGCCGCCCCGGTGGTCAACCTGGTGGCCCTGCCCGGACTGGGCAGCCTGGACGAGGCCCTCGAGAACGGCGCGGCGCCAGGCCAGCTGGTCGAAGGTTCGGCGCTGTCCAGCGGAGGTGACCTGGGCCGGCTGTCCTCGGTCCGCCAAGGTACCACCCGCGTGCAGGACGTCGGTTCCCAGCTGGTCGCCCGCGCCCTTGCCGCCGTCGAGCTGGGCGATTCAGAGTCTGGCGGCGCAGGGTCCGGCGAAACCTGGCTTGATCTGTGTGCCGGACCCGGCGGCAAGGCAGCCCTCCTCGGGGCGCTTGCCCACCAGCGGGGTGCCACCCTGCTGGCCAACGAACCCGCACCGCACCGCGCGCAACTCGTCCGCCAGGCCCTGGCCGCGGTTCCCCGGGACATGTGGAAAGTCCGCACGGGAGACGGCAGGGACGTCGGCGCGGAGTACACCGAAAGCTTCGACCGGGTCCTGGTGGATGTTCCCTGCACCGGACTGGGTGCCCTGCGCCGGCGGCCGGAGTCCCGGTGGCGCCGCACCCCGAAGGACCTGGTGGATCTCGGACCGCTGCAGCGGGACCTGCTGCGGTCGGCACTGGATGCCGTAAAACCCGGCGGCGTCGTTGCGTATGTAACGTGTTCGCCGCACCCTGCGGAAACCACGGCCGTCGTCAGTGATGCCTTGAAAAAACGCGACGACCTTGAACTGCTGGACGCCGGCGAGGCGCTTGACGCTGTCAGCCTGACAGGAAATCTCCAGGCAGGCTACGAGCTCACGGCCCAGCTGTGGCCCCACCTCCACCAGACCGACGCTATGTTTTTGGCCCTGATCCGCAAAAAGGCCTGA	MSESGRSGSGRGGQRGSGAGGADQRRGGGGPSRRNAQGRERNRGPQRSFTENAPSQRTRRADPARLVAFEVLRAVAAEDAYANLVLPARIRHHGLDKRDAGFATELSYGALRGQGTYDAVLSRCVDRPLEQVDPAILDALRIGAHQLLAMRVPAHAALDQTVGLARAVIGAGPSTLINAVLRKVSAHTLEEWLGMLLSGEQDGIKVASVRYAHPEWIVRAFRQSLVAHGRPVSEIDDLLEADNAAPVVNLVALPGLGSLDEALENGAAPGQLVEGSALSSGGDLGRLSSVRQGTTRVQDVGSQLVARALAAVELGDSESGGAGSGETWLDLCAGPGGKAALLGALAHQRGATLLANEPAPHRAQLVRQALAAVPRDMWKVRTGDGRDVGAEYTESFDRVLVDVPCTGLGALRRRPESRWRRTPKDLVDLGPLQRDLLRSALDAVKPGGVVAYVTCSPHPAETTAVVSDALKKRDDLELLDAGEALDAVSLTGNLQAGYELTAQLWPHLHQTDAMFLALIRKKA				NA	NA	NA	NA	NA
D1-17_02359	921	fmt	COG0223	Methionyl-tRNA formyltransferase	ATGAGGGTTCTGTTCGCGGGAACGCCAGCGGTGGCTGTACCGTCACTCGACGCGCTGATCGAGGCCGGTTTCGACGTCGTCGCCGTCCTCACCAGGCCAGACGCGCCGACAGGCCGTAGGCGGGTTCTCACGCCGTCGCCCGTTGCCCTCCGTGCAGGCGAGCTTGGACTCGAAATCATCCACGCAACAAAGGTGGATGCCCAGGTTACGGCCCGGATCGCAGCTGCGCGCCCCGACGTTGCCGCCATCGTCGCTTACGGCGGCTTGGTGCCCCGGGAGGCATTGGACATTCCCCGCCACGGCTGGATCAACCTGCACTTCTCGCTGCTGCCTGCCTGGCGCGGCGCGGCCCCTGTGCAGCGCGCCGTCATGGCCGGGGACGACATTACCGGCGCGGTGACCTTCCAGTTGGAGGAAGGGCTCGATACCGGCCCCGTCATCGGCACCCTCACGGAGCAGGTCCGTCCCGACGATACCGCCGGAACGCTGTTGGAACGGCTGTCCCACAGCGGGTCCGTGCTGCTCGCGCAGACGCTGTCCGCCATCGACTCCGGGGCCGCGTCCCCGCAGCCCCAGCAAGGCGATATTTCCCTGGCGCCGAAGCTGACCCTCGAGGACGGGCGGATCGACTGGTCTGAACCCGCCCTCGCGATTGGCCGGCGGGCCCGCGGCGTTACCCCGGAGCCGGGTGCCTGGACCACCCTGGACGGGCAGCGGGTGAAACTCGAGCCCGTCCTGCTTCGCCCCGAGCAGTCAGCGCTGGCGCCGGGCCACGTGGCAATGGACGGAAAGCGTGTCCTGGTGGGAACGGGATCGCACCCCGTCGAGCTGGTACGGGTCCAGCCTGCCGGCAAGAAAATGATGTCCGCGGCCGACTGGGCCCGTGGACAAGCCTCCCTTGAAAGCGTGGTATTCCAATGA	MRVLFAGTPAVAVPSLDALIEAGFDVVAVLTRPDAPTGRRRVLTPSPVALRAGELGLEIIHATKVDAQVTARIAAARPDVAAIVAYGGLVPREALDIPRHGWINLHFSLLPAWRGAAPVQRAVMAGDDITGAVTFQLEEGLDTGPVIGTLTEQVRPDDTAGTLLERLSHSGSVLLAQTLSAIDSGAASPQPQQGDISLAPKLTLEDGRIDWSEPALAIGRRARGVTPEPGAWTTLDGQRVKLEPVLLRPEQSALAPGHVAMDGKRVLVGTGSHPVELVRVQPAGKKMMSAADWARGQASLESVVFQ	PGPT0008125_5196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-17_02360	633	def_3		Peptide deformylase	ATGGCAATTCTGAATATCCGTATCATCGGCGATCCCGTGCTGCGCACGGTGGCCGAGTCTGTCACGGATTTCGGGCCAGAGCTGGCCAGGCTCGTTGCCGACATGACCGAAACGATGGAGGACGTGGAAGGCGCCGGCCTGGCCGCGCCGCAGGTTGGCGTCAGTCTGCGGGTCTTCACGTACCGGATCGGCGGCGTTGAGGGGCACGTTATTAATCCTGTGCTGGAAAACAGCGAGGACTACCAGCCGGACGAAGTCGAAGGCTGCCTCTCCATCCCCGGACTTGGATTTCCGGTCCGCCGCTTCCGGGCCACCCGTGTTACCGGAGTGGACGTCCACGGCAACCCTGTTTCCGTGGACGGGGAAGGCATGTTGGCCCGGTGTTTCCAGCACGAGACAGACCACCTTGATGGCATTCTCTTCACTGACCGCCTGGAAGGGGAGGACCGTAAGGCTGCGCTCCGCTCCATCCGCAATGCCAACTATGACGCCATCACCGAGAGTACGACGGCGAAGCGCGCCAAGACTGTCGGCTCCAGTTTCGGAGGCGGCAGCTTCGGTTCCGGCAGTTTCAGCTCCGGCAACCCTGGGGCCGGCGCCTCGGGCGCGGGCAGCTTCGGCGCCGCCGGATGA	MAILNIRIIGDPVLRTVAESVTDFGPELARLVADMTETMEDVEGAGLAAPQVGVSLRVFTYRIGGVEGHVINPVLENSEDYQPDEVEGCLSIPGLGFPVRRFRATRVTGVDVHGNPVSVDGEGMLARCFQHETDHLDGILFTDRLEGEDRKAALRSIRNANYDAITESTTAKRAKTVGSSFGGGSFGSGSFSSGNPGAGASGAGSFGAAG				NA	NA	NA	NA	NA
D1-17_02361	846			hypothetical protein	ATGACTGCTCCACTCCTTGCCCACGCGACGGAACACGGCCGGATGTATGCCCGGTCCACCACAGCGGAATTCTCGGTTCCCTCCATCACTACAGTGATCGGCCAGCAGCCTCACGGCATGGACGGATGGTTTGGCTACATGGGGGCAAGTACCCTTGCCAAGGATCCGTCCCTTCCTGAGATACTCGGCAGTCCGGCCAAAGTCCGGCAGGCCGTGAACCGTGCCGCCAAGGCAGCGGAGGCTTACCGCGACGAAGCTGCCCAGCGCGGAGACCGGGTCCATACTTACTGTGAACAGGTAGCGCTGCGCGCCTTGGGCAGGCCGCACAAGATGCAGGAGACCCGTGAGGCCTTGGCAGCCAACGGTGAGGAAGCCTTCGCGGCCCGCTTCGATGAATGGTGGGAACTGTTTCGGGTGGAGCCCGTCGCTGCGGAAATCACCGTCTGGAACCAAACCGTGGGGTATGCAGGAACCCTGGATCTGGTGGCCAAAATCAACGGGCGGACCTGCCTGATCGACTACAAGACCAAGGGCACCACCCGCGACGGCCAGGTGAAGCCCCTGGACGACAAGGTGGTCATGCAGCTAGTTGCCGGCATGAAGGCCGAGGAGAGCCTGGTGGATCCCGTGGCCGGGGAATGGGAGCCGTGGCAGCACGGCGATTCCCCGGTGCTGCTGGCAGTCGCCATCGGAGAAACGGAAGTCCGGCCTGTACGGGCCAACCCGGAGGTGCTCCGCCACCACTGGTGGAAGTTCTGCGCCCTCCGCCGTGTCTGGGAGATGTCGGCGGACACCGTCAGCGCCGGACCGGCGCTGATCCCGGTGGCTCCGCCCGCGTACGCCTGA	MTAPLLAHATEHGRMYARSTTAEFSVPSITTVIGQQPHGMDGWFGYMGASTLAKDPSLPEILGSPAKVRQAVNRAAKAAEAYRDEAAQRGDRVHTYCEQVALRALGRPHKMQETREALAANGEEAFAARFDEWWELFRVEPVAAEITVWNQTVGYAGTLDLVAKINGRTCLIDYKTKGTTRDGQVKPLDDKVVMQLVAGMKAEESLVDPVAGEWEPWQHGDSPVLLAVAIGETEVRPVRANPEVLRHHWWKFCALRRVWEMSADTVSAGPALIPVAPPAYA				NA	NA	NA	NA	NA
D1-17_02368	240			hypothetical protein	GTGGGACTAATTGACGATCTAAAGGGCAAAGCTCAGGGTCTGATCCGCGGCAACGAGCAGGCCATCAAGGACGGCATCCACAAGGCTGGCGACTTTGTCGACTCGAAGACGGGCGGCAAGTACACCGGCCACATAGATAAAGTCCAGAACGGCGCTTCCACCTTCGTTGACAAAACCAACGGAAAGCCCGGTACGGCCGCGGAAGGCGACACCGCGCCGCCGGCCGACAAGGCTCCGTAA	MGLIDDLKGKAQGLIRGNEQAIKDGIHKAGDFVDSKTGGKYTGHIDKVQNGASTFVDKTNGKPGTAAEGDTAPPADKAP				NA	NA	NA	NA	NA
D1-17_02369	1035	zapE		Cell division protein ZapE	GTGCAGATTGAAAAGCTTGCCACCCGCACGCCGGCCGTGTCGGTGGATGAGCTCCTCAAAGGTTTCTACCCCTCGCCCAGGTTCGGGGGGGTGTCCTTCGCCAGCTATCGCCCCGACCCTGCCCAGCCCAGCCAGGCGGCCGCAGTGCATGCCCTTGAATCATTCGCCGGCGGCGTCGGCTCCAGCGACGGTGGCGGACTCTTCAAAAAGCTTTTCGGCAAGAAGGTCGAATCCAGGGCCGGCATCTATCTCGATGGTGGTTTCGGCGTCGGCAAGACGCATCTGCTGGCATCGCTCTGGCACGCTTCCCCCGGCCCAAAGGCCTTCGGCACGTTCGTGGAGTACACGAACCTGGTCGGCGCGCTTTCCTTCCGAAAGACCGTGGACGCGCTGAGCTCCTACAAGCTCGTGTGCATCGATGAGTTCGAGCTGGACGATCCGGGCGACACCGTGCTGATGTCCCGCCTCATGCGTGAACTGGCCGACGCAGGGGTCAAGCTGGCCGCCACGTCCAATACGCTGCCGGGTTCCCTCGGTGACGGCCGGTTTGCCGCCGTCGACTTCCAGCGTGAGATCCAGGTCCTGGCCGACCAGTTCGACGTTATCAGGATCGATGGCGAGGACTTCCGGCACCGGGGCCTGCCCGCTGCGCCGGCTCCACTGCGGAACAGCGAACTCCATAGCCACATGAAGGCGGAGTTCGACGGCCGGACGGTGGCCGAAGACGACTTCAGTACGCTCATCGCGCACCTGGCCGGGGTCCACCCCAGCCGCTACCGCAAGCTCATCGACGGCGTGGACGGTGTGGTGTGGCGCGATGTGGAAACCATCACCGAACAGGCCGTTGCCCTGCGGTTTGTGGTGCTGGCCGACCGGCTGTATGACAAGGACGTGCCGATCCTCGCGAGCGGCGTTCCGTTCGACAAGCTGTTCACTGAAGAGATGATGACCGGCGGCTACATGAAGAAGTACTTCCGGGCGGTCTCGCGACTGACCGCCCTGGCCCGGGAGGGCCAAAAGCACGAGCCGTCCTGA	MQIEKLATRTPAVSVDELLKGFYPSPRFGGVSFASYRPDPAQPSQAAAVHALESFAGGVGSSDGGGLFKKLFGKKVESRAGIYLDGGFGVGKTHLLASLWHASPGPKAFGTFVEYTNLVGALSFRKTVDALSSYKLVCIDEFELDDPGDTVLMSRLMRELADAGVKLAATSNTLPGSLGDGRFAAVDFQREIQVLADQFDVIRIDGEDFRHRGLPAAPAPLRNSELHSHMKAEFDGRTVAEDDFSTLIAHLAGVHPSRYRKLIDGVDGVVWRDVETITEQAVALRFVVLADRLYDKDVPILASGVPFDKLFTEEMMTGGYMKKYFRAVSRLTALAREGQKHEPS				NA	NA	NA	NA	NA
D1-17_02370	927	sseA	COG2897	Putative thiosulfate sulfurtransferase SseA	ATGTCCTACCCAGTTGAACAGAACGAAAAGTTCGCCGCCTACGCCCACCCCGAGCGGCTGGTATCCACGGAGTGGCTCGCCGCGGCCATCAATGACGGCTCCCTCGAGAACGGAAAGCTCGTGGTCGTGGAGTCCGATGAAGACGTCCTGCTGTACGAAACCGGACACATCCCCGGCGCCGTGAAGATCGACTGGCACACAGACCTGAACGACGAGGTCACACGCGACTACGTGCAGGGCGAAGCCTTCGCTGCCCTGGCCGCTGCAAAGGGCATTTCACGCGACAGCACCGTGGTGATCTACGGTGACAAGTCCAACTGGTGGGCAGCCTACGCACTGTGGGTCTTCACCCTCTTTGGCCACGAAGACGTCCGGCTGCTCGACGGCGGCCGCGACAAGTGGATTGCCGAAGGACGCGAGCTCACGACGGACATTCCCTCCCCCGCCCCCGGCAACTATCCCGTCGTCGAACGCAATGACGAACCCATCCGTGCTTTCAAGGAAGATGTCCTGGCCCACCTTGGCAAGCCGTTGATCGATGTCCGGTCTCCCGAGGAGTACACGGGACAGCGGACCCACATGCCTGCTTATCCGGAGGAAGGCGCTCTCCGCGGCGGCCACATTCCCACCGCCGCCTCGATTCCGTGGGCGCGCGCTGCAGCAGAGGACGGCACTTACCGCAGCCGCCCTGAGCTTGAGGCGCTGTACCTGGGGGAAGCCGGCCTGAAGGAAGGCGATGACGTGGTAGCCTACTGCCGCATCGGCGAACGTTCCAGCCACACCTGGTTCGCCCTTAAGTACCTTCTCGGGTTCGAGAGTGTCCGCAACTACGACGGCTCCTGGACGGAATGGGGCAACGCCGTTCGTGTGCCGATCGTCAAGGGCGCCGAACGCGGTTCCGTGCCGGCCGCACTCGCAGCACGGTAA	MSYPVEQNEKFAAYAHPERLVSTEWLAAAINDGSLENGKLVVVESDEDVLLYETGHIPGAVKIDWHTDLNDEVTRDYVQGEAFAALAAAKGISRDSTVVIYGDKSNWWAAYALWVFTLFGHEDVRLLDGGRDKWIAEGRELTTDIPSPAPGNYPVVERNDEPIRAFKEDVLAHLGKPLIDVRSPEEYTGQRTHMPAYPEEGALRGGHIPTAASIPWARAAAEDGTYRSRPELEALYLGEAGLKEGDDVVAYCRIGERSSHTWFALKYLLGFESVRNYDGSWTEWGNAVRVPIVKGAERGSVPAALAAR	PGPT0002045_872	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
D1-17_02371	459		COG2166	putative SufE-like protein	ATGAGTACTCAAGCACTTCCCACCGCGCTGGCGGAGATTGTCGATGACTTCCAGGCATTAAGCGAGCCGGAGAGGCTCCAGCTGTTGCTGGAGTTCTCGCGCGGCCTGCCGGACCTGCCGGAACGGCTCCAGAACCATCCGGAACTGCTGGAACAGGTTGTGGAGTGCCAGTCGCCGTTGTTCCTCACCATTGAAACGGAGAAGAACGACGGCGGCTCGCCCGCCGTCCGCCTGTTCTTCAAGGCACCTCCTGAGGCCCCCACAACGCGCGGGTTCGCGGGAGTACTGCACGAAGGGCTGGACGGCCTCACGGCCGAGGAAATTCTCGCTGTGCCCGACGACATGCCCGAGCTGCTCGGCCTGACCCGGGCCATCACGCCGCTGCGGATGCGCGGCATGACGGCAATGCTGGGGCGCATCAAGCGCAAGGTGGCGGCTTCAGCACGCTTCCAGGACTAA	MSTQALPTALAEIVDDFQALSEPERLQLLLEFSRGLPDLPERLQNHPELLEQVVECQSPLFLTIETEKNDGGSPAVRLFFKAPPEAPTTRGFAGVLHEGLDGLTAEEILAVPDDMPELLGLTRAITPLRMRGMTAMLGRIKRKVAASARFQD				NA	NA	NA	NA	NA
D1-17_02372	525	ybaK	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	ATGGCACGCAAAAACACGTCCCAGGGAACGCCTGCCACAGCCGCACTGGCTGCGGCAGGCGTTTCCTTTACCCTGCACCCGTATAACCACGACCCCTCTGCAGCCAGCTACGGACTGGAGGCCGCCGAGGTCCTGGGCATCGATCCCGCCAGGGTTTTCAAGACGCTCATGGTGGAGTTCGACGGCCGGCTCGCGGCCGGCGTCGTCCCTGTCAGCGGAAGCCTCGACCTGAAGGCGATGGCGGCGGCCCTCGGGAGCAAAAAGGCAGCCATGGCGAGCCCCGCCACCGCCGAACGGCGAACGGGATACGTGCTCGGCGGCATCTCGCCGCTGGGTCAGCGGCTTCCCTCCCCCACCGTTATCGATGACAGCGCCCTGGCACTGGACAGCGTCCTGGTCTCCGGAGGCCGCCGGGGCCTCGACATCGAGCTGGCGCCGGGGGACCTTGTCCGCCTGACAAAGGCCATCACCGCCCCGATCAGTACAGTTCGTCCCCGCTCGGTCCTGTCCTCTGCCCCGGATTGA	MARKNTSQGTPATAALAAAGVSFTLHPYNHDPSAASYGLEAAEVLGIDPARVFKTLMVEFDGRLAAGVVPVSGSLDLKAMAAALGSKKAAMASPATAERRTGYVLGGISPLGQRLPSPTVIDDSALALDSVLVSGGRRGLDIELAPGDLVRLTKAITAPISTVRPRSVLSSAPD				NA	NA	NA	NA	NA
D1-17_02373	1227			hypothetical protein	ATGAGCCTGCGGGCCAAGTGGACGCTCGGCGGAATTGTCGCAGGAGGCGCCGCTGCGGCACTGCTGGGGGCAGGGTCGTCAGCGCTGGCGCTGTATTTTGCCCGTCGGGTCCTCACCCCCGCGCGTGCGCGGGTGGCAGATCAGGAAGTGCTGGCCGTCATCAGGCAAAGCAGCGGCCTGCAGGTCATCCTGGCAGCAACGCCGGAAACGACGCAGGACGGTGTTTACAGTCTTTTTTTTGACGGCGGCAAGGGCCATGCCCGCATCGGCAGGATCATTTCCTACTCACCGGCAGAGCGCACCGTGCAGCGTAGCGTCGACGCTGTCTATCAGGGAAACCTGGAAACTGCCCGGCGCGGCTGGTGGGGCGGCGCTGTCTATCCGGATCCTTCCGCCGTCGGACTCGCCTCGGAAGAGATCGCCGTTGAGGTCGAGGGCGGAACCGCTCCTGCCTGGCTGGTACCCGCAGAGCCTGACGCCGAAACCTGGGCCGTCTTGGTCCACGGGCGTGGCGCCACCCGGCAGGAAAGCCTCCGTGCCGCCAGGCCTGTGCACGAACTTGGATTGCCTGCACTTCTTATTTCCTACCGCAACGATGGTCTTGCGCCGTCCGCGCCCGATGGCAGGTACGGCCTGGGTTCAACGGAGTGGCGCGACGTTGAGGCTGCGATCGCGTATGCCCTCGCCCAAGGCGCGAAGGAGGTCGTGCTGTTCGGCTGGTCCATGGGCGGGGCCATCTGCCTGCAGACCGCGGATCTCTCGAGATACCGGAACATCATCCGTGCCATGGTGCTCGATGCGCCGGTCATCGACTGGGTCAATGTCCTGGCGCACCACGCGGAGCTGAACCGCATCCCTTCCGCCGTGGGGCGCTATGGCCAGCTGATGATGGGCCACCGTCTCGGGCGTCGGTTGACGGGGCTCGCCGCGCCGGTGGACCTGAAATCCATGGACTGGGTGTCGCGCGCTGTCGAGCTGCGGACGCCCACGTTGATCATTCACAGCGTGGATGATGAGTACGTGCCCTACCGGCCTTCGGCGCTTCTTGCGGAGAAGAATCCGGAAATGGTCACTTTCGAGGCATTCGAGAAGGCGCGGCACACCAAGGAGTGGAATGCTGATCCCGAGCGCTGGGAGAGCCTGGTCAAGGCGTGGCTGCAAAGGCAGCTGGCGCCGCGCGTCAATCCGGGGCAGAGGACAGGACCGAGCGGGGACGAACTGTACTGA	MSLRAKWTLGGIVAGGAAAALLGAGSSALALYFARRVLTPARARVADQEVLAVIRQSSGLQVILAATPETTQDGVYSLFFDGGKGHARIGRIISYSPAERTVQRSVDAVYQGNLETARRGWWGGAVYPDPSAVGLASEEIAVEVEGGTAPAWLVPAEPDAETWAVLVHGRGATRQESLRAARPVHELGLPALLISYRNDGLAPSAPDGRYGLGSTEWRDVEAAIAYALAQGAKEVVLFGWSMGGAICLQTADLSRYRNIIRAMVLDAPVIDWVNVLAHHAELNRIPSAVGRYGQLMMGHRLGRRLTGLAAPVDLKSMDWVSRAVELRTPTLIIHSVDDEYVPYRPSALLAEKNPEMVTFEAFEKARHTKEWNADPERWESLVKAWLQRQLAPRVNPGQRTGPSGDELY				NA	NA	NA	NA	NA
D1-17_02374	492			hypothetical protein	ATGAGCGATCCCATCGTCATTCTCACAGAAGAGCCGCTTGGTGCGGACGACCGTGTCAACATCGAACGCCTGGTGAACGGGGGTGATACGCCTTTGGTCGTAGTGGTCCCTGCCAACACTGAGCGCCATCTGCTGGTGGACTTCCTCGAGAACCTCTCGATGCTGGACATCGCCAAGGCCTTCCGCGAACTGACCTCACATGCCCCGGACCCGGAAACACAGCGTGCCGCGGCCGCGGAAACCCTGTCCGTATCGCTCCGTGCCCTCGAGGGGCTCGGCGGCGGCGTTACAGGTGAAGTGGTGGACGGCGATGCCGTGAACGGCCTCGTGGCGAAGGTGAAGGAGCTCGGCGCTGCACAGGCCGTCGTCATCACCCGTCCGCACGCGGTGGCAGACACCCTCCATACCGACTGGGCCAACAAGGCCCAGGACCGGCTGGGCCTCCCCGTGCTGCACCTGTATGCCGGGTCGGGATTTATCGGCGACTCGTAA	MSDPIVILTEEPLGADDRVNIERLVNGGDTPLVVVVPANTERHLLVDFLENLSMLDIAKAFRELTSHAPDPETQRAAAAETLSVSLRALEGLGGGVTGEVVDGDAVNGLVAKVKELGAAQAVVITRPHAVADTLHTDWANKAQDRLGLPVLHLYAGSGFIGDS				NA	NA	NA	NA	NA
D1-17_02375	432	msrB	COG0229	Peptide methionine sulfoxide reductase MsrB	GTGCAGGTTGTCCGGACCGAAGACGAATGGCGCCGCGAACTCACCCCCGAGGAATTCCATGTGCTGCGCAAGGCAGGCACGGAACGTCCCTATACGGGCGAGTACTGGGATACACATACGGCGGGCGTATACCAGTGCAGGGCGTGCGGCGCCGAACTATTTACGAGCAGTGAGAAGTTCGATTCCCATTGCGGCTGGCCATCTTTCTGGGCCCCTCTCGCCGAGGGGCGGGTCCGCTATATCCACGACCGCACCCTCGGCATGGACCGCATCGAGGTGCGGTGCTCCGCCTGCGATTCCCACCTGGGCCACGTCTTCGAAGGGGAAGGCTATGGAACGCCCACGGACCAGCGCTACTGCATTAACTCGATTTCGCTGAAGCTGGTGCCCGCAACGGACGCAGAGAGCAGCGCGCCCCAAAGTGGCTCCTGA	MQVVRTEDEWRRELTPEEFHVLRKAGTERPYTGEYWDTHTAGVYQCRACGAELFTSSEKFDSHCGWPSFWAPLAEGRVRYIHDRTLGMDRIEVRCSACDSHLGHVFEGEGYGTPTDQRYCINSISLKLVPATDAESSAPQSGS	PGPT0013070_949	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
D1-17_02376	1407			hypothetical protein	ATGACGATCACAGCTACCGCAACCCCCGTGAGGGTCACCGCAAATCACCCGGAGTGGCAACGGCTCAAGACAGCCGCGACGGGCCTCCGCGGCCTGCAGATCCAGGACGGCTCAGTGCCTGATCCCGCAGACCACCCGGCTGCACGCGAGCATGTTCTCGCGATCATCCACGCCGTGGCAGCCCTGGCTCCGTCCTTCCCGCACGACGCCCGTTACCTTGAACTCCTCGGCAGCGACTTCGCACGATGGATCACGTCCGGCTTCGGAGTCCCGGACTTCCTGGACTCCCTCCTCGCGTTCCAGCCCCAGCAGCACCGCGAACACGGACTCCAGCATCTTGTGGTCTTCCCCATGTACACGCAGAACGGAAGCACCAGCCGCCTGGTTGAGGCCGTGCTGATTGACGTGGTCTGGCCCGAATTCATCGCCGGACTGGAAGAGGGGGACTACTCCAACAGGCTCTTCGTGCCCATTCGCTTCCTTGACTTCACTCCGGGGTACGACACGAACTCGGCCGTGCTTTTCCCGGAAACGGTCGCCGTGCGCGAGACCCCCAAATTCACCTGGGGCGCCATCTTCGCCGACCGTGAAGCGGCCCGGTTCCGGCGGGTCCTTGCCGCCGCCGCCGACATCACTTCCCTCGAATTGCCCGCGGCGGCAGCCCAGTTCCTTGAGGATCAGAAACTCACCGAAGAAACTTTTGTGATGTGGGACCTGATCCACGACCGGACACACATGCGCGGTGACTTGCCCTTCGACCCCTTCATGATCAAGCAGCGCATGCCGTTCTTCCTGTATTCCCTCGAAGAACTCCGCTGCGATCTCACGGCCTTCAGGGAATCCGTGCGGATCGAAAAGGACGAAAACGCCTCCCCCGAGGCGCGCCGGCACGCAAAGCTCGTCCAGTACGCCGTAATTTTCGACCGCATCTTCCGCTTCGCCATCACCGGGAACCGCGTGCGCAACTACGACGGCCTGGGCGGCCAACTGCTCTTTGCCTGGCTGCACCAGCACAGGGTGCTGCACTGGACCGACAGCCGGCTCAGCATTGACTGGGACGAGGTCGCCGGCGTCGTCATCGAACTCGGCGCACACATTGAAGAGCTCTACTGGCGCTCTATCGACCGGCCCAAGACGGCCCACTGGCTGGCCGCCTATGAGCTCATCTCCGGAACGCTCACACCGAATCCCGCGTCCGTGTGGGCCAAGGGTCCCGATGCCCTGCCCCTCGACGGACCACCGCGGGGGCTCACGGACCAGGTACTGGACGACGAGTTCCCGCTCTCCATGTTCTACGAGGCGCTGGAGAAGAAGATGCGGCCCGTGATCGAGTCGACAGCCGGCATTACGGGAGCGACCGACCCGTCCAACCCCGCTCCCGTAACAACGGCGATGACTGCCCAATGA	MTITATATPVRVTANHPEWQRLKTAATGLRGLQIQDGSVPDPADHPAAREHVLAIIHAVAALAPSFPHDARYLELLGSDFARWITSGFGVPDFLDSLLAFQPQQHREHGLQHLVVFPMYTQNGSTSRLVEAVLIDVVWPEFIAGLEEGDYSNRLFVPIRFLDFTPGYDTNSAVLFPETVAVRETPKFTWGAIFADREAARFRRVLAAAADITSLELPAAAAQFLEDQKLTEETFVMWDLIHDRTHMRGDLPFDPFMIKQRMPFFLYSLEELRCDLTAFRESVRIEKDENASPEARRHAKLVQYAVIFDRIFRFAITGNRVRNYDGLGGQLLFAWLHQHRVLHWTDSRLSIDWDEVAGVVIELGAHIEELYWRSIDRPKTAHWLAAYELISGTLTPNPASVWAKGPDALPLDGPPRGLTDQVLDDEFPLSMFYEALEKKMRPVIESTAGITGATDPSNPAPVTTAMTAQ				NA	NA	NA	NA	NA
D1-17_02377	720			hypothetical protein	ATGAGTGAGGGCACCATCAAGGTACTGGTTGCCGGGGGCAGCAGCGCGTCGGGCATTGCCGTCGCGCGCGCCCTGGCCCAGGCCGGCTGCACTGTTTATACAGTGGGATCGGACCCCGACAGGATCGCGGCCGCGGCAGCGCAGGCCGGCCCGGGGGTGACGCCACTCACCTGCGACCTGGCCAGCCTGCCCGCTGTGCGGCAGCTCTACGGGGAGCTCTCCCCCACGGCGGGCCGGATCGACGGCGTGATCCACCTCGTGGGCGGCTGGCGGGGGGCGCAGGGTATCGCCGACCAGCGCGACGAAGACTGGAATTTCCTCGAGAGCAGTTCCGTCACGACGCTTCGCAATGTCACCCGCGTTTTCTACGGAGACCTAGCGGCATCCCCTAGCGGCCGCTTCGCCATGGTGTCATCGACGGCGGTAACGGCACCCTCCGCTGCCATTGCCAGCTACGTGGCGGCCAAGGCCGCTGCAGAAACCTGGACCATGGCCGTGGCGGACGGCTTCCGGCGGGAAGCGGGCGAAGCGGCGGAAGAACACAGCGCCGCCGTTGTCCTCGTGGTCAAAGCACTCGTGGATGCCGCCATGCGAAGCCGTCACCCCGAACGAAGTTTCCCCGGCTACACGGACGTCGAAGACCTGGCGGCCGCCGTCGTCGGGCTGTTCGGCAAACCCGCCGCTGAACTGAACGGACAGCGGATCCTGCTCACCCAGTGA	MSEGTIKVLVAGGSSASGIAVARALAQAGCTVYTVGSDPDRIAAAAAQAGPGVTPLTCDLASLPAVRQLYGELSPTAGRIDGVIHLVGGWRGAQGIADQRDEDWNFLESSSVTTLRNVTRVFYGDLAASPSGRFAMVSSTAVTAPSAAIASYVAAKAAAETWTMAVADGFRREAGEAAEEHSAAVVLVVKALVDAAMRSRHPERSFPGYTDVEDLAAAVVGLFGKPAAELNGQRILLTQ	PGPT0003180_22471	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_02378	1119	ltaE		Low specificity L-threonine aldolase	ATGACAACCACTATTGAGGCGTCCGGCGCCATGTCCCGGCTCCACGACCCGTCCGTCCGGGGCTTCGCCTCGGACAACTACTCCGGCGTGCATCCCGAAGTGCTGGCCGCTCTGGCGGCCGCCAATGAAGGCCACCAGGTGTCCTACGGCGAGGACGACTACACCGCCCGGCTGCAGGATTTGATGGAGCAGCACTTCGGCGAGGGCATCCAGTGTTTCCCCGTCTTCAACGGGACCGGCGCCAACGTGCTGTCGCTGCAGTCCCTGCTGCCGCGCTGGGGTGCGGTGGTCTGCGCGTCGACAGCGCACATCAATATGGATGAGAACGGCGCGCCGGAGCGCATTGGCGGCATCAAGCTGCTGCAGGTGCCCACCCCGGACGGCAAGCTGACTCCCGAACTGATTGACCGCGAGGCCTGGGGCTGGGGGGACGAGCACCGCGCCCAGCCGCTTGCCGTTTCCATTACCCAGACCACGGAACTCGGAACCTGCTATACGCCGGAAGAAGTGCGCGCGATTGCCCGGCATGTCCATGCCAAGGGCATGAAGCTGCACATGGACGGCGCCCGGCTGGCGAACGCTGCCGCGCACCTTGGCGTTCCATTGCGGGCATTCACGCGCGACGCCGGCGTGGACATTCTGTCCTTCGGCGGCACCAAGAACGGGCTGCTGTTCGGTGAAGTGGTGGTGGCGCTGAACCCGGAGGCCGCCCACGGCCTCCTGTTCCTGCGCAAGATGAACATGCAGCTGGCGTCGAAGATGCGCTTCATGTCCGCCCAGTTCATTGCGCTGCTCGAGGGCGACCTGTGGCTGCGCTCGGCCGCGCACGCCAACGCCATGGCTGCCAGGCTGAGGCAGGCGGTGGACGGGATCGACGGCGTGGTTCCTACGCAGAAAACCGAGTCGAATGGCGTTTTTGCCATCCTGCCGGCGGGTGTGGCTGACAGGCTCCGCACGTCCTTCCGGTTTTATGACTGGAACGAAGCCCTCGGTGAGGTCCGCTGGATGTGCTCCTTCGACACCAGCGAGGAAGACGTGGATGCCTTCGCGGAAGCCATCCGGCGGGAGATGTCCGCGCACACTGCTTCCCCCGAGCCCGATGAGACGGGCAGGGAATGA	MTTTIEASGAMSRLHDPSVRGFASDNYSGVHPEVLAALAAANEGHQVSYGEDDYTARLQDLMEQHFGEGIQCFPVFNGTGANVLSLQSLLPRWGAVVCASTAHINMDENGAPERIGGIKLLQVPTPDGKLTPELIDREAWGWGDEHRAQPLAVSITQTTELGTCYTPEEVRAIARHVHAKGMKLHMDGARLANAAAHLGVPLRAFTRDAGVDILSFGGTKNGLLFGEVVVALNPEAAHGLLFLRKMNMQLASKMRFMSAQFIALLEGDLWLRSAAHANAMAARLRQAVDGIDGVVPTQKTESNGVFAILPAGVADRLRTSFRFYDWNEALGEVRWMCSFDTSEEDVDAFAEAIRREMSAHTASPEPDETGRE	PGPT0020465_476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
D1-17_02379	654			hypothetical protein	GTGAACGCACTTGCCCAGGTTCCCGCGGATTTTCTCTACGCTTTGGGAACACTCCGGAAAGCACGATGCCGCGGCGAACTGCGCCTGGATGAGATCCCGGCACCCTCCCGGCTCGCGCCGTTCGCCGTTGCCCTCGGCGCGGAGGTCATCGCCTCCGCAACCCGGAACAGCGAATCTTTTGCTGTCCATGGACCTGCGGCGATGGCCCTGGCACGCTCCTCCGCTGCCAGCGACGACGACGGCGATGAACTCGCCACCGGCAGGTTCATCCTGCTGCACGACCCCGATGGCTCGGCCGTCTGGGACGGTGAATTCCGGATTGTGACGTATATCCGGGCACAGCTTGATGCCGAGATGGGCAACGACGAAATGCTCGGTTCCGTCGCCTGGACCTGGCTCGTGGAAGCCCTCGAGACGCACCATGCGCCCTACCGGGCCGCCGGAGGAACAGCCACCCGTGTGCTCTCGGAAAGCTTCGGCACACTGTCTGACCGGCCGGGCTCGATCGACATTGAACTCCGCGCTTCATGGACCCCGGCAAGCCCGGACGTGCAGGCGCATCTGGAGGCCTGGTCCGATATGGTGTGCACGTTCGCAGGACTGCCGCCGCTGCCTGACGGCGTCTCCGCACTGCCCCGCAGGCGCAGGAACTAG	MNALAQVPADFLYALGTLRKARCRGELRLDEIPAPSRLAPFAVALGAEVIASATRNSESFAVHGPAAMALARSSAASDDDGDELATGRFILLHDPDGSAVWDGEFRIVTYIRAQLDAEMGNDEMLGSVAWTWLVEALETHHAPYRAAGGTATRVLSESFGTLSDRPGSIDIELRASWTPASPDVQAHLEAWSDMVCTFAGLPPLPDGVSALPRRRRN				NA	NA	NA	NA	NA
D1-17_02380	1323	rnd		Ribonuclease D	ATGACCCCGCAAAATCCGGAAAACACCACAGCCGGCGCTCCGGCTGCTGAAACCGCACCCCACATCTCCGTAGAGGGCTTTGACAGCCACGTCCCCGTGGTCATTGACCTCGATGCCCCCCGCGACGGCGTGCCCCTGGTCATTGAAACCCAGTCCGGGCTGGAGCGCTGCGCGGCAGCCATCGCCGCCGGAACGGGTCCAGCGGGAGTGGACGCGGAACGCGCGTCTGGTTTCCGGTACGGCCAGCGGGCTTTCCTGGTGCAGATCCGCCGCGAGGGCTCGGGCACGTGGCTCATCGATCCGGAACCTTTTGAGGACCTGAAGATCATCAACGACGCGCTGCGGGGCGTCGAATGGATTCTGCACGCTGCGAGCCAGGACCTCCCCTGCCTCTCCGAAATTGGCATGTGGCCGGACAAACTCTTCGACACGGAACTGGCCGCGCGTCTGGCAGGATTGCCTCGCGTGGGGCTCGCGGCGGTCATCGAGCAACTCCTCGGTTTTGGCCTGGCGAAGGAGCATTCAGCCGCCGACTGGTCCACGCGGCCGCTGCCCGAACCCTGGCTCCGCTACGCCGCCCTCGATGTGGAAGTCCTCACCGAGCTGCGTGAGGAACTCATTGAGCTGCTCGAAGCGGACGGCAAACTCGAATTCGCGGAGCAGGAATTTGCGGCCATCCTCGCGGCCGGCCTGGCGCCGCCGCGCGTCGATCCCTGGCGTAAGACTTCGGGGTTACATCAGATCCGGGACCGGCGCCAGCTGGCCGCAGTCCGGGAGATGTGGCTGGAACGCGACGCCCTGGCCCAGAAACGCGACGTAGCGCCCGGCCGGCTCATTCCTGATTCCGCCCTGGTAGCAGCCGCGAAGGCGATGCCAACGACGGTCCCGCAGCTCCTGGGCACCAAAGGATTCCATGGACGGGCGGCCCAGCGCGAGGCTCCCCGCTGGCTCCGGTGCATTGCTGCTGCAAGGGCACTCGAAGACCTCCCGCCGCTGCACCTTCCCACGAACGCGCCTCCGCCGCCCCGCGTGTGGGCGGACCGGGACCTGCCCGCCGCGGAGAGGCTTTCCACTGCACGCCCCCTGCTGCAGGCGAAGGCCGAGGAGCTGAACCTGCCCCTCGAGAACCTGCTGACGCCCGACTACCTGCGCCGGATCGCATGGCGTCCGCCTGCCGAAATTGATGCAGGGTCCGTGGCCGAGGAGCTTCGCGGGCTCGGTGCCAGACCCTGGCAGGTGGACATCGTGGCGCCGCTGATCACTGAAGCCTTCCTCAATCCCCAGCCCCTGCCGCCGAAGGAATCCAGGGAACCGAACGCCTGA	MTPQNPENTTAGAPAAETAPHISVEGFDSHVPVVIDLDAPRDGVPLVIETQSGLERCAAAIAAGTGPAGVDAERASGFRYGQRAFLVQIRREGSGTWLIDPEPFEDLKIINDALRGVEWILHAASQDLPCLSEIGMWPDKLFDTELAARLAGLPRVGLAAVIEQLLGFGLAKEHSAADWSTRPLPEPWLRYAALDVEVLTELREELIELLEADGKLEFAEQEFAAILAAGLAPPRVDPWRKTSGLHQIRDRRQLAAVREMWLERDALAQKRDVAPGRLIPDSALVAAAKAMPTTVPQLLGTKGFHGRAAQREAPRWLRCIAAARALEDLPPLHLPTNAPPPPRVWADRDLPAAERLSTARPLLQAKAEELNLPLENLLTPDYLRRIAWRPPAEIDAGSVAEELRGLGARPWQVDIVAPLITEAFLNPQPLPPKESREPNA				NA	NA	NA	NA	NA
D1-17_02381	2154	fadB		Fatty acid oxidation complex subunit alpha	ATGAGCGCCGCCGAATTCAGCAAGCTTGCCGAGCTGTTCCCCGACGAGACCGTTACGCACTCCTACGTGCAGGATGTGCAACTGCCCACGGTGGGCGGATCAGTCGGAGGCACGTTTGCGCTCCTCACGCTCGATAACGGCCTCGACCCGTCCAAACCCACCACCCTGGGACCCAATACCCTGATGGAACTCGGTGCGGTGCTGGAAGGACTCCGGCAACGCGCGGCTGACGGAGAAATCGTTGGGGTCGGCGTCACGGGCAAGCCCAACTTCCTGGTGGCGGGAGCCGACCTGTCGGCCGTCAAAAGGCTCAACCGCCGCGAGCACGGCTTGTGGATGGCGCAGCTGGGACACGAGGTTTACGGCACGCTCGGGAACCTCGGTGTTCCCAGCTTCGCATTCATCAACGGCGTGGCGCTGGGCGGCGGGCTGGAAATAGCCTTGCAGTCCACCTACCGCACCGTCTCCTCAGCTGCCGGCGCGCTGGCACTTCCGGAAGCCCTTCTCGGTCTGGTCCCCGGATGGGGCGGGGTCTACCTGCTGCCGAGGCTCATCGGGCCGGAGAACGCGGTGCGGGTGATGGTCGAGAACCCGCTCAGCAACAACCGGACGCTCTCAGGCCCGGAAGCGTACGAGGTCGGCATTGCCGATGCGCTGTTTGAGCCGGCCGGCTTCCTCGAGGAGTCGCTGTCGTGGGCCGCCAAGGTCATCGCCGGCGAAGTCACACCGGGCCGGCAGAACGCGGTCGACCCTTCTGACCCGGACGTGGCAGCGCGCTGGGCCCGTGCGGTGTCCGGCGGACGCGCCTTCGTGGAAACCAAGACCTCCAACGCAGCGCCGGCCCCTGCCCGGGTGCTGGACATTATGGAGGCAAACCGGACGATGTCCCGGACCGAATCCGCAGCCCTCGAGTGTGAAACGCTGGCCGGGCTCATGCAGACTAATGAGTTCCGCGCCACGGTCTATGCGTTCCTGGACCTCGTGCAGAAACGCTCCAAGCGACCTGCCGGAGCGCCGGATCGCGCGCTTGCCCGCCCTGTGACCAAGGTCGGCGTGGTGGGTGCCGGCCTAATGGCCAGCCAGCTCGCCCTCCTGTTCGCACGCCAGCTCAAGGTACCGGTCGTCATGACCGATATTGATCAGAGCCGCGTTGACAAGGGCGTGGGCTACGTCCATGCGGAAGTGGAGAAGCTGCTGGGCAAGAAGAAGATCAGCCAGGAAGCGGCGGACCGCACAAAGGCCCTTGTGACCGGTTCTGTGTCCAAGGACGGGTTCGGCGATGCCGACTTCGTCATCGAGGCGGTCTTTGAGGAATTGAACGTCAAGAAGCAGGTGTTCGCGGACCTGGAGGCCGTGGTCTCCCCCGACTGCATCCTGGCCACGAACACGTCGTCGCTGTCGGTTACGGCCATGGCGGCCGGCCTCCAGCACCCGGAGCGGTTGGTCGGCTTCCACTTCTTTAACCCGGTGGCGGTTATGCCGCTCGTGGAGATTGTGAGGGCACGCAGAACCGACGACGCTGTGCTGGCGACCGCCTTTGAGCTGGCCAAGGCTCTAAAGAAATCCGCAGTCCTAATAAAGGACGCCCCGGCGTTCGTAGTCAACCGCGTCCTTCTGCGGCTGATGGGCGAAGTGATTGCTGCCTTCGACGAGGGCACGCCCGCTGAGGTCGCGGACAACGCCCTGCGCCCGATGGGTCTGCCGATGACCCCGTTTACACTGGCGGCCATGGTGGGACTGCCTGTGGCGCAGCACGTGCAGGAGTCGCTGCACGAGGCCTTCGGTGAACGGTTCCGGGTGTCGCGGAACCTGCAGAAGCTGATTGAGAACGGGGTGAAGTCTTTCTGGGCCCCGGCTGCCGGCGGCGGCCAGGAGATTCCGCAGTCAACACTGGCCCTGCTGTCCTTCGGTTCCTCGCCGTCCACTGGCGAGGAGGTTCTCCGGCGGATTCAGGACGCACTCGCCGAGGAGATCGGCCTGATGCTCGACGAAGGTGTGGTGGCCGGGCCCGAGGACATCGATCTGTGCATGATCCTGGGCGCGGGCTGGCCGCTGTTCCTCGGCGGCATTACCCCGTACCTGGACCGAGTGGGAGCGTCTGAGCGGGTCAACGGCAAGCGGTTCCTTCCACCGGGAGTGGCCTCCCGGGCCTGA	MSAAEFSKLAELFPDETVTHSYVQDVQLPTVGGSVGGTFALLTLDNGLDPSKPTTLGPNTLMELGAVLEGLRQRAADGEIVGVGVTGKPNFLVAGADLSAVKRLNRREHGLWMAQLGHEVYGTLGNLGVPSFAFINGVALGGGLEIALQSTYRTVSSAAGALALPEALLGLVPGWGGVYLLPRLIGPENAVRVMVENPLSNNRTLSGPEAYEVGIADALFEPAGFLEESLSWAAKVIAGEVTPGRQNAVDPSDPDVAARWARAVSGGRAFVETKTSNAAPAPARVLDIMEANRTMSRTESAALECETLAGLMQTNEFRATVYAFLDLVQKRSKRPAGAPDRALARPVTKVGVVGAGLMASQLALLFARQLKVPVVMTDIDQSRVDKGVGYVHAEVEKLLGKKKISQEAADRTKALVTGSVSKDGFGDADFVIEAVFEELNVKKQVFADLEAVVSPDCILATNTSSLSVTAMAAGLQHPERLVGFHFFNPVAVMPLVEIVRARRTDDAVLATAFELAKALKKSAVLIKDAPAFVVNRVLLRLMGEVIAAFDEGTPAEVADNALRPMGLPMTPFTLAAMVGLPVAQHVQESLHEAFGERFRVSRNLQKLIENGVKSFWAPAAGGGQEIPQSTLALLSFGSSPSTGEEVLRRIQDALAEEIGLMLDEGVVAGPEDIDLCMILGAGWPLFLGGITPYLDRVGASERVNGKRFLPPGVASRA				NA	NA	NA	NA	NA
D1-17_02382	273			hypothetical protein	GTGGCGTTTGATGTGCAGCAGCGCGACGCTCAGGCTGAATCCGGGATACTGAAGGATGAGCTGGGCAAGGGCCTGGGGGTGCAGGTGGCGTTGGCGCGGCGGGAGTCGCCGAACCGCGGCGGCCGGCTGCCGGGCCTGGCTAAAGCCCTGGTGACGGAGATGCCGCACACCCTCGCTGCCCTGCAGAGCGGTGAGCTCAATGAGTGGCGGGCCACGCTGCTGGTGGCCGGGCGGTGGGTGAGCCTGCGTCCGGGGCAGGAGTCCATGACGTAA	MAFDVQQRDAQAESGILKDELGKGLGVQVALARRESPNRGGRLPGLAKALVTEMPHTLAALQSGELNEWRATLLVAGRWVSLRPGQESMT				NA	NA	NA	NA	NA
D1-17_02383	792	otnI	COG3622	2-oxo-tetronate isomerase	ATGAGTTTCCGTCTGGCGGTCTGCGCTGAAATGGTCTACGGCGCGCTGCCGCTGATCGACCGTGTCCGCAGAATCCATGACCAGGGCTTCGAAGTGGAACTCTGGGACACCCGGGGCCGCGATACTGCTGCACTTGCCGCCACCGGGGCACGCTTCTCGTCGATGAGCGGCTACTTCGGCGGCAGCCTCATCGATCCCGGGAGCGCCGATGAAGTGGTCGCGTCCGCCGAGAAGCTCATTCCGACTGCTCTGGAGCTTGGAGTCGAGCGCATGGTGGTCCACCCGGCCGAGCTCGGTGAGGGCGGAGTAGCAGTCCGGCCGGTACACCGTGCCACTGGCCAAATGTGGCTGACCGGCCTGCGCACCCTCGAGCGCCTTGCGGTTTTGGGCGAAAAGCACGGCGTGACCTTCGCCCTCGAAAATCTGAACACCATCAGGGATCATCCGGGGATACCGCTGGCACGGGCCAAGGACACGTTGGCCCTTGTCGCGGCAGTCAACCACCCGAACGTGAAGATGATGCTGGATCTCTACCACGCGCAGATTGGGGAGGGGAACCTGATTGAGCTGGTCCGGGCAGCCCTTCCCAGCATCGGCGAGGTGCAGGTGGCTGACGTTCCAGGCCGGTTCGAACCCGGAACAGGTGAGGTTAATTACCGAGCCGTTGCTTCGGCCCTCGCGCAGACAGGGTACGAAGGTGTTGTGGGTCTGGAGGCCGGGGCCCTCGGCGGGCCAGGGATGGAAGCAGGGGACGCCGCCCTCGCTGCATTCCGTTCGGCCTTTGAGGTCTGA	MSFRLAVCAEMVYGALPLIDRVRRIHDQGFEVELWDTRGRDTAALAATGARFSSMSGYFGGSLIDPGSADEVVASAEKLIPTALELGVERMVVHPAELGEGGVAVRPVHRATGQMWLTGLRTLERLAVLGEKHGVTFALENLNTIRDHPGIPLARAKDTLALVAAVNHPNVKMMLDLYHAQIGEGNLIELVRAALPSIGEVQVADVPGRFEPGTGEVNYRAVASALAQTGYEGVVGLEAGALGGPGMEAGDAALAAFRSAFEV				NA	NA	NA	NA	NA
D1-17_02384	1143	iolG_2	COG0673	Myo-inositol 2-dehydrogenase	ATGACTTACCTTCAGCATCCGGTCAGCGCTGACCGGCCAGCCCGCATTGCTTTGATCGGCGCGGGCTGGATCGGCGGCTTCCATGCGGAGTCCGTCGCCCGCCGTATCCCCAATGCGCGCCTGGAAGCCATTGCCGATCCCGCGCTGCCTGCCGTAGAAGCCCTGGCCGGGCGGCTGGGAGTCGCCAAAATCAGCACTGACCCCGCCGACGTACTCTCAGATCCCGACGTCGATGCCGTGCTGATCGCTGCGCCCGCACGTTTTCACTCGGAACTGATCGCGGCGGCTGCACGCGCTGGAAAGGACGTCTTCTGTGAAAAGCCCGGAGGACGAACCGTCGAGGAGCTGGACGGGGCGATGGAGGCAGCCGAGAACGCCGGGGTCATCGTGCAGTTCGGCTTCAACCGGCGCTTTGCGACGGACTTTGCCGCTGCACGGAAACTGATCGACGACGGCGTGGTGGGGGTTCCCCAGCTGCTTCGGTCGCTGACCCGCGACCCCGGAACAGCAGCCGGCATTGCCAACCCTGAACGCATCCCGCCGCGCACCATCTTCCTGGAAACGCTGATTCATGACTTTGACACGCTCAACTGGCTCAATCCCGGTGCTGTTCCGGTCCGCGTGCATGCTGTCGCTGACGCCCTTGTGGCGCCGGCAGCGAAGGCTGGCGGACTTCTCGATACAGCTGTTGTGACCGTGACCTACAGCAACGGCGCCATCGCCGTTGCCGAGGCAAACTTCAACGCGCTGTACGGCTATGACGTGCGCGGGGAAGTATTCGGCTCGGCGGGCATGGTGACCGCGGGCGGCCCCCAAACCTCGGGAGCGGTGAGCTACACCGAAGCCGGGATCAGCTCAGCCACTGTACGGCTGAACGTGGATCTCTTCCACGACGCCTACACAGCGGAAGTGGCCCAGTTCGCAGACACCGTCATTGCACGCCGTGACGGTGCCGGCGCTTCCGTAACATCGGGCCCGGGTTGGACGGATGCCCGCAACGCCCTCGCTGTTGCGTTGGCAGCGGCAGAGTCAGCCGAAACAGGTCTGGCCGTAGACGTAGCCACAATCGCCCAACTGCGGGCTGCCGAGCCTGAACTGGGGGCGGCGCAATCTGAACGGCAGCTGGCAGGAGACATGGCATGA	MTYLQHPVSADRPARIALIGAGWIGGFHAESVARRIPNARLEAIADPALPAVEALAGRLGVAKISTDPADVLSDPDVDAVLIAAPARFHSELIAAAARAGKDVFCEKPGGRTVEELDGAMEAAENAGVIVQFGFNRRFATDFAAARKLIDDGVVGVPQLLRSLTRDPGTAAGIANPERIPPRTIFLETLIHDFDTLNWLNPGAVPVRVHAVADALVAPAAKAGGLLDTAVVTVTYSNGAIAVAEANFNALYGYDVRGEVFGSAGMVTAGGPQTSGAVSYTEAGISSATVRLNVDLFHDAYTAEVAQFADTVIARRDGAGASVTSGPGWTDARNALAVALAAAESAETGLAVDVATIAQLRAAEPELGAAQSERQLAGDMA				NA	NA	NA	NA	NA
D1-17_02385	1002	ccpA_3	COG1609	Catabolite control protein A	ATGCCCGAACAGCAACGCCGGCCCACCATGGTGGACGTGGCCCAAGCGGCCGGCGTTTCCCGCGCCCTGGTCTCCATCGTCATGCGGGGAGCCCCGGGTGCGTCGGAGCCCACCAGGCAAAAAGTCCTGGAGGCAGCACGCACGCTCGGCTACCGGCCCGACAGCCGGGCCCGCCTGCTGCGCAGCAGCCGCACCAGGCTCCTGGGGGTGAGCTTCTTCAGCGCCGAGGCCTTCCATGCCGAAATCGTGGACGCCGCCTATGCGGAGGCAGCCGCGTGCGGATACGAGATCGCCTTGAGTGCGGTGGGCAGCGGCCGCCCGGAGGCGCGGGCCATCGAATCGCTCCTGGATTTCGGTTCGGAGGCGCTGATCATGGTTTCCCCCACACTCAGCGAAAGGGAGCTGGCCGGGTATGCCAGCAACGTTCCGGTGGTCAGCCTCCTGCGGAATGACGTGGGCGACCGCGTGGACTCAATCAGCAGCGACGACAGTGCCGGGATCAGGTTGGGGGTGGAGCACCTGGCCGGCCTCGGGCACCGCAACATCGTCCATGTCGACGGCGGTGCGGCCGTTTCCGCCAGCCAACGCCGCGATGCTTTCCGGGCTGAAATGGAGCGGCACGGCCTGGAGGCCAGGATTGTCCCCGGGGGACCCACGGAAGAGGACGGACTGAACGCCTTCCGGTCCCTGCGCGGCAATCTTCCCTCCGCAGTTCTTGCCTTTAACGACCGCTCCGCACTCGGCGTGATTGAGGGCCTTCGTGCCGAGGGGCTAAAGGTACCCGATGACATCTCAGTGCTCGGCTACGACGACAGCCAGTTCGCCCGGCTGAGCTACGTGCAGCTGTCTTCCGTCAGCCAGGATGCGCCATTACTCGCAGCGACCGCCGTGAACCAGGCAGTCGAGCGGATCGAGAAACCACAGGGACCCGCGCACATCGTCAGAACACCCCACTTGGTGGTGCGGGCGTCCACTGCAGCTCCCCGCTGGGTCGGCACCTAA	MPEQQRRPTMVDVAQAAGVSRALVSIVMRGAPGASEPTRQKVLEAARTLGYRPDSRARLLRSSRTRLLGVSFFSAEAFHAEIVDAAYAEAAACGYEIALSAVGSGRPEARAIESLLDFGSEALIMVSPTLSERELAGYASNVPVVSLLRNDVGDRVDSISSDDSAGIRLGVEHLAGLGHRNIVHVDGGAAVSASQRRDAFRAEMERHGLEARIVPGGPTEEDGLNAFRSLRGNLPSAVLAFNDRSALGVIEGLRAEGLKVPDDISVLGYDDSQFARLSYVQLSSVSQDAPLLAATAVNQAVERIEKPQGPAHIVRTPHLVVRASTAAPRWVGT				NA	NA	NA	NA	NA
D1-17_02386	1569	ykoD_2	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGAACGGGCAGCTTGCAGCCGGGGCAACGACACTGCGGGCATGCATTGAATCCTTCACATTCCATGGCGATTCCTTCCCGGCGGTGCAAGGTGTTGAACTCGTTGCTGCCCCGGGGTCACTGACGGCCGTCCTTGGTGGTTCTGGAAGCGGTAAATCAACGTTGGGACGGTTGCTGGCAGCTTGGCTGGCTTCCGGACGTGACGGCAAGCTGACGGGTACCCTGCATCTGGATGGCGGCAGCAGTATTCATGACGACGGCGGGCCACTGACCTTTGCCGGTGACGACAGTGACCCGCGGATCGATCCAGCCGCCTGGGCCGAACACGTGGGCTACGTCCCGCAGGACCCCGCAGCCATGCTTTCAGGGGTGCGGAGCACAGTTGCTGAAGAGCTGGCTTTCGGCCTGGAAAACCTGGGAGTGCCCAGGGCGCACATGATGCAGCTCGTGGCTGACACCGCCATGCGAACAGGTCTCACCGCACTGCTCGAACGGGACCCGGCGACGCTATCCGGCGGAGAACTGCGGCGTCTGGCCGTCGGGTGTGCCGTCGTCACAAATCCCGCAGTCCTGGTCCTCGACGAACCCCTGGCCTCCCTTGATTCCACGGGCTCCCTAGCCGTCACGGAACTGGTAGCCGATGTGCTGGCAAGGGGGACCGCCGTCGTCGTCTTGAGCCAGCAGGCCGACCCGCTGATCCGGCAGGCGGCGCAGTGGCTGGTCCTGGACGGAGGGAGGCTCGCCGCCGCAGGGCCTCCGGACCGGCTGCTGGCCGGTGCTTCCCTTGCCGGTTTCGGGATTGTTCTCCCCGGCCCTGCCGGACGGGTGTGCTCCAAGGCGGAACCCCGGATGGTGGCTACCTCCGGGGATGCCCCCGCTCCTGCGGCTCTTGCCGCGGCCTTGGAACTGGACGGCGTGTCCTTTGGCTTCGACGGCACAAATTCGGCTGGCAGGCTGTTGCTCCAGAAGGTTGATCTCAGCGTCCGTCCAGGCGAAATCCTCGCGGTGACTGGCCGGAACGGTGCAGGGAAATCCACACTGCTCCGGCTCTGCAACGGCTTGCTGAGGCCGGCGCAGGGGGAAGTACGCGTGGGCGGTGAACCGATCACAGGTGTTCCAACGGGTATCGTCGCCGCACGGCTCGGTCTCATGTTCCAGCATCCCCAGCACCAGCTGTTCGAGCGGACAGTGCAGCGGGAGGTGCTGTTTGGGCTTGACCGGCTGTACGGCAAGCAGGCGCAGGCGAAGGCAGCTGAAGCCCTGACGGCGGTAGGGCTTGAGCGTTCGCCCGGGGCCCATCCCTACGAGCTGTCCAGCTCAGCTCAGCGCCTGCTGGCGTTGGCCACCGTTCTCGCACGGGAACCGGCGGTGCTGGCACTCGACGAGCCCACCGTGGCGCTTGATGCTCATGGCCTGGACAGGCTCGCTGCCGTGATTGCCCAAGCAGTGGACAGGGGTGCCGCCGTGGTGATGGTGACCCACGACCTGGCATTCGCCCATGCCCACGCGGACAGGACCGTCGAGCTCAGAAATGGCAGGCTTTATGGAGCCAGGCATAGGGACAGCTAA	MNGQLAAGATTLRACIESFTFHGDSFPAVQGVELVAAPGSLTAVLGGSGSGKSTLGRLLAAWLASGRDGKLTGTLHLDGGSSIHDDGGPLTFAGDDSDPRIDPAAWAEHVGYVPQDPAAMLSGVRSTVAEELAFGLENLGVPRAHMMQLVADTAMRTGLTALLERDPATLSGGELRRLAVGCAVVTNPAVLVLDEPLASLDSTGSLAVTELVADVLARGTAVVVLSQQADPLIRQAAQWLVLDGGRLAAAGPPDRLLAGASLAGFGIVLPGPAGRVCSKAEPRMVATSGDAPAPAALAAALELDGVSFGFDGTNSAGRLLLQKVDLSVRPGEILAVTGRNGAGKSTLLRLCNGLLRPAQGEVRVGGEPITGVPTGIVAARLGLMFQHPQHQLFERTVQREVLFGLDRLYGKQAQAKAAEALTAVGLERSPGAHPYELSSSAQRLLALATVLAREPAVLALDEPTVALDAHGLDRLAAVIAQAVDRGAAVVMVTHDLAFAHAHADRTVELRNGRLYGARHRDS				NA	NA	NA	NA	NA
D1-17_02387	759	ecfT	COG0619	Energy-coupling factor transporter transmembrane protein EcfT	GTGGCGCCGCGATTCAACCCCCTCACCCTGCTGGCCGCGGCAGCCGCAGTCCTGGTTATGACGACGGCGGCCTCGTGGTGGCCCGTGTCCCTCACCGTCGCTGCCGGCGCCATAGTGCTGGCGGCTCTGACCGGCACCGCCCGCCGCGTCATCCTGGCCGGCGGGGCTATTTTGGTGCCCTTCTGGCTTTCGCTGTTGCTGATGCACGGCCTGTTTTTCCCGGAGGGGCACACCGTTCTTGCCGCCTTTGGGCCGGCCAGGGTGACAATCGAAGGGCTGGGGTTTGCTCTCGATATGGGGCTGCGCACCTCCTCCTTCGTGTTAGTGCTGATGCTGTTCTCGTTCAGCGTCCGGGTTCCGGACCTGGTGGCGGCGCTGACAACACTCCGTGTGCCGCCGCAGTTCGGCTACGTGCTGGCCTCCACCCTCATGGTGGCCCCTATCATTGCGGTGCGGCTCCAGACTGTGCGCCAGGCGCAGGAGTCCCGCGGGCTGGTGATCGACAAAAGTTTCCGGAGCCGCCTGCACGCACTCCGGCTGCAAATGTTCCCGCTGGTGCTGGGTCTTGTCCACGAGGCCGGCACCCGGGCGCAAGCGCTTGATGCCCGGGGCTTCCGGCGGCCCGGGCCGCGGAGCAGCTATCGGGAAGTCCAGGATTCGGCAGCTCAGCGCATCTTCCGCTGGAGTGTCCTCCTGCTTGCGGTCGCTGCGGTTGTCCTGCGGCTTGTGGCCTCATACCCGGCAGGGGAGTCGGCATGA	MAPRFNPLTLLAAAAAVLVMTTAASWWPVSLTVAAGAIVLAALTGTARRVILAGGAILVPFWLSLLLMHGLFFPEGHTVLAAFGPARVTIEGLGFALDMGLRTSSFVLVLMLFSFSVRVPDLVAALTTLRVPPQFGYVLASTLMVAPIIAVRLQTVRQAQESRGLVIDKSFRSRLHALRLQMFPLVLGLVHEAGTRAQALDARGFRRPGPRSSYREVQDSAAQRIFRWSVLLLAVAAVVLRLVASYPAGESA	PGPT0004015_2946	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
D1-17_02388	837			hypothetical protein	ATGTCTCAGCCTTCCCTCACCCTCCCGACCCCTGGACAGCAGTCGGCCCGCAAGCGCCGGCTGCTCGAAATTCTGGGCGCCGCCGCGATCGCGGCCACCTTTATCTACCTGGTAATTACCCAGCCCACCGACATCACCGGCGGGCTCAGCAGCGTCTCCGCACTGGTGGCCCTGGGCGGCTTCCTGCTCGGGGCAGCCTTGCTGATCGCCGGGGTGCTGCCGACGCTTCCGACGTCCACCGTGGTCCTCATGCCGGTCGCCCTGGTACTGAACATCGTGCTCGGACAGCTCATGGGTACCAGCGGCCTGCCTTTCTACTTCGACGCCATCGGCACAGTCCTGATCGCAGTACTCGCCGGCCCCGCGGCCGGAGCGGCCACCGGAGCCCTCAGCAGCATTGTTTGGTCCTTAATCAACCCCACGGTCCTTCCCTTCGCAGCCGGTTCCGCGCTGATCGGCTTCCTCGCGGGAACCGCCGCCCGCTACGGCCTGTTCCGCCGTTTCTACCTCGCGCCCGTGGCCGGTTTTGTCACCGGAATCCTGGCCGGCGTGGTCTCGGCCCCCATAGCTGCATTTGTTTTTGGCGGGACCTCCGGCGCCGGCACCGGTGCCATTGTCAGCGCCTTCCGCGCCATGGGTGACACCCTGCTGGCCGCCATCACCAAACAGGCCCTGATCTCCGACCCGATGGACAAGGCGATCGTGTTCGCCATCGCCGCCATGCTCGTCTACGCGCTGCCGCGCCGCACCTCGTTCCAGTTCCCGTTTGTGCGGCGCTTCAACGTTCTGGCCGGCAAGAGCCCCGCCGGGAAAAATGTTGTCGGGAAAAACGCCTAA	MSQPSLTLPTPGQQSARKRRLLEILGAAAIAATFIYLVITQPTDITGGLSSVSALVALGGFLLGAALLIAGVLPTLPTSTVVLMPVALVLNIVLGQLMGTSGLPFYFDAIGTVLIAVLAGPAAGAATGALSSIVWSLINPTVLPFAAGSALIGFLAGTAARYGLFRRFYLAPVAGFVTGILAGVVSAPIAAFVFGGTSGAGTGAIVSAFRAMGDTLLAAITKQALISDPMDKAIVFAIAAMLVYALPRRTSFQFPFVRRFNVLAGKSPAGKNVVGKNA				NA	NA	NA	NA	NA
D1-17_02389	273			hypothetical protein	ATGGTGCTCACCGGCGATGCCCGCGGGGAAGAGCCCGACCCGCGCGTTCATGAGCGCTATGAATGGCTTTACATCCTCAATGGACGACTGCGTCTGGTGCTGGGCTACAAGGACTTTGACCTTCGCCCGGGCGAAGCCGTGGAATTCGACACCCACACGCCGCACTGGTTCGCCAGCGCTGATGGCAAACCCGTCGAGTTTCTTAGCCTGTTTGGACAGCAGGGCGAGTGGATGCACGTACGCGCCAGGCCCGGACGCTCAGAGTTGCGTTGA	MVLTGDARGEEPDPRVHERYEWLYILNGRLRLVLGYKDFDLRPGEAVEFDTHTPHWFASADGKPVEFLSLFGQQGEWMHVRARPGRSELR				NA	NA	NA	NA	NA
D1-17_02390	333	qacC		Quaternary ammonium compound-resistance protein QacC	ATGATGTGGCTGTTCTTGACCGGGGCGATCCTTACCGAAGTCGCCGGCACCTTATCCCTTCGCCTCGCATCTGAGGGAAAGAAGAGCTGGTACGTGGCGGTGGGAGCCGGCTACCTGCTGGCGTTCACCTTTCTCACCCTGACCCTGGCCCAGGGAATGAGCCTCGGAGTCGCCTACGGCATCTGGGCTGCCGTGGGTGTAGCCCTGACAGCCGTCGGAAGCAGGATTGTCTTTAAGGAACCCCTCACTCCCGTCATGATCCTTGGCCTGGGCCTCATCATGGTCGGCGTGCTGCTCATCGAACTCGGCGCAGCCCACTCAACGCAACTCTGA	MMWLFLTGAILTEVAGTLSLRLASEGKKSWYVAVGAGYLLAFTFLTLTLAQGMSLGVAYGIWAAVGVALTAVGSRIVFKEPLTPVMILGLGLIMVGVLLIELGAAHSTQL	PGPT0029230_2221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029230-emrE|qac|mmr|smr-K03297	NA	NA
D1-17_02391	348	ebrB		Multidrug resistance protein EbrB	ATGGTGAAATGGCTACTGCTGGCCGGTGCTATCGCCAGCGAGGTGATTGCTTCCCTGACCCTAAAGGCCGCGCTGGAGAATCCCGCTCTTTTCGCCGTTGTGGGTGCCGGCTATGTGACTGCCTTTGGTCTCCTGGGCAGGGTGCTGCGCCGGGGTCTGGCCTTGGGCGTGGCCTACGGCATCTGGGCCGCCATGGGTGTCGCCCTGACCGCGCTGCTCGCCGCCGTGCTTTTCGGTGAGCCACTGACCCTGCTGATGCTCGTGGGAATCGCATTGGTCATCGGCGGAGTACTGTGCGTTGAGGTCGGATCCCACAGGGCGCCAGTGAAAGAGCAGACCGCCGGATGA	MVKWLLLAGAIASEVIASLTLKAALENPALFAVVGAGYVTAFGLLGRVLRRGLALGVAYGIWAAMGVALTALLAAVLFGEPLTLLMLVGIALVIGGVLCVEVGSHRAPVKEQTAG	PGPT0029230_333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029230-emrE|qac|mmr|smr-K03297	NA	NA
D1-17_02392	519			hypothetical protein	GTGATACTCAGCGGCGCACTGGAACTCATCGGCTCCGGCGGCACGGTTTCCTTGGAGTCAGCCGCCCGGCATGTGGGGCTGAGCAAGCCCGGAGTGATGCATCATTTCCGCAGCAAGGAAGCGCTTATGCTGGCGCTGGTGGACCGGGTTGCGGGGGACTGGCATGCGGAGCTGTCCCGTCGTCTCGGCAGACCGGTCGCGGACGCGCCTGCAGGGCTGCGCTTGCGTACCTATGTGGAATGGTGCCTGACAGGGGATTTCGGCGAAGCGGATCTGGTGATGCTTTCCGACCCCCGGCTGCGTCAGCCCTTGCTGGCCCGATGGATGGAACGCATGGCTGTGTGGGTTGAGGTTCCGCCCGACCTGCCGCTGGACCAGCGTTCGTCCCTGACCGCGGCCCGGCTGCTTGCGGAGGGTGCCTGGTTCGCGGCCGCCACTGACGTCTTCCCTCCCGCTCCTGAACTGAAAGCCGGCATCCGTGCCATCATCGAGCAACTACTGGAGGACCGACCATGGTGA	MILSGALELIGSGGTVSLESAARHVGLSKPGVMHHFRSKEALMLALVDRVAGDWHAELSRRLGRPVADAPAGLRLRTYVEWCLTGDFGEADLVMLSDPRLRQPLLARWMERMAVWVEVPPDLPLDQRSSLTAARLLAEGAWFAAATDVFPPAPELKAGIRAIIEQLLEDRPW				NA	NA	NA	NA	NA
D1-17_02393	1122	rihA_1	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGGACACACGTTTGGTGGGCGCTGGTCTGCCTCATTCTGCCCCGACGCAGTCTGACCAGACTTCCTCTGTCCCGTCGCACTCCGTCCTCGTGGATGTTGATACCGGGATCGACGACGCGCTGGCGCTGGTCTACCTGCTGTCCCGGCCGGAGGTCCGGCTCGAGGCCATCACCTGCACAGCCGGAAATGTGGGAGCCCGGCAGGTGGCGCTGAACAATCTGGCACTGCTGGAACTCTGCGGCAAAACCGGAGTGGAAGTAGCCGTTGGCGCCGAAGCGCCGCTCGAGATTCCACTTGTCACCACGGAGGAGACCCACGGGCCGCAGGGGATCGGCTACGCAGTGCTTCCGCCTCCAGTGCAGCAAATTTCACCGCGGCATGCCGTTGATGTCTGGGTGGACACTGTCCGCGCCCATCCCGGTCAGATCACTGGCCTCATCACCGGCCCACTGACCAACTTTGCCCTGGCCCTGCGACGCGAGCCTGAGCTGCCAACGCTGCTCAAGGGCCTGGTGATCATGGGCGGCTGTTTCAACTACCAGGGCAACACCACACCCACGGCGGAGTGGAACGTGTCCGTTGATCCGCATGCCGCCCAGGAAGTCTTCACGGCCTACAACGGCTTGCCCGAGGACCGGCTGCCGGTTGTCTGCGCCCTTGAAACCACCGAGCGGATCGAGCTGCGGCCCGAACACCTGCAGAAGCTGGGGGAGGCCGCCGGGGCACGTGAGCCGGAACTCGTGCTGCCTGAGCAGCGTGAAGGACAGCGCAGTGTTTCAGACAACCGGCTGGTGGCCTGCCTGTCAGACGCCATCCGCTTCTACCTGGAATTCCACCGGCTCTACGACCAGGGCTACATCGCGCACATGCACGACGCCTTCGCGGCCGCTGCCGCCATCGGTCGCACTCCGTTCCGGACGCGCGCAGCGACCGTCCACGTCGAAACCGCTTCTCCTCGCCTGATCGGCACCACGGTGGCTGACTTCCGCGGTATCTGGAACGAGCCGCCCAACGCCCGGATCGTAACCTGGAATGACCCGGAGCAGTGCCTTGATGAGCTGATCTCCTCTGTGGGTGCCCTGGCCAGAACGGTCGCCCCACGCTCCGCCGCCACCAGCTAG	MDTRLVGAGLPHSAPTQSDQTSSVPSHSVLVDVDTGIDDALALVYLLSRPEVRLEAITCTAGNVGARQVALNNLALLELCGKTGVEVAVGAEAPLEIPLVTTEETHGPQGIGYAVLPPPVQQISPRHAVDVWVDTVRAHPGQITGLITGPLTNFALALRREPELPTLLKGLVIMGGCFNYQGNTTPTAEWNVSVDPHAAQEVFTAYNGLPEDRLPVVCALETTERIELRPEHLQKLGEAAGAREPELVLPEQREGQRSVSDNRLVACLSDAIRFYLEFHRLYDQGYIAHMHDAFAAAAAIGRTPFRTRAATVHVETASPRLIGTTVADFRGIWNEPPNARIVTWNDPEQCLDELISSVGALARTVAPRSAATS	PGPT0013465_318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
D1-17_02394	978	yajO_3	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGACTGAATACCGCAGGCTGGGAAAATCCGGACTGACCGTCTCCGTTGTGGGACTTGGCTGCAACAATCTCGGCCGGGCGAGCACGGTGACCGAGTCGCAAGAGGGGACAGACGCCGTCGTCCATGCCGCCCTCGACGCCGGGGTCACTCTCTTTGACGTGGCGGACTCGTACGGCCGGGAACCCGGCCTGAGCGAAACGATGCTCGGAAAGGCGCTCGGCAGCAGGCGGGCCGATGCCGTGGTCGCCACGAAATTTGGGTTGGACATGCGCGGCACCAACGGCAAAGATTACGGTGCCCGGGGATCCCGTAGCTACATCATCCGTGCTGCGGAGGCATCACTCCGGCGGTTGGGGACTGACTGGATCGACCTGTACCAGTTCCACACGCCGGATCCGCTGACGCCGATCGAAGAGACACTGGACGCTCTGGATAATCTGGTGACCAGCGGCAAGGTCCGGTATATCGGCCACTCCAACCGGGCCGGCTGGCAGATTGCTGAAGCCGAATACGTAGCCCGGGCCAGGGGCGGGGCGCGGTTCATTTCTGCCCAAAACCACTACAACCTCCTGGACCGCCGCGCCGAGCTGGAGGTCACTCCTGCCGCTGAAGCCTACGGAATCGGGGTGCTGCCCTATTTCCCCCTGGCGAACGGCCTCCTAACGGGAAAATACGCCCCGCACCAGGCGCCCGAAGGCACGCGGCTGAGCCATACCCGGACGCACCTGGTGGACGAGGCCGACTGGCAGCAGCTGAAGCAGTTCAGCGCCTTTGCCGCAGAGCGGGGGCTCACTGAGGTTCAGGTTGCCTTCTCCTGGCTGGCGGCGCAGCCCTCTGTCAGCAGCGTTATCGCCGGAGCCACCCGGCCAGAACAGGTCCGGCAGAACGCGGAAGCGGTGGCCTGGGTCCCGGACAAGGCCGAGCTGGAAGAGCTGGACCGGATCTTCCCGCGGACACCCAAGGTTGCCCTTTTTTAA	MTEYRRLGKSGLTVSVVGLGCNNLGRASTVTESQEGTDAVVHAALDAGVTLFDVADSYGREPGLSETMLGKALGSRRADAVVATKFGLDMRGTNGKDYGARGSRSYIIRAAEASLRRLGTDWIDLYQFHTPDPLTPIEETLDALDNLVTSGKVRYIGHSNRAGWQIAEAEYVARARGGARFISAQNHYNLLDRRAELEVTPAAEAYGIGVLPYFPLANGLLTGKYAPHQAPEGTRLSHTRTHLVDEADWQQLKQFSAFAAERGLTEVQVAFSWLAAQPSVSSVIAGATRPEQVRQNAEAVAWVPDKAELEELDRIFPRTPKVALF	PGPT0017540_877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017540-yajO|iolS-K23107	NA	NA
D1-17_02395	561			hypothetical protein	ATGAGCGGCATTATTCGGGTTTACAGGCGCGATGAAGAAGGGACTCTTCACTTTCGGGAGGCCTGGTTCGACGAGGACTACAACCAGTTCGTCATGAACCATGGGGCAGTGGGCCACCAGAGCAAGACCGAGGAAACAGACGTTGCCGACGCCGAAGCCGCCGACCGTTTGCTCGATGCGTTCTCTGCGCAGTGCGAGGAGGATGGATATGCGGAGATTCCGGAGGAGGAACAGTTCTGGGTGGTCGCCCAGTACGCCCTGAAAACCCGGGAAGGCACCAGCCGGGACAGGTACCTGGAGGAAAAAGCAAAGGATGCGCTGATCAGCCACTTGGCATGGCGCGGCCTCGGCACGGTGGAGCGCTCGGAATTCAGCGACTCCAAGCTCAACATTTTCTGCCTGTGCCCGGATGTCAACAAAGCCGTGAACGCCATTAAGGTCTGCATCCGCGGCGAGGACCTGGACTTCACCAAGCTGAGTATCGGCGCTGCTCCCTACACAGATCCCATGGCACTCAAGCTCAAGCACTCACCGAAGCCGGGGACTGTCTTCACCCTCTAA	MSGIIRVYRRDEEGTLHFREAWFDEDYNQFVMNHGAVGHQSKTEETDVADAEAADRLLDAFSAQCEEDGYAEIPEEEQFWVVAQYALKTREGTSRDRYLEEKAKDALISHLAWRGLGTVERSEFSDSKLNIFCLCPDVNKAVNAIKVCIRGEDLDFTKLSIGAAPYTDPMALKLKHSPKPGTVFTL				NA	NA	NA	NA	NA
D1-17_02396	2001	dxs		1-deoxy-D-xylulose-5-phosphate synthase	ATGTCTACCACCCTGAAGGAGAGGCCGTTGGGAATCTTGGAGACCATTCGGAATCCGCAGGACCTGAGCAAGCTGTCCCAGGTGCAGCTGACGCAACTGGCCGCCGACATCAGGGAATTCCTCATCGACAACGTCTCCCAGACGGGCGGACACCTCGGTCCCAACCTCGGCGTCGTTGAGCTGACCATGGCGGTGCACCGGATCTTCGATTCCCCCCGCGACAGCATCGTCTTTGATACCGGCCACCAGTCATATGTGCACAAGCTCCTTACCGGGCGCAAGGATTTCAGCACCCTCCGCCAGCAGGGCGGGCTCTCTGGCTACCCCGACCGTGCCGAGTCCGAGCACGACATCGTCGAAAGCTCCCACGCCTCGTCCTCCCTCTCATGGGCCGACGGCATTTCCCGCGCCCGCCAGCTGACCGGTGAAGGCGACCGCTACGTCGTCGCGATTGTCGGAGACGGCGCGCTGACCGGCGGCATGGCGTGGGAAGCCATCAACAACATCGCGGCGGACAAGAAGCGCCGCGTCGTTATTGTGGTTAACGACAACGGGCGCTCCTACGCTCCGACGGTGGGCGGTTTCGCCGACTACCTCGCGTCCCTGCGCCCCACCATTGACTCCCTCCGCACCGCGCCCGCCTATGAGGTAGCCCTCGACTGGTGGAAGAAAAAGCTCCAGAGCGGCGGCCCCCTTGGCCAGTTCACCTACAAGAGCCTGCACGCCACGAAAAAGGGCATCAAGGACTGGTGGGCTCCCCAGGGCATGTTTGAAGACCTTGGCATGAAGTACATCGGCCCCGTGGACGGTCACAACCTCCACGCGATGGAACACGCCTTGTCCACCGCGAAGAACTACGCCGGCCCCGTCATTGTGCACGCCATAACGGAGAAGGGCCACGGTTATGCGCCGGCGCGGGCCCACGAAGCGGACCAGTTCCACGCCGTGGGCATCATCGACCCTGAAACCGGCGAGCCCACCGAGGCCGGCGGAGCCAAATCCTGGACGTCGGTCTTCGGAGACGAGATTGCAGACATCGCGGATGAGCGCAACGACATTGTCGGAATCACCGGAGCGATGCTCATCCCTGTGGGGCTGCACAAATTCGCCGCCAGGCACCCGGAGCGCGTCTTCGACGTCGGCATCGCCGAGCAGCACGCCCTCACCTCAGCTGCCGGGATGGCCTTCGGCGGGCTCCACCCCGTCGTCGCCGTCTATGCCACCTTCCTCAACCGCGCTTTTGACCAGCTGCTCATGGACGTGGCCCTGCACAAGGCCGGCGTCACCATCGTGCTTGACCGTGCCGGTGTCACGGGTCCCGACGGCGCCAGCCACCACGGCATGTGGGACATGGCGATGGTCCAGATCGTGCCCGGGCTGCACCTGGCTGCACCGCGAGACGCCACACGGCTGCGCGAGGAACTGCGCGAAGCAGTGGCCATCAAGGATGCCCCCAGCGTGCTCCGCTACTCCAAAGGCACAGTCGGGGCAGAAATCGAGGCAGTCGAGAGGCTGGGCGACGGTGTCGACGTGCTCGCCCGGCGCCCGTCCGGTTCCACCGAAAACGACGTCCTCATCGTCAGCGTCGGCGCCATGTCCGAGCTCGCCCTCAACGTCTCGAACCGGCTTGGAGCACAGGGCATCAGCTCCACCGTGGTGGATCCGCGATGGGTGCTTCCGGTCCGGAAGTCCATCATCGCTCTCGCCGCAAGGCACCGACTGGTGATCTGCATCGAGGACGGGGTCCGCGCAGGAGGGGTGGGATCCAGGATCCGCCAGGAGATGCGCGCTGCCGGCGTTGATACCGCCTTGAATGAAGTGGGCCTGCCAGTGGAGTTCCTGGACCACGGAACCCGTAGCCAAGTGCTCGAACGTGTTGGTCTCACGGCACAGCAGATCACCCACGACGTCGTCGCCCAGGTTTTGGGCACCAAGGTGCCGTTTGCGCGTCCCCTTCCCGGACAGGAACACCCCACCACGGGCAGCCTGCCGAAACTGTAG	MSTTLKERPLGILETIRNPQDLSKLSQVQLTQLAADIREFLIDNVSQTGGHLGPNLGVVELTMAVHRIFDSPRDSIVFDTGHQSYVHKLLTGRKDFSTLRQQGGLSGYPDRAESEHDIVESSHASSSLSWADGISRARQLTGEGDRYVVAIVGDGALTGGMAWEAINNIAADKKRRVVIVVNDNGRSYAPTVGGFADYLASLRPTIDSLRTAPAYEVALDWWKKKLQSGGPLGQFTYKSLHATKKGIKDWWAPQGMFEDLGMKYIGPVDGHNLHAMEHALSTAKNYAGPVIVHAITEKGHGYAPARAHEADQFHAVGIIDPETGEPTEAGGAKSWTSVFGDEIADIADERNDIVGITGAMLIPVGLHKFAARHPERVFDVGIAEQHALTSAAGMAFGGLHPVVAVYATFLNRAFDQLLMDVALHKAGVTIVLDRAGVTGPDGASHHGMWDMAMVQIVPGLHLAAPRDATRLREELREAVAIKDAPSVLRYSKGTVGAEIEAVERLGDGVDVLARRPSGSTENDVLIVSVGAMSELALNVSNRLGAQGISSTVVDPRWVLPVRKSIIALAARHRLVICIEDGVRAGGVGSRIRQEMRAAGVDTALNEVGLPVEFLDHGTRSQVLERVGLTAQQITHDVVAQVLGTKVPFARPLPGQEHPTTGSLPKL	PGPT0008960_686	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008960-dxs-K01662	NA	NA
D1-17_02397	2826	acnA	COG1048	Aconitate hydratase A	ATGAGCACTGTGGACAGCTTCGGTTCAAAAGGCAAACTTAATGTAGCCGGAACCGAATACGAAATTTTCCGGTTGAACTCCGTTGAAGGGTCAGAATCCCTTCCGTTCAGCCTCAAGGTATTGCTTGAAAACCTGTTGAGGACCGAGGACGGCGCGAACATCACTGCCGATCACGTTCGCGCCTTGGCAGGGTGGGATCCGAATGCCCAGCCCGACACTGAAATCCAGTTCACGCCTGCACGCGTAATCATGCAGGACTTCACGGGTGTGCCCTGTGTGGTAGACCTCGCCACCATGCGCGAGGCCGTCAAGGAGCTGGGGGGCGATCCGAAGAGGGTGAACCCGCTGGCCCCCGCCGAGATGGTCATTGACCACTCCGTGCAGATCGACGTCTTCGGAAACTCCGGCGCGCTGGAGCGCAACATGGAGATCGAATACCAGCGCAATGGTGAGCGCTACCAGTTCCTGCGCTGGGGCCAGACGGCGTTCGACGACTTCAAGGTTGTTCCGCCCGGAACCGGCATCGTGCACCAGGTCAACATCGAGTACCTGGCCCGCACGGTCATGACCCGCGAAATCAATGGCGCCCTGCGCGCCTACCCCGACACCTGTGTCGGTACCGACTCGCACACCACGATGGTCAATGGCATGGGCGTGCTCGGCTGGGGCGTCGGCGGCATCGAAGCCGAAGCGGCCATGCTGGGCCAGCCGGTCTCCATGCTGATCCCGCGCGTTGTCGGCTTCAAGCTCAGCGGCAGCATCCCTGCCGGAGCCACGGCCACCGACGTGGTGCTGACCATCACCGAGATGCTGCGCAAGCACGGCGTGGTGGGCAAGTTCGTGGAATTCTACGGTGAAGGCGTTGCCGCAGTGCCGCTGGCCAACCGTGCGACCATCGGCAACATGAGCCCGGAGTTCGGCTCGACGGCCGCCATGTTCCCGATCGACGACGTCACCCTCGACTACCTGCGCCTCACCGGCCGCCCGGACGAGAACGTAGCCCTGGTCGAGGCCTACGCCAAGGAGCAGGGCCTCTGGCACGACCCCTCCCGGGAATTGCGCTTCTCGGAGTACCTCGAGCTGGACCTGTCCACCGTGGTTCCGTCCATCGCCGGCCCGAAGCGTCCGCAAGACCGCATCGAGCTCACCGAGGCCAAGGACGAGTTCCGCCACGACCTCAAGAACTACGTCGCGCACGACGCCGATGCCGGCACGCTGGACGAGTCGCTGGAGGAATCCTTCCCCGCCTCCGATCCGCCCTCGTTCAACACCGGCGGCACCCACGTGACGGACACGGACCGCGTTCCGCCGAAGTACTCCGCCGCGCACGGCGCCGAGGGCCGGATTTCCAGCCCCGTCGCTGTGAAAATGGAAGACGGCCGCGAGTTTGACCTGGACCACGGTGCTGTCACGATCGCCTCGATCACGTCATGCACCAACACGTCCAACCCCTCTGTCATGCTTGCTGCCGCCGTGCTGGCCCGCAATGCCGTCAACAAGGGGCTCACTGCGAAGCCGTGGGTGAAGACTTCTGTCGCCCCCGGGTCCAAGGTCGTGACCGACTACTACGAGAAGTCGGGCCTCACCCCGTACCTGGAGAAGCTGGGCTTCTACATCGTGGGCTACGGCTGCGCCACCTGCATCGGCAACTCCGGTCCGCTGGAAGCCGAAATCTCCGAGGCCATCCAGGCCAACGACCTCGCTGTCAGCGCCGTCCTTTCGGGCAACCGCAACTTCGAAGGCCGCATCAACCCGGACGTCAAGATGAACTACCTGGCTTCCCCGCCGCTGGTCATCGCCTACGCCCTGGCCGGTTCCATGGACTTTGACTTCGAGACCGACCCGCTGGGCAAGGACGAGGCGGGCAACGACGTCTTCCTGAAGGACATCTGGCCGAACCCGGTCGAGGTGCAGGAAGTCATCGACTCCTCCATCGACAAGGAAATGTTCACCAGGGGCTACGAAGGCGTCTTTGAAGGTGACGACCGCTGGAAGGCGCTCGACACCCCGGCCGGCGACACCTTCGCCTGGGATGAGAAGTCCACGTACGTCCGGAAGCCCCCGTACTTCGAGGGCATGAAGGCCCAGCCGGAGCCGGTCCAGGACATCACAGGCGCCCGCGTGCTGCTCAAGCTCGGCGATTCCGTCACCACCGACCACATCTCCCCGGCCGGTTCCTTCAAGTCGGACACCCCGGCGGGGCAGTACCTGCTGGCCAACGGCGTGGAGCGGAAAGACTTCAACTCCTACGGTTCGCGCCGTGGCAACCACGAAGTCATGATCCGCGGCACGTTCGCGAATATCCGCATCAAGAACCAGCTCCTGGACGGCGTGGAGGGCGGCTTCACCCGCGACTTCACCCAGGCCGACGGCCCGCAGGCCTACGTCTACGACGCCGCCCAGAACTACCAGGCTGCCGGCACCCCGCTGGTGGTCCTGGCAGGCAAGGAGTACGGCTCCGGCTCATCCCGTGACTGGGCTGCCAAGGGCACCGCCCTGCTGGGAGTCAAGGCCGTCATCGCCGAGAGCTACGAGCGCATCCACCGCTCCAACCTCATCGGCATGGGCGTCCTGCCGCTGCAGTTCCCGGCCGGCGAATCCGCTGCGACGCTGGGTCTGACGGGCACGGAAACCTTCGCTGTTGAGGGCGTCACCGCCCTGAACGAAGGCACCACCCCAAAGACCCTCAAGGTCACGGCAACCGCAGAGGACGGCTCCACCACGTCGTTCGACGCAGTGCTCCGTATCGACACCCCGGGTGAAGCGGACTACTACCGCAACGGCGGCATCCTGCAGTACGTACTCCGCCAGATCTCCGCGAACTAG	MSTVDSFGSKGKLNVAGTEYEIFRLNSVEGSESLPFSLKVLLENLLRTEDGANITADHVRALAGWDPNAQPDTEIQFTPARVIMQDFTGVPCVVDLATMREAVKELGGDPKRVNPLAPAEMVIDHSVQIDVFGNSGALERNMEIEYQRNGERYQFLRWGQTAFDDFKVVPPGTGIVHQVNIEYLARTVMTREINGALRAYPDTCVGTDSHTTMVNGMGVLGWGVGGIEAEAAMLGQPVSMLIPRVVGFKLSGSIPAGATATDVVLTITEMLRKHGVVGKFVEFYGEGVAAVPLANRATIGNMSPEFGSTAAMFPIDDVTLDYLRLTGRPDENVALVEAYAKEQGLWHDPSRELRFSEYLELDLSTVVPSIAGPKRPQDRIELTEAKDEFRHDLKNYVAHDADAGTLDESLEESFPASDPPSFNTGGTHVTDTDRVPPKYSAAHGAEGRISSPVAVKMEDGREFDLDHGAVTIASITSCTNTSNPSVMLAAAVLARNAVNKGLTAKPWVKTSVAPGSKVVTDYYEKSGLTPYLEKLGFYIVGYGCATCIGNSGPLEAEISEAIQANDLAVSAVLSGNRNFEGRINPDVKMNYLASPPLVIAYALAGSMDFDFETDPLGKDEAGNDVFLKDIWPNPVEVQEVIDSSIDKEMFTRGYEGVFEGDDRWKALDTPAGDTFAWDEKSTYVRKPPYFEGMKAQPEPVQDITGARVLLKLGDSVTTDHISPAGSFKSDTPAGQYLLANGVERKDFNSYGSRRGNHEVMIRGTFANIRIKNQLLDGVEGGFTRDFTQADGPQAYVYDAAQNYQAAGTPLVVLAGKEYGSGSSRDWAAKGTALLGVKAVIAESYERIHRSNLIGMGVLPLQFPAGESAATLGLTGTETFAVEGVTALNEGTTPKTLKVTATAEDGSTTSFDAVLRIDTPGEADYYRNGGILQYVLRQISAN	PGPT0001465_485	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001465-acnA-K01681	NA	NA
D1-17_02398	1368	rlmD	COG2265	23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD	ATGAACCCCGAACCCCAGACCTCCTCCGCCGGCGAAGAACTGGTGGTCGCCGTCGGCCCCGTAGCCCACGGCGGGCACTGCGTGGCACGGCACGAGGGCCGCGTGGTCTTCGTGCGCCATGGCATTCCCGGTGAGAAGGTGCGGGTGCGCCTGACCGACGCGGAGGAGTCGGCCAAGTTCTGGCGTGCCGACGTCGTGGAGGTCCTGGAACCCTCACCCGACCGTGTGCAGCACTTCTGGAGGGTCGCAGATTCGCTCACCTCCTGGCGCCACGGGCGGCCGCCTGTCGGCGGCGCCGAGCTGGGGCACATTTCCCTGCCACGGCAACGGAGCCTCAAGTCCGAGGTGCTGGCCGAACAGCTCAAACGGCTCGCCGACGTCGAACTGCCCACCGCAGTGGAGGCGGTGGGCGGCGCCAGCGCCGGAAACGGAGGAACGTCCGACGGCGCCGACGGCCTTGGGTGGCGCACCAGGGCCAGCTTTGCGGTGACCACCGGAGGCAAGCTGGCCATGCATGCCCACCGTTCAGACCACATCGTGCCGGTCCGGGAAATGCCGCTAGCTGTGGCGGGCATCAACGATCTCCGTCTGTGGGACGTCGACCTGCAGGGCATTGAGAGGGTGGAGGTCGCGGCGCCCGCCAACGGTTCCCGCCCCCTCGTGCTGCTCGCGCCTGCTCCGGGCACCAGTGTCAAACGTCTCACGTCGATCCTCGGGCAGCTTCCCGCCGATGTCTCGGTGGCCAGCCACGACCCCCTGAAGGACGAGACACTGCAGCTGCGGGGCCGGACGTGGGTGCAGGAAACCGCCGTCGGACATGACTACCGCGTGACCGGCGCCGGGTTCTGGCAGATCCACCGGGCCGCCCCGGAAACTCTCGTGGGTGCCGTGAGGGAATTCCTGCACGACGGCGGTTTCCTCGAGCCGGGCGCCGCCGTGGCTGACCTGTACGCCGGCGCCGGGCTGTTCACCGCCCCGCTGGCGGACGCGGTCGGTGTTACCGGATCCGTACTTTCGGTGGAAGGTGCGCCGGGCGCCAGCAGGGACGCGCGGAAAAACCTGCACGGAGCGGCGCAGGTGGAAATCGTGCAGGGACGCGTTGAGCGGATTCTGCGCCAGCGGCCGCGAAACTTCGATGCCCTCGTGCTGGACCCGCCGCGAGCCGGTGCCGGCAAGGCAGTGGTGAACCAGCTGATGGCGGCAAGCCCGCGCGCCATCGCCTATGTCTCCTGCGACCCGGCGTCGTTCGCCCGTGATATCGGCTACTTCCGGCAGGGCGGCTGGGGGATCGCGCAGCTCAGGGCCTTCGACCTGTACCCGCATACGCATCATTTGGAAACGGTAGCTCTGCTGACGCCCCGCGGTTGA	MNPEPQTSSAGEELVVAVGPVAHGGHCVARHEGRVVFVRHGIPGEKVRVRLTDAEESAKFWRADVVEVLEPSPDRVQHFWRVADSLTSWRHGRPPVGGAELGHISLPRQRSLKSEVLAEQLKRLADVELPTAVEAVGGASAGNGGTSDGADGLGWRTRASFAVTTGGKLAMHAHRSDHIVPVREMPLAVAGINDLRLWDVDLQGIERVEVAAPANGSRPLVLLAPAPGTSVKRLTSILGQLPADVSVASHDPLKDETLQLRGRTWVQETAVGHDYRVTGAGFWQIHRAAPETLVGAVREFLHDGGFLEPGAAVADLYAGAGLFTAPLADAVGVTGSVLSVEGAPGASRDARKNLHGAAQVEIVQGRVERILRQRPRNFDALVLDPPRAGAGKAVVNQLMAASPRAIAYVSCDPASFARDIGYFRQGGWGIAQLRAFDLYPHTHHLETVALLTPRG				NA	NA	NA	NA	NA
D1-17_02399	1977	kimA	COG0531	Potassium transporter KimA	GTGCTGACAATACTGAATGCCGTGAAGCGGGTGCTGGTGGGCAGGCCCTTCCGGAGCGACCGGATGGCTCACACGCTGCTGCCAAAGAGGATCGCGCTTCCCGTCTACGCTTCAGACGCGTTGTCATCCGTCGCCTACGCCCCCGATGAGATCCTCCTGACGCTGGCATTGGCCGGCGTCAGCGCGGTGGCATTCTCCCCGCTTGTGGGACTCGCTGTCATGGTGGTGCTGCTGACGGTGGTCGCCTCCTACCGCCAGAATGTCCACGCCTACCCGTCCGGCGGCGGCGATTACGAGATCGCCAACGTGAATCTGGGCAAGCGAGCAGGCTTGACCGTGGCATCAGCCCTGCTCGTCGACTACGTGCTGACCGTGGCCGTCTCGATCTCCTCCGCGGCCACCTACCTCACCACGGCCGTTCCCTCCCTTCATGGCCAGCAGGTGATGCTCGCCACGCTCGGGGTGGTGATTCTTGCCCTTGTGAACCTGCGCGGCATCAAGGAAGCGGGAAGGGTCTTTGCCGCGCCTGCGTATATATTCATGGCGTCGATCCTGGGCATGACGGCGGTCGGTCTTTTCCAGGGGCTGACAGGTCAGCTGGGCCAGGCTCCGTCGGCCGCGTTCACCATCGTTCCGGCCCCCGGCTTCGATGAAGGGCTGGTGGGTCTCGCGGGAGCCTTCCTGCTGCTGCGGGCATTTTCCTCGGGGGCGGCCGCGCTCACCGGCGTGGAGGCCATCAGCAACGGCGTACCCAATTTCCAGAAGCCGAAGAGCAAGAACGCCGCGACGACGCTGCTGCTGCTCGGAATCATCGGGTCGTCCATGCTGGCCGGCGTCATCTACCTTGCCAATGCGACCAAGGTCCACATCGTGCTGGATCCGGCCACCGAATTCCTGCTGAACGGACAGCCGCTGCCCGAGGGATACATTCAAAGCCCCGCCATCAGCCAGATCGCCCAGACCGTTTTCGGGCCCGGATCCATCCCGTTTTATGTCATCGTCGCAGCGACGGGCCTGATCCTGGTATTCGCCGCCAATACGGCATTCAACGGTTTCCCTGTGCTGGGATCCATCCTCGCCCAGGACGGTTACCTGCCCCGCCAGCTCCGCACCCGCGGCGACCGGCTGGCTTTCAGCAACGGCGTTCTTGCCTTGGCCGCCGGCGCGCTGGTGCTCATTCTGGCGTTCAACGCAGACGTGACCAAGCTCATTCAGCTGTACATCGTGGGTGTCTTCATCTCGTTCACCGCCAGCCAGCTGGGTATGGTCAGGCACTGGGGCCGCGAGCTGAAACTGGCCAAGGACAAGACGGTCCGCCTCCGGATCATCAAGTCCCGGACCATCAACATGATCGGCTTCGGCATGACGGCGCTGGTTCTGGTGATCGTGCTCGTGACCAAGTTTGAGCAGGGCGCCTGGATCGCGCTGCTGGCAATGTTTGTCCTGTACCTCATCATGTGGAGCATCCACGCGCACTACGACAACGTAGCCCGGGAACTCGCTGTGGACGAGGACTCCTCGCCACGCGCCCTGCCCACCCGGGTCCATGCCGTGCTGCTGGTTTCGCATGTACGCAAGCCCGTGCTCCGCGCCCTGGCCTACGCGCGCGCCTCCCGTCCCTCCAGACTGGATGCGATCACCGTGGACATCAATGCGGAGGAAACAGCCCACACCCTTGCCGACTGGGAAAAGCTGGACATCCCCGTGCCCCTCACGGTCCTGGCCAGCCCCTACCGTGAGACCGTCACTCCCATCATGGACTACATCAAGAACATGCGCAGGGACTCACCGCGGGACCTGATCGTCGTGTACATACCGGAATACGTGGTGGGCAAGTGGTGGGAACAGCTCGTCCACAACCAGACGGCGCTGCGCATCAAGACCCGGCTCCACTTCGAACCCGGCGTCATGGTGGCAAGCGTTCCCTGGCAGCTCAAATCATCCGAAGAAGCAAAGAAACTGCAGGACATCCAATGA	MLTILNAVKRVLVGRPFRSDRMAHTLLPKRIALPVYASDALSSVAYAPDEILLTLALAGVSAVAFSPLVGLAVMVVLLTVVASYRQNVHAYPSGGGDYEIANVNLGKRAGLTVASALLVDYVLTVAVSISSAATYLTTAVPSLHGQQVMLATLGVVILALVNLRGIKEAGRVFAAPAYIFMASILGMTAVGLFQGLTGQLGQAPSAAFTIVPAPGFDEGLVGLAGAFLLLRAFSSGAAALTGVEAISNGVPNFQKPKSKNAATTLLLLGIIGSSMLAGVIYLANATKVHIVLDPATEFLLNGQPLPEGYIQSPAISQIAQTVFGPGSIPFYVIVAATGLILVFAANTAFNGFPVLGSILAQDGYLPRQLRTRGDRLAFSNGVLALAAGALVLILAFNADVTKLIQLYIVGVFISFTASQLGMVRHWGRELKLAKDKTVRLRIIKSRTINMIGFGMTALVLVIVLVTKFEQGAWIALLAMFVLYLIMWSIHAHYDNVARELAVDEDSSPRALPTRVHAVLLVSHVRKPVLRALAYARASRPSRLDAITVDINAEETAHTLADWEKLDIPVPLTVLASPYRETVTPIMDYIKNMRRDSPRDLIVVYIPEYVVGKWWEQLVHNQTALRIKTRLHFEPGVMVASVPWQLKSSEEAKKLQDIQ				NA	NA	NA	NA	NA
D1-17_02400	672	trkA	COG0569	Trk system potassium uptake protein TrkA	GTGGCGCACTTCGTGATCATGGGTTGTGGACGCGTCGGAGCCACGCTCGCGCACACGCTCGAGGACGCAGGACATTCGGTGGCCATCATTGACCAGGACGACCGTGCCTTCCGCCGGCTGCGTTCCGGCTTCACCGGGCGCAAGGTCACCGGCGTCGGCTTTGACCGGGACACGCTGAAGCAGGCAGGAGTAGCCGAGGCCTACGCTTTCGCTGCAGTTTCCAGTGGTGACAACTCCAACATCCTGGCCACCCGCGTGGCGCGCGAGACCTTCCACGTCCAGCACGTGGTCGCCAGGATCTACGATCCCGGCCGGGCGGAGATCTACCAGCGGCTCGGCATTCCCACGGTGGCCGCTGTACGGTGGAGCGCCGACCAGGTCCTGCGCCGCATCCTCCCCGAACAGCACATGGCAGGGGACTTCCGCGAGCCTTCGGGCCGGCTTGTCCTCGCCGAACTCGACATCGATCCTGCCTGGATCGGCCACACTGTGGACTCGATCGAAAAGGCCGCTGACGTCCGCGTCGCGTACCTGACCCGCTTCGGCGAAGGGATGCTTCCCACCTCAGGCACCTCTTACCAGGACGGTGACACAGTGCATGCCATGATGCGCCTTGACCGCAGCGTGGAAGTGTCCCAAATTCTCGCCAAAGCACCGGCCAAGGAGTCGTAA	MAHFVIMGCGRVGATLAHTLEDAGHSVAIIDQDDRAFRRLRSGFTGRKVTGVGFDRDTLKQAGVAEAYAFAAVSSGDNSNILATRVARETFHVQHVVARIYDPGRAEIYQRLGIPTVAAVRWSADQVLRRILPEQHMAGDFREPSGRLVLAELDIDPAWIGHTVDSIEKAADVRVAYLTRFGEGMLPTSGTSYQDGDTVHAMMRLDRSVEVSQILAKAPAKES	PGPT0002710_3433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-17_02401	846			hypothetical protein	GTGAAAGTCGTCATCGTCGGAGCTGGAAGCGTGGGTTCCTCGATCGCCCGGGAGTTGCTGGCCCACAAGCACGAGATCCTGCTCATCGACCTCAAACCCGAGGTCATCGGCCGCAGCGGACTGCGCGGAGCGCACTGGCTGGTGGGCGACGCGTGCGAACTTAGCACGCTGCAGGACGCAAAGCTTGAAGACGCGGACGTGGTGGTCTCGGCGACCGGTGACGACAAGGTCAACCTGGTCGTTTCCCTGCTGGCCAAGACCGAATTCGGTGTGGGACGCACAGTGGGTCGTGTCAACAACCCCAAGAATGACTGGATGTTCAACGACTCCTGGGGCGTGGACGTCGCCGTCAACACGCCGCAGCTTATGACGGCACTGGTGGAGGAAGCGGTGGAGATCGGCGACCTCGTCCGGCTGCTTACGCTCCAGACGGGCGTGTCATCCCTGGTGGAATTCACGGTGCCGCACGATTCGCACGCCATCGGGCTCACAGTGGGAAGCATCGACTGGCCGGAGGATTCGACGCTTGTAGCGATCCTCCGCGATCAGGCACCAATCACGCCGAGCCGGGACGACGTCATTGACGGCGGCGACGAGCTCTTCTTCGTGACGACGATTGCCGCGGAGGATCAGCTGCGTGAGCTGCTGTCCCCCGGATCCGCCCAAGGTGCGGATGTGTCCGCCGGATCCGCCCCTTCCGGTGAGGACGGGCCGTTCGGCGAAAGCCTGCCCTCTGCTGGAACCCAGCCATCTGATGGAACCCGGCCATCTGATGAGGCCGTCCCCGCGTCTGTCCCGCAGACACGGCTCGATCAGTCGGCGGAGGACGACGGCTTCGACGGCTGA	MKVVIVGAGSVGSSIARELLAHKHEILLIDLKPEVIGRSGLRGAHWLVGDACELSTLQDAKLEDADVVVSATGDDKVNLVVSLLAKTEFGVGRTVGRVNNPKNDWMFNDSWGVDVAVNTPQLMTALVEEAVEIGDLVRLLTLQTGVSSLVEFTVPHDSHAIGLTVGSIDWPEDSTLVAILRDQAPITPSRDDVIDGGDELFFVTTIAAEDQLRELLSPGSAQGADVSAGSAPSGEDGPFGESLPSAGTQPSDGTRPSDEAVPASVPQTRLDQSAEDDGFDG	PGPT0002710_1977	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-17_02402	795			hypothetical protein	ATGACTCTGCCAGACAATCCGGAGCAGGAGAGGGCAAGGCCCGAACAGGAAAGGGCAAGGCTTGGGCACGAGAGCGAAAGGCCGGAACCGGCGCCGGACAATCCCGGGTTCGCCGGCCTAGCTGAGGGCTATGCCTCCAAATCAGGCTTGCACCGCACGGAGGACGGCCGCATCGACGTCCTCAAGAGCGCCGGCGGCTACCAGGGCATTGCGGAAAGCATCCTCCCCGGCCTGGTGTTCCTGGTCTCCTTCACCATCTCAGCTGCCCTGACGCCGTCGCTGATTGCTGCACTGGCAACGGCCGCTGTATTTACCATCGTGCGCCTCGCCCAGCGCCGCCCGCTGACCCAGGCCTTGGCAGGGGTGGTGGGCGTCGGGATTTCCGCCTGGTTTGCCAACAGCACCGGCAAGGCGGAGGACTTTTACCTTCCGGGTTTCCTGACGAATGCCGCCTACATCGTCGCGATGGTCATCTCAATCGCCGTCCGGTGGCCCCTGGCGGGATTGCTGTTCGGCTTCATCCGCAATGAGGGCCTGGATTGGCGGCAGCATCCGGCCCGGGTACGCGCCTACCAGCTGGGCACATGGATTATCGTCGGGGTGCTGGCTCTTCGGCTTGTGGTGCAGGTGCCGTTGTACCTCATGGGCCCTGAGGGACTGGCCGCCCTGGCCACCACTCGGCTCATCATGGGCGCGCCGCTGTATATTCTGGGCGTGTGGCTGGCCTGGCTGGTTACCCGACCTGCACCCGTGCCGGGGATTCAGCCGTCGAAGCCGTCGTCCTCCGCCGACTGA	MTLPDNPEQERARPEQERARLGHESERPEPAPDNPGFAGLAEGYASKSGLHRTEDGRIDVLKSAGGYQGIAESILPGLVFLVSFTISAALTPSLIAALATAAVFTIVRLAQRRPLTQALAGVVGVGISAWFANSTGKAEDFYLPGFLTNAAYIVAMVISIAVRWPLAGLLFGFIRNEGLDWRQHPARVRAYQLGTWIIVGVLALRLVVQVPLYLMGPEGLAALATTRLIMGAPLYILGVWLAWLVTRPAPVPGIQPSKPSSSAD				NA	NA	NA	NA	NA
D1-17_02403	318			hypothetical protein	TTGGTTGATGCCCGCCCCCATCCGCAGGACGGACCGGTCCCCATCAGCGGGCTGCCGGAGCGGGGGCGCGTGCTGTGCCAGGGCTTCATCGAATCGGTGACCTACGTCCCTGCCAGCCAGGTGGCCGCCTTTACCGCCACAGTGACGGACCATGAAGGCCGCGGCAGGCTGCGCGTCATTTGGCTCGGGCGCAGGCGCGTCCCGGGTATCGACGCCGGCACTGAAGTCCGTCTGCAAGGCATGCTGACCCTGCGCGAGGGTATCCGCACTATGTTCAACCCCCGCTACGAAATACTGTCCCGCCAGGAGAACGAATGA	MVDARPHPQDGPVPISGLPERGRVLCQGFIESVTYVPASQVAAFTATVTDHEGRGRLRVIWLGRRRVPGIDAGTEVRLQGMLTLREGIRTMFNPRYEILSRQENE				NA	NA	NA	NA	NA
D1-17_02404	732			hypothetical protein	ATGGTTTTTGGGCGGCGCAGGAAAGCCAAGATGGAAGAGGCCGTACAGCCGGACGAAGTGCGGGATGAGGACGCAGGCGATGATGCAGGCGACGGTCCAGTAGCATCCGGCCGCAGCGTCACTGGTCCATTCGATGTCTCCGAAGTCAGCAGCAAGGACGGCTACGTCGATCTGGGCGCCCTGCTCATTGCGCCCCGCGAAGGGCTGCAGCTTCGTCTTGAGGTCGAGGAGGCGACCCAGCGGGTTGTGGCAGTAACCATGGACCTGGACGGGTCGAGCCTGCAGCTGCAGGCGTTCGCGGCGCCCCGGTCCGAGGGCCTGTGGGACGAAATCCGCGAACAGATCGGCCAGTCAGTCGGCAGCCAGGGCGGGCAGGTCGAGGAGATCCCCGGCGAGTTCGGCGCCGAGCTCGTGGCCAAGCTGCCTTCCGGAATCAACGACGGGACCCAGGGCTACCGCGTTGCCCGTTTCATCGGCGTTGACGGTCCACGGTGGTTCCTCCGTGGTGTGTTCGGGGGCGAAGCAGCGCTGAACCGCGAAGCCGCTGCCGGCCTTGAGGAACTCTTCCGCAAGATCGTCGTGGTCCGCGGCGACAATCCCATGCCGCCAAGGGACCTGCTGCAGTTGCGCCTCCCCAAGGAAGCCGCCGGACCTGCACCGCAGGGTGCAGCGGACGGTGCGCCGGAATTCGAACAGCCTGAGCGCGGACCGGAGATCACCCAGATTGGTTGA	MVFGRRRKAKMEEAVQPDEVRDEDAGDDAGDGPVASGRSVTGPFDVSEVSSKDGYVDLGALLIAPREGLQLRLEVEEATQRVVAVTMDLDGSSLQLQAFAAPRSEGLWDEIREQIGQSVGSQGGQVEEIPGEFGAELVAKLPSGINDGTQGYRVARFIGVDGPRWFLRGVFGGEAALNREAAAGLEELFRKIVVVRGDNPMPPRDLLQLRLPKEAAGPAPQGAADGAPEFEQPERGPEITQIG				NA	NA	NA	NA	NA
D1-17_02405	501	dut		Deoxyuridine 5'-triphosphate nucleotidohydrolase	GTGACTGACGAACAAACAGCCCTTAAGCCAGCGCTGCGGCATACTGTGCAGATCCAGCTGAAGATGCTCGACGACGGCCTGGAGGCTCCCTCCTACGCCCACCCCGGCGACGCAGGTGCCGACCTGCGCGCCCGCGAGGACGTCGTCCTGGAACCGGGGGAGCGGCGCCTCGTGCCTACCGGCGTCTCGATCGCTCTTCCGGACGGTTTCGTCGCGCTGATCCACCCCCGCTCGGGACTTGCCACGAAGCACGGACTCACCGTTGTCAATGCCCCGGGAACAGTTGATGCAGGATACCGCGGCGAGATCGCTGTGACGCTCCTGAACACCGACCGGGACAAGGCGATAGAACTGCGCCGCGGCGATAGAATTGCACAGATGGTCATTCAGCGCGTGGAATACGCGCAGTTCGTCGCCGTCGGTGAACTGAGCGACTCAGTCCGTGGCACCGGAGGTTTCGGCTCCACGGGCGGCTTTGCTTTGCCAGAGGTCCAAGCATGA	MTDEQTALKPALRHTVQIQLKMLDDGLEAPSYAHPGDAGADLRAREDVVLEPGERRLVPTGVSIALPDGFVALIHPRSGLATKHGLTVVNAPGTVDAGYRGEIAVTLLNTDRDKAIELRRGDRIAQMVIQRVEYAQFVAVGELSDSVRGTGGFGSTGGFALPEVQA	PGPT0021355_331	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
D1-17_02406	492			hypothetical protein	ATGCCCGAATCGAGCGCAGCAGTGCCTGCCCACCACCAGCCGCCGCCGCCGGACGACACTGTCCTTTTTACTGAGAAGCTGTGGCCCAGTGCCTGGATCTGGCTGGTTGCGGCCGGCCTGGCCGGGGCAGGCATCCTGGTGTTTGCGCCCATCAGCCCGGCCGCCGGATTCACGGCCGCCGCGGTCCTCTTCTCCATCCAGGCCGCCCTGCTCATTCTCTCCACGCCCACGGTCACCGTCACGGCGCGCACGCTGCAAGTGGGCAGGGCAGTTATCGACCGCGGGCTGATCGGTCAGGCGGAGGCATTCCGCAAGGAGGAGGCCACGGCTGAGCGGGGCACACGCCTGAATGGCCTGGCATACCTGTGCATCCGCGGTTGGATCGATCCTGTGGTGCGGATCGGCATCAACGACCCGTCCGATCCCACGCCGTACTGGCTGACATCCACCCGCCGCCCGGAGGAACTGGTGGCCGCGCTATCCGCCAGGTAG	MPESSAAVPAHHQPPPPDDTVLFTEKLWPSAWIWLVAAGLAGAGILVFAPISPAAGFTAAAVLFSIQAALLILSTPTVTVTARTLQVGRAVIDRGLIGQAEAFRKEEATAERGTRLNGLAYLCIRGWIDPVVRIGINDPSDPTPYWLTSTRRPEELVAALSAR				NA	NA	NA	NA	NA
D1-17_02407	300			hypothetical protein	ATGGCCACAGACTATGACGCGCCGAGGAAGTCGGAAGAGGACCTCAACGAGGATTCAATCGAAGAGCTGAAGACCCGGCGCGCCGAGAAACCCACCGCAGTGGTGGAAGAGGACGAGGCCGACCTCGCGGAGGGATATGAGCTGCCCGGCGCCGACCTCTCCGGAGAGGAACTGCTGGTCCGGGTCATGCCGGCGCAGGCAGATGAGTTCACCTGTTCGTCGTGCTTCCTGGTCCGGCACCGCTCCCAGATCGCCCGCGAAAAGGACGGCCGCCTGTATTGCCGGGACTGCGAAGGCTGA	MATDYDAPRKSEEDLNEDSIEELKTRRAEKPTAVVEEDEADLAEGYELPGADLSGEELLVRVMPAQADEFTCSSCFLVRHRSQIAREKDGRLYCRDCEG				NA	NA	NA	NA	NA
D1-17_02408	1497			hypothetical protein	ATGCAGGATCTACGGCTTGTAGGCGTCCACGACGACGGGGAGCATCTCCTGTTGAGCGGCGCCGGCGGCGAGATGTTCCAGCTGCCGATCAATGAAGCGTTGCGGCTGGCGGCGAGCCGGCCCTCGCTGCGAAAGCAGGCCTCCGCAGTGACGGCCTTGTCCCCGCGCGATATCCAGGCCAGAATCCGAAGCGGGGCGACCGCTGCCGAGGTTGCCGAGGCTTCCGGGCTGCCGCTGGAAAAGGTCGAGCGCTACGAAGGCCCGGTACTGGCCGAGCGCGAGTACATTGCCCAGCAGGCCCGCAAGGTAGAGGTTGCCTCACCTGCCCCCGGCCACGACATCTACCGGTCGGCCTTTGGCGACAACCCGGCCACCCTCGGTGACATGGTGGGGCACCGTCTTGCGGCACACGGAATTTCCTCGTCCACCCTGGAATGGGATTCCTGGCGACGGCCGGACGGCACATGGACGGTGGTGGCAAGGTTTGAGACCCAGCCGGGAAATCCTGTAACCATCGGCGAAGAGCCGCCGGCCATGTGGACGTTCAACCCGTCCCGCAAATCCTTGCAGAACGCCAACCGTTGGGCACAGCAGCTCAGTGAGCTGGAGCCTCTGGATGGTCCTGTTCCTGCCCGCCGCCTCTCCGCGGTTTCTGACCGGCCTTTCGACTTTGAAACTGACGCCGAGACGGCGGCGCGGAACAGTGCCGATCAGCAGAAGGACGCGGACGGTCTATTGGACATGCTGCGTTCCCGAAGGGGCCAGCGGCTGGGCCTTGACGAAGACAGCGATGACGCCCTGGCGCTCCTGCTGGCCAATGGGGTTCCCGCAGCCCACCCCAGGCCCGAGGAAGCCGCCCCGGTCCTTGCACCGGATGAAGACGAACCTGCTGACGATGAAGCTGCAGGCGATAAAACGGACTCCCCGGCGGCTGAGCACACCGCTGCACCACGCGGCCCTGCACCTGCCGGCCCTGCAACCCATGGTCCTGCCACACGACGCCGCGATGCCCGGCCTTCCATGGTCTCCCGCCTCAGCCTGGCACCGCAACACCAGAGTTTCTCCGGCGGGCCCGAGGACGACTCGCTCCAGCTTCACAACGGCGTCAGCACCGACACCCGCGAAATCACCATCGTCCCGGCACCTCTGCGTCCTGTCGGAAACGAGGGACCTGCTGGCAGTGCCGGTCTTGCGGGACCCGTGGGTGGCGCAGATACTGACAGTACCGGCATCCAGGACACGCCCGGGGCGCGGCCGGCGGATCGCCCTCTTGAACGTCCAGCCGGCGCGTCCGCCGCGAGTAACGCAGGACTCGATGAACTGCTCGGACGGGGAACACCACGCCGCCGGCTCGACGCAGGCCGCGCAGCAGCCGATCAGGGAACGGCCGGCCGCCAGCACCAGGACAGGGACGAACCCGAACGTCAGCCGGCAAGACCAAAACGCTCAAGCGTCCCCAGCTGGGACGAAATCGTCTTCGGAACCCGGGGCGACTAG	MQDLRLVGVHDDGEHLLLSGAGGEMFQLPINEALRLAASRPSLRKQASAVTALSPRDIQARIRSGATAAEVAEASGLPLEKVERYEGPVLAEREYIAQQARKVEVASPAPGHDIYRSAFGDNPATLGDMVGHRLAAHGISSSTLEWDSWRRPDGTWTVVARFETQPGNPVTIGEEPPAMWTFNPSRKSLQNANRWAQQLSELEPLDGPVPARRLSAVSDRPFDFETDAETAARNSADQQKDADGLLDMLRSRRGQRLGLDEDSDDALALLLANGVPAAHPRPEEAAPVLAPDEDEPADDEAAGDKTDSPAAEHTAAPRGPAPAGPATHGPATRRRDARPSMVSRLSLAPQHQSFSGGPEDDSLQLHNGVSTDTREITIVPAPLRPVGNEGPAGSAGLAGPVGGADTDSTGIQDTPGARPADRPLERPAGASAASNAGLDELLGRGTPRRRLDAGRAAADQGTAGRQHQDRDEPERQPARPKRSSVPSWDEIVFGTRGD				NA	NA	NA	NA	NA
D1-17_02409	804	tdk		Thymidine kinase	GTGGCTGAGCTCGTCTTCTTCTCAGGGACCATGGACTGCGGCAAGTCCACCCTCGCCCTGCAAATGGACTACAACCACCGCGCCCGCGGCCGCGGCGGAGTCCGCTTCAGCCGCAACGACCGGGCCGGAGGATCCCGTATTTCAAGCCGGCTCGGACTGAAGACGGATGCAGTGGAAGTCCTGGACACCACTGACTTCTGGGAAGAGGTGGTGCAGCGCCGCACCAAGGGTGTGCGCGTGGACTACCTCATCTGCGACGAAGCCCAGTTCTATTCCGCCGCCCAGGTGGAGCAGCTCGCACGGGTTGTGGATGAGATTGACATCGACGTCTTTGCCTTTGGCATCACCTCCGATTTCCGCACCCGGCTCTTCCCCGGGTCCCAGCGCCTCATCGAGCTTGCCGACCGCGTGCAGGTGCTGCAGGTGGAGGCACTCTGCTGGTGCGGGCGGCGCGCCACGCACAACGCCAGAACGGTCGACGGCGTCATGGTCACCGAAGGGGCACAGGTGGTGGTCGGCGATGTCGTGGCTGCCGGAGAGTCAACCGCAACGGGCGCCGGGACAGACGGCGCCGGGTTGAACGACGGCGGGACGGGACCGGTAGTGGGTTACGAGACGCTGTGCCGGCGGCACTTCATGCGCCGCGTGACCGCCCACGGCGCCAACATCATGGCCCAGAAGGATCAGCTGCTGCCGTTTGAGGTCGACGCGTGCCTGTGGCGCGGGGCGGGCGGTGTTGCGGGCAGCGCATCCGCTGACTGCCAGCCCGGACCGCAGAGCAGCCCAAGGAACCGTCCAGCTTAG	MAELVFFSGTMDCGKSTLALQMDYNHRARGRGGVRFSRNDRAGGSRISSRLGLKTDAVEVLDTTDFWEEVVQRRTKGVRVDYLICDEAQFYSAAQVEQLARVVDEIDIDVFAFGITSDFRTRLFPGSQRLIELADRVQVLQVEALCWCGRRATHNARTVDGVMVTEGAQVVVGDVVAAGESTATGAGTDGAGLNDGGTGPVVGYETLCRRHFMRRVTAHGANIMAQKDQLLPFEVDACLWRGAGGVAGSASADCQPGPQSSPRNRPA	PGPT0021390_438	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
D1-17_02410	1293			hypothetical protein	ATGGGGCCGGACCACGACCTTTCCGCTCCCGCCATCCCCGTATTGCCATCGTCCCCATCCGCGCTTCCTCCTGCCCCCGCCTACGGGCGGCGGTCGGTCGCCGAGGTGCTTGGCAGCGCCGCTGCCAGCATCGGCGTTGACGGCTTCGAGAACCGGCTCGGACTGCCGCCAGCCAGGCGGATCTGTGTTGTCCTCGCTGACGGCCTGGGCCGCGGCCTGCTGAAACAGAAGTCCGCGCACACCCCGTTCCTCCGGGGTGTGCTGCAGCAGGGCCAGGGCGAGGTTCCGGTATGGCTCGATTCCGCGTTTCCCTCCACCACGGCGGCCTCCCTCGCCAGCCTCGGCACCGGCCTGGCTCCCGGGCAGCACGGCTTAGTCGGGTATGACGTCCTTGATCCGTCCCAGGACAAGGTGGTCAACATGCTGGGCAACTGGGATGCCGGCGTGGACCCGCAGGACTGGCAGCCGTTCCCCACCATTTTCGAACGGGCCGCGGAACATGTTGACGTCACCACCGTCAGCCTGCCGCAATTCGGCGACTCACCCATGACCCGCGCAGCCCTCCGTGGCGGCAGCTTCGTTTCCGGGATCACGTCACATGCCCGCACGGCCGCCGCTGCCGAGGCGATGGCGGGCACCGATGCGTCCCTCATGTACTTCTATGTGAACGACCTCGACAAGGCCGGCCACCGCCATGGATGCCAGTCGCCCGAGTGGGAGCACCAGCTCGAAGAACTGGACGCTACGGTCAAACGCCTGGACTCCTCCCTGCCCGCGGGGACTACCGTGCTCCTCACTGCCGATCACGGCATGCTCGATGTGGCCGAAGCGCAGCGGATCGACTACTCCGCGGACCCGGCACTGATAGCCGGCGTACGGCACACAGCGGGGGAGCCGCGGATGCTGCATCTGTACCTGGACGACGGGTTGTCGCGCAGCGGCGCAGACAGCGGCGGTGGCACCGGACGACAGCGCCTGCTCGATGCCTGGCGCGGCCGGTTCGGGGAGCGGATTTGGGCCTTCACCCGGGAACAAGCCATCGCCGCCGGCCTCTTCGGTCCCGTCCGGTCCGGCGTGGAACAGCGCATCGGCGACGTCATGATTGCGGCCCGTGATGCCTTGGCCTTCTACGACACCGGCCGCCAGCGCCCCACTGCCATGGAGGTGGTGGGCCAGCACGGTTCCCTGACCAAGGCGGAGAGGGAAGTTCCGCTGCTCTGCTTCCAGGCTTCCGGCAAGACAGCAGGCCCGGCCTCCGCCCGGACCACCCGCCGCAGGGGAGCCCGTGGCTGA	MGPDHDLSAPAIPVLPSSPSALPPAPAYGRRSVAEVLGSAAASIGVDGFENRLGLPPARRICVVLADGLGRGLLKQKSAHTPFLRGVLQQGQGEVPVWLDSAFPSTTAASLASLGTGLAPGQHGLVGYDVLDPSQDKVVNMLGNWDAGVDPQDWQPFPTIFERAAEHVDVTTVSLPQFGDSPMTRAALRGGSFVSGITSHARTAAAAEAMAGTDASLMYFYVNDLDKAGHRHGCQSPEWEHQLEELDATVKRLDSSLPAGTTVLLTADHGMLDVAEAQRIDYSADPALIAGVRHTAGEPRMLHLYLDDGLSRSGADSGGGTGRQRLLDAWRGRFGERIWAFTREQAIAAGLFGPVRSGVEQRIGDVMIAARDALAFYDTGRQRPTAMEVVGQHGSLTKAEREVPLLCFQASGKTAGPASARTTRRRGARG				NA	NA	NA	NA	NA
D1-17_02411	744			hypothetical protein	ATGAGCTCCCAGCCTCCCACCTCGAAGCCTCAAGCCCCCGACCACAGCCCGCAGGCTTCCATCCACCACAGCTCACACAACCACACCGCCCAGGGACAGAGCTTGGACGGGGCATTGCAGCAGGCCGGTTTCTACCCCCGCCTGGTGGCCGACGTCGTGGATGACGCGCTCGACGGCCGGGACTGCCTTGCGCACCTCGTGCACCTCGAAACTCACTTCGACCGCGCCGAAGTCCGGCGCCACATCACCGTGCTGGTGCTGACCGAGGACATGCTCGTGATCACGCACGTGGATGACCAGCAGCTTGACGACGCCGGCGAGCAGATCGTGGCGCAGATTTCCACGGAGTCCGTCCCTGTGGCCCAGATCCGGTCCGTGGTGCTGAGCTACATGTACTCCCAGCCGCAGAACTACAAGCCCTCGGATCCGGTCCGGGAAGTCACGCTGTCCATCGCATGGTCCGGCGGCCAGCGGCTCGAGATGGGCCCGGCCAGCTGCGGAGACCCGCAATGCGAGGCGGACCACGGCTACAGCGGCACCATTGCCCAGGAGGACATTGTCCTGCGCATCTCCGCAGAGGCTGACGGGCTGCAGGCGGTACAGGACGCCAAGCTTTTCGCCCGCGCGCTCCGCGCGGTGAACACCGGTTCCCCGGCTCCTGTCCCGCACGCAGTCCGCTCGTCCCAGCCGCGCCCCCGGATGGGCGTCTTCTCCAACCGTCTCAGCCGCGGACACCAGCGCTGA	MSSQPPTSKPQAPDHSPQASIHHSSHNHTAQGQSLDGALQQAGFYPRLVADVVDDALDGRDCLAHLVHLETHFDRAEVRRHITVLVLTEDMLVITHVDDQQLDDAGEQIVAQISTESVPVAQIRSVVLSYMYSQPQNYKPSDPVREVTLSIAWSGGQRLEMGPASCGDPQCEADHGYSGTIAQEDIVLRISAEADGLQAVQDAKLFARALRAVNTGSPAPVPHAVRSSQPRPRMGVFSNRLSRGHQR				NA	NA	NA	NA	NA
D1-17_02412	2691			hypothetical protein	ATGGTGGAACAGCCCGCAGACGGCGAATATCCGGAATATTGGGAAGCCGATGTCGTGCTGAGGGACGGCGGAACTGCCCACCTGCGGCCCATCCATCCTACCGATGCTGACGCCGTGCAGGTTTTCCATACCGGACAGTCGCAGAACTCGATCTACATGCGGTTCTTCGCTTTCAAAGCCCGCCTCTCAGCCAAGGAGCTCAAACGGTTCACCGAGGTGGATTATCGCAACCGGGTAGCCTTCGTGATCACCATCGGCGGGGAAATCATCGGCATCGGACGCTACGACCGGCTGGATGACCCCTCGGAAGCCGAGGTGGCCTTTAACATCGCCGACAGGCACCAGGGCCGAGGCATCGGCTCCATCCTGCTGGAACACCTGGCCGCTGCTGCCCGTGAAAACGGCATACGCCGCTTCACCGCTGAAGTCCTGCCGGAAAACCGGAAGATGCTGACGGTCTTTTCCGAGGCGGGTTACGACGTCAAAAGGCATTTCGACGACGGCGTGGTCAGCCTGGAGTTCAACATTGACCCCACCGACAAGTCCCGAGCCGTGATGGAAGCCCGCGAACACCGCGCCGAGGCCAGGAGCGTACAGGACCTGCTCGCGCCGTCGTCGGTGGCGGTGATCGGCGCGAGCCGCAGGTGGGGCACGGTGGGATACCAGCTCCTTGAGCACATCATCGGCGGCGGATTCACGGGCCCCGTTTACGCGATTAACCCTGAGGCGTTTGAACTGGCCGGGATGTTGTCCTTCGGCAAGCTCTCGGAGGTTCCCGGGCCGGTGCAGCTGGCCATCATCGCGGTGCCGTACGAGGAAGTGCCCAAGGTGGTGGACGAGTGCGCGGCAGCCGGGGTGAAGGGAATCCTCGTGGCGTCGGCGGGGTTCGCCGAAGACGGCGAGCGCGGCCTGGTGCGTCAGCGGGCGCTGGTCCGCCAGGCGAGGGCGAACGGCATGCGGGTGATCGGGCCGGCGTCGCTGGGCATCGTGAACACGCATCCGGCGGTCTCCCTCAACGCGTCCATGGCACCCAGCCTCGCCATCCGCGGGGGCCTGGGGCTGTTCAGCCAGTCAGCGGCAATCGGCGTCGCCCTGTATGCGGCCTCCAGCCGCCGCCGCGTCGGCATCTCCACCTTCCTGTCGGCAGGCAACCGCGCGGACGTCTCGGGCAACGACATGATGCAGTTCTGGGAAGACGACGCCGACACCTCTGCCGTGGGGCTGTACCTGGAGTCAATCGGCAACCCGCGCAAATTCTCCCGCCTGGCCCGCCGCCTTGCCCTCACCAAACCCGTCATCGTTGCCAAATCCAGCTCCATGGGCCTGCAGCTGCCTCCGGGGCATGCGGTGCGCACTACCCAGGCACCGCCCGGGGCGCTCGACGCGATGATGCGCCAGGCCGGGGTGATCCGTGTGGAAACCATCGAGCAGCTCATGGATGTGGCACAGATCGTTTCCTCCCAGCCGCTGCCCAAGGGCGCGGACGTCGCAGTGTTTAGCAATTCAGGGGCGCTGGGGAAGGTGGTGGCGGACAGCGCGGCATCGCACGGGCTCGGTATCCAGGACCTCGTGGCAGACCTGGATCTGGACAGCGGCATGTCCCGCGCACTGCCGGAACTGCAGCGCCGGCTGCGCGCTTCCCTGGCACGTGACGAGGTGCACGCGGCCGTGGTGGCGTTCCTGCCGGCCCGGGGTCTAACGGTCGAGAAGATCGCCGATGCGCTCGCGGACTGTTCGGCGGCGGCCGGCAAGCCCGTGGTGGCGGCCTTCACCGGCATCCTTGACCCCTCCGTCTACGTTGAGGGCATGGTGGGGGACGGCACCCCCGCCCCGCCCGTACCGTGCTACTCAAATCCGGGAGCCGCCGTCGCAGCCCTGTCAGCTGTGGTGCGCTACGCGGAATGGGCGGACCGCGACCAGGGGCTGTTCGCGGAACCCGAAGGCTGCGACACCGAAGCCGCGCACGCCGATCTTGAGGGACTGCTTCACGACGTGCGGGGCGAGCAACTCAAGGAGCTCGCCCCGGCCGACGCCGCCCGCTTGCTCGGACACTACGGGATCAGGGTGCTTCCCTCTGAAGGTTTCAATACGGCAGACGAGGCGGTCGCCGCGGCGGACCGGCTGGGTTGGCCGGTGGCGCTCAAGACGACCGACCCGACCCTGCGGCACCGGCTCGATCTGGGCGGGGTGCGGCTCGACATCCAGGACCCCGAGTCCCTCCGGCTGAACATCGCGCAAATGCGGCGGGCACTGGAGCCCTACGGCCCGGCCTCCCTGGAGGTGCAGGCCATGGCGCCGGTGGGGCAGGCCTGCACGTTCCGGGCCATCGAGGACCCGCTGCTGGGGCCGGTGGTCTCCTTCGGGCTGGCCGGTGACGCCGTGAACCTGCTGGATGACTGGGCGCACCGCGTGCCGCCGCTGTCAGGGGCCGATCTCCGCGACTTCATCCGCAGTCCCCGCGCTTCCCGCAAGCTCTTCGGCTATCAGGGACTTCCCGCCGTCAACGTCGCCGCGCTGGAAGACCTGGCCGCCCGCCTGACCCTGCTCAAGGACACCCACCCGGAGATTTCCCTGGTGGAGTTCAACCCCGTCCTCGCGACGCCGCAGGGGGTGTTCATCCTCGGCGCGGACGTGCGGATCGGCAACGCGGCACAGCGCACTGACAGTGCCCGCCGGGCCCTGCGCAACTGA	MVEQPADGEYPEYWEADVVLRDGGTAHLRPIHPTDADAVQVFHTGQSQNSIYMRFFAFKARLSAKELKRFTEVDYRNRVAFVITIGGEIIGIGRYDRLDDPSEAEVAFNIADRHQGRGIGSILLEHLAAAARENGIRRFTAEVLPENRKMLTVFSEAGYDVKRHFDDGVVSLEFNIDPTDKSRAVMEAREHRAEARSVQDLLAPSSVAVIGASRRWGTVGYQLLEHIIGGGFTGPVYAINPEAFELAGMLSFGKLSEVPGPVQLAIIAVPYEEVPKVVDECAAAGVKGILVASAGFAEDGERGLVRQRALVRQARANGMRVIGPASLGIVNTHPAVSLNASMAPSLAIRGGLGLFSQSAAIGVALYAASSRRRVGISTFLSAGNRADVSGNDMMQFWEDDADTSAVGLYLESIGNPRKFSRLARRLALTKPVIVAKSSSMGLQLPPGHAVRTTQAPPGALDAMMRQAGVIRVETIEQLMDVAQIVSSQPLPKGADVAVFSNSGALGKVVADSAASHGLGIQDLVADLDLDSGMSRALPELQRRLRASLARDEVHAAVVAFLPARGLTVEKIADALADCSAAAGKPVVAAFTGILDPSVYVEGMVGDGTPAPPVPCYSNPGAAVAALSAVVRYAEWADRDQGLFAEPEGCDTEAAHADLEGLLHDVRGEQLKELAPADAARLLGHYGIRVLPSEGFNTADEAVAAADRLGWPVALKTTDPTLRHRLDLGGVRLDIQDPESLRLNIAQMRRALEPYGPASLEVQAMAPVGQACTFRAIEDPLLGPVVSFGLAGDAVNLLDDWAHRVPPLSGADLRDFIRSPRASRKLFGYQGLPAVNVAALEDLAARLTLLKDTHPEISLVEFNPVLATPQGVFILGADVRIGNAAQRTDSARRALRN				NA	NA	NA	NA	NA
D1-17_02413	2526	gyrA_2	COG0188	DNA gyrase subunit A	ATGGCCCGCCGCCAGAGTTCCACCCCCGCAGGGGAAATCGTCCAGGACTACACCGAAAACATCGTAGACATCGACGTCACTTCCGAAATGGAAGGCTCGTTCCTGGAGTACGCCTATTCAGTCATCTACTCCCGGGCACTTCCCGATGCCAGGGACGGGCTCAAGCCCGTGCAGCGGCGCATCCTGTACATGATGAGCGACATGGGGCTCCGGCCGGACCGCGGCCATGTCAAGAGCGCCCGTGTGGTGGGCGAGGTCATGGGGAAGCTCCACCCGCACGGCGATACTGCCATCTACGACGCCATGGTCCGCATGGCCCAGGACTTTTCGCTGCGGCTTCCGTTGATTGACGGACACGGCAACTTCGGATCGCTCGACGACGGTCCTGCGGCACCGCGATACACGGAGGCCCGCCTCGCGGCGGCAGCCCTCACCCTGACCGACCACCTCGACGAAGACGTTGTTGATTTCGTTCCAAACTACGACAACCAGCTCACCCAGCCGGACGTCCTGCCGGCAGCGTTCCCCAACCTGCTGGTCAACGGCGCCACGGGCATCGCCGTAGGTATGGCCACCAACATGGCGCCGCACAACCTCGTGGAGGTCATCTCCGCCGCGCGGCATCTGATTGCCAACCCGGACGCCACGCTGGATGACATCATGCGCTTCGTGCCCGGCCCCGACCTTCCCACCGGGGGCCGGATTGTGGGCCTGGACGGCATCCGGGACGCGTACGCCACCGGCCGGGGCTCCTTCAAAACCCGCGCCAAGGTGGAGGTGGAGCAGCTGTCGGCCCGCCGGACGGGCCTCGTTGTCACCGAGCTGCCGTACATGGTGGGCCCGGAAAAGGTGATCGAAAAGATCAAGGACGCCGTCAACGGCAAGAAGCTGACGGGCATCAGCGACATCGTTGACCTGACCGACCGCAAGCATGGCCTGCGCCTCGTCATTGAGCTGAAGAACGGTTTCAATCCCAACGCGGTGCTTCAGCAGCTCTACCGCTACTCGCCCATGGAAGACTCCTTCGGCATCAACAACGTTACCCTCGTTGACGGCCAGCCGCAGACCCTCGGCCTGCTCCAGCTGCTCACTGTCTACGTGGACCACCGCCTGAACGTGGTGCGGCGCCGGACGGCGTTCCGGCTGGGAAGGAAGAAGGACCGCCTGCACCTGGTGGAGGGTCTGCTGATCGCCATCGTGGACATCGACGAAGTCATCCAGATCATCCGGTCCTCGGATGAGGCGTCAGCTGCCCGCGAACGGCTGATGTCCATCTATGACCTCTCGGAGATCCAGGCGAACTACATCCTGGAACTGCGGTTGCGCCAGCTCACCAAGTATTCCCGGATCGAGCTGGAAAAGGAGCAGGACGAGCTGCGCCGTGAAATCGCCGAGCTCGAAGCGATCCTCGCCTCGGAGGAGCTGCTGCGTGATCTGGTCTCCGGAGAACTGGCGGAGATCGCGGAGAAATACGGCACTCCCCGGCGTACTGTGCTCCTGGAATCTGAGGCTGTCTCCCCCACCGTCCCGGCGGCAGCAGACGGCCTGCAGGGTAAGAACGGGGTCAAGGGCAAGGCCGCGCCGCTGGCACTGGAAATCCCGGACGATCCCTGCTGGGCCATCCTCACCGCGTCCGGACAGATCGCCAGGACATCCAACCAGGACAGCCTCGCTGAGTCCGGGCCGCGTTCCAAGCACGACGTGTTCCGCTCCGTCGTCAAGACGTCCGCCCGGGGCGAGATTGCGGCTGTCACCTCACAGGGGCGGATGCTGCGCATCCAGGTGATGGACATGCCGGTCCTGCCCCCGATGTCCGGCGTGCCCAACCTGGCCGGCGGGGTTCCTGCCAAGGACTTCATTACGCTGCTGAAGGGCGAATCGCTGGTGGCGTTCGCACCGCTGGACGAAGTGCTCGCAATCGGGACGGCCCAGGGCGTGGTCAAAAGGGTGCAGCCGGACTACCCGCTCAACCGGGAGGACTGGGAAGTCATAGCGCTCAAGGACAAAGACAGCGTGGTAGGCGTGGCACCGGCAGGAAGCGATGACACCGAGCTCGTCTTCCTGACGCGCCAGGCCCAGCTGCTGCGCTTCAGCGCGGGCAACGTCCGGCCGCAGGGCCGGACAGCCGGCGGCATGGCCGGCATCAAGCTTGCTCCGGGCGACCAGGTCATCTTCTTCGGCGCCGTTGCCCCCGGCGACGAGGCCGCCGTCGTCGTCACTATCGCCGGGACCGACGGCGCGCTGCCGGGAACCGCGCCGGGCGCCGCGAAGGTCACGGCGTTTTCGGAGTACCCGGCCAAGGGCCGGGCCACCGCCGGAGTCAGGGCGCACCGCTTTTTGAAGGGCGAGGACGTCCTGCTGCAGGCATGGGCCGGCCATGGCCCGGCGAAGGCGTCATCGCTGGCCGGCGTGGCACGTTCGCTCCCCCAGGAGCACGGACGCCGTGACGGTTCAGGCATTCCGCTCTCCCAGGCCGTGGAGGCAATCGGGCCCAGCATGACCTGGGCTGAGTCCGCGGAGACCTAG	MARRQSSTPAGEIVQDYTENIVDIDVTSEMEGSFLEYAYSVIYSRALPDARDGLKPVQRRILYMMSDMGLRPDRGHVKSARVVGEVMGKLHPHGDTAIYDAMVRMAQDFSLRLPLIDGHGNFGSLDDGPAAPRYTEARLAAAALTLTDHLDEDVVDFVPNYDNQLTQPDVLPAAFPNLLVNGATGIAVGMATNMAPHNLVEVISAARHLIANPDATLDDIMRFVPGPDLPTGGRIVGLDGIRDAYATGRGSFKTRAKVEVEQLSARRTGLVVTELPYMVGPEKVIEKIKDAVNGKKLTGISDIVDLTDRKHGLRLVIELKNGFNPNAVLQQLYRYSPMEDSFGINNVTLVDGQPQTLGLLQLLTVYVDHRLNVVRRRTAFRLGRKKDRLHLVEGLLIAIVDIDEVIQIIRSSDEASAARERLMSIYDLSEIQANYILELRLRQLTKYSRIELEKEQDELRREIAELEAILASEELLRDLVSGELAEIAEKYGTPRRTVLLESEAVSPTVPAAADGLQGKNGVKGKAAPLALEIPDDPCWAILTASGQIARTSNQDSLAESGPRSKHDVFRSVVKTSARGEIAAVTSQGRMLRIQVMDMPVLPPMSGVPNLAGGVPAKDFITLLKGESLVAFAPLDEVLAIGTAQGVVKRVQPDYPLNREDWEVIALKDKDSVVGVAPAGSDDTELVFLTRQAQLLRFSAGNVRPQGRTAGGMAGIKLAPGDQVIFFGAVAPGDEAAVVVTIAGTDGALPGTAPGAAKVTAFSEYPAKGRATAGVRAHRFLKGEDVLLQAWAGHGPAKASSLAGVARSLPQEHGRRDGSGIPLSQAVEAIGPSMTWAESAET				NA	NA	NA	NA	NA
D1-17_02414	519			hypothetical protein	ATGCCTATCATCCCGGATGAAAAAGACTGGACCTGGGTCCTTTCCCGCGCGTGCAGCCAATGCGGCTTTGATGCCTCAACAGTCACGCCGTCGACGGTGCCGGGCAGCGTGGAGAACATGCTCCCGCGGTGGCGTGCCGTGCTGCGCCGGCCGGACGCTGCAGAGCGCCCAAATGACAGCACGTGGCCGGCACTGGAGTATGCCTGCCATGTCCGCGACGTCTTCAACCTCTTTGACCGGCGGCTGAACCTCATGCTCACCGACAACGACGCGAAATTCGACGACTGGGACCAGGACCGGACGGCCGTGGAGAGCGGCTACGCCAACGCCGACCCCACGCTCGTGAGCGCGGAACTGACCGCCGACGGCGAACAAGTGGCCGCCTCCTTCGCGCGGGTCAGCGAGTCGGAATGGGGCCGGACAGGGCTGCGCAGCAACGGCTCCAAGTTCACTGTGCTCACCCTTGCGCAGTATTTCCTGCACGACGTCACCCACCACTTGGCCGACGTCGACGGATAA	MPIIPDEKDWTWVLSRACSQCGFDASTVTPSTVPGSVENMLPRWRAVLRRPDAAERPNDSTWPALEYACHVRDVFNLFDRRLNLMLTDNDAKFDDWDQDRTAVESGYANADPTLVSAELTADGEQVAASFARVSESEWGRTGLRSNGSKFTVLTLAQYFLHDVTHHLADVDG				NA	NA	NA	NA	NA
D1-17_02415	1023	mshD_3		Mycothiol acetyltransferase	ATGGTTCAATCCGGCTCCTTGAAGGGCTCCACGGAACGAATAGTCAATGTCCCCTCGCTGCGGTGGAAAAGCGCCACACGCGACGACATCGGAGTGTGGGCGGACCTCATCGCCAGGACAGCGGCTGTGGAGAAGCCTGTGTGGTTTGAACGCCGCCCCGAGCTTGAGCAGATCATGGAGTCCCGGAAGAACCCGCCGGAGGGCAACACGGTGCTGGGGTTCGACCGGGACGGTACCGCCCGGGCCTACGCGCGCATCACCAAGAACCCTGACAGCGGAAAGGCGTACGGCTTCGGCTGCGTCGATCCCGAATGGCAGCACCGCGGTGTCGGCACAGCGCTGCTGGAGTGGCTTGAGGCCCGGACGCGGCATCGCTTCCTCGAGGATGGCGGCCCCCTCGAGGATGGCGGCCCCGCCGCACGGCTCCGGATCCATAGTGAGCAGCAGCACGGGCACCAGATCGCACTCTTCACCAGGCATGGGTACAGCGTCGTGCGCTACTTCAATGAGATGCACCGGCCACTGACCGGGCCCTTGCCCGAGGTCACCATGGACCCGGACTTTGAGCTGGTGGCAATGGGGCCCGGGCTGAGTGAGGCGGTGCGGCTCGCGCACAACGATGCCTTCCGTGACCACTGGGGCAGCGAGCCAAAGGACGAAGAGTCGTGGGGATTCATTGTCAACGACCCCCAATCCCGGCCCGACCTCAGCGCGGTTGTGCTCGAGCGGGCTACCGGGAAGGTGGCCGGGTACCAGTTGGCCACCCATGATCCGGACAGCGCCGTGACCCGCGGCTTCAGCGAAGGCTACACGGACCTGCTCGGTGTGCGGCGGGAGTTCCGTGGTCGCGGCATCGCCAGTGCGCTGCTGGCCGATGCGATGCGTCGCTTCGCCGCTAATGGTTTGGACGTCGCTTCCCTGGATGTCGACTCGGAGAATCCCACCGGTGCCCTGGCGCTGTACCTGAAGATGGGCTACCAACCCGTCAACAGGAGCCTGGCGTGGGACAAGTACCTGGACTAG	MVQSGSLKGSTERIVNVPSLRWKSATRDDIGVWADLIARTAAVEKPVWFERRPELEQIMESRKNPPEGNTVLGFDRDGTARAYARITKNPDSGKAYGFGCVDPEWQHRGVGTALLEWLEARTRHRFLEDGGPLEDGGPAARLRIHSEQQHGHQIALFTRHGYSVVRYFNEMHRPLTGPLPEVTMDPDFELVAMGPGLSEAVRLAHNDAFRDHWGSEPKDEESWGFIVNDPQSRPDLSAVVLERATGKVAGYQLATHDPDSAVTRGFSEGYTDLLGVRREFRGRGIASALLADAMRRFAANGLDVASLDVDSENPTGALALYLKMGYQPVNRSLAWDKYLD				NA	NA	NA	NA	NA
D1-17_02416	3546	btuD_4		Vitamin B12 import ATP-binding protein BtuD	GTGAAGCCACAATTTCCCAGCGGGCCCTCGACCCGTGCCGCGCTCTACGGGCTGGGCCTGCTCGCGGCGCTGAAAGCGCTCGCCCTCGTCCTCATGGGACAGGCCGTAGCATCGGTCCTCGCCAATCTCATGAGCAAAGACCCTGCCTGGGCCGACCAGCTGGTGTGGGGCATGACCGGCGTCGTCCTCAGGGCAGCCACAGTCTGGGCGCAGGGAGTGGTTTCCCGGCGGGCTGCCTTGGGCGTCAAGGAGGAGCTGCGCTCGCAGCTCCTGGAGCATGCCCTGCGCAACGGTGTCCGCACGTCGGGTCCGGCCGACGGCGGCCTGGCGGTCCTGGCTACGCGGGGCCTGGATGCACTGGACAGCTATTACACGCAGTTCCTGCCCGCCTTAGTGAATTGCGCGACGATTCCGCTGCTGCTGGGTGCGCGGATCCTGTTCGCCGACTGGGTGAGCGCCGTGGTGGTGGTGCTGACAGTGCCGCTCGTACCGCTGTTCATGGTGCTGATCGGCCGCTATACCGAGGACAAGGTCAGGGACGCGCAGGCGGCGTTGTCCCGGCTCTCGGCCCACATGCTGGAACTGGCCAAAGGGCTTCCGGTGCTGGTGGGGCTCGGCCGGGCTGCGGCCCAGCGGCGCGCGCTCGAAGACATTTCCGAGGAGTACCGTTCCCGCACCATGGGCACGCTTCGGACCGCGTTCCTCTCTGCCCTGGCGCTTGAACTGATTGCAACGATTTCGGTAGCCGTGGTTGCCGTCTTCATCGGCGTGCGGCTGGTGCACGGCGACATGGGGCTGGAGGCGGGGCTCCTCGCCCTGATCCTTGCGCCGGACTGCTACCTTCCGCTGCGTGAACTGGGAACGGCACATCACGCGAGCGACGACGGCCGCGCGGCGCTCGCTGAGACGACGGCGGTGCTGGACGCGCCGGGCCAGCAGCGGCTCGCTCCCGCTACCGTTCCGGCCGGCGGTTCCGGCAGTGTTCAGGATGTCACGGTCAGGGGACTCGCCGTCCGCTACCCCGGACGGCGCGGTGCCGCCGTCGGGCCACTCAGCTTCACCGCACCGGCCGGGTTGGTCACCGCCCTCGACGGACCCAGCGGCGCCGGGAAGAGCACCGTGCTGGGGGTCCTTGCGGGGACTGTCGGATCTACGGCCCGCACGGATACAGCCCGCACGGATACAGCTGGCACGTGCACAGCCGGAACGGAAGTTACCGGAGCCCTGCAGGGCTTCGCGTCCGGGGATGTGGCGTGGGTGCCCCAGCATCCGGTCATGGTGGCGGATAGCGTGAGGGACGAGGTGCTGCTGTACCTGACGGCCGACGCTGCCGGAACGGGCAGCCCGGCAGACGCACAGAAGGCCGCCACTGACGTTATGCAGTGCCTCGCGTCGGTTGCCGCGGCCCACCTGGCCGGAAAGCACCCGGCGGAACTGAGCCCCGGCGAACTGCGCCGGGTAGCGCTGGCCCGTGGGCTGGCGCGGGTTCGGGCCGGCGCCACGGTGCTGCTGCTCGATGAACCCACCGCCCACCTGGACCGGGAGACTGCCGACACTGTCGCGGACGCTATCCGTGGCCTCCGAGGCCGGGTGACAGTTGTCCTGGTCGCCCATGACCGACAGACACGCGAACTGGCCGACCACATGGTTGCCCTGGCCGCGGCCGGGCAGGAGGCCCAGGTATCCGATAGCTCTGCCTTTGTTACGGCTGCCTCTGTTACGGCTGACTCTGTTACGACCGATTCTGTCAGGGCTGTCTCTGCCGGGACTGCCCCCACCAGCACTGTCTTCCGGAGCGAAGTCCCGGCCGTGAGCGCCGGCGCAGAAGCGCTGGACCTGGCCTCCAAGGCTGAAGCAAGGGCAGCTGAACAACCTGCGCCGATCGCCGGACTGCTGGGCCGGCTGCTCGCCCCGGTGCGCGGCAGGTTCGCCGGTGCCGGCGCCGTGGGGATCCTGGCTTCGGTCTTCGCTGTTGCCCTTGCCGGCCTATCCGGCTGGCTCATCCTGCGGTCCAGCGAACAGCCGCCCATCCTGTACCTGCTCACGGCTATCGTGGGGGTCCGGTTCTTCGGAATCGGCAGGGCTGTGCTGCGCTACTGCGAGCGGCTGCTGCTCCACGACGCCGTCTTTGCGTCGCTGACCCTGCTTCGCGGACGCCTGTGGGAGTCGCTGAGCCGGCGGGCCCTGTCCCTGCGGCGGCTGCTCCAGGGCGGGAACGTCCTCGGTGTGGTGGTCGACGACGTCGACACCGTCCGGGACCTGCTGCCGCGGGTCGTCCTGCCGCCGGTGACGGCGTTGGCCGTGGCGGCAGCCGCCGCCGGAACGTCTGCCTGGCTGGTGCCGGCTGCACTGCCGGCGGTCCTGGCCGCGGCCGCCGCCAGCCTGGTCCTGGCGCCCGCCGCCGCGCTGCTGGCCGACCGAATGTCTGCCCGCACCGAACAGCGGCTCCGCTCAGGCGTCCTGCACCGCATCACCGCCGCCCTCGACGCGAGGGCGGAACTGCTAGCCAACGGCACGGCAGCACCAGTCCTGGGCGCCATCCGGGCGGAGGACCGCGCGGCGACGCGGGCGTCGCAGCGCTCCGCCTGGGCAGAGGGACTCGGCCAGGCGATCACTGTCGCGGCGTGCAGCGCCGCGGCACTGTCCTGCGCCGCCCTCGCAGCACCCCAGGTCCTGGCCGGTGCCGTCGCAGCGCCCACTGCCGCCGTTGTTGTCCTGATGCAGCTCGCCGTGGCAGAACCGTTCGCCGCCATGACGACCGCGGTCCGCCAGTATCCGGCACTGCGTGCCGTGCTGCGCCGCATCGGGGGCTCCGGGGTGCTGGAGGATGGCCAGGGTTCCCGCGCTACGGAACTAACAGCTCCTTCGCCACGGCAGGGCGGCCGCCCGGGGCTTGAACTCGCCGGGGTGTCGGCCGCGTGGCCCGGGGGCGCTCCTGTCTTCACCGACCTGTCGGCCGAGGCGGCACCTGGCCGCTGGCTGGCTGTCACCGGCCCCTCGGGCGCGGGTAAATCCACCCTGCTGGCGGTTCTGCTGGGTTTCCTGCCCGCCGACCAGGGCCGGATCCGCGTCAGCGGCCGGGTCGCCTGGTGCCCGCAGGAAGCACACCTCTTTGATTCCACCATCCGAGGCAACCTGCTGCTGGGGCGCACTGAGCAGTCATCGGACACCGGGCAGCCCGCTGACGCCGAACGGGACATGCAGCAGGCACTCAACGCTGTTGGTCTGGGACCCCTGCTGGAGCGGCTCGACCACGGGCTCGACACCAGGATTGGCCCGGGCGGCGCCTTTCTCAGCGGCGGGGAAAGGCAGCGGCTCGCAGTGGCCCGCACCCTGATGACGCAGGCCGACGTCATCCTGCTGGATGAGCCCACGGCCCACCTTGACGCCGAATCGGGCAGGGCGCTGATGGCCGACCTGCGGGCCGGGCTCCGCTCCCGGACCGTGGTGCTCGTGACGCATAACTCCGACGACACTAGCCATGAGGACGTGCTGCTGGCACTCAGGTCCGGCGCGTCCATGGCGCCGTCAGGGGCCTCCGGTTAG	MKPQFPSGPSTRAALYGLGLLAALKALALVLMGQAVASVLANLMSKDPAWADQLVWGMTGVVLRAATVWAQGVVSRRAALGVKEELRSQLLEHALRNGVRTSGPADGGLAVLATRGLDALDSYYTQFLPALVNCATIPLLLGARILFADWVSAVVVVLTVPLVPLFMVLIGRYTEDKVRDAQAALSRLSAHMLELAKGLPVLVGLGRAAAQRRALEDISEEYRSRTMGTLRTAFLSALALELIATISVAVVAVFIGVRLVHGDMGLEAGLLALILAPDCYLPLRELGTAHHASDDGRAALAETTAVLDAPGQQRLAPATVPAGGSGSVQDVTVRGLAVRYPGRRGAAVGPLSFTAPAGLVTALDGPSGAGKSTVLGVLAGTVGSTARTDTARTDTAGTCTAGTEVTGALQGFASGDVAWVPQHPVMVADSVRDEVLLYLTADAAGTGSPADAQKAATDVMQCLASVAAAHLAGKHPAELSPGELRRVALARGLARVRAGATVLLLDEPTAHLDRETADTVADAIRGLRGRVTVVLVAHDRQTRELADHMVALAAAGQEAQVSDSSAFVTAASVTADSVTTDSVRAVSAGTAPTSTVFRSEVPAVSAGAEALDLASKAEARAAEQPAPIAGLLGRLLAPVRGRFAGAGAVGILASVFAVALAGLSGWLILRSSEQPPILYLLTAIVGVRFFGIGRAVLRYCERLLLHDAVFASLTLLRGRLWESLSRRALSLRRLLQGGNVLGVVVDDVDTVRDLLPRVVLPPVTALAVAAAAAGTSAWLVPAALPAVLAAAAASLVLAPAAALLADRMSARTEQRLRSGVLHRITAALDARAELLANGTAAPVLGAIRAEDRAATRASQRSAWAEGLGQAITVAACSAAALSCAALAAPQVLAGAVAAPTAAVVVLMQLAVAEPFAAMTTAVRQYPALRAVLRRIGGSGVLEDGQGSRATELTAPSPRQGGRPGLELAGVSAAWPGGAPVFTDLSAEAAPGRWLAVTGPSGAGKSTLLAVLLGFLPADQGRIRVSGRVAWCPQEAHLFDSTIRGNLLLGRTEQSSDTGQPADAERDMQQALNAVGLGPLLERLDHGLDTRIGPGGAFLSGGERQRLAVARTLMTQADVILLDEPTAHLDAESGRALMADLRAGLRSRTVVLVTHNSDDTSHEDVLLALRSGASMAPSGASG				NA	NA	NA	NA	NA
D1-17_02417	1050	cydB	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGGAACTGTTGCCCACTGTCTGGTTCATCGCCATCGCCGTGCTGTGGACGGGATATCTCTTCCTCGAGGGATTCGACCTTGGAGTTGGCATGCTGATGAAGCTCTTCGCGCGCGACAACACGGAACGGCGCTTGCTGCTCAACACCATCGGACCCGTCTGGGACGGGAATGAAGTCTGGCTGCTTACCGCAGCCGGAGCCACGTTCGCCGCCTTTCCGTTCTGGTATGCGTCCCTCTTTTCAACCCTGTACCTGCCGCTGCTCATCGTCCTGGTGGCCTTGATCTTCCGGGCCGTAGCGTTTGAATACCGCGGGAAAGTGGACACCGTCCGCTGGCGCACCACCTGGGACTGGGCCATCGCCGTCGGTTCCTTCCTGGCCGCCTTCGGCGTGGGCGCGGCCCTTGCGCTCACCACGACGGGCCTGCCTTTGGACGCCAACGGGGACCGGGACGGGGGACCGTTCGCCTGGTTCAGCGGCTATGCGGTGCTCGGCGGCTTCGCCGTGGCGGGCTTTGCGCTGCTGCACGCACTCGCGTTCCTAGCGCTGAAGACCGACGGCGAGGTCCGGCACCGTGCCCGACGCTGGTTCGTGCGGCTGCTTCCCGTCCTGCTCCTGCCCATGGCTGCCTGGGCCGTAAGCGTGCAGCTCCTCTTCGGCAAGACCTGGACGCTGGCCCTCCTCGCCGCTGCCGTGTTCGCGGCAGCCGCCGCATGGTTCCAGGCACGGACAGGCAAAGAGGGCAAGGCCTTTCTGGCCACCGGAGTGTTCCTGGTTGGCGGTACCGCCTCAATCTTTGGCGCCGTCTTCCCGCGGGTGCTTCCCTCGACCATCGATCCTGCGTTCAGCCTGACCATCGCCAATGCGTCATCCTCGGATTACACCCTGGGGCTCATGACTGCCGTCGCGTGCGTGGGACTGCCGCTGGTCATCGCCTACCAGGCCTGGACTTACTGGGTCTTCCGCCGCAGGGTCAGCGCCGCCGACATTCCGGAGGCGCACAGCTTTGTGCCCGCCATCGCCGCCAAAGCCTTCCTTCGGAACGACTGA	MELLPTVWFIAIAVLWTGYLFLEGFDLGVGMLMKLFARDNTERRLLLNTIGPVWDGNEVWLLTAAGATFAAFPFWYASLFSTLYLPLLIVLVALIFRAVAFEYRGKVDTVRWRTTWDWAIAVGSFLAAFGVGAALALTTTGLPLDANGDRDGGPFAWFSGYAVLGGFAVAGFALLHALAFLALKTDGEVRHRARRWFVRLLPVLLLPMAAWAVSVQLLFGKTWTLALLAAAVFAAAAAWFQARTGKEGKAFLATGVFLVGGTASIFGAVFPRVLPSTIDPAFSLTIANASSSDYTLGLMTAVACVGLPLVIAYQAWTYWVFRRRVSAADIPEAHSFVPAIAAKAFLRND	PGPT0026705_1730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026705-cydB-K00426	NA	NA
D1-17_02418	1602	cydA	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	TTGGAAGCCTTGGAAATCGCACGCTGGCAATTCGGAATCACCACCGTTTACCACTTCATGATGGTGCCGCTGACCATCGGCTTGGGCCTCGCCGTGGCCGTGATCCAGACAGTCTGGTACCGGACGGGCAACCCTGCCTACCTGCGGATGACCAAGTTCTGGGGGAAGCTCTTCCTCATCAACTTCATCATGGGCGTGGCCACCGGCATCGTGCAGGAGTTCCAGTTCGGCATGGCCTGGAGCGAGTACAGCCGCTTCGTGGGCGACGTCTTCGGGGCGCCTTTGGCCCTTGAGGCCCTGCTCGCGTTCTTCGTCGAGTCCACGTTCCTGGGGCTCTGGATCTTCGGCTGGAAGCAGCTCAAGAAGGGCGTCCACCTGGCCTGCCTCTGGATCGCCGTCGTCGGTTCATTCTTTTCCGCCTACTTCATCATTGTGGCCAACAGCTGGATGCAGCACCCTGTAGGCGTCGACATGATCGACGGCCGGCCTGTCATGACGGATGCCTGGGCGGTCTTCACCAACAACACGGCCCTCGTCGCCGTGCCGCACACTCTCTTTGGCGCCCTTGCCGTTGCAGGAGGCTTCCTGCTCGGCATCGCCTGGTACCACCTTTGGCGGCGGCGCCACGACGGCATTGACACCGTCGGCGCTGACGGAAAGGTCATCGTCGGCTCGGCCGACATTTCCGGCCGCGACGGCACCGACCACACCGTGTGGCTCCGCTCCCTCCGTATCGGGGCGGTTGTGGCCATGATTTCCTTCGCAGGCACGGCGCTTACCGGAGACCTTCAAGGCAAGCTGATGTTCGAGCAGCAGCCGATGAAAATGGCGGCAGCCGAAGCAGCCTGCCACGACGGTACGGGCTTTTCGGTCCTGAGCGTGGGAAACCTCGGATCCCAGAACTGCGACGACATTGTGGCCCTGATCGAGGTGCCGGGCGTCCTCTCCTACCTGGCCAAGGGGGATTTCACCACCGAGGTCAAGGGCGTGAACAGCCTGGTAGGCCAGTACAAAGCCGACTACGGCACCCACCTGCCTGACAACCCCATCTACGGTGAGCGTGCAGGACAGGAAATCGAGTACGTGCCGGTCATGGAGGTCACCTACTGGGGCTTCCGCATGATGATCGGATTCGGTGGAATCGCGGCCATCGCTGCACTCCTGGCGCTGTGGGTCACACGCAGCGGCACGGTTCCGCAGTCCCGCTGGCTCATGCGGCTGGCCGTGGTCGGAATCCTGGCCCCGTTCGGAGCAAACGCCGCGGGCTGGATCTTCACAGAGATGGGACGCCAGCCCTTCGTCGTGGCGCCAAACCCCGACCTCAACGGAATTGACCCGGTTTTCATGTTCACGGCCGCCGCGGTTTCCCCTGGGGTCTCGGCCGGTGAGATCCTGACCTCCCTGATCGTCCTGACCGCCATCTATGCGGTGCTGCTCGTGGTGGAGGTGAAACTCCTTGTGAAATACGTCCGCGGCGGCGTGGTCTCCGCCATGCCGGAGCTGGCCCACGCTCCCGCTGATGAGAACGAGGATGCCACTCCCGGTCCGGACGGGCCGCGCAAGCCCGGAACCGGCGACGACGTGCTGGCCTTCGCCTACTAA	MEALEIARWQFGITTVYHFMMVPLTIGLGLAVAVIQTVWYRTGNPAYLRMTKFWGKLFLINFIMGVATGIVQEFQFGMAWSEYSRFVGDVFGAPLALEALLAFFVESTFLGLWIFGWKQLKKGVHLACLWIAVVGSFFSAYFIIVANSWMQHPVGVDMIDGRPVMTDAWAVFTNNTALVAVPHTLFGALAVAGGFLLGIAWYHLWRRRHDGIDTVGADGKVIVGSADISGRDGTDHTVWLRSLRIGAVVAMISFAGTALTGDLQGKLMFEQQPMKMAAAEAACHDGTGFSVLSVGNLGSQNCDDIVALIEVPGVLSYLAKGDFTTEVKGVNSLVGQYKADYGTHLPDNPIYGERAGQEIEYVPVMEVTYWGFRMMIGFGGIAAIAALLALWVTRSGTVPQSRWLMRLAVVGILAPFGANAAGWIFTEMGRQPFVVAPNPDLNGIDPVFMFTAAAVSPGVSAGEILTSLIVLTAIYAVLLVVEVKLLVKYVRGGVVSAMPELAHAPADENEDATPGPDGPRKPGTGDDVLAFAY	PGPT0026700_260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0026700-cydA-K00425	NA	NA
D1-17_02419	387	blaI	COG3682	Transcriptional regulator BlaI	ATGGCGAGTCTTGGTGAACTGGAACGGGCAGTGATGGACCTGCTCTGGGCGGGCCGGGAAGCGGCGACTGCCAACACCCTGCGCGACATGCTGGCACAGAGCACCGCGGCGCAGGGCGGCGCAGCAGGGCACGTTGGCAAGGACCTTGCGGTCACCACTGTCCTCACGGTGCTTTCGCGCCTGGAAAAGAAGGGCTTGGTCGAGCGCGAACGCGGCACCCGCCCGCACCGCTACCAGGCCGTTTCCAGCCGCGCGGACCACACCGCGGAACTCATGCACGAAGTGCTCGGATCGGCCCCTGACCGCGAGGCTGTACTGGCCAGGTTTATCGGCTCGGTGACGGAAAGCGAAGCTGAGACACTGCGCAAACTGCTTGGCCACAGCTAG	MASLGELERAVMDLLWAGREAATANTLRDMLAQSTAAQGGAAGHVGKDLAVTTVLTVLSRLEKKGLVERERGTRPHRYQAVSSRADHTAELMHEVLGSAPDREAVLARFIGSVTESEAETLRKLLGHS				NA	NA	NA	NA	NA
D1-17_02420	987			hypothetical protein	ATGTTCTGGACCTCATATTTCCTGGCGGTCCTGGCGATAGTACTGGCATGGCCGGTACCTATCCTTCTCTCCCGCGCCCGCTGGCCGGCGCGGGATCCGTTCACAGCCATGGTGCTGTGGCAGGCCATCGGCCTCGCCGGCGGCCTTTCCATGATCGGCGCGATGCTGGTTTACGCGCTCGAGCCGATCGGTGACAACCTCATTGCCGGCCTGCGGGCGCTGGCAGGCATGGTGTTCCAGAACGAACCCACGACAGCCCTCGGGTTCTGGCACCTCTTTGCGCTGTCCGCAGCCGCACTGCTGAGCGCGCACCTCGTGTTCACCCTGCTGCTGACGTATTACAAGATCGAGCGGCAGCGCCGGAAGCACCGCGAACTGCTCGCGCTGCTGGCCTCCCCCTCCGAACACGGCACCGCCACCATGGTGATTAATCACGATTCTCCGGTTGCGTACTGTCTGCCGGGCGGCGCGCGGTCCGTCACCGTACTCTCCGACGGGCTCATGGCGGCACTGGAACCGGCGGAGCTGCGAGCCGTACTGATCCACGAGAACGCCCATCTCAACCAGCGCCACCACCTGCTGCTGTGGGCCTTCGCCGCGTGGCGTCAGGCGCTGCCCTGGCTGCCCACGACCCGTCTGGCGCAGGAAGCTGTCAACTCCCTCATCGAAATGCTGGCCGACGACGTGGCCCTCAAAACGGAGAGCAAAGCCACGCTCATTAAAGCGATCGCCATCGTGGCCAGCGGCTCCGCCGTGCCGCAGGCAGCGCCTGCCTTTGGCCAGGGCGCCCGGGGTGACCAGGGGCTGCAGCTGCCGGACGGCTCCGGAGGAGCCGTCCCGGCGAGCACGACGGCGTCCCGCGTCAGCCGCCTGCTCTCACCGCGCCCTCCGCTGCCCGCAGCCCTCCGGGCCAGCGTGCTCGCCGTCTGTGTGCTGCTACTGGCCATGCCCACGGCCCTGCTCATTGTGCCGGGGCTGCTGGGCTAG	MFWTSYFLAVLAIVLAWPVPILLSRARWPARDPFTAMVLWQAIGLAGGLSMIGAMLVYALEPIGDNLIAGLRALAGMVFQNEPTTALGFWHLFALSAAALLSAHLVFTLLLTYYKIERQRRKHRELLALLASPSEHGTATMVINHDSPVAYCLPGGARSVTVLSDGLMAALEPAELRAVLIHENAHLNQRHHLLLWAFAAWRQALPWLPTTRLAQEAVNSLIEMLADDVALKTESKATLIKAIAIVASGSAVPQAAPAFGQGARGDQGLQLPDGSGGAVPASTTASRVSRLLSPRPPLPAALRASVLAVCVLLLAMPTALLIVPGLLG				NA	NA	NA	NA	NA
D1-17_02421	2106	gyrB_2	COG0187	DNA gyrase subunit B	GTGGCACCGAGTTCTGATTACACCGCCCGCCACCTTTCGGTGCTGGAGGGCCTCGAGGCCGTCCGGAAACGCCCGGGCATGTACATCGGTTCCACCGATTCCCGGGGCCTCATGCACTGTCTCTGGGAGATCATCGACAATTCCGTGGACGAGGCCCTGGCCGGTTTCGGCCACGACATCAAGATCATTTTGCACGCGGACAACTCGGTGGAGATTCACGATGACGGCCGCGGCATTCCCATCGATGTCGAACCCAAGACCGGCCTTACCGGCGTTGAAGTCGTTTTCACCAAGCTGCACGCCGGAGGCAAGTTCGGCGGGGGCTCCTACACCGCGTCCGGTGGCTTGCACGGGGTGGGCGCCTCGGTGGTCAACGCTCTCTCCGCCCGGCTCGACGTCGAAGTGGACCGCGGCGGCAAGACATACAAGATGTCCTTCCGCAGGGGCGAGCCCGGCCGCTTCAAGGACGGCACGCGCCCTGACCCTGCCGCCCCCTTTGAGCCGTTCGTGGACAACTCCGTGCTGGACATTGTCGGCAAGGCCAAGCGGGGGGTGACAGGCACGCGGATCCGTTACTGGGCGGACCGCCAGATCTTCACGCCTGACGCCAAGTTCTCCTATGAGGAACTGGCCGCCCGCGCCCGCCAGACGTCGTTCCTGGTCCCGGGCCTGAAGCTGACCGTCTGTGACGAACGGAAACATCCCGGAACGCCCGGCGAGAACGGGCCCCACGAGGAGGTTTTTCACCACGACGGCGGCATTTCCGAATTCGTGGAGTTCCTCGCCATCGATTCCGGGGTCACGGACGTCTGGCGGCTCCATGGTGCTGGGAAGTTCAAGGAAACTGTTCCGGTGCTGGACGAAAAGGGCCACAGCGCACTGGCCGAAGTCGAGCGTGACTGCGAAGTGGACGTTGCGCTTCGCTGGGGCATCGGCTACGACACCACCGTCCGCAGCTTCGTCAACATCATTTCCACACCCAAGGGCGGCACTCACCAGGCCGGCTTTGAGCAAGCTCTCGTCAAAACCTTCCGTAAAGCTGTGGAGGCCAACGCCAGGAAGCTCAAGGCCGGCAACGACAAGATCGAAAAGGATGACATCTTCGCGGGCCTGACCGCCGTGCTCACGGTCCGTCTCGCCGAGCCGCAATTCGAGGGGCAGACAAAGGAAATTCTCGGGACGTCGGCGGTGAAGGCCATCGTGGCACGGATCGTGGAGAAGGAGATCACGGCCAAGCTCAACTCCTCCAACCGCAATGACAAGGCGCAGTCCGCGCTGCTGCTGGAAAAAATCGTCAGCGAGATGAAATCCCGCATCTCCGCCCGTGTGCACAAGGAGACGCAGCGCCGAAAGTCGGCACTGGAGTCCTCCTCAATGCCGACCAAACTGGCAGACTGCCGGACGGATGACGTGGCCCGGTCCGAGCTGTTCATTGTCGAGGGCGATTCCGCCCTCGGCACCGCCAAGCTGGCCCGGTCGTCGGACTTCCAGGCGCTGCTGCCCATTCGCGGGAAGATCCTGAACGTGCAGAAGGCTTCCGTGGGCGACATGCTGTCCAATACTGAATGTGCTGCGCTGATCCAGGTGGTGGGGGCCGGGTCGGGGCGCAGCTTCGCGATCGAGGCCGCCCGCTACGGGAAGGTGATCCTCATGACGGACGCCGACGTCGATGGCGCGCACATCCGAACGCTGCTGCTCACTCTGTTCTTCCGCTACATGCGGCCCATGGTCGAGCAGGGCAGGGTTTTCGCGGCTGTGCCGCCACTGCACCGGGTGGAAGTCATCAATCCCGGCCAGAAGGCCAACGAGATGATTTACACCTACTCGGAGGCGGAGCTGCACGCGCTGCTGGCCCGCCTCGCCAAGGAAGGCAAGCGCTACAAGGAACCCATTCAGCGCTACAAGGGCCTGGGGGAGATGGACGCCGAGCAGCTGGCCGAGACCACCATGGACCCCCGGCACCGCATGCTGCGCAAAGTCAACATCGAGAACGCCCAGCACGCGGAAGCCACCTTTGACCTGCTCATGGGTTCGGACGTCGCGCCCCGCAAAGACTTCATCGTTGCGGGGGCAGCCAGCCTCGACCGCGACCGCATCGACGCCTGA	MAPSSDYTARHLSVLEGLEAVRKRPGMYIGSTDSRGLMHCLWEIIDNSVDEALAGFGHDIKIILHADNSVEIHDDGRGIPIDVEPKTGLTGVEVVFTKLHAGGKFGGGSYTASGGLHGVGASVVNALSARLDVEVDRGGKTYKMSFRRGEPGRFKDGTRPDPAAPFEPFVDNSVLDIVGKAKRGVTGTRIRYWADRQIFTPDAKFSYEELAARARQTSFLVPGLKLTVCDERKHPGTPGENGPHEEVFHHDGGISEFVEFLAIDSGVTDVWRLHGAGKFKETVPVLDEKGHSALAEVERDCEVDVALRWGIGYDTTVRSFVNIISTPKGGTHQAGFEQALVKTFRKAVEANARKLKAGNDKIEKDDIFAGLTAVLTVRLAEPQFEGQTKEILGTSAVKAIVARIVEKEITAKLNSSNRNDKAQSALLLEKIVSEMKSRISARVHKETQRRKSALESSSMPTKLADCRTDDVARSELFIVEGDSALGTAKLARSSDFQALLPIRGKILNVQKASVGDMLSNTECAALIQVVGAGSGRSFAIEAARYGKVILMTDADVDGAHIRTLLLTLFFRYMRPMVEQGRVFAAVPPLHRVEVINPGQKANEMIYTYSEAELHALLARLAKEGKRYKEPIQRYKGLGEMDAEQLAETTMDPRHRMLRKVNIENAQHAEATFDLLMGSDVAPRKDFIVAGAASLDRDRIDA	PGPT0027710_1078	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027710-parE-K02622	NA	NA
D1-17_02422	222			hypothetical protein	ATGACAACAGCAGTTGCCGACCGCACACTTAACGCAGCTGACCGGTGCGACCGTTGCGGAGCGCAGGCGTACGTCCGGGTTGTACTCGAGTCCTCCGGTGGTGAGCTGCTCTTCTGCGCTCACCATTCACGTGCCGTCGAAGCGACCCTCAAGCCGCTGAGCTCAGAATGGCACGATGAGTCGGGCCGGCTTCACGAGAAGGCGCCGGTACCGGTCGACTAG	MTTAVADRTLNAADRCDRCGAQAYVRVVLESSGGELLFCAHHSRAVEATLKPLSSEWHDESGRLHEKAPVPVD				NA	NA	NA	NA	NA
D1-17_02423	1320	rpoD		RNA polymerase sigma factor RpoD	GTGACCCCGTCTTCCGCGAAGAAGGAACCCGCCGCCCAGGCCGATGTGTCGGCCGAGGACAAGAAGGCGGCAACTAACGCCAAGCGCGCAGCAACCCGTGCCGCCAATAAGGCTGTCAAGGATGCTGCTGTCGCCGGTGGCGGTGACGCCTCGAAGCCCGAGCCGAAGAAGCGTGGACCCAAGCCCGGCGCCAAGGCGGCAGCCGAAGCTGCCGGAAACGCAGCCCCTGATGACGACGTTGAGGTTGACGTCGAAGAGGACCTGGACGACGTAACGCCCGATCCCTCTGAACTCACCGAGGAACCCGACGAGGCCGGCAAGACTGCCGCCGCCCCCACAGGGTCCGGTTTCGTATACTCCGACGCGGACGACGACGATGCCCCCGTGCAGCAGGTCATGTCCGCGGGCGCCACCGCCGACCCCGTCAAGGACTACCTCAAGCAGATCGGCAAGGTTGCGCTCCTCAACGCCGAACAGGAGGTTGACCTTGCTCTCCGGATTGAGGCCGGCCTCTTCGCCGAAGAGAAGATCGCCAACGACGATGGCTCGATGGACCCGAAGTACAAGCGTGAGCTTGAGTTCATCATCCACGACGGCAAGCGCGCCAAGAACCACCTTCTCGAAGCAAACCTCCGCCTCGTGGTGTCCCTGGCCAAGCGGTACACCGGCCGCGGCATGCTGTTCCTGGACCTCATCCAGGAAGGCAACCTCGGTCTGATCCGTGCAGTTGAGAAGTTCGACTACACCAAGGGCTTTAAGTTCTCGACCTACGCCACGTGGTGGATCCGGCAGGCGATTACGCGTGCCATGGCCGACCAGGCCCGCACCATTCGTATCCCTGTCCACATGGTCGAAGTCATCAACAAGCTCGCCCGCGTGCAGCGCCAGATGCTGCAGGACCTCGGACGCGAACCCACTCCCGAGGAACTGGCCCTCGAGCTGGACATGACCCCGGAAAAGGTCGTGGAGGTCCAGAAGTACGGCCGCGAGCCGATCTCCCTGCACACGCCTCTGGGTGAGGACGGCGACTCCGAGTTCGGTGACCTCATCGAGGATTCAGAAGCCGTGGTTCCAGCCGATGCCGTGAGCTTTACCCTGCTGCAGGAACAGCTGCACTCCGTTCTTGACACCCTGTCAGAGCGGGAAGCCGGAGTTGTTGCCATGCGCTTTGGCCTCACCGACGGCCAGCCGAAGACTTTAGACGAAATCGGCAAGGTCTACGGCGTCACGCGTGAGCGTATCCGTCAGATCGAATCCAAGACCATGTCCAAGCTGCGCCACCCGTCGCGGTCTCAGGTCCTGCGGGATTACCTGGACTAG	MTPSSAKKEPAAQADVSAEDKKAATNAKRAATRAANKAVKDAAVAGGGDASKPEPKKRGPKPGAKAAAEAAGNAAPDDDVEVDVEEDLDDVTPDPSELTEEPDEAGKTAAAPTGSGFVYSDADDDDAPVQQVMSAGATADPVKDYLKQIGKVALLNAEQEVDLALRIEAGLFAEEKIANDDGSMDPKYKRELEFIIHDGKRAKNHLLEANLRLVVSLAKRYTGRGMLFLDLIQEGNLGLIRAVEKFDYTKGFKFSTYATWWIRQAITRAMADQARTIRIPVHMVEVINKLARVQRQMLQDLGREPTPEELALELDMTPEKVVEVQKYGREPISLHTPLGEDGDSEFGDLIEDSEAVVPADAVSFTLLQEQLHSVLDTLSEREAGVVAMRFGLTDGQPKTLDEIGKVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLD	PGPT0014685_837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
D1-17_02424	1419			hypothetical protein	ATGAACGCACCTGAGCACCTGATCATCAGTGGCCCCGAGGATATTCTCGGATTTGTTCCCCACACGCTGGGGTATTGGCCCTCCCGGAGCCTCGTGGCCATGACCATGCAGGGCAAACGGCTGGGGGCCACGCTGCGCGTCGACCTCCCGGAAGCCGGCCCGACAGACCGCGGGGAGGATTTCGCCGGAACTGTAGCTGAGTATCTCCTCGCGGATGTGGAGGCCGACGGCAGCCTGTTGATCTTTTTTACTGATGACGGCTGGGCGGACGCCGCCGGCCCGCCGGGCAGCCGGGCGCTGCTCGCAGCCCTCGAGCCTGCCCTCGGGCTCGCTGGCATGCCGGTGCGGGACGCCTGGTACGTCGGCCCGGAGTACTGGAGGAACGCGTACTGCACCGACCCCGGTTGCTGTCCCTTGCCCGGCCGCCCCCTCGCGGAAATTCGCGACAGCAGGCTCAACGCCGAAATGGTGTACCTGGGAAGCAGCGTGGGCGAGGCCCCCGGTACCGGCACCCCCGCAAGTCCAGGATCCGGTAAACCCGCCGTGATGGAGGCCGAAGAACGCTGGGCACTGGAACTGTGTGCCAGGCGAAGCAGCCGGAAGCAGTTTGAAACCGTGCTGGATACATGGCAGGCGGTGCTGGCTTCCAAGGCTGCGATGGCCGTCAAGGCGCCGAGCCTGGATACGACAGACGGTGCGGAACCGGCACCCGCCGTGACGGCTGCACCGGGTATTTCAGCGGCACCGGGTATTCCAGCGGCAGCGGGCTTTCCAGCGGCACCGGGGCCCGCATCCGGAGGTGACCTGCCGTGTGACATTGCCGGATTTCTCCGGGCCACTCTCCGCGTCCCGGCCTGGCGGGATGCCGTGCTCGTGATGGCTGCCGCGGGGCGTGCCACCGCCCGGGCAGGGGCTGAGCAGTTTGGCATCTTCTCCCAAGAGCCCGTGTTGCCGGCAAAAGGGCCGGCCCTCGTTCAGATGACGTCCGTTCACCTGGCGTCCGTTCATCTGCCGTCGGGCACAGTGGATGCCGGGGAAACCGGTCAGAAGGCGAGCTGCCCGAATACTGACCGCAGCGACAGGCAGGCCGGGCTGCCCGGTTACGGCGAGGTCCTGCTTGGCCTTAGCCCGGCGCTGCCCGACTGGAACATCATGAAATTCCTTGAAGACGTCATGCTTGATCTCGTGGCATGCGGCCCGGGGGAAGCGGAGGCAGCGGCGTGGACCTCCAGAGGTTGGATCGAGTGGTGCCGGGGGCGGGGGTCCTACGCCCACGCCTCGCTGTCCAAAGCGCTGGAGGCCGCGCCCGGCTACAGGCTCGCCGAACTGCTCTCCGAGGTGGTCCGGCGGGGAACGATCTGCGGCTGGGCAGGAAGGAAGGAGGCGGCCTGGCACAGGTTCGGCGTGGACGCGGCCTAA	MNAPEHLIISGPEDILGFVPHTLGYWPSRSLVAMTMQGKRLGATLRVDLPEAGPTDRGEDFAGTVAEYLLADVEADGSLLIFFTDDGWADAAGPPGSRALLAALEPALGLAGMPVRDAWYVGPEYWRNAYCTDPGCCPLPGRPLAEIRDSRLNAEMVYLGSSVGEAPGTGTPASPGSGKPAVMEAEERWALELCARRSSRKQFETVLDTWQAVLASKAAMAVKAPSLDTTDGAEPAPAVTAAPGISAAPGIPAAAGFPAAPGPASGGDLPCDIAGFLRATLRVPAWRDAVLVMAAAGRATARAGAEQFGIFSQEPVLPAKGPALVQMTSVHLASVHLPSGTVDAGETGQKASCPNTDRSDRQAGLPGYGEVLLGLSPALPDWNIMKFLEDVMLDLVACGPGEAEAAAWTSRGWIEWCRGRGSYAHASLSKALEAAPGYRLAELLSEVVRRGTICGWAGRKEAAWHRFGVDAA				NA	NA	NA	NA	NA
D1-17_02425	1338			hypothetical protein	GTGACTGCACCCCGCGCCTGGCTCGTTTGGTCCATAGGCATTTTCGCGTACCTGGTGGCTGTGACCCAGCGTACGTCCTTTGGTGTGGTCGGGCTCGAGGCGACGGAGCGTTTTCACGCCACTGCCTCGGCCATCTCCTTTTTCACAGTGCTCCAGCTGCTCGTCTATGCGGCCCTGCAGATCCCCGTCGGCGTGCTGGTGGACCGGTTCGGCTCCCGGGCCATGATCGCCGGCGGGGCCCTGCTCATGGGCCTCGGCCAGCTCCAGCTCGCCTTCGCCGAAAGCGTCCCGGCCGGCGTGCTCGGCCGGGTGCTCGTCGGCGCCGGCGACGCAATGACCTTCATTTCCGTCATCCGGCTGATTCCGCTGTGGTTTGCTCCCGCCCGGGTGCCGCTGCTGACCCAGCTCACCGGAATGTCCGGGCAGCTGGGGCAGTTGCTCAGCGTCGTGCCCTTTGCCTTCGTCCTGCATAGCGCCGGCTGGAGCCCCGCCTTCCTGTCCCTCGCCGGACTGTCCGGCCTCGCCGTCGTCCTGGTTGTCCTGCTGCTGCAGGATCTGCCGCCGGGCACCCCGCGGCAGGAAGCGGCCAAGGGGCTGAAGGCCACCGGCATCTCGCTTTCCCGGGCATGGAAGCAGCCGGGCACGCGGCTGGGCATGTGGAGTCACTTCACCATCCAATTCAGCGGCACCGTTTTCGCGATGACGTGGGGGTACCCGTTCCTTATATCCGCGCAGGGGCTGGATGCTGCTACCGTGGCCTCGCTGATGTCCCTTTATGTGGCCGGCGCGATCGGGGCCGGACCGCTGATCGGCCGGTTTGTCGCGCGGCACCCGCTGCGGCGCTCCACCATGGTTCTGCTCCTCGTAGCTGCCACCGCTGCGGCATGGGCGGCCGTGCTCCTGTATCCCGGCCGGTCGCCATTGTGGCTGCTGGCCGTCCTCATTGTGGTGCTGGCCATCGGCGGTCCCGGCTCCATGATCGGCTTTGATTTTGCGCGTACGTTCAACCCGGCACACCGGATCGGCACGGCCACCGGCATTGTCAACGTGGGCGGTTTCTTCGCCGCGCTCATGGCCATCTACCTGATCGGCGCCGTCCTGGACGTGCTGTACACCACCGGTTTTTCCAACGGCGCGCTGTATGGCCTGGAACCGTTCCGCATCGCGCTCTGTGTGCACTTCCTCCTTCTCGGCATCGGCTCCATCGCGATGCTGGTGGTTCGCCGCAAGGTCCGCCGGCAGATGGCTGCCCAGGGAATCGTTGTCCCGCCGCTGCTCCAGGCGATGGCCCAGCAGCGGCGGGCGCGCAATGCCCGGAAGTCCGCGTCCCAGGGATAA	MTAPRAWLVWSIGIFAYLVAVTQRTSFGVVGLEATERFHATASAISFFTVLQLLVYAALQIPVGVLVDRFGSRAMIAGGALLMGLGQLQLAFAESVPAGVLGRVLVGAGDAMTFISVIRLIPLWFAPARVPLLTQLTGMSGQLGQLLSVVPFAFVLHSAGWSPAFLSLAGLSGLAVVLVVLLLQDLPPGTPRQEAAKGLKATGISLSRAWKQPGTRLGMWSHFTIQFSGTVFAMTWGYPFLISAQGLDAATVASLMSLYVAGAIGAGPLIGRFVARHPLRRSTMVLLLVAATAAAWAAVLLYPGRSPLWLLAVLIVVLAIGGPGSMIGFDFARTFNPAHRIGTATGIVNVGGFFAALMAIYLIGAVLDVLYTTGFSNGALYGLEPFRIALCVHFLLLGIGSIAMLVVRRKVRRQMAAQGIVVPPLLQAMAQQRRARNARKSASQG				NA	NA	NA	NA	NA
D1-17_02426	939			hypothetical protein	GTGTTTGAACGGATTTCCGGCTCGCTGCTGGACCCCGATGCGCTCTATGCCAAGAACATCGAGCTGTTCCACAGCCCCGGGCTGCGCGGGCTGAACCTGGTGATGGCCTTCACCGGCTTTGCCGATGCCGGCCACGTGGTCCGCCAGATCACGGCTGAACTCCTGGACAACCTTGAGTCCGAGCGGGTGGCCGTGTTCGACGCTGACCAGCTGATCGACTACCGCTCCCGGCGTCCGCATGTGACGTTCGTGGAAGACCACCTCGAGGATTACCAGGCGCCAAGCCTGGCCTTGTACAAGCTGGTGGACGGGCTGGGCCGGCCGTTCCTGTTCCTCGCCGGATTCGAACCGGACCTGCAGTGGGAACGCTTCGCGCGTGCGGTGGTGCAGATCGTGGAGGCCCTCGACGTCAACCTCGTGACGTGGATCCACGCCATCCCCATGCCTGTTCCGCACACCCGCCCGGTCGGCGTGACCGTGCACGGCAACCGTCCAGACCTGATCGAAGGCATCTCGGCGTGGAAGCCGACGGTGGAAGTGCCGGCAGCGGTGGGCCACGTGCTGGAACTGCGCCTTGCCGGTGCCGGCCGGAATGTGGCTGGTTATGTCATCCACGTCCCGCATTACCTTGCCGAGGCTGAATACCCGACCGCAGCCGTGGCCGGTCTGGAGTACCTGGGCGCTGCGGCTTCCCTCATGCTGCCCACCGACCGCCTCCGTGAGTCGGGCCGCGAAGTGGGCCGGCAGATCGCCGAACAGGTCGAGGCGTCCGCTGACGTCCAGCAGGTGGTGGCCAAGCTGGAAGCCCGCTACGACGAAAAGGCGGAAGGGACGGTGCGGCGGTCACTCCTGGCCGACGAGAACGATGAGCTGCCCGATGCTGACACGCTGGGCGCCGCCGTCGAAGCCTATCTCGCCCGTGAAAACCCGGCACATTAA	MFERISGSLLDPDALYAKNIELFHSPGLRGLNLVMAFTGFADAGHVVRQITAELLDNLESERVAVFDADQLIDYRSRRPHVTFVEDHLEDYQAPSLALYKLVDGLGRPFLFLAGFEPDLQWERFARAVVQIVEALDVNLVTWIHAIPMPVPHTRPVGVTVHGNRPDLIEGISAWKPTVEVPAAVGHVLELRLAGAGRNVAGYVIHVPHYLAEAEYPTAAVAGLEYLGAAASLMLPTDRLRESGREVGRQIAEQVEASADVQQVVAKLEARYDEKAEGTVRRSLLADENDELPDADTLGAAVEAYLARENPAH				NA	NA	NA	NA	NA
D1-17_02427	1524	pepA	COG0260	putative cytosol aminopeptidase	GTGGTCAAGAATAGTGAAATAAACATCAGTGCCGTTGCACGCGACCTCAAGAAGGCGGCGAGCGACGCCGTCGTGGTGGGCGTGGGACAAGGGGCGGACGGTCCGGTCCTGCTCGAGAACCCGTTGTCCGCCAAGTCCGCAGAGGCACTGACCGAATCGCTGAAGGTTCTTGGCATCACGGGCGCTGCCGACCAGGTTGTCCGCCTTCCCGGGCTTCCGGAGGCAGGAAACGGCATCGTCGTCCTGGCCGGCGTCGGCAAGACAAGCCCCGGCCAGCGCCTCAGCCGCGAGGCGCTGCGGCGGGCAGCAGGCTCCGCAGTCCGTCAGCTAGCGGGACTGTCCACTGTTACGCTGGCGTTCCCGACGGCGGATGTCGCCGATGTCGAAGCAGTCGCCGAAGGCGCGGCGCTGGGCGCCTACTCCTTCACTGAGTACCGCTCCTCGAAAGACGGCCTCAAGGATCCGGTCCGCAGCGTGGTGATCTTCACCGACCTGGCCGGCGGCAAGGATCTGGAGCCGGCATTGAAGCGGGCCGCCCTCGTAGGAAAGGCGGTTAACGCCACCCGCACGCTGGTCAACCAGCCGCCGAGCCACCTCTATCCCGAGACCTTCGCCGAGGCGGCCAAGGAACTGGCGAAGGGCCTGCCCGTCAAGGTGACGGTCTGGGACGAAAAGCGCCTCGAGAAAGAGGGCTTCGGCGGCATCATGGGCGTCGGCAAGGGCTCTGCACGCCAGCCCCGCCTGGTGAAAGTCGAATACTCGCCGGCGAAGGCCACCCGGAAGATCGCGCTTGTGGGCAAGGGCATCACGTTCGATACGGGTGGCATTTCCATCAAGCCGGCCCTGGGCATGGGTGACATGAAGAGCGATATGGCGGGTGCCGCCGTCGTCCTCAACACAGTGCTGGCGCTCGCCGGTTTGGGCTTGCCGGTCAAGGCGACAGCCTGGCTCTGCATCGCTGAAAACATGCCGTCGGGTTCCGCGTCCCGCCCGGCCGACGTCCTCACGATCTTCGGCGGCAAGACCGTTGAGGTCCTGAACACCGACGCCGAGGGTCGGCTGGTCATGGCCGACGGCATCGTCGCAGCGAGCCAGGAGCATCCCGACGTCATCATCGACGTGGCCACTCTCACCGGTGCGCAGCTGATCGCACTGGGAAACCGCACCGCAGGCGTCATGGGCGCCGACAGCGTAACTGCCCCGCTCAAAGCGGCAGCCGACCGGGCCGGCGAGCTGGTCTGGCCGATGCCGCTGCCCGAGGAACTGCGGCCAAGCCTGGATTCGCAGGTGGCGGACATCGCCAACATCGGAGAACGCCACGGCGGCATGATGACGGCGGCGGTGTTCCTGCGCGAGTTCGTGGGCAAGGCAAAAGACGGCGAAACCATCCCGTGGGCGCATATCGATATTGCCGGCCCTTCCTTTAACAACGGGGCGCCGTACGGCTATACCCCTAAGCAGGGCACGGGCTGCACCGTCCGCACGCTCGTCGCGTATGCCGAGGACCTTCTGGCCCGGGCGTGA	MVKNSEINISAVARDLKKAASDAVVVGVGQGADGPVLLENPLSAKSAEALTESLKVLGITGAADQVVRLPGLPEAGNGIVVLAGVGKTSPGQRLSREALRRAAGSAVRQLAGLSTVTLAFPTADVADVEAVAEGAALGAYSFTEYRSSKDGLKDPVRSVVIFTDLAGGKDLEPALKRAALVGKAVNATRTLVNQPPSHLYPETFAEAAKELAKGLPVKVTVWDEKRLEKEGFGGIMGVGKGSARQPRLVKVEYSPAKATRKIALVGKGITFDTGGISIKPALGMGDMKSDMAGAAVVLNTVLALAGLGLPVKATAWLCIAENMPSGSASRPADVLTIFGGKTVEVLNTDAEGRLVMADGIVAASQEHPDVIIDVATLTGAQLIALGNRTAGVMGADSVTAPLKAAADRAGELVWPMPLPEELRPSLDSQVADIANIGERHGGMMTAAVFLREFVGKAKDGETIPWAHIDIAGPSFNNGAPYGYTPKQGTGCTVRTLVAYAEDLLARA				NA	NA	NA	NA	NA
D1-17_02428	1383	pdhD		Dihydrolipoyl dehydrogenase	GTGGCCGATCAGGCAACTGCGCAAGAATTCGACATCCTGGTACTCGGCGGCGGAAGCGGCGGCTACGCCACCGCACTCCGGGCCGTTCAGCTTGGCTTCTCTGTTGGGCTCGTGGAGAAGGCCAAGCTCGGCGGCACCTGCCTGCACAACGGCTGTATCCCCACCAAGGCTCTGCTCCACTCGGCCGAGCTGGCCGACCACGCCCGTGATTCCGCCAAGTACGGCGTGAACGTCACGCTGGACAGCATCGACATGGGCGCCGTGAACGCCTACAAGGACGGCATCGTTGCCGGCAAGTACAAGGGCCTGCAGGGCCTGATCAAGTCCAAGGGCATCACCGTCATCGAGGGTGAAGGCAAACTTCAGGGCACCGACACCGTCGTCGTGAACGGCACCGCCTACAAGGGCAAGAACATCGTTCTGGCCACGGGCTCCTACTCCCGCACTCTTCCGGGACTGGAAATCGGCGGGAAGGTCATCACCTCCGACGAAGCACTCACCATGGATACCATCCCGAAGAGCGCTATCATCCTGGGCGGTGGCGTGATCGGCGTTGAGTTCGCCTCGGTCTGGAAGTCCTTCGGCGTCGACGTCACCATCGTTGAGGGTCTGCCGTCGCTGGTCCCCAACGAGGACGCCGCCATCGTGAAGAACTTCGAGCGTGCGTTCAAGAAGCGCGGCATCAAGTTCTCCACCGGTGTCTTCTTCCAGGGCGTTGAGCAAAACGCCGACGGCGTCAAGGTCACCCTCGTCGACGGCAAGACCTTCGAAGCCGACCTGCTCCTCGTGGCCGTCGGCCGTGGCCCCGTCACCGCAAACCTCGGCTTCGAAGACGCCGGCATCACCGTTGACCGCGGCTTCGTGATCACCAATGAACGCCTCCACACCGGCGTCGGCAACATCTACGCTGTGGGCGACATCGTCCCGGGCGTCCAGCTGGCGCACCGCGGCTACCAGCAGGGCATCTTCGTCGCCGAGGAAATTGCCGGGCTCAAGCCGGCCATCGTCGAAGACGTCAACATCCCCAAGGTCACTTACTCGGAGCCTGAAATCGCCACCGTCGGCTACACCGAAAAGGCTGCCAAGGAGAAGTTCGGCGAAGACCAGGTCCAGACCCAGGAATACAACCTCGCCGGCAACGGCAAGAGCTCGATCCTGGGTACCGGCGGCATCGTCAAGCTGGTCCGCCAGAAGGACGGCCCCGTGGTGGGCGTTCACATGATCGGCTCCCGTATGGGCGAGCAGATCGGCGAAGCGCAGCTGATCGTGAACTGGGAAGCCTACCCCGAGGATGTGGCCCAGCTGCTGCACGCCCACCCCACCCAGAACGAGGCACTGGGCGAAGCCCACCTCGCCCTCGCGGGCAAAGCCCTCCACGGCTAG	MADQATAQEFDILVLGGGSGGYATALRAVQLGFSVGLVEKAKLGGTCLHNGCIPTKALLHSAELADHARDSAKYGVNVTLDSIDMGAVNAYKDGIVAGKYKGLQGLIKSKGITVIEGEGKLQGTDTVVVNGTAYKGKNIVLATGSYSRTLPGLEIGGKVITSDEALTMDTIPKSAIILGGGVIGVEFASVWKSFGVDVTIVEGLPSLVPNEDAAIVKNFERAFKKRGIKFSTGVFFQGVEQNADGVKVTLVDGKTFEADLLLVAVGRGPVTANLGFEDAGITVDRGFVITNERLHTGVGNIYAVGDIVPGVQLAHRGYQQGIFVAEEIAGLKPAIVEDVNIPKVTYSEPEIATVGYTEKAAKEKFGEDQVQTQEYNLAGNGKSSILGTGGIVKLVRQKDGPVVGVHMIGSRMGEQIGEAQLIVNWEAYPEDVAQLLHAHPTQNEALGEAHLALAGKALHG	PGPT0001380_8071	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001380-lpd|pdhD-K00382	NA	NA
D1-17_02429	1740	dlaT	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGTCTGAATCCGTTAACTTGCCCGCCCTCGGTGAGAGTGTCACCGAAGGAACCGTCACCCGCTGGCTCAAGCAGGTAGGTGACCGGGTAGAGGTGGACGAGCCGCTGCTCGAGGTCTCCACCGACAAAGTAGACACTGAGATCCCCTCTCCTATCGCCGGCGTCATCGAGGAGATCCTCGTTGCTGAAGACGAAACAGCAGAAGTTGGCGCTCCCCTGGTCCGCATCGGTGATGGTGCCGGCGGCGGATCCGCACCGGCTGAAGAGGCACCCGCCGAGGCCGCACCGGCCGAAGAAGCCCCGGCCAAGGAAGCTCCAGCCGCAGCGGCCCCTGCAGCCGAAGCACCTGCCGCCGCAGCACCCGCCGCATCCCGCGAAGGCCACGAGGTTACCCTCCCGGCACTGGGCGAAAGCGTTACGGAAGGCACTGTCACCCGCTGGCTCAAGTCAATCGGCGATGCCGTGGAAGTTGACGAGCCGCTGCTCGAGGTTTCCACGGACAAGGTCGACACCGAAATTCCGTCCCCCGTAGCAGGCACGCTCCAGGAGATCCGCGTCAACGAGGACGAGACCGCTGAAGTTGGTTCCGTCCTCGCCGTCATCGGGTCCGGCGCTGCCGCTCCCGCAGCCGCGCCTGCCGCAGCCCCTGAAAAGCCGGCCGAAGCACCTGCTGCTCCGGAGACACCTGCTGAAGCCCCGGCCGTACCGGCCCAGGCTGCACCGGCTCCCGCCCCCGCTCCTGCAGCACCGGCTCCCGCTGCACCCGCCCAGGCTCCGGCCGCTCCCGCCGAGGCGCCGGCCGCCGGAACTGACAACGGCTACGTCACTCCGCTGGTCCGCAAGCTTGCCAACCAGCACGGCGTGGACATCTCCGGCCTGTCCGGCACCGGCGTCGGCGGACGCATCCGCAAGCAGGACGTCCTGGCAGCCGCTGAAGCCAAAGCCGCGCCAGCAGCCGCAGCTCCGGCAGCCGCTTCTGCCGCTCCATCGGCAGGTGCAGCCGCCGCAGCTTCGTCGCTGCGCGGGACCACCCAGAAGGCCCCCCGCATCCGCCAGGTCATCGCCCGCCGCATGCGGGAATCGCTGGACATCTCCACGCAGCTGACCCAGGTGCACGAAGTGGACATGACCAGGATCGCGAAGCTGCGCCTCAAGGCGAAGAACTCGTTCCAGGCCCAGAACGGCACCAAGCTCACCTTCCTGCCGTTCATCGCCAAGGCTGTGGCTGAGGCACTGAAGCAGCACCCCAAGCTCAACGCTGCATACGACGAAGACAGGCAGGAAATCACGTACCACAACGCCGAGCACCTCGCGATCGCCGTCGACACGGACAAGGGCCTGCTGGTCCCGGTCATTGCCGATGCCGGCACGCTCAACCTTGCCGGTCTCGCCGGCAAGATCGCCGACGTTGCTGACCGCACCCGCAACGGCAGGATCGGTCCCGACGAGCTGTCGGGCGGCACGTTCAGCATCACCAACATCGGTTCTGTCGGCGCCCTGTTCGACACGCCGATCATCAACCAGCCGCAGGTTGGCATTCTGGGCACCGGCGCCATCGTCAAGCGGCCCGTCGTGGTGCAGGACGAGAACGGCGACGACTCGATCGCCGTCCGCTCCATGATGTACCTGTCGCTGACCTACGACCACCGCCTGGTGGACGGTGCCGACGCAGGACGCTTCCTCCAGACCCTGAAGGCCCGGCTCGAAGAGGGCGCTTTCGAATCGGACCTCGGACTCTAA	MSESVNLPALGESVTEGTVTRWLKQVGDRVEVDEPLLEVSTDKVDTEIPSPIAGVIEEILVAEDETAEVGAPLVRIGDGAGGGSAPAEEAPAEAAPAEEAPAKEAPAAAAPAAEAPAAAAPAASREGHEVTLPALGESVTEGTVTRWLKSIGDAVEVDEPLLEVSTDKVDTEIPSPVAGTLQEIRVNEDETAEVGSVLAVIGSGAAAPAAAPAAAPEKPAEAPAAPETPAEAPAVPAQAAPAPAPAPAAPAPAAPAQAPAAPAEAPAAGTDNGYVTPLVRKLANQHGVDISGLSGTGVGGRIRKQDVLAAAEAKAAPAAAAPAAASAAPSAGAAAAASSLRGTTQKAPRIRQVIARRMRESLDISTQLTQVHEVDMTRIAKLRLKAKNSFQAQNGTKLTFLPFIAKAVAEALKQHPKLNAAYDEDRQEITYHNAEHLAIAVDTDKGLLVPVIADAGTLNLAGLAGKIADVADRTRNGRIGPDELSGGTFSITNIGSVGALFDTPIINQPQVGILGTGAIVKRPVVVQDENGDDSIAVRSMMYLSLTYDHRLVDGADAGRFLQTLKARLEEGAFESDLGL	PGPT0001390_1340	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0001390-aceF|pdhC-K00627	NA	NA
D1-17_02430	351			hypothetical protein	ATGAACATCGTCTATAACATCATGGTCTTCCTGCACATCGTTGGCGCCGCCATGATCGTCGGCATCTGGATCGGCAACATGAAGAAGCCAACCGTCCACCCCCGGCAGTTCGACGGCGCCGCGCTGCAGCTGCTCACCGGCATCGTGATGACGGGGCTGATTCCCGCCCTCGACATGGACGCAAACTACGTCAAGCTCGGCATCAAGTTCGCTATCGCACTGGCCGTCATCGTGCTGGCCTTCATTGGACGCCGGAAGTACAAGCAGAACGAGCCGATCTCCGCCGGCCTTGCGCACAGCGTCGGCGGCCTGGCCTTGCTGAACATCGCGATCGCCACCCTCTGGCAATAG	MNIVYNIMVFLHIVGAAMIVGIWIGNMKKPTVHPRQFDGAALQLLTGIVMTGLIPALDMDANYVKLGIKFAIALAVIVLAFIGRRKYKQNEPISAGLAHSVGGLALLNIAIATLWQ				NA	NA	NA	NA	NA
D1-17_02431	432	osmC	COG1764	Peroxiredoxin OsmC	ATGGCAGCAACACGCACCGCACACACAGTATGGAACGGCGACCTGATGACGGGCGCCGGCAACACGACGCTCGACAGCTCCGGACTGGGCACCTACGAGGTCACCTGGAAGGCCCGTACCGAGGCATCGGAAGGCAAGACCAGCCCGGAGGAGCTGATCGCCGCCGCCCACTCGGCCTGCTTCTCCATGGCTTTCAGCCACGCCCTCGCCCAGGCCGGGCACACGCCGGAAGAGGTCAACACCAAGGCGGACGTCACGTTCGTACCGGGCACGGGTATCACGGGCAGCCACCTGACCCTGAACGCCAGGATCCCGGGCATCTCGGAAGACGAGTTCCAGAAGATCGCGGCGGAAGCCAAGGTCGGTTGCCCTGTTTCCGGCGCCCTCGCCAGCATCGACATCACCCTCGACGCCACGCTCGCCGCTTCCTGA	MAATRTAHTVWNGDLMTGAGNTTLDSSGLGTYEVTWKARTEASEGKTSPEELIAAAHSACFSMAFSHALAQAGHTPEEVNTKADVTFVPGTGITGSHLTLNARIPGISEDEFQKIAAEAKVGCPVSGALASIDITLDATLAAS	PGPT0013160_1553	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013160-ohrB|osmC|ohr|ykzA-K04063	NA	NA
D1-17_02432	3600	tri1	COG0793	Tricorn protease	ATGTCCGGCACGGTGGGGCACTTCCCGGATGCCCCTGTTGACTTTGACTATGATCGAACGATGACCTCTTCGAGCTACTTCCGTTTTCCGCATGTTCACGGCGATCTGGTCACGTTTGTGGCCGAGGACGACGTCTGGATCGCACCCCTTGGCGGCGGCCGTGCATGGCGGATTTCCTCGCTGCAACTTCCGGCCCGCAATCCCCGGTTCACGCCGGACGGCAAGAAACTCGTCTGGTCGGTCGTGCAGGGAGCCGCGCCCGAGGTTGTCATTGCGGACGTCGACGGCGGTGGCTACCGTCAGCTGACCTTCTTCGGCCACAGCACCACGAGGGTTAAGGGCTTCACGGCCGCCGGTGAGGTGGTGGTCACCAGCGCATTCCGCCAGGCCGAGAGCCGGCACACGCATGCCTACCGGCTGTCCACGCAAGGCGGGTGGGCGGAGGAGCTGCCCTTCGGGCCGGTTGAATCCGTGGCCTTCGGTCCGGAGGTCGGAGACGAGAAACCCGTGGTGGTAGCCAGCGTGCTGTCGAGGGAGCCGGCATGGTGGAAGCGCTACCGGGGCGGTACGGCCGGAAAGCTCTGGATCGACGCCGACGGCAACGGCGAGTTTGAGCGGCTGCTTCCGGACCTCGAGGGCAACCTCGCCGATCCGATGTGGGTGGACGGCCGGATTGCCTTCCTTTCGGACCACGAGGGCTACGGCAACCTGTACTCGGTCCAGCCCAACGGCAATGACCTGCGGCGTCATACGGACCATGAGGATTTCTATGTGCGCCATGCGTCCACGGACGGCAAGCGCGTGGTTTTCGAAGCCGCTGGCGAACTGTGGATACTGCGTGATCTTGCCGCCGACGCCGTCCGGCTGAACATCTCGCTTGGTTCGGCTTCCCAGGGACGCCGCCCCTCGCTGCTGAAGGTCAGAAAGCATTTGGGCGACGTCCGTCCTGACGCCGCTGGAACAGCCAGCGCGGTGGAGGCGCACGGAACTATCCACTGGCTGCGGCACAAGGACGGGCCCTCCCGGGTGGTCGAAGCCACTCCCGGTGTCAGGGCATGCCTCCCGCGTCCCCTCACCGGGGGGCGCATCGCCTATGTAGCGGACCATGACGGTGAGGAAGCCCTGTACATCAGGGAGATCGCTCCCCGCTTGGCCGCCTCCGCCTCCGCCGCCCAGGCCGCCCAGGCAGCGGAAACGGTGCGTGCGGGCAGCGTCGCTGAACAGCCGGTTTCCGTAACACCTGCGCTGCTGCCCAGTCCTGTTTCCGCAGCCGGCGTCGTTGGCCATGGCATCGAGGCGCCCGTGACGGACGGCTCCCGTGCGGACGTCGCACCTGCCGCCGAAAGCGAAGAGAGCGTCGCCGCCGCTGCAGCCGCAGATTCCACAGGCACGACGCCCGTCCGGATCGCTTTCCCGCGGCCGTCGCGCGCCAGTGCGCTGGAAGCCAGCCCCGACGGCCGCTGGCTCGCGGTGGGCACCTCGTTTGGTGACGTCTATGTCGCCGATACCCGGGAAGGCACCCTCACGCGGGTGACCAGCATCGGTGAGGGCAGCATTGACGCGCTGTGCTGGTCCCCGGACTCTGCCTGGCTCGCCTGGGCGGAGCCCGTCACGTCCTTTGGCTCCCGCAGCCGGCTCCGGCTCACGCAGGTGGGAGCAAACTTACAGGGCGCCGAGCAGTCCATCGTCGACGTGACAGACGGCCGCTTCCGTGACCAGTCGCCGTCGTTCACACCGGACGGGAAGTTCCTTGCTTTCCTGTCCAACCGAAGCTTCGACCCGGTCTACGACGGACATTCCTTCGACCTTTCGTTCCCCAGCCCGATCAAGCCTTACCTCGTGGCACTCGCAGCTGATACCGCGTCCCCGTTCGGCCCGGATGTGGATCTTGCATTCGAGGAAGGAACCGGCGGCGACGGCGGGGCGCAGGATACGACAGCGCAGGCAACAACAGCTTCGGAGAAGCCGGCGCCGGTCCGTGTGGACGCAGACGGTCTCTCGCACCGGGTGATCAGTGTTCCGGTCCCGCAGGGCAACTACGCGTCGCTGACGGCAGTGGAGGGTGCGCTGTTGTGGCTGGACTGCCCCCTGTCCGGGGTTACCGGGGACGGCAAGGCGAGCCCTGAGGACAAGGACGAGGCGCCCAGCCTCGTCCGGTTCGATCTCGGGAAGCGCAAGAGCGTAACCATTGTGGATTCCCTTGACAGCTACACCGCCTCCGGTGACGGCAGGAAGGTCGTGGCTGTCCACGAGAAGCAGGTGCGGGTTGTGCCCTCGGACGCGAAAGCAGATGAGGAATCCGGCCAGCTCGTTAAGGTGGATCTCACGCGGATCCGCGTGAAGATGGACCCGGTCAGTGTCTGGGGACAGGCCTTCGACGAAGCGTGGCGGCTGCAGCGCGACTTCTTCTGGACAGAAGACATGGCTGGCCAGGACTGGGAATCGGTGCACAGGCGCTACCGGCCGCTGGTTGGGAGGCTCGGATCCCACGACGACCTCGTGGATCTGCTGTGGGAGCTGCACGGAGAGCTAGGCACATCCCATGCCTACGTCCGTCCCGCCGCGGCCACGGAGAACGGCAGCAACGGCCAGGGCCGCCTCGGCGCAGACCTCTCGTTCAACGGAGAGGGCTGGGAGATTGCCCGCATCCTCGCCGGCGAGTCCTCCGATCCCATGGCGACATCCCCGCTGGCCCGGCCGGGCGCGGCCGCCAAGGCAGGGGACGTCCTGCTGGCGGTCGACGGCGTGCAGCTTACGGAGACCCTGACGCCTGCCATGCAGCTTGTGGGCGCGGCCGGGCGGGCTGTGGAACTGACCATCCGCAACGGGGCGGGCCACGGTGCCGCGGCGGGCGAGCAGCGGCGTATTGCCGTGGTTCCCATCAAGGACGAGGAACGCCTGCGCTACCAGGACTGGGTTACGGCCAACCGCCGAACGGTCCGTGAAGCGTCGGGAGGAAAGTTTGGCTACCTGCACGTCCCGGACATGATGGCCAATGGGTGGGCGCAGCTGCACCGCGACCTCGACACGGAAACGGCTCTCGACGGGCTCATCGTTGACGTGCGCCGCAACCGCGGCGGGCACACCTCGCAGCTGGTCGCTGAGCTCATCGGCCGCAAGGTGACGGGCTGGAGCATGCCGCGTGGCGAGAAGCCCCGGACCTATCCGCACCATGCTCCGCGCGGTCCCGTCATCATCCTCGCCGATGAATTCGCCGGCTCCGACGGGGACATCATCACCCAGGTGTCCAAGCTGCGGGGGATCGGCCCCGTGATCGGAACCCGCACCTGGGGCGGGGTGGTGGGCATCGACAACCGCTTCACCCTGGCCGACGGTACCGGAGTCACCCAGCCGCGCTACGCCACCTGGTTTGGCGGGGGAGTCGGCTGGAACGTGGAAAACCACGGCGTGGCGCCGGACATCGAAGTGACGTTCCCGCCGCACGCCTATGCTGCCGGCCGGGACCCGCAGCTTGAATATGGCATCGGCGCGTTGAAGGAAATGGTGCAGGAGCTTCCCACCGACCGCCCGCCGGCACGTGAAGGCTACCGGCGGCTGCGGCCGGAACCGCTCCCGGCCCGCCGGCATACGGCTGGCTGA	MSGTVGHFPDAPVDFDYDRTMTSSSYFRFPHVHGDLVTFVAEDDVWIAPLGGGRAWRISSLQLPARNPRFTPDGKKLVWSVVQGAAPEVVIADVDGGGYRQLTFFGHSTTRVKGFTAAGEVVVTSAFRQAESRHTHAYRLSTQGGWAEELPFGPVESVAFGPEVGDEKPVVVASVLSREPAWWKRYRGGTAGKLWIDADGNGEFERLLPDLEGNLADPMWVDGRIAFLSDHEGYGNLYSVQPNGNDLRRHTDHEDFYVRHASTDGKRVVFEAAGELWILRDLAADAVRLNISLGSASQGRRPSLLKVRKHLGDVRPDAAGTASAVEAHGTIHWLRHKDGPSRVVEATPGVRACLPRPLTGGRIAYVADHDGEEALYIREIAPRLAASASAAQAAQAAETVRAGSVAEQPVSVTPALLPSPVSAAGVVGHGIEAPVTDGSRADVAPAAESEESVAAAAAADSTGTTPVRIAFPRPSRASALEASPDGRWLAVGTSFGDVYVADTREGTLTRVTSIGEGSIDALCWSPDSAWLAWAEPVTSFGSRSRLRLTQVGANLQGAEQSIVDVTDGRFRDQSPSFTPDGKFLAFLSNRSFDPVYDGHSFDLSFPSPIKPYLVALAADTASPFGPDVDLAFEEGTGGDGGAQDTTAQATTASEKPAPVRVDADGLSHRVISVPVPQGNYASLTAVEGALLWLDCPLSGVTGDGKASPEDKDEAPSLVRFDLGKRKSVTIVDSLDSYTASGDGRKVVAVHEKQVRVVPSDAKADEESGQLVKVDLTRIRVKMDPVSVWGQAFDEAWRLQRDFFWTEDMAGQDWESVHRRYRPLVGRLGSHDDLVDLLWELHGELGTSHAYVRPAAATENGSNGQGRLGADLSFNGEGWEIARILAGESSDPMATSPLARPGAAAKAGDVLLAVDGVQLTETLTPAMQLVGAAGRAVELTIRNGAGHGAAAGEQRRIAVVPIKDEERLRYQDWVTANRRTVREASGGKFGYLHVPDMMANGWAQLHRDLDTETALDGLIVDVRRNRGGHTSQLVAELIGRKVTGWSMPRGEKPRTYPHHAPRGPVIILADEFAGSDGDIITQVSKLRGIGPVIGTRTWGGVVGIDNRFTLADGTGVTQPRYATWFGGGVGWNVENHGVAPDIEVTFPPHAYAAGRDPQLEYGIGALKEMVQELPTDRPPAREGYRRLRPEPLPARRHTAG				NA	NA	NA	NA	NA
D1-17_02433	894		COG1090	Epimerase family protein	ATGCGCATCGTCATGGCTGGCGCCTCCGGGCTTATCGGCAGCCACCTTTCCAAACGCCTCTCCGACGACGGACATGCCGTCACGCGACTGGTCCGCCGGACGCCCGCATCCCCTGCCGAGGCCCGCTGGGACCCCTCGTCCGGATTCCTCGACCCAGCCTGCCTTGAGGGCGCAGACGCAGTCATCAACCTCGCCGGGGCTGGCATCGGGGACCGGCCATGGACGCCGGGACGCATAGACGAACTTTTCCGTTCACGGCTGGATGCGACGCGGTCCCTGGCTACGGCGATGAAGCACCTCGATGCGCCTCCGCAGGTGTTCATCAGCCAGTCCGGAACCGGCTACTACGGCGATGCCGGTGACGCCGTCCTCAGCGAGGAGTCATCCGCCGGTTCCGGCATCCTTGCGCGCATCTGCGTGGAATGGGAGGCCGCCGCCCGTGAGGCTCCTGGCAGTGTGCGTGTGGTGACCCCGCGGACTGCTGTAGTGCTGAGCAGGTCCGGCGGAGCACTCGGAAGGCTGCTTCCGCTGCTGCGCCTGGGGCTCGGCGGGCCCCTGGGCAATGGCCGGCAGTATTGGCCGTGGATCACGCTGCCGGACCTGTCCGCGGCATTTATTTTCCTCCTGGCGTCAGAGTTGTCCGGCCCGGTCATCGTCTCTGCCCCCGAAGCCGCGGACGTCAATGCCCTGGTAAAGGAACTGGCCGCAGCCCTGCACAGGCCCGCGCTGCTCCGGGTCCCGGCACCGGCGCTGCGGCTTGTGATGGGCAAACTGGCGGACGAGCTCCTCCTGGCCAGCCAGAAGGTGGAGCCGTCCCGCTTATACGCCGCCGGGTTCGAGTGGCAGCACCCGGCCCTCCGGCAGGCGGCCGAGTGGGTGGCGGGCGGGGAATGA	MRIVMAGASGLIGSHLSKRLSDDGHAVTRLVRRTPASPAEARWDPSSGFLDPACLEGADAVINLAGAGIGDRPWTPGRIDELFRSRLDATRSLATAMKHLDAPPQVFISQSGTGYYGDAGDAVLSEESSAGSGILARICVEWEAAAREAPGSVRVVTPRTAVVLSRSGGALGRLLPLLRLGLGGPLGNGRQYWPWITLPDLSAAFIFLLASELSGPVIVSAPEAADVNALVKELAAALHRPALLRVPAPALRLVMGKLADELLLASQKVEPSRLYAAGFEWQHPALRQAAEWVAGGE	PGPT0014730_2867	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
D1-17_02434	1743			hypothetical protein	ATGGATGCTGAGGGGCCGGACACTGATCCGGCAGGACGTAAACCGAAGGTGCCCGGCTACCACGCGCGCCGCCGGCTGGGTGTCGGCGGCAGCGCCGTCGTCTGGCTGGTGGAGGAGGAAGCCACAGGGCGGCAGCTGGCCCTGAAGTGTTTCGGCCCGCTGTTCCCACCGCAGCAGGCGCGGTCCCACCTGTCCCGTCCCGGCGGTTCCGGGGCAGGCGTGTACCCCGAAGAGGATATCCGCCGCGAGCTGCTGATCATGTCCGTTCTCGACCATGGGCACCTGGTCAAGGCGCACGAGGTCGTCACGGTTGGTGACGGCCCGGACAGCGCATTGGGCATCCTGATGGACTATGCGCCCGGCGGCTCGCTCGGGCAGCTGGTCGCGGCCCGGGGACGGCTGAGTGTCGGCGAGACGGTAACCGTGCTGACCCCCGTTGCGCAGGCCCTGGCCTATCTGCACGGCAAGGGATTCACGCACTCGGATGTGTCCCCTGGGAATGTGCTCTTTTCCGGTCACGGGAAGCCGCTCCTGGCTGACGTCGGCACGGCCCGGATGGTGGGCGATGGCGACGCTGTGCCGGATGCCGGAACCGCAGGTTTCCAGGATCCCTCGCCGGTGGATGCTGTCCGGGCGGGCCTGCAGCCCGGCCGCGATGTCTATGCCGCAGCGGCCGTGGGCTGGTATTGCCTCACCGGGGCTCCACCTCCGCCGGCGGCGGACCGGCCGCCGCTGTCCGTGCTGGCTCCTGATGTGCCCCGGGAGCTTGCCGCGGCGCTGGAGGCAGGCCTCAACGAGGACCGGCGGCAGCGGCCTGACGCAACAGAACTGGCGACGGCGGTATACCGAAGTGCGCCGGCAGCACCTGTTGATCTATCCCGCTCCGTGGATCCGAGCGTCCTGCCGCAGCTGCTGACACGCAGGCCTGAACCGCCAGCGCGAAGCCGTCACCGCGAGCGCCTGGGCGCCTGGAGAAGGCGCCTCCACACCTCCGGGCTGGCGAAAGCCCTCCGGAGGCGCAGGAGCACCGGGACGTCACCGGGCAGGCACTCACGGCGGTCCGCCGCGCCGTCCCGCAACAGGGCCAGGGCAGTGTGGGCGGCCTTGGCTGCCCTTGCCGTCATTGTCGATGTGTGGATGCCGCTGCCACCATCACCGGAGCTGCTGCCGGCTGATGGTCCGACCGCCGCTGAAGCAGGAGGCACGAGTCCGAGCGCAACTGAAACGGGTACCACTGAACCGGGTACCACGGAATCAGGTAGCTCTGAACCGGCTACTGCTGAACCGGGTACCACGGGTCCGACGGCGGGCAGTCCGGTTCCGGCCATGGTGCCCGGTGCCGTCCGTCGCCAGGTGCAGTCGGCAAATCCGGTGGAAGCCGTCAAAGGACTCGCAGCACTTCGTGCTTTCGCCTTGAGCCGGGGCAGGCTGGAGTTGCTCCGCGAGGTAAACGCCGCCAACTCTCCGGCAGCATCCGCCGACGCCCGCATCACCGCCAGGCTTCAGGAGTCCGGGTCGGTGCTGGAAGGGTTCACCACCGCCCTCACCGGCATCCGGCGCCTTCCCGAAAGTTCGAACGGCCGGGCGGTGGTCGCCGTGACGGCTGTGACGTCCGGCTATGTGCAGAGGTCTGCAGGGGGCACTGTGGCCGCTAGTCCAGCCCAAGCGGCTGTTGACCTGCGGCTCGTGCTGCTCAAGGTGAAGGGCAGGTGGCTGATCTCGGAGATCCTCGCGGCACGGTAA	MDAEGPDTDPAGRKPKVPGYHARRRLGVGGSAVVWLVEEEATGRQLALKCFGPLFPPQQARSHLSRPGGSGAGVYPEEDIRRELLIMSVLDHGHLVKAHEVVTVGDGPDSALGILMDYAPGGSLGQLVAARGRLSVGETVTVLTPVAQALAYLHGKGFTHSDVSPGNVLFSGHGKPLLADVGTARMVGDGDAVPDAGTAGFQDPSPVDAVRAGLQPGRDVYAAAAVGWYCLTGAPPPPAADRPPLSVLAPDVPRELAAALEAGLNEDRRQRPDATELATAVYRSAPAAPVDLSRSVDPSVLPQLLTRRPEPPARSRHRERLGAWRRRLHTSGLAKALRRRRSTGTSPGRHSRRSAAPSRNRARAVWAALAALAVIVDVWMPLPPSPELLPADGPTAAEAGGTSPSATETGTTEPGTTESGSSEPATAEPGTTGPTAGSPVPAMVPGAVRRQVQSANPVEAVKGLAALRAFALSRGRLELLREVNAANSPAASADARITARLQESGSVLEGFTTALTGIRRLPESSNGRAVVAVTAVTSGYVQRSAGGTVAASPAQAAVDLRLVLLKVKGRWLISEILAAR				NA	NA	NA	NA	NA
D1-17_02435	669	lipB	COG0321	Octanoyltransferase	ATGACTCTTGAGTTCAGACAGCTGGGTCTCGCCCCTGATTTCGTGGATTATTCGAAGGCCTGGGACCTCCAGCGGGAAATCCATGAGAACGTCCTGGCGGGCAAGGCCCCCAGCACCGTACTCCTCCTCGAACACTCCGCCGTCTACACGGCAGGGAAGCTGACGGAGGACCACGAGCGGCCCTTCGACGGCACTCCCGTGGTGCCGGTGGACCGCGGCGGCAAGCTCACCTGGCACGGACCCGGCCAACTGGTGGGCTACCCCATCATCAAGCTGAAGAACAGGGCGGGGATCCGCGACTACGTTGAGCGGCTCGAGGCCGTCATCATCGCTGTCCTGGCCGACTACGGCATTCAGGGCGTCCGGATCAAGGGCCGCGCCGGCGTCTGGATTACCGCTGACGACAAAGGCCCCGACCGCAAAATCGCCGCTATCGGCATCAGGATCTCCCAGGGAGTCACCATGCACGGCTTCGCCATCAACTGCAACAACGACCTGGCACCCTACGCCCAGATCATCGCCTGTGGAATCACCGATGCCGACGTAACTACCATCGCGCGGGAAACCGGCCGCGACGTGGCTCCGGCTGAACTTGTTTCTCGGATCATCGAGGAACTGCGCAAGAATGAAGACGCCCTAGTTGCAACCCCCGAAGGAGTTCTCCTGTGA	MTLEFRQLGLAPDFVDYSKAWDLQREIHENVLAGKAPSTVLLLEHSAVYTAGKLTEDHERPFDGTPVVPVDRGGKLTWHGPGQLVGYPIIKLKNRAGIRDYVERLEAVIIAVLADYGIQGVRIKGRAGVWITADDKGPDRKIAAIGIRISQGVTMHGFAINCNNDLAPYAQIIACGITDADVTTIARETGRDVAPAELVSRIIEELRKNEDALVATPEGVLL	PGPT0003925_2329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003925-lipB-K03801	NA	NA
D1-17_02436	1008	lipA_2	COG0320	Lipoyl synthase	GTGACACTGGCACCAGAAGGCCGGAAGATGCTGCGTATCGAGCAGCGCAATGCGGCCACCCCGGTGGAGCGCAAGCCGGAGTGGATCAAGGCCAAGGTCCAGATGGGCCCGGAGTTCGTCCAGCTCAAGAACCTGGTGAAGAAGGAAGGCCTGCACACCGTCTGCGAGGAAGCCGGGTGCCCGAACATCTTCGAGTGCTGGGAAGACAAGGAAGCGACGTTCCTGATCGGCGGCTCCGAATGCACCCGGCGCTGTGACTTCTGCCAGATCGACACCGGCAAGCCCTCCCCCGTGGACAGGTTCGAACCGACCAAGGTGGCCCGCTCGGTGCAGGCCATGGCCCTGCGCTACGCCACCGTCACCGGCGTCGCCCGCGACGACCTCGCCGACGAGGGCGTCTGGCTCTACGCCGAAACGGTCCGCAAGATCCACGAACTGAACCCGGGCACCGGCGTCGAACTTTTGATCCCGGACTTCTCCGGCAAACCCGACCACATCGCCGCGATCTGCGACTCGGCCCCCGAGGTGTTCGCCCACAACGTCGAAACCGTGCCGCGGATCTTCAAGCGCATCCGCCCCGCGTTCCGCTACGAACGCTCCCTGGACGTCATCACCCAGGGACGGAACCTGGGCATGGTCACCAAATCCAACCTCATCCTTGGCATGGGCGAGACCCGCCAGGAAATCTCCGAAGCCCTGCAGGACCTGCACGAGGCCGGCTGCGACCTGATCACCATCACCCAGTACCTGCGCCCCTCCGAACGGCACCTGCCGGTGGACCGCTGGGTCAAGCCGCAGGAATTCGTGGACCTGCAGCAGGAAGCGGACGAGATCGGCTTCCTCGGCGTCATGTCCGGCCCCCTGGTCCGCTCCTCCTACCGCGCCGGCCGGCTCTGGGCCACCGCAATGCGCAAGAAAGGCCGGGAAATCCCCGCCAAACTCGCCCACATCGAATCCTCCGGAACCACCCGCCAGGAAGCCAGCACCCTGCTCGCGGCCCACTCCTAG	MTLAPEGRKMLRIEQRNAATPVERKPEWIKAKVQMGPEFVQLKNLVKKEGLHTVCEEAGCPNIFECWEDKEATFLIGGSECTRRCDFCQIDTGKPSPVDRFEPTKVARSVQAMALRYATVTGVARDDLADEGVWLYAETVRKIHELNPGTGVELLIPDFSGKPDHIAAICDSAPEVFAHNVETVPRIFKRIRPAFRYERSLDVITQGRNLGMVTKSNLILGMGETRQEISEALQDLHEAGCDLITITQYLRPSERHLPVDRWVKPQEFVDLQQEADEIGFLGVMSGPLVRSSYRAGRLWATAMRKKGREIPAKLAHIESSGTTRQEASTLLAAHS	PGPT0003935_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003935-lipA-K03644	NA	NA
D1-17_02437	750			putative protein	ATGGCGAAAACCCCTGATTCCAGCAACAACCCTCCGGCAGCTGACGCTCCCAAGCGCGGCCTCTTCTCGCGCAAGCCCAAGGAAGCGAAGGTCAAGAAGCCCAGCCGGCTCAAGCAGATCGGCGAAGTCTTCACCATGACGCGCCGCCACGATCCCATGGTCCCGTGGCTCATGCTGCTGGCGTTCCTGGGAGTCGTCGCAGTCAGCCTCATCGTTGGCCTGTTGCTGAACAACTGGATTACCGGCCTGATCATCGGCATCCCGCTGGGTTTCCTGGCCGCTACCTTCATCCTGTCGCGGCGCGCCGAACGGGCGGCTTTCGCCCAGATCGAAAACCAGCCCGGAGCGTCCGGGGCTGCGCTCAGCACGCTTAAGCGCGGCTGGATCACGGAAGAACAGCCGGTCGCAGTCAACCCGCGTACCCAGGACGCTGTCTTCCGCGCCATCGGCCGTCCCGGCATCGTGCTGGTCAGCGAAGGCCCCTCGCACCGCGTCAAGCCGCTCCTGGACGCTGAGCGCAAGAAGCTCGCGCGCATCCTTCCCAACGTGACCATTCATGTCATCGAGAGCGGCCGCGGCGAAGGCCAGACGCCCATCAGCCAGGTTGCGAAGAAGATGAACAAGCTGGACAAGGAGCTCACCAAGATCGAGGTCAGCGCCGTGTCCAAGCGCATCTCGTCCCTCGGCACACGGCTCCCCATTCCGAAGGGCATTGATCCCTACAAGGCCCGTCCCCAGCGCGGACGCTAA	MAKTPDSSNNPPAADAPKRGLFSRKPKEAKVKKPSRLKQIGEVFTMTRRHDPMVPWLMLLAFLGVVAVSLIVGLLLNNWITGLIIGIPLGFLAATFILSRRAERAAFAQIENQPGASGAALSTLKRGWITEEQPVAVNPRTQDAVFRAIGRPGIVLVSEGPSHRVKPLLDAERKKLARILPNVTIHVIESGRGEGQTPISQVAKKMNKLDKELTKIEVSAVSKRISSLGTRLPIPKGIDPYKARPQRGR				NA	NA	NA	NA	NA
D1-17_02438	399			hypothetical protein	GTGAAAGTACCGTCAACTACCGCCGTCATAAGCATCTTCCGCGTGCTCGCCCTTGCCGAAGCGTTCAGCTGGGCGGCACTGCTGGCCGGTATGTACTTCAAATGGATCGCCAAGACCACCGAGCTGGGCGTGGAAATCGCCGGTCCCATCCACGGCGGGCTGTTCATCGGCTATGGCCTGACAGCCCTCGTCCTGTGGCGGCTGCAGCGCTGGCCGTTCCTCGTCGCTCTTTTCGCCGGTTTCTCGGCAGTCCTACCGTTTGCCACGCTGCTGTTCGAGCGCTGGGCAGGAGGCCGCGGCTATCTGACGGCGGCCGGCACAACCCCCGCCGGAGGGCAGGCAGCGTCAGTGGAACGGGACGTCAAGGAACGCGCCGGGGAAGAAACTGCGGACGTCTAG	MKVPSTTAVISIFRVLALAEAFSWAALLAGMYFKWIAKTTELGVEIAGPIHGGLFIGYGLTALVLWRLQRWPFLVALFAGFSAVLPFATLLFERWAGGRGYLTAAGTTPAGGQAASVERDVKERAGEETADV				NA	NA	NA	NA	NA
D1-17_02439	438			hypothetical protein	GTGGTAGATCGCAGAGATATTGGTTCCTGGCTGTCCGGGCCGGACACATCCGGCATTTCCAAGTACCCGGGGGAGCGCCTTGGGCTTCCTGAATCGGGTCCCGGATCCATTGCCCGGGCCGGGCGGCGGATTGCGGCGATCCTCATCGACTGGACCCTGGCCCTGCTGATCAGCAACTTCCTGTTTTCGGGCGATTCGTGGGCCACACTCGCCGTCTTTGCAGCCGAGCAAATCCTGCTGCTCGGAACCCTCGGCTACAGCATCGGCCACCGCGCCATGAGCATCCGTGTGGTGCGGCTTGGCGGCGCGCCGGCCGGCCCCCTTGCAGCCCTGGTCCGGACCCTGCTGCTGTGCCTGGTGATTCCCGCCGTAATTTTCGACCCGGACCAGCGGGGTCTGCATGACAAGGCCGCGAAGACGGTGCTGGTCCGCATGTAG	MVDRRDIGSWLSGPDTSGISKYPGERLGLPESGPGSIARAGRRIAAILIDWTLALLISNFLFSGDSWATLAVFAAEQILLLGTLGYSIGHRAMSIRVVRLGGAPAGPLAALVRTLLLCLVIPAVIFDPDQRGLHDKAAKTVLVRM				NA	NA	NA	NA	NA
D1-17_02440	1425	glnA_1	COG0174	Glutamine synthetase	ATGTTCAAGACTGCGGACGAAGTCCTCAAGTTCATCCAGGACGAAGATATTAAGTTCGTCGATATCCGCTTCACCGACCTTCCTGGCGTGCAGCAGCACTTCAACGTGCCGGCGAAGAGCGTCGACGCTGATTTCTTCGTCAATGGCCAGCTCTTCGACGGATCTTCCATCCGCGGCTTCCAGGGCATTGCCGAGTCGGACATGCAGCTGATCCCGGATGTCACCACCGCATTCCTGGACACCTTCCGTCTGGAGAAGACCCTTGCGCTGAACTTCTCCATCGTGAACCCCCGCACCGGTGACCCTTACCACCGTGACCCCCGTGGCGTGGCTGAGAAGGCCGAAGCCTACCTCGCCTCCACCGGCATCGCAGACACCGCCTTCTTCGCCCCTGAAGCAGAGTTCTTCGTCTTCGATAACGTCCAGTACCAGTCCTCCCCTGAGGGCAGCTTCTACAAGATCGACTCGGAAGAAGCCCACTGGAACAGCGGCCGCGAAGAAGAAGGCGGAAACCTGGGCTACAAGACCCCCGTCAAGGGCGGCTACTTCCCGGTCTCCCCGACCGACAAGCAGGCTGACCTGCGTGACGCCATGTGTGTCGCCCTGGACGAAGCCGGCCTCGAGGTCGAGCGCAGCCACCACGAAGTGGGTTCCGCCGGCCAGGCTGAAATCAACTACAAGTTCACCACGCTGACCCACGCGGCCGATGACCTGCAGAAGTTCAAGTACGTCATCAAGAACACCGCTGACGCCTGGGGCAAGTCCGTTACCTTCATGCCGAAGCCGGTCTTCGGTGACAACGGCTCGGGCATGCACTGCCACCAGTCACTGTGGACCGGCGGCCAGCCGCTGTTCTACGACGAGAAGGGCTACGCCGGCCTGTCTGACACTGCCCGCTGGTACATCGGCGGCCTGCTGAAGCACGCTTCCGCCGTGCTGGCCTTCACCAACCCGACGGTCAACTCGTACCGCCGCCTGGTCAAGGGCTTCGAGGCTCCGGTCAACATGGTCTACTCGCAGGGCAACCGCTCCGCCGGTATCCGCATCCCGATCACGGGCACCAACCCGAAGGCCAAGCGCATCGAATTCCGCGCTCCGGACCCCTCCTCCAACCCCTACCTGGCTTTCGCCGCCCAGCTGATGGCCGGCATCGACGGCATCCGCAACCGTATTGAGCCGCCGGCTCCGATCGACAAGGACCTTTACGAGCTCCCCGCCGAAGAAGCGAAGGACATCCCGAAGGCTCCGGGCACCCTCGAGGAAGCCTTGGAGGCCCTGCGCGAGGACAACGAGTTCCTGCAGGCCGGCGGCGTGTTCACCCAGGACCTGATCGACACCTGGATCGAGTACAAGTACGAGAACGAGATCCGCCCGCTGTCCCTGCGCCCGAACCCCTACGAGTTCGAGCTCTACTACGGCGTCTAG	MFKTADEVLKFIQDEDIKFVDIRFTDLPGVQQHFNVPAKSVDADFFVNGQLFDGSSIRGFQGIAESDMQLIPDVTTAFLDTFRLEKTLALNFSIVNPRTGDPYHRDPRGVAEKAEAYLASTGIADTAFFAPEAEFFVFDNVQYQSSPEGSFYKIDSEEAHWNSGREEEGGNLGYKTPVKGGYFPVSPTDKQADLRDAMCVALDEAGLEVERSHHEVGSAGQAEINYKFTTLTHAADDLQKFKYVIKNTADAWGKSVTFMPKPVFGDNGSGMHCHQSLWTGGQPLFYDEKGYAGLSDTARWYIGGLLKHASAVLAFTNPTVNSYRRLVKGFEAPVNMVYSQGNRSAGIRIPITGTNPKAKRIEFRAPDPSSNPYLAFAAQLMAGIDGIRNRIEPPAPIDKDLYELPAEEAKDIPKAPGTLEEALEALREDNEFLQAGGVFTQDLIDTWIEYKYENEIRPLSLRPNPYEFELYYGV	PGPT0000645_2264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
D1-17_02441	354			hypothetical protein	ATGAACTACAGCGGAAGTCCGTCTGAGAAAGCAGTGGCGGCCGGCGAACTGGACAGGAGCCATGTGGGGCAGTCGGTGAGCTTTCAGTCGAATGATTTCACAGTGGTGTTCGGAAAGATCGCGGGTATCGCACGCACGGAAGCCCAGGTGTACCTGACACTGGAAGGCGTAGGTGGCGGAACCCACCTGAAGGATGAGTATGACCTTCCGGTCGGCCAGCACGTCTATCTGCAGCTCGATCCGTTGAGCAACGCCGGCAAGACCATTTCTGACGCGGAGAAGATCATCAAGGAAAAGTTCGACGAGCTCAAAAAGAACCTCCTTGACCGGGAACAGAAGTCCGGCTCCCAGTAG	MNYSGSPSEKAVAAGELDRSHVGQSVSFQSNDFTVVFGKIAGIARTEAQVYLTLEGVGGGTHLKDEYDLPVGQHVYLQLDPLSNAGKTISDAEKIIKEKFDELKKNLLDREQKSGSQ				NA	NA	NA	NA	NA
D1-17_02442	516			hypothetical protein	ATGCTTCCCGACGTCTGGCTCATCTCCCTGAGGGACCTTGACGACGATGCCCGGGCCATCCACCTTGGCGAAGTCGCGCTGATGGAACTGGGCGCAGGCCAAAATGACTTCGTTGGCGATCCGCTGCGGATGATGCTGGCAGGTCTGGAAGAACAGTCCCGCCGTCCTTATGTGATCGAGTCCGGCGGGAAGGCTGCCGGGGTGCTGACCCTGCAGTCGGGCGCGGCCACGCTGGCAGGATGGCCCGATGACCACTCGGTCTGGCTGCTCCGCGGGTTCCTCATCGACAGAACCCTGCAGGGGTCGGGGCTGGGGACGGCAGCCGCGGCAGCAGCGGTGGCTGCCGCCGCAAAACTCACGGCGCGGCAGGGAAGCGGGGAGTCCGGCGTCGTACTTTCCGTCAACGAGCGCAACAGAGCCGGCATAACCGCCTACCTCAAGGCCGGGTTTGAGGACCGCGGACTATACCAGGGCGGCGAAGCAGGCCCGCAACGGACCATGTACGCGGCCTTCTGA	MLPDVWLISLRDLDDDARAIHLGEVALMELGAGQNDFVGDPLRMMLAGLEEQSRRPYVIESGGKAAGVLTLQSGAATLAGWPDDHSVWLLRGFLIDRTLQGSGLGTAAAAAAVAAAAKLTARQGSGESGVVLSVNERNRAGITAYLKAGFEDRGLYQGGEAGPQRTMYAAF				NA	NA	NA	NA	NA
D1-17_02443	435			hypothetical protein	ATGGCTACCCAAATCTTTGTCAATCTCCCTGTCTCGGACCTGGACAAGTCGGTGGAGTTCTTCACGGCGCTGGGGTTCACCTTCAACCCGGACTACACCGACGAGAACGCCACGTGCATGGTCATCAATGACAACGCCTACGTGATGCTGCTGGTCGAGGGCTTCTTCAAAACCTTCACGTCCAAGGACATCGTCGATGCCAGGCGATCTACCGAGGTGATCATGGCCTTTTCAGCGGACAGCCGCGAGGGCGTTGACGGACTGTACAACAAGGCGATCGACGCCGGGGGCTCCTCGTCCCAGCCCGCCCAGGACTACGGCTTCATGTACAGCCGCAGTTTCCAGGACCCCGACGGCCACCTCTGGGAGGTCATGTGGATGGACCCGGCCGGCCCCCAGGCCGAGACCGCGACGTCCGCCGCCGGGGCTGAATGA	MATQIFVNLPVSDLDKSVEFFTALGFTFNPDYTDENATCMVINDNAYVMLLVEGFFKTFTSKDIVDARRSTEVIMAFSADSREGVDGLYNKAIDAGGSSSQPAQDYGFMYSRSFQDPDGHLWEVMWMDPAGPQAETATSAAGAE	PGPT0028555_703	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028555-putative_fosB-K07032	NA	NA
D1-17_02444	3012	glnE	COG1391	Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme	GTGAGCCTGGCCCGCCGCCTCATCTCCGCCGGCTTCAGTGACCTGGAGAAGGGCGAACGGTTCCTCGCGGCCCCGGAACTCGAGGGCATCGATCAGGACGTGCTCTTCGCGGGCCTCCAGCTTGCCGCGAGCCCGGATGCTGCGCTGCAATCGCTGGTCCGGCTGATCGAAAAGCATCCTGACCTGAGGGAGCTGGCTGCCGCTGACACTGACTCCAGCGAGCCCCTGTACCGGGTCCTGGGGGCAAGTGAGGCCCTGGGCGAGTTCCTCATCCGGCATCCGGAACATTTGGAGGCCTTCGACGTTAAAGTCAGCCCGGAACCGCTCCAGGCGCCGGCTGACGAACTGCGGACGGGGCTCCTGAAATCGGTACAGGCAGACCCGAGGGCGTCGCGCCCGGTTGCGGGAATTACCGGCCCCGAGGCGTACGAGGCCCTGCGCACGGCGTATCGGCGCGGTGTGGTCGACCTGGCCGTCAAGGACCTTTGTGCGGCGGACCCGCTGGACTTCATGCCCGCTGTCGGCGCCGAGCTTGCCGATCTGGCCGGCGCTGCCATCGAGGCCGCCCTGGCCGTCTCCCGGGCGGAGGCGGGAGCGCAGTTCAACGCGGAGGAGGTTGCCGACGTCGGCCTTGCCGTGATCGGCATGGGTAAGTGCGGTGCGCGCGAGCTCAACTACATTTCCGACGTCGACGTCATCTACGTCGTGGAGGCCGGGCTGCTCGAGGATGCGCGGGCAAACAGCATCGGCACTGCCCTTGCCTCCGGCATCTCGCGCGCCATTTCCTCCCCGGCCCGCGAACCCGGCCTGTGGGAGGTGGATGCCAACCTCCGTCCCGAGGGTAAGTCCGGGCCGCTGGTCCGGACGCTTGATTCGCACCGGAGCTATTACGCCCGTTGGGCTGAGAGCTGGGAATTCCAGGCGCTGCTGAAGGCCAGGACAATTGCCGGCGATGCGGACCTGGGCAGCCGGTACGAAGAAGCTGTATCGCCGCTTGTGTGGTCTTCCGCCGGCCGGGACGGGTTCGTCGAATCGGTGCAGGCTATGCGCCGGCGGGTGACCGAACACATTCCCGCCGCGGAGGAACAGCGCCAGATCAAGCTCGGCCGCGGCGGGCTGCGGGACGTCGAGTTCACGGTGCAGCTCCTGCAGCTGGTGCACGGAAAATCCGACGAGTCGCTGCGGTGCCGTGATACGACATCTGCCATCGCCGCCCTGTCCGCAGGCGGGTACATCGGCAGGGCGGACGCCTCCGCATTTGACCGTGCCTACCGGTACTTGCGGCTGCTGGAACACCGCATCCAGCTGTTCCAGCTGCGCCGCACCCACCTGATGCCGGTCAAGGAACCTGCCCTGCGGGCCCTGGCCAAAGCCGTGCTGGGCCCCTTCTCCACGGACCGGCCGCATCCTGACGCGCTCATGGCGGCATGGCAGAAGACAAAGCGCTCGGTCCGGGAACTGCATGACCGGATCTTCTACCGGCCGCTGCTGAACACCGCTGCGAAACTGAGCAGTGAGGATGCCCGCCTGACCCCGGAAGCAGCCCAAGGCCGCCTTGCCGCGCTCGGGTACCGCGATCCGCAGGGAGCCCTGCGGCATATCGAGGCTCTCACGGCGGGTGTCAGCCGTAGGGCCGCCTTGCAGCGGCAGCTGCTGCCCATCCTGCTGGGCTGGCTCGCTGAAGGCGTCGATCCCGACACCGGCCTGCTCGCGTTCCGGCGCGTCAGCGAGTCCCTGGGTACCACCCACTGGTACCTCGGCATGCTGCGGGATTCTGCCGCGGCAGCAGAACGGCTCTGCCACATGCTCTCCAATTCACGGCTCATTGCCGACCTGCTCGAAGTATCGCCGGAATCCGTGGCGTGGCTGGGGTCGGACAAGGACCTCACACCCCTGAGCTTTGAGGCGCAGTGGCAGGAAATCGTCTCCAAGATGTCCCGCCACGCCGAGCCGGAAAGCGCCATGAGGCTGATCCGGCTGATCCGGCGGCGTGAGATCCTGCGCATCGCCATCGCGGACAGCGCCGGACTGCTCACCCAGGACCAGGTGGGCGTGGCGCTGGCCGAAACGGACCGCGCCGCCATCCTCGGGGCCCTGCGGGTGGCCGAGAACATTGTGTCGGCGACGGGGCCCCTGAAGACCTCGGTGCTGGTGGTGGCTATGGGCCGGCAGGGCGGCCGGGAAATCGGGTACGGTTCCGACGCCGATGTGCTCTACGTCCACCGCGCCCTGCCCGGCTGTGCGGACGGTGAAGCCCAGGAGCAGGCGGCAAAGATCGTTGGCCATGTCTCCAGCCTCCTCACCCAGCCTCTGCGGCCCGCCATCATGGCCGAGCGCGTGCTCACGGTTGACGCGGACCTCCGCCCCGAGGGCAAGAGCGGTGCGATGGTGAGGTCGCTGGAATCGTACGCCGAGTACTACCGCCGCTGGTCCCTGGCGTGGGAGGCCCAGGCACTCCTGCGGGCCAGGCCCATTGCCGGGGACGACCAGCTGGCGGATGCCTTCCTCCGGCTCATCAATCCGATACGCTACCCCGAGTCGCTCTCGGAGGCGGACGTCCGGGAGATCAGGCGCATTAAGGCCAGGGTGGAGTCCGAACGGCTGCCGCGCGGTGCCGACCCTGCCCGGCACCTCAAGCTCGGCCGGGGCGGGCTCAGCGACGTCGAATGGCTGGTGCAGCTGCTGCAGCTGCAGCACGCGGGGCAGCACCCCGAATTGAGGACGACGTCGACGATCGGTGCTTTGGAGGCGGCAGCTGAGCTGGGCCTCATCGAAGCCGCCGACGCCGGGTTGCTGGCCGAAGCCTGGCGCCTCGCCAGCCGCATCCGCTCCGCCAATGTCATCTGGACGGGGCGTGCCTCGGACCTGCTGCCGTCCTCGCGTCGGGACCTCGAAGCAGTGGCGCGCTGGTGCGGATATGAGGAGGGGATGGCCACGGCTTTCGAGGAGAACTACCTTCGGGTGAGCCGGCGCGCGCGTGCCGTCTTCGAGAAGGTCTTCTACGGTCACTAG	MSLARRLISAGFSDLEKGERFLAAPELEGIDQDVLFAGLQLAASPDAALQSLVRLIEKHPDLRELAAADTDSSEPLYRVLGASEALGEFLIRHPEHLEAFDVKVSPEPLQAPADELRTGLLKSVQADPRASRPVAGITGPEAYEALRTAYRRGVVDLAVKDLCAADPLDFMPAVGAELADLAGAAIEAALAVSRAEAGAQFNAEEVADVGLAVIGMGKCGARELNYISDVDVIYVVEAGLLEDARANSIGTALASGISRAISSPAREPGLWEVDANLRPEGKSGPLVRTLDSHRSYYARWAESWEFQALLKARTIAGDADLGSRYEEAVSPLVWSSAGRDGFVESVQAMRRRVTEHIPAAEEQRQIKLGRGGLRDVEFTVQLLQLVHGKSDESLRCRDTTSAIAALSAGGYIGRADASAFDRAYRYLRLLEHRIQLFQLRRTHLMPVKEPALRALAKAVLGPFSTDRPHPDALMAAWQKTKRSVRELHDRIFYRPLLNTAAKLSSEDARLTPEAAQGRLAALGYRDPQGALRHIEALTAGVSRRAALQRQLLPILLGWLAEGVDPDTGLLAFRRVSESLGTTHWYLGMLRDSAAAAERLCHMLSNSRLIADLLEVSPESVAWLGSDKDLTPLSFEAQWQEIVSKMSRHAEPESAMRLIRLIRRREILRIAIADSAGLLTQDQVGVALAETDRAAILGALRVAENIVSATGPLKTSVLVVAMGRQGGREIGYGSDADVLYVHRALPGCADGEAQEQAAKIVGHVSSLLTQPLRPAIMAERVLTVDADLRPEGKSGAMVRSLESYAEYYRRWSLAWEAQALLRARPIAGDDQLADAFLRLINPIRYPESLSEADVREIRRIKARVESERLPRGADPARHLKLGRGGLSDVEWLVQLLQLQHAGQHPELRTTSTIGALEAAAELGLIEAADAGLLAEAWRLASRIRSANVIWTGRASDLLPSSRRDLEAVARWCGYEEGMATAFEENYLRVSRRARAVFEKVFYGH	PGPT0000655_542	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982	NA	NA
D1-17_02445	1341	glnA_2	COG0174	Glutamine synthetase	ATGGACCGCCAGCAAGAGTTTGTCCTGCGCACGATCGAAGAGCGCGACGTACGTTTTGTGCGTCTGTGGTTCACCGACGTCGTAGGTTCACTCAAATCAGTGGCGCTGGCGCCAGCCGAAGTCGAAGGCGCGTTTGAAGAGGGCCTGGGCTTTGACGGGTCCTCTATCGAAGGCCTGGCCCGCGTGTTCGAATCCGACATGCTCGCCCAGCCTGATCCCGCCACATTCCAGATCCTGCCCTGGCGCGGTGAGACCGAGCAGACGTCGAGGATGTTCTGCGACATTCTCACGCCGGATGGGGAGCCCTCGGCCGCTGACCCCCGCAACGTCCTCAAGCGCACTCTGGCCAAGGCCGCCGACATGGGCTTCACCTGCTACACGCACCCGGAAATCGAGTTTTACCTTCTGAAGTCCCAAGAGCCCGGACCGGACGGCGCGCCGATTCCCGTGGACGAGGGCGGCTACTTCGACCACGTGCCCGGCGGAGTGGCCCAGGACTTCCGCCGCACCGCCGTCACCATGCTCGAGTCGGTGGGCATCTCCGTGGAGTTCAGCCACCACGAGGCGGGTCCCGGCCAAAACGAGATCGACCTTCGCTACGCGGACGCCCTCCAGACGGCGGACAACATCATGACGTTCCGTACGGTGATCAAAGAGGTGGCGCTCCAGCAGGGGACGTACGCAACCTTCATGCCCAAGCCGTTCACCGCGCACCCGGGTTCGGGCATGCATACGCACTTCTCGCTGTTCGAGGGTGATACCAATGCATTCTTTGAGGCAGGGGCCGAGTTCCAGCTGTCCGAGACCGCGCGCCAGTTCATCGCCGGCATCCTCAAGCACGCTCCGGAGTTCACTGCCGTGACCAACCAGTTCGTGAACTCCTACAAGCGCCTGTGGGGCGGAGGAGAAGCGCCCAGCTACCTGAGCTGGGGCCACAACAACCGCTCCGCCCTGGTGCGCGTGCCGCTGTACAAGCCGGGCAAGGGACAGTCCGCCCGGATCGAATACCGCGGCATTGACTCCGCAGCCAACCCCTACCTCGCCTACGCCGTGCTTCTGGGCGCCGGGCTCAAGGGTATCGAGGAGGGCTACCAGCTTCCCGCCGCGGCCGAGGACGACATCTGGTCGCTGAGCTCGGCGGAACGCCGTGCCATGGGCCACGACCCGCTGCCCGCCAGCCTGCACGACGCGATCCGCAGCATGGAGGACTCCGAGCTCATGCCACAGATCCTGGGTGAGCAGGTGTTCGAGCACTTCCTGCGCAACAAGAGGGCGGAATGGCAGGACTACCGCCTTCAGGTGACCCCTTATGAACTGCAGCGAAACCTCGCGATCCTGTAG	MDRQQEFVLRTIEERDVRFVRLWFTDVVGSLKSVALAPAEVEGAFEEGLGFDGSSIEGLARVFESDMLAQPDPATFQILPWRGETEQTSRMFCDILTPDGEPSAADPRNVLKRTLAKAADMGFTCYTHPEIEFYLLKSQEPGPDGAPIPVDEGGYFDHVPGGVAQDFRRTAVTMLESVGISVEFSHHEAGPGQNEIDLRYADALQTADNIMTFRTVIKEVALQQGTYATFMPKPFTAHPGSGMHTHFSLFEGDTNAFFEAGAEFQLSETARQFIAGILKHAPEFTAVTNQFVNSYKRLWGGGEAPSYLSWGHNNRSALVRVPLYKPGKGQSARIEYRGIDSAANPYLAYAVLLGAGLKGIEEGYQLPAAAEDDIWSLSSAERRAMGHDPLPASLHDAIRSMEDSELMPQILGEQVFEHFLRNKRAEWQDYRLQVTPYELQRNLAIL	PGPT0000645_7843	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
D1-17_02446	735	panB	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGCTGACGGCGTATGACCAGTACACCGCGGAGATCTTCGACCAGGCCGGCATCGAAGTACTGCTCGTGGGCGACTCGGCGTCGAACAACGTCTTCGGCAACGAATCCAGCCTCCCTGTGACTGTTGACGAACTGCTGCCCCTGTGCCGCGCCGTGACCCGTTCAGCAAAGCGCGCCCTGGTCGTGGCGGACCTGCCGTTCGGCAGCTATGAGGTGTCCGCCCAGCAGGCGGTCGCCACCGGCGTCCGCTTCCTGAAGGAAGGCCTGGCCCATGCCGTGAAGATTGAAGGCGGCGCGTTCTACGCTGAGACCGTCCGAGCCATGGTGCAGGCGGGCATTCCCGTGATGGCCCACATCGGCTTCACGCCCCAAAGTGAGCACTCGCTGGGCGGCTACCGCGTGCAGGGCCGCGGGGATGATGCAAAGCGGCTGATCGACGACGCCGTGGCGCTGGTAGACGCGGGCGCGTTCTGCGTGCTCATGGAAATGGTTCCGGCCGAGACGGCAGCAGCAGTCGACGCCGCCGTCGCGGTGCCGACCATCGGCATCGGCGCCGGAAATGTCACGACCGGTCAGGTGCTGGTCTGGCAGGACATGGCAGGCCTCCGGGGCGGCAAAATGGCCAAGTTCGTCAAGCAGTACGCAGACCTGCGGACTATCCTCAGTGATGCCGCCAAGGCCTACGGCGATGATGTCCGGTCCGGACAGTTTCCAGGCCGGGAGCACTCATTCTAG	MLTAYDQYTAEIFDQAGIEVLLVGDSASNNVFGNESSLPVTVDELLPLCRAVTRSAKRALVVADLPFGSYEVSAQQAVATGVRFLKEGLAHAVKIEGGAFYAETVRAMVQAGIPVMAHIGFTPQSEHSLGGYRVQGRGDDAKRLIDDAVALVDAGAFCVLMEMVPAETAAAVDAAVAVPTIGIGAGNVTTGQVLVWQDMAGLRGGKMAKFVKQYADLRTILSDAAKAYGDDVRSGQFPGREHSF	PGPT0008740_232	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008740-panB-K00606	NA	NA
D1-17_02447	165			hypothetical protein	ATGCCCCAGTACTGGTACAACGTAAAGACACATGAGGTCGAAGAGGACGCCATGTCGGACTGGACCCAGCTCATCGGCCCGTACAAAACCCGGGAAGAGGCCGAGCACGCCCTGGAGAAGGTCCACGCCCGCAATGAGGCGTGGGAAAAGGGCGACGAGGACTAG	MPQYWYNVKTHEVEEDAMSDWTQLIGPYKTREEAEHALEKVHARNEAWEKGDED				NA	NA	NA	NA	NA
D1-17_02448	879	map_2	COG0024	Methionine aminopeptidase 2	ATGCCTTCCTTAGCCTCGACCGCACCAACCGGCACGCTGACCCCCGGATCCGTCAGCCCACAGCGTCCGGTGCCTGCTTCCATACCGCGGCCCGAGTACGTCGGCAAGCCGGGACCGTCTAGGTTCACCGGCTCAGAGGTAAAGCCGGCCGAGACGATCGAGAAAATCCGCATAGCAGGAAAAATCGCTGCCCAGGCCATCGTCGAAGTGGGAAAACACATTGTCCCCGGCGTGACCACGGACGAACTTGACCGGATCGGCCACGAATTCCTGCTGGACCACAAGGCCTACCCGTCAACTCTTGGCTACCGCGGCTTCCCCAAGTCCTTGTGCTCCTCACTGAACGAGGTCATCTGCCACGGGATTCCGGACAGCACAGTGGTCAAGGACGGGGACATTCTCAACATCGACATCACCGCGTTCATCGGCGGAGTGCACGGAGACACGAACTACACCTTCCTGGTGGGGGACGTGGACGAGGAGTCGCGCCTCTTGGTGGAGCGCACCCAGGAGTCGCTGAACCGGGCCATTAAGGCAGTCGCGCCGGGGCGGGAAATCAACGTGATCGGCCGCGCCATCGAGTCCTACGCCAAGCGTTTCGGCTACGGCGTTGTCCGCGACTTCACCGGCCATGGAGTGGGGGAAGCCTTCCATACCGGCCTGATCATTCCCCACTATGACGCTGCCCCTGCCTACAACACCGTGATCGAAGCCGGCATGGTGTTCACGATCGAACCCATGCTTACGCTCGGCACCGTTGAGTGGGACATGTGGGCAGACGACTGGACGGTTGTGACCCGCGACCGGAAGCGCACTGCCCAGTTCGAACACACCCTGCTCGTCACCGAAACGGGCGCGGAGATCCTCACCCTTCCCTAA	MPSLASTAPTGTLTPGSVSPQRPVPASIPRPEYVGKPGPSRFTGSEVKPAETIEKIRIAGKIAAQAIVEVGKHIVPGVTTDELDRIGHEFLLDHKAYPSTLGYRGFPKSLCSSLNEVICHGIPDSTVVKDGDILNIDITAFIGGVHGDTNYTFLVGDVDEESRLLVERTQESLNRAIKAVAPGREINVIGRAIESYAKRFGYGVVRDFTGHGVGEAFHTGLIIPHYDAAPAYNTVIEAGMVFTIEPMLTLGTVEWDMWADDWTVVTRDRKRTAQFEHTLLVTETGAEILTLP	PGPT0020010_2329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020010-map-K01265	NA	NA
D1-17_02449	804	ppgK	COG1940	Polyphosphate glucokinase	TTGGCTAAAAAGGACGAAAAGACCCGCAAGAACGCACCGCTGATCGGTATTGATATCGGCGGCACCGGAATCAAGGGCGGCATCGTTGACCTGAAGAAGGGCAAACTGATTGGCGACCGCTTCCGCCTGGCAACTCCCCAGCCTGCTACCCCGGCCGCTGTCATGGAAGTCGTCGCGAAGGTCGTGGAGGAACTGTCTGCGCGCCCTGACGCACCCGAAGCGGACAGCCCGGTGGGCGTCACGTTTCCCGGCATCATCCAGCACGGTGTGGTCCACTCCGCCGCCAACGTGGATAAGAGCTGGATCAACACCGACATCGACGCGTTGCTCACTGCCCGGTTGGGCCGCCCGGTGGAAGTCATTAACGACGCCGACGCCGCCGGGCTTGCCGAGGCACGCTACGGCGCCGGTGAAGGCGTCAACGGCACTGTCCTCGTCATCACACTCGGCACCGGCATCGGTTCAGCGTTCATCTTCAATGGCCAACTGGTTCCGAATGCCGAGCTCGGCCACCTTGAGATCGACGGTTTCGACGCCGAAAGCAAGGCCTCTGCCGTGGCACGTGAGCGGGACGGCCTCAGCTGGGAGGAGTACAGCGTGCTCCTGCAGCGCTACTTCTCCCACGTCGAGTTCCTGTTCTCCCCGGAACTGTTCATCGTCGGCGGCGGAATTTCCAAGCGCGCCGATGAGTACCTGCCGCGGCTGAAGCTGCGCACGCCCATCGTTCCGGCCGAGCTGAAAAACGAAGCCGGCATCGTGGGGGCAGCCCTTGAGATCGCCGTGAAGCACGAGCTCGCAAAGTAG	MAKKDEKTRKNAPLIGIDIGGTGIKGGIVDLKKGKLIGDRFRLATPQPATPAAVMEVVAKVVEELSARPDAPEADSPVGVTFPGIIQHGVVHSAANVDKSWINTDIDALLTARLGRPVEVINDADAAGLAEARYGAGEGVNGTVLVITLGTGIGSAFIFNGQLVPNAELGHLEIDGFDAESKASAVARERDGLSWEEYSVLLQRYFSHVEFLFSPELFIVGGGISKRADEYLPRLKLRTPIVPAELKNEAGIVGAALEIAVKHELAK	PGPT0017750_228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017750-ppgK-K00886	NA	NA
D1-17_02450	498	nrdR	COG1327	Transcriptional repressor NrdR	GTGTACTGTCCGTTTTGCCGGAACCCTGATTCGCGCGTCGTGGACAGCCGCATGGCCGACGACGGTTCGTCCATCAGGCGGCGCCGCCAATGCCCCGAATGCGGCCGGCGCTTCACCACAGTTGAAACCACCAGCCTTTCCGTCATCAAGCGCTCTGGCGTAGGGGAGCCTTTTAGCCGCAGCAAGGTCATCAACGGCGTCCGCAAAGCGTGCCAGGGCAGGCCGGTGAGCGAGGACGACCTCGCCCTGCTCGCCCAGGAAGTCGAAGAGAACATCAGGGCTTCGGGCGCGGCGGAAATCGATGCCCATGAGGTGGGCCTGATCATCCTGGGTCCGCTGCAGAAGCTGGACAAGGTGGCCTATCTTCGCTTCGCGAGCGTGTACCAGGCTTTCGAATCACTGGAAGACTTCGAATCCGCCATTGCGCTGCTGCGGCACGAGGGAGACGTCGACGGCAAGCCGGCCGAAGGCAAGAGTCCGGAACAGAGCACGCTTTAA	MYCPFCRNPDSRVVDSRMADDGSSIRRRRQCPECGRRFTTVETTSLSVIKRSGVGEPFSRSKVINGVRKACQGRPVSEDDLALLAQEVEENIRASGAAEIDAHEVGLIILGPLQKLDKVAYLRFASVYQAFESLEDFESAIALLRHEGDVDGKPAEGKSPEQSTL				NA	NA	NA	NA	NA
D1-17_02451	1317	hisD	COG0141	Histidinol dehydrogenase	GTGGATCTTCGCGGCCGGCGGCTGAGTCTCGCGGAACTCCGTGAAGCCGTGCCGCGGGCCCGGCATGAGACAGTCGCCGATGCTGAGCAGAAGGTCGAAGCCATCATCACTGACGTCCGCGAGCGTGGCTATGAAGCATTGACAGAGCTTGCCCGCCGTTTCGACGGGGTGGAGCAGGCGCACCCGCGTGTGTCCGCCGAGGCGCTGCGCTCGGCGCTGAACGGCCTGGACCCGGCCGTCCGTTCAGCCCTGGAGGAGAGCATCAGCCGTGCCCGCCGCTTCGCCGACAGCCAGCGCCCCGCGGATGTCGACGTCGCACTGGACGAGGGCGCCGTCGTGAGCCAGAAGTGGGTGCCTGTTGCGCGTGTGGGTCTCTACGTTCCGGGCGGCCTGGCCGTCTACCCGTCGTCGGTCATCATGAACGTTGTCCCCGCGCTGGCAGCGGGGGTGGAATCCATCGCGCTGGCGTCCCCGCCGCAGAAGGACTTTGGCGGCCTGCCGCATCCTACTATCCTGGCGGCCGCGGCGCTGCTCGGCATTGACGAGGTTTATGCGATCGGCGGGGCGCAGGCCATTGCCGCGTTCGCGTACGGCCTGCCGGGCTCCGACGGGGCGGCCGCTCTGGAACCCGTCGACGTCGTGACGGGGCCGGGCAACATTTTCGTGGCCACCGCCAAGCGCCTTGTTAAAGGGGTTGTGGGAATCGACTCGGAGGCAGGCACCACTGAGATCGCCATTCTGGCCGATGCCGCGGCCCGGCCCGCCTTCGTTGCCGCCGACCTGATCAGTCAGGCCGAGCACGACCCGAAGGCAGCCTCCGTGCTGATCACCGATTCCGAGCAGCTCGCCGCTGAGGTGAGGGAGGAGCTTGACCGTCAGGCGCTGGCGACGAAGCACAGTGCGAGGGTGCGCGAAGCGCTCTCCGGCCCGCAATCCGGCGTCGTGCTGGTGGATGACCTTGACCAGGGCATAGCCGCCTGCGATGCGTATGCTGCCGAACATCTTGAAATCATGACGGCGGACGCGCCTGCTGTGGCGGCCCGCATCAGGAACGCCGGGGCCATTTTCGTTGGGGACTACAGCCCCGTCAGCCTGGGGGACTACTGTGCGGGTTCCAACCACGTGCTGCCCACCAGCGGAACGGCGGCGTTTTCCTCCGGCCTGAACGTGACCACGTTCCTGCGCGCCATCCAGGTCATCAACTACACGGACTCGGCGCTCCAGCGGGTCAGCAGCCACATCGTCAGCCTGTCCGGGGCGGAAGACCTGCCGGCACACGGCGATGCCGTGACGGCCCGCTTCAGAACCGGCCGGTAA	MDLRGRRLSLAELREAVPRARHETVADAEQKVEAIITDVRERGYEALTELARRFDGVEQAHPRVSAEALRSALNGLDPAVRSALEESISRARRFADSQRPADVDVALDEGAVVSQKWVPVARVGLYVPGGLAVYPSSVIMNVVPALAAGVESIALASPPQKDFGGLPHPTILAAAALLGIDEVYAIGGAQAIAAFAYGLPGSDGAAALEPVDVVTGPGNIFVATAKRLVKGVVGIDSEAGTTEIAILADAAARPAFVAADLISQAEHDPKAASVLITDSEQLAAEVREELDRQALATKHSARVREALSGPQSGVVLVDDLDQGIAACDAYAAEHLEIMTADAPAVAARIRNAGAIFVGDYSPVSLGDYCAGSNHVLPTSGTAAFSSGLNVTTFLRAIQVINYTDSALQRVSSHIVSLSGAEDLPAHGDAVTARFRTGR				NA	NA	NA	NA	NA
D1-17_02452	447			hypothetical protein	GTGCCGATAGGTGTCCTGTGGTGGGTGCTTGCCCCCGGCGGCCTGAATCTCCTGTCGGGCAACGCAGCCTTCGCGTCCGGGACCAACTCCCAAGTGTGGCTGCCGCGGGATTTGGTCCTGGCGGGATTTTTTGTGGTCGCGGGCTGTCTCGTGGCGGTCCTGCTGGCGGGCCGAAAGGACGCAGGATCGGCCCGGATGTTACTGCTGTCCGTGGCCGCCGGGGCCGTTGCAGCGGTGCTTGCCTGGCAGGTCGGCCTCCTGGCCGGCCGCTGGTTCGGCGACCCGCTGGACACCTCAGCCAACGCAAGCGTCGCCTTCTCGCTGCGGTCTTATTCAGTTTTGCTGCTGTGGCCTGCGGCAGTTGCGGGCGGCTTTTTTGCAATCACCCTGCTTGAAGTGCTGCACCGGCCCCGGGACCGGGACCCGGGCAGCAGCGGCCGTGTGTGA	MPIGVLWWVLAPGGLNLLSGNAAFASGTNSQVWLPRDLVLAGFFVVAGCLVAVLLAGRKDAGSARMLLLSVAAGAVAAVLAWQVGLLAGRWFGDPLDTSANASVAFSLRSYSVLLLWPAAVAGGFFAITLLEVLHRPRDRDPGSSGRV				NA	NA	NA	NA	NA
D1-17_02453	501	rutF_2		FMN reductase (NADH) RutF	GTGACCGCGGATGACGCTGCCTTCGAAGGCACGTTCAAGGAGATGTTCCGCCGCCATGCGGCAGGCGTTGCAATTATCACAGTGAACTACAACGGCGTCCCGTACGGCTTCACCGCCACGTCCGTGGCTTCACTCTCTGCCAAGCCACCCCGCTTTACTTTCAACATGGCACGCAGTTCGAGCTCCTGGCCTGCAGTGGCAAACACCACCTACATTGGCGTCCACATGCTGGGTCTGGAGAACCAGGAACTGGCCGACCGCTTCGCGCGTACGAAAGAGCGCTTCGCCGGAGACCACTGGGCACTTGGCCCGCATGACGTTCCGATCCTCAAGGATGTTGCCGGCTGGTTGATCGGGAAGATCCAGATGCGCCTGTCCTTTGAAAACAACGCGGTGGTCGTGGTGGAAGTGGTGGAGGGCCAGGTAGGACCGGACGGCACTCCCCTGCTGTACCACTCCGGCACGTACGGCCAGCCCGTACCCCTGGACTACGAAATCTAG	MTADDAAFEGTFKEMFRRHAAGVAIITVNYNGVPYGFTATSVASLSAKPPRFTFNMARSSSSWPAVANTTYIGVHMLGLENQELADRFARTKERFAGDHWALGPHDVPILKDVAGWLIGKIQMRLSFENNAVVVVEVVEGQVGPDGTPLLYHSGTYGQPVPLDYEI				NA	NA	NA	NA	NA
D1-17_02454	3504	dnaE1	COG0587	DNA polymerase III subunit alpha	ATGCTGGACGGTGCAGCCCGGCTCGGCGAACTGTTCGACGAAACCGAGCGGCTGGGCATGCCAGCCCTCGCCACGACAGACCACGGTTATCTGTTTGGGGCCTTTGATTTCTGGAAGAAGGCCACGGACAAGGGCATCAAGCCGATCATCGGCGTCGAAGCCTATGTGACACCGGGGACGGCGCGCGGGGACAAGGAACGCGTGCGGTGGGGTGATGAATCCCAGCGTAAGGACGACGTTTCCGGCGGTGGCTCCTACACCCACATGACGCTCCTGAGCTACAACAACGTGGGGATGCGGAACCTGTTCCGGGCCTCGTCGATCGCATCTCTGGATTCTGTCTTCGGCAAATGGCCAAGGCTGGACCGGGAGCTGCTGAACACGTATTCCGAGGGACTGATAGCCACTACCGGCTGCCCGTCCGGGGAGGTCCAGACCCGGCTCCGGCTTGGCCAGTACCGCGAGGCGCTGGAGGCGGCCGCGGAGTTCCGCGACATCTTCGGTGCGGACAACTACTTTTGCGAACTCATGGACCACGGCCTGGACATCGAGCGGAGGGTCACGGGAGACCTGCTGCGGCTCGCCAAAGACCTGAACCTGCCGCTTGTGGCCACCAACGACCTCCACTACACGCATGAGCATGACGCGAAGGCGCACGAGGCCCTGCTGGCCATCCAATCCGGCTCCACGCTGCTGGAACCCACCTATGACAACGGCGGCTCGCGCTTCGCCTTCTCCGGCAGCGGCTACTACCTGAAGTCTCCCCGGGAAATGCGTGAGCTCTTCCGGGACCACCCGGAAGCCTGTGACAACACCCTGCTCATCGCCGAGCGCTGCGAGGTGTCCTTCAACACGGACGCCAACTACATGCCCCGCTTCCCCTGCCCGCCCGGAGAAGACGAGACATCCTGGTTGGTTAAGGAAGTGGACAAGGGGCTGCAGTACCGCTATCCCGGGGGCATCCCGGACGAGGTCCGCAAGCAGGCCGACTACGAGCTGGAGGTCATCACCTCCATGGGCTTCCCGGGTTACTTCCTCGTGGTTGCCGACTTCATCAACTGGGCGAAGAACAACGGCATCCGCGTCGGACCGGGCCGCGGTTCCGGCGCGGGCTCCATGGTTGCTTACGCCATGCGCATCACCGACCTCGACCCGCTGAGGCACGGCCTGATCTTCGAGCGCTTCCTCAACCCGGACCGCGTCTCGATGCCCGACTTCGACGTGGACTTCGATGACCGGCGCCGATCGGAAGTGATCGACTACGTCACCCGCAAGTATGGCGACGAACGCGTGGCCATGATCGTCACGTACGGCACCATCAAGACCAAGCAGGCGCTCAAGGACTCCTCGCGCGTCCTGGGGTATCCCTTCAGCATGGGCGAGCAGCTGACCAAGGCCCTGCCGCCCGCCGTCATGGCCAAGGACATCCCGCTTGCTGATATCCAGAACCCTGAGGCCAAGCGTTACAGCGAAGCCGGTGACTTCCGGCAGCTCATCGCAACCGACCCAGAAGCCGCGAAGGTGTTCGAGACGGCACTGGGCATAGAGGGCCTGAAGCGCCAGTGGGGCGTCCATGCCGCCGGCGTCATTATGTCCTCGGACCCGATCATTGACGTCATCCCCATCATGCGCCGTTTCCAGGACGGCCAGGTCATCACCCAGTTCGACTACCCGACGTCCGAGGGCCTTGGCCTGATCAAGATGGACTTCCTGGGACTGCGGAACCTGACGATCATTTCCGATGCCCTCGAGAACATCAAGATGAACCGCGGAATCGACCTCGACCTCGAAAACCTTGAGCTCGACGATGCCGCTTCCTACGAGCTCCTGGCGCGCGGCGACACCCTCGGGGTGTTTCAGCTCGACGGCGGCCCGATGCGGTCCCTGCTCAAACTGATGAAACCTGACAACTTCGAGGATATTTCCGCTGTCCTGGCGCTCTACCGCCCGGGTCCGATGGGCGCCAACGCCCACACGGATTATGCCCTGCGCAAGAACGGGATTCAGAAAGTTATCCCGATCCACCCCGAACTCGAAGAACCGCTGTCGGAGATCCTGGGCGGCACCTACGGCCTGATCGTCTACCAGGAACAGGTTATGGCCGTCGCGCAGAAGCTTGCCGGGTACTCCCTGGGCCAGGCCGACATCCTGCGCCGGGCCATGGGTAAAAAGAAGAAGTCTGAACTGGATAAGCAGTTTGCCGGCTTTTCACAGGGCATGCAGGACAACGGCTACTCGATGGAAGCCGTGAAGACCCTGTGGGACATCCTGCTGCCGTTTTCCGACTACGCGTTCAACAAGGCGCACTCGGCCGCGTATGGAGTGATCTCCTACTGGACGGCGTACCTCAAGGCCCACTACGCACCCGAGTACATGGCCGCACTGCTGACCTCCGTCGGTGACGACAAGGACAAGTCTGCGATCTACCTGAACGAATGCCGGCGGATGGGCATTACTGTGCTGCCGCCGGACGTTAACGAATCGGCGCTGAACTTCACTCCGGTGGGCAATGACATCCGCTTCGGCATGGGGGCGATCCGCAACGTCGGCGTCAACGTGGTGGAAGCCATGGTTTCCGCCCGGGAAAAGGACGGCGCATACACCTCCTTCAAGGACTACCTCATGAAGGTGCCCGCCGTCGTGTGCAACAAGCGCACCATTGAATCCCTGATCAAGGCCGGCGCCTTCGACTCCTTGGGGCACCACCGGCGCGCCCTGGCCATGGTCCATGAAGAGGCAATCGATTCCGTCATCACCCTCAAGCGCAATGAGGCCATCGGACAGTTCGACCTCTTCGCCGGCTTCGAGGATACCGAGTCGGAGGCGTCCCTGAGCATCGAGATACCTGACCTTCCCGAGTGGGAGAAGAAGGACAAGCTGTCGTTCGAGCGTGACATGCTTGGGCTGTATGTCTCGGACCACCCGCTGCAGGGCCTTGAAGGGTTGCTGAGCCAGCACGCCGACCAGTCCATCACCTCGATCATCGCCGAGGATGGACCCCAGGACGGGGCGATCGTGACGATTTCCGGGATGATCACCTCGCTCAGCAGGCGTATCGCCAAGGCCAGCGGCAATGCCTATGCCAGGGCCGAGATCGAAGACCTCGGCGGTTCTATGGAAGTGATGTTCTTCGGGCAGGTGTACGGCCCCATAGCGTCCGTCCTCGCCGAAGACCTCATCGTGGTAGTCAAGGGCCGCCTGCAGCGGCGTGATGACGGCGCCGTCACCCTGAACTGCATGGAACTTTCCGTCCCGGACCTTAGTGAGGGCGCCAATGGACCCATCGTGATCACGATGCCGACTCACAAGGCCACCGAGGCAGTGGTCATGGAGCTGGGCGACGTACTGCGCAACCACCGCGGAAACTCAGAGGTGCGCATCAACCTCATGGGCGACACCCGAGTGGAGGTTATGGCCCTGCCCGTGCACCTGCGGGTCAACCCCAACCCCTCGCTCTTCGGCGACCTGAAGGTGCTGCTGGGGCCTGCCTGCCTGGACTTCTAG	MLDGAARLGELFDETERLGMPALATTDHGYLFGAFDFWKKATDKGIKPIIGVEAYVTPGTARGDKERVRWGDESQRKDDVSGGGSYTHMTLLSYNNVGMRNLFRASSIASLDSVFGKWPRLDRELLNTYSEGLIATTGCPSGEVQTRLRLGQYREALEAAAEFRDIFGADNYFCELMDHGLDIERRVTGDLLRLAKDLNLPLVATNDLHYTHEHDAKAHEALLAIQSGSTLLEPTYDNGGSRFAFSGSGYYLKSPREMRELFRDHPEACDNTLLIAERCEVSFNTDANYMPRFPCPPGEDETSWLVKEVDKGLQYRYPGGIPDEVRKQADYELEVITSMGFPGYFLVVADFINWAKNNGIRVGPGRGSGAGSMVAYAMRITDLDPLRHGLIFERFLNPDRVSMPDFDVDFDDRRRSEVIDYVTRKYGDERVAMIVTYGTIKTKQALKDSSRVLGYPFSMGEQLTKALPPAVMAKDIPLADIQNPEAKRYSEAGDFRQLIATDPEAAKVFETALGIEGLKRQWGVHAAGVIMSSDPIIDVIPIMRRFQDGQVITQFDYPTSEGLGLIKMDFLGLRNLTIISDALENIKMNRGIDLDLENLELDDAASYELLARGDTLGVFQLDGGPMRSLLKLMKPDNFEDISAVLALYRPGPMGANAHTDYALRKNGIQKVIPIHPELEEPLSEILGGTYGLIVYQEQVMAVAQKLAGYSLGQADILRRAMGKKKKSELDKQFAGFSQGMQDNGYSMEAVKTLWDILLPFSDYAFNKAHSAAYGVISYWTAYLKAHYAPEYMAALLTSVGDDKDKSAIYLNECRRMGITVLPPDVNESALNFTPVGNDIRFGMGAIRNVGVNVVEAMVSAREKDGAYTSFKDYLMKVPAVVCNKRTIESLIKAGAFDSLGHHRRALAMVHEEAIDSVITLKRNEAIGQFDLFAGFEDTESEASLSIEIPDLPEWEKKDKLSFERDMLGLYVSDHPLQGLEGLLSQHADQSITSIIAEDGPQDGAIVTISGMITSLSRRIAKASGNAYARAEIEDLGGSMEVMFFGQVYGPIASVLAEDLIVVVKGRLQRRDDGAVTLNCMELSVPDLSEGANGPIVITMPTHKATEAVVMELGDVLRNHRGNSEVRINLMGDTRVEVMALPVHLRVNPNPSLFGDLKVLLGPACLDF				NA	NA	NA	NA	NA
D1-17_02455	927		COG0564	putative RNA pseudouridine synthase	ATGTCTGAGCGGCTGGTAGTGCCTGAAGAGCTCCACGGAACCCGTGCGGATGCAGGGCTGGCCAAACTGATGGGCGTGTCCCGTTCTTTGGCTGCGGACCTCATCGCCGAAGGCAATGTTGTCAGCGGCGGAAAACTCCTGGGGAAGTCTGCCAGGCTCGCGTCTGGCACTGTGCTCCACGTGACAGTCCCGGAGCGGCGGGACCCCTTGGAAGTTGTGGAGGAAGAAGTGGAAGGCCTGAAAATCCTGCTGGACGACGACGACTTCGTGGTCGTGGACAAGCCAGTGGGTGTGGCCGCGCACCCTTCGCCCGGCTGGGTGGGCCCGACGGTCGTCGGGGGACTGGCCGGCGCCGGCTACCGCATCTCGACATCCGGCGCCTCTGAACGCGCCGGCATTGTCCACCGTCTCGACGTCGGCACGTCCGGTGTTATGGTGGTCGCCAAGTCAGAAGATGCGTACACAGCGCTGAAACGGGCCTTCAAGGACCGCAGCGTCGACAAGGTCTACCACGCTGTTGTCCAGGGGCTGCCGGACCCCTTGCAGGGGACCATCGATGCCCCCATCGGCCGCCATCCCGGCCACGACTGGCGCTTTGCGGTCATCGAGGAGGGGCGGCCGTCCGTTACGCATTACGAAGTCCTCGAGGCTTACGGCAAGGCGACCCTGGTGGAGGTGCACCTGGAGACTGGCAGGACCCACCAGATCCGGGTCCATTTCGCAGCGCTGCGGCACCCCTGCGCCGGCGACCTCACCTACGGCGCCGACCCCCGCCTTGCCGCCACCCTCGGACTAACGCGGCAGTGGCTCCACGCCCGGCAGCTTGGCTTCGATCACCCCAGGACAGGCGAACGGGTGACTGTGACCAGCGAATACCCGGAAGATCTCGCCTATGCGCTGCGGGTTCTGGAGTCGGGTAACGCCTGA	MSERLVVPEELHGTRADAGLAKLMGVSRSLAADLIAEGNVVSGGKLLGKSARLASGTVLHVTVPERRDPLEVVEEEVEGLKILLDDDDFVVVDKPVGVAAHPSPGWVGPTVVGGLAGAGYRISTSGASERAGIVHRLDVGTSGVMVVAKSEDAYTALKRAFKDRSVDKVYHAVVQGLPDPLQGTIDAPIGRHPGHDWRFAVIEEGRPSVTHYEVLEAYGKATLVEVHLETGRTHQIRVHFAALRHPCAGDLTYGADPRLAATLGLTRQWLHARQLGFDHPRTGERVTVTSEYPEDLAYALRVLESGNA				NA	NA	NA	NA	NA
D1-17_02456	573	lspA	COG0597	Lipoprotein signal peptidase	ATGACAGACGAAATTGCCGCTGATGCAGCCCACCCAGCCTCTCCGCGCCCACGGCCCCGCCGGGCAGTCCTGCTCTCCCTGTTCACCGGCCTGGCTGCGTTCGCGTACATTTTCGACCAGCTCACCAAGCTGTGGGTCACAAGCACCATGGTCGAAGGCGAACGCATCCCGGTCCTGCCGCCGCTCCTGCACTGGTACTTCATCCGGAACTCCGGCGCCGCCTTTTCCATTGGCGAGAACGTGACGTGGATCTTCACCATCATCATGGTGGCCGTCTCAGTGGCTATTCTGTTCCAGCTGCGCCGGCTCGGCTCGGCATGGTGGGCCGTGGCTCTGGGACTTCTGTTCGGCGGTGCCACCGGGAATCTGACCGACCGGCTGTTCCGCGAACCATCCTTCGCCATGGGACACGTGGTGGACTTTATCCAGCTGCCTAACTTCGCGATCTTCAACATAGCCGACTCGGCCGTGGTGTCCTCGGTGGTTATCATCTGCCTGCTGACGCTGCGTGGGATCGGACTCGACGGCTCCCGCCACTCGTCGGCCAAGCAGGACGGGGGCAAGGATGTCTGA	MTDEIAADAAHPASPRPRPRRAVLLSLFTGLAAFAYIFDQLTKLWVTSTMVEGERIPVLPPLLHWYFIRNSGAAFSIGENVTWIFTIIMVAVSVAILFQLRRLGSAWWAVALGLLFGGATGNLTDRLFREPSFAMGHVVDFIQLPNFAIFNIADSAVVSSVVIICLLTLRGIGLDGSRHSSAKQDGGKDV	PGPT0004770_1160	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
D1-17_02457	690		COG3599	Cell wall synthesis protein Wag31	ATGGCTTTGACGCCAGAAGACGTTGTCAACAAGCGCTTTCAGCCGACCAAGTTCCGCGAAGGCTACGACCAGGACGAAGTTGATGACTTCCTGGACGAAATCGTCGTTGAACTGCGCCGCCTGAACCAGGAAAACGACGAACTTCGCAAGAAGCTCGCTGAGGTTTCCGGCGGCAACCCCGCTGCCTCCGCAGCAGTGGCACCTGTCGTTGAGAAGGTTTCGGCTCCGGCGAAGGCCGACAAGGACGAAGCACGCGCGAAGGCCGAAGCCGACGCAAAGGCCGCAGAGCTTGCCAAGAAGAAGGCTGCCGAGCAGGCTGTGCCCGTGGCAGCACCGGCCCCCGCTGCCGGAGGCAATGTCTCCGAGTCCGCTGCCGGCCTGCTTGCCATGGCCCAGCAGATGCACGACCGTCACGTCGCTGACGGCCAGGAACAGCGCGACAAGATCATCGCTGAGGCACAGATCGAAGCCAGCAGCCTCGTCAACGATGCACAGGAGAAGTCCCGCAAGATCCTCGGCGCACTTGAGCAGCAGCGTTCTGTTCTCGAGCGCAAGGTGGAGCAGCTCCGCGGCTTCGAGCGCGACTACCGCGCACGCCTGAAGGCTTACATCGAGGGCCAGCTCCGCGATCTTGACGCCCGTGGCTCCGTCGCCGCCCCCGAGGTCGGCGAAAGCAACGCTACCGTTTAG	MALTPEDVVNKRFQPTKFREGYDQDEVDDFLDEIVVELRRLNQENDELRKKLAEVSGGNPAASAAVAPVVEKVSAPAKADKDEARAKAEADAKAAELAKKKAAEQAVPVAAPAPAAGGNVSESAAGLLAMAQQMHDRHVADGQEQRDKIIAEAQIEASSLVNDAQEKSRKILGALEQQRSVLERKVEQLRGFERDYRARLKAYIEGQLRDLDARGSVAAPEVGESNATV	PGPT0014806_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
D1-17_02458	288			hypothetical protein	ATGGGACTAGTATTCGGGCTCATCTATATCGTCCTGCTGTTCATCTTTGTGGCACTCATCGTGCGGCTGGTCTTCGACTGGGTCCAGATGTTTGCACGCGAATGGCGTCCCCGCGGGGCCGCGCTCGTCGCGGCCCACGCGGTGTACTCCGTTACGGATCCGCCACTGAGAGTGCTCCGCAGGGTTATCCCGCCGCTGCGGCTCGGCGGTGTATCGCTTGATCTGGGCTTCCTGGTGTTGTTCATCGCCCTCAGCATCGCAATGGCGGTCACCAGATCCTTCGCATAG	MGLVFGLIYIVLLFIFVALIVRLVFDWVQMFAREWRPRGAALVAAHAVYSVTDPPLRVLRRVIPPLRLGGVSLDLGFLVLFIALSIAMAVTRSFA	PGPT0013730_2617	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0013730-yggT|ylmG-K02221	NA	NA
D1-17_02459	528	sepF		Cell division protein SepF	ATGGCTGGCGCTCTGCGCAAGACAATGATCTATCTTGGGCTCGCCGATGGCGAAGAGCACTACGAGTCTGAGCTTTCCACCCAGCAAAAGGACGAGGACCACATGGAGCCTGACCGCGAAGAACGCCGTGCCCCGGCACCCGTCCGCGACGTCGTCCGTGAAGTGCCTGCCCCCGCCGAAGAGGAATACCGCGCACCCGTGACACCCATCAAACGTGCGGCTTCCAGCCGCGAGGAAAGCACAGGACTCCGGCAGATCACCACGATCCACCCGCGCTCCTACAACGACGCCAAGCTTATTGGCGAAAGCTTCCGGGACGGCATTCCTGTCATCATGAACGTCACCGACATGGGTGAAGCGGACGCCAAGCGCCTTGTCGACTTCTCGGCGGGACTGGTTTTCGGTCTCCGCGGAAGCATCGAGCGTGTCACCAACAAGGTGTTCCTGCTGTCGCCGTCGTACGTTGAAGTCATCGGCGATGACAAGAAAGCCAGCGACACGACCGCGAGCTTCTTCAACCAAAGCTAG	MAGALRKTMIYLGLADGEEHYESELSTQQKDEDHMEPDREERRAPAPVRDVVREVPAPAEEEYRAPVTPIKRAASSREESTGLRQITTIHPRSYNDAKLIGESFRDGIPVIMNVTDMGEADAKRLVDFSAGLVFGLRGSIERVTNKVFLLSPSYVEVIGDDKKASDTTASFFNQS				NA	NA	NA	NA	NA
D1-17_02460	735		COG0325	Pyridoxal phosphate homeostasis protein	ATGGCTGAGACCCCTGAAACAGACCCCAGGACAGCAAGGCTGAGGCAGCGCCTCGAGGCGGTGAACCTGCGGATCGCCGAGGCCACCGCTGCTGCTGGCCGCGGCGACAATGCGCCGCGGCTCATCGTTGTCACCAAGTTCCACCCAGCAGACGACATCCGCAGGCTCGCCGCGCTCGGAGTGTCGGACTTTGGCGAAAACCGTGACCAGGAGGCATCCGAAAAGGCCGACGCGCTCAGCGGACTGGATGTCAGGTGGCATTTCGTTGGGCAGCTGCAAAGCAAGAAATCCAAAAACGTGGTCCGTTACGCCCACGCTGTTCACTCCGTTGACCGTCCCCAGCTCGTGGAAGCGCTGGGCCGGGCCATGGCAGCGGAGCGGGAGAAGTCCGGCCGTGACCCTCTGGAGTGCTTCATCCAAGTAAGCCTGGAAAACGACGCCGGGACGCACCGGGGTGGAGCCGCACCTGTCGACGTGCCGCTGCTGGCCGACCAGGTGGAAGCTGCCGGGGGCCTGCAGTTGGCCGGGGTCATGGCCGTTGCTCCGCTGGGTGCCGAGCCGGACCGGGCGTTTGCGCAGCTGGCCGAGATTTCCGCACGGCTCCGGATGGACCACCCTGCCGCGGACGGCATTTCAGCGGGCATGAGCCAGGATCTGGAATCAGCCATAAGCCACGGTGCGACACACCTGAGAATCGGGTCCGATATTCTCGGTTCGCGCCCGGCCGTGCGATAG	MAETPETDPRTARLRQRLEAVNLRIAEATAAAGRGDNAPRLIVVTKFHPADDIRRLAALGVSDFGENRDQEASEKADALSGLDVRWHFVGQLQSKKSKNVVRYAHAVHSVDRPQLVEALGRAMAAEREKSGRDPLECFIQVSLENDAGTHRGGAAPVDVPLLADQVEAAGGLQLAGVMAVAPLGAEPDRAFAQLAEISARLRMDHPAADGISAGMSQDLESAISHGATHLRIGSDILGSRPAVR				NA	NA	NA	NA	NA
D1-17_02461	651		COG1496	Polyphenol oxidase	GTGGCGTTCACCGACACCGCGGCAGGCAACCTTGCGTTGCACGTAGGCGATGATGGGCCGTCCGTTCTGCAACGGCGCGACGAACTGAACAGAACCACGGGTCTTGCTCCCCGCGGCTTCCGCTACATGAACCAGGTGCATGGAAACCACGTTGCCCTCGTTGGTGCTGCGGCGGAGACGCCCACAGCTGATGCCATGGTGTCCCGCTCGGAACCGCTGGCTGTCATGGTGGCTGACTGCATTCCCCTTGTTCTTGTCGGTCAGTCAGACTCCGCTCCGCTGTTTGGAGTGGTTCATGCTGGCCGCCCGGGGCTGGCTGCCGGGATCATTCCTGCTGCTATCGAGCAGTTGCGGGCTGCGGGCGCTGAGAACATCCGTGCCTGGCTGGGTCCGTCCATCTGCGGCGGCTGTTATGAAGTGCCGGCCGGCCTCCGGGACGGCGTTGCTGCCCTCGTGCCGTCTGCCTGGGCCACCACAACGTGGGGAACACCGGCGCTCGACCTTCCGGCAGGCGCGGCAAGCCAACTTGAAGCCGAAGGCGTGACCATCGAATATCGGGGACCATGCACCCTTGAAACCGAATCCCTCTACTCCTATCGCAGGGACCGGCAGTCCGGGCGGTTCGCGGGGCTGGTGTGGGCCCATGGCTGA	MAFTDTAAGNLALHVGDDGPSVLQRRDELNRTTGLAPRGFRYMNQVHGNHVALVGAAAETPTADAMVSRSEPLAVMVADCIPLVLVGQSDSAPLFGVVHAGRPGLAAGIIPAAIEQLRAAGAENIRAWLGPSICGGCYEVPAGLRDGVAALVPSAWATTTWGTPALDLPAGAASQLEAEGVTIEYRGPCTLETESLYSYRRDRQSGRFAGLVWAHG	PGPT0019965_3777	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-POLYPHENOL_OXIDASE,PGPT0019965-yfiH-K05810	NA	NA
D1-17_02462	1233	ftsZ		Cell division protein FtsZ	GTGGCAGCTCCGCAGAATTACTTGGCCGTCATCAAGGTCGTCGGCATCGGCGGCGGTGGCGTGAACGCAGTCAACCGCATGATCGACGTGGGTCTCCGCGGTGTCGAATTCATCGCGATCAACACCGATGCCCAGGCGCTGCTGATGAGCGATGCCGACGTCAAGCTTGATGTCGGACGCGAACTGACGCGAGGGCTTGGCGCAGGTGCCAACCCCGACGTCGGCCGGCAGGCTGCCGAGGACCACGCTGACGAGATCGAGGAAGTGCTGCGCGGTGCGGACATGGTCTTCGTGACGGCTGGCGAGGGCGGTGGCACGGGCACCGGCGGTGCTCCCGTCGTTGCCCGCATTGCTCGGTCCCTTGGCGCCCTGACCATTGGTGTCGTGACCCGCCCCTTCACTTTCGAGGGACGCCGCCGCGCCGGTTCCGCCGAGGCCGGCATCGATGCGCTGCGCGATGAGGTCGACACGCTGATCGTCATTCCCAACGACCGTCTGCTGTCGATCAGCGACCGCAACGTCTCCGTGCTGGATGCTTTCCGCTCGGCTGACCAGGTCCTGCTGTCCGGTGTCCAGGGCATCACCGACCTCATCACCACCCCGGGCTTGATCAACCTTGACTTCGCCGACGTCAAGTCGGTCATGCAGGGCGCCGGTTCGGCGCTCATGGGCATCGGCTCCGCCCGCGGCGAGGACAGGGCTGTCAAAGCCGCCGAACTCGCCATCGCATCGCCGCTGCTTGAGGCTTCCATTGACGGTGCCCACGGTGTGCTGCTCTCGATCCAGGGCGGTTCTGACCTCGGCCTCTTCGAGATCAACGAGGCCGCCCGCCTCGTCCAGGAAGTGGCGCACCCCGAAGCCAACATCATCTTCGGAGCCGTGATCGACGACGCCCTCGGCGACGAGGCACGCGTCACCGTCATCGCAGCCGGCTTTGACGATGTTAAGGCCACCTCGCCGTCCATGGATCAGTCCCAGCCGCAGGCCGCCCCGCAGCGTCCCGCCGTTCCGGCTGCTGCGCCGACCCAGGCACCCTCCGGAAACCCGCAGGTCCACGTCCAGCCGGTGCACGCCGGAGTCGGCGCCGCCACCAACCTGGGCAGCTGGGGCCAGCACCGCTCGTCCGCAGTCCCCGCAGACTCCGGATTCGACGTCGATCTCCCGTCCGTTGTTGAGCCCGATCTCTCCGGCGGCCGCCAGGATGACCTGGACGTCCCGGACTTCCTGAAGTAG	MAAPQNYLAVIKVVGIGGGGVNAVNRMIDVGLRGVEFIAINTDAQALLMSDADVKLDVGRELTRGLGAGANPDVGRQAAEDHADEIEEVLRGADMVFVTAGEGGGTGTGGAPVVARIARSLGALTIGVVTRPFTFEGRRRAGSAEAGIDALRDEVDTLIVIPNDRLLSISDRNVSVLDAFRSADQVLLSGVQGITDLITTPGLINLDFADVKSVMQGAGSALMGIGSARGEDRAVKAAELAIASPLLEASIDGAHGVLLSIQGGSDLGLFEINEAARLVQEVAHPEANIIFGAVIDDALGDEARVTVIAAGFDDVKATSPSMDQSQPQAAPQRPAVPAAAPTQAPSGNPQVHVQPVHAGVGAATNLGSWGQHRSSAVPADSGFDVDLPSVVEPDLSGGRQDDLDVPDFLK	PGPT0027695_2330	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027695-ftsZ-K03531	NA	NA
D1-17_02463	1077	ftsQ		Cell division protein FtsQ	GTGGCTAGCACACGGCGGCCAACCTATCGGCCCACCGGAACCGGCACCGGCACCGGAACCCGGGGCAAGTCGGGGGATCGGGATGCTGCAGGATCACAGGCGACGGAGTCCGGGGCCTCAGACTCCCGACGCGCCTCGCAGCCGGGAGTGATCTCCGCCTCCAAGAGCGCTTACGTGGAGCCTGCGGGACTGCAGCCCGAAGGGGAGAAGGCAGCCGCGCAAAAGGCCGTGAGGCAGAAAGCAGCCGGGCAGAAAGCAGCCGGGCAGAAAGCCGGTCTTTGGAAGGCCGGCAGGCGGAAAGCCGCTCAGCAGAAGGCTGATGACCAGGGGACCGCAGCCGCGGGTGCAGCACGTGAGAATGTTCTCGCCTTTCCCGAGCCCAAGGGCAGGCGGATCAGGCGGAATGCCATCATCGCCGCATGTCTAGTGGCGGCGCTGGTGGCCGGTGTGCTGGTGGCGGCCGTGTATTCGCCCCTGCTCGCCGTCAGGGCGGTGACGGTGAACGGCACCAAACTGCTCAAGCCCGCGCAGGTCCAGGCTGCCCTCAAACCGCTTGAGGGAAAACCCCTGCCCCAGATCAGCGACGGGGAGGTTGACGGACTGCTTAGGCAGCTCGTGCAGATCAAGTCAGTGACAACGCAGGCACACCCGCCCTCCACCCTTGTGGTGCAGGTCCAGGAACGCATTCCGGTGGCGCTCGTGAAGCGCGGGGCGCAGTACATTCTGGTGGACGTGGACGGCGTGCGGCTGAGCTCCACGGACAACCCCGCCAAGGTGAAGCTGCCGGTCATTGACGGGGGCGCCGGTGCCATCGGCAAGGATTTGTTTCAGGCTACTGCCGCCGTCCTCGGTGCCTTGCCGGCCAGCGTCCTGGCTAAACTTTCCAACGCCTCCGCAAGGTCAGTTGACGCGGTGGAACTGAAACTCGTTGACGGCCGGACCGTCGTGTGGGGCAATGCGGGGGAGAAGGAACTGAAGGCGCGGGTACTTGAGGCACTTCTGAAGGTTCCGGCTGATCCTGCCAATCCGGTCAAGGTCTACGACGTCAGCGTTCCCCGGCACCCGGTGACTCGATGA	MASTRRPTYRPTGTGTGTGTRGKSGDRDAAGSQATESGASDSRRASQPGVISASKSAYVEPAGLQPEGEKAAAQKAVRQKAAGQKAAGQKAGLWKAGRRKAAQQKADDQGTAAAGAARENVLAFPEPKGRRIRRNAIIAACLVAALVAGVLVAAVYSPLLAVRAVTVNGTKLLKPAQVQAALKPLEGKPLPQISDGEVDGLLRQLVQIKSVTTQAHPPSTLVVQVQERIPVALVKRGAQYILVDVDGVRLSSTDNPAKVKLPVIDGGAGAIGKDLFQATAAVLGALPASVLAKLSNASARSVDAVELKLVDGRTVVWGNAGEKELKARVLEALLKVPADPANPVKVYDVSVPRHPVTR				NA	NA	NA	NA	NA
D1-17_02464	1395	murC	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGACCGGCAACGGCGTACGTCAGCAGGAAGCGCTTGGGCGCGTACATTTCATCGGCATCGGCGGTGTGGGCATGTCCGCCGTGGCCAGGATCATGGTGGCCCGGGGTGTGCCGGTGAGCGGTTCCGACGCCAAGGACCTGCCCGTCATGGCGGACCTCGCAGCCGCCGGCGCCAGGATTGCCGTCGGCTATGCGGCGGAAAATCTCGGCGGGGCGCAGACCGTCGTGGCGGGATCCGCCATCCGGGAGGACAACCCGGAGCTCGCCGCCGCCAGGGCAGCAGGGCTGCCCGTGCTGCACCGGTCCGAGGCGCTGGCCGCCACCATGGGCGATGACCTCGTAGTCACAGTCGCAGGCACCCACGGGAAGTCCACCACGACGTCGATGATTGCAGTGCTGCTGCAGGGCGCCGGCCTGGACCCTTCCTTCGCGATCGGCGCCAACGTTCCGGCCCTTGGCGTCAACGCGGCAAGCGGCACGTCGCAGGTGTTCGTGGCCGAGGCCGACGAGTCGGACGGCTCGTTCCTGAACTACCGTCCGAAGATCGCTGTCGTAACGAACGTCGAGCCAGACCACCTGGACCACTACGGCACGGCCGAGGCCGTGTATGCCTCGTTCGACAGCTTCACGGCCCTGCTGCCGGCGGACGGGGTGCTCGTTGCCTGCGCGGACGACGCCGGCGCGCTGGCTCTGGCGCGCCGGACCGCCGAGCGGGGCAACACCCGGGTGGTGCTGTACGGCACGTCCGAGGACGCTGACATCCGGCTGTCCGACGGCGGCCCCGGCAATGTCTCCATCACGACGGCGGCCGGCAGCTTTCCGCTGTCACTGCAGGTCCCGGGCCGGCACAATGCGCTCAACGCCGCTGCCGCGATGGCGGTGGCCTTGGAGCTGGGCGTGGCACCGGACGCGGCAGCGGCGGCGCTGGCAGGATTCTCCGGCGCCTCAAGGCGCTTTGAATTCAGGGGCGAGGGCAGGGGTGTGCGCGTGTACGACGACTACGCCCACCACCCCACTGAGGTGCGCGCCGCCCTGGCCGCAGCACGCTCGGTCGCCGGCAGCCACAAAGTCCATGTCCTGTTCCAGCCCCATCTCTTTTCCCGGACCCGTGAATTTGCCAAGGACTTCGCTGAAGCCCTGAACACGGCCGACACCGCCTTGGTGCTGGACATTTATCCGGCCAGGGAAGACCCGATCCCCGGCGTCACCAGCGCCCTGATCGCGGAGCATCTCGGTGCGGGCGGCCACCTGACAGATGGTGGCGCAACCGCAGTGGCAGCTGTGGCCGCAGCCGCGGAGCCCGGAGATGTGGTGCTGACCGCCGGGGCCGGCGACGTCACAGCGTATGGGCCGCTCATCGTGGAGTCGCTTGCCGTGGAGTCACGCAGTGGCTAG	MTGNGVRQQEALGRVHFIGIGGVGMSAVARIMVARGVPVSGSDAKDLPVMADLAAAGARIAVGYAAENLGGAQTVVAGSAIREDNPELAAARAAGLPVLHRSEALAATMGDDLVVTVAGTHGKSTTTSMIAVLLQGAGLDPSFAIGANVPALGVNAASGTSQVFVAEADESDGSFLNYRPKIAVVTNVEPDHLDHYGTAEAVYASFDSFTALLPADGVLVACADDAGALALARRTAERGNTRVVLYGTSEDADIRLSDGGPGNVSITTAAGSFPLSLQVPGRHNALNAAAAMAVALELGVAPDAAAAALAGFSGASRRFEFRGEGRGVRVYDDYAHHPTEVRAALAAARSVAGSHKVHVLFQPHLFSRTREFAKDFAEALNTADTALVLDIYPAREDPIPGVTSALIAEHLGAGGHLTDGGATAVAAVAAAAEPGDVVLTAGAGDVTAYGPLIVESLAVESRSG	PGPT0024120_3592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
D1-17_02465	1101	murG	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGAAATCCGACACCTTGTCCGTGGTCCTTGCCGGCGGCGGAACGGCGGGCCATATCAACCCCCTCCTCGCCATCGCCTCGGCAATCCGCGAAGCCCGTCCCGACGCCCGGCTGCTGGCAGTCGGAACGCCCTCAGGCATGGAAACGAGGCTGGTTCCCGCGGCTGGACTTGAACTTGCCACGATTGACCGTGTCCCATTCCCGCGCCGGCCCTCCGCCGACCTGCTGCGGCTTCCAGCCCGTTTGGCAGGCGCCGTCAAGCAGGCCGGACGGATCCTGGATGAGGCCCAAGCCGATGTCGTGGTCGGCGTGGGCGGCTACGTCTGCACGCCGATGTATCTGGCGGCCTGGCGCCGCAAAATTCCGATCGTCATCCACGAGGCAAACGCCCGCCCGGGGCTCGCCAACAGGGTAGGCGCACTCTTCAGCAAACACGTCGCCGTCGCCTTCGCCGGGACGCCATTGCGCCACGCACGCCATGTGGGCATGCCCATGCGGCGCGAGATCTCGGCCATGGTCCGGGAAACCGCCCGAAACGAAGCCCTGAATGCGCTCGGGCTGCAGCCCGACAAACCGGTGCTTATCGTCACCGGCGGCTCGTCCGGGGCGCAGAGCATTAACCGGACGGTGGCGGCTTCCCTTGAGGCGCTGGCGGAAGCCGGGGTTCAGACGCTCCATATCACCGGCCGGGGCAAGGCGCTGGAGGACAGCGACGGCAACGTCCTGCAGGCGGAGGGCTACCGCCAGCTCGAGTACGTCGACGGCATGGAATCGGTGTACGCCGCGGCTGACCTCTTGCTCGCACGGGCCGGAGCGGCCACGGTGAGCGAGGTAGCCGCCGTCGGCGTTCCCGCGGTGTTCGTGCCGCTGCCCATCGGCAACGGGGAGCAGGCGCTCAACGCCGAAGGGCTGGTGCAGGCGGGCGGTGCCCTGCTTGTGGCTGACCGGGAGTTCACTCCCGAGTGGGTACGCCGGCAGCTCATTCCGTTGCTGACGGACCGGCCCCGGCTTGAGACCATGGCAGCAAACTCCGAAAACCTTGGCATCAGGGATGCCGACCGGCTGATGGCCGGTCTCGTACTGGAAGCGGTATCCGCATGA	MKSDTLSVVLAGGGTAGHINPLLAIASAIREARPDARLLAVGTPSGMETRLVPAAGLELATIDRVPFPRRPSADLLRLPARLAGAVKQAGRILDEAQADVVVGVGGYVCTPMYLAAWRRKIPIVIHEANARPGLANRVGALFSKHVAVAFAGTPLRHARHVGMPMRREISAMVRETARNEALNALGLQPDKPVLIVTGGSSGAQSINRTVAASLEALAEAGVQTLHITGRGKALEDSDGNVLQAEGYRQLEYVDGMESVYAAADLLLARAGAATVSEVAAVGVPAVFVPLPIGNGEQALNAEGLVQAGGALLVADREFTPEWVRRQLIPLLTDRPRLETMAANSENLGIRDADRLMAGLVLEAVSA	PGPT0024150_2042	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
D1-17_02466	1296	ftsW	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGGTCAGCACGCCCACACGGCCTGTGAAGCGGCCGACGGGAAGCACCGTGGTGCAGCGGCCACTTCCTGGGAAGCTGTTGCGCGGATACCGCCGCTTTTGGTCGGCTCTTGAAGGGGACGGGAAGTCCCGTAACGGTTCCACGTACTACCTGATTCTGGGCACGACACTTGCGCTGACGGCCATCGGGATCATGATGGTATTGTCCGCCTCGAGCGTGGAGGCCATCGCCGCCGGGGAGTCCCCCTACTCGGCTGCGCTCAAGCAGGGGCTGTTCGCGGGGATCGGCATCTTCTTGATGTTCATGCTGTCGCGGATCAATGTGGTGTGGCTTAAGCGCCTGGCTTGGCTGGGCATTTTAGTTTCCTACGGCCTGCTCGGCCTGGTGCTGCTGATAGGCACCAGTGTGAACGGCAACAAGAACTGGATCGAAGTCGGAGGGTTCTTCACCCTGCAGCCATCCGAAGCCGCCAAGCTCGCGCTGGCACTGTGGATGGCCACGGTCCTTGCCAAGAAGGCCAGGCTGATCCACCGCTGGCAGCATGCTGTGGTTCCTGTGGTACCGGTGGCCATGGGCGTCATCGTGCTCGTCCTCGCCGGCAACGACCTCGGTACCGGCATGATCATCATGATGATCATGGCTGCTGCGCTGTTCTTCGCAGGCGTCCGCCTCTACCTCTTTGGCTTTGCTGCCATCGCAGCGGTCATCGGCACCGCGTTCATGGCCTTGACCAGCTCCAACCGCATGTGCCGCATCACCTCGTGGTGGACGGGCCAAAGCTGCGGCGACGGTACGGATGCCAACTACCAGTCCACCAACGGCCTGTACGGGCTCGCTTCGGGTGGCTGGTTCGGCGTCGGGCTCGGCCAGAGCCGGCAAAAGTACAGCTGGATTCCAGAAGCCCACAACGACTTTATTTTCGCCATCATCGGTGAGGAGTTCGGACTGCTGGGGACCGTCGTCGTCCTCATACTGTTCGCCATCCTCGGCGCCGCGATCTACCGCGTGGTTGTAGCGCAGGAGGATCTCTTCCACCGCGTCCTCGCCGGCACCATCATGGTGTGGCTGCTGGGCCAGGCAACGGTCAACATGGCGGTGGTTACCGGGCTCGTCCCGGTAATCGGCGTTCCGCTGCCCTTCATCTCCTATGGCGGATCGGCCCTGCTCATGTCGCTTTGCGCAATCGGCGTAGTGTTGTCTCTGGCCCGGGAACAGATGGCTCCCAGCCTCCGGCCCCGGAAACTGCTGCCGCCGCTGCGAAAGCGCGGCCGCAAGACACCCAGTACGAAAGCGTAA	MVSTPTRPVKRPTGSTVVQRPLPGKLLRGYRRFWSALEGDGKSRNGSTYYLILGTTLALTAIGIMMVLSASSVEAIAAGESPYSAALKQGLFAGIGIFLMFMLSRINVVWLKRLAWLGILVSYGLLGLVLLIGTSVNGNKNWIEVGGFFTLQPSEAAKLALALWMATVLAKKARLIHRWQHAVVPVVPVAMGVIVLVLAGNDLGTGMIIMMIMAAALFFAGVRLYLFGFAAIAAVIGTAFMALTSSNRMCRITSWWTGQSCGDGTDANYQSTNGLYGLASGGWFGVGLGQSRQKYSWIPEAHNDFIFAIIGEEFGLLGTVVVLILFAILGAAIYRVVVAQEDLFHRVLAGTIMVWLLGQATVNMAVVTGLVPVIGVPLPFISYGGSALLMSLCAIGVVLSLAREQMAPSLRPRKLLPPLRKRGRKTPSTKA	PGPT0014810_522	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
D1-17_02467	1575	murD	COG0771	UDP-N-acetylmuramoylalanine--D-glutamate ligase	GTGAGCGGCATCGTCACCGGGGCAGCCCGGCTCAAAGATTTGGTCACCTGGGACTCCAACTGGTCGGGACTCCGTGTGTTGGTCACCGGTATCGGTGTTTCGGGTTTCGCCGCCGCCGACACCCTCATCGAACTGGGTGCCCGGGTGGTGGTGGTGGACGCAGCCACGACGGAGACAGCCCGCGCCAAGGCGGACACCCTGAAGATTGTCGGGGCTGCCGACGTCCTGCTCGGTGAGGACGCTGTGAAGTCCTTGCCCAAGATTGATGGCCTGAAACCGGAACTGATCGTGACCTCACCCGGCTGGCGGCCGGACCAAGCTTTGCTTGCAGCCGCCGCACGGGCCCACATCCCGGTCTGGGGCGACGTCGAGCTGGCCTGGCGTGTCCGCATCCGGGAAGGGCGCAAGACGGCGGACTGGCTGACCATCACCGGCACCAATGGAAAGACCACGACGGTGGGCCTGACCGAGTCGATGCTGAAGGCAGCGGGCCTGAAGGCGATCGCCGTGGGGAACGTGGGAACCCCGATCCTCGACGCCCTCCGGGACCCCGTCGATTACGACGTGTTCGCGGTGGAGCTCTCCAGCTTCCAGCTGCATTGGTCCGAGTCCGTCTCCGCCGTCGCAAGCGTGGTCCTCAACGTCGCTGAGGACCACGTTGACTGGCACGGTTCCTACGACTCCTATTTGGCGGACAAAGCCAGGATCTACGAAAACACGCAGAAGGCCTGCCTCTACAACGCCGAGCAGATCGAAATTGAGCGGATGGTGGAGGATGCCGACGTCGTGGAAGGTTGCCGGGCCATCGGGTTCACCACCGTCACGCCCGCGATCAGCATGCTCGGCGTCGTCGAGGGCCTTCTGGTTGACAGGGCCTTCATTGCCGAGCGCAAGGACAGTGCGGCGGAGCTTGCCTCGATCTCCGACCTGGGTCCGGTGGCTCCCCGGCATATGGTGGCCAACGCGCTGGCCGCGGCCGGACTGGTACGGGCCTATGGGATCAGCCCCGAGCACGTTCGCAAGGGGCTGCGGGACTACATCCCCGGAAGCCACCGCATCCAGCCGGTTGCCAAGCAGAACGGCGTGCTGTGGATCAACGACTCCAAGGCCACCAACCCGCATGCCGCGGCGGCCTCGCTGTCCGCGTTCGATCCTGTTGTCTGGATCGCCGGCGGCCTGTCCAAGGGAGTCAGCTACGACGAGATCGTCAGCCAGCACGCCAGCCGCCTCAAGGCTGTAGTGCTCATTGGCAAGGACCCGTCATCCCTCGAAGAGGCACTGAGGCGACACGCTCCGGATGTACCGGTCATCCGGACCGGCACGGGCGACACTGAAAACGTGCAGTCCGCCGGAACCGGCCAGGACGGCGCGCTGTCCTCCCCGGAGTCCGGTGAAGCCGTCATGGCACGGGCCGTCGCGTCAGCGGCGCAGCTTGCCACCTCGGGTGACACAGTGCTCATGGCGCCGGCGGCTGCCTCCATGGATCAGTTCTCTTCCTACGCTCACCGTGGCGACGCCTTCATCGAAGCAGTCCGCGAGCTCGTGGAAGGGCAGGCTCAGACCGGCAAGGAGTAG	MSGIVTGAARLKDLVTWDSNWSGLRVLVTGIGVSGFAAADTLIELGARVVVVDAATTETARAKADTLKIVGAADVLLGEDAVKSLPKIDGLKPELIVTSPGWRPDQALLAAAARAHIPVWGDVELAWRVRIREGRKTADWLTITGTNGKTTTVGLTESMLKAAGLKAIAVGNVGTPILDALRDPVDYDVFAVELSSFQLHWSESVSAVASVVLNVAEDHVDWHGSYDSYLADKARIYENTQKACLYNAEQIEIERMVEDADVVEGCRAIGFTTVTPAISMLGVVEGLLVDRAFIAERKDSAAELASISDLGPVAPRHMVANALAAAGLVRAYGISPEHVRKGLRDYIPGSHRIQPVAKQNGVLWINDSKATNPHAAAASLSAFDPVVWIAGGLSKGVSYDEIVSQHASRLKAVVLIGKDPSSLEEALRRHAPDVPVIRTGTGDTENVQSAGTGQDGALSSPESGEAVMARAVASAAQLATSGDTVLMAPAAASMDQFSSYAHRGDAFIEAVRELVEGQAQTGKE	PGPT0024125_83	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
D1-17_02468	1110	mraY	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	GTGATTGCACTGCTGATCGGCGCTGGCCTGGCCCTGCTGATGGCATTGGTGGGCACACCGCTGTTCATCCGTCTGCTGGTCCGCAAGAGCTACGGCCAGTTCATCCGTGATGACGGGCCGACGTCCCACCACACAAAGCGCGGCACCCCGACCATGGGCGGAACGGTGGTGGTCACTGCCGTACTCCTGAGCTACGGCCTGACCCACCTCATCATGTGGATGATGAACCCGCTGTCCGCCGGCCCGTCAGTGTCCGCGCTGCTCCTGCTCTTCCTGATGGTGGGCATGGGGTTGGTGGGTTTCCTGGATGACTTCATCAAGATCTCCCGGCAGCGCAGCCTCGGCCTGAACGCCAAGGCCAAGCTGATCCTGCAGGGCGCCGTGGGCATCATTTTCGCCGTCCTGGCCCTCTACTTCCCGGACTCCGACGGCCTGACGCCCGCGTCCACCAAGATCTCCCTGGTGCGCGACATTCCCTGGCTGGACCTTGCCTTCGGCGGCACCGTGCTCGGAGCGATCCTGTTCGTCCTCTGGTCAAACCTGATCGTGACTGCAGCCACCAACGGCGTCAACCTGACTGACGGGCTCGACGGGCTGGCGGCTGGTGCCTCCGTGATGGTCTTCGGCGCATATACCCTGATGGGCATATGGCAGAGCAACCAGGCCTGCGGATCACCCCGCCAGGCCGGCGGGGGCTGTTATTCCGTGCGGGACCCGCTCGACCTTGCGCTCCTCGCTGCCATCATGAGCGCGGCGCTGGTGGGCTTCCTCTGGTGGAACACTTCACCGGCCAAAATCTTCATGGGCGACACCGGATCCCTTGCCATCGGCGGCGCCATCGCCGGATTTGCTATCCTCTCCCGCACCGAACTGCTGCTCGCCTTCATTGGCGGCCTGTTCGTGCTCATCACGCTGTCCGTGATCATCCAAGTGGGCTACTTCAAGGTCACCAAGGGCAAACGCTTCTTCAAAATGGCTCCGCTCCAGCACCATTTCGAGCTCAAGGGGTGGGCCGAAGTCACTGTCGTCGTCCGGTTCTGGATCCTGGGCGGCCTGTTTGTCGCCGCGGGCCTGGGCATTTTCTACGCGGAATGGGTGGTCCTGCTGTGA	MIALLIGAGLALLMALVGTPLFIRLLVRKSYGQFIRDDGPTSHHTKRGTPTMGGTVVVTAVLLSYGLTHLIMWMMNPLSAGPSVSALLLLFLMVGMGLVGFLDDFIKISRQRSLGLNAKAKLILQGAVGIIFAVLALYFPDSDGLTPASTKISLVRDIPWLDLAFGGTVLGAILFVLWSNLIVTAATNGVNLTDGLDGLAAGASVMVFGAYTLMGIWQSNQACGSPRQAGGGCYSVRDPLDLALLAAIMSAALVGFLWWNTSPAKIFMGDTGSLAIGGAIAGFAILSRTELLLAFIGGLFVLITLSVIIQVGYFKVTKGKRFFKMAPLQHHFELKGWAEVTVVVRFWILGGLFVAAGLGIFYAEWVVLL	PGPT0024105_953	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
D1-17_02469	1470	murF	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGATTGCATTTACTGCGGCGGAAATCGCCGACATTACCAGCGGCCGACTCCTCGCCGATCCCCAGCTCACCCCGGCTTCAGTGGTCACAGACTCCAGGGAGGCCATCAATGGCTCCCTCTACGTCGCCAAGCCGGGCGAAAACGCTGACGGGCACGACTTTGTGGACGCCGCGTTCAGCCGCGGCGCCATCCTGGCCCTCACCGAGCGCGAGGTTGCCGACGCCAACGGCACGGGCTACCCCGCCGTCGTGGTGGAGGACGCTGTACTGGCCATGGGAGCGCTGGCGGCCGAAGCCGTCCGGCGGATCAGGGAGCGGCGGCAGATGGCGGGCGAACCGTTCACGGTCATCGGAATCACCGGTTCTGCGGGCAAAACCACCACCAAGGACCTCTTGGCCGGCATCCTTTCAAAAGAAGCGGACACTGTTGCGCCGCAGGGCTCCTACAACGGTGAGGTCGGCGTTCCGCTGACGGTCTTTCAGGCAGGCTTTGACACCCGGTACCTCGTCATCGAGATGGGCGCCACCGGGATTGGCCACATCCGGTACCTGTGCACCATGGTCCGCCCGGAAATCGGCGTGGTCCTGGGCGTGGGCACGGCGCACGCAGGAGAGTTCGGGGGAGTGGAAAACATCGCCATCGCCAAGGGCGAGCTGGTGGAAGCGCTCCCGGCGGACGGCACGGCTGTCCTGAACCTGGATGATCCCCGGGTGGCCGCCATGGCCGCTCGCACCAAGGCCGCCGTCCTCGGTTTTTCTTTTCGGAACGCCGCGGCTGAGGGTCCCGTTGTCCGCGCACTGCACATGGAAACGAACGTGGCGGGGCACCCGCAATTCGACCTGGCGCTGCCGGGGGGAGAGCCCATCGGTGTTGCAAGCAAGCTCATCGGGGAACACCACGTCGCCAACCTGCTCGCCGCCGCTGCCGCAGCGCACGCCGCCGGCATCCCGGGGGAGCGCATCGCAGGCTCCCTGAGCTCCCAGACCCCTGCCAGCCGCTGGCGGATGGAACGCACCGAACGTCCCGACGGCGTGACCATCATCAATGATGCCTACAACGCCAACCCTGAATCGATGCGGGCAGCATTGCGCACGCTGGCCGACCTCGGCCGCGGCCGCCGTACCTGGGCTGTGCTCGGAGCCATGCTCGAGCTGGGCGATGAGTCCATTGGGGAACACACCGCAGTTGGCACCCAGGTGGTGCGCCTTAACATCTCGCGCCTGCTCGTGGTGGGACGGGAAGCGCGCCCGCTCTACGTCTCCGCCATCCAGGAAGGATCATGGGGCGAGGAATGCATTTTCGCCGAGACGGCGGATGAGGCCTTCGAAATCCTGGAAGCCCAGCTGGAACCTGGCGACCTGGTGCTGTTCAAGTCCTCCAACAGCGTGGGACTGCGCCATTTGGGCGATCGGATAGCATTACCCCCGAAAACCCCCGCAACCGCCAATGAAGGGAGCGAGCTGCTGTGA	MIAFTAAEIADITSGRLLADPQLTPASVVTDSREAINGSLYVAKPGENADGHDFVDAAFSRGAILALTEREVADANGTGYPAVVVEDAVLAMGALAAEAVRRIRERRQMAGEPFTVIGITGSAGKTTTKDLLAGILSKEADTVAPQGSYNGEVGVPLTVFQAGFDTRYLVIEMGATGIGHIRYLCTMVRPEIGVVLGVGTAHAGEFGGVENIAIAKGELVEALPADGTAVLNLDDPRVAAMAARTKAAVLGFSFRNAAAEGPVVRALHMETNVAGHPQFDLALPGGEPIGVASKLIGEHHVANLLAAAAAAHAAGIPGERIAGSLSSQTPASRWRMERTERPDGVTIINDAYNANPESMRAALRTLADLGRGRRTWAVLGAMLELGDESIGEHTAVGTQVVRLNISRLLVVGREARPLYVSAIQEGSWGEECIFAETADEAFEILEAQLEPGDLVLFKSSNSVGLRHLGDRIALPPKTPATANEGSELL	PGPT0024145_624	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
D1-17_02470	1674	murE	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	TTGTCAGAACACTATGCTCCCGGCACTGCCGACGCCCAGCAAGGGCAGGCCGCCCGCAGTGCGTTCCGGCCCGCCAACGTCGCTGCAGTTGAGCTGGGAGCCATTGGCCGGGAAATTGGCATCAGCGTCCCCGGGACCTCGGCAGGCGTTCCGGTAACCGGGATCTCCCTTAACTCCCGGACGGTGGAGGACGGGGACCTTTATGTTGCCCTTCCGGGGTCTGTGCGCCATGGGGCGGACTTCGCGGCCGCAGCAATTGAATCCGGAGCGGCCGCCGTACTGACGGACGACGCCGGGGCCAGGATCCTTGCCCTGGCACCGGATGTACCGGTGCCGGTGCTGGTCGTGGACGAGCCGCGTGCCGTCGTCGGGCGTCTTTCTGCGCTGATTTACCGGAGCCAGGCAGCGGACGGGACCGCCCTGGCGCTCTTTGGCGTCACTGGCACCAACGGCAAAACCACCACCACGTATTTCGTCAACTCGTTACTCCAGGCCCTCGGCAAAAAGACGGGCCTTATCGGGACCATCGAGATCGTGGCCGGCGGTGAGCCCATTCCGAGCCTTCTGACGACTCCCGAGTCCACCGATGTCCATGCCCTGCTCGCGCTGATGCGGGAACGCGGCCTCGACGCGGCGTCCATGGAGGTGTCCTCGCACGCCGTCTCGTTCCGCCGGGTAGACGGCGTGGTGTTCGACGTGGTCGGATTCACCAACCTCACCCAGGACCACTTGGATCTCCATGGCACCATGGAGGACTACTTTCGCACGAAGGCGAAGCTCTTCACCACGGAGCGCGCCCGCGCCGCCGTCGTGACGGTCGACGACGAATGGGGCCGCCGCCTCGCGGCTGAAGCAGAACTTCCTGTCACCACGCTTGCGACGCTGCCGGTTGGATCGGCTCCGCCCTCCGCCGAGGCGGCATCTTCCGGCGCAGCAGACTGGACTGTCACGAACACCCGGCCCCGCGGCCTCGGCACTGAATTCACGCTGTGCGGCAGGACAGGCGAGGAGCTCCGTGTGCACACCGGCCTTCCCGGAAGCTTCAACGTTTCCAATGCCGCCCTGGCCCTTGCCATGGTCCTCGCCGGCGGGGCCAAGCCCGCTGACGTGCAGGCAGCCCTTGATGCCAGTGACCCCTTTACAGTCGCAGTCCCGGGCAGGATGCAGCTTGTCTCCACCGAGCCCGCGGCAGTGGTCGACTTTGCACATAACCCTGATGCCTTGTCCAGGGCGTTGGAGGCGGTCCGTTCAGCTGACCCCTCCTCCAAGGTCATTGTTGTCTTCGGTGCCACAGGTCAGCGTGACCAAGGGAAACGGCCCGCGATGGGAGCCATCGCCGCCCGCCTGTCCGACGTAGTGATCGTCAGCGACGACGATCCGCACGATGAGGACGCCGCCGCCATCCGCGCCGACGTGCTCGTGGGCGCAACAGACGCCAAGGAAGCTGAGCGGCTCGATTGCCGCATCCTGGAAGTTTTCCCCCGCGACGAGGCCATCCGGAGGGCCGTGGAACTGGCTGCGCCCAACGACACCATCCTTGTTGCCGGCAGGGGGCATGAAGTGTGGCAGGAGGTCAAGGGCGTGAACCTTGCCCTTGATGACAGGGTGGAACTCCGGAACGCCTTGGTGGCCCGGGGATTCACTGTTCTTGAAGATGACCGGATAGAGTCCTAG	MSEHYAPGTADAQQGQAARSAFRPANVAAVELGAIGREIGISVPGTSAGVPVTGISLNSRTVEDGDLYVALPGSVRHGADFAAAAIESGAAAVLTDDAGARILALAPDVPVPVLVVDEPRAVVGRLSALIYRSQAADGTALALFGVTGTNGKTTTTYFVNSLLQALGKKTGLIGTIEIVAGGEPIPSLLTTPESTDVHALLALMRERGLDAASMEVSSHAVSFRRVDGVVFDVVGFTNLTQDHLDLHGTMEDYFRTKAKLFTTERARAAVVTVDDEWGRRLAAEAELPVTTLATLPVGSAPPSAEAASSGAADWTVTNTRPRGLGTEFTLCGRTGEELRVHTGLPGSFNVSNAALALAMVLAGGAKPADVQAALDASDPFTVAVPGRMQLVSTEPAAVVDFAHNPDALSRALEAVRSADPSSKVIVVFGATGQRDQGKRPAMGAIAARLSDVVIVSDDDPHDEDAAAIRADVLVGATDAKEAERLDCRILEVFPRDEAIRRAVELAAPNDTILVAGRGHEVWQEVKGVNLALDDRVELRNALVARGFTVLEDDRIES	PGPT0024130_122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
D1-17_02471	1890	pbpB	COG0768	Penicillin-binding protein PbpB	GTGGCGCAAGGCAAGGCAAGCAGGCAAGGGGTCCCCGGCCAGCCGCAAAGAGCCGGATCGTCATACAAGGCCACTTCGTCGAAACGGGCCGGCGCGCCGAAGAAACCCAGTGCGCCGCCAAAACCTGCCAACGCAACGAAGCGGCTGCGGCTCGGGCTGAGCATCATGCTGGCACTGCTGCTGGTGGTGGGCGGAAAGCTCTTCCTGGTTCAGGGCCTGGACGTAGGCGGCATGGCTGAAGCGGCCCTCACTAACCGCCTGCGGCCAACCGTGCTGCCTGCCGAACGCGGCAGCATCGTCGACGCCAACGGCACTGTCCTCGCCAACAGCGTGATCCGCTACAACATCACCGTGGATCAGGCTGTCAACACCAAAACGGAATCCTTCAAACGGCTTGAAACGGTGAACGGCGAAGAAGAGCTCGTGACGGTTTCCCGTGACCAGGGCATTTCCGAGCTCGCCGCCGTCCTGGGGATGAGAGTGCAGGATGTGCGCGACTCTCTGACCGGGACCAAGACGTACTACATCGTGGCCAAGGACCTAAAACCGGACGTTGAAGACCGGGTGTCCAAGCTGCGGATCCCGGGAGTTTTCTCCGAGGGAACCAGCAAGCGCGTTTACCCGAACGGCTCGGTGGCCGGCGGGATCGTGGGCTTCCTGGAGAACGGGGACAAGGGCCTGGCCGGGCTGGAGCAGACTCAGGATGCCACGCTTCGGGGGACTGACGGAAAGCGGGTTTTCGAAATTGGCGCCGACGGCCTCCGCATTCCTGTGGGCGTGGACGAGCTGACTCCGGCCCAGGACGGCAAGGACGTCAAGCTCACCCTCAACTCCGACCTGCAGTACTTTGCACAGCAGGCCATTCAGAGCCAGACGGACAAGCTGAGCGCCGAATGGGGCACCATCATCGTTTCTGATGCCAAGACCGGTGACATCCTCGCCATGGCCGACACCAACGCCCCGGATCCCAACGATCCAGGCAAGGTCGCGGCAAAGGACCGCGGGGTCCGCGCCGTCACTGCCGCGTACGAGCCCGGTTCGGTCCAAAAAATGATCACGGCTGCTGCGGTCATCGAAGAAGGCAAGGCAAAACCGCTCGACACGTTCGTCATTCCGCCGTCCTACGTGGTTGATGGGCAGCAGTTTGACGACTCCTTCAACCACGGCACGGAGAAGCGCACCCTTGCCGGAATCCTCGGCTGGTCCATGAATACCGGAACCGTCATGGCCGGCGAGCGGCTGACGAAGCAACAGCGTTACGACTGGCTGCGGAAGTTCGGGATCGGCGAGGCCCCGGCGATCGGCTTGCCCGCAGAGGCGAAGGGAATCCTGACGCCGCCGGACCAGTGGGATGGACGCCAGCAGTACACCGTGCTCTTCGGTCAGGGCGTGTCGCAGTCGACGCTCCAGACTGTCCGTGCCTATCAGGCCATCGCGAACGACGGAGTGATGCTCCAGCCGAGGCTCATTGACAGCTATATCGCCCCCGACGGAACGGAAGAGAAAGTGCCGGCAAAACCTGCCCGGAAGGTGGTCTCCGAGGCGACCGCCAAGCAGGTACGGGACATCCTCGAAAGCGCCGTCACCGAGGGCCAGATCAAGGAAGCGGCGATCGACGGTTACCGTGTCGGCGCCAAGACTGGAACCTCACAGTCGCCCTGCGATGACGGCACTGCGGGCTTCTGCGGCTTCACCGCCTCGATGGTGGGAATGGCGCCGATGGACGATCCGCGGTTTATTGTTGAGGTGGTCCTGCAGCGGCCCAAAGGTTCCATTTACGGCATCACGAACGGTCCCATATTCCGTTCCGTCATGAGCCAGGCATTGCGGACGTACAACGTTTCGCCGTCCAAAGGCCAACCGGTCAGGCTGCCGCAGTTCGCCAAGTAG	MAQGKASRQGVPGQPQRAGSSYKATSSKRAGAPKKPSAPPKPANATKRLRLGLSIMLALLLVVGGKLFLVQGLDVGGMAEAALTNRLRPTVLPAERGSIVDANGTVLANSVIRYNITVDQAVNTKTESFKRLETVNGEEELVTVSRDQGISELAAVLGMRVQDVRDSLTGTKTYYIVAKDLKPDVEDRVSKLRIPGVFSEGTSKRVYPNGSVAGGIVGFLENGDKGLAGLEQTQDATLRGTDGKRVFEIGADGLRIPVGVDELTPAQDGKDVKLTLNSDLQYFAQQAIQSQTDKLSAEWGTIIVSDAKTGDILAMADTNAPDPNDPGKVAAKDRGVRAVTAAYEPGSVQKMITAAAVIEEGKAKPLDTFVIPPSYVVDGQQFDDSFNHGTEKRTLAGILGWSMNTGTVMAGERLTKQQRYDWLRKFGIGEAPAIGLPAEAKGILTPPDQWDGRQQYTVLFGQGVSQSTLQTVRAYQAIANDGVMLQPRLIDSYIAPDGTEEKVPAKPARKVVSEATAKQVRDILESAVTEGQIKEAAIDGYRVGAKTGTSQSPCDDGTAGFCGFTASMVGMAPMDDPRFIVEVVLQRPKGSIYGITNGPIFRSVMSQALRTYNVSPSKGQPVRLPQFAK	PGPT0023865_1812	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
D1-17_02472	636	ftsL		Cell division protein FtsL	ATGAGCACCGCAGCCGCCAAGAACCTCGCCTTCGCGCCCGGCCCCCGCGCCGCCGAAGTTGATCCCCGGCTCACCGGTGCCCGCAAGGCCCGGACACCGCTGTCCGTGGTCCGTTCAGCTCCCAGGAAACGCCGAGCGCCCTTTGTGGTTCTCTGCTTCGGCCTGCTGGCCGTAGCCCTGATAGCCGTCCTCGTTCTCAACATCTCGGTATCCACCGCCCAGTACCAGCTGGTAAAGCTGCGCAGCGACCAAACGGCCCTGACGAAGCAGAACCAGGATCTGACACAGCAGGTGCAAAACTTCCAGGCTCCCCAGAATCTGGCGGCCAAGGCCTCAGAATTGGGGATGGTTGCATCCACCGGCAAGGGGCAGATCGATCTGTCGACGCTGACGGTCAGCGGTTCGGCTAAGCCGGCGGCCAAGGGAGACTCTGCGGGTGCGGTCATCGCGGCCCCGGCTGTTCCCGGCCAGCTCAACGTGGTGCCGCCGTCGATCACCAATGAACCGCTTGAGAGCCGGAAGCCTGTCGCGGAAGCCGTGGCGGAGCCGGTTAAGAAGGCAGCAGCGGCAAAGCCGGCCGCTGTCCTGAATGGAGGCACCATCCCGGCGCCCGCCCAAAAGGTACCGGGGCAGTAG	MSTAAAKNLAFAPGPRAAEVDPRLTGARKARTPLSVVRSAPRKRRAPFVVLCFGLLAVALIAVLVLNISVSTAQYQLVKLRSDQTALTKQNQDLTQQVQNFQAPQNLAAKASELGMVASTGKGQIDLSTLTVSGSAKPAAKGDSAGAVIAAPAVPGQLNVVPPSITNEPLESRKPVAEAVAEPVKKAAAAKPAAVLNGGTIPAPAQKVPGQ				NA	NA	NA	NA	NA
D1-17_02473	999	rsmH	COG0275	Ribosomal RNA small subunit methyltransferase H	ATGAACGAGCATGACAATGCCAGACCTACGTCCGAACGCCATGTGCCGGTCCTGAAGGACCGGTGCATCAATTTGCTGGCCCCGGGATTCGAAGCGGCGCGCATGCGCGGCCAGACCCCCGTGGCAATCGACGCCACCCTCGGAATGGGTGGTCACTCCGAAGCAATGCTGCAGCGGTTCCCGGATCTTCACCTGGTCGGCATCGACCGGGATGAGGAGGCCCTGGCCCTGGCCGGCGCGAGGCTGCAACCGTTCGCAGCCCGGACGGACCTGGTCCACGCGGTCTACGACGAAATCGCTGACGTCCTTGAGGACCTCGGAATCTCCGAAGTCCACGGGATCCTGATGGACCTCGGGGTGTCTTCGCTGCAGCTTGATGAGCGGGAGCGCGGCTTCGCCTACTCCTTCGATGCTCCGCTTGACATGCGGATGGACACTAGCCGCGGCCAGACCGCGGCCGATGTTGTTAACAGCTACAGCGAGGAAGAGCTCGTCCGAATCATCCGAAAATGGGGCGAGGAGAAGTTCGCCGGCCGGATCGCGCACCGGATCGTGGCGGCCCGGGCCGCCAAACCCTTCACAACAACAGGCGAACTCGTGGAGCAGATCCGTGCCGTTGTTCCCGCCGGCGCGGCCAAGTCCGGGGGACATCCGGCCAAGCGGACATTCCAGGCGTTGCGGATCGAAGTCAACGAGGAACTTGACGTCCTGGAGCGGGCAGTGCCGGCAGCCGTGGACGCCCTTGCCATGGGCGGGCGGCTTGTTGTCATGTCCTACCACTCGCTTGAGGACAAGATTGTGAAGAGCGTATTCCAGTCGCGGTCAAAGTCTTCAGCTCCGTTGGGCTTTCCGGTGGAGCTTGAAGAACACAAAGCCGAACTGAAGACCCTGACCAAAGGCACCGAAGTGCCGACCGCCGTCGAAATAGCCGAGAATCCGCGTGCAGCATCCGCCAGGCTGCGCGCCGTGGAACGTATCCGAGCCAGGAGAGCCGCATGA	MNEHDNARPTSERHVPVLKDRCINLLAPGFEAARMRGQTPVAIDATLGMGGHSEAMLQRFPDLHLVGIDRDEEALALAGARLQPFAARTDLVHAVYDEIADVLEDLGISEVHGILMDLGVSSLQLDERERGFAYSFDAPLDMRMDTSRGQTAADVVNSYSEEELVRIIRKWGEEKFAGRIAHRIVAARAAKPFTTTGELVEQIRAVVPAGAAKSGGHPAKRTFQALRIEVNEELDVLERAVPAAVDALAMGGRLVVMSYHSLEDKIVKSVFQSRSKSSAPLGFPVELEEHKAELKTLTKGTEVPTAVEIAENPRAASARLRAVERIRARRAA				NA	NA	NA	NA	NA
D1-17_02475	429	mraZ	COG2001	Transcriptional regulator MraZ	GTGTTCCTGGGGACACACTCACCGCGTCTGGATGAAAAGGGGCGGATTATTCTTCCCGCTAAGTTCCGTGAGGAGCTTGCCGGCGGACTTGTTCTCACGCGAGGCCAGGAGCGCTGCATCTACGTCTTCAGTGAGCAGGAATTCGCGAGGGTTCACGAGCAGATCCGGGAGGCTCCCATCTCCAATAAGCAAGCTCGTGACTACATTCGTGTGTTTCTCTCCGGAGCCTCGGACGAGGTGCCTGACAAGCAAGGGCGGGTGACTATCCCACCAGCCCTTCGGGAGTACGCAGGCCTTGGCAGGGAGTTGGCTGTCATTGGGGCCGGCACCAGGGCTGAGATCTGGGACGCCGAGGCTTGGAACGTGTACCTGGCGGAGAAGGAAACCTCCTTCTCTGAAACTGACAACCCCATCGCCGGTCTTCTCTGA	MFLGTHSPRLDEKGRIILPAKFREELAGGLVLTRGQERCIYVFSEQEFARVHEQIREAPISNKQARDYIRVFLSGASDEVPDKQGRVTIPPALREYAGLGRELAVIGAGTRAEIWDAEAWNVYLAEKETSFSETDNPIAGLL				NA	NA	NA	NA	NA
D1-17_02476	372			hypothetical protein	ATGCCGCTCTCGGAGCACGAACAGAAGCTGCTCGAGCAACTCGAGAGGCAACTGCATGAGGACGATCCCAAGTTCGCCAGTTCCATGGGCTCGGATCCAGGCCGTACCTGGTCCACCCGGCACATTGTGATTGGCGTTTTGGCAACACTGGCCGGAGTCATGCTCCTGCTGGTGGGGGTTTCCCTTCAGAACATTTTCGTGGGTGTCCTCGGATTCATCGTCATGGGTGCCGGGGTGTACTTCGCGACGATGCGCAGTGCCTCGACAGGCAAGGCTAAGACGGGCGGCCATGGAAAGAAGTCCAAAGGCAAGAGTTCCTTCATGAGCAGTCTTGAAGAGCGCTGGGATGAAAGGCGCCGCGGCGAGCCCTGA	MPLSEHEQKLLEQLERQLHEDDPKFASSMGSDPGRTWSTRHIVIGVLATLAGVMLLLVGVSLQNIFVGVLGFIVMGAGVYFATMRSASTGKAKTGGHGKKSKGKSSFMSSLEERWDERRRGEP				NA	NA	NA	NA	NA
D1-17_02477	1248	dinB_2	COG0389	DNA polymerase IV	GTGGTGCAGGAGACGGATAAGGAGCAACTCGAAGCGCGTCTTCGGGAGCTGCGGCGCAGCAGCATCCTGCACGTGGATATGGACGCGTTCTTCGTGTCCGTGGAACTGCGCTCACGTCCTGAGCTGCACCGAAGACCGGTGATCGTCGGCTTTCCGGCGGAGCGGTCGGTCGTGCTGTCTGCCTCCTACGAAGCGCGCGCGTTTGGAGTCAAGTCGGCCATGCCCATGGCGGTTGCGCACCGGCTGTGCCCGCAGGCGATCATCATTGAGCCGCGGCACAAGCTTTACTACGAAGTCTCGGGGGAGCTCATGCGCATCTTCGAATCCATCACTGAACTGGTGGAGCCGCTGAGCGTCGATGAGGCTTTTCTCGACGTCGGGGGTGCCATACGGCGGCTGGGTCCACCCCGGGCTATTGGCGAGCTGATCCGGCGCAGGGTGGTCCGCGAACTGGGAATCACTGCCTCTGTGGGAATTGCCAGTACCAAATTCGTCGCCAAGATTGCCTCGACCCGCTGCAAGCCCGACGGACTGCTGCTGATCACGCCCGAGCAGACAGTGCCGTACCTTCACAGTCTGCCTGTCAGTGCACTATGGGGTGTCGGCGCCAAGACTGCGGAGGTGCTTGCAAGGATGGGCATCCGGACGGTGGCCGACGTTGCAGCCACTCCCGTCGCGTCCCTGAAGAAGGTGCTGGGGGCCACCGGCGAGCACGTCCACCGGCTGTCCTGGGGGATCGATCCGCGGACGGTCACGCCCGTCAGGGTGGAAAAGAGCATAGGGGCGGAAGAAACCTTCGCTGCGGACACCGCCGATGACGTCCAGCTCCACAGGGAGCTCCTGCGTCTGTCCCACCGCACTGCCGAGCGCCTGCGGGCCTCCGGGATGGTGGCGCGGACCGTTGCACTGAAGCTTCGGTATGCCGACTTCTCTACTGTGACCCGGAGCAGGAAGGTACACACCCCAGTCGACAGCGCCCAGCTGATCTATGCAGTGGTCCTTCAGTTGCTGGACTCCCTGGGGAGCCGGCCTATGACGGTCCGGCTCGTGGGGGTCCGCGCCGAGCAGCTTGAGGCCGCCGCGCAGACGTCCCTCCAGCTGAGTATTGACCGGCGGGATGATAACTGGCGGGCCGCGGAACAGGCGCTGGACCGGGTGGCGGAAAAGTTCGGCAACAAGTCCGTTCTGCCTGCTCGGCTGCTGGACCCAGGGACGGGCTCCTCCAAGCCGCCCCGGCACAAGCTCTGA	MVQETDKEQLEARLRELRRSSILHVDMDAFFVSVELRSRPELHRRPVIVGFPAERSVVLSASYEARAFGVKSAMPMAVAHRLCPQAIIIEPRHKLYYEVSGELMRIFESITELVEPLSVDEAFLDVGGAIRRLGPPRAIGELIRRRVVRELGITASVGIASTKFVAKIASTRCKPDGLLLITPEQTVPYLHSLPVSALWGVGAKTAEVLARMGIRTVADVAATPVASLKKVLGATGEHVHRLSWGIDPRTVTPVRVEKSIGAEETFAADTADDVQLHRELLRLSHRTAERLRASGMVARTVALKLRYADFSTVTRSRKVHTPVDSAQLIYAVVLQLLDSLGSRPMTVRLVGVRAEQLEAAAQTSLQLSIDRRDDNWRAAEQALDRVAEKFGNKSVLPARLLDPGTGSSKPPRHKL	PGPT0014881_1829	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ADAPTIVE_MUTATION	CE-BACTERIAL_FITNESS-ENVIRONMENT-INDUCIBLE_DNA_POLYMERASES,PGPT0014881-dinB-K02346	NA	NA
D1-17_02478	555			hypothetical protein	GTGAAGGTCATTGGAACGCACATGCCTGCAGGCCTCGGCCTGCTTGCGGCCGGCGCGGTGGTGATGATGTCAGCCTGCGGCGCTCCGACCCCCGGACCTGCCGGGTCCGCCGAACCTGCCGCATCGGGCCAAGCGTCCGAAATTGCATCCGTAACAGAGGCGGCGCGGGCGGCCATCACGGCACCGCCCAGCCCGACGGCGTCTCCCGGCACTACTGCCGCCATAGGTGCGCTCGTGGCAGGCTTTCCGCAAAAACTACTTCCACTCATGCCGGGCGCAAAGGTTGTGTCGAGCAGTTTCGACACGTCTTCCTCCCCCGCAACCGCAGCCCTGGTCGGGTCCGTGTCCGCCAAGCCGGCGGCGGTGGTGGCGTTCTATACCAAGGCGCTGGAGGCTCAGGGTTTCAAGGCCGTTCCCGGCACCACCGTAGGCGCCGTCGCTTCACTCGACTTCGTTCGCGCGGGCACCGAAACAGTCAACATCGCGGTTCCGCAGACCGCCGGTGTCTCCACTTTCACGATCGGCGCCAACGTGTTGCCCGGGTCCGTCAAGTGA	MKVIGTHMPAGLGLLAAGAVVMMSACGAPTPGPAGSAEPAASGQASEIASVTEAARAAITAPPSPTASPGTTAAIGALVAGFPQKLLPLMPGAKVVSSSFDTSSSPATAALVGSVSAKPAAVVAFYTKALEAQGFKAVPGTTVGAVASLDFVRAGTETVNIAVPQTAGVSTFTIGANVLPGSVK				NA	NA	NA	NA	NA
D1-17_02479	1095	ispB	COG0142	Octaprenyl diphosphate synthase	GTGACGGTAGCCGAACAGCTCCGCGTCGAACAGGCAGCTTTCGTCGCCGCCGTGGCAGGCAGGCTCACGGACTTCCTCACGTCCAGACACTCCGTCATGACCTCGATCTCGCCGGACATCGACCCGATTATGGGGTCCATCTCAAACCTGGTGACCGGAGGCAAGCGGCTCCGCGCACTCATGTGTTACTGGGGATGGCGCGGCGCCGGCGCGCCGGCGGCAGCAGAGGACGTCATCACGGCGGGGGCAGCCCTCGAACTCTTCCAAGCCGCGGCCCTCATTCACGATGACATTATTGACCGCTCAGATACGCGGCGCGGAGGTCCAAGCGTCCACCGCCGCTTCAGCCAACTGCACGAGAGCCAGGGCTGGGCGCTGGACAGTGAACGTTTCGGCCACGCTGCGGCCATCCTGGCCGGGGATCTGTGCCTTTCCTTCAGCGAGGAAGCCTTCACCGAGATTGGCGAGCAGGCGGCCTCCGGAAGCCGGGCACGGCTGATCTTCAATCTCATGCGCGCCGAGGTCATGGCCGGACAATACCTCGACATCCTCGAAGAAGTGGCGGGTCCGGTCCGCGACCGTGCAGGTGCTGTGAGCCGGGCCCAGTCGATCATCCGGTTCAAATCCGCCAAGTACTCCACTGAACACCCGCTTGCCCTGGGTGGAGCCCTGGGCGGGGCGACGGACGACCTGCTCCGCGGATACTCCGCTTTCGCGCTGCCGCTCGGCGAAGCATTCCAGCTCCGGGACGACGTGCTGGGCGTATTTGGGGATCCCGTTACCACCGGCAAGCCGGCGGGAGACGACCTCAGGGAGGGAAAGCGCACCGTCCTGGTGGCCTTCGCCCTGGACCTCTCCACACCTGAAGAATCAGCCTTCATCGACGCCAAGCTCGGCAGTCCCGACCTGGGCGAGGAAGACGTGGCAGAAATCCGCAGGATCATCGCCGATTGCGGCGCCCTGCACGCCACCGAAGTCCTGATTGAAGAGTTTGGGGCCGCGGCCTATGAGGCACTGGAGCTGCTCCCGCTGGACGACCTTCCCAAGACCGCATTGAGGAAGCTCGCCGAAGCAACCGTCAGCCGAGCCGCTTAA	MTVAEQLRVEQAAFVAAVAGRLTDFLTSRHSVMTSISPDIDPIMGSISNLVTGGKRLRALMCYWGWRGAGAPAAAEDVITAGAALELFQAAALIHDDIIDRSDTRRGGPSVHRRFSQLHESQGWALDSERFGHAAAILAGDLCLSFSEEAFTEIGEQAASGSRARLIFNLMRAEVMAGQYLDILEEVAGPVRDRAGAVSRAQSIIRFKSAKYSTEHPLALGGALGGATDDLLRGYSAFALPLGEAFQLRDDVLGVFGDPVTTGKPAGDDLREGKRTVLVAFALDLSTPEESAFIDAKLGSPDLGEEDVAEIRRIIADCGALHATEVLIEEFGAAAYEALELLPLDDLPKTALRKLAEATVSRAA	PGPT0007550_716	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007550-idsA-K13787	NA	NA
D1-17_02480	354			DNA-binding protein	GTGAGTACTGTAGAAAGCCTTGTTGGCGACTGGTTGCCCCTGCCCGACGTAGCCGAGTTGCTGGACGTTTCCATTACCAAAGTCCATGGGTTGCTGGATGAGCGCGCCCTTGCCGCCATCCGGGTGGGCGAACGCAAGATCCGTTCTGTGCCGGCCGCTTTCCTCCAGGACGGACACGTCGTGGAGAGCCTCAAGGGCACCATTGTTGTCCTGTCTGATGCCGGGTATTCGGACGAGGAACTGATTACCTGGCTCTTCACGCCCGACGATTCACTGCGTGGCCGCCCGATCGACGCCCTCAGGGAGGGCCGCAAAACGGAAATTCGCCGCCGCGCCCAGTCGCTGGCCTGGTAA	MSTVESLVGDWLPLPDVAELLDVSITKVHGLLDERALAAIRVGERKIRSVPAAFLQDGHVVESLKGTIVVLSDAGYSDEELITWLFTPDDSLRGRPIDALREGRKTEIRRRAQSLAW				NA	NA	NA	NA	NA
D1-17_02481	1326			hypothetical protein	ATGACGCCGACCAGCTCGCCAAAGCAGCCCCCCAGGCAGAGCCTTCCTATGATTGCTGCGACGACGGCAACCCTGCCCGCCGTCATGCTGTCTTCTCTGGCACTCGCTCAGCCGGCCAGCGCCGACACGAGGCCCAGCGCAATTCCTGCAACGCTTGCTGCCGCCATGGAGGCGCAGGCTGCTGCGGTCAAGGCTGGAGTAATTCCCCCTGCATCCGTCCCGGCCTCCATCCCGTCCGGCCTGCAGCCTGCCCGCGTCACCCCCAGCAGCCACCGGGTTGTACGCGGCGATACAGTCAGCGGCATCGCCGCACGCTATGGCCTGAGTACTTCGGCCGTTCTCAAGCTGAACAACCTCAGGTCGAACTCGGTGATTTACCCGGGGCAGAAGCTAAAGCTAAAAGGCGCCTCGCCAGCCGGGACAGCCACCCATGTTGCCCCTGCCAGCTCGGCCACCAGGACGTACACCGTGAAATCCGGAGACACCCTGGGCGGGATCGCGGCTAGGCACGGCGTGAAGCTTTCACAGGTACTGAGCTGGAACCGGTTGTCCGTAAACTCGATCATCTACCCGGGCCAGAAGATCCGGCTCGGCGGGACGGCGGCTTCCCCAGCACCAACTAAATCCGCGCCGGCGCCCGCCCGCACCGTCTCCTCGCGCTCCTATACCATCAAGTCCGGAGATACGCTTTCCGGCATTGCTGCACGTCACGGCATCAGGTTGGCGGATCTACTCTCCGCCAACCGGCTCAAGGTAACCAGCACCATCTACCCCGGTAACAAACTCGCGATCCCGGGGAAGTCCACGAGCCCCGTCCAACCGGCGTCGAGCGTCACGCCGCTGGTGCCCAGCTCCTTCCTTGGCTTCACGTATCCGGCAGCCGTGGTGAGCTCCGCCAACAAGAACAAGGCCCTGCTCAACGCGGCTCCCGTGCCTTCGCTTGCGCAGATGAAATCCATCGTGGCCGACACGGCACGGCGCATGGGGGTGGATCCGGCGCTCGCCTTGGCGTTCGCCTACCAGGAATCCGGCTTCAACCAGCGCGCCGTGTCCCCTGCAAATGCCATCGGCACCATGCAGGTCATTCCGTCCTCCGGCGAGTGGGCGTCCGACCTTGTGGGCCGGAAGCTGAACCTGCTTGATCCGTATGACAATGCAACGGCCGGGGTGGCTATCATCCGGCAACTGATCCGCACCAGCAAGAACCTGGACAACGCGATTGCCGGCTACTACCAGGGCCAGTATTCCGTCAGCAAGTACGGCATGTACTCGGACACGAAGGCTTACGTCGCAGCGATCAAAGCGCACCGAAAGAACTTCGCCTAG	MTPTSSPKQPPRQSLPMIAATTATLPAVMLSSLALAQPASADTRPSAIPATLAAAMEAQAAAVKAGVIPPASVPASIPSGLQPARVTPSSHRVVRGDTVSGIAARYGLSTSAVLKLNNLRSNSVIYPGQKLKLKGASPAGTATHVAPASSATRTYTVKSGDTLGGIAARHGVKLSQVLSWNRLSVNSIIYPGQKIRLGGTAASPAPTKSAPAPARTVSSRSYTIKSGDTLSGIAARHGIRLADLLSANRLKVTSTIYPGNKLAIPGKSTSPVQPASSVTPLVPSSFLGFTYPAAVVSSANKNKALLNAAPVPSLAQMKSIVADTARRMGVDPALALAFAYQESGFNQRAVSPANAIGTMQVIPSSGEWASDLVGRKLNLLDPYDNATAGVAIIRQLIRTSKNLDNAIAGYYQGQYSVSKYGMYSDTKAYVAAIKAHRKNFA	PGPT0019120_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019120-sle1|yocH-K22409	NA	NA
D1-17_02482	2262	pknD_1		Serine/threonine-protein kinase PknD	GTGCAGGAAAACGTGTCGGACCGTCTCGTTGGTTCCCTGGTGGACAACCGCTACCAGGTAAATTCAAGGCTCGCGGGCGGCGGAATGTCCACCGTGTACCTGGCCACAGACCAGCGGCTGGACCGGGACGTCGCGCTCAAGGTCCTTCACCCACACTTGGCCAATGACCACAGCTTCCTCGACCGCCTCTCCCGGGAGGCCCGCTCGGCGGCAAAACTGTCGCATCCCCATGTCGTGGGCGTCCTGGACCAGGGACATGATGGTCAGACAGCCTATCTGGTCATGGAGTACATCAAGGGCCACACGCTCCGCGACGTCATTCGTGAAAAGGGGGCACTGTCTCCGCGCCTGGCATTTGCCCTGATCGATCCGGTGGTGGAAGGCCTGGGCTCAGCGCATGACGCCGGGCTGATTCACCGGGACGTGAAGCCGGAAAACGTACTGATCGCGGACGATGGCCGCATCAAAATCGGCGACTTCGGGCTCGCCCGGGCGGTGACAACCACCACAAGCACCGGGACGCTCATCGGAACGGTCGCGTACCTCTCCCCCGAACTGGTCCTTGGCCGGCCGGCGGATGCGCGCAGTGACATCTACTCCACTGGAATCATGCTCTTCGAGATGCTCACCGGCAAACAGCCGTTCGACGGCGACGTTCCGATCCAGGTTGCCTATCAGCACGTCAACTCGACCGTCGCTCCGCCGTCCAGCCTCGTCCCGGGACTGGCAGCAGAGGTTGATGAGCTGGTGCAGTGGTGTACGGCAAAGGACCCGGAAAAGCGTCCCGTGGACGGCAATGCGCTCCTCTCCGAACTCAGGCACATCCGCACCAATCTCTCCGACGCGGAGCTCGATCTGCAGCCTCCCGCGGCGCGGGGGGAGCGCCGCCCGGCGGCTGCGGCGGGCATTAGGGCCTCAGGGCCGGCAGGAAGCGGTATCCCGGTACCGCCTGTGCCTCAGCGCCTGCCGTCCCGGCCGGGGAGCGCCGGAGGCCATACCGAGGTGCTCTCCGAAATGCGGGACAAGGTTCCGCTGGATCAGACACTTCAGTGGCGCGGGGGCCAGCGCCCCACCGAAGTCATTGCGCAGACGAGCAATCCCACCACCATCTTCCCCGCACGCCGGCTCCCTCCTGGATACGGCCGGGACACAGACAGCGACTTTGATTCCCGCCCTGCCCTGGACGGCGTTCAGGTGGATGCCGACCGGCCACGCAACAACCAACGCAGCACGCTTGACCGTTACGGGCCAGGCCCGTCGGCCCTGGGGCATGGAGCGCTGAGTAAGCGTGAGCAGCGGAAACAGGACCGGGTCGATGAACGTGCCCGCACGCGCGCAGCCGCGACACCCCTGCGAAGCCTGCGTGAGGGAAACGCCCGACGCCGCGGGATTCTCTGGATCGTCATCCTGGTCATCGCGGCGCTGCTGGCCACCGGTGCCGGCTGGTTCTTCGGCATGGGACCAGGATCACCCGGCACCGTCCCGTCGGTGGCCAACCGGACTGTTGCCGAGGCTCAGCAACTCCTCCTGGCGGCCGGATTCCAATCCAGCACCCAGGATGTGTTCGACGACGATGTCCGCGCCGGGCTGGTAGTGGGGTCTCAACCGAAGGCGGGAACGGAGATCCGCAAGTACCAGCAGGTTTCACTGTTCGTCTCCAAGGGCCCGCAGCTCTTCCCGCTGCCGCAACTGGCAGGGAAATCCCTCGACGCCGCCAAGGAAACACTCAACCGGGCAGAGATGGCCCTTGGAAAAATCACTGAGAAATTCGATGAAGAGGCACCGGCAGGCACGGTCCTAGCCCAAGCCCCCGCAGCTGCCGCGCAGGTCAAGCACGGAACTCCAGTTAGCCTCACTGTATCCAAGGGCCCCCAGCCCATCCCCGTCCCGGACGTCCGCGGAGCGGAGCAATCTGCAGCCTTCCGGACCATCGAGGCAGCCGGGCTCGTGGCCGTTGTTGCGGACATGACCGTCAATGACAGGAACATCCCAGAGGGAGCGGTTGTCAGGCAGGAACCTGCCTCCGGCACCCTGACCCGCGGCAGCACCGTCACCCTGACCATTTCCGCAGGCCCGAAGCTCGTGAAGGTGCCCAATTACATTGGCGAGCAGGTCAGCGATGCCCGTGAAGCGCTGGAGAAGCGAGGTTTCGAGGTCCAGGTCAACAACATCCTCGGCGGATTCTTCGGAACGGTGCGGGACCAGGATCCTGTGGACACAGAGGTACCGGAGGGATCCGTGGTGACGCTGACCGTCGTCTAG	MQENVSDRLVGSLVDNRYQVNSRLAGGGMSTVYLATDQRLDRDVALKVLHPHLANDHSFLDRLSREARSAAKLSHPHVVGVLDQGHDGQTAYLVMEYIKGHTLRDVIREKGALSPRLAFALIDPVVEGLGSAHDAGLIHRDVKPENVLIADDGRIKIGDFGLARAVTTTTSTGTLIGTVAYLSPELVLGRPADARSDIYSTGIMLFEMLTGKQPFDGDVPIQVAYQHVNSTVAPPSSLVPGLAAEVDELVQWCTAKDPEKRPVDGNALLSELRHIRTNLSDAELDLQPPAARGERRPAAAAGIRASGPAGSGIPVPPVPQRLPSRPGSAGGHTEVLSEMRDKVPLDQTLQWRGGQRPTEVIAQTSNPTTIFPARRLPPGYGRDTDSDFDSRPALDGVQVDADRPRNNQRSTLDRYGPGPSALGHGALSKREQRKQDRVDERARTRAAATPLRSLREGNARRRGILWIVILVIAALLATGAGWFFGMGPGSPGTVPSVANRTVAEAQQLLLAAGFQSSTQDVFDDDVRAGLVVGSQPKAGTEIRKYQQVSLFVSKGPQLFPLPQLAGKSLDAAKETLNRAEMALGKITEKFDEEAPAGTVLAQAPAAAAQVKHGTPVSLTVSKGPQPIPVPDVRGAEQSAAFRTIEAAGLVAVVADMTVNDRNIPEGAVVRQEPASGTLTRGSTVTLTISAGPKLVKVPNYIGEQVSDAREALEKRGFEVQVNNILGGFFGTVRDQDPVDTEVPEGSVVTLTVV				NA	NA	NA	NA	NA
D1-17_02483	1437	aroH	COG3200	Phospho-2-dehydro-3-deoxyheptonate aldolase	ATGACTGTCCGGGCATCTACTCTTAGTAGTGTGACTGAGCTATCCGCAAAACCTGCCCCTTCCACGACCATCACCGCAGTGAACAGCACCGCCCAGAGCGGCGCAGCGAACTATCCGGGACTGGACAACTGGCGGGACCTTCCGATTTCCCAGCAGCCCTCGTGGCAGGACCGTGACGTCTTCGACGCTTCCGTCCGCGAACTCTCGGCACTGCCGCCCCTCGTGTTTGCGGGCGAAGTCGACGTGCTCCGCGAGCGGCTTGCCGCAGCCGCCCAGGGCAAGGCGTTCCTCCTGCAGGGCGGCGACTGTGCCGAAACGTTCGGGGATGCGACGGCTGACAAGATCAGCGCCCGCGTGAAGACTATCCTCCAGATGGCGGTAGTGCTCACCTACGGTGCGGCAATGCCCGTCATCAAGATGGGCCGGATGGCCGGCCAGTTCGCCAAGCCCCGCTCATCGAATGAAGAAACACGCGACGGCGTGACTCTTCCGGCCTACCGCGGCGACATTGTCAACGGGTACGACTTCACTCCCGAATCCCGCGGTCATGATGCCAGCAGGATGCTCAAGGCCTACCACACGTCGGCATCCACGCTGAACCTGATCCGCGCCTTCACGCAGGGCGGGTTCGCTGATCTGCGCCTGGTGCACCAGTGGAACAAGGGCTTCACCGAAAACCCGGCTCACGCCCGCTACGAATCCCTTGCCCGCGACATCGACCGCGCCATCCAGTTCATGGCGTCCTGCGGAGCTGACTTCGAAGCGCTGAAGCGTGTGGAGTTCTACGCCAGCCACGAGGCCCTGCTGCTCGACTATGAGCGCGCCCTGACCCGCATCGACTCGCGCACCGGCTTCCCTTACGACACCTCCGCCCATTTCCTCTGGATCGGTGAGCGGACCCGGGAGCTCGAGCACGCGCATGTCGACTTCCTCTCCCGCGTGCGCAACCCCATCGGCGTTAAGCTTGGCCCCGCCACCACGGGTGATGACGCCCTGCGACTGATCGACAAGCTGGATCCGAACCGCGAGCCGGGCCGACTGACTTTCATCACCCGTATGGGCGCCGGCAACATTCGTGAAAAGCTCCCCGCGGTCGTGGAAAAGGTGACCGCTTCGGGCGCCCAGGTTCTGTGGGTGACCGACCCGATGCACGGTAACACCGTCACCTCGCCGAACGGCTACAAGACCCGTAACTTCGACGACGTCATCGACGAGGTCCGCGGATTCTTCGAAGTGCACCACGCCCTCGGAACCGTGCCGGGCGGCCTTCACGTCGAAATGACCGGCGACGATGTTGCCGAGTGCCTTGGCGGTGCCGACCCCATCGACCAGGAGGCTTTCCTCGACCGCTACGAATCAGTGTGCGATCCGCGCCTGAACCATATGCAGTCGCTGGAGATGGCGTTCCTCGTGGCTGGCGCCCTGACCCGGCGCTGA	MTVRASTLSSVTELSAKPAPSTTITAVNSTAQSGAANYPGLDNWRDLPISQQPSWQDRDVFDASVRELSALPPLVFAGEVDVLRERLAAAAQGKAFLLQGGDCAETFGDATADKISARVKTILQMAVVLTYGAAMPVIKMGRMAGQFAKPRSSNEETRDGVTLPAYRGDIVNGYDFTPESRGHDASRMLKAYHTSASTLNLIRAFTQGGFADLRLVHQWNKGFTENPAHARYESLARDIDRAIQFMASCGADFEALKRVEFYASHEALLLDYERALTRIDSRTGFPYDTSAHFLWIGERTRELEHAHVDFLSRVRNPIGVKLGPATTGDDALRLIDKLDPNREPGRLTFITRMGAGNIREKLPAVVEKVTASGAQVLWVTDPMHGNTVTSPNGYKTRNFDDVIDEVRGFFEVHHALGTVPGGLHVEMTGDDVAECLGGADPIDQEAFLDRYESVCDPRLNHMQSLEMAFLVAGALTRR	PGPT0012920_739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012920-3_deoxy_7_phosphoheptulonate_synthase|aroF|aroG|aroH-K01626	NA	NA
D1-17_02484	765			hypothetical protein	GTGTTTTATTGGATCATGAAGAGGATCTTTTTGGGTCCGGTGCTTCGCACTCTTTTCCGGCCGTGGGTTAAGGGGCTGGATAATGTACCGGCCGAGGGACCTGCGATTATTGCCTCAAACCACTTGTCCTTCTCCGACTCGATCTTCATGCCACTGATGGTGTCGCGGCCGGTCATTTTTCTGGCGAAGTCGGAATACTTCACGGGCACCGGGCTCAAGGGCAAGCTGACCGCCATGTTTTTCCGGCTCACGAACCAACTTCCCATGGACCGCTCCGGAGGGGCCGCATCCGCTGCCTCCCTCGAGGCCGGCATGCATGTCCTGAACCACGGGGGACTGCTGGGCATCTATCCGGAGGGTACCCGCAGCCCCGACGGCCGGCTGTACCGCGGCAAGGTGGGCGTTGCCAGGCTGGCGCTGCAGGCCGGGGTTCCGGTGATACCGGTCGCGATGATCGGCACGGACAAAGTCCAGCCGATCGGAAAGAGGCTGCCCAATATCCGGCGTATCGGCATGATTTTCGGTGAGCCCCTGGACTTTAGCAGGTATCAGGGTATGGCAGATGACCGGCTGATTCAGCGGTCGGTGACGGACGAGATCATGTACGAGCTTATGCGCCTGTCCGGGCAGGAATACGTTGACGAGTACGCCGCCGTGGTTAAACTGCGGCTGGCGGGTAAACAACCAGACCAGACCGGTAAGGACCAGACCGGCAAGGACCAGCCAGGCAAGGATCAGCCCGGAGAAGACCGGCGGGGCGCCTGA	MFYWIMKRIFLGPVLRTLFRPWVKGLDNVPAEGPAIIASNHLSFSDSIFMPLMVSRPVIFLAKSEYFTGTGLKGKLTAMFFRLTNQLPMDRSGGAASAASLEAGMHVLNHGGLLGIYPEGTRSPDGRLYRGKVGVARLALQAGVPVIPVAMIGTDKVQPIGKRLPNIRRIGMIFGEPLDFSRYQGMADDRLIQRSVTDEIMYELMRLSGQEYVDEYAAVVKLRLAGKQPDQTGKDQTGKDQPGKDQPGEDRRGA	PGPT0024380_1586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-17_02485	876			Thermostable monoacylglycerol lipase	ATGACGGAAAGCAGCGACCCGGCGACGCCCGCCGCTTTCAGCTATCCGGGCCATGGCCCCAATGCGCGCATCGGAATCGCGATCTGTCACGGTTTTACAGGCAGCCCGTTGAGCATCCTTCCCTGGGCCGAATATCTGGCGGAACGCGGCTTCGCCGTCTCGGTACCGCTGCTTCCCGGTCACGGAACAGACTGGCAGGACCTGGCGCGAACAGGCTGGCCGGATTGGCACGGCGCCTTTGAAAAAACGTACCTGGAGCTTGCCGGCAGGACCGAGGCCTGCTTCGTAGCCGGACTTTCCATGGGCGGTGCCATCGCGCTGCTGACAGCCTCCCGCCATTCAGTGGTTGGCGTGGCAGTGGTGAATCCAGGGCTGAGCTTCTATGACCGGCGCGTCAGGATCATAGGACTGCTGAAGTACTTCCAGCGGACCACTATTCCGATCGAAGAAGAAAATCCGACGGCGGCCCCCACGCAGGACGGCGACTATTCCCGCACGCCGCTGGCAGCTGTCCATCAGCTGAAACGGCTCTTCGCAGCAGCCATCCGGGGACTGCCCCGGGTCACTGCGCCCGTGCTGGTGTTCAAGTCCCGGAACGACGTCGTTGTGCCGCCCACGTCGTTGGCCATGTTGAAGGCCCGTCTCGGAACTGCACATGTTGGAAAAGGCAACCTTGAAACTGTGCTGCTGGAGAACAGCGGCCATGTCGCCACGCTGGACGTCGACGCGCAGGAAATTTTCGCGGCCTCGGCGCGGTTCTTCCAAATGCACGCAGACACTGTGCATCCAGACCACGCGCATCCAGACCACGCGCATCCAGGCGCACCGGCAACCAGCACCCGTGCCAACAGTGCCATATCGTCGGAGAAGCAATGA	MTESSDPATPAAFSYPGHGPNARIGIAICHGFTGSPLSILPWAEYLAERGFAVSVPLLPGHGTDWQDLARTGWPDWHGAFEKTYLELAGRTEACFVAGLSMGGAIALLTASRHSVVGVAVVNPGLSFYDRRVRIIGLLKYFQRTTIPIEEENPTAAPTQDGDYSRTPLAAVHQLKRLFAAAIRGLPRVTAPVLVFKSRNDVVVPPTSLAMLKARLGTAHVGKGNLETVLLENSGHVATLDVDAQEIFAASARFFQMHADTVHPDHAHPDHAHPGAPATSTRANSAISSEKQ				NA	NA	NA	NA	NA
D1-17_02486	804			Thermostable monoacylglycerol lipase	ATGAGCACCCTTCCGGACCACAGTCCGTTCAGCAGCCCGTTCTCGGGAGAGGGCCCCCGAGTGGGCATTGCACTCTCGCACGGCTTTACCGGAAGTCCACACGGAGTGCGGGCCTGGGCCAGGGCCTTCGCGGACGCAGGCTTCGCGGTCCGCATGCCGCTGCTTCCCGGCCATGGCACCACGTGGCAGGAATTGGCCCGCAGCCGCTGGATGGAATGGCATGACGCGATGGATGCTGCGTATCTGGAGCTTGAGGCCGAGTGCGACTACGTCTTTGCGGCAGGAATCTCCATGGGAGGCGCGCTTGCCTTGCGCATCGCTGCCACCCGGTCCGTCGCAGGCACTGTCCTGGTCAACCCCGCGCTCGTCATCGACGACCCGCGCGCGCCACTGGCCGGCATACTGAAGCTCGTGCTGAAGAGCACGCCGTCCATCGGCAATGACATCCTCAAGCCCGGCGTTGATGAAGGCGCCTACGCCCGGACACCTGTCGCAGCCGCCCATGAACTGCACAAGCTCTTCAAAGTCACGCGCCTGCTGCTGCCGGCGGTCACCGCCCCCGTCCAGGTTTTTCGTTCCACGGTGGACCATGTCGTTTCCGACACGAGTATGACGGCGCTTCGCCGGGGCCTGACGCACGCACCGCTCAACGTGACCATGTTGGAGAACAGTTACCATGTAGCCACGCTCGATAACGACGCCGGACAGATCTTCAACGGCTCGGTGGAATTCATCCGGAACGTCCTTGCTGATGCCGGAGCCCTACCAGTCCGCGACAGCCAGCCAGAAGGGCGAGCCCAATGA	MSTLPDHSPFSSPFSGEGPRVGIALSHGFTGSPHGVRAWARAFADAGFAVRMPLLPGHGTTWQELARSRWMEWHDAMDAAYLELEAECDYVFAAGISMGGALALRIAATRSVAGTVLVNPALVIDDPRAPLAGILKLVLKSTPSIGNDILKPGVDEGAYARTPVAAAHELHKLFKVTRLLLPAVTAPVQVFRSTVDHVVSDTSMTALRRGLTHAPLNVTMLENSYHVATLDNDAGQIFNGSVEFIRNVLADAGALPVRDSQPEGRAQ				NA	NA	NA	NA	NA
D1-17_02487	666			hypothetical protein	ATGAACAGGCCCGATTCGAATCCATCCGATCCCAGCGCCAACCAGGATGACGCCGTATGGCTCGACCTCGTGGCCAGGCTCGAAGGGAAGACCTCCAAGTCCGACGCAGGGACCGGCACCGAACTGGAGGCCGGCACGGCCGACTATGCCCGCCAGGCAGATGAACAGTCGCCCGACCCCGCAGGCTCCTCCGCCGCAGGCACTTCAGGTCCTTCATCCGCTGACTCTTCGGCCGGGCCGGAGGCACCTGCCAGGCGGTTCACTGACTTCGATCCGCTCGGCCTGGCTCCCGGTGCCGCGGCACCTGTGGAGCCGTCCGCCGTCGAACGCGAACAGGCAGCGGCGCGCCGGCGCGCCGCCGAGGCGACTGGTGAGGCGGTGCAAACCGGGCCGGAGGGTCCCCGCGACTACGGAGTCGATGACGAAGAGGGTGCGTTTGTGCCTGAGGACCCGCCCGTCCTTTCCGCGACAGATCCCCTGACGATGCTTGCGTGGCTCGGCGCGGTGGGTTCCCCGATTGCCCTCGTACTGTCCGCCATGTTCTGGCGGTCAGCACCCCTGCTGGCGATCCTGGGCATAGTGGCCGTGTTTGTGGCGGGCGTCGTGTACCTGATCATGAAGCTGCCACAGGAGAAAGACGAAAACGACGACGGCGCCCGCGTGTAA	MNRPDSNPSDPSANQDDAVWLDLVARLEGKTSKSDAGTGTELEAGTADYARQADEQSPDPAGSSAAGTSGPSSADSSAGPEAPARRFTDFDPLGLAPGAAAPVEPSAVEREQAAARRRAAEATGEAVQTGPEGPRDYGVDDEEGAFVPEDPPVLSATDPLTMLAWLGAVGSPIALVLSAMFWRSAPLLAILGIVAVFVAGVVYLIMKLPQEKDENDDGARV				NA	NA	NA	NA	NA
D1-17_02488	1170	glkA		Glucokinase	GTGAACGGGAGGCAAAACCGCAGGCGGGGGCACCTAGAATGGGGACTTATGCAGCCATTCCCGCCGACCGAACAGTCCGGACCGACTGACACAGCCCGCCTGTTCAGCACGACCCCCCGCTCCAGGCCCGTTTGGCGGCGAAGCCGGGCTGGCCAGCCGGGCGGAAGTGCACCCTACCGCACGCTCCGGCAGCACCTGCGTCCGGCGGCCAATGGCCTGGCCATCGGCATTGACATCGGCGGGACGAAGGTTGCGGCGGGCGTCGTTGATGGTGAAGGGCGCATTCTCCGGGAAGCCAGGCGCTCCACGCCCGGGAGCAATCCCCGGGCGGTCGAACAGGTCATTGTGGAGCTGGTGGAGGAACTCAGTCGCGGCGCCCGCATCAGGTCGGTGGGCATCGGCGCCGCCGGCTGGATGGACCTGGACGGTGGCACCGTGCTCTTCAGCCCGCACCTTGCCTGGCGCAACGAACCTCTGCGGGATAACCTCCAGCGCTTGCTTCGGCGCCCTGTGATGCTGACCAATGACGCCGACGCGGCAGCCTGGGCCGAATGGCGCTTTGGTGCGGGCCAGGGCCAGGACCGGCTCGTGTGCATCACACTGGGCACGGGGATTGGCGGGGCCATGGTGATGGACGGCCGCGTGGAGCGGGGCCGCTTCGGCGTTGCGGGCGAATTCGGCCACCAGATCATCATGCCCGGCGGGCACCGCTGCGAATGCGGCAACCGCGGCTGCTGGGAGCAGTATGCCTCCGGCAATGCCCTCGGGCGGGAGGCCCGGGAGCTCGCACTGGCAAACTCGCCGGTGGCGCAGGAGCTTCTCAAGGCCGTTGACGGCCACGCCGAGCGCATCACTGGAGCCACCGTGACGGAACTGGCTATCGCCGGAGACGCTGCGTCGAAGGAACTTCTGGAGGACGTGGGGGACTGGCTGGGACTCGGGCTGGCCAATCTGGCGGCCGCCCTTGATCCTGGAAAGTTCGTGATCGGCGGAGGGCTGTGCGCTGCCGGGGAACTGCTGGTGGCACCGGCACGGAAGGCTTTCGCCCGCAACCTCACTGGCCGCGGTTTCCGCCCGGCCGCTGAAATCGCCCTGGCGGCCTTGGGTCCAAACGCCGGGCTTATCGGTGCGGCTGACTTGTCAAGGGTCAGCAGCCGAACGCACAGCTGA	MNGRQNRRRGHLEWGLMQPFPPTEQSGPTDTARLFSTTPRSRPVWRRSRAGQPGGSAPYRTLRQHLRPAANGLAIGIDIGGTKVAAGVVDGEGRILREARRSTPGSNPRAVEQVIVELVEELSRGARIRSVGIGAAGWMDLDGGTVLFSPHLAWRNEPLRDNLQRLLRRPVMLTNDADAAAWAEWRFGAGQGQDRLVCITLGTGIGGAMVMDGRVERGRFGVAGEFGHQIIMPGGHRCECGNRGCWEQYASGNALGREARELALANSPVAQELLKAVDGHAERITGATVTELAIAGDAASKELLEDVGDWLGLGLANLAAALDPGKFVIGGGLCAAGELLVAPARKAFARNLTGRGFRPAAEIALAALGPNAGLIGAADLSRVSSRTHS				NA	NA	NA	NA	NA
D1-17_02489	1821		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	GTGCGCGAATTCAGTGTTCCGCCCCTGGTCAACGTCCCTTCGGACTCCAACATCACGGATCTTCTGGTGCGCCAGGCGGCGAAGACATCGAATCCGGCACTCTACTCGCGGCTGGATGCCTCAGGCCGGTGGCAGGACATCACCGCCTCTGACTTCCGCGAGGATGTGTCCGCCCTCGCAAAGGGGCTGATTGCCAGCGGCGTGCAGGCCGGGGACCGGGTCGGAATCATGTCCCGGACGCGGTACGAGTGGGCGCTGGTTGACTTCGCCATCTGGTTCGCCGGCGGTATTTCGGTCCCCATCTATGAAACATCCTCCCCGTCCCAAGTGGCCTGGAACCTCGGCGACTCGGGTGCGGTGGCCGCGTTCGGCGAAGCGGCCCACCACGAAAACGTCATCAGGCAGGCGGCCGCTTCCGAAGGCCTGACCGCCCTGAGCCGGGTCTGGCAGCTCGAGGGCGAAGGGCTAAATGCTCTCCGGGAGGCCGGGACAGATGTCAGCGACGACGAACTTGAGAAGCGGCGGACCACAGCCGGGTTGGGCGACGTCGCCACGATCATCTATACCTCCGGCACCACGGGACGGCCAAAGGGCTGCGAACTGACCCACGGAAACTTTGTTGAACTGACGGAGAACGCGCTGGCCACGTCCCTGCGCCAGATTGTCAACGAGCAGGCGCGGACCATCATGTTCCTCCCGATGGCGCACGTGTTCGCACGGTTCATCTCCGTCCTGGCCGTGGGGGCCGGCGTCACGGTCGCACACACGCCTGACATCAAGCACCTGCTGCCTGACCTGCAGAGCTACAAGCCCACGTTCATCCTCGCCGTACCGCGTGTCTTCGAGAAGGTATACAACTCCGCACTGACCAAAGCGGAAGACGGCGGGAAAGGCGCGATTTTCCACAAGGCGGCGGACACGGCCATCGCCTACTCCCGCGCCCGCCAGGAGGGCAAGGTGGGTGTCGGGCTGAAGATCAGGCACGCCCTCTTCGATAAGCTCGTTTACGGCAAGCTCCGCGCCGCGATGGGCGGCGAGGTCGCCCATGCTGTGTCAGGAGGCGGTCCCCTGGGCGAGCGGCTGGGCCATTTCTTCCAGGGCATCGGCCTGCAGATCCTCGAAGGCTACGGCCTCACAGAGACCACGGCCCCGGTCAGCGTTAACACGCCCGAGCGCATCAAGATCGGGACTGTTGGGGCACCGATTCCCGGCAATACGGTAAAAATTGCGGACGATGGCGAGATCCTCACCAAGGGCGTCTGTGTCATGAAGGGCTACTACAAGCGCGAGGACCTGACGGCTGAGGCTTTCGTCGACGGGTGGTTCCGGACTGGAGACATCGGCCAGCTGGATGCTGACGGCTTCCTGACCATCACCGGCCGGAAGAAGGAAATCATCGTTACGGCCGGGGGCAAGAACGTGATTCCGGCCCTGCTCGAAGACCAGATCCGTGCCGACGCGCTGGTGTCCCAGGTGCTCGTGGTGGGCGATAACCGGCCCTTCATCGGTGCTCTCGTGACGCTCGACGAGGAAGCCCTTCCGGGATGGCTGCAGCGGCATGGGCTGCCCGCTGAAACCACTGTTGCCGAGGCGGCCGACAACGACACCGTGAGGGCCGCAGTGCAGGAATTGATCAACAACGCGAACCATTCCGTTTCGCAGGCCGAGGCCATCAGGTCGTTCCGGATCGTGCCGCGCGACTTCACCGAGGCCTCGGGCCACCTGACCCCGTCCATGAAGGTCAAGCGGGCGCAGGTCATGAAGGACTTCGAACCGGTCATCGACGAAATGTACGCCGCGCCCAGACCCACCCGCGCCTAG	MREFSVPPLVNVPSDSNITDLLVRQAAKTSNPALYSRLDASGRWQDITASDFREDVSALAKGLIASGVQAGDRVGIMSRTRYEWALVDFAIWFAGGISVPIYETSSPSQVAWNLGDSGAVAAFGEAAHHENVIRQAAASEGLTALSRVWQLEGEGLNALREAGTDVSDDELEKRRTTAGLGDVATIIYTSGTTGRPKGCELTHGNFVELTENALATSLRQIVNEQARTIMFLPMAHVFARFISVLAVGAGVTVAHTPDIKHLLPDLQSYKPTFILAVPRVFEKVYNSALTKAEDGGKGAIFHKAADTAIAYSRARQEGKVGVGLKIRHALFDKLVYGKLRAAMGGEVAHAVSGGGPLGERLGHFFQGIGLQILEGYGLTETTAPVSVNTPERIKIGTVGAPIPGNTVKIADDGEILTKGVCVMKGYYKREDLTAEAFVDGWFRTGDIGQLDADGFLTITGRKKEIIVTAGGKNVIPALLEDQIRADALVSQVLVVGDNRPFIGALVTLDEEALPGWLQRHGLPAETTVAEAADNDTVRAAVQELINNANHSVSQAEAIRSFRIVPRDFTEASGHLTPSMKVKRAQVMKDFEPVIDEMYAAPRPTRA	PGPT0008380_5593	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-17_02490	3396	pycA		Pyruvate carboxylase	ATGTTTTCCAAGATTCTGGTGGCCAACCGCGGCGAGATCGCAATCCGTGCTTTCCGCGCAGGCTACGAACTCGGCGCCAAGACAGTCGCCGTGTTCCCCAACGAGGACCGTAACTCGATCCACCGCCAGAAGGCCGACGAGGCATACCTCATCGGTGAAGAGGGCCACCCCGTACGCGCATACCTGGACGTTGACGAGGTCATCCGGGTCGCCAAGGAATCCGGAGCCGACGCCATTTACCCCGGCTACGGCTTCCTCTCGGAGAACCCGGACCTGGCCCGGGCCGCCAAGAACGCCGGCATTACTTTCGTCGGCCCCCCCGCTGAAGTCCTGGAACTTGCCGGCAACAAGGTTGCCGCCCTGGAGGCTGCCCGCAAGGCCGGCGTCCCCGTCCTGAAGTCAAGCGCGCCCTCAAAGGACCTCGACGAGCTCATCGCCGCAGCGGACGAAATCGGCTTCCCGATCTTCGCGAAGGCGGTTGCGGGCGGCGGCGGACGCGGCATGCGCCGGGTCAACACCCGCGAAGCGCTGCCCGAAGCGCTGCAGTCCGCCATGCGCGAGGCCGACGCCGCATTCGGCGACCCCACCATGTTCCTGGAGCAGGCGGTGCTCCGTCCCCGGCACATCGAAGTGCAGATCCTGGCCGACGCCGAAGGCAACGTCATGCATCTCTTCGAGCGTGACTGCTCCATCCAGCGCCGCCACCAGAAGGTTATCGAGATCGCCCCGGCGCCCAACCTCGACGAGGGCATCCGCCAGGCCCTGTACCGCGACGCTGTCAAATTCGCCAAGGCCCTGAACTACGTCAACGCCGGTACCGTGGAGTTCCTTGTGGATACGGTAGGGGAGCGCGCCGGCCAGCACGTCTTCATCGAAATGAACCCCCGCATCCAGGTGGAGCACACGGTCACCGAAGAGGTTACCGACGTCGACCTGGTGCAGGCACAGATGCGGATCGCCTCGGGCGAGACTCTGGCCGACCTCGGCTTGTCGCAGGAGACGGTATTCCTTAAGGGTGCGGCGCTGCAGTCGCGCATCACCACGGAGGATCCGGCCAACGGCTTCCGCCCCGACGTCGGAAAGATCACCGGCTACCGCTCGGCCGGCGGTGCCGGTGTAAGGCTCGACGGCGGCACGGTCTACTCGGGTGCCGAAATCAGCCCCCACTTCGACTCCATGCTCGTCAAGCTCACCTGCCGCGGCCGGGACTACCCGGCCGCAGTGGCCCGGGCCCGACGTGCCCTCGCAGAGTTCCGTATCCGTGGCGTATCCACGAACATCTCATTCCTGCAGGCCGTGCTGGACGACCCGGACTTTATCGCCGGGAACGTGGCCACATCCTTCATCGATGAGCGCCCCCAGCTGCTGAAGGCCCGCGTTTCAGCGGACCGCGGCACGAAGCTGCTGACCTGGCTGGCTGAGGTCACCGTCAACAAACCAAACGGTGAGCTCACAGTCCACACCGATCCTGCCGAGAAGCTTCCGGTCGTGAAGGGGAGCGAGCCGCAGCCGGGCTCGCGCCAGCGCCTACAGGAACTGGGCCCGGAAGGCTTCGCCCGTGCCCTGCGTGAGCAGACGGCCGTGGCGGTCACGGACACCACGTTCCGCGACGCGCACCAGTCGCTGCTGGCCACCCGCGTCCGCACCAGGGACCTGGTTGCCGCCGCACCCGCTGTGTCCTCGCTGCTGCCGGAACTGCTCTCGGTCGAGGCCTGGGGCGGCGCCACCTACGACGTCGCCCTGCGTTTCCTGGGCGAGGACCCCTGGGACCGCCTGGCTGCGCTGCGTAAGGCCATGCCGAACATCTGCCTGCAGATGCTGCTCCGCGGCCGGAACACGGTGGGTTACACACCGTACCCGGAGGAAGTGACGGAGGCCTTCGTCAACGAGGCGGCCGCCACGGGCATTGACATCTTCCGCATCTTCGATGCGCTGAATGACGTCAACCAGATGGCTCCGGCCATCCGCGCCGTGCGCGCCACGGGTACCGCCGTCGCCGAAGTGGCGCTCTGCTACACCGGGGACATGCTGGACCCGAATGAAAAGCTGTACACGCTGGACTACTACCTGCAGCTGGCGGACAGGATTGTCGAGGCAGGCGCGCACATCCTCGCCATCAAGGATATGGCCGGCCTGCTGCGCCCGGCAGCCGCCGCGAAGCTCGTGACGGCACTCCGGGAACGGTTCGACCTCCCCGTCCACCTGCACACGCACGACACCGCCGGCGGGCAGCTCGCCACCTTGTTTGCGGCAGTGAACGCCGGCGTTGACGCCGTCGACGTCGCCTCGGCCTCCTTGGCCGGAACCACGAGCCAGCCTTCTGCGTCCGCGCTGGTTGCAGCGCTGGCCCACACTGAGCGCGACACCGGGCTCAGCCTTGCCTATGTCAGCTCCCTGGAACCCTACTGGGAAGCCGTGCGCCGCGTGTACGCGCCGTTCGAGTCCGGCCTGCCGGGCCCCACCGGCCGGGTCTACCAGCACGAAATTCCGGGCGGGCAGCTGTCCAACCTCCGGCAGCAGGCCATGGCCCTGGGCCTGGGCGAACGCTTCGAAGCCATCGAAGACATGTACACCGCCGCGGACCGCATCCTGGGCCATCTGGTGAAGGTCACGCCTTCCTCCAAGGTGGTGGGTGACCTAGCCCTGCACCTTGTCGGGCTGAACGCCGATCCCGCGGACTTCGAAGAGAACCCGCAGAACTATGACATCCCGGACTCGGTCATTGGCTTCCTGTCCGGCGAGCTCGGCGATCCTCCTGGAGGCTGGCCGGAACCGTTCCGCACCAAGGCACTGCAGGGGCGGAGCATCAAGGTCCGCGACGCGGAGCTCAGCGCGGAAGACAGCGCAGCTCTTAAGGGTGACTCAAAGACCAGGCAGCAGACGCTGAACCGCCTGCTCTTCGCCGGGCCGACCAAGGACTACCAGAAGAGCGTGGAAACCTACGGCAACGTTTCCGTCCTGGACACCCGCGACTACCTTTATGGTCTGCAGCGCGGCCAGGAGCACGTGATCCAGCTCGAAAAGGGTGTCCGCCTTATCGCCTCGCTGGAGGCCGTTTCGGAGCCGGACGAGAAGGGCATGCGCACCGTCATGTGCACGCTCAACGGGCAGTCCCGTCCTGTCTCGGTCCGCGACAAGTCCGTGATCAGCAACGTCAAGGCAGCCGAGAAGGCCGATCCCGCCCAACCGGGACAGGTCGCTGCGCCGTTCGCCGGCGCCGTCACGGTCACCGTCAGGATCGGCGACACGGTCAAGGCCGGTGACACCGTCGCCACGATCGAGGCCATGAAGATGGAGGCGTCCATCACAACGCCGGTTGCGGGCAAGGTGACGCGGATTGCCATCTCCGCTGTGGAACAGGTACAGGGCGGAGACCTGCTGCTCGTCGTTGAGTAG	MFSKILVANRGEIAIRAFRAGYELGAKTVAVFPNEDRNSIHRQKADEAYLIGEEGHPVRAYLDVDEVIRVAKESGADAIYPGYGFLSENPDLARAAKNAGITFVGPPAEVLELAGNKVAALEAARKAGVPVLKSSAPSKDLDELIAAADEIGFPIFAKAVAGGGGRGMRRVNTREALPEALQSAMREADAAFGDPTMFLEQAVLRPRHIEVQILADAEGNVMHLFERDCSIQRRHQKVIEIAPAPNLDEGIRQALYRDAVKFAKALNYVNAGTVEFLVDTVGERAGQHVFIEMNPRIQVEHTVTEEVTDVDLVQAQMRIASGETLADLGLSQETVFLKGAALQSRITTEDPANGFRPDVGKITGYRSAGGAGVRLDGGTVYSGAEISPHFDSMLVKLTCRGRDYPAAVARARRALAEFRIRGVSTNISFLQAVLDDPDFIAGNVATSFIDERPQLLKARVSADRGTKLLTWLAEVTVNKPNGELTVHTDPAEKLPVVKGSEPQPGSRQRLQELGPEGFARALREQTAVAVTDTTFRDAHQSLLATRVRTRDLVAAAPAVSSLLPELLSVEAWGGATYDVALRFLGEDPWDRLAALRKAMPNICLQMLLRGRNTVGYTPYPEEVTEAFVNEAAATGIDIFRIFDALNDVNQMAPAIRAVRATGTAVAEVALCYTGDMLDPNEKLYTLDYYLQLADRIVEAGAHILAIKDMAGLLRPAAAAKLVTALRERFDLPVHLHTHDTAGGQLATLFAAVNAGVDAVDVASASLAGTTSQPSASALVAALAHTERDTGLSLAYVSSLEPYWEAVRRVYAPFESGLPGPTGRVYQHEIPGGQLSNLRQQAMALGLGERFEAIEDMYTAADRILGHLVKVTPSSKVVGDLALHLVGLNADPADFEENPQNYDIPDSVIGFLSGELGDPPGGWPEPFRTKALQGRSIKVRDAELSAEDSAALKGDSKTRQQTLNRLLFAGPTKDYQKSVETYGNVSVLDTRDYLYGLQRGQEHVIQLEKGVRLIASLEAVSEPDEKGMRTVMCTLNGQSRPVSVRDKSVISNVKAAEKADPAQPGQVAAPFAGAVTVTVRIGDTVKAGDTVATIEAMKMEASITTPVAGKVTRIAISAVEQVQGGDLLLVVE	PGPT0001420_1708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001420-pyc-K01958	NA	NA
D1-17_02491	822	parA		Chromosome partitioning protein ParA	GTGCAAGTAGTCAGCATCAGCAGCCTCAAAGGCGGTGTCGGCAAGACATCCGTCACAACCGGATTGGCGTCTGCGGCACTGGCCGCCGGTATCCCCACCCTCGTTGTGGACCTGGATCCCCATGCCGATGCCAGCACAGCCTTGGGAGTGCAGCCGAGCGACAAGCTGGACATCGGCCGGATGCTGAAGAATCCACGCAAGGCCAAGCTTCCCGAAAACGTAGTGCCCAGCGGCTGGACCACGCGGGTGGCAACCAATGGTTCCGCACCCGCCGTCCTGGACGTCGCCGTGGGCTCGGCCTACACCGGCATCTACGACCGCCCGGACCTTGGCAAGAGGGACCTTCGCCGGTTGACCGCGGTGCTGGCTGGAACGGACACATACCAGTTGGTACTCGTGGACTGCCCTCCTTCTTTGAATGGCCTGACGCGCATGGCGTGGTCGGCAAGTACCAAAGTGGCCCTCGTGGCAGAACCAGGCCTGTTCTCCGTGGCCGGCACTGAGCGCACAATGCGCGCCATCCAGCTCTTCCGGCAGGAATTCGCCCCTAACCTCACACCGGCAGGCATCGTGGCCAACCGCGTTCGTACTGGATCCTCCGAGCACGCGTTCCGGCTGGCCGAGATGCAGTCCATGTTCGGTGATCTCCTGCTCGCGCCACACATCCCGGAGCAGGCAAACTGGCAGCAGATCCAAGGCGCTGCCCACTCCATCCACCACTGGCCGGGCGACTCCGCCAAATCAACCGCGGCCCTCTTCGACACTCTCCTGGCCAATCTGATGTCCGCGGGCAGGGCGAACCGCAGCCGGGTCAACCGCTAG	MQVVSISSLKGGVGKTSVTTGLASAALAAGIPTLVVDLDPHADASTALGVQPSDKLDIGRMLKNPRKAKLPENVVPSGWTTRVATNGSAPAVLDVAVGSAYTGIYDRPDLGKRDLRRLTAVLAGTDTYQLVLVDCPPSLNGLTRMAWSASTKVALVAEPGLFSVAGTERTMRAIQLFRQEFAPNLTPAGIVANRVRTGSSEHAFRLAEMQSMFGDLLLAPHIPEQANWQQIQGAAHSIHHWPGDSAKSTAALFDTLLANLMSAGRANRSRVNR				NA	NA	NA	NA	NA
D1-17_02492	1155			hypothetical protein	ATGAGAGCAAATGCCACACGGGCCGCGGCGCTGGCGCTTGTCCTCCTGGTGGTCCTGTTGATGGCCTGGGTTTCCACAGTGAGCCGGTCGACCCCGTTCACCCGCTACTACATCAGCGCTCTCGGTAGTGACAGCAACTCCGGAACTTCCCCCGATTCGCCCTGGCAGTCGCTAACGAAGGTCAATACAACGACTTTCAATCCCGGCGATTCCATAAGTTTCCGCAGGGGTGATGAGTGGGCGGGCAACGTCGTTCTGGACGAAAGCGGCACCGCGGACTCGACGATCAGGTTGAACAGCTACGGAAGCGGGAATTTGCCCACGGTGACCAGCGGGGAGGGTGGAAGCTGCTTCCGACTGAACGGCAGCTACATCGAGGTGGAGGGTCTGCGGGCCACAAACTGCGGGTACGCGGGCTTCAATGTGTCCGGCGACTACGTTGCGGTGAAAAATTCCGAAGCCTCCGACAACGCCGCCGGAATCAAGGTGGGCACAGGCTCTGACTTCAGCACCTACTCCAACAACGTCCTGAAAAACAACAACGTCATGAACGTCAATACGCCCGGACGTCAGTGCGGCACGGCGGAGGCGACGGACTGCACCGATGACTCAGGAGCCTTCGGCGTACTGATCAACGGCAACGACAACGAGTTTTTCGGCAACACCGTCACCGGCTCCACGGCTGCCTCCTTCGACTACGGCATGGACGGCGGCGCCTTCGAGATCTACGACGGCAGCCGCAATAACATCCACCACAACCACGCCATCGACAACAACGTGTTCTCCGAAGTTGGCCGTTCTGACGGCGCGGCCGACGGCAATGTTTTCCGCTACAACCTGGTCCGCTCCACGTGCGGCGCGGACTGCGCCGAGGCGGTGGGACTGATCATCCGTGGCCCGGATTCGCAGTACGGCCCTACCAACAGCACCACTTTCGAATTCAACACGGTCTGGCTGAACGGCAGAAACTCCCGCGGTGTTGTCTGCCACGCGTCCTGTCCATCCACGACGGTTATCCGCGACAACATCCTGGTGGCTGTTCGGGACGCCCTCTGGCTGGATGGATCCGGGTGGGTCGAGCAGCATAACGTCGTCAACGGACCCAGCAACGTCCCGCTGGACAGCACCTCGTCGACCGTCCCGCAGGGTTCGTAA	MRANATRAAALALVLLVVLLMAWVSTVSRSTPFTRYYISALGSDSNSGTSPDSPWQSLTKVNTTTFNPGDSISFRRGDEWAGNVVLDESGTADSTIRLNSYGSGNLPTVTSGEGGSCFRLNGSYIEVEGLRATNCGYAGFNVSGDYVAVKNSEASDNAAGIKVGTGSDFSTYSNNVLKNNNVMNVNTPGRQCGTAEATDCTDDSGAFGVLINGNDNEFFGNTVTGSTAASFDYGMDGGAFEIYDGSRNNIHHNHAIDNNVFSEVGRSDGAADGNVFRYNLVRSTCGADCAEAVGLIIRGPDSQYGPTNSTTFEFNTVWLNGRNSRGVVCHASCPSTTVIRDNILVAVRDALWLDGSGWVEQHNVVNGPSNVPLDSTSSTVPQGS				NA	NA	NA	NA	NA
D1-17_02493	678		COG0789	putative HTH-type transcriptional regulator	ATGATCTTCGTCGTGATCATCATGTCTGTAGGGCTGTTGCGGCAGACTTCCCCAGGGGAGCTCATGACAAGGAGGATCCACGTGAGTCCGAAAGGCGAAGCAGGCGAGCTGAAGCAGTCTTCGACGGCCGGCGTAGCTGTGCCTGTAAGTGGCGCTCAGGGCCTTCTCTTCACTGAGGACCTTCCGGTGCTGGACGAAGATGCAGGCTACCGGGGCCCCACCGCCTGCAAGGCGGCGGGCATCACCTACCGCCAACTGGACTACTGGGCCCGGACGGGCCTGGTGGAACCCGCAGTCCGCGGTGCCGCCGGCTCGGGATCGCAGCGGCTCTACGGCTTCCGTGACATCCTCGTCCTCAAGGTGGTCAAGCGTCTGCTTGATACCGGCGTATCGCTGCAGCAGATCCGCTCCGCCGTGGAACACCTTCGTGAGCGGGGCGTTGAAGACCTGGCGCAAATCACCCTTATGAGCGATGGCGCCAGTGTCTACGAGTGCACCTCCGCCGACGAAGTCATCGACCTGGTGCAGGGCGGTCAGGGCGTCTTTGGCATCGCCGTCGGACGTGTCTGGCGTGAAGTTGAAGGCAGCCTTGCCTCTCTGCCGAGCGAGCACGCCTCCGAGCAGAACTTCCCGGATGACGAACTGAGCAAGCGCCGCGCGGCGCGCAAGATCGGCTAG	MIFVVIIMSVGLLRQTSPGELMTRRIHVSPKGEAGELKQSSTAGVAVPVSGAQGLLFTEDLPVLDEDAGYRGPTACKAAGITYRQLDYWARTGLVEPAVRGAAGSGSQRLYGFRDILVLKVVKRLLDTGVSLQQIRSAVEHLRERGVEDLAQITLMSDGASVYECTSADEVIDLVQGGQGVFGIAVGRVWREVEGSLASLPSEHASEQNFPDDELSKRRAARKIG				NA	NA	NA	NA	NA
D1-17_02494	504		COG1259	putative protein	ATGATCGAAGTCGAGATTGTGGGCGTCCGGATAGAGCTGCCCTCCAACCAGCCCCTGGTCCTGCTGCGCGAGATGCACGGCGAACGGCACGTGCCCATCTGGATCGGCACGCCGGAAGCGAGTGCCATCGCCTTGGCACAGCAGGGCGTGGTTCCGCCGCGGCCCATGACGCACGACCTTCTGGTGGACGTCGTCGAGACGCTGGGGCACTCCGTCGTGAGCGTCAACATTGTGGCTGTGGAAGACAACATCTTCTACGGGCAGCTCCAGTTTGATAACGGCGCAACCGTCAGCTCCCGGGCGTCCGATGCACTGGCCATTGCGCTCAGGGCCAAGTGCCGTATCTGGTGCGCGGATTCAGTCATGGACGAGGCCGGTGTACGGATCACCGAACACGACGAGGGGGAGGACACCGAGCCGGGTCCCGCCGTCGACGAGGAGCGCGAACTGCGAAAGTTCCGCGAGTTCCTGGACGACGTGGAACCGGAAGATTTCGACGGCTGA	MIEVEIVGVRIELPSNQPLVLLREMHGERHVPIWIGTPEASAIALAQQGVVPPRPMTHDLLVDVVETLGHSVVSVNIVAVEDNIFYGQLQFDNGATVSSRASDALAIALRAKCRIWCADSVMDEAGVRITEHDEGEDTEPGPAVDEERELRKFREFLDDVEPEDFDG				NA	NA	NA	NA	NA
D1-17_02495	723		COG0789	putative HTH-type transcriptional regulator	GTGGCAATGGCACAACCGGAGCGCCGGGGACCCCTGGTCCTGAATATCGGGGAGGTCCTCGCTCAGTTGAGCGACGATTTCCCGAGCATGACGGCGTCGAAAATCAGATTCCTTGAAGAAAAGGGGCTCATCAATCCCCGGCGCACCCCTGCCGGCTACCGGCAGTATTCAGATGGCGACGTCGAACGTCTGCGCTTTGTCCTGTCGCTGCAGCGCGACCAGTACCTGCCCTTAAAGGTGATCAAGGACTACCTTGACGCCATTGACCGCGGTGAGCGGCCGGAGAACCTTCCGCCGGGTGTCACCGTTTCCCCGCGGATTGTTTCCGATGAGCTTGCAGCTGAGCTGCAGAACAAGTCACGCAAGCTCAGTGAGGAGCAGTTGCGGGCGGAGTCCGGCGCGAGCGTTCCGCTGGTGCAGTCGCTGCTGAGCTTCGGCCTCATCGGCCACACGAACGGCATGTTCGATGAGCACGCGCTGCAGGTGGCACGCGCCTGCGTCCAACTGGAGGGGCACGGACTGGAGCCCCGTCATCTCCGTCCCTTCCAGGCTGCCGCCGAGCGGGAGTTCGGACTGGTGGAACGGGCAGTGGCGACGCTGACATCCCGCAGGGACGCAGCTTCGCAGGCACGGGCAGCCGAGGCGGCCCGCGAAATCAGTGACCTCTGCCTGACGCTGCACCGGGCTCTGGTCCAGGACCGTATCTCACGGATGGAAATCTGA	MAMAQPERRGPLVLNIGEVLAQLSDDFPSMTASKIRFLEEKGLINPRRTPAGYRQYSDGDVERLRFVLSLQRDQYLPLKVIKDYLDAIDRGERPENLPPGVTVSPRIVSDELAAELQNKSRKLSEEQLRAESGASVPLVQSLLSFGLIGHTNGMFDEHALQVARACVQLEGHGLEPRHLRPFQAAAEREFGLVERAVATLTSRRDAASQARAAEAAREISDLCLTLHRALVQDRISRMEI				NA	NA	NA	NA	NA
D1-17_02496	477			hypothetical protein	ATGGTTGGCGGCGAACAGAACCACACCAGCGGTGATTACGGCACGGGCGTGGGCAGGGCTTCGGAGACAACCTCGATCAACCTCACTCCCGTCCGTGACGAGCCGACGATCGTGCCCAAGCTTTCGCCCGAGGAGAGGACTGCCGTAGAGGCATTGCCGGCCGGTTCGGCACTGCTGGTAGCGCACAGCGGCCCCAACGCGGGCGCCCGTTTCCTGCTTGACTCCGACGTCACCACGGCCGGACGGCACCCTGATGCGGATATTTTCCTTGACGACGTGACCGTCTCGCGCCGCCATGTCGAGTTCCGCCGCACCGCCCGCAGCTTCGAGGTCGTGGACACGGGCAGCCTCAACGGCACCTACGTCAACCATGACCGCGTGGATAGCTTGGAGCTGAAGTCCGGAAACGAAGTCCAGATCGGCAAGTTCCGACTCACCTTCTACCTGAGCCCTGCCCGCACAGCAGGACGCGTCTGA	MVGGEQNHTSGDYGTGVGRASETTSINLTPVRDEPTIVPKLSPEERTAVEALPAGSALLVAHSGPNAGARFLLDSDVTTAGRHPDADIFLDDVTVSRRHVEFRRTARSFEVVDTGSLNGTYVNHDRVDSLELKSGNEVQIGKFRLTFYLSPARTAGRV				NA	NA	NA	NA	NA
D1-17_02497	387	gcvH_2	COG0509	Glycine cleavage system H protein	ATGAGCAACATTCCCTCAGATCTGTCCTACACCGCCGAACACGAGTGGGTGTCCGCGCCGAATGCCGACGGAGTGGTCAGGGTCGGGATCACCGACTTCGCCCAGGACGCCCTAGGGGACGTCGTCTACGCCCAGATGCCCGAAGTCGGGACTACTGTCACAGCGAACGACGTGATCGGCGAGGTCGAGTCCACCAAGAGCGTCAGCGATATCTACGCTCCGGTGACCGGTGAAATTGTTGCCCGGAACGACGCGCTTGACACGGATTCTGCCCTCATCAATTCCGATCCGTACGGCGACGGCTGGCTCATCGAGGTCAAGCTCGCGGAACCTGATGCAGTGGACTCCCTGCTCAGTGCATCCGAGTACGAACAACAGGTAGGCTAA	MSNIPSDLSYTAEHEWVSAPNADGVVRVGITDFAQDALGDVVYAQMPEVGTTVTANDVIGEVESTKSVSDIYAPVTGEIVARNDALDTDSALINSDPYGDGWLIEVKLAEPDAVDSLLSASEYEQQVG				NA	NA	NA	NA	NA
D1-17_02498	873	mutM		Formamidopyrimidine-DNA glycosylase	ATGCCAGAACTACCCGAAGTAGCGGGCCTGACAGCCTTTCTCGGCACACACCTCCAGGGCGCCGTGCTGACGAAACTTCAGGTCCTTTCCGTGGCCGTCCTCAAGACCGCTGATCCGCCCTACACGGCCCTGGAAGGCCGCACGGTGGCCAGCGTCCGGCGCTTCGGCAAGTTCATTAGCCTGGAGGCCGGCGGCCTTTACTTCGTTTTTCACCTGGCGCGGGCGGGCTGGGTGCGTTACACGGAGTCTCCCTCGGAGGTGCCGCTGCGGCCCGGCAAAGGCCCCATCGCCGCACGGCTCACGTTTGCGGGACAGGACGGCGGCCATTTGGGGGTCGATCTCACCGAGGCAGGCACCAAGAAGAGTCTCGCTGTCTACGTGGTAACGGATCCCCATAAGGTACCGGGAATTGCGGCCCTTGGACCCGACCCGCTGGACCCGCGGTTCAGCGTCGAGAACCTGCAGGCCATCCTTGCTGCCAGTCCCCACCAGATCAAGGGCGTCCTGCGGAGCCAGAACGTGATGGCCGGAATCGGCAACGCCTACAGCGACGAGATCCTTCACGCTGCAAGGATCTCGCCGTACACCATGGCTCATTCGCTGGACAAGGAAACCGCGCGGGTCCTCCATACGGCCATTCATGACGTTCTCGGGGCCGCGGTGCAGGAGGCACTGGGCAAGGCTCCGGAAGACCTGAAGGACACGAAGCGCGGCGGCATGAACGTCCATGGCCGGGCCGGGCTGTCATGCCCGGTGTGCGGGGACACGGTCCGTGAAGTGTCCTTCGCGGACACAGCCCTCCAGTACTGCCCCACCTGCCAAACGAAGGGCAAGGTCCTGGCGGACCGCCGGACGTCCCGTTTCCTGAAATAG	MPELPEVAGLTAFLGTHLQGAVLTKLQVLSVAVLKTADPPYTALEGRTVASVRRFGKFISLEAGGLYFVFHLARAGWVRYTESPSEVPLRPGKGPIAARLTFAGQDGGHLGVDLTEAGTKKSLAVYVVTDPHKVPGIAALGPDPLDPRFSVENLQAILAASPHQIKGVLRSQNVMAGIGNAYSDEILHAARISPYTMAHSLDKETARVLHTAIHDVLGAAVQEALGKAPEDLKDTKRGGMNVHGRAGLSCPVCGDTVREVSFADTALQYCPTCQTKGKVLADRRTSRFLK				NA	NA	NA	NA	NA
D1-17_02499	132			hypothetical protein	GTGCACCGAATCCTGAAAGACGGAGGCATTCCCATCAAGATGCTCCAGGAAGACGAAGCCGGAGAAACTGCCATCCACAAGGACGCGGGTAACTGCTTCCTTGATGTGAAGGCCGCAAACTTCGGCTCCTGA	MHRILKDGGIPIKMLQEDEAGETAIHKDAGNCFLDVKAANFGS				NA	NA	NA	NA	NA
D1-17_02501	1551	der	COG1160	GTPase Der	ATGAGCGACACCACTCAAACGTCCGGCCGCTCAGGCGCCGGCGAAGATGAATACACGCCCACCGGCGCCGACCAAGTGGCCGAGCACCTTGCCGCCATGGACGATGACGAGGCCGAACTCCGTGCGGCCTCGCTCCGGGCCGGGCTGGAAGATTACGAACTCGACGACGAAGACGCCGCCCTTCTGAGCGGCCACTACGACGACGAGGACCAGGAAGGTCCGGTCAAGCTGGACCCCGTCCTGGCGATCATCGGCCGTCCCAACGTCGGCAAGTCCACCCTGGTTAACCGCATCCTCGGCCGCCGCGAGGCGGTCGTTGAGGACACGCCGGGTGTGACCCGTGACCGTGTGATGTACTCCGCCAACTGGAACGGGCGCAATTTCACTCTTGTGGATACCGGTGGGTGGGAGCACGATGCCCGCGGCATCCACGCCAGGGTGGCGGAGCAGGCGGAAATGGCCGTCGAGCTCGCCGACGCGGTGCTGTTCGTCGTTGACTCCGCAGTCGGCGCGACGGCGACCGATGAAGCAGTCATGAAGATGCTGCGCCGGAGCAGGAAACCGGTCATCCTGGTGGCCAACAAGGTGGACGATTTTGCGCAGGAGGCGGACTCCGCCGTCCTGTGGGGCCTCGGCTTCGGCGAGCCCTACCCCGTCTCGGCACTGCATGGCCGCGGCGTGGCGGACCTGCTGGACCACGTCATGGACACGCTTCCGGAATTCTCCACGATCGAAGGCGTCGAACGCTCCGGCGGCCCCCGCCGTGTGGCGCTGATTGGCCGCCCGAACGTGGGCAAGTCATCCCTCCTGAACAAGCTGGCCGGTTCCGAACGGGTGGTGGTGGACAACATCGCCGGTACAACCCGGGACCCGGTGGACGAATTCATCGAGCTCGGTGGACGCACGTGGCGATTCGTCGACACCGCTGGTATTCGGCGCCGCCAGCACATGGCGCAGGGCGCTGACTTCTACGCCTCCCTGCGGACCCAAAGCGCGCTTGAAAAAGCGGAGGTCGCCGTCGTGCTTCTCGCCGTGGACGAGGTGCTCAGCGAGCAGGACGTCCGCATCCTCCAGCTGGCCATCGAATCCGGTCGCGCCCTGGTGCTTGCGTTCAACAAATGGGACCTTCTTGACGATGAGCGCCGCCGTTACCTGGAGCGTGAAATCGAGCAGGACCTGGCCCACGTTGAGTGGGCTCCGCGCGTGAACATCTCAGCCAAGACCGGCTGGCATAAGGATCGTCTCGTGCCCGCACTGGATGTTGCTTTGGAGAACTGGGACAAGCGCATCCCGACCGGACGGCTCAACGCGTTCCTGGGCGAGCTCGTGGCGGCGCACCCGCACCCGGTGCGCGGCGGCAAACAGCCGAGGATCCTCTTCGGCACCCAGGCCTCCAGCCGCCCACCGAAGTTCGTCCTCTTCACCACTGGCTTCCTCGACCCGGGATACCGCCGGTTTATCACCCGCCGGCTTCGGGAAACCTTCGGCTTCGAGGGAACACCCATTGAAGTCAGCATGCGTGTCCGTGAAAAGCGGGGAAAGAAGCGTTAA	MSDTTQTSGRSGAGEDEYTPTGADQVAEHLAAMDDDEAELRAASLRAGLEDYELDDEDAALLSGHYDDEDQEGPVKLDPVLAIIGRPNVGKSTLVNRILGRREAVVEDTPGVTRDRVMYSANWNGRNFTLVDTGGWEHDARGIHARVAEQAEMAVELADAVLFVVDSAVGATATDEAVMKMLRRSRKPVILVANKVDDFAQEADSAVLWGLGFGEPYPVSALHGRGVADLLDHVMDTLPEFSTIEGVERSGGPRRVALIGRPNVGKSSLLNKLAGSERVVVDNIAGTTRDPVDEFIELGGRTWRFVDTAGIRRRQHMAQGADFYASLRTQSALEKAEVAVVLLAVDEVLSEQDVRILQLAIESGRALVLAFNKWDLLDDERRRYLEREIEQDLAHVEWAPRVNISAKTGWHKDRLVPALDVALENWDKRIPTGRLNAFLGELVAAHPHPVRGGKQPRILFGTQASSRPPKFVLFTTGFLDPGYRRFITRRLRETFGFEGTPIEVSMRVREKRGKKR				NA	NA	NA	NA	NA
D1-17_02502	729	cmk	COG0283	Cytidylate kinase	ATGGCGGGTATTGCAGTGACACAGGAACTTCTTGACACCATGCCGGCGCTCCGGCTGGGCCGCCCGCTGGTTGTTGCCATCGACGGGCCTTCGGGATCCGGCAAGTCGAGCGTGAGCAAGGAAGTGGCCCGGCGCCTTAACCTCGCCTACCTCGACACCGGCGCCATGTACCGTGCCCTGACCTGGTACTGCCTGGACCGCGCCACCGACCTCGGTGATGCCTCCGCCGTCGAGCTGGCCGCGGAAGACCTTCCGCTCGACATCAGCACCTGGCCCCACGAGGAGTACGTGCGGGTGGGCGGAACCGACGTCACCGAAGCGATCCGGGAGCCGAAAATCTCCTCAGCCGTCAGTGCTGTGGCCACTACGCTCGGCGCCCGGACCGAACTAATTCGCCGGCAGCGCGAGCTGATCGAAAAGCACCACCGCCGCATGGTGGTGGAAGGCAGGGACATCACCACCGTCGTCGTGCCCGGGGCCGAGGTCCGGATGCTGCTGACAGCCAGCGAAGAGGCTCGGCTGCGCCGGCGCGGAATCCAGCTCGGCGGCACGCAAAGCGCCGAGCAGCTTGCCGCCCAGGTGACCCAGCGCGACGCGAAGGACTCCACGGTTGTTAACTTCACCCAGGCCGCGGATGGCGTGGTGACCCTGGATTCCTCCGATCTGGATTTTGAACAGACCGTGGCGGCCGCGCTGCGGATTGTCACCAAAGTGATCAACCATGAGTGA	MAGIAVTQELLDTMPALRLGRPLVVAIDGPSGSGKSSVSKEVARRLNLAYLDTGAMYRALTWYCLDRATDLGDASAVELAAEDLPLDISTWPHEEYVRVGGTDVTEAIREPKISSAVSAVATTLGARTELIRRQRELIEKHHRRMVVEGRDITTVVVPGAEVRMLLTASEEARLRRRGIQLGGTQSAEQLAAQVTQRDAKDSTVVNFTQAADGVVTLDSSDLDFEQTVAAALRIVTKVINHE	PGPT0021220_383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
D1-17_02503	1110			hypothetical protein	ATGTCGGCATTCCGCAATCACGGCCGCGGGCACCTGCGCGGCCCTGTCGTTGTTCTCGGCACGGGCCTGCTCGGGACCAGCATCGGCCTCGGCCTCCGCGGCCGCGGCGTTGCCGTCTACCTCTCCGATCCGTCGCCCACCAACCAGGCCGTCGCCGTCGACATCGGTGCTGGCCAGCCCCTCACGTCGCTGGGCGGGGAGCAGCCCGAACTCGTTGTCGTGGCGTCCCCGCCGGACGTGACGGCCGATGTCGTGGAGCGTGCGCTGTCCGAATACCCTGGCGCCACCGTGGTGGACATTGCCAGCGTCAAGGCGGCCATCCAGGCGGAGCTGCGCCGCCGGAACGTGGATCTTGGACGCTACGTCGGCACCCATCCCATGGCCGGGCGCGAGAAGTCCGGGCCGGTGGCAGCCCGCGGGGAGCTCTTCACCTCGATGCCGTGGGTGGTCTGCCCCTCGGAGGAATCGTCCGCCGTGTCGCTGCAGGTTGCCCGGGCCCTCGCCACCGACCTTGGCGCCTTGGTATCGCAATTCTCTGCCGAAGAGCACGACGAAGCGGTGGCGCTGGTGTCCCATCTGCCCCAGGTGATGTCGTCGCTGCTGGCCAGTAGGCTGCAGGGCACGCCTCTGCCTGCGCTGTCCCTCGCGGGCAACGGGCTCCGCGACGTGACCCGGATTGCCGCCAGCGATCCGACTCTGTGGGTGCAGATCCTCGGAGCGAACGCCGGCAAGGTGGTGGAGATCCTGTACGGCGTGCGGGAAGACCTGAACAGGCTGATCGGCACGCTGGAGGACCCCGCAGCGCCCGGCGCACGGCTGGACCTTGCCCAGCTGATGAGCGAGGGCAACGCCGGCCAGGCGCGCATCCCGGGCAAGCACGGCGGCCCGCCCCAGGCCTACTCGTGGCTCACGGTGCTCGTGGACGACCGACCGGGGCAAATTGCCCGCCTGCTGACAGAAATCGGCGAGATCGGTGTCAACGTCGAGGACCTACGGCTGGATCACTCGTCCGGACAGAACGTCGGGATGGTGGAACTGTCCGTTCTGCCGAACAGGCATGATCTCCTCATCGAAGCCCTTAACGACCGTGGATGGCGGGTATTGCAGTGA	MSAFRNHGRGHLRGPVVVLGTGLLGTSIGLGLRGRGVAVYLSDPSPTNQAVAVDIGAGQPLTSLGGEQPELVVVASPPDVTADVVERALSEYPGATVVDIASVKAAIQAELRRRNVDLGRYVGTHPMAGREKSGPVAARGELFTSMPWVVCPSEESSAVSLQVARALATDLGALVSQFSAEEHDEAVALVSHLPQVMSSLLASRLQGTPLPALSLAGNGLRDVTRIAASDPTLWVQILGANAGKVVEILYGVREDLNRLIGTLEDPAAPGARLDLAQLMSEGNAGQARIPGKHGGPPQAYSWLTVLVDDRPGQIARLLTEIGEIGVNVEDLRLDHSSGQNVGMVELSVLPNRHDLLIEALNDRGWRVLQ				NA	NA	NA	NA	NA
D1-17_02504	1212			hypothetical protein	ATGACACAGGCGGGACGCCAGGGTTCACCACGTAACAGTTCAGGGCGTAAGGGTCCGGAGCGCGCTGCAGGGCAGGGCGGCCGGGGAGGCCAGCGCGGTACCGGATTCGGTTCAGGACAGCGCGATTTCTCCAAGGGAAGCGACCGGCCGTTCGGCGACCGTTCCCACCGGGCCCCCAAGCCCCGCGAGGAGCGCTTCGTCGATCCCGACGTTGCGGCTGCCGGCCAGGGCGGCAGGCTCTCCGCGGAGCGGAAGACCGGAGCCAAGCCGGCCGCACGCAAAACCGCGGCGCGCAAGCCTGGTGCCGGCAAGGCCCCGGGCACTCCCGGCGCGCTCAAGCCCAAGCCTCGCGCCGGAGCGCCCAAGACGGCCGCTTCGCGTGCCTTCGGAAGCGAACGCTTCGGGCAGAACCTCGGCCCTGTCCGCAAGCCTTCCCGGAAGCGCGGCCCGCGCGGCGACGTTCCGCAGTCGGAAGTGCACGACGCCGACGGCGTCCGCCTGCAGAAGGTCATGGCCTCCGCCGGCGTTGCCTCACGCCGCGTCTGCGAGGAGATGATCGCCGAAGGCCGCGTGGAGGTCGACGGCAAGGTCGTCACCGAGCTCGGCGTTCGTGTTGATCCCAAGACCGCCGTGATCCACGTGGACGGCCTGCGCATCCAGCTCGATGACACCCTGGTCTACATGGTGTTCAACAAGCCCAAGGGTGTTGTCTCCACCATGGAGGACCCTGAGGGACGTCCCTGCATCAGCGACTTCATCCGCAACAACCAGGGCGAACGGCTTTTCCATGTGGGACGCCTCGACGTCGCCACCGAGGGGCTGCTTTTGCTGACCAACGACGGCGAACTTGCCAACCGCCTGACACACCCTTCCTATGAGGTGCCCAAGACGTACCTGGTCCAGGTCCGCGGGCCCTTCCCCCAGGGTGTCGGCGCCCAGCTAAAGGCCGGCGTCGAGCTGGAAGACGGCATCGCCTCCGTAGACTCCTTCCGCCTTGTGGACTCGACCCCGGGCCACGTGCTGATCGAAGTGGTCCTGCACTCCGGGAAGAACCGGATCGTGCGCCGGCTCTTCGACGCGGTCGGTTTCCCTGTGCTGCGCCTGGTGCGCGTCAAGGTCGGCCCCATCGGGCTGGGGGACCAGCGCCAGGGAAGCATCCGCAACCTCGGCAAGCAGGAAGTCGGCCACCTGCTGGCATCCGTAGGGCTCTAG	MTQAGRQGSPRNSSGRKGPERAAGQGGRGGQRGTGFGSGQRDFSKGSDRPFGDRSHRAPKPREERFVDPDVAAAGQGGRLSAERKTGAKPAARKTAARKPGAGKAPGTPGALKPKPRAGAPKTAASRAFGSERFGQNLGPVRKPSRKRGPRGDVPQSEVHDADGVRLQKVMASAGVASRRVCEEMIAEGRVEVDGKVVTELGVRVDPKTAVIHVDGLRIQLDDTLVYMVFNKPKGVVSTMEDPEGRPCISDFIRNNQGERLFHVGRLDVATEGLLLLTNDGELANRLTHPSYEVPKTYLVQVRGPFPQGVGAQLKAGVELEDGIASVDSFRLVDSTPGHVLIEVVLHSGKNRIVRRLFDAVGFPVLRLVRVKVGPIGLGDQRQGSIRNLGKQEVGHLLASVGL				NA	NA	NA	NA	NA
D1-17_02505	660	scpB		Segregation and condensation protein B	GTGAGCAAGTCCCAACCTACGCTGCCGGATGACGCAGTTAATCTGGCGGCGCTTCCCGGCGGTGCCCGGGCTGCCCTGGAAGCCGTACTGATGGTGCTGGACCAGCCGGCGTCCGCCACGGATCTGGCCGCCGGGCTGGACCTCACCGTCGAAACGGTGGAGCAGCTGCTGCTGGACCTGCAGCGCGAGTATGACGGCTATACTGTTAAAGCCCCGGATATGGAAATCGCCAGTGATGCTGGCCTTACCTCCAGCCCCCGGGGTTTTGAATTGCGGAACGTCGCCGGTGGCTGGCGCATCTACTCCCGTGCAGAATTCGCCGACATCGTTGGAGCATTCGTCTTGGAGGGCCAGACAGCCAGGCTGACGCAGGCAGCGCTTGAAACGCTCGCCGTCATCGCCTACAGGCAGCCCGTTTCGCGGGCCAGGGTGTCTGCAATTCGAGGGGTCAATGTTGACTCTGTCGTACGGACCCTGACCCAGCGCGGGCTGATCGAGGATGCCGGAACTGATCCGGAATCGGGCGCCGTCCTGTACCGGACGACGTCGTATTTCCTTGAACGCATGGGGATCGGCTCGGTGGCGGAGTTGCCTCAGATCTCACCGCACCTTCCGGGGCTTGATGGAATCGAAGAGTTCTACGACGCCGGAAGAATGTAG	MSKSQPTLPDDAVNLAALPGGARAALEAVLMVLDQPASATDLAAGLDLTVETVEQLLLDLQREYDGYTVKAPDMEIASDAGLTSSPRGFELRNVAGGWRIYSRAEFADIVGAFVLEGQTARLTQAALETLAVIAYRQPVSRARVSAIRGVNVDSVVRTLTQRGLIEDAGTDPESGAVLYRTTSYFLERMGIGSVAELPQISPHLPGLDGIEEFYDAGRM				NA	NA	NA	NA	NA
D1-17_02506	846	scpA	COG1354	Segregation and condensation protein A	GTGTCTGGAGAGGGTGCCACGCCGGACGTTGCCGGGCAAGCCGTTAAGAAGCAGGGCTTTGAGGTCCGGCTCGCCAACTTCACCGGCCCGTTTGACCTCCTGCTGGGGCTGATCTCAAAGCACCAGCTGGACATCACCGAGGTGGCCCTGGCCACGGTGACCGACGAGTTCATCAAGTACATCCGGAACCTGCAGCAGCTGGGGGAGGAGTGGGCGCTTGACGAAGCCAGCGAGTTCCTGGTCATTGCTGCCACGCTGCTTGACCTCAAGGCCGCCCGGCTGCTTCCGGCCGGCGAAGTCGAGGACGAGGATGACATTGCCCTCCTGGAGGCACGGGACCTGCTGTTTGCCAGGCTCCTGCAGTACAAGGCGTTCAAGCAGGTTGCTGCCCTGATGGATGCCACCCTGGAGCTTGAGGCCCGCCGGTATCCGCGGCAGGTGGCGCTCGAGGAACATTTCGCGGCCATGCTTCCGGAACTCGTCTGGAAGCACACGCCGCAGCAGTTCGCCGTCCTGGCTGAAGCTGCGTTGAAACCCAGGGCGCCGGAGACCACCGAGGTGGGCCTGGCCCACCTCCACGGCAGCCCCGTCAGCGTCAAGGAGCAGGCGGAGCTGATCGGGCTGCGCCTGCAGGAGGGGAGGCCGCTGTCCTTCCGGGCACTGATTGCCAACGCGGAATCCACGCTGGTGGTGGTCGCGCGGTTCCTGGCCTTGCTGGAGCTGTTCCGCGACCAGGCGGTGGCCTTCGACCAGGTGGCGCCGCTCAGTGACCTGACCGTGCGGTGGACTGCCTCTGATGTGTGGAGCGGCGATCACCTGAGTGAAGAATATGAGGAGCAGACGTGA	MSGEGATPDVAGQAVKKQGFEVRLANFTGPFDLLLGLISKHQLDITEVALATVTDEFIKYIRNLQQLGEEWALDEASEFLVIAATLLDLKAARLLPAGEVEDEDDIALLEARDLLFARLLQYKAFKQVAALMDATLELEARRYPRQVALEEHFAAMLPELVWKHTPQQFAVLAEAALKPRAPETTEVGLAHLHGSPVSVKEQAELIGLRLQEGRPLSFRALIANAESTLVVVARFLALLELFRDQAVAFDQVAPLSDLTVRWTASDVWSGDHLSEEYEEQT				NA	NA	NA	NA	NA
D1-17_02507	900		COG1192	putative protein	GTGAGCAGCGAACAGGGTTCAGCAACTCTGGAAGGCACGGAACTCGACCTGGAAGACGCCGTGATGGGTCCCACAGGCCGCCCCCACCGCGATTTTCCGGAGCCCGCGCCGCTGTCCTCCCATGGACCGGCCCGCGTGATTGCAATGGTCAACCAGAAGGGCGGCGTTGGTAAAACCACGTCAACCATCAACCTTGCGGCAGCGCTTGCCGAATATGGCCGCCGCGTGCTGCTGGTGGACTTCGATCCCCAGGGCGCCCTGTCCGCGGGCTTGGGCGTCAATCCACACGAGCTGGACCTGACCGTGTACAACGTGCTGATGGACCGCAAGGTGGACATCCGAGAGGCGATCCACCAGACCGGCGTTGAAAACGTGGACCTGCTGCCCGCCAACATTGACCTCTCCGCTGCTGAGGTCCAGCTGGTCAACGAAGTGGCGCGCGAACAGGTGCTGGACCGCGCCCTGAAAAAGGTCGAGGACGACTATGACGTCGTTCTGATTGACTGCCAGCCGTCCCTAGGCTTGCTCACCGTGAACGCGCTGACCGCTGCCCACGGTGTCATCATTCCCCTGATCTGCGAGTTCTTTGCCCTCCGCGCTGTGGCGCTGCTCGTGGAAACCATCGACAAGGTCCAGGACAGGCTCAACCCGCGGCTGCAGGTGGACGGGGTGCTCGCCACGATGTACGACGCCCGGACCCTGCACAGCCGGGAAGTTATCTCCCGCCTCGTGGAAGCCTTCGGTGACAAGGTCTTTGAGACTGTCATCAAGCGTTCCATCAAGTTCGCAGACGCCACCGTCGCTGCAGAACCGATAACGAGCTATGCCGGCAACCACGTCGGTGCTGACGCCTACCGCCGCCTTGCCAAAGAACTCATTTCGCGCGGTGGCGCTCCCTAG	MSSEQGSATLEGTELDLEDAVMGPTGRPHRDFPEPAPLSSHGPARVIAMVNQKGGVGKTTSTINLAAALAEYGRRVLLVDFDPQGALSAGLGVNPHELDLTVYNVLMDRKVDIREAIHQTGVENVDLLPANIDLSAAEVQLVNEVAREQVLDRALKKVEDDYDVVLIDCQPSLGLLTVNALTAAHGVIIPLICEFFALRAVALLVETIDKVQDRLNPRLQVDGVLATMYDARTLHSREVISRLVEAFGDKVFETVIKRSIKFADATVAAEPITSYAGNHVGADAYRRLAKELISRGGAP				NA	NA	NA	NA	NA
D1-17_02508	1344	dctA2	COG1301	C4-dicarboxylate transport protein 2	ATGGCTTCTCAACGAGGAGAGTCGGCTGCACCGGTCAAGACCGGGCGCAAAAGGCTGGACAAATCCCACTACCTTTACATCGCCGTCATCGCCGCCGTTATCCTGGGCGCCCTGGTGGGGCTGCTGTTCCCGGAGGTCGGAAAATCCCTGAAGCCCCTCGGCGACGGGTTCATCAAGCTCATCAAGATGATGATCGCTCCGATCATCTTCTGCACCATCGTGCTGGGCATCGGCTCCATTGCCAAGGCCGCAACCGTCGGCAAGGTTGGCGGGCTTGCCCTGGGCTACTTCGTCCTGATGTCCACGTTCGCCCTCGGCATCGGCCTCGTGGTCGGCAACCTGATCCACCCGGGCGAGGGCCTGAAGCTGGCCCCGTACGATCCCAACAAGAAGGCTGAAACCGACAGTACTGTAGCCTTCCTTCTCGGCATTATCCCCGGCGACATCCCGGTCCTGCCCACCCTCTTCGCCGCCATCCTCGTTGGCTTTGCACTGCAGAAGATGGGCGCTCAGGGCGCCCCCGTGCTCAGGGCCATCGGCCACGGCCAGGCTGTGGTCTTCCGCATCCTCATCATGATCATGTGGCTGGCTCCGGTGGGTGCCTTCGGCGCCATCGCCGCAGTTGTCGGTGCCACCGGCTTCCAGGCAATCGTGAGCATGTTCACCCTGATGGCGGCGTTCTACATCACCTGCGCACTGTTTATCGTCATCATCCTCGGCGGCCTCCTGCAGGTTGTGGCTGGCGTGAACATCTTCAAGCTGATGAAGTACCTGGCACGCGAATACCTCCTCATCTTCTCCACCTCCTCCTCCGAGGCAGCACTGCCCCGCCTGATCGCCAAGCTCGAGCACCTGGGTGTCTCCAAGCCGGTCGTCGGCGTTACCGTCCCCACCGGATACTCCTTCAACCTCGACGGCACGGCCATCTACCTGACAATGGCCTCCCTGTTCGTGGCCAACGCCATGGGAACCCCGCTGGACCTCGGTGCCCAGGTCTCCCTGCTGATCTTCATGATCATCGCCTCCAAGGGCGCTGCCGGTGTCACCGGCGCAGGCCTCGCCACGCTGGCCGCGGGCCTGCAGGCCCACAAGCCCGAACTCCTGGGCGGCGTCGGCATGATCGTTGGCATCGACCGGTTCATGTCCGAGGCCCGCGCCCTCACCAACTTCACCGGCAACGCGGTGGCCACGGTCCTGATCGGCACCTGGGTCAAGGAGATCGACGGCGTCCAGGTCCGGCGCGTCCTCTCCGGCGAGGAACCCTTCGACGAGCAGACCATGATTGCCACGCACCACGGTGTCCAGGAGACCCCGGCGCAGCAGCCCGTTCCGGCCAACGCGTAA	MASQRGESAAPVKTGRKRLDKSHYLYIAVIAAVILGALVGLLFPEVGKSLKPLGDGFIKLIKMMIAPIIFCTIVLGIGSIAKAATVGKVGGLALGYFVLMSTFALGIGLVVGNLIHPGEGLKLAPYDPNKKAETDSTVAFLLGIIPGDIPVLPTLFAAILVGFALQKMGAQGAPVLRAIGHGQAVVFRILIMIMWLAPVGAFGAIAAVVGATGFQAIVSMFTLMAAFYITCALFIVIILGGLLQVVAGVNIFKLMKYLAREYLLIFSTSSSEAALPRLIAKLEHLGVSKPVVGVTVPTGYSFNLDGTAIYLTMASLFVANAMGTPLDLGAQVSLLIFMIIASKGAAGVTGAGLATLAAGLQAHKPELLGGVGMIVGIDRFMSEARALTNFTGNAVATVLIGTWVKEIDGVQVRRVLSGEEPFDEQTMIATHHGVQETPAQQPVPANA	PGPT0001450_863	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-17_02509	1647	dcuS_2	COG3290	Sensor histidine kinase DcuS	GTGATCCACCACTGGAGCATTGCCAAGCGGCTGTTCGTGGCCAACCTGCTGTTTGTGCTGGCGCTCACCCTTGTCGTGGGGACAGCCGCCTTCGTGGATGCCCGGGACCGCACCTATGCCGAGGCCGGACGCAGGATGGCCGCGGTGGCCGTGGCCGTTGCGGACAACCCCCTGGTACTGGAGTCCGCTGCTTCCCCTGACCCCTCCGCCCGGCTGCAGCCCTATGCCCTGCGCGTCATGGAGGACGCCGGCGCCGACTTCATCACGATCATGGCTCCGGACAGGACACGGTGGACCCACCCCCAAAGGGAGGAACTCGGCCAGCCTTACATCGGTTCGATCGGCGAAGCCCTGGAGGGAAAGGTTTTCACCGAGATCGCCACCGGCACGCTGGGTCCCTCCGTACGCACCATCGCGCCGGTCAAGGACGCCGGCGGTTCGGTCAAGGCCCTCGTGGCTGCCGGAGTCACGGTCAGGACAGTCGACGTCGCCGTGAGCGGGAGGATTCCCGCCCTTTTGGCCATCTCGGGTGGACTGCTCGTAAGCGGTTCGCTCACGTCCTGGCTGCTCGGGCGCTACCTCCGCCGCGTGACCCGCGGCTGGGGGCCCGAACAGCTTGCCCGGCTCTTTGCCTACTACGAATCCGTGCTGCACTCTGTCCGTGAGGGAATCATCCTCATCGACCCCAAGGGACGGGTGGTGATGTACAACGACCAAGCCGCTGAGCTGCTCGGCCTTGAACCGAAGGGCTCTGGCAGTGATCCCGCGGATGCTCCGTCACTCCGGGACCTTCCGCTGGCGCCAAGCCTGAAGGCCCTGTTCGAGTCGGGCCGGACCGTCCACGATGAGATCCATCTGACGGACTCAGGCGTCCTCGTGGTGAACCAGGGCCCGGCCGTGGACCCCGGCCCTCCGGCCGGACGGCCGCCCGCGGTCTTCGGCACTGTGGCCACGATCAGGGACCGTACGGAAATCGAATCCCTGGGAAGCGAACTGGAGACCATGCGGACCCTCTCCGATGCCCTCCGCGCCCAGACGCATGAGCACGCCAACCGGCTTCATACCATGGTGTCGCTCCTGGAACTCGGCCGGATGGATGAGGCGCTCGACTTCGCGACCCACGACCTTGAGCTGAGCCAGCAGCTCACGGACGACATGGTGGGCTCGGTGCAGGAACCCGTGATCAGCGCGCTCATCATGGGCAAGGCCGCAGAGGCCCATGAACGGGGCGTGGAGCTGATCGTCGAAGCATCCCCGGCGGCAGGGGCTGCGGGCATCGCCATCCAGGACCTCGTCACCATCCTTGGCAACCTCCTGGACAACGCAATTGACGCTGCCGCCGAGGCCGCCGCCCCGAGGCGTGTCCAACTGACGGTGACGTCCGAACACGGCGGGCTCGACATCACCGTCCAGGATTCAGGCAAGGGCATTGAGCCCGGTGCCGTCGACGACATTTTCCGCTACGGCTTCAGCACCAAGGAGGCAGGACCCTTTGGCCGCGGTCTCGGGCTGGCCCTAGTGAAGCAGGCGGTCCAGCGGCTGGCCGGTACGATGACGATCACCAGTTCCGGCAACGGCGGCGGCGCGCGCTTCAACGTCGTGCTTCCCCCGCCGGCCCCGCACAGCCGCCTGGAGGACCAAGCGTGA	MIHHWSIAKRLFVANLLFVLALTLVVGTAAFVDARDRTYAEAGRRMAAVAVAVADNPLVLESAASPDPSARLQPYALRVMEDAGADFITIMAPDRTRWTHPQREELGQPYIGSIGEALEGKVFTEIATGTLGPSVRTIAPVKDAGGSVKALVAAGVTVRTVDVAVSGRIPALLAISGGLLVSGSLTSWLLGRYLRRVTRGWGPEQLARLFAYYESVLHSVREGIILIDPKGRVVMYNDQAAELLGLEPKGSGSDPADAPSLRDLPLAPSLKALFESGRTVHDEIHLTDSGVLVVNQGPAVDPGPPAGRPPAVFGTVATIRDRTEIESLGSELETMRTLSDALRAQTHEHANRLHTMVSLLELGRMDEALDFATHDLELSQQLTDDMVGSVQEPVISALIMGKAAEAHERGVELIVEASPAAGAAGIAIQDLVTILGNLLDNAIDAAAEAAAPRRVQLTVTSEHGGLDITVQDSGKGIEPGAVDDIFRYGFSTKEAGPFGRGLGLALVKQAVQRLAGTMTITSSGNGGGARFNVVLPPPAPHSRLEDQA				NA	NA	NA	NA	NA
D1-17_02510	711	dpiA_1	COG4565	Transcriptional regulatory protein DpiA	GTGACAGACATCCGGGTCCTCGTGGTCGAGGACGAGCCGATCGCTTCAGCGGCGCATGCCGCCTACGTGGAAAGACTGGCCGGCTTCGTCCTGGCCGGCACAGCGCCGGACGGCCAGTCGGCGTTGCGGATGCTCACGGAATTTGCGGCCGCCGGAAGTCCTGTGGAGTTGGTGCTCCTGGACATGAACCTGCCGGACCTTCACGGCCTGGATATCGCGCGACGGATGCGTTCCGCCGGCCACTTTGCGGATATCATCGCAATCACGGCCGTCAGGGAACTCACCATCGTGCGCAACGCGGTGTCCATCGGCGTCGTGCAGTACCTCATTAAGCCCTTTACCTTCGCGACCTTCGCCGACAAACTGGCGAGCTACCGCCAGTTTCGTGAGCAACTGGCCTCAGGATCCGGCTCAGCCAAAGCCGGTGCCTCCCAGAGCGACGTGGACCAGGCCTTCGCCAGTCTCCGGGCACCGTCGGAACTGCCCCTGCCCAAGGGTCTTTCACCCTCCACGCTCGACGCCGTCCGAGACTTCATCCGGGAACAGCCCGGCGCGGTCTCAGCCACCGAGGTCATGACCGCACTGGGAATGTCCCGGGTCACCGCCCGGCGTTATCTGGAGTACCTTGCCGACGCCGGGACGGTCTCCCGTACGGCGCGGTACGGGGCGCCCGGACGACCGGAAAACGAGTACCGCTGGGCGCGTGCCTGA	MTDIRVLVVEDEPIASAAHAAYVERLAGFVLAGTAPDGQSALRMLTEFAAAGSPVELVLLDMNLPDLHGLDIARRMRSAGHFADIIAITAVRELTIVRNAVSIGVVQYLIKPFTFATFADKLASYRQFREQLASGSGSAKAGASQSDVDQAFASLRAPSELPLPKGLSPSTLDAVRDFIREQPGAVSATEVMTALGMSRVTARRYLEYLADAGTVSRTARYGAPGRPENEYRWARA				NA	NA	NA	NA	NA
D1-17_02511	1827	acsA_3	COG0365	Acetyl-coenzyme A synthetase	GTGTCCTGGACCCGGGGTCCCCGCCAGGCCGTGGACAGTCGGCGTGCGCCCCTGTTCGGCTGGTTCCCGGACGGCGTCCTTAACACCTCCTTTAACGCGCTGGACCGTCACGTTCTGGCTGGCCGTGGGGAACAGGATGCGCTTATTTATGATTCCGCGGTGCTTGGCAGCCGGCAGCGGTACACCTACGCGGAGCTCACGGATCTCGTGGCAAAGTTCGCCGGCGTCCTGCGGGCACGGGGAGTGGCGGAGGGCGACCGCGTCGTGATCTACATGCCGATGATCCCGGAAGCCGCCATCGCTATGCTGGCAACCGCGCGCCTGGGCGCCATCCACTCGGTGGTCTTCGGCGGCTTCGCTCCCAAGGAACTCGCCGCCCGCATCCGCGACGCTTCCCCTGTTGCGGTGGTTACCGCATCAGGCGGTGTGGAGCCCGCGCGCCGAGTGGAGTATCTGCCTGCAGTTAATGAAGCCCTCGCGCTCGCAGGAGCTGATGGAACCCCGGTTCTAGTCAAGGAGCGGGACGGCTTCGAGGCCCGGTGCGCCGACTTCGCCGGGTGGCTGGACTGGGACGACGAGATGGCCGTGGCCCGACCGGCGGCGCCTGTCGATGTCCGCGCCACTGACCCGCTATACATCCTGTACACCTCAGGCACCACCGGCAGCCCGAAGGGAGTGGTCCGCGATAACGGGGGGCACGCTGTTGCCATGGGCTGGACCATGGAAAACGTCTACGACGTCGGGCCGGGGGACGTCATGTGGACCGCTTCCGACGTCGGGTGGGTGGTGGGACACTCCTACATCGTGTACGGTCCCCTGATTGCCGGCGCCGCCACCGTGCTGTACGAGGGCAAGCCGGTGGGCACCCCCGATGCGGGAGCGTTCTGGCGTGTCATCCGGGACCACAAAGTGAATGTACTCTTTACCGCGCCGACCGCCCTGCGTGCAATTCGGAAGGCGGATCCCGGCGCCGCGTTGCTGGCCGGCTATGACTTGTCCAGCCTGAAGACGCTTTTCGTCGCCGGTGAGCGGCTGGACACCGACACCTATCACTGGGCCGCGGGAGCGCTGAGAGTCCCCGTGGTGGACCACTGGTGGCAGACCGAAACAGGTTGGGCCATCTGCGCCAATCCGAGGGGCCTGGATTCTCTTCCCATCAAACCTGGTTCACCTTCGGTACCGATGCCTGGATTCAACCTCAGCATCGTGGACGGTGCTGGCGTTGCGGTAGAGGCCGGAGTGGAAGGCAACATCGTGCTGGGGCTTCCGCTGCCTCCGGGTACGCTCACCACACTCTGGGGAGACGATGACCGCTACAAGTCGTCGTACCTCCAGGCCTTTGCCGGCTACTACGCCACGGGCGATTCCGGTTACCGGGACGAGGACGGGTACGTTTTCGTGATGGGGCGCACCGACGACGTGATCAACGTTGCCGGGCACAGGCTGTCTACGGGGGCAATGGAGCAGGTCATCGGACAGCATCCGGCAGTGGCTGAGTGCGCTGTCATCGGCGTCGCGGATCCCTTGAAAGGCCAGCGCGCCAGTGGCTATGTCGTGCTCAAGGCCGGGGTGGACGTGCCGGAGGCGGTCCTGGTTCGCGAACTGATCGCACTCGTCCGGCGGGACATCGGCGCCGTAGCCGATTTCAAGTCCGTGGCCGTGGTGGATGCGCTGCCCAAGACCAGGTCCGGGAAGATCCTTCGAAAGACGATGCGGCAAATCGCTGACGGCGATGACTACGTGGTCCCGTCCACCATCGAAGACCCCGAGGTGCTCGACCGGCTGATCGGAACGCTGCGGCCAGCGGACGCTGGCGGCGCCGGCTGA	MSWTRGPRQAVDSRRAPLFGWFPDGVLNTSFNALDRHVLAGRGEQDALIYDSAVLGSRQRYTYAELTDLVAKFAGVLRARGVAEGDRVVIYMPMIPEAAIAMLATARLGAIHSVVFGGFAPKELAARIRDASPVAVVTASGGVEPARRVEYLPAVNEALALAGADGTPVLVKERDGFEARCADFAGWLDWDDEMAVARPAAPVDVRATDPLYILYTSGTTGSPKGVVRDNGGHAVAMGWTMENVYDVGPGDVMWTASDVGWVVGHSYIVYGPLIAGAATVLYEGKPVGTPDAGAFWRVIRDHKVNVLFTAPTALRAIRKADPGAALLAGYDLSSLKTLFVAGERLDTDTYHWAAGALRVPVVDHWWQTETGWAICANPRGLDSLPIKPGSPSVPMPGFNLSIVDGAGVAVEAGVEGNIVLGLPLPPGTLTTLWGDDDRYKSSYLQAFAGYYATGDSGYRDEDGYVFVMGRTDDVINVAGHRLSTGAMEQVIGQHPAVAECAVIGVADPLKGQRASGYVVLKAGVDVPEAVLVRELIALVRRDIGAVADFKSVAVVDALPKTRSGKILRKTMRQIADGDDYVVPSTIEDPEVLDRLIGTLRPADAGGAG	PGPT0002270_636	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002270-prpE-K01908	NA	NA
D1-17_02512	660	rspR_5	COG1802	HTH-type transcriptional repressor RspR	ATGCGCGCCAGCGACAGGGCCTACGCGGCACTGCGCGACGACATCATCGAATGGCGGATCCTCCCTGGCACTGTCCTCGGTGAAGTTGAGCAGTCCGAACGCCTCGGAGTGTCCCGCACGCCGCTGCGGGAAGCGCTAAGCCGCCTCTCAGCGGAAGGGCTAACAACGACGGCGGGCGGCCGGGGCGTCGTCGTCACCGATATCTCGCTGGACGATATCGATGAGCTGTTCGAGCTCCGCGAAACCCTCGAAGGCAAGGCAGCCGCGCTGGCGGCGCAGCGGGGCGATCCGGCAGTTTTTCGGGAGCTGCAGGAAGAGTTGCTGGCGGCGCCCGCGCTGATCAGTGGCGCCGACCCTGCCCGTCACGACTACTACGGGCTCGTGGGTCGTCTCGATGAGGCCATCGATGCCGCCATCTCGAACTCCTACCTGGCTCAGGCCATGCGCAGCCTCCGTGTCCATCTGGTGCGGGTCCGCAGGCTGGCGGCCGACGACGCCGGCCGCCTCACTGCTGCCGCGGCCGAACATGCGGCCATAGCCGAGGCCATAGCCGAGGGCAACGCGCGGCTGGCTGAAGCGGCCACCACCGTCCACTTGCACCGCAGTCTTTCCCACGTCAAAGCCACTCACCCATCACTCTCGAAGGAGTCCCATGGTTAA	MRASDRAYAALRDDIIEWRILPGTVLGEVEQSERLGVSRTPLREALSRLSAEGLTTTAGGRGVVVTDISLDDIDELFELRETLEGKAAALAAQRGDPAVFRELQEELLAAPALISGADPARHDYYGLVGRLDEAIDAAISNSYLAQAMRSLRVHLVRVRRLAADDAGRLTAAAAEHAAIAEAIAEGNARLAEAATTVHLHRSLSHVKATHPSLSKESHG				NA	NA	NA	NA	NA
D1-17_02513	1521	prpD2	COG2079	2-methylcitrate dehydratase 2	ATGGTTAAGGAACACCACGTCCGCGTGTACAAAAGCGAGGAAAACCTTCCACGCGAGGACCAGCTGGCCCACAAGATCGCAGTAGTGGCAGCCGACCCCGTCGGCGTGACGGATGACGTCACGGAGATGGTGATTAACCGGATCATCGATAACGCCTCCGTCGCCATCGCATCCCTGAACCGGGCCCCGATCGTCGCCGCCCGGGCGCAGGCCCTCAGCCACGGTCCCTCCACGGGCGGCAAGGGCGCGAAGGTCTTCGGGATCGGTGAGCGCGTCTCCCCCGAGTGGGCCGCCTGGGCCAATGGGGTCGCAGTCCGGGAACTGGATTACCACGACACCTTCCTTGCCGCCGATTACTCCCACCCCGGCGACAACATCCCGCCGATCCTGGCCGTGGCCCAGCACGTTGGCTCCAGCGGCGCTGATCTTGTCCGCGGCATTGCCACCGGGTATGAGATCCAGGTGAACCTGGTCAAGGCGATCTGCCTGCACAAGCACAAGATCGACCACGTCGCGCACCTCGGCCCGTCCGCCGCGGCCGGCATCGGGACCCTGCTGGGGCTCGATGTCGAGACGATCTTCCAATCTGTCGGGCAGGCGCTGCACACCACCACCGCGACCCGCCAGTCGAGGAAGGGTGAGATCTCCACGTGGAAGGCCCACGCTCCGGCGTTCGCGGGCAAGATGGCAGTGGAAGCCGCGGACCGTTCCATGCGTGGCCAGACCTCCCCCGTGCCGATCTACGAAGGCGAAGACGGCGTGATCGCCTGGCTGCTCGACGGCCCCGACGCCTCCTACATGGTCCCGTTGCCCACACCGGGTGAGGCCAAGCGCGCCATCCTGGACACCTACACCAAGGAGCACTCGGCCGAGTACCAGGCCCAGGCCTGGATCGACCTGGCCCGCAAGCTGAACAAAGAACACCCTGAGGCCACGGACCCGGCCAACGTGCAGTCCGTGCTGATCAAGACCAGCCACCACACCCACTATGTCATCGGCTCCGGCGCGAACGATCCGCAGAAGTACAGCCCCACCGCATCGCGTGAGACGCTGGACCACTCCATCCCGTACATCTTCACGGTCGCACTGCAGGACGGGGCCTGGCACCACGTGGACTCCTACGCCCCCGAACGCGCCGCCCGCCCCGACACCGTGGAGCTCTGGCAGAAGGTCACCACCGAGGAAGACCCGGAATGGACCCGACGCTACCACTCCCTCGACATCTCCGAGAAGGCCTTCGGCGGGTCCGTGGAAATCACCCTCTCCGACGGCACCGTCATCCGCGACGAGATCGCTGTCGCCGACGCCCACCCGCTCGGCGCCCGGCCGTTCACCCGGGAACAGTACATCAACAAGTTCCGCACCCTCGCCGCCGGCCTCGTGGAGGAGGACGAAATCGCACGGTTCCTCGCCGCCGTCGAACACCTCCCCGAACTCGCCGCCGGGGAACTGGACCAGCTGAACATCACCGCCGCCCCCCGCGTCATCGACCTCGGTGCAGCACCAAAGGGGCTGTTCTAA	MVKEHHVRVYKSEENLPREDQLAHKIAVVAADPVGVTDDVTEMVINRIIDNASVAIASLNRAPIVAARAQALSHGPSTGGKGAKVFGIGERVSPEWAAWANGVAVRELDYHDTFLAADYSHPGDNIPPILAVAQHVGSSGADLVRGIATGYEIQVNLVKAICLHKHKIDHVAHLGPSAAAGIGTLLGLDVETIFQSVGQALHTTTATRQSRKGEISTWKAHAPAFAGKMAVEAADRSMRGQTSPVPIYEGEDGVIAWLLDGPDASYMVPLPTPGEAKRAILDTYTKEHSAEYQAQAWIDLARKLNKEHPEATDPANVQSVLIKTSHHTHYVIGSGANDPQKYSPTASRETLDHSIPYIFTVALQDGAWHHVDSYAPERAARPDTVELWQKVTTEEDPEWTRRYHSLDISEKAFGGSVEITLSDGTVIRDEIAVADAHPLGARPFTREQYINKFRTLAAGLVEEDEIARFLAAVEHLPELAAGELDQLNITAAPRVIDLGAAPKGLF				NA	NA	NA	NA	NA
D1-17_02514	906	mmgF	COG2513	2-methylisocitrate lyase	GTGCTGTATTCCAAGACCAGGCCGGAAGAAAAGCGCGTCCGCTTCCGTGAGCTGCTCGCCTCGGGCACCATCGCGCAGTTCCCCGGGGCGTTCAATCCGCTCTCTGCCCGGCTGATTGAGGAGAAAGACTTCGCCGGCGTGTACATCTCCGGCGCCGTGTTGGCCAATGACCTCGGCCTGCCGGACATCGGGCTGACCACGCTCACCGAGGTGGCCACCCGGGCCGGGCAGATCGCGCGAATGACCGACCTGCCGGCCATCGTGGACGCGGACACGGGGTTCGGCGAACCCATGAACGTGGCCCGCAGCGTTCAGGAACTGGAAAACGCCGGACTCGCCGGCTGCCACATCGAAGACCAGTTCAACCCCAAACGCTGCGGACACCTCGACGGCAAGAACGTCGTGGACCTCGAGACGGCCACCAAGCGCATCCGTGCCGCCGCGGATGCACGGCGGGACCCGAACTTCCTCATCATGGCCCGCACCGACATCCGTGCTGTGGAGGGGCTCGAGGCTGCCCAGCAGCGCGCGAAGGCGCTGGTGGAGGCTGGAGCGGACGCCATCTTCCCGGAAGCCATGGCCACGCTGGAGGAGTTCAAGGCTATCCGCGACGCGGTGGACGTCCCGATCCTGGCCAACATGACGGAGTTCGGCAAGAGTGCCCTGTTCACAGTGGACGAGCTGCAAAGTGTCGGCGTCAATATGGTGATCTACCCCGTGACGCTGCTCCGTAGTGCCATGGGCGCTGCTGAGCGTACGCTGGACTCAATCAGGGCGGACGGAACGCAGGAGGCACAGGTAGGAAACATGCTCACGCGTGCGCGGCTGTATGACCTCGTGGACTACGAGGCCTACAACCGCTTCGATGCCGGCGTCTTCAATTTCCGGATTCCCGGAGCCGACTGA	MLYSKTRPEEKRVRFRELLASGTIAQFPGAFNPLSARLIEEKDFAGVYISGAVLANDLGLPDIGLTTLTEVATRAGQIARMTDLPAIVDADTGFGEPMNVARSVQELENAGLAGCHIEDQFNPKRCGHLDGKNVVDLETATKRIRAAADARRDPNFLIMARTDIRAVEGLEAAQQRAKALVEAGADAIFPEAMATLEEFKAIRDAVDVPILANMTEFGKSALFTVDELQSVGVNMVIYPVTLLRSAMGAAERTLDSIRADGTQEAQVGNMLTRARLYDLVDYEAYNRFDAGVFNFRIPGAD	PGPT0001555_490	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
D1-17_02515	1152	gltA		2-methylcitrate synthase	ATGGCTGAAGAAGAGATCAAGAAGGGCCTCGCCGGCGTCGTGGTGGATTACACCGCCGTCTCCAAGGTCAACCCCGATACGAACTCGCTGCTGTACCGGGGCTATCCGGTCCAGGAACTGGCAGCGCGGTGCAGCTTCGAGGAAGTCGCCTATCTGCTCTGGAACGGAGAGCTCCCCGACTCCGAGGAGCTGGCCGCTTTTACCCGGCGGGAACGGGCAGGCCGTGCAATGGACCCCGTGGTGAAGCAGGTGGTGGACGCCCTGCCCCTCTCAGCCCACCCAATGGATGTCTGCAGGACAGCAGCCTCAGTGATGGGCGCGCGCCATGAGCTGGCAGAAGATTCCTCCCGGGAGGCCAACATGGCCAAGGCCGTGGACCTGTTCGCAGCCATGCCCGCGGTCGTGGCCTACGACCAGCGCCGCCGCCGCTCGGCGGGACGCCCCATTGAACCAGTGGAGCCGCGCGACGACCTCGGCTACTCCGCAAATTTCCTGTGGATGTCCTTCGGCGAGGAGGCCGTGCCGGAGGTCGTCGAGGCCTTCAACGTCTCCATGATTCTTTATGCGGAGCACTCGTTCAACGCCTCCACCTTCGCAGCCCGGGTCATCACGTCCACCCTGTCGGATCTCCACTCGGCCGTGACCGGCGCGATCGGAGCGCTTAAGGGCCCCCTGCACGGCGGCGCCAACGAAGCCGTCATGCACACCTTCGAGGAGATCGGCATCCGGGCCGAGGAATCCCTCGAGGAGGCCGCAGCACGGGCCAGGGCCTGGATGGAACATGCCCTGGCCAACAAGAAGAAGGTGATGGGCTTCGGGCACCGTGTGTATAAGCACGGCGACTCCCGCGTGCCCACTATGAAGGCGGCCCTGGACAAGATGATCGCCCACTACGGCCGCGCCGAGCTGCTGGGACTCTACAACGGTCTCGAAACCGCGATGGACGAGGCCAAGGGCATCAAACCGAACCTCGACTATCCCGCGGGGCCCACCTACCACCTCATGGGTTTCGACACACAGATGTTCACCCCGCTGTTCGTCGCGAGCCGCATCACTGGCTGGACCGCCCACATCATGGAGCAGATGGAATCCAATTCCCTGATCCGCCCGCTGAGCGCGTACAACGGTCCGGAGGAACGGCATTTGCCGTAA	MAEEEIKKGLAGVVVDYTAVSKVNPDTNSLLYRGYPVQELAARCSFEEVAYLLWNGELPDSEELAAFTRRERAGRAMDPVVKQVVDALPLSAHPMDVCRTAASVMGARHELAEDSSREANMAKAVDLFAAMPAVVAYDQRRRRSAGRPIEPVEPRDDLGYSANFLWMSFGEEAVPEVVEAFNVSMILYAEHSFNASTFAARVITSTLSDLHSAVTGAIGALKGPLHGGANEAVMHTFEEIGIRAEESLEEAAARARAWMEHALANKKKVMGFGHRVYKHGDSRVPTMKAALDKMIAHYGRAELLGLYNGLETAMDEAKGIKPNLDYPAGPTYHLMGFDTQMFTPLFVASRITGWTAHIMEQMESNSLIRPLSAYNGPEERHLP	PGPT0001480_614	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659	NA	NA
D1-17_02516	492			hypothetical protein	ATGACCTCCGTGCCCGTCACCCTCTGTTTCCTCCTCCGGGAGCGCCCCGGCAGCGGGCCCGAGGTGCTGCTGGGACTGAAAAAGACCGGGTTCGGCACCGGCAAGATCGTGGGCCTCGGCGGTCACGTCGAAGCGGGGGAGACCGACGCCCAGGCAGCCTGCCGCGAGGTGCTGGAGGAAGCGGGAATCGTGGTGCTCGAGGACGACCTGGCCGACGCCGGTACCGTGGAGTTTGTTTTTCCCGCACGGCCCGATTGGAATATGTCCACGCGACTGTTCACCGCCCGGCGGTGGATGGGTGATCCGGTGGAAAGTTCCGAGATCATTCCCGAGTGGTTCCGAACGTCCGCACTGCCCCTGGACCGGATGTGGCAGGATGCCGAGCACTGGCTTCCCGTGGCATTGGACGGAAGCGTGGTGGATTCCGTCATCACTTTGAATGCGGATAACGAGACGGTTGCTTCCGCCCAATACTCCTACCGAGGTATGTAG	MTSVPVTLCFLLRERPGSGPEVLLGLKKTGFGTGKIVGLGGHVEAGETDAQAACREVLEEAGIVVLEDDLADAGTVEFVFPARPDWNMSTRLFTARRWMGDPVESSEIIPEWFRTSALPLDRMWQDAEHWLPVALDGSVVDSVITLNADNETVASAQYSYRGM				NA	NA	NA	NA	NA
D1-17_02517	1053	xerD	COG4974	Tyrosine recombinase XerD	ATGACGGCAGGGACGACTGCAGCTGAGTCAGCGCCTGCCCCGGGCCCGCCGCCTGCGGATCCCCCGGAGCAGGCTCCGCAGCGCCCGGGCCCCGACGCCGCCCGTGCCGAACGTCCCCGGACTGCGATTGACCGCGCGGTGACCGATTATCTCCAGCATATGGGCGTCGAGAGGGGCCTCGCGGCCAACACGTTGTCCGCCTACCGCCGCGACCTTGCCCGGTACTCCAACTACCTTGCCGCCGCGGGACTCAGCAGCCCCGGCGATGTGACACGGTTCCACGTCACCGGCTTCGTCCGGGCATTGTCGGATGGCTCGGACGGCGGAACGGCGCTGGGCGTGCGCTCGGCGGCGCGCACCGTGGTCGCCGTCCGCGGACTGCACAAGTTTTGGGCATTGGAGGGCATGACGACGGCGGATCCGGCCAGTGACGTCCACCCGCCGATGCCGGGGAGGCGGCTTCCCAAGGCCATCACCGTTGATGAAGTCACCCGCATCCTCGAAGCCGCGGGTGCCGACACAGCCACGGGTCTCAGGGACCGGGCGCTGCTCGAATTCCTCTATTCCACCGGTGCCCGCATCAGTGAAGCCGTGGGACTCGACGTCGATGACATTTCGGTGCAGCCGGCCTCCGCCGGGCCCGCCATCGTGCGGCTGTTCGGCAAGGGCTCAAAGGAGAGGATGGTCCCGCTTGGCTCCTATGGCGCCCGGGCGCTGGACGCCTACCTGGTCCGCGGCCGGCCGCTGCTGGCAGCCAAGGGCAAGGGAACGCCGGCGCTCTTCCTCAATGCACGGGGCGGACGGATCAGCCGGCAGAGTGCCTGGACCATCCTGAAGGCAGCAGCCGACAAGGCCAACATCACCAAGGATGTGTCCCCGCACACGCTGCGCCATTCTTTCGCCACGCACCTGCTCGAGGGCGGGGCCGACGTCCGGGTGGTCCAGGAACTGCTGGGCCACGCCTCCGTCACCACCACGCAGGTGTACACGCTCGTGACGGCGGATACGCTCCGGGAAATCTACGCCGCCGCCCATCCGCGGGCGCTGGGGTAA	MTAGTTAAESAPAPGPPPADPPEQAPQRPGPDAARAERPRTAIDRAVTDYLQHMGVERGLAANTLSAYRRDLARYSNYLAAAGLSSPGDVTRFHVTGFVRALSDGSDGGTALGVRSAARTVVAVRGLHKFWALEGMTTADPASDVHPPMPGRRLPKAITVDEVTRILEAAGADTATGLRDRALLEFLYSTGARISEAVGLDVDDISVQPASAGPAIVRLFGKGSKERMVPLGSYGARALDAYLVRGRPLLAAKGKGTPALFLNARGGRISRQSAWTILKAAADKANITKDVSPHTLRHSFATHLLEGGADVRVVQELLGHASVTTTQVYTLVTADTLREIYAAAHPRALG	PGPT0022000_1601	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
D1-17_02518	663			hypothetical protein	ATGCCCGGTATTTCTGAAAACATCCCTGCTGCACGGCAGGTGTCGGATGAGCCGAGCCCGCGCCGTCTGCTGTCCACGGAGAAGGTCTACGAGGGTAGGATCTGGGACGTCGTCAGTGACAGCTTTGAGCTCACCGAGGACGGCAGCCCCTTGGTCCGTGACTACATTGACCACCCCGGAGCGGTGGCCGTGCTGCCAATGAACGACGCCGGCGAGGTGCTGCTGATCAAGCAGTACCGGCATCCGGTAGGAATGGACCTGTGGGAGATTCCGGCTGGCCTGCTGGACGTCGAAGGCGAGGACTTTGTGGCCGGTGCCGCGCGTGAACTGGCGGAGGAAGCGGACCTCGTGGCCGGCACGTGGAACGTCCTCGCCGACTTTTTCAACTCGCCCGGGTCCTCCAGCGAAGCCATCCGCATTTATCTGGCCCGGGACCTGACGGAAGTTCCGCACCATGAGCTCCACGTCCGCACGGACGAGGAAGCCGAGATCGAGCTGCATTGGCTTCCGCTCGAAGAGGCCGTGGCCGCAGTCCTGGAGGGGCGCCTGCATAACCCTTCTGCCGTCGTCGGAGTCCTCGCCGCAGCAGCGGCCAAAGCGGAGGGCTTTAGCGGACTGCGCCCCGCTGATGCACCTTGGCCGGCCCATCCCAGCCAGCGCTGA	MPGISENIPAARQVSDEPSPRRLLSTEKVYEGRIWDVVSDSFELTEDGSPLVRDYIDHPGAVAVLPMNDAGEVLLIKQYRHPVGMDLWEIPAGLLDVEGEDFVAGAARELAEEADLVAGTWNVLADFFNSPGSSSEAIRIYLARDLTEVPHHELHVRTDEEAEIELHWLPLEEAVAAVLEGRLHNPSAVVGVLAAAAAKAEGFSGLRPADAPWPAHPSQR				NA	NA	NA	NA	NA
D1-17_02519	1788	pyrG	COG0504	CTP synthase	ATGATAGGCTCGAATTCCGTGGTGCAGCGATCAAATTCCCGTATAAATTCCCGGTTCCCGGGCTCGTCCAAGACGACCAAACACATCTTCGTCACCGGCGGTGTGGCGTCCTCGCTCGGTAAGGGACTGACGGCTTCCAGCCTCGGCCACCTGCTGCGGGCACGCGGTTTGTCTGTAACTATGCAGAAGCTCGATCCCTATCTGAACGTGGATCCGGGCACGATGAACCCCTTCCAGCACGGTGAGGTCTTCGTCACGGACGACGGCGCGGAGACCGACCTCGACATCGGACACTACGAGCGCTTCCTCGACGAGAACCTCGAAGGCTCAGCCAACGTGACCACAGGCCAGGTCTACTCCACGGTGATCGCCAAGGAACGCCGCGGCGAATACCTCGGAGACACCGTCCAGGTCATTCCGCACATCACCGATGAGATCAAGCGCAGGATGCGTCTTCCCGCCGAGGGCAAGAACGCGCCGGATGTCATCATCACCGAGATCGGCGGAACCGTCGGCGACATCGAATCTCAGCCGTTCCTTGAGTCGGCGCGCCAGGTCCGCCAGGACGTCGGCCGCAACAACGTCTTCTTCCTGCACGTCTCCCTGGTGCCGTACATCGGACCCTCGCAGGAACTCAAGACCAAGCCCACGCAGCACTCTGTGGCAGCCCTGCGCTCCATCGGCATCCAGCCCGAAGCGATCGTGATCCGCTCGGACCGCGAAGTTCCCGAGGCCATGCGCGAAAAGATCGGCCGCATGTGCGACGTCGACATCGACGCCGTGGTCAACGCCGCCGACGCCCCGAGCATTTACGACATCCCCAAGACTCTGCACTCGCAGGGCCTGGATTCCTACATAGTCCGGGCGCTCGACCTGCCGTTCAAGGACGTCGACTGGACCAGCTGGGACAAGCTCCTCGAAGCCGTCCACAACCCCAAGCATGAGGTTGAAATCGCCCTCGTGGGCAAGTACATTGACCTCCCGGACGCCTACCTTTCCGTGACGGAGGCCCTGCGCGCCGGCGGCTTCGCCAATGACGCCAAGGTCAAGATCCGCTGGGTGCCGTCCGACGAATGCGAAACACACGAAGGCGCTGCCAGGTCGCTGGACGCCGTGGATGCCATCTGCGTGCCGGGAGGGTTCGGCATCCGCGGACTCGAAGGCAAGCTCGGCGCCCTGAAGTACGCCCGCGAAAGCCGTCTGCCGGTCCTGGGCCTGTGCCTTGGCCTGCAGTGCATGGTGATCGAGTACGCGCGCAACGTGGTGGGCCTTGAGGGCGCTTCTTCCAGCGAATTTGAGCCTGACTCGAAGTACCCGGTCATTGCCACGATGGAAGAGCAGTTGGAATACGTCGAGGGCCGCGGCGACCTGGGCGGCACCATGCGCCTCGGCCTGTACGAGGCCAAGCTGGACGAGGGCTCGGTCATCGCCGAAACCTACGGCACCACCACTGTCAGCGAACGCCACCGCCACCGGTACGAGGTGAACAACAAGTACCGCGACCAGATTGCCGCCCGGGGCCTCGTGTTCTCCGGCACGTCGCCGGATGGCAAGCTCGTCGAGTACGTAGAACTGCCGCGCGAAGTCCACCCGTACTACGTCGCCACGCAGGCCCACCCCGAACTGAGCTCGCGTCCGACGCGTCCGCACCCGCTCTTCGCCGGGCTGGTGAAGGCTGCCCTGGACCACCAGAGCAGCGCGAACAGGAACCCGGCTGCTCCGGTGGCCGGGTCCGCAGCGCAGCAGGAACCAGCGGCGGAGGCGGCCTCCGGGGCGACAGCCAGCTAG	MIGSNSVVQRSNSRINSRFPGSSKTTKHIFVTGGVASSLGKGLTASSLGHLLRARGLSVTMQKLDPYLNVDPGTMNPFQHGEVFVTDDGAETDLDIGHYERFLDENLEGSANVTTGQVYSTVIAKERRGEYLGDTVQVIPHITDEIKRRMRLPAEGKNAPDVIITEIGGTVGDIESQPFLESARQVRQDVGRNNVFFLHVSLVPYIGPSQELKTKPTQHSVAALRSIGIQPEAIVIRSDREVPEAMREKIGRMCDVDIDAVVNAADAPSIYDIPKTLHSQGLDSYIVRALDLPFKDVDWTSWDKLLEAVHNPKHEVEIALVGKYIDLPDAYLSVTEALRAGGFANDAKVKIRWVPSDECETHEGAARSLDAVDAICVPGGFGIRGLEGKLGALKYARESRLPVLGLCLGLQCMVIEYARNVVGLEGASSSEFEPDSKYPVIATMEEQLEYVEGRGDLGGTMRLGLYEAKLDEGSVIAETYGTTTVSERHRHRYEVNNKYRDQIAARGLVFSGTSPDGKLVEYVELPREVHPYYVATQAHPELSSRPTRPHPLFAGLVKAALDHQSSANRNPAAPVAGSAAQQEPAAEAASGATAS	PGPT0021215_853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
D1-17_02520	1563	recN	COG0497	DNA repair protein RecN	ATGCTTGAAGAACTGAGAATCCGAGATTTGGGCGTCATCACTGACGCTACCCTGCCCCTGGGCCCCGGCCTCAGTGTGGTGACCGGCGAGACCGGCGCCGGTGTGGAACTGCTGCTGTCACGCCGCCTGGGAGCGGACGGACGCAGCCGCGCTTTCCTCGGCGGACGTGCGGCCCCGGTGGGGGTGCTGGCCGAAATCGGCGAATCGCTGGTAGTGGTGCACGGCCAGTCGGACCAGATCCGGCTTAAAAGCGCCACAGCCCAGCGCGAAGCCCTGGACAAGTTTGCCGGGGATACCCTGGCCGCCGTCCTCGGCGGATATCAGAAGCTGTATGCCTCCTGGAAGGCAAGCCAGGTCGAACTGGACATGCTCCGGAATGCGGCGCGCGACCGCCTGCGCGAGGCGGAATCGCTGGAGATCTCCCTCGCGGAAATCGACGCCGTGGACCCGCAGCCGGGGGAGGACGACGCCCTCAAGGCCGAGGCGGTGAAGCTCGCCAATGTTGAGGAGCTCCGCATCGCTGCCACCACGGCCCATCAGGCACTGATTGCCGAGGACTTCGGCGAGGCCGGCGACGCCACCACGCTCGTGGACACTGCCAAGCGGACGCTCGAACACGTGGCCGAGCACGACGAGGAACTTGGTTCCGCTGCGGCCCGCCTCGCCGAGGTGGGCTTCCTGCTCAACGACATCGCCACAGAGCTTGCCAGCTATCAGGCCGGACTGGATTCGGAAGGCCCGGAGCGGCTGGCCGAGATCGAGGAACGCCGGGCAGCCTTGGCGAAGCTGGTCCGCAAATATGCGCCCAGCATCGACGAGGTTCTGGAGTGGGCCGAAAAGGCGCGTGTCCGCTTCGATGAGCTGCAGGACGATTCCACCCGGATTGAAATTCTGGAAGGCGACGTTGCCAAGGCCCAAGCCGAGCTCACGAAGCAGGCTGCAGCGATCAGCAAGATCCGTGCCAAGGCTGCCAAGAACCTCTCGGCCCGGGTCAGCGGGGAGCTGAAGGCCCTCGCCATGGCCGATGCCACCCTGGTCATCAACCTCGATCCCGCCGGCCAGCTCGGACCCCACGGCGCCGATGAAATCTCATTCCTGCTGCAGCCGCACTCGGGCGCACCCGCACGGCCGCTGGGCAAGGGAGCGTCCGGCGGTGAGCTTTCCCGCGTCATGCTGGCGATTGAGGTCGTACTGGCGGCCGTTGACCCGGTTCCCACGTTCGTCTTCGATGAGGTGGATGCAGGGGTGGGAGGCCGGGCCGCCGTCGAGATCGGCCGCCGGCTGGCCATGCTGGCCCGCCACGTCCAGGTGCTCGTTGTCACCCACCTGCCGCAGGTCGCTGCCTTCGCGGACCAGCACATCCGGGTGACCAAAACCTCGGTCCGCGGCTCCAACGGCACCACCGCCACCGGATTTACCTCCAGCGACGTCCAGCTGCTGGATGAGCCGGAGCGGGTCCGGGAGCTGGCGCGAATGCTCGCGGGCCAGGAGGACTCCGAAACGGCGCAGGCCCACGCGCAGGAACTGCTGGACGACGCCCGGCTCTTGCCGCAGCAGGCATGA	MLEELRIRDLGVITDATLPLGPGLSVVTGETGAGVELLLSRRLGADGRSRAFLGGRAAPVGVLAEIGESLVVVHGQSDQIRLKSATAQREALDKFAGDTLAAVLGGYQKLYASWKASQVELDMLRNAARDRLREAESLEISLAEIDAVDPQPGEDDALKAEAVKLANVEELRIAATTAHQALIAEDFGEAGDATTLVDTAKRTLEHVAEHDEELGSAAARLAEVGFLLNDIATELASYQAGLDSEGPERLAEIEERRAALAKLVRKYAPSIDEVLEWAEKARVRFDELQDDSTRIEILEGDVAKAQAELTKQAAAISKIRAKAAKNLSARVSGELKALAMADATLVINLDPAGQLGPHGADEISFLLQPHSGAPARPLGKGASGGELSRVMLAIEVVLAAVDPVPTFVFDEVDAGVGGRAAVEIGRRLAMLARHVQVLVVTHLPQVAAFADQHIRVTKTSVRGSNGTTATGFTSSDVQLLDEPERVRELARMLAGQEDSETAQAHAQELLDDARLLPQQA				NA	NA	NA	NA	NA
D1-17_02521	1056	ppnK	COG0061	NAD kinase	ATGAGCAGGCGTGTACTGGTACTTGCCCACACCGGCCGCGAAGAATCCCTGAAGGCTGCCTGGGAGGCCTGTGCCCAACTGCACGCATCCGGCATCATTCCCGTGATGCAGCAGTCCGAGCTGGAGGACATGGAGGGGTTCTTCGGCCGGATGGAGCACCCCGTGGAAATCCTGCACGACCACGTCCAGCTGCCCGACGTCGAACTCGTCATGGTACTCGGCGGCGACGGCACCATTCTTCGGGCGGCTGAACTGGTCAGGGAGGTGGACGTCCCCCTGCTCGGAGTCAACCTGGGGCACGTGGGGTTCCTCGCCGAAAGCGAGCGGGCAGACCTCGCCCAGACCGTCGAATGGATCGCCAGCCGTGACTACTCGGTGGAAGAGCGGATGACCATCGACGTCCAGGTCTGGGTCCGCGGCCAGAAAATCTGGCATACCTGGGCGCTCAATGAGGCAGCCATCGAAAAAGGCAACCGTGAGCGGATGCTTGAGGTGGTCACCGAAGTGGATGAGCGTCCCCTGAGCTCCTTCGGCTGTGACGGTGTCGTGCTTGCCACGCCCACGGGATCGACAGCCTACGCCTTCTCGGCCGGCGGCCCGGTCGTGTGGCCTGAGGTGGAGGCCCTCGTGATTGTTCCCATCAGTGCGCACGCGCTCTTTACGAAGCCCCTGGTGGTTTCCCCGCGCTCCAGGCTGGCCGTGGAAGTGCTGAATCGGACGGATGCCCAGGGTGTGCTGTGGTGCGACGGCCGACGCTCCGTGGATCTGCCGCCCGGCGCCCGAGTGGAAGTCACCAGGTCCGCCACCCCTGTCCGCCTGGCCCGTACACACCAGACGCCATTCTCTGCCCGGCTGGTCCGCAAGTTCCAGCTGCCCATCCACGGCTGGCGCGGCCCCGTGCCGCAAGCCGAAGCCGTCCACACAGGCCCGATACCCTTAGTCCGCACACCGCGTCCCATGGCCCCCCTGCACCCGCCGCAGCCCGGCGATCTGCCGCCCATTCCGCAGCCGTACGCCGAACCTGCCGAAGATTCCGAGCCTCCAACCGGAAAGTGA	MSRRVLVLAHTGREESLKAAWEACAQLHASGIIPVMQQSELEDMEGFFGRMEHPVEILHDHVQLPDVELVMVLGGDGTILRAAELVREVDVPLLGVNLGHVGFLAESERADLAQTVEWIASRDYSVEERMTIDVQVWVRGQKIWHTWALNEAAIEKGNRERMLEVVTEVDERPLSSFGCDGVVLATPTGSTAYAFSAGGPVVWPEVEALVIVPISAHALFTKPLVVSPRSRLAVEVLNRTDAQGVLWCDGRRSVDLPPGARVEVTRSATPVRLARTHQTPFSARLVRKFQLPIHGWRGPVPQAEAVHTGPIPLVRTPRPMAPLHPPQPGDLPPIPQPYAEPAEDSEPPTGK	PGPT0013490_1220	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
D1-17_02522	813	tlyA	COG1189	16S/23S rRNA (cytidine-2'-O)-methyltransferase TlyA	ATGACCAGACTCGACCAGGTGCTCGTCACCCGGGGGCTGGCGCGGTCCCGCACGCATGCGGCCCGGCTCATCGCGGACGGCAAGGTCTCCTCCGCCGGTGACGTTCTCGCGAAGGCGTCGCTTCAGATTGCCGAAGACCGCGAGCTCGTCGTCGCCGAGGATGCGACAGACACCTACGTCAGCCGGGCGGGCCATAAGCTGGCCGGCGCCCTCGACGCGTTTCCCGAGATCCCGGTCGGCGGCAAACGGTGCCTCGATGCCGGAGCGTCCACGGGAGGGTTTACCGACGTCCTGCTGCGGCGGGGCGCCGCGCAGGTGGTGGCGGTCGACGTCGGGCACGGACAGCTGGTGCCGCAGCTCAGGAGTGACCCCCGCGTCAGCGTTCATGAAGGGCTAAATGTCCGGTACATGGAACCTGACCACATCGGGGGAGCGGCTGACCTGACGGTGGCCGACCTGTCCTTCATTTCGCTGACGCTCGTCATGGCGCCGTTGGCATCCTGCACGCGTCCCGGCGGCGACCTTGTGCTCATGGTCAAGCCTCAGTTTGAAATCGGCAAGGAACGGCTGGGACGCACCGGCGTGGTCACCTCGGAGCGCGAACGACGCATGGCGGTGGCTAAAGTGGCGGGGGCGGCCAGCGATGCAGGTCTTGAACTCTGCGGACTGGCGACCAGCCCATTGCCGGGGCAGGACGGAAATGTCGAGTATTTCCTGTGGATAAAACGAAGAACCGACCGAGACTTGCCTAAGATCGAAGAGCGGGACGCAGCTGTGGCTGTGTTGCTTGGAAGTATCTGGCCGAACCACTAG	MTRLDQVLVTRGLARSRTHAARLIADGKVSSAGDVLAKASLQIAEDRELVVAEDATDTYVSRAGHKLAGALDAFPEIPVGGKRCLDAGASTGGFTDVLLRRGAAQVVAVDVGHGQLVPQLRSDPRVSVHEGLNVRYMEPDHIGGAADLTVADLSFISLTLVMAPLASCTRPGGDLVLMVKPQFEIGKERLGRTGVVTSERERRMAVAKVAGAASDAGLELCGLATSPLPGQDGNVEYFLWIKRRTDRDLPKIEERDAAVAVLLGSIWPNH				NA	NA	NA	NA	NA
D1-17_02523	231			hypothetical protein	ATGACACAGCCGAATTCTGACTCCCGGCAGGAGGCCCCCGGCCGGATTACGTGGCCGGACCTGTCCGCGGGGACGGATAAAGCGCAGGACCACGCGGTCCAGGCCATCCTCGAGGCGGTACGGCAGATTCCGGCACTTCCGGTATCCGACCACCCTGCCGCGTACGCGGAAATGCACGAGAGCCTCCTGGCAGTGCTCAACGAGGATACGTCGGCCGGGACCGGCGCATGA	MTQPNSDSRQEAPGRITWPDLSAGTDKAQDHAVQAILEAVRQIPALPVSDHPAAYAEMHESLLAVLNEDTSAGTGA				NA	NA	NA	NA	NA
D1-17_02524	990		COG0647	D,L-glycerol 3-phosphate phosphatase	ATGACTGATTCCCATCTGATCTCTCGTTTCGACGCGCTGCTCTCCGACCTCGACGGGGTGGTGTACGCCGGGCCCCACGCCATCCCCGGCGCTGTGGACTCGCTGCAGCGGCTTGAGGGTATCGGCGTCGGGCTTGGCTACGTGACCAATAACGCATCCCGGACTCCCGCGCAGGTGGCGGCACACCTGCGCGAGCTGGGAGCCCCGGCAGAGGACCATCAGGTGGTGAGTTCGTCGCAGGCGGCAGCGGAATTGCTTGCTTCGCTCCTGCCGGCAGGAGCCGCCGTTTTGATCACCGGCAGCCCTGCTTTGGCCCACGAGATCGAGCTGGTTGGACTGAAGCCCGTGCACAGTGCAGCGGAACACCCGGTTGCAGTGGCGCAGGGTTTCAACCCGGAGATCGGGTGGAAGGACCTGGCTGAGGCTTCTTACGTAGTAGCTGGCGGCGCCCTGTGGGTGGCCACCAATACAGACATGTCCATCCCGCAGGCACGGGGAATGGCGCCGGGGAACGGCACGCTCGTGGGTGCTGTAGCCGCCGCGACCCGCCAATACCCACGTATCGCGGGCAAGCCCGAGGCGCCGCTGTTCCACGCTGCCGCGAAGCGCCTCGCGGCCGACCGCCCGCTCGTGGTGGGGGACCGCCTGGACACCGACATCCTGGGCGGGAACCGCGCCGGCTTTGCCACCGTGGCGGTGCTGACCGGCGTCGACACGCGGGAAACGATCCTTGCGGCGCGCACCGAGGAGCGCCCCGACTTCCTCATTCCAGATCTGACGGGACTGTACCAGCCGTATCCGGCCGTGGAGCACGACGCCGGGACGTTCCGTTGCGGCGGCGCGATCGCTACCGTGGCCGGAGACACAGTCCGGATCAGCGGTGGGGAGGAAAACCTGGACTCCTGGCGGGCGGCCTGCGCCGCCTGGTGGAATGCGCGTCCGCAGGCTCCGGAACCCACTGCTCCGATGCTGGAATGGCTGGATCAATAG	MTDSHLISRFDALLSDLDGVVYAGPHAIPGAVDSLQRLEGIGVGLGYVTNNASRTPAQVAAHLRELGAPAEDHQVVSSSQAAAELLASLLPAGAAVLITGSPALAHEIELVGLKPVHSAAEHPVAVAQGFNPEIGWKDLAEASYVVAGGALWVATNTDMSIPQARGMAPGNGTLVGAVAAATRQYPRIAGKPEAPLFHAAAKRLAADRPLVVGDRLDTDILGGNRAGFATVAVLTGVDTRETILAARTEERPDFLIPDLTGLYQPYPAVEHDAGTFRCGGAIATVAGDTVRISGGEENLDSWRAACAAWWNARPQAPEPTAPMLEWLDQ	PGPT0024450_600	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117	NA	NA
D1-17_02525	1866			hypothetical protein	GTGCCTGCGGTCGTCGTGCAGTGTTTCTTCGCCGTGCGCTGCTTCCTCGTGCACTGCTTCTTCGTGCACTGCTTCTTCGTGCACTGCTTCTTCGTCTTCGATTTCTGCCGAATCCGCATCGGACTCGGCGTCGTCGGAGGTGAAATGGTCCGCTTCGGCGTCGTCAAGGTTGTCCCCCAATGCTGCGCTCTCCGCTGGGGACGCTTGGTGTTCTGCTTCCGGGGTGACCTCTGCGGCCTGCTGGGCGGGCGTGGTGCGGGCAGCCTGCGGCGCGGCATCTGCTGCAGCCTCGGCTATCAGCCGCTTGCGCTCGGCCGCCTCGCGCGCTTCCTCTTCCTCGTCCCAGCCGAGGTCGATAATCTCCGGTTCCTCCGCAATGCCCATGCCCAGGGCCTCCTCAGCCACGACGGCCTGGCGTTGCCACTTCTCCGCCTCGACGGTACGTCCAACGGCGCTCAAGGCATCTGCGTACGCGCGGAAAAGGCGGGGGCTGTAGGAGAAGGCGCGGTTGATGTCCAGCTGCGGGATCTCCAGCTCAGCCACTGCAGCATCGAGCTGGCCAAGGTCGGCGCGGGCACCGGACGCGACCATTGCCAGTTCCACCTTGCCGGGGGCGTCCAGGTCATGGGCCTCCTCCGAGCGGGCGACATCCAAGGCGCGGTCCGGCCGGCCGAGACCACGTTCGCAGTCCGCCATGACGGGCAGGTGCATGTTGGAGCCGCTGATCCGGCGGTAAGTCCGGAACTCCCGCAGGGCTTCGCCGTAGTGTCCGGCGGCGTAGGCGGTCAAGCCCACAGCTTCGCGGACTGCTGCGAGGCGTCCGCCGCGGCGGCTGGCGGCCAAGGCGTGCTGGAAGGCCAGCTCGGGCTCTTCGTCGAGGAGGCGGCCGGCCATCACCAGGTGTCGCGCCACCCATTCGGCACTCTTGGCCTCCAGGGTTTTGATCTGATGCTGCGTGGCGCGGTCCAGTTCCTTGCCGGTCACGTCCTCATCAATTTCAGGAGAACGCTCGCGGTCCGGGCGGTTGGCGCTGCGGAGGTCCGCTGCGTTCGGGACGCGGACGGGACGGCCCTCTTCCCTGTCCTGGCCGAAGCGACGGGGTCCGGAGTCGCCCCGGTCGAAGCTGCGGGGAGCCCGCTCCTGCCTGTCGCTGAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCATCCCCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCATCCCCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCACCCTCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCACCCTCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCACCCTCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCACCCTCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCACCCTCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCACCCTCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGCCACCAAAACTCCGGCGCTCACCCTCACCCTCACGGCGCGGACGATCACCAAACGGCTTACGCTCACCGTCGCCGGATGGACGGCGAGGGCCATCGGCGCCGCGACCGTCCCGGGCACGGAAGCCCCTGGGGTCGCCCCCTGA	MPAVVVQCFFAVRCFLVHCFFVHCFFVHCFFVFDFCRIRIGLGVVGGEMVRFGVVKVVPQCCALRWGRLVFCFRGDLCGLLGGRGAGSLRRGICCSLGYQPLALGRLARFLFLVPAEVDNLRFLRNAHAQGLLSHDGLALPLLRLDGTSNGAQGICVRAEKAGAVGEGAVDVQLRDLQLSHCSIELAKVGAGTGRDHCQFHLAGGVQVMGLLRAGDIQGAVRPAETTFAVRHDGQVHVGAADPAVSPELPQGFAVVSGGVGGQAHSFADCCEASAAAAGGQGVLEGQLGLFVEEAAGHHQVSRHPFGTLGLQGFDLMLRGAVQFLAGHVLINFRRTLAVRAVGAAEVRCVRDADGTALFPVLAEATGSGVAPVEAAGSPLLPVAERLTLTATKTPALIPTLTARTITKRLTLTATKTPALIPTLTARTITKRLTLTATKTPALTLTLTARTITKRLTLTATKTPALTLTLTARTITKRLTLTATKTPALTLTLTARTITKRLTLTATKTPALTLTLTARTITKRLTLTATKTPALTLTLTARTITKRLTLTATKTPALTLTLTARTITKRLTLTATKTPALTLTLTARTITKRLTLTVAGWTARAIGAATVPGTEAPGVAP				NA	NA	NA	NA	NA
D1-17_02526	2052			hypothetical protein	ATGAAGCATTCAACCGTGCGGGCAGTCACGGCCGGAGCCGTTGTCCTGGCCTGTGGCCTTGGGCCCTTTGTCGTCGCCTTTTACCCACAGGCCGCAACCGAAGCCGGTGCGCTGTCCCAGACGGGTTCGGCTGTTGTGTGGGGTTTGCCCTTGGTGAAGTTGATGTTCAATATTGCCGCTGCGGGTGCCCTCGGCTCGCTCGTGCTCGCACTCTTCGCTTTGCCGCCCCAAGGAAGGGCGTTCTCGCGGGCGCTGACGCTCGCCGGGGTCTCGGCGGCCCTTTGGGCACTTGCTGGGGCAGGCATGTCCTTCCTGACATTCCATTCTCTCGCCAATATGGCCCTCTTTTCGGAAGGATCCAGTGTAGCGTTCATCAGCTTTCTGGCAGATGTCGACGCCGGGCGGCGGGGAGCATTGAGCGTCCTGGTGGCCGCCGCCGTCGCACTCCTGTGCTTTGCCGTGAACCATTCAGCCGCGAAGCCCGGTTCTGCCACTACCCGCGCTTCCACCTTGAAACGTCAGCGGCGGGTTGGACTGGCGGCCCTGCTCTCCGTTGCAGGGCTGGTTCCGCTGGCATTGAATTCGCATGCCGCAAGCGGCGGGGGCCACCCCGACAGTACGCTTTCTGTCGTGCTGCACATGGGTGCGGCCGCAATCTGGCTGGGCGGTCTGTTGGCCCTCGTCCTGCTCCGCCGGTCTCTTGACGCCGCAACGGTGGCAACCGTGGTTCGGCGCTATTCCACTCTCGCACTGGTTTCATTTGCCGCATTGGGCGTTTCAGGTCTTCTTGCAGGCTGGGCTGGCCTGGGTTCGTTCGCCGCCCTCATTAGCTCCTACGGGGCAATCCTCTCGGCGAAAAGCGCTGCCTTCATTGTGCTGGGGATCTTTGGGGCGCTTCACCGGCGTTTGATTCTTGCCAGGCTTGAGCGGAACCCGAGTGCGGGCGGCCAGGCGTTTGCCATGCTCGCAGTGGCGGAACTGGCCGTCATGGGGGCCGCGTCCGGACTTGCTGCGGCGCTTGCCCGCACGCCGCCTCCGACAATTGCGGAAGGGGCTCCCCTCGAAGAGGAGGGCCAAATCCCTTCACTCATCGCTGCAGCATCCGCCTGGAAGCTGGACCCGCTGTGGAGCCTTGTCTGCGGAATGGCCGTCTTTCTGTATCTCGCTGGCCTGCACAGGCTGCGCTTGCAGGGCCGAACATGGCCTGTCTACCGGACCGTCCTCTGGCTCGTCGGCGTCGGGCTGCTGTTTCTCGTCACGAACGGCGGACTGCACGCTGCCCAGGAGCACCACATCAGTGCGCACGTGCTGACCCAGATGATCCTTACCGCCGTGATTCCGCTCTTCCTTGTGCCGGCCGCGCCGCTCACCTTGGCAGAAGCAACCGTCCATGGGCGGCACGACGGAACCATCGGCGGCGCGGAGGTGATCGGCAGGGCAGTCCGCTCGGCCCTGACCGCCACGGCAGATCCCATTGCGGCGGCGGTTGGTCTTGCTGCAACGCTGGCCGTCCTTTACTACACACCGCTGCTGCAGTACTCATCGGCCAGCCAACTCGGCTATGCCGCCATGACCGCGCTTGCTCTGGTATCCGGATGCCTGTTCACTGCATCGCTGTGGCGCTCCTTCGGGGTCCCCTCATCCTCAACGGTGACAGTGCGGCTGCTGGCACTGGGTGCCGTGGCGGCGCTTTACGGCTTCCACGGCTGGGCACTGGCCCAGCAGCCTGATCAGCTGCCGGACGCCAGGAGGGAACCCTGGCAGATAACGGTTGATTCCGCCGTCGACCTTTTCTTGAGAGGAGCGGAGCCGGCCGGTGTCGCCATGTGGACCTTGGCCGCCGCCACCCTGGCCTTGGTTGCAGCCGTGATGCTGCTGCAACCGCGTATCAGGTTGGCATCCCTTGAGGATGACCGGGCGGGAACAGAGCACGTCGGGGACTGGACTGAGGCTTCGGCTTCGGCACGCATTGCGGTTGCCCAAGCGGACTCCGGTCCAAATGAGTCCCCCCACGGTCAGCAAACAAGACGCGACTCTCTGATAAGGCCATGA	MKHSTVRAVTAGAVVLACGLGPFVVAFYPQAATEAGALSQTGSAVVWGLPLVKLMFNIAAAGALGSLVLALFALPPQGRAFSRALTLAGVSAALWALAGAGMSFLTFHSLANMALFSEGSSVAFISFLADVDAGRRGALSVLVAAAVALLCFAVNHSAAKPGSATTRASTLKRQRRVGLAALLSVAGLVPLALNSHAASGGGHPDSTLSVVLHMGAAAIWLGGLLALVLLRRSLDAATVATVVRRYSTLALVSFAALGVSGLLAGWAGLGSFAALISSYGAILSAKSAAFIVLGIFGALHRRLILARLERNPSAGGQAFAMLAVAELAVMGAASGLAAALARTPPPTIAEGAPLEEEGQIPSLIAAASAWKLDPLWSLVCGMAVFLYLAGLHRLRLQGRTWPVYRTVLWLVGVGLLFLVTNGGLHAAQEHHISAHVLTQMILTAVIPLFLVPAAPLTLAEATVHGRHDGTIGGAEVIGRAVRSALTATADPIAAAVGLAATLAVLYYTPLLQYSSASQLGYAAMTALALVSGCLFTASLWRSFGVPSSSTVTVRLLALGAVAALYGFHGWALAQQPDQLPDARREPWQITVDSAVDLFLRGAEPAGVAMWTLAAATLALVAAVMLLQPRIRLASLEDDRAGTEHVGDWTEASASARIAVAQADSGPNESPHGQQTRRDSLIRP				NA	NA	NA	NA	NA
D1-17_02527	2013	ftsP_2		Cell division protein FtsP	ATGGCAGTTTCACGCCGTCAGGCATTGCAAATTGGCGGGGTCGGCATCATCGGGACTTTGGGGCTGGCTGTGCCGCTCACATCCGTTGATGCCAAGTCTGCGAGCCAGTTGAGTTCCCGGAACATGCCCAGGTTGTACCAGCGCACGCTCCCCATTCCCCCGGTGCTCGCTCCCAAGAGCACTACCATAGGGGCGGACGGCGCCAAGACGCACCTGTACCAGATCGAACAGACCGCCGGCATGGCCAACATCGTTCCCGGGCTGAAAACCCCGATCCTGGGCTACAACGGATCCTTCCCCGGCCCCACCATCAAGGTGAACAAGGACGAACGGATCACGATGGAAATGGACAACCTGCTGCCGCTCTTCCACCCGCAGTGGGGATACCGCCTGGATACGTCCACCCACCTTCATGGTTCGGCGTCGCTTCCCCAGTACGACGGCTATGCCAACGACGTGACCGGCCGCGGACTGTGCAAGGACTACGAGTACCCCAACTTCCAGCCGGCCCGTACCCTCTGGTACCACGATCACGCGGCGCACAACACAGCCCAGAGCGTGTACTCCGGGCTCGCCGGCCAGTACCACCTTCACGACGAGGTTGAGCGGAATCTGCTGCCGCAGGGCAAATTCGATGTGCCGCTGACCATCTCGGACGCCATGTTCGCCAGTAACGGTGCCCTTGGATACAACGACAACACCCATTCAGGCCTTTATGGCGACATCATCCTCGTTAACGGTGCACCGTGGCCAGTGATGAAGGTGCAGCGCCGCATCTACCGCTTCCGCATCCTCAATGCCTCCATCTCCCGCTCCTACAACTTCCGGCTGAGCACAGGCGACGCTGTCACGATGGTGGCGACCGACGGCGGGCTGATGCCGACCGCGAAACAGGTGACTTCCTGGCGGCAGGCCGGTGCGGAACGCTATGAGATCCTCATCGACTTCTCCAAGTACCCCGTGGGCAAGCGTGTTGAACTGCGCAACTTGTCGAACAAAAACAACATCGACTACGACTACACGGGCAGGGTCATGGCATTCGACGTGACCGGGGAAACCGTGGACACGTCGGGACCGGCCGCCAAGGTGATGCCAACCCTGCTGGCGGGCAGCCCAACGATGAACCTGACGCCCTCGCAGTCGGTCAAGACCCGGCACATGCGCCTCAAGCGCGACGGCGATATATGGACCATCGGCGGAATGACCTGGGACGAGGTCATGAAGAGCGGCTACAAAAAGGTCCTGGCCGACCCAAACCTCAACGACATCGAGATCTGGGAATTCGAGAACAGCTCAGGCGGCTGGTTCCATCCCCTGCACATCCACCTGGTGGACTTCAAAATCCTCAGCCGCAACGGCCGGCCGCCCTTCCCCTACGAACAGGGGCCCAAGGACACCGTCTACGTCGGTGAAGGCGAAACGGTGCGCCTGCTCATGCAGTTCGGCCCGCACCGGGGCCGGTACATGATCCACTGCCACAACCTGCCGCACGAAGACCACGACATGATGGGCCAGTTCAGCGTGGGCTACAACCCCAACGACCCCGACCCCAACGACCCCATAGAAGCCGTGAAACCCCATCCGATCGACCCGACAACTCCAGTCCAGGGTGAGCAGGTGACAGCGACATCCAACCCGACCCGGACGGCAGAGACGACGGCAACCGCAACGGCAGAGACCACCCAAACGGGCGGCTCCACGACCACCACCCAGCCGGCTGCTCAACCGGCCACTCAGAAGGACGTCATCACGATCACCACGGCGCGGCACCGGCAGAACAAGGACATCACGTTCGCCGGGACGTCGAGGTACTCGGGGACGGTGACGGCGGCAAGCGTGGTGCTGTATGACGTCACCCCAGGCCGGACGGTCACGAAGATCGGAATGGCGTCCATTAATTCCCTCGGCAACTGGACCTGGACGACCAAGCCCGGTCCGTCCCGGCAGGTCACGATGGTCCGGGCCGACTCGACCCGGGGCGGCACGGCGACGGCGGCAGTACGCACCGACTGA	MAVSRRQALQIGGVGIIGTLGLAVPLTSVDAKSASQLSSRNMPRLYQRTLPIPPVLAPKSTTIGADGAKTHLYQIEQTAGMANIVPGLKTPILGYNGSFPGPTIKVNKDERITMEMDNLLPLFHPQWGYRLDTSTHLHGSASLPQYDGYANDVTGRGLCKDYEYPNFQPARTLWYHDHAAHNTAQSVYSGLAGQYHLHDEVERNLLPQGKFDVPLTISDAMFASNGALGYNDNTHSGLYGDIILVNGAPWPVMKVQRRIYRFRILNASISRSYNFRLSTGDAVTMVATDGGLMPTAKQVTSWRQAGAERYEILIDFSKYPVGKRVELRNLSNKNNIDYDYTGRVMAFDVTGETVDTSGPAAKVMPTLLAGSPTMNLTPSQSVKTRHMRLKRDGDIWTIGGMTWDEVMKSGYKKVLADPNLNDIEIWEFENSSGGWFHPLHIHLVDFKILSRNGRPPFPYEQGPKDTVYVGEGETVRLLMQFGPHRGRYMIHCHNLPHEDHDMMGQFSVGYNPNDPDPNDPIEAVKPHPIDPTTPVQGEQVTATSNPTRTAETTATATAETTQTGGSTTTTQPAAQPATQKDVITITTARHRQNKDITFAGTSRYSGTVTAASVVLYDVTPGRTVTKIGMASINSLGNWTWTTKPGPSRQVTMVRADSTRGGTATAAVRTD				NA	NA	NA	NA	NA
D1-17_02531	1314	tyrS	COG0162	Tyrosine--tRNA ligase	GTGTCACACGTAAACGACCTAGAATCCCAGCAGAACGACCCCAGCTTCGCCAACATCTGGCAGGAGCTCAAATGGCGCGGCCTTGTCCACGTATCCACCGACGAGGTGGAACTGGAGAAACTGCTCGCCGGAGACCCGGTCACGTACTATTGCGGATTCGACCCGACGGCTCCCAGCCTGCACCTGGGGAACCTGGTCCAGCTCCTCCTCATGAGGCGCCTGCAGCTGGCCGGGCACAAGCCGTTGGGCCTCGTTGGCGGCTCCACTGGCCTCATCGGTGACCCAAGGCCTACGGCCGAACGCACCCTGAACACGAAGGACACTGTCACCGAGTGGGTTGGCTACCTGCAGGCACAGGTCCGCAGGTTCCTCAGCTTCGAAGGTGCCAATGCCGCCCGCATGGTCAACAACCTCGACTGGACCGCGCCGCTTTCCGCCATCGACTTCCTGCGTGAGGTGGGTAAGCACTTCCGTGTAGGCACGATGCTGCGCAAGGATGCAGTGGCGTCCCGCCTCAACTCCGAAGAGGGCATCAGCTACACCGAGTTCAGCTACCAGATCCTGCAGGGCATGGACTACCTGCAGCTGTACCGGGACTACGGCTGCGTGCTGCAGACGGGCGGTTCGGACCAGTGGGGCAACCTGACCAGCGGCACCGAACTCATCCGCAAGGTGGAGGGCAAGAGCGTCCACGCCCTGGGGACTCCGCTCATCACCAACGCGGACGGCTCGAAGTTTGGCAAGAGCGAAGGCAACGCCATCTGGCTGGATCCGGCCATGTGCAGCCCATACGCGTTTTACCAGTTCTGGCTGAACACGGCGGATGCCGATGTCGTGCCCCGGCTGAAGGTCTTCACCTTCCTGGGCCGTTCCGAGATTGAGGCGCTGGCAGAAGCAGTTGCTGAGCGTCCGTTCGCTCGCGAGGGTCAGCGGAAGCTGGCCTACGAAGTGACTTCGCTGGTTCACGGTGTCGATGCCACCGAGAAGGTAATTGCGGCATCGGCTGCGGTGTTCGGCAACGGTGACCTGTCCCTGCTTGACGAGCCGACGCTCGCTGCCGCCACCTCGGAGCTGCCCTCAACTTCCGTGGACGGGGCCGGCCTTGGAATCATCGACCTGCTTGTCGCCTCGGGCCTGTCGGAGAGCAAGTCGGCGGCACGCCGGGTGGTCGGCGAAGGCGGTGCCTACGTCAACAATGCGAAAGTGTCTGACCCGGATGCCGTTATCCCCGTATCAGAGCTGCTGCACGGAAAATACCTGCTGCTGCGCCGGGGCAAAAAGAACCTCGCCACCGTCCAGGTGTCGGGCATCTAA	MSHVNDLESQQNDPSFANIWQELKWRGLVHVSTDEVELEKLLAGDPVTYYCGFDPTAPSLHLGNLVQLLLMRRLQLAGHKPLGLVGGSTGLIGDPRPTAERTLNTKDTVTEWVGYLQAQVRRFLSFEGANAARMVNNLDWTAPLSAIDFLREVGKHFRVGTMLRKDAVASRLNSEEGISYTEFSYQILQGMDYLQLYRDYGCVLQTGGSDQWGNLTSGTELIRKVEGKSVHALGTPLITNADGSKFGKSEGNAIWLDPAMCSPYAFYQFWLNTADADVVPRLKVFTFLGRSEIEALAEAVAERPFAREGQRKLAYEVTSLVHGVDATEKVIAASAAVFGNGDLSLLDEPTLAAATSELPSTSVDGAGLGIIDLLVASGLSESKSAARRVVGEGGAYVNNAKVSDPDAVIPVSELLHGKYLLLRRGKKNLATVQVSGI				NA	NA	NA	NA	NA
D1-17_02532	2229			hypothetical protein	ATGCTCGATGCCGAATTGGCCCACGAACGGGACTATGTTGCCGGCCTGTATGCACGGCTTGATGAGCTGCGCGCGGAAAAGCGCGCCCAGTTGGCGCAGGTGCGCCGTGCCGGAGCGGTGGGCACTATGCAGAACGTTTCTGAACGCGACGCCTTCGCCGCACTGTACGAGGACCGCCTGGCGCAGCTTGACGCCGTCGATGACCGGCTGGTGTTCGGCCGGCTGGACCTGGACTCGGGTGAAGCGCAGTACATCGGCCGCATCGGCCTCACCACCGATGACCTGCAGCGGCTCATGGTGGACTGGCGCGCCCCTGAGGCCGGCCACTTCTACCAGGCCACGGCCTTTGACCGCCAGGGTGTGCGCAGGCGCAGGCACCTGATCCTGCAGGGCCGTGAGGTCAAGGCCATTGAAGACGACGTCCTCGACCCCGACATGCTCACGGACAGCAATTCGCTGCAGGGGGAGGGTGCCCTGCTCGCTGCCCTGAACTCCAAGCGGACCGGCCGAATGTCCGACATCGTGGGCACCATCCAGTCGGAACAGGACCGGATCATCCGCTCCTCCATTTCAGGCGCGCTCGTGGTCCAGGGCGGCCCCGGAACCGGAAAGACTGCCGTAGCGCTGCACCGCGCCGCGTACCTTCTCTATACGCACCGGGACAGGCTTAAGACGGCCGGTGTGCTGCTCGTGGGTCCGTCGTCGTCCTTCATGAAGTACATCGAGCGCGTCCTGCCGTCGCTCGGTGAAACCGGCGTGGTTATGGCGAGCCTTGGCCGGCTGATGCCCGGCATCAATGCCGTGCCTGAGCAGGAAGCGGAGGTGGCGGCCATCAAGGGGCGGCTGGACATGGCGGACGTCATCGCCAACGCCGTTGCGAACAGGCAGCGTCTTCCTGCGGAAAACCGCATCCTCGAAGTGGACGGCCGCAAGCTAACCCTTACGCCGCGGCAGGTCCGCCGTGCCCGTGAACGCGCCCGTTCCACCGGCAAGCCGCACAACGAGGCCCGACTCACGTTCGTGAAGATCCTTCTGCGCGAGCTGACCGAGCAGCTGACTGAAATGGTTGAAGCGGGCAACCTCGGTAACAACGCCGATAGGTCCTACCTGGCTGAGGATGTCCGTTCCGCCCGGGACGTCCGCATCGCGCTCAACCTCTGCTGGATGCCGATGACGCCGGAAAAGCTCGTCAGTGAACTGCTGAGCAAGCCAGCCATCCTGGAAGCCTGCACTCCGCGTCTGACTCCCCGGGAGCGCCAGCTCCTGCTCCGTGCCCCCGACGCTCCCTGGACCGAGGCGGATGTTCCGCTCCTGGATGAGGCAGCCGAGCTGCTCGGTGAACTCGACCCCGCAGCGGGCAGGGGCCTCGCCCAGCAGGAACACGACCGCGCCCGCGACCTGGCCAACGCCCGCCAGACACTTGTCAACATGGAGACTGCCGGCGTCGATGTCCTCATGTCGGCCGAGGAGCTCGTGGAGCAGAACCGGGAGCGCGAGGCACGCCTGACCGCCGCGGAGCGGGCCACCAGCGACCGCACCTGGGCATTCGGCCACATCGTGGTGGATGAAGCGCAGGAGCTCTCGCCCATGCAATGGCGCCTCCTCGTCCGCCGCTGCCCGCTGAAGTCGTTCACCATCGTGGGGGACATCGCCCAGACCAGTTCGGTCGCCGGAGCCAAGTCGTGGCAGGGCGCGCTTGCGCCGATGTTCGGCAAGCGCTGGCAGATGGAGGAACTCACCGTCAACTACCGCACGCCGTCGCAGATTGCTGAAGCCGCTGCCCGGATGGCCAACGCTGCCGGGCTCGTGGTGTCCGCTCCGAAGGCAGTCCGCGAGGGCAGCTGGGAACCCATCATCGACCGGGTCGCGCCTGGCGGGATCGTTAGCCGCCTGGTGGAGGTGCTCCCGGAAGAGCTGGACGCGATCGACGGCGGCCTGCTCGCCGTGATTGCCGACGGTGACCTCCTGCCGGAGGCCACGTCTGCGCTGCGCGCCGTCTACGGGCGCCGTATCGGGACCGGTGCCGGCAGCTACGAACAGGACGTCGTGGTGATCAGCCCGAGGGAAGCCAAGGGGCTCGAGTTCGACGCCGTGGTGGTCCTTGAGCCGGCCGCCATGCTCAACCATGAGCACGGCCGGGTGGGAGACCTCTATGTCGCCATGACCAGGCCCACCCAGAGGCTGCGCCTTATCGCCGCAGCAGAAGTCCCGCCAGGCATCGAGCGCTAG	MLDAELAHERDYVAGLYARLDELRAEKRAQLAQVRRAGAVGTMQNVSERDAFAALYEDRLAQLDAVDDRLVFGRLDLDSGEAQYIGRIGLTTDDLQRLMVDWRAPEAGHFYQATAFDRQGVRRRRHLILQGREVKAIEDDVLDPDMLTDSNSLQGEGALLAALNSKRTGRMSDIVGTIQSEQDRIIRSSISGALVVQGGPGTGKTAVALHRAAYLLYTHRDRLKTAGVLLVGPSSSFMKYIERVLPSLGETGVVMASLGRLMPGINAVPEQEAEVAAIKGRLDMADVIANAVANRQRLPAENRILEVDGRKLTLTPRQVRRARERARSTGKPHNEARLTFVKILLRELTEQLTEMVEAGNLGNNADRSYLAEDVRSARDVRIALNLCWMPMTPEKLVSELLSKPAILEACTPRLTPRERQLLLRAPDAPWTEADVPLLDEAAELLGELDPAAGRGLAQQEHDRARDLANARQTLVNMETAGVDVLMSAEELVEQNREREARLTAAERATSDRTWAFGHIVVDEAQELSPMQWRLLVRRCPLKSFTIVGDIAQTSSVAGAKSWQGALAPMFGKRWQMEELTVNYRTPSQIAEAAARMANAAGLVVSAPKAVREGSWEPIIDRVAPGGIVSRLVEVLPEELDAIDGGLLAVIADGDLLPEATSALRAVYGRRIGTGAGSYEQDVVVISPREAKGLEFDAVVVLEPAAMLNHEHGRVGDLYVAMTRPTQRLRLIAAAEVPPGIER				NA	NA	NA	NA	NA
D1-17_02533	648		COG2094	Putative 3-methyladenine DNA glycosylase	ATGCATAACGAGCTCCAGCGGAACGAGGTGCGGGAATTCCTGTCGGGGGATGCACGGGAAGTGGCGCCCCTGCTTCTTGGGGCCGTCCTCACCCACCACAGCCCGGAGGGATCCGTGTCCGTGCGGATCACCGAGTTGGAGGCCTACATGGGGCCCGGCGATTCCCTGCATCCGGACCCCGGTTCCCATACCTTCCGCGGCCCCACCGGCCGCAATGCGCCGATGTTCGGCCCCGCCGGCCATCTCTACGTCTACTTCACGTACGGAATGCACTACTGCGCCAACCTCGTCTGCGGACCGGACGGCCACGCGTCCGCCGTGCTGCTGCGCGCGGGCGAGGTGGTGGACGGGTTGCCGCTGGCGGCGGCGAGGCGGCCGACGTCCAAAGCGTCCAAGGACCTTGCCAGCGGACCCGCCCGCTTGGCCACTGCACTGGGACTGACGACGGCGGACAGCGGCAGGGATGCGCTCATCCACCCGTTCGGACTGGAGCTGCCTGCTGTCCCGGCCGGAGACGTCAGCTCAGGACCACGGGTGGGTGTGGCAGGGCACGGGGGATCCCACGACTACCCGTGGCGGTTCTGGCTCACAGGTGACCCCACAGTCTCCCGATACAAGGCCGCGAAGGTGCGTGCCGCGCGAACCTGA	MHNELQRNEVREFLSGDAREVAPLLLGAVLTHHSPEGSVSVRITELEAYMGPGDSLHPDPGSHTFRGPTGRNAPMFGPAGHLYVYFTYGMHYCANLVCGPDGHASAVLLRAGEVVDGLPLAAARRPTSKASKDLASGPARLATALGLTTADSGRDALIHPFGLELPAVPAGDVSSGPRVGVAGHGGSHDYPWRFWLTGDPTVSRYKAAKVRAART	PGPT0014885_912	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
D1-17_02534	1623	alkA	COG0122	putative bifunctional transcriptional activator/DNA repair enzyme AlkA	ATGGACTTCTGGCAGCGCTATCGTGCCATCGACGCACGGGACACCCGTTTCGACGGGCAGTTCTATACGGCGGTGCGGAGCACGGGCATCTACTGCAGGCCTTCCTGCCCGGCGAGGACGCCGAAGGCCGACAACGTCACCTTCTATGAGACCTCCGCTGCCGCCCATGACGCGGGCTACCGCGCCTGCAAGCGCTGCCTCCCCGAAGCTGTGCCGGGCACGCCGGCCTGGAACCTACGTTCCGATATTGCCGGACGGGCCATGCGTCTCATCAACGACGGCGTTATCAACCGCGACGGCGTGGAAGGGCTGGCCGCACGGCTGGGGTACTCGTCCCGGCAGCTGAACAGGATCCTCACCCAGGAGCTCGGCGCCGGCCCGCTCTCCCTCGCCCGGGCGGGCAGGGCCCAGACCGCGCGGACGCTGCTCGTGTCCACGTCCATGAAATTTGCAGACGTCGCGTTTGCCGCCGGATTCAGCAGCGTGCGCCAGTTCAACGAAACCATGGGCGAGGTGTTCGCCATGACGCCTACCGCGCTGCGTGCCACCGCACACCGTCATCCGGCACCGGCAACCAGCACGGCCCTCACCTTGAATCTCCCCTACCGCGAGCCCTTCGATCCGGGCATTTTCAGCTTCCTTGCTGTCCGGGCCATCCCGGGAATCGAGTCCGGAACAGCCACCTCCTACGCCAGGACCCTCCGGCTGCCGCACGGCCATGCCCGGTTCACAGTGGAATACAACACAGCCGCCAACAACACTGCGGAATACAAGACTGCGGAATACAAGACTGCAGGGGACGATGGCGGCACCCGGGGACGGCCCCTGGTACTCACTATCGGCGCGGCGGACCTGAGGGATCTGCCTGCGCTCCTCAGCAGGGTCCGCCGGCTTTTGGACCTCGATGCCGACCCCGTCGCGATCGACGAGGCACTTTCGGCTGACCCGCGGCTTTCGGATTCCGTGGCTGAAGCCCCCGGAATCCGGATGCCAGGCGCATTGGACCCGCACGAGCTCCTGATCCGGGCCATGGTGGGACAGCAGATTACCGTGGGCGCAGCCCGGACGGCGCTCACCCGGTTGGCGGCGGCGGGCAGCCCCAGCGTGGTCCCGGGCGAAGGACTCAACAGGCTGTTCCCCACGCCGGAGCAAATTGCGGAGAACGGGCGGGAACTGCTGCGCGGGCCGCAGCGCAGAACCGATGCGCTCGTGGCCGCTTCCGCTGCCCTGGCCGCCAGGGAGCTTGAGTTGGGTTACGGTGATGACCTGCCGGGGCTTCGTTCCAAGCTCCTTCCGCTGGCCGGCATCGGCCCCTGGACCGTGGGATACGTGGCGATGCGTGTCATTGGCGCTCCGGACATTTTCCTGGCCAATGACGCCGCGGTCCGCAACGGCATCCGGAACCTCACCTCAGGGGGTGCTGTCAGCCATCGTGCGGACAAGGGTGGAGGTCCTGCCCCAGCCCCTGTATTCGGCGGCTCTCCTGATATCAGTAGGTCTCCCGATTTCGACGGCGTGAGCCCGTGGCGCTCCTACGCCACCATGCACCTCTGGCGCGCCGCGGCCGCCCCGGACGTGGCCCGCGCTCCGAAGACCACCACGACCACTGAGGCAAGGCGATGA	MDFWQRYRAIDARDTRFDGQFYTAVRSTGIYCRPSCPARTPKADNVTFYETSAAAHDAGYRACKRCLPEAVPGTPAWNLRSDIAGRAMRLINDGVINRDGVEGLAARLGYSSRQLNRILTQELGAGPLSLARAGRAQTARTLLVSTSMKFADVAFAAGFSSVRQFNETMGEVFAMTPTALRATAHRHPAPATSTALTLNLPYREPFDPGIFSFLAVRAIPGIESGTATSYARTLRLPHGHARFTVEYNTAANNTAEYKTAEYKTAGDDGGTRGRPLVLTIGAADLRDLPALLSRVRRLLDLDADPVAIDEALSADPRLSDSVAEAPGIRMPGALDPHELLIRAMVGQQITVGAARTALTRLAAAGSPSVVPGEGLNRLFPTPEQIAENGRELLRGPQRRTDALVAASAALAARELELGYGDDLPGLRSKLLPLAGIGPWTVGYVAMRVIGAPDIFLANDAAVRNGIRNLTSGGAVSHRADKGGGPAPAPVFGGSPDISRSPDFDGVSPWRSYATMHLWRAAAAPDVARAPKTTTTTEARR				NA	NA	NA	NA	NA
D1-17_02535	585	ogt		Methylated-DNA--protein-cysteine methyltransferase	ATGACAAGCCAGGACGACATCACACGCCGGGATTTTAGAGGCAATGGAATGACTGTGGAGCATACGGAGACGGCCGGCACTGCGCAGCGGCTGACGATGGCCACTCCGGACGGGCCGTTTACGGTCATCGCCCGGGACGGCGTGGTGCTGGCTTCGGGCTGGACTGCCGATGTCGGTGAACTCACCGGACAGATCCACCCGGCACTGCTGCCTGCCGCCTATGAGAGCGTTGAGGACCTCGGTGCCATCTCCTCTGCGGTGGAAGCCTTCTACGCCGGAAACCCTGCCCCGGCCATGAGCGTTCCGGTGCTCCAGAGGTCGGGCCCCTTCCGGGCGCACGCGTGGGAGGTGCTGCGCACGGTCAGGCCGGGGGCCCCGGTGACCTACACGGAATATGCGGCGCTTGCCGGAAACTCCAAGGCGGTGCGGGCGGCGGCCAGCGCGTGCGCGTTGAACGCCGCAGCGCTGTTCGTTCCGTGCCACCGGGTGGTCCGCACCGACGGCTCCCCCGGCGGCTTCCGGTGGGGACTGCGGATTAAGGAAAGCCTGCTGGCCCGGGAAAAGCAGGTGCTGGCGGCCGGTTGA	MTSQDDITRRDFRGNGMTVEHTETAGTAQRLTMATPDGPFTVIARDGVVLASGWTADVGELTGQIHPALLPAAYESVEDLGAISSAVEAFYAGNPAPAMSVPVLQRSGPFRAHAWEVLRTVRPGAPVTYTEYAALAGNSKAVRAAASACALNAAALFVPCHRVVRTDGSPGGFRWGLRIKESLLAREKQVLAAG				NA	NA	NA	NA	NA
D1-17_02536	630			hypothetical protein	ATGACCACACCTCGCCGAGCCCTGATCGTCATTGACGCCCAACAGGAATACTTCGACGGGCTGCTCCCGATTCAATACCCGGCCCGGGATGAGTCCATCACCAGGATCAAGACCGCGATCGACACCGCCCACCAAACTGGAACTCCAGTGGTGCTGGTCCAGCACGAACTCCCGGCAGAGGTCCCGGTGTTCGCCTCCGGATCGGCGACCTGGCAGAACCACCCCGAAGTAGCCGCCCACGAGAACGTAGCAGCCAAGCGCATCAGCAAGCAGTTCTCCAGCATCTTCGCAGACACGGGCCTCGAAGCCTGGCTGCGTGAACAAGGCATCGACACGATTACCCTCGTTGGGTACATGACAAACAACTGCGTGCTCGCCTCCGCTGCAGCCGCCGAGCCCCTCGGCTTCGCCGTCGAAGTCCTCGCAGACGCGACCGGAGCAATCGACCTCTCCAACGAGGCCGGCACCGCGGCAGCACGCCAGGTCCACGAGACCCTCATGGCGCTGCTGCATTCGAACTGGGCCGCCGTCATGGATACCGCGACATGGATCACTGCGCTGCATACGGGAGCACCGTTGACCAAGAGCGACCTCATCACCTCCGCCGCGCAAGGCCGCAGCATTCGGTAG	MTTPRRALIVIDAQQEYFDGLLPIQYPARDESITRIKTAIDTAHQTGTPVVLVQHELPAEVPVFASGSATWQNHPEVAAHENVAAKRISKQFSSIFADTGLEAWLREQGIDTITLVGYMTNNCVLASAAAAEPLGFAVEVLADATGAIDLSNEAGTAAARQVHETLMALLHSNWAAVMDTATWITALHTGAPLTKSDLITSAAQGRSIR				NA	NA	NA	NA	NA
D1-17_02537	1095	tgnB_2	COG2141	Flavin-dependent trigonelline monooxygenase, oxygenase component	ATGCAGTTCGGACGACCATCGGGCGCGGCCCCATTCACGCTGTCCGTGCTCTCCGCGGGCGGCACCGGCGTCGGGATGACCGCAGAGGAAGGGCTGGCGGGCACGATCTCGCTGGCGCGGAAGGCGGATCAGCGGGGTTATCACCGGTTCTGGATGTCTGAGCACCATGCAATGGGGGCGACCTCAGTGTCCTCACCGCCGCTGATGGTCGCCCGCCTCATCGCCGAGACGACGCGCATCCGACTTGGTGCCGGCGGGGTAATGCTGCCTAACCACTCGCCGCTGCTGATCGCTGAGCAGTTCGGGATGCTGGAGGCTCTCGCGCGGGGCCGAATTGATCTTGGGCTGGGACGCGCCCCAGGCACTGATGGGGCGACTGCTGCGGCGCTGCGTCGGGGAGCTGATGCCAACGACGGATTCCCGCAGCAGGTGCTCGAGTTGCTCGGGTTCCTGGGCGACGAGTTCCCGCCCGGACACCCATACCGGAACGTCCACGCGGTGCCCGGGCCCTGGCAGGCAATGGAAAACCGGGTGTCGGCGCCTTCGACCGCTCCTGAGGTGTGGGTGCTGGGCTCCTCTCCGTACTCAGCACAGCTGGCCGGGCAGCTCGGCCGGCCGTATGCGTTCGCTTTGCAGTTCGGCGACGCTGACATCGACACGGCCATGCGTCTCTACCGTGAGAACTTCCAGCCCTCCAACGTGCTCGCCGAGCCGCACACCCTCGTCAGCGTGCCCGTGGCCATCAGCGAGGATCCGGTTCAGGCAAAACGGCAGGCGGCAACGTCGGCGATGGCGATGCTGCGCATGTTTAAAAGCGAAGGTTATCTGCTCCTGCCCCCGGACGAGGTTGAGGCGTATCCGGCGACAATACAGGAGCAGCAAATCCTGGACGCCTACACCAGCCGCAGTTTCCATGGCACCGCCGCTACTGTCGCTAGCCGCCTCGAAGCCCTGCACGAGCGGACCGGTGTCGATGAGGTGATGCTCGTTGTCGGCGGGCACTCGGCAACCCTCGACCAGCATGGGATCACCCTGCTTGCCGATCACTACGCACTGCCCTATCTGGAGGCGCCGCTTCCGGCAGCCGCGCAGTAG	MQFGRPSGAAPFTLSVLSAGGTGVGMTAEEGLAGTISLARKADQRGYHRFWMSEHHAMGATSVSSPPLMVARLIAETTRIRLGAGGVMLPNHSPLLIAEQFGMLEALARGRIDLGLGRAPGTDGATAAALRRGADANDGFPQQVLELLGFLGDEFPPGHPYRNVHAVPGPWQAMENRVSAPSTAPEVWVLGSSPYSAQLAGQLGRPYAFALQFGDADIDTAMRLYRENFQPSNVLAEPHTLVSVPVAISEDPVQAKRQAATSAMAMLRMFKSEGYLLLPPDEVEAYPATIQEQQILDAYTSRSFHGTAATVASRLEALHERTGVDEVMLVVGGHSATLDQHGITLLADHYALPYLEAPLPAAAQ	PGPT0030680_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030680-putative_transposase-K07496	NA	NA
D1-17_02538	576			hypothetical protein	TTGCTAGCAGCCGCGCCAGGCGCCGAGGAGCATCCCTGCCTCGCGCTGGTCAACACCTCAAACGGACTGTCTGGAGGCAGACGTTACGACGAACTGGGCAGCCCTGAGGCCGCGACGGCTTGGCTAATGGCACGCGATCTCATCGCATCAGAGTCTGTGCTGCAGGAGCACTGCCGCGCCAGGCTCGCAGCGTTGCGCGCAGATCTGCGCGACCTTTTCACGGCGCACACTACTGGGGACGTCCCAAAGACAACGGCCGTGCACGCTGTCAATCGTGCGCTGACCCGTGCCCCCGGCGCGCAGCTGTTACGGTTCGAGCCGGCGGCAGGGTTCACCCGTTGCGCCGAGCATCCCGTGACACAGGTCGTCGAGCACGTCATGGCCGTCATCGCTGATGATGCTGCCTCGCTGCTCAGCGGCGACCAAGCGTCGATGCTCGCGTCCTGTGAAGCGGACTCGTGCGAGCGGTTCTTCCTGCGCACCCACGCACGACGGCAATGGTGCTCAACCCGTTGCGGGGACCGAGTCCGCGCCGCGCGCGCCTACGCACGTAAACGCGCGATACACAGCGCATGA	MLAAAPGAEEHPCLALVNTSNGLSGGRRYDELGSPEAATAWLMARDLIASESVLQEHCRARLAALRADLRDLFTAHTTGDVPKTTAVHAVNRALTRAPGAQLLRFEPAAGFTRCAEHPVTQVVEHVMAVIADDAASLLSGDQASMLASCEADSCERFFLRTHARRQWCSTRCGDRVRAARAYARKRAIHSA				NA	NA	NA	NA	NA
D1-17_02539	747			hypothetical protein	ATGACCGCAATCACACCTGGCGCTGTGCGCGCCGAACTCCACAAGGCGGCCGACGTCGTTTCCTCCCTCACAGCGAAGCTCACCGACGCGGACGTCCCGGCGCCCTCCGCGCTGCCCGGCTGGAGCCGCGGGCACGTTCTGGCGCACATCGCCGCCATCTCAAACGCCATGGCCCGGCAAGTCGAGTTCGCGGCGCGCGGAGAAACTGTGGAATTGTACGACGGCGGCTATGACGGCCGTACGAAGGCCATCGAAATGAGCGCCGGACACTCCCTTGAACAACACCGGGCGGACCTCGCCGCAGCGCTGGAACGGGCGCTGCGCGCCTTCGATTCCGTGGACGCTTCACCGGCAGCTGCAGGCTGGCAGGCGCCCATCTCGTACCGCGGGGGAGTGGTGCTCGACGGCGGCCGCGCACTCTGGCGCGAACTCGTGATCCATGCCTCGGATCTCGGCACCGGCCGCGGTCCGGAGACGTGGAGCAGGCACTTCTGCGAGCACCTCTTCAACTTCCTGTCCGCGCGTGTGCCTGCAGACCAAAAGCTGGTGCTGCAGCCTTTGGGAATGCCTCCCGTGACGCTCGGCAGCGGCGGGCGCTCCACGGTTGTCAGTGGAATGGTCACGGACATCGCCGCGTGGCTCGCCGGGCGGGAACCTGCGCTCGGCAGCCTGCGCGCGTCGGCCGCCGCCGATGGCGTGGAGCTGCCGGAGCTGCTGCCGTGGCCTTCCGGGGTGCCCACGAGCTAG	MTAITPGAVRAELHKAADVVSSLTAKLTDADVPAPSALPGWSRGHVLAHIAAISNAMARQVEFAARGETVELYDGGYDGRTKAIEMSAGHSLEQHRADLAAALERALRAFDSVDASPAAAGWQAPISYRGGVVLDGGRALWRELVIHASDLGTGRGPETWSRHFCEHLFNFLSARVPADQKLVLQPLGMPPVTLGSGGRSTVVSGMVTDIAAWLAGREPALGSLRASAAADGVELPELLPWPSGVPTS				NA	NA	NA	NA	NA
D1-17_02540	1437	argH	COG0165	Argininosuccinate lyase	GTGGCTGAGCAGGAAATCACCAAATCGGCAGCCACGAACACCGGTGCACTGTGGGGCGGCCGGTTCGCCGGCGGCCCCGCGGACGCACTGGCAGCGTTGAGTAAGTCCACCCACTTCGACTGGCGGCTCGCCCGGTACGACATCGCCGGTTCCATGGCGCACGCCCGGGTGCTGCACAAGGCACAGCTGCTGGACGACACCGAGCTGGAAGGCATGCTGGCTGCCCTGAAGCGACTGGACGAGGACGTTGCCTCCGGCGCCTACCTGCCTGCGGAGTCCGACGAGGACGTTCATGGATCGCTGGAACGCGGCCTGATCGAGCGTGCCGGACCGCAGCTGGGCGGCAAGCTCCGTGCCGGACGCTCCCGAAACGACCAGGTGGCCACCCTTGGCCGCATGTTCCTGCGCGACCATGCGCGGATTATCGCGCGCGGTGTGCTGGCCACAATCGATGCACTTGTAGACCAGGCCAAAGCGCACCAGGGCGTGGCCATGCCCGGCCGCACCCACCTGCAGCACGCCCAGCCTGTCCTGCTCAGCCACCACCTGCTGGCCCATGCCTGGGCCCTGCTGCGCGATGTGCAGCGGCTCCAGGACTGGGACAAGCGGGCCGGTGTTTCGCCTTACGGTTCCGGCGCCCTCGCCGGATCCTCGCTGGGACTGGACCCGGAGGCGGTCGCGGCGGACCTGGGCTTTTTCTCCGCGGTCCACAACTCGATCGACGGCACCGCCTCCCGCGACGTCTTCGCCGAGTTCGCCTGGATCGCGGCCATGATCGGGGTTGACCTTTCGAGGGTCTCCGAGGAAGTCATCCTGTGGGCGACGAAGGAGTTCTCGTTCGTGACCCTGCACGATTCCTACTCCACCGGCTCTTCGATCATGCCGCAGAAAAAGAACCCGGATGTGGCCGAGCTGGCACGCGGCAAGGCAGGACGCCTGATCGGCGACCTGACCGGGCTGCTCGCGACACTCAAGGGCCTGCCGCTGGCGTACAACCGCGACCTGCAGGAGGACAAGGAACCGGTGTTCGACGCGGCAGACACGCTGGAGCTGCTGCTTCCCGCCGTGTCCGGCATGATCGCAACACTGAAGTTCAACGCCGAACGGATGGAAGCCCTGGCTCCGCAGGGCTTCGCGCTGGCCACCGACATCGCCGAATGGCTTGTCCGCCAGGGCGTTCCGTTCCGTGAGGCGCACGAGCTCTCCGGCGCCGCGGTGAAGCAGGCCGAAAGCCGCGGCGTCGAGCTGTGGGATTTGACGGACGAGGAGTATGCGGAGATTTCGGAGCATCTGACTCCCGACGTCCGCACCGTCCTGAGCACCGAGGGTTCCCTCAACAGCCGCAGCTCCCAGGGCGGCACCGCACCGGCCGCCGTCGAACGCCAGCTGGCGGCGCTGGAAGGCGAGCTTGCCGACGTCAGGGAGTACGCGGGCTAG	MAEQEITKSAATNTGALWGGRFAGGPADALAALSKSTHFDWRLARYDIAGSMAHARVLHKAQLLDDTELEGMLAALKRLDEDVASGAYLPAESDEDVHGSLERGLIERAGPQLGGKLRAGRSRNDQVATLGRMFLRDHARIIARGVLATIDALVDQAKAHQGVAMPGRTHLQHAQPVLLSHHLLAHAWALLRDVQRLQDWDKRAGVSPYGSGALAGSSLGLDPEAVAADLGFFSAVHNSIDGTASRDVFAEFAWIAAMIGVDLSRVSEEVILWATKEFSFVTLHDSYSTGSSIMPQKKNPDVAELARGKAGRLIGDLTGLLATLKGLPLAYNRDLQEDKEPVFDAADTLELLLPAVSGMIATLKFNAERMEALAPQGFALATDIAEWLVRQGVPFREAHELSGAAVKQAESRGVELWDLTDEEYAEISEHLTPDVRTVLSTEGSLNSRSSQGGTAPAAVERQLAALEGELADVREYAG	PGPT0014242_82	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
D1-17_02541	1206	argG	COG0137	Argininosuccinate synthase	GTGACTGAGCGTATTGTTCTGGCCTACTCCGGTGGCCTCGATACTTCCGTAGCCATCGGCTGGATCGGTGAAGCCACCGGCGCCGAGGTCATCGCCGTCGCGGTGGACGTCGGACAGGGCGGCGAATCACTGGAGACCATCCGCCAGCGCGCCCTGGGCTGCGGCGCCGTCGAGGCCTACGTGGCAGACGCCAGCGACGAGTTCGCCAACGAGTACTGCATGCCGACCCTGAAGGCCAACGCGCTGTACCAGGGCCACTACCCCCTGGTGTCCGCCATCTCCCGCCCGGTCATCGTTAAGCACCTGGTCAAGGCCGCCCGTGAATTCGGCGCCAGCACCGTGGCCCACGGCTGCACCGGCAAGGGCAATGACCAGGTCCGCTTCGAAGTCGGTATTCAGACCCTCGGCCCGGACCTGAAGTGCATCGCACCGGTCCGCGACCTCGCCCTGACCCGCGACAAGGCCATCGCCTTCGCCGAGGAAAAGGGACTGCCCATCGAGACGACCAAGAAGAACCCGTACTCGATTGACCAGAACGTCTGGGGACGCGCCGTCGAAACCGGCTACCTCGAGGACATCTGGAACGCCCCCACGAAGGACATCTACGACTACACGGCAGCGCCGGAATTCCCCCCGGCCCCGGATGAAGTCACCATCTCCTTCGAAGCGGGCATCCCCGTGGCGATCGACGGCGTGAAGGTCACCCCGCTGCAGGCCATCAAGGAACTGAACCGCCGCGCAGGCGCCCAGGGCGTAGGCCGGATCGACGTCGTCGAGGACCGCCTCGTGGGCATCAAGTCCCGCGAAATCTACGAGGCTCCCGGCGCCATGGCACTGATCACCGCGCACAAGCACCTCGAGGACATCACCATCGAGCGCGAACAGGCCCGCTTCAAGGCGACGGTCGGCCAGCGCTGGGCCGAACTGGTCTACGACGGCCAGTGGTTCTCCCCGCTTAAGCGCTCCCTCGACGCCTTCATCGAGGACACCCAGCGTTACGTCTCCGGGGACATCCGCATGGTCCTGCACGGTGGCCAGGCGATCGTCAACGGACGCCGCTCCGAGACCTCGCTGTACGACTTCGATCTCGCCACCTACGACACCGGTGACACCTTCGACCAGTCCATGGCCCGCGGGTTTATCGAGCTGTGGGGCATGTCTGCGAAGGTCGCCTCCGGTCGCGACATCCGCGTCGCAGGAAAGTAG	MTERIVLAYSGGLDTSVAIGWIGEATGAEVIAVAVDVGQGGESLETIRQRALGCGAVEAYVADASDEFANEYCMPTLKANALYQGHYPLVSAISRPVIVKHLVKAAREFGASTVAHGCTGKGNDQVRFEVGIQTLGPDLKCIAPVRDLALTRDKAIAFAEEKGLPIETTKKNPYSIDQNVWGRAVETGYLEDIWNAPTKDIYDYTAAPEFPPAPDEVTISFEAGIPVAIDGVKVTPLQAIKELNRRAGAQGVGRIDVVEDRLVGIKSREIYEAPGAMALITAHKHLEDITIEREQARFKATVGQRWAELVYDGQWFSPLKRSLDAFIEDTQRYVSGDIRMVLHGGQAIVNGRRSETSLYDFDLATYDTGDTFDQSMARGFIELWGMSAKVASGRDIRVAGK	PGPT0020130_3994	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
D1-17_02542	441	argR	COG1438	Arginine repressor	GTGCGGTCCCAGGCAGAGCTTGCCGCTCTGCTGGCGGACGATGGCGTGCAGGTCACCCAGGCGACGCTGTCCCGGGACCTCGTCGAACTCGGCGCTGTCCGGGTCCGCGGGAAGGAGGGCGTGCTGGTCTACGCTGTTCCCGGCGAAGGCGGGGAGCGTGCGGCGAAAAGCGGGGTGAGCCAGGAAATCCTTGATGCGCGGCTCGCCAGGTTGTGCGGGGAACTGCTGGTCACCGCGGAAGCGTCGGCCAACATCGCCGTGCTCCGCACCCCTCCCGGGGCCGCCAACTTCCTGGCCCTCGCTATCGACCACTCAGTCATGCCCTCGATCCTCGGCACCATCGCGGGGGATGACACCGTCCTGCTGGTGGCCCGTGATCCGCAGGGCGGCCCGGATCTCGCCGCGCGGTTTCTGCAGCTTGCAGAGGAAGCCGGCCAGTAA	MRSQAELAALLADDGVQVTQATLSRDLVELGAVRVRGKEGVLVYAVPGEGGERAAKSGVSQEILDARLARLCGELLVTAEASANIAVLRTPPGAANFLALAIDHSVMPSILGTIAGDDTVLLVARDPQGGPDLAARFLQLAEEAGQ	PGPT0020105_241	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
D1-17_02543	1026	argF	COG0078	Ornithine carbamoyltransferase	GTGACTTCACCAGCGGCTTCAACCACATCAGCGGCTACGCCCGTTCCGACCCGCCACTTCCTCAAGGACACCGACCTCAGCCCCGCCGAGCAGGCTGAGGTCCTGGAGCTCGCGGTCCGCATGAAGGCCGCACCCTACAGCGTGCAGCCGTTCGCCGCGCAAGGCAGCGGACGCAAGACAGTGGCCGTCATTTTCGACAAGACCTCCACCCGCACCCGGGTGTCCTTCGCCGCCGGTGTGGCGGACATGGGCGGTACCGCCCTCATCATCAACCCGGGTGAGGCGCAGATCGGCCACAAGGAATCCGTGGAGGACACCGCCAAGGTGCTCGAGCGGATGGTCTCGACCGTCGTGTGGCGGACCGGAGCCCACTCCGGACTGGTTGCCATGGCGGAAAACTCCAAAGTTCCGGTCATCAATGCCCTGTGCGATGACTACCACCCCTGCCAGCTCCTCGCGGACCTGCTGACGGTCAAGGAACACAAGGGCAGCCTGCAGGGCCTCACCATGGCCTACCTCGGCGACTCCGCCAACAACATGGCCAACTCCTACCTGCTGGCCGGCGTCACCGCGGGGATGCACGTGCGGATCGCCGGTCCGGAGGGGTACCTGCCGGCTGCAGCCATTGTGGCCGACGCGGAAGAACGGGCGGCCGAAACGGGCGGCTCCGTCCTCATCACCACCGATGCCGCCGAGGCCCTCAAGGGCGCCGATGTCGTGGCGACGGACACCTGGGTTTCGATGGGCCAGGAGGCCGAAAAAGAAGCCCGGCTCCAACTGTTCCGGAAGTACTCCGTCGACGAGGCCGCCATGGCACTCGCGGCGGATGACGCCGTCGTGCTTCACTGCCTCCCGGCATACCGCGGCTATGAGATCTCGGCAGGTGTCATTGACGGACCCCAGTCCATCGTGTGGGATGAGGCGGAAAACCGGCTGCACGCCCAGAAGGCCCTGATGGCGTGGCTCATGCACCGGTCCGGCCTGGCGGTGGTCGACGGGCTGCCGCCGGTGGCGGGGCAGGCTTAG	MTSPAASTTSAATPVPTRHFLKDTDLSPAEQAEVLELAVRMKAAPYSVQPFAAQGSGRKTVAVIFDKTSTRTRVSFAAGVADMGGTALIINPGEAQIGHKESVEDTAKVLERMVSTVVWRTGAHSGLVAMAENSKVPVINALCDDYHPCQLLADLLTVKEHKGSLQGLTMAYLGDSANNMANSYLLAGVTAGMHVRIAGPEGYLPAAAIVADAEERAAETGGSVLITTDAAEALKGADVVATDTWVSMGQEAEKEARLQLFRKYSVDEAAMALAADDAVVLHCLPAYRGYEISAGVIDGPQSIVWDEAENRLHAQKALMAWLMHRSGLAVVDGLPPVAGQA	PGPT0020080_1864	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020080-arcB|argF|argI-K00611	NA	NA
D1-17_02544	1272	argD	COG4992	Acetylornithine aminotransferase	ATGAGCAATCTTGAACACTCGGCAGTGGCCGAGCAGTCCCCGGTGACTGAGCTCGTTGAAACAAGCGGGCACGCGGGCTCAGAGTGGCTTGCCCGCTACTCATCGGCCCTCATGGGCGTTTTCGGCACGCCGCAGCGTGTCCTGGTGCGCGGAGCCGGCTGCCTTGTCTGGGACGCGGACGGCAAGGAGTACCTGGACCTGCTCGGCGGTATCGCTGTCAACGCCTTGGGACACGCCCACCCGTTTGTGACCTCGGTGATCTCCAGCCAGTTGGCCACGCTTGGGCATGTCTCCAACTTTTTCACCAGCCCCACCCAGATTGCCCTGGCCGAAAAGCTCCTGGCCCTGGGCAACGCACCGTCCGGCTCCAAGGTGTTTTTCACGAACTCCGGGACGGAAGCCAACGAGGCCGCCTTCAAGCTGGCCCGGCGTAACTCGGACGGACCGGGCGGGACCCGCAGCAGGATCATCGCCCTGGAAGGTGCCTTCCACGGCCGGACCATGGGTGCCCTCGCGCTGACGGCGAAGGAAGCCTATCGGGCACCGTTCGAGCCCATGCCCGGCGGCGTGGAGCACATTCCGTTCGGCGACATCGACGCGCTCCGCAACGCGGTGGACGAGACGGTGGCGGCCGTCTTTCTCGAACCCATCCAGGGTGAAGCCGGCGTCCGTCCGCTTCCTGCCGGGTACCTGCAGGCCGCCCGCGAGGCCACCTCGGCGGCCGGTGCGCTGCTGATCCTCGACGAGGTCCAGACTGGCATTGGACGTACCGGCAAGTGGCTGGCCAGCGAAGACGCAGGAATCGTGCCCGACGCCGTGACCTTGGCGAAGGGCCTCGGCGGCGGATTCCCCATCGGCGCGCTCATGACCTTCGGCCAGGAAACGTCGTCGCTGCTGTCCGCAGGGCAGCACGGCACCACGTTCGGCGGCAACCCCGTGGCCACGGCCGCCGCCTTGGCCACCCTGCATGCCATTGAAAGCCAGCAGGTGCTGGACAACGTCCGGAAGGTCGGGGACCACCTTCGCTCCGCCCTGGCCGCCGCTGACGGCGTGACCGAAGTCCGCGGGGAAGGGCTGCTGATCGGCTTCGATTTGGACGCCGATGTGGCGCCTGCCGCTGTCACCGCGGGCCTCGAGGCGGGATTCATCATTAACAGCCCCGGCCCGCGCACCATCCGGCTCGCGCCGCCCCTCATCCTCACCGAGGAGCAGGCGGACCGGTTCCTGGCAGCCCTCCCGGCCATCCTGCAAACTGCAAAGGACGCACAGTGA	MSNLEHSAVAEQSPVTELVETSGHAGSEWLARYSSALMGVFGTPQRVLVRGAGCLVWDADGKEYLDLLGGIAVNALGHAHPFVTSVISSQLATLGHVSNFFTSPTQIALAEKLLALGNAPSGSKVFFTNSGTEANEAAFKLARRNSDGPGGTRSRIIALEGAFHGRTMGALALTAKEAYRAPFEPMPGGVEHIPFGDIDALRNAVDETVAAVFLEPIQGEAGVRPLPAGYLQAAREATSAAGALLILDEVQTGIGRTGKWLASEDAGIVPDAVTLAKGLGGGFPIGALMTFGQETSSLLSAGQHGTTFGGNPVATAAALATLHAIESQQVLDNVRKVGDHLRSALAAADGVTEVRGEGLLIGFDLDADVAPAAVTAGLEAGFIINSPGPRTIRLAPPLILTEEQADRFLAALPAILQTAKDAQ	PGPT0014253_226	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
D1-17_02545	957	argB	COG0548	Acetylglutamate kinase	ATGAACACCCAGACCCGCGAGACAACGTCCATGCGCGACGCGCAAGACAAAGCCGGCACCCTGATCGAGGCACTGCCCTGGATCCAGCGCTTCGCCGGCACCACGATGGTGATCAAGTACGGCGGTAACGCCATGGTGAACGACGAACTGCGCCGCGCCTTCGCCGAGGACGTGGTGTTCCTGCACCACGTGGGTATCCATCCTGTGGTGGTGCACGGCGGCGGTCCGCAGATTAACGCCATGCTGAGCCGGCTGGGCATCGAATCCGAGTTCAAGGGCGGCCTGCGCGTCACTACGCCCGAGGCCATGGATGTGGTCCGCATGGTCCTCACCGGCCAGGTGGGCCGCGAACTGGTGGGCCTCATCAACTCCCACGGCCCGTACGCCGTGGGCATGTCAGGTGAAGACGGCGGCCTGCTGCGCGCGGTCCGTACCGGCACCGTGGTGAACGGCGAAGAGGTGGACCTCGGTCTTGTCGGCGAAGTGGTGGGTGTCAACCCCGAAGGCATTGTCGACATCCTCGCGGCCGGCCGGATCCCGGTGATCTCTACTGTTGCGCCGGAGATTTTCAACGACGGCGCAGCCGACGGAGCCGGCCGTGGGCAGACTACCGGCCAGGTCCTGAACGTCAACGCAGATACGGCAGCCGCCGCCCTGGCCGAAGCGCTAGGCGCGTCCAAGCTGGTCATCCTGACCGACGTCGAAGGCCTGTTCGCCAACTGGCCGGACCGCTCGTCCCTGATCTCGTCACTGACCGCCTCAGAGCTCCGGGACCTGCTGCCTTCCCTCGAATCCGGCATGATTCCCAAGATGGAGGCGTGCCTGAAGGCCGTCGAAGGCGGCGTGGAACGCGCGCACATCGTGGACGGGCGCCTCGCGCACTCGATGCTCCTTGAAACATTTACGACGGCGGGCATCGGCACGCAGGTGGTCCCCGACGAGGAAACGGAAGCATGA	MNTQTRETTSMRDAQDKAGTLIEALPWIQRFAGTTMVIKYGGNAMVNDELRRAFAEDVVFLHHVGIHPVVVHGGGPQINAMLSRLGIESEFKGGLRVTTPEAMDVVRMVLTGQVGRELVGLINSHGPYAVGMSGEDGGLLRAVRTGTVVNGEEVDLGLVGEVVGVNPEGIVDILAAGRIPVISTVAPEIFNDGAADGAGRGQTTGQVLNVNADTAAAALAEALGASKLVILTDVEGLFANWPDRSSLISSLTASELRDLLPSLESGMIPKMEACLKAVEGGVERAHIVDGRLAHSMLLETFTTAGIGTQVVPDEETEA	PGPT0014249_322	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
D1-17_02546	1167	argJ	COG1364	Arginine biosynthesis bifunctional protein ArgJ	GTGACCGTGACCGCACCCCAGGGCTTCCGGGCCTCCGGCGTGAAAGCCGGACTCAAGGCGTCCGGAAACCCTGACCTCGCCCTCGTGGTCAACGACGGTCCCTCCAAGGCTGCTGCAGCAGTTTTCACGTCGAACCGGGTGGCCGCCGCCCCTGTCCACTGGTCGCGTCAGGTGGTCTCCGACGGCCGCGTGGACGCAGTCATCCTGAACTCCGGCGGAGCCAACGCGTGCACCGGTCCGCAGGGTTTCCAGAACACCCATGCGACAGCCGAGAAGACGGCCAAGGTCCTCGGAATTTCCGCCACAGACGTCTTCGTCTGCTCCACCGGCCTGATCGGCGAGCAGCTGCCAATGGACAAGCTGCTTCCGGCCGTCGACGCTGCTGCTGCCGCGCTCACCGTTGATGGCGGAGCTGCCGCAGCCGCCGCCATTATGACAACGGATACGGTGCCGAAGCAGGCTGTATTCAAAGGCGCCGACGCCAAAGGCCAGGAATTCACTATCGGCGGCATCGCCAAGGGCGCGGGCATGCTCGCGCCCGGACTGGCCACCATGCTGGTGGTCCTCACCACAGATGCCGACGTTCTGCCGGAAATGCTCGACTTCGTCCTCCGCGACGCCACGCGGGTCACCTTTGACCGTGCCGACTCGGACGGCTGCATGTCCACAAACGACACCGTGGTGCTGCTGGCCTCCGGTGCGTCCGGTGCCGTTCCCTCCGCCGAGGCCTTCGGCAAGGGTCTTACACAGGTGTGTGCTGAACTGGCGCGCAAGCTGATCGGCGATGCCGAGGGTGCCAGTCACGACATCGCCATCCGGACGTTCAACGCTGCCAGCGAACGCGACGCCGAAACCGTCAGCCGTGCGGTCGCCCGTTCCAACCTCTTCAAGGCGGCCATCTTCGGCAAGGACCCGAACTGGGGACGTGTCCTGTCCGCCGTCGGTACCACGGACGCCGCCTTCGAGCCGGACCAGCTGAACGTCTCCATGAACGGAGTCCAGATCTGCCGCAACGGCAGCATCGGTGAGGACCGCAGCCGCGTGGACCTCGAGCCGCGCGAGGTGATCGTTGAGATCGATCTCCAGGCCGGCGATGCAGAAGCCACCATCTGGACGAACGACCTCACCCACGACTACGTCCACGAGAACAGCGCGTACTCAAGCTAG	MTVTAPQGFRASGVKAGLKASGNPDLALVVNDGPSKAAAAVFTSNRVAAAPVHWSRQVVSDGRVDAVILNSGGANACTGPQGFQNTHATAEKTAKVLGISATDVFVCSTGLIGEQLPMDKLLPAVDAAAAALTVDGGAAAAAAIMTTDTVPKQAVFKGADAKGQEFTIGGIAKGAGMLAPGLATMLVVLTTDADVLPEMLDFVLRDATRVTFDRADSDGCMSTNDTVVLLASGASGAVPSAEAFGKGLTQVCAELARKLIGDAEGASHDIAIRTFNAASERDAETVSRAVARSNLFKAAIFGKDPNWGRVLSAVGTTDAAFEPDQLNVSMNGVQICRNGSIGEDRSRVDLEPREVIVEIDLQAGDAEATIWTNDLTHDYVHENSAYSS	PGPT0014244_3177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
D1-17_02547	1032	argC	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGACTATTTCTGTTGCCGTCTCAGGTGCCAGCGGCTATGCCGGCGGCGAGGTGCTGCGCATTCTGTCCGGCCACCCCGGTGTCACCCTCGGCGCCATCACCGCACACAGCAACGCCGGTTCAAGACTAGGCGAACTGCAGCCGCATCTCCATGGCCTGTCCAGCCGAATTCTTGAGGACACCACCGTGGAGAACCTGGCCGGGCACGACGTCGTGTTCCTGGCCCTTCCGCACGGTGCCTCCGCGGACATCGCCGCTAAGCTGCCCGGGGACACCGTGGTGATCGACGCCGGAGCGGACCATCGCCTTGAGGATCCGGCGGCATGGGAAAAATTTTACGGTTCCGCGCACGCCGGCACCTGGCCATACGGTCTGCCCGAACTTCCCGGACAGCGGGAGAAGCTCAAGGGCGCCAAGCGGATCGCCGTGCCCGGGTGCTATCCGACGTCGGCACTGCTGGCCCTGACGCCGGGCTTTGCCGCCGGGCTGCTCCAGGGCGAGGATGTGGTCATCGTTGCCGCCTCGGGCACGTCGGGCGCCGGAAAGGCCGCAAAGGTCAACCTGATCGGGTCCGAAGTCATGGGCTCCATGAGCCCCTATGGGGTAGGCGGCGGCCATCGCCACACTCCCGAGATCGAGCAGGGGCTGTCCAACGCCGGGGGGGAATCAGTCACCGTGTCCTTCACGCCCACGCTGGCCCCCATGAGCCGCGGCATTCTCACCACCGCCACGGCCAGGATCAAGCCGGGCGCGTCCGTCGAGCAGCTCCGCGCCGCCTGGATGGAGGCTTACGACGACGAACCCTTCGTCCACCTGCTGCCGGAGGGCCAGTGGCCCTCCACCAAGTCCGTCCAGGGCTCCAACCACGCGGCCATGCAGCTGGCCCTGGACACGCACACCGGCCGCGTCATCGTTACCTGCGCCATCGACAACCTGACAAAGGGGACCGCAGGCGGAGCCGTGCAGTCCATGAACATCGCTCTTGGCCTTGCGGAAACCGCAGGCCTCAACCTGCAGGGAGTCGCCCCGTGA	MTISVAVSGASGYAGGEVLRILSGHPGVTLGAITAHSNAGSRLGELQPHLHGLSSRILEDTTVENLAGHDVVFLALPHGASADIAAKLPGDTVVIDAGADHRLEDPAAWEKFYGSAHAGTWPYGLPELPGQREKLKGAKRIAVPGCYPTSALLALTPGFAAGLLQGEDVVIVAASGTSGAGKAAKVNLIGSEVMGSMSPYGVGGGHRHTPEIEQGLSNAGGESVTVSFTPTLAPMSRGILTTATARIKPGASVEQLRAAWMEAYDDEPFVHLLPEGQWPSTKSVQGSNHAAMQLALDTHTGRVIVTCAIDNLTKGTAGGAVQSMNIALGLAETAGLNLQGVAP	PGPT0014251_2019	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
D1-17_02548	1146	dthadh		D-threo-3-hydroxyaspartate dehydratase	ATGATCCCTCCTGAGATCACCACGCCCGAGGTGATGATCGACGTCGACATTCTCGACCGGAACATCGCCAGGATGGCCGCGGTGGCGCAAGCCCGCGGACTGCGGCTGCGCCCGCACGCCAAGACCCACAAGGTGCTGGAAATCGCGGAGCGTCAACTTGCGGCCGGCGCCGTCGGGCTGACGGTGGCGACCATCGGTGAGGCAGAAGTCTTCGCCACGGCTGGCGTCGCGGACATCTTTATCGCTTATCCGCTGTGGGTGACGGCATCCCAGGCGGCGCGGCTGCGGAAGCTCGCGGAGACCAGCAGAGTCGCAGTGGGCGTGGACTCGGCAGAAAGCGCGGCCTTTATGGGAGGGAACCTGGGAGCCGGTGCGGGCAGGGTTTCTGTCCTTGTGGAGCTCGACAGCGGACACCACCGCAGCGGCGTCCGGCCCGAGGATGCAGCCGCAGTTGCGCGGGCCGCCGCAGCTGCCGGACTGGACGTGGCCGGTGTCTTCACCTTCCCGGGCCACAGCTACGCGCCGGGAATGCCAATGGCAGCGGCCCGGCAGGAAGACGAAGCCCTGCGCCGAGGGGCTGACGAGCTGGCCGCCGCAGGTTTCACCGTGCGGACCGTCAGCGGCGGGTCCACCCCCACTGCCTCTCTCGACGGCGGTGCTTCTCACAACGGCAGTGCTTCTCCCGGCGGCGGTGCCTCTCTCGACAGCACGGCGGTAACTGAACTGCGCCCCGGGGTTTACGTGTTCGGCGACGCCCAGCAGTTCGAGCTTGGGCGGTGCGAAACCGCCGACATCGCCCTGACGGTTGCCAGCACTGTGGTCAGCCACCACCGCACTGCGCCGGGTGAACCGGGGCGCTTCATCATTGATGCAGGCAGCAAGGTCCTGGGCAGCGACCGCCCGGCCTGGGCCAGCGGCTATGGCCGGCTTCTGGACCATCCGGACGCCAGAATTACCGCCCTGTCCGAACACCACGCCACTGTTGAATGGCCGCCGGGACTCCCTCTGCCGGACCGCGGAGAGCGGCTCAGGGTGGTTCCCAACCACGTGTGCCTGACGATGAACCTGGTGGACGAGGTGTGTCTCATCCGTGCGGGAGCGCTCGCGGGGCGGTGGGAAGTGGCGGCACGCGGCAAGAACAACTGA	MIPPEITTPEVMIDVDILDRNIARMAAVAQARGLRLRPHAKTHKVLEIAERQLAAGAVGLTVATIGEAEVFATAGVADIFIAYPLWVTASQAARLRKLAETSRVAVGVDSAESAAFMGGNLGAGAGRVSVLVELDSGHHRSGVRPEDAAAVARAAAAAGLDVAGVFTFPGHSYAPGMPMAAARQEDEALRRGADELAAAGFTVRTVSGGSTPTASLDGGASHNGSASPGGGASLDSTAVTELRPGVYVFGDAQQFELGRCETADIALTVASTVVSHHRTAPGEPGRFIIDAGSKVLGSDRPAWASGYGRLLDHPDARITALSEHHATVEWPPGLPLPDRGERLRVVPNHVCLTMNLVDEVCLIRAGALAGRWEVAARGKNN				NA	NA	NA	NA	NA
D1-17_02549	393			hypothetical protein	ATGAGTCAGACGCTCGTCGGGCCGCTCGCCGAAGCCGCGCTGGAGCGCATGACCTTCGACCGGGTCTTCCTGAGCGCCGATGCCGTGACCGCAGAAGACGGCCTGTGCGAGGTGGACCACGCCCAGACCAGGCTGAAGGAGCTCATGGCGCGGCGCGGCGCCACCGTGTACGTCCTCGCTGACTCCAGCAAGCTTGGCAAAAAGCCCTTCCACGCCTGGGCCCGGATTCCGCTGCCCTGGATCCTCGTCACAGACACGTTTGCCGACGCCGGGCAGGTGCAGCTCTTCCGGGACACCGGCATTCAGGTCCACCTCGTGGACCCCGGGGGAGCAGGAATTGCGCAACCTCACGAAGAGACTGCCGGCAGCGCCAGCAAGGCCAGGGCGTCATGA	MSQTLVGPLAEAALERMTFDRVFLSADAVTAEDGLCEVDHAQTRLKELMARRGATVYVLADSSKLGKKPFHAWARIPLPWILVTDTFADAGQVQLFRDTGIQVHLVDPGGAGIAQPHEETAGSASKARAS	PGPT0017590_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
D1-17_02550	345			hypothetical protein	ATGACGACAGCGAAGGCCGGACGGGAAGAGATCTACCATCTCGCCGTCACCACCGGGTTGGCATCTGTGGAGGAACTGTCCCGGCATGTCAACGTGACGGCTTCGACAATCCGCCGGGACATCGCGCATCTGAACGGTGAGGGCAAGCTGGCCCGGACCTACGGGGGCGCTGCTGCCCTCGGCGCCCACCCGGAACCGTCCCTGCGCCAGCGCACGGCGAGGCGTTCGAGCAGAAGCAGGCCATTGCTGCCTGGGTGGCCACACCCGGCATCAACACCCTCCAGGAACTCGCTGATTCACCGGGCGTCCAGGTGGACTGCCTCGGCGGCAGGCTCCGCGGCATGA	MTTAKAGREEIYHLAVTTGLASVEELSRHVNVTASTIRRDIAHLNGEGKLARTYGGAAALGAHPEPSLRQRTARRSSRSRPLLPGWPHPASTPSRNSLIHRASRWTASAAGSAA				NA	NA	NA	NA	NA
D1-17_02551	411			hypothetical protein	GTGGCGGACAACAAAGCCGGGATCATCATGCACCTTGCCGCCTTCCGGGCCCTATGGGAGGAACGGGAAGACAGCCTCGGAATCGGCATCACCTTCTTCATTGAGGGTGAGGAGGAAGCGGGGTCTCATGCTGACTGCCGTGGAAGAGTCTTGGGGAAAGCCGGCTGTGGAAAGGGGAGTCGGCGGTTCAATTCCCGTAACGGGCGTCATGGCGGAGGCTTTCCCCACGCTACTGTCCTGATCAACGGCGCTGAAGACCCGGATTCCCGCGCTCACGGCGCCAATGAGTCCATTGACTCGGCGGACTTCGGGAACGGCATCCTGGCCGAGGCATTGTTCCTCGATCAGCTGAACGGAGGTCAGCTGAACGGAGGTCAGTTGAACAGAGGCCAGCTAAATATGATCAGGTGA	MADNKAGIIMHLAAFRALWEEREDSLGIGITFFIEGEEEAGSHADCRGRVLGKAGCGKGSRRFNSRNGRHGGGFPHATVLINGAEDPDSRAHGANESIDSADFGNGILAEALFLDQLNGGQLNGGQLNRGQLNMIR				NA	NA	NA	NA	NA
D1-17_02552	1785	asnB	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGCGGCATAGCGGGCGAGCTGGCCTTCCGGGGGGCAAGGGTTCGGCTGCGGTCAGTGGAGCGGATGACGGATTCCATGGCGGATAGAGGACCGGACGGAGAGGGGGTTTGGAGTAACAGCTGGGTGGCCCTGGGGCACAGGCGTTTGAGCATCATCGACCTGTCCGAAGCGGGTGCCCAGCCCATGATTGACGAGGGCGCCGGGCTGGCGCTGGTCTTCAACGGGTGCATCTACAACCACCATGAGCTCCGCAGGGAGCTTCAACAGCATTACGCCTTCGATTCCAGCAGCGACACTGAGGTGATCATCAAGGCCTATCGTCATTGGGGCGAGAACTTCGTGGACCACCTTGTGGGCATGTTTGCGATTGCCCTGGTGGACCGCCGGCGCAACCAAGTGGTCCTGGCCAGAGACCGCCTGGGCATCAAGCCGTTATACCTGGCATCCGTGGAAGGCAGCCTGCGGTTCGCTTCGACGCTGCCAGCGGTTTTGGCGGGCGGCGGGGTGGACACCGGAATCGATAATGTAGCGCTCCATCATTACCTCAGCTGGCATTCCATTGTGCCGGCCCCCCGCACCATCCTGGCCGGAGTTCGCAAGCTGCCTCCTGCTACCGTCCGGGTGGTCACCCCCGACGGTAGCCATCGGGACCGCGTCTACTGGAAGCCGGACTACGTCAGGCGTCAGGATCAGGCCCTGTGGACGCCGGACGATTGGCGTGAAGCCCTGCATCAGGCATTGCGGACTGCAGTTGCACGGCGGCTGGTCGCGGACGTTCCTGTTGGCGTGCTCCTCTCCGGCGGGCTCGATTCCAGCCTGCTGGTTGCCCTGCTCGCTGAGGGCGGCCAGTCCGGCCTCAATACCTTCAGCATTGGGTTCGACGGGACCGGCGGTGAAAGCGGCGACGAGTTTGAGTACTCGGACCTGATCGCCAGGAATTTCGGCACGGACCATCACAGGCTTCATATTCCCGTTTCCGAGTTTGCCCCGGCTGTTGCCGATGCGGTGGCCGCCATGCCTGAGCCCATGGCAAGCCATGACGTCCCTGCGTTCTTCCTGCTGTCAAAGGCTGTATCCGAGCAGGTCAAGGTGGTGCAGTCCGGCCAGGGCGCTGATGAAGTGTTTGCCGGATACGCCTACCACCAGCCTGCCGCAGCGGTTGCCCGAGAGCAGGCACTCGGCACCTTCACTGAAGCATTTGTGGACCGGAGCCATGCCCAGATGCTGGACGTGCTCGAGCCGGAGTGGCTGTGCCTGAGGGATGTGAGCCGGGAGCGACTGGCGGCGGAACTGGCTGTTCCCGGAGCGGAAACAGCCTTGGATGCCATTCTGCGCCTGGACACGCACGTCCTCATGCCTGACGATCCTGTCAAGCGGGTGGACAGCATGACCATGGCTTGGGGGCTGGAAGCCCGCGTTCCCTTCCTTGATCAGGACCTCGTTTCCCTGGCTGCCGCTTGTCCGCCCGGACTTAAGGCCGGGCAGGGCGGTAAGGGCGTGCTCAAGGATCTTGGCAGGGGGATCCTGCCGGACGACGTCATCGATCGGCCCAAGGGCTATTTCCCGGTTCCCGCCCTCCGCCACCTTGAGGAGCCGTTCCTCAGCATGGTCAGCGATGCCCTTCATACCCCCGAGGCCAAGCAGCGGGGCTTGTTCCGGAGCGACTTTGTGGAGGGGTTGCTGGCGAATCCCAACGAACGCTTCACCCTGGCCAGGGGCAACCTGCTGTGGCATCTGGGCGTTCTGGAGATGTGGCTGCAGCAGCATGGGGTTGGAACTTAA	MCGIAGELAFRGARVRLRSVERMTDSMADRGPDGEGVWSNSWVALGHRRLSIIDLSEAGAQPMIDEGAGLALVFNGCIYNHHELRRELQQHYAFDSSSDTEVIIKAYRHWGENFVDHLVGMFAIALVDRRRNQVVLARDRLGIKPLYLASVEGSLRFASTLPAVLAGGGVDTGIDNVALHHYLSWHSIVPAPRTILAGVRKLPPATVRVVTPDGSHRDRVYWKPDYVRRQDQALWTPDDWREALHQALRTAVARRLVADVPVGVLLSGGLDSSLLVALLAEGGQSGLNTFSIGFDGTGGESGDEFEYSDLIARNFGTDHHRLHIPVSEFAPAVADAVAAMPEPMASHDVPAFFLLSKAVSEQVKVVQSGQGADEVFAGYAYHQPAAAVAREQALGTFTEAFVDRSHAQMLDVLEPEWLCLRDVSRERLAAELAVPGAETALDAILRLDTHVLMPDDPVKRVDSMTMAWGLEARVPFLDQDLVSLAAACPPGLKAGQGGKGVLKDLGRGILPDDVIDRPKGYFPVPALRHLEEPFLSMVSDALHTPEAKQRGLFRSDFVEGLLANPNERFTLARGNLLWHLGVLEMWLQQHGVGT	PGPT0020150_4255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
D1-17_02553	813	ybeM		Deaminated glutathione amidase	ATGCGAATTGCCTCTGGACAGTTCCCTGCCGGAACAGACCCCGCAGGGAATCTGCAGGAAATCGCAAGGCTCATGGAAACAGCGTCCGCCGGCGGCGCTGACCTTTTGGTGCTTCCCGAATCGAGCCTTTACGCCAGTGCGGGGCCGGCCGCGCTCTCCTCCGTCGCCCAGGACCTTGACGGCCCCTTCATCGGCGGAATCGCTGCCCGCGCAAGGGAACTTGCCCTGCCGGTGGTGGTGGGCACGACGGAGGCGAACCCGGAAGGCTTGCCATTCAACACGGCGGTCTCTGTCGACGCAGCAGGTGGGATATCCGGTACGTACCGCAAGGTCCACCTCTATGACGCCTTCGGCTACCGTGAAAGTGACGGCATCAGCCCCGGGGAGATCGGCCCGCCCTTCCTGCTTCAGTTCGGGGAACTTCGCCTCGGAGTGCTCACCTGCTACGACCTGCGTTTTCCCGAGAGCTCCCGCCACCTGGTAGACGCGGGCGCGAATGTGCTGCTGCTTCCGGCAATGTGGATCAGCGGGCCGGGAAAGGAAGACCACTGGTCAACGCTGGTCCGGGCCAGGGCCATCGAAAACACGTCCTACATCGTCACGGCAAACCAGACTGGACCGCTGGCCACCGGATACTCGCTGATCGTGGATCCCTTCGGCGTGGTCATTGCCAACGCCGGCGAAGCGCCAGGAGTGGCTTTCGCCGACCTCAGATTCGAGCGGATCGCGGCCGTCCGCCGAAAGGTACCGTCCCTGGCGAACCGCAGGTTCCGGACAGTTGCCGGTGGCCCGGATCACTCCCAGATTCCATAA	MRIASGQFPAGTDPAGNLQEIARLMETASAGGADLLVLPESSLYASAGPAALSSVAQDLDGPFIGGIAARARELALPVVVGTTEANPEGLPFNTAVSVDAAGGISGTYRKVHLYDAFGYRESDGISPGEIGPPFLLQFGELRLGVLTCYDLRFPESSRHLVDAGANVLLLPAMWISGPGKEDHWSTLVRARAIENTSYIVTANQTGPLATGYSLIVDPFGVVIANAGEAPGVAFADLRFERIAAVRRKVPSLANRRFRTVAGGPDHSQIP				NA	NA	NA	NA	NA
D1-17_02554	804		COG2071	Putative glutamine amidotransferase	ATGAACTCTGCCGATACCGCAATGCAGCCGATCATTGGGCTGACCACGTATCTGGAACAGGCCGGGACCGAGGGTTGCGGCACTGTGAATGCGGCCTTCCTGCCGGAAACCTACCTGACCCCGATCGTGGCTGCCGGCGGAGTGCCTGTATTGCTTCCTCCTCAGCCGGTTCTCGGAACCAGTGTCGAGCATCTGGTGAGCAGGCTTGACGGATTGGTCATTCCGGGCGGCTGGGATGTTGACCCTGCCCGCTATGGGCAGGAGGCACATCCTGCGACGGACGCGCCTCGGCCGGAGCGGGATGAATGGGAAGCAGCACTCATCCTTGAAGCAATCCGGCAGGACGTCCCGCTCTTGTGCATCTGCCGCGGGGAGCAGATGCTGAACGTGACGCTCGGCGGAACACTGCACCAGCACTTGCCTGACATTGTTGGTACCGCGGCCTACCAGCCTGGCGGCTACCAGTTCAATTCCATCCGGGTGGAGTTGCGCGCCGATTCCAAGTTGGGACGTCTTTTTGGCTCCGCTGGCCTCGACGGAGTGCCGGTGTCGCACCACCAGGCAGTGGCCCGCTTGGGACAGGGTCTGATCGCTACGGCTTGGAGTGATGATCAGATCATCGAAGCGGTTGAATTGTCAGGCCATAGGTTCTGCATCGGTGTGCAGTGGCACCCTGAGCAGCTGGCTGAGGAAATGGCACTCTTCCAGGCGCTCATTGAAGCAGCCAGGGGCAAAATGCTCACGCGGCTCGTCCCGGCCACGTCGGAAGCTCCGATCTTGGCAGAGGAGCTCAGCGCGAGCTAG	MNSADTAMQPIIGLTTYLEQAGTEGCGTVNAAFLPETYLTPIVAAGGVPVLLPPQPVLGTSVEHLVSRLDGLVIPGGWDVDPARYGQEAHPATDAPRPERDEWEAALILEAIRQDVPLLCICRGEQMLNVTLGGTLHQHLPDIVGTAAYQPGGYQFNSIRVELRADSKLGRLFGSAGLDGVPVSHHQAVARLGQGLIATAWSDDQIIEAVELSGHRFCIGVQWHPEQLAEEMALFQALIEAARGKMLTRLVPATSEAPILAEELSAS	PGPT0007105_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HQQ|PQS_BIOSYNTHESIS,PGPT0007105-trpG|phnB-K01658	NA	NA
D1-17_02555	690			hypothetical protein	ATGAGCACCGCTAAAGCCAAGCGGGAAGAGATCTACCACCTGGCCGTCACCACCGGGTTGGCATTGGTGGAGGAACTGTCGCGGCATACCGGGGTCACCGCTTCCACCATCCGGCGCGATCTTGCCCACCTCAACGGGCAGGGAAAGCTGGCGCGGACCTACGGCGGCGCGGTGGCGCTGGGCGCCCACCCCGAGCCGTCCCTGCGGCAGCGGACGGGGGAGGCGTGTGAGCAAAAGCACGCCATCGCCGCTTGGGCCGCCGCCGAGGTGAAGGACGGCGAAAACATTCTGCTTGGTGGGGGGTCGACGGTAGGAGCGCTTGCACACGCCCTGCGCGCTCGGGAAAATCTCTCCGTCACCACCCCCGGCCTGAACACACTCCAGGAACTGGGGGACTCGGCAGGGGTCCAGGTGGACTGCCTCGGCGGCCGGCTGCGCGGCGTGAGCCAGACGTTCGTCGGTCCCCTCGCCGAGGCGGCACTGGAACGGATGAGCTTTGACCGGGTGTTCCTGGGAGCGGACGCCGTCACGGCAAGCGACGGCCTGTGTGAGCGGGCCATGCGCAGACCCGGCTCAAGGAGCTCATGGCGCGGCGCGGCGGCGCCGTCTACGTCCTTGCCGACTCCAGCAAGCTGGGCAAGCGCCCGTTCCGCGCCTGGGTCAGGATCACACTGCCGTGGACGTTGGTGA	MSTAKAKREEIYHLAVTTGLALVEELSRHTGVTASTIRRDLAHLNGQGKLARTYGGAVALGAHPEPSLRQRTGEACEQKHAIAAWAAAEVKDGENILLGGGSTVGALAHALRARENLSVTTPGLNTLQELGDSAGVQVDCLGGRLRGVSQTFVGPLAEAALERMSFDRVFLGADAVTASDGLCERAMRRPGSRSSWRGAAAPSTSLPTPASWASARSAPGSGSHCRGRW	PGPT0017590_617	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
D1-17_02556	966			2-haloacrylate reductase	ATGACGCATGCCATCGTCGCCCAGCAGCCGGGCGGACCCGAGGTCCTGAACTTCGCGGAAATCGACCGTCCCGTCCCCGGTCCCGGCCAGTTACTCGTCAAGGTCGCGGCCGCCGGCGTGAACTTCATTGATACGTACCAGCGCGGCGGCATGTACAAGGTTCCTTTCCCGTTCACTCCGGGATCGGAGGTCGCCGGCACCGTAGAGGAAGTCGGCGAGGGCGTGGAGAACTTCTCGGTGGGCAGCCGGGTAGCCACGGCCGAGGGTTCCAAATGCTACGCCGGCTACACGATCCTGGATGCGGCGAAGGCCCTTCCGGTGCCCGACGGCGTGGATGACCAGACGGCCGCGGCGCTCCCCCTGCAGGGCATGACGGCGCATTACCTCATTAACTCGTCCTTCAGGGTGGAGCCGGGCCACACGGTGCTGACGCATGCGGGAGCCGGCGGTGTGGGCCTGCTGCTGACCCAGCTGCTTAAGGAGCGGGGCGCCAGGGTTCTCACGACGGTGTCCTCCGACGCCAAGGAAGAGCTTGCCCGGGAAGCCGGCGCCGACCAGGTGCTGCGGTATGAGGGATTTCCCCACCATGTCCGCGAGCTGACCGGTGGCAAGGGCGTGGATGTGGTGTACGACGGCGTTGGCCGGAACACGTTCGACGGGTCAATGTCCTGCCTGCGGGTCCGCGGGTCGCTCGTCCTGTTCGGAGCAGCGTCCGGTGCTGTCCCGCCCGTTGACCCGCAGCGCCTGAACGCGGGCGGATCGCTGACGCTGACCCGGCCGTCCCTCGCGCATTTCCTGCTCAACGAACAGGAACGGCACTGGCGTTCCGGGGAGATCTTCGCCGCCGCCGCGAACGGGAACCTCAAGGTCCGGATCGGCGCCACCTACCCCTTGGCCGAAGCCCGCCAGGCCCACGAGGACCTCGAGGGACGGCGCACCACGGGCAAGGTGCTGCTGGTGCCATAA	MTHAIVAQQPGGPEVLNFAEIDRPVPGPGQLLVKVAAAGVNFIDTYQRGGMYKVPFPFTPGSEVAGTVEEVGEGVENFSVGSRVATAEGSKCYAGYTILDAAKALPVPDGVDDQTAAALPLQGMTAHYLINSSFRVEPGHTVLTHAGAGGVGLLLTQLLKERGARVLTTVSSDAKEELAREAGADQVLRYEGFPHHVRELTGGKGVDVVYDGVGRNTFDGSMSCLRVRGSLVLFGAASGAVPPVDPQRLNAGGSLTLTRPSLAHFLLNEQERHWRSGEIFAAAANGNLKVRIGATYPLAEARQAHEDLEGRRTTGKVLLVP	PGPT0013255_8796	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-17_02557	2544	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	GTGCGTATCCCACTTTCCTGGCTGCGTGAGTTCGCGCAGGTACCGGCCGGAGCAACGGCTGAAGATGTCATGGCGGACCTGGTCAAGGTCGGTTTTGAAGAAGAAGCGGTGCACCGCCCCACTGATGCCCTGCGCGGGCCCGTCGTGGTGGGCCAGGTCCTGAGCCTGGTCAAGGAGCCGCAGTCCAACGGCAAGACCATCAACTGGTGCCAGGTGCGCGTTGTCCCCGAGGGGCAGGAGCAGACACTCACCGGCAAGGGCATCGACCCATCCGGCGTGCAGGGCATCGTCTGCGGCGCCCACAACTTCGTCGAGGGCGACAAGGTGGTGGTCACCCTGCCGGGTGCCGTGCTGCCCGGTGACTTCCACATCTCTGCCCGCAAGACCTACGGCCACATGTCCGCAGGCATGATCGCCTCCGTCCGCGAACTGGGCATCGGCGAGGACCACGACGGCATCCTCGTGCTCTCGAGGATTGGACTCGACCCGGAAATCGGGACCGACGCCATGGAGCTGCTGGGCCTCTACGACGAAGCCGCCGAAATCAACGTCACCCCGGACCGAGGTTATGCCTTTTCCATCCGTGGCGTCGCCCGTGAATACGCCCACGCCACGGGTACGGTCTTCACCGATCCCGTTTCCAGGGTCAGCGCACCGGCTTCCCTCACCGGCGGCTACGGCGTGAAGATCAACGATGACGCCCCCATCTATGGCAACCCGGGATGCGACCGGTTCGTCGCCCGCACGGTCCGGGGCGTTGACGCGACCCGGCCCACACCGCCGTGGATGGCTTCCAGGCTGCGACTGGCCGGGATCCGCTCGATTTCCCTGCCCGTAGACATTTCCAACTATGTGATGCTCGAGCTCGGACAGCCCCTGCATTTCTACGACCAGGACAAGCTGTCAGGCGAGATCGTGGTACGGCGTGCCGTGGCGGGCGAGAAGCTCACCACCCTCGACGGCAAGGAACGCGCACTTGACCCCGAGGATCTGCTGATTACGGACAATTCGGGCCCCATCGGCGTCGCAGGCGTCATGGGCGGTGCATCCACCGAGGTCTCCGACGCCACGTCCACGGTACTGATCGAGGCCGCGCACTTCGAGGAAGTCTCGATTGCCCGTTCGCGCCGGCGCCACAAGCTGCCGTCGGAAGCGTCGAAGCGTTTCGAGCGCGGCGTTGACTGGCAGGTGGCGAACATCGCCGCCCAGCGTGCCGTCGACCTGCTTGTGGAACTTGCAGGGGGCACGGCTGAGGAGACGGGCACCGACGTCGGAACCGCACCGGACGCCGTGTCCATCGCCCTGCCGGCCGCTTTCGCCGCCGAGCGGATCGGCATCGACTTCACGGAAGAGCAGATCGTTACTTCCCTTGAAGACCTCGGCGCAGTGGTGGAAAAGTCCGACGGCGGCTGGGCAGTTTCGGCACCAAGCTGGCGGCACGACCTGGAAACCAAGGAGGATCTTTCCGAGGAGATCGCCCGTCTGGTGGGATATGACCAGATCCCGGCGATCCTTCCGGTCGCTCCTCCAGGACGGGGCCTGACGCGCGTGCAGCAGCAGCGCCGCCGGCTCATCCAGTCTCTTGCCGACGCCGGTCTCACCGAGGTGCTGGCTTATCCGTTCGTCTCGAAGGCCGCCAACGATACCTTCGGCGTGGCAGAGGCCGGGGCTGCCCGCTCGGCAGTCAAGCTGGCCAACCCCATCAGCGAGGAGCACGGCTACCTCCGCACGTCGGTCCTGCCCGGCCTGATCGAGGTGGCCAAGCGCAACCATTCGCGCGGCTTCCGGGACCTGGCGCTGTTCGAGGCAGGGCTTGTCTTCCTGCCCGGCGAGTCACTGGGAACCGCCTCGATTCCGCCGCTGGGCGTCAGGCCTTCGGATGAGGTGCTGGACGCACTGTACGACGGCGTTCCCGCCCAGCCGCTGCATGTCGCCGCCGTCCTGACCGGCCATGACTCCCCGGCCGCGGCAGGGCACACGCCAAGGTTGTGGGACTGGGCCGATGCGCTGGACATCGCACGCCTCATCGGTGACGTGCTCGGCGTCGAGGTCGTTGTGGCGCAGGGGCAGCACCAGGCCTTCCACCCGGGCCGGGCCGCGCAGCTGTCGCTGCGCACCGGCGAGGTAGTTGGCTACGCCGGCGAACTGCACCCCAAGCTCCTGGCGGCGTCGGACATGCCGGCCCGTTCCGTCGCACTCGAGATCAACGCCGACGCTCTCTTCGAGGCGGCCGCCGACGTGATCGTGGCACGCCATATCTCCACCTTCCCGGTGGCGACGCAGGACGTTGCGCTCGTGGTGCCGCAGGAGATTCCTGCGGACGATGTGCTGGCTGCCCTGCGCGAAGGCGCCGGTGAGCTGCTCGAAGACGTCGCCCTGTTCGACGTGTACGCCGGCAAGGGGATAGAGGACGGCAAGAAGTCACTGGCCTTCGGGCTCCGCTTCCGCGCCAACGACCGCACCCTGACGGCCGACGAGGCTTCCGCCGCCCGGGAGAGCGCTGTGGCCGTGGCGGCCGAGCGCTTCGGAGCAGTCCAGCGCTGA	MRIPLSWLREFAQVPAGATAEDVMADLVKVGFEEEAVHRPTDALRGPVVVGQVLSLVKEPQSNGKTINWCQVRVVPEGQEQTLTGKGIDPSGVQGIVCGAHNFVEGDKVVVTLPGAVLPGDFHISARKTYGHMSAGMIASVRELGIGEDHDGILVLSRIGLDPEIGTDAMELLGLYDEAAEINVTPDRGYAFSIRGVAREYAHATGTVFTDPVSRVSAPASLTGGYGVKINDDAPIYGNPGCDRFVARTVRGVDATRPTPPWMASRLRLAGIRSISLPVDISNYVMLELGQPLHFYDQDKLSGEIVVRRAVAGEKLTTLDGKERALDPEDLLITDNSGPIGVAGVMGGASTEVSDATSTVLIEAAHFEEVSIARSRRRHKLPSEASKRFERGVDWQVANIAAQRAVDLLVELAGGTAEETGTDVGTAPDAVSIALPAAFAAERIGIDFTEEQIVTSLEDLGAVVEKSDGGWAVSAPSWRHDLETKEDLSEEIARLVGYDQIPAILPVAPPGRGLTRVQQQRRRLIQSLADAGLTEVLAYPFVSKAANDTFGVAEAGAARSAVKLANPISEEHGYLRTSVLPGLIEVAKRNHSRGFRDLALFEAGLVFLPGESLGTASIPPLGVRPSDEVLDALYDGVPAQPLHVAAVLTGHDSPAAAGHTPRLWDWADALDIARLIGDVLGVEVVVAQGQHQAFHPGRAAQLSLRTGEVVGYAGELHPKLLAASDMPARSVALEINADALFEAAADVIVARHISTFPVATQDVALVVPQEIPADDVLAALREGAGELLEDVALFDVYAGKGIEDGKKSLAFGLRFRANDRTLTADEASAARESAVAVAAERFGAVQR				NA	NA	NA	NA	NA
D1-17_02558	1062	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGACTGAAACCTTGCCGGGCGCTGCCGTCCCGAACCCCACGGATGAAGCCGCCATCACCGCCGCCGTCGAGCAGGCAATCTCCGCCATTGCAGGAGCCGCCACACTGGACGAACTCAAGGCAGTGCGTTTGGCCCACACCGGTGAGAAATCACCGCTGAGCCTGGCCAACCGCGAGATCGGACGCCTGCCCAAAGACCAGAAGGCCATTGCTGGAAAGCTCATGGGCGCCTCGCGCGGACGCGTTAACAAGGCGCTCGCCGACCGTACTGCCGAGCTTGAGGCTGAAAACGACGCGCGCATCCTGGTGGAGGAAACCGTTGACGTCACCGCAGCCCCCCGCCGCCGCCGGGCCGGAGCGCGCCACCCGCTCTCCACCCTGCAGGACCGCGTGTCGGACATCTTTGTAGGCATGGGATGGGAGATCGCTGAAGGCCCGGAAGTGGAGTCGGAGTGGTTCAACTTCGACGCCCTGAACTTCAAGCCGGACCATCCGGCCCGTGAAATGCAGGACACCTTCTTCGTGGAGCCGCCGGAAGCGCACCTCCTCATGCGGACCCACACCTCCCCGGTGCAGGTCCGTTCCATGCTGGAACGTGAGGTGCCGATCTACGTGCTGTGCCCCGGCAAGGTTTTCCGTACGGATGAGCTCGACGCCACGCACACCCCGGTCTTCCACCAGTTCGAGGGGCTGGCGATCGATAAGAACCTCAGCATGGCGGATCTGCGCGGCACGCTGGAGCACTTTGCCCGCCAGATGTTCGGTGACGAAGCCCAGATCCGGTTGCGCCCCAACTACTTCCCGTTCACCGAGCCGTCTGCGGAACTGGACATCTTCCACCCGGGCGCCAAGGGCGGTCCGCGCTGGATTGAGTGGGGCGGTTGCGGCATGGTCAACCCCAACGTCCTCCGCGCGGCCGGCATCGACCCGGACGTCTATTCAGGGTTTGCCTTCGGCATGGGCATCGAGCGCACGCTCATGTTCCGCAACGAGGTTGGCGACATGCGCGACATGATCGAAGGCGATGTACGTTTCAGCGAGCACTTCGGGATGGAGATCTAA	MTETLPGAAVPNPTDEAAITAAVEQAISAIAGAATLDELKAVRLAHTGEKSPLSLANREIGRLPKDQKAIAGKLMGASRGRVNKALADRTAELEAENDARILVEETVDVTAAPRRRRAGARHPLSTLQDRVSDIFVGMGWEIAEGPEVESEWFNFDALNFKPDHPAREMQDTFFVEPPEAHLLMRTHTSPVQVRSMLEREVPIYVLCPGKVFRTDELDATHTPVFHQFEGLAIDKNLSMADLRGTLEHFARQMFGDEAQIRLRPNYFPFTEPSAELDIFHPGAKGGPRWIEWGGCGMVNPNVLRAAGIDPDVYSGFAFGMGIERTLMFRNEVGDMRDMIEGDVRFSEHFGMEI				NA	NA	NA	NA	NA
D1-17_02559	372			hypothetical protein	ATGCTCGCACAGCTCGCCCGAACCAGGACGTTCAAGGGACCGCGCGGCCTCATCATCGCCACCGGCTACGACCTGAGGCTGCCCATCGCCGGCGCCTTCGCGGTGGGCAACGTAATCATCTACCGTGCCGGGCCTGAGGCGGCCTTGGCCAACGCCGCCCTGCTCAGACACGAAGAACGGCACACCACCCAGTACGCATGTCTCGGCCTGCCTTTCCTGGCGCTCTACTTCGCAGCCGCCGGCTGGTCGCTGCTGCGTTACGGCGATCCGGCATCGGGGAATCCCTTTGAGCGGCACGCCGGACTTGAAGCGGGCGGGTATCCCGCCCGGGGCGGACATTCCAGCCGCGGACACACCAGCCGCGGATCTTGA	MLAQLARTRTFKGPRGLIIATGYDLRLPIAGAFAVGNVIIYRAGPEAALANAALLRHEERHTTQYACLGLPFLALYFAAAGWSLLRYGDPASGNPFERHAGLEAGGYPARGGHSSRGHTSRGS				NA	NA	NA	NA	NA
D1-17_02560	1122			hypothetical protein	ATGAGATGGGACGCACAAGCACTTAAGCCGGCACCCGGAGAGCCCAGCGCCAACAGTGCATCTGCGGCCGCCCCGGCCGCAGTGCCGCTGTTGCCGCTGGCCGGGCTGGTGCGTTCCGTCTCCACCCCCGAGTTTGCCCGCGTTACCTTCCATGAGGTCACCGCCAAATCGGTGCTCAACAAGGTGGCGTCCGGTTCCCGCATGCCGTTCGAATGGACAGTGAACCCCTACCGGGGGTGCAGCCATGCGTGCGTTTACTGCTTCGCCCGCAAGACCCACACGTACTTGGACTTCGACGCCGGGCTCGACTTCGACAGCCAAGTGGTCGTGAAGATCAACGCAGCGGACGTGCTGCGCAAGGAACTGGCCAAGCCGTCATGGGGGCGCCAGCAGGTGGCGCTCGGCACCAACACCGATCCTTACCAGCGGGCCGAGGGCAGGTACCAGCTGATGCCCGGCATCATCGGCGCGCTGGCCGATTCCGGCACGCCGCTGTCCATCCTGACCAAGGGAACACTGCTGGCCCGCGACATCCCGCTGCTGAAGCATGCCGCCGCCCAGGTGCCGGTGGGGGTGGGCATATCGCTCGCCATGACAGACGAACAACTCTCCGAGGCGATCGAGCCCGGCACTCCGGGCCCGCGGGCCCGGCTGAAGCTTGTGTCGCGGCTCCGTGACGCCGGGTTGCCCTGCGGCGTCATGGCCATGCCCATCCTGCCCTGGCTTTCAGACAGCGACGAAGCCCTCGATGATCTGTTTGCCTCCCTCGCCAGGGCCGGGGCCTCCGGAGTGACAGCAGGGGCGCTGTACCTCAAGCCAGGCACCCGCGAGTGGTTCATGCAGTGGCTTGCAGCCACACACCCAGAACTCGTCGGTCGGTACAAAAGGTTGTACAGCAATGGCTCCTACGCCTCCAAGGAATACCGGTCCTGGCTTGCGGGGAAGGTCCGGTACTTCAAGGCACGGCATGGATTTGGCGGGTCTCACGGATTCAGCCACCGTGATGTCGACGATCCGCGCGGCGAGGAGGCCGCCTACCCGGAAGGGAGCATTCCACAGGCAGCCAGCCAGCGCCCCGCAGCAGTCGCCTCAGCTCAAGCATCCCAGCCGACGCTCTTCTGA	MRWDAQALKPAPGEPSANSASAAAPAAVPLLPLAGLVRSVSTPEFARVTFHEVTAKSVLNKVASGSRMPFEWTVNPYRGCSHACVYCFARKTHTYLDFDAGLDFDSQVVVKINAADVLRKELAKPSWGRQQVALGTNTDPYQRAEGRYQLMPGIIGALADSGTPLSILTKGTLLARDIPLLKHAAAQVPVGVGISLAMTDEQLSEAIEPGTPGPRARLKLVSRLRDAGLPCGVMAMPILPWLSDSDEALDDLFASLARAGASGVTAGALYLKPGTREWFMQWLAATHPELVGRYKRLYSNGSYASKEYRSWLAGKVRYFKARHGFGGSHGFSHRDVDDPRGEEAAYPEGSIPQAASQRPAAVASAQASQPTLF				NA	NA	NA	NA	NA
D1-17_02561	807		COG1464	Membrane lipoprotein TpN32	ATGATTCGCTCCTCTCTCCTCAAAGCGGCCGCTGCCGGAGCAGCCGCCGTCCTCGCCTTGTCCGCATGCGGCGGTGCAGCTTCCTCCGCGAAGGAATCGGAAACCATCAAGGTAGGAGCGCTGGCTGTTCCGGCCGGCGACATGCTCAAGCACGTCCAGCGTGAACTGGCCCCCAAGGAAGGCCTGACAGTCGACTACAAGGAGTTCAGCGACTACAACACGCCGAACCCCGCTGTCAGCGACGGCGACATCGATGCCAACCTCTTCCAAAACACCACGTTCCTTGAGACCTACAACAAGGTGTCCGGCAAGAATCTGGTCAGCGTGGGCAAGGTCTACCTGCCGCCAATGGCCCTGTACTCCAACAACTTCAGCAGCCTGGACGCCCTGCCTGCCGGCGCCTCCGTGGCCATTCCGAACGACCCCACCAACGAGGCCCGTGCCTTGAAGCTGCTGGCGTCCAAGGGCCTCATCGAGGTCACGGAGAACCCGGTCACACTCAAGGACGTCAAGGCGAACCCCAAGAACCTGAAGTTCACGGAGATCGAAAACGCCAGCCTTCCCCAGGCCCTTAACGACAAGGACGCTGCGATCGTGACCCTGGCCTTCGCCCTGCCCGCTGGCCTGAGCGCCGACAAGCAGATTCTCGTCGAGGGCAAGGACAGCGCCTACTACAACGTCCTCGCTGTCAAGGCCGAGATGAAGGACGATCCCCGGGTGCAGAAGCTCTACAAGATCCTGACGTCCCAGGAGATGAAGGACTTCATCCAGACCGAGTTCAAGGGCCTCGTCATCCCTGCAAGCTAG	MIRSSLLKAAAAGAAAVLALSACGGAASSAKESETIKVGALAVPAGDMLKHVQRELAPKEGLTVDYKEFSDYNTPNPAVSDGDIDANLFQNTTFLETYNKVSGKNLVSVGKVYLPPMALYSNNFSSLDALPAGASVAIPNDPTNEARALKLLASKGLIEVTENPVTLKDVKANPKNLKFTEIENASLPQALNDKDAAIVTLAFALPAGLSADKQILVEGKDSAYYNVLAVKAEMKDDPRVQKLYKILTSQEMKDFIQTEFKGLVIPAS	PGPT0020510_4320	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
D1-17_02562	702	metP	COG2011	Methionine import system permease protein MetP	ATGATTGACCGCAATGACCCTTACTTCTGGTCGGACTGGCTGGACACCATTCTTAACGGGGCGGGAGAGACGTTTTATACCGTCGGCGTGAGTCTCCTGCTGACCGTGATCTTCGGCCTTGCGGCCGGTGTGCTGCTCGTAACCACCGAGGCGGGCGGCCTGCTGGCCAAGCCGTTTGGAAGCCGAGTGCTGGGGCTCGTGATCAACCGCCTGCTGGATGTGCTGGTCAACATGGGCCGCTCGATCCCGTTCATTATCCTGATGATCCTGCTTATTCCCTTCACCCGCCTCCTGGTTGGCTCGTTCATCGGCCCGACGGCGGCCATCGTCCCGCTCACGATCGCCGGAATCCCGTTTTTCGCGCGATTGGTTGAGATCGGCATCCGGGAGGTGCCCCGGGGCCTTGTTGAAGCTGCCGAATCCCTGGGCGCCACGCGCTGGACCATCCTCACTAAAGTTTTGGTCGCCGAGGCCGTACCGGCCCTGGCCCTGAGCCTCTCCACAACGGTGGTGGGTCTCATTGGCTACTCCGCAATGGTGGGCGCTGTGGGCGGCGGGGGGCTGGGCGACGTGGCCTTCCGCTACGGCTACCAGCGTTACAGCCCGGAGTACATGTTCGGCGTGGTCATCCTCCTGATCCTGCTGGTCCAGATCTTCCAATCACTGGGAAACTTGGCGGCCCGCAGGCTTTCCCACCGCTGA	MIDRNDPYFWSDWLDTILNGAGETFYTVGVSLLLTVIFGLAAGVLLVTTEAGGLLAKPFGSRVLGLVINRLLDVLVNMGRSIPFIILMILLIPFTRLLVGSFIGPTAAIVPLTIAGIPFFARLVEIGIREVPRGLVEAAESLGATRWTILTKVLVAEAVPALALSLSTTVVGLIGYSAMVGAVGGGGLGDVAFRYGYQRYSPEYMFGVVILLILLVQIFQSLGNLAARRLSHR	PGPT0020515_290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
D1-17_02563	981	metN_2	COG1135	Methionine import ATP-binding protein MetN	ATGATCTCGGTGAGCCGTGTCGTCAAGAGCTACGGCTCCGGAGCTTCGCAGGTCCGGGCCCTCGATGACGTGACCCTGTCCGTTGCCGAAGGTGAAATTTTCGGCGTCGTCGGTCAAAGCGGTGCAGGCAAGAGCACGCTGATCCGCACCATCAACTCCCTGGAGAGTCCCGACTCCGGCACCGTCCGGGTGGGCGGCCGGGAGATGACCAAGCTTGCGGGCCGGGAGCTGCGGGAAGCGCGGCACGACATCGGCATGATCTTTCAGCACTTCAACCTGCTTAGCGGCCGGACTGTCAGGTCCAACGTAGAACTCTCGCTGGAGATCACGGGAACCGGACGAAGCCAGCGCCGCAGCCGCGCCATGGAGATCCTGGAACTCGTAGGCCTGCATGGCAAAGCCGATGCCTATCCCGCTCAATTGTCTGGCGGGCAGAAACAGCGCGTCGGGATCGCCCGGGCATTGGCTTCCAACCCCTCGGTGCTGCTGAGCGATGAAGCCACTTCCGCGCTCGACCCCGAAACCACGCGGCAGATCCTGGATCTTATTCGCCAGCTCAGCAGGGACCTCAGCCTGACAGTGCTCCTGATCACGCACGAGATGGATGTTGTCAAGAGAATCTGCGAGTCCGCCGCTGTCATGAGCCAGGGGCGGATCCTTGAGCAGGGGCGCGTAAAGGACCTGCTGACGACGGACGGGTCCCTTTTGGGTAAGGCGCTGTTTCCCCTCGGAGACCTCCCGGAGACCTCGTCCGCAGTTGTCGAAATCACTTTTACGGGAGTTCCTACGGACCGGCCCGTCATCGCCCAGCTGGCCCGCAAGCACGGGATCGACGTCGGAATCCTGGGCGCCGCCGTCGAGACGGTCCACGGACGGCAGACCGGACGGACCCGGCTGGAACTGCCCGGCGACCGGGGGGCTGTGGCAGGTGCCATCGCGGACCTGCGCTCGCAGGGACTTTATGTGGAGGTAATCAAATGA	MISVSRVVKSYGSGASQVRALDDVTLSVAEGEIFGVVGQSGAGKSTLIRTINSLESPDSGTVRVGGREMTKLAGRELREARHDIGMIFQHFNLLSGRTVRSNVELSLEITGTGRSQRRSRAMEILELVGLHGKADAYPAQLSGGQKQRVGIARALASNPSVLLSDEATSALDPETTRQILDLIRQLSRDLSLTVLLITHEMDVVKRICESAAVMSQGRILEQGRVKDLLTTDGSLLGKALFPLGDLPETSSAVVEITFTGVPTDRPVIAQLARKHGIDVGILGAAVETVHGRQTGRTRLELPGDRGAVAGAIADLRSQGLYVEVIK	PGPT0020520_3709	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
D1-17_02564	438	nudG	COG0494	CTP pyrophosphohydrolase	GTGGGCGGTGCCGTCCTGGATTCACTTGCCCGCCCAACCCGGCTGCTGGTGGCCAGGCGGACAGCACCCCCGCAGTTCGCAGGCATGTGGGAGTTTCCCGGCGGCAAAGTGGAACCGGATGAAACGGCCGAGACGGCACTGCACCGCGAGTTGGGTGAGGAGTTGGGCATCGGCGTCCGCCTGGGAGCGGAGCTGACGGCCCCGCACCAGTCTGGCTGGCCCCTGAACGAGCGGGCATCCATGCGCGTATGGTTGGCCGAAATCAGCGACGGTGAGCCCCTGCCCTTGGAGGACCATGACCAACTGGCCTGGGTGAGCATCCGTGAAAGTGAGGAAGCTCTCAGTCTGCCCTGGATTCCGGCCGACCTTCCGATTGTCCGGGCCCTGCTGGCAGAGCTCGGCACCTCAGCCCCGATGAACGCCCTCCCCGCAAATTAA	MGGAVLDSLARPTRLLVARRTAPPQFAGMWEFPGGKVEPDETAETALHRELGEELGIGVRLGAELTAPHQSGWPLNERASMRVWLAEISDGEPLPLEDHDQLAWVSIRESEEALSLPWIPADLPIVRALLAELGTSAPMNALPAN	PGPT0021430_105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021430-nudG-K08320	NA	NA
D1-17_02565	1209	ydhP	COG2814	Inner membrane transport protein YdhP	ATGACCACGACCGTTCACGCTCCCGGCAAAGCCGCAGCCAACCGCTCCCATCTCGGCCTCGCCATCCTGGCGCTGGCCATGGGAGGGTTCGGCATCGGTGTTACCGAATTCGCCATGATGGGGCTGCTCAAGGAGGTGGAGGTCGGCTTGAACATCGGCACCCCCGAGGCCGGGCACCTCATCTCCGCCTATGCGCTGGGCGTTGTCGTCGGGGCACCTGCACTGGCCGCCGTGGGCGCGAAGCTTCCGCGCAAGCATCTCGCGCTCGGCCTCATGCTGTTCTTCAGCGTCGCCAATCTGTCCTCCTTCATCGCCCCGGACTATGCGAGCATGCTGGTTTCCCGCTTTGCCGCCGGACTGCCACATGGCGCCTTTTTCGGTGTAGCCGCCGTGATCGCGGCGTCGCTCGTGGCTCCGACGAAACGCGGGTGGGCGATTTCCATGGTCATGGCCGGGCTAACCGTGGCGAACGTCATCGGCGTTCCCTTCGCCACGTGGATAGGACAGACGTTCGGCTGGCGTCTGCTGTTCGTTCTGGTCGGCTTCCTCGGGCTGCTGACGCTGGCCCTGATCTGGAAATTTGTTCCCTTCCAGAAGGCCCATGCCGATGCGAGCATCCGCCGCGAACTTGGTGCACTGAAGCGGGCACAGGTCTGGCTCGCCATCATGATCGGGATCGTCGGCTTCGGCGGGTTCTTCGCCACCTACACTTACATCGCGCACACGATGACGTCCGTCGCGGGCATTCCTTCTGGGTTCCTGCCGTTCGTCGTGGCGCTCTATGGTCTAGGAATGGTGGCGGGCAACATCGTGGGCGGCAGGCTCGCCGACAAGTCAGTCATGGGAACCCTCTACCGCGTGCTGCCGGGAATCGCGGTGGCGCTGGTCATCTACGCGGTCGCCGTGCACTGGGCCTGGTCCGCGTTCGTGATGGTGTTCGTTGTGGGCGCAGCCGGCTCAATGCTGGTCCCCGCGCTGCAAACCAGGCTGCTCGATGCCTCACCCGACGCACCGTCCCTGGCCTCCTCCCTCAATCACGCGGCACTCAACGTTGCCAACGCCCTGGGCGCGTTCCTCGGCGGCCTCGTGATTGCCTGGGGATGGGGATATGTTGCTCCTGCCCTGGTGGGAGCGGTGCTGGCCGTCCTGGGCCTGGGCGTAGCACTGCTGAGCGGACTGCTGGAGCATAAAAGGCCGCTGGCCACCTAA	MTTTVHAPGKAAANRSHLGLAILALAMGGFGIGVTEFAMMGLLKEVEVGLNIGTPEAGHLISAYALGVVVGAPALAAVGAKLPRKHLALGLMLFFSVANLSSFIAPDYASMLVSRFAAGLPHGAFFGVAAVIAASLVAPTKRGWAISMVMAGLTVANVIGVPFATWIGQTFGWRLLFVLVGFLGLLTLALIWKFVPFQKAHADASIRRELGALKRAQVWLAIMIGIVGFGGFFATYTYIAHTMTSVAGIPSGFLPFVVALYGLGMVAGNIVGGRLADKSVMGTLYRVLPGIAVALVIYAVAVHWAWSAFVMVFVVGAAGSMLVPALQTRLLDASPDAPSLASSLNHAALNVANALGAFLGGLVIAWGWGYVAPALVGAVLAVLGLGVALLSGLLEHKRPLAT	PGPT0028991_1559	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028991-ydhP-K19577	NA	NA
D1-17_02566	288			hypothetical protein	GTGTGGGCGGCCTGTTCGCTCTCTACGAAGCATGGGACAAGTTCCAGCATCCGCACGTCCATCATCCCCCTCAAGACCCTGCACCTCGGGCCCGAGGAGCTGCTCGTCGCCGCAAAGATCACTGTGGGGGCAGCGGTATCGGGGCTGGAGATTGCCGAACTGATCAACGCCGCCGAGGAGCGGGTACGTGCGGCAGTTCCGATCGCCAGGGTCATCTATCTGGAACCCGATATCCACCGCTCGGAGCTGCGCACCGGGGAGGCGGCAGTTGGCGGCAAAGGGTCCTGA	MWAACSLSTKHGTSSSIRTSIIPLKTLHLGPEELLVAAKITVGAAVSGLEIAELINAAEERVRAAVPIARVIYLEPDIHRSELRTGEAAVGGKGS				NA	NA	NA	NA	NA
D1-17_02567	270			hypothetical protein	ATGGGTTTTCTTGCTTGGATTATTCTCGGCCTCATTGTAGGCGCAATCGTTAAGGCCGTTATGCCCGGCAGGGTTGGCGGCGGCTGGGTCACCAGCCTGGTTCTGGGCGTCGTTGGCGCAATCGTTGGTGGCTGGATCGGCAGCCTTCTGTTCGGCAGAGGTGACCTGGCCTTCTTCGACCTCGGCACCTGGATCCTCGCCATTATCGGCGGCCTGGTAGTCGCCGGCATCTACGGGGCCATCACCGGACGCAACCGCACAACGACGTAA	MGFLAWIILGLIVGAIVKAVMPGRVGGGWVTSLVLGVVGAIVGGWIGSLLFGRGDLAFFDLGTWILAIIGGLVVAGIYGAITGRNRTTT				NA	NA	NA	NA	NA
D1-17_02568	915	rlmB_2		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGAACGAAACCGGGCGCCCGCAAGACTTTCCACTTTCCAACCCCCGAGCTGATCGGGTCAGGGATGTGGCAAAGCTTGCCGGGCGCCCGGTCCGTTTAAAGCGCCGGCAGTTTTTGGCGGAGGGGCCCCAGGCCGTCCGTGAAGCACTGGTGCTGCACCGCAAGAGACTGGAGGCTGGGGAGCTTGGCGTCGTCCGCGACGTGTACGCCAGCGAAGCATGCCTGGACCGCTACCCGGAGTTCGAAGACCTGGCATCCGGCACCAGTGCCAGGCTGGCCACCGATGAGGTGCTGGCGGCCATGGCCGATACCGTCACACCGCAGGGGATCATCGCCGTCTGTGATTTCGTTGACGTCCCGCTGGACAGTGTGCTCGACGCGCGGCCCCGGCTGCTTGCTGTGCTGTGCCAGGTCCGGGATCCAGGAAACGCCGGAACCGTCCTCCGCGCCGCCGATGCGGCCGGCGCGGATGCCGTGGTTCTGACGGGCTCGAGTGTGGACATTTATAACCCCAAGGCCGTGCGCTCCACGGCCGGCTCCCTCTTCCACCTGCCGGTGGTGCTTGGCGCCGACGTCGAAGAGGTCGCAGCGCAGTGCAGGGCCCGGGGCATAGGTGTGCTGGCCGCCGACGGTTACGGGACACTGAATCTGGACCGGCTGCAGGATGAGAGTGCGGCGCGGCGGCTCAGCGGCTCGGACACCGGTTCGGACTATGCCCTGGAGGAGCCTACAGCCTGGCTCTTCGGGAATGAGGCGCAGGGACTATCCGAGGTTGAGCTCGCCTTGGCCGACCACCGGGTGGCAGTTCCCGTGTACGGCTCCGCTGAAAGCCTTAACCTCGGCACGGCAGCTACCGTTTGCCTCTATGCAAGTGCGAGGTCCCAGCAGCCGCAGCACGTGGCTGCGGGAGAATAA	MNETGRPQDFPLSNPRADRVRDVAKLAGRPVRLKRRQFLAEGPQAVREALVLHRKRLEAGELGVVRDVYASEACLDRYPEFEDLASGTSARLATDEVLAAMADTVTPQGIIAVCDFVDVPLDSVLDARPRLLAVLCQVRDPGNAGTVLRAADAAGADAVVLTGSSVDIYNPKAVRSTAGSLFHLPVVLGADVEEVAAQCRARGIGVLAADGYGTLNLDRLQDESAARRLSGSDTGSDYALEEPTAWLFGNEAQGLSEVELALADHRVAVPVYGSAESLNLGTAATVCLYASARSQQPQHVAAGE				NA	NA	NA	NA	NA
D1-17_02569	456	rplT	COG0292	50S ribosomal protein L20	GTGGCACGTGTGAAGCGGGCGGTAAACGCCCACAAGAAGCGCCGGGTTGTTCTCGAACGCGCCAAAGGTTACCGCGGACAGCGCTCACGCCTGTACCGCAAGGCCAAAGAGCAGCTGCTGCACTCGTTTGTGTACAGCTACGGGGACCGCAAGAAGAAGAAGGGCGACTTCCGCCGCCTGTGGATCCAGCGCATCAACGCTGCATCCCGCGCCAACGGACTCACCTACAACCGCCTGATCCAGGGCCTGAAGGCCGCCGAGGTCGAGGTTGACCGCCGCATGCTTGCCGAGCTGGCCGTTTCCGACGCCAACGCCTTCGCTGCGCTGGTCCAGGTCGCCAAGGACTCCCTGCCTGCCGACACCTCCGCTCCGGCTGTTTCCGCCGAAGCTGCGCCGGCTGCCAAGACCAAGAAGCCTGCCGCCAAGAAGGCTGCCGCTGACGAGGCTGCTGTTTAG	MARVKRAVNAHKKRRVVLERAKGYRGQRSRLYRKAKEQLLHSFVYSYGDRKKKKGDFRRLWIQRINAASRANGLTYNRLIQGLKAAEVEVDRRMLAELAVSDANAFAALVQVAKDSLPADTSAPAVSAEAAPAAKTKKPAAKKAAADEAAV				NA	NA	NA	NA	NA
D1-17_02570	195	rpmI	COG0291	50S ribosomal protein L35	ATGCCGAAGATGAAGACCCACAGCGGTGCTAAGAAGCGCTTCAAGCTGACCGGCAGTGGCAAGCTGCGCCGCCAGCAGGCCAACCGCCGCCACTACCTCGAGCACAAGTCCTCCCGGCTGACGCGTCGCCTCGCCGGCGACAAGATCGTCTTCAAGGGCGACGCCAAGGTTATCCGGAAGATGCTCGGCATCTAA	MPKMKTHSGAKKRFKLTGSGKLRRQQANRRHYLEHKSSRLTRRLAGDKIVFKGDAKVIRKMLGI				NA	NA	NA	NA	NA
D1-17_02571	1119	infC		Translation initiation factor IF-3	TTGCTCCGGCAATTGGGGGCCTTCTCTGTTTGCCGGTGGAACATCAAACACAAACACAGGAGCTTTAACATTAGCGAGCCAAGAATCAATGAGCGTATCCGCGTCCCTGAGGTGCGGCTGGTCGGCCCTGCCGGCGAACAGGTAGGAATCGTCCGTATCGAGGATGCCCTCCGTCTGGCTGCCGAGTCCGACCTTGATCTCGTTGAAGTTGCACCTCAGGCGAAGCCTCCGGTGTGCAAGCTGATGGACTTCGGCAAGTACAAGTACGAGGCCGCAGTCAAGGCCCGTGAGGCCCGTAAGAACCAAACCAACACGGTTCTGAAGGAAATCCGGTTCCGCCTGAAGATCGACACCCACGACTATGAGACCAAGCGCGGCCATGCCCTGCGCTTCCTCGGAGCCGGAGACAAGGTCAAGGCCATGATCCAGTTCCGTGGCCGTGAGCAGCAGCGTCCCGAAATGGGCCTGCGTTTGCTCCAGCGTTTCGCTGAGGACGTCTCCGACGTTGGGGTAGTGGAGTCCAGCCCCCGCATCGATGGCCGCAACATGGTCATGGTCATCGGTCCGCTGAAGAACAAGGCTGAGGCTAAGGCCGAAGCCCGCCGTACTGCGCAGCGCGCCGAGGCCAAGGCCCAGAATGAAGCCAAGGCATCCGGACACATCGACACCTCGGGCGCTGAGCAGGCACCCATGACGCAGTCGCTTGCAGACCTGCTGCCCGAGGGCTACCAGGTGAACACGGAAGCACCTGCGCCGGAAGCCGCCGTCGAAACGCCGGCAGCTAAGGCTCCGGAGGTCCCGGAAGCCCCGCAGCAGGAAGCCCCCAAGGCAGCAGAGCCGAAGCGCGAAGCGCCCAAGGCTGCCGCCCCCAAGGCTGCAGCTCCGAAGGCTGCAGCTCCGAAGGCTGCAGCTCCGAAGGCTCCGGCTCCGGCTCCGGCACCCGCAGCTCCTGCGGAGCCGAAAGCAACTGAAGCTGAAGCCGCTGCTCCAGCAGCACCAAAGCCTGCGGCAGTGCCTGCCCCGCCGAAGCCGGTGGCCAGGCCTGCTGCGCCGAAGCCCGCTGCACGCCCTGCAGCACCCCGGGCGACGCCGAAACCGGCAGGCAAGAAGACCACCTAG	MLRQLGAFSVCRWNIKHKHRSFNISEPRINERIRVPEVRLVGPAGEQVGIVRIEDALRLAAESDLDLVEVAPQAKPPVCKLMDFGKYKYEAAVKAREARKNQTNTVLKEIRFRLKIDTHDYETKRGHALRFLGAGDKVKAMIQFRGREQQRPEMGLRLLQRFAEDVSDVGVVESSPRIDGRNMVMVIGPLKNKAEAKAEARRTAQRAEAKAQNEAKASGHIDTSGAEQAPMTQSLADLLPEGYQVNTEAPAPEAAVETPAAKAPEVPEAPQQEAPKAAEPKREAPKAAAPKAAAPKAAAPKAAAPKAPAPAPAPAAPAEPKATEAEAAAPAAPKPAAVPAPPKPVARPAAPKPAARPAAPRATPKPAGKKTT				NA	NA	NA	NA	NA
D1-17_02572	387			hypothetical protein	ATGAGCACTCCAGACAGTAATTCACACATTTACCAGGCCCCCGCGCCCCAGGCCGATGTCTCACAGCAGGTTCGGGACATCGCAGAAGTTCCGGCCATCGAGGTCATCACCACGGCCGCTGTCCACCTCATGAGCGCCGCTGCCGTGAAGCTTGGCTTGGCCGCCGAGGAGAATGCAGAGGAACTCAAGGACCTGGATGAGGCCCGGAAGCTCATTACCGCCCTTGCAGGACTTGTCACCGCGGCAGCGCCTGAAATCGGCTCCCAGCATGCCGGCCCGTTGCGCGACGGGCTGCGTTCCCTGCAGCTGGCGTTCCGGGAAGAGTCGATCATTCCGGATCCTCCGGGCAAGGGTCCGGGCGAGAAGTTCACGGGCGCTGTCAACTGA	MSTPDSNSHIYQAPAPQADVSQQVRDIAEVPAIEVITTAAVHLMSAAAVKLGLAAEENAEELKDLDEARKLITALAGLVTAAAPEIGSQHAGPLRDGLRSLQLAFREESIIPDPPGKGPGEKFTGAVN				NA	NA	NA	NA	NA
D1-17_02573	462			hypothetical protein	ATGCTAGGCACAACAGTCCGTTTCGCCACCGTCCTTGTCGCCAGCCTCGGGCTGACCGCAGTTGCCACACCCGCTTACGCTGCCCCTGCAGCCCTCGTCAGCGTCGGCCCGGGCACCCTCGTTGCTGACGGCGCCGCCGTCGATGTCCCGATAACGTTTACCTGCGACACCGACCCCGGCCGTATTATCGCCGTTCCCGTGGTGGAAGTGAACCAGCGCGTCACCGAAGGCCGGATTGCCAATGGCTTTGGCAACGCCCAGCTCAGCTGCACGGGCGAAAGCCAGACTGTGACCATCCGGGTCATTCCCCGCGCGATCGCCTACGATCCCGGAATAGCGGTAGCCTTCGTCGTGCTGCAGACCTGCTCTGCGGAGTTCCAGTGTGCCGTCGTGATCAACAGCAAAGAAATAGAACTCACTAAGCCGGTTGAGGTCCGCATTCCTCCCATTGTTCCCGAGTAG	MLGTTVRFATVLVASLGLTAVATPAYAAPAALVSVGPGTLVADGAAVDVPITFTCDTDPGRIIAVPVVEVNQRVTEGRIANGFGNAQLSCTGESQTVTIRVIPRAIAYDPGIAVAFVVLQTCSAEFQCAVVINSKEIELTKPVEVRIPPIVPE				NA	NA	NA	NA	NA
D1-17_02574	1347			hypothetical protein	GTGAATTTCACCCTGTACCGGGATCTGTTGGCTGTGGAGCCGATACGCCGCCTCCTGGTGGTGGGCATGATTGCCCGTATACCCCACTCATCTGCCGGCGTGCTGCTGACGCTGCACATCGTCCTCACCTTGGAACAGGGGTATGCCGCTGCAGGCACTGCAGCAGCCGTCATGACCGTTGGCATTGCCCTGGGTGCCCCATGGCGCGGCCGCCGCGTGGACACGGTGGGGCTGCGCCGGGCGCTGATCCCGTCGGTGGTTTCCGAGACCGTCATCTGGTCGATAGTCCCGCACGTTTCCTATCAGTGGCTGTTGCCGCTGGTCTTCGTGGGCGGCCTGCTGACGCTGCCCATTTTTAGTGTGGTGCGGCAGTCGCTGGGAGTGCTCGCCGACGGCGACCAGCGGCGGACCGCCTTCGCACTCGATGCCATCACCACCGAACTGGTGTTCATGATCGGGCCAGCGGCGGGAGCAGTCGTGGCTACGAGCGGCCAGTCGGTCCTCGGCCTGACCATCGTAGGTGTCTCCACCTCCCTGGCAGGTCTGTTCCTGATGTGGTTCAATCCGCCCACCCGAAGCGCTGCCGATAACGGGGCCAGCGTTGGCGAAGAGCAGGATGCTGCAGCGATGACCGTTGCCGCCGCAGCCCCGGCCCACCTGCAGGAAGCTGCCGCCGAGTTGGCATTGCCGACAGCCGTGCGCGGCCGGAGCGGTCTGCAGAATCCGGGCCGCCTGCGACGTCTGCGTCTGCGCCATGAAGGCCTGAAGGGGCGCGCGGCCGCCGGCTTCGCGTGGTTCACAGCGTCCGTGGCCGCCGTGTTCGCAGTGGCCGCCGGGGCCGGCATGGTCCTTAGCGGCACCGACGTGGGGATCATTGCGGCTCTTGAAACCAACGGCCGCGAGGCCGAGATCGGTATCGTGTTCGTTTTTTGGTGCGCTGCATCCGTCCTGGGCGGCCTCGTCTACGGCGCCCTGCATCGGCCGGTTTCGCCGATCCTGCTCCTGCTGGGAATGGCGGCACTGACCATCCCGATGGGATTCGCCACCGACACACTGACCCTGAGCCTGCTGTCCCTGCTTCCGGGCTTCCTGTGCGCCCCGGTGCTTTCGGCCGCCTCGGAGAAAGTGGCCGACCTCGTGGCCGAGGCGCGCCGGGGCGAAGCGATGGGATGGTATGGATCCGCCCTGACTGCGGGCATCGCGCTTGGGGCCCCGCTCGCCGGGCTGTTCATTGACACTGTCGGCGCGTGGGGCGGATTCGTTTCAGTCGGTGTGGCCGGAGTGCTCCTCTGCGCGGCTGGCATCGCATTGCAGCAGCGCCGCCGCCGGCGGGCCGCGGCGCCCTGA	MNFTLYRDLLAVEPIRRLLVVGMIARIPHSSAGVLLTLHIVLTLEQGYAAAGTAAAVMTVGIALGAPWRGRRVDTVGLRRALIPSVVSETVIWSIVPHVSYQWLLPLVFVGGLLTLPIFSVVRQSLGVLADGDQRRTAFALDAITTELVFMIGPAAGAVVATSGQSVLGLTIVGVSTSLAGLFLMWFNPPTRSAADNGASVGEEQDAAAMTVAAAAPAHLQEAAAELALPTAVRGRSGLQNPGRLRRLRLRHEGLKGRAAAGFAWFTASVAAVFAVAAGAGMVLSGTDVGIIAALETNGREAEIGIVFVFWCAASVLGGLVYGALHRPVSPILLLLGMAALTIPMGFATDTLTLSLLSLLPGFLCAPVLSAASEKVADLVAEARRGEAMGWYGSALTAGIALGAPLAGLFIDTVGAWGGFVSVGVAGVLLCAAGIALQQRRRRRAAAP				NA	NA	NA	NA	NA
D1-17_02575	909			hypothetical protein	GTGGCTGGGCAGGACTTAACCCCGGAAAACCGGGAGGACCCGGCAGGGCAGCCGCCTGCCCGCCGGCTCCCAGGCCATATCGAGGCGGCCCTGGCGGGTGCCGACGGCGCCACGGATTCCGCCGGCCAGCCTTGGGCGGGGCGCAGCCTCGCCGGTGAGGACGCGAAGATTCACAACTTCGAGGACGACGACGGCACAGCAGACAATGCCTATCTCGCCGCCATCGATGCGCTCTTGACCGGCGGAGCGGACGAAGCGGCTGTGGTCGCCACCCTGGCAACAGCGAGGGTCTTTGTCCCGGTGGTGGCGCAGCTTGCCGAGGAAGCGGAGGGAGCTGCAGGGCTCCATGCCGACAAGCAGGCGGATATGGCGCTGGTGACGCTCAAGGCGCCGGACGGCAGGCTGGCCATGCCGGTCTTCACTTCTTCGGCCGCACTGGCCGCCTGGCACTCGGAGGCGAGGCCCGTTGCCGTCTATGCATCGCGCGCTGCCCTATCAGCAGTCTCAGAGGGCGCGGAACTGCTTGTGGTTGATCCCGGCTCCGAGGTGACGTTCGTCGTGCGCCGGCCAGCGGTGTGGTCTCTCGCGCAGCAGCAGCCCTGGCTTCCCGCCTACAGGGACCCCGAACTGGCTGCGGTGCTGGAAGCGACAGCCGCCGCTTGGCCCGCGGTCCGCCGCCTGGAGGTTCTTCCCGGTCAGGGAGTGGCTGCCGCTACGGCATCCGGCCGCCGGATGGCAGGCGGAGGACCCGGCCCGGAGCTCCGGGTGGTGCTGTATCTCGAGGAGGGGCTTGATGCCGCCGCCGTCCAGTCGCTCGTCGGGGACCTGCACAATCAGTGGGCGCGGAATGAATTGTTCGGTGAACGTGTTGACTCGGTCGAGGTCAAGCTGAGGCGCGCCGCAGAGTAA	MAGQDLTPENREDPAGQPPARRLPGHIEAALAGADGATDSAGQPWAGRSLAGEDAKIHNFEDDDGTADNAYLAAIDALLTGGADEAAVVATLATARVFVPVVAQLAEEAEGAAGLHADKQADMALVTLKAPDGRLAMPVFTSSAALAAWHSEARPVAVYASRAALSAVSEGAELLVVDPGSEVTFVVRRPAVWSLAQQQPWLPAYRDPELAAVLEATAAAWPAVRRLEVLPGQGVAAATASGRRMAGGGPGPELRVVLYLEEGLDAAAVQSLVGDLHNQWARNELFGERVDSVEVKLRRAAE				NA	NA	NA	NA	NA
D1-17_02576	747	hisA	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGACCAGCCAGAACGAACTGCCGGCACTTGAACTGCTTCCCGCAGTCGACGTCGTGAACGGGCAGGCCGTGCGCCTGGTCCAGGGCGAAGCAGGCAGCGAAACCAGCTATGGCACCCCCTTGGAGGCGGCCCTGAACTGGCAGCAGCAGGGCGCCGAGTGGGTCCACCTCGTGGACCTGGACGCGGCCTTCGGCCGCGGCTCGAATGCCGAGTTGCTGCGCGAAGTCGTCGGTCGTCTGGACATCAAGGTGGAATTCTCCGGCGGCCTGCGCGACGACGAATCGCTGGAAAAGGCACTGGACCTGGGAGTCGCGCGGGTCAACCTTGGAACCGCGGCCCTGGAAAACCCGGAGTGGACTGCCCGAGCCATCGACCGCTTCGGTGATCGGATCGCTGTCGGACTCGACGTCCGCGGCACCACCCTGGCTGGGCGCGGCTGGACTAAAGAGGGCGGGGACCTCTGGGACGTGCTGGGCCGCCTCGAGGAAGCGGGCTGTGCCCGCTACGTGGTGACGGACGTGACCAAGGACGGCACGCTGCAGGGACCCAACGTTGAACTGTTGCGCCAGATGGTGGAAAAGACTGGCAAGCCCGTGGTGGCCTCCGGCGGGATCTCCAGCCTGGATGACCTGAAGGTCCTGCGCTCACTGGTCCCGCTGGGCGTCGAAGGCGCGATTGTCGGCAAGGCCCTCTACGCCGGCGCCTTCACCCTGCCCGAGGCCCTTGACGTCGCCGGCCGCCCCTAG	MTSQNELPALELLPAVDVVNGQAVRLVQGEAGSETSYGTPLEAALNWQQQGAEWVHLVDLDAAFGRGSNAELLREVVGRLDIKVEFSGGLRDDESLEKALDLGVARVNLGTAALENPEWTARAIDRFGDRIAVGLDVRGTTLAGRGWTKEGGDLWDVLGRLEEAGCARYVVTDVTKDGTLQGPNVELLRQMVEKTGKPVVASGGISSLDDLKVLRSLVPLGVEGAIVGKALYAGAFTLPEALDVAGRP				NA	NA	NA	NA	NA
D1-17_02577	159			hypothetical protein	ATGTGGTCGGTCGTCCTGATGGGCCTCGCCGGCTTGCTGATCGGCGGCGCGCTGTCCTTCAGGCAGCAGGAGAAGCCGCTCTGGACGCAAATAGGGTTCGGCGTCCTGGCGGCAATGTCACTGCTGGCCGCCTACCTGCTGACCCTGCCCGGATCCTGA	MWSVVLMGLAGLLIGGALSFRQQEKPLWTQIGFGVLAAMSLLAAYLLTLPGS				NA	NA	NA	NA	NA
D1-17_02578	741	hisH		Imidazole glycerol phosphate synthase subunit HisH	GTGACAGGCAAAGTGCTGCGCGACGGCGCCATCATCGACCCCTCGGCCACGGTGAAGCTCCCGTCGCCCGAAGGGAAGCCGACGGTCACCGTGCTGGACTATGGATCAGGCAACGTCCGTTCTGCTGTCCGGGCGCTCGAACGCGCCGGTGCTGAGGTCATTCTGAGCTCCAAGCAGGAGGATGTTCTGAACGCTGACGGCCTGGTGGTTCCGGGCGTGGGTGCCTTCGAAACTGTCATGCGTGAGCTTAAAGCCGTGGACGGCATCCGGATGATCGGGCGCCGCGTCGCCGGCGGCCGGCCGGTCCTTGGCATCTGCGTTGGCCTCCAGGTGCTCTTCGAAGCGGGCGTGGAACACGGGACAGAAGCGGAAGGCATGGGGGAGTGGCCAGGCAAGGTTGAGCTCCTTCCCGCCGACGTGGTTCCCCACATGGGATGGAACACGGTCAAGGTTCCGGAGGGTTCAAGGCTGTTCGAAGGCGTGGAGAATGAGCGGTTCTACTTCGTGCACTCCTATGGGGTGCAGAGCTGGGACTTCGACGTCATCCAGCCCCGCATGGCCCCACCGCTCGTCACCTGGTCCGAGCACGGCGCACCCTTCATCGCAGCCGTGGAGAACGGTCCGCTGTGCGCCACGCAATTCCACCCCGAAAAATCGGGCGACGCCGGCGGCCGACTCCTCAAGAACTGGGTGACCAGCCTGCTCAGTTCCTCGCACCGCATCCCCCCAGCGGACGCCTAG	MTGKVLRDGAIIDPSATVKLPSPEGKPTVTVLDYGSGNVRSAVRALERAGAEVILSSKQEDVLNADGLVVPGVGAFETVMRELKAVDGIRMIGRRVAGGRPVLGICVGLQVLFEAGVEHGTEAEGMGEWPGKVELLPADVVPHMGWNTVKVPEGSRLFEGVENERFYFVHSYGVQSWDFDVIQPRMAPPLVTWSEHGAPFIAAVENGPLCATQFHPEKSGDAGGRLLKNWVTSLLSSSHRIPPADA				NA	NA	NA	NA	NA
D1-17_02579	627	hisB	COG0131	Imidazoleglycerol-phosphate dehydratase	ATGACCGATACCGGAATCAAGACTGTCGGGGCCCGCACCGCGCGCCTGGAGCGCACCACCAGTGAATCCTCCGTTCTGGTGGAGATCGACCTCGACGGCACCGGAGTATCAGACATCAGCACCTCGGTCCCGTTTTACGACCACATGCTGACCGCGCTGTGCAAGCACTCGCTGATCGACATGACCGTGAAGGCTACCGGCGACATCCACATCGATGTCCACCACACGGTGGAGGACGTTGCCATCACGTTTGGCGAGGTGCTGCGCACCGCCCTCGGCAACAAGGCCGGCATCCGCCGCTTCGGTGAAGCAACCGTGCCGCTGGACGAGGCACTTGCCCACGCGGTGGTTGATGTTTCCGGCCGGCCTTACCTCGTGCACGGAGGTGAACCGGCAGGCCAGGAATACCACCTGATCGGCGGGCATTTCACCGGTTCGCTAACCCGCCACGTCTTTGAGGCCATCACCCTGCACGCCGGCATCTGCCTGCACATGAACGTCCTCGCGGGGCGGGATCCGCACCACATTGTCGAGGCCCAGTTCAAAGCATTCGCCAGGGCGCTGCGCGCCGCCGTCGAGCCCGACCCCCGGGTCGAGGGAATTCCGTCCACGAAGGGTGCACTGTGA	MTDTGIKTVGARTARLERTTSESSVLVEIDLDGTGVSDISTSVPFYDHMLTALCKHSLIDMTVKATGDIHIDVHHTVEDVAITFGEVLRTALGNKAGIRRFGEATVPLDEALAHAVVDVSGRPYLVHGGEPAGQEYHLIGGHFTGSLTRHVFEAITLHAGICLHMNVLAGRDPHHIVEAQFKAFARALRAAVEPDPRVEGIPSTKGAL	PGPT0020305_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-17_02580	1119	hisC_2	COG0079	Histidinol-phosphate aminotransferase	GTGACCGACCAGCTTGAGCGACTGAACCGCCTTCCCCTTCGGACCAACCTGCGGGGGTTGACGCCCTACGGCGCGCCGCAGCTGGACGTGCCTATCCTGCTGAACGTCAATGAGAACACTCATGGCGTACCGGCCGATGTCAGGGCAGCCATATCGGAGGCTGTGACAGAGGCTGCGGCCGGACTGAACCGCTACCCGGACCGCGAATTCACCCAGCTCCGGGAAGCCCTCGCCGAATACCTGGGCCACGGTCTGGGCGCCGAAAACATCTGGGCGGCCAACGGCTCCAATGAAGTCCTCCAGCAGATCCTCCAGGCCTTCGGCGGCCCCGGCCGCACGGCGTTGGGATTTCCGCCCACGTACTCCATGTACCCGCTGCTGGCCAGCGGCACCGACACTGAATACATCGTGGGGCAGCGGGCGGAGGACTACGGCCTGAGCGCCGAGTCCGCGGCACGCCAGGTCCGGGAGCTGCAGCCGAACGTCGTGTTCCTGTGCTCGCCAAACAATCCCACCGGCACGGGCCTGGGGCTGGATGTAGTAGAAGCCGTGTATCAAGCCGGCGAAGCCAGCCAGACCGTTGTGATTGTCGACGAGGCCTACCACGAGTTTGCGCACGACGGCACGCCCAGCGCCCTGACGCTGCTGCCCGGGCGTGAGCGGCTCATAGTGTCCCGGACCATGAGCAAGGCCTTTGCCCTGGCCGGAGCCCGGCTCGGATACATGGCAGCAGCCCCGGAAGTGGCCGACGCGCTGCGCCTTGTCCGCCTTCCGTACCACCTGTCGGCGATCACCCAGGCCACTGCTCTGGCCGCGCTGGAGCACAGGGAGGCTCTGATGGCCGACGTCGAGGACATCAAGCGCCAGCGCGACCGGATTGTCACAGAGCTGACGCGGATGGGTCTGAAGCCTGCGGCGTCGGACTCCAACTACGTCTTCTTCGGCGGCATCGAGAACCCCCACCAGGTGTGGCAGGAGCTGCTGGACTCCGGTGTCCTGATTAGGGATGTCGGGATCCCCGGGCACCTGCGTGTTACCGCGGGTACTGAGACGGAAACCACAGCCTTCCTCGGGGCGCTGGAAGCGATCCTGGCCCGGCAGGCAGCCCTTCCGGCCTAA	MTDQLERLNRLPLRTNLRGLTPYGAPQLDVPILLNVNENTHGVPADVRAAISEAVTEAAAGLNRYPDREFTQLREALAEYLGHGLGAENIWAANGSNEVLQQILQAFGGPGRTALGFPPTYSMYPLLASGTDTEYIVGQRAEDYGLSAESAARQVRELQPNVVFLCSPNNPTGTGLGLDVVEAVYQAGEASQTVVIVDEAYHEFAHDGTPSALTLLPGRERLIVSRTMSKAFALAGARLGYMAAAPEVADALRLVRLPYHLSAITQATALAALEHREALMADVEDIKRQRDRIVTELTRMGLKPAASDSNYVFFGGIENPHQVWQELLDSGVLIRDVGIPGHLRVTAGTETETTAFLGALEAILARQAALPA	PGPT0020305_1977	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-17_02581	408			hypothetical protein	ATGTCAGCTTCAACAACCGTTCATCAGCCTCTTTCGCTCCAGTCCCACCCAGTCCCGTCCCAGGGCAGGACCGAACAGGCGGGGAAGCCGCCGCGTCTGCGTCTGACCCGCCGGGGCCGCATCGTTCTGATCGGGTTGCCGCTGGTGCTTCTGGCGGCGCTTCTGTTGACTCTGGCCGGACTGCTGAATTCCCCGGCTAAGGCAGCCGACGCGGCCAGCGAACTCTCGGTCACGGAGACGGTCACTGTGACGGTGCAGCCCGGGGAGTCGCTATGGGCCATCGCCGTGGACGCGGATCCCCACAGGGACGCCCGCGACACTATTGCCGACATTGTCCAGCTGAACGATCTGGAGGACGGCAAAGTTCTGCCGGGGCAGCAGCTGTTCGTCCCGTCCGCCAAGTCCTGA	MSASTTVHQPLSLQSHPVPSQGRTEQAGKPPRLRLTRRGRIVLIGLPLVLLAALLLTLAGLLNSPAKAADAASELSVTETVTVTVQPGESLWAIAVDADPHRDARDTIADIVQLNDLEDGKVLPGQQLFVPSAKS				NA	NA	NA	NA	NA
D1-17_02582	747	lexA	COG1974	LexA repressor	ATGGCAGCATCAGCCTCCGAAGGCAAAGCTACCCAGCGCAGCCAGCGGCCCCGGAAGCCCAAGGGGCTGACGATTCGTCAGAAGAAGATACTGGAGACCATCCAGCGCTCGGTCAATGACAACGGCTACCCTCCCTCCATGCGGGAGATTGGAGACATCGTCGGGCTGGCCAGCCTGTCCAGCGTTACTCACCAGCTCTCTCAACTGGAAAAGCTCGGGTATCTCCGGCGCGATCCCAAGCGGCCCCGCGCCATGGAAGTCCTCATGCCGCTGACGCTGGACGCCGGCCTGTCCAAGACCTCCGATCCCGAGCAGGACGTGCGGCTTCAGAGTGTCGGCCCGGTCAGTGTGTCCGAGCTTCCCAGCGCAACCGACACCGCCATGGTGCCGCTCGTCGGGCGCATCGCTGCCGGCGGCCCCATCCTCGCCGACCAAATGGTGGAGGAGCTCATGCCACTCCCCCGGCAGCTTGTGGGCCACGGGGAACTGTTCATGCTGCGCGTCGCAGGGGACTCCATGGTGGATGCTGCCATCTGCGACGGCGACTGGGTGGTTGTACGCCGGCAGAGTGACGCCGTCAACGGCGACATCGTTGCGGCCCTGCTGGATGACGAAGCAACAGTGAAGACATTTCGGCAGCGGGATGGCCACACGTGGCTGCTTCCGCAAAACACGCAGTACGAGCCCATTCTGGGCGACCACGCCATCGTCATGGGCAAGGTCGTCTCGGTGCTCCGCTCGCTCTAG	MAASASEGKATQRSQRPRKPKGLTIRQKKILETIQRSVNDNGYPPSMREIGDIVGLASLSSVTHQLSQLEKLGYLRRDPKRPRAMEVLMPLTLDAGLSKTSDPEQDVRLQSVGPVSVSELPSATDTAMVPLVGRIAAGGPILADQMVEELMPLPRQLVGHGELFMLRVAGDSMVDAAICDGDWVVVRRQSDAVNGDIVAALLDDEATVKTFRQRDGHTWLLPQNTQYEPILGDHAIVMGKVVSVLRSL	PGPT0014895_28	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
D1-17_02583	2073	dinG_3	COG1199	putative ATP-dependent helicase DinG	ATGACTGACCGGGCGGCAGCCTCCGCCGGTGCCGCTCCCTCCTCCGGCGCCACGGCCGGCGAGGAGTTCGTCATCGAGCTCCTCGACCGTGCCGTGGCGGCCATGGGCGGCCAGAGCCGCAGCGGCCAGCATGAGATGGCGCGGCAGGTGGCCCGGGCCATTGAAACCGGCCACCACCTGCTGGTCCAGGCCGGCACAGGCACCGGAAAATCCCTCGCCTACCTGGTCCCGCTCATCGCCCACTCGCTGGAAAGCAACAAGCCCACACTCGTCTCAACGGCCACCCTGGCGCTGCAGACCCAGATCGTTGGCCGCGACCTTCCCCGGCTGTTGGAGAGCCTCAAACCGGCACTCGACCGCCCGGTGAAGGTTGCCCTCGTCAAAGGCCGTGCCAACTACGTCTGCCGGCACAAGCTCGAAGGGGGCTTTCCCTCCGAGGAGCCCGCCGAGGGGCAGCTTTTCTCCTTGGGCGAGGACACCAGCGTCCCGCACTTCGCGGCTGCCATGGGCGGGCCGTCGTCACAGCTTGGCAAGGAGGTCGTCCGCCTCCGCGAATGGGCGGAAAAGACCACCACGGGCGACCGCGACGAGCTCCTTCCCGGTGTCACGGACCGCGCCTGGCGGCAGGTCTCCGTCACTTCGATGGAATGCCTGGGCGCCCAGAAGTGTCCGCTCGCCGAAGAATGCTTCAGCGAGCTGGCCCGGCACGAGGCAGCCGATGCCGACGTCGTCGTCACCAACCATGCCATGCTTGCAGTCAGCGCATTTGAGGGCCTGGCGGTCCTGCCCGAATACGATGTGGTCGTCGTCGATGAAGCTCACGAGCTGCACGACCGGGTCACCGGCGCAGTGTCCGGACAGCTGTCCGTCGCCATGGTCCATGCGGCAGCATCAGGTGCCCGCAAACACACCGGGATTACCGTGGACGCGCTCAACAACGCGGCGGCCAACCTTGAACTTGCCCTCGCGGCTGTCCCCAGCGGTCTGCTGCCCAACGGATTAAACGCGGAACAGCTCGACTGCGTTGACCAGCTCCGGGAGGCGTGCCGGGCGGCGCTCTCGGATTCCAAGGGGGACAGTAACAGCACGGCCGACGGCGGCCGGCAGCTCGCGCGCTCCCGCCTCCTCGTCATCCTGGAACTGTGCGAACGGCTGCTCGCCGCACGCGAGAACCGCGAGGTTGTCTGGTTTTCGCGGAACAGCACCTTCGATCCCCAGCAGGGGTACTCACCGCCGGATGACACGCAGCCCGCGCTGATCAACATCGCACCACTCAGCGTCGCCGGGCGCCTGCGGGAGGGATTGTTCGCGGACCACACGGTGGTGCTGACTTCCGCTACGCTCGCCATCGGTTCCGCGTTCGAACCCGCTGCCGGCGGCCTCGGCCTCCTGGGTGACGGCGCCCCCGGCTGGACCGGAGTGGACGTCGGATCGCCGTTTGACTACCCCAAGCAAGGCATACTCTACGTGGCAGGGCATCTGCCCAAGCCGGGGAGGGGCACGTCGCCTGAAGCGCTGGACGAACTCGAAGCGCTGATCAGGGCCTCCGGAGGTGGAGCACTGTGCCTCTTCTCATCCCGCCGTGCCGCTGAGGAGGCCGCGGATGCCCTGAGGCCGCGCCTGGACGTCGACGTGCTTTGCCAGGGAGACTCCACGATGACCGCGCTGGTTAAGCAGTTCGCGGACGAGCCGGATACCTGCCTCTTCGGGACCATGTCGCTATGGCAGGGGGTGGACGTGCCGGGTGGCTCTTGCAGGCTTGTAGTGATCGACAGGATTCCGTTTCCGCGGCCGGATGATCCGCTGATGACTGCCCGCTCCCGGGCAGTGGCGCAGTCCGGCGGCAACGGCTTCATGTCCGTCTCGGCGACCCACGCCGCGATCCGCCTGGCCCAGGGTGCCGGTCGTCTCATCCGGTCCACCGATGACAGGGGTGTGGTGGCTGTACTGGATTCGCGCCTCTCCACTGAGCGTTACGGCGCGTTCCTGCGGGCAGCGCTTCCACCGTTCTGGCCGACGACCGACCGCAAGATCGCCCTTGCGGCATTGGAACGACTCGCCCGGGCTGACTGA	MTDRAAASAGAAPSSGATAGEEFVIELLDRAVAAMGGQSRSGQHEMARQVARAIETGHHLLVQAGTGTGKSLAYLVPLIAHSLESNKPTLVSTATLALQTQIVGRDLPRLLESLKPALDRPVKVALVKGRANYVCRHKLEGGFPSEEPAEGQLFSLGEDTSVPHFAAAMGGPSSQLGKEVVRLREWAEKTTTGDRDELLPGVTDRAWRQVSVTSMECLGAQKCPLAEECFSELARHEAADADVVVTNHAMLAVSAFEGLAVLPEYDVVVVDEAHELHDRVTGAVSGQLSVAMVHAAASGARKHTGITVDALNNAAANLELALAAVPSGLLPNGLNAEQLDCVDQLREACRAALSDSKGDSNSTADGGRQLARSRLLVILELCERLLAARENREVVWFSRNSTFDPQQGYSPPDDTQPALINIAPLSVAGRLREGLFADHTVVLTSATLAIGSAFEPAAGGLGLLGDGAPGWTGVDVGSPFDYPKQGILYVAGHLPKPGRGTSPEALDELEALIRASGGGALCLFSSRRAAEEAADALRPRLDVDVLCQGDSTMTALVKQFADEPDTCLFGTMSLWQGVDVPGGSCRLVVIDRIPFPRPDDPLMTARSRAVAQSGGNGFMSVSATHAAIRLAQGAGRLIRSTDDRGVVAVLDSRLSTERYGAFLRAALPPFWPTTDRKIALAALERLARAD				NA	NA	NA	NA	NA
D1-17_02584	1668	hflX		GTPase HflX	GTGACCCTTCCCAGTCAGCCCAGCGCGAATACCGTGCCCAAGGGCGGCAATCAGCACTATTCTAAAGATGCAGAACCTTTTAAGGAGACCATGACCAGTCAGCACAATTCCGGATCCGACCCAGCCGCCCAGGACATGAGCCCTGAGGAAATCCAGGCTGTGATCGACCGGATCCTCTCCAAGGACGTCCCGGCCCGGGGCGCCGCAGCTGCTAACGGCCCGGAAGCCGGCAGTAACGCGGTCCTTGGCACAGCGCAGGCCATCTCGCGCCTTGACGAAGAACACAGTATGTTCGACGGCGACCAGCAGGACCTCGAGGAACGCCGCGCACTGCGCCGTACGGCTGGGCTGTCCACCGAACTCGAAGACGTCACCGAAGTTGAATACCGGCAGCTGCGCCTGGAGCGTGTGGTTTTGGCTGGGCTCTGGAGCGAAGGCACCCTCGCCGACGCCGAGAACTCCTTGCGGGAACTGGCCGCCCTCGCCGAAACGGCTGGGTCGGAAGTTCTCGATGGGCTGGTCCAGCGGCGGGCAAAACCTGACCCCGGGACTTTCTTGGGCGCCGGAAAGGCCCTGGAGCTCAAGGACGTCGTGATGGCCACCGGCGCAGATACCGTGGTGGTGGACGCGGAACTTGCCCCCTCGCAGCGCCGCGGGCTCGAAGACATCGTCAAAGTCAAGGTCATTGACCGCACCGCGCTGATCCTCGACATCTTCGCCCAGCATGCGAAGAGCCGCGAAGGCAAGGCTCAGGTGGAGCTCGCGCAGCTCGAATACCTGCTCCCACGCCTCCGTGGCTGGGGCGAATCGATGTCCCGCCAAGCCGGTGGCCAGGTGGGCGGCGCCGGTGCAGGCATGGGCTCGCGTGGTCCCGGTGAAACCAAGATCGAACTGGACCGGCGGCGCATCCGCACGCGGATGGCGAAGCTGCGCCGCGAGATTGCCGCGATGAAGCCGGCCCGGGAAACCAAGCGGGCCAACCGGCGTCGTAATGCCGTACCGTCCGTGGCGATCGCCGGGTACACCAACGCCGGCAAGTCCTCACTGCTGAACCGGCTGACTGATGCCGGCGTCCTGGTCGAAAACGCCTTGTTCGCCACGCTGGATCCGACCGTGCGCAAGGCGGAGACCGCGGACGGTCTGGGGTACACGCTCGCGGACACGGTGGGCTTCGTCCGGTCACTTCCCACACAGCTGGTGGAGGCTTTCCGCTCCACGCTGGAGGAAGTGGCAGACGCAGATCTGATCCTGCACGTTGTGGATGTCTCCCACCCGGATCCGGAGGGCCAGATCGCTGCTGTGCGCTCCGTCTTCGCCGAGGTGGACGCGCGCAAGGTGCCCGAGATCATCGTTCTGAACAAGGCTGACGCGGCGGATCCGTTCGTCGTCGAGCGACTGAAGCAGCGCGAGCCGCGCCATGTGGTGGTGTCGGCCCGCACCGGCCAGGGAATTCCCGAGCTGCTTAAGGCGATCAGCGACGGGATTCCGCGGCCCAGCGTCAAGCTTGAACTGCTGGTGCCGTACCATCGCGGAGACCTGATCAACAAGCTCCACGAGTCTGATGCGGAGATCCTCAGCATGGAGCACGAAGAGGGCGGCACCCGGGCCGTGGTCATGGTCCGGGAAGGCCTTGCGGCTGAACTGGAATCCTTCATCATCAATGACTGA	MTLPSQPSANTVPKGGNQHYSKDAEPFKETMTSQHNSGSDPAAQDMSPEEIQAVIDRILSKDVPARGAAAANGPEAGSNAVLGTAQAISRLDEEHSMFDGDQQDLEERRALRRTAGLSTELEDVTEVEYRQLRLERVVLAGLWSEGTLADAENSLRELAALAETAGSEVLDGLVQRRAKPDPGTFLGAGKALELKDVVMATGADTVVVDAELAPSQRRGLEDIVKVKVIDRTALILDIFAQHAKSREGKAQVELAQLEYLLPRLRGWGESMSRQAGGQVGGAGAGMGSRGPGETKIELDRRRIRTRMAKLRREIAAMKPARETKRANRRRNAVPSVAIAGYTNAGKSSLLNRLTDAGVLVENALFATLDPTVRKAETADGLGYTLADTVGFVRSLPTQLVEAFRSTLEEVADADLILHVVDVSHPDPEGQIAAVRSVFAEVDARKVPEIIVLNKADAADPFVVERLKQREPRHVVVSARTGQGIPELLKAISDGIPRPSVKLELLVPYHRGDLINKLHESDAEILSMEHEEGGTRAVVMVREGLAAELESFIIND	PGPT0007245_536	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
D1-17_02585	750	rsmC	COG2813	Ribosomal RNA small subunit methyltransferase C	GTGGCCGGAGGCCGCGGCTTGAACCTGCGGCCGACAAATACCGGCTACTCAAAAGTCAGGAACATGCCTACTAGAATACCAGAACTCCGGCGCCGGTTTTCCATCAGGCCGGTCAGCCCACTAATCTGGCCAGTTATGGACTCTGCCCACTATTTCAGCGCCTCGCCCGCAGGGCCGTTCACCCGCAAGCCGCTTACCGTGGAGCTGGCCGGTGAACCGCGGAAGCTGCACACTTCCTCGGGTATTTTCAGCCCGGACGGGATCGATAAGGGCACGGCGATATTGCTGGCGGAAGTCCCTGCCCCGGCGCCGCAGGGGAATCTGCTGGACATAGGCTGCGGCTGGGGCCCCATCGCGCTGACCATGGCGCTGCGTGCGCCGCATGCGCAGGTTTACGCGGTGGACGTCAACGAACGCTGCATCGCACTCACGAACGAGAACGCCGCCCTTCTTGGGTTGGACAATGTCGCCGCCAGCTTGCCGGAGGAGGTCGATCCGGAGCTGCGCTTCGATACCATCTGGTCCAATCCGCCGATCCGGGTCGGCAAGGACGAGCTGCATTCACTGCTGTTGCTCTGGCTGCCGCGTCTGGCACCGGGCGGCTCGGCCTGGATGGTGGTGCAGAAAAACCTGGGTTCCGATTCGCTGCAGCGCTGGCTGGACACGGCGCTCGATGAGTCCTTCACGGTGACCCGTGAGAGCACGTCCAAGTCGTTCCGGATCCTGCGGGTCAGGAAAGCGTCCCGCTAG	MAGGRGLNLRPTNTGYSKVRNMPTRIPELRRRFSIRPVSPLIWPVMDSAHYFSASPAGPFTRKPLTVELAGEPRKLHTSSGIFSPDGIDKGTAILLAEVPAPAPQGNLLDIGCGWGPIALTMALRAPHAQVYAVDVNERCIALTNENAALLGLDNVAASLPEEVDPELRFDTIWSNPPIRVGKDELHSLLLLWLPRLAPGGSAWMVVQKNLGSDSLQRWLDTALDESFTVTRESTSKSFRILRVRKASR				NA	NA	NA	NA	NA
D1-17_02586	945	dapF	COG0253	Diaminopimelate epimerase	ATGAATGAAGCCCTTACAGAAGCCGACGAACGCCCGGTGTCACACCTGAGCGGCCTCCGCTTCTCGAAGGGCCACGGCACCGGCAATGACTTCGTCTTGATCGCGGATCCCGAGGGCATCCATTCCATCTCCCCGCACCAGGTCGCTGAGCTCTGCGACCGGCACCGCGGCATTGGCGGGGACGGACTCATCCGTGCGGTCCCGTCCCGGCTGCTCGATGAGGGCCGGCAGATCCTCTCTGTGAACCCGGATGCCGAATGGTTCATGGACTACCGCAACGGCGACGGCTCGCTGTCCGAGATGTGCGGGAACGGCGTCCGGGTCTTCGTTCACTTCCTCCTCGCCGAGGGCCTGGCGGAGCTGCCGCCTGGCGGCTCACTGACGGTCGGAACGCGCGGCGGCGTGAAGACGATCGTCCGCACAGCCGACGGCTACGCCGTGGATATGGGCCCTTGGGAGTTTATTTTCCCCGCCGATGCTGCCGCCCGCGCCATGGACTCCCTGGTCAGCGCTGACGGCCTGGAGGTGCCGCGGCCCGCACTGTCCGTCAGCATGGGAAACCCGCACACGGTCGTCGCCCTGGCTGAGCTGTCCGAGCTTGACGGCATGAAGCTCTTCACCGCACCGCATGTTGATCCGAAGCCCGAGCACGGAACCAACGTTGAATTTGTTGTGCCCTCCGAACCCCTGGTCCACGACGGTGTGGGCACAGTCACCATGCGTGTGCACGAACGCGGAGTCGGGGAAACACAGTCGTGCGGAACAGGTGCCTGCGCCGCCGCCGTAGCAATCCGTCACTGGGCCGGTCAGGGCGCACCGGACGCTTGGCAGGTAAAGGTGCCGGGCGGCGTCGTCGGTGTGAAATTCTTCACCGTGGCTGACGGCCGTGAGCACGTGGAGCTGAGCGGTCCGGCAACGATCGTAGCTAGCGGGACGCTTTCCTGA	MNEALTEADERPVSHLSGLRFSKGHGTGNDFVLIADPEGIHSISPHQVAELCDRHRGIGGDGLIRAVPSRLLDEGRQILSVNPDAEWFMDYRNGDGSLSEMCGNGVRVFVHFLLAEGLAELPPGGSLTVGTRGGVKTIVRTADGYAVDMGPWEFIFPADAAARAMDSLVSADGLEVPRPALSVSMGNPHTVVALAELSELDGMKLFTAPHVDPKPEHGTNVEFVVPSEPLVHDGVGTVTMRVHERGVGETQSCGTGACAAAVAIRHWAGQGAPDAWQVKVPGGVVGVKFFTVADGREHVELSGPATIVASGTLS	PGPT0007230_453	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
D1-17_02587	903	miaA	COG0324	tRNA dimethylallyltransferase	GTGGACGCCAGGCAGCCGCCCGTCATCACGGTGGTTGGGCCCACCGGTTCCGGAAAATCGGACCTGGCCGTCGAGCTCGCGCTGAAACTTGACGGCGAGGTCATCAACGCAGACGCCATGCAGTTTTACCGCGGCATGGACATCGGAACCGCCAAAGTCACCGAGGCTGAGCGCAAGGGGATTCCGCACCACCTGCTGGACACTCTGGACGTCACCGAGGAAGCGTCGGTGTCCGAGTTCCAGCAGCAGGCACGCGCCGCCATCGCTGACATCCACCGCCGCGGGAAACGTGCCATTCTCGCCGGCGGCTCCGGGCTTTATGTCCGTGCTGCCGTCGACATCCTCGAGTTCCCGGGTACCTCTCCCTCCATCCGGAAGCGCCTTGAGCAGGAACACGCGGACGCCGGCGTTGCCCCTCTGCTGGAACGGTTGCGGCGCGTCGACCCGGCCTCTGCCGGACGGCTGGGAGACGCGCGCCGGATCATCCGGGCCCTGGAGGTCTTTGAGCTGACAGGCCGTCCGTTCAGTTCGTTCATGCCCAACCGCGAGTACGTTCAGCCCACGGTGCAGATCGGCCTGCAAGTCGACCGGGAGATACTCCGAGACCGGCTCGCCGACCGCGTCCACCGCATGGTCGGGAAGGGACTCCTGGCTGAGGTTGAACGCCTTGACGCTGCCGGGCTCCGGCGGGGCCGCACTGCGCCCCGCGCGCTGGGATACGCCCAGTTTTTGAAAGTGCTCGACGGCGCGACGGATGTGGCGCAGGCAGCGGAGGAGACGATCGTGGCCACCCGGCAGTTTGCCCGCCGCCAGCTCACCTGGTTCCGGGCCGATCCGCGCATTGCATGGGTAGACTGGCAGGATCCTGATCTGGTCGCCAAGGCCGCGGCCCTCTGCTGCTGA	MDARQPPVITVVGPTGSGKSDLAVELALKLDGEVINADAMQFYRGMDIGTAKVTEAERKGIPHHLLDTLDVTEEASVSEFQQQARAAIADIHRRGKRAILAGGSGLYVRAAVDILEFPGTSPSIRKRLEQEHADAGVAPLLERLRRVDPASAGRLGDARRIIRALEVFELTGRPFSSFMPNREYVQPTVQIGLQVDREILRDRLADRVHRMVGKGLLAEVERLDAAGLRRGRTAPRALGYAQFLKVLDGATDVAQAAEETIVATRQFARRQLTWFRADPRIAWVDWQDPDLVAKAAALCC	PGPT0007210_5038	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
D1-17_02588	1443	miaB	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGAACGTCCACGATTCCGAACGCATGGCCGGGATGCTCGAAGCGGCAGGCTACGTTCCGGCGGATGGCACCCAGGCCGACGTCGTGGTGTTCAACACATGCGCTGTCAGGGAAAACGCGGACAATAAGCTGTACGGCAACCTGGGCCAGCTGGCGCCGGTCAAGGCCGCCAACCCCGGAATGCAGATCGCCGTCGGCGGCTGCCTGGCGCAGAAGGACCGCGAGGCCATTCTGAAGAAGGCCCCATGGGTGGACGCCGTCTTTGGCACGCACAACGTCGGTGCCCTGCCGGCCCTTTTGGACCGGGCGCGCCACAACAGCGAGGCCCAGCTGGAGATCCTTGAATCGCTGGACGTCTTCCCGTCGACACTGCCCACGAAGCGCGACTCAGTCTATTCCGGCTGGGTGTCCATTTCCGTCGGCTGTAACAACACCTGCACTTTCTGCATCGTTCCAGCCCTCCGCGGCAAGGAAAAGGACCGCCGGCCCGGGGACATCCTCGCCGAAGTTCAAGCCTTGGTGGAGGACGGCGCCATCGAAGTGACCCTCCTGGGCCAGAACGTCAACTCCTACGGCGTGGAGTTCGGCGACCGCCAGGCGTTCTCCAAACTGCTGCGCGCCTGTGGTGTGATCCATGGCCTGGAAAGGGTCCGCTTCACCAGCCCGCACCCGGCCGCATTTACGGACGACGTCATCGACGCCATGGCCGAGACGCCCAATGTCATGCCGCAGCTGCACATGCCGCTGCAGTCGGGCTCAGACAAGGTCCTGAAGGACATGCGGCGTTCCTACCGCTCCTCCAAGTTCCTCGGAATCCTCGACAAGGTCCGGGAGAAAATGCCGCACGCCGCGATCTCCACGGACATCATTGTGGGTTTCCCGGGCGAGACGGAAGAGGATTTCCAGGGGACCCTGGACGTTGTTGAGAAGTCGCGCTTCGCCACCGCCTTCACTTTCCAGTACTCCAAGCGGCCCGGGACACCGGCGGCCGACCTTCCCGACCAGCTGCCTAAAGCGGTGGTCCAGGAGCGCTTCGAGCGGCTCACTGCCCTTCAGGACCGCATCGCTGCAGAGGAAAACGCAAAGCAGCTTGGACGGCGGGTTGAGGTTATGGTGACTGCGCAGTCGGGACGCAAGGCAGAGGAAACCCACCGCCTGTCCGGCAGGGCGCAGGACCAGCGGCTCGTCCACTTCTCGGTGCCTGGCGGTGCCCCAGCCCCTCGGCCAGGTGACCTCGTCACCGTCACGATCACCGGGGCTGCCGCTTTCCACCTGGTCGCCGACCCTGCAACGGCTGCGGACTACTCCCTCCGCCGTTCGCGGGCGGGGGACGCCTGGGACAGGTCACAGTCGGATTCCTGCGGCGCTCCCGCGCCGGCTGCCCCGGGCGGGAAATCCAACGTCTCACTCGGCATGCCGTCACTACCGATCCGCAGCCGCTAG	MNVHDSERMAGMLEAAGYVPADGTQADVVVFNTCAVRENADNKLYGNLGQLAPVKAANPGMQIAVGGCLAQKDREAILKKAPWVDAVFGTHNVGALPALLDRARHNSEAQLEILESLDVFPSTLPTKRDSVYSGWVSISVGCNNTCTFCIVPALRGKEKDRRPGDILAEVQALVEDGAIEVTLLGQNVNSYGVEFGDRQAFSKLLRACGVIHGLERVRFTSPHPAAFTDDVIDAMAETPNVMPQLHMPLQSGSDKVLKDMRRSYRSSKFLGILDKVREKMPHAAISTDIIVGFPGETEEDFQGTLDVVEKSRFATAFTFQYSKRPGTPAADLPDQLPKAVVQERFERLTALQDRIAAEENAKQLGRRVEVMVTAQSGRKAEETHRLSGRAQDQRLVHFSVPGGAPAPRPGDLVTVTITGAAAFHLVADPATAADYSLRRSRAGDAWDRSQSDSCGAPAPAAPGGKSNVSLGMPSLPIRSR	PGPT0007215_308	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
D1-17_02589	477	recX	COG2137	Regulatory protein RecX	GTGGCGGTGGCGCGGGCCATCGTGCTGCGCCAGCTGACGAACTCCCCTAAGAGCAGGCTGCAGCTGGAGCGCAAACTGGCCGAACGCAACGTGCCGGAAGACGTCGCCGTTGCTGTTCTGGACCGGTTCGAAGAAGTCAAACTCGTCAATGACGCGGAATTCGCCGATATGTGGGTGCGCAGCCGCTCGCAGAACCGCAAGCTGGCCAAGGGTGCCCTGCGCCGCGAACTGGCCGAGAAGGGCATCGACCCCGAGACCGCGGCATCAGCGCTGGGGCAGCTTAGCGACGAGGACGAGGAAGCTGCGGCCCGGCACCTGGTGGAGCGCAAGCTGCGGCCGGGCGTGGACCTGACGGACCGCGCCGAGCGGGACAAGGCAACCCGGCGCCTGGCCTCCATGCTCGCGCGCAAGGGGTACCAGCCCTCGCAGGCCTTCCGCATCGTCGGCGAAGTGCTGGACTCAGTCTCGGGCAGCTAG	MAVARAIVLRQLTNSPKSRLQLERKLAERNVPEDVAVAVLDRFEEVKLVNDAEFADMWVRSRSQNRKLAKGALRRELAEKGIDPETAASALGQLSDEDEEAAARHLVERKLRPGVDLTDRAERDKATRRLASMLARKGYQPSQAFRIVGEVLDSVSGS	PGPT0007240_2155	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
D1-17_02590	1053	recA	COG0468	Protein RecA	ATGGCGGCAGCCCCGGACCGTGCAAAGGCGCTTGAAGCAGCGCTTGCCCAGATTGACAAGCAGTTCGGCAAGGGATCGATCATGCGGCTGGGCGATGAGACCCGGGCCCCCATCGAGGTCATTCCCACCGGATCGATTGCCCTGGATGTCGCGCTTGGCATCGGCGGGCTTCCTCGCGGCAGGGTCGTGGAGATCTACGGGCCGGAATCCTCCGGTAAGACCACCGTCGCGCTCCATGCCGTGGCGAACGCCCAGCGCAACGGCGGCATCGCCGCATTCATCGACGCCGAACACGCCCTTGACCCCGAGTACGCGGCCAGGCTGGGTGTGGATACAGATGCCCTGCTGGTCTCCCAGCCGGACACCGGTGAACAGGCCCTCGAGATCATGGACATGCTGGTGGGCTCCGGTTCACTGGACGTCGTGGTCATTGACTCCGTGGCCGCCCTCGTCCCGCGCGCGGAAATCGAAGGCGACATGGGCGACAGCCACGTCGGCCTCCAGGCGCGGCTAATGAGCCAGGCCCTCCGAAAGATCACCGGCCGGCTGAGCCAGACCAAGACCACCGCCATCTTCATCAACCAGCTTCGCGAAAAGATCGGCGTGTTCTTCGGCTCACCCGAAACCACCACCGGTGGTAAGGCGCTGAAGTTCTACGCGTCCGTCCGTATTGACGTCCGCCGCATTCAGACGCTGAAGGAAGGTGCCGACTCTGTCGGTAACCGTACCAAGGCCAAGATCGTCAAGAACAAGATGGCCCCGCCCTTCAAGGTCGCCGAGTTCGACATCATCTACGGGCAGGGCATCTCCCGAGAGGGCGGCATCATCGACATGGGCGTGGAGCACGGCATCATCAAGAAGTCCGGGTCCTGGTTCACCTATGACGGCGACCAGCTTGGGCAGGGCATGGAGAACTCCCGGCGCTTCCTTCGCGACAACCCCGAACTCGCGGCGGAACTGGAGCGGCTCATCAAGGAAAAGCTCGGCGTTGGAGTCAAGCCCGCTGCTGAAACAGAGGCTTCACCGAAGCTGAAGGCTGTTGACGGCTTCTAG	MAAAPDRAKALEAALAQIDKQFGKGSIMRLGDETRAPIEVIPTGSIALDVALGIGGLPRGRVVEIYGPESSGKTTVALHAVANAQRNGGIAAFIDAEHALDPEYAARLGVDTDALLVSQPDTGEQALEIMDMLVGSGSLDVVVIDSVAALVPRAEIEGDMGDSHVGLQARLMSQALRKITGRLSQTKTTAIFINQLREKIGVFFGSPETTTGGKALKFYASVRIDVRRIQTLKEGADSVGNRTKAKIVKNKMAPPFKVAEFDIIYGQGISREGGIIDMGVEHGIIKKSGSWFTYDGDQLGQGMENSRRFLRDNPELAAELERLIKEKLGVGVKPAAETEASPKLKAVDGF	PGPT0007235_2974	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
D1-17_02591	267			hypothetical protein	ATGGGAGGATCAGTTCTTGGTGGGTTTGACGTCGCGACCCAGGCGCCGTTCTGCCGGAACGTCCTGTACGTCGCACATAGCCAGCCAAATGTCCCGGGGATTGACACCGGCAGCCAATGCTTCATCGGCGGTCCGGCCTCCTACTCCTGCAAGGCTCAGCGAACTGCTGAGTACACGGGAATAGCCTGCACCGAACTCATCGTCCATGAGCCGCCAAAAATCACTGATCCGCACAGGATAGAGTCTCTCATGGCCGGCGGACTCTAG	MGGSVLGGFDVATQAPFCRNVLYVAHSQPNVPGIDTGSQCFIGGPASYSCKAQRTAEYTGIACTELIVHEPPKITDPHRIESLMAGGL				NA	NA	NA	NA	NA
D1-17_02592	525			hypothetical protein	ATGGTTGCCATGAGCAACCCCGTTGACGTCCCGGGAACGTCCGCCCCTGCTGAAGACACCCTTGATGAGGCCCTGAAGTCTGTGGAGCAGCAGATCAGCATCTTCTGGCGGCGCGCCCGCGCTGTTTCCCAGCAGCTGTCGCGCCAGGTGCATCCGGACATGGAGCCCGCTGCCTACGGGCTGCTCACGATGATCCGCAAGACGGGACCCATCAGACTGACTGAACTCGCGTCCTGCATCGGAGTCGGCAAGCCTTCGGTGAGTCGTCAGATCGCGTTTTTGGAGAACATCGGCCTCGTCGTCAAGGAAGCGGATCCGCTCGATGGGCGCGCGCAGACAATCCGCCTCACACCCAAGGGCGAAGAGAAGATGCACCAGGTGCAGGACGCCAGGCACCAGGTCTTCCGGGAGCGGTTGGGCGAATGGCCGGTGGAGGATCTTGAAGCACTTGCCACCTATATGGCCAAGCTCAATGCAACATACGAACGTGACGGGTTTCCCCGGGACGAACACCCCCAGGCGTAA	MVAMSNPVDVPGTSAPAEDTLDEALKSVEQQISIFWRRARAVSQQLSRQVHPDMEPAAYGLLTMIRKTGPIRLTELASCIGVGKPSVSRQIAFLENIGLVVKEADPLDGRAQTIRLTPKGEEKMHQVQDARHQVFRERLGEWPVEDLEALATYMAKLNATYERDGFPRDEHPQA				NA	NA	NA	NA	NA
D1-17_02593	453			hypothetical protein	ATGGTAAAGCAGCCCGTATCCGTGAACGGCGTTGTCCGCTGGAAGGATGTGGGCCTCGCTGATCAGTCCAAGAGCGAACAGAAGGAGCGCAAGATGGTAGTACTTCGTCACGAAATCGGTGATGTCCTGCGCGATGTCCGCCAGCGCCAGGGGCGTACCCTCCGCGAAGTGTCGCACAGCGCCCGGGTTTCCCTGGGTTACCTGAGTGAAGTGGAGCGCGGCCAGAAGGAAGCCTCTTCCGAGCTCCTGTCCTCGATTTGCTCTGCCCTGGACGTGCCGCTCTCCAGCATGCTCCGTGAGGTCAGCGACCGTGTGGCGGTGGCCGAGGGCGTTGCAGTGCCCGACACGGTGCCGCAGGAATTCTCCCAGCGTTACGGCCGTGATCTCGACCGCGACCTCAACACTGAGCTGAACAACGAGCTTGCCAAGGGCCTGCTGTCCGGAGCCCGGTAA	MVKQPVSVNGVVRWKDVGLADQSKSEQKERKMVVLRHEIGDVLRDVRQRQGRTLREVSHSARVSLGYLSEVERGQKEASSELLSSICSALDVPLSSMLREVSDRVAVAEGVAVPDTVPQEFSQRYGRDLDRDLNTELNNELAKGLLSGAR				NA	NA	NA	NA	NA
D1-17_02594	495	cinA	COG1058	Putative competence-damage inducible protein	ATGAGCAACCTTCACAGACTTGCCGGCGAAACCGTGGCGGCGGCGGCAGGACGCGGCGTCACGATAGCCACCGCAGAGTCCCTGACCGCGGGCATGGTCAGCGCCATGCTTGCTGACACGCCCGGCGCCTCCGCCATGCTGCGCGGCGGCGTCGTCTCCTATAGCAATTCGGTCAAGCGTGACCTCCTCCGCGTTCCCCAGGAGCTGCTGGACGCCGTGGGATCCGTGGACGGCGAGGTGGCCGCCGCCATGGCCGAAGGTGCCCGCAGCGCCTGCGGAGCGGACCTGGCCGTAGCAACCACCGGCGTGGCGGGGCCGGGGGAGCATGACGGGAAACCGGTGGGAACGGTGTTCATCGGTGTCGCCAGTGCCCACGGTTCCACGTCCTTTCCCTACAGTTTCGAGGGCACGCGGGCGGAGATCAGGGCGCTGGCTTGCGAGGCTGCGCTGGAACGGCTTCGGGAGGCGCTGGCCTCGCTAAGTTACCAGGAGTAA	MSNLHRLAGETVAAAAGRGVTIATAESLTAGMVSAMLADTPGASAMLRGGVVSYSNSVKRDLLRVPQELLDAVGSVDGEVAAAMAEGARSACGADLAVATTGVAGPGEHDGKPVGTVFIGVASAHGSTSFPYSFEGTRAEIRALACEAALERLREALASLSYQE	PGPT0013460_2676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
D1-17_02595	696	pgsA		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	GTGACTAGCACCGAAGCGACCGCGGCCGGCTCCAACAGCTCCGGGATCTGGAATCTACCCAACATCCTCACGATGCTCCGCATCGTGCTGGTGCCGTTCTTCGTCTGGTTCCTCCTGGCGGACGCGCCAGGGCTCAGCAGCGAGTCCGGGCCTTGGAGGTGGGCCGCCGTGGCGGTTTTCGCCGTCGCCATCTATACGGACAAGCTCGACGGCGACATTGCCCGCAGCCGCGGATTGGTCACCGATTTCGGTAAGATTGCCGATCCCATTGCAGACAAGCTGCTGACCGGCTCCGCCCTGGTCATGCTCTCTGTGCTAAACGAACTGCCCTGGTGGATCACGGTGGTCATCCTTGTCCGCGAATGGGGCATCACCGCACTGCGGTTCTTCGTCATTCGTTATGGCGTCATTCCGGCATCGCGCGGAGGAAAATTCAAGACTGTGGTGCAGACCGCCGCGATCTTCCTGTACCTGCTCCCGTTGTCGGCCATCGCGCCATGGCTGACCTGGGTGGCCCTCGCCGTGATGCTGGTCGCCGTGCTCATCACGGTGTGGACCGGCGTCGAGTATGTCATCGAGGCACTGAAGGTCCGCTCGCAGGGGCTGCGCCACAGGGCCGAAGAACAGCGCAGGGCCGAAGAACAGCGCGAGGCAGAAGAACAGCGCGGGCCGGACACCCGGGAGGGGCAGGTATGA	MTSTEATAAGSNSSGIWNLPNILTMLRIVLVPFFVWFLLADAPGLSSESGPWRWAAVAVFAVAIYTDKLDGDIARSRGLVTDFGKIADPIADKLLTGSALVMLSVLNELPWWITVVILVREWGITALRFFVIRYGVIPASRGGKFKTVVQTAAIFLYLLPLSAIAPWLTWVALAVMLVAVLITVWTGVEYVIEALKVRSQGLRHRAEEQRRAEEQREAEEQRGPDTREGQV	PGPT0007705_991	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
D1-17_02596	2937			hypothetical protein	GTGGCACATATGGCCACACGTACTTCCTCCGCGCCAAAACGTACCCCCAGCGCCAGATCGGGCACGTCATCAGGCCGCGCCGGTGCCACGGCCTCCAAGGCGGGGCGTTCGGCATCAACCGGCCAGCCAGCCCGCACACGCCAGATGGCCGCCGTCGAACCCCGCCAGCCGTGGCTTCTGCGGGTTCTGGGCGGCGCCTGGCTGGCTGTCGGCCACCTGGTGGGTGGGGGAGTGCGCAGGATCGGTCATGATGTCAGCGACCTCCCGCCCGGGGATCGCCGGGACGGCGCCGCGCTGTTCAACCTGGCGCTGGCAATTTTCATCGCAACCTTCGCATGGTGGGGTTTCCGGGGCTGGTTCCCTGATGCGGTGTACGCAGTGGTCAATGGGACGTTCGGGTGGATGTCGCTGGTGCTGCCGCTAATGCTGTTCATCTGCGCTGTGCGGCTGTTCCGCCGGCCTGCCGACGGCCGCGGCAACAACCGCGTGGGGATCGGCTTCCTCATCATGACATTCGCAGGCTGCGGGCTGGCCCACATCATCGGCGGTCAACCAACCGTCGCCCAGGGTTTCGACGGCCTCCGCCAGGCGGGCGGCATGCTGGGTTTCCTGGCATCATCGCCCCTTGCCGCCATCCACGCCGCGGTGCCAGTGGCTTTATATGGACTGCTGGCGTTCGTCTCAGTGCTCATCGTCACCGCCACACCGTTCACGGCGATCCCGCGGCGCCTGCGCGCGGCCTATGAGCACCTCATGGGCGTTGACCTGCAGGAACATAAGGCCGACGGCCACGACCGCAGCTACCTTTACGAAAACACTGCTCCGGCAGCGCCGAAAAAGAAGCGCAAGCGCCTCTTCGGCAAGGAACAGGACGCAGACGCGCGCCTCGAGGGCTATGTCGGTGACGAGGCCTTCGAGCATGCGGTCATTGACGACGACGAGCCTGCCTCTTCCGGCAAGGGCGCCTCGGCGGTGGCCCCTGGTGTCCGCCGACCCACTCAGGCGGAGATCGCCGTCGAGAAGATCAAGGCGGCGCAGGGGATTGGAGTCAAGGGGTCGGACGCCCACGGGGAGAATGCCACGGAGGCCATCCCGCTCGTCGCCCCAGGCATGAACACGGCAGGCATGAACACGCCGGGTATCAGCGCCCCCGGCTCGCCGCCGGCGATGAATGCAGCGGGTGCGGCCGTCCATGTGCCTTCCAAACCGGTGGCGCCACCGCCGCCGCCCACGCCGATCCCGCAACGCACGGAGCAGCTTTCGCTGGCCGGCGACGTCACTTACACCCTCCCGTCGTCCGACATGCTGACCCCCGGGTCCATTCCGAAGGAGCGGACGGAAGCCAACGACGCCGTGGTCGCCGCCCTGACCGACACGCTCACCCAGTTCAACGTGGACGCCACGGTGACCGGGTTCAGCCGCGGTCCCACCGTCACGCGCTATGAAATCGAGCTCGCGCCCGGAACCAAGGTGGAGCGCGTCACGGCGCTGTCCAAGAACATCTCCTATGCGGTCGCCAGCTCGGATGTGCGGATCCTGAGCCCCATCCCGGGCAAGTCCGCCATCGGCATTGAAATCCCGAACACGGACCGTGAGACTGTGTCGCTGGGCGACGTCCTCCGCAGCCAAAACGCCCGGCGCACCGACCACCCCATGGTTATGGGCGTCGGGAAGGACGTGGAGGGAGGATACGTCGTCGCGAACCTCGCGAAGATGCCCCACCTCCTCGTGGCCGGTGCAACCGGTGCCGGTAAGTCCTCGTTCGTGAATTCGATGATCACGTCGATCCTCATGCGTTCCACGCCGGACGAGGTCCGCATGGTCATGGTAGACCCCAAGCGCGTGGAACTGACCGCCTATGAGGGAGTGCCGCACCTCATCACGCCCATCATTACGAACCCGAAGAAAGCCGCCGAAGCGCTGCAGTGGGTAGTCCGGGAAATGGACGCCCGCTACGACGACCTGGCCAACTACGGCTTCAAGCACATCGACGACTTCAACAAAGCCGTCCGAGCAGGGAAAGTCCAGCCTCCCGTGGATTCCAAGCGCGTGATCCGGCCGTACCCGTATCTGTTGGTGATCGTGGACGAACTCGCCGACCTCATGATGGTGGCCCCGCGCGACGTCGAGGACTCCATCGTCCGGATCACGCAGCTGGCGCGTGCCGCCGGCATCCACCTGGTCCTTGCCACGCAGCGGCCGTCCGTGGACGTCGTCACCGGCCTGATCAAGGCCAACGTCCCCTCGCGCATGGCCTTTGCGACATCCTCCGTGACCGACTCCCGCGTGGTCCTCGACCAGCCAGGCGCCGAAAAGCTTATCGGGCAGGGTGACGCCCTCTTCCTGCCCATGGGCGCCTCCAAAGCCATGCGCGTGCAGGGCGCCTGGGTGACGGAGTCAGAAATCCATAACGTGGTGGAGCACGTCAAGGGCCAGCTCAAGGCCGAGTACCGCGATGACGTTGCCGCAGATGCACCTAAGAAGCAGATTGACGACGACATCGGAGACGACCTCGAGGTGCTGCTGCAGGCCACCGAACTCGTGGTCACCACCCAGTTCGGCTCCACTTCTATGCTGCAGCGCAAGCTGCGGGTCGGGTTCGCCAAGGCCGGCCGCCTCATGGACCTTCTGGAGTCCAGGGGAGTGGTGGGCCCATCCGAAGGATCCAAGGCGCGCGACGTCCTGGTCAAGCCGGACGACCTCGCCGCCGTGCTGGCAGCCATGAAGGGCCAGGAAGCCCCGGTCGCACCCGATTCGCAGACCGCCGCTCTCAGCGACAATGCCAACGCCAACATCGCGCAGGGCGGCTATGCGGAAGACCTCGTTGCTGCCGACCTGGACAACCGCACGCAGAGCGTTGAGTACTACGACGGGGCCGATGGTCCGGGTGATGACGGTGACGGCTCCGAGGACGCCTGGTCCCTTACGGGGCGGTAG	MAHMATRTSSAPKRTPSARSGTSSGRAGATASKAGRSASTGQPARTRQMAAVEPRQPWLLRVLGGAWLAVGHLVGGGVRRIGHDVSDLPPGDRRDGAALFNLALAIFIATFAWWGFRGWFPDAVYAVVNGTFGWMSLVLPLMLFICAVRLFRRPADGRGNNRVGIGFLIMTFAGCGLAHIIGGQPTVAQGFDGLRQAGGMLGFLASSPLAAIHAAVPVALYGLLAFVSVLIVTATPFTAIPRRLRAAYEHLMGVDLQEHKADGHDRSYLYENTAPAAPKKKRKRLFGKEQDADARLEGYVGDEAFEHAVIDDDEPASSGKGASAVAPGVRRPTQAEIAVEKIKAAQGIGVKGSDAHGENATEAIPLVAPGMNTAGMNTPGISAPGSPPAMNAAGAAVHVPSKPVAPPPPPTPIPQRTEQLSLAGDVTYTLPSSDMLTPGSIPKERTEANDAVVAALTDTLTQFNVDATVTGFSRGPTVTRYEIELAPGTKVERVTALSKNISYAVASSDVRILSPIPGKSAIGIEIPNTDRETVSLGDVLRSQNARRTDHPMVMGVGKDVEGGYVVANLAKMPHLLVAGATGAGKSSFVNSMITSILMRSTPDEVRMVMVDPKRVELTAYEGVPHLITPIITNPKKAAEALQWVVREMDARYDDLANYGFKHIDDFNKAVRAGKVQPPVDSKRVIRPYPYLLVIVDELADLMMVAPRDVEDSIVRITQLARAAGIHLVLATQRPSVDVVTGLIKANVPSRMAFATSSVTDSRVVLDQPGAEKLIGQGDALFLPMGASKAMRVQGAWVTESEIHNVVEHVKGQLKAEYRDDVAADAPKKQIDDDIGDDLEVLLQATELVVTTQFGSTSMLQRKLRVGFAKAGRLMDLLESRGVVGPSEGSKARDVLVKPDDLAAVLAAMKGQEAPVAPDSQTAALSDNANANIAQGGYAEDLVAADLDNRTQSVEYYDGADGPGDDGDGSEDAWSLTGR	PGPT0030468_2777	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030468-essC|eccC|ftsK|spoIIIE-K03466	NA	NA
D1-17_02597	1692	rnj	COG0595	Ribonuclease J	ATGACCCAACTAGCCCTACCCGGCCTCGTTACGCCCCCCCGCCTTGCGGAGGGGACCCTCAGGATTGTTCCGCTTGGGGGCCTGGGCGAAATCGGCCGCAACATGGCTGTCTTCGAAATCGACGGAAAGTTGCTGATCGTTGACTGCGGTGTCCTCTTCCCTGAGGAGACGCAGCCCGGGGTGGACCTGATCCTGCCCGATTTCTCCTACATTGAGGATCGGCTGGATGACATCGTGGCCGTGGTGCTCACGCACGGCCATGAGGACCACATTGGTGCCGTGCCCTACCTCCTCCGTCTCCGCAGCGATATTCCGCTGGTGGGATCGCAGCTGACACTTGCCCTGGTGGAAGCGAAGCTCCAGGAACACCGCATCCGCCCCTACACACTGACGGTGACCGAAGGCCAGGTCGAGCAGTTCGGCCCGTTCCAGTGCGAGTTTGTCGCCGTCAACCACTCCATTCCGGATGCGCTGGCCGTGTTCCTTCGTACCGCCGGCGGTACGGTGCTGCACACCGGTGACTTCAAAATGGACCAGCTGCCGCTGGACGGGCGGATCACCGACCTGCGGCACTTCGCCAAGCTCGGCGAAGAAGGCGTGGATCTCTTCATGTCCGACTCCACAAACGCCGACGTCCCCGGATTCACCACCGCCGAAAAGGAGATCGGACCCACCCTGGAGCGGCTCTTCGGGCAGGCTACGAAGCGCATCATCGTGGCCTCTTTCTCCTCCCACGTCCACCGCGTGCAGCAGGTCCTGGACGCCGCCGCCAAGCATGGCCGCAACGTGGCGTTTGTAGGACGCTCGATGGTCCGGAATATGGCCATCGCCGAAAAGCTCGGCTACCTGGACGTGCCGGACGGCATCCTCGTAGACCTCAAGAACATCGACGCCCTGCCGGACAACAAGGTAGTGCTGATGTCCACGGGGTCGCAGGGCGAGCCCATGGCTGCGCTGTCCCGGATGGCGAACGGGGACCACCGTGTGGTGGTGGGCCAGGGCGATACCGTAATCCTCGCCTCGAGCCTTATCCCGGGCAACGAGAATGCGGTGTTCCGCATCATCAACGGCCTGCTGAAGCTTGGCGCCGATGTCATTCACAAGGGCAACGCCAAAGTCCACGTCTCAGGGCACGCGGCCGCCGGCGAGCTGCTCTATTGCTACAACATCCTCGAACCGCTAAACGCCATGCCCGTCCACGGCGAAACCCGCCATCTGATCGCCAACGCAAGGATCGCGGAGGCATCCGGCGTGCCGGATGCCAGCATCCTCCTGGCGGACAACGGCACGGTTGTTGACCTCAAGGACCACCGCGCCGACGTTGTGGGCCAGATTGAAGTTGGCTTCGTCTACGTGGACGGCTCCAGCGTCGGCGAAATCACCGATGCTGACCTCAAGGACCGGCGTGTCCTTGGCGATGAAGGTTTCATTTCCATCATCACGGTCATCAACCGGGCTACCGGCAAGGTGGTTTCCGGTCCGGAAATCCACGCCAGGGGAGTGGCCGAGGACGACTCGGTCTTCGATGACATAATCCCCAAGATCAATAACGCCCTGGAAGAAGCTGTGCTGAGCAACGCGGACCACACCACGCACCAGCTGCAGCAGGTTGTCCGCCGGGTCGTCGGAACCTGGGTCAATCGCAAGCTTCGGCGCCGGCCGATGATCATTCCGGTGGTCCTCGAAGCCTAG	MTQLALPGLVTPPRLAEGTLRIVPLGGLGEIGRNMAVFEIDGKLLIVDCGVLFPEETQPGVDLILPDFSYIEDRLDDIVAVVLTHGHEDHIGAVPYLLRLRSDIPLVGSQLTLALVEAKLQEHRIRPYTLTVTEGQVEQFGPFQCEFVAVNHSIPDALAVFLRTAGGTVLHTGDFKMDQLPLDGRITDLRHFAKLGEEGVDLFMSDSTNADVPGFTTAEKEIGPTLERLFGQATKRIIVASFSSHVHRVQQVLDAAAKHGRNVAFVGRSMVRNMAIAEKLGYLDVPDGILVDLKNIDALPDNKVVLMSTGSQGEPMAALSRMANGDHRVVVGQGDTVILASSLIPGNENAVFRIINGLLKLGADVIHKGNAKVHVSGHAAAGELLYCYNILEPLNAMPVHGETRHLIANARIAEASGVPDASILLADNGTVVDLKDHRADVVGQIEVGFVYVDGSSVGEITDADLKDRRVLGDEGFISIITVINRATGKVVSGPEIHARGVAEDDSVFDDIIPKINNALEEAVLSNADHTTHQLQQVVRRVVGTWVNRKLRRRPMIIPVVLEA				NA	NA	NA	NA	NA
D1-17_02598	909	dapA	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGGCTGAAACTCCCGCGAACATTCCTGCTCTTGGAACCCTTCTGACCGCCATGGTCACGCCCTTTACGCAGGACGGCAAAGTGGACTACCAGCAGGCCGCGGAGCTGGCCGGCAAGCTCGTCGATGACGGCTGCGACGGCCTGGTAGTCACCGGCACCACCGGTGAAACCTCCACCCTCAAAGACGAGGAAAACCTGGGCATGTTCCGTGCGGTCAAGGAGGCGGTAGGAGGTCGGGCCGCCATCATCGCCGGAACCGGAACCAACGACACGGCGCACTCTGTGCATCTGTCCCAGCAGGCTGCGGCCCTCGGCGTCGACGGTCTCCTGCTCGTCACGCCGTACTACAACAAGCCCAGCCAGGCCGGCGTCCGAGCGCACTTCGAAACCATCGCGTCGGCAGTCGACGTACCCGTCATGCTCTATGACATCCCGGGCCGCTCCTCCATCGCGATCGCGCCTGAAACCATGATCCGGCTTGCCCAGCACCCGAACATCGTCGCCGTCAAAGACGCCAAGGCCGACTTCACCGCTGCCACGCGCGTCATGGCGGAAACCGATCTTCTCTTCTACTCCGGGGATGACGGCCTGACCCTTCCCTGGATGGCCCTGGGCGCAGTGGGCCTGGTAGGTGTGACGACGCACGTTGCCACCCGCCGCTTCCGCGAGCTTATCGACGCCGTCAACGCCAACGACCTCGGAACGGCGCGCAAGATCAACTTCGAGCTCGAGCCCGTGGTACGCGCAACCATGACCCGCGTGCAGGGTGCCGTCGCGGCCAAACAAATTCTTAAATGGCAGGGAGTCCTGCCCAACTCGATTGTCCGCTTGCCCCTCGTGGAGCCGGACGAAGCCGAGATCGAAACCATCCGCGGGGATTTGGCGGAAGGAGGGCTGGTCTTTTCCTGA	MAETPANIPALGTLLTAMVTPFTQDGKVDYQQAAELAGKLVDDGCDGLVVTGTTGETSTLKDEENLGMFRAVKEAVGGRAAIIAGTGTNDTAHSVHLSQQAAALGVDGLLLVTPYYNKPSQAGVRAHFETIASAVDVPVMLYDIPGRSSIAIAPETMIRLAQHPNIVAVKDAKADFTAATRVMAETDLLFYSGDDGLTLPWMALGAVGLVGVTTHVATRRFRELIDAVNANDLGTARKINFELEPVVRATMTRVQGAVAAKQILKWQGVLPNSIVRLPLVEPDEAEIETIRGDLAEGGLVFS	PGPT0002080_3033	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-17_02599	378			hypothetical protein	ATGGATCGGCCGGAAAATGAAACGGGACAGGAAAGCAGGCCCGAGGGTCTGCTGAAGGCGATGAGTCCGGGCGTGGTGGACTACCTCTTCCGCCAGCTTGTCTCCGGAGAGCCTGCGGAGGATGTGCCATGGCAGCGCGAGGGTATACCTCTTTCTGCCCAGGCGCCGGGCGGAGAGTTGGCGCGCCGCCTGTCGGAGACAGACCTCGATGCGCTGACACCCACTGAGCTGTTCCATTACGTGCGGGCGGCCCAGCGCCTCGCGGCTTGGGCAGAGTCGCTCAGGGAGGCGGCCCTCGGCCGGTACTGCGCCGGAAATGATTCCCGTCAGGCCGGAAATGATGCCCGTCAGGCTCCGCGCCGCCCGCGCCATGCGTGA	MDRPENETGQESRPEGLLKAMSPGVVDYLFRQLVSGEPAEDVPWQREGIPLSAQAPGGELARRLSETDLDALTPTELFHYVRAAQRLAAWAESLREAALGRYCAGNDSRQAGNDARQAPRRPRHA				NA	NA	NA	NA	NA
D1-17_02600	1236			hypothetical protein	ATGACCTCGGGGAGCACGGCTGCATCGTCCAAAACATCGAAAGGCAAGGCAGTCTCCACCCGCCTCTCAGGCATCGACGCCGCCCGCGGCCTTGCCCTCCTGGGGATGATGGCCACACACCTGCTGCCGACCTTCGAGGCGGATGCCAGTCTGACCCCCACATGGATCGGGCTGACGTTTTCAGGGCGGGCCGCAGCCCTCTTCGCAGTGCTGGCCGGCGTCGGTCTCGCGCTCTCCACGGGCAAACAACACCCGCTGGCAGGCGGCGCCCTGGCTGCTGCCCGGCGGGGCATAGCCCTGCGCGCCCTGGTGATTGCCGTCGTCGGACTTGCCCTGGGCGGCCTCGAGGTCAACGTCGCAGTGATCCTGGTGCACTACGCCGTTCTCTTCCTGTGCATCCTGCCGTTCCTCGGACTGCGGCTCAAAACCCTCTGCGCCTGGACGGCCGGCTGGATTCTGGGCTCTCCCGTGCTGGCCTTCCTGCTGCGCCCCTGGCTGATGGCCGCGGAGCCGCCGCTGCAGCTAAACCACAACCCGGGGTGGGAGGATCTGACCACGCCCGGCCAGCTGCTCGGCGATTTGTTCCTGACCGGTTACTACCCCATCCTGCAGTGGCTTTCGTACCTGCTGATCGGCCTGATCATCGGCCGCCTCTCCCTGACGGCCCTTGGGATTCCACTGCTGCTGCTGGCGGCAGGCACCGCGGTGGCTGCGTTCGCGAAGGTGCTGGGCACCGCCGCCATGGAAGAGTGGGGCGGCCGGGAGGCCCTGCAGGCGATACTGACGGACCCCAACTACCCGCTGGACAGCCTTCTGCAGGTGAACCTGGCCGGCGTCCGGCAGGAGGGGTCCTGGTGGTGGCTGGCCGGCAGCGCCCCACACTCCGGAACCACCCTCGATCTGCTGCATACAAGCGGCGTGGCTGCCGCCGTCGTCGGGCTGTGCCTTCTGGTGGGCAGGCTCGGCGAATGGCTGGACCTGGATCTCTTGCTGCCCCTCCGCGGCCCCGGGGCCATGACCCTGACCCTGTACACGGTGCACGTCTGGGTGGTGGCGGCGTTCCATCTCAAGCCCCTGCCGGAGGGATGGACTGAAGACGGCATGTACTTTGCGCACGCCGCACTCGCCGTGCTGATCGGAATGGCCTTTGTGATCCTGAAGCGCCGCGGCCCCCTCGAATGGCTTGGCCACGCCGCAAATCAGGTGGGACGGCAGGAGCCGGACAGGGTCCGCTGA	MTSGSTAASSKTSKGKAVSTRLSGIDAARGLALLGMMATHLLPTFEADASLTPTWIGLTFSGRAAALFAVLAGVGLALSTGKQHPLAGGALAAARRGIALRALVIAVVGLALGGLEVNVAVILVHYAVLFLCILPFLGLRLKTLCAWTAGWILGSPVLAFLLRPWLMAAEPPLQLNHNPGWEDLTTPGQLLGDLFLTGYYPILQWLSYLLIGLIIGRLSLTALGIPLLLLAAGTAVAAFAKVLGTAAMEEWGGREALQAILTDPNYPLDSLLQVNLAGVRQEGSWWWLAGSAPHSGTTLDLLHTSGVAAAVVGLCLLVGRLGEWLDLDLLLPLRGPGAMTLTLYTVHVWVVAAFHLKPLPEGWTEDGMYFAHAALAVLIGMAFVILKRRGPLEWLGHAANQVGRQEPDRVR				NA	NA	NA	NA	NA
D1-17_02601	489			hypothetical protein	GTGGAACGCTTCCTTGACCGGCTGAAGCAGAGCCGCACCAAAATCTGGGTTGGGGCCGTCACGCTCCTGCTTGTGTTCTATTTGGTCGTGTCGTTCCAGCGCTCTGTCCTCCTGCTGACGGATCCCGAACCGGTGGCGCGCGCCATAGGGGCGGCCTATCTCGTTCTTCCGGTAATCGGCGCCTGGGCACTGATCCGCGAGCTGCTGTTCGGTGCCCGCACCGAACAGATGGCGAAAGTTCTCGAGGCCGAAGGCGGCCTCCCGGTAGACAACCTGCCCCGCACTCCTGCAGGAAGGATCGTCCGTTCCGCCGCCGACGAGGAGTTCGAGAAGTACCGTGCAGAGACCGAAGCGGCCCCTGATGACTGGCGCTCCTGGTTCCGGCTCAGCTGCGCCTACGACGCGGCAGGGGACCGCAAGCGCGCCCGGTCTGCCATGCGGGACGCGGTGCGGCTCTTCCGCGCCTCGAACAACGCGCTCACGCGGTAA	MERFLDRLKQSRTKIWVGAVTLLLVFYLVVSFQRSVLLLTDPEPVARAIGAAYLVLPVIGAWALIRELLFGARTEQMAKVLEAEGGLPVDNLPRTPAGRIVRSAADEEFEKYRAETEAAPDDWRSWFRLSCAYDAAGDRKRARSAMRDAVRLFRASNNALTR				NA	NA	NA	NA	NA
D1-17_02602	759	dapB	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGACCGAACAACTCCCCGTCGCCGTTTTGGGCGCGAGCGGGCGCATGGGCGCCGAAGCAGTCAAGGCCGTTGAAGCAGCTTCCGACATGAAGCTCGTGGCCGCCCTGGGCCGCGGCGATTCCCTCGATACGCTCGCAAGATCAGGGGCCCGGATCGTCGTGGACCTGACCGTGCCGGAGAGCACAGAGGCGAACGTCCGCTTCGCCGTCGAGCACGGCATGCACGCCGTCGTGGGAACCACGGGCTGGGACGCAGGAAGGCTCGCGGAGCTGGAATCCCTGCTGTCCGGCCGGCCGGAGGTGGGCGTGCTCATTGCACCGAACTTTGCCCTCGGATCGGTGCTGGCGTCTGCCTTTGCCGCCAAGGCCTCCAGGTATTTCGAGTCGGTGGAAATCATTGAACTCCACCACCCCGATAAGGTAGACGCCCCCTCTGGAACCGCGGTCCGCACCGCTCAGCTCATCGCCGGGGAACGTGTGGCCGCCGGCGTCGATCCAAGCCCGGATGCGACCACGAGCGAGCTGGCCGGCGCCCGCGGCTGTGACGTCGACGGGGTCCGCGTCCACAGCGTCCGGCTCCGCGGCCTCGTGGCGCACCAGGAAGTCCTGCTCGGCGGACCGGGGGAACAGCTCACCTTCCGCCACGATTCCTTCGACCGGGCTTCCTTCATGCCAGGAGTCCTCCTGGGCGTGCGGAACGTCGCCCGGCACCCCGGACTGACGGTTGGCTTGGACGGTTACCTGGACCTGGGGCTGTAG	MTEQLPVAVLGASGRMGAEAVKAVEAASDMKLVAALGRGDSLDTLARSGARIVVDLTVPESTEANVRFAVEHGMHAVVGTTGWDAGRLAELESLLSGRPEVGVLIAPNFALGSVLASAFAAKASRYFESVEIIELHHPDKVDAPSGTAVRTAQLIAGERVAAGVDPSPDATTSELAGARGCDVDGVRVHSVRLRGLVAHQEVLLGGPGEQLTFRHDSFDRASFMPGVLLGVRNVARHPGLTVGLDGYLDLGL				NA	NA	NA	NA	NA
D1-17_02603	303			hypothetical protein	ATGCGTACGGGGATTCGCGGGCTGCACGAGTCATCAGCCCTGCATGAATGGGAAACGGCCGAACCCGAGCCGCTGGCATGTGTCCAGCTCGGCAGCCCTGAACTGCGCCGGCAGATCGTGGACATTATCCTGGACGTGCTTTCCGATGCGGAACCCGTCCGCCAGGAGGTCCGTGCACGCATGCTGCAACATCTTGCCGAAAACCCCGGGCACCCGGAGCGGGCCCTGCTGGACCACCTTCGGGACCCTGACATCCGGACGGACGCGGCTCCCTCAGGGATTCTCGAAACCGAGGATGTGTGA	MRTGIRGLHESSALHEWETAEPEPLACVQLGSPELRRQIVDIILDVLSDAEPVRQEVRARMLQHLAENPGHPERALLDHLRDPDIRTDAAPSGILETEDV				NA	NA	NA	NA	NA
D1-17_02604	324			hypothetical protein	ATGGAACCGGCGAACCCAGGCTCGGAGACCGGAATCCACGGACCACGGGAGGACGTGGCACTGCAGCGCCGGGACCTCGGGAGAACGGCCGGTTCCAGGGGGCCGGACGGGTTCGCAGGATTGGACGGGGACCGCCGGCCAGGCACACGGGTGCGGGGCGATCCGTCCTTGCGCGGTCAGGTCCTGGACGTTATCGCGGACGTGGTCTCTGGTACGGCGACGTCCCCTGAAGTGCGCCAGCGGCTTCTGTGGCAGCTAATGGAGCATCCGGGCAACCCGGAGCAGGCCCTGCTCTCACACATCCTCGGTTTCGAGAATCCCTGA	MEPANPGSETGIHGPREDVALQRRDLGRTAGSRGPDGFAGLDGDRRPGTRVRGDPSLRGQVLDVIADVVSGTATSPEVRQRLLWQLMEHPGNPEQALLSHILGFENP				NA	NA	NA	NA	NA
D1-17_02605	153			hypothetical protein	GTGGCTGAGGAAATGTTCGACGGGTTTGACCACGTGACCGGCCTTGGCGGGATGTATCTGGCGGATCCCCGCCTCGCCGCCAACTATGGCGGTGAGCAGGGAGCACACCTCGTCCGCGACGCCCTCCGGGTCTTTGCCGAGAAGCACCTTTAG	MAEEMFDGFDHVTGLGGMYLADPRLAANYGGEQGAHLVRDALRVFAEKHL				NA	NA	NA	NA	NA
D1-17_02606	543	moaE2_1	COG0314	Molybdopterin synthase catalytic subunit 2	ATGGGCACTGAACAGGCCAGGACTGAACAGGGCAGGACTGAACAGGGATCGACTGGGAGGCGATCCACCGCGGAGGCAACCCCGGTGCAGGCGTTCGACGTGGTGCATGCCGTGCTGAGCGAGGAAGCGATCTCCGTCGATGTGGCGATCGCTGCCGTGGAGTCGGAAACCGCCGGCGCGGTCGTCAGCTTCAGCGGCGTAGTGCGGAACCACGACGGCGGCAAGAGCGTCGAGCGGCTGAATTACACCGCCCACCCCACGGCCCACCAGGTCCTGGCCGACGTCGTGGCCAAACTCATCGCCGAGCATTCCGGCGATGACAGCGGAGAACCGGGCACTCCTGTGCGGATTTGGGCCGCGCACCGTATCGGCGCCCTGAAGATCGGCGATCCTGCCCTGGTCTGCGCCGTAGCTGCCGCGCACCGCGGGCAGGCATTTGCTGTGTGCTCGGAACTGGTGGACAGGATCAAGGAGCAGGTTCCCATCTGGAAAGAACAGTTCTTCACTGACGGCACCGTGGAGTGGGTCGGCGCAGGAGCCTAA	MGTEQARTEQGRTEQGSTGRRSTAEATPVQAFDVVHAVLSEEAISVDVAIAAVESETAGAVVSFSGVVRNHDGGKSVERLNYTAHPTAHQVLADVVAKLIAEHSGDDSGEPGTPVRIWAAHRIGALKIGDPALVCAVAAAHRGQAFAVCSELVDRIKEQVPIWKEQFFTDGTVEWVGAGA				NA	NA	NA	NA	NA
D1-17_02607	459	mog	COG0521	Molybdopterin adenylyltransferase	GTGGTGATTGCCTCGACCCGCGCCGCCGCCGGGCTTTACCAGGACGAGACCGGGCCGGTCATCATTGACTGGCTCACCGAGCACGGCTTCGACGCTTTCCCGGCCATGGTGGTTCCTGACGGCGAGCCGGTGGGCGCCGCCATCCGGGCGCTGCTCACCCAGCAACCCGCCGTCGTCATCACCAGCGGCGGGACCGGATTGAGCCCCGACGACCGGACGCCCGAAGTGACGCTGCCCCTGCTGGACCGGGAAATCCCCGGCATTATGGAAGGCATCCGGCAGGCGGGCATCGCCAAGACCCCGCTGGCGATGCTGAGCCGCGGGCACGCCGGCGCCGCCGGCACAACCTTTATCGTTAATCTGCCCGGATCACCCAAGGGCGTCATGGACGGGCTGTCCGTGCTGGATCCGGTGATCGGGCATCTTTGTGACCAGCTGGAGGGCGGACATGGGCACTGA	MVIASTRAAAGLYQDETGPVIIDWLTEHGFDAFPAMVVPDGEPVGAAIRALLTQQPAVVITSGGTGLSPDDRTPEVTLPLLDREIPGIMEGIRQAGIAKTPLAMLSRGHAGAAGTTFIVNLPGSPKGVMDGLSVLDPVIGHLCDQLEGGHGH	PGPT0008405_59	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
D1-17_02608	495	moaC2	COG0315	Cyclic pyranopterin monophosphate synthase 2	ATGGATGCTGTGACAGCACAAAATGATCCTGCAGCCCTGACGCATCTGCGCAGCGACGGCACCGCCCAGATGGTGGACGTCTCAGAAAAATCGGAAACCACGCGGGAAGCGACAGCCAGCGCGACGGTCCGCAGCACCCCGGAGGTTCTTGCGTTGCTGGGCACCGGCGGGCTGCCCAAGGGCGATGCCCTGGCCGTTGCGCGGATAGCCGGCATCATGGCGGCCAAGAAGACCCCTGACCTTATTCCGCTGTGCCATCCGCTGCCGGTTTCGAAGGTGACAGTGGACTTCGAGCTCGGCCCCGCGACCGTGGGCATCCTCGCCACGGTCAAGACCCGGGGAGTCACCGGAGTGGAGATGGAGGCGTTGACGGCGGCCTCCGTCGCGGCTTTGAGCGTGTACGACATGATCAAGGCCGTGGACAAACACGCCGTGCTGACCGACATCAAGGTACTTGCCAAAAGCGGCGGCAAGAGCGGGGACTGGCGATTGTGA	MDAVTAQNDPAALTHLRSDGTAQMVDVSEKSETTREATASATVRSTPEVLALLGTGGLPKGDALAVARIAGIMAAKKTPDLIPLCHPLPVSKVTVDFELGPATVGILATVKTRGVTGVEMEALTAASVAALSVYDMIKAVDKHAVLTDIKVLAKSGGKSGDWRL	PGPT0008405_1266	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
D1-17_02609	1254	moaE2_2	COG0303	Molybdopterin molybdenumtransferase 2	ATGCACAGTCACCCGCAGCCAACTGCCCAGCGCCATGCTGACGCAGGCCACAGGCACCCCAGCGTGGCCGAACACCGGCAGTCGGTCCGGAACCTCCTGGAGCCGCTGCTGTCCTCCGGCCCTCCCGAGCGGGTCCCGCTCACTGAAGCCTTGGGTCGGGGGCTGGCCGAGACCATCATCGCGCCGCTGAACCTGCCGCCCTTCGCCAACTCCCAGATGGACGGCTTCGCCGTTCACTCTCGGGACGTGCCCGACGGCGGCCCAGCACTCCGCGTCGCCGCTCCCGTTCCTGCGGGCGCCAGTCCCGCACCGCTGGAGGCGGGGACAGCAGCCCCGATCATGACGGGAGCAATGATTCCGCCCGGGGCCGACGCCGTCGTTCCTGTTGAGCGGGCGGTTCCCGCCGTGTTCCCCGCGCCCGGAACAGAGGCAACCGTGCAGTTGCCGTCCACCCCGTCGGGGACATTTATCCGGGCCTCCGGCAGCGATATCCGTGCGGGGGAGACAGCCCTTGCCGCAGGTACACACCTGGGTCCGGGGCAACTGGGGCTCGTCGCGGCGCTTGGCCTGCCCGATGTGCTGGTGCACCGCCGGCTGACCGTCCTGCTGGTCACAACCGGGGATGAAGTGGTTGCACCGGGGATCCCGTTGGACAACGGAAAGATCTACGACGCGAACGGTACGCTGCTGGAAACCTCGTTGCGGCAGGCCGGGCTGGCTGTGACCAGGGCCGGTATCTCAACCGATGATCCCGAGGCCCTCCGCCGTCTGCTGCGAAGCCATGCCGGAGTGGACCTCATCATCACCAGCGGGGGAGTGAGCAAGGGAGCCTACGAAGTGGTCCGCCAGGCGATGGACGGCCAAAATGTGGTCTTCGCCCACGTGGCCATGCAGCCCGGCGGCCCGCAAGGAATCGGAAAGTTCGACGGCGTGCCCCTCCTGGGATTTCCCGGTAACCCGGTCAGCTGCCTGGTCTCGTTCGAGATGTTCCTGCGCCCTGTCCTCAGCGATCTGTTCGGAGCACCGGTACCCAGGACCGTCGTGCGCGGCCGGCTCCTGCAACCGCTGACATCGCCTGCAGGCAAGCATCAGGTGCGGCGAGGAACCCTTCTATCCGACGGCAGCGTCCGGCTGGAGGGAGGCGAAGGGTCCCACCTGATCAGGGCCCTGGCGCATTCAAATGCCCTGGTGCAGGTGCCGGAAGGTGTCTCCGCGCTTAATGAGGGCGCCGAAGTGGAAGTATGGATGCTGTGA	MHSHPQPTAQRHADAGHRHPSVAEHRQSVRNLLEPLLSSGPPERVPLTEALGRGLAETIIAPLNLPPFANSQMDGFAVHSRDVPDGGPALRVAAPVPAGASPAPLEAGTAAPIMTGAMIPPGADAVVPVERAVPAVFPAPGTEATVQLPSTPSGTFIRASGSDIRAGETALAAGTHLGPGQLGLVAALGLPDVLVHRRLTVLLVTTGDEVVAPGIPLDNGKIYDANGTLLETSLRQAGLAVTRAGISTDDPEALRRLLRSHAGVDLIITSGGVSKGAYEVVRQAMDGQNVVFAHVAMQPGGPQGIGKFDGVPLLGFPGNPVSCLVSFEMFLRPVLSDLFGAPVPRTVVRGRLLQPLTSPAGKHQVRRGTLLSDGSVRLEGGEGSHLIRALAHSNALVQVPEGVSALNEGAEVEVWML	PGPT0008430_1033	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-17_02610	1677	msrP_3		Protein-methionine-sulfoxide reductase catalytic subunit MsrP	GTGAACGAGTCCCAGCCGGACGTGGGCGGGACAGCGGCCGCTCAGCAGAGCGCTCCCGCGTCCGAAACACGCGCCGCGTCAGGACTTCCGCCCGCCCGGTCCCGCCGGTGGGCTGCAGCGGCGGGTGTGGTTGCGGCAGGTGCCGGACTAGCGGCGAGCGAGCTGATTGCCGGATTCGTCAGCCCTTCGCTGTCGACCATCACGGCCATCGGCGGCGTGATCATCGATAGCGTTCCGCCTGCAGTCAAGGACTGGGCGGTTGCGCTGTTCGGCACGGCTGACAAACTGGCTCTGCTGGCCGGGATGGCCCTGGTGATCGCAGCCGTGGCAGCGTTCGCGGGTGTGCTGGAACTCCGCAGGCGCCTGGCCGGAGCCGCGGTTTTCGCCATTTTCGGGCTGGTCGGCGTGGCAGCTGTGCTGACCCGCGCCCAGGTGACTGTTCCCGCCGTCGCCCTCCCTGTGCTGGCCGCTGGCATCGGCGGACTGCTGCTGCAAAGTTTGATCGCGCGGCTTGGCGCGTGGCAGGCCGGCATACCCGGTGCCCCTGCGGGCGGGCAGACCGGCGGGCAGATTACGGAGCGAGCCGGAGGACCGGACCCTGGACAAACCAGGCGGCGCGGGTTCCTCTCGCTGCTGGGCGGTTCAACCGGAGCGGTGTTGGTGGGCGGGGCGGTCGTCACGGCCTGGCGGGGCGGGGCAGCGGGGGTCAACGAGCTCCGCCGCACCCTGCGGTTGCCGGCGCCGTGGTCGCCGGCCTCGGCGATTCCCGCGGGTGCCGAGATCGGCCTGGACGGCATGCAGCCGCTCGTCACCCCGAACCCTGATTTTTACCGCATTGACACAGCGCTCTCCGTCCCTGTCCTTGATCCCCGCGAATGGAAGCTGAAGGTCACGGGCATGGTGGAGCGGGAGGTCGAACTTGACTTCGAGGCCCTGCAAGCGAAGCCCCTGCTGGAACGCCACGTGACTATCGCCTGTGTTTCCAACGAGGTGGGCGGAGACCTGATCGGCAATGCGCTGTGGCTTGGCTGGCCGGTCCGGGAACTGCTGGGCATGGCCGGCCCGCTGCCGGGCGCCGACATGGTCCTCTCCAAAAGCTCGGACGGCTGGACCGCGAGCACCCCCTTGGACGTCCTGACCGACAACCGGGACGCGCTGCTCGCCATCGGCATGAACGGCGAGCCGCTGCCGCTCGAACACGGCTTCCCCGTGCGCATGGTCGTCCCAGGACTGTATGGCTACGTGTCCGCCACGAAATGGCTCATTGAACTCAAGGTCACCCGGTTCGCTGACGACGTCGCCTACTGGACACCCCGCGGCTGGTCCGAACGCGGACCCATCAAGATCTCGTCGCGCATTGATGTTCCCCGCGACGGCCGGTCCGCCCGTCAGGGTGCATTGTCATTCGGTGGCGTGGCCTGGGCGCAGCACACGGGCATCGGAAAAGTGGAACTGCGCGTGGATGGCGGCGCCTGGCAGCAGGCCGAGCTGGCACCCGGCATTTCTGTGGACACCTGGTACCAGTGGAGGCTGGGCGTCAACCTGCCGCCGGGAAAGCATGAAGTCCAGGTACGGGCGACAGACCTGCGCGGCCGTGTACAAACGGAGGAACGCCGATCCGTTGCCCCGGACGGCGCCACAGGCCTGCACACCATTAGAGTTGACGTGAACCAATAA	MNESQPDVGGTAAAQQSAPASETRAASGLPPARSRRWAAAAGVVAAGAGLAASELIAGFVSPSLSTITAIGGVIIDSVPPAVKDWAVALFGTADKLALLAGMALVIAAVAAFAGVLELRRRLAGAAVFAIFGLVGVAAVLTRAQVTVPAVALPVLAAGIGGLLLQSLIARLGAWQAGIPGAPAGGQTGGQITERAGGPDPGQTRRRGFLSLLGGSTGAVLVGGAVVTAWRGGAAGVNELRRTLRLPAPWSPASAIPAGAEIGLDGMQPLVTPNPDFYRIDTALSVPVLDPREWKLKVTGMVEREVELDFEALQAKPLLERHVTIACVSNEVGGDLIGNALWLGWPVRELLGMAGPLPGADMVLSKSSDGWTASTPLDVLTDNRDALLAIGMNGEPLPLEHGFPVRMVVPGLYGYVSATKWLIELKVTRFADDVAYWTPRGWSERGPIKISSRIDVPRDGRSARQGALSFGGVAWAQHTGIGKVELRVDGGAWQQAELAPGISVDTWYQWRLGVNLPPGKHEVQVRATDLRGRVQTEERRSVAPDGATGLHTIRVDVNQ				NA	NA	NA	NA	NA
D1-17_02611	1131	moaA_2		GTP 3',8-cyclase	ATGCCGCAGCCCCGTGAAGGGAGCAGACCCCTTCAGGGCGCGCAGGGCGTTCCGGCAGCCCGCCCCGCCGACGCTCCCGCAGGGCTCGCCGACCGCTATGGCCGCCGCGCCACAGACATGCGTCTATCCCTGACGGACAAGTGCAATCTGCGCTGCACCTACTGCATGCCGGCCGAGGGGCTGGAATGGCTGGCGAAACAGGCCGTCATGTCCGCCAACGAGATTGTGCGGATCGTCCGTGTGGGAGTCAACCTGCTCGGAGTCCGGGAGCTTCGGCTGACCGGCGGCGAACCCCTGGTCCGGGCCGACCTCGTCGACATCATCGCTGCGCTCCGCCAGGAACACCCGGACCTGCCGATCTCCATGACCACGAACGGCGTGGGGCTGGACAGGAAGGCCGCCGCGCTCAAAGCGGCGGGACTCACCCGGATCAACGTTTCGCTGGATTCCCTGCATGAGGAGACGTTCGCCAAGCTGACCAGGCGTCCCTTCCTGGACCGCGTCCTTGCCGGCGTGGACGCCGCCTGGGCGGCGGGACTCGGCCCGGTCAAGCTCAACGCGGTGCTCATGCGCGGCATCAATGACACCGAGTCGCCGGCGCTGCTGGCCTGGGCCCTGGAGAAAGGCTATGAGCTGCGGTTCATTGAGCAGATGCCGCTCGACGCCGATCACGGCTGGACCCGGCAGGACATGATCACCGCGGCGGAGATCCGCGAGCTGCTGTCCAGGGACTACGTCCTGAGCCCGGATCCGCGCGCGCGCGATGGCGCGCCGGCGGAACGGTTTGAAGTACGGCACCGACCCTCAGGGTCTGTGACAGCAGGGTCTGCGGGCTTAAGTAGTCCTGTTCTCGGCACCGTGGGGATCATAGCCTCCGTCACCGAGCCGTTCTGTTCCGACTGCCGGCGTACCCGCATCACCGCGGAAGGCAAGATCATGAGCTGCCTCTTCTCGCGGGAGGAATTCGACCTGCTCGGCCTGCTTCGGGCCGGTGCCAGCGACCAGGAACTGGCAGAACGCTGGCAGGATGCCATGTGGCTCAAGCCCAAGGCCCACGGCATGGACCACGTGGGACTCGACGCTCCGGACTTCGTCCAACCGGACCGCAGCATGAGCGCCATCGGAGGCTGA	MPQPREGSRPLQGAQGVPAARPADAPAGLADRYGRRATDMRLSLTDKCNLRCTYCMPAEGLEWLAKQAVMSANEIVRIVRVGVNLLGVRELRLTGGEPLVRADLVDIIAALRQEHPDLPISMTTNGVGLDRKAAALKAAGLTRINVSLDSLHEETFAKLTRRPFLDRVLAGVDAAWAAGLGPVKLNAVLMRGINDTESPALLAWALEKGYELRFIEQMPLDADHGWTRQDMITAAEIRELLSRDYVLSPDPRARDGAPAERFEVRHRPSGSVTAGSAGLSSPVLGTVGIIASVTEPFCSDCRRTRITAEGKIMSCLFSREEFDLLGLLRAGASDQELAERWQDAMWLKPKAHGMDHVGLDAPDFVQPDRSMSAIGG	PGPT0008410_174	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
D1-17_02612	267			hypothetical protein	TTGAACGTACGTTACTTCGCTGCCGCACGCGCCGCGGCAGGCGTGGACGAGGAGCGCTTCGACCTTCCACCCGGATCCACCGTGGAAGCCCTGCTCACGGCTGTCCTCGACGTCGAACGCCCCGACCCCCCGGCCGGAACGCCGGGTCTTGCCGGCATCCTTGCGCGGAGCAGTTTCCTGCTCAACGAAGTCGCCGTCCGTGACCGCTCCGTGGTCCTCTCCGACGGTGACGTGGTGGACGTCCTGCCGCCGTTCGCCGGCGGCTGA	MNVRYFAAARAAAGVDEERFDLPPGSTVEALLTAVLDVERPDPPAGTPGLAGILARSSFLLNEVAVRDRSVVLSDGDVVDVLPPFAGG	PGPT0008410_46	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
D1-17_02613	462			hypothetical protein	ATGGAGCAGCCTCACCCGGGGACGGCCCACGATGCGCTGGAGATGTTCGTGGGGCACTGGCTGGGAACCACAGAGCTCGCGGCTTCACCGTGGGGTCCCGCCCGGACCGCGAAAGCGGAAGTGACGTTTACGAGGGCTGCGGGCGGGCTGGCCGTAGTGCAGACGTACCGCCACACCGAGACCGACGGCAGCCATTTCGAGGGCCACGGCGTCTTCACCGTCGACCCTGACCATGATGAAACGCTCTGGTACTACGTGGACAGTATGGGAAAGCCGCCCGAAGCCCCGGCGCGCGGCGCTTGGCGCGACGGGATGCTCACGGTCGAGCGGCACAGCGACCGCGGCACCGCACGGCACACCTTCCGCGTTGATGACGGCGTGCTGACCCACACCGCCGAGCTCCGGCTCGGGGATGCACGCGACTACAGCCCCTTCATGACCTCAGTCTGCCGCCGCGCCTGA	MEQPHPGTAHDALEMFVGHWLGTTELAASPWGPARTAKAEVTFTRAAGGLAVVQTYRHTETDGSHFEGHGVFTVDPDHDETLWYYVDSMGKPPEAPARGAWRDGMLTVERHSDRGTARHTFRVDDGVLTHTAELRLGDARDYSPFMTSVCRRA				NA	NA	NA	NA	NA
D1-17_02614	1344		COG0612	putative zinc protease	ATGACTGTCGTACCCCTGCCGCTGGCGCAGAACCATCCCGGTGACACCCTGATCCACGGAGCTGACGGCGGCTCTGAAGTGCGCCGTTCGGTTCTGCCGGGCGGGGTCCGCGTGCTGACCGAGGCCATGCCTGGCCAGCGTTCCGCCACGATCGGTTTCTGGGTGGGAGTGGGATCCCGCGACGAGGCGCCCGGCCAGCACGGCTCAACCCACTTCCTTGAGCACCTGCTGTTCAAGGGAACACGGCGGCGGACGGCCTTGGAAATTGCGTCAGCTTTCGACGAAGTGGGCGGGGAATCGAACGCGGCCACTGCGAAGGAAAGCACCTGCTATTTCGCCCGCGTGCTGGACACGGACCTGCCGATGGCCATTGACGTCATCGCGGACATGATCACCGGGGCGGTACTGGACCCGGCGGAAATGGAACAGGAACGCGACGTCATCCTTGAAGAGATCGCCATGGACAGCGACGACCCTACGGACGTGGCGCACGAGCACTTCGTCGCGGCTGTTCTCGGTTCCCATCCTCTGGGCAGGCCCATTGGCGGTACCCCGGACGCCATCAGGGCAGTGGCCCGCGACTCTGTATGGGACCACTACCGGCGTTACTACCGTCCCGATGAATTGGTTATCACCGCCGCCGGCGGTTTGCATCACGACGACGTGTGCCGCCTTGTGGTGGATGCTCTTCACAGTGCCGGGTGGTCGCTGGAGCCCGATGCGGCTCCCGTGGAACGGCGGTCCACGGAACGAGCAGAGATCACCGGAACCGCAGGGCTGCATGTGGTCAAGCGCCCTGTGGAACAGGCCAACATCATCATGGGCTGCCCGACAATCGTAGCCACGGATGAACGCCGGTATGTCATGAGCGTGCTGAACGCAGTGCTTGGCGGCGGCATGTCCTCGCGCCTTTTCCAGGAGATCCGCGAAAAGCGGGGGCTCGTCTACTCCACCTATTCGTTCGCATCCTCCTATGCCGACGCCGGTTATTTCGGCATGTATGCCGGCTGCACACCCACAAAGGTCCGCCAGGTCCTGGAACTGCTGGGGGCGGAGCTGGACAAGCTCGCCAAGAGCGGCATCTCAGATGAGGAACTCCGCAAGGCCGTGGGTCAGCTCTGCGGCGGTATCGTTCTGGCTCTCGAGGACACCGGCTCGCGCATGTCGCGTCTGGGCCGCGCGGAACTCGTGTCCGGTGAGTACCAGGACATCGACGAGACCCTGCGGCTAATCAAGTCCGTGACTGCAGAGCAGGTCCAGGAACTGGCCGGCGAGCTCGCTGCGGCGCCGCGGACCGTGACGGTGGTAGGCCCGTTCGAAGAGACCGAAACCTTCGGCTTCTGA	MTVVPLPLAQNHPGDTLIHGADGGSEVRRSVLPGGVRVLTEAMPGQRSATIGFWVGVGSRDEAPGQHGSTHFLEHLLFKGTRRRTALEIASAFDEVGGESNAATAKESTCYFARVLDTDLPMAIDVIADMITGAVLDPAEMEQERDVILEEIAMDSDDPTDVAHEHFVAAVLGSHPLGRPIGGTPDAIRAVARDSVWDHYRRYYRPDELVITAAGGLHHDDVCRLVVDALHSAGWSLEPDAAPVERRSTERAEITGTAGLHVVKRPVEQANIIMGCPTIVATDERRYVMSVLNAVLGGGMSSRLFQEIREKRGLVYSTYSFASSYADAGYFGMYAGCTPTKVRQVLELLGAELDKLAKSGISDEELRKAVGQLCGGIVLALEDTGSRMSRLGRAELVSGEYQDIDETLRLIKSVTAEQVQELAGELAAAPRTVTVVGPFEETETFGF				NA	NA	NA	NA	NA
D1-17_02615	2268	pnp		Polyribonucleotide nucleotidyltransferase	GTGACTCTCTTGGAGGGTCCCGAAATCCAGTTCTCAGAAGCAGTCATTGACAATGGCCGCTTTGGCAAGCGTGTAATCCGCTTCGAAACCGGCCGTCTTGCCAAGCAGGCCGCCGGCGCAGCCATGGTGTACATCGACGAAGACACCGCGCTGCTTTCCGCTACCACTGCCGGCAAGCACCCGCGCGAAGGCTTCGACTTCTTCCCCCTGACGGTGGACGTCGAAGAGCGCATGTACGCCGCCGGCCGCATCCCGGGTTCGTTCTTCCGCCGTGAAGGCCGTCCGTCCACCGAAGCCATCCTGGCCTGCCGCCTGATGGACCGCCCGCTGCGTCCCGCCTTCGTCAAGGGCCTGCGCAACGAGGTCCAGATCGTCGTCACCGTGCTGGCGATCAACCCGGACGAGCTGTACGACGTCGTGGCGATCAACGCCTCCTCGATGTCCACCCAGCTGTCCGGCCTGCCGTTCTCCGGCCCGATCGGCGGCGTCCGCGTTGCCCTCGTGGCGGACGAGCAGGGTTCGCAGTGGGTTGCCTTCCCGAAGCACTCCCAGCTGGAAAACTCCGTGTTCAACATGGTTGTGGCCGGCCGCGTGGCAGGCGACGACGTCGCCATCATGATGGTCGAGGCAGAAGCCACGGACAACTCCTGGAACCTCATCAAGGAACAGGGCGCCACCGCTCCGACCGAAGAGGTCGTTTCCGAGGGTCTCGAGGCCGCCAAGCCGTTCATCAAGGCTCTCTGCGATGCGCAGCAGGACCTGGCAGCCCGCGCCGCCAAGCCCACCGTCGAGTTCCCGGTCTTCCTGGACTACCAGGACGACGTGTATGCCGCCGTTGAGGCCGCCGCATCCGAGAAGCTCACCGCCGTCTTCCAGATCGCCGACAAGCAGACGCGCGACAACGCCGCCGACGAGCTGAAGGACGAGGTTGTCGCGTCCCTGGCTGAGCAGTTCGAAGGCCGCGAAAAGGAAGTTTCAGCAGCCTTCCGCTCCGTGACCAAGCACGTGGTCCGCCAGCGGATCCTCAAGGACCAGATCCGCATCGACGGCCGTGGCCTGACGGACATCCGCCAGCTCACCGCCGAGGTCGAGGTGCTGCCCCGCGTTCACGGTTCTGCCATCTTCGAACGCGGCGAAACCCAGATCATGGGTGTCACCACGCTGAACATGCTCAAGATGGAACAGCAGATTGACTCGCTCTCGCCCGTAACGCGCAAGCGTTACATGCACAACTACAACTTCCCGCCGTACTCCACCGGTGAAACAGGTCGCGTCGGTTCCCCGAAGCGCCGTGAAATCGGCCACGGCGCCCTTGCCGAGCGCGCGCTCGTGCCGGTGCTGCCGTCCCGCGAGGAGTTCCCGTACGCCATCCGCCAGGTCTCCGAGGCCCTTGGCTCCAACGGCTCCACCTCGATGGGCTCGGTCTGCGCCTCCACGCTGTCCATGCTCAACGCCGGTGTTCCGCTGAAGGCTGCCGTTGCAGGGATCGCCATGGGCCTGGTGTCTGACCAGGTTGACGGGCAGACCCGGTACGCCGCCCTCACGGACATCCTCGGCGCTGAAGACGCCTTCGGCGACATGGACTTCAAAGTCGCGGGCACGGCTGAGTTCGTCACCGCCATCCAGTTGGACACCAAGCTCGACGGCATCCCCGCCTCGGTGCTGGCAGCAGCGCTGAAGCAGGCGCGCGAAGCCCGTCTGCACATCCTCGAGGTCATCAACGCAGCGATTGACACGCCGGACGAGCTCTCCGAGTTCGCCCCGCGCGTTATCGCCGTCAAGATCCCCGTGGACAAGATCGGCGAGGTCATCGGTCCGAAGGGCAAGATGATCAACCAGATCCAGGAGGACACCGGCGCCGACATCTCCATCGAGGACGACGGCACGGTCTACATTGGCGCCACCGACGGACCGTCTGCCGATGCAGCACGCTCCGCGATTAACGCCATTGCCAACCCGCAGGTGCCGGAAATCGGCGAGCGTTACCTGGGCACGGTCGTCAAGACCACCACCTTCGGTGCGTTCATCTCCCTCACCCCGGGCAAGGACGGCCTGCTGCACATCTCCGAGCTGCGCAAGCTCGCCAGCGGCAAGCGCGTGGACAACGTCGAGGACGTCGTCTCCGTCGGCCAGAAGATCCAGGTGGAAATCACCAAGATCGATGACCGCGGCAAGCTGTCCCTGTCGCCGGTCGTGGCGGAAGAGGAAGGCGCCGGGGATTCCGAGCGCGCCCACACGACGGAGCCTGCTGAAGGCGCTGACGTCTAG	MTLLEGPEIQFSEAVIDNGRFGKRVIRFETGRLAKQAAGAAMVYIDEDTALLSATTAGKHPREGFDFFPLTVDVEERMYAAGRIPGSFFRREGRPSTEAILACRLMDRPLRPAFVKGLRNEVQIVVTVLAINPDELYDVVAINASSMSTQLSGLPFSGPIGGVRVALVADEQGSQWVAFPKHSQLENSVFNMVVAGRVAGDDVAIMMVEAEATDNSWNLIKEQGATAPTEEVVSEGLEAAKPFIKALCDAQQDLAARAAKPTVEFPVFLDYQDDVYAAVEAAASEKLTAVFQIADKQTRDNAADELKDEVVASLAEQFEGREKEVSAAFRSVTKHVVRQRILKDQIRIDGRGLTDIRQLTAEVEVLPRVHGSAIFERGETQIMGVTTLNMLKMEQQIDSLSPVTRKRYMHNYNFPPYSTGETGRVGSPKRREIGHGALAERALVPVLPSREEFPYAIRQVSEALGSNGSTSMGSVCASTLSMLNAGVPLKAAVAGIAMGLVSDQVDGQTRYAALTDILGAEDAFGDMDFKVAGTAEFVTAIQLDTKLDGIPASVLAAALKQAREARLHILEVINAAIDTPDELSEFAPRVIAVKIPVDKIGEVIGPKGKMINQIQEDTGADISIEDDGTVYIGATDGPSADAARSAINAIANPQVPEIGERYLGTVVKTTTFGAFISLTPGKDGLLHISELRKLASGKRVDNVEDVVSVGQKIQVEITKIDDRGKLSLSPVVAEEEGAGDSERAHTTEPAEGADV				NA	NA	NA	NA	NA
D1-17_02617	270	rpsO		30S ribosomal protein S15	GTGGCACTTGACGCCGCCGTAAAGCAGTCCATCATCAAGGATTACGCAACGTCCGAGGGCGACACCGGTTCGCCGGAGGTCCAGATTGCGGTTCTGACTCAGCGGATCAAGGATCTGACTGAGCACATGAAGGAGCACAAGCACGACTTCCACACCCAGCGCGGTCTGCTGGCCATGGTCGGTCGTCGCAAGCGCATGCTGACCTACCTCAAGAAGACTGACATCTCCCGCTACCGTTCGCTCATTGAGCGTCTTGGCCTGCGCCGCTAG	MALDAAVKQSIIKDYATSEGDTGSPEVQIAVLTQRIKDLTEHMKEHKHDFHTQRGLLAMVGRRKRMLTYLKKTDISRYRSLIERLGLRR				NA	NA	NA	NA	NA
D1-17_02618	1278	kynU		Kynureninase	ATGACCGCCCTTGACGGAAGCCGGGACGTCGGAATGACGGAGGAGACAGTGACACAGGACAAACTCCTCCGGCATGCACTCCTGCTCGACGGGCAGGACCCGCTGGCCGCCTTCCGGGACCACTTCATCGGCACCGAGACGGATCTGTCCTATCTGGACGGCAACTCCCTGGGCCGGCCGCTGAAGCGGACAGCGGACGACATCAACACCTTCATCCACGCCGGCTGGGGCGGCCGCCTCATCCGCGGCTGGGATGAGGAATGGCTGGAGATGCCCCAGACCATCGGCGACCAGTTGGGACGGGCAGTCCTCGGCGCCGCCCCCGGACAGACCATCATTGCCGATTCGACCACCGTCGTGCTGTACAAGCTGATCCGCGCTGCCCTTGCCGCCGTCAAGGATCCCGGCCGGACCGAGATCGTCCTCGACACGGAGAACTTTCCCACAGACCGGTACCTCGTCGAAGGCATTGCCCGGGAGGAGGGGCTGACGCTGCGCTGGATTGAAGCTGATCCGGCCTCCGGGGTGACCCTTGAACAGGTGAGGCAGGCCGCCGGGCCGGCTACCGCCGTCGTGCTTCTCAGCCATGTGGCGTACCGCTCGGGGTTCCTCGCGGACCTGCCGGGCATCACGGCGGCGGTGCACGACGCCGGCGCACTGGTTGTGTGGGACCTGTGCCATTCAGCGGGGTCCGTGGAGATCGGGCTGGACGCGGCCGGTGTTGATTTTGCCGCGGGCTGCACCTACAAGTACCTCAACGGTGGACCGGGATCGCCCGCCTTCGCCTATGTCAATGCCCGGCACTTGCCCGGTCTCGCGCAGCCCATCTGGGGCTGGATGGGACGGAAAGACGCGTTCGAGATGGGCCCCGGCTATGAGGCTGCCTACGGTATCCGCGGCTTCCTGAGCGGAACGCCGGCCATCTTCGGCATGATCGCGATGCGCGGCACTCTGGACCTGATCGAGGAGGTGGGGATGCCCGCAATCCGCGGGAAGTCGCTCCAGCTGACGGAATTCGCGGTGGAGTTGTTCGACGCGTGGCTGGCTCCAGCCGGTGTCAGGCTCGCCACGCCACGCGACCCCGGGCAGCGCGGCAGCCACATCACCCTGGACCATCCCTCGTTCCGGGAAGTGACGGCCTCCCTGTGGAACAGCGACGTAATTCCCGACTTCCGGGCGCCGTCGGGCATTCGAATCGGTCTTTCGCCGCTCAGCACAAGCTTTGCCGAACTGCACCGCGGCATGGCGGCCATCCGGGACCTGCTGCCGGATCACTGA	MTALDGSRDVGMTEETVTQDKLLRHALLLDGQDPLAAFRDHFIGTETDLSYLDGNSLGRPLKRTADDINTFIHAGWGGRLIRGWDEEWLEMPQTIGDQLGRAVLGAAPGQTIIADSTTVVLYKLIRAALAAVKDPGRTEIVLDTENFPTDRYLVEGIAREEGLTLRWIEADPASGVTLEQVRQAAGPATAVVLLSHVAYRSGFLADLPGITAAVHDAGALVVWDLCHSAGSVEIGLDAAGVDFAAGCTYKYLNGGPGSPAFAYVNARHLPGLAQPIWGWMGRKDAFEMGPGYEAAYGIRGFLSGTPAIFGMIAMRGTLDLIEEVGMPAIRGKSLQLTEFAVELFDAWLAPAGVRLATPRDPGQRGSHITLDHPSFREVTASLWNSDVIPDFRAPSGIRIGLSPLSTSFAELHRGMAAIRDLLPDH				NA	NA	NA	NA	NA
D1-17_02619	855	kynA	COG3483	Tryptophan 2,3-dioxygenase	GTGACCGTGGAGAAGAACACCAGGAAACTGGACAAGGGAATCGTCCGCGATTTCAGTTCCAGGATGAGCTACGGGGCGTACCTTCAGCTGCCCACGCTGCTGAGCGCGCAGCGGCCTGTCAGCAAACCGGAACACCATGACGAGATGCTGTTCATCATCCAGCACCAGACCACCGAGCTCTGGCTCAAGCTCGTGCTGCACGAACTGCGCAGCGCCGCCGCACACCTCCGCAGGGACGATCTGGGTACCGCGCTGAAGGGCATTGCCCGCGTCAAGCACATCCAGAAAACCCTCACGGAACAGTGGTCTGTCCTGGCCACGCTGACGCCCACAGAGTATTCGCAATTCCGGGGCTTCCTCGGCAACTCCTCCGGATTCCAGTCCAGCCAGTACCGTGCGGTGGAATTCGTCCTGGGCAACAAAAACAAGAAAATGCTGCCGGTATTTGAGTCTGATCCGGAGGCGCACGCGCTGCTCACGGCGGTCCTGGAAGCGCCCAGCATCTATGACGAGTTCCTGGCCTACCTGCACCGGCAGGGCTACGACGTCCCCGCTGAGGTGCTCAACCGCGACGTCACCCGCGCCCACGAGTTCTCACCGGGGCTGGTTCCGCTGTTCAAGCACATCTACGAAAATGCCGCTGACAACTGGGGCGCCTACGAGGCCTGCGAGGAGCTCGTGGACCTTGAGGACAACTTCCAGCTCTGGCGGTTCCGGCACCTGCGCACCGTGCAGCGAACCATCGGAATGAAGACCGGAACCGGCGGCTCCAGCGGCGTGGCGTTCCTGCAAAAAGCCCTTGAACTCACGTTCTTTCCTGAACTGTTTGCTGTACGGACGGAGATTGGCCAATGA	MTVEKNTRKLDKGIVRDFSSRMSYGAYLQLPTLLSAQRPVSKPEHHDEMLFIIQHQTTELWLKLVLHELRSAAAHLRRDDLGTALKGIARVKHIQKTLTEQWSVLATLTPTEYSQFRGFLGNSSGFQSSQYRAVEFVLGNKNKKMLPVFESDPEAHALLTAVLEAPSIYDEFLAYLHRQGYDVPAEVLNRDVTRAHEFSPGLVPLFKHIYENAADNWGAYEACEELVDLEDNFQLWRFRHLRTVQRTIGMKTGTGGSSGVAFLQKALELTFFPELFAVRTEIGQ	PGPT0020505_993	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020505-kynA-K00453	NA	NA
D1-17_02620	987	ribF		Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGGTTCACATCTGGAACGATCCGACCGAAGTTCCCCAGGACTTCGGTCCTTCCGTGGTCACGATCGGCAACTTCGACGGCGTTCACCGCGGCCACCAGCAGGTGCTGTCCCGGCTCATCCGGACCGCCCGGCTCAACAAGGCACGGTCCGTGGCCGTGACGTTTGATCCCCACCCCGCCCAGGTGCACCGGCCCCAGTCAGCGCCTGAACTCATCATGGGCCTGCAGGACAAGCTCCTGGCACTGGGGGAGCTCGGACTGGATGCCATCCTGGTGATGAAGTACTCGCTTGAACTCGCCAGCCTCACCCCTGAAGAGTTCGTTGGATCGGTGCTGGTCGACGCCCTCCACGCCAGCCATGTCGTCATCGGCCATGATGCCCGCTTCGGGCGCGGCAACTCCGGAGACCTGAACACAATGCGCGAGCTTGGGGCCAAGTTCGGCTTCGAGGTGCTGGTCATCAGCGAATTCGGCTCGGAAGGCTTTCCCCTGCATGACGACGGCGGCAAGGACCGCCGCTGTTCGTCCACCTGGGTGCGTGAAGCGCTCATGGAAGGGGACGTGGCCACGGCTGCCGCCGTGCTGGGACGCCCGCACCAGATGCGCGGTGAAGTAGTCCACGGTGCGGCCCGCGGCCGTGCACTGGGATTTCCCACCGCCAACCTTTCCCATGACGCCAGCGGCTTCATTCCTGCGGACGGGATCTACGCGGGCTGGCTGGTGGACCAGGCAGGCACCCGGTGGCCGGCTGCCATCTCGGTCGGCTCCAACCCCACCTTCGACGGCGTCAGCCGGCAGGTGGAAGCCCATGTCATCGACCGCCCCGAGGAAACCGTAGAAGACTTCGATCTGTACGGCCAGACAGTAGTGGTGGAGTTTGTCGCCCGGTTGCGGGGCATGGTGGCGTACCGTGGGCCTGAGGCCCTTGTGGAGCAGATGCGCCAGGATGTCGTGCAAACCCACGACATCCTCCTTAAACAGCGCTGA	MVHIWNDPTEVPQDFGPSVVTIGNFDGVHRGHQQVLSRLIRTARLNKARSVAVTFDPHPAQVHRPQSAPELIMGLQDKLLALGELGLDAILVMKYSLELASLTPEEFVGSVLVDALHASHVVIGHDARFGRGNSGDLNTMRELGAKFGFEVLVISEFGSEGFPLHDDGGKDRRCSSTWVREALMEGDVATAAAVLGRPHQMRGEVVHGAARGRALGFPTANLSHDASGFIPADGIYAGWLVDQAGTRWPAAISVGSNPTFDGVSRQVEAHVIDRPEETVEDFDLYGQTVVVEFVARLRGMVAYRGPEALVEQMRQDVVQTHDILLKQR	PGPT0008625_797	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008625-ribF-K11753	NA	NA
D1-17_02621	456			hypothetical protein	GTGACCGCAACACCCGCCCACACCGAACACAACCCCCGCGAGGCCGGCAACACGCGGAACACCGGCCCCGGGAGGCTCCTGATCGCGGTGTACGCTGTGTTCGCCATCTCTGCGACAGCGCGCGCCGGATACCAGATTCTCACCAAGTTCTCCGAGGCCCCGCTGGCCTACCTGCTGTCCGCTTTCGCCGCTGCGGTGTACGTGGTCGCCACGGTCTCGCTGGCCAAGCCGGGGCGGGCATGGTTCCGCGTGTCACTCATCGCCGTGCTGGTGGAGCTGGTGGGCGTGGTGGTCGTGGGAGCGCTGAGCGTGTTCGACGCCGTAGCCTTTCCGCATGAAACGGTGTGGTCCCTTTTTGGCCGCGGCTATGCCTTCATCCCGCTGGTCCTGCCCGTCCTGGGACTGATCTGGCTCTACCGGCGGCGGCCGGCGGCACCTGCCGCCCAGCTGTCCTGA	MTATPAHTEHNPREAGNTRNTGPGRLLIAVYAVFAISATARAGYQILTKFSEAPLAYLLSAFAAAVYVVATVSLAKPGRAWFRVSLIAVLVELVGVVVVGALSVFDAVAFPHETVWSLFGRGYAFIPLVLPVLGLIWLYRRRPAAPAAQLS				NA	NA	NA	NA	NA
D1-17_02622	354			hypothetical protein	TTGGACGCCTATTTCTACATCATCCTGGTGGTCGGTCTGCTCTCCACCCTCATCTGTGCTGTGGCAGGAATCCTCAAGAAGGCGCCAAACGATGTCACTATCCTGTCGGTGGCCGCGGTGGAACTGGCGCTGCTGGTCTACCTCGTCGGCTCGATCATCCGTGTCATCGCAGGGGAACCGATCGCAGGGGAGGCCTGGGAGTTCTGGGGCTACCTCGGGACCGCCCTGCTCCTGCCCGTTGCCGCGGTGTACTGGTCGGTCCTGGAACGCACGCGCTGGAGCAATTTTGTCCTCGCGGCCGTCGGGGTGACTGCCCTGGTCATGGCCGCCCGAATGAACCAAATCTGGTACTGA	MDAYFYIILVVGLLSTLICAVAGILKKAPNDVTILSVAAVELALLVYLVGSIIRVIAGEPIAGEAWEFWGYLGTALLLPVAAVYWSVLERTRWSNFVLAAVGVTALVMAARMNQIWY				NA	NA	NA	NA	NA
D1-17_02623	915	truB	COG0130	tRNA pseudouridine synthase B	GTGGACAAGCCGCAGGGATGGACCAGCCATGATGTGGTTGGACGGATGCGGCGCATCGCCGGTACCCGGAAAGTGGGCCATGCGGGAACACTCGATCCCATGGCCACAGGGGTCCTTGTACTCGGAATTAACAAGGCAACGCGGTTGCTCACCTACATCGTGGGAACGTCCAAGACCTACACCGCCACCATCCGGCTCGGTGAATCCACCATCACCGACGACGCCGAAGGCGAGGTGGTGGCCACAGTGAGTGCCGCCGCCGTCAGCGACGAGGACATCCACGCGGGAGTGGCAGCGCTGACCGGGGAGATCCAGCAGGTTCCCAGCAGCGTCAGCGCCATCAAGGTCAACGGAGAACGGGCCTACGCCCGCGTCCGGTCCGGCGAAGCCGTGAAGCTGGCAGCAAGGCCCGTGACCATCCACCGTTTCGATCTGCAGGACATCCGCCGCGAACGCGGCGGGGACGTGGTGGATCTTGATGTGACAGTGGAATGCTCGTCCGGAACCTATATCCGGGCACTGGCACGCGACCTGGGCTCTTCCCTAGGCGTCGGGGGCCACCTGACCGCTCTGCGCCGGACCCACGTGGGGCCGTATTCACTCGACCAGGCACGGACTCTCGAGCAACTCGCCGAGGACCTGGAAGTATTCGAGATGTCCCAGGCGGCCCGTGCGCTCATGCCCAACAGGGAACTCAGCCCGGAGGAAACCACGGAGATATCATTCGGCCGCCGCATTGCTGCCGGAGCGCCGGCCGGATCGGCGGAGGCAGCCACCGCCGAACGGCCCGCAGCGGCGTTTGCTCCGGACGGCACCCTCGTGGCGCTGCTGGCGGATTCGGGCAACTTCGCCAAACCGGTACTCGTCTTTGCGCCCGGCACCGGGCCCGGCGCCGCCAGCGGGCAGGCCGTTTAG	MDKPQGWTSHDVVGRMRRIAGTRKVGHAGTLDPMATGVLVLGINKATRLLTYIVGTSKTYTATIRLGESTITDDAEGEVVATVSAAAVSDEDIHAGVAALTGEIQQVPSSVSAIKVNGERAYARVRSGEAVKLAARPVTIHRFDLQDIRRERGGDVVDLDVTVECSSGTYIRALARDLGSSLGVGGHLTALRRTHVGPYSLDQARTLEQLAEDLEVFEMSQAARALMPNRELSPEETTEISFGRRIAAGAPAGSAEAATAERPAAAFAPDGTLVALLADSGNFAKPVLVFAPGTGPGAASGQAV				NA	NA	NA	NA	NA
D1-17_02624	1179	dapX	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGCCCGAGCTTGCGCCGCACGTTTCTGACGTCCCCGTCAATCAGATCCGCGAAATCACCGAAGCGGCGTGGCGGACCCCCGGCGCCCTGGTGTTAAGTATCGGCGAACCCGGCTTCCCCCTCCCCCGGCACGTTCTGGAGGCGGGGATGTCGTGCCTGGACCGTGACGAGACCAACTACACCCCTAACGCCGGGATTCCCGCCCTGCGCAAGGCCTTCGCCGACAGGTTCAGGGAGCAGTCGGGGGCCGACGTTGGAGCTGAGCGCGTCTACGTGGTTGCCGGTGCGCAGCAAGGGCTGCACCTGGCGATGAGCCTCCTCCTGGGTTCGGGTGATGAAATCCTGATCCCCAACCCCGGATATCCCACGTTCGCCATGACCAGCCGGCTGCTGCACGCCGTCCCTGTCGGGTATCCCCTTTATCCGGAATACGACTTCCAGCCGCGGATCGAGGACGTTGCAGCGCTGATCACTGACCGTACGCGTGTCCTGATGCTCAACTCGCCGTCGAACCCGCTCGGGGCGGTGCTCAGCGAGGAAATCACCCGCCAGCTGGTGGAGCTGGCCAGGCGGCATGATCTCTGGATCATCTCTGACGAATGCTATGAGGCGTTCACCTACGATGTTCCCCATGTCAGCGCGGCGCGCTTTGACAGCAGCAGTTCCGGCGAGGCCCGGATCTTCACGTCCCTGACACTGTCCAAGACGTATGGCCTCACGGGGCTGCGGATCGGCGCCCTCATCTGCCCGCCAGGACTCGAGCAGCAGATGAACAAGGTCATGGAGGCCATCGTCTCCTGTGTGGCATCACCGTCGCAGTACAGCGCGCTGGCGGCCCTGACCGGTCCGCAGGACTACGTGGTGGAGGCCCGCAGGCATTACCGGGTGAACCGGGATGCCGCTTCGGCCATCCTCCGTTCCAAGGGCATCCCGTTTCTCTCCGCCCAAGGCGCGTTCTATCTCTGGGCCGATGTGTCGCATGTGAGCGAAGGGGACGTGCGGAGCTGGGTGCACACGTTCCTCGCGGAGTCCGGCGTTTCCGTTGCCCCGGGAACCGCTTTCGGCTCCATTGGTGAGGGCTGGATCCGGATCGCGTTGTGCGGCAGCGGGGCAGATCTGGTGGAGGGACTCGGCCGGCTGCCTGCGCGCGCCTCAGCCCCGGCTGCCCGTCAGGGCTGA	MPELAPHVSDVPVNQIREITEAAWRTPGALVLSIGEPGFPLPRHVLEAGMSCLDRDETNYTPNAGIPALRKAFADRFREQSGADVGAERVYVVAGAQQGLHLAMSLLLGSGDEILIPNPGYPTFAMTSRLLHAVPVGYPLYPEYDFQPRIEDVAALITDRTRVLMLNSPSNPLGAVLSEEITRQLVELARRHDLWIISDECYEAFTYDVPHVSAARFDSSSSGEARIFTSLTLSKTYGLTGLRIGALICPPGLEQQMNKVMEAIVSCVASPSQYSALAALTGPQDYVVEARRHYRVNRDAASAILRSKGIPFLSAQGAFYLWADVSHVSEGDVRSWVHTFLAESGVSVAPGTAFGSIGEGWIRIALCGSGADLVEGLGRLPARASAPAARQG	PGPT0020110_3792	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-17_02625	438	trxC_2	COG0526	Thioredoxin 2	GTGCAACCCCAACTCGTCCCATGCCCCCACTGCGGCAAGACCAACAGGCTCCCGGCTGCTGCTGCCGGGCATCCGCGCTGCGGCAACTGCCGACAGGACCTCCCGTGGATAGTCACGGCCGGCGATGAGGACTTTGCCCGCATCGCCGAACAGTCCACCGTCCCGGCCCTCGTGGATTTCTGGGCCGCCTGGTGCGGCCCCTGCCGGATGGTCAGCCCTGTTCTCGATGGCCTCGCCCGCGAGAAGGCTGGGCAGGTCAAGCTGGTCAAGGTTGACGTGGACCGGTCCCCGGCATTGTCCCGGCGTTTTGACGTGCAGTCCATCCCCACGCTGATTGTCCTCGTGAACGGGAAAGTCGTGGCCCGCCAGTCCGGCGCCGCTCCCGCTCCCGTTCTTCGCTCCTGGCTGGAGTCAGCCCTGACGGGCAGCCGGGGCTGA	MQPQLVPCPHCGKTNRLPAAAAGHPRCGNCRQDLPWIVTAGDEDFARIAEQSTVPALVDFWAAWCGPCRMVSPVLDGLAREKAGQVKLVKVDVDRSPALSRRFDVQSIPTLIVLVNGKVVARQSGAAPAPVLRSWLESALTGSRG	PGPT0013061_442	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013061-trxC-K03672	NA	NA
D1-17_02626	486	guaD_2	COG0590	Guanine deaminase	ATGCCCGCCACACCAACTGACACAGACGTCCTGGAGTACCTGACCGAGGCAGTGGCCTTGGCCGAACGAAACGTGGCCGCCGGAGGCGGGCCCTTCGGTGCGCTCGTGGTAACAGCCGACGGCATTGTGCATGAGGGCGTCAACCGGGTTACCCGGGACAATGACCCCACGGCGCACGCAGAAGTGGTTGCGATCCGCACGGCGGCCGCCGAGTCCGGGAATTTTGATCTCACCGGCGCCGTGCTCTACGCCAGCTGCGAGCCGTGCCCGCTGTGCCTGGCCGCGGCCCTGTGGGCGCGGATCGAGCGCGTCTACTTTGCGGCTGACCGCCATGGGGCGGCTGCCGCGGGTTTCGACGACGCCGTGTTCTATGAGTATTTCGGCGGGACCCGGCCGGATCTGTTGCCGGTCACCCAAACCGCAGTCCCGACGTCGGGAAGCCCCTTTGAGGCGTGGCGCAGCAACGCGGAACGCACCGACTATTGA	MPATPTDTDVLEYLTEAVALAERNVAAGGGPFGALVVTADGIVHEGVNRVTRDNDPTAHAEVVAIRTAAAESGNFDLTGAVLYASCEPCPLCLAAALWARIERVYFAADRHGAAAAGFDDAVFYEYFGGTRPDLLPVTQTAVPTSGSPFEAWRSNAERTDY	PGPT0021515_2227	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
D1-17_02627	1158			hypothetical protein	ATGCTCTGGATGATCACCATTGACATTGGAGACAGCATGAAAAAGACATCAGCAGTCCTGACCGTACTGGCCGCTGCAGCCACGATCCTCTCTTCCGCCCCGGCCACCCAGGCCGCCCCGGCTGCAAAGCCCATTGCCCCGAAGGTGCTCGCTAAAGGCCTGGTCGCTCCGCTGCATCTCAGCGTCGGGCAGGACCGCTCCGTCCTCGTCAGCGAAGAGTTCGCGGGCCGGCTGGTGCGGATCGCCAAAGACGGAGCCCGGTCTGTAGTCTACGAAAACGCCGCGTGGGATGTGGCGGGTTCGGACCGGCAGGGCGGTACGATCTTCTTCGCCGCCAGCCAAGGGGCCGGGCCGATGGATCCCCGCCCGCTGGCGGGACACATTCACAGCATCGATTCCAGTGGCAAACACCGCATGTTCGGTGATCTGGCTGCCCTGGAGAAGAGAGAAAACGCCGACGGCGGCATCCAGTACGGCTTCCGCAACCTGCCGGCGGGCTGCGCTGCGCAACTGCCGAAGGACGCCCCGGTCTCCTACAAGGGCGACGTCGACTCCCACCCCTACGGAATCGAAGTTTCCGGCGCCAAAGTGTACGTGGCCGATGCGGGGGCCAACAGCATTGTGTCCGTCGATGTGAAGTCGGGCAAGACGAAAACAGTCGCCGTACTGCCGGCCCGCCCGCACCGCGTCACCGCGTCACAGGCTGCTGCTATGAAGCTGCCGGCCTGCATCGTGGGGTACACCTACAGCTTCGAGTCTGTTCCCACTGACGTCACCGTCGGTCCGGACGGCTGGCTATATGTGTCCTCGCTCCCCGGCGGCCCTGAAGATCCGGCCCTCGGCGCCCGCGGCGCGGTGTTCCGCGTCAATCCACACACCGGACAGGTGAAGCTGTTCGCGGACCGGGTGATGTCCCCCACCGGCATTGAGGCCGACGCCGACGGCAACGTCTACGTCGCTTCCCTTTTCGGAAAAGGCGTGGTCAGGATCGACGATGACGACCGCAAACAGCGCGTGCTGCTCCCGGCACAGCTCGCTGCCGACGTCGATCTCAGGGGCGATACCCTCTACGCCACCGTGAACGCTCTCCCTGAACCGGGGAAGGCCCCGGACGGCCGCGTTGTTTCCATGCCCCTGACCGGGCACCGGGACGACTAA	MLWMITIDIGDSMKKTSAVLTVLAAAATILSSAPATQAAPAAKPIAPKVLAKGLVAPLHLSVGQDRSVLVSEEFAGRLVRIAKDGARSVVYENAAWDVAGSDRQGGTIFFAASQGAGPMDPRPLAGHIHSIDSSGKHRMFGDLAALEKRENADGGIQYGFRNLPAGCAAQLPKDAPVSYKGDVDSHPYGIEVSGAKVYVADAGANSIVSVDVKSGKTKTVAVLPARPHRVTASQAAAMKLPACIVGYTYSFESVPTDVTVGPDGWLYVSSLPGGPEDPALGARGAVFRVNPHTGQVKLFADRVMSPTGIEADADGNVYVASLFGKGVVRIDDDDRKQRVLLPAQLAADVDLRGDTLYATVNALPEPGKAPDGRVVSMPLTGHRDD				NA	NA	NA	NA	NA
D1-17_02628	510	rbfA		Ribosome-binding factor A	ATGGCTGATCCGGCACGCGCTGCCAAGATGGCGCAGCGGATTAAGGTTGTTGTTGCAGAGGCCTTGGGCCGGAAGGTGAAGGATCCCCGGCTTGAGGGCATCACTGTCACTGATGCCCGGGTGACCAACGACCTGCAGCATGCCACCATCTACTACACCGTCTTCGGTGACCAGGCCGTCCAGGCTGACGCCGCCAAGGGCCTGGAGAAGGCCAAGGGCGTACTGCGGCAGGAAGTTGGCCGGAACATCACCGCCCGGCTGACCCCCACGCTGGAGTTCGTGGCTGACCAGATCCCCGTGAACGCCTCCAACCTCGAGGAGCTGCTCCGGGAGGCGAAGAGGCGTGACGCCGAGGTGGCTGCCCTGGCCGAGAAAGCCAAGCACGCAGGCGACGCTGACCCGTACAAGACGGACGTGCAGCCTGACGTGGACCTCGACGAAGACGATTTCGACGAAGAGGACATTGAGTTCAGCCGTGCGGATGACCTCGATGAGGGTCAGAGCAAGTAG	MADPARAAKMAQRIKVVVAEALGRKVKDPRLEGITVTDARVTNDLQHATIYYTVFGDQAVQADAAKGLEKAKGVLRQEVGRNITARLTPTLEFVADQIPVNASNLEELLREAKRRDAEVAALAEKAKHAGDADPYKTDVQPDVDLDEDDFDEEDIEFSRADDLDEGQSK				NA	NA	NA	NA	NA
D1-17_02629	2892	infB		Translation initiation factor IF-2	GTGGCCAAGGTCCGCGTACACGAGCTTGCGAAAGAGCTCGGTATTACTTCCAAAGATGCAGTGAACAAACTGCAGGAACTGGGCGAATTCGTTCGCTCCGCCTCATCCACCATTGAGGCCCCCGTTGTGCGGAAACTCCGCAACGCCTTCCCGGCTGCGTCCGCTTCGACCTCCGAAGCGCCCGCAAGCGCTCCCAAGGCTCCGGCCAAGGCGGCAGAATCACGTCCCGCTCCGGCTCCCGGACCGGCTGCCCCGAAGGCCCAGGCGCCCGCACCGGCGCCGGCCCCGGCACCCGCCCCGGCACCCAAGGCTGAGGCACCTGCCGCCCCGGCAGCTCCGTCCCCGGTAGCTCCTGCAGCGGCCGCCCCGGCGGCTCCCTCCACTGGCGCCAAACCCGGAGCCCGCCCGGCCCCCAAGGCTGAGACCCCGGCAGCGCCGGCCCCGCGACAGGGCGGCTCCGCCCCGCGTCCTGGCGGCCCGCGCCCCGGCAACAACCCGTTCGCCACCTCGCAGGGCATGCCCCGTGGCCGTGGCGGCGACGGCGAGCGTCCGCCGCGTCCGGGTAACAACCCGTTCGCGACGTCCCAGGGCATGCCCCGCCCGGGCGGCGGCCGTACCGACGGCGACCGTCCCGGTGGCCCGCGTCCCGCAGCAGGAGCTCCCCGCCCCGGCGGTCCGCGTCCGGCTGCAGGTGCCGGTGGTGCCCGTCCCGGTGGTCCGCGGCCTGCAGCGGGTGCGGGTCCCCGTCCGGGTGCCGGAGGCAACCGTCCTACTCCCGGCATGATGCCTAACCGCACCGAGCGTCCGGCACCTGCCGGTGCCGGTGCCGGCCGTCCCGGCGGCGGCGGACGCGGTCCCGGCCGCCCAGGCGGCGCTCCCGGAACCGGCGGTCCCGGCGGTGGCGGCGGTGCTCCGGCCGGCGGTGGCTTCGGCAAGGGCGGCCGCGGCCGCGGTGGTACCCAGGGTGCCTTCGGCAAGGGCGGCGCAGGCCGCGGCAAGCAGCGCAAGTCGAAGCGCGCAAAGCGCCAGGAGCTCGAGCAGATGAGCGCCCCGTCGCTGGGTGGCGTGAGCGTACCCCGCGGCGACGGCAACACCGTTATCCGGCTTCGCCGTGGCTCGTCCATTACGGACTTCGCCGACAAGATCGAGGCGAACCCCGCCGCGCTGGTGACCGTTCTCTTTCACCTCGGTGAGATGGCTACGGCAACCCAGTCGCTGGACGAAGACACCTTTGCGCTGCTGGGTGAGGAGCTTGGCTACAAGCTGCAGGTCGTTTCGCCGGAGGATGAGGAGCGCGAGCTGCTCAGCACCTTCGATATCGACGTCGAAGCCGAACTTGAGGCTGAAGGCGACGAAGAGCTTGAGGCGCGTCCTCCGGTCGTCACTGTGATGGGTCACGTTGACCACGGTAAGACCCGGTTGCTGGATGCCATCCGCAACTCGGACGTGGTTGCAGGCGAGCACGGCGGCATCACGCAGCACATTGGTGCCTACCAGATCAGCCACGAGCATGAGGGTGCGCTGCGCGACATCACCTTCATCGATACCCCGGGTCACGAAGCGTTCACCGCCATGCGTGCCCGTGGTGCGAAGGTCACGGATATCGCCATCCTGGTGGTCGCAGCGGACGACGGCGTCATGCCCCAGACCGTTGAAGCGCTCAACCACGCCCAGGCGGCCAACGTGCCGATCGTTGTGGCCGTGAACAAGATCGACAAGGAAGGCGCCAACCCGGACAAGGTCAAGGGCCAGCTGACCGAGTACGGCCTCGTTCCAGAAGAATATGGTGGCGACACCATGTTCGTTGAGGTTTCTGCCCGCCAGAACCTGAACATCGACGAGCTGATCGATGCGGTGCTGCTGACAGCCGATGCCGCGCTGGACCTCCGCGCCAACCCGGACAAGGCTGCCCGCGGTATCGCCATCGAAGCGAACCTGGACAAGGGCCGCGGTTCCGTAGCCACCGTCCTGGTGCAGTCCGGTACCCTGGCGGTCGGCGACACGATCGTGGCCGGCACGGCTCACGGCCGCGTCCGTGCCATGTTCGACGAAGACGGCGAAGCCCTCGACGTTGCACTGCCGTCCCGTCCGGTCCAGGTCCTCGGCCTGTCCAACGTGCCGCGCGCCGGTGACTCCTTCCTGGTGACCGCCGACGAGCGTACGGCCCGCCAGATCGCTGAAAAGCGTGAAGCTGCTGACCGCAACGCCCAGCTCGCCAAGCGCCGCAAGCGCATCAGCCTGGAAGACTTCGATCAGGCTGTGGCCGAAGGCAAGATCGACACCCTCAACCTCATCCTCAAGGGTGACGTTTCCGGTGCCGTGGAAGCCCTCGAAGACGCGCTGCTCAAGATCGACGTCGGCGAGGGCGTCCAGCTCCGCGTTATCCACCGCGGTGTCGGTGCGATCACGCAGAACGACGTCAACCTGGCAACGGTCGACAGCGCCGTGATCATCGGCTTCAACGTCAAGCCTGCCGAGCGGGTTGCCGAGCTGGCAGACCGCGAAGGTGTGGATATGCGCTTCTACTCCGTCATCTACGCAGCAATTGATGACATCGAGCTGGCCCTCAAGGGCATGCTCAAGCCGGAGTACGAAGAGGTCCAGCTGGGCACCGCCGAGGTCCGCGAAGTGTTCCGCTCCTCCAAGTTCGGCAACATTGCAGGTTCCATCGTTCGCTCCGGCATCATGCGGCGCAACGCGAAGGCCCGTATCAGCCGCAACGGCAAGGTTATCGGTGACAACCTCACCGTCGAGACGCTCAAGCGTTTCAAGGACGACGTCACCGAGGTCCGCACGGACTTCGAGTGCGGTATCGGCCTCGGGTCGTACAACGACATCAACGAAGGCGACATCATCGAGACCTTCGAGATGCGCGAGAAGCCGCGCGTTTAG	MAKVRVHELAKELGITSKDAVNKLQELGEFVRSASSTIEAPVVRKLRNAFPAASASTSEAPASAPKAPAKAAESRPAPAPGPAAPKAQAPAPAPAPAPAPAPKAEAPAAPAAPSPVAPAAAAPAAPSTGAKPGARPAPKAETPAAPAPRQGGSAPRPGGPRPGNNPFATSQGMPRGRGGDGERPPRPGNNPFATSQGMPRPGGGRTDGDRPGGPRPAAGAPRPGGPRPAAGAGGARPGGPRPAAGAGPRPGAGGNRPTPGMMPNRTERPAPAGAGAGRPGGGGRGPGRPGGAPGTGGPGGGGGAPAGGGFGKGGRGRGGTQGAFGKGGAGRGKQRKSKRAKRQELEQMSAPSLGGVSVPRGDGNTVIRLRRGSSITDFADKIEANPAALVTVLFHLGEMATATQSLDEDTFALLGEELGYKLQVVSPEDEERELLSTFDIDVEAELEAEGDEELEARPPVVTVMGHVDHGKTRLLDAIRNSDVVAGEHGGITQHIGAYQISHEHEGALRDITFIDTPGHEAFTAMRARGAKVTDIAILVVAADDGVMPQTVEALNHAQAANVPIVVAVNKIDKEGANPDKVKGQLTEYGLVPEEYGGDTMFVEVSARQNLNIDELIDAVLLTADAALDLRANPDKAARGIAIEANLDKGRGSVATVLVQSGTLAVGDTIVAGTAHGRVRAMFDEDGEALDVALPSRPVQVLGLSNVPRAGDSFLVTADERTARQIAEKREAADRNAQLAKRRKRISLEDFDQAVAEGKIDTLNLILKGDVSGAVEALEDALLKIDVGEGVQLRVIHRGVGAITQNDVNLATVDSAVIIGFNVKPAERVAELADREGVDMRFYSVIYAAIDDIELALKGMLKPEYEEVQLGTAEVREVFRSSKFGNIAGSIVRSGIMRRNAKARISRNGKVIGDNLTVETLKRFKDDVTEVRTDFECGIGLGSYNDINEGDIIETFEMREKPRV				NA	NA	NA	NA	NA
D1-17_02630	978	nusA	COG0195	Transcription termination/antitermination protein NusA	ATGGATATTGACATGAGCGCGCTGAGACTCCTGGAGCGTGAGCGCGAAATCCCCCTGGATCTCCTCATCCCCACGATCGAGCAGGCACTGCTGGTTGCTTATCACAAGTCTCCCGGCGCCTTCGAGAAGGCCCGCGCCGAGCTGGACCGCAAGAGCGGGCACGTGACCATCTGGGCCACCGAGATCGACGACGACGGTGTGCCGATTGGCGAGTTCGAAGACACCCCCGCGGGCTTTGGCCGCATCGCAGCCAGCACCGCCCGGCAGATCATCCTCCAGCGCCTTCGGGACGTTGAGGACGACAACGTGCTGGGCGAGTTCAAGGGCCGCGAGGGCGAACTCGTGGCCGGACTGATCCAGCAGGGCAACAACCCGCACATGATCCAGGTCAACCTGGGCAGTGTGGAAGCCCTACTGCCGCCGCCCGAGCAGGTGCCCGGGGAGAAGTACATCCATGGAAACCGCCTCCGTGCCTACGTCATCGACGTGCACCGCGGCACCAAGGGACCCTCGATAACGCTTTCCAGGTCGCACCCGGGCCTCGTCCGCAAGCTCTTCGAACTGGAGGTGCCGGAAATTGCGGACCACTCCGTGGAGATCGTGGCGCTGGCACGCGAAGCCGGGCACCGCACCAAGATCGCGGTGAAGGCCAATACCCCCGGGATAAACGCGAAGGGTGCCTGCATCGGCGAGATGGGTTCCCGCGTGCGGGCCGTCATGACTGAGCTGAATGACGAAAAGATCGACATCGTCGATTACAGCGAGGATCCGGCAACTTTTATCGCCAGTGCACTGTCCCCGTCGCGTGTGAATTCCGTCACCATCACAGATGAAGCCACCCGTTCGGCCCGTGTGGTGGTCCCTGACTACCAGCTGTCACTTGCCATCGGCAAAGAAGGCCAAAATGCCCGTCTCGCGGCGAAGCTGACAGGCTGGCGGATTGATATTGTCTCTGACGCGGCTGCGCCCCGCGCCTAG	MDIDMSALRLLEREREIPLDLLIPTIEQALLVAYHKSPGAFEKARAELDRKSGHVTIWATEIDDDGVPIGEFEDTPAGFGRIAASTARQIILQRLRDVEDDNVLGEFKGREGELVAGLIQQGNNPHMIQVNLGSVEALLPPPEQVPGEKYIHGNRLRAYVIDVHRGTKGPSITLSRSHPGLVRKLFELEVPEIADHSVEIVALAREAGHRTKIAVKANTPGINAKGACIGEMGSRVRAVMTELNDEKIDIVDYSEDPATFIASALSPSRVNSVTITDEATRSARVVVPDYQLSLAIGKEGQNARLAAKLTGWRIDIVSDAAAPRA				NA	NA	NA	NA	NA
D1-17_02631	618	rimP		Ribosome maturation factor RimP	GTGAGCAATGCAGAAGCCACGACTTCATCAGACCGGACCGACGCGGGAAAGGCTGAATCCGCGGGTGTCCATAATCCCGAGGCTGAGCGCCTCCGGGCTCTGTTCGAGCCGACGGTTCAGGCGCACAGGCTGTATCTGGAGGATGTTGCCATCAACATCGCGGGCTCCAACCGCGTAGTCCACGTGGTGGTGGACCTGCCGCAGGAAGAAACCGGCGGGGTCAGCCTCGATGTCATCGCAGACATTTCCAAGGAGCTTTCGGACATCCTGGACAACGTTCCCGGCATTGACAGCCGCCCCTACGACCTTGAGGTCTCCTCACCAGGCGTGGGCCGCCCGTTGAAGGAGCCCCGTCACTGGCACCGGGCCCGCGGCCGCTTGGTCACCGTTAACGTGGTCCAAGGTGACAACGTCACCGGCCGGATCCAATCTGTAGACGACTCGGGCGTGACGCTGATTCCCGAAATAGCCGTGAAAAAGGGAATGAAGCCCAAGCAGGGCGATCCCGTAAAACTTCCTTTCGACAAGATTCGCAGCGGAAAAGTCGAAATCGAGTTCAGCCACCTCGACGAGGCCGGTCTGAAAAATGAACACAATGGACCTTCTGAGGAGGCCTGA	MSNAEATTSSDRTDAGKAESAGVHNPEAERLRALFEPTVQAHRLYLEDVAINIAGSNRVVHVVVDLPQEETGGVSLDVIADISKELSDILDNVPGIDSRPYDLEVSSPGVGRPLKEPRHWHRARGRLVTVNVVQGDNVTGRIQSVDDSGVTLIPEIAVKKGMKPKQGDPVKLPFDKIRSGKVEIEFSHLDEAGLKNEHNGPSEEA				NA	NA	NA	NA	NA
D1-17_02632	1311			hypothetical protein	GTGACAACATGGTGTGTTGTGAAAAAGGACACCAGGGAAAGCGGCCGGCCCATCGGCTATTTCCGATATGCCCTTGCAGCCTTCACGGCCCTTCTGGTGCTCAGCCTCGGTTTTGCCCTGATTCCCCGCCCCGTCCCGGAGCCTGCAGCCCCGCCTTTTTCCGAGCAGGCACGCGCTACCGCCCTCGCTGAGACTATGCACCTGCGGGCAGTTAGCCAGCACCTGGCCGAGGGTTCATCCGGTGCCCGGCGGCAGGCTTTTTCACGAACTGTGACATTGCTGACTATCCAGGCGAGGGCGCTGCTCCTCCCTTCCGATGATCCCTCCCATGCCCCCTCTGGTCCCGCCGGGGCTGCTTCTGGTTCCGCTCCGGCCTCTGCAGGTGCGCCCTCCGCCTCGCGGTCCACTGCTGCTGCGGCCACGGCTCCTGCACTCGTTGCGGGGCTGTCAGCGAGCGGAAAGTTGCGGCTGGCCCATGCCCAAACAGCCGACGGCGGGATGGCCCGCCTGCTCTCGTCCGTCGGGACCGCGCAGCTCCTGCAGGCGGAAGCGCTGGCCCAGGTCTCCGGAATCCCGGCCCCGGCCCTGCCTCCGCCGGCCGTTCCTCCTGCTATACCGGCCGTCTCGTCGGCTTCGGCGCTTCCTTCCGCGCCAGCGCTTCCTTCCTCCGCGACACAGGCGCCGGCGCCTGTCCCGGCAGCCAGTTGCCCGCCTGCAGCCGTTGACGGCATGACAGATGCGGATGCGGACGTGGCTGCGCCGTCATCGCCGGCGCCGGCACGCTCAGCAGCTGCACCTGCAGCACCGGGAGCTGAATCCACACAGCCGGCCGGCGGCGCCTCAACGGCGGACGCCCTCACGCAGGTCGTCCGCACGGAACTGGAGACCGTCTACGGGTACCAGGTGGCGCTCACCCGGCTTAATGGTCCGGCTGTCCAGCAGGCGAAGGACCTGCTGGTCAAGCACGAGGCAGCCGTCACTCAGGCGGAGATCCGCACCCGCCTCTCCTGCGCACCGGTTCCGCCGCGCCAGCCGGGCTACACCCTGGATGCCACATTCCTCAACAACCCCACCGCCGGGCTGGCCAGCCTTGAAGCTGGCACACTGCCCGTCTACGGGGATCTGGTTGCCCTGAGCGAAGGCGCCACGCGGCAGTGGGCCATCGGATCACTGTTCGCCGCAGCGCAGCGCACCGTTCGCTGGGGATCTGATCCCGGCCCCGTCCCCGGGCTCGTGCTCGACACGTCACAGCTTCCCCCCTTACCCGAAACGGGCACGCCCGCCCCCTCAGGCAGCACTCCGGCTGATTAG	MTTWCVVKKDTRESGRPIGYFRYALAAFTALLVLSLGFALIPRPVPEPAAPPFSEQARATALAETMHLRAVSQHLAEGSSGARRQAFSRTVTLLTIQARALLLPSDDPSHAPSGPAGAASGSAPASAGAPSASRSTAAAATAPALVAGLSASGKLRLAHAQTADGGMARLLSSVGTAQLLQAEALAQVSGIPAPALPPPAVPPAIPAVSSASALPSAPALPSSATQAPAPVPAASCPPAAVDGMTDADADVAAPSSPAPARSAAAPAAPGAESTQPAGGASTADALTQVVRTELETVYGYQVALTRLNGPAVQQAKDLLVKHEAAVTQAEIRTRLSCAPVPPRQPGYTLDATFLNNPTAGLASLEAGTLPVYGDLVALSEGATRQWAIGSLFAAAQRTVRWGSDPGPVPGLVLDTSQLPPLPETGTPAPSGSTPAD				NA	NA	NA	NA	NA
D1-17_02633	1800			hypothetical protein	ATGGATGACACGGCAGAGGCGCAGGTGTTGGAGGGCATCGGGGCCTCCGTTGCTGCGCTGGCTGTTGCTCTCCGCCGCGCTGGTTTTGTCCCTAGTGACGACCGGGCCGGTGACGGCCACATGATGGCAGCGTGTGCTGCTCCCCGGATCGGTGCTGATCCCCAGATTGGTGCTGGTCCCCAGATTGGTGCTGGTTCCCAAATCGGTGCTGAACCGGGGTGGGGTGCTGACTCGCCCAGCGGTGCTGACTCTGGGGATCCCTTGCGGGATCAGGCGGACGCGTTTCTGGTTGGCTTGGAGGAGTTGGGCCGGATCGAGGCACGGATGGCCGCGTTGAAGGTTCACCTGGCCACCGGATATGCCGCCGCTGCCGAGGCGATGGCGGAGCGGGCGCGTTCTGCCCAGGAGCGCACTGCCCAGAAGATGGCCGTGACCGCGGAGGTCGCGTGTGCCCTGACGGTGAGTGAACGTGCCGCCGATGCCTTGCTGAGTGAGGCCCGCAACCTTACCACCGTGTTGCCGCTGACACTGGCCGCGCTGAGCGCCGGAGACATCTCCTGGCAGCACGCCCGGATCCTGTGTGATGAAACAGCCAACCTGGACACGACAGCCGCCGCGGCCCTCGAAGCGCACTTCCTGGATCCGGACGAGCCCGGGGCTGCCCGGGGCTGCCCCGCCGGGGAGCTGGTGCCGGGCAGGTTCCGCGCCAAAACCCGCGCCTGGCGGGAACGGCGCCACCCGGTCAGCATCGAAACCCGCCACGGCCGGAACGCCAAGGACCGCCGGGTGGAGTACCTCCCGGACCGGGACGGGATGGCCTGGTTCTCGACATACCTGCCCGCCGACACCGCCGCCGGCATCTGGAACCGCACCACCGCAGCCGCCCGCGGCCTGCAGGGCCCTGAGGAGCCACGGACGCTGACGCAGCTGCGCGCGGACGTCGCCGCCGGCTGGCTCCTGGCGGGCACCGCCGACGGGATCCCCTCACCCAAAGCCCAGGTCCTGGTCACGGTTCCGGTGCTCTCACTGGTCAATGGAGGTGAGGAACCAGCCGTTCTGGACGGGTACGGGCCGGTCCCGGCGTCGATGGCACGGAAGCTGGTCGCCGAAGGAGCCACATCGTTCCTGCGGGTGCTGACCGATCCCCGGGACGGGGCGCCGCTGGAGATCGGACGCACCAGCTACCGGCTGACGAAACCGATGCGTCAATGGCTGCGGCTCCGCGACGCGCGATGCACGTTTCCCGGCTGCAACAATCACTCCCTGGACAACGACGCGGACCATGTCCTGGCCTGGTCCGCCGGCGGCAGCACCGGGATCAGCAACCTCGGACAGCCATGCCCACGCCACCACCACCTCAAACACAGCTCAGCGTGGAGGCCGGTCAATGCGACCCGGGACAGCCCGCCCGGCTGGATGTCACCGGCAGGCCGCTTTTACTCCGGCGAACAACCGGACTGGGAACCACCACACTGGCCCGACACCCTCCAACCCGACAACCCAGACTGGCCAGACAGCTTTGAGGAGCCGGACAGCCTTGAGGAACCGGACAGGTCCGCCTGGGCGGACAACCCGGACTGGCCAAACAGTCTCGAGGAACCGGAGAGCCCCGACTGGCCCTACGACCTCGAGCCGGACAACCTCGAGGGCCTTTGCCCGCCACCGCCGATGGATCTCCTCCCTGTAGATCCACCGCGCGAAGATCCATGCGCGAAGATCCATCTGCCTGTAGGTCCACCGCCGGTGGATCTCCTGCCCGTGGATCCCTTCCCTGAGTGGGCACAGTTCACAGCAGCGTAA	MDDTAEAQVLEGIGASVAALAVALRRAGFVPSDDRAGDGHMMAACAAPRIGADPQIGAGPQIGAGSQIGAEPGWGADSPSGADSGDPLRDQADAFLVGLEELGRIEARMAALKVHLATGYAAAAEAMAERARSAQERTAQKMAVTAEVACALTVSERAADALLSEARNLTTVLPLTLAALSAGDISWQHARILCDETANLDTTAAAALEAHFLDPDEPGAARGCPAGELVPGRFRAKTRAWRERRHPVSIETRHGRNAKDRRVEYLPDRDGMAWFSTYLPADTAAGIWNRTTAAARGLQGPEEPRTLTQLRADVAAGWLLAGTADGIPSPKAQVLVTVPVLSLVNGGEEPAVLDGYGPVPASMARKLVAEGATSFLRVLTDPRDGAPLEIGRTSYRLTKPMRQWLRLRDARCTFPGCNNHSLDNDADHVLAWSAGGSTGISNLGQPCPRHHHLKHSSAWRPVNATRDSPPGWMSPAGRFYSGEQPDWEPPHWPDTLQPDNPDWPDSFEEPDSLEEPDRSAWADNPDWPNSLEEPESPDWPYDLEPDNLEGLCPPPPMDLLPVDPPREDPCAKIHLPVGPPPVDLLPVDPFPEWAQFTAA				NA	NA	NA	NA	NA
D1-17_02634	681			hypothetical protein	GTGCTGATGAGCCTTCCAGCCGTTCCTGTGCCGCCTGACCTGACGCGCCGCTATTCCCGCAGCAGCGCCGGCCGGGCGTGGCTGGCGTCCCTCCCGGGGCTGCTGAGAAGCCGGATGGAACGTTGGGAGCTCACGCTTGACCTCAAGCCTGGAACGCTGCCCTGGAGCGGACACGGCGGGGTGGTGGTCCCTGTGCTGGCCCGGGACGTTCCGGCGGCCCTGAAAGTCGCTTTTCCCCATGACGAGGCCCTGGTGGAGAGGCACGCGCTGGCCCTCTGGAACGGGCGGGGTGCCGTCCGGCTGCTGGCCTCCGACGCGGGCACCTGCTCGATGCTGCTGGAGCGCCTGAATGCCGGCAAGTCACTCGAAACCGAGCCGATGGACGCTGCCGCCGAAGTGTGGGGCGGGCTGGTACGGCAGCTGAGCCTGGTCCCCGGCAGCGAGCCGCAATGGCGCGAATTCGAGCAGATTGCAGCCCGTGCAGAGCGATGGAGCGATGATCTGCCGGCCGAATGGGAGCAGTTGGGCAGGCCCTTCCCGCGGTGGCTCCTGGAAGCTGCGCTGGAAGTCTGCCAGACCAGGGGCGCTGTTGGCCGCCGCTCCGGTTCGGACGTGCTCGTCAACACCGACTTCCACTTCCTGAACATCCTGGCCAGACTTGGCGCTGCGGAGGACGAATAG	MLMSLPAVPVPPDLTRRYSRSSAGRAWLASLPGLLRSRMERWELTLDLKPGTLPWSGHGGVVVPVLARDVPAALKVAFPHDEALVERHALALWNGRGAVRLLASDAGTCSMLLERLNAGKSLETEPMDAAAEVWGGLVRQLSLVPGSEPQWREFEQIAARAERWSDDLPAEWEQLGRPFPRWLLEAALEVCQTRGAVGRRSGSDVLVNTDFHFLNILARLGAAEDE	PGPT0028755_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028755-strB-K04343	NA	NA
D1-17_02635	330			hypothetical protein	ATGATTGGCGAGGCCGAGTTCGGGGTCGCCCCCGTGTTGTGGAACCGCATTACTGAGCTTCCGTCCGATAATCCCGGAGCCGGACTGCGGCGGCGCTGCCGTGATTTCAGCATGGCAGCGGGGCTGGACGAGGAGATTGCCCGGCAGTGGAGCCTCGTCCGTGAGGTGGATAACGCCCTGCACTACGCCTCGAAACCGGGCCACGAAGGCGATCTCGCGCGTTCTCTCTGGGTAGCCAGCACCGTTGCCGGCCACACACTTGACGGGCTTCCCGCGCCGCACTCGCTGCCCGAGCCGGGCCACGCTGGCGGGGATTCGTTCCCGTCCTAG	MIGEAEFGVAPVLWNRITELPSDNPGAGLRRRCRDFSMAAGLDEEIARQWSLVREVDNALHYASKPGHEGDLARSLWVASTVAGHTLDGLPAPHSLPEPGHAGGDSFPS	PGPT0028755_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028755-strB-K04343	NA	NA
D1-17_02636	795	yfcA	COG0730	putative membrane transporter protein YfcA	GTGCTCTCTGGCTTTGAATCGATCGAGCTCGCCACCATCATCCTGATAGTGGTGGCGGGCTTCGCCGCGGGCTGGGTGGATGCCGTGGTGGGAGGCGGCGGCCTGCTGCAGCTTCCCGCGCTCCTGCTTGTTCCGGGCATCACTCCCGTCCAGGCGCTTGCCACCAACAAGATGGGTTCCATCTTCGGTACCACCACCAGCGCGGTCACTTACTATGGGCGGGTGCGGCCGGACCTGTGGACCGCCGTGCCCATGGCGGTCATTGCGCTGGCCGGCAGCTTCGGGGGCGCCCTGCTGGCGGCCCGGCTGCCGGCGGAAGTGTTCAAACCGATCATCGTGGTGGCGCTGGTCGCCGTCGCACTTTTCACCGCCTTGAAGCCCGACGCCGGGCACCTCACCGTTCTCAGGCACGACGGCGGCACCCACTACGTGGTGGCCTGCACCATTGGCGGGGTGATCGGCTTTTACGACGGCCTGATCGGGCCCGGCACAGGCTCGTTCCTGGTCATCGCCCTCGTTTCGGCGATGGGGTACGCGTTCCTGGAAGCAAGCGCCAAGGCCAAGATCGTCAACATGGCCACCAACGCAGGTGCGCTGCTGTTCTTCCTGCCGCACGGCTCCTTACTGTGGGGGATCGGACTGCTGCTGGGGCTGGCGAACATGGCCGGGGGCTACCTGGGTGCGCGCACGGCCGTCCGGCAGGGAAGCCGCTTTGTGCGGCTGGTCTTCCTCGCCGTGGTCGGGGCCCTCATCATTAAGCTTGGCTTCGACGTCTGGCAGGAGAATTTCGCGTGA	MLSGFESIELATIILIVVAGFAAGWVDAVVGGGGLLQLPALLLVPGITPVQALATNKMGSIFGTTTSAVTYYGRVRPDLWTAVPMAVIALAGSFGGALLAARLPAEVFKPIIVVALVAVALFTALKPDAGHLTVLRHDGGTHYVVACTIGGVIGFYDGLIGPGTGSFLVIALVSAMGYAFLEASAKAKIVNMATNAGALLFFLPHGSLLWGIGLLLGLANMAGGYLGARTAVRQGSRFVRLVFLAVVGALIIKLGFDVWQENFA	PGPT0027725_1575	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-AbrB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027725-antitoxin_abrB-K07120	NA	NA
D1-17_02637	1812	proS	COG0442	Proline--tRNA ligase	GTGGTTCTTCGACTTTCCAAGCTGTTCCTGCGCACCCTGCGTGAAGATCCGGCCGACGCCGAGGTGGCGAGCCACAGGCTCCTGGTCCGCGCCGGATACATCCGCAGGGCCGCGCCGGGCATCTACACCTGGCTGCCGCTGGGTCTGACTGTCCTGCGCAAGGTGGAGCAGGTGATCCGCGAGGAGATGGCCGCCATTGGCGCCCAGGAAGTCCACTTCCCGGCCCTGCTGCCTAAGGAACCCTACGAGGCGACAAACCGCTGGACTGAGTACGGCGAGGGCATCTTCCGGCTCAAGGACCGCAAAGGCGGGGATTACCTGCTGGCACCCACCCACGAGGAAATGTTCACCCTGTTGGTCAAGGACCTGTACTCCTCCTACAAAGACCTGCCGCTAAGCATCTACCAGATCCAGAACAAGTACCGTGATGAGGCCCGCCCGCGCGCAGGCCTGCTGCGCGGCCGCGAGTTCATCATGAAGGACTCGTATTCCTTCGATGTGGACGACGCCGGGCTGGACGCCAGCTACAACGCGCACCGCGCCGCGTACCTGAAGATCTTTGAGCGCCTGGGTCTGGAAGTGATTCCCGTTGCCGCCACGGCCGGCGCCATGGGCGGATCCAGGAGCGAGGAGTTCCTGCACCCCACCGAGATCGGTGAAGACACGTTCGTGCGGTCAGCGGGCGGCTATGCGGCGAACGTAGAGGCCGTAACCACTGTCGTCCCTGCCGAGATTGACTACTCCAACGCTCCCGCAGCGGAGATCCGGGACACTCCGAACACCCCCACCATCGAGACGCTCGTAACCGCTTCCAACGAGCTTGCTCCGCGCAGCGAGGCGGACGGCGGTCCGTGGACTGCGGCCGACACCCTGAAGAACGTGGTCCTCGCCGTCACCTTGCCCACGGGTGAGCGGCAGATCGTCGTCATCGGTGTCCCGGGCGACCGCGGCGTGGATCTCAAGCGTGTCGAAGCCAACATTGGTGCCTATCTCCCCATTGCAGGGGAGATCAACGTCGAAGCAGCCGGCGACGAGGACCTGGCAAAGAACCCTCTCATTGTGCGCGGCTACCTTGGGCCCGGAATGTCGCTGGACCAGCCCCTCCTCGGTCTGGAGGGCGCTGCCAAGCTCCTTTACCTGGTGGACCCGCGCGTCGTTAACGGCACCTCCTGGGTGACCGGAGCCAATATGGCCGGCAAGCACGTGTACGGCCTCGTTGCGGGACGGGACTTCGCCTGGGACGGCACCATTGAGTGCACCGAGGTGCGTGCCGGCGATGAAGCCCCCGACGGTTCAGGCCCCCTCGAAACGGCCCGTGGCATCGAGATGGGACACATCTTCCAGCTCGGCCGCAAGTACGCTGAGGCCCTTGAACTCAAGGTCCTGGACCAGAACGGCAAGCAGGTTGTTGTGACAATGGGCTCCTACGGCGTGGGTGTGACCCGTGCCGTGGCCGCCCTGGCCGAGTCATACCACGACGCCAAGGGCCTCGCCTGGCCACGTTCGGTGGCTCCGGCCGATGTCCACGTCGTAGCCGTCGGACGCGGCCAGGAAATCTTCGCGGCGGCGGAGCAGCTCGCTCACGAACTCGAAGCTTCCGGGCTGGAGGTCATCTACGACGACCGGCCCAAGGTCTCTCCGGGTGTGAAGTTCGGCGACGCGGAGCTCATCGGTGTGCCCACCATCCTTGCCGTCGGCAAGGGCCTCGTGGACGGCGTCGTCGAAATCAAGGACCGCCGCAGCGGTGAAGCGGAAAACGTGGCAGTGGACAAGGCCGTTGACTTCGTGGTCAACGCTGTCCGCAACTCCTGA	MVLRLSKLFLRTLREDPADAEVASHRLLVRAGYIRRAAPGIYTWLPLGLTVLRKVEQVIREEMAAIGAQEVHFPALLPKEPYEATNRWTEYGEGIFRLKDRKGGDYLLAPTHEEMFTLLVKDLYSSYKDLPLSIYQIQNKYRDEARPRAGLLRGREFIMKDSYSFDVDDAGLDASYNAHRAAYLKIFERLGLEVIPVAATAGAMGGSRSEEFLHPTEIGEDTFVRSAGGYAANVEAVTTVVPAEIDYSNAPAAEIRDTPNTPTIETLVTASNELAPRSEADGGPWTAADTLKNVVLAVTLPTGERQIVVIGVPGDRGVDLKRVEANIGAYLPIAGEINVEAAGDEDLAKNPLIVRGYLGPGMSLDQPLLGLEGAAKLLYLVDPRVVNGTSWVTGANMAGKHVYGLVAGRDFAWDGTIECTEVRAGDEAPDGSGPLETARGIEMGHIFQLGRKYAEALELKVLDQNGKQVVVTMGSYGVGVTRAVAALAESYHDAKGLAWPRSVAPADVHVVAVGRGQEIFAAAEQLAHELEASGLEVIYDDRPKVSPGVKFGDAELIGVPTILAVGKGLVDGVVEIKDRRSGEAENVAVDKAVDFVVNAVRNS				NA	NA	NA	NA	NA
D1-17_02638	888			hypothetical protein	ATGCTGTCAAGGGTAGCCCCGTGGTTAGCGTCTCATAAGGACGGAGCCGCTCCGGATGGTGTGACCGTCCGGGCACTTGGCGCGGGGGACACGGCCGGGCTACGGGATCTGGCCGGCGCTGATCCGGTGGCCAATGTGTTCATTCTGGCCCATCTGGAATCAACCGGTACTGCTGCCCCAACTCCTGGGGGCGCGAATGTTCTGGGGGTCTTCGACGGCGATGCTCTGGTGGGCGCCTGCTGGGCAGGCGCCAACCTGGTGCCGGTCCAACTGGCACCAGCCTTGGCCGGAGCGGTGTCAGTTGCCGCCCACCGGTCCGGCCGCCGGTACGCATCCATCTTCGGCCCGGCCCCCACCGTGCTCGCGATGCATGGCGAACTGGAAAAATTGGGGCACCAGGCCCATGAGGTGCGGCCGGACCAGCCGCTCATGACGATTGCCGGACCACCCGCCGTCGAGCCCAACTGGCAGCTGGGCGTTGGACACGAGTCCGACTTTGACACTATCCTGCCTGCCTGCGCGGCGATGTTCGAGGAGGAAGTAGGCTATTCGCCCTATCTCGGGGGCCGTGACTTTTATAGCAGGAGGGTGGCGGGACTGATCCGCCAAGGCCACTCCCTGGTTCATATCAAGGACGGCGAAGTGGTCTTCAAGGCCGAGCTGGGAGCCGTGACCCGCGATGTGACGCAGGTTCAGGGCGTGTGGATGAACCCCGGCTACCGCGGGCTCGGCCTGAGCGCGGCCTACATGGCGGCGGTGGTGCTGCTGGCCCAAAAAATGGCGCCTGTGACCAGTCTTTATGTCAACGACTACAACTCCCGCGCCCGCGCCATGTACGAGCGGGTCGGCTTCCGGCAGGTCGGAACTTTCGCCACGGTCCTTTTCTGA	MLSRVAPWLASHKDGAAPDGVTVRALGAGDTAGLRDLAGADPVANVFILAHLESTGTAAPTPGGANVLGVFDGDALVGACWAGANLVPVQLAPALAGAVSVAAHRSGRRYASIFGPAPTVLAMHGELEKLGHQAHEVRPDQPLMTIAGPPAVEPNWQLGVGHESDFDTILPACAAMFEEEVGYSPYLGGRDFYSRRVAGLIRQGHSLVHIKDGEVVFKAELGAVTRDVTQVQGVWMNPGYRGLGLSAAYMAAVVLLAQKMAPVTSLYVNDYNSRARAMYERVGFRQVGTFATVLF				NA	NA	NA	NA	NA
D1-17_02639	1167	ispG	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	GTGACCTCGGTCAGCCTGGGAATGCCATCCGCCCCGCCTCCCGTCCTTGCTCCGCGCCGCAAGACGCGCCAGATCAAAGTCGGCCCGGTGGGAGTCGGTTCCGACTCGCCCATCAGTGTGCAGTCGATGACCACCACTCCCACCACGGACATCAACGCCACCCTGCAGCAGATCGCGGAGCTGACGGCCTCCGGCTGTGACATCGTCCGCGTGGCATGCCCTTCCGCGGATGACGCCGAAGCTCTTCCGATCATCGCCCGCAAATCCCAGATCCCGGTCATCGCCGACATCCACTTCCAGCCGAAGTACGTCTTCGCAGCTATTGAAGCAGGCTGCGCCGCCGTGCGCGTCAACCCAGGCAACATCCGCAAGTTCGATGACCAGGTGAAGGAAATCGCCAGGGCGGCGAAGGACCACGGCACGTCCATCCGCATCGGTGTCAATGCAGGCTCGCTGGAGCCCGGCATCCTGAAGAAGTATGGGAAAGCCACTCCGGAAGCACTGGTTGAATCGGCCGTTTGGGAAGCGTCGCTGTTCGAGGAACACGGCTTCCAAGACTTCAAGATCTCGGTCAAGCACAATGACCCCGTCATCATGGTGGCTGCCTATGAGATGCTGGCCGAAAAAGGGGACTGGCCCCTGCACCTGGGTGTCACCGAGGCCGGACCCGCCTTCCAGGGCACCATCAAATCAGCCACGGCGTTTGGCGCGCTGCTGTCCAGAGGCATTGGTGACACCATCCGTGTATCCCTCTCCGCCCCGCCGGTGGAGGAGATCAAGGTGGGAAACCAGATCCTTCAGTCGCTGAACCTGCGTCCACGCAAGCTGGAGATCGTGTCCTGCCCCTCCTGCGGCCGCGCCCAGGTGGACGTCTACACCCTCGCCGAACAGGTGACGGCCGGACTGGAGGGCATGGAGATCCCGCTCCGCGTCGCTGTCATGGGTTGCGTGGTCAATGGTCCCGGCGAAGCACGCGAAGCTGACCTCGGCGTCGCCTCCGGCAACGGCAAGGGCCAGATCTTTGTGAAGGGCGAAGTCATCAAGACTGTCCCCGAGAGCCAGATTGTTGAGACACTGATCGAAGAGGCCATGCGTATCGCAGAAGAGATGGGGGAGGCCGATGGCGAAGATGCTGTCAAGGGTAGCCCCGTGGTTAGCGTCTCATAA	MTSVSLGMPSAPPPVLAPRRKTRQIKVGPVGVGSDSPISVQSMTTTPTTDINATLQQIAELTASGCDIVRVACPSADDAEALPIIARKSQIPVIADIHFQPKYVFAAIEAGCAAVRVNPGNIRKFDDQVKEIARAAKDHGTSIRIGVNAGSLEPGILKKYGKATPEALVESAVWEASLFEEHGFQDFKISVKHNDPVIMVAAYEMLAEKGDWPLHLGVTEAGPAFQGTIKSATAFGALLSRGIGDTIRVSLSAPPVEEIKVGNQILQSLNLRPRKLEIVSCPSCGRAQVDVYTLAEQVTAGLEGMEIPLRVAVMGCVVNGPGEAREADLGVASGNGKGQIFVKGEVIKTVPESQIVETLIEEAMRIAEEMGEADGEDAVKGSPVVSVS	PGPT0007580_1640	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
D1-17_02640	291			hypothetical protein	ATGACTGTTTTTGCTGTTGAGTACGTATATGACGCCGAATCCTCCGACGCCCGCGCAGCCAGCCGCCCTTCGCACCGTGAGTGGACCGCAGGCCTGGCCCAGGACGGCGTTCTCCTCGCCAGCGGACCCTACGGTGACGGCGCAGGCGCGCTTTTGATCTTCAAGGCTGCCGACGAGAGCGCCCTGAATGACATCCTCAAGCAGGATCCCTTCGCCTCCGCCGGCGTCATCTCCGGCACCCGCACAACGGAATGGGTCCCCGTGACCGGCCTCCTCGCCGACCACGCCTAA	MTVFAVEYVYDAESSDARAASRPSHREWTAGLAQDGVLLASGPYGDGAGALLIFKAADESALNDILKQDPFASAGVISGTRTTEWVPVTGLLADHA				NA	NA	NA	NA	NA
D1-17_02641	531			hypothetical protein	GTGAACGCACTCTGGATCGCACTTGCCCTGCTGACGGCAGGTTTCGTTGGCTGGCCGGTGACCGCCCTCGTGTTTAAATTGGCCCGCACCATCGATGACAAGGCCGACGCCGACGCCGGTGTGGTGAGCAGCGGGGACGATCCCTCCGCGGATGTCACGGTAGACCGGGAAAGGCCCTTCGGTTCAGGGACTGAAACGGATGCCGGGAAGGCTGACGGAGGCGACACCAGTGCGGGCAACACGGTGAACGGCGACATTACGGTACCCAGGAAAACTGCTTCCGGGTCCACAACCCGGATCCTGCGGGGAGGGGCCATTATTGGCGTGCTGGAACGCCTGGCCGTGTGCCTTGCCATCCTGGCCGGGCAGCCCGTTGCCATCGCCTACGTTGTGGCGATTAAGGGCCTGGGACGGTTCGCCGAACTAAAGGAGACCCCGGTTGCGGCGGAACGGTTCATCATAGGCACCCTGTCTTCGATGCTGTGGGCAGCCGGGGTGGCAGCGTTTACGAAGGTCGTGCTCCTCGCCTAG	MNALWIALALLTAGFVGWPVTALVFKLARTIDDKADADAGVVSSGDDPSADVTVDRERPFGSGTETDAGKADGGDTSAGNTVNGDITVPRKTASGSTTRILRGGAIIGVLERLAVCLAILAGQPVAIAYVVAIKGLGRFAELKETPVAAERFIIGTLSSMLWAAGVAAFTKVVLLA				NA	NA	NA	NA	NA
D1-17_02642	696			hypothetical protein	ATGTACGTTTTGACCATTGATCAACGTGGCAGCAGTACGGACATCGACCGGGTGCCCGAGTTCCTCGAGGAACTGCACCGTATCTCCCATGGCTTTGAACGTTCAGTGGGGGATGAGGTCCAGGGCGTCCTCAGCGACCCACGAGAGGTCGTGGAAGTGAGCCTTCATGCCCTCCGCAGCGGCCTCTGGTACGTGGGCGTCGGCATCGGGTCGGTGAACGAACCGCAGCCTGTGAGCCCCCGGGAAGGATCGGGGGCAGCGTTCGTTGCGGCACGGCAGGCTGTGGACCGGGCCAAGGCCGCCGGTAGCCACGTCCCGCTGGCGGTTGCTTCCGGGGCTGGCGGCCGTGGTGCCGCTGCAGCGGGAGACGCTGCAGCGGGCGCCAAGGCATGCGCGAACGCCGAAGCAGTCCTGCGGCTCGTGGGCAGGCTGGTTCAGGAGCGTACCGAAGCCCAATGGCGGGTGGTGGACGCGCTCCGTGCCCGGAACGGCCGCGACCCGGGCCGGCACGGACAGCAGAAGCAGGTTGCGAGGGATCTGGGAATCAGCGAGCAGTCGGTGAGCCGGGCAATCATCAGGTCCGGGTGGCAGGAAGAATGGGCGGCGAGGCCCGCAGTGGAAATGCTGCTGGCTACCGCCCACGGGCTGGTTCTGAGAACCTCCAGCCCCGAAGCACCCGACCGAGGAGAACGGTGA	MYVLTIDQRGSSTDIDRVPEFLEELHRISHGFERSVGDEVQGVLSDPREVVEVSLHALRSGLWYVGVGIGSVNEPQPVSPREGSGAAFVAARQAVDRAKAAGSHVPLAVASGAGGRGAAAAGDAAAGAKACANAEAVLRLVGRLVQERTEAQWRVVDALRARNGRDPGRHGQQKQVARDLGISEQSVSRAIIRSGWQEEWAARPAVEMLLATAHGLVLRTSSPEAPDRGER				NA	NA	NA	NA	NA
D1-17_02643	1332	rip1	COG0750	Zinc metalloprotease Rip1	ATGAGCCCCGTCATTCTCTTTATCCTCGGCGTCGTCTTCGTGGCGATCGGCATTGCCGTGTCGATTGCCCTGCACGAAGTGGGCCACCTGCTCCCGGCCAAGCTGTTCAAAGTCCGCGTCACCAAATACATGATCGGCTTTGGCCCCACCCTCTGGTCCAAGAAAAAAGGCGAGACCGAATACGGCCTTAAAGCCCTGCCGCTGGGCGGCTTCGTATCGATGATCGGCATGTATCCGCCCAACAAGGATGACGGGTCCGTGCGCCCGTCCAGTACGGGAATGTTCCAGACCCTGGCCACGGAGGCGCGGTCCATGGCCCATGAAGAGGTGGGTGCGGGCGACGAAAACCGCGTCTTCTACCGGCTTCCCGTATGGAAAAAGATCGTGGTGATGCTGGGTGGGCCCGCGATGAACCTGCTGATCGGCCTTGTGCTGACCGCAGTGCTGCTGATGGGCTTCGGCATTGCAACGCCGACGACGACGATTGCCGACGTTTCGAAATGCCAGGTGAAGGCCGGGGAGACCGTGGACCCCGATTCGGCGGACTGCAAGCTGACCCCCGCTGCCTCTGCCGGGCTGAAGCCAAACGACGTCATCACCTCCTTTGACGGCAAAACCGTGACGGACTGGGCTGAGCTCACAGGATGGATCCGGGCATCGGCCGGACGGGAAGTCACCATCACAGTTGAGCGGGATGGTGCCCCCGTCACCACTACCGTCACCCCTGTCCTGTCCGCCCGACCGGTGATCGGGGAGGACGGACGGCAGGCGAGGGACGGCCAGGGCAACCCCATGTTCCAGGACGTAGGCTTCTTGGGCATCGGTGCCCAGACAGCCCTCGTTGCCCAGCCGGCGTCGTCAGTCCTGCCCATGGCGGGGGAGAACATCCGCCAGATCGCCGGCGTCATCCTGAATCTTCCGGCCCGGGTGGCTGGTGTGGCGCAGGCGGCGTTCAGCGAAGAGCCGAGGGACCCAAACGGCCCGATCAGCGTGGTTGGAGTGGGTCGGGTAGCTGGCGAAGTTGCCGCCATGGAGCAGGTGCCAGTGCAGTCCAGGCTCGCCGCCCTTGTTGGTCTGCTGGCCGGGCTGAACTTCGCCCTGGCGGTTTTTAACCTGGTGCCGCTGTTGCCCCTCGACGGCGGGCACGTTGCGGGAGCGCTGTACGAAGGTCTCCGGCGCCGCGTCGCCAAGCTTTTCGGTAAGCCGGACCCGGGCGCCTTCGATATCGCCAAACTCCTCCCCGTGACATACGTCGTGGCCGTGCTGCTGATGGGCATGGGTGCTTTGCTGATTTACGCCGATATCGTCAAACCGGTCAATCTCTTCGGATAG	MSPVILFILGVVFVAIGIAVSIALHEVGHLLPAKLFKVRVTKYMIGFGPTLWSKKKGETEYGLKALPLGGFVSMIGMYPPNKDDGSVRPSSTGMFQTLATEARSMAHEEVGAGDENRVFYRLPVWKKIVVMLGGPAMNLLIGLVLTAVLLMGFGIATPTTTIADVSKCQVKAGETVDPDSADCKLTPAASAGLKPNDVITSFDGKTVTDWAELTGWIRASAGREVTITVERDGAPVTTTVTPVLSARPVIGEDGRQARDGQGNPMFQDVGFLGIGAQTALVAQPASSVLPMAGENIRQIAGVILNLPARVAGVAQAAFSEEPRDPNGPISVVGVGRVAGEVAAMEQVPVQSRLAALVGLLAGLNFALAVFNLVPLLPLDGGHVAGALYEGLRRRVAKLFGKPDPGAFDIAKLLPVTYVVAVLLMGMGALLIYADIVKPVNLFG				NA	NA	NA	NA	NA
D1-17_02644	1227	dxr	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGCAGACTTCGGGCGCCGGACGTTCCACCAAGCAACCAGCGGGCCACCCGCGCAGAATTGTCATCCTCGGATCCACCGGTTCGATCGGCACCCAGGCGATTGACGTCGTCGACGCCGCCCCGCACCGTTTCGAGGTAGTGGCCCTCAGCGCCGGCGGCGGCAACCTCGAACTCCTTGCGCAGCAGGCCGTGCACACGAGGGCGCACGCGGTGGGCATCGCCTCCGGCGATCCAGGCAGGCTCCGCGAGCTGATTGACGGCGCGGCGCGGGCAGCCGGCCTCCCGTCGTACCGGCCCGAGATCGTGGCTGGTCCTGATGCCTCCACCGCCATAGCCGCGGTGGAAGCGGACGTGGTCCTCAATGGCATCACCGGCTCCATCGGCCTGGCGCCCACCCTGGCTGCCCTGGGCACCGGGGCCACCCTGGCGCTCGCGAACAAGGAATCCCTGATTGTGGGCGGTTCACTCGTCAAGGCCGCGGCCAGGGAGGGCCAGATCGTGCCGGTCGATTCGGAACATTCCGCCATCGCCCAATGCCTGCGCTCAGGGTCCGCCACGGAGGTGGACCGGCTTATCCTCACCGCGTCCGGCGGACCGTTCCGCGGCCGCACCCGGGAGCAGCTCGCTGACGTCACCCCCGACGAAGCCCTGGCACACCCCACCTGGGACATGGGCCTGATGGTGACAACCAACTCCGCGACGCTGGTCAACAAGGGCCTGGAGGTGATTGAGGCGCACCTGCTGTTTGACATCCCGCTGGACCGCATCGATGTGGTGGTTCATCCCCAGTCCGTGGTCCACTCCATGGTGCAGTTCGTGGACGGTTCGATTATTGCCCAAGCCTCCCCGCCGGATATGCGCCTGCCGATCGCCCTCGGGCTGGGCTGGCCGGACCGGGTTCCGAACGCCGCCATGCCGTGCGACTGGAGCCGTGCCGTGAGCTGGACCTTCGAGCCGCTGGACACGGCCGCGTTCCCCGCCGTCGACCTCGCCAAGGATGCCGCGGAGCGAGGGAGTACGTTCCCTGCCGTGTTCAACGCGGCAAATGAGGAAGCCGTCCTGGCGTTCCACGAGGGCCGCATCAGATTCACCGACATTGTGGATACCATCGAAGCTGTGCTCAGTGAACATCCGGGTTCCTCCCGGTTGACGGTCGAGTCCGTGCTCGATGCTGAGAAGTGGGCACGGGCACGCGCCCACGAACGTTTAGCAGTGAGCAGTCTCTAG	MQTSGAGRSTKQPAGHPRRIVILGSTGSIGTQAIDVVDAAPHRFEVVALSAGGGNLELLAQQAVHTRAHAVGIASGDPGRLRELIDGAARAAGLPSYRPEIVAGPDASTAIAAVEADVVLNGITGSIGLAPTLAALGTGATLALANKESLIVGGSLVKAAAREGQIVPVDSEHSAIAQCLRSGSATEVDRLILTASGGPFRGRTREQLADVTPDEALAHPTWDMGLMVTTNSATLVNKGLEVIEAHLLFDIPLDRIDVVVHPQSVVHSMVQFVDGSIIAQASPPDMRLPIALGLGWPDRVPNAAMPCDWSRAVSWTFEPLDTAAFPAVDLAKDAAERGSTFPAVFNAANEEAVLAFHEGRIRFTDIVDTIEAVLSEHPGSSRLTVESVLDAEKWARARAHERLAVSSL	PGPT0007585_1883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
D1-17_02645	1476			hypothetical protein	GTGGACTGGGCCGCCTGGATTGACTGGTTGGACGCGCCGGACTACGAGTTCGCCCGGCAAGTGTTGCAGCGCGGCGTCGCCGGGCTCTTTTTCGTTGCATTCCTCTCTTCTTTTAACCAGTTTCCCGCACTGCTGGGTGAGCGCGGCCTCCTTCCCGTTCCTGACTTTCTGGAGGCCTTCAGCAAGTTCCGGCGGCCCACGCTGTTCCGCTGGCATTACTCAGACCGGCTCCTGCGGGCGGTGTGTGTCGCCGGAATGGTCATCTCCGCGGCCCTCGTTCTGGGGCTCCCCCAGCTTGGGCCGCCTTGGGTGCCACTTATTGCGTTCCTGTCCCTCTGGCTGCTGTACATGTCCATCGTCAATGTCGGGCAGACGTTCTACGGCTTCGGCTGGGAGATGCTGCTGCTCGAAGCCGGCTTCACCGTGGCTTTCCTCGGCTCCGACCAGACGGACCCGCCCCGCACCATCCTGTTCCTCATCGCCTGGCTGGTGTTCCGCCTGGAGTTCGGCGCAGGCATGATCAAGATCCGCGGCGGACGGGAATGGCGGGACCTCACGGCGTTGTATTACCACCACGAGACGCAGCCCATGCCCGGGCCGCTGAGCCGGCAGGCACACCTCCTGCCCAAGCCGTTCCATAAGCTGGAGGTGCTGGGCAACCACTTCGCCCAGCTTGTGGTGCCGTTCTTCCTCTTCGCCCCGCAGCCAATCGCGAGCATCGCAGCTGGCCTCATTATTTTCACGCAGCTGTGGCTCGTGGCCAGCGGCAACTTCGCCTGGCTGAACTGGATCGCCATAGTGCTGGCCTTCGCAGCCGTCAGCGATCCGGTGGCCCATGCAGTGCTGCCCGTCATTCCGCTCGACTGGCATGGCGCCGGTGCCGGCCGCGAAACCCCGCTCTGGTGGCTCGCCATCACCCTGGCGGCGACAGTGCTGCTGGTGGTACTCAGCTACTGGCCCATCCGCAACCTGTTCTCCCACTACCAGCTGATGAACGCCAGTTTCAACCGCTGGCAGCTGGTGAATACCTACGGCGCGTTCGGCACGGTCACTAAGCAGCGGATCGAGGTCGCGGTGGAAGGCACTATGGACGAGGAACCGGACGAGTCCGCGGACTGGCGGGAGTATGGCTTCAAAGGCAAGCCTTGGGATGTGCGCCGGATGCCGCGCCAGTACGCGCCGTACCACCTGCGGCTCGACTGGCTCATGTGGTTCCTGCCGCTGCGAACCGTCCACGAAGAGTGGTTTTACGCGTTCCTCACCAAACTCCTGGAAGCGGACCGAGCGGTACTGCGCTTGCTGCGACATGACCCGTTCGACGGCGAACGCCCCCGTTGGGTGCGTGCCCGCACCTACCTCTACCGTTTCGCAACCCGCGACGAGTTCCGCAAGACCGGCCAGCGCTGGATCCGCACTCCGCTGTATGAGGCCATCCCGCCGCTCTCACTGCGGCGAGCGCCCGGGCGGCGGCCGTAG	MDWAAWIDWLDAPDYEFARQVLQRGVAGLFFVAFLSSFNQFPALLGERGLLPVPDFLEAFSKFRRPTLFRWHYSDRLLRAVCVAGMVISAALVLGLPQLGPPWVPLIAFLSLWLLYMSIVNVGQTFYGFGWEMLLLEAGFTVAFLGSDQTDPPRTILFLIAWLVFRLEFGAGMIKIRGGREWRDLTALYYHHETQPMPGPLSRQAHLLPKPFHKLEVLGNHFAQLVVPFFLFAPQPIASIAAGLIIFTQLWLVASGNFAWLNWIAIVLAFAAVSDPVAHAVLPVIPLDWHGAGAGRETPLWWLAITLAATVLLVVLSYWPIRNLFSHYQLMNASFNRWQLVNTYGAFGTVTKQRIEVAVEGTMDEEPDESADWREYGFKGKPWDVRRMPRQYAPYHLRLDWLMWFLPLRTVHEEWFYAFLTKLLEADRAVLRLLRHDPFDGERPRWVRARTYLYRFATRDEFRKTGQRWIRTPLYEAIPPLSLRRAPGRRP				NA	NA	NA	NA	NA
D1-17_02646	840	citE_2	COG2301	Citrate lyase subunit beta-like protein	ATGACTTTCGTTATGGGTCCCGCCCTGCTTTTCTGCCCTGCCGACCGTCCGGAACGCTTCCAAAAGGCAGCCGAGCGCTCGGACGCCGTCATCCTCGACCTTGAGGACGCGGTGGCCGCTCCTGACAAGCAGCGGGCCCGGGGAGCCATCCTGGCCCAGCTCGCGGGCTCACTGGACGTGCCCGAGCTTGACCCGAGCCGGACCATCGTCAGGGTCAACCCGGCCGGCACTGAGGACTTTGAGAAGGACCTGCACTGCCTGGCCCACACGCCATACCGGACGGTGATGCTTGCCAAGACCGAAAACGCAGCGCAGCTTCGGGCGCTGGAGGGATTCCACGTCATTGCCCTGTGCGAAACGGCCGCCGGAATCATCAACGCCCCTGCCATCGCCGCCGCGCCGAACGTGGTGGCGCTGATGTGGGGTGCCGAGGACCTCCTCGCGTCCCTTGGCGGCACCTCGAGCAGGAAGGACGACGGCGGCTACCGGGCTGTTGCCCTGCAGGCCCGTTCATCGGTGCTGCTGGCGGCCGGAGCCTTCGGCAAGGAAGCCGTGGACGCCGTGTACGTCAACATTCCCGATCTTGAGGGACTTGGAGCCGAGGCCCGCGACGCCGTGGCCTCCGGGTTCAGCTCGAAGGCGTGTATCCACCCGACCCAGGTGCCCGTCGTTCGCGGGGCCTATGCGCCGTCCGAGGCGGACGTGGCTGCAGCCAGACAACTGCTGGAAGCGGCCCATGCGTCCGGCAGCGGGGTATTCCAATACGACGGCAAGATGATCGACGGCCCCATCCTGAAGCACGCGGAATCCACCATCCGCCGGGCAGGCATCAGGGCCTAG	MTFVMGPALLFCPADRPERFQKAAERSDAVILDLEDAVAAPDKQRARGAILAQLAGSLDVPELDPSRTIVRVNPAGTEDFEKDLHCLAHTPYRTVMLAKTENAAQLRALEGFHVIALCETAAGIINAPAIAAAPNVVALMWGAEDLLASLGGTSSRKDDGGYRAVALQARSSVLLAAGAFGKEAVDAVYVNIPDLEGLGAEARDAVASGFSSKACIHPTQVPVVRGAYAPSEADVAAARQLLEAAHASGSGVFQYDGKMIDGPILKHAESTIRRAGIRA	PGPT0019480_2914	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019480-citE-K01644	NA	NA
D1-17_02647	141			hypothetical protein	ATGCCCGCATCCAGCACGGCGCCCAAGCGCGAACGGACACCTAGGCCCCTGACCATGAAGCCCCTGACCATGAAGCCCCTGACCATGAAGCCCCAGACAATGAAGCGCGGACGGAAAAATAATCGGAGAATGGCTGTATGA	MPASSTAPKRERTPRPLTMKPLTMKPLTMKPQTMKRGRKNNRRMAV				NA	NA	NA	NA	NA
D1-17_02648	546			hypothetical protein	ATGAACGGGGTCTCGGCAGGCTCAACCGCCGGCGGTCCCCGGGTGATCGAACAGCGCGGACTGTACTTTGACGAACTCGAGGAGGGCGTACTGTACGCCCACCGCCCGGGCCGGACCGTGACCGAAGCGGATAATGTTCTCTTCACCACCATGACCATGAACACCCAGGGGCTGCACCTGGACGCCGCGTGGAGCGCAGGGCAGCCGTTCGGGCAGCGGCTGGTGAACTCGATGTTTACGCTCGCAACCGTCGTCGGGCAGTCCGTTGCCCAGCTGACCCAGGGCACGATCATCGCACAGCTGGGGCTAACGGACGTGTCCTTTCCCGGCCCCCTGTTCCACGGGGACACGCTGTACACGGAGACCGTCATCACCGGAAAGCGGCTCTCGGGATCCCGTCCGGGCCAAGGGATTGTCACCATGCAGCACACGGGCCGGAACCAGGACGGCGCCGTGGTCGCCTTGGCCACCCGCAGCTGCCTCATGTGGACAAGGGACGCACATGCCCGCATCCAGCACGGCGCCCAAGCGCGAACGGACACCTAG	MNGVSAGSTAGGPRVIEQRGLYFDELEEGVLYAHRPGRTVTEADNVLFTTMTMNTQGLHLDAAWSAGQPFGQRLVNSMFTLATVVGQSVAQLTQGTIIAQLGLTDVSFPGPLFHGDTLYTETVITGKRLSGSRPGQGIVTMQHTGRNQDGAVVALATRSCLMWTRDAHARIQHGAQARTDT				NA	NA	NA	NA	NA
D1-17_02649	747	scoB_2	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGATCCGAACAGCCCCCAGGCTCCCCGCCCCGAAGGTGTCCGTCCCGAATACCGGCGCGCGGCTTCGTCGCATCCCGAAGGCAGGGGATGGACGAGGAACGAACTGGCCGCCCGCGTGGCCCAGGAACTCAGCAACGGACAGTACGTCAACCTGGGCATCGGCATGCCCACGCTGATTCCCAACTACATTCCCGCCGGCGTGGAAGTGGTGCTCCATTCAGAGAACGGGATCCTTGGCGTGGGCCCCTACCCGGGCGAGGACGAGGTGGACCCGGACCTGATTAATGCAGGAAAGGAAACCGTCACTGTCAACAAGGGCGCAGCATTCTTCGACTCATCCCTGTCGTTCGGCATGATCCGGGGAGGCCACGTCGATGTCGCGGTGCTCGGTGCCATGGAGGTGGCCGCCAACGGCGACTTGGCCAACTGGATGATTCCCGGCAAGATGGTCAAGGGCATGGGCGGCGCCATGGACCTGGTCTTCGGAGCGAAGAAAGTCATCGTGATGATGGAGCACGTGGACCGGAACGGCAGGCCCAAGATCGTCGAACAGTGCACCCTGCCGCTGACTGGCAAAGCCTGCGTAGACCGCATCATCACTGACCTTGCGGTGATCGACGTCGTGATCGACGGCGCAGCCCCGCGCCTCGTGCTTCGCGAACTGGCCCCCAACGTCTCCGTCGAGGAAGTAGCGGCCGCCACGGGCGCCGAATTGTTCGAGGAAGACCAGGAACTGACCGTATGA	MDPNSPQAPRPEGVRPEYRRAASSHPEGRGWTRNELAARVAQELSNGQYVNLGIGMPTLIPNYIPAGVEVVLHSENGILGVGPYPGEDEVDPDLINAGKETVTVNKGAAFFDSSLSFGMIRGGHVDVAVLGAMEVAANGDLANWMIPGKMVKGMGGAMDLVFGAKKVIVMMEHVDRNGRPKIVEQCTLPLTGKACVDRIITDLAVIDVVIDGAAPRLVLRELAPNVSVEEVAAATGAELFEEDQELTV	PGPT0008330_18	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
D1-17_02650	783	scoA_2	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGATTGACAAGGTTGTTGCGAGCGCTGCGGAGGCCGTTGCGGATATTCCCGACGGCGCTTCACTCGCTGTGGGCGGTTTCGGGCTGTGCGGTATCCCGGTGGCGCTGATCAATGCCCTGCATGAGCACGGCACCACGGACCTCGAAACGGTGAGCAACAACTGCGGGGTGGATGACTGGGGCCTCGGCATCCTGCTCCGGGACGGCCGCATCCGCCGGACCATCAGCTCCTACGTGGGGGAGAACAAGGAGTTCGCCCGGCAGTACCTGGCCGGTGAACTCGAGGTGGTGCTGACCCCGCAGGGAACCCTGGCCGAGAAGCTGCGGGCCGGCGGGGCTGGCATCCCGGCGTTCTACACCAAGGCTGGCGTCGGTACCCAGGTGTCCGAGGGCGGCCTGCCTCAAAAGTACGACGCCCACGGCGGCATCGCGGTCGCGTCGGCACCCAAGGAAGTCCGGAGTTTCAACGGCGTGGACTACGTCCTGGAAGAGTCCCTGAGACCGGATTTCGGCCTGGTGCACGCGTGGAAGGGCGACCGTCACGGGAACCTTGTTTTTCACGCCACCGCCATGAACTTCAACCCGCTCTGCGCCATGGCGGGGAGGATCACCATCGCCGAAGTCGAAGAGCTGGTGGAACCGGGAGAACTGGACCCCGAACACGTCCACCTGCCGGGAATCTTCGTCCAGCGGGTTGTGGTTGTCCCGCAGGGAGAGAAGCGCATCGAAAAAAGGACGGTGGCCCTGACTGCGGCCGGCGCCCGTGAGCAGGCAGGAGCATAG	MIDKVVASAAEAVADIPDGASLAVGGFGLCGIPVALINALHEHGTTDLETVSNNCGVDDWGLGILLRDGRIRRTISSYVGENKEFARQYLAGELEVVLTPQGTLAEKLRAGGAGIPAFYTKAGVGTQVSEGGLPQKYDAHGGIAVASAPKEVRSFNGVDYVLEESLRPDFGLVHAWKGDRHGNLVFHATAMNFNPLCAMAGRITIAEVEELVEPGELDPEHVHLPGIFVQRVVVVPQGEKRIEKRTVALTAAGAREQAGA	PGPT0008325_89	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
D1-17_02651	1176	acdA_2	COG1960	Acyl-CoA dehydrogenase	ATGGCCGATTTTGAGCTCGGCGAGGAATACCAGGACCTCAGCGACACTGTCCGGGAGTTCGCCGACGAGGTCGTGGCGCCGGTCGCGGCCAAGCACGACGAGGAACACAGCTTCCCGTACGAAGTCATCTCGCAGATGGCGGACATGGGCCTCTTCGGGCTGCCGTTCCCGGAGGAGTACGGAGGCATGGGCGGAGACTACTTCGCGCTGGCCCTCGCGCTGGAACAGCTGGGACGGGTGGACCAGTCCGTGGCGATCACCCTGGAAGCCGGCGTTTCTTTGGGGGCCATGCCGATCCACCGGTTCGGCACTAACGCGCAAAAGGAGGAGTGGCTGCCGCTGCTCGCCTCAGGAAAGGCGCTCGCAGGCTTCGGCCTGACAGAGCCCGAGGCGGGTTCGGACGCCGGCGGCACCAAGACCACGGCGCGGCTGGAAGGCGGCGCAGACGCCAAGAACTGGGTGATCAACGGCAATAAGGAATTCATCAGCAACTCAGGCACGGACATCAGCCGGCTGGTGACGGTGACCGCCGTAACTGGCCAGCACGAACGCAAGGACGGGAGCGTCAAGAAGGAGATCTCCACGATCCTCGTGCCGACCGACACGCCCGGATTCAAAGCGGAAAAGGCCTACAACAAGGTCGGCTGGAACGCCTCGGACACGCACCCCCTGACCCTTAGGGATGTCAGGGTCCCCGAAGCCAACCTGCTGGGACAGCAGGGCCGGGGCTACGCCAACTTCCTGTCCATCCTGGACGAAGGCCGCATCGCCATCGCGGCGCTTGCCACGGGTGCGGCCCAGGGCTGCGTGGATCTGTCAGTGCGGTACGCCAAGGAGCGCCGCGCGTTCGGCAACAACATCGGCAAGTACCAGGCGATCTCCTTCAAGATTGCGCGTATGCAGGCCAGGGCCCATACCGCCCGCCTGGCCTACTACGATGCGGCGGCCAGGATGCTAGCGGGCAAGCCGTTCAAGACCCAGGCGGCCATAGCTAAGATGGTCGCAGGCGAGGCGGCCATGGACAACGCGCGGGATGCCACCCAGGTATTCGGCGGCTATGGCTTCATCAACGAGTTCACTGTGGCACGCCATTACCGTGACTCCAAGATCCTTGAAGTCGGCGAAGGCACCACGGAGGTCCAGCTGATGCTCATCGCCCGGGAGCTCGGGCTCTAG	MADFELGEEYQDLSDTVREFADEVVAPVAAKHDEEHSFPYEVISQMADMGLFGLPFPEEYGGMGGDYFALALALEQLGRVDQSVAITLEAGVSLGAMPIHRFGTNAQKEEWLPLLASGKALAGFGLTEPEAGSDAGGTKTTARLEGGADAKNWVINGNKEFISNSGTDISRLVTVTAVTGQHERKDGSVKKEISTILVPTDTPGFKAEKAYNKVGWNASDTHPLTLRDVRVPEANLLGQQGRGYANFLSILDEGRIAIAALATGAAQGCVDLSVRYAKERRAFGNNIGKYQAISFKIARMQARAHTARLAYYDAAARMLAGKPFKTQAAIAKMVAGEAAMDNARDATQVFGGYGFINEFTVARHYRDSKILEVGEGTTEVQLMLIARELGL	PGPT0002285_547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-17_02652	2286	accA1_2	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGACCGATCAAGCAATCACGACGCCGGCCCCCGTCTCCGGCGCCCCCGCCATGTTCTCCACTGTCCTCGTCGCCAACCGCGGCGAGATCGCGTGCCGGGTCATCCGCACGCTGCGGGCCATGGGCATCCGTTCCGTCGCCGTCTACAGTGATGCCGATCTCCGCGCCCGCCATGTGCAGGAGGCGGACGCCGCCGTCCGGATCGGTCCCGCCGCGGCAGGGGAGAGCTACCTCAAGATCGAGGCCATCATCCGGGCGTGCCGGGAGAGCGGCGCGCAGGCGGTACACCCCGGCTATGGGTTCCTGAGTGAGAACGTCCTGTTTGCCCGGGCACTGGCCGCGGCCGGTATTGCGTTTATCGGTCCGGGTGCCGAAGCCCTCGAAGTCATGGGCGACAAAATCCGGTCCAAGAACCACGTGGCAGGATACGGCGTTCCCGTGGTCCCCGGCGTCGCCGAACCGGGGCTGACGGACGCCGAACTGGTCGACGCCGCGGCGGGCGTCGGGTTCCCGCTACTCATCAAGCCGTCGGCCGGCGGCGGCGGCAAGGGCATGCATATCGTGGAGCGGCCGGAGGATCTCCCGGCCGTCCTGGTGACCGCCCGGCGCGTGGCGGCAGCAGCCTTCGGGGACGACACCCTGTTCCTGGAACGCCTCGTCCAGGCGCCCCGGCACATCGAGGTCCAGGTCCTGGCGGACGCTTACGGCAATGTCATCCACCTCGGCGAGCGCGAATGTTCCCTGCAGCGCCGGCACCAGAAGGTGATCGAAGAAGCACCCTCTCCGTTGCTGGAAGCGCTGCACGACGGCGGCACCAGGCGGGCGCGCATCGGTGATGCCGCCTGCCAGGCAGCACGGAGCGTGCACTACACCGGGGCGGGAACGGTCGAGTTCCTCGTCTCCGACAACGACCCCGACCAGTTCTTCTTCATGGAAATGAACACCCGGCTCCAGGTGGAGCACCCCGTCACCGAAATGGTCACCGGAGTTGACCTCGTCGAATGGCAGGTGCGCATCGCCGCCGGTGAAGCACTCACCGTCGCGCAGGACGACGTCGGGCTTAACGGCCACGCGGTAGAGGCGCGCGTGTACGCGGAGGTGCCGGAACGGAACTTCCTGCCGTCCACCGGTGAGGTGGTGCTGCTCGATGAACACGGCAGCATCTTTACGGCTTTGCCGGAGGCGGGCGGCGCCAGGACTGCCGCCGACCCTCATCTGCGGATTGACTCGGCCCTGCTGCCGGGGCTGGAAATCTCCAGTGACTACGACCCCCTGCTGTCCAAGGTTATTGCCTGGGGCCAGGACCGTCAGTCGGCGCTGGACAGGCTGGACGCTGCGCTCGCCGGGTACACCGTTCTCGGGGTGGGCACCAACGTTGAGTACCTCAGGCTCCTGATTAACGACGCCGACGTCCGCGCCGGGCGTCTGGACACCACGCTCATAGACCGGAAAATGCCGGACCTGGCCTTCCATACTGCAGGGGACGTTGAGATCATCGCTGCGGCCATGCACTTCCGGGCAGCGGCCAGGGGTCCTCAAGGGGTTTCTTCCCCCTGGAATACAGTCCGGGGCTGGCGGCTGGGCAGTCCGGCCCCCTGGCGCATACGCTTCGGCCTGCCCTGCGGTGGCCTCGCCGAAGCATCTGTCACCTGGCTGGGCAACGCGGACGGAGGGCACGCCCTGGTCCGGGTCAATGGGGGACCGCAGTACAAGGTCGTCATCCTTTTGTTGACCAGCAGGTCAATTCACCTGGACGTGGATGGGCAGGAGCACGCCTTCGCCCTCGGATCCCTGGTGGACGGCCGCGGGGATGGCGCCACCGGGAACGACGCCGGCCGGAACGGCGCCGGCCGGAACGGCGCCACCGGGAACGACGCCGCTGGAAAGGAACGGCCGCAGCATGTTTACGTCGGCAGGGGCGGCTGGGCCTGCAGGCTCGACGTGCTCAGCCGGGAAACCTACCTGGAGCGGGTGCTCGCGGCCATGCAACGGGAAGCGGGCACAGCGGACCCCGAAGTGCGTTCGCCGATGCCGGGCACCGTCGTCTCGGTCGCCGTCGTCAACGGCGACACGGTGGAGCCCGGACAGGTGCTCCTCGCCGTAGAGGCCATGAAAATGGAGCACCAGCTGGTCGCCGAGGTGGCCGGTACGGTCCACATCACCGTCGGCGCGGGGGATCTCGTCAAAGCCGACCAGGTGCTGGCGACCATCCATGCGGCGCCGGCTGCCGACGCGCCGGACCAGGATCCTGCCACCGAACGTAAGCCACTGACCGTAAACCACTGA	MTDQAITTPAPVSGAPAMFSTVLVANRGEIACRVIRTLRAMGIRSVAVYSDADLRARHVQEADAAVRIGPAAAGESYLKIEAIIRACRESGAQAVHPGYGFLSENVLFARALAAAGIAFIGPGAEALEVMGDKIRSKNHVAGYGVPVVPGVAEPGLTDAELVDAAAGVGFPLLIKPSAGGGGKGMHIVERPEDLPAVLVTARRVAAAAFGDDTLFLERLVQAPRHIEVQVLADAYGNVIHLGERECSLQRRHQKVIEEAPSPLLEALHDGGTRRARIGDAACQAARSVHYTGAGTVEFLVSDNDPDQFFFMEMNTRLQVEHPVTEMVTGVDLVEWQVRIAAGEALTVAQDDVGLNGHAVEARVYAEVPERNFLPSTGEVVLLDEHGSIFTALPEAGGARTAADPHLRIDSALLPGLEISSDYDPLLSKVIAWGQDRQSALDRLDAALAGYTVLGVGTNVEYLRLLINDADVRAGRLDTTLIDRKMPDLAFHTAGDVEIIAAAMHFRAAARGPQGVSSPWNTVRGWRLGSPAPWRIRFGLPCGGLAEASVTWLGNADGGHALVRVNGGPQYKVVILLLTSRSIHLDVDGQEHAFALGSLVDGRGDGATGNDAGRNGAGRNGATGNDAAGKERPQHVYVGRGGWACRLDVLSRETYLERVLAAMQREAGTADPEVRSPMPGTVVSVAVVNGDTVEPGQVLLAVEAMKMEHQLVAEVAGTVHITVGAGDLVKADQVLATIHAAPAADAPDQDPATERKPLTVNH	PGPT0019850_69	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
D1-17_02653	1608	pccB_2	COG4799	Propionyl-CoA carboxylase beta chain	ATGGAGACACTCGCCAGCCGGCTGGACCCTACCAGCGGGACCTTCGAAGCGAACAGCCTTGCGCAGCGGGCGCTCGCGGCGGAACTCCGCAAGCGGCTGGCCGAAGCTGCCTTGGGCGGACCGGAAAAGTCCCGCGAGCGCCATGTGGCCCGCGGAAAACTGCTGCCGCGGGAGCGAATTGACCAGCTTCTCGATGAAGGCAGCCCCTTCCTGGAGATCGCCCCGCTGGCGGCGAACGGCATGTACAACGACGAGTCCCCGGGCGCCGGACTCATTGCAGGCATCGGGCTGGTCCACGGCCGGCACGTTCTGGTGATCTCCAATGACGCCACCGTCAAGGGCGGCACGTACTATCCCATGACGGTGAAAAAGCACCTCCGCGCCCAGGAGATTGCCTTGGAAAACCGGCTGCCCTGCATCTATCTGGTCGACTCCGGCGGGGCCTTCCTGCCGAAGCAGGACGAGGTCTTCCCGGATAAGGAACATTTCGGCCGGATCTTCTACAACCAGGCGAGGATGTCAGCTGCAAAGATTCCGCAGATCGCGTCGGTCATGGGCTCGTGCACCGCCGGCGGCGCCTATGTTCCGGCCATGAGCGACGAAACGGTGATCGTCAGGAACCAGGGCACCATCTTCCTGGGCGGTCCGCCCCTCGTGAAGGCCGCCATCGGTGAAATCGTCACCGCCGAGGAACTCGGAGGCGGCGATGTCCACTCCCGTATCTCAGGCGTCACCGACCACCTGGCGGAAAACGACGAACACGCCCTGCAGATTGTCCGGGACATCGTCGCCACTCTGCCCGCGCCCGCCGCGCCCGCCTGGCCGGTGGATGCCGCCGCCGAACCGGCCGTTGACCTGGGCGGGCTCTACGGCGCGGTCCCCACGGACGTTAATGCGCAGTATGACGTTCGTGAGGTCATCGCCCGGCTGGTGGACGCCAGCAGGTTCCACGAGTTCAAGAAAAACTACGGCACCACGCTGGTGACCGGGTTCGCGAAGCTGTACGGCCACCCCGTGGGCATCGTGGCCAATAACGGCGTGCTCTTCAGCGAGTCCGCACTCAAGGGGGCGCACTTCATCGAATTGTGCGACCAGCGCGGCATTCCGCTGATCTTCCTGCAGAACATCTCCGGCTTCATGGTGGGTAAGGACTCCGAGCAGGGCGGCATCGCCAAAAACGGGGCCAAGATGGTCACAGCAGTTGCTACCGCCCGGGTGCCCAAGCTGACCGTCGTTATCGGCGGCTCCTTCGGAGCCGGAAACTATTCCATGTGCGGCCGTGCCTATTCCCCGCGCTTCCTGTGGATGTGGCCAGCCAGCCGTATTTCCGTCATGGGCGGCAACCAGGCGGCCAGCGTCCTGGCCACCGTGAAGCGAGACCAGTACGAGGCGGCCGGCCAGGAGTGGCCAGCCGAGGATGAGGAAAGCTTCAAGGCCCCCATCCGGCAGCAGTACGAGGACCAGGGCAGCCCGTACTACTCCACCGCCCGCCTCTGGGACGACGGCGTGATTGATCCCGCAGATACACGCACCGTCCTGGGACTCGCCCTCGACGTTGTCTCCCGCACTGCGCTGCCGGAGACCTCCCTCGGCCTCTTCCGGATGTGA	METLASRLDPTSGTFEANSLAQRALAAELRKRLAEAALGGPEKSRERHVARGKLLPRERIDQLLDEGSPFLEIAPLAANGMYNDESPGAGLIAGIGLVHGRHVLVISNDATVKGGTYYPMTVKKHLRAQEIALENRLPCIYLVDSGGAFLPKQDEVFPDKEHFGRIFYNQARMSAAKIPQIASVMGSCTAGGAYVPAMSDETVIVRNQGTIFLGGPPLVKAAIGEIVTAEELGGGDVHSRISGVTDHLAENDEHALQIVRDIVATLPAPAAPAWPVDAAAEPAVDLGGLYGAVPTDVNAQYDVREVIARLVDASRFHEFKKNYGTTLVTGFAKLYGHPVGIVANNGVLFSESALKGAHFIELCDQRGIPLIFLQNISGFMVGKDSEQGGIAKNGAKMVTAVATARVPKLTVVIGGSFGAGNYSMCGRAYSPRFLWMWPASRISVMGGNQAASVLATVKRDQYEAAGQEWPAEDEESFKAPIRQQYEDQGSPYYSTARLWDDGVIDPADTRTVLGLALDVVSRTALPETSLGLFRM	PGPT0008345_126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0008345-accD-K01970	NA	NA
D1-17_02654	687	mce3R		Transcriptional repressor Mce3R	GTGCCGATCGCAGAACAGGACATGCTCGCCGGGAGCGACCCGTCAGCAGCCCCAACCCTGGCCGAGGGTATCCCGCAGAGCCGGGCAACGCAGCGCAGCCGTGCCAAGGAAACCCGCCGGCAGGCTTTGCTGTCCGCCGCCGCGTCGCTGTTTGCCGTCCACGGGTTCAACAGGGTGTCGCTCGAGGATCTGGGCGCCGCAGCCGGCGTCAGCGGACCGGCGGTCTACCGCCATTTCCCGGGGAAGCAGGCCGTGCTGGGTGCACTCCTCCTGACAGTCAGCCAAGACCTGCTGGAAGGCGGGCGGCATGTGGTGGCTGACGCAGCGGACCCGCCGACAGCTTTGGCCCGGCTGGTCCAGTTCCATGTGGACTTCGCCCTGAGCAATCCGGACGTGATCAGGGTCCAGGACCGGGATTTCACCAACCTCTCTGAGGAAGACCAGGCCCAGGTGCGGGCTTTGCAGCGCAGCTACGTGGAGCTCTGGGTTGACGTGCTGACAGGCATTCACAGCGATACCGACACAGCCGACTTGCGGATGCGCGCCCATGCCACCTTCGGGCTGATCAACTCCACACCCCACTCTGTCCGGAACCATGGCCGCCGGATGGCCGTCAGATCGGCCCGGCCGCTGCTGGAGAACATGGCGCTGGCTGCCCTGACCGCCCCCGGTGCGCCGCCGGCCTAA	MPIAEQDMLAGSDPSAAPTLAEGIPQSRATQRSRAKETRRQALLSAAASLFAVHGFNRVSLEDLGAAAGVSGPAVYRHFPGKQAVLGALLLTVSQDLLEGGRHVVADAADPPTALARLVQFHVDFALSNPDVIRVQDRDFTNLSEEDQAQVRALQRSYVELWVDVLTGIHSDTDTADLRMRAHATFGLINSTPHSVRNHGRRMAVRSARPLLENMALAALTAPGAPPA				NA	NA	NA	NA	NA
D1-17_02655	1434	pdhC_3	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGATCAAGGAATTCCGGCTTCCCGACCTCGGCGAAGGCCTCACCGAGTCGGAGATCGTCAGCTGGAAGGTGAATGTCGGGGATACCGTAAGCCTGAACCAGATCATCGCCGAGGTGGAGACCGCGAAGGCCGTGGTGGAGCTTCCCTCCCCGTTCGCCGGCGTCATTACGGCGCTGCATGAGCAGCCGGGGACCGTCGTGGAAGTCGGCAAGCCCATCGTCTCCTTCGAAGTCGAGGGCGACGACGGCGGGCAGCCTCCCGCCGCAGCTGACGGTGCCGCAGTTGACAGTGCCGCAGCCGCCAAAGGCGGCGCCGAGGTGCGTCCCGCCAAGCGGGAACCGAACCTCGTAGGCTACGGGGCCGTCGTCGAAAGTTCCGGCCATCCGGTGCGCAGGGCACGGAAGCCGGTTGAGCCAGCCCCGCTGGTTGAGCCTGCTGAAACCAAACCTGCCGGACCAAAACCCGCGGGATCCAGGCCTTCGACCACCAAGTCTGCCGAGGGCCAGGACGAGCGCCCACGGTCCACCCCGCCCGTCCGGAAGCTGGCGAAAGACCTGGGTGTGTTCCTTGAGGACATCAAGGGCACTGGCCCCAACGGGCTGATAACCCGCGACGACGTACGGAACTTCGTGGGCGGCGGGGACCTGCCGGCTGCAGCCCATGAGCTCGCAGCCGATGGGATGGCCGCCCGGGAAGCGGCGGCCGGGGAACTTTCTGCGGCCGGCGTGGGCGGTCGCGAAGTGCGCACGCCCATCAAGGGCGTCCGCAAGCTCACAGCAGCCGCGATGGTGACGAGTGCGTTTACGGCGCCCCACGTCACCGAATTCCTCACCGTTGACGTCACGCCGGCCATGGAACTGCTGGCCCGGCTCAAAGCCGCCAAGGCCTTTGAAGGGCTCAGGCTGACGCCGCTGACCCTCGTGGCGAAGGCTGCCCTGATCGCCTTGCGCCGCAACCCCACCCTGAATTCCCGGTGGGACGAAGCCAACCAGGAGATCGTGCAGTTCAACTACGTTAACCTCGGCATTGCCGCGGCTACACCGCGCGGCCTCACCGTGCCCAACATCAAGGACGCCGACCGGATGACTCTTGCAGAACTGTCCGCGGCGCTGACTGGACTGACCGAGACCGCCAGGGCCGGAAAGACGAGCCCGGCGGATCTGTCCGGAGGCACTATGTCAATCACCAACATCGGGACCTTCGGCATCGACGCCGGCACACCCATCCTTAACCCGGGGGAGGCGGCCATCCTGGCTATGGGCGCCGTCCGGAAAATGCCTTGGGAATACCAGGACCAGATCGCCCTTCGGCAGGTCATGACGCTAAGCCTCTCCTTCGACCACCGGCTGGTGGACGGCGAGCAGGGCTCGGGGTTCCTGGCCGACGTCGGAGCTCTCCTGGCTGATCCGGGCATGGCGCTGGCTATGGTCTGA	MIKEFRLPDLGEGLTESEIVSWKVNVGDTVSLNQIIAEVETAKAVVELPSPFAGVITALHEQPGTVVEVGKPIVSFEVEGDDGGQPPAAADGAAVDSAAAAKGGAEVRPAKREPNLVGYGAVVESSGHPVRRARKPVEPAPLVEPAETKPAGPKPAGSRPSTTKSAEGQDERPRSTPPVRKLAKDLGVFLEDIKGTGPNGLITRDDVRNFVGGGDLPAAAHELAADGMAAREAAAGELSAAGVGGREVRTPIKGVRKLTAAAMVTSAFTAPHVTEFLTVDVTPAMELLARLKAAKAFEGLRLTPLTLVAKAALIALRRNPTLNSRWDEANQEIVQFNYVNLGIAAATPRGLTVPNIKDADRMTLAELSAALTGLTETARAGKTSPADLSGGTMSITNIGTFGIDAGTPILNPGEAAILAMGAVRKMPWEYQDQIALRQVMTLSLSFDHRLVDGEQGSGFLADVGALLADPGMALAMV				NA	NA	NA	NA	NA
D1-17_02656	1011	bkdB_5	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	ATGACCCAGCTGACCTTTGCCCGGGCAATAAACTCCGGGCTCCGCAAATCCCTTGAGAACGATCCCAAAGTTGTCCTCATGGGCGAGGACATTGGAACCCTTGGCGGTGTGTTCCGGGTGACGGACGGATTGCAGAAGGATTTCGGCAAGCACCGTGTGATCGACACGCCGCTGGCCGAGTCCGGCATCGTGGGCACCGCGGTGGGACTTGCCTACCGCGGCTACCGCCCGGTCGTGGAGATCCAGTTCGACGGATTCGTGTACCCGGCCTTCGACCAGATCGTTTGCCAGGTGGCAAAGATGCATTACCGCACGAAGGGTGCCGTCAAGATGCCCATCACCATCCGCATCCCGTTCGGCGGCGGCATAGGGTCACCGGAGTTCCACTCTGAATCTCCCGAGGCGTACTTCGCGCACACCCCGGGCCTGAGGGTCATCAGCCCGTCAAGCCCGCAGGACGCGCACACGATGATCCAGCAGGCCATCGCGTGTGATGACCCCGTGCTGTTCTTCGAACCCAAGCGCCGCTACCACGACAAGGGTGACGTGGATGAGTCCCTCGATCCGGGCGCAGCGCTTCCATTCGAGAAGGCCAGGGTGGTGGCCGACGGCCGTGACGTCACGCTGGTCGCCTACGGACCGCTCGTGAAGACCGCCCGCGACGTCGCCCTCGCTGCCGCTGACGAAGGCATGTCCGTCGAAGTCATCGACCTTCGTTCCCTGGCTCCGGTGGATTTCGCCACAGTGGAAGCCTCGGTGCGCAAGACCGGGCGGCTCGTGATTGCCCATGAGGCAGTGCAGTCGGGCGGGCTCGGTGCTGAGATTGCCGCGAGCATCACGGAACGCTGTTTCTACTACCTGGAATCCGCCCCCGTCCGGGTCACAGGGTTCGACGTGCCGTACCCGTATTCGAAGCTGGAGATGCATCACCTCCCTGGGCTGGACAGGATTCTCGACGGCGTTGACCGGGCTCTGGGCCGGCCCAACTCGTTGAGCGGGCTGGAAGGATGA	MTQLTFARAINSGLRKSLENDPKVVLMGEDIGTLGGVFRVTDGLQKDFGKHRVIDTPLAESGIVGTAVGLAYRGYRPVVEIQFDGFVYPAFDQIVCQVAKMHYRTKGAVKMPITIRIPFGGGIGSPEFHSESPEAYFAHTPGLRVISPSSPQDAHTMIQQAIACDDPVLFFEPKRRYHDKGDVDESLDPGAALPFEKARVVADGRDVTLVAYGPLVKTARDVALAAADEGMSVEVIDLRSLAPVDFATVEASVRKTGRLVIAHEAVQSGGLGAEIAASITERCFYYLESAPVRVTGFDVPYPYSKLEMHHLPGLDRILDGVDRALGRPNSLSGLEG	PGPT0008862_1171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
D1-17_02657	1182	bkdA_5	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	GTGGTGACAGACGAGGTGGGCCAGGGCGGTACAACCGCCGGCGGCCCGGGCAACAGTGCAGGACAACAGGGCAGGACCGGCCAGAACCTGGTCCAGCTGATCACTCCCGCAGGGGAACGTGTCAGCCATCCCGAGTACGACCCCTGGGTGCAGGACATTTCAGACGAGCAGTTGTGCTCCCTGTATGAGGACCTGGTGATTACCCGGCGCATCGACACCGAAGCCACAGCCCTGCAGCGGCAGGGTGAGCTTGGACTTTGGCCCCCAATGCTCGGGCAGGAAGCATCGCAGATCGGTTCGGCCAGGGCCCTGCGCGACGATGATTTTGTTTTCCCCACCTACCGTGACAACGGGGTTGCCTACTGCAGGGGGGTGAAGCTGACGGACATCCTCCGTGTCTGGCGCGGCAATGCGTCCGCCGGATGGGATCCCTACACCGTCAACCTGGGAACTCCCCAGATCATCATCGGCTCCCAAACGCTGCACGCCACCGGCTATGCCATGGGCATCCAGAACGACGGCGCTGATTCAGCGGCCATTGCCTACCTTGGCGACGGCGCAACGAGCCAGGGTGATGTCAATGAAGCCATGGTCTTTGCGGCAAGCTTCCAGGTGCCCGTGGTGTTCTTTTGCCAGAACAACCACTGGGCCATCTCCGAACCCGTACGGCTGCAGTCCCACGTCCAGATCGCCGACCGTCCTTTGGGCTTTGGCATTCCCAGCATGCGGGTGGACGGCAACGATGTCCTCGCCGTGATGGCGGCCACTAGGGTCGCCTTGGACAGGGCACGCCGCGGAGGCGGACCCACCTTCATTGAGGCCGTCACCTACCGCATGGGGCCGCACACGACGGCGGACGATCCCACCCGCTACCGGGACGCCAACGAACTTGAGGACTGGGCGCAGAAGGACCCCATCCGCCGGGTTAAGGCCCTGCTCGAGCGGAAGGGCCTTCTCACCCCGGAGCTCGAAACGGCTGTACAGCAAAAGGCGGACGCCGTTGCCCGGGATATGCGCACCGGCTGCACCACCATGCCGGACCCCGAGCCGCTGGACGTCTTCAAGCACGTCTACAGCACGCCGCATTCCTGGCTGGACCGCCAGCAGGACCATTACTCCCGCTACCTGGACTCCTTCGGCGATCCCGCAGGAGCCGCCTCTGAAGAAGGTGCACGCCGATGA	MVTDEVGQGGTTAGGPGNSAGQQGRTGQNLVQLITPAGERVSHPEYDPWVQDISDEQLCSLYEDLVITRRIDTEATALQRQGELGLWPPMLGQEASQIGSARALRDDDFVFPTYRDNGVAYCRGVKLTDILRVWRGNASAGWDPYTVNLGTPQIIIGSQTLHATGYAMGIQNDGADSAAIAYLGDGATSQGDVNEAMVFAASFQVPVVFFCQNNHWAISEPVRLQSHVQIADRPLGFGIPSMRVDGNDVLAVMAATRVALDRARRGGGPTFIEAVTYRMGPHTTADDPTRYRDANELEDWAQKDPIRRVKALLERKGLLTPELETAVQQKADAVARDMRTGCTTMPDPEPLDVFKHVYSTPHSWLDRQQDHYSRYLDSFGDPAGAASEEGARR	PGPT0008861_1319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-17_02658	474	asnC_1	COG1522	Regulatory protein AsnC	ATGCGCGCTTTGGATGGCACAGATACCCGCCTGCTTTCAGCCCTGGCCCAAGACCCGCGGCAGACGGTTGTTGCACTGGCCCAAAAGCTGGGACTGTCCCGGAACACAGTGCAGGCCCGCATGGCGCAGCTCGAAAAGAAGCACGCCTTCCTCTCCTTCGAGCGCCGCATCAATCCGGTTTCTCTGGGGTACCCCCTCATGGCCTTTATTTCTGTCCACGTCCAGCAGCAGAAACTCGGCAGCCTGGCGGAAGACCTGGCCGGCGTACCGGAAATCCTGGAGGGCTACGGGCTCACGGGCTCGGCAGATCTTTTGTTACGGGTGGTGGCGCTCGACGCCGAGGACCTGTTCCGCATTAACGGGAAGATCCTCGCGTGCGACGGTGTAGAGCGGACCGACACGGCACTCGCCATGGGAGAACTGATTCCGTTCCGGATCCGGCCGCTCCTGGACCGCGGTTCCACCGCCGAATAG	MRALDGTDTRLLSALAQDPRQTVVALAQKLGLSRNTVQARMAQLEKKHAFLSFERRINPVSLGYPLMAFISVHVQQQKLGSLAEDLAGVPEILEGYGLTGSADLLLRVVALDAEDLFRINGKILACDGVERTDTALAMGELIPFRIRPLLDRGSTAE				NA	NA	NA	NA	NA
D1-17_02659	567			hypothetical protein	GTGCCACGGCCGCCGGAAAGGCCAGCCTTGAGTAACCCCCAGGACCCCGGGTACGAAGCGCCCGAGCCGCTGCGGCCGCGCCGGAGCAGGTCGTCGCTCCCACCGTCGCCGTTCGGCCTCCCCGGGCAGCCGCCCGCCAAGAGCCGTAAAGGGCTCTGGATTGTGCTGGGGATCGTAGGCGGCGTCCTGCTCTTGGTGGCAGCGGGCGTTCCACTCCTGATGGGCCTCGTTGGCGGTCAAGCGCGCCAGGCATCCGATCTCGCGGACAGCTTCACCAGGCTCGTCATCGCCGGCGACACGCACAAGGCATACGACGAATACCTGGATCCTGCGCTCAAAGAACAGCTGCCGCGGGAGGACTTCGCATCCGGCATCGAGAGCCTGAACCTCGACTCCTCCTGCACCATGATGCTTGACGATCCTCAGCTCAGCGAGGACAGCGGCTCCAGCATTGCCGACGTGGCGGGCGTGATCCAGTGCGGCGGCAAGGACGTCGAGATGGTGTACCGGTTCGCGGGAACGGACGACCTGAAGATGGTGACCATCAGGCTCAAACCAAAAGTTTGA	MPRPPERPALSNPQDPGYEAPEPLRPRRSRSSLPPSPFGLPGQPPAKSRKGLWIVLGIVGGVLLLVAAGVPLLMGLVGGQARQASDLADSFTRLVIAGDTHKAYDEYLDPALKEQLPREDFASGIESLNLDSSCTMMLDDPQLSEDSGSSIADVAGVIQCGGKDVEMVYRFAGTDDLKMVTIRLKPKV				NA	NA	NA	NA	NA
D1-17_02660	405			hypothetical protein	ATGCGCAACTCACCGAACCGTCTCGTCGCCACCGTCTTCGGCGCCGTCTATCTGCTCGTCGGGCTTGTCGGATTTGCCGTAACGTCCGGCGTGGGGTTCTTCGCCACCGAAGGCGCCAACCTCATCATCTTCGAAGTCAACCCCCTCCATAACGTCATCCACCTGGCCATCGGTGCCGCCCTGCTCTACGCAGGCCTCAAGAACGTGCAAATGGCCCGCACCGTCAACGCCGGCGTCGGCGCCGTTTACCTCCTCGTGGGCATCCTGGGCCTCTTCCTGCTCAGCTCACCGCTGAACATCATCGCCCTTAACGGTGCGGACAACGTCCTGCACCTCGCAAGCGCCGTCCTGCTGCTCGGCGTGGGCCTCTCCGTCGAGAAGTCCCCAGTCGCCGCACGCGCCTAG	MRNSPNRLVATVFGAVYLLVGLVGFAVTSGVGFFATEGANLIIFEVNPLHNVIHLAIGAALLYAGLKNVQMARTVNAGVGAVYLLVGILGLFLLSSPLNIIALNGADNVLHLASAVLLLGVGLSVEKSPVAARA				NA	NA	NA	NA	NA
D1-17_02661	717			hypothetical protein	GTGAGGCAGCAAAGCAATCTGCAGAGCAACGCGGTGGCCGTGGTCCGGCTAGTGGCCGGCTTCGCCGGATTTGGCGCAGGGTCAGTCACGCTCGCCATTTCCTCCAGCCTGTTCACCGCTGCAGCCGGCCGCCCGCTTCTGCTGGTCCCGGCGATAGCTACAGCCCTGTGGGGAACCGCCCTTCTCGGGTGGACCGTGGCGGCGCTGCGCAGGGGCAGCTTTCCTTGGCCTCGGCTGTCGTCGGCGCTGCTGCTGACGGCAGCGGCCCTCCACGTGCTGTCCATTATCGGCGGTGGCGGCACTGATCTGGCGGGACTGAACATCAGCCACCTGGCCGCTCTGCTGCTGACGCTGACCATGGTCGCAGCGCAAGCCTGGCTCCGGCGGCAAGCCGGGCTGGGTGATGCGGCCGGCACTGCGTCCGGCACCCTGTCCGCTGGCGCCGGCACCGTCTCCGCTGGCGCTGGCGCCGGCGCCGCGTCTGTCGGCGGTGGCGCCGGGCCTGTCGGTGCAGGTGCCGGCGCCGGGCGGCTGCTTCTGGGAGCTTTCGCCGGAGCCGTCGCCATCGCAGCCATTACGACGCCGGGACTCGCCGCTTCGACGGCAGGACAATTCGCGGTGCCGCACAGCAGTCATTCCGACGGCAGTCATTCCGACGGCGGCCATTCGGTCAGCGGCCATCCGATCGGCGGCAGTGCCGGACACCACGGCCCCTGA	MRQQSNLQSNAVAVVRLVAGFAGFGAGSVTLAISSSLFTAAAGRPLLLVPAIATALWGTALLGWTVAALRRGSFPWPRLSSALLLTAAALHVLSIIGGGGTDLAGLNISHLAALLLTLTMVAAQAWLRRQAGLGDAAGTASGTLSAGAGTVSAGAGAGAASVGGGAGPVGAGAGAGRLLLGAFAGAVAIAAITTPGLAASTAGQFAVPHSSHSDGSHSDGGHSVSGHPIGGSAGHHGP				NA	NA	NA	NA	NA
D1-17_02662	1617	mctC	COG4147	Monocarboxylic acid transporter	ATGATTAACATTCCAACAGCGGTGGACGTCGCCGCGCTCAAGGACACAACCCTCCTCAACATGGGCATCTTCGGCCTGTTCGTCGCGGTCACCATGGTGATCGTCCTGCGGGCAAGCCGGAACAACAAGACGGCCGCTGACTACTATGCGGCGGGCCGGTCCTTCACTGGCTCACAGAACGGCACCGCGATCGCCGGCGACTACCTGTCCGCTGCTTCGTTCCTGGGTATCACCGGCGCCATCGCCATCAATGGCTACGACGGCTTCATGTACTCCATCGGGTTCCTCGTCGCCTGGCTTGTGGCACTCCTGCTCGTGGCCGAACTCCTCCGGAACACCGGCAAGTTCACCATGGCGGACGTGCTGTCCTTCCGCCTCAAGCAGCGCCCGGTCCGCATCGCCGCTGCCATCTCCACCCTTGCCGTCTGCTTCTTCTACCTGCTGGCACAGATGGCCGGCGCCGGCAGCCTGATCTCGCTGCTGCTGGGCATCAGTGACTGGGGCGGTCAGGCGCTCGTCATCATCGTCGTGGGCGCGCTGATGATCATGTACGTCCTGATTGGCGGCATGAAGGGCACCACCTGGGTGCAGATCATCAAGGCCATCCTGCTGATTGCCGGCGCAGCTGTCATGACCCTCTGGGTCCTGGCCATCTACGGCTTCAACCTCTCCACCCTGCTTGGAGCCGCTGTGGATACGGCCAACAATCCGGCCGTGCTGAACCCCGGCCTGCAGTACGGCAAGACCGAAACCTCGAAGCTGGACTTCATGTCACTGGGCCTGGCCCTGGTGCTTGGCACCGCCGCCCTGCCGCACGTCCTCATGCGCTTCTACACCGTGCCCACGGCCAAGGAAGCCCGGAAATCCGTGGTGTGGTCCATCTGGCTGATCGGACTGTTCTACCTGTTCACGCTGGTCCTCGGCTACGGTGCCGCTGCCCTCGTTGGTGCCTCCACCATCAAGGCAGCCCCGGGCGGCGTCAACTCTGCTGCTCCGCTGCTGGCCTTCTACCTCGGCGGCCCGCTGCTGCTGGGCTTCATCTCCGCCGTAGCCTTCGCCACGATTCTCGCCGTGGTGGCCGGACTCACCATCACGGCCGCGGCCTCCTTCGCGCACGACATTTACGCCAGTGTCATCGCCAAGGGGAAGGCCGACGCCGACACCGAGGTTAAGGTGGCCCGGCGGACCGTTGTGGTCATCGGCGTCCTGGCCATCCTCGGCGGCATCCTCGCCAACGGACAGAACGTGGCCTTCCTGGTGGCGCTCGCCTTCGCTGTCGCCGCCTCCGCGAATCTGCCGACGATCATCTACTCGCTGTTCTGGCGAAGGTTCACCACCCAGGGCGCGATCTGGAGCATGTATGGTGGCTTGGCCTCGGCCATCCTGCTGATCGTGTTCTCGCCGGTGGTCTCGGGTTCGGCGACGTCCATGGTCCAGGGGGCCAACTTCGCCATCTTCCCGCTCAGCAACCCGGGCATCGTCTCTATTCCGCTGGCATTCTTCCTGGGATGGCTGGGCACGGTTCTGGACAAGCAGAGGGAGGACACCGTCAAGCAGGCCGAGATGGAAGTCCGCTCCCTGACCGGTGTCGGGGCTGAGAAGGCCGTCGAGCACTGA	MINIPTAVDVAALKDTTLLNMGIFGLFVAVTMVIVLRASRNNKTAADYYAAGRSFTGSQNGTAIAGDYLSAASFLGITGAIAINGYDGFMYSIGFLVAWLVALLLVAELLRNTGKFTMADVLSFRLKQRPVRIAAAISTLAVCFFYLLAQMAGAGSLISLLLGISDWGGQALVIIVVGALMIMYVLIGGMKGTTWVQIIKAILLIAGAAVMTLWVLAIYGFNLSTLLGAAVDTANNPAVLNPGLQYGKTETSKLDFMSLGLALVLGTAALPHVLMRFYTVPTAKEARKSVVWSIWLIGLFYLFTLVLGYGAAALVGASTIKAAPGGVNSAAPLLAFYLGGPLLLGFISAVAFATILAVVAGLTITAAASFAHDIYASVIAKGKADADTEVKVARRTVVVIGVLAILGGILANGQNVAFLVALAFAVAASANLPTIIYSLFWRRFTTQGAIWSMYGGLASAILLIVFSPVVSGSATSMVQGANFAIFPLSNPGIVSIPLAFFLGWLGTVLDKQREDTVKQAEMEVRSLTGVGAEKAVEH	PGPT0001400_2689	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
D1-17_02663	396			hypothetical protein	ATGGGTAATGATGCCCGCACCCCGGACGTCGCGGCGTCCGCGGACTTCGAAGAAGTCCAAGCCACCGAGCAGTTCAAGGAACTGCGCAAGCGCCACCGCAGTTTCGTATTTCCCATGGCTGTCGCCTTCCTGCTGTGGTACTTCGCGTACGTCATCCTGGCCGCCTACGCGGTGGACTTCATGTCCACCAAGGTGTGGGGCAACATCAACATCGGCATCATCATGGGGCTGCTGCAGTTCGTGACCACTTTCGCCATCACTGGCTGGTACGTCAGCTACTCCAACAGGCGCCTGGACCCAATTGCCGCCGGGATCCGCCACGGCATTGAAGGGCACGAATTCGACACGACGGGCGCCGGAGCGTCCGGCAGCGCAACGGGCGGAGCAGCCAAATGA	MGNDARTPDVAASADFEEVQATEQFKELRKRHRSFVFPMAVAFLLWYFAYVILAAYAVDFMSTKVWGNINIGIIMGLLQFVTTFAITGWYVSYSNRRLDPIAAGIRHGIEGHEFDTTGAGASGSATGGAAK				NA	NA	NA	NA	NA
D1-17_02664	1191	btsS	COG3275	Sensor histidine kinase BtsS	ATGCCGGATTCCCCTCTCTATTCCGCGGCGGCCATAGCGCTCATCGCCCTGGCGATTGCCGTCGTCGTCGGCGTCGGACTCAAGGTCCTCAAGTCCTTCCGCGAGCTAGGCACCGACGCGGAACGCGCCACGTACAACACCCTGCATACGGCCTCCAAGGCAGGCCAGCACCTGCGGACCGGACTGAACCCTGCCGGCGCGTCGAAGGCGAGCCGGCAGCTGCGGGGCCTGCTGGGATGCGACGCCCTGGCCATCACCGATGTCTCAGGGGTGCTGGCATGGGACGGCGCGGCCGAGGAACTGAAACCCCGGCTGATGGACCTGGCCGCCGACGTGCTTGCCGGCGGGCGGACGCAGGTGATTGGTGCTGGAGAAGTCCCTGCCCTTGCCATCGGACGTGTCGCAGCCGCCGTCATCGCTCCGATCCGGGCAGGCTCCCGGGTGGTGGGGGTGGTGGCTGCCTTCGCACCGTCCGCCGGCGCCGGCCTGGTCCGGGCCACGAGCGAAGTGGCCGACTGGGTGGCCGCCCAAGTGGAGCTTGCCGAACTTGATGCGTCGCGGACGCTCCTGATGGAGGCGGAGGTGCGTGCTCTGCGCGCCCAGATCAGTCCGCACTTCATCTACAACTCCCTGAACGCCATCGCCTCGTTCATCAATACCGACCCTGTCAGGGCACGTGAGCTGGTGGTGGAGTTTGCGGACTTCACGCGCTATTCGTTCCGGCGGCACGGCGACTTCACCACTTTGGCCGAGGAACTGCGGTGTATTGACAGGTACCTCCTGCTGGAGCGGGCGCGCTTCGGCGAACGTGTCCAGGTGAGCCTGCAGGTCGCGCCGGAAGTGCTGAGCACCGTCATTCCGTTCCTGAGCCTGCAGCCCCTTGTGGAAAACGCTGTACGGCATGGCCTGGAGGCGAAGGAAGGGCCGGGGCACATCACCATTGCTGCCCATGATTCGGGCGCCTTCGCGGAAGTCACCATCGAGGACGACGGCGTGGGGATGGATCCGGTGCAGCTTCAGTCCGTGCTCGCCGGACACACCGACGGGGACCACGTTGGGCTGCGGAACGTGGACTCGCGCCTGCGCCAGGTTTACGGCGACGACCACGGCCTCATCATTGAGACGGCCCCCGGGGAAGGGACCTTGATCACCATGCGGGTCCCGAAGTCCCAGCCGGGCCACGACGCCTGA	MPDSPLYSAAAIALIALAIAVVVGVGLKVLKSFRELGTDAERATYNTLHTASKAGQHLRTGLNPAGASKASRQLRGLLGCDALAITDVSGVLAWDGAAEELKPRLMDLAADVLAGGRTQVIGAGEVPALAIGRVAAAVIAPIRAGSRVVGVVAAFAPSAGAGLVRATSEVADWVAAQVELAELDASRTLLMEAEVRALRAQISPHFIYNSLNAIASFINTDPVRARELVVEFADFTRYSFRRHGDFTTLAEELRCIDRYLLLERARFGERVQVSLQVAPEVLSTVIPFLSLQPLVENAVRHGLEAKEGPGHITIAAHDSGAFAEVTIEDDGVGMDPVQLQSVLAGHTDGDHVGLRNVDSRLRQVYGDDHGLIIETAPGEGTLITMRVPKSQPGHDA	PGPT0026305_1403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026305-lytS|ypdA|yehU-K02478	NA	NA
D1-17_02665	720	lytR	COG3279	Sensory transduction protein LytR	ATGATTAACGTCCTCGTCGCCGACGACGAGCTGCCCGCCATTGAAGAACTCGCCTTTTTGCTGGGCAAGGATGAACGCATCGGCGCCATCCACCGGGCTTCTTCCGGGAATGAAGCATTGCGCGCGCTGGAGACCGAGGCGGTGGACGCCGTCTTTCTCGACATCCATATGCCCGCTGTCTCAGGCCTGGATATCGCGCGGGTGATCGCCCGCAGCAGCCGCCCGCCCGCCGTCGTCTTTGTCACCGCGGACGAGGACTGCGCACTTGAGGCGTTCGAACTCGCCGCCGTGGACTACCTCCTGAAACCCGTGCGCGCTGAGCGGCTGGCCCGCTCCGTGGGGCGGATCAGTGAACTGATCCGCGACGGCGGCGCGGCGCCCGAGATGATCACCGTGGACCAGGGCGGCACGACCAGAATGATCAGGCGCGACGACGTTACCTACGTCCAGGCGCAGGGCGACTACGCCCGGCTCCATACGGCAGACGCCAGCTACCTGATCCGCGTGCCCCTGGCCGATCTTGAACAGCAGTGGGCGGACGCAGGCTTCATCCGCATCCACCGTTCCTACCTTGTTGCCCTGTCCCACATCACGCACCTGAAGCTGGGGACGGCACGGCCCGGCGTCATGGTCGAAGCTGCCGAACTGCCGATCAGCCGCCGCCATCTTCCGTCCGTAAGGGATAAGCTCGAAGCCACGCGGATAAGGCCGCAGGCATGA	MINVLVADDELPAIEELAFLLGKDERIGAIHRASSGNEALRALETEAVDAVFLDIHMPAVSGLDIARVIARSSRPPAVVFVTADEDCALEAFELAAVDYLLKPVRAERLARSVGRISELIRDGGAAPEMITVDQGGTTRMIRRDDVTYVQAQGDYARLHTADASYLIRVPLADLEQQWADAGFIRIHRSYLVALSHITHLKLGTARPGVMVEAAELPISRRHLPSVRDKLEATRIRPQA	PGPT0026304_580	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026304-lytR|ypdB|yehT-K02477	NA	NA
D1-17_02666	363			hypothetical protein	ATGACGCGGGTCAGGGTGACTGCCCCCCGCTCGGTGGCGCGCCCCGCCGTCGACTTCCGCGGGACCGCGGAGGAATCAGCCGTGGGCCAGGTCTTTGTCCGGTCCCTGATCCGCTCGCAGCTCAGGCTGGCCCTGGTGGTGGCAGGAGGTTTCGTGCTGATTGTCGGCGCCTTTCCGCTTCTGCTGGCGGCCTTTCCGGGACTGGCGGAATCCACGGTGGCCGGCATCCCCTTTGACTGGCTGCTGCTCGGTGCCGGGATCTACCCTGTGACGGGGATCAGTGCCTGGCTGTACATTCGCAGCGCCGCCCGGAACGAGGCCCGCTACCGCGATCTTGCCCGTGCTCTTAGCGGGGACCGGTGA	MTRVRVTAPRSVARPAVDFRGTAEESAVGQVFVRSLIRSQLRLALVVAGGFVLIVGAFPLLLAAFPGLAESTVAGIPFDWLLLGAGIYPVTGISAWLYIRSAARNEARYRDLARALSGDR				NA	NA	NA	NA	NA
D1-17_02667	1494	actP		Cation/acetate symporter ActP	GTGCTCTTAGCGGGGACCGGTGACTGGGCGGTGAACCCTGCAGTAGGAATCACCGCCTTTGCCGCCGTCACCGCGGCCACAGCGGTTTTTGGTTTTTACGGGCTCAGGATTTCCCGCACCACCGGGGACTTTTATGTGGCTTCGCGCACCGTTCCGCCCTGGTGGAACGCCTCGGCGATCGGCGGCGAGTATCTCTCCGCCGCGAGCTTCCTGGGCGTTGCCGGACTTATCCTGCTTTCGGGCACGGATGCCCTGTGGTTCCCCGTGGGCTACACCGCCGGCTACCTGATGCTCCTGCTGTTCGTGGCCGCTCCGCTGCGGCGCTCCGGGGCGTACACCATCCCGGACTTCACCGAGGCACGGCTCGATTCGCGTGCCGCGCGGCTGGTGACCAGCCTTGCGGTGGTGATCGTGGGCTGGCTCTATATCGTGCCCCAGCTGCACGGCGCCGCGCTCACCATCAGGACCACGACGGGCCTGCCCTCGTGGGTGGGCTCGACCGCCGTCGTGGTGGTGGTAGTCCTGACGGTGGTAGCCGGCGGGATGCGCTCCATCACCTTCGTGCAGGCATTCCAGTACTGGCTCAAGCTCACCGCGCTGGCCGTGCCGCTGGTCTTCATCCTCCTGGTCCTGAGAGATAACGGCGCGCCTGCTGCGGCCGCCGCGGACGTGAACCCCACGGGCCTGGCACCCGCTGGGCCCTACCAGAACATCTCGTTGCTGGTCGCCCTGCTGTTTGGAACGCTCGGGCTGCCCCACGTGCTGGTCCGCTTCTACACCAATCCGGACGGGCAGTCAGCCCGCAGGACCACGCTGATCGTGCTGGGACTGCTCTCGGTCTTTTACCTTTTCCCCACCGCTTACGGGCTCGTGGGCCGGATGTTCGCTCCCGGCCTTGCCCAGGCCGGCCAGGCAGACGCCGTGGTCCTGCTGCTGCCCGGACGGCTCATTGGCGGACCGGCAGGGGAACTCATGTCCGCCTTCGTGGTGGCGGGGGCCTTCGCCGCTTTCCTCTCGACGACGTCCGGTCTTGTCGTCTCGCTGGCCGGGGTTATCAGCCAGGACGTGCTGGGCGGCAGCGTGCGGGGATTCCGCCTCGCCGCGCTGGTTTCCGCTGCGGTTCCGCTGGCCGTGGCGTTCATCACAGACTCGTTGGCCCTGGCCGGCAGCGTCGGACTCGTGTTCGCTTTCACTGCCTCCACCATTTGTCCGGTGCTGCTGCTGGGCATCTGGTGGCGGGGGCTTACCGACGCCGGGGCCATCGCCGGGATGGCGACCGGCGGCCTGCTCTGCGGCGGGGCGATGGTGGCGGGGGCTGCCCTGGGTGCCGGCACCCCCGTCTGGCTTGCGCAGCCTGCGGCGTGGACTGTTCCGGCTGCCTTCGCCGTCATGGTCCTGACGTCGCGTGCCACGAAATCACGGGTTCCACACACCATCACGAAGGTGATGACGCGGCTCCATACTCCGGAAAGACCACTGGCTACGGGGCGGTAA	MLLAGTGDWAVNPAVGITAFAAVTAATAVFGFYGLRISRTTGDFYVASRTVPPWWNASAIGGEYLSAASFLGVAGLILLSGTDALWFPVGYTAGYLMLLLFVAAPLRRSGAYTIPDFTEARLDSRAARLVTSLAVVIVGWLYIVPQLHGAALTIRTTTGLPSWVGSTAVVVVVVLTVVAGGMRSITFVQAFQYWLKLTALAVPLVFILLVLRDNGAPAAAAADVNPTGLAPAGPYQNISLLVALLFGTLGLPHVLVRFYTNPDGQSARRTTLIVLGLLSVFYLFPTAYGLVGRMFAPGLAQAGQADAVVLLLPGRLIGGPAGELMSAFVVAGAFAAFLSTTSGLVVSLAGVISQDVLGGSVRGFRLAALVSAAVPLAVAFITDSLALAGSVGLVFAFTASTICPVLLLGIWWRGLTDAGAIAGMATGGLLCGGAMVAGAALGAGTPVWLAQPAAWTVPAAFAVMVLTSRATKSRVPHTITKVMTRLHTPERPLATGR	PGPT0001400_3381	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
D1-17_02668	585			hypothetical protein	GTGACAGTGGAGAGCAATCGGCAAGTTGCCGGGTCGTTTGAGCGTGTGGCCCGCTCCGAATACGGCTACAACGCCAAGCAGGTGGATCAGTTTCTGCAGCGCGCCCGCGTATCGCTCGAGACGCCGGAGGCTGCCGCCCATCCCGTGAAAAGCTTCGACGTCCGCGCCGTGTCCTTCGATCCGGTCAAGGGCGGCTACTCGGCCACCGCCGTGGATGCCGCGCTGGATCGCCTCGAGGATGCCTTCGCCCGCCGCGAGCGGGACGAACTCATCGCCGAACAGGGGGAGGAGGCCTGGCTGCGCCAGATTGGGCAGCTTTCCGCCTCCCTGCGCGGCCGACTCCACCGGCCCGACGGCGAGCGGTTCCGCCGCCCGGCGAAGAAGAAGGCCCGCAGCTACAACATCAAGGACGTGGACCGGCTCTGCGTCGACCTCATCGGCTACCTCGAGGAAGATAAGCCGCTCAGCGTCGACAACGTACGCCGGGCTGTGTTCCGGCCGGCAGTAGGCCAGTCCGGCTACGAGGAAACCCAGGTGGACGCATTCCTGGACCGCGTCGTCGAACTCATGGCAGCCATCGACTGA	MTVESNRQVAGSFERVARSEYGYNAKQVDQFLQRARVSLETPEAAAHPVKSFDVRAVSFDPVKGGYSATAVDAALDRLEDAFARRERDELIAEQGEEAWLRQIGQLSASLRGRLHRPDGERFRRPAKKKARSYNIKDVDRLCVDLIGYLEEDKPLSVDNVRRAVFRPAVGQSGYEETQVDAFLDRVVELMAAID	PGPT0014806_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
D1-17_02669	933	cdsA	COG0575	Phosphatidate cytidylyltransferase	ATGGGGCAGGCACAGCAGGCCCCCGGAGCGCGGGACCGACCCCAGTCCCGGCAGCTCCGGCAGCCAAAGCCCAACCCGACGCCCGGCGCAGGGCGCAACCTGCCGGCGGCGACCGCCGTCGGACTTTCCATGCTCTTCGCGGTGCTGGGCGGGCTTCTTTTCTTCCCGCTTGGCTTCGTCGCCATCACCACCACCTTTGCCGTGTTCGGTGTGTGGGAGATTTTCCGCGCCCTGGAAGCGAACGGCACTCGCCTGCCCATCGTGCCCGTCATGGTGGGCACGGTCGCGATGCCTTTTGCCGCCTACTTCGGCGGACGGGAAAGCCTGCTGTTCGCCATGCTGGCCAGCAGCGTCGCAGTGCTGCTCTGGCGCTCCATCGAAAGTGCCGTCGGTTCGGCGCGCAGCATCTTTGCCGGCGTTTTCACCCTCGCCTGGGTTCCCTTCCTGATAAGCTTCTCTGCCCTGCCGCTGCATGTTGCAGGGGGAGTGACGCCTGTTGGACTGTGGCCGGGCGGCGCCGTTCCGGACGGCGCCTGGCAGGTGGTCATCCTGCTCCTGCTGGTGGTTTCCAATGACACATTCGGGTACCTGGTGGGAGCGTCGCTGGGCAAGCACCCCATGGCGCCCAAGATCAGTCCGAAGAAAACGTGGGAGGGTTTCGCAGGATCCATCGCCGGCGCGACGCTGATTGGTGTCCTGGCCTGCATGTTCGTGCTCGAAAAACCCTGGTGGGTGGGGGTTGTCCTCGCCGTGGGGATGGTGGCAGCGGCGACCGCCGGCGACCTCGCGGAATCCATGGTCAAGCGTGAGCTCGGCATCAAAGACATGAGCAGCATCCTTCCCGGGCACGGCGGAGTGATGGACCGGCTGGACTCGATCGTCTTCGCCTCCCCGGTGGCATATCTGCTGTTCGTCCTCGTGTCCGGCGCCTGA	MGQAQQAPGARDRPQSRQLRQPKPNPTPGAGRNLPAATAVGLSMLFAVLGGLLFFPLGFVAITTTFAVFGVWEIFRALEANGTRLPIVPVMVGTVAMPFAAYFGGRESLLFAMLASSVAVLLWRSIESAVGSARSIFAGVFTLAWVPFLISFSALPLHVAGGVTPVGLWPGGAVPDGAWQVVILLLLVVSNDTFGYLVGASLGKHPMAPKISPKKTWEGFAGSIAGATLIGVLACMFVLEKPWWVGVVLAVGMVAAATAGDLAESMVKRELGIKDMSSILPGHGGVMDRLDSIVFASPVAYLLFVLVSGA	PGPT0007685_1886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
D1-17_02670	558	frr	COG0233	Ribosome-recycling factor	GTGATCGAAGAAACCTTGCTCGAAGCCGGGGACAAGATGGACAAGGCGGTTGAGGTAGCCAAGGAAGACTTCGCCTCGATCCGGACGGGCCGGGCCACCCCGGGCCTCTACAACAAGGTGATGGTGGACTACTACGGTACGCCGACGCCACTTCAGCAGCTGGCATCCTTCGCGGTGCCGGACGCGCGCACCATCCTCATCACGCCCTACGACAAGACGGCGCTGCGGGACATTGAGCGCGCGCTCAGTGATTCTGAAGTGGGCGCCAACCCGTCCAATGACGGCAACGTCATCCGGGTCACCATCCCGGAGCTCACGCAGGAGCGCCGCAAGGAATACGTGAAGATCGTGAAGTCCAAGGGCGAAGAGGCAAAGGTCTCGATCCGCAACATCCGCCGCAAGGCGAAGGAAACCCTGGACCGCCTGGTCAAGGACGGCGAAGCCGGCGAGGATGAGGGGAACCGCGGCGAAAAGGAACTCGACGCCATCACCAAGCAGCACGTCGACGGCATCGATGAGCTGCTCAAGCGCAAGGAAGCAGAGCTGCTCGAAGTCTGA	MIEETLLEAGDKMDKAVEVAKEDFASIRTGRATPGLYNKVMVDYYGTPTPLQQLASFAVPDARTILITPYDKTALRDIERALSDSEVGANPSNDGNVIRVTIPELTQERRKEYVKIVKSKGEEAKVSIRNIRRKAKETLDRLVKDGEAGEDEGNRGEKELDAITKQHVDGIDELLKRKEAELLEV				NA	NA	NA	NA	NA
D1-17_02671	738	pyrH	COG0528	Uridylate kinase	ATGGAAGCCGTTAATACTTCAGTCCAGTCAGGGAAAAACAGGCGGCGGGTCCTCCTGAAGCTCTCCGGTGAGGTCTTCGGCGGCGGAAAGCTCGGCGTCGATCCGGACACTGTTCGCGGTGTCGCCAAGCAGATCGCCGCAGCCGTTCCCGACGTCGAAGTCGCCATTGTGGTGGGCGGCGGCAACTTCTTCCGCGGAGCCGAACTGTCCCAGAGCGGTATGGACCGCTCCCGCGCCGACTACATGGGCATGCTCGGGACAGTCATGAACTGCCTCGCCCTGCAGGACTTCCTCGAGCAGGCAGGCGTTGAAACCCGCGTTCAAAGCGCCATCACCATGGGCCAAGTGGCCGAGGCCTACATTCCGCGGCGCGCCATCCGCCACATGGAGAAGAACCGCGTGGTCATCTTTGGCGCAGGCGCCGGCCTTCCCTACTTCTCCACGGATACGGTTGCAGCCCAGCGCGCCCTGGAAGTCCACGCCGACGTCGTTCTGATGGCCAAAAGCGGGGTGGACGGTGTGTACACCGCCGACCCCAAGAAGGACCCGATGGCCGAGAAGCTGGAAAAGCTCAGCTACGACGAGGCCCTCCGCCGCGACATCCGGGTCATGGACCAGACCGCGATGACCATGTGCAAGGACAACAACCTCTCCATGGTGGTGTTTGGCATGGAGGGTGAAGGCAACGTCACCCGGGCCATCCGTGGCGAGCAGCTGGGAACGCTGGTCACCCCCTAG	MEAVNTSVQSGKNRRRVLLKLSGEVFGGGKLGVDPDTVRGVAKQIAAAVPDVEVAIVVGGGNFFRGAELSQSGMDRSRADYMGMLGTVMNCLALQDFLEQAGVETRVQSAITMGQVAEAYIPRRAIRHMEKNRVVIFGAGAGLPYFSTDTVAAQRALEVHADVVLMAKSGVDGVYTADPKKDPMAEKLEKLSYDEALRRDIRVMDQTAMTMCKDNNLSMVVFGMEGEGNVTRAIRGEQLGTLVTP	PGPT0021205_1195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
D1-17_02672	837	tsf	COG0264	Elongation factor Ts	ATGGCGAACTACACTGCCGCTGATATCAAGGCTCTGCGCGAGCGCACCGGCGCCGGCATGATGGATGTCAAGAAGGCTCTCGACGAGGCCAACGGCGATGCCGAGAAGGCGATCGAGATCATCCGCATCAAGGGTCTGAAGGGCGCCACCAAGCGCGAAGGCCGCTCCACCGCCGAAGGCCTGGTTGCTGCCAAGGTCAACGGCAAGGTCGGCGTAATGATCGAGGTCAACTGCGAGACCGACTTCGTCGCCAAGGCTGACAAGTTTATCCAGCTCGCCGACAAGGTCCTGGCGGTCGCTGTCGAGTCCGGTGCCGCCGACCTTGAGACCCTGCTCGCAACCGACGTGGACGGCAAGCCGCTCTCCGAGGTTGTTGTCGAGGAAGGCGCCGTTCTCGGTGAGAAGGTAGTGGTCCGCCGCATCTCCCGCATCGAGGGCGCCACGGTCGACGCTTACCTGCACAAGACCTCCAAGGACCTTCCGGCCCAGGTTGGCGTCCTGTTCGCCGTTGACGGCGAAGGTGAAGCTGCTGCCACCGCAGCCCACGACGTTGCAGTCCACATTGCCGCCATGGCCCCGAACTACCTCTCCCGCGAGGATGTTCCGGCTGACCTGGTCGAGTCTGAGCGCCGCATCGCCGAGGAGACCGCCAAGGCAGAGGGCAAGCCCGAGGCTGCCCTGACCAAGATCGTGGAAGGCCGCGTCACGGGCTTCTACAAGGGTGAGGTGCTGCTCGACCAGGCCTTCGCCAAGGATGCCAAGAAGACTGTGGCCCAGGTCCTCGAAGAGGCCGGCGTCAAGGGAACAGCCTTCACGCGTTTCCGCGTCGGCTCCTAG	MANYTAADIKALRERTGAGMMDVKKALDEANGDAEKAIEIIRIKGLKGATKREGRSTAEGLVAAKVNGKVGVMIEVNCETDFVAKADKFIQLADKVLAVAVESGAADLETLLATDVDGKPLSEVVVEEGAVLGEKVVVRRISRIEGATVDAYLHKTSKDLPAQVGVLFAVDGEGEAAATAAHDVAVHIAAMAPNYLSREDVPADLVESERRIAEETAKAEGKPEAALTKIVEGRVTGFYKGEVLLDQAFAKDAKKTVAQVLEEAGVKGTAFTRFRVGS				NA	NA	NA	NA	NA
D1-17_02673	879	rpsB	COG0052	30S ribosomal protein S2	ATGCCCGTCGTAACCATGCGCCAGCTGCTTGACAGCGGCGTCCACTTTGGACACCAGACCCGCCGTTGGAACCCGAAGATGAAGCGCTTTATCTTCACCGAGCGCAACGGCATCTACATCATTGACCTCCAGCAGTCGCTGTCCTACATCGACCGCGCCTACGAGTTCGTCAAGGCCACCGTTGCCCATGGCGGCACCGTGCTCTTCGTCGGCACCAAGAAGCAGGCCCAGGAAGCAATTGCCGAGCAGGCAACCCGCGTTGGCCAGCCGTACGTCAACCAGCGTTGGCTCGGCGGTATGCTGACCAACTTCCAGACGGTTGCCAAGCGTATCCAGCGAATGAAGGAACTCGAAGAGATTGACTTCGAGGACGTCGCCGGTTCCGCTTACACCAAGAAGGAACTGCTGCTGCTCCGCCGCGAGCTGACCAAGCTTGAGTCCAACCTGGGTGGTATCCGCAACCTCACCAAGGCTCCCTCCGTGCTGTGGATCGTGGACACCAAGAAGGAGCACCTGGCCGTTGACGAAGCCAAGAAGCTCAACATCCCGGTTGTGGCCATCCTGGACACCAACTGCGATCCGGACGAAGTTGACTTCCCGATCCCGGGCAACGACGACGCCATCCGCTCCGTGAACCTGCTGACCCGCGTTGTTGCTGACGCTGTTGCTGAAGGCCTGATCGCCCGCAACCAGCGTGCAACCGGCACCACCGAGACTCCGGAAGAGCCGCTGGCCGAGTGGGAGCGCGAGCTCCTCGAAGGCAACAAGTCTGAGGCTGCTGCAGCCGAAGCTCCGGCTGCCGAAGCACAGGCCGCTGAAGCTGCTCCCGCCGCCGAGGAAGCCCCGGCTGCCGCCGAGGGCACCGACGCCGAGAAGTAA	MPVVTMRQLLDSGVHFGHQTRRWNPKMKRFIFTERNGIYIIDLQQSLSYIDRAYEFVKATVAHGGTVLFVGTKKQAQEAIAEQATRVGQPYVNQRWLGGMLTNFQTVAKRIQRMKELEEIDFEDVAGSAYTKKELLLLRRELTKLESNLGGIRNLTKAPSVLWIVDTKKEHLAVDEAKKLNIPVVAILDTNCDPDEVDFPIPGNDDAIRSVNLLTRVVADAVAEGLIARNQRATGTTETPEEPLAEWERELLEGNKSEAAAAEAPAAEAQAAEAAPAAEEAPAAAEGTDAEK				NA	NA	NA	NA	NA
D1-17_02674	564			hypothetical protein	ATGAATACCCGCATCCTGCCCGCTTTCCTTGCGCTTGCGGCGGCCGCCGCCGCCCCGTCGGCTGCCTGGCCATCCCCAGACGCGCCGGAATTCCGGGCGGCAGTACCAGCGGGCAGGCTCGCGCCTGCCGCTGCAGCCGCTGCGGCAGGCGCGTGGGCGTGGCCGCTGGCGCCCCGGCCCGCCGTGTTGCGGCCTTTTGATCCGCCGGACCAGCCCTGGCTGAGCGGCCACCGCGGCGTGGATTTAAAGGCAGCATCCGAGGGCGGCACGGTCACTTCACCGGAATCCGGCACCATCAGCTTTGTGGGAGTCGTGGTGGACAGGCCGGTCATCACAGTGGATCACGGCAACGGCCTGCGCAGCAGTTTCGAACCGGTCCGCAGCACCCTGGCCAAAGGTGACACGGTAGGCAAGGGAGATGCTTTGGGAACGTTGGCCACCGGCCACTGCGGGGCAACTCCCTGCGTGCACTGGGGTGTGCGCAACGGAGAGGACTACGTGAACCCGCTGGGGTTCGTAATGGATCTGCGGCCCTCCATTCTGCTGCCGCTGCGGGAGGGATGA	MNTRILPAFLALAAAAAAPSAAWPSPDAPEFRAAVPAGRLAPAAAAAAAGAWAWPLAPRPAVLRPFDPPDQPWLSGHRGVDLKAASEGGTVTSPESGTISFVGVVVDRPVITVDHGNGLRSSFEPVRSTLAKGDTVGKGDALGTLATGHCGATPCVHWGVRNGEDYVNPLGFVMDLRPSILLPLREG				NA	NA	NA	NA	NA
D1-17_02675	1017	mmgC_2	COG1960	Acyl-CoA dehydrogenase	ATGGAACTGATTCCCAAGCTGGCTGAGATCGATTTTGTGAGCCCCGTGCGCCGGCAGGGCCGCTCGAACCTCTTCGCGGGCATCGTTCATGCCGAAGTCACCCGCGCAGACACCTCAATTGCCACCTTCTTGGGAGTTCACGACGGACTGTTCACCGGCTCCATCGAGGCGCTGGCTTCGATCGAGCAGCAGGACGCCTGGCTGCCGGATATTTACTCCCTCAGGAAGATCGGGGCCTTCGCCCTGACGGAACCGCTGGGCAGCTCCGACGTCGCGGGTGGCACGCGCACGACGGCCCGGCGCGATGGCGACCAGTGGATCCTCAACGGCGCCAAGCGTTGGATCGGCAATGCCACGTTTTCGGACTGGGTGGTGGTTTATGCCCGGGATGTGTCCGACAACCAGGTCAAGGGATTCCTCGTGGACACCGCCCTGCCCGGATTCACCGCCACCAAAATCGAGAACAAGATTTCGCTGCGCACGGTCCAGAACGCGGACATCACCCTCCAGGATGTGTCCGTTCCGCACTTTTGCAAGCTGGCACATGCCAACAGCTTCCGGGACGCCAACAAAGTGCTCAAAGTCACGCGGCTCGCCGTGGGCTGGCAAGCTGTGGGCCAGCAGCTGGCCGCGTTCGGTGTGGCCCGCCGCTACGTCCTCGAGCGCCGCCAGTTCGGCCGCCCGCTTGCCTCCTTCCAGCTGGTGCAGAGCCAGCTGGTGCAGATCCTGGGCAATGCCGTCAGTTCCCTGGGGATGATGGTGCGCCTTTCCCAGCTTCAGGATGCCGGGCAGGCCAGGGATGAGCAGTCTGCCCTGGCCAAGGCCTTCACCACCGCCCGCATGCGCGAGAGCGTGGCCATCGGCAGGAGCCTGCTGGGCGGAAACGGCATAGTGACCGACTTTGAGATGGCCAAGATCTTCGCCGATGCAGAGGCCATCTACTCCTATGAGGGCACGCACGAGGTGAACACGCTGGTCGCCGGGCGCGCCATCACCGGCGTCTCGGCCATCGTTTGA	MELIPKLAEIDFVSPVRRQGRSNLFAGIVHAEVTRADTSIATFLGVHDGLFTGSIEALASIEQQDAWLPDIYSLRKIGAFALTEPLGSSDVAGGTRTTARRDGDQWILNGAKRWIGNATFSDWVVVYARDVSDNQVKGFLVDTALPGFTATKIENKISLRTVQNADITLQDVSVPHFCKLAHANSFRDANKVLKVTRLAVGWQAVGQQLAAFGVARRYVLERRQFGRPLASFQLVQSQLVQILGNAVSSLGMMVRLSQLQDAGQARDEQSALAKAFTTARMRESVAIGRSLLGGNGIVTDFEMAKIFADAEAIYSYEGTHEVNTLVAGRAITGVSAIV	PGPT0021815_1407	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
D1-17_02677	1197	mshA_6		D-inositol-3-phosphate glycosyltransferase	GTGACAAGACCCGATGCCCAGCGCCCACTGACCGTCCTGATTGCGGCCGACACCTACCCGCCCCACGTCAACGGAGCAGCCCAGTTCGGCTACCGGCTGGCCAAAGGCATGACGGGCCGGGGACATAATGTCCATGTCCTCGCCTGCCGCCAGGACAAGGGCAAGAGCTTCACGGAGTTCCGCAAGGAAGCCACAGTCCACCGCCTGCGCTCCCACGGCGTCTTCACGCACGAGTATTTCCGGATCTGCTTTCCCTGGGAGATCAAGAAGGAGATCAGCCTGCTTTTTGAGAAGGTGCAGCCGGACGTGGTCCACATCCAGAGCCATTACATGATCGGTGAGCACGTGCTGTACGAAGCCGTGAAGCGCGGCATCCGCGTGGTCGCCACAAACCACTTCATGCCCGAGAACCTCAATCCCTTCCTGCCCTTCCCGCAGTGGTTCAAGGACATCATCGGGAAAATCTCGTGGCGGGACATGGGCAAGGTAATGGGCAAGGCCGACGTCGTGACGACTCCTACACCGCTTGCGGCCAAGGCCATGCACCAGCACGCCTTCCTGCGGAAGGTCCTGCCGCTTTCCAACGGCATCGACTCCACTGCCTACGAACTCAAACCGGGCGAGGTCATCGAGCCCCACGCCAACCCGACCGTCCTCTTTGCCGGACGCCTGGCCGAGGAAAAGCACGTGGACGTGCTGATCAAGGCAGTGGCTGCCGTCCCGGCAGACCTGAACGTCCACCTGGAGATCGTCGGGGGAGGCGAGGTGCGTCCGGCCCTGGAAGCGCTTGTCGAGCGGCTCGGCCTGCAGGACAGGGTGAAGTTCATGGGCCTTGCCAGCGATGAGGATCTTCGCCGGGCGTATATCAGGGCAGACATCTTCTGCATGCCGGGAACGGCCGAACTGCAGTCCCTGGTGACCCTTGAAGCGATGTCCGCGTCCACTCCGGTTCTGCTGGCCAATGCGATGGCCCTGCCGCATCTCGTGCGCGACGGCGAAAATGGCTACCTCTTCACGCCGAATGACAGCAAGGATCTGGCGGGGAAGATCACGCGGATTCTGCGGCTGCCGGCGGAGGAGCGCAAGGCGATGGGCCAAGCAAGCCGCTGCATGGTGGAGCCGCACAGCATCCAGGGCACCCTGCAGACATTCGAGGACCTCTACCGTGGCGCGACCTACGACGACAAGGTCGTCTAG	MTRPDAQRPLTVLIAADTYPPHVNGAAQFGYRLAKGMTGRGHNVHVLACRQDKGKSFTEFRKEATVHRLRSHGVFTHEYFRICFPWEIKKEISLLFEKVQPDVVHIQSHYMIGEHVLYEAVKRGIRVVATNHFMPENLNPFLPFPQWFKDIIGKISWRDMGKVMGKADVVTTPTPLAAKAMHQHAFLRKVLPLSNGIDSTAYELKPGEVIEPHANPTVLFAGRLAEEKHVDVLIKAVAAVPADLNVHLEIVGGGEVRPALEALVERLGLQDRVKFMGLASDEDLRRAYIRADIFCMPGTAELQSLVTLEAMSASTPVLLANAMALPHLVRDGENGYLFTPNDSKDLAGKITRILRLPAEERKAMGQASRCMVEPHSIQGTLQTFEDLYRGATYDDKVV	PGPT0023395_599	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023395-mgs|bgsB-K19002	NA	NA
D1-17_02678	909			hypothetical protein	ATGGTGTGGCTTGCGGTTTTCCTGGCCGTACTGGGCGCGTTTTTCCTGGCCTTTGGTGCACAACGCCAAGGCAGTGCCGTGAAGGCCGACACCGGCGGGCTGGCCCTCAGCTCCAACGGTTTCCTCCGTCTGCTGCGGAACCCCCGGTGGGTTCTCGGGCTCCTGCTGCTCTGTATCGGCATGGGCATGAACGCCGTCGCGCTGGTTTCCGCCCCGCTGACCGTGGTGCAACCGATCGGCGCGATTGCTCTTGTCATCACCACGGTGGTCAACGCCAGGGACCAGGGGCTGAGCATCAACCGGGCCACAGTGGTGGCCATCTCCGCTTGCGTGACCGGTTCAGCCCTGTTCGTCCTGCTCGCCGTCTTCGTCACTCAGGAAAACCACCACGTTAATTCCGACGACGAACTCGCCATCGTGCTGCTGCTCGCTTTGGCGGTGGGCCTCTTTGGCACGCTGGCGGCCACGTTCAAGAACCGCATGAGCGCCTTTATCTACATCCTTGGCGCGGGCATTTTGTTCGGTTTTGTGGCGGTGCTGACCAGGATCATCGGAAAGCACCTGCTCGATCCGAACGGGCAGGCCCTCCTGAACGTGCCTTGGTATTCGCTGGTCGCTATCCTGGCGGCGGGTGGGTTGGGCTCCTGGTTTGTGCAGAGTGCTTACTCCACCGGACCGCCGGACCTCGTCATTGCTGGGCTGACCGTTATCGACCCCATTGTGGGAATCGCCATCGGCATCATCATCCTGGGGGAATTGCGGCCTGACGTCCACGCCGTCATGGCCATTGCCATGGGTACTGCTGCATCCCTTGCTATCGTGGGGGTAATCGCCCTCTCCCGGCATCATCCCGAGGTCACCAAGCGGAAGAAGGACGCTCGGAAGGCCGCGGGCAGGGCGCCCCACTAG	MVWLAVFLAVLGAFFLAFGAQRQGSAVKADTGGLALSSNGFLRLLRNPRWVLGLLLLCIGMGMNAVALVSAPLTVVQPIGAIALVITTVVNARDQGLSINRATVVAISACVTGSALFVLLAVFVTQENHHVNSDDELAIVLLLALAVGLFGTLAATFKNRMSAFIYILGAGILFGFVAVLTRIIGKHLLDPNGQALLNVPWYSLVAILAAGGLGSWFVQSAYSTGPPDLVIAGLTVIDPIVGIAIGIIILGELRPDVHAVMAIAMGTAASLAIVGVIALSRHHPEVTKRKKDARKAAGRAPH				NA	NA	NA	NA	NA
D1-17_02679	621	pgsA2_2	COG0558	Putative cardiolipin synthase	ATGAGGTTCATCGGGGCTGGTTCCCGTCCCGGCCAGCCGCACGTCGACCGCGACCTGGTCTTCACCGTCCCCAATCTCCTGACAGTTCTGCGCTTTATGGGCGTACCGCTGTTTATCTGGCTCGTCCTGGCGCAACGCGAGTACGGCTTTGCCGTGCTGGTGCTTGCCATCATGGGGAGCACAGACTGGGTGGACGGCTACATCGCCCGGCGGTTCAACCAGGCCTCGAAGTTGGGGCGCGTCCTGGACCCCATCGCGGACAGGCTGGCGCTGATCGCTGTAGCCGTGACGCTGGTGATCGCGGGCGTGCTCGACTGGTGGTACCTTACGGCACTCCTCATTCCGGACTCCGTGTTGCTCGCGATGTCGCTGTTTTACTTCCACAGCCACCCGGATCTTCCGGTCAGCCTGATCGGCAAGACGCGCACCGCCCTGCTGCTGCTGGGCACGCCACTGCTGTTGCTGTCACAGCTGGATACCCCTTCCGCCGGTGCCTGGTTCGTTGCGGCGTGGATCGTGCTCGGCCTTGGGCTGGTGGGCCACTGGGTGGCCGCCTACAACTACTTCTGGGCTATCCGCCGCAAAGGCAAGATGCGGGCCGGCAACGGCGGTGGCAGCTGA	MRFIGAGSRPGQPHVDRDLVFTVPNLLTVLRFMGVPLFIWLVLAQREYGFAVLVLAIMGSTDWVDGYIARRFNQASKLGRVLDPIADRLALIAVAVTLVIAGVLDWWYLTALLIPDSVLLAMSLFYFHSHPDLPVSLIGKTRTALLLLGTPLLLLSQLDTPSAGAWFVAAWIVLGLGLVGHWVAAYNYFWAIRRKGKMRAGNGGGS	PGPT0007735_861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007735-pgsA-K08744	NA	NA
D1-17_02680	960			hypothetical protein	ATGAGCGGGCGTCACAGCGGGCGGGCCAACAAGGGGTTGCGTGTCACCACGCTGCCGAAAACGTTGAAGCTCATCTTCAAACTGGCGCCGCGCCAGCTTAATGACGAGATCGCGATGGCTAAGTTCGAGGTCAAGCGCAAGGGCAAGCAGCTGGGCGTGGCCGGAGCCTTCTTTGGCGTTGCCGCTGTCTTCCTGGCTTTCCTGCTGACCGGGCTGATCGTCGCCGCCATTATGGGGCTCGCCACCATCATGCCGGCCTGGCTCGCGGCGCTTCTGGTGTGCGCGGTCTTCCTCCTGATCGCCCTGATCGGCGGGCTCGTAGGCCTCCGCAAGTTCAAGAAGGCAATGCCGCTGATACCCGCTGAGACCGTCCGCGGTCTCAAGCATGATCTCGGTGTTGCCAAAGAAGGCTCGGACTTTGACGCGGCGGTCCTGGACCCCAACTCGCCGCAGGCGAAGGCGGCCAAGGAAGCCAAGGCTGCTGCCAAGGCACAGGCCAAGGCGGAGAAGGAAGCCAAGGCGGCTGCAGAGCACCTCGAAGTCCCTGCCGTTTCCGAACCTGAGGTCCACCGCCGCCTGAAGCAGCGTCGCGAACACCTCACCGCCGTACGCGATGACCTTGGCGAAGAACTGGATGTCAGGACCCAGGCGCAAGCCCTGCTCGGCGTGGCCAGGCACCGGCTGGATGAGGGCAGGGACAAGATCAAGGACAGCAAGGACCGCGTGGGTGAAAGGTTCGCTGCCCGTTCGGCCGCCAGATCCTCCGAACCCGGGGCCTCCGCCACGGCACCGTCGACCTTTGGATCCACCACTGGATCGTCCCTGTCCGGGTCATCCTCTGCAGACGGCGTGGTACGTTCCCTGCCCGAAGAGCTGGAATCCCGCTGGAAGCCCCTCGTGGCGTTCGTCGCATCCACTGCTGTGATGTTTACCCTGTTGCGGAAACTGTTTAAGAACTGA	MSGRHSGRANKGLRVTTLPKTLKLIFKLAPRQLNDEIAMAKFEVKRKGKQLGVAGAFFGVAAVFLAFLLTGLIVAAIMGLATIMPAWLAALLVCAVFLLIALIGGLVGLRKFKKAMPLIPAETVRGLKHDLGVAKEGSDFDAAVLDPNSPQAKAAKEAKAAAKAQAKAEKEAKAAAEHLEVPAVSEPEVHRRLKQRREHLTAVRDDLGEELDVRTQAQALLGVARHRLDEGRDKIKDSKDRVGERFAARSAARSSEPGASATAPSTFGSTTGSSLSGSSSADGVVRSLPEELESRWKPLVAFVASTAVMFTLLRKLFKN				NA	NA	NA	NA	NA
D1-17_02681	1221	bcr_1		Bicyclomycin resistance protein	GTGACCGCTATCAATCCCGGCGATGCCCTGAGCCGACGCGAAAAATTCCTTTACATCCTCCTTCTCGGTGCCCTCACGGCTCTGGGACCCTTCACGGTAGACCTTTACCTGCCGGCCTTCCCCGCCCTGGAGACGAGCCTCGACGTGTCAGAAGCTGCGGTCCAGCTGACGCTGACCGGCACCACGGTGGGCTTCGCCCTGGGACAGCTGGTGGTGGGTCCCTTCAGCGACAAGTTCGGGCGGCGGGCGCCTCTGATATTGGCGACGGCGCTGCACATCGCGTCCTCGCTCGGAGCCTCGCTTTCCACGGACATCGGCACACTCGGACTGTTTCGGGTCCTCATGGGAATCGGAGCTGCAGGCGGAGGGGTCGTGGCGATGGCCATGGTCCGGGATCTGTTCAGCGGCTACGCCATGGTGCGGATGTTCTCCCGCATGGCGCTGGTCAACGGGCTGGCTCCGATCCTGGCACCCGTCATCGGATCGCAGCTGCTCCTGGTGATGGAGTGGCCGGGCATCTTTGTGTTCCTCGCCTGTTACGGCGCGACGGTGATCACTGCCGCGATATTCCTGGTCCGTGAGACGCTGCCGCGCGAGCTCCGGGGGAAGTCGGGCCTGACCGCCCGCCAGAGGTACGGGGTGCTCTTCGCTGACCGGATATTCGTCGGCCTGCTGCTGGTAGGCGGCATGAACTTCGGAGGCCTGTTCACCTACCTCTCCGCTTCCCCCTTCCTGTTCCAGGACATCTTCGGCTTCACTCCCCAGCAGTACGGCCTGCTGTTCGGCGTGAATTCCTTGGGCATCGTGGCCGGGGTCCAGACCAGCTCGCGGTTGATCAAGCTCGTGCCGCCGCAGTGGATCATCGCCGGCTCCACCGCCTGGATGTTCCTGATGGCCCTCCTGATCGTCCTCTTTGACCAGTTGGGGTTCGGGCTCTGGGGTGTCCTGGTTCCGCTGTGGTTCTACATTCTCGGCACCGGGTTCACGTTCCCGTGCGTACAGGTCCTGGCGCTGGCCAAGCACGGCGCACAGGCCGGTACAGCGGCCTCCCTGCTGGGCGCCTCCACCTTCCTGATGGCAGGCATCATCTCGCCGGTGGTGGGCTGGGTGGGCGGCAGCTCCGCCACACCCATGGGCGCTGTCCAGGCCTGCTGCATCTTCCTCGCAGCAACGGCGCTGTGGATCATAGTCCGCCCCAGGACCGTGCCATCGATTCACTAG	MTAINPGDALSRREKFLYILLLGALTALGPFTVDLYLPAFPALETSLDVSEAAVQLTLTGTTVGFALGQLVVGPFSDKFGRRAPLILATALHIASSLGASLSTDIGTLGLFRVLMGIGAAGGGVVAMAMVRDLFSGYAMVRMFSRMALVNGLAPILAPVIGSQLLLVMEWPGIFVFLACYGATVITAAIFLVRETLPRELRGKSGLTARQRYGVLFADRIFVGLLLVGGMNFGGLFTYLSASPFLFQDIFGFTPQQYGLLFGVNSLGIVAGVQTSSRLIKLVPPQWIIAGSTAWMFLMALLIVLFDQLGFGLWGVLVPLWFYILGTGFTFPCVQVLALAKHGAQAGTAASLLGASTFLMAGIISPVVGWVGGSSATPMGAVQACCIFLAATALWIIVRPRTVPSIH	PGPT0029005_1162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
D1-17_02682	180			hypothetical protein	ATGACCCGCAAGCCGCACCGCAACGGACGAGGGCTCTTCCTGGGAGCCGTCCTTGGTGCCGTTGCGGGCTTCTTTTTCGGCCGTGCCATGGGCAATGCCGCCCTCGGCGTCATCCTCGGAGCCGTTGTAGGTTCTGCCTTGCTCTACCGGGTCAACCCCGGACCCTGGAACCGGAACTGA	MTRKPHRNGRGLFLGAVLGAVAGFFFGRAMGNAALGVILGAVVGSALLYRVNPGPWNRN				NA	NA	NA	NA	NA
D1-17_02683	339			hypothetical protein	TTGTGGTGGGACCGGCTGTGCACACAGACCAGTGCGCAGTCGGCAGCTCTGTATGCGGCGGGCCTGTTTACGGAAGACCGGCGCCGTCCGATAGCGCAGTGGTACAACCCGGCAGCCAACGCCGCCCTTCTCGTGGCCCCGGAGACCTCGCCGGAATGGCCGGTGCAGCGTTTCGGTATCTTCTATGCTCCGCCGGACACAGGCTTCACCCGCGTGCATTCATCGCCGCATGAGTGGCATCCCCGCCAGCCCCGCACGCCGCCCACCGAGAGCGAGGCTTTCGCCGCGGCCGTGGCCGAGGCCGAGCGCTTCCTCGAAGTGGAGATGGATTTCGTCTGA	MWWDRLCTQTSAQSAALYAAGLFTEDRRRPIAQWYNPAANAALLVAPETSPEWPVQRFGIFYAPPDTGFTRVHSSPHEWHPRQPRTPPTESEAFAAAVAEAERFLEVEMDFV				NA	NA	NA	NA	NA
D1-17_02686	1866	dnaG	COG0358	DNA primase	GTGGCCGGCCTGATCAAACGTGAAGACATCGACGAGGTCCGTCAGCGCACAGACATCAAGGAAGTCGTCGACGCCTACGTCACGCTCAAGAGCGCAGGCCTTGGTTCGTTCAAGGGCCTGTGCCCCTTCCATGACGAGCGTTCGCCGTCATTCACGGTGCGGCCGCAGGTGGGCCGCTACCACTGTTTTGGCTGCGGCGAAGACGGTGACGTCATCTCGTTCGTGCAGAAGCTGGACCACACGTCCTTCCACGAGGCGGTGGAGAAGCTGGCCGCGCGGATCGGCTACGAGCTCCGGTACGAGGACGGCGGCACGGGTCCCAGCCGGGAAGAGGTGGGCAAGCGCCAGCGGCTGCTGGATGCCCATAAGATTGCGGACGAGTTCTTCCGCGGCCAGCTGCTGACGACAGGTGCCACTGAAGGACGCCGGTTCCTGCAGCTGCGGGGTTTTGACCGGGCGGCCGCCGAGCACTTCGGCGTCGGCTACGCACCCCAGGGCTGGGACGCCCTGCTCAAGCACCTGCGCGGGCGGGGCTTCACGGATGCGGAGTTGAAGCTGACCGGAATGTTTTCGGAAGGCAATAGGGGCCTTTACGACCGCTTCCGTGGCCGGCTGATCTGGCCCATCCGGGACATCGCCGGGGACACCATCGGCTTCGGCGCACGCAAGCTCTACGAGGACGACCAAGGCCCCAAGTACCTCAACACGCCCGAGACCACGCTCTACAAGAAATCCCAGGTGCTGTACGGCATCGACCTCGCCAAGCGGAACATCGCCAAGGACCGGCAGCTGGTGGTGGTGGAAGGCTACACGGACGTCATGGCGTGCCACCTCGCGGGAATCACGACGGCCGTGGCCACGTGCGGTACCGCGTTCGGCGCCGACCATATAAAAGTCGCCCGCCGGCTGCTGTCCGACGACGGCACTGGGGGAGAAGTCATCTTCACCTTTGACGGGGACGCCGCCGGGCAGAAGGCGGCCCTGCGGGCCTTTGAAGAGGACCAGCGTTTCGTGGCGCAGACGTACGTCGCTGTGGAACCGACCGGTGCTGACCCCTGCGATCTGCGCCAGACGCGGGGTGACGCTGCAGTCCGTGAATTGATCGGCTCCCGGCGGCCGCTGTTTGAGTTTGCCATCCGCGCCACGCTGAGAAGGCACAACCTGGACACTGTGGAGGGCCGGGTGGCAGCCCTGCGGGAGTCCGCTCCCGTCGTGGCGCAGATCCGGGACGCCGGAATCCGACCCGCATACGCCCGGGAACTGGCTGGGTGGCTGGGGATGCCCATCGAGGACGTCTCCCGGGCCGTTGCGTCCGCTGCCAAACGGGAAGCCGCTCCTGGAGCTCCCGGTGTTGCTGCCCTCCCCCCATCGGGCGTTCTCCCGTCCTTCAACCGCCCGGATCCGCGGGACCCGGTGGCGTCCATGGAGCGGCAGGCTCTTGAAGTGGCGCTGCAGGAGCCGGCGATGCTCGGCGGCGGGTTCTGGGAGAGGTTCTGCGCTGTGCGGTTCGTCACTCCCGCGTACCAGGCCATCCACGACGCCATCCGCGCCACGGGGCTGGCGTATGCCGGTGATCCGGTGATGTGGGTGGAGCAGCTCCGCCAGGAGGTGCCGGAACCGCTGCAGCCGCTGGTTTCGGAGCTGGCCGTGGTCCCGCTGCCCGCACATACAGTCGAAGCCGTGCAGAAGTACTGCCGGGACATCCTTGCCCGGTTGTTCGAACTCCAGATCACCCGCATCAAGTCCGACAAGATGGGGCAGCTGCAGCGCCTGGACGCCGCCGCCCACCCTGAGGAGTTCCAGCAGCTCAACCGGGAGCTGATGATGCTTGAAATGGAACGTCGGGCACTGCGCTCCGACGCCTGA	MAGLIKREDIDEVRQRTDIKEVVDAYVTLKSAGLGSFKGLCPFHDERSPSFTVRPQVGRYHCFGCGEDGDVISFVQKLDHTSFHEAVEKLAARIGYELRYEDGGTGPSREEVGKRQRLLDAHKIADEFFRGQLLTTGATEGRRFLQLRGFDRAAAEHFGVGYAPQGWDALLKHLRGRGFTDAELKLTGMFSEGNRGLYDRFRGRLIWPIRDIAGDTIGFGARKLYEDDQGPKYLNTPETTLYKKSQVLYGIDLAKRNIAKDRQLVVVEGYTDVMACHLAGITTAVATCGTAFGADHIKVARRLLSDDGTGGEVIFTFDGDAAGQKAALRAFEEDQRFVAQTYVAVEPTGADPCDLRQTRGDAAVRELIGSRRPLFEFAIRATLRRHNLDTVEGRVAALRESAPVVAQIRDAGIRPAYARELAGWLGMPIEDVSRAVASAAKREAAPGAPGVAALPPSGVLPSFNRPDPRDPVASMERQALEVALQEPAMLGGGFWERFCAVRFVTPAYQAIHDAIRATGLAYAGDPVMWVEQLRQEVPEPLQPLVSELAVVPLPAHTVEAVQKYCRDILARLFELQITRIKSDKMGQLQRLDAAAHPEEFQQLNRELMMLEMERRALRSDA				NA	NA	NA	NA	NA
D1-17_02687	1329	dgt	COG0232	Deoxyguanosinetriphosphate triphosphohydrolase-like protein	ATGTGTCCGGTGGGTGAGAGCCGGCTGGCGGAGAGCCAGCCTGTCCCCGCCCGGGGGCTGTCGCTGTCCCTGCCCGGCTACGGGGCGCACGATTCCGCGCGCTGGGTGGAGGAGCCGCCGAAAAGCACCTACCGGTCCGACTTCGAGCGCGACCGGGCGCGGGTGCTGCATTCCTCCGCGTTGCGGCGCCTGGGTGCCAAGACGCAGGTGGTCGCGCCGGACACGGACGACTTTGTCCGCACCCGGCTGACCCACAGCCTCGAAGTCGCCCAGGTGGGCCGCGCGCTCGGCCGTGCGCTGGGCTGCGACCCGGACGTGGTGGACACCGCCTGCCTCAGCCATGACCTCGGGCACCCGCCCTTCGGGCACAACGGCGAATCCGCGCTGAACGAGATGGCGCATGCGATCGGCGGCTTCGAAGGCAACGCCCAGACGCTGCGGCTGCTCAGCCGGCTCGAGCCTAAAGTGCTGGATGCGGACGGCCGGCCCGCAGGCCTGAACCTGACCCGGGCCAGCCTCGACGCCGCCGCAAAATACCCGTGGTCAGCACTGGACGCCCCGGTGATCCACGGCCAGCGCACCAGCAAGTTCGGTGCCTACGAGGACGACCTGCCCATCTTCAACTGGATCCGGGAGGGGGCGCCCGTCCGGCGGTCCTGCCTCGAAGCCCAGGTCATGGACCTCGCCGATGATATCTCCTATTCCGTGCACGACGTCGAAGACGCCATTGTTGCCGGGCACTTCCAGCTGCGCTGGATGGACAACCCGGACCACCGCGCCCGCGTGGTGGGCTACACCCGGCAGTGGTACCTGCCGCACAACGACCCTGCGGCCATCGACGCGGCCCTGGCCCGGCTCGAGGCTACGGACGTGTGGGTGCGCGAAGCCGACGGCAGCCGCAAAGCCATGGCCGCCCTGAAGGACATGACCAGCCAGCTGATCGGCCGCTTCTGCCAGAGTGCTCTGGAGACCACCCGGGCCGTGTACGGGCCGGAGAAGCTGACGCGTTACAACGCCGAACTCATCGTCCCGGACGAGACTGTCCTGGAGATCGCGGTCATGAAGGGCCTGGCCACCACGTTCGTCATGACAACAGACCACCGCCAGCCGATCTATGAGCGGCAGCGCGAAGTCCTCCATGCCCTCGTGACCACGCTGAACGCCTCCGGGGACCGCCACCTGGAGCCGATGTTCGCAGCAGACTGGCGTGACGCGCCCGACGACGGCGCCCGGCTCCGCGTGGTCATCGACCAGGTAGCGTCGCTCACGGATGGTTCCGCGCTGGCGATGTACGAACGGCTCGTGGGAAGTTTGCCGTCGCTGTGGTGA	MCPVGESRLAESQPVPARGLSLSLPGYGAHDSARWVEEPPKSTYRSDFERDRARVLHSSALRRLGAKTQVVAPDTDDFVRTRLTHSLEVAQVGRALGRALGCDPDVVDTACLSHDLGHPPFGHNGESALNEMAHAIGGFEGNAQTLRLLSRLEPKVLDADGRPAGLNLTRASLDAAAKYPWSALDAPVIHGQRTSKFGAYEDDLPIFNWIREGAPVRRSCLEAQVMDLADDISYSVHDVEDAIVAGHFQLRWMDNPDHRARVVGYTRQWYLPHNDPAAIDAALARLEATDVWVREADGSRKAMAALKDMTSQLIGRFCQSALETTRAVYGPEKLTRYNAELIVPDETVLEIAVMKGLATTFVMTTDHRQPIYERQREVLHALVTTLNASGDRHLEPMFAADWRDAPDDGARLRVVIDQVASLTDGSALAMYERLVGSLPSLW	PGPT0021495_1786	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
D1-17_02688	1182	dus	COG0042	putative tRNA-dihydrouridine synthase	GTGACTGTTGTAGCAACGCCTCCCGCCCCCAAGCTGGAACTCCCCCCGCTGAAGCTCGGCCCGATCACCGTGGACACCCCGGTGGTGCTGGCGCCCATGGCCGGCATTACCAACACCGCCTTCCGCAGGCTCTGCCGTGAATATGGCGGCGGCATGTATGTGGCCGAAATGGTCACCTCCCGGGCCCTCGTGGAGCGCACGCCGGAGTCCCTGCGCATCATCTCGCATGACGACGACGAAAAGGTCCGGTCCGTCCAGCTTTACGGCGTGGACCCCGTCACCGTCGGCCAGGCTGTGCGCATGCTGGTCGAGGAAGACCGGGCCGACCATATCGACCTCAATTTCGGCTGCCCGGTACCCAAGGTCACGCGCCGCGGCGGCGGTTCCGCTTTGCCGTGGAAGATTGACCTCTTCACCTCGATCGTGCAGACGGCCGTGAGGGAAGCCTCCAAGGGCGGCATTCCGCTAACCATCAAGATGCGCAAGGGCATCGATGATGACCACCTGACGTATCTCGACGCCGGCAGGATCGCCCGCGACGCGGGAGTGGCCGCCGTCGCGCTTCATGGCCGCACGGCGGCGCAGTTCTACTCAGGCCAGGCGGACTGGTCGGCGATCGCCCGCCTCCGGGAGGCGCTCCCTGACATCCCTGTCCTTGGCAACGGCGACATCTGGTCCGCCGAGGATGCGGTGCGCATGGTCCGGGAGACCGGTGTTGACGGCGTGGTGGTGGGCCGTGGCTGCCAGGGCCGTCCCTGGCTCTTCGGCGATCTGCAGGCCGCATTCGAAGGAAGCGACAAAAGGCACCGTCCCGGCCTGCGCCAGGTGGCCGACGGCGTGTACCGCCACGCCCAGCTCATGATCGAGACCTTCGGCAACGACGAATACAAAGCCCTGCGCGAGATCCGCAAGCACATGGCCTGGTACTTCAAGGGCTATGTTGTGGGCGGCGAACTCCGGGCCAAGCTGGCCACTGTGCCCACCCTGGAAGTGCTGCGGGAACTGCTGGACCAGCTGGACATGGACCTGCCCTATCCAGGTGTCGACTCCGAAGGCCCACGCGGACGTGCCGGCTCCCCGAAGAAACCGGCTCTGCCCAAGGACTGGCTGATGAGCCGACAGTTGAACGAGGACCAGTCACGGGACATTTCGGCGGCGGAACTGGATGTGTCCGGTGGGTGA	MTVVATPPAPKLELPPLKLGPITVDTPVVLAPMAGITNTAFRRLCREYGGGMYVAEMVTSRALVERTPESLRIISHDDDEKVRSVQLYGVDPVTVGQAVRMLVEEDRADHIDLNFGCPVPKVTRRGGGSALPWKIDLFTSIVQTAVREASKGGIPLTIKMRKGIDDDHLTYLDAGRIARDAGVAAVALHGRTAAQFYSGQADWSAIARLREALPDIPVLGNGDIWSAEDAVRMVRETGVDGVVVGRGCQGRPWLFGDLQAAFEGSDKRHRPGLRQVADGVYRHAQLMIETFGNDEYKALREIRKHMAWYFKGYVVGGELRAKLATVPTLEVLRELLDQLDMDLPYPGVDSEGPRGRAGSPKKPALPKDWLMSRQLNEDQSRDISAAELDVSGG				NA	NA	NA	NA	NA
D1-17_02689	1500			hypothetical protein	ATGGGTTCCGGTCACTCCCACGGTCACACTGGTCATTCGGATCCCACGCCCGAGGCACTGGCTGCACGCCGGAAGGCAAACCGGATTCTGGCCGCCGTGCTGATTCCACTGACCCTGCTGACGCTGGCCGCCATGGCGGCGCTCTGGCCTTCCGGCAGCAAGGAAGGCCTGAGCCTCGCCAACCCCTACAATGCCGCCCCCGGCGTGACCTTTGATACGGGCAAGATCCAGCGCGTGGTCACCGAAAGCTGCACCCCGGCAAGCCAGGTGCCGCAGCAGGTGCCGCAGGAAACCCAGCCGGGAGGACAGGCCGACGCCGGCACCCAATGCACGTTTGCGTTCACTGAGCCGGACAAAGGCGGCAGCCCCGTTAAAGTGGTCATCAACCCCGACGTCGCGAAGTCGCATGGCGTGGACGTGGGGGACAGCATCCGCTACCTCAACCTCACCAACGCCCAGGGTGCTGCGGCCGCGGGTCCGAACGGCCCGGCGTCCAACGGCGCCCCCACATTCATTTTCGTGGACTTCGTCCGCACCATGCCCATCATCCTGCTGGCTGTCCTGTACGCCCTGGTGGTGGTGGCTGTGGCGCGCTGGCGCGGGCTGCGGGCATTGATCGGCCTTGTCGGCGCGTACTTCGTGCTTGTCAGCTTCATGCTCCCCGGGCTCGTGGAAGGAAAGCCACCGCTGCTGCTTGCACTGGTCGGCTCCACCGTAATCATGGTCGGGGTGCTGTATTTTGCCCACGGCTTCTCGGCCCGGACCTCGACGGCGCTGCTTGGCACCATCTTCGGCCTCGGTATCACCGCGCTGCTGGCGGCATGGGCCACCGATACAGCCAATCTGGCAGGAGTGGGAAGCCACGACGCCTCCACCCTGACGAACATCTCGGCCAACATCTCGATCTCAGGGATCATTCTCTGCGGCCTCATCATTTCCGGGCTGGGCGTGCTCAACGATGTCACCATCACCCAGTCGTCCGCAGTGTGGGAGCTCTACGAACTTGCCCCGGGCACCAGCGCCCGCAAGCTCTTCACGTCAGCCATGCGGATCGGCCGGGACCACATCGCCTCCACCGTCTACACGATCGCCTTCGCCTATGCCGGTGCCGCGCTGCCCATCCTGATTATCGTGATGCTCTATGACCGCCCCCTGGGTGAGGCACTCACCAGTGCAGAACTGTCCGAGGAAGTTATCCGCACGCTGGTCGGCTCGATCGGTCTTGTGTTGGCTATCCCCGTCACCACGCTGATCGCGGTTCTGGTGGTCAAGGCAACCGGCATCCGCACCGGCAGGCCGGCTGCCGTAACTCCCGACGACGTCGATGACACCGGCGCACTCGCCGCGGCAGCCGCCGTGGCAGGCGGTGGTGCGGCCCGCGGCAGCGGAGAACCGGGTGGTGTGGCAGGCGGGGAACGTCCGGCGGCCCGCAGGTCCGCGGAGCCGTCACCCTCACTGCCTGAGACGCGCCGGGGGAGGCGGGCTGCCCAGCGTGATTGA	MGSGHSHGHTGHSDPTPEALAARRKANRILAAVLIPLTLLTLAAMAALWPSGSKEGLSLANPYNAAPGVTFDTGKIQRVVTESCTPASQVPQQVPQETQPGGQADAGTQCTFAFTEPDKGGSPVKVVINPDVAKSHGVDVGDSIRYLNLTNAQGAAAAGPNGPASNGAPTFIFVDFVRTMPIILLAVLYALVVVAVARWRGLRALIGLVGAYFVLVSFMLPGLVEGKPPLLLALVGSTVIMVGVLYFAHGFSARTSTALLGTIFGLGITALLAAWATDTANLAGVGSHDASTLTNISANISISGIILCGLIISGLGVLNDVTITQSSAVWELYELAPGTSARKLFTSAMRIGRDHIASTVYTIAFAYAGAALPILIIVMLYDRPLGEALTSAELSEEVIRTLVGSIGLVLAIPVTTLIAVLVVKATGIRTGRPAAVTPDDVDDTGALAAAAAVAGGGAARGSGEPGGVAGGERPAARRSAEPSPSLPETRRGRRAAQRD				NA	NA	NA	NA	NA
D1-17_02690	756			hypothetical protein	ATGGATGGCAGGAAGTCGGAGGACGCAGGCAGGCGCGGCAGCCTTGATGAAGCCGTACTGACCGTCTTGAAACCCGCAGGCCCCACGCGCGGAGTGGCGCTGGTCCTCCACGGCGGGCGCTCGCACTCCTTTGAACCCGTGCAGGCCCGCCACCTGAGCCCGGCGCGGATGCTGCCGTTCGCCCGGCACCTGCATCGGCACGGGCGGAAGGGCGGCCTGGAAGTATGGCTCCTGCGGAACAGGGTGCGCGGCTGGAACGGTGAGGAGATGTCTCCGCTCAGGGATGCCCGCTGGGCGCTGGAGAAGATCCGGATTCAGCATCCGGCAGTGCCCGTGTACCTGCTGGGTCACTCCATGGGCGGGCTGACGGCCGTCTGTGCAGCAGGCGACCCTCAGGTCCGCGCGGTGGTGGCGCTCGCTCCGTGGCTGGACGACACAACCCCCGCCGACCCTCTCGCCGGGCGGAAGGTCCTGATTGTGCACGGCGACGAGGACACCTGGACGAGCCCGGCGGCGTCGCTGCGGTTTGCCGGCCGGGCGGCAACGTATGCCGGGGCGCTGCAGTACGTTGCACTCCGGGGCGCCGGCCACTTCATGTTCCGCCGCGTCCATCTGTGGCACACCCTGGCCACGGGCTTCCTGCTGAAGGCCTTCAGCGAAGACACAGGCGTTGCCTGGAACCCCGGCTTACGGCCGGCTGCCGCCTTTGACCGTCTGGTCCCGGCAGCCGGCCGCGCTGTTCCCGCCGTGCTGTGA	MDGRKSEDAGRRGSLDEAVLTVLKPAGPTRGVALVLHGGRSHSFEPVQARHLSPARMLPFARHLHRHGRKGGLEVWLLRNRVRGWNGEEMSPLRDARWALEKIRIQHPAVPVYLLGHSMGGLTAVCAAGDPQVRAVVALAPWLDDTTPADPLAGRKVLIVHGDEDTWTSPAASLRFAGRAATYAGALQYVALRGAGHFMFRRVHLWHTLATGFLLKAFSEDTGVAWNPGLRPAAAFDRLVPAAGRAVPAVL				NA	NA	NA	NA	NA
D1-17_02691	993			hypothetical protein	GTGGCGATTGAATACCGCGAATGGCGCGAGGGTGATGACCTCACACTCCTCCAGATCTGGGGCGACCCGGAAACTGTTCAAGCCGGACAGTTCCGGGGCACGCTCGCGCCGTCCAGCAACGCGCCATGGCGGCGCTGCATCGTGGCAGAGGACGTCATTGACGGCGTCGGAATCCCCGTGGCAGCAGGTGTGGTCCACGAGGCGGCGCTGCACCCTGAACGGCTGTGGGTGTATGTGGAGGTGGCCCGGGACCACCGGCGTTCCGGCATCGGTTCCACCCTGCTCATGATGCTGCGCCGCGAGGCCGAGGGGTCGCCGTCGGGCGTTACCCGGCTGCGCTGCAAAGTTGAGCCGGGCACCTCCGGCGCCGGGTTCGCCAAGGCCGCGGGCCTCACTCCAATCCAGCGCTCGCAGCTGGTGGTGGTGGAACCCGGCGCCCTGAAGCTTCCGGTGTTTGGCGACGGTTCCGAGGAGGCGGCCTCGGAACGCATCCAGGACCTGGCTACCGGCTCCGTGGAGCTGTCCGACGTGGTGGGACGGTATTACACGTCGGTCCATACCTGGGACAGCCCAGGGAACCTGAGCATTCCCACGGTGCAGCGCCTGTTCCTGGACGACCTCAGCGGCGCCCACGGCGCCATCGTGCTGCGCGCTCCCAAGGCAAGCGCCTTCGGAGCGGGTGTGCCGGCGTCGAAGAAGGGCAAGATCCAGGCGTTCGCCATCAGCTACGCGCAGCCGGAGATGGGGCAGGGCGGAGGGGATCAGGGGCAGTCCGGCCAGCCGTCGGATGTGTTCCTCGGCCACGATCCGGAGCTCGACGGCGACCAGGCCCGCGCCGCGGTGCGTGACCTCCTGGCGCTGATCGCCTACCAGCACCCGGTCCTTATGGAAATAGACGATTCCATGACGGCGCTGCGTGCCGTCGTCGAACCCCTCCTGGAGAGCGGCAAAGCCCGCCGGCAGGGTGCCGAGACGTTCGTCGTTTCGGACTGA	MAIEYREWREGDDLTLLQIWGDPETVQAGQFRGTLAPSSNAPWRRCIVAEDVIDGVGIPVAAGVVHEAALHPERLWVYVEVARDHRRSGIGSTLLMMLRREAEGSPSGVTRLRCKVEPGTSGAGFAKAAGLTPIQRSQLVVVEPGALKLPVFGDGSEEAASERIQDLATGSVELSDVVGRYYTSVHTWDSPGNLSIPTVQRLFLDDLSGAHGAIVLRAPKASAFGAGVPASKKGKIQAFAISYAQPEMGQGGGDQGQSGQPSDVFLGHDPELDGDQARAAVRDLLALIAYQHPVLMEIDDSMTALRAVVEPLLESGKARRQGAETFVVSD				NA	NA	NA	NA	NA
D1-17_02692	1386	glyQS	COG0423	Glycine--tRNA ligase	ATGGCAGCTAAATCCGTCCTCGACCAGGTCATTTCCCTTTCCAAGCGGAGGGGTTTCGTTTTTCAGGCCGGCGAGATCTACGGAGGCTCCCGTTCCGCCTGGGACTACGGGCCGCTCGGTGCCGAGCTGAAGGAGAACATCAAACGTCAGTGGTGGCAGTCCGTCGTGCGCGGACGTGAAGACGTTGTGGGCCTGGACTCCTCGGTGATCCTGCCCCGCCAGGTGTGGGAAGCGTCCGGGCACGTCGAGGTGTTCTCCGACCCGCTGGTCGAATGCCTCTCCTGCCACAAGCGCTACCGCGCGGACCACCTCGAAGAGGAATACGAGGAAAAGAAGGGCCGTCCCGCCGAGAACGGCCTGAAAGACATCGCCTGCGCCAACTGCGGCACCCGGGGTGAGTGGACGGAGCCACAGGAGTTCTCCGGACTCCTGAAGACCTTCCTTGGGCCTGTCGCCAGCGATGAGGGCCTCCATTACCTGCGCCCCGAAACCGCCCAGGGCATCTTCGTGAACTTCAACAACGTGCTCACCACGTCCCGAAAGAAGCCTCCGTTCGGCATCGGCCAGATCGGCAAGTCCTTCCGCAACGAGATCACGCCGGGCAACTTCATCTTCCGCACCCGCGAGTTCGAGCAGATGGAAATGGAATTTTTCGTCGAGCCGGGCACGGACGAGGAATGGCACCAGTACTGGATGAAGGAACGCATGTCCTGGTACACGGACCTGGGTATCCGTGAAGAGAACCTGCGCTTTTTCGAGCACCCGCTGGACAAGCTCAGCCACTACTCCAAGGGCACCACGGACATCGAATACCGCTTCGGCTTCCAAGGCTCTGAATGGGGCGAGCTCGAAGGCATCGCCAACCGCACAGACTTCGACCTCTCCACCCATGCCAAGGCCTCCGGCACCGACCTGAGCTATTTCAACCAGGCCACCAATGAGCGCTACACGCCGTACGTGATCGAACCCGCCGCGGGCCTCACCCGCTCGTTCATGGCTTTCCTCATCGACGCCTACACCGAGGACGAGGCCCCCAACGCCAAGGGCGGCGTGGATGTCCGCACCGTGCTCAAGCTTGATCCGCGCCTCGCTCCGGTCAAGGCGGCCGTGCTTCCGCTAAGCCGCAACGAGGACCTCTCGCCGAAGGCGAAGGACCTCGGCGCCCAGCTCCGCAAGAACTGGAACATCGACTTCGACGACGCGGGCGCCATCGGCCGCCGTTACCGCCGCCAGGACGAGATCGGCACCCCGTTCTGCATCACTGTGGACTTCGACACCCTCGAGGACCAGGCCGTCACCATCCGTGAACGCGACACCATGAGCCAGGAACGGGTCTCCCTGGACAAGGTGGAGGGCTACCTCGCCGCGCGGCTGATCGGCGCCTGA	MAAKSVLDQVISLSKRRGFVFQAGEIYGGSRSAWDYGPLGAELKENIKRQWWQSVVRGREDVVGLDSSVILPRQVWEASGHVEVFSDPLVECLSCHKRYRADHLEEEYEEKKGRPAENGLKDIACANCGTRGEWTEPQEFSGLLKTFLGPVASDEGLHYLRPETAQGIFVNFNNVLTTSRKKPPFGIGQIGKSFRNEITPGNFIFRTREFEQMEMEFFVEPGTDEEWHQYWMKERMSWYTDLGIREENLRFFEHPLDKLSHYSKGTTDIEYRFGFQGSEWGELEGIANRTDFDLSTHAKASGTDLSYFNQATNERYTPYVIEPAAGLTRSFMAFLIDAYTEDEAPNAKGGVDVRTVLKLDPRLAPVKAAVLPLSRNEDLSPKAKDLGAQLRKNWNIDFDDAGAIGRRYRRQDEIGTPFCITVDFDTLEDQAVTIRERDTMSQERVSLDKVEGYLAARLIGA				NA	NA	NA	NA	NA
D1-17_02693	1008			hypothetical protein	ATGACCCACGCACAGCGGCTGCCCCTTGCCGCAGGCCTTTCGATGGCCGTGGCCGCCGGACTTGCCATTCCCCTCCAGGGGAGAATCAACGGCGCCCTCGGTGCCAGGCTCGGGGATGGCATCGCCGCAGCTGTTGTCAGCTTCAGTACAGGCCTGGTGCTGATGATCCTCGTTTCCTTGGTCCTGCCTCGCGGCCGGGCCGGCCTGGTCAGCATTATGCCTGCCGTTCGGGAGCGGAAGTTTCCGCCGTATTACCTCCTGGCAGGCGGGATCGGGGCCCTCTTTGTCTTCGCGCAATCCTTTACTGTCGGGCTGCTGGGCGTCGCGCTCTTTACGGTGTCCACGGTCACCGGCCAGACCGTCAGCGGCCTGCTGGTGGACAGGCTCGGCCTTGGGCCCGGCGGCAAGAAGGCCGTGACAGGTATCCGCATCATGGGTTGTGTCCTCACTATTGCCGCCGTCGCCTGGGCCGTCTCGCCGCGTTTCGGCGGTGCTTCGGGAGGCGGTGCTCCGGGAGCCGGCGCACCCGGGGCAGGAGGCGACCCGGCCCAGCTCATCCTGCCGCTGCTGCTTCCCGTCCTGGCCGGCTTCCTCATGAGTTTCCAGCAGGCCATGAACGGAACGGCCACGATGCATTACGGCACGCCGATCGCGGCGACTCTGGTGAATTTCGTGGCGGGTACGTGCGTGCTGTGGGTGGCATGGTTTATCAAGGTGGCCATTGCCGGCACAGGAAACCCGCTTCCCGGGGAATGGTGGTACTACCTTGGCGGGCCCATGGGGTGTGTCTTCATCGGACTTGGAGCCCTGCTGGTCCGCAGCCTCGGCGTGCTGGTGACCGGCCTTGGCATGATTGCCGGCCAGCTCCTCGGCTCGCTCGGCCTTGACCTGCTGGTTCCCGCCCCCGGCTCCATTGTTGCTGTTCCCACGGTGCTCGGCACGCTGCTGACCCTTGTGGCCATCGTCATCGCGACGCTTCCCTGGCCGCGGGGAGCATTACGCAGGTAG	MTHAQRLPLAAGLSMAVAAGLAIPLQGRINGALGARLGDGIAAAVVSFSTGLVLMILVSLVLPRGRAGLVSIMPAVRERKFPPYYLLAGGIGALFVFAQSFTVGLLGVALFTVSTVTGQTVSGLLVDRLGLGPGGKKAVTGIRIMGCVLTIAAVAWAVSPRFGGASGGGAPGAGAPGAGGDPAQLILPLLLPVLAGFLMSFQQAMNGTATMHYGTPIAATLVNFVAGTCVLWVAWFIKVAIAGTGNPLPGEWWYYLGGPMGCVFIGLGALLVRSLGVLVTGLGMIAGQLLGSLGLDLLVPAPGSIVAVPTVLGTLLTLVAIVIATLPWPRGALRR	PGPT0009795_58	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
D1-17_02694	234			hypothetical protein	ATGAGCAGACCGGAAATCGAAGACATCCCCATCCGCGACGAGATGATCCGCCTCGGCCAACTCCTGAAACTCGCGAACCTGGTGGAGGACGGCGTCGAGGCCACCGAACTGATCAAGAACGGGCTGGTCAAGGTCAACGGCGAAATCGATGACCGCCGCGGCCGGCAGCTCCACCTCGGCGACACGGTCACGCTCAACAACCGCACCGTCCGGATCACCGCCGCCGGCAGCTGA	MSRPEIEDIPIRDEMIRLGQLLKLANLVEDGVEATELIKNGLVKVNGEIDDRRGRQLHLGDTVTLNNRTVRITAAGS				NA	NA	NA	NA	NA
D1-17_02695	651			hypothetical protein	ATGACTTTAGCCGACGCTTTTCCTGCCCCCGTTGTTCTGTGGTCCAAACCGGAGGAGGCCCGGGCCGGTAAGCCCCTGCTGGTCCTCCTGCATGGCTACGGCGCAAACGAGCAGGATCTCCTCAGCCTGGCTGACATGCTCCCCGATGAGTTCGCGGTCGCCTCTGTCCGCGCGCCGATCGCCATGGGCCCCGGTTTTGCGTGGTTCCCGCTGACCGGCAGCGTTGAATACTCAGTTGATGCTGTCAAAGCTGCGGCGGCCTACGTCCAGGACTGGATTGACACCGTCAAGGACAACCATCCATCCGTCACTCTCCTCGGGTTTTCCATGGGCATGGCCATGGCCACGACGCTGCTGAGGCAGCGCCCCGCCGACTATGCCGCCGTCGTCGGGCTTTCAGGATTTGTTGTCGACGCCGGAGCTGACGGCGAATTCCGCGACGCGGACCTTGACGGTACGGTGCCGTTCTTCTGGGGCCGCGACCAGCAGGATCCGGTCATCACCCAAGACAAGATTGAATACACGATGGGCTGGGTCCGCAAGCACGTGAAGCTGACCAAAGTCCTGTACACGGGAATGTGGCACGGGATCAACGCCCAGGAAATCGGGCACGTCTCGGAATTCCTCACCCACGAGGTGCTGAACAAGTAG	MTLADAFPAPVVLWSKPEEARAGKPLLVLLHGYGANEQDLLSLADMLPDEFAVASVRAPIAMGPGFAWFPLTGSVEYSVDAVKAAAAYVQDWIDTVKDNHPSVTLLGFSMGMAMATTLLRQRPADYAAVVGLSGFVVDAGADGEFRDADLDGTVPFFWGRDQQDPVITQDKIEYTMGWVRKHVKLTKVLYTGMWHGINAQEIGHVSEFLTHEVLNK	PGPT0028515_2407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028515-mhqD-K06999	NA	NA
D1-17_02696	1161			hypothetical protein	ATGGAGCCGGAGGTGGTGGTCAGAACGCGGCTGGCAAGCCAACAGCTGCGCTCACCCGTGGCAGCCTCGGTGGAAGCCGCGCTGAAAAACCTGCTGGCGGTGCAGGCGCAGGAGTATCCGTACGCGCGCTGGTCTCTGGCGCAGCGTACCGCTGACGCCACGGCGAATGACGTGGCGCAGGCAGTCGCCGAGGGCCACATCCTTCGAACGCACATATTGCGGCCCACCTGGCACTTCGTGCATCGTACTGATCTTCCCTGGCTCAGGGCGCTATCGGCGCCGCGCCTGCATCAGACCAATGCGCCCACGTACCGTCGGACGGGGATTGATGCAGCGGCAGCAGCACGGAGTGCTGACATCCTCGCCGCCGCACTGGCCGGCGGGCGGCAGCTGACACGTGAGCAGCTCGCGGCCGAGTTGGAGCGCGCGGGATTCGCCCTCACAGGTCTGGCCCTGGCGTACGTGATCATGCACGCGGAGATCAACGGCGTGATCACCAGCGGTGCACCGGTGCGCAGTGCGTCCGGGGCTCTCCGGCAGACGTACGCGCTCTTCAGCGAGCGGGTAGGCGCGTCCGGCATCCATCCGCTCTCCAGGGAGGAGTCGCTTGCCGCCTTGGTCCGGCGGTACTTCCGAAGCCGCGGTCCGGCCACAGTCTGGGACTGCGCCGACTGGTCCGGAATGACCATCACCGACGTCCGCCTCGGACTCGCGCTGGCCCTCGAGGACGACCCGGCAGCCCTGGGGCGTGAGGAGATTGAGGGCATCCCGTTCTATTTTGATCCGGAGTCCTCCCGCCCCTTCAGCCCGGGCCCCTCCACCCGTCCGTACTCCTCCACCAGCGGGGGCGCAGGTTCAGCTGGCTGCATTGATCTCATCCAGTGCTATGACGAGTACATCATGGGGTATTCCGCCTCACGCGGCTACCTGGGCGGTAAGGCACCAATTTTCCCGAGACATGGTGATCCTCAGCATGTGGTCCTGCTGGACGGCCGTATGGCGGGTACTTGGCGGCATCGGTTGATCCGGCCCGGCTCCCCCGGCCAGCGGTGCGAACTGGACATCCGGATGCGGCAGGACAAAATATCAACCGGTGCCCTGGAGCAGGCCGCCACTAGGTATGAGGCCTTCCTTGGGATGCCGGCGTCATATGTTGACTGA	MEPEVVVRTRLASQQLRSPVAASVEAALKNLLAVQAQEYPYARWSLAQRTADATANDVAQAVAEGHILRTHILRPTWHFVHRTDLPWLRALSAPRLHQTNAPTYRRTGIDAAAAARSADILAAALAGGRQLTREQLAAELERAGFALTGLALAYVIMHAEINGVITSGAPVRSASGALRQTYALFSERVGASGIHPLSREESLAALVRRYFRSRGPATVWDCADWSGMTITDVRLGLALALEDDPAALGREEIEGIPFYFDPESSRPFSPGPSTRPYSSTSGGAGSAGCIDLIQCYDEYIMGYSASRGYLGGKAPIFPRHGDPQHVVLLDGRMAGTWRHRLIRPGSPGQRCELDIRMRQDKISTGALEQAATRYEAFLGMPASYVD				NA	NA	NA	NA	NA
D1-17_02697	612			hypothetical protein	ATGAATAACCTGTTTTTCTGGATCATCATCCTGTCGCTCCTGATTCCCGTGGCGATGCGCATGTACCGGAGGTCTGTCCAGAGGCGGGACCAGAGCCAGAACTTTCCCGGACAGTACCCGGGCGGGTTTCCCGGTTCATTCTCCGGGCGCCCAAAGAACCAGCCTTCGGACGGCTACACCCAGCAGGATTACATGAGCGGAGGCTTCGGCCTGCCCGGGAACCGCGGCCGGGACGAGCTTGCGCCGCTGGACCAGCCCTACCCCAACCCGCCCTATCAGCAGTTCCCCCAGGCGGGCCAGCAGCCTCAGCCCGGCCAGTACCCTCAACCAGGCCAGTACCCTCAACCAGGCCAGTACCCTCAACCAGGCGGCGCACAGTACGGGCAGCCCGCCAACCTCCCCTATGAGGACAGCCCCGAGTACCGTGCCAACCCTCCGCAGCCGCAGGCCCACCCGACGCAGCACGATACCGGCCCGGTCACTCCCCCGCCGCCATCAGCTCCCCAGGGATACCGCGCGCGCAAACTGGCTGAACTCGACCAGCAATACAGCAACGGGGAAATCTCCATGGAGGAGTACATGAACCGGCGCAACGACATCATGAACGGCTAG	MNNLFFWIIILSLLIPVAMRMYRRSVQRRDQSQNFPGQYPGGFPGSFSGRPKNQPSDGYTQQDYMSGGFGLPGNRGRDELAPLDQPYPNPPYQQFPQAGQQPQPGQYPQPGQYPQPGQYPQPGGAQYGQPANLPYEDSPEYRANPPQPQAHPTQHDTGPVTPPPPSAPQGYRARKLAELDQQYSNGEISMEEYMNRRNDIMNG				NA	NA	NA	NA	NA
D1-17_02698	1485	bauC_1	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGGAAACCATTCCCCATTTCATCAACGGCAACCGCGTCAGCGACGCCGAACGGTTCGGCCCCGTCTTCAACCCCGCCACCGGAGAGCAGGAGAAGCAGGTGGTGCTCGCTTCGGGCGCCAGGGTCGACGAAGCGATCGCGGCAGCGAAGGCGGCGCTGCCCGCATGGCGGGCCACGAGTCTTGCCAAGCGCACAAATGTTTTCTTCCGCGTCCGCGAAATCCTGACTCAGCGCAAGAGCGAACTTGCAGCGATCCTCACGAGCGAGCACGGCAAGGTGCTCTCTGACGCCGAAGGGGAAATCTCCCGCGGCCTGGAGAACATCGAGTTCGCAACGGGGCTTTCCCACATGCTCAAGGGTGAGCATTCAGAGCAGGTCTCAAGCGGCATCGATGTTCACTCAGTGCGTCAGCCGGTCGGGGTGGTCGCCTGCATCACACCCTTCAACTTCCCCGCAATGGTGCCGTTGTGGATGATCGGCAGCGCACTGGCGTGCGGCAATACCGTGCTGCTGAAGCCGAGCGAAAAGGACCCGTCGTCGGCAGTTTTCATCGCAGAGGTCTTTGCTGAGGCCGGACTGCCGCCGGGCGTGCTCAACGTCGTGCAGGGCGACAAGGAGGCCGTGGATGTGCTGCTTGAACATTCTGACGTGAAGGCCGTCAGCTTCGTCGGTTCAACCCCCATCGCCCAGTCGATCTACAAGCGTGCCGCCGATCATGGCAAGCGAGTCCAGGCCCTCGGCGGAGCAAAGAACCACATGGTGGTCCTGCCCGACGCCGACCTGGACATGGCCGCTGACGCCGCCGTCTCCGCAGCATACGGTTCCGCGGGCGAACGCTGCATGGCGATCAGCGTGCTGGTTGCCGTCGGTAACATCGCGGACGATCTGGTGAAGGCGATTTCCACCCGCATGGTGGACCTGAAGATCGGTCCGGGGACTGACCCCTCTTCGCAGATGGGACCGCTGATTACTGCCGAGCACCGCGACAAGGTCGCTTCCTATGTGGCCGGCGCGGAAAACGAAGGTGCAACCGTGGTTGTCGATGGCCGCCGGCATCAGTTCGATTCGAACGGCTTCTTCATCGGTGTCAGCCTGGTGGACCACGTCAAGCCCGGTATGAAGGTGTACGACGACGAGATCTTCGGCCCGGTTCTTTCGGTAGTTCGCGTGGACACCTACAGCGACGCTGTCCGCCTCGTCAACGAGAACGAGTTCGGCAACGGGATGGCCATCTTCACCCGCGACGGCGGTGCTGCCCGGCAGTTCGAATTCGACGTCGAGGCGGGCATGGTGGGCGTCAACGTGCCGATCCCGGTGCCGGTGGGGACCTTCTCGTTCGGAGGCTGGAAGAGCTCCCTCTTTGGAGACACCCACATGTATGGTCCGGACAGCATCCGCTTCTATACGCGGGGCAAGGTGGTCACCACTCGCTGGCCGGATCCGTCGACGTCGGTCATCGACCTAGGGTTCCCGCAGGTCGACTAG	METIPHFINGNRVSDAERFGPVFNPATGEQEKQVVLASGARVDEAIAAAKAALPAWRATSLAKRTNVFFRVREILTQRKSELAAILTSEHGKVLSDAEGEISRGLENIEFATGLSHMLKGEHSEQVSSGIDVHSVRQPVGVVACITPFNFPAMVPLWMIGSALACGNTVLLKPSEKDPSSAVFIAEVFAEAGLPPGVLNVVQGDKEAVDVLLEHSDVKAVSFVGSTPIAQSIYKRAADHGKRVQALGGAKNHMVVLPDADLDMAADAAVSAAYGSAGERCMAISVLVAVGNIADDLVKAISTRMVDLKIGPGTDPSSQMGPLITAEHRDKVASYVAGAENEGATVVVDGRRHQFDSNGFFIGVSLVDHVKPGMKVYDDEIFGPVLSVVRVDTYSDAVRLVNENEFGNGMAIFTRDGGAARQFEFDVEAGMVGVNVPIPVPVGTFSFGGWKSSLFGDTHMYGPDSIRFYTRGKVVTTRWPDPSTSVIDLGFPQVD	PGPT0002295_3741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
D1-17_02699	963	mmsB_1	COG2084	3-hydroxyisobutyrate dehydrogenase	ATGGTGGACACAGACCTTCCGGCCGCCCTCGGCCGGATACACAGCAAAGGAGCTAACGCCATGGCAGTAGTCGGTTGGATCGGTTTGGGGAACATGGGCGGCTCCATGTCAGCGAACCTTGCAAAGGCCGGGCATGACGTACGGGGATTCGACCTCAATCCCGCCGCCGTCGCTGCGGCAGAGGCCGGCGGGGTAAAGCCCGTGCAGAGCATCGCGGAAGCGGTGGACGGTGCAGAGGTCGTGTTCACGATGCTTCCCAAGGGCGAGCACGCCAAGGCCGTTTACCTGGGTGAGGACGGACTGCTCGCGCACGCTGACACCTCGACCCTCCTCGTTGATTCCTCCACCATCGACATCGCCGCCGCCCGGGAACTGCACGACGCCGCTGCAGCAGCCGGCTTCCGCTTTGTCGACGCTCCAGTCTCAGGCGGCATGAGCGGTGCCAAGGCCGGAACCCTCACCTTCATGGTCGGCGGGGAAGCGGGTGCCGTGGCTGACGCCAGCCGCTACATCGAGCCGATGGCCTCCAATGTCATTCCCACCGGCGGCGCCACGACGGGCCAGGCAGCAAAGATCTGCAACAACCTGATGCTCCTGATCAACCTGGCCTCCACGGCCGAAGGTGCAGTCCTCGCGGACCGGCTCGGCCTCGACAAGAAGGTGTTCTGGGACATCGCCTCGGTCTCCTCCGGTGACAGCTGGGCCCTGCGAACCTGGTACCCCGTTCCGGGCGTGGTGCCCACCGCAGCCTCCAACAATGACTTTGCGCCCACATTCACCACTGAACTGGCGAACAAGGATATTGGGCTGGCCATCAGCGCTGCGGAGGACACCGGCACGCCCCTTGAGATCGGCAAGCATGTGCAGCAGCTGTACCAGCGGCTCATCGATGCCGGGGAAGCCGGCAAGGACTGCTCGATGATTATCAAACTCGTTGACGGTTCGCTCGATTCAGGGAGATAG	MVDTDLPAALGRIHSKGANAMAVVGWIGLGNMGGSMSANLAKAGHDVRGFDLNPAAVAAAEAGGVKPVQSIAEAVDGAEVVFTMLPKGEHAKAVYLGEDGLLAHADTSTLLVDSSTIDIAAARELHDAAAAAGFRFVDAPVSGGMSGAKAGTLTFMVGGEAGAVADASRYIEPMASNVIPTGGATTGQAAKICNNLMLLINLASTAEGAVLADRLGLDKKVFWDIASVSSGDSWALRTWYPVPGVVPTAASNNDFAPTFTTELANKDIGLAISAAEDTGTPLEIGKHVQQLYQRLIDAGEAGKDCSMIIKLVDGSLDSGR				NA	NA	NA	NA	NA
D1-17_02700	900	dmlR		HTH-type transcriptional regulator DmlR	ATGCAGCGGCTTCCCAGCCCGGACGACCTGCTAATTTTGCTGACCGTGGCCCGGCTGGGGCGCTTCAACGCCGTCGCCGAAACGCTGGGCACGACGCACACCACGATTTCGCGCCGGATCCTTGCCCTCGACAAGCAGCTGGGCGGACGCACGCTGGAGCGCAGCCCCCACGGGTGGGAGCTCACCGAGTTGGGGACGTCAGCTGTTGCCGCAGCTGAAGCGATTGAGGAAACGCTGGGGTCACTGGCTGGCGCCATCGGCCAGGAATGTGATGCCCTGTCCGGACTGGTGCGTATCAGCACGTCGGACGGCTTCGGCGCCGAGTTTGTGACGCCCGCGTTGGTCCACATTCAGCAGCGGCACCCGCTGCTGAATGTGGAGATGCTCAGCGCCACCCGCAAGGTCAGCCAGAACAGGTCCGGGGTGGACCTTGAAGTGGTGGTGGGCCGGAACGAGGTCAGCAACGCGCAGCCGATCTTCCTGACGAACTACTTCCTCAGGCTCTACGCGAGCACCGGCTACGCCGCGGAGCGGGGGCTTCCGGAAACGCTCGACGGCCTGGGGCAGCACGGCTTCGTCTCTTACGTCGAATCGGCGCTTCAGGTGGCGGAGCTTGGCCACCGCTCTTCCCAGCTGCCGATGCCGAAGTCCAGCTTTCAGGCCACGAGTGTCTTTGCCCAGATCGAGGCAGTGCGCCAAGGCGCGGGCATCGGGCTGCTCCCGAATTTCATGGTGGCAGGAAATCCGGAGTTCGTTCCGGTGCTCCCGGACGACTTCCAGCGCCAGGTGCCGATTTGGGCGGTGGCCCGGCCCGAGGCGCTGCGCTCCGCCCGGGTGCAGGCCGTGATCGCAGCGCTGAAGGAAGAGGCGGACGGGCGTCAGAGTCTCCTGGCTGCCTGA	MQRLPSPDDLLILLTVARLGRFNAVAETLGTTHTTISRRILALDKQLGGRTLERSPHGWELTELGTSAVAAAEAIEETLGSLAGAIGQECDALSGLVRISTSDGFGAEFVTPALVHIQQRHPLLNVEMLSATRKVSQNRSGVDLEVVVGRNEVSNAQPIFLTNYFLRLYASTGYAAERGLPETLDGLGQHGFVSYVESALQVAELGHRSSQLPMPKSSFQATSVFAQIEAVRQGAGIGLLPNFMVAGNPEFVPVLPDDFQRQVPIWAVARPEALRSARVQAVIAALKEEADGRQSLLAA				NA	NA	NA	NA	NA
D1-17_02701	1119			S-(hydroxymethyl)mycothiol dehydrogenase	ATGAAAGCAGCTGTCCTTTATTCCACCGTCGGCTCCGGAACCAGCTATGCGGAAGCACATCCGCTCCGTGTTGAGGAGCTGGACCGGCCGCAACCGCGTGCCGGGGAGCTCGGCATCGCCATCTCCTACTCAAGCCTGTGCCACTCGGACCTTTCTGTGGTGGACGGTTCCCGCGTCAGGCCGCTTCCCATGGCACTGGGACACGAGGCCGTCGGGCGCGTAGAAGCAGTCGGGGAGGGGGTCGAGGATGTCTCGGTGGGCGACCACGTTGTCCTGGTGTTCGTTCCGAGCTGCGGCGCGTGCCGTGCCTGCAAGGCCGGGCGGCCGGCGCTGTGCCACCGGGCGGCGGAAGTCAACGGCTCGGGTGACCTCCTGCACGGGGAGGCGCTGCTGCGCACGCCAACGGGGGAGCGGATCAACCACCACCTGGGGGTCTCTGCCTTCGCAGACTACGCCGTGGTTGCCCGCGAATCGGCAGTGGTCATTGACGACGACGTCCCCGACACGGTTGCGGCCATGTTCGGTTGCGCTGTACTCACCGGAATGGGTGCCGTCATGAACACCGCCGCGGTCCAGGCAGGGCAGTCTGTGGCCGTTTTCGGGTTGGGCGCCGTTGGCCTTTCCGCTGTCATGGCGGCCGCGCTTGCCGATGCATCCGCCGTGATCGCCATTGACCCGAACACGAGCAAGCATGAGCTCGCCCTGAAATGCGGGGCGACCGCCGTCGGCACGCCTGAGGACGCGGCCCGGCTGATTGCGGATGCCACCGGCGACGGTGTGGACACAGCCATCGAGGCAGTGGGATCCGCCCGGGTGATCGCGTCCTGCCTCGAGCACGTGACGCGTGGTGGGGCGGTGGTCTCGGTCGGCCTGCCGCATCCCTCCGCAGAGCTCACGGTGCCCGCCCTGCAGTTCGCCGGGGCCGGCAAGCGCCTGCTCGGCTCGTACATGGGCGATGCCGTGCCGGACCGGGACATCCCGCTGTACCTGAAGTATTGGCGGGAGGGCCGGCTGCCCGTTGGGCTGCTGCACACCGATACGCGGCCGCTGGCCGAGATCAACGAGGGCCTCGACGCGCTGGCCGCCGGTTACGTGGTGCGGCGGCTCTTCCGGGCCTGA	MKAAVLYSTVGSGTSYAEAHPLRVEELDRPQPRAGELGIAISYSSLCHSDLSVVDGSRVRPLPMALGHEAVGRVEAVGEGVEDVSVGDHVVLVFVPSCGACRACKAGRPALCHRAAEVNGSGDLLHGEALLRTPTGERINHHLGVSAFADYAVVARESAVVIDDDVPDTVAAMFGCAVLTGMGAVMNTAAVQAGQSVAVFGLGAVGLSAVMAAALADASAVIAIDPNTSKHELALKCGATAVGTPEDAARLIADATGDGVDTAIEAVGSARVIASCLEHVTRGGAVVSVGLPHPSAELTVPALQFAGAGKRLLGSYMGDAVPDRDIPLYLKYWREGRLPVGLLHTDTRPLAEINEGLDALAAGYVVRRLFRA	PGPT0006375_669	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
D1-17_02702	1383	abaF_8		Fosfomycin resistance protein AbaF	ATGAGTACGGAAAACTCCGCCGCAAGGCGCGTAGAGGAAACCGATATTAAGGCCTCGGGCCTGAGGAAAGTCGTCACGGCCTCCATGGCCGGCACGGTGGTTGAGTGGTATGAGTTCTTCCTCTATGCCTCTGCAGCAACCCTGGTGTTCGGCAAGATGTTCTTCCCCAATTCGGGCACGGAACTGGACGGCATCATCGCCGCATTCGTGACCTACGCGGTGGGGTTCGTGGCCCGTCCCATCGGCGGCATCGTCTTCGGCCACTTCGGGGACAAGTTCGGCCGCAAGCAGCTGCTGCAGCTGAGCATCATCCTGGTGGGCGTCGCCACCTTCCTCATGGGCTGCCTGCCCACGTTTGCGCAAATCGGCTACTGGGCTCCGGCGCTGCTGGTCTTCCTGCGCTTCGTTCAGGGCTTCGCCGTCGGCGGGGAATGGGGCGGCGCCGTGCTGCTCGTTGCCGAGCACAGCCCCAACAAGTCCCGCGGTTTCTGGTCCAGCTGGCCGCAGTCCGCCGTTCCCATGGGTAACCTCCTGGCGACCGGCGTGCTGTTCACCCTGTCGTCCACGCTGTCCCAGGAAGCTTTCCTCGGCTGGGGCTGGCGTATCGCCTTCTGGCTGTCCGCAGTGATCGTGATCGTCGGTTACTACATCCGCACCAAGGTCCAGGACGCCCCGATCTTCATCGAGGCCCGCAAGGAAGTCACAGTCGAGAAGAAGGGCTACGGCGTGGCGGAAGTCTTCCGCCGCTACCCGCGCGGTGTCTTCACTGCCATGGGCCTGCGCTTTGCCGAGAACATCCTGTACTACCTCGTCGTGACATTCTCCATCACCTACCTGAAGGTCGTCGTCCAGACGGACACGTCCCGGATCCTCCTGCTGCTCCTGGTGGCGCACTTCATCCACTTCTGCGCCGTCCCGCTCGTCGGCAAGATGTCCGACGCCTTCGGCCGCCGACCCGTCTACATGGCAGGCGCCGTCCTCGGCGGGACCTGGGGCTTCTTCGCCTTCCCCATGATGGACACCGGAAACGACATCGTCATCCTGGCCGCTATCACAATTGGCCTGCTGTTCCACGCGCTTATGTATGCAGGGCAGCCCTCCATCATGGCCGAGATGTTCCCGACCCGGATGCGCTACTCGGGAGTTTCCCTGGGCTACCAGGTGACCTCGATCGTCGCCGGTTCGCTGGCACCGATCATCGCCACCGCACTGCTTAGCAACTTCAAGTCCTCCACTCCGGTGGCGCTGTACCTGCTCGGAGCCTGCATCGTGACCGCTGTCTCGGTATTCTTCCTCAAGGAAACCCGCGGCATCTCGCTCCACGACGTGGATGCCGCAGACGCCAAGGGCACCGCGGACCTTCTGGCGGCCGCCAAGAAATAG	MSTENSAARRVEETDIKASGLRKVVTASMAGTVVEWYEFFLYASAATLVFGKMFFPNSGTELDGIIAAFVTYAVGFVARPIGGIVFGHFGDKFGRKQLLQLSIILVGVATFLMGCLPTFAQIGYWAPALLVFLRFVQGFAVGGEWGGAVLLVAEHSPNKSRGFWSSWPQSAVPMGNLLATGVLFTLSSTLSQEAFLGWGWRIAFWLSAVIVIVGYYIRTKVQDAPIFIEARKEVTVEKKGYGVAEVFRRYPRGVFTAMGLRFAENILYYLVVTFSITYLKVVVQTDTSRILLLLLVAHFIHFCAVPLVGKMSDAFGRRPVYMAGAVLGGTWGFFAFPMMDTGNDIVILAAITIGLLFHALMYAGQPSIMAEMFPTRMRYSGVSLGYQVTSIVAGSLAPIIATALLSNFKSSTPVALYLLGACIVTAVSVFFLKETRGISLHDVDAADAKGTADLLAAAKK	PGPT0002956_146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_02703	1146	metXA	COG2021	Homoserine O-acetyltransferase	ATGACGATCTCGGCAACCCGTACCGACGCGTCTGGCAGCACTATTTCGGAGGGGTCTGCACTCGACGGCACGCTCCGGTACGCAAACATCGGCAGCCTCAAGCTGGAGGCCGGCGGCTTTCTCCCGGAGGTCACCCTTGCCTACGAAACCTGGGGGACACTTAACGCAGACGGCTCCAACGCCATCCTGGTGGAGCATGCCCTCACCGGGGACACCCATGTGACTCGCGGCCAGGCAGGTGCTGAAGAAGGCTGGTGGGAGCAGCTGGCGGGCCCGGGCGCACCGGCGGACACCAACAAATTTTTCGTGGTCTCCATTAACATCTTGGGCGGCTGCTACGGATCCACCGGGCCGTCGTCGGAAGCTCCAGACGGCAAGCCGTGGGGATCCCGGTTCCCCCTGGTGACCCTCCGCGATTCCACAGCTGCCGAAGCGCGCCTGGCAGACCAGCTGGGCATCAGCAGCTGGTTCGCGGTCCTGGGTGGTTCCATGGGCGGCGCCCGGGCGCTGGAGTGGGCGGTCAGCTACCCGGACCGGGTTCGGCGTTGCGGCGTAATTTCCGTGGGTGCGAGCAGCACGGCCGAACAGATTGCCTTTGCGCAGGCCCAGACCCTCGCCATCCGCCAGGATCCCAACTTCAACGGCGGCGACTATTACGGGGGGCCGCTGCCTGAGGCCGGCCTGGCGCTCGCCCGCCGGATCGCCCACATTACGTACCGTTCGGCGCACGAGCTGGACTTCCGCTTTGGCCGGAACGCCCAGGGCAACGAATCCCCGCTTCAGGCTGATGCCCTCGGAGCCCGGGGCCGGTACCAGGTGGAAAGCTACCTGGACCACCAGGGGCACAAGCTGGTCCGCCGCTTCGATGCCAACAGCTACATTGCCCTGACCGAAGCTCTCATGAGCCATGACATCTGCCGCGGACGGGGGACGCTGAAGGAAGCGTTGGCCCGCACGACCGCCGATTTTTTTGTCGCCGCCGTCGATTCCGACCGGCTCTACTTCCCGTCGCAGTCCTGTGCGCTCGCCGAGGCCCTGCCCGGGGATGTGGACGTGCACGTCATTGAAGCCCCCATCGGCCATGACGGCTTCCTGACGGAGATCGGGCAGCTCAATGAGCAGCTGCGCGCACACCTGTTGGACTGA	MTISATRTDASGSTISEGSALDGTLRYANIGSLKLEAGGFLPEVTLAYETWGTLNADGSNAILVEHALTGDTHVTRGQAGAEEGWWEQLAGPGAPADTNKFFVVSINILGGCYGSTGPSSEAPDGKPWGSRFPLVTLRDSTAAEARLADQLGISSWFAVLGGSMGGARALEWAVSYPDRVRRCGVISVGASSTAEQIAFAQAQTLAIRQDPNFNGGDYYGGPLPEAGLALARRIAHITYRSAHELDFRFGRNAQGNESPLQADALGARGRYQVESYLDHQGHKLVRRFDANSYIALTEALMSHDICRGRGTLKEALARTTADFFVAAVDSDRLYFPSQSCALAEALPGDVDVHVIEAPIGHDGFLTEIGQLNEQLRAHLLD				NA	NA	NA	NA	NA
D1-17_02705	633			hypothetical protein	ATGGATCACGTCTCTTACGCCTGTGAACACGATGGCCTGGCTGCCACCACTGAACGTATCGCGTCCGCCCTCGGCGTTGAAGCCGTAAAGGGTGGAGTACACCCCCGTTTCGGGACCCGAAACATGATTATCCCGCTCGCCGGGCACAAATACCTTGAGGTCGTGGAGGTCCTGGACCACCCGGCGTCGGACAAGGCGCCTTTCGGTCAGGCTGTGCGGGCCCGCTCGGCCGCCGGCGGCGGCTGGATGGGCTGGTGCGTCGAAGTGGACGACCTTGCCCCATTTGAGGAGCGTCTCGGACGCGCCGCCGTCAATGGCAACCGCAAGTTCCCCGACGGCCGCGAACTCATCTGGAAGCAAATCGGGATTTTGGGGCTCATTGCGGACCCGCAGGTCCCGTACATGCTGAAGTGGGAAGGCGACCCCTCGCTGCACCCGTCCAACGCCTATGACAGCAACGTCAAGATGTCCAGCCTTACCATCGCCGGCTCGGCCGAACGTGTCACGGAATGGCTCGGCGAGCCCGTGGAAAGGCCCCTCGAGGACGTGGCGGTGAACTGGGTGGCTCCGCACGGAACCCCTGGCATCCTGTCGGTCACGTTCGAAACCGCCGCCGGCGCTGTGACTATCTGA	MDHVSYACEHDGLAATTERIASALGVEAVKGGVHPRFGTRNMIIPLAGHKYLEVVEVLDHPASDKAPFGQAVRARSAAGGGWMGWCVEVDDLAPFEERLGRAAVNGNRKFPDGRELIWKQIGILGLIADPQVPYMLKWEGDPSLHPSNAYDSNVKMSSLTIAGSAERVTEWLGEPVERPLEDVAVNWVAPHGTPGILSVTFETAAGAVTI				NA	NA	NA	NA	NA
D1-17_02706	783			hypothetical protein	ATGCTGGTTCCCTCCCGCCGTCGTCTGCGGATCGAAGTCTGGATCGTCCTGGGGCTGTCACTGGGGCAGTCAGCGGTGTACTCAGTAGTGCAGCTGCTGGACAAGATGACCCGGGCACCCCTGGCCGAGGGCACCTCCACGCTGAACCGTTCCCAAAGCACCCGCGAGTATTTCGACCTGACGTACCAGCTCCTGGACATCATCTTCGCGCTGGTGCCGGTCCTGCTTGTCATCTACTTCATGACCGAGCAGAGGCAAACGAAAACCGGAACGGGCTATGAGAGCGGCTCGGCATTCCACAGGCTGGGTTTCGATCTTGCCCGCCCCGGACGGGATCTGCTGCAAGGGCTGGGCCTGGCGGCCCTGATTGGCATTCCTTCCCTGGGCCTGTATGCGGCAGGGCGCGCGCTGGGCATCACCACAGCCATTATCCCCAGCGCCCTGGACGCCTACTGGTGGACCATCCCGGTCCTGATCCTTTCGGCCATGCGGCATGCCATCGTGGAGGAAGTCATTGTGGTGGGCTATCTGCTGGACCGCTTCGGAAAGTTCGGCTGGTCCCTTCCGTTGGCCATCTTCGCCAGTTCCATGCTCCGCGGCAGCTACCACTTGTATCAGGGCTTCGGGCCGTTCATCGGCAACGCGGTCATGGGCGTGCTCTTCGCCTGGATCTACACCAGGACGCGCAGGGTGATGCCGCTCGTTGTGGCGCACGCCCTGCTGGACATCGTGGCCTTTGTTGGCTTCAGCCTGTTTGGAAAAGCCGTCGGACTGGGCCAGTAA	MLVPSRRRLRIEVWIVLGLSLGQSAVYSVVQLLDKMTRAPLAEGTSTLNRSQSTREYFDLTYQLLDIIFALVPVLLVIYFMTEQRQTKTGTGYESGSAFHRLGFDLARPGRDLLQGLGLAALIGIPSLGLYAAGRALGITTAIIPSALDAYWWTIPVLILSAMRHAIVEEVIVVGYLLDRFGKFGWSLPLAIFASSMLRGSYHLYQGFGPFIGNAVMGVLFAWIYTRTRRVMPLVVAHALLDIVAFVGFSLFGKAVGLGQ				NA	NA	NA	NA	NA
D1-17_02707	810	glpR	COG1349	Glycerol-3-phosphate regulon repressor	TTGACCCGCACCGACCGTCTGACGGCAATACTGGACCTCCTTGCCGAAACGGGGCAGGTTGAGGTGGAGGAAATCGTCACACGGCTAGGGGTTTCGCCCGCCACCGCCCGGCGCGACCTGGACAGCCTGGCCAAGCGGCGGCTGCTAACCCGCACCCGGGGAGGGGCCACCACCGGAGCACTGGCCTACGACCTTCCTGGGCGGTACAACCGGGACGACCACGCGGCTGCCAAACAGCAGATTGCACTGGCGGCGTCGGCACTGATCTCCCCGGGCATGGTTATCGGACTCTGCGGCGGCACCACCAGCACGGCCCTCGCCCAGATCCTGGCGACGCGTGAGGACATCAATGCGCCCTCCAACCAGCCCACGCTCACGGTGGTCACCAATGCCATCAACATTGCCGGCCAACTGGCGGTGCGGCCGAACATCAAGGTCATGGTGACGGGCGGCGTCCTGAACCCGCGCTCCTATGAGCTGGTGGGGCCCTACACGGACATCATCATGCAGCGGGTAGTGCTGGATATCGCCTTCATCGGTGTGAACGGCATCGATCCGGTGGTGGGGCCCACCAACACTGGGGAGGGCGAAGCCTCGGTCAACGCACTGCTCGCCAGCCGCGCCAGCATGTCCTACGTCCTAGCCGACTCCTCCAAAGTGGGACGCCGCGCCTTCGCCACGATGGACGGCTATGAATTCACCCGGCTGATCACCGATTCCGGTATCTCGCCTGAGGACAAGGCCGCCTTCGAAGCAATCGGCACGGAAGTTATCGTAGCGCCGGAAACGCCACGGACCCGGCTGGCTTAA	MTRTDRLTAILDLLAETGQVEVEEIVTRLGVSPATARRDLDSLAKRRLLTRTRGGATTGALAYDLPGRYNRDDHAAAKQQIALAASALISPGMVIGLCGGTTSTALAQILATREDINAPSNQPTLTVVTNAINIAGQLAVRPNIKVMVTGGVLNPRSYELVGPYTDIIMQRVVLDIAFIGVNGIDPVVGPTNTGEGEASVNALLASRASMSYVLADSSKVGRRAFATMDGYEFTRLITDSGISPEDKAAFEAIGTEVIVAPETPRTRLA	PGPT0017955_354	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017955-agaR-K02081	NA	NA
D1-17_02708	1212	hutI_2	COG1228	Imidazolonepropionase	ATGAGCATCCTTCTTACCAACGTCGGCGAATTGATGACCCAGGACCGGGAGCAGCGAATTCTTCGGAACGCCGCCCTCGTGATCGAGGGGGAACGGATCGCGTGGCTGGGACCCGTTGAGGAGGCTCCGGCAGCAGACGAGGTTTTCGACGCCGGCGGCCGGGCGCTCCTGCCAGGCTGGGTGGATTCCCACACCCACCTGATCTTCGCGGGCGACCGCACCGCCGAGTTTGAGGCCCGGATGGCGGGGGAGGAGTACAGTGCGGGCGGCATCGCCGTCACCACGAAGGCAACGCGCAGCACGGGGGACTATGACCTGACGCGGCTTGCGCTGGGCCGGGTGGCGGAGGCGGTGTCGCAGGGCACCACCTACCTGGAAACCAAGACCGGGTACGGCTTGGACGTGGAGCAGGAAGCTCGGAGTGCACGGATCGCGGCCACGGTGGCAGACGAAGTCACCTACCTCGGCGCACACCTGGTGCCCGCCGGCGTGGACGCTGACGTTTACACAGATCTCGTCTGCGGCCCGATGCTGGATGCCGTCCGCCCCTATGCCTCGTGGGCTGACGTGTTCTGCGAGCGGGGAGCCTTTACCGAAGCACAGTCGCGGCGGGTTCTGCAGGCGTGCCGCGACGCTGGCCTCGGGCTGCGCGTCCACGGCAACCAGCTGGGCCCCGGGCCGGGAGTCCGCCTCGCTGCAGAGTTCGGTGCCGCCAGCGTGGACCATGTGAACTACCTGTCCGGCGAGGATGTCGATGCCCTGTCGGCCAGCTGGTCCGGCTGGGACGCGGCGGCGGGTTCCGGTGTACGCGGCACCGTGGCGACCTGCCTGCCGGCCTGCGATCTGTCCACCCGCCAGCCCCTCGCACCGGCGCGGCGCCTTTTGGATGCCGGCGTCCCGGTTGCGCTCGCCTCTAACTGCAACCCCGGAACGTCCTACACGAGTTCCATGGCATACTGTGTGACCACCGCTGTGCTGCAGATGGGACTCAGCGTCCACGAAGCCGTCCGCGCGGCGACGTACGGGGGCGCCCTCGCCCTGGGGCGCGAGGCCGGGAACGACGTCGACGGCGAGCGGGCGGTAGGGTCGGTCGCCGTCGGGCACCGGGCTGACCTGCATCTGCTCAATGCCCCGTCAGCCACGCACCTTGCCTACCGGCCCGGAATGCCGCTCACGCACGCCGTGTGGCGGGCGGGAGTCCGCGCCCGCTAG	MSILLTNVGELMTQDREQRILRNAALVIEGERIAWLGPVEEAPAADEVFDAGGRALLPGWVDSHTHLIFAGDRTAEFEARMAGEEYSAGGIAVTTKATRSTGDYDLTRLALGRVAEAVSQGTTYLETKTGYGLDVEQEARSARIAATVADEVTYLGAHLVPAGVDADVYTDLVCGPMLDAVRPYASWADVFCERGAFTEAQSRRVLQACRDAGLGLRVHGNQLGPGPGVRLAAEFGAASVDHVNYLSGEDVDALSASWSGWDAAAGSGVRGTVATCLPACDLSTRQPLAPARRLLDAGVPVALASNCNPGTSYTSSMAYCVTTAVLQMGLSVHEAVRAATYGGALALGREAGNDVDGERAVGSVAVGHRADLHLLNAPSATHLAYRPGMPLTHAVWRAGVRAR	PGPT0020235_2031	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
D1-17_02709	1107	dauA_2		FAD-dependent catabolic D-arginine dehydrogenase DauA	ATGGCAGCAACCTATGACGTGGTAATTGTTGGCGGCGGGATCGCCGGTTTGTCCCTGGCGTCGGCCCTCGACGGGCGGTGCAGGGTGGCGCTGGTCGAAGCCGAGCACCAGCTGGCGTATCACACGTCCTCCCGCTCGGCACGGCAGCTGATCCCCAGCTACGGCCCGCCCGTCGTCCAGGAGCTCACCATCCGCACACTGGAGCTCATCGCAGAGCGGGACGCCGGCCTTCCCGAGCCGGTCCTCGCGCCGCGGAGCTTCATGCTCATCGGTGATGAGGAAACTGTTCGGGCTGAAGCGAGCGGACAGATGCGCATGATCAGCCACACTGAAGCCCTCGGGCTGTGTCCGGTCCTGGCGCCGGATGCCTTCTCCGCGGCCGGCCTGGACACCGGTTCCTTCGCCTGCAACGCACCGCTCCTGTTGGAGGAACACCGAGCGCGTGCCGAGGCCGGAGGGGTGGACATCTTTACCGGGGCCGGGCTGCATTCGGCCCAGCGCCTCGGCAGCGGCTGGGAGATTGGCGCCGGTCAGGAAGCCTTCCAAGCCGGTGTCCTCGTCAACGCAGCTGGGGCCTGGGCAGACGATGTAGCAGTTGTATGTGGCGTGGAGAAGCTCGGACTCCAGCCCTACCGCCGCACTGCGGCGATTGTCGCCGTCGAGCGTTCCCTGCCTGAGGGCGCCCCGATGGTGGCGGCGGCGGACCACTCCTTCTACTTCCGCCGGGAGGGTGCGGACGTGCTGATCTCACCGTCCGAGCATGTCGCCAGCGCAGCAGAGGACGCACGGCCCTTCCCGGGCGACGTGGAGCGGCTCATTGCCCGCCTCAACACCCTGACCACGGTGGGGATCAACGCTGTCCGGACAGCTTGGACGGGGCTGCGCACTGAGGCGGCGGACGGCATCCCGGTGGCAGGATTCGACGCCGAAGCTCCCGGTTTTTACTGGCTCGCCGGCCAGGGCGGGTACGGATTCCAGACCTCCGCTGCGATGGCCGAACTCGCTGCTGCCCAAATCCTTGCTGGCTTGGGATCTGATCCGGGAAGCAGTCCGGAATCCCGGACGGCAGACGCTCTGGCTGCGACGCGCTGGTCCATCCGGCGCTGA	MAATYDVVIVGGGIAGLSLASALDGRCRVALVEAEHQLAYHTSSRSARQLIPSYGPPVVQELTIRTLELIAERDAGLPEPVLAPRSFMLIGDEETVRAEASGQMRMISHTEALGLCPVLAPDAFSAAGLDTGSFACNAPLLLEEHRARAEAGGVDIFTGAGLHSAQRLGSGWEIGAGQEAFQAGVLVNAAGAWADDVAVVCGVEKLGLQPYRRTAAIVAVERSLPEGAPMVAAADHSFYFRREGADVLISPSEHVASAAEDARPFPGDVERLIARLNTLTTVGINAVRTAWTGLRTEAADGIPVAGFDAEAPGFYWLAGQGGYGFQTSAAMAELAAAQILAGLGSDPGSSPESRTADALAATRWSIRR	PGPT0020092_350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020092-dauA-K19746	NA	NA
D1-17_02710	1194	kbl	COG0156	2-amino-3-ketobutyrate coenzyme A ligase	ATGTACTCAGCAATCAAAGACCAGCTGCGCAGCGAACTGGACGACATCCGGGCTGCCGGCCTCTACAAGACCGAGCGGCACATCGATTCCCCGCAGGCCAACCGGATCTCGGCGGGCCAGATCGGGCAGGAAGCCGCGCCTGTACTGAACTTCTGCGCCAACAACTACCTCGGTCTCGCGGACCACCCGGACATCATCGCCGCAGCCAAGACCGCCATGGATGAACGCGGCTTCGGCATGGCCAGCGTGCGGTTTATCTGCGGCACCCAGGACCTCCACCTGCAGCTGGAATCCAGGGTTTCGAAGTTCCTCGGCACCGAGGACACCATCCTGTTCTCCAGCTGCTTCGACGCCAACGGCGGCGTCTTTGAATCGCTCTTTGGGCCCGAGGACGCGGTGATCTCGGATGCGCTGAACCACGCGTCGATCATCGACGGAATCCGTCTGTGCAAGGCGCAGCGCTACCGCTATGCCAACCAGGACATGGCCGACCTCGAAGCGAAGCTCCTCGAGGCCAAGGACGCCCGGCGCAAGGTCATCGTCACGGACGGCGTGTTCTCCATGGACGGCTACCTCGCGCCCCTGGAAGCCATCTGCGACCTCGCCGAAAAATACGACGCACTGGTCATGGTGGACGACTCCCACGCCGTGGGTTTCATGGGCGACACAGGGGCGGGAACTCCGGAACACGCCGGCGTGTCCCACCGCGTGGACATTTTCACCGGCACCTTTGGCAAGGCCCTCGGTGGGGCCTCCGGCGGCTATGTTTCCGGACGCGGTGAGATAGTGGCGATGCTGCGGCAGAAGGCCCGGCCCTACCTGTTTTCCAACTCGCTGGCCCCCGCCATCGTGGCCGCCACCATCAAGGCCCTGGATCTCGTGGAGACGTCCGCCGAGCTGCGCGCCCGGCTCTTCGAGAACGCCGGGCTGTTCCGGCGCCGGATGACGGAGGAGGGCTTTGAACTGCTCGACGGCGAGCACGCGATCGTTCCGGTGATGTTCGGCGATGCCGTCCTGGCTGCGAAAATCGCGGACCAGATGCTCCAGCACGGCGTCTTCGTGACCGCTTTCAGCTTCCCCGTCGTGCCACGGGGCGCCGCCCGCATCCGCGTGCAGCTGTCGGCTGCGCACAGCACCGACGACGTCGAAACCTGCGTCCAGGCATTCGTGAAGAGCCGCAACGCCGTCGGATAG	MYSAIKDQLRSELDDIRAAGLYKTERHIDSPQANRISAGQIGQEAAPVLNFCANNYLGLADHPDIIAAAKTAMDERGFGMASVRFICGTQDLHLQLESRVSKFLGTEDTILFSSCFDANGGVFESLFGPEDAVISDALNHASIIDGIRLCKAQRYRYANQDMADLEAKLLEAKDARRKVIVTDGVFSMDGYLAPLEAICDLAEKYDALVMVDDSHAVGFMGDTGAGTPEHAGVSHRVDIFTGTFGKALGGASGGYVSGRGEIVAMLRQKARPYLFSNSLAPAIVAATIKALDLVETSAELRARLFENAGLFRRRMTEEGFELLDGEHAIVPVMFGDAVLAAKIADQMLQHGVFVTAFSFPVVPRGAARIRVQLSAAHSTDDVETCVQAFVKSRNAVG	PGPT0020495_1363	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
D1-17_02711	1047	tdh_2	COG1063	L-threonine 3-dehydrogenase	ATGAAGGCCCTGTACAAAGCCCGCGCCGCTGCCGGATTTGAACTCGTTGACCGCCCGGAGCCCGCGGCCGGCCCCCACGACGTTAAGATCCGCGTCCTGACCACGGGCATCTGCGGCACGGATCTGCACATCCAGTCCTGGGACGCCTGGGCTCAGGGCATCATCCAGACACCCCTTATCGCAGGCCACGAGTTCTATGGCGAGGTCGTGGAGATCGGCGACGACGTCCGGGACGTAAAGGTGGGGGACCGGGTGTCCGGTGAGGGACACATTGTGTGCGGCATCTGCAGGAACTGCCGCGCAGGCCGCCGGCAGATGTGCATCCACACTGTAAGCGTGGGGGTCCAGCGGGACGGGGCCTTCGCGGAATACGTTGTCATCCCCGAGACCAACGTCTGGGTGCACCAGGATCCCTCCGTGACGCCGGAGCTCGGCGCGATCTTCGATCCCTTCGGAAACGCGGTGCACACGGCACTGAGCTTTCCCCTTGTCGGCGAGGACGTCCTCATCACCGGTGCGGGACCCATCGGCCTCATGGCCATCGCAGTGGTCCGCCACGCGGGAGCACGCAAGATCGCCATCACCGACGTGTCCGCCCCCCGGCTGGAACTCGCCCGGCAGCTCGGCGTCGATTTGGCCATCGACGTTTCCAAGACACGCGTCCGGGAGGCGCAGCGGGAGCTCGGCATGCGTGAAGGCTTCGACGTCGGGCTTGAAATGTCGGGCCACCCCTCAGCCCTGCCGGAAATGATCGATAACATGAACCACGGCGGCCGGATCGCCATGCTGGGCCTGCCCAGCCAGTCGATCGAGATCGACTGGGGCAAAGTGGTCACCCACATGCTGACGCTGAAGGGAATCTACGGCCGCGAGATGTTCGAGACCTGGTACGCCATGAGCGCCATGCTGTCCTCGAATCCAGCGCTGCACGCCAACATCTCAGCCGTCGTCACGGATGTGCTGCCGGCGACACAGTGGGAGAAGGGCTTCAACATTGCCCGTTCCGGTGTCGGCGGCAAGGTTGTGCTGGACTGGTCGGAATTCTAA	MKALYKARAAAGFELVDRPEPAAGPHDVKIRVLTTGICGTDLHIQSWDAWAQGIIQTPLIAGHEFYGEVVEIGDDVRDVKVGDRVSGEGHIVCGICRNCRAGRRQMCIHTVSVGVQRDGAFAEYVVIPETNVWVHQDPSVTPELGAIFDPFGNAVHTALSFPLVGEDVLITGAGPIGLMAIAVVRHAGARKIAITDVSAPRLELARQLGVDLAIDVSKTRVREAQRELGMREGFDVGLEMSGHPSALPEMIDNMNHGGRIAMLGLPSQSIEIDWGKVVTHMLTLKGIYGREMFETWYAMSAMLSSNPALHANISAVVTDVLPATQWEKGFNIARSGVGGKVVLDWSEF	PGPT0020460_258	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0020460-tdh-K00060	NA	NA
D1-17_02712	909			hypothetical protein	ATGGAGATCCATCAGTTGGAGATGTTACGTGAGCTCGGGGCTTTGGGAAGCGTCAAGGCAGTAGCTGACACGCTGCTGGTCACGCCGTCCGCGGTCTCCCAGCAGCTGGCACAGCTGCAAAAAAGCGTCGACGTGCCGCTGACCCGCAAAGAGGGCCGGAACCTCGTCCTCACGGAGGCCGGGCAGGTGCTCGCGGACGCGGGGGCCGCCGTGGTCAGTGCCATGGCCGACGCCCGCATGGCGATCGGTGCCTACCACGGCTCCATGCTGGCGCCGGTGACGGTCAGTGGCTTCCACAGCGCCGGGCAGGCGCTGTTCGCGCCGCTTGCACGGCTTTTGGACGGGCCGGACAAACCCAGTGTGCGGCTGTTTGACGAGGACGTGGCGCAGCACGACTTCCCCGGCCTGACGGCGCGCTACGACCTGGTGCTGGCACACCGCATGGACCACAGCCCGCGGTGGCCTGAGGAACGGGTGGCCGTGATACCCCTCGCGCACGAGCCGCTGGATGTCGCCCTGCCAGCCGGCCACCGTCTGGCGGGGCAGGCATCCTTGGAGCCGGACGACGTCGTGGGCGAACCGTGGGTGACCAGCCGCACCGGATACTCCCCCGCGGACGTGCTGTCCGCCGTCGCCGCCGTCTCCAGCAGGGAGCTGAACATCGTGCACCGCATCAACGACTACTCCACCGTGGCAGCGCTGGTGGCAGCCGGCGGCGTGATCGGGCTGCTGCCCCGGCACACCGCGAGGCCGGTGCTGAGCGAGGACATCGTGCTGCGTCCGCTGCGGGGGATCAGCACCCGCCGCAGGATCGACATCCTGGCCCGCCCGGAGAACCTGAAGCGTGCCTCGGTGACAGTGGTGTGCGAGGCGCTGCAGGACATCATGGCCAGCCTCGTCCACACCTAA	MEIHQLEMLRELGALGSVKAVADTLLVTPSAVSQQLAQLQKSVDVPLTRKEGRNLVLTEAGQVLADAGAAVVSAMADARMAIGAYHGSMLAPVTVSGFHSAGQALFAPLARLLDGPDKPSVRLFDEDVAQHDFPGLTARYDLVLAHRMDHSPRWPEERVAVIPLAHEPLDVALPAGHRLAGQASLEPDDVVGEPWVTSRTGYSPADVLSAVAAVSSRELNIVHRINDYSTVAALVAAGGVIGLLPRHTARPVLSEDIVLRPLRGISTRRRIDILARPENLKRASVTVVCEALQDIMASLVHT				NA	NA	NA	NA	NA
D1-17_02713	1506	gatB	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGTCCGATGCAATCCTGAGCTTCGAAGAGGCCATGGAGAAGTACGATCCTGTCCTGGGCTTCGAGGTCCACGTGGAGCTGAATACCAAGACCAAGATGTTCTCTTCCGCGCCGAACGTGTTTGGCGATGAGCCCAATACGAACGTTAACGAGGTGGACCTGGGAATGCCCGGCGTTCTCCCTGTCCTGAACAAGACCGCGGTGGAGTCCTCCATCAAGATCGGCCTGGCGCTGAACTGCAAGATCGCGGAATCCTGCCGCTTCGCCCGGAAGAACTACTTCTACCCGGACACCCCCAAGAACTTCCAGACGTCCCAGTACGACGAGCCGATTGCCTACGACGGCTACCTCGACATTGAGCTCTCGGACGGAGAGATGTTCCGCGTCGAAATTGAGCGCGCGCACATGGAGGAGGACGCCGGCAAGCTCACCCACCTCGGCGGCTCGGCCGGGCGTATCCAGGGCGCAGACTACTCCCTCGTGGACTACAACCGCGCCGGCGTGCCGCTGGTGGAGATTGTGACCAAGCCCATCCAGGGTGCCGGGTCCCGGGCTCCGGAACTCGCCAAGGCCTACGTGGCCGCCGTGCGCGAGATCGTCAAGAACCTGGGAGTCTCCGACGCCCGGATGGAGCGCGGCAACGTCCGCTGCGACGCCAACGTTTCGCTGCGCCCGCACGGCCGTGAGCGCTTCGGCATCCGCTCTGAGACGAAGAACGTGAACTCGCTGCGCGCCGTCGAACATGCCGTCCGCTACGAGATCCAGCGCCACGCGGCGGTTCTGGAGTCCGGCGAGCCTGTGGTGCAGGAAACCCGCCACTGGCACGAGGACACCCGCACCACCACCTCCGGCCGCGCCAAGTCCGACGCCGACGACTACCGCTACTTCCCGGAACCGGACCTGGTGCCGGTGGTGGCCTCGCGTGAATGGGTCGAAGAGCTGCGCGCCATGCTGCCTGAACCGCCCGCGGACCGCCGCAAGCGGCTCCAGGCGGACTGGGGCTACTCCGACCTGGAGTTCCGCGACGTCGTCAACGCCGGCGTGATGGACGAAATCGAGGAAACCATCGCCGCAGGCGCCACGGCCTCCGTTGCCCGCAAATGGTGGATGGGCGAGATCGTCGGCCGCGCCAAGAACGCCGACGTCGACCCCGGCCAGCTGGGCATCGAGCCGGCCACCATCGTTGAACTGAGCAAGATGGTGGAAGCGGGCAAGATCAACAACAAGATGGCCACCGAGGTGCTCGACGGCGTGCTCGCCGGCGAAGGCACCCCGGCCGAGATCGTGGAGAAGCGAGGCCTTGCCGTAGTGTCCGACGACGGCCCGCTCCTGGAAGCCATCGATGCGGCGCTCGAGGCGCAGCCGGACGTCGCGGACAAGATTCGCGGCGGCAAGGTGCAGGCCATCGGAGCGATCGTGGGCGGCGTCATGAAGGCCACCCGCGGCCAGGCCGACGCTGGCCGCGTCCGCGAACTCATCCTGGAAAAGCTGGGCGTCAACGCCTGA	MSDAILSFEEAMEKYDPVLGFEVHVELNTKTKMFSSAPNVFGDEPNTNVNEVDLGMPGVLPVLNKTAVESSIKIGLALNCKIAESCRFARKNYFYPDTPKNFQTSQYDEPIAYDGYLDIELSDGEMFRVEIERAHMEEDAGKLTHLGGSAGRIQGADYSLVDYNRAGVPLVEIVTKPIQGAGSRAPELAKAYVAAVREIVKNLGVSDARMERGNVRCDANVSLRPHGRERFGIRSETKNVNSLRAVEHAVRYEIQRHAAVLESGEPVVQETRHWHEDTRTTTSGRAKSDADDYRYFPEPDLVPVVASREWVEELRAMLPEPPADRRKRLQADWGYSDLEFRDVVNAGVMDEIEETIAAGATASVARKWWMGEIVGRAKNADVDPGQLGIEPATIVELSKMVEAGKINNKMATEVLDGVLAGEGTPAEIVEKRGLAVVSDDGPLLEAIDAALEAQPDVADKIRGGKVQAIGAIVGGVMKATRGQADAGRVRELILEKLGVNA				NA	NA	NA	NA	NA
D1-17_02714	1590	gatA_1	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGACTGAAAACAACAGCAACGAGCTAATCCGGCTTTCTGCAGACCGGCTGGCCCAGAAGCTCGCCGCCCGTGAGGTAACCGCCGTTGAGGTCGTCCAGGCACACCTGGACCGCATCGCGGCGGTCGACGGCGGTGACCGCGGCGTCAACGCCTTCCTGCACGTCAACGCCGAAGAAGCGCTGGCCGTGGCCGCCGAGGTGGACGCCATCCGCGCCGCCGGAGGGCAGGCTGCCCAGGAGCTGCACGAACTCGCCGGCGTCCCCATCGCCGTCAAGGACCTCATCGTGACCATCGGCCAGCCCACCACGGCCGGTTCCAGGATCCTTGAGGGCTGGTACAGCCCGTATGACGCCACTGTCGTGCAGAAGCTGCGCGCCGCCAAAATGCCGATTCTGGGTAAGACGAACCTGGACGAATTCGCCATGGGTTCCTCCACGGAGCACTCCGCTTACGGCCCCACGCGCAACCCGTGGGACCTGGACCGCATCCCGGGCGGGTCCGGCGGCGGGTCGGCAGCCGCCGTCGCCGCATTCGAAGCGCCGCTCGCGCTGGGCACGGACACCGGCGGATCCATCCGCCAGCCGGGGGCTGTCACCGGTACCGTTGGCGTGAAGCCCACCTATGGCGGCGTGTCCCGTTACGGCGCCATCGCCATGGCCTCCTCCCTGGACCAGATCGGACCCGTGTCGCGGACCGTCCTGGACTCCGCGCTGCTGCATCAGGTCATCGGCGGGCACGACCCGCGGGATTCCACCTCCCTGCCCGACCCGCTGGAGGACCTCGTCGCGGCCGCCCGCACGGGCAACGTTGAGGGCATGAAGATCGGCATCATTAAGGAACTCCACGGCGAGGGCTACCAGGCCGGCGTCGAAAAGCGGTTCAACGAGTCCCTCGAGCTGCTCAAAGAGGCAGGCGCGGAAATCGTCGAGGTTTCCTGCCCCAACTTCAAGTACGCCCTCGGTGCGTACTACCTCATCATGCCGTCCGAGGCGTCCTCCAACCTTGCGAAGTTCGACGGCGTCCGGTACGGCCTGCGCGTGCTTCCGCAGGACCCGCCCATGACCATCGAGCGTGTCATGGGGGCGACCCGCGCTGCCGGCTTCGGCGACGAAGTCAAGCGCCGCATCATCCTGGGCACCTACGCCCTGTCGGCCGGCTACTACGACGCCTACTACGGCTCCGCCCAGAAGGTCCGCACGCTCATCCAGCGTGATTTCGACGCCGCGTTCGCCCAGGCGGACGTCCTGATTTCCCCGACGGCCCCCACCACGGCCTTCAAGCTGGGGGAGAAGCTGGACGATCCCCTGGCCATGTACTTGAACGACGTTGCCACCATCCCCGCCAACATGGCCGGTGTCCCCGGCCTGTCGCTGCCCGGCGGCCTGGCTGACGAGGACGGGCTGCCGGTCGGCATCCAGCTGCTGGCTCCTGCCCGCGAGGACGCCCGCCTGTACCGCGTGGGCGCCGTGCTGGAGTCACTTCTTGAGGAGAAATGGGGCGGCCCGCTCCTGGACAAGGCTCCCGAACTCGCTGTTTCCACGGCTGTTTCCACGGCTGGCGCCCCCTCGAGCCACGGAGGTTCACACTGA	MTENNSNELIRLSADRLAQKLAAREVTAVEVVQAHLDRIAAVDGGDRGVNAFLHVNAEEALAVAAEVDAIRAAGGQAAQELHELAGVPIAVKDLIVTIGQPTTAGSRILEGWYSPYDATVVQKLRAAKMPILGKTNLDEFAMGSSTEHSAYGPTRNPWDLDRIPGGSGGGSAAAVAAFEAPLALGTDTGGSIRQPGAVTGTVGVKPTYGGVSRYGAIAMASSLDQIGPVSRTVLDSALLHQVIGGHDPRDSTSLPDPLEDLVAAARTGNVEGMKIGIIKELHGEGYQAGVEKRFNESLELLKEAGAEIVEVSCPNFKYALGAYYLIMPSEASSNLAKFDGVRYGLRVLPQDPPMTIERVMGATRAAGFGDEVKRRIILGTYALSAGYYDAYYGSAQKVRTLIQRDFDAAFAQADVLISPTAPTTAFKLGEKLDDPLAMYLNDVATIPANMAGVPGLSLPGGLADEDGLPVGIQLLAPAREDARLYRVGAVLESLLEEKWGGPLLDKAPELAVSTAVSTAGAPSSHGGSH				NA	NA	NA	NA	NA
D1-17_02715	297	gatC	COG0721	Glutamyl-tRNA(Gln) amidotransferase subunit C	ATGGCTGCGATCAACCGTGACGACGTCGCGCATCTCGCGCGGCTCGCACACATCGAGATGGGCGCTGACGAGCTGGACAGGATGGCCGGCGAGCTGGCCGTCATCGTAGACGCGGTGAAGTCCGTCAGCGAAGCCGCCGGGGACGACGTACCGGCGACCTCGCACCCGATCCCGTTGAACAACGTGTTCCGTGAAGACATGGTGGGTCACACGTTTACCGCCGAGCAGGCACTCTCCGGAGCTCCGGATGCCGACGAGAACCGTTTCAAGGTCCCGGCAATCCTGGATGAGGCATAG	MAAINRDDVAHLARLAHIEMGADELDRMAGELAVIVDAVKSVSEAAGDDVPATSHPIPLNNVFREDMVGHTFTAEQALSGAPDADENRFKVPAILDEA	PGPT0023460_1747	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023460-gtaC-K02435	NA	NA
D1-17_02716	1485			hypothetical protein	GTGCTGGTATTACTTGGATTCGCCATGATCGCGGTTTTCATGGTGCTGATCATGACGAAAAAGTTGACGCCAGTGCTGGCGCTAATCATCGTCCCCACCGTTTTCGGGCTTTTCGCGGGCGCCGGTCTCGGCATCGGGGACATGGTCATGGACTCAATGAAGTCCATGACGTCCACCGCCGCCCTGCTGATGTTCGCCATCATCTACTTCGGCCTGATGATCGACGTCGGGCTGTTCGACCCGCTGGTCCGGTTCATCCTGCGCAAGCTGGGCAATGACCCCGCCAAAGTTGTCCTGGGCACCGCGCTCCTTGCTGCGGCCGTGTCCCTCGACGGCGACGGCTCCACCACCTTCATCCTCACCACCGCGGCGATGCTGCCGATCTACCTGCGCCTGAAGATGAGCCCCGTGGTCCTCACCTGCGTGGCCGGCCTGGCTAACGGCACCATGAACATCGTGCCGTGGGGCGGCCCCACCGCCCGCGCCGCCACCGCCCTGAAAATCGATGTCAACGACGTCTTCGTCCCCATGCTCCCGTCGCTGCTCGCCGGCATCGCCGTCGTCCTGGCCTTCGCGTGGCTGCTTGGCATCCAGGAGCGCAACCGCCTCCGTGCTACCCAGCCTGAAATCTGGGGAACGCCGTCTACGGCAGAACCCTTCACGCCTGAAGCGTTCGACGGCGGAACCTCCGGCGGCGGTTCGGGAACCGGCCGCGGACGCAGGGGGAACAACCCCGGCGGAGCCGCCCCCGCCGTCGGCGGTACAGCCGGCTCCGGCGTGGCCGTGCTGGAGCGCACGGAAACCCTCGTTGATGACAGCGACACTGCCATGGCGGACACTGCACTGGACCCCAACCGCAAGACCCTCCGCCCGAAACTGCAGTGGTTCAACCTGGGCCTCACAGTTGCCGTCATGGGCATGCTCATCGCCGACCTCGTGCCCCTGCCGTACGTCTTCATGGTGGGCTCGGCCATCGCCCTGCTGGTGAACTTTCCCCACGTCAAGGACCAGGGCGCGCAGCTTGTGGCACACGCACCGTCGATCGTCGCCGTGGTGAGCATGGTCATGGCCGCCGCAGTTCTCACCGGAGTCCTGACCGGCACCGGCATGGTCGAGGCCATGTCCGCCTGGCTGGTCCAGATCATTCCCTCGGACATGGGCCCGCTCATGGCGGTCATCACCGGCGTCCTCAGCATCCCCATGACGTTCTTCATGAGCAACGATGCCTTCTACTTCGGCGTGCTGCCCGTCCTCAGCGAGACCGCCGCGCACTACGGCATCAGCGCCGCCGAGATGGCCCGTGCCTCCATCACCGGACAGCCCTTCCACATGCAGAGCCCGCTGGTTCCCGCCATCCTGCTGCTGGTTTCCCTGGCCAAGGTGGACCTGGGTGACCACCACAAGAAGGTGCTGTGGCGCAGCGCCGTTGTCTCCCTTGTCATGCTGGCTGTCGGCATGCTGACCGGTGCCATCGGAGTCGGCTAG	MLVLLGFAMIAVFMVLIMTKKLTPVLALIIVPTVFGLFAGAGLGIGDMVMDSMKSMTSTAALLMFAIIYFGLMIDVGLFDPLVRFILRKLGNDPAKVVLGTALLAAAVSLDGDGSTTFILTTAAMLPIYLRLKMSPVVLTCVAGLANGTMNIVPWGGPTARAATALKIDVNDVFVPMLPSLLAGIAVVLAFAWLLGIQERNRLRATQPEIWGTPSTAEPFTPEAFDGGTSGGGSGTGRGRRGNNPGGAAPAVGGTAGSGVAVLERTETLVDDSDTAMADTALDPNRKTLRPKLQWFNLGLTVAVMGMLIADLVPLPYVFMVGSAIALLVNFPHVKDQGAQLVAHAPSIVAVVSMVMAAAVLTGVLTGTGMVEAMSAWLVQIIPSDMGPLMAVITGVLSIPMTFFMSNDAFYFGVLPVLSETAAHYGISAAEMARASITGQPFHMQSPLVPAILLLVSLAKVDLGDHHKKVLWRSAVVSLVMLAVGMLTGAIGVG	PGPT0001500_93	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0001500-TC_CITMHS|CitMHS_family|citN-K03300	NA	NA
D1-17_02717	1713	dcuS_3	COG3290	Sensor histidine kinase DcuS	ATGACCGCGGCATCCCGGCGCCTGCCGCTGAGGTTCTCCACGCAGACGCTGCTGCTGCAGCTGGGAGTGGTGCTCCTGGTCGTGCTTCTCAGCGCAGCGGTGCATGCGTGGTTGACCTTTGAACGGCTGGGCCGCGAAGCCGAGAACCAGGCGCTGACGCTAGCCCGGACGGTAGCCTCCGATCCCTCCGTACGCGCCGACGTCGCCGGGATCAGCCGGCAGGAAGGCACTCCCCCGCGCGAGGTGCTGCTCAACGGTCCGCTGATGGCGGCGGCGGAAGGTGCGCGGGCACGCACCGGGGCCCTGTTCGTGGTGATCACGGATGAAAAAGGACTTCGGCTGGCCCACCCCGAGGCGGACCGGCTCGGAGAACGGGTGAGCACCGATCCCTCCGAGGCGCTGGCCGGGCGGGAGGTGACCACCCGGAATACTGGGACGCTCGGACCGTCGGCCGGTGCCAAGGTTCCGGTGTTTGCTCCGGATACCGCCGCAGGTTCCGCTTCCGGTTCCCGCGCCCGTCCCGTAGTTGGCGAAGTCAGCGTGGGCTATTCCACTGAAACGATCGGGCAGAGCCTGTCCCGCGACATCGTGCCGATCGCGATGACCGCAGCTGGATCGTTGGTTGCCGGCGTCATGGCGTCGTTTCTGCTCCGGCGCCGGCTGCAGCGCCTCACCTTGGGCTTGGAGCCCGAGGAAATCAGCTCCCTGGTCCACGACCAGGTGGCGGTGCTGGAAGGCGTGGACGAAGGCGTCATCGGCGTCTCGGCCGACGGCCGTGTCAGCGTGTTTAATGCCGCCGCCCAGCGGCTTCTCGGCCAGTCCGACCTGACCGGTTCGCTGTGGTCCGCCGCCCCGGTGCCGGCGCAGCTCAAAACCCTCACCCACCCCGCTGCCCGGGAAGGCGAAGCGGTGGAGCTCATCGCCGGCAGCCGCGTCCTGGTGGCGAGCGCCCGCAAGGCACTGCATGGCCAGGAAGACCTTGGCTGGGTGGTCATGCTGCGGGACCGTACTGAACTGCAGCAGCTCACCCGCCAGCTCGATGCGGTGGGTACGATGTCCACGGCGCTCCGGGCGCAGCGGCACGAGTTTGCCAACCAGCTGCACACGATCGCCGGCTTCATGAGCATCGACCAGCACCAGCAGGCCCGCGAATACCTCGAACGGCTGGCGGCCACCGGTCCGCTGAAATTCCCCGTGGAGCAGGCCGAGCTCCTCCAGGATCCCTACCTGCAGGCGTTCGTCGGGGCTAAGGGCGTGGAGGCTGATGAACGCGGCGTGGCGCTCCGGATCGGCCCGGAAACCCTGGTCCGGGGCCAGGTGACCGAGCCGCAGGACGTCACCACGGTGCTGGGCAACCTGATCGACAACGCGGTCAACGCCGCAGTGTCAGGCTCCGCTGTCGAGCGGTGGGTGGAGGTTGAACTGCTGGACGAGCCGGCCGCCAGCGGTGGCACGCTGCATATCGTGGTGGGTGATTCCGGCGACGGGCTGCCGGCGGGCGCTGATCCGGAAGCCGTGTTCGCGGAGGGATTTACGACGGCGGCAGCCCCGGTGCGTGCCGGCGGCGGGCAGGGCCTGGGCCTGGCTCTCGCACGACAGCTGGCGCGCCGCCGCGGCGGAGACGTCAGGGTGCTGGATCCGGGAACCAGGGGCGGGCCCGGGGCGGTGTTCATGGCGACGCTGCCTGGCACCACGAACACGCGCAAAGACTGA	MTAASRRLPLRFSTQTLLLQLGVVLLVVLLSAAVHAWLTFERLGREAENQALTLARTVASDPSVRADVAGISRQEGTPPREVLLNGPLMAAAEGARARTGALFVVITDEKGLRLAHPEADRLGERVSTDPSEALAGREVTTRNTGTLGPSAGAKVPVFAPDTAAGSASGSRARPVVGEVSVGYSTETIGQSLSRDIVPIAMTAAGSLVAGVMASFLLRRRLQRLTLGLEPEEISSLVHDQVAVLEGVDEGVIGVSADGRVSVFNAAAQRLLGQSDLTGSLWSAAPVPAQLKTLTHPAAREGEAVELIAGSRVLVASARKALHGQEDLGWVVMLRDRTELQQLTRQLDAVGTMSTALRAQRHEFANQLHTIAGFMSIDQHQQAREYLERLAATGPLKFPVEQAELLQDPYLQAFVGAKGVEADERGVALRIGPETLVRGQVTEPQDVTTVLGNLIDNAVNAAVSGSAVERWVEVELLDEPAASGGTLHIVVGDSGDGLPAGADPEAVFAEGFTTAAAPVRAGGGQGLGLALARQLARRRGGDVRVLDPGTRGGPGAVFMATLPGTTNTRKD				NA	NA	NA	NA	NA
D1-17_02718	663	dpiA_2	COG4565	Transcriptional regulatory protein DpiA	ATGCCTGAGGATTACCGGGTTCTGATTGTGGATGACGATTTCCACGTCGCCAAACTCCACGCGGCGTACGTTGACTCGGTGGCAGGGTTTCTCGCGTTGCCTCCGGCCGGTTCAGCGTCACTGGCGCTGCAGTCCATCCACAGCCTGCGCCCCGACCTCGTGCTGCTGGACGTGTATCTGCCGGACGCCTCCGGCCTGGATCTCCTGCACCAGCTGGACGTTGACACCATGATCCTGAGTGCGGCATCCGACGCCGCCTCGTTGCGGACGGCCTTCCGCCGCGGGGCCCTTGGCTACCTGCTGAAGCCGTTCACGTCCGAATCCCTTTCCCAGCAGCTTCGGTCCTATGCCCGGTACCGGCGGATCCTGTCCCAGCCGGGCGCCCTGGACCAGGACACCGTGGAACGGGCCAAGCGGGCACTGATACCGGGCGACGTCGCGCCGTCGTCCCGGCCGCGCTCGGCCACTGAAGCGGCAGTGCTGGAGTCACTGGAGCCGGGCGAGCAGTATTCCGCTGCCGACGTCGCAGGGCGTGTGGGTGTCTCCCGGGCCACAGCCCAGCGGTACCTTTCGTCGCTGGCGGACGACGGCGCCGTCGAGATCCAGCTCCGCTACGGCACCACGGGCCGCCCGGAACACCGCTACGGCCTCCCCCCCGCCTAA	MPEDYRVLIVDDDFHVAKLHAAYVDSVAGFLALPPAGSASLALQSIHSLRPDLVLLDVYLPDASGLDLLHQLDVDTMILSAASDAASLRTAFRRGALGYLLKPFTSESLSQQLRSYARYRRILSQPGALDQDTVERAKRALIPGDVAPSSRPRSATEAAVLESLEPGEQYSAADVAGRVGVSRATAQRYLSSLADDGAVEIQLRYGTTGRPEHRYGLPPA				NA	NA	NA	NA	NA
D1-17_02719	384	yabJ	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGCGCAAGACTTTCGGCACCGGTTCCGTCTGGGAACAGACCCTCGGGTACTCCCGCGCGGTGCAGGTGGATAACACGCTGTACATCTCTGCCACGTCCTCCAGCGGCGAGAACGGTATTGTCGGCAGCGACTTCTATGAGCAGACCAAGTACATCCTGCAGAAGCTGGAAAAGGTTCTCGCCGACGCGGGGTTCAGCCTCGACGACGTTGTGCAGTCCAAGCTGTACCTGACGGACATCAGCAAGTGGGAGGACGCCGGACGCGCCCATGGCGAGGTCTTCGGCGAGATCCGTCCCACCTTGTCTTTGGTGCACGTGCTCCCGTTCCTGGACCCGGACATGCTCGTGGAAATCGAGCTAGTTGCCCAAAAGAGCGCCGGCTAG	MRKTFGTGSVWEQTLGYSRAVQVDNTLYISATSSSGENGIVGSDFYEQTKYILQKLEKVLADAGFSLDDVVQSKLYLTDISKWEDAGRAHGEVFGEIRPTLSLVHVLPFLDPDMLVEIELVAQKSAG	PGPT0020030_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020030-ridA|tdcF-K09022	NA	NA
D1-17_02720	504			hypothetical protein	GTGCAGCCGCAGATTACCGTCCGTCCCGCCGTCCCCGCTGATTTTGAGGAGATAGCCCGGATCACCCGTGATTCCTATCTGGCGGCGGGGTACTTCGACAGCGCAGACCACCCCTACATGCAGCAGATTCAGGACGTGGCCAAACGGGCGGCGCAGGCAACCGTCTGGGTGGCCGAGCGCGGGGGACGGACCGTCGGCTCGGTGACGCTGGCAGTCGCCGGCGAGCCGTATGCCGACATTGCCCTTGAGGACGAGCTGGAATTTCGGATGCTGGTGGTGGACCCGGCAGTCCAGCGCAGCGGCGCGGGCCGGGCGATGGTCGAGGCGATCATCGATCACGCCAAATCGCTGCACGGCATCCAGGGCGTCGCGCTGACCACCGGAACGACGTGGGAAAGCGCCCGTGGTCTGTACCGGACGACAGGTTTCCGGCGGGCACCCCAGCGTGACTGGTTCGTGCCCGGCACCGACATAAAGCTGCTGGTTTTCCGTCTCGACGTGTAG	MQPQITVRPAVPADFEEIARITRDSYLAAGYFDSADHPYMQQIQDVAKRAAQATVWVAERGGRTVGSVTLAVAGEPYADIALEDELEFRMLVVDPAVQRSGAGRAMVEAIIDHAKSLHGIQGVALTTGTTWESARGLYRTTGFRRAPQRDWFVPGTDIKLLVFRLDV	PGPT0018535_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
D1-17_02721	816	suhB	COG0483	Inositol-1-monophosphatase	ATGAGCCAGGACGTGAACGAGCTGCTTCAGGTGGCGAAGGCGGCGGCTGCCGCCGGCGCTGCTGTCCTCTCCACACGCGAGGACTCAGACCTGGCCGACGTCAGCAACAAGAGCGCCGCAGGCGACTGGGTCACTGCCTTCGACGTGGCCGCCGAGAACGCCGTCCGGAACTGCATCCTCGCCGCCCGTCCGCAGGACACCATCACCGGCGAGGAACACGGAACCACCCGTGCCGAAGTTCCCAGCGGGCTGCGCTGGTCCATTGATCCGCTGGACGGCACCACCAACTTCATCCGCAATATCGTCTACTACGCGACCTCCGTAGCCGTTGCCGATTCCGGCGGTGTCTGGCTGGCCGGCGTCGTCAGCGCTCCGGCATTGGGGCGGGTGTATTACGCCGCACGGGGCCAGGGCGCCTGGCTGGAACAGAACGGAAAGCTGGTCCAGCTCACCGGCCCGGTCTCCGGACGCACGGGTCAGATCCTTGCCACGGGGTTCAGCTACGACCCCGAGGTGCGGGCGGAGCAAGCAGCGGCGCTGGGCGGCTTCATGGACGGTTTCGCGGATATGCGCCGCCTCGGTTCCGCGGCCCTGGACCTCTGCCTGGTCGCTGACGGCACCCACGATGCCTTCGGCGAGCGGGGCCTGAACGAGCACGATTTTTCTGCCGGGGCCTTGATCGCCGAGGAGGCGGGCTGCTGGGTCCGCCGGCCCCGGCTGACCAGTCCGCTCGACGGCGGTCCGTCCGACGAGGAGCGCCTCGCCGCCTGGACCTGCGCCGGCACACTCGAGATGTCCGGAAAATTCCCGCTCTAG	MSQDVNELLQVAKAAAAAGAAVLSTREDSDLADVSNKSAAGDWVTAFDVAAENAVRNCILAARPQDTITGEEHGTTRAEVPSGLRWSIDPLDGTTNFIRNIVYYATSVAVADSGGVWLAGVVSAPALGRVYYAARGQGAWLEQNGKLVQLTGPVSGRTGQILATGFSYDPEVRAEQAAALGGFMDGFADMRRLGSAALDLCLVADGTHDAFGERGLNEHDFSAGALIAEEAGCWVRRPRLTSPLDGGPSDEERLAAWTCAGTLEMSGKFPL	PGPT0018535_3493	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
D1-17_02722	2241	ligA	COG0272	DNA ligase A	ATGGCATTATCCGGAACCGACCAGCTCGAGCCGGAAGCGATTCCGTCCGAGTCAGTTCGGGACGAGTACCAGAACCTGGTGGACCTTGTCAGGAAGTACCGGTTCGCCTACTACCAGGAAGACCAGCCGCTCGTCTCCGATGCCGAGTTCGATACCCTGTTCCGCAGGCTTGAGGAGCTTGAAGCCCTCCACCCCGAGCTCGTGTCCAACGACTCACCCACCCAGGAGGTGGGTGGGGAAGTGTCGGCGGCCTTTGCCGCCGTCGAGCATCTGCAGCGGATGTACAGCCTCGAGGACGTATTTTCCCTGGAGGAGCTGGCAGCCTGGATTGCCAAGGCAGAGGCGTCAATCGCAAAAATCGGAAACCCGCAGGCGGCGTGGCTTACCGAGCTGAAGATCGACGGACTGGCCGTCAATTTGCTCTATCGGGACGGCAAGCTGGTCCGGGCTGCCACCCGTGGGGACGGCACCACCGGTGAGGACATCACGCACAACGTGCTCACCATCAAGGAAATCCCGCAGCAGCTCACCGGAACCGGATTCCCGGCCGAGATGGAGGTCCGCGGCGAGGTTTTCATTCCCTCCAAGGCCTTTGCTGAGTTCAACGAGGCCCTGACTGAGGCAGGCAAGGCGCCGCTCGCCAACCCCCGGAACGCCGCCGCGGGTTCCATCCGGCAGAAGGATCCGGCTGAGACGGCAAAGCGCCCGCTGAAAATGTTCGTCCACGGCATCGGTGCCCGCGACGGGCTTCCGAGTGCAAGCCAGTCCGAAACGTACAAGAAGCTGGCGGAGTGGGGGCTGCCGGTCAGCCCGTACGTCGAAGTCCTGGGCAGCCTGTCCGAGATCCTGGAATTCATCGCCAAGTACGGGGACAAGCGCCACAGCCTGCTTCACGAAATTGACGGCATCGTGGTGAAGGTGGACGACTTCGCCACCCAGCGCGCACTGGGCTTCACCACCCGTGTTCCCCGCTGGGCGGTGGCCTACAAGTATCCGCCCGAAGAAGTGCACACCAAGCTGAGGGATATTGCGGTCAATGTCGGGCGGACCGGACGCGTCACACCGTTTGGCATCATGGAGCCGGTTAAGGTCGCAGGCTCCACCGTGGAAATGGCCACCCTGCACAACCAGGAGGTGGTCAAGGCCAAGGGCGTGAAGATCGGCGACATCGTGATCCTGCGCAAGGCCGGGGACGTGATCCCCGAAATCGTGGGGCCGGTGCTGGCGCTGCGGGACCAACAGGATCCGCCGGTCCGTGACTTCGTCATGCCCACCGAGTGCCCTTCCTGCGGGACACCGCTCGCCCCGGCCAAGGAGGGCGACGTCGATATCCGCTGCCCCAACGCCCGTTCCTGTCCGTCACAGCTTCGTGAACGGGTCTTCCACCTCGCCGGCCGCGGCGCCTTCGATATTGAAGCACTCGGCTGGGAAGCGGCCATCGCCCTCACCCAGCCCGCGGAGCCTGAGGTTCCTCCGCTCACCACCGAAGCCGCCCTTTTTGACCTGACGCCCGAGGATCTCGCCCCGGTGAAGATGCGGCGCGAGAAGCGGGCCAAGGGCGTTGGCACGGGGGAGTACGAGCTGGTGCCGTATTTCTACAGCAAAGGCACTGCGAAGACGCCGTCCAAGCCCACGGCAACTACGGAGAAGCTCTTCAGGGAACTGGAGAAGGCCAAGACCCAGCCTCTGTGGCGCGTCCTGGTGGCGCTATCGATCCGGCACGTCGGACCCCGGGCGTCGCGCGCCCTCGCCAACCACTTCGGCACTATGGACGCCATCCGGCAGGCGTCGGAGGAAGAGCTCGCGGGAGTTGACGGCGTCGGTCCCACGATCGCTGCCGCGCTCAAGGAATGGTTTGCCGAAGACTGGCATGTTGAGATCATCGACCGCTGGGCTGCTGCCGGAGTGCGCATGGAGGATGAACGGGACGAATCCACGCCGCGCACCCTCGAGGGCCTGAGCGTCGTTGTCACGGGGACGCTGGAGGGCTTCAGCCGTGATGAAGCCAAGGAAGCTATCCTCATCCGTGGGGGTAAGGCGGCCGGATCAGTATCCAAGAAAACCAGCTACCTGGTGGCCGGTGAGAACGCGGGCACCAAGCTGGACAAGGCAGAACAACTGGGGGTTTCTGTCCTCGATGAGGACGGGTTCCGGGAGTTGCTGGCCAAAGGACCGGCTGCATTTGAGGGCGACGGCCTGGGCCATGGCGAGGCGAACGGCGACAGGGACGGCGTCGAATGA	MALSGTDQLEPEAIPSESVRDEYQNLVDLVRKYRFAYYQEDQPLVSDAEFDTLFRRLEELEALHPELVSNDSPTQEVGGEVSAAFAAVEHLQRMYSLEDVFSLEELAAWIAKAEASIAKIGNPQAAWLTELKIDGLAVNLLYRDGKLVRAATRGDGTTGEDITHNVLTIKEIPQQLTGTGFPAEMEVRGEVFIPSKAFAEFNEALTEAGKAPLANPRNAAAGSIRQKDPAETAKRPLKMFVHGIGARDGLPSASQSETYKKLAEWGLPVSPYVEVLGSLSEILEFIAKYGDKRHSLLHEIDGIVVKVDDFATQRALGFTTRVPRWAVAYKYPPEEVHTKLRDIAVNVGRTGRVTPFGIMEPVKVAGSTVEMATLHNQEVVKAKGVKIGDIVILRKAGDVIPEIVGPVLALRDQQDPPVRDFVMPTECPSCGTPLAPAKEGDVDIRCPNARSCPSQLRERVFHLAGRGAFDIEALGWEAAIALTQPAEPEVPPLTTEAALFDLTPEDLAPVKMRREKRAKGVGTGEYELVPYFYSKGTAKTPSKPTATTEKLFRELEKAKTQPLWRVLVALSIRHVGPRASRALANHFGTMDAIRQASEEELAGVDGVGPTIAAALKEWFAEDWHVEIIDRWAAAGVRMEDERDESTPRTLEGLSVVVTGTLEGFSRDEAKEAILIRGGKAAGSVSKKTSYLVAGENAGTKLDKAEQLGVSVLDEDGFRELLAKGPAAFEGDGLGHGEANGDRDGVE				NA	NA	NA	NA	NA
D1-17_02723	669			hypothetical protein	ATGATCCGACCGACCCGCCTGCGGACCCTTGTGCTGCCAGGACTGGCAGCCTCCGTGCTGGCACTCACCGCCTCCGTTGCGTCCGGCAGCGTGCTGCATGCCACCGAATGCCTGCCGGAACAGTGCCCCACCACGCCACCAGCCACTGCGGCACCCGCTCCGAGCACACCCGCGCCCGCACGTACAACGTCGCCGGCCGCACCGGCTCCAGCCCCTGCACCGGCCTCTGCGCCAGCGCCTGCTCCACCGCAAGCTCCGGCGCCTGCACCCGCGCCCGCCCCTGCTCCTGCCAAACCCAAGCCAGCGCCGCCGGCGCCCGTGCCCGCCCGGGGACCGGTGGCCACCGCAGCGGTTCCACCCCGGGCAGCGCCAGCTGCCGGCGGTCCTGCAGCGCCTGTGGCTCCTGCCGTCGCCGTGCCCGTCGCCACCCCTTCAAGCTCACCGAGCACCGGCGCGGCCACGTTCAGCGCGCCGGCCGACTCCAGCTGGACCACACCTATCGAAGCTAGTGCCGAAGCGACGCAGGCGGCGGTCGTCAGCGCAGAGGACAATGGGCCGGGTATGGGGATTTTCGGCCTCTTCGCCCTTATGGGAGGAGTTCTGCTGGTGGGCCTTGGCGGACTCGCTTTCGCATTCTGGAGCCGGAACCGCCTCGCCTCGCACTGGTAA	MIRPTRLRTLVLPGLAASVLALTASVASGSVLHATECLPEQCPTTPPATAAPAPSTPAPARTTSPAAPAPAPAPASAPAPAPPQAPAPAPAPAPAPAKPKPAPPAPVPARGPVATAAVPPRAAPAAGGPAAPVAPAVAVPVATPSSSPSTGAATFSAPADSSWTTPIEASAEATQAAVVSAEDNGPGMGIFGLFALMGGVLLVGLGGLAFAFWSRNRLASHW				NA	NA	NA	NA	NA
D1-17_02724	861	stp_1	COG0631	Serine/threonine phosphatase stp	ATGGACTCACAGCAGGCGGCCAGCACTGAAAGGGCCGGGAGCACGTCGGGCCTCACACTTAGCTGGGGTTACGGAACGGACCGCGGTCTGCGCCGCGAGCTCAACGAGGACTCCTTCATCGCCACTGAGCCCGTGTTTGCGGTGGCCGACGGGATGGGAGGTCATGAAGCCGGGGAAGTGGCAAGCGGCATGTGCGTGCGTGCCCTGGCGCAGCTGCCCCAGCTCGCCACCCGGGAGCGCACGGCCACGGCTTCGCAGATTCAGCATTATCTCGACGTCGCCGACGAGTCGATTCGTACCGCCACCGACTCGCGGGCAGGCACCACGCTTACCGGCGTCGTCGTGGTGGAACAGATGGGCATTGACTACTGGCTGGTGCTGAACATCGGGGATTCGCGGACCTACCGGGTGAACCAAGGCCGGCTGACGCAGGTCAGTGTGGACCATTCCGAAGTGCAGGAACTGGTGGACACCGGGGAGATCACCGCTGAGCAGGCCAGCGTGCACCCCCGGCGTCATGTGGTGACGCGTGCGCTGGGCGCGGGCGATGAGACGGAAGCAGATTACTGGCTGCTTCCAATCGAAGAGGGCGACCGGATGATGGTGTGCTCGGACGGTCTCAACGGTGAAGTAAGTGACGAGCAGATCCTCGATATCCTCAGCACCGTCGCCGACCCGCAGGAAGCCGTGGACGAGCTGATCCAGGCCGCGCTGCGAGGCGGCGGGCGGGACAACATCACAGTGATCGTCGTTGACGCGCGGAACGTCGTCAACGGGGATGCCCAGTCCACCACGGCGGAAAAGGCGCTTGCCGCGCCTGAGGATGAGGACACCCTCCCGCTTCCGCAGCAGCCCAAGTAG	MDSQQAASTERAGSTSGLTLSWGYGTDRGLRRELNEDSFIATEPVFAVADGMGGHEAGEVASGMCVRALAQLPQLATRERTATASQIQHYLDVADESIRTATDSRAGTTLTGVVVVEQMGIDYWLVLNIGDSRTYRVNQGRLTQVSVDHSEVQELVDTGEITAEQASVHPRRHVVTRALGAGDETEADYWLLPIEEGDRMMVCSDGLNGEVSDEQILDILSTVADPQEAVDELIQAALRGGGRDNITVIVVDARNVVNGDAQSTTAEKALAAPEDEDTLPLPQQPK	PGPT0030420_523	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
D1-17_02725	1131		COG2114	pH-sensitive adenylate cyclase	ATGAACGATGAGGATCAGCGCATGAGCCAGGAGTCGGGTGCCGCTGAGGCGGAGGGTCCCGTCGTCAGTGCTCCTTCCACCGGCACCCTGTCTGCCGACCGGATCGCCATCAAAGCCCTTGAAACCAGGCTGCTCGGCGGTGAGCGCAAGCTGCGCCGCCGTGAGGTGGCTGCAGGAGCCGGCTTGTCGCTGCTGTCGGCACGGAAGCTGTGGCGCGCCTTGGGTTTCCCCAACCTCGGTGACGAGGAAGTCGCCTTTACCGAGCGGGACCAGGCGGCGCTGAACACCGCCGTCGACCTCGTCCGCACCGGGAAACTTACTGAAGAGGCCGCAATATCGGTGACCCGGGCCATCGGCCAGATGACGGACCGCATGGTGGTCTGGCAGATCGAGGCGCTCGTGGAGGACATGGTCCACGAGCAGGGTGTCACCGACGCCATGGCCCGGAAGCGCCTCGTGAACGAACTTCCCGCTCTGGTGGATCCGCTTGAAGAGATGCTCGTGTACTCGTGGCGGCGGCAGCTGAACGCGGCCGTGCACCGGCTTGCCGTCCGTGCCGAAGCCGGGTTGCAGGCCAGCGAAGAAGGCCGGGAAGGGGACGAGGACGACGCTCCGCTTCCCCTGGCCCGTGCCGTCGGCTTCGCCGACCTGGTCTCCTACACGAGCCTTTCCCGCCGAATGAATGAAAAGACCCTCGCCAAGCTGGTGCAGCGGTTTGAAAACAAATGCGCCGAAATCATCTCCGTCGGTGGTGGGCGGCTGGTGAAGACCGTTGGCGACGAAGTGCTCTACATCGCTGAAACCCCGGCCGCGGGCGCCGAAATTTCGCTGGCTTTGGCCGAGGCATTCACACAGGATGAAATTCTCCCGGAAGCGCGCGTGGCTATGGTGTGGGGACGGATCCTGTCAAGGCTGGGTGACATTTACGGACCCACCGTCAACCTCGCCGCGCGCCTGACCACGCTCGCGGACCCCGGAACGGTGCTGATCGATTCCATGACCGCCGCAGCCCTGGACCAGGACGAGCGCTTTGTGCTGATTCCCCAGGAAGCGGAGAATGTCCGTGGCTTCGGTGAGATCCAGCCGGTCATTCTCGCCCGCGGCCAGGGCAAGGGGCTCGTGCTGGACTAG	MNDEDQRMSQESGAAEAEGPVVSAPSTGTLSADRIAIKALETRLLGGERKLRRREVAAGAGLSLLSARKLWRALGFPNLGDEEVAFTERDQAALNTAVDLVRTGKLTEEAAISVTRAIGQMTDRMVVWQIEALVEDMVHEQGVTDAMARKRLVNELPALVDPLEEMLVYSWRRQLNAAVHRLAVRAEAGLQASEEGREGDEDDAPLPLARAVGFADLVSYTSLSRRMNEKTLAKLVQRFENKCAEIISVGGGRLVKTVGDEVLYIAETPAAGAEISLALAEAFTQDEILPEARVAMVWGRILSRLGDIYGPTVNLAARLTTLADPGTVLIDSMTAAALDQDERFVLIPQEAENVRGFGEIQPVILARGQGKGLVLD	PGPT0021560_5652	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
D1-17_02726	600			hypothetical protein	ATGCGTAAAGACCTCTTGCCCGGGGAGCAGGTCATCGTCATGACCCGCCCGCAGCCCAGGGCGCTGGTTCTGCCGGCCGTGGTGTTTGTCCTGGCACCTGCCCTGGCCGCATTCGCCAGTGCCTGGATCATCCGCGGCGGCGTGCGGAGCGTGTATCCGGACATTCCGGCCGGCTGGACCAACTGGCTTGTGGCGGGCTGCGTGCTGGCCGCTCTCTGGGTGCTCCTCAGTTACTGTCTGCCGCGGTTGCTGCGGTGGCAGTCCACACGGTACTTCCTCACCAACTGCAGAATCCTGGCCCGTTACGGCACGATGCGCCGGCGTGACCGGCAGGTGTTCCTGGCCTCCGTGCGTAATGTCACTGTCACCCAGACGATGCTCCAGCGGATGTTGCGTTCCGGGACTATATCCTTGGATGCCGGGCACCAGTTCAGCACCGTGTTGCGGGACGTGCCCGAAGTCGCCACTTTCCACAGGTTTGTGCTGGACGCTCTCAGTGAGCTTCCAAGGGATGAGTTTTATGAGCGGGGCCAGGCGCCGGACGGCCCGGACGCGGGGTTCTGGCGGGATGTGAGAGAAGGTGGGAGAGATGAACGATGA	MRKDLLPGEQVIVMTRPQPRALVLPAVVFVLAPALAAFASAWIIRGGVRSVYPDIPAGWTNWLVAGCVLAALWVLLSYCLPRLLRWQSTRYFLTNCRILARYGTMRRRDRQVFLASVRNVTVTQTMLQRMLRSGTISLDAGHQFSTVLRDVPEVATFHRFVLDALSELPRDEFYERGQAPDGPDAGFWRDVREGGRDER				NA	NA	NA	NA	NA
D1-17_02727	999	birA		Bifunctional ligase/repressor BirA	ATGGATGCCGCACGCCCTGACGAAAGCCCGGAAGTACGCCCGAACGGATTGAACGGACGCCCGGAGCACCCTCGCAATAACGGCGAAGAACTGCACCGGGAAGAACTGCACCGACAGACGCTGGACCGTGAGGCGCTGTCCGGCGCCGAGTTCCTGTCCGCCTACGGCATCCCACAGCTAACCGTAGTAGACGTCACCGGCTCCACCAATGCAGACCTCCTGCGTGCCGTCACCACCGAGCCGAAGGCGTGGCCGGACCTCTCGGTCCTGGCAGCCGAGCACCAGACGGCCGCCCGTGGCAGGCTGGACCGTGTCTGGGAGGCGCCGGAGCGCAGCTCTGTCCTGGTGTCGATCGTCCTGCGCCCGGTCAACGCGGACGGCAGGCCGTTGCCGACCCAGACCTACTCCTGGCTCTCGCTCCTGGCCGCCCTCGCGCTCCGTGAAGCCCTGCTGGAGACAGCCGGGCTGCCGGCCGAGCTCAAGTGGCCGAACGATGTCCTGGTGCGCGGCCGGAAAATCGCCGGCATCCTGGCCCAGCTTGGACCAATGGGAGACGGAACCGTCCCGCCGGTCATCCTCGGTACCGGACTGAACGTGACGCTGACCGAGTCTGAACTGCCCGTTCCCACCGCCACCTCGGTGTTGCTGGAGGGAGCCCGGACGGTGGACCGCACGGCACTGCTAAAGAGTTATCTGTCGAAGTTCTGCACGCTGTACCGCAGCTTCTGCAATGCAGACGGCGACCCGACGGCGGGGCTCGCCGGCGGCCCTTCACTGCACAAGCGTGTGGAGGCGGCCATGGTGACCCTGGGGCAGCAGGTCCGCGCCCATCTGCCCGGCGACCATGAAATCACCGGGCACGCCACCCGGCTGGATGACTCCGGCTCCCTGCTGGTCGTGGACGCCTCGGCCCACGAGCACGCCGTGACGGCGGGGGACGTAATCCACCTGCGTCCCTGGTCTGCGCCGGAGGAGCGTGCGGAAAGCGGTAATGCGTAA	MDAARPDESPEVRPNGLNGRPEHPRNNGEELHREELHRQTLDREALSGAEFLSAYGIPQLTVVDVTGSTNADLLRAVTTEPKAWPDLSVLAAEHQTAARGRLDRVWEAPERSSVLVSIVLRPVNADGRPLPTQTYSWLSLLAALALREALLETAGLPAELKWPNDVLVRGRKIAGILAQLGPMGDGTVPPVILGTGLNVTLTESELPVPTATSVLLEGARTVDRTALLKSYLSKFCTLYRSFCNADGDPTAGLAGGPSLHKRVEAAMVTLGQQVRAHLPGDHEITGHATRLDDSGSLLVVDASAHEHAVTAGDVIHLRPWSAPEERAESGNA	PGPT0022055_88	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022055-birA|bpr-K03524	NA	NA
D1-17_02728	924	hcaB_5		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACCTCGAGCAATGACGCTTCGCTGCCCACCGCCGCGCCGTACCAGGCCACCGGTTCACTGCGGGGCCGGACGATCCTGATGTCCGGCGGCAGCCGCGGCATCGGTCTTGCCATCGCACTGCGGGCAGCCGGCGACGGAGCGAATATCGTCCTGCTGGCTAAGACCGGCCAGCCCCATCCAAAGCTTCCGGGAACAGTGTTTTCCGCCGCCGAGGAGCTGGACGCTGCCGGCGGGCACTCGCTTCCTCTCGTGGGTGATGTCCGCAAGGACGACGACGTGGCGCGCGCGGTGGGTGCCGCCGTCGAACGTTTTGGCGGGATTGACATCGTCATCAACAACGCCTCGGCCATCGACCTTTCCCGCACCGACGACGTCGACATGAAGCGCTACGACCTCATGCAGGACATCAACGTCCGGGGCACCTTCCTGCTGTCCAAGCTGGCGCTGCCCGCACTCCGCACGTCGTCCGGAGGCCAGATCCTTACCCTGTCACCGCCGCTGAACCTGGATCCGAAGTGGGCCGGCAGGCACCTGGCCTACACCATGGCCAAGTACGGGATGAGCCTGACCACTCTGGGCCTGGCGGAGGAGCTCAGGACCGACGGCATTAGCGTCAACTCCCTGTGGCCGTGCACCCTGATTGACACCGCGGCCATCCGCAACTTGCCCGGGGGCACGCCGAAGGTCCAGGCGGCCCGAAGCCCGAGGATCATGGCCGACGCAGCCCATGCCGTGCTCACGGGAGCCAATCTGAGCAATGACACTAAACCCGGCAATGGCACTGATCCCAGCAATCGCATTGAAAGGTCCGGAAACTTCTACACGGATGAAGAAGTGCTGGCGGCGGCGGGTGTGGCCGATTTTAGGCCCTACAGCCTCGGCGCCGCCGAGGACGAACTGGAACCTGACATCTTCCTCTGA	MTSSNDASLPTAAPYQATGSLRGRTILMSGGSRGIGLAIALRAAGDGANIVLLAKTGQPHPKLPGTVFSAAEELDAAGGHSLPLVGDVRKDDDVARAVGAAVERFGGIDIVINNASAIDLSRTDDVDMKRYDLMQDINVRGTFLLSKLALPALRTSSGGQILTLSPPLNLDPKWAGRHLAYTMAKYGMSLTTLGLAEELRTDGISVNSLWPCTLIDTAAIRNLPGGTPKVQAARSPRIMADAAHAVLTGANLSNDTKPGNGTDPSNRIERSGNFYTDEEVLAAAGVADFRPYSLGAAEDELEPDIFL	PGPT0019830_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019830-atuH-K13775	NA	NA
D1-17_02729	1584	accD5	COG4799	putative propionyl-CoA carboxylase beta chain 5	ATGAGCCACGATCTGACCACGACGGCGGGAAAGATTGCCGATTTCCGCGACCGCCAGGCCAGCGCAGAGCAGCCCTCAGGTCCTGAAGCCATTGAAAAACAGCATGCCCGCGGAAAAAACACTGCCCGCGAACGCATCGACCTCCTGGTGGACGCCGGCTCTTTCGTGGAGTTCGATGCATTGGCCGTGCACCGGTCCACGGCCTTCGGGATGGAGAAGAAGAAGCCGCTCGGCGACGGTGTGGTGTCCGGCTACGGCACCGTCGACGGGCGCCTGGTGGCGCTCTACAGCCAGGACTTCAGCGTTTACGGTGGGTCGCTCAGCCAGGTCAACGGCGAAAAAATCGTCAAGGTCCAGGAGTTCGCACTGCGCAACGGATGCCCGGTGGTGGGCATCAACGACGGCGGCGGCGCCCGCATCCAGGAAGGCGTGGCGTCCCTGGCCATGTTCGCCGACATCTTTCGGAACAACGTCCACGCTTCGGGCGTCGTCCCACAGATCTCCCTGATCATGGGCCCCTGCGCCGGCGGCGCCGCCTACTCCCCCGCCCTCACCGACTACGTGGTGATGGTGGATAAGACCTCCCACATGTTCATTACCGGGCCAGACGTCATCAAGACCGTCACCGGTGAAGACGTGGACATGGAGACTCTCGGCGGCGCCCGGCAGCACAACGCCACCACCGGCACATCCACTTATTTGGCCTCGGATGAAGCCGACGCGATCGAGTTCGTCCGGGAACTGCTGGACTTCCTTCCCTCCAACAACCTGTCGGAAGCACCCGTCCTGGAGCACCTGCAGGAGCTGGAGCTCGACGACGACGACCTCGCCCTGGACGTGCTGATCCCGGACTCCGCCAACCAGCCGTACGACATGCGCAAGGTCATCGAACAGGTCGTCGACGACGCACACTTCCTTGAGATGCAGTCCCTGTACGCACCCAACGTGATCATCGGATACGGCCGCGTTGAGGGCCACACCGTGGGCATCGTGGCCAACCAGCCCATGCAGTTCGCGGGCACCCTGGACATCTCGGCGTCCGAGAAAGCGGCACGCTTCGTGCGGCACTGCGATGCCTTCAACATTCCCATCATCACCCTGGTGGACGTTCCCGGCTTCCTCCCCGGGAAGGACCAGGAGTTCCAGGGCATCATCCGACGCGGCGCCAAACTCCTGTACGCGTACGCCGAGGCTACGGTGCCGAAGCTGACGGTCATCACGCGGAAGGCGTACGGCGGGGCTTACATCGTCATGGGCTCCAAGAAGCTCGGGGCGGACCTCAACCTGGCCTGGCCCACCGCTCAGATCGGCGTCATGGGCGCGCAGGGCGCCGTCAACATCCTCTACCGCCGTGATCTCGCTGCCGTTGCCGAAGCAGGCGGTGACGTCGAAGCCAAGCGCGCCGAGGTCATCCGCCAGTATGAGGAAGAACTGCTCAACCCTTACCAGGCTGCTGAACTGGGCTATGTTGACGTAGTCATCGCACCCTCGGAGACACGGGTCCAAATCATCAAGGGGCTTCGCGCGCTCCGCGACAAGCGCGCCAGCCTTCCGACCAAGAAGCACGGGAACATCCCGCTGTGA	MSHDLTTTAGKIADFRDRQASAEQPSGPEAIEKQHARGKNTARERIDLLVDAGSFVEFDALAVHRSTAFGMEKKKPLGDGVVSGYGTVDGRLVALYSQDFSVYGGSLSQVNGEKIVKVQEFALRNGCPVVGINDGGGARIQEGVASLAMFADIFRNNVHASGVVPQISLIMGPCAGGAAYSPALTDYVVMVDKTSHMFITGPDVIKTVTGEDVDMETLGGARQHNATTGTSTYLASDEADAIEFVRELLDFLPSNNLSEAPVLEHLQELELDDDDLALDVLIPDSANQPYDMRKVIEQVVDDAHFLEMQSLYAPNVIIGYGRVEGHTVGIVANQPMQFAGTLDISASEKAARFVRHCDAFNIPIITLVDVPGFLPGKDQEFQGIIRRGAKLLYAYAEATVPKLTVITRKAYGGAYIVMGSKKLGADLNLAWPTAQIGVMGAQGAVNILYRRDLAAVAEAGGDVEAKRAEVIRQYEEELLNPYQAAELGYVDVVIAPSETRVQIIKGLRALRDKRASLPTKKHGNIPL	PGPT0001712_828	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0001712-pccB-K01966	NA	NA
D1-17_02730	300			hypothetical protein	GTGAACGCGAAAAAGCCATTGGTTCGGCGCGCTGAAACCCGTGAGCCCGCCGGGACCGCTGAGCCGGCAGAAGCTGAGCCGGCCGCAACCCTTGTGCCGGCGGAAGCGCCGCTGTTCTCCGTCGTCAAAGGGAATCCCACGCCGGAAGAGCTGGCGGCGCTGACCGCCGTCGTGCTTTCCCTTGGACCGGGCGAGACTGTTGAGGCCGGCAAGCCCAGCGTGCGCCACTGGGTGCGGCGGCAGCAGCTGCGGCTGGCCCCCACGCCCGGCCCTGGCGCATGGAAGCGGAGCCGCGGCTGA	MNAKKPLVRRAETREPAGTAEPAEAEPAATLVPAEAPLFSVVKGNPTPEELAALTAVVLSLGPGETVEAGKPSVRHWVRRQQLRLAPTPGPGAWKRSRG				NA	NA	NA	NA	NA
D1-17_02731	1686			hypothetical protein	GTGACTAGTGAAACCACAGCGCCAGGGCGCCCCCGGACTGCCATTGATACCGTCGCCGAGGCCTACACGGACACCTTGGTCCGGCTCAACCCGAGCTTTGCCACCATCCTGGGCGTGCCCGGACACGACACGGAGCTCCAGGACTTCTCACCGGCCGGCGTCGAGGAGTTTGCGGCCGCCGCACGGGAAACCCTGGCTGCCCTCGACGGACTGGACCCGGTGGACGACGTTGACGCCGTCACCCTTGACGCGATGCGTGAGCGCCTTGGCCTGCAGTTGGAGTTTCACGCATCGGGCTGGGACGAGGCCGAGCTCAACAATATAGAATCTCCCGCCCAGAACATCAGGTCCATCTTCGACCTCATGCCCTCGGACACGGAGGAGCACTGGGAGAACATCGCCGGCCGCGCCGCCAATGTTCCCGGTGCAATCCGGGGCTACGTCGAATCGTTGCGCGCAGCCAAGGATGCAGGGCGTGTTTCCGCTGCCCGCCAAGTCGCCATCGTCATGGAGCAGGCCAGTAAGTACGCCGCAGAAGACGGCTTCTTCGCAAACCTTGCCGCCGGCGCGACGGCAGGTGACGGGCCGCTGCCTGCCGCGCTTCAGGAGAAGCTCGACGCCGGTGCTGCCGCTGCCCGGGGCGCGTACGCAGAGCTTGCTGCGTTCCTCAGGGATGAACTGCTGCCGGCTGCGCCAGCAAAGGATGCGGTGGGACGGGAACGGTACGCACTCGCGTCCCGCGGCTTCCTCGGGGCCGCTGTGGACCTCGAAGAAACGTACGCGTGGGGCATCGGGGAACTCGAGCGGATCATCGCCGCCCAGGAGGCCGTAGCCAATGAAATCCGGCCGGGCGCCTCGGTTGCCGAGGCCAAGCAGATCCTTAACAACGATCCGGCGCGCCAGCTCAAGGGTAAGGATGCCTTGAAGGCATGGATGCAGGAGCTCTCAGACCGGGCGATCACCGAGCTTTCCGGTGTCCATTTTGACATCCCCGACGTCATGAAGACGCTCGAATGCCTCATCGCTCCGACCGATGAGGGGGGCATCTACTACACCGGCCCGACCGACGACTTCAGCCGCCCCGGGCGCATGTGGTGGTCCGTGCCTGCCGGCGAGGACACGTTCACCACGTGGGCTGAAACCACCACTGTGTTCCACGAAGGCGTTCCGGGACACCACCTGCAGGTGGCCACTGCCGTGTACCGGCGCGAACTCCTCAACAGCTGGCGCCGTAACGTCTGCTGGACTTCAGGGCACGGCGAGGGATGGGCGCTGTACGCCGAAAAGCTGATGGAGGAGCTTGGCTACCTCAAGGATCCGGGCGATCACATGGGCATGCTGGACATGCAGCGGATGCGGGCCGCGCGGGTGGTCTTCGACATCGGGGTCCACCTTGAGCTCGACATACCCGGGCAGTGGGGCTCTGGACCGTGGACGCCGGAGAAGGGCTTCGAGTTCCTGAAGGCGAACCTTGACATCAGCGAAGGCAACCTGCAGTTCGAATTTGCGCGCTACCTCGGGTGGCCGGGGCAGGCACCCTCCTACAAGGTGGGCCAGCGGCTGTGGGAACAGATCCGAACCGAACTTGAAGCCCGCCCCGGCTTCGATCTCAAGGCGTTCCACACGAAGGCACTGAACATCGGCTCCGTAGGACTGGACACCCTCAAGCGCGCCATGCTCGGCTAG	MTSETTAPGRPRTAIDTVAEAYTDTLVRLNPSFATILGVPGHDTELQDFSPAGVEEFAAAARETLAALDGLDPVDDVDAVTLDAMRERLGLQLEFHASGWDEAELNNIESPAQNIRSIFDLMPSDTEEHWENIAGRAANVPGAIRGYVESLRAAKDAGRVSAARQVAIVMEQASKYAAEDGFFANLAAGATAGDGPLPAALQEKLDAGAAAARGAYAELAAFLRDELLPAAPAKDAVGRERYALASRGFLGAAVDLEETYAWGIGELERIIAAQEAVANEIRPGASVAEAKQILNNDPARQLKGKDALKAWMQELSDRAITELSGVHFDIPDVMKTLECLIAPTDEGGIYYTGPTDDFSRPGRMWWSVPAGEDTFTTWAETTTVFHEGVPGHHLQVATAVYRRELLNSWRRNVCWTSGHGEGWALYAEKLMEELGYLKDPGDHMGMLDMQRMRAARVVFDIGVHLELDIPGQWGSGPWTPEKGFEFLKANLDISEGNLQFEFARYLGWPGQAPSYKVGQRLWEQIRTELEARPGFDLKAFHTKALNIGSVGLDTLKRAMLG				NA	NA	NA	NA	NA
D1-17_02732	1425	dctA_2	COG1301	C4-dicarboxylate transport protein	GTGAGCACTCAAACCAGCACCCCTCCTTCGTCCGGATCATCCGGATTCCAGCTGCCCAGATGGGCAGGCTCCTTCGCCTTCCAGATCATCGCTGCCCTGATCGTGGGACTCGGCCTTGGCCTGCTGGCCAAGTACACCGGCAGCACGAAAGCCAGCCCCAACGCCCTTGGCGCGACGCTGCAGACCATAGGGTCGAGTTATGTCTCGTTGCTGCAGACCGCCGTCGTTCCCCTGATCTTCACCGCGGTAGTGAGCTCCATTTCCAACCTCCGCGAGGTCTCCAACGCGGCGCGGCTGGCCTGGAACACCCTGCTGTGGTTTGCCATTACGTCCCTGATCGCCGTCCTGATCGGCATCGGCCTCGGCGTGGTGCTGCAGCCCGGCACCAATACCGGTATTTCCGGTGAGCGCGGGGAGTACTCCGGCAAGTCGGGTGACTGGTGGGCGTTCCTGACAGGCCTCTTCCCCAAGAATTTCCTCGGCCTTGGTGCGAGCTCCACCGTGGCCGAATCCGGCGCTGTGACCACAGCCGTCAGCTTCAACGTGCTGCAGATCCTGGTCATCGCAATCGCCGTCGGCATCGCCGCCCTCAAGGTCGGCAAGCAGGCCGAACCTTTCCTGACGCTCAATGCCTCAGCGCTGGCAGTGATCCAGAAGGTCCTGTGGTGGATCATCCGGATTGCGCCGCTGGGCACTGTCGGTCTGATCGGCAACGCCGTCGCCGTCTACGGCTGGGACACCATCGGTGCACTGGGCAAGTTCACGGCTGCCATCTACATCGGCCTCGCACTCGTCATCTTCGGCGTGTACCCCGTGCTGGTCCGGTCCCACGAGCTGTCCGTCAAGCAGTACTTCTCCGGCGTCTGGCCGGCCGTGCAGATGGCATTCGTCTCGCGGTCATCCATCGGCACCCTTCCGCTGACACAGCGGGTGACCGAGCGGAATCTCGGCGTCCCCCGCGGTTATGCCTCGTTCGCCGTTCCCCTGGGCGCGACTACCAAGATGGACGGCTGCGCAGCCATCTACCCCGCAATTGCGGCCATTTTCGTCGCGCAGTTCTTCGGCATCGAGCTGGGCTTCAGCCAGTACCTGCTGATCGCGCTGGTATCCGTGCTCGGCTCGGCTGCTACTGCCGGCACCACTGGCGCCGTGGTCATGCTCACGCTGACCCTCTCCACGCTGGGACTGCCGCTGGCCGGCGTCGGCCTCCTGCTCGCTGTCGACCCCATCCTGGACATGGGCCGCACCGCGGTTAACGTTGCCGGCCAGGCCCTTGTCCCAACACTGGTGGCCAAGCGTCAGGGCATCCTGGACGAGGGGCTGTACAACGCCCACCGGACCGGAGACCCCTTCACAGACGACGCACCTGCATTCGCTATGCCGGCCTCACACGAAACGCCCCAACTGGCGGGCGCGAAGCGCTGA	MSTQTSTPPSSGSSGFQLPRWAGSFAFQIIAALIVGLGLGLLAKYTGSTKASPNALGATLQTIGSSYVSLLQTAVVPLIFTAVVSSISNLREVSNAARLAWNTLLWFAITSLIAVLIGIGLGVVLQPGTNTGISGERGEYSGKSGDWWAFLTGLFPKNFLGLGASSTVAESGAVTTAVSFNVLQILVIAIAVGIAALKVGKQAEPFLTLNASALAVIQKVLWWIIRIAPLGTVGLIGNAVAVYGWDTIGALGKFTAAIYIGLALVIFGVYPVLVRSHELSVKQYFSGVWPAVQMAFVSRSSIGTLPLTQRVTERNLGVPRGYASFAVPLGATTKMDGCAAIYPAIAAIFVAQFFGIELGFSQYLLIALVSVLGSAATAGTTGAVVMLTLTLSTLGLPLAGVGLLLAVDPILDMGRTAVNVAGQALVPTLVAKRQGILDEGLYNAHRTGDPFTDDAPAFAMPASHETPQLAGAKR				NA	NA	NA	NA	NA
D1-17_02733	705			hypothetical protein	ATGGACATCATTCTGGTTCCCGGGTTCTGGCTCGATGCATCCTCGTGGTCCGGGGTCACTCCCCCGCTCACCGCCGCCGGGCACAAAGTCCATCCGCTGACGTTGCCCGGGCTGGAGGCTCCTGATGCAGAGCGGGGCAGCATCGGGCTGCGCGACCACATCAACGCTGTCGTGGAAACAGTCGACGGCATTGGCGGCCAGGTGGTCCTCGTGGGCCACTCGGGCGGCGGTGCCATCATCCACGGTGCAGTCGACGCCCGGCCGGACCGCGTCGCACGTGCCATCTATGTGGACAGCGGGCCTCTCGGTGAGGGCGGCGTCATCAATGATGAACTGCCGGCGCAGGGTGATGAGATACCGCTGCCGCCGTGGGAAGGCTTCGAGGAGGAGGACCTGGTGGACATGAATGACGACCTTCGGGCCATGTTCCGTGCGCGTGCCATTCCCCAGCCCAAGGGCGTGGCCTACGGCCGGCAGCACCTTTATGACCCGCGCCGCTATGATGTGCCCGCCACAGTCATCGCCTGCGAGTTTCCCAGCAGCCTGCTCAACGACTGGATGGATGCGGGCCACCCGTACGTTGAAGAACTGTCCCGCATCCGTGACGTCGAGCTGGTGGACCTGCCGACGGGGCACTGGCCGCAGTTCACCAGGCCTGCCGAACTGGGACAGGCAATCCTGGCAGCGGTGGACAAGTCCGCTTAG	MDIILVPGFWLDASSWSGVTPPLTAAGHKVHPLTLPGLEAPDAERGSIGLRDHINAVVETVDGIGGQVVLVGHSGGGAIIHGAVDARPDRVARAIYVDSGPLGEGGVINDELPAQGDEIPLPPWEGFEEEDLVDMNDDLRAMFRARAIPQPKGVAYGRQHLYDPRRYDVPATVIACEFPSSLLNDWMDAGHPYVEELSRIRDVELVDLPTGHWPQFTRPAELGQAILAAVDKSA				NA	NA	NA	NA	NA
D1-17_02734	621			hypothetical protein	ATGAACCGTAGCAAGAAGGTTGCACTCAGCCTCGGTGCTGCAGCGGTTGCGCTCGGCGCCGGTTTGAGCGCGACAGGAATAGCCTCAGCGACGACTGCCCCACCGACCCCCAACTCCGGCAGTTCCTCGGCGAACGCGGCGCCCGAGGGTCAGGCGCCAGGCAATGGGCAAGACAAAGGGCAAGGCCCTGGCCGGAGCGTAGGCAAAGGTCAAACCCACGGCCATGCCTTAGGTCACGGCCGGGCTCACGGGCAGGGGCTGCGCGGAGCGCAGGCTTCAGCGCTGGCGGCCAAGCTGGGAGTGGACGGAGCCAAGGTGGCAGACGCTCTCCGGAAATTCAGGCAAGAAACCCGGCCGTCCGGTCCCGGGGCTGGTGGTCAGAAGCCGGACCGCGCGGCGAGGGACGCAGCGCTGGCCGCATCCTTGGCAAAATCACTGGGGATCGATGAGGCCAAGGTGAAGGCCGCGCTGGAGGAACTTCGCGCTGAGGCCGGTAAGAACCGGGCTGCAGACCTGAAGCCGCGGCTGGACCAGGCTGTTAGGGACGGCACGCTTACCCAGGCGGAGGCGGATGCCGTGATGAAGGCAGTGGAGCAGGGCGTGATCGGTGGACGCCACTGA	MNRSKKVALSLGAAAVALGAGLSATGIASATTAPPTPNSGSSSANAAPEGQAPGNGQDKGQGPGRSVGKGQTHGHALGHGRAHGQGLRGAQASALAAKLGVDGAKVADALRKFRQETRPSGPGAGGQKPDRAARDAALAASLAKSLGIDEAKVKAALEELRAEAGKNRAADLKPRLDQAVRDGTLTQAEADAVMKAVEQGVIGGRH				NA	NA	NA	NA	NA
D1-17_02735	675		COG0424	Nucleoside triphosphate pyrophosphatase	GTGACCCGCCTCATTCTTGCTTCCCAGTCCCCCGCCCGCACCAAACTGCTCAGCAACGCGGGCATCGCCCATGACATCCTCGTCTCCGATGTGGACGAGGACGCCGTCCAGGCGCGCTACGGCGTGACGGATCCGCACGACACCGCCCTGCTCCTGGCACGCGCCAAAGCCGAAGCCGTGGCCTCCCTGCCCGAAGCTGACGGCGCCCTGGTGATCGGCTGCGATTCCGTCTTCGAATTCGACGGCGAAGCCCATGGCAAGCCCTACACAGCCGAGGTAGCGAAGGAACGGATGCTTCGGATGAGCGGCAGCATGGGCGTGCTGCACACCGGCCACTGGCTGGTGGATTGCCGGGACACCGGTGGGTCCGACGACGGCGACCCCGGCTCAGGCGCGACTGTCGGCTCGGTATCTTCGGCCGAAGTCCATTTCATGGACATGAGCGAGGACGAGATCGATACTTACATCGCCACGGGCGAGCCCCTTCAGTGCGCGGGATCCTTCACAATCGACGGCTACGGCGGCGCCTTCATCCGCAAGGTCGACGGCGACCCCCACGCCGTCGTCGGGCTCTCCATCTCCACCCTGCGCGGCCTGCTCGGCCAGGCAAAAGTGAACGTCACGGAACTGTGGACCGGCGGCGCCGCTGATCCGGCAGAGGTGCGTGCCGAGTAG	MTRLILASQSPARTKLLSNAGIAHDILVSDVDEDAVQARYGVTDPHDTALLLARAKAEAVASLPEADGALVIGCDSVFEFDGEAHGKPYTAEVAKERMLRMSGSMGVLHTGHWLVDCRDTGGSDDGDPGSGATVGSVSSAEVHFMDMSEDEIDTYIATGEPLQCAGSFTIDGYGGAFIRKVDGDPHAVVGLSISTLRGLLGQAKVNVTELWTGGAADPAEVRAE				NA	NA	NA	NA	NA
D1-17_02736	1815	carB_2		Carbamoyl-phosphate synthase large chain	TTGTCAGTTAAGCCGGAGCAGTCCGCAGGCCCAGTGCACGCAAACCTCACAAAGGTCCTGATCGCGAACCGCGGTGAGATCGCCGTACGCATCATCCGGGCAGCCCGGGACGAAGGCATCGCCTCCGTCGCCGTGTACGCCGAGCCCGACCGGGATGCCCTGCACGTCCGCCTCGCGGACGAGGCCTACGCTTTGGGCGGCAACACCGCTGCCGAGTCGTACCTGGTCATGGACAAGCTGATTGAGGCAGCCCGCCAGTCCGGCGCTGATGCAATCCACCCCGGTTACGGCTTCCTGGCGGAAAACGCCCAGTTCGCCGCGAAGGTCATCGACGCCGGCATCACGTGGATCGGCCCGTCACCGGAAGCGATTTCTGCGCTGGGTGACAAGGTCCAGGCCCGCCACATCGCCGAAAAGGTCGGGGCGCCGCAGGTGCCCGGCACGGCCGACCCCGTCGCATCCGCCGAGGAAATTCTGGAGTTCGTTGACAAGTACGGCCTCCCCGTCGCCATCAAGGCCGCCTTTGGCGGCGGCGGCCGCGGCATCAAGGTTGCGCGTACCCGCGAGGAAATCCCGGAACTCTACGAGTCGGCTGTCCGGGAGGCGACTGCGGCATTCGGCCGCGGTGAATGCTTCATCGAGCGGTTTTTGGACGCCCCCCGCCATGTGGAGACGCAATGCCTGGCCGACGCCTACGGCAACGTCGTTGTGGTTTCGACCCGCGACTGCTCCCTGCAGCGCCGCAACCAGAAGCTCGTCGAAGAGGCTCCGGCACCGTTCCTCACCGAAGAGCAGAACAGGCGCCTCTACGAGTCCTCCAAGGCGATCCTCAAAGAGGCCCGCTACCTCGGCGCCGGAACCTGTGAATTCCTCGTGGGGCAGGACGGCACCATCTCCTTCCTCGAGGTCAACACCCGCCTCCAGGTGGAGCACTGCGTGTCCGAAGAGGTCACGGGAATCGACCTGGTCCGCGAGCAGTTCCGCCTGGCCCGTGGCGAGAAGCTGGGCTATGACGACCCGGAGGTCCGCGGTCACTCCATCGAATTCCGCATCACCGGCGAAGACCCCGGCCGGAACTTCATGCCCGCCCCGGGCACCATCACCATGCTGAAGAACCCCACCGGTCCCGGCGTCAGGATCGACTCCGGCGTGGAGCAGGGTGACGTCATCAGCGGCAACTTCGACTCGATGCTGTCCAAGCTGATCGTCACCGGAGCCACGCGTACCCAGGCGCTGCAGCGCTCCCGCCGGGCGCTTGAGGAAATGGTGGTGGAAGGCATTCCCACCGTCATCCCGTTTGACCTTGCCGTGGTCAGCCACCCGGACTTCGCCCCCGAGGAGGGGCCGTTCAGCGTCCACACGCGCTGGATTGAGACCGAATTCGCCAACGAGCTGCCTGCCTGGACGCCCGGCGGTGCCGGAAGTGAAGCCGCAGAGGAACCGGGCGACCGCCGGACCTTCGTGGTGGAGGTCGGCGGCAAGCGGCTGGAAGTTGCCCTCCCCGCCTCACTAAGCTTCAGCGGCGCTGCCTCCGGCGGCGGAAAGCCGGCCAAGTCCAAGAAGCGGAGCCGGTCCGGCGGTACGGCTGTAGCGGCAGGCGGCAATGCCCTGACCTCCCCCATGCAGGGCACCATCGTTAAGGTGGCCGTCGCCGAGGGTGACGTCGTCGCCGAGGGGGATCTCGTCGTCGTGCTGGAAGCCATGAAGATGGAGCAGCCACTGACCGCCCACCGTTCCGGCACCGTCACGGGACTGGCCGCGGCCGCCGGCCAGACAGTGGCCGCCGGCGCTGTGATTGCCACCATCGAGGACTGA	MSVKPEQSAGPVHANLTKVLIANRGEIAVRIIRAARDEGIASVAVYAEPDRDALHVRLADEAYALGGNTAAESYLVMDKLIEAARQSGADAIHPGYGFLAENAQFAAKVIDAGITWIGPSPEAISALGDKVQARHIAEKVGAPQVPGTADPVASAEEILEFVDKYGLPVAIKAAFGGGGRGIKVARTREEIPELYESAVREATAAFGRGECFIERFLDAPRHVETQCLADAYGNVVVVSTRDCSLQRRNQKLVEEAPAPFLTEEQNRRLYESSKAILKEARYLGAGTCEFLVGQDGTISFLEVNTRLQVEHCVSEEVTGIDLVREQFRLARGEKLGYDDPEVRGHSIEFRITGEDPGRNFMPAPGTITMLKNPTGPGVRIDSGVEQGDVISGNFDSMLSKLIVTGATRTQALQRSRRALEEMVVEGIPTVIPFDLAVVSHPDFAPEEGPFSVHTRWIETEFANELPAWTPGGAGSEAAEEPGDRRTFVVEVGGKRLEVALPASLSFSGAASGGGKPAKSKKRSRSGGTAVAAGGNALTSPMQGTIVKVAVAEGDVVAEGDLVVVLEAMKMEQPLTAHRSGTVTGLAAAAGQTVAAGAVIATIED	PGPT0001705_161	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0001705-accC-K01961	NA	NA
D1-17_02737	1413	yhjE		Inner membrane metabolite transport protein YhjE	ATGTCATCCCCTGCAACGTCAACGGAACGTGGCACTCCCAAGCCGGTGAACTCCAAAGGCAAAGTAATCTTTGCCAGCCTCATCGGAACGACGATCGAGTTCTACGACTTCTACATCTATGCGACTGCATCGGTGCTCGTCTTTCCGCGGCTCTTCTTCCCCGAAGCCACGGAAATCAACGCACTGCTGAGCTCCTTTGCAATTTTCGGCGTAGCCTTCATCGCCCGCCCCATCGGCTCCGTCCTCTTCGGACACTTCGGCGATAAGTTTGGCCGCAAGGGCACGCTGGTCGCCTCCCTCCTCACCATGGGCGTCGCCACGTTCCTCATTGGCCTGCTGCCCACTGCTTCAGTCCCTGGCTGGGCTATCTTCGCGCCGCTGCTGCTCGTCCTGCTGCGCTTTGCACAGGGTCTTGCCCTGGGCGGTGAGTGGTCCGGCGCTGCACTGCTGGCCACCGAGAACGCCCCCGAGGGCAAGCGCGCCATCTACGGAACGTTCCCGCAGCTCGGCGCCCCTATCGGCTTCATCCTGGCCAACCTGCTCTTCATCTGGTTCAACGCCACCCTCAGCCCCGCAGACTTCCTCGCCTGGGGCTGGCGGGTTCCGTTCCTGCTCAGCGCCGTGCTGGTGATCGTTGGCCTCTACGTCCGGCTCAAGCTTGTGGAGAGCCTGTCGTTCCAGAAGGTCCTGAAGGAAGAGAAGGTTGCGAAGGTTCCGTTCACGGCAACGTTCAAGAGCCACTGGCGCCCGGTGCTGGCCGGAACGTTCATCATGTTCGCCACCTACGTGCTGTTCTACATCATGACGTCCTTCACCCTGACCTACGGCACCAAACCCGCCTCCGTCGAGGCTGCCCAGGCAGCTGCCGAGAAGGCAGGCAGGCCGATGTCAGCCGCTGAAATCGCCAACTTTGTTCCCGGCCTGGGCGTTCCCCGCGGTGATTTCCTCTGGATGCTGATTCTCGGCGTCGTATTCTTCGGCATCTTCACGCTGGTGTCCGGCCCGCTGGCCGAGAAGTGGGGCCGCCGCAAGTTCCTCCTGGGTGTCACCGCAGGCATCTTCGTCTTCGGCATGCTGTGGTTCACCATGTTCGGCCCCGGCCCGGGTGCCGCCATTGTCGGCCTGATCGTCGGCTTCACGCTGATGGGCCTCACGTTCGGGCCGATGGCCGCGATCCTGCCGGAGCTTTTCCCCGCGAATGTGCGGTACACCGGTTCCGCTGTGGCCTACAACCTCTCCAGCGTGATCGGTGCAGCTCCGGCGTCTTTCGTCGCGATTGCCCTCTGGCAGGCCGCCGGCGGAAGCACCTGGCTGGTGGGTGTTTACATGGCTGCCGCTGCGGTGCTCACCTTCATTGCCCTGTGGCTCACCCGGGAAACCAAGGACACGGACTACGAAAACAACGTGGCCTAA	MSSPATSTERGTPKPVNSKGKVIFASLIGTTIEFYDFYIYATASVLVFPRLFFPEATEINALLSSFAIFGVAFIARPIGSVLFGHFGDKFGRKGTLVASLLTMGVATFLIGLLPTASVPGWAIFAPLLLVLLRFAQGLALGGEWSGAALLATENAPEGKRAIYGTFPQLGAPIGFILANLLFIWFNATLSPADFLAWGWRVPFLLSAVLVIVGLYVRLKLVESLSFQKVLKEEKVAKVPFTATFKSHWRPVLAGTFIMFATYVLFYIMTSFTLTYGTKPASVEAAQAAAEKAGRPMSAAEIANFVPGLGVPRGDFLWMLILGVVFFGIFTLVSGPLAEKWGRRKFLLGVTAGIFVFGMLWFTMFGPGPGAAIVGLIVGFTLMGLTFGPMAAILPELFPANVRYTGSAVAYNLSSVIGAAPASFVAIALWQAAGGSTWLVGVYMAAAAVLTFIALWLTRETKDTDYENNVA				NA	NA	NA	NA	NA
D1-17_02738	1476	narK	COG2223	Nitrate/nitrite transporter NarK	GTGACTGCTGACAGCACCGCAGAATCCGGCACCGGCAATTCCCTCGACCTTGCCGCAGAGCCGAAGCCCGGGAGCGGCTCCGCTCCCCTCAATGCGAACACCGCCTCGGCCACTACCACCGACGCTCCCGCCCTTGAGCTCCGCCCCGGCCGCTGGATCGCTAACTGGGATGCAGAGAACAAGCACCAGTGGGAAACGCAGGGCCGTTCCATTGCGCGCAGGAACCTCAACTGGTCCATCTTCGCCGAATTCCTGGGCTTCGTTGTCTGGCAGCTGTGGTCGATCGTCGTGGTCCAGCTCCCGGCAGCAGGCTTTACCTTCAGCACCTCCGAAATCTTCTGGCTGATCTCCATGCCCAGCCTTGTGGGCGCAACCCTCCGCATCCCCTACACCTTCATGGTCCCGAGGTTCGGCGGCCGCAACTGGACCATCGTTTCGGCCCTGCTGCTGCTCATCCCCTCCGTCGGCCTGGCGCTGTGTGTCTCCAATCCGGAGACTCCCTTCGGTGTCATGCTCCTGGTCGCCGCCCTTGCCGGCTTCGGCGGCGGCAACTTCGCCAGCTCGATGGCCAACATCACGTTCTTCTACCCTGCCCGTGAAAAAGGCTGGGCGCTTGGCCTGAACGCGGCGGGCGGAAACCTCGGTGCGGCCGTAGCCCAGCTGGCTGTCCCTATCGTCATCACGCTCCTGGCCGCCGGCACCGTCAACCTGCCGATGGCGGGCTGGATGTGGGTCCCGTTCATCCTGATCGCGGCGTTCGGCGCCTTCAAGTACATGGACAACCTGACGAGCGCCAAAGGTGACGTGGCGGGCTCCGTGGCCGCCCTGAAGGAACCGCACCTGTGGATCATGGCTCTGCTGTACATCGGCACTTTCGGGTCATTCATCGGCTTCGCCGGCGTCTTCCCCAAGCTCATCAAGGACTACTTCCCCGCCTTCTCCTCCATCGGTGTTGGCACGGTGGCCCTCTCACTGGCCTTCCTCGGCCCCCTCGTCGGGTCCCTGGCCCGCCCTTACGGCGGCCGCATGGCGGACCGGATGGGCGGGGCACGGATGACCGTTGCCGCGTTCGCTTCCATGGCCGTCATCACGCTGACCATGATCTGGACGCTGCCGTTGAAGAGCTTCTGGCTCTTCCTGGTCCTGTTCCTGATGCTGTTCACCGCAAGCGGCTTCGGAAACGGCGCCACCTACCGGATGATCCCGGTCATCTTCGCCACCTCCAGCCGGGCAGCGCGCGCGGGCGCCAGCTCAGTGCACACCCAGCGGCTGGCATCCGCGGCCCTGGGACTCATCTCGGCCATCGGCGCCTACGGCGGGTTCGTCATCCCGCAGGTTCTGAACGCCTCCAACACAGCCAGCGGCTCCTACACCTCAGCGTTCTACGGCTTCGTCGGAGCCTACGTCCTGATGCTGTCCGTCTGCTGGTTCTGCTACATCCGCAACGCCAACCGAAACGCGATGGGACACGTCTAA	MTADSTAESGTGNSLDLAAEPKPGSGSAPLNANTASATTTDAPALELRPGRWIANWDAENKHQWETQGRSIARRNLNWSIFAEFLGFVVWQLWSIVVVQLPAAGFTFSTSEIFWLISMPSLVGATLRIPYTFMVPRFGGRNWTIVSALLLLIPSVGLALCVSNPETPFGVMLLVAALAGFGGGNFASSMANITFFYPAREKGWALGLNAAGGNLGAAVAQLAVPIVITLLAAGTVNLPMAGWMWVPFILIAAFGAFKYMDNLTSAKGDVAGSVAALKEPHLWIMALLYIGTFGSFIGFAGVFPKLIKDYFPAFSSIGVGTVALSLAFLGPLVGSLARPYGGRMADRMGGARMTVAAFASMAVITLTMIWTLPLKSFWLFLVLFLMLFTASGFGNGATYRMIPVIFATSSRAARAGASSVHTQRLASAALGLISAIGAYGGFVIPQVLNASNTASGSYTSAFYGFVGAYVLMLSVCWFCYIRNANRNAMGHV	PGPT0000300_1132	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
D1-17_02739	2247	nasC	COG0243	Assimilatory nitrate reductase catalytic subunit	ATGACCACGAGCGCCGAAACGCACTGCCCTTACTGCGCCCTGCAGTGCGCCATGACGCTGAAGTCCCCCGCGGCCCCGGCCGCGACAGGTCTGGCCCCGGCTGTCCGGCCGGGGTCAGACCCTGTGCCTGCTGCGCCCCCGCTCGCGGCTCCTCGAGTGGAAGGGCTGGCCCTCGAAGTGAGCGGCCGCGACTTCCCCACTAACCGCGGCGGGCTGTGCCGCAAGGGCTGGACTTCGGCGTCGCTGCTGCAGCACCCCGGCCGTGTCACCGAACCCATGCTCAAAGGGCCCGACGGCGTCTTCCGCCCCATCTCCTGGGACGATGCCCTGGCGCACGTCACCGCAGCCGTCAAAGACACGCGCGCAAAGTACGGCGCTGACGCTGTCGGCGTGTTCGGAGGCGGCGGGCTCACCAACGAAAAGGCCTACCAACTGGGAAAGTTCGCGCGCCTCGCCCTGGGCACCTCCCGGATCGACTACAACGGCCGGTTCTGCATGTCCTCGGCGGCTGCCGCCGGCATGCGCGCCTTCGGCCTTGACCGCGGGCTGCCGTTCCCGCTCGAAGCCTTGGACACCGCCAGCACCATCCTGATGCTCGGCTCCAACGTCGCCGAGACCATGCCGCCGTTCGTCCAGCACCTGCAGGGAGTCCGCGACGCCGGCGGCCTCATCGTGGTGGACCCGCGGCGTTCCGCCACGGCGGCCTTCACCTCCGATGGCGGCGGGCTCCACCTCCAGCCCCTGCCCGGCACAGACCTCACCCTCCTGCTCGGCCTGTCCCACGTGGTTATTCATGAAGGCCTGGTGGATGCCGGCTACGTTGCGGCGCGCACCACGGGCTACGACGCCGTCGCCCGCAGCGTCAACGCCTTCTGGCCTGAGCGGGTCCAATCCCTCACCGGCGTTCCCGCCGACCTCATCCGCGAAACGGCCCGCCGGCTCGCCAGCGGAGCCCGCCGCGGCGGCAGCTACATCCTCACCGGCCGCGGCGTGGAACAGCACGTGGACGGCACAGACACGGCCACCGCAGCCATCAACCTCAGCCTGCTGCTGGGGCTGCCGGGTACTGCCCGCAGCGGCTACGGCACCCTCACCGGCCAAGGCAACGGCCAGGGAGGCCGGGAACACGGCCAGAAGGCCGACCAGCTCCCGGGCTACCGCAAGATCACCGATCCGGCCGCACGCGCACACATGGCTAAGGTCTGGAACGTGCCCGAGTCGCTCATCCCCGGTCCCGGCCTGCCGGCCGTGCAGCTGCTCAAGTCACTGGGACAGCCCGACGGCGTCCGCTGCCTTTTCGTGCACGCCTCCAACATCGTGGTCGCCTCGCCGGACGCCAACGCCGTCATCCGGGGGCTCCGCAGCCTGGACTTCCTGGTGGTCTGCGACTTCTTCATGTCCGAGACCGCGGCCGAGGCAAACCTCGTCCTGCCGGTTCTCCAGTGGGCCGAGGAAGAAGGCACGCTGACCAACCTCGAAGGCCGCGTCCTCCGCCGCCGCAAGGCAATCAGTCCGCCAGCCGGCGCCCGCAGCGAACTGTGGATCATGGCCCGGCTCGCCGAGGCCCTGGACGCCCCCTCCACCTACAGCGACGATCCAGAGACGGTCTTCGAGGAACTCCGCCTCGCGTCCGCCGGCGGTGCGGCCGACTACTCGGGCATCGATTACGCCCTGCTGGACAGCGGCGAGGCCGCGTACTGGCCGTACCCCGCGGGCAGCACGGGGACACCGCGCCTCTTCCTGGACGCCTTTGCCCATCCGGACGGCAAGGCAGTGCTCACCCCGGTGGCGCCGCGCCGCCGTCGTGCTCCGGCCGCAAAGCCCGGGAGGGACGTTGCAGATCCCGCCGCCAGGCCGATGACCCTCATCACCGGCCGGCTGCTGGAGCACTACCAGTCAGGGTCCCAGACGCGCCGCGTGTCCGAGCTCCTCGCCTCCCAGCCTGAGGCCAGGATGCAGATCCACCCGGGCGCAGCCGCGGCCATGGGCATCACCGACGGGGCACAGGTCTCCCTCGCGAATGAACTCGGTGAAGTGCTCTGCCGGGCGCAGCTCAGCACGGCCATCCGTCCTGAAACCGTGTTCCTGCCCTTCCACTTCCCCGAACTGGAAAGCGCCAACCGGCTCACGGAAGCGGCCACGGATCCCATCTCGGGGATGCCGGAATTCAAGTTCAACAAAGTGTGGGTCCGGCTGGCTGTGAACGTACAAGACACGCGTGTTCTTCAAGCATCGGAGGCCTCATGA	MTTSAETHCPYCALQCAMTLKSPAAPAATGLAPAVRPGSDPVPAAPPLAAPRVEGLALEVSGRDFPTNRGGLCRKGWTSASLLQHPGRVTEPMLKGPDGVFRPISWDDALAHVTAAVKDTRAKYGADAVGVFGGGGLTNEKAYQLGKFARLALGTSRIDYNGRFCMSSAAAAGMRAFGLDRGLPFPLEALDTASTILMLGSNVAETMPPFVQHLQGVRDAGGLIVVDPRRSATAAFTSDGGGLHLQPLPGTDLTLLLGLSHVVIHEGLVDAGYVAARTTGYDAVARSVNAFWPERVQSLTGVPADLIRETARRLASGARRGGSYILTGRGVEQHVDGTDTATAAINLSLLLGLPGTARSGYGTLTGQGNGQGGREHGQKADQLPGYRKITDPAARAHMAKVWNVPESLIPGPGLPAVQLLKSLGQPDGVRCLFVHASNIVVASPDANAVIRGLRSLDFLVVCDFFMSETAAEANLVLPVLQWAEEEGTLTNLEGRVLRRRKAISPPAGARSELWIMARLAEALDAPSTYSDDPETVFEELRLASAGGAADYSGIDYALLDSGEAAYWPYPAGSTGTPRLFLDAFAHPDGKAVLTPVAPRRRRAPAAKPGRDVADPAARPMTLITGRLLEHYQSGSQTRRVSELLASQPEARMQIHPGAAAAMGITDGAQVSLANELGEVLCRAQLSTAIRPETVFLPFHFPELESANRLTEAATDPISGMPEFKFNKVWVRLAVNVQDTRVLQASEAS	PGPT0000390_1154	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
D1-17_02740	1557	nasD_2	COG1251	Nitrite reductase [NAD(P)H]	ATGAGCGAGCAGGTTGTCATAGTGGGATTCGGTCCGGTGGCGGCCCGGCTGGTAGACGAACTGCTGCCGGCACTGCGCGCCGGGCAGGTGGGGCTCACGGTTATCGGCCAGGAGGCCGAGGCCGCCTACAACCGCGTGCTGGTTGCTGATCTCGGCGTGGGCCGCACCACACCCGAGGCCCTGGCCCTCGCCGATGCTGCTGCCTTGGTGGCGGACGGCGTCGACGTCCGGCTGGGCGTTAAGGTCAAGCGCGTTGACCGGGCGCGGCAGAACGTCCTGCTCTCCGATGGGACCTCCGCGCACTACGACCGGCTGGTCTTCGCGACAGGTTCGCGGCCCGTCATTCCCAACCTCATCGGACTGAATCCGGACCCCGCCGCTCCGGTCCTCCCACCGGGCGTCACCGCACTCCGCGACCTCCGCGACGCCGAGGTGCTGCGCCAGGCAGTCTCAGGCGGCAAGCGCGTGGTGGTGCTCGGCGGCGGTGTGCTGGGCCTCGAGACCGCCCTTGCAGCGGCCGAAGAAGGCGCCACCGTCACCGTGGTGCACAACGGGCCCCACCCGCTGGGGCGGACCATCGACCGGGGCGGCGGAGCAGTGCTCGCTGCCAGCCTGCGCAGCTGCGGCGTCCGCGTGGCCGGCAACGCCCGCTCCACCGGCGTCGAGCACAGCGCTCCCGACGGCGGGTTCTCGGCTTTGCTGCTCGAGGACGGTTCCGCGATTGACGGTGACCTGCTGGTCCTCTCCTGCGGCGTACGGCCGCGGACCGAGCTGGCCGAGGGCTGCGGCCTTTCGACAGGCACTGGAATCCTCGTCGACCACCGGCTCCGTGCCCACCATGAGCCGCACATCTTCGCCATCGGCGACTGCGCCGAGGTCCGCTGCCCGGAACCGGACTGCGTCGAGTGCCGCACTGCGCGCGGCCCGTCCGGCCTGGTGGGTCCTGGCTGGCGGCAGGCCGAATGGCTCGCTGAATACCTGCTGCTGCTGGCTGGCGAAGGGGACGCAGATGCGCTGCCGGTACTTCCCCAGGAGAAGCCGGGCGTAATCGTGCTGAAGGCCCGTGGCATGAACATGGCCGTGGCCGGGGACAATTCCGCTGAGCCATGGGACGAGGAAGTCCTGACGGCCGGGGCAGTGAGCGGGCGGCCGCGGCTGCAGATCGCCCAGTGGGCCGACCCTGAGCACGGACGTTACGTGAAGATGACCACCCGCGGCGGCGTGCTGGAAGGCCTGGTCAGCGTCGGCATGCCCCGCACAGCCGGAGAGCTGGTGCAGCTCTTCGAACGCGGCGCCGAACTGCCCGCGGACAGGTCCCTGCTGCTGCGCCTTGACGGGCCTGACCAGCTGGCCACCTCTGCAGCAGCCAGCGACCCGGAAAGCACCGTCTGCCGCTGTGCCGGGGTCAGCGGCGGCAGGATCGCCGACGCCGTGACGGAAGGCTGCTCCACCGTGGCGGAGGTCTCCTCTGCAACTCGCGCGGGCACCGGATGCGGTGGCTGCCACGAGGACATCAAGGTGCTCATCGAAAAACACTTTCAGGCGGCAGCCGCCTGA	MSEQVVIVGFGPVAARLVDELLPALRAGQVGLTVIGQEAEAAYNRVLVADLGVGRTTPEALALADAAALVADGVDVRLGVKVKRVDRARQNVLLSDGTSAHYDRLVFATGSRPVIPNLIGLNPDPAAPVLPPGVTALRDLRDAEVLRQAVSGGKRVVVLGGGVLGLETALAAAEEGATVTVVHNGPHPLGRTIDRGGGAVLAASLRSCGVRVAGNARSTGVEHSAPDGGFSALLLEDGSAIDGDLLVLSCGVRPRTELAEGCGLSTGTGILVDHRLRAHHEPHIFAIGDCAEVRCPEPDCVECRTARGPSGLVGPGWRQAEWLAEYLLLLAGEGDADALPVLPQEKPGVIVLKARGMNMAVAGDNSAEPWDEEVLTAGAVSGRPRLQIAQWADPEHGRYVKMTTRGGVLEGLVSVGMPRTAGELVQLFERGAELPADRSLLLRLDGPDQLATSAAASDPESTVCRCAGVSGGRIADAVTEGCSTVAEVSSATRAGTGCGGCHEDIKVLIEKHFQAAAA	PGPT0000395_37	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000395-nasB-K00360	NA	NA
D1-17_02741	1341	lpdA	COG1249	NAD(P)H dehydrogenase (quinone)	ATGGTTGCCGCCTCTCTGGGGGCCAAGGTCACGATCATTGAGCGCGCCGGACTCGGCGGCTCCGCCGTGCTGACCGACGTCGTGCCGTCCAAGACATTGATCGCGACGTCGGACCTGATGACCCGCGTCGGAGAGGCGGGAGATCTGGGCGTGAAGTTCGACGTCGACGGCGGCGACTTCGTGCCAGTGATGCGCGCGGATCTGAAGCACATCAATGACCGCCTGCTGGGCCTCGCACGGCAGCAGTCCCGCGACATTCAGGCCGGCTTGGAGCACCAGAACGTCCGCATCCTGGCAGGCTCGGGCAAGCTGCTGGACGGCCGCACCATCGAGGTCCTGACGGCCGAGGGCACGGAAACGGTCGAAGCGGATGCGATCCTGCTGACAGTCGGTGCGCACCCGCGTGAGCTGCCCACCGCCCGGCCGGACGGCGAACGGATCCTCAACTGGGCGCAGATCTACAACCTGGACGAGCTGCCGGAAGAGCTCATCGTGGTGGGCTCCGGTGTCACAGGCGCCGAATTCGCTTCCGCCTACAACGGCCTTGGCTCCAAGGTCACCCTGATCTCAAGCCGCGACCGGGTGCTTCCCGGCTCCGACACTGATGCCGCGGAGGTGCTGGAGGAGGTCTTCGAACGCCGCGGCGTGACCGTCCTGTCCCGGTCCCGTGCCGAGACGGTTGAGCGCACCGGCGACGGCGTCGTAGTCACCCTCGGAGACGGTTCCAAGGTCACCGGCAGCCACTGCCTGGTCTGCGTCGGGTCCATCCCCAACACCGCCGGCATTGGCCTGGAAGAGGCCGGCGTTGCGCTCACCGAGAGCGGACACATCAAGGTCGACGGCGTATCGCGCACCACCGCCCCGAACATCTACGCGGCCGGCGACTGCACCGGCGTCCTTGCGCTGGCCTCTGTTGCCGCCATGCAGGGCCGCATCGCCATTGCCCACATCATCGGCGACAGCGTCACCCCCATCAAGCTTCATCAGGTGGCCTCCAACATCTTCACCTCGCCCGAGATTGCATCAGTGGGCGTTTCGGAAGCCGAGATTGAGTCGGGCAAATACCAGGGCGACATCATCAAGCTCTCCCTGAAGAGCAATGCCCGCGCCAAGATGCGCAACGTCAAGGACGGCTTCGTCAAGATCTTTGCCCGCAAGGGATCGGGCACCGTGATCGGCGGCGTCGTGGTGGGGCCGAATGCCTCCGAGCTGATCTTCGCCATTTCCATTGCGGTGAAGCAGAAGCTGCACGTCGACGACGTGGCCAGCACCTTCACGGTCTACCCGTCCCTCAGCGGCTCGATCTCCGAAGCAGCGCGCCGCCTTCACGTGCATATATAG	MVAASLGAKVTIIERAGLGGSAVLTDVVPSKTLIATSDLMTRVGEAGDLGVKFDVDGGDFVPVMRADLKHINDRLLGLARQQSRDIQAGLEHQNVRILAGSGKLLDGRTIEVLTAEGTETVEADAILLTVGAHPRELPTARPDGERILNWAQIYNLDELPEELIVVGSGVTGAEFASAYNGLGSKVTLISSRDRVLPGSDTDAAEVLEEVFERRGVTVLSRSRAETVERTGDGVVVTLGDGSKVTGSHCLVCVGSIPNTAGIGLEEAGVALTESGHIKVDGVSRTTAPNIYAAGDCTGVLALASVAAMQGRIAIAHIIGDSVTPIKLHQVASNIFTSPEIASVGVSEAEIESGKYQGDIIKLSLKSNARAKMRNVKDGFVKIFARKGSGTVIGGVVVGPNASELIFAISIAVKQKLHVDDVASTFTVYPSLSGSISEAARRLHVHI	PGPT0020470_317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020470-lpdA-K23842	NA	NA
D1-17_02742	819	punA		Purine nucleoside phosphorylase	GTGAGTGATACGGAATTCCTGACCATCGATCCCTTCGAGGCAGCCCGCACCGCCGCCGACTACATAGCAGCGGAAACCGGTGTCGAATCGCACGACATCGCCCTGGTGCTCGGCTCCGGCTGGGGAGAGGCCGCCAACCTGATCGGCGAGACGACAGCCACGTTGACCGCCTGTGAAGTACCGGGCTTCTCTCCTCCGGCCGTGGAGGGCCACGTGGGCACCATCCGTTCGGTGCTGACCAGGGAAGGAAAACGGGCGCTGGTCCTTGGCGCCCGCACGCACTACTACGAGGGCAAAGGGGTCCGCGCTGTGGTGCACGGCGTGCGCACGGCGGCCGCGGCCGGCTGCACTACGCTCGTGGTCACGAACGGCTGCGGCGGATTGAACGAAAACTGGGCGCCGGGGACACCGGTCCTGATCAGGGACCACATCAATCTCACCGCCACTTCGCCGCTGGAAGGCGCCACGTTCGTGGACCTCACCGACCTGTACTCGGCGCGCATCCGCGGCCTGGCCCGCGAGGTCGATGCCTCGCTCGACGAAGGCGTTTACGCGCAGTTCACCGGGCCGCACTACGAGACCCCGGCTGAGGTGCAGTACGCCAAGCGCATTGGCGCCGACCTTGTCGGCATGTCCACCGCCCTGGAGGCCATTGCTGCGCGACATGCCGGGATGGAGGTCTTCGGGATCTCGCTCGTGACCAACCTCGCGGCAGGCATCAGCCCCGTTCCGCTCAGTCATGAGGAAGTGCTGGAGGCCGGGCATGCCGCCGCGCCGCGCATCTCCAAGCTGCTGGCGGAAATCATCGCCCGGCTCTGA	MSDTEFLTIDPFEAARTAADYIAAETGVESHDIALVLGSGWGEAANLIGETTATLTACEVPGFSPPAVEGHVGTIRSVLTREGKRALVLGARTHYYEGKGVRAVVHGVRTAAAAGCTTLVVTNGCGGLNENWAPGTPVLIRDHINLTATSPLEGATFVDLTDLYSARIRGLAREVDASLDEGVYAQFTGPHYETPAEVQYAKRIGADLVGMSTALEAIAARHAGMEVFGISLVTNLAAGISPVPLSHEEVLEAGHAAAPRISKLLAEIIARL	PGPT0013380_1542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
D1-17_02743	1758		COG1109	putative phosphomannomutase	ATGACGTCTTCCGATGCCGACTTCCAGCTGCATGCCGACTCCCAGCTGCTGAGTGCGGCCCGCTCCTGGGCTGCCGCGGACCCTGATCCCGCCACGTCCTCGGCCCTGAACGAACTTATTGCGCTCGCGGAGGCCGGCACGCCGGCAGCCCGCCAGCAGCTGCAGGACAGCTTCAGCGGGCCGCTTCAGTTCGGCACCGCGGGGCTCCGTGCAGCCCTCGGCCCGGGACCCAACCGGATGAACCGCGTCGTTGTCCGCCGGGCAGCAGCTGGCTTCGCGCGGTTCGTGGCCGAAGCGGTGGAGAAGACTTCACCGGGAACCCGGCCGCGCGCCGTCGTCGGTTTCGACGCCCGCTACAACTCCGACATCTTCGCCCGCGAGTCCGCAGCTATCTTCACCGCGGCGGGCTTCGAGACGTTCCTGATGCCTGCGGCACTGCCCACTCCCCTGCTGGCGTATGCCGTGCGGGCGCTCGAGTGTGACGGCGGAGTCATGGTCACAGCAAGCCACAACCCGCCGCAGGACAACGGCTACAAGGTCTATCTTGGCCGCCACGCGGTGAATGAAAGCGGCCGCGGCGCCCAGATCGTAACGCCCTACGATGCCCTGATTGCTGCCGAGATCGACAAGGTGGGCTCCCTGGATACCATCCCATTGGCTGAGGACGGCTGGACAGTGCTGGGCCCGGACATCATCGCCAAGTACCAGGCCGCCATCGCGGCACTCGCACAAAAGGACCTTTTCCCGGCCCGAAACCTCAAGATTGTCCTCACCCCGATGCACGGGGTGGGCGGTAACACGGCCGTGGCCGTGCTGAATTCGGCCGGCTTCACCGACGTCACGCTGGTGAGGGAGCAGGCAGTGCCGGACCCCGCTTTCCCCACCGTCAGCTTTCCCAACCCGGAGGAACCGGGTGCCCTCGATCTCGCCCTGGCGGCAGCCGCTGACGCCGGCGCGGACATTGTCCTGGCTAATGATCCCGACGCCGACCGCGCCGCAGTCGCCGCCAAGGATCCGGACACGGGCGCGTGGCGGATGTTGCGGGGCGATGAAGTGGGCGCGCTGCTGGGCGCGCACGTGGTTGCCCGGCTCACCGCTGCCACTGGGGAAACGCACGACGGCGTGTTCGCCAATTCGATCGTTTCCTCACGCCTGCTGTCCCGCATCGCGGCCGCTGCCGGATATGTGCACGAGGAAACCCTCACGGGGTTCAAGTGGATCTCCCGCGTGCCGGGCCTCCTGTACGGGTACGAGGAGGCGCTTGGCTACTGCGTGGCCCCGGAGCTGGTCCGGGACAAGGATGGCATATCGGCTGCCGTCCTGGTCGCCGAACTTGCCGCGGCAGCAAAGGCGGACGGCAAGACGATCTTTGACACCCTGGATGAGCTGTACCTGGTCCACGGGCTGCACGCGAGCGACCAGCTGAGCATCCGGGTGGCTGACCTTGGGCTGCTGGACGCCATGATGAACCGGCTCCGGGTCAGCCCGCCGGAATCCTTCGCGGGTTCAGCTGTGGAGTCATTCCTCGACCTCGCCGAAGGCAGCGATAACCTGCCTCCGACGGAGGGGCTCCTCTACCTCACCCGCGACCTGACCCGCGTGATCATCCGCCCGAGCGGCACGGAGCCCAAACTCAAGTGTTACCTCGAGGTCATCCGCAGCGTCGGTTCGGCGGCGGAACTGCCGGACGCACGGGCAGCCGCACGGGCCGCCCTGGACCAGGTCCTTAGTGACGTCCGTGAGGCGCTGGGGCTTTAA	MTSSDADFQLHADSQLLSAARSWAAADPDPATSSALNELIALAEAGTPAARQQLQDSFSGPLQFGTAGLRAALGPGPNRMNRVVVRRAAAGFARFVAEAVEKTSPGTRPRAVVGFDARYNSDIFARESAAIFTAAGFETFLMPAALPTPLLAYAVRALECDGGVMVTASHNPPQDNGYKVYLGRHAVNESGRGAQIVTPYDALIAAEIDKVGSLDTIPLAEDGWTVLGPDIIAKYQAAIAALAQKDLFPARNLKIVLTPMHGVGGNTAVAVLNSAGFTDVTLVREQAVPDPAFPTVSFPNPEEPGALDLALAAAADAGADIVLANDPDADRAAVAAKDPDTGAWRMLRGDEVGALLGAHVVARLTAATGETHDGVFANSIVSSRLLSRIAAAAGYVHEETLTGFKWISRVPGLLYGYEEALGYCVAPELVRDKDGISAAVLVAELAAAAKADGKTIFDTLDELYLVHGLHASDQLSIRVADLGLLDAMMNRLRVSPPESFAGSAVESFLDLAEGSDNLPPTEGLLYLTRDLTRVIIRPSGTEPKLKCYLEVIRSVGSAAELPDARAAARAALDQVLSDVREALGL	PGPT0017865_182	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
D1-17_02744	366	nirD	COG2146	Nitrite reductase (NADH) small subunit	ATGACGGCAACACTGGAACTTGAGGATCTGACCGCCGGGTACGCCACCGGCTGGCACCGGGTCTGCTCCGTAAGCGAACTCGAACCCGCCTGGGGCGAAGCTGCACTCGTCGCCGGCCGCCAGGTGGCACTGTTCCGCACCGCAGCCGGTGAGGTTTTCGCTGTCGCCCAGGAAGACCCCGCTACCGGCGCCATGGTGATGGCACGGGGCATCCTCGGATCCCGCGGCTCCCGCCCCACCATCGCGTCGCCCCTCCACAAGGAGGTTTACGACCTTGAGACGGGTGAGTGCTTTGGGAACCCCGGGCTGCGACTTCCGACCTTCACCGCCCGCATCGACGACGGCTACATCGAGATCGCGCTTTAG	MTATLELEDLTAGYATGWHRVCSVSELEPAWGEAALVAGRQVALFRTAAGEVFAVAQEDPATGAMVMARGILGSRGSRPTIASPLHKEVYDLETGECFGNPGLRLPTFTARIDDGYIEIAL	PGPT0000455_620	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
D1-17_02745	2661	nasD_3	COG1251	Nitrite reductase [NAD(P)H]	GTGACCGGACAGACTTCAAGCACAGAGACACCGCGCCGCATCGTCGTCGCCGGCGGCGGCCCGGCTGCCCACCGTTTTGCAGACGCCATGCATGCCCGTGGCCTCGAAGGCTGGCAAGTAACCGTACTTACGGAAGAAGCGCACCTGCCCTACGACCGGGTCGCACTGAGCAAGGCCCTCACGGACAGCACCGTTGACCTCACGCTCGGCGCCGCGTCAATGTGGGACCACGAAGCCATCGCACTGAAGACCGGCGAGCGCGTGGTGAAGATCGACACCGCCGCCAAGGCCGTTGAAACCGCCGCCGGCCACCGCTTTGAATACGACGAACTCGTTGTGGCCACCGGCTCCGACGCAGCCAGGCTCCCCATCCCCGGCGCCGAGCACGTGCACGTCTACCGCACGCTCGAAGACGTCTGGGCCATCAACAAGTCCATCGCCGAGCTCACCGCGAAGCTCGGCCGCAAGATCAATGCCGTCACCATCGGCGGCGGCCTGCTGGGCCTGGAATCAGCAGCGGGCACCGAGCAGCTTGGAGCCACCCCGGTGGTCATCAATGGCGCACCGTGGCTCATGAACACCCAGCTCGACGAGGGCGCCGGCCAGGCGCTGGGCCGCCTGATCGAAGCCAAGGGCTTCCAGGTCCACGGCGGCGTGTTCCCGTCGGAGATCCTCGCGGACGACGACGGCCAGGTCACCGGCGTGCTGATGGCCGACGGCCGCACCATCCCCGCAGACATCGTGATCGTCGCCATCGGCGTCAAGCCCCGCGATGAGCTCTTCCGTGCAGCCGAGGGTGAGGAACCGCTGTTCGACCTTGGCCCCCGCGGCGGTGTGGTCATCAACGATGACTGCTCTACCCAGGTACCCGGCATCTGGGCCATCGGTGAAGTGGCCAACTTCGACGGCATGTGCCTTGGCCTCGTGGCCCCGGCCAACACCATGGCTGAAATCGTGGCGGACCGCCTGCACGGCGGCGAGGCAACGTTCCCCGGCTTCGATACCGCCACCAAGCTGAAGCTGTCGGGCGTGGACGTCGCCAGCTTCGGTGACGCCTTTGCCAAGACGGAGCACGCGCTCGAGATCGTCTACGCGGACCCCGCCCGCGGCGTGTACCAGAAGATCGTCACCACGGACGACGCCAAGACCCTGCTCGGCGGCATCTTCGTCGGCGACGCCGCCCCGTACACCAGCCTCCGTCCTCTCCTGGGCCGCGAGCTTCCGGCCGAGCCGGGCGCCTACCTGACGGCAGCCGGGGGCGGAGACGCCCCCGAGACCGAACTGCCGGACGACGCCACCCTGTGCTCCTGCAACAACGTAACGGCAGGAAGCATCCGTGACGCCATCAGCGGCTGCGGCGCCTGTGAAGGCAACGCGCCCGTTCAGGAACTGGGCGAGCTGAAGGGCTGCACCCGTGCCGGAACCCAGTGCGGTTCCTGCGTGCCGATGCTCAAGAAGCTGCTGGAAACTGAACTCACCAAGTCCGGCGTCGAGGTCTCAAAGGCACTCTGCGAGCACATCGAGCTGTCCCGCCAGGAGCTGTTCGACGCCATCCGTGTCCTGGAACTGACCTCGTTCGAAGAAATCATGGCCAAGTACGGCACCGGCGCCGGCTGCGACATCTGCAAGCCGACCATCGCCAACATCCTGGCCAGCCAGAACAGCGCCTACGTCCTGGATGCCGGCCGCGGCACCCTGCAGGACACCAACGACCGCGCCCTGGCCAACATGCAGAAGGACGGCACCTACTCGGTGGTCCCCCGCATTGCCGGCGGCGAGATCACCCCCAAGAAGCTCGGCGTCATCGCTGCCGTGGCCGAGAAGTACGGCCTTTACACCAAGATCACCGGCGGCCAGCGCATCGACATGTTCGGCGCCCGGCTGGAGCAGCTTCCGGAAATCTGGAAGGAACTGGTGGACGCCGGCTTCGAATCCGGCCAGGCCTACGGCAAGAGCCTTCGTACCGTGAAATCCTGCGTGGGTTCCACCTGGTGCCGCTTCGGTGTCCAGGACTCCGTGGCCATGGCCATCCAGCTCGAACTCCGTTACCGCGGCCTGCGCAGCCCGCACAAGCTCAAGATGGGTGTCTCCGGCTGCGCCCGGGAATGCGCCGAGGCCCGCGGCAAGGACGTCGGCGTGATCGCCACCGCAGACGGCTGGAACCTGTACGTCGGCGGCAACGGTGGTGCCACCCCGGCCCACGCCCAGCTGCTCGCGAAGGACCTGGACGACGCGACGCTGATCAAGTACATCGACCGCTACTTCATGTATTACATCCGCACTGCCGACCGCCTGCAGCGCACCGCACGCTGGCAGGAGGAGCTCGACGGCGGCATCAAGCACGTCGAGGACGTCGTGGTGAACGACACCCTGGGCATCGCCGAAGAGCTCGAGGCGGCCATGGCCAAGCACGTGGACACCTACGTTGACGAGTGGGCAGACACCCTGAAGGACCCCGAGCGCCTGCGCCGGTTCCGCTCCTTCGTCAACGCTCCGGACCAGAAGGACGACTCCATCACGTTCGTCCCCGACGAACGTGGCCAGATGCGCCCGGCCACGGCAGAAGAAAAGGCCCTGGCCGCCCAGCAACCAGTCCTGATCGGGGCCTCCATCCCCATGAGGCCCTCCACTCCCGAACTGCTGGATGAGAACGAGGTATAG	MTGQTSSTETPRRIVVAGGGPAAHRFADAMHARGLEGWQVTVLTEEAHLPYDRVALSKALTDSTVDLTLGAASMWDHEAIALKTGERVVKIDTAAKAVETAAGHRFEYDELVVATGSDAARLPIPGAEHVHVYRTLEDVWAINKSIAELTAKLGRKINAVTIGGGLLGLESAAGTEQLGATPVVINGAPWLMNTQLDEGAGQALGRLIEAKGFQVHGGVFPSEILADDDGQVTGVLMADGRTIPADIVIVAIGVKPRDELFRAAEGEEPLFDLGPRGGVVINDDCSTQVPGIWAIGEVANFDGMCLGLVAPANTMAEIVADRLHGGEATFPGFDTATKLKLSGVDVASFGDAFAKTEHALEIVYADPARGVYQKIVTTDDAKTLLGGIFVGDAAPYTSLRPLLGRELPAEPGAYLTAAGGGDAPETELPDDATLCSCNNVTAGSIRDAISGCGACEGNAPVQELGELKGCTRAGTQCGSCVPMLKKLLETELTKSGVEVSKALCEHIELSRQELFDAIRVLELTSFEEIMAKYGTGAGCDICKPTIANILASQNSAYVLDAGRGTLQDTNDRALANMQKDGTYSVVPRIAGGEITPKKLGVIAAVAEKYGLYTKITGGQRIDMFGARLEQLPEIWKELVDAGFESGQAYGKSLRTVKSCVGSTWCRFGVQDSVAMAIQLELRYRGLRSPHKLKMGVSGCARECAEARGKDVGVIATADGWNLYVGGNGGATPAHAQLLAKDLDDATLIKYIDRYFMYYIRTADRLQRTARWQEELDGGIKHVEDVVVNDTLGIAEELEAAMAKHVDTYVDEWADTLKDPERLRRFRSFVNAPDQKDDSITFVPDERGQMRPATAEEKALAAQQPVLIGASIPMRPSTPELLDENEV	PGPT0000450_234	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-17_02746	1035	cysG_2		Siroheme synthase	ATGCAGCTCAACATTGATCTCACCGGCCGTGACGTTCTGGTCACAGGTTCAGACCATGCCGCCCGCCAGGCGGTCCGCCGCTACGAGGCGGCCGGCGCGGTCGTCTACCGCCTGAGCACCCCGCAGGGTGCAGCAGGCGACGGTGCCCTGCCTGAGCGTCCGTTCCTCGTCGCCGCCGTCAACGACGGCCAGCCCGGCTGGGAACCCCTGCTCGAGCGGTGCCGCATTACCGGCATCCCCGTCTCCGCGGAACCGGCCGCCGGCACAGCCGGGCAGGTGACGCTGGTCGGCGGCGGCCCGGGCACCACCGAACTGCTGACCGTGGCGGCCGTCAACGCCTTGCGCGACGCCGACGTCGTGCTCTACGACCGGCTAGCCCCCTATCAGGAGCTCGCCTCCCTGACCTCGGCCGAACTGGTGGATGTAGGCAAAAAACCCGGCCACCACAAGGTCAGCCAGGGCGACATCGAAAAGCTCATGGTGGAAAGCGCCCTCGCCGGCAACAACGTGGTCCGCCTTAAGGGCGGGGACCCCTACGTCTTTGGCCGCGGCGGCGAGGAAGTCGCCTCCTGCGTGGCAGCCGGCGTTCCCGTCCGCGTGATCTCCGGAGTCACCAGCGCCATCTCCGTGCCGGCGGCTGCCGGGATCCCGGTGACGCACCGCGAGGTCAGCCACATGTTCACCGTGGTCTCCGGCCACGCGCCGCTGACTGAGCAGGAACTCACGCACCTGGCCGGGCTGGGTGGCACTATCGTGGTCCTTATGGGAATCGGGACGCTGCACCACCTCGCCGCCGGCCTCCGCCGCGCCGGCATGCGCGCCGACATGCCCATGGCCGTGGTGGAGCGCGGATACCGTCCGGGCCAGCGCACCACCATCGCGGAACTTGGCACCATCGCCTCTGCCGCTGCAGGCTGCAGCAATCCCGCCGTCCTGGTGATCGGTGAGGTGGTGCGGGTGGCTGAGGCCAACCGCGGGCATGCCCAGGCCGCCGCCGATCTTGACCGCCTGGCGGCCTCCCTGCTGGAATCGTGA	MQLNIDLTGRDVLVTGSDHAARQAVRRYEAAGAVVYRLSTPQGAAGDGALPERPFLVAAVNDGQPGWEPLLERCRITGIPVSAEPAAGTAGQVTLVGGGPGTTELLTVAAVNALRDADVVLYDRLAPYQELASLTSAELVDVGKKPGHHKVSQGDIEKLMVESALAGNNVVRLKGGDPYVFGRGGEEVASCVAAGVPVRVISGVTSAISVPAAAGIPVTHREVSHMFTVVSGHAPLTEQELTHLAGLGGTIVVLMGIGTLHHLAAGLRRAGMRADMPMAVVERGYRPGQRTTIAELGTIASAAAGCSNPAVLVIGEVVRVAEANRGHAQAAADLDRLAASLLES	PGPT0003685_162	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0003685-sirA|ylnD|cysG|cobA-K02303	NA	NA
D1-17_02747	1164			hypothetical protein	ATGAGTGCACTGAACGCCATCGCCCCCGCCCCAGGAACTGAATCCCAGGAGGCCACTGCCCCCGAGGCCACTGAAGCTCCGCTCGAAGGTTTCCGGATCGGCGTCACCTCGCACCGCCGCTCCCGGGACCTGATCGAGGCCCTGGAACGCCGCGGCGCCGAGGTGCTGCACGCCCCTGCGCTCAAGATCGCCCCGGTCAATGAGGACATCAGCCTCATCGAGGACACCAAGGCGATCATCGCCGCCAAGCCGGACCTCTGCATCGCCACCACCGCCTACGGCATGCGCCGCTGGTGCGAAGCGGCAGATGCTTCCGGGATCGGGGAGGAACTGCTCGACACCCTGGCCTCCTGCAGGATGTTCGTCCGCGGACCCAAAGCCCGCGGCGCCGTGCGCGCGGCCGGCCTTGCCGACGTCGGAATCAGCAGCGATGAGACCACCGCCACGCTCGTGGACATGCTGCTCCAGGAAGGCGTGCGCGGCAAGACCGTGGCCGTGCAGCTGCACGGCTACACCGACGTCCGCCAACTGGAGCGTCTCCGGATGTCCGGCGCCACCGTCCTGACAGTCACCCCCTACCGCTGGGTGAAGCCCGACGGCGCGGACCGCCTCCCCCGCCTGATCGAGGCTGTCTGCAGCGGCAACCTCGACGTCCTGACCTTCACGAGCGCCCCGGCGGTGGACGCCATGTGGAGCACTGCGCACGAAATGGGCCTGTACCAGCAGCTCGTGGAGAGCCTGAAGACCACGGTCACCACAGCCGTCGTGGGTCCCGTGACCGCCCAGCCGCTGCTGGACGCCGGGATCACCCCCCTGGTTCCGGAGCGGTTCCGGATGGGCGCGCTGATCCGGCTGGTGTGCGAACACCTTGCGCTGAACCACGTGCGCCGCCTCGAGACACGCTCTGGCACCGTGGAACTGCGCGGCCGCTCACTGCGGATCGACGGCGAGCCGGTGGAGGTGGCGCCGGCTCCGCTGCTGCTCCTGCGTGCCCTCCTCGGCGCCGGCGGAGCCGTGCTGTCGCGCGAGTCTCTGTCCGAGCTGCTCGAGCTGCGCGGATCCGTTCATGCCCTTGACATGACGGTAAGCCGCCTGCGGTCCTCGCTTCCGGACGGGCGTCTCGTGGAAACGGTGGTTAAGCGCGGTTACCGCATCCGCGTCTAA	MSALNAIAPAPGTESQEATAPEATEAPLEGFRIGVTSHRRSRDLIEALERRGAEVLHAPALKIAPVNEDISLIEDTKAIIAAKPDLCIATTAYGMRRWCEAADASGIGEELLDTLASCRMFVRGPKARGAVRAAGLADVGISSDETTATLVDMLLQEGVRGKTVAVQLHGYTDVRQLERLRMSGATVLTVTPYRWVKPDGADRLPRLIEAVCSGNLDVLTFTSAPAVDAMWSTAHEMGLYQQLVESLKTTVTTAVVGPVTAQPLLDAGITPLVPERFRMGALIRLVCEHLALNHVRRLETRSGTVELRGRSLRIDGEPVEVAPAPLLLLRALLGAGGAVLSRESLSELLELRGSVHALDMTVSRLRSSLPDGRLVETVVKRGYRIRV	PGPT0003665_90	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
D1-17_02748	903	nasB	COG1251	Assimilatory nitrate reductase electron transfer subunit	ATGTCTGTTCCGGCACATTTTCCGCTCACCGCCACTCCAGTATCCGGCCCTGGTCCTGAAGCCACCCCGGCAGGCGCCTCTGCACCCAGAATCATCATCGCCGGCGCAGGCCCCGCCGCGTGCAACCTGATCAGCCAGCTCGCCGCGTCCCGCTTCCCGGGTTCCGTCACGGTGCTCAGCGCCCGGGATGACGCACCGCATGAACTGCTGGACCTCGCTGCCTTGCCGTTTGTCTCCCTCCGCTTCGGCCAGCCTGCAAGCCACATCGACGCCACCGCACGGGTTGTCACCACTGCGGACGGCTTGGAGTTCAGCTACGACCAGCTGGTCATAGCCACCGGATCGGCGCCCGCGCACTCCCCTATCGAGGGAGCCAGCCGCTGCCTCAGCTACTCCACCATCGAGGATGCCGCCCGGATTGGCGATGCCGTAAAAGAGGTCACCCGGGTCCTGGGCCGGCGTCCGCTGGGAATTCTGGTCGGCACGGGCGCCGCAGCCGGTCAGGCCGAGGCCGTGCTCCGCGCCCGCGGCGTCCGGCCGGTCCGCACCACCGCCCGGCCGGCCGCCGTCGTTCCCACCCTGGCCGGTTCCGTGCTGCCCGCCGCCGGAATCGTTTTCGATGACGGCAGCCGCATGAATGGTGACCTCGTGGTGCTCGCCGAGGACCGGATTGCCCGCGACAGCCTCGCCGCCGGTGCCGGCGTGAAAACGGCCCCGGGCGGCGGAATTGTGGTCGGCCCGGACTACCGGTCCTCCATCCCGGGCATCTGGGCAATCGGAGATGCTGCATCCCTTGACGGGGTGAGGCTCGGACTGCTCGTGGCTTCCGAAGCAGCCGCCCGGGCCTGCGCTGCCGCGCTGACGGCAACCGTCCCGGAGCACCGGCTGGGTGCCGCCGCTTAG	MSVPAHFPLTATPVSGPGPEATPAGASAPRIIIAGAGPAACNLISQLAASRFPGSVTVLSARDDAPHELLDLAALPFVSLRFGQPASHIDATARVVTTADGLEFSYDQLVIATGSAPAHSPIEGASRCLSYSTIEDAARIGDAVKEVTRVLGRRPLGILVGTGAAAGQAEAVLRARGVRPVRTTARPAAVVPTLAGSVLPAAGIVFDDGSRMNGDLVVLAEDRIARDSLAAGAGVKTAPGGGIVVGPDYRSSIPGIWAIGDAASLDGVRLGLLVASEAAARACAAALTATVPEHRLGAAA	PGPT0019730_2533	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,PGPT0019730-hcaD|cndC1-K00529	NA	NA
D1-17_02749	741	deoC	COG0274	Deoxyribose-phosphate aldolase	ATGAGCAATGAAGCCAGCCCGGGAGCGGGCACCGCAACCAGCCCCGCAGGAACCCCTGCCGGCGCTGCACCGTCCACCATCGCGTCCTACATCGACCACACGCTGCTGAAGCCTGAAGCCAGCGCGGCCGAGATCCTCAAGGTCTGCGCCGAGGCCGCCGAGTACAGGTTCAAGTCGGTCTGCGTCAACCCTGTCTGGGTGAAGACTGTCAAGAAGGCGCTCAAGGGCAGCGGTGTGCTGACATGCTCCGTGGTCGGGTTCCCGCTGGGAGCCACTCCCAGCGACGTCAAGGCGTTCGAGGCGCGCGGCGCGGTGCTCGACGGGGCGGATGAGGTGGACATGGTCATCAATATCGCTGATGCGCGCTCCTCGGACAAGGGCGCCCTGGTGGACGATATCAAGGCCGTAGCCGAGGCTGTCCATGGCGGCGAAGCGATCCTGAAGGTCATCATCGAGACTGCCCTGCTCAGCGATGACCAGAAGATCCTGGCCTGCGAGGCGGCCGTGGAGGCTGGAGCGGACTTCGTCAAGACGTCCACCGGCTTCAATGGCGGAGGCGCAACCGTTGAAGACATTGTCCTGATGCGTCGCACCGTGGGCCCGGCAGTAGGTGTGAAGGCCTCCGGCGGAGTGCGTTCCCTGGCTGACGCTCAGGCTATGATTGCTGCAGGTGCAACACGTATTGGTGCCAGCTCCGGAATTGCGATCATCAAGGGCGAACAGGGTTCGTCCGCCTACTGA	MSNEASPGAGTATSPAGTPAGAAPSTIASYIDHTLLKPEASAAEILKVCAEAAEYRFKSVCVNPVWVKTVKKALKGSGVLTCSVVGFPLGATPSDVKAFEARGAVLDGADEVDMVINIADARSSDKGALVDDIKAVAEAVHGGEAILKVIIETALLSDDQKILACEAAVEAGADFVKTSTGFNGGGATVEDIVLMRRTVGPAVGVKASGGVRSLADAQAMIAAGATRIGASSGIAIIKGEQGSSAY	PGPT0017445_1691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017445-deoC-K01619	NA	NA
D1-17_02750	234			hypothetical protein	ATGTCCAGCAAGATCGATGCGCAGGTTCAGACACCCCAGAACGAGAACAGCCTGGTCACCAGCGTTTTCCTGTTCGTAGTGATGATGGCCCTGTTCCTGGGAGCCATCTACTCGCTGACTTTCCTGTCGCTGGACAACCCCTGGCCGATGGCCGTGTGCCTTGGCCTGTTCGCCCTCGCCTTCTGGATCCCGCAGACCATCACGGGCCGCTCGGACTCCGCCGGGGAGCACTGA	MSSKIDAQVQTPQNENSLVTSVFLFVVMMALFLGAIYSLTFLSLDNPWPMAVCLGLFALAFWIPQTITGRSDSAGEH				NA	NA	NA	NA	NA
D1-17_02751	822			hypothetical protein	ATGGGAGGACACCACGCCGCGTCAGGTGCCGCGGCGTGGGTGGCTGTTGCCTCAACGGGGCACTACGCATTCGGCTGGTATCCGCTGGATGCCACCGGAGTGCTGATCGGCGGCATGGCGACGGCGGGAACCGCATTGGTCTGCGACTGGGACCACCGTTCCAGCACCATCGCGCACTCTCTGCCGCCCCTGTCCAATGCCATTGCCCGAGGCATCGAAAACGCCAGCGGAGGGCACCGCCAGGGAACGCATTCCGTCCTGGGCGCGGCGTTCTTCGTCGTGCTCGCCGCGATGGCCGGCCAGATCCAGCTGCAGACGGACTGGGGCCTGCTTTCCGTGGGCGCCGGACTGGTGTGCATGTTCATGATCAACATCGCGGCCAAGGCGCTCAAGCTGTTTCCCAAGTCAGGCTTCATCAGCAACTGGGTCTTCGCCCTGGTCATGGCAGGCCTCGTGACCTGGTTTGCCCCGGACCAGTGGACCTGGCTTCCGGTGTCCATGTTGATCGGCGTCGTGGTTCACATTGTCGGGGACCTCGTCACCACGGGCGGCGTGCCGCTGCTGTGGCCGCTGGTCATCAAACCGCCGCGAGTCCTGCGGCGGCTGCCACTGCTGAAGAACATCTGGCGCCCGAACGGAGCCCTGTCCATTCCCATCCTTGGACGCGCCGGGTCGCGGCGGGAGTGGCTGGTGCTCATCCCGGTGAGCGCGTACGCGATGGTGGGCATGAGCCTCGCGGCATGGTCGCTGGCGGGCGCCTACTATCCGACCGCCCTCGCGCTGCTCGGCCCCCTAGTAGGCGCACTGCCGGGCATGCCCTGA	MGGHHAASGAAAWVAVASTGHYAFGWYPLDATGVLIGGMATAGTALVCDWDHRSSTIAHSLPPLSNAIARGIENASGGHRQGTHSVLGAAFFVVLAAMAGQIQLQTDWGLLSVGAGLVCMFMINIAAKALKLFPKSGFISNWVFALVMAGLVTWFAPDQWTWLPVSMLIGVVVHIVGDLVTTGGVPLLWPLVIKPPRVLRRLPLLKNIWRPNGALSIPILGRAGSRREWLVLIPVSAYAMVGMSLAAWSLAGAYYPTALALLGPLVGALPGMP				NA	NA	NA	NA	NA
D1-17_02752	3666	mfd	COG1197	Transcription-repair-coupling factor	ATGAGCCCCACCGGCCAGCCAAGCAAAGGCCCGTCCCTGAGCGGCCTGCGACGCGCCCTTGCCGCAGACAAGACTTTTGCCCGCGTACAGGCGGAGGCGTCCCGGAGCTTCGGCATCCGCAGCGAGGACTACCAGATCAGCGCCCCCGCCGGCTTGCGCGCGGTGCTGCTGGCGGAGATGGCGGAAGGGCTGGAGAATGCCGACGGCGGGCCCGGCATCGTGCTCGCCGTGACCGCCACCGGCCGCGAGGCCGAGGATCTCGCCGCCGCGCTGCGCGCCTACCTTCCCGCCGACGCCGTGGCGGAGTTCCCCAGCTGGGAGACCCTGCCGCACGAGCGGCTGTCGCCGCGTTCGGACACGGTGGGGCGGCGGCTTTCGGTGCTGCGCCGGCTTGCGCATCCGGAGACTGCGACGGCGGGACCCCTCCGGGTTGTGGTCGCTCCGGTCCGCGCCGTGGTCCAGCCGATTGTCGCGGGGCTGGGTGAGCTTGTACCGGTCACCCTGAAGGTGGGCCAGGAAGTGCCCTTCAACGACGTGATTCGCAGCCTCGCTGACGCCGCTTACGCCCGGGTGGACATGGTGACGCACCGCGGTGAGTTTGCCGTTCGCGGCGGCATCCTGGATGTCTTCCCGCCCACCGAAGACCACCCCATCCGTGTGGAGTTCTTCGGCGACGAGGTGGACCAGATGCGCTGGTTCGCCGTCGCGGACCAGCGCTCGCTGTCCTCACCCGGGCTCCACCACCCCACGGAGCTTCATGCGCCGCCGTGCCGTGAAGTCCTCATTACACCGTCGGTGATGTCCCGGGCGGCGACGCTCAAATCCCAGCTCCCAGCGGCAGCGGACATGCTGGAGAAAATCGCCGGCGGCATCGCTGTGGAGGGCATGGAGTCCCTCGCACCGGTGCTCGTCGATGCCATGGTGCCCTTCATGGAACAGTTGCCCGCCGGGTCCATTTCCGTAATGATCGAACCGGAGAAGGTCCGCACCCGCGCCCACGACCTCGCAGCCACCAACGAGGAGTTCCTTGAAGCGGCCTGGTCCACGGCATCGGAGGGCGGAACTGCGCCTTTGGCGCTGGACACTGTTCTGGGCTCCCGAGCCTCCGAAGCCCTGCACTCGGCCAGCTTCCGCTCACTGACCCAAACCCGTTCCGCTGCCCTCGAACATCACGTCTCCTGGTGGTCCATCACGTCACTGGCCACCGACGAAGAACTGACGGACATCAACGTGCTTAACCTGCACGCCCGTGAACCCCGCGGTTATCAGGGCGACGTCGCGGAGATGATGGACTTCATCGGCTCCCATGTGCGGGACCAGTGGCGGATCGTCGTGGCCACGGAAGGACCGGGTCCGGCCCAGCGCCTTGCCGAGCTGTTCCACGACGCCAACATCCCCTGCACGCGGGTGGAGTCCTTGGACCACGAGCCCCAGGCGGGCATCATCGAGGTGACCACTGCCGCCGTCGGACGCGGTTTTGTCCTGGACGGACTGAAACTGGGACTCCTCACGGAAGCGGACCTGCTCGGACGGACGTCCGCAGCCTCCACGAAGGACATGCGCCGCATGCCGTCCAAGCGGCGGAACGCGGTGGACCCGCTGCAACTGCTGGCCGGGGACCACGTGGTACACGAACAGCACGGCATCGGCAGGTTCGTGGAGCTCATCCAACGCAAGGTGGCTGGCGGGGGCGACGGCGTGCGCGAGTACCTCGTGCTGGAGTACGCCCCGTCCAAGCGCGGTGCCCCCGGTGACAGGCTGTTCGTTCCCACCGACCAGCTGGACCAGGTGACGCGCTACGTGGGCGGCGACGCGCCGGTGCTCAGCAAGATGGGCGGGGCCGACTGGGCCAGCACCAAATCCAAGGCCCGCAAGGCCGTCAAGGAAATCGCCGGCGAACTCATCCGGCTGTACTCGGCGCGGATGGCGTCCCGCGGGCACGCCTTCGCCCCAGACACCCCGTGGCAGCGCGAACTGGAAGAAGCCTTCCCGTACGTGGAGACCCCGGACCAGCTGACCACCATCAACGAGGTCAAGGCGGACATGGAGCGGGAAATTCCCATGGACCGGCTGGTCTCCGGCGACGTGGGCTACGGCAAGACAGAAATTGCCGTCCGCGCCGCGTTCAAAGCCGTGCAGGACGGCAAGCAGGTGGCCGTCCTCGTCCCCACCACGCTGCTCGCGCAGCAGCATTACGAGACATTCACAGAGCGCTTCTCCGGCTTCCCGCTCAGCGTGAAGCCCCTGTCCCGCTTCCAGAGCTCGAAGGAGGCCAAGGAAACAGCGGAAGGCGTCAAGAACGGAACCGTGGACGTTGTCATCGGCACCCACCGGCTCCTCTCCAAGGACTTTGGCTTCAAGGACCTGGGACTCGTGATTGTGGATGAGGAGCAGCGCTTCGGCGTGGAACACAAGGAAGCGCTCAAAAAGATGCGCACCAATGTGGACGTCCTCGCGATGAGTGCCACCCCCATTCCGCGTACGCTGGAAATGTCGCTGACCGGCATCCGCGAAACCTCCACTCTGGCCACGCCCCCGGAGGAACGGCACCCGGTGCTGACATACGTGGGGCCATACACCGACAAGCAGACCTCAGCCGCGATCCGGCGTGAACTGATGCGCGAAGGCCAGGTGTTCCTGGTCCACAACCGCGTGTCCACCATCGAGCGGACGGCCGCCAAGATCCGCGAACTGGTCCCGGAGGCGCGGGTGGAGGTGGCGCACGGTCAGATGTCGGAGAGCCGCCTGGAGCAGATCATCGTGGACTTCTGGGAGAAGCGCTTCGACGTCCTGGTCTGCACCACCATCATCGAAACCGGCCTGGACATCTCCAACGCCAACACCCTGATCGTGGACGGCGCAGACAAGTACGGCCTGTCGCAGCTGCACCAGCTGCGCGGCCGTGTGGGGCGCGGACGTGAGCGGGCGTATGCCTACTTCCTCTATCCCTCCGAGAAGCCGCTGGGAGAAGTGGCCCTGGAGCGGCTCAAGGCGGTGGCCAGCCACAACGAACTCGGCGCGGGCATGCAGCTGGCCATGAAGGACCTGGAAATCCGCGGCGCGGGCAACCTGCTCGGCGGTGAACAGTCCGGCCACATCCAGGGCGTCGGCTTCGACCTCTACATCCGGCTGGTAGGCGAAGCTGTGGCGGACTACCGCGGCGAGACCGAGGAAAAGGCCGCCGAGATGAAGATCGAGCTGCCGGTCAACGCCCACCTGCCGCACGACTACGTTCCAGGTGAACGGCTCCGGCTGGAGGCCTACCGGAAGCTGGCTGCCGCGCTCACCAACGAGGCGATTGACGAGGTCCTGGCCGAACTCGTGGACCGCTACGGCGAGCCGCCGCTGCCGGCGCAGAACCTCGTGGCGGTGGCACGCTTCCGGGTCGGCGCGCGCGAAGCCGGCCTGACCGACATCGCCCTGCAGGGGAACTTCATCAGGTTCTCACCCGCCCAGCTCCCGGAGTCCAAGACCATGCGGCTGAACCGCATGTATCCGGGCGCCCAGACCAAACCTGCACTGGACGCCGTTCTGATTCCGAAGCCGAAGACAGCCAGGATCGGCGGCCGGGATCTCCAGGACGCCGAGATCCTGGACTGGGCCAACGGAGTGATCCGCAACATCTTCTCCGACGCTCCGCTCGCCGCGCCGGCCCTGGGCGGCTGA	MSPTGQPSKGPSLSGLRRALAADKTFARVQAEASRSFGIRSEDYQISAPAGLRAVLLAEMAEGLENADGGPGIVLAVTATGREAEDLAAALRAYLPADAVAEFPSWETLPHERLSPRSDTVGRRLSVLRRLAHPETATAGPLRVVVAPVRAVVQPIVAGLGELVPVTLKVGQEVPFNDVIRSLADAAYARVDMVTHRGEFAVRGGILDVFPPTEDHPIRVEFFGDEVDQMRWFAVADQRSLSSPGLHHPTELHAPPCREVLITPSVMSRAATLKSQLPAAADMLEKIAGGIAVEGMESLAPVLVDAMVPFMEQLPAGSISVMIEPEKVRTRAHDLAATNEEFLEAAWSTASEGGTAPLALDTVLGSRASEALHSASFRSLTQTRSAALEHHVSWWSITSLATDEELTDINVLNLHAREPRGYQGDVAEMMDFIGSHVRDQWRIVVATEGPGPAQRLAELFHDANIPCTRVESLDHEPQAGIIEVTTAAVGRGFVLDGLKLGLLTEADLLGRTSAASTKDMRRMPSKRRNAVDPLQLLAGDHVVHEQHGIGRFVELIQRKVAGGGDGVREYLVLEYAPSKRGAPGDRLFVPTDQLDQVTRYVGGDAPVLSKMGGADWASTKSKARKAVKEIAGELIRLYSARMASRGHAFAPDTPWQRELEEAFPYVETPDQLTTINEVKADMEREIPMDRLVSGDVGYGKTEIAVRAAFKAVQDGKQVAVLVPTTLLAQQHYETFTERFSGFPLSVKPLSRFQSSKEAKETAEGVKNGTVDVVIGTHRLLSKDFGFKDLGLVIVDEEQRFGVEHKEALKKMRTNVDVLAMSATPIPRTLEMSLTGIRETSTLATPPEERHPVLTYVGPYTDKQTSAAIRRELMREGQVFLVHNRVSTIERTAAKIRELVPEARVEVAHGQMSESRLEQIIVDFWEKRFDVLVCTTIIETGLDISNANTLIVDGADKYGLSQLHQLRGRVGRGRERAYAYFLYPSEKPLGEVALERLKAVASHNELGAGMQLAMKDLEIRGAGNLLGGEQSGHIQGVGFDLYIRLVGEAVADYRGETEEKAAEMKIELPVNAHLPHDYVPGERLRLEAYRKLAAALTNEAIDEVLAELVDRYGEPPLPAQNLVAVARFRVGAREAGLTDIALQGNFIRFSPAQLPESKTMRLNRMYPGAQTKPALDAVLIPKPKTARIGGRDLQDAEILDWANGVIRNIFSDAPLAAPALGG				NA	NA	NA	NA	NA
D1-17_02753	1653			hypothetical protein	GTGAGCGAGCAGACCAGCGACCAGACCGGAAACAGCAGCGCCAATGCCCGCCGGGCAGAGAGCAGGGTGAAAAACAGCGAGCCGGGCCACCGCCCGCCGGGCAGCAACGGCCGGACGGTGCTGGTCACCGGCGCCACCGGCTACATCGGCGGCCGGCTGGTCCCGCGCCTGCTCGATGCAGGGCACCGGGTCAAGGTGCTGGTGCGCTCTGCCGAGAAGATCGCCGGCATACCCTGGTTTCACGATGTGGAAGTGGTGCGTTCCAGCCTCGACGACGCGCCCGCACTCACCGAGGCCATGAAGGGCGTGGAGGTCCTCTACTACCTCGTGCATTCGATGGCGGCGGGGTCCGGCTTCGAAGCCAAGGAAAAGTCCATGGCGGAACTCGTGGCCGATTCCGCTGCTGCCGCCGGCGTGCAGCGGATCGTGTACCTGGGCGGCCTGCACCCCCGCAACACCGGCCTGTCCACGCACATGCGCTCACGCGAGGCCGTGGGCGAAGTCTTCCTGTCCGGCCCGGTGGACGCCATCGTGTTCCAGGCCGGCGTGGTTATTGGATCCGGCTCCGCATCCTTCGAAATGATCCGGCACCTCGCGGAAACGCTCCCGGTCATGCCGGCCCCCAGCTGGGTGCGGAACCGGATCGAGGCGATCGCCGTGCGGGACGTGCTGCACTACCTGGTGGCGGCTGCCTCCCTGACGGAACCCCTCAACCGGACCTTTGACGTCGGTTCCCGGGACGTCCTGAGCTATGCCGGAATGATGAAGGAGTACGCAGCCGAGGCGGGGCTGCCGCTGCGCCTAGTCCTGGCGCTCCCCATCCCCGCCCCCAGGCTGGCCGGCCTCTGGGTGGCACTCGTGACCCCTATACCGCTGTCCATGTCCGTGCCCCTGGTGCAGTCGCTGCAGCACGACGCCGTCTCGTCCGAACACGACATCGACAACTACATCAAAATGCCCGACGGCGGTCTGACCGGCTACCGCAAGGCCGTGGCGCTTGCGCTGGGCAAGGAACGCGATGGGCAGGTGGAGACGACGTGGGCCAATGCGGGAGCGGACGCCGATCCGCTGCCCAGCGACCCGGAGTGGGCCGGGCACAAGGTGTATGTGGATGAGCGTACTTTCCACGGCGACGTGGGCCCCGGCCATGTCTGGACCGTCATCGAGGGCATTGGGGGGCGCAACGGCTGGTACTCACTGCCGTTGGCCTGGAGCGTGCGGGGCTGGCTGGACAAGCTCTCCGGCGGAGCGGGCCTGCTCCGCGGGCGCCGGCATCCCCACCGCCTCGTCGCGGGGGAAGTGGTGGACTGGTGGCGGGTGGAACGGATCGACCGGGGCCGGCTGCTCCGGCTTCGGGCCGAGATGCGGGCTCCCGGACGCGCCTGGCTGGAGCTCTCAGTAGAGTCCGGCGGGAGCGGGAGCCGCTACCGCCAGCGGGCCATCTTCTTCCCCAAGGGCCTGAGCGGGCGGCTCTACTGGCTGGCGGTGCTGCCATTCCACAGCCTCATATTTCCGGCCATGGCACGCAACATCACAGCGGCCGCCAGGAAGATCGCCGCCACGGAAGCCGCCCGCCGGGGGCCAGGCGGAGAGTCAGGCACTGCGCCGGCCGCAGATGAGCCCGATTCCAAGGAGACGCAGGCAACCCCGTAG	MSEQTSDQTGNSSANARRAESRVKNSEPGHRPPGSNGRTVLVTGATGYIGGRLVPRLLDAGHRVKVLVRSAEKIAGIPWFHDVEVVRSSLDDAPALTEAMKGVEVLYYLVHSMAAGSGFEAKEKSMAELVADSAAAAGVQRIVYLGGLHPRNTGLSTHMRSREAVGEVFLSGPVDAIVFQAGVVIGSGSASFEMIRHLAETLPVMPAPSWVRNRIEAIAVRDVLHYLVAAASLTEPLNRTFDVGSRDVLSYAGMMKEYAAEAGLPLRLVLALPIPAPRLAGLWVALVTPIPLSMSVPLVQSLQHDAVSSEHDIDNYIKMPDGGLTGYRKAVALALGKERDGQVETTWANAGADADPLPSDPEWAGHKVYVDERTFHGDVGPGHVWTVIEGIGGRNGWYSLPLAWSVRGWLDKLSGGAGLLRGRRHPHRLVAGEVVDWWRVERIDRGRLLRLRAEMRAPGRAWLELSVESGGSGSRYRQRAIFFPKGLSGRLYWLAVLPFHSLIFPAMARNITAAARKIAATEAARRGPGGESGTAPAADEPDSKETQATP				NA	NA	NA	NA	NA
D1-17_02754	498			hypothetical protein	ATGGCACTGAGTGCATCCACTACCCTTCCCCACGGCGTCGACAGCGTCACCGCAGTTTTCACCAACGAGGAGTTCCAGCGGCACACCAGCGAATACGTGGGAGGCAGCCTCGATTCCTTCACGGTGGACGGTGACGTTGCTGGAGCCTTCAGCACCACGTCCGTGCGCACCCTCCCCACCACCCGGCTCCCGGAAATCGCCCGCAAGTTCGTTGGCGACACCCTGAAGGTAACCCAGGTGGAGAACTGGGACGCCCCGGGCGCTGACGGCTCACGGCAGAGCAACATCTCCCTCAAGATTGCCGGCGCTCCGATCGATGTCTCTGCTGTCCAGCGGCTCGTTGCAGACGGCGGCAGCACGCGCGTTGAGCTTGAGGGCAACGTCACGTCCTCCGTGCCGTTCCTGGGCGGGAAGATCGCCGAAGCCGCCGAACCGATGGTGGGCAAGGCGCTGAACATCCAGTCCCAGCAGGCCCAGGCCTGGCTCGAAAGCCATTAG	MALSASTTLPHGVDSVTAVFTNEEFQRHTSEYVGGSLDSFTVDGDVAGAFSTTSVRTLPTTRLPEIARKFVGDTLKVTQVENWDAPGADGSRQSNISLKIAGAPIDVSAVQRLVADGGSTRVELEGNVTSSVPFLGGKIAEAAEPMVGKALNIQSQQAQAWLESH				NA	NA	NA	NA	NA
D1-17_02755	222			hypothetical protein	ATGGAAATCCCCGCTCTTCTGGCCTGGGTCCTGATCATTGCGGGTGTCTGGTCGCTCGTGGTCTGGCCGCAGTTCCTGCGCCGCGTGATGAAGGATCCGAGGGGGCGGGACGCTGAAGGCAAGGCGACGAAATTCCTCACCGTCCACGTTGTGCTGGTGGCAGTGTCCATGGTTCTGGGCGCGGCCACGGCCGGCATCGGTATCGCAGGCCTGTTCGGCTAG	MEIPALLAWVLIIAGVWSLVVWPQFLRRVMKDPRGRDAEGKATKFLTVHVVLVAVSMVLGAATAGIGIAGLFG				NA	NA	NA	NA	NA
D1-17_02756	450	sufU	COG0822	Zinc-dependent sulfurtransferase SufU	ATGAGCCTTGACCAGCTTTACCAGCAAATCATTCTGGACCACTCCAAAGCGCGGCATGGCAGCGGTCTGTCCGAAAGGGCTGCCCCCGACGGCGCCTCCACCGGGCAGTCGCATCAGCTGAACCCGGTCTGCGGTGATGAGGTGACCGTGCGGGTTGCGGTGGACCACGGGACCGTTTCCCAGGTGGCATGGGACGGGGCCGGCTGCTCCATCTCCATGGCATCTGCCTCCGTCCTCAGTGAGATGGCGGAAGGCATGTCCGTGGACGAACTGCGCGAGGTGATCGGCAGCTTCCGGAACGTCCTCCGCTCGCGCGGCAAGGTCCAGGCGGACCCCGAGGTGCTGGGCGACGCCGCCGCATTCGAAGGTGTGTCCCGCTACGCCGCGCGGGTGAAGTGCGCGATGATCTCCTGGGTCGCCGCAGAGGACGCCCTCAACCAGGCAGCCTAG	MSLDQLYQQIILDHSKARHGSGLSERAAPDGASTGQSHQLNPVCGDEVTVRVAVDHGTVSQVAWDGAGCSISMASASVLSEMAEGMSVDELREVIGSFRNVLRSRGKVQADPEVLGDAAAFEGVSRYAARVKCAMISWVAAEDALNQAA	PGPT0000075_1120	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
D1-17_02757	1326	csd_2	COG0520	putative cysteine desulfurase	TTGGCCGTAGTAGCAACGCCAACCACGCTGGAACGTGCCCTTCCTGCGATGGACAACTCGGAGGTCCTCAGGATCCGGAACGACTTTCCCATCCTGGACCAGCTCGTCAACGGCCGTCCGCTGGTCTATCTGGACTCCGGCGCCACCTCACAGAATCCCGTGAGCGTGATTGAGGCCGAACAGGAATTCTACGAGCAGCGGAATGCCGCCGTGCACCGCGGGGCCCACCACCTCGCCGTGGAAGCTACGGAGGTGTTCGAGGACGCCCGGCAGACGGTCGCTGATTTCGTAGGAGCGCAGTACGAGGAAATCGTCTGGACCTCCAACGCGACGGAAGGCTTGAACCTCATCAGCTATGCGTTGTCCAACGCCACTCTCTGGGCTGCGCAGAACCGCGGCGATGCGCGGCTGCGGGAGCTGGCTCTCGGTCCGGGAGACGAGATCGTGGTCACCGAAATGGAGCACCACGCGAACCTCATTCCCTGGCAGGAGCTTGCCTTCCGGACCGGCGCCACCCTGCGCTACATTCCCATTGACGACGCCGGAAGACTGCAGCTGGACCAGGCCTCGGACATCGTGGGGGAGCGAACCAGGCTTCTCGCCTTCACTCACGCCTCCAATGTGCTTGGAACCATCAACCCGGTCCGGGACCTTGTGGCTCTGGCCCGGCGTGCCGGTGCCCTGGTGGTGCTTGATGCGTGCCAGTCCGCGCCGCACCTGCCCCTCAAAGTCACGGAGCTGGACGTCGACTTCGCCGTCTTCTCAAGCCACAAGATGCTGGGCCCCACCGGCATCGGCGTGTTGTATGGCAAGCAGGACCTCCTGGACGTGCTGCCCCCGTTCCTGACTGGCGGGTCGATGATCACCACCGTGAGCATGGAACGGGCCGACTATCTGCCGGCGCCACAGAGGTTCGAGGCCGGAACGCAGAAAATTTCGCAGGCCGTAGCCCTCGCCGCCGCCGTCAATTACCTCACCGAGACCGGCCTGGACCGGGTGCACCGCTGGGAGTCCGAACTCGGCCAGCGCATGGTGGCCGGGCTTGAAGCCATCGACGGCATCCGTGTTCTCGGCCCGGCTGCCGGCCAGGACCGGATTGGCCTTGCGGCGTTCGACGTCGCCGGTGTTCACGCGCACGACGTCGGACAGTTCCTGGATGCGCGCGGCATCGCCGTTCGCGTCGGTCACCACTGCGCCCAGCCGCTGCACCGCCGCCTGGGCCTCACGGCCACCACGCGGGCCAGCGCCTATCTGTATAACACCACCGACGACGTGGACGAGTTCCTGGACGCTGTGTCCGGAGTCCGCGCCTACTTCCGCGCCTAG	MAVVATPTTLERALPAMDNSEVLRIRNDFPILDQLVNGRPLVYLDSGATSQNPVSVIEAEQEFYEQRNAAVHRGAHHLAVEATEVFEDARQTVADFVGAQYEEIVWTSNATEGLNLISYALSNATLWAAQNRGDARLRELALGPGDEIVVTEMEHHANLIPWQELAFRTGATLRYIPIDDAGRLQLDQASDIVGERTRLLAFTHASNVLGTINPVRDLVALARRAGALVVLDACQSAPHLPLKVTELDVDFAVFSSHKMLGPTGIGVLYGKQDLLDVLPPFLTGGSMITTVSMERADYLPAPQRFEAGTQKISQAVALAAAVNYLTETGLDRVHRWESELGQRMVAGLEAIDGIRVLGPAAGQDRIGLAAFDVAGVHAHDVGQFLDARGIAVRVGHHCAQPLHRRLGLTATTRASAYLYNTTDDVDEFLDAVSGVRAYFRA	PGPT0020195_585	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0020195-sufS-K11717	NA	NA
D1-17_02758	2913			hypothetical protein	GTGATCTGCCTGGACTCGTCTAAGGGCCGCCCGCTAAAGCCGGAACCCCCTGCAGACCACCGGCAGCTCACCGGGCGGAATGAGGTGATTGAACACGTCTGCGCCACCATCCGCAGCCGGGCAAGCCAGGCTGTGTTCCTCATGGCGGGACCGGGGCTTGGGAAGTCGTCCCTGACTGATGCCGTCAGCGGGAAGCTGGCGGCCGAAATGACCATCCTCCGGATCCACGGCAGCTCGTCGCTCTCGAAGGTCCCTTACGGCGTGCTCGCTCCCTACACAGCCGATCTTCCGCCCGAGGAGTCTGACTCGCCGGTGGCGGTGCTGCGGTCGGTGTGGGCGTACTTCCAGGAGATCAAAGGCGGCAAGGACGTCCCGCTGCTCCTGGTTGTCGACGATGCCCACCACCTGGACGAAGCGACGGCAACCATGGTGGTGGACATGATGTCGGCAGGGTGGGTCAGCGTGCTGGCCTCCGGACGACCGCGGCCCGGCCTGCCCCAGGCATTGAACCAGCTGTGGTACGACGGCCAGGCCGAACGGATAGACCTCCGGCCGCTCAACGGCGAGCAAGTCACGGAGGTGGTAGAGCACACGCTGCAGGGAACAGTCCCGGCCAATACCGTGCAGTCCTTGTGGTCTGCTTCAGGCGGCAACCCCCTGCTCCTGAACTGCATACTGGGTGATGCGGTCGAAGCGGGCATTCTCGCCAAACGCAACGGGATTTGGCTGCTGCTGGGTCCGCTGCCGGCGGACGGACCCCGGCTGTCCGACGTCGTCGTCAAAGATCTCCTGCGCAGAACCCGCGAGGAGCAGGAAGCCCTCAGGCTCATTGCCCTGGCTGAGCCTATTGACCGCAGCGTCATCGAGGACCTGTGCGGAGGAACGGTGGTCCGTTCCCTGCTGGACCACCAGCTGGTCAGTGAATCCAGCGGGCAGCCCACCCAGCTGCGTATCTGGCACCCGATTCTGGGCGAATCGATGCGGCATCAGGTCTCAGTGTCACGCAGCCTCCAGTTGCGTCAAAAGATGACTCAGTACCACGATCCAAAGACATCGGGCCCAGAGGGCAGGCTGCGGATGGTGGAGTGGTCGCTCGAGTGCGGCCTGGAAGTCGCCGATGCTGACCTGCTGGATGCCGCCCTGCTGGCAGTCACGAGCTTCAACAATGAAGGTGCCCGGCTCATGGCCGGACACGTCCGCGCGCCGGAGCTGCAGGCCCACGCCCAGTCGATTTCCGCGAGAGCTCTCTTCAATGAGGGCAAGTACCGGGAGGCCGCGGCACTCCTTGACACATGCTGGCTGGAACTGGCCACCCACCCGGAAGCCCCTCACGTGCTCATGCTCAGGGCGTCGGCGCACCTGGCACTCGGAAAATCAGCGGAACAGCTTCGGTCCGAGTCACGCAGTCAGCTCTCGGACGCCGGGCATGACGTCCGGTCCGCCTGGCAGGACACCATCCACAACCTGCTGGAGTTGGCCGAGGCCGCCGACCACGAGGGCATAAGGGATCTGATTGCCGCCGGAATGCCCGACGGCGGCACCTGGGCCGGAACCGATGTGTCCGGACCCGCCAAACCGGTCATGGCTGCAGCCGGTGCATCTAACGGACATTCGGAAGCCGGACGTGGGGAGTCGCGCGGCCAAGAATTTGCACGTGCAGATCCAGGCAGCACGCAATCCGCCCGCGCAGACTTAGGCAGCACGGAATCCGCGCGCGCAGAATCCTTCGCTTCAGGCACGGAAGAGAATCCGGCAGTCCGCCCGCCTGCCACAGTGGCCTCGGCCATTCAGTCCCTCTCCCGCGCTCTCCTTGCCCAGGCCCTCGTATCGGCAGGACTGGCACACCAGGCACATGCGGCCGCCCTTGCTGCGGCGCCCGCGCCTGCGCTGCAGGCCGGCCTGTACTTTTTCAACGAGTTCGTCCTGACCCGGCTCGTCGCAGCGTCCCTCGCTGCCGGCAATTGGGAATCGGCGGAGCATGAGCTCGCGAGCTCCTCGGTGGAGGAGAACGAGGGAGCCGCCACGTTCGGCGGAGGAATCCAAGTGCTCCGCGGGTTGGGCTTCCTGCGGCAGGGCCAGCTGGAGCGTGCCTACCACGAGCTGCTTCCGGCCGTCGAAGCGCTTCGCATCAACGACCCGCTTCAGCAGTTCCGGTTCGGCGCGGCCCTCGCCTTTTACGCCGCCGCGCGGCTGGGTGACGGGGCGCAGGCCCAGCGACTCGAGCAGGATTTGATTGCCGCCCGGCATGCGACAGGGCCGGGCGGAGAGTTGCTTGCTGAAGGCTATGCTGCCGCCGCCGCAGAATATCTTGACCGCAAGGGCAGCGGACTGGCCAGGCTTCGTGAACTCGCGGCATCACCCGCCGTCATGGCCCAGCCCGGAATCAGGATGGAATGCCTGATCCTGTGTTCGGATCTCGGTGACCGCACGGTGGCCGATGACATCGCGTCCTTGTCCGACACCGTCGAGGGACGTTGGGCTGCAGGGTGGCACCAGCTCGCGGAAGCCTGGGTCAGCGGTGACGCAGACAACCTCATGGAGACTGCAGCCGCCCTGGAAGAAGCAGGGCTGGTCAACCTGGCCAGAGAGGCGTATGCCCGGGCCGGTGCGGTCCTGGACGCGGCGGGGGAACGGCGCCGCGCACGGCAGGCGGTGGCGCACCGCGAAAAATGCGACCAGGAACTCGGGGAACGGTTCCGCGAAAGTCCGTTCGTGGCGTCGGTCCCGAGCGTCCACCTCACACGCCGCGAGCGTGACATTGTGGAGCTGGCGGTCCAGGGACTCTCCGACCGCGAGATTGCCCAGCAGCTCATGGTCTCGGTGCGGACCGTCGAGGGGCACCTGTACCGGAGCTACGTCAAGCTCGGCGTACGCCGGCGGGATGAACTCGCGCTGGCTCTTCCCAAGAAATAG	MICLDSSKGRPLKPEPPADHRQLTGRNEVIEHVCATIRSRASQAVFLMAGPGLGKSSLTDAVSGKLAAEMTILRIHGSSSLSKVPYGVLAPYTADLPPEESDSPVAVLRSVWAYFQEIKGGKDVPLLLVVDDAHHLDEATATMVVDMMSAGWVSVLASGRPRPGLPQALNQLWYDGQAERIDLRPLNGEQVTEVVEHTLQGTVPANTVQSLWSASGGNPLLLNCILGDAVEAGILAKRNGIWLLLGPLPADGPRLSDVVVKDLLRRTREEQEALRLIALAEPIDRSVIEDLCGGTVVRSLLDHQLVSESSGQPTQLRIWHPILGESMRHQVSVSRSLQLRQKMTQYHDPKTSGPEGRLRMVEWSLECGLEVADADLLDAALLAVTSFNNEGARLMAGHVRAPELQAHAQSISARALFNEGKYREAAALLDTCWLELATHPEAPHVLMLRASAHLALGKSAEQLRSESRSQLSDAGHDVRSAWQDTIHNLLELAEAADHEGIRDLIAAGMPDGGTWAGTDVSGPAKPVMAAAGASNGHSEAGRGESRGQEFARADPGSTQSARADLGSTESARAESFASGTEENPAVRPPATVASAIQSLSRALLAQALVSAGLAHQAHAAALAAAPAPALQAGLYFFNEFVLTRLVAASLAAGNWESAEHELASSSVEENEGAATFGGGIQVLRGLGFLRQGQLERAYHELLPAVEALRINDPLQQFRFGAALAFYAAARLGDGAQAQRLEQDLIAARHATGPGGELLAEGYAAAAAEYLDRKGSGLARLRELAASPAVMAQPGIRMECLILCSDLGDRTVADDIASLSDTVEGRWAAGWHQLAEAWVSGDADNLMETAAALEEAGLVNLAREAYARAGAVLDAAGERRRARQAVAHREKCDQELGERFRESPFVASVPSVHLTRRERDIVELAVQGLSDREIAQQLMVSVRTVEGHLYRSYVKLGVRRRDELALALPKK				NA	NA	NA	NA	NA
D1-17_02759	2739			hypothetical protein	ATGTCTAGTGAACCACTGAGCTGGGGTCGTGGGTCCACGGCAGGAGTGCTGGCTGGTCCTGCGGCTTCGGGGGGCGGAACGGACCTGCAACGATGGTCGGTGCCGGCGCGCAGCGCGGACCTGGAGGCCATCCGCAATGCCCTGACCGATCCTGATTCCCTTGGTGTCGTTATTACCGGTGCCCGCGGCGTCGGCAAGTCATCCCTGGCGCGGACCGCAGTGGCTGAACTGGGCAAGGATGTCTGGGCGCTGCAGCTGCGCAGCCCGCTCACCGGCTCGCAGACCTCCTACGGCTGCCTTGCCTTCCTCTTGGCCCGGCTGCCGCAGTCGGCCATGGGATCACCCACAGCCGTCCTGCAAGGAATCACGTCCCTCATCAGGAGTGATGCGGCCGGCAGGGAATGCATCATCACCCTGGACACCACGGGCATGATCGATGACATGAGCGCCGGCGTCCTCCTGAACATCATGCTGACGCGCACGGCGCGGATTATTGCCATTGCGCCCGGCACAAGCGATCTTCCCGCGGATTTCCACTGGCTGCTGACAGACCGCCGCCTCACGGAAGTGCGGCTGGAGAACCTCAACGAGCTGCAGACCCGGCAGGTCCTGCTGACTCTGCTGGGGCACCGAGTGTCCGCGTCCCTTGTGAGCACTTATCACGCCATCGTCGGCGGCAACCCGCTGCTGCTCAAGGCACTTGTCACGGAGCAGCAGCAGTCAGGCAACCTGGTTCTTTCCGACTCGGTCTGGACGCTGCGGGACAAAGTGGTACTGGACGGCGCCACCGGCCTGGACGACATTGTCCGGTCCCGCTGGTCCCGCGAGTCTCCGGAAAGCCGCGAAGTCATGGAAATGCTCTCCTGCGCACGCAGGGTGCCCTTGTCACGGCTCACCGAGCTGTACGGCACGGACATCGTGGCGGACATGGAGGATGGCGGGCTTCTCAAAGTGGGAGACACCGATGCCCGCTGGGTGTCGCTGCGGGAGCAGTACCTGGGCGACGTCGTCCGGTCCTGGCTGAGCCTCTCACGGCGCCGGGAGCTGAGGAGCCAGCTGCTGGGCGACACGGAACCCGAACTCGCCCACCTGAGCCTGGAAGAGCGGATCGAGTTCGCCGCATGGACCCGGGAATGCCAGGCCGAGCTCAGCCCTGCCATGGCTGTCGCAGCTGCCGAAGCAGCCGTACAGATGTTTGACCCCCGATTTGCCTTGAACTGCCTCGAGGGAATCAAGAGAACCGACCCCGAGTGGGTGGCCGGGCAACACCATAAGGCCACTGCCTACCTGCTGCTGGATCTGCCCCTTCAGGCCATGGACGCCCTTGACAGCATTTCCCAGGCGCAGCTGGATCAGCTCGGCGTGGAGGAATTCGCCAGCGTTATCGCCGCGAAGTGCCGGGTCATGATGTGGCTCCCCGAGGTCTGCGGCAAAGTTCCGGAGGAAATTGACGCCGCCCGCCGGCGCCTGGGTGTGGGGCCAGGCATCGCCACCAGCTGGCCCGACTCCCTGGGTGCAGCCGCGAACGCCATAAGCCTTGCCGAATTTGAGTACCGCTCCTTTATCGGCGACTATGCGCCCATGATCGATGCCCTTGAAGAAGCATCAGATCCGGCCATCAACAAGGACCCCGCATTCCGCATCCAGTCTGCCTTGATCCTCATGCACGCGCTGTCGGCCTGCGGCAGGGAAATGGACGCGCTGCAGCTCACACGAAGGGTGGGCGGCCAGCTCTCCGATGCAGGTCCCCTGACAGGCCTCCGCGAAATGTTCTCCATGACGGCCTTCTCGGTGCTGCTCCAGGCCGGACAATGGCGGCGGTGCCTTGATCTTGTCGGTCCGCCCAAGGGCCACGAGGAGCGCAGGCTGGCACACCGCACCTCCGCCATGGAGCTGGCCACTGGAATCGCCTACGTGTACTCCGGCCGCGGCGCAGTTGCGCTGGACTCGCTCCTGTCTGCAGTGGCCCAGCTTGAACTCCGGCCGGTGGTCAACATGCTGCAGGCCGCCTATGCCGCCACAGCCTTTGCTTATGCACAGATCGGCAACGCCGGCCAGGCCCACAAGTACCTCGACAAGCTGCGGGGGGCACGCAGCCATTGCAACTTCCGCACCCGGACCGTCACGGATTTCTGTGCGGACATGGCCGGACGCTGGCTGGGGGACCCCGACGCCGTCAAGCGGCTGCGGGAGTCCGCCCGCCGCGATATCGCCGCGGGCCGCTACACTCTCGCCGGAATCAGCCTGCTGGGTGCCACAGTCAACGGAACAGATGAAGATTTCCGCCTTATGGAGGAAGTCGCCGGCCACCGGCAGGGCAAGCTTGCAGAGATTTCGCGCCTGGTGGCCGTGGGCAGCCGCACGAAGGACGCGAAGGTCCTGCTGGAAGGCGGGCACATCGCCGCCGAGCTCGAACTGGATGCGGTGGAGGCCCGCTGCATGGCCCTGGCCGTGGACTTTGCGCGGCACTCAGGCGATTCCGCATCAGCACGCGTGGCCCAGGCCCGGCTGGATGCCCTTACTGCAACCGTCCCAAGCCTGCCGATCGTACCGAGCAGCGGCAGCCCGCTTCTGACCGCGAGGGAGCGCCAGATCTCGCGCCTGGCCGGCCGTGGTGTGTCCAACCGCGACATCGCACTGGAGATGGGTGTCTCCGTCCGGACAGTGGAAGGGCACCTGTACCAGGTCTTCACCAAACTCGGTGTGACTTCCAGGGGTGATCTGCCTGGACTCGTCTAA	MSSEPLSWGRGSTAGVLAGPAASGGGTDLQRWSVPARSADLEAIRNALTDPDSLGVVITGARGVGKSSLARTAVAELGKDVWALQLRSPLTGSQTSYGCLAFLLARLPQSAMGSPTAVLQGITSLIRSDAAGRECIITLDTTGMIDDMSAGVLLNIMLTRTARIIAIAPGTSDLPADFHWLLTDRRLTEVRLENLNELQTRQVLLTLLGHRVSASLVSTYHAIVGGNPLLLKALVTEQQQSGNLVLSDSVWTLRDKVVLDGATGLDDIVRSRWSRESPESREVMEMLSCARRVPLSRLTELYGTDIVADMEDGGLLKVGDTDARWVSLREQYLGDVVRSWLSLSRRRELRSQLLGDTEPELAHLSLEERIEFAAWTRECQAELSPAMAVAAAEAAVQMFDPRFALNCLEGIKRTDPEWVAGQHHKATAYLLLDLPLQAMDALDSISQAQLDQLGVEEFASVIAAKCRVMMWLPEVCGKVPEEIDAARRRLGVGPGIATSWPDSLGAAANAISLAEFEYRSFIGDYAPMIDALEEASDPAINKDPAFRIQSALILMHALSACGREMDALQLTRRVGGQLSDAGPLTGLREMFSMTAFSVLLQAGQWRRCLDLVGPPKGHEERRLAHRTSAMELATGIAYVYSGRGAVALDSLLSAVAQLELRPVVNMLQAAYAATAFAYAQIGNAGQAHKYLDKLRGARSHCNFRTRTVTDFCADMAGRWLGDPDAVKRLRESARRDIAAGRYTLAGISLLGATVNGTDEDFRLMEEVAGHRQGKLAEISRLVAVGSRTKDAKVLLEGGHIAAELELDAVEARCMALAVDFARHSGDSASARVAQARLDALTATVPSLPIVPSSGSPLLTARERQISRLAGRGVSNRDIALEMGVSVRTVEGHLYQVFTKLGVTSRGDLPGLV				NA	NA	NA	NA	NA
D1-17_02760	585	pth	COG0193	Peptidyl-tRNA hydrolase	ATGACTGACACCTGGCTGATCGTAGGCCTTGGAAACCCTGGCGCCGAGTACAGCCGCAACCGGCATAACGTGGGCCAGATGGTTCTTGACGAGCTCGCTGACCGCGTGGGGGGAACCTTCAAGATTCACAAGGCCCGCTCGCAGGTCCTTGAGGGCCGGCTGGGTATCGGGGGCCCGCGCGTGGTCCTGGCAAAGCCCGTGACGTACATGAATGTTTCCGGCGGTCCCGTTTCCGGCCTGGCCAGGTTTTATGACATCGATCCCTCCCGGGTGGTGGCAGTCCACGACGAAATCGACATTCCCTTTAATACGGTGAAGCTTAAACTCGGGGGCGGGGAAGGCGGCCACAACGGGTTGCGGGATATCTCCAAGGCCCTCGCCACGAAGGACTACCTGCGTGTCCGGGTTGGAGTCGGCAGGCCCCCGGGGCGCATGGATACCGCGGACTTTGTGCTGCGCGACTTCGCGCCGGCGGAAAAGAAAGAGCTGCCTTTCCTGCTCGACGAGGCCGCAGACGCCGTCGAACTGCTGATCCGGGACGGCCTGACAGCGGCGCAGCAGCGGTTCCATCCGGCGAAGGTCTGA	MTDTWLIVGLGNPGAEYSRNRHNVGQMVLDELADRVGGTFKIHKARSQVLEGRLGIGGPRVVLAKPVTYMNVSGGPVSGLARFYDIDPSRVVAVHDEIDIPFNTVKLKLGGGEGGHNGLRDISKALATKDYLRVRVGVGRPPGRMDTADFVLRDFAPAEKKELPFLLDEAADAVELLIRDGLTAAQQRFHPAKV				NA	NA	NA	NA	NA
D1-17_02761	609	rplY	COG1825	50S ribosomal protein L25	ATGTCTGAGCAGAAGCTCGCAGCAGAAGTACGCACCGAATTCGGCAAGGGCTTCGCCCGCCGCGCCCGCATGGCCGGCCAGATCCCCGCCGTCATCTACGGCCACGGCGCGGAGCCCATCCACATCACGCTCCCGGCAAAGGCAACCACGCTGGCCGTGCGCACCGCCAACGCCCTGCTGGCCCTCGACGTCAACGGTGAAGGCCACCTCGCCCTCGTGAAGGACATCCAGCGCGACCCGATCAAGCAGATCATCGAGCACATCGACCTCCTGACCGTCCGCCAGGGCGAGAAGGTCACCGTGGACGTTCCCGTCCACGTCACCGGTGAAACCGCTCCCGGCACCGTTCACAACCTCGAGCTCACCGTTGTTTCCCTTGAGGCAGAGGCCACCCACCTGCCCACCGCCGTCGAGGTTGACATTGAAGGCCGCCGCGCCGGCGAGCACATCCACGCCTCCGACCTGGTTCTGCCGAAGGGCTCTGTTCTCCTGGCCGACGCTGAGGCACTCGTCGTCAACATCTCCGAGGCTGCTGCCACAGCTGCGGAGGAAGGCGAAGAGGGAGCCGCAGCTGCGGAAGCCCCGGCCGGTGGAGCTGCAGCCGAGTAG	MSEQKLAAEVRTEFGKGFARRARMAGQIPAVIYGHGAEPIHITLPAKATTLAVRTANALLALDVNGEGHLALVKDIQRDPIKQIIEHIDLLTVRQGEKVTVDVPVHVTGETAPGTVHNLELTVVSLEAEATHLPTAVEVDIEGRRAGEHIHASDLVLPKGSVLLADAEALVVNISEAAATAAEEGEEGAAAAEAPAGGAAAE				NA	NA	NA	NA	NA
D1-17_02762	981	prs	COG0462	Ribose-phosphate pyrophosphokinase	ATGACCGACATTACGGCTCGCGGCGAAAAAAGGCTGGTGCTGGCCGCAGGGCGCGCTCACCCGGAGCTGGCACGCGAAATTGCCAAGGAGCTGGGCACCGAGCTGCTGCCCGTCGACGCCTACGACTTCGCCAACGGTGAGATCTACGTCCGCGCCGGCGAAAGCGTGCGCGGAACCGATGCCTTCGTCATTCAGGCCCACCCGGCACCGCTGAATAACCATCTCATGGAACAGCTGATCATGATCGATTCGCTGAAGCGGGCTTCTGCCAAGCGGATCACCGTGGTGTCGCCGTTCTACCCGTACTCCCGACAGGACAAGAAGGGCCGCGGCCGTGAGCCCATCTCGGCACGGCTGGTGGCGGACCTCTACCGGACCGCCGGCGCTGACCGCATCATGAGCGTTGACCTGCACACCTCGCAGATCCAGGGCTTCTTCGACGGCCCGGTGGACCACCTCATGGCCATTCCGCTGCTTGCTGACTACATCCGCACCCGGGTTGCGGCCGACAACATCACCGTGGTGTCCCCAGACACCGGCCGTGTCCGCGTGGCCGAGCAGTGGGCCGAACGCCTTGGCGGCGCGCCGCTGGCCTTCGTCCACAAGAGCCGCGACCTCACTGTTCCCAACCAGGCTGTCTCCAAGACAGTCGTGGGCCAGATCGAGGGCCGCACCTGCGTCCTCATCGACGACATGATTGACACCGGCGGGACCATTTCCGGTGCCGTCCAGGTGCTCAAGAACGCAGGGGCCAAGGACGTCATCATCGCCGCGACGCACGCCATTTTCTCCGACCCGGCGGCCCGCCGTCTGTCCGAGTCCGGCGCCCGCGAAGTTGTAGTCACCGATACGCTGCCCCTGCCGGCCGCGAAGCGCTTCCCGGAACTGACGGTGCTCTCCATCGCACCGCTGATTGCCCGTGCCATCCGCGAAGTGTTCGACGACGGCTCGGTCACCAGCCTCTTCGACGGCAACGCCTAA	MTDITARGEKRLVLAAGRAHPELAREIAKELGTELLPVDAYDFANGEIYVRAGESVRGTDAFVIQAHPAPLNNHLMEQLIMIDSLKRASAKRITVVSPFYPYSRQDKKGRGREPISARLVADLYRTAGADRIMSVDLHTSQIQGFFDGPVDHLMAIPLLADYIRTRVAADNITVVSPDTGRVRVAEQWAERLGGAPLAFVHKSRDLTVPNQAVSKTVVGQIEGRTCVLIDDMIDTGGTISGAVQVLKNAGAKDVIIAATHAIFSDPAARRLSESGAREVVVTDTLPLPAAKRFPELTVLSIAPLIARAIREVFDDGSVTSLFDGNA	PGPT0021480_1796	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
D1-17_02763	1494	glmU	COG1207	Bifunctional protein GlmU	GTGAGCCCCGAGAAGTCCGGCCCAGCCGCCGTCATCGTCCTAGCTGCAGGTGCCGGTACCCGGATGAAGTCTCGTACGCCCAAGATTCTTCACGAAATCGGCGGCCGCTCTATGGTGGGGCACGCCCTGATTGCGGCGCGCAGCATCAATCCCCGGCGCGTCGCCGTCGTCGTCCGCCATGAGCGTGACCGCGTGGCCAGCCACCTCAAGGAGCTCGACGCCGATGCCCTGATCGTGGATCAGGATGAGATTCCGGGCACCGGCCGCGCTGTCGAGGTTGCCCTGGAAGCTCTGGATTCGGACGCCCGCCTCGAGGGAACGGTGGTGGTGACCTACGGCGACGTGCCGCTGCTGACAGGTGAGCTGCTGTCCGAACTGGTGGCCAGGCACGAGTCCGAAGGCAACGCAGTCACGGTCCTGACCGCGTTGCTCGAGGACGCCACCGGCTACGGCCGGATCCTCCGCGGCACCGACGGGACAGTCACCGGCATCCGGGAGCACAAGGATGCCACGGACACCGAGCGCGGGATCCGCGAAGTCAATTCCGGCATTTATGCCTTCGACGCCGCCGTGCTGCGCGATGCCCTCCGGCACGTCACCACCGACAACTCACAGGGCGAGAAGTACCTGACGGACGTCCTGGCTTTGGCGCGGGAGGCAGGCGGCCGCGTGGCCGCCGTCGTCACGGCCGACCACTGGCAGGTCGAAGGCGCCAACGACCGGGTTCAGCTCGCTGCCTTGGGCGCCGAGCATAACCGCCGCATCGTGGAAGCGTGGATGCGTGCCGGAGTCACTGTCGTCGATCCGGCCACCACGTGGATCGACTCCACTGTCACCCTGGACGAGGACGTTCGGATCCTGCCCAACACCCAGCTGCACGGCAGCACGGCGGTGGCGCGTGACGCCGTCGTCGGCCCCGACTCCACCCTGACGGATGTGCGGATCGGCGAAGGCGCGAAGGTAATCCGCACGCACGGAACGGGAGCGGACATCGGCGCCGGCGCCAGCGTGGGACCGTTCACGTACCTGCGGCCCGGGACAGTCCTTGGCGAAACGGGCAAGATCGGCGCCTTCTACGAAACCAAGAACGTGACCATCGGCCGCGGCTCCAAGCTGTCCCACCTTGGCTACGCGGGAGACGCAGAGATCGGTGAGGACACGAACATCGGCTGCGGCAACATCACCGCCAATTATGACGGCGAGAAGAAGCACCGCACGGTGATTGGCTCAGGTGTCCGCACCGGCTCCAACACAGTATTCGTTGCTCCTGTCACGGTGGGGGACGGTGCCTACAGCGGCGCCGGAGCCGTGATCCGCAAGGACGTTCCCGCAGGAGCCCTGGCGCTGTCCATGGCCGCGCAGCGCAACGCGGAGGGTTGGGTCATCGCCAACCGTCCGGGTTCGGTGTCGGCAGCACGGGCGGCGGCCGCGGGCGCAACTACTCCTGACACCTCACATTCCCCGGCATCTACAGAAGAGGGCACCCAACCATGA	MSPEKSGPAAVIVLAAGAGTRMKSRTPKILHEIGGRSMVGHALIAARSINPRRVAVVVRHERDRVASHLKELDADALIVDQDEIPGTGRAVEVALEALDSDARLEGTVVVTYGDVPLLTGELLSELVARHESEGNAVTVLTALLEDATGYGRILRGTDGTVTGIREHKDATDTERGIREVNSGIYAFDAAVLRDALRHVTTDNSQGEKYLTDVLALAREAGGRVAAVVTADHWQVEGANDRVQLAALGAEHNRRIVEAWMRAGVTVVDPATTWIDSTVTLDEDVRILPNTQLHGSTAVARDAVVGPDSTLTDVRIGEGAKVIRTHGTGADIGAGASVGPFTYLRPGTVLGETGKIGAFYETKNVTIGRGSKLSHLGYAGDAEIGEDTNIGCGNITANYDGEKKHRTVIGSGVRTGSNTVFVAPVTVGDGAYSGAGAVIRKDVPAGALALSMAAQRNAEGWVIANRPGSVSAARAAAAGATTPDTSHSPASTEEGTQP	PGPT0018955_196	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
D1-17_02765	1824	ettA_2	COG0488	Energy-dependent translational throttle protein EttA	TTGGCACACCTGCTCGGCGGTGAGAACCTCACGGTCTCGTACGCGACCCGCACCGTTCTTGACGGCGTTACGCTCGGACTTGAGGAAGGCGACCGCATCGGTATGGTGGGCCGCAACGGCGACGGAAAATCCACGCTGATGCGCCTGCTTGCCCTGCGCTCCACCCCGGACTCCGGCCGGGTCACCAAGCGTGGCGACGTCAACGTCGGATACCTGGACCAGAGTGACGTCCTCGACGGCGACCTCACGGTTGGTGCCGCCATCGTTGGTGACCAGGCCGACTATGAATGGGCGCGCAATCCGCAGATCCGTGAGGTCATGGGCGGGCTGGTATCCGACGTTGACTGGCATGCCAACGTGCACGCCCTGTCCGGCGGCCAGAAACGCCGCGTTGCGCTGGCCAAGCTCCTCATCGAGGACCACGACGTCATCATGCTCGACGAACCCACCAACCACCTCGACGTCGAAGGTGTGGCCTGGCTGTCCCGGCACCTGAAGACCCGATGGCGTGCGAACCAGGGCGCGTTCCTTGTGGTCACCCACGACCGCTGGTTCCTGGACGAAGTGTGCACCAAGACGTGGGAGGTCCATGACGGGATCGTTGACCCGTTCGACGGCGGTTATGCCGCCTATGTGCTGGCCCGCGCCGAGCGGGACCGCGCGGCGTCCGTCGTCGAAGGCAAGCGCCAGCAGCTCGTGAAGAAGGAACTCGCCTGGCTTCGCCGCGGCGCTCCCGCCCGCACGGCCAAACCCAAATTCCGGATCGAAGCGGCAAACGCCCTGATTGCGGACGTCCCCGAACCCCGGGACTCCATGGCGCTGAGCAAGATGGCCACGGCGAGGCTGGGCAAGGACGTGCTGGACCTGGAACACGTGTCGCTGGACCTCCTGGGCGGTGACGGGCAGAAACTGTTCGACAACATCACCCTCCGCCTGGCACCGGGTGAACGCCTCGGACTCGTCGGGGTCAACGGTGCCGGCAAGACGACGCTGCTGAAGCTCCTCAACGGCGAGATCCAGCCGACCTCGGGCAAGGTCAAGCGGGGCAAAACCGTGGTCACCGCCGTTCTTACGCAGGAAGTGAAGGAACTTGATGACGTCGCCGACCTCCGCGTCATAGAGGTTATCGAGCGCGAAAAACGATCCTTCAATGTTGGCGGCAAGGAATTCACGGCCGGCCAGCTCGTGGAGCAGCTGGGCTTCACGAACCAGAAGCAGTGGACGCCGGTCCGCGACCTGTCCGGCGGGGAACGCCGCCGGCTGCAGCTCCTGCGCCTGCTCGTGGGAGAGCCCAACGTGCTGATGCTGGATGAGCCCACCAACGACCTCGACACCGACACGCTTTCCGCCGTCGAAGATGTCCTGGACGGCTGGCCCGGCACCCTCGTGGTGGTCAGCCACGACCGCTACCTTCTGGAACGCGTCACCGACCACCAGATGGCACTGCTCGGCGACGGCAAAATCCGCGGCCTGCCCGGGGGCGTGGACCAGTACCTCGAGCTGCGCGAGTCCGCCCTCGCCGGATCCACGGTTGCCGGGGGCGGCAACCCTGTGACCGCCGCCAGCGGCAGTTCCGCCCCGGCCGCTGCAGGTCCTTCCGAATCGGAGAAGCGGGACGCCCGCAAGGCCAAGAACCGCATCGAGCGCCAGCTGGGCAAGCTTGAGCAGCAGGAGAAGAAGCTGCACGACCAGATGGTGAAAAGCACTACGGATGCAGACTTCGACGCCCTCGCTGAGCAGAACAAGAGGCTCAAGGACCTCGCAGGGGAACGCGAAGCCCTCGAACTCGAATGGCTCGAAGCCTCCGAAGTCCTCGGCGAATAA	MAHLLGGENLTVSYATRTVLDGVTLGLEEGDRIGMVGRNGDGKSTLMRLLALRSTPDSGRVTKRGDVNVGYLDQSDVLDGDLTVGAAIVGDQADYEWARNPQIREVMGGLVSDVDWHANVHALSGGQKRRVALAKLLIEDHDVIMLDEPTNHLDVEGVAWLSRHLKTRWRANQGAFLVVTHDRWFLDEVCTKTWEVHDGIVDPFDGGYAAYVLARAERDRAASVVEGKRQQLVKKELAWLRRGAPARTAKPKFRIEAANALIADVPEPRDSMALSKMATARLGKDVLDLEHVSLDLLGGDGQKLFDNITLRLAPGERLGLVGVNGAGKTTLLKLLNGEIQPTSGKVKRGKTVVTAVLTQEVKELDDVADLRVIEVIEREKRSFNVGGKEFTAGQLVEQLGFTNQKQWTPVRDLSGGERRRLQLLRLLVGEPNVLMLDEPTNDLDTDTLSAVEDVLDGWPGTLVVVSHDRYLLERVTDHQMALLGDGKIRGLPGGVDQYLELRESALAGSTVAGGGNPVTAASGSSAPAAAGPSESEKRDARKAKNRIERQLGKLEQQEKKLHDQMVKSTTDADFDALAEQNKRLKDLAGEREALELEWLEASEVLGE				NA	NA	NA	NA	NA
D1-17_02766	963	ispE	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGAACGCAGTGAGAGGGCGCTTTGCGGCGAGGACCGTCCGGGTCAAGGCTCCGGGCAAAGTGAACGTCTCCCTGGATGTGGGCCCTTTGCGCCCCGACGGCTACCATTCGGTGGCCAGCGTGTACCTGGCCGTCTCACTGTATGAGGAAGTCGCCGCCACGAGCACTCCCGGGGACGGCATCACCGTCAGCGTCAGTCCCGACAGCATTCTGGACCTTGACCGGGTCGATATTCCGCTCGATGAGCGCAACCTTGCCTACAAGGCCGCAGCCATCATGGCCGACGTCTCCGAGCATTCCACCGGCGTGCACCTGGAGATCACCAAGCGGGTCCCGGTGGCCGGGGGCATGGGCGGTGGTTCCGCCGACGCGGCGGCCACACTTTTGGCCTGTGACGCGCTGTGGAACAGCGGGCTGTCCCGGGACGAACTCGCCCAGCTTGCCGCGGAGCTGGGGGCCGATGTGCCCTTCGCGCTGCTCGGCGGCACAGCGGTGGGGCTCGGCGTCGGGGATGATCTCTCGCCGGCCCTCGCCAAAGCCCAAATGGACTGGGTCCTGGTTACCGCCGACTTCGGCCTTGCGACTCCGGACGTCTTCAAGACACTTGACCGGCTGCGTGAAGCGGAAGGGCTCGACGTGGAGGAACCCACCGCGGTGGACCCCAAAATCCTGCAGGCCCTGCGCAGCGGCGACGCCGACGCGCTGAGCCGGCTGCTCGTCAACGACCTGCAGCGCGCGTCCATCGAACTGGCGCCCACGCTCCGGGACACGTTGGGGCTCGGCGAATCGAGCGGCGCCATCGCCGGGATTGTCTCGGGCTCAGGACCCACCATTGCGCTGCTGACGCATAATCCCGAAGCTGCCGAAGGGCTTGCCGAGGAACTGCAGCACAAGGGGCTCACGGCGTTCGCCGTCCACGGTCCGGTTCCCGGCGCCCGCATTATCTCCGATACTCTCCTTTAA	MNAVRGRFAARTVRVKAPGKVNVSLDVGPLRPDGYHSVASVYLAVSLYEEVAATSTPGDGITVSVSPDSILDLDRVDIPLDERNLAYKAAAIMADVSEHSTGVHLEITKRVPVAGGMGGGSADAAATLLACDALWNSGLSRDELAQLAAELGADVPFALLGGTAVGLGVGDDLSPALAKAQMDWVLVTADFGLATPDVFKTLDRLREAEGLDVEEPTAVDPKILQALRSGDADALSRLLVNDLQRASIELAPTLRDTLGLGESSGAIAGIVSGSGPTIALLTHNPEAAEGLAEELQHKGLTAFAVHGPVPGARIISDTLL	PGPT0007605_376	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
D1-17_02767	888	ksgA	COG0030	Ribosomal RNA small subunit methyltransferase A	GTGACTGACCCGACTCCTTCCGCCTCCGGTACCGCCCCTGCTCCTCTGCTGGGCGCTTCCGATATCCGCAGGCTGGCAGAGGATCTCGGTGTCCGGCCCACCAAGATGCTGGGCCAGAACTTCGTGATCGACGGCAACACCATCCGCAGGATTGTCGCCGCTGCCGGCGTCGGTCCGGAGGAAACCGTCCTTGAAGTGGGGCCGGGGCTTGGTTCCCTGACGCTGGGGCTACTGGACGCGGCGAAAGCTGTGGTCGCCGTTGAAATCGATCCCGTGCTCGCCGCCAGGCTGCCGCAGACTGTGGGGGAGTGGCGGCCGGCTGCCGCCGGCGCCTTCCACCTGGTGCTGGCAGACGCCATGAAGGTCACTGAGCTTCCGGTGCAGCCGACGGCCCTTGTCGCGAACCTGCCGTACAACGTGGCTGTCCCGGTGGTACTTCACCTCCTGCAGCATTTTCCATCGATTCAACACGGCCTGGTGATGGTTCAGGACGAGGTCGCAGACCGGCTGGCGGCCGCTCCGGGGTCAAAGATTTACGGAGTGCCCTCCGTCAAGGCCGCGTGGTACAGCCAGATGCGCAAGGCCGGCGTTATCGGCATGAACGTCTTCTGGCCCGCTCCTAAGATCCACTCAGGCCTTGTGGCCTTTACGCGCCGGGAGCCGCCCGCCACCACTGCCAGCAGGGAGCAGGTTTTCGCCGTCATTGACGCCGCTTTCGCCCAGCGCCGGAAAACTCTGCGCGCTGCCCTCGCCGGCTGGGCCGGCGGTGCGGCGGAGGCTGAACGCTGCCTGCTGGCGGCCGGGGTGGAGCCCACGGCGCGCGGCGAGGTGATCGATATCGCGGCTTTCGCCCGGATCGCCGAAGCCCGCCAAGTTTCAGGCGGTTGA	MTDPTPSASGTAPAPLLGASDIRRLAEDLGVRPTKMLGQNFVIDGNTIRRIVAAAGVGPEETVLEVGPGLGSLTLGLLDAAKAVVAVEIDPVLAARLPQTVGEWRPAAAGAFHLVLADAMKVTELPVQPTALVANLPYNVAVPVVLHLLQHFPSIQHGLVMVQDEVADRLAAAPGSKIYGVPSVKAAWYSQMRKAGVIGMNVFWPAPKIHSGLVAFTRREPPATTASREQVFAVIDAAFAQRRKTLRAALAGWAGGAAEAERCLLAAGVEPTARGEVIDIAAFARIAEARQVSGG				NA	NA	NA	NA	NA
D1-17_02768	1257	rpf2	COG3583	Resuscitation-promoting factor Rpf2	GTGTGCCCGGAGTCACCCCTGGGTGTCCTGCTGTGGCTGTCTCTGTGCGTTTTTCCCCGTGCCCGGATGGCTCAAAAGATGTGGGCAATCGTGGACAAGTTCTTTACGTCGGACGGCAAATTCAGCGTCGTTAAGGTAGTCGCCCAGTTGGTGGTGCTCTCGGCTCTCGTGTTCGGGCTGGTTGCCTTTGTGGGCAACAACAAGACCGTCACCCTGAATGTTGACGGCAAGGTGAGCTCCGTCCAGACCTTCGGCGGCACCGTCGAACAGGTCGTCAAGGCTGCCAAGGTGGACTTGAAGGCCTCCGACCGGGTGTCCCCGTCGCTGGATGCCACAGTCAAGAACGGCTCGGTGATCAACGTCAACCTCGCCAAGGCCGTCAAAGTGAATCTGGACGGTGCTGAAAAGACCGTCAGCACCACGGCCCGGGACGTGGCTGGCCTCGTCACCCAGCTCGGTGTCGCCAGCTCCTCCGAACTTTCGGTCCCCAAGACCGCCCAGCTGTCCGTCGACGGCTCCTTCGTTGCCATCTCGACGCCGAAGACCGTCACCATCCTCGCCGACGGAAAAGCCGCCAAGACCACCACCACCGCCGCGACCGTTGGCGAGGTGCTCAAGGACGCCCGCGTGAAGCTGGCCTCCGCCGACCGCACCTCGCAGCCGGCCAACGCGAAGGTCGTCAGCAATATGGTGATCAAGGTTTCCCGCGTTGATACCAGCAAGACTGCCATCGTCTCTGAAGAGATTCCCTTTGAAACGCTGTCCACCGACAGCGCCGACGTACTGAAGGGTGAGGAAGAGGTTACCCAGGCCGGCGTCCCCGGAGTCGTCACCCACAAGTACAAGCTCGTCCTGGTGGACGGCCGCGAAGCGTCCCGCACCCTCGTCTCCCGGACCGTGACCCGTGAGCCGGTTACCGAGAAGGTCAGTGTGGGCACCAAGGAAAAGCCCGAGCCGGCGCCTGCTGCCGCGGCTGAAGACGGAAACACGGGAGCCGCTGCTCCGGCCATGATGAACGAGGCCATGTGGGACAAGATCGCCCAGTGCGAATCGGGCGGTAACTGGTCCATCAACAGCGGCAACGGGTACTACGGCGGCCTGCAGTTCGATATCCAGACCTGGATCGGCGCGGGCGGCGGCCAGTATGCACCGAACGCCAGCCAGGCCTCGAAGGCGCAGCAGATCGACATCGCCAACCGTGTGTACGCCGAGCGCGGGCTGCAGCCGTGGGGCTGCGGCTGGGCTGCGGGCAGCTAA	MCPESPLGVLLWLSLCVFPRARMAQKMWAIVDKFFTSDGKFSVVKVVAQLVVLSALVFGLVAFVGNNKTVTLNVDGKVSSVQTFGGTVEQVVKAAKVDLKASDRVSPSLDATVKNGSVINVNLAKAVKVNLDGAEKTVSTTARDVAGLVTQLGVASSSELSVPKTAQLSVDGSFVAISTPKTVTILADGKAAKTTTTAATVGEVLKDARVKLASADRTSQPANAKVVSNMVIKVSRVDTSKTAIVSEEIPFETLSTDSADVLKGEEEVTQAGVPGVVTHKYKLVLVDGREASRTLVSRTVTREPVTEKVSVGTKEKPEPAPAAAAEDGNTGAAAPAMMNEAMWDKIAQCESGGNWSINSGNGYYGGLQFDIQTWIGAGGGQYAPNASQASKAQQIDIANRVYAERGLQPWGCGWAAGS				NA	NA	NA	NA	NA
D1-17_02769	888	tatD	COG0084	putative metal-dependent hydrolase TatD	ATGTGCAACTCCCTGACACCCCAGCCTTACCGTGCGCCCGGAGCCGACGGATCCGGCAAGCAGGGCTATCCGCCCGCTCCGGAGCCGCTACCGGTGCCCGTCATGGATAACCACACGCACCTTGATTACCCGTTCACGGACATCCAGGTTGAAATCAGCGCCGCCCTGGATGCCGCCGAGGCGGTGGGAGTCAGCGGGGCAGTGCAGGTCGGCACCGACCTGGCATCATCGCGGTTCACGGTGGACGCGGTTGACGCGGACCGCAGGCTGCTGGGTGCGGTGGCGATCCACCCGAACGATGCCCCCGACTATGCAAGCCGGGGGGAACTTGAGGATGCCCTGCGTGAAATTGAAGAGCTCGCGGCGCACCCCCGGATCCGCGCCGTCGGAGAAACCGGCTTGGATTTCTTCCGCACCAAGGGGGAGGGGCTGGCCCACCAGCGTTACTCGTTCCGCCGGCACATAGACATCGCCAAGCGGCTGGATCTGACACTGCAGATCCATGACAGGGACGCCCACGATGACGTGGTGCAGGTCCTGCGGGAGGAAGGTACCCCTGAGCGCGTGGTCTTTCACTGCTACTCCGGCGACGAGGACCTGGCCACAATATGCAACCGCGAAGGGTGGTTCATGTCGTTCGCCGGCACGCTCACCTTCAAAAACGCGGACAACCTGCGGGCATCGCTGGCAGTGGCGGACCCGGAACTCATCCTCGTGGAAACCGATTCGCCCTTTCTAACGCCGCATCCCCACCGGGGCAGGCCCAATGCCAGCTACATGGTGCCTTACACGGTCCGGGCCATGGCGGAACTGACGGGTTCGGATCTGGGGCAACTCTGCAGCCAGATCACCGAAAACACGCTCCGCGCCTACGGTTCTTGGGAGTAG	MCNSLTPQPYRAPGADGSGKQGYPPAPEPLPVPVMDNHTHLDYPFTDIQVEISAALDAAEAVGVSGAVQVGTDLASSRFTVDAVDADRRLLGAVAIHPNDAPDYASRGELEDALREIEELAAHPRIRAVGETGLDFFRTKGEGLAHQRYSFRRHIDIAKRLDLTLQIHDRDAHDDVVQVLREEGTPERVVFHCYSGDEDLATICNREGWFMSFAGTLTFKNADNLRASLAVADPELILVETDSPFLTPHPHRGRPNASYMVPYTVRAMAELTGSDLGQLCSQITENTLRAYGSWE				NA	NA	NA	NA	NA
D1-17_02770	1116			hypothetical protein	ATGGAACCGCACCGACGTACAAGCATGGATGATATTCTTCCGGGCGGTCACGGTTTTGGTGGAAGCGGTGGGCTCGCCGGCACGCAGCTCAACGGCCACAAACCCGCAGCCATGGGCCAGCAGGCCTTCCGCGACGCCAGCGAGCGCATCCTCACCGCCATCAACACGGTCATCGACGGCAAGGCCGAGGCGGCGAAGCTGGCGCTGACAGTCCTGCTTGCCCAGGGCCACTTGCTTGTTGAGGACGTTCCCGGGGTAGGCAAGACCCTCCTCGCCAAGACTTTGGCGCGCACCATCGACTGTTCCGTCAGCCGGATCCAGTTCACCCCGGACCTGCTGCCGTCCGACGTGACCGGCGTGTCCATCTACAACCAGTCGTCTCGCCAGTTCGAATTCCGTCCCGGCGCCGTCTTCGCAAACATCGTTATCGGGGATGAAATCAACCGCGCCTCGGCGAAGACACAGTCCGCCCTCCTTGAATGCATGGAGGAGCATCAGGTCACGGTTGACGGCCACTCCTACAGGCTTACCGAACCGTTCATGGTGGTGGCCACCCAGAACCCGATTGAGATGGAAGGGACATATCCGCTGCCTGAGGCCCAGCGGGACCGCTTCATGGCCCGCATTTCCATGGGTTACCCAGACAAGGACTCCGAGATTGAGATGCTGGAAACCCACCAGGCAACGTCACCGCTGGCGCACGTGACATCCGTGGTGACGTCTGCGGACGTCGCAGCGATGATCGCCACGGTCCAGCAGGTCTACGTGTCCCAATCGGTGAAGGAGTATACGGTCGCGGTGGGACGTGCCACCCGCGACAGTGCGATGCTGCGCCTGGGCGCCAGCCCGCGGTCCATGCTCCAGCTGCTTCGGGCGGCCAAAGCAACGGCGGCTTTGGACGGACGGGATTTCGTGCTCCCGGATGATGTCGTTGCCGTCGCAGAGTCGGTACTGGCGCATCGGATCATCCTGGACAGGAAAGCCGCCGGCACGGGCGAGACCCCGCAGAGCGTGATCCGCAGCGTCCTCGCCAGGCTTCCCGTCAGTCAGGAAATGACTGACTCGGCCCGGGCGCCCCGGCGCGCTGAGGCCGCCGAACTCCGTCCAAGCCGCTAG	MEPHRRTSMDDILPGGHGFGGSGGLAGTQLNGHKPAAMGQQAFRDASERILTAINTVIDGKAEAAKLALTVLLAQGHLLVEDVPGVGKTLLAKTLARTIDCSVSRIQFTPDLLPSDVTGVSIYNQSSRQFEFRPGAVFANIVIGDEINRASAKTQSALLECMEEHQVTVDGHSYRLTEPFMVVATQNPIEMEGTYPLPEAQRDRFMARISMGYPDKDSEIEMLETHQATSPLAHVTSVVTSADVAAMIATVQQVYVSQSVKEYTVAVGRATRDSAMLRLGASPRSMLQLLRAAKATAALDGRDFVLPDDVVAVAESVLAHRIILDRKAAGTGETPQSVIRSVLARLPVSQEMTDSARAPRRAEAAELRPSR				NA	NA	NA	NA	NA
D1-17_02771	1422			hypothetical protein	GTGGCACTGCGTGACCGCCTCCCCCGACACCTCTTCACCACACGCGGCTGGGGACTGATGGCGGCAGGTATCCTGTGCCTGCTCTGCGCACAGATGATGGGCCGCCGGGACCTGCTTGCGCTGGGCGTCTTCCTGGTTGTGCTGCCGCTGATTTCGCTCGCCGGGATCCGGCTGGTGAAGCCGAGGTTCCGCGTCTACCGGGAGTTCAGCCCCTCCACGGTGGAGACCGATTCCGTCACCACCGTACGGCTGGCCGTCGCCCGGACTGGACCCGGCACCGGAAGGGTGGTCATGGAGGAACGGCTGCCACCCAGGTTCGGAGAATCCCCGGCATTCCATTTTCCCGCCAGGTCCTCCAGCGGCGGAACCAGCCGCTATGAGTACCGTCTGCGTTCCGGCCGGCGCGGACAGTTCACCATCGGACCGGTAACGGCCGAGTTCACGGATCCATTCGGGCTGTCGCTGCACAGGCACACAATTGACGACGGCGACACGCTCACCGTGACGCCGGCAGCCGTCGAACTCCCTCCCACAGGGCTCGCGGGGGCGAGGGGCAATGACGGGATCACGGCGACGCGGATCCGGGCCAACCCCAGCGACGATGACGTCATGACCAGGGAATACCGCCACGGCGATCCGATGCGCCGCGTGCACTGGCCTGCGACTGCACGTCACGGCGCCCTCATGGTGCGGCAGGAGGAGTCTGTGACTACTCCCGAGGCGACCATTATTCTCGATCAGCGGTTCGCTGCCCACTCCTCCGGTTTCGGTCCGGTTTTCACCGGCGCGGGGGACGATGGCCACCTCATCACCAGCGACACGTTCGAGTGGGCCGTCACGGCCGCCATGTCCGTCAGCGCCCACCTTTCAGAACGGAACTATGCACTCCGGTTTCTGGACGCCGCGGGTGAGCCCGGGTTCCGCCGCTCCCCCTCGGCACCGGAACCTGACAGTGAGGAATATAGAGGCGCGGCCGGACTGCAATCCATTGCGGAGAGCCTCGCCGCCATCCAGCTGACGGGGCAGCACCACCTCCGGCGCGAGCATGATCCGGTCCGCCGGGAGCATCCGGCGGGCGGTGAGTCGGGGCAGGCAGTGTTCGACGACCTGCTCATGGACAAGCTCGCGGCACACCGGATGCGCGGTCCGGTCCTGGCACTCCTCGGCAGAATGTCCCTGGCGGAGGCACACGCGCTGGCGCCGGCATCAGCCTACGCGGCAAATGCCTTTGCCATCGTCGTGACCGACAGGACATCCGAGTCGGCTGAAGTCCTGGACACCCTGCGCCAAGGCGGGTGGCGCGCTGTGGCCGTGGATGCGGCCACCTCCCTGCCGGCAGCGTGGACATATTTTGATGAGGGCGACGCGACTGTGGCGGCTGCGGCTGCCGATGTGCGACGCGGTGCGGAGGTGGCACGGTGA	MALRDRLPRHLFTTRGWGLMAAGILCLLCAQMMGRRDLLALGVFLVVLPLISLAGIRLVKPRFRVYREFSPSTVETDSVTTVRLAVARTGPGTGRVVMEERLPPRFGESPAFHFPARSSSGGTSRYEYRLRSGRRGQFTIGPVTAEFTDPFGLSLHRHTIDDGDTLTVTPAAVELPPTGLAGARGNDGITATRIRANPSDDDVMTREYRHGDPMRRVHWPATARHGALMVRQEESVTTPEATIILDQRFAAHSSGFGPVFTGAGDDGHLITSDTFEWAVTAAMSVSAHLSERNYALRFLDAAGEPGFRRSPSAPEPDSEEYRGAAGLQSIAESLAAIQLTGQHHLRREHDPVRREHPAGGESGQAVFDDLLMDKLAAHRMRGPVLALLGRMSLAEAHALAPASAYAANAFAIVVTDRTSESAEVLDTLRQGGWRAVAVDAATSLPAAWTYFDEGDATVAAAAADVRRGAEVAR				NA	NA	NA	NA	NA
D1-17_02772	2574			hypothetical protein	GTGACACTGACTCCCCAACGCCAGCACGGCCCTATTGAACAGCTGCCCCCGGCGCCGCCCCCCCGTACCCGGCGTCCAAGCCCGGGCGCATATCCATGGGCGATGTCAGGAGCTGTGGCCGTCGGGGTGGCCGGCGCCGCGCTCTCCCTCAACGGAGTGCTGAGGGGCTGGGCCTGGTACCTGCCGGTGCTCACTACCATTCTGGTGGTGTCCCTGGCGATGGCCGGACTGCGTGCCCTGCGCGTCCGGCCGTTACTGGTGCCAGCGGGCGGCTTCGTGTCACTCTCGTTCATCCTGATGTTCACTTTTTTCCGCCGCGACAGTTTCGCCGGCTTCATTCCCACGGACGCGACGATGGCCGCCCTGGGCACGCACCTGCGGCGGGCCAGCGAGACCGTGCTCTCGGAAAGCTCGCCGGTGGCCCCGAACGCCGGCATCGTGCTGGTGACGTGCGCTGCCCTGGGACTGGTCGTGATCCTGGTGGACGCGCTTGCCCTTCCCTTGGGCATGCCCGCGACCAGCGGCCTGGGCCTGCTGGCAGTGCTCGTGGTGCCGGCCATGATCAAGCCGCAAAGCATCGGCGTGGTCGGATTCCTCGGCACGGCCATCGGATTCCTGCTCATTCTCGCGTGCAGCCAATGGTTCTCACCCGATGCCCGGATCCAGGCGGACACCTCACGGAACCCCGGGCAGGCCAAACGGGCGGCCCTGACCGGCGGAGTAGCCTTGGTGACTACGCTGGTGCTGCAGCTCGTGATCCCGGGCTTTGACCAAGGCACATTCCCGCAGGGTTCACGGCTGAATCCGTGGGCGTCCTCGAGCGGCCTGAATCCGATGATCAGCCTGGGCAACAGCCTTCGCCGCCCCACAGGCGACGGCCGCATTACTTATGCCACAAACGCCGCCACCCCTCTGTACTTGCGCTCCGTGACGGTGGACCGGTTCGACGGAGAGGCCTGGTCGCCCGATGACCGCGATGCCGCCCGCAGGGCCGGCCCCGGCCGGATGGAGACGGGCCACGAGATCCTTGCCCCGGAACAGGTCCGCACGGTCACCGCTGTCAACACGGGCGATTTCACCAGCCCGTACCTCCCGGTGCCTTATGCGCCCGAAACGGTCAACGGCCTGACGGGCCGGTGGAGCTGGGATCCGGCGACCCTGAGCATCAAGGGCACCGACACCAACTCCCGTAACCAGCAGTATCTGGTCCGGTCCACGGCTCCGAGACTTACCACAGAGCTGCTGGACCAGTCATCTGAGGCGGTAAGCGGGATATCCGAGGAGTTCATTCGCCCGCCCGCCAACGTTCCCGAAATCGTTCGGACCACCGCCGACTCCGTGACCTCGAACAGCAGGACCGCCTTTGAGAAGGCGATGGCACTCCAGCGGTTCCTGCGCTCCGCGGATTTTACCTACTCCCTCGAATCGCCGATCCAGGGCGGATATGACGGCAACGGCCTGTCCGTGTTGGCGGACTTCCTTACCCAGAAGAGCGGATACTGCATTCACTTTGCGTCCGCCATGGCCGTCATGGCCAGGGTGGAAGGAATCCCGAGCAGGATCGCCGTGGGCTATGCGCCGGGCCGGCTGACAGGTGACACCGTGTTCGTGCCCGGCCAGGGAGCGCTTTCGGAGTTCGAGGTGGACGCCCGGGACGCCCATGCCTGGCCCGAACTGTATTTCCAGGGCCTCGGATGGGTGCCTTTCGAGCCCACCCCTTCGCGCGGCGTCGTGCCGGCCTACGCCCAGGATCCCGCTTCGGGCGGCGTCAGCACCAATGAAGGGAATAGCGACGGGCTGCTGCCCACGAGCGGACCGGTTCCGCCGCCCGTGACGCCGCCGGCGCCCCTTCCCCTTCCCGGGGACAGCGGGGCCACGACCGGAAGCCATGCACTGATGCCGTTCTACGCCGCCGCAGGTGTGCTCATGCTGCTCCTGATTGCCGCTTCTCCCCGGCTAACGCGCGCCAGCGTACGGTCCCGCCGCCTCCGGGCTCGCGACGCGGGACAACCTGGCGCGGCGCCTCTCGCCTGGTCGGAGTTGCGTGACCTTGCAACGGATTACGGTTTGCCCCCGCTTTCCAGCGAGACACCCCGTACGTTTTCTGCCCGGATCCGGAGCTTCCTCGCGCTCCCGCGGACCGGAAAAAAGCGCGCTCAGGAGGCCCCTGCCCGGGCAACTCAGGATGTGCAGCTGGCTGATGCGGCGGTGCAAGATTTGACGGCAGCCTATGAGCGCCACGAGTATGGGCGGCCGGGTGCCGCTCCTGCAGCCGCCTCTGGCGGCCCGGGCGCCGGTGCCGGTGCCGGAGCCGGAGCCGGTGCCGGAGCCGGAGCCGGTGCCGGTGCCGGTGCCGAGAACATCGCGGCAGTGCGGAAGGTGCTGCGCCGCAATGCCGGAGCGTTGGGACGGCTGCGCGCAGAGTGGCTGCCGCCGTCGGTCATGGCCCGTTGGGGTGACACCGCCGGAGGGCCCTTCCACGCCGCCGCCCGTGCCGCTGCGCGGGCCGGACGGGCCGCCGCGGGCTCCTGGACGGGTGCCCGCGACGGCCTGAGGCGGCTGCGGGACGGCTAG	MTLTPQRQHGPIEQLPPAPPPRTRRPSPGAYPWAMSGAVAVGVAGAALSLNGVLRGWAWYLPVLTTILVVSLAMAGLRALRVRPLLVPAGGFVSLSFILMFTFFRRDSFAGFIPTDATMAALGTHLRRASETVLSESSPVAPNAGIVLVTCAALGLVVILVDALALPLGMPATSGLGLLAVLVVPAMIKPQSIGVVGFLGTAIGFLLILACSQWFSPDARIQADTSRNPGQAKRAALTGGVALVTTLVLQLVIPGFDQGTFPQGSRLNPWASSSGLNPMISLGNSLRRPTGDGRITYATNAATPLYLRSVTVDRFDGEAWSPDDRDAARRAGPGRMETGHEILAPEQVRTVTAVNTGDFTSPYLPVPYAPETVNGLTGRWSWDPATLSIKGTDTNSRNQQYLVRSTAPRLTTELLDQSSEAVSGISEEFIRPPANVPEIVRTTADSVTSNSRTAFEKAMALQRFLRSADFTYSLESPIQGGYDGNGLSVLADFLTQKSGYCIHFASAMAVMARVEGIPSRIAVGYAPGRLTGDTVFVPGQGALSEFEVDARDAHAWPELYFQGLGWVPFEPTPSRGVVPAYAQDPASGGVSTNEGNSDGLLPTSGPVPPPVTPPAPLPLPGDSGATTGSHALMPFYAAAGVLMLLLIAASPRLTRASVRSRRLRARDAGQPGAAPLAWSELRDLATDYGLPPLSSETPRTFSARIRSFLALPRTGKKRAQEAPARATQDVQLADAAVQDLTAAYERHEYGRPGAAPAAASGGPGAGAGAGAGAGAGAGAGAGAGAENIAAVRKVLRRNAGALGRLRAEWLPPSVMARWGDTAGGPFHAAARAAARAGRAAAGSWTGARDGLRRLRDG				NA	NA	NA	NA	NA
D1-17_02773	1593	sad_2		Succinate-semialdehyde dehydrogenase	GTGGCCTTAAACCAGCCGCGTAAGCAGCAGCCCCAGGGCCCCGCTGCGGTGGCTGCACCAATCCGCAATCCGATTGCCGACGAGGGAGTCACCGTGTCTGTCACCATACAATCCACTGTTACCGCAGAGCGCGAAAGCCAACTGCTTGCTGCTGTTCCCGCTGGCCTGCTGATCAACGGTGAGTGGCGTCCGGCCTCGTCCGGCAAGACATTCGACGTTGAGGACCCTTCCACCGGCAAAGTGCTGTTGAGCATCGCCGACGCCGGGGCAGAGGACGGCAAGGCTGCCCTGGATGCGGCGGCCGCTGCGCAGGAGTCCTGGGCCAAGGTTCCTGCCCGGGAACGTGGCGAAATCCTGCGCCGGGCCTTTGAACTGGTTACCGAGCGGGCCGAGGATTTCGCGCTGCTGATGACCCTGGAGATGGGCAAGCCTCTCGCGGAGGCGCGAGGTGAGGTCACCTACGGTGCGGAGTTCCTGCGCTGGTTCTCGGAGGAAGCCGTCCGTGCATTCGGCCGTTACTCCGTCTCCCCGGACGGTAAGTCCCGCCTGCTCGTCACGAAGAAGCCGGTGGGCCCGTGCCTGCTCATCACGCCGTGGAACTTTCCGCTGGCGATGGCCACCCGCAAAGTTGCCCCCGCGGTTGCTGCCGGCTGCACCATGGTCCTCAAGTCCGCTAACCTGACGCCCCTGACCTCCCAGCTGTTTGCTGCGGTCATGCAGGAAGCCGGCCTGCCCGCCGGAGTCCTGAACGTCATTCCCACCTCCACGGCCGGTGCCACCACGGGGCCGCTGATCAAGGATTCCCGGCTGCGCAAGCTCTCGTTCACCGGCTCCACCGAGGTGGGCCGCCGCCTGCTCGCGGATGCCTCCGAGACCGTGCTGCGCACATCCATGGAACTGGGCGGGAACGCCCCGTTCCTGGTGTTCGAGGACGCAGACGTCGACGCCGCCGTCGCCGGTGCCATGCTGGCGAAACTGCGGAACATGGGCGAGGCCTGCACCGCGGCGAACCGGTTCATCGTGCACGAGTCCGTCGCCGATGAATTCGCCGAGAAGTTCGCCGCCAAGATGAGCGGGATGACCACAGCCCGCGGCACCGACCCTGAATCGAAGGTTGGACCCCTCATCGATGCCAAGAGCCGCGACAAGGTCCACGAACTCGTCAGCGACGCCGTTTCCTCCGGCGCCAGTGCCGTGCTGGGCGGGGCACCGGTGGACGGGCCGGGCTACTTCTACCAGCCCACCATCCTCAAGGGCGTCACCGAGGGCACCCGGATCCTGTCCGAGGAAATCTTCGGCCCGGTCGCGCCGATCATCACCTTCAGCAGCGAGGACGAGGCTGTCCGTCTGGCCAACAACACCGAGTACGGGCTGGTGGCCTATGTCTTCACGAAGGACCTGAACCGCGGCATCCGCATGGGCGAGCGGCTTGAAACCGGCATGCTGGGCCTGAACGCCGGTGTCATCTCCAACGCCGCCGCGCCCTTCGGTGGTGTGAAGCAGTCGGGCCTGGGCCGCGAGGGCGGCCTTGAGGGCATCGAGGAATACCTTTACACCCAGTACATCGGCATCGCCGACCCCTACGCCGGCTAG	MALNQPRKQQPQGPAAVAAPIRNPIADEGVTVSVTIQSTVTAERESQLLAAVPAGLLINGEWRPASSGKTFDVEDPSTGKVLLSIADAGAEDGKAALDAAAAAQESWAKVPARERGEILRRAFELVTERAEDFALLMTLEMGKPLAEARGEVTYGAEFLRWFSEEAVRAFGRYSVSPDGKSRLLVTKKPVGPCLLITPWNFPLAMATRKVAPAVAAGCTMVLKSANLTPLTSQLFAAVMQEAGLPAGVLNVIPTSTAGATTGPLIKDSRLRKLSFTGSTEVGRRLLADASETVLRTSMELGGNAPFLVFEDADVDAAVAGAMLAKLRNMGEACTAANRFIVHESVADEFAEKFAAKMSGMTTARGTDPESKVGPLIDAKSRDKVHELVSDAVSSGASAVLGGAPVDGPGYFYQPTILKGVTEGTRILSEEIFGPVAPIITFSSEDEAVRLANNTEYGLVAYVFTKDLNRGIRMGERLETGMLGLNAGVISNAAAPFGGVKQSGLGREGGLEGIEEYLYTQYIGIADPYAG	PGPT0001580_546	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-17_02774	819	rsmI	COG0313	Ribosomal RNA small subunit methyltransferase I	GTGCTGGCCGCCACACCCATCGGCAATGTCGGTGACGCTTCGTCGCGGCTGATTGAGCTGCTGGGCTCCGCCGATATCGTGGCAGCGGAGGACACACGGCGGCTGCACCGTCTCGTGCAGAGCCTGGAAGTCACCGTGGCGGGCAGGATCATCAGCTATCACGAGCACAACGAGGCCACCAAGACAGCCGAGCTGCTGGACCAGGTCCGTGCAGGCAAGACCCTTGTGATGGTAACCGATGCGGGCATGCCGGCGGTTTCTGATCCGGGTTTCAGGCTCGTTGAGGGAGCCGTTGCCGCGGGACTGACGGTGACCGCCGTTCCGGGCCCCTCCGCCGTCCTCACTGCCCTGGCTCTCTCCGGGCTCCCCACCGACCGCTTCTGTTTCGAGGGATTCCTGCCGCGGAAAGCCGGCGAACGTGCCTCCCGTCTGGCGGATCTCGACGCCGAGCGGCGCACCATGGTCTTCTTCGAGGCGCCGCACCGCCTGGAGGCCATGCTCCGTGCCCTGCATGAGCGGTTCGGTCCCGATCGCAGGGTGGCTGTTTGCCGCGAACTGACCAAGACCTACGAAGAAGTCCTCCGCGGAACACTCCTCGAACTGCTGCAGTGGGCCGAGTCGAATGAGATCCGCGGGGAAATTGCGGTGGTGGTGGGCGGCGCGCCGGAGCGGCCGCCCGGAGCTCCGGAGGACAACGTGGCCGCGGTCAATGCGCTGGTCTCGGAAGGGCTCCGCCTCAAGGACGCCGTTGCCGCCGTTGCAGAAGAGGCCCGGGTCAGCAAGCGTGAACTGTATGCTGCTGTGCTGGCTGCCCGCTGA	MLAATPIGNVGDASSRLIELLGSADIVAAEDTRRLHRLVQSLEVTVAGRIISYHEHNEATKTAELLDQVRAGKTLVMVTDAGMPAVSDPGFRLVEGAVAAGLTVTAVPGPSAVLTALALSGLPTDRFCFEGFLPRKAGERASRLADLDAERRTMVFFEAPHRLEAMLRALHERFGPDRRVAVCRELTKTYEEVLRGTLLELLQWAESNEIRGEIAVVVGGAPERPPGAPEDNVAAVNALVSEGLRLKDAVAAVAEEARVSKRELYAAVLAAR				NA	NA	NA	NA	NA
D1-17_02775	1707	pmt	COG1928	putative dolichyl-phosphate-mannose--protein mannosyltransferase	GTGACGCAGACCTCCGTGCGGCCTGACGCGGCCGGTTCCGCCCGTACACCGGCTTCGGCTGCCGAATCCGGGGCCAGCCCCGGCCGGAGGCACGGCTGGGTTGCCCGCCCCCGCGAAGCGTTCACCGCCGAGGCTCTGAACAGCCGCCTCAGCGGGAGCATCCGCAGTTGGCGGGACTATCCGCCGTCGCTCAGGCTTTGGTTCTGGCTGGTACCGGCGCTGACCGCCGCGGTGGGCGGGGTCCTGAGGTTCGTCCGCCTGGAGGTTCCGGGCACCCTTGTCTTTGACGAGACGTATTACGTCAAGGACGCCTACTCGTACCTCATCAGCGGCTACGAGCGGAGCTGGCCGGAGAAGGCGAACGACTCGTTCAATGCCGGCAATCCGAACGTGCTTTTGGACGCGCCCGAATATGTGGTGCACCCGCCTGTGGGCAAGTGGATGATCGCGGCGGGCATGTGGCTTTTCGGTCCGGACAACCCGTTGGGGTGGCGCTTTTCGGCGGCGCTTACCGGCGCGCTGTCCATAGCCCTGGTGGCCCTCATCGCCCAGAAACTCTTTCGCTCCCTTGTCCTGGGAGCTTCAGCAGGACTGCTCCTCGCCATCGACGGCCACCATCTGGTCATGTCGCGGACGTCGCTGCTGGACATTTTCCTCATGTTTTGGGTGCTGGCGGCGTTTGGTGCGCTGTTGTTGGACCGCGACGACGGCCGGCGCCGGTTGGCGGTCCGCCTCGCCAGCCAGGCAGCCGGGTCCCCCACGGGCCTGCCGTCCCAGCTTCAGCTGCTGTCCGGCCCCTGGCTTGGAATCCGCTGGTGGCGGATCCTCGCGGGCGTCTGCCTGGGCCTGGCGTGCGGCACCAAGTGGTCGGCCCTCTTTTTTGTGGCCGGTTTCGGGCTGCTGACCGTCTTCTGGGACCTCAGCGCGCGCCGCGCCGCAGGAGTCAGGGGGTGGATCAGCGCCGGCGTCATCAAGGACGGCCTCCTCGCGTTTGCGAGCATCGTCCCGGTGGCGGCCGTGACGTATGTTGCCACCTGGACGGGATGGTTCCGGTCGGCGGATGCCTACTACCGGCAGTGGGCAACGACCAACCCCAGTGCGGAATGGGGTTGGCTCCCGGATACTGTGCGTTCCCTGGCGCACTACCACCTTGAGGCGTACAAGTTCCATCAGGGCCTCAGTTCCGAGCACCCGTACGAAGCCAGCGCCTGGAGCTGGCTGGTGATGGGCAGGCCCACGTCCTTCTACTACGAGTCCCCGCCGAAGGGCACTGCGGGCTGCGACGTGTCCAACTGCACGTCGGCGATCCTGTCCGTGGGTAATCCCCTGATCTGGTGGGCCGCTGTGATTTCGCTCGTCGTGCTGCTGTTCTGGTGGGCAGGACGCCGTGACTGGCGGGCGGGCGCAGTGCTGGCGGCGGTGAGTTCGGGCTACCTTCCGTGGTTCCTGTACCCGGAACGGACGATGTTCTTCTTCTACGCCGTGTCCTTCGAGCCCTTCCTTATCCTGGCGCTGGTCTATTGCCTGGGCCTGGTCCTGGGGCGCAGCACGGACCCCCTGTGGCGCAGGCGGTCCGGACTGTACGGCGTGGTGCTCTTCCTGGTGGGGGCGATTCTGCTGTCGGCGTTCTTCTACCCCGTCTGGACCGCCGAGGTCATCCCCTACCAGGACTGGCGGGTCAGGATGTGGATGCCCTCTTGGATCTGA	MTQTSVRPDAAGSARTPASAAESGASPGRRHGWVARPREAFTAEALNSRLSGSIRSWRDYPPSLRLWFWLVPALTAAVGGVLRFVRLEVPGTLVFDETYYVKDAYSYLISGYERSWPEKANDSFNAGNPNVLLDAPEYVVHPPVGKWMIAAGMWLFGPDNPLGWRFSAALTGALSIALVALIAQKLFRSLVLGASAGLLLAIDGHHLVMSRTSLLDIFLMFWVLAAFGALLLDRDDGRRRLAVRLASQAAGSPTGLPSQLQLLSGPWLGIRWWRILAGVCLGLACGTKWSALFFVAGFGLLTVFWDLSARRAAGVRGWISAGVIKDGLLAFASIVPVAAVTYVATWTGWFRSADAYYRQWATTNPSAEWGWLPDTVRSLAHYHLEAYKFHQGLSSEHPYEASAWSWLVMGRPTSFYYESPPKGTAGCDVSNCTSAILSVGNPLIWWAAVISLVVLLFWWAGRRDWRAGAVLAAVSSGYLPWFLYPERTMFFFYAVSFEPFLILALVYCLGLVLGRSTDPLWRRRSGLYGVVLFLVGAILLSAFFYPVWTAEVIPYQDWRVRMWMPSWI	PGPT0024545_1241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024545-pmt-K00728	NA	NA
D1-17_02776	1161			hypothetical protein	GTGACCGACAATACTTCGATCCCGTCCAGACGGCTCGATCCGCAGCCGGAATCTGAAGGTCCGGCGTTCGAGGACGCCCATGATTCGGACGAGCCTGCCTTCGAATGGATGGAGGCAGCGCCCCCGGGCACGGGCTCGACGGCGGCGGATCCGGCGGGTCCTGCTCAGCCCGGCAGCAGGGCGGACCGAAAAGCGGCAGAGGCTGCCGAGGCAGCGGAGACGGCCGGCAAGAACGTGCCCGACACGAATACGTCCACCACTCCGACGCCGGACAGCACAACACCCCCCTCCGATGAGACCTCGGGCGGCCACTTCAGCGAACCGCTGCCGACCTCTGCGCTCCATATCCGCCCTCCGCAGGAAGATGTCGAACGCCGCAACGCCGAACGCGAGCAGGCGGCAAAGGCAAAGCCCATGCTGCCCCGCGTCATGCAGGTCCTGCTGGCGGTCTTCTTCCCCGTGGTGCTCCTGGTGCTGGCCGTTCGCGCCGTCACCAGTCCGCTCTTTCTCTGGGTTGAGTATCACCGTCCGGGCTTCCCGGGCGACGGCTACGGGTTCAACGCGGATGACCGCATGACGTATGGCTCCTACGCTGTGGACTACCTCAGCAACTGGTCGGGTCCGCGCTACCTGGGGGAACTGGTGAACCGCAGCGGAGAGAAGCTCTTTCAGGACGGCGAAGTCAGCCATATGGCGGACGTGAAGCTCGTGATCCTCTCGGCGTTCGGTGCCGGAGCGCTTCTGGCGATGATCTGCCTCGGAGCCATCATCTACCTGCGCCGCCGCAGCAACGGCGGGGTGCGGCGCGGGCTGTTTGCCGGTTCCATCATCACGCTCGTGCTGATCACCGGCCTTGGCGTGTTGGCCTTCCTCGGTTGGGAACAATTCTTCACCGAGTTCCACCGGATCTTCTTCGCCAGCGGCACATGGACTTTTGCGTTGCAGGACACGCTGATCCGGCTGTTCCCAGGCCAATTCTGGATTGATGCGGGTATTGTCATCGCCGCGATGGTGCTGCTGACCGCCGTCGTCACCCTGATCCTGACCTGGCCTACACGTCGCCGGCGGGGCCTGCCGAAGACTGTGAAGAAGGGGCGGAAGGACCGCCAGGAGGACGGCGGGTCGGGCGCCGCAGCTGAGGACCGGCCCGTCTCTCTTTAG	MTDNTSIPSRRLDPQPESEGPAFEDAHDSDEPAFEWMEAAPPGTGSTAADPAGPAQPGSRADRKAAEAAEAAETAGKNVPDTNTSTTPTPDSTTPPSDETSGGHFSEPLPTSALHIRPPQEDVERRNAEREQAAKAKPMLPRVMQVLLAVFFPVVLLVLAVRAVTSPLFLWVEYHRPGFPGDGYGFNADDRMTYGSYAVDYLSNWSGPRYLGELVNRSGEKLFQDGEVSHMADVKLVILSAFGAGALLAMICLGAIIYLRRRSNGGVRRGLFAGSIITLVLITGLGVLAFLGWEQFFTEFHRIFFASGTWTFALQDTLIRLFPGQFWIDAGIVIAAMVLLTAVVTLILTWPTRRRRGLPKTVKKGRKDRQEDGGSGAAAEDRPVSL				NA	NA	NA	NA	NA
D1-17_02777	1233	ldtB	COG1376	L,D-transpeptidase 2	TTGACCAACAAGGACAACCGGAAGATCGGCAAGATTTTGGCAGTGGCAGCGCTCTGCGCGGCCGTCGCTGCCGGTGGAATTGGCGTTGCCACTGCGCCGGGCTGGGCCAAGCCGGCACCGGAGTCGGAAGCCTCCACCCCTGTCCGCAATGAGCCCGGCCTGGCTGCCCCGGTGGTCAAAATGGTGGAGCTGGGCGTCACGCCCACTGACGGTGCAAAGGCCGTCAACCCTGCCGTAGCGCCCTCGGTGAAGGCCGTGAACGGCAAGCTCAAAGACGTTCTCCTGATACCGGCGGCAGGAGGCGAACCGGTCAAGGGCAGCATGAGCGCCGACGGCAGCACCTGGACCGCGCTGGACCCGCTCCAGTTCAACTCCGCCTACACCTACTCCTTCACGATTGTTGATGCGGCTGGCCGCGAGACCAAGAAGACACAGACGTTCACCACGGTCGAAACCGCCAATGAAGCTGACGCCGCGGTGTACCCGGAGAACGGCTCCACGGTCGGTGCAGGGCAGCCCATTGAAATCGTTTTTAGCGAGCCCGTTGTGAACAAGGCGGCGGTGGAGAAAGCCGTGAAGATCATTGCGTCCTCCAAGCAGCCCGTCGCCTGGCACTGGTATTCGGACCAGCGTGTACGCATTCGCCCCGAAAAGTTCTGGGCCTCCAACAGTCAAGTCACCGTTGACATGAAGCTGTTCGGTGTCGATTTCGGCAACGGCATGATCGGAAACTTCGACGCCAAGGTGCAGTTCAAGGTCGGCACCCAGCGCCTCGCGGTCGTGGACGACAACACGAAGACCATGAAGGTCTACTTTGACGGGAAGCTCGTCAAGACCGCCCCGGTGACCCTCGGCGATCCCGACTGGCTCTCACCCACAGGCTACGCAGTCATCATGGAGCAGGAACGCCGCTCCAAGTTCAATGCCGGAAGCATCGGCCTTAAGCCCGGCGACAAGGGCTACTACCCTCCGCTCACTGTCGAGTACGCCAACAGGCTCACCTCCTCCGGCGTCTACGTACACCAGGCACTGGAGTCCGCATGGGGCGCTGTCGGCAAGTACAACGTGTCGCACGGTTGTGTGGGCCTGCTTCCCGCCGACGCCGCCTGGTTCTTCAGCAACATGAAAACCGGGGACGTCGTCCAGACTCTCAACACCGGTGCGCCCGCCGTCGAGCCGCTGGAAGGCTACGGAGACTGGAACATCCCCTGGGCGCAGTACGCCAAGCGCTAG	MTNKDNRKIGKILAVAALCAAVAAGGIGVATAPGWAKPAPESEASTPVRNEPGLAAPVVKMVELGVTPTDGAKAVNPAVAPSVKAVNGKLKDVLLIPAAGGEPVKGSMSADGSTWTALDPLQFNSAYTYSFTIVDAAGRETKKTQTFTTVETANEADAAVYPENGSTVGAGQPIEIVFSEPVVNKAAVEKAVKIIASSKQPVAWHWYSDQRVRIRPEKFWASNSQVTVDMKLFGVDFGNGMIGNFDAKVQFKVGTQRLAVVDDNTKTMKVYFDGKLVKTAPVTLGDPDWLSPTGYAVIMEQERRSKFNAGSIGLKPGDKGYYPPLTVEYANRLTSSGVYVHQALESAWGAVGKYNVSHGCVGLLPADAAWFFSNMKTGDVVQTLNTGAPAVEPLEGYGDWNIPWAQYAKR				NA	NA	NA	NA	NA
D1-17_02778	1488	ahcY		Adenosylhomocysteinase	ATGACTCTCGAATACAAGGTCGCCGATATTTCCCTCGCGGAGGCCGGGCGCCACCAGATTCGCCTGGCCGAGCACGAGATGCCTGGCCTGATGTCGCTCCGCAAGGAATTCGGCCCGAGCCAGCCGTTGAAGGGCGCGCGTATCGCCGGCTCCCTGCATATGACTGTGCAGACGGCCGTCCTCATTGAAACCCTCACCGCCCTCGGCGCGGACGTCCGCTGGGCATCCTGCAACATCTTCTCCACCCAGGATGAGGCGGCAGCCGCCGTTGTGGTCGGCGCCGGCACCGTCGAGGATCCCCAGGGCGTTCCCGTCTTTGCATGGAAAGGCGAAACGCTGGAGGAATACTGGTGGACGGCCGAACAGATCCTCACCTGGCAGGGTGCCGACACAAACCCGGAGCTCGGGCCGAACATGATTCTCGACGACGGCGGTGACGCCACCCTCCTCGTGCACCGCGGTGTCGAGTTCGAGGCAGCCGGCGCTGTTCCGGCGGCCGCCGAGAATGACCCCGAGGAATACGGCATTGTGCTGGACCTCCTGCGCCGGACCCTCGCCGAGGACCCGAAGAAGTGGACGCGGCTCGCCGCCGGGATCCACGGCGTCAGCGAAGAGACCACCACCGGCGTGCACCGCCTCTATCAGCTCGCGGAACAGGGCAAGCTGCTGTTCCCGGCCATCAACGTCAATGACTCCGTGACAAAGAGTAAGTTCGACAACAAATACGGCATCCGCCATTCGTTGCCCGACGGCCTGAACCGGGCTACCGACGTCCTCATCGGCGGCAAGGTCGCCGTCGTCTGCGGCTATGGAGACGTCGGAAAGGGCGCCGCCGAGGCCCTGCGGGGACAGGGGGCCCGCGTCATTGTCACCGAGATCGATCCCATCTGCGCGCTGCAGGCAGCGATGGACGGCTACCAGGTGGCAAAGCTCGAGTCCGTACTGGCTCAGGGCGACATCTTCATTACCACCACGGGCAACAAAGACGTGATCATGGCCGAGCACATGGCGGGCATGAAGAACAAGGCGATCGTGGGCAACATCGGCCACTTCGACAACGAGATCGACATGGCCGGCCTTGCACGCATCCCGGGCATCCGCAAGATCGAAATCAAGCCCCAAGTGCACGAGTGGGTCTTCGAGGAAGACGCCGCGGACGGTTCCGGGCCGCGGTCAATCATCGTGCTTTCCGAGGGCCGCCTGCTGAACCTTGGGAACGCTACAGGCCACCCGTCGTTTGTCATGAGCAACTCATTTGCCAACCAGACGATTGCCCAGATCGAGCTGTTCACCAAGAAGGACCAGCCGGAAGGCGAACGGGAGTACGACAACAAGGTCTACGTCCTGCCCAAGATTCTGGATGAGAAGGTAGCGCGGCTGCACCTGGACGCCTTGGGCGTGGAACTGACGGAGCTGTCCAAGGACCAGGCCGACTACCTGGACGTTGACGCAGCAGGTCCGTATAAGCCTGAGCACTACCGGTACTAA	MTLEYKVADISLAEAGRHQIRLAEHEMPGLMSLRKEFGPSQPLKGARIAGSLHMTVQTAVLIETLTALGADVRWASCNIFSTQDEAAAAVVVGAGTVEDPQGVPVFAWKGETLEEYWWTAEQILTWQGADTNPELGPNMILDDGGDATLLVHRGVEFEAAGAVPAAAENDPEEYGIVLDLLRRTLAEDPKKWTRLAAGIHGVSEETTTGVHRLYQLAEQGKLLFPAINVNDSVTKSKFDNKYGIRHSLPDGLNRATDVLIGGKVAVVCGYGDVGKGAAEALRGQGARVIVTEIDPICALQAAMDGYQVAKLESVLAQGDIFITTTGNKDVIMAEHMAGMKNKAIVGNIGHFDNEIDMAGLARIPGIRKIEIKPQVHEWVFEEDAADGSGPRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELFTKKDQPEGEREYDNKVYVLPKILDEKVARLHLDALGVELTELSKDQADYLDVDAAGPYKPEHYRY				NA	NA	NA	NA	NA
D1-17_02779	261			hypothetical protein	ATGCCAAAGATCAGTCCTGACCTGATGTCCGTCCTGCGGTGCCCTGTCACCGGCTCGGCCCTGACCCAGGAAGGCGAAGAACTGGTTTCCACAGCCACGGACGAAAACGGCCAAAACCTGCGCTACGCGATCGAGGACGGCATTCCTCTGCTCCTTCCCCCGGAGCTGCTGGCCGCGGCGAATGCCGCCCGTTCCGGCCAGCATGACGGACCCGGCCAGGACCCGGCAGCGCCAGCAGCGCCGGAAACGCCCACAGCCTAA	MPKISPDLMSVLRCPVTGSALTQEGEELVSTATDENGQNLRYAIEDGIPLLLPPELLAAANAARSGQHDGPGQDPAAPAAPETPTA				NA	NA	NA	NA	NA
D1-17_02780	342			hypothetical protein	GTGGCAACTTTGACGTACGTCTATGCGGACTCAACAGCAGTCCTGGGACCGCTCGCCACGTACGCCGAACCGCACTGCTACGACCTCTGCGGGCAGCACGCTGACTCGCTCACCGTTCCCCGCGGTTGGGAAGTCCTGCGGCTCGCCATGCCGTCCCAGCCGCCGCAGCCCGGCCCTGATGATCTTCTGGCCTTGGCAGATGCTGTCCGGGAGGCGGCGGCGAGGCCCGCAGCCGCCGGACAGCAGCAGGGCCAGCGCAGCGCCCACTCCGCGCTCGAAGCACCCGCGGGCTCCGAAGGAACCCGGCGCGGCCACCTCCGCATCCTTCGCGAGCCGTCCTGA	MATLTYVYADSTAVLGPLATYAEPHCYDLCGQHADSLTVPRGWEVLRLAMPSQPPQPGPDDLLALADAVREAAARPAAAGQQQGQRSAHSALEAPAGSEGTRRGHLRILREPS				NA	NA	NA	NA	NA
D1-17_02781	513			hypothetical protein	ATGCAGTCATCGCACCATACTTCGGGTTTTACGGTCCGGTTGGCTGAGACTGAGGCTCCCCAGCACGGCGCCGGTTCGGCCGCCGGGCGGAGCTTTGCACAGCGGCGGCGCAACCGCCACGGACGCGGCCTTCGCGGGGAACTCATGTTGCCTACGCTGCCCGCCTGCAGGTCCCGCTCGGACCGGTTTGACGAACTGGTCATGGATTCTGCCCAGCGGCTCCACGACATCTGGGGCAAGCTGCTCGACGGCGTACGGTTCGCAGTGGAGGAGATTCCGCCGAACCTTGAGCAGCTCGCCGCGGATAATTCTCCGGCGCCCATGGGCTCCTATACGCCCGCCACCGAGGACGAGGGGCCGATCATCACGCTGTACCGCCGGGTTGTGGAGCAGGGCTGCCCTGTCAAGGAGGAACTTCAGGACCTGGTGCATGACGTGGTGGTGGAGCACACCGCGGAGATGCTCGGCGTCGCCCCGGAAACGCTGGATCCGGTGTATCGCCGGCGCTACTGA	MQSSHHTSGFTVRLAETEAPQHGAGSAAGRSFAQRRRNRHGRGLRGELMLPTLPACRSRSDRFDELVMDSAQRLHDIWGKLLDGVRFAVEEIPPNLEQLAADNSPAPMGSYTPATEDEGPIITLYRRVVEQGCPVKEELQDLVHDVVVEHTAEMLGVAPETLDPVYRRRY				NA	NA	NA	NA	NA
D1-17_02782	1674			hypothetical protein	ATGCATAAGGACGAGAACCCCCCAGCCGCCGCTCCTAAAAAAATCGGGCCTTCGGCAGAAGGGGGCTCTGCAAACGGTGCAACAGCCATCAGACGGGACGGCCGTCCCAACCGCCGGGCAGCAGCCGTCAGCCTGCTTTCGGCAGTGGCACTCGTTGCCGCCGGGGGAGGCATGGTGGCGGCAGCCTCGTTCGCACCGGAGCCATCCGGCGGACAGCAGCTCGAGGTGCCTTTGGCCTCGGTCCCGGCGGGAGCGAGCCGGGGCGTCTGCCCTGGCCCTGCCAAGCTGCTCGAAGGCACACCGGTAGGAACGGATCCCCAGTTCAGTCCGGAATCAGCCACGGCCCGGAGCACGGTCTCGGCGGCGGTGATCGGCGCGGCCGGGGCACTGCTCCCGGGCAGCAGGCTCTCGCGGCTCGACGGCTCGGAACTGCAACTGATCGCCAAGGACCCTGGCTCCGCGAAACCTCCTGCAGGCGCTTCGGCGCAGCTGGCTGGAGTCATCGCCGAAACCCCCGTGAAAGGTGTCACTGTCCTCGGCGCCGACCCGCTCGGCAACCGGCAGCCTGCCGCGGCCGGCGTCATGGAGTACACCGCAACGGACGGCGACCTGCAGGGGTCCGCGGCTGCCGCCTGCCAGGAACCGCTTAACGATCTGTGGTTGACAGGGGCGAACACGGCGGTCGGGCGCAGCAGCGTACTGCATCTGACCAACGCGTCAACGACGCCGGCCACAGTGAATCTTGAACTGTTTGGCAAGGACGGCCGGCTCAAGGCGCCCGGCAGCCGCGGGCTCCTGGTGGCGCCAGGATCCACGCGTTCCATCGTGCTCGCAGGTCTGGCCCCGGGCCAGGAGCGGCTGACGGTCCACGCCCGCAGCACCGGCGGCCCGGTGAGCGCTTTCATCCAGCAAAGCGTCCTTCGCGGCCTCACCCCTGGCGGAGTTGACTACATCGTCCCGGGAACGGCGCCTTCGGCGCTCCAGGTCATGACCGGACTGGACATCCAGGACCCCGCCGGCATCGCGGACCTTTCGAAGGAAAGCGGCTTCAGCGATGCGGCTCCGGCGCTGCACATCACCGTCCCGGGCCCAGTCGACGCAGTGGTTGAAGTCAGCGTCTTCGGCCGAGGCGGGCAGAAAGCCCTGCCAGCGGGCGGAGTTGTCACGGCCAAGGCGGGAACGGTGACGGAAGTACCGCTGACCGGACTGCCCGCAGGGCAGTACACCGTCTCCGCAAGCTCGGACGTGACGATCGTTGCGGCAGCGCGCGTAACCCGTGGCCTGCAGGCCGCGCAAGCCACTGACTTCGCTTGGACCCCGTCGTCTGGCAGGCTCGGCAGCCAGCACGTCGTGCCGGTTCCGCACGGCGGCGAGCGGTTCCTCGTCATCGGTGCGCTGGGGGAGCGCGCCGCCATCTCGTACACACCTGTGACGGCTGACGGCAAGGTGCGCACGGCGGCCACCGCGGATATCGCCGGCGGCACCACCTCTTCGCTTCAGGTGCCTGACCAGATCGACAAGTCCCCGGTGGTCGCTTACCTGGTTTCCGCCGCCGGCGACGCAGCCTACGGCGCGGTGCTCCTGGCAAAGAATGCCAGGAACGACGTCGCGACGGTCGCCATCACGCCGGGCGCGGAAGGACAGGAGAAAGTTCCCGTAACGCTGGGCTACTAG	MHKDENPPAAAPKKIGPSAEGGSANGATAIRRDGRPNRRAAAVSLLSAVALVAAGGGMVAAASFAPEPSGGQQLEVPLASVPAGASRGVCPGPAKLLEGTPVGTDPQFSPESATARSTVSAAVIGAAGALLPGSRLSRLDGSELQLIAKDPGSAKPPAGASAQLAGVIAETPVKGVTVLGADPLGNRQPAAAGVMEYTATDGDLQGSAAAACQEPLNDLWLTGANTAVGRSSVLHLTNASTTPATVNLELFGKDGRLKAPGSRGLLVAPGSTRSIVLAGLAPGQERLTVHARSTGGPVSAFIQQSVLRGLTPGGVDYIVPGTAPSALQVMTGLDIQDPAGIADLSKESGFSDAAPALHITVPGPVDAVVEVSVFGRGGQKALPAGGVVTAKAGTVTEVPLTGLPAGQYTVSASSDVTIVAAARVTRGLQAAQATDFAWTPSSGRLGSQHVVPVPHGGERFLVIGALGERAAISYTPVTADGKVRTAATADIAGGTTSSLQVPDQIDKSPVVAYLVSAAGDAAYGAVLLAKNARNDVATVAITPGAEGQEKVPVTLGY				NA	NA	NA	NA	NA
D1-17_02783	3363			hypothetical protein	GTGGTGGTAGCCCACAACGGCAGTGATTATCTACCCAGGACCCTGGCAGCGCTGGCGGACCAGACCCGGCCGGCTGACCTTGCCATCGGGGTCGACGCCGGTTCGCATGACACCTCTGCTGCCCTACTCGAACGTGGGCTCGGGCGTGGCAATGTTACACGCGCCGCTTCCGGCAGGGCGGGCATGGGGGCGGCCGTCAGTGCTGCCCTCGCCGCGTTGGCGCCGCGGGAGCCGGAATCCAGGGGCGCGGAGTCTCCGCGCACGGCCTCAGAGTGGATTTGGCTCATACACGACGATGCTGCCCCCGCACCTGAAGCTCTCGCTGAACTGCTGCACGCCGTTGAACGGGCCCCTTCCGTCACGGTGGCCGGCTGCAAACAGCTGGACTGGGACGCGCCGCGCAGACTCATCGACGTCGGCCTTTCCACTAGCCGCTGGGCCGAACGCCTCACCCTGATCGAGGCAGATGAGCTTGACCAGGGCCAATACGACGGGCGCTCCGACACTTTTGCCGTCAACTCGGCCGGCATGCTGGTCAGGCGTGATGTGTGGGAGCAGCTGGACGGGTTCGACCCGGCGCTTCCCGGAACCGGCGACGACGTCGACTTCTGCTGGCGAAACCGCCTCGCGGGGAACCGTGTGGTGGTGGTGCCCAGCGCCAGGATGTTCCACGTAGCCCGCCGTCCGCATGCCCTGGGCAACGCTGCAGCGGCACGCCGGGCGCAGGTCCACCTTCGGCTAAAGCACGCACCCCTGTGGCTGGTCCCCGTGCATGCAGTGGCGGCCTTCCTGGGCAGCATCTTCAAACTCGTGTTCAGCATCGCCGTGAAGGACCCCGGCCACGGATTCTCGCAGCTTCTGGCAACTGTCGCGGCCCTGGGCCGTCCGGCATCCATTTTCCGCGGCCGCCGCAACGCAGCCCGCACGCGCCGCGTCCGGCGTTCGGTGGTTAATGCGCTGCAGACTGAACGTCGCGAGGTGTGGAGCCACCGCCGGTCACTCATGGAATCCCTGGGCGCCGACGACAGCCAGGCAGAAGGCGAGGGACGTGGTTCCCTCGCGGAGCAGCCGAGCGGTGACTCTACTGACGACTTCGCCGCGCTGGCCACCAGTGAGCGCGGCTGGGTGGGCAACGGAGCCCTCGCCGCGGTCATCCTCGCCTGCGTCGCATCCTTTGCCGGCCTCGCCGGTCTCTTCCGCGCCGACGCGGTCTCCGGCGGCGCCCTGCTGCCCGTCTCCGCCAGCCTGGAGGAGGTCTGGCACCGCGCCTCAAGTTGGTGGATCGGGCTGGGTGCAGGGCTTCCCGGGCACGGGGACCCGTTTGGCTACGTCTTATGGATTCTGGGCGTTCTCGGCGGCGGCAATGCCAACGGAGCTGTCGTGTGGTTGCTCCTGCTGGCCATGCCGCTGTCCGGCCTCACGGCCTGGTTTGCTTCCGGTGCGCTTACCTCACGCCGCCGGCTGCGGCTGGCGGCCGCCCTGGTGTGGGCAGGTGCGCCGGCCCTGCAGGTCGCGCTGAACCAAGGACGGATCGGAGCATTGCTTGCCCACGTCCTGATGCCGTTGCTGGTCCTCGCCCTGCTGCGTGCCACAGGCACGGCCATCGGGCGAGGCCGATACGCTGCACAGGGACAGCCGCGTGGGCGCTTCGAAGAAAAACCTCCAGTGAAGCCGGGCGTGAACGGAACGCCTTCCTGGACGGCGGCAGCCGCTGCGGGACTGGCGCTGGCCGTGATCACAGCCAGCGCACCATCGCTGCTGGTGCCGGCCGCCGTCGTGATTGTCGTCGCGGCAATCCTGCTGCGGAGGAGGGGCCGCACCCTGTGGTGGGCCCTCCTGCCCACCGCCGCGCTTTTCATTCCTTTTGCTCTGTCCACGCTGGACCATCCCCGTGCGCTCCTGGCGGATCCGGGAATGCCACTGGGCTTTGACGTGGCCCCTCTCTGGCAACAGGTGCTTGGGCAGCCGCTGAGCTTTGATGCTGCGCACGGGTTGTCCGGCCTGGCACCGTTCGGAGGAGGAGCCGTGCCGTGGGCGCTGCTGCTGGGCCTCCTCATCGGGGCACCGGTGCTGGTGTTGGCCCTGAGCGCGCTGTTTCTGCCCTCCCCGCGGGTCCGTGTGGCCCGCGCCCTGTGGGCAGCAGCGCTGATCGTGCTGGCAGGCAGTTGGCTTGCCTCGCATGTCGCCACCGGCGCCGGAGCCGGGTTCCTTGTTCCGCCGTTCCCCGGCGCTGCCGTCTCAGCGGCGGTCTTCACTTTCCTGGGTGCTGCCCTGATCGGCGGGGAAAGCCTGCTGGCCCTCGCAGGCACGAAGGGTTCCGGAGCCGCTTCGCCCGTCCGTGGCCATCCCGGGCGGGGCGCCGCCGTTGCGCGTGCAGCGTCCGCCGTTACCATCACTCTCCTGCTGGCGGGGCCGGTGGCCGGGCTCACGGCCTGGACAGCCCAGAACGTCGCACAGCCGTCTACTGCAATTCCGGTGGAGACACCGGCGCTCGGTACGCCCCGGATGGTGGCTGGCACTGATCCGCGGACGCTGCCGGCCACCGCGATAGACCGGGGCGAAGGACCGGAGCAGACCCGTACCTTGCTGATCCACATAGGTGAGAACGGGACCTATGGCGCGTCGCTGATGCGGGGCGGGGGTACTACCCTGGATGCGCTTTCCGCCATTGCCTCTGCCCGCGACATCCGCGGACTGCCGGGCCAGGAAACCATCCGCGACGACGATGAAGTCACCGCTGCCTTGCGCACCACTGTCGCTACCGTGGTCGCAGGTCATGGCGTAGATCCGCGGCCTGAACTCGAGCGGCTGGGCGTGGGCTTCGTCGTACTTCGCTCCAACGACACCGCGGCCCAGTTGACCGCGAGCCGCATGGACGCAGTTCCCGGCCTTGTGGCTGTCGGTCCCACCGATGCAGGCTGGCTTTGGCGCGTCAGCCCCCTCAACCACCGCGTTATGAAGCCTGCCGACGTCGCCCACCGGGCCCGGATCGTTGACGGCAAGGGCGCCACCATAAATCTTCTGCCCTCGGAACTCACCCGCGTGGATACAGCTGTGCCTAAGGGGCCCGAAGGCCGGCTCCTGGTCCTTGCCGAACGTGCGGACCCCGGATGGACGGCGTGGCTAAATGGCCGGAAGCTGACATCTACCACGTCGGGTTGGTCCCAGGCTTTCACTCTGCCTCCGCACGCCGGGCAGGTGACGGTCCGCTATGAGAACCCGTGGGCGCTGTGGACGGGGATTGTCCAGGCAGCAGTCATCGGACTGACCATCCTGCTGGCACTGCCCATGCCTGCCCGGCGCCCCAATTCCGGCCTGTCCAGGGACGAAGGCTCGTTGCGTAAGGACTACCAAAATGCATAA	MVVAHNGSDYLPRTLAALADQTRPADLAIGVDAGSHDTSAALLERGLGRGNVTRAASGRAGMGAAVSAALAALAPREPESRGAESPRTASEWIWLIHDDAAPAPEALAELLHAVERAPSVTVAGCKQLDWDAPRRLIDVGLSTSRWAERLTLIEADELDQGQYDGRSDTFAVNSAGMLVRRDVWEQLDGFDPALPGTGDDVDFCWRNRLAGNRVVVVPSARMFHVARRPHALGNAAAARRAQVHLRLKHAPLWLVPVHAVAAFLGSIFKLVFSIAVKDPGHGFSQLLATVAALGRPASIFRGRRNAARTRRVRRSVVNALQTERREVWSHRRSLMESLGADDSQAEGEGRGSLAEQPSGDSTDDFAALATSERGWVGNGALAAVILACVASFAGLAGLFRADAVSGGALLPVSASLEEVWHRASSWWIGLGAGLPGHGDPFGYVLWILGVLGGGNANGAVVWLLLLAMPLSGLTAWFASGALTSRRRLRLAAALVWAGAPALQVALNQGRIGALLAHVLMPLLVLALLRATGTAIGRGRYAAQGQPRGRFEEKPPVKPGVNGTPSWTAAAAAGLALAVITASAPSLLVPAAVVIVVAAILLRRRGRTLWWALLPTAALFIPFALSTLDHPRALLADPGMPLGFDVAPLWQQVLGQPLSFDAAHGLSGLAPFGGGAVPWALLLGLLIGAPVLVLALSALFLPSPRVRVARALWAAALIVLAGSWLASHVATGAGAGFLVPPFPGAAVSAAVFTFLGAALIGGESLLALAGTKGSGAASPVRGHPGRGAAVARAASAVTITLLLAGPVAGLTAWTAQNVAQPSTAIPVETPALGTPRMVAGTDPRTLPATAIDRGEGPEQTRTLLIHIGENGTYGASLMRGGGTTLDALSAIASARDIRGLPGQETIRDDDEVTAALRTTVATVVAGHGVDPRPELERLGVGFVVLRSNDTAAQLTASRMDAVPGLVAVGPTDAGWLWRVSPLNHRVMKPADVAHRARIVDGKGATINLLPSELTRVDTAVPKGPEGRLLVLAERADPGWTAWLNGRKLTSTTSGWSQAFTLPPHAGQVTVRYENPWALWTGIVQAAVIGLTILLALPMPARRPNSGLSRDEGSLRKDYQNA				NA	NA	NA	NA	NA
D1-17_02784	546	whiB		Transcriptional regulator WhiB	ATGGGGCAAGCTGAGCGTATCCATGAAGAAGCCGTTGTAGCCGGCCAGGCCACGGCGAAGTACCGATCTCGCGGAGTGCCGAGTGACTGGTACGTCGATCCGGCCGACCCGGATGCCGCCGAGCGGTACAACCTGGACAGCACTGCGTCCCTGCAGGATCAGGCCACTGCCTTCCTTGCACAGCATGAGGCGCTGCTTGACGGCGGGCCGGACCCTGACGAGGACCCGGACGATCCCCCGATGGAGCTCTTGGCTCCGGGTGCCGAAACCCTGACGCAGCCTGTGTGGATCGGTCTTCCCCGCAGCGAGGACTTTGCCGACGAAGGCGAACTCGGCTGGCAGACAGATGCGCTGTGCGCCCAAACCGATCCGGAAGCGTTTTTTCCCGAGAAGGGCGGATCCACGCGGGACGCCAAGAAAGTTTGCGGAGCCTGCAACGTCCGGTCGCAGTGCCTTGAGTACGCTCTGGCAAACGACGAGCGGTTCGGCATTTGGGGAGGCCTCTCCGAGCGTGAGCGCCGTCGGCTGAGGAAGCGGGCAGTCTAA	MGQAERIHEEAVVAGQATAKYRSRGVPSDWYVDPADPDAAERYNLDSTASLQDQATAFLAQHEALLDGGPDPDEDPDDPPMELLAPGAETLTQPVWIGLPRSEDFADEGELGWQTDALCAQTDPEAFFPEKGGSTRDAKKVCGACNVRSQCLEYALANDERFGIWGGLSERERRRLRKRAV				NA	NA	NA	NA	NA
D1-17_02785	702			hypothetical protein	ATGAACATCCCGGCCACTGACCTGATGACGGCCCTGCGCTCGGGCCACTCCACCTCCCCCCGCCTGACCTGGTACGGCCCGGACGCCGAACGCGTTGAGCTCTCCGGTCGGGTACTGGATAACTGGGTGGCCAAGACGAGCAACCTGCTGCAGGACGAACTCGATGCAACGCCCGGAAGGCGGCTCCGACTCGACCTTCCGGCGCACTGGAAATCCATCATCTGGGCACTGGCCGCGTGGCAGCTCGGGATGGAGGTTGTCCTGGACGGCAGCGGCGGCGCGGACTTTCTCGCGACGGCTGCACCGGAGGATGCCACGCCGGGGTTCGACGCCGTCGTAGCAGTACCGCTCCCCGCCCTTGCCATGAAGTGGCCCGGCGGACTGCCGGCGGGAGTAATCGACTACGCGGCCGAAGTCCGCTCACACGGTGACGTTTTCATGGCCCATGAGGATCCCGACCCGCAGCACCCGGCGCTGCACACCACAGACGGTGATCCTCTCCGCCACGCGGACCTGCTGGAGACTTTTGCGGCCCGGCATGAGCCCGGGGCCAGGCTGGTGGTCCGCGCTGATGAGGGGCTGGAGTCTGCCCTCGCTAACGCGCTGGGAGCCTGGAAGAACGACGGCTCGGTGGTGCTGGTGCACGGGGATGTGGAGCTGACGGATAACCTGCTCGCAGCGGAGCGGGTGCACGGCGACTGA	MNIPATDLMTALRSGHSTSPRLTWYGPDAERVELSGRVLDNWVAKTSNLLQDELDATPGRRLRLDLPAHWKSIIWALAAWQLGMEVVLDGSGGADFLATAAPEDATPGFDAVVAVPLPALAMKWPGGLPAGVIDYAAEVRSHGDVFMAHEDPDPQHPALHTTDGDPLRHADLLETFAARHEPGARLVVRADEGLESALANALGAWKNDGSVVLVHGDVELTDNLLAAERVHGD				NA	NA	NA	NA	NA
D1-17_02786	630			hypothetical protein	ATGATTAACACGCTTTCAGATCGCATCCGGGGGCTCGCCTCGCTTTTCTGGCGCGAGGTGGCAAAGTTCGGTGCCGTTGGCGGTGTGGCGTTCGTCATTGACTCGGCAGTTTTTATCTGGCTCTTTACCGGGCCTATGCACGGCAGCGAGGTGTGGGCGAAGGCTATCGCCACTGTGGTGGCGAGCATTTTCTCGTGGATCGCCAACAGGTTCTGGACCTTCCGCCACCGCAAGCAGGCCAACGTCCTCCGCGAGGCGCTGCTGTTTGCTGTGATGAATTTTGTGGGCCTGCTGATCGCCTCGGGCTGCGTCTGGGTTGCCAAGTACATCCTGGGCCTCACCGACAAGCCATCCCTCTTCATCGCCGGCAGCGTGGTGGGTCTGGTGCTGGGAACCATCTTCCGCTTTTTCGCCTACCGCTTCTGGGTATTCAATGAGGAATTGGACCAGGAGCCCGAGTTCTCCCACGACCACGAGCTCATCGAGGGCCACCACCACCGGACCACCGTCCCGGTAGGAAGCGATTCCGCAGTCAACGATTCCGCAGTCAACGATCCCGCGGTACCGGGGAAGCCCGGGGCGCGGGGCTCCGGCGCTGCCGGGAGCCATCTGCCGGTCAGGCCTGAGTAG	MINTLSDRIRGLASLFWREVAKFGAVGGVAFVIDSAVFIWLFTGPMHGSEVWAKAIATVVASIFSWIANRFWTFRHRKQANVLREALLFAVMNFVGLLIASGCVWVAKYILGLTDKPSLFIAGSVVGLVLGTIFRFFAYRFWVFNEELDQEPEFSHDHELIEGHHHRTTVPVGSDSAVNDSAVNDPAVPGKPGARGSGAAGSHLPVRPE				NA	NA	NA	NA	NA
D1-17_02787	1260	purK	COG0026	N5-carboxyaminoimidazole ribonucleotide synthase	GTGCCCCCGAAGCCGGTAACGGCGCTCCTTTTCTGTAGTCTGGAAGATGTGACTTTTCCAGTAATCGGCGTAGTTGGCGGCGGCCAGCTAGCGCGCATGATGGCCCCTGCCGCTACAGCCCTAGGCTTCGAGCTCCGCATCCTGGTTGAAGGTGAAGACGTTTCGGCGGCCTCGGCCGTTCCGAACGCCCCCGTCGGCGACTACAAGGACCTGGCTGCCCTCCTGGAGTTCTCGCAGGGCCTGGACGTGATGACCTTCGACCACGAGCACGTTCCGGCAGAACATCTGCACGAACTGATCGCGGCAGGAGTTAACGTCCAGCCCGGGCCCGACGCCCTCATCAATGCGCAGGACAAACTCGTGATGCGCGCGGCTATCGACCGCCTTGAGCTGCCGAACCCGGATTGGGCGTCCGTGGACGACGTTCAGGCCCTCATCGCCTTCGGCGACAAGATCGGCTGGCCGGTAGTACTCAAAACTCCGCGGGGCGGCTACGACGGCAAGGGTGTCCGGATCGTCGGATCTGCTGGCGAGGCCGCCGAGACGGCCGACTGGTTTGAGGCCATGAGCCCCCTTCTGGCAGAAGCCAAGGTGGAATTCAGCCGCGAACTCTCCGCCCTGGTGGCCCGCACGCCCGACGGCGCTTCGCGCGCCTGGCCCGTGGTCCACACCATCCAGGTTGACGGCGTCTGCGACGAAGTGATCGCCCCGGCACAGGACATTCCGCTGGAGGTTGCCGCCGCGGCCGAGGATGCCGCCCTGCGGATCGCCAACGAACTGGGCGTCACCGGGGTCATGGCCGTGGAGCTGTTCGAAACGCCGGGTTCGGGCGCAGGCTTCCTCATCAACGAACTCGCCATGCGTCCCCACAACACCGGCCACTGGACGCAGGACGGTTCCGTGACGAGCCAGTTTGAACAGCACCTGCGTGCTGTGCTGAACCTGCCGCTGGGCGCAACTGACGTGCTCGGCAGCGTTGTTGTGATGAAGAACTTCCTGGGCGGCGACAACCAGGACCTGTTTTCCGCGTACCCGGCAGCACTCGCCGCGGAGCCTGCCGCGAAGGTCCACTGCTACGGAAAATCCGTCCGCCCCGGCAGGAAAATCGGCCACGTCAACCTCGTGGGCGCGAGCGTCGCGGACGTTGCCACACTGCGTGAGCGGGCCACCACCGTGGCAGAGATTATCCGGAACGGCAGGCCGTCCGGGACGGCAACAGGCTCACCCATGGCATCCGGCGTAACCGAGGAGAACTTATGA	MPPKPVTALLFCSLEDVTFPVIGVVGGGQLARMMAPAATALGFELRILVEGEDVSAASAVPNAPVGDYKDLAALLEFSQGLDVMTFDHEHVPAEHLHELIAAGVNVQPGPDALINAQDKLVMRAAIDRLELPNPDWASVDDVQALIAFGDKIGWPVVLKTPRGGYDGKGVRIVGSAGEAAETADWFEAMSPLLAEAKVEFSRELSALVARTPDGASRAWPVVHTIQVDGVCDEVIAPAQDIPLEVAAAAEDAALRIANELGVTGVMAVELFETPGSGAGFLINELAMRPHNTGHWTQDGSVTSQFEQHLRAVLNLPLGATDVLGSVVVMKNFLGGDNQDLFSAYPAALAAEPAAKVHCYGKSVRPGRKIGHVNLVGASVADVATLRERATTVAEIIRNGRPSGTATGSPMASGVTEENL	PGPT0021550_528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
D1-17_02788	579	purE	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGAACCCCGAATCCCCCGTCAGCCAGGAAACGGATGCGCTGGTAGGCCTCGTCATGGGCTCGGACTCTGACTGGCCTGTCATGGAGGCGGCCGCTGACGCGCTGGCCGAGTTCGGCATCCCCTTCGAGGCCGACGTCGTCTCGGCCCACCGGATGCCCACAGAAATGATCCGCTACGGCCAAACGGCGCACGAACGCGGCCTCCGCGTCATCATCGCCGGGGCCGGCGGAGCGGCCCACCTTCCTGGCATGCTGGCCTCAGTCACTCCCCTTCCCGTCATCGGGGTGCCCGTCCCCCTCAAAACCCTGGACGGCATGGATTCATTGCTGTCCATCGTGCAGATGCCCGCCGGCGTCCCGGTCGCCACGGTCTCGATCGCCGGTGCCCGGAATGCAGGCCTGCTTGCAGTACGGATGCTTGCCGCCGGCACCGACGACCTCGCTGCGAGCCTCCGCAATGATCTTCTGGATTTCGCGCAGGAGCTCAACGACGTCGCCAGCCGGAAGGGCGCCAACCTCCGGCAGAAGGTCAACGAAGTCTTCGCCGAAGGAAACGTTGTTCCGCGGGGCAGCCGCTAG	MNPESPVSQETDALVGLVMGSDSDWPVMEAAADALAEFGIPFEADVVSAHRMPTEMIRYGQTAHERGLRVIIAGAGGAAHLPGMLASVTPLPVIGVPVPLKTLDGMDSLLSIVQMPAGVPVATVSIAGARNAGLLAVRMLAAGTDDLAASLRNDLLDFAQELNDVASRKGANLRQKVNEVFAEGNVVPRGSR	PGPT0021545_149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
D1-17_02789	1629	tagU_2		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGTCCAACACCAAACTGCCAGCAGACGGACTGCTGACGGACCCCGTCCGGTATCCGGCGAGCGCAAGCGAATCAGCCCGGACTAAACGCGCCTTCCTGCTGATCCTCCTCACGCTGTTCGTGCCGGGGAGCGCCCAGATCGCCGCCGGCGACCGGAAGCTGGGGCGCATTGCCCTGCGCGTGACGCTGACCGTATGGGCCCTCGTCATCCTGGCCCTGGTGCTGCTGTTCACCGCCCGGACGCTGCTCATCAACATTGTCGCCAACCCGGTCGCCTCCCTGCTTATCGTGCTGGTCCTGGCCGCCCTGGCGGTCGGGTGGGCGGTGTTGTTCATCAACACGCTGCGGCTGATCCGGCCCGTGCTGTTGGCAAAGCGCATGCGCCCGGTGGTCGTCACCGCCCTTGTCCTTGCCATGGTGCTCAGCAGCGGCTCCCTCGGCTACGCGGCTTACCTGCTCAACATCAGCCGCAACGCCATTGGCAGCATTTTCGCCGGCGGCCCCGCTATTGAACCCGTTGACGGCCGCTACAACTTCCTCATGATGGGCGGCGATGCCGGCGCCGACCGCACGGGCCGGCGCCCGGACAGCCTGTCCGTCCTCAGCGTAGACGCCGAGACCGGCAAGACCGCGATTATTTCCGTCCCCCGCAACCTGCAGAACGCCCGCTTCAGCGAGGGCTCGCCGATGCTGCAGATCTACCCCGACGGCTACAACTGCGGAAACGACTGCCTCATCAACGCGATCAACACTGAGGTCACCAACAAGTACAAGGACCTGTACCCCGACGCTGCCGATCCTGGAGCCCAGGCCACCCTCGAGGCCGTCTCGGGAACGCTCGGCATCACGGTCCAGGCGTACGTGCTCGTGGACATGGACGGCTTCGCCAAGCTCATTGACGCGATGGGGGGCATCCGCATCAAGGCCGGGGGCTGGGTACCCATCAGCGGACCGATGGTGGATGAAGCCAACGGCATCCACGGCATGCCGGATGGCTGGATTCCGGCCGGCGACCAGAAGCTCAATGGCTTCCAGGCCCTCTGGTACGGCCGGTCCCGGGAGTTCGTGGACGATTACGCACGAATCCAGCGGCAGCAGTGCGTCCAGCAGGCGATGCTTAAACAGCTGGACCCGGCCACGCTCCTTGCCAAATTCGAGGACATCGCCAACGCCGGCACCAAGGTGGTGGACTCCAACATATCCTCCAGCCAGCTCGGCAGCTTCGTGGACCTCGCCATGAAGGCCAAGGGCCAGGAAATCAGCCGCCTCACCATCGGCCCGCCGGACTTTGACGCGTCCTTCTCCACTTCGCCAGACTTCGAGGTCATCCATGACCGCGTCAGGAAGCTGCTGAGCGGCACCGGCTCCGGTCCTTCACCGGCTGCGGCACCTGACGACGCGCTGCAGCCGCAGCATGCCGGCGTCGCCACTGGCCTGACGGCAGCCGGCCCCGCTGCCCCGGTGACCGTACAGGTGCCCACGCCCCCGCCGTCGGATTTCACCCCGGTGACCACAACGCCCGCCGGTGAGCCAATCACCGAAGAGATGCTGAACCAGCTCAAGCGCGAGGGGAACGAGCAGGCCATCCGCGAACTCGTGGCCACCAACGGCCAATGCGCCCCCCTCTGA	MSNTKLPADGLLTDPVRYPASASESARTKRAFLLILLTLFVPGSAQIAAGDRKLGRIALRVTLTVWALVILALVLLFTARTLLINIVANPVASLLIVLVLAALAVGWAVLFINTLRLIRPVLLAKRMRPVVVTALVLAMVLSSGSLGYAAYLLNISRNAIGSIFAGGPAIEPVDGRYNFLMMGGDAGADRTGRRPDSLSVLSVDAETGKTAIISVPRNLQNARFSEGSPMLQIYPDGYNCGNDCLINAINTEVTNKYKDLYPDAADPGAQATLEAVSGTLGITVQAYVLVDMDGFAKLIDAMGGIRIKAGGWVPISGPMVDEANGIHGMPDGWIPAGDQKLNGFQALWYGRSREFVDDYARIQRQQCVQQAMLKQLDPATLLAKFEDIANAGTKVVDSNISSSQLGSFVDLAMKAKGQEISRLTIGPPDFDASFSTSPDFEVIHDRVRKLLSGTGSGPSPAAAPDDALQPQHAGVATGLTAAGPAAPVTVQVPTPPPSDFTPVTTTPAGEPITEEMLNQLKREGNEQAIRELVATNGQCAPL	PGPT0023440_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
D1-17_02790	1251	manA	COG1482	Mannose-6-phosphate isomerase	GTGTACGAAATCGATAACGTCCTCCGGCCGTACGCCTGGGGCTCGACGACGGCGATCGCCGGGCTCCTCGGCAGGCCGGAGTCGGGCGGTCCCGAGGCGGAGTTGTGGGTCGGTGCACACCCCGACTCACCTTCTGTCGCAACGCGCCCCGACGGCACGGCGGTCCCCCTTGATGAATTGATTTCCGAGGACCCCGACCATTACCTGGGGGAAGCCTCGGTGGCCGCCTTCGGACCCCGATTGCCCTTCCTCACCAAGGTTCTCGCGGCCGCCAAGCCGCTGTCACTGCAGGTGCACCCCAGCCTTGACCAGGCCAGGGCCGGCTTCGCCCGCGAGAACGCTGAGGGCATTGCAGTCGATGCCGCCAACCGCAACTACCGGGATGACAACCACAAGCCGGAAATGATTTACGCGCTGACACCCTTTGAGGCGCTGTGTGGGTTCCGGAAGCCGGAGACGTCCCGTGATGTTTTCCTGCACCTGGCCGGGTGCCTCGAGCTCTCGGGATCCGGCGTACCCGCGGTGCTTTCCGAGGTCATCGACGACCTCTCCCAGTCCGAGGAACGGGACGCCCTGCGGTCCGCGTTTGAGCGGCTGATCGCCGGCGGCGACGGCGTCACCGAGGCAACGAAGCGTGTTGTCGACGCGCTGGCAGCCGGCGCCCCCATGGCGCCCTACCAGCCGGAGTTGTCCACCGTGCTGAGCCTGAACAGCGAGTACCCCGGCGATCCTGGCGTGCTGATTTCCCTGCTGCTCAACCGCTTCTCGCTGGAACCGGGCGAGGCCGTCTACCTGCCCGCCGGCAACGTCCATGCGTACCTCCGCGGCCTGGGCGTTGAGGTCATGGCGTCCTCAGACAACGTGCTGCGCGGCGGCCTCACGCCGAAATTTGTTGACGTGCCGGAGCTGCTGAAGACTGTCGCCTTCGAGTCCGTTGGGATACCCATGCTTCGCGCCGAGACGTCCGAACTCGGGCAGGAGCTCTACCGGCCGCCGTTCCGCGAATTCCAGCTCCAGCGGATCGAAACGGTTCCCGGCGGCCCCCCTGTGCCGCTGGCGCAGTCAGGGCCGGCGGTGGTCATTGTCACCTCGGGGTCCGTCTACCTGGATTCCCCCAAGGGCGACCTGCGGCTGGACCACGGCCGAAGCGCGTTCCTCCCGGCGGCCGACGCGCCAGTGAACGTCCACCCGGTTTCCGGATCCACTGACGCTGCTGTGGCCTTCGCCGTAACCACCGCGCTGAAGGCCTGA	MYEIDNVLRPYAWGSTTAIAGLLGRPESGGPEAELWVGAHPDSPSVATRPDGTAVPLDELISEDPDHYLGEASVAAFGPRLPFLTKVLAAAKPLSLQVHPSLDQARAGFARENAEGIAVDAANRNYRDDNHKPEMIYALTPFEALCGFRKPETSRDVFLHLAGCLELSGSGVPAVLSEVIDDLSQSEERDALRSAFERLIAGGDGVTEATKRVVDALAAGAPMAPYQPELSTVLSLNSEYPGDPGVLISLLLNRFSLEPGEAVYLPAGNVHAYLRGLGVEVMASSDNVLRGGLTPKFVDVPELLKTVAFESVGIPMLRAETSELGQELYRPPFREFQLQRIETVPGGPPVPLAQSGPAVVIVTSGSVYLDSPKGDLRLDHGRSAFLPAADAPVNVHPVSGSTDAAVAFAVTTALKA	PGPT0017860_663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSE-MANNOSE-FRUCOSE_CONVERSION_MODIFICATION,PGPT0017860-manA-K01809	NA	NA
D1-17_02791	969			hypothetical protein	GTGGAATACTTTCTGCAGACCGAGGCGTGGGCCGACTTCCAGCGGTCCCTCGGACGCCGCGTCCACCAGCGGTCCGGCGAGGGCTGGAGCTTCCTGGCCATCGAGGAAAAGAACCCCGCCGGCAAGGTGCTGTACGCGCCCTACGGGCCGGTGGCCCGGTCCGCCGCTGCATTTGACGACGCGCTGGCAGCCCTGGTGGAGCTCGCAAAATCGTGCCACGCGGTCTTCGTCAGAATCGAACCCGTGACGGCCGGGCTGGACCCGGCAACGGCAGCCGGCGAGCTGAAGAGCCGGGGGCTCCAGCCTGCCCCCGTCAGCCAGCAGCCAGAGCTCAGCTGGATCGTGGACCTCGACCGGGACTTCAAGGACGTCCTGGCCGACATGAAGCCGGTCAACCGGAACCTCTACCGGAACATCCACAAAAAGGGTGTCACGTTCCGTTCCACCCAGGATCCGGAGGACATCAGGATCCTGCTGAACTTCCTGCACCTGACAGCTCGGCGCAACGGCTTCAAGCCGCAAAGCGACGAGTACCTGACTCAGGTGGCCGAGTCCATGATGCCTGCTAAAGCGGCAACCCTGTTCGTGGCCGAACTCCACGGGGGACCCATCGCAGCGGCCCTTGCCTACGATTCCGCGGATACCCGGACGTATGCCCACGCTGCCATGGACGACACCCACCGGAAGCTCAGCGCAGGCATTCCGCTGTTGGTCACCCTGATGGCCGACGCCAAGGAAAAGGGCCTGAAGCACGTGGACCTCTGGGGCGTGGCGCCTGCCGATGAGCCTGACCATAAGTGGGCCGGGTTCAGCGCCTTCAAGAAATCCTTCGGGGGGCGAGAAATTGCCTATCCGGGAACCTGGGACCTGCCCGTGAACAAGCCCCGCTACGCTGCCTACCAGGTAGCCCGCAAGCTCCGCGAGGCGCTCCGCACCGCCCTCAAGCGCATCAAACGCCCCACCTCTTAG	MEYFLQTEAWADFQRSLGRRVHQRSGEGWSFLAIEEKNPAGKVLYAPYGPVARSAAAFDDALAALVELAKSCHAVFVRIEPVTAGLDPATAAGELKSRGLQPAPVSQQPELSWIVDLDRDFKDVLADMKPVNRNLYRNIHKKGVTFRSTQDPEDIRILLNFLHLTARRNGFKPQSDEYLTQVAESMMPAKAATLFVAELHGGPIAAALAYDSADTRTYAHAAMDDTHRKLSAGIPLLVTLMADAKEKGLKHVDLWGVAPADEPDHKWAGFSAFKKSFGGREIAYPGTWDLPVNKPRYAAYQVARKLREALRTALKRIKRPTS				NA	NA	NA	NA	NA
D1-17_02792	963			hypothetical protein	TTGACCGCCACACACTGGAGCATGGGCCTCTCACCACTACCCCAGCATCTGCTGGCGGGATCATTCACCTCAGTACAGGCTGTGGCCCAGGGCGTGTCCCGGAAACGCCAGCGGCAGCCCGACGTCGTCATCCCTTCCCGCGGTATCCGCGTTCCTCTTGAGGGCGAGCCAACCACGGGCGCACATCTGCGGGCGTACGCCGCGGTGGCGGCACGGTCCACCTTGACACATCATTCCGGGGCCAGGATATGGGGCTTTAGCCTTCCCGGCTGGATGGAAGAGGACTGGAAAATCCATGTGGCACGCGGCCGGGACGACAGCAAACCACGTCGGCGAAACGTCGTCGGCCATCGCCTTACTCTTGGACCAGGCGAAGTGGTGGTCCACGACGGCGTCCGGGTCACCTCGCCGGCACGTACTTGGCTCGATCTCGCCAACCTGCTTAGCGTCGACGACTTGATCGCCGCGGGAGACTGCGTGGTGGTTTCCCACGGCCCGGACTTTCCGAAGCCGAGATCGCCCCTGGCGACTATTGACGATCTGCGGCGAATCATTGCCGCGCACCCGGGCATGCGGGGCATGAAAACAGCGCGGCTGGCCCTCCCCGAGATCCGTGTAGGGGCAGACTCGCCGCAGGAAACAAGAATGCGGCTGGTTCTGGCCAGGACGAAGCTAGGCGAACCCATTCTGAATCACGTGATTCACAGCAGCTGGGGCCAGCCGGCCGTGTGGCCGGACGGTGCATATCCGGAACACCGCCTTGCGCTGCAATACGACGGCTCACATCATTCGGATCCGGAGCAGGCCGCGCGCGACAGGAAGCGCAAGGAGCTCACCGAGCGCCTCGGCTGGACGGAACTCAGAATATACAAAGACGATCTCGACGGCGACAGGCCATTCGTCCTTGAGAAGGTTCGGGCTGCGCTGGACCGACGGCTGCGGCGCGGGGCGTCGGGCGCCTAG	MTATHWSMGLSPLPQHLLAGSFTSVQAVAQGVSRKRQRQPDVVIPSRGIRVPLEGEPTTGAHLRAYAAVAARSTLTHHSGARIWGFSLPGWMEEDWKIHVARGRDDSKPRRRNVVGHRLTLGPGEVVVHDGVRVTSPARTWLDLANLLSVDDLIAAGDCVVVSHGPDFPKPRSPLATIDDLRRIIAAHPGMRGMKTARLALPEIRVGADSPQETRMRLVLARTKLGEPILNHVIHSSWGQPAVWPDGAYPEHRLALQYDGSHHSDPEQAARDRKRKELTERLGWTELRIYKDDLDGDRPFVLEKVRAALDRRLRRGASGA				NA	NA	NA	NA	NA
D1-17_02793	1038	glpX	COG1494	Fructose-1,6-bisphosphatase class 2	GTGTCACCAGCGTCCATGACCCAGAAGTATTCAACGCTTTCCCCCTCGCTCGCCGTCGGAACCGACGAGCCGGACCGCAACCTCGCACTTGAGCTTGTCCGCGTCACGGAAGCCGCGGCAATCGCCGGCGGCCACTGGGTCGGATTCGGCGACAAGAACAAGGCAGACGGCGCCGCCGTCGATGCAATGCGCTCCTTCCTTCACACCGTCCACTTCAACGGCGTAGTGGTCATCGGTGAAGGTGAAAAAGACGAAGCCCCGATGCTGTTCAACGGCGAACAGGTAGGTGACGGCACCGGTCCCGAGTGCGATGTCGCCGTCGATCCCATCGACGGAACCCGCCTGACCGCGCTGGGCATCAACAACGCCCTCGCCGTCCTGGCCGTGGCAGAACGCGGCTCCATGTTCGACCCGTCGGCAGTGTTCTACATGGAGAAGCTCGTCACGGGCCCCGAAGCTGCGGACATGGTGGACCTGCGCCTGCCCGTCAAGCAGAACCTGCACCTGATCGCCAAGGCCAAGGGCGTCAAGGTCAACCAGCTCAACGTCATGATCCTCGACCGTGACCGCCACCGCCCGCTGGTGGAGGAAATCCGCGAGGCCGGCGCCCGCACCAAGTTCATCATGGACGGTGACGTTGCCGGCGCCATCGCCGCTGCCCGCTCCGGCACCGGCGTGGACGCGCTGATGGGTATCGGCGGAACGCCTGAAGGCATCGTCGCCGCCTGCGCCATCAAGTCACTCGGCGGCGTCATCCAGGGCCGGCTCTGGCCTACCAGTGATGACGAAAAGCAAAAGGCTATCGACGCCGGCCACGACCTTGAGCGCGTCCTCTCCACGAACGACCTCGTCAAGAGCGACAACTGCTACTTCGCCGCCACCGGCATCACTGACGGCGACCTGCTCAAGGGTGTGCGGTACGACAAGGACAAGGTGCTGACGCAGTCGATCGTGATGCGCTCCAAGTCCGGCACGATCCGTTTCGTTGACGGCGAGCACCAGGCCAGCAAGTGGGAAGGCTACGCCCGCAGGAGCTAG	MSPASMTQKYSTLSPSLAVGTDEPDRNLALELVRVTEAAAIAGGHWVGFGDKNKADGAAVDAMRSFLHTVHFNGVVVIGEGEKDEAPMLFNGEQVGDGTGPECDVAVDPIDGTRLTALGINNALAVLAVAERGSMFDPSAVFYMEKLVTGPEAADMVDLRLPVKQNLHLIAKAKGVKVNQLNVMILDRDRHRPLVEEIREAGARTKFIMDGDVAGAIAAARSGTGVDALMGIGGTPEGIVAACAIKSLGGVIQGRLWPTSDDEKQKAIDAGHDLERVLSTNDLVKSDNCYFAATGITDGDLLKGVRYDKDKVLTQSIVMRSKSGTIRFVDGEHQASKWEGYARRS	PGPT0017655_223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017655-glpX|cbbF-K02446	NA	NA
D1-17_02794	705			hypothetical protein	ATGGGCGACTATAGAAGGGTGAGTGAAACGCAGGACAGGTCCGCCCCCGATAACCGCGCAGCCGGGCACGGCTCCTCTGCGGCCTCCCCCGATCCGGCCGCCCAGCCGGTCAAGCCGGTGATCCCCGCCGCTGCGGCCAAGCGTGCCAATGCTTCCGTCATAGGAATGATCATCGCGCTGGTGGTCAGCATCGCCGCCTTCCTGCCGATCGTCCTGATGAATCCGGCGCCGAAGACGGAAGGTTTCCGTCCGGATATCAACGTCAGCGCGGTGGCCGGCAACGCGGCAGGTGTGGCGGGATTCACACCGGTCGCGCCGGAACCTGGCGACACATTCAGACCCAATTACGCCCGTTGGGAGGCCGGGACAGCATCGGGGGTGCCCACGTGGGAGGTCGGATATGTCACCGCCAAGGAAGCTTTCATCGGCCTGGTCCAGACCCGTCGGGCAAATCCCACCTGGCTACTGCAGGAAACAAAGAATGCGCCGGTGACCGGCACCCGGGAGGCCGGGGGCCGCGACTGGGAGCTCCGGGACACCGGCAAGGGTGAGAAAAACATGGTGCTGAACCACCGCGGAACCACCGTTATCCTGCGCGGTGACGCCCAATTGGACGAATTCGCGGCACTGGCTGCCGCCGTCGTAAAGTCCATGGACAGTAACCCGGCAGTAACGGTTTCCCCTTCGGTGACCCCCAGCCCGTAA	MGDYRRVSETQDRSAPDNRAAGHGSSAASPDPAAQPVKPVIPAAAAKRANASVIGMIIALVVSIAAFLPIVLMNPAPKTEGFRPDINVSAVAGNAAGVAGFTPVAPEPGDTFRPNYARWEAGTASGVPTWEVGYVTAKEAFIGLVQTRRANPTWLLQETKNAPVTGTREAGGRDWELRDTGKGEKNMVLNHRGTTVILRGDAQLDEFAALAAAVVKSMDSNPAVTVSPSVTPSP				NA	NA	NA	NA	NA
D1-17_02795	615	cynT	COG0288	Carbonic anhydrase	GTGGCAACTTATTTGACCCCTGCTCTGGCCTGGCGCCGCCTGCGCGAAGGAAACGAACGCTTCGTCAGCGGTGATACCTCTCACCCTAACCAAGACGCCTCACGGCGGTCGTCCCTGGTGGAAAACCAGCACCCCTTCGCTGTGATTTTCGGCTGCTCGGACTCACGGCTCGCCGCAGAAATCATTTTCGACGTCGGCCTTGGTGACGTTTTCGTGGTGCGGACCGCGGGACAGGTCATCGATGACGCCGTCCTGGGCTCGCTCGAGTACAGCATCGGCGTGCTGGGGGTGCCGCTGATCGTCGTGCTCGGCCACGATAGCTGCGGCGCGGTAAGCGCCACCAAGTCCGCGGTGGAAACCGGGCAGATGCCCACGGGCTTCATTCGGGACCTCGTGGAGCGCATCACGCCGTCAGTGCTGACATCCCTCCGCAATGACCAGACCGAGGTCAACGACATGGTGGTAGAGCACGTCAAGCAGACCTCACAGCGGCTCGTCGACAGCTCGCGTGTGATTTCGGACGCAATCGAAAAAGGCCAGGCAGCGGTCATCGGGCTTTCTTACAGCCTTGCAGAGGGCCACGCGGAGCTTGTTTCCGGAATCGGCGAGCTTTAG	MATYLTPALAWRRLREGNERFVSGDTSHPNQDASRRSSLVENQHPFAVIFGCSDSRLAAEIIFDVGLGDVFVVRTAGQVIDDAVLGSLEYSIGVLGVPLIVVLGHDSCGAVSATKSAVETGQMPTGFIRDLVERITPSVLTSLRNDQTEVNDMVVEHVKQTSQRLVDSSRVISDAIEKGQAAVIGLSYSLAEGHAELVSGIGEL	PGPT0002415_5774	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-17_02796	1422	fumC	COG0114	Fumarate hydratase class II	ATGACTTCCACTGAAGAGTTCCGTATTGAATATGACACGATGGGCGAAGTCCGCGTCCCCGTGAACGCCCTGTACCGCGCGCAGACGCAACGTGCAGTCGAGAACTTCCCGATCTCCGGAAAGACCCTGGAACGCGCGCACATTGAGGCGCTGGCCCGGGTCAAGAAGGCCGCTGCCCAGGCCAACGCAGAACTGGGCGTGCTCGACGGCGAGCTGGCCAAGGCGATCGCGGAAGCTGCCGATGAGGTGGCCACGGGCAAGTACGACGGCGACTTCCCCATCGACGTTTTCCAGACCGGCTCCGGCACGTCCTCGAACATGAACACCAACGAGGTCCTTGCCGAGCTGGCTACCCGCGCCCTCAAGGCCGCCGGCAGCGACAAGGTGGTCCACCCCAACGACCACGTCAACGCCTCGCAGTCCTCCAACGACGTGTTTCCCACCTCGGTCCACGTGGCCGCCACCTCGGCCCTGCTCAACGACCTCATCCCGGCGCTCGGCTACCTCGCCGAGTCCCTTGAGCGGAAGGCCGTTGAGTTCAAGGACGTCGTCAAGTCCGGCCGCACCCACCTCATGGACGCCACCCCCGTGACCCTTGGCCAGGAGTTCGGCGGCTACGCGGCGCAGGTCCGCTACGGCATCGAGCGCATCAACGCTGCGCTTCCCCGCGTAGCGGAGGTTCCCCTCGGCGGCACCGCCGTAGGCACCGGCATCAACACCCCGGCGGGCTTCCCCGAGCGCGTCATCGAACTGCTCGCCACCGACACCGGGCTGCCCCTGACCGAAGCCCGCGACCACTTCGAAGCCCAGGCCAACCGCGACGGGCTCATCGAAGCTTCAAGCCAGCTGCGCAACATTGCCATCTCCTTCATGAAGATCAACAATGACCTGCGCTGGATGGGCTCCGGCCCCAACACCGGCCTCGGCGAAATTGCGATCCCCGACCTGCAGCCGGGCTCATCCATCATGCCGGGCAAGGTCAACCCTGTCATCTGCGAGGCCTCCATCATGGTGTGCGCCCAGGTCATCGGCAACGACACCGCCATCGCCTGGTCCGGCACGAACGGCGCCTTTGAACTGAACGTCGGCATCCCGGTGATGGCGGCGAACCTGCTCGAATCCGTCCGCCTGCTGGCCAACACCAGCCGCGTCATGGCGGACAAGATGATCGACGGCATCACCGCCAACACCGAGCGCGCCCGCTTCCTGGCCGAGGCCTCGCCGTCCATTGTCACCCCGCTGAACAAGTACATCGGGTACGAGAACGCCGCCAAGATCGCCAAGAAGGCCGTCGCTGAAGGCCTCACGATCCGCGAGGCCGTGGTCGCCATGGGCTTCCTGGAACGCGGCGAACTGACCGAGGAGCAACTGGACACCGCCCTGGACGTCATGTCGATGACGCGCCCGCCGCACAAGGCATGA	MTSTEEFRIEYDTMGEVRVPVNALYRAQTQRAVENFPISGKTLERAHIEALARVKKAAAQANAELGVLDGELAKAIAEAADEVATGKYDGDFPIDVFQTGSGTSSNMNTNEVLAELATRALKAAGSDKVVHPNDHVNASQSSNDVFPTSVHVAATSALLNDLIPALGYLAESLERKAVEFKDVVKSGRTHLMDATPVTLGQEFGGYAAQVRYGIERINAALPRVAEVPLGGTAVGTGINTPAGFPERVIELLATDTGLPLTEARDHFEAQANRDGLIEASSQLRNIAISFMKINNDLRWMGSGPNTGLGEIAIPDLQPGSSIMPGKVNPVICEASIMVCAQVIGNDTAIAWSGTNGAFELNVGIPVMAANLLESVRLLANTSRVMADKMIDGITANTERARFLAEASPSIVTPLNKYIGYENAAKIAKKAVAEGLTIREAVVAMGFLERGELTEEQLDTALDVMSMTRPPHKA	PGPT0001650_905	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001650-fumC-K01679	NA	NA
D1-17_02797	555			hypothetical protein	GTGATCCAACGACTGGACGGACTCTGGCAGGCGGCCCCTCCCGCCTTTTGGCTGGTCCTCGCTGCCTGCGCCTACTTCGCCGTAATGGCCGTGCGGCTGACGGTGATCGACATCCGCCACCACCTGCTGCCGAACAGGATCGTTTTCCCGTCCTATGCCGTTGCGGGAGGCTTATTGCTTGGGGCCGTAGCCAGCCTGGTGATCACGGCGCCCGGAAGCGGCGTGCCGGATGCCGCGGCCCAGTTGTTCGGGGTGCCCGCACTCCGGATCCTGGCGGGGGGAGCGGTCCTCTGGCTGTTCTACTTCGTCCTGCGGCTGGTGTATCCGCCCGGGATGGGCTTCGGCGACGTGAAGTTAGCTGGCGTGCTGGGAATGTACCTGGGGTATCTGGGCTGGACGCACGTCTTTGCGGGCACGTTCGCCGCGTTCCTGCTGGGCGGCTTGTGGAGCATCGCCCTGCTGGTGTCGCGGCGCGGCACGCTCAAATCCGCGATTCCCTTCGGCCCCTTCATGCTGGCCGGCGCCGCCGCCGCCATGGCCGTGCTCCCCGCCTAG	MIQRLDGLWQAAPPAFWLVLAACAYFAVMAVRLTVIDIRHHLLPNRIVFPSYAVAGGLLLGAVASLVITAPGSGVPDAAAQLFGVPALRILAGGAVLWLFYFVLRLVYPPGMGFGDVKLAGVLGMYLGYLGWTHVFAGTFAAFLLGGLWSIALLVSRRGTLKSAIPFGPFMLAGAAAAMAVLPA	PGPT0015925_2720	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IV_PILIN_SECRETION|FIMBRIAL_ASSEMBLY,PGPT0015925-pilD-K02654	NA	NA
D1-17_02798	735			hypothetical protein	ATGTCACTGGACCCCGGAACCTTTCGGAACCTCTGCCGATCGTCCCCTTGGAAATGGCAATCCCTCCGGTTCGAATACCGCGAGACCTCCGGCGCAGGCCCGGTGCGTGCCTGGCTGCGCCGCCCTGGTGCACTCCGTCTTGAAGCTATGGACGGCACGCTGCTGCACAGCACCACCGGAATCAACGATTCCCGGGACGGCCTGTATATCAGCGCCACCCGGCGGTCGTGGCTCCTGCCGGCGCATCTGGTCACGCCCGTTTACGACGGCGCAGGGCTGGTCAGGCGCCGCCCGGAGGCGGCGTACGGTGAACCGTCGTTCGGAAACAGCCGCCTTGCCGCAGCCCTTGATCCTGTGGAGCTCGCCGGCAACGCTCCCGTTCCGATGGAGTTCCCCCATGCCAACGCTGTGGAGCTGCTCGAACCGGTGGGGGAGGTCGAGCACGAAGGGCGCCCCGCTTGGGAGGCGGTGGTGACTCCGAATCCAGGCTACCGTCCGCTGGATCCGGAGTACCCCCTATGCGGACCGGGGCGGACACGCATCCGAATCGATATCGGAACCGGTGTCTGTGTGTCCTGCGAAGCCCTGGATAAAGGACCGGATGCTCCCGGACATGCCATCCGCATCCTCGCCGTCGACGAATACATGCTTGATGACCTCTTCGTCGCTGAACCGGTGAACCTGACGGACGTTCGGGAGCACATCCAGTGGCCGCTGCATCCCGACCCCGCCTGA	MSLDPGTFRNLCRSSPWKWQSLRFEYRETSGAGPVRAWLRRPGALRLEAMDGTLLHSTTGINDSRDGLYISATRRSWLLPAHLVTPVYDGAGLVRRRPEAAYGEPSFGNSRLAAALDPVELAGNAPVPMEFPHANAVELLEPVGEVEHEGRPAWEAVVTPNPGYRPLDPEYPLCGPGRTRIRIDIGTGVCVSCEALDKGPDAPGHAIRILAVDEYMLDDLFVAEPVNLTDVREHIQWPLHPDPA				NA	NA	NA	NA	NA
D1-17_02799	645		COG1670	Putative succinyl-CoA transferase	ATGACCCAGCTGACGTCTGTTTTTCCGCCGTTCGCCCTGAGGCTGGCAACTCCCCGGCTCGTGTTGCGCCCGCTTCGGGACGACGACATTCCCGCCGCGGTGGAGGCGGCAGCCAGCGGCATTCATGAGCGGGGCCGGAACCCTTTCAGCACACCATGGGCCGAATCACCGCCCGACCGGCTGGGTCCCGGCATGGCGCGCTGGTACTGGCAGTGCCGGGCCAATAGCACGCCGGAGTCCTGGTCCCTCATCCTTGGCATCTGGCACGGCGATACCTTTCTAGGCTGCCAGGACATCGAGGCCAAGGATTTCGCCGTCCTCAGGACCGTGACCACCGGTTCCTGGCTGAGGAGGGATGCGCACGGCCGCGGCTTCGGCAAGGAGATGCGCGCCGCCGTCGCACTGTATGCCTTTGACTGGATCAAGGCCGACGTCGCGGAGTCCGAAGCTGCGGACTGGAACGCCGCCTCCCTCGGAGTATCACGGTCCCTCGGATACGAGCTGAATGGAGTGACACGCATGTCATGGGGCGGGAAGGCCGAAACCGTCCAGCGGGTACGCCTCACGCCGGAAACCCTGAAACGTCCCGACTGGCAGCTATCGGTAGAGGGCCACGGGTCAACCGCACAGTTCCTCGGGATCTAG	MTQLTSVFPPFALRLATPRLVLRPLRDDDIPAAVEAAASGIHERGRNPFSTPWAESPPDRLGPGMARWYWQCRANSTPESWSLILGIWHGDTFLGCQDIEAKDFAVLRTVTTGSWLRRDAHGRGFGKEMRAAVALYAFDWIKADVAESEAADWNAASLGVSRSLGYELNGVTRMSWGGKAETVQRVRLTPETLKRPDWQLSVEGHGSTAQFLGI				NA	NA	NA	NA	NA
D1-17_02800	1431			hypothetical protein	GTGGCTAATTCTGAACAACTGCCCGCAGTCATCACGGACCAGGGTGAGGAGGCTACTTCTCGCACGAAGCGAGAGAATTCACAGACCGGCGCGGCCACGGAAGATGTCGCAGCCGGTCTTGCTGTTTCCGGCCCAGAAGCCCAGCCAGCTGTCTCGACGTTCGTTATTGACACGTCTGTGTTGCTATCCGATCCCCGCGCGCTGCTGCGCTTCGCGGAGCATGAAGTGGTCTTGCCCATCGTGGTGATCACCGAGCTCGAGGGCAAGCGGCATGACCCCGAACTGGGCTACTTCGCAAGGGCCGCGCTCCGGCTCCTCGACGACCTCAGGGTCCAGCACGGCGGCCTCAACCGACCCATCCCGCTGGGCGAGGCCGGCGGAACACTCATGGTGGAGCTGAACCACATCTCCTCTGAAGTGCTTCCGGCAGGCTTCCGCGGCGGCGACAATGACAGCCGCATCCTCGCCGTCGCAATGAATCTTGCCAACGAGGGCAGGAATGTGACGGTCGTTTCCAAGGACCTCCCCATGCGGGTCAAGGCCTCCGCGATGGGGCTGCTGGCTGACGAATACAGGAACGAGCTGGTCAAGGACTCAGGGTGGACCGGCGTCGCGGAAGTTGACGCCAGCGAGGCGGAGATCTCCACCCTCTATGGCCACGAACCGGTCTTCATTCCCGCCGCGGCAGAGCTGCCCGTCAACACCGGCCTGGTCCTGCTGTCCAACAGGGGATCAGCCCTCGGCCGGGTCGGCCCGGACAAGCAGGTCCGCCTCGTGAAGGGGGACCGCGATGTCTTTGGCCTCCACGGGCGTTCGGCCGAACAGCGGCTGGCCATCGACATGCTGATGGATCCGGCGGTGGGCATCGTCTCCATCGGCGGGCGGGCAGGCACCGGCAAATCTGCGCTCGCCCTGTGTGCCGGGCTGGAGGCCGTGCTGGAGCGCAGAGAACACCGCAAGGTGGTCGTCTTCCGTCCCCTTTACGCCGTGGGCGGCCAGGAGCTTGGCTACTTGCCCGGTTCAGAGGCCGAGAAGATGAACCCGTGGGCGCAAGCTGTCTTTGACACGCTCGGAGCACTCGTCAGCCAGGAAGTGGTGGAGGAGGTGATGGACCGCGGGATGCTGGAGGTCATGCCGCTGACCCATATCCGCGGCCGCTCGCTGCACGATGCCTTCGTGATTGTGGACGAGGCACAGTCCCTCGAGAAGAACGTGCTGCTGACCGTCATGAGCCGCATCGGGCAGAACTCGAAGATTGTCCTCACCCACGACGTTGCCCAGCGGGACAACCTTCGGGTTGGCCGCCACGACGGCGTTGCAGCGGTAGTTGAGACGCTCAAGGGACACCCGCTCTTCGGGCACATCACGCTCACCCGTTCGGAGCGCTCGCCCATCGCGGCCCTTGTCACCGAGCTTCTGGAAGGGGCCTGA	MANSEQLPAVITDQGEEATSRTKRENSQTGAATEDVAAGLAVSGPEAQPAVSTFVIDTSVLLSDPRALLRFAEHEVVLPIVVITELEGKRHDPELGYFARAALRLLDDLRVQHGGLNRPIPLGEAGGTLMVELNHISSEVLPAGFRGGDNDSRILAVAMNLANEGRNVTVVSKDLPMRVKASAMGLLADEYRNELVKDSGWTGVAEVDASEAEISTLYGHEPVFIPAAAELPVNTGLVLLSNRGSALGRVGPDKQVRLVKGDRDVFGLHGRSAEQRLAIDMLMDPAVGIVSIGGRAGTGKSALALCAGLEAVLERREHRKVVVFRPLYAVGGQELGYLPGSEAEKMNPWAQAVFDTLGALVSQEVVEEVMDRGMLEVMPLTHIRGRSLHDAFVIVDEAQSLEKNVLLTVMSRIGQNSKIVLTHDVAQRDNLRVGRHDGVAAVVETLKGHPLFGHITLTRSERSPIAALVTELLEGA				NA	NA	NA	NA	NA
D1-17_02801	774		COG0020	(2Z,6E)-farnesyl diphosphate synthase	GTGAAGCCCCGGATGGAATTGCCCGGATTCCTCTATGGCTTCTACGAGCGCCGGCTCCTCCGGGCGATGGAGCCTGAGCGCATACCCAAGCACATCGGCGTTATGGTGGACGGCAACCGGCGCTGGGCGCGCCAGTTCAATGCCCCTACCAGCCAGGGCCACCAGGCCGGCGCGGACAAGATCCACGAGTTCCTTGGCTGGTGCCAGGAACTGGGAATCAGGGTGGTGACGCTCTACATGCTCTCCACCGACAACATGAGCCGGTCGGGCGAGGAACTGGACCTGCTCATGGGCATCATCGCCAACACGCTGGACCGCCTTGACGAAGACGCAGACATTTCGGTTCACGCCATGGGTGCCCCCGAGCTCCTCCCTGACTACCTGGCCGAGCGGCTCACCAAGCTGACCGCACGTACGCCTGTACGTGAAAAGCTGCACGTCAATGTGGCAGTGGGTTACGGCGGCCGCCGGGAGATTGTGGACGCCGTCCGTGAACTGCTGCATGACGCAGTGGCGCGCAATGCCGATATCAGCGAACTGGCGGACACTCTCTCCGTTGATGACATCTCCCGATTCCTCTACACCAGGGGCCAGCCCGACCCGGACCTGGTCATCCGGACGTCGGGAGAGCAACGTCTGTCGGGCTTTCTGATGTGGCAGAGCGCCTACAGCGAGTTCTACTTCTGCGAAGCGCTCTGGCCTGCGTTCCGAAAGGTCGATTTCCTGCGTGCCCTCAGGGACTACGCCGGGCGGCAGCGCCGCTTCGGCTCCTGA	MKPRMELPGFLYGFYERRLLRAMEPERIPKHIGVMVDGNRRWARQFNAPTSQGHQAGADKIHEFLGWCQELGIRVVTLYMLSTDNMSRSGEELDLLMGIIANTLDRLDEDADISVHAMGAPELLPDYLAERLTKLTARTPVREKLHVNVAVGYGGRREIVDAVRELLHDAVARNADISELADTLSVDDISRFLYTRGQPDPDLVIRTSGEQRLSGFLMWQSAYSEFYFCEALWPAFRKVDFLRALRDYAGRQRRFGS	PGPT0007535_576	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007535-uppS-K12503	NA	NA
D1-17_02802	741			hypothetical protein	ATGGCGAACACTAGCCCGGCAGGCAGCCCGGGGAATCCGGAGCATCGGCCGAACTCGGTGAATGCAGCTGTGGATGGTGCGGCCGTCCGCATTGCCGAACTGCTGATGATCAAGCCGAAGTGGCGTGGCTGGATCCACACGGCAGCCGCTCCGCTGGCCCTGGCCTCCGGGATCGTGCTGCTGATACTTGCGCCCACCCCGGACCGAAAAATTGCCTCCGCCGTCTACGCCCTGACCGGCGTGCTGCTGTTCGGCATCAGCGCCCTTTACCACCGCGGGAACTGGTCGCCGGGCGTCAAAGCGGTCTTGAAGCGCCTCGACCACACGAACATCATGCTGGTCATCGCCGGGAGCTACACTCCGCTGGCATGGAGCCTTCTTGAACGGCCGACGGCGGTGCTCCTGCTGTGGCTGATCTGGTCCGGCGCCATCCTTGGCGTGCTGTTCCGGCTCTTGTGGACCAATGCACCGCGCTGGCTGTACGTTCCGGTCTACATAGCCCTGGGATGCGGGGCATTGTTCTACCTTCCGGACTTCTTCGCCGCGAGCGTTCCCGCAGCACTGCTGATCTGCAGTGGCGGTGGGCTGTACATTGCGGGGGCCGTGTTTTATGCGCTGAAGAAACCGAACATCAGCTACAGGCACTTTGGCTTCCACGAACTGTTCCATGCGTTTACCGTGTTTGCCTTCGCCGCGCACTTCGCGGCGATTGTCATCGCTGTCCTCAGCCCCGCCCCCTAG	MANTSPAGSPGNPEHRPNSVNAAVDGAAVRIAELLMIKPKWRGWIHTAAAPLALASGIVLLILAPTPDRKIASAVYALTGVLLFGISALYHRGNWSPGVKAVLKRLDHTNIMLVIAGSYTPLAWSLLERPTAVLLLWLIWSGAILGVLFRLLWTNAPRWLYVPVYIALGCGALFYLPDFFAASVPAALLICSGGGLYIAGAVFYALKKPNISYRHFGFHELFHAFTVFAFAAHFAAIVIAVLSPAP				NA	NA	NA	NA	NA
D1-17_02803	2184			hypothetical protein	ATGCAGGACGCACAGACACCTGAGTCAGGTGCGCGAAACGCACTGGGCGATGAACCGTCTGCCTATCTGAGGCAGCACGCGGACAACCCGGTGCACTGGCAGCCCTTCGGAGACCAGGCCTTTGCCGACGCGGCCGCCCGGGACGTTCCCGTTTTCTTGTCGATCGGTTACGCGGCGTGCCACTGGTGCCACGTTATGGCCCACGAGTCCTTCGAAGACCAGGCCGTGGCCGACTACCTCAATCAGCACTTTGTCGCCGTCAAGGTGGACCGGGAAGAGCGGCCGGACGTCGACTCCGTCTATATGGCCGCGACGCAGGCGATCAGCGGTGAGGGCGGTTGGCCCATGTCGGTTTTCCTGACGCCGGAGGGACTCGCCTTTTACGCCGGCACGTATTACCCGCCGCGGCCCCTGCCCGGCAGACCCTCATTCTTGCAGGTGCTGGAGGCGGTGCACGACGCCTGGACCGAGCGCAGGGACGGCGTGGAGCAGAACGCCCGGGCGCTCGCGCAGAACATGGGCCAGGCCCAGCTTTCCGCCGCCGTGCGCCTTGATGGGCCTCCCGGACTGCTCGACCCGGATCTGTTGCCGGCTGCCGTCCGTTCGCTTGCCCTCTCGGAAGACCCCGACGCCGGTGGCTTCGGCGCCGCCCCGAAGTTTCCGCCGTCGGCGGTCCTGGAGTTTTTGGTTCGGCATGCGGCAGTGCCCTCGAAGACGGCAGGGGAGGCCCGCGCCATGGCCGGGCGGGCCCTGGCAGGAATGGCGCGTTCGGCCTTGTTCGACCAGCTCGACGGCGGGTTCGCCCGGTACTCGGTGACCCGGGACTGGTCCGTGCCGCACTTTGAAAAGATGCTGTACGACAACGCCCAGCTGCTGCGGGTCTATGTCCACTGGGTGCGTCTGGGCGGCACCGAAGGATTTCCGGCCGGGGAAGCTGCGGATGTTGCGGGGCGCACAGCCCGGTGGATGCTGGCAGCCCTCGGACTCGGAAGCAATGACCAGGCGCTGGCGTCCTCGCTGGATGCTGATTTCGTCATCAACGGGGTCCATCACGAAGGAGGTACCTATCTCTGGACTGTGGCCGGGCTTGAGGACGTGCTGGGCAGTGATGACGCGGCCGCCGTTGCGCGCATCATGAACGTCGGGGAGGAAGGCACCGTCTCGGAGCTCGGATCGCCCCTGCATCCGGCGCGGGCTCTTGGCGCGGACGAGGCCGCACTCTGGTCCCGGATCCGGCCCATCCTGCTCGCTGCCCGAAACGCCCGGCCGCAACCTGCCCGGGACGACAAAGTGGTGGCTGGCTGGAACGGCCTTGCCGTGGCCGCCCTCGCGGAGGCAGGGGCCGTGCTGGACGAGCCGGGACTGGTGGATTCAGCGGTGCGTATCGGCGGGTACCTGGAGCAGGTCCACTGGAAGCCAGATGAGGCCCGGCTGGTGCGTGTTTCCCATGATGGATTGGCACGTGGAATTGGTGGGCTGCTGGAGGACTACGCGTTTTGCGCCGAAGGCTTCCTGGCCCTGTTTTCCGTCACCGGCAACGCCCGCTGGTACCGGCTGGCAGAATCGCTGATCGCGGCAGCCCGCTCGCGGTTCATTGTCGACGGCAGCCTGGCAGATAGTGCGGGGGAATCCCGGCCCGTCACCAACGCCCAGGGCGGCAGGCCCGGTCTGGAACCCTTCGACGGTGCTGCGCCCAGCGGCGCGGCAGCGTTCGCCGGGGTCCTGCTGAGCTACGCCGCCCTGTCCGGCTCAGCCACTCACCGGGCGCTGGCCGGCAATATCCTGTCGCTGCTGCCCCCGCTTGCAACGCGGGCTCCCCGCGCCGTCGGCTGGCTGCTCGCCACCGCGCAGGCCGGTGCCGCCGGGCCGGTGGAGGCAGCCGTCGTCGGGGCAGCCGGACCTGCGAGGGAGGGGATGCACCGGGCCCTCGTGCGCTCTCCCAGCCCCGGCATGGTGATTGCCGTGGGAGAGCCGGTCGCCGGCGATCGAGGCGGGGACGCTGGAACCGGCGATGCTGCCGGCTCAGACGCCGGGACGGTGCCATTGCTGCGCGGCCGCGCGGCCGGGGCCGGTGGCAGTCCGCTGGTTTACCTTTGCCGCAATATGGCGTGCGATCGGCCGGTGGGGTCCGTACCCGAGGTGCTGGAAAGGCTCAATGCAGGTCCTGTCCCATCCCAGGGGTAG	MQDAQTPESGARNALGDEPSAYLRQHADNPVHWQPFGDQAFADAAARDVPVFLSIGYAACHWCHVMAHESFEDQAVADYLNQHFVAVKVDREERPDVDSVYMAATQAISGEGGWPMSVFLTPEGLAFYAGTYYPPRPLPGRPSFLQVLEAVHDAWTERRDGVEQNARALAQNMGQAQLSAAVRLDGPPGLLDPDLLPAAVRSLALSEDPDAGGFGAAPKFPPSAVLEFLVRHAAVPSKTAGEARAMAGRALAGMARSALFDQLDGGFARYSVTRDWSVPHFEKMLYDNAQLLRVYVHWVRLGGTEGFPAGEAADVAGRTARWMLAALGLGSNDQALASSLDADFVINGVHHEGGTYLWTVAGLEDVLGSDDAAAVARIMNVGEEGTVSELGSPLHPARALGADEAALWSRIRPILLAARNARPQPARDDKVVAGWNGLAVAALAEAGAVLDEPGLVDSAVRIGGYLEQVHWKPDEARLVRVSHDGLARGIGGLLEDYAFCAEGFLALFSVTGNARWYRLAESLIAAARSRFIVDGSLADSAGESRPVTNAQGGRPGLEPFDGAAPSGAAAFAGVLLSYAALSGSATHRALAGNILSLLPPLATRAPRAVGWLLATAQAGAAGPVEAAVVGAAGPAREGMHRALVRSPSPGMVIAVGEPVAGDRGGDAGTGDAAGSDAGTVPLLRGRAAGAGGSPLVYLCRNMACDRPVGSVPEVLERLNAGPVPSQG				NA	NA	NA	NA	NA
D1-17_02804	270			hypothetical protein	ATGCTCATCACCCTGGCGTCCTCGCCCGCGCCCTCGCCTTCCTTGCGGCCGGGCCTTTCGGAGGACCAGGTGACCCCCGGCCTGCTCGGCTTCCTGCTGACGGCCTTCATCGTGGTGCTGACGGCGCTGCTGATTGTAGACATGGTGCGCAGGATCCGGCGCGTGCGCTACCGCGCCCAGGTGGAAGAGGAACGCATGGCCGCTGCCGAGGCCGCGGACATCGCGCGCGACGAAGCCGCTGACGGCAATGCAGGACGCACAGACACCTGA	MLITLASSPAPSPSLRPGLSEDQVTPGLLGFLLTAFIVVLTALLIVDMVRRIRRVRYRAQVEEERMAAAEAADIARDEAADGNAGRTDT				NA	NA	NA	NA	NA
D1-17_02805	906	mca_2	COG2120	Mycothiol S-conjugate amidase	ATGGCAGCGTCCACGAGCCCGTCACCTTCGCTCCGCCTTATGGCAGTGCACGCCCACCCGGATGACGAGTCAAGCAAGGGCGCGGCAACGATGGCGATGTACGCGGCGTCCGGAGTGGACGTCATGGTGGCCACCTGCACGGACGGTTCCCGCGGGGACATCCAGAACCCCGCGATGTTGGGCGAGCCGCACCCGAAAAGGGATATGGCCGGCGCCCGGCGGCTCGAAATGCATGCGGCTGCACGCATCCTGGGAGTGAAACAGCGCTGGCTGGGGTTCGTGGACTCCGGATTGCCGGAAGGGGATCCGCTCCCGCCGCTGCCGCCGGGTTCGTTCGCGCTGCAGCCGCTGCACCGCGCCGCGGCGCCGCTGGTCCGCCTTGTCCGGGATTTTAAGCCGCACGTGATGATCAGCTACGACGAAAAGGGCGGCTACCCGCACCCCGACCACATCATGGCGCACCGCGTTGCCGTGGAGGCCTTCGAGGCAGCGGGAGACCCCGAGAAATACCTGGGCACCGGTGCAGCCTGGGCTCCGAGCAAGCTCTACTACGACCGCGCCTTCAGCCCTGAGCGCTTCCGCGCCCTGCACTTCGCGCTCGAGGAGGCCGGGCTCCAGTCGCCTTACGCCGAACGCCTGGCGGCATGGTTGGAAGCCGACGCCGAGGGACATACCGCGCCGCCGTCCACGCACCAGACCACTACCCAGGTGGACTGCGGGGACTACTTCGAGACCCGGGACGATGCCCTCCGGGCTCACCGCACCCAGGTCGACCCGCTGGGCTTCTTCTTCGCGGTGTCTCCCGACATGCAGCGCAGGGCGTGGCCCTGGGAGGACTACACCCTCATCCATTCGCGGGTAGCCACCGATCTCCCTGAGAAAGACCTGTTCGCGGGACTAAGATAG	MAASTSPSPSLRLMAVHAHPDDESSKGAATMAMYAASGVDVMVATCTDGSRGDIQNPAMLGEPHPKRDMAGARRLEMHAAARILGVKQRWLGFVDSGLPEGDPLPPLPPGSFALQPLHRAAAPLVRLVRDFKPHVMISYDEKGGYPHPDHIMAHRVAVEAFEAAGDPEKYLGTGAAWAPSKLYYDRAFSPERFRALHFALEEAGLQSPYAERLAAWLEADAEGHTAPPSTHQTTTQVDCGDYFETRDDALRAHRTQVDPLGFFFAVSPDMQRRAWPWEDYTLIHSRVATDLPEKDLFAGLR				NA	NA	NA	NA	NA
D1-17_02806	468			hypothetical protein	GTGACTACCGAGGACACGTCGGGCACTCCCCGGCCTGCAGACATTAGCCTAGCCAATCGCTATGGCGGTCCAAAGCGCCAGGTGTCCCGTAAAGCCAAACGGAACGCAGCCATCGCGGCCCTGGCTGTCGGGATGGGTTTCCTGGCGTGGGTTTCCACGTCCAATGCCATGTCTTCAGTCACATTTAAGGACGTCGGGTACATCACGGTGGATGCCACCCAAGCCGCTATCGATTTCCAGGTCACGCGTGAACCCGGAACCGAGGTGCAGTGCGCCGTGAAGGCACTCGATTCGAAGTTCGCGATCGTGGGGTGGAAGGTCGTGGACATCCCGGCTGCCCCCGATTCCGGAGAAGCATCGGTCACCGACGGGGGCCGCACGGTGGCCCTGCGTGAAGTGCTGCGCACCGAATCGCAGTCCGTCTCGGCCGTCGTGGACAGCTGCTGGATCCCCGAGAACGCCAAGTAG	MTTEDTSGTPRPADISLANRYGGPKRQVSRKAKRNAAIAALAVGMGFLAWVSTSNAMSSVTFKDVGYITVDATQAAIDFQVTREPGTEVQCAVKALDSKFAIVGWKVVDIPAAPDSGEASVTDGGRTVALREVLRTESQSVSAVVDSCWIPENAK				NA	NA	NA	NA	NA
D1-17_02807	99			hypothetical protein	ATGAACCAATACCTTTACCCCGCTGAGTTGGTTACTGAGTTCCACAAGTGGCCACCGTGGCGGGGTCTTTGCTTGTATGACCTGCTTGCTAACCACTAG	MNQYLYPAELVTEFHKWPPWRGLCLYDLLANH				NA	NA	NA	NA	NA
D1-17_02808	495	greA	COG0782	Transcription elongation factor GreA	GTGTCTACCACCAACAGCGCGCCTGCAGCTTGGCTTACCCAGGAAGCTTTTGACCGCCTGAAGGCAGAGCTGGACCACCTTTCCAGCGCCGGCCGGTCCGAGATCGTCCAGAAGATCGAAGCCGCGCGCCAAGAAGGTGACCTCAAGGAAAACGGCGGCTACCACGCGGCGAAAGAAGAGCAGGGCAAGATCGAGGCCCGCATCCGTCAGCTCACCCAGCTCCTTCGCGACGCCCACGTTGGCGAGGCCCCGGCAGACGACGGAATCGTCGAGCCCGGCATGATCGTCGTGGCCCGGATCGCCGGAGACGAAGAGACCTTCCTGCTCGGCTCGCGCGAGATCGCCGGAGATTCCGACATCGACGTGTTCAGCGAAAAGTCACCGCTCGGCGCGGCCATCATGGGCCACAAAGAAGGCGACACCCTGAGCTACACCGCTCCCAACGGCAAGGCGATCACGGTGGAGATCATTTCCGCCAAGCCGTACGTGGGCTAG	MSTTNSAPAAWLTQEAFDRLKAELDHLSSAGRSEIVQKIEAARQEGDLKENGGYHAAKEEQGKIEARIRQLTQLLRDAHVGEAPADDGIVEPGMIVVARIAGDEETFLLGSREIAGDSDIDVFSEKSPLGAAIMGHKEGDTLSYTAPNGKAITVEIISAKPYVG	PGPT0030495_685	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
D1-17_02809	621			hypothetical protein	ATGCTGGAGCCACCACGGGACCCTTTCGCCGGGGACACGCCGGCGGCAAGGGACACCCCTGCTGCACGGGCCAAGGGCGGACTGCTGGTGGTCGGTTCCTTCGTGCTGCTGCTCTTCGCCATCGAGCTTCTCAACACCGCGTTGCTGCACGGGCTGAACCGGGTCTTCGGCCTTAGGCCCCGCAGCCCGGACGGGCTGCTCGACATTTTCACCTTTCCGCTGCTGCACTCCAACCTCAACCACGTCCTGTCCAATGCGCTGCCCCTGATTATTTTCGGCTTCCTGGTCTTCATGTCCGGGCTGCGGGTCTTCCTCACGGCTATTGTCTGCAGCTGGCTCGGCTCCGGCCTGGCGGTATGGCTGATCGGGGGCCGCGGCGTCACGGTGGGATCATCCGGGCTGGTTTTCGGGCTGTTTGCCTTCCTGCTGGTGAGGGGTTTCTTCAACCGCAGCTGGTGGCAGATTCTGCTCTCGCTCGTGCTGTTCACGGCGTACGGCAGCATCCTGTTCGGGTTGATTCCCAGCGTGGCGGGCTTCGTTTCCTGGCAGGCACATCTTGGCGGAGCGGTGGGCGGCGTCTTCGCCGCGGTACTGCTGCGGGCCCGCAGCAGCGCGACTTAA	MLEPPRDPFAGDTPAARDTPAARAKGGLLVVGSFVLLLFAIELLNTALLHGLNRVFGLRPRSPDGLLDIFTFPLLHSNLNHVLSNALPLIIFGFLVFMSGLRVFLTAIVCSWLGSGLAVWLIGGRGVTVGSSGLVFGLFAFLLVRGFFNRSWWQILLSLVLFTAYGSILFGLIPSVAGFVSWQAHLGGAVGGVFAAVLLRARSSAT				NA	NA	NA	NA	NA
D1-17_02810	1239	tdcB	COG1171	L-threonine ammonia-lyase	GTGAATACCCCTGAAAGCCTTCCCGTCACGCTGGACGATGTCCTTGAGGCGCAGAAGCTGCTTGACGGGATTATTACCCGCACACCCGTGGAATCCTCCCGCGCCCTCGGCAGCATGGTCGGCGGCCAGGTCTTCTTCAAGTGCGAGAACCTCCAGCGCGCCGGCTCCTTCAAGGTGCGCGGCGCCTACGTCAGGATGGCCCGGCTGTCCGACGCGGACAAGAAGCGCGGCGTTGTTGCCGCTTCCGCAGGAAACCACGCCCAAGGCGTGGCCGTTGCCGCCAAGAGCCTCGGCATCAAGGCGAGGATCTACATGCCGCTAGGCGTGGCGCTGCCCAAGCTCGCTGCGACCCGCAGCCACGGCGCCGAGGTCATCCTGCACGGCCACAACGTGGACGAGGCCCTCGCCGAGGCGCAGCGCTACGCCGACGACACCGGGGCCGTGTTCGTCCACCCCTTTGACAACGTGGACGTCGTGGCTGGCCAAGGCACCCTCGGGCTGGAAATCCTCGAACAGGTGCCCGACGTCGACACCATTCTCATGGGCGTCGGCGGCGGCGGACTTCTGGCCGGTGTTGCGGTCGCCGTGAAGGCGCGGGCCAAAGAGCTTGGCCGGGACATCCGCATCATCGGCGTCCAGGCCGAGAACGCCGCCGCTTATCCGCCGTCGCTGGCGGCAGACGCCCTGGTGCCGCTCAAGAAGGTGTCCACCATGGCCGACGGCATCGCCGTCGGCCGGCCGGGCCAGCTTCCGTTCAGCATCATCCGGGAACTGGTGGATGACGTGGTCACTGTCAGCGAGGACTCCCTGGCGCGCGCCCTGATCTTCCTGCTGGAACGCGCCAAAATGGTGGTGGAGCCCGCTGGTGCCGTTGGTGTGGCAGCTCTCATGGATGGCACGATCGAGAACCCGGGCACCACCGCCGTGGTGCTCTCCGGCGGGAACATCGACCCGATGCTGATGCTCAAGGTGATCCAGCGCGGCCTCTCAGCGGCGGGCCGTTACATGACCGTGCGGATGATGCTCGATGACCGGCCCGGTTCACTCGCCACCATTGCGCGGATCATTGCGGAGAACGACGCCAACGTGACCGGCCTGGACCATACGCGGGTAGGAGGCTCCATCAGCATGGGAGACGTTTCCATCACGGTGAACCTCGAAACCAAGGGCCACGAGCACGGAGAACAAGTGCTGGCAGCCTTGCGGGCCGAGGGCTTTCAACCGATCGTGGTGCATTAG	MNTPESLPVTLDDVLEAQKLLDGIITRTPVESSRALGSMVGGQVFFKCENLQRAGSFKVRGAYVRMARLSDADKKRGVVAASAGNHAQGVAVAAKSLGIKARIYMPLGVALPKLAATRSHGAEVILHGHNVDEALAEAQRYADDTGAVFVHPFDNVDVVAGQGTLGLEILEQVPDVDTILMGVGGGGLLAGVAVAVKARAKELGRDIRIIGVQAENAAAYPPSLAADALVPLKKVSTMADGIAVGRPGQLPFSIIRELVDDVVTVSEDSLARALIFLLERAKMVVEPAGAVGVAALMDGTIENPGTTAVVLSGGNIDPMLMLKVIQRGLSAAGRYMTVRMMLDDRPGSLATIARIIAENDANVTGLDHTRVGGSISMGDVSITVNLETKGHEHGEQVLAALRAEGFQPIVVH	PGPT0001960_3654	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0001960-ilvA|tdcB-K01754	NA	NA
D1-17_02811	1317			hypothetical protein	ATGACGCCAGCTAAGGACCCCTTGCCGGACGAGCCGGCCAGGCCAGCCATCCTTCCCCCTTCACGGCCCAGGACCGAGCGGGACATTGAGCAGGACATTCCCTACGGAGTGCGCATCGCTGCGGCCTGGGCGTGGCGGGTGGGGCTGATCCTGCTGATCATGGGCGTGTTGGTCTGGCTGCTCGGCAGGATCAGCTTCCTCATCATTCCGGTCATGGTGGCGGCGCTGCTGGCCGGCCTGCTCAGCCCGGTGGTCGGCTGGCTGCGCTCGCAGCGTCTGCCCAACGGGCTGGCCGTCGCCGTGACCGTGCTGGCATTCATCGGGGTCATAGCCGGAGCCCTGGCTCTGGTAGGGCGCCAACTGGCGCTGGGCTTCCGGGAGCTGTGGAATGAGGCCCTGGCGGGAATCCAGCAGATCCAGGACTGGCTGGCCGAGGGGCCGCTGCACCTGACGACGGCGCAGATCGACCAGTACATCCAGGAGGCCACAGCGGCGCTGCAAGACAACAGCCGCAGCATCCTCAGCGGAGCGCTTTCCTTCGGCAGCACCGCAGGCCACTTTGCTGCAGGCATGATCCTTGCCCTGTTCATCCTGATCTTCTTCCTCCTGGAAGGCGGACGGATCTGGGCCTTCCTGGTCCGGCTGCTGCCGCGGCGGGCCCGCATCCCCGCCGACGGAGCAGGGCGGCGCGGATGGGCTTCCATGGTCAGCTATGCACGGATCCAGATGTTCGTGGCCTTCGTTGACGCAGTGGGCATCGGAGTGGGTGCGGCCATCATTGGAGTTCCGCTGGCGCTGCCGCTCAGCGTGCTGGTTTTCATCGGATCCTTCATTCCCATCGTGGGTGCCCTGGTGACGGGAGCCATCGCCGTGCTGCTCGCACTCGTCGCCAACGGTCCGGTCAACGCGCTGGTGATGCTGGGCATCGTGCTCCTGGTACAGCAGCTGGAAAGCCACATCCTGCAGCCGCTCGTCATGGGCAAGGCCGTGGCGCTGCACCCTGTGGCTGTGATCCTCGCCGTCGCGGCCGGCTCCTACCTCGCCGGCATCCCCGGAGCCCTCTTCTCAGTCCCCATCCTGGCCGTAGCAAATTCGGCGATTCGGTATATTGCCGGCAGAACGTGGGAACATGATCAGGTACTGGCTGCCGCACGCGGTGCGTTTGCGGCGGCCCCGGCCGGCAGCGGCCAGGACAACACCATCAAGGAAGCCCGTCTGCCGGGCACCGGCCACGGCAAGGACGCCGGTCATGGAACGGGGGCTCCGGGCGGCAAGGCCGCCCCCGGCCCCGAAGCTGAATTTCCCAAAGGAGAATAA	MTPAKDPLPDEPARPAILPPSRPRTERDIEQDIPYGVRIAAAWAWRVGLILLIMGVLVWLLGRISFLIIPVMVAALLAGLLSPVVGWLRSQRLPNGLAVAVTVLAFIGVIAGALALVGRQLALGFRELWNEALAGIQQIQDWLAEGPLHLTTAQIDQYIQEATAALQDNSRSILSGALSFGSTAGHFAAGMILALFILIFFLLEGGRIWAFLVRLLPRRARIPADGAGRRGWASMVSYARIQMFVAFVDAVGIGVGAAIIGVPLALPLSVLVFIGSFIPIVGALVTGAIAVLLALVANGPVNALVMLGIVLLVQQLESHILQPLVMGKAVALHPVAVILAVAAGSYLAGIPGALFSVPILAVANSAIRYIAGRTWEHDQVLAAARGAFAAAPAGSGQDNTIKEARLPGTGHGKDAGHGTGAPGGKAAPGPEAEFPKGE				NA	NA	NA	NA	NA
D1-17_02812	963	yihR_1	COG2017	putative protein YihR	ATGACTTCCGGCGCCGAAACAGAATCCAGCGATGACCAGCCCGAGCGCAGGCGCTATGCCTCCGGCCGGCAGTACGAACTCAGGCGGGGCGGTGCGCTCGCCGTCGTTACCGAACTCGCTGCGGGGCTGCGGTGGTACAGCCGCGCAGGTGTCCAGCTGACGGAGACCTATGCGGACGCGGAAATCCCTCCTGGCGGAGCCGGCATCACCCTGGCGCCCTGGGCGAACCGGGTGGAGGACGGCGCCTGGCAGCTCCATGGCAAAAAGCAGCAGCTGGACATCACAGAGGTGCCCAAGAACAACGCAAGCCACGGCCTCCTGCGCAACAGCTCCTACGCGCTCGTGGCGGAGTCGGAGTTTTCCGTGACCCTGGAGGCCCCCGTATTCCCCCAGCACGGCTACCCGTTCCTCGTGCGGCACCGCGTGGAGTACTCCCTTGCCGAGGACCTGGGGCTGGTGGTGCGCCAGACGCTGATCAACGACTCCCAGGCCGACGCGCCTTTCGTGCTCGGCGCGCACCCGTACCTGCGGCTCGGTGACGTTCCCAGCGAGGAGCTCACCCTCACCGTCAGGGCGGCAACACGCCTGGTGGCGGATGAACGGCTAATCCCGCGGAGCTCCGAACCGGTCAGCGGCGATACTGACCTGCGCCAGGGCAGGAAGGTGGAGGACCTGGACATCGACGTCTCCATGACGGACCTGGAGTTCGACGGCGGCATCGCCCGCCATACGCTGGCTGCCGCCGACGGCCGGAGCGTCAGCCTCTGGCAGGATGCGGGCTGCGCCTTCGCCCACGTCTTTGTCTCCACCAAGTACCCCCGCCGGACTAAGGCCGTGGCCATTGAACCCATGACCGGCCCGGCCAACGCCTTCAACTCCGGCCATGGCCTGCGCTGGCTTGCGCCGAATGACGCTTTCACCATGACGTGGGGGATCAGCGCGTCCCTGGACAGCGGCTCCTGA	MTSGAETESSDDQPERRRYASGRQYELRRGGALAVVTELAAGLRWYSRAGVQLTETYADAEIPPGGAGITLAPWANRVEDGAWQLHGKKQQLDITEVPKNNASHGLLRNSSYALVAESEFSVTLEAPVFPQHGYPFLVRHRVEYSLAEDLGLVVRQTLINDSQADAPFVLGAHPYLRLGDVPSEELTLTVRAATRLVADERLIPRSSEPVSGDTDLRQGRKVEDLDIDVSMTDLEFDGGIARHTLAAADGRSVSLWQDAGCAFAHVFVSTKYPRRTKAVAIEPMTGPANAFNSGHGLRWLAPNDAFTMTWGISASLDSGS	PGPT0017825_4451	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
D1-17_02813	1179	galT	COG1085	Galactose-1-phosphate uridylyltransferase	ATGACCTCCATCACCAGCACCTGCCTCGCCGACGGCCGGGAACTGCTGTATTTCGACGACGCCGGGTCGCGCCGGGAGCGCTCCGTGGAAGAAGCCCCGGATCTCCGCGATCTACCGGTTCGGGGCGAACCCGGCGAGGTACGGTTTGACGCGCTGACGGGAGAATGGGTGGCGGTCGCCGCACACCGCCAGACCCGGACGCACCTGCCCCCGGCCGACCAGTGCCCCATCTGTCCCACGACCGCCCTTAACCCCTCCGAAATCCCCGCCCCGGACTACGACGTTGTGGTGTTCGAGAACCGTTTTCCCTCCCTCGGCCCGGCGGTGGGCCCGGTTCCGGACAACGTGGGCTGGGGAACCGTGGGGCCCGCCTTCGGCAGGTGCGAGGTGGTGACGTTTACGCCCGAGCACACCGGATCATTCAGCGGATTGACCGAAACGCGGGCCAGGACAGTGGTGGAGGCCTGGGCGCACCGCACGGCGGCCTTGAGCGCGCTTCCGGGCATCAAGCAGGTTTTCCCCTTCGAGAACAGGGGCGCCGATATCGGCGTCACACTGCACCACCCCCACGGACAGATCTACGCCTATCCGTATGTCACGCCCCGGGCTGCCGTGATGGGCGCCGCGGCGCGAAAGTTCTATGACGACGCCGACGGCCGGCAGACGCTGACCGGTTCGCTGCTGAAGGCCGAACGGGAGGATGGCAGCAGGATGGTGCTCGAAAGCGACAGCTTCAGCGCCTACGTTCCGTTCGCCGCTCGGTGGCCCCTCGAGATCCACCTCGTGCCACACCGTCAGGTTCCCGACCTCGCGGCCCTTACCGGCACCGAGAAGGACGAACTGGCCTACGTCTACCTGAACTTGCTCAAGCGCCTTGACGCCCTCTATCCCACGCCGACCCCCTACATCTCGGCATGGCACCAGGCCCCCGTTGACCAGCTGCTGCGCCCGGCCGGTTACCTGCACCTGCAGCTGACATCACCGCGCCGCGCTGCGGACAAGCTGAAATTCCTGGCAGGATCGGAGGCAGCCATGGGAGCCTTCATTAACGACACGACTCCGGAGCTTGTGGCGGAGCGGCTCCGCGCCGTCGCAGCCGCGGACACCCCCGTCCCCGCCCCCGCCCCATCTGCCCTCACCCCATCTCCATCAGGGCTGACCGAAGGAGCCTCCGCATGA	MTSITSTCLADGRELLYFDDAGSRRERSVEEAPDLRDLPVRGEPGEVRFDALTGEWVAVAAHRQTRTHLPPADQCPICPTTALNPSEIPAPDYDVVVFENRFPSLGPAVGPVPDNVGWGTVGPAFGRCEVVTFTPEHTGSFSGLTETRARTVVEAWAHRTAALSALPGIKQVFPFENRGADIGVTLHHPHGQIYAYPYVTPRAAVMGAAARKFYDDADGRQTLTGSLLKAEREDGSRMVLESDSFSAYVPFAARWPLEIHLVPHRQVPDLAALTGTEKDELAYVYLNLLKRLDALYPTPTPYISAWHQAPVDQLLRPAGYLHLQLTSPRRAADKLKFLAGSEAAMGAFINDTTPELVAERLRAVAAADTPVPAPAPSALTPSPSGLTEGASA	PGPT0017835_847	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965	NA	NA
D1-17_02814	1161	galK	COG0153	Galactokinase	ATGACGGCTGCCAGCAGCCCCCTGAATCTCGCCGGACAATTCAGCAGCGCCTTCGGCCAGGACCCCGACGGTATCTGGCAGGCTCCGGGACGGGTCAACCTGATCGGGGAACATACCGACTACAACGAAGGCTTCGTACTGCCGTTCGCCATCGACAGGACGGCGCGTGTGGCCGTCAGGGTCCGGTCCGACGGCAAGGTCCGCCTGCTGTCCACCTATGGCGACCAGGGCATGACCACGGCGCACACGGAGATGCTGGAGCCGCAGTCCGCCAAGGGCTGGACGAAGTACCCCCTTGGCGTCGTGTGGTCACTGCAGCACCGCGGAATCGGCATCCCCGGCCTCGATCTCCTGCTGGACTCAGACGTCCCCCTCGGGGCCGGGCTCTCCTCCTCCCATGCCATCGAATGCGCGGTGATTACGGCCCTGAACGAGATCACGGGTGCCGGGCTCAGCCCCGAAGACATGGTGCTTGCCACGCAGCGCGCCGAGAACGACTTCGTCGGTGCGCCCACGGGGATTATGGACCAGTCCGCGTCCCTGCGCGGCGCGGCCGGGCACGCCGTGTTCCTGGACTGCCGCGACCAGGGGGTCCGGTTGGTGCCGTTTGCCGCCGCGCAAGCAGGCCTGGCCATGCTCGTGATCGACACCAAGGTCGCCCACTCACATGCCGACGGTGGCTACGCCTCCCGCCGCGAGGCCTGCGAACTTGGCGCTGAGGTGCTGGGCGTCAAGGCGCTGCGGGATGTTGCATTCGAGGATCTTGACGAGGCAAGCGGGCTCTTGGACGACGTCACGTTCCGCCGGATCCGCCACGTGGTCACGGAAAACGACCGGGTGCTGCAGACTGTCGAACTGCTGGAGGAGCAGGGTCCTTCCTCGATCGGAGCGCTACTGGACGCGAGTCACGTTTCCATGCGTGACGACTTCGAAATCTCCTGCCCGGAACTGGACCTCGCAGTCGGGACGGCCCGGACGAACGGCGCCATAGGCGCCAGAATGACCGGCGGCGGGTTTGGCGGCGCGGCGATCGCGCTGACACCGGTGACTGAAGAGCAGCGGGTGCGCAGCGCCGTCGTACAGGCCTTTGCCCAGGCGGGCTACACCGCCCCGGACATCTTCACCGTCACGCCCTCGGCCGGGGCGATGCGGGTGGCGTAG	MTAASSPLNLAGQFSSAFGQDPDGIWQAPGRVNLIGEHTDYNEGFVLPFAIDRTARVAVRVRSDGKVRLLSTYGDQGMTTAHTEMLEPQSAKGWTKYPLGVVWSLQHRGIGIPGLDLLLDSDVPLGAGLSSSHAIECAVITALNEITGAGLSPEDMVLATQRAENDFVGAPTGIMDQSASLRGAAGHAVFLDCRDQGVRLVPFAAAQAGLAMLVIDTKVAHSHADGGYASRREACELGAEVLGVKALRDVAFEDLDEASGLLDDVTFRRIRHVVTENDRVLQTVELLEEQGPSSIGALLDASHVSMRDDFEISCPELDLAVGTARTNGAIGARMTGGGFGGAAIALTPVTEEQRVRSAVVQAFAQAGYTAPDIFTVTPSAGAMRVA	PGPT0017840_1995	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017840-galM-K00849	NA	NA
D1-17_02815	1239	fadA_1	COG0183	3-ketoacyl-CoA thiolase	ATGCCGGAAGCAGTCATCGTTTCAACCGCCAGAAGCCCGATCGGCCGAGCTTTCAAGGGTTCGTTGAAAGACGAACGCCCTGATGACCTGGCCGCCGCCATGGTCAGTGCCGCCCTCGCCAAACTGCCGTCCTTCGACCCCTCCGGCCAAGGCGGACCCGGCCTGGATGACGTCTATCTCGGCTGCGCCGAACCCAGCGGAGAAGCCGGCTCGAACATGGCGCGCGTGGTCACCATCCTGACCGGTCTGGACAATGTGCCCGCTGCCACGATTAACCGGTTTTGCGCCTCAAGCCTGCAGACCATCCGGATGGCCTATCACGCGATCAAGGCAGGCGAGGGGCACGCGTTCGTTGCCGGCGGAGTCGAGGCGGTCTCGCGCTATCAGAACTGGGCCGGGGCCGGAGAAACGGATTCCGGCAACCACAACCCGGTGTTCGAATCGGCGGGCCAGCGCACTGCGGCGCGGGCGGAGTCAAACACGCCCTGGACGGACCCTCGGTTGGGCGGCAGGATGCCGGACATCTATATCGCCATGGGCCAGACGGCGGAGAACGTCGCCACGTCCTACGGCATCAGCCGCTCCGATCAGGATGAATGGGCCGTGCTCAGCCAGAACCGGGCCGAGGCCGCTATCGCTTCCGGGTTCTATGCCCGGGAGATCACGCCGTACCAACGCCGTGACGGGACCGTCGTGGACCGGGATGACTCGCCGCGCCCAGGCGTCACCCTCGAAGCGGTCAGCGCACTGCAGCCAGTCTTCCGCAGGGAAGGAACCGTCACGGCCGGGAACGCCTGCCCCCTCAACGACGGCGCCGCGGCCACGGTCATTATGAGCGATTCCCGGGCGCGTGAGTTGGGCCTGGAACCTCTGGCGAGGATCGTCTCCACGGGGGCCAGCGCACTGTCGCCGGAACTGATGGGCCTGGGGCCGGTTGAGTCCACCCGAAGGGCGCTGGCCACAGCCGGGCTAGGGATCGGCGACATCGACCTCGTGGAACTGAATGAGGCCTTCGCCGTCCAGGTGCTGGCCAGCGCGCGGGAGCTTGGCATCGACCCTGCGAAGCTCAACGTGCACGGCGGCGCCATTGCCCTGGGCCATCCGTTCGGCATGACCGGCGCCCGCCTCACCACCACGCTGATCAATGGGCTCCGCGAGACGGACGGAACGATGGGCCTGGCCACGCTCTGCGTCGGCGGCGGACAGGGCATGGCCGTGGTTATCGAACGCCTTAGTTAG	MPEAVIVSTARSPIGRAFKGSLKDERPDDLAAAMVSAALAKLPSFDPSGQGGPGLDDVYLGCAEPSGEAGSNMARVVTILTGLDNVPAATINRFCASSLQTIRMAYHAIKAGEGHAFVAGGVEAVSRYQNWAGAGETDSGNHNPVFESAGQRTAARAESNTPWTDPRLGGRMPDIYIAMGQTAENVATSYGISRSDQDEWAVLSQNRAEAAIASGFYAREITPYQRRDGTVVDRDDSPRPGVTLEAVSALQPVFRREGTVTAGNACPLNDGAAATVIMSDSRARELGLEPLARIVSTGASALSPELMGLGPVESTRRALATAGLGIGDIDLVELNEAFAVQVLASARELGIDPAKLNVHGGAIALGHPFGMTGARLTTTLINGLRETDGTMGLATLCVGGGQGMAVVIERLS	PGPT0008320_2221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-17_02816	930			hypothetical protein	ATGGCACTTGGCGGAAACCCGATCTTCAACGGAAAGAACTTCCGTGAAGCCACCCAGGCACCGCCTGTTCCGCAGGCGTACGGGCAGAACCCGTATGGCCAGTACGGCCAGAGCCCTTACGGTCAGGGCGGCTATGGCCAGACGCCCGTCATGAACGCACCCGGAGGCTGGCCGCAGCAGCCGAACATGACGGACGACCAGCTGCAGCAGATGTACAACCGGCCGGCGGCAGGACCCGCTGAGACCGGCCGGATGACCTACGACGACGTCATCGTCAAGACCGCGGTCTGCCTTGCTGCGGTGATGGCCGGCGCCGCAGTCACACTGTTCGTCAGCCTGCCGCTGGCAACCATGCTGATGATTGTCGGCGCGCTGGGCGGGTTCGTGCTGGCGCTTGTCAATACATTCAAGAAGCAGCCGTCACCGGCACTCATCCTGGCCTATGCCGGGCTTGAGGGCCTGTTCCTCGGCGGACTCACGCGCATCCTGGACGGCATGTTTCCCGGCGTCGGATTGCAGGCTGTGATCGGCACGCTCTCCGTCTTTGCGGTGACGCTCGTGCTCTTCAAGAGCGGCAAGGTGCGTGCCACTCCCAAGGTGATGCGCTTCTTCATGATCGCCATGATCGGCTACCTCGTCTTTGCCCTGGTCAACGTTGTCATGATGATGACTGGTGCCGTGCAGGAGCCGTTCGGCCTGCGCACCAGCATAGAGATCTTCGGTATCCCGCTGGGCGTCTTCATCGGCATCCTCGCCATCGGCCTGGCAGCCTTCGCGCTGATCATGGACTTCACCAGCATCGAGGCAGGCGTCCGCAGCGGCGCCCCAGAGCGCTTTTCCTGGACCGCGGCGTTCGGCCTCACCGTCACGCTGGTCTGGCTGTACGTGGAGATCATCCGCCTGCTGGCCATCCTCCGGGGCGAAGAGTAA	MALGGNPIFNGKNFREATQAPPVPQAYGQNPYGQYGQSPYGQGGYGQTPVMNAPGGWPQQPNMTDDQLQQMYNRPAAGPAETGRMTYDDVIVKTAVCLAAVMAGAAVTLFVSLPLATMLMIVGALGGFVLALVNTFKKQPSPALILAYAGLEGLFLGGLTRILDGMFPGVGLQAVIGTLSVFAVTLVLFKSGKVRATPKVMRFFMIAMIGYLVFALVNVVMMMTGAVQEPFGLRTSIEIFGIPLGVFIGILAIGLAAFALIMDFTSIEAGVRSGAPERFSWTAAFGLTVTLVWLYVEIIRLLAILRGEE				NA	NA	NA	NA	NA
D1-17_02817	1443			hypothetical protein	GTGACACACATCACAAGCAACCTGTTTGCCCGCGTGTCATCTTCACCGTTCGCAGCGGTTGCAATGACGCACGCCGCACCACCCCCTGTGGAGGTTTTCAATTTGAGACGCACACCCAAAGGCCTGCTGCGCAAGCGGCCAGCCGGACTGCTGAAGGCGATGGGGGCTGTCGCCTCGCTTGTCCTGGCGCTCCTGCTGGCAGCCGCGCCGGCATCCCAGGCCGCCACCCCCTCTCCGACACCACCCCCGTCGGACCAGCAGTTCCGGAACAGCATCAGCGGCTTCCTCCGTGACGATGCACGCAACCCTCTCGAGGGTGTGAAGATCACCGCCAAGAACGCTGAATTCACCGGAACCGCCACTTCGGGTGCCAACGGGTCCTGGCGCATAGCCGTACCTACACAGGGCAGTTATGAAGTTGAACTGGACGAGTCCACGCTGCCGGAGGGCATCAAACTCGCCGAGGGGCAGGCCAATCCGCGTACAGTCACGTTCAGCCAAACGTCGAACCTGTCCGTGATCTTTGCCTTCGGAGAGGGCATCGTCGTGCAGCAGCAGGACTTCGGCCAAAACCTGCTCAACCGGCTCGTAGCCGGGCTGAGCTTCGGCCTCCTGCTCGCCCTGGCTTCTGTCGGGCTCTCCCTCATCTTCGGAACCACAGGCCTCACCAACTTCGCACACGGGGAAATGGTCACCCTCGGCGCAGTCCTCGTCTTTGCCTTCAGCGCAATGAACCTGCCGTTCTGGCTCGCCATTATCCTCTCCCTCCTGTGCGGCGGGCTATGGGGGTATGCACAGGACGCCGGACTGTGGCGACCCCTGCGCCGCCGGGGAACTGGCCTGGTACCCATGATGATCGTCAGTATCGGCCTCGCCCTGGCGGTCCGCTACATCATCCAGTTCAACTTCGGCGGTGCCACCCAGCAACTCCCCTTTGCCCAAAGTGCGGAGATCCAGATCGGCCCGGTGTCGATCTCCCCCAACAATCTGTGGTCGCTGGTGATCAGCGCCATCGTCATCGCCCTGATCGGCATCGTGCTCCTGAAGACGCGGCTGGGCAAGGCCACCCGTGCCGTGGCGGACAACCCGGCGCTGGCCGCAGCATCGGGGATCGACGTCGACGGCGTCATCCGCCTTGTCTGGATCGTCGGCGGTGTGCTCGCTTCCCTGGGCGGCATCCTGTGGGCCTACTACCGTCCCGGCGTCACCTTCGACATGGGCTCCCAGATCCTGCTGCTGATCTTTGCCGGGGTGACGCTCGGCGGGCTCGGCACCGTCTTCGGCGCCCTGATCGGATCAGTCATCGTTGGCATCTTCGTTGAACTGACCACCGTCTTCGGCCTCGCCGCCGACCTTAAGTATGTGGGAGCACTGTTCATCATGATCGTTGTCCTCTTGTTCCGTCCCCAGGGCATCCTGGGCCGTCGCGAGCGCGTGGGTTAG	MTHITSNLFARVSSSPFAAVAMTHAAPPPVEVFNLRRTPKGLLRKRPAGLLKAMGAVASLVLALLLAAAPASQAATPSPTPPPSDQQFRNSISGFLRDDARNPLEGVKITAKNAEFTGTATSGANGSWRIAVPTQGSYEVELDESTLPEGIKLAEGQANPRTVTFSQTSNLSVIFAFGEGIVVQQQDFGQNLLNRLVAGLSFGLLLALASVGLSLIFGTTGLTNFAHGEMVTLGAVLVFAFSAMNLPFWLAIILSLLCGGLWGYAQDAGLWRPLRRRGTGLVPMMIVSIGLALAVRYIIQFNFGGATQQLPFAQSAEIQIGPVSISPNNLWSLVISAIVIALIGIVLLKTRLGKATRAVADNPALAAASGIDVDGVIRLVWIVGGVLASLGGILWAYYRPGVTFDMGSQILLLIFAGVTLGGLGTVFGALIGSVIVGIFVELTTVFGLAADLKYVGALFIMIVVLLFRPQGILGRRERVG	PGPT0020770_452	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020770-livH-K01997	NA	NA
D1-17_02818	969			hypothetical protein	ATGGATTTCGGTTTCATATTCTCCAGCGCGCTGGGTGAACTATTCAGCCCGACGACGGCAGCGTACGCGCTTGCCGCGCTCGGACTTGCCGTCCACTTCGGCTACTCGGGCCTGCTGAACTTCGGGCAGGCCGGCTTCATGGCAGTGGGTGCATACGGCTTCGCGATCTCCACCCTGAGCTTCGGCGTTCCCTTCTTCGTGGGCCTGCTGATCGCCGTGGCCTGCTCCGTGCTCTTTGCACTGGTCCTGGGCATCCCCACGCTCCGGCTGCGTGCCGACTACCTGGCCATCGTTACCATCGCCGCTGCGGAAATCGTCCGGTACGTGGTCACGACGAACCAGCTCACCTCGATCACCGGCTCCGCGAATGGACTGGCCGCCTTCGAGGGCGGCTTCTACGCCATGAACCCCTTCCCCGAAGGCTCGTACTTTGGCATGAACAACCGCGACTTCTTTATCAGAGTCATCGGCTGGGGCCTGGTGACCCTCTGCTGCGTCATCATCTGGCTCCTCATGCGCAGCCCGTGGGGCCGCGTTTTGAAGGGCATCCGTGAGGACGAGAACGCGGTGCGCTCCCTCGGCAAGAACGTGTACGCCTACAAGATGCAGGCACTGGTCATCGGCGGCGTCCTGGGTGCACTGGCCGGGATGGTGTTCACCCTTCCGCGAGGGGCAGTCCAGCCCGCCAACTACGGAACCGAGCTGACGTTCTTCCTGTGGACCTGCCTGCTGCTGGGCGGCATGGCCACGGTTCTGGGGCCGGTGGCAGGCGCCATGATCTTCTGGGTCGTGCTGTCCCTGACGCAGGGCATCCTGTACGGCCTCATCGAATCGGGTGCAGTGACCTGGCTGACCACAGTCCAGGCCGGTCAGCTGCGCTACATCCTCGTGGGCATCGCCCTGATGCTGCTGATGATCTTCAGGCCGCAGGGTGTCTTTGGCAATAAGAAGGAGCTGGCGTTCGCATGA	MDFGFIFSSALGELFSPTTAAYALAALGLAVHFGYSGLLNFGQAGFMAVGAYGFAISTLSFGVPFFVGLLIAVACSVLFALVLGIPTLRLRADYLAIVTIAAAEIVRYVVTTNQLTSITGSANGLAAFEGGFYAMNPFPEGSYFGMNNRDFFIRVIGWGLVTLCCVIIWLLMRSPWGRVLKGIREDENAVRSLGKNVYAYKMQALVIGGVLGALAGMVFTLPRGAVQPANYGTELTFFLWTCLLLGGMATVLGPVAGAMIFWVVLSLTQGILYGLIESGAVTWLTTVQAGQLRYILVGIALMLLMIFRPQGVFGNKKELAFA	PGPT0020775_8203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020775-livM-K01998	NA	NA
D1-17_02819	1032	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGAGCAAGCACAGCGAAAATTCAGCGGAGGGCGGCGTCGACTACATGACGGACACCCGCCCCATCGCCGTCGGGGAGAACATGCCCGGCTGCAAGAAGCGGGACCCGATCGTCGTCGCCGAAAACGTGACGCGTAGCTTCGGCGGCATCAACGCCGTCGACGTTGATTACCTCGAGATCCCGCGGCACAAGATCACTGCCCTGATCGGTCCCAACGGGGCCGGAAAGACCACCCTCTTCAACCTGCTGACCGGATTCGACACCCCGAACTCAGGCAAGTGGCAGTTCGAGGGGCAAAACATCGCCGGCGTCTCCTCCTACAAGGTGGCACGCATGGGAATGGTCCGAACCTTCCAGCTCACCAAGGTCATGGGCAAGCTGACCGTGATGGAAAACATGCGCCTCGGCGGTGCCAACCAACCGGGCGAAAGGCTGTCCAAGGCACTCTTCAAGGGCATCTGGGGCGGCCGGGAGAAGGAACTCACCGAGCAGGCGGACAGGCTGCTGGAGAAGTTCAAGCTGGACGCAAAGAAGGACGACTACGCGGCTTCCCTGTCCGGAGGCCAGCGCAAGCTGCTCGAAATGGCGCGTTCCCTCATGGTCCGCCCCAAACTGGTGATGCTGGACGAGCCCATGGCAGGCGTCAATCCCGCACTGACCCAATCCCTGTTGGATCACATCAAGAACCTCAAGGCGGAGGGCATGACCGTGCTCTTCGTCGAACACGACATGAACATGGTTCGCCACATCGCCGACTGGGTCGTGGTGATGGCCGAAGGAAAGATCGTGGCCGAGGGACCGCCCGGTGAAGTCATGAAGAATCCCGCCGTGATCGACGCCTACCTCGGCGCCCACCACGATGTGGATCTGGGCGACACGGAAGGCATCAAGGCGCTGGAACAGGAACTCCAGGCGGATGAAGAGTCGGTTGTCGGCACCGAAGATGCCGGCATCATCGCCGTCGACTCGGTGGTGCCCGACCTCAAGGCCGGCGGTTCGTCGCCAATCCACACAGACAAGGACAAAGCATGA	MSKHSENSAEGGVDYMTDTRPIAVGENMPGCKKRDPIVVAENVTRSFGGINAVDVDYLEIPRHKITALIGPNGAGKTTLFNLLTGFDTPNSGKWQFEGQNIAGVSSYKVARMGMVRTFQLTKVMGKLTVMENMRLGGANQPGERLSKALFKGIWGGREKELTEQADRLLEKFKLDAKKDDYAASLSGGQRKLLEMARSLMVRPKLVMLDEPMAGVNPALTQSLLDHIKNLKAEGMTVLFVEHDMNMVRHIADWVVVMAEGKIVAEGPPGEVMKNPAVIDAYLGAHHDVDLGDTEGIKALEQELQADEESVVGTEDAGIIAVDSVVPDLKAGGSSPIHTDKDKA	PGPT0020580_35	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_NEUTRAL_AMINO_ACID_TRANSPORT,PGPT0020580-natA-K11957	NA	NA
D1-17_02820	771	livF	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGAGTGCCACCAGCGCGGCCCCGGCCGCAAGCAGCGCAGCAGCAGACGGCACCGTTGTTAAGGTCACTGACCTGGTGGCCGGGTACCTGCCCGGCGTCAACATCCTCAATGGCTGCAGCATCGAGGCCCGCAAAGGTGAATTGATCGGAATCATCGGTCCCAACGGGGCCGGAAAGTCCACACTCCTCAAGGCCATGTTCGGCCTCGTCAAGGTCCACTCAGGCTCCGTCGTCGTGCGGGGCCAGGATCTCACCGGGCTCAAGGCAAACAAGTTGGTCACGCAGGGCGTGGGGTTCGTGCCCCAGAACAACAATGTCTTCGCGACCCTCACCATCGAGGAAAACATGCAGATGGGCATGTTCCAGCGGCCCAAGGACTTCGCCAGGCGGTTCGAGTTCGTCACCAGCCTGTTTCCCGAGCTCGGGAAACGCCGCGCCCAGCGTGCGGGGTCACTGTCCGGCGGCGAGCGCCAGATGGTCGCGATGGGCCGGGCCCTGATGATGGAACCCGCCGTGCTGCTGCTGGATGAGCCCTCGGCCGGCCTCTCCCCCGTGAAACAGGATGAGACCTTCCTGCGCGTGCATGAGATCAACCGGGCAGGAGTGTCCGTGATCATGGTGGAGCAGAACGCCCGCCGCTGCCTGCAGATCTGCGACCGCGGCTACGTCCTGGACCAGGGCAAGGACGCGTACACCGGGACAGGCCGGGAACTGATGAAGGATCCAAAGGTCATCCAGCTGTATCTGGGAACGCTGGCGGACGAAGTCTAG	MSATSAAPAASSAAADGTVVKVTDLVAGYLPGVNILNGCSIEARKGELIGIIGPNGAGKSTLLKAMFGLVKVHSGSVVVRGQDLTGLKANKLVTQGVGFVPQNNNVFATLTIEENMQMGMFQRPKDFARRFEFVTSLFPELGKRRAQRAGSLSGGERQMVAMGRALMMEPAVLLLDEPSAGLSPVKQDETFLRVHEINRAGVSVIMVEQNARRCLQICDRGYVLDQGKDAYTGTGRELMKDPKVIQLYLGTLADEV	PGPT0020785_1445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020785-livF-K01996	NA	NA
D1-17_02821	1353	braC	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	ATGATTTCACTCCCCCAAGGCGCGCCCCGAGCAGCTAAGCTAACAGCGCTTAGCATCGGCGTCGCCCTGCTGGCTACGGCTTGTGGTGGCAGCCCCACCCCAGGCTCGACCACAACCGCAGCCGGTGCGGGTGCAGGCATCGCCTGCCCTGCTCCCAGTGCCACCGGAACCGCCACCTCCCAGGCTACTGCAGATGCCGGTTCTGTTCCGGCCGCAACAACCACCACTCCCACTCCGCTGAAGATTGGATCGCTGCTGCCGACGACGGGGTCGCTGGCGTTCCTGGGCCCACCCGAGATCGCAGGCGTTAACCTTGGCATCAAGGAAGTCAATGCCGCGGGCGGCGTCCTGGGCAAGCCGGTCCAGGTTGTTCACCGGGACTCCGGTGACACGAAGACCGACATTGCAACGCAGTCCACCACCGCCTTGCTTGGCCAAGGCGTCAGTGCCATCATTGGTGCGGCTTCCTCCGGTGTGTCCAAGACCGTGATCAACCAGATCACCGGTGCCGGCGTGGTCCAGTTCTCCCCGGCCAACACCTCGCCCGACTTCACCGCATGGGAGGACAAGAACCTCTACTGGCGCACGGCTCCCTCCGACGTGCTGCAGGGCAAGGTGCTTGGCAACTACATGGCAACCTGTGGAGCCCAGACTCTGGGCATGATTGTCCTTAACGACGCCTACGGCACGGGCCTGCAGAAGAACATCAAGGAAGCCTTCGAAGCAGCCGGCGGCCAGATTGTGGCCGAGGAGCTCTTCAACGAAGGTGACTCGCAGTTCAGCAGCCAGGTGGACAAGGTTATTGCCGCCAAGCCCGATGCGATCGCCCTGATCACCTTTGACCAGGCAAAGAGCATTGTGCCGCTGATGACAGGCAAGGGCATCAAGCCCACGCAGCTGTTCATGGTGGACGGCAACACCTCCGATTACAGCAAGGACTTCAAAGCCGGAACGCTCAAGGGCGCCCAGGGCACCATCCCCGGTACGTTCGCGAAGGAAGACTTCAAGAAGAAGCTCCTCGCCATCGACCCGGCACTGAAGGACTACAGCTACGCCGGCGAGTCCTATGACGCGGTCAACCTGATCGCGCTCGCCGCAGAGGCCGCCAAGAGCACCAAGGGCACCGAGATCGCCAAGCAGCTCAAGGCAGTTTCGGAGGGTGGGGACAAGTGCAACAACTTCGCGTCCTGCGTCACGCTCCTCCGCAACGGCAAGGACATCGACTACGATGGCCAGTCCGGTCCGGTGACCTTCTCCGAGCAGGGCGACCCCACGGAGGCATTCATCGGTATCTACGAGTACCAGGATGACAACACGTACAAGCCGGTCAGGGAAGAATTCGGCCAGCTGTAA	MISLPQGAPRAAKLTALSIGVALLATACGGSPTPGSTTTAAGAGAGIACPAPSATGTATSQATADAGSVPAATTTTPTPLKIGSLLPTTGSLAFLGPPEIAGVNLGIKEVNAAGGVLGKPVQVVHRDSGDTKTDIATQSTTALLGQGVSAIIGAASSGVSKTVINQITGAGVVQFSPANTSPDFTAWEDKNLYWRTAPSDVLQGKVLGNYMATCGAQTLGMIVLNDAYGTGLQKNIKEAFEAAGGQIVAEELFNEGDSQFSSQVDKVIAAKPDAIALITFDQAKSIVPLMTGKGIKPTQLFMVDGNTSDYSKDFKAGTLKGAQGTIPGTFAKEDFKKKLLAIDPALKDYSYAGESYDAVNLIALAAEAAKSTKGTEIAKQLKAVSEGGDKCNNFASCVTLLRNGKDIDYDGQSGPVTFSEQGDPTEAFIGIYEYQDDNTYKPVREEFGQL	PGPT0020765_593	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020765-livK-K01999	NA	NA
D1-17_02823	1446	ndbB		Demethylphylloquinone reductase NdbB	GTGCTCGTCGTCGGCGGCGGGTACGTCGGCCTGTACGTAGCACTCAAACTGCAGAAGAAGATCGCGAATGCCGGTGGCATCGTCACCCTCGTGGATCCACTGCCCTACATGACTTACCAGCCCTTCCTGCCCGAAGTTGCCGGCGGCAACATCGAGGCGCGCCACGCGGTGGTCTCGCACCGCCGGCACCTCAAGCAGACCGAGCTCATCCAGGGCCGCGTCACGTCGATCGACCACGCCAACCGCACCGCCGTGGTTGCGCCCTCTGACGGCGGCGACCCCTTCGAGGTTCCCTACTTCGACGTCGTCCTGGCCGCAGGGGCCATTACCCGCACGTTCCCCATCAAGGGCCTTGCGGACAAGGGCATCGGCCTGAAGACCATTGAGGAGGCCGTTGCGCTCCGCAACAAGGTCCTCGACCGGATCGAGGTCGGCTCCACGATCACGGATCCGGCTGAGCGTGCCCGCGCGCTGACCTTTGTGGTTGTGGGTGGCGGTTTCGCCGGCATCGAGTGCATCACCGAGATGGAAGACCTCGCCCGCGCGGCCGTTAAGAACAACCCGCGCGTCAAGCAGGAGGAAGTCCGCTTCGTGCTCGTTGAGGCCATGGGCCGCATCATGCCCGAGGTCACCGAGAAGCAGGCCGAATGGGTTGTTGAGCACCTCCGCAGCCGCGGCATCGAGGTCCTGCTGAACACATCCCTGGACAACGCTGAGGGCTCCCTGAAGCTGATCAACCTGCCGGACAAGACCCTGGCCCAGGAATTTGAGTCCGATACCCTCGTGTGGACAGCCGGTGTCCAGGCCAACCCGATGGTCCGCTCCACCGACTTCCCACTGGAGCCCCGCGGACGCGTCCGTGTCCTGCCGGACCTGCGCATCGCCGGCGATGAAGGCATCATCGAGAACGCCTGGGCGGCAGGTGACATCGCCGCGGTTCCCGACCTTACAGGTGCTGGCCTGCCTGACGGGACCTGTGTCCCCAATGCCCAGCACGCGTTGCGCCAGGCCAAGCGCCTCGCCAAGAACCTGTGGGCTTCCCGCTGGGACAAGCCGCTCGCGGACTACAAGCACAAGAACCTCGGTGCTGTGGCCGGCTTCGGCCAGTGGAAGGGCGTCGCCAACATCAACCTCCTCGGCCGCATCGGGCTCAAGGGCCCCCTCGCGTGGCTGGCCCACCGCGGCTACCACGGGATGGCCATGCCCACTGTGGAGCGCAAGGTCCGCGTGATCTTCGGCTGGATCCTGGCCTTCTTCCTGGGCCGCGACACCACGCAGCTGCTGGACCTGGACAACCCGCGCGGTGCCTTCGTGGCCGCTGCCACACCGGCTCCCAAGCCCGCAGCTGCCGAGGCGAAGCCTGCCGACGCCAAGCCTGTCGAGGGAACGCCGGCAGACGCCCAGAAGAATGATTCGAAGGACCCTGTTGCGGTGAAGTCCAAGTAG	MLVVGGGYVGLYVALKLQKKIANAGGIVTLVDPLPYMTYQPFLPEVAGGNIEARHAVVSHRRHLKQTELIQGRVTSIDHANRTAVVAPSDGGDPFEVPYFDVVLAAGAITRTFPIKGLADKGIGLKTIEEAVALRNKVLDRIEVGSTITDPAERARALTFVVVGGGFAGIECITEMEDLARAAVKNNPRVKQEEVRFVLVEAMGRIMPEVTEKQAEWVVEHLRSRGIEVLLNTSLDNAEGSLKLINLPDKTLAQEFESDTLVWTAGVQANPMVRSTDFPLEPRGRVRVLPDLRIAGDEGIIENAWAAGDIAAVPDLTGAGLPDGTCVPNAQHALRQAKRLAKNLWASRWDKPLADYKHKNLGAVAGFGQWKGVANINLLGRIGLKGPLAWLAHRGYHGMAMPTVERKVRVIFGWILAFFLGRDTTQLLDLDNPRGAFVAAATPAPKPAAAEAKPADAKPVEGTPADAQKNDSKDPVAVKSK	PGPT0004020_492	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0004020-ndh-K03885	NA	NA
D1-17_02824	1401			hypothetical protein	ATGACCAGAGCAACAGCCCGGTTCCGCCGGACCGTCTCGGCTCTGCTGTCGGCGGTGCTGGCCGGCAGCATCGCTGCGGCAACCATAGCTACGGCCCCGGCAGCACAGGCCGACACTTGGCGGGACAAGCAGTACTGGCTCAAGGAAGCCGGCATCACGAAGGCCTGGGAGGTCTCCAAGGGCGCCAACGTGAAAGTGGCTGTGATCGACAGCGGCGTGGACGGCGACCACCCCGACCTGAAGGGCGCCATCGCCGGAGGGCATGATGTCTCGGGGGCGGGTACGCCGGACGGACAGAAGGGCATCGGGGCCAAGCCGGAGCACGGAACGCTGGTGGCCACCATGCTCGCGGGCCGCGGACACCAGCCGCCGCCCCCCAAGAAGTCCAAGGCCAGCGCCAAGCCCTCGCCTACCTCTTCGCCATCGAAGACCAATCCCGACGGCATCATGGGCGTCGCACCGGAAGCCCAGATTCTCGCTGTGTCCACCTGGCTCGGGTCGGAGAACCCCGGCGGCAAGAGTGACCAGGACCAGATTCCCGAGGCTGTCCGCTGGGCAGTGGACAACGGGGCCAAGGTCATCAACATCTCACTGGGCAGCACCTCGCCCGAGTGGCCGCAAAGCTGGGACGCCGCCTTCCTCTACGCAGAGCAGAAGGACGTCGTCATCGTGGCTGCTGCCGGCAACCGGGTAGGCGGCAACATCCAAGTAGGCGCGCCGGCAACCATTCCGGGCGTGCTTACCGTGGCCGGACTGGACCGCGGCGGCAGGGCCAGCGTCGACTCCTCATCGCAGGGCATCAGCATCGGTGTGGCAGCCCCGGCAGAAAAGCTTGCCGGCGGACTTCCCGGCGGAAGCTATGCGGAATGGGCAGGTACCTCGGGAGCTACGCCTATCGTTTCCGGTGTAGCCGCGCTGATCCGTTCCAAATGGCCCGAGATGAGCGCCGAGCAGGTCATCAACAGGATCGTGTCCACAGCCACGGACGAGGGCGCCCCGGGGAAGGACCCGCTCTATGGATTCGGCATGCTCAATGCCGAAGCCGCACTGAAAGTTGATGTCGCGGAAACCCAGGTGAATCCCCTGGGATCCATCTCCGACTGGATCCGCGTGCACCGCCGCGGCAATGCGGCGACGCCGGCGCCTGTGGCGCCTCCTGAGACCGAGGCGGTCGCGCAGCCCACGCTGCCAAAGGCCACGGTGCCGGCCGCCCAGGCCCCGTCACAGCTGGACAGCGCCCTTCCGGCCGTCGTCGTGATCGGTTTCGGATCCCTTTTCGTCATCATCATCGTTGCCGGCGCGGTGCAGCTGCGCCGTGCTTACAGGGCCTCCGGGGGCAGCGCCGAAGACGCCGAAACAGGGACCTTGAGCAGAGTGGACCCTGGCGGCACCCCAAGTTAG	MTRATARFRRTVSALLSAVLAGSIAAATIATAPAAQADTWRDKQYWLKEAGITKAWEVSKGANVKVAVIDSGVDGDHPDLKGAIAGGHDVSGAGTPDGQKGIGAKPEHGTLVATMLAGRGHQPPPPKKSKASAKPSPTSSPSKTNPDGIMGVAPEAQILAVSTWLGSENPGGKSDQDQIPEAVRWAVDNGAKVINISLGSTSPEWPQSWDAAFLYAEQKDVVIVAAAGNRVGGNIQVGAPATIPGVLTVAGLDRGGRASVDSSSQGISIGVAAPAEKLAGGLPGGSYAEWAGTSGATPIVSGVAALIRSKWPEMSAEQVINRIVSTATDEGAPGKDPLYGFGMLNAEAALKVDVAETQVNPLGSISDWIRVHRRGNAATPAPVAPPETEAVAQPTLPKATVPAAQAPSQLDSALPAVVVIGFGSLFVIIIVAGAVQLRRAYRASGGSAEDAETGTLSRVDPGGTPS				NA	NA	NA	NA	NA
D1-17_02825	948	ppx2	COG0248	Exopolyphosphatase 2	ATGACCAGGGTTGCAGCCATTGACTGCGGTACCAATTCCATCCGCCTGCTGATCGCGGACGTTGACCGCGGAAACGGCCCGACGAAGCTCACGGACATTGTCCGCGAGATGAGGGTGGTGCGGCTGGGCCAAGGCGTGGACGCAACGGGGGAGCTCGCGCCGGAGGCACTGGAGCGCACTTTTGCTGCCGCTGCTGACTATGCCGAGCTGATCCGCGAGTACCGCGCCGAGAAAGTGCGCTTCGTGGCCACCTCCGCAACGCGCGATGCCCGCAACCGCCAGGTCTTTGTGAACGGCATCCGGGGGCTCCTCGGCGTCGAGCCCGAGGTCATTTCCGGCGACGAGGAAGCGGCTCTCTCCTTCGCCGGAGCAAGCAGCGTGCTGCCCATGGCCGACGGGGCCAGGGTCTTGGTTGTGGACCTCGGCGGCGGGAGTACCGAATTCGTGCTGGGGGACGCAAACGGAGTCATCGCGGCCAAGTCTGTGGATATCGGTTGTGTCCGGCTGACCGAACGCCATCTCAAAAGTGATCCACCCACCGCTGCGGAGATCGCCGCGGCGGAGGCTGACGTCGACGCCGCCATCGCGCAAGCGGCACTGGACGTTCCGCTGGAAAGCGGCACCGCCGTCGTCGGGGTTGCCGGGTCCGTAACCACGATTACGGCCCATGCGCTCAAGCTGCCGGAATACCTGCCCGCCGCCATCCACGGCGCCGAACTGTCCATCCGGGCCGTTGCTGAGGCAGCCGGTGACTTGCTCGGCATGACCCGCGCGCAGCGGGCCCGGCTGCCCTACATGCACCCCGGCCGGGTGGATGTCATCGGTGCCGGCGCCCTCGTCTGGCGACGCATCCTCATGAGGATGGGCGAACTCACCGGAGGAGAGATCATTACGGCCACAGCCAGCGAGCACGATATTCTTGACGGAATTGCCCTGAGCGTCCACTGA	MTRVAAIDCGTNSIRLLIADVDRGNGPTKLTDIVREMRVVRLGQGVDATGELAPEALERTFAAAADYAELIREYRAEKVRFVATSATRDARNRQVFVNGIRGLLGVEPEVISGDEEAALSFAGASSVLPMADGARVLVVDLGGGSTEFVLGDANGVIAAKSVDIGCVRLTERHLKSDPPTAAEIAAAEADVDAAIAQAALDVPLESGTAVVGVAGSVTTITAHALKLPEYLPAAIHGAELSIRAVAEAAGDLLGMTRAQRARLPYMHPGRVDVIGAGALVWRRILMRMGELTGGEIITATASEHDILDGIALSVH	PGPT0002595_4481	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
D1-17_02826	666			hypothetical protein	GTGGCAGACAACACGGCATCGGCGCCGGAGGAAACCCGGCAGCCATCGGCACACGATCTCGAGGTGCTGAGCCGCCAGCTGGGCCGGCCTGTCCGTGACGTCGTGGAGATCCCCGCGAGGTGTGTCTGTGGCAATCCCCTCGTGGCCGCCACAGCCCCGCGGCTCAGCAACGGCACACCGTTCCCGACGACGTTCTACCTGACCCACCCGGTGATCACGTCCGCTGTATCGCGGCTGGAAGCGGCCGGGCTCATGAATGAGATGAACCAGCGACTCACCGCGGACGAGCCGCTGGCCGCCGCGTATCGGGCAGCCCATGAGGCGTATCTGCAGTCGCGTGCGGAAATCGGAGCGCGTTGCGGCATCGGGGAGGTCCCCGAGATCGACGGCGTCTCGGCCGGCGGAATGCCTACACGGGTGAAATGCCTCCATGTGCTGGTGGGCCACTCCCTGGCGGCCGGCCCCGGTGTCAATCCACTCGGTGACGAAGCCATCGCCGCCATTGGTGAATGGTGGAGCGTTGACCGGTGTTACTGCGAAGGCGCCTGGGACACCGCAGGCGAAGCGCCGTCTCAGGACCTCAGCAGGCACGGGCCGCAGGGACTGCCTGCCATCGTGGGGCGGCCCGCCCCGGTGCGGAAGACGAAGCAGGAGGCAGGCGAATGA	MADNTASAPEETRQPSAHDLEVLSRQLGRPVRDVVEIPARCVCGNPLVAATAPRLSNGTPFPTTFYLTHPVITSAVSRLEAAGLMNEMNQRLTADEPLAAAYRAAHEAYLQSRAEIGARCGIGEVPEIDGVSAGGMPTRVKCLHVLVGHSLAAGPGVNPLGDEAIAAIGEWWSVDRCYCEGAWDTAGEAPSQDLSRHGPQGLPAIVGRPAPVRKTKQEAGE	PGPT0002595_54	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002595-ppx|ppx_gppA-K01524	NA	NA
D1-17_02827	789			hypothetical protein	ATGGCTACCCGCCGTCCCAAAGTTCCCCGGGTGACAGCAGCGACCCGGAACCCCGGCACTGGCTCCGGCGGGGGAGACGTCATCTTGGCAGACTTCGGCGGTCGCGCGCACGGCGAAACGGGAAGGGAAACCGCCCCGGCGGCCGGCGCCCCCCAGGCCAGCGGAACAAGCCCAGCCGGGACCACAGCCAAGGGCGCAGCAGCAGGCGAGTCGCCGGCAGGCAAAACGCCGTCAGGTAAAACGCCGGCAGGCAAAACGCCGCCAGGTAAAACGCCGTCAGGCAAAACGCCGTCGGGCGGTACTGTGCCCGGAACAGCCGGGAGGTCCGGCGCCGCGGCCGCCGGGAAGAAGGGGTCCGGGTCGTCCCCCGTAATAGGCGAGGACGAAAGCGTCGACCCGGTCCCCGCCAAGGCCTTCTCGGGGCGCATGCTGGCGCTGGCCGTCGTCATGATTGCCATCACCACCATGCTGGCGCCTACGGTGAAGATCTTCATCGACAAGCGGGCCGAAATTGCCGCGCTGGAAGCGGATATAGCGGCCAGACAATCCGCCCAGGATGACCTGAAGCGACAGGTTTCGCGCTGGCAGGATCCCAACTACGTCAAGCAGCAGGCCCGGGACCGCATTAACATGGTTATGCCGGGCGAGACCGGCTACTGGGTGTTTGGCAGCGACATGCCGGCAGGTGCAGCAGCCAGCGGGCCCGGTGCAGCAGCAGTACAAGACCCCGCCAACGTGCCGTGGGTGGACTCCCTGTGGGAATCCATTCGGCGTTCGGCAACAGACTAA	MATRRPKVPRVTAATRNPGTGSGGGDVILADFGGRAHGETGRETAPAAGAPQASGTSPAGTTAKGAAAGESPAGKTPSGKTPAGKTPPGKTPSGKTPSGGTVPGTAGRSGAAAAGKKGSGSSPVIGEDESVDPVPAKAFSGRMLALAVVMIAITTMLAPTVKIFIDKRAEIAALEADIAARQSAQDDLKRQVSRWQDPNYVKQQARDRINMVMPGETGYWVFGSDMPAGAAASGPGAAAVQDPANVPWVDSLWESIRRSATD				NA	NA	NA	NA	NA
D1-17_02828	1281	eno	COG0148	Enolase	ATGGCGCTTATTGATGCCATCCACGCCCGCGAGATCCTCGATTCCCGTGGCAACCCCACCGTAGAGGTCGAAGTTCTGCTCTCCGATGGCCAGATCGGCCGCGCAGCAGTTCCCTCCGGCGCATCCACCGGCGAGCACGAGGCTGTTGAGCTGCGTGACGGCGACAAGGGCCGTTACCTCGGCAAGGGCGTCCAGAAGGCCGTGGATGCGGTCATCGACCAGATCGCACCAGCCCTGACCGGCTTCGACGCCACGGACCAGCGCAGCATCGACCAGGCCATGATCGACCTGGACGGCACGGCCAACAAGGGCAAGCTGGGCGCAAACGCCATCCTCGGCGTTTCACTGGCAGTCGCCAACGCCGCCGCAGCCTCCGCCGACCTGCCGCTGTACAAGTACCTGGGCGGCCCGAACGCCCACGTCCTGCCGGTTCCGCTGATGAACATCCTCAACGGCGGTTCCCACGCTGACTCGGATGTCGACATCCAGGAATTCATGATCGCCCCGATCGGCGCCGAGACCTTTTCCGAGGGCCTGCGCTGGGGCGTTGAGGTTTACCACAACCTCAAGGCCGTGCTGCAGCAGAAGGGCCTCTCCACCGGCCTGGGCGACGAGGGCGGCTTCGCCCCGAACCTGCCGTCCAACCGCGCCGCCCTGGACCTGATCCAGGAAGCCATCCAGAACGCCGGCTACACCCCGGGCACCGACATCGCCCTGGCCCTGGACGTCGCCTCCTCCGAGTTCTTTAAGGACGGCGCCTACCAGTTCGAAGGCAAGGCCCTGAGCTCCGCCGAGATGAGCTCCTACTACGCCGAGCTGGTTGCCGACTACCCGCTGGTGTCCATCGAGGACCCGCTGGACGAGAACGACTGGGAGGGCTGGAAGATCCTCACCGACACCATCGGTGACAAGGTCCAGCTTGTGGGCGACGACCTGTTCGTCACCAACCCTGAGCGTCTGCAGCAGGGCATCGATGCGGCTACCGCCAACTCCCTGCTGGTCAAGGTCAACCAGATCGGTTCGCTGACCGAAACCCTGGACGCGGTGTCCCTGGCACAGCGCTCCGGCTACACCACCATCACCTCGCACCGCTCCGGCGAAACCGAGGACACCACCATCGCTGACATCTCCGTCGCCACCAACGCCGGCCAGATCAAGACCGGCGCTCCGGCCCGTTCCGAGCGTGTTGCCAAGTACAACCAGCTGCTGCGCATCGAAGAGGAACTCGACGACGCCGCACGGTACGCCGGACGCAGCGCCTTCCCGCGTTTCAAGGCTTAA	MALIDAIHAREILDSRGNPTVEVEVLLSDGQIGRAAVPSGASTGEHEAVELRDGDKGRYLGKGVQKAVDAVIDQIAPALTGFDATDQRSIDQAMIDLDGTANKGKLGANAILGVSLAVANAAAASADLPLYKYLGGPNAHVLPVPLMNILNGGSHADSDVDIQEFMIAPIGAETFSEGLRWGVEVYHNLKAVLQQKGLSTGLGDEGGFAPNLPSNRAALDLIQEAIQNAGYTPGTDIALALDVASSEFFKDGAYQFEGKALSSAEMSSYYAELVADYPLVSIEDPLDENDWEGWKILTDTIGDKVQLVGDDLFVTNPERLQQGIDAATANSLLVKVNQIGSLTETLDAVSLAQRSGYTTITSHRSGETEDTTIADISVATNAGQIKTGAPARSERVAKYNQLLRIEEELDDAARYAGRSAFPRFKA	PGPT0018050_5319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018050-eno-K01689	NA	NA
D1-17_02829	666	mazG	COG1694	Nucleoside triphosphate pyrophosphohydrolase	GTGCCCGCTGACGGGGTGGGGGAGTTGTTGGGGGTGATCGCCGCGCTGCGCGAGCATTGTCCCTGGATGGGCGCACTTACCCATGAATCCCTCGTTGAGTACCTCCTTGAGGAAGCCTATGAAGTGGCTGAGACCATCGAAACCGGCCGGGATGAAACAGAACTGAAGGGCGAGCTGGGCGACGTGCTGCTCCAGGTGGTGCTGCACGCCCGGCTCGCGGAAGAGCGCGGCACTTTCGCCTTTTCCGACGTCGCCCGGGGCATCGCCGAGAAGATGATCCGCCGCAACCCCCACGTGTTCCGGCCGGACGGTTCCCTGCAGGAAACCTTCCCCGCCACGGTGGAGGAAATCGTGCTCACATGGGACGCCGTCAAGAAGGCGGAAAAGCCGGAACGGACCAGCCACTTTGAGGGCATCCCCGCCGCGTTGCCTGCCTTGGCCCGGGCTCACAAGATCCTGGATCGGGCGGAGCGCGCAGGGTTGTCCACGCTGCCTGAACGCGCAACCCCGCTGGTTGAGACGCTCGAAACAATAGAAACCGAAGCCGAGCTTGGCGAGTTGTTACTCGCCGTTGTCGGCGCTGCGCGCAGCAAGGGGTTCGACGCCGAAAGGGCCCTCCGGGGCGCCGTCCGGCGCCGCCAAAATCAGGTCGCGCCCGGATCATGA	MPADGVGELLGVIAALREHCPWMGALTHESLVEYLLEEAYEVAETIETGRDETELKGELGDVLLQVVLHARLAEERGTFAFSDVARGIAEKMIRRNPHVFRPDGSLQETFPATVEEIVLTWDAVKKAEKPERTSHFEGIPAALPALARAHKILDRAERAGLSTLPERATPLVETLETIETEAELGELLLAVVGAARSKGFDAERALRGAVRRRQNQVAPGS	PGPT0021590_929	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-17_02830	1152	add	COG1816	Adenosine deaminase	GTGACTGAGCCCATCGTTGACGCCGCCCCTGCCCTTGACTTCGATCTGAAGAGCCTGCCCAAGGTATCCCTTCATGATCACCTGGACGGGGGTCTCCGCCCCGCAACCATCATCGAACTGGCGGCGGCCGTTGGCCATACCCTGCCATCCACCGACCCTGCCGCCCTCGGTGAATGGTTCCGCGAGTCCGCCGACTCCGGCTCGCTGGTCCGCTACCTCGAAACGTTCGACCACACCGTCGCCGTCATGCAGACCACGGAAGGCCTGTCCCGGGTGGCGCGGGAATTTGTGGAGGATCTCGCGGATGACGGCGTGGTCTACGGGGAGGTCCGCTGGGCGCCGGAGCAGCACCTCCAAAAGGGCCTCACGCTCGATGAGGTAGTCGAGGCCGTCCAGGAAGGCCTTGAAGCAGGCGTTGCGGCCGTGGCCGAAACCGGCCGCGAAATCCGGGTGGGCCAGCTGATCACCGCGATGCGCCACGCCGAGCGCGGCCAGGAGATCGCCGAGCTCGCCGTCCGCCACCGGGACCGCGGCGCGGTAGGCTTTGACATCGCCGGCGCCGAGGACGGCTTTTTGCCGTCGCGCTTCAAGGATGCCTTCACCTACCTGGCTGAAAACAACTTCCCGGCCACCGTGCATGCAGGCGAGGCTGCAGGACTCGAAAGCATCCAGTCCGCCCTCGTCGACGGACGCGCCCTGCGGCTGGGTCATGGCGTCCGGATCGCTGAGGACATCATGGTGGAATTCGAGGACAGCGATGACGCCGCTGATGACAGTGACGATGACAACATTGGCCTGGTGACGCTCGGAAACCTTGCGAGCTGGGTCCGTGACCGCGGCATTCCATTGGAGATCTGCCCGTCGTCGAACCTGCAGACCGGAGCGATCGCCGGCTTCGGCGAAGGCATCGACAGCCACCCGTTGGACATGCTCTACCAGCTGGGCTTCAACGTCACCATCAACACGGACAACCGGCTCATGAGCGGCGTGACCCTCACGGACGAATTCGAGTTGCTGGTGGAGACGTTCGACTATGACCTCGATGACCTGCTGGAACTCACACTCAACGCGGCCGAGGCCTCCTTCCTGCCGCTCGAGGAAAGGGAAGCCCTGGTGGAGTACATCAACGACGCCTACGCGAACCTTGGCTGA	MTEPIVDAAPALDFDLKSLPKVSLHDHLDGGLRPATIIELAAAVGHTLPSTDPAALGEWFRESADSGSLVRYLETFDHTVAVMQTTEGLSRVAREFVEDLADDGVVYGEVRWAPEQHLQKGLTLDEVVEAVQEGLEAGVAAVAETGREIRVGQLITAMRHAERGQEIAELAVRHRDRGAVGFDIAGAEDGFLPSRFKDAFTYLAENNFPATVHAGEAAGLESIQSALVDGRALRLGHGVRIAEDIMVEFEDSDDAADDSDDDNIGLVTLGNLASWVRDRGIPLEICPSSNLQTGAIAGFGEGIDSHPLDMLYQLGFNVTINTDNRLMSGVTLTDEFELLVETFDYDLDDLLELTLNAAEASFLPLEEREALVEYINDAYANLG	PGPT0021520_500	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488	NA	NA
D1-17_02831	792			hypothetical protein	GTGGAGTTTATTAATGAGGCCGTGCTCCATGCAGCGGGTCAGTGGTGGATTTATCCGATTTTGCTTTTGTTCTTCTTCGTGGACGGCTTTGCAATGGTCGTGCCCAGCGAGACGCTCATCGTCGCCCTGGCCGCCTTCTCCCGGCACAGCGGCGAGCCCAATCTCTGGATCCTGGGACTGACCGCACTTACGGGTGCGATTGCCGGCGACAACATGGCGTACCTCCTGGGCCGGAAGATCGGCCTTGAGCGCTGGAAGTGGATGCGGCGGCCGAAGGTCCAGAAGGCTTTTGGCTGGGCCCGCTACGAGCTGGAGAAGCGCGGCGCCGTGCTCATTTTCACGGCGCGATACATTCCCTGGGGCCGTGTGGCCGTGAACTATGTGGCTGGAACCACGGGCTTTCCGCACCGCCGGTTTTTCCTGTTGGATGCCTTCGCCTGCATCACGTGGGTGGGGTATTCCGTGGGTATTGGAATCCTGGCGAGCTCCTTCCCCTGGCTGCACCACAACCCGCTGCTCGGGGCGGGCATTGCCGTGGTCTTTGCCATCATCCTGGGAATCTTCATTGACCACGTGTTGCGGTGGTGGCATAAGCGGCTCGGGCGCAATGACGTACTCAATGACGTACTCCCGGGTCCCGGACCGGCGCCGGAGGAGGCGGGCCTTGCGGAGCCGGAACCGGACGGGACTCCGGCAGCAAGGCCGGACCGCAAAGCTGAAGGGCACGACGGCGGGCGGCTGGGCCGTTCGCTGCCGCTTTCGGTGACTGCCGACGCCGAGCCGGGGCGCTGA	MEFINEAVLHAAGQWWIYPILLLFFFVDGFAMVVPSETLIVALAAFSRHSGEPNLWILGLTALTGAIAGDNMAYLLGRKIGLERWKWMRRPKVQKAFGWARYELEKRGAVLIFTARYIPWGRVAVNYVAGTTGFPHRRFFLLDAFACITWVGYSVGIGILASSFPWLHHNPLLGAGIAVVFAIILGIFIDHVLRWWHKRLGRNDVLNDVLPGPGPAPEEAGLAEPEPDGTPAARPDRKAEGHDGGRLGRSLPLSVTADAEPGR	PGPT0004890_587	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-17_02832	639		COG0586	putative membrane protein	TTGACCGCATTGCCTGACGCCGTGCAGGCCATCAACGACTTTATTCTTGCAGCGGCCGGCCAACCGTGGGTCCTGTTCATCGTCTTGGCCTGCTGTTTCATTGACGGTTTCTTTCCGCCGATTCCCAGTGAATCGGTGGTGGTGGGACTGGCAGCCGTCGCGGCGACTGCGGATGTCCCCAACCCGTGGCTTCTTGCCGCCATCGCGGCGCTCGGCGCCTTCACGGGAGACAACACCGCCTATCTCATTGGCCGGGGCGTGGGAACGCAACGTTGGCGATGGATGCGGGGGCCGCGGATGCAGCGCGCATTCCGCTGGGCCGGGCGTGAGCTTCGAAAGCGCCCGGCGTCCCTGATCCTTGTGGCGCGGTTCGTTCCGATCGGCAGGGTGGCCGTCAACCTCACAGCGGGAGCCACGCACTTTCCCCACACCCGCTTCGTGGCGCTGACCGTGCTGTCAGCAACGCTCTGGGCTGGCTACTCGGTGGCCATCGGGCTGTTTTTTGGCCAGTGGTTCGAAGAGAACCACCTGCTGGGAGCCGCCGTCGCCATCGTCTGCGCGATCACGCTGGGCATCATCGTGGACCTCGTCATCAGCAAGCTGCGTGGCGGGTTCCCCGGGCCCCTGGTGGACGACTGA	MTALPDAVQAINDFILAAAGQPWVLFIVLACCFIDGFFPPIPSESVVVGLAAVAATADVPNPWLLAAIAALGAFTGDNTAYLIGRGVGTQRWRWMRGPRMQRAFRWAGRELRKRPASLILVARFVPIGRVAVNLTAGATHFPHTRFVALTVLSATLWAGYSVAIGLFFGQWFEENHLLGAAVAIVCAITLGIIVDLVISKLRGGFPGPLVDD	PGPT0004890_2768	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-17_02833	1323	deoA	COG0213	Thymidine phosphorylase	GTGAAACTCGTTTCAACTGAAACGGAAGCGTTCGACGCCGTCGACATCATCCGCATCAAGCGTGACAGGGGTGTCCTGAGCCCCGAACAGATCGACTGGACCATCGATGCCTACACGCGCGGAGTGATCGCGGATGAGCAGATGGCCGCCCTGAACATGGCCATCCTGCTCAACGGCATGGACCGGGCAGAAATCTCACGCTGGACGGCTGCGATGATCGCCTCGGGGGAACGGATGGACTTCTCCAGCCTCAAGCGTCCCGACGGTGGAGTGAAGGCGACGAGCGACAAGCACTCCACCGGGGGTGTCGGGGATAAGGTCACCCTCCCGCTGGCGCCGCTGGTGGCCGTGTTCGGGGTGGCCGTGCCGCAGCTTTCCGGCCGAGGCCTCGGGCACACGGGCGGCACGCTGGACAAGCTGGAATCCATTCCGGGCTGGCGTGCCGTCTTAAGCAACGAGGAAATCCTCGCGCAGCTCCAGGACGTCGGTGCCGTGATCTGCGCCGCCGGTGCCGGCCTGGCCCCTGCGGACAAGAAGCTCTACGCGCTCCGGGACGTCACAGGCACCGTGGAGGCCATTCCACTGATCGCCTCCTCGATCATGAGCAAGAAGATCGCGGAAGGCACCGGCTCGCTCGTGCTGGACGTCAAGGTGGGCAGCGGGGCCTTCATGAAGGATGAGGCCCGCGCACGGGAACTCGCCGAGACAATGGTGGCCTTGGGGAAGGACGCGGGAGTGAACACCGTGGCCCTGCTCAGCAACATGGACACGCCCTTGGGGCTGACCGCGGGAAACGCCATCGAGGTGGAGGAGTCCGTCGAGGTGCTCGCGGGCGGCGGCCCGGAAGACGTCGTCGAACTGACTGTCAGGCTGGCGGAGGAGATGCTCGCCTGTGCAGGGGTTGAGGACGCCGACCCGCGGGCGGCGCTCAAGGACGGCCGCGCTATGGACGTCTGGAACGGGATGATTGCGGCGCAGGGCGGTGATCCGCGGGCAAAGCTGCCGGTGGCGAAGGAATCCGAAACCATCTATGCCCCGGCAGACGGCGTCCTCGTGGAACTGGATGCCCTCGCCGTCGGGGTGGCTGCCTGGCGGCTGGGAGCGGGCCGGGCCCGCAAAGAGGATCCGGTCCAGGCAGGGGCGGGCGTCCGCCTGCACGCCAAGCCCGGCGCCACCGTGCGCGCAGGGGAGCCGCTGATGACCCTGCTTACCGACACTCCCGAGAAGTTCGCCCGCGCCAAAGAGGCGCTCGAAAACGCTGTTACCGTTGCTCCGGATGGATCGCGGCCTGCGCAGCAGCTCATCATTGACCGCATTGCCTGA	MKLVSTETEAFDAVDIIRIKRDRGVLSPEQIDWTIDAYTRGVIADEQMAALNMAILLNGMDRAEISRWTAAMIASGERMDFSSLKRPDGGVKATSDKHSTGGVGDKVTLPLAPLVAVFGVAVPQLSGRGLGHTGGTLDKLESIPGWRAVLSNEEILAQLQDVGAVICAAGAGLAPADKKLYALRDVTGTVEAIPLIASSIMSKKIAEGTGSLVLDVKVGSGAFMKDEARARELAETMVALGKDAGVNTVALLSNMDTPLGLTAGNAIEVEESVEVLAGGGPEDVVELTVRLAEEMLACAGVEDADPRAALKDGRAMDVWNGMIAAQGGDPRAKLPVAKESETIYAPADGVLVELDALAVGVAAWRLGAGRARKEDPVQAGAGVRLHAKPGATVRAGEPLMTLLTDTPEKFARAKEALENAVTVAPDGSRPAQQLIIDRIA	PGPT0021365_1110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021365-deoA-K00758	NA	NA
D1-17_02834	438	cdd	COG0295	Cytidine deaminase	ATGAACGACGCTTCGCCGCGCCCGCCCGCCGAAGCCGGCCAGTCCGACGTCGACTGGCCGGCCCTGCAGGCCGCCGCCGTCGACGCCATGCAGAAGGCGTATGTGCGCTATTCAAAGTTCCCGGTCGGTGCAGCTGCCCTCACCTCGGACGGACGGATTGTCAGCGGCTGCAACGTCGAAAACGCCAGTTACGGGCTCACGCTGTGTGCTGAATGCACGCTCGTGGGCAACCTCCATATGACCGGCGGCGGTCTCCTGCGCGCCTTTTATTGCGTCGACGGCGGAGGGAACGTCCTGATGCCCTGCGGGCGCTGCCGCCAGTTACTGTATGAATTCCGGGCTCCAGGGATGGAGCTCATGACCACACAGGGAATCATGACCATGGACCAGGTGCTCCCTGATGCATTTGGCCCCGAACACCTGAAGGAAGCCCCGTGA	MNDASPRPPAEAGQSDVDWPALQAAAVDAMQKAYVRYSKFPVGAAALTSDGRIVSGCNVENASYGLTLCAECTLVGNLHMTGGGLLRAFYCVDGGGNVLMPCGRCRQLLYEFRAPGMELMTTQGIMTMDQVLPDAFGPEHLKEAP	PGPT0021360_1887	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
D1-17_02835	1200	scmP	COG1473	N-acetylcysteine deacetylase	GTGCGCAATTACACTACTGAAGCCGAGCCGACCGTGGCGGTAGGGCCGTGGCTCGAACCGCTGCTGCCGGAACTGATCGAATTCCGCAGGGACCTCCATGCGCACCCTGAACTGTCCTTCAAGGAATTCCGCACCACGGACAAGCTCGTGGAGCGACTGGAAGAGGCGGGGCTGGAGCCGCGCCGGCTTGAAGGCACAGGCCTTACCGTGGACATCGGCGAAGGCCCCATTGCCACCGCTCTGCGCGGTGATATCGACGCCCTGCCGATCATCGAGGAAACCGGCCTGCCGTTCGCTTCGAAGAACCACGGCGTGACCCACGCCTGCGGCCACGACATCCATACCACTACCATGCTGGGGATCGCGCTGGTCCTGCACCGCATGCATCTGGAAACACCCTTGGGCGGGAGCGTCCGCATAATTTTCCAGCCTGCAGAGGAGACCATGCCAGGCGGTGCCCACGCGTGCATCGAGCAGGGGGTCCTCGAAGGTGTGCCGCGCATCCTGGCGCTGCACTGCGATCCGCGCATCAACGTCGGCAAGATCGGTACGCGCATCGGGGCCATCACCTCAGCCTCGGACACCATCAAGATCGAATTGAGCGGCCGCGGCGGCCACACCTCCCGCCCGCATCTCACTGAGGACCTGGTATTCGCCCTCGCCCAGATCGCGGTGAACGTTCCGGCCGTGCTGTCCCGCCGGGTGGACGTCCGCAGCGGCGTCTCCGTGGTGTGGGGCCACATCAACGCCGGGTCGGCGCCGAACGCGATCCCGGGTACGGGCTACATGGCCGGCACCATGCGCTGCCTGGACCGCGACGCCTGGCACAGCGCCGGTGAACTGCTCGACGAAGTGGTGCAGCAGGTGGCCGCGCCCTACGGCGTGGACGTGCACCTGGAGCACACCCGCGGTGTGCCGCCTGTGGTCAACTCGGAGCACGAGACGGCCCTGATCGAGGCTGCGGCCCGCGCCGAGATCGGCGAAGGCGCCGTGGTGCTGACCCCGCAGTCCATGGGCGGGGAAGACTTCGCCTGGTTCCTCGCGGAGCTGCCGGGCGCCATGATGCGCCTCGGGACCCGGACCCCCGGTGGAGAAGACTACGACCTGCACCGCGGCGACTACATTGTTGACGAGCGCGCCCTGGGCTACGGCATCCAGGTTCTCACTGCCGCAGCCTTGCGAACCATTCGCGACCTCTAA	MRNYTTEAEPTVAVGPWLEPLLPELIEFRRDLHAHPELSFKEFRTTDKLVERLEEAGLEPRRLEGTGLTVDIGEGPIATALRGDIDALPIIEETGLPFASKNHGVTHACGHDIHTTTMLGIALVLHRMHLETPLGGSVRIIFQPAEETMPGGAHACIEQGVLEGVPRILALHCDPRINVGKIGTRIGAITSASDTIKIELSGRGGHTSRPHLTEDLVFALAQIAVNVPAVLSRRVDVRSGVSVVWGHINAGSAPNAIPGTGYMAGTMRCLDRDAWHSAGELLDEVVQQVAAPYGVDVHLEHTRGVPPVVNSEHETALIEAAARAEIGEGAVVLTPQSMGGEDFAWFLAELPGAMMRLGTRTPGGEDYDLHRGDYIVDERALGYGIQVLTAAALRTIRDL	PGPT0026300_499	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-17_02836	1134	rfbM	COG0662	Mannose-1-phosphate guanylyltransferase RfbM	ATGAGTAAAGACAAAGTGACAAGCCAGGATTCACCTCTCAGCCGTTTTATTGCTGTGATTCCTGCGGGCGGCGTGGGGACCCGCCTCTGGCCTCTGTCACGCGCAGCAGCTCCCAAGTTCCTTCACGACCTCACGGGTTCGGGAAGCACGCTTCTGCGTGCAACCTATGACCGGCTGGAGCCCCTCGCGGGCAACCGGGTCCTCGTTGTCACCGGAAACGCACACCGCGAGGCCGTGTGCCGCCAGCTGCCGGAGGTCCAGGACGGCGACCTCGTGCTGGAAAGCGAGCCGAAGGACTCAGGCGCTGCCATCGGCCTCGCCGCCGCTATCCTGCACCAGCGGGATCCTGACACCATCATGGGCTCGTTCGCGGCAGACCACGTGATCAGCCCCGATGACCTTTTCCAGCAGACGGTGCGGGAAGCCATCTACACCGCGGCCGCCGGCAAGATCGTCACCATCGGCATCAAGCCGACGCACCCGTCCACCGGGTTCGGCTACATCCGCTCCGGCGCCTCCCTGCACATTCCGGGCGCGCCCAACTCCCAGGCCGTCGTCGAGTTCGTGGAGAAGCCGGACGAGGACGTTGCGCAGCAGTACGTGGACAGCGGCGATTACGTCTGGAACGCCGGCATGTTCGTGGCGCCGGTGTCCCTGATGCTCAAGCACCTGGAAGCGAACCAGCCGGAGCTGTTCACCGGCCTGCAGGAAATCGCCGAAGCCTGGGACACTCCGCGCCGTGATGAAGTCACCGCCCGTATCTGGCCCACCCTGCCCAAGATCGCCATCGACTATGCGGTGGCAGAGCCCGCAGCGGCAGCCGGGGACGTCGCCGTCGTGCCTGGTTCCTTCCGGTGGGACGACGTCGGGGACTTTGCCTCCGTGGGACGCCTCAACAGTGCCAAGGAAGTGGACGAGGTTACTGTCCTTGGCGAGGGCGCGCGCGTCTTTACCGAAAAAGCCAGCGGCGTGGTGGTTTCGGATACCAAGCGCGTTATTGCGCTGATCGGGATTAAGGACGTGGTGATCGTGGATACGCCCGATGCGCTGCTCGTCACCACCAAGCAGCATTCGCAGCGGGTGAAGCAGGCCGTGGACGCCCTGAAGGCCAGCGGTGACACCGACGTCCTCTAG	MSKDKVTSQDSPLSRFIAVIPAGGVGTRLWPLSRAAAPKFLHDLTGSGSTLLRATYDRLEPLAGNRVLVVTGNAHREAVCRQLPEVQDGDLVLESEPKDSGAAIGLAAAILHQRDPDTIMGSFAADHVISPDDLFQQTVREAIYTAAAGKIVTIGIKPTHPSTGFGYIRSGASLHIPGAPNSQAVVEFVEKPDEDVAQQYVDSGDYVWNAGMFVAPVSLMLKHLEANQPELFTGLQEIAEAWDTPRRDEVTARIWPTLPKIAIDYAVAEPAAAAGDVAVVPGSFRWDDVGDFASVGRLNSAKEVDEVTVLGEGARVFTEKASGVVVSDTKRVIALIGIKDVVIVDTPDALLVTTKQHSQRVKQAVDALKASGDTDVL	PGPT0022660_1033	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0022660-manC|cpsB-K00971	NA	NA
D1-17_02837	381	sdhC	COG2009	Succinate dehydrogenase 2 membrane subunit SdhC	GTGCCGACGAAACCAGCTGGCACCTTGTACCGCGGCCGTGAAGGCATGTGGTCCTGGGTTGGACACCGCATTACCGGTGTTGTGATCTTTTTCTTCTTGTTGGTCCACGTGCTGGACACCTCCCTTGTGAGAGTGTCGCCGGAGGCCTACACCGCGGTGATCGGTGCCTACAAGAACCCGCTGATGGCCCTGGGTGAAACGGGCCTGGTCGCGGCGATCGTCTTCCACGCCTTCAACGGCCTGCGGATCATCGCCGTCGACTTCTGGAAGAAGGGTGCCAAGTACCAGCGCCAGATGCTCTGGGTCGTGCTCGGTCTCTGGATCGTCACCATGGTGGCCTTCTCCATCCGCCACCTTTCCCTTGCACTCGGAGGTCACTAA	MPTKPAGTLYRGREGMWSWVGHRITGVVIFFFLLVHVLDTSLVRVSPEAYTAVIGAYKNPLMALGETGLVAAIVFHAFNGLRIIAVDFWKKGAKYQRQMLWVVLGLWIVTMVAFSIRHLSLALGGH	PGPT0001595_3162	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001595-sdhC|frdC-K00241	NA	NA
D1-17_02838	492			hypothetical protein	ATGTCTGCAACTGAGATCCAGCCCCCGCGCAGTGGCCAGATCAGCGGCAAGCCGCAAGCCGGCCTCATCGCTCCGAAGTACCGCCGCGGAGGCAGCTCCCGCGGAAACTTCGAAATGGCCGCATGGCTGTTCATGCGTCTCTCCGGCGTGGTGCTGGTAGTCCTGATCTTCGGCCACCTCTTCGTCAACCTGCTGGTGGGCGAGGGCATCCACGCCATCGACTTCGGTTTCGTTGCCGGCAAGTGGGCCGACCCGTTCTGGCAGTTCTGGGACCTCGCCATGCTGTGGCTGGCCATGCTGCACGGCACGAACGGTGTCCGCACCATCATCAACGACTACGCCGAGAAGGACTCCACCCGCTTTTGGCTCAAGATGGTCCTCTACGCCGCCACCGCCGTCATCATCATCCTTGGCACCTTGGTGATCTTCACCTTCAACCCGTGCCCCGTCGTCGACGGCGTCCAGCTCCCCGGCGGCTTCTGCCCCGCGTAG	MSATEIQPPRSGQISGKPQAGLIAPKYRRGGSSRGNFEMAAWLFMRLSGVVLVVLIFGHLFVNLLVGEGIHAIDFGFVAGKWADPFWQFWDLAMLWLAMLHGTNGVRTIINDYAEKDSTRFWLKMVLYAATAVIIILGTLVIFTFNPCPVVDGVQLPGGFCPA	PGPT0001590_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001590-sdhD|frdD-K00242	NA	NA
D1-17_02839	1803	sdhA	COG1053	Succinate dehydrogenase flavoprotein subunit	ATGCAGGTCCATAAGTACGACGTCGTCATCGTCGGTGCCGGTGGCGCCGGGATGCGCGCCGCGATCGAATCCGGTCAGCGTGCGCGAACAGCAGTACTGACCAAGCTCTACCCCACCCGCTCCCACACGGGTGCAGCCCAGGGCGGCATGTGTGCAGCCCTGGCCAATGTCGAAGAAGACAACTGGGAATGGCACACCTTCGACACCATCAAGGGCGGCGACTACCTGGTTGACCAGGATGCCGCGGAAGTCATGGCCAAGGAGGCCATTGACGCCGTGCTGGACCTTGAGAAGATGGGTCTGCCGTTCAACCGCACCCCCGAGGGCAGGATTGACCAGCGCCGCTTCGGTGGCCACACCCGCGACCACGGCAAGGCTCCCGTCCGCCGGGCGTGCTACGCCGCCGACCGCACGGGCCACATGATCCTGCAGACGCTGTACCAAAACTGCGTCAAGCACAACGTTGAGTTCTACAACGAGTACTACGTCCTGGATCTGCTCACAGTTGAAGAAGACGCAGTGCGCGAGGACGGCACCCCGTACAAGCAGAAGCGCGTCGCAGGCGTCGTCTCCTACGACCTCGCGTCCGGCGAGCTGCACGTTTTCCAGGCAAAGTCCGTGGTGTTCGCCTCCGGCGGCGCCGGCAAGGTCTTCAAGACCACGTCCAACGCCCACACCCTCACGGGTGACGGCATGGGCATCGCCTTCCGCCGTGGCATTCCGCTGGAGGACATGGAGTTCTTCCAGTTCCACCCGACCGGCCTTGCCGGCCTGGGCATTCTGCTGTCCGAAGCCGCCCGCGGTGAGGGCGCCATCCTGCGTAACTCCGAGGGTGAGCGCTTCATGGAGCGCTACGCCCCGACCATCAAGGACCTCGCTCCCCGTGACATCGTGGCCCGCTCCATGGCCAACGAAGTACGGGAAGGCCGCGGCTGCGGCCCGAACAAGGACTACGTGCTCCTTGACCTGACGCACCTTGAGCCGGCCCACATCGACGCCAAGCTGCCGGACATCACCGAGTTCGCACGCACCTACCTCGGCGTGGAGCCCTACACGGAGCCCGTTCCGGTGTTCCCGACGGCGCACTACGCCATGGGCGGCATTCCCACGAACATCAACACTGAGGTCCTGCAGGACAACGACACCGTGGTGCCGGGCCTGTACGCCGCCGGTGAAGTGGCTTGCGTCTCGGTCCACGGCTCCAACCGCCTGGGCACCAACTCCCTGCTGGACATCAACGTCTTCGGTAAGCGCGCCGGCATCGCCGCGGCCGAGTATGCCAGGACGGCAAACTACGTGGAACTCCCGGAGAACCCGGAAGCCTACACGGTTGAGCTGCTGGACATTGCCCGCAACGGCACCGGCACCGAGAAGGTGTCCGTGATCCGCAAGGAACTCCAGGACACCATGGATGCCAACATGCAGGTGTTCCGGACGGCCGACACGCTCAACCAGGTGCTGACGGACATTGCTTCCTTTGAGGAGCGCTACCGGAACATCAGCGTGCAGGACAAGGGCAAGCGCTTCAACCTTGACCTGCTGGAGGCCGTGGAACTCGGCTTCCTGCTGGAACTCGCGAAGGTCATGACCGTGGCCGCCCTGCACCGCGAGGAGTCCCGCGGCGGGCACTTCCGCGAGGACTTCCCGGAACGGGACGACGAAAAATTCATGAAGCACTCCATGGCGTACAAAGAAGACCACGCACCGGCTGACGGTTCCGTGGAGGAGGCAATTGCCGGGATTCGGCTTGGTACAAAGCCGGTCGTGTTTACGCGCTACGAGCCGATGGTGAGGAAGTACTAA	MQVHKYDVVIVGAGGAGMRAAIESGQRARTAVLTKLYPTRSHTGAAQGGMCAALANVEEDNWEWHTFDTIKGGDYLVDQDAAEVMAKEAIDAVLDLEKMGLPFNRTPEGRIDQRRFGGHTRDHGKAPVRRACYAADRTGHMILQTLYQNCVKHNVEFYNEYYVLDLLTVEEDAVREDGTPYKQKRVAGVVSYDLASGELHVFQAKSVVFASGGAGKVFKTTSNAHTLTGDGMGIAFRRGIPLEDMEFFQFHPTGLAGLGILLSEAARGEGAILRNSEGERFMERYAPTIKDLAPRDIVARSMANEVREGRGCGPNKDYVLLDLTHLEPAHIDAKLPDITEFARTYLGVEPYTEPVPVFPTAHYAMGGIPTNINTEVLQDNDTVVPGLYAAGEVACVSVHGSNRLGTNSLLDINVFGKRAGIAAAEYARTANYVELPENPEAYTVELLDIARNGTGTEKVSVIRKELQDTMDANMQVFRTADTLNQVLTDIASFEERYRNISVQDKGKRFNLDLLEAVELGFLLELAKVMTVAALHREESRGGHFREDFPERDDEKFMKHSMAYKEDHAPADGSVEEAIAGIRLGTKPVVFTRYEPMVRKY	PGPT0001605_2189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001605-sdhA|frdA-K00239	NA	NA
D1-17_02840	783	sdhB	COG0479	Succinate dehydrogenase iron-sulfur subunit	ATGTCCGCTGAACTTGCTGAGCCAGCCTCCAAGATCGAACTGCCCGCAGGTGTCGGCGGCGGCGGGGAAATCCCCACCTTCGACATCACCCTGCGCGTCCGCCGCTACAACCCTGAGGTTTCCGAGGACGCCCGCTGGGACGACTTCAAGCTGACCATGTACGGCACGGACCGCGTGCTGGACGCCCTGCACAAGATCAAGTGGGAAGTGGACGGCAGCGTCTCCTTCCGCCGGTCCTGCGCCCACGGCGTCTGCGGCTCCGATGCGATGCGCATCAACGGCCGCAACCGCCTTGCCTGCAAGACGCTGCTGAAGGACCTGGACACGTCCAAGCCCATCACGGTTGAACCCATCAAGGGCCTGCCGGTGGAGAAGGACCTGATCGTGGACATGGAACCTTTCTTCCAGTCGTTCCGCGAAGTCATGCCCTTCCTGATCAACAAGGGCCACGAGCCCACCAAGGAACGCCTGCAGTCCGCCGAGGACCGGGAGCGCTTCGACGACACCACCAAGTGCATCCTGTGCGCGGCGTGCACCTCGTCCTGCCCCGTGTTCTGGACCGACGGCCAGTACTTCGGCCCGGCAGCGATCGTTAATGCGCACCGTTTCATCTTCGACTCCCGCGATGATGCCGGCGACATGCGCCTGGAGATTCTGAACGACAAGGAAGGTGTGTGGCGCTGCCGCACCACCTTCAACTGCTCGGAAGCCTGCCCCCGCGGCATCCAGGTCACCCAGGCCATTGCTGAAGTCAAGCAGGCCATCCTGTCCCGCAAGATCTAA	MSAELAEPASKIELPAGVGGGGEIPTFDITLRVRRYNPEVSEDARWDDFKLTMYGTDRVLDALHKIKWEVDGSVSFRRSCAHGVCGSDAMRINGRNRLACKTLLKDLDTSKPITVEPIKGLPVEKDLIVDMEPFFQSFREVMPFLINKGHEPTKERLQSAEDRERFDDTTKCILCAACTSSCPVFWTDGQYFGPAAIVNAHRFIFDSRDDAGDMRLEILNDKEGVWRCRTTFNCSEACPRGIQVTQAIAEVKQAILSRKI	PGPT0001600_888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001600-sdhB|frdB-K00240	NA	NA
D1-17_02841	807			hypothetical protein	ATGTCCAGCAAACCGTCCCAGAGGAAAGGCAACGCCGTGTCCCGCTCCGAAAAGGTCACCTTCAAAGGTTCCACCGGTGAGCTGCTCTCCGGCATCCTCGACACGCCGGAAGGGACGGTGAAGGGCTGGGGCGTCTTCTCCCACGGGTTCACGCTGGGCAAGGACAGTCCTGCCGCATCCCGCATGTGCAAGGCCCTGGCGGACCACGGCATCGGCATGCTCCGGTTCGACAACGTGGGCCTTGGCGGCTCGGCAGGTGAGTGGTCGGAAGGGTCCTTCAGCCACAAGGTGGCGGACACCGTTCGCGCCGCCGAGTACATGCGTGCGGAGGGCCGGGCCGTCTCCCTGCTGGTGGGACATTCCTTCGGCGGCGCCGCCGTGCTTGCTGCAGCGTCCGAGATTCCCGAGCTCGACGCCGTGGCCACCGTGGCAGCCCCCTTCTCACCGAAGCATGTGGCGCATGTCTTTGACGCCGCCCTGGACAAAATCCTGAGCGAGGGCAGCGCGGAGGTCGACCTCGGCGGCAAGCGCGTGGAGATCCGGCGGCACTTTGTCGAAGACCTGGAGAACGCCGACCTCACCGACTGCATCAAGCGGCTGCACAGGCCCCTGCTGGTGCTGCACTCCCCCACAGACAACACAGTGGGCATCGAGAACGCCAGCACCATTTTCCAGACCGCGCGTCATCCGCGCAGCTTCGTTTCGCTCGAGGGCAGCGACCACCTGCTGACCGGAAAGGGCCAGGCAGCGCGAGCGGCAAAGATTATCGCGGCGTGGGCCGATCAGTACCTCGACGCCGGGCAGTGA	MSSKPSQRKGNAVSRSEKVTFKGSTGELLSGILDTPEGTVKGWGVFSHGFTLGKDSPAASRMCKALADHGIGMLRFDNVGLGGSAGEWSEGSFSHKVADTVRAAEYMRAEGRAVSLLVGHSFGGAAVLAAASEIPELDAVATVAAPFSPKHVAHVFDAALDKILSEGSAEVDLGGKRVEIRRHFVEDLENADLTDCIKRLHRPLLVLHSPTDNTVGIENASTIFQTARHPRSFVSLEGSDHLLTGKGQAARAAKIIAAWADQYLDAGQ				NA	NA	NA	NA	NA
D1-17_02842	1065			hypothetical protein	GTGGAGTGGGGCAAGGCCCGCAGATCCGGCAAGGGCACGGTGCCCCAGCTCGTGGCCATGTTTCAGTGGCTGCTCGCGCGGCTGAACGCCTTCCGGCCCGTGCGCGCCTTTCAGTACTACAACCTTCAGCGCGGACCGTTGCTTGGCGCCGGTATCGGCTTCAACATGTTCTTTTCCATCACGGGCCTGCTTACTACCGGTTTCTCCGTTGCCGGGCTGCTGCTTCGCGGCCAACCAGCGCTCCTGGACAGAATCGTCAGCAGTGTGTCGGCGGCGGCCCCGGGACTGTTGAAAACCGGGGGCCGGGAAGGACTGGTGGCCCCCGAGGAGCTGCTGAACCCGGACGGGCTCGGCTGGACGGCAGTTATCGCCGCCGCAGTGACTGTCGTGACGTCTCTCCGCTGGATAGGCGGGATGCGCGGTGGTCTTCGCATAGTGCATCGATTGCCTCCAGTGAAGCTGAACCCCGTCGTCCTCAAGCTCAAGGACACGGGAGTCCTCCTGCTGCTTGGCGTAGCGCTTGTGCTGAGCGCAGGGGCGTCGCTGGTTTTCGGGACGGCAGCAGGCTGGGTGACCGTACAACTCCGGCTCGATCCGCTGCTCTCGTGGCCCTTGACCACGTCCATCAAAATCGGTGTGCCGCTGGTGCTGGGCTGGGTTACTGCCCTCATAATGTTTCGGTTCGCAGGGGGACTCAAACTGTCCCGCCGGGCGCTGCTGGAGGGGACCATCCTCGCGGCACTGGGGACAACGGTCCTCCAGATCTTCAGCACGGAATTGCTGGCAAGCGCCGGACGCAATCCCATCCTGGCCCCGTTCGCCATCATCATAGGGCTGCTCATCTGGTTCAACCTGGTCAGCCAGGTCTACCTCGTGGCCGCCGCTTGGTCGGCGATCCGCGAGGAGGACCTTAAGGCTGCTCCGGCAGCGAAGACAACCGGCTGGGGACCACGCCAGGTGCAGCCCGGCAAGACCCCCGTGGAACGGAACCACGTCGCCGATCATCCGCGGCCGGTGGGTGTCACTGCCCGGCGTCGAGGTACTGATCGGCCCACGCCGCGATAA	MEWGKARRSGKGTVPQLVAMFQWLLARLNAFRPVRAFQYYNLQRGPLLGAGIGFNMFFSITGLLTTGFSVAGLLLRGQPALLDRIVSSVSAAAPGLLKTGGREGLVAPEELLNPDGLGWTAVIAAAVTVVTSLRWIGGMRGGLRIVHRLPPVKLNPVVLKLKDTGVLLLLGVALVLSAGASLVFGTAAGWVTVQLRLDPLLSWPLTTSIKIGVPLVLGWVTALIMFRFAGGLKLSRRALLEGTILAALGTTVLQIFSTELLASAGRNPILAPFAIIIGLLIWFNLVSQVYLVAAAWSAIREEDLKAAPAAKTTGWGPRQVQPGKTPVERNHVADHPRPVGVTARRRGTDRPTPR	PGPT0014525_2225	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-17_02843	597	thpR		RNA 2',3'-cyclic phosphodiesterase	ATGCCCGTCAAAAGGAGAGACGGCGAAGGAATGAGCCTCGGGGTAATCCTGGGCTTCCCGCCCGGCATCGCCGAGGAACTGCAACGCTGGCGTGCCTCTTTCGGGGATCCCATGGCCACGGTCATTCCGGCGCACATCACGCTCGTCACCACCACTCCCACGAACGACTGGGAGGCCGCACGGGACCACGTCCGTGAAGTGGCGCGCACCCAGGCGCCCTTCATGGTGACCATTGCCGGCACCGGTTCCTTCCGGCCCGTATCCCCGGTGGTCTTCATCAACGTGGAGGACGGGTTCGAGGAGTGCGTGGAACTGCATGAGAAACTGCAGACCGGACCGTTGGCCCGTGAGCTCCCTTTTGCCTACCACCCCCACGTGACGATCGCCCACGACGTCGCCCCGGAAAGCCTCGATGAGGCCGAAATGGTCCTGAAAGACTACAGAGCAACTTTCCCCGTGGTTAGCATGGGACTTTACGAGCACGATGCTGACGGCATTTGGCAGCTACGGGAAGAGCTTGACTTTGGTACCGAACCTGACAACGAGCGGGAGCAGCTCCGAGCAGCCGAAGCTGGCGGGGCAGCCACTTCCCACTGA	MPVKRRDGEGMSLGVILGFPPGIAEELQRWRASFGDPMATVIPAHITLVTTTPTNDWEAARDHVREVARTQAPFMVTIAGTGSFRPVSPVVFINVEDGFEECVELHEKLQTGPLARELPFAYHPHVTIAHDVAPESLDEAEMVLKDYRATFPVVSMGLYEHDADGIWQLREELDFGTEPDNEREQLRAAEAGGAATSH				NA	NA	NA	NA	NA
D1-17_02844	1104	trpS	COG0180	Tryptophan--tRNA ligase	ATGACCTCCACCCCCATCGTGACCGACGGCTCTGCTGCCGGACAGCCCGCCGCCACCCTCCAGCCGGACGGCAAGAGCGGTCAGGACGCCGGGATCCGCCACCGCATCCTGTCGGGCATGCAGCCCTCCGCCGACTCCCTGCACCTGGGGAACTACCTCGGCGCCCTCGTGAACTGGGTCCGCATGCAGGACGAATACGATGCCGTGTTCTTCATCCCCGATCTGCACGCCATTACGGTTCCGCAGGATCCCGCCGAACTGGCCCACCGCACCCGCGTCACAGCCGCTCAGTACATTGCCGGCGGAGTGGACGTGGACAAGTGCACTCTGTTCGTCCAGTCCCAGGTCCCCGAACACGCGCAACTGGCCTGGGTCCTGAACTGCATTACGGGGTTCGGCGAAGCCTCCCGCATGACGCAGTTCAAGGACAAGGCGCTAAGGCAAGGCTCGGACCAGGCCAGCGTCGGCCTGTTCACCTACCCCATCCTGCAGGCCGCGGATATCCTGCTGTACCAGCCGCACGGCGTGCCCGTGGGTGAGGACCAGCGCCAGCACGTGGAACTCAGCCGCGACCTCGCCACCCGGTTCAACACCCGCTTCGGCCAGACGTTCACAGTACCCAAGCCCTTCATTCAGAAGGAATCGGCGAAGATCTACGATCTGCAGCAGCCCACGGTCAAGATGTCCAAGTCCGCCGAATCGCCTGCCGGCCTGATTAACCTGCTCGACGAGCCCAAGATTATCGCCAAGCGGATCAAGTCCGCGGTGACCGACGCCGAGACCGAGATCCGCTTCGACCGCGATACGAAGCCGGGCGTTTCCAACCTGCTGACCATCTACTCCGTCATCACCGGCCAGACGGTGGAGCAGCTTGTCGCAGCCTACGAAGGAAAGATGTACGGCCACCTCAAAGTGGACTTGGCTGACGTGGTGACAGAGCGCCTGACGCCGATCCGCAACCGCGCCAACGAGCTGCTCGGCGACCCGGCGGAGCTTGACCGGCTGCTGGCCCACGGCGCCGACAAGGCACGTGAGATCGCCTCGGCCACTCTCGCCGACGTTTACGCCAAGGTCGGCTTCCTGCCATACGCGGGAGCCCGCTAA	MTSTPIVTDGSAAGQPAATLQPDGKSGQDAGIRHRILSGMQPSADSLHLGNYLGALVNWVRMQDEYDAVFFIPDLHAITVPQDPAELAHRTRVTAAQYIAGGVDVDKCTLFVQSQVPEHAQLAWVLNCITGFGEASRMTQFKDKALRQGSDQASVGLFTYPILQAADILLYQPHGVPVGEDQRQHVELSRDLATRFNTRFGQTFTVPKPFIQKESAKIYDLQQPTVKMSKSAESPAGLINLLDEPKIIAKRIKSAVTDAETEIRFDRDTKPGVSNLLTIYSVITGQTVEQLVAAYEGKMYGHLKVDLADVVTERLTPIRNRANELLGDPAELDRLLAHGADKAREIASATLADVYAKVGFLPYAGAR	PGPT0007120_2152	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007120-trpS-K01867	NA	NA
D1-17_02845	834	exoA	COG0708	Exodeoxyribonuclease	GTGAGCTCGGCATTGAAGAAGGACCACCTTCGCATCGCAACAGTCAACGTCAACGGCCTTCGGGCTGCCTACAAAAAGGGCATGGCTGAGTGGCTGGCGGACCGCGAAGTGGACATTCTCACCCTGCAGGAAGTCCGCGCCCCCGACGCCATTGTCCGCAAACTTCTGGGCGATGGCTGGCATATCCTGCACGCAGAGGCGGAAGCCAAGGGCCGCGCCGGCGTCGCCATCGCCTCCCGGGAGGAGCCGCTGGTAACCCGCGGGCACATCGGAGACGACTACTTCGCCACAGCCGGCCGCTGGGTGGAGGCGGACTTCCGGATCCGCGACGCCGAGGGCAATGCCTCCCAGCTGACAGTTGTAAGCGCCTATGTCCACTCAGGGGACGTCGGGACTCCCAAGCAGGTGGACAAGTACCGCTTCTTGGACCTCATGACCGCGCGGCTCCCAGAGCTGGCAAAGCACAGTGACCACGCCCTGGTCACCGGCGATCTGAACGTGGGCCACACCGAGCTGGACATTAAGAACTGGAAAGGCAACGTCAAGCGTGCCGGCTTCCTGCCCGAGGAGCGAGCGTACTTCGACCGCTTCTTCGGCGAGGACATCGGCTGGAAGGATGTTCACAGGAGCCTGGCGGGTAACGTCAACGGCCCCTACACCTGGTGGTCCCAGCGTGGCCAGGCCTTTGACAATGACTCTGGCTGGCGCATCGATTACCACATGGCCACCCCCGGACTCGCCGCAGCTGCCGTTTCGGCAGTCGTGGACCGGGCGCCCTCGTGGGACACACGTTTCTCTGACCATGCACCGCTGGTAGTGGACTACCGGCTCTAG	MSSALKKDHLRIATVNVNGLRAAYKKGMAEWLADREVDILTLQEVRAPDAIVRKLLGDGWHILHAEAEAKGRAGVAIASREEPLVTRGHIGDDYFATAGRWVEADFRIRDAEGNASQLTVVSAYVHSGDVGTPKQVDKYRFLDLMTARLPELAKHSDHALVTGDLNVGHTELDIKNWKGNVKRAGFLPEERAYFDRFFGEDIGWKDVHRSLAGNVNGPYTWWSQRGQAFDNDSGWRIDYHMATPGLAAAAVSAVVDRAPSWDTRFSDHAPLVVDYRL				NA	NA	NA	NA	NA
D1-17_02846	507			hypothetical protein	ATGTTCCGCATCAGCGGACCGGGGTTTCTGGTCCTGATTACCGCCTTCCTGGTCGCCGTCATCTTCGCGGCCAACCAGAACGACGTGGTCGGCTGGGTGGTCGCTGTCATCGCACTCTTCTGGCTCCTGCTGGCATCGTTCGTGGTCTTCAGCATCCAGAAGGCGGCCAAGAAGGCAGGAGCGAAGCTGAACGAAGCGCAGAACGCCTTCAACGCCGCAGCCGGCCGTGCACCGGGGCGCGGCTCAGCGGACCACGGCGGAACACGGCTGGTGCGCGAACGCGGTGAAGCCGAGGAAATCCGCGACATGAAGCTGGACCACTCCTTCAAGATCGTCCAGGTGCAGGTCCGTGTGGTGGAGCAGGAACGGGCCAAGGGAGCCGCCGCGGACCAGGACACGATCCGCCGTGCCCTCGAAACCATCGAAATAACCGCCACCAACGCCAGGGACATGATTAAGTCCTCGGGCGGTCCCGGTGAACCCGTAACCGGAACCATCATCGACTAG	MFRISGPGFLVLITAFLVAVIFAANQNDVVGWVVAVIALFWLLLASFVVFSIQKAAKKAGAKLNEAQNAFNAAAGRAPGRGSADHGGTRLVRERGEAEEIRDMKLDHSFKIVQVQVRVVEQERAKGAAADQDTIRRALETIEITATNARDMIKSSGGPGEPVTGTIID				NA	NA	NA	NA	NA
D1-17_02847	834			hypothetical protein	ATGAGCGTCCTGACGCAGGGCCACAGCGTGACGGAGGAGGCCCGGAACCGGCGCTTTGGCCCCCTGTACTCCCGCAACGCGAGGGCTGTCATTGGGCGGGGCCTGATGGCCACGAAGAGCAGCAACTGGCTGGTCATGCTGTCCGGGTTCTTCGAGCCGGTGCTGTTCCTGCTGTCGATGGGCATCGGCATGGGGGCCGTGGTGGGTTCCGTCACAGGGCCAGGCGGGCAGGAAATCAGCTATGCCGCTTACATTGCGCCTGCCCTCCTTGCTGTCTCGGCCATGAACGGTGCTGTCTACGACTCCACCTGGAACGTCTTCTTCAAGATGAACTTCGCCAAGTTGTACCAGGGCATGCTCTGCACTTCCCTGGGTCCGCTCGACGTGGCGATGGGGGAGATCTTCCTGGCCCTCCTGCGCGGCCTTTTGTACGCCACGGGCTTCACCGCCGTGATGGGCCTGATGGGTCTCATCACCACGCCCTGGGCGCTGCTGATGATCCCTGCGTCGGTACTGATCGCCTTCGGCTTCGCCAGCTTCGGCATGGGCCTGACGAGCTTCATGAAGACCTTCCAGCAGATGGACTGGATCAACTTCATCATGCTGCCGATGTTCCTGTTCAGCGCCACGTTCTACCCCCTCAGCGTCTACCCGCAGATGATCCAGTGGCTCATCCAGGCCATGCCGCTGTGGCACGGCGTGGAGTTGCTGCGCCAGATCAGCGCCGGGACGTTCACCCCGGCCGCGGCCATCCACGTCGGCTACTACCTGGTGATGATCGTGCTCGGACTAATGCTGACCACCAGCAGGCTCCGGAGCCTGTTCCTGAAGTAG	MSVLTQGHSVTEEARNRRFGPLYSRNARAVIGRGLMATKSSNWLVMLSGFFEPVLFLLSMGIGMGAVVGSVTGPGGQEISYAAYIAPALLAVSAMNGAVYDSTWNVFFKMNFAKLYQGMLCTSLGPLDVAMGEIFLALLRGLLYATGFTAVMGLMGLITTPWALLMIPASVLIAFGFASFGMGLTSFMKTFQQMDWINFIMLPMFLFSATFYPLSVYPQMIQWLIQAMPLWHGVELLRQISAGTFTPAAAIHVGYYLVMIVLGLMLTTSRLRSLFLK	PGPT0015280_171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015280-nodJ-K09694	NA	NA
D1-17_02848	906			hypothetical protein	TTGACTGAGCCGCTGCCCGCGAAGGGCACCCTTTCACCTGACGTTCCAGAACGGCCGACGGCGCGGCCTCCTTTGCGTGCCCATTCGCCGGAGGTTTCTGCCGCGAGGGCGCGGCGGTGGGGCGCCTTCTATTTCGCCGAGCATGTCCTGCGTGTGATGAAGGGTTATGGCTGGTCGATTTTCCTCTACAGCGTGGGGCAGCCCGCGGCCTACCTGTTTGCCATGGGCATCGGTCTGGCCACGCTTGTGGAGGGGAACGCTGCGGACGCCAACGGTGCGACAGTGTTCGGCGGGGTCAGCTACCTGGCCTTCATTGCGCCTGCCCTGCTGATTTCCGCCGCCGTCATGACAGCGGCCAACGAATTTACGTACCCGGTGATGGACGGCTTCAAGTGGCGGCGGGTCTACTACGGGCCGCATGCCTCACCGCTGACCCCGGAACAAATCGCGGCGGGCCAGATCATCGCCGTAACGGTGCGCTTCTTCCTGCAGTCCGCGATCTATTTCGCCATCGTCACGCTGTTCGGCGCTTCGCCCAGCGGCTGGGGCTGGGTCTCCATCCTCGTGGCCACGCTGGCAGGTCTGTCCTTCGGGCTGCCACTGATGGCCTATGCAGCGACCATCAAGGATGACAAAGGGCAGTTCGCCATGGTGATGCGCTTTATTGTGATGCCGCTCTTTCTGTTTTCCGGCACCTTCTTTCCGCTGGACACACTGCCGCTGCTGGTCCGGTGGGTCGGCTGGATATCGCCCATCTGGCATGGCACGGAACTCGGCCGGGTCCTCAGCTACGGCCATGAGGAACCGCCCGTCCTGACCATCATTCACATCGTCTTCCTGGCGGGCCTGGCGTGGTTTGGCTGGGCGGTCACGAAGCGGCAATTCGCCCGGAGGCTGGGGCAATGA	MTEPLPAKGTLSPDVPERPTARPPLRAHSPEVSAARARRWGAFYFAEHVLRVMKGYGWSIFLYSVGQPAAYLFAMGIGLATLVEGNAADANGATVFGGVSYLAFIAPALLISAAVMTAANEFTYPVMDGFKWRRVYYGPHASPLTPEQIAAGQIIAVTVRFFLQSAIYFAIVTLFGASPSGWGWVSILVATLAGLSFGLPLMAYAATIKDDKGQFAMVMRFIVMPLFLFSGTFFPLDTLPLLVRWVGWISPIWHGTELGRVLSYGHEEPPVLTIIHIVFLAGLAWFGWAVTKRQFARRLGQ	PGPT0015280_12	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015280-nodJ-K09694	NA	NA
D1-17_02849	972	lnrL_3	COG1131	Linearmycin resistance ATP-binding protein LnrL	GTGTCCGGGGAAGAAGCCGGCTTCGCGGAAGATCACGCGCCAGCCCCGGCCCAGTACGTGATCGCAGCGGAGAACCTAACCAAGACCTATGGCGACGTCACCGCCGTCGACGGCATTTCCTTCAGAGTTCCCGCGGGGGAGGCGTTCGGGCTGCTGGGGCCCAACGGCGCCGGCAAGTCCACCACGATGAAAATGATCGGCGGCGTGTCCCAGCGCACCTCGGGCAGCCTGACCATCATGGGCCTGGACCCGGAGCAGCACGGGCCGGAGGTCCGGGCGCACCTTGGCGTGGTGCCGCAGCAGGACAACCTGGACGAGGAGCTCAAGGTCCGGGACAACCTGCTGGTGTACGGGCGCTACTTCGGCCTGCCAATGAGCTATCTCCGGCCCAAGGCTGACGAGCTGCTCGAGTTTGCACAGCTGACGGACAAGGCCAAGTCGAAGGTGGATGCCCTGTCCGGCGGCATGAAGCGCCGCCTTACCATCGCGCGCTCGCTCATCAACGAGCCCCGCATCCTCCTGCTGGACGAACCCACCACAGGCCTTGACCCGCAGGCGCGGCACATCCTGTGGGACCGGCTGTTCCGGCTCAAGGAACAGGGCGTCACGCTGATCCTGACCACCCACTACATGGACGAGGCAGAGCAGCTGTGTGACCGGCTCATTGTGGTGGACAAGGGGCGGATCATGGCGGAAGGGTCGCCCGCCAGCCTGATCAGGAACTACTGCACAAGGGAAGTCCTCGAACTGCGCTTCGGGTCGGAACGGAACGCCAGCGTCGGCGCGGAACTGGAAGGCATCGGCGAAAGGCTGGAGACGCTGCCGGACCGCGTGTTGATCTACACGCAGGACGGCGAGGCGGCCCTTGAGGAAGTCTCCGCCCGCGGCCTGCGCCCGCTCACGTCGCTGGTGCGCCGGTCCTCGCTGGAGGACGTCTTCCTCCGGCTAACGGGCAGGAGCCTCGTTGACTGA	MSGEEAGFAEDHAPAPAQYVIAAENLTKTYGDVTAVDGISFRVPAGEAFGLLGPNGAGKSTTMKMIGGVSQRTSGSLTIMGLDPEQHGPEVRAHLGVVPQQDNLDEELKVRDNLLVYGRYFGLPMSYLRPKADELLEFAQLTDKAKSKVDALSGGMKRRLTIARSLINEPRILLLDEPTTGLDPQARHILWDRLFRLKEQGVTLILTTHYMDEAEQLCDRLIVVDKGRIMAEGSPASLIRNYCTREVLELRFGSERNASVGAELEGIGERLETLPDRVLIYTQDGEAALEEVSARGLRPLTSLVRRSSLEDVFLRLTGRSLVD	PGPT0015275_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015275-nodI-K09695	NA	NA
D1-17_02850	906	folD_2	COG0190	Bifunctional protein FolD protein	ATGGCATCTGCTGAAACGGCTAAAACCGCACAAGTCCTTGACGGCAAGGCGGCAGCCGCCGCCATCAAGGCCGAACTGACCGAACGCGTGGCCGCGCTCAAGGCCAAAGGCGTCACACCGGGACTGGGCACCATCCTCGTCGGTTCCGACCCTGGCAGCACATGGTACGTGGGCGGCAAGCACAAGGACTGCGCGGAGGTGGGCATCACGTCCATCCGCCGCGACCTGCCCGAGGACATCAGCCAGGATGACCTTCTGGACGTGGTCCGCGAGCTGAACGAGAACCCGGATTGCACCGGCTACATTGTCCAGCTGCCACTGCCCAAGCACATCGACCAGGACACCATCCTGGAGGCGATGGATCCGGACAAGGACGCCGACGGCCTGCACCCGATGAACCTGGGCCGGCTCGTTGCCAACATCAGCGGACCCATGAAGTCCCCGCTGCCATGCACGCCTAAGGGGTGCGTGGAACTGCTTGCCCGCCACGGCATCGACCTCAAGGGCAAGCGCGTCCTCGTGGTGGGTCGGGGCGTCACCATCGGCCGTCCGGTGGGGCTGCTGCTCACCCGCAAGGACGTCAACGCCACCGTGGTCCTGGCCCACACCGGCACCGTTGACCTGCCCGCCGAACTCCGGCAGGCCGACGTCGTCATTGCTGCGGCCGGTGTGCCGCACCTGGTAAAGGCGGAGGACCTGAAGCCGGGCGCAATAGTGCTCGACGTCGGTGTGTCCCGCGTGGACGACGGCTCCGGCAAGTCGGTGATTACCGGAGACGTGCACCCCGACGTCTCCGACGTCGCGGCCTGGCTGTCCCCGAATCCGGGCGGCGTGGGTCCGATGACCCGTGCCATGCTGCTGTCCAACGTGGTGGAGAGCGCCGAGCGCCAGGCCGGCATCAGCTGA	MASAETAKTAQVLDGKAAAAAIKAELTERVAALKAKGVTPGLGTILVGSDPGSTWYVGGKHKDCAEVGITSIRRDLPEDISQDDLLDVVRELNENPDCTGYIVQLPLPKHIDQDTILEAMDPDKDADGLHPMNLGRLVANISGPMKSPLPCTPKGCVELLARHGIDLKGKRVLVVGRGVTIGRPVGLLLTRKDVNATVVLAHTGTVDLPAELRQADVVIAAAGVPHLVKAEDLKPGAIVLDVGVSRVDDGSGKSVITGDVHPDVSDVAAWLSPNPGGVGPMTRAMLLSNVVESAERQAGIS	PGPT0008075_696	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
D1-17_02851	1386	glyA1	COG0112	Serine hydroxymethyltransferase 1	GTGGTCATCAAGGGGCGGAGCCGCGCCCATGCCGGTAGCCTGACCTTAGCAGTGCCCATCCCTAGCCAGGAGATCCTCGTGACTACTTCACCGACTTCCCTCAGCACTTCATCCGACGTCAGCAACCAGCCGCTTGCCGAACTCGACCCCGAGATCGCTGCGGTACTGGACCAGGAGCTCGGCCGCCAGCGCGGCACCCTGGAGATGATCGCTTCGGAAAACTTCGCACCGCGTGCAGTAATGGAAGCCCAAGGCTCCGTCCTGACCAACAAGTACGCCGAGGGCTACCCGGGCCGCCGTTACTACGGTGGCTGCGAATACGTTGACGTCGCAGAGCAACTGGCCATCGACCGGGTGAAGGACCTGTTCGGCGCCGAATACGCCAACGTCCAGCCGCACTCCGGCGCGCAGGCCAACGCCGCAGCCCTCTCGGCCATGATCACCCCCGGCGACAAGATCCTGGGCCTTTCCCTGGCACACGGCGGACACCTGACCCACGGCATGAAGCTGAACTTCTCCGGCAAGCTCTACAAAGTGGCCGCCTACCAGGTTGAGCAGGACACCTTCCGGGTGGACATGGACAAGCTGCGCGAGCAGGCCATCGCCGAGAAGCCGCAGGTCATCATCGCCGGCTGGTCCGCCTACCCCCGCCACCTCGACTTTGCGGCATTCCGCTCCATCGCCGATGAAGTCGGCGCGCTGCTCTGGACCGACATGGCCCACTTCGCAGGCCTCGTGGCTGCAGGACTGCACCCGAGTCCCGTGCCGCACTCCGACGTCGTCACCTCCACCGTGCACAAGACCCTCGCCGGTCCCCGCTCCGGTGTGATCCTGGCCAAGCAGGAGTGGGCCAAGAAGCTCAACTCCAACGTCTTCCCGGGCCAGCAGGGCGGGCCGCTGATGCACGTCATCGCCGCCAAGGCCGTGGCCTTCAAAATCGCCGGCACCGCCGAGTTCAAGGAGCGCCAGGAGCGCGTCCTGGAGGGCGCGAAGATTATCGCCGACCGCCTGAACCAGGCCGACGTCGCCGAGGCCGGCGTCTCGGTCCTGACCGGCGGCACCGATGTGCACCTGGTCCTGGTTGATCTTCGCAACTCGCAGCTGGACGGCCAGCAGGCCGAGGACCTCCTGCACTCGGTGGGCATCACCGTCAACCGCAACGCTGTGCCGTTCGACCCCCGCCCGCCGATGGTCACCTCCGGCCTGCGCATCGGCACCCCTGCGCTGGCCACCCGTGGCTTCGGCGCCAAGGAATTCACCGAGGTTGCAGACATCATCGCCACCGCGCTTAAGGCCGGCTCGGCCACCGACGTGGAGGCCCTGCAGGCCCGCGTGGACAAGCTTGCCGCCGACTTCCCGCTGTACCCCCAGCACGAGCAGTGGTAA	MVIKGRSRAHAGSLTLAVPIPSQEILVTTSPTSLSTSSDVSNQPLAELDPEIAAVLDQELGRQRGTLEMIASENFAPRAVMEAQGSVLTNKYAEGYPGRRYYGGCEYVDVAEQLAIDRVKDLFGAEYANVQPHSGAQANAAALSAMITPGDKILGLSLAHGGHLTHGMKLNFSGKLYKVAAYQVEQDTFRVDMDKLREQAIAEKPQVIIAGWSAYPRHLDFAAFRSIADEVGALLWTDMAHFAGLVAAGLHPSPVPHSDVVTSTVHKTLAGPRSGVILAKQEWAKKLNSNVFPGQQGGPLMHVIAAKAVAFKIAGTAEFKERQERVLEGAKIIADRLNQADVAEAGVSVLTGGTDVHLVLVDLRNSQLDGQQAEDLLHSVGITVNRNAVPFDPRPPMVTSGLRIGTPALATRGFGAKEFTEVADIIATALKAGSATDVEALQARVDKLAADFPLYPQHEQW	PGPT0008090_2284	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-17_02852	861	purU_4	COG0788	Formyltetrahydrofolate deformylase	GTGATTGAAGACCACCCCGCCAAAGCATACGTAGTAACTCTGTCTTGCCCGGACCGCCCGGGGATCGTCCACGCCGTGGCCGGCGCCCTGCTCGTGGCGGGCTGCAATATTACTGACTCCCAGCAGTACGGCAGCGAGGCCACGGGAACTTTTTTCATGCGGGTCGAGGCCACGACCGCCGCACCGCGCAATGAAGTCCACGCCGCCTTGGAACCCGTGGCGGAGGCCTTCGGCATGCAGTGGAGCCTCAACCCGGCGGGCCAGAAGGTCCGGACACTGCTCATGGCGAGCAAGTCCGCGCACTGCCTCAACGACCTGCTGTTCCTGCAGCGCTCGGGCACGCTGCCGATCGAGATTCCGGCAATTGTGTCAAACCACAACGACCTGGCCGGGCTCGCAGGGTTTTACGGCATCCCGTTCCACTACATCCCGGTGACTCCTGAGACGAAAGCGGAGGCCGAGGACAAGCTGCGGCAGATCATCGCCGAGGAACGCATTGAGCTGACGGTCCTGGCCCGCTACATGCAGATCATCTCGGATGAGCTGTGCGAGGAACTGACCGGCAAGGCCATTAACATCCACCACTCCTTCCTGCCGTCCTTCAAGGGCGCCAAACCCTACCACCAGGCACATGCCCGCGGCGTGAAACTGATCGGTGCCACGGCGCACTACGTCACTGCTGCACTGGACGAAGGTCCCATCATCGAACAGGAAGTGATCCGCGTGGACCATGCCCGCACCCCCGAGCAGTTCGTGCAGATGGGTCGGGACGTGGAGGCACGCACGCTGGCCCAGGCCGTGCAGTGGCATGCCGAGCACCGGGTACTTCTGGACGGCAACCGGACGGTTGTCTTCAACTGA	MIEDHPAKAYVVTLSCPDRPGIVHAVAGALLVAGCNITDSQQYGSEATGTFFMRVEATTAAPRNEVHAALEPVAEAFGMQWSLNPAGQKVRTLLMASKSAHCLNDLLFLQRSGTLPIEIPAIVSNHNDLAGLAGFYGIPFHYIPVTPETKAEAEDKLRQIIAEERIELTVLARYMQIISDELCEELTGKAINIHHSFLPSFKGAKPYHQAHARGVKLIGATAHYVTAALDEGPIIEQEVIRVDHARTPEQFVQMGRDVEARTLAQAVQWHAEHRVLLDGNRTVVFN	PGPT0008155_2070	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-17_02853	360	rebM		Demethylrebeccamycin-D-glucose O-methyltransferase	ATGGCTCTGCTGACAGACACCGCACTGGAACCTTTCATCGCCCTGCTCAAAACCCAGAGACGGCACTCAGTCCTGAACGTGTGCTGCGGCCCGGGGGATGACGGCATCCGGTTTGTTCAGGCCGGGATCCACTACACCGGCGTGGACCCCTTCGACGGGAACGTCCGCTACGCAGTCGCCCGCCGGCTGAGCGTATCGGTTGCGCAACCGGACCGCCTGCCCTTCGCGGACAACACCTTCCCCGCTGTTTGGGCGGTGGAGTCCCTGACGGGCCTCACTGCGGACCAGGCGGATGACGTCGTCCGGGAGCTTGAGCGCGTGGCCGAACCTGGCGCGCCGATCGCCGTCGTCCTTCCCTAG	MALLTDTALEPFIALLKTQRRHSVLNVCCGPGDDGIRFVQAGIHYTGVDPFDGNVRYAVARRLSVSVAQPDRLPFADNTFPAVWAVESLTGLTADQADDVVRELERVAEPGAPIAVVLP				NA	NA	NA	NA	NA
D1-17_02854	633	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTACACCCCAGCACATTTCGCAGCCAGCCCCGACGCAATCAACGGCCTCCTCGCAAGGCCCGCTGCCGCCAACTTGATCACCGCCACGGCGCAGGGCATCCTCGCCACTATGCTGCCCCTCATCTACGAACCGTCCATCGGCGACCACGGGGCGCTGCACGGGCACCTCGCACGAAACAACCCGCAGTGGTCCGCACCTGCACTCGGTGAGTCGATGGCGATTCTGCAGGGCGCCGACGCCTATATCTCACCGTCGTGGTACGCCTCGAAGTCAGAGCATGGACGGGTGGTGCCCACCTGGAATTACTCCACGGCCCATGTGTACGGGAACCTCGTTATCCACGACGACGCGGCCTGGCTCAGCAACCACGTCAGGCGGCTGACCGACCTCCACGAGGCCGGCACCGATCGTCCATGGTCAGTGGACGATGCCCCGGAGCGGTTCATTTCGGGGCAGCTGCGCGCCATCGTCGGTGTCGAACTGATCATCAGCAGGATCGAGGGAAAGACAAAGCTCAGCCAAAACCGGCCAGACGCGGACGTCAGCGGTGTCGTTGCCGGGCTGCAGTCGGTTGGGCAATCGGAGATCGCGGAGGAGGTGGAGCGGGCACGGCGGGAGCGGCGCGTTTAA	MYTPAHFAASPDAINGLLARPAAANLITATAQGILATMLPLIYEPSIGDHGALHGHLARNNPQWSAPALGESMAILQGADAYISPSWYASKSEHGRVVPTWNYSTAHVYGNLVIHDDAAWLSNHVRRLTDLHEAGTDRPWSVDDAPERFISGQLRAIVGVELIISRIEGKTKLSQNRPDADVSGVVAGLQSVGQSEIAEEVERARRERRV	PGPT0014760_324	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
D1-17_02855	963			hypothetical protein	ATGTGCATCGGACCCGCAGTCACCGGGCCTGAAGTCGCCGGACCAGCAGCCACCGGGCATGCACGCGTCGGGTTGGGGTGGGGCCTGCTTGGTGTCACCGCCTTCTCGCTGACTGTTCCGCTCACGCGCCTGGCGGTGGAGGGATTGCCGCCCATGTTCATCGGTTCAGGGCGGGCAGTGGTGGCGGCCGTCCTGGCCGCAGCGGCGCTCCTTCTGACGCGGCAAAGCTTTCCCCGCGGCGGCCAGTGGATGCGGCTGGCCGTGGTCGGCGGAGGGATTGTAATCGGTTTCCCGCTGCTGACTTCCTTTGCGCTCACGGCCGCCCCCGCCAGCCACGCAGCAGTTGTGATCGCCCTGCTGCCCGCCGCGACTGCCACGATGGCGGCTCTCCGAGGCCGGGAGCGTCCGCAATGGCTCTTCTGGGCTGCGACAGCCGCAGGGGCCCTGGCTGCCATCGTTTTCGCCTTCCTGCAGTCCGGCGGCCCCGGCCGGGTGCACTGGACGGACCTGCTGTTGTTCGGTGCCGTGCTGGCTGCAGCCGTGGGCTACGCCGAAGGGGGACTGCTGGCCCGCGAGCTCGGCGCCTGGCAGACCATATCCTGGGCCCTGGTTCTCGCTTCGCCCCTGATGCTTGTTCTCATGGCCTTCGCCGTGTCCCAGCAGCAGCCGGGCACGTCCGTGCAGTCGGCGACGCCGGTGCAGTGGGCCGCCTTTGCCTACCTTGGTGTCGTCAGCATGTTCCTGGGCTTTTTCGCCTGGTACCACGGACTTGCGATTGGGCCCATGGCTCAGGTCAGCCAGGTCCAACTAGCCCAGCCGGTGATGAGCATCTGCTGGGCGGCGCTCCTGCTCGGCGAACACCTGACCTGGGTCACCATCCTTGGCGGGCTGGCAGTCATCGCCTGCGCCGGCATTGCCGTCCTTGTCCGGCTCCACCGGCCACCTGCCAACTGGCGCACCTGA	MCIGPAVTGPEVAGPAATGHARVGLGWGLLGVTAFSLTVPLTRLAVEGLPPMFIGSGRAVVAAVLAAAALLLTRQSFPRGGQWMRLAVVGGGIVIGFPLLTSFALTAAPASHAAVVIALLPAATATMAALRGRERPQWLFWAATAAGALAAIVFAFLQSGGPGRVHWTDLLLFGAVLAAAVGYAEGGLLARELGAWQTISWALVLASPLMLVLMAFAVSQQQPGTSVQSATPVQWAAFAYLGVVSMFLGFFAWYHGLAIGPMAQVSQVQLAQPVMSICWAALLLGEHLTWVTILGGLAVIACAGIAVLVRLHRPPANWRT				NA	NA	NA	NA	NA
D1-17_02856	1413			hypothetical protein	ATGAACAACGATAGCACCTCGCTGATTGCCTTGCGGCTAAGGGAATGGATCGCCGGAGCCGCGCCGGGCTCGAGGCTGCCGTCAACCCGCTCACTCGTTGCCGATTACCAGGTCAGCCCTGTAACAGTTCAGAAGGCACTGCACCTCCTGAACAGGGAGGGTGTCATCGAGAGCCGGCCTGGCGTGGGGACGTTCGTGCGTGCCGTCCGGACGGCGCGGCCCTCGGACTACGGCTGGCAAACAGCTGCGCTGCGGTCTCCGCAGGCGCCCCTTCGACCCGCCTCCACGGCAATGCGAAGCACCCCGAACGATGTCATCGCGTTCCACTCGGGCTATCCGGACCGCGAGCTCCTCCCGGAGCGGCTGGTGCGTGCAGCGCTCACGCGGGCAGTCCGGAGCGAGGCGGCACTGTCCCGCCCTCCGGCTGCCGGGCTTCCCGAGCTTCAGTCCTGGTTCGCCCACGAACTCGGCGCCTTTACTCCGGCAGGCATCACGCCGCCAACGGCCAGCGATGCCGTTGTACTCCCGGGAAGCCAAAGCGGCCTCAGCTCCATCTTCAAGGCACTGGTCGGCTACGGACAGCCGCTGCTCGTGGAATCCCCAACGTACTGGGGAGCCATCCTGGCCGCTGCACAGGCGGGGGTCCGCGTGATCCCTGTGCCCAGCGGCCCCGAGGGCCCGGACCCGGACGAGTTGGCCCGGGCCTTCAGGGAGACGGGGGCACGGATGTTTTATGCCCAGCCAAGCTATGCGAACCCCACCGGCGCGCAGTGGCACCCCCGGTGCGGGGAACAGGTTCTGAACGTGGTGCGGGAGAACGGCGCGTTCCTGCTGGAGGACGACTGGGCGCATGATTTCGGCGTCGACACCACCCCGCAGCCTCTGGCCGCGCATGACGATTCGGGTCACGTTGTATACCTCCGGTCGTTGACTAAGAGCGTCTCCCCTGCCATCCGGGTTGCCGCCGTCATCGCCCGCGGACCTGCCCGTGAGCGAATACTCGCCGACCGGGGAGCCGAGTCGATGTATGTCAGCGGCCTTCTCCAGGCCGCCGCGCTTGACGTTGTCACGCAGCCGGGCTGGCAAACACACCTGCGCAGCCTCCGGCACCAGCTCCGGGCCCGCCGCGACCTTCTGCTGACGAGCCTGCTGCAGCGCGCGCCGCAGGCTCACATCGAGCATGTGCCGAAGGGCGGGCTCAACCTTTGGGCCCGCTTGCCGGACGGGACCGACGTCGAACAGCTCGTCCGTGTATGCGAAAGCGAAGGCGTGATCATCGCCGCCGGAACGGAATGGTTTCCTGCCGAACCGGCCGGACCATTTATCCGGCTCAATTATGCGGGCCCAAACCCAGGTGCTTTTCCGGAAGGCGCCCGTATCCTGGGCGAGGCACTCTCCCGCACCATTGGCTAA	MNNDSTSLIALRLREWIAGAAPGSRLPSTRSLVADYQVSPVTVQKALHLLNREGVIESRPGVGTFVRAVRTARPSDYGWQTAALRSPQAPLRPASTAMRSTPNDVIAFHSGYPDRELLPERLVRAALTRAVRSEAALSRPPAAGLPELQSWFAHELGAFTPAGITPPTASDAVVLPGSQSGLSSIFKALVGYGQPLLVESPTYWGAILAAAQAGVRVIPVPSGPEGPDPDELARAFRETGARMFYAQPSYANPTGAQWHPRCGEQVLNVVRENGAFLLEDDWAHDFGVDTTPQPLAAHDDSGHVVYLRSLTKSVSPAIRVAAVIARGPARERILADRGAESMYVSGLLQAAALDVVTQPGWQTHLRSLRHQLRARRDLLLTSLLQRAPQAHIEHVPKGGLNLWARLPDGTDVEQLVRVCESEGVIIAAGTEWFPAEPAGPFIRLNYAGPNPGAFPEGARILGEALSRTIG				NA	NA	NA	NA	NA
D1-17_02857	522	yrdA	COG0663	Protein YrdA	ATGGCTCCCATCTACCCTTTCGCCGGTGACGCGCCGGACATCCACCCCTCGGTTTTCGTTGCCCCGACGGCGTCCGTCATCGGCCAAGCCACCCTCGCCGAGGACGCCAGCGCGTTCTACGGTGTTTCCGTGCGGGCTGATACTGCCGCCATCACGGTCGGTGCAGGCAGCAATCTGCAGGACAATGTTGTGCTGCACGCTGACCCCGGCTTTCCCTGCAGCGTCGGGGCCCGGGTCAGCGTCGGACACAGCGCGGTGGTGCACGGCTGCACCGTCGAGGACGACTGCCTTATCGGCATGAGTGCCACCATCCTGAACGGCGCAGTGATCGGCACCGGCTCGCTTGTGGCCGCCGGCGCCGTCGTGCTGGAAGGAACCGTGGTCCCTCCGCGCTCCCTCGTGGCCGGGGTCCCGGCCAAGGTACGCCGTGAACTCACCGATGAGGAGTTCGACGGCGTGAAGCGCAACGCAGCGCACTACCGCGACCTGGCGAAGGCGCACCGCGAGATGCACACAGGCTGA	MAPIYPFAGDAPDIHPSVFVAPTASVIGQATLAEDASAFYGVSVRADTAAITVGAGSNLQDNVVLHADPGFPCSVGARVSVGHSAVVHGCTVEDDCLIGMSATILNGAVIGTGSLVAAGAVVLEGTVVPPRSLVAGVPAKVRRELTDEEFDGVKRNAAHYRDLAKAHREMHTG				NA	NA	NA	NA	NA
D1-17_02858	1776	iaaM		Tryptophan 2-monooxygenase	ATGACCACCGCTACCGAACTGCCGGCGTCCGATCCCTCAAGCACGTCAACCCTGGCCCCGACAACACTGGCCCCGACAACCCTCGCCCCGTCGGCCGGCGCCGAGACGGCCGTTGCCGACAGGCCGGACCTGGCGCCCGTGACCATGCTTAACCCGGATTTCCCGTTCAGCTACGACCATTACCTTGCCCACCCTGACGGGCTGGGTTTTGTGCCGGTCCAACTGCACGGCACGGAAGTGGCTGTGATAGGCGCCGGGCTGTCCGGGCTTGTGACGGCCTACGAACTAATGAAGCTCGGGCTGCGGCCGGTGGTCTATGAAGCGGACCGCATCGGCGGGCGCCTGCGCACTGCGGCTTTCCCGTCAGCCCCGGGGGTGGTGGCAGACTTGGGCGGCATGCGCTTCCCCGTGTCCGGCAAGGCGTTCTACCACTATGTGAACCTGCTCGGGCTGGAGACGCAGGACTTCCCCAACCCGCTGGCACCGGTAACCTCCAGCACTGTGATCGAACTGGCCGGGAAGAAGCACTATGCAAGCACCCCGGCGGACCTGCCGCCGTTTTTCCGCGAGGTGGCCGAGGCCTGGAAGGCGGCCGTGAACGACGGGGCCCGGTTCAGCGAGATGCAGGACGCCATCCGGGCCCGGGACACAGCCCGGATCAAGAAACTCTGGAACGAGCTGCTGCCGCTGCTGGACGAGCAGACGTTCTACGGCTTCATCGCGGCCAGCGAATCGTTCAGGCAGGCCGGTTTCGCCCATCGTGAGGCCTTCGGTCAGGTCGGGTTCGGCACGGGCGGCTGGGACACCGACTTCCCCAACTCGATCCTGGAAATCCTGCGGGTCGTCTACACCGACGCCGACGACCAGCACCGGCTCATCAAAGGGGGAGCGCAAAGGCTCCCCGAGGCACTGTGGCACCACGCGCCGTCGGGCATGGCCCACTGGCCGGAGGGAACGTCGCTGGCGTCCCTGCACTCAGGTTCGCCGCGCGGCGCCGTGGAGCGGATCGGCCGGGACGCCAACGGGGACCTGCGAATCCGTGAGCGGTGGGGCCGTGAGTCCGCCTATCCGGCTGTCGTGACCACGTGCCAGTCGTGGCTGCTGTCTACGCGGATCCACACGCAAGAAGCGCTGTTCCCCGCCGAGTTGTGGACAGCGATCGAGCGCTCGCACTACATGCAGTCCTCGAAGACCTTCGTGATGGTGGACCGGCCGTTCTGGAAGGACATTGATCCCGCCACCGGCCAAGAGGCCATGTCCATGACACTGACGGACCGGCTCAACCGGGCCACCTACCTGCTGGACAACGGTCCGGACAAGCCGGCAGTGATCCTGCTGTCCTACACCTGGAACGACGACGCCCTGAAGTGGCTCGCGCTCGACGCCGACCAGCGCGTTGAGCTGATGCTGCACTCGCTTGAACAGATCTACCCGACGGTGGATATCGCCAGCCACATCGTGGGCCAGCCCATCACGGTCTCCTGGGAATCGGACCCGAACTTCATGGGAGCTTTCAAGGCCAATCTGCCAGGACACTACCGGTACCAGCAGCGCCTCTTCACCCACTTTAAGCAGGACAAACTCCCCGGGGCACAGCGTGGGATCTTCCTTGCCGGCGACGACATCTCCTTCACCGCGGGGTGGGCCGAGGGCGCCATCACCACCGGCCTGAACGCCGTGTGGGGTGTTGTGAACCACCTCGGCGGGTCCTCCGCCGCAGCCAACCCCGGCCCCGGCGACCTGCTTGACGAGCTGGGCCCGATCAGCCTGGACTGA	MTTATELPASDPSSTSTLAPTTLAPTTLAPSAGAETAVADRPDLAPVTMLNPDFPFSYDHYLAHPDGLGFVPVQLHGTEVAVIGAGLSGLVTAYELMKLGLRPVVYEADRIGGRLRTAAFPSAPGVVADLGGMRFPVSGKAFYHYVNLLGLETQDFPNPLAPVTSSTVIELAGKKHYASTPADLPPFFREVAEAWKAAVNDGARFSEMQDAIRARDTARIKKLWNELLPLLDEQTFYGFIAASESFRQAGFAHREAFGQVGFGTGGWDTDFPNSILEILRVVYTDADDQHRLIKGGAQRLPEALWHHAPSGMAHWPEGTSLASLHSGSPRGAVERIGRDANGDLRIRERWGRESAYPAVVTTCQSWLLSTRIHTQEALFPAELWTAIERSHYMQSSKTFVMVDRPFWKDIDPATGQEAMSMTLTDRLNRATYLLDNGPDKPAVILLSYTWNDDALKWLALDADQRVELMLHSLEQIYPTVDIASHIVGQPITVSWESDPNFMGAFKANLPGHYRYQQRLFTHFKQDKLPGAQRGIFLAGDDISFTAGWAEGAITTGLNAVWGVVNHLGGSSAAANPGPGDLLDELGPISLD	PGPT0020330_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0020330-davB-K00468	NA	NA
D1-17_02859	1542	yhdG_5	COG0531	putative amino acid permease YhdG	ATGACTGTGCCCACTTACACAGAGCAGCGGCCGGCCGCGCCGGATCGCCGACCGGGCCTGGGTGCCCAGCTGCTGCGCCGCAAGCCGATCGGACAAATGGTCAACGAGGCCGATACAGGTCACGGCGGCACCCGCCTGGTCCGCAGCTTTGGCGTGCTGCAGCTGACCATGATCAGCGTTGGGGCAACCCTGGGCACGGGAATCCTGGTGATCCTGGGCGAATCCGTGCCGCTGGCAGGTCCGGCCATCTGGGTTTCCTTCGCCATCGCCGGACTCGCGGCCTTGCTGTCCGCAGTCTCGTACGCCGAGATGGCGGGCCTCGTGCCGGTGGCCGGTTCCAGCTATTCCTACAGCTATGCCACCCTGGGAGAGGGCATGGCCTGGATCTGCGGATGGTGCCTGGTGCTCGAGTATGCCGTCTCGGTGGCCGCGGTGGCTGTGGGTGCAGGCCAATACGTGAACGAAGCCCTGGCCATCTTCGGCCAGGTCCTGCCGGATGCCGTCACGCAGCCGCCGGGCGACGGCGGTGTCATGAACATCCCCGCCATGGTCATCGTCCTCCTGGCGATGGTCCTGCTGGTCCGTGGCGCCAAGGAAAGCGCATGGGTCAATACGGCAATCGTGGTGATCAAGGTGGCAATCCTGATCTTCTTCTGCGCAGTGGCCTTCACCGCGTTCAACGCAGGCAACTTCGCACCGCTGCTGCCGATGGGTGCAGCCGGAGTCTCCGCTGCCGCCTCCACCGTCTTCTTTTCCTACATCGGCTTTGACGCGGCGTCCACGGCCGGTGAGGAAGCCCGCAACCCGAAGCGTGATCTGCCCCGGGCCATCATGCTCTCCATGCTGATTGTCACCACCATCTACGTTCTAGTGGCTGTTGCAGCAATCGGAGCCCGTCCGTGGGGTTGGTTCGACGGGACGGAAGCCGCCCTGGTCAAGATCCTTGAAGAGATCACCGGACAGCCTTGGATGGCACTCGTCTTTGCCGTCGGAGCCGTCTTCGCCATCGCCAGCATCGTCCTGACGGTCCTCTACGGACAGACCCGCATCCTTCTCTCCATGGCCCGCGACGGGCTGGTGCCGCGCATCTTCGGTCGCGTCTCGCAGCGGACCGGCACTCCGGTTGCGGGCACGCTCATTGTCGGCATTCTGGTCGCGCTGACAGCGGGCATGGTTCCGCTGGGGGCGCTCGCGGACGCCACGAGCATCGGCACCCTCTTTGCCTTCGCCCTGGTAAACGTCGCCGTCATCTACCTGCGCCGCACCCGGCCGGAACTCAGGCGGACGTTCCGCGTGCCGCTGTTTCCCCTCACCCCCATCCTCGGCGCCCTCATGTGCGGGTACCTGATGGCCAACCTCGGCGCCGACACCTGGGTGACCTTCGGCATCTGGATGCTGGTGGGCCTCGCTGCCTACTTCGGCTACGGACGGCGCCATTCCAGGGTGGCTTCCCTCAGCGAGCGTGAATACCGTGAGCTGTCCAGCCGCGAACTTTCGAACACACCGTCAAATCCTGAGACCATGAAGGCAGAGCTTCCATGA	MTVPTYTEQRPAAPDRRPGLGAQLLRRKPIGQMVNEADTGHGGTRLVRSFGVLQLTMISVGATLGTGILVILGESVPLAGPAIWVSFAIAGLAALLSAVSYAEMAGLVPVAGSSYSYSYATLGEGMAWICGWCLVLEYAVSVAAVAVGAGQYVNEALAIFGQVLPDAVTQPPGDGGVMNIPAMVIVLLAMVLLVRGAKESAWVNTAIVVIKVAILIFFCAVAFTAFNAGNFAPLLPMGAAGVSAAASTVFFSYIGFDAASTAGEEARNPKRDLPRAIMLSMLIVTTIYVLVAVAAIGARPWGWFDGTEAALVKILEEITGQPWMALVFAVGAVFAIASIVLTVLYGQTRILLSMARDGLVPRIFGRVSQRTGTPVAGTLIVGILVALTAGMVPLGALADATSIGTLFAFALVNVAVIYLRRTRPELRRTFRVPLFPLTPILGALMCGYLMANLGADTWVTFGIWMLVGLAAYFGYGRRHSRVASLSEREYRELSSRELSNTPSNPETMKAELP	PGPT0020810_1122	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020810-TC_APA|yhdG-K03294	NA	NA
D1-17_02860	1623			hypothetical protein	ATGGCCGGCCAGCCGGATTCCGGAGCCGGGGAGCCGCTCAGCGTCGTCACACTGGATCAGCTCCTGCAGAAACTGCCTCCCGAGCTGAAAATCCTTCACGACGGCGGCAGCGGTTCCGGACTGCTGCGCTGGGTTGAGCCCAGCGAGCTGGAGGACCCCACTCCGTACCTGCTCGACGGCGAGTTCCTCCTCACGGCCGGGCTCCCGTTCGTGGGTGAGGCGGGCAATGAGGCCCAGGTCGACGCCTATGTGCGGCGCCTGGTGGGAGCCGGTGTGGGAGCCCTGGGCTTCGGGCTGGAACCCTACTTCGATGCGGTGCCGGAAGCACTGGTCAGGGCCTGCGTCCGGCATAACCTGACGCTTGTAGAAGTGCCAGGCACTGTGCCGTTCGCTGCCATCGGGCTGGAGTTTTCGCAGTTGCTCGAATCGGACAACGCCAAAGTCTTCCGGCAGCTGGCAGACACCAACCGGCAGCTGATGCGGGCGGTCCTTTCCGCGCGCCCGGAACATGAGCTTCTGGCCGCTCTGGTCCAGCGTGTCCCGGTGTGGGCAGTGCTGGTCGGCGCAGACGGCAGGGTCCGCGCCCGGGCGGGCACCGGCGTCGAGCTTTCCGCCCTGCAGCAGATCCTCGAGCGGCTGCTCGGCGGCAGCGGCCCCCGCGTGGAAATGGATTCCTTCGACGTTCCCGGCTCTGCCCTGGTGTTTGGGCACCCGCTGCGCAGCACCCGGGACGCCAACCTCGGCGCCCTGATTCTGGGAACGGACCAGCCGCTGACCCCATCGCAGAACAGCGTGGTCTCATCCGCCGTCGGGCTGCTGGAACTGCTGGTCCGGCAGCGGACCAGCGGGTCGCTGGCACCGAGCCAGCTGGCCACCGCCCTGCTGCTGCACCCGGACAGCCTGGCCACCGGCGGAGCGCGGCACGTCAACCAGCTGCGGGACCTGCTGGCCCAAAGCACGTCCTCGACGCGCTCCGCACCGCTGCGCGTCGTGCAGGGAATCACGGCTGAGCCGGCCAGGCGCCCCGCTGGCGAAAGCCCCGTCCGTGAGCTGCTTCAGTGGCGCCGGCTCTTCGACACCAAGCTCGTGGAAATCACTGACTACGGCTTCGCCGCGGTTACCAGGCTGAAGGTTGACGACGTCCTGCTCGGTGAGGTGGAGAAGCTCGGCTGGCGCCTCGTCATCGGTGCTGCCACAGAACTGGCGGGCCTGGCCGCGGCGTACCAGCGCGCGGCTTCCCTGCGCCCACGTGTAGTGAATACCGGCGTAAGTGTGCGCGTGGATGAAGTGTCCTGGACAGTGGCCGGACTTTTGGGCAGGGAAGCCGGCACCATGCTGGCCGGCCGGATCCTGGAGCCTTTGCTTGCACAGGAGCCCGAGCGCCGGGACGCGCAGTTGGCGGTGCTGCGCTCGTGGCTGGGCGAGAACGGAAGCTGGGACGCCACAGCGAAAGTCCTGGGTCTTCACCGCAACAGCGTGAGGCGGCAGATCCATGCCGTGGCAGAACTGCTGGATACCGACCTCAACCAGGCGCAGGTGCGGGCAGAGCTGTGGATTGCCCTGCAGTACGTGGACGGGCTGCTTCCGGCCGGCCCGGCTCCTGCCGCACAGGCTGACTCCTAG	MAGQPDSGAGEPLSVVTLDQLLQKLPPELKILHDGGSGSGLLRWVEPSELEDPTPYLLDGEFLLTAGLPFVGEAGNEAQVDAYVRRLVGAGVGALGFGLEPYFDAVPEALVRACVRHNLTLVEVPGTVPFAAIGLEFSQLLESDNAKVFRQLADTNRQLMRAVLSARPEHELLAALVQRVPVWAVLVGADGRVRARAGTGVELSALQQILERLLGGSGPRVEMDSFDVPGSALVFGHPLRSTRDANLGALILGTDQPLTPSQNSVVSSAVGLLELLVRQRTSGSLAPSQLATALLLHPDSLATGGARHVNQLRDLLAQSTSSTRSAPLRVVQGITAEPARRPAGESPVRELLQWRRLFDTKLVEITDYGFAAVTRLKVDDVLLGEVEKLGWRLVIGAATELAGLAAAYQRAASLRPRVVNTGVSVRVDEVSWTVAGLLGREAGTMLAGRILEPLLAQEPERRDAQLAVLRSWLGENGSWDATAKVLGLHRNSVRRQIHAVAELLDTDLNQAQVRAELWIALQYVDGLLPAGPAPAAQADS				NA	NA	NA	NA	NA
D1-17_02861	849	nadE_1		Glutamine-dependent NAD(+) synthetase	GTGATTACGGTGTTGCTGGCGCTGATGCAGGAAAACTCCGCAGTTCTGGACGTCGCGAAAAACTGCAGCGTAGTTGATGAGGCAGCCCGCAAGGCCGCCGCGGCCGGCGCCGGTGTTCTGCTGACGCCCGAGCTGTTCCCGGTGGGCTACGCGCCGCTGCCGGTCCGCACTGAACTGGACCCCGAGATCCTTCCCGGCATCCGGGAACGTCTTGCCGGCATCGCCCGTCGCCACAGCATTGCGCTTGTGTACAGCCTCCCTGTCGTGACCGCCGGGCAGTGGCATATCTCCGCCACCCTGGTCGGCAGCCGGGGGGAGGAGCTGCTTAGCTATTCCAAGGTCCATCTATTCGGCCCGGAGGAGCGCAAGGCGTTCAGCCCCGCCGAAGAAGCCCCCGCCGTCGTGCTCCTGGACGGCATCAGGACGTCGCTCGCCATCTGCTACGACGTGGAGTTCCCCGAGACGGTTCGGGCCGCTGCCGCCCGGGGCGCTGAACTGCTCCTTGTTCCCACGGCGCTGGGGCACGAATTTGAGAACGTGCCCCAGATTCTGCTGCGCGCGAGGGCCCTGGAAAGCCAGTTAACTGTGGCCTATGCCAACCACTGTGGAGAGGAGGACGGGTGCGAGTTCCTTGGGGGAAGCGTGATTGCCGCCCCCGACGGGGCACTGCTGGCGGCCGCGGGGACCGGGCCGGAACTGCTGTTTGCGGAAGTGAGCGCCGCGGCGGCCGGGCGCGCCCGGAACGCGGTGCCTTACCTTGCTGAGCGCCGGCCACCTATCTATCGGGCGTGGGAAGAAGCGCTTGCACAGGAGCATGAACAGGAGCAGGCGCAGGAACAAGGCCCGTAG	MITVLLALMQENSAVLDVAKNCSVVDEAARKAAAAGAGVLLTPELFPVGYAPLPVRTELDPEILPGIRERLAGIARRHSIALVYSLPVVTAGQWHISATLVGSRGEELLSYSKVHLFGPEERKAFSPAEEAPAVVLLDGIRTSLAICYDVEFPETVRAAAARGAELLLVPTALGHEFENVPQILLRARALESQLTVAYANHCGEEDGCEFLGGSVIAAPDGALLAAAGTGPELLFAEVSAAAAGRARNAVPYLAERRPPIYRAWEEALAQEHEQEQAQEQGP				NA	NA	NA	NA	NA
D1-17_02862	1191	nagC_1	COG1940	N-acetylglucosamine repressor	ATGCCCTCAACATCGAGCTCAACGAGGAGCCGAACCAGTAACCCGGGGTCGCAATCCGCCCTGCGGCATTTGAACCAGCAGCGGATTATCGAATGCCTGCTGAGCGGCCCTGCAACGCAGGCGGAACTTGCCCGCCAAACGGGACTCTCGACTGCCACCGTCTCCAACATCGTCAAGATCATGCAGGATTCCGGACTGGCATCAACCGAACCCACCACCAGCTCGGGCCGGCGGGCACTCAATGTGCGGCTCAACAGCAACGGCGCCGTGGCGGTTGGCATCGACTTCGGCCGGCGCCATCTGCGCGTGGTGCTGGCGTCCCTGAGTTACGAGATCATCGCCGAGGACTCCGTCCTCCTCCCCCTGGGCCACCATGCCGCCGAGGGCATCGAGGCCGCCGTCGCGCTGCTGGCCCGGCTGCTTGACAACAGCGGTGTGGAGCGGAGCGCCATAGTAGGAGCCGGCGTCGGAATTCCCGGCCCCATCGACCGCCGGACGGGCACTGTGGCGCAGGGCGCCATCCTCCCGGAGTGGGTGGGCATCAATATTCTCGAGCACCTCGAAAACACCCTGCAGTTCCCCGTCTTCATTGACAATGATGCCAATCTGGGCGCACTGTCGGAGGTCACCTGGGGACCGCACAGCGGTATCAGCAATCTGATGTTCATGAAGATCGGCTCGGGCATCGGCGCCGGCCTTATCCTCAACGGCGCCCCGTACTACGGCAGCGTCGGCATCACCGGCGAAATTGGCCATGCCACCATCCATGAACACGGCCTGATCTGCCGCTGCGGCAACAGGGGCTGCCTGGAAACCATCGCCTCCACCACCACCATGATTGAACTGCTCAGCCGCGGCGAAAAAACGCCGATGACGCCCGAGGACATCGTCCGCAAGGCACTGGCGCGGGACAGTGCGACCCTCAGGGTTGTGGACGACGCGGGGCTCGCCGTAGGCCGGGCGCTGGGCAACGTGGCCAATCTGATCAATCCCGAGGTGATCGTGGTCGGCGGACCTCTGGCAGAACTCGGCCATCTCCTGCTGGACCCCATACGGAGGGGCCTGATCCGCCATGCGGTTCCCGTCATCGGAGAGACCACCACCCTGACCATGTCCTCCCTGGGGGACCGTGCCGAGGCGCTGGGGGCTGCGGCGCTCGTGTTCCAGCATTCCGGAATCCGGCGTTCTTAG	MPSTSSSTRSRTSNPGSQSALRHLNQQRIIECLLSGPATQAELARQTGLSTATVSNIVKIMQDSGLASTEPTTSSGRRALNVRLNSNGAVAVGIDFGRRHLRVVLASLSYEIIAEDSVLLPLGHHAAEGIEAAVALLARLLDNSGVERSAIVGAGVGIPGPIDRRTGTVAQGAILPEWVGINILEHLENTLQFPVFIDNDANLGALSEVTWGPHSGISNLMFMKIGSGIGAGLILNGAPYYGSVGITGEIGHATIHEHGLICRCGNRGCLETIASTTTMIELLSRGEKTPMTPEDIVRKALARDSATLRVVDDAGLAVGRALGNVANLINPEVIVVGGPLAELGHLLLDPIRRGLIRHAVPVIGETTTLTMSSLGDRAEALGAAALVFQHSGIRRS				NA	NA	NA	NA	NA
D1-17_02863	1560	xylG_1	COG1129	Xylose import ATP-binding protein XylG	ATGACGTCCGAGACCACGCACGAAGATCCGATCCTCCTCGAGATGCGCAACATCACCAAGGAATTCCCGGGCGTTAAAGCCTTGTCCGATGTGAACCTTCGGGTGAAGGCCGGCGAGATCCACGCGATCTGCGGTGAGAACGGCGCCGGCAAGTCAACCCTGATGAAGGTCCTTTCCGGGGTGTACCCCTACGGCAGCTACACCGGCGACATTGTCTATCAGAACGAAGTCCAGCAGTTCAGGGACATCCGGGCCAGCGAGCACGGCGGCATCGTGATCATCCACCAGGAACTGGCACTCATCCCGGAACTGTCCATCACGGAGAACATCTTCCTCGGCAACGAACCGGTCAAGCGCGGCGTGATCGACTGGGCAGAAGCCCGCACCCGGACCCGTGAGCTGCTGGCCCGCGTAGGACTCCGGGAAGACCCGGACACTCCGATCAAGGAAATCGGCGTCGGCAAGCAGCAGCTCGTGGAGATCGCCAAGGCGCTGAGCAAGTCCGTGAAACTCCTCATCCTGGACGAGCCGACCGCGGCGCTGAACGAATCGGATTCGCAGCACCTGCTGGACCTGATGCTGGGCCTGAAGGGCCGCGGCATCACGTCCATCATCATTTCCCACAAGCTGAACGAGATCGAGCAGATCGCGGACTCCATCACCATCATCCGCGACGGCAAATCCATCGAAACGCTCGATGTGAAGGCGGACGGCGTGGATGAGGACCGCATCATCAAGGGCATGGTGGGCCGCACTCTGGAGTCCCGCTTTCCGCCCCACGAGCCCAAGATCGGCGAGGTCTTTTTTGAGGTGAAGAACTGGACCGTCGGGCACCCGCAGATCCAGGACCGCCTGGTCTGCAAAGGCTCAAACTTCTTCGTCCGCCGCGGTGAAATCGTGGGTTTCGCCGGGCTCATGGGTGCCGGCCGAACAGAACTGGCACGGTCTGTCTTTGGCCGGTCCTACGGCCGCTACATCACCGGCAGCATCTACAAGGACGGCAAGGAGATCCAGCTCAAGAACGTCAGGCAGGCCATCGACGCCGGCCTCGGCTACGTGACGGAGGACCGCAAGTCCCTGGGCCTGAACCTCCTGGATGACATCAAGACCACCACGGTCTCGGCGGCGCTGCAGAAGATTTCCAAACACATGGTGGTGGATGCCAACAAGGAATTCACCGTGGCAGAGCAGTACCGCAAATCGCTGCGCACCAAGACGCCGTCTGTGGAGGAAGGCGTGGCCAAGCTGTCCGGCGGCAACCAGCAGAAGGTGGTCCTGGCCAAGTGGATGTTCACCGACCCGGACCTGTTGATCCTGGACGAACCCACCCGCGGCATCGATGTCGGTGCCAAGTACGAGATCTACGGCATCATTCAGCAACTGGCCAACCAGGGCAAGGGGGTCATCGTCATCTCCTCCGAACTGCCTGAGCTGCTGGGCCTCTCGGACCGCATCTACACCATCTTCGAAGGCGCCATCACCGGTGTCCTTAATAAAGACGAGGCCAGTCAGGAAAGCCTGATGAAGCTGATGACCTCCGCCCGCAAAGCCGCCGCCTGA	MTSETTHEDPILLEMRNITKEFPGVKALSDVNLRVKAGEIHAICGENGAGKSTLMKVLSGVYPYGSYTGDIVYQNEVQQFRDIRASEHGGIVIIHQELALIPELSITENIFLGNEPVKRGVIDWAEARTRTRELLARVGLREDPDTPIKEIGVGKQQLVEIAKALSKSVKLLILDEPTAALNESDSQHLLDLMLGLKGRGITSIIISHKLNEIEQIADSITIIRDGKSIETLDVKADGVDEDRIIKGMVGRTLESRFPPHEPKIGEVFFEVKNWTVGHPQIQDRLVCKGSNFFVRRGEIVGFAGLMGAGRTELARSVFGRSYGRYITGSIYKDGKEIQLKNVRQAIDAGLGYVTEDRKSLGLNLLDDIKTTTVSAALQKISKHMVVDANKEFTVAEQYRKSLRTKTPSVEEGVAKLSGGNQQKVVLAKWMFTDPDLLILDEPTRGIDVGAKYEIYGIIQQLANQGKGVIVISSELPELLGLSDRIYTIFEGAITGVLNKDEASQESLMKLMTSARKAAA	PGPT0016530_193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016530-gguA|ABC_GGU_A-K10548	NA	NA
D1-17_02864	1278	xylH_1	COG4214	Xylose transport system permease protein XylH	ATGAACGCGCTCAAGAAGCTCTTTGGCGGCAACACCCGCCAATTCGGCATGATCTTCGCCCTGGTTGCACTGATCATCTTCTTCCAAATCGCCACGGACGGCCGCACGCTCACTCCGGGCAACGTCATCAACCTCTTCAACGGCAACTCCTACATCCTCATCCTGGCCATCGGCATGGTGCTGGTCATCATCGCCGGGCACATTGACCTGTCCGTGGGATCTGTGGCTGCCTTCGTCGGGGTCACCGTGGCCCTGGCCATCCGGGACTGGGGCCTGCCCTGGTACGCGGGCATCCTGCTCGGCCTGGCGCTGGGAGCCCTGATCGGCGCCTGGCAAGGGTTCTGGACCGCCTACGTAGGCATACCCGCGTTCATTGTCACACTGGCCGGCATGCTCTTGTTCCGCGGCTTCAACCAGTTCGTCGGCAAGTCCAACACCATCCCCGTCCCCTCGGACTTCCAATACATCGGCTCCGGATACCTGCCGGAGGTGGGGCCGAACACCGGGTTCAACAACCTGACCCTGCTGCTGGGCTTCGCCGCCGTCGCCTTCGTGGTTGTCGGCGAACTCCGCGCCCGCCGCACCGCTAAGGCGCTGGGTGCAGAGGTCCCCGAGGGCTGGGTTGTGGCCGTGAAGCTGATCCTTATCTGCGGCGCCATCCTGTACGCGACTTACCTGTTCGCCACTGGCCGCCCGGGAACCTCCTTCCCGATCCCCGGCCTCATCCTTGCCGTCCTGGTGCTGATCTACGGCTTCATCTCCTCCAAGACCGTCATCGGCCGCCACGTCTACGCCGTGGGAGGCAACCGCCATGCCGCTGAGCTCTCCGGCGTCCAGTCCAAGAAGGTCAACTTCCTGGTCATGATGAACATGTCCATCCTGGCCGGCCTGGCCGGCATGATCTTCGTCGGCCGCTCCACGGCATCCGGCCCGTTCGACGGCGTGGGCTGGGAACTGGACGCCATTGCGGCAGTTTTCATCGGCGGCGCCGCGGTGACGGGCGGCGTCGGAACCGTGATCGGCTCGATCGTCGGAGGACTGGTGATGGCTGTGCTGAACAACGGACTGCAGCTCCTCGGCGTCGGCGCCGACCTCACCCAGATCATCAAGGGCCTGGTCCTGCTGATCGCCGTGGCGTTCGATGTCTACAACAAGAGCCAGGGCAAGCGGTCCATCATCGGCATGCTGACCCAGAACTTCAACCGTCCCAGCGGCGGTACACCGCTCCAGCCGGATGAAGTGACTTCCACCAAAGAAACCATCGCCCGGGAAGCCTGA	MNALKKLFGGNTRQFGMIFALVALIIFFQIATDGRTLTPGNVINLFNGNSYILILAIGMVLVIIAGHIDLSVGSVAAFVGVTVALAIRDWGLPWYAGILLGLALGALIGAWQGFWTAYVGIPAFIVTLAGMLLFRGFNQFVGKSNTIPVPSDFQYIGSGYLPEVGPNTGFNNLTLLLGFAAVAFVVVGELRARRTAKALGAEVPEGWVVAVKLILICGAILYATYLFATGRPGTSFPIPGLILAVLVLIYGFISSKTVIGRHVYAVGGNRHAAELSGVQSKKVNFLVMMNMSILAGLAGMIFVGRSTASGPFDGVGWELDAIAAVFIGGAAVTGGVGTVIGSIVGGLVMAVLNNGLQLLGVGADLTQIIKGLVLLIAVAFDVYNKSQGKRSIIGMLTQNFNRPSGGTPLQPDEVTSTKETIAREA	PGPT0016525_80	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016525-gguB|ABC_GGU_P-K10547	NA	NA
D1-17_02865	1101	chvE_1	COG4213	Multiple sugar-binding periplasmic receptor ChvE	ATGCGAATGATTGGTAAAGCAGGAAAGGCGGCAGCAGTTGCTGCTATTGCGGCACTGGCGCTGACAGCCTGCGGCCGCTCCGAGACCGGCGCAACGGGGGGTGGCACCGGCGGCGGCGAGGCGTTCCCCAAGGAATCCTCGATCGGCGTCGCACTCCCCCAGAAGACCAGTGAGAACTGGGTACTGGCAGAAAAGCTGTTCAACGACGGCCTGAAGGAAGCCGGCTTCAAGCCGGACGTCCAGTTCGCCAATGGCGGCGTCTCCGAACAGCAGAACCAGATCAGCGCCATGGTCACCAAGGGCGCCAAGGTCATTGTCGTCGGGGCCATTGACGGTGCGCAGCTGGGTACCCAGCTCAAGCAGGCCAAGGATGCCGGCGCAACGATCATCGCGTACGACCGACTGCTGCTGAACACAGAAAACGTGGACTACTACGTCGCCTACGACAACTTCAAGGTCGGCGAACTCCAAGGCCAGGCGCTGCTGGACGGGATGAAGGCCAAGAAGCCCGAAGGGCCCTACAACATCGAGCTCTTCGCCGGCTCCCCGGACGATGCCAACGCGAAGGTCTTCTTTGACGGCGCCATGAGCGTCCTGAAGCCGAAGATCGACGACGGCACGCTCAAGGTCCGCTCCGGCCAGACCTCCTTCGAGCAGGCTGTGACCCAGGGCTGGAAGGCAGAAAACGCCCAGCGCCGTGCTGACACGCTGCTGACCGGCAGCTACGGCTCGGCCCCGCTGGACGGCGTCCTGTCCCCGAACGACACCTTGGCGCGTGCGGTCCTTACCGCCGTCAAGGGTGCCGGCAAGCCGCTGCCCATCATCACGGGCCAGGACTCGGAGGTTGAGTCCGTCAAGTCCATCATGGCCGGCGAGCAGTACTCCACCATCAACAAGGACACCCGCAAGCTGGTGGAGCATGCGGTCACGATGGTCAAGGACATCCAGGCCGGCAAGACGCCTGAGATCAACGACGACAAGTCCTACAACAACAAGGTCAAGACCGTTCCGGCCTACCTGCTGGAGCCGGTCATCGTGACCAAGGAGAACGTCAAGACGGCCTACGTGGACGATCCGGTACTCGGACCGATCACCAAGTAA	MRMIGKAGKAAAVAAIAALALTACGRSETGATGGGTGGGEAFPKESSIGVALPQKTSENWVLAEKLFNDGLKEAGFKPDVQFANGGVSEQQNQISAMVTKGAKVIVVGAIDGAQLGTQLKQAKDAGATIIAYDRLLLNTENVDYYVAYDNFKVGELQGQALLDGMKAKKPEGPYNIELFAGSPDDANAKVFFDGAMSVLKPKIDDGTLKVRSGQTSFEQAVTQGWKAENAQRRADTLLTGSYGSAPLDGVLSPNDTLARAVLTAVKGAGKPLPIITGQDSEVESVKSIMAGEQYSTINKDTRKLVEHAVTMVKDIQAGKTPEINDDKSYNNKVKTVPAYLLEPVIVTKENVKTAYVDDPVLGPITK	PGPT0015735_421	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0015735-sbpA-K10546	NA	NA
D1-17_02866	1095	iolU	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGACGTCCATCGCAAAGCCATGGCTCTTCAGCCAGTCGAACCAGGACCCCCTCGCCGCGACGGGCGTTCCCCTTCGGTGGGGAATCATCGCGACCGGTCGAATTGCCTCGCTGGTGTCCCAGGATCTTGCCTTGCTCGATGATGCCAATCTGTATGCCGTCAGCTCCCGAAAGCAGGAAACAGCTGATGCGTTTGCGGCCGAATTGGGGTTTTCTGTCGCTTACGGTGACGATGGCGGAGAACAAGGCTACGAGCGTCTGCTTGCTGATGACTCCGTGGACGTGGTCTACGTTGCAACCCCGCACGCGCAGCACCACCAGATGGTGCTCGCTGCCCTCAACGCGGGCAAACATGTTCTTTGCGAAAAGGCCTTCACCATCAATGCCCGCGAGGCAGCCGAGCTGATAGCGTTAGCCCAGGAAAAGAAGCTCTTTCTGATGGAAGCCATGTGGAGCCGCTTTCTCCCCAGCATGCAACGAGCCTTTGACATTGCAGCGTCAGGCGAACTCGGTACCCTGCAGTGGGTCACCGCGGATCTCGGCTTCCCTGCCCCTTACTCCCCCACAGCGAGGCTGTGGGCCGTCAAGGACGGAGGTGGCGCCCTCCTCGATCTGACCGTTTATCCCCTGTTGTGGGCGCTGGGCACCCTGGGTTTTCCGCAGGCAGTAAGTGCCACGGGCACACTTAACGACGACGGCGTGGATGCTCAGAATGCGCTGACGCTGGAATACCACCACGGCGCACAGGCCCAACTGACATCCTCATTGCTGGCCCACGGACCCAGAACTGCAACGGTAGCCGGAAGCCTGGGTTATCTGCAGTCGCTCGGATCCATCAACAACCCTAAGCAGCTGGTCGTCGGAATCGGCCGCGGGCCATTGCGCACCGAGCATTTCGAGGTTGCCGGCCGTGGCTATACCTACGAGCTTCGTGAGGTGATGCGTTGCATCCAACAGGGACTGACCGAAAGCCCTGTCATGCCTTTAGAGGATTCTCTTAAGACGATGCGCCTCTTCGACGGCGTCCGGGCGCAATTGGGCGTCAGCTACCCCAACGACGCACACACTCAGCGTGCGCCTGGCGTCCTCCCGTAA	MTSIAKPWLFSQSNQDPLAATGVPLRWGIIATGRIASLVSQDLALLDDANLYAVSSRKQETADAFAAELGFSVAYGDDGGEQGYERLLADDSVDVVYVATPHAQHHQMVLAALNAGKHVLCEKAFTINAREAAELIALAQEKKLFLMEAMWSRFLPSMQRAFDIAASGELGTLQWVTADLGFPAPYSPTARLWAVKDGGGALLDLTVYPLLWALGTLGFPQAVSATGTLNDDGVDAQNALTLEYHHGAQAQLTSSLLAHGPRTATVAGSLGYLQSLGSINNPKQLVVGIGRGPLRTEHFEVAGRGYTYELREVMRCIQQGLTESPVMPLEDSLKTMRLFDGVRAQLGVSYPNDAHTQRAPGVLP				NA	NA	NA	NA	NA
D1-17_02867	972			hypothetical protein	ATGGGGTCGAGCCGGTTATTGTCCCCGGGAGGCGTGCCTCCACTGCTGTGCAGAGCAAGGAAAGCTTGGGCAGTGCTGCCGGATCCGGATGCACCGAGCAGAACCGACGCTGCCGGGGAAAGCACGGCTCCAACGCCTGCACTTCCAAGGGACAGTGCCATATCCAACATGGATGTGACGGATTGGGTTGCACCTTCTGCCGGCATAGAGGAAGGGGACTGTGGAGCTGCCGGGAAGGCTTTTTCCCTGTCAGCTGGAGCCGCCGAATCAACGTCCTCCAGGACCTCCCAAATAGGCGCATCCGGTTCAACGGGCGCCGGCGCGTCCGAGACGGAATCGGAAATGGACTTTAGCGGCGGGGCCAAGACTGGCACTGTCTCAGCTACTGGTACCACCACCGTCTGTGCAACCGTCTCACCAACGCGGCTGATTGCCGTTTCCGCTAGAGACACCACAGGGGCGGCTATCTGTGCCGGCAGAGATTCCGACGATGTCAGAGCGTTGGCTGCTGCCGCCGCTGGGGCGACGATTTCATCTGCGAGGGATGACGCGTACTCCGGGACAGTCACAGGAGCACGCGGAGCGGTTGCGGGAAGCACTTTCAAGGGCGGTGCAAGGACCGGAATGTCAGGCAGCTTCGGTTGGGCTGCAGGGGCCACCGCGTCGATAGCTTTCAGGGCCTGTGTCGCCAAGCCGGGGCTGTCGGTTCCGCTGCTGCCGACGGAGGTAGCAGGTGCTGTGATTCCGCCGACCAGAGCATCCCCGGCAGGTTGGGCGCTTGCATCAGCAGCAGGAGCGGAAAAGGACAGCCAGGCAATGGCGGCGGCTCCTGCAATGAGAACCGGACGCGCAGAGCGGAGCAGAGACCAAGACGACACACTGCTGGCCATGCTCGACACCCCCCGGTACGCGAACAGTTCGATAATCGTCTACAGCCTAAGCCTCAAAGAAAGCGGGAGTCCAGAGCTGTAA	MGSSRLLSPGGVPPLLCRARKAWAVLPDPDAPSRTDAAGESTAPTPALPRDSAISNMDVTDWVAPSAGIEEGDCGAAGKAFSLSAGAAESTSSRTSQIGASGSTGAGASETESEMDFSGGAKTGTVSATGTTTVCATVSPTRLIAVSARDTTGAAICAGRDSDDVRALAAAAAGATISSARDDAYSGTVTGARGAVAGSTFKGGARTGMSGSFGWAAGATASIAFRACVAKPGLSVPLLPTEVAGAVIPPTRASPAGWALASAAGAEKDSQAMAAAPAMRTGRAERSRDQDDTLLAMLDTPRYANSSIIVYSLSLKESGSPEL				NA	NA	NA	NA	NA
D1-17_02868	1539			hypothetical protein	ATGCATGAGCAATTTCGCAGGGGCCTTCTAGGCACCCTTTTTGCAGGCGGGCTGATCGCGCTGGGAGCCACCGCAGCCAGCGCAGACACCACCGCAACCGAAACGGTTACCGTAGGGTCCGAATCCGCTTCAGCGGACCTCACTGCCTCGACGTCGTTGGGCCTGCTGGGTGGTCCAACGGCGTCGAGTTCTTCCCAAGTCGCGGCGGCTGCCGAAGCAACGCTCGGCACTGCCCCGGCCACCGCAACAGGTACCGGCACCACCGCCGACGCCCTCGTGACGGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGTACCGGCACCACCGCCGACGCCCTCGTGACGGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCACCACCGCCGACGCCCTCGTGACGGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCACCACCGCCGACGCCCTCGTGACGGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCACCACCGCCGACGCCCTCGTGACGGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCACCACCGCCGACGCCCTCGTGACGGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCACCACCGCCGACGCCCTCGTGACAGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCACCACCGCCGACGCCCTCGTGACAGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCAGCACCGCCGACGCCCTCGTGACAGCCAACCTCGGCACCGCCCCGGCCACCGCAACAGGCACCGGCAGCTCAGCCGGCGCCCTCGTCGACGCCAGCCTTGGCGGAGTGGGCCTGCTCGGTAATGGCGGTGCAGCCGCTGAAGGTGCAGTCGACCTCGGTGTAGGCTCCGGAACCGGATCCACTCTTGGGTTGGTTGTAGATCTGAGTATCGGACTCAGCACAGGTGCTAACACGACTCCACCTTCGACCGATCCGGCTAACGGCTCCGACAACGACAGCACCACCGGCGGAGCCGGAACCAACGACAGCACCACCGGCGGAGCCGGAACCGGAACCAACGACAGCATCACCGGCGGAGCCGGAACCGGAACCAACGAAGGCACCACCGGCGGAGCCGGAACTGGAACCAACGAAGGCACCACCGGCGGAGCCGGAACTGGAACCAACGAAGGCACCACCGGCGGAGCCGGAACTGGAACCAACGAAGGCACCACCGGCGGAGCCAGTGGAGCTGTTGCCGGCACGGCTGGCGGCGGATCCGCAATCGCTGTCCTCCCTGCAGGTTCCCTGACCGCGGACGTGGCCATGGCAACCGTTGCACAGAATGCAGGGGCCACCGTGATGGCCGCCGGAAGGGCGGCGACTGGCACGAAGCAGCTCGCCAACACCGGAACCGACATGGCTCTCCTGCCCTTCGCCTTGGCACTCCTGGCAGTCGGCGGACTGACGGCCGTCCGGCGGAAGAAGGCATAA	MHEQFRRGLLGTLFAGGLIALGATAASADTTATETVTVGSESASADLTASTSLGLLGGPTASSSSQVAAAAEATLGTAPATATGTGTTADALVTANLGTAPATATGTGTTADALVTANLGTAPATATGTGTTADALVTANLGTAPATATGTGTTADALVTANLGTAPATATGTGTTADALVTANLGTAPATATGTGTTADALVTANLGTAPATATGTGTTADALVTANLGTAPATATGTGTTADALVTANLGTAPATATGTGSTADALVTANLGTAPATATGTGSSAGALVDASLGGVGLLGNGGAAAEGAVDLGVGSGTGSTLGLVVDLSIGLSTGANTTPPSTDPANGSDNDSTTGGAGTNDSTTGGAGTGTNDSITGGAGTGTNEGTTGGAGTGTNEGTTGGAGTGTNEGTTGGAGTGTNEGTTGGASGAVAGTAGGGSAIAVLPAGSLTADVAMATVAQNAGATVMAAGRAATGTKQLANTGTDMALLPFALALLAVGGLTAVRRKKA				NA	NA	NA	NA	NA
D1-17_02869	1356	prkC	COG0515	Serine/threonine-protein kinase PrkC	ATGATTCACCAGGACCGGACCGCCGGCATGGGTCTGTGTCCGCGGCAGTGCCTGGGCACCAGGCACTGCCGCGGCGTCCGCCGCCCCAACCGCGTATTACCCTTAACGGGACCGAATGCGGATAAGGACGGCAAAGTGTTTAATGATTCTCCTGGCAGCGTTACGGCTGATGTACTGGACGGGCGCTATAGGCTCGGAGAAGTTATTGGCCGCGGAGGCATGTCCTCGGTCTACACTGCTCACGACGAAAACCTCGGCAGGGACGTGGCGCTGAAACTGTTCGCTCCCCAGGCTGCCGACGCCGATGAGCTCAAGCGGCAGGAAGCGGAGATCAAGCTCCTCGCGACGCTCAACCACCCGAGCCTCGTGACTTTGTTTGATGCCGGCGTGGACTCCCGCGTGCCCGACCAACCGAGGCCATTCCTCACCATGGAACTCGTGGAAGGTCAGGACCTCCGGAGCCGGCTCCGCCACAGCCAGGTGCCGCTGGAAGAACTCGCGGTGATTGGTGCAGGCATTGCCGACGCCCTGGCCTACGTGCATGGGCTGGGCGTCATCCATCGGGACATCAAGCCCGCGAACATCCTTCTCGTTCAGGTCCGGCCGGGCGAGGCACTGCGGCCCAAGCTGACAGACTTCGGAATTGCCAGGATCGTTGGCGGCACACGGCTCACTGCGACAGGAACAATGGTGGGCACGGCCGCGTATCTCAGCCCGGAGCAGGCGATGGGCTCCCCGCTCTCGCCCGCCACTGACATCTACTCGCTGGGACTTGTGCTGCTCGAATGTATCAAGGGCACCGTGGAGTATCCGGGCGGCGCCGTCGAATCGGCAGTCGCGCGCTTGCACCGCGCACCTGTCATTCCCGAGGACATTCCCGAGGAATGGCAGCACCTCCTGTCCTCCATGACCGCCATCGAACCACTGGAACGGCCCAGTGCCGCCGACCTCGAAGTCGCCTTGCGGCGGGCGCTGGTGTCACCGGACTCCGTTCCGGGCGAAGTTGCTGAGGAGCACACACGCATTCTCCCGGCCCTGCCGTCGCGGCCGCCGTCGACCGTCATTCACAACGCGGCGGCGCTGCAGCCCGGCGTCGTGCCGCCTGCTGCGGCACACACCACAGCCCCAGAACCCGTCGTCGGCGCGGAGGAAAGCCGCGCGCCTGAGGGACCTCGTCGGCGCAGCCGTCGCGTATGGCTCGCGTCAGCTGCCGCTGCGGCGGCCCTCCTCGCCGCAGCAACGGCGGTCACCTTCGCTGTCACCACACCGGGAACGTCCGACGTCGTCACGTACCCCACGGTAACCGGCACCCTGGGCGACCATCTCGTGGAACTGCAAAAGAGCGTGGAACCATGA	MIHQDRTAGMGLCPRQCLGTRHCRGVRRPNRVLPLTGPNADKDGKVFNDSPGSVTADVLDGRYRLGEVIGRGGMSSVYTAHDENLGRDVALKLFAPQAADADELKRQEAEIKLLATLNHPSLVTLFDAGVDSRVPDQPRPFLTMELVEGQDLRSRLRHSQVPLEELAVIGAGIADALAYVHGLGVIHRDIKPANILLVQVRPGEALRPKLTDFGIARIVGGTRLTATGTMVGTAAYLSPEQAMGSPLSPATDIYSLGLVLLECIKGTVEYPGGAVESAVARLHRAPVIPEDIPEEWQHLLSSMTAIEPLERPSAADLEVALRRALVSPDSVPGEVAEEHTRILPALPSRPPSTVIHNAAALQPGVVPPAAAHTTAPEPVVGAEESRAPEGPRRRSRRVWLASAAAAAALLAAATAVTFAVTTPGTSDVVTYPTVTGTLGDHLVELQKSVEP				NA	NA	NA	NA	NA
D1-17_02870	567			hypothetical protein	ATGAACCCGTTCGCCAGGTTGGGTTCCGCCCTGCCCGTGCGCGCTTCCGCGGCCCTCGCCGTCGGATTGCTCTCGCTTGGCCTCGTCGCCTGCGGAGGTACGGCGCCGGAATTGGAGACCGGTGCGGCCAGCCAGCTTCAGCAGCACGTACTCGCCATTACGGAGGCAGCGGCCGGAAACGATCCAGCCAAGGCCCTGAAATCCCTGGACCAGTTGTCGTCCCAACTGGATACGGCGGCTGCGGCCGGTCAGGTTTCCTTTAAGCGCCACCAAAGCATTACTGCCGCGATCGACTCGGTCAAAACGGGGCTCACCGCCGCCCAGGCTGCCAAGAAATCCGCTGCAGCAGCAGCTGCCAAGGCTTCAGCCGCGAAGGCGGCAGCAGAAGCCGCCAAGCACTCCCCTCCCCCGGTCACAACACCCGTTGCTGTGGCCCCTGCACCTGCCCCTGCGCCGGTCCCTGCTCCTAAGACTGACGACAAGAGCGGGGGAGGCTCGGACAACGGCAACAGCAACGGTGACGAGGACAAGGACAACGACAAAGGTTCCGGGGACAAAAGGGACTAG	MNPFARLGSALPVRASAALAVGLLSLGLVACGGTAPELETGAASQLQQHVLAITEAAAGNDPAKALKSLDQLSSQLDTAAAAGQVSFKRHQSITAAIDSVKTGLTAAQAAKKSAAAAAAKASAAKAAAEAAKHSPPPVTTPVAVAPAPAPAPVPAPKTDDKSGGGSDNGNSNGDEDKDNDKGSGDKRD				NA	NA	NA	NA	NA
D1-17_02871	1029			hypothetical protein	ATGGCTACTGTCCAGGAATCCATCGAAGTCGATGTCCCCGTCAGCAAGGCCTACAACCAATGGACCCAGTTCGAGGACTTCCCTCGTTTCATGAGCGGCATTGACTCGGTGCGCCAGCTCGATGACACCACGGTCCATTTCGAAACAACCATTGGCGGCGTCAAACGAGAGTATGACGCCCAGATTACTGTCCAGGAGCCGGACCAGCGCGTCACCTGGGAGAGCCTGAACGAACCCCGCAACGCTGGAACTGTCTGGTTCGAGTCTCTTGGCCCGGAGCAGACCAAAGTCAACGTCGAACTTACCTGGGAACCCGATTCTGCGATGGAGAAGATTGGGGCTGCCGTTGGCCTGGATTCCCGTCAGGTTTCATCGGATCTGAAGAAGTTCAAGGAGTTCATTGAGAGCCAGGGCTCGGAGACCGGCGCTTGGCGTGAGACCGTCCGAGACGGCGAGGTCGCGGGCCAGGGCGGAACTGCCGGCATGGGTGCTGCCGGAACCACGGCCATGGGTACCGCGGGTGCTGCCGGTGCGGGCGCGGCCGGGCTTGTCCCGCCAGGTGGGGCTGGCGGGGCCGGTACAGGCATGACTGACACAGGCACGACCAGCGGAGGAACAGCCGCAGCCGGCACGACCGGCGGAGGAATGGCCGGCGGAGGAATGGCCGGCGGAGGAATGGCCGGCGGAGGAACCGGTGAAGGCACCGCCCAAGCAGGTGAGGGCAACCGGGTCGGAGAGGGAATCGCGACGCCTGGTGCAGGTGCAGACCCGGCTGACGGATACGGCAATGCCGAGGGGTACGGCAACGCGGATACCGCCACAGGGTACGCTGCCGGACCTGGATCAGATGTCACTCCCGGCCGTACCTACGAGTCAGGCGACGCGTACGACACCGCAGCCACCGAACGGCCCGTGGAGGCTGATCCGGATATGGCCGTCGACGCCCCCTACAGTGACACAGAAGCAGGTGAGCCACGCAACGACACCCGGCTGGGCAACACAGGGCGGGACGACACCCCGGACCGCTAG	MATVQESIEVDVPVSKAYNQWTQFEDFPRFMSGIDSVRQLDDTTVHFETTIGGVKREYDAQITVQEPDQRVTWESLNEPRNAGTVWFESLGPEQTKVNVELTWEPDSAMEKIGAAVGLDSRQVSSDLKKFKEFIESQGSETGAWRETVRDGEVAGQGGTAGMGAAGTTAMGTAGAAGAGAAGLVPPGGAGGAGTGMTDTGTTSGGTAAAGTTGGGMAGGGMAGGGMAGGGTGEGTAQAGEGNRVGEGIATPGAGADPADGYGNAEGYGNADTATGYAAGPGSDVTPGRTYESGDAYDTAATERPVEADPDMAVDAPYSDTEAGEPRNDTRLGNTGRDDTPDR				NA	NA	NA	NA	NA
D1-17_02872	2220	icd	COG2838	Isocitrate dehydrogenase [NADP]	ATGGCCAAAATTATCTATACCCACACCGACGAAGCGCCGATGTTGGCTACATATTCGTTCCTGCCGATCGTTGAGGCCTTTGCTTCGACCGCAGGTGTGCAGGTGGAGACACGCGACATTTCGCTGGCCGGTCGGATCATCGCCGTCTTCGGCGACTACCTCACGGAAGAGCAGCAGATCGGCGACGCTCTGGCTGAACTCGGTGAACTGGCAAAGAAGCCGGAAGCCAACATCATCAAGCTTCCCAACATCAGCGCCTCCGTGCCGCAGCTGAAGGCGGCCATCGCCGAGCTCCAGTCCCAGGGTTACAACCTGCCGGACTATCCGGACAACCCCTCCTCGGACGAAGAGACGGCCATCCGCTCGCGCTACGACAAGATCAAGGGCTCCGCCGTGAACCCGGTCCTGCGTGAAGGCAACTCGGATCGCCGCGCCCCGCTCTCTGTGAAGAACTACGCCCGCCAGAACCCGCACTCCATGGGTCCTTGGACTCCCGAGTCCAAGACCAACGTTGCCCATATGGAAGCGGATGACTTCCGCTCCAATGAGAAGTCTGTGGTCATCCCGGCCGACGGCACGATCGAAATTCAGCAGGTCCGTGAAGACGGCACCGTCAAGGTCCTGAAGAAGGCATTCCCGGTCCTGGCCGGCGAAGTCATCGACGGCACTGTCATGCGCGCTGCTGCACTGGACGAATTCCTCGCGGCGCAGGTTGCCCGTGCCAAGGAAGAAGGGGTGCTCTTCTCGGCCCACCTGAAGGCCACCATGATGAAGGTTTCCGACCCCATCATCTTCGGCCACGTGGTCAAGGCCTACTTCTCAGAGTTGTTCGACACCTACGGCAAGCAGCTCGCAGCCGCCGGCATCAGCCCGAATAACGGTCTTGCCGCCATCCTCAACGGCCTCGAAGACCTTCCCGAGGACGTCCGCGAAGGCGTCCAGGCCGCCATCAAGAGGGGTCTGGAAGAGGGCCCCGCGCTGGCCATGGTTGACTCCGACAAGGGCATCACCAGCCTGCACGTCCCGAGCGACATCATCGTGGACGCCTCCATGCCGGCCATGATCCGCAGCTCCGGCCACATGTGGGGCCCCGACGGCAAGGAAGCGGACACGCTGGCTGTTCTGCCGGATAGCTCCTACGCCGGGATCTACCAGGTCGTCATCGACGATTGCCGGGCCAACGGTGCCTTCGACCCCACCACGATGGGTACGGTTCCGAACGTTGGCCTGATGGCCCAGGCAGCCGAGGAGTACGGCAGCCACGACAAGACCTTCGAGGTCCAGGCTCCGGGCAAGATCCAGGTGGTTGACGGCTCCGGTGCTGTGCTGATCGAGCACGAAGTTGGCCCAGGCGACATCTGGCGTGCCTGCCAGACCAAGGACCTGGCGATCCGTGACTGGGTCAAGCTGGCCGTGAACCGTGCCCGCGCTTCCCAGACCCCCGCAGTTTTCTGGCTCGACGAGACCCGTGCACACGACGCGAAGCTCATCGAGAAGGTCCGCGAGTACCTCAAGGAGCACGACACCGAGGGCCTCCAGATTGAAATCCTGTCCCCGGTCAAGGCCACCGCGTTCACTCTTGAGCGCATCCGCAAGGGCGAGGACACGATCTCCGTCACGGGCAACGTCCTCCGCGACTACCTGACCGACCTGTTCCCGATCCTGGAACTCGGCACCAGCGCTAAGATGCTGTCGATCGTTCCCCTGATCAACGGCGGCGGCCTCTTCGAGACCGGTGCCGGCGGCTCGGCCCCGAAGCACGTGCAGCAGCTCCTGAAGGAAAACCACCTGCGCTGGGACAGCCTGGGTGAATTCCTTGCGCTGGCCGTCAGCTTCGAGCACCTCGCTAACACCACGGACAACAAGCGGGCCCAGATCCTGGCCGACACCCTTGACCGCGCAACGGGCACGTTCCTGCTGGAGGACAAGTCCCCGAAGCGCAAGGTCGGCGAACTCGACAATCGCGGCAGCCATTACTACCTGGCGCTCTACTGGGCCCAGGAACTGACCAAGCAGAGCGACGACGCCGAACTGGCAGGCTCCTTCGCCTCGGTCGCCGAAGCCCTCGGCTCCAACGAGCAGGCCATTGTTTCCGAACTGCTGGAGGTTCAGGGGCACCCGGTCGACATCGGAGGCTACTACCGTCCCGACTCCGAGAAGGCTGCCGCCGTGATGCGTCCTTCGGCGACGCTGAACAAGGTTGTCGCCAGCCTCGGCTAG	MAKIIYTHTDEAPMLATYSFLPIVEAFASTAGVQVETRDISLAGRIIAVFGDYLTEEQQIGDALAELGELAKKPEANIIKLPNISASVPQLKAAIAELQSQGYNLPDYPDNPSSDEETAIRSRYDKIKGSAVNPVLREGNSDRRAPLSVKNYARQNPHSMGPWTPESKTNVAHMEADDFRSNEKSVVIPADGTIEIQQVREDGTVKVLKKAFPVLAGEVIDGTVMRAAALDEFLAAQVARAKEEGVLFSAHLKATMMKVSDPIIFGHVVKAYFSELFDTYGKQLAAAGISPNNGLAAILNGLEDLPEDVREGVQAAIKRGLEEGPALAMVDSDKGITSLHVPSDIIVDASMPAMIRSSGHMWGPDGKEADTLAVLPDSSYAGIYQVVIDDCRANGAFDPTTMGTVPNVGLMAQAAEEYGSHDKTFEVQAPGKIQVVDGSGAVLIEHEVGPGDIWRACQTKDLAIRDWVKLAVNRARASQTPAVFWLDETRAHDAKLIEKVREYLKEHDTEGLQIEILSPVKATAFTLERIRKGEDTISVTGNVLRDYLTDLFPILELGTSAKMLSIVPLINGGGLFETGAGGSAPKHVQQLLKENHLRWDSLGEFLALAVSFEHLANTTDNKRAQILADTLDRATGTFLLEDKSPKRKVGELDNRGSHYYLALYWAQELTKQSDDAELAGSFASVAEALGSNEQAIVSELLEVQGHPVDIGGYYRPDSEKAAAVMRPSATLNKVVASLG	PGPT0001170_1245	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001170-icd-K00031	NA	NA
D1-17_02873	1002			hypothetical protein	ATGACGAGCAAGAAGTCTCTGGCCGCCAGCCTCCTGAGCCTTTCAACGGGACTGCTGCTGACTTTGTCGGCAGCCGGCGGAGCAACGGCATCGCCCCGGATACTGCAGGAGTCGGACGGACCCCGGATCGTCAGCGCCACAGTCGCCAGCCTGACAGCCGCAAGCTACTGGACCTCCGAACGGATGCGTTCCGCTACCCCCGGTGATGTTCTCGCTGAGAAGGCGGCGGCCCGCCAGATCAACAAGGGCAAGAGCCTCGACGGGATCACGGACCGGGGTTCAAGCACGAAGATTGCCGGGACGTCCGGAAGGACGAAAACCAGCACTCTTCACACGAACGAAAAGCCGGTCAGCCACATTGGGAAGGTTTTCTTCACGCTGAACGGCGCCAATTACGTCTGCTCCGGCAGTTCGGTCATTGCAGCTAACAAGAGCACAGTTTCCACCGCCGGCCACTGCCTTAATGCAGGTCCTGGCGCCTTCGCCACCAATTTCATTTTTGTTCCTGCCTATAAGGATGGAGCAGCCCCTTACGGAAAATGGCCGGCCACCAAACTGTTCGCGCCCCAGGAATGGACCGCCAGCGGGAACATGCAATACGACACCGGCTTCGCTGTGGTCGCCCACGTCGGTGGCAGGAGCCTTGCTAATGCCGTAGGAGCGGTTGGCGTGGCCTTCAGCCAGCCGCGGGGACTGACGTACAAGGCGTTTGGCTACCCGGCTGCAACCCCGTTCACCGGACAAAGGCTGGTCAGCTGCTATGGCAAGGCGGGCGATGATGCCATCAGCCCGACGTTTGAAACACAGGGCATCCCCTGCGACATGACCGGAGGATCGTCGGGAGGTCCCTGGCTGCTTCAGAACGGCACATCCGCCCAGGTGGGATATCAGAACTCGGTCAACAGCTACGGCTACGGCAGCCGCTCCACCACCATGTACGGCCCCTTCTGGGGCGCAACCATCCAACAGGTCTACCAAAGTGCATCAACAACAGCGCCCTGA	MTSKKSLAASLLSLSTGLLLTLSAAGGATASPRILQESDGPRIVSATVASLTAASYWTSERMRSATPGDVLAEKAAARQINKGKSLDGITDRGSSTKIAGTSGRTKTSTLHTNEKPVSHIGKVFFTLNGANYVCSGSSVIAANKSTVSTAGHCLNAGPGAFATNFIFVPAYKDGAAPYGKWPATKLFAPQEWTASGNMQYDTGFAVVAHVGGRSLANAVGAVGVAFSQPRGLTYKAFGYPAATPFTGQRLVSCYGKAGDDAISPTFETQGIPCDMTGGSSGGPWLLQNGTSAQVGYQNSVNSYGYGSRSTTMYGPFWGATIQQVYQSASTTAP				NA	NA	NA	NA	NA
D1-17_02874	204			hypothetical protein	GTGCATCAACAACAGCGCCCTGACGACGGGCCGGCATCCTCTGAGGACCCGGTCAGCCACGCCGAGTCGGCGCAGACCCCGGAGGAAATTCTCGCCTACTGGACACCGGAGCGCATGGCAGGGGCGCAGCCGCGGGAGATCCGGATCCCGGGCCCTGACGAGAATCCGGCCCAGGAACCTGCCGGCGGATCTAAAAAAGACTGA	MHQQQRPDDGPASSEDPVSHAESAQTPEEILAYWTPERMAGAQPREIRIPGPDENPAQEPAGGSKKD				NA	NA	NA	NA	NA
D1-17_02875	1683	purH	COG0138	Bifunctional purine biosynthesis protein PurH	GTGACGCTGACGCAGCTAGACCGTGTTCCCATCCGCCGGGCCCTGATCTCGGTTTACGACAAGACCGGTCTGGAGGAGCTCGCCAAAGGCCTGGACGCCGCAGGCGTCAGGATCGTTTCCACCGGCTCCACCGCCAAGAAGATCGCCGCGGCCGGCATCCCCGTCCAGGAGGTTGAAGAGGTCACCGGTTCACCCGAAATGCTGGATGGCCGCGTCAAGACCCTGCACCCCCGCGTGCACGGCGGAATCCTCGCCGACCGCCGCGTTCCAGCCCACATGGAAACCCTCACCACCATGGAAATCGAGGCGTTCGATCTCGTGGTGGTCAACCTTTACCCGTTCGTTGAGACTGTGAAGTCCGGAGCCTCCCAGGACGAGGTCGTGGAGCAGATCGATATCGGGGGACCCGCCATGGTGCGTTCCGCTGCGAAGAACCACGCCGCCGTCGCGATTGTGGTTGATCCCAAGTTCTACGGTCAGGTTGTCACCGCCGCCGCCGAGGGCGGCTTTGACCTAAAAACCCGCCGCCGGCTGGCCGCCAAGGCCTTCGCACACACCGCCACCTACGACAATGCCGTGGCAACCTGGACCGCCAGCCAGTTCCTCGACGAGGACGGCGACGGCGTCATCGACTGGCCCGCCTACGCCGGCCTGGCTTTGGAACGCTCCGAGGTCCTGCGCTACGGCGAAAACCCGCACCAGCAGGCTGCCCTTTACGTGGACAAGGCAGCGCCTGCCGGTATCGCCCAGGCCGACCAGCTGCACGGCAAGGCCATGAGCTACAACAACTTCGTGGACGCTGACGCCGCCCTGCGGGCTGCCTACGACTTCGCCGAGCCGGCCGTCGCCATCATCAAGCATGCCAACCCCTGCGGTGTGGCCGTGGGATCTGCCGGTGCCGCCGACCCGATTGCGGACGCTCATGCGAAGGCCCACGCCTGCGATCCTGTCTCTGCCTTTGGGGGCGTCATCGCGGCGAACCGCACGGTCACGGCCGGCATGGCGCGGACCGTCGCGGACATCTTCACCGAGGTTGTCATTGCCCCGGGCTTCGAACCGGAAGCCGTGGAGATCCTCGCCAAGAAGAAGAACATCCGCCTGCTCACCCTGCCGGAGGGATACGACCGCTACCCGACGGAGATCCGCCAGGTCTCCGGCGGCGTGCTGATTCAGGTCACGGACAAGGTGAACGCCGACGGCGACAACCCGGCCAACTGGACCCTCGTCGCCGGTGAAGCCGCCGATGACGCCACCCTCGCCGACCTCGCCTTCGCCTGGACCGCCTGCCGCGCCGCGAAGTCGAACGCGATCCTCCTCGCTGCCGACGGAGCGGCTGTTGGCATCGGGATGGGCCAGGTGAACCGCCTGGACTCTTGCAGGCTTGCCGTTGAACGGGCCAACACCCTCGGCGTCACCGTGGCATCGGACGGTGCTGTTGGGGGGGACGCCCCCGGCGGCGCTTCCAACACCAGCGCTGGTGCAGCCCCGGAGCGGGCCCGCGGCGCAGTGGCAGCCTCCGACGCCTTCTTCCCGTTCGCCGACGGCCTGCAGATCCTGATCGATGCCGGCGTCCGTGCTGTGGTCCAGCCCGGCGGTTCCGTCCGGGATGATGAAGTCATCGCCGCGGCCAACGCAGCCGGCATCACGATGTACTTCACAGGTGCGCGGCACTTCTTCCACTAG	MTLTQLDRVPIRRALISVYDKTGLEELAKGLDAAGVRIVSTGSTAKKIAAAGIPVQEVEEVTGSPEMLDGRVKTLHPRVHGGILADRRVPAHMETLTTMEIEAFDLVVVNLYPFVETVKSGASQDEVVEQIDIGGPAMVRSAAKNHAAVAIVVDPKFYGQVVTAAAEGGFDLKTRRRLAAKAFAHTATYDNAVATWTASQFLDEDGDGVIDWPAYAGLALERSEVLRYGENPHQQAALYVDKAAPAGIAQADQLHGKAMSYNNFVDADAALRAAYDFAEPAVAIIKHANPCGVAVGSAGAADPIADAHAKAHACDPVSAFGGVIAANRTVTAGMARTVADIFTEVVIAPGFEPEAVEILAKKKNIRLLTLPEGYDRYPTEIRQVSGGVLIQVTDKVNADGDNPANWTLVAGEAADDATLADLAFAWTACRAAKSNAILLAADGAAVGIGMGQVNRLDSCRLAVERANTLGVTVASDGAVGGDAPGGASNTSAGAAPERARGAVAASDAFFPFADGLQILIDAGVRAVVQPGGSVRDDEVIAAANAAGITMYFTGARHFFH	PGPT0008110_588	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
D1-17_02876	1353	naiP		Putative niacin/nicotinamide transporter NaiP	ATGAACATTCACACCGCAGTGCCAAGCGGCGAACAGGTGGTCCAGGAACTGCCGTGGCGTTGGAAAGTGCAGGGCCGGATTTTCCTGATCGGCGGCCTCGGCTTCATGTTCGATGCCTGGGATGTGACACTGAACGGCATCCTGATCCCGTTGCTGTCCTCACACTGGCAGCTGACCCCCGGAGAGGCCGGATGGATCGGCACGGCCAACCTGATCGGCATGGCGCTCGGCGCGTTCATCTGGGGCACCATTGCGGACACGATCGGCCGCAAGAAGGCCTTCACGGCGACGCTGCTGATCTTTTCGCTCTTCACTGTTCTGGGCGCGTTCTCCCCTGACTTCGTCTGGTTCTGCATCTTCCGGTTCATGGCCGGATTCGGCCTGGGCGGGTGCATTCCTGTGGATTATGCGCTGGTGGGTGAGTTCACCCCCCGCAAGCAACGCGGCAGGGTCCTCACGGCCATGGACGGCTGGTGGCCTGTGGGAGCTGCACTGTGCGGCTTCGTCTCGGCTTGGCTGGTGGCGGCGTTTGCCGACTGGCGTCTGACCATGATGGTGATGGTGCTGCCCGCCCTGCTGGTGTTCTGGGTCCGGCGCAGCGTGCCGGAGTCGCCGCTGTTCCTGATCCACAAGGGCCGGCGTGAGGAAGCGGCCAAGGTGATCGACAGCCTGGTCCAGGCAACCGGCGCCGAGCCCCGCGCCTACAGCCTGCCCGATGCCCAGTCCATCCCCCGGCTCTCCGCCGGCAGCGCCTGGCAGCAGCTGCGGGGCGTCTGGGCGTTCAACTGGAAGATCACTGCCGCCGCCTGGGGCCTGTTCTTCAGCATCCTCCTTGTCTACTACCTGTCCCTGACCTGGATGCCCCGGATCCTGATCGGCGCCGGGTTCGCGGAGTACAAGGCGTTCCTGACCACAGCGGGGATGGCCGCCGTCGGACTCCTTGGCGTGGTCGCGGCCGCATTGCTGGTGGAGCGGATCGGCCGCAAGTGGCTGCTGGCTGTCACGGGCCCGCTGTCCGCCCTGACGCTTGTGATCGTGGCGTTCGTGGTGGACATTCCCACTGCGGCTGTATTCTGGCTGCTGGTTTTCGGCTTTGTGGTGCAGGTGGCCATTCCGGTCCTCTACGCCTACGTGTCCGAGCTGTACCCGACGGAGCTGCGCGGAAGCGGCTTCGGCTGGGCGTCTACGTTCTCGCGGCTGGGAGCCGGCTTCGGGCCGCTGATCTTCGCCAACTACTTCTGGCCCGAGCTGGGACTGGCCACCTCCTTCGCCCTCGCGGGCGGCCTGGTCCTGCTCGCCGTGCTCTGGATGATGTTCTTCTCCCCCGAGACCAGGCAGCGCCGCCTCCAGTAG	MNIHTAVPSGEQVVQELPWRWKVQGRIFLIGGLGFMFDAWDVTLNGILIPLLSSHWQLTPGEAGWIGTANLIGMALGAFIWGTIADTIGRKKAFTATLLIFSLFTVLGAFSPDFVWFCIFRFMAGFGLGGCIPVDYALVGEFTPRKQRGRVLTAMDGWWPVGAALCGFVSAWLVAAFADWRLTMMVMVLPALLVFWVRRSVPESPLFLIHKGRREEAAKVIDSLVQATGAEPRAYSLPDAQSIPRLSAGSAWQQLRGVWAFNWKITAAAWGLFFSILLVYYLSLTWMPRILIGAGFAEYKAFLTTAGMAAVGLLGVVAAALLVERIGRKWLLAVTGPLSALTLVIVAFVVDIPTAAVFWLLVFGFVVQVAIPVLYAYVSELYPTELRGSGFGWASTFSRLGAGFGPLIFANYFWPELGLATSFALAGGLVLLAVLWMMFFSPETRQRRLQ	PGPT0014435_1411	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
D1-17_02877	591	purN	COG0299	Phosphoribosylglycinamide formyltransferase	ATGCGCATCGTTGTCCTCGTCTCCGGAACCGGCTCCAACCTCCAGGCTGTCATCGACGCCGTCCAGGCTGGGGAACTGGACGTTGAGATCGCAGCGGTGGGCGCCGACCGCCCGGGAACTTACGGCGTGGAGCGTTCGGCCGCCGCAGGAATCGATACCTTCGTGGTGGACTTCAAGGCCTACGCCGACCGGGCTGACTGGAATGCGGCGCTGACGGAGGCGGTCGCGGCCTATCAGCCGGATGTTGTGGTGTCTTCAGGGTTCATGCGGATTGTGAGCCCGGAGTTCATTGACGCTTTCGGCGGCAAGTACCTCAACACCCACCCGGCGCTGCTGCCGTCCTTCCCCGGCGCCCACGGAGTACGGGATGCCCTGGCCTATGGTGTGAAGGTCACGGGCTGCACCGTGCACTGGGCCGACGCCGGGGTGGACACCGGCCCCATCATCGCCCAGGAAGCCGTACCCATCGAGGACGGTGACACCGAAGAAACCCTCCACGAACGCATCAAAGTGGTAGAGCGCCGGCTTCTGGTCTCCACCCTCGCGGCCCTCGCTGCGGAGCAAGCCCAGCTGCAAGCCCCGCCCCGGTAG	MRIVVLVSGTGSNLQAVIDAVQAGELDVEIAAVGADRPGTYGVERSAAAGIDTFVVDFKAYADRADWNAALTEAVAAYQPDVVVSSGFMRIVSPEFIDAFGGKYLNTHPALLPSFPGAHGVRDALAYGVKVTGCTVHWADAGVDTGPIIAQEAVPIEDGDTEETLHERIKVVERRLLVSTLAALAAEQAQLQAPPR	PGPT0008095_3448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
D1-17_02878	441			hypothetical protein	ATGAACCCCACTCCGGGCCCAGACGGGTCACAGCGGACCAGACATCCGCTCAGCGAGGACGCCAAGACCTCGCTGCTGACAACGCACAACCTGTTCCGCATGTTCATCGTGGCGGTGCTGGGCGCTTTCTTCGTTTTCCAGCTGGACCTGGACTATCTGTGGCTGGCAGCCATCCTGACCGTGGCCGGCATCGTTCTGGGGATCATAGTGCTGGTCCGTGCCGTCCGGCTCAAGGAGTCCAAGCTGGTGTTGATCGGCAGTATTTGCGGCTTGGCCGTCTCCGGCGTGATGGTGCTGCTGGTGCTCGTTTCCGCTGTTTTCTTCAATCAGGTGCGCGACTACCAGGACTGCGCGCGCCATGCCCTGACGAGCCAGGCCAGTAACGACTGCCGGGTCCAGCTCGAAAATTCACTCCCGGGTCCGTTCCAACCCGGCCGGTAA	MNPTPGPDGSQRTRHPLSEDAKTSLLTTHNLFRMFIVAVLGAFFVFQLDLDYLWLAAILTVAGIVLGIIVLVRAVRLKESKLVLIGSICGLAVSGVMVLLVLVSAVFFNQVRDYQDCARHALTSQASNDCRVQLENSLPGPFQPGR				NA	NA	NA	NA	NA
D1-17_02879	1338			hypothetical protein	ATGGCACGATGGGTCACGATGAAACTGCGCGCTGATCAGACCGGAGACCGTGGCCTTCCGATGCCCTTGTGGCTGCAGGGCGGGCTGGAGTCCGCTCAGGCAGCAATCATTTCGGCGCTGGTAGTGATTGCCCCCATCGCCGCAGTATGGGCCACCTCCGGTTTCCGCGAGACGCACGTCGACGTCCTGGCGCGTCTCGCCGGCCAGGCCTGGCTGGTGATCCACGGGGTGCCCCTGTACCTGACCACTGTCGCTGAAGGCCCTGCGGCGCGGCCTGAGATGGGCACGCTGTCGCTCGTTCCGCTTGGCCTGACACTCATTCCCTTCCTGCTGGCCTGGCGTGCCGGGCGCCGCCTCGCACGCGCCTCCTACACGGACCAGCTCTGGCAGGCATTGCTGGGCTCATGGCTTGTTTATGCCGCCTTCGGCATCACAACCGGCTTTGTCTGCCGGACCGATGACGTCGAAGTTTTTCTCTGGTGGGCTGCGCTGTTCCCGCTGTTACCCTTCGCACTTGGCATGGTGATCGGTGCGAGGCGCGAGGCAGGCTCATGGAGCCGGCTGATTGGCGTTGACGCAGTTGACTGGATTGCCCGGACAAGCCAGCATTCGCGGTGGGCCGGATCGTACCTTGCATCAGCAGCCAAAGCCGGTTTCGTGGCGCTCATGGCGGCACTGGCGCTCGCCTCCGGCCTGCTCGCGGTGGACCTTTTCATCCACTGGAACCTTGTGGTGGCCGTCTACGAAGGGCTCGACGCCGGGGCAGTAGGAGGCGCGGCGCTCACCATCGCGCAGCTCGGATTCCTTCCCAACCTTGCGGTCTTCTCGCTAGCGTGGGTTTCCGGCTCGGGCTTCGCCCTCGGTGCCGGCTCACACGTGGGACCGCTGGGAACCGCCGTCGGGCCGCTGCCCTCTATCCCCGTGCTTGCGGCGATCCCTGCCGGGCCGCTGGACTACGGCGTCGTGGCCCTCGTGGTGCCGGTGCTCGCCGGCGTGCTGGCAGGCTGGTGGTTCCTGCGCGAGGGCGAGAATCACTTCGATGAGTGGTTGTCTATCAAAGTCCCTGTCCGCTGGTTCACGGCTGCCGCCTCCACCCTTGTGCTGGGCATTATCACAGGGGCGGCGGCAGGCCTGCTGGCTGGCGCGCTGGCTTGCATCGCTCATGGCTCCGCCGGCATTGGGCGTCTGACGGACGTTGGACCCAACCCGCTGTGGACGGCCGTGTGGGTGGCAGCGGAAGCCTGTGTCGGCGTCGTTATTGGATACGCAGCAGGGCCGTGGCTGGAACGACGGCAGCAGCTGCGCGAAGCGGACCTGGGGACAGTGCCGAGCAAGTAA	MARWVTMKLRADQTGDRGLPMPLWLQGGLESAQAAIISALVVIAPIAAVWATSGFRETHVDVLARLAGQAWLVIHGVPLYLTTVAEGPAARPEMGTLSLVPLGLTLIPFLLAWRAGRRLARASYTDQLWQALLGSWLVYAAFGITTGFVCRTDDVEVFLWWAALFPLLPFALGMVIGARREAGSWSRLIGVDAVDWIARTSQHSRWAGSYLASAAKAGFVALMAALALASGLLAVDLFIHWNLVVAVYEGLDAGAVGGAALTIAQLGFLPNLAVFSLAWVSGSGFALGAGSHVGPLGTAVGPLPSIPVLAAIPAGPLDYGVVALVVPVLAGVLAGWWFLREGENHFDEWLSIKVPVRWFTAAASTLVLGIITGAAAGLLAGALACIAHGSAGIGRLTDVGPNPLWTAVWVAAEACVGVVIGYAAGPWLERRQQLREADLGTVPSK				NA	NA	NA	NA	NA
D1-17_02880	462			hypothetical protein	ATGACTACCGCATCCCCACATGCACATGGCGTTCACTTTGGCCGTACAGACGTCCAGAACGTCGGCATGGGTGTTGGTATTCTCGCGTTGGCAGTCGGTGTTCTGGGATTCATCCCGGGCATCACCGCACGGTATGGCGAACTGATGTTCCTTGGGCCTAATTCGCACGCTATGCTGTTTGGCCTGTTCCAGGTATCCATGCTGCTCAACATTGTGCAGCTGGTTATTGGCGGAACCGGCTGGGCAATGTCCCGCAGTGAAATGGGTGCGCGCAGGTTCCTCATGGGCGCCGGTGCGCTGTACATCATCCTCAGCATCTACGGGCTCAGTGTCGGAGTGGATTCGGCGGCCAATTTCCTGTCGCTGAACATGACGGATAACTGGACCATGATGGTGGGTGGTGTTCTCATGATTGCCGTCGGCTGGTTGCTCTCGCGGCATGCAGCCGAGGAACGGAAATAA	MTTASPHAHGVHFGRTDVQNVGMGVGILALAVGVLGFIPGITARYGELMFLGPNSHAMLFGLFQVSMLLNIVQLVIGGTGWAMSRSEMGARRFLMGAGALYIILSIYGLSVGVDSAANFLSLNMTDNWTMMVGGVLMIAVGWLLSRHAAEERK				NA	NA	NA	NA	NA
D1-17_02881	180			hypothetical protein	ATGGCCGGGTCGATCGTCGTCGTCCTGATAATTCTGGCAATCATTGCTGCCGTGGCGATTATTGCAACGGTGAGAACGGTTCTGCGCGATGGACATGGCCGGGTTCCCGTGGAGCCTTCCCAGCAGCCTTGGAAAGCTGGCAACCTGCCCAGCCAGCCGTACTCCCTGATCCGTTTTTGA	MAGSIVVVLIILAIIAAVAIIATVRTVLRDGHGRVPVEPSQQPWKAGNLPSQPYSLIRF				NA	NA	NA	NA	NA
D1-17_02882	960			hypothetical protein	ATGGGCAGCTTGCTTCACTATTGTTGCGCTGTTTCCGGGCGCGCTCTTCTGGCCCCCGTTCTGCTTGCCTTGGCGTGGCTCATATGGGGTGCGGGCAGCGCACATGCATCCTCGGAGCCTTCCGGGACCGCCACCTCTGAAAGCGTCCTGAACGTCAGTCTTTCCAGTGCCCCTTCCTTGCCGGCTGTTCAGGTCATGCCTGCCGGGCAGGTTCCGGCTGATTCCGCCGCACCCGCCATCGCCACAATCACCACACCCGCCGCACCCGCCGTCGCCACAACCACCACATCCGCCATCGCCACGACCACCACATCCGCCGCGCCCGCCATCGCCACCGTCAGCAAGACCGTTGTGCCGGTCGTCTCGAGCGTTGCTTCCGCGACCAAGCGGCTGCTTCCGGTGGTCAAACTGCCTCAGCTGCATCAGGGTATTCCTGTCGCCACGGTCCCCAAGCCGCTGCGGGCAGCGAAGTCCGCGGTGCCGCCCTCGCCGGCCAGCGACATCCGAAGGCCACTCGCCAGCCGCTCGTCTGTGGCGATTGACCCGTCCCGGGCTGCAGCTGGTTCCCCGACCACAAAAGCCTCTAGCTATACTCCGGCTTTGGCGCTTTCCGGCATATCAAGCCCTGCCGGACCAAACCCGGCTGCGATCCAAGACATCGATTCGCCCGTCAAGACATTCGCACAGCTGCGGATGACAACCTCCGCCCGCCCTCTGGCAGGTGCCGTCCAAGCGCCGCCCGGTGGGCCCTGGGACGAGCGACCCGCCACGGAGCGGTGGAACTTTGCCGCGACACACGGCGAGTCGGGTTCCTCCGGCTCAGACAGCTCCGGCTCACACACGGCTGACATCGCCGCAGCCTGGAACGTAGCGTCCCCCGCCGCCAGCGCCCACACCGACGGCGCATTCGTGACACCGCCGTCCGGTCCCGCCGTCGATCCGGGATCCTCCCCCGACTGA	MGSLLHYCCAVSGRALLAPVLLALAWLIWGAGSAHASSEPSGTATSESVLNVSLSSAPSLPAVQVMPAGQVPADSAAPAIATITTPAAPAVATTTTSAIATTTTSAAPAIATVSKTVVPVVSSVASATKRLLPVVKLPQLHQGIPVATVPKPLRAAKSAVPPSPASDIRRPLASRSSVAIDPSRAAAGSPTTKASSYTPALALSGISSPAGPNPAAIQDIDSPVKTFAQLRMTTSARPLAGAVQAPPGGPWDERPATERWNFAATHGESGSSGSDSSGSHTADIAAAWNVASPAASAHTDGAFVTPPSGPAVDPGSSPD				NA	NA	NA	NA	NA
D1-17_02883	171			hypothetical protein	ATGTCCAACCACACCCAGCTTTTCGTTGCCTCAGCCCACTCGCGCCGCTCCCGCATCGCCAACGGGCTTGATCCCATGGGTCGTGCCATCGGCAACTGGCCCGATCCAATGCGTGCCCGCATCGGCAGCTGGCCAAACCACATCGCCAAGAGCAGTTGCACCTCAAATTAG	MSNHTQLFVASAHSRRSRIANGLDPMGRAIGNWPDPMRARIGSWPNHIAKSSCTSN				NA	NA	NA	NA	NA
D1-17_02884	720			hypothetical protein	ATGGTCCCGAATGCTGACGCGGAGCAATGGGGTCCTCACCAGTTGCTGTCAATGGCTGCCCGGCTCATCCAACGCCGGCAGGACCAGGCGTTGGCCGACCTTGGCCTGACCCATGCTGCCGTGATTGCCCTGCAGGGCCTCACGGCAGGTCCGCTGAACCAGGAGCAGCTCGCGGAAGAGATTCACGTCCGAAGCCAGTCCCTGGGCAGGGTGCTGGCGCGCCTTGAGGAGGCAGGCTTCGTGGCCCGGAAGTCCAGTTCCCTGGACCGGCGGAGCAACGATGTATCCATTACCGAGGCCGGGCTGCGTGCCTTGGCGGCTGCCCGGCAGGTGGAGAAGGAAACGCTGCCCCCCGATATAGTTGAGGGCACCGTCTTGAGCCGCGAGCTGGCGCGGGTGATCAGCTACTTTCCAGGTTCTCCCCGTCTTGGTTCGCGGCAGCGGAAGGGGCGGACCACACGCCCAGGCATCCACGGGGAGGGCACGAACGCTCAGGCTGCCGAGGCTTTGACGGGTTCCGATGCCCACCAGTTGGAGTCCACGGGGCCAGAATCTGGGGAACCTTCCGTTCCGGAAGCCGGAATACCCGAATCGGGGGAACCGGGCCTGCGGGAGGAATCCGGGCGTCCTGCGGAGCCGCCGTCAGGGCGGCCCGACGGCGATCCGGGGCAGAGCGCCGCAGAACAGGCAAGGCGCCTGAACGGCAACCGGGAACTCTGA	MVPNADAEQWGPHQLLSMAARLIQRRQDQALADLGLTHAAVIALQGLTAGPLNQEQLAEEIHVRSQSLGRVLARLEEAGFVARKSSSLDRRSNDVSITEAGLRALAAARQVEKETLPPDIVEGTVLSRELARVISYFPGSPRLGSRQRKGRTTRPGIHGEGTNAQAAEALTGSDAHQLESTGPESGEPSVPEAGIPESGEPGLREESGRPAEPPSGRPDGDPGQSAAEQARRLNGNREL				NA	NA	NA	NA	NA
D1-17_02885	864			hypothetical protein	ATGCTCACCAAGGAACACATCGACGACCTGCTTAAGAAGGACGGCAACATCCTCTCCGCTGACGGAGACAAGATCGGCTCAATCGGTCAGATCTATGCCGACGATGACAACGGCCAGCCCACTTGGGTAACGACGCCCACGGGTCTTTTTGGCACCTCCGAATCCTTCATTCCCCTTGAGGGCGCCCGCCTTGCAGGCAGCGACATCGTGGTCCCTTACACCAAGGATCAGGTAAAGGACGCACCCCGTGTGGATACCGACGGGCACCTGGAACCGTCAGAGGAGGACCGGCTCTACGAGCACTACCAGCTCAACGGCGCTGGAGCTTACGGTGACACCGCAACCGGCCGGAACGACGTCGAGCTCAACGGCCGTGATGCCAATACTGAGCGTGACGCCGCTTTCGCCGCCGGACGCAGCGGGACTTACGCCGCTGCCGGCGCTGCGGACACTGTAGGCCACGACACCTCTGGCCCTTCGACGGATGGCACCATGACGCGGTCCGAGGAGCGTTTGAGCGTCGGCGCCGAGAGGCAGGCAACCGGCAGGGCGCGGCTGCGCAAGTACGTGACGACAGAGAATGTCACGCAGACCGTACCCGTGCAGCATGAGGACGTTCGCTTGGAGCGGGAGCCTATTACGGACGAAAACATCAGCGCGGCTACGATCGGGCCGGACATTAGTGAAGCCGAGCACGAGGTGGTTCTCCACAAAGAGCGAGCCATCGTGGACAAGGAGACGGTTCCCGTGGAGCGCGTACGGCTGGACACGGAGACAGTGGCCGACGAGGTCACCGTCGACGAGCAGGTCCGCAAGGAGCGCATCGAGACGGACGGCGTCGACGACGCCCTCCACCGGCGCTGA	MLTKEHIDDLLKKDGNILSADGDKIGSIGQIYADDDNGQPTWVTTPTGLFGTSESFIPLEGARLAGSDIVVPYTKDQVKDAPRVDTDGHLEPSEEDRLYEHYQLNGAGAYGDTATGRNDVELNGRDANTERDAAFAAGRSGTYAAAGAADTVGHDTSGPSTDGTMTRSEERLSVGAERQATGRARLRKYVTTENVTQTVPVQHEDVRLEREPITDENISAATIGPDISEAEHEVVLHKERAIVDKETVPVERVRLDTETVADEVTVDEQVRKERIETDGVDDALHRR				NA	NA	NA	NA	NA
D1-17_02886	951			hypothetical protein	ATGACAGAGAACCAATGGCCGCAGGCCGCTGACCCGTACCCCGTAGACCCCTATGGCACATCTGGAACAACCGGCACCACAGGAACAACCGGCACCACAGGAACAACCGGGACGTTCGCCGAGCAGGGCGGGGCATCCTCCAAGAAGGAAGCCGCCAGGGAAGAAGCCTCGAACGTCGCCGGCCAGGCCAGGGGCGCAGCCCAGGACGTGGCGGGCACCGCCAAGGCCGAGGCCGCGAATGTCGCCGCCGAAGTCAAGACCAACACCAGGGACCTGCTCAACCAGGCCAGGTCCGGGCTGACCGAGCAGGCAGGGGCCCAGCAGCAGAAGGCCGCCGAGGGTGTCCGCACCATCTCCTCGCAGCTGCGCTCCATGGCCGATGCCCCCGAGCAGCAGGGCGTGGCCTCGGACCTCATCCGCCAGGCCGCCGAGCGTTCCGAATCCGTCGCGTCCTGGCTGGAAAACCGGGATCCGGGCTCGCTGCTGAACGAGGTTAAGTCCTTCGCCCGCCAGCGCCCCGGCACCTTCCTGCTCCTGGCCGCCGGCGCAGGCCTGCTCGCCGGACGCCTCGGCCGCAGCCTCCAAGCCGGAACCCCGGAAACTACGACGGCGGCAGGAAGCACCATCCCTCCGCAGCCCGTTCAGGCCCCGGCAACAGAAAGCGCCGTCACTGCAGGCATCGGAGAGCCGTTCTACGACGAGACCACAGCGGCCCAGCCTGCCTACGGACAACCGGCCTACGGCGCCCCGACTTATGGAGAACCGGGCTTCGAAGAACCGTCCGCCGGACAGCCTGGCACCCCGGTATACGGAGAGCCTGGCGTGGGTGAGCCCACCCGTCCGGGTACAGCCGGCACGGCATCGCCCACTTTCTCGGCAGGTGCCACTCCAGGAGCTCCGCTTGGCGACGTCGATGACCCGTATGCCGAGGGTGGAGGTCGTCCCCTGTGA	MTENQWPQAADPYPVDPYGTSGTTGTTGTTGTTGTTGTFAEQGGASSKKEAAREEASNVAGQARGAAQDVAGTAKAEAANVAAEVKTNTRDLLNQARSGLTEQAGAQQQKAAEGVRTISSQLRSMADAPEQQGVASDLIRQAAERSESVASWLENRDPGSLLNEVKSFARQRPGTFLLLAAGAGLLAGRLGRSLQAGTPETTTAAGSTIPPQPVQAPATESAVTAGIGEPFYDETTAAQPAYGQPAYGAPTYGEPGFEEPSAGQPGTPVYGEPGVGEPTRPGTAGTASPTFSAGATPGAPLGDVDDPYAEGGGRPL				NA	NA	NA	NA	NA
D1-17_02887	429			hypothetical protein	GTGAGCAGCCAGATACCCGACACTCCCCCGACGGCCGCGCACGCCAAAGCGGACTCGACCTCGCTGGGTGACCTCCTGAGCGACGTCACCCGGGACCTGTCCACCCTGATGCGCCAGGAACTGGAGCTCGCCAAGGTTGAAGCGAAGCAGTCAGCCACCCGCGCCGGCAAAGGCTCGGGCATGTTCGCCGGCGCCGGCGTGGCCGGGCACTTCGTGCTCCTGTTCCTCTCCCTCGCCCTCTGGTACGCCCTGGGCGAGCTGATGGGCCTGGGCTGGTCCGCCGTCGTCGTCGCCCTGATCTGGGGCATCATCGCCGCGGTTCTCGCCGCCACCGGCCGCAAGGAATTCAAGCGGATCAAGGGCATGCCCCAGACCGCCGAAACCGTCCAGGAAATCCCACCCACCCTCAAACCCAACGGAGGCCACTAA	MSSQIPDTPPTAAHAKADSTSLGDLLSDVTRDLSTLMRQELELAKVEAKQSATRAGKGSGMFAGAGVAGHFVLLFLSLALWYALGELMGLGWSAVVVALIWGIIAAVLAATGRKEFKRIKGMPQTAETVQEIPPTLKPNGGH				NA	NA	NA	NA	NA
D1-17_02888	690			hypothetical protein	ATGAGCAGCGAGAACCCGGACGCCATCCGCGCCGACATCGAAGCCACCCGCGCCCGGCTGGGCACCAACGTGGACGCCGTCGCGGACAAAGTCACCCCCTCAAACATCGTCCACCGCCAAACGGACAAGGTGAAAAACGCCGTGTTTGGAGTGAAGGAGAAAGTCATGGGAGCAGCCGACCACGCCACCCACAGCGCCTCCGGCGGCATGCACTCCGCCACCGGCAACGCAGGCTCAGCCCTGCACGACGCCCGCACCAACGTCACCTCCAGCCTGCAGGACGCCGGCTCCACCGTCGGCTCCGCCGTCCAGAGCGCTGGTTCCGCCGTCGCCGACGCGCCGCACCAGGCCGCGGTGAAGACCCAGGGCAACCCCCTGGCCGCGGGCCTGATCGCCTTCGGCGCCGGACTGCTCGTCTCCTCGCTGATCCCGCCAAGCCAGAAGGAACGCGAAGCAGCCGAAGCCCTCAAGAGCGCCGCCGAGCCCATGACCAGCCAGCTCACCGAAGCGGCCAAGGACATGGCCCAAGGCATGAAGGAACCCGCCCAGGAAGCCATGGAAAACGTCAGGGCCACCGCCACCGACGCCGTCCAGAACGTCAAGGACGAAGGCCAGACCGCCGCCAGCGACGTCAAAACCAGCGCCACCGACGCCGCAGCCCATGTCAAGGACCAAGGCCAAAACACCTGA	MSSENPDAIRADIEATRARLGTNVDAVADKVTPSNIVHRQTDKVKNAVFGVKEKVMGAADHATHSASGGMHSATGNAGSALHDARTNVTSSLQDAGSTVGSAVQSAGSAVADAPHQAAVKTQGNPLAAGLIAFGAGLLVSSLIPPSQKEREAAEALKSAAEPMTSQLTEAAKDMAQGMKEPAQEAMENVRATATDAVQNVKDEGQTAASDVKTSATDAAAHVKDQGQNT				NA	NA	NA	NA	NA
D1-17_02889	1173			hypothetical protein	GTGGTCGGCGGCGGCAACGCCGGGATCTCTCTGGCAGCGCGGCTCCGCCGTTACGGCATCCGGGATATTGCTGTCGTGGAACCCAGCGGCAGGCATCTCTTCCAGCCGCTCTTCTCTCATATTGGCGGCGGAACGGCCAAGGCTGCCGAAGCCGTCCGTGCCCAGGCGTCGGTAATGCCGGACGGTGCCACCTGGGTCCAGGACAGCGCCGTCGATATCAGGCCCGGGTCCAGCACAGTGGTGCTTGCCTCCGGTGGCGAGGTCACGTACGGGCACGTGGTGGTTTGCCCCGGCCTGCAGCTTGATTGGCACAAGGTGCCCGGTCTGGCCGAGGCCATTGATTCTCCATATGGGTCCTCCAACTACGTCTACGAGCTGGCCTCCAAGACATGGGGCTTGCTCAAAGAGCTGCGCAGCGGGACGGCCGTGTTCACCATGCCGTCCGGCCCGGTCAAGTGCGGCGGCGCCTCGCAGAAACCCATGTATCTGGCCTGTGACTACTGGAGACAGCAGGGTGTCCTGGACAAGCTCCGGGTAGTGCTGGTGGTCCCCACGCCCACAGTCTACGGAGTGCCCGGTGTGGATGAGGAGCTGAACCGGAAGATCGCCGAGTACGGCATCGAGCTGCGCTGCAACAGCGAGGTCGTCTCCGTGGATGCGGAGGGGCGGACGGTGCAGGTACACGATTCGCAGGCGGACCGGACGGAGGGCTTGGCCTACGACGTTCTGCACGCGGTGCCGCCGCAATCCGCTCCAGATTGGCTGAAGGCCACAAGCCTGCCGGCAGAGGGGGAGAGCGGCGGATTCGTGGAGGTTCATCCTGAGACGCTGCGGCATACCCGCTACCCGAACGTATGGTCCCTGGGCGATGCTGCGGGCACCAGGAATTCCAAGGCCGGCGCGGCCCTTCGAAAGCAGACCACCGTGCTGGCCAAGAACCTGAAGGCCGTCCTGAAGGGAGGCGAGCCCACGGCCAAGTACAACGGCTACTCGGCGTGCCCGTTCACGGTCTCCCGCTCAACCGTCGTGTTTGCCGAGTTCGACGATCAGTACAGGCCGATGCCCACTCTTCCGAAGGTCCATGTGGCCAAGGAACGGCGGTCGACTTGGATCCTCGAGCGTGATCTCTTCCCTGGTATTTACTGGAACCTCATCCTCAAGGGTCGTGCGTAG	MVGGGNAGISLAARLRRYGIRDIAVVEPSGRHLFQPLFSHIGGGTAKAAEAVRAQASVMPDGATWVQDSAVDIRPGSSTVVLASGGEVTYGHVVVCPGLQLDWHKVPGLAEAIDSPYGSSNYVYELASKTWGLLKELRSGTAVFTMPSGPVKCGGASQKPMYLACDYWRQQGVLDKLRVVLVVPTPTVYGVPGVDEELNRKIAEYGIELRCNSEVVSVDAEGRTVQVHDSQADRTEGLAYDVLHAVPPQSAPDWLKATSLPAEGESGGFVEVHPETLRHTRYPNVWSLGDAAGTRNSKAGAALRKQTTVLAKNLKAVLKGGEPTAKYNGYSACPFTVSRSTVVFAEFDDQYRPMPTLPKVHVAKERRSTWILERDLFPGIYWNLILKGRA				NA	NA	NA	NA	NA
D1-17_02890	1065			hypothetical protein	ATGATCAGAGTCCCCTTCGTGGAGGCGCCGGGCACGGACGACGGCGGTACGGGCGGAGTGCTGGACCGGGCCGGGCCGGATTGGGCTGTCATGGCCTCGACCCTACCCGGTAGCGCCACTAAAGGCAGCAGGTTCACCCGCGGGGATCGCTGTAAGAATAGGCGTATGGCAGCAATCATCCTGATGTGGAACCCGGACCGCAGGGACGGCTGGAACTATGCGGCCGCCGTCGAACGCGTGAGCGAAACCGGGCAGTTTCTGGCGGACTGGACCATGACGGGACCCGATCGGATCCTCGCAGGCACCGAGGTGTGGCTGTGGCTGCAGGGCCGGACGCGCTGCGGCCTGCTGGGCCATGGCACCGTTGTCTCCGGCGCCCGGCGTGAAGGGCCGGGATCTGCAGGAGAACCGGAACCTGTCCCACACGGGGCCACTCCCCCTCCCCACCCCGGCCACACCCGCATCTCTGTTGCTTATGACGCCCTCATCCCGCCCGGCGACGAGTTGCCGCCGTCGCTGTTTGCGGACATCGTTCCGGACATTCCATGGATTACGCCGGTGCGCCCGGTGACGGTTCTGGAGCCGCTCCTCGAGGCGAAGATCCGTGCCGTGTGGCGCGGATTCGGCCCGTCCCAGCCACCGGCCCCCGGCCACCTCATCCCCGGCAGCTACCCGGGGCAGGCAGTCCGCCGGGTGCAGGTAAACCGGTTCGAAAGCAGCATCGAGGCGCAACGGGTGTGTATCGCACACCATGGCACCAGCTGCGCCGCCTGCGGCCTCTCCTTCGAAGCCACCTACGGCCCGGCAGGCACCGGCTTCATCGAAGTCCACCATCTCGTTCCGCCGGAACTCCTCGGCAGTGACTACCAACTCGACCCGGTGGCCGATCTGGTGCCGTTATGTTCGAACTGCCATGCGATGGCCCACCTCGGCGTTGCCACGCCCCGAACTGTCGCTGAACTCAGGCAGCTCATCACCGGAGCCGGCTACCTGGCCGGGCAGACCGTCACCCCGGAGGAGCTCGAAGCCCAGCGGAACGCCCGCCGCATCCTGGAGCAGCACTAG	MIRVPFVEAPGTDDGGTGGVLDRAGPDWAVMASTLPGSATKGSRFTRGDRCKNRRMAAIILMWNPDRRDGWNYAAAVERVSETGQFLADWTMTGPDRILAGTEVWLWLQGRTRCGLLGHGTVVSGARREGPGSAGEPEPVPHGATPPPHPGHTRISVAYDALIPPGDELPPSLFADIVPDIPWITPVRPVTVLEPLLEAKIRAVWRGFGPSQPPAPGHLIPGSYPGQAVRRVQVNRFESSIEAQRVCIAHHGTSCAACGLSFEATYGPAGTGFIEVHHLVPPELLGSDYQLDPVADLVPLCSNCHAMAHLGVATPRTVAELRQLITGAGYLAGQTVTPEELEAQRNARRILEQH	PGPT0027235_267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027235-mcrA-K07451	NA	NA
D1-17_02891	1107	mgtA	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGAACGGGGTTACGCACTCGGTCCTGAGGGTGCTGGAGCATTTGCAGGAGCGGGGTGACGAGGTGCTGGTGATCGCGCCGTCGACGACGGACACCGGCGTTCTCGATGTCGTTCACGGCGCGGCTGTGCACCGGCTTCCTTCGGTGCCGGTGACAGGGTATGCGAACGTCCGGGTCGCGTTGGGCGGTGTGTATCGGGTCAAGAGAATCCTTGCCGATTACGCCCCTGATGTGGTCCACCTGGCGTCGCCGTTCGTGCTTGGCTGGCGGGCTGCCCAGGCGGCCTCGCAGCTGGGCATCCCCACCGTGGCGGTCTACCAGACCGAGGTTCCGAGCTACGCGGGGCGCTATGGTGTGCCGTTCCTCGAGAATTGGGCCTGGAACCGGGTTGAGAACATCCATCTTCTGGCCGGACGGACGCTGGCGCCGTCCACTTTCGCGCTGAACCAGTTGCGCGGCCGCGGGATTCCGAGGGTGGAGATGTGGCGGCGCGGTGTGGATACCGCGCGTTTCAGCCCGGAAAAGCGCGACGGCGGCTGGCGGGCTTCCGTGGCCCCCGGCGGTGAGCGGCTCATCGGCTATGTGGGGCGGCTCGCGGTCGAGAAGCAGGTGGAGGACCTGGGCGTGCTGTCCGACGTGCCAGGCACGCGGCTGGTGATCGTGGGCGACGGGCCCCAGCGCGGCGCGCTCGAAGAAGCCATTCCAAGTGCTGTTTTCACCGGCTTCCTCGGAGGTGAAGAGCTGGCCCGGGCTGTGGCGTCCTTCGACCTGTTTGTGCACCCGGGTGAATTCGAGACCTTCTGCCAGACGATCCAGGAAGCCATGGCGTCGGGAGTCCCCGTGGTGGCTACGGGCCGCGGCGGCCCGCTGGACCTGGTGGAGAACTCCCGGACCGGCTGGCTCTACGAACCGGGCGACCTCTCCGGGCTCCGCAGCCGGGTCATGGACCTGATGGGCGACGACGCCAAGCGCCGCGCATTCGCCACCGCGGCGCACGCTGCGGTCCAGGGCAGGACGTGGCCTGCACTGTGCGCAGAACTGGTCCGGCACTACTGGGAGGTCATAGGAGCCCCTGCCGTCCGTCCCACCGAAGGAGCTGCACTGTGA	MNGVTHSVLRVLEHLQERGDEVLVIAPSTTDTGVLDVVHGAAVHRLPSVPVTGYANVRVALGGVYRVKRILADYAPDVVHLASPFVLGWRAAQAASQLGIPTVAVYQTEVPSYAGRYGVPFLENWAWNRVENIHLLAGRTLAPSTFALNQLRGRGIPRVEMWRRGVDTARFSPEKRDGGWRASVAPGGERLIGYVGRLAVEKQVEDLGVLSDVPGTRLVIVGDGPQRGALEEAIPSAVFTGFLGGEELARAVASFDLFVHPGEFETFCQTIQEAMASGVPVVATGRGGPLDLVENSRTGWLYEPGDLSGLRSRVMDLMGDDAKRRAFATAAHAAVQGRTWPALCAELVRHYWEVIGAPAVRPTEGAAL	PGPT0017895_227	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
D1-17_02892	1437	ywqF	COG1004	UDP-glucose 6-dehydrogenase YwqF	GTGAAAATTTCCGTTATCGGGTGTGGCTACCTCGGCGCTGTGCACGCCGCGACGCTCGCCTCGATGGGCCACACCGTGGTGGGAATCGACGTCGATCCCGCCAAAGTGGAGCACCTAGGCGGCGGCGATGCGCCGTTCTTTGAGCCGGGCCTGGATGAGCTGCTGCGGGATGGCCATGACTGTGGCCGGCTCACGTTCTCCACAGACTTCGCGGCCGCCGCGGGCGCGGAGCTGCATTTCCTGTGTGTGGGCACTCCCCAGTCCAAGACCTCCGGCGGTGCGGACCTCAGTTACCTGTTCTCCGCGACGGAAAGTCTCCTTCCGCACCTGGGCCGCGGTGCCGCCGTCGTCGGCAAGTCAACGGTGCCTGTGGGTACGGTCGACCAGATCGGCGGAATCCTCGCGGACCGCCCGGACGTGCTGCTGGGGTGGAACCCGGAGTTCCTGCGCCAGGGCACCGCGGTGAAAGACACGCTGGTGCCGGACCGGTTGGTGTACGGCGTGCCAGGCGGCAGGGACGCCGCCTTCGCTCCGGGAAGTGGCACCTCGCAGGGAGTGACCGCGCTGCTGGATACGGTGTACGCACCCCTGCTGTTCGCAGGCATTCCGCGGCTGGTGTGCGACTTTGCCACCGCGGAGCTGATCAAGTCGGCGTCGAACGCGTTTTTGGCCACGAAGGTCAGCTTCATCAATGCCATGTCTGAATTGTGCGACGCTACCGGGGCGGATGTCGGTGAACTCAGCGAGGCGATGGGGCTGGACCCGCGCATCGGAAGCCGCTACCTTCACGCCGGACCCGGCTTCGGAGGCGGCTGCCTGCCCAAGGACATCCGGAGCCTGAGGACCCAGGCCGTGCAGCATGGCGTGGAGTCGCTCAACGGGTTGATGTGCCTCGTGGACTCCGTCAACACCGGCCAGCGGGTCCGCACCGTGGAAGCCGCCCGCGAGCTGTGCGGCGGCCATCTCGCCGGCAGGACAGTCACGGTGCTGGGCGCGGCGTTCAAGCCGGACACGGATGACATCCGTGACTCGCCGGCCCTCGACGTTGCCCTGCAGCTTGCGGCGGCCGGAGCGCACGTGACCGTCACCGACCCGAAGGCCATCAACAGTGCGTGGATGCGCTATCCCCAGCTGCGCTTCGAGCCCTCAACGCACAGGGCGCTGGAGGACGCGGAGCTCATCCTGCTGCTCACCGAGTGGGACGAATACCGCTCGCTGTCACCGGTTGCAGCCGGGCGGCTTGTACGACGGCGGACGGTGCTGGATGCGCGCAACGTCCTGGACGCTGCCATCTGGAAAGCGGCAGGCTGGGAAGTGCGCGGTCTGGGGACCGGCGCCCGGCCCACGGCCGCGTCCGTGACTGTGCCTGCTGCCGCTGCTTCCGTTGCTTTCACATCCGCTAGAGGCGCCGCGCCTGCCCGGATCAGCGCAGGCTGA	MKISVIGCGYLGAVHAATLASMGHTVVGIDVDPAKVEHLGGGDAPFFEPGLDELLRDGHDCGRLTFSTDFAAAAGAELHFLCVGTPQSKTSGGADLSYLFSATESLLPHLGRGAAVVGKSTVPVGTVDQIGGILADRPDVLLGWNPEFLRQGTAVKDTLVPDRLVYGVPGGRDAAFAPGSGTSQGVTALLDTVYAPLLFAGIPRLVCDFATAELIKSASNAFLATKVSFINAMSELCDATGADVGELSEAMGLDPRIGSRYLHAGPGFGGGCLPKDIRSLRTQAVQHGVESLNGLMCLVDSVNTGQRVRTVEAARELCGGHLAGRTVTVLGAAFKPDTDDIRDSPALDVALQLAAAGAHVTVTDPKAINSAWMRYPQLRFEPSTHRALEDAELILLLTEWDEYRSLSPVAAGRLVRRRTVLDARNVLDAAIWKAAGWEVRGLGTGARPTAASVTVPAAAASVAFTSARGAAPARISAG	PGPT0017855_1683	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCURONATE_MODIFICATION,PGPT0017855-ugd|tuaD-K00012	NA	NA
D1-17_02893	2151			hypothetical protein	ATGGGTGGCCCGCTGTTTCCTGCCCGGCAGGAAGGCCCGGAAGCCGGCTTCCAGGCGGTTTTCGATGCGCTGCCTGATGCTGTGCTGGTCATCGCTGAGGACGGGGTCATCCGCCTTGCGAACCGGGCCGGCGGGACCATGTTCGGGTACGTTCGGCAGGACCTGGCGGGCCGGGATCATCGGAGCGTCCTTCCCGACGCCTTCAGTGCCGGGCAAGAGCAGCATATGGCCGCCCTTCGCCGCAGCCACGGCTCCGGTTCTCCCGCTCCTTTGCCCTTTGATGCATGCGGCCGCCGCAAGGACGGCAGCAAATTCCGCGGCGAGGTGGCGAGTTCGCTGTTGGATTCGGACGAGGGTACGTTCCTGGTTGCGTCCATCCGCCCCGCGTTCCACCGGCCGGAGGCCGATGAAGGGCTGCGGGAAGCGATGTCGCTTCTCAGCGCCACGCTGGAGTCGACGGCGGACGGCATCCTCGTGGTGGGCGCCGACGGCAAGATCGCCGGGATCAATGATCAGTTCTCTTCCATGTGGCGGATCCCCCGGGAGATGCTCGCCGCCCGTGATGACGAGGCCGTCATGCAGTATGTCCTGGCACAGCTTTCCGATCCCGCAACCTTCCTGAGGAAGGTCAACGAGCTGTATGCGCATCCTGAGGCGGAAAGCCACGACGTGCTGGAGTTCCTCGACGGGCGCACCTTCGAACGTTATTCGCGGCCGCAGAAGGTGGATGACAGGGTGGTGGGCCGGGTCTGGAGCTTCCGGGATGTCACGCCGAGGCGCCGAGCCCAGGAGCAGGCCAAGCAGGCAATGGCTGAACTTGCCGAACAGGCTGCCCAGCTGAAAGCCATGGCGTTCCAAGACCCGCTGACCGGGCTCGCCAACAGGAAGCTGTTCCACGAGCAGCTGACGGAAGCGCTGCACGGCGAGTGCAGTGCCGCCGTCGACGTTCTCCTCCTGGACCTGGACGATTTTAAGGAGGTCAACGACATCCTCGGCCACCACGCAGGTGACCAGATGCTGATCGAGGTTGCCCGCCGACTGCGGGCGTGCGTCAGCCCGGACGATACCGTGGCGCGGCTGGGCGGCGACGAGTTCGTGGTTCTCCTGACCGGGTCCACGGATGCCGAGAGCGTGGCGGCGGATATCGTTGACTCGCTGAACGTTCCGGTGTGGATCGACGGGGAGATGCTGCGGCCGAGCCTCAGCCTGGGCCTGGCGTCAATGGGCGAAGGGGTCCTTGCGGCGTCGGAGCTGCTGCGCCGTGCTGACGTCGCCATGTATGCGGCCAAGGCCGCCGGCAAGAACCAGTACCTCCGGTTTCGGCCGGAAATGATGACGGCGCTGGTCCAGCGCACGGACATGGAAGCCGGCCTGCGCCTGGCCGTCGACAACGGCGAGATCACGGTGAATTACCAGCCGATCGTGTCGCCGGCGCTTGGCCAGGTCACGCAACTGGAAGCCTTGGCGCGGTGGGACCGGGACGGCGAGCGGGTGCCGCCGTCGCATTTCATTCCGACGGCGGAGCGGAGCGGGCTCATTTCCATCGTCGGCATGCACATGCTGCAGGAAAGCTTCAGCGAGCTGCACCCGTGGCTGGCGGCTTCACCCGCGCGCTCCCTCGCGGTGAACGTCTCGGGGGTCCAGCTTCGCGAGCCTGACTTCGCCGACGAGGTGCTGCTGCTCGCGGAATCGTGCGGCATGAACTCCGCGCAATTGGTGCTTGAGGTGACGGAAAGCGTGTTCTTCGACCATGACGACCACCTGATTGAGCAGCTGGAACTCCTCCGCCGTGCCGGGGTTCGCGTGGCACTCGACGATTTCGGCACGGGTTACTCATCGCTCGGGCGGCTGCAGGACCTTCCCGTGGATGCGGTGAAAATCGACAAGTCCTTCGTCTCCATGATCCGGACGGGCGCAGAAAAACTTCCGATCCTCAGTTCCATGATCAACATGGCCCACTCGCTCGGGCTAAAGGTCACTGCTGAAGGCGTCGAGACGGCGGCGCAGGCGGCGTATCTGACGGACCGGCAGTGTGATTCCCTGCAGGGATACCTGTTCTCGTTCCCGGAACCGGCTGCCGGCCTGGAGATCGCCATCCTCCGCTCAGCCGACGCCATCGACGAGCTGGAGGGGCTGCGGATCAGGCACTGA	MGGPLFPARQEGPEAGFQAVFDALPDAVLVIAEDGVIRLANRAGGTMFGYVRQDLAGRDHRSVLPDAFSAGQEQHMAALRRSHGSGSPAPLPFDACGRRKDGSKFRGEVASSLLDSDEGTFLVASIRPAFHRPEADEGLREAMSLLSATLESTADGILVVGADGKIAGINDQFSSMWRIPREMLAARDDEAVMQYVLAQLSDPATFLRKVNELYAHPEAESHDVLEFLDGRTFERYSRPQKVDDRVVGRVWSFRDVTPRRRAQEQAKQAMAELAEQAAQLKAMAFQDPLTGLANRKLFHEQLTEALHGECSAAVDVLLLDLDDFKEVNDILGHHAGDQMLIEVARRLRACVSPDDTVARLGGDEFVVLLTGSTDAESVAADIVDSLNVPVWIDGEMLRPSLSLGLASMGEGVLAASELLRRADVAMYAAKAAGKNQYLRFRPEMMTALVQRTDMEAGLRLAVDNGEITVNYQPIVSPALGQVTQLEALARWDRDGERVPPSHFIPTAERSGLISIVGMHMLQESFSELHPWLAASPARSLAVNVSGVQLREPDFADEVLLLAESCGMNSAQLVLEVTESVFFDHDDHLIEQLELLRRAGVRVALDDFGTGYSSLGRLQDLPVDAVKIDKSFVSMIRTGAEKLPILSSMINMAHSLGLKVTAEGVETAAQAAYLTDRQCDSLQGYLFSFPEPAAGLEIAILRSADAIDELEGLRIRH	PGPT0023624_2313	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-GGDEF|EAL|PAC|PAS-DOMAIN-CONTAINING_PROTEIN,PGPT0023624-GGDEF|EAL|PAC|PAS_domain_containing_protein-NA	NA	NA
D1-17_02894	840			hypothetical protein	ATGGCCCAGCGAACCATCGTCATCACCGGTGCCAGTGACGGCATCGGTGCAGCTGCCGCACGGAAGCTGGCAGCGGCAGGGGAGCGAATCGTCGTCGTCGGGCGTTCCGCTGATAAGACAGCACGAGTGGCTGCAGAGCTGGGTGCCGATTACTTTGTGAGTGACTTCGCCGAACTGTCCCAGGTGCGTCACTTGGCTGCGGCGCTGAGGGACAAATATGACCGGATCGACGTGCTGGCCAATAACGCCGGTGGCATTATGGCTGGCCATGAGCTTACGGCGGACGGCCACGAAAAGACCTTTCAGGTCAACCACCTCGCGCCTTTCCTGCTAACCGTCGAACTGATGGACGTCCTCACCACCAGCCGGGCCACCATCATCAACACGTCGAGTGCAGCCAATGGATTCGGGCGGCTGGAGTTGGACGATCTCAACTCAGCACAGAAGTACTCGACGAACCGCGCCTACGGCACGGCCAAGCTGGCAAACATCATGTTCACTTCGGAGCTGCAGAACCGTTATGGCGCCGCCGGCATAAGTGCGGCGGCGTTCCACCCCGGCGTGGTCGCAACCAATTTCGCGGCGGAGTCCACCAGCTGGTTCCGCCACGCCTACAAGACGGTGCTCAACCGCTGCCTGCTGGCCGCGGAACAGGGCGCCGACACGCTGGTGTGGCTCGCGTCCTCCACTCCCGGCCAGGACTGGGTGCCCGGTGCCTACTACGCCAAGCGGGCCTTGACGAAGGCTAATAAGCAGGCCTACGACTCAGAGCTCGCCCGGGCATTCTGGGACCGGAGCCTAAAACTTGTGGGTGCAGGCGAGCCGGTAGCAGAGCGGTAA	MAQRTIVITGASDGIGAAAARKLAAAGERIVVVGRSADKTARVAAELGADYFVSDFAELSQVRHLAAALRDKYDRIDVLANNAGGIMAGHELTADGHEKTFQVNHLAPFLLTVELMDVLTTSRATIINTSSAANGFGRLELDDLNSAQKYSTNRAYGTAKLANIMFTSELQNRYGAAGISAAAFHPGVVATNFAAESTSWFRHAYKTVLNRCLLAAEQGADTLVWLASSTPGQDWVPGAYYAKRALTKANKQAYDSELARAFWDRSLKLVGAGEPVAER	PGPT0010520_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-TYPE_II_POLYKETIDE-AKLAVINONE-DAUNORUBICIN_METABOLISM,PGPT0010520-dnrU-K15956	NA	NA
D1-17_02898	258			hypothetical protein	ATGACTGCAACACACTTTGACCGCTTTGTAGCCGAAGCTCTCACTGCGGACCGGGAAACCGATACAGGGCTTACCCCGGACGAGCTCTATGGCCTCTACACCAGCTGGAGCCTGATCAACAGAACCGAGCCCGAGACCCCCGAAGCGCTCCGCGCCGGCCTGAAGGCCCTCGGTATTGATCCCGACAAAAATGAGTTGTCGATGACCGGCCCGGCCGCCGCCGACTATATTGTGGCCAGCGCCCCCAGCCTCATCTAG	MTATHFDRFVAEALTADRETDTGLTPDELYGLYTSWSLINRTEPETPEALRAGLKALGIDPDKNELSMTGPAAADYIVASAPSLI				NA	NA	NA	NA	NA
D1-17_02899	1380	pknD_2		Serine/threonine-protein kinase PknD	ATGGACGAACAGTCTGGCATTTCAACAGGCACCTTACTGGGTGGCAGGTACCGCGTGGTGGAGCAACTCGGTTCGGGAGCAATGGCCCACGTCTACCGCGCTGCTGACGAAATCCTCGGCCGCGACGTCGCCGTAAAGGTGGTCATCAAGTCAGCGTTTACCGGGGCAGCTCGGGACGACGACGCGGAGGTGAAGGTTCTAGCACGCTTAAACCACCACAACCTGGTCACGCTCCTGGACGCTGGGGTGGACCGGACAGAACCAGGACCGCCCCGCGTCTACCTGGTGATGGAGCTCGTTGAGGGTCCCGACCTCAAGCACCGGCTCCAGGAAGGACCCCTTTCACCACGCCACACGGCGCAGATCGGCCACGACGTTGCGGACGCACTGAGCTACATCCACGAGAATGGTGTGGTCCATCGCGACGTCAAGCCCGGGAACATCCTGGTCTTCGATTACAGCCACTATGCCGCAAGGATGCGGGCCAAATTAACGGACTTCGGGATCGCGCTGATGTCGGACGCTCGCCAATATGACACCGGAGGAGTGCTGGGAACAGCGGCCTACCTCAGCCCGGAGCAGGCGAAGTCAGAGCCAACGGGACCACCCAGCGACGTCTATTCACTGGGCTTGGTGCTGATCGAGTGTCTCACGGGCGAGCCTGTCTTCCGCGGTGATCCCCTGCAGAGCGCCCTGGCCCGGCTGATCAATGACCCGGCCATCCCGGAATGGCTGGAACCGGAATGGCAGCAACTTCTGGCTGCCATGACGGCACGGGACCCGCAGGAGCGCCCATCAACCTACGAGGTTGCCCAGGCACTCGATCACCTGGCGGTCAACAGCAGGGGAAGACACAAGGTTGACGCCGCCATCATTCCCGCGAATGAAAATGCGCGGATGGACGCCGTCCACCGCTACAGGATTTTGGACACGCCGCCGAACGGCACCTTCGACAGGATCACGGCACTCGCAGCCAGGGTTTTCGACGTTCCTATTGCCATCGTCTCGGTGGTGGACCATGACCGTATCTGGTTTAAGTCCCACCACGGCATTAACGTCAATGAAATCGACCGAGATGCCGGACTATGTGCCTCGGCAATCCTGCAGGACGACGTCTGGGTGGTGGAGAGCGCCCCCGACGACCCTCGGGCTCTCACGAACCCACTTGTAGCCGGAGAATTCGGCCTGCGCTTCTACGCGGGGGCGCCGCTCACCACCCGGGACGGCTACAACCTGGGCACCTTATGCATCCTTGATTTCAAGCCCCGGGTCCTCACTCCGAAAGAGGCAGCAACGCTGCAGGATCTGGCCGCTGTTGTGATTAGTGACCTTGAGTTTCGTTTGGAAAGCCGGAGCGCAAGCTCCGCCCACTCCTCTTAG	MDEQSGISTGTLLGGRYRVVEQLGSGAMAHVYRAADEILGRDVAVKVVIKSAFTGAARDDDAEVKVLARLNHHNLVTLLDAGVDRTEPGPPRVYLVMELVEGPDLKHRLQEGPLSPRHTAQIGHDVADALSYIHENGVVHRDVKPGNILVFDYSHYAARMRAKLTDFGIALMSDARQYDTGGVLGTAAYLSPEQAKSEPTGPPSDVYSLGLVLIECLTGEPVFRGDPLQSALARLINDPAIPEWLEPEWQQLLAAMTARDPQERPSTYEVAQALDHLAVNSRGRHKVDAAIIPANENARMDAVHRYRILDTPPNGTFDRITALAARVFDVPIAIVSVVDHDRIWFKSHHGINVNEIDRDAGLCASAILQDDVWVVESAPDDPRALTNPLVAGEFGLRFYAGAPLTTRDGYNLGTLCILDFKPRVLTPKEAATLQDLAAVVISDLEFRLESRSASSAHSS				NA	NA	NA	NA	NA
D1-17_02900	2328			hypothetical protein	ATGCACATCAACGAGGGATTTTTGCCCATGGTGGACGGTTCGCTCGTCTACCATCGGGGATTCGGCGACAGGCCCACCCGGATCAACGACCCTAAGCCGGCGCTGAAGATGGGCCCCCGGGTGTTCACGGCAGCCGGCCAAGTTGTCGCCAGCCGGATCTATCCGCTTAAGGCTCCGGTGCCGCCCTACGGAAGGCCGGCGCCTTTCAGCGGGGACCCGGCGCACGAGCGGCAGTTCCTGGCCAGACGCGCTTACTGGGCCAGTTACTTCCCGGAGCGGACGCTGATCGCCGAGACGGGAAGCACCATCAGCATCCTGCTGCAGAACAACCTGTCGCAGCCGCACGAGCTGCTCTTCCACAACGCCGGCCCGGCGGGGGCACACGTCAGGAGCGGGAAGATCGCCCCGGGCAGGACGAAACTTTTCGAGTTCCGTGCCCCGGCGCCCGGGACGTACCTGTTCTCCGATCCCGGCACCGAGCCGGTGGAGCGGACGCTGGGCCTGTACGGCGGGCTGGTGGTCATCGACCCGCGCAACGCCTGGCGGCTGGGCCAAAACGGACCGGAATTTGAACGCCAGTGGCTGTGGATGTGCCACGACGTAGCTCCGAACTGGGCGCGCATTGCGTCTCAGGGGCAGCCGGTCAACCCGCTCACTACTCCGGCCGTGCCGCGCTATTTCACGCTCAACGGATACTCGGGGTTTCAGGCGCTTGCCCTCACTCCGGATGAGGAGTTCAACAAGCATCGGGAGGAGGACACGCTTCCTTCGGGCCATCCAAGGGAAACTGACGTGCGCAATTTCAGCGCGTCCCCGGCGCGGGGCGCCGTCCGCACCGGCCAGCTCATGCGGATGCTCAACGCCGGCATCGTGGACCACCAGCTGCACTACCACGGGAACCACGTGTGGACGGTGCGGGCCAACGGCTTGGACTTTCCGCGAGCCAACGGCAGGGTCAGCCCCGCAGGTGACGTCATCCTTCAGCAGTGGGAGGACACCGTTCAGCTGCAGCCCGGTGAACGCAAGGAGGCCATGCTGCCGGTCCGGCGGCCGCCGGAAGTGGTGGACGAGGTGTGGAACGCGAGGGACGCTGACTGGAAATATCCCATGCACTGCCACGCCGAACCATCCCAGACGGCGGCGGGCGGCCTCTACCCCGGCGGGTTGATGTCCGACTGGGTACTCGCTGCCGGCCCGGTGCCCGAGCATGGCCTTCCCGGCACGGTGGAGGACGAAGCCCACCGCACGTTCCAAAGCCAGGTGGACTTCGCCTCCGACCAGCCGCACGAAGGCAGCCCCGAAACCGAGTTTCCGCTGCGGCCTGATGTCTCCGTGGAGATGGATTTCTTCAACAGGAAACTCGAGTTCCCCGACGGCTCCGAGCACGAGGTGTGGAGTTTCGAGGACGAAAAGTCAGGCCGCCAGCTCCCCGGGCCGCTCGTGCGCATAACGGAAGGCGACATCTTCCACGCCACCATCAAGTCCAGCAAGCGGGTGCATACCATCCATTGGCACGGGCTTGAGCCCGATCCCCGCAATGACGGCGTCGGCCACACCTCCTTTGAGGTGACAGGGCACTACACCTACCAGTGGCGGCCCGAAGTGGCCGAACGGGGCAACCCAAACCGCGGCTCAGCGGGCACTTACTTCTACCACTGCCACGTCAACACTCCCCTCCACGTCCAGATGGGCATGTTCGGGGCGGTGATCGTCGATCCCCCTGCGGATCCGGCAAACCCGCCGGGAACACGCCGTCACTCATCGGAAGGCCCGCTGTACGACATTGCCACCGAAGCCATGATCGCACCGTTCTCAATCGATCCGCGCTGGCATGAACTGAACCACGCCGCGGGACTGTCCGGTGAGGACGTGGGCCTTAACCGCTTCGAACCTAAGCATTTCTTCCTGCTCGGAGGCGTCATTCCGGCCAGACCAGGGGGAGACCGGGTGTGGACGATCTCGGCCATGAAAGCCAACGTCGTCAGGCCAGGTACATTTCCCACGCTGGTGCGGCACGTGAACGTGGATTATTTCCCCACGCTTACCAGGTTCATGGACGCAGCCGGCAAGCCCGCACGGATCGCTGAACTGATTGCGCATGACGGCCGGCCCTTCTGGAACACGCCCAGCCCCACGGGCCCGGCCGTTCAGCCATCGCTGGTAGGACAGCCATTGCTGACCAGCATCATCAAGTCTGGTGCGGCCGAAAAGTTCGACCTGCTGCTGCGTCCCCCGGCGCCCGGAAAGTACACGATCGCCGTCGACTTCCTGCACTGGATCACCGGCAGGGTCCTCGCGACGCGGACTGTCACCGTAACTGCCGCCTGA	MHINEGFLPMVDGSLVYHRGFGDRPTRINDPKPALKMGPRVFTAAGQVVASRIYPLKAPVPPYGRPAPFSGDPAHERQFLARRAYWASYFPERTLIAETGSTISILLQNNLSQPHELLFHNAGPAGAHVRSGKIAPGRTKLFEFRAPAPGTYLFSDPGTEPVERTLGLYGGLVVIDPRNAWRLGQNGPEFERQWLWMCHDVAPNWARIASQGQPVNPLTTPAVPRYFTLNGYSGFQALALTPDEEFNKHREEDTLPSGHPRETDVRNFSASPARGAVRTGQLMRMLNAGIVDHQLHYHGNHVWTVRANGLDFPRANGRVSPAGDVILQQWEDTVQLQPGERKEAMLPVRRPPEVVDEVWNARDADWKYPMHCHAEPSQTAAGGLYPGGLMSDWVLAAGPVPEHGLPGTVEDEAHRTFQSQVDFASDQPHEGSPETEFPLRPDVSVEMDFFNRKLEFPDGSEHEVWSFEDEKSGRQLPGPLVRITEGDIFHATIKSSKRVHTIHWHGLEPDPRNDGVGHTSFEVTGHYTYQWRPEVAERGNPNRGSAGTYFYHCHVNTPLHVQMGMFGAVIVDPPADPANPPGTRRHSSEGPLYDIATEAMIAPFSIDPRWHELNHAAGLSGEDVGLNRFEPKHFFLLGGVIPARPGGDRVWTISAMKANVVRPGTFPTLVRHVNVDYFPTLTRFMDAAGKPARIAELIAHDGRPFWNTPSPTGPAVQPSLVGQPLLTSIIKSGAAEKFDLLLRPPAPGKYTIAVDFLHWITGRVLATRTVTVTAA				NA	NA	NA	NA	NA
D1-17_02901	147			hypothetical protein	ATGATCGCCGGAGTCTGCGCAGCGCTCGCCGCGCGCTTCGGAATTTCCAAGGCTCTTGTCCGCATCGGCTTCGTGCTTTTCGGCCTGTTTGGTGTGGGCGAGCTCGCCTACATAGCGTTGTGGATCATCATTCCCAAGGAGAAGTAG	MIAGVCAALAARFGISKALVRIGFVLFGLFGVGELAYIALWIIIPKEK	PGPT0027520_1973	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-PspC-PspB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027520-toxin_pspC-K03973	NA	NA
D1-17_02902	600			hypothetical protein	GTGCCGGGAATCAGTTTTACCGCCATCGACTTAGCGACGGCGAACAGTGACAGCGCATCCGTGTGCGGCGTGGGCTTGGCGAAGGTGCAGGACGGCCGCCTCGTGGACAAAACCTCGTGGCTGATCAAACCACCGCCGGGCCTAGGGCACTTTGATCCTGTCAACACAGAGGTCCACGGGATCCGCGCCGAGGACGTCGCCAGTGCCGCCGACTGGGAGATGTCCATCGAGGGGATCCTGCACTTCACCTGTGAGGATCCGCTGGTGGCCTATAACGCCGCCTACAACGCCGAGGTGCTGCTGAAGGCGAGCGGCCGCCTGAACCTGGACCTGCCGGCCCAGAACTTTTACTGCGCGCTTGAGTTGGCGCAGAACGAGCTCCACCTGCCGAGGCGGAGCCTCACGCACACCCTTGCGGCCCTGAAGCTGCCGCCGGTCGCGCAGACGGAGCCGGGTGCCAACGCTGTGGCCTGTTCCAAGATTGTGCTGGCCATCGCCCGGATGCGGAAAATGGGCAGGTTTGAAGAGATCTGGAAGGAGCCGGCGGTCACTGTCGGGCGAAAGCCGCAGGGCCGCCGTCGTAAGCAGTCTTCGGAGTAG	MPGISFTAIDLATANSDSASVCGVGLAKVQDGRLVDKTSWLIKPPPGLGHFDPVNTEVHGIRAEDVASAADWEMSIEGILHFTCEDPLVAYNAAYNAEVLLKASGRLNLDLPAQNFYCALELAQNELHLPRRSLTHTLAALKLPPVAQTEPGANAVACSKIVLAIARMRKMGRFEEIWKEPAVTVGRKPQGRRRKQSSE				NA	NA	NA	NA	NA
D1-17_02903	1632	phoD_2	COG3540	Alkaline phosphatase D	ATGACTGCTCTCACCCGCCGAAACGTCCTCAAAGGTGCCATCACCGCCGCCGGTGCTGCCGCCGTCGCGCCTTCCCTTCTTGTGCCCGCGCATGCCGCCAGCCCGTCCGCTGTCCCGCTGGTCCGCAACCGCCTGACCCTTCCGTCCGGCATTGCCACGGGCGACGTGACCGCGGATTCCGGTGTCCTCTGGTCCCGGGCGTCGGGACCCGGCCGGCTGGTGGCCAGCCTGCTGGCGGTTGACGAGGACGGGTCCCCGCTTCGCGGCGGACGCGCCTTCCGGCGTGTACTGCGGGGGAGCGCCGCCACCGAGGCCAGCGACTTCACCTCCAAGATCAACGCCGCCCACCTCCCGGCCGGCACACGGTTTGCCCTGACCATGCACTTCGAGGACACCGAGGGCAACGCGGGCGAAACCGCCCAAGGCTCCTTCGCCACGGCACCCGGAACCGGGACTCTCCGCAGCGCCCGGTCCTCCCGCCGCCAGAGCTTCGTCTGGTCCGGCGACACGGCCGGCCAGGGCTGGGGCATTAATGAGGACATCGGCGGCATGCGCGGCTATGCGGCCATGCACGCCACCCGCCCGGACTTCTTCATCCACTCCGGCGACACCATCTACGCCGACGGTCCCATCGCCGCGCAGGTCACCGAACCTGAGGGGCAGATCTGGCGGAACCTCGTCACCGAGGAAGTCTCCAAGGTGGCCGAAACCCTCAACGACTTCCGCGGCCGGCACCGCTACAACCTGATGGACCGCAACGTCCGCGCCATGTACGCCGAGGTTCCGGTCATCGCCCAGTGGGACGACCACGAAACGACCAACAACTGGTACCCCGGCGAAATCCTCACCGACCCCCGCTACACTGAACGCCGGGTGGACGTCCTGGCAGCCCGCGGCCGTCAGGCCTGGCAGGAGTACCAGCCCATAGCGGGGCCGAGCAGGGGCCTCAGCGACGGCAGCACCGGCTTCGAACCCGCCCGCATCTACCGCAAGATATCCCGCGGCCCGCAGCTGGAGATCTTCTGCCTGGACATGCGCACGTTCAAGGACCCGAACACAGACGGCAGGGAAACCAGCCTCACCCACATCCTCGGCGAGGAGCAGGCATGCTGGCTGATCAACGAAGTCACGAGGTCCAAGGCGACCTGGAAGGTGATCTCTGCAGACCTCCCGCTCGGCATCATCGTGCCGGATGGCCCGGTCAACCAGGAATCCCTCGCCAACCGCAACGCCGGTGCCCCCTTGGGCAAAGAGCTTGAGATTGCCGGCGTGCTCTCGGCGTTCAAGCGCAGCAAGGTGAAGAACGTGGTCTGGCTGACCGCGGACGTCCACTACTGCGCGGCTCACCACTACTCGCCCGAGCGTGCCGCCTTCACAGACTTCGACCCCTTCTGGGAGTTTGTGGCCGGCCCCATTAACGCCGGCACGTTCGGGCCCAGCCAGATGGACGGCACATTCGGCCCTGAGGTCGCCTTCTACAAGGCCGGCGCCTACGCCAATCAGTCCCCGCGCACGGGTGACAGCCAGTTCTTCGGCCATGTGGCCCTCGACGAGGACGACGTCTTCACGGTCAGCCTCCGCAACGCCAACGGCGCCGTGCTTTGGAGCAAAGCCCTGCACCCGGAAGCCTGA	MTALTRRNVLKGAITAAGAAAVAPSLLVPAHAASPSAVPLVRNRLTLPSGIATGDVTADSGVLWSRASGPGRLVASLLAVDEDGSPLRGGRAFRRVLRGSAATEASDFTSKINAAHLPAGTRFALTMHFEDTEGNAGETAQGSFATAPGTGTLRSARSSRRQSFVWSGDTAGQGWGINEDIGGMRGYAAMHATRPDFFIHSGDTIYADGPIAAQVTEPEGQIWRNLVTEEVSKVAETLNDFRGRHRYNLMDRNVRAMYAEVPVIAQWDDHETTNNWYPGEILTDPRYTERRVDVLAARGRQAWQEYQPIAGPSRGLSDGSTGFEPARIYRKISRGPQLEIFCLDMRTFKDPNTDGRETSLTHILGEEQACWLINEVTRSKATWKVISADLPLGIIVPDGPVNQESLANRNAGAPLGKELEIAGVLSAFKRSKVKNVVWLTADVHYCAAHHYSPERAAFTDFDPFWEFVAGPINAGTFGPSQMDGTFGPEVAFYKAGAYANQSPRTGDSQFFGHVALDEDDVFTVSLRNANGAVLWSKALHPEA	PGPT0002575_1068	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
D1-17_02904	468			hypothetical protein	ATGGACGACTCCGCGGACACGCGCCAACGGCTGTCTGAGCGCATTGACCAAAAGCAGCAGACGATCCGTTCCTACTTGGGACGGGAGCGGCCGCGCCGGAACAAGCTTTCCAACATCAGCATCGTAGGCAGCGCGCTCGCGGCCATGCTCACCGCCGGGCCTGCTGTGGGCGGCACCGGATTCACCGAGGCGGTGCGGGAAATCTTCTCGCTGGCGGACGATTCGGTTGTGTGGCGGTTCCTGTGCCTGGCCGCCGTCATGTTCTCCGTCGCGGCCGCCCTTGCCACGAACTTCGCCAACTCCCGCGCCCTGGGCGAAAAGGTCAGCGCGGCCGAGACCGCCAATGCCCAGCTGGAAGGCCTGCAGCTGTCACTGAACTTCGGCAACCTGGCCGTGGACGAGGCCCTCAAGCTCTACCAGCAGGCCGTTGCGCAGGTAGCTTTCGTGGACGAGGTACGTGCGCCCTGA	MDDSADTRQRLSERIDQKQQTIRSYLGRERPRRNKLSNISIVGSALAAMLTAGPAVGGTGFTEAVREIFSLADDSVVWRFLCLAAVMFSVAAALATNFANSRALGEKVSAAETANAQLEGLQLSLNFGNLAVDEALKLYQQAVAQVAFVDEVRAP				NA	NA	NA	NA	NA
D1-17_02905	1290		COG2230	putative fatty acid methyltransferase	ATGGCGAAAACATCTGGTGTGGCATCACGGCTGGCCAAGGCGCTGGCCATTGTCCTGCGGGCTGAGGAGGTTCCTGTCCGGCTGCGGGCGTGGGACGGGTCGGAAGCGGGTCCGGCAGATGCACCGGTCATCGAGTTCAAATCGAGGCGGGCGCTGCGGCGGATGTTGTGGGCGCCCGGGCAGCTGGGCTTGAGCCGGGCGTACGTGGCTGGCGAGATCGAGGCACACGGAGACATCTTCGCGGCCTTCACGGCGCTGAGCTCCGCCGGGAAGTTCACCGAGCCCGGAGCCTTCAGCAAGCCGACGCCGCGGGAGCTGGCGACGCTGCTCGCCACCGCGGTCAGGCTCGGTGCGGTGGGACCGAATCCGGCGCCGCCGCCGGAGGAAGCGCGGGTCGAAAAGCACGGACGCAGGCATTCCAAGCAGCGTGACGCTGCGGCGATCTCCCACCATTACGACGTCGGCAACGACTTCTACCGCCTCGTGCTCGGCCCCTCCATGGTGTACTCCTGCGCCGTCTTCGACAGCCACGACACGAGCCTGGAGGAAGCGCAGGAAGCCAAACTGGATCTGGTCTGCCGCAAGCTGGGGCTGCAGCCGGGCATGCGGGTGCTGGACGTCGGCTGTGGCTGGGGAAGCTTCGTCCTGCACGCCGCTGAGCGCTACGGGGTGAATGTTGTCGGAATCACGCTGTCCACCGAACAGGCGGAGTTCGTCCGCAAACGGGTGGCCGAGGCCGGACTGACGGAGCGGGTGGACATCCGCGTCCAGGACTACCGCGATGTCGAGGACGGCCCCTTCGACGCGATCAGCTCCATCGGTATGTCCGAGCACGTGGGCAGGGCACAGCTCCCCGACTATGTGGAGCAGCTGCACAACCTGCTCCGCCCGGGGGGCCGGCTGCTCAACCACGCCATCTCATGGAACGCCGGGCCCACGGAGGACGACCCGGATTCCTTCATCCCCCGTTATGTCTTCCCCGACGGCGAGATGCTGAGCCTTTCGGAGATGGTGGTGGCGCTGGAGGCCGGCGGCTTCGAGGTGCTCGATGTCGAAGCGCTCCGCCGGCACTACGCCCTGACCCTCCGTGCCTGGGTGCGGAATCTGGAGGAGCACTGGGACGAGGCGGTGCGGCTGACGTCTCCCGGCCGCGCCCGTGTTTGGCGGCTGTATATGGCGTCCAGCGCGTTGGGGTTCGAAAATGGGCTGACCGGGGTCAACCAAGTGCTGCTCCAAAAGCCCGGAGGTGGTGAGCCGCCGCTGCGCCTGCGGCAGTGGACCGCTGGTTGA	MAKTSGVASRLAKALAIVLRAEEVPVRLRAWDGSEAGPADAPVIEFKSRRALRRMLWAPGQLGLSRAYVAGEIEAHGDIFAAFTALSSAGKFTEPGAFSKPTPRELATLLATAVRLGAVGPNPAPPPEEARVEKHGRRHSKQRDAAAISHHYDVGNDFYRLVLGPSMVYSCAVFDSHDTSLEEAQEAKLDLVCRKLGLQPGMRVLDVGCGWGSFVLHAAERYGVNVVGITLSTEQAEFVRKRVAEAGLTERVDIRVQDYRDVEDGPFDAISSIGMSEHVGRAQLPDYVEQLHNLLRPGGRLLNHAISWNAGPTEDDPDSFIPRYVFPDGEMLSLSEMVVALEAGGFEVLDVEALRRHYALTLRAWVRNLEEHWDEAVRLTSPGRARVWRLYMASSALGFENGLTGVNQVLLQKPGGGEPPLRLRQWTAG	PGPT0007680_576	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-PHOSPHOLIPID_PRODUCTION	PLANT_SIGNAL-PHOSPOLIPID_METABOLISM	PLANT_SIGNAL-CYCLOPROPANE-FATTY-ACYL-PHOSPHOLIPID_BIOSYNTHESIS,PGPT0007680-cfa-K00574	NA	NA
D1-17_02906	705	hchA		Protein/nucleic acid deglycase HchA	ATGGCCAACATCCTGATGGTCGTATCAGCCGCCGACAAGCTCACCATGAAGGACGGCAGCGAGCACCCCACCGGGTACTGGGCCGAGGAGCTGGTGGTGGCACACCGCGCCCTGCTCCAGGCAGGACACACGGTGGACTTCGCCACTCCCGGCGGCGTGAAACCGACAGTGGACAAGGCCAGCCTGCAGGCTGAGGCGGTCGGCAGCGAGGAACGGGCGGAAGACTTCCGCATGTATCTGGACATGATCGACGTCGACCTTTTCGCGCCGCTGGTGCTGGCCGATGTCGACACCTCCGCCTATGACGCCGTGGTGCTGCCCGGCGGGCACGGCCCCATGGCCGACCTGTACAAGGACAAGGACTTGGGCCGGATCCTCGTGGAGATGAACGACGCAGGCAAGATCATCGCCCCGTTCTGCCACGGCCCCGCGGGCCTGCTCAGCGCCACGTCCGACGACGGCAGGTTTGCCTTCGCGGGCCGCCGTCTCACCGTTTTCGCCAACTCGGAGGAATTGGGCGGCGGCACCGGCGAGAACACGCCCTGGCTGGTGGAAAACAGGCTGCGCGAGAAGGGCGCCAACGTGGAGACCGGCGCGGACTGGTCCAGCTTTGTGGTGCGCGACGGAAACCTGATCAGCGGCCAGAACCCCCAATCCAGCGAGGACGTCGCCAAGGAGGTCATCGAAGCCCTCGCCACTGGTTGA	MANILMVVSAADKLTMKDGSEHPTGYWAEELVVAHRALLQAGHTVDFATPGGVKPTVDKASLQAEAVGSEERAEDFRMYLDMIDVDLFAPLVLADVDTSAYDAVVLPGGHGPMADLYKDKDLGRILVEMNDAGKIIAPFCHGPAGLLSATSDDGRFAFAGRRLTVFANSEELGGGTGENTPWLVENRLREKGANVETGADWSSFVVRDGNLISGQNPQSSEDVAKEVIEALATG				NA	NA	NA	NA	NA
D1-17_02907	267			hypothetical protein	ATGATCAAGCTCCAGCAGGATGCCGAAGGCTTTATTCGGATGAGCCGGCACTATCCCGAAAGCGTCCGAGTCTCCGTCACCTTTGCCGACGGCACCGAAGAGGAGATCTCCGGGCGCCGGCTCAACAAGGCCTACGATGACGCGCTGGCCGAATACCGCGCCCAGAACCATCTCGATGCCAAGGGATTCTCCCGGGCGCCGAAAAAGAAGACTGGTTCGGGCAACAGGATCGACTTCGTCCCGGTGCATCCCGGCATGGGGGAGTAA	MIKLQQDAEGFIRMSRHYPESVRVSVTFADGTEEEISGRRLNKAYDDALAEYRAQNHLDAKGFSRAPKKKTGSGNRIDFVPVHPGMGE				NA	NA	NA	NA	NA
D1-17_02908	1404	ygbN	COG2610	Inner membrane permease YgbN	ATGACCATCGAAGGATGGACTCAAACACTGGGCGCAGGCCCCCTGCTGCTCATCGCGGCGGCAGCGATCGGCGTCCTGCTGTTCCTGATCATCAGGCTGCGGATGCACGCACTGCTGGCACTGATCGTGGTCAGCCTTGCCACCGCCTTCGCCACCGGAATCCCCGCAAACCAGGTGGTGCCGGTGCTGATCAACGGCTTCGGAACGACCCTCGGAACCGTGGCGCTGCTCGTCGGCCTCGGCGCCATGCTCGGCCGCATCGTGGAAACCAGCGGCGGCGCCAAAGTCCTGGCCGACTACCTGATCGGCATCTTCGGCGAAAAGCGTGCCCCCCTTGCCCTGGGCCTTGCCTCCCTGATCTTCGGCTTCCCGATCTTCTTCGACGCCGGCCTCGTGGTCATGCTCCCCGTCGTCTTCGCCGTGGCACACCGCCTGGGCGGGGGAGTGCTGCGCTACGGTCTCCCGGCTGCCGGCGCGTTCTCCGTGATGCACATCTTCCTGCCGCCGCACCCCGGCCCGGTCTCGGCGTCGGCCTTCTTTGAAGCGAACATCGGCCTGGTCACCGTCGCCGGCCTCATCACGGCGATCCCCACCTGGTACGTGACCGCCTACCTGTACGGCCTGTGGACGGGCAGGAAGCTGCAGCTTCCCGTTCCGGAACTCCTCGGCCACGCCGACGCCGAAGCCCTGTCCCACCCGCCGCGGTTCCGCACCATCATTGGTCTGCTGCTCCTGCCGCTGGTCCTGATCTTCATGAATACGGGGCTGAATACCTTCGCCGCGTCCGGCGTGCTGCCGGAAAACGTCCGGGACGAACAGTGGTTCCAGGTTTTGCGCACCATCGGTGAAACCCCGGTGGCCCTGCTCATCTCCGTCCTCGTCGCGATGTTCGTCCTTGGTGCCCGCCGCGGCGTCCATAACGGCGCCCTGGAAAAGTTGCTCGAATCCTCGCTCGGCCCGGTCTGCTCCGTCATCCTCATTACCGGCGCCGGCGGTATGTTCGGCGGAGTGCTGCGCACCTCCGGCATCGGCGACGCCCTGGCCGACGTGCTGGGCAGCATCGGCATCCCGCTCATCTTCGCGGGCTTCCTGCTCTCCGCCATCCTGCGCATCGCCCAGGGCTCGGCCACCGTGGCGCTCACCACCACCGCAGGCCTCATCGCCCCCGGTGTTGCCGCTGCCGGGCTGAACGGCATGCAGATCGCCGCGCTCGTCATCGCCGTGGCCGCCGGCTCCGTGGTGGTCTCCCACGTCAACGACTCGGGCTTCTGGCTGGTGGGCCGCTTCTTCGGCATGGACGTGAAGACCACGTTGAAGACCTGGACCGTCATGGAAACCCTGATCGGTGTCATGGGCTTCACCATCGCCGCCACCATCTTCGGGTTGGCCGGTTTGGCGGGTTAG	MTIEGWTQTLGAGPLLLIAAAAIGVLLFLIIRLRMHALLALIVVSLATAFATGIPANQVVPVLINGFGTTLGTVALLVGLGAMLGRIVETSGGAKVLADYLIGIFGEKRAPLALGLASLIFGFPIFFDAGLVVMLPVVFAVAHRLGGGVLRYGLPAAGAFSVMHIFLPPHPGPVSASAFFEANIGLVTVAGLITAIPTWYVTAYLYGLWTGRKLQLPVPELLGHADAEALSHPPRFRTIIGLLLLPLVLIFMNTGLNTFAASGVLPENVRDEQWFQVLRTIGETPVALLISVLVAMFVLGARRGVHNGALEKLLESSLGPVCSVILITGAGGMFGGVLRTSGIGDALADVLGSIGIPLIFAGFLLSAILRIAQGSATVALTTTAGLIAPGVAAAGLNGMQIAALVIAVAAGSVVVSHVNDSGFWLVGRFFGMDVKTTLKTWTVMETLIGVMGFTIAATIFGLAGLAG	PGPT0001340_528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GLUCONATE_TRANSPORT,PGPT0001340-TC_GNTP-K03299	NA	NA
D1-17_02909	564		COG3265	Gluconokinase	ATGCAGTACCCAGCCACGCATCTGGTGGTGATGGGCGTTGCCGGTTCCGGCAAGTCCACAATTGCGGCAGCTCTGTCCAATCAGCTTGGCTGGGCCTGGGCCGAAGCCGACGAATTCCACCCGCAGTCCAACATCGACAAGATGAGCCAGGGCATTCCCCTGCAGGATGAGGACCGCTGGCCGTGGTTGCAGCAGATCCAGGACTGGATGACCGGGAAGGCCCGCGCCGGCGAGAGCACCGTGCTCACGTGCTCCGCCCTCAAGCGGACCTACCGCCGGCTGCTGTCCGAGGCCCAGGGCCGCGTGCTCTTTATCCACCTGCACGGCGAAGCCGGCCTCATCAGCCAGCGGATGCAGGGGCGCGAGGGCCACTTCATGCCGCCCACACTGCTGCCCAGCCAGCTCGCGACCCTGGAACCCCTGACCGAGGAGGAACTGGCCGCGGGAAGCCTGCGCCTGGACATCTCCCGCTCCCCGCAGGAACTCATCGCCGAAATCCTGGCCGCCCTCACGCTGCCGGCCCGATCGGATCCCGCCTCGGGCACCGATTCCGCCTCCGAGTAA	MQYPATHLVVMGVAGSGKSTIAAALSNQLGWAWAEADEFHPQSNIDKMSQGIPLQDEDRWPWLQQIQDWMTGKARAGESTVLTCSALKRTYRRLLSEAQGRVLFIHLHGEAGLISQRMQGREGHFMPPTLLPSQLATLEPLTEEELAAGSLRLDISRSPQELIAEILAALTLPARSDPASGTDSASE	PGPT0018055_444	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUCONIC_ACID_UTILIZATION,PGPT0018055-gntK|idnK-K00851	NA	NA
D1-17_02910	732	lutR_3	COG2186	HTH-type transcriptional regulator LutR	ATGTCGACGGCGACAGTAGACCGCAAGGATGGCGCGAACGACGGCGGGTCCCCCGCCATGCACGAACGCGTATTGGACGCTGTGGGCACGGCTATCGCCGCAGGTGAACTGCCTCCGGGAAGCCGCCTGACCCTAGAGGGGCTGCAGCAGGAATACGGGGTGTCACGCACGGTTGCCCGGGACACCATGAAAGTGCTGGAGTCCATGAACCTGGTGTACTCGCGCCGGCGTGTAGGCATCGTGGTGCAGGAGCGAAACCTGTGGAACGTCTTTGATCCAAAGCTGGTGCGGTGGCGCCTCGCCTCAGACCGCCGGGAGCAGCAGTACAGCAGCCTTACGGAACTCCGCATCGCCGTCGAACCCATCGCGGCCGCAGGGGCCGCCCGCAGGGCAAGCGCCGCCGAGCGCAGCCAGCTCGTGGCGCTGGCCGCCGACCTCCGCCGACTGGGAGAAGCGGGCGAGCTTCAAGGGTTCCTCGAAGCCGACATCGCCTTCCACCGGCTGCTGCTGGCAAGCTGCGGCAACGAAATGTTCACCGCCCTTGAGGGGATGGTGGCGGAAGTCCTTACCAGCCGGACCCAGCAGGGACTCATGCCGTTCAAGCCGCGGCCGGAAGCCCTGGACGCCCACGAGGAGGTGGCAGCCGCGGTGGCCGGCGGGGACGCAACCGCCGCCGAGACCGCCATGCACCACATCCTGGACGAGGTCCGGAACGCGATGGGGCTGCACTGA	MSTATVDRKDGANDGGSPAMHERVLDAVGTAIAAGELPPGSRLTLEGLQQEYGVSRTVARDTMKVLESMNLVYSRRRVGIVVQERNLWNVFDPKLVRWRLASDRREQQYSSLTELRIAVEPIAAAGAARRASAAERSQLVALAADLRRLGEAGELQGFLEADIAFHRLLLASCGNEMFTALEGMVAEVLTSRTQQGLMPFKPRPEALDAHEEVAAAVAGGDATAAETAMHHILDEVRNAMGLH				NA	NA	NA	NA	NA
D1-17_02911	528			hypothetical protein	ATGTTGCATCGCACCAAAAAGGGACTCATGTCCATGCTTGTCGCCGGAGTCCTGACAACCGGACTCATGCCCGCCACCGCTGCCGCACACGGCGGTTGGGACGACGACGATGACGACCGGAAACTCACTTCCCAGCAGCGCAAACTGGTTAAGACGCTGAGGGACGTGACTGAGGAATACCGCTCGCTGGCCGAAGCGAAGGAGGACGGCTACAAGAAGGTCACCCCGTGCATCGAAAAGAAGGGTGTGGGGGCGATGGGGTTCCATTACGCCAAGAACTCCCTGATCGACGACAAGATCGACCCGCGCAAGCCGGAAATCCTGGTGTACATGCCCAACAAGCAGGGCAAGTACAAGCTGGTGGCTGTTGAGTTCCTGTCCACTGCCAAAAAGCGCCCGGTCATTGCGGGCGTGAAGTTTGACAACGGCCCGCTCCCGGGAACGTTCGCCCTGCACGCGTGGATCTGGCGCGATAATCCGGACGGCATGTTCGCGGCCTACAACCCCGCGCACCGCTGCCCCAAGTAG	MLHRTKKGLMSMLVAGVLTTGLMPATAAAHGGWDDDDDDRKLTSQQRKLVKTLRDVTEEYRSLAEAKEDGYKKVTPCIEKKGVGAMGFHYAKNSLIDDKIDPRKPEILVYMPNKQGKYKLVAVEFLSTAKKRPVIAGVKFDNGPLPGTFALHAWIWRDNPDGMFAAYNPAHRCPK				NA	NA	NA	NA	NA
D1-17_02912	204	cspA_2	COG1278	putative cold shock protein A	ATGGCTACTGGCACCGTCAAATGGTTTAACGCTGAAAAGGGCTTCGGCTTCATTTCCCCCGATGACTCTTCCCAGGACGTGTTCGCGCACTACTCCGCGATCAACTCCTCCGGCTTCCGCTCCCTCGAAGAGAACCAGAAGGTTTCCTTCGAAACCGAGCAGGGCCCCAAGGGTCCCCAGGCCGTCAACATCCAGGCTATCTAA	MATGTVKWFNAEKGFGFISPDDSSQDVFAHYSAINSSGFRSLEENQKVSFETEQGPKGPQAVNIQAI	PGPT0014675_6882	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-17_02913	405			hypothetical protein	ATGCAGATGCCCAAGCCGTCCGAGGAGGACAAGCAACGGTTCCGCTCCGCCATGCCGCATCATCCGGACGTGGTGGTGAAGCCGATGTTCGGGAACCTCGGCGCCTTCGTGCACGGGAACATGTTCGCCGGACTGTTCGGCCCCACCATCGGCGTCCGGCTGTCCGATGCCGACCGTACCGAACTCGAGAGCTCGGAGCGGACCGTCCCCTTCGGGCCGGAGGAGCGGCCCATGGGCGGCTACGTCGGACTCCCGGAGGTATGGAACGAAGAGGGTGACGGCGACCAGACGCGGGCGAGGGCATGGGTGATGAAGGCCTATGACTATGTAGCCGGGCTGCCACCCAAGGAGCCGAAGGCACCCAAGGAACCACAGCCCTCCAAGCCGCGCACGTTAAAGAAGTAA	MQMPKPSEEDKQRFRSAMPHHPDVVVKPMFGNLGAFVHGNMFAGLFGPTIGVRLSDADRTELESSERTVPFGPEERPMGGYVGLPEVWNEEGDGDQTRARAWVMKAYDYVAGLPPKEPKAPKEPQPSKPRTLKK				NA	NA	NA	NA	NA
D1-17_02914	1590	phoD_3	COG3540	Alkaline phosphatase D	ATGGACAACATCTCACGCAGATCGCTTATCACCGCTGGCCTCGGGGCCGGACTCGTCGCTGCCCTGCCGGGTGCCGCCGTCGCAACCTCCACCACCGACGACGCCGGACTCCGCTCAGACCCGTTCCGTCTGGGCATCGCCTCCGGCGAGCCGTGGCCGGACGGTTTCGTGCTGTGGACCCGGCTGGCCCTTGACCCCCTGGCCGACGACGGCCTGGGCGGCATGCCGTCCCGCAGCGTTCCCGTCGCGTGGGAGGTTGCCGAAGACTCGGCGATGCGCAAAGTGGTGGCCCGCGGGGTCGAACACGCCCGCATCGAAAACGCGCACTCCGTCCACGTGGAACTCAAGGGCCTCAAGCCGGGGCGTGAATACTTCTACCGTTTCCGCAGCGGACGGCACATCAGCACCGTCGGCCGGACCCTCACCAGCCCGGCCCTTCATGAGACGCCGGCGGCTCTGGCCATGGCCTTCGCCAGCTGCTCCCAGTATGAGCACGGCTACTTCACCGCCTATACCCGCCTGGCGCAGGACCACCCGGACCTCATACTGCACCTGGGCGACTACCTGTACGAATACAAGAAGGACAGGTACGTCATCGGCGGCGGCAACCCCCGCGACCACGAAGGCCCCGAGACAGTCACGCTGGAGGGCTACCGGCAGCGGCACGCACAGTACAAGTCCGACGCCGACCTGCAGGCCGCACACGCCATCGCGCCGTGGCTCGTGGTCTGGGACGACCACGAAGTGGACAACAACTGGGCGGACGAGGTTCCGGAGAACAATGATGCCGCCCAGATGAACGACAGCACCGAGCGTTTCCGGCGGCGCCGGGCTGCCGCCTTCAAGGCGTACTACGAGAACATGCCGCTGCGCAGGTCCTCCGTCCCCGCCGGCTTCGACATGAAGATCTACCGCACCATCCAGTGGGGCCAGCTGGCCAACTTCCACATGATGGACACCCGCCAGTACCGCGACGACCAGCTCGCCGGGGACGGCTGGAAGAAGAATGTTTCCGAGCGCCTCGCTGAGAACCGCAGCATCACGGGCGGGGAGCAGGAGAAGTGGCTGCTGGACGGCTTCCGGAGCTCCACGCAGCGCTGGGACATCCTGGGCCAGCAGGTGTTCTTCGCCGAACGGGACCGCAACAGGGCGCCGGAGATCGACGACGTGTCCATGGACGGCTGGGACGGCTATGCTGCGTCCCGCCGGCGCATCACCCAGGGCTGGGTGGATGCAAACGTGCGCAACGCCGTCGTCCTGACCGGCGACGTGCACCGGAACTGGGCCAACGACATCAAGGTGGACTACAAGGATCCGGCGTCGCCCGTGGTTGGCTCGGAGCTTGTCTGCACGTCCATTACCTCCACCGGCAACGGCTCCGGTTCCACCAGCGATCCCGTCATGGCGTGGAATCCGCACCTGAAGTTCTACAACGACAACCGCGGTTACGTGAACACCCGCATCACGAAGGACTTCCTGCAGGCGGACTTCCGGGTGCTGGACTACGTGACGACGCCGGGCTCCCCCGTTGGGACGAAGGCCTCCTTCCAGATCCAGGACGGCGTTCCGGGACTGCAGGCACGCGGGTAG	MDNISRRSLITAGLGAGLVAALPGAAVATSTTDDAGLRSDPFRLGIASGEPWPDGFVLWTRLALDPLADDGLGGMPSRSVPVAWEVAEDSAMRKVVARGVEHARIENAHSVHVELKGLKPGREYFYRFRSGRHISTVGRTLTSPALHETPAALAMAFASCSQYEHGYFTAYTRLAQDHPDLILHLGDYLYEYKKDRYVIGGGNPRDHEGPETVTLEGYRQRHAQYKSDADLQAAHAIAPWLVVWDDHEVDNNWADEVPENNDAAQMNDSTERFRRRRAAAFKAYYENMPLRRSSVPAGFDMKIYRTIQWGQLANFHMMDTRQYRDDQLAGDGWKKNVSERLAENRSITGGEQEKWLLDGFRSSTQRWDILGQQVFFAERDRNRAPEIDDVSMDGWDGYAASRRRITQGWVDANVRNAVVLTGDVHRNWANDIKVDYKDPASPVVGSELVCTSITSTGNGSGSTSDPVMAWNPHLKFYNDNRGYVNTRITKDFLQADFRVLDYVTTPGSPVGTKASFQIQDGVPGLQARG	PGPT0002575_1464	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0002575-phoD-K01113	NA	NA
D1-17_02915	738			hypothetical protein	ATGAATCGACGAACCAAAATAATTTTTGCTGCGGTCCTCGCGCTGCTGGTGGTTGGTGGGGCGGCGCTGTTTTTCTACGACAGCAATAAAAGGAGCAGGGCCGCGGAGTACAACCCGCAGATCAACCCGGCCGATTTCAGCACCAAGATAACCAACAGATACTTTTCCCTGCCCGTCGGCAAGAAACTGACGTACGAGACCACCCGGCAGGGAAGCGTCACCGAGAGGATTGAAATCGAGATCTTGCCGGAGACCATGACCATAGAGGGCGTCGAGACGGTCGTCTACCTGGACAAGGAATTCAAGAACGGGCAGCTGGTGGAGGAAACCCGTGATTACCTTGCGCAACATAAAAACGGTGACGTCTGGTACTTCGGCGAGGACGTGAAAAACTTCTGGAATGGGATGCTGATGAACCGCGCCGGCAGCTTTCTCCACGGAAAAGACGGTGCAAAAGCCGGCATCTGGATGAAGGCCGAGCAGCGTGTCGGCGATTCGTACAGGCAGGAATTCTACGTTGGCCATGCGGAGGACATCCGGGACACCGTCGCCACCGGCGAGACCGTGTCCACGAGGTCAGGCACCTACACCAACTGCGTCAAGGTCTACGACTGGACGCCGCTGGAGAAGAATGCGCGGGAGCACAAATACCACTGCCCCCAAGTCGGCGCGCTGGTTCTGACTGAGGACCTGGAGACAGGCAGCCGGTCAGAACTCGTGGACGTTGTCCAGCCCTAG	MNRRTKIIFAAVLALLVVGGAALFFYDSNKRSRAAEYNPQINPADFSTKITNRYFSLPVGKKLTYETTRQGSVTERIEIEILPETMTIEGVETVVYLDKEFKNGQLVEETRDYLAQHKNGDVWYFGEDVKNFWNGMLMNRAGSFLHGKDGAKAGIWMKAEQRVGDSYRQEFYVGHAEDIRDTVATGETVSTRSGTYTNCVKVYDWTPLEKNAREHKYHCPQVGALVLTEDLETGSRSELVDVVQP				NA	NA	NA	NA	NA
D1-17_02916	714			hypothetical protein	ATGAGCAACGGCGCACCTGACTCGGGTCCGGACCCCCATGCCGTCCCGCCGCAAAAGCCTCCCCGTCCACCGCGGATAGGAACAGCAAGGGAACGTTCGACGGCGGCCAAAAGCCAGTCCGCCCCGCCCGCTATCCGCGTGGTGAGCAGGGATGAGAGACCAGCGCCGCCGGTCGACAACTACGCCGAGTTCATCGGACGGCTGGATGCAGCGGCCGGGAAACTCACTCCGCGGCGGGATGCCCTGTCCAAAGCCCTTGACGCGGCGGAGCTGCTCTTCAGCCAGAACCATGCAGGGCTGGAGCTGTGGGGCCAGCGGCTATCCCTGATCAATCAGCTCCTGGCCCGGCACGGAGCACACCAACAGGCTCGGCGATACAGCACGCTGATGGAACTTCATGATGTCGCCGCCAAGATGGAGCAGATGTTCACCAGCCGCACCCAGCGCGTGCAGGGGGTGTGCCGTGCGATCCGGGTACGCCGGGACCAGATCAATCGGTCCCTGTTCGAGCTGGAGAAAAGCAAGGTCAAACTGGCATCGTCCCGGCTGCTCGCGCTGGAGCGGGAGAACCTCCGGAAGGTCGCCGAGGATCTTTCAGTCACCGCGGAAGGCATCAGCCTCAACTTCCCCGATCCCGGACTTCGGGAAAGTCTCAGGGAAGCGCGGGAAGCAATCATCCTGGCCGAGGCCCTGCTGGAAGTGAAAGGAAACTGA	MSNGAPDSGPDPHAVPPQKPPRPPRIGTARERSTAAKSQSAPPAIRVVSRDERPAPPVDNYAEFIGRLDAAAGKLTPRRDALSKALDAAELLFSQNHAGLELWGQRLSLINQLLARHGAHQQARRYSTLMELHDVAAKMEQMFTSRTQRVQGVCRAIRVRRDQINRSLFELEKSKVKLASSRLLALERENLRKVAEDLSVTAEGISLNFPDPGLRESLREAREAIILAEALLEVKGN				NA	NA	NA	NA	NA
D1-17_02917	576			hypothetical protein	ATGCCAACTCCACGGACCGAATCCCGGGACATCTGCAGGTTCACCTCCAAGGAATGGACGGGCAGGCCGGCCGAGGGCGCGGGCGCAATGTTCGGCGGATTCGCCGTCATCGGGTTCGTTCTGTGCTTGGTTCTGATGACCTTCACACCCGGCCTCAGGGACGTCAGCGCCCTCATGCTGTTCGTCGGGATTTTCGCGTCCACTTTCACGGTGCTGGGCATCCTAGGCAAGAGTTCGGGCGAGCGGGCGTTCCTGCAGCGGCTTACAGGCACTGTCAACGAAGTGATTCTCGAACTGACGGCGGACAGGACGAACCACCTCTCGGCGGACGAGCTCCGCTCACTCCTCGTCGAGGGCGGGAGCCTGCCGTTGCTGGTGAACGGGGTGTCCGGCCTGCATCTGAGCGTCATTCCGCAGCCCACACCGCAGCCGAAACAGTACGCCAAGCCGAAGGCTGAGGTGGTCACCACCACGTGGATCCTCATCACAGCCACCCCGCCCGATTACGGCATCAGCAGCTTCGACCGGCTCCTCGAGACGGCAACCACTGATCCGGGCTTCAATGCAGCAACATAG	MPTPRTESRDICRFTSKEWTGRPAEGAGAMFGGFAVIGFVLCLVLMTFTPGLRDVSALMLFVGIFASTFTVLGILGKSSGERAFLQRLTGTVNEVILELTADRTNHLSADELRSLLVEGGSLPLLVNGVSGLHLSVIPQPTPQPKQYAKPKAEVVTTTWILITATPPDYGISSFDRLLETATTDPGFNAAT				NA	NA	NA	NA	NA
D1-17_02918	285			hypothetical protein	ATGCCGGCTGAGCGCATCCGTCTTATTGCTGTTCAGACGTTCATACTCCCGTCGCCTGTCCAGCCCGCACCTGCTCCGCTGGGATGGGGGGCACCGACGGTGCTTGTCAGGATTCTAATCCCCAGCGGAGCAAGGCGGCATTCCCGTTACCGGGCCAGCTTCGACATCAGGGACGTCATGGCCGCCCTGACCCCGGTCGAAAGCGTCGGCTCGATGTCGGGTGCGAAGTACGGCGAATGGTTTCCGGGAAGCGGGCTTTCAGCGTCGAGCTTTTCCTGGCTGTAG	MPAERIRLIAVQTFILPSPVQPAPAPLGWGAPTVLVRILIPSGARRHSRYRASFDIRDVMAALTPVESVGSMSGAKYGEWFPGSGLSASSFSWL				NA	NA	NA	NA	NA
D1-17_02919	1230	hipO_2	COG1473	Hippurate hydrolase	ATGACCATCGAGACCACTGCCCTTGAACTGTCCGCTGCGCAGCTCACCGAAATGCATGACCTCTACCGCCATCTCCATGCCCACCCGGAACTGTCCATGCAGGAAACGCAGACGGCGAACTTCATTCTCAAGGCGCTGACCGACCTTGGCATCGAGGCCTTTCTCTGCGGAGGGACCGGCGTGGTCGGCGTGCTGCGCAATGGGGACGGCCCGGTGGTCGGTTTCCGCGCCGACACCGACGGTCTGCCGATGCAGGAGGACACTGGGCTGGAATATGCCAGCCAGGCTAGAGGCAGATTGGCGGACGGAACCGAGGTGCCGGTCATGCACGGCTGCGGCCATGACACCCACATCACAGCCGCCCTAACGGCTGCGCGGCTCCTCGCCGACAGCACCGACACCTGGGGCGGCACCGTCGTGTTCATCTTCCAGCCAGGCGAAGAAACCGCGGCGGGTGCCCGGGCCATGATCGACGACGGAATCTGGGACAAAGCGCCCAAGCCCGAGGTGATTTACGGCCAGCACGTGTGGCCAGGCCTGGCCGGAACTGTGAACATTAGCCGCGGTACGGCCATGGCCATGGCCGATTCCTGGAAGGTCACCGTGCATGGACGCCAGGCACACGGCTCGCAGCCGGAGGAGTCTATTGACCCGATCGTGCTCGGCGCGCACATGGTGGTGCGCATCCAGACCATCGTGGCCCGCGAGGTCCACCCTATGAAGTCCGCCGTGGTGACCATCGGCACCTTTCACGCCGGCCTGAAGGAGAACATCATCCCGGACACTGCGGAGTTTTCCATCAATGTCCGCACTTTCGACACGGACGTGCGCGAGCGCGTCCTTGCCTCCCTCCGCCGCATCATCAAGGCCGAAGCCGAGGCGTCAGGGGCGCCGGAACCCTCTATCACGGAAATCTCCAGCTTCCCGCGGTGCTACAACGATCCCGCCGCCGCTGACGCCCTGATCAGCGAGTTCCACCGGACACTGGGAGAGGACGCCGTCAACGAGGTGCCGCCCGTCATGGGCAGCGAGGACTTTGGGCTGTTTGCTGAAGTTATCGGCGTGCCCTCGGTGTACTGGATGTTTGGTGCCTACAGCCAGGAAAAGCTCGACGCTGAAAGCCCGCTTCCCGGAAACCATTCGCCGTACTTCGCACCCGACATCGAGCCGACGCTTTCGACCGGGGTCAGGGCGGCCATGACGTCCCTGATGTCGAAGCTGGCCCGGTAA	MTIETTALELSAAQLTEMHDLYRHLHAHPELSMQETQTANFILKALTDLGIEAFLCGGTGVVGVLRNGDGPVVGFRADTDGLPMQEDTGLEYASQARGRLADGTEVPVMHGCGHDTHITAALTAARLLADSTDTWGGTVVFIFQPGEETAAGARAMIDDGIWDKAPKPEVIYGQHVWPGLAGTVNISRGTAMAMADSWKVTVHGRQAHGSQPEESIDPIVLGAHMVVRIQTIVAREVHPMKSAVVTIGTFHAGLKENIIPDTAEFSINVRTFDTDVRERVLASLRRIIKAEAEASGAPEPSITEISSFPRCYNDPAAADALISEFHRTLGEDAVNEVPPVMGSEDFGLFAEVIGVPSVYWMFGAYSQEKLDAESPLPGNHSPYFAPDIEPTLSTGVRAAMTSLMSKLAR	PGPT0019000_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSAMINIDASE,PGPT0019000-csxA-K15855	NA	NA
D1-17_02920	729			hypothetical protein	ATGTCTCTCACAGATACCGCTGCAGGAACCGCCGCGACCATTGACGAATTTGACCGCACCACCTCACGCTGGGGCCGGATCACCATGATCTTCGCGCTGGCGCTGTCCCTCGCCGCGCCGGTCTACCTCGTCATGTTCACGGACCTGGGCATCACCTCCACGCACATCTGGACTGCGTTCTTCGCCGTGGCCGCCGCCTTCTTCGTCCTGTGGTTCGTCGAACCTGTCACCTACTACCCGGTGCTGGGCCCGGCCGCGATGTACCAGGCGTTCATGATCGGCAACATCGCCAACAAACTCCTGCCCTCGGCGCTCGTGGCGCAGGCGACCGTCGGCGCAAAGGCCGGCACGAAGCGCGGTGAGTTCTCTGCCCTTATGGCCATCTGCGGGGCCGCCATGGTCCACGTATTCTCCATGCTCCTCTTCGTCGGCATCCTCGGCACGTGGCTAGTGAGCATCATCCCTACCGACATAGTGGACGTGGCCAGGCTCTACATCTTCCCGAGCATCATCGGAGGCGTGCTGGTCCAGCTGATTGTCACGATCAAGCAGCCACGGGTCACCGTCATCGCCGTGGTCGTCGCCGCCGTCGTCCTTTTTGCCCTCGTGCCCGCCGTGCCGGCGCTGGCCAAGTCCGCGACGGGCATCGTGGTGCTGCTCACCGCGGCACTCGCCTGGTTCCTGCGGCCCAAAGGCGCCGCCGAACAACACGCGCATCCCGGCGTCTGA	MSLTDTAAGTAATIDEFDRTTSRWGRITMIFALALSLAAPVYLVMFTDLGITSTHIWTAFFAVAAAFFVLWFVEPVTYYPVLGPAAMYQAFMIGNIANKLLPSALVAQATVGAKAGTKRGEFSALMAICGAAMVHVFSMLLFVGILGTWLVSIIPTDIVDVARLYIFPSIIGGVLVQLIVTIKQPRVTVIAVVVAAVVLFALVPAVPALAKSATGIVVLLTAALAWFLRPKGAAEQHAHPGV				NA	NA	NA	NA	NA
D1-17_02921	756			hypothetical protein	ATGAACACTGCAGTAATGCCGGGAGGATCCACAGACATCCTCTCCATCGCAAACCTTCCGGTCCTCTGGGTGTTGGCCATCGGCGTCTTCGGGGCCATCATCCTCCAGTCCGTTATCTACATGCGGGCAGCAAAGAAAGCCGGCCCCTCGGCAGGTATCTCCGAAGCTGAACTGAAGACCTCCTTTCGCGCCGGCGCCGTGGCGGCGATCGGCCCCTCCCTCGCCGTCGTGCTGGTCAGCATCGCACTCCTGACGCTCTTCGGAACCCCTGCGGTGCTCGTCCGCATCGGACTTGTGGGCTCCGCCGCCACCGAATCGGCCTCCGCCTCCATTGCGTCCGCGACGATGGGGGCGACATTGGGCGGGCCCGACTACACGCAGGCCGTGTTCGTTGTGGCGTTCATGGCCATGAGCATGTCCGGCGCCATGTGGATGATTTCCACGCTCATCCTCACTCCGTTGCTGAAAAAGGGCGATTCCAAACTGCGCCGCGTAAACCCGGCACTCATGGCGATCGTGCCGGCAGCAGCACTCATCGGTGCTTTTGCCAGCCTGGGGATCGCTGAGTTGGGCAAGACCCCGGTGCACATCATGTCCGTAGCCGTGTCCGCACTGGTCATGGGCGTCTGCCTCTTCCTCGCCAAGAAACTCTCCGCCGCCTGGCTGCGCGAGTGGGGACTCGGCATTGCCATCCTCGTCGGACTTGCCGTCGCCTACTTCGCCCACACCTCCGCCCTGGTTCCCGTGGCCGCCTAA	MNTAVMPGGSTDILSIANLPVLWVLAIGVFGAIILQSVIYMRAAKKAGPSAGISEAELKTSFRAGAVAAIGPSLAVVLVSIALLTLFGTPAVLVRIGLVGSAATESASASIASATMGATLGGPDYTQAVFVVAFMAMSMSGAMWMISTLILTPLLKKGDSKLRRVNPALMAIVPAAALIGAFASLGIAELGKTPVHIMSVAVSALVMGVCLFLAKKLSAAWLREWGLGIAILVGLAVAYFAHTSALVPVAA				NA	NA	NA	NA	NA
D1-17_02922	1275	amaB		N-carbamoyl-L-amino acid hydrolase	ATGTTGAACCTGCACTTTTCCGCCACAAGCGAGACCGCAGAGCGGGTCGAGGCGGGCATTACAGAGGTTTCCGCCTACAGCGAAGCCGACAGGCGCGGCTGGACCCGGGAGGTTTTCAGTGAGGCGTACCGCGAGTCGCGGCAGTGGACTGAGGCGCGGATGCGGGAGGCCGGTCTGGAAGTCCATATTGACGCCGCCGGCAATGTCGTCGGACGGCTTCCGGGCACCAACCCGAATGCTCCGGCTCTGGTCACGGGGTCCCATACCGACACTGTCGACGGCGGCGGACGCTTCGACGGCGTCGTCGGAGTCGTGGGCGCAATTGACGCCGTCCGGCAGTTGCGCCAGAGCGGCATCACACTCACCAGGGACCTTCTGGTGGTGGATTTCTTCGGGGAAGAGTCCAACCCCTACGGCCTCAGCTGCCTCGGCAGCAGGGCAGCCGCTGGAGAACTTACTGCCGCAGACCTCAACCGCACCGACTACCGCGGCGTCACTCTCGGACAGAGCTATGCGGACTTCGGTTTGGACCCTGCCTCGACGATGACCTCGCACTGGGCCCGCAGCACCCCTCTGCACGCTTTTCTGGAGCTGCACATTGAGCAGGGCCCCACCCTCGAACAGCGCCAGATGCCCATAGGCATCGTGACCGGGATCGCGGGCATCGAACGGCTCCTCGCCACGTTCACCGGAACCCCCGACCACGCCGGGACCCGGCCTATGGACGACCGGCAGGACGCCATGGTGGCGGCAGCCGAAGCCGTCCTCGCCGTGCGTAGGGAAGGCTGCGGGGCACCGAACCACGGCGTTGCCACCACCACCCGGGTCGAATCTGATTCGCGCTCGCCCAATGTAGTGCCCTCACTGGTCCGTATGACCAGTGAGGTGCGCAGCATCGACAAGGAATGGCTTTCCGGTGTGAAGGGCCGGCTGGCCGAGGAGATCCTCGGCCGGGCCCGGGAGCACGGGGTGGATGTGGAGTTCACCTGGTCGACCGACAACGAAGTAGTCCGGACGCACACCAAAGTCCAGGACGCTGCCGCCGCAGCCGTGGACGCCCTCGGCATCCCCTGGATGCCGGTTCCCAGCGGGGCCACGCATGATGCAGTCCACATGGCACGGTTGGCACCGATGGGCATGATCTTCGTGCCCTCCAAGGCAGGGAAAAGCCATTGCCCCGAGGAATGGACGGACTTCAGTGACATTGCCACCGGCGTCAGTGCACTGACTCAGACCCTCATCACCCTTGACCAATCAGAACTCAGCAGCACGTAG	MLNLHFSATSETAERVEAGITEVSAYSEADRRGWTREVFSEAYRESRQWTEARMREAGLEVHIDAAGNVVGRLPGTNPNAPALVTGSHTDTVDGGGRFDGVVGVVGAIDAVRQLRQSGITLTRDLLVVDFFGEESNPYGLSCLGSRAAAGELTAADLNRTDYRGVTLGQSYADFGLDPASTMTSHWARSTPLHAFLELHIEQGPTLEQRQMPIGIVTGIAGIERLLATFTGTPDHAGTRPMDDRQDAMVAAAEAVLAVRREGCGAPNHGVATTTRVESDSRSPNVVPSLVRMTSEVRSIDKEWLSGVKGRLAEEILGRAREHGVDVEFTWSTDNEVVRTHTKVQDAAAAAVDALGIPWMPVPSGATHDAVHMARLAPMGMIFVPSKAGKSHCPEEWTDFSDIATGVSALTQTLITLDQSELSST	PGPT0021095_1619	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
D1-17_02923	900	purR_2	COG1609	HTH-type transcriptional repressor PurR	GTGAAGCGGATCCGGGAACTCGCCTCCATGCTGGGGTATCGCCGGGACGTCGCAGCCGCGGGGCTCCGGACGGGGAGCTCGAGGCTTATCGGGGTGCTGGTCCCCCGCCTTACCGACCTGGTGCTCGCAACGATTCATGAAAGCATCGACGCCGCGGCCGGGTCTGCCGGGTACAGCACAGTGGTGGCCAATACGTTCGATGACCCGGATCACCGTCGGGCCCGGCTGGACGCTCTGCTCTCACGGCGCCTGGACGGAGTGATAATCGGAGACTCCCACATCGGAGACACCGCCGCCTTTGAGCTGCAGCAGCGCGGAGTCCCGTACGTGCTGGTCATGCGCAAGTTGGATGGACATCTTTCCGTCACCACGGACGACCAGCTCGGCGGACGGCTTGCCGCCGAACACCTGTTGCGCCTGGGACACAAACGCGTCGGCGTGATCGCCGGAGACCTGCTCGCAAGCACCGGGCTTGAGCGGTCCCAAAGTTTTCGGAGAACGTTCGAGGCCGCCGGCTACCCGGTACAGGACAGCTACGTCGTCAGTTCCGGGTTTGGAACGCAGGCCGGACGGACAGCGGGCGAGCACCTTATGAACCTGCCCAGCCCTCCCACCGCCATTTTCGCCGTCGATGACCTCACCGCTGTTGGTGCGATGGGCGCCATCCGCGAGGCGGGCAAGCGGCTGCGCGAGGATGTCGCTCTGGTCGGTTACAACGACGTCGATCTGGCAGCAAATCTGCCGGTTCCGCTGACCTCGGTCCGGTCCGAACTCAACGACATGGGCCGGCTCAGCTTCGAGACGCTGCAGCGGCGGATCAACGGCGAAGACCCGGAATCGGTAGTGCTCCCGCCGGTCCTCATACCGAGGGAAACGACAGTGGCCAGCGGCCATGGCTGA	MKRIRELASMLGYRRDVAAAGLRTGSSRLIGVLVPRLTDLVLATIHESIDAAAGSAGYSTVVANTFDDPDHRRARLDALLSRRLDGVIIGDSHIGDTAAFELQQRGVPYVLVMRKLDGHLSVTTDDQLGGRLAAEHLLRLGHKRVGVIAGDLLASTGLERSQSFRRTFEAAGYPVQDSYVVSSGFGTQAGRTAGEHLMNLPSPPTAIFAVDDLTAVGAMGAIREAGKRLREDVALVGYNDVDLAANLPVPLTSVRSELNDMGRLSFETLQRRINGEDPESVVLPPVLIPRETTVASGHG	PGPT0017992_1905	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_02924	1467	mtlK_2	COG0246	Mannitol 2-dehydrogenase	GTGCTCACCACTTCAGCACTTCCAGAACTCCCCGCCAGCCTGGGCAAGCCGTCCTATGACCGGTCGGCATTGACGGCGGGAATCGTCCACTTCGGCGTCGGCGGCTTCCACCGCGCCCACCAGGCCATGTACCTGGACCAGCTGATGAACGCCGGCCTCGCCCACGACTGGGCCATCTGCGGAGTGGGCGTCCTGCCCGGCGATGCCCGGATGAAGCAGGTCATGGACTCCCAGGACTGCCTGTACACGCTCGTTGTGAAGAACCCCGACGGTACGCGGGAAGGCCGCGTTATCGGCTCGATCATCGAGTACCTCTTCGCCCCCGACGACCCCGAGGCAGTCATCGAAAAAATGGCGTCCGACGCCGTCCGGATCGTCTCGCTGACCGTCACCGAAGGCGGCTACAACTTCCACCACGTCACCGGCGACTTCGACGCCGACAACCCCGACGTGGTCCACGACCTCCAGCCGGGCGCCGCGCCGCGCACAACCTTCGGGCTCATCACCGAGGCCCTGCGCCGCCGTCGTGAACGGGGACTGGAACCCTTCACCGTGATGTCCTGCGACAACATCCAGGGCAACGGCGACGTCGCCCGCAAGATGTTCACCGCCTTTGCCGCGCTCAAGGCCCCGGCCCTGGGGGCATGGATCGCCGGGAACGTGCCCTTCCCCAACAGCATGGTGGACCGCATCACCCCGGTCACCACTGACGAAGACCGCACGGCCATCGCCGAGGAGTTCGGCGTGGCGGACGGCTGGCCTGTGGTCTGCGAGCCCTTTGAGCAGTGGGTGCTGGAGGACAACTTCAGCCTCGGACGCCCGCCCTTTGAAAAGGCCGGAGTGCAGCTCGTGGAGGACGTGGAGCCTTACGAGCTGATGAAGCTGCGCCTGCTCAACGCCAGCCACCAGGGCATGTGCTATTTCGGCCACCTCGCCGGCTACCGCTACGCGCATGAGGCGGCACAGGACCCGCTGTTCGCCCGGTTCCTGCTGGATTACATGGACAAGGAAGCAACCCCGACGCTGCACCCGGTACCCGGCATCGATCTCGACTCCTACAAGCGCACCCTCATCGAGCGCTTCTCCAACGAGCATGTCCGCGACACCCTGGCCCGCCTGTGCGCCGAGAGTTCGGACCGGATTCCGAAGTGGCTCCTTCCCGTAGTCCGCATCAACCTTGAAAACGGGGGAGAGATCCAGCGGTCAGCGGCTATCGTGGCCAGCTGGGCCCGGTATGCCGAAGGGACGGACGAGCAGGGCAACCCTATCGACGTGGTGGACCGGCTCAAGGACACGCTTATGGCCGCCGCGTCACGCCAGAGGCAGGACCCGCTGTCCTTCATCTCGGACCGGGAAGTTTTCGGGGACCTCATCGACAACGAACGGTTCGTCACCGCGTACGGCGACGCCCTGGCCAGCCTGCATCAGCGCGGGGCCAAGGAGACTCTTCGCAAGCTGGAAGCCTGA	MLTTSALPELPASLGKPSYDRSALTAGIVHFGVGGFHRAHQAMYLDQLMNAGLAHDWAICGVGVLPGDARMKQVMDSQDCLYTLVVKNPDGTREGRVIGSIIEYLFAPDDPEAVIEKMASDAVRIVSLTVTEGGYNFHHVTGDFDADNPDVVHDLQPGAAPRTTFGLITEALRRRRERGLEPFTVMSCDNIQGNGDVARKMFTAFAALKAPALGAWIAGNVPFPNSMVDRITPVTTDEDRTAIAEEFGVADGWPVVCEPFEQWVLEDNFSLGRPPFEKAGVQLVEDVEPYELMKLRLLNASHQGMCYFGHLAGYRYAHEAAQDPLFARFLLDYMDKEATPTLHPVPGIDLDSYKRTLIERFSNEHVRDTLARLCAESSDRIPKWLLPVVRINLENGGEIQRSAAIVASWARYAEGTDEQGNPIDVVDRLKDTLMAAASRQRQDPLSFISDREVFGDLIDNERFVTAYGDALASLHQRGAKETLRKLEA	PGPT0018400_602	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0018400-mtlK-K00045	NA	NA
D1-17_02925	1062	gutB_2	COG1063	Sorbitol dehydrogenase	ATGACAACATCAACCGCGCAGCCCGCAGTGCTCGGACAGCCCGGACTGCCCGCCACCATGCGCGCCGCCGTCCTGAAGCGCCAGGGCGACATGGCCCTGGAAACCCTGCCCGTCCCGGGCCTGGACCCCGACCAGGTCTTGGTGCAGGTGGCCGCCGTCGGCGTCTGCGGCAGCGACGTCCACTACTACGAGCACGGCCGCATCGGCGACTACGTGGTGGACCACCCGCTCATCCTCGGCCACGAACTCTCCGGCCGGATCGCCGCCGTCGGAACCGCCGTTGACCCCTCACGGGTCGGCAAGCGGGTCGCCGTCGAACCCCAGCGCCCCTGCCGCACCTGCACGCAGTGCAAGGCCGGACGCTACAACCTCTGCCCGGACATTGAGTTCTACGCCACCCCGCCGATCGACGGCGCCTTCGCCGAATACGTCACCATCCAGTCCGACTTCGCCTACGACATCCCGGACAGCGTCAGCGACGAAGCCGCCGCGCTGATCGAGCCGCTCTCCGTCGGACTGTGGGCCTGCGAACGGGCAGGGATCAAGCCCGGCAGCCGGGTCCTGATCGCCGGCGCCGGTCCGATCGGCATCATCGCCGCGCAGGCCGCCCGCGCGTACGGCGCCACCGAAATCTACATCAGTGACATCGCCGAGGACCGGCTCGCGTTCGCCCTGGAACACGGCGCCACCCACGCACTGAACGCCCGGACGGACACCGTCGAGGGGCTCGACGTCGATGCCTTCATCGACGCCTCCGGCGCACCCCAGGCCGTCCGTTCCGGCATCAAAGCCGTCGCGCCCGCCGGCCGGGTCATCCTCGTCGGGCTCGGGGCGGACGACGTCGAACTCCCCGTCTCCTACATCCAGAACCGCGAGATCTGGCTCTCCGGCGTCTTCCGCTACACCAACACCTGGCCCCTGGCCATCCAGCTCATCGCCGACGGCAAGGTGGACCTGGACATCCTCGTCACCGGCAAATTCAGCCTCGCCGAATCCGAAGAAGCCCTCAAAGCCGGCAAACAGCCCGGACAGCTCAAAGCCGTCGTCTACCCCGGCCGCTGA	MTTSTAQPAVLGQPGLPATMRAAVLKRQGDMALETLPVPGLDPDQVLVQVAAVGVCGSDVHYYEHGRIGDYVVDHPLILGHELSGRIAAVGTAVDPSRVGKRVAVEPQRPCRTCTQCKAGRYNLCPDIEFYATPPIDGAFAEYVTIQSDFAYDIPDSVSDEAAALIEPLSVGLWACERAGIKPGSRVLIAGAGPIGIIAAQAARAYGATEIYISDIAEDRLAFALEHGATHALNARTDTVEGLDVDAFIDASGAPQAVRSGIKAVAPAGRVILVGLGADDVELPVSYIQNREIWLSGVFRYTNTWPLAIQLIADGKVDLDILVTGKFSLAESEEALKAGKQPGQLKAVVYPGR	PGPT0017541_1066	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017541-gutB-K00008	NA	NA
D1-17_02926	969			hypothetical protein	ATGAGCACCCTCACCCCCGCCGCACCCCAAAACACCCCCGGTCCCACCGCCCCCGCAGGCCCGACCGCCCTGAACACCGGTACCCGGCGCCGCGGCTTCGCCTGGTTCGGCTTCAAGATGTCCGGCGGCGGGAAGTCCCGCATGGACCCCACCCGCAACAACACCGCCGCCGGCATCGCCGCCTGGCTGCTCGCCCTGCTCTTCGCCACCCCGGTGCTGTGGATGATCCTCACCTCCTTCCACTCCGAAACCGACGCAGCCACCAACCCGCCCTCCCTCGCCGCGAACCTGACACTGGACGCCTACCGCGAGTTCTTTGGGGAAACATCGGGCGTCAGCCCGTGGCCGTCCCTGATCAATTCCGCCACCGCCTCGATCCTGTCCACGGTCCTCGTGCTGCTCCTGGCCTTCCCGGCCGCGTACGCGCTGTCCATCCGGCCGGTGAAGAAGTGGACGGACGTGATGTTCTTCTTCCTCTCAACCAAAATGATGCCCGTGGTCGCGGCGATCCTGCCGCTCTACCTCTTCGCACGGACCGTGGGCGCGCTGGATAACATCTGGTTCCTGATCCTGATGTACACGTCCATGAACCTGCCCATCGCGGTCTGGATGATGCGCTCGTTCCTGGCTGAAGTTCCGGAAGAAATGCTGGAAGCCGCCCAGATCGACGGCGCCAACCTCCTGCTCATCCTCCGCAAGGTCATCGCCCCCGTGGCCATGCCCGGCATCGCCGCGACGGCCCTGATCTGCTTCATCTTCAGCTGGAACGAACTGCTCCTGGCCCGCGTCCTCACCGGCGTCGTCGCCGGCACCGCCCCGGTCTTTTTGACCGGCTTCGTCTCCGGCCAGGGCCTCTTCCTCGCCCAGGTCTGCGCCGCCGCCGTCGTGATCTCCCTGCCGGTGCTGTTCGCCGGCTTCGCCGCCCAGGACAAACTGGTCCAGGGCCTCTCCCTCGGCGCCGTCAAATAG	MSTLTPAAPQNTPGPTAPAGPTALNTGTRRRGFAWFGFKMSGGGKSRMDPTRNNTAAGIAAWLLALLFATPVLWMILTSFHSETDAATNPPSLAANLTLDAYREFFGETSGVSPWPSLINSATASILSTVLVLLLAFPAAYALSIRPVKKWTDVMFFFLSTKMMPVVAAILPLYLFARTVGALDNIWFLILMYTSMNLPIAVWMMRSFLAEVPEEMLEAAQIDGANLLLILRKVIAPVAMPGIAATALICFIFSWNELLLARVLTGVVAGTAPVFLTGFVSGQGLFLAQVCAAAVVISLPVLFAGFAAQDKLVQGLSLGAVK	PGPT0016390_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016390-smoG|mtlG-K10229	NA	NA
D1-17_02927	984	sugA_2	COG1175	Trehalose transport system permease protein SugA	ATGACTACCGCAACGGCGCGCATCTCCCGCCCGGGACACCATGCAGCCAAACCTTCACGAAATGCCGACTCACGGAACAGGCGGTCGCGGGAACGCGCCGCGGCCTGGGCGCGGCGTGCACCGCTGCTTCCGGCCCTGATCTTCCTCATCATCGTCACCCAGCTTCCGTTCGCGGTGACCCTGATCATCTCGTTCCTGAACTGGAACAGCCTGAGCCCGGACAAGACCGCCTTCGCCGGGCTGGAGAACTACGTCACGGTCCTGACCGACCCTGACCTGCGCCAGGCCATCTTCACCACCATCGTCCTCACCGTCTCCGTAGTGCTGATCAGCCTGGTCATCGGCCTGGGCCTGGCGCTGCTGCTGGATAAGAAGTTCATCGGCAGGGGACTGGCCCGGACCCTGCTGATCGCACCGTTCCTGGTGGTTCCGGTGGCCGCGGCCCTGATCTGGAAGCACGCCCTGCTCAACCCGACCTACGGGCTGATCAACGGGATCCTGACCTGGGCCTGGTCCCTCTTCGGCAACAGCACCCCGCCGCAACTGGACCTCCTGTCCCAGGCCCCGCTGGCCGCCGTCGTCGTCTCGCTGGTGTGGCAGTGGACCCCGTTCATGATGCTCATCCTGCTCGCGGGCCTGCAGTCCCGTCCCATGGACACCGTGGAAGCGGCCCAGATGGACGGCGCGACCCCCTGGGCGATCTTCCGGCACCTGACGCTGCCGCACCTGCGCCAGTACCTGGAACTGGGTGGCCTGCTCGGCGCGATCTACATCGTGCAGAACTTCGACGCCGTCTTCACCCTCACCGCCGGCGGGCTGGGCACGGCAAACCTGCCCTACGCGATCTACCAGACGTTCTACTTCGCCAATGAGTACGGCCTGGCCTCCGCCGCCGGCGTCGTGGTGGTCATCGGAACCATCATCGTGGCGACGTTTGCCCTGCGCACCGTCTTTTCACTCTTCAAGAAGGAGGCAGCACGATGA	MTTATARISRPGHHAAKPSRNADSRNRRSRERAAAWARRAPLLPALIFLIIVTQLPFAVTLIISFLNWNSLSPDKTAFAGLENYVTVLTDPDLRQAIFTTIVLTVSVVLISLVIGLGLALLLDKKFIGRGLARTLLIAPFLVVPVAAALIWKHALLNPTYGLINGILTWAWSLFGNSTPPQLDLLSQAPLAAVVVSLVWQWTPFMMLILLAGLQSRPMDTVEAAQMDGATPWAIFRHLTLPHLRQYLELGGLLGAIYIVQNFDAVFTLTAGGLGTANLPYAIYQTFYFANEYGLASAAGVVVVIGTIIVATFALRTVFSLFKKEAAR	PGPT0016385_49	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016385-smoF|mtlF-K10228	NA	NA
D1-17_02928	1353			hypothetical protein	ATGCGACCGACCATGCGCGCTGCCTCACTGGCCGCCGGCGCTCTGTGCATCGCACTTTCTGCCTCGGCCTGCGCAGGTGCTGGCGGAGGCAATTCCGCCGGTGATCCGAACAGCATCAACGTGCTGATGGTGAACAACCCGCAGATGGAGGACCTGCAGCGGTTGACCGCGGACAATTTCACCAAGGAAACCGGGATCAAGGTCAACTACACCGTCCTGCCGGAGAACGACGTCCGGGCGAAAATCAGCCAGGAGTTCTCCAGCCAGGCCGGCCAGTATGACGTCGCCTCCCTGTCGAACTACGAGATTCCGTTCTTTGCCGCCAACGGTTGGCTGGCGCCGCTGGACAACGTGGCGAACGACCCCGAGTTCAACCAGGCGGACATTCTGCCGGCCTACACGGAGTCCCTGACCGGTGAGGACGGCAAGCTGTACGGTGAACCGTTCTACGGCGAGTCTTCGTTCCTGATGTACCGCAAGGACATTCTGGAGGCCAAGGGCCTGACCATGCCCGAAAAGCCCACCTGGGATGAGGTCGCGGACATCGCGGCCAAGGCTGACGGTGCAGCGCCGGGCATGAAGGGCATTTGCCTGCGCGGCCAGCCCGGCTGGGGCCAGGTCTTCGCGCCACTGACCACCGTGGTGAACACCTTCGGCGGGACCTGGTTCGACAAGGACTGGAACGCGCAGGTCAACTCCCCGGAATTCAAGGAAGCGGTGGAGTTCTACGTGGACCTGGTCCGCAAGCACGGTGAAGCCGGCGCCGCGCAGGCCGGGTTCACCGAGTGCCTGAACAACATGAGCCAGTCCAAGGTGGCCATGTGGTACGACGCAACGTCGGCCGCCGGTGCCCTGGAGGCCGAGGACTCCCCGGTGAAGGGCAAGATCGGCTACGCGCAGGCGCCGGTGAAGGAAACCAAGTCCTCCGGCTGGTTGTGGACCTGGTCCTGGGCCATGCAGGCCGCGTCCAAGAAGCAGGACGCTGCCGGGAAGTTCGTCGCCTGGGCCAGCTCGAAGGACTACGAGGAACTGGTCGCCGCAAAGCTCGGCTGGGCCAAGGTCCCGTCCGGCAAGCGCATCTCCACCTATGAGAATGCCGAATTCCAGAAGGCGGCGCCGTTCTTCAAGGCCGAGCGCTTCGCCATTGAGAACGCCGACCCGAAGAACCCCGGCGCACAGGAACGCCCGGCCGTCGGCATCCAGTTTGTGGGTATTCCCGAATTCGCCGCGCTGGGGACCAGTGTCTCCCAGGGGGTCAGTTCCGCCATCGCGGGCCAGGGCACCGTGGCCGAGGCGCTGGCCAAGGGTCAGGAAGCCGCAGAAAAAGTCGCCAAAAAGTACAAGCAGCCTTAA	MRPTMRAASLAAGALCIALSASACAGAGGGNSAGDPNSINVLMVNNPQMEDLQRLTADNFTKETGIKVNYTVLPENDVRAKISQEFSSQAGQYDVASLSNYEIPFFAANGWLAPLDNVANDPEFNQADILPAYTESLTGEDGKLYGEPFYGESSFLMYRKDILEAKGLTMPEKPTWDEVADIAAKADGAAPGMKGICLRGQPGWGQVFAPLTTVVNTFGGTWFDKDWNAQVNSPEFKEAVEFYVDLVRKHGEAGAAQAGFTECLNNMSQSKVAMWYDATSAAGALEAEDSPVKGKIGYAQAPVKETKSSGWLWTWSWAMQAASKKQDAAGKFVAWASSKDYEELVAAKLGWAKVPSGKRISTYENAEFQKAAPFFKAERFAIENADPKNPGAQERPAVGIQFVGIPEFAALGTSVSQGVSSAIAGQGTVAEALAKGQEAAEKVAKKYKQP	PGPT0016380_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL|SORBITOL_TRANSPORT,PGPT0016380-smoE|mtlE-K10227	NA	NA
D1-17_02929	954	sorC	COG2390	Sorbitol operon regulator	ATGCCCGAGCATTCCCATGAAGAGCTCCTGGCCCGCATCAGCAGCGAGTACTACTTGGAGAACCGTTCGAAGGTAGAAATCGGCGCTAGCTACGGTATTTCACGGTTTCAGGTCGCGCGGCTGCTCACCGAGGCCCGCGAGCGCGGGATCGTTGAAATCAAGGTGCATTTCCCGTCCAACATCTCCAGCACGGATATACGCCGGATAGAGTCGTGGTTGGGCATTCCCGAGGTGATCGTTGCAGATTCGACCACAGGCGACGAAGACCAGGCTCGCGGCATTCTGGCGAAGTTTGCCGCCGCCGAAGTCTCGCGGCAGGCCCCTGCGGGCGGGACCTTGGGCATCTCCTGGTCGCGAATCCTGGATGTCGCCTCGAAGCTAGTCCGGGAGCTCCCCCGGTGCGACATCGTTCAACTCGCGGGCGCCCTCCCGGCGGAAGGGGAGAGCAATCCCCTCGAGCTTATCCAGCGGTTAGGGCACTTGAGCGGCGGGTTCACGTGGCCGCTGTGGTCACCACTGGTGGTGGAAGATCCGGCGACGGCCGCCGGCTTGCGCCGTCAGCCGGAGATCGCCGGCGCACTTGCAAAGGCCGATTCTCTCGACTTAGCGGTGGTGGCAATTGGCGCTTGGAAGAGCGGTAGCTCCACCGTCTGGGAACGCGCGGAAGCGGAGGTGCGCGAGGCAGCTGTGGAAGCCGGCGCTGTGGCGGAATGTTCGGGACGGCTACTCAACGCTGAGGGTGTTCCGGTCGAATCCGGACTGGATGAACAGATCATCGCCGTCACGATAAAGCAGTTGCAGCGCACCCCGAAGGTAATTGCCGTGTCGCACGGAAAAGCACGGGCAGAAGCAGTACGGGCCGTGGCGAAGGCCGGCTTTGTCACCACGCTGATTGTGGACGTGCCGTTGGCCCAGGCCCTGACAGACCTAATCGATGAGGAGAATAGTCAATGA	MPEHSHEELLARISSEYYLENRSKVEIGASYGISRFQVARLLTEARERGIVEIKVHFPSNISSTDIRRIESWLGIPEVIVADSTTGDEDQARGILAKFAAAEVSRQAPAGGTLGISWSRILDVASKLVRELPRCDIVQLAGALPAEGESNPLELIQRLGHLSGGFTWPLWSPLVVEDPATAAGLRRQPEIAGALAKADSLDLAVVAIGAWKSGSSTVWERAEAEVREAAVEAGAVAECSGRLLNAEGVPVESGLDEQIIAVTIKQLQRTPKVIAVSHGKARAEAVRAVAKAGFVTTLIVDVPLAQALTDLIDEENSQ				NA	NA	NA	NA	NA
D1-17_02930	1401	xylB_1	COG1070	Xylulose kinase	ATGAGCGTTGTCGTCGGGGTAGATTCCTCCACCCAGTCCTGCAAGGTCCTCGCCGTCGATGCCGAAAGTGGAGACGTCATCTCTGCGGGTGCGGTAGCCCACCCGGACCTCACCGCGGTGAACCCGCGCATCTGGACCTCCGCGCTGCGCGAGGCGTGGCAGTCCGCCGGCGCGGACAGCCTGGGCGGCTCCGTCGCCGCTGCCGGCATCGCCGCCCAGCAGCACGGGATGGTGGCGCTCGACAGCTCCAACACACCCGTCCACGACGCACTGCTGTGGAACGACACCCGCAGCGCAGGCGATGCAGCGAGGCTCCGGGACGAGCTTGGCCCCGAAGCGTGGGTCGGCGCCGTCAACCTTGTTCCGGTCGCTTCCTTCACCATCTCGAAGCTGGCGTGGCTGGCGCGGAACGAACCGGAGGCCGCGGGCCGCGTCGACCAGGTTGTCCTCCCCCATGACTGGCTAAACGGCGCCCTGGGCGGCGAGTTCACCACCGACCGCAGCGACGCCTCCGGCACCGGCTATTTCTCCCCGGTGACGGACAGCTACCGGACGGACCTGCTGGAGCGCTTCTTCGGCCGAGTTCCGCGCCTTCCGCGCGTCGTGGCGTCAAACGAGCAGGCCGGAACCGTGCAGAACGGCTGGGGCATCGACGGTGCGGTCCTCGCGGCCGGCGCCGGGGACAATGCGGCAGCAGCGCTGGGGCTGGGGCTCCGCGCTGGCGAAGTGGTCGTGTCCATCGGGACCTCCGGCACCGTCTTCACCACCGCACCTTCCGCGATGCCTGACCGCACAGGTGCAGTCGCCGGTTTTGCGGATGCGGCCGGCGGCCACCTGCCCCTGCTGGCCATGCTCAACTCCGCCCGTGTCATGGCCGCGACGGCCGCCATGCTCGACGTCGACTTGGCAAAACTGGACTCCCTGGCGCTGGCCGCGGACCGCGATGCCGGCGGGCTCACATTCCTGCCGTACCTTGACGGCGAGCGCAGCCCCAACCTTCCCCACGCGAGCGGAACCCTGGCCGGCCTCAGCAGAAGCAACATGACCCCGGAGAACCTCGCCCGCGCCTCCGTGCTGGGCGTGCTGAACTCACTGGCAGACGCCATCGACGTCCTAAGGCAACTCGGCGGAACGCCGGACAAGGTTGTGCTCATCGGCGGGGGTTCGAAGTCGCAGGCCCTGCGCCAGGCAGCGGCCAGCATCTTCAATCTGCCGGTGGAGGTGCCGGCGAGCAGGGAGTACGTTGCGCTGGGTGCGGCGAAGCAGGCTGCGTGGGCAGCGACGGGAGAACTGCCGGACTGGAGGCGCAGCATCGACGCGGCGTATGAACCCGAAGGTGACTGGGGTTTCGGCCTCCGGGAACGCTACGCCGAGGCCCGCAAGAGCTTCTACGGGGTGTGA	MSVVVGVDSSTQSCKVLAVDAESGDVISAGAVAHPDLTAVNPRIWTSALREAWQSAGADSLGGSVAAAGIAAQQHGMVALDSSNTPVHDALLWNDTRSAGDAARLRDELGPEAWVGAVNLVPVASFTISKLAWLARNEPEAAGRVDQVVLPHDWLNGALGGEFTTDRSDASGTGYFSPVTDSYRTDLLERFFGRVPRLPRVVASNEQAGTVQNGWGIDGAVLAAGAGDNAAAALGLGLRAGEVVVSIGTSGTVFTTAPSAMPDRTGAVAGFADAAGGHLPLLAMLNSARVMAATAAMLDVDLAKLDSLALAADRDAGGLTFLPYLDGERSPNLPHASGTLAGLSRSNMTPENLARASVLGVLNSLADAIDVLRQLGGTPDKVVLIGGGSKSQALRQAAASIFNLPVEVPASREYVALGAAKQAAWAATGELPDWRRSIDAAYEPEGDWGFGLRERYAEARKSFYGV	PGPT0017535_3883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017535-xylB-K00854	NA	NA
D1-17_02931	1497	gntT	COG2610	High-affinity gluconate transporter	GTGGATCTTCAACTACTACTTGCGCTGGTACTGGGCATCGCGACCATCGTCGTGCTCGTACTGCGCACCCGGCTTGACGCTTTCGTAGCCTTGCTCATAGCCGCCCTAGTGACCGGCCTCGTTGCCGGCCAGGCTCCGCTGGATATCACCCGGGCCATCACCACCGGTTTCGGCAACACCCTCGCTTCGATTGGCATAGTAATCGGTCTCGGTGTGGCCATCGGCAAGATCCTCGAGGTTTCCGGGGCTGCTCACGCACTTGCCTTGGCCTTCCTTCGGCTCTTCGGCAAAGGCAGGGAGCCTTGGGCGATGGGCAGTGTCGGTGCCCTGGTATCCATCCCGGTGTTTTGTGACTCTGGGTATGTAATCATGAACCCGCTGGCGCGCTCCATTGCCCGGGTCGAGCGCGCAGGCTATGTCACGCTGGCCTTGGCACTGGGCGCGGGCATGACCCTGACGCATCACTTGGTGCCGCCGACCCCTGGCCCGTTGGCTGTCTCCGGTCTGCTGGGCGCGGACCTTGGCGCAGTCATCCTCACGGGCTTGGCCTTCACCGTCCTCCTGCTTCCGATCGTGGTTGCTTACGCCAAGTGGATGGGTCCCAAGCTGGAAGCCTCCATCAACGAGGAAGTCCGGACCGCAGTTTATGGCCGGACGGCGCGGGTCGGGGGAGGGGCGCATCACGGTTCAACGGATACGGTCACCGCGGACGGCCCGCCCGGCGCAGACGGACCTGTTGAGGCTGAACTTCCGGAGGGTCCTGAGTTGGAATTGGGCACCCCGCCCCCGGGTGCGAAGCCGCACAGGGTCGGCGCGTTCCTCGCCTCGCTGCCCCTCTTGGTGCCGCTGTTGCTGATCGTCCTCAACACAGTCACCGGCGCTATTGACCAGAACGCGCAGGGGGTCATTGGCGGAGAGTACGAGCCGTCGGATTGGGTTGTTCCCTTCGCTTTCATCGGCAACCCCGTGATCGCGCTGATTATTGGCGTACTGCTCGCCGTCTACGTGCTGTTGCCGCGGTGGACTCCCCGGACCAAGGTCCAGGGGTGGTTTGCCAGCGCTGCTGCCTCGGCAGGCCTCATCCTGCTGATCACCGGTGCCGGCGGCGCGCTGGGGCAGGTGCTCCGCAGCTCAGGTGTGGGCGATGCGCTGGCAGAGGCCATTGCAAACACGGCCCTGCCCGCTTTCCTTGTGCCCTTCCTGGTGGCCACTCTTGTCCGGCTCGCGCAGGGGTCCGGCACGGTGGCGATGATCACCGCGGCGTCCGTCACTGCACCACTGGTGGGCACTCTCGGTATCGATCCGCTGGTAGCCGCAGTGGCGTGCACCGCCGGTTCCATGATCCTGAGCTACTTCAATGACTCCTACTTCTGGGTGGTAACCCGGTTCACCGGACTCGAAGGCACTGCGGCGCTTCGGGGCTGGTCCGGCATCACCACCGCTGTCTGGGCTGGATCAATCCCGTTGCTGTTCATCCTGAATCTCATCCTGGGCTAA	MDLQLLLALVLGIATIVVLVLRTRLDAFVALLIAALVTGLVAGQAPLDITRAITTGFGNTLASIGIVIGLGVAIGKILEVSGAAHALALAFLRLFGKGREPWAMGSVGALVSIPVFCDSGYVIMNPLARSIARVERAGYVTLALALGAGMTLTHHLVPPTPGPLAVSGLLGADLGAVILTGLAFTVLLLPIVVAYAKWMGPKLEASINEEVRTAVYGRTARVGGGAHHGSTDTVTADGPPGADGPVEAELPEGPELELGTPPPGAKPHRVGAFLASLPLLVPLLLIVLNTVTGAIDQNAQGVIGGEYEPSDWVVPFAFIGNPVIALIIGVLLAVYVLLPRWTPRTKVQGWFASAAASAGLILLITGAGGALGQVLRSSGVGDALAEAIANTALPAFLVPFLVATLVRLAQGSGTVAMITAASVTAPLVGTLGIDPLVAAVACTAGSMILSYFNDSYFWVVTRFTGLEGTAALRGWSGITTAVWAGSIPLLFILNLILG	PGPT0001340_92	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GLUCONATE_TRANSPORT,PGPT0001340-TC_GNTP-K03299	NA	NA
D1-17_02932	156			hypothetical protein	ATGAACGACTTTATTCCCCGTCCCCGTGCACCGTATGACGCGCTTTGGGTTATCAAAAACGACCTGGCGAACATCATCGCCAAATACACCGATAGGGGCGACGCTGAAACCGCCGCTGTCTACATGGAAGCACTCGCCCGTTACAACGGGGACTGA	MNDFIPRPRAPYDALWVIKNDLANIIAKYTDRGDAETAAVYMEALARYNGD				NA	NA	NA	NA	NA
D1-17_02933	123			hypothetical protein	ATGGCTGACGACCAAGAACTGTTGGACTGGGTTTCCCCGCGCAAACAGCGGGAAATCGACAACCAGGCGGCATTTCTGCGCTATCTGCTTGAGCGTGAAGAGGCGCTAGGGGGTGGAAAATAA	MADDQELLDWVSPRKQREIDNQAAFLRYLLEREEALGGGK				NA	NA	NA	NA	NA
D1-17_02934	546			hypothetical protein	TTGCAGATCAACAAACGGACGCTAAAAGAGGACGGGTTCACCGGATTCCGCTCCTTCAAGCAGCTGGAGATCAACCGCGTTCCGCAAGCGCCCGGAATCTATGCCGTGCTTAAGCCCGAAGGTTTCGAACCGACGTTCCTCGCCAAGAGCGTTGGGGGCCGCTTCAAGAGGCGGGATCCATCCTTGCTCCAAAGCGTTCTGGAAGCGGAGTGGATCGAGGATGCGGACGTCCTCTACATCGGGAAAGCAGGCCCGGGAAGCGCCGGCAATCGCGGACTACGAAAGCGAATCCAAGAGTTCGCCGACTTCGGCCGCGGGAAACCCGTTGGCCACTGGGACGGGCGGCTCATCTGGCAGCTTGCGGACTCCCAATCACTGGTCATCGCCTGGAAGGAGCTGACAGCTGCAGAAGTGAATCCTGCCGAAGCCACCTATCACGCGGAATTCATCAGGATTTATGGAAGATTGCCCTTCGCCAACCTGGTCCAGGCGAGAGCGACGGGACCCGTAGCTGTCGCCGCCCAGCGCCTTACAGAACGCAGCTGA	MQINKRTLKEDGFTGFRSFKQLEINRVPQAPGIYAVLKPEGFEPTFLAKSVGGRFKRRDPSLLQSVLEAEWIEDADVLYIGKAGPGSAGNRGLRKRIQEFADFGRGKPVGHWDGRLIWQLADSQSLVIAWKELTAAEVNPAEATYHAEFIRIYGRLPFANLVQARATGPVAVAAQRLTERS				NA	NA	NA	NA	NA
D1-17_02935	375			hypothetical protein	TTGGAGGCAGCAGCGGTAAGCACTTGGATGTTCGTCGACGAATGCCCGATTCCCAGTGACGTTGCGGAACTAATGGTTCCGGGCGAGCAGCCAGTGGCCGCGTATAAGACATTCCGGGACAGCGCCATTTTTACAACCAAGCGGATGATCGTCCGCGACGCCCAAGGGCTGACCGGCAAAAAGGTGGAGGTGTATTCGCTGCCCTTCTCTGCCATCAACATGTGGTCTTCAGAGAATGCAGGGAAATTCGATCTCGACGCAGAGCTGGAGCTTTGGACTCGCGCGGGGCACATCAAGATTAAAGTGGGCAAAAAGGTGGATGTGCGCCGGCTGGACATGCTGATCGCGCACTCGGTCCTGGGTTCCCAGCACTAA	MEAAAVSTWMFVDECPIPSDVAELMVPGEQPVAAYKTFRDSAIFTTKRMIVRDAQGLTGKKVEVYSLPFSAINMWSSENAGKFDLDAELELWTRAGHIKIKVGKKVDVRRLDMLIAHSVLGSQH				NA	NA	NA	NA	NA
D1-17_02936	96			hypothetical protein	ATGGATTCATCAGCGGAAGGAGTGAACATCATGGCTGACGACCTTGAAACTGCCACTGTCTACATGGAAGCACTCGCCCGCTACAACGGGGACTGA	MDSSAEGVNIMADDLETATVYMEALARYNGD				NA	NA	NA	NA	NA
D1-17_02937	591			hypothetical protein	GTGGGGAGAGACGCTTTGCCTGAACTTAAACGCATCTACTGGACCCGCCAATCACTCCGGCTGGCCATGGCCGTCCTGACGCTCTGGATCTCTGCAGCTGCCATCCTCTCCTTCATGGGGAATGCCTCGAAATTCGCTGTTGGACGGTCGACTTCAGTGACTGACGTCTTCACCCAGACTTTCGACGGCGTGCTGCCGGCGGTATTGCTGCCGGGCGCACTGGTCGCAGTCCTGATCGTCTCCGCATTGGTGATGCAAGCCAGGGACGTACGGCGCCGAGATCCCGTCCGCCGTTTCACCCGACAGCAGCGCCGTGAAGGCATGGCAAGGGCAGACGGGCAGTGCGAAATGGAGGCGGGCTTCCGCCGTCGTTGTTCACGCCCTGCAGAGCACGGCGACCACTTCTACCCTTGGTCCAAAGGCGGCTCCACCAGCCTGCAGAATTTTGTCGCTGCATGCAGCAGGTGCAACCGGGCGAAAGGGGCTCGGATCCCGTCACCGGCACAGCAAGCAAGACTGGAACGACGACGGCTTGCTTACGTTGAGTTCGAGGACGCCGTCCGGGTCGGCGAGCGCCGAGAGCTTTCCTGA	MGRDALPELKRIYWTRQSLRLAMAVLTLWISAAAILSFMGNASKFAVGRSTSVTDVFTQTFDGVLPAVLLPGALVAVLIVSALVMQARDVRRRDPVRRFTRQQRREGMARADGQCEMEAGFRRRCSRPAEHGDHFYPWSKGGSTSLQNFVAACSRCNRAKGARIPSPAQQARLERRRLAYVEFEDAVRVGERRELS				NA	NA	NA	NA	NA
D1-17_02938	1449			putative protein/MSMEI_1241	ATGGACTACTACGCAATCAACAGCCTGCGTGAGAACCATGCAGGCTGGTCCCTGCTGCGCGCCCAGAACGGCCCGCTCGCCATCTCGTTTTTCATGGCGGCGTTCACCGCTCCAAACCAGCGCAACCTCGGCCGGCAGCAGCTCATCGACAGCCTGGACGACGTGCTCTTCGGCCTGCGGGACGCCTACGGTGAAGACAAGTTCCCGCGGCAGGCATCTGAATACCTGGACGACTGGGCCGCGGACGAACGCAAATGGCTGCGGAAGTACTACGTCACGGGCCAGGACGAGCCGCGCTACGATCTCACCGCGGCGGCGGAGGATGTCGTCCGCTGGGTGGAGAGCCTGCGAGGCCGGGACTTCGTCGCCACCCAGTCGCGGCTGACCAGCATCTTCGCGGTCCTCGAGCGGCTGGTCCAGCAGTCCGAGACGGATCCGGAAGTACGCCTCAAAGAACTCCAAAACCAGCGAGACGCCGTCGACGCCGAGATGCGGCGAATTCGCGAGGGCAACATCCGGGTCATGACGGCCCCGGAGGCCCTCGACCATTTCCAGCAGCTGACCGCCCTGGCCAAGGACCTCCTCTCGGACTTCCGCGAGGTCGAACAGAACTTCCGCAAGCTGGACCGTCAGGTCCGTGAGCAGATCGCCACCTGGGACGGCACGCAGGGCGAGCTGCTGGAATCGATCTTCGCCAACCAGCAGGACATCACCAGCTCCCTGCAGGGCCGGACCTTCCAGGGCTTCTGGGACTACCTCATGTCCCCGGACTCCCGAAGGAAGCTGCAGGAACTCCTCCAGCGCGCCACCCAAATCGAAGCCCTCGCCCAGACGGACAACCTGCACGCCATCACCAACCTGCACCAGGACTGGCTGCCCGCCGTCGAGCAGACCCAGGGCACCGTCCGCCAGCTGTCCCAGCAGATGCGCCGGCTGCTCGACGACAAGGTGTTCCTGGAAAACAAGCGCATCATGCAGCTCATCCGCAGCGTCGAGTCCGGTGCCCTCGCCACCCGGGAGCAGCCCCCGCAAGGGGACTTCATTGAAATGGCGGCGCCGTCAGTGGACATCACCCTCCCGTTCGAACGCCCGCTGTATGAGCCGAGCCGGCGGGTGATGGTGGAGGACCAGATCGAAATCGCCGACGACGCCGACGTGGATGCCGGCGCCCTGTTCAGCCAGTTCCACGTGGACAAGGAGCGTCTCAAGGCCAACATCGACGCCGTCCTGGCCGAGGCCGAAGCGGAGCAGGCCACCCTAGCCGAGATCACGGCCAAACACCCCGTCGAACAGGGGCTTGCGGAGATTGTGGCCTACTATCAGCTGGCCACGGAGTCGGACTGGGCCACCATCAACCCAGAGGCCGAGCAGCAAATAGCCTGGCAACTCGAAGACGGCAGCATCCGCGAAGCCACCCTCGAACAGATCATCTTTGGAAGGCCCGCATGA	MDYYAINSLRENHAGWSLLRAQNGPLAISFFMAAFTAPNQRNLGRQQLIDSLDDVLFGLRDAYGEDKFPRQASEYLDDWAADERKWLRKYYVTGQDEPRYDLTAAAEDVVRWVESLRGRDFVATQSRLTSIFAVLERLVQQSETDPEVRLKELQNQRDAVDAEMRRIREGNIRVMTAPEALDHFQQLTALAKDLLSDFREVEQNFRKLDRQVREQIATWDGTQGELLESIFANQQDITSSLQGRTFQGFWDYLMSPDSRRKLQELLQRATQIEALAQTDNLHAITNLHQDWLPAVEQTQGTVRQLSQQMRRLLDDKVFLENKRIMQLIRSVESGALATREQPPQGDFIEMAAPSVDITLPFERPLYEPSRRVMVEDQIEIADDADVDAGALFSQFHVDKERLKANIDAVLAEAEAEQATLAEITAKHPVEQGLAEIVAYYQLATESDWATINPEAEQQIAWQLEDGSIREATLEQIIFGRPA				NA	NA	NA	NA	NA
D1-17_02939	642			hypothetical protein	ATGAACCCGGCAGCAATTTCCCCAGCCACAACAGAGACGGAAAGCCGGACGCCGGAGGAACTTCCCGGCGTCGTCACCCGGCTCTTCAAAGGCGTGCTGTACGCGGAAGGGGACGAGAAGCTCTGGCAGTCGCTGCTGGGCCTGACCTCCCAGGTCCGCGACTACGTGTCCGTGCTGGGGCTGGACCTGATCCTGGACGAATCCGAGGGCTACGCGTTCCTGAAGTCGCGCGAGGATCCCGACGGCACGCTCCCCCGGCTCATCGCGCGCCGCACCCTCACCTTCAACGTCAGCCTTCTGCTGGTACTCCTCCGCCGCCGCATGATGGAGTTCGATATCAACAGCAGCGAGGTCAGGCTCATCATGACCGAACAGGAAATCGTGGACATGGTCTCGCTGTTCCGGCCGGAATCCAGCAACGAGGCCCGCACTCTGGACCGGCTCCGGGCCGACATCAAGAAAGTTGTAGAGCTCGGCTTTCTGCGGAAGCTCAAGGGACAGGCAGACACGTACGAGGTGGCGCGAATCCTCAAGGCGTTCGTGGACGCCCAGTGGCTGGAGGAGTTCGACACGCGGCTGGCGGCCTATCGAGCGACGCTCACGGGAACACCGGCTGATACAGCGGAGGAGGACGGCAAATGA	MNPAAISPATTETESRTPEELPGVVTRLFKGVLYAEGDEKLWQSLLGLTSQVRDYVSVLGLDLILDESEGYAFLKSREDPDGTLPRLIARRTLTFNVSLLLVLLRRRMMEFDINSSEVRLIMTEQEIVDMVSLFRPESSNEARTLDRLRADIKKVVELGFLRKLKGQADTYEVARILKAFVDAQWLEEFDTRLAAYRATLTGTPADTAEEDGK				NA	NA	NA	NA	NA
D1-17_02940	3408	smc_2		Chromosome partition protein Smc	ATGACCGCCGAACTGCAGGACACCCTGTTCAGCCTGGAGGAAAAAACGGACGACGGCGGCACTCCCCCGGGCTTTCGCCTGCGCCGTCTGGAGCTGCTGAACTGGGGCACCTTCCACCAGGGCGTGCGGACGTTCCAGCTGGACGGCGCCAACAGCCTGCTCACCGGGGACATCGGTTCGGGCAAGTCGACGGTCGTGGACGCGGTCACCACCCTGCTGCTGCCCGCGAACCGGATCGAATACAACAAGGCGGCCGGGGCGCAGAAGAAGGAACGCTCGCTGATGTCGTACGTGCGCGGCTTCCACAAGAGCACGCGCAGCACCGGCGGCGAATACTCCAGGCCGGTGGCGCTCCGCAACACCGGCGCGCTGACCGTGGTGCTCGCCGTCTTCCACAATGCCGTGCTGGACAAGTCGGTCACCCTGGCCATAACGCTGTGGGCCACCCAGGAAGCCGGCCAGCCCAGCCGCTTTTACTCTCTCGCCGAGGCGGACCAGTCCATCGCGGCGGATTTCTCCAACTTCGGCCAGGACCCGGCGAAGCTGAAGAAGAAGCTCCGCGCCGCCGGTGCCGCCGTCCATGACACCTTCGAACCCTACGCCGGGGCCTTCAAGCGGCAATTCGGCATCAGCGGCAACCAGGCCATGGAGCTGTTCCACCGCACGGTGTCGATGAAGCAGGTGGAAAACATCACCTCCTTCGTGCGCACCAACATGCTGGAGGAAGACAACGTCGGGGAGCGCATCGGCAACCTCATCCACCACTTCGACGACCTGAAAAAAGCCCATGACGCCGTGCTCCGGGCCAAGGACCAGATCGCCCTGCTGACGCCGATCAGGGAGGGCGCCGCGCAGCACGCGAAGCTGAGCCGCGACGACGAGCTTGCCCGCCAGCAGCGCGACCAGCTGCACCCCTGGTTCACGCACCGGAAGCTGCAGCTGAGCCTGGAACACCAGTCGGAACTGGAACGCACAGGCGAGCGGCTGCGGGAGGACAGCACCAAGCTGCGCACCGACATCACGGAAAAGCGGCACGAGCTGTCCGCCGTTCAGGAGGACATCCGCACCAACGGCGGCGGCCGGCTGGCGGCCATCGACGCCGACATGGCAAGACTTGCTGTCGAGTCCCGGACCCAGCGGCAGCGCTTCGACACCTACGCCGCAGCCGCACAGGATCTGGGGCTGCGCCCGCCTGAGGACAAAGTGCTTTTCGACGGCAACCGCGCCCGGCTCGGCGAGGTGGAAAAGCAGCTCACCGATCAGTCCGATGAGCTGCAGGAGAGCCGGACAGACCTGACCATCACCCGCACCGAGCTCAACGCGCGCCTGACCGAGATCGGCAACGAACTGCGCAGCCTGCAGTCCCGCCCCAATCTGCTGCCGCTCCCCCAACTGGAGCTCCGCCGTCGGCTGTGTGACGGAACGGGCATCGCGGAAGCGGCGCTGCCGTACGCCGGCGAGCTGCTGCGGGTCCGCGATGGCGAGGGCGCCTGGGAGGGTGCCGCGGAACGCACGCTGCACGGCTTCGCGCTGTCCCTGCTGGTGCCGGCCCAGCATTACGCCGCGGTGAGCAGCTGGGTGGACGCCAACAACCTGCGCGGCCGGCTGGTCTACCTGAGAATCGGGGAATCGCCGGCGGCCAGGACGGCGGAGCCGGGGACGCTGGCTGCGAAGATCGCCATCAAGCCGGGCACGCCGTTCCGCAACTTCCTGCTGGATGAGCTCGCCACCCGGTTCGATCACATCTGCTGCGACACCGTTGAGGACTTCCGCCGTTACCCCAAGGCGCTGACCGTCAACGGGCAGCTCAAGGGCGGGCGCGGCAGGCACGAGAAGGACGACCGGCGCGAGCTCACGGACCGGCGCAACTACGTGCTCGGCTGGGACAACCACGACAAGATCAGCCGCTTCCTCGCCGAGCAGGACGAGGTTAAGGGCCAGCTGCACATCACGGAGGCGCAGCTGAACAAGGTCAACGCGGAACTGGGTGATCTGGGAAGGCGGAACCAGCAGCTGGGCACCGTGCGTTCGGTGGCGGACTTCGGTGAGATTAGCTGGCAGCTCACGGCCCGGCGGATCGAGGAACTTAAGGCCGAGAAGCTGGAGCTGGAGACCGCCAGCGACGTGCTGAAACAGCTGACGACCAAGGAGTCCGCCGTCACCAAAGAGCTGGAACGGCTGGAGGAAAAGGCCGGCAAACTGCGCGAGCGGCTGGGCGCCAACGAGAAGGACGCGAGGGACATCGCGGAGGCGATTGAGGAATGCCGCGGCATCCTCGCCGAGACACCGCTGACGAACGACGGCGGGGTGCTGGCCGCCGTCGAACAGCTCACCGCCGCGGCGCTCGGGGACAAGACGCTGACGTACAAGAACACCGGCACGGCGGAGAGTTCGGTGCGCGCCGGGCTGACGGACACGATCGATGCGCTGTCCAAGAGGATCGCCCGGGCGGCGGAAGGTACCGTCCGGCTAATGGCGGACTTCCGCAACAAGTACCCGAACGAGACCACGGACATCGACGCCGCCCTCGAGGCCGCCCCGGACTACAACCGGCTGCTGGAGCAGCTGGTCAGCAACGACCTTCCCCGGTTTGAGGCGCACTTCAAGGAGTCGCTGAACCAGAACACCATCCACGAAGTGGTGGCGTTCAATGCGTTTCTGGACAGCCGGCGGCAGGACATCGTGAACCGGATCGGCGAGATTAACCAGTCGCTGGCGGGGATTGAGTACAACCCCGGCCGGCACATCCAGTTGGAGCACCAGAACACGTCGGACCAGGACGTGCGCGAGTTCGGCGTCGACCTGCGGGCCTGTTCGGAGGGGACCATCGGCGACGAGGACCAGTACTCGGAGCAGAAGTACCTGCAGGTGGAGCGGCTGATCGAGCGGTTCCGCGGCAGGGAGGGCCTGACTACGCTCGACGAACGGTGGACGGCCAAGGTCACGGACGTGCGGAACTGGTTCACGTTCTCAGCGTCCGAGAAATGGACCGAGACCGGCGAAGAGTTCGAGCACTTCACGGACTCCGGCGGCAAATCGGGCGGGCAGAAGGAGAAACTGGCCTACACCATCCTGGCGGCGGCGCTAGCGTTCCAGTTCGGGCTGGGATCGGGGGCGAACAGCGCCGCGGGCGCTGGGAAGAAGGCGAACAGCGGCCGGAGTTTCCGGTTCGTGGTGATCGACGAAGCGTTCGGCCGCGGGTCCGATGAGTCGGCGCGGTACGGGCTGCAGCTGTTCCAGCGGATGAAGCTGCAGCTGCTGATTGTCACGCCGCTGCAGAAGATCCACGTGATCGAACCGTTCGTCTCACACGTGGGGTTCGTGGCGAACACCAACGGCGACGACTCGCAGCTGCGCAACATGACCATCCAGGAGTACCGCGACGAACGGGACCGGCGTGCCGGCTGA	MTAELQDTLFSLEEKTDDGGTPPGFRLRRLELLNWGTFHQGVRTFQLDGANSLLTGDIGSGKSTVVDAVTTLLLPANRIEYNKAAGAQKKERSLMSYVRGFHKSTRSTGGEYSRPVALRNTGALTVVLAVFHNAVLDKSVTLAITLWATQEAGQPSRFYSLAEADQSIAADFSNFGQDPAKLKKKLRAAGAAVHDTFEPYAGAFKRQFGISGNQAMELFHRTVSMKQVENITSFVRTNMLEEDNVGERIGNLIHHFDDLKKAHDAVLRAKDQIALLTPIREGAAQHAKLSRDDELARQQRDQLHPWFTHRKLQLSLEHQSELERTGERLREDSTKLRTDITEKRHELSAVQEDIRTNGGGRLAAIDADMARLAVESRTQRQRFDTYAAAAQDLGLRPPEDKVLFDGNRARLGEVEKQLTDQSDELQESRTDLTITRTELNARLTEIGNELRSLQSRPNLLPLPQLELRRRLCDGTGIAEAALPYAGELLRVRDGEGAWEGAAERTLHGFALSLLVPAQHYAAVSSWVDANNLRGRLVYLRIGESPAARTAEPGTLAAKIAIKPGTPFRNFLLDELATRFDHICCDTVEDFRRYPKALTVNGQLKGGRGRHEKDDRRELTDRRNYVLGWDNHDKISRFLAEQDEVKGQLHITEAQLNKVNAELGDLGRRNQQLGTVRSVADFGEISWQLTARRIEELKAEKLELETASDVLKQLTTKESAVTKELERLEEKAGKLRERLGANEKDARDIAEAIEECRGILAETPLTNDGGVLAAVEQLTAAALGDKTLTYKNTGTAESSVRAGLTDTIDALSKRIARAAEGTVRLMADFRNKYPNETTDIDAALEAAPDYNRLLEQLVSNDLPRFEAHFKESLNQNTIHEVVAFNAFLDSRRQDIVNRIGEINQSLAGIEYNPGRHIQLEHQNTSDQDVREFGVDLRACSEGTIGDEDQYSEQKYLQVERLIERFRGREGLTTLDERWTAKVTDVRNWFTFSASEKWTETGEEFEHFTDSGGKSGGQKEKLAYTILAAALAFQFGLGSGANSAAGAGKKANSGRSFRFVVIDEAFGRGSDESARYGLQLFQRMKLQLLIVTPLQKIHVIEPFVSHVGFVANTNGDDSQLRNMTIQEYRDERDRRAG				NA	NA	NA	NA	NA
D1-17_02941	1296			hypothetical protein	GTGCCGGCTGACGTTCCAAAAAAGTGGACTACGCTGGCTGACCTGCGGGCACTGTCACTGAAGAGTTGGAGCAGCGGTGCGCTGCTGCGGGAGCTGCTGGAACCCACCGGCGTCTATCCCCGCCGTCGTTCTTTGAAGCGCCCGACGGCGAACGAACTGTTGAGCGACTACGCTGCGGCCCGCAGCTGGGCGATCGAGCTTTCCGGAGGGGCAGGGCATTACCGTCTGGAGACGGTCGAGGTCGGCCGGAACACGATTGGCTCCAACCGGCTTCCGGCCGCGGCGGTTTTCGACACGGCCGAAGATGAGATCGCCTTCGCCGGCAAGACGAAGGACTCCCAGCGGTTCCGCGCGCTTGCCGCGGGGCTGTCCGGGCTCGACGCCTCGGCCGGCGCGCCGCTGAGGGGCTGGGCACTGAAGCGGCCGCTGCAGCTCCTGGAACTGGGCGAAGCTGCGCTGACTGCGGCCCGGGTGGCGCTGTGGCTGCGGGAGAATCCGTCGCCGGGCATCTACCTGAGGCAGCTGAGCCTGCCCGGGGTGCACACGAAGTTCATCGAGGCCCACCGGAGGGTCATCGACGAGATGGTGGCGCTGCTGCGGGCTGGGTCTGCGGATCCTCAGGTGGACTCGGCGGACGGTGGGACTGCGGCGGAGGAGGCAGCGGACATTGTGGATGTGGCCCTGGCCGATCCGGCGGGGCGCACTCCTGCCGCACGTTTCGCCGCGCGGCACGGGTTCCTGCATCCGCCGGAGCTCGTCCGGTTTCGGCTGCTGGACCCAGCGATTGGTGCTCTGGGTGCTGCGCGGGACATCACGGTGACGGCGGAGGCGTTCAGCACACTGCAGCTTCCGGTGCACACCGTCATTGCGACCGAGAACCAGGTCAACTTTCTCGCCCTGCCTGGACGGACGGGCACCTTGGCCCTGTACGGCGCCGGGTACGGCTTCACGTCGCTGCGGGATGCGGCGTGGCTGCGGGATTGCGAAGTCCTGTACTGGGGTGATATCGATACGCACGGCTTCAGGATTTTGGACCAGCTCCGGGCGGTCCATCCGCATGTGGAGAGCGTGCTGATGGACGAAGAGACGTTACTTGAGCACCGCGACGCCTGGGGACAGGAACCGTCACCGTCGAGGGCTGCGCTGACCCGGCTGGTGCCGCAGGAGCGTAAACTCTACGAAAGGCTGGGCAATGACACTTTCGGGTCAGCCGTCCGCCTCGAACAGGAGCTAATCCGCTGGGACTGGGCACTTGCGCGCCTCGGTGGTCTGGACCGGCCGGGATCCGCTGGTTGA	MPADVPKKWTTLADLRALSLKSWSSGALLRELLEPTGVYPRRRSLKRPTANELLSDYAAARSWAIELSGGAGHYRLETVEVGRNTIGSNRLPAAAVFDTAEDEIAFAGKTKDSQRFRALAAGLSGLDASAGAPLRGWALKRPLQLLELGEAALTAARVALWLRENPSPGIYLRQLSLPGVHTKFIEAHRRVIDEMVALLRAGSADPQVDSADGGTAAEEAADIVDVALADPAGRTPAARFAARHGFLHPPELVRFRLLDPAIGALGAARDITVTAEAFSTLQLPVHTVIATENQVNFLALPGRTGTLALYGAGYGFTSLRDAAWLRDCEVLYWGDIDTHGFRILDQLRAVHPHVESVLMDEETLLEHRDAWGQEPSPSRAALTRLVPQERKLYERLGNDTFGSAVRLEQELIRWDWALARLGGLDRPGSAG				NA	NA	NA	NA	NA
D1-17_02942	786	xynR_3	COG1414	HTH-type transcriptional regulator XynR	GTGGCGACGGAACCGGGGGCTGGGGCCTCACCCCTGCTGGTCCTGCACAAGGTGGCGGAGATCCTGGACTGTTTTTCGGTTGAGGCTCCGGAGCCGACACTGCAGCAGATCATCCGGAAGACGGGTCTGCCGTCCAGCACCTGTCAGCGGCTGGTGCAGAACATGCTGCGGGAGGGCTTCCTGGACCGGGACGGCGACCGGTACCGGATCGGCATCGGGCTGGTCCGCTGGGCTACCCCCGGGACGTTCGGGCTGGACGTGGTCCGGCTGGTGAAGCCGGTCTTGCAGCAGCTGCGCGATCAGACCGGCGAAACGGCGTGCCTGTATGTCCGGGATGGATCGTTTCGGACTATCGTTGCCGTGGCCGAGACGCGCCACGTGGTGATGCGGCCGTTCATGGTGGGCATGGTCATGCCGCTGCACGCCGGTGCGCCGGGCAAGATTTTCCTGGCGTTCGATCCGGAGGCATGGGACGCCTTGGACGAGCACGGCCTGGACCGCTTTACCTCCGACACGCCGGCCTCCGTGGAGATGCTCCGGCAGCAGGCGGCGATAGCCAAGGAGCAGGGGTTCTACGCGGCGTTCGGGGAACGGAATGAAGACGTAGGTTCCATCAGCGCGCCCGTGTTCGACCACGGCGGGCGGCTCGCCTGCGCCCTAGGCCTGGGGTTCCCGACCCAGCGGATCGGGCCCGCGGACGTGGAACGGCTCGGGCCTGTAATAGCCCGCGCGGGCCTGGAAGCCAGCCGTGCGCTGGGGTATGCCGGCAGCCTATCCGCTGGTTAA	MATEPGAGASPLLVLHKVAEILDCFSVEAPEPTLQQIIRKTGLPSSTCQRLVQNMLREGFLDRDGDRYRIGIGLVRWATPGTFGLDVVRLVKPVLQQLRDQTGETACLYVRDGSFRTIVAVAETRHVVMRPFMVGMVMPLHAGAPGKIFLAFDPEAWDALDEHGLDRFTSDTPASVEMLRQQAAIAKEQGFYAAFGERNEDVGSISAPVFDHGGRLACALGLGFPTQRIGPADVERLGPVIARAGLEASRALGYAGSLSAG	PGPT0017990_52	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017990-yiaJ-K21602	NA	NA
D1-17_02943	819	maiA_1		Maleate isomerase	ATGAGCACCGCCGAAACCACCTGCGAAACCGCGCCCGAGCCCAAGCGCCCGGGCTCCTCCAGGGTGGGACTGATCGTCCCGAGCTCCAACACCACTATGGAAACGGAGCTGCCCGAGCTGTTCCGCCGGCAAACCGAGGCAACAGGCCACAACTACACCTTCCACTCCGCCCGCGCCGGCATGAAGAAGGTCACCCGGGAAGAGCTGCTGGCCATGGTGGGCAAGGCAGCGGGCTGCGCCGAGGCAGTTTCCGATGCCGACGTGGACGTCATCGCTTACGCCTGTCTGGTCGCCGTCATGGCCCAGGGCCCCGAAGCGCATGAGGGCTCGGAGAAAGTCATCGCAGAGGCCGCCGCCGCAAACGGCCACCCTGCCCCGGTCACCAGCAGCGCCGGTGCCCTGGTCCGCACCCTGAAGGAAATCGGCGCGCTCAAGGTGGCCATGATCACCCCCTACATGAAGCCGCTCACCAAGATGGTGGTGGACTACATCGAAGGATCCGGCATCACGGTGCTGGACGCCATCAGCCTCGAGGTGGCGGACAACCTCGAAGTCGGCTGCCTTGACCCGCAGAACCTGCCCGCGCTTGCCCGCAGCCTGCAGCGCGAAGGCGCGGACGCCGTCGTGCTTTCCGCCTGTGTCCAAATGCCGTCACTCGCAGCGGTCCAGGCGGTGGAGGACGAGCTCGGCCTGCCGGTCATCACAGCGGCCACGGCCACCACGTACGAGATCCTGAAGGCGCTCGGCCACCAGCCCGCCATCACCGGGGCTGGCAGCCTGCTTTCCGGCGCCGGCGTCCTGACCCCTCTGAACTCCTAG	MSTAETTCETAPEPKRPGSSRVGLIVPSSNTTMETELPELFRRQTEATGHNYTFHSARAGMKKVTREELLAMVGKAAGCAEAVSDADVDVIAYACLVAVMAQGPEAHEGSEKVIAEAAAANGHPAPVTSSAGALVRTLKEIGALKVAMITPYMKPLTKMVVDYIEGSGITVLDAISLEVADNLEVGCLDPQNLPALARSLQREGADAVVLSACVQMPSLAAVQAVEDELGLPVITAATATTYEILKALGHQPAITGAGSLLSGAGVLTPLNS	PGPT0019700_79	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_NICOTINATE_DEGRADATION,PGPT0019700-nicE-K01799	NA	NA
D1-17_02944	1386			hypothetical protein	ATGTCCCTGTCACTTATCGCGTTCCTCGTCCTGGTGGCGGCGTTCGCCGTCGGATCCTTCACCAAGATCAACGCCGGCCTGCTGGCCACAGTCGCCGCGTTCGGCGTCGGGACCCTCCTGGCCGGCATGTCCATCAAGGACGTCATCGGCCAGTTTCCCGCCGGACTGTTCTTCATCCTGGTCGGCGCCACTTTGCTCTTCGCCATAGTGCGGATCAACGGCACCATCGACCTGCTGGCCTACTGGGCTGAACGGCTCGCCGGCGACCGGAAAATTCTGGTCCCCATCCTGATGTTCCTGCTGACCGCCGCTCTGGCTTCGGCCGGCGCTTTCACCCCGGCGGCCATCGCCATCGTGGCCCCTGTGGGCCTGGCGCTGGGCATGCGGTTCGGCATCAGCACCCTGGCCATGGGCCTGGTCATCGTCCAGGGCGCCAACGCCGGCGCGTTCTCCCCGGTCAACCCGTTCGGCGTGCTGGCCAACAAGATTCTGGATGGTGCGGGAGCCGCAGACGATTCCTTCAAGCTCTACGCTTACTGCTTTCTCTTCAACGCCATCCTGGCCGCGATCGCCTACGTTCTGGTACAGGCCATCATGAAGCGCCGCGCGGCCAAGGGGGACGCACATCACCAGGCCGGTGACACCGGCGGCGCAAAGCACGACGGCGGCGCTGCCGCTACCCCCGGAAGCGGCCTGTCCGGCCCGTCCGGCACGGGAACCGCTGTGCTCACCGCCCCGGCACATGCAGCTACCGGAACCGCCACCAAGACCGGTCCCGAGAAGGTAGCCGCAACCCCCATGCGGATCCTCACCTTGGTGGGCATCGCCTCCCTGCTGGTACTCACCACCGTCCTGGGCATGGACGTCGGAGTCGCGTCGCTGGTCATTGCCATGGTGCTGATCGTCCTGAACCCGGGCGTGCAGAAGCCGGCAGTGGAAAGCATGCCGTGGTCCGCAATCATCCTGGTGACCGGCATCGTCACTTACGTGGGCATGCTGGAAGAGATGGGCGCGCTGAAGGAACTGCAGGAAGGCATCGCAGGCCTGGGCAACAGCTCCCTTGCCGCCCTCATCACGAGCTACGTGGTGGCCATAGTCTCGGCCTTCGCTTCCACCACCGGCACCCTGGGCGTCATCAGCCCGGTGGTCGAACCGATCGCCATGGACCCGCTGCTCACCCCCATCGGCGTAGTGACGGCCATCGCGATCAGCTCCTCGGTGGTTGACGTGAGCCCGATGTCCACCAGCGGTGCCCTGCTGATGGCGAGCGCGCAGCCCAAGGACGAGCGGATGTTCTTCCGGGCGCTGCTGCTGTGGGCTATCGCGATGATCGGCGTGGTGCCGTTCCTCGTCTGGTTCCTGTTCGTCCAGCTCGGCCTCGGCTGA	MSLSLIAFLVLVAAFAVGSFTKINAGLLATVAAFGVGTLLAGMSIKDVIGQFPAGLFFILVGATLLFAIVRINGTIDLLAYWAERLAGDRKILVPILMFLLTAALASAGAFTPAAIAIVAPVGLALGMRFGISTLAMGLVIVQGANAGAFSPVNPFGVLANKILDGAGAADDSFKLYAYCFLFNAILAAIAYVLVQAIMKRRAAKGDAHHQAGDTGGAKHDGGAAATPGSGLSGPSGTGTAVLTAPAHAATGTATKTGPEKVAATPMRILTLVGIASLLVLTTVLGMDVGVASLVIAMVLIVLNPGVQKPAVESMPWSAIILVTGIVTYVGMLEEMGALKELQEGIAGLGNSSLAALITSYVVAIVSAFASTTGTLGVISPVVEPIAMDPLLTPIGVVTAIAISSSVVDVSPMSTSGALLMASAQPKDERMFFRALLLWAIAMIGVVPFLVWFLFVQLGLG				NA	NA	NA	NA	NA
D1-17_02945	621			hypothetical protein	ATGCGAACTGATTTCAGCCCCACGGCCACGTCCGCCCGGGATTTCTACCGTCTGCTCACCGCGGTGGTGGTGCCCCGGCCCATCGCCTGGGTTTCAAGCGTCTCGCCGGAGGGCGTTGATAACCTGGCCCCGCACTCGTTCTTCACCGTGGCTTCCAACAATCCCCCCATCGTGCAGTTCACGTCGGTGGGGGAGAAGGATTCGCTCCGCAACATCACCGGGTCCGGAGAGTTCGTGGTTAACCTCGCCCCGGCCGCACTCCTGGAAGAGGTCAATGCCACAGGCACCAATTTCCCACCGGACGTCAGTGAGTTCGACGCCGCCGGCCTGACCCGTGAGCCGAGCCTCACCGTGGCAGCGCCGCGCGTTAAGGAATCACCGGCGGTGCTCGAATGCCGTCTCCACTCGGTGCTGCCGATGGGAGACTCCACCCTTGTTTTCGGCGAAGTGACGCACGCTGCCGTGAGCGATGCGGTGCTGGAGGGCAGCCACCCGCGGATCGACCTGCTGGAGCCACTGGCCCGGCTGGGCCCGGACGAGTGGGGCACGCTAGGCACGGTCCACGACCTCAAACGGATCCGGCTCAAGGACTGGCCGGGGCATTTCCGCCCGCAGGACTAG	MRTDFSPTATSARDFYRLLTAVVVPRPIAWVSSVSPEGVDNLAPHSFFTVASNNPPIVQFTSVGEKDSLRNITGSGEFVVNLAPAALLEEVNATGTNFPPDVSEFDAAGLTREPSLTVAAPRVKESPAVLECRLHSVLPMGDSTLVFGEVTHAAVSDAVLEGSHPRIDLLEPLARLGPDEWGTLGTVHDLKRIRLKDWPGHFRPQD				NA	NA	NA	NA	NA
D1-17_02946	747	dhlB		(S)-2-haloacid dehalogenase	ATGAGGTTCCAGCCATACCGTTCACCATCAACCGGGCGCGAGGTGCGCGCCGTCCTCTTCGACACCTTCGGCACGGTGGTGGACTGGCGCACCGGCATCGCCCGGCAGGCGGCCGCCTTTGCGGCTGCACGTGGGCAGGACCTCGACGCGGAGGCGTTCGCCGATGACTGGCGCGCCCTTTACCAGCCGGCGATGGAGGCCATCCGCTCCGGATTTCGTGAATTCGCCACCCTGGATACGCTCCACCGCGAAAACCTGGACCACGTGCTCCGCCGCCACGGTTTCAATCCAGAACGGCTGAACACACGGACCCTGGATGAGCTGAACAAATCCTGGCACCGCCTGCCCCCATGGCCGGACAGCGTCGAGGGCCTGACCGCCATCCGCCGCCGCTACATCGTGGGCCCCCTTTCCAACGGCAATACCTCCTTGTTGCTGAATATGGCCAAGACTGCGGGCCTGCCATGGGATGTGATCATTGGCTCGGACCTGACACGCACCTACAAGCCGCTGCCCCAGGCCTACCTGCGGACAGCGGAAATTTTGGATCTCCGGCCCGGCCAAGTGATGCTCGCCGCCGCGCACAACACCGACCTGCATGCTGCCCGGGAGGCGGGGCTGGCGACGGCGTTCGTCGCGCGCCCCACCGAGTACGGGCCCGGCCAGGCTGCAGATCTGGCACCGGAGAGCGATTGGGACCTCTCCGCGTCGAGCATCACCGAGCTGGCCCGCAGGCTCGGGGCCTGA	MRFQPYRSPSTGREVRAVLFDTFGTVVDWRTGIARQAAAFAAARGQDLDAEAFADDWRALYQPAMEAIRSGFREFATLDTLHRENLDHVLRRHGFNPERLNTRTLDELNKSWHRLPPWPDSVEGLTAIRRRYIVGPLSNGNTSLLLNMAKTAGLPWDVIIGSDLTRTYKPLPQAYLRTAEILDLRPGQVMLAAAHNTDLHAAREAGLATAFVARPTEYGPGQAADLAPESDWDLSASSITELARRLGA	PGPT0006885_337	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-17_02947	264			hypothetical protein	ATGACAACTATCCCGCACCGCGAGCTCCGCAACCAGAGCAGCAAGATCCTCGAGCGCGTGAAGAATGGCGAAACCATCGACGTCACCAACAACGGCGAGGTGGCAGCTACCCTGATTCCCCCTTCCGCCTCGCCCTTCGAACGGCTGCTGCTGGCCGGAAATGTCCGCCCCGCCTCTGGTCCGGTCGATTTCCAGGTCCTACGCCGTGTCACGTCCGGTGCAGGCACCTCAGAAATACTGTCCGACCTGCGCGGCGAGCGTTGA	MTTIPHRELRNQSSKILERVKNGETIDVTNNGEVAATLIPPSASPFERLLLAGNVRPASGPVDFQVLRRVTSGAGTSEILSDLRGER				NA	NA	NA	NA	NA
D1-17_02948	399			Ribonuclease VapC47	TTGATCATTTACGTAGACACCTCAGCGGCACTCAAACTCGTCGTCGAGGAACATGAGTCAGCGGCTGTGGCCGAGTACCTGTCAGCTGGTGTGCGCCAAGGTCACCAACTGGTAGCCTCGATGCTCCTGTACACGGAACTCCATTGCGCCGGAAAACGCCGCGGGCTGCCGGCCGAACTCATAACCACAGTGTTGGGCGGAATCAACCTTGTGGATCTCGCACGTTCGGATCTGATGTATGCGGCCGCGATGCCGGGCAAGCTGCGCAGCCCCGACGCCATCCATCTAGCCACCGCTATCCGGCTGCAGACGGACGTGCTGGTTGCCTACGACCAGGAGCTGGGTGCGGCAGCGGCAGAAGCAGGGCTCACTGCCCTGTCGCCAGAAAAAGCGCGGTAA	MIIYVDTSAALKLVVEEHESAAVAEYLSAGVRQGHQLVASMLLYTELHCAGKRRGLPAELITTVLGGINLVDLARSDLMYAAAMPGKLRSPDAIHLATAIRLQTDVLVAYDQELGAAAAEAGLTALSPEKAR	PGPT0027605_1108	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027605-toxin_vapC_like-K07064	NA	NA
D1-17_02949	786			hypothetical protein	GTGCACGAGGACGCCGTCCGGTTCCTGTCCCAGCCGGTGGAGGCTCAGCCCGGCTCGCCGCTCCGCGTCGCCGTCTACTCCCGGATCGCCGAGGCCATCCGCAACAACCTGCTCACGCCCGGCTCCATGCTCCCCACCGAAACCGACCTCGGCACGGACATGAAGGTCAGCCGCACCGTGGTCCGCGAGGCGCTCATGCTGCTCGAGGAGGACGGCCTCATCCGGGCCCGCCGCGGCGTCGGCCGGTTCGTCTCCGACACCCTCCCCCGAATCGGCATCGAACGCATCCGCCCCTTCGAGGAGGTCCTTGGTGGTGGTTCCGGACAGCACCTCGAGATCAAACGCGTGCAGGTGGTGCGGCAGCCCGCCTCCGAGTTCGCGGCCCCCGGCGTCGGCGTCGAACCCGGCAGCGAGGTCTGGCTCTGGGAATCCGTCCTGATCCGGGACGGCGAGCCCATCGCGCACCTGCAGGAAAACATCTCCGCCCAGCCCCTCAGCATCGGCAACGCCTCCCCCGCACCGTTGGAGCTTGACGACGACGGCGGCACCACGCTGCTCGCGGCCCTCAACTCCCGCCTCGGTAGGGTTTTGGGCCCCGGCGAATGCCAAATCAGCCTCAGCCAGGTGGGACCCAGTCGCGCCAAGCTGATGGACCTGCGCGCCCCGGACCCGGTCCTCGTGCTGACGCAGTACGTCAGGCACGCGAACCGGCCCTTCTACCTGGCCAAGTGCCTGATCGCGGACCGCGCCGGGCACCTCTCGGTGATGCAGTCACTCCAGTCCTGA	MHEDAVRFLSQPVEAQPGSPLRVAVYSRIAEAIRNNLLTPGSMLPTETDLGTDMKVSRTVVREALMLLEEDGLIRARRGVGRFVSDTLPRIGIERIRPFEEVLGGGSGQHLEIKRVQVVRQPASEFAAPGVGVEPGSEVWLWESVLIRDGEPIAHLQENISAQPLSIGNASPAPLELDDDGGTTLLAALNSRLGRVLGPGECQISLSQVGPSRAKLMDLRAPDPVLVLTQYVRHANRPFYLAKCLIADRAGHLSVMQSLQS				NA	NA	NA	NA	NA
D1-17_02950	858			Ureidoglycolate lyase	ATGGAACTCATGCGCTTGGGCGAGCCCGGGCTGGAACTGCCCGTAGCAAAGGAAGGCGAGAAGTACTTCGACCTGCGGGCCATCACCGCGGACATCGACGGGGACTTTCTCGCCAGCGATGGGATCGCCAAGGTGCGCGAAGCACTCAAGGCGGGCTTGCCAGAACTCGAAGGTGCGGCGTCGCTGCGGATCGGCGCACCCGTTGCCAAGCCGGGGGCGGTGCTTTGCATCGGTCAGAACTACGCTGCCCATGCTGCTGAATCTGGTGACGCCCCGCCGTCGGTCCCGATTCTCTTCTTCAAGCACCCCAACACCGTGGTGGGTGCCTTTGACCACGTGGTAATTCCGCCCGGAGCCGAGAAGGTGGACTGGGAGGTGGAACTGGCGGTTGTCATCGGCAAGCGCGCCTCGTACCTCGAGTCGCCCGAGGAAGCACTGGATTACGTTGCCGGTTATGCAGTCAGCAACGATGTGTCCGAGCGGGCGTTTCAGGTAGAACACTCAGGCGGGCAGTGGTCTAAGGGCAAGTGCTGCGCGACGTTCAACCCGCTGGGTCCGGCGCTGGTTCCCGCTGCGGAGGTGGGGGATCCGCAGCAGTTGCGTCTGCGGTCCGCTGTGAACGGGGAAACGAGGCAGGACTCGAACACCTCGGACATGATCTTCTCCGTGGCACACATCGTCTGGCATCTTTCCCAGTATCTGGTCCTGGAGCCCGGCGACATCATCAACACCGGAACCCCGCAGGGTGTCGCGCTTTCCGGCAGGTTCCCATACCTGCGCGAAGGAGACCGCATGGAGATCAGCATCGAGAAGTTGGGCCGCCAGGAGCAGAAGCTGGTCGCCTACACCAAGGAGTGA	MELMRLGEPGLELPVAKEGEKYFDLRAITADIDGDFLASDGIAKVREALKAGLPELEGAASLRIGAPVAKPGAVLCIGQNYAAHAAESGDAPPSVPILFFKHPNTVVGAFDHVVIPPGAEKVDWEVELAVVIGKRASYLESPEEALDYVAGYAVSNDVSERAFQVEHSGGQWSKGKCCATFNPLGPALVPAAEVGDPQQLRLRSAVNGETRQDSNTSDMIFSVAHIVWHLSQYLVLEPGDIINTGTPQGVALSGRFPYLREGDRMEISIEKLGRQEQKLVAYTKE	PGPT0001745_396	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
D1-17_02951	1182	rhmD	COG4948	L-rhamnonate dehydratase	TTGAGCATCGAAAACCGTATCCGCCACGTCCGCGCCTACACCCTCCGCGGCGGCGGAGCCGACTACCACGACCAGGACGCCGGGCACTGGATTGACGACCACATCGCCACACCCATGTCCGTCTACCCCGAATACCGGCAGTCCCGTCAGAGCTTCGGCCTTAACGTCCTGGGCACCTTGGTGGTGGAGGTAGAGGCCGACGACGGCACGGTGGGTTTCGCCGTCACCACGGCCGGCGAACTGGGCGCCTACATCGTGGAGAAGCATCTGGCCCGTTTCGTCGAGGGCGCACGCGTCACCGACATAGAGAAGATCTGGGACCAGATGTACCGCTCCACGCTCTTCTACGGCCGCAAGGGCGTGGTGCTCAATGCCATCAGCGCCGTGGACCTGGCGCTGTACGACCTGCTGGGCAAGATTAGGCAGGAGCCCGTTTACGCTCTTCTGGGCGGGCCCGTCCGCGATGAGCTCACGATGTATGCCACGGGAGCACGGCCCGACATCGCCAAGAAGCTCGGGTTCATCGGCGGCAAGATGCCCCTGCACCACGGGCCGGCCGAAGGCGAGGAAGGCCTCCGGAAGAACCTGGAAATGATCCGGGACATGCGCGAGAAGGTTGGCGACGACTTCTGGCTGATGCTCGATTGCTGGATGTCGCTGGACCTCGACTACGCTACCCGGCTGGCCCACGGAGCCGCGGAATACAACCTCAAGTGGATTGAAGAGGCTCTTCCTCCGGATGACTACTGGGGATACGCCAAGCTCAAAAAGCAGGTCCCGCCCAAGATGCTGGTGACCACCGGCGAGCACGAAGCGACGCGCTGGGGCTTCAAGCTGCTCCTGGACATGGACTGCGCCGACATCATCCAGCCCGATGTGGGCTGGTGCGGCGGTATCACCGAACTCACGAAGATTTCGGCGATGGCCGACGCCAACGGCGCACTGGTGGTTCCCCACGGCTCGTCCGTGTACTCCTACCATTTCGTGGTCACCCGGACCAACAGCCCGTTCGCGGAGTTCCTCATGATGCACCCGACGGCCGAGGAAGTGGTTCCCATGTTTTCCCCGATGCTGCTTGGTGAGCCCGTCCCCGTGAACGGCAAACTCAAGGTACCCGAGACCCCGGGCTTCGGCGTCGAGCTGAACCCGAACCTGGAAAAGCTGCGGCCGTACACGCACTGA	MSIENRIRHVRAYTLRGGGADYHDQDAGHWIDDHIATPMSVYPEYRQSRQSFGLNVLGTLVVEVEADDGTVGFAVTTAGELGAYIVEKHLARFVEGARVTDIEKIWDQMYRSTLFYGRKGVVLNAISAVDLALYDLLGKIRQEPVYALLGGPVRDELTMYATGARPDIAKKLGFIGGKMPLHHGPAEGEEGLRKNLEMIRDMREKVGDDFWLMLDCWMSLDLDYATRLAHGAAEYNLKWIEEALPPDDYWGYAKLKKQVPPKMLVTTGEHEATRWGFKLLLDMDCADIIQPDVGWCGGITELTKISAMADANGALVVPHGSSVYSYHFVVTRTNSPFAEFLMMHPTAEEVVPMFSPMLLGEPVPVNGKLKVPETPGFGVELNPNLEKLRPYTH	PGPT0017805_219	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017805-LRA3_like-K12661	NA	NA
D1-17_02952	1047	lgoD	COG1063	L-galactonate-5-dehydrogenase	ATGCGCGTCCTTGAACTCAAAGAATTCCACCAGCTTGTGGTTGCAGACCGCGACGAACCGGCCGCCGGCCCAGGCGAAGTGGTTATCGACGTCGTCGCCACAGGCATCTGCGGATCAGACATTCATGGCTACACCGGCGAGAACGGCCGACGCATCCCGGGCCAGGTCATGGGGCACGAGACGGTGGGGCACATCGCCGCGCTTGGGCCCGGCACCGGCGGGCATGGTCTTGCCGTTGGCCAGCCGGTAACGTTCAACCCGCTCATCAGCTGCAACGACTGCGATGCGTGTAGCGCAGGGCAGCAGCAGCACTGCCCCGAGCGGACGGTGATTGGCGTGAACCCTGCCATCGTGTCCGCCTTTGCCGAGCAGGTGGTGGTCCCGGCCGGCAACGTGGTGCCACTCTCCACGGAGACGCCCATTGTCTATGGTGCGCTGATTGAACCCCTGGCCGTTGCCTTCCACGCCGTCCGCCGGGCGCGGATCGGCAGCGGACACAAGGTCCTGGTGATCGGAGGCGGCCCAATCGGCCAGTCGGTCATCCTTGCCGCCCTTCAGGAGGGCGCCCGCCAGGTCCTCGTGTCAGAAATGGATCCGGCCCGCCGTGCCCTGTGCGAACGCCTGGGCGCGACAGCCCTTGATCCCGCTGCCGCTCCCTTGGATCAACAGGTCCGGGCAGCATTTGGGACACTGGCTGACACCACCGTGGACGCGGTCGGCATCAAACCCACCATTGCCGGTGCCCTCGAAGCCACCAAGTTCGGCGGCGTGGTCTCGCTGGTGGGCATGGGATCGCCCGAGCTTGCCTTCAACGCCTACCGCGTCTCCACCGAGGAGCGGGAAATCGTGGGCAGCTTCTGCTACAACAACCAGGACTTCCGCGACGCCGCCGCCTGGGTGGACCAGGGCTCGCCCGTCCTGAGCGAACTCATCAGCCGTGAAGTTTCCATGGAAGACGCCGACGCAGCATTCGCCGGTCTCGCTTCAGCAGACGGCACCGCCGGCAAAATATTGGTCCGCCTCGACTCAGCAAGGAACAGCAATTGA	MRVLELKEFHQLVVADRDEPAAGPGEVVIDVVATGICGSDIHGYTGENGRRIPGQVMGHETVGHIAALGPGTGGHGLAVGQPVTFNPLISCNDCDACSAGQQQHCPERTVIGVNPAIVSAFAEQVVVPAGNVVPLSTETPIVYGALIEPLAVAFHAVRRARIGSGHKVLVIGGGPIGQSVILAALQEGARQVLVSEMDPARRALCERLGATALDPAAAPLDQQVRAAFGTLADTTVDAVGIKPTIAGALEATKFGGVVSLVGMGSPELAFNAYRVSTEEREIVGSFCYNNQDFRDAAAWVDQGSPVLSELISREVSMEDADAAFAGLASADGTAGKILVRLDSARNSN				NA	NA	NA	NA	NA
D1-17_02953	1341	rhmT_1		Inner membrane transport protein RhmT	TTGTCCAATCACGTACTGGCTCCCACCAGCGAGGCGCTGGCCCCAATCGTCCGACGAGTTACACGGCGGCTGATTCCAGTCCTGCTGCTGATGTACATCCTGGCGTTCCTTGACCGTGCCAACCTCGGCTTCGCGAAGGCTGCCTACCAGGCTGACACCGGGCTGTCGGATGCTGCCTACGCACTGGGTGCCGGCATCTTCTTCCTGGGCTACGCCGCGTTGGAAGTCCCCAGCAACATCCTGATGCGCCGGCTCGGTGCCAAGATCTGGCTGGCGCGCATCATGATCAGCTGGGGCATCGTCTCGGCGCTCATGATGTTCGCCCACAACGAATGGTCCTTCTACCTCCTCCGGGTCCTGCTCGGAATCACGGAGGCAGGGTTCTTCCCCGGCGTCATCCTCTACCTGACCTACTGGATCCCCAGCCAGTTCCGCGGCAGCGTCAACGGGCTCTTCTACTTCGGCGCACCCCTGGCCTTCATCTTCGGCGGGCCACTCTCAGGTATGCTCTTGGATCTCGACGGCCTTGGCGGACTCCAAGGCTGGCAGCTCATGTTCCTTGTTACCGGCGCCCTGACCATCGCCGTTGGAATTTGGGCTTTCTCCTACCTGGACAACGGCCCGGCCGATGCCAAGTGGCTCAGTGAAAGCGACCGGACCACCCTGATCGCGGCAATGGACGTTGAGGACGGCGTGAAGTCGGACCACTCCCCGAAGGGCGCGCTAAGGGCCCTTACCAACCCCAAAGTTTTGTACTTCTGCGTCATCTACTTCACCATCCAGATGAGTGTCTACGGTGTCACGTTCTACCTGCCCACCCAGATCGCAGAGCTGGTAGGCAGCAAGGTGGGACTCGGCGTCGGCCTCATGACAGCAGTTCCATGGGGATTCGCCATGCTGGCCACCTTCCTGCTCAGCCGCCTCGCGGACCGGACCGGAAAGCGCCGCCTCGTGGCCGCCGCTTCACTCACCGCCGCAGCAGTCGGCATCTGCGCCTCCGCCCTCACCGACAACCCCGTGCTGGGACTCGCGGCACTCTCGCTGGGCGCCGCCGGATTCATCAGCGTGCAGCCGGTGTTCTGGACACTGCCCACCGGAATGCTCGTGGGAGCAGCCGCTGCCGGCGGCATCGCCTTGATCAACTCCATCGGCAGCCTCGGCGGATTCGTGGCACCCATCGCCAAGACCTGGGCTGAGTCCTCCTTCGGCCCGAACGCCGGACTCTTCCTGCTGGCCGCAACGGCTCTGCTCGGTGCCGTCCTTCTCTACAACAGCCACCGAATCAGCAAGATCGTGGACACAAACCCGCTGGCCCAACCCACCCCTGAGAAAGTGCACTGA	MSNHVLAPTSEALAPIVRRVTRRLIPVLLLMYILAFLDRANLGFAKAAYQADTGLSDAAYALGAGIFFLGYAALEVPSNILMRRLGAKIWLARIMISWGIVSALMMFAHNEWSFYLLRVLLGITEAGFFPGVILYLTYWIPSQFRGSVNGLFYFGAPLAFIFGGPLSGMLLDLDGLGGLQGWQLMFLVTGALTIAVGIWAFSYLDNGPADAKWLSESDRTTLIAAMDVEDGVKSDHSPKGALRALTNPKVLYFCVIYFTIQMSVYGVTFYLPTQIAELVGSKVGLGVGLMTAVPWGFAMLATFLLSRLADRTGKRRLVAAASLTAAAVGICASALTDNPVLGLAALSLGAAGFISVQPVFWTLPTGMLVGAAAAGGIALINSIGSLGGFVAPIAKTWAESSFGPNAGLFLLAATALLGAVLLYNSHRISKIVDTNPLAQPTPEKVH	PGPT0002325_587	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-17_02954	816	xynR_4	COG1414	HTH-type transcriptional regulator XynR	ATGAACGAAGACCGGACCAACCCGACAGTGAAGTCGGCCGACCGGGCCCTGGCCGTGGTGGAATTCGTTGCCGGCAAAGGGTCTGCGAGTTTCACCGAGATCCTTGAAGCCCTTCGTCTGCCTCGATCCAGCGCCCACGGACTGCTGAACACTCTATGTTCTGCGGGCTGGCTGGACCACAACGCAGCGAACCGGCAGTATTCGCTCGGACTGAGGGCCTGGCAGGTGGGGCAGCTCTACACGGGGCACCAGACCCTGGCCAACGTTGCTAAGCCTGTCATGGACCGGCTTTCCAGTTCGCTTGGGGAGACTGTCCAACTGGCGCTCCTGGACGGGGTGGAGAACGTGTACATCGCGATCAGCCAGGCACCCAGCGGAATGAGGCTCGGCTCCTCCGTCGGAATGCGCCTCTTGGCCCATGCCACCGGAATCGGCAAGGCACTGCTGAGCATGCTCGAACCCGACGATGCGCTGCAGCGGCTCAGTTCGGTGGCGTTGCCTCGCCTGACGTCGAAAACCGTCACCGATGTCAAAGCCCTGGCGGAACTGGTTGCACAGGCGAAGGCCACCGGATTCGCACTGGATGACGAGGAATACCTCGACGGATGCCGGTGCGTGGCCGTTCCGCTAACCAGCGAGGCGGGCGGAGGAATGAACGCTGCGCTGTCGGTCACCATGCCGACAGCCCGGACGGATGAAGAATGGCCTGGAAGCATTCTGCGTCCACTAGCGGGAGCGGCGCAGGAGATCCGCGCCCTCCTTGGGGTCCGGGAGCCAGGGATAGCGCTGCCGCCAGCGCTGCAAAAAACGTCCTAA	MNEDRTNPTVKSADRALAVVEFVAGKGSASFTEILEALRLPRSSAHGLLNTLCSAGWLDHNAANRQYSLGLRAWQVGQLYTGHQTLANVAKPVMDRLSSSLGETVQLALLDGVENVYIAISQAPSGMRLGSSVGMRLLAHATGIGKALLSMLEPDDALQRLSSVALPRLTSKTVTDVKALAELVAQAKATGFALDDEEYLDGCRCVAVPLTSEAGGGMNAALSVTMPTARTDEEWPGSILRPLAGAAQEIRALLGVREPGIALPPALQKTS	PGPT0000860_52	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ALLANTOIN_USAGE	N-AQUISITION-ALLANTOIN_METABOLISM,PGPT0000860-allR-K10973	NA	NA
D1-17_02955	1035			dTDP-3,4-didehydro-2,6-dideoxy-alpha-D-glucose 3-reductase	GTGAGCGAGAAGTTGCGTTGGGGCGTCCTGGGCACTGCCCGCATCGTCCGCAAGACCATCCCGGCGTTGCAGGCAACCACAAACGGTGAGGTGGTGGGTATCGCATCCCGTACCGAGGGCAAGGCGAGGGAGTACGCCGACAAGCACGGCATCCCGCAGGCGTTCGGCTCCTACGAGGCGCTGCTCGCGTCACCGGACATCGACGCCGTATACATTCCGCTGCCCAACGCACTGCACCTCGAGTGGATCCTGAGCTCCCTGGACGCCGGCAAACACGTCCTGTGCGAAAAGCCCTTGGCCATGAGCGCCGCCGAGTGCGAGGAGATTGCGCGCAGGGCCGAGGAAACCGGGCTCAAGGTCCTGGAAGGCTTCATGTACCGGTTCCACCCGCGGTTCGAGAAGCTGCAGGAGCTGCTCGCGGCCGACGCGGTGGGAACGCTGACCTTTGTCCACGTCGGCCACTCCTTCGACGCGGGCGGTGGAGACAACATCCGCTGGCACAGCGGGCTCGGCGGCGGGGCGCTGTTCGACACGGGCTGCTACTGCATCAACGTGAGCCGGATGGTCACGGCGCAGGAGCCAACGGACATCGCGGCCTTCGGCAACTACCGCGACGCCAACGACGGAGGCCAGATCGACACCAGCATCGCCGGCATGCTCCGTTTTCCCGGCAGTGCCACCGTGCTGTTTGATACCGGGGTGAACCTCGAGCGCCGCAACTTTCTGGAAATCACCGGCACCGAGGGACGGCTCTACCTTGACAATCCGTTCGGGCTCCTGGAGGAGGACTCGGTCCTGGAGGAGCACCACTTTGGGCAGGACACCGTCTTGCACCGGATCAGGGGTGCGAACCACTTCGTGCGGATGGGCGAACACTTCGCCGACAGCGTGCTGAACGGCATGCCGCTCCGCTATGACCTCGCCGACGCGGCAAACAACGCGCGGGTGCTGGAAGCCCTTGATGCGACTGCGCGGAAACATGCGGGGGCGCCTCACCTGGCGCCACATTCCAGCGCTAGTCCAGGCGCTCGCTGA	MSEKLRWGVLGTARIVRKTIPALQATTNGEVVGIASRTEGKAREYADKHGIPQAFGSYEALLASPDIDAVYIPLPNALHLEWILSSLDAGKHVLCEKPLAMSAAECEEIARRAEETGLKVLEGFMYRFHPRFEKLQELLAADAVGTLTFVHVGHSFDAGGGDNIRWHSGLGGGALFDTGCYCINVSRMVTAQEPTDIAAFGNYRDANDGGQIDTSIAGMLRFPGSATVLFDTGVNLERRNFLEITGTEGRLYLDNPFGLLEEDSVLEEHHFGQDTVLHRIRGANHFVRMGEHFADSVLNGMPLRYDLADAANNARVLEALDATARKHAGAPHLAPHSSASPGAR	PGPT0017545_162	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017545-xdh-K14273	NA	NA
D1-17_02956	1698	nfdA_2		N-substituted formamide deformylase	ATGGACAACAAAGCTGATCTACTTCTGATCAACGGCGTAATCGACACACTGCACCAGGAACATCCGCGCGTCGCGTCACTCGCCGTGAAGGCCGGGAAAGTGCACTCGCTCGGTTCGTCTGCTGAAGCTGCTGCCGGTCCCGGCACCACGATCATTGACCTGGAGGGCGCCTATGTCATGCCAGGGCTGCTGGACGTCCACAACCACCACATGCTGGCAGGGCAAATGGATTTGTTCGAGCTCAACGAGGCGCCCACCAAATCGCTCGATAATCTCCTCACCGCCGTCGAGGAGTACGCAAAGAGGCTGGGCCCGGACGAGTGGGTTATCGGCGGAAGCTGGGGCTCCGGCCTCCTGGCCGAACTCGATTCCGTGGAGGCGCTGGCCCGCTTTGATGCCGCGACGGGCGGGCGGCCCGCCGTCCTCAAAGACGACAGCAAGCACAACAGGTGGGCCAACTCCCGCGCCATGGAACTGGCCGGAATCGACGAGCGCACCGCCGACCCTGACGGCGGTCACATCATGCGGGACAGTTCAGGGCGTGCCACCGGCGTCCTGATCGAGGCCGGGGGCGTGCTGGTGGAACAGACGGTGGCGCGGCTGCAGCCCCTCTCCACCCAGGACCTGGCCCGGGCCGCAGCTCGGGGTATCGAAATTCTCCACTCCTACGGCATCACCGGATTCCAGGACGCCGCAGCATCCCTCCAGCTACTGCAGGCACTGAAAGAACTGGACGACTCCGGTCAACTGCATGCCTGGGTGGTTACCTCCATGCAAGCCAATGACTTTATCTTCGGCACCACTCCCCTCGGAGAGGGCATCATCGCCCACAGGGAGGAGCTGCGCTCAGAACACCACCGGCCGGATTTCATCAAGATCTTCCTTGACGGCGTGCCACCGGCGGGAACCGCAGCGTTCATCGAACCGTACCTGTCCGGCGTCGGATTCCCGGAGTGCCACTGCGGAGGTACCACCATGCCCGCAGAGGAACTCGAGCACTGGCTTATGGGCACGGCCGAACGTGGCATCTCCGCGAAGATTCACTGCACGGGCGACGCCTCGGTCCGCCTCGTGCTGGATACCGTCGCCAAGGTCCGTGCAGCCGGACACACAACACCGAAGTACCACATCGCCCACGGCCAGTTTGTCCACGAACAGGACATTCCGCGCTTTGCCGAGCTCGACGTCACTGCTGATATCTCACCGTCGTTGTGGTTCCCGGGTGTCATCTCCGAGGCCATCGCCACAGTGCTGCCCGCGGAACGGGCATCGAAAATGCAGCCCAACCGCTCCCTGCTTGACGCGGGCGCCCGCATCGCCGGCGGATCGGACTGGCCGGTCAGCGTGTCACCCAACGCGTGGGAAGGAATCTACGGCCTCGTCACCCGCCAGGATCCCACGGGACAATTCCCCGGCACCCTTTGGCCCGAGCAGGCCATCTCCCTGGCTGAAGCCATCAGGATTTACACCACCAATTCCGCAGAAGCGCTGGGCTTGGACGATGTCACCGGCTCTTTGGCCCCGGGAAAGTCCGCAGACTTCATCGTCCTGAGTGCTAACCCGTCCGGGATCGACGTGGAAGATATCCCGCGCATCAAAACCCGTCAGACCTGGTTCGCGGGCCGCAAAGTGTTCGACGCAGAATCCTCGGAACATGCCGCGTGCACCGCCGAAGGACACTCCGCGCAACGCGCTTGA	MDNKADLLLINGVIDTLHQEHPRVASLAVKAGKVHSLGSSAEAAAGPGTTIIDLEGAYVMPGLLDVHNHHMLAGQMDLFELNEAPTKSLDNLLTAVEEYAKRLGPDEWVIGGSWGSGLLAELDSVEALARFDAATGGRPAVLKDDSKHNRWANSRAMELAGIDERTADPDGGHIMRDSSGRATGVLIEAGGVLVEQTVARLQPLSTQDLARAAARGIEILHSYGITGFQDAAASLQLLQALKELDDSGQLHAWVVTSMQANDFIFGTTPLGEGIIAHREELRSEHHRPDFIKIFLDGVPPAGTAAFIEPYLSGVGFPECHCGGTTMPAEELEHWLMGTAERGISAKIHCTGDASVRLVLDTVAKVRAAGHTTPKYHIAHGQFVHEQDIPRFAELDVTADISPSLWFPGVISEAIATVLPAERASKMQPNRSLLDAGARIAGGSDWPVSVSPNAWEGIYGLVTRQDPTGQFPGTLWPEQAISLAEAIRIYTTNSAEALGLDDVTGSLAPGKSADFIVLSANPSGIDVEDIPRIKTRQTWFAGRKVFDAESSEHAACTAEGHSAQRA				NA	NA	NA	NA	NA
D1-17_02957	1161			hypothetical protein	ATGACAATCACCGCAACAGCCACCCCGGCAACCAGCGCCTCGGATAAGGGGACGTATGCGTATATCGCCGTTTTCAGTGCGGTCCTCTATACCGTCCTGCTGATTGCCCCCGTCATCGCGGGCAAACTGGTGGAGCAATTTGCCCTGACACCGGTCCAGGTGGGGACGCTCTTCTCGTTGGAGCTGGGAGCCTTCAGTTTGGCCACTGTGCCGGCCTATCTATGGCTCCGCCGCATCAACCTGAGAACAGCGAGCTACATCTTTACCGCCGTCGTCATTGCAGGCAACGTCGTCTCAGGATTTGTGGACGATTTTGGCCTCTTGATGATCGCCCGGGTGGTGACCAGCCTCGCGGCTGGCTCCATCACCGTGATCATCCTGACCCTCAGCGGCAAGACCGCGAACCCCAGCCGCGCGTTCGGAATATTCGTCGTTTTCCAGTTGGCCATGGGAGCACTGATTCTGGCCGTCTTCCCGTCATTGTTCGCGGCAGCAGGGGTTGCAGCGATCTACTGGACTCTTGCCGGGCTCGCCGTGCTGTGCCTGCTTGTAGTCAACCGGATCGACGGGGAAGCGCTGCGAACCGCGGCCCCAGTTGCTGCTGGGGCAGCGAAACGGGTCCCTGTCCTCAAGGCAGCAGCGGGAATGGCGGCGGTGCTCCTTTTCTACATTGCGCTCAGCGGTGTCTGGTCATTCATAGCCCAGATCTCCGCAGGCTCCGGAATCGACCTTTCCGCCAGCAGCCTTATTCTTTCCCTGGCTACTGTCGCCGGGATCCTGTCGGCCCTCGTTGCCACAGCCCTTGGAGAGACGCCGCGCCGGAAGCTCTATCTGGTTGCCGGTTACGTAGGCATGGCTGTCAGTATCGCGTTGCTCTTCGGTTCACCGGCCCTGATCCGCTTCGCCATCGCCGCCGTGATCTTCAAGTTCGCCTGGACCTTCATCCTGCCGTACCTGCTGTCCACGTTGTCCTCTCTTTCAAGCGGCGGGCACCTGATGAACACCACCAACCTGATGATCGGTACCGGATTCTCCATTGGCCCGATCGTCAGCGGAGCTTTGATCCAGTCGGGCGGAGGTTCATTCACGGGCATGCTCATCTTCGCCCTCGCGGGCGTCCTGGCGTCTTGCGCATTCGTGCTCGTCGCACAACGCCGCTAG	MTITATATPATSASDKGTYAYIAVFSAVLYTVLLIAPVIAGKLVEQFALTPVQVGTLFSLELGAFSLATVPAYLWLRRINLRTASYIFTAVVIAGNVVSGFVDDFGLLMIARVVTSLAAGSITVIILTLSGKTANPSRAFGIFVVFQLAMGALILAVFPSLFAAAGVAAIYWTLAGLAVLCLLVVNRIDGEALRTAAPVAAGAAKRVPVLKAAAGMAAVLLFYIALSGVWSFIAQISAGSGIDLSASSLILSLATVAGILSALVATALGETPRRKLYLVAGYVGMAVSIALLFGSPALIRFAIAAVIFKFAWTFILPYLLSTLSSLSSGGHLMNTTNLMIGTGFSIGPIVSGALIQSGGGSFTGMLIFALAGVLASCAFVLVAQRR	PGPT0028991_3861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028991-ydhP-K19577	NA	NA
D1-17_02958	1023	rihA_2	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGACCACGCCCACCAGCCACCCGTTCTACCTCGACTGCGACACCGGCATCGACGACGCCCTCGCCCTGGCCTACCTGCTCGCCTCCCCGCAGGCCGACGTGCGGGGGATCGGCACCGTCAGCGGCAACGTCAGTGCCGCCGTCGGCGCCCGCAACACCCTGGACCTGCTCGAGCTCGCCGGCCACGCGCACATCCCCGTCGCCCTCGGCGCGCATGACCCGCTCGCCGCTTCCTTCGGCGGCGGGGCGCCGTGGGTGCACGGCGAGAACGGGATCGGGGAAGTCTCGCTGGATCCGGCCTCCGTTTCGCTGGCACGGGAAAGCGCGGCGGAGATGCTGGTCCGGCTCGCCCACGAACACCCCGGCACGCTGCGGGTGCTCGCCATCGGCCCGCTGACCAATATCGCCGAGGCCCTCCGGCTGGAACCTGCGCTCCCTTCGCTGGTGGACGAAATCACCATCATGGGCGGTGCTGCCCTGGCCCCCGGCAACATCAGCCCGGTGGCCGAGGCCAACATCTTCAACGACCCCGAGGCTGCCGCCCTGGTGCTGGCCGCTGACTGGAACATCACCCTTGTGCCGCTGGACGTGACCATGGCAAACGTCCTGGAGGAAAGCCACCGGCAGGAGCTGCTGGCCTCTTCGAGTCCTGTGCCGCGGGCGCTGGGGGAGATGCTCGGCTACTACTTCCGGTTCTACAAGGGCCTGTTCGGCCGCGCCTGCTCCGCCATGCACGACCCCCTCGCCGCGGCACTCGCGGTGGGCGGCGTCAGCACTGCGGTTGCGCCGGTGGTGCATGTCGACGTCGACACCACCACCGGTCCCGGACGGGGACAGACTGTCTGCGACCTGCGCGGGCTGTACAAGGACTACCCGGAGCAGCCCGGCGCGCGCTGCCGCGTGGTGCTGTCGCTCGACGGCCACTTCGCGCCGCACCTGGTGGAGACGCTGCTGAGTTTCTTTGAAGGCGCCGATAAGGGAGGCACGACGGCGGCACTCGCCAGGGCGGGCTCGTTCACCTAA	MTTPTSHPFYLDCDTGIDDALALAYLLASPQADVRGIGTVSGNVSAAVGARNTLDLLELAGHAHIPVALGAHDPLAASFGGGAPWVHGENGIGEVSLDPASVSLARESAAEMLVRLAHEHPGTLRVLAIGPLTNIAEALRLEPALPSLVDEITIMGGAALAPGNISPVAEANIFNDPEAAALVLAADWNITLVPLDVTMANVLEESHRQELLASSSPVPRALGEMLGYYFRFYKGLFGRACSAMHDPLAAALAVGGVSTAVAPVVHVDVDTTTGPGRGQTVCDLRGLYKDYPEQPGARCRVVLSLDGHFAPHLVETLLSFFEGADKGGTTAALARAGSFT	PGPT0013465_483	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
D1-17_02959	1224	stp_2		Multidrug resistance protein Stp	GTGCAGTCCATGTTCTTCCTCGCCGGCGCGATCGCCGGCCCGGTCATCGGGCGCTGGAGCGACTTCATCGGCCGCCGCACCGCGCTGCTCCTGGTTTTGGTCCTGGCGATCATGGGCGCCGGCACCCTGCTCTGCATCGCCGCGCCCACCCTGCCGCTGCTCATCGCCGGCCGGTTCCTGCAGGGCGTCTCCAGCGCGGTCTTCGCCCTGGCCTACATCGTCCTCAGCGAAAACCTGAACGCCCGCGTCTTCGGCACCTCCGTGGGCATCATCGCCGCCATCAACGGGGGAGTGGGCGGCGTGGATGGCTACGTCGGCGGCCTCATGGCCGAAACCCTCGGCTTCCGGTCCATTTTCGTCGTCGTCCTCGTCCTGACCGCCATCGCCGCCGCCTGCATTCTCAAGACCGTCCCGGCCGGACGCCCCCAGGGCGTGCGCGGCGCCATGGACTGGTGGGGCGCCGGATCCCTCTCGGTGTTCCTGGTCTTCATCACCTACTTCGTCTCCGCTGGCTCGGCCGCCGGCTGGACCGCCCCGAGCACGTTGGGCCTGCTCGCCGGCACCGCTGCGTCCTTCGCCGCCTTCTGGATGATCGAGAAGAAGCGCAGCCACCCGCTCATCGCCGTTCACCACCTGCGCTCCCGCCAGGTCTGGCCCGTCATCGCCACCACCGTCCTGACCCTCGCCGGCATCTTCGCCATCATCAACTTCACCGTGGTGCTGCTCAGCCAGGACACCACGAACGGCTTCGGACTCAGCGCCTCCCTGTCCGCCCTGCTGTTCCTGACCCCGGCCGCGCTGATCGGCGTCTTCGCCGCACCCCTCGCCGGCTGGCTCGCCGACCGACGCGGCTGGATCAAGACCCTCCGCATCGGCACCGGGCTCAGCCTCGCCTGCGCCATCGCCGCGGCCGTCTTCTCCGACAACCAGCTCGCCGTCCTGATCGCCATCGCCCTCGGCATCTTCTACAACGGCTTCTTCCTCACCGCCATCAACGGACTCTCCGTCCTGCTCTCGCCCACGGAAGCCCCCGCGGCCCTGCCCGGCATCAACGGCGCCTCCTTCGGCATCGGCGCGAGCCTCGGCGTCGTGCTCGTCGCACCGTTCGCCGCCCAGGCCACCTCCGCCGGCTACGCCACGGCCCTCTGGATCTCCGTGGCCATCACGGCGGCCGCATTCATCGTCAGCCTCTTCGTCGCCGCCCCCAAGGGCGAGTCCGTCTAA	MQSMFFLAGAIAGPVIGRWSDFIGRRTALLLVLVLAIMGAGTLLCIAAPTLPLLIAGRFLQGVSSAVFALAYIVLSENLNARVFGTSVGIIAAINGGVGGVDGYVGGLMAETLGFRSIFVVVLVLTAIAAACILKTVPAGRPQGVRGAMDWWGAGSLSVFLVFITYFVSAGSAAGWTAPSTLGLLAGTAASFAAFWMIEKKRSHPLIAVHHLRSRQVWPVIATTVLTLAGIFAIINFTVVLLSQDTTNGFGLSASLSALLFLTPAALIGVFAAPLAGWLADRRGWIKTLRIGTGLSLACAIAAAVFSDNQLAVLIAIALGIFYNGFFLTAINGLSVLLSPTEAPAALPGINGASFGIGASLGVVLVAPFAAQATSAGYATALWISVAITAAAFIVSLFVAAPKGESV				NA	NA	NA	NA	NA
D1-17_02960	873	rbsK	COG0524	Ribokinase	ATGAGCAATCGACTTCCTGCCGTCACCGTCGTCGGCAGCATCAACCTGGACATCATCGCCACCGCGGACCGGCTTCCCACCGCCGGGGAAACCGTCGGCGGCGGCGTGCTGCAGCAGCAGCCGGGCGGCAAAGGCGCCAACCAGGCCGTGGCCGCCGCCCGGCTCGGCGGGAGTGCGCGGATGATCGGTGCGGTGGGCAACGACGCGCAGGGCCGCCTGATGCTGGAGTCTCTTGCCGGTGCCGGCGTGGACACGTCGGACGTGGCAGTGCTCGACGGCGATGCGACCGGCACCGCACTGATCGTGGTGGACTGCGACGGCGAGAACCAGATCGTGGTGTGCCCGGGGGCCAACGCCGGTTTTTCACTGGAGGGCGTGGAATTCGCGCCGGACGAGACGGTGCTATGCCAGCTCGAGGTCGGCCTTCCTGTGGTGCTGGAAGCTGCCCGGAAGTCCTCCGGGTTCTTCGTGCTGAACGCGGCGCCGGCCATGGACCTGCCGGCGGCGCTTCTCGAGCGGTGCGACCTGGTGATCGTCAACGAGACTGAATACGAGCTGATCCCCGCCCTGGCCGACGCGAAACTGGTGGCGGTGACGTACGGGAAGGACGGCTCGGCCATGTTTGAACATGGCCGGAAGCTGGCCGAGGCACCTGCTGCTGCCGCGACCGTGGCGAACACGATCGGTGCCGGCGATGCGTTCTGTGCGGCGCTAGTGTTGGCGCTTCGAACCGGGCTGGACTACTCCCAGGCGCTGGCGCTGGCTAATGCTGTTGGGGCGGATGCGGTGGGCGATCCTTCGTCGCAGCCGGCGCTGGGGCCGCTGGCTGAATACGTTGGGCGGGTTGCCGGGGCGGACGTCTCCCGGCAGTGA	MSNRLPAVTVVGSINLDIIATADRLPTAGETVGGGVLQQQPGGKGANQAVAAARLGGSARMIGAVGNDAQGRLMLESLAGAGVDTSDVAVLDGDATGTALIVVDCDGENQIVVCPGANAGFSLEGVEFAPDETVLCQLEVGLPVVLEAARKSSGFFVLNAAPAMDLPAALLERCDLVIVNETEYELIPALADAKLVAVTYGKDGSAMFEHGRKLAEAPAAAATVANTIGAGDAFCAALVLALRTGLDYSQALALANAVGADAVGDPSSQPALGPLAEYVGRVAGADVSRQ	PGPT0017405_4680	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017405-rbsK-K00852	NA	NA
D1-17_02961	255			hypothetical protein	ATGACGCTCATTCCAGGGATTCATTTCCCCACGAACCGTGAAGAGCCAGTGAACGTGGCCATCTGGGGTGCCCCAGCCAGCGTGGACATGCAGAAGCTGGTGCTCAAGGAGATTGACCTGCGCGGCACCATCGCCAACGTCCGGGACCATCCCGCCGTCGTCAAGATGGTGCAGAAGGGCAAGGTGGACCTCAAGCCGTTCATCACGGGCAGGATCGGCTGGAGAACCTGGTGGAGCAGGGCTTCGACACCCTGA	MTLIPGIHFPTNREEPVNVAIWGAPASVDMQKLVLKEIDLRGTIANVRDHPAVVKMVQKGKVDLKPFITGRIGWRTWWSRASTP				NA	NA	NA	NA	NA
D1-17_02962	558			ISL3 family transposase ISAar14	ATGTGGCTTCCCCGCACCGCTGTCGCAGTGGACCACTTCCACCTGATCTCGCTGGCGAACCAGGCCATGACCGAGACGCGGCAGAACCTCTCCCAACAGGTCAAGGGCCGCCGAGGCAGGGCCGTTGACAAAGCCTGGGCCCACCGGATGCTCCTCCTAGGCGCCGGCGACACACTCACCCAGAAGGCAGCCCACAGGCTGGAAGAAGTATTCACCGCCGACCATCCCACCGGCACTCTCCACGCCGTCTGGAAGGTCAAGGAACAGCTCAGGGCGCTGCTGCGCACGGGCTCCCTGGAGGACGCCGCGGCAGCGCAAGCCGAACTCGAGAAGCTGGTCAAGGCAGCTGCACGGCCAGAGGCAAACAGGCTCTACCGCACTGTTTGCAGGTGGTGGAAAGCGATCGAGGTGCTGATCATTACCGGCGCGACGACCGGCAAGGTCGAGGCGAACAACACCGCTATCAAGAACATCAAGCGCACTGCCCGCGGCTACCGCAACCCAGCCAACTACAAATCGGTTATTCTCTTGAGAAGTGCCGTCCGGACGGCGGCATGA	MWLPRTAVAVDHFHLISLANQAMTETRQNLSQQVKGRRGRAVDKAWAHRMLLLGAGDTLTQKAAHRLEEVFTADHPTGTLHAVWKVKEQLRALLRTGSLEDAAAAQAELEKLVKAAARPEANRLYRTVCRWWKAIEVLIITGATTGKVEANNTAIKNIKRTARGYRNPANYKSVILLRSAVRTAA	PGPT0030630_2696	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
D1-17_02963	387			hypothetical protein	GTGGATGCGGTCATCCGCTCGGGCCGGGCCGTATCGGAAACAGCTGCGGGCTTCGCCGTGTCCTGGTGGATGCTTCGGGCGGCACTGAATGAAGCCTGCCTGCTGCGGCTGCCCGACGTGGACAAGCTCAGTCCGCGGATGCTGGGCATCGATGAGCACCGGTTCAGGTCAGTGCGCTATTTCCAGGACTCGGCCACGAAGGCTTGGACACGGTTCGAACCATGGATGACAACGATCGTGGATCTGGACACCGGCCAGGTCCTGGGCGTCGTTGACGGCCGTGACCACAACGGCGTCGGAGACTGGCTGTTCGCCCGCCCCCTGCATTGGCGTCTGGCCGTGCAAGTCGTGGCGATCGACCCTCCGCCGCTTTCCGCAAAGCATTGA	MDAVIRSGRAVSETAAGFAVSWWMLRAALNEACLLRLPDVDKLSPRMLGIDEHRFRSVRYFQDSATKAWTRFEPWMTTIVDLDTGQVLGVVDGRDHNGVGDWLFARPLHWRLAVQVVAIDPPPLSAKH	PGPT0030630_551	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
D1-17_02964	1323			hypothetical protein	ATGCCCAATGCTACTTCCTGCCCGGGCGGTCGTTGGTGCGAGCGGGCCGACGCGCTTCTTGGTGTCGAAGGTATCCACGTCTGCTCTGTCACCGCGGCCGGGAGCGGCCTGGTTCTGCACGTCGAGACAGCCGAAACTGTCAGCGGCTGTCCGGACTGTGGCGTCGTCGCGATCGGGCACGGCCGCCGGCAGGTCCGGCTTCATGACACGCCGTGTTTCGGCCGTCCGGTGCGGCTGCTGTGGGCCAAACGGGTCTGGCGCTGCCCGGACCCTGACTGCCCGAGAACCACATTCACCGAAGAGCACGAGTTGGCCGGCCCCCGGGCAAAACTCACTGCCAGGGCCGTGACGTGGGCGACCGACGGCCTGCAGCGTTTCGACACCTCGGTCTCCGCCCTGGCGCACCAGCTCGGCGTCTCCTGGCACACCGCCTGGGACGCCATCAAGGCCGAGGCCGCCCGGCGGATCGCCACGGCAGGCCGGCTAACAGGAGTGGACGCGCTTGGCGTCGATGAGCATGTCTGGTCCCACACCGGCCCGCCCGGCACTGGCATGGTCACCGGGATCGTGGACCACACCCGCGACGCCCAAGGTGTGGTGCACGCCAGGCTGCTGGACCTCGTCCCGGGTCGGTCCGGGAAGGCCTATGCCGACTGGCTCAAAGACCGCGGGGAGGAATTCACGGCAGGCATCAAAACCGCCGCCTTGGATCCGTTCCGCGGCTACGCGAACGCAATCCGCGACGAACTGCCAGAAGCCATCACCGTCCTGGATGCTTTCCACGTGGTGAAACTCGGCTCGGCCATGGTCGATGAGGTCCGCCGCCGGGTCCAGCAGGACACCCTCGGGCACCGCGGCCGCAAGGGCGACCCGCTCTTCGGCATCCGCCGGACCCTGCAGATCGGGGCCGAACACCTCACCGATAAACAAGCCGCCCGGCTCGACGCCAAGCTCGCCCTCGGGGACCCGGACCACGAAGTCACCCTGGCCTGGCAGTGCTACCAGAAGCTCCGCCACATCTACCACGCCCCTCCGGCCCGGGGCAGGGAACTTGTCAACGAGGTGATCTCCTCGTTCCCGACCTGCCCGATCCCGGAAGTCGGCCGCCTCGGCAGGACACTCAAACAATGGAAGGCCGCGATCCTGGCCTACTTCGATACCTTCGGCGCCTCCAACGGCCCCACCGAAGCGGTCAACGGCGTCATCGAAACCACCCGCCGCATCGCACGCGGCTTTCGGAACTTCACCAACTACAGACTCAGATGCCTACTCGCCGCCGGCGGCCACCGACCCTATCGGAGGAACACCCTCAACCATGCCTAA	MPNATSCPGGRWCERADALLGVEGIHVCSVTAAGSGLVLHVETAETVSGCPDCGVVAIGHGRRQVRLHDTPCFGRPVRLLWAKRVWRCPDPDCPRTTFTEEHELAGPRAKLTARAVTWATDGLQRFDTSVSALAHQLGVSWHTAWDAIKAEAARRIATAGRLTGVDALGVDEHVWSHTGPPGTGMVTGIVDHTRDAQGVVHARLLDLVPGRSGKAYADWLKDRGEEFTAGIKTAALDPFRGYANAIRDELPEAITVLDAFHVVKLGSAMVDEVRRRVQQDTLGHRGRKGDPLFGIRRTLQIGAEHLTDKQAARLDAKLALGDPDHEVTLAWQCYQKLRHIYHAPPARGRELVNEVISSFPTCPIPEVGRLGRTLKQWKAAILAYFDTFGASNGPTEAVNGVIETTRRIARGFRNFTNYRLRCLLAAGGHRPYRRNTLNHA	PGPT0030630_1051	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
D1-17_02965	606			hypothetical protein	ATGCGAAGGGCCCCTTTGTCTTCAACGACACGAACTCAATTCCCCACCAACCACGAAGAGCCCGTTCACCACCACTCCCCCGGGCCGGACGGCGTCGAGCATGGTGTCCAGCACCGCATTCACGCCGGCGAAACTCGAACGCCACGTCCGCCCCGGCGCCGCCGGTCAGCTCTAGCACACGCGCCGGGACGTCCTCCTTGCTGGGGTCCAGCACATGGTCCGCAACCCCGCTGGACGTGGCCTTCTCCCTTGCGGGCCTGGGTCAGTTCGCTGACGATGGTGGTCACCCATGCCCTTCAGGACTGCGGCGGTCAGCAGCCTGATGGGACCGGACCCGCCCACCAGAGCCGTGTCGCCCGCCTTCACGCCGCTGCCCTCCACGATCTTCTCGCTCAGGCCCCTGCCGCCGCCGGAGAGCCCGATGAATTCCATCTGCCGGCACAGGTGGAAGCGCCGGGCCGGCTGGCCGGCACCTACGGTGGGGCTAGGATGCTGGGCGCCCACCCGGAGGCGTCGCTGCGGCAGCGCACCGGCGAGGCGCTCGAGCAAAAGCTCGCCGTCCCCGGTGGGCCGCGTCTGAGACCCGGTCCGAGGAGAACATCCTGA	MRRAPLSSTTRTQFPTNHEEPVHHHSPGPDGVEHGVQHRIHAGETRTPRPPRRRRSALAHAPGRPPCWGPAHGPQPRWTWPSPLRAWVSSLTMVVTHALQDCGGQQPDGTGPAHQSRVARLHAAALHDLLAQAPAAAGEPDEFHLPAQVEAPGRLAGTYGGARMLGAHPEASLRQRTGEALEQKLAVPGGPRLRPGPRRTS				NA	NA	NA	NA	NA
D1-17_02966	1185	bspRIM		Modification methylase BspRI	GTGTTAAGTGATAATCGTCTGCCCGTAGTGAGCTTATTCTCGGGCGCTGGCGGTCTTGATCACGCCGTTGAGCGAGCGGCCGACGCCCCCCTTCAAGCCGCTGCCGTAGAGCCACAACCAGTTCGGATCGCCGTTGCCACTGATTACGAAGAATCGGCTCTGGCAACGCTTCGGGCCAACATGCCTGGGACAGCGACAGTTTGCGCGGACATCCGAGCCACAAGCACCAACGAGCTACTCCGAGAGGGCGGTTTGTCCATCGGAGACCCTGTACTCGTTATTGGAGGCCCCCCCTGTACACCGTTCAGCAAATCCGGTTTTTGGATCAAGGAGAAGCGAGAGAGTCGCGACCCCAACGCGTCGCTGCTCGATGAGTATGTGCGCGTCGTACGTGAATCAAGGCCAGAGGCGTTCATCTTGGAAAACGTCCAAGGGCTAACCTACAAAACGCACCGTGCACAGCTGGACCGACTGCTCGCCGCAATGACAGAGCTTGGGTACAACCCGCAGTGGAAGGTTCTTCTAGCAGGTGATTATGGCGTTCCCCAGCTTAGGCGCCGGGTCTTCATTGTCGGGAGGCGTGACGGCAAGGCCTTCCATTTTCCTGAGCCAACGCACTCAGGGTGGAGTGAACGTGACCGAAAAATGGATCACACAAAAATCCCCTACGTCACGGCCCGCGAGGCCCTCCTAGGTCTCCCTCCGGTCGCGGAGGCAGAGGAAATAGTTGAGGGGGAATTCGCGGATCTTGCTGCCCAGGTACCACCCGGACAGAATTATCTTTGGCACACCGACCGTTACGGGGGACAGAATGCCTTCGAATGGCGGAGCAGGTACTGGACTTTCCTATTGCGGCTTGACCCCGATCGCCCATCATCAACAATACAAGCGCAGCCTGGACCGTGGGTCGGCCCTTTTCACTGGGAAAACGTCAGGAATTCGGCGGGCGAGCTGAGGGCGAGGAGGCTTCGACTGCCAGAGATGAAGCGTCTTATGTCCTTTCCCGATTCGTTCAAGATTGTAGGTTCTCGTGCCGATGCCCAGCGGCAGCTGGGCAATGCTGTTCCTGTTGAGTTGGGTAAAGTTGTGGCTCGTGCACTTCTCACCCAACTGGGACATTTAGAAGTATGCACTTCCGAAATCTATTCGCCACCCGAACAGTTGGCATTCAGCATGTCCCTTTAA	MLSDNRLPVVSLFSGAGGLDHAVERAADAPLQAAAVEPQPVRIAVATDYEESALATLRANMPGTATVCADIRATSTNELLREGGLSIGDPVLVIGGPPCTPFSKSGFWIKEKRESRDPNASLLDEYVRVVRESRPEAFILENVQGLTYKTHRAQLDRLLAAMTELGYNPQWKVLLAGDYGVPQLRRRVFIVGRRDGKAFHFPEPTHSGWSERDRKMDHTKIPYVTAREALLGLPPVAEAEEIVEGEFADLAAQVPPGQNYLWHTDRYGGQNAFEWRSRYWTFLLRLDPDRPSSTIQAQPGPWVGPFHWENVRNSAGELRARRLRLPEMKRLMSFPDSFKIVGSRADAQRQLGNAVPVELGKVVARALLTQLGHLEVCTSEIYSPPEQLAFSMSL	PGPT0020015_3998	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558	NA	NA
D1-17_02967	1077			hypothetical protein	TTGGGAATTAGGATCGACACACGTGAGGCTACTGCTGTGTTGGCGGCTGCAGTCGCGAGAGCGCAGTCCGGTGAATCACTTCCCCTGAGGTGGCTAGACACGGCGGCTCAGACATACGCAATGGCTTCAAAAACCTACGCTGCTGCCCTGGGTACCGCGCTTCTGGCTAGGTCAGTGGACCCGCGCGTAGATCCACTTTCAATAAAAGCCGAGTATTCCGACTACACCTATAGTCTAAGAACGTTGGGACACGCGGTGCTCGTCCCCGGTGCCCAGAAATACGGGTTTTCGATCCGCGCGAAGGGACGCGAGCCGCTTAATAATCAGCCATTCTTTCGATACGACCACATGTCCCTCATCGACCGAGTCAGAAACCCCGGTCAACATCAGGAATTCCTTATGCAGCTATCCCAGTTGAGCGAGGTGGACACTGGAGAAGCTCGAAACGCCCTGGCGTCATATGTTCGAGTCGCATTTGCGTACCAAGACAGTCTACCCTCGTACTCCCCGCCTAACGACAGCATGAACATGAATCAGGTCTTCGCCATAACTGATGAGTACCTACATTCGAATGTTGTCGACAGGCCGAAACGCCTTCAGGCCTTAGTTGCTGCGGCCATGGACGTGGCCCATAACGACGTTGGTACACGAAAGATAAATGACCCATCTCGAGACTTTCCAGGTGATATTCAAGTCTACGACAATGACTTTCCGGTCCTTGCGATAGAAGTTCGTGGTAAACGCGTTCCGGCTGGAGAAGTTTTAGCATTCGCGGAGGCTTGCCGTCATGCAGACATTTGGGCTGCAGCGGTCGTAGTTGATTGGAGAGGTCATACCCCACTGAATATTTCCGCGCTGCGGGAACAAGCATTCAATGAAACAGGCGTCATCGTCTCCGTCTTTGAGAGCTTTAAGCAACTACTTCATCTGATTTTTGGCTGGCCAGTCAGCCAGCGCGGAGCAAACATCGAAAAGTTCATCGCTCAAAGCTTCCGAAGACTAGAAGAAATCGAAGCCTCTCCTGACTCTATGCGGGAATGGGCGCATCTCTGGTCAACCGCAAGTGACCGTATATAG	MGIRIDTREATAVLAAAVARAQSGESLPLRWLDTAAQTYAMASKTYAAALGTALLARSVDPRVDPLSIKAEYSDYTYSLRTLGHAVLVPGAQKYGFSIRAKGREPLNNQPFFRYDHMSLIDRVRNPGQHQEFLMQLSQLSEVDTGEARNALASYVRVAFAYQDSLPSYSPPNDSMNMNQVFAITDEYLHSNVVDRPKRLQALVAAAMDVAHNDVGTRKINDPSRDFPGDIQVYDNDFPVLAIEVRGKRVPAGEVLAFAEACRHADIWAAAVVVDWRGHTPLNISALREQAFNETGVIVSVFESFKQLLHLIFGWPVSQRGANIEKFIAQSFRRLEEIEASPDSMREWAHLWSTASDRI				NA	NA	NA	NA	NA
D1-17_02968	912			hypothetical protein	ATGATTGAAGCTGATATCGACCGCTACGGAGGCCTGATCCGGTCGTCGTATCTCGCCGACTATCTGGAAGTCCTAGCGCTTAGAGGTAAAAGATGCACTTTTGCTCAACTGGCTGACATGGTCAGCGATAGGTGGAACCTTAAGCAGCAGATATTAGTAACCCCGGACGAAGATCCTGAAGATGAGGCTGTTACTTTTTCTGATGGCGCCATCGCGTGTATCCGCGAGAGAAAGCAGATTCTTGGCAGCTCGTACCCTTTTGAGCTGTCCAACTCGCACATTAAGCTCATCGATGGTTATGATCTCCATAATTCATCCTATGTCGCGCTGCTGAGTATCACCATGGCTCATGCCTACAAGATTGATGCAGCTATGAATGTGGAACAGACTTTTGAAGACGTCGTTGCCGATTCTTTGGCTGGTCTTGGCCTCGCCGTGGGCAACGTAGGGGCACTTTCGAGGGCTAATTCAATGAATTTCGAACGGACGATTGATGCCCTGGGTGCAGCACTCAATATCAAGATGAACGCTAACGCTGCCGTCCGCCGGCGCCACGCGAATGATGGTGGGGTAGATGTGGTCGCTTGTTTAGATTGGGGCGACGGTCGTTCCGGACGTTGGACGCTGCTCGGTCAAGCAACCTGTGGGAGCAGCGACACTTGGCAAAGCAAGTTGGCCGAACCGAAGCCTGAAATGTGGAAGAGAATCATGTCCGAGACATCTAGTCCGAAATGTTTTCTCGCAGTACCTCATCATGTTGAGGAGAGCGCTTATCGAGAAATCAGCGAAAATACTGGACATACTGTTGTGGATCGTCCCCGATTAGTTCCATTCGTCCGGTCTTTGCCGCAGGGAATAGGCAATGTAATTCAAAGCGTTTTGGATACACCCCTGCAGACTAGCGAAGTGTGA	MIEADIDRYGGLIRSSYLADYLEVLALRGKRCTFAQLADMVSDRWNLKQQILVTPDEDPEDEAVTFSDGAIACIRERKQILGSSYPFELSNSHIKLIDGYDLHNSSYVALLSITMAHAYKIDAAMNVEQTFEDVVADSLAGLGLAVGNVGALSRANSMNFERTIDALGAALNIKMNANAAVRRRHANDGGVDVVACLDWGDGRSGRWTLLGQATCGSSDTWQSKLAEPKPEMWKRIMSETSSPKCFLAVPHHVEESAYREISENTGHTVVDRPRLVPFVRSLPQGIGNVIQSVLDTPLQTSEV				NA	NA	NA	NA	NA
D1-17_02969	1131			hypothetical protein	GTGATTCCCAGGGCTAGAGGTCAAAATCAAGGTATCGGGGAGAGTCAACAACTACAGCGTGTTGCTGTCGAGTTCCTCGCCCTAGACCCTCAGAACCCAAGGCTTCCGGAGGAACTCTTAGGGCACTCTCAGGAAGAGCTGCTTACTTGGCTCAACGAAGAGGAAGTTCTGGACGAACTTGCTCGATCGATGCTTGAAAATGGGTTCTTTGAGCATGAACCACTGGTTGTTCTTTCCCAGGATGATGCGGGGAATTACACCGTCGTCGAAGGTAACAGAAGGCTCGCGGCGCTTACGATCCTGCTTCAACTTCCTTCCGCGCAGGCAGCCAACCTCACCTTCGACTTCCTGTCGCTACCGAATCAAGTGCAGCTCGATCGGCTCCGCACCGTCCCATGTTTCGTTGTTTCCGATCGACAAGAAGTGCGCAAGTTCCTGGGTTTTCGCCATATTGGTGGTCTGAAAACATGGAGCCCTGAGTCTAAGGCGCGGTACCTTGAAGCAGAAATAGAGCATGCTGTTGAAGAAGGATCCAATGATGCATTTCGCGATGTTGCTAGGAGAGTCGGTAGCACGGTCCCAGCCGTTAGGGGGCAGTACCTTGCGCTAAAGGTTCTTCGTGAAGCGCGCGAGCTTGGAATTGATAGTCGCTACATCATTCGCGAGCGCTTTGGCGTTTGGAATCGACTTCTCAATAGCCCTGAGGTCCGCCGATATATTGGTTTAGATGCAGTCAGTACGGTAGATGAAGTACGGACTGTATCCAAAACTCTTAATCCTCTCGGGCTAAGGCAGGTTATTACCGACTTAACTCCTGCCGATTCCGGTACGAAGCCCGTTCTCTGGGATTCTCGTGATGTCACTATTTATGGCAAAGTGATTTCCAATGAGCGAGCATTAGCCAGTTTGATGAAATTTGGCGACCTAGCCGTCGCTCGCCAGATTGTCGAAAGAGGCGCGGTAACAGAACGTCTCCGCACGATCACTAGGTCCATCGAGGCCATCACGCAGGACATAGACAGCTATGAAATCAACTCCGATACAGAAGCGGTTGCCGCTGCACTGGTAAGTGCGGCTCGGACTCTTAGTGCCACTATTAAAGGCAGGCTCGAAGACGACGATAATGATTGA	MIPRARGQNQGIGESQQLQRVAVEFLALDPQNPRLPEELLGHSQEELLTWLNEEEVLDELARSMLENGFFEHEPLVVLSQDDAGNYTVVEGNRRLAALTILLQLPSAQAANLTFDFLSLPNQVQLDRLRTVPCFVVSDRQEVRKFLGFRHIGGLKTWSPESKARYLEAEIEHAVEEGSNDAFRDVARRVGSTVPAVRGQYLALKVLREARELGIDSRYIIRERFGVWNRLLNSPEVRRYIGLDAVSTVDEVRTVSKTLNPLGLRQVITDLTPADSGTKPVLWDSRDVTIYGKVISNERALASLMKFGDLAVARQIVERGAVTERLRTITRSIEAITQDIDSYEINSDTEAVAAALVSAARTLSATIKGRLEDDDND				NA	NA	NA	NA	NA
D1-17_02970	1638			hypothetical protein	ATGGCAGTAGAGAACACGGATGAGGCGCCCATTACGGTCCTCGACTTGTTCTCCGGATGCGGAGGGCTCTCCGAAGGCTTCCATCAGTTTCGTCCGAAGGATGGTACTAGACCCGTCTTCCGTAGCATTGGCGCCGTTGAATGGGAACCAGCAGCAGCGGCCTCCTACGCGATGAACTTTGGAGCCGAGTCGGGCCGCCAGCGCTATTTTGATCCGCCTGAGATCTTCTGTGGTGACATTACCGATTGGGAGCCCAAATGGAGGCCTGGCGATATTGACGTCGTAGTCGGTGGCCCCCCTTGCCAAGGATTCTCCGGCCTAAATCGCCATAAGGTGCGCGCAGACCGCAATAAGCTCTGGCAAGAGTTTATACGTGTCGTTATTGCCGTCCAGCCCCAGCTCTTCGTTATCGAAAATGTTGACAGGTTTGTTCGTTCAGTCGAATTCAGTGATCTGCAAGAACGTATCGGAAACGGTGATCTTGCTAATTATCAGCTTGTCGCCCCCCCAGGGGCCAACGAGAATGATACCGAGTCAGAGCGTGCCCGGCGCTACTTATTGAATGCCGCTGACTATGGCGCGAGCCAGGCACGCCGGCGATCCATCGTTATTGGCATAAGAACGGATGCGGGCCTTCCTGTTGGTCTTATGACGTATCCGGAGCCTTCTCATTCTCGTACTAACCAAATGCGCAAAACGCAACGAACTCAATCTGACGGTACCAATAAGAGGGAGTCTTGGCGGACGGTAGACGATGTGTTCGCAAGAACTGCTACATTGCCGCTAGCAACGACAGAACTTCCCGGCGGGCGGAAAAAGACTATTGACGGCATAACCGCCAACATTGCGGGGCCCTTCGTCACCACTGAACTCCATTTCACTAGGCGCCCAGAGCCGGTTTCTCTTGCACGCTATAAGGCAATTCCAACAGGGGGTAATCGCAAGAATCTGCGAGGTAGGTACCTGTGTCGTTTCGACGACGGTAGAGAAGTCATTCTTGAAAAGGTGGGGGATACCCGAGACAGCACAGGCAAGCTCGACGTGCTTGGCGCTTACAAGGTAGTCGCCAACGGTGAAACGACGACCAGGACGCTTTCTGTTTGGTCTCAGCAAGAGGTAATAGCCTCCGGCGCGCGAAGCCGGAGTGCCTTATATCAGGTGAAAATTAGAAACAAGACTCTCATCCAAAATGCGACGCTTGAATACTTGTCTACTCGGTCGTGGGACCAGCACGATTCAGGGACGGGCGATGTCATGGGCCGGCTGCGGTATGGGTTTCCCTCTGTCACTATTCGGACCGAATTCTTCAAACCGGAGAAGGGCCGCTACCTTCACCCGGTAGAGAACCGCCCAATTACACACCTTGAGGCTGCCAAGCTGCAGGGCTTTCCTGACGACTTTCGATGGTGCGGATCCAAGACCGAAATAGCCAAGCAAATTGGGAATGCTGTCCCCGTCCCTCTTGCAAAGAGAATAGCGGAGGCGATCTACGACTACCTTCGGCTAGTGAAAGTCCACAAGGAGGAGACGGAGAGACTTGACTCTGTGTTGGCGGACGCTCTCCGGCACTTGCCAGCTCATGGCACCATCCATACGCTTCACCCTAATAGCCTTGACGTTACTGCAGTCATGGTTTAA	MAVENTDEAPITVLDLFSGCGGLSEGFHQFRPKDGTRPVFRSIGAVEWEPAAAASYAMNFGAESGRQRYFDPPEIFCGDITDWEPKWRPGDIDVVVGGPPCQGFSGLNRHKVRADRNKLWQEFIRVVIAVQPQLFVIENVDRFVRSVEFSDLQERIGNGDLANYQLVAPPGANENDTESERARRYLLNAADYGASQARRRSIVIGIRTDAGLPVGLMTYPEPSHSRTNQMRKTQRTQSDGTNKRESWRTVDDVFARTATLPLATTELPGGRKKTIDGITANIAGPFVTTELHFTRRPEPVSLARYKAIPTGGNRKNLRGRYLCRFDDGREVILEKVGDTRDSTGKLDVLGAYKVVANGETTTRTLSVWSQQEVIASGARSRSALYQVKIRNKTLIQNATLEYLSTRSWDQHDSGTGDVMGRLRYGFPSVTIRTEFFKPEKGRYLHPVENRPITHLEAAKLQGFPDDFRWCGSKTEIAKQIGNAVPVPLAKRIAEAIYDYLRLVKVHKEETERLDSVLADALRHLPAHGTIHTLHPNSLDVTAVMV	PGPT0020015_1738	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558	NA	NA
D1-17_02971	1818			hypothetical protein	GTGGAACGGATCAAGCATGACTTGCGGCTGTCGGAAACCGTCTCGCCTTTCGGTGTCGGCTCAATCGTGGACGTGCGCGGTGAGTCGCTCATCGCTCCTGACACATCGTGGTGGGATAAGCGTTTCGCTCCTGAGATTCACTGCGAACGTCTCGTAGAGCGGCTGGGACCGAGCGTTCTTTGTGAGGCACCCACTCACTCAGGCCGAGCCGGGAAAGATACGCTCGGTCTCTTGTACTGGCGGTTTCCATCTTGGAGGTTCTGCGAAAGGTGCTCGCGGCTTTCGCAGCAGACGGGAAGAAATAGGGGAAAGTGGGCAAACAAGTGCTCCTGTGAGGGTTCGCTCGTCCCAATGCGTTATGTCGCGGTTTGCGAGAAGGGCAGTCACCTACAGGACGTCCCCTGGTTCATGTGGACCCATCGCGGCCATGACGTCGGAGTCACCGAGTCCGTACGCTTCTGTCGTGCCTACAAGGAGCTTCGGTTCGTGCGTTCTGCCAAGCACGGCGAAGGTCTCAAGTCGCTGCGGGTGGAGTGCGGTGGTTGCAAGCGTTCAAGGCCCCTGTCTGACCTCGTAACCAAGGACGCACTCGGCCGCGACGGCATCCGTTGCAAAGGGGTCCAGCCCTGGCAGGACCCGATGCCCGGCAATGCATGCAATCACAAGCTCTTCGCGGTGCAGCGAGGAGCAACTGGCAACTATATCGCCGAACGCATCTCAGCACTCGATATCCCTGAAGAGCGCCCCCGCTCGGCTGAAGCTGACGACGCCATCCGAAATCACATGTTTTTTGAGAAGGTCGTCGCCGACAATGGCGGACCGCAGTCAGAGATGATCGCCGGGTGGATCGCTGGCGAGCTCAGCATCACGGCTGAAGAAGTCTTAAGTGTCGCGGCCGGTGGCAGCGAGCCCGCCGATGACATCTTGCTAGATCTGAAGGACGGTGAATGGGCAGCTTTCCTAAGAAAGCTTGAGAAACCAGGACGAGACCGAAGCGAAGGCGACTTTGTAGTCGATAGCTGGTCCGTCAATGGTCATCAGGGCGTCCCTTCGACACTCGCGGCCCGGCTAACTGCCGTTGGACAAGTCAGGAGGGTGCGGGAAGTTCGTGCGCTTAAGGGGTTCCGCCGCTACTCTGGAGACGCGGAGATGATCAGTGCAGACCTCTCTATCGACGGCAAGAGAAGGCCCGTCTTCCCTGCCATCGAGATGTACGGAGAGGGGATATTCCTTCAGTTCGACGAGGAGTTCCTAACTGAGTGGGAAAACCGACCAGAAGTCCAGGCACGTGCCGGAATTCTCGTTAGCAGGCGCAACGAGACTCCATGGGCGCATCGACTTGACGTCCCCGAGCCACGCTATGTCGCTTTGCATACGATCGCGCACCTCTTGATTCGTCGTCTCGCCTATGCCAGCGGCTATTCCTCGGCATCTTTGCAGGAGCGAATTTATGCGCACTCCGATCGTCCTGACAGTACCGCCGGCATCCTTATCTATACGGCAGCCGGTGATGCCCAAGGCACGCTCGGAGGACTCGTACGTCTCGGCGATCCTGACAAGCTAGTGCCGCTGCTCCTCGCAGCCCTCGACGATGCCGACGTCTGCTCGAACGACCCTGTTTGCATTGAAAGCGATCGGCAAGGCACGTCCAGCCTGAACTTATCCGCCTGCCATGGCTGTTCGCTTGTCAGTGAGACATCCTGTGAAACCGCCAATCGACTTCTCGACAGACAATTGGTGCTGGGCGGGAGCTACGTTCCCGGCTTGCTGGATGGAGTACTGGAGGAAGTTCGGTCGTCGGGACGGTCTGGAAGATAA	MERIKHDLRLSETVSPFGVGSIVDVRGESLIAPDTSWWDKRFAPEIHCERLVERLGPSVLCEAPTHSGRAGKDTLGLLYWRFPSWRFCERCSRLSQQTGRNRGKWANKCSCEGSLVPMRYVAVCEKGSHLQDVPWFMWTHRGHDVGVTESVRFCRAYKELRFVRSAKHGEGLKSLRVECGGCKRSRPLSDLVTKDALGRDGIRCKGVQPWQDPMPGNACNHKLFAVQRGATGNYIAERISALDIPEERPRSAEADDAIRNHMFFEKVVADNGGPQSEMIAGWIAGELSITAEEVLSVAAGGSEPADDILLDLKDGEWAAFLRKLEKPGRDRSEGDFVVDSWSVNGHQGVPSTLAARLTAVGQVRRVREVRALKGFRRYSGDAEMISADLSIDGKRRPVFPAIEMYGEGIFLQFDEEFLTEWENRPEVQARAGILVSRRNETPWAHRLDVPEPRYVALHTIAHLLIRRLAYASGYSSASLQERIYAHSDRPDSTAGILIYTAAGDAQGTLGGLVRLGDPDKLVPLLLAALDDADVCSNDPVCIESDRQGTSSLNLSACHGCSLVSETSCETANRLLDRQLVLGGSYVPGLLDGVLEEVRSSGRSGR				NA	NA	NA	NA	NA
D1-17_02972	3195			hypothetical protein	GTGACTCTCACCCATGCACAAAGCCTGGTGCTGCAGCACCTGCGATCTGCTTACCTCGGTCCAGACGGACGCGACGACGAGGTTCTCGAGAACCTACCTAATAGGCAATACGCCGTCGGCATGCTCTTTCCTCATGAGGGTGCCGCTCCAGTCGCCGACGAGGGGGCCGCTCCTGACTTCGACGAGGTCGACGTCGACGGAGCCGTCTCTTCGTCTGGCGAAGTGGAGGAGACGGGGGCTAGCGTTCCAATCGCGGAGGATTGGCGGCCGTCATCGGTTGCAATCTCATTCGTCACTAGTGACTCTGCGGTTAGATGTGACCTCACCGGCGCGACATACACTGCTTTGGACGAGGATGGTCCGCCCCGGTGGCGGCGCGTGCCATTCCATTTCGAGGGCCTCGAGCTTGCTCAGGAACAGCCGCACTACGAAGACGTGGCCGGCGACGTGCCAGTCCAGATTGGATCTCGGTGGAGAGCATTTGGCGACGCCTTTCTTGTGACCGTCCATGTACGCGTCCTGAGCCAGTCGACTGGTGACGACCGCCTCGACGCGGTCAATATGCTTTACCAGGTCTCGCTTGCAGTCGCCCCACAGGGACAAGGGGCGATCCTCGAATACGACACCACGAGAGCATTGGATCTCGATGATGAGGCGGCCGAGCTTCGGCTCCGGTACCGGGACCGAAAAGTCTACGCCGTCGGGCATGGCATGGCGGCCGATTGGGAATTGCGTGATGGACGCTGCCGTCGGGTGTGGCTCGAACCCGTGCCCTCCTTTGTGGTGCCAGCTATTGAGACAACTGGCTTCGACGCATCGACAGCTGAGGCGCAGGCGCTGCGTCTCGATCATCTCTCGCGACTCGACGGGTCGCCGGATGAGGTTCTCGCATCTCTGGACGCCTTCGTCGACGCTTTCGGGTCTTGGGTTGCTTCGGAAGAAAATCGCGTGAGTTCGTTCGACTCCGACGCCTTGGTTGCCAGGCGGATTGTTGAGCGATCGATGGTTGCCCATGGCCGAATGGGCGAGACCGTCGCGCTTTTGCGCCGGGACGACCGATCCGATCTCCGCTCGGCGTTCGCCCTGGCTATGGTGGCCATGCGGCTGCAAATGCGACAGGCTCAGCTCAACCGAGGTGCTGAACTGACGGAGCCACGTTGGCGGCCGTTCCAGCTCGGGTTCCTGCTGGTCGCTCTTGCCTCGACCGTGGATGAGAGCCACGACGAACGCGAGCTCGTAGACTTGATTTGGTTCCCCACTGGTGGCGGCAAGACAGAGGCCTACCTCGGGCTGGCAGCGATCGAAATCTTCCGCCGGCGAATCGCAGAAGGACCGGCAGGCGGTGGAACGGCAGTACTGACCCGTTACACGCTTCGCCTGCTGACCTCCCAGCAATTTCAGCGCGCTGCCTCGCTAGTCTGTGCAATGGAGCTCCTCCGAAGGCCGGGCCAGTTCAGTGACCCCAGGGTCAAAGGAATGGCGGCCTTCACGATCGGCCTTTGGGTGGGCAATGAGGTTACCCCGGGATCCCGACGAGATGCCAAGGCGGCCATTGAAAGGCTACACAAGGCAGCACGTCCGGAGGAGGCGAACCAGTTCCAGGTCGAAAGCTGCCCGTGGTGCGCTAGTGACCTCCTGCCGAAGTCGCGGTCTGCAAAGCTACACGAGTATGGAGTCAGACTTGTCGGCCATGACGTTGTCATACACTGCACTGACAGCTCGTGCGAGTTCAGTGATGCGCTTCCGGTGGAGGTTGTGGATGAGGTTCTCTATGAAAATCCACCCACGATCCTGCTCGCGACGGTCGACAAGTTTGCGCGCCTGCAGTTCCGCGCCGAGGCAGGCCGGTTGCTCGGTCTAAATACCGCGTTTCGCCAGCCGTCTTTGATCATCCAGGACGAGCTGCACCTGCTGTCGGGCCCCCTGGGGACCACCGTGGCAGTCTTTGACGCGGTAATAAAGTTACTGCTCTCCGCTGGCGGGGCGACGCCAAAGATCGTAGCGTCGACTGCCACGATCAGGTCCTCGGATGACCAGGTTCAAGGCTTGTATGGACGAGCGGTTGCCTTGTATCCCCCGCCGGGGCTTGACGACGACAGGACGTTTTTTTCCCGGCCTGTAGGCAGCGGCGAGGGACGCCTATACCTTGGGCTGATGCCGCAGGCGCTATCGCAGATGTCAGCGACAGTTTCGGCGGCTTCGCCGTTGGTCGAGATCCCAGCCGTGCTCGATAAATTAGGGAGCTCGGGTGTCAGCCGTGACGCCTACTGGACTGCGGTTATGTACCACAACAGCTTGCGGGAGCTTGGACGGACCGGAACCCTCGTTGTCGATGACGTCAACGCGCGCCTTGAACCCAGAGCGGAGCGTCTCGGCCACGACCTCCGCACAGTCAGAGCAGGAAGAGTGCTCGAACTCACCAGCCGTCGTGGACCGGAAGAGCTCCCGCACGATCTGCGTGAGCTCAGTCGCAGTATAGAGAGTTCAGACCAAGCTATCGATATCGTACTGTCGTCCAACATGCTGTCGGTGGGAATTGACATCCCACGCCTAGCATTGATGCTTATGGTCGGTCAGCCTAAAACGACCTCCGAGTACATCCAGGCCACCAGCAGGGTCGGGCGCGGCAGGGTGCAAGGTGTCGTCACGACGTTGTTTCGCTCTAACCGTGCGCGGGACCGCTCGCACTTCGAGACCTTCCGCGGATACCACGAAGTGCTTTACCGCAATGTCGAACCGACGAGCGTGACGCCCTGGTCGCTGGCGTCACGTGAGCGCTCGCTGGCTGGCGCCGTGGCGGCGCTTGTACGGCATCTGGTACCCCCGCTAGCCGGAAACGACGCTGCTGGTCAACTCGATCTGGAGAATGCCGTGCTGAGAGGGACGATCGACACGCTAGTCGATAGATTCGTGGGACTCGTTGAGCGCGCTGACAAGGTCGAAGCGGACGACACGCGCGAGAGGGTTAGAACGCTGCTCAACGAGTGGGACAGACGTGCGAGAAATGCACGTGAGTCAGGCTCGCTATTGCTCTACGACCGGAAGAATCCGACAGACGGGGCGTTGTTCAAACGTTTCGGGCAACCGGGGGAGGGGTGGCTGGTGGCCGACTCCATGCGGTCTGTCGAACCCAATGTGGCCGTGGATGTACGTGAGCCTTTTGAGGAGGGAAGCAGTGGAACGGATCAAGCATGA	MTLTHAQSLVLQHLRSAYLGPDGRDDEVLENLPNRQYAVGMLFPHEGAAPVADEGAAPDFDEVDVDGAVSSSGEVEETGASVPIAEDWRPSSVAISFVTSDSAVRCDLTGATYTALDEDGPPRWRRVPFHFEGLELAQEQPHYEDVAGDVPVQIGSRWRAFGDAFLVTVHVRVLSQSTGDDRLDAVNMLYQVSLAVAPQGQGAILEYDTTRALDLDDEAAELRLRYRDRKVYAVGHGMAADWELRDGRCRRVWLEPVPSFVVPAIETTGFDASTAEAQALRLDHLSRLDGSPDEVLASLDAFVDAFGSWVASEENRVSSFDSDALVARRIVERSMVAHGRMGETVALLRRDDRSDLRSAFALAMVAMRLQMRQAQLNRGAELTEPRWRPFQLGFLLVALASTVDESHDERELVDLIWFPTGGGKTEAYLGLAAIEIFRRRIAEGPAGGGTAVLTRYTLRLLTSQQFQRAASLVCAMELLRRPGQFSDPRVKGMAAFTIGLWVGNEVTPGSRRDAKAAIERLHKAARPEEANQFQVESCPWCASDLLPKSRSAKLHEYGVRLVGHDVVIHCTDSSCEFSDALPVEVVDEVLYENPPTILLATVDKFARLQFRAEAGRLLGLNTAFRQPSLIIQDELHLLSGPLGTTVAVFDAVIKLLLSAGGATPKIVASTATIRSSDDQVQGLYGRAVALYPPPGLDDDRTFFSRPVGSGEGRLYLGLMPQALSQMSATVSAASPLVEIPAVLDKLGSSGVSRDAYWTAVMYHNSLRELGRTGTLVVDDVNARLEPRAERLGHDLRTVRAGRVLELTSRRGPEELPHDLRELSRSIESSDQAIDIVLSSNMLSVGIDIPRLALMLMVGQPKTTSEYIQATSRVGRGRVQGVVTTLFRSNRARDRSHFETFRGYHEVLYRNVEPTSVTPWSLASRERSLAGAVAALVRHLVPPLAGNDAAGQLDLENAVLRGTIDTLVDRFVGLVERADKVEADDTRERVRTLLNEWDRRARNARESGSLLLYDRKNPTDGALFKRFGQPGEGWLVADSMRSVEPNVAVDVREPFEEGSSGTDQA				NA	NA	NA	NA	NA
D1-17_02973	1518			hypothetical protein	ATGATACTGGTACCAACCCTGGCAGACATTGACAAGAAATCTGCCAGTGCGGGCGAGCGATCCGTTGCTCGCTTACTTCGTGATATTGACGCTGATCCGAACGCAGTTGCTTTTTACTCCGTGGACCTGCGCTCGCACTCCTACAAGCAGCAGGCCGAGGCAGACTTTGTGGTCTTATGGCGCGGGTGCGTGGTCGTGATAGAGGTCAAGGGGGGAGGCGTCCGTAAGCATGACGGTGTTTGGTACTCCGTTGACCGGCACAGGGATTGGCACAGACTCGCGACCTCACCAATGGAGCAGGCCCGCTCGGCGGGGTTCGCGCTTCGAGGCATTCTGAAGGAGCAGGGTGTGGGATGGTTCGCCCACGAGGCCGTCGTGGTGACTCCAGACATCGATACGCCGCCGGATGCAGTCGGATGGCTACCCACGCATTGGCTCGCACGTGACGACATGACATCTACAAACCTCGCTGCGGCCCTCGATGAAGTTGCGGCCGGCGCCCGCCAGGCTCCAGCAGGGCAGAAGGTTGCTCGAATGGAAGACCTTCGGGCTCGTCTATTCGGCGAGTTCACGCGAATGCCAGTCGTTGACGCGCAACGCGGGGCGATTATCGAGGAGCAGAACCGAGCAACGGCTGGGCAGTCAAGAGTTCTTGGAGCGCTCGCGAGGAACCAACGCATGGTCGTCTACGGTGGTGCGGGGACGGGGAAATCCATGGTCCTGGTCGAGGCAGCCAAACTAGAAGCAGATCAAGGACGTTCCGTGCTCGTCACATTCCGGTCGCCTGCCTTGGCACAGTACTTCGCACCGCATCTCGACGACCGGCCAGTAGACGTGATCCCCTTCGAGAATCTCGGAACCGCGGGGCGGTACGACGTGGTACTGATTGACGAAGCGCAGGACATGATGTCCGCCGAGGCCATGGATTTGATTGACAGCGTGATTGTTGGAGGTCGAGCCAACGGGCGTTGGCGGATGTTTCTCGACCAGAACAACCAGGCGCACGTCGATGGCGTCTACGATGGCGACGTTGCTGCGCTCGTTGCTGACGAGGCCGTGGCCGTTGACCTAGACCTCAACGTGCGGAACACGAGTGCGATCGTGCACGTCGTTCAGGAGTACCTGGGCGCTGATGTTGGCGATCCGGGAATCGTGCACGGTGAAAAAGTTCAGTGGCATACAACGGATAGTCAAGTCACAATCTCGGACGGTGTGGCCGTCGCTGCACAGCTCCTCCAAGAGGGGGCTCGCCGGAGCGAGATCTGGCTCATTGACCCTGCCTCCGACAAGACGCCCGTGGCGGCCGATGGAATCACCGTAACCACCCCTAGGTCCGCCAAAGGGCTCGAAGCCGAACACGTCATCGTATGTGGCCTACCCGAACCACTCGATGACGCCGGCCTAGCTGGCTTTTACGTTGCCGTCACGCGGGCACGGGTCTCGCTACACATTGTGGCGTCCAAGGACGACAAACGGCGCCTTCAGCAACTCGTTCGACAGCGGATGGTGACACGGTGA	MILVPTLADIDKKSASAGERSVARLLRDIDADPNAVAFYSVDLRSHSYKQQAEADFVVLWRGCVVVIEVKGGGVRKHDGVWYSVDRHRDWHRLATSPMEQARSAGFALRGILKEQGVGWFAHEAVVVTPDIDTPPDAVGWLPTHWLARDDMTSTNLAAALDEVAAGARQAPAGQKVARMEDLRARLFGEFTRMPVVDAQRGAIIEEQNRATAGQSRVLGALARNQRMVVYGGAGTGKSMVLVEAAKLEADQGRSVLVTFRSPALAQYFAPHLDDRPVDVIPFENLGTAGRYDVVLIDEAQDMMSAEAMDLIDSVIVGGRANGRWRMFLDQNNQAHVDGVYDGDVAALVADEAVAVDLDLNVRNTSAIVHVVQEYLGADVGDPGIVHGEKVQWHTTDSQVTISDGVAVAAQLLQEGARRSEIWLIDPASDKTPVAADGITVTTPRSAKGLEAEHVIVCGLPEPLDDAGLAGFYVAVTRARVSLHIVASKDDKRRLQQLVRQRMVTR				NA	NA	NA	NA	NA
D1-17_02974	4713			hypothetical protein	ATGGCAATAACAACTGCCGAATGGGTTGCAGACGAAGTTCTTGTTCGAGAAATCAACGAGCAGTTCCAAAGTGCGGTAGCAGCCTACGACGCGAAGCCGACGCTGATCGCTGAGCATGTTAACCACGAGGAGTCGATACGTACGGGGGGATACGCGAACCGGACACTTCTCGAGCTTGTTCAGAACGCGGCCGATGCGATGGCTGGTTCGGATGATGGCGGACTGAGTAGCCTCGGAAGAGTCGAGATTGTGCTCGATTCTTCTTCGAGCACACTATACTGCGCCAACTCCGGACGCCCATTTTCCAAGTCTGGATTGATCGCCATCACGCACGCACACCTCAGTGGAAAGCGAGGGGATGAGATTGGCCGCTTCGGGCTCGGGTTCAAGTCGGTCCTTAGCGTCAGTGACTCGCCACAGGTTTTTAGCCGCTCGATCTCATTCGAGTTCAATTCAACACAGGCACGGGAAGCCCTTGCCGGAATCGCGCCTGGGCAACGGTTTCCGATCTTACGCACGGCAACTATTCTCGATGCTGAAAAAGAAATTCAGGCAGATCCGATCCTAGCCGAGCTGGGAGTGTGGGCGTCGACGGTCGTAAAGCTCCCATATGCGTCCAACCTCGAACACCTCCGCGAGGAAATTGAGAACTTCAGCTCGGAGTTTCTTCTTTTTGTTGAAGCTGTTCGGGAAGTGAAGCTTCGAGTGGTAGGCCCGGATCCCTTTGAGACAAGCCACGTCTCTCGCGACCTGGGCGGGGGAGTCCTAAGAATTGAAGGCCCCTCGGGCGAAGGCAGCGAATGGATTGTCGGGAGCCGGATGCACGCTCCTTCAGCCGCGGCGAGAAAACTTGTCGGAGAAGCTGTATCGCGTGCGGAAGTGAAAGTAACGGTCGCGCTACCAGCTCAGCAGAACACGCTGAGGATTGGACAGTTCTGGTCCTACTTCCAGCTGCAGGATACGACATCAGCATCGGGGCTGTTCAATGCTCCTTGGAGCGTAAACGATGACCGAACCACTTTGCTCAAGAACGAGTACAACCGGGAAATGCTTGGAACGCTTGCGGAGATATTCGTAGGTCTGCTGCCTCAACTCAGGACGGAAACAGACCCGGCGGCACATCTGGATTACATGCCCGCGCGTGGCCGTGGCCAGGAAAGCCACGGCTTTGGCGACGAGAACTTGTCAGCGCATGTACTGCGACTGGCGGGAGCGGGTGATCTGATTCCAAATGCTAATGCCCAACTTTGCAATGGTGCTTCGCTCCGTCCGCTAGACCTAACAGTGCGCTTCGAGGAGCCGGTACATCAGGGCTGGATCATGTCGCCGAATACGGGCAGCGATGTCCCTCACTGGCGCTGTTACTCGACACCGACTCGCGCTACCCGTTTGAGGGATCTTCTCCTATACGCCACCAGCCCTAGTCTGGAGCCGAGTGCGCGTGACACTAAGCTAGCGCTGGAGCACATGCCGAAGCGGGGTCTTTTGACGTGGCTGCGGGAGTGGGCCGAGGGCAATGACGCAAAATCGGCAGCCAATGCGTTCCGCACCGTAACTAAGAATCCTGGTCTTGATGACATCGCGAACGCAAACGTGATTCCTACGTCAGAAGGCATGCGAGCACTGGCCGATAAGGACGTCGTGTTCCTCCACCGCGAAGCAGACCTTGAAATCGAAGGAGCTGTTTTCGTCGACGCCGCATTCCTGGCCGAGGAAGGCATCGAGATGCTTCTCCGCGGCCGCGGGTTTCGTGACCTCGACCCTGAAGCGATTCTCAACGCACGACTGGCGACGCTTCCGGTGGAGCCTAGCGACGATGACCTCGTCAAACTATGGGACGCCGTTTTGTCTGTCGCGGTTCCTGCCGCCGCGAAACTGATGGCTTCGTCACGAGCTTCGATCAAGGTACCGACCCGTGACGGCGGTTGGGCTTGGCCTCAACAAGTGCTCGACCTCGATATTGCGCTACCAGGGAACGTCACGTCTCGGCTCCTCGATCGGCCTCGCTGCGTTCCTGATGTCGCCCACCGACTGGGAGTAGTACAACAGCCGGTGAAGGACTTTGCGTTGGAGGACGAGCTCGCCTACGAGGCATACGTCGAAGCAACGCTCAGCGAGCTTAACGGACGACTGGGGCCGGGCGAGCGGCCAATTAGGACTATCGATTTGAGTCCCAGCGAAGGTCCGGGGCCGTTCTCGGTGCTCTTCCTGCTGCGCGACGCGGGTGTTCCAGATCAAGTTCGCGCCAACTGGACGACAGCCCTTCTTTCGTTCGCCGAAGACGAGTGGGTAGTGGAGGACTCCGATACCGGACGCACATTTGCCGTGCGATCACCCGTTCGCTGGGCAGTTGAGCAAGCGGGGCTCTTAAACACGAGCCGTGGCTACCGTCCGCTCCGAGATGTCATCGCACCTTCGTTAGTCCGTTTTTCTGGGCTGCTGCCGCTCTACAAAGGGCCACATCAAGTGTTGAATTTGCTTGACCTTCCGGACGAACTTACCGATGTTCCCCCACACGTCATGCGGGAAATGCTCGAGGGGCAGCTCTTTCCCAGGGTAGATGATGACATCCTTGTGGAGTTTGTCCTGGCCGCGAGCAGGAGCGGGCTGGAGGGTGCCAAGCCGAAGACGCTTCCGGCTCGAGTAAGGCAAACGATAGAGGCGCATGCGCCGTCTACGGTTTACCTTGCTACGACAGACGAGCAGGAGAATTTCCTTGGCGCTCGCCATCGCCCGTACTTGCGCGTCGGGCCCTCGCAGGTTGAGGAGATGGTCGCGGTCGTCGGCTGTCGCAGGTTCGAAGATAGTTTCTCTTTTTCTATGGTTGTCGAGGGACAGCAGGACTCCCAAAAAATCCTTGACGTTTACACCGGACTGCGGAACGAGTTCGGCGTGCATTTGTATGCAGCTAAAGTTTCCCGTGCTTTATTGATCGCAAAGCGCGTTACGACTGAGGACGGCGTCGAAGATCAGCCATTGAACTGGCACCGCGATGGTTTTGAACTTGTGGTCGCTGGAGACTCAGACGCGCGGCAGATCCTAGGTTTCGTGAATGAGGCCTTCGATCTGCGCCTCGACAACGCCAGGCTATTGGCCGTGCTTAAGGCAGGCCTCAACCATAGGCTGGAACTCCTGCGTCTGCAGGCGCGCGCCATCGAGTCTGACGCTGAACGTCTAGATCTGTACATTGGCCCGGACGATCTGCAGGACGCGCTGCCGACCGGCCTCTGGACGGCATTGGAGGCACAAGGACTTGTCGGTGAGGACACTTCCGTCGCCGAGCTGTTCCTCACGGTCTACGGCTCGGACTCGCTGAGGATCCTTGCCGAACGCTTCCGCGAAGAGGGGTTCTCAGACGTCCCATCGGCGTGGGCCGGAACGCCGGCAGCGATTTCGTGGGTGCGCAAGATGGGCTTCGGTCCTGAATTCGCTGGCCAGCGGAACCGGCCGCGTCCTGAAGAGTTCGTCGTCGCCGGTGCTGTCCGACTCAACAAGTTTCACAGCTACCAAAAGAGGATCAGCGAGGATTTGCGGAGAGTTCTGACCCAGCCGTCCGCGGAGGGACCGGCACAGAAGGGTATGGTCGAGTTGCCCACCGGAGCAGGCAAAACCCGTGTGGCAACAGAGACCGCGCTCAAGTTGTTCGTTGATGAGGTGCTGTCCGGAACGATCCTGTGGATAGCCCAGTCCGCAGAGCTGTGCGAGCAAGCAGTGCAGACATTTCAAACAGTCTGGCGGTATCTGGGCGATGAGCGCCCTCTTACCATCGGTCGGCTTTGGGACACCAACACGGTCCAAGAGCCTGACACCGAGCTCTCTGTCGTCGTCGCTACCGACGCCAAGATTGAAGCGATCATGGGTCGACCCGACTATGAGTGGCTCAGCCAGCCGACCGCCGTCTTTATCGACGAGGCACATCGCACGGGTGGCTCGACGCGCTACACGGCTATATTGCGGTGGCTCGGCGTCGATGGACGCAGCTGGGAACGACCTCTGGTGGGTCTATCCGCAACCCCATTCAAGGGCCGCGCGGGTGACCACAGTGGTACCAAAGAGCTGGCCGCTAGGTTCGGCACCAATCGTCTCACCGCGTTCGAGTCCGACGCGTACAAGGAGCTTGTCAAACTGGGCGTGCTCGCAAGGGTCAGGCACGAGGTGCTCCCATCCGGCGTCGAGGTTGATCTCAACGCCGCGGAACGCAATACGCTCAATTCGAGCCGCCTCATCGATCGGAACGTTTACGAGAAACTCGGCCGCAATGAGCATCGAATGCGGATCCTGGTGGAACACATCCTTGAACAGGATCCGGAGTGGCCAATCCTTGTATTTACGCCGAGCGTGTTGTCCGCGCAGGTGCTGGCCGCGTCATTGCGGTATCGCGGTGTGAAGGCTGCATCAGTCAGTGGCCAAACCGGACGCCAGGAACGCCGAAACGTTATCAAAGAATTCCAGGACGGCGAGATCAAAGTGCTCGCTAACTGTGACCTGCTGGTGCAGGGATTCGACGCACCAGGTGTGCGTGCCCTGTACATTGCGCGCCCCACCTTCAGCCCGGGCGCTTACATCCAAATGGCTGGTCGTGGGCTGCGGGGCAAAGAGAACGGCGGCAAGGAGGAGTGCCTGATTGTCGACGTGGCCGACAACTGGGGTGCGATGAACGACTTCCTCGGGTACCACGACTACGAAGAGCTCTGGAAGGAGCAGCAGGGATGA	MAITTAEWVADEVLVREINEQFQSAVAAYDAKPTLIAEHVNHEESIRTGGYANRTLLELVQNAADAMAGSDDGGLSSLGRVEIVLDSSSSTLYCANSGRPFSKSGLIAITHAHLSGKRGDEIGRFGLGFKSVLSVSDSPQVFSRSISFEFNSTQAREALAGIAPGQRFPILRTATILDAEKEIQADPILAELGVWASTVVKLPYASNLEHLREEIENFSSEFLLFVEAVREVKLRVVGPDPFETSHVSRDLGGGVLRIEGPSGEGSEWIVGSRMHAPSAAARKLVGEAVSRAEVKVTVALPAQQNTLRIGQFWSYFQLQDTTSASGLFNAPWSVNDDRTTLLKNEYNREMLGTLAEIFVGLLPQLRTETDPAAHLDYMPARGRGQESHGFGDENLSAHVLRLAGAGDLIPNANAQLCNGASLRPLDLTVRFEEPVHQGWIMSPNTGSDVPHWRCYSTPTRATRLRDLLLYATSPSLEPSARDTKLALEHMPKRGLLTWLREWAEGNDAKSAANAFRTVTKNPGLDDIANANVIPTSEGMRALADKDVVFLHREADLEIEGAVFVDAAFLAEEGIEMLLRGRGFRDLDPEAILNARLATLPVEPSDDDLVKLWDAVLSVAVPAAAKLMASSRASIKVPTRDGGWAWPQQVLDLDIALPGNVTSRLLDRPRCVPDVAHRLGVVQQPVKDFALEDELAYEAYVEATLSELNGRLGPGERPIRTIDLSPSEGPGPFSVLFLLRDAGVPDQVRANWTTALLSFAEDEWVVEDSDTGRTFAVRSPVRWAVEQAGLLNTSRGYRPLRDVIAPSLVRFSGLLPLYKGPHQVLNLLDLPDELTDVPPHVMREMLEGQLFPRVDDDILVEFVLAASRSGLEGAKPKTLPARVRQTIEAHAPSTVYLATTDEQENFLGARHRPYLRVGPSQVEEMVAVVGCRRFEDSFSFSMVVEGQQDSQKILDVYTGLRNEFGVHLYAAKVSRALLIAKRVTTEDGVEDQPLNWHRDGFELVVAGDSDARQILGFVNEAFDLRLDNARLLAVLKAGLNHRLELLRLQARAIESDAERLDLYIGPDDLQDALPTGLWTALEAQGLVGEDTSVAELFLTVYGSDSLRILAERFREEGFSDVPSAWAGTPAAISWVRKMGFGPEFAGQRNRPRPEEFVVAGAVRLNKFHSYQKRISEDLRRVLTQPSAEGPAQKGMVELPTGAGKTRVATETALKLFVDEVLSGTILWIAQSAELCEQAVQTFQTVWRYLGDERPLTIGRLWDTNTVQEPDTELSVVVATDAKIEAIMGRPDYEWLSQPTAVFIDEAHRTGGSTRYTAILRWLGVDGRSWERPLVGLSATPFKGRAGDHSGTKELAARFGTNRLTAFESDAYKELVKLGVLARVRHEVLPSGVEVDLNAAERNTLNSSRLIDRNVYEKLGRNEHRMRILVEHILEQDPEWPILVFTPSVLSAQVLAASLRYRGVKAASVSGQTGRQERRNVIKEFQDGEIKVLANCDLLVQGFDAPGVRALYIARPTFSPGAYIQMAGRGLRGKENGGKEECLIVDVADNWGAMNDFLGYHDYEELWKEQQG				NA	NA	NA	NA	NA
D1-17_02975	849			hypothetical protein	GTGGCAGGGAAACCGACGGATTGGTCTGAGACGGAAGTGGCGATGACCGTACGGAGCTACTTGGACATGTTGCAGCTGGAAGTGTCAGGGCAATCCTACGTAAAGAGCCATTTCAGAAAGGCGCTTTTGCCTCGGCTCTCGAATCGCTCCGAGTCAGCTATTGAGTTCAAGTACCAGAACATTTCAGCCGTGCTAATGAAGCTTGGCCTGCGGCCAATCCGCGGTTACCAGCCAGCCCAGAACTATCAACAGACCTTAGTCCCTGAAGTTCAGCGCCAGTTGGCGTCAAGGCCATCTATCATCGAGCTTGTCCTGGCCGAAGCCTTGCGAGTACCCGGGACCAGCCCCATCGGTGCCCTTGATTTCGATGGTGCCAGCGTTCCTTCGATCATTGTCCCGCAATCATCCAATGGGGCTAGTGTTCACACAGCCCGCCCCGACTACGCAGCAATTGAGGCAAGAAATCGCCCGCTCGGGCTTGCAGGAGAGCTCGCCGTAGTCGATCTCGAATACCGGAGGCTAGTCAAAGCAGGCAAAGCCAATTTAGCTCGTCGGATTGACCACGTCAGCGAGTCGCGAGGTGACGGGGACGGCTACGACATACTGTCGTTTGAAGAGAACGGCAGAGAAAAGCTTATCGAAGTGAAGACCACAAGATCTCGCGCGGAGACGCCTTTCTTTGTCACCAGCAATGAACTGAAAGTGTCTAGGGAGCACCCGGACATCTACTACCTGGTGCGTGTATACAACTTTGGAAATGACTCCGCCTGGTTTCCTCTGAGAGGTAATCTCGACGCGAGTTGCCTCCTAGAGCCGAACGGCTTCACGGCGCTTCCACGTCCAGCCTGA	MAGKPTDWSETEVAMTVRSYLDMLQLEVSGQSYVKSHFRKALLPRLSNRSESAIEFKYQNISAVLMKLGLRPIRGYQPAQNYQQTLVPEVQRQLASRPSIIELVLAEALRVPGTSPIGALDFDGASVPSIIVPQSSNGASVHTARPDYAAIEARNRPLGLAGELAVVDLEYRRLVKAGKANLARRIDHVSESRGDGDGYDILSFEENGREKLIEVKTTRSRAETPFFVTSNELKVSREHPDIYYLVRVYNFGNDSAWFPLRGNLDASCLLEPNGFTALPRPA				NA	NA	NA	NA	NA
D1-17_02976	1272	gabP_3	COG1113	GABA permease	GTGCTCATCTCCTATCTCGTGGCCGGCACGCTCATCATCCTGGTGATGTGGGCGCTTGGTGTGATGGCGGCCGCGAACCCGGACAGCGGCGCGTTCTCCGTCTATACAGCCAAGGCGTACGGGCCGGTGGCTGGCGCCACGGTGGGCTGGCTCTGGTGGCTGCAGCTCGTGGTGGTGATCGCGGCCGAAGCGCTCGGAGCTGCGGGCCTGCTGGCCACGATCTTCCCCGCCCTGCCAGTGTGGCTGATGGCCTTCGTGTTCATCGTGGTGCTCACCGCTGTGAACCTCACCAGTGTGAAAAACTTTGGCGAGTTCGAGTTCTGGTTCGCCCTGCTCAAGGTGGCAGCGATCGTCGGGTTCCTCCTGGTGGGCGCAGCCCTGCTCTTCGGCTGGCTGCCGGGCGTGCAGTCTCCGGGCCTGGCCAACTTTACCCATGAAGGCTTCGCACCCAGCGGTTTCGGCGGCATTGCCACTGCTTTGTTCGTTGTGGCGTTCGCGTTCGGCGGCACCGAGATCGTGTCAGTCGCGGCAGCCGAGACGGCGGAGCCGGCCCGCAGCATGAAGAAGGCAGTGCGCACCGTGCTGTGGCGCATTCTGGTGTTCTACATTGGCGCGATCTTCGTGATTGCGGCCGTGGTTCCCGTGGGTTCGCAGGGGCTGAAGAGCCCGTTCGCCGCGGTGCTGGAAGCTGCCGGGATGCCCGGCGCCGGTACCGTCATCACCCTGGTGGCCGTGGCGGCACTGCTCTCCGCCCTTAACGCCAACCTCTACGGTGCCTCCCGGATGGCGTACTCCCTGGCCGAGCGGGGTGAGGCACCACGCATGCTCGCTTCCGCGTCCAAGGCCCGGGTTCCGGTGGTCGCGGTCCTGGCCAGCGTCGCCTTCGGCATCGTCACGGTGGTGCTGGAGATGGCCTTCCCCGAGATGGTGCTTGGCGTCCTGCTGAACATTGTTGGTTCGACGTGCCTGCTGGTGTGGACGTCCGCGCTCCTGGCCCAGCTCGCGCTGCGCCTCCGCGCCGACGCCGAGGGAACGGAGCTTCCGCTGCGGATGCCCGGCTTCCCGTGGCTCACTTCCCTTGGCCTGCTGATCCTCGCGGCAATCTTCACGGTGGGCTTCATCGGCGAGGATTCACGCCCCCAGCTCCTGAGCACGTTCGGACTCGTTGTGCTCCTGGCGGTGGCGAACTGGCTGCACCACCGTTCGGGCAAGGTTGCCGACCGCATTCAAGTGTCTTCGAACGATATCAGGCAGTCCGTACTTATCGACTGA	MLISYLVAGTLIILVMWALGVMAAANPDSGAFSVYTAKAYGPVAGATVGWLWWLQLVVVIAAEALGAAGLLATIFPALPVWLMAFVFIVVLTAVNLTSVKNFGEFEFWFALLKVAAIVGFLLVGAALLFGWLPGVQSPGLANFTHEGFAPSGFGGIATALFVVAFAFGGTEIVSVAAAETAEPARSMKKAVRTVLWRILVFYIGAIFVIAAVVPVGSQGLKSPFAAVLEAAGMPGAGTVITLVAVAALLSALNANLYGASRMAYSLAERGEAPRMLASASKARVPVVAVLASVAFGIVTVVLEMAFPEMVLGVLLNIVGSTCLLVWTSALLAQLALRLRADAEGTELPLRMPGFPWLTSLGLLILAAIFTVGFIGEDSRPQLLSTFGLVVLLAVANWLHHRSGKVADRIQVSSNDIRQSVLID	PGPT0000815_698	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
D1-17_02977	1098	pat_2	COG0079	Putative phenylalanine aminotransferase	ATGACCCGTGATCAACTCCTGGCCAAACCGGAAACCGCACTTCCCACTCTTAGAAGCGCGGTCACCGGACTTCCGTCCTACGTCCCGGGCCGGCGCAGCGGCGGCGCGGACATCGCAGCCCTCGCCAGCAATGAAAGCCACTACGAGCCGCTGCCCGCTGCCACCGCCGCGGTGACTGAAGCGGCCGGCAGGATGAACCGCTACCCCGACAGTGCCGCCGTCGAACTCCGCGAACGGCTCGCCCGGCACCTCGGCGTCACCGCCGGGGAGATCGCAGTGGGGCCCGGCAGCGTGGGCGTCCTCCAGCAGATCATCACCGGCCTGTGCGACGCCGGGGATGAAGTGGTCTTCGCGTGGCGCTCGTTCGAGGCCTACCCCATCCTGGTTGAACTGGCAGGAGCCCGGCCGGTCCGCATCCCGCTGGACGACGGCGAGGGCCACGACCTCGAGGCGATGGCTGCGGCCATCACTGCCCGCACCAAGGTGATCCTGCTATGCACCCCCAACAACCCCACCGGCATGCCGATCAGCCATGAGCGCATTGATGCCTTCCTGCGCACTGTCCGCTCCGACGTCCTCGTGGTGATCGACGAAGCCTACGTGGAATACGCCGACGCCGGCAGCGGCCCCGATTCCCTGGCGCTCTACCGCCGGTACCCGAACGTCTGCATCCTGCGCACCTTCTCCAAGGCCTATGGACTCGCCGGCCTGCGCGTGGGCTACGCCGTGGCGGCCCCGGACATTGCTGAAGGGCTGCGCCGCACCGCCCTGCCCTTCGCCGTGAGCGCGCTGGCCCAGAAGGCAGCCATCGCGTCGCTGGACGCCGGGAAGGAGATGGAAATCCGGGTCGCCGCCGTCAGGCGGGAACGCGTCCGGATGGCCGCGCAGCTGGAAGCCCAGGGTTGGAAGTTGCAGGCGAGCCAGGGCAACTTCCTGTGGATCCGTGCTGATGACCGCCTCCTGGCGACGCTGGTGGACGCGTTCGACGGCGCAGGCATCATGGTCCGGGCGTACCAGGGCGACGGCGTGCGGATCACCGTTGCCGATCCCGCCTCCATCGACCGCGTGCTCCGGATCTTGGAAGCCCACACGGCCTGA	MTRDQLLAKPETALPTLRSAVTGLPSYVPGRRSGGADIAALASNESHYEPLPAATAAVTEAAGRMNRYPDSAAVELRERLARHLGVTAGEIAVGPGSVGVLQQIITGLCDAGDEVVFAWRSFEAYPILVELAGARPVRIPLDDGEGHDLEAMAAAITARTKVILLCTPNNPTGMPISHERIDAFLRTVRSDVLVVIDEAYVEYADAGSGPDSLALYRRYPNVCILRTFSKAYGLAGLRVGYAVAAPDIAEGLRRTALPFAVSALAQKAAIASLDAGKEMEIRVAAVRRERVRMAAQLEAQGWKLQASQGNFLWIRADDRLLATLVDAFDGAGIMVRAYQGDGVRITVADPASIDRVLRILEAHTA	PGPT0020305_2741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-17_02978	504	asnC_2	COG1522	Regulatory protein AsnC	ATGACCATCGCGAACTCTCGCACCCTCGATTCCCTCGACGGCCGGATCATCCTGGCACTCGACAACGATCCGGAAGCCAGCGCCCTGGCACTCTCGCGGACGCTCGGCGTCGCACGGAACACTGTCCATGCCCGGCTGGCACGGTTGGAGCGCAGCGGCGCCCTCCGCTCCTTCAGCCGGAGGTTGGACCCCGCCGCGCTTGGCTACGAGCTGATGGCGTTCCTCTCGTTGGCCATCAGCCAGACGCGCGCGGGCTCAGTGGAAAACAGTCTCGCGGCGATCCCGGAGGTCATCGAGGTGCATGCCACTACCGGCGATGCGGACCTCATGGCCAAGGTGGTGGCGCGCGGCACCGAAGACCTGTACCGCATCACTAACCAGATCCTTGAAATCGACGGGATCCAACGGACTAGCACAGCGATCTCCGTCATGGAACTCATGCCACCCCGCTACGACGGCCTCCTTGCCAGACTGTCGGAGCAGGAATCCCGCCCTTCGAACTAG	MTIANSRTLDSLDGRIILALDNDPEASALALSRTLGVARNTVHARLARLERSGALRSFSRRLDPAALGYELMAFLSLAISQTRAGSVENSLAAIPEVIEVHATTGDADLMAKVVARGTEDLYRITNQILEIDGIQRTSTAISVMELMPPRYDGLLARLSEQESRPSN				NA	NA	NA	NA	NA
D1-17_02979	1674	xsc		Sulfoacetaldehyde acetyltransferase	ATGACTTCACTTACCGTCTCCGGCCGCGTGGCACAGGTTCTCAGCAGCTATCTCACCGATGTCTTCGGCGTCATGGGCAACGGAAACGTCTACTTCCTGGACGCCGCGGAAAAGCTGGGCCTCCGCTTCTCCCCCGTCCGCCATGAAGGCGCCGCCATCGCCGCGGCCGACGCCTATTACCGGACGTCAGGACGTCTCGCAGCGGGCACCACCACCTACGGCCCCGGCTACACCAACGCACTCACCGCACTCGCCGAAGCGGTCCAGGCGCAAATCCCCGTCGTGCTGGTCACCGGGGACGCTCCGAGCAGCGGCGTCCGGCCCTGGGACGTGGACCAGGCGGCCATCGCCGCGGGCCTCGGCGCGGCGACCTTCACCGTCACCCGCGACGCCGCGGGCTCCATCACGCAGCAGGCGGTGGAATACGCGCTCACCAAGCGGACCGCCGTCGTGATTGCCATTCCCTACGACCTCGCGGCCCTCGAGGCTGCGGACGAGGAACTTCCGGTGCCGTCGGCACCTCAGGTGACGGACGACGTCGACGGCGGCCTTGGGCAGGTAGCCCGGCTGCTCGCCGGGGCGAAGCGGCCGCTGATCCTCGCCGGCCGCGGTGCGCATCTCGCCGGCGCAGGCCCGGAACTCCGGGAGCTCGCCGACCGCCTGGGCGCGCTGACCGCCGGAACGGCCCTGGCGCTCAACCTCCTCCAGGGCGAGGGATACCTCGGCGTCGCGGGCGGCTTCGGCACGGACACCGCGGCCGGGCTCATGGGTGAGGCCGATGTGGTCCTCGTGGCCGGGGCAAGCCTGAGCCCCTTCACCATGCGGTTCGGACACCTGCTCGGCCCGGACAGCACAGTTATCCAGATCGACGCCGCCCTGCAGCCGACGCACCCCCGGGTGGACCTGTTCGTCAGCGCGGACGCGAAGTCTGCCGCGGGAAGCATCCTCCGGATGCTGGATGGCCCGGCCTCGCCGGAAACCAACCGGGCAGAAGCCTGGCGCGCGGAAGCCCGCAGGCGTCTGGCCGAAGGACCGGCGCACCACCCAGGCTCCGCCGAGACGCCGGACGGACGGCTGGACCCGCGCTTTCTTGCCATAGCCCTGGATGCCATGCTGCCGGAGCGCCGCACGGTGGTCCAGGACGGAGGGCACTTCATGGGCTGGGCACCCATGTATTGGCGGATCCCGCGGCCGCAGGACCTAGTCATGGTGGGGACCGCTTACCAGACCATCGGGCTCGGCCTTGCCAGCGCCGTCGGGGCAGCCCGGGCAGTGGAGGACGGCCGCACGCTGGTGCTGGCCTCCGGTGACGGCGGTTTCCTGATGGGCCTGTCCGACCTCGAATCGCTCATCGCCGCGGCAAGCAGCGCCGTCGTCGTGATCTACAACGACGCCGCCTACGGGGCCGAAATCCATCAGTACGGCTCCGGTGGCCTGACCGAAAAGCCCATGCTGATCCCCGAGGTGGACTTCAGCGGCATCGCCCGGGCGCTTGGTGCCGAGTCGGCGGTCATCCGCTCGCTTGCGGACCTTTCCGCGCTTCAGGACTGGATCGACGACGGCGCCAAGGGCACCTTCGTGGCGGATTGCCGGATCACGTCAAGCGTGCGGGCGCCCTGGCTGAGCGAGTGGATGAATGCCAAGCAGGCCGCGAAGGCGGCGGTGGCCGGCTGA	MTSLTVSGRVAQVLSSYLTDVFGVMGNGNVYFLDAAEKLGLRFSPVRHEGAAIAAADAYYRTSGRLAAGTTTYGPGYTNALTALAEAVQAQIPVVLVTGDAPSSGVRPWDVDQAAIAAGLGAATFTVTRDAAGSITQQAVEYALTKRTAVVIAIPYDLAALEAADEELPVPSAPQVTDDVDGGLGQVARLLAGAKRPLILAGRGAHLAGAGPELRELADRLGALTAGTALALNLLQGEGYLGVAGGFGTDTAAGLMGEADVVLVAGASLSPFTMRFGHLLGPDSTVIQIDAALQPTHPRVDLFVSADAKSAAGSILRMLDGPASPETNRAEAWRAEARRRLAEGPAHHPGSAETPDGRLDPRFLAIALDAMLPERRTVVQDGGHFMGWAPMYWRIPRPQDLVMVGTAYQTIGLGLASAVGAARAVEDGRTLVLASGDGGFLMGLSDLESLIAAASSAVVVIYNDAAYGAEIHQYGSGGLTEKPMLIPEVDFSGIARALGAESAVIRSLADLSALQDWIDDGAKGTFVADCRITSSVRAPWLSEWMNAKQAAKAAVAG	PGPT0008185_7639	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
D1-17_02980	408			hypothetical protein	ATGCTCGACGAGACAGACCTTTTGCAGGCGCTGCGGCGTCACTGGGAGTACTCCGGCAAGGATGAGGACATCGCCCACGAGATCTACCATGACGACGCGGTGCTTGAGTTTCCCCAGTCCGGCGAGCGGTTCGAAGGCGTGGAGAACTTCCGCGAATGGCGGCGGCAGTACCCGGCGGAACTCAAGTTCCACACCCGACGGATCACCCACCGCCAAGACCTGGTGGTTGTCGAGAACCTGATCAGCTACGACGGTGCGCCGTGGATGTACACAGTCAACCTGCTCGAGTTCCGGGATGACCGGGTCGCACACGAGCGGATCTACATCATGGACGGCTGGGATGCTGCGGGGTGGAGGAGCCCCTGGCGGGCGGAGCGGCCAGCAGATCCGCCACCGCCTGCTCCTTAG	MLDETDLLQALRRHWEYSGKDEDIAHEIYHDDAVLEFPQSGERFEGVENFREWRRQYPAELKFHTRRITHRQDLVVVENLISYDGAPWMYTVNLLEFRDDRVAHERIYIMDGWDAAGWRSPWRAERPADPPPPAP				NA	NA	NA	NA	NA
D1-17_02981	663			hypothetical protein	ATGTCCCTTGTCCGCGTGCATAACTTCTCGGTCTCCCTCGACGGCTTCGGTACCGGTGAGGGCCAGCTACTGGACGCGCCGTTCGGCCACGCAGGCACGCGGCTGCTGGAGTGGGCCTTTGAGACGCGGACCTTCCGCGCGATGGGCATCCATGGGGAATCGGAAGGATCCTTCGGCGTCGACGAGGCGTTCGCCAGCCAGTGGGGACCAGGGGTCGGCGCCGAAATCATGGGGCGCAACAAGTTCGGCCCTCAACGCGGTCCTTGGGAGAACGAGGAGTGGAAGGGGTGGTGGGGCGACAACCCTGTGTTCCACACCCCTGTGGTCGTCCTGACACACCATCCCCGGCCGGTACTCGAAATGGCAGGTGGAACGACCTTCCATTTTGTTGACGCGGACCCCGCCTCCGCGCTTGAGCAGGCGCGTGGACTGGCCGGCGGCCAGGACATTCGGATCGGCGGCGGCGCCAGCACGGTGCGGCAGTTCCTCGAGGCCGACCTGATCGACCACATGCATATCGTCCTCGTGCCGATCGTGCTGGGCCGGGGCGAACGGCTCTGGGACGGACTCGAGGGACTCGAAGAACGCTTCGACATTGAAGCGACCCCTTCTCCGCAAGGGGTGGTCCATTTGGTCTTCACCCGCCGCTCGGCCCGGAGGTGA	MSLVRVHNFSVSLDGFGTGEGQLLDAPFGHAGTRLLEWAFETRTFRAMGIHGESEGSFGVDEAFASQWGPGVGAEIMGRNKFGPQRGPWENEEWKGWWGDNPVFHTPVVVLTHHPRPVLEMAGGTTFHFVDADPASALEQARGLAGGQDIRIGGGASTVRQFLEADLIDHMHIVLVPIVLGRGERLWDGLEGLEERFDIEATPSPQGVVHLVFTRRSARR				NA	NA	NA	NA	NA
D1-17_02982	132			hypothetical protein	ATGCCGTTCCTGGACCGCTCGGTGCCTGCTCTCGGGAGCTGGGGAGAGATTCAAGCCCGCGACGGCGGCGCCCGGGTGAGTGCCGCCGTCGCCCTTTCCATGGTTTCGGGGTACGCCGGGCATGGGGCTTGA	MPFLDRSVPALGSWGEIQARDGGARVSAAVALSMVSGYAGHGA				NA	NA	NA	NA	NA
D1-17_02983	1026			hypothetical protein	GTGGTGTCCTACCTGGCAAAGGGCGACGTCGCCCTGTCCGTCGCGATGACCACCGTCTCAACGCTGATCGCCCCGCTGCTGACCCCGGTGCTGGCACTGTGGCTGGCCGGCCAGTACATGCCGGTGGACGCCGGTTCCATGGCGTGGTCCATCGTCCAGATCGTGCTGTTCCCTGTGCTGCTGGGACTTGTCATCCGGCTCTTCCTGCCCCACCTCATCGACAGGGCCCTACCTGCCCTGCCCTGGATTTCGGTCCTCGCCATCACCACCGTGGTGGTTGCAGTGGTCTCCGGAAGCGCCAAGGCGATCTTCGCGGCCGGACTGCTGGTTCTCGCCGCCGTCATCCTGCACAACGGCCTCGGCTATGCCCTCGGTTACGCGGCCGCCCGGCTGTGCCGGCTGCCGATTCCTTCCCGGCGCACCACTGCCATTGAAGTCGGCATGCAGAACTCGGGCCTGGCAGCAGGGCTGGCACGGCAGTACCTGACCCCCGAAGCGGCCCTGCCCGGCGCCATCTTCTCCGTCTGGCACAACGTTTCCGGCGCAGTTCTGGCGGCTTACTGGCGCCGCCGCAGCAGCCCTGCCCTGCGCGACGGCGAGCAAGTTCCGGCGGCAATCACTAGTAGGCGCACCTCGGGCCTGCGGCCGCCGTCGTACATTACGACGGCGGCCCGTCACCAAGGTGCCAAACCTCCCCTACTGTCCCGGCGCCCGGTAGGACGGCGTCTTCTTGGCGGCTTCGTCCAGGTCTTCGACGGTCAGGAGCGGCTTCAGACGGACGTTGACGCTCCCCGTCGAATTGATCAGCAGCGACAGTGCTGCAGCACTTGCATCGTCCGGCGCCTCGAAAACGCCAAGAACGTCGTAGTAGCCAAATGCGTAGTAGAAGCTCTCCAGCGATCCGCCTACGGATTTGAGGGCCTCCGTCAGGGCGTCACGCCGCTTTGTGCCGCCTTCTTGCATGAGCCCCTTGATTCCCTGGCCCACGTACGTCGCTTCAAACAGATACTTCGGCATGGTCTTTAG	MVSYLAKGDVALSVAMTTVSTLIAPLLTPVLALWLAGQYMPVDAGSMAWSIVQIVLFPVLLGLVIRLFLPHLIDRALPALPWISVLAITTVVVAVVSGSAKAIFAAGLLVLAAVILHNGLGYALGYAAARLCRLPIPSRRTTAIEVGMQNSGLAAGLARQYLTPEAALPGAIFSVWHNVSGAVLAAYWRRRSSPALRDGEQVPAAITSRRTSGLRPPSYITTAARHQGAKPPLLSRRPVGRRLLGGFVQVFDGQERLQTDVDAPRRIDQQRQCCSTCIVRRLENAKNVVVAKCVVEALQRSAYGFEGLRQGVTPLCAAFLHEPLDSLAHVRRFKQILRHGL				NA	NA	NA	NA	NA
D1-17_02984	318			hypothetical protein	ATGGCCGGGTTTGTGCAGATCATCGAATTCAAGACCTCCCGCATCGAAGAGATCGAGGAGCTGGGCCGGCCCTCAAGAACCGAGGGAAGCACTCCAGCCACGTTCCGCCACATTGTCGCCACGGCGGACAGAGACCACCCAGGAACCTATTTCACCATCGTCGAGTTCGATTCCTTTGACTCGGCGATGGAGAATTCCGGCCGGCCCGAAACGTCGGAGTTCGCTGCCAAGATGGCGGCGCTGTGCGACGGACCCGTTACTTTCCACAATCTGGATGTCATGTGGGAGGACACCGGAGAAGGTACGGAGAACGGCTAA	MAGFVQIIEFKTSRIEEIEELGRPSRTEGSTPATFRHIVATADRDHPGTYFTIVEFDSFDSAMENSGRPETSEFAAKMAALCDGPVTFHNLDVMWEDTGEGTENG				NA	NA	NA	NA	NA
D1-17_02985	144			hypothetical protein	ATGAGCACTGCACACACCCCCGGCGCGCAGGCGCCCGCCAAAGTATCCGCCGGCAAACTTACCGTGGCCTGGGCGCTCGTCGGGCTGCCGCTGGGCTACGGGGTGTTTCAGACTTTGACCCGCGTGGCGGCGCTGTTCGGCTAA	MSTAHTPGAQAPAKVSAGKLTVAWALVGLPLGYGVFQTLTRVAALFG				NA	NA	NA	NA	NA
D1-17_02986	1395			L-lactate transporter	ATGAGCTGGTTGGACCGAGACCGAACCATTGCCCCGCCGGGGTTCAACCGCTGGCTCGTCCCGCCCGCGGCGCTCGCCGTCCACCTCTGCATCGGCCAGGCGTACGCGACGAGCGTCTACAAGACGGCCCTGGTCAAGCATTTCGGCGCCAGCCTGACCGAGATTGGCGTGATCTTCTCCATCGCCATTGTGATGCTGGGCCTGTCGGCTGCGGCCATGGGCACCTGGGTGGACAGAAGCGGCCCGCGCAAGGCGATGTTCACCTCGGCAGTGTTCTGGTCCGGCGGCTTCCTGATCGGTTCCCTCGGCATCTTCACGCACCAGCTGTGGCTGGTCTACTTAGGCTACGGCGTTGTCGGCGGCATCGGCCTGGGGATCGGCTACATCTCGCCGGTGTCCACCCTGATCAAGTGGTTCCCTGACCGGCCCGGCCTGGCCACCGGCATGGCCATCATGGGTTTCGGCGGCGGCGCGCTGATCGCCAGCCCCGTCTCCACGGCGCTGCTCAAGCTGTACGACCCGAACTCAGGCGCCAAGGACTGGGTGGCCAGCGGGGATGCCGTGGGCAGGCTCTTCCTGACCCTCGCCGTCGTCTACCTGGCTTACATGCTCTTCGGCGCCTTCACCATCAAGGTTCCGCCGGCGGGCTGGCAGCCGCGCGGGTTCGATCCCGCCAAGGTGAAGGCCGCCAAACTCGTCACAACGGAGAATGTCTCGGCCAGGAACGCCGTCAAAACCAGACAGTTCTGGCTGGTCTGGATTGTCCTTTTCTGCAATGTCACCGCGGGCATCGGCATCCTGGAGCAGGCCGCGCCGATGATCCAGGACTTCTTCCGAAAGTCCGACGGCGTCTCCGCGGTGAGCGCCGCCGTCGCCGCCGGTTTTGTAGGGCTGCTGTCCATCGGCAACATGGTGGGGCGCTTCGTCTGGTCCTCCACCTCCGACGTCACCGGCCGCAAGCGCATCTACATGGTGTACCTCGGCGTCGGCGCCGTCCTCTACACCGTGCTGGCGCTGGCCGGTTCCACCACCACCGTCCTGTACGTGGCGCTGGCGTTCGTCATCATCTCCTTCTACGGCGGCGGGTTCGCCACTGTTCCGGCCTACCTGCGGGACCTCTTCGGGACCTTCCAGGTGGGCGCCATCCATGGCCGGCTGCTGACCGCCTGGTCCGCCGCCGGGGTGGCGGGCCCGCTGATCGTCAACGCTTTCCTGGACGCCCAGGGCAAGCCCGGCCAGCTGGACGCCGCGTCCTACCAGCCCGCGCTGCTGACCATGGTGGCGCTGCTGGTGGTCGGTTTCCTGGCCAACCTGATGGTGAAACCGGTGGACGCACGATTCCACGAACCCCGCCCCGATCGCGGACGAGCCCACGTACCTGCCATGGAGGCCTGA	MSWLDRDRTIAPPGFNRWLVPPAALAVHLCIGQAYATSVYKTALVKHFGASLTEIGVIFSIAIVMLGLSAAAMGTWVDRSGPRKAMFTSAVFWSGGFLIGSLGIFTHQLWLVYLGYGVVGGIGLGIGYISPVSTLIKWFPDRPGLATGMAIMGFGGGALIASPVSTALLKLYDPNSGAKDWVASGDAVGRLFLTLAVVYLAYMLFGAFTIKVPPAGWQPRGFDPAKVKAAKLVTTENVSARNAVKTRQFWLVWIVLFCNVTAGIGILEQAAPMIQDFFRKSDGVSAVSAAVAAGFVGLLSIGNMVGRFVWSSTSDVTGRKRIYMVYLGVGAVLYTVLALAGSTTTVLYVALAFVIISFYGGGFATVPAYLRDLFGTFQVGAIHGRLLTAWSAAGVAGPLIVNAFLDAQGKPGQLDAASYQPALLTMVALLVVGFLANLMVKPVDARFHEPRPDRGRAHVPAMEA	PGPT0017235_634	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
D1-17_02987	336			hypothetical protein	ATGGTGCACGCCACACTGCGGCGCCGCCGTTCAGCGGCGAGCGGCGGAAGATTCGCGACAAGCGGCAAATTTCTTGCCGCGGAATGGAAGCGGGCGCCACAGGATAAACGCAGCGGGCGGCCGAAAAGGTCGTTTGGTGTCGGACTGATACCACTGCCCGTTTTCAACGCCGACCTTGCCGCCTTTGACTTCGATGGCGCCCATGCCGACGCCGGCACCATCGCCGAGTACTGGCTCGAATTCCACGCCAACAGCGGCATGTTCTACGGCCACGTGCTGGGCTTTAAGTGGTCGGCGACAGGGCGCTGCTGGAGGAAGCCGGCGGCCGGGAGCTGA	MVHATLRRRRSAASGGRFATSGKFLAAEWKRAPQDKRSGRPKRSFGVGLIPLPVFNADLAAFDFDGAHADAGTIAEYWLEFHANSGMFYGHVLGFKWSATGRCWRKPAAGS				NA	NA	NA	NA	NA
D1-17_02988	918	yngG	COG0119	Hydroxymethylglutaryl-CoA lyase YngG	ATGGCTTTTGCCAATGGAACCAGGCCGGTCTCGATCGTGGACGTTAGCCCGCGCGACGGCTTGCAGAACGAGAAGACCCCTGTGAGTACCGAGGACAAGGTCCGGCTCATCAAAGAGCTGATCCAGATGGGTGCTCAGAGGATCGAAGCCGTCAGCTTTGTGAATCCCAAAGCGGTTCCCCAAATGGCCGATGCCGACGCCGTGATGGCGGCGGTGCCGCGCACCGACGACGTGAGCTATATCGGCCTGGTACTGAACACCAGGGGTGCCGTCCGCGCTGTCGACGCCGGGGTGGACGAGATGAACTATGTGCTCCCGGTGACCGATGCGTTCGCCACAGCCAACCAGAACACCACTGTTTCCGCAGCGCTCGCGGCTCTGGAGGAAGTTTCGGGCATCGCTGCCGCGGCCTCCATTCCGCTCAGCGTCACAGCGGCTGTCGCTTTTGGCTGCCCCTATCAGGGTGACGTCCCGATCGAACAGACCCTCGACGTCGTCCGCAGTGCAATTGGTCGCGCGAACCTGGCGGAGGTGGCGTTGGCGGATACGATCGGCTGCGCCGTGCCGTGGCAGGTGGGCGAGACTTTCGCCAAGCTGCGCGAGGAAACCGACCTGCAGTTGAGGGCGCACCTTCACGAGACCCGCCATACTGCGCTGGCCAACACCTATGCGGCGATGGCCTCGGGCGTCGATGTGTTTGACAGTAGCGTCGGTGGCCTCGGAGGATGCCCTTTCGCTCCGGGCGCAGCGGGAAATATCTCCACGGAGGACCTCGCATGGATGCTCGGGCGTGCCGGGTTCCAGACAGGCATCGACGTGCAGAAGGCAACGGAACTGGGCCGCTGGATCTGCGGCATAGTCGGTACGGATCCGCGTTCCGGACTGGCAGGGGCAGGGGTGTTCCCCGCGGCAGCGTAG	MAFANGTRPVSIVDVSPRDGLQNEKTPVSTEDKVRLIKELIQMGAQRIEAVSFVNPKAVPQMADADAVMAAVPRTDDVSYIGLVLNTRGAVRAVDAGVDEMNYVLPVTDAFATANQNTTVSAALAALEEVSGIAAAASIPLSVTAAVAFGCPYQGDVPIEQTLDVVRSAIGRANLAEVALADTIGCAVPWQVGETFAKLREETDLQLRAHLHETRHTALANTYAAMASGVDVFDSSVGGLGGCPFAPGAAGNISTEDLAWMLGRAGFQTGIDVQKATELGRWICGIVGTDPRSGLAGAGVFPAAA	PGPT0008315_2216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0008315-hmgL-K01640	NA	NA
D1-17_02989	1320	smtA	COG1804	Succinyl-CoA--L-malate CoA-transferase alpha subunit	ATGAAGGTTTTCGAAACCGGCAAAATGAACCGTGGCAAGGACGCCGCGGACGAGAACGGCCACGGGATCGCTGAAGAAACGCAATCAGGCAACGCAACCAGGACAGAAGCCTCAGGCGATGGCGCCGGTCCGCTGTCCGGCGTGCGCGTCCTCGAACTGGGATCTCTTATCGCCGGCCCGTTCGCGGGACGGCAGATGGCGGACTTCGGTGCCGAAGTCATCAAGGTCGAATCCCCGAACCGGCCGGATCCCATGCGCGAATGGGGCCGGGCGCGGGTCAACGACCGCCCTCTGTGGTGGTCGGTCCAGTCCCGCGGCAAAAAGTGCGTCACGATGGACCTGAAAGCCCCACGCGGCCGGGAACTTTTTCTTGAGCTCTGCAAGGAAGCCGACGTCATTCTCGAGAACTTCCGCCCGGGCACCATGGAGAAGCTTGGCCTCGGCCCTGAAGAGCTGTGGAAGATCAATCCCGGCCTCATTATTGCTCGGGTCTCCGGCTACGGGCAGACCGGTCCGGAAGCGTCAAAACCGGGTTATGCCTCCGTCGCCGAGGCACGCAGCGGATTGCGACACCTGAACGGCTACCCCGATCAGCCGCCTCCCCGCACCGGTATCTCCCTGGGCGACAGCCTTGGTTCGCTGTATGCCCTGCAGGGGATCCTGCTGGCACTGTACTGGAGGGATGCCCGCGGGGGGACCGGACAGGTGGTCGATGTGTCGCTCGTTGAGGCGTGCTTCTCACTGCTGGAGAGCACCGTGCCCGACTACGCCGCGACCGGTATTGTCCCCGGACCCAGCGGCTCGGGGCTCAAGGGGATAGCGCCGTCGAACATCTTCCGTTCCAGCGATGGCAAGTGGATGGTCATAGCGGCCAATCAGGACTCGGTCTTCGTGCGCCTGGCCACAGCGATGGGCATGCCCGGCCTCGCGGCGGACCCGAAATATCGCGATCATGCGCAGCGGGGTCGCAACCAAGAGGAGCTTGAAGGCATCATCGCCGACTGGGCGGTCCACTACTCCGCCGGCGAGCTGGTTCGCCTGCTCGATGAACACGGTGTTCCGAACAGCACGGTGAGCACCGTTGAAGATATCTTCGAGGACCCGCAGCTCAAAGCACGGGACATGCTTGTGGAAGTGGCTGACGACGAGCTGGGCACCGTGGTCCAGCCGGGAATCGTCCCCAAGCTCACCCGCTCTGCCGGCCGGATTGGCTGGAACGGGCCGCTGGTGCATGGATCCCACAACGCCGATGTGTACCAGGGCCTCCTGAACCTCACCGAGGAAGAGTTGCAGAAGGCGCGAAGCGAAGGAGCAATCTGA	MKVFETGKMNRGKDAADENGHGIAEETQSGNATRTEASGDGAGPLSGVRVLELGSLIAGPFAGRQMADFGAEVIKVESPNRPDPMREWGRARVNDRPLWWSVQSRGKKCVTMDLKAPRGRELFLELCKEADVILENFRPGTMEKLGLGPEELWKINPGLIIARVSGYGQTGPEASKPGYASVAEARSGLRHLNGYPDQPPPRTGISLGDSLGSLYALQGILLALYWRDARGGTGQVVDVSLVEACFSLLESTVPDYAATGIVPGPSGSGLKGIAPSNIFRSSDGKWMVIAANQDSVFVRLATAMGMPGLAADPKYRDHAQRGRNQEELEGIIADWAVHYSAGELVRLLDEHGVPNSTVSTVEDIFEDPQLKARDMLVEVADDELGTVVQPGIVPKLTRSAGRIGWNGPLVHGSHNADVYQGLLNLTEEELQKARSEGAI	PGPT0002130_431	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749	NA	NA
D1-17_02990	792	iclR_4	COG1414	Transcriptional repressor IclR	ATGAGCCCTACCGAAAATGCCGCCGCCCCGTTGCTGGTGCTGAAGAAGATCACGTCCATCCTGGATGCCTTCTCGCTGGTGCGGCCTGAGATGAGCCTTGCCGAGATACGAGCGGAGACCGGGCTGCCGCACTCTACCGTGCAGCGCCTGGTGACCAATATGGTGCAGGAGGGAATGCTCGATCGACGTGATGACCAGTTCAGGATCGGAATACGTATGACCCACTGGGCAGCGCCCGCCCGGCAGGGCCTCGACTTCCTGGAATTGCTGACTCCCGTGGTGCGGCGGTTGCGGGATGAGCTGGGTGAAACGGTCTGCATCTTCAGGGAATCGCAAGGGAGCAGGGTGTGTGTCGCCTTGGCTGAGACCCGGCGGGTTCTTCGAAGGGCGGTCGACGTTGGCCATATTATGCCGCTCCATGCCGGTTCGGCGGGCCGGGTGTTGCTCGCCTGGAATCCCGACCTGGCGGAGAGGGTCTACGGGTCAGGGCTCCAGTCGATGACCGACCAGACCATCACGGACGCAGCAAGCCTTGATGCTGCCGTCGCGAAGACCCGTGCAGACGGTTTTGCCATCACCATCGGAGAGCGGGTTTCCGGGGCCAGCGGGTTGTCCGCTCCGATCTTCGGCCCGCAGGCTGAGCTCTACGGTGCGCTCACCGTGATGGGGCCGACCATGAGGATGCCCTACGACGTGTGCGCTTCCTGGATAGAGCCCGTGGTTGCTGCGGCTGCTGAGGCGACGCGGTTGATCGGAGGGAGTCTTCCCTCCGAAGCGGTACCCATATCGTGA	MSPTENAAAPLLVLKKITSILDAFSLVRPEMSLAEIRAETGLPHSTVQRLVTNMVQEGMLDRRDDQFRIGIRMTHWAAPARQGLDFLELLTPVVRRLRDELGETVCIFRESQGSRVCVALAETRRVLRRAVDVGHIMPLHAGSAGRVLLAWNPDLAERVYGSGLQSMTDQTITDAASLDAAVAKTRADGFAITIGERVSGASGLSAPIFGPQAELYGALTVMGPTMRMPYDVCASWIEPVVAAAAEATRLIGGSLPSEAVPIS				NA	NA	NA	NA	NA
D1-17_02991	846	nrtD	COG1116	Nitrate import ATP-binding protein NrtD	ATGACGCAGCCCTCACAGCCTGAATCTTCGAAGTATGCGGTTGAACTCAACGCATGCACCAAGGAGTTTTCAACTCCCGGCGGTGGATCGTACTTCGCTGTCCGGGACATCGATCTCAAGGTTGAGCCGGGACGGTTCGTTTCCATCGTTGGGCCGACGGGATCGGGTAAGTCCACGATCCTCAACATGGCAGCGGGACTGTTGAATCCGTCGTCGGGCACTGTTCATAGCTTCGGCGAGCCGGTCCACGGAGTAAACCGCCGCGCGTCCTACATGTTCCAGCAGGACGCGCTGCTGCCCTGGAAATCGGTCATCGACAACGTCAGCCTTGGGCTCACCATGGCCGGCGTCTCCAAGGCTGAGGCCTACGACGAGTCACGCCGCTGGCTCGAGAAGGTGGGATTGAAGAACTTCGCCGACCGGTACCCCCACCAGCTCTCCGGCGGCATGCGCAAGCGCACCGCAGTTGCACAGGCCTGGATCGTCAACCCGGACATCCTGCTTATGGACGAGCCCTTCTCCGCGCTCGACGTGCAGACCCGCCAGATCATGGAGAACGAACTCCTCCAGCTCTGGCAGGAATCGGACAAGGCCGTCGTGTTCATCACCCACGACCTGGACGAGGCGATTGCCCTGTCCGACGAGGTGATCATCCTCGGGGCCGGACCGGGCAGCACCGTCGTCGGCAGCTACGAGATCGACATCCCCCGCCCCCGGGACCTCCTCGACATCCGCGACGATCCCAAGTTCGTCGACCTCCACAGGGAAATCTGGGGCCGCCTCAAGGTCGAGGTATCCAGGACCTATGAATCAGCACGGGAAGAAGAAGAGAGCGACGCAGCATGA	MTQPSQPESSKYAVELNACTKEFSTPGGGSYFAVRDIDLKVEPGRFVSIVGPTGSGKSTILNMAAGLLNPSSGTVHSFGEPVHGVNRRASYMFQQDALLPWKSVIDNVSLGLTMAGVSKAEAYDESRRWLEKVGLKNFADRYPHQLSGGMRKRTAVAQAWIVNPDILLMDEPFSALDVQTRQIMENELLQLWQESDKAVVFITHDLDEAIALSDEVIILGAGPGSTVVGSYEIDIPRPRDLLDIRDDPKFVDLHREIWGRLKVEVSRTYESAREEEESDAA	PGPT0001140_1646	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-17_02992	867	ssuC	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGACCGTGGCACCAGCTTCAAAGAAAACTCAACGCTTTCCTCTCCGGAAGGAGCAGAGTCCGGCGGCGCTCCAGCGCCCCAAGCGCAAGCGGCCCGAAACGTCGAACTTCGCCATCCGGATGGGGCAACTGGGCCTCGCCGCCGTTGTCCTCGGCGCATGGGAATTACTGGGACGCGTCGGCGTCATCGACCCGTTCTTCTTCCCCCTCCCCTCCGACATCCTGGTGACGGTGTGGGCCTGGATCTCCACGGGCTTCGTCTTCCCGCATCTGTGGATCACCCTGCAGGAAGCGGTCCTCGCATTTATCACGGGTGCGACGGCCGGCCTGGTCCTCGGCTTCCTCCTGGCCCGCGTGCGCATCCTGGAGCGGCTCTTCGACCCGTTCCTGCAGATGTTCAACGCACTCCCCCGCGTTGTCCTCGCCCCGATCTTCCTGCTCTGGTTCGGCCTGGGAATCTGGTCCAAGGTTGCTTTCGGCTTCACCCTGGTCTTCTTCATCGTTTTCTTTAATACCCTCGAAGGCGTCAAGAGTGTGGACCGCGTCCTGGTGGACAACGCCAAGATGCTCGGAGCCAGCGAAAAGCAGCTCCTCCGCCACGTGTTCATCCCCAGCGCCCTGACCTGGATCTTCTCCAGCCTCCACATCAGCGTGGGCTTCGCCATCACCGGTGCGGTGGTCGGTGAATACCTTGGTGCCTCGGCAGGTGTCGGTTACGCCATCGCCCAGGCACAGGGCGTGTTCGACACCGAGGGCGTGTTCGCCGGCATGTTCATCCTGATGGTCGTGGTCCTCATCATCGACCTCGGGGTCAACCGCGTGGAACGACATCTCCTGCGCTGGCGCCCGCCGCAGCAGTCTTCCTAA	MTVAPASKKTQRFPLRKEQSPAALQRPKRKRPETSNFAIRMGQLGLAAVVLGAWELLGRVGVIDPFFFPLPSDILVTVWAWISTGFVFPHLWITLQEAVLAFITGATAGLVLGFLLARVRILERLFDPFLQMFNALPRVVLAPIFLLWFGLGIWSKVAFGFTLVFFIVFFNTLEGVKSVDRVLVDNAKMLGASEKQLLRHVFIPSALTWIFSSLHISVGFAITGAVVGEYLGASAGVGYAIAQAQGVFDTEGVFAGMFILMVVVLIIDLGVNRVERHLLRWRPPQQSS	PGPT0001145_8622	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-17_02993	1080			hypothetical protein	ATGTTCAGCTCCGCAAACCGGCAAGGACGCCGCGTTTTCCCCACTAAGCCCCTCGCCGTCGTCGCCGGCCTCGCCCTTGCCCTGTCCGCCTGCGGCGCCCCACAGTCAGCACCTCCCGGACAGGGAGGCGGCGGGGGCGATGCCGCCAGCGGTGAGACCGTCACCATCGGGATCGGCGGCCAGACACTGCTCACCTACCTGCCCACGACGCTCGCCCAGGAGCTCGGGTACTACGAGGACGAGGGCGTCAAGGTCGATTTGCAGGACCTCCAGGGCGGTTCGAAGGCGCTGACGGCGATGATCGGTGGCAGCACCGACGTCACCAGCGGCTACTACGAGCACACCATCCAGATGCAGGCCAAGAAGCAGCCTGTCAAGGCGTTCGTGAACATGAACCTGTCCTCCGGACTGGCGCTGGTGGTCGCGGAGAAGAACAAGGACTCCATCAAATCCGTCGCTGACCTGAAGGGCAAGAACGTGGGCGTCACCTCGCCGGGGTCCTCCACCGACATGTTCGTGAAGTACCTGCTCTCCAAGAACGGCATGAAGCTGGACGCCGCTGCGGTATCGGCGATCGGTGCCGGGTCCTCGGCGGTTGCGGCCGTCGAGCAGGGCCAGGTGGACGCCGCCGTCATGCTCGAGCCGGACGTCACCGTCCTGGCCAAGCGGCTCGGAACCGAGCCGACGATCATCCAGGATGTCCGCACGCCGGAGGGTCTTAAGGAGGTCTTCGGTACCGATGCGTGGCCGTCGTCGAGCCTGTACGCCACCTCCGGCTGGCTGGAAAAGAACCCGGAGGCTGCCCGCAAACTGGCCGCAGCCATCAAGAAGACCCTGCAGTTCATTGCCGACCACTCCGGTGAGGAAATCGCGGCCAAGATGCCCGAGACCTTCGCCGGCGGCGATCCCAAGCAGTACGCCAAGGTCATCGAGGAGATGAAGGTGGCGCTGAGCAAGGACGGCGCCTTCACCGAGGAGGGCGCAAAAGCCGTCCTTGAGACGCAGCGGGTGGCCAACCCGGAGGTCGGCGAGGCCGAGATCAAGCTCGAGGAAACCTACACCAACGAGTTCGTCAAGTAA	MFSSANRQGRRVFPTKPLAVVAGLALALSACGAPQSAPPGQGGGGGDAASGETVTIGIGGQTLLTYLPTTLAQELGYYEDEGVKVDLQDLQGGSKALTAMIGGSTDVTSGYYEHTIQMQAKKQPVKAFVNMNLSSGLALVVAEKNKDSIKSVADLKGKNVGVTSPGSSTDMFVKYLLSKNGMKLDAAAVSAIGAGSSAVAAVEQGQVDAAVMLEPDVTVLAKRLGTEPTIIQDVRTPEGLKEVFGTDAWPSSSLYATSGWLEKNPEAARKLAAAIKKTLQFIADHSGEEIAAKMPETFAGGDPKQYAKVIEEMKVALSKDGAFTEEGAKAVLETQRVANPEVGEAEIKLEETYTNEFVK	PGPT0001135_5442	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-17_02994	1998	leuC_3		3-isopropylmalate dehydratase large subunit	GTGGCCCAGAACCTGACCCAGAAGCTCCTAGCCAGCCATCTCGCGTCCGGCGAGCTGACTCCCGGTACCGACATCACCATCGCCGTTGACCAGATCCTCATCGAGGACGCCACCGGCACCATGACCGCCATGCAGTTCGAAATGCTCGGCGTGGATTCCGTCGCGGTGCCGCTGGCGGTCATGTATGTCGATCACAACGTCCTGCAGATCGACGACAAGAACATGCAGGACCACCACTACCTGCGCACCTTTTCCGCCCGCTACGGGCTGCGCTACTCCCCCGCCGGGCACGGCATCTCCCACTACATCCATCTCGAACACTTCTCCCGGCCCGGTGGTGTCCTGGTGGGTGCGGACTCCCACACCTCTACCGCGGGCGCCCTGGGCATGTTCGCCCTCGGCGCCGGCGGGCTGGAGGTGGCTGTGGCCATGGCGGGTTACGGGTTCGACTTCGTGTGCCCCGCCGTCGTCGGCGTGGAACTGACGGGCACGCTCGGACCCAATGCCGAAGCGAAGGACGTGGTGCTGGAACTGCTGCGACGCCACGGCGTGCGCGGTGGCCGCGGGAAGGTCTTCGAGTTCTACGGCGAGGGTATGGCATCCCTGTCGGTCTCGGCGCGCGCGACCATCTGCAACATGATCATCGAAACAGGTGCCGCCACCGCCGTCTTCCCCTCCGATGACCAGACCCGCGCCTGGCTGCGGGCACAGCGCCGCGAGGACCAGTTCGTTCCCCTGACAGCCGATGCCGGCGCCATGTACGACGACGACGAGCAGATTGATCTCTCGAGCCTCGTTCCGCTCGTGGCGCTGCCGCATTCGCCGGGGAACGTCCGTCCGGTCTCCGAACTGCCGCGTACCGAGGTGGTCCAGGTCTGTGTCGGCTCGTCGGTGAACAGCTCCTATGAGGACCTCGCCACGGTGGCGGCCATCCTGAAGGGACACACCGTCCATCCGGCCGTCCAGCTCACCGTGACGCCGGGGTCGCGGCAGATCCTGCAGACGATCATCGCTTCCGGCGTCTACGAGGACCTCATGGGAGCCGGGGCGCGGATGCTCGAGCCGGTGTGCGGCCCGTGCGTAGGCATCGGGCAGGCGCCAACGGAGGGCGCGCCGTCGTTGCGGACGTTCAACCGGAACTTCCCGGGCCGCAGCGGCACTGCGGAGGACTGCGTATATCTGTGTTCGCCGTCGACCGCCGCTGCCAGCGCGCTGGAAGGCGCGATCGTCGACGCTTCCACCGTCAGCCGCGGCGAGCTCCGCCCCGCCACGCCGCCGCACCCGGAGGTCCACGATCTGCATATTGCCGGCGTCCTGCCCTTGGAGACCCGGCGCAACATCGAGATCGAGCGCGGCAGCAACCTGGTCCCGCCGCCACAACCGGAACCGCTCGCGGCGGACCTCGACGCCCGGGTGCTCATCGTCGTCGGCGATGATATCTCGACCGGCGACATGGCTCCCGACGGCGCCATCGCCATGTCGGTGTGGTCCAACATCGCCGTGTGCGCGCGCTTCATGTTCCGCCGCCTCGACCCTGAATTCCACGACCGGGCCCTCGAATGGGGCGGCGGAATCATTGTTGGCGGGGAAAACTACGGGCAGGGTTCGTCGCGAGAACATGCCGCCCTGATCCCGCTGTACCTGGGGGTCCGTGTGGTCGCTGCCCGGAGCTACGCCCGGATCCACCGCCGCAACCTCATCGCGGCCGGCATTGTGCCGCTGATCCTTCCCTCCGACGCGCAAAGCTCGGCCGGGCAGCGCTGGGTGATCGACGGGCTGGCTGATGCTCTGGCCAACGGTGGCCGCTCCGTCACCGCCCGTGTGGACGGGGACGCGGAGCTGACGCTCGGGCTCGACTTCTCGCCGGCCGAACGCGCTGTCCTCATTGCCGGGGGTCTGCTGGCCCAGGTGCGGACCGGCGGGCGCTCCGTGCTGGCCAGCAACGCCGTCGTACAGGACGACGCGGCGGGCGTTTCGCAGAGCCGATCCGCACGGTGA	MAQNLTQKLLASHLASGELTPGTDITIAVDQILIEDATGTMTAMQFEMLGVDSVAVPLAVMYVDHNVLQIDDKNMQDHHYLRTFSARYGLRYSPAGHGISHYIHLEHFSRPGGVLVGADSHTSTAGALGMFALGAGGLEVAVAMAGYGFDFVCPAVVGVELTGTLGPNAEAKDVVLELLRRHGVRGGRGKVFEFYGEGMASLSVSARATICNMIIETGAATAVFPSDDQTRAWLRAQRREDQFVPLTADAGAMYDDDEQIDLSSLVPLVALPHSPGNVRPVSELPRTEVVQVCVGSSVNSSYEDLATVAAILKGHTVHPAVQLTVTPGSRQILQTIIASGVYEDLMGAGARMLEPVCGPCVGIGQAPTEGAPSLRTFNRNFPGRSGTAEDCVYLCSPSTAAASALEGAIVDASTVSRGELRPATPPHPEVHDLHIAGVLPLETRRNIEIERGSNLVPPPQPEPLAADLDARVLIVVGDDISTGDMAPDGAIAMSVWSNIAVCARFMFRRLDPEFHDRALEWGGGIIVGGENYGQGSSREHAALIPLYLGVRVVAARSYARIHRRNLIAAGIVPLILPSDAQSSAGQRWVIDGLADALANGGRSVTARVDGDAELTLGLDFSPAERAVLIAGGLLAQVRTGGRSVLASNAVVQDDAAGVSQSRSAR	PGPT0001465_5059	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001465-acnA-K01681	NA	NA
D1-17_02995	1221			hypothetical protein	GTGAGGCCGGCAGCCGTCAAACCGGTTCGAAAACCAGCGCGTCGACCGGGACAGCGGGCCACGGCCATCGCTGCGCTGACAACGGTGGTGGCGGTGCTGCCGGTCTTCCTCGTCGGCGGGCTGGCTGTCCAGCTCGAGCAGGACCTGGGCATGACAGCGTCGGCGCTCGGTATCGCGGTGGCCACCTTCTGGGCTGTGTCAGCACTGCTGTCTGCTCCGGCCGGCTATGTGGCGAGCGGACTGGGGCTGCGCCGCGGGCTGCCGCTCGCCGTCGGGCTGGGCTTTGTGGCGCTGGCCGGGATCGCGTTTGTCACTCCGCACTGGGCATGGCTGGTCGTCTGGCTCAGTTTCGCCGGCGCCGCGAACGCCCTGATCCATCCACTGTCCAATGGCCTGATCGTGGACCAGGTCGCGGTCCGCAACCGCGCCTTCTCGTTCGGGCTCAAGCAGGCGGCCATTCCGACGGCGACACTCACCGCGGGCCTGTCCGTTCCGGTATTCGCCCTCACCGTTGGGTGGAACTGGACCTTCGCGCTGGCAGCACTACTGGCGGCGTCCCTGATTCCGGTGCTTTTCCGCACTCTCCCGCGCAGTGCCCCCGTCCGTCGGCGCTCCGGCAAAGCTGCCAGGGAGCCGCTCCCCCGGAGGCTGAAACCGTTCCTTTTTGCTACCGCCGTGGCCAGCGCCCTGGGGGCCGGGCAGGCCAATGTGGTGGGTGCTTTCACTGTCACCATGGCAGTGCAGGCGGGATTCGGTGCCGCTGGCGCGGGCCTATTGCTGGGCGCCGCCAGTGTGGCCGGGATTCTGGCGCGCCCGCTGGTTGGTATCGCCGCGGATCGAGGGATCGGCGGCTCGATGGCCACCGTGGCTCTAATGATGGGGGCTGGGAGCCTGGGGCTGCTCGGCATGGCGTCCGGCTTCCCGATCGCCTATGCAGCCGGAGCCGTCGTCGCCTTCGGTTTGGGATGGGGCTGGAACGGCCTGGCCCATTACGTGGTCTCACGCACGGCGCATCCGTTCACCATCCAGGCCACGGGAATCACGCAGAGCGGAACCTACATCGGCGGAACGCTGGGGCCGTTGCTGTTCGGGATCGTGTTCTCGCAGTTCAGTCCGGCCATTGGGTGGACGCTTGCAGCGGTGGTCGCAGCAGCTGGGGCGGGGGCCTCGCTGGTCGCGTTCCGTTTGGAGAAGCGTTTGCGCGGCGGGCCAGTCGTTTAG	MRPAAVKPVRKPARRPGQRATAIAALTTVVAVLPVFLVGGLAVQLEQDLGMTASALGIAVATFWAVSALLSAPAGYVASGLGLRRGLPLAVGLGFVALAGIAFVTPHWAWLVVWLSFAGAANALIHPLSNGLIVDQVAVRNRAFSFGLKQAAIPTATLTAGLSVPVFALTVGWNWTFALAALLAASLIPVLFRTLPRSAPVRRRSGKAAREPLPRRLKPFLFATAVASALGAGQANVVGAFTVTMAVQAGFGAAGAGLLLGAASVAGILARPLVGIAADRGIGGSMATVALMMGAGSLGLLGMASGFPIAYAAGAVVAFGLGWGWNGLAHYVVSRTAHPFTIQATGITQSGTYIGGTLGPLLFGIVFSQFSPAIGWTLAAVVAAAGAGASLVAFRLEKRLRGGPVV				NA	NA	NA	NA	NA
D1-17_02996	759			hypothetical protein	ATGACAAAAGTAGGAAGCTCTAAGAGGACTCTCGCCCTTATTGTGCTCACCGGCCTCATGCTCACTGGCTGTGGGGGAGCCAAACAGGAGGCAGCAGAGCCAGCCGCTGCCGCCGCCCTCGCCACGGCCGTTCAGAAGGTTACGGTTCCCGGCGTTGTGGGCCTGACTCTGGACAAAGCCACAGAGCAGTTGGAAGATCTCGGGTTCGAAGTGGAGGCCGTGGACATCGTCGATGGCAAGTCGATCGTTGTGGAAAAGAACTGGCAGGTGATCACCCAGGACCCCACCGAAGGCACCAGCGCGGACACGGGATCCGTGGTAGAGCTCGGTGTCAAGTCCCTTGACGTGCTTGCGGCAGAAAAGGCTGCCGTGGAGAAAGCGGCAGCCGAGAAGGTCGCAGCAGAAGCGGCAGCAGCGGCAAAGGCCGCGGCTAAAAAAGCTGCAGCCGAAAAAGCTGCAGCCGAAAAAGCTGCAGCCGAAAAAGCGGCGGCCGAACGAGCGGCGGCCGAACGAGCGGCGGCCGAACAGGCTGCGGCTGCGCAAGCTGCTGCCGCCGCGCAAGCCGCTCGGGATGCGGCAGCGCGGGCGGCAAAGCCGGCACCAGCCCCAGCGGTACCAGCGCCCGCGGCTCCCGCTCCGGCCGCCTACTACGCCAACTGCGCCGCTGCTCGAGCAGCGGGAGCCGCGCCGGTTTACGCGGGCGCACCAGGTTACGGCACTCACCTCGACAGGGACCGCGACGGTGTCGGCTGCGAGTAG	MTKVGSSKRTLALIVLTGLMLTGCGGAKQEAAEPAAAAALATAVQKVTVPGVVGLTLDKATEQLEDLGFEVEAVDIVDGKSIVVEKNWQVITQDPTEGTSADTGSVVELGVKSLDVLAAEKAAVEKAAAEKVAAEAAAAAKAAAKKAAAEKAAAEKAAAEKAAAERAAAERAAAEQAAAAQAAAAAQAARDAAARAAKPAPAPAVPAPAAPAPAAYYANCAAARAAGAAPVYAGAPGYGTHLDRDRDGVGCE				NA	NA	NA	NA	NA
D1-17_02997	1215			hypothetical protein	ATGATCACCGCACTGTTCGCGCTTCTGGGGGCGCTCAGCAGTGGAATCGGACTCGCGCTGGTACTCCTGGCCATCGCGGTTGGGCTCACCGGGATGTACGTCCTCCTGACCGGACGCCGCTCCTGGGCCATGCTGCCCGCAAAACGCAAAGCGGGTGCCGTAGCGCTCGTCACGTCATTCGCCCTTTTCATCGCCGGTGGCCTCGCCCTGCCGCCAGTGGCCACCCTGGACTTGGAAGCTGCCGCGTCAGACAGCACAGTGTCAGCCGCGCCCGTCAGTGCGAGCCCAACCGCTTCAGCCAGCGCCAAGCCGTCGGCCGCTCCTACTGCTACGGAATCCGGCGCGCCGCTGAACCCGGAGATTGCTGCCGTGGCGGCGCAGGGCACTTCGGCGTCGGCACCGAACGGGCAGCCTGCTTACGCTACGAAGGCACTGGACCTGCTGGCAACCCTTCCCGTCAAGGGCAGGGCGCCGAAGACCGGGTATGACCGAGCGCTGTTTGGGCAGGCATGGGCGGACGCTGACCGCAACGGCTGCGACACGCGGAACGACATGCTCAAGCGGGACCTCACAGCGATCACCTACGTCAACAGCGCGCCGTGCAAGGTGAAGTCGGGGACCCTGGCGGATCCGTATACGGGCACGAGCATCAACTTCCTGCGCGGGCAGGCTACCAGTACCGCGGTGCAGATTGATCATGTGGTGGCACTGAGCGACGCCTGGCAGAAGGGCGCACAGCAGCTGACTACCGAGCAGCGGACTGCCTTTGCGAATGATCCGCTGAACCTCCAGTCGACGGACGGCCCCACCAACCAGAAGAAGGGCGACGGCGACGCCGCGACTTGGCTGCCGCCCAACAAGGGGTTCCGGTGCGAGTATGTCGTGCGGCAGATCTTGGTGAAGGCGACGTACAGCCTGTGGGTGACGCAGGCGGAGCACGATGCCATGGTACGGATATTGGGCGCCTGCTTAGAGCAGTTGGCGCCGACGAGCGTACAGGCTCCTGCGCCGGTTGAGGCAACACCTGCACCTGCCGCTCCTGTTCCGGCCGCGCCAGTCCCCGCTCCGATTGCTCCTGTAGTGCCTGCACCCGCAACTGCCTACTACTCCAGCTGCGCCGCCGCCCGAGCCGCAGGCGCTGCACCGCTTTTTGCGGGACAAGCTGGGTACCGGCCGGCCCTGGACCGCGACTCCGACGGCGTGGCCTGCGAGTAG	MITALFALLGALSSGIGLALVLLAIAVGLTGMYVLLTGRRSWAMLPAKRKAGAVALVTSFALFIAGGLALPPVATLDLEAAASDSTVSAAPVSASPTASASAKPSAAPTATESGAPLNPEIAAVAAQGTSASAPNGQPAYATKALDLLATLPVKGRAPKTGYDRALFGQAWADADRNGCDTRNDMLKRDLTAITYVNSAPCKVKSGTLADPYTGTSINFLRGQATSTAVQIDHVVALSDAWQKGAQQLTTEQRTAFANDPLNLQSTDGPTNQKKGDGDAATWLPPNKGFRCEYVVRQILVKATYSLWVTQAEHDAMVRILGACLEQLAPTSVQAPAPVEATPAPAAPVPAAPVPAPIAPVVPAPATAYYSSCAAARAAGAAPLFAGQAGYRPALDRDSDGVACE				NA	NA	NA	NA	NA
D1-17_02998	2436	ppsA		Phosphoenolpyruvate synthase	ATGGCAACAGACATCCTGTGGTTCTCGGAACTCGGGCTCAAGGACCTGGACCGGGTGGGCGGCAAGAACGCCTCCCTCGGCGAGATGGTGCAGAACCTCACCTCCGCCGGCGTCCAGGTGCCCGACGGGTTCGCCACCACTGCAGATGCCTACCGCCGCTTCCTGGCCGAGTCGGGGCTGGACCAGCACATTGCCGACCGCCTGGTGGGCCTGGACACCGATGACGTAACTGCCCTGGCAGCCGCCGGCCACGACATCCGGGCCCTGGTGCGGCAGACCCCCTTCCTCCCCGACTTTGAGGAGCAGCTCCGGAATGCCTACCGGGAGCTGGTGGAGAAGCACGGCGGCTCCGAGGACCTCTCCTGGGCCGTCCGGTCCAGCGCGACTGCGGAAGACCTGCCGGACGCGTCTTTCGCCGGGCAGCAGGAAACCTTCCTGAATGTCCGCGGCATCGAGAACATCCTGACCGCCATCAAGGACGTGTTCGCGTCGCTCTACAACGACCGCGCCATCGCCTACCGGGTGCACCACAAGTTCGAGCACGCCGACGTGGCACTCTCGGCGGGCGTGCAGCGGATGGTGCGCTCCGACGTCGGGGCCTCCGGCGTCATGTTCACCATGGACACCGAATCAGGCTTCCAGGACGCCGTGTTCGTCACCTCCTCCTACGGCCTCGGCGAGGCCGTGGTCCAGGGTGCCGTGAACCCGGACGAGTTTTACGTGTACAAGCCGGCGCTGCAGGCGGGCCGGCCCGCCATCCTCAAGCGCGGTCTGGGCGAGAAGGCCCTGCAGATGACGTACACGTCCAGCCAGGAAATCGGCCGCACCATCGACTTTGTCCCGGTGGAGGCATCCCTGCGGAACCGCTTCAGCCTCAGTGACGAGGATGTGGAGCAGCTGGCCCGCCACGCCGTGGCCATCGAGAACCACTACGGCCGCCCGATGGACATCGAATGGGGCAAGGACGGGATCGACGGCGGCCTGTACATTCTGCAGGCACGCCCGGAAACGGTGCAGTCCCGCCGCGCCCCCGGCAGCCAGAGCCGCTTCCGCCTCAACGAAACTGGCCCGGTCCTGGCCGAGGGCCGCGCCATTGGCCAGCGCATCGGCGCCGGCAGCGTCCGCATCCTCACCGCCATCGACCAGATGGCCTCGTTCCAGACCGGCGACGTCCTGGTGGCTGACATGACCGACCCGGACTGGGAACCGATTATGAAGCGCGCCTCCGCGATCGTGACCAACCGCGGCGGACGGACTTGCCACGCGGCCATCATCGCCCGGGAACTGGGGATCCCCGCCGTCGTCGGAACCGGCCACGCCACGGACGCACTGTCCGACGGGCAGGAGGTCACCGTCTCCTGCGCCGACGGCGAGACCGGCGTCATCTACGAAGGCCTGCTGGACTTCACCGTGGAGGAAACCGGGATCACTGAGATGCCGGAGGCCCCCGTCAAGGTGATGATGAACGTGGGAACCCCGGAGCAGGCGTTCACCTTCGCCCAGCTGCCCAACCACGGCGTGGGCCTGGCCCGGCTCGAATTCATCATCAACCGCCAGATCGGCATCCACCCCAAGGCGCTGCTGAACCTGGACAGCCAGCCGGAGGACGTGGCCGCGCAGATCCGGGAGCGCATTGCCGCCTACAGCAGCCCACGCGAGTACTACATCAAGCGCCTCGCCGAAGGCGTCTCCACCATCGCCGCCGCGTTCGCGCCGGAACCGGTGATTGTGCGCATGTCCGACTTCAAGTCCAACGAGTACGCCAACCTCCTAGGCGGACCGGCCTACGAACCGCACGAAGAGAACCCGATGCTCGGCTTCCGTGGCGCCTCACGCTACCTGGAGCCGTCCTTCCGCGACTGCTTCGACCTCGAGTGCGAAGCCCTGTCCTTCGTCCGCAACGAGATGGGCCTGACCAACGTCAAGATCATGATCCCCTTCGTGCGGACCCTGAAAGAAGCCCGCGGCGTCATCGAGCTGCTCGCCGAGAACGGGCTGCGCCGGGGCGAGAACGGCCTGGAAGTGATCATGATGTGCGAGCTACCCTCCAACGCGCTGCTTGCCGACGAATTCCTGAACTACTTTGACGGCTTCTCGATCGGCTCCAACGACATGACCCAGCTGGCTCTGGGCCTGGACCGCGACTCGGCGATCGTGTCCGCAGGTTTCGATGAACGCGATCCTGCCGTCAAGAAGCTCCTCAGCATGGCCATCAGTGCCTGCCGGGAACGCGGCAAGTACGTGGGCATCTGCGGCCAGGGCCCCAGCGACCACCCGGACCTCGCCGAGTGGCTGGTGGATCAGGGCATCGACTCCGTCTCGCTGAACCCGGACACTGTGGTGGACACCTGGCTCCGGCTCGCAGACGTCGCGGCCAACGTTTCCCCGGGCGCTTCAGCCGAGGCTGAGCCCGTGGCCCTGGCGGGGGCGGTCTGA	MATDILWFSELGLKDLDRVGGKNASLGEMVQNLTSAGVQVPDGFATTADAYRRFLAESGLDQHIADRLVGLDTDDVTALAAAGHDIRALVRQTPFLPDFEEQLRNAYRELVEKHGGSEDLSWAVRSSATAEDLPDASFAGQQETFLNVRGIENILTAIKDVFASLYNDRAIAYRVHHKFEHADVALSAGVQRMVRSDVGASGVMFTMDTESGFQDAVFVTSSYGLGEAVVQGAVNPDEFYVYKPALQAGRPAILKRGLGEKALQMTYTSSQEIGRTIDFVPVEASLRNRFSLSDEDVEQLARHAVAIENHYGRPMDIEWGKDGIDGGLYILQARPETVQSRRAPGSQSRFRLNETGPVLAEGRAIGQRIGAGSVRILTAIDQMASFQTGDVLVADMTDPDWEPIMKRASAIVTNRGGRTCHAAIIARELGIPAVVGTGHATDALSDGQEVTVSCADGETGVIYEGLLDFTVEETGITEMPEAPVKVMMNVGTPEQAFTFAQLPNHGVGLARLEFIINRQIGIHPKALLNLDSQPEDVAAQIRERIAAYSSPREYYIKRLAEGVSTIAAAFAPEPVIVRMSDFKSNEYANLLGGPAYEPHEENPMLGFRGASRYLEPSFRDCFDLECEALSFVRNEMGLTNVKIMIPFVRTLKEARGVIELLAENGLRRGENGLEVIMMCELPSNALLADEFLNYFDGFSIGSNDMTQLALGLDRDSAIVSAGFDERDPAVKKLLSMAISACRERGKYVGICGQGPSDHPDLAEWLVDQGIDSVSLNPDTVVDTWLRLADVAANVSPGASAEAEPVALAGAV	PGPT0002035_1092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0002035-pps|ppsA-K01007	NA	NA
D1-17_02999	819	ppsR_1	COG1806	Phosphoenolpyruvate synthase regulatory protein	ATGACCACTGACGCTCTCCGGCCCGTCTATTTCCTTTCGGACAGCACCGGCATCACCGCGGAAACGCTGGGCAACACGTTGCTGACGCAGTTCCCCGGGAACAATTTCGACCGCATCACCATCCCGTTCATCACCACGGTTGAGCAGGCGCGGTCCGTCGTCAAAATCATCGACGGCGCCGCCGCCGCCGGACCTGCCCCGCTCGTCTTTTCGACGGCGGTCAGCAGTGAAATCCGCCAGACCTTGTCCGCGTGCAAGGGAACCATCGTGGACCTCATCGGCACGTACGTGGAACAGCTGGAGCAGGCACTGGGCAGTCACGCCAGCGGGGAACCCGGCAGGGCGCACGGCCTGGGAAACGCTGCGCGCTACCAGTCCCGGATGGCCGCCGTCGAATATGCCATGGAGCACGACGACGGCCAGAGCCTGCGTGCGCTGGAGAAGGCCCAGGTCATCCTGGTGGCCCCGTCCCGCTGCGGGAAGACGCCCACCACCATGTACCTGGCGCTGCAGCACGGGATCTTCGCCGCGAACTTCCCGCTGGTGGAGGAGGACTTTGCCCGGGAAGGGCTGCCCAAGTCGCTGAAGCCGTTCGTGTCGAAATGTTTCGGCCTGACCACCAACCCGCTGCGGCTAAGCCAGGTCCGCGCCGAACGGCGCCGCGGCTCCTCCTACGCCTCACTGCGCCAGTGCGGGTTCGAGCTGCGCAGCGCGGAGCGGCTCTACGAATACCACGGGATTCCGTACCTTAATTCGGCCAGTGTGTCCGTCGAGGAGATGGCGGCCACCATCCTGCAGAAGATGAACCTCAAGCACTAG	MTTDALRPVYFLSDSTGITAETLGNTLLTQFPGNNFDRITIPFITTVEQARSVVKIIDGAAAAGPAPLVFSTAVSSEIRQTLSACKGTIVDLIGTYVEQLEQALGSHASGEPGRAHGLGNAARYQSRMAAVEYAMEHDDGQSLRALEKAQVILVAPSRCGKTPTTMYLALQHGIFAANFPLVEEDFAREGLPKSLKPFVSKCFGLTTNPLRLSQVRAERRRGSSYASLRQCGFELRSAERLYEYHGIPYLNSASVSVEEMAATILQKMNLKH				NA	NA	NA	NA	NA
D1-17_03000	741			hypothetical protein	ATGAAAAAGTTAAACCCGACCGGCTTTAAGGATCAGCAGGCTCGGTATCATGGCAGGCCGCTTCGCCTCGCTTCATCGCTGTCGATCGCGGGCTTCTTGACGTTCGTGACAGCCACCCTTTTTCACGCGGGTGGGCCAGCCAACAACCACAGATTGATTTTCACAGAATACGCAGCAAGCACGAACTGGATCGTTGTCCATCTGGGGCAATTTGCTGGCATGGCACTATTCGTCGCCGGACTCCTTGTACTCTACTTTGCTCTGGATATCCGAGAGGGAAGCGCGGTCTGGGTAGCGCGGCTGGGTGCCGTTTCTGCCGCACTGGCCCTCGGTCTTTACGGAGTCCTGCAAGCTGTGGACGGTGTCGCACTCAAGCGGGCAGTAGTTGCCTGGGCTATGGCACCCGAGGCCGAGTCGGGGGATCGCTTCGCCAGTGCCGAGGTAATCCGATGGATTGAGTGGGGAATCAGGAGTTATCACACCATAATGCTTGGTTTCGCTTTGGTGTTGCTCGGCAGCGCAGTTGCCTTCACGGCAAGGCTGCCGAAAGTGCTGGGGTTCCTGATGGGGCTGTCTGGCCTCACCTACTTCCTGCAGGGCTGGGTGCTCGGGATCGAGGGCTTCTCCGAGACCAATACGGTGGCGATTTTGGCCGGGTATTGCCTCACTCTTGCATGGACGGTTTGGCTTGTCGTGATGGCGTGGCGGCAGAACGAACGGCCAGGGCAGCTCAGCTCGTAG	MKKLNPTGFKDQQARYHGRPLRLASSLSIAGFLTFVTATLFHAGGPANNHRLIFTEYAASTNWIVVHLGQFAGMALFVAGLLVLYFALDIREGSAVWVARLGAVSAALALGLYGVLQAVDGVALKRAVVAWAMAPEAESGDRFASAEVIRWIEWGIRSYHTIMLGFALVLLGSAVAFTARLPKVLGFLMGLSGLTYFLQGWVLGIEGFSETNTVAILAGYCLTLAWTVWLVVMAWRQNERPGQLSS				NA	NA	NA	NA	NA
D1-17_03001	975	oleD	COG0451	2-alkyl-3-oxoalkanoate reductase	ATGAGGGTCCTCGTCACCGGAGCAAGCGGGCTGCTTGGGGGAGAAGTTGCCCGGCTGCTGGTGCGCCAGGGCCATGACGTCACCACCTTCCAGCGCCGTCCGTCAGGGGTCGACGGCGCCACGGACTTCCGCGGGTCCCTGACGGACAATGAACGGCTCGGCCAAGCAGTCGAAGGCGCAGAAGGAATCATCCACCTGGCAGCGAAGGTTTCCTTCACGGGCCGCACCGCGGAGTTTGATGAGGTGAACGTCAAAGGAACCCGCCGCCTGCTCGATCGCGCCCGTGCGACGGGGGTGCGGGACGTGGTGTACGTGTCCTCCCCGTCTGTGGCCAACTCCGGTGCCGCCATTGCCGGCCTTGGCGCGGAGCCGGCGGACCCGGAACGCGCGCACGGCGACTACTCACGCACCAAGGCGCAGGCTGAGCTGTTGGCGCTTGCTGCCGACGCTCCCGAATTCCGGGTCGCAGCCGTGCGGCCCCACATCGTCTGGGGCCCCGGGGACACGCAGCTGGTGGAACGGGTCCTGGCACGGGCCAGCTGTAACCGCCTGCCGCTGCTCGACTCCGGTGCAGCCCTGATCGACACCACCTACGTGGACAACGCCGCCGCGGCCATCGTCGCTGCGCTGCACCGGATGGAAGACGTGCACGGCAGGGCCCTGGTGGTGAGCAACGGCGAGCCGCGGCCGGTGGGGGAGCTGCTGGCGGGCATCTGCGCGGCGGGAGGCGTTCCTGCGCCGTCGTGGTCCGTGCCCGGTGCGGTGGCACGGGTGGCGGGAGCTATGGTGGAGAAACTGTGGACCTGGGCCGGAAGGAAAGAGGAGCCGCCGATGACCCGGTTCCTCGCCGAGCAGCTCTCCACCGCCCACTGGTTCGACCAGCGTGAGACCCGGGAACTCCTCGACTGGACCCCCGCTCTCTCGATTGATGAGGGGCTGGCTAGGCTGGCGGAGCACTATGGTTCTCAGCGTTAG	MRVLVTGASGLLGGEVARLLVRQGHDVTTFQRRPSGVDGATDFRGSLTDNERLGQAVEGAEGIIHLAAKVSFTGRTAEFDEVNVKGTRRLLDRARATGVRDVVYVSSPSVANSGAAIAGLGAEPADPERAHGDYSRTKAQAELLALAADAPEFRVAAVRPHIVWGPGDTQLVERVLARASCNRLPLLDSGAALIDTTYVDNAAAAIVAALHRMEDVHGRALVVSNGEPRPVGELLAGICAAGGVPAPSWSVPGAVARVAGAMVEKLWTWAGRKEEPPMTRFLAEQLSTAHWFDQRETRELLDWTPALSIDEGLARLAEHYGSQR				NA	NA	NA	NA	NA
D1-17_03002	2724	dhmA_2		Haloalkane dehalogenase	TTGGTAACCGCAGACTGGCCTGGCGTGGACCCGGAATGGTCGCGGGAGATTGACGTTGCCTCCACCTCTGACGCCGATGCCCCGGGCACTGTCCGCCGTTGGCACCTGCTGGACAACGGCGCCCAGCTCTCCCGCCTCGGCCTGGCTCCCGCCGGTACCCTGCTGTGCGTGCACGGCAACCCCACCTGGTCGTACCTGTGGCGGACGCTGCTGGCCGCCGGATCAGATCCCGCCCACCCGTGGCGCGTGGTGGCGGTGGACCAGCTGGACATGGGCTACTCGGAGCGGACCGGCACCTTCCGGCGCCTGGCCGACCGCATCAACGACCTGGGTGACTTGACCAACGCTCTCGACCTCGACGGGCCTGTGGTGACAGCGGGCCACGACTGGGGTGGCGTGATCAGCCTGGGCTGGGCCCTGGCGCACCCGCAGCACCTCGCCGGGGTGGTGCTGACCAACACGGCGGTCCACCAACCCTCCGAGTCGGCAATCCCGCCGGCCCTGCGGCTTGCCCTGCACCCCGCCGTCCACGGTTGGGGAACGACGACGACGGACGCGTTTCTTCGGGTGACGCACTCGCTCGCCCACCCGCCGCTGCCCGCCGGCGTGCGCAAGGCCTACATGGCTCCCTACCGCGAAGCCCGCCGCCGCACTGGCGTAGGAAACTTTGTGGCGGACATCCCCGTGGATGCCTCCCACCCGAGTTTTTCCGCGCTCACCGGCGTCGCGGAAGGGCTGCGCGGGTTGGAGGTACCGGCGCTGATGCTCTGGGGCCCCCGCGATCCCGTTTTTTCGGACCGGTACCTCAATGACCTCATCAGCCGGCTTCCACACGCCGATGTGCACCGCTTCGAAGGCGCCGGCCATCTTGTAGCGGAGGACCGGAACATTGCCGCGCCGGTCTTCCAGTGGCTCGCCGAGAACGTTGGCGCCAAAAAAGTTGGCGCCGGAAAAGTTGGCGCACGCGAAAACTCATCCGCGGAAGCGGACGCCATGACGCCCGCCGGCCAGCGGCCGGACAAAGCTGAGCCGGAGCAGGCGGAATTCCGGCCCCTGTGGGACCTGCTCGGCAAGCAGGCGGCAGGATCCGCGGGAGCGGACACCGCCGTCGCGGAAATGGCGCCGGACGGCAGGGTGGCCCGCTCGCTCAGCTGGCAGCAGCTGGACCGGAACATCCTGGACCTGGCCGAGGGGCTGCGGGAAGCCGGCGTGGCAAGCGGCAGCCGGGTCAGCCTGATGGTTCCGCCGGGGGTGGACCTGACCGTCGCCCTCTACGCCTGCCTCCGGCTGGGCGCCGTGGTGGTGGTGGCCGACGCCGGACTGGGAACCAGAGGCCTCAGCCGCGCCGTAAAAGGCGCCACCCCGGATTTCATTATCGGCATCGACAAGGCGCTCGCGGCCGCCTCAGTGCTCGGCTGGCCGGGACGTCGGATCAGTGTGCGGGAGCTCCCGGCCGCCCGCCGCCGCATGCTGGGCGTCGAAGCCTCCCTCGAGGCCCTGGCACATGCCGGTGCCGGCCGCGGTTCACCGCAGCCAGGGGACAGCGTGGATCCGGATGCTCCGGCCGCCGTACTCTTCACGTCCGGCTCGACGGGCCCCGCCAAGGGCGTGCTCTATGCCCACCGGCAGCTGGCCGCGATGCGGGACACGGTGGCCGCAACCTTCGGAATCCGTCCCGGTGCACGGCTTGTGGCCGGTTTTGCGCCGTTCGCGCTGCTGGGACCGGCACTCGGAGCAGTGTCGGTAACGCCGGCCATGGACGTCACCGCGCCCCGCACTTTGACCGCGAGCGCGCTCGCCGGCGCCGCCGCGGCGATCGACGCTACGGTGGTCTTCGCCTCGCCGGCGGCGTTGCGCAACGTCCTTGCCACCCGGGATGACCTGGACGAAGCAGGGCGTAAAGCTTTGGATGGCGTCGGGTTGCTGCTCTCTGCCGGCGCGCCCGTCCCGGAACCGCTGCTGGCAGAGGTGCAGCGGCTGCTGCCCCGGGCCTCGCTGCATACCCCGTACGGGATGACAGAGGCGCTGCCGGTCACCGACATCAGCCTGGAACAGATCCAGGCCGCCGACGCCGATGCTGCCGCCGGCACTGTGGCGGGAGCAGGCAACGGCGTGTGCGTGGGGTGGCCGGTGCACGGCGCACGGGTCGCCGTCGTGCCGCTTGCGGCCGATGGCACCGCACCAGGATCCCAACCTGTGACCGAGCCGGGCGTGACGGGCGAGATCCTGGTCAGCGCCCCGCACGTCAAGGAAGCGTACGACCGGCTCTGGCTGACCCAGCAGGAAAGCAGCAGCGTGCCCGGATGGCACCGCACCGGCGATGTGGGGCACTTCGACGGCGCTGGCCGGATGTGGGTGGAGGGACGCCTCGCACATGTGGTTACGGCGCCTGGTGCTGTGGTGACGCCCGTGGGCGCGGAGCAGGCCATCGAACGCCTGGACGGCGTCCGGCTTGCGGCCGTCACCGGCGTCGGTCCGGGCGGCACCCAGGCCGTGGTCGCCGTCGTCGAGACCGTCCCGGCGGCGCGGAAAGCCGGCCCTGCTGCACCGCAGCTCGCCGGGAGTGTCCGCAGGGCAGCGCGTGAGGCCGGCGTCCAGGTGTCCGCAGTGCTGGAAGTCCCCGCACAGCCCACCGACATCCGGCACAACGCCAAGATCGACAGGAGCAGGCTGTCCCGCTGGGCTACGCGGGTGCTGGCCGGCGGCCGGCCAGGGAAACCATGA	MVTADWPGVDPEWSREIDVASTSDADAPGTVRRWHLLDNGAQLSRLGLAPAGTLLCVHGNPTWSYLWRTLLAAGSDPAHPWRVVAVDQLDMGYSERTGTFRRLADRINDLGDLTNALDLDGPVVTAGHDWGGVISLGWALAHPQHLAGVVLTNTAVHQPSESAIPPALRLALHPAVHGWGTTTTDAFLRVTHSLAHPPLPAGVRKAYMAPYREARRRTGVGNFVADIPVDASHPSFSALTGVAEGLRGLEVPALMLWGPRDPVFSDRYLNDLISRLPHADVHRFEGAGHLVAEDRNIAAPVFQWLAENVGAKKVGAGKVGARENSSAEADAMTPAGQRPDKAEPEQAEFRPLWDLLGKQAAGSAGADTAVAEMAPDGRVARSLSWQQLDRNILDLAEGLREAGVASGSRVSLMVPPGVDLTVALYACLRLGAVVVVADAGLGTRGLSRAVKGATPDFIIGIDKALAAASVLGWPGRRISVRELPAARRRMLGVEASLEALAHAGAGRGSPQPGDSVDPDAPAAVLFTSGSTGPAKGVLYAHRQLAAMRDTVAATFGIRPGARLVAGFAPFALLGPALGAVSVTPAMDVTAPRTLTASALAGAAAAIDATVVFASPAALRNVLATRDDLDEAGRKALDGVGLLLSAGAPVPEPLLAEVQRLLPRASLHTPYGMTEALPVTDISLEQIQAADADAAAGTVAGAGNGVCVGWPVHGARVAVVPLAADGTAPGSQPVTEPGVTGEILVSAPHVKEAYDRLWLTQQESSSVPGWHRTGDVGHFDGAGRMWVEGRLAHVVTAPGAVVTPVGAEQAIERLDGVRLAAVTGVGPGGTQAVVAVVETVPAARKAGPAAPQLAGSVRRAAREAGVQVSAVLEVPAQPTDIRHNAKIDRSRLSRWATRVLAGGRPGKP				NA	NA	NA	NA	NA
D1-17_03003	1023	oleA	COG0332	Acyl-CoA:acyl-CoA alkyltransferase	TTGGCAGGGAATGCAACCTTCCGGCATAGCAACACCGCGTTGCTCTCGGTCAGCAGCGTCGAGGCTCCCAGGATCGTAAGTTCTACGGATTTCGACCGCAGGCTGGCTTCGACCCTGCAGCGGCTGAACTTCCCGCCCGGGCTGCTTGAGCGTGTCGCCGGTGTCACGCACCGGCGCTGGTGGGCGGCCGGGACCTCTTTTGATGATGCGGCCACCGAGGTGGGCGCCAAAGCCCTGGCCGAGGCCGGCGTCGAACCGTCAGACGTCGGCCTGCTGATCAACACCTCGGTGACGCGGCGGAACCTTGAACCGTCCGTCGCGGTGAAGATCCATCACGGACTCGGCCTGCCGTCGTCGGCCATGAACTTCGACCTGGCCAACGCCTGCCTGGGGTTCGTGAACGGCCTGACCCTGGCGGCCAGCATGATCGACTCGGGGCAGATCACGTACGCGGTGATCGTCAACGCCGAGGATGCCGAGGCCACGCAGAAGGCCACGCTGGCCCGCCTCCAGCGGCCCGAGACCACGCGGGAGGACTTCAACCGGGAGTTTGCCACGCTCACCCTGGGCTCTGGAGCTGCTGCCGCCGTCCTGGGTCCCGCAGACAAGCATCACGGTGCTCACCGGATCGTCGGCGGGGTGATGCGCGCCGGCACCGAACACCATGAATTGTGCGTGGGCGGCCTTGACGGCATGACCACCGACACGAAAGGACTGCTCGACGGCGGTCTCCAGCTCGTTGTCGACGCTTGGCATGAAGCCCGGCCGGAGTGGGACTGGACCGCCATGGACCGCTACGTCACGCACCAGGTGAGCAATGCCTACACGCAGGCGATTATCGACGCCATCGACCTGGACCCCGCGAAGGTGCCCATCACATTCCCGCGCTGGGGCAACGTGGGCCCGGCCTCCCTCCCCATGACCCTCGCCGCCGAGGCCCAATCCCTTGAAACGGGGGACCGGGTCCTGTGCATGGGCGTCGGATCCGGGTTGAACACCGCCATGCTGGAGATTCTTTGGTAA	MAGNATFRHSNTALLSVSSVEAPRIVSSTDFDRRLASTLQRLNFPPGLLERVAGVTHRRWWAAGTSFDDAATEVGAKALAEAGVEPSDVGLLINTSVTRRNLEPSVAVKIHHGLGLPSSAMNFDLANACLGFVNGLTLAASMIDSGQITYAVIVNAEDAEATQKATLARLQRPETTREDFNREFATLTLGSGAAAAVLGPADKHHGAHRIVGGVMRAGTEHHELCVGGLDGMTTDTKGLLDGGLQLVVDAWHEARPEWDWTAMDRYVTHQVSNAYTQAIIDAIDLDPAKVPITFPRWGNVGPASLPMTLAAEAQSLETGDRVLCMGVGSGLNTAMLEILW				NA	NA	NA	NA	NA
D1-17_03004	624			hypothetical protein	ATGATTACTATGCCGGGGTTTCCGCTTTCCGCCTCTGTGACCAGGTCACTTCTGGTACTCGGACAGTTGGCGCCGAATTCGTCTTCGCCCTCAGTCGACCTGAAACATGCACTGGCAGTCCCTGCCTCGCCGCGAATAAATCCAGTAACTTTGTGGTTGGAACTTCCGGGCCAGCGACGTCCCTCTCCGCTCCTCCCTTTGAATGGGTCCGCTCCCCCATGTCTTCCGCCCTGCCCCTGCCTGTGCCCATACGCTTCCCGCTCGCCGCGATGCTGGTGCTCGCCACCATCGCCTTCACGGCCATCACCACCGAACTGCTGCCCTCCGGTCTGCTGCCGCAGATCAGCGAGGGCCTGGACGTCTCCGAGCCCGTGGCCGGCGCCGCCGGCCTGGTCAGCATCTGCCGGCCTCGGCGCGGTCGGCGTCTACAACCAGACCGCCATCCTCCGGGCCGGCCGCGAGTACAAAGACGCCGCCAACGGCCTCACCGTGTTGACCATTCAGCTCGGCATCACCGTCGGCGCCCTCTACGGCTCCGCCGCCCTGGTCCTGGCCGGCCCGCTCCTGGATGATTACCGTTGCAAGCCGACAGGCGTGCCGATTATCTGGTGCTCTGATATTTAG	MITMPGFPLSASVTRSLLVLGQLAPNSSSPSVDLKHALAVPASPRINPVTLWLELPGQRRPSPLLPLNGSAPPCLPPCPCLCPYASRSPRCWCSPPSPSRPSPPNCCPPVCCRRSARAWTSPSPWPAPPAWSASAGLGAVGVYNQTAILRAGREYKDAANGLTVLTIQLGITVGALYGSAALVLAGPLLDDYRCKPTGVPIIWCSDI				NA	NA	NA	NA	NA
D1-17_03005	1869	opuD	COG1292	Glycine betaine transporter OpuD	ATGTCCGCCACACCAGGCACCAGGCCCATCAGCCAACCACCGGGGGACCTTCCGCCTGCCCCCCAAGAAGGGGTGCACCACCAGCCCGGAAACCGCGACTCAAGACTCGCCAGATGGGTCTTCTGGCCCGCAGCCGCCATCATCATCGTGTTCGTCCTCTTCGCCACGATCTTCCCGGCCGCCGCGACAGCGCTCTTCGGCGCGATCCAGGGCAACGTTATCAGATGGTTCGGCTGGTACTACGTCGCAGCGATTGCCCTCTTCGTAGCATTCGCGCTCTGGATCGGCCTCGGCCACTACGGCAACATCAAACTCGGCAAAGACGAGGATGAACCCGAGTTCTCCGTCATGTCCTGGTTCGCCCTCCTGTTTGCCGCCGGCATGGGGATTGGCCTGGTCTTCTTCGGTGTGGCCGAGCCCCTGAACCACTTCGCCTCTCCCCGTCCGGGTGTGGAAGGTTCGCCTTTGGAGCTCGCCCAGCAGGCGATGACGCAAACGTACCTCCACTGGGGCCTGCACGCGTGGGCCATCTACGTTGTGGTGGGGGTATCTATTGCCTACGCCGTGCATCGCAAGAAGCACCAGATCTCCATTCGGTGGGCCCTGGAACCGCTTTTGGGCCACAAGCGTGTGGCCGGCGCATGGGGCAACCTGATCGACGTCGTCGCCCTGGTGGGTACGCTCTTTGGCGTAGCTGCCTCGCTGGGTCTCGGTGTCCTGCAGATTTCTGCCGGTCTGGAGCAGGTCAACATCGTTCAGGCCACCACTGTGACGCAGATCGGCCTGATCCTCGGCATCATCACATTGACCATCGTTTCCGTGGTGTCAGGTGTGGCCAGGGGCATGAAGTGGCTGTCCAACACCAACCTGGTCCTGGCCGCATTGCTGATGCTCGTGGTGCTGTTCACCGGCCCCACACTGTTCCTGCTGCGGGAGTTCGTGCAGTCCGTCGGCCATTACCTGCAGAACGTCGTTGGCCTTACGTTCAACACCTTGGCCTTCTCCGGGGCGGAGGGTGAAGCCTGGCAAGCAGCCTGGACCACCTTCTACTGGGGCTGGTGGATCTCTTGGGCCCCCTTCGTCGGTATCTTTATTGCCCGCATTTCAAAGGGCCGCACCGTCCGGCAGTTCGTTGCCGGCGTCCTGCTGGTGCCTACCACCGTCGGATTCCTATGGTTCTCCGTCCTGGGCGGCGCGGCGATCCACCGCGAACTGTTCGGCGCCGGGGGCCTGATCAGTGACGACGGCAGCGTGGACACCGAGGGCGCACTGTTCAATCTCCTCGGCAGCCTTCCCGGCGGAGCGGTCCTGACGGTGGGCGCCATCCTCCTGATCGCCATCTTCTTCATCACTTCGGCAGACTCCGGTTCACTGGTGATGGGCATGATTTCCACGGGAGGCGATGTGGAGCCGAAGAACTGGTTGCGCATCTTCTGGGCGCTGGCAGCCGCCGCCGTTGCCATCGCACTACTCCTGTCCAATGGTTTGCAAGCAATCCAAACGGCGGCCATTCTGACGGCAGTGCCTTTCAGTGTTGTCATCGTTCTGATGTGCGTTTCCACAGCCAAGGCTTTCCATCGGGAACACGCCATTCTGATGAGAGCGCAACGCAGGCTTGCCCGCGACGAGATGGCTACATATGTCACCGAACAGGTGCAGGACTCCATGCAGGACTCCGTTCAGGAGCATTACCAGGAGCACGTCGCGGAGCAGATCCACGACTCGGTCCAAGAGCACTATCAGGAGCACCTGGCAGACCAGGTCACCGAGGCTGTGGAGGCCCAGCTCAGTGAGCGGCTCGCTGCGGAGGACGTCCCGGACCAGGAAGCACCAATGACCGGAACGTCCACAGAGAAGCGCAGCCCGTAA	MSATPGTRPISQPPGDLPPAPQEGVHHQPGNRDSRLARWVFWPAAAIIIVFVLFATIFPAAATALFGAIQGNVIRWFGWYYVAAIALFVAFALWIGLGHYGNIKLGKDEDEPEFSVMSWFALLFAAGMGIGLVFFGVAEPLNHFASPRPGVEGSPLELAQQAMTQTYLHWGLHAWAIYVVVGVSIAYAVHRKKHQISIRWALEPLLGHKRVAGAWGNLIDVVALVGTLFGVAASLGLGVLQISAGLEQVNIVQATTVTQIGLILGIITLTIVSVVSGVARGMKWLSNTNLVLAALLMLVVLFTGPTLFLLREFVQSVGHYLQNVVGLTFNTLAFSGAEGEAWQAAWTTFYWGWWISWAPFVGIFIARISKGRTVRQFVAGVLLVPTTVGFLWFSVLGGAAIHRELFGAGGLISDDGSVDTEGALFNLLGSLPGGAVLTVGAILLIAIFFITSADSGSLVMGMISTGGDVEPKNWLRIFWALAAAAVAIALLLSNGLQAIQTAAILTAVPFSVVIVLMCVSTAKAFHREHAILMRAQRRLARDEMATYVTEQVQDSMQDSVQEHYQEHVAEQIHDSVQEHYQEHLADQVTEAVEAQLSERLAAEDVPDQEAPMTGTSTEKRSP	PGPT0013600_1039	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-17_03006	1098	panS	COG0385	Pantothenate precursors transporter PanS	ATGCGGAAGCACGTCGCCGTCGTACCCTCCCGCCTCCGTCATCAACAGACGCTGATTCTCAACCTCGGCCGCCGCTGTGATAATCCGGTAGTCATGTCTTCCTTATCCAAATCTTCCGCGACGGCATCCGCTGCCGAAGAGCGCAGCGCCCGCGTCGCCGTCACCCTTTTTCCCCTGCTTATCCTTGCCGGAGGAGCGGTAGCGCTTACCGCGCCAACAGCTTTCACCGGGCTGGCCCCGTGGATCACTCCCCTGCTGGGAGTCATCATGTTCGGCATGGGCCTGACGCTCACGCCCCCTGACTTCGCCGTCATCGCCAAACGTCCCGTCCCGGTAGTCATCGGCGTTGTGGCACAGTACGCCATCATGCCGCTCCTGGGCTGGCTGATCGCGGCGGCGCTGGGCCTGCCGCCGGCCCTGGCGGCCGGTGTCATCCTGGTGGGCTGCTGCCCCGGCGGAACGGCATCCAACGTTGTGTCTTACCTGGCCAGGGGTGACGTTGCCTTGTCCGTTGCCATGACGACCGTTTCAACGCTGCTTGCTCCGCTGCTGACCCCCGTACTGGCACTCTGGCTGGCAGGCCAGTACATGCCGGTGGACGCCGGTTCGATGGCGTGGTCGATCGTCCAGGTTGTGCTGATCCCCGTGCTGCTGGGACTCGTGCTCCGAACCTTCCTGCCGCGCCTGGTCACCAGGGCGCTGCCTGCCCTCCCCTGGATTTCGGTACTCGCCATCACCCTTGTGGTTGTTGCGGTGGTTGCAGGAAGCGCAAAGGCCATCTTCGCCGCTGGGCTGCTGGTTCTCGCCGCCGTTATCCTCCACAACGGCCTGGGTTACGCCCTCGGGTACGGCGCGGCCCGCTTGTTCAAGCTGCCGGTACCCGCGCGTCGCACCACCGCAATCGAGGTCGGCATGCAGAACTCAGGCCTTGCAGCAGCGCTCTCGCGGCAGTATCTGACTCCCGAATCAGCCCTGCCTGCCGCTATCTTCTCGGTCTGGCACAACGTTTCCGGTGCAGTTCTGGCGGCCTACTGGCGCCGCCGGAACACTCCTGCCGTGCGCGGCAGTCAGCAGGTTCCTGCGGCCATCACGGAATGA	MRKHVAVVPSRLRHQQTLILNLGRRCDNPVVMSSLSKSSATASAAEERSARVAVTLFPLLILAGGAVALTAPTAFTGLAPWITPLLGVIMFGMGLTLTPPDFAVIAKRPVPVVIGVVAQYAIMPLLGWLIAAALGLPPALAAGVILVGCCPGGTASNVVSYLARGDVALSVAMTTVSTLLAPLLTPVLALWLAGQYMPVDAGSMAWSIVQVVLIPVLLGLVLRTFLPRLVTRALPALPWISVLAITLVVVAVVAGSAKAIFAAGLLVLAAVILHNGLGYALGYGAARLFKLPVPARRTTAIEVGMQNSGLAAALSRQYLTPESALPAAIFSVWHNVSGAVLAAYWRRRNTPAVRGSQQVPAAITE	PGPT0013890_745	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
D1-17_03007	1236		COG2814	Chloramphenicol efflux pump	ATGTCTTCCGCCCTGCCCCTTCCTGCGCCCAAACGCTTTCCGTTGGCCGCGATGCTGGTGCTCGCCACCATCGCCTTCACGGCCATCACCACCGAACTGCTGCCCTCCGGTCTGCTGCCGCAGATCAGCGAGGGCCTGAACGTCTCCGAGCCCGTGGCCGGCTACCTGGCCGCCGCTTACGCCGCCGTCATCGTGGTCACCGTGATCCCGGCGGCGCGGCTGCTGGCCAGGGTGCCGCGGAAGACCCTGCTCGTCTCACTCGTCCTGACCTTCGCGCTGAGCAACGTCCTCGTCGGACTGGCGCCCAACTTCACCGCGGCCATGGCAGCACGTTTGGTCGGGGGCCTGGCGCACGGCCTGCTCTGGACCACCATGGCCCCGTTCGTCGCACGGGTGGTCCCGGCCGACAAGGTGGGCAAGGCCCTGGCCATCGTCTTCAGCGGCAACAGCCTGGGCCTGGCCATCGGCGCCCCCGTCGGCACGGCACTGGGCACCCTCTTTGGCTGGCGCGCGGCCTTCCTCTTCCTCGCCGGCTTCGGCCTGCTGCTGACCGGCCTGGCCCTCTGGCTGCTGCCGCAGGTCCGCCGGATCCCTGACGCCGTCCGTCCCTCCCTGCGCAAAGCAATCGCCCAGCCCGGCGTGAAATCCGTGGCCATCGCCTGGCCGCTGCTGGTCCTGGCCCACTTCGCGCTCTTCACCTACATCGCGCCGTTCATCCGCGAAGCCGGCCTGCCCGACTACGCTGTCGGCCTCTCCCTCACCGTCCTCGGCGCCGCCGGCCTGGTCGGCATCTGGATCGCCGGCCTCACCGTGGACACCCGGCCCCGCCGCTCGCTGATCATCACGACGGCGGCCATCGCCGTCGCGATGCTCCTCCTCCCGCTCGGCGGAGGCAACATCCCCGTCGCCATGGTCCTCATGGCCGTGTGGGGTGCCGGCCTCGGCGCGGTCGGCGTCTACAACCAGACCGCCATCCTCCGGGCCGGCCGCGAGTACAAAGACGCCGCCAACGGCCTCACCGTGTTGACCATTCAGCTCGGCATCACCGTCGGCGCCCTCTACGGCTCCGCCGCCCTGGTCCTGGCCGGCCCGCTCCTGGTCCCTGTCGCCGCAGCGCTGCCGGTCGCCGTCGCCCTCGTCATCACGCTGGCCGGCAGGAAGCACGCCTACCCGCCGGGCCGGAAAGAGTCCGGCCGGTCAAAGCCAGAAGTCAGCGAGCCTGCACTCCAGCGCTAG	MSSALPLPAPKRFPLAAMLVLATIAFTAITTELLPSGLLPQISEGLNVSEPVAGYLAAAYAAVIVVTVIPAARLLARVPRKTLLVSLVLTFALSNVLVGLAPNFTAAMAARLVGGLAHGLLWTTMAPFVARVVPADKVGKALAIVFSGNSLGLAIGAPVGTALGTLFGWRAAFLFLAGFGLLLTGLALWLLPQVRRIPDAVRPSLRKAIAQPGVKSVAIAWPLLVLAHFALFTYIAPFIREAGLPDYAVGLSLTVLGAAGLVGIWIAGLTVDTRPRRSLIITTAAIAVAMLLLPLGGGNIPVAMVLMAVWGAGLGAVGVYNQTAILRAGREYKDAANGLTVLTIQLGITVGALYGSAALVLAGPLLVPVAAALPVAVALVITLAGRKHAYPPGRKESGRSKPEVSEPALQR				NA	NA	NA	NA	NA
D1-17_03008	1221			hypothetical protein	GTGGTGCCGGTTCCGGCGTCGGCTGCTTCGGGGGATGTTGGGGTTGAAGGCCGGTCACACTCAGGGACGGGGACGCCGACGGGCTCGAAGCGGGCGACGAGTGCGTTGTGGTTCAACGACGGGTCCTGGTGGGGGAGCCTGTGGGACACTGCCAGCTCGGATTTTCATATCTTCCGGTTCAATGCCGCGACGAGGTCGTGGGTTGATACAGGTGTGGCGACGGACAAGCGGGCGGACACCCACCATGACGTGCTGTGGGACGGGAGAACGTTGCATGTGGCAAGCTATCGGTTCGTCAACGACGGCCGGCGGGCTGAGCCGAACCACCCGACGACGATGCGGCGTTACAGCTACAACGCGAGTAAGAAGACGTACTCGCTGCTGAGTTCTACAAAAATCAACGACCACCGTGTTGAGGCCCTGACCATCGATAAGGACTCCACGGGCCGGGTATGGGCCACCTGGCAGCAGGGAAACCGGATCTACCTGAACGTCACTGCCACGGACGGCAAGACCTGGGGGACGCCGTTCCCCCATCCTGCCTCGCTGGGCAATGTCTCTGTGGATGACACCTCGGCTGTGATCGCGTTTGGACCGGGCAAGATCGGTGTGATGTGGAGCCGCCAGGTCGGTGACGCCACCGACGGCATGTACTGGAGCTACCACGTCGACGGAGCGGCGAAAACCACCTGGACCGCTCCTGTCGCGGCGGTGAAGGGCCAGCGCAGCAGTGATGACCATATGAACCTGAAGTGGCTGGATTCCTCGCGCGGCCGGGTTTTCTCCGCGATTAAGACGTCGTTCACGTCGGCGTCCCAGCCGCTGATCCAGCTGTTGGCATTGAATAATGCGACCTCGGCATGGTCGGCGCACACGATCGCGACCGTGGCGGAGTGCCCGAACCGGGTGATCGTCATGATTGATGAGAGCACGCAGAGACTGCGGACCTTCGCTACCTATCCGAAGCCCAGCGGCACGGCCAACGCCGGTGTCTGCACCACCTCGGGCGGTGCGATCTACGAGAAGTCCACGCCGCTGAACGACATCAACTTCACCACCACGAAGACAGCCCGCATCGTGGACGCCGACCAGTATGTCCACAACGTGACGTCGACGAAGCAAAACCTGAACAGCGTGGCAGGGGGCACCGCTAACAGCGGTCTGCTGCTGCTGGCCGATGTGAACGCCACCAGCCGGTACTGGCACTACTACAACCGGTGA	MVPVPASAASGDVGVEGRSHSGTGTPTGSKRATSALWFNDGSWWGSLWDTASSDFHIFRFNAATRSWVDTGVATDKRADTHHDVLWDGRTLHVASYRFVNDGRRAEPNHPTTMRRYSYNASKKTYSLLSSTKINDHRVEALTIDKDSTGRVWATWQQGNRIYLNVTATDGKTWGTPFPHPASLGNVSVDDTSAVIAFGPGKIGVMWSRQVGDATDGMYWSYHVDGAAKTTWTAPVAAVKGQRSSDDHMNLKWLDSSRGRVFSAIKTSFTSASQPLIQLLALNNATSAWSAHTIATVAECPNRVIVMIDESTQRLRTFATYPKPSGTANAGVCTTSGGAIYEKSTPLNDINFTTTKTARIVDADQYVHNVTSTKQNLNSVAGGTANSGLLLLADVNATSRYWHYYNR				NA	NA	NA	NA	NA
D1-17_03009	1032	ligC_2	COG1793	DNA ligase C	ATGTCAAAGTCCGGGGAGATGCTTCCGTCTGGACTTCGCCCGCCGCTAAACGTCGCACTGGCGAAGGCCGTGAAGGGTCTTCCTGCAGTGGGGGCGTTGCCGGCCCCGGTATGCTTCGAGCCCAAGTGGGACGGTTACCGCGTTCTGATTTTTCGTCAGCAAGGCAGTACGAGCCTGTGGTCCCGCCAGGGCAAGGACCTGACCCGGCATTTCCCGGAAGTCGAGGCTGCGGCGGCCGACATGATTCCCGACGGTTGTATTGTCGACGGCGAAGTCGTCGTGTGGTCCGGGGGCCGGCTGCACTTCGAAGCCCTGCAGCAGCGGCTGACGGCAGGGAAGGACAAGCTGCAGGCCCTCGTCGGCGATCTTCCGGCAAGCTTCGTCGGCTTTGACGTGTTAGGCGTCGCCGGGCAGGACGCCAGGGATCTGCCGTTGCTGGACCGGCGGGCGCTGCTGGAGGAACTCTCTACGGTGTGGTCCCCGCCCCTGGCGCTTTCCCCGCAGACGGGTGACTGGGATCTCGCGCGGCAGTGGTTTGAGGACCTGGCCGGCGCCGGCCTTGAAGGGGTCGTGGCGAAAAGCGGTGGCCAGCGGTACCTCGGCGGCCAAAGGATCTGGCTCAAGGCCAAACTTCTCAGTGACCTCGATGTGGTGTGCGGAGCTGTCATCGGCCCCGTCGGCCGGCCCACGGAAATCGTGGCAGGACTCCCCATCGGGGGAGAACTTCGCATCGTGGGCCGCAGCTCGCGTTTGAAAACAGCAGACAGCGGGGCGCTGGCCCGCTGGCTGCGGCCCTCTACTGGCACCCATCCCTGGCCGACGACGGTCAAGGGCACGGCGCTTGACCGGTTCAACCGCGACGCATCGCCCGTGGAACTCACCCTGGTCGAACCTGTCGTGGTGGAAGTGGCGGCGGATGCGGCTTGGTCGGGGAAGTCATTCCGGCATGCGCTGCGCTTCCGCAGGGCCCGTCCTGAACTGGACCCGGCCTCTGTCGAAGTACCGGCGAGACTGCCGATTGCTGAACGTTAG	MSKSGEMLPSGLRPPLNVALAKAVKGLPAVGALPAPVCFEPKWDGYRVLIFRQQGSTSLWSRQGKDLTRHFPEVEAAAADMIPDGCIVDGEVVVWSGGRLHFEALQQRLTAGKDKLQALVGDLPASFVGFDVLGVAGQDARDLPLLDRRALLEELSTVWSPPLALSPQTGDWDLARQWFEDLAGAGLEGVVAKSGGQRYLGGQRIWLKAKLLSDLDVVCGAVIGPVGRPTEIVAGLPIGGELRIVGRSSRLKTADSGALARWLRPSTGTHPWPTTVKGTALDRFNRDASPVELTLVEPVVVEVAADAAWSGKSFRHALRFRRARPELDPASVEVPARLPIAER				NA	NA	NA	NA	NA
D1-17_03010	1542	acp		Sodium/proton-dependent alanine carrier protein	ATGAGCGATGTCTTATCAGCCATCAATAACGTGATCTGGAGCGACTGGCTCGTCTATCTCTGCCTCGCCACAGGCGTCTACTTCTCCGTCCGTTCGCGCTTCCTGCAGGTGCGGCACGTCAAGGGCATGATCCAGCAGCTGGTGCGGGGTGAGAAGTCCGCCTCCGGCGTCTCCTCGTTCCAGGCCCTGGCGATGTCCCTGTCAGGCCGCGTCGGCACCGGCAACGTCGCCGGTGTCGCCACCGCAATCGCCTTCGGCGGACCCGGCGCCCTGTTTTGGATGTGGGCGGTCGCTTTCCTGGGCGCATCCACATCGTTTATCGAGTCGACCCTCGGCCAGATCTACAAGACCCGCGACCCGCTGACCGGCGAATACCGCGGCGGCCCGGCGTACTACTTCTCCCGTGCGTTCGCCCACACCAAGGGCGCCGGCTTCTTCAAGGTCTACGGCTACATCTTCGCGGCCGTGACCGTCCTTGCCTGCGGCATTCTCATGCCGGGTGTCCAAACCAATTCTATGGCCACCGCAATCAGCGGCGCGTGGACCCTCGAGCCGTGGATTGTTGCCGTCGGCTCGGTCATCCTCCTGGCCCTCGTCGTCGTGGGCGGCGTGAAGCGTATTGCCAGCGTTGCCGCGTTCGTGGTGCCCTTTATGGCCGTCGGCTACATCATCCTCGCCCTGATCGTCGTCGTCATCAACGCCGCCCAGCTGCCGGAAATCCTCTCGCTGGTGTTCCGCAGCGCCTTCGGTATGGATTCTGCCCTCGGAGCCATCATCGGCCTGGCCGTGATGTGGGGCGTCAAGCGCGGTGTCTACTCAAACGAGGCCGGCCAGGGAACGGGCCCGCACGCCGCGGCCGCCGCCGAAGTCTCGCACCCGGCGAAGCAAGGCCTGGTCCAGGCCTTCGCGGTCTACATCGACACGCTGTTCGTCTGCTCGGCCACCGGCTTCCTGATCCTCTCCACCGGCGCCTACCGCGTCTTCTCCGGGGGCAGCGAAGACGGTGCAGTCCTCGCCGAAGGCGGCCTGCTGTCGGCCTCGGCCGTCGTTGGGCCGCAGTACGTGCAGGCCGGATTCGACTCCGTCTTCCCCGGCGTCGGCGCCGCGTTCATCGCGATCACGCTGGTCTTCTTCTGCCTGACCACTGTCATCGCGTACTACTACATGGCCGAAACCAACCTGCGCTTCCTCCTGGGCACCTCGTCGGCCAAGATGATTCCCGGCCTCCGGACCAGCCTCGGCCGCGCCACCACCATCGCCCTGCAGGTGGCCATCCTCGTCGCCGCTGCTTACGGTTGCGTGAACACTGCCGCCGATGCATGGGTGATGGGCGATATTGGCGTTGGCCTCATGGCCTGGCTGAACATCGTGGGCATCCTGATCCTGCAGAAGCCCGCGTTCAAGGCGCTGAAGGACTTCGAGCGCCAGCAGAAGCTCGGCCTCGATCCGGTCTTCGACCCGAAGCCACTCGGCATTACCGGGGCCACCTTCTGGGAGTCCTACAAGACGGCCGACCGCGAGAAGGAATCCGCGAAAATCTAG	MSDVLSAINNVIWSDWLVYLCLATGVYFSVRSRFLQVRHVKGMIQQLVRGEKSASGVSSFQALAMSLSGRVGTGNVAGVATAIAFGGPGALFWMWAVAFLGASTSFIESTLGQIYKTRDPLTGEYRGGPAYYFSRAFAHTKGAGFFKVYGYIFAAVTVLACGILMPGVQTNSMATAISGAWTLEPWIVAVGSVILLALVVVGGVKRIASVAAFVVPFMAVGYIILALIVVVINAAQLPEILSLVFRSAFGMDSALGAIIGLAVMWGVKRGVYSNEAGQGTGPHAAAAAEVSHPAKQGLVQAFAVYIDTLFVCSATGFLILSTGAYRVFSGGSEDGAVLAEGGLLSASAVVGPQYVQAGFDSVFPGVGAAFIAITLVFFCLTTVIAYYYMAETNLRFLLGTSSAKMIPGLRTSLGRATTIALQVAILVAAAYGCVNTAADAWVMGDIGVGLMAWLNIVGILILQKPAFKALKDFERQQKLGLDPVFDPKPLGITGATFWESYKTADREKESAKI	PGPT0014405_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLYCINE_TRANSPORT,PGPT0014405-yflA|TC_AGCS-K03310	NA	NA
D1-17_03011	432			hypothetical protein	ATGTCACGCGCTGAGGTAGAGCAGCTTGATGACCGCGGAATGGCGGCGTGGGACCAGCATGATGCGGCGGCGTTCACCGCCCTGCTGGCGGACGGTTTCACGTTTCGGGATGTGATGGCGCCTGAGGCCTTCACTACCCGGGAACAGGTCCAGGCATATATGGAATCGTGGTTTACCGCGTTTCCCGATTTACGTGCCAAATTGACCAACAGGGTGGTGTCGGATGATCAGGTGGCGGGTGAAGTCGAGATCACGGGCACCCACACCGGTCCGCTGCAGATGGGCGGCCAGGAGATTCCAGCCACGGGCAAGCCTATCGTGGGAACCGGCACGTACTTCGGCTCCGTCAGGGAGGGCAAGTTCGTCTCCTTCCGCGTCCATCCGAACGTCGCCTCAATGATGATGCAGCTGGGACTGATGCCGGGGGCTTAG	MSRAEVEQLDDRGMAAWDQHDAAAFTALLADGFTFRDVMAPEAFTTREQVQAYMESWFTAFPDLRAKLTNRVVSDDQVAGEVEITGTHTGPLQMGGQEIPATGKPIVGTGTYFGSVREGKFVSFRVHPNVASMMMQLGLMPGA				NA	NA	NA	NA	NA
D1-17_03012	900			hypothetical protein	ATGGAATCTGTACGGACTTTCGAATCAATAGTCATCATCTTCAACCCAAACAGCACTGGAGACGCGCCAGAACTGGCCGAAAAGCTCCGGGACCGCCTGGCTGAACTCCTCACCTACTCGCCCGAGATCAGGCTGCAGCCGACCAGTCACGCCGGGCACGCCGTAGAGCTGGCCCGCGATGCCTCCACCAGCACCAGGAATGTGCTGGTTGTCTCTGTCAGCGGGGACGGGGGCTACAACGAAGTCGTCAACGGCGTGATGCAGGGCGGTAATGCCGAGGCCGTATGTGCTGTTATGGCCGCGGGCAACGCCAACGACCACCGGCGGACCATAGGCACCAAACCGCTGGAAGAAGCCATCGCCGAGGGCCGCGTACGCCACATTGACCTGCTGCGCATCCATACGGGCCAAGGACCCGGCGAGACGGCCGAATACGCCCACTCCTATATCGGCTTCGGGCTCACACCGGTGGTGGCCATCGACCTTGAAAAGGGCAGCAAGGGCGCCCTCAAGGAGATGTTCTCTGTGGTGCGGACGTTCTCAAAGTACAAGCCCTTTGAGATACGGCAGGCGGATGGAAAACGCCGGAAGTTCGACAGCCTCGTCTTCGCCAATATTCCCGAGATGGCCAAGTATGCAACGCTCAGCGAAGCAGACGACCAGGCTTCCGACGGGAAATTCGAAGTGGTCATTTTCCCGCACATGTCCAAGTGGCGCGTGCTTTTGACAGCGCTGCGCGCCACCACGCAGGGACTGGGGGATCAGCCCAGCGTCAGCAGTTACGAATTCACCACACTCAAACCGCTTCCGTACCAGATCGACGGGGAAGTGAAGTCCGTGGCCGCAAAGACCGCAGTCAGGGTAGTGAGCGCCCCCTCTGCCCTGCCGACGCTTGGGTAG	MESVRTFESIVIIFNPNSTGDAPELAEKLRDRLAELLTYSPEIRLQPTSHAGHAVELARDASTSTRNVLVVSVSGDGGYNEVVNGVMQGGNAEAVCAVMAAGNANDHRRTIGTKPLEEAIAEGRVRHIDLLRIHTGQGPGETAEYAHSYIGFGLTPVVAIDLEKGSKGALKEMFSVVRTFSKYKPFEIRQADGKRRKFDSLVFANIPEMAKYATLSEADDQASDGKFEVVIFPHMSKWRVLLTALRATTQGLGDQPSVSSYEFTTLKPLPYQIDGEVKSVAAKTAVRVVSAPSALPTLG	PGPT0024345_1723	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-17_03013	1383	ribZ_1		Riboflavin transporter RibZ	GTGCGCAAGACTGTTGCCGTGAGCAACTCCTCCCGCGCCGGCCTCGCCGTGGCCGGCCTCAGCCTGGGCACGTCGCTGAACCCGCTGAACTCGTCGATGATCGCCGTCGCCCTGGTGGTGCTGCGCGAGGACTTCCGGCTCGACGTCGCCACGGTCACTTGGGTGATTACCGCCTTCTACATCACGTCCGCCGCCGGCCAGCCGCTGATGGGGCGGCTCGCCGACAGGTTCGGTCCACGGCGACTCTTCATGCTGGGCATGGGGCTGGTGGCGGCGACCTGCGCGCTGGCTCCCTTCTCGCCCAACTTCGTTTTCGTTTGCATAGCCCGCGCCCTCATGGCGCTGGGAACGGCGACGGCGTACCCGAGTGCCGTCGTCATGGTCGGTGCCCTGGCAAGGATGGCGAACACGACCTCCACCCGTCCGCTGGGTCGCATCCAGATGGCCAACACCTCAGGGGCCGCGGTTGGCCCGGTGGTGGGCGGGCTGCTGATAAGCCTGATGGGTTGGGAAGCCCTGTTCCTGATCAACGTGCCGCTGTCGCTGGCTGCCCTGTTCATTGTGCGGAAGTGTGCGCCACCGGATGAAGGGCGGGAACAGGGCAGCGTGGCCAGCCTGCTGCGCGATTCTGACATCCCCGGCATCCTCGCCTTCACGGCCAGCATGGTGCTGCTGCTGATGGGACTGCTCAATGCCCTGCCCGGGTTCCGCTGGTGGCTGCTGGGCGCCGCCATGGTGTTGGCCATGCTCTTCGGCTGGCGCGAGCTGAGCTTCAAAAGGCCGTTCCTGGACCTGCGCCTGCTCGGCAGGAACCGTCCCCTGCTGCTCGTGTACCTGGGCTTCACGGTATTCAGCGCGGTCTACTATTTCGCGTTCTTCGGGCTGCCCCAGCTGCTGCAGGAAGCCGGTGGATATGACCCGGGTCTGGTAGGCCTGCTGATGCTGCCGCTGGCGGCGATGTCCGTCGTCGTCACGCCCTTGGCCGCCCGCGGGATCGACCGGTTCGGCGTGCGGCGGGTGCTGCTTGCCGGCGTCGCACTTCTGGCAGTGGTGGCAGCGGCACTATGGCTGCTGACCACGTCGTTGGCCGTCCTGCTGGTTCTGGCCCTCACGGCCCTGATGGGCGTGCCTTATGGTGCCGTCGGCATCGCCTCGAACCAGGGCCTGTACCTCTCCGCGGCGCCGGAGGACAGGGGAGTGGCCGCCGGGATCTTCCAGACCTGCCGGTACGTGGGCGCCATCAGCGCCACCGTGATGATCGGCCTCTTCTACGGCACCGGGGTGAACCAGGAGAACTGGGGCCGCATGGTGCTGGTGATGCTGGGGCTCTGCGCGGGGACGTTCGTCGTTTCGCTGCTGTGGCGGGAGCGAAAGACGCCCTAG	MRKTVAVSNSSRAGLAVAGLSLGTSLNPLNSSMIAVALVVLREDFRLDVATVTWVITAFYITSAAGQPLMGRLADRFGPRRLFMLGMGLVAATCALAPFSPNFVFVCIARALMALGTATAYPSAVVMVGALARMANTTSTRPLGRIQMANTSGAAVGPVVGGLLISLMGWEALFLINVPLSLAALFIVRKCAPPDEGREQGSVASLLRDSDIPGILAFTASMVLLLMGLLNALPGFRWWLLGAAMVLAMLFGWRELSFKRPFLDLRLLGRNRPLLLVYLGFTVFSAVYYFAFFGLPQLLQEAGGYDPGLVGLLMLPLAAMSVVVTPLAARGIDRFGVRRVLLAGVALLAVVAAALWLLTTSLAVLLVLALTALMGVPYGAVGIASNQGLYLSAAPEDRGVAAGIFQTCRYVGAISATVMIGLFYGTGVNQENWGRMVLVMLGLCAGTFVVSLLWRERKTP				NA	NA	NA	NA	NA
D1-17_03014	417			hypothetical protein	ATGAAGAAAAGCGTATCTGTCTTCGCAGTAGCAGCGGTGGTCGGACTGTCAGCGATGACAGCGACCCCGGCCAACGCAACAACCGCCGCCTTCCCTAACTGCAAGGCAGCAGCAGCAGCAGGCGCGTACAACATCCCGGCAGGAGCACCGGGCTACGGTCCGCACCTTGACCGTGACAAGGACGGCATTGCCTGTGAGAACTCCGCTGCAGGCGGCGGAACCACTCAGGTCGCTCCCGCTCCGGCTGCTGTAGCTCAGGCCCCGGCGCAGGTAAGCCAGGTGCCGGTAGGCGGCGCTGAGACCGGCGTTGCTCAGCCGGTCAGCAACGGGACCGACTTCCTCGCGCTTGGCGGCCTTGCCATTGCCGCAGCGGCCGGCTCTATCCTCGTGCGTCGACGCGCATCCGTCCAGGCATAG	MKKSVSVFAVAAVVGLSAMTATPANATTAAFPNCKAAAAAGAYNIPAGAPGYGPHLDRDKDGIACENSAAGGGTTQVAPAPAAVAQAPAQVSQVPVGGAETGVAQPVSNGTDFLALGGLAIAAAAGSILVRRRASVQA				NA	NA	NA	NA	NA
D1-17_03015	207			hypothetical protein	GTGATCAGGGTTCCACGCCAGGATGGAACTACCAGCGTTTTCGCATTTGATCATGCTGACCATTACTCCAAGGACGCGTTCCCGACACAGAGCGTCTACGGGAACACCGAAGGGCCGGAACTTCGGCTCATCACATGTGACGGCTTCGATCCGGCAACGGGCCAGTTCGACGACAACTATGTCGTCTACGCCAAACTCGTTGCCTAA	MIRVPRQDGTTSVFAFDHADHYSKDAFPTQSVYGNTEGPELRLITCDGFDPATGQFDDNYVVYAKLVA				NA	NA	NA	NA	NA
D1-17_03016	408			hypothetical protein	GTGAGGCGTGCGTTCCACACTCCGGTGGTGAACCTGGTCATTACGGGTTTGCTTGGCCTGATTGCGATCTTCCTGGACGTGGCAACGTCGACGTCCTTCATCAGCTTCGGGCCCTTCACCGCCTTCACCCTGGTCAACGTCTCCGTGGTCTTCCACTACATGTGCCGGCGCAGGGCAGGGGAGCAGTTGAACCCTGTCTCCTACCGGAAGGTACCCGCGGTCGGCGCCATCATCTGCGGCTACCTGCTCTCCCAGCTGGATAGCAACACGATTACGCCGGGAGTGTCCTGGCAGGTGGTGGTCCTGGCGCTGACCACACGCAGCTTCCTGGCGGCGCCGCCGGAGATGACGAGGACGGAAAAAGCTACCGTGGGGGCTGCGGTTTACGGCCTCTCGCGGCCGCTGTAG	MRRAFHTPVVNLVITGLLGLIAIFLDVATSTSFISFGPFTAFTLVNVSVVFHYMCRRRAGEQLNPVSYRKVPAVGAIICGYLLSQLDSNTITPGVSWQVVVLALTTRSFLAAPPEMTRTEKATVGAAVYGLSRPL	PGPT0007795_232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007795-puuP-K14052	NA	NA
D1-17_03017	942	dhaA		Haloalkane dehalogenase	ATGGCGGCCACAGCCATTTTTGGGGAAGGAGCAGAGCCTGGGGAAGGGCGCCCTGCCACAGCTCTCAGCCCACTTGCTCGCCGCCTTGTTCTCGAGCATCGCCGATCCTACCCTGAGGTCATGCCCATAGTGAGCGCGAACGGCGTTGCCCTTTACTATGAGGTCCACGGCGAGGGAAGACCTGTCCTGGGGATTCACGGCACGCCCAGCTCGGCACTGATGTGGGAGGACGCCGCCGAGCGGCTCGGCCGCGTCACCAGGTGCATCATCTACGACCGCCGGGGCTTCTACCGCAGCGAACGGCCGCACCCATTCGAAGCCGTGGATCTCAACGATCACGTTCGGGACGCGGCCGCGCTGCTGGAGGTGCTGTCCGCGACGCCCGCGGCGGTGATCGGACGCAGTACCGGTGGATTGATCGCCCTGGAGCTGGCACGCCGCCACCCCGGCAAGGTCAGTGCGCTGGTGCTGCTGGAGCCGGCGGTGTTGACGCTGCATCCCGAGGCTGCGGCGTGGGCGCAGCAGCTGCGGCGAGCGGTGCTGGCCGCTGCAGCGCAGGACCCCTCGGCGGTTTCCGAGGTTGTGTTCCGGGAGGCGCTGGGTGGTGGGGCGTGGGAGTCATTTCCCGAGCCGCTGCGCGAGCACTTCATCAGCGCCAGCCCTGCTGTGCTGGCCGAAGTCAGGGGCCGGGGTCTGGATCTCAGCCAGGCACCGCTGGAGCTGAACGACGTGGAGGCCGCAGAGATACGGCAACCGACCCTGATCGTTTCGGCCGAAGATTCCCCGGAAGCACTCCACGCCGTCAACCGGCGCCTGCAGGAGCTGCTGCCCAACACGGAGACGGCCCATGTGACGGGCGGACATCTCATCGACCCGGCAGGACCGGCCGTGCTGGACTTCCTCCACCGGCATCTGCCGCCAGCCAACGCGAGCCCAGGCTGA	MAATAIFGEGAEPGEGRPATALSPLARRLVLEHRRSYPEVMPIVSANGVALYYEVHGEGRPVLGIHGTPSSALMWEDAAERLGRVTRCIIYDRRGFYRSERPHPFEAVDLNDHVRDAAALLEVLSATPAAVIGRSTGGLIALELARRHPGKVSALVLLEPAVLTLHPEAAAWAQQLRRAVLAAAAQDPSAVSEVVFREALGGGAWESFPEPLREHFISASPAVLAEVRGRGLDLSQAPLELNDVEAAEIRQPTLIVSAEDSPEALHAVNRRLQELLPNTETAHVTGGHLIDPAGPAVLDFLHRHLPPANASPG				NA	NA	NA	NA	NA
D1-17_03018	1302			hypothetical protein	ATGGATAGCGACACCCTCATAAATTTCCTGCTGGTCCTCTTTTTTGTGCTGTTAGGAGGCCTCTTTGCAGGCACGGAAATGGCGCTCGTTTCCCTTCGTGAGGGTCAGGTGCGCCGGATGGAAAAGGCCGGGAAGCGCGGAGCCAGAATTGCAGCGCTGGCCGGGAATCCCAACCGTTTCCTCTCGACTGTCCAGATCGGCGTAACGCTATCGGGTTTCTTCTCGGCCGCCTATGGCGCCTCCACGCTCGCCCCGGACGTTGAGCCCCTCCTGCAAGCCGCGGGATTGGGCCCCGCAGCCGAACCTGTTGCCTTTATCGGCATGACGCTGCTGGTAGCCTACCTTTCCCTGGTACTGGGTGAGCTGGTGCCCAAGCGGCTGGCCATGCAGAGCGCCGCCGGTTTCGCGAAAGTACTCGCCCCGCCCTTGCTGGTACTTTCGGAGCTGATGCGACCCGCCGTCTGGCTGCTGTCTGTTTCAACCGACGCGGTTGTCAGGCTGTTTGGAGGTGATCCCAAAGCACGGCAGGAGGCCATCAGCGCCGAGGAGCTGCGGGACATGGTGACGCAGAACGACCGGCTGGAGGAGCACAGCCGGAATATCCTGCAGGACGTTTTCGGGGCAGGGAGCCGGTCATTGCAGGAAGTCATGCGTCCCCGCACCGAGGTGGCCTTCATCTCTGGTGACCTAACCGTGGCCGCCGCACGCGGCACGGTGAAGGACGCCCCATACTCGCGTTATCCCGTAATCGGCAGGACTCCTGACGACGTCCTTGGTTTCATCCATATCCGTGACCTGATGCTCCGGGATGGGCAGTTAGACGAGCGGATGGTGAAGGACATCGTTCGTGAGATTCTCCCATTGCCGGGAACGAACAAGGTGTTGCCCTCGCTGTCCCGGATGCGCAGGCTCAACCAGCACATTGCGCTCGTGGTTGACGAGTATGGAGGCACGGACGGCATTGTCACTCTGGAGGATCTGGTGGAAGAGCTGGTTGGTGAAATCTACGACGAGTACGACACCGGAGCTGATCCCGAGGACCGCGTCCGCATGGCCAATGGATCAATAGAGGTCGACGGCGGGCTGATACTCCAGGAATTTGCGTCAGCGTCCGGAATAGCGCTTCCGGAGGGTCCTTACGAAACCGTGGCCGGGTTCGTCATCGACCAACTGGGTCGTCTGCCTCATGTAGGTGACGGAGTGGAGGTGCCAGGCCATGCGCTGACGGTGACGGCAATGGACCGGCTGAGGATCGCACGTCTCCGAGTTACTTCCGTCGGCAGAAAGGCGGAGGCAGAATAG	MDSDTLINFLLVLFFVLLGGLFAGTEMALVSLREGQVRRMEKAGKRGARIAALAGNPNRFLSTVQIGVTLSGFFSAAYGASTLAPDVEPLLQAAGLGPAAEPVAFIGMTLLVAYLSLVLGELVPKRLAMQSAAGFAKVLAPPLLVLSELMRPAVWLLSVSTDAVVRLFGGDPKARQEAISAEELRDMVTQNDRLEEHSRNILQDVFGAGSRSLQEVMRPRTEVAFISGDLTVAAARGTVKDAPYSRYPVIGRTPDDVLGFIHIRDLMLRDGQLDERMVKDIVREILPLPGTNKVLPSLSRMRRLNQHIALVVDEYGGTDGIVTLEDLVEELVGEIYDEYDTGADPEDRVRMANGSIEVDGGLILQEFASASGIALPEGPYETVAGFVIDQLGRLPHVGDGVEVPGHALTVTAMDRLRIARLRVTSVGRKAEAE				NA	NA	NA	NA	NA
D1-17_03019	2055			hypothetical protein	ATGAAAAAAAGGATTTTGACCGGCCCGGCAGCCAGGCCATTCGCTAGGCCCGCCACCGGCAGTAAGCCGCTCCACCGTGCAGTGTTCAGGGCGACGGCCGCCGTGGCGGCCGGAACCTTGCTCCTGACCAGTGCAGGGATGGTCAACGCGGACGACATCGTCGTACTCCCGGGCAGCGTCGACGCAGTCGCAAAGGTCATGCCTCTGAACGTCGGCGGAGCGGCGGGAATTACCCAACTGGGGGTCGTAACAACAGACGGCGACGGAAAGCCCGGGTGCAACCTCACAGGCAAGACAGTCCTCACGCTAAACATCACTTCGAGTGCTCCAACTGTGGCAAAAGTCGAGCCAAGCACTGTCACGTTTGATTCCTGCGGAGCACAGCCCACTTTGACCGTTACCCCCGTGAGCGCCGGGGAGGTTGAGATCGCGGCACAGGAAGCAAGCAACACGACTGGCTCCACATTCAACCTTCTGCCAGCGAAATTCACGGTGAAGGTAGCGCCGCCGTCGAACACTGCCCCGCGCCTTGACATCACCGGCACCACAACGGGCGGCTCTTACGCTAAAGGCTCCGTCCCTGTGACGGCGTGCAAGGCGACCGACGCGGAAGACGGGGTAAGCACTGCGGAGGTTAAGCTCAGCGCCATCACCGGTCCCGATGCGGCCACCGGGATAGGGACCCAGACTGCGAGCTGCAGTTACACAGATAAGGGAGGACTCACCGCTTCCAGCTCAGTGACATATACCATCACCGATCCTACTGCGCCCGAGGTCAGCTACACCTTGAGCCCGGCGACAGCTGACGGACTCGCCGGATGGTACAAGAGCGCGGTGAATTTGACGTGGACGGTGAAGGAACCGGACTCACCATCCACTCTTGATCGCACGGGCTGTGAAACCAAGACTGTAGAACTGGACCAGCTGGAAAAAGACTATGGCTGCTCCGCAAAGAGCGGCGGAGGCGCCGCCGAGGCCGTGACTGTCTCCATCAAGAAGGATGGCACTGCGCCAACCGCCAGCTACACCACCGCGACAGGCACTCTTGGCGACAACGGCTGGTACCGCTCGGATGTGGAAGCATTGTTCACCGGCGCGGACGCCACCTCAGGCCTGGCTTCAAGCACGCAAACGAAAAACTCGGAAGGTGAGGGTGCAGCCATCAAGGTCACAAGCCCTGCATTTGAGGACCTGGCGGGCAACACCAGCGCAGCAGGTCTCGCTTCGGAGACTTTCAAGATTGATAAGACGGCTCCCGCCGTCAGCTACACCAGCGCGACCGGCACACTTGGCGGCGACGGCTGGTACCGCTCGGACGTGAAAGCCCTGTTTACCGCCACTGACGGGACGTCGGGCCCGGCTGCAAGCACCCAGACAAAAGACTCGGTCGGCGAGGGCGAAGCGGTCCAGATAACAAGCCCGGAGTTCAAAGACCTCGCCGGCAACACCCGCGCAGCGGGCGCGGCTTCGGAAACCTTCAAGATTGACAAGACCGCGCCCACCGCCGTCTTCAACTCAACACTGACCGATAGCTACTTTGGTTCCACCGCGGCTGCGCCCACGTGCACCGCAACAGACAATCTCTCCGGTCCGCTCAGCTGCGCTGTCTCGGGCTACAAAACCGCTGTGGGCACACACACTCTTACTGCCACTGCCACCGACGTGGCAGGCAACACAGCAATCGCAAGCCAGCAGTACACTGTGAAAGCCTGGACCACCAAGGGCTTCTACCAACCGGTGGATATGAACGGCGTATTGAACACCGTCAAAAATGGCAGCACTGTACCCGTCAAGTTCGAGGCATTTGCGGGTACTACCGAGCTCACCGATCCTAGCTTGATGACAGTCAAGGTGAGCCCGATTGTGTGCACGCCAAACGCCCCGGTCGACGATATCGAACTAACAGCTGCTGGCAGCACGTCCCTGCGCTACGACGCCATTGGCGGCCAGTTCATTTACCACTGGAAAACCCCAGCAGCCGCCGGCTCCTGCTACAGGCTCACCATGGCAGCGGATGACGGCAGCACCATCCGTGCTGACTTCAAACTGAAATAG	MKKRILTGPAARPFARPATGSKPLHRAVFRATAAVAAGTLLLTSAGMVNADDIVVLPGSVDAVAKVMPLNVGGAAGITQLGVVTTDGDGKPGCNLTGKTVLTLNITSSAPTVAKVEPSTVTFDSCGAQPTLTVTPVSAGEVEIAAQEASNTTGSTFNLLPAKFTVKVAPPSNTAPRLDITGTTTGGSYAKGSVPVTACKATDAEDGVSTAEVKLSAITGPDAATGIGTQTASCSYTDKGGLTASSSVTYTITDPTAPEVSYTLSPATADGLAGWYKSAVNLTWTVKEPDSPSTLDRTGCETKTVELDQLEKDYGCSAKSGGGAAEAVTVSIKKDGTAPTASYTTATGTLGDNGWYRSDVEALFTGADATSGLASSTQTKNSEGEGAAIKVTSPAFEDLAGNTSAAGLASETFKIDKTAPAVSYTSATGTLGGDGWYRSDVKALFTATDGTSGPAASTQTKDSVGEGEAVQITSPEFKDLAGNTRAAGAASETFKIDKTAPTAVFNSTLTDSYFGSTAAAPTCTATDNLSGPLSCAVSGYKTAVGTHTLTATATDVAGNTAIASQQYTVKAWTTKGFYQPVDMNGVLNTVKNGSTVPVKFEAFAGTTELTDPSLMTVKVSPIVCTPNAPVDDIELTAAGSTSLRYDAIGGQFIYHWKTPAAAGSCYRLTMAADDGSTIRADFKLK				NA	NA	NA	NA	NA
D1-17_03020	615	nreC_4	COG2197	Oxygen regulatory protein NreC	ATGGCAGACGATCACGCGCGAATCCGGGCGAAGGTGCGCGAAGCGCTTGAAGCGGGCGGCTGGGAAGTATGCGGGGACGGGGCAACTGCGGGGGAAGCGATTGAGCTTGCTCTGAGACACCGCCCCGATGTGGTCCTGCTGGACATCAATATGCCCGGCAACGGTATTTCGGCCGCGCAGGAGATCAGCCGGACCTTACCCGAAACGGCAGTTGTGATGCTGACCCAGTCCGCGGATGATGAGGATCTCTTCGATTCGTTGCGGGCGGGGGCTTCCGGATATTTGCTCAAGACCACGGATCCGGCAGTTCTGGCCGACGTCCTACGGGGGGTCCTTTCTGGAGAGGCGGCAATGTCCCCCGCGCTCGTGACCCGCATTCTCCAGGAGTTCAAGGCGCCCGCCCGAAGGATTCTGAGCTGGAAGCCGGCCGCGGTGGCGAAGTTAAGCCCACGGGAGTGGGAGGTCATGGAGCTCTTGGCCACAGGGTTGGGCACCGAGGACGTCGCCAACAAGCTGTTCGTTTCCCCGACGACGGTCCGGGTCCACGTCTCGACAGTCTTGCGGAAACTTCGGGTGAAGGACCGGGAGAGCGCTTTTAGGGCGCTGAAGGGGTAG	MADDHARIRAKVREALEAGGWEVCGDGATAGEAIELALRHRPDVVLLDINMPGNGISAAQEISRTLPETAVVMLTQSADDEDLFDSLRAGASGYLLKTTDPAVLADVLRGVLSGEAAMSPALVTRILQEFKAPARRILSWKPAAVAKLSPREWEVMELLATGLGTEDVANKLFVSPTTVRVHVSTVLRKLRVKDRESAFRALKG	PGPT0000550_565	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
D1-17_03021	1422			hypothetical protein	ATGTTGGGTGAGGACCGCCGGCCGGGTGGGGAAGGGCTCAGACGTGCTGCCCGGCTAACGCTGGGTGGGTGGACGGTCGGACTCTTCGTGACCGGCCTTGTGGTGTGGAGCCCCCATGTTCTCTTCGGCTACCACAGCCCGGCTCTGCACTTGGTGCTGGACTCGGTAGACGCTTGCGTGGCCTTATTGGTGGCATATCTGCTGGCCGGACGTTTTATGCGTCGTCGCAGACTGCAGGACTTGCTGCTCGCCCAAAGCCTCGTGCTTTTGGCGGCCGCCGGGACTGGCATGTCGTGGGTGACCGGATCACTAAGCGGGGAAGGAGACGGAAGCCTGGATGTCTGGCTTCCGCTGGCGCTCAGGTTAACCGGCGCAGTCCTCATTGCGGCCGCAGCAGTGGTGAGTCCGGACCGGAAGACACTGTCCACATCCGGACTGCGGACGGTAGCTGCACCTGTGGCAGTTGTCATCCTGCTGTCCTTGGCCCTTTGGGCCTGGCGGTTTCAACTGCCCGTGGCCCTCGACACGACTGTGGACCCTGCCACGCAACCTGCGCTGCTCGCCGTCCATCCACTGTTTCTGGCAGCCCAGTGCGCAGCGGCCCTTTGTTTTTTTACGGCCTCCATCGCCTTCACCAAGCCCGCCGCAGACCGTGACGACCCGTTGCTGCACTGGCTGGGTCCGGCTTGCGCCATTGCAGGGTTCGCCCGCGTCAACTATGCCCTGTTCCCGTCGCTGTACACAGACTGGTTTTATACCGGTGATCTTTTGCGGACCGGCTTCTACGTGCTGCTGCTGATCGGGGCCAGCCGTGAAATCAGGCAGTACTGGGACGCATACTCCCGCGTGGCCGTGCTCGAGGACCGGCGGAGGCTCTCCCGTGAGCTGCACGATGGGGTCATCCAGGAGCTCGCGTTGCTGCGGATGGAAGGTCACTCCCTGCCGCCCGATATGCCGGCCAAAAGCAGGATACTCGCTGCATGTGACCGATCGCTGGACGAAGCCCGTGCTGCAGTGCAAGCACTCGGCCATGGCGGGGACGACCCGCTGGGATTAGTCCTGCGCCGGACGATGCGGGAGCTGGCGCAGAGGTACCGCGTGCGCGTGGACATTGAGGTCGACGATTCGATCGAGGCCAGCGGGGAACAGCAGCACGCCCTGCTGCGCATCACTCGCGAGGCAGTGGCAAACGGAGTACGCCATGGCCGCGCCAGGCACCTGTCCCTGCGTTTGGGCAGGGTCGGCGACAGACGGCAACTGGTGGTTGAGGACGACGGGACTGGCTTCAACGTCGAGGGCGCCACGGGCGCCAACGCGGGCTACGGGTTGATCAGCATGCGGGACCGGGCCCGGACCTTGCCAGGATCCCTTGACATCACATCCCGGGCAGGACAAGGAAGCGTGGTTACGGTGACATGGTAG	MLGEDRRPGGEGLRRAARLTLGGWTVGLFVTGLVVWSPHVLFGYHSPALHLVLDSVDACVALLVAYLLAGRFMRRRRLQDLLLAQSLVLLAAAGTGMSWVTGSLSGEGDGSLDVWLPLALRLTGAVLIAAAAVVSPDRKTLSTSGLRTVAAPVAVVILLSLALWAWRFQLPVALDTTVDPATQPALLAVHPLFLAAQCAAALCFFTASIAFTKPAADRDDPLLHWLGPACAIAGFARVNYALFPSLYTDWFYTGDLLRTGFYVLLLIGASREIRQYWDAYSRVAVLEDRRRLSRELHDGVIQELALLRMEGHSLPPDMPAKSRILAACDRSLDEARAAVQALGHGGDDPLGLVLRRTMRELAQRYRVRVDIEVDDSIEASGEQQHALLRITREAVANGVRHGRARHLSLRLGRVGDRRQLVVEDDGTGFNVEGATGANAGYGLISMRDRARTLPGSLDITSRAGQGSVVTVTW				NA	NA	NA	NA	NA
D1-17_03022	1683			hypothetical protein	ATGTCTACACTTGCCCAAGGCAGGCAAGCCTACGCCGAACGGCGCTGGCCGGACGCCGTGGGGCAGTACACCGCTGCCGAGCACGAAGCCGAACTGCCGGCCAGCGACCTGGAACAGTTGGCCACCTCCGTCATCCTCACCGGTGGGCCCGATGAAGGCGGAGACATTCTGGCCCGCGCGCACCTGAAGTACCTCGCAGACCGCGACTACGCTTCAGCAGTGCGCTGCGCCGTTTGGACAGGGCTGAATCTCATCAAGCATGGCGAGACCGCCCGCGGTGCCGGCTGGATAGCCCGGGCTCACCGCATCGTCGAGGACATGCCAGAGCCCTGCCCCTGCGAGGGGCTGCTCTTCGTCCCGGCCGGGCTGGGCGCCCTCTATCGGGGCGACGGCGCCGCCGCCGCTGAAGCCTTCACCCGGGCGGCTTACCTCGGGCGGGAACGTGGCGACGCTGACTCTGCAGCCCTCGGTACGCTGGGCCTCGGGCAGGCAAAAATTCAGTTGGGCCAGTTCGACGACGGCCTGGCCTTGCTTGACGAATCCATGGTCGCCGTCACTGTCGGGGAAATCTCCCCGGTCCCAGCCGGAATTATCTACTGCGCCGTAATCGAAACCTGTCGTTTGGCCTTTGACCTGGATCGGGCCCACGAGTGGACCCGCGCGTTGAACCGGTGGTGCGCCGAGCAGCACAGCCTCGTGGCCTTCAGCGGGCAGTGTCAGATGCACCGGGCGGAGCTTTACCGTCTGCACGGCGCCTGGTCAGAGGCGATGAACGCGGCCAAGACTGCACAGGACTTCGCGTTCCGCGGCGACCGGATGGCCACCTATGGCGGCTTTTACGAACAGGGCGAAATTCACCGGTTGCGCGGTGACTTCGACGCCGCCGAGGCAGCCTACCTGCGTGCCCTCGAGACTGGCTTTCCGCCGCAGCCCGGGCTGGCGCTTCTCCGCCTTGCCCAGGGAAGGCCCGAGCAGGCCCAGAGCCTGCTCCGGCAGGCCATGGACGATCTTGACCCCGCCTACCGCCGGCGGATGCTTGCCGCACGCGTCGACATTGAACTCGCCGTGGGTTATGTGGAGGCGGCGCGGGCCGCGGCAGAAGAGCTGGCCTCGCTCTGCGCCTCCCTTGACTCGCCCATGCTGCATGCCATGACAGAGCAGTCCCAGGCCTCCGTGCTCATGCACGACGGCGATGCCGGGGCCGCCCTGGTCCTGCTCCGCCGCGCTTGGTCCCGCTGGCTCAGCCTCGACGCCCCATTCGAGGCAGCCCGCTGCCGGGCCCTGCTGGCTAGCGTGTGCGGCGCACTCGGCGATGAGGAGTCCGCCCGCCTGGAGCGCGAGGCGGCCCGGGCAGTATTTGCCGAGCTGGGCGCCGCGCCGGCGCTATCGGAGCTTGAACAGTTGATGCCCGCCGCCCCGGGCGCTGAGGCAGACCCGGCGCCGGCCTCCGCGAACGGCACCGATCACAACGCCGGGCCGCTCACCTCCCGGGAAATAGAGGTCGTGCGGCTGGTCGCAGCCGGACTGAGCAACCGGGACATCGCAGCCGAACTGTTCATCAGCGGGAAAACGGTGGCCCGGCACCTAAGCAACGTCTTCACCAAGCTGGACCTGTCCTCCCGGGCCGCGCTCACGGCATACGCCTACGAGCACGGACTCACCCGGCATCCCTCCCCTGCATAA	MSTLAQGRQAYAERRWPDAVGQYTAAEHEAELPASDLEQLATSVILTGGPDEGGDILARAHLKYLADRDYASAVRCAVWTGLNLIKHGETARGAGWIARAHRIVEDMPEPCPCEGLLFVPAGLGALYRGDGAAAAEAFTRAAYLGRERGDADSAALGTLGLGQAKIQLGQFDDGLALLDESMVAVTVGEISPVPAGIIYCAVIETCRLAFDLDRAHEWTRALNRWCAEQHSLVAFSGQCQMHRAELYRLHGAWSEAMNAAKTAQDFAFRGDRMATYGGFYEQGEIHRLRGDFDAAEAAYLRALETGFPPQPGLALLRLAQGRPEQAQSLLRQAMDDLDPAYRRRMLAARVDIELAVGYVEAARAAAEELASLCASLDSPMLHAMTEQSQASVLMHDGDAGAALVLLRRAWSRWLSLDAPFEAARCRALLASVCGALGDEESARLEREAARAVFAELGAAPALSELEQLMPAAPGAEADPAPASANGTDHNAGPLTSREIEVVRLVAAGLSNRDIAAELFISGKTVARHLSNVFTKLDLSSRAALTAYAYEHGLTRHPSPA				NA	NA	NA	NA	NA
D1-17_03023	324			hypothetical protein	ATGAACGTTTCGGTGTTTGCAGGAATAGTGTCCACCATCCTCTTCGCGGTGAGCTACCTGCCGATGCTGGGCAAGGCCCTCCGCACGAGAGATCTTGACTCCTACAGCCTCGGCTACCTCACGCTGAGCAATGTGGCCAACGCAGTGCACTCCGTTTACGTCTTCAGCCTCCCGCTGGGGCCCATCTGGCTGCTGCACTGTTTCTACATCACAGCCTCCGCGCTGCTGCTCATCTGGTTCCTGCGCTTCCACCGCGTTCATGACCAATCCACCGCACATACATGCATGAGGAGGCACCACCATGAATTCCATCCCGGCACCTGA	MNVSVFAGIVSTILFAVSYLPMLGKALRTRDLDSYSLGYLTLSNVANAVHSVYVFSLPLGPIWLLHCFYITASALLLIWFLRFHRVHDQSTAHTCMRRHHHEFHPGT				NA	NA	NA	NA	NA
D1-17_03024	1146	czcO	COG2072	putative oxidoreductase CzcO	ATGAATTCCATCCCGGCACCTGACACCGGCAGCGCCGTCAGTCCTACCGCCGTCGACACCGTCATCATCGGTGCCGGACAGTCCGGCTTGGCGCTGGGCTACTACCTGGCGCAGCAGCGCAGGATCTTCGTCATTCTCGACGCCGGGGCACGGGTCGGCGACGCGTGGCGGATTCGCTGGGACTCGCTGCGCCTGTTTACGCCCGCCAAGTACGACGGCCTGCCCGGCCTGCCCTTCCCCGGCGACCGGCTCGCCTTTCCCACCAAGGACGAGCAGGCCGACTATCTGGAGGACTACGCCTCCCGCTTCCACCTGCCGGTCCGCTCCAACACGGCTGTCACCCGGCTGAGCCACGATGGGCAGCGGTTCCACGTGACGGCCGGGGCGCAGCGCTGGACGGCGCTGAACGTCGTCCTTGCCACCGGCGCCTGCCATCTGCCTAAGAGGCCGGGCTTTGCGGCGCAGCTGCCACCCGACGTGGTACAGCTCCACTCCAAGGACTACAAAAACCCCGCTCAACTCTCAAGCGGACCGGTCCTGGTGGTAGGCGTGGGTAACTCCGGGGCGGAGATCGCCTTGGAGACCAGCCGCACGCACGAAACCTGGCTGGCAGGCAAGCCGAGTGCCGAGATTCCGTTCCGGCACGGCCGGAACGCCGCCCGTTACTTCATCCCGGTGGTCCGCTTCGCCGGGATGCACGTGCTGAACACCAACACGCCGGTCGGACGGAGGGTGCTGCCGAAGATTGCTGCCATGGCTACGCCGTTGATCCGCACCAAGCTGGCAGACCTCCGCGCCGCTGGCGTCCACCTGGTGTCGCGGGTCTCCGGCGTTGAGGATGCAGAAGTATTGCTCGACGACGGCCGCAGCCTTTCCGTGTCGAACGTCATCTGGTGCACCGGCTTCGCCGAGGACTACCCGTGGCTGGACATCCCGGGGCTGCCCGCGAACTGGCGCGAGCAGCAGCACCGCGGGACCGTGGATGCATTGCCGGGCCTGTACCTGCTGGGGAAGGATCTCATCTACTCGGCCGCATCCGAAACCCTGCCCGGCGTCTGCCGGGACGCTAAGTATCTCGCGAAGCAGCTGGCGGCAACGCGGGCACCCGAGGAGGAAACAAAGGTTCAGGCAGGGATGGCGGCATAA	MNSIPAPDTGSAVSPTAVDTVIIGAGQSGLALGYYLAQQRRIFVILDAGARVGDAWRIRWDSLRLFTPAKYDGLPGLPFPGDRLAFPTKDEQADYLEDYASRFHLPVRSNTAVTRLSHDGQRFHVTAGAQRWTALNVVLATGACHLPKRPGFAAQLPPDVVQLHSKDYKNPAQLSSGPVLVVGVGNSGAEIALETSRTHETWLAGKPSAEIPFRHGRNAARYFIPVVRFAGMHVLNTNTPVGRRVLPKIAAMATPLIRTKLADLRAAGVHLVSRVSGVEDAEVLLDDGRSLSVSNVIWCTGFAEDYPWLDIPGLPANWREQQHRGTVDALPGLYLLGKDLIYSAASETLPGVCRDAKYLAKQLAATRAPEEETKVQAGMAA	PGPT0013865_1135	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
D1-17_03025	318			hypothetical protein	ATGACCGATCAGGACCGGGACCTGTGGGACGAGTTCGACTGCTCTAAACCCGCCGCCCCCGACCGGGTGCCAGGGCACCCCGGCGGAGAGCCGCTGGGCTTTGGCTTCCGCACCGGTGTGCGCAGCGCAGGGGTTGCCTTGGGCTTCGCCGTGTACGCCCTGACCCTTGGGACCGTGCTGGTCCTCACCGGCGCCGTCGTTTTCATCGCCCAAGGGCGGTGGCTGATGCTCGCCCTAATGGTGGTGATCGAAACGGTTTTCGTGCTCTGGTTCCTCCAGCTCGCACACCAGGCACGCAACCGGCGGGCGGCACAGTAA	MTDQDRDLWDEFDCSKPAAPDRVPGHPGGEPLGFGFRTGVRSAGVALGFAVYALTLGTVLVLTGAVVFIAQGRWLMLALMVVIETVFVLWFLQLAHQARNRRAAQ				NA	NA	NA	NA	NA
D1-17_03026	1095			hypothetical protein	TTGCTCGACGCGGCACCGCGCACTGGCACCCGCACCGGGCGCTTCCGGGACCTAATCACCGGGCTCCTGGGGCTGTGGCTGCTGCTCGCCGTCTTCATCGACGGCTGGGCACACCTAAACGTCCCCGGGCTGGAGACGTTCTTCACGCCGTGGCACGCGGCCCTCTACTCCGGCATGCTGGCCACGGCGGCGTGGACCGCCGTCGTGATCTGGCGCTACCGGACGCCCGGGCAACCGCTCGTGCAAGGCGCTCCGCCGGGCTACCGCGGCACCGCGGCGGGAGTGCTCCTGTTCGCCACGGCGGGTGGTCTGGACCTGCTGTGGCACGAAATTCTGGGCCTGGAGGTCTCGCTGGATGCCTTGGTCAGCCCCACCCACCTGCTGCTCGGGTTGAGTCTCTTCCTCATCCTCGGCACCGCAGTCCGGAGCGCCCGGGCAGCCAGCCGCACCGGAAACCCTGGGTGGACTCCGGCGGCGATGTTCGCCGTCGTCCTGATGACGGGCTTGGGAGCCTTCTTCTTCGTCTACGCCTCGGCTTTTGTCCGGCCGGGGCCAACTGCCCTCTTCGTTCCGACGCCGGTGGGCACGCCCGGCCGCATTGAGGCGGAGATGCCGGTGGTGGTCGGTTTGGTCAGTTACCTGCTGACCACCGCTCTGATCATCGCCCCCTTCCTGTTCACGCTTTCAGCCGCACGGAAGCCCCTCCGCGGGATTGTCACTCTGCTCGTCGTGGCGGCGGCCTGGCTTCCCGTTGTGATGGTGGGCGTGCGCCCGACCGCGGTGGCCGGAGCAGCAGGGGCCACGCTGGCCGCCGTCGTGGTTGACCTGCTGCTCGCCCGGGTGCCGGCAGTGTGGCTGCACCGGCGGTTGCCCGCCGTGACCGCCGGAACCGCTGCGCTTGTTTGGACGGGCCAGCTCGTGGCGTACTCGGTGGTGGATGCGATCCGCTGGCCGGTCTCGCTGTGGCTGGGGGCGGTGGTGCTGAGTGCAGCGGTAGCCGCCGGCCTCGCCGTCGTCAGTTCCTGGGGAACGGCACGTTCCGGGCCAAATGCCGCCGGTGCTGCCGAATTGAAGCCCGCTGCAAACCCTCATTGA	MLDAAPRTGTRTGRFRDLITGLLGLWLLLAVFIDGWAHLNVPGLETFFTPWHAALYSGMLATAAWTAVVIWRYRTPGQPLVQGAPPGYRGTAAGVLLFATAGGLDLLWHEILGLEVSLDALVSPTHLLLGLSLFLILGTAVRSARAASRTGNPGWTPAAMFAVVLMTGLGAFFFVYASAFVRPGPTALFVPTPVGTPGRIEAEMPVVVGLVSYLLTTALIIAPFLFTLSAARKPLRGIVTLLVVAAAWLPVVMVGVRPTAVAGAAGATLAAVVVDLLLARVPAVWLHRRLPAVTAGTAALVWTGQLVAYSVVDAIRWPVSLWLGAVVLSAAVAAGLAVVSSWGTARSGPNAAGAAELKPAANPH				NA	NA	NA	NA	NA
D1-17_03027	798			hypothetical protein	GTGCACCCAAAGGCCGCGCCTGAGCCCCGGCAGCACACCCTGCGCGCCATTGATGTGCGCGAGGCCGTACTGATTGCCGTACTGCTCATCCTCGCTGCGCTGAGCTGGGTGCTCACCGCGCAGCGGATGGGCGGGATGGACATGGGAGCCTGGACGGATCCGGGGCCGCTGGGGTACTTCCTTACTACCTGGATGGTGATGCTGGCCGCCATGATGTTTCCATCGGTCGCGCCCATGGTGACGGCCTACGCGAAAATCAGCCGCCGCCGTCGGGAAACGGGGCGTTATGCACCGCGCGGTTCCACAGCCCTGTTCGTCGTTGGGTATCTCGTCGCGTGGACGGCGTTCGGGCTGGTGGCCTACGGGCTTTATGGGGCGGTTGTGGTGCTTGCCCCCGGCGCGTTCACGGCAGATCCCAGCGGACGCTTCGCCGCGGCCGGCGTGATCCTGGCGGCTGCGCTGTACCAGCTGACCCCCGCTAAGAATGGCTGTCTCACCAAGTGCCGCACGCCCATGCATTTCGTCCTCCACGGCCTGCGGCCGGGATACGGCGGGGCGCTGCGCATGGGGGTGGAGCACGGCGCCTGGTGCGTTGGCTGCTGCTGGGCGCTCATGGTGGCGCTGTTTGCGCTGGGCGTGATGAGCGTCGGGTGGATGGCACTCATGGGCGCGTTCATCGCGGCGGAGAAGATGCTGCCCTGGAGAGGCCTGGCCAACCGCTCGGTCTCGGCAGCTCTGGCCCTGATTGCGGTCGGCATTGTGCTTATGCCCGCGGCGACCTCGGGAATGACGATGTGA	MHPKAAPEPRQHTLRAIDVREAVLIAVLLILAALSWVLTAQRMGGMDMGAWTDPGPLGYFLTTWMVMLAAMMFPSVAPMVTAYAKISRRRRETGRYAPRGSTALFVVGYLVAWTAFGLVAYGLYGAVVVLAPGAFTADPSGRFAAAGVILAAALYQLTPAKNGCLTKCRTPMHFVLHGLRPGYGGALRMGVEHGAWCVGCCWALMVALFALGVMSVGWMALMGAFIAAEKMLPWRGLANRSVSAALALIAVGIVLMPAATSGMTM				NA	NA	NA	NA	NA
D1-17_03028	618			hypothetical protein	ATGTCATGGGAAATATCTGGAAAGTACGTTGCCAACTGCGATTGCCAGCTGATTTGTCCCTGCTCCGTAGACGGCCCGCCCACGGGGAAGAACGGGGAATGCCGGGGTTCGGCGGTCTTCCACATCGCCAGGGGCCAGCTTGATGACACCGACCTCTCGGGCGTTGACTTCGCCTTCTGCAACTTCTTCCCGTCAAACCTCACTGCAGGCAACTGGAAGGTCGGCATCATCGTCGGCAACAGCGCCTCTGACGGCCAGGCCCAGGCCCTGGAGCGCATCCTGCACGGCGACGAAGGCGGACCGTTTGCCGACTTCGCCGCCTTCTACGGCGAGTGGCTTGGTGTTGAGCGCCGCAATATCAGCTTCTCCGATGGCGACACCCCCACGGCTTCCGTGGACGGACACATCAATCTGGCCATTGAACCGCTTCCCGGCCCCGACGGGGGAGTCACCACCGTCAAGAACGCAATGTTCGGCTTCGCCCCCGAGTACCTGATTGGGAAGGGCCGAGGCGGGTCGGACCTCTTCGGCCTCGACTACGGTTCGGTCTACGCCGAATCGGCGGACTACACGTTCTCAAGCGAGATGGCCGAAGGTGCACCCAAAGGCCGCGCCTGA	MSWEISGKYVANCDCQLICPCSVDGPPTGKNGECRGSAVFHIARGQLDDTDLSGVDFAFCNFFPSNLTAGNWKVGIIVGNSASDGQAQALERILHGDEGGPFADFAAFYGEWLGVERRNISFSDGDTPTASVDGHINLAIEPLPGPDGGVTTVKNAMFGFAPEYLIGKGRGGSDLFGLDYGSVYAESADYTFSSEMAEGAPKGRA				NA	NA	NA	NA	NA
D1-17_03029	861			hypothetical protein	GTGTTGTGGACCGTAATGGGTGCCGGACTCATTCTGCTGATGCTTGTGGACGTCTTTTACACCCTGCTTTATCCTCACGGTTCGGGCCCCATGTGCAGGACAATAATGCGCGGGTGCTGGCTCCTCTCCAGGCCTTCCAGGGGAGGCGCCTCTCCGATAGCAGCTCCCGTGGCAATGGCTGCTGTTATCGGCGCCTGGGCGGCCATGGCTGTTATCGGCTGGGCTCTGCTCTACCTGCCGCACCTGCCGGAGAGTTTCGTTTATGGCAGCGGGATTCCTCAGCAGGGAGATTTCATCGAAGCGGTGTACATCTCGATGGTCACCCTTTCCACCGTTGGATTCGGGGAGGTGGTGGCCGGGCATCCATTGCTCAGACTCGTTTCTGCCTTGCAGGCTGTCACCGGTTTCGGTCTGCTGACGGCCACGGTTTCCTGGATCCTTCAGATGTATCCCGCCTTGAACCGCCGACGGGCTCTTGCCCATCAACTGAACCTCTTTAGGGAAGCGGCTGGCCCCGGCGGCGTATCGGCAATGGATCCACGCCAGGCTGCCGGGCTGCTCGAAGCGCTGGCCGGCAGCGTGGCTTCCGTCAGCATAGACTTGCTCGCCTTCCACGAAACGTACTATTTCCACGAAGTCGAGGAGCGGGGCTCCCTGCCTGCCACGGTGGCATACGCCCAGCAGCTCGCGTCGGAAGCCGGGGCAAGCGATGACAGGGAACTCCAGTTTGCCGGGCGGATGCTGGAGGCTGCTTTAGAGGATCTCGCAACCGTTCTTCGCGGCAGGTTCGGTCATTCCGGGGAAACGTCTTCGGATGTGTTTGACAGCTATTCCATGCACCACAGGCACCGCGCTGAATAG	MLWTVMGAGLILLMLVDVFYTLLYPHGSGPMCRTIMRGCWLLSRPSRGGASPIAAPVAMAAVIGAWAAMAVIGWALLYLPHLPESFVYGSGIPQQGDFIEAVYISMVTLSTVGFGEVVAGHPLLRLVSALQAVTGFGLLTATVSWILQMYPALNRRRALAHQLNLFREAAGPGGVSAMDPRQAAGLLEALAGSVASVSIDLLAFHETYYFHEVEERGSLPATVAYAQQLASEAGASDDRELQFAGRMLEAALEDLATVLRGRFGHSGETSSDVFDSYSMHHRHRAE				NA	NA	NA	NA	NA
D1-17_03030	1620		COG3559	Multidrug efflux system permease protein	ATGAGCGGCGTCCTGCGGCTGGCCCTGTTCCAAGCGCGCAGTGACCGTTGGCTCCTGCCTGTCTGGATCCTGGCGATAGCCTTTCTTGCCTTCGCTACCGCCGCCGCCGTCGCGGGGCAGTTCAGTGCCGAGAGTGACCGCGCGGCCATCATCGCAGTGTCCGCGGTGAACCCCGCGTTTCTTTTCCTGCGGGGCCTGCCAGACGGGACCGGCACCGGGGCTGTCGCGTTCTTCGGCGGATACGCGTTCACTGCTGGCCTGGCCGGGCTCATGAGTACGTTCCTCGTCATCCGCCATACCCGGTTGGATGAGGAACTTGGCCGCGCGGAGTTCGTCGGTGCCGTCCCGCTTTCCCGTCCTGCGCCGCTGCTGGCGACCTTGCTTTTGGGCGGGGCCGCAAACGTCGCCCTTGCACTGTCGGTTGCCGCCGCCTTCCTCGCCGCGGGCCTGCCCGTCGCAGGGGCTGTCGTGGCAGGCGCAGCGGTGGGTGCTGTAGGCGTGTTCTTTGTCCCCGTCGCTGCGGTTGCGGCACAGCTGCTGCCGTCCGGGCGTTCGGCGAACGGCGCCGCAGCCGGCCTTGTCGGCGGGGCCTACCTCCTTCGGGGTGTAGGGGATGCCCTGGGGACCCCCGATGCCGACCTGTTGCACGTTACGCCCGCCTGGCCCTCGCTGCTCTCGCCCATAGGCTGGGGCCAGCGGTCCCGGCCATTTGTTGTAGCTGACCCGATGCCGTTGCTGGTCCTGGTTGCCGCGGCAGCAATCTTGGCTGCCGCCGTGGTGCTGATTCAGGACCGGCGGGATCTGGGCGCCAGCCTGCTGCCCCAGCGCGCCGGCAGGGCCCGGGCAGGCGTGGGCGGCGCGTCATTCTTGGGACTTGCCTTCCGTCTTCAACGCGCCACGTTGTTTGGTTGGTGCCTGGCGGCTGCTGCCATAGGGGCTGTGGCGGGCGGTCTTGGGCCTCTGGCCAGTGAGGCGGTGGCCGGGAATGCGTCACTGCAGGACCTGATCAGCCGGCTCGTGCCTGGTACCCGGGCCGAGATGCTGGATCTGTTCATCACCGCCATACTCGGCATCGCAGGTGTCCTGGCTGCGGCTGCCGGCATCCAGGCGGTCCTTCGGCTGCATGCGGAAGAGGTTGAAGGCCGGGCCGAACTGCTCCTTGCCGTGCCGGCGTCCCGGGCCCGGTGGCTGAACGCGAACGTATTGGTGGCGGCTGGCTCCGTGCTTGCCGTGACCGCAACGGCCGGTGCTGCAGCCGCCCTCGGAGTGGGACTGGCCGGAGCACGAAACGGGCCGGCTGGACTATTGGTGCCGGCGGCCCTCGCCCACGTCCCGGCCGCGGCCGTCTTCCTGGCTGTAACGGCCGTTGCGTTCGCCGCCACGCCACGCCTATCCATTCCGCTGGGCTGGGGGTTCCTCGCCGTCGGGCTCATGCTGGGAGAATTCGGCGACCTTCTTGGCCTGCCGGTATGGCTTCAGGACCTGAGCCCGTTCCGTCACTCCCCGGCCATGCCGGTGGAATCCTTCGACGCGGTCGCGGCCCTGACCATGACCGCCATTGCTGCGGCAGGAGCCGGTCTTGCGGCTTATCTGGTCAGGCACAGGGACCTCACCGGATGA	MSGVLRLALFQARSDRWLLPVWILAIAFLAFATAAAVAGQFSAESDRAAIIAVSAVNPAFLFLRGLPDGTGTGAVAFFGGYAFTAGLAGLMSTFLVIRHTRLDEELGRAEFVGAVPLSRPAPLLATLLLGGAANVALALSVAAAFLAAGLPVAGAVVAGAAVGAVGVFFVPVAAVAAQLLPSGRSANGAAAGLVGGAYLLRGVGDALGTPDADLLHVTPAWPSLLSPIGWGQRSRPFVVADPMPLLVLVAAAAILAAAVVLIQDRRDLGASLLPQRAGRARAGVGGASFLGLAFRLQRATLFGWCLAAAAIGAVAGGLGPLASEAVAGNASLQDLISRLVPGTRAEMLDLFITAILGIAGVLAAAAGIQAVLRLHAEEVEGRAELLLAVPASRARWLNANVLVAAGSVLAVTATAGAAAALGVGLAGARNGPAGLLVPAALAHVPAAAVFLAVTAVAFAATPRLSIPLGWGFLAVGLMLGEFGDLLGLPVWLQDLSPFRHSPAMPVESFDAVAALTMTAIAAAGAGLAAYLVRHRDLTG				NA	NA	NA	NA	NA
D1-17_03031	909		COG1131	Multidrug efflux system ATP-binding protein	ATGTGCTCTGAGTCATCTCCTGTCATTGAAACCACCGGCCTGGTTAAGAATTTTGGCCGCATTATGGCGCTGGCGGGCCTCGATCTGTCCGTGCTGCCGGGGGAGGTCCACGGCTTCCTGGGCCCCAACGGCGCAGGCAAGTCGACCACATTGCGGATACTTCTTGGCCTGATCCGCCCCACGTCAGGTACCGCCCGCGTCTTCGGCCTGGATCCTTGGATTGAACCTGCCACAGCGCACCGGGACGTCGCTTACGTTCCGGGGGATGTAAATCTGTGGCCCAACCTGTCCGGCGGTGAGGTCATCGACCTGCTCACGGGACTGCGAGGCGGTGCTGAGGAACGGCTGCTTAGGGAACTCATTGAGGAGTTCGAGTTCGATCCCCGGCGGAAGTCCCGGACCTATTCGAAGGGCAACCGTCAGAAGGCGGCTCTCATCGCCGCGTTCGCCCGCCCGGCGCGGCTGTACCTCCTGGATGAGCCCAGCGCAGGCCTGGACCCGGTCATGGACTCCGTTTTCCGTCGCCACATCAGACGTGTCGCCGCCGACGGAGCGACCGTCCTGCTTTCCAGCCATGTCCTCAGCGAGGTTGAACAGCTCTGCGACCGGATCACCATCATCCGCTCCGGCACCGCTGTTGAAACAGGAACCCTGGCCGAGCTGAGGCACCTGACCCGGACCCGCTTCCGGATCACCACTGCAGCGGAGCCGGTGGGACTGGTGTCACTGCCGGGCGTGCACGGTGTCCGCAGCAATGGCCTTGGCACAGAGTTTGATGCTGATGCTTCGGAGCTCGGCTCCGTCCTCGAAGGGCTCGCCCGCACCGGCGTCACGACCATTACCGCCGCCCCGCCCTCGTTGGAGGAGCTGTTCCTGCGCCACTACAGCGACCGGGACGGGAGAAAGTGA	MCSESSPVIETTGLVKNFGRIMALAGLDLSVLPGEVHGFLGPNGAGKSTTLRILLGLIRPTSGTARVFGLDPWIEPATAHRDVAYVPGDVNLWPNLSGGEVIDLLTGLRGGAEERLLRELIEEFEFDPRRKSRTYSKGNRQKAALIAAFARPARLYLLDEPSAGLDPVMDSVFRRHIRRVAADGATVLLSSHVLSEVEQLCDRITIIRSGTAVETGTLAELRHLTRTRFRITTAAEPVGLVSLPGVHGVRSNGLGTEFDADASELGSVLEGLARTGVTTITAAPPSLEELFLRHYSDRDGRK	PGPT0006725_12463	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-17_03032	1647	dap		D-aminopeptidase	ATGGGAAGTATTCCGTGGTCATCGCGCTGGCTTGTTTCGTGCTTCCTGAGCGCTGGCCTTGCCCTCGGCTTCCTCGCGCAAGCTGCGATAGCGGCCGCGCCTTCCGCACCTGAAGCTGCCGTCCCGAACCAGGCCTACGAGAGGGTGGACGCCTTCCTGCAGGAGCGGATCCAGGCCATGGGACTGCCCGGTGCCGCAATCGCGGTCGTCAAGGACGGCGTCCAGGTGCACTCCGCCGCCTTCGGCGAGGCTGATGATTCGGGGCGCCCGATGACTGCCCAGACCCCGGTGCTGCTGGCTTCAACGACCAAGTCCCTCACAGCCATCGCCGTGATGCAGCAGGTCGAGGCCGGACGGCTCCGGCTGGACGAGCCCGTAAAAACCTATCTGCCATGGTTCAGCATGCAGGACCCCCGCGCTGCGGACATCACAGTCCGCCATCTGCTGCACCAGGCCAGCGGCATGGCCGCCAAGGACACCGCATTCGAGGGCACCGACGCCCAGAGCCCGGAAGCCCTCGAAGAAGGCGTGCGCGCCCTGTCGGGATCCCCGCTGGCCGGGATCCCCGGTGAAGCATTCGGGTATGCCAACGCCAACTTCAACATCCTTGGCTTGCTCGTGCAGACAGTCTCCGGCCAGCCGTTCGGAGACTACATGGAGCAGCACGTCTTCGAACCACTGGGAATGCCCCGCAGCCACGCGACGCGGGCAGCTGCCCGGGCGGACAGCGCCGCTGCGGGTTACTCCTTGTGGTTCGGCACCGCCTGGCGCCAGACGGAAGTGCCTGCACCCGCTGCCGGCATGCCGTCGAGCACCATGTACGCCTCGGCGGAGGACCTGGGCCATGAGCTCATCGCGCTGCTGGACGGGGGACGGTACCGTGACCGCCGCATCCTCCGGCCGGAAAGCGTGCAGGCCATGCTTGAGCCGCGGATGCAGGTGGACGGGTCAAAGTTGTACGCCATGGGCTGGTTCACCCGCCCCCTCATGGAATCCGTGAACCCCGCAGGACCGCCCCCACCCGACGAGGAGTTGCCGCTGCTCGCGGAGCACCAAGGCGAATGGGGCAACTCGCACACCTACCTGGCCATGGTCCCGTCCTCACGCCTCGGCGTCGCCCTGGTCATCAACGCGAACGACACCTCGGCCCCGTCCCGGCTTAAAGCCATCGATACCAACATCCTCCGGATTCTCCACGGTCAGGAACCGGTGCCGGCCGTGCTGCAGGAGGACTGGCTGCAGCGCTATAGCTGGGCCGTGGCGCTTGGACTGCTGCTTGCGGAACTTCTCAGCCTGGTGCTGGCGCTGCGGTTTCTGCTGCGACCCGGCCCTGCCGGTTCCGACCCTGCCAGCCCCGGCCATGCCAGTTCCGGCCACGGCAGTTCCGACCGCGGCAGCCGCGGGACAGGGTGGCGGCTGCTGCGGGCCGGCCTGGCGGCCCTCGCCCTCGCCCTGGACGGCTTCGTGCTGTGGTTATGCCTGCTCTATGCCCCTGCCAAGTTCGACACCAACCTTGCCGTCATAGTCCACCAGTTTCCCGACGTCGGTTTCAGTCTGGTTCCGGCGCTCGGCCTGGCCATCCTGTGGGCGGTCCCGCGAACAGCTTTGTTGCTCTCCCGGATGGGAAGAGGCGTGGCGCTTCCGTGA	MGSIPWSSRWLVSCFLSAGLALGFLAQAAIAAAPSAPEAAVPNQAYERVDAFLQERIQAMGLPGAAIAVVKDGVQVHSAAFGEADDSGRPMTAQTPVLLASTTKSLTAIAVMQQVEAGRLRLDEPVKTYLPWFSMQDPRAADITVRHLLHQASGMAAKDTAFEGTDAQSPEALEEGVRALSGSPLAGIPGEAFGYANANFNILGLLVQTVSGQPFGDYMEQHVFEPLGMPRSHATRAAARADSAAAGYSLWFGTAWRQTEVPAPAAGMPSSTMYASAEDLGHELIALLDGGRYRDRRILRPESVQAMLEPRMQVDGSKLYAMGWFTRPLMESVNPAGPPPPDEELPLLAEHQGEWGNSHTYLAMVPSSRLGVALVINANDTSAPSRLKAIDTNILRILHGQEPVPAVLQEDWLQRYSWAVALGLLLAELLSLVLALRFLLRPGPAGSDPASPGHASSGHGSSDRGSRGTGWRLLRAGLAALALALDGFVLWLCLLYAPAKFDTNLAVIVHQFPDVGFSLVPALGLAILWAVPRTALLLSRMGRGVALP				NA	NA	NA	NA	NA
D1-17_03033	1182	doeA	COG0006	Ectoine hydrolase	TTGCTGTTCAGCCAAGGGGAGTACGACGCCCGGCTCGCCGGAGTCCGCGTACGCATGGCCAAGCAGGGCCTCGCGGCCTTGCTGGTAACCGATCCTGCCAACATCTATTACCTGACCGGCTACAACGCGTGGTCCTTCTACACCCCCCAGATGGTCTTCGTTCCCGCCGACGGGCCCATGCTGCTCTTCACCAGGGCGATGGACGCCGGCGGCGCCTTCCGCACCAGTTGGCTGCCGGAGGACAGCATCGTCGGGTACCCGGAACAGTACGTTCACCGCCCGCACGTGCATCCCTTCGACTGGGTGGCCTTCGCCCTCCGCGAGCGGTACCTCATCGCCGCGGCAGCAAAGGGATGTGTGGGCCTTGAAATGGACTCGCACTTCTTCTCCCCCAAGGCATACCGCTCGCTGGTCAACGCCATTCCGGAATGGACCCTCGTGGACAGCTTCGAGCTGGTCAACTGGGTCCGCTCCATCAAATCACCGGCGGAGATCCAGCTGATGCGCGGCGCCGCGCAGGTCTGCATGGCGGCAATGAAGACCGCCGTAGAAACCATAGACGTCGGGGTCCGCCAGTGCGATGCCGCGGCAGCGATCAGCCAGGCGCAAATCCAGGGTGCCAACGGCATCGGTGGGGACTACCCCGCCATCGTGCCGATGCTGCCCACCGGTGAAGCAGCGGACACCCCGCACCTGACCTGGAGCGAGGACCGCTTCGAGGCCGGACAGGCCGTGGTCATCGAGCTGGCGGGCGCCCACCAGCGCTACCACGCCCCGCTGGCCCGCACCCTGACGCTCGGCAAAAAACCGGACAGGCTTGCGAAGCTGGCCGACGCCGTCGCCGACGGCCTGAACGCCGTGCTCACAGAAGTGCAGCCGGGCGTTCCAGTCAGCGAACTGGCCAGGGCCTGGAACTGGACGCTGGCCAAGTACGGCCTTGAAAAGCCATCCCGCATCGGTTACTCAATAGGCATCGGCTATCCGCCGGACTGGGGCGAGCGCACCATCTCCATCCGCTCCGAGGATGAGTCCGTCCTCGCTGAGAACATGACCTTCCATGTAATCGGGGGCATGTGGATGGACAACTACGGCTATGAACTCTCCGAATCAATCCGCGTCACCGCAGACGGCGTGGAAACATTTACCAGCTTCCCCCGGGAACTCATCCAGAAAGGCGGTTAG	MLFSQGEYDARLAGVRVRMAKQGLAALLVTDPANIYYLTGYNAWSFYTPQMVFVPADGPMLLFTRAMDAGGAFRTSWLPEDSIVGYPEQYVHRPHVHPFDWVAFALRERYLIAAAAKGCVGLEMDSHFFSPKAYRSLVNAIPEWTLVDSFELVNWVRSIKSPAEIQLMRGAAQVCMAAMKTAVETIDVGVRQCDAAAAISQAQIQGANGIGGDYPAIVPMLPTGEAADTPHLTWSEDRFEAGQAVVIELAGAHQRYHAPLARTLTLGKKPDRLAKLADAVADGLNAVLTEVQPGVPVSELARAWNWTLAKYGLEKPSRIGYSIGIGYPPDWGERTISIRSEDESVLAENMTFHVIGGMWMDNYGYELSESIRVTADGVETFTSFPRELIQKGG	PGPT0006760_1475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271	NA	NA
D1-17_03034	1254	lysN_2	COG1167	2-aminoadipate transaminase	ATGACCGTTGACCATTTCGCCACCCGCTCCCGCGCCACCCTGCCCCTGGCAGACCGCGCAGCCAATCTCGTCGGCTCTGTCATCGACTCCAGCACCTCCCTGCTGGCCTCCCAGACACATGACATCGTCCGTTTCGCTATGGGCTCACCCGCAGACGAAGCGGTACCGCTGGCCGAATTCCGTCAGATCGCGGACCAGGTCATCGACCACAGTTCCATGACCTACGGCGCCACTGAGGGCGAACCCGTGCTGTTGAAGGCCCTTGTTGAGTACCTCGCCGGCACCTCGGACCCCACGGACGAGGAACGTATTACCATTACCGCCGGTGGCATGCAGGGCCTGGACCTGGCCTGCAAGATCTTCGTCAACCCGGGTGACCTGGTGATCGTGGAAAGCCCCACCTACACCAATGGCAGCGCCACTGCACTGAGCTACGGCGCCGAACTTCTCGAGGCGCCAATAGACGAGAACGGCCTCATCGTCGAGGCCCTTCCGGACCTGGTTGCGGCAGCGGGCCGGACCCCCAAAGCGATCTACACCATCCCGAACTTCCAGAACCCTTCCGGCACCACACTCTCACTGCCGCGCCGCCACCAGCTCCTGGAACTGGCGCACGAGTGGAACTCCGTCGTCATCGACGATGACCCCTACGGCCTGCTCCGTTTTGAGGGCGAGGACCTTCCCTCCCTCCAAGCTTTGAGTCCCGGGGATCCGCTGCTCTTTTCGGTCCGGACCTTCTCCAAGATTTTGGCTCCTGGTTTGCGGGTGGGGTGGGTGGACACGGACCCCGCGCTGCGACAGCTGGTCATCAACGCCAAGCAGGCAATGGACACCTCCACTAACGTTCCTGCCCAGCACATCGTTGCCGAATTCATCCGCCGCGGAGGCTTGGACAACCACCTCGCAGGCCTGCGGACTGAATACAAGCGCCGCAAGGATTCGATGCAGGAGAGCCTGCGCCGCAATCTAGGAGACAGGGTCACCACCACCGATCCCGAGGGAGGCTTCTTCCTCTGGCTCACACTTCAGGGACAGGACGCACAGATCTCCACTCGGAAGCTCTTCGAGACGGCCCTTGCCGAAGGCGTCGCCTTCATCCCCGGTCCGGCCCTTTCCGCCAGCGGAAAGTTCGACGACGCGCTGCGGCTCTGCTTCGCATCCACCACACCCGAACGGGCCGAGGAAGGCGTCATCCGGCTCCGGCGCGCGATGGACCTGGAACTCGCAGGGTTGAAGGGCGGAGGCAACGCTTGA	MTVDHFATRSRATLPLADRAANLVGSVIDSSTSLLASQTHDIVRFAMGSPADEAVPLAEFRQIADQVIDHSSMTYGATEGEPVLLKALVEYLAGTSDPTDEERITITAGGMQGLDLACKIFVNPGDLVIVESPTYTNGSATALSYGAELLEAPIDENGLIVEALPDLVAAAGRTPKAIYTIPNFQNPSGTTLSLPRRHQLLELAHEWNSVVIDDDPYGLLRFEGEDLPSLQALSPGDPLLFSVRTFSKILAPGLRVGWVDTDPALRQLVINAKQAMDTSTNVPAQHIVAEFIRRGGLDNHLAGLRTEYKRRKDSMQESLRRNLGDRVTTTDPEGGFFLWLTLQGQDAQISTRKLFETALAEGVAFIPGPALSASGKFDDALRLCFASTTPERAEEGVIRLRRAMDLELAGLKGGGNA	PGPT0007135_457	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007135-lysN-K05825	NA	NA
D1-17_03035	1239	argE	COG0624	Acetylornithine deacetylase	TTGAGGACCGCAGCGGAACGACAGCGGCCGAAACAACAAGCCCTTGAACAACTGCGGCTGGAGCAGAAAGTCTTGGATTTGGTCAGCGAGGCCGAACTTGTCTCGCTGACCACGGCCCTGGTGGCCGCCGCCGGGGAAAATCCGGGCGGCACCGAGGAAGCCACGGTGGACGTCCTGAGGAACTTCAGCCTGGTTGCGGGCCTGGAGGTGTCAACGGAGACAGTGGCCACGGGACGGCCGAACTTCACCGCCATCCTGCCCGGCGGTCCCCGGCCCGGCGTCCTGTTCCTGGGCCACTCCGACGTGGTTCCGGCAGGAGCAGGTTGGGAGCGCCCACCGTTCGAGCCGCATGTGCGGGACGGCAGGCTTTATGGCCGCGGTGCCACCGACATGAAGGGCGGCCTGGCTGCAGTGCTCATCGCGCTGAAGGCCCTCAAGGATGCCGGTGCGGAGCTCTCCGGGAACGCCGCACTCGCATGCACGGTGGACGAGGAGGACTTGGGACTCGGCATCCGGGCCTACACGGCAACCTCCCTCAAAGATCCGACATTCTCCTACTCGGCGTGCGTCGTCGCGGAGCCCACCGACCTTGAAACAGTCATCGGTTGCCGGGGCGATAGCTACATTGAGCTGAAAGTCACCGGCAAGTCAGCCCACTCCGGCCGGCCCGCAGACGGCCGGAACGCCATTGACGCTGCAGCCAAGATCCTGGAGCTTGTCCGGGAGGACCATGCCCGACTCCAAACCACTCAGGACCCTTTGCTCGGAGCTGGAACCTGGAGCACCGGCCTCATCCGCGGGGGCACCGGCACATCGATGGTGGCCGCCGAGTGCACCCTGTCCCTGGACCGCCGCCTCATGCCCGGCGAGGACGCGCACCTGATCCTGGACTGCCTTCAACGGCAGATCAGCGAGGCCGGTATTGACACCGACGGCATCCGCGTGGAGGCGGAGGTCACCATGGAGATGCCCGGTTTCCGCACTCCCGAAACCCATGCCCTGGTGGCAAATTCGGTCAAAGCATTGGCCGACTCCGGCGTCAGCAGCGCCGTGACCGGCTGGACGGCTGCCTGTGACGGCGGTTTCATTGCCCGGGACCTTGGCATTCCCGCGATTGTCATGGGACCCGGCGGCCTCAACGACCAGGCGCACCAGGTGAATGAATCGGTCAGCATCGCGGAGCTCGTAGCCGCCGCCCGCGCGTACGCGCTTATGTGCCTGCGGCACGATAGAAGCTGA	MRTAAERQRPKQQALEQLRLEQKVLDLVSEAELVSLTTALVAAAGENPGGTEEATVDVLRNFSLVAGLEVSTETVATGRPNFTAILPGGPRPGVLFLGHSDVVPAGAGWERPPFEPHVRDGRLYGRGATDMKGGLAAVLIALKALKDAGAELSGNAALACTVDEEDLGLGIRAYTATSLKDPTFSYSACVVAEPTDLETVIGCRGDSYIELKVTGKSAHSGRPADGRNAIDAAAKILELVREDHARLQTTQDPLLGAGTWSTGLIRGGTGTSMVAAECTLSLDRRLMPGEDAHLILDCLQRQISEAGIDTDGIRVEAEVTMEMPGFRTPETHALVANSVKALADSGVSSAVTGWTAACDGGFIARDLGIPAIVMGPGGLNDQAHQVNESVSIAELVAAARAYALMCLRHDRS	PGPT0014254_1290	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
D1-17_03036	513			hypothetical protein	ATGGCCCGGTACATCAACATCACCCTGGAGAAGCGGGGGGTCACCTGCAAGGCCCTCCTACACGACGACGTAGCACCCCGCACGAGCAAAGCGGTCTGGGATGCCCTGCCGCTGAGCGGGCAGGTGTTTCATGGAAAATACGCCCGCAACGAGATCTACAACCTCGTCCCGGCCTTCGCTCCGGTAGAACCCGGCGCCGAGAACACCACCGTGACCCCAATCCCCGGGGACGTCTGCTACTTCACGTTCACTTCTAACGACCTGAAAACGCCTTCCCACGGCTACGAGCAGGATTCCGGCACTGATTCCGTGCAGACAATTGTTGACCTCGCCGTCTTCTACGGCCGCAACAACCTGTTGCTCAACGGGGACACCGGCTGGGTTCCCGGCAACGTCTTTGCCACGATCGTAGAAGGCCTGGATGAGATGGCCGCAGCCTGCCAGGACATCTGGATGGGTGGGGCCCGCGACGAGACCCTGACGTACTCCCGGGCTGTGGAGACGGCCGAGTAA	MARYINITLEKRGVTCKALLHDDVAPRTSKAVWDALPLSGQVFHGKYARNEIYNLVPAFAPVEPGAENTTVTPIPGDVCYFTFTSNDLKTPSHGYEQDSGTDSVQTIVDLAVFYGRNNLLLNGDTGWVPGNVFATIVEGLDEMAAACQDIWMGGARDETLTYSRAVETAE				NA	NA	NA	NA	NA
D1-17_03037	2043	acsA_4	COG0365	Acetyl-coenzyme A synthetase	ATGATGGAAAGGCTATCCGTGTCAGAAAAAGGACCGGCAGGAGGACAACCCCGGCAGTCAGCACCGGGACCCGGCCTGCATGAGAACCGTAAGTTTGCACCGTCCGCAGAATTCGCCGCGAACGCCGTCGTTGGCGCCGGGATCTATGCAGAGGCCGAGGCTGACCGGCCGGCGTTTTGGGCCAAACAGGCCCGCGAACTGCTCACCTGGAGCAAGGACTTCACCGAAACCCTCGACTGGACGGACCCGCCGTTCGCGAAATGGTTTGTCGGCGGGGAGGTCAACGCGGCCTACAACGCGCTGGACCGGCACGTGGAGAACGGCCTCGGGGACCGGGTTGCGATCTACTTCGAGGGCGAACCCGGTGATTCCCGCACCTACACCTACGCCCAGCTCACCGAGGAAGTGAAGCAGGCCGCGAACGCCTTCGAATCCCTGGGCGTGGCCAAGGGCGACCGTGTTGCCGTGTACCTGCCGATGATCCCCGAAGCCGTGATCACGCTGCTCGCCTGCGCCCGGATCGGCGCCGTGCACTCCGTCGTGTTCGGCGGCTTCTCCGCTGACGCGCTGCGCTCGCGCATCGATGACGCCGAAGCCACGCTCGTCGTCACCGCCGACGGCACCTACCGCCGCGGCAAGCCCAGCGCCCTGAAACCGGCCGTGGACCAGGCGCTCTCCGCTGCCGGGCACACGGTGCAGAACGTCGTGGTGGTCAAGCGCAACGGCGAACCGGTGGACTGGACCGAGGGCCGGGACCACTGGTGGGAGGACACCGTCGGCGCCGCGTCCGCCGAGCACAGCCCGGTGGGCCACGATTCCGAGCACCCGCTGTTCATCCTGTACACCTCCGGCACCACCGGTAAGCCCAAGGGCATCCTGCACACCACCGGCGGCTACCTCACCCAAACCGCGTTCACCCACAAGGCAGTCTTCGACCTGCACCCCGAAACGGACGTGTACTGGTGCACGGCCGACGTCGGATGGGTCACCGGCCACTCCTACGTCGCCTACGCGCCGCTGATCAACGGCGCCACCCAGGTCATGTACGAAGGCACCCCGGACTCCCCCCACCAGGGCCGCTGGTGGGAGATCGTGGAGAAGTACAAGGTCTCCATCCTCTACACCGCGCCCACCGCGATACGGACCTTCATGAAGTGGGGCCGTTCCATCCCGGACGGGTACGACCTGTCCTCCATCCGGGTGCTGGGCTCCGTGGGTGAACCCATCAACCCCGAGGCGTGGATGTGGTACCGCGAGGTCATCGGCGCCAACGCCGGCAAGAACGGTGAAAAGAAGGAGCACCCCGCCCCGATCGTGGACACCTGGTGGCAAACCGAAACCGGCGCGCAGATGATCGCCCCGCTGCCCGGCGTCACGGCCGCCAAGCCCGGCTCCGCCCAGGTGCCCCTGCCCGGCATTGCCGTGGACGTCGTGGACGAGAACGGCGCTTCGGTCCCGGACGGGCACGGCGGGTTCCTGGTGATCCGCGAACCCTGGCCGGCCATGCTCCGCGGCATCTGGGGCGACCCCGAACGCTTCAAGGACACCTACTGGTCCCGGTTCGAAACCATGTACTTCGCCGGGGACGGGGCCAAAAAGGACGAAGACGGCGACATCTGGCTCCTGGGCCGGGTCGATGACGTCATGAACGTCTCAGGCCACCGCCTCTCCACCACCGAGATCGAATCCGCCCTGGTCTCCCACCCCGCCGTGGCCGAAGCCGCCGTCGTGGGCGCCACAGACGAAACCACCGGCCAGGCCGTCGTGGCGTTCGTCATCCTCCGCGGCGACGCCGTGGATTCCGGGGACGCAATCGTCCAGGAACTGCGCAACCACGTCGGCCGCGAAATCGGCCCGATCGCCAAACCCAAAACCGTCCTCGTGGTCCCGGAACTGCCCAAGACCCGCTCCGGCAAAATCATGCGCCGCCTCCTCAAAGACGTCGCCGAAGGCCGCGAAGCAGGCGACGCCACCACCCTGTCGGACAACACCGTCATGGCACAAATCGCGGCTTCCCTGGCACACCGGGTATCCAACCGCTAG	MMERLSVSEKGPAGGQPRQSAPGPGLHENRKFAPSAEFAANAVVGAGIYAEAEADRPAFWAKQARELLTWSKDFTETLDWTDPPFAKWFVGGEVNAAYNALDRHVENGLGDRVAIYFEGEPGDSRTYTYAQLTEEVKQAANAFESLGVAKGDRVAVYLPMIPEAVITLLACARIGAVHSVVFGGFSADALRSRIDDAEATLVVTADGTYRRGKPSALKPAVDQALSAAGHTVQNVVVVKRNGEPVDWTEGRDHWWEDTVGAASAEHSPVGHDSEHPLFILYTSGTTGKPKGILHTTGGYLTQTAFTHKAVFDLHPETDVYWCTADVGWVTGHSYVAYAPLINGATQVMYEGTPDSPHQGRWWEIVEKYKVSILYTAPTAIRTFMKWGRSIPDGYDLSSIRVLGSVGEPINPEAWMWYREVIGANAGKNGEKKEHPAPIVDTWWQTETGAQMIAPLPGVTAAKPGSAQVPLPGIAVDVVDENGASVPDGHGGFLVIREPWPAMLRGIWGDPERFKDTYWSRFETMYFAGDGAKKDEDGDIWLLGRVDDVMNVSGHRLSTTEIESALVSHPAVAEAAVVGATDETTGQAVVAFVILRGDAVDSGDAIVQELRNHVGREIGPIAKPKTVLVVPELPKTRSGKIMRRLLKDVAEGREAGDATTLSDNTVMAQIAASLAHRVSNR	PGPT0002265_802	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-17_03038	216			hypothetical protein	ATGAGCCTCCACGTAACCGCGGTTCCGTCCGCCGCGGGCATGATGGTTCCTTTGGCCAGAAACTGCGCAGCAGAGTCCCGGTTCGACGGCGTCCACCAGCCGCTGACGGGGCAGTGTTCGCCCGTTCGGGGCAGTATCTCAGCTGAGCTGCCCGCAATGCTGCGGGCAGACCTGGTGAGTGTGCGTTTCTTCAACTTGTCCTCCAGTGTCAGATAG	MSLHVTAVPSAAGMMVPLARNCAAESRFDGVHQPLTGQCSPVRGSISAELPAMLRADLVSVRFFNLSSSVR				NA	NA	NA	NA	NA
D1-17_03039	1002	ghrA		Glyoxylate/hydroxypyruvate reductase A	GTGGACATAATAAATGAGATGCCGGTCACCCCTCACCGGCCAAAAGTTGTCATTCTGACCGCGCAAGGGGTCATGCCTCCTCATAACATCGACGCCGTGGGGCAGCGCGTGGAGTTGGTGATGACGGACGCCGATGGCCTGGCTGACGCCCTCCCGGGGGCCGAGGTCCTCTTTCTATGGGACTTCTTCTCGACAGCGCTGCGCGATGCATGGAAACACGCCGATTCGCTCCGTTGGATACATGTCGCAGCCGCGGGCGTGGACTCCCTGCTCTTCGACGAACTCCGCCAGTCCGACGTCCTTGTCACCAATGCCCATGGAGCCTTCGACGGCCCCATCGCAGAGTTCGTGCTGGCCTCTGTCCTCGCACACGACAAACAACTGCACGTCAGCAAGAGCCTGCAGCAGCAGAACGTGTGGAAGCACCGGGAAGTCCAGCGCACGGCCGGGCAGAATGTTCTCGTGGTTGGTACCGGGGGCATCGGACGGGCCACTGCCAGGTTGCTGAAAGCTATAGGCATGAACGTCCTTGGAGCCGGGCGAACCGTAAGGGACAGCGACCCCGACTTCAACAAGGTGGTTTCCAGCGCAGAGCTGGCGGCCCATGCCGGTTGGTGCGACCACTTGGTGCTGATCGCACCACTGACTGAGGAGACCCGCGGAATCCTCAATGCCGAGGTACTGGGAACGATGAAGCCAACCGCCCATGTGGTGAACGTGGGACGAGGGGCACTCGTTGACGAAGACGCCTTGGTCCAGGCACTGCGAAACGGTCACGTTGCCGCCGCTTCGCTCGATGTTTTCCAGGTGGAACCGTTGCCGGCGGAACACCCGTTCTGGTCTATGGACAACGTGCACATATCCGCCCATATGTCCGGAGACGTGGTCGGCTGGCGGAACACGCTGGCCGGGCAGTTTGAAGCCAACCTGCACCTGTGGCTGGCCGGAAAGCCTCTGGTCAACCTGGTGGACAAGGAGTTTGGCTACGCCGCGTCGCGGTAA	MDIINEMPVTPHRPKVVILTAQGVMPPHNIDAVGQRVELVMTDADGLADALPGAEVLFLWDFFSTALRDAWKHADSLRWIHVAAAGVDSLLFDELRQSDVLVTNAHGAFDGPIAEFVLASVLAHDKQLHVSKSLQQQNVWKHREVQRTAGQNVLVVGTGGIGRATARLLKAIGMNVLGAGRTVRDSDPDFNKVVSSAELAAHAGWCDHLVLIAPLTEETRGILNAEVLGTMKPTAHVVNVGRGALVDEDALVQALRNGHVAAASLDVFQVEPLPAEHPFWSMDNVHISAHMSGDVVGWRNTLAGQFEANLHLWLAGKPLVNLVDKEFGYAASR				NA	NA	NA	NA	NA
D1-17_03040	1278	davT	COG0160	5-aminovalerate aminotransferase DavT	ATGACTTCACTTAGCCCCCTCCTCAAGCAAGCAACCCCCTTGGTGGTGGACCACGCCCTTGGCAGCTGGATCCACGCCACCGACGGCAAGGCCTACCTGGACTTCACCACCGGAATTGGTGTGACCAGCACGGGCCACTGCCATCCCCGAGTAGTGGAAGCAGCCCGGGAACAGGTAGGTAAGATCATCCACGCGCAGTACACCACGGTCATGCACAAGCCGCTTCTGGCTCTGACCGAGAAGCTCGGCGAGGTGCTTCCGGAAGGCCTCGACTCCGTTTTTTATGCCAACTCTGGTTCCGAAGCCGTTGAGGCCGCAATCCGCCTGGCACGCATGGCCACCGGACGTCCCAACATCGTTGTTTTCCAGGGCGGCTTCCACGGCCGCACCGTCGCTGCCGCTTCGCTGACCACAGCCGGAACCCGATTCTCCGCAGGTTTCTCCCCGCTGATGTCCGGTGTCCACATGTCCGCGTTCCCCTATGCCTACCGATACGGCTGGGATGAGGCCAGCACTGTCGCCTTCGCCCTGAAGGAACTTGACTACCTGCTGCAGACCCGGACCGCGCCGAATGACACTGCCGCCTTCCTGATTGAGCCGGCTCTGGGCGACGGCGGCTACCTCCCGACCCCTCCCGCATTCCTGGAAGGATTGCGCGAGCGCGCCGACCGCCACGGCATCCAGCTCATTTTTGATGAGGTGCAGGCCGGAGTGGGCCGGATGGGCAAGTTCTGGGGCCATCAGTATTCCAGCGCCACACCGGACATCATCATCACTGCCAAGGGCATTGCCTCCGGCTTCCCAATCTCCGCCATCGCGGCGTCCACCGAAACGATGTCGAAGGGCTGGCCCGGATCCCAGGGCGGCACGTACGGAGGAAACGCTGTTTCCGCCGCTGCCGGCGTCGCCACCCTCGACGTTGTGCGGGAAGAAGGCCTTGTGGAAAATTCCCGCGTTCGCGGTGAACAGCTGCAGTCCGGCCTCAAGGAGATCCAAGCCCGCTTCCCGGTCATCGGTGACGTCCGCGGCCGCGGCCTCATGCTGGGCATTGAATTCACGTCTGAAGACGGCACCCCCGACGCCGCGACCGCCAGCGCTGTCCAACAGGCCACCACGGCAGAGGGGCTGCTGACACTGACCTGCGGCCCAGCCGGCAATGTCGTCCGGCTGATCCCGGCGCTCGTGGTCACCGCAGAGGAAATCTCCCTGGGCCTGGAGCGTTTCGAGGCAGCTGTGGGCGCCGTCGTCGGAGCCGTTCCCGCCTCGACAGGATCCTGA	MTSLSPLLKQATPLVVDHALGSWIHATDGKAYLDFTTGIGVTSTGHCHPRVVEAAREQVGKIIHAQYTTVMHKPLLALTEKLGEVLPEGLDSVFYANSGSEAVEAAIRLARMATGRPNIVVFQGGFHGRTVAAASLTTAGTRFSAGFSPLMSGVHMSAFPYAYRYGWDEASTVAFALKELDYLLQTRTAPNDTAAFLIEPALGDGGYLPTPPAFLEGLRERADRHGIQLIFDEVQAGVGRMGKFWGHQYSSATPDIIITAKGIASGFPISAIAASTETMSKGWPGSQGGTYGGNAVSAAAGVATLDVVREEGLVENSRVRGEQLQSGLKEIQARFPVIGDVRGRGLMLGIEFTSEDGTPDAATASAVQQATTAEGLLTLTCGPAGNVVRLIPALVVTAEEISLGLERFEAAVGAVVGAVPASTGS	PGPT0007140_1137	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007140-puuE-K00823	NA	NA
D1-17_03041	3102		COG0247	putative protein	ATGATTGACGCCGTTCGTTCCCCAGCGGACCCGGTAGTAGACCCCGGCGCGCCGAGTGTCAGTAAGGCCGGGCAACCCGCGGTCCTCGCGCGCCTGGCCTCCGCGGGTGTTGCCGCGGACACCTCGCCGCGGCGCCTGTCGGAATACTCCTACGATGCGTCTAACTACCGCGTGGCCCCGTTAGCCGTGGTCTTCCCGAGAACAGTAGAGGATGTTGTCTCCACCGTTGCTGCCTGCCGTGAAACGGCAACGCCTCTGATCGGCCGCGGCGGCGGGACTTCCATGGCCGGAAACGCCATGGGTCCCGGCATCGTGCTGGATTTTTCCCGGCATATGAACGGCATTCACAGCCTTGATGAAGCCGCCGGAACGGTGGCCGTGGACCCCGGAGTGGTGCTCGCCGTCCTCTCCCGCGAAGTGGAGAAGACGACTGGGGGCCGCTACACCTTTGCGCCGGACCCTTCCTCCAAGAACCGCGCGACCATCGGCGGCTCGCTGGGTAACGACGCGTGCGGTAACCATTCCGTCCGCTATGGACGGACGTCTGACCACGTTGCGGAGATCGACGTCGTCACCTCCGATGGTGCGCGGCTCACCGCTGCGGCCACGGGATTGCGCGCCACCGACCCCAGTGACAACGCCTCGGCCTCCCGCGCCGCTGCCCTGACCGCATCCCTCAAGGACCTGACGCACAACCACCTGTCCGAGTTCCGGCTCGAGCTCGAACGCATCCAGCGCCAGGTTTCCGGTTATCACCTGGCCAACCTGCTGCCGGAAAACGGGTTCAACGTGGCCCGCGCTTTAGCGGGCTCTGAGGGAACGTGCGCGATCATTGTCGGTGCGCGGATGAAGCTCGTACCCAAGCCGGCCAGCGCCCTGCTGGTCTGCCTGGGCTATGCGGACGTGGTCGACGCGGCGCGGGACATCGAGACCATCCTGGAGTTCTCCCCCGCTGCCGTGGAAGGCATCGATGAGGCGATCGTGGAGACCATGCGCTTTCGCCGCGGCGACCGCTCAGTGCTTGGCCTTCCCGATGGAAAGGCCTGGCTCTACGTGGACCTGGACGGCGACAACCCGGGCGAGGTTCGCGCCGACGCCGAGCGGCTGCTTGCCCGACTCAAGGAAAACGGACGGCTCGTGGACGGGCGCCCGGTGCCTGACGCCGTCGAGCGGGCATCCCTCTGGCGTGTCCGCGAGGACGGCGCAGGACTTTCCGCACGGCTCTCCACCGGAGGCGAATCCTGGCCCGGCTGGGAGGACTCCGCCGTGGCTCCTGAAAAACTGGCCGATTACCTCTCCGAGTTCCGCGAACTTCTGGCCCGCCATGAGCTAAGAGGCGTCATGTATGGCCACTTCGGCGCGGGCTGCATGCACATCCGCATCACCTATGATCTCCGCACCGAGGCGGGCCGGGCCGTCTTCCGGACCTTCACACAGGAAGCCGCCGGGCTCGTGGTCCGGCACGGCGGCTCACTCTCGGGAGAACACGGCGATGGCAGGGCCCGCTCGGAACTGCTGCCCATGATGTACTCACCACGGATGTTGGAAGCATTCGCCAGCTTCCGCCGCGCCTGGGACCCGGCAGGAATCCTTAATCCGGGGTCGCTTACTGAAGCGGACCCGATGGACGCCAACCTAGTCCTCGACGGTGTTCCGCAGCGGCAGTGGCGAACGAGCTTCGACCTCCGCCCGCTCGGCGCCGGAGGCAGCGCATCAACCGAAACCGACACTCCCGAGACCTCCACGGGCAGCGGTACGGATCCCTGGGTTCACGCGCTCCAGAGCTGCATTGGCGTCGGCCGTTGCCGCACGGATTCCGGCGGCGTCATGTGCCCGAGCTACCGCGCCACCAAGGATGAAAAGGACTCAACCCGCGGGCGCTCCCGCGTGCTGCAGGACATGGTCCGCGGAGCCCGCACCGTGGAGGAAGGCTGGAAATCGGAGGAGGTCCGTGAGGCCCTTGACCTATGCCTCTCCTGCAAGGCCTGTTCCAGCGACTGCCCCACCGGCGTCGACATGGCCACGTACAAATCCGAGTTCTTCTCGCACTATTACGACGGCAAGCGGCGCCCACTCTCGCACTACTCCCTGGGCTGGCTGCCCCGATGGCTCAAGGTCACCGGCCGCATGGCACCGGTGGTCAACGCCGTGATGTCCACACCGCTGGCCAAAGCGGCTTCCGCCCTGGGCGGGCTCACCACCAAGAGGTCCATGCCCCGCTTCGCCGGAGCGAACGAGTGGCGCCGGGCAGTCTTCGCCGCCGGCGTCGCGCCCGCCCGCAAGTCCAGCAACAGCGGCACGGCCGACGGTGCCAATGGGCCAGCCCCGGACGGAGTAGTCCTGTTCGTGGACACGTTCACCCGCGGCTTCCGGCCTGAGGTCGCCGGTGCAGCGGCGCGCGTTCTCGCCGGCGCCGGTTCCACCACGGAATGTTCCGCCGACGCCTGTTGCGGCCTGACCTGGATTTCCACTGGGCAGCTTGATACGGCCAAAAAGCTGCTGGGCAAGGCGGCCGTCGCGCTCGACGACGGGACCGACCGCCCCATTGTGGTGGTGGAACCGAGCTGTGCCGCCGCGCTGCGCAAGGACCTGCCGGAGCTCGTCCATACGGACCAGGCCCGCCGGGTCGCCGCCAGGGTGCGCAGCTTCGCCTCGCACATAGAAGAGCTGGCGAAGTCGGGCTGGAAACCTACGCCGGCGGAACCCCTGCCGGAAAAGGTGGTGCTACAGACGCACTGCCACGAACACTCCGTCTTCGGCGCGGGCACCCAGCGCGCGGCGCTCGGCGCGGTGGGTGTCGCAGACATAGTGGACGCGACAGGCTGCTGCGGCGTAGCCGGCAACTTCGGCTTCGAAAAGGAGCACTTCGACGTCAGCATGCTGGTGGCCGAGCAGTCTCTAGCGCCTGCCCTGCGGGAGACAGAGGCGGATTCCGTGGTCCTCACCGACGGCTTCTCCTGCGCGATGCAGGTCCGGCAACTCGATGATTCCAAGCCGGGGCGCCACCTCGCCCAACTCCTCGATCCCGGGGGACCGACAACAATCTCCCTTGAGCGCAATCACAAAACACTTCCTTCCACTCAAGAAAAGGACTATTCATGA	MIDAVRSPADPVVDPGAPSVSKAGQPAVLARLASAGVAADTSPRRLSEYSYDASNYRVAPLAVVFPRTVEDVVSTVAACRETATPLIGRGGGTSMAGNAMGPGIVLDFSRHMNGIHSLDEAAGTVAVDPGVVLAVLSREVEKTTGGRYTFAPDPSSKNRATIGGSLGNDACGNHSVRYGRTSDHVAEIDVVTSDGARLTAAATGLRATDPSDNASASRAAALTASLKDLTHNHLSEFRLELERIQRQVSGYHLANLLPENGFNVARALAGSEGTCAIIVGARMKLVPKPASALLVCLGYADVVDAARDIETILEFSPAAVEGIDEAIVETMRFRRGDRSVLGLPDGKAWLYVDLDGDNPGEVRADAERLLARLKENGRLVDGRPVPDAVERASLWRVREDGAGLSARLSTGGESWPGWEDSAVAPEKLADYLSEFRELLARHELRGVMYGHFGAGCMHIRITYDLRTEAGRAVFRTFTQEAAGLVVRHGGSLSGEHGDGRARSELLPMMYSPRMLEAFASFRRAWDPAGILNPGSLTEADPMDANLVLDGVPQRQWRTSFDLRPLGAGGSASTETDTPETSTGSGTDPWVHALQSCIGVGRCRTDSGGVMCPSYRATKDEKDSTRGRSRVLQDMVRGARTVEEGWKSEEVREALDLCLSCKACSSDCPTGVDMATYKSEFFSHYYDGKRRPLSHYSLGWLPRWLKVTGRMAPVVNAVMSTPLAKAASALGGLTTKRSMPRFAGANEWRRAVFAAGVAPARKSSNSGTADGANGPAPDGVVLFVDTFTRGFRPEVAGAAARVLAGAGSTTECSADACCGLTWISTGQLDTAKKLLGKAAVALDDGTDRPIVVVEPSCAAALRKDLPELVHTDQARRVAARVRSFASHIEELAKSGWKPTPAEPLPEKVVLQTHCHEHSVFGAGTQRAALGAVGVADIVDATGCCGVAGNFGFEKEHFDVSMLVAEQSLAPALRETEADSVVLTDGFSCAMQVRQLDDSKPGRHLAQLLDPGGPTTISLERNHKTLPSTQEKDYS				NA	NA	NA	NA	NA
D1-17_03042	1494	sad_3		Succinate-semialdehyde dehydrogenase	ATGAGCATCCAGGCAACCACCAACTCCAGGACTTCCCAAAAGGCGCTGGACGCCGTCGCCAAGGTGAGCACCAAACTGTTCATCGACGGCGAATGGGCGGAAGCCTCTTCCGGCGCCCGCTTCAACGTCATCAACCCCGCCACCGAGGAAGTCATTGCCACCGTGGCCGACGGCGGTCCCGAAGACGCCCGCCGGGCGATCGAAACGGCCGGCCGTGTACAGAAGGAGTGGGCCAAGACCCCGCCGCGGGAGCGGAGCGAAATCCTACGGCGTGCCTTCGACCTGATCATGGCCCGGCAGGACGAGCTGGCCCTGATCATGACCACCGAGATGGGCAAGCCCTTCGCCGAAGCCAAGGGCGAAGTAGCCTACGCTGCAGAGTTTTTCCGCTGGTTCTCGGAGGAGGCTGTGCGCATCGGCGGCGACCTGACCACCACAGGCGACGGCAAGAACCGGATTCTCGTCTCTAAGGAGCCCGTGGGCCCCTGCGTGCTGGTGACGCCCTGGAACTTCCCGCTGGCCATGGGCACGCGGAAGATCGGTCCGGCCATCGCAGCCGGCTGCACCATGGTCTTCAAGCCTGCCAACCTCACCCCGCTGTCCTCACTGGCGCTGGTGGACATCCTGATCGAGGCCGGCCTGCCCAAGGGCGTGCTCAACGTCGTCACCACCACCAAGGCCTCGGACGTAGTCACCCCGTGGATGGAGAGCGGCATCGCCCGCAAGGTCAGCTTCACCGGCTCCACCGGCGTGGGCATCCGGCTCCTGGAGCAGGCGGCAAAGAACGTCATGCGCTCCTCGATGGAACTCGGCGGCAACGCGCCCCTGATCGTGTTTGAGGATGCCGACCTGGACCGGGCCGTGGAAGGCGCATTTGCCGCCAAGATGCGGAACATGGGCGAGGCCTGCACCGCCGCCAACCGGATTTTCGTCCAGCGCTCTGTGGCCGCCGACTTCTCGGCACGGCTCGCCAAGCGCCTTAAAGCCCTCAAGGTCGGCGACGGCGCCGAGGAAGGCACCGACGTCGGCCCTCTGGTGGAAGAGAAAGCCCTGAACAAGGTCCAGGAACTGGTGGACGACGCCGTCGCCAAGGGCGCCACCGTGGTCTGCGGCGGCTCCCGCCCCGAGGGCACCGGGTACTTCTACTCCCCCACGGTACTTGCGGACGTCAGCCCGGATGCGGCCCTGATGAGCGAGGAGATCTTCGGCCCGGTGGCCCCGGTAATTCCCTTCGACACCGAGGAGGAAGTCATCCGGCTCGCCAACGATACCCCTTGGGGCCTGGCCAGCTACCTGTTCACCCAGGACCTGGACCGAGCCTTCCGCGTGGGCGAGGAACTGGAGGTCGGCATGGTTGGACTCAATACAGGAATTGTGTCCAACCCGGCGGCGCCCTTCGGCGGCATCAAAGCCTCCGGGCTGGGCCGTGAGGGCGGCCGCGTGGGCCTGGACGAGTTCCTGGAAATCAAGTACATGGCCCTCCCCCGCGTCTAG	MSIQATTNSRTSQKALDAVAKVSTKLFIDGEWAEASSGARFNVINPATEEVIATVADGGPEDARRAIETAGRVQKEWAKTPPRERSEILRRAFDLIMARQDELALIMTTEMGKPFAEAKGEVAYAAEFFRWFSEEAVRIGGDLTTTGDGKNRILVSKEPVGPCVLVTPWNFPLAMGTRKIGPAIAAGCTMVFKPANLTPLSSLALVDILIEAGLPKGVLNVVTTTKASDVVTPWMESGIARKVSFTGSTGVGIRLLEQAAKNVMRSSMELGGNAPLIVFEDADLDRAVEGAFAAKMRNMGEACTAANRIFVQRSVAADFSARLAKRLKALKVGDGAEEGTDVGPLVEEKALNKVQELVDDAVAKGATVVCGGSRPEGTGYFYSPTVLADVSPDAALMSEEIFGPVAPVIPFDTEEEVIRLANDTPWGLASYLFTQDLDRAFRVGEELEVGMVGLNTGIVSNPAAPFGGIKASGLGREGGRVGLDEFLEIKYMALPRV	PGPT0001580_895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-17_03043	1425	aam_2	COG0154	Acylamidase	ATGAGTGAATTGACCGATCTGATAAACCTAACGGCAGTTGAGCTGCTGGCGGGCTACCGCGAGGGCACCGTCTCGCCCGTGGACGCCACCCAGGCTGCGCTGGAAGCTATAGACGCGGGAAACAATGACGTAAACGCCTTTGTCTCCGTTGAGGCCGACAGCGCTCTGCAGGAGGCACGTGAATCCGCAGCGAGGTGGCGCAGTGGCAAGCCGCTGGGTCCAGGCGACGGCGTTCCCACTTCCATTAAGGACATTTTTTACACCCGGGGTTGGCCCACTCTGCGCGGGACCAACCTCATCAATGCGGACGCGGCCTGGAACGATGATGCGCCGTGCGTCGCGAGGCTGCGTGAGACCGGCGCCGTGCTGCTCGGAAAGACCACCACTCCGGAGTTCGCCTGGAAGGGAGTGACGGATTCCCTCCGCCACGGCTCCACAGGTAATCCCAGGGCCCAGGACCTAACGTCAGGCGGCTCGAGCGGCGGCAGCGCCACGGCCGTGGGGCTCGGGATGGGTCCATGGTCGGTGGGCACCGACGGAGGCGGCTCGGTCCGGATCCCCGCCGCGTTCACCGGAACCGTGGCCCTCAAGCCCACGTATGGGTTGGTGCCTATGTTCCCCGCCAGCCCGTTCGGAACCCTCGCGCATGCCGGGCCCATGACCCGTACGGTCGAGGACACGGCTCTCCTGCTGGATGTGATCACCGGGTTTGATTCGCGCGACTGGTCTGCACTCCCGACTCCGACCGGTTCCTTCCTGGACGGCCTCGACGGCGGTGTCAAGGGGATGCGGATAGCATTCTCACCGACGCTTGGCTTCGGCGCCAACGATCCTGAGGTCGAGCGGCTGGTCCGGGCGGCGGCTCAAGTGCTTGCGGAGGCCGGCGCCCTCGTCGAGGAAGTAGATCCCGGTATCCAGGATCCAGTTGAGGCCTTCCATGTCCTGTGGTTCGCGGGGGCCGCCAAAGTGCTCGAAGCCTATGGACCGGATGCCATCAGCAAGGTGGATCCAGGGCTACGCCGATCCATTGAGGAGCAGGGAGACATCAGCGCTTCGGACTTCCTCGATGCCACCGCCGTACGGATGGACCTGGGCGTGAAGATGGGACGGTTCCACGAAACGTACGAGCTGCTTTTGACCCCCACGCTCCCCATCGCGGCCTTCCCGCGGGACCGGGACGCGCCCGAAGGCTGGCACTCCCAGAACTGGACCAGCTGGACCCCGTACACCTACCCGTTCAACATGACGCAGCAGCCTGCCATCAGCGTTCCCTGCGGCTTCACCGAGGCCGGTCTCCCCGCGGGCCTGCAGATCATCGGCCCGCGGCACGCGGACCGCAAGGTGCTCCGTGCAGCCCAAACCTACGAGAAGGCCGCGGCCTGGGGTACCGAACGGCCCGCACGGATCGCGGCACACCGCAGCTAG	MSELTDLINLTAVELLAGYREGTVSPVDATQAALEAIDAGNNDVNAFVSVEADSALQEARESAARWRSGKPLGPGDGVPTSIKDIFYTRGWPTLRGTNLINADAAWNDDAPCVARLRETGAVLLGKTTTPEFAWKGVTDSLRHGSTGNPRAQDLTSGGSSGGSATAVGLGMGPWSVGTDGGGSVRIPAAFTGTVALKPTYGLVPMFPASPFGTLAHAGPMTRTVEDTALLLDVITGFDSRDWSALPTPTGSFLDGLDGGVKGMRIAFSPTLGFGANDPEVERLVRAAAQVLAEAGALVEEVDPGIQDPVEAFHVLWFAGAAKVLEAYGPDAISKVDPGLRRSIEEQGDISASDFLDATAVRMDLGVKMGRFHETYELLLTPTLPIAAFPRDRDAPEGWHSQNWTSWTPYTYPFNMTQQPAISVPCGFTEAGLPAGLQIIGPRHADRKVLRAAQTYEKAAAWGTERPARIAAHRS				NA	NA	NA	NA	NA
D1-17_03044	1326	proP_3		Proline/betaine transporter	TTGCGCCGAGCCATCGCCGCCTCGGCGATGGGTAACGCCACTGAGTGGTTCGATTACGGCGTTTATGCTGTAGCAGCCACCTACATCACAGCTAACTTCTTCCCTGGCGAAGGTGCCATGGGAACTGTCTGGACGCTGGCCACCTTTGCACTCTCGTTCCTGGTGCGGCCCCTCGGCGGGCTGTTCTGGGGCCCCCTGGGCGACAGGATCGGCCGCAAGAAGGTTCTGGCGCTGACCATTATCCTGATGGCAGGTGCGACCTTCGCGATCGGCCTTCTCCCAACCCAATCTGTGGCCGGCTGGCTGGCCCCGGCACTGCTGATCCTGCTCCGCATGGTTCAGGGCTTCTCTACCGGCGGCGAGTACGGCGGCGCCGCCACCTTTATGGCGGAGTATGCGCCCGACAAGAAGCGTGGCTTCTACGGAAGCTTTCTGGAGTTCGGCACCCTGGGCGGCTTCGCCCTCGGTTCCCTGATCGTTCTGCTCTGCAGCCTGCTCCTGGGCGACAGCGCCATGCACGAGTGGGGCTGGCGCGTGCCGTTCCTGATCGCCGGTCCACTCGGCATCATCGGGCTCTACCTGCGGAACCGTCTGGAAGACACCCCCGTCTTTCGCGAGCTCGAGGCCAAGGGTGACCTGGAGCCGGCAGTGAGTTCCACGCTCAGGGACCTGCTCCGCTACTACTGGCGGCCAATGCTGACCATGTCCGGGCTCGTCATCGCTCTGAACGTGGTTAATTACACGCTTCTTTCGTACATGCCGACTTACCTCGAGGGCTCGGTCGGCATGGACGCCAGTACGGTACTGACCCTCATGTTTGTCGGACAGTTGGTGATGATGCTGATCATTCCGCTGGCAGGAGCCCGTTCGGACAAGATCGGACGCAGGCCCATGTGGTTCATCTCGCTCATCGGCCTGTTCGTCTTGGCGGTCCCGATGTATATGGTGATGGCCAACGGCTTTTGGTTCGCGATGCTTGGCTTCGCTGTCCTGGGCCTGCTGTACCTCCCACAGCTAGCCACCATCTCAGCTACCTTTCCCGCCCTGTTCCCCACGCAGGTCCGCTACTCAGGCTTCGCGATAACGTACAACGTCAGCACCGCTCTCTTTGGCGGCACTGCTCCCATGGTGAACGAGCTCCTGATCAATTCCACGGGGAACGTCCTGATGCCGGCGTTCTACATGATGGCTGCCTGCCTCGTAGGCCTCGTTGCCGTGTGGAAAATGCCCGAAACCGCGGGCTCCTCCCTGCGCAACATGAAGATTCCAGGGGACTCCATCAGCCGCACCGCTCCTAAACCTCACAATTCAAAGAGCGGGATTTAA	MRRAIAASAMGNATEWFDYGVYAVAATYITANFFPGEGAMGTVWTLATFALSFLVRPLGGLFWGPLGDRIGRKKVLALTIILMAGATFAIGLLPTQSVAGWLAPALLILLRMVQGFSTGGEYGGAATFMAEYAPDKKRGFYGSFLEFGTLGGFALGSLIVLLCSLLLGDSAMHEWGWRVPFLIAGPLGIIGLYLRNRLEDTPVFRELEAKGDLEPAVSSTLRDLLRYYWRPMLTMSGLVIALNVVNYTLLSYMPTYLEGSVGMDASTVLTLMFVGQLVMMLIIPLAGARSDKIGRRPMWFISLIGLFVLAVPMYMVMANGFWFAMLGFAVLGLLYLPQLATISATFPALFPTQVRYSGFAITYNVSTALFGGTAPMVNELLINSTGNVLMPAFYMMAACLVGLVAVWKMPETAGSSLRNMKIPGDSISRTAPKPHNSKSGI	PGPT0013645_975	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-17_03045	657	rspR_6	COG1802	HTH-type transcriptional repressor RspR	ATGAAAAGGGGAGCCCTAGACCCGGTTGTGCAGGAGTCTACTCCGGCAATCATTGCCAGGAAAATCCGCGATGCCATCGCCCGGGGTGACTTCGCCCCCGGCGTGCAGCTGGGTGAAGCCGAACTCGCCAAGGAGTTGGGTGTAAGCCGCGGCCCCCTTCGGGAGGCCATGCAGAGGCTGACGCAAGAGGGCCTGTTGGTGAGCTACCGGAACCGCGGCCTCTTCGTGGTGTCGATGGATCAAGACGACTTCCGCGACATCTATTTGGCGCGCTCCGCCGTCGAGACTGCAGCCATCAACCGGGTGGCCAGCACTGACCCTGAGGGTGCGGCGGCGCGGCTGATGGAGGCCGTGCGCGAGATGGAAGCCGCCGCCTCCACGCCCAGCGGCGAAGCGATTACAGAAGCTGACATGCGTTTTCACGCGCTCTTGGTCGAGTTGGCCGGCAGCCCCCGCCTTAAGAAGATGCATGACACGCTTCTGACGGAGACGCAAATGTGCCTTAATGCCCTCAAGAGCACGTACGAGACGGCGGACAAACGCATCTCCGAGCACAGGGGTATCGCCGAGGCGATTTCCCGGGGAGATGCGGACCTCGCGCAGAAGCTCATGGGTGAACACATGGATGATGCCCTGATGCGCTTGATTCCTGAGTGA	MKRGALDPVVQESTPAIIARKIRDAIARGDFAPGVQLGEAELAKELGVSRGPLREAMQRLTQEGLLVSYRNRGLFVVSMDQDDFRDIYLARSAVETAAINRVASTDPEGAAARLMEAVREMEAAASTPSGEAITEADMRFHALLVELAGSPRLKKMHDTLLTETQMCLNALKSTYETADKRISEHRGIAEAISRGDADLAQKLMGEHMDDALMRLIPE				NA	NA	NA	NA	NA
D1-17_03046	729	maiA_2		Maleate isomerase	ATGACAACTGTCGGAATGCTTTATCCCGGCCACAGCGCCGAGGATGAATATCCCTACCTGGAATCAGTGCTGGGAGACGACATCCACCTCCCAGTGGTTCATACCTCCGTCGGAGGTCCCGACGAGATCACCACACACGAGGTGGAGGCGCTGCTGGACCTGGGCAAGCCGGAGCGGCTGCTCACCGGTGCCAGCGAGATTGCCCGCACGTTCAATCCGGACGCGGTCATGTGGGCCTGCACCTCAGGCAGTTTCGTATTCGGCTGGGAGGGCGCCCATCAGCAGGCAAAGGAAATACAGGAAGCCATCAATGTTCCCACGTCCTCCACCTCACTGGCCTTCGCAGCCGCGCTGCGTCACCTGGGGATTTCGAAGGTTTCCATTTCGGCAACCTACCCCGACGAGGTCTCCCGCCACTTTGTGGAACTGCTTGGCCACCAGGACATCGAGGTCCTTGATATGGCCTCCCACGACATCGCCTCGGGAGAGGATGCCGGCGAACTGGACCACGACAGCGTGATTGAGCTGGCGCGCAGCGCCAATGCTCCGGAGGCCCAGGCCGTCCTGATTCCGGACACGGCCCTGCATACCGTGCGTTGGATCAACGAACTGGAATCGGTACTCGGAAAGACTGTATTGACCGCGAATCAGGTAACCGCGTGGTACGGGCTGCAGCTCGCCGGCAGGACGGTGCACTCGGACCAGCTGGGCGCGCTGTTCCGCGCCTGA	MTTVGMLYPGHSAEDEYPYLESVLGDDIHLPVVHTSVGGPDEITTHEVEALLDLGKPERLLTGASEIARTFNPDAVMWACTSGSFVFGWEGAHQQAKEIQEAINVPTSSTSLAFAAALRHLGISKVSISATYPDEVSRHFVELLGHQDIEVLDMASHDIASGEDAGELDHDSVIELARSANAPEAQAVLIPDTALHTVRWINELESVLGKTVLTANQVTAWYGLQLAGRTVHSDQLGALFRA	PGPT0019700_768	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_NICOTINATE_DEGRADATION,PGPT0019700-nicE-K01799	NA	NA
D1-17_03047	768	maiA_3		Maleate isomerase	ATGGCACTTTTACCTGAACCCGCTGTGGCACCTCTCGTGGACCCGCAGGGCCCCCACCCCTGGCAGGACATCGGCGTTGTCTGCCCTTTTGACATGGCCTTGGATCACGAGCTCTGGCGCTGGATGCCAGACCGCGTGAACCTTGTGTTTACCCGCACCCCTTATTACGACCAGCCCGTAGGCCTGGACATGGCCGAGGAGATCAGTGACCACCGTGAAATCCAGGACGCCGTCCGCAGCGTGGTGGCTATCCGCCCCGCTGTAGTGGCATACGCCTGCACGTCGGGCAGCTTTGTCCACGGCGTAGAGGGTGCCCGGGACCTTTCAGCGGCCATGGTTTCTGCGGGGGCACCCGCAGCCGTGACCACCTCGGAGGGCCTGCTGATGGCGCTGGACGCACTCGGTGTCACCCGGGTGGCGGTGGCAACTCCATACCTCGCCGAGCTCACTGACCGGCTGGCTACGTTTCTGGAGCAGGGCGGGAAGTCTGTGGTCTCGCATGAGGGGATGGGGCTGGACCGGGAGATCTGGAAGGTCCCCTATGCCGCCACGTGTGAGCTGATCCGCGGGGCCGACCGGCCGGATGCGGAGGCTGTCTTCGTCAGCTGCACCAATCTGCCCACCTATGACCTCATTGCCTACATGGAACGGGAACTGGGGAAGCCCGTGATCACGGCCAACCAGGTTACTGCCTGGAGCGCGCTGCGGCTGATGGGCCGCGAGGCCGTAGGCCCGGAGCAACTCTTGCTCCAGGCCGCAGTCAGGTAG	MALLPEPAVAPLVDPQGPHPWQDIGVVCPFDMALDHELWRWMPDRVNLVFTRTPYYDQPVGLDMAEEISDHREIQDAVRSVVAIRPAVVAYACTSGSFVHGVEGARDLSAAMVSAGAPAAVTTSEGLLMALDALGVTRVAVATPYLAELTDRLATFLEQGGKSVVSHEGMGLDREIWKVPYAATCELIRGADRPDAEAVFVSCTNLPTYDLIAYMERELGKPVITANQVTAWSALRLMGREAVGPEQLLLQAAVR	PGPT0019700_408	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_NICOTINATE_DEGRADATION,PGPT0019700-nicE-K01799	NA	NA
D1-17_03048	456			hypothetical protein	ATGTATAGAAACGAGAACAGGACCCCGCCGCTTCCGCCCACCCCCCAGCCTGCCGGCAACTACGTGCCCGTCCGTGAAGCAGCCGGCCTCCTTTACACGTCCGGACATACCTCTGCGGTACAGGGAATTTTGGAACACCGCGGCCGTGTGGGCCAGGACCTGTCAGTCGAGGAAGGGCGGTCAGCTGCGGCAACCGCTGTGCTGAACTGCCTGGCGTCTCTGGCTGCGCATGCCGGTGGGCTGGGCAACATCGATGAGATTGTCTCCATGACGGGCTACGTCTGCGCCGGCAGCGACTTCACGGACCATCCGCTGGTAATGGACGGCGCGTCTGACGTGCTGGTTTCGTACTTCGGGGACCAGGGCCGGCCGGTGCGTGCCGCCGTCGGGGTTTCCAGCCTGCCCGGCGGTGCACCGGTTGAAATATCGCTGGTAGCCTCCTTCCGCAACGCCTAA	MYRNENRTPPLPPTPQPAGNYVPVREAAGLLYTSGHTSAVQGILEHRGRVGQDLSVEEGRSAAATAVLNCLASLAAHAGGLGNIDEIVSMTGYVCAGSDFTDHPLVMDGASDVLVSYFGDQGRPVRAAVGVSSLPGGAPVEISLVASFRNA				NA	NA	NA	NA	NA
D1-17_03049	816	glnQ_3	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGCGCCCCAGCACTGAACCCCAACCCCTGAGTGTGGGCACTGCCCTGGCTCCGGACCCGCTGATCCGCTTTGAGAATGTCAGTAAGAACTGGGGATCGAACCACGTCCTCAAGTCGCTCAACTTTGAGGTTGCGCCCGGGGAGAAGGTCTCCATCATTGGGCCTTCCGGCTCGGGAAAAACCACAATCCTCCGAATCCTCATGACACTGGAAACACCCAGTGAGGGATTGGTGACCGTGGGCGGCGACACCTTGTGGGATGTCACGAGGGGGCAGAAGGTCCGCGAAACGAAGCAGCTGCGCGAGACCCGCCGGAAAATTGGGATGGTGTTCCAGCAGTTCAATCTTTTCCCACACATGTCCGCCATGGAGAACGTCATTGAGGCTCCCATCCATGTGCTGGGCATGAACAAGGCGGAAGCGCGGGAGCGGGCCGCCGACCTGCTTAACCTGGTGGGGTTGGGAAAGCACATGGACCACACCCCGCCCCAGATGTCCGGCGGACAGCAGCAGCGCGTGGCCATTGCCCGGGCGATGGCCATGCGACCCAAAGTGCTGCTGTTCGATGAGCCCACTTCGGCACTGGACCCGGAACTGATCGGCGAGGTCCTGAACGTGATCCGGAACCTGGCCCGCAGCACGGACATGACCATGCTGATGGTGACGCACGAAATGCGGTTCGCCGAGGAGATCTCAGACCGGGTGGTGATGTTCGATAACGGCGCCGCCGTGGAAAGCGGACCGCCTGCCCAGATCTTCAAGAACCCGCAGCAGGAACGGACCCGGACCTTCCTCCGGGCCGTCCTGCAGCACTGA	MRPSTEPQPLSVGTALAPDPLIRFENVSKNWGSNHVLKSLNFEVAPGEKVSIIGPSGSGKTTILRILMTLETPSEGLVTVGGDTLWDVTRGQKVRETKQLRETRRKIGMVFQQFNLFPHMSAMENVIEAPIHVLGMNKAEARERAADLLNLVGLGKHMDHTPPQMSGGQQQRVAIARAMAMRPKVLLFDEPTSALDPELIGEVLNVIRNLARSTDMTMLMVTHEMRFAEEISDRVVMFDNGAAVESGPPAQIFKNPQQERTRTFLRAVLQH	PGPT0020790_853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
D1-17_03050	657	tcyB_1	COG0765	L-cystine transport system permease protein TcyB	ATGATCTGGGACAACAATTTCGCCATTTCAGTCTTTCCGCTGCTCTTGGAAGGACTCGGCGTCACCGTACACATCACGCTGCTGGGCACACTGCTTGCCGCGGTCCTCGGTTTGTTCTTCGCCGTCCTTCGACGGCTTGCCATTCCGGTCCTCTCGTCTGTGGTTTCCTTCTTCGTCGTTTTTGTGCGCGGGACACCGTTGCTGGTTCAGGCCTATTGCGCCTTTTTCGTACTGCCGGCCTACGGTGTCAGCTTTGACGCTTTGACTACCGGTGTTGTGGTCATTGGCATCAATTACAGCGCCTACATGGCCGAGGTTTACCGCAGCGGAATCCAGGGTGTTCCAAAGGGCCAGTGGGAGGCGGCAACGGCGCTCAGCCTCCCGGGTGCCCGTACCTGGGGAAGGGTCATCCTTCCGCAGGCGATCCGCAGCGTGGTGCCCATGCTCGGCAACTACCTCATCCAGATGTTCAAGGATTCGGCGGTCCTGTCCGCCATCACCGTCGTGGAGCTTATGGCTACGGCCCAGGCCATCGGAAGCTCAAACTTCCGTTACCTTGAACCGCTCACCATGGCCGCCCTGCTGTTCCTGGCAGTCAGCTACCCGGCCTCCCGGCTCGTCAACAGATTGGAGAGGCGCTATGCGCCCCAGCACTGA	MIWDNNFAISVFPLLLEGLGVTVHITLLGTLLAAVLGLFFAVLRRLAIPVLSSVVSFFVVFVRGTPLLVQAYCAFFVLPAYGVSFDALTTGVVVIGINYSAYMAEVYRSGIQGVPKGQWEAATALSLPGARTWGRVILPQAIRSVVPMLGNYLIQMFKDSAVLSAITVVELMATAQAIGSSNFRYLEPLTMAALLFLAVSYPASRLVNRLERRYAPQH	PGPT0020795_10175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
D1-17_03051	699	tcyB_2	COG0765	L-cystine transport system permease protein TcyB	ATGTCTGCAGTAATCGATTATGCGCCTCTGCTCTGGCAGGGACTGCTCACCACCATGCTGGTCACGGTGCTCAGCGGGGCTCTTTGCGTAGTGGTCGCCTTCGCCGCAGGGCTGGCGCGTCTGTCCCGGCACAGGTTCCTGAGCTGGCCGGCCGGCATTTTCATCGAGGTGTTCAGGGGTACGTCACTGCTGGTGCAGATGTTCTGGCTGTTCTTCGCGCTGCCGTTCTTCGGAATTCAGCTGCACCCGCTGACGGCGGCCGTACTGGCGCTCGGCCTGAACGAGGGCGCCTACGCTGCCGAGGTGGTGCGCGGCGCCATTGCCAGCCGCGCCAAGGGGCAGACCGAGGCCTGCATCGCCCTCGGAATGGAGCCGGCGCTCAGGTTGCGCAGGATTATCATCCCGCAGTCGATTCCCGCCATGCTGCCGCCCTTTGGCAACGTCATGGTTGACCTGCTTAAAAACACCTCCCTGGTTTCCCTGGTCACCGTTGCAGATCTGACCTTCAGCGCCCAGATGATCCGCAGCACAACAGGGCAGACCACCGCGATATTCGTCACCATTCTTCTGATGTACTTCGCACTGTCGTACCTCCTGACGCTGCTGACCGGATGGCTGGAGCGGCGGTTCGCGCTGGACCGGAATGCCGTGACTGCCCAGCGTAAGGAAAGCCGTCTCATGAAGGTTGGTGCGGCATGA	MSAVIDYAPLLWQGLLTTMLVTVLSGALCVVVAFAAGLARLSRHRFLSWPAGIFIEVFRGTSLLVQMFWLFFALPFFGIQLHPLTAAVLALGLNEGAYAAEVVRGAIASRAKGQTEACIALGMEPALRLRRIIIPQSIPAMLPPFGNVMVDLLKNTSLVSLVTVADLTFSAQMIRSTTGQTTAIFVTILLMYFALSYLLTLLTGWLERRFALDRNAVTAQRKESRLMKVGAA	PGPT0020795_5808	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
D1-17_03052	894			hypothetical protein	ATGACACTCGATATTTCACGGCGCAACGTCCTGCGGAGTGCGGGAGTGGCGGTATTGGGCGCCACTGTGGCGGGCTGGGCTGCAGGCTGTTCCAGCGTGGCTGCTGGGGGTCCCGCAACGGGTGCCTCCAGCAACCTGCTGGAGACCGCGAAGTCCCAGGGCTTCCTGCGGGTCGGCATCGCCAACGAGCCGCCCTACACTCAGGTCAGCGCCGACGGAAAGGTCACCGGCTGCGAACCCGATGTGTTGCGCGCCGTCTGCAAGCGTCTTGGCATCGATGACGTCCAGGGCATCATCACTCCCTATGAATCCATGATTCCTGGCCTCAATGCCAATCGCTGGGACGTCATTGCCGCCGGACTCTTCATGAAGGAATCCCGTTGCGGGCAGGTCCTCTACTCGGAGCCGGTTATTGTCTCCACGGAGTCCTACGCCACGCCAAAGGGAAACCCGAAAGGCATTACATCCGTGGCCAATGTCCTCGCCGACAAGTCCCTGAGGATCGCTGTTCTGCCCGGCGGCTTCGAGGAGGGCGTGCTCAAGGCGGCCAAGGTCCCTGCCTCCCAGCAGGTCAAAATCAACGACGGGCGCAGCGGCCTCGAGGCGCTCAAAGCGAACCGGGCGGACGCCTTCATGCTTCCGACTCTGTCGCTGCAGGCATTGGCGAAGGACGATGTGAGCTTCGACATCAGTGAGCCCCTGGAAGATGCCCCTCGCACCGGCTCCGGCGCCGCGTTCCGCAAGTCCGACACCGCCTTCCACGAGGCCTACAACAAGGAACTTGCAGCTTTCAAGAAGACCCCGGAGTTCGCCGAGATCCTCACGAAGTGGGGCTTCGACCCGTCGGTAGTGGAGGGCGTCACCGCCGAGGAGCTATGCAAGACCGCGGGCTGA	MTLDISRRNVLRSAGVAVLGATVAGWAAGCSSVAAGGPATGASSNLLETAKSQGFLRVGIANEPPYTQVSADGKVTGCEPDVLRAVCKRLGIDDVQGIITPYESMIPGLNANRWDVIAAGLFMKESRCGQVLYSEPVIVSTESYATPKGNPKGITSVANVLADKSLRIAVLPGGFEEGVLKAAKVPASQQVKINDGRSGLEALKANRADAFMLPTLSLQALAKDDVSFDISEPLEDAPRTGSGAAFRKSDTAFHEAYNKELAAFKKTPEFAEILTKWGFDPSVVEGVTAEELCKTAG	PGPT0020800_3330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
D1-17_03053	1119	ald_2	COG0686	Alanine dehydrogenase	ATGATCATCGGTGTCCCCAAAGAAATCAAGAACAACGAATTCCGCGTCGCCATCACCGCCGCCGGCGTCCACGAGTTCCGCACGCACGGCCACACGGTCCTGGTAGAGCGCGGCGCCGGCCTGGGCTCCGGCATCACCGACGAGGAGTACGCCATCGCCGGCGCCGAGATCGTCGCCGACGCCGACGACGTCTGGGGCCGTGCCGACATGGTCATGAAGGTCAAGGAACCCATCAAGGCCGAATACCACCGCTTCCGCAAGGGCCTGATCCTCTTCACCTACCTCCACCTCGCCGCCGAACCGGAACTGACACGGGAGCTCATCAACTCCGGCGTCACCGCCATCGCCTACGAAACGGTCCAGGAAGGCCGCACCCTTCCGCTGCTCGCCCCGATGTCCGAGGTAGCCGGCCGGCTCTCGGTGCAGGTCGGAGCCACCTCCCTCATGGCCCCCGCCGGCGGCAAGGGCGTGCTCCTGGGCGGGGTCCCCGGCGTCCGCCCGGCCAAGGTCGTGGTCCTGGGCGCCGGCGTGGCCGGCACCAACGCCGCCGCGATGGCCCTGGGCCTCGGCGCCGACGTGACCATCCTGGACATCAACATCCACCGCCTGCGCGAACTCGACGCCCAGTACCAGGGCCGCCTGAAGACCGTGGCCTCCAACAAGTACGAGATCGAAAAGTCAGTGGTCGACGCCGACCTCGTCATCGGTTCCGTCCTGATCCCGGGTGCCAAGGCGCCCAAACTCGTCACCAACGAACTCGTGGCCCGGATGAAGCCCGGTTCCGTGCTCGTGGACATCGCGGTAGACCAGGGCGGCTGCTTCGAAGACACCCGCCCCACCACGCACCAGGAACCCACCTACAAGGTCCACAACACCATCTTCTACTGCGTGGCCAACATGCCCGGCGCCGTCCCGAACACCTCCACCTACGCCCTGACCAACGTCACGCTCCGCTACGGCGTGGCACTGGCCAACCTCGGCGTCAAGGCCGCCTTCGAGAAGGACCCTGCCCTCGCGGCCGGCCTGAACATCGCAGCAGGCCATGTAACGCACGCTTCTGTGTCGCAGGCCCACGGTTTGGAGCTCGCAGCGGACTGGCACCAGCTCGTTTCCGCCTAA	MIIGVPKEIKNNEFRVAITAAGVHEFRTHGHTVLVERGAGLGSGITDEEYAIAGAEIVADADDVWGRADMVMKVKEPIKAEYHRFRKGLILFTYLHLAAEPELTRELINSGVTAIAYETVQEGRTLPLLAPMSEVAGRLSVQVGATSLMAPAGGKGVLLGGVPGVRPAKVVVLGAGVAGTNAAAMALGLGADVTILDINIHRLRELDAQYQGRLKTVASNKYEIEKSVVDADLVIGSVLIPGAKAPKLVTNELVARMKPGSVLVDIAVDQGGCFEDTRPTTHQEPTYKVHNTIFYCVANMPGAVPNTSTYALTNVTLRYGVALANLGVKAAFEKDPALAAGLNIAAGHVTHASVSQAHGLELAADWHQLVSA	PGPT0020070_1520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
D1-17_03054	270			hypothetical protein	ATGAAGAAGCGTAGCCAGCTCGAGCACGCCCTGATCGGCGAAAGCGGAAGGCCACAGAGCCCACGGACCGGCGACCATTGCCCGGCCAGCGGATGGTGGGCGCCGCTCCACGACGAAACAGATGCACACTTCATCACAGAGGGAAGCATCATGCCCTCCATCAACGGCATGCCCAGCAGCTGGAGACTGGCAGTGCGGCATCCGCAGCGGCGGATCGAGCAGCCAAGCCATGACTTTCCGCCGCAGGGATTCGCCCTCGACAGCATCTGA	MKKRSQLEHALIGESGRPQSPRTGDHCPASGWWAPLHDETDAHFITEGSIMPSINGMPSSWRLAVRHPQRRIEQPSHDFPPQGFALDSI				NA	NA	NA	NA	NA
D1-17_03055	1074			hypothetical protein	ATGCGCAAAGTCCTGACCACTGCGGCCGCCGCCGCCCTGCTCACCGCTCTCGCAAGTCCCGCCGTCGCCGCCCCGACGGCGGAAGCCGGCGACGCGTCGTCGTCGAACGCTGCCGCTTCACCCGCGGCGATCAAGACGAACGAGCGCAACGGCTCCTTTGACCTGCAGTCGCACCGCGGCGGCCGCGGCGAGTGGACGGAAGAATCCCTGGCGGCGTTCGCGAAGTCGCTGGAGCTGGGCGTGAGCACCCTGGAACTGGACACGCACCTGACCGAGGACGGCAAGGTGATCGTCTGGCACGACGACACCATCCAGGGCGCCAAGTGCATGGATACCGCCCCGGCCGCCCCTGCCGATGCCGAATTCCCGTATGTCGGCGACCGCGTGGCGGAGCTGTCGCTGGCCCAGATCAAGACCCTCAACTGCGGCTACACGCAGTTGGCCGGCTACCCGGAGCAGGACGTGATCGAGGGCAACCGCATTGCCGAGCTGAGGGAGGTGTTTGAGCTGGTCCGCGACTACGACGCCAAGAAGGTCCGCTTCAACGTCGAGACCAAGGTGGAAACCGGCCAGGTTGGCGGCGAAGGCTCCGTGGCACTGACTAAGGCCGTCATCACCGAGATCTACACGGCGGGCATGTCCGGCCGCACCACCCTGCAGTCTTTCGACTGGTCCACCCTTAACCTGACCCAAAAGATCGCCCCTCAGTTGCCCCTCGTTGCCCTCTCCAGCGGCGACGCCTGGATGCAGGTGGGCCAGCCCGGCGCCAGCCCGAACCTGGGCGGCATCGACATCGACGACTATGACGGCTCCCTCGCCAAAGCCGCCAAGGCCCAGGGCTACGACGTCATCTCCCCCGCGTTCCGCTCCGTCACCCCGCAGATGATCGCCGAAGCCCACGAGTTCGGCCTGCCCGTCATCCCGTGGACCGTGAACACCACCGAGGACATGGCCCGTCTGATGGACCTCGGCGTGGACGGCATCATCACCGACTACCCCACCCGCCTCCGCGCCCTCATGGACGAGCGCGGCCTGAAGCTGCCCAAGCCGTACGCGCTGGAAGGCTCGCTCTAG	MRKVLTTAAAAALLTALASPAVAAPTAEAGDASSSNAAASPAAIKTNERNGSFDLQSHRGGRGEWTEESLAAFAKSLELGVSTLELDTHLTEDGKVIVWHDDTIQGAKCMDTAPAAPADAEFPYVGDRVAELSLAQIKTLNCGYTQLAGYPEQDVIEGNRIAELREVFELVRDYDAKKVRFNVETKVETGQVGGEGSVALTKAVITEIYTAGMSGRTTLQSFDWSTLNLTQKIAPQLPLVALSSGDAWMQVGQPGASPNLGGIDIDDYDGSLAKAAKAQGYDVISPAFRSVTPQMIAEAHEFGLPVIPWTVNTTEDMARLMDLGVDGIITDYPTRLRALMDERGLKLPKPYALEGSL	PGPT0018470_2087	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-17_03056	675			(S)-2-haloacid dehalogenase	GTGCCTACCAAACCGTCCGTCATCGTCTTCGACGTCAACGAGACCCTGTCTGACATGTCCCCTCTGGCGGACCGTTTCGCCGAGACCGGGGCGCCGGCGTCGCTTGCCAAGCTGTGGTTCGCCACGCTGCTGCGCGACGGCTTCGCCCTGACAGCGGCCGGGGACAACAGCGCCTTCGCTGAGATCGGCGCGGAAGCCCTGCGCGGACTGCTCGCCGGACAGGAACTGGAGATGGAGATGGACGCCGCTGTGGACCACATTATGCAGGGCATGGCCGGGCTGGAGGTCCATCCCGACGTTCCGGACGGAGTGTCCGCCCTGAAAGCTGCGGGCTACCGGCTGGTGACGCTGACCAACGGCTCCACCAACGTCGCCGAAAACCTTTTCGCCGCCGCCGGGATCCGGGACAGTTTCGACCGCCTGCTCTCCGTCGACGAGGCCCCGGCGTGGAAGCCAGCCCGCGGAGCCTACGACTACGCCGCGGCCGCCTGCGGCGCGGACCCCGAGCAAATGCTCCTCGTGGCGGTCCATCCCTGGGACATCCACGGCGCCGCGCGGGCCGGACTCAACACGGCCTGGGTCAACCGCACCGGGGCGCCCTACCCGGCCTACTTCACCGAGCCTGACCACGCAGTCACGTCCCTGCGGGACCTCGCCGGCGCCCTGGAAAGCTGA	MPTKPSVIVFDVNETLSDMSPLADRFAETGAPASLAKLWFATLLRDGFALTAAGDNSAFAEIGAEALRGLLAGQELEMEMDAAVDHIMQGMAGLEVHPDVPDGVSALKAAGYRLVTLTNGSTNVAENLFAAAGIRDSFDRLLSVDEAPAWKPARGAYDYAAAACGADPEQMLLVAVHPWDIHGAARAGLNTAWVNRTGAPYPAYFTEPDHAVTSLRDLAGALES	PGPT0006885_1667	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-17_03057	1098			hypothetical protein	ATGAGCCAGCCCGGCCAAACCCCGCCCCCACCACCGCCGGCCCCCGACTACACCACGTACGGTGCACCCGGGTTCCCGGGAGGGCAGCAGTACGGGAGCCGGCAGTACGGTACAGGCGAGTGGTACGGCGGCCAGCAGTTCGGGGCGGGCCAGTATAGGTATGGGACAGCTACGCAGAAGTCCTTCCTCGCGACCTGGCTGTTCTCCCTGTTCCTGGGTGGCCTGGGCGTGGACCGCTTTTACCTTGGCAAGATCGGCACGGGCATCGCCAAGCTGCTGACTTTGGGCGGCCTGGGCATCTGGTCGCTGGTGGACCTGGTGATCACCCTCACCGGCCGGCAGACGGACAAGGACCGCCAGCCGCTGGCAGGTTACGCACAGCACAAGAAGGTGGCCGTTATCGTCTCGGTTGTCCTTCTTGTGCTCAGCATGGTGATGAGCGTTCTGAGCGGGCTCGCTGCCGCCGTGGCCATCCAGCAGGCATCCACATCGCCGATCGTCTCCGCTGCGCCTGCCACTGAGCAGGGCGCGGCCGGTTCCTCTGCGGAACCGACAGCGTCCGGGGAAGCAGCGGCAGGGGAAGAGCGGCCCCGCCTGGAGGCACAGACGCTCACGGGCACCGGTGACGGCGTCAAGATGGTGGACCTGAAGGGCGTTCCGGCCGTAGTGACGTTTATCTGCAAAGCCTGCACCGGCAACGTCGTCCTGGAAACCAACGGCGCCGAGATGCTGCTGGTCAACACCACCGGCGCTTACGCGGGCTCGCACCTTGTGGACACCAGCGCGGGCGTTCCCACCACGGAGCTTGCGATCAGCGCCGATTCGGCTTGGACGCTGAAGATCGAGGACATCGACAGTGTCCCCGCCTCAAGGGACAAGGCGAGCGGCCGCGGGGACATGGTTCTCTACTGGGACGCGCCCAGCGACAGGGCAGCCATCACCAACAAGGGCGAAGGCAGTTTTGTGGTGCAGGGCTTCGGCAGCGAGATTCCGGAACTCGCCGTCAACAAGATCGGTGATTACAGCGGCACCGTGCAGCTGACCCCCGGCTTCGTGCAGGTCAACTCCGACGGCGACTGGACCATCACCGCGAAGTAG	MSQPGQTPPPPPPAPDYTTYGAPGFPGGQQYGSRQYGTGEWYGGQQFGAGQYRYGTATQKSFLATWLFSLFLGGLGVDRFYLGKIGTGIAKLLTLGGLGIWSLVDLVITLTGRQTDKDRQPLAGYAQHKKVAVIVSVVLLVLSMVMSVLSGLAAAVAIQQASTSPIVSAAPATEQGAAGSSAEPTASGEAAAGEERPRLEAQTLTGTGDGVKMVDLKGVPAVVTFICKACTGNVVLETNGAEMLLVNTTGAYAGSHLVDTSAGVPTTELAISADSAWTLKIEDIDSVPASRDKASGRGDMVLYWDAPSDRAAITNKGEGSFVVQGFGSEIPELAVNKIGDYSGTVQLTPGFVQVNSDGDWTITAK				NA	NA	NA	NA	NA
D1-17_03058	387			hypothetical protein	ATGGCTGACGGAATTGGATTGATCAAGCGCTTTTGCGACGAAGTGATCGTGGGCGGTAATTTCTCTCTGATCGACGAACTGGTCCTGGATGACTATTTCGATCACCAGGAAGGCCTGCCCGGGCAGCCGGAGGGCAAGGAAGGCCTGAAGTTTTACGTCAGTACCGTCCGAATGGCCTTTCCGGACCTCACCGTCAAAGCCACCGAACCGTCGCTGACCGACGGGAACCTGGAATGCGCATACGTCACTCTGGCAGGCACCCACCAAGGGGACTTCGCGGGGATCCCGGCCACCGGCAGGACCGTCGAATTCTCGGAATCAACATCATCCGCCGTCAGGAGGGCAGGATCGCCGAACACTGGGGATCGACGGACATGCTGGGCCTGA	MADGIGLIKRFCDEVIVGGNFSLIDELVLDDYFDHQEGLPGQPEGKEGLKFYVSTVRMAFPDLTVKATEPSLTDGNLECAYVTLAGTHQGDFAGIPATGRTVEFSESTSSAVRRAGSPNTGDRRTCWA				NA	NA	NA	NA	NA
D1-17_03059	291			hypothetical protein	ATGGCCGGCTACTTTGAAATCATCGATGCCGAGGACGGCGGCTTCCGCGTCAGGCTTTTGGACGGGGCGGGGCAGCTCGTGGCCACCTCGGTCAAGTACCCGACCAAGCAGGCGGCTGTTATGGGAATTTCCGCCATCCGGGAGATCGCCGGGACCGGACTCATCCGCGACATGAGCCGCGGTGGCCACGGTGAATCCATTGTCCCCAGGTCCAGGCCCGCCGCGTCCGCCGGGAAGCTTCACTCCCACACACGCTTCCCGGCTTCAATGCGGGGCGTCCGGTCGCGTTGA	MAGYFEIIDAEDGGFRVRLLDGAGQLVATSVKYPTKQAAVMGISAIREIAGTGLIRDMSRGGHGESIVPRSRPAASAGKLHSHTRFPASMRGVRSR				NA	NA	NA	NA	NA
D1-17_03060	1791	deaD_2		ATP-dependent RNA helicase DeaD	ATGACCGAAGCCCTCGTCCCCGCAGCCACCAGCAACACAGCGGCCGCTGACGCCGTTCCCGCCGCTGGCAACGGCAAGGATCCCGATGCCTCCCTTCGCCGGCTCGCCGCCGACACCTTTGGACTGTCCCGTTTGCGGGACGGCCAGCTCGCCGGAATGCGTGCCCTGGTTCAGGGACGCGATGTCCTTGCCGTAATGCCCACCGGTTACGGCAAGTCGGCCATCTATCAGGTTGCCGCGCTGCACCTGCAACAGACTGCCCGGCAGGGCGGGGACACAAGCGCACCCAACGGCGAGCGTCCGGCTGCCGGCGCACGGCGCGGGCCCGCGGTCGTGGTTTCCCCGCTGATTGCCTTGCAGGAGGACCAACTGGACGGGCTGCTGGAGGACATGGGCGGGGAAGCCGCAGTCGCCGTGAACTCAGGCCGGAAGGACTCCGAGGTGGACGACGCCTGGGAGGCCGCCGAGCGGGGCGACGCCACGTTCCTCTTCCTCGCCCCCGAGCAGCTGGCCAAGTCCGAGACAGTGGAGCGGCTCGCGGCCCTGGACGTCTCGCTGTTCGTGGTGGATGAGGCCCACTGCGTTTCCTCGTGGGGCCACGACTTCCGGCCCGACTACCTGCGCCTCGGCGAGGTCCGCGGGCAGCTGGGGAACCCGCCGGTCGTCGGGCTCACGGCCACGGCGTCTCCCCCGGTCCGTGACGAGATCCAGCACCGCCTGCGCATGGAGGACCCGCTGGTCCTCGTGCACGGCTTCGACCGGTCCAACATCCGACTGGAGGTGCTTCGCCACCTCGAGGACCGGGACAAGCGCCGCGCCGTGCTGGAGCAGGTGGCCGAGCTCAAGGGTCCCGGCCTGCTCTACGCGGCCACCCGCAAGGACACCGAAACCTACGCGGCGGAGCTCACCGAGCGTGGACTGCGGGCTGAGGCGTACCACGCCGGGCGGAAGCAGAGCGAGCGGGACAGCGTCCACGAGCGGTTCCTCGACGATGAACTGGACGTCGTGGTGGCGACCACCGCGTTCGGCATGGGCATCGACAAGCCCAACGTCCGCTTCGTCCTGCACGCCGACATTCCCGAGTCCCTCGACAGCTACTACCAGGAAATCGGCCGCTCCGGGCGCGACGGCGAACCGGCCCTCGCCGTGCTCCACTACCGGCCGGAGGACCTGGGCCTGCGCAGGTTCTTCGGCACGCACACGCCCGACGAGGACTCGCTGCTGACCGTCCTCACCACCCTGCGCGCCGCCGATGCTCCGCTCACCCGGAAAGCCCTCGTCGAGCAGACGGGGATGTCCCCACGGAAGCTCACCGGGCTGCTGAACCAGTTGCAGGAAACCCGCTCGGTCAAGATCGGCAAACGCGGCATCCGGCTTGAAACAAGCGCCAAGGTGCCGAAGGTGGTGGAACGCGCCGTCGAACTCGCCGAAGCACGCCAGCGCGTGGACCGTTCCCGCATCGAGATGATGCGCGGTTACGCCGAGACGGACGCCTGCCGCCGGCAGTTCCTGCTGGGCTACTTCGGCGAGGACCTCCCCGAGCCCTGCGGCAACTGCGACACCTGCACCGACGGCTCCGCCCAGGAGGAGGATTACGACGGCGGCGCGGCGGCTGCCGCCGGCGGTGAACCCTTCCCGCTGCAGGCCGCCGTGGTGCACAAGGAATGGGGACCAGGCATCGTGATGCGGCACGAGGAGGACGTGATCACGGTGCTCTTCGAGCAGGAGGGCTACAAGACACTGTCCCGCCAGGCCGTGACGGACAGTGAGCTGCTCAAGCTCGCGAAGTGA	MTEALVPAATSNTAAADAVPAAGNGKDPDASLRRLAADTFGLSRLRDGQLAGMRALVQGRDVLAVMPTGYGKSAIYQVAALHLQQTARQGGDTSAPNGERPAAGARRGPAVVVSPLIALQEDQLDGLLEDMGGEAAVAVNSGRKDSEVDDAWEAAERGDATFLFLAPEQLAKSETVERLAALDVSLFVVDEAHCVSSWGHDFRPDYLRLGEVRGQLGNPPVVGLTATASPPVRDEIQHRLRMEDPLVLVHGFDRSNIRLEVLRHLEDRDKRRAVLEQVAELKGPGLLYAATRKDTETYAAELTERGLRAEAYHAGRKQSERDSVHERFLDDELDVVVATTAFGMGIDKPNVRFVLHADIPESLDSYYQEIGRSGRDGEPALAVLHYRPEDLGLRRFFGTHTPDEDSLLTVLTTLRAADAPLTRKALVEQTGMSPRKLTGLLNQLQETRSVKIGKRGIRLETSAKVPKVVERAVELAEARQRVDRSRIEMMRGYAETDACRRQFLLGYFGEDLPEPCGNCDTCTDGSAQEEDYDGGAAAAAGGEPFPLQAAVVHKEWGPGIVMRHEEDVITVLFEQEGYKTLSRQAVTDSELLKLAK				NA	NA	NA	NA	NA
D1-17_03061	930	pip_3		Proline iminopeptidase	ATGGCTCAGGATTCGAAGGCGGCTGAGGGCAGGGTCGAGGTACCAGGCGGCCAGGTCTGGTACCGGATTGTAGGGAGCGGTCCCGGCCTTCCGCTGGTCACCGTCCACGGCGGTCCCGGCGGCACGCACGACTATCTGGAGCCTCTGGAAGAACTGGGTGACGACCGGCCGGTGGTGTTTTATGACCAGCTCGGAGCGGGAAAGTCCGACGCGCCGGACGACATCGAACTGTGGACAAATGACCGGCTGGTGGACGAACTGCAGCGCGTCCTGGATGCCATAGGGTTTGCGCGGGTTCACCTGCTTGGCCAGTCCTGGGGAACCATCCCCGCGGCGGAGTCTGCCCTGCGGGCACCCGGGCGGCTGTGCAGCCTGGTCCTCTCCGATCCGTTGCTCAGCGTGCCGCTTTTCGCTGCCGCCACTGCCGCTCTCCGGGCCGCCCTTCCTGCCGAGGTGCGTGAAACACTGGACCGCCACGAGGCGGCCGGCACTATGGACTCCGAGGAGTACCAGGAGGCGTCGATGGAGTTCATTAGGCGCTATGTTTGCCAGCTGGATCCGTGGCCCGAGCCCCTGATGCGCACCTTCCACCAGATGAACCAGGCCGTCTATGAACACATGCAGGGGCCCAGCGAGTTCACGATCACCGGGATCCACAGGAACTACGACATCACCGGACGCCTCGGAGAAGTCACTGTTCCCACGCTCTACATCTGCGGCCGCCACGGGGAGACCCGCCCGGAAGAGACTGCGCTGTATCACGGCATGACGCCGGGATCGGAGCTGGAGATCTTCGAGGAAAGCAGCCACGTGCCGCATCTGGAGGAACCCGAGCGCTACCTGCAGGTGCTTCGGGACTTCCTGCAGCGGGCGGAACAGCGGGCTTCCACTGATGACTCAGGTGTCAGCCCACTTGGATTTCCAAGGTAG	MAQDSKAAEGRVEVPGGQVWYRIVGSGPGLPLVTVHGGPGGTHDYLEPLEELGDDRPVVFYDQLGAGKSDAPDDIELWTNDRLVDELQRVLDAIGFARVHLLGQSWGTIPAAESALRAPGRLCSLVLSDPLLSVPLFAAATAALRAALPAEVRETLDRHEAAGTMDSEEYQEASMEFIRRYVCQLDPWPEPLMRTFHQMNQAVYEHMQGPSEFTITGIHRNYDITGRLGEVTVPTLYICGRHGETRPEETALYHGMTPGSELEIFEESSHVPHLEEPERYLQVLRDFLQRAEQRASTDDSGVSPLGFPR				NA	NA	NA	NA	NA
D1-17_03062	579	yyaP_5	COG0262	putative protein YyaP	ATGGGGCAACTGGTGGTTCAGGACTTCGTCAGCGCCGACGGTTTCGCCGCCGATGCGAATAACGAGTTCACCTTCTACGAATATCTGGACGGGGGTACCGCTGAATTCGACCGTAGCCAGCTGGAGTGGCTGGGGACCGTGGACACCATGGTCCTTGGGGCGAACACCTACAGGATGTTCGTCGAGTACTGGCCAACAGCGGCATCCAAAGATGAAATCATCGCGCCCTCCCTGAACGCTCTGCGCCGCATCGTGTTCTCCCGCCACCTCACAAAGGCACCGTGGGGAGACAAGGCGGAGGCGGAGATCGAATCCGGCGACGTGATTGAGGCGATCCAGCGGATCAAGAGCGGGACCGACGGCGACATAGTCGTCTGGGGCAGCCTTACCCTGGCAGGAACGTTCCTGGCCGCGGGTGTCGTGGACTCGGTGAGGCTGGTGGTCATGCCGATCGCCATCGGCGCAGGGCGGGGCGTGTTCCCTTCGGGGCAGGATCCCAACGTGCTGCGCCTTCAGAGCGCAACAACCTACGACCAGGGATTGGTCGAGCTGGTGTACGACGTGCGGGCGAAGAGTTGA	MGQLVVQDFVSADGFAADANNEFTFYEYLDGGTAEFDRSQLEWLGTVDTMVLGANTYRMFVEYWPTAASKDEIIAPSLNALRRIVFSRHLTKAPWGDKAEAEIESGDVIEAIQRIKSGTDGDIVVWGSLTLAGTFLAAGVVDSVRLVVMPIAIGAGRGVFPSGQDPNVLRLQSATTYDQGLVELVYDVRAKS				NA	NA	NA	NA	NA
D1-17_03063	771			hypothetical protein	ATGGTCACCTATTCTTGGTGTGTGGACGCGGTATTCAAGGCCCTGGCGGATCCCATCCGCAGAGAACTGCTGGACGAGCTGTTCCGTGAGGACGGCCAAACGCTTCGCGCCTTGGAAGCACATTTCGAGATCACCCGCTTCGGCGTCATGAAGCACCTCAAGATACTGGAAGAGGCAGGCCTGGTGGTGACCCGCCGTCGTGGTCGGGAAAAACTGCACTTCCTTAATCCGGTGCCCATCAGGCTCGTCCACGACCGCTGGGTGAGCAAATACGCAGAACCATGGGCCGCTGGCCTCAGCGACCTCAAATCCAGATTGGAAAGTCCCATGGAAAAAATTTTCGAGATCTACATCAAGACCACGCCGGAACGGCTCTGGGAAGCAATCACGGACAGCGAGATCCGCAGCAAGTACCAGTTTGGCGTGCACGTCACCTCGGACTGGACGCCTGGCTCCCGGTTTGAGATGGCTCCCGACGGCGGTTCTCCCCTTGGCGAGGGCGAGAACCTTGAGGTGGACCCGCCACGGCGGCTCGTGCAGACCATGCGCGCACTGTGGGGCGATGACGTCAAGGCCGAGGGCACCTCACGGGTCACGTGGGAGATCGAACAGGTGGAAGACTCCTGCCGCCTGACAGTCACGCACGACCAGCTGCGCGAGGGTGCCAACGAGCAGCTGTACGGCGGCTGGCCAATGATCCTGTCCGGCCTGAAAACCTGGCTCGAGACCGGGCAGAAGCTCACCACCCCGGGGTCCCTGATGTACACCTGA	MVTYSWCVDAVFKALADPIRRELLDELFREDGQTLRALEAHFEITRFGVMKHLKILEEAGLVVTRRRGREKLHFLNPVPIRLVHDRWVSKYAEPWAAGLSDLKSRLESPMEKIFEIYIKTTPERLWEAITDSEIRSKYQFGVHVTSDWTPGSRFEMAPDGGSPLGEGENLEVDPPRRLVQTMRALWGDDVKAEGTSRVTWEIEQVEDSCRLTVTHDQLREGANEQLYGGWPMILSGLKTWLETGQKLTTPGSLMYT				NA	NA	NA	NA	NA
D1-17_03064	1197		COG0861	putative membrane protein	ATGGAAGTCCCCCTCATGATCTGGATCGCGACCGTAGCCGGAATCCTGGGCCTGCTGGCCTTTGACTTCTTCTTCCACGTCCGGAAAGCGCACACCCCCAAGCTCAAAGAATCCGCCGTCTGGTCCGCCCTTTACGTGGGCGTCGCCCTCGTGTTCGGCGTGGCCGTCTGGATCTTCGGCGGGCCCACGATGGGCACGGAGTACTTCGCCGGCTACGTCACCGAGAAAGCCCTCTCGGTAGACAACCTGTTCGTCTTCCTCATCATCATGGCCAGCTTCAGGGTGCCACGCAAAGACCAGCAGAAGGTGCTGCTGTTCGGCATCGTGTTCTCGCTGATCGCCCGCACGGGGTTCATCTTCCTCGGCGCCGCCCTCATCAACAGCTTCGCCTGGGTGTTCTACATTTTCGGCCTCATCCTGCTCATCACCGCCGGCAACCTGCTCCGGCCCAACGGACACGATGACAGCAGCGAAGGCCTCGTGGTCCGTCTCGCGAGGAAGTTCCTGCCAGCCACCGAGCATTACGACGGCGACAAGCTCTTCACGATGGTGGACGGCAAGAAGGTCCTCACCCCGATGCTCCTGGTGATGGTGGCCATCGGCGGCACCGACATCCTGTTCGCCCTCGATTCCATTCCGGCGATCTTCGGCCTGACCCAAAACGTGTACATCGTCTTCACCGCCACGGTCTTCTCGCTCCTGGGCCTGCGCCAACTGTTCTTCCTCATCGACGAATTGCTGGACCGCCTCATCTATCTCTCGTACGGCCTCGCCGCCATCCTCGGCTTCATCGGCGTCAAGCTCATCCTGCATGCACTCCACGAGAACAACCTGCCGTTCATCAACGACGGCGAACACGTGAACGTCGTCGAAATCAGCACCGGCACCTCGCTGACGGTGATCCTCGGCGTCCTTCTTGTCACCGTCATGGGGTCGGTCCTGAGCCCGAAGGGCAAGGCCAAGAACATGATCTCCGGCGCCAAGCGCCACGCCACCGAGTACGTGGACCTCAACTACGAAACGGACATCGCCGAGCGCGAGGTGATCTTCAACAAGATGGTCCGCGAGGAGTCCGAACTCAAGAAGCTGCCGGAGAAGTACAAGCGGCTTATCCGCAACGAAACCGAGTTCATGAACCTGCTCCGCCAGGCCCACAACGAGCACGACGAAGCCCTCGACCGGGCCAACGGGCGGTAA	MEVPLMIWIATVAGILGLLAFDFFFHVRKAHTPKLKESAVWSALYVGVALVFGVAVWIFGGPTMGTEYFAGYVTEKALSVDNLFVFLIIMASFRVPRKDQQKVLLFGIVFSLIARTGFIFLGAALINSFAWVFYIFGLILLITAGNLLRPNGHDDSSEGLVVRLARKFLPATEHYDGDKLFTMVDGKKVLTPMLLVMVAIGGTDILFALDSIPAIFGLTQNVYIVFTATVFSLLGLRQLFFLIDELLDRLIYLSYGLAAILGFIGVKLILHALHENNLPFINDGEHVNVVEISTGTSLTVILGVLLVTVMGSVLSPKGKAKNMISGAKRHATEYVDLNYETDIAEREVIFNKMVREESELKKLPEKYKRLIRNETEFMNLLRQAHNEHDEALDRANGR	PGPT0004905_84	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
D1-17_03065	177			hypothetical protein	ATGAATTTGGGACACAAGATCAGGAATGCCGCAGAACGTCTTAGTGGGCGGACCGGTGCCGCTGGCGGCGCTGCGCGCCCTGCCCGTCCAAGGGCTACCGGAACGGGAACCGGCATGAGCCATGGTGCGGGAGCCCACCTGGGTGACAGGCTCCGCAACCTGCTCAGAAAGCACTGA	MNLGHKIRNAAERLSGRTGAAGGAARPARPRATGTGTGMSHGAGAHLGDRLRNLLRKH				NA	NA	NA	NA	NA
D1-17_03066	627	eda_3	COG0800	KHG/KDPG aldolase	ATGGCTGACGCAACGGGCATCCTGCACGTTTCCCCGGTGATCCCCGTGGTCACTATCGAGGACCCGCGGCATGCGGTTCCGGTGGCCCGGGCGCTGGCCGACGGCGGCGTCCGGATTATCGAGCTGACGCTGCGGACCGACAGCGCACTCACCTCGCTGAAGCTCATCGCCAATGAGGTGCCGGACATCCTCTTGGGCGCCGGCACCATCCTCACCCCGGGCCAGGCCGACGCCGCCGTGTCCGCGGGCGCCCAGTTCCTCGTGAGCCCGGGCGTCACCCCGACGCTGCTGGACCACATGCTGGCGCTGGACGTCCCGGTACTGCCCGGTGTGGCCACGGTGGGTGAGGTGATGGCGGTTGCGGAGCGCGGGCTGGAGGCGATGAAGTTCTTCCCGGCCGGTCCCGCCGGAGGCCCGAATTACCTGGCCGCGATCGGCGCGCCCCTCCCGAACGTACAGTTCTGCCCCACCGGAGGCATCAGTTTGGCCACCGCTCAGGACTACCTGAAACTGCCGAACGTCTCCTGCGTCGGCGGCAGCTGGCTCACGCCGCGGGGCGTTGTCGAGGCCGAAGACTGGGCGCAGATCGAGGCGCTGGCGCGGGAGGCCACCGGTCTCGCGGGGTGA	MADATGILHVSPVIPVVTIEDPRHAVPVARALADGGVRIIELTLRTDSALTSLKLIANEVPDILLGAGTILTPGQADAAVSAGAQFLVSPGVTPTLLDHMLALDVPVLPGVATVGEVMAVAERGLEAMKFFPAGPAGGPNYLAAIGAPLPNVQFCPTGGISLATAQDYLKLPNVSCVGGSWLTPRGVVEAEDWAQIEALAREATGLAG	PGPT0002060_3351	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0002060-eda-K01625	NA	NA
D1-17_03067	1416	por_2	COG0246	Polyol:NADP oxidoreductase	TTGCAGCGGGAGACACTGCGCCCCGGAATTGTCCACCTCGGCCTGGGCGCGTTCGCCCGCGCCCACACGGCCGTGTTCACCGAGAAGGCGATGCTGGCCACCGGCGACCTGGAGTGGGGGATCATCGGCGTCACCCAGCGCTCGGACACCGTGGCCAGGCAGCTCGCGCCGCAGGACGGACTCTTCACCGTGGCCGAACGGGGCCAAAGTGCCGCGCCGCCGCGCGTGGTCTCGAGCATAGTCGGGGCCGTCTCGGGGCGGGACAATCCAGAAGCAGTGGTGAATTGGATCGCCGCTGAGACAACCAGGATCGTCACGCTCACCGTCACCGAGAAGGGCTACCGGATCGATCCCCAGACCGGGACCCTGAACACCGGGGACCCGCAGGTGCGCGCCGACCTTTCGGGGCAGGCACCACAGACGGCCATCGGGCAGATTGTCCGGGGACTGCAGCAGCGGGCGCGCACCGGCGCCGGCCCGATCACCGTGCTGTCCTGCGACAACCTGCCGGGCAACGGTGACCTCACCGGCAAGCTGGTCCGCGCCTTTGCCACTGCCCTGCCGGCCGAGGAAGCCGGGCAACTGCTGGCCTGGCTGGACGCCAACGTCACCTTCCCCAACACCATGGTGGACCGGATGGTTCCGGCCACGACGGCGGATGACCTGGACGCCGTCGAACGCGAACTGGGGCTGCGGGACGAGGCCGCCGTGGTGGCCGAGCCGTTCATGCAGTGGGTCATCGAGGACAACTTCGCCGCCGGACGGCCGCGCTGGGAGGACGCCGGGGCGCTGTTCAGCTCCGACGTTGCTGCATGGGAGGCGGCCAAGCTGCGCTTGCTGAACGCGAGCCACTCGCTGTTGGCGTACCTCGGCCTGGTCGCGGGGAAGGAAACCATCAGCGACGCGGTGGGGGAGGAGCCGTTCTTCACTGCGGCAAGGCGCATGATGGACGAGGACGTCCTTCCCACCATCACACTGCCTGAGGGTCTGGACGCGGACGACTACTGCGCCCAGGTGCTGGCCCGCTTCGCCAACCCCGCCCTCGGGCACACCACCGCGAAGGTGGGCAGCGACGGTTCGCAAAAGATCGGGTTGCGGCTGCTGAGTACGGTCCGCGGAAATCTCGACGCCGGACGGGAACCCAGATGGGCAGTGCTTGCCGTCGCGGCGTGGATGCGCCACGTCGCCACCACGCCTGTCGCGGAGCTGAACGACCCCCTCGCGGAGGAACTGCACGCAGCCCTGCCCGGGACGCGCAGCGCCGAGAGTGTTGTACCCGCCCTGCTCGGGTGCCGCAGCATCTTCGACGCCGCCCTGGCGGCAGACGTCCGCTTCGCCGCGCTGCTCACGCATTGGTACCGCATCATCGACAACCACGGGCTGGACGGCCTGAGAAATGAGATCAACCATGGCTGA	MQRETLRPGIVHLGLGAFARAHTAVFTEKAMLATGDLEWGIIGVTQRSDTVARQLAPQDGLFTVAERGQSAAPPRVVSSIVGAVSGRDNPEAVVNWIAAETTRIVTLTVTEKGYRIDPQTGTLNTGDPQVRADLSGQAPQTAIGQIVRGLQQRARTGAGPITVLSCDNLPGNGDLTGKLVRAFATALPAEEAGQLLAWLDANVTFPNTMVDRMVPATTADDLDAVERELGLRDEAAVVAEPFMQWVIEDNFAAGRPRWEDAGALFSSDVAAWEAAKLRLLNASHSLLAYLGLVAGKETISDAVGEEPFFTAARRMMDEDVLPTITLPEGLDADDYCAQVLARFANPALGHTTAKVGSDGSQKIGLRLLSTVRGNLDAGREPRWAVLAVAAWMRHVATTPVAELNDPLAEELHAALPGTRSAESVVPALLGCRSIFDAALAADVRFAALLTHWYRIIDNHGLDGLRNEINHG	PGPT0018275_737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018275-uxuB-K00040	NA	NA
D1-17_03068	1017	RBKS_4		Ribokinase	GTGAATGACGCAGTGCACGAAACCGCAACGTCCGAAACCGAGTTCCGGCCGTTCGACGTCATCGTGATGGGGGAGATCCTCGTAGAGGTGGCCACCGACGTCGCGTTCGGGCACGGCGTGCCAGCGCAGCTCGGCATCTCCGGGGATGCGCTGAACGTCGCGGCTGCCGCTGCCGCCGCCGGCGCCCGCGTGGGGCTGCTGTCCGTACTGCCCGACGACGACCTCGGCAAGGCGATCGCCGCCCGGATTGCCGAACTCGGCATCTCCACCGGATTGCTCAAGTTCCGGACGGGCCAGCAGGGCGTGTACCTGGTGCACTGCGACCCCGACGGGCAGCGCGAGTTCTCCTACGCCCGCAGCGGCAGCGTCGGCTCCACACTGGGCCCGGACGACGTCGACGAAGGCATCTTCTCGTCCGCAGGTGCCGTCATCGCCGGAGGGATTGCCTGTGCCATCTCGGAATCCGCCCGGGCCGCGGTCCTCAAGGCAGCCGGCGTGGCAAAGCGGTTTGTCTTTGACCCCAACTTCCGGCCCCGGCTCACTTCCGCGGAGAGTGCGACGGCGGTGCTCACCAAACTCGCGCGGCAGGCTTTCCTGGTCACGCCGTCCTTCCCCGGCGAAACGTCCGCGCTGCTGGCCACGTCCTCGCCCGAGGAGGCCGCGGCCAAACTCCGCAGCCTGGGCGCTGCCAATGTGGCGGTGACCTGCGGAGCTGAGGGTGTCCAGCTGGACGGAGAACTGGCAGACGGTTCTGCAGAGTCCTGGATCGAGGCCATCCCTGCCCCTTCTGTGGTGGACCAGACCGGAGCCGGCGACGCTTTTGTAGGTACACTGGCCGCCCGGCTCGTGCTGGGCGACAGCTTCCCGGCCGCCGCACGTTACGGCGCTGCAGCAGCATCCCTCGTGGTGGGGGGCAAGGGCGGGACCGGCTTCATTCCCACGTTCGAGCAGACGCGCGCCCACGCCGGGGCCGGCTCAACCAAGGCCACGGAAGGAGCCCTGTCATCGCACGCCTAA	MNDAVHETATSETEFRPFDVIVMGEILVEVATDVAFGHGVPAQLGISGDALNVAAAAAAAGARVGLLSVLPDDDLGKAIAARIAELGISTGLLKFRTGQQGVYLVHCDPDGQREFSYARSGSVGSTLGPDDVDEGIFSSAGAVIAGGIACAISESARAAVLKAAGVAKRFVFDPNFRPRLTSAESATAVLTKLARQAFLVTPSFPGETSALLATSSPEEAAAKLRSLGAANVAVTCGAEGVQLDGELADGSAESWIEAIPAPSVVDQTGAGDAFVGTLAARLVLGDSFPAAARYGAAAASLVVGGKGGTGFIPTFEQTRAHAGAGSTKATEGALSSHA	PGPT0018060_1948	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018060-kdgK-K00874	NA	NA
D1-17_03069	1086		COG4948	D-galactonate dehydratase family member	GTGGCGTCTTACCTGTCCGAGCACCTTTGCCCACTGTTGATCGGCCGGGATGCCCGCCGCATCGAGGACACGTGGCAGTATTTTTACAAGGGCGCTTACTGGCGCCGCGGGCCGGTGACCATGACCGCGATCGCCGCGATCGACGTCGCGCTGTGGGACATCAAGGGCAAGACCGCCGTTATGCCGGTGTACGAGCTGCTTGGCGGTGCCGCCCGCGAGGGCGTCATGGTCTATGGCCACGCCAGCGGCTCCTCGCTGGAGGACCTCAGCGCTGACTTCCAGCACCACCTGGACCTCGGCTACAAGGCCATCCGGGCGCAGGCCGCTGTGCCGGGGCTGGAGAAGACGTACGGCATCGCACCCGTGGACGGGAAGACGTACGAGCCCGCGAGCGGCAACATCCCCCAGGAGGACGTGTGGGAGACCACCGCTTACCTGGACTTCGCACCAAGGATGATGGCGCACGTGCGCGAACAGTTCGGCTACGGCGTGCACGTGCTGCACGACGTGCACCACCGGCTGACGCCGATCGAGGCCGGCCGGCTGGGCTCCTCGCTGGAGCAGTACCGGCCGTTCTGGATCGAAGATCCAACGCCGGCGGAGGACCAGTCGGCGTTCCGCCTGATCCGCCAGCACACCACGACGCCGATCGCGGTCGGCGAGGTGTTCAACTCGATCTGGGACTGCCAGCAGCTGATCACCGAGCGGCTGATTGACTACATCCGCACCTCGGTCTCGCACTCCGGCGGCATCACGCATCTGCGCCGCATCTTCTCGCTGGCGGACCTGTACGGCGTCCGCTCGGGCTCGCACGGCGCGGGCGACCTGTCGCCGGTGTCCTTCGCTGCGGCGCTGCACGTGGACATGAGCATCCCGAACTTCGGCATCCAGGAGTACATGGGCCACCGCGATCCCGCCAACGAAGTCTTCACGACCTCCTACACCTTCACCGACGGCTATATGCACCCCGGCGATGCACCCGGCCTCGGCGTGGAGTTCAACGAGGAAGCCGCGGCCGCATTCCCGTTCGACCCCAAGTACCTGCCCATCAACCGCCGCCTCGACGGGTCGGTGCATGACTGGTGA	MASYLSEHLCPLLIGRDARRIEDTWQYFYKGAYWRRGPVTMTAIAAIDVALWDIKGKTAVMPVYELLGGAAREGVMVYGHASGSSLEDLSADFQHHLDLGYKAIRAQAAVPGLEKTYGIAPVDGKTYEPASGNIPQEDVWETTAYLDFAPRMMAHVREQFGYGVHVLHDVHHRLTPIEAGRLGSSLEQYRPFWIEDPTPAEDQSAFRLIRQHTTTPIAVGEVFNSIWDCQQLITERLIDYIRTSVSHSGGITHLRRIFSLADLYGVRSGSHGAGDLSPVSFAAALHVDMSIPNFGIQEYMGHRDPANEVFTTSYTFTDGYMHPGDAPGLGVEFNEEAAAAFPFDPKYLPINRRLDGSVHDW	PGPT0018285_586	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018285-rspA|manD-K08323	NA	NA
D1-17_03070	1269	tdh_3		L-threonine 3-dehydrogenase	ATGAAAGCCGTCGTTGTCCACGGACCCAACGATCTGCGCATCGACGAGCGTCCCGAGCCCGTTGCCGGACCTGGTGAGGTAGTGCTCGACGTCGAATGGGGCGGCATCTGCGGATCCGACCTTTCGTACTGGCGCCACGGTGCTTCCGGTACAGCGTCGCTGAAGTCGCCGCTCGTCCTCGGCCACGAGGTTGCCGGCAGGATCGCCCAGTTGGGCGAGGGAGTGGAAAACCTCGACGTAGGCCAGCCGGTGACGGTACACCCTGCGGAACTGGTGGGGGACGGCATCATGCCGGAGCGCATCAAGGGCAGAACCAACCTCTACCCCCAGATCAGGTACTTCGGCTCCGCCGCGTTTGATCCGCACACGGACGGCGGCTTCAGCGAGCGCAAGCTCGCCAGGGCCTCCCAGATCCGGCCGCTGCCTGACGGCGTCGACACCCTTCATGGCGCGCTCGCCGAACCGCTCGCCGTCGCCCTCCACGCCGCAGGCCGGGCGGGTTCGCTCGCTGGCCGCGACGTGCTCGTGAACGGCGCCGGGCCGATCGGCTCGCTGGTGGTGGCCGCGGTAAAGTATGCCGGCGCCAGGAGCGTCATCGCGACGGACATCAACGACGCGTCGCTGCGCATCGCCAAGGCGATGGGCGCCGACGAGGTCCTGAACGTCTCTGACGGCGGGAGCCTGCCGGAGGACATGGAACTGGTGTTTGAAGCCACCGGCATCCCGGCGGTGTTGGGCGGAGTCCTGCGGGCCACGGCCCGCGGCGGAACCATCGTTCAGGTCGGTAACCTGCCCGGCGGCCCGGCCCCGGCGGCGCTTGGAGACCTGGTGACCAGGGAAATCACGTGGATCGGCTCGTACCGGTTCGTGGACGAAATCACCGATGCCCTCCGCGCCATGGCCGAAGGCCTCGACGTTTCCCCGGTGATCACCCAACGTTCGGTATCGACCAGGCTGCGGAAGCCATGCGGACCGCCGCTGATCCAGCCGCCGACAGCAGCAAGGTCATGCTCCGCCTCGGCTCCCACTGACCGCCGCCATGCCCCGCACCCGGCACGCCTGACTGGCAGCAGGTGTCGTTTGAGCGTTCACAACGGCACCTGCTCCTACCTACTTGCACACCTCCCGCACACTTTTGAAGGACCAACCAGTGAAGATCACCGACGCACGGGTAGTCGTTTCGTCGCCAGGACGGAATTACGTCACCCTCGTTATCGAAACCGAGGACGGCATTACCGGCATCGGCGACGCCACGCTCAACGGCCGTGA	MKAVVVHGPNDLRIDERPEPVAGPGEVVLDVEWGGICGSDLSYWRHGASGTASLKSPLVLGHEVAGRIAQLGEGVENLDVGQPVTVHPAELVGDGIMPERIKGRTNLYPQIRYFGSAAFDPHTDGGFSERKLARASQIRPLPDGVDTLHGALAEPLAVALHAAGRAGSLAGRDVLVNGAGPIGSLVVAAVKYAGARSVIATDINDASLRIAKAMGADEVLNVSDGGSLPEDMELVFEATGIPAVLGGVLRATARGGTIVQVGNLPGGPAPAALGDLVTREITWIGSYRFVDEITDALRAMAEGLDVSPVITQRSVSTRLRKPCGPPLIQPPTAARSCSASAPTDRRHAPHPARLTGSRCRLSVHNGTCSYLLAHLPHTFEGPTSEDHRRTGSRFVARTELRHPRYRNRGRHYRHRRRHAQRP	PGPT0018190_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
D1-17_03071	1383	ydfJ_2		Putative transporter YdfJ	ATGACCGAGAGCATCGCGCCCCCCACCACTAAGCCGGAAGCAAAACCCACCCGGGAACTTGCCAAAGTCGCCGTTTCCGGCTGGCTGGGAACGGCCATGGAGTTCATGGACTTCCAGCTGTACTCGCTGGCTGCCGCAATCGTGTTCAATAAGCTCTTCTTCCCCGAGGTCAGCCCGGTCATCGGCCTCATCGCCGCCATGGCAACCTACGGCGTGGGCTACGTTGCCCGCCTTGCGGGAGCCGTCTACTTCGGCCGCATGGGTGACAGGATCGGCCGCAAGAAGGTCCTTTTCATCACTATCGCCCTGATGGGTGCATCCACGACGCTGATCGGCATCCTTCCGACCTATGCCATGATCGGCATCTGGGCCCCCATCATGCTGGTGGCGCTGCGCCTGGCCCAGGGCTTCGGGGCAGGTGCTGAGATTGCGGGCGCAACCGTGATGCTGGCCGAGTTCGCTCCCGCCCGCCGCCGCGGCCTCATCTCTTCCCTCGTGTGCCTCGGAACCAACTCCGGCACTCTGGCGGCCTCCGCGATCTGGGCAATCCTGGTGTCCACCCTCTCCGAGGAAGACTTGCTGAGCTGGGGCTGGCGCATCCCGTTCCTGTTCAGCTTCGTGCTGATGATCTTCGCAGTCTGGGTCCGCCATCACGTCAAGGAAAGCCCCGTCTTCGAAGAGCGTGCCGACGTCGTCAACGGCGTTGCACTGTCCAAGCGCGAAATTGCCGCTGCGGAGGAACTGGCAGAGACCAGCACCATCGAGGCCGCCCTGCACCAGCGCAAGGGCAAGGCCTTCCTCATCACCCTCGGCCTGCGCTTCGGCCAGGCAGGCAACTCCGGCCTGATCCAGACATTCCTGGTGGGCTACCTCGCCACCGTCCTTCTGGTGGACAAGAGCGTGGGCACCACCGCCATTATGTATGGCTCGCTGCTTGGCTTCCTGACCATCCCCGTGATGGGCATCCTCGGTGACCGCTTCGGCCGCCGGCCGCTCTACCTGGCGCTGAGCTCCCTTACTGCACTGTTCGCGATCCCCATGCTGCTGATGGTCACCAGCGGCAACACTGTCCTGATCACCATCGCCATGGTCATCGGACTCAACCTGGGCGTGCTGAGCCTCTTCGCCATGGAGAGTGTCACAATGGCCGAGTTCTTCGGAGCCCGCACCCGCTTCACCCAGCTCGCCCTGGCCAAGGAAATCGGCGGCATCCTCGCCACCGCCATCGGGCCCCTGCTGGCAGCGACCCTCACCGCTATCACCGGCCACTGGTGGCCCTTGGCCGCGATGGTCATCGCCTATTCTCTGATCACCCTGATCTCGGCCTTCGTGGGCCCCGAGGTCCGCGGCCGCGACATGGTCCGCCTCGAGGACGCTGTATGA	MTESIAPPTTKPEAKPTRELAKVAVSGWLGTAMEFMDFQLYSLAAAIVFNKLFFPEVSPVIGLIAAMATYGVGYVARLAGAVYFGRMGDRIGRKKVLFITIALMGASTTLIGILPTYAMIGIWAPIMLVALRLAQGFGAGAEIAGATVMLAEFAPARRRGLISSLVCLGTNSGTLAASAIWAILVSTLSEEDLLSWGWRIPFLFSFVLMIFAVWVRHHVKESPVFEERADVVNGVALSKREIAAAEELAETSTIEAALHQRKGKAFLITLGLRFGQAGNSGLIQTFLVGYLATVLLVDKSVGTTAIMYGSLLGFLTIPVMGILGDRFGRRPLYLALSSLTALFAIPMLLMVTSGNTVLITIAMVIGLNLGVLSLFAMESVTMAEFFGARTRFTQLALAKEIGGILATAIGPLLAATLTAITGHWWPLAAMVIAYSLITLISAFVGPEVRGRDMVRLEDAV	PGPT0014425_174	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014425-ydfJ-K08173	NA	NA
D1-17_03072	732	rspR_7	COG1802	HTH-type transcriptional repressor RspR	ATGGCAAGCGGCAAACCCGACAAAGGGCAGTCAGCACGGCTCTCCGTGCGTGACCAGACACTGGAAACCCTCCGGCGCAGGATCATCTCCCTGCAGCTCCCCCCGGGTGAGCCGTTGTCCGAGAACGAACTCGCTCAAGAGCTGGGCGTCAGCCGCACCCCGGTGCGCGAAAGCCTGATCCTGCTGCGGGAGGAAGGATTGGTCCAGGTATTCCCGCAGATCGGCTCGTTCGTATCCCTGGTGGACCTGGGGCGGGTGGCCGAGGCGCAGTTCGTCCGGGAGGCGATCGAATGCGCGTCACTGACTGATCTCAGCGTCGATGCTGCCGGAATCGCCGGCCTCCGGGATATTCTGGCCAGCCAGCGCGACGCCGAAGCTAAAGGCGACGTGGAGGAGTTCTTCCGGCTTGACGAGGACTTCCACCGGGAACTCCTGCGGCTCGCAGGCCATGAATCAGCGTGGACGGCAGTGAACTCCGCTAAGGCTCACCTGGACAGGGCACGGCGGCTGAGCCTCATAGACACCCGTCCGGTTGCCACGCTCATTGAGCAGCACACCGCTGTAGTGGACGCCTTGGAATCCAACAACCTTGCCGCCGCCGACGACTCGCTGCGCGTGCACCTGCGGGGGGTCTTCGAGGACGTCAAGCGGATTCAGGAATCATCCCCGGACCTGTTCTCAGACGGCACAGCGTCCCGTCCGGTCCGCCGAAGCGTGGCGCGGCTGTCGTAG	MASGKPDKGQSARLSVRDQTLETLRRRIISLQLPPGEPLSENELAQELGVSRTPVRESLILLREEGLVQVFPQIGSFVSLVDLGRVAEAQFVREAIECASLTDLSVDAAGIAGLRDILASQRDAEAKGDVEEFFRLDEDFHRELLRLAGHESAWTAVNSAKAHLDRARRLSLIDTRPVATLIEQHTAVVDALESNNLAAADDSLRVHLRGVFEDVKRIQESSPDLFSDGTASRPVRRSVARLS				NA	NA	NA	NA	NA
D1-17_03073	597	yceI_2		Protein YceI	ATGACGCTTCCCGCAGGCCTGACCCCGGGCACCTGGACCCTGGACATGTCCCACAGCGACATAGGTTTTACTGTCCGGCACGCCGGCATCAGCAAGGTGCGCGGCCGCTTCACGGACGCCTCTGCCACAGCGCATGTCCGCGACTCGCTCAAGGAGTCTTCGCTGCATGCCACGGTGAAGACGGCCAGCTTCGATTCCGGCGAGCCGAACCGGGACGCCCACGTGCGGGGAGCGGACTTCTTTGATGTCGAGAACTTCCCCGAGATGACCTTCCGGGCCACCGGCGTGGAGGGCGACGGTGAGGATTACACTCTCACCGGCGACCTCACTATCCGCGGCATTACCAAGCCGGTCGAGCTGGAGGTCGAATTTACAGGCGTGGCCGTGGATCCCTTCGGAGCGACCAGGGCAGGCTTCTCGGCCGAGACGGAGATCAGTCGCAAGGAATTCGGCCTGACGTGGAACGCCGCCCTGGAAACCGGCGGGTTCCTGGTCAGTGACAAGGTGAAGATCAACCTCGAAGCGGCGCTGGTCAAGCAGGACCAGGGGCATCAGGAGCCGGGGCAGCAGGACGCGACAGAAACTGCTGCGCCGTAG	MTLPAGLTPGTWTLDMSHSDIGFTVRHAGISKVRGRFTDASATAHVRDSLKESSLHATVKTASFDSGEPNRDAHVRGADFFDVENFPEMTFRATGVEGDGEDYTLTGDLTIRGITKPVELEVEFTGVAVDPFGATRAGFSAETEISRKEFGLTWNAALETGGFLVSDKVKINLEAALVKQDQGHQEPGQQDATETAAP				NA	NA	NA	NA	NA
D1-17_03074	774			hypothetical protein	TTGAATAGAACACCATCGCTACACGACTACTGGACGACGAACGTCAACTGGATAAAGGGCGGCATCGCCGCCGCGGTCATCCTGGCGACCACGGCCTGTGGCGGGTCCATTACCGCGACGCAACAGCCGCCGTCGGACGTTCAGCCGGACGGGACAATCGCAACGGCGGCGCCGGGCGCCGGCCAAGGCTTCAGCCGGGCGCAGGCACGTGCCACTCAGGACCTCCTCGCGACCCTGCCTGTCAAAGGCCGCGCCCCGAAGACCGGCTACGACCGCACCGCTTTCGGCCCCGCCTGGGCGGACACCGACAACAACGGCTGCGACACGCGCAACGATATCCTCGCCCGGGACCTCACGGCGAGGACAACCAAGCCCGGCACCAGGAACTGCGTGATCCTCACGGGCAGGCTGGCGGACCCGTACACCGCCACCACCATCTCCTTTACGCGCGGTGCCAGCACCAGCAGCGAGGTCCAGATCGATCATGTCGTGGCTCTCAGCGACGCCTGGCAGAAGGGTGCGCAGCAGTTGACGAAGGCGCGGCGCACCGCCTTCGCCAACGATCCCCGCAACCTCCTCGCGGTCTCCGGCCCCGCCAACCAGAAAAAGGGTGACGGCGACGCCGCAACCTGGCTGCCCGGCAACAAGGCCTTCCGTTGCGCCTACGTCGCCCGGCAGATTTCGGTCAAGGCCGCTTACAAGCTTTGGGTCACGCGCGCCGAGCACACCGCCATGACCTCGGTTCTGGCCACTTGCGGCGGCGCCCCAGGCTGA	MNRTPSLHDYWTTNVNWIKGGIAAAVILATTACGGSITATQQPPSDVQPDGTIATAAPGAGQGFSRAQARATQDLLATLPVKGRAPKTGYDRTAFGPAWADTDNNGCDTRNDILARDLTARTTKPGTRNCVILTGRLADPYTATTISFTRGASTSSEVQIDHVVALSDAWQKGAQQLTKARRTAFANDPRNLLAVSGPANQKKGDGDAATWLPGNKAFRCAYVARQISVKAAYKLWVTRAEHTAMTSVLATCGGAPG				NA	NA	NA	NA	NA
D1-17_03075	306			hypothetical protein	ATGAGCAACCAGCCTGAAGAGACCCCGATGGAAGTACCGGAAGCTGATGCCGTCGAGCAGCGGCTGTCGGCCATACCCGATGCAGGAGGGGAGGACTTTGATCCCCTGCCCGAGGACGCACCGGAGGCGGACGTGCTGGAGCAGCGGACCCCGCTGGTGTCCACGCCCCTGCCGGACGTGCCCGCCCCGGGCCTCTCGGCAGAGAAGGCTACGGAAGCGGATGTTGTCGAGCAGTCGCTGGGAACTCCGGGCAGCGACGAGGACGACTATCCGTTCGTCGGCGAGGAGCCGGAGCTGCCGGAGTAG	MSNQPEETPMEVPEADAVEQRLSAIPDAGGEDFDPLPEDAPEADVLEQRTPLVSTPLPDVPAPGLSAEKATEADVVEQSLGTPGSDEDDYPFVGEEPELPE				NA	NA	NA	NA	NA
D1-17_03076	1212	fdhA		Glutathione-independent formaldehyde dehydrogenase	ATGGAAGCGAACAAAGCCGTTGCCTACAAGGGACCCGGCAAGGTGGAGGTCATTGATGTTGACTATCCAACCTTTGAACTCAAAGACGGGCCAGGAGTCAATCCGGCCAATGTAGGGCGTCCCGTTCCGCACGCGGCAATTCTCAAAACGGTCGCTACAAATATCTGCGGCTCTGACCAGCACATGGTTCGAGGACGGACCACGGCGCCAACTGACTTGGTGCTGGGCCATGAGATCACCGGAGAGGTGGTGGAGGTGGGGCCCGGCGTCGAGTTCATCAAGGTGGGGGACCTCTGTTCGGTGCCGTTCAACATCTCCTGCGGCCGGTGCCGGAACTGCAAGGAGCGCAAGACCGGCATTTGCCTGAACGTGAACCCGGACCGTCCTGGCAGCGCCTACGGCTATGTGGACATGGGCGGCTGGATCGGCGGGCAGGCCAACTACGTGCTGGTGCCGTATGCCGACTGGAACCTGCTCAAATTCCCGGACAAGGACCGGGCGATGGAGAAGATCCTTGACCTGGCAATGCTGTCGGATATATTTCCCACAGGCTTCCACGGCGCTGTCAGCGCCGGGGTGGGTGTCGGGTCGACCGTGTATGTCGCGGGCGCCGGCCCTGTCGGGCTTGCTGCGGCGACGAGCGCGCAGCTGTTGGGTGCCGCCGTCGTGATTGTCGGCGATCTGAACGAGGAGCGGCTCGCGCAGGCGCGCAGTTTCGGTTGTGAGACCGTGGACCTCACGAAGGGCGGTCCGGCCGAGCAGATTGAGCAGATCCTGGGCGTGCCTGAGGTCGACTGCGGCGTTGATGCCGTCGGATTCGAGGCGAAAGGCCACGGTACGGGCGCCAAGGAAGCTCCGGCCACGGTGCTGAATTCGCTCATGGACATCACGGCTGCCGGCGGCGCCCTCGGCATTCCCGGCCTATACGTGACGGGGGACCCGGGCGGTGTTGACGAGGCCGCGAAGAAAGGCGCGTTGAGCCTGAGCTTGGGTACGGGGTGGGCAAAGTCGCTGAGCTTCACCACAGGGCAGTGTCCGGTGATGAAGTACAACCGGCAGCTGATGATGGCCATCCTGCACGACAGGGTTCAGATCGCAAAGAACGTCAATGCGAAGCCCATCCCCCTCGAACAGGCGCCGCAAGGGTATGCCGAATTCGACGCCGGCGCCGCAACGAAGTACGTGCTCGACCCGAACGGCTACTTGAGTTAG	MEANKAVAYKGPGKVEVIDVDYPTFELKDGPGVNPANVGRPVPHAAILKTVATNICGSDQHMVRGRTTAPTDLVLGHEITGEVVEVGPGVEFIKVGDLCSVPFNISCGRCRNCKERKTGICLNVNPDRPGSAYGYVDMGGWIGGQANYVLVPYADWNLLKFPDKDRAMEKILDLAMLSDIFPTGFHGAVSAGVGVGSTVYVAGAGPVGLAAATSAQLLGAAVVIVGDLNEERLAQARSFGCETVDLTKGGPAEQIEQILGVPEVDCGVDAVGFEAKGHGTGAKEAPATVLNSLMDITAAGGALGIPGLYVTGDPGGVDEAAKKGALSLSLGTGWAKSLSFTTGQCPVMKYNRQLMMAILHDRVQIAKNVNAKPIPLEQAPQGYAEFDAGAATKYVLDPNGYLS	PGPT0002115_187	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROMETHANE_DEGRADATION,PGPT0002115-fdhA-K00148	NA	NA
D1-17_03077	3783			hypothetical protein	TTGTTCCTGCTCGATCCACTAACGCCGGAGGCGCAACCTGATTTGGTGTTCTCGGCCAGCGACCTCGTAGTGGCCAGCGAGTGCGAATACCGCACGCTACGAATCCTCGACGAAAAGCTGGGGCGGTCCCCCAAAGCAGACTTCCCGCCGGACGAGATGCAGGTCCGCGCCGGCAAACTCGGCGACATTCACGAGCACAAGGTACTGGACAGCCTCATTGCGCAGTACGGCAGGTGGAATGATTCCCGCGGCACCGGCGTCTATACCGTCCAACGCGGAACCGCTGAGCGCGTGAACCTGACAGAAAAACATCAGGAAACTGCCGCCGTCCTCCGGTCCGGCGCTGATGTTGTCTTCCAGGCGACCTTCTTCGACGGCGAGTTCCTCGGCTACGCGGACTTCCTGGTCAAGGAAGAAGGAGCGGCCGCGGGCACTGGCCGAGCAACGGACAGTGCAACGGATGCTGCAGCCGGCAGGGCAGCTGCCGGTGCCGCGCCGCGCTACGCGGTCTGGGATACGAAGCTGGCCCGGCACGCCAAGGTGGGTGCACTGCTGCAGCTTGCCGCCTATGGGGACCAGCTGATCAAGCTCGGCCTTGATCCTGCTCCCCGTGTCACGTTGGTGCTGGGCAACCTCGAACGCAGCATCCACTCCCTCGGCGACCTCCTGCCGGTATTCCGCGAGCGCCGGGACCGGTTCCGTGAACTCACGGCAATCCATCTGGCTTCGGAAAGCTCCGTACAGTGGCAGCAGCCTGGCATCGGGTACTGCGGAAGATGCGATTACTGCGCCGAACAGGTGTCCGCACACCGCGACCTGCTCATGGTCGGCGGCATGAACTCCGGCCAGCGGAAAAAGCTCATCGCCGAAGGCGTCACAACCATCGATGACCTCGCAGAGCTTCCGGAGGATAAGGCAACAGGTTCATTGCGCCGGCTGCGCGACCAGGCCAGGATGCAGACTGCCCGCGAAGCCTCCGACGGCATCCGGACATTCATCAAGGACGGTGAAGAACACACCATCACCTACAAGGTACTGGCCGAGAACGCCCTGGCCAGCATCCCGGCTCCCAGCGCCGGCGACATCTTTTTCGACTTCGAGGGCGATCCGCTGTGGCAGGATCCCACAAGCGGACAATGGGGACTCGAATACCTCTTCGGCGTGATCGAAGCTCCGCTGCCCGGGCATGCGCCCGACGCCGCTCCGGTCTTCCGGCCCTTCTGGGCGCACTCCCTTACAGGTGAACGGCACGCCTTCCTGGACTTCCTTGCCTACGTGGAGGAACGCCGCAAACGGTATCCGGACATGCACGTCTATCACTACGCGCCGTACGAGAAGACCGCTCTCAGGAAGCTGTCCCTGAGGCATGTCGCCGGCGAGGACATCGTCGATTCCTGGCTGCGTGAAGGCTTACTGGTGGATCTCTACGCCACGGTGCGGCAGTCGCTGAGAATCTCCGAGGCCTCCTACTCCATCAAGAAACTCGAGCCCCTCTATATGGGCGACAACCTTAGGTCCGGGGACGTCAAGGACGCCGGTGCCTCCGTGGTGGCCTACGCCGCCTACTGCACAGCCCGCGACGGCGGACCCGAAACCCAGGCCGTGGCTGCCGACATCCTCGCGTCCATCTCCGACTACAACGAGTACGACTGCCTCTCCACCCTGCGCCTTCGCGACTGGCTGCTGCAGCTTGGCCATGATGCCTCCGCACCGAGGGATGCGGCCATTGCAGCCGCCGGGGACGAGCGGACTGGCGCCGTTGTCCAGGCAGTTGTAGAGGCTGTACCTGAGCTGGCGGATGGGGTGCCGCCGGAGGAAGAGGCACTCCGCACCTATCTGAAGTCCCTTCCAGACAACCGTCCATTGGCCAGCGACGAGCAGGCCGTGGCGATGGTTGCCGCGGCCACGGGATACCACCGCCGGGAAGCGAAACAGTTCTGGTGGGAGCATTTCGACCGTCTGGAGTCCGAGGTGGATCACTGGCGGCACCAGCGCAACGCCTTCGTGGTGGACGAAGCCTCAGTAGTGTCCGACTGGGCCCCGCACAGTGCCCGCGCTAGCACCGAGTCCAGGACGCTGCGTCTGACCGGCACCATGAGCGAGGGCTCGGAATTCCGGGCAGGCTCCACCTGGTTCCGGATGTTCGAAGATCCCCTGCCGGAGGGGCTTGGAGAGGTCGACGGCGGGCGGACACCTCGGCCGGAGCGGACCGGCACGGCCCTGCACCCCTCCGCGAAGGAGTCAGTGTCCCGCGACGGCATCTTCGGAACGCTCATCGAGGCGGTCGAAGACCATCCCGACCGGCCCGGCAAGACCATCATCACCATCACCGAGAAATCCAAACGCAAGGTACCGCCGTATATGCAGCTGCCCATGGCGCTCACCGCGGACCGCCCCATCCCCACCGCCAGCATCGAAGCCGCGCTTGCTGAGCTCGCACAACTCGTCGGGTCCACGCTGCCCGATCTGCCGAAGCACGCCGGCCTGGATGTGCTGCGCCGTATGCCTCCGCGGATGGCTTCCGGGGCGTCGCTTCCGGTTGTCCACCATGATGCATCCGGTGCGGCCGACTACGTCTCGGCCCTCACCGCTGCGGTCGAGGATCTGGACCGGTCCTATGTCGCCGTCCAGGGCCCTCCCGGGACGGGCAAGACGTATGTGGGTTCCCACGTCATCGCCCGGCTGGTGCGGCGCGGCTGGAAAGTCGGCGTCGTGGCCCAGTCGCATTCGGTAGTGGAGAACATGCTTAGCACAGCCATCAACACGGCAGGAGTAGACCCGGCGGTGGTGGCCAAGGATATCAAGGCACCACGCAGCGGTGCCGATGTCCCGTGGGGACTCACCACGGACAAAGACGTCGCGCGCATCCTTGGAGCGGACGGCGGCTGCCTGGTCGGAGGAACTGCCTGGACCATGACCGGCCAGTGCGTCCCTCCCGGCTCACTCGACCTGCTGGTCATTGACGAGGCAGGGCAGTATTCGCTGGCGAATACACTTGCCGTAGCCCAGGCGGCGAAACGGCTGCTGCTGCTGGGCGACCCCCAGCAGCTCCCGCAGGTCACCCAGGGATCACACCCGGAGCCCGTTGACGAGTCCGCACTTGGTTGGCTGTCCGGCGGCCACCCCACCATGCCGGCGGAACTGGGTTACTTCCTCGCGGCCTCCTGGCGGATGCATCCGGCCCTGTGCCAGGCGGTCTCGGTGCTGAGCTACGACGGCAGGCTCCAGTCAGCTCCCGCGGCATCGCACCGGCACTTGGACGGCGTTCCTGCAGGAGTGGAGACGGTCCTCGTGGAGCACCGGGGCAACACCACGAGCTCCACGGAGGAGGCCGCGAAGGTCGTCCAGCTGGCCTCCGAGCACATGGGGCTGAAATGGACTCCGGGTAAAGATGAACCTGCCAGGAGGCTCGAGGCGACTGACATCCTGGTGGTGGCTGCGTACAACGCACAGGTACAGGTTATCCGGCAGGCCCTCGACCGGCAGGGGCTTTCCGCGGTGAAGGTGGGAACCGTGGACAAGTTCCAGGGGCAGGAGGCTCCCGTGGTGCTCGTGTCCATGGCTTGCTCTGCCATCGCCGAAGCACCCCGCGGTGCCGAGTTCCTGCTCAACCGGAACCGTCTCAATGTGGCGGTGTCACGGGGGCAGTGGCGGGCAATAATCGTCCGCTCCCCCGAGTTGACCAATTACATGCCCCGCAAACCATCAGCCCTGGAGGAACTTGGTGCGTTCATTGGACTCAGTCCGCGCCCTTTTACAGGTATGGCGGCGCCTCAGGGATGA	MFLLDPLTPEAQPDLVFSASDLVVASECEYRTLRILDEKLGRSPKADFPPDEMQVRAGKLGDIHEHKVLDSLIAQYGRWNDSRGTGVYTVQRGTAERVNLTEKHQETAAVLRSGADVVFQATFFDGEFLGYADFLVKEEGAAAGTGRATDSATDAAAGRAAAGAAPRYAVWDTKLARHAKVGALLQLAAYGDQLIKLGLDPAPRVTLVLGNLERSIHSLGDLLPVFRERRDRFRELTAIHLASESSVQWQQPGIGYCGRCDYCAEQVSAHRDLLMVGGMNSGQRKKLIAEGVTTIDDLAELPEDKATGSLRRLRDQARMQTAREASDGIRTFIKDGEEHTITYKVLAENALASIPAPSAGDIFFDFEGDPLWQDPTSGQWGLEYLFGVIEAPLPGHAPDAAPVFRPFWAHSLTGERHAFLDFLAYVEERRKRYPDMHVYHYAPYEKTALRKLSLRHVAGEDIVDSWLREGLLVDLYATVRQSLRISEASYSIKKLEPLYMGDNLRSGDVKDAGASVVAYAAYCTARDGGPETQAVAADILASISDYNEYDCLSTLRLRDWLLQLGHDASAPRDAAIAAAGDERTGAVVQAVVEAVPELADGVPPEEEALRTYLKSLPDNRPLASDEQAVAMVAAATGYHRREAKQFWWEHFDRLESEVDHWRHQRNAFVVDEASVVSDWAPHSARASTESRTLRLTGTMSEGSEFRAGSTWFRMFEDPLPEGLGEVDGGRTPRPERTGTALHPSAKESVSRDGIFGTLIEAVEDHPDRPGKTIITITEKSKRKVPPYMQLPMALTADRPIPTASIEAALAELAQLVGSTLPDLPKHAGLDVLRRMPPRMASGASLPVVHHDASGAADYVSALTAAVEDLDRSYVAVQGPPGTGKTYVGSHVIARLVRRGWKVGVVAQSHSVVENMLSTAINTAGVDPAVVAKDIKAPRSGADVPWGLTTDKDVARILGADGGCLVGGTAWTMTGQCVPPGSLDLLVIDEAGQYSLANTLAVAQAAKRLLLLGDPQQLPQVTQGSHPEPVDESALGWLSGGHPTMPAELGYFLAASWRMHPALCQAVSVLSYDGRLQSAPAASHRHLDGVPAGVETVLVEHRGNTTSSTEEAAKVVQLASEHMGLKWTPGKDEPARRLEATDILVVAAYNAQVQVIRQALDRQGLSAVKVGTVDKFQGQEAPVVLVSMACSAIAEAPRGAEFLLNRNRLNVAVSRGQWRAIIVRSPELTNYMPRKPSALEELGAFIGLSPRPFTGMAAPQG				NA	NA	NA	NA	NA
D1-17_03078	303	acyP	COG1254	Acylphosphatase	ATGACCGAGTCGAATGCTCCCGAAGCAGACAGCGTCCGCCTCACGGCACGCGTGACGGGCATGGTCCAGGGCGTCGGTTTCCGCTACTGGACCGCCCGCAAGGCTGACGAGTTGGGAATTACTGGTTCCGTCAGGAACGACGACGACGGTTCCGTCGCGGTCGTGGCGGAGGGACCCCAGCCGGTCATAGTGGAATTCCGGCGCTGGCTGAGTTCTGACGAGGCTCCAGGCCGCGTATCCCAGGTTGACGAGAAGGTATCACCCGCCGAGGGCAGATTCAGCAGCTTCGACGTGGTGATGTGA	MTESNAPEADSVRLTARVTGMVQGVGFRYWTARKADELGITGSVRNDDDGSVAVVAEGPQPVIVEFRRWLSSDEAPGRVSQVDEKVSPAEGRFSSFDVVM	PGPT0001372_886	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
D1-17_03079	765			hypothetical protein	ATGCGCCGAACAGCATTAACGCTGACTGCTATTTCCGCTGTATGCCTCGCAGTGACGCTTGCTTCCTGCGGTTCCCCCGGCACGGCACCCGCCACCGGCTCTCCCGCCGGGACAGCGACCGCCACCGGGACAACGACCGCCACAGCTACCGCACCGCCGACTGCCTCGGAGACCACGCCGACCGCGGCCCCAACTACCGGCACCGCCACGCCGCCTGCCGAAGGTTGGAAGACGTTCACCACGAAGGACGGGTCGCTCGCTTTCGACTATCCGGCCGACTGGACCATCAAGGATCCTGCCGGGCAGACGCCCCAGGGCGGCGGTGTCTTCCTGGAAGTGTCCAAGCCTGACGGCAAGCCCATGGCAACGCTGCGCACCAACATGGTGACCGGTGCCGAATGCACGAAGAAGACGCCGTACAGCGTCCTCGACTCCCAGCCGCTGCCTGCACTGGCGCAGAATGGCCAAACGCCCCGGTTCACGTTCGAATCCCGCTCTGATCCTGAAGTGACCGATCCGATGACGTCATCTGTCTTCGCGTACGGCATCACCGCTGCGCCGGAGCCGACCGGGCCGACGGCGTGCCCTATGGCGCACTTCTTTAGCTGGCCGCCCAGCGGGGCGATGTTTGGGGGCGCCTACAACCCCTTCGACACTTCCCCGGGGAATGAACCACACGTGGACACGCCGGAGGCATACAAGGAGACCGCCGAGTACAAGAACGTCCGCCAGATGATCACGTCCCTGCGGCCGGCAGGCCAGTAG	MRRTALTLTAISAVCLAVTLASCGSPGTAPATGSPAGTATATGTTTATATAPPTASETTPTAAPTTGTATPPAEGWKTFTTKDGSLAFDYPADWTIKDPAGQTPQGGGVFLEVSKPDGKPMATLRTNMVTGAECTKKTPYSVLDSQPLPALAQNGQTPRFTFESRSDPEVTDPMTSSVFAYGITAAPEPTGPTACPMAHFFSWPPSGAMFGGAYNPFDTSPGNEPHVDTPEAYKETAEYKNVRQMITSLRPAGQ				NA	NA	NA	NA	NA
D1-17_03080	1221			hypothetical protein	ATGCAAGACGTCCTGAATCAAGCAATGCCATTCCTGGCGATCGCCGTAGCCGTGGCTGCGGGACTGGTCCTCTCCTGGCTCCTCCGGCGCATCCTCCTCCGGCTCAACCGAAAGCTCCCCGCCCTGCGTGAAGCCTCCCGCATGGCACGGGTCCCGCTGCGGCTTTTCCTGTGCCTCATCGGCGTCCGCATCGCGCTTGCGCTCACCACGGAGAACTCCAGGTGGCGCACGAATGCGGATCACATCCTGCTGATTGCACTGATCGCATCGGCCGCCTGGTTGGCGATCGCCGTCCTCATGATCATTGAAGCGCTGACGCTCACGCACTACAGGGTGGACGTTGCCGACAACCGGCGCGCTCGCCGCCTGCGCACCCAAGTCATCCTGGCCCGCCGCATAGGTATTGCCCTGGTGATCATCCTGGCGCTGGGCATCAGCCTGCTCACCTTCCCGGACGTCCGGGCGCTGGGGGCGGGTATTCTCGCCTCAGCAGGGCTCGTCTCGATTGTGGCTGGCCTCGCCGTGCAGTCATCGCTCGTTAACGTGTTCGCCGGCCTCCAGCTCGCCTTTACCGATGCCATCCGTGTGGACGACGTGGTGGTGGTGCAAAAGGAATGGGGCCGGATCGAAGAGATCACCCTGACCTATGTTGTGGTGCACGTCTGGGATGACCGCCGCCTCATCCTCCCTTCCACCTACTTCACCACCACGCCCTTCGAAAACTGGACCCGCCGGCGGTCCGAGGTCATGGGGACCGTGGAGTTCGACCTCGACTGGCGCGCCCCGGTTGAGGCCATGCGCTCTGAGCTCAAGGCACTCCTGGCCGGCACGGAGCTCTGGGACGAACGGGTCGGCATCCTCCAGGTCACGGACGCCACAAGCGGCTTCGTCCGCGTGCGGATCCTGGTGAGCGCCGCGGACAGCGCGTCGCTGTTCGACCTGCGGTGCCTTATCCGGGAAGAGCTGGTGTCCTTCCTGCAGCAGCATCATCCCCAGGCGCTCCCCCATATGCGTTGGGAGTCGGTTAACTCTTCTCAGCAGGAGCCTCCTGCCGTCGCTCGTCCACGACAGCTGGAGGCCCAGCCCCGGCAGCAGTCCGATCGGCACGACTCCCAGCTGTTCACCGGCTCGTTCGAAGCCGTGCAGCGGTCCCGGGCCTTCAGCGGACCGGGCGACCGGGCGTTCGAGGACAGGGAGAAGACCCTGGCCGCACACGAATAA	MQDVLNQAMPFLAIAVAVAAGLVLSWLLRRILLRLNRKLPALREASRMARVPLRLFLCLIGVRIALALTTENSRWRTNADHILLIALIASAAWLAIAVLMIIEALTLTHYRVDVADNRRARRLRTQVILARRIGIALVIILALGISLLTFPDVRALGAGILASAGLVSIVAGLAVQSSLVNVFAGLQLAFTDAIRVDDVVVVQKEWGRIEEITLTYVVVHVWDDRRLILPSTYFTTTPFENWTRRRSEVMGTVEFDLDWRAPVEAMRSELKALLAGTELWDERVGILQVTDATSGFVRVRILVSAADSASLFDLRCLIREELVSFLQQHHPQALPHMRWESVNSSQQEPPAVARPRQLEAQPRQQSDRHDSQLFTGSFEAVQRSRAFSGPGDRAFEDREKTLAAHE				NA	NA	NA	NA	NA
D1-17_03081	882			hypothetical protein	ATGCGCAAGACTGCCGCAGAAAACACCAACTTCCGGCTTAAGGCCGTGCTGGACGTTCTGGCAGAGGGGGTGTTGACTGGTGAGTCGCAGAATGCCGGCGAGGTGCTGGCTGAAGCGCTCGTGCGGGTTCCGCTGAACGCCTACGAAGCTGAGCTTCTCAGCGGTGGCATTCCTCGGGGCCACAAGTCGCTCACCACAGCCACGGCCAAGCTCGTCAAGGCCGGATGGCTGGTTAAGGGCCGCTCCGGCTGGACCATCACCGAAGAGGGCCTGCGCGCCACGGTAGCTTTCCCGGATGCCGCAAGCTTTGCGGCCGCGCTCGACGCCGGAACTCCGGTTCCAGCCGACACCCCCCTTCCGGTTGCTGCTCCCGCCCAGTCTGGGGGAACGAAGGATGCCGCTGCCAAAAAGGCGGCGCCCAAGGTTGAAGAAAAGACTGAGAAGGCTCCGTCCAAGGCGGCAAAGGTCGTGGACAAGGCTGCCAAGCTGATCGAAGATGCGGTGGCCCCGGTTGCCAACGCGGTGCGAGGTAAGAAAGACGAGGCTGCCTCCGAGACGGAAGCTCCCGCGGTGGAATCCTTTCCCCAGCCGGAAGCAGTTGCTGTTGCAGGTGACTTCAACACCCTGCTCGGTGCGCCGGAAAACTGGGCCCCGCAGTATGACGAGGCGCAGATGCAGCTGGACGCCATCGACCAGCTTTGGAAGCTGACCGCCGACATTCCGGCTGGCCACTACACCTTCAAGATTGCACTGAACCGGTCCTGGGAAGAAAACTACGGCGCTTTCGGCGCCTTCGATGGTCCCAACCACGAACTGCACCACGACGGCGGCCGCCTCACCATCCGCTACGACCACCGAACCAGGGACATCATCGTCAACTAG	MRKTAAENTNFRLKAVLDVLAEGVLTGESQNAGEVLAEALVRVPLNAYEAELLSGGIPRGHKSLTTATAKLVKAGWLVKGRSGWTITEEGLRATVAFPDAASFAAALDAGTPVPADTPLPVAAPAQSGGTKDAAAKKAAPKVEEKTEKAPSKAAKVVDKAAKLIEDAVAPVANAVRGKKDEAASETEAPAVESFPQPEAVAVAGDFNTLLGAPENWAPQYDEAQMQLDAIDQLWKLTADIPAGHYTFKIALNRSWEENYGAFGAFDGPNHELHHDGGRLTIRYDHRTRDIIVN				NA	NA	NA	NA	NA
D1-17_03082	291			hypothetical protein	ATGAGCGACCAAAACGACCGCGAAGACGGATTCATAGTTCCGGACCCGTCAAAGGTCCGCGAGGACATCCCAGGTGATGCCGGTGACGACGCCAACGTGATCCGCTTCAGCGAAGAGCAGGCGCTGATCGAAGAGCAGTCCCACGGCATCCGGCCCGAGCGTTACGACGTCCCCTCCGGCGGCCCCACCATGACTGAAGCCCGCGGAAATATGGACCTCTCCGACGACACCGGCGAGGCAGCCTCCAGCGACAGCAGCGACGACGGACTCCACGGCGGCGCCGAACAGTAG	MSDQNDREDGFIVPDPSKVREDIPGDAGDDANVIRFSEEQALIEEQSHGIRPERYDVPSGGPTMTEARGNMDLSDDTGEAASSDSSDDGLHGGAEQ				NA	NA	NA	NA	NA
D1-17_03083	255			putative protein	ATGGACAACCAGGACATTCTGCAGCGGATCCAAGCGCTCGTGGATGAAGAGCACCGGCTTCGTGGACCGGGGGAGGGGGACGGCGGCGGTGCGCCCGAGGCGGAGGACCGTCAGGCGAGGCTGCGGCACGTGGAAGAGGCCCTGGACCAATGCTGGGACTTGCTGCGCCAGCGCCGTGCCAAGGCAAAAGCTGGCGAAGATCCTGAGGAAGCGGAAGTGCGGCCCGCCAATGAAGTAGAGGGCTACCGCCAGTAG	MDNQDILQRIQALVDEEHRLRGPGEGDGGGAPEAEDRQARLRHVEEALDQCWDLLRQRRAKAKAGEDPEEAEVRPANEVEGYRQ				NA	NA	NA	NA	NA
D1-17_03084	894	yghA_1		putative oxidoreductase YghA	ATGACCGATCAGTACACCTTCAAGAATCCCGTCACCGCCTACGAGCACATCGAGCCGCCAAAGCAGCACCAACCGGAACCCGGCCTCGACGCCGAACTGACCCCCAAGGCGGACCTGGGCGAAGACAGCTACCGGGGAACCGGACGCCTCGAAGGCCGCAAGGCGATCGTCACGGGGGCCGACTCGGGCATCGGAGCCGCCACGGCGATTGCATTCGCACGCGAGGGGGCCGACGTCGTCCTCTCCTACCTGCCCGAAGAGGAAGAGGATGCCGCAAGGATCGCGAACCTGATTGAGAAAGCCGGGCGGAAGGCCGTGAAGGTGCCCGGCGACCTCAAGAACTCCGACACCTGCCGTGAACTCGTGGACACAGCCCTCCGGGAACTCGGCGGCTTGGACATCCTGGTCAACAACGCGGGCAAGCAGGTGGCACAGGAGGACATCGGCGGGATCAGCGACGAACAGTTCGACCACACGCTCAAAACCAACGTCTACGCGATGTTCTGGCTGACCAAGGCCGCGGTGCCGCACCTTCCGCCCGGGTCGACAATCATCAATACGACATCGATCCAGGCCTACAACCCCTCCCCTACCCTTCTGGACTACGCCACGACGAAAGCCAGCATCAACAACTTCACCAAAGGCCTCGCCCAGCAACTGGCTCCCAAGGGCATCCGGGTCAACGCAGTTGCCCCCGGCCCAGTCTGGACTCCGCTGCAGGTCAGCAGTGGTCAGCCGAAGGAAGCCTTGCCCGAGTTCGGCAAGAACACTCCCCTGGGCCGGGCCGGGCAGCCTGCGGAACTTGCGCCCGCGTATGTGTTCCTGGCGTCGGCGGAGTCGAGCTTCGTCATCGGCGAAACGCTCAACGTCAATGGCGGCAGCCCTACTCCGTAG	MTDQYTFKNPVTAYEHIEPPKQHQPEPGLDAELTPKADLGEDSYRGTGRLEGRKAIVTGADSGIGAATAIAFAREGADVVLSYLPEEEEDAARIANLIEKAGRKAVKVPGDLKNSDTCRELVDTALRELGGLDILVNNAGKQVAQEDIGGISDEQFDHTLKTNVYAMFWLTKAAVPHLPPGSTIINTTSIQAYNPSPTLLDYATTKASINNFTKGLAQQLAPKGIRVNAVAPGPVWTPLQVSSGQPKEALPEFGKNTPLGRAGQPAELAPAYVFLASAESSFVIGETLNVNGGSPTP				NA	NA	NA	NA	NA
D1-17_03085	390			hypothetical protein	ATGGGAAATACCGAGGACAGCGAACCCGCCGGCCCCGCCACTTCAACCAACTCAGCTGACGCGACCGACTCCATCAACGATCAAAAAACCACTGACCACGAACTGGCCCAGTGGAGCCGGCGGCTCACTCAGGCACTGCAAATCCTGGACCTCGACCTCGACCGGCAGCTGGTTGCCCGTCTCGCGCAGGAATCGGCCCGGGCCGTGAATCCCTCCGCCGCGCCCATCAGCGCTCTGCTGGTTGGTTACGCTGCCGGGCTGGCTGTGCAAAACGGGGAAGGCACACCGAACGAGGCCGTGCAGTCCGCGGCGGACATGGCTCTGCAGCTTTGCGAGCACGGTGTGGACGGCGGCCCCGACGACGCAGGGTGGACCACGACGGCGCAGTGA	MGNTEDSEPAGPATSTNSADATDSINDQKTTDHELAQWSRRLTQALQILDLDLDRQLVARLAQESARAVNPSAAPISALLVGYAAGLAVQNGEGTPNEAVQSAADMALQLCEHGVDGGPDDAGWTTTAQ				NA	NA	NA	NA	NA
D1-17_03086	2298		COG0243	putative oxidoreductase	ATGCCGCGCAAAAACCCGCGGGTGGAAGAGGCTGACGAAAAAGACCTTGAAGTAGGCAAGCCGAAGGACTGGGCAGCCGGCATCCCGGGCGTGGTGCATTCCATGCAGCCGGCGCTCAAGCATATGGGCGTGGGCAGGGCGGAGAAAACCCTGCTGGCCCTGAACCAGAAGGACGGCTTCGACTGCATGAGCTGTGCCTGGCCGGACCCCGGGCACCGTAAAACGTTCGAATTCTGTGAGAACGGAGCCAAAGCGGTCACGTGGGAAGCCACGCCGGTGGTGATAGCGTCCGAGTTCTGGGCGGAACATCCGGTAAGCGAACTGCGGCAGAGGCCCGAGTACTGGCTCGGCATGCAGGGCCGTCTCACCGAGCCGGTGTACAAGCCGGCGGGAGAGGACCATTACCGGCCGGTCAGCTGGGACGAGGCGTTTAGGATCATCGGCGACAGGTTGAAAGGGCTGGCCAGCCCGGATGAGGCTGCGTTCTACACCAGCGGCCGGACGTCCAATGAGGCAGCCTTTATCTATCAGCTGTTCATCCGTGCCTTCGGGACCAACAACCTGCCGGACTGCTCCAACCTGTGCCACGAATCGTCGGGCTGGGCGATGGGGCAGACCATCGGCATCGGCAAGGCGACGATCTCCTACGACGATTTCGCCAAGGCACAGCTGATCATCATCATGGGCCAGAACCCGGGAACCAACCATCCGCGGATGCTCACCGCGCTTGAGGAGGCCAAGGAAGCCGGCTGCGAGATCGTGGCGGTCAATCCGCTGCCGGAAGCCGGACTGATGCGGTACAAGAACCCGCAGAAGGTCAAGGGAATCATCGGCCACGGCACTGCGCTCGCAGACCAGTATCTGCAGATCCGCGTGGGAGGGGACATGGCGCTGCTGCAGGCCATTTCCAAGCGTGTCCTGGATGCCGAGGCAAAGAACCCCGGCACAGTGCTGGACCATGAGTTCCTGGAGGAGCACTGCCAAGGCCTGGAAGAGCTCCGCGCGCATCTGGCGGATCTCGATGAGGAGACTGTCCGCGAAGCCACCGGCCTGCGCACCGAAGAGATCGATGAGCTCGCCGAGCGCTACCTCAAGGCGGAACGGGTCATCATCACCTGGGCCATGGGCATCACGCAGCACAAGAAGGGCGTCGCCACGATCAAGGAGATCATCAACCTGCTGCTGCTGCGCGGCAACATCGGCAAGCCGGGCGCCGGCGCCTCACCCATCCGCGGCCACAGCAACGTCCAGGGCGACCGCACCATGGGCATCTGGGAGCAGATGCCCCCTGCCTTCATGGACGCGCTCGGCAAGGAATTCGACTTCGACCCGCCCCGCGAGCCCGGCGCGGACGCCGTCGAAAGTATCCGGAAGATGCGCGACGGCGAGATCAAGGTTTTCGTTGCCCTGGGAGGCAACCTTGTCGCCGCCATCTCAGACACCCACGCCGCCGAGGCGGCGATGGAAAACACGGACCTGACGGTGCAGATCTCCACCAAGCTCAACCGCTCCCACACCGTGACGGGCAAGGAAGCAATCATCCTGCCCACGATGGGACGGACGGAGATCGACATGCAGGCGTCCGGACCACAGTTCGTCTCCGTCGAGGACACCGTATGCGCTGTGCATGCCTCGCAGGGGAAGGTGAAGCCGGTGGCGCCGAACCTGCTGTCCGAGGTGGCCATCGTCTGCCGACTGGCGCGGGAGACCGTGGACGGAAAGACGAGCGCCGACTGGGAGGGCTTCGAAAAGAACTACGACCTCATCCGCGAGCATATCTCCCGTGTGGTGGCCGGCTGCGAAAACTACAACGACAAGATCCGGCAGGACGGCGGTTTTATCCTGCCCAACGGCCCGCGGGACTCGCGCACGTTCCGCACTCCCACCGGAAAGGCGATACTGACGGTCAACCACTTGGAACACATCGAGCGGCCGGCGGGAACGCTGATCCTGCAGTCCGTGCGCTCCCACGACCAGTTCAACACCACCATCTACGGCTACAATGACCGTTACCGCGGCATCAAGAAGGGGCGCGACGTGGTCTTTGTCAGCCCAGAGGACATCGCGGAACTCGGTCTGAGCGACGGGCAGCTCGTTGACCTCCATGGGGTGTACCACGACAACGTGGAACGGGTGATGCGGAAGCTGCGCGTGGTGTCCTATCCGACGGCCCAGGGCTGCGCCGCTACCTACTATCCCGAAGCCAACGTGCTGGTTCCGCTGGACAGTGTGGCGGAGGGCAGCAACACGCCTGCGTCGAAAGCGGTGATTGTGAGGCTGGAGCCCAGCGCCGCGTAA	MPRKNPRVEEADEKDLEVGKPKDWAAGIPGVVHSMQPALKHMGVGRAEKTLLALNQKDGFDCMSCAWPDPGHRKTFEFCENGAKAVTWEATPVVIASEFWAEHPVSELRQRPEYWLGMQGRLTEPVYKPAGEDHYRPVSWDEAFRIIGDRLKGLASPDEAAFYTSGRTSNEAAFIYQLFIRAFGTNNLPDCSNLCHESSGWAMGQTIGIGKATISYDDFAKAQLIIIMGQNPGTNHPRMLTALEEAKEAGCEIVAVNPLPEAGLMRYKNPQKVKGIIGHGTALADQYLQIRVGGDMALLQAISKRVLDAEAKNPGTVLDHEFLEEHCQGLEELRAHLADLDEETVREATGLRTEEIDELAERYLKAERVIITWAMGITQHKKGVATIKEIINLLLLRGNIGKPGAGASPIRGHSNVQGDRTMGIWEQMPPAFMDALGKEFDFDPPREPGADAVESIRKMRDGEIKVFVALGGNLVAAISDTHAAEAAMENTDLTVQISTKLNRSHTVTGKEAIILPTMGRTEIDMQASGPQFVSVEDTVCAVHASQGKVKPVAPNLLSEVAIVCRLARETVDGKTSADWEGFEKNYDLIREHISRVVAGCENYNDKIRQDGGFILPNGPRDSRTFRTPTGKAILTVNHLEHIERPAGTLILQSVRSHDQFNTTIYGYNDRYRGIKKGRDVVFVSPEDIAELGLSDGQLVDLHGVYHDNVERVMRKLRVVSYPTAQGCAATYYPEANVLVPLDSVAEGSNTPASKAVIVRLEPSAA	PGPT0019635_3103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_FORMATE_UTILIZATION,PGPT0019635-fdoG|fdhF|fdwA-K00123	NA	NA
D1-17_03087	669			hypothetical protein	ATGCCCAGGAAAAATTTGCTGGCCCTCAGCATGCTCTCGGTCCTACTCGTTTCGACAGCATGTAGTGCCGGGGCCGACGCCGAGCCCTCACACTCTGCGGGCTCGGCCGGCACAGGCGCAGAGGCTAACGCCGGCTCCACGTACACGGACCTGTCCTCAGAAGTCGGCGTCTCCCAGAGGGCCGCGGCTGAGAAGGCCAAGATTGCGGCCAAGGCAAAGAAAACGGCAGCGGCGAAGGCCAAGGTGCTCGAAGCCAACGAGGATGCCGCGGCCGCAAGGGCCAAGGCCGCGGTGGTTGACAAGGAAGCGGCGGTAGCCAAGGCGCAGGCCGCAGCAGCCAAACCCGCCACACCCACAAGGGAAGCCGCTGCATACGCCGCAGCGAAGAAGGCGGCCGGAAAGTCCGCTGCCAAGAAGGCCGGAACAGAGAAGACCGGAACAGAGAAGCCCGGAGCAGGCAAGCCGCCCGTGACGGTTCGGAAGCCGCCGGTGGAAGTCCCCGCTGTTCCTAAGCTGCCGGTGGAAACACCCAAAATTCCTGATCTGCCAGAGACAGTCCCCGCGGTTCCGAACCTGGGGGAGATAGCCCCCCCTATCGTCCCGGACCTGCGCAAGGTAACCCCCACGGTTCCGGCTTTCGCCCCGGCGCCGGCTGGACCGGCGTCCTAG	MPRKNLLALSMLSVLLVSTACSAGADAEPSHSAGSAGTGAEANAGSTYTDLSSEVGVSQRAAAEKAKIAAKAKKTAAAKAKVLEANEDAAAARAKAAVVDKEAAVAKAQAAAAKPATPTREAAAYAAAKKAAGKSAAKKAGTEKTGTEKPGAGKPPVTVRKPPVEVPAVPKLPVETPKIPDLPETVPAVPNLGEIAPPIVPDLRKVTPTVPAFAPAPAGPAS				NA	NA	NA	NA	NA
D1-17_03088	1053		COG1816	Adenine deaminase	GTGGATACCTACGACGGCGCCGCCGACCCCGCCAATCACACCGCACTTGACAACGAACGGGACGCCGCAGGGGCACCGCCCCTCATGCCTCTGGCGGAACTGCACCTGCACATTGAGGGGACGCTGGAACCGGAGCTGATCTTTGCCCTCGCGGAACGCAATGGCATCCAGCTTCCGTATGCCGACTTGGATGAGCTGCGTGCCCGTTACGAATTCACTGACCTGCAGTCCTTCCTGGACCTGTACTACGCGAACATGGGTGTGCTGCAGACCGAGGCGGACTTCGCGGACATGGCCCGCGCCTATCTTGCCCGGGCAGCCACGGCGGGAGTGCGGCATGCCGAGATCATGCTGGATCCCCAGGCCCACGTGTCCCGCGGAGTGCCGCTGGAGACCTGCGTCTCCGGCGTGGCCCAGGTGCTCGCCACATCGGAAGAGGAATTCGGGATAAGCACCCTTCTGATTGCCGCCTTCCTGCGCGACCTGCCGGAAGAATCGGCCCTGGAAGTGCTCGAAGCGATGCTGGCCATGAACGCACCTATTGTCGGCATCGGCCTGGACTCCGCCGAAGTAGGTAACCCGCCCTCCAAATTCCAGCGGCTCTTTGCGCGGGCCGGCGAAGCAGGCCTGCGCAAGATCGCCCACGCCGGTGAGGAGGGGCCGCCGTCGTACATTGTTGAAGCGCTGGACCTGCTGGGAGTCGACCGGATTGACCACGGGATTCGGTGTATGGAGGACCCTGATCTTGTCGAGCGGCTGGTGGACGAGCGGGTGCCCCTGACCGTTTGCCCGCTGTCGAATGTGCGGCTCCGGGCGGTGCACAAGCTGGCCGACCACCCGCTTCCGGCCATGCTGGCCGCCGGGCTGAACGTTAGCGTCAACTCCGACGATCCGGCGTACTTCGGCGGGTACGTGGATGACAACTTCGCCCAACTGGAACAGGTGACGGGCCTGTCGGAGTTTGACCGGGTCAGGCTCGCCGCTAATTCGATCGGCTCATCCTTCGCCTCTGAGGAGCGCAAGGCGGAACTGCTGGCTGAACTCTCCGGCTGA	MDTYDGAADPANHTALDNERDAAGAPPLMPLAELHLHIEGTLEPELIFALAERNGIQLPYADLDELRARYEFTDLQSFLDLYYANMGVLQTEADFADMARAYLARAATAGVRHAEIMLDPQAHVSRGVPLETCVSGVAQVLATSEEEFGISTLLIAAFLRDLPEESALEVLEAMLAMNAPIVGIGLDSAEVGNPPSKFQRLFARAGEAGLRKIAHAGEEGPPSYIVEALDLLGVDRIDHGIRCMEDPDLVERLVDERVPLTVCPLSNVRLRAVHKLADHPLPAMLAAGLNVSVNSDDPAYFGGYVDDNFAQLEQVTGLSEFDRVRLAANSIGSSFASEERKAELLAELSG	PGPT0021520_531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488	NA	NA
D1-17_03089	669	rpf		Resuscitation-promoting factor Rpf	ATGAAGAAATCTACTTTCACTACTGCCGCGCGCCGCGGTGTAACCATTGCCGCCGTTTCCGCTGCGGGCCTGGCCCTCTCCGCCACTGCAGCCAACGCCGCAACCCCCGGATCCACCTGGGACGCACTCGCTCAGTGTGAGAGCGGTGGCAACTGGGCCATCAACACTGGCAACGGCTTCTCAGGTGGTCTGCAGTTCACCCCGCAGACCTGGGCCGGCTTCGGTGGTACCGGTTCGCCCGAGAACGCTTCCCGCGCCCAGCAGATCGCTGTGGCCGAGCGCGTTCAGGCTACACAGGGTTGGGGCGCATGGCCTGCTTGCGCCGCCAAGCTGGGCCTGAGTGGCGGCGGTGGCGCTCCTGCACCGCAGATTCAGCCGCAGAGCGCACCAGTCCAAGCTGCTCCCGTTCAGGCTGCCCCCGTGCAGACCGCTCCGGTCCAGGCGGCCCCCGTCCAGGCTGCCCCCGTACAGACCCACGCCAAGCACGTGGCTCCCGTCGCCGTCAGCGGCGAGACCTACACCGTCCAGGCTGGAGACACCCTCAGCAAGATCGCTGCGAAGCTCGGCGTGCAGGGTGGCTGGCAGGCCCTCGCCGATGCCAATGCTGACACGATCGATGATATCGACCTGATTTTCGTCGGCCAGGTTCTGCAGCTGCCTGCCGCCTAA	MKKSTFTTAARRGVTIAAVSAAGLALSATAANAATPGSTWDALAQCESGGNWAINTGNGFSGGLQFTPQTWAGFGGTGSPENASRAQQIAVAERVQATQGWGAWPACAAKLGLSGGGGAPAPQIQPQSAPVQAAPVQAAPVQTAPVQAAPVQAAPVQTHAKHVAPVAVSGETYTVQAGDTLSKIAAKLGVQGGWQALADANADTIDDIDLIFVGQVLQLPAA				NA	NA	NA	NA	NA
D1-17_03090	627			hypothetical protein	ATGACTCTTACCTCCCCTGCGCCCTTGGTTAGCGCCCCTTCGGCGTCCGTTTCACAGCCGTCACGCCAGCCCCAACTGTTCGTTCCGAAGTATGGCAAGATGCTAGGCCCCGAGGCGAACGGCATCCTTGTTCTCGACGAGTTCACCCTGGATCCCGCGGCTGCCCGCAAGGAGCAGCACCGCTTCCGTGCCGCCTTGGGCTCAGTCACTCTCACCCTGCGCCGGCTGGTCGCCCTCCGCGTCGTTATCGCCATCGTGGCCATCGCGAATCTGCCGCTGTTCCTGATGTCGACGGGGTGGTGGATCTATCTCGTGTCCCTGTCCCTGGTCGTGGGAGTGCACCTGGCGGTCAACTGGCTGAACCGGCACGAGCCGCGTGTCAAGGAGCGCCACGAGATGGAACTCCACCGCCACCGTGAACGCAGCGCCAACTACCGCAAGGTGCGCGACGCCGTGAAGTTCGTCATTGATACGCCTTCCCGGATGAACGAGCACCTCTACCTGGAGTTGCTGCACGCTAAGCGCGTCGCTCTTCACCTCGCCTCGGGCACCGTCGCCCTGCTGGACACGAGTGACGACGCCGCTTGGAAGGTTCGCATCGTCCGCGAACTGCCCGCGGCCGGCTAA	MTLTSPAPLVSAPSASVSQPSRQPQLFVPKYGKMLGPEANGILVLDEFTLDPAAARKEQHRFRAALGSVTLTLRRLVALRVVIAIVAIANLPLFLMSTGWWIYLVSLSLVVGVHLAVNWLNRHEPRVKERHEMELHRHRERSANYRKVRDAVKFVIDTPSRMNEHLYLELLHAKRVALHLASGTVALLDTSDDAAWKVRIVRELPAAG				NA	NA	NA	NA	NA
D1-17_03091	981			hypothetical protein	GTGGGCCGGGACACCGCAATTGGCACATTGGGCGCGTGGCCTCAGACTAAAAGGATGCAGACCTTCCTCCCGTATCCCGATTTCCAGCAAAGTGCAGCCGCGCTGGACCCCGCCAGGCTCGGCAAGCAGCGCGTTGAGGCGCTGCAGGCACTCCGTGCGCTGGTGATCCCGGAGTACGGCTGGCAGTCGCATCCAGCCATCCGCATGTGGATGGGATATGTCCCCGCCCTGACCATGTACGGCCTGGCGATGGCAGACGAATGGATAAAGCGCGGCTCTGCGGACACCACCCGCGACAACATCCGCGAGTTCGCTCCGCAGGCCGCCCACCCCGACTACGCTTCCAAGATTCTCATGCCGCCGTGGCTTGGCGATCGGGAGCTGCACCTGAGCCACCGCTCCAACCTCATTCGCAAAGACCCGAGCTTTTACACCCCGATTTTCCCGGACACCGAATCCGACCTCGAGTACGTCTGGCCGGAGCCCCGCCACGTGTTCCTGCCGGAGGACCCCGAAGGTGACGTCCTGTGGATCCTGCGTGAAAACGTGGGCGACATCGATCCGGAGCGCCTCGACAAAGTCGGCCTGCCGGCCGTGGGCCGCGCTGCCCAGGCCACGGGCGACGCTGATCAGGACGTCACGGAGGACGAGTACCAACCGGTTTATGCCGAGTCTGCATCGCGCCGGCCGCTGAAGGTGGCGCGCAAGCTGCCCCCTAAGCAGCAGGTGAAGAAGCCGTCACGGAAACGCCAGCGCCAGGAAGCGATATTCTCCACCCTCCCCGGGAAGTCCCCCGTTGCCGTTCCCTTTGAGGGCGGCAGCAAGTTCGCAGTAGGCATGGTTGTCGGCCGGCCCATCACGCTTGAAGATGGCCGCTTCGGACGGCATTTCCAAGTCACCGAAATTATCGACCGCTCCGCGTTCGACTACCCCGCCCTCCTGCAGGATCCCCGGGTGTTCTTCCCGGTTCCTGCGCTCTAG	MGRDTAIGTLGAWPQTKRMQTFLPYPDFQQSAAALDPARLGKQRVEALQALRALVIPEYGWQSHPAIRMWMGYVPALTMYGLAMADEWIKRGSADTTRDNIREFAPQAAHPDYASKILMPPWLGDRELHLSHRSNLIRKDPSFYTPIFPDTESDLEYVWPEPRHVFLPEDPEGDVLWILRENVGDIDPERLDKVGLPAVGRAAQATGDADQDVTEDEYQPVYAESASRRPLKVARKLPPKQQVKKPSRKRQRQEAIFSTLPGKSPVAVPFEGGSKFAVGMVVGRPITLEDGRFGRHFQVTEIIDRSAFDYPALLQDPRVFFPVPAL				NA	NA	NA	NA	NA
D1-17_03092	861			hypothetical protein	ATGACTATCCTTCTGGCCGGTTGCGGCGATGTGGGAACCGAAGCAGGCCTGCGGTTCGCCGCTGCCGGTCAGAAGGTCGTTGGTTGGCGGCGTTCCCCTTCAAAACTGCCGCCCGCAATTGAAGGCGTGGCAGCTGACCTGAGCTCCCCCGACCTTCCGCCGGTCCCGGCGGATACCACCGCCGTCGTCGTTGCTGTTGCCGCCGATTCGCCCACGGAAGCGGCGTACCGTGCCGCCTACGTGGACGGACTCGCGCATGTCCTGGACGCGTTAGAGCGCGACGGCGTGACGCCGCACCGCGTTTTGTTCGTCTCCTCCACTGCCGTCTACGGCGACGCCGACGGCGGTTGGGTCGACGAGAGCACGACGCCTGCACCTGGCAGCTTCTCCGGCCGCATCCTCGTAGAAGCTGAAAGTCTTCTCGCCGACCGACTCCGCGGAACATCGTCAGCGGCAGTGGCCCTTCGGCTTGGGGGCATCTACGGGCCAGGACGCACACGGCTCATCGACCAGGTTCGCACCGGGTCGGCCATAGTTCCTGATGTCCCGCGCTACACGAACCGCATCCACCGGGACGACGCCTCCGGCGCGATCGTTCAGCTGTGCATGATGGAGAACGAGCCATCCCCGGTTTATGTGGGCGTGGACAACGATCCCGCTGAACTCGGCGACGTCCTGCGTTTCCTGGCGGCAGAGCTGGGGCTGGACGCCCCGCCCACCGGTGATGCCGGCGATGCCCGCGCCGGCAACAAGCGGTGCAGCAACGCCCTGCTGCGCGCCACAGGTTATTCGTTCCGCTACCCGACATTCCGGGAGGGATATCGGGACATCCTTGCCGGTGTCGGCGTGCGCCACCCCTAG	MTILLAGCGDVGTEAGLRFAAAGQKVVGWRRSPSKLPPAIEGVAADLSSPDLPPVPADTTAVVVAVAADSPTEAAYRAAYVDGLAHVLDALERDGVTPHRVLFVSSTAVYGDADGGWVDESTTPAPGSFSGRILVEAESLLADRLRGTSSAAVALRLGGIYGPGRTRLIDQVRTGSAIVPDVPRYTNRIHRDDASGAIVQLCMMENEPSPVYVGVDNDPAELGDVLRFLAAELGLDAPPTGDAGDARAGNKRCSNALLRATGYSFRYPTFREGYRDILAGVGVRHP				NA	NA	NA	NA	NA
D1-17_03093	423			hypothetical protein	ATGGAGTTTCAGCACATCATTGAAGAAGTCGGCAAGTTCATGGACTTCGCGGGCGTGGCTGTCATGGTGATCGGTGCCGTTGTTTCAATCCCCATGGCTCTGCGCGGTTACCAGCCCCGACGCCTTCCGGCCGATGCCGAGCCCATAACCGTGTACCGCTCATACCGCCAGCTGCTGGGCCGCTCAATCCTGCTCGGACTGGAGTTGCTCGTGGCAGCCGACATCATTCGCACCGTAGCGGTCACGCCTACTTATGAAAGCGTAGGCGTGCTGGCGATCATCGTCCTCATTCGTACTTTCCTGAGCTTTGCGCTTGAACTTGAAATCACGGGCCGGTGGCCATGGCAGAAAGAACCCTCACCTGCCCGTACAGGATCCCAAGGTGCTCCGGAGCACCGCGGTGCGGCAGCAGCCGATACGTAA	MEFQHIIEEVGKFMDFAGVAVMVIGAVVSIPMALRGYQPRRLPADAEPITVYRSYRQLLGRSILLGLELLVAADIIRTVAVTPTYESVGVLAIIVLIRTFLSFALELEITGRWPWQKEPSPARTGSQGAPEHRGAAAADT				NA	NA	NA	NA	NA
D1-17_03094	2037			hypothetical protein	ATGGAAGCCTTTAGGGACGACGCAGCGGATTGCTCACCGGCGCACGCCGCTCTGCGCGCTGCAGCACCCGGCTTCATTGCCGGTTTCACTCCCGGCGCGCTGCTTCCAGCCAGCGGTCTCCAAAGCGCTTCCGCTGTCCCCTTCGGCACTGACGGCGTGGCATCGGGTGGCCCGGCGTTCGACGGCGGTGCTTTCGTTGAGGGTGCCGTCCCGCTGGCCGCGGCCGCCGATGAAGCAGTCCCGGCGTCCGACGGCGGTGCTTTCGTTGATTTGCGGCGTTGCCTTGAAGCCGTGGAGACCGCTGTTGATTCCGCTCCTGCTGCTTTGGCCCTGGCCGAATTCGGTGAGGCGGCTGATTACGCCGAGATGGTTGAGGGACTCTCCCGCGGGGTCGATCACCTCCAGCTGCTCGCCGCCGCGGCGGTGGACCGTTCCCGCACCGCAGTGCGCAAGTCAGCCGGTTCTGCCGGCAAGGCCGCAGACTGGACCACCGGCTGGCGCGCCGAACCCGCCACCGGAACCGGAACCGGCACCTTAGCCACTCCGGTTTCCGGCAGCGAAACCGGGACAGCAGCGGCCACTTCGTCGGGGACCGCGGTGGCGGCGGGGTCCGGGACCGCAACACCTGGAGCGCTTAAGGCAACGGACGTAGACCCGGCCGATGACGGGTGCCGGAACACCGCCGAGTTCCTGCGGGTCCGGCTCCGGATCAGCGCCAGTGAAGCGCGCCGCCGCCTGGCCCTCGCCCCAGCCGTGCTCCCGGGCACCGGGATCACCGGCGCACCCCTGCCGGCGCCCTGCCACCAGACCGGCGCCGCGCTGGCAGCGGGCAGCATCGCCTCCCGCGCCGGGACCATCATCACCACCGCCCTGGACAAAGCACGCCCCATCGCCAGCCCCGAGACCTTGGCCGAGATGGAAGAGGCCCTGCTGCACACCGCCATCGAAACGGACCAGGACTTCCTGGCCCGCATTGCCCACCGCTGGATGGACGCCATCGACCAGGACGGCACGGAACCCTCTGAAGAAGAACTCCGCCACCGCCAAGGCGCCTTCCTCCGCCGCCCCCGCCGCGGACTGCACCACGTGGAAATCTTCGCCACCACCGACCAATACGAACACCTCCTCACCGTCATGAACACCGCCACCAACCCCCGCACGCCACCAGGCGACGGTCCCGCAACCGACGGCAGCGTCGCACCGGCCACGGAAGCCGGCACCGATCCATTCACCCAACCGCTCACCGGGCCCGGCTTCAGTCCGGCAGCCGAAACCGCCGCCAACGACGCCCACCTCGAACGCCGCACCCGGCCCCAGCAACTCCTCGACGGCCTCGTCGGCGCCTGCAAAACCGCCCTCGCCGCCAACACCCTCCCCGCCACCGGAGGACTCCGCCCCCAAGTCATGGTCACCATCAACTACCAAGACCTCCTCACCCGCCTCCGCCCCCGCACCGGCGCAGACTCCTCTGCAGGGACCGGAACAGAACCCGAAGCATCCCCGCGGGCGGGAACCGGCACCGCAGGCTGGACCACCGCCGGAACCGGGACGGTCACGGGAACGGGTCCAGGAATCGAAACCGGCCCGGGCTCCTCCGCAGGAAGCGCTACAGGCACGGCGTCCGGGACGTTCGTGTTCAGCGGACCCGTCACCGCCTCCACCGTCCGCAAAATCGCCTGCGACGCCGACATCATCCCCATCCTGCTCGGCAGCGAAGGCCGCATCCTCGACATCGGCCGCACCACCCGGGTCTTCCCGCCTCACATCCGCAAAGCCCTCACCGCCCGCGACCAAGGCTGCGCCTTCCCCAACTGCACCATCCCCGCACCCTGGTGCGAAGCCCACCACACCACCTACTGGTCACACGGCGGACCCACCAACACCGACAACGGCGTCCTGCTCTGTACCCACCACCACCACCTCATCCACAAAGAACACTGGCAAATCCACATTAGAAACGGCATCCCCTGGTTCATCCCCCCACCCCACATCGACCCTCACCAAAAACCCCGCCGCAACCACCACCACAGAACATAA	MEAFRDDAADCSPAHAALRAAAPGFIAGFTPGALLPASGLQSASAVPFGTDGVASGGPAFDGGAFVEGAVPLAAAADEAVPASDGGAFVDLRRCLEAVETAVDSAPAALALAEFGEAADYAEMVEGLSRGVDHLQLLAAAAVDRSRTAVRKSAGSAGKAADWTTGWRAEPATGTGTGTLATPVSGSETGTAAATSSGTAVAAGSGTATPGALKATDVDPADDGCRNTAEFLRVRLRISASEARRRLALAPAVLPGTGITGAPLPAPCHQTGAALAAGSIASRAGTIITTALDKARPIASPETLAEMEEALLHTAIETDQDFLARIAHRWMDAIDQDGTEPSEEELRHRQGAFLRRPRRGLHHVEIFATTDQYEHLLTVMNTATNPRTPPGDGPATDGSVAPATEAGTDPFTQPLTGPGFSPAAETAANDAHLERRTRPQQLLDGLVGACKTALAANTLPATGGLRPQVMVTINYQDLLTRLRPRTGADSSAGTGTEPEASPRAGTGTAGWTTAGTGTVTGTGPGIETGPGSSAGSATGTASGTFVFSGPVTASTVRKIACDADIIPILLGSEGRILDIGRTTRVFPPHIRKALTARDQGCAFPNCTIPAPWCEAHHTTYWSHGGPTNTDNGVLLCTHHHHLIHKEHWQIHIRNGIPWFIPPPHIDPHQKPRRNHHHRT				NA	NA	NA	NA	NA
D1-17_03095	378			hypothetical protein	ATGGCGAACAGGCGCGTCGGGGTTTCGGGCGTCGGAGCTTTCTGCAAGGCTGGGGCCATGAACTATTTCCTGGAATACACGGTCCCCGCCGCTCCTGAAGACGCCGAGTTCGAGTTCCCGCACAATGAGATTCAGTCGGGCACCACCATCCCGCTCTCGGAGACTGACTCGGAAATAGTGCACACACCTGAGCTGCCGGCCAGGACCGGTATCATCGGCGCAACCATCCCGGAGGCCAAGCTCGAGGCCGAGCAGCTCATCAACCACAGCCGGGCCACGGAGGCATCGCTGTACGAAGATCCATCCAACTCGCTCCAGGCCGGCGTCGGCACACTGGTTGCCACCTACCTTGAGGGCCGGGGCTGGCAGGACGCCTAG	MANRRVGVSGVGAFCKAGAMNYFLEYTVPAAPEDAEFEFPHNEIQSGTTIPLSETDSEIVHTPELPARTGIIGATIPEAKLEAEQLINHSRATEASLYEDPSNSLQAGVGTLVATYLEGRGWQDA				NA	NA	NA	NA	NA
D1-17_03096	1851	ywrD	COG0405	Glutathione hydrolase-like YwrD proenzyme	ATGAGCTATACGCGGCCGGACCCTTTCACTACCCGCCCCACGCTGCGAGGCACGTTTGGCATGGCTGCGTCGACGCACTGGCTGGCAACGGCCACAGCGCAGTCTGTGCTCGAGCGCGGCGGGAACGCGTTCGACGCCGCTACCGCGGCCGCCTTCGTGCTGCATGTTGTGGAGCCGCACCTCAACGGTCCCGGCGGCGATATGACGGGTGTTTTCAGCACGGCGGAGGAGCCTGGCAAGCCCATCGTACTGATGGGGCAGGGGCCGGCACCGTCCGGAGCTACCGTGGAGCATTACCTTTCCGAAGGACTGGAACTTGTGCCGGGCTCCGGCGCGCTGGCCGCGGCGGTTCCGGGCGCCGTCGACGCCTGGCTTTTGCTTCTGCGGGACCACGGGACATGGGAGCTGGCGGAAGTGTTGGACTTTGCCATCGGATACGCGCGTGACGGACACCCGGTTCTCGCGCGGGTCGGTGCCACCATCTCGGCGGTATCGGAGCTGTTCCGCGAGCACTGGCCCACGTCCGCTGAGCTGTGGATGCCTGAGGGGCGAATTCCGGTGGAAGGCGAGCTGATCCGGAATCCCGCCCACGCGCGAACCTTGCAACGGCTGGTCCAGGCCGGGGCCGGTATCGGTGAAGCTGCTGGAACTGCTGCTGCCCATACGCGGGAAGCACGCATCGACGCGGCGCGCAGGGAATGGAGTGAGGGATTCGTGGCGAGCGCCGTGGCGAGGGCAGTGCAGACTCCGCACCGCCACTCGTCTGGGACGGATCACCGCGGCGTCCTGACCATGGCGGACATGGCGGGCTTCCGTGCCGGTTATGAAGTGGCAGTGACGTTGGAATTCCGAGGCCATACAGTCGCCAAGACTGGCCCGTGGGGCCAGGGGCCAGCATTGCTGCAGACTCTCGCCATCCTTGACGGCTTCGACGACGAGCACCTCGACCCGTCCACCGAGCTCGGCGCCCACACCATCCTTGAAGCCCAGAAGCTGGCGCTCGCCGACCGCGAGGCGTACTACGGAGATGTCGACGTGCCGCTGGAGCACCTGCTGTCCGCTGACTACGCCGCGGAGCGCCGGCAGCTGATCAACGAGAGTGCGTCCCATGAGTTCCGCCCGGGACGGGTTCCGGGGCGTGAGCCCTATATGCCGGTGCTGCGCACCGAGTATGTTCCGCCGGCGCTCGCGGATGGCGCCCGTGGTCCGGGCGCCGGGAGTGCGGGAGTGGGGGAACCGACGGTGGAAAGGACCGGGGAGACGCGGGGCGACACGTGCCACCTCGACGTCGTGGACCGCTGGGGCAACATGGTTTCGGCAACTCCCTCCGGTGGCTGGCTGCAGTCGTCCCCGGCGATCCCGGAACTCGGCTTCTGCCTGGGCACCCGTCTGCAGATGACCTGGCTGGAAGCGGGGATACCGTCCACGCTGACGCCGGGTAAACGGCCGCGGACCACGCTGACGCCGACCCTGGTGCTCCGCGATGGAGCATCAATCTCCGCGCTCGGCTCGCCGGGCGGGGACCAACAGGACCAGTGGCAGTTACTGTACCTGTTGAGGACGATCGTTGGAGGGTACTCCCCACAGCAGGCGATCGATGCACCCGCCTTCCATACGACGTCGATGCCTGGTTCATTCTGGCCACGTATTTGGGAGCCGGGCGGTGCCGTTGTGGAGGGCCGACTTGGGGATGCGGTTATTGCGGGGCTTGAGCGGAGAGGCCACCTGATCACCCGCGCAGGTGACTGGACGCTGGGACGGCTATCCGCCGTCGTCCGTGATCCCTACACCGGGGTAGTGCAGGCCGCTGCGAATGCGCGGGGGGCGCAGGGATATGCCGCTGGGCGGTAA	MSYTRPDPFTTRPTLRGTFGMAASTHWLATATAQSVLERGGNAFDAATAAAFVLHVVEPHLNGPGGDMTGVFSTAEEPGKPIVLMGQGPAPSGATVEHYLSEGLELVPGSGALAAAVPGAVDAWLLLLRDHGTWELAEVLDFAIGYARDGHPVLARVGATISAVSELFREHWPTSAELWMPEGRIPVEGELIRNPAHARTLQRLVQAGAGIGEAAGTAAAHTREARIDAARREWSEGFVASAVARAVQTPHRHSSGTDHRGVLTMADMAGFRAGYEVAVTLEFRGHTVAKTGPWGQGPALLQTLAILDGFDDEHLDPSTELGAHTILEAQKLALADREAYYGDVDVPLEHLLSADYAAERRQLINESASHEFRPGRVPGREPYMPVLRTEYVPPALADGARGPGAGSAGVGEPTVERTGETRGDTCHLDVVDRWGNMVSATPSGGWLQSSPAIPELGFCLGTRLQMTWLEAGIPSTLTPGKRPRTTLTPTLVLRDGASISALGSPGGDQQDQWQLLYLLRTIVGGYSPQQAIDAPAFHTTSMPGSFWPRIWEPGGAVVEGRLGDAVIAGLERRGHLITRAGDWTLGRLSAVVRDPYTGVVQAAANARGAQGYAAGR	PGPT0002935_436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-17_03097	2667	yhgF	COG2183	Protein YhgF	GTGCCGCTGCAACGGCGCGGCGGGTTTGGGCCGGCCGCTTCCCCGATCAATGCCGGTCACCAGGCCGTTCGACGCCCGCCCGGCCGGGTAAGGCAAAATAATGGGGTGACCCAACTCCCGCAGCACCCGCCCGCCACCCGTATCGCCGACAGCATCGCGGCCCAGATTGCTTCCGAGCTCGGAGTACAGGCCTGGCAGGTAAAGGCCGCGGTGGAACTGCTCGACGGCGGAGCCACCGTCCCCTTCATCGCCCGGTACCGCAAGGAAGCCACGGGGACGTTGGACGACACCCAGCTGCGCGGGCTCGACGAGCGGCTGCGCTACCTGCGCGAACTGGAGGACCGCCGTCGTGCAGTCCTCGAGGCGATAACCGCCCAAGGCAAACTGACGGCGGAACTCGAGGCAGCCCTCGTCGCCGCCGACACGAAGTCCAGAGTGGAGGACATCTACCTGCCCTTCAAGTCCAAGCGCCGCACCAAGGCACAGCTCGCGCGCGAAGCCGGGCTCGAGCCGCTCGCCGACACACTGCTCAAGCGCCCCGACCTGGATCCGGAGCGCGAGGCGACGAAGTACCTGAACGCCGAGCATGCTGTCGACGATGCCGCCGCTGCGCTCGCCGGTGCCCGCGCCATCCTCGTGGAGCGCGTGGCGCAGGATCCCGACTTGGCAGAGACCCTGCGCGAACGGTTGTGGACGCAGGGCCGGATGGTGTCGCGCGTGAAGAAGGGCAAGGAAGCCGAGGGGCAGAAGTTCGCGGACTACTTCGAATTCGCGCAGCCTCCGGCCGGGATGCCATCGCACCGCGTCCTCGCTTTGCTGCGCGGCGAAAAGGAAGGCGTGCTGGAGCTCGACCTCGCCGAGGCGGACCCCGGGGACGACGACGCCCTGGCCGCCGCCCGCTCCCGGTACGAGTCCGCGGTGGCCAGGTTCCTCGGGGTTGCTGACCGCGGACGGCCGGCAGACGCGTGGCTGCTGCAGACGGCGCAGGTGGCTTGGCGCTCGCGGGTGCTCGCCCGGCTCACAGCCGACCTGCGCGGACGGATGTTTGCCGCAGCGGAGGACGAGGCTGTCCGCGTCTTCGCGGCGAACCTGCGCGACGTGCTGCTCGCCGCGCCGGCCGGGAACCGCGCCACCCTCGGCCTGGATCCCGGGCTGCGGACAGGCGTCAAGGTGGCTGTGGTGGACGGAACCGGCAAGGTGGTGGCCACAGATACCGTGTATCCGCACGCTCCAGCCCGAAAGTGGGACGAAGCGCTGGCCACTTTGGAGCGTCTGGCGCGAAAGCACGCCGTCGAACTTGTGGCCATCGGCAACGGCACAGCCTCGCGCGAGACGGACAAGCTGGCCGCCGAACTTATCAAGAAACTCTCCGCAGACAAGGCGTCCGCAGACAAGGCGTCTGCAGGCGGGCTGTCGACAGACGCAGGCGCCGGGCCGAAGCCGCAAAAGCTCGTAGTGTCCGAAGCCGGCGCGTCCGTTTACTCCGCATCAGCCCTGGCCGCTGCTGAACTGCCCGGCATGGATGTGTCCCTCCGCGGTGCCGTGTCCATCGCGCGCCGGCTGCAGGACCCGCTGGCTGAGCTGGTGAAGATCGACCCGAAGTCCATCGGCGTCGGGCAGTACCAGCACGACGTCACCCCAGCCAAGCTGGACCGCAGCCTGGATGCGGTGGTGGAGGATTGCGTGAACGCGGTGGGCGTTGACGTAAACACTGCTTCGCCCGCGCTGCTCAGCCGGGTGGCCGGGGTTGGACCTTTGCTGAGCGAGAACATCGTGGCCTACCGGAACCAGAACGGGCCCTTCACCAAGCGCACGGAGCTGAAGAAGGTGCCGCGGCTGGGGGCCAAGGCATTTGAGCAGTGCGCCGGATTCCTGCGGATCACCGGGGGAGCGGAACCTCTGGATGCTTCCAGTGTCCACCCCGAGGCGTATCCGGTTGCGCGGAAGATCATGGCCGCCGCTGCCCCGGAGGAGTTTTCGAAGGGAGGGTTGCCGTCCTCCGGCCTTGCCGGGGCCACTTCGCTGGATCCGCAGGACTTTGTCGACGGCACCTTCGGTCTGCCCACAGTCCGCGACATCATCGCCGAGTTGGAGAAGCCGGGACGCGACCCCCGGCCGGCCTTCAAGGCCGCCTCGTTCTCGGAGGGCGTTGAGAAGATCTCCGACCTCAAGCCCGGCATGGTGCTTGAGGGGACGGTCACGAACGTGGCTGCCTTTGGTGCGTTCGTGGATGTCGGAGTGCACCAGGACGGGCTGGTGCACGTGTCCGCGCTCGCCAACCGCTTCGTGTCCGACCCCCGTGAAGTTGTGAAATCCGGACAGGTTGTGCGCGTCAAGGTGCTCGAAGCCGACCCGGAGCGGAAGCGGATTTCGCTAACCCTGCGGCTCGATGACGAACCGTCGCAGTCCGGCGGGCGGAACGCCGGCGGGCGTGGTTCCAATGAGGGCGCCAAGCCGGCCAGCGGTGGACGTGCTGCTGGGAGTGCAAACGCTGGCAGTTCAAACGCTGGGAGTTCAAACGCCAGCCGTTCAGGCGCGGGGGGCGGAAGCGGTCGCGGGACAGGCGGCCGCAACCGGCGTGAGGCCCCTGCGCCTCAAAAGCCCGCGCCAGCTCCTGCGAACACTGCCATGGCGGAAGCCTTGCGGCAGGCCGGCCTCGCAAAGTAG	MPLQRRGGFGPAASPINAGHQAVRRPPGRVRQNNGVTQLPQHPPATRIADSIAAQIASELGVQAWQVKAAVELLDGGATVPFIARYRKEATGTLDDTQLRGLDERLRYLRELEDRRRAVLEAITAQGKLTAELEAALVAADTKSRVEDIYLPFKSKRRTKAQLAREAGLEPLADTLLKRPDLDPEREATKYLNAEHAVDDAAAALAGARAILVERVAQDPDLAETLRERLWTQGRMVSRVKKGKEAEGQKFADYFEFAQPPAGMPSHRVLALLRGEKEGVLELDLAEADPGDDDALAAARSRYESAVARFLGVADRGRPADAWLLQTAQVAWRSRVLARLTADLRGRMFAAAEDEAVRVFAANLRDVLLAAPAGNRATLGLDPGLRTGVKVAVVDGTGKVVATDTVYPHAPARKWDEALATLERLARKHAVELVAIGNGTASRETDKLAAELIKKLSADKASADKASAGGLSTDAGAGPKPQKLVVSEAGASVYSASALAAAELPGMDVSLRGAVSIARRLQDPLAELVKIDPKSIGVGQYQHDVTPAKLDRSLDAVVEDCVNAVGVDVNTASPALLSRVAGVGPLLSENIVAYRNQNGPFTKRTELKKVPRLGAKAFEQCAGFLRITGGAEPLDASSVHPEAYPVARKIMAAAAPEEFSKGGLPSSGLAGATSLDPQDFVDGTFGLPTVRDIIAELEKPGRDPRPAFKAASFSEGVEKISDLKPGMVLEGTVTNVAAFGAFVDVGVHQDGLVHVSALANRFVSDPREVVKSGQVVRVKVLEADPERKRISLTLRLDDEPSQSGGRNAGGRGSNEGAKPASGGRAAGSANAGSSNAGSSNASRSGAGGGSGRGTGGRNRREAPAPQKPAPAPANTAMAEALRQAGLAK				NA	NA	NA	NA	NA
D1-17_03098	297			hypothetical protein	ATGCAGGAATTGCTGATTATTTTCCAGGACGGCTTCGATGAAGACGAGGTCGCCATCACCGTCAACGGCAAGGAGGCCCGGTTCGACCGCGACGTGACCACCCGTGAGCTGCTGGGCATGGCCGAGGAGGTCTCGGTGGAGCTTCCCGCCAAGGGCGCCACGGTGGGTGTCGAGGTGACCAGCCGGAACCTCAGCGCAGAGAAGAAGCTGCACGGACGGCCAAAGAGCCTCCTGGTGTCCATCGAGGACGGCGAACTGGTCCTCAACGAAGGCACCGGCCGCGAAGCGTTCCTCTAG	MQELLIIFQDGFDEDEVAITVNGKEARFDRDVTTRELLGMAEEVSVELPAKGATVGVEVTSRNLSAEKKLHGRPKSLLVSIEDGELVLNEGTGREAFL				NA	NA	NA	NA	NA
D1-17_03099	855	lerI	COG0149	L-erythrulose-1-phosphate isomerase	ATGACGCAGCCCCGCCTGGCCACGGGCCCCGATACCGGGGAGACCCGGGCCGCCGAAACCAGGTATGTCGGTGTGAGCACCAAGATGTACCTGGGATACGCGGACAGCCTGCGCTGGCTGGGCGAACTGCGCTCGGAAGTGGACGCCCGTCCGGCCCTCAGGGCCGGGCGGGTGGTCCCGTTTGTCATTCCGTCCTTTCCCATGCTCCCCGCAGCCCGTGAGCTGCTGGCCGGGTCCCCTGTCCTTCTCGGGGCGCAGGACTGCGGCTGGGCGGACGGTCCGTGGACCGGCGAGGTGTCGCCGTCGCTGCTCGCCGAGCTTGGTGTGCGCCTCGTGGAGATTGGCCATGCCGAGCGGCGCCGGCACTTCGGTGAGGATGACGCCATGATTGCACTCAAGGTCAAAGCAGCCGACGACGCCGGGATCACCCCGCTGCTCTGCGTCGGCGAGGAAACGGCAGGGCCGGGTCTGGGGACGGAAAAAGCCCCTGCGGCATCAGCCGAAGCGGCTGCCGAGGCCGCAGCTTCCTTCGTCTATAGCCAGATCGAGGCTGCAACCGGCGGGAACTGGGAGCTCGCGTCGCGCCTGGTAGTCGCCTATGAACCCGTCTGGGCCATCGGCGCTGCCGAACCTGCCGGCGCAGGCTACGTGTCCGCCGTCGTCAATCATCTGCGTGGACGGCTCCGCGCCCACGGACTGCACGATTTGCCGATTATCTACGGCGGTTCCGCGAAACCCGGACTTCTCCCCACGCTTGACGCTGTGTCCGGTCTGTTCCTGGGCCGGTTCGCACACGACGCCGCGAACTTCGGAAAGGTTTTGGACGAGGCTCTCGCTGTGACCGTGGCGGACTAG	MTQPRLATGPDTGETRAAETRYVGVSTKMYLGYADSLRWLGELRSEVDARPALRAGRVVPFVIPSFPMLPAARELLAGSPVLLGAQDCGWADGPWTGEVSPSLLAELGVRLVEIGHAERRRHFGEDDAMIALKVKAADDAGITPLLCVGEETAGPGLGTEKAPAASAEAAAEAAASFVYSQIEAATGGNWELASRLVVAYEPVWAIGAAEPAGAGYVSAVVNHLRGRLRAHGLHDLPIIYGGSAKPGLLPTLDAVSGLFLGRFAHDAANFGKVLDEALAVTVAD	PGPT0018375_8	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0018375-eryH|lerI-K21910	NA	NA
D1-17_03100	1356	rhmT_2		Inner membrane transport protein RhmT	ATGACTGTCACGTCAACAACGTCCGCCACCAGGGAGCTGCTGGACTCCCCGGTGCTGAAGTCGGCCATATCCAAGGCCTCCTTCCGGCTCATGCCCATGCTGGTGATCCTCTACGTGGTGGCGTTCCTGGACCGCACGAATGTGGGCTTCGCCGAAGCGGCACTCGAGGTCGACAGGGGCATCACGGCCGGCGCTTACGCGCTCGGAGCAGGCATCTTCTTCATCGGCTACGCCTTGTTTGAAATCCCCTCCAACCTGCTCCTCACGAAGTTCGGAGCGAAGGTGTGGCTGGCCCGCATCGCCATTACCTGGGGTATCGTCTCTGCCTGCTTCGCGTTCGTTCAGGGGGAAGTGTCCTTTATCATCCTGCGGTTCCTGCTGGGCGTCACGGAAGCCGGTCTGTTCCCCGGCGTCATCATGTTCCTCGCCGCTTGGTTCCCCAACAAGGTCCGCGTGAAGATGTTCGCCATCTTCTACCTGGCCCAGCCCTTCTCCCAGATGATGGGTGCGCCGCTGTCCGGCTGGCTGATCAACATCGGTGACCAGGTTCCCGGCGTCCACGGCTGGCAGGTCATGTTCTTCGTCGAGGGCATGCTCGCCGTCGTCGCTGGTATCGCGGCCTATTTCTTCCTGATCAACAGCCCGCAGGACGCGAAGTTCCTCAATGCAGGTGAAAAGAAGGCGCTGCTCGACGTCATGGCCCTTGAGGACAACGTCAAGGAAGAATCCGGCCCCCGCGGCGTGCTTGCCGCGATGAAAAACCGCCGGGTCTGGTACTTCACCCTCATCTACTTCTGCCTGCAGATCGCGGTTTACGGTGTGACGTTCTATCTCCCGCAGCAGGTGGCGCAGCTGACCGGCCAGAAGGTGGGACTCGCCGTCGGCCTGCTGGCTGCCATTCCGTGGTTCTTCGGCATGTTCGCCTGCTACTTCATCGGTAAGGCCGCCAATACGGTGGTCCGCCGGCGCGTCTGGGGCACCGGGTTGTTCATCTCCACCGGTCTGTGCATTTTCGGTTCGGCCTGGGCAGGTGCCAACCACGTTCCGGCGCTGGGCATCCTGTGCATCAGCCTCGCAGTCTGCAGCTTCCTCTCCATCGGCCCCATCGCCTGGTCCTACCCGACGGCGTTCCTCACCGGTACGGCCGCGGCCGCAGGCATCGGGCTGATCAACTCGCTGGGCAACCTCGGCGGCTTCGTGGCTCCGATCCTGCGCACCTCCGTCAACCAGATCACCGCGTCCGACACCGGCACTATGGGTGTTTACGCGCTGGGCGTGATGCCGTTCCTCGCTGCTGCGATGATGTACGGCACGCGGAAGTTCAAGAACAAGGCCGATGACCTGCTCGAAAAGTAG	MTVTSTTSATRELLDSPVLKSAISKASFRLMPMLVILYVVAFLDRTNVGFAEAALEVDRGITAGAYALGAGIFFIGYALFEIPSNLLLTKFGAKVWLARIAITWGIVSACFAFVQGEVSFIILRFLLGVTEAGLFPGVIMFLAAWFPNKVRVKMFAIFYLAQPFSQMMGAPLSGWLINIGDQVPGVHGWQVMFFVEGMLAVVAGIAAYFFLINSPQDAKFLNAGEKKALLDVMALEDNVKEESGPRGVLAAMKNRRVWYFTLIYFCLQIAVYGVTFYLPQQVAQLTGQKVGLAVGLLAAIPWFFGMFACYFIGKAANTVVRRRVWGTGLFISTGLCIFGSAWAGANHVPALGILCISLAVCSFLSIGPIAWSYPTAFLTGTAAAAGIGLINSLGNLGGFVAPILRTSVNQITASDTGTMGVYALGVMPFLAAAMMYGTRKFKNKADDLLEK	PGPT0002325_216	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-17_03101	93			hypothetical protein	ATGACCTCATGGACCAGAGAACGCAAGATCTACCTCGCCGTCGGCGTCCTCGCCAGCCTGGCAGGCGTTCTGCTCATCGCGTTCTCGCTCTAA	MTSWTRERKIYLAVGVLASLAGVLLIAFSL				NA	NA	NA	NA	NA
D1-17_03102	768	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGCACTTTCCCGTCAGAACGAACCGCCATTGTCACCGGAGCAGTCTCCGAACGCGGCATCGGCCGTGCCACGGCAAACTACCTCGCAGAGCAGGGCTGGAACATCGGCATCGTCGACTTGGACGACGCCCTATGCCGGGCAACCGCCAAGGACATTGCCGGCACATACGGTGTGAAGGCCCACGGCGTCGGAGCCAACGTGGCCGATGAAGCATCCGTGCGCGCCGCCATCGACTCCATAGAGGCGGAGCTGCCCCAGATCGTCGCCCTCGCGAACGTGGCCGGTGTCAGCTCGCCGGTCCCGTACCTCGAACTCGAGGCGGCTGAATGGGACCGGGTCCTGAACATCAACCTCAACGGCGTCCACTACGCCACCCGCCGCGTCGCCGAATCCATGGTGAAGAACCGTATCGGCCGCATCGTCAACATCTCCTCCGTTTCCGCGCAGCGCGGCGGCGGAACGTTCTCCAAGACCCCTTACTCGGTGGCCAAAGCAGGCGTCATCGGCCTGACCCGTTCCACCGCCCGCGAGCTGGGGGAGTACGACATCACCGTCAACGCCATCTCCCCGGGGCCCATCGACACCGACATCATGGGCGGCACCCTCAGCCAGGAACGGAAGGAAGAGCTCACTCAGGACCTCGTGGTCAACCGCGTCGGCACCACGCGCGACATTGCGGCAGCCATCGCCTTCCTCATCAGCGAGGACGCCGGATACATCTCCGGCCAGACGCTGAATGTGGATGGCGGCCTCTACATGCATTAG	MSTFPSERTAIVTGAVSERGIGRATANYLAEQGWNIGIVDLDDALCRATAKDIAGTYGVKAHGVGANVADEASVRAAIDSIEAELPQIVALANVAGVSSPVPYLELEAAEWDRVLNINLNGVHYATRRVAESMVKNRIGRIVNISSVSAQRGGGTFSKTPYSVAKAGVIGLTRSTARELGEYDITVNAISPGPIDTDIMGGTLSQERKEELTQDLVVNRVGTTRDIAAAIAFLISEDAGYISGQTLNVDGGLYMH	PGPT0005315_332	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CYCLOHEXANECARBOXYLIC_ACID_DEGRADATION,PGPT0005315-badH-K07535	NA	NA
D1-17_03103	969		COG1250	3-hydroxybutyryl-CoA dehydrogenase	ATGACAGAGACACCCACCAGCTCACGCAAGTACGCCGTCGTCGGATCCGGTTACATGGGCGGCGGCATCGCCCAGGTCCTGGCCCTCGGCGGGGCGCGCGTTGCCCTCGCCGATGTGTCCGCGGAAGTGGCGCAGAAGAACTACGAGCGCCTGCTCACGGAATCAGACCAGTTCGTGGCCGATGGCTTGTTCCCCGAAGGCTCCACGGAAATCCTGAAGCAGAACCTCTGGGCCGCGAAGGACATTGAAGAGGCCGTGGCTGATGCTGACTTCATCGAGGAGGCCGTCCCGGAAGTCATCGCGATCAAGCACGAGACCCTCGCCCGCATCAGCGCCGCAGCCCGTCCCGATGCCATCATCGGCTCCAACACCTCCACAATCTCCATTGCGGAGCTGTCCGAGCCCGTTGCCAACCCGGAGCGCTTCCTCGGCGTCCACTTCTCCAACCCCTCGCCGTTCATCCCGGGCGTGGAGATCATTCCCCACGCCGGAACCTCGGCTGAGACCGTTGGCGCAGCCCGCGACCTCGTGCACGGCGCCAACAAGCAGACCGCCGTGGTCAAGGACGTCACCGGTTTCGTGCTCAACCGCCTGCAGTATGCGCTCTTCCACGAGGCCGCGCAGCTGGTGGAGCAGGGCATCGCGACGGCGGAGGACGTGGACACCCTGGTCCGCACCACCTTCGGCTTCCGGCTGCCGTTCTTCGGGCCGTTCGCCATCGCCGACATGGCAGGCCTGGACGTCTACAACTTCTGCTACAAGTCCCTGCAGAGCGACTTCCCTGAGCGCTTCGCCACCCCGAAGATCCTCACGGACCTCGTCGAGGCCGGAAAGCTGGGCACCAAGACCGGGGCTGGCTTCCTCAACGTCCCCGCCGAGCGCACGCCGGAGCTGATCGCGTACCGCAACAAAGCCTACGTGGCGATGCAGAAACTGATCGAGGAACTCGGCCCAGCGCCGATCAACTAG	MTETPTSSRKYAVVGSGYMGGGIAQVLALGGARVALADVSAEVAQKNYERLLTESDQFVADGLFPEGSTEILKQNLWAAKDIEEAVADADFIEEAVPEVIAIKHETLARISAAARPDAIIGSNTSTISIAELSEPVANPERFLGVHFSNPSPFIPGVEIIPHAGTSAETVGAARDLVHGANKQTAVVKDVTGFVLNRLQYALFHEAAQLVEQGIATAEDVDTLVRTTFGFRLPFFGPFAIADMAGLDVYNFCYKSLQSDFPERFATPKILTDLVEAGKLGTKTGAGFLNVPAERTPELIAYRNKAYVAMQKLIEELGPAPIN	PGPT0006075_1379	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
D1-17_03104	483	derI1	COG0698	D-erythrulose-4-phosphate isomerase 1	ATGACCACGACTGCAGGCTGGCGCATTGTCATCGGCAACGATGAGGCCGGCGTTGAGTACAAGGAAGCACTGAAGGCGCTCCTGGAGGCGGACGACCGCGTGGCCTCCGTGCTGGATATCGGTGTTGCTGCCAACGACTCCACCGCCTATCCGCATCTCGCCGTCGCGGCTGCCCGCAAGGTGGCCGAAGGCGAAGCCGACCGTGCACTGCTCATCTGCGGCACGGGCCTGGGCGTAGCGATCGCGGCGAACAAGGTCCCGGGGGTCCGCGCCGTCACCGCTCACGACAGCTACTCCGTGGAACGCTCCGTCCTGAGCAACAATGCCCAGGTCCTCACCATGGGACAGCGCGTCATCGGCCTGGAACTCGCCAAGAAGCTCGTCGGCGAATGGCTGAACCACCGCTTCGATGAGACCTCGTCCTCGGCGGCCAAAGTGGACGCCATTTGCTCCTACGAACCCGACTACACAAAGGCTGACTGA	MTTTAGWRIVIGNDEAGVEYKEALKALLEADDRVASVLDIGVAANDSTAYPHLAVAAARKVAEGEADRALLICGTGLGVAIAANKVPGVRAVTAHDSYSVERSVLSNNAQVLTMGQRVIGLELAKKLVGEWLNHRFDETSSSAAKVDAICSYEPDYTKAD	PGPT0017395_502	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0017395-rpiB-K01808	NA	NA
D1-17_03105	1770	lerK	COG2376	L-erythrulose kinase	ATGACCCAGATCTTCGACAATCCCGCCGACTTCGCGGATGAGGCACTGGACGGCTTCGTCGCTGCCAACCGCGGTTACGTTGCCCGTGTTGACGGCGGCGTCGTCCGATCCACCGAGATGACGCCCGGCCAGGTGGCCCTCGTCATCGGCGGCGGCTCCGGACACTACCCGGCTTTCGCCGGACTCGTGGGGCCCGGCCTGGCAGCCGGCTCAGCGTGCGGCAACATGTTCGCATCACCGGCCGCCGGCCAGGTTTACCGCGTGGCCAAGGCATCCAACGCCGGCGGTGGCGTACTTCTCAGCTACGGCAACTACGCCGGCGACGTCCTGCACTTCGGACAGGCCCAGCTGCGGCTCAATGCCGAAGGCATTGAGACGCGCACCGTCCTCGTGACCGACGACATCGCCAGCGCCCCGCTGGACCAGATCGAAAAGCGCCGCGGCATCGCCGGCGACCTCACGGTCTTCAAGGTTGCCGGTGCTGCCGCCGAGGCAGGGCTGAACCTGGACGAAGTGGAACGCCTCGCCATCAAGACCAACAACCGTACCCGGTCACTCGGCGTCGCCTTCGACGGCTGCACCCTGCCCGGCGCGAGCGAGCCGCTCTTCCACGTCCCGGCAGGGCAGATGTCGCTGGGCCTCGGAATCCACGGCGAACCCGGCATTTCCGAGCACCCCATGCCGACCGCATCCGAACTGGCCGAGTTGCTGGTGTCGCGGCTTTTGGAGGACAAGCCGGAGGACGCCGGGGACCGCGTCGTGGCCATCGTCAACGGACTCGGCACGGTCAAGTACGACGAACTCTTCCTGCTCTTCGGCAAGGTCGAGAAGCTGCTCACCAGGGCCGGACTGACGGTAGTGGAGCCCGAATGCGGCGAACTCGTCACCAGCCTGGACATGTCCGGCCTCTCCTTGACCCTGCTGTGGCTGGACGACGAGATCGAGCAGTACTGGGCAGCACCGGCGGACACCCCGGCCTTCCGCAAGGGAAACCTCGCACCCCGTACACGGCGCGAAGTCACCGGTACCGAGGACGCGGTGGCAGAAGAAGCAGAGAGCGCCACGGCTGCGTCTGCTGACCTTGGCCGACTGGCAGCCGCCGTCCTCGCGCAGGTGCGGGACGTCGTCGTCGAACATGAAGAGGAACTGGGCAACCTGGACGCCATCGCCGGCGACGGCGACCACGGCATCGGCATGCGCCGCGGCGTCGATGCCGCCGCTGCCGCCAGTGAGCAGAACGCTGCTGCCGGAGCCTCAGTGCAGCGGGTGCTCACCGCTGCCGGCGAGGCATGGAGCGAACGCGCCGGCGGCACCTCCGGTGCGCTCTGGGGGTCGGCAGTCATTGCTGCCGGACTGGCGATTGGCAACCGCGAGTCCTACCAGCCAGAGAACGCCGCCGCTGCAGTGGAGGCTTTCACCAACGCGATCACCGAACTCGGCAAAGCCGAACCGGGGGACAAGACCATGGTGGACGCCCTCCTCCCGTTCCGGGATGTCTTCCGCAACGAGCACGGCGGCGGCGCCTCCGTCGGCGATGCCCTCGCCGCCGCAGCCTCCGCGGCAACGGAAGCAGCCCGCCAGACTGCGGACCTGCGCCCGTTGAAGGGACGCGCCCGTCCGCTGGCTGAAAAGAGCCTTGGGCACCCGGACCCCGGAGCGATCTCTTTCGGGCTCATCACTGAACGGATTGCCCGCTTTATCCAATCTGACCCGGCCACGTCTGATCTGGCCTCATCCGAGATGGCCGCACCGGCCGGAAATGGAGCATAA	MTQIFDNPADFADEALDGFVAANRGYVARVDGGVVRSTEMTPGQVALVIGGGSGHYPAFAGLVGPGLAAGSACGNMFASPAAGQVYRVAKASNAGGGVLLSYGNYAGDVLHFGQAQLRLNAEGIETRTVLVTDDIASAPLDQIEKRRGIAGDLTVFKVAGAAAEAGLNLDEVERLAIKTNNRTRSLGVAFDGCTLPGASEPLFHVPAGQMSLGLGIHGEPGISEHPMPTASELAELLVSRLLEDKPEDAGDRVVAIVNGLGTVKYDELFLLFGKVEKLLTRAGLTVVEPECGELVTSLDMSGLSLTLLWLDDEIEQYWAAPADTPAFRKGNLAPRTRREVTGTEDAVAEEAESATAASADLGRLAAAVLAQVRDVVVEHEEELGNLDAIAGDGDHGIGMRRGVDAAAAASEQNAAAGASVQRVLTAAGEAWSERAGGTSGALWGSAVIAAGLAIGNRESYQPENAAAAVEAFTNAITELGKAEPGDKTMVDALLPFRDVFRNEHGGGASVGDALAAAASAATEAARQTADLRPLKGRARPLAEKSLGHPDPGAISFGLITERIARFIQSDPATSDLASSEMAAPAGNGA	PGPT0018355_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0018355-derK-K20902	NA	NA
D1-17_03106	1002			hypothetical protein	GTGGCTTATACAGCTGACAACTGGCCCATCACCGCAGCCCTGCTGCAGTTCCCCGGCGTCGACGCCCAAGGAACCCCCATCAATGACGCCGGCGCTTCCGCCTGGGCCGAGGTATTCACCGAGGTCAAGGAAGCCGGCTTCGCGAACGTCGACCTCACCGACAGCTGGGTCCGCCCCGGCGATCTGAGCAAGGAACGCCTTGCAGAATTCAAGCAGACAGCGGACAACGTGGGTATCGGCATGCCGGTCATTTCCGCGATCCGCCGCAGTGTAATCGAGGAGGGCAACTGGGAAGCCAACCTCGAGTACAGCCACCGGACCATCGACGCCGCCGCTGAACTGGGCTGCGAGGTTGTCTCTTTCGGCCTGCACCAGGCGATTACCCCGGAGCAGCAGAAGCAGCTGTGGTTCTGGACCCTCGAGGGCTACAAGGATCCGCTGGGAGACAAGGAAGTTTGGAATAACGCCGTCTCGCGGCTCCGCGAACTCGGCCGCCATGCAGCAGAGGTCGGCGTCCTGCTCTCCCTCGAAATGTACGAAGACACCTTCCTGGGCACCGCCGACTCGTCCGTGCAGCTGGTCCAGGACATCGGGCTCTCCAACGTCGGCCTGAACCCGGACATCGGAAACCTGATCCGCCTGCACCGCCCCATCGAGGACTGGCGCGAACTCGTGGCCAAGACCCTGCCGTACTCCAACTACTGGCACGTGAAGAACTACATCCGTGACGAGGACACCGCCCGCGGCATGTACGTCGCCATGCCTTCTCCGATGGAAAGCGGCCTCATCAACTACCGCGAGGCTTTCAAGGTTGCCCTCGCAAACGGTTTCCAGGGCATCATCTGCACGGAACACTACGGCGGAGACGGCCTCTCCGTGACGGCGAGCAACCAGGAATACCTGCGCCGCCACGTGCTCCCCAAGAAGGACGGCTACGCGCTCGGCAAGAGCCTGGTGGCGCAGGGCCGGCAGCAGCCCGCCGTCGAACTCGCTTCATCCTGA	MAYTADNWPITAALLQFPGVDAQGTPINDAGASAWAEVFTEVKEAGFANVDLTDSWVRPGDLSKERLAEFKQTADNVGIGMPVISAIRRSVIEEGNWEANLEYSHRTIDAAAELGCEVVSFGLHQAITPEQQKQLWFWTLEGYKDPLGDKEVWNNAVSRLRELGRHAAEVGVLLSLEMYEDTFLGTADSSVQLVQDIGLSNVGLNPDIGNLIRLHRPIEDWRELVAKTLPYSNYWHVKNYIRDEDTARGMYVAMPSPMESGLINYREAFKVALANGFQGIICTEHYGGDGLSVTASNQEYLRRHVLPKKDGYALGKSLVAQGRQQPAVELASS	PGPT0018355_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_D-ERYTHRULOSE|D-THREITOL_DEGRADATION,PGPT0018355-derK-K20902	NA	NA
D1-17_03107	735	rspR_8	COG1802	HTH-type transcriptional repressor RspR	ATGCAAAAAGCCTCCAGCGGCGTCCGCGCCGACAGCCGACACACCGGGGAGAGCTCCCAACGCTCCGCCGGCCGGGCCGTCAGCCGGCAGGTTCTCGCTGACCACGTCTACGAGGAACTCCTCGCCGCCCTCATGGACGGCCGCCTGGAACCCGGTGCCGCCGTCAGCATTGACGGCACCGCCCGCGACCTCGACGTCTCACCCACTCCGGTCCGTGAAGCCCTCGCCAGACTGGAACATACCGGGATGGTGCGGCGGGTGGCGTTGAAGGGATACCGCGTTGCCCCCGTCTTTACCCGTGAGGACTTCGCGGAGCTGATGGAGGCGCGGCTGGCCATCGAGCCCGTCAATGCCCGTCTGGCCTGTGCCCGGCTCACGCCCGAACGCCTCGCGGACCTCGAGAAGACAGTTGAGGCCCTGAAGTCCGCTCCGCGTGGCCCTTCCTTTGCTGAGTACAAGGACTACCTGGAAGCCGACGAACACTTCCACCAACTCATCGCGCACCAGACGGGCAACCAGTTCATGGAGGCGGCCTACGGGGCCCTCGGCGGGCAGGTCCAGCGGTTCCGGCTTTTCGGGGGCGTGGGAATTACCGACGCCGAATACGCCATCGCCGAGCACCAGGCGGTCCTGAACGCACTCTCCACAGGGGACCCTGAAAAGGCCGAAGCGGCCATGGCCGACCACATCCAAAAGGTGCGGGCCCGGGCCATCGCCGACGCACCGGAAGATTAG	MQKASSGVRADSRHTGESSQRSAGRAVSRQVLADHVYEELLAALMDGRLEPGAAVSIDGTARDLDVSPTPVREALARLEHTGMVRRVALKGYRVAPVFTREDFAELMEARLAIEPVNARLACARLTPERLADLEKTVEALKSAPRGPSFAEYKDYLEADEHFHQLIAHQTGNQFMEAAYGALGGQVQRFRLFGGVGITDAEYAIAEHQAVLNALSTGDPEKAEAAMADHIQKVRARAIADAPED				NA	NA	NA	NA	NA
D1-17_03108	1074	nemA	COG1902	N-ethylmaleimide reductase	ATGCTGTTTTCCCCGCTGCGCCTCGGAGAACTCGAACTCCCCAACCGCCTGGTCATGGCGCCCCTCACCCGCGTCCGCGCAGGCAAAGACGGTGTCCCCGGGCCGCTCCTTGTCGAACACTACCGCCAGCGCGCGTCCCTCGGACTGATCGTCAGTGAAGGCACCTACCCGAGCCCCGCCGGCCGCTCCTACCCAGGGCAGCCGGGGCTGGTCACAGCCGAGCAGATCGCCGGGTGGAAGAAAGTCACCGACGCAGTCCACGCCGAAGGCGGCCGGATGTTCGCGCAAATCATGCACGGCGGACGTGTCTCCCATGAGGACATCACCGGCGGCCACCAAGTCGTCGCGCCCAGCGCGATCGCTGTCGACGCCGAGACCCGCACCTACAACGGCAAGCAGCCCCACCCCGTTCCTCATGAACTCACTGCTGACGAGATTCCCGTGGTGATCCAGGAGATTGTCACCGCATCGCTCAACGCGATCGAGGCGGGTTTCGACGGCGTCGAACTCCACTCTGCCAATGGTTACCTGCTGCACGAGTTCCTCGCGCCGAACACCAACGTCCGCACCGACAGCTACGGTGGTTCTCCCGAGAAACGCGCCCGCTTTGTCATCGAGACAGTCAACGCGGTCGTGGAGGCACTGGGGGCAAACCGCGTGGGCATCCGGATTTCCCCGGAGCACCACGTCCAGGGCATCGAAGAGAACAACCCCGAGGACGTGCGTGCTACCTATGAAGTCCTGGTGAACTCCATAGCTCCGCTGAACCTCGCCTACCTGAGCATTCTCCACGCCGATCCGTCGGGAGACTTGGTTCAGGACCTGCGTGCCCGTTTCAATGGCACCTTCCTGGTCAACACCGGCTTCGGCGACATCACCACGCGGAAGGAAGCTGTCTCGCTCGTGGCGGACGGCCACGCAGACGCGGTTGTTGTCGGCCGACCCGCCATCGCCAATCCCGACCTCGCCCGCCGCTGGCGTGAAGGGCTGCCGCTCAACGAGCTCGACCTGAGCACGATGTACGGCGAAGGAGCCAAGGGATACACGGACTACCCGGCCTACCAGCCGTCTTAG	MLFSPLRLGELELPNRLVMAPLTRVRAGKDGVPGPLLVEHYRQRASLGLIVSEGTYPSPAGRSYPGQPGLVTAEQIAGWKKVTDAVHAEGGRMFAQIMHGGRVSHEDITGGHQVVAPSAIAVDAETRTYNGKQPHPVPHELTADEIPVVIQEIVTASLNAIEAGFDGVELHSANGYLLHEFLAPNTNVRTDSYGGSPEKRARFVIETVNAVVEALGANRVGIRISPEHHVQGIEENNPEDVRATYEVLVNSIAPLNLAYLSILHADPSGDLVQDLRARFNGTFLVNTGFGDITTRKEAVSLVADGHADAVVVGRPAIANPDLARRWREGLPLNELDLSTMYGEGAKGYTDYPAYQPS	PGPT0005930_2713	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
D1-17_03109	927			hypothetical protein	ATGCGTCTGAGGATGCTGCGTAGAGCGGCGCTTGTCGGACTAATTTCGCTTGGGGTGTATCCGCAGGCTCAGGCACTCGATGATGACTACGGTGGGTCGGTAACCTATGGCGAAGGGAGCCTCGTGGTTGGTGGTTGGGTTCATGATGTGACGACCGGCGAAATTGTTCCTGCACCGGCTGGTTATGTCAGTGAGGACCCAAACCAATACAACGCATTTCCGCAATGCCAGGTGGACGATGGCAATCTTGACATCAAATGCTTAGCCGGCCAACGCCCTTGCCCTGCAAGGGCGGATGGCAAGCCCGGAATTCCGGTCCTTTGGAAGGTGGCCCCCAGATCGATCGAGAACCCAACCTGGACAGACTGGCAGGGGAATGGCGGGGGGCCGACCTGTCTCTACGACAAGAACCCAGAAGATCTGCTGCCCCGCATCGCTGCACTGATTCAGCGAGAGTTCGAAAAATTGCCTGTGAATCCAGGACAGGTGACCGCACAGCCGAGTCCACATACCCTTAGAGCTGCCGAGACAAACTTTTACGCTAATGCCGTCGATCAAGAATTCGATATCACGATCTTGGCCCAGAAAATTCACATCATCGCCAAACCCGTCCAGTACCGTTGGGACTATGGGGACGGCACTTCGCTCGGCCCGACCAGCACCATGGGCGGGCCGCTGCCGCAGGACCGCTGGGGAGAAAAGACCCGCACCAGCCATGCCTACGCTGCGACGGGGGACTTCGACGTTGTCCTGACCACCTACTTCCAGGGCACCTACTCCGTCAACGGGGGCCCGGCACTACCCATACCGAATCAAGGCCAGTTCAGCTCAGCTCCCCAAACAGTAAGCGTCTGGCGCTCAGTCACCCGGAACTACGCGGACGACTGCATCGCAAACCCCCGCGGGGAAGGGTGTCCAACAAGATGA	MRLRMLRRAALVGLISLGVYPQAQALDDDYGGSVTYGEGSLVVGGWVHDVTTGEIVPAPAGYVSEDPNQYNAFPQCQVDDGNLDIKCLAGQRPCPARADGKPGIPVLWKVAPRSIENPTWTDWQGNGGGPTCLYDKNPEDLLPRIAALIQREFEKLPVNPGQVTAQPSPHTLRAAETNFYANAVDQEFDITILAQKIHIIAKPVQYRWDYGDGTSLGPTSTMGGPLPQDRWGEKTRTSHAYAATGDFDVVLTTYFQGTYSVNGGPALPIPNQGQFSSAPQTVSVWRSVTRNYADDCIANPRGEGCPTR				NA	NA	NA	NA	NA
D1-17_03110	663			hypothetical protein	ATGACTTCTCGTCGATCCATTTCCGGGCGCGTGCGCCTGACAGCTATTTCATGTATTGCCGCCTCCGCCGTCCTTATCAGCGGCTGCAGCAACGGCGGCTCTCCCCAGGGCAGCCCTAGTGCCGGGCCCACTTCCGCCGGTTCTCCGAAAGTCTCCGTTACGCCGGCTGCCTCGCCAACTCCTAAAGCAACCCCCGTGTATAAACCGGCCGACGCGAAGGGGCGGGCACAAAATGTTCCAGTGCCGGTGAAGCCTGCGCTGGCGGACAAGAACTCCAAGGAAGGGCTGGAAGCGTTTACGAAGTATTGGTATTCGCTGCTGAATTACGGATTTGAAACGGGAGACCTCTCTTCATGGGTAAAGCTGACTTCGACGTCCTGCGAGTTTTGCAACGTGCTACGAAACAGCATCACAGTTGGTTACAAGGAAGGGCGTTGGCAGGTTGGCGGCCGCCTTTCCACTCCTTCTGTTGAGCCAAGGTATAAACCCGGCGCGCAGAGTCAGCAGGTTATCGTGCAAGTCATTCAGGAGAAGACTCAGTTTTATAAGGCGGACAAAAGCGTGGGACGCGGCCCTGCTGCTCGATCAAATACTGCCTCAGTAGTCCTCGCAGAGTATTCCGGCGGCAGATGGACTGTCTCGGACCTTCACCCCGTTCGGTAG	MTSRRSISGRVRLTAISCIAASAVLISGCSNGGSPQGSPSAGPTSAGSPKVSVTPAASPTPKATPVYKPADAKGRAQNVPVPVKPALADKNSKEGLEAFTKYWYSLLNYGFETGDLSSWVKLTSTSCEFCNVLRNSITVGYKEGRWQVGGRLSTPSVEPRYKPGAQSQQVIVQVIQEKTQFYKADKSVGRGPAARSNTASVVLAEYSGGRWTVSDLHPVR				NA	NA	NA	NA	NA
D1-17_03111	432			hypothetical protein	ATGTTCAACCATCCTGACGGCGATCCTATTCTCATCCTCAACGACGAGCAGTGCTGGCAGCTACTGGAGGGCGCAAGGCACGGCAGGTTGGTTGTCACCGTCGCCGGCGAGCCCGACATTTTTCCCGTGAATTACGTGACGAATGACCGGAAGCTTTACTTCCGCACGGCGCCGGGCAATAAGTTGGCAGAGCTGACCATCAACGACCGGGTCCTCTTCGAAACAGACGGCATCCTGTCGGACCAGGCATGGTCAGTCGTGGTGCGCGGCACCGCCAGGGTATTGCACCAGTCCGCGGAAATAGCAGAGGTAGAGGAACTGGGGTTGGCTTCTTGGGTCCCGACCCTGAAGGACTTCTACGTTGAGGTCGAGCCCCAATCCGTCAGCGGAAGGCACTTCGAGTTCGGCGCGGAACCCGATTTCAACCCCTGA	MFNHPDGDPILILNDEQCWQLLEGARHGRLVVTVAGEPDIFPVNYVTNDRKLYFRTAPGNKLAELTINDRVLFETDGILSDQAWSVVVRGTARVLHQSAEIAEVEELGLASWVPTLKDFYVEVEPQSVSGRHFEFGAEPDFNP	PGPT0028780_2221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-5-NITROIMIDAZOLE_ANTIBIOTIC_RESISTANCE-AZOMYZIN,PGPT0028780-nimD-K07005	NA	NA
D1-17_03112	396	vsr	COG3727	Very short patch repair protein	ATGTCCCGGATCAGGGGAAAAAACACAAAACCTGAATTGCTGGTGCGCGGGCTTCTGCATGCCAAGGGCTACCGCTACCGCCTTCACGGGGCCTCCGGAGGGACTAAGCTGCCGGGAAACCCGGATCTTGTTTTTGCCAGCCGTCGCAAGGTCATATTTATCAACGGATGCTTCTGGCACTTCCACGACTGCCGGGTGGGTCAGCACGCGCCAAAAGCCAACGCCGAATTTTGGGAAGCCAAAAGGACCAAAACCAGAAACCGCGACGCCGACCAACGGCACCGGCTCGAAACCGCAGGGTGGGATGTGCTCACCGTATGGGAGTGCGAGCTGAAGGACCGGCAGGCCTTGGAAGAACATCTGGAGAGGTTCCTCCAGAACCCCCGAACGCTCTGA	MSRIRGKNTKPELLVRGLLHAKGYRYRLHGASGGTKLPGNPDLVFASRRKVIFINGCFWHFHDCRVGQHAPKANAEFWEAKRTKTRNRDADQRHRLETAGWDVLTVWECELKDRQALEEHLERFLQNPRTL	PGPT0020015_1155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558	NA	NA
D1-17_03113	756	walR_3	COG0745	Transcriptional regulatory protein WalR	ATGGGCGACACACGCGTGGGTTTAGTTATTGAAGACGACCACGATATTCGAGAGCTTGTTCGGGTTGTACTGACGCAGGCGGGATTTGAGGTTACGGCTGCCTCCAGCGGAGCCGAAGGTGTTTTGGCAGCAAGAAATCTGGACCCCGCCGTCATAACCCTGGACCTTGGCCTGCCGGACATCGACGGGTTCGAAGTCGCACGGCAGATCAGGCAGTTCTCCGATGCGTACATCGTGATGCTCACCGCGAGAGCGGAGGAGCTGGATACCCTGATCGGCCTGGAATCCGGAGCTGATGACTACCTCACCAAGCCCTTCCGGCCCAGGGAGCTGCGTGCCCGTGTTGCCGCTATGATGCGGCGCCCGCGTTCAACGCCGGAGCTGGCCGAGGATTCAGCCGCGCCTTCCGCCGGGCCCGATGATTCAAGAAGCTACCGCCACAATGGGCTTGATCTGAGCTACGAGTCCCGGATGGTCGCGGTGGACGGCCAAGAATTGAGCCTCACCCGTACTGAATTTGATTTGCTGCACGCCTTGCTGGAAGCAAACCGCATGGTCCGTACCAAAGCGGACCTGGTGCGCCGGCTGCGCGACGAGCCGTACGACGTCGGAAGTTACATCAGCGAAGCTGACGAGCGGTCTGTCGAGGTGCATATGGGAAACCTCCGCAAGAAGCTTGGTGATTCGGCGCAAAATCCGCGCTGGCTCCAGACCGTGCGCGGCGTGGGCTACCGGTTGGCTCCCGAACAGGACTGA	MGDTRVGLVIEDDHDIRELVRVVLTQAGFEVTAASSGAEGVLAARNLDPAVITLDLGLPDIDGFEVARQIRQFSDAYIVMLTARAEELDTLIGLESGADDYLTKPFRPRELRARVAAMMRRPRSTPELAEDSAAPSAGPDDSRSYRHNGLDLSYESRMVAVDGQELSLTRTEFDLLHALLEANRMVRTKADLVRRLRDEPYDVGSYISEADERSVEVHMGNLRKKLGDSAQNPRWLQTVRGVGYRLAPEQD	PGPT0012985_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
D1-17_03114	1662	sasA_7		Adaptive-response sensory-kinase SasA	ATGAGCAGAAAGGCGAGGAACGAGGCACCGGGCAAGTTTTTGCTCTTCAGCCGGCCCTTCCACGAGTATTCCATGCGGGGCCGGGTGACACTGAGCCAGCTGCCGCTTTCTGTGACGGTAGCCCTGACTGCTTTGCTAATTCTGGTCTACTTCCCGGGAACGCTGCTGAATCCGCTGTTTCTCAGCTTCCTTTTCTCCCAGGCCGCCATCCTGATTCTTTGCTTCGTTATCCCCTGGGAGCGCCTGCCCTATCCCAGCTTCCTCGTGATTCCGATGCTGGACCTCGCCTCGATCGCGCTGGGAAGGGAGGGCGGGCAGGACAGCCTGACCGGCATCAGCCTAATGGCGGTCTTCCCGGTGATTTGGCTCTGTGCGTCCGGGGTATTTCCCCGGACAGCGGTGGCCCTGTCCTTTCTCGCTCCCCTCGGCATCATCTGGGTTCCCCTTCTCATCAAGGGAGACCTCACTGGTCAGGATCTTGCCCGGTCGCTCCTGCTCCCCGTCATGATGCTGGGGATCGGCGTTTCCGTCACTGTCATGACTTTGAGCATGATGCGGCAGCAACGGGACGTAGAGGAGAAGGACAGGCAGCTGCGTAGAGTGCTGGACGCAAGCAAGCACCAGGAGCGGCTCCTGAATACCGTTCTCGACACTGTGCACCTCGGCGTCCTCGCGGTGGATGCAGAGGGGCACGACATCCTGATGAACCGGAAGCAGCGGATCCATCACCTGCTGGCTTCGCCGCCAGACAACCCTGACCCCAACGAGTCCCAGCTGCTCGTCTTCGACCGTGACAGGACCACCCTTGTTCCCGTCGAGCAGCGGCCTGTCCGCAGGGCCATCCTGGGCGAGGAGTTCACCGACTACCTAGTCTGGCTGGGCGTCGGCGACGAACAACGCGCCGTCACGACGAGCGCCAGGCCGATGACGGACCAGGACGGCAACTTCGCAGGCTCGGTCATAGTTTTCAGTGACGTCACAGACCTGGTCAAGGCCCTCGCAGCCAAGGACGAATTTGTGGCCAACGTGTCGCACGAATTCCGGACACCGCTAACCTCGATCCTCGGCTATGTGGAGCTAATGCTGGATGATGAGGCTCTGGGAGACGACGTTCGCGGGCCCCTGGAGATCATCCGCCGGAACTCTGAACGGCTCCTGACCCTCGTTTCCGACCTTCTGTCGAGCCGGACCGGGCAGCTGGTGGTTAATCGCCACGCCGTGGACGTCGCCGAGCTGGTGCGCGCCAGTATCACCTCGGCCCTTCCCCGCGCCACCCAATCCGGGGTCCAGCTGCGGGCCGACGTCCCTGAGCGGTTGGAGGCACACATTGACGCCGCCCGTGTCGCCCAGGTCCTGGACAACCTGGTCTCCAACGCCATCAAGTACTCCCCCGACGGCGGTGAGGTGACAGTTTCGCTGCGGTCCGACGACGGGAACGTCGTATGCAGCGTCAGCGATACCGGCATGGGAATGAGCAAGGAGGACCAGGACGAGGTCTTCACCAAGTTCTTCCGCTCCCAGTCCGTACGCAACTCGGCTATTCCCGGCGTCGGGCTGGGGCTGTCCATCAGCAAAGCCATCGTGGAGGCGCACGGCGGCCACGTTTCGCTGTACAGCGAGGTAGGGCGGGGCACCACGTTCACCTTTGCCGTTCCGGCATGA	MSRKARNEAPGKFLLFSRPFHEYSMRGRVTLSQLPLSVTVALTALLILVYFPGTLLNPLFLSFLFSQAAILILCFVIPWERLPYPSFLVIPMLDLASIALGREGGQDSLTGISLMAVFPVIWLCASGVFPRTAVALSFLAPLGIIWVPLLIKGDLTGQDLARSLLLPVMMLGIGVSVTVMTLSMMRQQRDVEEKDRQLRRVLDASKHQERLLNTVLDTVHLGVLAVDAEGHDILMNRKQRIHHLLASPPDNPDPNESQLLVFDRDRTTLVPVEQRPVRRAILGEEFTDYLVWLGVGDEQRAVTTSARPMTDQDGNFAGSVIVFSDVTDLVKALAAKDEFVANVSHEFRTPLTSILGYVELMLDDEALGDDVRGPLEIIRRNSERLLTLVSDLLSSRTGQLVVNRHAVDVAELVRASITSALPRATQSGVQLRADVPERLEAHIDAARVAQVLDNLVSNAIKYSPDGGEVTVSLRSDDGNVVCSVSDTGMGMSKEDQDEVFTKFFRSQSVRNSAIPGVGLGLSISKAIVEAHGGHVSLYSEVGRGTTFTFAVPA	PGPT0002705_936	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-17_03115	723			hypothetical protein	ATGGAAGATACATCCAGAACCGCTTTACCAAGCGCCGGGGTCTTTCCATCCCGCGGGCTCCAGTCTGACCCGCAGGCCCTGAACTTGCCAGGTGAGGGGCACGAGGTGCGCCCCAGCGAGTTGCCTGCAGCCTCAAGCCCGGGTGCGGCCGCGACCGCTACCAGCCCAGTTGGAATCCGGGAGCGGATCATCGACACGGCTTACGATCTCTTTGCCCGCCGCGGCGTCCGGGACGTAGGTATCAATGAAATCATCAGCCGCTCGGGCGTCGCCAAGGCCACTTTTTACCGCCACTTCGCCTCCAAAGACCAGGTGGTGCTGGCGTTCCTGGAACAGCGCGACCGCGTGTGGACGGTGAACGCAATCGTTGGAGAGGCACGGCGCCGGGGGGACACGCCGGAAGAGCAGCTCCTGGCCATCTTCGACGTGTTCTCCGACTGGTTCCACCGCACGGATTTTGAGGCGTGCTCATTTATCAACGTGCTTTTGGAGATGGGTTCCAGCCATCCGCTTGGACGGGCCAGTATCGATTACCTCGCCAAAATCCGGGGACATGTTCGGCAGCTAGCCGACGAGGCCGGCCTGCAGCGGACCGATGATTTCTCCCGTTCATGGCACATTTTGATGAAGGGGTCCATTATTTCGGCGGCCGAAGGCGACACGGCCGCGGCGCAGCGTGCCCGCCAGCTCGCAGGCTGGCTGATTGAGCACCACCGTACTTAG	MEDTSRTALPSAGVFPSRGLQSDPQALNLPGEGHEVRPSELPAASSPGAAATATSPVGIRERIIDTAYDLFARRGVRDVGINEIISRSGVAKATFYRHFASKDQVVLAFLEQRDRVWTVNAIVGEARRRGDTPEEQLLAIFDVFSDWFHRTDFEACSFINVLLEMGSSHPLGRASIDYLAKIRGHVRQLADEAGLQRTDDFSRSWHILMKGSIISAAEGDTAAAQRARQLAGWLIEHHRT				NA	NA	NA	NA	NA
D1-17_03116	303			hypothetical protein	GTGAGCCAGAATCTAGTCCCCACAGGGCTTCGGCCCTACTCCGCGCCGCTCGCCTCATGGCCGGAATACAGGCAACCCACCAAGGATCCCGAACTGGGGCCAATGCGGCGCCAGGTCATGGCAATCATCTCCTCGATCCTCGATGACGTCAGTCCGGAGACTGCCGCCGTCAGGACCCGCCTCCGAGCACTCCTCGCCCAGCACCCCGGCTGCCCCGAGAAGGCCCTGCTGGAACACCTCCGCTCCATGCAGAGCGACTTCCTCGATGACGCCCAAGACCACTGGGCTCCCGAGCCCGTCTGA	MSQNLVPTGLRPYSAPLASWPEYRQPTKDPELGPMRRQVMAIISSILDDVSPETAAVRTRLRALLAQHPGCPEKALLEHLRSMQSDFLDDAQDHWAPEPV				NA	NA	NA	NA	NA
D1-17_03117	1287			hypothetical protein	GTGCGGGCGGGAGCGCCCGGACAGGGACTATCCGGACAGGGACTATCCGGGCAGGGGTTCCGGCACGTCGTGCTGGATGAATTGTCCGGCGGCATCGTCGAGAAGCTGGATGCCGCCAGCGCTGCGTGCGTCAACTCCAGCGGCCTCGCCAAAGCTTCCCCAATGGGCATGGGTCTGTACCGGATCGAGCCGGTGGGCCTGGTGGGTTCCGTCAGGACTCCGCAGGTGCAGCTCGACGTGCGGCCCAAAGACCGGCTCGGGCTGAGCCGCCTGCTGTTTTTGCTGTGCTACGCCGGTGACCAGGGGTTCCGCGAGGATACAGTTGCAGCCGCTGAAGACCCCGGGCTGTGGAGCGCACTGGCATCGTCCCTGGTGCAGCTCGCCGAACGTGCACTGAAGCGGGGCGTGCTGCAGGGGTACCTTACCGTCGACGAATCCCTCCGGACCGTCAAGGGCAGGATCCGCATCTCGGACCAGATCTCGCGCCGCCCCGGCATGCTGGTCCCTCTTGAGGTGTCCTACGATGAATTCACCGTCGACATTCCCGAAAACCGGATCCTTCGCGCCGCCCTGGAGCGCATGTCCCGCGTCCCCGGTGTCCGTCCCGAGGTGCTGAGCCGCCTACGCCAGCTCAAGGGAAAGCTCGACGACGTCACCCGCCTTCAGTCGGGCGCTCCACTTCCGCCGTGGCACGCCAACCGGATAAATGCCCGCTATCACGCAGCGCTGCGCCTCTCGGAGGTCATCCTGCGCAATGCGTCGGCTGAACCGGGCGAGGGAATGCAGGAGAGCGCCTCCTTCGTGGTGGACATGGACCGGGTCTTTGAGGAATTCGTGGGCAAAGCCCTCCGCCAAGCGATGGCAGCCTTCCCCGGTGAGATGCGGCTGCAGTACAACGCCCTGCTCAATGAGGCCGTCCGGGACTCGGACCGGCTTTCCGTCCGGCCTGACGCGGTGCACCTGCTCGGCGGCCGTCCGGTGGTGGTCTACGACGCGAAATACCGGGCACGCTCTGACCGTGGGGCCTCGCTGTCTGCTGACCACTTCCAGATGCTGGCCTACTGCACCGCGCTTGCGGTCCCGACCGCCTGGCTGGTCTATGCCGGCGCCGGGGAGATGAAGCTTAGAAGGATCCTCAACACGGATATCGACATCGTGGAGTTTCCGCTGGATCTTTCACGGCCGCCGTCGGAAATCCTGGATGCCATCGCTGATCTCGCCGAGCAGTCGTGGGGCGAAGTAGTCCGGCAGGCCCGTGCTGGCCGGCTGACTCACGTTGGCGACTGA	MRAGAPGQGLSGQGLSGQGFRHVVLDELSGGIVEKLDAASAACVNSSGLAKASPMGMGLYRIEPVGLVGSVRTPQVQLDVRPKDRLGLSRLLFLLCYAGDQGFREDTVAAAEDPGLWSALASSLVQLAERALKRGVLQGYLTVDESLRTVKGRIRISDQISRRPGMLVPLEVSYDEFTVDIPENRILRAALERMSRVPGVRPEVLSRLRQLKGKLDDVTRLQSGAPLPPWHANRINARYHAALRLSEVILRNASAEPGEGMQESASFVVDMDRVFEEFVGKALRQAMAAFPGEMRLQYNALLNEAVRDSDRLSVRPDAVHLLGGRPVVVYDAKYRARSDRGASLSADHFQMLAYCTALAVPTAWLVYAGAGEMKLRRILNTDIDIVEFPLDLSRPPSEILDAIADLAEQSWGEVVRQARAGRLTHVGD	PGPT0027245_590	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
D1-17_03118	2232			hypothetical protein	ATGACCCCCAACCCCAAACCTGCCATGCACCGTGCCCTCGGCGTATCCAAGGAAATCGAAGAGGCGGCGTGGTTCGTGCTCGGGGCGGGTCTGCAGGGCAAGCCCTCGGCGCTTGACGGGCGAACCCAGACGTGGACCGCGGATGCCGCCTCGGAGCTGCTTGAACGGCTGGAAAAGGGGGTGGCGGATGCCAAGGCGCCCATGATGACCAACCTTCGGCACAACCTCGCGGACGCCTCCAGGCCGGCGAAGCAGCTTGCCGTTGAACTGCTGTTCCTGCAGTCACTGCCGCTGGCCCACGAGGTGAAATCGCTGAAAGTGAAGCGAGCCCGTGTGGCCGAGGCTGCGTCGTGGCTGGAGCCGCCCCTTGAGCTCCCGGACGAGCTGTACAAGGGCATGACCGACCACGGCGTAATCCGGGACCGCACGGCCGAATTCAACTGGACCATCTGGGACCACCTCATGTGGCTCTGCAGGTTCGTCCGCCACGTGGACCAACAGTCCACTGCTGTGATCACCAAGGCGCTGAAGGATCCGCTGGCCTTCCACGCCCTCGCCGCTGGAACTCCGGACGACCAGCCGGCCATCCGGCGCAGCATTGAGTTCCTGACTTGGCCGAATTTTTTTGAACCGGTTGTGGCCGACGTCGAGCGGCGGGAGATCCGGGACGCCTTCGCATCGCTCGTGGGCGGCGCCAAGGGCGACAGTGACGAGGACATCACAGCCGACATCCGCCGCATCCGCCTGCACCTGGACGAGCAGGCCGGCCAGCGCATCGACTGGTACTCCCGGCAGCTGGTGAGCCAGTGGCGCAAGGTGGGCGATCCGGGCCGCCGTGCCTGGCTGCTGCGCACCCACCATGACAATGCCGAACTCCTGACAGCCTGGCAGGCCGAGGAAAAGGTGACGCTCGACGTCGAGCATCTCCGACTGCTGGACGCAGGCGTCACAGCCGGAGTGGTCCAGCACGCCGTGGACGAGGATTACAAGCACCTCGGCTATGTGGAACGCGAGGACACCAAGACCGCGGTTTTCGCGTTTCTGACCGTCATGAAGCCCGGCGACCTCGCGCTGTACCAGAACGCCGGCGCCGTCCGCATCGGCGTCGTCCTCGGCGAGCCGGACCACAACGCCGACAACCGCCGGATGCGCCGGAAGGTGCGCTGGTTCGACGAGGCTCATGGCATGGCCGACCTGCCGCGGCACGTGCAGCGTCAGCTCGCGACACCGGGGATCGTGGTTGACGTGACGCGCGTCGTGCAGGCGCTGGAGGCGCTGGTCCCGGCGGAAGCGGAAGCAGAGCCCGACGGCGGCACGGAACCTGCCGCCGTCGTTCTGCCCGCCCCGGGCGGGTTCCGCCCGCTGAGCGGCCACTTCGCCGAGTCGCTCCACATGGATCTGGAGCCACTGCAGGAAATTGCGGACCTGCTGGAGGAAAACCGGCAGTTGGTGCTGTACGGCCCGCCGGGCACCGGAAAGACCTACCTCGCCAAGCACCTCGCCGCCGAACTCGCGCAGGACAGCACTGACGAACGGGTGAAGCTGGTGCAGTTCCACCCGTCCTACGCCTATGAGGATTTCTTCGAGGGGTACCGGCCGGACAAGACGGACGAGGGCCAGGTGTCCTTCAAACTGGTGGCCGGGCCGCTGCGCCGGCTCGCCGAGGAAGCCGCCAAGCCGGGCAATGAGTCGAAGCCGTACTTCCTGATCATCGACGAAATGAACCGCGCCAACCTGGCCAAGGTCTTCGGCGAGCTGTACTTCCTGCTCGAGTACCGGGACGACCGGATCTACCTGCAGTACAGCCCGAATGAGCCGTTCACGCTCCCCGACAACCTCTACATCATCGGCACGATGAACACCGCGGACCGCTCCATCGCCATGATGGACGCCGCCATCCGCCGCCGCTTCGCGTTCATCGAGCTGCACCCCAAGACGGAACCGGTGAAAGGCTCGCTCTTGCGCTTCCTCGAGGCACGGCAGCTGGACACCACACCGGCGCTGCTGCTGGATGCGCTGAACGACTCCATCGATGAATGGGACCGCGACCTGATGATCGGACCGTCGTACTTCATGAAGAAGGCTGCCCAGACTCCTGCAGGGCTACGCCGGATCTGGAAGTACGAGCTCATGCCGCTGCTGGAGGAGCACTACCACGGCCAGCTGACCCGCGCCCAGCTGGAGGAACGGTTCGGGCTGGACCAGCTGATGGGACGCCTTGCAGTCCGCTAG	MTPNPKPAMHRALGVSKEIEEAAWFVLGAGLQGKPSALDGRTQTWTADAASELLERLEKGVADAKAPMMTNLRHNLADASRPAKQLAVELLFLQSLPLAHEVKSLKVKRARVAEAASWLEPPLELPDELYKGMTDHGVIRDRTAEFNWTIWDHLMWLCRFVRHVDQQSTAVITKALKDPLAFHALAAGTPDDQPAIRRSIEFLTWPNFFEPVVADVERREIRDAFASLVGGAKGDSDEDITADIRRIRLHLDEQAGQRIDWYSRQLVSQWRKVGDPGRRAWLLRTHHDNAELLTAWQAEEKVTLDVEHLRLLDAGVTAGVVQHAVDEDYKHLGYVEREDTKTAVFAFLTVMKPGDLALYQNAGAVRIGVVLGEPDHNADNRRMRRKVRWFDEAHGMADLPRHVQRQLATPGIVVDVTRVVQALEALVPAEAEAEPDGGTEPAAVVLPAPGGFRPLSGHFAESLHMDLEPLQEIADLLEENRQLVLYGPPGTGKTYLAKHLAAELAQDSTDERVKLVQFHPSYAYEDFFEGYRPDKTDEGQVSFKLVAGPLRRLAEEAAKPGNESKPYFLIIDEMNRANLAKVFGELYFLLEYRDDRIYLQYSPNEPFTLPDNLYIIGTMNTADRSIAMMDAAIRRRFAFIELHPKTEPVKGSLLRFLEARQLDTTPALLLDALNDSIDEWDRDLMIGPSYFMKKAAQTPAGLRRIWKYELMPLLEEHYHGQLTRAQLEERFGLDQLMGRLAVR	PGPT0027240_293	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
D1-17_03119	243			hypothetical protein	GTGGCACGAAAGAAGAAGTCCTGGAAGGAGCTGCCCCCGGCAGCCCGCTTTGGCACCGTTCTGGTGGGAGTTGCCCAGCTGGCCTACCTTACTGCAGCCCAGCGCGATATTTCACGCCGTCCGGCTGAACAGATCCGCGGCTCCAAGACGCTCTGGCGGTTCGCCACGCTGGTCAATTTCATTGGTCCCGGCAGCTACTTCGCATTCGGCCGGAAGAGGCTGCCGAAGCCTGCCGGCAAGTAG	MARKKKSWKELPPAARFGTVLVGVAQLAYLTAAQRDISRRPAEQIRGSKTLWRFATLVNFIGPGSYFAFGRKRLPKPAGK				NA	NA	NA	NA	NA
D1-17_03120	516			hypothetical protein	ATGCAGGCGCCAGGGGCCGCGGCTTCACAGGTGGTGGCCAGGGCTTCCCGACGCATCGAGGTGCATGTGCCGATGCGCTGGGGCGACATGGACGCCTATGGCCATATCAACAACGTCCAGATCGTCCGCATGCTGGAGGAAGCACGCATTGCCGCCTTCGGCCCGCCCCGCGGCGCCGGGCTGCCGGGCGTGGAGCCGCAGGTGTCGTTGTTCAATGACGTGCCGGAGGGCACCATGGCGCTGATCGTGGACCACCGGATCCGTTACGTCCGGACGCTGGAGTACCGCAACATCCCCGCTCTGGTCCAGGTGTGGATCGGCGCCGTCAAAGGCGCCAGCTTCGACATCCACTACCTTGTGCAGGACCCCGTAACTCGCGAGGATTGTGTGAAGGCCTCGAGCCACCTCGCGTTCGTCGACGAAGCCAGCGGGCGGGTGTTGAGGCTGACGCCGGAACAGAAAGAGCGCCTCGCGCCCTATATCGAACACAGGCCCGCCGAACGCAAGGAGCACTGA	MQAPGAAASQVVARASRRIEVHVPMRWGDMDAYGHINNVQIVRMLEEARIAAFGPPRGAGLPGVEPQVSLFNDVPEGTMALIVDHRIRYVRTLEYRNIPALVQVWIGAVKGASFDIHYLVQDPVTREDCVKASSHLAFVDEASGRVLRLTPEQKERLAPYIEHRPAERKEH	PGPT0001850_2407	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-17_03121	147			hypothetical protein	ATGGAGAACGGAAAAATAGTCGAGCCGGGCAACCATCAGGTGCTGCTTACTGCAGAAGGCACCCGCTACCGTCTGTACATGTCGCAGTTCGCCGGCGGCCGGGTTGAGGAAATGCCCGTGGACGGTTCGACGGCGGTGTTCAGCTGA	MENGKIVEPGNHQVLLTAEGTRYRLYMSQFAGGRVEEMPVDGSTAVFS	PGPT0029030_67	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
D1-17_03122	1671	ilvI	COG0028	Acetolactate synthase isozyme 3 large subunit	GTGACCGGCCTCCGCAATGGCGGGGACCTCGTCGTCGAAACCCTCGAAGCGCTCGGTGCAAAGACCGTCTTCGGCATTCCAGGCCAGCACGCGCTGGGCCTGTTCGACGCGATGGGCCGGGGCAACTTAAAGTTCGTGTCCTCCCGCGTCGAAAACAACAGCGCCTTCGCTGCAGACGGGTACTCACGTGCCACCGGGGAAGTGGGCGTGCTGTTTCTGTCCACCGGGCCGGGGGCGCTGACCTCCCTCGCCGGGCTGCAGGAAGCATATGCCACCGGAGTGCCGATGGTTGTGGTCGCGAGCCAGATCCCGCTGGAAGGACTGGGGGCGCGCCGCAAGGGAATGCTGCACCAGCTCGATGACCAGAAGGCCTCGGCCGCGAACGTCACAAAAAGCCAGCGCCTCATCCAGCACGCGTCCGGCATCCCGTCGGCCATCCAGGATGCCTGGACTGAAGCCATCTCGTCACCGCAGGGCCCGGTCTGGATCGAGATCCCGCAGAACGTCCTGCTCGACCCCATCATGGTGCCGCGGGTGGAGGACGCCCTTGCCGAAGCGGCTGACAACCCGCCCCGCGTCGAGCTGGTCCGGGAAGCCGTCAAATGGCTGTCGGCAGCAGAGCGTCCCGCCATCATCGCCGGCGGGGGCACCCGCCGCGGGCGGGCCGAGAAGTCTTTGCTCTCCATCGCCGAGAAGCTGCGGGCGCCGGTCATCTGCACTCCCGGCGGCAACGGCGCATTTCCCTGGAACCACGAACTGTCGTTGCAGTCCTGGATCGAGGACCGGTACATGACAGACGTCCTCGAGGACGCAGACGTGCTGATCGTTATCGGGTCCTCCCTGGGCGAGGTCACCTCCAACTACTTCACGTTCGAGCCGCGCGGCCGGATCATCCAGATCGACGCCGAACCCAGGGTGCTTGAATCAAACCGGCCGGGGCTGGGGATCCGCGCTGACGCCGGCCAAGCGCTCGCAGCACTGGATGAAGCCCTGACTGCGGCCGGTCCCGGTGAAAGGCGCCCCAACTGGCGCGGCAAGACACCGGAAGAACTTGTTCGGGACTCCCTGACGAAGGTGCGTGACCGGCTGGAGTCGCAGGACCTCGGCAAGGAGCTGAAGTTCATGGCCGACATCCTGGAGGCGGTTCCCGCGGACATGCAGACCTTCTGGGACATGACGATTTCCGCCTACTGGGCCTGGAGTTGCTGGGATGCCCGGGAGGGGCAGTTCCATTCCGCCCAGGGCGCCGGCGGCCTGGGCTTCGGGTTCCCCGCAGCGATCGGGGGAGCGGTGGGGCTGGAAACCGTGGGCAAGACGGGTGCTTCCGCACGTGTCCTTGCAGTCTCGGGCGACGGCTCCGCCATGTACTCCATTTCGGAACTGGCCACGGCGAAGCAGCACAATGTGCCCGTCACATGGCTGATCGTGGATGACGGCGGCTACGGCATCCTGCGCGAGTACATGGTGGGCGCGTTTGGCAAGGCGACAGCCACCGAACTTGCCCGGCCGGATTTCGTAAAGCTCGCCGAAGCCTTCGGCGTCCCGGCCACCCGTGTTGCGCCACAAAACGTGGGGGACGCGCTCAAGGCGGGCTTCGCCGCGGACGGCCCGAACGTCGTCGTCGTCGAAACCCTCCTGAAGATGTTCGCACCCACCCACCTGACCGCCTAA	MTGLRNGGDLVVETLEALGAKTVFGIPGQHALGLFDAMGRGNLKFVSSRVENNSAFAADGYSRATGEVGVLFLSTGPGALTSLAGLQEAYATGVPMVVVASQIPLEGLGARRKGMLHQLDDQKASAANVTKSQRLIQHASGIPSAIQDAWTEAISSPQGPVWIEIPQNVLLDPIMVPRVEDALAEAADNPPRVELVREAVKWLSAAERPAIIAGGGTRRGRAEKSLLSIAEKLRAPVICTPGGNGAFPWNHELSLQSWIEDRYMTDVLEDADVLIVIGSSLGEVTSNYFTFEPRGRIIQIDAEPRVLESNRPGLGIRADAGQALAALDEALTAAGPGERRPNWRGKTPEELVRDSLTKVRDRLESQDLGKELKFMADILEAVPADMQTFWDMTISAYWAWSCWDAREGQFHSAQGAGGLGFGFPAAIGGAVGLETVGKTGASARVLAVSGDGSAMYSISELATAKQHNVPVTWLIVDDGGYGILREYMVGAFGKATATELARPDFVKLAEAFGVPATRVAPQNVGDALKAGFAADGPNVVVVETLLKMFAPTHLTA	PGPT0008185_5514	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008185-budB|ilvK|alsS|ilvB|ilvG|ilvI-K01652	NA	NA
D1-17_03123	1068	gbh		Guanidinobutyrase	TTGGAAGAGCTGCGCATCGAAGCCAACGGCAATCTTGGCCCCATGGATTCATCCCGTATCCCCCGCTACGCAGGCGCTGCAACTTACGCCCGGCTGCCCCGACTGGACCAGGTATCCCATGCCGACATCACCGTGGTTGGCGTCCCCTTCGACTCCGGCGTTTCCTACCGCCCCGGCGCCCGCTTCGGCGCCAACCACATCCGCGAGGCCAGCCGGCTGCTCCGGCCGTATAACCCCGCTTGGGATGTCAGCCCTTTCGAAAACTGCCAGGTGGCGGACGCCGGCGATATGGCCGTGAATCCGTTCAATATCAACGAGGCCATCGAGACCATCCAGCACAACGCCCTGGAGCTGACCGCATCGGGCAGCAAGCTGGTCACCCTCGGCGGGGACCACACCATCGCGCTGCCGCTGCTGCGTGCCGCAGCCGAACGCGCCGGCGGGCCCATCGCCATGCTGCACTTCGACGCACACCTGGACACCTGGGACACCTACTTCGGTGCGGAATACACCCACGGGACTCCTTTCCGCCGGGCCGTGGAGGAGGGCATTCTGGACACTGATGCCATCAGCCACATCGGCACCCGCGGCCCGCTCTACGGCAAGAAGGATCTCGACGACGACCACCGCTTCGGCTTCGGCATCGTCACCTCAGCCGACGTTTACTACCAAGGCGTCCTCGAGACCGTGGCCAAGGTCAGGGACCGCATCGGCAGCCGCCCCCTGTACATCTCCGTCGACATCGACGTGCTTGACCCGGCGCACGCGCCCGGAACCGGAACGCCGGAAGCCGGCGGAATCACCAGCAGGGAACTGCTCGAGATCCTCCGGGGCTTCCGCGGCATGAACCTTGTCGGCGCCGACGTCGTCGAAGTTGCCCCCGCCTACGACCACGCGGAAATCACCGGCGTCGCCGCCAGCCACGTCGCCTACGAACTTGTCACGCTCATGGCCGACAATGCCGTCGAAGGCAGCCGCCTCGGTGCCGACACCGGTTACGCAGCCCAGGCGCTGGGCCAGGAAGCCCGCCGGCCGGCCGGTTTCGCTAATCCGGTGGCCTCACTGTGA	MEELRIEANGNLGPMDSSRIPRYAGAATYARLPRLDQVSHADITVVGVPFDSGVSYRPGARFGANHIREASRLLRPYNPAWDVSPFENCQVADAGDMAVNPFNINEAIETIQHNALELTASGSKLVTLGGDHTIALPLLRAAAERAGGPIAMLHFDAHLDTWDTYFGAEYTHGTPFRRAVEEGILDTDAISHIGTRGPLYGKKDLDDDHRFGFGIVTSADVYYQGVLETVAKVRDRIGSRPLYISVDIDVLDPAHAPGTGTPEAGGITSRELLEILRGFRGMNLVGADVVEVAPAYDHAEITGVAASHVAYELVTLMADNAVEGSRLGADTGYAAQALGQEARRPAGFANPVASL	PGPT0007775_608	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007775-speB-K01480	NA	NA
D1-17_03124	576	puuR		HTH-type transcriptional regulator PuuR	ATGAAGGCACTTCCAGTTGAGCCGAGCAATATTCCGGTTGCCATCGGTTCAAGAATCCGTGCCGCCCGCCAATCGCAGCGGCTCACGATCGAACAGGTGGCGGACGCCACCGGGCTGACCAAGGGTTTCCTGAGCCGCGTGGAACGTGACCTGACGTCGCCGTCGGTGGCCTCCCTCGTGACCCTGTGCCAGGTGCTGTCCATCTCGATCGGCGACCTGTTCGCTGCCCCGGAGACTCACCTGACAAAGCGCAACGCCGGTCCCCGTATCTCGCTCGGAGGCGAAGGTATCGTTGAGCGGCTGCTGACCGCACGGTCCGAGCGGCGGGTCCAGGTCATTCAGGCCGTCATCGAACCGGAGGGGCGAGGCGAGTCCGAGCTTTACGCAGTGGACTGCGACGTCGACGTGCTGCACGTTATCAAAGGCAGCATCAAGCTCATCCTTACCAATGAGGAGTACGAGCTTTCTACCGGCGACACCGTGACGTTCCCGGGCCGCGAACCGCACACCTGGGTGAACCCGACGAGCGAATCCGTCGAGGTGCTCTGGGTCCTGGTGCCCGCTGCCAGCAGGTAG	MKALPVEPSNIPVAIGSRIRAARQSQRLTIEQVADATGLTKGFLSRVERDLTSPSVASLVTLCQVLSISIGDLFAAPETHLTKRNAGPRISLGGEGIVERLLTARSERRVQVIQAVIEPEGRGESELYAVDCDVDVLHVIKGSIKLILTNEEYELSTGDTVTFPGREPHTWVNPTSESVEVLWVLVPAASR				NA	NA	NA	NA	NA
D1-17_03125	231			hypothetical protein	ATGAACACCACCGGAGCACGTCCCGAGCCTGCCCGCCACACCCTCGAATCCGATCCCGCCTACGACTTTGCCGAGGACACCCCGGTAGAGGAAGACTGGGACGCCGAAGACGAGTTCCTCGATTCCGAGGAACGCGTCGTTCCCGCCGTGCCGGAGGCGGCGGACGACGACGAGCGGGTCGTTTCGCTGGACACAGACGAGTTCCGTGACGACGAGGAATATGATCGCTGA	MNTTGARPEPARHTLESDPAYDFAEDTPVEEDWDAEDEFLDSEERVVPAVPEAADDDERVVSLDTDEFRDDEEYDR				NA	NA	NA	NA	NA
D1-17_03126	1131			hypothetical protein	GTGTCCCAGCACGCCAGATCTGACCAAGCCTTCCAAGCCGATACCAGCGCCGCCCCGGCCCCGGCAGACATCAGGCGCTGGCGCCAATACCTGGCCGACGAGCGCGCAGAAGCCGCCGTATACCGGGACCTGGCGCAGAACCGCTCGGGCGAAGAACGCGCGATTCTCCTTGCACTCGCCGCGGCAGAGGGCCGTCACGAAGCACACTGGCTCAGACTGCTCGGCGAACACGCAGGCAAGCCCCGCCGCGCCTCGGCCCGAAGCCGCCTCCTGGGATTCCTTGCCCGGCATTTCGGATCTGTTTTCGTGCTGGCCCTGGCTCAGCGGGCAGAGGGCCGCTCCCCTTACCTAAAGGAGCCGTCCGCCACGCCGGCCATGGCAGCGGACGAGCAGATTCACGAAGAGGTGGTGCGGGGTCTTGCCACTCGTGGCCGCAACCGCCTTGCCGGCAGCTTCCGTGCCGCCGTGTTTGGAGCCAACGACGGCCTGGTCAGCAACCTCGCCCTCGTCATGGGTATGGCCGCGACAGGCGTCGCCAGTTCAGTCGTGCTGCTCAGTGGCATCGCGGGCCTGCTGGCCGGCGCCTTCTCCATGGGGGCCGGCGAATTCGTCTCTGTCCGCTCCCAGCGCGAGCTGCTTGCCGCCACTCGGCCCACGCAGGTCACGCTCGCCGCGGCACCGCAGCTCGACATCGAACACAATGAGCTCCTGCTTGTGTACCTGGCCCGGGGCATGTCCCGGGAAGCAGCTGAGCACCGGGTCGCGGAGCGGATGGGCCGCTTCAGCTGCGACTGCGACCCCAGCCTCTCACTCCGGCCCGAGCTGCCCGCATCCGATGATGAGCACGAGGCCGTGGGTACGGCATGGGGTGCTGCGCTGTCCAGCTTCTGCTTCTTTGCATCCGGCGCGGTCGTCCCCATCCTCCCCTTCGTCTTCGGCATGACCGGCCTCGCGGCGCTCGTCGTAGCCGCTGCCCTGGTGGGCGTGGCGCTGCTGGCGACTGGCGCCGTCGTCGGCCTGCTGTCCGGCACCTCTCCCCTGACCCGCGGCCTGCGGCAGCTGGTGATCGGCCTGGGCGCCGCCGGCGTGACCTACTTGCTGGGCATGGCCTTTGGCGCGGTGATCGCCTAG	MSQHARSDQAFQADTSAAPAPADIRRWRQYLADERAEAAVYRDLAQNRSGEERAILLALAAAEGRHEAHWLRLLGEHAGKPRRASARSRLLGFLARHFGSVFVLALAQRAEGRSPYLKEPSATPAMAADEQIHEEVVRGLATRGRNRLAGSFRAAVFGANDGLVSNLALVMGMAATGVASSVVLLSGIAGLLAGAFSMGAGEFVSVRSQRELLAATRPTQVTLAAAPQLDIEHNELLLVYLARGMSREAAEHRVAERMGRFSCDCDPSLSLRPELPASDDEHEAVGTAWGAALSSFCFFASGAVVPILPFVFGMTGLAALVVAAALVGVALLATGAVVGLLSGTSPLTRGLRQLVIGLGAAGVTYLLGMAFGAVIA				NA	NA	NA	NA	NA
D1-17_03127	978			hypothetical protein	GTGCGGGACGCCGGGCACCGGCCGTCAGGGCGTCATTCGGGACAGGCCAACGCCGCCCGCCGTTTCATGGGCTACCTCGTCCTGGTGGCGGTGGTTGGATGCGGAGCCTTCCTCACCGCGGGTCTGGCTTATGGCGGCCCGCGGCTTGCTGCACTGCTGGACTTCCGGCTGGATCCTGGAAATGCGGGCACGGGAAATGACAGTTCCGGTCCCTTCGGCGAAGGTACTGCAGACGGCGAGACCGGACGGACGCACGAATCCGGCAGGGCGGGCGGGCCCGGCGGTGAGCTGGCCACGAACGGCGCGGCCCACGCCCCGCCGCCCGGAGTAGAGGAAGCGGCAGAGCCGCTGGGCACGCCGCTGCCTCCTCCGGCGCCGAGCAGTTCATACAAGTTTCTCGCCATGAACGACGACGGCACCCCCGTGGGTTATTCACCCTGCCGGCCGCTGCACTATGTCATGAATGCCGACCTCGCCCCCGCAGGCGCGGAGGGCCTGGTCCACGAGGCCATCAGGACGATGTCGCGGGCGACGGGCATCCGCTTCATCAGCGACGGCGCCACCCGTGAGCAGCCTTCCGACCAGCGCGACCCCTACCAGCCGGAGGCCTACGGCGAGCGATGGGCTCCGCTGCTCATCAGCTGGACCACGCCCGAGGCCGCTCCTCAGCTCAAAGGGCAGATCATTGGCACCGGCGGCAGCACGCACTTCAGCTACGAGGGCGGGCCCAAGAGCTTCGTCACCGGAAGCCTCGAGCTCGACGCGCCTCAGATTGGCGTCGGATTGCACCGGCCCGACGGCTCGGCCTACGCCAGGGCCGTCATCCTGCACGAGCTCGGCCATGTCATGGGGCTCGAGCATGTCGGCGATCCGGTCCAGCTGATGTATCCGGAAATCGGCACGCCTGACGGCCTTGCCGCCGGGGATCTCAATGGCCTGCACGCCTTGGGGAGCGCTCCGTGCCGGAAGGATCTCTAA	MRDAGHRPSGRHSGQANAARRFMGYLVLVAVVGCGAFLTAGLAYGGPRLAALLDFRLDPGNAGTGNDSSGPFGEGTADGETGRTHESGRAGGPGGELATNGAAHAPPPGVEEAAEPLGTPLPPPAPSSSYKFLAMNDDGTPVGYSPCRPLHYVMNADLAPAGAEGLVHEAIRTMSRATGIRFISDGATREQPSDQRDPYQPEAYGERWAPLLISWTTPEAAPQLKGQIIGTGGSTHFSYEGGPKSFVTGSLELDAPQIGVGLHRPDGSAYARAVILHELGHVMGLEHVGDPVQLMYPEIGTPDGLAAGDLNGLHALGSAPCRKDL				NA	NA	NA	NA	NA
D1-17_03128	1134			hypothetical protein	ATGAATCCCTCCGGCAACCTCAACCCGAGCCCGCGGACCCTCGATATTGAAAGCCTGGTCGGCTTCGACCAGCTGGTTCGGACCGGAGCGAAAAGCATGCACGGCTGGCACGCCCAGTCGCTCGACCTGCGCGGACGGGCATCTGCGCTTGCAGAAATGGACGCCGAAGGCGCCATCTTCCTCGGCTGCACGTTTGATCCCGGCGTGGAGGATGCGTTGCGCCGGCGCGGCGCCCTCATCTTTCCCAAGCTGACCGGCGTACCCTTCGACGCCTACCGCGGGGAGCTCTATACGCCGCAGGAGCTTTACGCCGGCATCCGGGACGCCCCCTACGAAAAGTCCCCGGATGCGCTGGTGTATCAGTGGAGCATCCAGCCCGGGCAGCGGCACCGGCTCGACGCCACGCTCGCCGCTGCCCTTCACGACCATGCCATCGGCGACGCCCTGGAAGAACTGTCCCACTCCGTGCGCAGCGAGGGACGCCCGATTGTCGGGGTAATGGGCGGCCACGCGGCGCAGCGAGGAAGCCTCGACTTTGCCGACGCCGCGAAGCTGGGCAGACTCCTGACCCTCAGCGGGCGGATGGTGGCGACCGGCGGGGGTCCGGGAGCCATGGAGGCGGCAAACCTCGGCGCTTACCTCAGTGAATGTCCCGACAATGATGTCCTGGACGTCCTCGCAGAACTGGCCGCCGTCCCGGGCTTCCGGCCCTCGGTGTCCGCGTGGGCGCGGGCGGCGGCAGCCGTCGTCGACCGTTTTCCTGACGGCGCGGCGTCGGTGGGCATTCCGACGTGGTTTTACGGGCACGAGCCGCCCAACTATTTCGCGACGCACATTGCCAAGTACTTCACGAACGCCGTCCGGGAAGCCATCCTCCTGGAGCTCTGCAACGGCGGGATCGTGTTCCTGCCCGGCGCGGCGGGAACGGTGCAGGAGATCTTCCAGGATGCCTGCGAGAACTACTACGGCGCGCCTGAGACCATGACCCCCATGGTGCTGGTGGGCCGGGACTACTGGGAACACCGCTACCCGGCCTGGCCGATGCTTCAGCGCCTCGCGGCAGGGCGGGCCATGGAGGAGTGGATATTCCTGGTCGACAGCGTGGATGAGGCAGTTGCCGTCTTGGGCGGGTGA	MNPSGNLNPSPRTLDIESLVGFDQLVRTGAKSMHGWHAQSLDLRGRASALAEMDAEGAIFLGCTFDPGVEDALRRRGALIFPKLTGVPFDAYRGELYTPQELYAGIRDAPYEKSPDALVYQWSIQPGQRHRLDATLAAALHDHAIGDALEELSHSVRSEGRPIVGVMGGHAAQRGSLDFADAAKLGRLLTLSGRMVATGGGPGAMEAANLGAYLSECPDNDVLDVLAELAAVPGFRPSVSAWARAAAAVVDRFPDGAASVGIPTWFYGHEPPNYFATHIAKYFTNAVREAILLELCNGGIVFLPGAAGTVQEIFQDACENYYGAPETMTPMVLVGRDYWEHRYPAWPMLQRLAAGRAMEEWIFLVDSVDEAVAVLGG				NA	NA	NA	NA	NA
D1-17_03129	777	fabG_8		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGCTCAACCACTCCCTTCCCCGCAGACCGCACGGTCGTCCTGACCGGCGCTGCCTCCGCCCGCGGCATCGGCCGTGCCGCTGCTGACCGCATGGCCAGCGAAGGCTGGTCCATCGCTATCCTGGACATCAACGCCGAGGACGCGAAGGCCGCTGCCGCAGAGATCGGCTCCAACCGTGCGGTAAAGGCGATCGGTGTCGGCGCGGACGTTTCCGACGAAGCGTCCGTGGACCGGGCCATCACCGAGATCGAAGAGTCCCTGCCGCCGATTGTGGCACTGGCCAACCTTGCAGGCATCAGCTCGCCGACCCCCTTCATGGAAACCACCGTTGCCGAGTGGGACAAGGTCTTCGCCATCAACATGCGCGGCACCTTCGTGGTCTCCCAGCGCGTCCTCAAGGGCATGATCGAGCGCAAGCTCGGACGCATCGTGAGCATCTCCTCGATCTCGGCACAGCGCGGCGGCGGCACCTACTCCAAGGTTGCCTACAGCGCCTCCAAGGCCGGCATCATCGGGTTCACCCGTGCTTTGGCACGCGAAGTCGGGGAGTTCGGCGTCACCGTGAACGCCATCGCCCCGGGCCCCATTGATACCGACATCATGGGCGGCACCCTGAGCGAGGAGCGTAAGGCGCAGATGTCCGAAGGCATCATGATGGGCCGTGTCGGAACCCGCGAGGAAGTGGCTGCGCTCATCTCCTTCCTGCTGGGTGCGGACTCCGGCTACATCACCGCCGCCACGTACGACATCAACGGCGGGCTCCAGGTTTCCTAA	MSSTTPFPADRTVVLTGAASARGIGRAAADRMASEGWSIAILDINAEDAKAAAAEIGSNRAVKAIGVGADVSDEASVDRAITEIEESLPPIVALANLAGISSPTPFMETTVAEWDKVFAINMRGTFVVSQRVLKGMIERKLGRIVSISSISAQRGGGTYSKVAYSASKAGIIGFTRALAREVGEFGVTVNAIAPGPIDTDIMGGTLSEERKAQMSEGIMMGRVGTREEVAALISFLLGADSGYITAATYDINGGLQVS	PGPT0005315_271	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CYCLOHEXANECARBOXYLIC_ACID_DEGRADATION,PGPT0005315-badH-K07535	NA	NA
D1-17_03130	1371	ttuB_1		Putative tartrate transporter	ATGACTTCATTAACCACAAAGTCCTCGGGACTCGGCGAGCTTGGCGACCGCACTCTCCGCAAAGTCCGCCGCCGCGTCATGCCCCTGATCGTGCTGCTGTACTTCATCGCTTACCTGGACCGGAACAACGTCGGTTTCGCCAAGCTGACCATGAGCGAGGACATCGGCCTGAGCGCTGCCGCCTATGGCTTGGGCGCGGGCATCTTCTTCCTCGGCTACGCACTCCTCGAGGTGCCCAGCAACGCCGGTATGTACAAGTACGGTGCCCGCAAATGGCTGGCCCGCATCCTGATCACCTGGGGCATCTTCGCCACGGCGATGGCCCTGGTCAACGGTGAATCCACCTACTACATCATCCGGTTCCTGCTCGGTGCCGCTGAAGCCGGCTTCTTCCCGGCCATCCTCTTCTACCTCACCCTGTGGTTCCCGGCCGCGCAGCGTGTCACCGTCCTGGGCATCTTCATCCTGGCCCAGCCCATCTCCAACGCCTTGGGCGCACCGGTCTCCGGACTGCTCCTCCAGATGGACGGCATTATGGGCCTGCACGGTTGGCAGTGGCTGTACATCATCGAAGGCATCCCCGCCATCCTCCTCGGCGTGCTGACCCCCATCCTCATGACGGACCGCCCCCGTGACGCCAAGTGGCTCAATGCCGATGAGCGCGAATGGCTCACCACCACCATGGAGGCCGAACTCGCAGCAAAGTCCAAGGGCGGCAGCCACAACTTCCTGGCCGGCCTCAAGGACAAGCGCACCATCGTCTACTCGGCACTCTACTTCGGCCTCGTTTGCGGCATCTACGGCCTCGGACTCTGGATGCCCACGATCGTTGCCGCCCTCGGCAAGTTCTCCACCGCCCAGGTCGGGTTCATCGTCCTCATTCCGTACGCCATCGCAGCCGTCTTCGTATATTTCTGGAGCAAGCGTGCCGACAAGACGGGCAAGCGTGCCTGGCACAGCTCCGTCAGCATGGTGCTCGCCGGTGTGGGTCTGCTGTCCGCAGGCTACCTGCTCCAGGTCAACCCCATCCTGGCCCTGATTGCACTCACCGCCGCGGCCATGGGTATCTACGGTGCCATCGCCCCGTTCCTGTCCATGCCATCCGCAGCACTCACCGGTGCAGCAGCAGCCTCCGGCCTGGCCATGGTGAACTCGCTGGGCAACCTTGGAGGCTTCGTTGCCCCTTATGCCGTCGGTCTGTTCAACGACGCCACCGGCAGTAACCAGAGCGGCCTGCTGTTCCTCTCCTTCTGCCTGTGCACCACCGCGGTAGCCACCTACCTCTACGCCCGCAAGCGTCCCGAGGGGGACGCCGCCCTGGATCCCGCTGTCGAGGCAGCTGCCAAGGTCGAAGTCGAAGTCACCCGCTAA	MTSLTTKSSGLGELGDRTLRKVRRRVMPLIVLLYFIAYLDRNNVGFAKLTMSEDIGLSAAAYGLGAGIFFLGYALLEVPSNAGMYKYGARKWLARILITWGIFATAMALVNGESTYYIIRFLLGAAEAGFFPAILFYLTLWFPAAQRVTVLGIFILAQPISNALGAPVSGLLLQMDGIMGLHGWQWLYIIEGIPAILLGVLTPILMTDRPRDAKWLNADEREWLTTTMEAELAAKSKGGSHNFLAGLKDKRTIVYSALYFGLVCGIYGLGLWMPTIVAALGKFSTAQVGFIVLIPYAIAAVFVYFWSKRADKTGKRAWHSSVSMVLAGVGLLSAGYLLQVNPILALIALTAAAMGIYGAIAPFLSMPSAALTGAAAASGLAMVNSLGNLGGFVAPYAVGLFNDATGSNQSGLLFLSFCLCTTAVATYLYARKRPEGDAALDPAVEAAAKVEVEVTR	PGPT0002325_73	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-17_03131	708	pdhR	COG2186	Pyruvate dehydrogenase complex repressor	ATGGGTCGCAGGACGCTTGTTGACCACCTTGTGGACGGCCTGCTGGATGACATCCTCGACGGCAGGCTGAAGCCCCATGATGCCCTGCCCCCGGAATCCGATATCGCCAAGATTTATGACGTCAGCCGGCTGACGGTCCGGGAAGCACTCAAGGCGCTGCGGGCACAGAACATTCTCTATGTGAAGGCCGGCCGCGGAACCTTCGTCAACCCCGCGGAAAACTGGACCGGTCTGGATGCGATCATCAAGGCGGCATCGCACGGCAATGCCGACGACCAGGTGTCCAGAGGCCTTATCGAGGTGCGGCGAATGGTCGAAACGGGCGCTTCGGCCCTTGCGGCGAAGCGGCATTCGCCGGAGCACATTGAAAGCATGCGCCAGGCAATTGCTGCCATGAAGCGTTTCCATGAGTCCGGGGATCTGGACGGATTCGTGACGGCCGATATCGAGTTCCACGACGCCGTGCTGAAGGCCTCGGGAAATCCGTTTGTGCGTGCCCTGCTCGCCCAGTTGGGCCAGTCGCTATACCGGGCACGCCGCGAAACCTCCGCCGTGCGGGAAATTCAGGCCCACGCCATCGTCTTCCACCAGCGCGTGCTGGACAGCATCCTCACGGGCGACTCCGAGCTCGCGCGCCGGGTCATGGATGAGCACATGGACCAGACGTTCGAGGACTACGAACGCTACGTTCACGGCTCGCAGAGCTAA	MGRRTLVDHLVDGLLDDILDGRLKPHDALPPESDIAKIYDVSRLTVREALKALRAQNILYVKAGRGTFVNPAENWTGLDAIIKAASHGNADDQVSRGLIEVRRMVETGASALAAKRHSPEHIESMRQAIAAMKRFHESGDLDGFVTADIEFHDAVLKASGNPFVRALLAQLGQSLYRARRETSAVREIQAHAIVFHQRVLDSILTGDSELARRVMDEHMDQTFEDYERYVHGSQS	PGPT0018085_147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776	NA	NA
D1-17_03132	1035	iolG_3	COG0673	Myo-inositol 2-dehydrogenase	ATGAAGGACATCACCCTCGGACTCGTCGGCGTGGGCCGCATCGGCGTCATGCACGCCAACAACATCGCTTCCCTGAACGGGGTGCTCCACCCGCAGAACATCAACGTCCAGCTCAAGCTGACAGATGTGGCCGCTGACCACGCACGCGCCGTGGCCGAAGGGCTGGGTGCAGAGTTCCTGCCGTCCGTGGAGGCCCTGTTGGAGTCGGGGATTGATGGCCTGGTCATCGCCACTGGAACCGGCACCCACCCCGACCTGATTAGGGCAGGGGTGGATGCCGGAGTCCCGGTGTTTTGTGAAAAGCCTGTGGCCATGAACGTGGCTGACGCCCTGCCCGTTCTTGAGTACATCACGTCCAACAGGGGGACTGTCCAGATCGGGCACCAGCGGCGGTTCGACGCAGGCTACCTCGAGGCAAAGCGCGCCTTCGAAGCCGGCGAGCTCGGCTGGATCCATTCCGTGCGGGCCGTCACCTGCGACATGACACCCCCTCCGGTCGATTTCCTGGCGACATCAGGAGGCCTCTTCCGGGACTGTTCCGTGCACGACTTCGACATCCTGCGCTGGCTCACCGGCCGGGACATCGTGGAGGTCTACGCCAAGGGCTCCAACAAGGGCGACCCCGCGATCGGGCACGTGGGAGACGTGGACACCGCGCTGGCGGTGGTGACGTTCGACGACGGGACGCTGGGTTCCGTCGTCGCCTCGCGGTACAACGGAGCCGGGCACGATGTACGGCTCGAAATCCAGGGTTCCGCAGGATCTCTGATGGTGGGCCTGGACGAAAAGACCGCGCTGGGGTCGGCGGAAGCCGGCGTCGCCTTTCCAGCAGGAGAACCGCACCGGACATTTGCTGACCGGTTCGACCAGGCCTACCGCTCCGAGATGGCGGCCTTCGTGGAACTCGTGCTCGGCCAGCGGGACAACCCGTGCACGCCGGAAGACGCAGTAGCGGCATCACGCGTGGCGGACGCAGCCCAGGAATCACTTGAAACCGCTGTGCCGGTCCGCGTTGCCGCGGCTGTCACGATCTGA	MKDITLGLVGVGRIGVMHANNIASLNGVLHPQNINVQLKLTDVAADHARAVAEGLGAEFLPSVEALLESGIDGLVIATGTGTHPDLIRAGVDAGVPVFCEKPVAMNVADALPVLEYITSNRGTVQIGHQRRFDAGYLEAKRAFEAGELGWIHSVRAVTCDMTPPPVDFLATSGGLFRDCSVHDFDILRWLTGRDIVEVYAKGSNKGDPAIGHVGDVDTALAVVTFDDGTLGSVVASRYNGAGHDVRLEIQGSAGSLMVGLDEKTALGSAEAGVAFPAGEPHRTFADRFDQAYRSEMAAFVELVLGQRDNPCTPEDAVAASRVADAAQESLETAVPVRVAAAVTI				NA	NA	NA	NA	NA
D1-17_03133	939	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGAACGCCAAGCAGATCGACCAGCAGCAGCTCCTCAAGGACGAAAAGGACCCGCTGACCCACACCCCCGTGCACCTGCTCTCCATGGAGAGCGTGGGCAAGCACTACGGCAACATCGTCGCCCTCACCGACGTCACGATGGCCGTGGACAATGGCCGCGTCACGTGTGTCCTCGGTGATAACGGTGCCGGCAAGTCAACCCTGATCAAGATCATCGCCGGGCTGCACCAGCACGACGAAGGCGTCCTGAAAGTCATGGGGGAGGATCGCAAGTTCACCTCCCCCAGGGACGCCCTGGACGTAGGCATCGCCACCGTCTACCAGGACCTTGCCGTGGTGCCGCTGATGCCCATCTGGCGCAACTTCTTCCTGGGCTCCGAGCTGACCACCGGCGTGGGCCCCTTCAAGAAGCTGGACGTCCAGAAGATGAAGGACATCACCAAGAAAGAGCTCGCCGATATGGGCATCGACCTGCGCGATGTCGAACAGCCCATCGGCCAGCTCTCCGGCGGTGAGCGCCAATGTGTTGCGATCGCCCGCGCCGTCTACTTCGGCGCCAAGGTCCTGATCCTGGACGAACCCACCGCTGCCCTCGGCGTCAAGCAGTCCGGCGTCGTGCTGCGTTACATCCTGCAGGCCCGTGACCGCGGACTGGGCGTCATCTTCATCACCCACAACCCCCACCATGCCTTCCCGGTGGGCGACCGGTTCCTGCTGCTCAAGCGCGGCCGTTCCATCGGCTACTACGACAAGAAGGACATCACCCTCGACGAACTCACCGCCCAGATGGCCGGCGGCGCAGAACTCGCCGAACTCGCCCACGAACTTGAACAGCTGGGCGGGCACGGCGACATCGTGAAGGAAGTCCAGGCTGAAGTGGCCGGAACCGGGAACGCAGGTGCCCCGGAAACCGGGACTCCCAGCCACGTACGCGGCTGA	MNAKQIDQQQLLKDEKDPLTHTPVHLLSMESVGKHYGNIVALTDVTMAVDNGRVTCVLGDNGAGKSTLIKIIAGLHQHDEGVLKVMGEDRKFTSPRDALDVGIATVYQDLAVVPLMPIWRNFFLGSELTTGVGPFKKLDVQKMKDITKKELADMGIDLRDVEQPIGQLSGGERQCVAIARAVYFGAKVLILDEPTAALGVKQSGVVLRYILQARDRGLGVIFITHNPHHAFPVGDRFLLLKRGRSIGYYDKKDITLDELTAQMAGGAELAELAHELEQLGGHGDIVKEVQAEVAGTGNAGAPETGTPSHVRG	PGPT0017155_1189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017155-ABC_SS_A-K02056	NA	NA
D1-17_03134	1056	rbsC	COG1172	Ribose import permease protein RbsC	ATGACCATCACCCAGAGTGTGACAAAGCCCCCGGCACTGCGCGATGAGCGCGTGGCCAAGCGCAACCCCTTCCAGAAACTCCTCGCACGTCCCGAAGTCGGCGCCCTCGTGGGCGCAATCGTCCTCTTCGTCTTCTTCGCCTCGGTCTCCCAGACCTTCATCCAGCCGAACGCCTTCGCCACCGTCCTCTACGGCAGCTCCACCATCGGCATCATGGCCGTGGGTGTGTCGCTGCTGATGATTGGCGGCGAGTTCGACCTTTCCACCGGCGTTGCCGTGATCAGCTCGGCCCTGACCGCCTCGATGTTCAGCTGGTACTTCAGCATGAATGTGTGGGTCGGCGTGGTCCTGGCGCTCGTCGTGTCCCTGGGCATCGGCTACATCAACGGCTGGATCCTGATGAAGACCAAGCTGCCGAGCTTCATCGTTACCCTCGCAACCTTCCTGATGCTGACCGGCCTTAACCTGGGACTTACTCGTATGATCGGCGGCGGCGTGTCCTCCCCGTCAATTTCCAGCATGGACGGCTACCAGGCGGCCCGGGCCATCTTCGCCTCCTCGGTCAACATCGCCGGCGTGGACGTCAACAACACCGTCTTCATCTGGATCGCCCTGGTTGCCGTGGCGTCCTGGGTGCTGCTGCGCACCAAGGTGGGCAACTGGATCTTCGCTGTCGGCGGCGACGCGAATGCCGCCCGCGCCGTTGGTGTTCCCGTCAAAGCCACCAAGATCGGCCTGTTCATGGCCGTCGGTTTCTGCGGCTGGATCCTCGGCATGCACAACCTGTTCGCCTTCGACGCCGTGCAGTCCGGCGAAGGCGTGGGCAACGAATTCCTCTACATCATCGCCGCGGTCATCGGCGGCTGCCTCCTCACCGGCGGCTATGGCTCGGCCGTGGGCGGCGCCATCGGCGCCTTCATCTTCGGCATGGCCAACAAGGGCATCGTCTACGCCCAGTGGAACCCGGACTGGTTCAAGTTCTTCCTGGGCCTGATGCTTCTCCTGGCCACCATCGTGAACCTGATCGTCAAGCGCCGCGCAGACGCAAGCAAGTAA	MTITQSVTKPPALRDERVAKRNPFQKLLARPEVGALVGAIVLFVFFASVSQTFIQPNAFATVLYGSSTIGIMAVGVSLLMIGGEFDLSTGVAVISSALTASMFSWYFSMNVWVGVVLALVVSLGIGYINGWILMKTKLPSFIVTLATFLMLTGLNLGLTRMIGGGVSSPSISSMDGYQAARAIFASSVNIAGVDVNNTVFIWIALVAVASWVLLRTKVGNWIFAVGGDANAARAVGVPVKATKIGLFMAVGFCGWILGMHNLFAFDAVQSGEGVGNEFLYIIAAVIGGCLLTGGYGSAVGGAIGAFIFGMANKGIVYAQWNPDWFKFFLGLMLLLATIVNLIVKRRADASK	PGPT0017160_530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017160-ABC_SS_P-K02057	NA	NA
D1-17_03135	996			hypothetical protein	GTGACCAAATTCTTTTGGCGCCGGGCGGCCGTCGCGGCCGTCGCAATCCCGATGCTCGCTCTGACAGCTTGCTCCAGCCAGGGGGGCCGTGCTCCCGAAGGGAACACTGGGGGCGGCGCCGGGCAGGTTGCCTCGACCCCTCGCATGAAGGTTGCACTCATCACCCATGCCGCCCCGGGTGACACGTTCTGGGACATCGTCCGCAAGGGGGCCGAGGAAGCCGCCGCGAAGGATAATGTGGAATTGCTCTACACCTCGGATCCCGAAGGCGGGCGCCAGGCGCAGCTGATCCAGCAGGCGATTGATCAGAAGGTCGACGGCATTGCTGTGACCCTTGCCAAGCCGGATGCGTTGAAGGACTCCCTCAAGAAGGCCACTGACGCCGGCATTCCTGTGGTCAGCCTCAATGCCGGTGAATCAGTCTCGGCTCAATTGGGTGCTTTCACTCACTTCGGGTCGAACGAAAAACTCGCTGGCGCTGCCGTCGGAACAAAGCTCACTGAACTGGGCCTCAAACACCCCATCTGTGTTATTCAGGAGCAGGGGCACGTGGGTCTGGAAGCCCGCTGTGCAGGTGTGAAGGAAAAGGTGGCCGGAACGGAGATCCTTTACGTTCCCGGTACTGACATGGCGCAGGTTTCCTCCACGGTTACCGCCAAGCTGCAGGCTACCGCTGACGCCGATGCCATCATTGGCTTGGGTGCACCCTACACGTTGACCATCCTGAAGGCTGTGACCGGGGCGGGCAGCAAGGCCAAGGTGGCCTCGTTCGACATGAACCCTGAGCTCGCCCAGAAGATTGCTGACGGCGATGTCGTTTTCACGGTTGATCAGCAGCCGTGGTTGCAGGGCTATGGCGCAATCGATTCGCTGTGGCAGGCAAAGCGCGGCGGCTTCAAGATCGGTGGCGGGCAGCCCGTGCTGACCGGCCCCTCTATCGTCGACCAGGCCGCAGCCACCGACGTCCTCAAGTTCGCCAAGGAAGGCCTCCGCTAA	MTKFFWRRAAVAAVAIPMLALTACSSQGGRAPEGNTGGGAGQVASTPRMKVALITHAAPGDTFWDIVRKGAEEAAAKDNVELLYTSDPEGGRQAQLIQQAIDQKVDGIAVTLAKPDALKDSLKKATDAGIPVVSLNAGESVSAQLGAFTHFGSNEKLAGAAVGTKLTELGLKHPICVIQEQGHVGLEARCAGVKEKVAGTEILYVPGTDMAQVSSTVTAKLQATADADAIIGLGAPYTLTILKAVTGAGSKAKVASFDMNPELAQKIADGDVVFTVDQQPWLQGYGAIDSLWQAKRGGFKIGGGQPVLTGPSIVDQAAATDVLKFAKEGLR	PGPT0017165_127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017165-ABC_SS_S-K02058	NA	NA
D1-17_03136	741	dasR_2	COG2188	HTH-type transcriptional repressor DasR	ATGGCGAACCAACTTCACCTCAGCATTGACAGGTCGTCGCCGGTGCCCCTGTACCACCAGGTGGTACAGGGCATCGAAGCTGCCATCCACACCGGGCTGCTGGAACCGGGCAGCCGGCTGGAGAACGAAATTGACCTCGCCGCACAGCTGAACCTCTCCCGCCCCACCATGCGCAAGGCCATGGACGAACTGGTCCGTGCAGGCCTGCTGGTCCGTAAACGCGGCGTGGGCACCCAGGTGGTTTCCAGCCAGGTCCGCCGGCCCCTTGAGCTCTCCAGCCTGTACGACGACCTCACCAGCAACGGCAGCAAGCCCACAACCGACGTGCTGACCTTCGCGCACGTCGAAGCCGATGACGCCACCCTCAAGGCGCTGCACCTGCCCGCCGGTGCGAAGGTCTACCACTTCACGCGACTCCGCAAAGTCGGCGGCAAGCCGCTGGCGCTGATGGAAAACTGGGTCCGCGATGACATCACGCCTATTGATGAGGAACTGCTGGCCTCGAAAGGCCTCTACGCGATCCTCCGCAGCGGCGGGGTCAATTTCAGGCTCGCCACGCAGCGGATCGGCGCCGTGGTGGCCAACGAGTACCAGGCACCGCTCCTCGAAACAAAGCCCGGCTCCGCCCTGGTGACCATGGAGCGCACGGCCGTGGATGACACCGGCCGTAACGTTGAGACCGGACACCACGTGTACCGAGGTGATTCCTACAGCTTCGAAATGACGCTCGTGCAGAGGTAA	MANQLHLSIDRSSPVPLYHQVVQGIEAAIHTGLLEPGSRLENEIDLAAQLNLSRPTMRKAMDELVRAGLLVRKRGVGTQVVSSQVRRPLELSSLYDDLTSNGSKPTTDVLTFAHVEADDATLKALHLPAGAKVYHFTRLRKVGGKPLALMENWVRDDITPIDEELLASKGLYAILRSGGVNFRLATQRIGAVVANEYQAPLLETKPGSALVTMERTAVDDTGRNVETGHHVYRGDSYSFEMTLVQR				NA	NA	NA	NA	NA
D1-17_03137	897	iolB	COG3718	5-deoxy-glucuronate isomerase	ATGGCCGAATGGGTATATCCGCTGGGCAGCGCAGCCGAAGGCTGCTGGGATGTTTCGCTGGGAACAGCGGACTCCGCCATCACCGTCGACGGGTGGGAACACACGGGGCTGAAGGTGGCCTCGTTGGCGCCGGGCGCCGCCGTCGAACTCCCCGCCGCGGGCGAGGAACGCATTGTGATTCCGCTGAGCGGAGCGTTCACAGTAAGCGTTGACGGTGAGAAGTACCAGCTGGCCGGCCGGGCGAGTGTGTTCAATGGCCCCAGTGACGTGCTGTACTCCGGCACACAAAAGGCAGTGACGGTGACATCGTCCGACGGCGGCCGGGTTGCCATCGCCACGGCTCCCGCCAAGGTCCAGTACCCCACCCGCCTGATTACGGCCGCCGAAACGCCTGTGGAGCTGCGCGGTGCCGGGAACTGCTCGCGCCAGGTCCACAACTTCGGCACGCCTGCTGCCCTGGAAGCGGACCGCTTTATCGTCTGCGAGGTGATTACGCCCGCCGGCAACTGGTCTTCCTACCCGCCCCACAAGCACGACGAGGAGAAGGAAGGCGAGACGCGCCTCGAGGAGATCTACTACTTTGAAACGCGGGTGGAACCCGGCACGGCTGCCCCTGCCGGTAACGCTGACGCCATCGGCTACCAGCGTGTCTACGCCTCCGACGAGCGTCCCATCGATGTTGCCGCCGAGGTGCGCACGGGCGATGTGGTCCTGGTCCCCTACGGCTGGCACGGACCCGCCATGGCCGCTCCCGGCTACGACATGTACTACCTGAACGTCATGGCCGGACCGGGCCGGGTCCGCGACTGGCTGATCAGCGACGACCCGCACCATGGCTGGGTCCGCCAAACCTGGGAGGGCCAGGACGTGGACCCGCGCCTGCCGTTCGGCGGCTAG	MAEWVYPLGSAAEGCWDVSLGTADSAITVDGWEHTGLKVASLAPGAAVELPAAGEERIVIPLSGAFTVSVDGEKYQLAGRASVFNGPSDVLYSGTQKAVTVTSSDGGRVAIATAPAKVQYPTRLITAAETPVELRGAGNCSRQVHNFGTPAALEADRFIVCEVITPAGNWSSYPPHKHDEEKEGETRLEEIYYFETRVEPGTAAPAGNADAIGYQRVYASDERPIDVAAEVRTGDVVLVPYGWHGPAMAAPGYDMYYLNVMAGPGRVRDWLISDDPHHGWVRQTWEGQDVDPRLPFGG	PGPT0018475_55	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018475-iolB-K03337	NA	NA
D1-17_03138	1515	iolT_2		Major myo-inositol transporter IolT	ATGAAGCACGCAGATAACGAGACACTGACTGAAGAGGCATCGACCCAGGCGCCGCCCGCTCGGGAGGAACCGGCGCGCCCTGCGGCAGCGGCAACCCCGGAAGAACCCGCCGCTGCCACTAACCCCAAGGGCTTCATGCGGAAGGTGGCGCTGTTCTCCACCTTTGGCGGCCTGCTGTTCGGCTACGACACAGGTGTCATCAACGGTGCCCTGCCGTTTATGCAGCGGGACCTGGGGCTGACACCGCTGACCGAAGGCCTGGTCACTTCGACCCTGCTGTTGGGCGCCGCCTTCGGTGCCATCACAGCCGGCCGGCTGTCGGACCGCTTCGGCCGCCGCAGGACCATCATGGCCCTTGCCCTGATCTTCGCCGTTGCCACGATAGGGTGTTCCATTGCACCCGGTACCGAACTGCTGGTTGTTGCCCGCACCGTCCTTGGCCTGGCGGTCGGTGGTGCCTCGGTCATAGTGCCCGTGTACCTGGCGGAAATGTCACCGGCAGCCCAGCGCGGGCGCATTGTGACCCAGAACGAGCTGATGATCGTCACCGGCCAATTCCTGGCGTTCACCTTCAACGCCCTGATCGGCAACGCCTTCCCCGACGCCTCCCACGTGTGGCGGTGGATGCTCGTGATTGCCACGCTGCCGGCAGTGGTGCTGTGGTTCGGAATGCTGGTGTTGCCCGAAAGCCCCCGCTGGCTGGCCTCGGCCGGGCGCTTCGGCGAAGTTCTGGAGGTGCTGCGCAAGACGCGTGCTTCGGCCAACGTCGCCGACGAATTCGATGAAGTGCGGCAGGCGGCACGTGAGGATTATCAGTCCAAGCTCGGAACGTGGCGGGACCTCACCGTTCCCTGGATCCGCCGCATCTTTGTGGTGGGGCTCGGCATGGCGGTGATCAACCAAATCAGCGGTGTCAACGCCATCATGTATTACGGCACCTCCATCCTCTCCAGCTCCGGATTCGGAGACCAGGGTGCCCTGCTTGCCAACGTGGTCAACGGGGTGACGTCAGTAGTCGCAGTGGTGGTCGGCATGGCACTGATGACGCGCGTGGCCCGGAAATCGATGCTGATCGTTGGGCTCGTCGGTACTGCGAGCTCCCTGCTGGCCATTGGCCTGATCTCGCTGCTGATCCCCGAAAGCACCCTCCGCGGCTACCTCGTGCTGCTGTTCATGGTGACGTTCCTGGCGTCCATGCAGTCCTGCATCGGTACCGTCACCTGGCTCACGATGTCCGAAATCTTCCCGCTGCACGTTCGCGGCATCGGCATGGGCATCTGCGTGTTCGTGCTGTGGATGATCAACTTCCTGATCGGCTTCTTCTTCCCGCAGATGGTTTCGTGGATCGGCGTCTCAACGACGTTCTTCATCTTTGTCGCTATCCAGCTTGTGGCCATCGTCTGGGTCAAGCGCGTAGTGCCGGAAACCCGGGGCAAGAGCCTCGAGGACCTGGAGCACTACTTCAAGGGCATGGCCGGGGCACAGGCTGCAACGGCCGGAAGCCGGACCGTCTGA	MKHADNETLTEEASTQAPPAREEPARPAAAATPEEPAAATNPKGFMRKVALFSTFGGLLFGYDTGVINGALPFMQRDLGLTPLTEGLVTSTLLLGAAFGAITAGRLSDRFGRRRTIMALALIFAVATIGCSIAPGTELLVVARTVLGLAVGGASVIVPVYLAEMSPAAQRGRIVTQNELMIVTGQFLAFTFNALIGNAFPDASHVWRWMLVIATLPAVVLWFGMLVLPESPRWLASAGRFGEVLEVLRKTRASANVADEFDEVRQAAREDYQSKLGTWRDLTVPWIRRIFVVGLGMAVINQISGVNAIMYYGTSILSSSGFGDQGALLANVVNGVTSVVAVVVGMALMTRVARKSMLIVGLVGTASSLLAIGLISLLIPESTLRGYLVLLFMVTFLASMQSCIGTVTWLTMSEIFPLHVRGIGMGICVFVLWMINFLIGFFFPQMVSWIGVSTTFFIFVAIQLVAIVWVKRVVPETRGKSLEDLEHYFKGMAGAQAATAGSRTV	PGPT0016801_489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_lNOSITOL_TRANSPORT_2,PGPT0016801-iolT-K06609	NA	NA
D1-17_03139	873			hypothetical protein	GTGAAAATTGCCCTTGATCCCACCCCGTTCCACCACAGCCACAGCCTGCTGGAGTTCCCCGAGGTCGTCGCCGATCTCGGCTACAAGTACATGCAGATGACCCCGCACGCCGACTTCATCCCGTTCTTTAACCACCCCAAGGCCGACGACGAACTGGTGGGCCAGCTGAAGAAGGCCTGCAGGGACGCCGAAATCGAAATTGCCTCGGTGCTGCCGGTGCTGCGCTGGTCCGGGCCGGATGAAGACGCCCGCGAGGCAGCCGTCCGGTACTGGAAGCGCGCCATCCAGATCACGGTCGATCTGGGCGTGAGCACCATGAACACCGAGTTCAGCGGCCGGCCGGAAAAGGCTGAGGAATCCGAGCGGGCGTTTTACCGCTCCATGGAGGAGCTGCTGCCGATTATCGAGCGCGAAGGCATTGACCTTCTCATCGACCCTCATCCGGACGACTTCGTCGAAGAGGGACTGGCAGCCATCCGGGTGATCCGCGGCCTGAACTCCAAGAATGTCGGCATGGTCTACGTGGCCTCGCACAGCTTCCACATGAAGAACCGGCCCCTGGACATCATGCGCGCGGCAGGAGACAAGCTGCGCCTGGTCCATGTCGCGGACACGATGGACCACCACGCCTCCCATGGCCTGCGCTACATCACCAACCCGCCGGGCAATCCCGTCCGGGTGCACCAGCACCTGAAGATCGGCGACGGTGACGTCAACTGGGAAGAATTCTTCGGCGGCCTGAACGAGATCGGCTTCCTGGACCGGGATGACACCGTGATGGTGTCAAGCGTCTTTGCCGAGAACGAGAAGGCGGAGGAGGTCTCCCGGTACCAGCTGGACACGATGAACAACTACATTGCGAAGGCACGGTGA	MKIALDPTPFHHSHSLLEFPEVVADLGYKYMQMTPHADFIPFFNHPKADDELVGQLKKACRDAEIEIASVLPVLRWSGPDEDAREAAVRYWKRAIQITVDLGVSTMNTEFSGRPEKAEESERAFYRSMEELLPIIEREGIDLLIDPHPDDFVEEGLAAIRVIRGLNSKNVGMVYVASHSFHMKNRPLDIMRAAGDKLRLVHVADTMDHHASHGLRYITNPPGNPVRVHQHLKIGDGDVNWEEFFGGLNEIGFLDRDDTVMVSSVFAENEKAEEVSRYQLDTMNNYIAKAR	PGPT0020845_251	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020845-iolH-K06605	NA	NA
D1-17_03140	1014	iolG_4	COG0673	Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACTGAAACCCTTCGCGTCGCCGTCATCGGCGCCGGACGCATGGGCGCGGACCACATCCAGCGCCTCAGCAAGCGGATCCACGGCGCTGAAGTCGCCGCCGTCGTAGACGTCGACCTGGGCCGTGCGCAGGCCGCCATTGAAGGCATCCCCGGTGCAGTAGCCCTGGCCGACGCCGAAGAGGCCCTCAATAACGGCGACGTCAACGCCGTGCTGATCGCCACCCCGGGATTCCTGCACGAGGACATCCTGCTCAAGGCCCTCGAGAAGGACATCCCGATCCTTTGCGAGAAGCCGCTGACCCCCGACGCGGAAACCTCCTGGAAGATCGTCGAGGCGGAGCAGAAGCTTGGCCGCAAGCGCATCCAGGTCGGCTTCATGCGCCGCTTCGACGCGGAATACGCAGCGCTCGGCGGGATCATCCGCAACCGCGAGCTCGGCGAGCTCCTCATGCTGCACCACCAGCACCGCAACCCCACCACACCGCCGGGCTTCACCAACGAGATGCTCATCAACGATTCCGTGGTGCACGAGTTCGACGCCATCCGCTACTTCACCGGCGAGGAAATCACTTCCGTCCAGGTCCGTCTGGGCAAGCCGACCAAGAACGCTCCGGCAGGGCAGCACGATCCCCAGCACGTCCTGATCGAAACCGAGTCCGGAGTCCTTGCCGACGTCGAGATTTATGTGAATGCCAAATTCGGCTACGAGGTGGCCACGCAGGCGTCCTTCGAGGATGGCATCGTCAGCATCGGCGGTGACCAGGGCCCCTACGTCCGCACCGAAGGCCGTTGGGGCGGCAAGGTGACACCCGGTTTCGAAGAGCGCTTCGGCGCCGCATACGACGTCGAAATCCAGGCCTGGGTGGACGCCGCACTCCGCGGCGAAATCGGCGGCCCCACCGCCTGGGACGGGTACGCCACCGCAGCATGCTGTGAAGCAGGCGTCGAAGCCCAGAAGAACGGCGAAAAGGTCGCCGTGAAGCTGAACGCCAAGCCCGCTCTCTACAGCTAA	MTETLRVAVIGAGRMGADHIQRLSKRIHGAEVAAVVDVDLGRAQAAIEGIPGAVALADAEEALNNGDVNAVLIATPGFLHEDILLKALEKDIPILCEKPLTPDAETSWKIVEAEQKLGRKRIQVGFMRRFDAEYAALGGIIRNRELGELLMLHHQHRNPTTPPGFTNEMLINDSVVHEFDAIRYFTGEEITSVQVRLGKPTKNAPAGQHDPQHVLIETESGVLADVEIYVNAKFGYEVATQASFEDGIVSIGGDQGPYVRTEGRWGGKVTPGFEERFGAAYDVEIQAWVDAALRGEIGGPTAWDGYATAACCEAGVEAQKNGEKVAVKLNAKPALYS				NA	NA	NA	NA	NA
D1-17_03141	918	iolE	COG1082	Inosose dehydratase	ATGACAGATAAAGAGAACAAGCTCATCATCGGCACGGCCCCGGACTCCTGGGGGGTCTGGTTCGCGGACGACCCGCAGCAGACCCCGTGGGAACGGTTCCTCGACGAAGTAGCAGAATCTGGCTATAAGTGGATCGAACTCGGCCCCTACGGCTACCTGCCCACCGACCCGGCACGCCTCGCCGAGGAGCTTAAGCAGCGCGACCTGAAGGTCACGGCCGGAACCGTATTCACCGCTTTCCACCGCGGCCTGGAGCAGTGGGAAACGGCCTGGGAGCCGGCCCGGAAGGTTGCCGAGCTCACGGCTGCGATGGGCGGCGAGCACATCGTGGTGATTCCGGCGATGTGGCGAGACGACGTCACGGGGGAGGCCGTAGAAAGCGGCGAGCTCAGCGACAAGGCCTGGAGCGACCTCTTCGCCGGGCACAACCGGCTAGGGAAGACCCTGCTGGAGGACTTCGGCCTGAAGCAGCAGTTCCACTCCCATGCGGACTCGCACGTAGGAGCCCAGGAGGACATTGAAACCCTGCTGCGCGCGACCGACCCGCAGTACCTGAACCTGTGCCTGGACACCGGCCACGCCGAATACTGCGGCGCCTCCAGCCTGGAGCTCATCAAGAACTACCCGGACCGCATCGGTTACCTGCACCTCAAGCAAATCAACCCGGACGTACTGAAGAAGGTCAACGAGGAAAACATGACCTGGGCCGCAGCCAACCTGGCCGGCGTCATGACGGAACCGCCGAACGGCTTGCCGGACCTGCGTGCCGTCATCGAAGCCGTCGAGGCCCTCAACCGTCCCATCTTCGGCATTGTGGAACAGGACATGTACCCGGTGGCCTTCGACGTTCCCATGCCTATCGCCAAGCGCACCAGGAACTACCTGCTCTCCTGCGGTTCACGGACCGCTGTCAACTAA	MTDKENKLIIGTAPDSWGVWFADDPQQTPWERFLDEVAESGYKWIELGPYGYLPTDPARLAEELKQRDLKVTAGTVFTAFHRGLEQWETAWEPARKVAELTAAMGGEHIVVIPAMWRDDVTGEAVESGELSDKAWSDLFAGHNRLGKTLLEDFGLKQQFHSHADSHVGAQEDIETLLRATDPQYLNLCLDTGHAEYCGASSLELIKNYPDRIGYLHLKQINPDVLKKVNEENMTWAAANLAGVMTEPPNGLPDLRAVIEAVEALNRPIFGIVEQDMYPVAFDVPMPIAKRTRNYLLSCGSRTAVN	PGPT0016785_714	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
D1-17_03142	1641	bauC_2	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGACGACCACCACTGCAGGCACCACCACCATCAACCACTTCATCAACGGCGTTGAAACCGCAGGTGTTGGCGACCGCACCCAGCCGGTCTACAACCCCGCCACCGGCCAGGTCAGCGCGGAGCTGCGCCTGGCCAACCGGGCGGACCTGGACAACACCGTCGCCGCAGCCCGCGCCGCCGCCGACAGCTGGGGCGACATCTCCCTGGCCAAGCGCACCGCGGTGCTGTTCAAGTTCCGCGAGCTCGTCGCCAGCCACGTGGACGAACTCGCCGCCCTGATCACCGCCGAACACGGCAAGGTCCTCTCCGACGCCAAGGGCGAGATTGGCCGCGGCCTGGAGGTCATCGAGTTCGCCTGCGGCATCCCGCAGCTGCTCAAGGGCGACTACTCGGATCAGGTCTCCACGGGCATCGATGTCTTCTCCTTCCGCGAGCCCCTTGGTGTCGTCGCCGGCATCACGCCATTCAACTTCCCCGTCATGGTGCCGCTGTGGATGGCCCCGATGGCGATCGCCACGGGCAACGCCTTCATCCTCAAGCCCTCCGAGCGCGACCCCTCCGCCTCCATGCTGCTGGCCAAGCTCTGGAAGCAGGCCGGCCTGCCCGACGGCGTCTTCCAGGTCCTGCACGGCGACAAGGAAACCGTCGACGGGCTGCTGACCCACCAGGACGTGGACGGCATCTCCTTTGTCGGGTCCACGCCGATCGCGAAGTACGTCCACGAAACGGCCACCGCGCACGGCAAGCGTGTCCAGGCTCTGGGCGGGGCGAAGAACCATGCCATCGTCATGCCGGACGCCGACCTCGACAACGCCGCCGACCACCTCGCTGCCGCCGCCTTCGGTTCCGCCGGCGAACGCTGCATGGCTATCTCCGTCGCCGTCGCTGTTGCCGACGCCGCAGACCTGCTCGTGAAGAAGGTCGAAGAACGCGCCCTGGCCGTTAAGGTCGACAACGGCACCGCCCCCGGCGCCGAAATGGGCCCGGTCATCACCCCGGCGTCGAAGGAACGCATCGTGCGGATCGTCACTGAAGCCGAACAGGCAGGCGCCGCCATGGTGGTGGATGGCCGCGACCTCGTGGTCCCCGGCCACGAAGAAGGTTTCTGGGTCGGCCCCACCGTGATCGACCACGTCAAGACCGAAATGACCGCCTACACGGAAGAGATTTTCGGGCCCGTCCTCGTCGTGGTCCGCGTCGACAGCCTCGAAGACGGCATCAGGCTTATCAACTCCAACCCCTACGGCAACGGCACCGCCATCTTCACCTCCTCCGGTGCCTCCGCCCGCAAGTTCCAGCGCTCTGTCACGGTCGGCATGGTCGGCATCAACGTCCCGCTGCCCGTCCCGGTGGCCTACCACTCCTTCGGCGGCTGGAAGGCCTCGCTCTTCGGCGACAAGCACATGTACGGCCCCGAAGGCGTCTCCTTCTACACCCGCGGCAAAGTCGTCACCTCCCGCTGGCCCGAACCCACCCACGCCTCCGGTGCCTCCTACAACTTCCCCTCCCACGCCGACGACAGCCACGCCGTCCGCCACGACGGCATCGCAGAGGGGCTCCCGGACGAGCTCGCCGGAGGAGAGGACGCCGTTCCCGGACGCGCCGACGACGCCACGGAAGGCCGGGGACGTCGGGACTGA	MTTTTAGTTTINHFINGVETAGVGDRTQPVYNPATGQVSAELRLANRADLDNTVAAARAAADSWGDISLAKRTAVLFKFRELVASHVDELAALITAEHGKVLSDAKGEIGRGLEVIEFACGIPQLLKGDYSDQVSTGIDVFSFREPLGVVAGITPFNFPVMVPLWMAPMAIATGNAFILKPSERDPSASMLLAKLWKQAGLPDGVFQVLHGDKETVDGLLTHQDVDGISFVGSTPIAKYVHETATAHGKRVQALGGAKNHAIVMPDADLDNAADHLAAAAFGSAGERCMAISVAVAVADAADLLVKKVEERALAVKVDNGTAPGAEMGPVITPASKERIVRIVTEAEQAGAAMVVDGRDLVVPGHEEGFWVGPTVIDHVKTEMTAYTEEIFGPVLVVVRVDSLEDGIRLINSNPYGNGTAIFTSSGASARKFQRSVTVGMVGINVPLPVPVAYHSFGGWKASLFGDKHMYGPEGVSFYTRGKVVTSRWPEPTHASGASYNFPSHADDSHAVRHDGIAEGLPDELAGGEDAVPGRADDATEGRGRRD	PGPT0002295_1633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
D1-17_03143	1929	iolD	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	ATGACCGTGGCGCAGGCCGTGGTCGAGTACCTCTCCAAGCAATACACGGTTGACCGCATCGGCAGCCAGGACTACCGTGAGCGGCTCATCCCCGGCACCTTCGGCATCTTCGGCCACGGCAACGTGGCCGGTGTGGGCCAGGCGCTGAAGCAGTACCAGGCCGCGGATCCCTCAGTGATGCCGTACTACCAGGGCCGCAATGAGCAGGCTCAGGTGCACCAGGCTGTCGGCTACGCCCGGCATACCCGGCGCCGCCAGACGTTCGCGATCAGCACGTCGATCGGCCCGGGTTCGTCCAACCTCCTCACCGGCGCGGCGCTGGCCACGACCAACCGCCTGCCGGTGCTGCTGCTGCCCAGCGACACCTTCGCCACGCGCGCGGCGGATCCTGTGCTGCAGCAGCTCGAGCAGCCGTACGCCTATGACATCACCGTCAACGACGCTTTCCGGCCGCTGTCGAAGTTTTTCGACCGGGTCTCCCGGCCCGAGCAGCTGTTCTCGGCGTTCCACCACGGCCTGCGGGTGCTGACGGACCCGGCCGAGACCGGTGCGGTGACCATCTCGCTGCCGCAGGACGTCCAGGCCGAGGCCTTCGATGTGCCTGAGGAGTTCCTGGCCGAACGCGAGTGGCGGATCCGCCGCCCGGACGCGGAGGACGAGGACATCCGCCGCGCCGCCGAAGCGATCCGCGCGGCGAAGCGGCCGCTGATCATCGCCGGCGGCGGCGTGCTCTACGCCTACGCCAACGAGGAACTCGCGACCTTCGTGGAGCTGACCGGCATCCCGGTGGGCAATACCCAGGCCGGCGTCGGCGTGCTGCCGTGGGACCACAAGTTCTCCCTCGGTGCCATCGGCTCCACCGGCACCACGGCGGCCAACGCCATCGCAGCCGAAGCGGACCTGATCATCGGCATCGGTACCCGCTACGAGGACTTCACCACCGCGTCCCGCACGGCCTTCCAGAACCCGGACGTGAGGTTCATCAACATCAACGTCGCCGCCATCGACGCGTACAAGCACGGCACCTCGCTGCCGATCGTGGCTGACGCCCGCAGGGCCCTGGTCAAGCTGAACCAGGTCCTGGGCGGCTACCGTGTGGGCGCGGACCTTGAGCAGAAGATCGCCGCGGAAAAGCAGCGCTGGGACGCCACCGTGGACGCAGCCTTCGACACCCGCTACACGCCGCTGCCGGCGCAGAACGAAATCATCGGGGCGACCAGCCGGGCCATGGACGCCCAGGACGTCGTGATCTGCGCCGCCGGCTCGTTGCCGGGTGACCTGCACAAGATGTGGCGCGTCCGCGACCCGTTCGGCTACCACGTGGAATACGCCTACTCCTGCATGGGCTACGAAATCCCCGGCGGCCTGGGCGTCAAGCGCGCAGCGCTGGCCGAGGCCGCTGCGGGGGGAACCCAGCGTGACGTCGTCGTGATGGTGGGGGACGGCTCCTACCTGATGATGCACACCGAACTGGTCACCGCCGTCGCCGAACGGATCAAGCTGATTGTGGTCCTGATTCAGAACCACGGCTACGCATCCATCGGCTCCCTCTCCGAAATGCTCGGTTCCCAGCGTTTCGGCACCCAGTACCGCGCCTTGGATGAGGAACAGCACAGCTTCGACGAAGGCGATATTCTTCCCGTGGATCTGGCCACCAATGCTGAAAGCCTCGGGGTGAAGGTCATCCGGATCGAACCGGGGGAGAAGGTCATCGCTGAACTCGAGCAGGCCATCCGCGACGCGAAGGCCGCCCCGGAACGCAGCGGCCCGATCCTCATCCACGTCGAATCCGACCCGCTGCTGGACGCACCGTCCTCCGAATCCTGGTGGGACGTTCCCGTTTCCCAGGTCTCGGACCTGGAATCGACGCAGCAGGCGTACAGGACGTACACCGACCACAAGAGCCGCCAGCGCAAGCTTCTCGGCTGA	MTVAQAVVEYLSKQYTVDRIGSQDYRERLIPGTFGIFGHGNVAGVGQALKQYQAADPSVMPYYQGRNEQAQVHQAVGYARHTRRRQTFAISTSIGPGSSNLLTGAALATTNRLPVLLLPSDTFATRAADPVLQQLEQPYAYDITVNDAFRPLSKFFDRVSRPEQLFSAFHHGLRVLTDPAETGAVTISLPQDVQAEAFDVPEEFLAEREWRIRRPDAEDEDIRRAAEAIRAAKRPLIIAGGGVLYAYANEELATFVELTGIPVGNTQAGVGVLPWDHKFSLGAIGSTGTTAANAIAAEADLIIGIGTRYEDFTTASRTAFQNPDVRFININVAAIDAYKHGTSLPIVADARRALVKLNQVLGGYRVGADLEQKIAAEKQRWDATVDAAFDTRYTPLPAQNEIIGATSRAMDAQDVVICAAGSLPGDLHKMWRVRDPFGYHVEYAYSCMGYEIPGGLGVKRAALAEAAAGGTQRDVVVMVGDGSYLMMHTELVTAVAERIKLIVVLIQNHGYASIGSLSEMLGSQRFGTQYRALDEEQHSFDEGDILPVDLATNAESLGVKVIRIEPGEKVIAELEQAIRDAKAAPERSGPILIHVESDPLLDAPSSESWWDVPVSQVSDLESTQQAYRTYTDHKSRQRKLLG	PGPT0018485_463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018485-iolD-K03336	NA	NA
D1-17_03144	939			hypothetical protein	GTGAGCCTCAACCCCGGCAGCGCCACCCTCACCACGGTGGATGATGACCCCCGCCGCTACGAACACCTGAGCCGCATCCGCCTCGAGGACCCCGAGGCCGTCGCCCGCGCCGCCAAGGCGCGCCGCCGCCACCCCGGGCCGAAGGCGGGCCGGCAGAACTTTATCGTCGCAGCCGACCACCCGGCCCGCGGCGCCCTCGCCGTCGGCAGCGATCCGGTGGCCATGGCGGACCGCCGCCAGCTGCTGGACCGGCTGCGGATCGCCCTGGCCAACCCGGACGTGGACGGCGTGCTCGCTTCCCCGGACATCATGGATGACCTGCTGCTGCTGGGAGCGCTCGAAGGCAAGCTGGTCTTTGGGTCGATGAACCGCGGCGGCCTCACCGGGCTGGTCAATGAATTCGATGACCGGTTCACCGGCCACACCGCTGCTGCCCTGGAGGCCCTTGGTGCCGACGGCGGCAAGATGCTCACGCGCATCTGCCTTGAGGACCCGGACACCGTGGTCACGCTGGAAGCAACCGCCAAAGCCATCGACTCCCTGGCCGAACGCAAGCTGATCGCAATGGTGGAACCCTTCCTCTCCGTCCGCGTCAACGGCAAGGTCCGCAACGACCTCTCAACCGATGCTGTGATCAAGTCCATCGGCATCGCGGAGGGCCTCGGCTCCACCAGCGCTTACACCTGGATGAAGCTGCCCGTCGTGGCGGAGATGGAACGCGTCATGGCGGCCACCACCATGCCCACAGTCCTCCTCGGCGGCGACCCTGAGGGAACGCAGGACGAGGTCTTTGCCAGCTGGGAAGCGGCGCTCTCCCTCCCCGGCGTGCAGGGCCTCACCGTCGGACGGACGCTGCTGTACCCGCAGGACGGCGACGTTGCCGGCGCGGTCGCCGCAGCGGCTTCGCTCCTCCACCACACGACAGAAGTATCGGAGTAA	MSLNPGSATLTTVDDDPRRYEHLSRIRLEDPEAVARAAKARRRHPGPKAGRQNFIVAADHPARGALAVGSDPVAMADRRQLLDRLRIALANPDVDGVLASPDIMDDLLLLGALEGKLVFGSMNRGGLTGLVNEFDDRFTGHTAAALEALGADGGKMLTRICLEDPDTVVTLEATAKAIDSLAERKLIAMVEPFLSVRVNGKVRNDLSTDAVIKSIGIAEGLGSTSAYTWMKLPVVAEMERVMAATTMPTVLLGGDPEGTQDEVFASWEAALSLPGVQGLTVGRTLLYPQDGDVAGAVAAAASLLHHTTEVSE				NA	NA	NA	NA	NA
D1-17_03145	1050	iolC	COG0524	5-dehydro-2-deoxygluconokinase	GTGACCCACGAACTGCTCACGATCGGGCGAATCAGCGTTGATATCTACCCGAACGACATCGGGGTGGGGCTGGAGGACGTGACGTCCTTCGGCAAGTACCTCGGCGGATCACCGTCCAATGTCGCAGTTGCCGCCGCCCGCCATGGACGCCGCACCGGAGTCATTACCCGCACCGGTGATGACCCCTTCGGGTCTTACCTGCACCGCGAACTGGAAAAGTTCGGTGTTGACGACTCCTTTGTCACGCCAGTCCAAGGGCTCCAGACGCCGGCGACCTTCTGCGCTATCCAGCCGCCGCATGATTTTCCGCTCTACTTCTACGGCCGTTTTCCCACCGCTCCTGACCTGCAGATCAAGGCTGACGAACTCGACACCGACGCTATCCGGAAAGCAGGCATCTTCTGGTCCACCGTCACCGGTCTCTGCCAGGAGCCGAGCCGTGAAGCGCATATCAAGGCCCACGAAGCCCGGCCGCGCACCGGCCTCAAGGAAGGCCAGTACACCATCCTGGACCTTGACTACCGCCCCATGTTCTGGGCCTCCGAGGAGGAAGCCCGGGCCGAAGTAGCCAAAATCCTGCCGCACGTCACCGTCGCCATCGGCAATGACCAGGAATGTGCCGTGGCCGTCGGGGAGGGCACGCCCGATGAGCAGGCGGACCGCCTCTTGGCAGCCGGCGTGGAAATCGCCGTCGTCAAGCTCGGCCCCGAAGGCGTGATGGCAAAGACCCGGACCGAGCGCGTGGTCTCCGCCCCCGTTCCTGTCGAGACCGTCAACGGACTGGGTGCCGGGGACTCGTTCGGCGGGGCCTTCTGCCACGGACTGCTGTCCGGTTGGCCCCTGGCCCAGGTCCTTGATTATGCAAATGCAGCCGGCGCCATTGTTGCCTCCCGGCTGTCCTGCGCCGACGCCATGCCCACCCCGGCTGAGGTCACCTCCCTGCTTGCCGAGCGGGGACGCCTTGTTCCTGGCACGGATTCCGGTCCCGGCAAGCCTGCCGTAACCGGCCAGGACTCCAACACTTTTACCCCCGAAGGAGCGGCACTGTGA	MTHELLTIGRISVDIYPNDIGVGLEDVTSFGKYLGGSPSNVAVAAARHGRRTGVITRTGDDPFGSYLHRELEKFGVDDSFVTPVQGLQTPATFCAIQPPHDFPLYFYGRFPTAPDLQIKADELDTDAIRKAGIFWSTVTGLCQEPSREAHIKAHEARPRTGLKEGQYTILDLDYRPMFWASEEEARAEVAKILPHVTVAIGNDQECAVAVGEGTPDEQADRLLAAGVEIAVVKLGPEGVMAKTRTERVVSAPVPVETVNGLGAGDSFGGAFCHGLLSGWPLAQVLDYANAAGAIVASRLSCADAMPTPAEVTSLLAERGRLVPGTDSGPGKPAVTGQDSNTFTPEGAAL	PGPT0018480_720	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018480-iolC-K03338	NA	NA
D1-17_03146	513			hypothetical protein	TTGCCACTCGTTCGAATCGACGTCAATGAAGGCCGCACCTCTCAGGAGTTGAAGCAGCTCAGCAGGGGGATCCATGATGCCATCCTCGCTGAATACCGCATCCCCGAGCGTGACTACTTCCATATCGTCACGGAGCACCCGGCCGGCCAGATCTTCGCGCAGGACGCCGGGCTCGGCTTTGAGCGTACGCCAGAGGTTGTGATGATCCAGATCTTTACCCAGGGCGGCCGGAGCCAGGAAGCGAAGCAGTCACTTTTTGCCGCCGTAGCGGAAAAGCTGGGGGAGTTGGGGATAGCCGGCGAGAACGTCTTCATTGGATATGTGGAGAACACGGCAGGTGACTGGTCCTTCGGATTCGGGCGCGCCCAGTACGTACCGGTGAGCTCGCGGTTCCCAGGAAGTAGCACCCGGGGCGTGGTGGCCAAGCCCTGGCGGCGGCCGTCTAATCCCTTCCTGCCAGGGCGATCGGCAGGCAGAAATGCAAGTTGTAAATATGTCAGTACAAACCTTTGA	MPLVRIDVNEGRTSQELKQLSRGIHDAILAEYRIPERDYFHIVTEHPAGQIFAQDAGLGFERTPEVVMIQIFTQGGRSQEAKQSLFAAVAEKLGELGIAGENVFIGYVENTAGDWSFGFGRAQYVPVSSRFPGSSTRGVVAKPWRRPSNPFLPGRSAGRNASCKYVSTNL	PGPT0005210_261	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005210-praC|xylH-K01821	NA	NA
D1-17_03147	474			hypothetical protein	ATGAGCAACGCGCTTAAACTCACCGTTCCTGACGGCGTCCCGTTCATCGATTGGGAGCGGGAGTTCGATTTCCCGGTCGCGGACGTTTTCCGGGCGCACAGGGAGCCTGAACTGATTACCAAGTGGCTCGGTCCGCGGGGCACGAATGTGGACATCGACCACTATGACTTCCGCTCGGGCGGCAGCTACGTGTACAACCACACGGGTTCCGACGGGGTGACCTATTCGTTCAACGGGATTTTCCACACCGTTCGTGAGAACGACTTTGCTATCCAGACGTTTGAGTTCAGCGGGTACCCGGATGTCGTGAGCATCGAGTTCATGAACTTTGAGGACCTCGGCGGAGGGCGCTGCCGTATCCGCGGGCACTCCGTCTACCCGACCCAGGAGGCGCGGGACGGCATGGCCCAGTCCGGGATGGAAAGCGGCATGTCGGACGGCTACGAGAGGCTCGATGAACTTCTCGCGAAGTAG	MSNALKLTVPDGVPFIDWEREFDFPVADVFRAHREPELITKWLGPRGTNVDIDHYDFRSGGSYVYNHTGSDGVTYSFNGIFHTVRENDFAIQTFEFSGYPDVVSIEFMNFEDLGGGRCRIRGHSVYPTQEARDGMAQSGMESGMSDGYERLDELLAK				NA	NA	NA	NA	NA
D1-17_03148	384			hypothetical protein	GTGGCAGTGGACACGGGCAATGACGACGAACTTCTCAACTTGGCCTTTTTGGCCTTGTCGGATCCGGTCCGCCGCCGTCTCATCTCCCGGCTCAGCCGGGGACCCGCCACTGTCAATGAACTGGCTGAACCCTTCGCGATCACCAAACAGGCGGTCTCGAAGCACATCCAGGTCCTCGAGCAGGCGCAGCTGGTCACGCGCACCCGCGATGCCCAGCGCCGGCCCGTCCACCTGAATCCCGCACGGCTCGAAGCCCTTACGGCGTGGATCGACCAGTACCGGCTGGCCCGCGAAGCGCAGTTCCGCAGCCTCGATGCCGTGCTCCGCTCCAGCGCCGCCGCGGGCGGCGGAAGTCAAGAGGAAGAAAATGAGCAACGCGCTTAA	MAVDTGNDDELLNLAFLALSDPVRRRLISRLSRGPATVNELAEPFAITKQAVSKHIQVLEQAQLVTRTRDAQRRPVHLNPARLEALTAWIDQYRLAREAQFRSLDAVLRSSAAAGGGSQEEENEQRA				NA	NA	NA	NA	NA
D1-17_03149	903	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGTCTATTTATCTGAACAAGGACTCCAAGGTCATCGTCCAGGGCATTACGGGCGGCGAGGGCACCAAGCACACCGCCCTCATGCTCAAGGCCGGCACCAACATCGTGGGCGGCGTCAACGCCCGCAAGGCCGGCACAACTGTGCTGCACGGCGATAACGAGATCACGGTTTACGGCACCGTCAAGGAAGCCATGGCAGAGACCGGCGCCGACGTCTCCATCGTCTTCGTTCCGCCGGCCTTCACCAAGAGCGCGGTCGTCGAAGCCATCGAAGCAGGCATCGGCCTGGTCGTTGTCATCACCGAGGGCGTCCCGGTCCAGGACTCCGCCGAGTTCTGGGCGCTGGCCCAGTCCAAGGTGGACGCCGACGGAAACCAGGTCACCCGCATCATCGGGCCGAACTGCCCTGGCATCATCACCCCGGGTGAAGCCCTCGTCGGCATCACCCCGGCCAACATCACGGGCAAGGGCCCCATTGGGCTGGTTTCCAAGTCCGGCACCCTGACCTATCAGATGATGTATGAGCTCCGCGACCTCGGCTTCTCCACCGCCATCGGCATCGGCGGTGACCCTATCATCGGCACCACGCACATCGATGCGCTGGCCGCTTTTGAGGCTGACCCGGAGACCAAGGCGATCGTCATGATCGGCGAAATCGGCGGCGACGCCGAAGAGCGTGCTGCCGACTTCATCAAGGCCAACGTCACCAAGCCGGTTGTCGGCTACGTAGCAGGCTTCACCGCGCCGGAAGGCAAGACCATGGGCCACGCTGGCGCCATCGTCTCCGGTTCCGCCGGGACCGCCCAGGCCAAGAAGGAAGCCCTCGAAGCCGCAGGTGTGAAGGTCGGCAAGACGCCGTCCGAGACCGCCAAGCTGCTGCGTGAGGTCTACGCAGCCCTCTAA	MSIYLNKDSKVIVQGITGGEGTKHTALMLKAGTNIVGGVNARKAGTTVLHGDNEITVYGTVKEAMAETGADVSIVFVPPAFTKSAVVEAIEAGIGLVVVITEGVPVQDSAEFWALAQSKVDADGNQVTRIIGPNCPGIITPGEALVGITPANITGKGPIGLVSKSGTLTYQMMYELRDLGFSTAIGIGGDPIIGTTHIDALAAFEADPETKAIVMIGEIGGDAEERAADFIKANVTKPVVGYVAGFTAPEGKTMGHAGAIVSGSAGTAQAKKEALEAAGVKVGKTPSETAKLLREVYAAL	PGPT0001540_609	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001540-sucD-K01902	NA	NA
D1-17_03150	1167	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	GTGGACCTGTTTGAATATCAGGCGCGCGATATGTTCGAAGCGCACGGTGTACCCGTGCTCGCCGGCATCGTGGCGCACACCCCTGAAGAAGCAAAGGCAGCTGCCGAGAAGATCGGCGGCGTAACTGTCGTCAAGGCACAGGTTAAGGTCGGTGGCCGCGGCAAGGCGGGCGGCGTCAAGGTCGCCAAGTCCGCCGATGAGGCACTTGAGCACGCCACCAACATCCTGGGCATGGACATCAAGGGCCACACCGTCAACAAGGTGATGATCGCCCAGGGTGCGGACATCGCCGAGGAATACTACTTCTCCGTCCTGCTGGACCGCGCCAACCGCAACTACCTGGCCATGTGCTCGGTTGAGGGCGGCATGGAAATCGAGCAGCTCGCCGTCGAGCGTCCCGAGGCCCTGGCGAAGATTGCCATCGACCCCGCTGTCGGCATCGACCAGGCGAAGGCTGACGAGATCGTCGCCGCTGCCGGCTTCGCTGAGGAACTGCGCGGCAACGTCGCCAGCGTGATCCTCAAGCTCTGGGACGTCTTCAAGAAGGAAGATGCCACCCTCGTTGAGGTCAACCCTCTCGTCAAGACCGGCGCCGGCGACATCGTCGCCCTCGACGGCAAGGTCTCCCTGGACGAGAACGCTGAATTCCGCCACCCCAAGCACGCCAAGCTTGAGGACAAGGAATCCGCCGACCCGCTCGAGGCGAAGGCCAAGGCGCAGGACCTGAACTACGTCAAGCTGGACGGCGAAGTTGGAATCATCGGTAACGGTGCAGGCCTCGTCATGTCTACCCTGGACGTCGTCGCCTACGCCGGCGAAAACCACGGCAACGTCAAGCCCGCCAACTTCCTGGACATCGGCGGCGGAGCCTCCGCTGAGGTCATGGCCGCGGGCCTGGACGTCATCCTGGGCGACGAGCAGGTCAAGTCTGTGTTCGTCAATGTCTTCGGCGGCATCACCGCCTGTGACGCCGTGGCCAAGGGCATCGTCGGCGCGCTGGCTGAGCTGGGCCACTCCGCCAACAAGCCGCTGGTAGTCCGCCTCGACGGCAACAATGTTGAAGAAGGCCGCCGCATCCTCGCCGAGGCCAACCACCCGCTGGTCACCTTGGCCGCCACCATGGACGAGGGCGCCGACAAGGCAGCCGAGCTCGCCAACGCCCGCTGA	MDLFEYQARDMFEAHGVPVLAGIVAHTPEEAKAAAEKIGGVTVVKAQVKVGGRGKAGGVKVAKSADEALEHATNILGMDIKGHTVNKVMIAQGADIAEEYYFSVLLDRANRNYLAMCSVEGGMEIEQLAVERPEALAKIAIDPAVGIDQAKADEIVAAAGFAEELRGNVASVILKLWDVFKKEDATLVEVNPLVKTGAGDIVALDGKVSLDENAEFRHPKHAKLEDKESADPLEAKAKAQDLNYVKLDGEVGIIGNGAGLVMSTLDVVAYAGENHGNVKPANFLDIGGGASAEVMAAGLDVILGDEQVKSVFVNVFGGITACDAVAKGIVGALAELGHSANKPLVVRLDGNNVEEGRRILAEANHPLVTLAATMDEGADKAAELANAR	PGPT0019515_2110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019515-sucC-K01903	NA	NA
D1-17_03151	2589	uvrD1	COG0210	ATP-dependent DNA helicase UvrD1	ATGGACATGTTGTTTGACCCGTACGCTGACGGACCCTTCAAAGCAGGCACGCACACGGCCGCGCTCACCAAGTCGCGCCCCGAACCGGGACTGACCCCGCTTGAATTCGGCGGGGCTTCGCCCGCTTCGCCCGCTTCGCGGGAACCCAGCCGGTACAGTTCGGGCCAGGAACAGGGCCACCACGACCCGGGACGCCGTGAGGCTGCAGGCGGTGCGGCAGGCGAGTGGGCCCGCCCTCACCTGCCGGACGCCGGTTCCCTCCTCGAGGGACTCAACCCGCAGCAGGAAGAGGCAGTCAAACACGCCGGCAGCGCGCTGCTGATCGTGGCAGGCGCAGGGTCAGGCAAGACACGCGTCCTCAGTAACCGGATTGCCTACCTCATAGCCACCAAGCGCGCCCACCACGGCGAAATCCTGGCCATCACCTTCACCAACAAGGCGGCAGCTGAGATGCGGGAGCGCATCGAGGCGCTTGTGGGCAACAGGGCGAAGGCCATGTGGATCTCCACGTTCCACTCCTCCTGCGTCCGCATCCTGCGCCGAGAAGCAGCCAATGTCGGGCTGAAATCCAACTTTTCCATCTACGACTCCGCTGATTCGCTCAGGCTCATCACGCTCGTGGCCAAGAACCTGGACCTGGATCCCAAGAAGTTTGCGCCCAAGGCCATCCAGCACAAGATCTCGGCACTCAAGAACGAGCTGGTCGATGCAGAGGCCTTCGCGTCGGCGGCCAATTACAACGACCCCTTTGAGCAGGCCGTGGCAGATGTCTTCAAGGGCTACACGCAGCGACTCCGCCAGGCGAACGCCATGGACTTCGACGATCTCATTGCAGAGACCGTCTACATGTTCCGGGCCTTCCCCGCGCTCGCCGAATCCTACCGCCGCCGCTTCAGGCACGTGCTGGTGGACGAATACCAGGACACCAACCACGCCCAGTACGCCCTGGTCCGGGAAATTGTGGGGGAGGGGCAGGGCGCCGCTGAACTCACCGTGGTGGGCGACTCCGACCAGTCCATTTACGCCTTCCGCGGCGCAGACATCCGCAACATCGTCGAGTTCGAAAATGACTACCCGGACGCCCGCACCATCAAGCTGGAACAGAACTACCGGTCCACGCAGAACATCCTGAGTGCGGCCAACTCCGTCATCTCACGCAACCCGAACCGGCCCGAGAAGCGGCTGTGGACGGCCGAGGGTGAGGGCCACAAGATCATTGGCTACGTCGGGGAAAACGAGCACGACGAAGCGCAGTTCATTGCCAAGGAGATTGACCGGCTGCAGGACGAGGACAACCTCCGCCCCGGGGACGTCGCCATCTTCTACCGCACCAACGCCCAGTCGCGCTCCATTGAAGACGTGCTGGTCCGCGTCGGCCTGCCGTACAAAGTGGTGGGCGGCACCAGGTTTTACGAGCGCAAAGAGATCAAAGACGCCCTCGCCTACCTCCGCGTGCTGGTCAACCCGGACGACGACGTGAATCTCCGGCGCGTGCTCAACGAGCCCAAGCGCGGGATCGGCGACCGCGCTGAGGGCGCGGTTGCCGCACTGGCGGAACGGGAACGGACCTCCTTCATGGCAGCCGCCCGGCGCGCCGACCAGGCCCCGGGCATGGCCACCCGCTCAGTCAACGCCGTCCTCGGCTTCGTGAAGCTGCTGGATGATCTCGTGGAGGTCGCGGCAGGATCCGGCGCTGCGGCCGCGCTCGAGGCGGTGCTGGAGCAGACCGGGTACCTTGCCACGCTGCGGTCCAGCACCGATCCCCAGGACGAATCCCGGGTCGAGAACCTCGCGGAACTCGTCGCCGTCGTGCGCGAGTACGAACAGGAGAACCCGGAAGGTTCCCTCGAAGCCTTCCTGGAACAGGTCTCACTCGTGGCGGACGCGGACCAGATTCCTGACGCCCCCGGCGGTGACGCCGAGGACACGGCCGCCGCCGTGGCAGAGGCCAAGCGCCTGGGCGTGGTTACCCTGATGACGCTGCACACGGCGAAAGGCCTCGAATTTCCCGTCGTGTTCCTTACCGGGATGGAGCACGGCCTCTTCCCGCACCAGCGCTCGGCCACCGACCCGAAGGAACTGGCCGAGGAACGCCGGCTGGCGTACGTCGGCCTGACCCGTGCCCGGAAGCGGCTGTATGTCACCCGCTCCGAGGTGCGGAACATGTGGGGCCAGAGCCAGTACAACCCGGCCAGCCAGTTCCTGGAGGAGATCCCGTCCGAGCTCGTCGAGTGGAAGCGTGAGGGCACCAGCAGGCAGGCAGGGGGCTGGGGAAGCGGCGCATCCATTGGCTCGAGCCGTTACGGGGGATCCTTCTGGGGCGCAGGAACCGCCCGCGGCAACCTCCCCGACTCCTCAGCGGGCTTCAAGGCGGACGTGCCGGCCGCCGTGGCGAAGAACAGGGTGCAGCCGCAAAAGGAAGTCATTGCGGTCAGCGTGGGGGACAAGGTCAACCACACGAGTTTCGGGAACGGCACCGTGCTGGCAGTGGAGGGCGCGGGGGACAAGACAGTCGCGAAGGTGAAGTTCGACATCGGCGAGAAGCGCCTGCTGCTGCGCTACGCGCCGCTGACGAAACTCGACGCCTGA	MDMLFDPYADGPFKAGTHTAALTKSRPEPGLTPLEFGGASPASPASREPSRYSSGQEQGHHDPGRREAAGGAAGEWARPHLPDAGSLLEGLNPQQEEAVKHAGSALLIVAGAGSGKTRVLSNRIAYLIATKRAHHGEILAITFTNKAAAEMRERIEALVGNRAKAMWISTFHSSCVRILRREAANVGLKSNFSIYDSADSLRLITLVAKNLDLDPKKFAPKAIQHKISALKNELVDAEAFASAANYNDPFEQAVADVFKGYTQRLRQANAMDFDDLIAETVYMFRAFPALAESYRRRFRHVLVDEYQDTNHAQYALVREIVGEGQGAAELTVVGDSDQSIYAFRGADIRNIVEFENDYPDARTIKLEQNYRSTQNILSAANSVISRNPNRPEKRLWTAEGEGHKIIGYVGENEHDEAQFIAKEIDRLQDEDNLRPGDVAIFYRTNAQSRSIEDVLVRVGLPYKVVGGTRFYERKEIKDALAYLRVLVNPDDDVNLRRVLNEPKRGIGDRAEGAVAALAERERTSFMAAARRADQAPGMATRSVNAVLGFVKLLDDLVEVAAGSGAAAALEAVLEQTGYLATLRSSTDPQDESRVENLAELVAVVREYEQENPEGSLEAFLEQVSLVADADQIPDAPGGDAEDTAAAVAEAKRLGVVTLMTLHTAKGLEFPVVFLTGMEHGLFPHQRSATDPKELAEERRLAYVGLTRARKRLYVTRSEVRNMWGQSQYNPASQFLEEIPSELVEWKREGTSRQAGGWGSGASIGSSRYGGSFWGAGTARGNLPDSSAGFKADVPAAVAKNRVQPQKEVIAVSVGDKVNHTSFGNGTVLAVEGAGDKTVAKVKFDIGEKRLLLRYAPLTKLDA				NA	NA	NA	NA	NA
D1-17_03152	912	cysQ		3'(2'),5'-bisphosphate nucleotidase CysQ	GTGTCCATTATCGCCCGCTGGGCCTGCTGTGCAGTGTCTGCGGCCGCCGATAGGCTGGGGACCGTGACGGAACTCGGCAGACATAAACTCGGCAAACACAGCGCCTCCACTTTGAGCCCCTCCCTCGACGACTTCGAGCTGGCCGCCGCGCTGGTGCGCGAGGCAGGACTGCTGGCCCTGATGATGCGGCAGGGCGGGCTGGATGCCCAGCGCAAGACGTCGGTTTCCGACATCGTCACCGCGGCCGACCATGCCGCGGAGGCCTACGTCCTGCAACAGCTGCAGAACTGCCGGCCGGACGACGGCGTCTTGGGGGAGGAAGGCGCAGCCGTCCATGGCAGCAGCGGCCGCACCTGGGTCATCGACCCCGTGGACGGAACGTACAACTTCATGCAGGGCTCCACGTACTGGTGTTCTGCGATAGCCCTCAAGGACGAATCCGGCGTTCTGCTCGGCGCCATCTACCAGCCGGAAGAGGACAAACTATGGCTCGGGGGCACCGGGCGGCCGGCCACGCTCAACGGTGATCCCGTGACCACGTTCAGCGCGGACGGCGCCCAGCGCGCCGCACTTCCCCTCTCGGACCTCGGGGCCGCCACCTACATCCACCCGCGGTGGCTCGCGGACCCCATGTGCGCCATGCCGTGGCATGCCGCCGCCACGTCTGCGGCCACGCTCCGCATGCTGGGATCAGGCTCCTGTGACCTGGGCCGGGTCGCCGACGGCGAGATCGGCTGTTGGTTCCAGCACAGCTGTCCTGAGTGGGACTGGCTTCCAGGTAAAGCGATCGTGCTCGCGGCAGGCGGTGCCGTGGGCACGGTGCACGTGAACGGCCTTGAGTGGTTCATGGCAGGGGGCGCGACGGCGGTACATCAGTTGAGGGCAGCCCTCGAGTCCGGATCCGTGGACTAG	MSIIARWACCAVSAAADRLGTVTELGRHKLGKHSASTLSPSLDDFELAAALVREAGLLALMMRQGGLDAQRKTSVSDIVTAADHAAEAYVLQQLQNCRPDDGVLGEEGAAVHGSSGRTWVIDPVDGTYNFMQGSTYWCSAIALKDESGVLLGAIYQPEEDKLWLGGTGRPATLNGDPVTTFSADGAQRAALPLSDLGAATYIHPRWLADPMCAMPWHAAATSAATLRMLGSGSCDLGRVADGEIGCWFQHSCPEWDWLPGKAIVLAAGGAVGTVHVNGLEWFMAGGATAVHQLRAALESGSVD	PGPT0018535_2509	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
D1-17_03153	666			hypothetical protein	ATGGCCAAGACACCTGCACAGCGGATCAAGAAGCACGGCGCAAAGGCGGTGGTCCCGGAGCACCATCTGCCGCCGGTAATCAACCCCACCACCACCCGCTCGCCGCGGAAGGCCCAGAACAACAGCAACGTCATTGTGGTTGCAGGCGTCGTGGCCAGCCTCTTCCTGTTCTGGTATCTGCACCTGCTGACGCTGAGCCAGCTCACCCAGCTTTCCGGCGGCCTGCCGATGCCCGACTCGCTGGTCGGCGGCTTTGATCAGGCGTTCGTGGAGCAACTGAGGCGCGTCCTGACGGGCGATGCCCTGGGCCAGCTGAACTACCTCCACAAGACCGCCGGCACACTCTTTCCGCTGATCTTCGGCTTTACGTGGCTTCTCCTGATCGGCTCCAACGTGGCCGCGAAGCGGCTGCGCTGGGCCCTGTGGTCCCTGCCGCTGCTGTTCGTGGTGGCCCGGCTGTGGGGCAACGTAGCTATCGACGCCATGATCTCCGCTCCTGTGCTGCAACCCGGGCAGGTCGCCCTGGCATCGGGCCTTACTGTTGCCGGCTGGGTGCTGCTGGTGCTGAGCCTGGTCGCCGGCGGCGCCGCCGTCCTGATGGGACGCGGGTCGCCAAAACCGGGACGCGGGCCGGCAAAGCCGGCTCCGGAGACCGCCGCAGGCTAA	MAKTPAQRIKKHGAKAVVPEHHLPPVINPTTTRSPRKAQNNSNVIVVAGVVASLFLFWYLHLLTLSQLTQLSGGLPMPDSLVGGFDQAFVEQLRRVLTGDALGQLNYLHKTAGTLFPLIFGFTWLLLIGSNVAAKRLRWALWSLPLLFVVARLWGNVAIDAMISAPVLQPGQVALASGLTVAGWVLLVLSLVAGGAAVLMGRGSPKPGRGPAKPAPETAAG				NA	NA	NA	NA	NA
D1-17_03154	771			hypothetical protein	ATGGCCGCCGCACCTTCCGCACCCTCCGTCCGGGGAACTTTCCTGCCCGATACCGCCACCACCCGCCAGTACATCGGCGCCTGGGCTGTGCTGAGCGTGGTGCAATATTTCGTTGCCGAAGCGGCCGTCATTGAGGCCTGGGCCGGGCCCCAGCCATACGACCGGCGCACCGGGTTCATCAGCGACCTCGGCGCAGTCCACTGCGGGATCTTCGACGGCAGGAACGTCTGCTCACCACTCCATGGACTGATGAACGCGTCCTTCGTGGTGCAGGGACTGGGCATGCTGCTGGGCGCCCTGCTGCTGAGCTCGGCACTGCTGAGGATTGCAGCCCGCCCGGAGGTGCGGGTCGCCGTGACACACTCCGGCGAGGTGCCGTGGTTTGCGGCCGTCGGCGCGCGCCTGCTGACCGGAACCGCCGGCACCGGAACCGTCATTGTGGGTCTGGTGCCCGAGGACGTGGGATCGGGCTGGCACTACGCCGGCGCCGTGATGTTCTTCGCCGCAGGGTCCCTCGCGCTGCTGCTGCTGGGCGGGCTCTGGCTGAAACAGACCCCGGTGGGCTGGTTCATCCTCTCCTGCGGCATCGTGTCCTTCAGCGCCCTTGTCACCGGGGGAGTGACCGGCATGAAGGTGCCGGAACCCGGAACGCTCGAGCGGCTGATGGGCTACCCGATCACCATCGGCCTGGCAGCGGCCGGCCTGGTGATCGCCCAGCGCGTCCACCATGAGCGCTCCATCCGGAAAGCCCAGGGCGTACGGACGGCTTAG	MAAAPSAPSVRGTFLPDTATTRQYIGAWAVLSVVQYFVAEAAVIEAWAGPQPYDRRTGFISDLGAVHCGIFDGRNVCSPLHGLMNASFVVQGLGMLLGALLLSSALLRIAARPEVRVAVTHSGEVPWFAAVGARLLTGTAGTGTVIVGLVPEDVGSGWHYAGAVMFFAAGSLALLLLGGLWLKQTPVGWFILSCGIVSFSALVTGGVTGMKVPEPGTLERLMGYPITIGLAAAGLVIAQRVHHERSIRKAQGVRTA				NA	NA	NA	NA	NA
D1-17_03156	504			hypothetical protein	TTGAATCTGCAGCCGTATCCAGGGCTCCGCGCTTACCTCCTGGGCGCCGCGCCTCCGGACGCCCCCACCGTGGCGCGCTGGTTGGTGGAACGCACGCTCTTCGACCGGTCGGCGGGCACCCGTGGAACCTTTACCGGCGTCGCGGTCTTCTCAGCAAACGGGGACCGCGGGCTGCGCTTCCGCGAGGAAGGCACCGTCCGCTGGCCTGCTGAGGGCGGGGAAATTTTCACCGGACCTGCCACTCGGGAGTACCTGCTCGTGCCGACCGGCTCCCCCGACGCCCTGGACATGACCTTTCCCGACGGTCGGCCCTTCCACCGGATGAGCTTCACACCGGAGGCGAGCCAGGACCGGCACTGGTGCGACCCTGACACCTACCGTGTCACCTACACACTGCTGGGTCCCGGGGAGTTCAGTTACGTCTGGGATGTCACCGGCCCCCGGAAGAACCTGCTGTTGGAATCCTTGTTGCGGCGGCAGCCCGGGCCGCCCGGCGGAAGCTAG	MNLQPYPGLRAYLLGAAPPDAPTVARWLVERTLFDRSAGTRGTFTGVAVFSANGDRGLRFREEGTVRWPAEGGEIFTGPATREYLLVPTGSPDALDMTFPDGRPFHRMSFTPEASQDRHWCDPDTYRVTYTLLGPGEFSYVWDVTGPRKNLLLESLLRRQPGPPGGS				NA	NA	NA	NA	NA
D1-17_03157	408			hypothetical protein	GTGAATCCCCGCATCATTGTCTCCGCCGTCTGTGTCTATGACTCCACCGGCCGGCTCCTGACCGTCCGCAAGCGCGGTACCGACAAGTTCATGCATCCGGGCGGCAAACCCGAGCCCGGCGAATCCGCGGTACAGGCTGCTGCCCGGGAACTGCAGGAGGAGGTGGGCATTGTTGTGGACCCGCGCGAGCTGGAGCTGATGGGCGTATGGCTTGCACAGGCTGCCAACGAGGCCGCCACCGAAATTGAGGCAACGGTTTTCAGGGCGCCGGGTGTTTGGGAAGCGCATCCCTCGGCCGAGATCGCGGAGATCCGGTGGCTCGACCTGTCGGCGGAACTGCCCGGTGACCTGGCGCCACTCCTCACCGACCATATCCTGCCGGCGCTCGCAGCGGCCCGGCCCAGCTAG	MNPRIIVSAVCVYDSTGRLLTVRKRGTDKFMHPGGKPEPGESAVQAAARELQEEVGIVVDPRELELMGVWLAQAANEAATEIEATVFRAPGVWEAHPSAEIAEIRWLDLSAELPGDLAPLLTDHILPALAAARPS	PGPT0021230_1511	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
D1-17_03158	1914		COG1132	putative ABC transporter ATP-binding protein	ATGAGCATGGATGGCGTCGCCTGGCGCTCGCTGTACAACATCACCAGGGCCAAGAGCGGTTCCAAACCGTTTTCGAAGGAGACCCTGAAGCGCGTCATGGGGTTCGCCCGCCCGCACCGGGGCCGACTCGTCGCCTTCGTCCTCGTGTCTGTTGCCATGGCCTTTCTGGCCGTGGCAACGCCGGTTCTCGCCGGCCAGGTGGTGGATGCCATCGTGGCGGCGGCCGGCGCGGAGGTGGTCTTCCGCCTTGCGGCGCTGATCGCCGGCGTGGCCGTGGCAGAGGCCGCGCTCGGCATGGTGAGCCGCTGGCTCTCTGCGACCATCGGGGAAGGCGTCATCCTCGACCTGCGCACAAGGGTGTTCGACCACGTGCAGAAAATGCCGATCGCGTTCTTCACGAGGACACGAACCGGTGCCCTCGTCAGCAGGCTGAACAACGACGTCATCGGAGCGCAGTCGGCCTTCGCCGGAACACTGTCCGGCGTGGTGAGCAACGTCGTGGCGCTCATCCTCACCCTCGTGGTCATGCTGAACACCTCCTGGCTGGTCACCGTGCTGGCGATGCTCCTGCTGCCCATCTTCCTCATCCCGGCCCGCCGGATGGGTTCGAAACTGGCGGACCTCCGGCGCGAAGCCGCAGAGCACAACGCCGCCATGGGCACCCAAATGACGGAGCGTTTCTCCGCCCCGGGCGCCACGCTCGTGAAGCTCTTTGGACGCCCGGCAGAGGAATCCCGCGAGTTCGCCGTGCGTGCCGGCCGTGTCCGTGACATCGGCGTGCGGACAGCGATGTTGCAGTTCACTTTCGTCACAGCCCTGACGCTGGTCTCGGCACTGGCCCTGGCACTCGTGTACGGCCTCGGTGGCTGGCTCGCAGTTGAGGGCCAGCTCGCAGCCGGCGACGTCGTCGTGCTGGCCCTGCTGCTGACCCGCCTCTATGCGCCGCTCACGGCCCTCTCCAACGCCCGGGTGGAGATCATGAGCGCCCTGGTGAGCTTTGAACGCGTCTTCGAGATCCTCGACCTCAAGCCGCTCATCCAAGAGAAACCCGACGCCGTGGAGGTACCGCCGGGACCTGTGGCCGTGGAGTTCGACGATGTGCGGTTCGCCTACCCCTCTGCTGACAAGGTCTCCCTGGCCTCGCTGGAAGAGGTTTCCACCCTGGACACCCGCGGCGGTGAAGAGGTGCTGCACGGCATCAGCTTCCGCGTCGAACCGGGCCAGACCGTAGCACTCGTCGGTTCCTCCGGGGCCGGCAAATCCACCATCGCCCAGCTGCTCTCCCGGCTTTACGACGTCGACTCCGGCGCCGTCCGGCTTGGCGGCCAAGGTCCGAAGGCAGGGCTGGACGTCCGGGACCTCACCTTCGACTCCATGCGGGCAACTCTGGGCATGGTCACCCAGGACGGGCACCTCTTCCACGAAAGCATCGCCTCCAACCTGCGGCTGGCCCGACCGGAGGCCACGGAGCAGGAGATGTGGGATGTGCTGCGGCAAGCCCGGCTCGAGTACATGGTCCGGTCCCTGCCGGACGGCCTGGACACCGTGGTGGGGGAGCGCGGCTATCGGCTTTCCGGGGGCGAGCGCCAGCGCCTGACTATCGCCCGGCTGCTGATTGCCCAGCCGCGCGTGGTCATCCTCGACGAGGCCACCGCTGCCCTGGACTCCACCAACGAAGCCGCCGTGCAGGCGGCGCTGGGCGCCGCGCTCGAGGGGAGGACCGCCGTCGTCATTGCGCACCGGCTCTCCACCATCCGTGCCGCGGACGTGATCATGGTGGTGGAGGACGGCGCCATTGTGGAACGCGGAACCCATGCCGGGCTTCTGGCCGCGGACGGCCGCTACGCCGAGCTGTACCGCACCCAGTTCGCCGAGGCAACGGCTGTGGCCGAGGACGCCGTTCCGGAACTCTGA	MSMDGVAWRSLYNITRAKSGSKPFSKETLKRVMGFARPHRGRLVAFVLVSVAMAFLAVATPVLAGQVVDAIVAAAGAEVVFRLAALIAGVAVAEAALGMVSRWLSATIGEGVILDLRTRVFDHVQKMPIAFFTRTRTGALVSRLNNDVIGAQSAFAGTLSGVVSNVVALILTLVVMLNTSWLVTVLAMLLLPIFLIPARRMGSKLADLRREAAEHNAAMGTQMTERFSAPGATLVKLFGRPAEESREFAVRAGRVRDIGVRTAMLQFTFVTALTLVSALALALVYGLGGWLAVEGQLAAGDVVVLALLLTRLYAPLTALSNARVEIMSALVSFERVFEILDLKPLIQEKPDAVEVPPGPVAVEFDDVRFAYPSADKVSLASLEEVSTLDTRGGEEVLHGISFRVEPGQTVALVGSSGAGKSTIAQLLSRLYDVDSGAVRLGGQGPKAGLDVRDLTFDSMRATLGMVTQDGHLFHESIASNLRLARPEATEQEMWDVLRQARLEYMVRSLPDGLDTVVGERGYRLSGGERQRLTIARLLIAQPRVVILDEATAALDSTNEAAVQAALGAALEGRTAVVIAHRLSTIRAADVIMVVEDGAIVERGTHAGLLAADGRYAELYRTQFAEATAVAEDAVPEL				NA	NA	NA	NA	NA
D1-17_03159	1656	ettA_3	COG0488	Energy-dependent translational throttle protein EttA	ATGACGGCAACCCTAGTTGCGAAGGACCTGGCGGGCGGTCATGATCACCGCACCCTCTTCTCAAAACTTTCCCTGACAGTAGCACCGGGCGACGTAGTTGGCGTTGTCGGGGCCAACGGGGCAGGCAAGTCCACACTGCTCCGGCTGCTGGCCGGCGTCGACCTGCCGCTGGAAGGTGCTGTCAGCCTGGCTCCGGCCGACGCCTTTGTCGGCTGGCTCCCCCAGGAGCATGAGCGGGTCGCCGGGGAGACGGTGGGCGCTTACATAGCCCGCCGCACCGGTTGCGCCGACGCTACCGCTGACATGGAGGCCGCCGCTGATGCCCTGGGCGGGGGAGCGCCCGGCGCCGAAGATGCGTACGCCCTGGCTTTCGACCGCTGGATGGCGTCCGGGGCTGCGGATCTGGATGAGCGGATTCCCCCGGTCCTCGCCGACCTGGGTCTGGATGTCGGAGCGGACGCGCAAATGTCCGGTCTCTCCGGCGGGCAGGCCGCCAGGGCCGCGCTCGCGGCGCTGCTGCTGAGCCGGTTCGACATCGTGCTGCTTGATGAGCCGACGAACGATCTTGACCTGGACGGCCTGGCCAGGCTTGAAGCCTTTGTGCAGGGGCTGCGGGGCGGAGCCGTGCTGGTCTCGCACGACCGCGAGTTCCTGGCCCGTTGCGTGACCAGGATTGTTGAGCTGGACCTCGCCCAGAACGCCGTGGCGGTTTACGACGGCGGCTACGAGGCGTTCCTGGAGGAGCGCGCCGTCGCCCGCCGGCATGCCCGCGAACGGTATGAGGAGTTTGCGTCCACGAAGGCGGATCTGGTGTCCCGTGCAAGGACGCAGCGCGAGTGGAGCTCCCAAGGTGTCCGGAACGCGATGAAGAAGAACCCGGACAACGACAAGATCCGGCGTGCGGCGAGCACCGAATCATCCGAAAAGCAGGCGCAGAAGGTCCGGCAAATGGAATCGCGCATCGCCCGCCTCGACGTCGTCGAGGAGCCCCGCAAGGAATGGCAGCTGCAGTTCAGCATCGGCCAGGCGCCGCGTTCCAGTTCCGTGCTGGCCACACTCCGGGACGCCGTGGTCCGGCAGGGCGATTTCACACTCGGCCCGGTCAACCTGCAGCTCAACGCCGCTGAACGGATCGGCATCACCGGTCCGAACGGTGCGGGCAAGTCGACCCTGCTTCGCCTACTGCTCGGGGTCCAGGAACCGGACTCCGGCAGTGCCTCCAGGGGTGTGTCAATCGCAGTCGGCGAGATCGACCAGGCGCGCGGGCTGCTGGCCGGACACCTGACCTTGGGAGCCGCCGTCGAACGGGTGCTGGCAGACCAGACGCCGGCGGAAGTGCGGACGCTGCTGGCCAAGTTTGGCCTCAAAGCGGACCACACCTCACGGACGGTGGACTCGCTCTCACCCGGAGAACGCACCCGCGCTGCCCTCGCCCTGCTGCAGGCCAGGGGCGTTAACCTGCTGGTCCTGGATGAGCCCACCAACCACCTGGACCTGCCGGCAATCGAACAGCTTGAGCAGGCGCTTGACAGCTATGAGGGCGCGCTCCTGCTGGTCACCCACGACCGCCGCCTGCTCGACAACGTCCGGCTGGACGCCCGCTGGAATGTGGACAGGGGAGTGGTTGCTGAAGCTGGAAGCGGCACAACTTCATGA	MTATLVAKDLAGGHDHRTLFSKLSLTVAPGDVVGVVGANGAGKSTLLRLLAGVDLPLEGAVSLAPADAFVGWLPQEHERVAGETVGAYIARRTGCADATADMEAAADALGGGAPGAEDAYALAFDRWMASGAADLDERIPPVLADLGLDVGADAQMSGLSGGQAARAALAALLLSRFDIVLLDEPTNDLDLDGLARLEAFVQGLRGGAVLVSHDREFLARCVTRIVELDLAQNAVAVYDGGYEAFLEERAVARRHARERYEEFASTKADLVSRARTQREWSSQGVRNAMKKNPDNDKIRRAASTESSEKQAQKVRQMESRIARLDVVEEPRKEWQLQFSIGQAPRSSSVLATLRDAVVRQGDFTLGPVNLQLNAAERIGITGPNGAGKSTLLRLLLGVQEPDSGSASRGVSIAVGEIDQARGLLAGHLTLGAAVERVLADQTPAEVRTLLAKFGLKADHTSRTVDSLSPGERTRAALALLQARGVNLLVLDEPTNHLDLPAIEQLEQALDSYEGALLLVTHDRRLLDNVRLDARWNVDRGVVAEAGSGTTS	PGPT0027935_200	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
D1-17_03160	777			hypothetical protein	ATGCCACTCCCCGCCAAAGCGTTCCAGCGCTGGCTGCACGGCATTGCCCCCGATACCAGCATGGCCGACGTCTGCAGGCTGTCCAAGGTAAAGCGAACCACCCTGGCGCAGCAGCTCGTGCGGGGCAAGGTAGCCGAAGCGACGGTTGTGAGCATCAGCCGGGCATTCAACACTGACCCGGTAGCTTCGCTCGCCTTCTTCGACACGTACCGCGACCTCGCCGGACCCCCCATCCCGCCCCGCCAGGAAGAACTCGTCAGCCAGATCGCCACCGTGGACCTGCTGCGGGAGGTCATCGCCCGCACTGTTCCGGGGGCGGATGGCGCCCCAGGCAGCGAAGGCGGCGTGCCCACAACAGGAGCTCAAGGCCCGGTGGAGGACTGGGAGCTTAGCCCCATACCCCATGCCACTTCCGTGAAGAACTGGGTTGACGCCATCGACGACGGCGAACTCCGGCACCGCGTGTCAGCCGCCACCGGGATCGCGCCGCAAAATTACTCCGCGCAGCTGAGCGCGAACCGGCTTGCGCCCGAAGTTGCGATCGCCACGTCGCGGGCGGCCGGCGTCGGGCTGGCCGACGGCCTGGTCGCCTCGGGCCTGATCACGGAAGCCGAAGCCGGCTGGCCGCCCGGCGCCCGCAGGGCCGCTTTGGACAGGCTTTCGGACGGGGCACTCACGGCGCTAGCGGGCGAGAGGCTCCAGGCGCTGGGCAGAACCCTGCGCCGGCAGGAACAAGACCACGAACAAACCGAAAAAATCTGGGAGAACCTGGGATGA	MPLPAKAFQRWLHGIAPDTSMADVCRLSKVKRTTLAQQLVRGKVAEATVVSISRAFNTDPVASLAFFDTYRDLAGPPIPPRQEELVSQIATVDLLREVIARTVPGADGAPGSEGGVPTTGAQGPVEDWELSPIPHATSVKNWVDAIDDGELRHRVSAATGIAPQNYSAQLSANRLAPEVAIATSRAAGVGLADGLVASGLITEAEAGWPPGARRAALDRLSDGALTALAGERLQALGRTLRRQEQDHEQTEKIWENLG				NA	NA	NA	NA	NA
D1-17_03161	744			hypothetical protein	ATGATCGAAATCCTGCAGTGGACAACCCTTGCTGCCTGCGCCGCTGCCGCCTTATGGCGCATTCCAAGCTTCCGCAAGAAGAAGAACAGGTCCCTGTTCTACATCTTCGCTTTGCTGACACTGGCCATTCTGCTGAGCATCAAGGGGCCTTATGCCGCCATTGACGGCCTCCTCGGCGGCATGAACGTGGCCAACCTTCTGCTGCGCTTCATCATCTTCGCAGCCATCTACTTCCTGGGCATCCGGATTGCCACGGGCTTTGGGGACAACGGAGGCCTGACCCTCATCAGAGGGCGGTCCGGCGTCCTGGTCCTGGGTCTGATCTCCGTTGCGCTGGTGATCCTGTTTGCCCTTATGGACACTGAAGGGTCGTCCGCCGGCATGATAGCGGTGGGCGGGAAAGACGAGCGCAACGCAGCACTGGTTGAGTTCTACGGCGCTGCAGGACGCGCTTATCCCGCCTACATCTGCCTGGCCATCCTCCCCGGTCTGATGCGGGCCGTGGGCAGCACGCTGCCGGTCCCGCTCCGGATCAGCGCCCTGCTGATGGCCGTCGGCGCAATCGCCATACCGCTGAGCCTGCTGTTTCCTGTCATTCCTCCGGCACTGGGCTTCCTGCCGTTCATCATCAACTACACGGCCATTTTGTGCTTTGTTGGCGGATTCATGCTCGTCTGGGTGGCGAAGGGGCGGGCAGCAAGGAAACAGCCAGCCGGCAGGCGCCATCCCGTTGCCGGCAACTAG	MIEILQWTTLAACAAAALWRIPSFRKKKNRSLFYIFALLTLAILLSIKGPYAAIDGLLGGMNVANLLLRFIIFAAIYFLGIRIATGFGDNGGLTLIRGRSGVLVLGLISVALVILFALMDTEGSSAGMIAVGGKDERNAALVEFYGAAGRAYPAYICLAILPGLMRAVGSTLPVPLRISALLMAVGAIAIPLSLLFPVIPPALGFLPFIINYTAILCFVGGFMLVWVAKGRAARKQPAGRRHPVAGN				NA	NA	NA	NA	NA
D1-17_03162	741			hypothetical protein	ATGATCGAGACCCTGCAATGGATCACCCTGATCGTGTGCGCCACCGCGGCCCTGGCCCGGATTCCGAGCGCCCTGCAGGGCAGGAACCGCTCGCTTTTCCTGATTTTCCTGCTGGCCACAGCGGCAGCCATCCTGAGCATGGAACAGTTCTATCTGCCGGCCGACCGCGCCATTGGCGGAATGAACATCGCCAGCGTCCTCCTGCGGCTGATCATTTTCGCCACGATCCACCTGATCGCTTTGCGGGTGAGCAAGGCTTTTGGCGATGCCGGGGCATACCGCCTCATCTCCGGCCCGGCCGGACTCACCGTTCTGGCCGTTTTCGCGGCTGCCCTGGTCGGCATCTTTGCCATGATGGACCCTGCCGCTTCCTCCCTGGGCCTGGCGGACGTCGGCGACGAGAGCGCCCGGAATGCCGCACTGCTTCCTTTCTACTGGACCGCTGCGAGAGGCTATCCGGCGTATGTCGCCCTCGCCCTCCTTCCCTGCCTTGTCCGGACCGTTAACAGCAGCCTGGCGGGCCTCGTCCGCACGGGTGCGGCACTTATGGCGGCCGGTGCAGCGGCAACCGCCGCGGGGTTTCTGCTTGAGTTCAGCGGTCCCTCCCTCAACCTTCTGCGCTCGGCGGTCAACAACGCGGCCGTGGTTTTCTTCATCCTGGGTCTGGCAGCGGTCTGGCTGGCACGGGTGCGGGCCACAGGGCCTGGGATCCCGGGAAAAGAGCGGAGAAGGGCATCCTGA	MIETLQWITLIVCATAALARIPSALQGRNRSLFLIFLLATAAAILSMEQFYLPADRAIGGMNIASVLLRLIIFATIHLIALRVSKAFGDAGAYRLISGPAGLTVLAVFAAALVGIFAMMDPAASSLGLADVGDESARNAALLPFYWTAARGYPAYVALALLPCLVRTVNSSLAGLVRTGAALMAAGAAATAAGFLLEFSGPSLNLLRSAVNNAAVVFFILGLAAVWLARVRATGPGIPGKERRRAS				NA	NA	NA	NA	NA
D1-17_03163	831	tcyA	COG0834	L-cystine-binding protein TcyA	ATGAACCGCTTTCCCACTCGCCGCAGTGCGGTCGCCGCCACCCTCGCTGGCCTTGCCCTGGCACTGTCCGGCTGCGGCGGAGGCACAGGAGGCGGTTCAGAGACCCCCGCCACCGCAGGCTCAGACACGTCCCTCAGCGACGTGAAGACCAGGGGTGAGATCGTCATCGCCACCGAAGGCACGTACAAGCCGTTCAGCTTCCACGCCGAGGGCGCCGGCGACCTCACGGGCTTCGACGTGGAGGTTGCCAAGGCTGTCGCGGAGAAGCTGGGAGTAAAGGCCCGGTTCGAGGAGACCCAGTTCGACGGCATCTTTGCCGGCCTCGACGCCAAGCGCTTCGACACAATTGCCAACCAAATTTCCATCAATGCCGAGCGCAAGGCGAAATACGACTTCTCCACCCCGTACACGGTGTCTACCGGCGTGATTGTGACCAAGGCGGACGACTCCAGCATTACCAGCTTCGAGAGTCTCAAGGGCAAGACGACTGCCCAGTCGCTGACCAGCAACTTCTACAAGATGGCAGTGGATGCCGGCGCGAACGTCCAGTCCGTCGAAGGCTGGGCACAGGGCGTTGCACTGGTTCGGCAGGGTCGGGTGGACGCAATCGTCAACGACAAGCTCACCTACCTTGACTACGCCAAGACCAATCCTGACTCCGGGTTGAAGATTGCGGCTGAAACCACCGAAAAGTCGGAGAGTGCGTTTGTCTTCCGCAAGGGTTCCACCGAACTGACCGCCGCCGTGGACAAGACCCTGGCCGATCTGCGCGCCGACGGCACCCTGGCCAAGATCTCGGAAAAGTATTTCGGCGCGGACGTCACCAGGTAA	MNRFPTRRSAVAATLAGLALALSGCGGGTGGGSETPATAGSDTSLSDVKTRGEIVIATEGTYKPFSFHAEGAGDLTGFDVEVAKAVAEKLGVKARFEETQFDGIFAGLDAKRFDTIANQISINAERKAKYDFSTPYTVSTGVIVTKADDSSITSFESLKGKTTAQSLTSNFYKMAVDAGANVQSVEGWAQGVALVRQGRVDAIVNDKLTYLDYAKTNPDSGLKIAAETTEKSESAFVFRKGSTELTAAVDKTLADLRADGTLAKISEKYFGADVTR	PGPT0015635_392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0015635-fliY|tcyA|yckK-K02424	NA	NA
D1-17_03164	666	tcyB_3	COG0765	L-cystine transport system permease protein TcyB	ATGCCGTTGAACTGGGACCTCGTCTGGAGTTCCTTCGGCCCACTTATCTCCGGCGCCGTCACGGGGACGATCCCGCTGACACTGGCTTCCTTCGCCCTCGGCCTGGCACTGGCGCTGGTCGTTGCGCTCATGCGGTTAAGCCAGAGCACCGTGCTGTCAGGAGCGGCGAGGTTCTACGTCTCCGTCATCCGCGGAACCCCGCTGCTCGTGCAGCTGTTCGTGATCTTCTACGGTCTGCCCACCATTGGCGTGAAGCTTGACCCTTGGCCCAGCGCCATCATCGCGTTTTCCCTCAACGTGGGAGGCTACGCGGCGGAGATTATCCGGGCGGCCATCCTCTCGGTACCCAAGGGGCAGTGGGAGGCCGGGCACACCATCGGCATGTCGCGGGGCCAGTCCCTGCGCCGCATCATTCTGCCGCAGGCAGCCCGGGTTTCCGTGCCGCCGCTGTCCAACACGTTCATCTCTCTGGTCAAGGACACGTCCCTTGCCTCGCTGATCCTGGTCACCGAGCTCTTCCGGAACGCGCAGCAGATCGCCGCGTTCAGCCAAGAGTTCATGGTGCTGTACCTGGAGGCCGCACTCGTCTACTGGGTCATCTGCCTCGCGCTGTCCTCGGGACAATCCGCCCTCGAGAAGAGATTGGACCGCTATGTCGCCCACTAG	MPLNWDLVWSSFGPLISGAVTGTIPLTLASFALGLALALVVALMRLSQSTVLSGAARFYVSVIRGTPLLVQLFVIFYGLPTIGVKLDPWPSAIIAFSLNVGGYAAEIIRAAILSVPKGQWEAGHTIGMSRGQSLRRIILPQAARVSVPPLSNTFISLVKDTSLASLILVTELFRNAQQIAAFSQEFMVLYLEAALVYWVICLALSSGQSALEKRLDRYVAH	PGPT0020715_1072	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020715-tcyB|yecS-K10009	NA	NA
D1-17_03165	837	tcyC	COG1126	L-cystine import ATP-binding protein TcyC	ATGTCGCCCACTAGCCCTCCCGCGGGAGCTTTCCCCGGCCAGCCGCCCTCCACTGGAAAGCCCCGGTCGAAACCTGTGCTGAGTGTCCGCAACCTGGCGAAAGCGTTCGGCAGCAACGTGGTGCTCCGCGACATCGACCTGGACGTGCGCCGCGGCAATGTGGTGGCCCTCATCGGGCCCTCCGGTTCCGGCAAGACCACCGTGCTTCGTTCCCTGAACGGGCTGGAAACCCCCGACGCCGGCACCGTTACGTTCGCGGACACTGCCAAGGGAAAGGACCTGTCGCTCGATTTCTCGGCGCGGGTAACGCGTAAGGACGTCGCGGAATTGCGCGACCGCAGCGCCATGGTTTTCCAGCACTACAACCTGTTTCCGCACATGACCGTCCTGCAGAATGTCATTGAAGGCCCGGTTCAGGTGCAGAAGCGCAAGCGGGCGGAGGCAGTTGCCGAGGCGGAGAAGCTGCTCGCCCGCGTGGGCTTGGCAGACAAGCGCGATTCCTACCCGTTTGAGCTCTCGGGCGGGCAACAGCAGCGTGTGGGAATTGTGCGTGCCCTCGCCCTGAAGCCCCAGCTGCTGCTGTTCGACGAGCCCACCTCGGCGCTGGACCCCGAACTGGTGGGCGACGTGCTGGGGGTCATCCAGGAACTCGCTGAGGAGGGCTGGACCATGGTGATCGTTACCCATGAACTCGCCTTCGCGCGCCAGGTGGCAGATGAAGTCATCTTCATGGACGGCGGCGTCGTCGTGGAGCGCGGTCCCGCAGCAGAGGTTCTGCGGGCTCCACGCCAGGAGCGCACCCGCCAATTCATCAAGCGGCTGCTCCATGAATTTTGA	MSPTSPPAGAFPGQPPSTGKPRSKPVLSVRNLAKAFGSNVVLRDIDLDVRRGNVVALIGPSGSGKTTVLRSLNGLETPDAGTVTFADTAKGKDLSLDFSARVTRKDVAELRDRSAMVFQHYNLFPHMTVLQNVIEGPVQVQKRKRAEAVAEAEKLLARVGLADKRDSYPFELSGGQQQRVGIVRALALKPQLLLFDEPTSALDPELVGDVLGVIQELAEEGWTMVIVTHELAFARQVADEVIFMDGGVVVERGPAAEVLRAPRQERTRQFIKRLLHEF	PGPT0020720_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0020720-tcyC|yecC-K10010	NA	NA
D1-17_03166	3027			hypothetical protein	TTGCACGACGACCGCCGGATCACGGAAGTGCGCCTCGACCGATTCCTGCGGGAACGCATCGTGCCCGCAGTCTACTCACGCAGCGTGCCGCTGGCCCTGAGCAGCTGGGAAGCGCCTGACGAACCTGTCCCCGTCGCGGAGGCCCTGCTCCAGGACTTTACGCCGCAGGAACACGGCGCCGCCTGGGGCCGCCCCTGGGGCACGCTGTGGCTGCGTCTGCAGGGCGAAGTACCGGATTCCTGGGGGATGGCCCCGGATACAGAGGTGGAAATGGTGGTGGATCTGGGCTTCACCGCCGAAATTCCCGGCTTCCAATGTGAGGGAACGGCGTGGCGTCCGGACGGCAGCATCATCAAGGCAATTTCCCCCCGGAACCAGTACATTCCGCTAAAGCTGCTGGGCAGTGGGATGGCCGTGGACTTTTATGTCGAGGCCGCGGCCAACCCTGACGTCGCCCAGGGCTGGACCTTTGCCGCTACACCGTACGGAGACAAGACGACTGCCGGCGACCAGCCGCAGTACCGCCTCGGCAGCATCGCTATAGCGGAACTCAACAGGACAGTATGGGAGCTGCAGCAGGACGTCTGGACTCTGCGGGGGCTGATGCATGAGCTGCCGATGGAACTGCCGCGCCGCCACGAGATTCTCCGGGCGCTGGAGCGGATGCTGGATGTCATGGATCCGGACGACGTCCCCGGCACGGCAGCTGCAGGCAGGGCCGAGCTCGCCAATGTGCTGGCCAGGCCGGCGTATGCCTCTGCCCATCAGCTCGTCGCGACTGGCCATGCCCACATCGACTCTGCCTGGCTGTGGCCCGTCCGGGAGACCATGCGGAAGTGCGCACGGACGTTTTCCAGCGTCCTCGCCCTTATGGACGAGGACCCGGACTTTGTGTTCTCCTGTTCGTCCGCCCAGCAGATGGCATGGATTAAGGAGTTCTACCCCGAGCTGTTCGGCAGGATCCGCGAGAAAGTAAGGTCCGGACAGTTCGTTCCCGTCGGCGGGATGTGGGTGGAGTCGGACACGAACATGCCCGGCGGCGAAGCCATGGCGCGGCAGTTCCTTGAGGGCAAGAGTTTTTTCCTGGAGGAGTTTGGCATCGATTGCCAGGAAGCATGGCTTCCCGACTCTTTCGGTTACTCGGCTGCGTTGCCGCAGATCGTCAAGTCCGCAGGCAGCCGGTGGTTCCTTACCCAAAAGATCTCCTGGAACCAGGTCAACCGGATGCCGCACCACACCTTTAACTGGGAAGGCATTGACGGGACCCGGCTCTTCACCCACTTCCCGCCCGTGGATACCTACAACGCCGAACTGAGCGGTAGGGAGCTGGCCCACGCGGAGCGCAATTACCGCGACCACGGGTACGGCACCGTCTCGCTGATCCCCTTCGGCTATGGAGACGGCGGCGGCGGACCCACGCGGGAGATGCTGGCGGCAGCACACCGCGCCGCCGATCTCGAAGGTTCGCCCAAGGTCCGGATCGGGACGGCCCGCAGCTTCTTCGAGCAGGCCGAGGCCGAGTACAAAGCACTGCCGGTCTGGGTGGGCGAGATGTACCTCGAACTCCACCGCGGCACCTACACGAGCCAGGCCCGTACCAAACAGGGGAACAGGCGCAGTGAACACCTGCTCCGCGAAGCCGAGCTGTGGTGCGCCACAGCCGCCGTCCGGACAGAAGGGACCTACGCCTATCCCGCAGCCGAACTGAAGCGGCTCTGGCGGCTGGTGCTCCTGCAGCAGTTCCACGACATCCTGCCCGGCAGCTCCATCGCCTGGGTCCACAAGGACGCCGAACGGAACTACGCCGCTGTGGCGCGGGGACTCGAGAATCTCATTGCGCAGGCCGCGGCGGCTGTCCTGGGGGAGGGACCCACAGAGTTCCTGCTCAATGCCGGCCCCCACGAACGCCAGGGGGTTCCGGCGCTCGCGGCTGCCCCGGCGGTACACCCGGAAGAATCCATCCAGGCGGAACCGCGCGACGGCGGATTCCTGCTCGACAACGGGATCGTCCGTGCCGTGGTGGACGCCAACGGCCTGCTGACCTCGCTGCAGGACCGTGCGAGCGGACGGGAGGCGATAGCCCCGGGGGAGTTCGGCAACCACCTGGAACTGCACCGCGACACCCCGAACGAATGGGACGCCTGGGACATTGACGAGTTCTATCGGCGGAACGTCACTTCCCTGACCCAAGCAGCGTCCGTTGCGCTGGAGCGTCACGGCGGGGACGCCGTCGTCATGGTTGAACGGCTGGCGGGCAACTCCCGCATTACCCAGCGCATCACGCTGGCAGCGGGCAGCGCGGCGCTGGCAATCTCCACTGAAGTGGACTGGCAGGAACGGGAGAAACTGCTCAAGCTGGGCTTCCCGCTGGACCTCAGGGCGGACCGATCGGCAGCGGAGACGCAGTTCGGCCACGTTTTCCGGCCCACTCACGTGAACACGTCCTGGGAGGCAGCGAAGTTCGAGATCTGCGCCCACCGCTGGATCCATGTGGCCGAACCCGGCTATGGCGTTGCCATCGCCAACGCCTCCACGTACGGGCATGACGTCTCCCGGAACATCAGGGACGACGGCGGCTCTACCACCACCGTGCGGCTGTCACTGCTGCGCGCAACCAAGTTCCCTGATCCGCAGGCAGACCGGGGCCGCCATGTCCTCGACATCCTGATCCGGCCCGGCGCCGGCATCGCGGAGGCCGTCGAGGAAGGCTACCGTGCCAACCTTGCGCCGCGCACGGTAAAGGGAAGGCATGCCGTGGAGCCGCTGGTCTCCGTCGATAATCCGGCGCTCGTGGTTGAAGCCGTGAAGCTGGCTGAGGACGGGTCCGGAGACGTCATCGTCCGCCTCTATGAGTCACTGGGTGAGCGCTCCTCGGGGCGGCTGGCAGCCAACTTCCCAGTCCGTAGGATCCAGGCCGTGGACCTGCTGGAGTGTGCGGTCGAGGCACCCGGTGTGGCGACCGGAGTCGATACCGCAGACCTCACGCTGCGGCCCTTCCAGCTCGTCACCCTCAGGTTTGTCCGCTAG	MHDDRRITEVRLDRFLRERIVPAVYSRSVPLALSSWEAPDEPVPVAEALLQDFTPQEHGAAWGRPWGTLWLRLQGEVPDSWGMAPDTEVEMVVDLGFTAEIPGFQCEGTAWRPDGSIIKAISPRNQYIPLKLLGSGMAVDFYVEAAANPDVAQGWTFAATPYGDKTTAGDQPQYRLGSIAIAELNRTVWELQQDVWTLRGLMHELPMELPRRHEILRALERMLDVMDPDDVPGTAAAGRAELANVLARPAYASAHQLVATGHAHIDSAWLWPVRETMRKCARTFSSVLALMDEDPDFVFSCSSAQQMAWIKEFYPELFGRIREKVRSGQFVPVGGMWVESDTNMPGGEAMARQFLEGKSFFLEEFGIDCQEAWLPDSFGYSAALPQIVKSAGSRWFLTQKISWNQVNRMPHHTFNWEGIDGTRLFTHFPPVDTYNAELSGRELAHAERNYRDHGYGTVSLIPFGYGDGGGGPTREMLAAAHRAADLEGSPKVRIGTARSFFEQAEAEYKALPVWVGEMYLELHRGTYTSQARTKQGNRRSEHLLREAELWCATAAVRTEGTYAYPAAELKRLWRLVLLQQFHDILPGSSIAWVHKDAERNYAAVARGLENLIAQAAAAVLGEGPTEFLLNAGPHERQGVPALAAAPAVHPEESIQAEPRDGGFLLDNGIVRAVVDANGLLTSLQDRASGREAIAPGEFGNHLELHRDTPNEWDAWDIDEFYRRNVTSLTQAASVALERHGGDAVVMVERLAGNSRITQRITLAAGSAALAISTEVDWQEREKLLKLGFPLDLRADRSAAETQFGHVFRPTHVNTSWEAAKFEICAHRWIHVAEPGYGVAIANASTYGHDVSRNIRDDGGSTTTVRLSLLRATKFPDPQADRGRHVLDILIRPGAGIAEAVEEGYRANLAPRTVKGRHAVEPLVSVDNPALVVEAVKLAEDGSGDVIVRLYESLGERSSGRLAANFPVRRIQAVDLLECAVEAPGVATGVDTADLTLRPFQLVTLRFVR	PGPT0018760_1360	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018760-mngB|ypdB|manA-K01191	NA	NA
D1-17_03167	894	fdhD_2	COG1526	Sulfur carrier protein FdhD	ATGGGACGCGTGACGCAACGACGCAAGATTCACAGGTACGTCCTGGACGGGTCGCCGTCCGCCCTTGAGTTTCCGGTCCGGCACCGTGAAGACGTGCTCGCCGTGGAGGAGCCCCTCGAGATCCGGCTGGGCAACCTATCCTTCTCGGTCACCATGCGCACACCGGGGGATGACTTCGACCTCGTGGCGGGCTTCCTGGTTTCTGAAGGTGTCATCTGGAGCCCGGACCAGCTGATTTCGCTGCGGTTCTGTGCGGGCGAGGACGAAAACGGCGTCCAGACCTTCAACGTGGTGGAGGCCCAGCTCAGGCCGGACGTGGCCCTTCCGGACACCGGCCGCCATGTCTACACGTCCAGTTCCTGCGGCATCTGCGGCACCGACTCCATAGAGGCCGTGCGGAAGTCCTCCCATTTCCGCCCCGCTGAGGACACCCTGTCCGTCCCGGTCAATACGCTCGCGTCCCTGCCGGACCTGCTCCGGGAGGCACAGGCAGTCTTCGAGACCACCGGCGGCGTGCACGCTGCCGGCCTCTTCAGGATCGACGACGACGGCGGCGCCCGGCTGCTCTGCCTCCGCGAGGATGTGGGACGGCACAACGCAGTGGACAAGGTGGTGGGATGGGCACTGCGCGAGCGGCTCCTGCCGCTGTCCGGCACCGTGCTTCAGGTGTCCGGCCGGGCGTCCTTCGAGCTGGTGCAGAAGGCCGCCCTTGCGGGCATTCCGGTGCTGGCCGCGGTGAGCGCTCCTTCCAGCCTCGCCGTGGAACTGGCTGAGTCCAGCGGGGTCACGCTGGTCGGTTTCAGCCGGGGAAGCAGCCTCAATGTCTACACGGGCAGGGAACGAATATCGCTGCCGGCAGCCAAGCCGCTGCAGGAGCCGCAACCGCTTGGCTGA	MGRVTQRRKIHRYVLDGSPSALEFPVRHREDVLAVEEPLEIRLGNLSFSVTMRTPGDDFDLVAGFLVSEGVIWSPDQLISLRFCAGEDENGVQTFNVVEAQLRPDVALPDTGRHVYTSSSCGICGTDSIEAVRKSSHFRPAEDTLSVPVNTLASLPDLLREAQAVFETTGGVHAAGLFRIDDDGGARLLCLREDVGRHNAVDKVVGWALRERLLPLSGTVLQVSGRASFELVQKAALAGIPVLAAVSAPSSLAVELAESSGVTLVGFSRGSSLNVYTGRERISLPAAKPLQEPQPLG				NA	NA	NA	NA	NA
D1-17_03168	1452			hypothetical protein	ATGACATCGCCCCCCGCACATTCCGCCGACGGAGCCGCCCACCCGGTCAGTATTTCCGCCGAAGAATCCACCCAGGCAGCTTCTTTCGGTGAGACACCCGTCCACATGGCCCACACGTGGGAGGAGGCCCGGCAGGCGGCTTTTGACTGTGCCGCCCCGATTCCTCCCGGCCTGGTACCGCTGCGTGAAGCCTTGGGCAGGACCTTGGCCGAGGACATCACAGCGCTGCAGGACATGCCCCATTACGCCTCCTCCGCCATGGATGGCTGGGCCGTGAATGGTAGTGGCCCCTGGATCATCGCCGAGCCCGGGCAGCGGCTCGCTCCCCATCAGGCAAGTGCCATTGTGACCGGCGGGCTCCTTCCGCCAGGAGCCAAGGCCGTGCTGCGCAGCGAGAGCGGCGTCATGTCCACGGATGATGAGGGCTTGCCGGTCCTGGCCCTCGGCGGCTCAGCCCGTCCCGGTGAACCCCGCAACGGCCAGCACATCCGTAAAGCAGGGGAAGAAGCAGCGGCCGGTGAAGTGCTGGTCAAGGCCGGTGCCCGGATGAATCCTGCCCATGTGGCCCTTGCTGCCCTGGCCGGCTACGACGCCGTGCAGGTCCTGGGGAAGCCGGTGGTGAAGCTGCTGCTCACCGGTTCCGAAGTCGTGGAGCGCGGCCTGCCGGAACCGGGTAAGGTGCGCGACACCTTCGGCCCGCAGCTGGCCGGCGTGGTGGAGATGTTGGGCGGCATCTGCGCGTCGCAGGTCAGGATCGGCGACAGCTACTCAGAGTGGCTCGAAGCGCTCGAGGATGAGGGACCCTTGGTGGACCCGGAGGTTACGCCGGTGGAGGTGGTGGCCTCGGCGCTGCCTGCCGACGTCGTAATCACCACCGGCGGCACGGGAGTGTCCGGCACCGACCACTTCAGGCGGGCCGTAGCGGACCTCGGCGGGCGGCTCGTGATCGACAGCGTGGCGATGCGGCCCGGCCACCCGGTTGTCCTTGCCGAGCTTCCGGACGGGCGCTTCGTGCTGGGCCTGCCGGGCAATCCGCTTGCCGCCATGATGGCCCTATTCACGGTCGGCGCTCCGCTGCTCGCCGCGCTGGGTCATAGGACCCTGCCGCCGATCGAGGAGGTGCCGTGCGGAACCATGATCGATCCTGATCCCGGCCGGACGCGGCTCATGCCCTTCCGGCTCCTCTACGGCATGGCCTCGCCCGCCCAGCATGCGGGCCCCGGCATGATGCGGGGCCTCGCCTCCGCCGACGGTGTGATGGTGGTTCCGCCGCACGGGGTGCAGCTCGGTGAAGGCGTCCCGGCTTTTGCCCTGCCGTGGGGGCCGCCGATTCCCAGGCCCAAGCGCGCCGACTCCAGGCCCAAAGCTGGACAACGGAAGGCCGGAAGCCGGTCGGCTGCCAAAGTCGACGCGAAAAGCGGCCCTGTGGACTGGAGCGCCCTGCTGGATTAA	MTSPPAHSADGAAHPVSISAEESTQAASFGETPVHMAHTWEEARQAAFDCAAPIPPGLVPLREALGRTLAEDITALQDMPHYASSAMDGWAVNGSGPWIIAEPGQRLAPHQASAIVTGGLLPPGAKAVLRSESGVMSTDDEGLPVLALGGSARPGEPRNGQHIRKAGEEAAAGEVLVKAGARMNPAHVALAALAGYDAVQVLGKPVVKLLLTGSEVVERGLPEPGKVRDTFGPQLAGVVEMLGGICASQVRIGDSYSEWLEALEDEGPLVDPEVTPVEVVASALPADVVITTGGTGVSGTDHFRRAVADLGGRLVIDSVAMRPGHPVVLAELPDGRFVLGLPGNPLAAMMALFTVGAPLLAALGHRTLPPIEEVPCGTMIDPDPGRTRLMPFRLLYGMASPAQHAGPGMMRGLASADGVMVVPPHGVQLGEGVPAFALPWGPPIPRPKRADSRPKAGQRKAGSRSAAKVDAKSGPVDWSALLD	PGPT0008430_1057	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-17_03169	366			hypothetical protein	ATGAAAAGCCAGGACGAAACGCTTGAAGAGTGGTGCCGGCTGCTGCTTCGGACCTTCGAGCTCGAAGACGTGCAGGTGGACGTCAATGAGGTGTTGTCGATCGCGGGGGTTGCTGCGCACTCTGTCGTTAGGCCGGCAGCGCCGTTGACCACCTTCATCGCCGGTTTTGCCGCCGGCCTTGCATCCGGCTCCGGCCAGGCTTCGGACGTGGCCTCGATGAAATCCGCCCTGGACGTGGCGCGCACCGTGTCGAAGGCGTACGCGGCTGGGGAGGCAGGGGAGAACCCCGCCCCTCCTGCCGCGGGTACCTCCACCGGCTCGACGACTCCCACCGGAACGTCTCCGACCGGGATGCCGGGGGAATGA	MKSQDETLEEWCRLLLRTFELEDVQVDVNEVLSIAGVAAHSVVRPAAPLTTFIAGFAAGLASGSGQASDVASMKSALDVARTVSKAYAAGEAGENPAPPAAGTSTGSTTPTGTSPTGMPGE				NA	NA	NA	NA	NA
D1-17_03170	681	mobA_2		Molybdenum cofactor guanylyltransferase	GTGGACTTCGACACAATAATCCTGGCCGGGGGGCGATCCTCGCGGCTCGGCGGCTCACCCAAATCTGAACTGACGTACGACGGCGGGACCCTCCTTGAGCGGACGATCGCTGCGGCGGGCGGTGCCCGCCATATAGTTGTCGTCGGTCCGGTGACGGAAGCTCTCCCTGCCGGCGCGCACGGCTGCCGGGAAGACCCGCCGTTCGCCGGGCCCGCTGCTGCGATCGCCGCGGGCCTCGCAGAGCTCCAGTCCCTGCATCGGTCAGGGCTTGGTGAAGCCGTGGCTTCCACAGGAGTTGCCCCCTTTACCCTCGTACTGGCCTGTGACATGCCCCATGTGCACATGGCAATCCCCGTGTTGCAGGAAGTACTGCTTTCCCTGGACTGGGAGAATCCGGATGACGGAGCACGGTGCGGCGGTGTCATGGCTGCCTCCCCCGAAGGGCGGAGGCAGCCGCTGGCGGGTTTTTACCGCACCGCTGCGCTCCGTGCTGCCGTGGATGATGCTGCCGCGCGGAACGAGCTGAACCACGGGTCAGTTTTCGCTCTGCTTGCTAGGCTTGACGTAATGGCTGTCACCGTCCCCTCCGGCTCCACAGATGATGTGGATACCTGGGATGATGCTGCCGCATTGGGAGTTGACGCGGGCGCGAACCGGGCTGAACGGCCGGGCCGCAGCTGA	MDFDTIILAGGRSSRLGGSPKSELTYDGGTLLERTIAAAGGARHIVVVGPVTEALPAGAHGCREDPPFAGPAAAIAAGLAELQSLHRSGLGEAVASTGVAPFTLVLACDMPHVHMAIPVLQEVLLSLDWENPDDGARCGGVMAASPEGRRQPLAGFYRTAALRAAVDDAAARNELNHGSVFALLARLDVMAVTVPSGSTDDVDTWDDAAALGVDAGANRAERPGRS				NA	NA	NA	NA	NA
D1-17_03171	501			hypothetical protein	ATGCGCACGCTCGTTCTCAATGCTGGATATGAACCGCTGGCGGTTGTAAGTTTCCGCCGGGCGCTGGTCCTTGTGCTGACCGGGAAAGCCAGTGTGGTAGCCGAAGGTGACGATCCCGTCGTGGGACCGCAGGACATCATGGGCCGCCCGTCCGTGATCCTCCTGAACCGGTATATCCGGCCGCGGTACACCATGGTCACCGCCGTGAGCCGGCGCGGGGTGCTGCGCCGGGACGGGCACAGGTGCGCTTACTGCGGAAAAGCAGCCCACACCATCGACCACGTCCACCCAAAGTCACGGGGCGGCGCCGATTCGTGGGAAAATCTCGTCGCTGCCTGCCTACGGTGCAACAATGTCAAGGGCGACCACACACCGGCGGAAATGGGCTGGAAGCTGCGTTTCGTTCCCGCCCCGCCTGTCGGAACGGTCTGGCAGATTAAGGAACTGGAGAAGCCCACGCCTGCGTGGGATCCGTTCCTGCTTCCGGAGACCGCCGCGTAA	MRTLVLNAGYEPLAVVSFRRALVLVLTGKASVVAEGDDPVVGPQDIMGRPSVILLNRYIRPRYTMVTAVSRRGVLRRDGHRCAYCGKAAHTIDHVHPKSRGGADSWENLVAACLRCNNVKGDHTPAEMGWKLRFVPAPPVGTVWQIKELEKPTPAWDPFLLPETAA				NA	NA	NA	NA	NA
D1-17_03172	804			hypothetical protein	ATGACTACACGTGCGACCAGTGCACGCCACCGCGCCGAGGTTACCAAGACCAACTCGCTGACCGTCATTGCCAAAGCTGTCGGCGACAACGCCGGTGGTGTAGGCCGCCAGGCTGCAGTTATCGCTGCTGCTTCCGGACTCGTTCTGACCAGCGGCGTTGCCGCTAACGCTGCTGAGACCAACGTCCAGCGTGACTCCGCTTCTGCGTCCACCCTCGAAGTGCAGTCGCTTGCTTCCGCTCCGATTTCCGCCGCATCCAGCATCGCCATCTCCTACGAGAAGCCTGCTGTCACCACCGAAGCTGCCCCCGTTGTCGAGGCCCCCAAGCCCGTCGTCAAGGTGCAGGAAGCTGCCCCCGTTGAAGCGGCTCCGGTTGCCGAGGCAACAGTCGAAGCTGCTCCGGCAATTCAGACCGCTTCCGTGAAGACCGCCGCAACCACCGAGTCTGCTCCGGCCAAGGCGGCTGCCAGCAGCGGCATGGGCGCGTCGATCGCTGCTGCTGCATACGCCCAGCTTGGCGTTGCACAGGACTGCACCCGACTGGCGACCAACTCCCTGGCCGCCGTCGGCATCAACTACCACGGCTGGCCGGCAGGTTACCTCTCCCTGGGCCGCACCGTCAGCGCCGCTGAGGCCAAGCCGGGCGACCTCGCCTACTACAAAGACGGTGGCATGGGCCTGGCCCACATCGCTGTTTACGTCGGCAACGGCCAGGCTGTCCACGGTGGCTGGAACGGTGGAACCACCGCTCTGTTCAGCGTGAACGTCGGCTCCGGACCGGTCTTCATCCGCGTCGGCGGCTAA	MTTRATSARHRAEVTKTNSLTVIAKAVGDNAGGVGRQAAVIAAASGLVLTSGVAANAAETNVQRDSASASTLEVQSLASAPISAASSIAISYEKPAVTTEAAPVVEAPKPVVKVQEAAPVEAAPVAEATVEAAPAIQTASVKTAATTESAPAKAAASSGMGASIAAAAYAQLGVAQDCTRLATNSLAAVGINYHGWPAGYLSLGRTVSAAEAKPGDLAYYKDGGMGLAHIAVYVGNGQAVHGGWNGGTTALFSVNVGSGPVFIRVGG	PGPT0023995_3403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-17_03173	744			hypothetical protein	GTGTCTTCACGCCACAATTCTGCGCGCCACCGTGCGCAAACGGTTCGCAAGAACCCGATCGGCGCCGTGTCCAAGGCAGTAAGCGCCAACGCAGGAACAGTAGGTCGCCAGGCAGCAGTCGTCGCAGCCGCTTCAGGTCTTGTCCTGAGCGTCGGCATGCCAGCCAATGCAGCCGACGCCAATGTTGGTATTTCCGCCTCCGCTGAGTCGGGATCCCAGGCTACGCAGCTCGCTGTGACAGCCGCGCCCACCGCCACGGTCTCGTTCGAGCGTCCCGCCGTCACCACCGAGGCAGCGCCGGTCATCGAAACCCTCGCGGTGCAGTCCAGCGACGACACCGCCGCTGCAGCGGCAGACGTTGCCGCCGAAACCGTAACGGCCAAGGCTGAAACGGCTGACGCAGCAGGGTCGGGCGCAACTGCGGGTCTCGCTGCCATCGCCTACACCGGCATCGGCAACCCCTACGTATGGGGCGGCACCACCCCCAGCGGTTGGGACTGCTCTGGATTCACTCAATGGGTCTACGCACAGGCAGGCATCAGCATTCCCCGCGTGAACGCGTGGAACGCCATGCAGCCCACGTCTGCTCCCGCTCCCGGTGACCTGGTCATGCAGAACGGCGGTGCCCACGTTGGCATCTACGTAGGCAACGGCATGATGATCAGCGCGCTGAACCCCTCGCAGGGCACCCTCCTGCACGCAGTGTCCGCCACGGGCACCGCTTCGTATTACACCCTTCGCTAA	MSSRHNSARHRAQTVRKNPIGAVSKAVSANAGTVGRQAAVVAAASGLVLSVGMPANAADANVGISASAESGSQATQLAVTAAPTATVSFERPAVTTEAAPVIETLAVQSSDDTAAAAADVAAETVTAKAETADAAGSGATAGLAAIAYTGIGNPYVWGGTTPSGWDCSGFTQWVYAQAGISIPRVNAWNAMQPTSAPAPGDLVMQNGGAHVGIYVGNGMMISALNPSQGTLLHAVSATGTASYYTLR	PGPT0023995_3802	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-17_03175	825			hypothetical protein	ATGCAGAATGCCCGGGGCCGTCGCCGTGCGACGGGCCCCGCTGCGGAGCCGCGCACTCCCATAGCAGTCGCCGTCGAGCGGCCCCGCGATGCCCAGCGCGAAGCGCGCAGGCGACGCGGCCCCTTCCGTCAGGTCACAGACTTTGCCGCCGCCAGCGGCATGGGCCAAAAAGCCGGAGTCGCGCTGGCTGCCACAGGCCTCCTGCTGACTGTCACAGTTCCCGCCACCAGCCCCGTCATGGCGACGCCGGACCAGGGCGGCGCAGCGCCGGCGAATGCGGCTGTGGCGGCAGCCGCGCCCAAGGTTTCTGCCGAGGCGGCGGCCAAAATTGACTTCAGCCGCACCTCCGTAGCTACAGCCGGTGACCCCGAGGGCAAGCTCAAGCAGCTCCTCAGCGCCCAGTCTGCCGGCAGCATTAGCCGGGCGGCGTCAGCGGGCAGCCTGGGCCTCCCGCTGGAGACCATGGTCAAAACTTCCCCGTTCGGCTACCGCGTGAGCCCGATTACGGGCGGCGCGGGAGAGTTCCACCGAGGCCAGGACTTTGCTGCCCAGTGTGGAACACAGGTGTTCGCCGCCGCGAGCGGCAAGGTTACCTTTGCCGGCTGGCACCCGTACGGAGGCGGCAACAGGGTTGTCATCGACCATGGCAACGGCCTGGAAACCACGTACAACCATTTGTCGTCATCAAGCGTCCAGGTAGGCCAGAAGGTCACCCGCGGCGAAGCGGTGGCACTTAGCGGGACCACCGGCGCTTCTACGGGCTGCCACCTCCACTTTGAGGTGATGGTCAACGGAGACGTTGTCAATCCCGCTGTGTGGCTCTAA	MQNARGRRRATGPAAEPRTPIAVAVERPRDAQREARRRRGPFRQVTDFAAASGMGQKAGVALAATGLLLTVTVPATSPVMATPDQGGAAPANAAVAAAAPKVSAEAAAKIDFSRTSVATAGDPEGKLKQLLSAQSAGSISRAASAGSLGLPLETMVKTSPFGYRVSPITGGAGEFHRGQDFAAQCGTQVFAAASGKVTFAGWHPYGGGNRVVIDHGNGLETTYNHLSSSSVQVGQKVTRGEAVALSGTTGASTGCHLHFEVMVNGDVVNPAVWL				NA	NA	NA	NA	NA
D1-17_03177	696	ideR	COG1321	Iron-dependent repressor IdeR	ATGACGGATCTGATCGATACCACGGAGATGTATCTTCGGACCATTTTGGAGCTTGAAGAAGAGAACATCGTGGCACTTCGGGCCCGCATCGCAGAACGCCTCCGCCATTCTGGCCCCACTGTTTCGCAGACCGTAGGCCGTATGGAGCGCGACGGACTGGTGGTGGTTTCCGGCGACCGTCACTTAGAGCTGACGGAAACAGGCCGGAAGCGCGCCACTGAAGTCATGCGGAAGCACCGCCTGGCTGAGCGGCTCCTCGCCGACGTGATTGGCTTGGACTGGGCATACGTCCATGACGAGGCCTGCAGGTGGGAGCACGTGATGAGCGAGCGCGTGGAACGCAGGATTTACGAGTTGCTTGACCATCCCACAGAGTCGCCATACGGAAACCCGATTCCAGGGCTGGCTGCACTTGGCGGTGAGCCCTCACGGGCATTCGCGGACGGCGTCATGAATCTGCTTGAAGCGATGGCCGGATATGCTCCGGAGTTACGGGTCACTGTCAGCAGACTGGCAGAGCCCATCCAGGTTGAGCCCGAGCTGCTGCTGCAGCTGGACGAAGGCGGCATCAGGCCCGGTGCAAGTGTGTCCCTTGAGCGCGTCGGAGAGTACATCTCCGTTCGGGTTCCGGGTATAGAGGGCGCCCTTGAGCTGCCGCCGGAAGTAGCAGCGCACGTGTTTGTCCGCGTGGGTTAG	MTDLIDTTEMYLRTILELEEENIVALRARIAERLRHSGPTVSQTVGRMERDGLVVVSGDRHLELTETGRKRATEVMRKHRLAERLLADVIGLDWAYVHDEACRWEHVMSERVERRIYELLDHPTESPYGNPIPGLAALGGEPSRAFADGVMNLLEAMAGYAPELRVTVSRLAEPIQVEPELLLQLDEGGIRPGASVSLERVGEYISVRVPGIEGALELPPEVAAHVFVRVG	PGPT0003890_590	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709	NA	NA
D1-17_03178	1197	serC	COG1932	Phosphoserine aminotransferase	ATGTCTGGCCGCTGGTCATCGATCCCCCAGCTGAACTGCATGTCCATGCCGAAAATTGGAGCCACTGTGAGCGACACCAGCATCACTATCCCAGCAAATCTCCTGCCAAAGGATGGACGGTTCGGCGCCGGGCCCTCCAAGGTCAGGCCCGAACAGGTTGAAGCACTGTCCGCAGCGTCCACAACGCTCCTGGGCACGTCCCACCGGCAGGCCCCTGTAAAGAACCTGGTCGGTTCCGTCCGTGAGGGCCTAAGCACCTTCTTCCGCGCTCCTGAGGGCTACGAAGTGATCCTCGGCGTCGGCGGCTCAACGGCTTTCTGGGATGTAGCGAGCTTCGGCCTGGTGGAGCAGAAAGCCCAGCACCTCTCCTTCGGCGAGTTCGGTTCGAAGTTTGCCGCAGCCACCAACAAGGCGCCGTTCCTTTCCGACTCCTCCATCATCACGTCGGAACCGGGAACATGCCCTGCACCCCAGTCCGAAGCCGGTGTTGACGTCTACGCCTGGCCCCAGAACGAGACATCCACCGGCGTTGCTGCCCCAGTCCAGCGGGTGGCCGGCGCCGATGCCGGATCGCTCGTCCTGGTGGATGCAACGTCCGCCGCCGGCGGCCTGGATGTCGACGTCGCCCAGACCGACGTCTACTACTTCGCGCCGCAGAAGAACTTCGCGTCCGACGGCGGTTTGTGGCTTGGGCTCTTCTCCCCTGCCGCGCTGGAGCGCGCGGCCCGGGTCAAGGCGAGCGGCCGCTGGATCCCCGACTTCCTGGACCTGCAGACGGCGATCGACAACTCCAAGCTGAACCAGACCTACAACACCCCGGCACTGGCCACCCTCGTGACCCTGGATGCCCAGGTGCAGTGGCTCAACTCAAATGGGGGCCTGGACTTCGCCGCCCGGCGCACGGCAGACTCCGCGGGCCGCGTTTACAAGTGGGCCGAGTCGTCAGAGTTCGCCACCCCGTTCGTCACGAATGCAGCCGAGCGCTCGAACGTCATCGCCACCATCGATTTCGACGACTCCATTGATGCCGCCGCGGTCGCCAAGATCCTGCGCGCCAACGGCATCGTGGACACGGAGCCATACCGGAAGCTGGGACGCAACCAGCTCCGCATCGCCACCTTCGTGGCCATTGAGCCCTCCGACGTCTCCTCGCTGCTGGACTGCATCGACTACGTGGTGGGCGAGCTGAAAAAGTAG	MSGRWSSIPQLNCMSMPKIGATVSDTSITIPANLLPKDGRFGAGPSKVRPEQVEALSAASTTLLGTSHRQAPVKNLVGSVREGLSTFFRAPEGYEVILGVGGSTAFWDVASFGLVEQKAQHLSFGEFGSKFAAATNKAPFLSDSSIITSEPGTCPAPQSEAGVDVYAWPQNETSTGVAAPVQRVAGADAGSLVLVDATSAAGGLDVDVAQTDVYYFAPQKNFASDGGLWLGLFSPAALERAARVKASGRWIPDFLDLQTAIDNSKLNQTYNTPALATLVTLDAQVQWLNSNGGLDFAARRTADSAGRVYKWAESSEFATPFVTNAAERSNVIATIDFDDSIDAAAVAKILRANGIVDTEPYRKLGRNQLRIATFVAIEPSDVSSLLDCIDYVVGELKK	PGPT0009160_1199	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009160-serC|pdxF-K00831	NA	NA
D1-17_03179	1350	entS_3		Enterobactin exporter EntS	ATGATGTCCACCTTCCGGTCCCTGCACATTCTCAATTATCGGATCTGGTTCATCGGAGCCCTTGTCTCCAACATCGGCACCTGGATGCAGCGGACCGCCCAGGACTGGCTGGTCTTTGACCACCTGACCAGGCACGACGCCGGCGCGATGGGCGTCACCATGGCCCTGCAGCTCGGGCCGCAGCTGTTTCTGGCACCAGTTGCAGGACTGGCCGCCGACCGCTACAACCGCAAGCAGTTGCTCGTCATGACCCAATCCGTCATGGCGCTGCTGAGTGCCGGGCTCGGCATCCTGGTGGTGCTTGGGGCCGCCGAACTGTGGCACGTGTATGTGTTCGCTCTCATGCTCGGAATAGTCTCGGCATTGGACGCACCTGTGCGGCAGACGTTTGTCTCCGAGCTCGTCAAGGATGAACTCCTGCCCAATGCCGTGGCCCTGAACAGCGCTTCGTTCAACGTTGCCCGGATGATCGGCCCAGCAGTAGCCGGCCTCCTCACGGTGGCGGTGGGACCCGGGTGGGTGTTCCTGATCAACACCCTCACGTTCCTCGCTCTGCTGGCCAGCCTCGCCAAAATCCCGACGCCGTCGCTCCGGTCCCTGCCCCGCGCAACCGGAGGAAAGGGCAGGATCCGCGAGGGTCTTCGCTATGTTCGCTTCCGCCCGGACATCGTGGTGGTCCTGGTGGCCATCTTTATCGTCGGCACGCTGGGGCTGAACTTCGTCCTGTTCATAGCGGCGATGGTTGGCACCGAATTCGGTCTGGACGCGAAGGCCTTCGGGCTGATGAACTCCATCATGGCCCTTGGCTCCGTGGCAGGTGCACTGCTGTCCGCCCGCCGCAGCAAGCCGCGGCTTCGCATCATTTTTGGTGCCGCTGCAGGTTTCGGCGTTGCCTCCGGACTCGCAGCGCTGGCACCCGACTACTTCTGGTTCGGCGCCGCGCTGGTGCCCGTGGGGCTCTTCGCGCTGACCATGCTCACGAGCGCCAACGGCTATGTGCAGGCCACCACGGACGCTGTGATGCGCGGCCGCGTCATGGCCCTTTATATGGCGATCTTCATGGGCGGCACTCCCATCGGCGCGCCCCTTGTCGGCTGGGTGGCCAACGTGGCCGGCCCCCGCTGGGCCATGGCAGTGGCGGCCGGGTCAGGCTTGTTGGCCGCAGCCATAGGTCTGGTGTGGGTCATCCGGGCTAGGATGCTCCGGCTCCGGGTAAGCCGGCCGCCCCGCGGGCTACCGCGGTTCACAGTGATTTCGGGGGCGGGCGCCGCTGCACCGGACGGAACAGCGGGCTCAACAGCGGACGGCGCCGCCCGGCACTCAAGCCCGGACGACGCCGCCGAACGCTGA	MMSTFRSLHILNYRIWFIGALVSNIGTWMQRTAQDWLVFDHLTRHDAGAMGVTMALQLGPQLFLAPVAGLAADRYNRKQLLVMTQSVMALLSAGLGILVVLGAAELWHVYVFALMLGIVSALDAPVRQTFVSELVKDELLPNAVALNSASFNVARMIGPAVAGLLTVAVGPGWVFLINTLTFLALLASLAKIPTPSLRSLPRATGGKGRIREGLRYVRFRPDIVVVLVAIFIVGTLGLNFVLFIAAMVGTEFGLDAKAFGLMNSIMALGSVAGALLSARRSKPRLRIIFGAAAGFGVASGLAALAPDYFWFGAALVPVGLFALTMLTSANGYVQATTDAVMRGRVMALYMAIFMGGTPIGAPLVGWVANVAGPRWAMAVAAGSGLLAAAIGLVWVIRARMLRLRVSRPPRGLPRFTVISGAGAAAPDGTAGSTADGAARHSSPDDAAER				NA	NA	NA	NA	NA
D1-17_03180	813			hypothetical protein	ATGAATCCGGAACCTGAACAGGCCAAGCCGCAGGCGGAGCCCACGCCGTCCAAAAAGCGTGCCGCTGTTCCCGCCTGGCGGACCGGCAAACCGGACGCTGTCTTGGCCGCCGCGGTTGACGTGGCGCGCACCGCCATTGAAGGCATCGCGAAGGCGTCCGAGATTGGCGAGCACGTGGCGGCCCGCACCGAGGGCGACCGCCTCGTGACGCACCTGTTCGAATCAAGGCTGCCCGGCTACGTCGGCTGGCACTGGTACGCGGTGCTCACCCGCAATTCACGCTCCAAGGTGGTCACGGTCAGCGAGCTGGGCCTGCTGCCCTCGGAGGACTCGATCCTCGCTCCTGAGTGGGTTCCCTGGGCGGAACGCGTCAGGCCTGAGGACGCGCAGGCTGAGGACGTCCAGGCTGAGGAGGTCCAAGCCGAGGACGCGCGGACCGGGGACTCGCAGATCGGGGACGCCCACGCCGGCGTCCAGGAAGACGAGCCGACTGAGGCGGAACCCCGGCCAGCAGAGGGCGGCCCGGCCGGACCCGCGGGCCCTGTTGACGCATCCGACGGCGAATCCGATGGCGACCCCGCCACGTTGGCTCGGGCCCCCCATCTGGAACCCGCCGAAGCGTACGACGGTACCCCGGCCGACGACACCCAGGGCGACGGCACGCCGGCGGACGACACCCAGGGCGACGGCACCCCGGCCGACGACACCCAGGGCGACGGCACCCCGGACGACGACACCCAGGACGGGAGCGCTCAGGGCGGGAACTCCCAAGGCGGGGACGCGGTTGAGGCGGACAGCCCCGGGCAGGGCTGA	MNPEPEQAKPQAEPTPSKKRAAVPAWRTGKPDAVLAAAVDVARTAIEGIAKASEIGEHVAARTEGDRLVTHLFESRLPGYVGWHWYAVLTRNSRSKVVTVSELGLLPSEDSILAPEWVPWAERVRPEDAQAEDVQAEEVQAEDARTGDSQIGDAHAGVQEDEPTEAEPRPAEGGPAGPAGPVDASDGESDGDPATLARAPHLEPAEAYDGTPADDTQGDGTPADDTQGDGTPADDTQGDGTPDDDTQDGSAQGGNSQGGDAVEADSPGQG				NA	NA	NA	NA	NA
D1-17_03181	384			hypothetical protein	GTGCCTACCGGCAAAGTCAAGTGGTATGACAAGGACAAGGGTTTCGGATTCCTCGCGGGGGAGGACGGACAGGAAGTGTTCCTGCCCAAGTCCGCGCTTCCGGAAGGCGTTAACGATCTGAAAGCCGGCACTCGAGTGGAATTTGGTGTGGCCGACGGCCGCAAGGGGGCACAGGCTCTGGGCCTGCGCGTTTTGGACAAGACTCCCTCCATCGCCAAGGCCAAGCGGCCCAACGCCCGCGATCTCGCGCCCCTGGTGCAGGATCTGGTCACTGTCCTGGACAACCTGTCCGGCACCCTGTCCGCCGGCAAGTACCCGGAGGGTCACAAGGGCAAGGCCATCGCCGCTGCCCTGCGTAAGGTTGCCGACGAGCTGGACGCTTAG	MPTGKVKWYDKDKGFGFLAGEDGQEVFLPKSALPEGVNDLKAGTRVEFGVADGRKGAQALGLRVLDKTPSIAKAKRPNARDLAPLVQDLVTVLDNLSGTLSAGKYPEGHKGKAIAAALRKVADELDA	PGPT0014675_1304	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-17_03182	234			hypothetical protein	ATGATTACCACGCGTTTCCGGCGCCCCCTGATGATCGCGTCCGCGGTCCTCGCAGTGCTTTCCCTCGCGGCCGTAGGAACAGTCATGGCGCTGGCCTTCGGAGGGCAGGCTGCCCCGCCCTGGATTACCTCCACCGCCCTCTACGGGCTTCCGCTCGCTTTCATCCTGATGTTCGTGCTGCTGATTGATGGCGTGGCAGCACGGCGCCGGGCAGGAAACGGCGGCGGGCGGTAA	MITTRFRRPLMIASAVLAVLSLAAVGTVMALAFGGQAAPPWITSTALYGLPLAFILMFVLLIDGVAARRRAGNGGGR				NA	NA	NA	NA	NA
D1-17_03183	2550			hypothetical protein	ATGGCGTGGCAGCACGGCGCCGGGCAGGAAACGGCGGCGGGCGGTAACGTTGGACTGATGTCCCTTATTCGTGCGCTCAGCAAGGAACTGGAGGCACGCAGCGACGACTCGCTGCGTGGCTTATTCATTGCGCGCCCGGACCTCATCTCGCCCGGCGTACCTGACTTCCCCGCCTTGGCCGCACGCGCAAGCGCCAGGGTCAGTGTGCAGCGCGCGTTGGAACGCCTGGACCGGCCGCATATGCAAGTGTTGGAGACGCTGCACCTCTGCACCAACACGGATACCGGACACAGTGCTTCCGCCGCGGGTGTCAAAAAACTGATTGCGGGTTCAACGCTCTCAGCCGTTGAACGGATCCTGATGTCGCTCCAGGAGCTGGCACTGGTCCACCGGGCCGAACCCCCTCACTCCACCAGCCCGTCAGCCCACCGGCAGCGTTTCTATCTGCCCGTAGTCAGCCTGAAAGATGTCATCGGCATCTATCCGGCCGGACTCGGGCGCAGCTACACTGAACTCGTCCGCCTGCAGCCTGCCTTCGCCCAGCGCGTCGTGCAGATCGTCGGGGAACTCCACCGCAGCGGCGCCACAATCCAGCCCGCCACCACCCCCATGGAGGCGGCGCTGGCCCTGCAGCACTGGACGGCTTCCCCCGAAGCCTTGCATGCCGTCCTCGCCAAGGCTCCGGAACGCACGACGGCGCTCCTCGCCAGATTCAGCAACTGGGCCATGGGTGCGGTCCCCCAGGCGCAGCGGAAAGTTTCCGTCACCACCGAGGGGCACGACGTCGGGCCAGTGGACTGGCTGCTCGCCCGGGGGCTGCTCGTGCCCCTGGACGCAGCGCACGTGGAGCTACCCCACAGCGTCGGCGTTTCCCTCCGTGGCGGCGCTGTAATTGACAGCTTCTCCCTCTCTCCACCCCGACCGACACTCGGAACCACCACTGCTTCGCTACGCCGGAACGCGGCCCTGGGAGCCATCGCCGAAACACTGCGGCTCACGGGTGAACTGCTCCACGCGGTTCGGGAACAGCCGCTGGCCACCCTCAGGAGCGGCGGAGTGGGCATTCGCGAAATGAGGCGGCTTGCCGACGCTTTGCGGGTGGACCAGCACACGGCCGCCATCCTCCTCGAGTTCTGCGCCCTGTCCGGGCTGATCCGGCTGGATGTGGACAGCTCCTGCTGGATTCAGGTTCCCGAGCTGGAGTGGCTGGGCCTCCCCCGCCAGGAACAATGGTTGTGGCTGGTCACCGCCTGGCTCGCGAGCGAAAGGGCGCCGTCAATGGTCGGCCAGCCAATCAACGGAGGACCCGGGGGTCCGTCCAGCCAAAAAGCAGCCGCAGCCGCCACCGTCAATGCGCTCTCCGCAGAGGCACAACGGACCGACGCCCCGGTTGTGCGAAAGAGGATCCTGGAGATACTGCAGGAACTGACGCGGGAAGCCGAGGCGCCGGACGGCACTGCCCCCGTCCTCAACACCGAAGCTGTACTGCAGCGTGCCGAATGGCTGCAGCCACGGATGGCACGGCGCTTCAGCTCCCTTATCCGGGGAGTCCTGGCCGAAGCAGAGATGCTCGGCCTGCTCGGATCCGGCGCGCTGAGCCAACTTGGCGCAGCCATCGCCGCCGAAGAGCCGGAAGAAGCCATGGATATCCTCGGCGAACACCTTCCCGCCGCACTGAACCATGTCCTGCTGCAGGCGGACCTTACGGCCGTCGCCCCCGGCTATCTGACCCCCGGTCTCACCAAGCAGCTAATGCAAATGGCCGACGCCGAGGGGCAGGGACCCGCCACCATCTACAGGTTTTCAGTGCAATCCGTCAGGCGGGCCTTGGACGCGGGGCAAGACGCCGCCGCGATCCTGAATTTCCTGCGCAGGCACTCAGCCACCCCCGTCCCGCAGCCGCTGGAGTACCTCATCGAGGACACCGCACAGCGGCACGGGAAACTGCGGGTTGGCGCGGCCGGCAGCTTTATCCAGAGCGACGACGAGTCGGCGCTTGCGGATCTCTCGGGTGAAGCCGCGGCAGCCTCCCTCAACCTGATCCGCATCGCCCCGACCGTTCTGATTTCGCACGCCCCGCCCCGGCAAACTGCTCTCGTGCTGCGCGGGCTGGGACTCTCGCCCGCCGTCGACGAGGCGGGTTCCGCCGTCGTACGCCTTAACCGGACGGCAGCGCCCGCCGGCGTCAGCGGACGCCCGGTCTACAGCGCTCCACGCACAGCGCCGCCCGATGAGGAGATCGCCGCGCAGCTGGCCGTGCTTCGCAGCCATGCGGCCGTAACAAACGGCCACCGGACGGGTGCCGGACTAAACGGGGGCGAGGAAGCAACCCAGCTGGGGCTGGAAACCCTGCGGAAGGCTATCCGGCTTAAACAGCGGGTGACCATGAATGTGGTGGACAGCCTTGGGAATGCGAAACTGGAAACGGTTGTTCCGGTATCGGTGACGGGCGGACGTGTGCGGGTCTTCGACCCCTCGAAAGACACGGAACGAGTGCTGTCCATCCACCGGATCATCGATATTGAAGCAGCAGAGGACATCCATCCGTGA	MAWQHGAGQETAAGGNVGLMSLIRALSKELEARSDDSLRGLFIARPDLISPGVPDFPALAARASARVSVQRALERLDRPHMQVLETLHLCTNTDTGHSASAAGVKKLIAGSTLSAVERILMSLQELALVHRAEPPHSTSPSAHRQRFYLPVVSLKDVIGIYPAGLGRSYTELVRLQPAFAQRVVQIVGELHRSGATIQPATTPMEAALALQHWTASPEALHAVLAKAPERTTALLARFSNWAMGAVPQAQRKVSVTTEGHDVGPVDWLLARGLLVPLDAAHVELPHSVGVSLRGGAVIDSFSLSPPRPTLGTTTASLRRNAALGAIAETLRLTGELLHAVREQPLATLRSGGVGIREMRRLADALRVDQHTAAILLEFCALSGLIRLDVDSSCWIQVPELEWLGLPRQEQWLWLVTAWLASERAPSMVGQPINGGPGGPSSQKAAAAATVNALSAEAQRTDAPVVRKRILEILQELTREAEAPDGTAPVLNTEAVLQRAEWLQPRMARRFSSLIRGVLAEAEMLGLLGSGALSQLGAAIAAEEPEEAMDILGEHLPAALNHVLLQADLTAVAPGYLTPGLTKQLMQMADAEGQGPATIYRFSVQSVRRALDAGQDAAAILNFLRRHSATPVPQPLEYLIEDTAQRHGKLRVGAAGSFIQSDDESALADLSGEAAAASLNLIRIAPTVLISHAPPRQTALVLRGLGLSPAVDEAGSAVVRLNRTAAPAGVSGRPVYSAPRTAPPDEEIAAQLAVLRSHAAVTNGHRTGAGLNGGEEATQLGLETLRKAIRLKQRVTMNVVDSLGNAKLETVVPVSVTGGRVRVFDPSKDTERVLSIHRIIDIEAAEDIHP				NA	NA	NA	NA	NA
D1-17_03184	1647			hypothetical protein	GTGAACGACGGCCCCCTGATCGTCCAGAGCGACAAGACAATTCTCCTCGAAGTCGACCACGAGCAGGCCACCGAGGCAAGGCACGCCATCGCGGCGTTTGCCGAGCTGGAGCGCGCGCCGGAGCACATGCACAGCTACCGGCTGACTCCCCTTGGCCTATGGAATGCGCGTGCGGCCGGCCTGGATGCGGAGAAGGTGCTGGACACGCTGCTGAAGTACTCACGCTTTCCGGTGCCGCATTCGCTGCTCATCGACATCGAAGAAACGATGTCCCGGTACGGCAGGCTCCGGCTGGAAAAGGATCCGCAGCACGGCCTCGTCATGCGGACCAGCGACTATCCGGTGCTGGAGGAGGTCAGCCGCGCCAAAAAGATCCAGCCGCTGCTGGGGCCGCGCATCGATGGTGAGACCGTGGTGGTGCACTCTTCCCAGCGCGGCCAGCTGAAGCAGCTGCTGCTCAAGATCGGCTGGCCGGCGGAGGACCTGGCAGGATACGTCGACGGGACTCCGCACCCGATTATGTTGGATGAATCCGGCTGGAAACTGCGGCCGTACCAGCAGCACGCCGCTGAGAACTTCTGGGCCGGCGGCAGCGGTGTGGTGGTGCTCCCCTGCGGCGCCGGCAAGACCCTGGTGGGCGCCGCCGCGATGGCCACCAGCTCCACCACCACCCTCATACTCGTTACCAACACCGTTTCGGCAAGGCAGTGGAAGGACGAGCTCCTCAAGCGGACCTCCCTCACCGAAGCTGAGATCGGCGAATACTCCGGAGCCGTGAAGGAGGTCCGTCCGGTCACCATTGCCACATACCAGGTGCTGACCACCAAGCGCGGCGGACTGTACCCGCACCTCGAGCTGGTGGACGGCAACGACTGGGGCCTGATCATCTACGATGAAGTCCATCTCCTGCCGGCGCCGATCTTCCGGATGACCGCCGACCTGCAGGCCCGGCGAAGGCTGGGCCTCACCGCCACCCTGGTCAGGGAGGACGGCCGGGAGGGGGAAGTGTTCAGCCTGATCGGCCCGAAGCGCTACGACGCGCCGTGGAAGGACATTGAGGCGCAGGGCTACATCGCACCCGCTGACTGCGTGGAAGTGCGTGTGGACCTGCCTCGTGATGAGCGCGTCGCCTATGCCATGGCCGACGACGCCGATAAATACCGCCTCTGCGCCACGTCTGAAACCAAGACCGTGGTGGCGGAGCAGCTTGTGGAAAAGCACCGCGGCGAACAGGTCCTGGTGATTGGCCAGTACATCGACCAGCTCGATGAGCTCGGCGAGCGGCTGGACGCCCCTGTGATCAAGGGCGACACCTCTGTGAAGGAGCGCCAGAAACTCTTTGGCGCGTTCCGGGCGGGCGACGTCCAGACCCTCGTTGTCTCCAAGGTGGCCAACTTCTCCATTGACCTGCCGGAAGCGTCCGTCGCCATCCAGGTTTCCGGCTCCTTCGGATCCCGCCAGGAGGAGGCCCAGCGGCTGGGCAGGCTGCTGCGTCCCAAGCAGGACGGGCGGGCGGCACGCTTCTACTCCCTGGTGGCGCGTGACACCCTGGACCAGGACTTCGCCGCCAAGCGCCAGCGGTTCCTGGCGGAGCAGGGCTATGCCTACCGGATCATGGACGCGAAGGACGCCGGCGCCCTGGGCTAG	MNDGPLIVQSDKTILLEVDHEQATEARHAIAAFAELERAPEHMHSYRLTPLGLWNARAAGLDAEKVLDTLLKYSRFPVPHSLLIDIEETMSRYGRLRLEKDPQHGLVMRTSDYPVLEEVSRAKKIQPLLGPRIDGETVVVHSSQRGQLKQLLLKIGWPAEDLAGYVDGTPHPIMLDESGWKLRPYQQHAAENFWAGGSGVVVLPCGAGKTLVGAAAMATSSTTTLILVTNTVSARQWKDELLKRTSLTEAEIGEYSGAVKEVRPVTIATYQVLTTKRGGLYPHLELVDGNDWGLIIYDEVHLLPAPIFRMTADLQARRRLGLTATLVREDGREGEVFSLIGPKRYDAPWKDIEAQGYIAPADCVEVRVDLPRDERVAYAMADDADKYRLCATSETKTVVAEQLVEKHRGEQVLVIGQYIDQLDELGERLDAPVIKGDTSVKERQKLFGAFRAGDVQTLVVSKVANFSIDLPEASVAIQVSGSFGSRQEEAQRLGRLLRPKQDGRAARFYSLVARDTLDQDFAAKRQRFLAEQGYAYRIMDAKDAGALG				NA	NA	NA	NA	NA
D1-17_03185	714	tcrX	COG0745	putative transcriptional regulatory protein TcrX	ATGAAGAAAAACGGTGCCGAAGCGAAGCTCCTCGTGGTAGATGACGAACCCAACATCCGCGAACTGCTGTCCACTTCCCTGCGGTTTGCAGGATTCGAGGTTGTATCTGCGGGCAACGGACGGGAGGCCTTGGCCGCCGCGGAAAGCCACGCGCCGGACCTTGCCGTGCTGGACGTCATGCTGCCGGACATGGATGGCTTCACAGTCACACGGCGCCTGCGCGCCGCCGGCAAGCATTTTCCCGTCCTGTTCCTGACCGCCAAGGACGACACCGAGGACAAAGTCACCGGTCTCACCGTGGGCGGCGATGACTACGTCACCAAGCCCTTCAGCCTCGACGAGGTCGTGGCCAGGATCCGGGCTGTCCTGCGCCGCACGCAGCCGATGATGGATGACGACGAAGCCGTCATCCGTGTCGACGACCTCGAGCTCGACGATGATGCCCATGAGGTCCGTCGCGGCGGGACCGTCATCGAACTGTCCCCCACCGAGTTCAAACTGCTGCGGTACCTCATGCTGAACCCGAACCGTGTCCTGTCCAAGGCTCAGATCCTGGACCACGTGTGGGAATACGACTTCAACGGTGACGCCTCGATCGTGGAATCCTACATTTCCTACCTGCGCCGCAAGGTGGACACCGATCCCGCAGCCCCTGCCCTGATCCAGACCAAGCGCGGTGTGGGCTACGTGCTGCGGACGGCAGAAAAGCGCTGA	MKKNGAEAKLLVVDDEPNIRELLSTSLRFAGFEVVSAGNGREALAAAESHAPDLAVLDVMLPDMDGFTVTRRLRAAGKHFPVLFLTAKDDTEDKVTGLTVGGDDYVTKPFSLDEVVARIRAVLRRTQPMMDDDEAVIRVDDLELDDDAHEVRRGGTVIELSPTEFKLLRYLMLNPNRVLSKAQILDHVWEYDFNGDASIVESYISYLRRKVDTDPAAPALIQTKRGVGYVLRTAEKR	PGPT0002665_544	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
D1-17_03186	1497	sasA_8		Adaptive-response sensory-kinase SasA	ATGATGGCACTCATGCTGGTGGCCCTCGCCGTGACTGGGGCTGGCACCCTTACCCTGCTGCGCAGCTATCTTGAGGGACAGGTGGACGACAAGCTCCAGGCAGCAGTGGAGTCCGCACAGCGGCAGCGCTCCTTCAACCAGCTCATCGTGCCCAACCCCGTGGTACCCACGGATTACACCGTGACCATCTACTACCCCGGAGCCGCAGGAAGCAACCTTGACGGAAAGTCCAACCGCCCCAACATCGAGGAAATCTCGGTAGAGGAAGCCCGCGAGCGCGAACTGAGGCCATACCAGGTAAAGGGCAGCGACGGAAAGAACTGGCGCGTCGTTGCGGTTAACGTTGTGGACCGGGAACAGCGCCGGGCGGTCGTGGTTGTGGGACTGCCTCTTTCGCCGGTCGACGAAGTGCTGCGCCATGCCACGCTGGTAGTAGTGGGCGTCGGCCTGCTGACCATGATTCTGGCCTCCTTTATCGCTTCCTGGACGGTAACCAAGTCTTTCCGGCCGCTCGCCCGCGTGGAAAAGACCGCCGCTGCAATCGCGGCCGGGGACCTGTCGCGCCGCGTGGCGGTGGAGCACCCGGAGACAGAGGTCGGCCGGCTGGGACGCTCACTCAATGCCATGCTGGCGCACATTGAGGCAGCCTTTGCCGCACGTATGGCCTCGGAGGAACGGATGCGGCGCTTCGCCGCTGACGCCTCACATGAGCTGCGCACTCCACTGGTGACCATAAGGGGGTACTCAGAGCTCTACCGCCACGGCGCCCTGCAGTCCGACGAAGACATTTCGAACGCCATGGGAAGGATCGAGAGCGAAGCCAAACGGATGGGATCCATGGTGGAGGACCTGTTGCTGCTCGCCCGGCTCGACGAGCAGCGGCCGCTGCAGCAGAAACCGGTCGACCTGCAGCTGATCGCCCACGACGCCGTGGTGGACACCCAGGCCAGTGACAGGAACCGTAGCATCACCCTGATCGGGCTCGACGGCGGGCATGCCACACCGGCCCCAATTCTCGGCGACGAGGCCAAGCTCCGCCAGGTCGTTGGAAACCTGGTGGGCAACGCCCTGAGATACACACCCGAGGGCACTCCGATCGAGCTGGCGGTTGGTGTCCGCCTCGGAGAGGACGGAGCCCCGCATGCCGTCCTTGAAGTCCGTGACCACGGACCTGGCATTCCGGACAGCGAGGCGCCAAGGATCTTTGAACGCTTTTACCGCTCGGACACCTCCCGCACCCGGGAAACAGGCGGCAGCGGACTGGGCCTGGCCATTGTGGCAGCCATTGTGGGTTCCCATGGCGGCTCCGTGCGGGTCCATACCACTGACGGCGGGGGCGCAACTTTGACAGTCAGCCTTCCGCTGCGCGACGACTCACAGCAAACTGTGCCCCACAGCGTGAGCGGAGGTGCAGTCCGGGAAGATGCAGGCCGGGACAGCCAAGGAGAAGGCCGCGACAGCAAGGACGACGGGCAGGTTATCCACATACAGGGATGA	MMALMLVALAVTGAGTLTLLRSYLEGQVDDKLQAAVESAQRQRSFNQLIVPNPVVPTDYTVTIYYPGAAGSNLDGKSNRPNIEEISVEEARERELRPYQVKGSDGKNWRVVAVNVVDREQRRAVVVVGLPLSPVDEVLRHATLVVVGVGLLTMILASFIASWTVTKSFRPLARVEKTAAAIAAGDLSRRVAVEHPETEVGRLGRSLNAMLAHIEAAFAARMASEERMRRFAADASHELRTPLVTIRGYSELYRHGALQSDEDISNAMGRIESEAKRMGSMVEDLLLLARLDEQRPLQQKPVDLQLIAHDAVVDTQASDRNRSITLIGLDGGHATPAPILGDEAKLRQVVGNLVGNALRYTPEGTPIELAVGVRLGEDGAPHAVLEVRDHGPGIPDSEAPRIFERFYRSDTSRTRETGGSGLGLAIVAAIVGSHGGSVRVHTTDGGGATLTVSLPLRDDSQQTVPHSVSGGAVREDAGRDSQGEGRDSKDDGQVIHIQG	PGPT0004100_534	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
D1-17_03187	288			hypothetical protein	ATGAGCATCATTTCCGTCGATACCGAACTCCTCCAGCTGAAATCGGCAAGCGTCAGGGCAACCGTGGACCGCATCAGTGCAGACGTCCAGGCCATGAAGCACGGCCTGGACGAGCTCCAGGGAACCTGGCGGGGTTCGGCAGCCACCAACTTCCAGGCACTCGTGACTGAGTGGACCCTGACGCAGGGAAAGGTTGAGGCGTCACTGGCGTCCATCAACCTCGCGCTGTCATCGGCTGCAACCACCTATGCCCAAGCCGAGCAGGGCAACGCGCAACGCTTCAGTTGA	MSIISVDTELLQLKSASVRATVDRISADVQAMKHGLDELQGTWRGSAATNFQALVTEWTLTQGKVEASLASINLALSSAATTYAQAEQGNAQRFS				NA	NA	NA	NA	NA
D1-17_03188	1194	rnhA		Ribonuclease H	GTGACGATTACAGCAGCGGCCGACGGTTCGGCTTTAGGAAATCCCGGTCCGGCCGGATGGGCCTGGTACGTGAACGATGATTGCTGGCGCGCCGGAGGCTGGCCGCACGGCACGAACAACCAGGGCGAGCTGATGGCCGTGCTGGACCTGTTCCGTTCCACCGCGCACATTCCTCAGGAAGACCTGCGGATCCTGTGTGACAGCCAGTACGTCATTAACTCAGTGACCAAATGGATGCCGGGCTGGAAGCGCAAGGGATGGCGCAAGGCCGACGGCACGCCCGTGCTGAACGTGGACCTGCTCAAGGAGATTGATAAAGAGCTAGTCGGGCGCAAGTACACATTCGAGTGGGTCAAGGGCCATGCCGGACACGACCTCAATGAGGCGGCCGACGAGCGTGCACGGGCCGTAGCTCTGGCCTACCAGCAGGGTATCGCAGCGCGGTCCGGCCCAGGCTTCCGCGGAGCGGCCGCACTGGCCGAGGAGGAGGAGGCTGTCTCAAGGCCGGGAGCCGCTGGCCTGACACAGGACGACGACGCGCTGGCACAGGGCCACGTCTCGCTGGGACGGAATGCCGATGCCGCGCTGGAACGGGACGCAGGACTTCAACAGGACGAGGCGGAAGAGCTGGACCTGTTCGGCGGCCTGGAAAGCGGGCTTTCTCCTAGCGCCGGACGCAGTCGTGGACCCGCCGGTGCCGTGGAGGACGCTGGGGCAGTGGCCAGCGCTGGGAGAGTGGCAAGCGGTGCGGCAGCGGCAAACGGCAGTACAGTGGCGGGCAGCGGGTTGGCAGAAGAGCTGGACCTGTTCAGCGAACTGGACGATGACGCCTTCAGCTCGCCACTGGGTAAGGCGAGCCCGGAACTAACTGTCGAAGCGCTCGAACGTGAGCTCCTCCGCCCTGAGGTACGCAGTGACATCGGGCGGACCGGTGTGCTGCTGCATCCGGAGTTCACCGAGATCGGCACCTCCGGAAGGCTCTGGACCCGCGACGCCATGATGATGTCCCTGGAGGAAAGCCCCGGCAGTCACATGGAGCTGGAACTGATATCCGTGGACCGCGTCGGCGCAGAGGCCATCCTGCTCGTTTACCGTAGCCATTCCCGCGAGGGTGCGGCCCTCCGGAGCTCCCTGTGGGTCCTTGACGGCGGACAATGGCGCCTCCGCTTCCACCAAGGCACTCCTGAGGCCTGA	MTITAAADGSALGNPGPAGWAWYVNDDCWRAGGWPHGTNNQGELMAVLDLFRSTAHIPQEDLRILCDSQYVINSVTKWMPGWKRKGWRKADGTPVLNVDLLKEIDKELVGRKYTFEWVKGHAGHDLNEAADERARAVALAYQQGIAARSGPGFRGAAALAEEEEAVSRPGAAGLTQDDDALAQGHVSLGRNADAALERDAGLQQDEAEELDLFGGLESGLSPSAGRSRGPAGAVEDAGAVASAGRVASGAAAANGSTVAGSGLAEELDLFSELDDDAFSSPLGKASPELTVEALERELLRPEVRSDIGRTGVLLHPEFTEIGTSGRLWTRDAMMMSLEESPGSHMELELISVDRVGAEAILLVYRSHSREGAALRSSLWVLDGGQWRLRFHQGTPEA				NA	NA	NA	NA	NA
D1-17_03189	1629	groL1_2	COG0459	60 kDa chaperonin 1	ATGGCCAAGATCATTGCATTTGATGAAGAGGCACGCCGCGGTCTTGAGCGGGGCCTGAACACCCTCGCCGACGCCGTCAAGGTCACCCTCGGCCCGCGTGGACGCAACGTCGTCCTCGAAAAGAAGTGGGGCGCCCCCACGATCACCAACGATGGTGTGTCCATCGCCAAGGAGATCGAGCTGGACGATCCTTACGAGAAGATCGGCGCCGAGCTGGTCAAGGAAGTTGCCAAGAAGACGGATGACGTCGCTGGCGACGGCACCACCACGGCTACCGTGCTGGCCCAGGCCCTGGTCAAGGAAGGCCTGCGCAACGTTGCCGCCGGCGCTGACCCGCTGTCCCTCAAGCGCGGCATCGAGAAGGCAGTTGAAGCGGTAACCCGCGAACTGCTGGACAACGCCAAGGAAATCGAAACCAAGGAAGAGATCGCTGCCACGGCCTCCATCTCCGCCGGCGACGACGAAATTGGTGCCCTCATCGCCGAAGCCCTGGACAAGGTCGGCAAGGAAGGTGTCATCACCGTCGAGGAGTCCAACACCTTCGGCCTGGAGCTTGAGCTCACCGAAGGCATGCGCTTCGACAAGGGCTACATCTCCGCCTACTTCGTCACGGACACCGAGCGCCAGGAGACGGTTCTTGAGGACCCGTACATCCTGATCGTCAACTCCAAGATCTCCAACGTCAAGGAACTGGTTGCTGTCCTCGAAAAGGTCATGCAGTCCAACAAGCCGCTGCTGATCATCGCCGAAGACATCGAGGGCGAGGCACTGGCCACCCTGATCGTCAACAAGATCCGCGGTACCTTCAAGTCCGTCGCCGTCAAGGCCCCGGGCTTCGGTGACCGTCGCAAGGCGCAGCTCGCCGACATCGCCATCCTCACCGGTGGCCAGGTCATCGCCGAGGAAGTCGGCCTGAAGCTGGAGAACGCGGGCCTCGAACTCCTGGGCCGCGCCCGCAAGGTCGTTGTCACCAAGGACGAGACCACCATCGTCGAAGGTGCAGGCGACGCTGACCAGATCGCCGGTCGCGTTTCCCAGATCCGCGCCGAGATCGAAAACTCCGACTCCGACTACGACCGCGAGAAGCTGCAGGAGCGCCTGGCCAAGCTGGCCGGCGGCGTTGCAGTCATCAAGGCCGGTGCCGCAACCGAAGTTGAGCTCAAGGAACGCAAGCACCGCATCGAGGACGCAGTCCGCAACGCGAAGGCTGCTGTTGAGGAAGGCATCGTCGCCGGTGGTGGCGTTGCCCTGATCCAGGCTGGCCTGAAGGCCTTCGCCAACCTCGACGTCAGCGGTGACGAAGCAACGGGCGCCAACATCGTCCGCGTTGCCATCGACGCCCCGCTTAAGCAGATTGCTTTCAACGCAGGCCTCGAGCCCGGCGTTGTTGTGGACAAGGTCCGCGGCCTGCCCGCAGGCCACGGCCTGAACGCTGCAACCGGCGAGTACGTCGACCTGCTGGCTGCCGGTATCAACGACCCCGTCAAGGTAACCCGCTCTGCCCTGCAGAACGCGGCATCCATTGCCGGTCTCTTCCTCACCACCGAGGCCGTCGTGGCCGACAAGCCGGAGAAGAACGCTCCGGCCGTCGGCGGCGGCGACGAGATGGGCGGCATGGGCGGTTTCTAA	MAKIIAFDEEARRGLERGLNTLADAVKVTLGPRGRNVVLEKKWGAPTITNDGVSIAKEIELDDPYEKIGAELVKEVAKKTDDVAGDGTTTATVLAQALVKEGLRNVAAGADPLSLKRGIEKAVEAVTRELLDNAKEIETKEEIAATASISAGDDEIGALIAEALDKVGKEGVITVEESNTFGLELELTEGMRFDKGYISAYFVTDTERQETVLEDPYILIVNSKISNVKELVAVLEKVMQSNKPLLIIAEDIEGEALATLIVNKIRGTFKSVAVKAPGFGDRRKAQLADIAILTGGQVIAEEVGLKLENAGLELLGRARKVVVTKDETTIVEGAGDADQIAGRVSQIRAEIENSDSDYDREKLQERLAKLAGGVAVIKAGAATEVELKERKHRIEDAVRNAKAAVEEGIVAGGGVALIQAGLKAFANLDVSGDEATGANIVRVAIDAPLKQIAFNAGLEPGVVVDKVRGLPAGHGLNAATGEYVDLLAAGINDPVKVTRSALQNAASIAGLFLTTEAVVADKPEKNAPAVGGGDEMGGMGGF	PGPT0014570_5221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
D1-17_03190	1371			hypothetical protein	GTGGCTGGCCGCGCCATCGCGGAGACCGCCCAAGATAGTGCCGGACGGACGACCGGCGCCTTGCGCTTGCCCCGCACGTCCTTCACCCGGAGGCCCTTCACCCACGGGCCCTTCATTCGCATGGCAGGGTTTGGCGCTGCCGCCGTTTTGGTGCTGGGGGCATGCTCGGGGCAGGCGGGAAACGCAAGGACGGCCTCGGTCGAAGCAAGTGGCGACGGCACCTTGCGGATTGGCCTGATTCTCGACAACTCGGGATCCCAGGCGTTCCTAAATGCCGCGCAGCTCGCGGCCGCCAAGCTTGCTGTCCAGGAAATTAACGCGGCGGGCGGGCACAAGGGCCGGCCCCTGGAGCTGCTGCCGGAAAAGATTGGCGGGGAAGCAGCGGACCAGGCCAGGGCGCTGGTGGAGGCAAAGGCCGACGTCGTCGTAGGCCCCACGGATTCCAGTCGGGCTCCTGGCGCCATCGATGTGCTGTCCAAGGCCAAGGTGGTTCTTATCTCGCCGGCCAACACTGCAGCCAGCCTGAGCCAGTACCAGAGCGGGGGCTACTACTTCCGGACTGCGGCAACCGACGTGGCCCAGTCGCCGGTCCTGGTCAAGCTGGCCAAGGACGGCGGCGCCAGGAAACTGGCTGTTGTCCACGAGCAGAGCGCCTACGGCACCGATGTGTCGGCGGCCGTGTCCTCCTCCGCCAAGGAAGCGGGGATGGAGGTCGTCACGGTGGCCGGATTCAAACCCGGTGAAGCGCAGAAGGCGGCGGCGACTGCGGCGGAAGCCTCGCCGGACGCCGTCGTGCTCATTGCCCGTGATGGCGCCCAGGGTGCCATCGCCGAACTGCAGAATGCGGGCGTGACCGGAAGTCAGTTCATCTTGGCAGACGGAGCCTTTAGGCAGTATGGCTCGGATCTTGGGTCACGGGCGCTCGAAGGGGCCAGGGGGATCGTTGCCGGCGCGTTTCCCTCCGCCCATCTGCAGGGTGAACTGGTCGCCGTGGACAAGGGGCTCAAGGACATGACCTTTGCTGCCGAAACGTACGACGCGGTCAATCTCGCTGCCCTTGCCGCCGCTGTGGCTGATGATGACGCCGGCGCCTCCGTGGCCGCCCACCTCATTGGCGTCTCGGGCGGTTCAGCGGGTTCTGCCGCAGCAGGTACCCGGTCCGCCGGGAAGCCAATGCTCTGCAGATCGTACAAAGACTGTCTCGCCGGTATCAGAGAGGGAAAGCCGATTGATTATGACGGCGAGTCGGGGCCCGTGCGGTTCGATGAGAACGGGGATGTAACAGCGGCCAGGTACATGGTGTTTACCTACGGGCCGGACAACAGGGCGAAACTGACCGGCAGCGAGACGGCCGGCAGGGCTCAGCGCTGA	MAGRAIAETAQDSAGRTTGALRLPRTSFTRRPFTHGPFIRMAGFGAAAVLVLGACSGQAGNARTASVEASGDGTLRIGLILDNSGSQAFLNAAQLAAAKLAVQEINAAGGHKGRPLELLPEKIGGEAADQARALVEAKADVVVGPTDSSRAPGAIDVLSKAKVVLISPANTAASLSQYQSGGYYFRTAATDVAQSPVLVKLAKDGGARKLAVVHEQSAYGTDVSAAVSSSAKEAGMEVVTVAGFKPGEAQKAAATAAEASPDAVVLIARDGAQGAIAELQNAGVTGSQFILADGAFRQYGSDLGSRALEGARGIVAGAFPSAHLQGELVAVDKGLKDMTFAAETYDAVNLAALAAAVADDDAGASVAAHLIGVSGGSAGSAAAGTRSAGKPMLCRSYKDCLAGIREGKPIDYDGESGPVRFDENGDVTAARYMVFTYGPDNRAKLTGSETAGRAQR	PGPT0020565_105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_NEUTRAL_AMINO_ACID_TRANSPORT,PGPT0020565-natB-K11954	NA	NA
D1-17_03191	204	cspLA	COG1278	Cold shock-like protein CspLA	ATGGCATTGGGAACCGTGAAGTGGTTCAACGCTGAAAAGGGCTACGGCTTCATCACCGTTGACAGCTCGGGCGATGACATCTTTGTGCACTGGTCTGCCATCCAGGGAGACGGCTACCGCGCCCTCGATGAGGGCCAGCGGGTCGAGCTCGATGTCGGAGAGGGCGAAAAAGGCCCACAGGCCGAAAACGTCCGGCCTGCCTAG	MALGTVKWFNAEKGYGFITVDSSGDDIFVHWSAIQGDGYRALDEGQRVELDVGEGEKGPQAENVRPA	PGPT0014675_5371	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-17_03192	675			hypothetical protein	ATGACCAATTACGCCCGGGATGAATTCGACAGGGTACCTGAGGCCGCCTCACGGCAGGGCGTCCACCGGGCAGCGGCGGCGCCAAAGCGTCCCCGTCTGTGGCCCATCCTGAGCGTGGGGACCGCTTCCTTGGCCGTGGGCATGGCGGCGTTCGTCCTGCTGCCGCATGGTGGGTTCGAGACCCCGGGACAGTCTGCGTCCGAGGCTGCGGCCGCCGTCGCCCAATCCGGGAGCTCGGCGTCCGGGGCGTCCTCACCCAAGCCATCATCCGCTGCACCCGCTGCGGGTGCCTCCAAGCCGGCCTCCCCGTCTGCTGCCGCGTCTGCGGACCCCTCCGAGACCGCGCCGTCATCGCCGGCTGCGACGGACCCCGCCTCGGTCGACGTGCTGGCTTCAACCGTGGACAAGGCACTTCCGGTCTCGATCTTCAACGGGACTTTGACTTCCGGGCTGGCTGGCCGTGTGGGTGCCACCGTCGAGGCCGACGGCTGGACCTTGGGTCAGGTCGCTAACTGGCAGGGTGCGCCTCAGCAAACGTCCGTCATCTTCTATCCGGGCGCCGAGCACAAGGCCAGCGCTGAAGCGCTGGGGGAGTTGTTGAACATTCCGACGCTCGTTCAGAGCCCGGGTTTTGAGTCGTCCGTTGCCGTTGTGCTGGGCCCCGGATTCCAGTGA	MTNYARDEFDRVPEAASRQGVHRAAAAPKRPRLWPILSVGTASLAVGMAAFVLLPHGGFETPGQSASEAAAAVAQSGSSASGASSPKPSSAAPAAGASKPASPSAAASADPSETAPSSPAATDPASVDVLASTVDKALPVSIFNGTLTSGLAGRVGATVEADGWTLGQVANWQGAPQQTSVIFYPGAEHKASAEALGELLNIPTLVQSPGFESSVAVVLGPGFQ				NA	NA	NA	NA	NA
D1-17_03193	384			hypothetical protein	GTGGCCGAACCGTTGCAGGACCATCTCACAGACCGCGCCGCCGTCTCTGCAGCAGAGCGATCCGCTGCAGCAGAAAGTCCTGCTGCGGGGCCGCGCCGCGGGTCCTTGCTCGAGGATTTTCAGCTGCGGGACTCTCCGTTGAGCGAGCGCGAGCAGCAGATCCTGGCGCTGGAGCGGCAGTGGTGGAAGTACGCCGGCGCCAAGGAACAGGCCATCCGCGAACTGTTCGATCTGTCGGCTACGCACTACTACCAGATCCTCAATGCGCTCATTGATACCGAGGCCGCCCTGGCCCACGATCCCATGCTTGTGAAGAGATTGCGTAGACTACGTACGTCACGTCAGAGGGCCCGCACCGCGCGCCGCTTGGGGTCTGGCGCCTAA	MAEPLQDHLTDRAAVSAAERSAAAESPAAGPRRGSLLEDFQLRDSPLSEREQQILALERQWWKYAGAKEQAIRELFDLSATHYYQILNALIDTEAALAHDPMLVKRLRRLRTSRQRARTARRLGSGA				NA	NA	NA	NA	NA
D1-17_03194	792	ung	COG0692	Uracil-DNA glycosylase	ATGGTCCGTGTGACTGAACCTGAGCCCCTGTTTGTGCTGGAGAGCCATGCGCCGGCTGAAGACCAAGTACTCGCTGATATGAGGGCCATGCCTTTGGAGAAGCTGGTGGCGCCGGACTGGGCCGCGGCATTGGCTGACGTGGAGGACGAGCTGAGGTCCGCTCTCTCCTTCGTGGCCGGGGAGGAAGCTGCAGGGCACCGGGTGCTGCCGTCGCCGTCGAACCTCCTCCGGGCGTTCCGGCAGCCGCTTGCAGACGTCCGGATACTGATCGTCGGACAGGATCCGTATCCCACGCCGGGACACGCCGTAGGCCTGGCGTTCTCCGTGGACGGCCGCACCCGGCCCCTCCCCCGGAGCCTGGCGAACATCTACAAGGAACTGGAATCGGACCTCGGCTACCCCGCCCGTACCCACGGGGACCTCGGTGCATGGGCTGACCAGGGCGTATTGCTGCTTAACCGGGTGCTAAGTGTGCGCGAGGGTGCTGCCGGGTCCCACCGCGGAAGGGGCTGGGAAACCATCACGACGGCGGCCGTTACCGCCGTCGCCGGCCGCGGCACGGCGGAGGGAAGCCGGATACCGCTGGTCGCCGTACTCTGGGGCAAGGACGCCGAGAGCGTCCGCCCCCTGCTCGGCAGCACGCCGGTGGTGGCCAGCGCCCACCCCAGCCCGCTGTCCGCGTCGCGGGGTTTCTTTGGCTCCCGGCCGTTCAGCCGCGCCAATGCCCTGCTGGAAGAACAGGGCGCCGACGCAGTCGACTGGGAGCTTCCGCCGTTCGTACCCGGAGTCTAA	MVRVTEPEPLFVLESHAPAEDQVLADMRAMPLEKLVAPDWAAALADVEDELRSALSFVAGEEAAGHRVLPSPSNLLRAFRQPLADVRILIVGQDPYPTPGHAVGLAFSVDGRTRPLPRSLANIYKELESDLGYPARTHGDLGAWADQGVLLLNRVLSVREGAAGSHRGRGWETITTAAVTAVAGRGTAEGSRIPLVAVLWGKDAESVRPLLGSTPVVASAHPSPLSASRGFFGSRPFSRANALLEEQGADAVDWELPPFVPGV	PGPT0007090_2	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007090-trpD-K00766	NA	NA
D1-17_03195	840		COG2375	putative protein	ATGACTGTTCTGCCTGCCACCACATCGGCGACCCAGAAATCCCGTCCCCAGATCAACCTGACCGTTCTGCGCCGGGAGCAGCTTTCGCCGCACATGGTGAGGATCATCGCGGGCGGCGAAGGTTTCGGAGACTACGTCAACAATGACTTTGTTGACCGCTACGTCAAGATCGTCTTTCCGCAGCAGGGCGTCGAGTACCCCGAGCCGCTTGACCTGTGGGCTGTGCGCGAGACCATGCCACGGGAGCAGTGGCCGTTCACCCGCACCTATACCATCCGTCGGGTTGATATGGCGGCTCGCGAACTGGCCATCGACTTCGTCCTCCACGGAGACTCCGGCCTCGCCGGGCCGTGGGCCGCGTCAGCCCAGCCCGGTGACAGCCTGATCTTCACCGGCCCGGGCGGCGCCTACAACCCGGATCCCTCGGCGGACTGGTACCTGCTGGCCGGCGATGAAGCGGCGCTGCCGGCCATCGCCGCCGTCGTCGAATCCCTTCCCAGCGGCGCCCGCGGGCAGGCATTCCTCGAGGTGGACAACGACGCCGATGCCCAGCACATTGCCGCACCCGCCGGAGTGGAGGTCGTCTGGCTCAAACGGCAGGGCGTACCCGCCGGCGACAGCACCCTGTTGATCGATGCTGTGCGGGAGGCCCAGTGGCCGAAGGGCAGGGTGGACGTCTTTGTGCACGGCGAACGGGGCTACATGAAGGCCCTGCGCGACGTGCTGTTCAAGGAGCGTGGACTGGAACGGCGCCAGGTGTCGCTGTCCGGATATTGGGCCAAGGGCCGGGTGGAAGATGATTTCCAGGCTGAAAAGAAGCTCCCGATCGGCAAGATCTAG	MTVLPATTSATQKSRPQINLTVLRREQLSPHMVRIIAGGEGFGDYVNNDFVDRYVKIVFPQQGVEYPEPLDLWAVRETMPREQWPFTRTYTIRRVDMAARELAIDFVLHGDSGLAGPWAASAQPGDSLIFTGPGGAYNPDPSADWYLLAGDEAALPAIAAVVESLPSGARGQAFLEVDNDADAQHIAAPAGVEVVWLKRQGVPAGDSTLLIDAVREAQWPKGRVDVFVHGERGYMKALRDVLFKERGLERRQVSLSGYWAKGRVEDDFQAEKKLPIGKI				NA	NA	NA	NA	NA
D1-17_03196	1497			hypothetical protein	ATGACCAAGCAACCCGACGGGGCCAAGCGCCCCCATACCGACAGCCTGCCCAAGACCGAGCCGCTCTCCGCTTCGCAGCTGCGGCAGAACGCCGCGGCCAAGCGCATGCTGCGCCGCCTCGTGCAGGGGGAGAACCCGCCGACGGCGCCCCTGAGCATCGTGGACCGGCTCACTGGCAGCCCTTACGCCAACCCCATGATCCAGGTGGGCGCGGTGGACACCTCCGCGCGCAAAACCATGGACTTTGCTCTGCGCCTCGCCGAAGCGATGTTCCGTTACGGCGCCGGCGCCCTCGAAGTGGAAACCAGCATCATCGCCGTCACCGCGGCGCTCGGGCTGAGCAACATCGAGGTGGACATCACCAACCAGTCGGTGGCCATCAATTATGCGCCCCAGGACCAGACGCCCATCGCGCTGCTGCGCGTGGTGCGTTCCTGGACCAACAATTACGCGGGCCTGGCGAAGGTACACCAGCTCGTTACAGACATCGTGGCCGGAGGCGTCGGCCGGGACGAGGCCGCCCGACGGCTTGACGAAATTGTCCGCAGCCCCAAACCGTTCCCGCGCTGGATGGTCACGGTCGCGTTCGCGGTGTTTTCTGCCATGTTCGTGGGCGTGATCGGCGGCGGCCCGGGTGCCTCGGCCGTCGCGTTCGCCTCCAACCTGCTGATCAGCCTTCTGGCCCGGAAGCTGGGCCGCTGGCGGACACCAGACTTCTTCATCACCGCGGCGTGTTCCTTCGTTGTCACCGTGATCGCGCTGCTCCTGTGGCGATTCGGCAGCCCCTTGGGGATACAGCTTGCCCCGGCCATCGTTGTGGTGGGCGGTATCCTGCTGCTGCTTCCCACCGGCCGGCTCGTATCGTCGGTCCAGGACGCCATCAACGGGTTCCCTGTTACCGCGGCCGGCCGGTTCCTGTCGACTCTGCTGACCTTCGGTGCCGTGGTGGCCGGGATCGCCGTCGCCTTCGTGGTGGGGGACAGGATCGGCATGGAGCCCATCGACGTCACGGAAACTTTCCCGCCGGCGTATCCGCTGTGGGTGCAGGTGTTCATGGTGGCCGTCGCCGTCGTCGCGATCGGCATCACGGAACAGACGGACTGGAAGCTGTTGCTGCCGACGGCGGGAGTCGGCGTGGTTGGGCACCTGGCCCTTATCGGCGCCGAATCACTGAATGTTGGCGCACGCTTCTCACCGGCAATTGCCGCCGTAGTGATCGGCCTGCTGGCCCGCGTGGTGGCCCTGAGGATGGGTGCTCCCCAGCTGGTGGTTGCCGTCCCTGCCGGCCTGATTCTTCTGCCCGGCCTGACCATCTTCCGGTCGATGTACGTGCTCACCATCGAGGAATCAGAGATCCTGCTAGGAGCCGGAGGCATGCTCAGCGCAGGGGCCATCGTCTTCGGCGTCGCTGGTGGCATCGTGCTCGGCGACACCCTGGCGCGGCCGCTCACCAGGAGCCTTGCGAGCAACGAACGACGGCGGGCCCGCCGCCGCTAG	MTKQPDGAKRPHTDSLPKTEPLSASQLRQNAAAKRMLRRLVQGENPPTAPLSIVDRLTGSPYANPMIQVGAVDTSARKTMDFALRLAEAMFRYGAGALEVETSIIAVTAALGLSNIEVDITNQSVAINYAPQDQTPIALLRVVRSWTNNYAGLAKVHQLVTDIVAGGVGRDEAARRLDEIVRSPKPFPRWMVTVAFAVFSAMFVGVIGGGPGASAVAFASNLLISLLARKLGRWRTPDFFITAACSFVVTVIALLLWRFGSPLGIQLAPAIVVVGGILLLLPTGRLVSSVQDAINGFPVTAAGRFLSTLLTFGAVVAGIAVAFVVGDRIGMEPIDVTETFPPAYPLWVQVFMVAVAVVAIGITEQTDWKLLLPTAGVGVVGHLALIGAESLNVGARFSPAIAAVVIGLLARVVALRMGAPQLVVAVPAGLILLPGLTIFRSMYVLTIEESEILLGAGGMLSAGAIVFGVAGGIVLGDTLARPLTRSLASNERRRARRR				NA	NA	NA	NA	NA
D1-17_03197	1074	femX		UDP-N-acetylmuramoylpentapeptide-lysine N(6)-alanyltransferase	TTGCGAGAATTCACCGCCCGCTTTGCCACCTCCGAAGAGGTCGCCAACTGGGATTCCCACGTCACCGCGAATCCGAACGGCGGAAACCTCCTGCAATCCGAGGCCTTCGCTGACGTCAAACAGCACTATGGCTGGAAGACACTGCACCTCGTCTATGAGACAGCCGACTACGTGAGCTACAACCTCGTCCTTGAAAAGAGCTTTCCGGTGCTGGGCAAGCTCTGGTACATCATCAAGGGCCCGGACGTGGCCGATGTCGAGGACATTCCCGGCATCGCCAAAGCCAACGCCGACTTCGTCAGGCGGGCACGCCTCGGGGTCTTCGCCATCAAGATCGAGCCGGATATCGTACTCAGCGACCATGCGCGTCAGGTCATCGAAGGCGCCGGGCTGGTCAAGACCCACAACCTTCAGCCCAATGACTCCACCGCACTCCTGGACATTTCCCCGGACGAGAACCAGCTGCTCCGCAACCTCCACTCGCGGGGCCGGAACGCAATCCGCCGTGCCATCCGGGAAGGCGTCGAGGTGCACAATGTGGAACCGACGGAAGAGAACTTCCGCGCCATGTACGGTCTCATGACCACAACGGTGGAGGCCAAGTCGCAGGTCCGGGTCCGGGAGTACGAGTACTACCGCCAGTTCTGGACCAACTTCATCAAGCGTGGCCAAGGGCGGCTCCTGTTCGTTTACGAGGACGCGGTCCCCTCTGTGGGCGCCTTTGTCATCAACTACGGACGCAAGGGCACGTACAAGGACGGCGGCTCACTGCAGAAACGCAGCCAGTACGGCGATTCGCACCTCGTGCAGTGGACAGCGATCAAGCAGGTCAAGGAGCTGGGCTGCACGGAATACGACTTCTGCGGCACGCCCCCGAGCGACAAGCTGAAGGACACATCCAACCCCTTCCACGGTCTCGGGCTCTTCAAGACAAGCTTCAGCAAGACCGTCACGGATTTCGTCGGTTGCTATGACCAGGTCATCAGCCCGCTGAAGTACAAGCTGTGGACCGCCGCCGGTGAACGGGTGGCGCGGCAGGTTTACACCCGCCGGACGGGGCAGCAGTTCTACTAG	MREFTARFATSEEVANWDSHVTANPNGGNLLQSEAFADVKQHYGWKTLHLVYETADYVSYNLVLEKSFPVLGKLWYIIKGPDVADVEDIPGIAKANADFVRRARLGVFAIKIEPDIVLSDHARQVIEGAGLVKTHNLQPNDSTALLDISPDENQLLRNLHSRGRNAIRRAIREGVEVHNVEPTEENFRAMYGLMTTTVEAKSQVRVREYEYYRQFWTNFIKRGQGRLLFVYEDAVPSVGAFVINYGRKGTYKDGGSLQKRSQYGDSHLVQWTAIKQVKELGCTEYDFCGTPPSDKLKDTSNPFHGLGLFKTSFSKTVTDFVGCYDQVISPLKYKLWTAAGERVARQVYTRRTGQQFY	PGPT0023735_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-REGULATION_FACTOR,PGPT0023735-murM-K05363	NA	NA
D1-17_03198	822			hypothetical protein	ATGAACGGAGGCTACGATCCTGGCTTCCTGCTGGAGGCCGTTGACCTTCCCTGCCCGAACGCGCCTGCCGTGCTGCTCGATTACACCCACTTCTCGGTGCGGCTTCAGTCCTCCCGCAGGCTGGCTGCCGTCGTCGGGGTCAATATCAACGGCGGGGAACTCCGCCCGCTCGAGCGCAGCGGAACCTGGCATTTCGACCCGAGGGTGCCCCGTGGGCACCAGGCCGGCCCAGAGGTGTACCGGAACAACAAGCTGGACCGGGGACACCTGGTGCGCAGGCTCGACCCCGTGTGGGGAGACCCGGAGACCGCCCGGAGAGCAAACCAGGACACGTTTGCCTTTCCCAACGCGGCGCCGCAGGCAGCGGACTTCAACCAGGATAAGCAGCTCTGGCTCGGCCTCGAGGACCACGTGCTGAACCATGCCGACATTTACGACGCCAAACTGAGCGTCTTCACCGGACCGGTCCTCGCCCACGACGATCTGCCGTACAGGGGGATCCAGATACCACGACGGTTCTGGAAGGTCGCCGCTTGGACCGGAGACGGGGCACTCGCCTCGGCGGGATTCGTGCTCGACCAGTCACCCCTGCTGGAAGGGCTGGAGCTGGAGCAGGCCGTCCTCCGGCGGCTGGCCGCGGGCGAGCCGCCGCCGCTGGGACCCTTCCGCACCTTCCAGGTCCCGGTGAGCCAGATAGCCGGGCTCACGGGGATCGACCTCACCCGGCTGGCGGCCGCCGACCGGCTGACCAAGGGCGCCGGCATGGGCGGCCTGGTACCGGCGGCCGCACGCCTGCAGGACTTCGCCAGTGTAAGGCTGTGA	MNGGYDPGFLLEAVDLPCPNAPAVLLDYTHFSVRLQSSRRLAAVVGVNINGGELRPLERSGTWHFDPRVPRGHQAGPEVYRNNKLDRGHLVRRLDPVWGDPETARRANQDTFAFPNAAPQAADFNQDKQLWLGLEDHVLNHADIYDAKLSVFTGPVLAHDDLPYRGIQIPRRFWKVAAWTGDGALASAGFVLDQSPLLEGLELEQAVLRRLAAGEPPPLGPFRTFQVPVSQIAGLTGIDLTRLAAADRLTKGAGMGGLVPAAARLQDFASVRL				NA	NA	NA	NA	NA
D1-17_03199	1407	sdaA_3	COG1760	L-serine dehydratase	ATGGCTGTTGGTGTCTTTGACCTTTTCTCCATCGGAATCGGCCCGTCGAGTTCGCACACTGTGGGGCCGATGCGTGCTGCTGCGGTGTTTGCGGAGGAGCTTAGGGCGTCCGGGGTGTTGGAGCGGGTGGCGTCGTTGCGGGTGGATCTGTACGGTTCGCTGGCTGCGACGGGTCACGGGCACGGGACGATGACCGCGGTCCTGTTGGGCCTGGAGGGCTTTCATCCGGAGTTGATCCTGCCGGAGGAGGTGGAGTCCCGGCTGGCGGACATCGCGGAGACCGGGATGCTGCAGCTGGCCGGCGCGGGCGGCGGTGTGCGGTTGCCGTATGGGGTGGAGGATATTGTGTTGCGGCCCTTGACCGTGCTGCCCCGGCACACCAACGGGATGACGTTTACCGTGTCCGACGCCGCCGGCGAGGTGCTGCACAGGGCGACGTTCTTCTCGGTCGGGGGCGGGTTCATTGTCCGGGAGGGCGAGGAGGACGCGGCGCTGCAGGAGCTGGAGGAGTCCAAGAAGGAGCTGCCGCTGCCGTTCCGCACGGCCGCGGAGCTGCTGGAGCATTGCCGTGCCCAGGGCCTGTCGATCAGCGAGGTCATGTTCGTCAATGAACGCGCTTCCCGTTCGGAGGAGGAGATCCGGGAGGGGCTGGGGCGCATCTACTCCGTGATGGAGGCGTGTGTGCAGACCAGCCTGAAGCGGGAGGGACTGTTGCCGGGCGGGCTGAAGGTCCGCCGCCGCGCCCCGGACTGGCATCAGCGGCTGCTGAAGGAAGACACGGACCGGGACGGCCGGTATTGGCAGGAATGGGTGAACCTGGTCGCGCTGGCGGTCAATGAGGAGAACGCTTCGGGCGGGCGGGTGGTCACGGCCCCGACGAACGGGGCCGCGGGCATCATCCCGGCGGTGCTGTATTACGCGCTGCACTACGCCCCCGGCATGGATCAGGCGACCCAGGCCGACCGGGACGATGTGGTGGTGAAGTTCCTGCTCGCCGCCGGCGCGGTCGGGGTGCTGTACAAGGAACAGGCGTCCATTTCCGGGGCGGAGGTCGGCTGCCAGGGCGAGGTCGGGTCGGCGTCCTCGATGGCCGCCGCGGGCTTGGCCGAGGTGATGGGCGGGTCCCCGGCGCAGGTGGAGAACGCCGCGGAGATCGCGATGGAACACAATCTGGGCCTGACGTGTGACCCGATCGGGGGCCTGGTGCAGGTGCCCTGCATCGAACGCAACGCGATCGCCGCGGCGAAGGCCATCAACGCCGCGAAAATGGCGCTCTGGGGCGACGGCACCCACCGCGTCTCACTGGACGAGGTCATCATCACCATGCGCGAAACCGGCAAGGACATGAGCGATAAGTACAAGGAAACCGCCATGGGCGGCCTCGCCGTCAACGTCGTGGAATGCTGA	MAVGVFDLFSIGIGPSSSHTVGPMRAAAVFAEELRASGVLERVASLRVDLYGSLAATGHGHGTMTAVLLGLEGFHPELILPEEVESRLADIAETGMLQLAGAGGGVRLPYGVEDIVLRPLTVLPRHTNGMTFTVSDAAGEVLHRATFFSVGGGFIVREGEEDAALQELEESKKELPLPFRTAAELLEHCRAQGLSISEVMFVNERASRSEEEIREGLGRIYSVMEACVQTSLKREGLLPGGLKVRRRAPDWHQRLLKEDTDRDGRYWQEWVNLVALAVNEENASGGRVVTAPTNGAAGIIPAVLYYALHYAPGMDQATQADRDDVVVKFLLAAGAVGVLYKEQASISGAEVGCQGEVGSASSMAAAGLAEVMGGSPAQVENAAEIAMEHNLGLTCDPIGGLVQVPCIERNAIAAAKAINAAKMALWGDGTHRVSLDEVIITMRETGKDMSDKYKETAMGGLAVNVVEC	PGPT0001975_441	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-17_03200	384	gcvH_3	COG0509	Glycine cleavage system H protein	ATGGCAAAAGTTGCCGCTGATCTGCAGTACTCCGAAGAACACGAGTGGCTGTCCCGGAAGGATGGAAACGTTGTTTCCGTCGGCCTTTCCGCCGTGGCCACCGACGCCCTCGGCGACATTGTTTACGTGGACCTGCCCGAGGTCGGCTCCACTGTGACTGCCGGCGAGACCTGCGGCGAGGTGGAGTCCACCAAGTCCGTTTCGGACCTCTACTCCCCGGTCACTGGCGAGGTCACGGAAACCAACCCGGCCGTCGTCGACGACCCGGCGCTAATCAACAGCGACCCGTACGGTGCAGGATGGCTCTTCAAGGTCGCCGCCGAGTCGGAAGGTCCGCTGCTGTCCGCCGAGGAGTACGCGTCCAAGAACGGCGGCGAGCTTTAA	MAKVAADLQYSEEHEWLSRKDGNVVSVGLSAVATDALGDIVYVDLPEVGSTVTAGETCGEVESTKSVSDLYSPVTGEVTETNPAVVDDPALINSDPYGAGWLFKVAAESEGPLLSAEEYASKNGGEL				NA	NA	NA	NA	NA
D1-17_03201	1179	gcvT_3	COG0404	Aminomethyltransferase	ATGACTGAGAAGTACACGGCCCTGTACGAAGAGCACAAGAAACTCGGCGCCTCCTTCACCGACTTCGGCGGCTGGCAGATGCCGCTCAAATACACCTCCGAGCTGGCCGAGCACCACGCCGTCCGCAACGCCGCCGGCATCTTCGACCTCTCCCACATGGGCGAAGTCTGGGTCACCGGGCCGGACGCCGGAGCCTTCCTGGACTACGCCCTCGCGGGAAAGATCTCCGCCATGGCCGTCGGCAAGGCCAAGTACTCGCTGATCTGCAACCAGGACGGCGGCATCATCGATGACCTCATCGTGTACCGGCGCCCTGCCGGTGCTGGTGCTGCCGGTGCTGGGACCGCGGAGACCGGAACCGCCGACAGGTTCCTCGTCGTGCCCAATGCCGGCAACGCTGCCACCGTCGCCGCCGCCCTCGTCGAGCGCGCGGCAGGATTCGACGTCGTCGTGGACGACGTCTCCGCCGAAACCTCGCTCATCGCTGTGCAGGGGCCGAAAGCTGAAGAAATCCTTCTTCGCCTCGTTCCCGCAGCCCAGCACGAGCTCGTCACCGGACTGAAGTACTACGCCGGCGTCGAGGTCCCATTCCTCGTGGCCGGCGCGGGTCAGGAGCTGCTGCTGGCACGCACGGGCTACACCGGGGAAGACGGCTTTGAGATCTTCGTGGACAATGCCGACGCCGCCGCCCTCTGGCAGGCAATCATCGCCATCGCCGACGAGGGGGAGCTGACGCCGGCCGGCCTGGCCTGCCGCGATTCCCTCCGCCTGGAGGCCGGCATGCCGCTCTACGGCAACGAACTGTCCCTCGACGGCGACCCCTTCGCCGCCGGCCTGGGCCCCGTCGTCGCGCTGTCCAAGGAAGGCGACTTCGTCGGCAAGGCAGCCCTGGCGGCCAAAAAGGAAGCCGGAGCCGGAACCAGCACGGGACGGAAGCTCGTAGGCCTCAAGGGCCTGGGCCGCCGCGCCGGCCGGGCACACTACCCTGTGCTTAAGGACGGCAACGTCGTCGGTGAAGTGACCTCCGGCCAGCCCAGCCCCACCCTGGGTTACCCCGTCGCTATGGCTTACGTCGACGTCGAATACACCGAGCCCGGCACGTTCTTGGACGTAGACCTCCGCGGCAAGGCAGAACCCTTCGAAGTCGTGGCACTCCCGTTCTACAAACGCGCCAAGTAG	MTEKYTALYEEHKKLGASFTDFGGWQMPLKYTSELAEHHAVRNAAGIFDLSHMGEVWVTGPDAGAFLDYALAGKISAMAVGKAKYSLICNQDGGIIDDLIVYRRPAGAGAAGAGTAETGTADRFLVVPNAGNAATVAAALVERAAGFDVVVDDVSAETSLIAVQGPKAEEILLRLVPAAQHELVTGLKYYAGVEVPFLVAGAGQELLLARTGYTGEDGFEIFVDNADAAALWQAIIAIADEGELTPAGLACRDSLRLEAGMPLYGNELSLDGDPFAAGLGPVVALSKEGDFVGKAALAAKKEAGAGTSTGRKLVGLKGLGRRAGRAHYPVLKDGNVVGEVTSGQPSPTLGYPVAMAYVDVEYTEPGTFLDVDLRGKAEPFEVVALPFYKRAK	PGPT0008130_1101	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
D1-17_03202	2940	gcvP_2	COG0403	putative glycine dehydrogenase (decarboxylating)	ATGCGCGCCGCGGAAACTCTCAGGTCCAATACAGAGCGGGGAGGAACCCGAATCACTGTGGCGTACCCGCGCCGCCTTAGTTATGGAGTTCCTTTGACCGTACATTCAGCCTCCGCCACCTTCGTCGACCGGCACATCGGAGCCCGCCGCGAAGCCCATGTTGCCGCCATGCTCAAGGCTGTGGGCTTCGACACCGTTGATGCCCTGGTTGACACCGCCGTTCCCAAGGACATCCGGCAGGATGTTGCGCTGGAACTGTCTCCGGCGCTGAGCGAGGTTGAAGCGCTCGCCGAGCTCCGCAGGCTGGCCGCGAAGAACAAGACGGCTGTACAGATGATCGGCCAGGGCTACTACGACACCGTGACGCCTCCGGTGATCCGCCGCAACATCCTGGAATCCCCTGCGTGGTACACGGCCTACACCCCGTACCAGCCGGAAATTTCCCAGGGCCGCCTTGAGGCGCTGCTGAACTTCCAGACCATGGTCCAGGACCTCGTTGGCCTGCCAATCGCCAATGCCTCGCTGCTGGATGAAGCAACGGCGGTGGCCGAGGCGGTGCTGCTGATGCGCCGGGCCAACAAGAACAAGCAAGCCCGCGAGGGCAAGACCGTCCTGGACGCTGACTGCCTGCCGCAGACCATCGCCATCGTCAAGGGTCGCGCCGAGGCGCTGGGCTTCGAGGTCGAGGTCGCGGATTTGTCCTACGGACTGCCTGACGGTGACATCAACGGCGTCGTCCTGCAGCAGCCCGGAGTCTCCGGCCGGGTCTGGGACCAGTCCCCCGTGATTGCCGCCGCCAAGGAACGTGGTGCCCTGGTCACGGTCTCAGCTGACCTGCTGGCCCTGACCCTGATCACGCCTCCCGGCGAGCAGGGCGCGGATATCGCCGTCGGGTCCGCGCAGCGGCTGGGTGTGCCGCTGTTCTACGGCGGACCCCACGCCGCCTATATGGCAGTGCAAAAGGGCCTTGAGCGCTCCCTGCCCGGCCGCCTGGTGGGTGTCTCCAAAGACTCTGCCGGAGTGCCCGCGTACCGCCTCGCGCTGCAGACCCGGGAGCAGCACATCCGCCGTGAAAAGGCGACCTCCAACATCTGCACCGCGCAGGCGCTGTTGGCTATCGTCGCGTCGATGTACGCGGTCTACCACGGACCGGAGGGGCTGAAGGCGATCGCCGAGACCGCGCACAGCCACGCCAAGGTTCTCGCGGCATCGCTCAAGGCAGCCGGCTTGGAAGTCCTGCACAACAGTTTCTTCGACACCGTGACCGTTTCCGTTCCGGGCAAGGCGGCCGGCATCATCGCCGCAGCAGAAGAAAAGGGGATCAACCTCCGCGTGATCGACGCCGACACCGTCGGCATCTCCACGGATGAAACAACCACACCGGCCATCGTGGCGGACGTACTCGCCGCCTTCGGCGCCACGGCAGTGGGAGCCCCGGGCAGTTTCGCTCTTGACCCCGCCGTCGAACGCACCTCCGGTTACCTGGAGCATCCGGTGTTCAATACGCACCGGTCCGAGACGCAGCTGCTGCGTTATATCCGGCGGTTGTCGGACCGTGACCTGGCGCTGGACCGCACGATGATTCCGTTGGGGTCCTGCACGATGAAGCTGAATGCGACGGCCGAGATGGAGGCCATTTCCTGGCCGGAGTTCGCCTCGATCCACCCGTTCGCGCCGGATTCCCAAACGGCGGGCTGGCGTGAGCTGATCGCTGATCTGGAGGCGCAGCTGACCGAGATCACCGGCTATGACCAGGTCTCGATCCAGCCCAATGCCGGGTCCCAAGGTGAGCTGGCGGGTCTGCTGGCGATCCGCGGTTACCACCGGTCCCGTGGCGAGGGCCAGCGGAACATTTGCCTGATTCCGGCCTCGGCGCACGGCACGAACGCTGCCTCGGCGGTGCTGGCGGGCATGAAGGTCGTGGTGGTGGCCACCGCGGCGGACGGCACCATTGACCACGCGGACCTGTACGCGAAGATCGAGGCGCACAAGGACGTGCTGTCGTGCATCATGATCACCTACCCCTCCACCCACGGGGTGTACGACGGGGACGTCCGTGAGGTCTGCGACGCGGTGCACGCCGCGGGCGGGCAGGTCTACGTTGACGGCGCGAACCTTAACGCCCTGGTGGGGCTGGCCCAGCCGGGCAAGTTCGGCGGGGACGTGTCGCACCTGAACCTGCACAAGACCTTCTGCATCCCGCACGGCGGCGGCGGGCCCGGCGTCGGCCCGGTCGCGGCCAAGGCGCACCTGGCACCGTTCATGCCCGGCAACGCGGCGTCCTGGAGTGAGGGTGATGACGTGCCGATCTCGGCCTCGCGCTTCGGCTCCGCCGGGGTGCTGCCGATCTCCTGGGCGTACGTGAAGCTGATGGGCGGGGACGGGCTGACCGAGGCCACGAAGTCGGCGCTGCTCGCGGCGAACTACGTCGCTGCGCGCCTGGATGAGCACTTCCCGGTGCTGTACACCGGTGAGGGCGGCCTGGTGGCGCACGAGTGCATCCTGGACCTGCGCGAACTCACGGCCCGGACCGGTGTCACGGCCGAGGACGTGGCCAAGCGCCTGATCGACTACGGCTTCCACGCCCCCACCCTGGCGTTCCCGGTGGCCGGGACCCTGATGGTGGAGCCGACCGAGTCCGAGGACCTGGCCGAGATCGACCGGTTCATCGAGGCCATGGTTTCCATCCGCCGCGAGATCGACCAGGTCGCCAACGGTGACTTCACTGTGGAGAACAGCCCGCTGCGTAACGCCCCGCACACCGCGGCCGCGGTCATCAGCTCCGACTGGAACCGTGACTACCCCCGCGAGCAGGCCGTGTTCCCCGTGCACTCCCTCAAGCAGGACAAGTACTTCGCGCCCGTGGGCCGCATCGACGGCGCAGCCGGGGACCGGAACCTGGTCTGTTCCTGCCCGCCGCTTTCCGAATTTGAGAACTAA	MRAAETLRSNTERGGTRITVAYPRRLSYGVPLTVHSASATFVDRHIGARREAHVAAMLKAVGFDTVDALVDTAVPKDIRQDVALELSPALSEVEALAELRRLAAKNKTAVQMIGQGYYDTVTPPVIRRNILESPAWYTAYTPYQPEISQGRLEALLNFQTMVQDLVGLPIANASLLDEATAVAEAVLLMRRANKNKQAREGKTVLDADCLPQTIAIVKGRAEALGFEVEVADLSYGLPDGDINGVVLQQPGVSGRVWDQSPVIAAAKERGALVTVSADLLALTLITPPGEQGADIAVGSAQRLGVPLFYGGPHAAYMAVQKGLERSLPGRLVGVSKDSAGVPAYRLALQTREQHIRREKATSNICTAQALLAIVASMYAVYHGPEGLKAIAETAHSHAKVLAASLKAAGLEVLHNSFFDTVTVSVPGKAAGIIAAAEEKGINLRVIDADTVGISTDETTTPAIVADVLAAFGATAVGAPGSFALDPAVERTSGYLEHPVFNTHRSETQLLRYIRRLSDRDLALDRTMIPLGSCTMKLNATAEMEAISWPEFASIHPFAPDSQTAGWRELIADLEAQLTEITGYDQVSIQPNAGSQGELAGLLAIRGYHRSRGEGQRNICLIPASAHGTNAASAVLAGMKVVVVATAADGTIDHADLYAKIEAHKDVLSCIMITYPSTHGVYDGDVREVCDAVHAAGGQVYVDGANLNALVGLAQPGKFGGDVSHLNLHKTFCIPHGGGGPGVGPVAAKAHLAPFMPGNAASWSEGDDVPISASRFGSAGVLPISWAYVKLMGGDGLTEATKSALLAANYVAARLDEHFPVLYTGEGGLVAHECILDLRELTARTGVTAEDVAKRLIDYGFHAPTLAFPVAGTLMVEPTESEDLAEIDRFIEAMVSIRREIDQVANGDFTVENSPLRNAPHTAAAVISSDWNRDYPREQAVFPVHSLKQDKYFAPVGRIDGAAGDRNLVCSCPPLSEFEN	PGPT0020480_2595	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
D1-17_03204	117			hypothetical protein	ATGGGTGACGGCGTGTACTTCAATGCAATGCTCTCCATCGGGCCCGCCGCGACCGCCGCAGAAACGGCTGCCGACGGCGAAAGCCTGCTCTCCGCGCTGGCGCGGCTCCGGGGCTGA	MGDGVYFNAMLSIGPAATAAETAADGESLLSALARLRG				NA	NA	NA	NA	NA
D1-17_03205	747			hypothetical protein	GTGGGTGTCCGCCCAGACGGAGGACCTGATGAAGTAGGCGGCCGCCCCTTCGGGCGCGGTGGACATGGCCTGCGCATCGGCTTCGGCGTACTCGTCCAGGCGATCCAAAAGGACGCCGATCAGCGCTTCCTTGTTCGGGAAATGGTAGAGCAGCCCTCCTTTGGAACACCCGCGCGGGCCTCTACGGAATCAAGGAACTTGCCACCGCAGGCCTCGGGGGCGCCGGTTGCCGTCATCGCCTTTGGCGCATTCATGGGCTGGGCATTTGTCCGGCGGCAGAAGCGCCTGGCGTCGCCCCTCCTGGACCTATCGCTTTTCAGCAACCCCGACTTCAGCACGGCCATCACGGCCAATGTCCTGGCGCTGTTCTCCTACAACGGCTTCATCCTGTTCCTGGCGCAGCACCTGCAGCTGCAGCTGCTGGAGGGCATGTCCCCTTCGGCATCTGGAATGGCCATGCTTCCCGCCCTTGCCGCGATGGTGATGGCCGGGCTGCTCGTGGTGCCGCTGGTGAAAAAGCTGCGCCCCGGGTTTGTTGTGGCCGGAGGCCTGTTCCTCAGCGCTGCGGGCTACAGGCTCGTCGCCCTAGACGACCATTCATCAGGGCCGGGGCTACTGCTGGGCGCACTGCTCCTGCTGGCCGTCGGCGTGGGCGGGGCGGAGACAATTTCCAACGACCTGATCCTTGGGGGCAGTTCCGCCAGCCAGGTCAGGGGCAGCCGCGGCGATTTCGGAAACAGGCTATGA	MGVRPDGGPDEVGGRPFGRGGHGLRIGFGVLVQAIQKDADQRFLVREMVEQPSFGTPARASTESRNLPPQASGAPVAVIAFGAFMGWAFVRRQKRLASPLLDLSLFSNPDFSTAITANVLALFSYNGFILFLAQHLQLQLLEGMSPSASGMAMLPALAAMVMAGLLVVPLVKKLRPGFVVAGGLFLSAAGYRLVALDDHSSGPGLLLGALLLLAVGVGGAETISNDLILGGSSASQVRGSRGDFGNRL				NA	NA	NA	NA	NA
D1-17_03206	240			hypothetical protein	GTGCTGGGATCCATCCTCACGGCCTCGTATCAGCAGCATCTGGCGCTGCCACCTGCGGTCGTGGGCACTTCCCCCGAGACGGCGCCGGCCGAAGCGCTGGCCGGCGCAGGCGAAACACTCGCGGGCGCGGTGGAACTGGCCGGGATGCTGCCGGCCCCGGCTTCCGAGGCTCTCGCAGAGGCTGCCCGCACGGCTTTCGACTCGGGCGTCCACATCATGCTGCCATCGCGCTGGTACTGA	MLGSILTASYQQHLALPPAVVGTSPETAPAEALAGAGETLAGAVELAGMLPAPASEALAEAARTAFDSGVHIMLPSRWY	PGPT0028045_509	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_QacA,PGPT0028045-smvA|qacA|lfrA-K08167	NA	NA
D1-17_03207	480	dps2		DNA protection during starvation protein 2	ATGAAAGCTTCACCGACCCTGACCAACAACATGCAGGCTGTGCTCGCGGACCTGATCGAGCTGCACCTCCAGGGCAAGCAGGCACACTGGAATATCGTGGGGACCAACTTCCGGGACCTCCACCTGCAGTTGGACGAGATTGTGGACGCCGCGAGGACCTTCGCTGACGACACCGCGGAGCGGATGCGCGCACTCCATGCGCTGCCCGACGGCCGCAGCGAGACGGTGGCCAAGTCCACCAACCTTGCCCGCTTCCCGGACGGCCTTATCAGCACCCAGGACGCGGCCGAGCGGATTGTTGCCGCCTTGGAAGCCGCGGTCGGCACCATGCGCAAAGTCCATGACGAGGTGGATGAGGAAGACCCCACCACTGCTGACTTGCTCCACACCTTCATCGAGAAGCTGGAGCAGTTCGCCTGGATGCTGAGTGCTGAGAACATGAAGCCCACCGCCAGCGTCACGCAGCCTGACGGCAAGTAA	MKASPTLTNNMQAVLADLIELHLQGKQAHWNIVGTNFRDLHLQLDEIVDAARTFADDTAERMRALHALPDGRSETVAKSTNLARFPDGLISTQDAAERIVAALEAAVGTMRKVHDEVDEEDPTTADLLHTFIEKLEQFAWMLSAENMKPTASVTQPDGK	PGPT0004055_2438	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
D1-17_03208	1068			N-carbamoyl-D-amino acid hydrolase	ATGATCGAAATCACCCGCCTGGATGCCCTCGATTCCCCCGCCCGGACAGCGCCGTCCACGCGGCCCGCCCTGCGGATCGGAGTTGTCCAGCACCACTGGCACAGCAGCAACGCCGCTGTCCGCGCCGAACTGGACGATGGCATCGGTCGCGCTGCCCGCCTCGGCGCCAGTGTCGTCTTCCTTCCCGAACTGACGCTGTCCCGCTACCCTGCGGACCAGGTCCCGGACAACGACCTGTCCCTGGGCCGCACCCGTTCGCGACCCTCGGACGTGGCGGAGGATCTCCTCGGCGGTCCCACCTTCCGCTTCGCGGCTGAAGCCGCCCGCCGCCACGGCATCTGCGTCCACGCGTCGCTCTACCAGCAGGCAGAACACCCTGACGGCAGCGACGACGGCCTCGGCCTGAACACCTCCATCCTTGTCTCCCCCTCCACTGAGCTGCTGGCGCGCACGCACAAGCTGCACATCCCCGTCACTGCTGGCTACTACGAGGACAGGTTCTTCCGGCAGGGCCCGGCAGCCGAAGACGCCTATGCGGTCCACGCTCCGGCCGAGCTCGACGGCGCGCGCCTCGGCATGCCCACCTGCTGGGACGAGTGGTTCCCGGAACTGGCACGCCTTTACGCGCTGGGCGGCGCGGAGCTGCTGGTATATCCGACGGCGATTGGTTCAGAACCGCTGTTCCCGGACTTTGACACGCAGCCCCTGTGGCAGCAGGTTATCGTGGGCAACGGCATCGCCAACGGGCTGTTCATGGTGGTCCCCAACCGCTGGGGCCAGGAGGACGCCCTCAATTTCTACGGGTCCTCCTTCATCTCGGATCCTTACGGACGCATCCTGGTCCAGGCACCGCGTGACGAATCGGCCGTCCTCGTCGCGGACGTGGATCTGGACCAGCGCCGAGACTGGCTCACGCTCTTCCCATTCCTCACCACCCGCCGCCCGGACACCTACTCACGTCTCACTGAACCAGTGCGCCACGACGCCCCCTTCGGCGGAGTGCCGGCTCCGCTGGTTGAGCCCAATCGGCTGGCCGCGGCCAATGCCCTGGCGGAGGTGACGGCATGA	MIEITRLDALDSPARTAPSTRPALRIGVVQHHWHSSNAAVRAELDDGIGRAARLGASVVFLPELTLSRYPADQVPDNDLSLGRTRSRPSDVAEDLLGGPTFRFAAEAARRHGICVHASLYQQAEHPDGSDDGLGLNTSILVSPSTELLARTHKLHIPVTAGYYEDRFFRQGPAAEDAYAVHAPAELDGARLGMPTCWDEWFPELARLYALGGAELLVYPTAIGSEPLFPDFDTQPLWQQVIVGNGIANGLFMVVPNRWGQEDALNFYGSSFISDPYGRILVQAPRDESAVLVADVDLDQRRDWLTLFPFLTTRRPDTYSRLTEPVRHDAPFGGVPAPLVEPNRLAAANALAEVTA				NA	NA	NA	NA	NA
D1-17_03209	1059	aguA	COG2957	Putative agmatine deiminase	ATGAGCACCTGGCGCATGCCGGCAGAAACGGCGCCCCAGGAGCGGCTCTGGATGGCGTTCCCCACCGGCGGCTACACTCTGGGCGGGACTGCAGAGGAGGCGCATGCCGCGCGTTCGGTGTGGTCCGCCGTCGCGAACGCTGCCGTTGAGTTCGAGCCGGTCACGGTGGTGGTGGCCCCCGACGACGCCGATACCGCAAAGGGGTATCTCGCACCCGCCGTCGAGGTACTGACGGCGGAGCTGAACGATGCCTGGATGCGGGACATCGGCCCGACGTTCGTGCTGGACGGCCGCGGCACGCTGGGTGCGGTGGACTGGGTCTTCAACGGCTGGGGTGCGCAGGAATGGGCCCGCTGGGACCAAGACGCCCGCATAGCGGCCGAAATCACGGGACGGGCAGGCGCAGACCATCTGGTGTCAGGACTGGTGAACGAGGGCGGCGGCATCCAGGTGGACGGCGAGGGCACCGTACTGGTCACCGAGACCGTCCAGCTCGATCCCGGGCGCAATCCCGGCCTGACCAAAGCCGAGATCGAAGCGGAGCTGGTCCGGACCCTCGGTGCCAGCCACGTGATCTGGCTGCCCCGCGGCTTGACGCGTGATTCAGAAAAATTCGGCACCCGGGGCCATGTGGACCTCGTTGCAGCCATCCCGTCCCCCGGCACGCTCCTGGTCCACGCGCAGCGAAACCCGGCGCACCCCGACTACGGCGTAAGCCAGGAACTCATCAGCTTTCTGTCCTCCACGCAGGATGCCGCCGGACGGGAATGGAACATCATCGAGGTGCCCGCCCCCGAGACGCTGACGGACGCCGAAGGGTTCGTGGACTACAGCTATATCAACCACGTTGTGGTGAACGGCGGAGTCCTTGCCTGCACGTTCTCCGACCCCAACGACGAGAAAGCCCTCCGCATTCTCGCCGATGCCTATCCCGGCCGCCGCGTGGTGGGCATTGACGCGCGTGACCTCTTCGCCCGCGGCGGCGGAATCCACTGCATCACCCAGCAGCAGCCCGCTGTCCCCTGGACCGGGCTGCCTCCCAGAGAGGGTACGTCATGA	MSTWRMPAETAPQERLWMAFPTGGYTLGGTAEEAHAARSVWSAVANAAVEFEPVTVVVAPDDADTAKGYLAPAVEVLTAELNDAWMRDIGPTFVLDGRGTLGAVDWVFNGWGAQEWARWDQDARIAAEITGRAGADHLVSGLVNEGGGIQVDGEGTVLVTETVQLDPGRNPGLTKAEIEAELVRTLGASHVIWLPRGLTRDSEKFGTRGHVDLVAAIPSPGTLLVHAQRNPAHPDYGVSQELISFLSSTQDAAGREWNIIEVPAPETLTDAEGFVDYSYINHVVVNGGVLACTFSDPNDEKALRILADAYPGRRVVGIDARDLFARGGGIHCITQQQPAVPWTGLPPREGTS				NA	NA	NA	NA	NA
D1-17_03210	1557			hypothetical protein	ATGAGCCAAGCCACCCGCCCAACCGCGTCGGCCGGAGCTACTGCCGGCACCGCCGGCCCCGCGCACGGCATTACCAGCAAGGGACTGAAGGGCGGGCAGCTGGGCCTCCTCGCCGTCGTTGTTCTCGGCATTTCGACGATTGCGCCGGCCTATACGCTTACCAGTGCCCTCGGTCCTACCGTTGCCGAGGCCGGGCTGCAGCTACCGGTCATTTTCCTCATCGGCTTCATCCCGATGATCCTCGTGTCCCTCGCCTACCGGGAGCTGAACACCGATTCGCCGGACAGCGGCACCACCTTCACGTGGGTGACCAAGGCCTTCGGGCCCTGGGTGGGGTGGATGGGCGGCTGGGGCCTGCTGGCCGCCAACATCACCGTGCTGTCCAACCTGGCGGCGGTGGCCGTGGACTTCTTCTATCTCTTCCTCGCGCAGCTGACGGGGACCCCGGAACTGGCCGACCTCGCCGCCAACAAGCTCCTCAACGTGGCCACCTGCTTCGTTTTCGTCGCGCTGGCCGTGTGGGTGAGTTACCGCGGGCTGCACAGCACAAAGATCGTGCAGTATGGACTCGTGGGGTTCCAGCTGCTGGTGCTGGCCCTGTTCGTGGGCCTCGCCTTTGCAAACTGGTCCTCGTCCGAAACCTCCATCCCCTTCAGCTGGGAGTGGTTCGACGTGACCAAGATCGAGACGTTCGGCCAGCTCGCGGCGGGCATCTCGCTGTCCATCTTCGTGTACTGGGGCTGGGATGTTTGCCTCACCGTGAACGAGGAAACCACCAACGGCAAGAAAACCGCCGGCCTCGCAGGCACCGTGACCGCCGTCGTCGTTCTTGGCATTTACCTCCTGATCACTATCGCCACCATGATGTTCGCCGGGGTTGGCACCGCGGGGATTGGCCTGAACAATGAGGAAAACCACGCCAATATCTTCACGGCGCTGGCGTCGCCCGTTATGGGCCCCTTAGCCATCCTCATGTCGCTGGCGGTCCTGTCCAGTTCGGCAGCCTCGCTTCAGTCAACGTTTACGTCGCCCTCACGCAGCCTGCTGGCGATGGCGCACTACGGCGCGCTGCCAAGGCCCTTCAGCCGCATGAGCGCGCAGTTCGCGACGCCGGGCTTCGCCATCATCGCCTCGGGGGTCCTCTCGGCGGGGTTCTACGCCGTGATGCACGTGGTAAGCGAGAACGTTCTCAACGACACCATCCTCGCCCTCGGCCTGATGATCTGCTTCTACTACGGCCTGACTGCTTTCGCCTGCGCCTGGTACTTCCGCAACACCGTGTTCAGCAGCGCCCGCAACTTCATGTTGCGGCTGGTCTGTCCCCTGCTGGGCGGGGCGGGCCTCCTGGTGGTCTTCCTCCAGACGGCCGCGGACAGCTGGGCCCCGGAATTCGGCAGCGGGTCCGAGGTCTTCGGTGTGGGCCTGGTGTTCGTGCTTGGCGTCGGCATCCTGGCGCTCGGGGCTGTGTTCATGCTGGTGATGTCGCGCCTGCGGCCTGGGTTCTTCCGTGGCGAGACAATACGTCAGGACACCCCGGCACTGGTGGTTCCCGACTAG	MSQATRPTASAGATAGTAGPAHGITSKGLKGGQLGLLAVVVLGISTIAPAYTLTSALGPTVAEAGLQLPVIFLIGFIPMILVSLAYRELNTDSPDSGTTFTWVTKAFGPWVGWMGGWGLLAANITVLSNLAAVAVDFFYLFLAQLTGTPELADLAANKLLNVATCFVFVALAVWVSYRGLHSTKIVQYGLVGFQLLVLALFVGLAFANWSSSETSIPFSWEWFDVTKIETFGQLAAGISLSIFVYWGWDVCLTVNEETTNGKKTAGLAGTVTAVVVLGIYLLITIATMMFAGVGTAGIGLNNEENHANIFTALASPVMGPLAILMSLAVLSSSAASLQSTFTSPSRSLLAMAHYGALPRPFSRMSAQFATPGFAIIASGVLSAGFYAVMHVVSENVLNDTILALGLMICFYYGLTAFACAWYFRNTVFSSARNFMLRLVCPLLGGAGLLVVFLQTAADSWAPEFGSGSEVFGVGLVFVLGVGILALGAVFMLVMSRLRPGFFRGETIRQDTPALVVPD				NA	NA	NA	NA	NA
D1-17_03211	552			hypothetical protein	ATGAAAAAACTAAGCGCCTGGCTGACTGCCATCATCATGGCTCTCGGGCTGGGCCTGCTGGCTCCGGGGTCCGCCTCGGCAACCACTTCCTACTGCGGACTGGTCTGGGGTTCACTTGCCAAGTCCAACCAGACCATGAGCGCCGCACCGGTCACCAATGTGCGCTCGGGCCAGCACTACTGCTTCGACCGCCTCGTGATCGACATCAAGGGAAAGGCAACCGGTTACAACGTCCGCTACGTTTCGAAGGTTGTCCAGGACGGATCAGGGCTGCCCATCAAGCTGAGGGGCGGTGCATTCCTGCAGGTCACCGCCCACTCGCCCAGCTATGACAGCAACACGGGCAAGGCCACGTTCGTGCCGGCCAACCGCTCCGAGGTGACCAACGTTTCCAAGTACCAGACGTTCCGGCAGGTTGCCTGGGCGGGCAGCTTCGAGGGCCACACCACTCTTGGCCTCGGCGTCCGCGCCCGGCTGCCCTTCAAGGTGTTCACCCTTGCCGGTCCCGGCAACGGATCCAGGCTCGTGATTGACGTCGCCCACCACTGGTGA	MKKLSAWLTAIIMALGLGLLAPGSASATTSYCGLVWGSLAKSNQTMSAAPVTNVRSGQHYCFDRLVIDIKGKATGYNVRYVSKVVQDGSGLPIKLRGGAFLQVTAHSPSYDSNTGKATFVPANRSEVTNVSKYQTFRQVAWAGSFEGHTTLGLGVRARLPFKVFTLAGPGNGSRLVIDVAHHW				NA	NA	NA	NA	NA
D1-17_03212	336			hypothetical protein	ATGGCGCTGCGCAGCAACGAAAGTGAACACGTTATGGCTACCGATTACGACGCCCCACGCAAGACAGAAGAAGAGAATCCCTCCGCATCGTTGGAGGCCCTTCAGGCGTCCCGCGGCGGCGGCGCGCAGACCGCTGTTATCGACGTCGATGAGAACGATACTGCTGAGGGCATCGACCTTCCGGGCGCAGATCTCTCCAACGAAGAACTCACGGTCATTGTTGTTCCGGAGCAGTCCGACGAATTTACCTGCTCCTCCTGCTTCCTGGTCCGCCACCGGTCCCAGGTTGCGCGCGAAAAAAACGGCATGAAGTATTGCCGCGACTGCGAAGGCTGA	MALRSNESEHVMATDYDAPRKTEEENPSASLEALQASRGGGAQTAVIDVDENDTAEGIDLPGADLSNEELTVIVVPEQSDEFTCSSCFLVRHRSQVAREKNGMKYCRDCEG				NA	NA	NA	NA	NA
D1-17_03213	348			hypothetical protein	ATGGCCACCAAACTCAATCGCAAGGCCCTGGAGAATGCCCGCGCACTGGTGAAAAAGGGAAAGGTTGAGCGCGACATCCGTGACGACTGGAGCGAACACGCCCCCTCGACTGACGATGAAAACTCGTTCATCGACAAGCACGGCTTTGAGGAGTTTTCCAAGTGGCATCTCGGCATTGACCGGGAGCAATCGGACGGCACCAAGGGCAGCGTCAGTTTCCCGTTCGGCGACTTCAAGAAGGTCCACCGCTGCGCCATCATCTCGCTGGAAAGCCGCGCAGCGCAGTACGACCACGAGGACATCGCTAAGGCAGCCAAAAAATTGCTGGAAGAAATCGACGCCGGCTGA	MATKLNRKALENARALVKKGKVERDIRDDWSEHAPSTDDENSFIDKHGFEEFSKWHLGIDREQSDGTKGSVSFPFGDFKKVHRCAIISLESRAAQYDHEDIAKAAKKLLEEIDAG				NA	NA	NA	NA	NA
D1-17_03214	2295	katG	COG0376	Catalase-peroxidase	ATGACCGATCACCAGGACCATCCTCCGATCCCCACTCCGGGCAGCGCCCAGGGTCTGGACACCAAGATCGAGGGTGGGTGTCCGATCGCCCATGACAGCGTGACCTCGCACGGCAGCGAGAGCGAGAACCCGGCCATCGACTCGCCGCAGCCCAAGGCGCACCGTCCCCGAACGAACGCAGACTGGTGGCCGAACCAGCTCGATCTCTCGGTGCTCCATGGGAACCATCCGGCAGGCAACCCGCTCGCCCCCGGTTTTAGCTACCGGGAGGAGTTCCAGAAGCTCGACGTTGAGGCACTGAAGCAGGACATTATCGAGGTCCTGACCACGTCGCAGGACTGGTGGCCGGCGGACTTTGGCCACTACGGCGGCCTGATGATCAGACTGAGCTGGCACGCTGCCGGCACCTACCGGGTCCACGATGGCCGCGGCGGAGCGGGTGAAGGCAGCCAGCGCTTCGCTCCGCTGAACAGCTGGCCGGACAACGCCAATCTGGACAAGGCCCGCAGGCTGCTGTGGCCGGTGAAGCAGAAGTATGGCCAGAAGGTCTCGTGGGCGGACCTGCTGGTTCTCGCGGGCAACGTCGCCCTGGAGTCCATGGGCTTCAAGACCTTTGGATTCGCCTTCGGCCGTGAGGACGTGTGGGAGCCCGAGCAGATCTTCTGGGGGCCAGAGGACACCTGGCTCGGCGACGAACGCTACATCGGAGAAGGCCAGATGTCGGAGGAGGTCGGCTCCACCGAGATGGGCCTGATCTACGTCAACCCCGAGGGCCCGATGGGCAACCCGGATCCCAAGCTCGCTGCGTCGTTTATCCGCGAGACCTTCAAGCGGATGGCGATGAACGACGAGGAGACCTTCGCGCTGATTGCCGGCGGCCACACCTTCGGCAAGACCCACGGCGCCGGGGACGCCGACGCACACGTCGGCCCCGAGCCGGAGGCTGCCGACCTCGAGGCGCAGGGCCTGGGCTGGCTCAGCACCTACGGCAGCGGCAAGGCCGGCGACACAATCACCTCCGGGCTCGAGGTCACCTGGACCGATCGGCCGACGGAGTGGAGCAACCGTTTCCTGGAGATCCTGTTCGAATATGAGTGGGAGCTCACCAAGAGCCCGGCAGGTGCCCACCAGTGGGTCGCCAAGGATGCCCCGGAGATCATCCCGGACGCGCACGACCCGGAGAAGAAGCACCGCCCAACCATGCTCACGACCGACCTGTCACTGCGCTTCGACCCGATCTACGAGAAAATCGGGCGGCGCTTCCTGGAGAACCCGGACGAGTTCGCGCTCGCGTTCGCCAAGGCCTGGTACAAGCTGCTGCACCGCGACATGGGTCCGGTGGGCCCGCACCTGCTCGGACCATGGGTCCCGGAGCCGCAGCTCTGGCAGGACCCCATCCCGGCAGCCGACCACGCGCTGATCGACGAGCAGGACATCGCCGCGCTTAAAGCCCAACTCCTGGAGTCAGGTTTGTCCGTCTCGCAGCTCGCCAGCACGGCGTGGGCAGCAGCGTCCACCTTCCGCAAGACCGACAAGCGCGGCGGCGCGAATGGCGCGCGGATCCGGCTGGAGCCCCAGCGCGGCTGGGAAGTTAACGAGCCCGAGCAGCTGGCCACAGCGCTGCGGGCCGTCGAGACGGTGCAGCAGCAGTTCAACTCCGCGCAGACAGGGGGCAAGAAGGTCTCGTTGGCAGACCTGATCGTCCTCGGTGGCTGCGCTGCGGTGGAGAAGGCCGCGAGGGACGCCGGCTTCCCCGTCACCGTACCGTTCCGTGCAGGCCGGGCAGACGCCTCCCAGGATCAGACCGACGTCGAGTCATTCCAGTATCTGCAGCCGCGGGCGGACGGGTTCCGCAATTACATGCGCCCCGGCGAGAAGCTGCAGCCGGAGACCCTCCTGCTGGACAAGGCGTACCTGCTGGGCCTCTCCGCGCCGGAGATGACAGTCCTTATCGGCGGCATGCGTGTCCTCGGCACCAATGCCGGCGGTTCCGCCCACGGTGTCCTCACCGACAGGCCGCAGGTCCTGACGAACGACTTCTTCGTCAACCTCCTCTCCCCGGGCACGCGGTGGAGGGTATCGGGGGCTGAGGAGAACGTCTACGAGATCAGCGACATCGCCACCGGCGAACTGAAGTGGACGGCCACGGCTGTCGACCTGGTCCTCGGCTCCAACTCGCAGCTGCGGGCGCTGGCCGAGGTCTACGCGAGCGAGGACGCCCGGGAGAAGTTCGTCAACGACTTCGTGGCGGCCTGGGTGAAGGTCATGGAACTCGACCGCTTCGACCTGCGCTAA	MTDHQDHPPIPTPGSAQGLDTKIEGGCPIAHDSVTSHGSESENPAIDSPQPKAHRPRTNADWWPNQLDLSVLHGNHPAGNPLAPGFSYREEFQKLDVEALKQDIIEVLTTSQDWWPADFGHYGGLMIRLSWHAAGTYRVHDGRGGAGEGSQRFAPLNSWPDNANLDKARRLLWPVKQKYGQKVSWADLLVLAGNVALESMGFKTFGFAFGREDVWEPEQIFWGPEDTWLGDERYIGEGQMSEEVGSTEMGLIYVNPEGPMGNPDPKLAASFIRETFKRMAMNDEETFALIAGGHTFGKTHGAGDADAHVGPEPEAADLEAQGLGWLSTYGSGKAGDTITSGLEVTWTDRPTEWSNRFLEILFEYEWELTKSPAGAHQWVAKDAPEIIPDAHDPEKKHRPTMLTTDLSLRFDPIYEKIGRRFLENPDEFALAFAKAWYKLLHRDMGPVGPHLLGPWVPEPQLWQDPIPAADHALIDEQDIAALKAQLLESGLSVSQLASTAWAAASTFRKTDKRGGANGARIRLEPQRGWEVNEPEQLATALRAVETVQQQFNSAQTGGKKVSLADLIVLGGCAAVEKAARDAGFPVTVPFRAGRADASQDQTDVESFQYLQPRADGFRNYMRPGEKLQPETLLLDKAYLLGLSAPEMTVLIGGMRVLGTNAGGSAHGVLTDRPQVLTNDFFVNLLSPGTRWRVSGAEENVYEISDIATGELKWTATAVDLVLGSNSQLRALAEVYASEDAREKFVNDFVAAWVKVMELDRFDLR	PGPT0013165_106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0013165-katG-K03782	NA	NA
D1-17_03215	882			hypothetical protein	ATGCATCTTCATCCATCTCTCGAGCAGAGCCTAAGCCGGCAAGTAACCAGGGACCCGGAGGACTGGGAGGAAACGTTCAGGCAGATGGTCCTTTTCGACCTTGCCGAAGACATGAAGCTCGGGTTCCTCCTCGCGTACTACCGGAATTTCACCATTCCATCCGGTTCAGACACTCTTGTCACAAACGGGGAAATCCCAGCGCGGCCCGTGAAGCGTTCCTTTGACACTGCAATCGTCATCTATGAACTCATCGCAAACGGACTGGACTCCGAGCGTGGTCGACAAATGACAGCTTTGCTGAATCGAGTTCACCGCAACGTTCCTGGCAGCGACGAAGACTATCTGTATGTGCTGATGACACTCTTGGTTGTCCCCCTACGGTGGTCGCACCGCCACGGCTGGCGGAAACCCACACAGACCGAAAGAAACGCCGCCATCCGTTTCTTCACAGGGCTGGGCACCAGGATGCACATCTCCAACATCCCTGCCACCTTCGAGGAGGCGGAGGCCTTTTTCGACGACTACGAAAGCCGGAGAGTCCGCCCAAGCCCTGCCGGCCGGGCACTCATGAAGGCTACGGTAGAGGTCTTTCAAAGCATGCAGCCGCGGATGCTCCATCCGCTGACAAGGCTCATGATAGCCACAATGCTCGACGACGCACGGCTCACCGCAGCGCTCGGGCTCCCCCGGAGCACCTGGTGGTCACGGTTTGCGCTTGATGCCGGATTGGCAGTCCGCAATGGGATCCGTCGCCACACTCCCTTGCGCACAGTACCAAGCTTCAGGTCCGGCCAGCCGCTGATGCCGGTCTACCCCCACGGCTATGATGTGGCCGATGTCGGCCCGCTCAATGTCATGGGCGCGAAACACCGGAACGGTTGA	MHLHPSLEQSLSRQVTRDPEDWEETFRQMVLFDLAEDMKLGFLLAYYRNFTIPSGSDTLVTNGEIPARPVKRSFDTAIVIYELIANGLDSERGRQMTALLNRVHRNVPGSDEDYLYVLMTLLVVPLRWSHRHGWRKPTQTERNAAIRFFTGLGTRMHISNIPATFEEAEAFFDDYESRRVRPSPAGRALMKATVEVFQSMQPRMLHPLTRLMIATMLDDARLTAALGLPRSTWWSRFALDAGLAVRNGIRRHTPLRTVPSFRSGQPLMPVYPHGYDVADVGPLNVMGAKHRNG				NA	NA	NA	NA	NA
D1-17_03217	891			hypothetical protein	ATGAGCCCCGCAAACGAAGCCCGCAAGTCCAAAGCTGAGCGCACAGCAGAGGCCCGCGAGAAAGCCCGCCAGATCCGCGAAGCACAGCTTAAGAAGGACAAGCGGAACAAGCTGCTGATCGGGTGGGGCATCGTGGCCGCGGTGGTGGCCATCCTTGTTGTCGTGGGTCTCGTGGTCAGCACGAGCCTGCAGAACAATGCCCCGGTTGCGGATCAGGGCCCCACACCGGCCAACGGAAACGTTCACGGCGGCGTCACCCTTCTGAAAGGCACTGAGGTGGCCAAGACCGAGCCCGCCACAGTGAACGTGGCGGACCTTCCGGAGCCGGCGGCATCGGCCCCCGCCACCATCGCTGCGCCCGGTGCGGAAGCTGAGGCCGGCAAACCGGTTAAGGTTGTCCTCTACATCGACTTCATTTGCCCCGCCTGCAAGAACTTCGAGGCGCAGTTCAACGAGACCCTGACGTCGCTCCGCAACGAAAGCAAGATCACCGTGGAGTACCGGGCTCTGGGATTCCTGGACAGCCGCTCCACCACCAACTACTCCTCCCGTGCAGCCAACGCCGCTGCCTGCGTCGTGAATGAGTCCCCGGAGAAGTACGCGGAGTTTGTGGACACGCTGTTCGCCAACCAGCCGGCCGAGGGCGGCCCCGGACTCTCCGACGACGAGCTGAAGAAGCTGGCCACGGACGTCGGGGCCAAGAGCATCGATACCTGCGTCGAGGAAAAGCGCTACCGTCCTTGGGTGAAGTACACCACCCAGGAAGCGGCTGCCATCGGCGTTGCCGGCACCCCGACTGTTCTGGTGGACGGCAAGCAGTGGGGTAAGGGTGACAGCGCCCAGACTGAATTCCCGGCCTTCCTCGAGGCGGCCATCAAGGCCAAGGCCTAG	MSPANEARKSKAERTAEAREKARQIREAQLKKDKRNKLLIGWGIVAAVVAILVVVGLVVSTSLQNNAPVADQGPTPANGNVHGGVTLLKGTEVAKTEPATVNVADLPEPAASAPATIAAPGAEAEAGKPVKVVLYIDFICPACKNFEAQFNETLTSLRNESKITVEYRALGFLDSRSTTNYSSRAANAAACVVNESPEKYAEFVDTLFANQPAEGGPGLSDDELKKLATDVGAKSIDTCVEEKRYRPWVKYTTQEAAAIGVAGTPTVLVDGKQWGKGDSAQTEFPAFLEAAIKAKA				NA	NA	NA	NA	NA
D1-17_03218	1503	otsA	COG0380	Trehalose-6-phosphate synthase	ATGCAACGACCTGAACGCGACAAGCCGCAGACACCTGCGGACGGCGGGGCGGGTTCCGGAAGCAACTCGGCCGCCACGCTGTATGACTTCATGGTGGTGTCCAACCGCCTGCCGGTGGACCGCTGCGCTCCGGGGGAGCAAGGTGACGACGGCTCCGGCTGGCGCCGTTCCCCTGGCGGCCTGGTGACAGCCTTGGCGCCCATGATGACCAAGACCGACGGCGCATGGGTGGGCTGGCACGGTGCGCCCGACGAAACGGTTCAACCGTTTAGCCACGGCAGCATGGACCTGGTCCCGGTGCAGCTGAGTACCGACGACGTCGAGCTGTACTACGAAGGTTTTTCCAACGCCACGCTCTGGCCGCTCTACCACGACGTCATCGCTCCGCCGGAGTTCCACCGGACCTGGTGGGATTCTTACCGCAAGGTCAACAGAAGGTTCGCCGACGCCGTCGTCCGCCATGCCGACCACGGCGCAACAGTGTGGGTGCAGGACTACCAGCTCCAGCTCGTGCCCCGGATGCTCCGTGAGGCGCGTCCCGACCTGCGGATCGGCTTCTTCAACCACATCCCGTTCCCGCCGCCGGAGATCTTCGCCCAGCTCCCCTGGCGCCAGGCGATTATCGACGGTTTGCTGGGCGCCGACCTCGTGGGCTTCCAACGCAGCAGCGATGCCGGCAACTTCATGCGCTCGGCACGCCGGTTCCTCGGCGCCAGCGTCAAGCAGCAGCAGGTCCACGTCAGGGGCCAGAACGGCGACATGACGCACATCGCCCGCGCCCAGTCCTTCCCGATCTCCATTGACGTCCGGCAGATCACCGAGCTGGCCAATAACCCCGACATCATCGAGCGGTCCCGCCAAATCCGCCAGGACCTCGGCAACCCCAAGACGATCCTGCTCGGCGTTGACCGCCTTGACTACACCAAGGGCATCCGGCACCGGCTCAAGGCCTACGAGGAGCTCCTCGACGAAGGGAAGCTCACCGTTGGCGACGCAACACTGATCCAGGTGGCAAGCCCCAGCCGCGAGCGTGTGGAACAGTACCGCCTCCTCCGGGAAGAGGTGGAAGGCACTGTGGGCCATATCAACGGAACCTACGACACACTGGAAAACACGGCGGTGCGGTACCTGCACCACAGCTACCCCATCGAGGAGATGGTAGCGCTTTATCTGGCTGCCGACGTCATGCTCGTCACCGCCCTTCGGGACGGTATGAACCTCGTGGCCAAGGAATACGTGACGGCCAGGACCAACAACGACGGCGCCCTGGTCCTCAGCGAATTCGCGGGGGCGGCCGACCAACTCAAGCAGGCCCTGCTGATGAACCCGCACGACATTGACGGGCTCAAAGACGCCGTGATGCGGGCCGTCAACATGTCCCCCCGGGAGTCGGCGCGACGCATGCGCGCCATGCGCAAGCAGATCCTGGACCACGACGTCGACCACTGGTCCGCCGACTTCCTGCACGCCCTCAACGAGAAGGTGGTCCGCGATGACTCCTGA	MQRPERDKPQTPADGGAGSGSNSAATLYDFMVVSNRLPVDRCAPGEQGDDGSGWRRSPGGLVTALAPMMTKTDGAWVGWHGAPDETVQPFSHGSMDLVPVQLSTDDVELYYEGFSNATLWPLYHDVIAPPEFHRTWWDSYRKVNRRFADAVVRHADHGATVWVQDYQLQLVPRMLREARPDLRIGFFNHIPFPPPEIFAQLPWRQAIIDGLLGADLVGFQRSSDAGNFMRSARRFLGASVKQQQVHVRGQNGDMTHIARAQSFPISIDVRQITELANNPDIIERSRQIRQDLGNPKTILLGVDRLDYTKGIRHRLKAYEELLDEGKLTVGDATLIQVASPSRERVEQYRLLREEVEGTVGHINGTYDTLENTAVRYLHHSYPIEEMVALYLAADVMLVTALRDGMNLVAKEYVTARTNNDGALVLSEFAGAADQLKQALLMNPHDIDGLKDAVMRAVNMSPRESARRMRAMRKQILDHDVDHWSADFLHALNEKVVRDDS	PGPT0014135_336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014135-otsA-K00697	NA	NA
D1-17_03219	831	otsB	COG0637	Trehalose-phosphate phosphatase	ATGACTCCTGAGGCAGACCGCACCCATTCCCGCGCAAACACTCGCCTTACCCTTTCACCGGAACTGCTGGAAGCCGTGCGGGAGATCGCCGGCACGGAGCAGCTGCTGATCGCAATGGATTTCGACGGCACGATCTCCCCGCTCGTTGACCACGCCGGAGACGCCCGTCCGCTGCCGCGCTCCGCCGCGGCGTTCAAGGAGCTGGCCACCCTTCCGCGCACGACGACGGCCCTCATCTCTGGCAGGGCACTCGACAGCCTGCGCGCGGTCGCCTCGCCTCCGGATGAGACGTTGCTCATCGGCAGCCACGGGGCCGAGGCATGGCTGGGGCCCGGTTCCGCGCCGCTTGTCCTGGACCCCGGGCAGCTGGAGCTCCTGGCGGAGGTCCGCAGCATCCTGGAGGGAATCGTGGAGCTCGCGCCCGGCACGCTCCTCGAAGAAAAACCGGCAGGGGTGGTCCTGCACACCCGGCTGGCGTCAGACGACGTGGCGGAGGACGCCGTGGCGGCCGCGCGGGCGGCGCTCCAGGACCTCGAGGGCGTCCATCTCAAAAACGGCAAGCGCGTGCTGGAAACATCAGTAGTCCATGCCTCAAAGGGTGAGGGTGTGGACTTCCTCAAGCAGGCCACCGGGGCTACGGCTGTCCTCTTCGCCGGGGATGACGTCACTGATGAGGATGCCTTGGGCAGGCTTGGCCCCGGCGATGTCGGCGTGAAGGTCGGCCTGGACTTTACACAGGCCCAGTTCCGCGTCGAGGCCCCAGTGCACATCGCAGAGTTGCTGGAAACCCTGCTGAGGGAACGCCGCAAGGCGGTCTCACACACGGCGTGA	MTPEADRTHSRANTRLTLSPELLEAVREIAGTEQLLIAMDFDGTISPLVDHAGDARPLPRSAAAFKELATLPRTTTALISGRALDSLRAVASPPDETLLIGSHGAEAWLGPGSAPLVLDPGQLELLAEVRSILEGIVELAPGTLLEEKPAGVVLHTRLASDDVAEDAVAAARAALQDLEGVHLKNGKRVLETSVVHASKGEGVDFLKQATGATAVLFAGDDVTDEDALGRLGPGDVGVKVGLDFTQAQFRVEAPVHIAELLETLLRERRKAVSHTA	PGPT0014140_1284	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087	NA	NA
D1-17_03221	1083	msiK	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	GTGGCAACAGTTACTTTTGACAACGCTACGCGTCTGTACCCGGGCACAGAGAAGCCCGCTGTTGACAAGCTCAACATTGAAATCGCCGACGGCGAGTTCCTGGTCCTCGTTGGACCCTCCGGTTGCGGTAAGTCCACCTCCCTGCGCATGCTCGCAGGCTTGGAAGACGTAAACGCCGGCCGTATCCTCATTGGCGACCGCGATGTCACTGACGTTCCGCCGAAGGACCGCGATATCGCGATGGTTTTCCAGAACTACGCCCTCTACCCCCACATGACGGTGGCGGACAACATGGGCTTCGCGCTGAAGATCGCCGGCGTGAGCAAGGAGGAACGTGCCGAGCGCGTCCGTGAAGCTGCCAAGCTCCTGGACCTCGAACCGTACCTGGACCGCAAGCCGAAGGCACTTTCCGGCGGTCAGCGCCAGCGTGTTGCCATGGGCCGCGCAATCGTCCGTAACCCGCAGGTCTTCCTCATGGATGAGCCGCTCTCCAACCTGGACGCAAAGCTCCGCGTCCAGACCCGAACCCAGATTGCGTCCCTGACCCGCCGCCTGGGCGTCACCACCGTCTACGTGACGCACGACCAGGTCGAAGCCATGACCATGGGTGACCGGGTTGCCGTACTCAAGGACGGCCTGCTGATGCAGGTGGACACTCCCCGCAACCTGTACGACCGCCCCAAGAACGTATTCGTTGCCGGCTTCATCGGCTCCCCCGCCATGAACCTCCTCGAACTTCCGGTCGTCGATGGCGGCGTGCAGTTCGGCGGCACCGTCTACCCCGTGCCGCGCAACGTCCTCGAGGAGGCACACGGCACCACCGTGACGCTCGGCAGCCGTCCCGAAGACCTGGAAAGCGCCCCGCAGGGCGAAGGCCTGCAGGTTGAGGTCGACGTCGTCGAAGAGCTCGGCGCCGACGCCTACGTCTACGGCCACACCACCCTGGACGGCAAGAGCCATGACATCGTGGCACGCGTCGACGGCCGCCGCCCCCCGATGAAGGGCGAGTCCATCTGGGTCCGTCCGCAGTCCGGCCACGTCCACCTGTTCGACACCAAGACCGGCGAGCGCCTGGGCGACTAG	MATVTFDNATRLYPGTEKPAVDKLNIEIADGEFLVLVGPSGCGKSTSLRMLAGLEDVNAGRILIGDRDVTDVPPKDRDIAMVFQNYALYPHMTVADNMGFALKIAGVSKEERAERVREAAKLLDLEPYLDRKPKALSGGQRQRVAMGRAIVRNPQVFLMDEPLSNLDAKLRVQTRTQIASLTRRLGVTTVYVTHDQVEAMTMGDRVAVLKDGLLMQVDTPRNLYDRPKNVFVAGFIGSPAMNLLELPVVDGGVQFGGTVYPVPRNVLEEAHGTTVTLGSRPEDLESAPQGEGLQVEVDVVEELGADAYVYGHTTLDGKSHDIVARVDGRRPPMKGESIWVRPQSGHVHLFDTKTGERLGD	PGPT0016310_4664	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
D1-17_03222	1419			hypothetical protein	ATGACCGAGGAACACAGCGCCCAGTGGCACGACGAACCCACCGACTATGGACAGATCGGCAAACTGCCAAGGTTCGAGGCCGCGAGTGCGAAGGACGCCAAGGCGTCCTCGGTCGCCAGCAATCTGAACATCACCGCTGCGGCAGCGGACCCTGAGCTGCTGGACCTGCCGTGGCACATTGCCCTGGAGGACTGGCCCGCGGAGAACCTCGCTGCTCTCCCCCGCGGTATCTCACGGCACATCGTCCGGTTCGCTCACCTGGGTGGTTCCGTCATCGCCATCAAAGAGACCTCCGAACACGTTGCCCGGCACGAGTACCACATGCTGCGCAAACTTGCCCGGCTGGACGTGCCCTGCGTGGAGCCCGTGGCTGTCATCACGGGCCGCACCACCCTCGACGGCAGGCCGCTGAACCCCGTACTGGTCACCCGCCACCTGAAGTTTTCCATGCCCTACCGCGCCCTGTTCTCCCAGATGCTGCGCAAGGACACCCTGACGCGGCTCATCGACGCGCAGGCCCTGCTGATGGTCCGGCTCCACCTCATAGGTTTCTACTGGGGGGACGTGTCGCTCTCCAACACACTGTTCCGGCGCGACGCCGGCGCCTTCGCCGCATACCTCGTGGACGCCGAGACCGGTGAGCTCTACCCGGACCTGTCCACAGGGCAGCGCGAATACGACCTTGAGATTGCCCGGGTCAACATCGCGGGCGAACTCATGGACCTTCTCGACGGCGGCCTGATCGAGGAGAAGGTGGACCCGGTGGCCACGAGCGAACTCATCATGGAAAGCTACCGCCGCCTGTGGACGGAGCTGACGGAGAAGGAATCGTTCGAACTCGGCGAGCGGTGGCGCGTGGGCGCGCGCATCCGCCGCCTCAACGAGCTGGGCTTCGACGTCGAGGAATACGCCATCAAGACGACGCAGAACGGCTCCACCATCCAGCTCCAGCCCAAGGTGGTCGATGCCGGCCACCACCAGCGGCGCCTGCTCCGGCTCACTGGCCTGGACGCCCAGGAGAACCAGGCGCGCCGCCTGCTCAACGACATGGACTCGTTCAGGGCCGACAACAACCCGGACATGGATGAGGAATACAGCGCCCACCTCTGGGTGAGCCAGATCTTCGAACCGATCGTCCGCTCGATTCCCCGTGACCTCTCGGGAAAGCTGGAACCTGCAGAAGCCGTCCATGAGGTGCTGGAGCACCGCTGGTACATGTCCGAAAAGCAGGAGCGCCACATTCCGCTGGCCGAGGCCGTCCAGTCCTACATCGACTCCATCCTGCGACACCGCCGGGACGAGGCAGCAATCATGCTGAACCCTGATACAGAGCTGCTGAAAATCCTCGAAGTGGAAACCGAGCAGTCACGCTACGGTGCCGAGGAATCCGTCGACGAGTACCCCGACTCTGACGACTAA	MTEEHSAQWHDEPTDYGQIGKLPRFEAASAKDAKASSVASNLNITAAAADPELLDLPWHIALEDWPAENLAALPRGISRHIVRFAHLGGSVIAIKETSEHVARHEYHMLRKLARLDVPCVEPVAVITGRTTLDGRPLNPVLVTRHLKFSMPYRALFSQMLRKDTLTRLIDAQALLMVRLHLIGFYWGDVSLSNTLFRRDAGAFAAYLVDAETGELYPDLSTGQREYDLEIARVNIAGELMDLLDGGLIEEKVDPVATSELIMESYRRLWTELTEKESFELGERWRVGARIRRLNELGFDVEEYAIKTTQNGSTIQLQPKVVDAGHHQRRLLRLTGLDAQENQARRLLNDMDSFRADNNPDMDEEYSAHLWVSQIFEPIVRSIPRDLSGKLEPAEAVHEVLEHRWYMSEKQERHIPLAEAVQSYIDSILRHRRDEAAIMLNPDTELLKILEVETEQSRYGAEESVDEYPDSDD				NA	NA	NA	NA	NA
D1-17_03223	1371		COG0277	putative FAD-linked oxidoreductase	ATGGGCAGCATCGCTGACGGGCTGACTTCAACGCTGGGGCCAGGCAAGGTCGTGCAGGATCCAGCCGTATTGGCTGCATACGCCGTCGACCAGGCACCTGTGCTGGACTATCGGCAGCCGCTTGCGGTTGTGTTTGCAGAATCCGTCCCCGACGTCCAACACATCGTTCGGATGTGCGCCGAGCTGCGGATTCCGATTGTGGCCCGCGGAGCCGGTACGGGGGTCTCCGGCGGCGCCCACGCCACCGAAGGCTGCGTCGTTCTGAGTCTGGAACGGATGAACCGCATTCTGGACCTCAACCCGGACGACGAGACCGCCGTCGTCGAACCCGGCGTGATCAACGCCGACCTGAACGACGCAGCGGCGGCGCACGGGCTGATGTTCGCACCTGACCCGGCAAGCTTCCGTATGTCTACCATTGGCGGCAATGTAGCCACCAACGCCGGCGGACTGCGTTGTGCCAAATATGGGGTCACCCGTGATTCTGTACTGGCACTGGACGTCGTGCTGGCGGACGGTTCCCTGATCCGTACCGGCCACCAGACGTTCAAGGGGGTAGCGGGGTACGACCTGACCGGGCTGTTCGTGGGATCCGAGGGAACGCTGGGGATCGTCGTCGGCGCCACCGTACGCCTGAAGTACCTGCCCCGCGAGGTCCACACGATCGCCGCCTTCTACTCCGATTTCCGGCAGGCTGCGGCAGGGGTTTTGGCGGTGGGCAAGGCCCGTGTGCAACCGGCCATCATGGAACTGCTCGACGGCGGGTCCCTCGCGCAACTGGATGAGATCCACGGTTCGGACCTTGCCGTCAGGGGAAAATCGCTCCTGCTGGTCCAGACTGACGGTTTTGGCGCCGCGGCCGAGGCCGCAGTGGTACGGGACGTCCTTGCTGCGGGCGGAGCTGTGGTGACCACCGAGGCCAGCGAGGAGGCCGAACGCCTGGTGGAACTGCGGCGGAACAGCCGAGGCGTCGAAGTGGACGATCAGTACCGGGTGGGCGAGGACGTCGCCGTGCCCCGTTCCCGGCTGGTGGACTATGTGGCCGCCCTTGAATCTTTGGCCGAGGTCCATGAGGTGAAGCTCAAGGTGGTGGCGCACGCCGGGGACGGCAACCTGCACCCAACGTTCTGGGTGGACCGCGTGAGCAGCCTCGTCGACGCCGGGGCCATGCTCCGCCTGAACAAGGCCCTGGACGCGTCAATCGCCGTGGCGCTGGACATGGGCGGCACCATCACCGGCGAGCACGGCATTGGCCAGTACAAGCTGCGCTGGCTGGACCTGGAACAGCCGCAGCCCATCCGTGAGCTGCAGCGGCGCGTGAAGGAGCTTTTCGACCCGCAGGGGATACTCAACCCGGGCAAGGCAATCTAG	MGSIADGLTSTLGPGKVVQDPAVLAAYAVDQAPVLDYRQPLAVVFAESVPDVQHIVRMCAELRIPIVARGAGTGVSGGAHATEGCVVLSLERMNRILDLNPDDETAVVEPGVINADLNDAAAAHGLMFAPDPASFRMSTIGGNVATNAGGLRCAKYGVTRDSVLALDVVLADGSLIRTGHQTFKGVAGYDLTGLFVGSEGTLGIVVGATVRLKYLPREVHTIAAFYSDFRQAAAGVLAVGKARVQPAIMELLDGGSLAQLDEIHGSDLAVRGKSLLLVQTDGFGAAAEAAVVRDVLAAGGAVVTTEASEEAERLVELRRNSRGVEVDDQYRVGEDVAVPRSRLVDYVAALESLAEVHEVKLKVVAHAGDGNLHPTFWVDRVSSLVDAGAMLRLNKALDASIAVALDMGGTITGEHGIGQYKLRWLDLEQPQPIRELQRRVKELFDPQGILNPGKAI	PGPT0028045_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_QacA,PGPT0028045-smvA|qacA|lfrA-K08167	NA	NA
D1-17_03224	285			hypothetical protein	GTGGTCGGGATGGACGGACACGAGCTCGGGGAGCTCTTTGGCCTCTCCACATTGAACAGGACCCGCGCGGCCAAGGGGGCTCTCGCGGTGCGCCTGCTTCTGGAAGGACTGGCCGGCAGCAAGCACGCCCCCGCCAGCGATATCGAGTACCCGACGAGGTTTACCGTGCGGCGTTTATCTGCGGCGGAGCACAGCCGTGCCACGATCGGTTTAGGAACTGGCGGCCTGGGCTGCTTGTCCCTAGTGGCCAGCCGCGCAGCGGCTAATCTGCAGCGGCGCCCATGA	MVGMDGHELGELFGLSTLNRTRAAKGALAVRLLLEGLAGSKHAPASDIEYPTRFTVRRLSAAEHSRATIGLGTGGLGCLSLVASRAAANLQRRP				NA	NA	NA	NA	NA
D1-17_03225	495			hypothetical protein	ATGGAAAACCTCTTCAGCCACCCGCCCGCTTCAGGTGCGGAGGAACCTGGCAGGCCTGCGGACCTGGATCCGGTGGTCTGCACTATCGTCGTCCCCGGTCCCGTCTCCCGGGCTTTCATTGGTTTCACGGAGCACACGCACCTCTGGTGGCCGATGGAAACCAACAGCGTGTATGGTGCCGGATCCTATGTCGAGTTTGAAGAGAACCTCATTCTTGAAACAGCTGACGATGGCAGGAGCACTACCTGGGGCACCATTGATGACTGGCAGCCGCCAATGTCCTTCCACGCATCCTGGTATCCCGGTGCCACTGCCCTGTGGTCCACGGAGCTGCGGGTTGCCTTCAGGTCCGTCAACGGGGGCACCGAAGTGCGGGTCGTCCACGACGGCTGGGAGGGTGCAGAAGACCCCTCCGCCACCCACGCCCAGTCAGAGCGGGACTGGCCCGACGTGCTGGCGCGCTACGCAAGGTTCATGGGCGCCGCTGCAGATTAG	MENLFSHPPASGAEEPGRPADLDPVVCTIVVPGPVSRAFIGFTEHTHLWWPMETNSVYGAGSYVEFEENLILETADDGRSTTWGTIDDWQPPMSFHASWYPGATALWSTELRVAFRSVNGGTEVRVVHDGWEGAEDPSATHAQSERDWPDVLARYARFMGAAAD				NA	NA	NA	NA	NA
D1-17_03229	3735	glgB		1,4-alpha-glucan branching enzyme GlgB	ATGAGTCAATTAACACTGACCCCCACACTCAAAGAGCTGCTCCGCCAGTGGCTGCCCCGCCAGCGCTGGTTCCCGGTGAAGGCGGGAGCTTTTTCGTTGGACCCGGCAGGCGGCTTCCTCCTGAACGATTCATTTGATGAGGTCGGCCTTGAGGTGTTCCTCGCCGCCGTGGTCTCGGAAACGCCCGACGGCGGCCGCCGCACCGACGTAGTGCAAGTGCCGCTCAGTTACCGCCGCAACCCCCTGCCCGGTGCGGATCGCGCCCTCGTCGGGGAAAGCGACCACCCTGAACTGGGACACCGCTGGATCTACGATGGTGTCCACGACCCCGTGTTCATCGCGACATGGCTTGACCTCATGCGGACTGAGGGCGCCGCTGCGGCAGGCGCCGCGACCGGCCACCTTTCGGGAGGCGGCCAGCCGCTTCCCCGAGCGACCGGAACAGTGCGCGTCCTGTCGGGTGAGCAGTCCAACACGTCCGTCATCGTCGACGACGGCGACTCTGCGGCGATCGTGAAATTCTTCCGTGTGCTTTCCGCCGGACGGAACCCGGAGGTGGAAGTGGGAGCCGCCCTTTCCGCCGCGCGCACCACGGAAGTACCCGCCACGCTCGGCTGGGTCACCGGCGAGTGGTTCGTGCAGACGGGGCCGGCCGGTGTGCCTGAACGCGCCCTGGGCGAACTCGCAGTGGCACACGAGTTCCTGGCCGGCGGCCGTGACGCCTGGAGGCTTGCAGTCGAAGCGGCGGCAGCGGGAACGGACTTCACCCAGGAAGCACACGCCCTCGGCCACGCCACCGCCACTGTCCACCGGCGGCTCGCCGAGACCTTGGGTGTATCTGCGGAAGACGTCCCCGGCGGCGTCATTGCGCCCGGAGTAGCCCAGCGAGTGCGGCAGGCCTGGACGGAAGCCGGTCCCGCCGTCGGACCGTATGACAACGAACTGGAACTGCTGCTTGCAAACCTTGAGGGCACCCCGGCCGGCGCCCTGCAGCGCATCCACGGGGACCTCCACCTCGGCCAGATCCTGCAGGTTCCCGGCCGCGGCGGGGGGCCGGACCGCTGGGCAATCCTCGATTTTGAGGGCGAACCGCTCCGACCTATCGCCGAGCGGAACTTTCCTGACGTCCCACTGCGGGACGTGCTGGGCATGCTCCGCTCCTTCGATTACGCAGCCGGGGCCGCCGAGCGTGAGAATCGTAACGCCCGCGTTCCGGAGACCTGGGTGGATGACTGCACCGAGGCGTTCCTGGCCGGCTACTCGGAAGTCACACCCGGCACCGTTGACAGGAACTCGCCGCTCTTTGTGGCATTGTGGCTGGACAAGGCGCTCTACGAAGTCGTCTATGAGATGCGCAACAGGCCGGACTGGCTGGCCATCCCGGCGAATGCGGCCAGACGGCTCCTCAGCAGTAAAGGCACCGGCGAACCGGCCGGTGCCGCAGCGGAAGGTAAGAACATGACAGGCTCTGTACCCACAGATCGGCCCCACGCGCCCCTTCACGTGGATGCGCATACGCTCTCCCGTGTGGCTGCCGGTGAGCACCACGCCCCGCACTCCGTGCTTGGCGCCCACCTGGATGACTACGGCCACGTGACCATCCGGACCGTGAAGCACATGGCCGAAGCGGTGACCGTAGTAACGGAGGCAGGCTCCGTCCCGATGACCCATGAGTCCGATGGCGTTTGGGTGGCCGTGATGGAGCCTCTCCAGGCGGGGCATGTTCCGGACTACCGCCTGGAAGTGACGTACGAAGGCCTGGACCCGGTAAGGGTCGACGAGCCTTACCGGTACCTCCCGACCGTTGGCGAAATTGACCTGCACCTGATCGGGGAAGGCCGCCATGAAACGCTGTGGACCGTCCTCGGCGCCCACGTGCAGCACTACAAGTCCTCTCTCGGAGACGTCGACGGCGTGTCCTTCGCCGTGTGGGCCCCGAACGCCGAGGCCGTGCGTGTCAAGGGTGACTTCAACGCGTGGGACGGGCGGGAGCACTCCCTCCGTTCCCTGGGCTCCTCCGGCATCTGGGAGCTCTTCGTCCCTGGCGTCGGAGCCGGCGCGTGCTACAAGTTTGAGATCAAGACCAAGGGCGGCTACTGGGTTGAAAAGGCCGACCCCCTGGCCTTCGGCACGGAGGTGCCGCCGCTGACCGCCTCCAGGGTTGTCGAATCCCATTACCGGTTCGAAGACGACGAATGGATGACGGCGCGCGCCGAGCGGGATCCGCACAACTCGCCCATGAGTGTTTACGAGGTCCACCTGGGATCATGGCGCCTCGGACTGGGCTACCGTGAGCTGGCCAAGGAACTCGTCGAGTACGTCAAGTGGCTGGGCTTTAGCCATGTCGAGTTCATGCCCGTCGCCGAGCACCCCTTCGGCGGCTCCTGGGGCTACCAGGTCACCTCCTACTTTGCGCCAACGTCCCGCTTCGGGCACCCGGACGAGTTCCGCTACCTGGTGGACGCGCTCCACCAGGCCGGCATCGGCGTCATCCTTGACTGGGTTCCGGCGCACTTCCCGAAGGACAACTGGGCCCTCGCCCAGTTCGACGGCCAGCCGCTGTACGAGCACGCAGACCCCAACCTGGGCGAGCACCCGGACTGGGGCACCCTGATTTTCGACTTCGGTCGCACCGAGGTCCGCAACTTCCTGGTGGCGAACGCGCTTTACTGGCTGGACGAGTTCCACATCGACGGCCTGCGCGTGGACGCCGTTGCTTCCATGCTCTACCTCGATTACTCCCGCGAGGACGGCCAGTGGCAGCCGAACCGCTACGGTGGACGTGAAAACCTCGAGGCCATCTCGTTCCTGCAGGAGGCCAACGCCACGGTGTACAAGACGCACCCCGGCGCGGTCATGATCGCCGAGGAATCCACCGCGTTCCCGGGTGTGACCGGTCCGACCAGCCACGGCGGACTCGGCTTTGGGCTCAAGTGGAACATGGGCTGGATGCATGACTCGCTGAAGTACATGTCGGAAGACCCGGTCAACCGCAAGTGGCACCACGGTACAGTCACGTTCTCGCTGGTCTACGCCTTCACCGAGAACTTCCTCCTGCCCATCAGCCATGACGAGGTTGTCCACGGCAAGGGCTCGATGCTGCGCAAGATGCCGGGCGACCGCTGGCAGCAGCTGGCGAACCTGCGCGCGTTCCTGGGATATCAGTGGGCACATCCCGGCAAGCAGCTGATCTTCATGGGTACCGAATTCGGCCAGGAAGCGGAATGGTCGGAGCAGCATGGCCTGGACTGGTGGCTCGCAGATATCCCGGGCCACAACGGCATCCAGCTGCTGACGAAGGACCTGAATGAGCTGTACAAGTCCACCCCGGCTCTCTACTCACGGGACAACGAACCCGGCGGCTTCCAGTGGATCAACGGAGCCGACGCGGACCGCAACGTGCTGACCTTTGTCCGCTGGGACAAGGACAGCAATCCCGTGGTCTTCGCCGTCAACTTCTCCGGTGCCCCCCACAAGGATTACGCCCTGGGCGTGCCAACCGCCGGTGGATGGACCGAGGTGTTGAACACCGACGCCGCCGCCTACGGAGGGTCCGGTGTGATCAACGCCGGGACCCTGGTCGCGGAGGACGAAGCCATCGACGGGCAGCCCGCAACGCTGACAGTTACCCTGCCCCCGCTCGGCGCCGCATACTTCAAGCCGACCGGCACGGCCGCCCAGTCCCTGCCGGCGAAGGCGGCCCAAGCGGAACTGCCGGAAACCACGGTGAGCTAG	MSQLTLTPTLKELLRQWLPRQRWFPVKAGAFSLDPAGGFLLNDSFDEVGLEVFLAAVVSETPDGGRRTDVVQVPLSYRRNPLPGADRALVGESDHPELGHRWIYDGVHDPVFIATWLDLMRTEGAAAAGAATGHLSGGGQPLPRATGTVRVLSGEQSNTSVIVDDGDSAAIVKFFRVLSAGRNPEVEVGAALSAARTTEVPATLGWVTGEWFVQTGPAGVPERALGELAVAHEFLAGGRDAWRLAVEAAAAGTDFTQEAHALGHATATVHRRLAETLGVSAEDVPGGVIAPGVAQRVRQAWTEAGPAVGPYDNELELLLANLEGTPAGALQRIHGDLHLGQILQVPGRGGGPDRWAILDFEGEPLRPIAERNFPDVPLRDVLGMLRSFDYAAGAAERENRNARVPETWVDDCTEAFLAGYSEVTPGTVDRNSPLFVALWLDKALYEVVYEMRNRPDWLAIPANAARRLLSSKGTGEPAGAAAEGKNMTGSVPTDRPHAPLHVDAHTLSRVAAGEHHAPHSVLGAHLDDYGHVTIRTVKHMAEAVTVVTEAGSVPMTHESDGVWVAVMEPLQAGHVPDYRLEVTYEGLDPVRVDEPYRYLPTVGEIDLHLIGEGRHETLWTVLGAHVQHYKSSLGDVDGVSFAVWAPNAEAVRVKGDFNAWDGREHSLRSLGSSGIWELFVPGVGAGACYKFEIKTKGGYWVEKADPLAFGTEVPPLTASRVVESHYRFEDDEWMTARAERDPHNSPMSVYEVHLGSWRLGLGYRELAKELVEYVKWLGFSHVEFMPVAEHPFGGSWGYQVTSYFAPTSRFGHPDEFRYLVDALHQAGIGVILDWVPAHFPKDNWALAQFDGQPLYEHADPNLGEHPDWGTLIFDFGRTEVRNFLVANALYWLDEFHIDGLRVDAVASMLYLDYSREDGQWQPNRYGGRENLEAISFLQEANATVYKTHPGAVMIAEESTAFPGVTGPTSHGGLGFGLKWNMGWMHDSLKYMSEDPVNRKWHHGTVTFSLVYAFTENFLLPISHDEVVHGKGSMLRKMPGDRWQQLANLRAFLGYQWAHPGKQLIFMGTEFGQEAEWSEQHGLDWWLADIPGHNGIQLLTKDLNELYKSTPALYSRDNEPGGFQWINGADADRNVLTFVRWDKDSNPVVFAVNFSGAPHKDYALGVPTAGGWTEVLNTDAAAYGGSGVINAGTLVAEDEAIDGQPATLTVTLPPLGAAYFKPTGTAAQSLPAKAAQAELPETTVS				NA	NA	NA	NA	NA
D1-17_03230	1797	treS_3	COG0366	Trehalose synthase/amylase TreS	GTGAGTTTCAGCCCGCAGACATCCTCACACCACTTCACGCCAAAGAGCACCTTCGAGCTGAACGCCCCGGGACTGCAACACGATCCGCTGTGGTACAGGAAAGCGGTGTTCTATGAAGTGCTCGTGCGGGGCTTTGCGGACGCCAATGGGGACGGGTCGGGAGACTTCCACGGCCTGATTGATAAACTCGACTACCTGCAGTGGCTGGGGGTCGACTGCCTCTGGCTGCCTCCGTTCTTCCAATCACCGCTGCGGGACGGGGGCTATGACATCTCTGACTACAACTCTGTGTTGGACGAGTTCGGGACCATTAGCGACTTCAAGCGGCTCGTCGCCGAAGCCCACGCGCGCGGCGTCCGGGTCATCATCGACCTGCCGCTGAACCATACGTCCGACCAGCACCCCTGGTTCCAAGAGTCACGCAAGGACCCGGACGGTCCCTTCGGCGACTTCTACGTGTGGAGCGACACGGACGAGAAGTACCAGGACGCCCGCATTATCTTCGTGGATACGGAAGAGTCGAACTGGACGTTCGATCCCATCCGGCGCCAGTTCTTCTGGCACCGTTTCTTCAGCCACCAGCCCGACCTCAATTTCGAAAACCCCAAGGTGATCGACGCCGTGTTCGACGTCGTGCGGTTCTGGCTGGACCAGGGGATCGACGGGTTCCGTGCCGACGCCATCCCGTACCTCTACGAGGAGGAAGGCACCAACTGCGAAAACCTGCCCGCGACCCACGAATTCCTGCGCAAGCTGCGCAAGATGGTGGATGAGAGCTACCCAGGCAGGGTGATCATCGCCGAGGCCAACCAGCCGCCAAACGAGGTGGTGGAGTATTTCGGAACGGAAGAGGAACCGGAATGCCACATGGCCTTCCACTTTCCGATCATGCCGCGGCTCTACTACGCACTTCGCGACCAGAAGGCCGCCCCGATCATCGAGACGATGCATGACACCCCGGACATCCCGGAAGGCGCCCAGTGGGGAACGTTCCTGCGGAACCACGACGAGCTGACGCTCGAAATGGTCACCGCCGACGAGCGCGCGGCGATGCTGGGCTGGTACGCCCCGGACCCGCGGATGCGCGCCAACATCGGCATCCGGCGGCGCCTGGCGCCGCTGCTGGACAACTCCCGGGCCGAGATCGAACTCATCAACGCCTTGCTGCTGTCGCTGCCGGGCAGCCCCTTCCTTTACTACGGGGACGAGATCGGCATGGGCGACAACATCTGGCTGGAAGATCGCGACGCCGTGCGCACCCCCATGCAGTGGAACCCGGACCGCAATGCAGGGTTCTCCAACGCCGACCCGGGCAAGCTCTACCTGCCGGTGATTCAGTCGCTGGTCTACAACTACAGCATGGCCAACGTGGAGGCGGAGGCCGCCCACTCCGGATCCCTCCTTCGGTGGACCCGGCAGATCCTCAGTGTCCGGCGCAACCACCCGGCCTTCGGGCTGGGAACCTTCCGGCACGTCGAAGCTGACCACGAAGTGGTGCTTGCCTACCTACGCGAACTTCCCGAAGGCAACTCAGCCGGCGAACCTGCCGAAACCATTCTGTGCGCCTTCAATCTCTCCCAGCACCCGGTCTCGTCGACGCTGAAGCTGCCGCAGTTCGCCGGCCGCGGACTGCGCGATGTGTTTGGCGGACAGCCATTCCCGGGCGTGGGAGAGGACGGGAACTTGACCCTCACGCTGGGCAGCCACGACTTCTTCTGGCTGCGCCTGCGTTCTGCTGCTTCCAACCCCGCATCACCTTTCACCCAGGCGATGCCCGTTCTTTCGATCGAGGGCTGA	MSFSPQTSSHHFTPKSTFELNAPGLQHDPLWYRKAVFYEVLVRGFADANGDGSGDFHGLIDKLDYLQWLGVDCLWLPPFFQSPLRDGGYDISDYNSVLDEFGTISDFKRLVAEAHARGVRVIIDLPLNHTSDQHPWFQESRKDPDGPFGDFYVWSDTDEKYQDARIIFVDTEESNWTFDPIRRQFFWHRFFSHQPDLNFENPKVIDAVFDVVRFWLDQGIDGFRADAIPYLYEEEGTNCENLPATHEFLRKLRKMVDESYPGRVIIAEANQPPNEVVEYFGTEEEPECHMAFHFPIMPRLYYALRDQKAAPIIETMHDTPDIPEGAQWGTFLRNHDELTLEMVTADERAAMLGWYAPDPRMRANIGIRRRLAPLLDNSRAEIELINALLLSLPGSPFLYYGDEIGMGDNIWLEDRDAVRTPMQWNPDRNAGFSNADPGKLYLPVIQSLVYNYSMANVEAEAAHSGSLLRWTRQILSVRRNHPAFGLGTFRHVEADHEVVLAYLRELPEGNSAGEPAETILCAFNLSQHPVSSTLKLPQFAGRGLRDVFGGQPFPGVGEDGNLTLTLGSHDFFWLRLRSAASNPASPFTQAMPVLSIEG	PGPT0014120_690	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
D1-17_03231	2073	glgE1	COG0366	Alpha-1,4-glucan:maltose-1-phosphate maltosyltransferase 1	GTGACGACTAACACGCGAACCAGTGCCCCAGCCAAGCAGACGCCCAACGCTTCGATCATGGATGGCCTTCGATTCGGCCGTTTCCCGATCACCAATGTTCAGCCGGTAGTCGAAGGCGGGAAGTTTCCCGCCAAGGCGCTTCCGGGTGAGGACATTGTCGTTAGTGCACAGGCCTTCCGGGAAGGCCATGACCAGCTGGGCGTCAGTGCCGTCCTGCTCGATCCCAAGGGCAAGGAGCGCCAGCGGGTCCGGCTGCACCCGCCCCGCGGTGATCGCGGCAAGGGCACCGACTTGTGGGAAGGCAAGCTGACTCCCACCTCGACGGGCCGCTGGTCCTTCGTGATCGAAGCGTGGCACGACCGCTATGGAACCTGGCACCACAACGCCGAGGTGAAGGTTGAGGCAGGCATCGACGTCGAACTGATGCTCGACGAGGGAGCTGCGCTGCTGTCGCAGGCTGCAGAGGAGTCTTTCCGTAACTCCTCCGACCGGAACACGCTCCGCGCCGCCGTCGTCGGTCTCTCCGACACCTCAAAGTCCGCTGAAGAACGGCTGGCCGCCGGTTTCAGTGCGGACGTCACCGAAGTCGTCGGACGCGAGCCCATCCGCGAGCTGGTGACTGTTTCTGAGCCGTTCCCCCTGCTGGTGGAGCGCGATCTCGCCGGCCGCGGCTCCTGGTACGAGTTCTTCCCGCGCTCTGAAGGTGCCGTCAAGAACCATGAGACCGGGCAGTGGACCTCCGGCAACTTCCGCACGGCTGCGAAACGTCTGGAAGCGGTTGCCGACATGGGCTTTGACATAATCTACATGCCGCCGATCCATCCGATCGGTGTGCAGCACCGCAAGGGCCCGAACAACACGCTTATCGCCGGTCCGAACGACCCCGGTTCCCCGTGGGCCATTGGGGCGAAAGAGGGCGGCCACGACGCCATCCACCCGGACCTGGGCACGTTCGAAGACTTTGACGCATTCGTCGCACGTGCCAACGAACTGGGTCTGGAAGTAGCACTCGACCTGGCCCTTCAGGCCGCCCCGGACCATCCGTGGGTGACCGAGCACCCGGAATGGTTCACCACACGGGTGGACGGAAGCATCGCCTATGCGGAAAACCCGCCCAAGAAGTACCAGGACATCTACCCGCTCAACTTCGACAATGATCCTGAGGGCCTGTCCAGGGAAATCCTCCGCATCGTCGAACTCTGGGTCAGCCACGGCGTCAAGGTCTTCCGCGTGGACAACCCCCACACCAAGCCCGTGTGGTTCTGGGAATGGCTGATCGCCAAGGTCAACAAGAAGAACCCCGACGTCGTGTTCCTCGCCGAGGCCTTCACCCGGCCGGCGATGATGCACGCGCTTGGCCGGGCCGGCTTCCAACAGTCCTACACGTACTTCACCTGGCGGAACACGAAGAAGGAGCTGGAAGAGTACTTCCATGAGGTCAGCCACGTCTCGCCGGCCTTCTTCCGGCCGAACTTCTTCGTCAACACGCCCGACATCCTCACGGAGTACCTGCAGTACGGCGGTCCGGCCGCCTTCAAGATCCGGGCTGTCCTAGCCGCGACTGCCAGTCCGCTGTGGGGCGTCTACGCCGGTTACGAATTGTACGAGCACGTGGCACGGCCGGGTGCCGAAGAGTACATCGACAATGAGAAGTTCGAGTACAAGGCCAGGGACTGGGATGCTGCTGCCGCATCCGGCCGGAGCCTTGCGCCATACCTGACCAGGCTGAACGAAATCCGCAAGGCCCATCCGTCCCTCGGGGACCTGCAGAACCTGACTCTGCACCACTCCACCGACGACGCGACGATCGTGTACTCCAAGCACAAGACGCTTCCGGACGGCACAAAGGACTCCATCATCGTGGTGGTTAACGTAGATCCGCACAGCACCAGGGAAAGCACGGTGTCGCTTGACCTCGCCGCGCTGGAGCTTGGCCCGGATGACCTCACGCCAAACGGCGGCTTCAGGGTGGACGACCTGGTCTCAGGGCAGTCCTGGGAATGGGGCGAATACAACTACGTCAGACTCGATTCCCACGTAGAACCGGCGCATATCCTGAACATCCGGAGGTAG	MTTNTRTSAPAKQTPNASIMDGLRFGRFPITNVQPVVEGGKFPAKALPGEDIVVSAQAFREGHDQLGVSAVLLDPKGKERQRVRLHPPRGDRGKGTDLWEGKLTPTSTGRWSFVIEAWHDRYGTWHHNAEVKVEAGIDVELMLDEGAALLSQAAEESFRNSSDRNTLRAAVVGLSDTSKSAEERLAAGFSADVTEVVGREPIRELVTVSEPFPLLVERDLAGRGSWYEFFPRSEGAVKNHETGQWTSGNFRTAAKRLEAVADMGFDIIYMPPIHPIGVQHRKGPNNTLIAGPNDPGSPWAIGAKEGGHDAIHPDLGTFEDFDAFVARANELGLEVALDLALQAAPDHPWVTEHPEWFTTRVDGSIAYAENPPKKYQDIYPLNFDNDPEGLSREILRIVELWVSHGVKVFRVDNPHTKPVWFWEWLIAKVNKKNPDVVFLAEAFTRPAMMHALGRAGFQQSYTYFTWRNTKKELEEYFHEVSHVSPAFFRPNFFVNTPDILTEYLQYGGPAAFKIRAVLAATASPLWGVYAGYELYEHVARPGAEEYIDNEKFEYKARDWDAAAASGRSLAPYLTRLNEIRKAHPSLGDLQNLTLHHSTDDATIVYSKHKTLPDGTKDSIIVVVNVDPHSTRESTVSLDLAALELGPDDLTPNGGFRVDDLVSGQSWEWGEYNYVRLDSHVEPAHILNIRR	PGPT0018610_542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018610-glgE-K16147	NA	NA
D1-17_03232	2628	glgP	COG0058	Glycogen phosphorylase	GTGACGCAAGTGAAGGCAATCCGCAGATTTACTGTCCGTACCGTTCTTCCCGAGCCGATCAGGCCGTTGGCCCGCTTGGCCACCAATCTGCGCTGGTCATGGCACCGGCCCACGCGGGAACTCTTCGAAAGTCTGGATCCAAAGGTCTGGGCCGAATGCGGCAACGATCCGGTGAGTTTCCTGGGACTGGTGGGCCGCGAAGAGATGCACCGCCTGGCCACCGATCCCGATGTGGTGGCCCGGGTGCGTGCGGCTGCCGAGGATCTTGACCGGTACCTTGAGGAGCCTCGCTGGTACCAGAGCCTGGGCGAGGACGCCCCTGCTTCCATCGCCTACTTCTCACCCGAGTTCGGTATCACGGAAGTCCTGCCGCAGTATTCGGGCGGCCTCGGCATCCTGGCCGGTGACCACCTCAAGGCCGCATCCGACCTCGGCGTTCCCCTGATCGGGGTGGGCCTGCTGTACCAGGCGGGGTACTTCAAGCAGTCCCTGTCCCGGGACGCCTGGCAGCAGGAGACATATCCGGTGATTGATCCCGACGGCCTGCCGCTGACACTGCTGCGGGAACCGTCAGCGGACGGAAGCGGCAAGCCAATCGAAATCGCGCTGCCGCTGCCCAACGGCCGGCGCCTTGCGGCGTATATCTGGCGTGCCGACGTCGGACGTGTTCCCCTCCTGCTGCTGGACTCCAACGTTCCCGGCAACGACGACGCCGCCCGCGGCGTCACGGACCGGCTGTACGGCGGCGGCGGTGACCATAGGCTCCAGCAGGAACTGCTGCTTGGCATGGGCGGGGTGAAGGCGCTGCGCGCCTACCAGCGACTGACCGGCACCCCCGCGCCCGAGGTGTTCCACACCAATGAAGGCCACGCAGGTTTCCTCGGCATCGAGAGAATCCAGGAGTTGATGGCGGGCGAGGAAGCCCTCACATTCGACGAGGCCCTCGCCGCGGGACGTGCGTCCACGGTTTTCACCACCCATACGCCTGTGCCTGCCGGCATCGACCGCTTCGAGGCCGCCCAGATTCAACACTTTTTCGAGGCGGGGCTCGCCCCGGATGTCCCCACGTCCCGGATCCTCGACCTGGGCCGCGAGAACTTCGCGGAGGGCAACCCGTTCGTGTTCAACATGGCCGTCATGGGCCTGCGCCTCGCCCAGCGCGCCAATGGCGTGGCGAAGCTCCACGGCGAAGTGTCCCGCGGCATGTTCTCTGCCCTTTGGCCCGGATTCGACCATTCAGAAGTGCCCATCACCTCCGTGACCAACGGCGTGCACGTACCCACCTGGGTCGACTCGAGGATCTCTAAACTGGCCCGTGAACGCTTCGGGGCCGAAGCCGAGGCGATGGGCCGCTGGGATCTGGCCTACAACGTCAGCGATGCCGAAGTCTGGCAGCTGCGGCGGGACATGCGTACCTCACTCGTGGAGGACGTCCGGCGCAGGCTCCGCGCAGCCTGGAAGAAGCGCGGGGCGGCCGATGCCGAGCTCGCCTGGACGGACTCCGTCCTCGATCCGGATGTCCTGACCATCGGGTTCGCCCGGCGCGTTCCCACTTACAAGCGGCTGACGCTGATGCTGCGCGAGCCCGAACGCCTCAAGGCCCTCCTGCTGCACAAGGAGCACCCGATTCAGCTGGTGATTGCAGGCAAGTCCCATCCGGCTGACGACGCGGGCAAGAAGATGATCCAGGACCTGGTGCGCTTCACGGACGACCCCAAGGTCCGCCACCGCATCGTCTTCCTGCCAAACTATGACATCGCCATGGCCCGGACGCTGTTCCCCGGCTGCGACGTCTGGCTGAACAATCCGCTGCGTCCGCTGGAAGCCTGCGGCACGTCGGGCATGAAGGCAGCCATCAACGGTTCCCTCAACCTTTCGGTGCTCGACGGGTGGTGGGACGAAATGTACGACGGCGAAAACGGCTGGGCGATTCCGACCGCCAACAACGGTGCGTCAGCGGATGAGCGCGACGACATCGAGGCTGCGGCCCTGTACGAGCTGCTCGAGACGCAGGTGGCGCCGCGCTTCTACGGCAACACCGTCTCCGAGGGAGCCGGTGCAGCCGGTCCATCCGACACCGGCCGCGAGAAAATCCCCACGCACTGGGTGTCCATGATCAAGCACACACTCGCCCACCTCGGACCCGCAGTGTCGGCTGAGCGGATGCTGCGGGACTACGTCAACGTCTTGTACCGGCCCGCTGCAGTTTCCGGGCGGCACGCGGTGGCAAACTCCTTCGCCCAGTCAAAGGGCCTTGCGGCCTGGACCACCAAAGTTCGCGCTGCCTGGCCGCAACTCCACGTTGAGCATGTGGATTCGCTGGGTGTCTCCGAGGATCCCCAGATCGGCGACACCCTCCAGGTCAACGCCTACGTTGGGCTGCACAACCTGACGCCCGAGGACGTTTCGGTGGAAGTGGCCTACGGGCAGGCCGAGGACAGTGATGAACTGGCCAATGTGACGCTAGTGGAGCTCGAGCCCAAGGACGAACTGGGCAACGGCCGGTACCTGTTCACCGGCTCCATCGTGATCGACCGCTCCGGATCCTTCGGCTATACGGTGCGGGTGCTCCCGAAGCACGAGGCACTCGCATCCAAGGCCGAGCTGGGGCTGGTCGTCAACGCGTAG	MTQVKAIRRFTVRTVLPEPIRPLARLATNLRWSWHRPTRELFESLDPKVWAECGNDPVSFLGLVGREEMHRLATDPDVVARVRAAAEDLDRYLEEPRWYQSLGEDAPASIAYFSPEFGITEVLPQYSGGLGILAGDHLKAASDLGVPLIGVGLLYQAGYFKQSLSRDAWQQETYPVIDPDGLPLTLLREPSADGSGKPIEIALPLPNGRRLAAYIWRADVGRVPLLLLDSNVPGNDDAARGVTDRLYGGGGDHRLQQELLLGMGGVKALRAYQRLTGTPAPEVFHTNEGHAGFLGIERIQELMAGEEALTFDEALAAGRASTVFTTHTPVPAGIDRFEAAQIQHFFEAGLAPDVPTSRILDLGRENFAEGNPFVFNMAVMGLRLAQRANGVAKLHGEVSRGMFSALWPGFDHSEVPITSVTNGVHVPTWVDSRISKLARERFGAEAEAMGRWDLAYNVSDAEVWQLRRDMRTSLVEDVRRRLRAAWKKRGAADAELAWTDSVLDPDVLTIGFARRVPTYKRLTLMLREPERLKALLLHKEHPIQLVIAGKSHPADDAGKKMIQDLVRFTDDPKVRHRIVFLPNYDIAMARTLFPGCDVWLNNPLRPLEACGTSGMKAAINGSLNLSVLDGWWDEMYDGENGWAIPTANNGASADERDDIEAAALYELLETQVAPRFYGNTVSEGAGAAGPSDTGREKIPTHWVSMIKHTLAHLGPAVSAERMLRDYVNVLYRPAAVSGRHAVANSFAQSKGLAAWTTKVRAAWPQLHVEHVDSLGVSEDPQIGDTLQVNAYVGLHNLTPEDVSVEVAYGQAEDSDELANVTLVELEPKDELGNGRYLFTGSIVIDRSGSFGYTVRVLPKHEALASKAELGLVVNA	PGPT0018545_516	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018545-glgP-K00688	NA	NA
D1-17_03233	357			hypothetical protein	GTGAAGATCTATTCGGCAGACACCTGGACCATCGATGAACTGCGTGACCAAGCCGCTGATGCGGGCCGCCGCAGCCTAATGATCCCGGCTGCGGACGCCAAGAAGGGAGTACTTGCCGCCTTCGGCGAGGCCCTGCAGTTCCCGGAGCACTACGGGGTCAACCTGGACGCCCTGAACGACGCGCTCCACGACTTCGCCGATGCCATTTCCGACAACGGTGAAGACCCTCTCACGGTGATCTGGCAGGTGCCCGCCGCCTTCCGCAGCGACCGCTCCTTCGGCGTCATCTGCGAAATCCTCCAGGACGCCGAAAACTACGCCGGACGGGACCTCGCCGTCATAGCTGTCTGCCTGTAG	MKIYSADTWTIDELRDQAADAGRRSLMIPAADAKKGVLAAFGEALQFPEHYGVNLDALNDALHDFADAISDNGEDPLTVIWQVPAAFRSDRSFGVICEILQDAENYAGRDLAVIAVCL				NA	NA	NA	NA	NA
D1-17_03234	540			hypothetical protein	ATGCGCAGGCTGCTGGCCTCGGTGGTGCTGATGGTGCTGCTGGGTGTGGCGCTCGTGGTTTCCAACGGACTGCAGCCCCAAACGGACTGGCCTGCCCCTGCAGGATCCGAAACAGCACGGCCCGGCACCACACAATCAAGCACCGCCCTAGCCAGCCCCGCACGACCCGGCACACCGCCGTCGTTGTCCTCTCCGCCGCCGGCGTCGTCCCTTGCGCCCTCGGCAGCCGACGGCGGAACGGTCGCCAATCCCTCACGTCTCCCCACGATCAGGGAATCCGAACTCCCGCGCGAAGGGCGGCTCACTCTTGCGCTCATCCGCCAGGGAGGGCCGTTTCCGTACGAACGCGACGGCGTGACCTTCGGAAATTTTGAGCGGATCCTGCCGCGGAAACCGGGTGGCTATTACAAGGAATACACCGTGCCGACTCCCGGGGAGTCTGACCGCGGGGCCCGCAGGATTGTCGCGGGCAAGGCCGGCGACAAGTACTACACAGCCGATCACTACGAGTCGTTCACATTCATAGCAGAGGGTAAATAG	MRRLLASVVLMVLLGVALVVSNGLQPQTDWPAPAGSETARPGTTQSSTALASPARPGTPPSLSSPPPASSLAPSAADGGTVANPSRLPTIRESELPREGRLTLALIRQGGPFPYERDGVTFGNFERILPRKPGGYYKEYTVPTPGESDRGARRIVAGKAGDKYYTADHYESFTFIAEGK				NA	NA	NA	NA	NA
D1-17_03235	2112	glgX_3	COG1523	Glycogen operon protein GlgX	ATGCCCCTTATTGATACAGCCTCCACGATGGACGCCGCTCCGGCGTTCCCCCTTGGCGTAAGTTCGGCGGGACCGCGATCCGCCGGGACTGGTTCCCCCGACAGCCGGGCGAGCGTGGCGGTCTATGCACCAGGCGTCCAGACTTTGGAGATCGCCTATCAGGCACCCGGCGGGGACTGGCGGATCCATACGCTGCCCAACGTGACCAAAGGCGTCCACTACGGCGTGGTGGATGCCTTTCCCGTTGGCTCCCGCTACGGTTTCCGCCCCGCCCCGGACCGCCAGGTCCTGCCACTCACCGTTCCCACAACTGATCTTGACGACGACGGCGGCAATCAGCCGCTGCTGCTCGATCCCTATGGGCGCGGTGTGGACCAGCGCAACGGATTCCTCACCAGTGTGAGGACGTCCAGCGACTTTGACTGGGGCTCCGACCAGCGGCTGCAGACGCCGTGGCGCAACACGATTATTTACGAGGCGCACGTCCGCGGGCAGAGCATGCTCCACCCGGACATCCCGGACGCTCTGCGCGGCACCTACGCCGGCTTGGCCCATCCCGCAATGATCGAGCACCTTACGGGCCTTGGAGTCACGGCGGTGGAATTGCTGCCCGTCCACTTCCACCTCGATGAGCCGCACTTGCAGAACCTCGGCCTGACCAATTACTGGGGCTACAACACGGCCGCATTCTTTGCCCCGCACCCGGCGTACGCGACCAAGTCGGCGCAGGAGTCAGGACCGCAGGCAGTCCAGGACGAGTTCAAGGCCATGGTCAAGCTCCTGCACGCCGCTGGCATCGAAGTTCTCCTGGACGTGGTCTATAACCACACTGCAGAGGGCGGGCCGGACGGGCCCACCTTCTGCTTCCGGGGCCTGGGGGAGCGGAACTATTACAGAACCGATGGCAGCGGCAAGTACGTCGACACCACAGGATGCGGGAATACCCTTAACTTTGCCGAGCCCCGCGTTGTCCAGTTGGTACTGGATTCGCTTCGGTACTGGGTGAACGAGTTCCATATCGACGGATTCCGTTTCGACCTTGCCGTTGCCCTCTGCAGGAACGCGGCCAACGAGTTCGATCCCAAGCACCCATTCCTGGCCGAAGTGGGAGCGGACCCCGTGCTCTCAAGCGTCAAGCTCATCGCCGAACCCTGGGACGTGGGCCACGGGGGCTGGCAGACCGGGCGCTTCCCGCGCGGCTGGGTGGACTGGAACGACCACTACCGCGATTCCATGCGCTCGTTCTGGGTTGCGGACCGTGCCGCCATCGACGCCGGGGGCCAGGGAGGGTCGGTGGCACGGCTGGCAGACGCTCTCTCCGGTTCGGCCAGACTCTTTGAAGCCTCAGGCCGTTCCCGCCTTGCATCCCTGAACTACATCACCTCCCACGACGGCTTCACCATGGAAGACCTCGTCTCCTACGACCGCAAGCACAATGAGGCCAACGGGGAACAGAACCGGGACGGGCACGGGGACAACCGGAGCTATAACCACGGGTTCGAGGGCCGGACCGAGGACGAAGCAATCCTTTCCCGGCGTGCCCAGACGCGGCGGAACCTCATAGCATCGCTCATGATCTCCGTCGGGGTTCCCATGATCACTGCCGGCGATGAACTTGGCCGGACACAGCAGGGAAACAACAACGCGTATTGCCAGGACAACCCGCTCACGTGGGTGGACTGGACGAGCACTCCGGAATCGCATGCCATGCTTCGGAGCACCAAGCGCGTGATACGGCTCCGCAAGGAGTTCCTTGCCGGACAGCCGCATGACTATCCCGCGCGCGACGACAACTCCTTCCTGCACTGGTTCGATGAGAACGGCGAGCCCATGAGCATGGAGCAGTGGAACGATTCGAAGCACAGGGTCGTGCAGCTGCTGCTGGGCTCCGATGACGGCCAGGTGGCCGGACTCATTGTTGTCAATGGCGGCCGTGACGATGTGATGGTCGCGCTTCCGAAGGGCATCGGCAGTTTGGGCGCAGACGGCGGGCGGACGTTCGAATTGCGCGTCACAACGTCCGGACTCCATGACCAGCGCCAGGGCATCAACGTCGCACCCGGCGACCGGGATCTGGCACAGGCCAACACCATCAACATCTACCGCGCCTAG	MPLIDTASTMDAAPAFPLGVSSAGPRSAGTGSPDSRASVAVYAPGVQTLEIAYQAPGGDWRIHTLPNVTKGVHYGVVDAFPVGSRYGFRPAPDRQVLPLTVPTTDLDDDGGNQPLLLDPYGRGVDQRNGFLTSVRTSSDFDWGSDQRLQTPWRNTIIYEAHVRGQSMLHPDIPDALRGTYAGLAHPAMIEHLTGLGVTAVELLPVHFHLDEPHLQNLGLTNYWGYNTAAFFAPHPAYATKSAQESGPQAVQDEFKAMVKLLHAAGIEVLLDVVYNHTAEGGPDGPTFCFRGLGERNYYRTDGSGKYVDTTGCGNTLNFAEPRVVQLVLDSLRYWVNEFHIDGFRFDLAVALCRNAANEFDPKHPFLAEVGADPVLSSVKLIAEPWDVGHGGWQTGRFPRGWVDWNDHYRDSMRSFWVADRAAIDAGGQGGSVARLADALSGSARLFEASGRSRLASLNYITSHDGFTMEDLVSYDRKHNEANGEQNRDGHGDNRSYNHGFEGRTEDEAILSRRAQTRRNLIASLMISVGVPMITAGDELGRTQQGNNNAYCQDNPLTWVDWTSTPESHAMLRSTKRVIRLRKEFLAGQPHDYPARDDNSFLHWFDENGEPMSMEQWNDSKHRVVQLLLGSDDGQVAGLIVVNGGRDDVMVALPKGIGSLGADGGRTFELRVTTSGLHDQRQGINVAPGDRDLAQANTINIYRA	PGPT0018555_74	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018555-glgX-K02438	NA	NA
D1-17_03236	810		COG0388	Hydrolase	GTGAAGATTGCACTGGCCCAGATCATTTCCGGCCGTGACGTGGAGCGCAACCTCGAGGTGCTCGAGGATTACGCCCGCCAGGCAAAGGAGGGCGGTGCGGAACTCGTTGTCTTCCCGGAAGCGACCATGCGCGCATTTGGCAATTCCTTACATGACATCGCAGAGCCGCTTGACGGTCCCTGGGCCGGCCGGGTTCGTTCCATTGCTGCGCAGCTGGAAATCCTAATCGTTGCCGGCATGTTCACTCCAGGCTCCGCAACTCATGGCGGCCGGGCGAAGGTCCGGAACACGCTACTGGTTACCGGCCCGGGTGTAGACACCAGCTACGACAAGGTGCACCTCTTCGATGCATTCGGCTTCCTCGAGTCAGACACCGTGGACGCCGGGTCAGGACCAGTTACGTTCGACGCCGATGGTCTCACCTTTGGCCTGGCCACCTGCTACGACATCCGTTTCCCAGCCCTCTTCACAGCCAATGCCGACCGTGGAGCCGATGTGAACATCATCTGCGCAGCCTGGGGAGCCGGCCCGGGCAAGATCGACCAGTGGAAGCTCCTGGCCCGCGCCCGCGCAGTCGACACCACCACCTATGTCCTCGCCTGCGGCCAGGGCGACCCCGCCACGCAGGGCACCGAGCCCCGCGGCGCGGCACCCACCGGCGTCGGACACAGCGCCGTCGTGTCGCCTTTCGGGGAGGTACTCGGAGAGCTCGACGGCGCCCCCGGCCTCCTGTTCGCCGACCTGGATCCCGCCGTCGTCAAGGAAGCCCGCACGAAGCTCCCTGTTCTTGCCAACCGGCGCGACTTCTAA	MKIALAQIISGRDVERNLEVLEDYARQAKEGGAELVVFPEATMRAFGNSLHDIAEPLDGPWAGRVRSIAAQLEILIVAGMFTPGSATHGGRAKVRNTLLVTGPGVDTSYDKVHLFDAFGFLESDTVDAGSGPVTFDADGLTFGLATCYDIRFPALFTANADRGADVNIICAAWGAGPGKIDQWKLLARARAVDTTTYVLACGQGDPATQGTEPRGAAPTGVGHSAVVSPFGEVLGELDGAPGLLFADLDPAVVKEARTKLPVLANRRDF				NA	NA	NA	NA	NA
D1-17_03237	486			hypothetical protein	ATGCGTGCACGTAGTTCATTGGCTGAGGCGCAGCGCGAGGCAGCTGTAGCGTTGTTTGAGAAGGGCATCGGCTATCGGGCGGCGGCCCGGTTGCTGGATGCGCCTTGGGTACCGGTCAGGGCACTGTATGGGCGGTGGAGGATTCATGGGCAAGGAGTGCTGGTGAGCAGGCCTGCGAAGTCCTACTCTTTCGAGTTCAAGCTGGCCTTGGTGCAGCGGTTCCTCGCGGGCGAGTCCGGCCCGGAGTTGGCGGTGGAGGCCGGTTTGGCCTCCCGTGAGCTGCTGCAAAAGTGGGTCCGGGCGTATCGAATGGACGGTGAGGACGGGTTGCGGCCAAAGCCCAAGGGCAGACCGCGGAAACCCGATTCCCCGCCGACTGGGGAGCTGCCGGAGCTTGAGCGGTTGCGGCGGGAGAACGAGCGGCTGCGCGCTGAGGTGGCGTACCTGGGAAAACTGCGGGCCTTGAGGGAACAGGGACGACGGTAA	MRARSSLAEAQREAAVALFEKGIGYRAAARLLDAPWVPVRALYGRWRIHGQGVLVSRPAKSYSFEFKLALVQRFLAGESGPELAVEAGLASRELLQKWVRAYRMDGEDGLRPKPKGRPRKPDSPPTGELPELERLRRENERLRAEVAYLGKLRALREQGRR				NA	NA	NA	NA	NA
D1-17_03238	801			IS3 family transposase ISBli34	TTGGACGTCGCCGGGCTGGCCAGATCCACGTTTTTCTATCACCAGCTCCGGCTCCAGGCGCCGGACCCGAAAGAGAAGCTCAAAGCGGCGATCACGGAGATCTTTGAAACGAACCATGGCCGGTACGGGCACCGCCGGGTCCACACGGAGCTACTCAAGCACGGGTGGACGGTCGCGAAGAAGACCGTGCTGAAGCTAATGGAGGCCCTTGGGTTGGCCCGCAAGGTCCGGCGCAGGAAGCGCTACAACTCCTACCAGGGCGAACAGGGCGCGGTAGCGCCCAACGTGCTGAACCGGGAGTTCGAGGCTGATGCGCCGAACCGGAAGTGGGTTACGGATGTGACGGAGTTCAGCGTCGGCGGCGGGAAGCTCTACCTCTCACCGGTGATGGACCTCTTTGACCGGCAGATCATTTCTTACTCGCTGGGCTTATCCCCGAACCTGGCGCTCACCAACGATTCCCTGCGTGAGGCCCTGACCTGTCTGCAGCCCGGTCAGCAGCCGCTGGTGCACTCGGACCAAGGTTTCCAATACCGTCACGCGTCCTGGCGCACCCTCATCCAGAACGCCGGCGCGGTCCAATCCATGTCCCGCAAGGGCAATTGCTACGACAACGCCGTCATGGAGAACTTCTTCGGCCACCTCAAGGAAGAACTCTTCCACCGCGTCCGATTCCTCAACACCGACGCACTGGCAGCTGCAATAGAGGAATACATCCACTGGTACAACAACAAAAGAATCTCCACAAAGCTCAAGGGCCTGAGCCCGGTGCAATACCGGGCCCAGACCCTTGCAGCCTAG	MDVAGLARSTFFYHQLRLQAPDPKEKLKAAITEIFETNHGRYGHRRVHTELLKHGWTVAKKTVLKLMEALGLARKVRRRKRYNSYQGEQGAVAPNVLNREFEADAPNRKWVTDVTEFSVGGGKLYLSPVMDLFDRQIISYSLGLSPNLALTNDSLREALTCLQPGQQPLVHSDQGFQYRHASWRTLIQNAGAVQSMSRKGNCYDNAVMENFFGHLKEELFHRVRFLNTDALAAAIEEYIHWYNNKRISTKLKGLSPVQYRAQTLAA				NA	NA	NA	NA	NA
D1-17_03239	1002		COG0566	putative tRNA/rRNA methyltransferase	ATGGCCAACAACGGTCGCCCGGGCGCAATCCGCAAGAACAAGAAGGGCCCCACCACCGGAACCGGTGGCCACGGCCGCAAGGCTCTCGAAGGCAAGGGGCCAACCCCCAAAGCCGAGGACCGCACCTACCACAAGGCGCACAAGACCAAGCAGCTCGCCGAGCGTGCGGCCGCCAAGCGTTCCGGCGCCCCCCGCGGTGCGGGTGCGGGGGCCCGGTCGGGGCCAAAGGGCCGTGCCACCGAAGAAGTCGTCACCGGCCGCAACTCCGTGGTGGAAGCGCTCCGCGCAGGCATCCCGGCCAAGGCGCTGCACGTGGCCGTCCGTATCGAAATGGACGACCGCGTCAAGGAGTCACTCAAGATCGCTGCAGAGCGGGGCATCCCGCTGCTCGAGACCGGCAAGCCCGAGCTCGACCGAATGACCGACGACGCCGTGCACCAGGGCCTCGTGCTGCAGATCCCGCCGTACGAATACCAGGACGCCTACGACCTCGCCGAAGAGACCGTTGAGAAGTGGAAGAAGGGGCACATCTCGAACGCTCCTCTGTTCGTGGCACTGGACGGCATCACCGATCCCCGCAACCTCGGCGCGATCATCCGCTCCGTTTCAGCCTTCAGCGGGCACGGCGTCATCGTCCCCGAGCGCCGTTCCGTGGGTGTCACGGCCTCTGCATGGAAGACCAGCGCCGGGGCCGCCGTCCGCGTCCCCGTGGCCCGCGCCTCGAACCTGAACAATGCCCTGAAGCAGTTCAAGGGCATGGGGATGTTCGTTCTGGGGCTCGACGGCGACGGCGACGTTTCGCTGCCGGACCTTAGCCTGGCGGCGGAACCCATCTGCATCGTGGTCGGCTCTGAGGGCAAGGGCCTGAGCCGCCTCGTCCGCGAAAACTGCGACCAGATCGTCTCGATCCCCATCGACTCCGCCATGGAGTCCTTGAACGCGTCAATGGCCGTCGGCATCTCCCTCTACGAAGTCTCCCGCCAGCGCGCCACCACCAAGTAA	MANNGRPGAIRKNKKGPTTGTGGHGRKALEGKGPTPKAEDRTYHKAHKTKQLAERAAAKRSGAPRGAGAGARSGPKGRATEEVVTGRNSVVEALRAGIPAKALHVAVRIEMDDRVKESLKIAAERGIPLLETGKPELDRMTDDAVHQGLVLQIPPYEYQDAYDLAEETVEKWKKGHISNAPLFVALDGITDPRNLGAIIRSVSAFSGHGVIVPERRSVGVTASAWKTSAGAAVRVPVARASNLNNALKQFKGMGMFVLGLDGDGDVSLPDLSLAAEPICIVVGSEGKGLSRLVRENCDQIVSIPIDSAMESLNASMAVGISLYEVSRQRATTK				NA	NA	NA	NA	NA
D1-17_03240	1464	cysS	COG0215	Cysteine--tRNA ligase	GTGACCCTGCGCTTTTACGACACTGCATCCGCCGAAGTCCGCGACTTCGTTCCCCTCGTGCCGGGCAAGGTGAGCCTGTATTACTGCGGTGCCACTGTGCAGGGCATGCCGCATGTGGGGCACATCCGTTCTGCCATCGCCTTTGACCAGCTCACCCGCTGGCTGCAGTACCGGGGGTTCCGCGTAACGGCGGTCCGGAACGTCACGGACATCGACGACAAGATCCTCGCCAAGTCCGCGGCGTCCTTCGAAGCTGGCTTCGAGCAGGAACCGGGCGCCGTCCCCGAAGAGGAATGGTGGGCGCTGGCCTACCGGTACGAGCAGGAGTTCCTCAAGGCCTACGACGTCCTCGGCGTCTCCCGGCCCACCTACGAACCCCGCGCCACCGGCCACATTCCCGAGATGCACGCGCTCATTCAGCAGCTCATCGACCGCGGCCACGCCTACCCTGCGCTGGACGGGTCTGGCGATGTCTACTTCGACGTCCGCTCCTGGAACAAGTACGGCTCCCTGACGCGGCAAAAGATCGACGATATGCAGGGCGCCCCGGATGTTGAACCACAATTCATCAACCGGAAGAAGGACCCGCGGGACTTTGCGCTGTGGAAGGGACACAAGGAAGGGGAGCCGACGACGGCGGGCTGGGTTTCGCCGTGGGGCACGGGCCGTCCGGGCTGGCACCTGGAATGCTCTGCCATGGCCTCCAAATATCTGGGCACCGAGTTCGACATTCACGGCGGCGGGCTTGACCTGCGGTTTCCGCATCACGAAAACGAGATGGCCCAGTCCCAAGCCGCCGGACAGGGCTTCGCCAACTTCTGGATGCACAACGGGATGGTGACCTACCAGGGCGAAAAGATGTCGAAGTCCGTGGGAAACACGGTGAGCCCGGCCGAAATGCTGGAGCTCGCTCCGCCGCGGGTCGTTCGTTACTACCTCGGGCAGGCGCAGTACCGCTCGGTCCTGGACTACCAGCCGACGTCGCTGCAGGAGGCGACCGCCGCCGTCGAACGCATTGACGGTTTTATTGCCAGGGCAATCCGGGCGCTGTCCACGGATGGTGCCCTGCTGGTCGGCGGCAGCGGCGAAGTCCCTGGCGCGTTTGCCGCCGCCATGGACGACGACCTCAACGTCCCGCAGGCCCTCGCGGTGCTGCACGACACCGTCCGGGCAGGGAATTCGGCACTGACAGCCGGGGATCTTGGGGCTGCACGGCAGGCACTTGCCAGCGTGAACGACATGCTCCGGGTCCTGGGGATCAACGACGCGGCTCAGCCGGCCGCCGACAACGAAGCGACGGCGGCACTCGGCATACTCGTGGAGGCCCAGCTGGCGGCACGCGCCGACGCCCGTGCCCGGAAGGATTGGGCGGCCTCGGACGCGATCCGCGACACCCTCGCTGCTGCCGGCATCCTGGTCGAAGACAGCGCTGACGGACCCAGCTGGAGCCTCCAGCGCGGCTGA	MTLRFYDTASAEVRDFVPLVPGKVSLYYCGATVQGMPHVGHIRSAIAFDQLTRWLQYRGFRVTAVRNVTDIDDKILAKSAASFEAGFEQEPGAVPEEEWWALAYRYEQEFLKAYDVLGVSRPTYEPRATGHIPEMHALIQQLIDRGHAYPALDGSGDVYFDVRSWNKYGSLTRQKIDDMQGAPDVEPQFINRKKDPRDFALWKGHKEGEPTTAGWVSPWGTGRPGWHLECSAMASKYLGTEFDIHGGGLDLRFPHHENEMAQSQAAGQGFANFWMHNGMVTYQGEKMSKSVGNTVSPAEMLELAPPRVVRYYLGQAQYRSVLDYQPTSLQEATAAVERIDGFIARAIRALSTDGALLVGGSGEVPGAFAAAMDDDLNVPQALAVLHDTVRAGNSALTAGDLGAARQALASVNDMLRVLGINDAAQPAADNEATAALGILVEAQLAARADARARKDWAASDAIRDTLAAAGILVEDSADGPSWSLQRG	PGPT0002985_1937	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
D1-17_03241	327			hypothetical protein	GTGAAAAAGCTGCTTCCCGCCGTCGTGATTGCCTGCCTGCTGCTGACAGGCTGCGGCGGCACGCCCAGGATGAGCGTCGCTGAGAGCTGCGCCTTCCTCAACAGCGATACGTTCAAACCCACCGGAAACCAGCAGCAGCAGGCGGACCAAATCGCGAAGCACTACGAGGAGGTCGCCGACAAGGTAGCCCCCGAAATCGCGGACCCGATCCAGAAAATGGCCGACGTCATGAAGCAGGTGGCCGGCACTGCCCTGGGCGACAAGAGTGAGGCGCAGATCGCCGAGCTGACCAAACAGAACAACCGGATCGGCGGTATCTGCAAGTAA	MKKLLPAVVIACLLLTGCGGTPRMSVAESCAFLNSDTFKPTGNQQQQADQIAKHYEEVADKVAPEIADPIQKMADVMKQVAGTALGDKSEAQIAELTKQNNRIGGICK				NA	NA	NA	NA	NA
D1-17_03242	486	ispF	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGATCCTGCCCCGCACCGGAATCGGTGTCGACGTTCACGCTTTCGCCCCTGAGGGCGCCGGCAGGCCGCTCTGGCTTGGCGGACTGTTGTGGGAGGGGGAGCGCGGGCTCGCCGGTCATTCCGACGGCGACGCCGTGGCCCATGCTGCGGCGGATGCCCTGTTCTCCGCCTGCGGGATTGGCGACCTGGGAACGCACTTCGGGACCGACCGCCCGGAGTTCGCGGGTGCGTCCGGGATTACCCTCCTGGCAGAAGCGGCACGTATTGTCCGGGCATCCGGGTTCGAGATCGGCAATGTGGCAGTCCAGTTCGTGGCGAACCGCCCCAAGTTCGGCCCGCGCCGCGAAGAGTCGCAGCGCGTCCTTACGGAAGCCGCCGGGGCGCCTGTCAGCGTCACGGCCACCACGAGCGACAGTCTCGGATTCACCGGCAGGGGTGAAGGCATCTCCGCCGTAGCCACGGCCTTGGTCTATCCCGCCTCCTGA	MILPRTGIGVDVHAFAPEGAGRPLWLGGLLWEGERGLAGHSDGDAVAHAAADALFSACGIGDLGTHFGTDRPEFAGASGITLLAEAARIVRASGFEIGNVAVQFVANRPKFGPRREESQRVLTEAAGAPVSVTATTSDSLGFTGRGEGISAVATALVYPAS	PGPT0007595_210	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-17_03243	783	ispD	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGAACGATCCAGCCACGCGACCCGTCACCGCCGTCATCCTCGTTGCTGCAGGGACAGGGCAGCGGCTTGGCTACGGCATGCCCAAAGCGGCAGTGCCGCTGGGCGGCGAGCCGATCCTTCTCCACGCCCTCCGCGGCATCGTCGCTGCCGGCGTGGCAAGCCAGATTTGCATCGCCCTGCCCGCCGCCGACGCCGGGCTTCGGCAGCTGATCGAGGATTTCAGGCTGGAGTTGGCAGACGGCGGTCCGCTTCTGATAATGGTCGACGGCGGAGCCACCAGGGCGGATTCCGTCCGGTCAGCCCTGTCAGCCGTGGAGGAGGGAACCGAGGCCGTTCTCGTCCACGATGCCGCCCGCGCCCTCACGCCGGAAGCTGTCTTCCACCGGGTAGTGCAGGCCCTGGCCAGCGGAGCCTCGGCCGTCATCCCCGTCATCCCCGTCGTGGATACGGTCAAAACCGTGGCCCCAACTGACGGCAGCGATGCTGACATCGCGCCCGAGGTCGTCACGGGAACTGTGTCCCGGCAGGAGCTGCGCTCGGTCCAGACCCCGCAGGGATTCAAACTGGACACGCTGAAGGCTGCCCACGCGGCTGCGGCAGGCTTTGACGAAGGCCGAGTAGCGGCAGTCACCGACGACGCGATGCTGGTGGAGCTCCTTGGCGAACCCGTCCACGCCGTGCGAGGAGCCAGCCAGTCCCTGAAAATCACCACGCCGCTGGACCTCATCCTCGCTGAAGGTCTCCTCGAGGGTCCGCTCGGCACGCGCTGGGTGGAAGGCTGA	MNDPATRPVTAVILVAAGTGQRLGYGMPKAAVPLGGEPILLHALRGIVAAGVASQICIALPAADAGLRQLIEDFRLELADGGPLLIMVDGGATRADSVRSALSAVEEGTEAVLVHDAARALTPEAVFHRVVQALASGASAVIPVIPVVDTVKTVAPTDGSDADIAPEVVTGTVSRQELRSVQTPQGFKLDTLKAAHAAAAGFDEGRVAAVTDDAMLVELLGEPVHAVRGASQSLKITTPLDLILAEGLLEGPLGTRWVEG	PGPT0007590_320	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
D1-17_03244	483	carD	COG1329	RNA polymerase-binding transcription factor CarD	ATGGTTTTTGAGGTCGGCGAGACAGTAGTTTACCCTCACCACGGTGCAGCAAAAATTGAAGAAATCAAGATGCGCACTGTCAAGGGCGAAGAGAAGATGTATCTCAAGCTCAAGGTGGCTCAGGGTGATCTGACCATTGAAGTTCCAGCAGAAAACGTTGACCTCGTTGGGGTACGCGACGTAGTGGGCAAGGAAGGTTTGGAGCACGTATTCGATGTGCTCCGTGCCGAGTTCACTGAAGAGCCCACCAACTGGTCGCGCCGTTACAAGGCAAATCTGGAGAAGCTTGCTTCCGGTGACGTCATCAAGGTAGCAGAGGTCGTCCGCGACCTGTGGCGCCGGGATCACGATCGGGGCCTTTCCGCAGGTGAGAAGCGAATGCTGGCCAAGGCACGGCAGATTCTGATCTCAGAATTGGCTTTGGCCGAGAGAACCGACGAGGAGAAGGCTGCAAGCGTTCTCGACGAGGTTCTGGCTTCCTGA	MVFEVGETVVYPHHGAAKIEEIKMRTVKGEEKMYLKLKVAQGDLTIEVPAENVDLVGVRDVVGKEGLEHVFDVLRAEFTEEPTNWSRRYKANLEKLASGDVIKVAEVVRDLWRRDHDRGLSAGEKRMLAKARQILISELALAERTDEEKAASVLDEVLAS	PGPT0014830_1272	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
D1-17_03245	582			hypothetical protein	GTGCGTTTCACTGCGATGAACCGGGGCCAGTGCGGCAAGATGGCCATGGCGGCTGCCGTCCTGAGCGTCGGACTGCTCACCCTGACCGGCTGCGGCTACATCAACGCCCAGCAGACCTCCGAGCAGTACGCCGCCTCGGACGGAACACGCTCCGACGTCGGACCCGTGCAGCTGCGCAACATGCTGATCGTAGCCTCAGGCGAGAACCAGCCCGGCCGCGTGATCGGTGCCGTCTACAACTCCTCCTCCAATGACGTCAAGGTCACTCTGAGTGGAGCCAAAGGAGCCCAGACCGAGATCCCGGTCAAGAAGAACTCCTACACCCTGCTTAACGAGTCCACGGAACCGGCCATCCTGAGCACCGCCGGTGGCCGCCCGGGCTCGCTCGTGGACATCACCGTCCGCGAAGACGGCACCAACGTCAACAAGACCGTCAAGATCCCCGTTATGGACGGAACCCTGAAGGAATACCAGGCGTACCTGCCCGCAGGCAGCACCCCCACCCCCACGCCGAGTGAAACCGGCACCCACACTGATGGCGCGCACACAGAAGGAGCCGCACCCACCGAGGGCGGCCACTGA	MRFTAMNRGQCGKMAMAAAVLSVGLLTLTGCGYINAQQTSEQYAASDGTRSDVGPVQLRNMLIVASGENQPGRVIGAVYNSSSNDVKVTLSGAKGAQTEIPVKKNSYTLLNESTEPAILSTAGGRPGSLVDITVREDGTNVNKTVKIPVMDGTLKEYQAYLPAGSTPTPTPSETGTHTDGAHTEGAAPTEGGH				NA	NA	NA	NA	NA
D1-17_03246	681	regX3_2	COG0745	Sensory transduction protein regX3	TTGAGCAGGATTCTTATTGTGGAGGACGAGGAATCGTTCAGCGATCCCCTGTCCTATCTGCTGGGCAAGGAAGGCTTTGAGGTCGAGGTCGTGGACAACGGCCTGGACGCGCTTACGGAATTCGACCGCAACGGAGCCGACCTGGTGCTCCTGGACCTGCAGCTGCCGGGCCTGTCCGGGACGGAAGTCTGCCGTCAGCTGCGCCAGCGCTCGGGCGTCCCCGTGATCATGCTCACCGCCAAGGACACGGAAATCGATAAGGTGGTGGGGCTGGAGCTGGGTGCCGACGACTACGTCACCAAGCCGTACTCATCGCGGGAGCTGGTGGCCCGCGTCCGGGCGGTGCTCCGCCGCCAGGGCGAACCGGAAGAACTCGTTTCCAGCACGGTGCAGGCCGGTCCGGTTCGGATGGACATCGAACGCCATGTCGTCAGCGTGGGCGGGGAGCAGGTGGCGCTCCCGCTGAAGGAATTTGAACTCCTCGAGATGCTGCTCCGGAATTCGGGCCGGGTCCTCACCCGCGGCCAGCTGATCGACAGGGTCTGGGGATCCGATTACGTGGGTGACACGAAGACGCTCGACGTCCATGTCAAGCGGCTGCGCAGCAAGATCGAACCCGACCCCTCCCTTCCGCGGTACCTCGTGACCGTCCGCGGCCTGGGGTACAAATTCGAACCGTAA	MSRILIVEDEESFSDPLSYLLGKEGFEVEVVDNGLDALTEFDRNGADLVLLDLQLPGLSGTEVCRQLRQRSGVPVIMLTAKDTEIDKVVGLELGADDYVTKPYSSRELVARVRAVLRRQGEPEELVSSTVQAGPVRMDIERHVVSVGGEQVALPLKEFELLEMLLRNSGRVLTRGQLIDRVWGSDYVGDTKTLDVHVKRLRSKIEPDPSLPRYLVTVRGLGYKFEP	PGPT0002675_793	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
D1-17_03247	1182	sasA_9		Adaptive-response sensory-kinase SasA	ATGCTCATCGGTGTCATCGCCGGCCTGCTCGGCCTGTCGTTCGGCGTCTTCGGTATGCTCGCCTTCAGGGTCAGCGAGCAGCAGCGAAAGATTGTCGACGTCGAAGTCGATGAACCTGCGCTGCCGCCAGGCGCCGCTGAAGTGCTCGCCGTCATCGGCAAGGCCTTCGTGGTCGTGGACGCCATCGACGGCGTGGTCCGGGCAAGCCCGGCTGCCTATGCATACGGGCTGGTGCGGGGCCACACCGTGGTGCACCGGGAGCTGCTGGACATGACGGCGAACGTCCGCCGCGACGGCGTCATCCTCGAAAAGCGCCTCGAGCTTCCGAGGGGCCCGCTCGGCCAGGGCGCCATCATCGTGCAGGTCCGGGCCGCCATGCTCGGAGAGGAATATATTCTCCTCCTGGCCGATGACCGGACCGAAATCACGCGCACCGAGGAGATCCGCAACGACTTCGTGGCGAACGTGTCCCATGAACTGAAGACTCCGGTGGGCGCACTGTCCCTGCTGGCAGAGGCGATCGAATCCTCGGCGGCCGACGAAGAGGCCGTCCGGCGCTTCGCGGCCCGCATGCACAAGGAATCCGCCCGGCTTGCGGCGCTGGTACAGGACATCATCGAGCTCTCCCGCCTGCAGGCCGCAGATGTGGCGCAGCAGGGACAGGAAGTTGACATCAACGACGTTGTCGCAGAGGCGGTGGACCGCTCACAGCTGCCGGCGGAAAGCAAGAACATTCAAATTGTCATCGGCGGCCGGGTCGACGCCAAGGTCTACGGGGACCAGGACCTCCTGGTGACCGCCCTGCGCAACCTCATTGACAATGCCATCCGTTACTCCCCGGAGAACACGAGGGTGGGGATCGGACTCCGGGCCAAGGAAGGCCTCGTCTCGATCTCCGTGACGGATCAGGGCGAGGGCCTTTCGGCCGAGGACCAGGAACGCGTGTTCGAACGTTTTTACCGCGTGGATTCCGCACGGTCACGCCACACCGGCGGGACCGGGCTGGGCCTGAGCATTGTCAAACACGTCGTTTCCAACCATGGCGGAGAGGTGACCCTGTGGTCGCAGCCGGGCCAGGGTTCGACGTTCACGCTGCGCCTGCCGGAAATGGAAGGGCAGGCGTCGCATGCAAAAGAACCAAGGGACGCCGCCGGCGTCCAAGAACGAGGAGTTACCGCTTGA	MLIGVIAGLLGLSFGVFGMLAFRVSEQQRKIVDVEVDEPALPPGAAEVLAVIGKAFVVVDAIDGVVRASPAAYAYGLVRGHTVVHRELLDMTANVRRDGVILEKRLELPRGPLGQGAIIVQVRAAMLGEEYILLLADDRTEITRTEEIRNDFVANVSHELKTPVGALSLLAEAIESSAADEEAVRRFAARMHKESARLAALVQDIIELSRLQAADVAQQGQEVDINDVVAEAVDRSQLPAESKNIQIVIGGRVDAKVYGDQDLLVTALRNLIDNAIRYSPENTRVGIGLRAKEGLVSISVTDQGEGLSAEDQERVFERFYRVDSARSRHTGGTGLGLSIVKHVVSNHGGEVTLWSQPGQGSTFTLRLPEMEGQASHAKEPRDAAGVQERGVTA	PGPT0002670_161	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002670-senX3-K07768	NA	NA
D1-17_03249	747	gpmA_2	COG0588	2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGACTTACAAGCTGATTCTGCTGCGCCACGGCCACAGCGAATGGAATGCCAAGAACCTCTTCACCGGCTGGGTGGACGTTGACCTCAACGACCAGGGCCGCGAGGAAGCAGCCCGCGGGGGAGAGCTCCTGGTCGAGCACGACGTGCTCCCGGACATCCTTTACACGTCGCTCCTGAAGCGGGCCATCAACACGGCCAACATTGCCCTGGACAAGGCCGACCGCGGATGGATCCCGGTCAAGCGCGACTGGCGCCTGAACGAACGCCACTACGGTGCGCTGCAGGGCAAGGACAAGGCCCAGACCCTCGCCGAGTACGGTGAGGAGCAGTTCATGGAATGGCGCCGGTCCTACGACACCCCGCCGCCGCCCCTTGACGACGACTCACCATTCTCACAGGCGCACGATCCCCGCTACGCCGGCCTGGGCGACAAGCTGCCCCGTACGGAGTGCCTCAAGGATGTCCTGGTCCGGCTGCTTCCGTACTGGGAATCGGACATCAAGGAAGATCTCAAGTCAGGCAAGACCGTACTCGTCACGGCCCACGGCAACTCGCTGCGCGCCCTGGTGAAGCACCTCGACGGCATCAGCGATGAAGCCATCGCCAGCCTGAACATCCCCACCGGCATTCCGCTGGTCTACGACCTGGACGAGAACTTCCAGCCGCTCAAGCCAGGCGGAACGTATCTTGACCCCGAGGCTGCCGAGGAAGCCATCCTGGCCGTGGCGAACCAGGGCAAGAAGTAA	MTYKLILLRHGHSEWNAKNLFTGWVDVDLNDQGREEAARGGELLVEHDVLPDILYTSLLKRAINTANIALDKADRGWIPVKRDWRLNERHYGALQGKDKAQTLAEYGEEQFMEWRRSYDTPPPPLDDDSPFSQAHDPRYAGLGDKLPRTECLKDVLVRLLPYWESDIKEDLKSGKTVLVTAHGNSLRALVKHLDGISDEAIASLNIPTGIPLVYDLDENFQPLKPGGTYLDPEAAEEAILAVANQGKK	PGPT0018030_1791	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
D1-17_03250	831			hypothetical protein	GTGGTTCAGAAAGCAGAGCGGGTGGCACATCCGGACAGCCGTGGCAGCGGCGGACGCCCTGTCGGCAACATTACCCGCGGCACCACCAACCCCAACCGTATGCGCCGCGTGGACCGCTGGCTCACCGGGCCGCAGGCCTGGCGTCTGCGGTCAGCGGCAGATCCCTTGGCAGTCGACCTGGGCTACGGCGCTTCCCCGGCCACCGCCGTCGAGCTTTTTGAGCGGCTTTCCGCCGTCCGGCCGGACGTCCGCCTGTGCGGTATCGAAATCGAGCCCGACCGCGTGCAGGCCGCCAGCGCACTGGAACGACCGGGACTCAGCTTCCTCCTCGGAGGCTTCGAAATCCCGGTGCCGGGAAAACCAGTCCTCGTCCGTGCCTTTAATGTGCTGCGCCAGTATGAGGAGGCGGACGTCGGCGGGATCTGGCGTCTGGTGCAGGACCGGCTCGCTCCGGACGGGCTGTTTATTGACGGAACCTGCGACGAGATCGGCCGGCGCGTTACGTGGATTGCGCTGGATGCCGCGCGTCCGCTCTCGTTGAGCATGTCCATGCGCTTTGGCAGCTTTGAACGGCCGTCGGACGTGGCCGAACGCCTGCCCAAAGCGCTTATCCACCGCAACGTCCCCGGCGAGCCCGTTCATGCGCTGCTGCAGGCCATGGACCGCACGTGGCTTGAGTCGGCGGCGCTGGCAGCCTTCGGGAACAGACAACGCTGGACGTCCATGTGCGTGATGCTGCGCGATGGAGGGTGGCCGGTCCACGACGGACCGTCACGCTGGCGACTGGGGGAACTCACGGTGGGCTGGGAAGCGGTGGCTCCGCTGCCTTAG	MVQKAERVAHPDSRGSGGRPVGNITRGTTNPNRMRRVDRWLTGPQAWRLRSAADPLAVDLGYGASPATAVELFERLSAVRPDVRLCGIEIEPDRVQAASALERPGLSFLLGGFEIPVPGKPVLVRAFNVLRQYEEADVGGIWRLVQDRLAPDGLFIDGTCDEIGRRVTWIALDAARPLSLSMSMRFGSFERPSDVAERLPKALIHRNVPGEPVHALLQAMDRTWLESAALAAFGNRQRWTSMCVMLRDGGWPVHDGPSRWRLGELTVGWEAVAPLP				NA	NA	NA	NA	NA
D1-17_03251	357			hypothetical protein	GTGGACGGAACAGTACTGATCAGAGTTGTCGAAAGCGCGGTCTACTACGTCTTGGGGCTGGTGGCACTGGTCCTGGAAGTGTGGGCCTTCTTCGACTGTGTCCGCCACAGGGCCAACGCCTTTGAGGCTGTGGGTAAGAGGACCAAGACGTTCTGGCTGGCGCTCACCGGCGGCAGCCTGGCGATCGGTGCCTTGTCGGTACTGGGCGGCGGGGGAGGCGGTCTGATTGGACCGTTTGGCCTGTTCGGCCTCGCAGCTGTAGTGGCAGCGTCGGTCTACCTGGCGGATGTCCGGCCCGCGGTCAAGGACGCCGGCCGCGGCGGCAGCCGCAACACCGGCCCCTACGGACCCTGGTGA	MDGTVLIRVVESAVYYVLGLVALVLEVWAFFDCVRHRANAFEAVGKRTKTFWLALTGGSLAIGALSVLGGGGGGLIGPFGLFGLAAVVAASVYLADVRPAVKDAGRGGSRNTGPYGPW				NA	NA	NA	NA	NA
D1-17_03252	1185	metB_2	COG0626	Cystathionine gamma-synthase	ATGAGTCTTTCCCAACAGCGTGCCGCGTCCCTTTCGGCTGAGACGGTGGTTGTGGCCGCCGGCCGGCCGCCCCGCGAACGGGACGAGCCTGTCAACCCGCCGATCGTGCTGTCCTCCACGTACTTCGGAACCGCCGCCCTGGACGACGGCGACCGCGGCTACGGCCGCTACTCCAACCCCACCTGGGACCCGTTCGAAGAAGCGCTGGGTCAGCTTGAAGGCGCCTCCCTGCCCGGCCTGCTCTACGCGTCCGGGCTGGCTGCCGTCAGCTCAGCCCTGTCGCTTATCCCGGCCGGGGGAGCGCTCGTCATGCCGTCCCACAGTTACGCCGGTTCGCTGGTGATGGCGTCCGAGCTGGCAGAAAAGGGCTTCATCGAGTTGCGCACGGTGGACATCGCCGACACTGCTGCCGTCCTTGCCCAGCTCACGCCGGCGGGCGGGAAGCCGGCGGCGATGCTGTGGCTGGAAAGCCCCACCAACCCCATGCTCGGCATCGCCGACATCCGTGCCCTGACCCAGGCCGCGCACGACGCCGGAGCCGTCGTCGTCACGGACAATACCTTCTCTACGCCGCTGGTGCAGCAGCCGCTCGCCCTGGGGTCCGACGTCGTCCTCCACTCGGTGACCAAATACTTGGCCGGGCATTCCGACGTCGTGCTGGGCGCCCTGGTGACCTCCGATCCGGAACTGCGGAACACCCTGCTCCACCACCGCATCATCCACGGCGCCATAGCGGGCCCGTTCGAGGCCTGGCTGGCGCTGCGCGGGCTGCGGACTCTGGCGCTGCGGATCGAACGCTCGCAGGCCTCCGCTGCCGTGCTCGCCGAAAGGCTCAGCGCCCACCCGCGCGTCGAAAGCGTCCGCTACCCGGGCCTCGCCACAGATCCCGGCCATGACCGGGCCAAGTCCCAGATGACCGGCTTCGGGTCCGTCGTCTGCATCCAGATTTCCCCTGCGGACGATCTCAGCGGCGCGGACGCAGCGGACAAACTGGTCCGCTCGCTGCAGCTGTGGCTGCCCGCCACGTCGCTCGGCGGTGTCGAGTCATTGATCGAACGACGACGGCGGCACGTAGCGGAGCCGGAAAGCGTGCCGGAGAATCTCGTGCGCCTCAGCGTGGGGATCGAAAACGTCGAAGACCTTTGGTCCGATTTGCAGCAGGCTTTGGCCGCCTTGGACAGATAG	MSLSQQRAASLSAETVVVAAGRPPRERDEPVNPPIVLSSTYFGTAALDDGDRGYGRYSNPTWDPFEEALGQLEGASLPGLLYASGLAAVSSALSLIPAGGALVMPSHSYAGSLVMASELAEKGFIELRTVDIADTAAVLAQLTPAGGKPAAMLWLESPTNPMLGIADIRALTQAAHDAGAVVVTDNTFSTPLVQQPLALGSDVVLHSVTKYLAGHSDVVLGALVTSDPELRNTLLHHRIIHGAIAGPFEAWLALRGLRTLALRIERSQASAAVLAERLSAHPRVESVRYPGLATDPGHDRAKSQMTGFGSVVCIQISPADDLSGADAADKLVRSLQLWLPATSLGGVESLIERRRRHVAEPESVPENLVRLSVGIENVEDLWSDLQQALAALDR	PGPT0001980_871	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001980-metB|met|cysA-K01758	NA	NA
D1-17_03253	657	tmk_2	COG0125	Thymidylate kinase	GTGAATAAGCAGAGTCCCGGACTGTTCATCGCTTTCGAAGGCGGTGACGGCGCCGGCAAGTCTACCCAGGCCGCCCGGCTGGCCGGGGCACTGGAGTCCCGCGGCCTGACCGTGCTGCGGACCAGGGAACCGGGTGGAACCCCGATCGGTGAGAAGCTGCGCGCCCTGGTGTTGGAACACGGCCATGGCCACATCGACGCCCACACGGAGGCGCTGATTTTCGCTGCCTCCCGCGCCGCACACGCGAGCCAGGTGATCCGGCCGGCGCTGGAACGCGGAGAAGTGGTGCTGACAGACCGCTACATCGACTCCTCGGTGGCTTACCAGGGAGCCGGCCGGGACCTCGGAACAGATGCCGTGCGAAGCATCAACGAGTGGGCCACCTCCGGACTGCAGCCGGACCTCACAGTGCTGCTTGACGTCCATCCAGCCGATGGACGCAGCCGCCGCACCGCCGGCGACGCAGCAGAGGACCGGCTGGAATCGGAAGCCGATGAGTTCCACGCCCGGATCCGGCAGGCATTTCTGGACCTTGCCGCCGCCCGGCCGGACAGGTACCTCGTCCTTGAGGCACAGCAGTCCGTGGACGAGCTCACCGCACGCATCCTGGACCGCGTGGACCGGCTGCTGGCAGCGTCCGCCAGGAGTCTGCGATGA	MNKQSPGLFIAFEGGDGAGKSTQAARLAGALESRGLTVLRTREPGGTPIGEKLRALVLEHGHGHIDAHTEALIFAASRAAHASQVIRPALERGEVVLTDRYIDSSVAYQGAGRDLGTDAVRSINEWATSGLQPDLTVLLDVHPADGRSRRTAGDAAEDRLESEADEFHARIRQAFLDLAAARPDRYLVLEAQQSVDELTARILDRVDRLLAASARSLR	PGPT0021395_1743	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
D1-17_03254	1143			hypothetical protein	ATGACCGTATGGGAGGACCTGCAGGGCCAACCGGCCGTCGTCACCCAGCTGCAGCAGGCGGCCATGGGCGAAGGGCTGACACATGCCTGGCTGTTCACCGGCCCGCCGGGATCGGGCCGCTCCAACGCCGCGAAAGCCTTCGCGGCGGCGCTGAACTGCGACCAGGACGATGTCGCCCGGCGCGGCTGCGGCGAGTGCCACGCGTGCAGGACGATCCTCGGAGAGACGCACGCCGATGTCGTTTTTGTCCGCACCGAAAAGGTGACCATCACGATTGAGGAAGCCCGGGAATTGGTGTCGACGGCCGGCAACAGGCCGTCGTCGGGCCGGTGGCGGATCATCGTGGTTGAGGACGCGGACCGTATGGCGGAACGCACCACCAACGTTCTCCTAAAAGCCATTGAGGAACCCACGCCGCGGACCATCTGGATGCTGTGCGCGCCCTCCCCCGCGGATGTCCTGGTGACCATCCGGTCGCGGTGCCGGGCTGTGGCGCTGCGGCTTCCCCCCGCTGCGGACGTCGCCGCCTTGCTGGTCAAGCGCGATGGCGTGGATTTGGACCTCGCTCAGCGCGCAGCACGCGCGGCGCAAAGCCATGTAGGAATTGCGCGCCGGCTGGCACGTGACGCCGAGGCAAGGGAACGCCGGCTGGAAACGGTTCGCTTCCCGTTGGGTCTCCAGGGCGTCACGGCCGCCGTCATGATGGCTGATAAACTTGTGAAGATCGCCACCGAGGAGGCCAACAGCTCCAATGAGGAGCGCGACGCCGCCGAAAAGGCCGCACTGCTGGCCACGCTGGGCGCCCCTGAGACCGGACAGCTGCCGCCCGCCATGCGCAGCCAGGTCAAACAGCTTGAGGACGACCAGAAACGGCGCGCGAAACGTTCTATCACCGATTCCCTGGACCGGACGCTCACCGATCTCCTCTCCTTCTACCGGGATGTGCTCATCATCCAGATGGGGAATTCCGTGGAGCTCGTGAACGTTGAGCTCAGGGCTGAACTGGAGGACTTCGCCGGCCGTTCAGGCCCAGAAGTCACCCTCGCCAGGATGGATGCCATCAACAAGGCAAGGAAGCGCATCACCACCACCAACGTCGCACCGCTTTTGACCATCGAGGCAATGGCCACCGGCCTGATCTAG	MTVWEDLQGQPAVVTQLQQAAMGEGLTHAWLFTGPPGSGRSNAAKAFAAALNCDQDDVARRGCGECHACRTILGETHADVVFVRTEKVTITIEEARELVSTAGNRPSSGRWRIIVVEDADRMAERTTNVLLKAIEEPTPRTIWMLCAPSPADVLVTIRSRCRAVALRLPPAADVAALLVKRDGVDLDLAQRAARAAQSHVGIARRLARDAEARERRLETVRFPLGLQGVTAAVMMADKLVKIATEEANSSNEERDAAEKAALLATLGAPETGQLPPAMRSQVKQLEDDQKRRAKRSITDSLDRTLTDLLSFYRDVLIIQMGNSVELVNVELRAELEDFAGRSGPEVTLARMDAINKARKRITTTNVAPLLTIEAMATGLI				NA	NA	NA	NA	NA
D1-17_03255	1581	caeA		Carboxylesterase A	ATGATGTCCACACTCCCCCCGACCGCGCGATCGCGCTCCTTCGCGACCGCAGTGCGGGCTGCCGGAGCGATGGCGGTGGTTCTGTTCCTGACATCATGCACCTTGTTGGGGAGCTCCAAGGACGGCGGGCAGCAGGGGAACTCTACGGGCCAGGCGGATCCATCCATAGCAGCGGCGGCTCCCGAAGGTCTGGAAGACTTTTACTCCCAGAGTATTGTGTGGGAGTCCTGCGAGGAGGAGATGCAGTGCGCCAAGGTCAAGGCGCCGCTGGACTACGCCAAACCGGACGGCGAAACCATCGAACTCGCAGCCCTCAAGATCCCCAGCAGCGGGAAAGACAAGCAAGGGAGCTTGCTGATCAACCCCGGGGGGCCGGGGGCATCCGGTTACGACTTCGTCCGCGACGCCGGCTTCACCAACTTCTCCGAGAAGGTGCGGGCCAACTACGATCTCATTGGTTTTGACCCGCGTGGCGTCAAGCGCTCCGCGCCGGTGACCTGCCTGACAGACAAGGAACGCGATGAGGCCCGGGCGAAGATCTACGCCCCGGAAACAGACGCCGGCCTGGCCACCCTCCTCGCCGACAACAAAGCAATCGCCGAGAAGTGCGCCCAACAGACAGGGCCCGCACTGGGACACATCGACACCGTCAGTGCCGCCAAGGACCTGGACATCCTCCGCGCAGTGGTCAACGACGCCAAGCTCAACTACGCGGGCTTCTCCTACGGGACCTTCCTCGGCGCGACCTACGCCTCGCTGTTCCCGGACAACGTCGGACGGATGCTGCTCGACGGAGCGGTGGACCCGTCCCTCGGCGCTGACGAAATCACGCTTGGCCAGGCGAAGGCGTTCGACAAGGCACTCCGCGCCTATGTCGGGCACTGCCTGCAGCAGGAAGCCTGTCCCTTGAGCGGCACGGTTGAAGACGGTGTCCAGCAGATCAGCGATATGATTCAGTCGGTCGCGTCCAACCCCCGCCCGGCAAAGGACGGCCGGATTGTCGGCGGCAACACCTTCGCCAGCGGACTAATTGTGCCCCTGTATGCCAACGAAAACTGGCCCGCCCTGACGCAGGCGCTTGACGCTGTAACCAAGGGCGACGTCAGCCTCATGCTCCGCCTGGCGGACCTCGGCGCCAACCGCAGTTCCAACGGAAAATACACCTCCAACACAACGTTCGCGTTTTCTGCGATCAACTGCCTGGACTACCCGATGGACAGCGATCCTGCCGCCATGCGGGAAGAGGAACTGAAGCTCCGTGAGGCGTCACCGACGCTTGGGTACTTCTTCGCCTACGGCGCGGCCAACTGCGCCAACTGGCCGTACAAGAACGTCCGGCCCGCTCCGGCGGCCGTGAAATATGACGGCGAATCCCCCATCGTGGTGGTCGGCACCACCGGAGATCCTGCCACCCCCGTGGAGTGGGCCACCTCCCTCCGCAAGCAGCTGGGCAACGCTTCGCTGCTGACGTGGAAGGGCGAAGGCCACACGGCATACGGACGGGCCAACAGCTGCATCGAAGACGCCGTTGACTCGTACCTGGTCGACGGCAAGAAACCGGCAGACAACACGGTCTGCTGA	MMSTLPPTARSRSFATAVRAAGAMAVVLFLTSCTLLGSSKDGGQQGNSTGQADPSIAAAAPEGLEDFYSQSIVWESCEEEMQCAKVKAPLDYAKPDGETIELAALKIPSSGKDKQGSLLINPGGPGASGYDFVRDAGFTNFSEKVRANYDLIGFDPRGVKRSAPVTCLTDKERDEARAKIYAPETDAGLATLLADNKAIAEKCAQQTGPALGHIDTVSAAKDLDILRAVVNDAKLNYAGFSYGTFLGATYASLFPDNVGRMLLDGAVDPSLGADEITLGQAKAFDKALRAYVGHCLQQEACPLSGTVEDGVQQISDMIQSVASNPRPAKDGRIVGGNTFASGLIVPLYANENWPALTQALDAVTKGDVSLMLRLADLGANRSSNGKYTSNTTFAFSAINCLDYPMDSDPAAMREEELKLREASPTLGYFFAYGAANCANWPYKNVRPAPAAVKYDGESPIVVVGTTGDPATPVEWATSLRKQLGNASLLTWKGEGHTAYGRANSCIEDAVDSYLVDGKKPADNTVC				NA	NA	NA	NA	NA
D1-17_03257	1194	gshA_2		Glutamate--cysteine ligase	ATGACGCGCAGGATGGGCGTTGAGGAAGAATTCCTGATCGTGGACGGCGAGAACGGGACCCCACTGCCTCTGGGCGAAGTCCTCGAACAGCTCAGCGACTTTCCCCGCCTCACCAGCGAGATGAAACAGGAACAGGTTGAAACCTGCACCCTGCCGCGGGTCAGCCTCTCCGAACTGGCCCATGACATCAGTTCCGGGCGGGAGAACGCAGACGCGGCGGCCAGGAGGGCAGGAGCACGGGCGGCTGCGCTGGCAACCTCGCCGCTGCCGGTGGAGTCCACCATCGCCCCGGGGAAACGCTGTGCGCAGCTGATGGAGAGGTTCGGGCTTACCGCCGTCGAACAACTGACCGGCGGCTGCCACGTGCATGTGGAGATCGAGTCGGAAGACGAAGGCGTCGCCATCCTGGACCGCATCCGGATCTGGCTGCCCGTCCTACTGGCCATCAGCGCCAATTCGCCGTATTGGAACGGCCTGGACTCAAGCTACGCGAGCTACCGCTGGCAGGCCTGGGGCCGGTGGCCCACAACCGGCCCGGCTGACATATACGGCTCCGCTGCTGCCTACCACCGTGAGATCGGGCAGGTCCTCAGCTCCGGCGTGCCTCTGGACAAGGCGAACCTGTACTTCGACGCGCGGCTCAGCCACAAGCACCCGACCGTGGAGGTCCGGGTGGCGGACGTGTGCTTGTACGCGGACGACGCCGTACTGATGGCAGCCCTGGTCCGCGGGCTGGCGGAGACCGCGGCACGGCAGTGGCGCGACGGCGTCAGCCCGGTCCCGGCTTCAGCCACCCAACTGCAACTCGCGTCCTGGCGGGCCAGCCGCTACGGACTCGATGGCGAGTTGGCGGACCCCGTGTCAGGAAAGCCCCGGGGTGCATTCGAGCCGGTGATGGCCCTGCTGGACCACCTCCGGCCGGTGCTGGAGGAACAGGGCGAGCTCAGTACCGTGGAGTTCCTGCTATTCCAGGTCCTGAACCGGGGGACCGGCGCCGCCGTGCAGCGCAACTCCTACGCGCGTGCCGGAAGCATGCGGGATGTGATCGCCGATGCTGTTCACATCACCTGCATTCCGGCCACACCATTGCGGGAGGCGGGCAGCAGTACGGGAGAGACCCAGCATAGGCTCATGGCGAAGGGACGGGTGACGTTCGGGGGCGGAGTTTTCCTCCGCCGGGGCTCCGGTGACTAA	MTRRMGVEEEFLIVDGENGTPLPLGEVLEQLSDFPRLTSEMKQEQVETCTLPRVSLSELAHDISSGRENADAAARRAGARAAALATSPLPVESTIAPGKRCAQLMERFGLTAVEQLTGGCHVHVEIESEDEGVAILDRIRIWLPVLLAISANSPYWNGLDSSYASYRWQAWGRWPTTGPADIYGSAAAYHREIGQVLSSGVPLDKANLYFDARLSHKHPTVEVRVADVCLYADDAVLMAALVRGLAETAARQWRDGVSPVPASATQLQLASWRASRYGLDGELADPVSGKPRGAFEPVMALLDHLRPVLEEQGELSTVEFLLFQVLNRGTGAAVQRNSYARAGSMRDVIADAVHITCIPATPLREAGSSTGETQHRLMAKGRVTFGGGVFLRRGSGD	PGPT0026300_332	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-17_03258	138			hypothetical protein	GTGACACCTATCGCCATCATCATGATGATCATTGCCATCGTTACCGTCTGGGGCGGCCTGGTGCTGGCACTGCTGAACCTTCACAGGCACCCGGAAGACGAAGGGGCGTTGCCCGAGGAGCAAGCCTGGGAGCTTTGA	MTPIAIIMMIIAIVTVWGGLVLALLNLHRHPEDEGALPEEQAWEL				NA	NA	NA	NA	NA
D1-17_03259	1575			hypothetical protein	ATGAGCACTTCACCGTCAGCCCGGCTCTCGGCGCCGTTGAAGAGAGAAACCTTTTCGTCGCGAAGGCTCTTCATCCTGTCCGCCATCGGATCCGCTGTGGGCTTGGGCAACATTTGGCGCTTCCCCTACATTGCTTACGACAATGGTGGCGGAGCCTTCCTGATCCCCTACCTCACGGCGCTGCTGACGGCCGGCATCCCGCTCCTGTTCCTCGATTATGCGGTCGGGCACAAGTTCCGCGGCTCCCCACCCTTGGCCTATCGGCGGCTTCACCGGGCCGCTGAGCCGCTGGGCTGGTGGCAGGTGCTGGTCTGCTTCGTCATCGCAGCCTATTACGCGGTGATTATCGCCTGGTCGCTGATGTACATGATCTTCTCCTTTACGGAAGCCTGGGGCGACGACGCTGAGGGCTTCTTCTTCGGAGAGTTCCTGGCCGTGGCTGAAGCGCCGGGCCTGGGTTTCGAGTTCGTACCCTCGGTGTTCTTCCCGCTGCTGCTTATCTGGGTTGCTGTCATTGCCATCATGGTGGCCGGGATACGCAAGGGCATCTCCCGCGCGAACGCTGTCCTGCTGCCGCTGTTGATGGTGATGTTCCTCCTGCTGGTAATCCAATCACTCTTCCTGCCGGGGGCGGCGGACGGCCTGAATGCTTTCTTCACCCCGGACTGGTCCGCCCTCGGTGACCCGTCTGTGTGGGCTGCGGCCTACGGACATATCTTCTTCTCACTCTCCGTGGGCTACGGCATCATGGTCACCTACTCCTCCTACCTCAAGCGCAGGACGGACCTGACCGGATCTGGAATGGTGGTTGCCTTTTCCAACTCCGGCTTCGAGATCCTCGCCGGTATCGGCGTTTTCGCGGCACTGGGCTTCATGGCGCAGGCTTCCGGGGCTGCGGTTGGCGACGTCGTGACCCAAGGCATCGGTCTGGCGTTCATTGCGTTTCCCACCATCGTGTCGCAGGCCCCTTTCGGCGCCTTCATGGGAGTGCTGTTCTTCGGATCCCTGGTGTTTGCCGGCATTACATCGTTGATTTCCGTGCTGGAAGTGATTGTCGCCGCTGTGCAGGACAAGCTGGGCTGGGACCGCGTCCCGGCATCAGTGGTGGTCAGCGTCCTGGTTGCGGCCGTCTCGCTGGGGCTGTTCCCCACGGCGACAGGCCTGTACCTGTTGGACACCTCAGATGCTTTCGTCAACAGCTTCGGCATTACCCTCGGCGCGCTCGTGACCGTAGTGGTGCTGGCGTGGTTCCTGCGCAAGCTTCCACTGTTGTCCGCCCACCTCAACCGGATTTCGACCATAAAGATGCGCCGGACCTGGATGGTGTTGGTCTCAGGCATTGTGCCGCTCGCGCTTATTTACATGGTGGCCAATGAATTCACGACGAAGATCTCCACGACCTATGAGGGTTACCCCGACTGGTTCGTTGGAGTATTCGGCTGGGGAATGGCAGGTGGACTGATTGTCCTCGCGCTGGTACTGACCTTCATTCCATGGAGCAGGCGCTCCAAAGCCCACCACGACCCTGAATACGACTCCCTGGTGGCCAACGAAGCAAAGGAGACGGCGCTGTGA	MSTSPSARLSAPLKRETFSSRRLFILSAIGSAVGLGNIWRFPYIAYDNGGGAFLIPYLTALLTAGIPLLFLDYAVGHKFRGSPPLAYRRLHRAAEPLGWWQVLVCFVIAAYYAVIIAWSLMYMIFSFTEAWGDDAEGFFFGEFLAVAEAPGLGFEFVPSVFFPLLLIWVAVIAIMVAGIRKGISRANAVLLPLLMVMFLLLVIQSLFLPGAADGLNAFFTPDWSALGDPSVWAAAYGHIFFSLSVGYGIMVTYSSYLKRRTDLTGSGMVVAFSNSGFEILAGIGVFAALGFMAQASGAAVGDVVTQGIGLAFIAFPTIVSQAPFGAFMGVLFFGSLVFAGITSLISVLEVIVAAVQDKLGWDRVPASVVVSVLVAAVSLGLFPTATGLYLLDTSDAFVNSFGITLGALVTVVVLAWFLRKLPLLSAHLNRISTIKMRRTWMVLVSGIVPLALIYMVANEFTTKISTTYEGYPDWFVGVFGWGMAGGLIVLALVLTFIPWSRRSKAHHDPEYDSLVANEAKETAL	PGPT0013950_247	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
D1-17_03260	474			hypothetical protein	ATGGAAACCGTTGAAGAGACTGTTGATGTCGCAGTCCCGGTCCGTACGGCGTATAACCAGTGGACGCAGTTCGAATCCTTTCCGCAGTTCATGTCCGGTGTGGAATCCGTGACCCAACTGACCGACACAACCAACCACTGGGTTACCAAGGTCGGCGGGGTGAAACGTGAATTTGATACGGAGATTGTTGACCAGGAGCCTGACGACCGGATCGCCTGGCGCAGCACCGACGGCAAATCGCACGCCGGCATCATCAGGTTCACACCCCTGGATGCCAATCACACCAAGGTAAAGGTCCATTTCGAGTGGGCACCGGAAACAGTCACGGAGAAAGCAGGAGCGGCTCTCAAGATCGACGAAATGCAGGTCAAAGCCGACATGCGTAAGTTCAAGGATTTCATCGAATCGCGCGGCACCGAAACCGGCGGATGGCGCGGGGAAGTCGAGGATACCGGCCCGACCGGGCAGATCTAA	METVEETVDVAVPVRTAYNQWTQFESFPQFMSGVESVTQLTDTTNHWVTKVGGVKREFDTEIVDQEPDDRIAWRSTDGKSHAGIIRFTPLDANHTKVKVHFEWAPETVTEKAGAALKIDEMQVKADMRKFKDFIESRGTETGGWRGEVEDTGPTGQI				NA	NA	NA	NA	NA
D1-17_03261	402			hypothetical protein	ATGACCGAAGAGAATCTTCCGGATGATGAACTTGAAGTAGTTCAGGATGACGACGTCCTGCTTGATGAAACTCCAGGTGCAGCTTCCTCCATGGAACTGGACCCTGTGTTCGGAGAGCCGGACAGCTATCCGGGAGCTGCCGAGAATAACCCTGACCGCTGGCAGGATGATCCACTGCTGCAGGAGGAGGCAGTTTCGGGGGAGGAAGAGGATTTCCTGAGTGAGCAGACCCTGCGTGATGAAACACGGGGAAGGGCAGACGTGCCGACTATTGGAGAAGCCGCCGCCGACGTCGATTTCGGCGAAGTTCCTCCTGGCGAGGAAGCGGACGCAAGTGATGACCAGACGAATTTTGGCGGGTCCCCGCTGAGCCAGTTCGACCCGGATGACCTCGAGCGCTGA	MTEENLPDDELEVVQDDDVLLDETPGAASSMELDPVFGEPDSYPGAAENNPDRWQDDPLLQEEAVSGEEEDFLSEQTLRDETRGRADVPTIGEAAADVDFGEVPPGEEADASDDQTNFGGSPLSQFDPDDLER				NA	NA	NA	NA	NA
D1-17_03262	1122	gshA_3		Glutamate--cysteine ligase	GTGGACGCCAGGACAGGTGTGCATGCTCCCGTGGGCCAACAACTGGTGGATGCGGCACCCAGTCCCCGGGCGGGGAAGGCTCCCGCCGCTGCCCGGGAACAGCCGGACCCCGGCAGGCGGAATAACTCTCTAAGGGGCGAGGTTCAGCTGGAGCAGGTTGAAGCCGTGTCCGCGCCCTTCACAAGCCTTGACCGGTTGGCCGACGCTGTGCGGGCCGGCCGCGTGGAAGCCAATCGGCAGGCTTTGGCATTCGGCGCCCTGGCGGTGGCGGTGGGCACCTCACCACTCCCGGATCTTCCGCGCCCTACCCGCCGCCCGCGCTATGAAGCCATGGAGGAACGCTTCGGGCTCATTCTGCGCGAACAGCTCATGTGCGGATTCCACATCCACGTCTCGATCAGTTCAGCTGAAGAAGGCGTGGCAGTCCTGGATGGGATCCGCATCTGGCTTCCCCTCCTGATCGCGATGTCGACGAATTCCCCGTTCTGGCTCGGCCAAGACACCGGGTACGCCAGCTTCCGCTACCAGGTCTGGAGACGCTGGCCAACGGCAGGGCCTACGGAGGTCTTCGGTTCCGCGCAAGCCTATAACCGGCTCCTCGACATGCTGCTCTCCTGCAACGTCCTGCTCGACGGGGCGATGGTTTATTTCGACGCCCGGCTCTCTGCCACCTACCCAACCGTTGAAGTCCGAGTTCCCGACGTCTGCCTTGACGCTGACCACGCCATTGCCATCGCAGCAGTCGCCCGGGCGCTGGTTGAAACCGCAGCCCGGGATTGGGCACGAGGAAACGAACCCCCGGCCGTGCCGGCTGAAATGCTGCGCCTGGCCTCCTGGCGGGCCAGCAGGTTCAGCCTCGACGGGGACCTCATCCACCCCCTGCATAACAAACCACGGCCCGCAAAAGAATGCCTCTCAGCACTTCTGGAGCACATCCGGCCGGCATTGACTGATACCGGGGACTTCACCAGAGTCCACGACACCATGCAGCACATCCTGGCCAACGGCACGGGAGCCCACCATCAGCGACGCGTCCTTAAACAAACCCGGAACCTGCGCCAGGTCATCCTCAACGCCGCACAGCGTACGACTGGAGCAAGCGGAGCCACAACCACGCGCTGA	MDARTGVHAPVGQQLVDAAPSPRAGKAPAAAREQPDPGRRNNSLRGEVQLEQVEAVSAPFTSLDRLADAVRAGRVEANRQALAFGALAVAVGTSPLPDLPRPTRRPRYEAMEERFGLILREQLMCGFHIHVSISSAEEGVAVLDGIRIWLPLLIAMSTNSPFWLGQDTGYASFRYQVWRRWPTAGPTEVFGSAQAYNRLLDMLLSCNVLLDGAMVYFDARLSATYPTVEVRVPDVCLDADHAIAIAAVARALVETAARDWARGNEPPAVPAEMLRLASWRASRFSLDGDLIHPLHNKPRPAKECLSALLEHIRPALTDTGDFTRVHDTMQHILANGTGAHHQRRVLKQTRNLRQVILNAAQRTTGASGATTTR	PGPT0026300_1182	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-17_03263	996			hypothetical protein	ATGGAAGAGCAGGAGATTGCCGGCGTCGCGCGGCACCTTTACGCGCTGCCGTTCGACGAGTTTGTCGCTGCCCGCACCGCCGCCGCCAAGGCTGCGGCAGCTGAATCGAACCGGCCGTTGTCCTTGGCTATCAAGGCCCTGCCCAAGCCCTCCGCCGCAGCCTGGACCGTGAACATGCTGGCCTACCACCGTCCGGACACTGTCCGGCAGCTCCGCGACCTGGGCCAAACGATGCAGGGCGCCCAGGCAGCGCTTGACGCCGCGGCGTTACGGGAGCTGGCACGGGAGCGGCGCAAGCTGCTCACCGACGCCGTCGGTGCAGCGCGCCTCGCCGCAAAACAACAGGGGAGGCCGGTCAGCGCCCCTGTGGCCGCCGAGGTGGAGGAGACGCTGCGGGCTGCCACCGCCGACCCCGCGGCTGCGGCCGCCGTACAAAGTGGCATGCTCCTGCGGGTTCTCAACGCCGACGGGGTGGACCGGGTTGATCTCGAAGGCGCGGTTGCAGTTCCTTCCGCCCTCGGTCAGGTAGCTGAACCTCCGAAACCAGCTACCCGCAAAGCTGCGGGCCCGAAACCACCTGTCAAAATCCGCCCTGAGAGTCAGCCACAGTCCAAACGCCGCCCTGCGGCCGGTCCGGAGAAACCCCGCCTGCAGGCCGTGGACCGGACTCCGCGGCCGCCCTCGCCCTCCCTTCTCGAAAAAGCCGAAGCGGCACTGGCTGAGGCAGAGGCAGCCGCCTCCGCAGCGGCGGCAGAGGCCGAGGCGCGCGAGGAGGCCCTTAACAAGGCCGCCGAGGAATTCGCGCGCCTGACAGCTGACGTCAGTGAGACCAGACAACGGCTAAGAGCCCTGGAAGCGTCCCTGGAGGCACTGCGGAAAGAGCGCGAAACGGCAGAGGCAGAGGCAAAGCAGTCTGTCCGGGCTGCGGAGAAGAGCCGGCGGACGGCAATGCTGGCGAAGGAACGTGTGCTCCGTCTCCGCAACACACCGGACTGA	MEEQEIAGVARHLYALPFDEFVAARTAAAKAAAAESNRPLSLAIKALPKPSAAAWTVNMLAYHRPDTVRQLRDLGQTMQGAQAALDAAALRELARERRKLLTDAVGAARLAAKQQGRPVSAPVAAEVEETLRAATADPAAAAAVQSGMLLRVLNADGVDRVDLEGAVAVPSALGQVAEPPKPATRKAAGPKPPVKIRPESQPQSKRRPAAGPEKPRLQAVDRTPRPPSPSLLEKAEAALAEAEAAASAAAAEAEAREEALNKAAEEFARLTADVSETRQRLRALEASLEALRKERETAEAEAKQSVRAAEKSRRTAMLAKERVLRLRNTPD				NA	NA	NA	NA	NA
D1-17_03264	174			hypothetical protein	ATGAACCATGAATTCCACGTCACGTACTTCGAAGCCGACTGCGGACGCATCAGGACCGAGATCTTCGATACCCAGGCTGAAGCCGAGAGGTTCGTCAGCCGCTGCCTGTCATGCGAGGACGACTGGGCCATTGTCGATGCAGTGGCTGTCCGGCAGGAACAGGCCGCGGCCTGA	MNHEFHVTYFEADCGRIRTEIFDTQAEAERFVSRCLSCEDDWAIVDAVAVRQEQAAA				NA	NA	NA	NA	NA
D1-17_03265	846		COG0656	putative oxidoreductase/MSMEI_2347	ATGACTTCTTCACGCACACTGACATTCAATGACGGCAATACCATTCCCCAGCTCGGCTACGGGGTGTGGCAGGTGGAAGACGACGTTGCCGAGAAGGTGGTCTTCCAGGCATTCCAGGCCGGGTTCCGCCACATCGATACGGCCAAGATCTACGGCAACGAGTCCGGAGTGGGCCGCGCCATCGCGAGCTCGGGGCTGTCGCCGGAGGAAATCTTCATCACCACCAAGCTGTGGAACTCGGACCAGGGTTACGAGTCAACGCTCGCGGCCTTCGAGGAGTCCATGGAGCGCCTGGGCCTGGAAACCCTGGATCTCTACCTGATTCACTGGCTTCAGCCGAAGCAGGACAAGTACGTGGACACCTGGAAGGCGCTGATTGAGCTGCAGAAGCGCGGCAGGGTGAACTCGATCGGCGTCTCCAACTTTACGGTGGAGGGCCTGCAACGCATCATCGACGAAACCGGCGTGGTTCCCGCCATTAACCAGGTGGAGCTGCACCCGTTCTTCAACCAGGCTGAACTGCGGGAGTTCAACGCGTCCAAGGGGATCCTGACGCAGGCCTGGTCGCCGCTGGGCCAGGGCGGCGAGCTCCTGCACGACCCCGCCATCACCGCCATCGCGGACAAGCATGGTGCAACGCCGGCGCAAGTGGTTATCGCGTGGCACCTGGCCATTGGAAACGTCGTCATTCCGAAGTCGGTGACGGAGTCCCGGATCCGCGAAAACTATGCGGCCCTGGACATCACGCTCGATGCCGCCGACGTCGAATCCATCAACGGACTGGACCGTACTGCTGCAGGGACCGGACGCATCGGCCCGGACCCGGCCGTCTCCGACTTCGCCTAA	MTSSRTLTFNDGNTIPQLGYGVWQVEDDVAEKVVFQAFQAGFRHIDTAKIYGNESGVGRAIASSGLSPEEIFITTKLWNSDQGYESTLAAFEESMERLGLETLDLYLIHWLQPKQDKYVDTWKALIELQKRGRVNSIGVSNFTVEGLQRIIDETGVVPAINQVELHPFFNQAELREFNASKGILTQAWSPLGQGGELLHDPAITAIADKHGATPAQVVIAWHLAIGNVVIPKSVTESRIRENYAALDITLDAADVESINGLDRTAAGTGRIGPDPAVSDFA	PGPT0001320_983	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001320-dkgA-K06221	NA	NA
D1-17_03266	462			hypothetical protein	TTGGGGTTTTTCACAGCCGCCCGGCAAGGGCGCAGAGACGACGCCGAACTCGGCAAAGGCCTGTGGCGCCGGGCGCATGACCGCTTTCACCGTGGACTGGACCGCTACCACCAGGTCCTGGAGGGCGTTGAGGATGAGCCCCTCTACGCGGAACTTGTCGACATCGCGAATCAGCTTGCGGAACTGTCCGGCCGCGTCCGGGACGTCTGCGTTGAAGCGCAGCGGCGTTCTCCGAGTGAAGGGCTGGACATCCCGCACTCACTCTCCGGTGTCCACCGTGCACTGTCGAAGGCAGGGAACTCGCTGGCGGCGACAGCCGAGGCGGCAGCCATGCTTCGGCTTGCGGTCGGGCCGGTTCCGGTGGGCGCTGCGTCGGTCTGGAGAAGGGCGGAGACCGTGTTTGAACAGGTAGCGGAGGCCGAGCGCCAACTTGCTGCCGCCGGTCCCGCTCCTGGCCTGTGA	MGFFTAARQGRRDDAELGKGLWRRAHDRFHRGLDRYHQVLEGVEDEPLYAELVDIANQLAELSGRVRDVCVEAQRRSPSEGLDIPHSLSGVHRALSKAGNSLAATAEAAAMLRLAVGPVPVGAASVWRRAETVFEQVAEAERQLAAAGPAPGL				NA	NA	NA	NA	NA
D1-17_03267	669			hypothetical protein	ATGAGCGATCCGAACGACACTCGAACCACCCCGGCTGACACGTCAGACCCAGCATTCGAGGGCTCCAGGCCCGGCGACGAGTCCCCCGTGGAGGGCACGGCCATTGAGGCTGAGCCGATCCCGGTGAACGGCGACAAGCCCGATGGCTCCTCCAAACCCAAGGGGAGCAGTCTGCAGGATCTCGTGGATGAGCCCGCCAAGGTGATGCGGATCGGCACGATGGTCCGGCAATTGCTGGAAGAGGTGAAATCCTCCCCGCTGGACGATGCTGCGCGCGGCAGACTTGCCGAAATCCACGAGCGTTCCATCAGGGAACTCGAGGACGGTCTCGCCCCGGAGCTCATGGAGGAGCTGGAACGGATCAGCCTGCCGTTCCCGGACGATGCCACGCCGTCGGACGCGGAGCTGCGGATCGCCCAGGCCCAGCTGGTTGGCTGGCTCGAAGGCCTGTTCCATGGAATCCAGACAGCCATTGCTGCCCAGCACGCGGCACGGGAACACGCCATGCTCCAGCTGCGCCAGCTCCCGCCTGGCACTGTCATTGCGCCAGGTGTGGTCATCGGCGAGAACGGCGAACCGCAAAGGGCCAAGTCCCCGCAGCAGCCGGCCAGCCCGCTGAAGCCGGGGGAACCTGAGACTCCGGACCACGGCCCGGGCCAGTACCTGTAG	MSDPNDTRTTPADTSDPAFEGSRPGDESPVEGTAIEAEPIPVNGDKPDGSSKPKGSSLQDLVDEPAKVMRIGTMVRQLLEEVKSSPLDDAARGRLAEIHERSIRELEDGLAPELMEELERISLPFPDDATPSDAELRIAQAQLVGWLEGLFHGIQTAIAAQHAAREHAMLQLRQLPPGTVIAPGVVIGENGEPQRAKSPQQPASPLKPGEPETPDHGPGQYL				NA	NA	NA	NA	NA
D1-17_03268	192			hypothetical protein	ATGAGCGCGATAACCGAAGGATTGCGGGACTTTGCCCGGTACCTTGGCGGTGTGATGGGGGCGGACGCATATCAGAAATACCTGGAGCACCATGCCGCTGCCGGGCACCCAAACCCGCCCCTGACTGAGCGGGAATTTTGGCGGGACAAGACTGACCGGCAGGACAGCAACCCGCAGGGACGGTGCTGCTGA	MSAITEGLRDFARYLGGVMGADAYQKYLEHHAAAGHPNPPLTEREFWRDKTDRQDSNPQGRCC				NA	NA	NA	NA	NA
D1-17_03269	2304	cstA	COG1966	Peptide transporter CstA	ATGAGCAGCAGCATGCCTGGCGGCAGGGCTGGTACGGCAGATGAGGATCTGGAGCTGAAGCACGATCCGTCGCTGCCGCCGACGGCCGTCGATGACGCGGTCCGCGAAGCTGAGGAGCGTAAGTGGACGCCCATGAAGATTGCGATCTGGTCAGCGATCGCGCTTTTGGGCGGCGTGGCCTGGTTCATGCTCGCCATCGTCCGGGGCGAGACCGTCAACGCGATCTGGTTCGTGTTTGCCTCCGTCTGTACCTACCTGATCGCCTACCGCTTCTACTCGAAGGTCATCGAGCGCTACATCACCAAGCCGAACGACCGGCGGGCCACCCCTGCTGAGTACAAGGCCGACGGAAAGGACTACGTCCGCACGGACCGCAATGTTCTGTTCGGACACCACTTTGCGGCGATCGCCGGCGCCGGCCCGCTGGTGGGCCCGGTCATCGCGGCGCAGATGGGCTACCTGCCCGGCACTATCTGGATCATCCTCGGCGTCGTTCTTGCCGGAGCCGTGCAGGACTACCTCGTCCTGTTCTTCTCGATGCGGCGGGGCGGGCGCTCGCTGGGCCAGATGGCCCGTGAAGAACTAGGCGTGATCGGCGGAACTGCCGCTCTCATTGCCACACTGCTCATCATGGTGATTATCGTGGCGATTCTCGCCCTCGTCGTCGTGAACGCCCTGGGCGAAAGTCCATGGGGTATCTTCTCCGTGGGAATGACCATTCCCATTGCCCTGTTTATGGGGGTTTATCTACGGTTTATCCGTCCCGGCAGGGTCATGGAAGTTTCCCTGATCGGCTTCGTCCTGCTGATGGCCGCGATCATCGGAGGGGGCGTTGTTGCGGAGACCGAGTGGGGCGCGGCGTTCTTCCACCTGGACAAGGTCACCATCGCATGGGGCATCATCGTCTACGGCTTCATAGCCGCGATCCTGCCAGTCTGGCTGCTCCTGGCTCCGCGTGACTACCTCTCCACGTTCATGAAGATCGGCGTCATCGTCATGCTTGCGCTGGCCATCATAGTGGTCCGCCCCGAAATCAGTGTTCCGGCGTTCAGTGAGTTCGCCAGCCGCGACAATGGCCCGGTTTTCCCGGGGGCGCTGTTTCCGTTCCTCTTTGTCACCATCGCCTGCGGCGCCCTGTCTGGCTTCCACGCGCTGATCTCCTCCGGCACCACGCCGAAACTGGTCGAGAAGGAACGCCAGACACGCCTGATCGGCTACGGCGGAATGCTCATGGAGTCCTTCGTGGCGATCATGGCCCTCGTGGCAGCCATCTCCATTGACCGCGGGCTGTACTTCGCCATGAACTCGCCAGCCGCTCTGACGGGCGGGACCGTGGAAACCGCGGCCACCTGGGTGAACAGCCTGGGGCTGTCCGGGGTGAATCTGACACCTGAGATCCTGTCGCAGACTGCGGCCAACGTCGGCGAGGAAAGCATCGTTTCCCGCACCGGCGGCGCACCCACCCTGGCCGTGGGACTGGCCCACATCATGCAGCAGTTCATCGGTGGTACCGCGATGATGGCGTTCTGGTACCACTTCGCCATCATGTTCGAGGCGCTGTTCATCCTGACAGCAGTGGACGCCGGCACCCGCGTGGCACGCTTCATGCTGCAGGACTCCATCGGCAACTTCGTCCCCAAGTTCAAGGAGCATTCCTGGCGGCCGGGAGCCTGGCTGTGCACCGCCATCATGGTTGGGGCCTGGGGTGCCGTGCTGCTGATGGGCGTTACCGACCCGCTGGGCGGCATTAACACGCTGCTTCCGCTGTTCGGAATCGCAAACCAGTTGCTCGCTGCCATAGCGCTATCCGTGTGCATGGCCATCGCAGCCAAACGGGGCTCTTTCAAATACCTCTGGATTGTCGCCCTTCCGCTTGCCTTTGCTGCGGTCGTAACCATCACGGCGAGTTTCCAAAAGATCTTCTCGCCGGTTCCGGTGGTGGGGTACTTCGCCAACAATGCGGCGTTCAGCAAGGCACTTGCGGAAGGCAAGACTGAATTCGGCAGCGCGAAAACCGTGGCGGCCATGGAGGCCGTGGTCCGCAACACGATGATCCAGGGATGGCTCTCGGTGATCTTCGTAGTCCTGAGCATCATCGTCATCATTACGGCGGTGATCGCCACGGTAAAGGCCTTCCGGAACCAGGCCAACGGCGTCTCCCACACCGATCACGAGGACCCGGCAGTACCCTCGAGGGTATACGCGCCGGCCGGCTTCATCCCCACCCCGGCAGAGCGCGAGTTGGTGGCAGAATGGAACAAGCTTCCTGCCGAACTGCGGCTCGAAAAGCCCGTGCACCACTGA	MSSSMPGGRAGTADEDLELKHDPSLPPTAVDDAVREAEERKWTPMKIAIWSAIALLGGVAWFMLAIVRGETVNAIWFVFASVCTYLIAYRFYSKVIERYITKPNDRRATPAEYKADGKDYVRTDRNVLFGHHFAAIAGAGPLVGPVIAAQMGYLPGTIWIILGVVLAGAVQDYLVLFFSMRRGGRSLGQMAREELGVIGGTAALIATLLIMVIIVAILALVVVNALGESPWGIFSVGMTIPIALFMGVYLRFIRPGRVMEVSLIGFVLLMAAIIGGGVVAETEWGAAFFHLDKVTIAWGIIVYGFIAAILPVWLLLAPRDYLSTFMKIGVIVMLALAIIVVRPEISVPAFSEFASRDNGPVFPGALFPFLFVTIACGALSGFHALISSGTTPKLVEKERQTRLIGYGGMLMESFVAIMALVAAISIDRGLYFAMNSPAALTGGTVETAATWVNSLGLSGVNLTPEILSQTAANVGEESIVSRTGGAPTLAVGLAHIMQQFIGGTAMMAFWYHFAIMFEALFILTAVDAGTRVARFMLQDSIGNFVPKFKEHSWRPGAWLCTAIMVGAWGAVLLMGVTDPLGGINTLLPLFGIANQLLAAIALSVCMAIAAKRGSFKYLWIVALPLAFAAVVTITASFQKIFSPVPVVGYFANNAAFSKALAEGKTEFGSAKTVAAMEAVVRNTMIQGWLSVIFVVLSIIVIITAVIATVKAFRNQANGVSHTDHEDPAVPSRVYAPAGFIPTPAERELVAEWNKLPAELRLEKPVHH	PGPT0015060_83	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
D1-17_03270	549			hypothetical protein	ATGTCCATCCGCCACAGCCTCCTTGCCCTGCTGCAGGAACGGCCGCGGTACGGGTACCAGCTCAGGAGCGAGTTCCAGGACCGTACGGGTGCCGCGTGGCCGCTGAACATCGGGCAGGTCTATACGACGCTGGAACGCCTGGAACGTGATGGTCTCGTCCGGAAGGATCCTGGGACAGACGGCGGGCAGGTGGTGTACAGCATCACCGATGAAGGAGCAGGCCAGGCCGATGCCTGGTTCTCGGCCCCTGTTGAACGTTCGAATCCGCCGCGGAATGAGCTGGCCATCAAGCTCTCGCTTGCCCTGTCGTTGCCCGGGGTGGATGTCGGGGCCATAATCCGTGCCCAGCGCGCAGCAAGGCTTGCCGTGCTGCAGGAGCAGACCAAGGTAAGGCGTCAGACGGTTGCGAACCCGCGAAGGGCGGACCTGGCCTGGCTGCTGGTCCTGGACTCGTTGATCTTTCAGGCTGAGGCAGAGATTCGCTGGCTGGACCTCTGTGAGGCCCGCATGGCGCAGCTGGCTCCCAGCGGTAGTGCCGCCAGTCGCTGA	MSIRHSLLALLQERPRYGYQLRSEFQDRTGAAWPLNIGQVYTTLERLERDGLVRKDPGTDGGQVVYSITDEGAGQADAWFSAPVERSNPPRNELAIKLSLALSLPGVDVGAIIRAQRAARLAVLQEQTKVRRQTVANPRRADLAWLLVLDSLIFQAEAEIRWLDLCEARMAQLAPSGSAASR				NA	NA	NA	NA	NA
D1-17_03271	984			2-haloacrylate reductase	ATGAAAGCCGTCTACATCTCTGAGCCGGGAGGGCCGGAAGTACTGGAAATCCGCGAGGTCCCAGCCCCGGTTCCCGGGCCCGGCGAAGTCCTGATCGATGTTGTGGCTGCAGGCCTGAACCGCGCGGACGTGCAGCAGAGGAGGGGCTACTACCCGCCCCCTCCGGGTGCTTCGGAGGTTCCCGGCCTTGAAGTTTCCGGCCGCATCGCCGGCTTTGGTGAGGGCGTCACCAAACCGTTTTCCATTGGGGACAAAGTTGTGGCCTTGCTGGCCGGCGGCGGTTACGCGGAACGGGTCGCCGTCCGTGCAGAGCAGGTTCTGAGAGTTCCCGACGGCGTTGACCTGGTCACCGCTGCGGCCCTTCCGGAGGTCGCGGCTACGGTCTACTCGAACCTCGTCATGACTGCACAGCTGCAGTCCGGTGAAACAGTCCTGATCCACGGGGCCACCGGCGGGATCGGCACCATGGCCATCCAGTTCGCGAAGGCAATCGGTGCCACGGTCGCCGCTACGGCCGGCACCGATGAGAAAGTCGGCACCGCCAAGGCCTTCCTGGGGGCAGATATCGCCATCAACTACGCGGAGGAGAACTTCGCGGAGAGCCTGCGTGCCCAGAACGGCGGCAAGGGCGCAGACGTGATCCTGGATGTGGTCGGCGCCAAGTACCTGCAGCAGAACGTTGATGCGCTCGCAGATTATGGCCGGCTCATCGTCATTGGCCTGCAGGGCGGCGCCAAGGGCGAACTCGACCTTGGGCAGCTGCTGCGGAAGCGGGCCGCTGTTGTTGCCACTGCTCTCCGGCCCAGACCCGTCGAAGAGAAGGGCATAATCATGACCGCTGTCCGGGATGCCGTGTGGCCACTCGTCGCTGACGGCCGAATCCACCCCCTCGTGGCCAAGACGTTCCCGCTGGACCAGGTCAGGGCCGCCCACAGGTATTTCGACTCAGGGGAACACGTGGGCAAGATCCTGTTGGTGATGTGA	MKAVYISEPGGPEVLEIREVPAPVPGPGEVLIDVVAAGLNRADVQQRRGYYPPPPGASEVPGLEVSGRIAGFGEGVTKPFSIGDKVVALLAGGGYAERVAVRAEQVLRVPDGVDLVTAAALPEVAATVYSNLVMTAQLQSGETVLIHGATGGIGTMAIQFAKAIGATVAATAGTDEKVGTAKAFLGADIAINYAEENFAESLRAQNGGKGADVILDVVGAKYLQQNVDALADYGRLIVIGLQGGAKGELDLGQLLRKRAAVVATALRPRPVEEKGIIMTAVRDAVWPLVADGRIHPLVAKTFPLDQVRAAHRYFDSGEHVGKILLVM	PGPT0013255_4957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-17_03273	132			hypothetical protein	GTGAGCAAGACAGAGAAGCAGGGCCTGAGGTACTCGGACTACTACTGGTGCATGTCGCTCAAAGACTTCATCGAATGGGTGGAAGCAGATGACGACAACGAGCCCGGGACGTCCTACTCCGACCGGCTCTGA	MSKTEKQGLRYSDYYWCMSLKDFIEWVEADDDNEPGTSYSDRL				NA	NA	NA	NA	NA
D1-17_03274	792		COG3324	Putative glyoxylase CFP32	ATGCCCACGCCTGACATCACCCCTGGCGCTCCTTGCTGGATCGATTTGATGACCTCCAACGCAGACACAGCGCAGCAGTTCTACGGCGCACTGTTCGGCTGGGACTTCCAGGCCGGCGACCAGGAGAAGTACGGCGGCTACATCACCGCCCTGAAGAAGGGCAAGATGGTCGCAGGCATCATGCAGAAGGATGCCGACCAGGCCGCCCTGCCCGATATGTGGTCTACATACTTGCGGACGGATGACGCAGCGGCCACCGCCGAGGCCGTCACAGCCAACGGCGGGCAGGTGTTTGTCGCGCCCATGGACGTTCCGGAGCAGGGGCACATGGCAATTTTCGGCGACGCTTCCGGTGCTTCCATCGGCGCCTGGCAGCCGCGTGAAATGCGCGGCTACGAACTGGTGGCCGAGGACGGCACCCCAGCATGGCACGAGCTCCACGCCAAGGACTACGACGCCGCCGTGAAGTTCTACCAGCGGGTCTTCGGCTGGGCCACAGACATCATGAGCGACACTCCGGAGTTCCGCTACACAACGCTGGGCGCCGGCGCTGAGGCGAAGGCAGGCATCCTGGACGCCTCCGGCTATCTTCCCGCCGAAGCCCCCTCCACCTGGCAGGTTTATTTCGCCGTGTCGGACGCTGATGCGTCGATCGCAAAGGCTGTGGAAATGGGCGGGACCGTGGTGGAGGGTCCGGAAGACACTCCCTTCGGGCGTATCGCCACGCTGACGGACCCCATCGGAGCCACGTTCAAGATCGTCGCAGACACCGGCCGGGGGGCGCAGAGCTGA	MPTPDITPGAPCWIDLMTSNADTAQQFYGALFGWDFQAGDQEKYGGYITALKKGKMVAGIMQKDADQAALPDMWSTYLRTDDAAATAEAVTANGGQVFVAPMDVPEQGHMAIFGDASGASIGAWQPREMRGYELVAEDGTPAWHELHAKDYDAAVKFYQRVFGWATDIMSDTPEFRYTTLGAGAEAKAGILDASGYLPAEAPSTWQVYFAVSDADASIAKAVEMGGTVVEGPEDTPFGRIATLTDPIGATFKIVADTGRGAQS				NA	NA	NA	NA	NA
D1-17_03275	318	yhcR	COG0737	Endonuclease YhcR	GTGGCACGGGACCAGCCCACCCTTGATGTCCTGGACGCCCTCGAGCTGAAAGCCTCCGCGGTGGGTAACCACGAGTTCGACGGCGGCTGGGCTGAGCCGGGTGACCGCATCGCCGGCGGCGGCGTCCGGTTCCCGTACCTGGGGGCCAACGTCTATGCAAAGGGCACCGCCGACCCGGTGCTGCCCGAGTACACCGTCCTCGTTATGAACGGCATCAGGGTGGCGGTCATCGGCACGGTGACCCAGGAGGTGCCTAGCCTCGTCACGCCGGCACAAAGGGACGACCGGGCCAGCGAATCCACGCTGGCAACCTCGTAG	MARDQPTLDVLDALELKASAVGNHEFDGGWAEPGDRIAGGGVRFPYLGANVYAKGTADPVLPEYTVLVMNGIRVAVIGTVTQEVPSLVTPAQRDDRASESTLATS	PGPT0013395_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081	NA	NA
D1-17_03276	438			hypothetical protein	GTGAACAGCCTCTGGACCACGTCCCTGACCGGCGCCCAGTTCAAGATGCTGCTGGAACAGCAATGGCAGACCAACCCGGACGGAACCGTGCCCAGCCGGCCCTATCAGCAGCTCGCTCTGTCCAGGAACATCAGCTACACCTACGACGCCGCGATGCCTGGATTCTGTACCTTCGTGGGCACAGTCCCCTCTGCTGACTTCGCCCGGCGTTCAGCGGCGGTGATGAACTCCACGCCTGCCGAAGTCAGCAGAGGGGACGCCGTAACGCTCGAAGTCTCCAGACTCGACATGGCGTCTTTGGGCAGTCCCGTCAACAGGTCGATGGGTACGGTCTTTACTGACTCTGCCGGCACCGTCACTCCTCTGGGCAGCATCCCTGTCGTGGGTGGCGCCGCGACGGTGCACCTGAGGGTTCCCTCCGCATGCGGCTGCCGGTAG	MNSLWTTSLTGAQFKMLLEQQWQTNPDGTVPSRPYQQLALSRNISYTYDAAMPGFCTFVGTVPSADFARRSAAVMNSTPAEVSRGDAVTLEVSRLDMASLGSPVNRSMGTVFTDSAGTVTPLGSIPVVGGAATVHLRVPSACGCR	PGPT0013395_50	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013395-nucA|ushA|yhcR|yfkN-K01081	NA	NA
D1-17_03277	1878			hypothetical protein	GTGCTGGAGCGGCTGTTGGCCAACTGGTCCGCCGCCGCCGCTGCCGATCCCGGAGCAGGCCTGCACATCGATGTGGTCGATCCCTACCCGGCAGGCCCCGGCCATGTGTGGCAGCCGGGCCAGTCGCGGCTCTACCTGATGAACACGCAGTCTTTCTATCCCACGCTTATCCCGGAGGACCCGCACCTGGCCGCCCCCCTCGCCGGAACGACATTCGACCGCTGGCGCGAATCCCAGCAGCAGGACCCGCTCCCCACCCTGACGGATGAGGAACGGGCGGAACTGGCGGTCCTCAAGGCCGGCGATTTCCCCAGCCGTGCCCTCTACGGCAGGTACTTGCGCTCCACGCTTGAGGAGCTGCTTGCGGTGCTGCCCAACGGCGTCACAGTGGACTTTCATGAAGCCGTTGCCACCGCGGTGCGCCCGTCAGGGGACGGAACGTTCGACGTCGAACTGGCCGACGGCGGGCCCCTCACCGCGGACTCGGTCGTGTTCGCCCTGGGCCACCTGGACGCACGGCTGAGCCCCGAGCAGCGACAGCTGCAGGCGGCGGCCGCAGAGCTGGGACTGCGCTACTTCCCGCCGGCCGCTCCCGCCGACGTCGACTGGTCCGCGGTTCCGCCGCTCGAACCGGTGCTGGTCCGCGGCATGGGGTTGAACTTCTTCGATGTCATGGGCCAGCTCACCGAGGGCAGGGGCGGCAAGTTCGTCGAGGGCGGTGAAGCGTTGGCGTACGTGCCCTCCGGCCAGGAGCCGCTGATCATTGCGGCATCCCGTCGCGGCACGCCCTATCGGGCCAAGGCGGCACTGGGCGGCTATTACCCGGCCTCCGTAACCCTGAAGTACTTCACGCCTGCGGCAATAAACCGCTTCGAAGCTACCGGCATCACTCCGGCCTTCGACCACGACCTGTGGCCCCTCCTGCACCGTGACGCCCTGTGGGCCTACTACTGCACACTCGTGCGTTCCGAGCCGGAAGCTGTACCGGATTCCGGCTCGTTCCTGAAAGAACTGGACGTGGCCATGCACCCGCACGCCCACAGCACGGTGAGGTGGGAGGAAACTGTCCGTGCCGTCGTCGAAAGTCACGTCCGGGAAGAGGACAGGATCGACCTGCTGAGCCTCGCGGCGCCGCTGGCGGGGCGCAGCTTCAGCTCACGCGCGGAGCTGGACGCCGCCGTCACCGAGTACCTGCTCGATAACGCCCGCCGGTCGGCGCGCGGCGAGGACGACCCGGTGAAAATGGCCATCGGAGCCCTGCATCACGGCCGCGCCGTGCTGAAATCGGTGGTGGCCGACGGCGGTATCACCGACGAGTCATGGGTCGCCGGCCTGCGCGGCTGGTTTGAGTCCTTTGTGGAGGGCCTGGCCAGCGGCCCTCCGGCGCTCCGGTCCGAGCAGTTGGCGGCGCTCGCGCAGGCCGGAGTCGTCAGCTTTGTGGGGCCAGACCCCAAATTCGGCGTGGACCGGAAAGCTGGTTTGTTCACCGCCGTCTCACCGTGGGTGGACGGCGGGGCAGCGGAGGCCCGGACCATGGTGGAAGCCCTGGCCCCGGCCAACCGGGTGACCGTCAATGAATCCCCGCTGCTGGAACAGCTCCTGACGGACGGCCTCGTGCGGCCACGGACCATGATGACCGTGGAAGGCACCCCGGTGCAGGCGACCGGGCTGGATGTCAGGCCGCACCCCTACCGTCCTGTGGCTGCCAACGGGGAAGTGGCGGACCGGCTCTTCGTGCTGGGACTCCAGCTCTCGGCCACGCAATGGGGCACCGCGATCGCTGCGGAGGCTGTCCAGCAGGGCGGGCCCGTCTACCCCAGCGGCCAGCGCACCCTGCGCGACGCCGACGAGATCGCCCGCGCCATCCTCCACCTCTGA	MLERLLANWSAAAAADPGAGLHIDVVDPYPAGPGHVWQPGQSRLYLMNTQSFYPTLIPEDPHLAAPLAGTTFDRWRESQQQDPLPTLTDEERAELAVLKAGDFPSRALYGRYLRSTLEELLAVLPNGVTVDFHEAVATAVRPSGDGTFDVELADGGPLTADSVVFALGHLDARLSPEQRQLQAAAAELGLRYFPPAAPADVDWSAVPPLEPVLVRGMGLNFFDVMGQLTEGRGGKFVEGGEALAYVPSGQEPLIIAASRRGTPYRAKAALGGYYPASVTLKYFTPAAINRFEATGITPAFDHDLWPLLHRDALWAYYCTLVRSEPEAVPDSGSFLKELDVAMHPHAHSTVRWEETVRAVVESHVREEDRIDLLSLAAPLAGRSFSSRAELDAAVTEYLLDNARRSARGEDDPVKMAIGALHHGRAVLKSVVADGGITDESWVAGLRGWFESFVEGLASGPPALRSEQLAALAQAGVVSFVGPDPKFGVDRKAGLFTAVSPWVDGGAAEARTMVEALAPANRVTVNESPLLEQLLTDGLVRPRTMMTVEGTPVQATGLDVRPHPYRPVAANGEVADRLFVLGLQLSATQWGTAIAAEAVQQGGPVYPSGQRTLRDADEIARAILHL				NA	NA	NA	NA	NA
D1-17_03278	2358			hypothetical protein	ATGACCATCACAGCTGACTCAGCTCCCGCATCGGACGCCGTTCCACCAGGGACCGCACCCGAGCCTATTGACGAAAACATCTGGCTGGAGGACATCCACGGCGAAGCACAGCTGGCGTGGGTACGCGAGCAGAACGCCCGCACGGAGGACCTGCTCCAGGACGCCGAGTACGAGCGTCTCGAAGGCGAGATCCTCGAAGTGCTGGACTCCACGGACAAGATCGCGATGGTGACCAAGCGCGGTGACTGGTACTACAACTTCTGGAAGGACCGGGAGAATCCGAAGGGCCTGTGGCGGCGGACCACGTGGGAGAGCTACTGCAGCGATGCCCCCGAGTGGGACGTGCTGCTGGACGTGGACGCGCTCGCCGCAGACGAAGGTGAGGAATGGGTCTTTCACGGGGCGAATTTCCTCCGGCCCGAACCCGGCCAGCCCTACCGGCTGGCACTGCTGGCACTCTCCCCCGACGGCGGGGACGCCAACCGCTACCGCGAGTTCGACGTCGAAACCCGCACCTTCGTGGACCCCGCCCGCGGAGGTTTTGACCTTCCGACGGCGAAGGGGAACGTTTCGTGGCTGGACGCGGACACGCTGCTGGTGGCCAGCACGGCCGACGGCCTGCCGCGGACGGTCTCTTCCTATGCGCGGACGGCGGTCCGGCTGCGCCGCGGCCAACCGCTGACCAAGGCACCGCGGATCTTCGAGATCCCGGAGGACCACATGATGGCAATCGTGGTTCACGACGATACGCCGGGCTTTGAGCGGACCCTGGCGGTCGACTGGATCGACTTCTTCAACAGGACGACGTCGGTGCTCAGGGGCGATTCCTGGACGGCCATCGACGTTCCAACCGACGTCAACCTCAGCCTGCACCGGGAGTGGCTGCTCTTCCGCCCCCAGGGCGAGTGGACGGTGGACGGCACGAGCTACCCGGCGGGATCGCTGCTCGCTGCGGACTTTGACCGCTTCCTCTCCGGCGAGCGCGGGCTCACGGTCCTCTTTACACCTGACGCCCAAACGTCGCTGCAGTCCTGGAGCTGGACCCGGAATTTCCTGCTGCTGAACCTGCTGCGGGATGTCTCCTCCGAGATTCGCGTGCTTGATCCCTCTCAGGCCGCCTCCGCAACAGGAAACGGTGCCTGGGCCTCCTCACTGCTGGACGCCTGCCCGCCGCTCCATGACGTCAATGCCTACGCCGTGGACGATGAGGACGACGCGGATGACGACACTGACTACCTATCCCAAGGCGCTCCCGGAGGAGCCGGAAACGATTTCTGGCTGGTCGCTACCGGCTTCACCACCCCCACCACGCTGACGCGCGGAACCCTGAAACGGGCAGATCCTGCCGGGGGCCCCGTTCCTGCCGGGGAATCAGGCGTGGTGAGCAGCCATGCGGTGGTCAAGGCATCGCCGTCGTTCTTTAACGACGCTGCGTATGAAGTGCAGCAGCACTTTGCCGTCTCCGAGGACGGTACTCGGGTGCCGTACTTCCAGATCGCCTCGCGCGACCTCGTGCTGGACGGGCAAAACCCAACCCAGCTGTCCGGGTATGGGGGCTTCGAAGTCTCCCGTACGCCTGCCTACAGCGGGGCCGTCGGCCGCGCCTGGCTGGAGCGGCGGACGGCGCCTGCCGATGCTAGCGGGCACGGCTCGCCTGGCAGCGCCGATGGTGCGGACAGTACCCCGGTCCCGGACGCCGGTGGCGGCGCTTCTGACGCAGGCGCAGCTACTTCCCACAGCCGGGGCGGGGTCTATGTCGTGGCCAACATCCGCGGCGGAGGGGAATACGGGCCCTCGTGGCATCGGGCAGCGCTGCAGGAAAACCGGCACCGGGCTTATGAGGATTTTGCCGCCGTGGCGAAGGACCTTATCTCCCGGGGCGTCACAAGCCGGGAGCGGCTTGGCTGTGTGGGCGGCTCGAACGGCGGGCTCCTGGTGGGCAACATGCTGACCCGCTATCCGCACCTCTTTGGGGCGGTGTCCTGCGGCGTGCCCCTGCTCGACATGCGGCGGTACACCAAGCTGTCGGCCGGGCACTCGTGGATCGCGGAGTACGGGGACCCCGACGTCCCGGAGCACTGGGAATTCATCAAGACCTTCTCTCCCTATCACCTGCTGAAGGACGGGGTCGAGTATCCGGAGACCTTCATCTGGACGGCGACCTCGGATGACAGGGTGGGCCCCGTGCAGGCCCGCAAAATGGCCGCCCGCATGCAGGCCATGGGCATCCGGAACGTCTGGTTCCATGAAGCACTCGAAGGCGGGCATGCCGGGGCGTCGGACAACCGGCAGGCGGCAGCACTCCAGGGCCGCAGCCAGCACTTCCTCTGGAAGTCCCTGGCGGGTGGGACTGCCTGA	MTITADSAPASDAVPPGTAPEPIDENIWLEDIHGEAQLAWVREQNARTEDLLQDAEYERLEGEILEVLDSTDKIAMVTKRGDWYYNFWKDRENPKGLWRRTTWESYCSDAPEWDVLLDVDALAADEGEEWVFHGANFLRPEPGQPYRLALLALSPDGGDANRYREFDVETRTFVDPARGGFDLPTAKGNVSWLDADTLLVASTADGLPRTVSSYARTAVRLRRGQPLTKAPRIFEIPEDHMMAIVVHDDTPGFERTLAVDWIDFFNRTTSVLRGDSWTAIDVPTDVNLSLHREWLLFRPQGEWTVDGTSYPAGSLLAADFDRFLSGERGLTVLFTPDAQTSLQSWSWTRNFLLLNLLRDVSSEIRVLDPSQAASATGNGAWASSLLDACPPLHDVNAYAVDDEDDADDDTDYLSQGAPGGAGNDFWLVATGFTTPTTLTRGTLKRADPAGGPVPAGESGVVSSHAVVKASPSFFNDAAYEVQQHFAVSEDGTRVPYFQIASRDLVLDGQNPTQLSGYGGFEVSRTPAYSGAVGRAWLERRTAPADASGHGSPGSADGADSTPVPDAGGGASDAGAATSHSRGGVYVVANIRGGGEYGPSWHRAALQENRHRAYEDFAAVAKDLISRGVTSRERLGCVGGSNGGLLVGNMLTRYPHLFGAVSCGVPLLDMRRYTKLSAGHSWIAEYGDPDVPEHWEFIKTFSPYHLLKDGVEYPETFIWTATSDDRVGPVQARKMAARMQAMGIRNVWFHEALEGGHAGASDNRQAAALQGRSQHFLWKSLAGGTA	PGPT0020970_232	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020970-PREP-K01322	NA	NA
D1-17_03280	1476	hsrA		putative transport protein HsrA	ATGAGCGGCGGAGCCGCCGTGCGCCCCTGGAACCCGAGGCTGGCTTTGCTCGTGGCTGCCACGTTCTTCATGGAGTTCCTGGACGGAACGGTGCTGGTGACCGCCATTCCGAGTATCGCCGCGGACTTCGGCGTGGCGGCGGCCAGCGTAAACATCACCATGACCGCCTACCTGATGACCGTGGCCATGGGCATTCCGCTGAGCGGTTGGCTGGCCGAGCGGCTGGGAGCCCGGCGCGTCTTCTGCCTTGCCATTGCGCTCTTCACGGTGGCTTCCCTGCTCTGCGCTTTGAGCCAGGACCTCACAATGCTGACGTTCAGCCGCATTCTGCAGGGCGCAGGCGGGGCCATGATGGTCCCTGTGGGAACGCTCGTGGTACTCCGCGGGACCCCCAAGGCTGAGCTGCTGCGCGCCACTGCCTACCTCGTGTGGCCCGGCCTGCTGGCCCCGGTGCTGGCGCCGTTGGTGGGAGGGGCGCTGACGACGTACTTATCCTGGCACTGGATATTCCTGGTCAATCTGCCACTGGGCATCGCCGCGTTCCTGGCAGCCCTCCGTCTCGTTCCGGGAGTGCCGGTTGACCGCGAACGCCGGCTCGACTGGCTTGGGTTGGTTCTCACCACCGCGGGCGTCGGTTCCCTCGTTGCCGGGCTGGAGTTGGCCAGTGCCCACCTGGACGGGCCCTGGAGCCTGCCGGCGCTTCTAACCGGAGTGGCGGCCCTGGCCGCCGCAGTGCTGTGGATGCGCAAGGCAGCCAATCCGCTGTTCGACCTGACGGTTTTTTCGACACGCACGTTCCGGGCAACGAACACCGGCGGCTTCATCTACCGGCTCACCATCAGCGCCGTGCCCTTCCTGCTGCCGCTGATGTTCCAGGAGGGCTTCGGGTGGAGCCCCATCCATGCCGGCATCATGGTGGCAGCCGTATTCATAGGGAACATCGGCATCAAGCCGGCGACCACGCCGCTGATCCGCCGCTTCGGGTTCAAGCCGGTCCTCGTTTTTGCGTCCCTGGCCTCAGCGGTGACATTCGCGCTCTTCGGCACCCTCACTCCGGGGACTCCCGAGCCGCTGATCTTTGCGCTGCTGGTCTGCAGCGGCGCATTCCGGTCGATCGGGTTCTCTGCCTACGCTTCGGTCCAGTATGCAGACATCGTGCCCGGGCAGCTGACTTCAGCCAACGCCGTCTCGGCCACGCTTGTCCAGCTTGGCACGGGGGCAGGCATCGCGGTGGGAGCACTTCTCCTCCGCGTATTCGACGCGGCTCCTCTCCTCACGGCCGGATGGGACGCCGTGCTGGGCGCCTCAGCAGGCGGAGAGGATGCGGCGGCCTACCGGGGCGCCTTCCTGGCCATCGCCTTGCTGATGCTGCTCAGCACGGCGGACAGCCTGATGCTGCCCCGCCATGCCGGGGCCGAAATTAGCCGGCCTGGGCGAGCACCAGCGGCAGAACCGCCCCGGCACCGGCCCGCCTGA	MSGGAAVRPWNPRLALLVAATFFMEFLDGTVLVTAIPSIAADFGVAAASVNITMTAYLMTVAMGIPLSGWLAERLGARRVFCLAIALFTVASLLCALSQDLTMLTFSRILQGAGGAMMVPVGTLVVLRGTPKAELLRATAYLVWPGLLAPVLAPLVGGALTTYLSWHWIFLVNLPLGIAAFLAALRLVPGVPVDRERRLDWLGLVLTTAGVGSLVAGLELASAHLDGPWSLPALLTGVAALAAAVLWMRKAANPLFDLTVFSTRTFRATNTGGFIYRLTISAVPFLLPLMFQEGFGWSPIHAGIMVAAVFIGNIGIKPATTPLIRRFGFKPVLVFASLASAVTFALFGTLTPGTPEPLIFALLVCSGAFRSIGFSAYASVQYADIVPGQLTSANAVSATLVQLGTGAGIAVGALLLRVFDAAPLLTAGWDAVLGASAGGEDAAAYRGAFLAIALLMLLSTADSLMLPRHAGAEISRPGRAPAAEPPRHRPA				NA	NA	NA	NA	NA
D1-17_03281	2214	rhlE_2		ATP-dependent RNA helicase RhlE	ATGCCCCATAACCAGCACGCCTCAGTTCTTGCCTCTGCCACCGGCGCACCGTCAGCATCCTCAGCAGCGTCACCCAAGGGGCCTGCGGGGTCGCGTGACGAGGCGCTCGGCGTGCTGCGGGAGCTGGTCGGCCACCCGGGCGCTGAGTTACATGACGGCCAGTTTGAAGCGATTGAGGCACTGGTCGACGGCGGGCGGCGGGCACTTGTGGTCCAACGGACAGGCTGGGGCAAGTCGGCGGTGTACTTCGTGGCATCACTGCTGCTCCGGCGGCGCGGTGCGGGTCCTACACTGATCGTGTCCCCGCTACTGGCGCTGATGCGGGACCAGGTTGCGGCAGCTGCCCGTGCCGGGGTGCGGGCGGTGGCCATCAATTCCGCGAACCAGCTGGAGTGGGACAACGTGCGGGAGCAGCTCGCGGCGGACCAGGTAGACGTTCTGCTCGTTTCCCCCGAGCGGCTCACGAACCCATCGTTCCGTGAGAACCAGCTTCCGGAACTGATCCGCCGCACCGGGCTCCTCGTGATTGACGAGGCGCACTGCATCTCGGACTGGGGCCACGATTTCCGCCCCGATTACCGGCGGATCGCGGACCTCATCACCCAGCTCCCGGACACCGTTCCCGTGCTGGCCACCACCGCCACGGCCAACTCCCGCGTGGTTCACGACATCGAGGAGCAGCTGGGTGATGGCGTGCTGACCATCCGCGGCTCGCTGGGAAGGGAATCCCTGCGGCTGGGTGTGCTCACGCTTCCGGATTCACGTGAGAGGCTGGGCTGGCTGCTGACCCATCTGGCGGATCTACCGGGCAGCGGAATTATCTACACCCTGACGGTATCGGCAGCCGAGGACACAGCCCGGCTGTTGGCGGAGGCCGGGCACCAGGTGCTGGCCTATACCGGCCGCACCGACCCGGCTGACCGGGAACGGGCGGAACAGCTCTTGAAGGACAACGACGTCAAGGCACTCGTGGCCACATCCGCGCTGGGAATGGGCTTCGACAAGCCGGACCTCGGCTTCGTCGTCCACCTCGGGGCCCCGTCCTCGCCGGTGGCTTATTACCAGCAGGTGGGCCGCGCCGGGCGTGGGGCTGCCAACGCGGACGTCCTGCTGCTTCCGGGGTCCGAAGACAGGGACATCTGGCAGTATTTCGCCACGGCATCCATGCCTTCGGAAGAGAAGGCCTCCGCGGTGCTGACTGCCTTGGCTGAAGCCGGTACGGCCGTTTCGACTGTGGCGCTGGAGGCCCGCGTGGACCTGCGGCGGACACCGCTGGAGCTGTTGTTAAAAGTGCTGGCCGTCGACGGGGCCGTCGAGCGCGTGGGCGGCGGTTGGCGGTCGACCGGGCAGCCCTGGACGTACGACGCCGAGCGCTACCGCAGGATCGCGGAAGCACGGGTAGACGAGCAGGATTCCATGGTCATCTACCAGGACACCGCCGGATGCCGCATGGAGTACATCACGTCAGTGCTGGACGACGAGACCGCCGCGGCTTGCGGGCGGTGCGACAACTGCGCGGGCCGGTGGTTCCCGGCGGACATCTCGTCCTCGGCGACGGAGGCTGCCGGCCAGACACTCAGCCGGGCGGGCGTCGTCCTCGAACCGCGGCTGCAGTGGCCGAGCGGTATGGACCGGCTTGGGGTGCCGGTGAAGGGGAAGATCAAGCCGGACGAGAGCCTTGCAGAGGGCCGGGCGCTGGCCAGAATGACTGACCTGGGGTGGGGAGGTGCCCTGCGGGAAGTCTTTGCCGCGGGCGCTCCGGACCGGGAAGTGGATGCCGGCATGCTGCAGGCGTGCGTCCAGGTGCTGCGCGAATGGGGCGCCGGCGACTCCCGGACTCCCGGTTGGAGTGGCGCCGGCCGGCCGGCCGCCATCGTCAGTTTGCCGTCGCGCGGTAAGCCGGTGCTCGTGGAATCACTGGCCAGGGGAATTTCCGACATTGGCCGCATTCCATACCTGGGCCGTCTGGATCTGGAGCATGGCGGGCCAACGGGCGGCCGCGGCGGCAACAGCGCCTACCGTCTCGCGGGGGTGTGGGAGCGGCTGGTGGCCGGCCCGGCGCTGCAGTCGGCTTTGGCAGGACTTGGCGGGCAGAGTGTCTTGCTGATCGATGACCTGGTGGATAGCCGATGGACTGTGACCGTTGCCGGCCGTGCGCTCAGGCGGGCCGGTGCCGGGGCGGTTCTGCCGCTGGTGCTCGCCCAGGCCGGCTAA	MPHNQHASVLASATGAPSASSAASPKGPAGSRDEALGVLRELVGHPGAELHDGQFEAIEALVDGGRRALVVQRTGWGKSAVYFVASLLLRRRGAGPTLIVSPLLALMRDQVAAAARAGVRAVAINSANQLEWDNVREQLAADQVDVLLVSPERLTNPSFRENQLPELIRRTGLLVIDEAHCISDWGHDFRPDYRRIADLITQLPDTVPVLATTATANSRVVHDIEEQLGDGVLTIRGSLGRESLRLGVLTLPDSRERLGWLLTHLADLPGSGIIYTLTVSAAEDTARLLAEAGHQVLAYTGRTDPADRERAEQLLKDNDVKALVATSALGMGFDKPDLGFVVHLGAPSSPVAYYQQVGRAGRGAANADVLLLPGSEDRDIWQYFATASMPSEEKASAVLTALAEAGTAVSTVALEARVDLRRTPLELLLKVLAVDGAVERVGGGWRSTGQPWTYDAERYRRIAEARVDEQDSMVIYQDTAGCRMEYITSVLDDETAAACGRCDNCAGRWFPADISSSATEAAGQTLSRAGVVLEPRLQWPSGMDRLGVPVKGKIKPDESLAEGRALARMTDLGWGGALREVFAAGAPDREVDAGMLQACVQVLREWGAGDSRTPGWSGAGRPAAIVSLPSRGKPVLVESLARGISDIGRIPYLGRLDLEHGGPTGGRGGNSAYRLAGVWERLVAGPALQSALAGLGGQSVLLIDDLVDSRWTVTVAGRALRRAGAGAVLPLVLAQAG				NA	NA	NA	NA	NA
D1-17_03282	1419	algC	COG1109	Phosphomannomutase/phosphoglucomutase	GTGACTAGCAACGAGACCAATATTTTTGACCTTTCAGCTTCCTTCAAGGCGTACGACGTCCGCGGCATCGTGGGCGAATCCATCACCGCTGAAATCGTCGAAGCCGTGGGGGCCGCATTCGTCGATGTGCTGGAACTGGAAGGCCAAACGGTCCTGGTCGGCGGCGATATGCGCCCCTCCTCCCCCGAATTCAGCAAGGCCTTCGCCAATGGCGCCGCCACCCGCGGAGCAGATGTCCAACTGCTGGACCTGATCTCCACCGACGAGCTGTACTACGCCTGCGGCGCGCTCAATGCAGCAGGCGCCACCTTTACTGCGAGCCATAACCCGGCCGAATACAACGGCATCAAGATGGCCAAGGCAGGTGCCGTGCCCATCTCCTCTGAAACAGGACTCAAGGAGATCCAGGCCCTCGCCGAGCACTACCTCAACGAAGGCTCCATCCCGGCTGCCGCGGCCCGCGGCCAGATCGGTGTGCAGGACGTTCTCAAGGGTTACTCCGAATACCTGCGCAAGCTCGTTGACCTCTCGGGTTCCCGGCCGCTGAAGGTGGTAGTCGACGCCGGCAATGGCATGGCGGGCCTGACCACTCCCGCTGTCCTCGGCGACGCCCTGCTGCCCAAGCTCCCCTTGGACATCATCCCGCTGTACTTCGAGCTGGACGGTTCCTTCCCGAACCACCCGGCCAACCCGCTGGAGCCGGAAAACCTGCGCGATCTGCAGGCCGCCGTCATCAAACACGGGGCTGACATCGGCCTGGCGTTCGACGGCGACGCCGACCGCTGCTTCGTTATTGACGAGCGGGGCGAGACAGTGTCGCCGTCTGCTATCACCGCGATGGTGGCCCGCCGCGAGATCGTCCGGGCCAAAGCCCAGGGCGAGGAGACGCCCACCATCATCCATAACCTGCTGACGTCCCGAGCAGTGCCCGAGATCGTAGCAGAGGCGGGTGGCCGCGCGGTCCGGACGCGGGTTGGACACTCGTTCATCAAGGCAGTCATGGCCAAAGAGGGTGCCGTCTTCGGCGGGGAGCACTCCGCCCATTTCTACTTCCGCGACTTCTGGAACGCTGACACCGGCATGCTGGCAGCGATGCACGTGCTGGCTGCCTTGGGCGAGCAGGACGGCCCGCTGTCCGAACTCGGCCGAGAATACGAACCGTATGTTTCCTCCGGCGAAATCAATTCCGCGATCGAGGACAAAGCCGCCGCCGTCGAACGCGTCCGCACCGATTTTGCCGGCGAAGATGTCACGGTGGACCACTTGGACGGCAGCACGTTCACGGCCAATGACGGCAGCTACTGGTTCAACCTCCGCCCCTCGAACACCGAGCCTTACCTGCGGCTGAACGCAGAAGCAACTGACCAGGCCACCATGCAGCGGGTCCGCGACCGCGTGCTCGCCCTCGTCCGCAGCTAG	MTSNETNIFDLSASFKAYDVRGIVGESITAEIVEAVGAAFVDVLELEGQTVLVGGDMRPSSPEFSKAFANGAATRGADVQLLDLISTDELYYACGALNAAGATFTASHNPAEYNGIKMAKAGAVPISSETGLKEIQALAEHYLNEGSIPAAAARGQIGVQDVLKGYSEYLRKLVDLSGSRPLKVVVDAGNGMAGLTTPAVLGDALLPKLPLDIIPLYFELDGSFPNHPANPLEPENLRDLQAAVIKHGADIGLAFDGDADRCFVIDERGETVSPSAITAMVARREIVRAKAQGEETPTIIHNLLTSRAVPEIVAEAGGRAVRTRVGHSFIKAVMAKEGAVFGGEHSAHFYFRDFWNADTGMLAAMHVLAALGEQDGPLSELGREYEPYVSSGEINSAIEDKAAAVERVRTDFAGEDVTVDHLDGSTFTANDGSYWFNLRPSNTEPYLRLNAEATDQATMQRVRDRVLALVRS	PGPT0017865_1463	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
D1-17_03283	492			hypothetical protein	ATGACAGAAGGAATGGCAGACGGCGCAGCAAAAGCAGCGCCGCAGTCCGAACCGTCCTGGCGGGACTCGGTTCCGGAGGCAACGGCCGCCGACCTGGAAAACCTGCTCGGTACCGGCATGGGGGCAGCCCGGGAGCAGCTTGAGCGGAACGGCGCCTTCCTGCCCTTCGCCCTCGTAGTGGAGAACGGTGGCGAGGTCCGTCTCCTGACGGTATCCCCGGCGGAAGACGGCGACGAGTTCGATGCTGACAGCATGATCAACGACATCACCGAGCTGCTCCGCCAGAAGCGCGAGGAGTTCCGTGCTGCCGCCATCGTCTGCGACATCACCCTGACCGAGGAAAACTCCGATGCCATTCACGTGGCGGCGGAGCACCGAAGCGGTGCCGTCTTCGCAGCTGTACTGCCCTACGCCCCCAACCGGGACAACACCGCGTGGGAATTCGGAGACATCGCCGCGGACGCCAACGAACCCGCCGTCTGGGTGGACTAG	MTEGMADGAAKAAPQSEPSWRDSVPEATAADLENLLGTGMGAAREQLERNGAFLPFALVVENGGEVRLLTVSPAEDGDEFDADSMINDITELLRQKREEFRAAAIVCDITLTEENSDAIHVAAEHRSGAVFAAVLPYAPNRDNTAWEFGDIAADANEPAVWVD				NA	NA	NA	NA	NA
D1-17_03284	450	nsrR	COG1959	HTH-type transcriptional repressor NsrR	ATGAAAATCAACGCCTTCGCCGACGTCAGCCTGCGCGCCCTCATGGTGCTCGCGGCCGCGCCGGAGGCCGGTCTCCTGACCACCCAGAGTGTGGCAGACGCCGTCGGCACGCCCTACAACCACGTCAGCAAGGCCATGGCCAAACTGCGGGTTTTGGGACTGATCGACGTCGAACGGGGACGCAATGGAGGATCGCGGCTCAGTCCAGCCGGCCGCCGCGTCACCGTAGGGCAGGTACTGAGGCAGCTCAATACCCGGGAAGACGCCGCGGAGTGCGTCGGCCCGGCCGGGAACTGCCCGCTCATTAAAGAGTGCCTTCTACGCGGCGCCCTTAAACGCGCCCGCGAGGCCTTCTATCAGGAACTCGACGAGGTTGTGGTGTCCGAACTTCCGAATTCGCGCCAGATGGCACCCGTCTTTAAGGCCATCGGGCTGCGTTCCGGCCTTTGA	MKINAFADVSLRALMVLAAAPEAGLLTTQSVADAVGTPYNHVSKAMAKLRVLGLIDVERGRNGGSRLSPAGRRVTVGQVLRQLNTREDAAECVGPAGNCPLIKECLLRGALKRAREAFYQELDEVVVSELPNSRQMAPVFKAIGLRSGL	PGPT0013005_791	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
D1-17_03285	261			hypothetical protein	ATGACCGCGGACGCGGCGCGCCTGGATGGGGCTGAGCTCGAGCTGTGGCTTGAGGAGCCGCAGGCGGGCACGGCATCCGGGTTCCTGTCCCTGCGCGAGGTGGCGCTCCCGGCCGACGCCGCACTGTACCTGCGCGGCCCGCTCCCTTTCATGAAGAAGATCCTAGCGAAGCCATCGACGGCGGCATCGCGGCGACCCGGATCCACTACGAAGTTTCCGGTCCGGACAGCTGGGAGGCATTCTGACGCCACCCTTAAATAG	MTADAARLDGAELELWLEEPQAGTASGFLSLREVALPADAALYLRGPLPFMKKILAKPSTAASRRPGSTTKFPVRTAGRHSDATLK				NA	NA	NA	NA	NA
D1-17_03286	1827	pckG	COG1274	Phosphoenolpyruvate carboxykinase [GTP]	ATGGGCCATCTGGCGCGACTGCCGCTGCTTGAGAAAGCACCCACCACACACGCCGGCCTGCTGGCGTGGGTTGAAGAGGTCGCTGGGCTGACCCAGCCGGACCGGATTCACTGGGTTGACGGCTCTGAGGAAGAGAATACCCGCCTGACGGACGAGTTGGTCGCCGCCGGCACACTCAAGCGGCTGAACCCGGAGCTTTTCCCCAATTCTTTCGCTGCATTCTCCGACCCCGCCGACGTAGCTCGGGTGGAGGAGCAGACCTTCATCTGCTCGGAGAATGAACACGATGCAGGCTTCACCAACAACTGGATGCCGCCGGCCGAGATGAAGGAGAAGCTGCGCGGGCTGTTCTCCGGCTCGATGCGCGGCCGCACCATGTACGTCATCCCGTTCGTGATGGGCCACCTCGACGCCGAGGACCCCAAGTTCGGTGTGGAGATCACGGACAGCGCCTACGTTGTGGCCTCGATGCGGATCATGGCGCGCATCGGCACCGACGTGCTGGACCGGATCACCGAGACCAACGCGTTCTTCGTTCCCGCCCTCCACTCGCTGGGCGCACCCCTGGAGCCCGGCCAGGCCGATGTGCCGTGGCCGTGCAACCCGGACAAGTGGATTGTGCACTTCCCGGAGGAGCGCTCCATCTGGTCCTTCGGCTCCGGTTACGGCGGCAACGCCCTGCTGGGCAAGAAGTGCTACGCCCTCCGCATCGCCTCGGTCATGGCACACGACGAGGGCTGGCTTGCCGAGCACATGCTCATCCTCAAGCTGACTTCCCCGGAAAAGAAGACCTACTACGTTTCCGCAGCTTTCCCGTCGGCCTGCGGCAAGACCAACCTTGCCCTGCTGGATCCCACCATCGAAGGCTGGAAAGTGGAGACCCTCGGGGACGACATCACCTGGATGCGTTTCGGCAAGGAGGGCGAGCTCCGCGCAGTCAACCCGGAAGCCGGCCTGTTCGGTGTCGCACCCGGCACCGGCTGGGGCACCAACCCCAACGCCATGCGCGCCATTGCCAAGGGCAACAGCATCTTCACCAATGTTGCGCTGACCGACGACGGCGGCGTGTGGTGGGAAGGCATGACCGAGGACGTGCCCGCCCACCTTACCGACTGGCAGGGCAGCTCCTGGACGCCGGAGTCCGGCAAGCCGGCTGCACACCCGAACTCCCGTTTCTGCACGCCGATCGACCAGATCGACATGCTGGCCGAGGAGTACCACAACCCCGACGGTGTGGAGCTCTCCGCCATTCTCTTCGGCGGCCGCCGCAAGACCACCATCCCCCTGGTCACCCAGGCCCGCGACTGGTCGAACGGCATCTTCATGGGCGCAACGCTGTCCTCGGAGACCACCGCTGCTGCAGCCGGTGCCGTGGGCGTGGTCCGCCGCGACCCGATGGCCATGCTGCCGTTCATCGGCTACGACGCGGGTGACTACCTGAACCACTGGGTCAACCTGTCCGCCAAGGCAAACCCCGCCCGCCTGCCGAAGATCTTCCTGGTCAACTGGTTCCGCCGTACCGCCGACGGCGGGTTCGCCTGGCCCGGCTTCGGCGACAACGCACGTGTGCTCAAGTGGGCCATCGAGCGGCTCGAAGGCAAGGCCGATGCGGTCGAGACCCCCATCGGTTTCGTGCCGACGGGTGATTCGATTGACCTCACCGGACTGGACATGACCCCGGAGCAGGTCGAGGAGGCTGTCCACGTGGATCCGGCTGAGTGGCAGACCGAGCTGGCCTCGATTGAGGAATGGTTCGCGAACTTCGGCAGCTCGCTCCCCGAAGCCCTCCGCCAGGAACTTGAGGGCCTGAAGGCCCGCCTGGGCTGA	MGHLARLPLLEKAPTTHAGLLAWVEEVAGLTQPDRIHWVDGSEEENTRLTDELVAAGTLKRLNPELFPNSFAAFSDPADVARVEEQTFICSENEHDAGFTNNWMPPAEMKEKLRGLFSGSMRGRTMYVIPFVMGHLDAEDPKFGVEITDSAYVVASMRIMARIGTDVLDRITETNAFFVPALHSLGAPLEPGQADVPWPCNPDKWIVHFPEERSIWSFGSGYGGNALLGKKCYALRIASVMAHDEGWLAEHMLILKLTSPEKKTYYVSAAFPSACGKTNLALLDPTIEGWKVETLGDDITWMRFGKEGELRAVNPEAGLFGVAPGTGWGTNPNAMRAIAKGNSIFTNVALTDDGGVWWEGMTEDVPAHLTDWQGSSWTPESGKPAAHPNSRFCTPIDQIDMLAEEYHNPDGVELSAILFGGRRKTTIPLVTQARDWSNGIFMGATLSSETTAAAAGAVGVVRRDPMAMLPFIGYDAGDYLNHWVNLSAKANPARLPKIFLVNWFRRTADGGFAWPGFGDNARVLKWAIERLEGKADAVETPIGFVPTGDSIDLTGLDMTPEQVEEAVHVDPAEWQTELASIEEWFANFGSSLPEALRQELEGLKARLG	PGPT0019595_1415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019595-pckA-K01596	NA	NA
D1-17_03288	336			hypothetical protein	ATGGACGTGATGGAGGCCGGCCAGCTCGCGGCCATAGAAGAGTCCGTGGTCCGCATGGAGGACCTCGCAGCCATGGGCGAGCCGTTCGTGGAGGCGGATTCTGATTTTCACAGCAGACTCTTTGCACCCCTGAACAACGAACTGCTGCTTAACCTGCTGGGCGTCTTTTGGAAGGTCTACCGGAAGATCCACACGGAGATCGGGCCGGGCATTGAGGACCTGCCGGCCTTGGCCGCCCTGCACCGTGACATTTATACGGCGGTGGCTGCCGGGGACAAGGCCAGGGCAGCTGAAGAGCTGGGCCGGCACTTCGCGGGGATCCGCCGGCCTCGCTGA	MDVMEAGQLAAIEESVVRMEDLAAMGEPFVEADSDFHSRLFAPLNNELLLNLLGVFWKVYRKIHTEIGPGIEDLPALAALHRDIYTAVAAGDKARAAEELGRHFAGIRRPR				NA	NA	NA	NA	NA
D1-17_03289	372			hypothetical protein	ATGGTTCCGCCTGCCCGGTTCAGTGCCCAGGCTCGTCTCCGTGCCCTCCAGTCCGACATCATGGAGCTGATCCTGCAACGCGAACTGGAAGTGGGGGACGCCCTGCCCACCGAAAATGAGCTGTGCGTGGCCCTGGGGGTCGGGAGGAACACGCTGCGCGAATCGCTCAAGGTGCTCCAGGCCCTGGGCGTCATCGAGGTCCGCCAAGGCTTCGGCATGTTCGTTGCGCCGAGCAATTTCGAGGCGCTTGCCGACGGGCTCATCTTCCGCGGCAGACTGTCACTGCGCCACCACGGGCTCGAAGCGCTGCAGCTCGTGGACGTGCGCCAGGCGCTGGAGTCGGGGCTCATCGGAAGTTCAAAATGGACGTGA	MVPPARFSAQARLRALQSDIMELILQRELEVGDALPTENELCVALGVGRNTLRESLKVLQALGVIEVRQGFGMFVAPSNFEALADGLIFRGRLSLRHHGLEALQLVDVRQALESGLIGSSKWT				NA	NA	NA	NA	NA
D1-17_03290	1461	lpd	COG1249	Dihydrolipoyl dehydrogenase	ATGTCGCCACAGGCCGTTGAGCGGGAATTTGATGTAGTTGTGATCGGAGCGGGTGCCTCCGGGGAAAACGTGGCCGACCGGGTGGTGCAGGGCGGTCTGACAGCCGTGCTGATCGAGGCCGAACTCGTCGGCGGCGAATGCTCGTATTGGGCCTGCATGCCGTCCAAGGCGCTGCTGCGGCCGGGCTCCGCCCTCCATGGGGCACAGGCGGTGCCGGGTGCCAGCGAAGCAGTCACCCAAACTCTGGATGCCGCTGCCGTTCTCAAGCGACGGGACTCGTTCGCTGCCAACTGGCAGGACGACAGCCAAGTGGCTTGGGTGGACGGCGCCGGCATCGAACTGATCCGGGGCAAGGCCCGGATTGCTGCTCCGCGATCCGTAAAAGTAGCCGGACTGGATGGCATTGCCCACACGCTCGCGGCGCGCCACGCCGTCGTACTTGCCAGCGGCTCCACGCCCAACACACCCCCGGTCGAGGGCCTTTCCGACGTCCGGTTCTGGGGCACGCGCGAAGCCACCTCCGCCAAGGAGGTGCCCGAACGCCTTGCCGTTTTGGGCGGCGGCGTATCCGGCACGGAGCTCGCCCAGGCCTTCGCACGCCTCGGATCGGCCGTCACGCTCGTGGCCCGCGCCGGCCTGCTGGGCAATTTACCGGCAGAGGCAGCACAGCTGGTGGCCGCCGGACTCCGGGCTGACGGAGTGGAAATCCGCCTCCACACCACAACCGAGCGCGTCCGCCAGAACGACGACGGTTCACTCACCCTGACGCTTGACGACGGCAGCACCGTGACGGCGGACAGGCTGCTGGTGTCCACCGGGCGGCGGCCGGCGCTGGACGGACTCGGCCTGGAGAACGCCGGACTCGCTGCCCGGGATGGAAAGCCCCTCACCCTCAGCACCGACTCAACCGGACTGGTGAACGCCGCTGCCGGAAACGAGCAGGGCCCGTGGCTGTACGCTGTTGGCGATGCTGCCGGCAAAGCCCTGCTCACGCACCAGGGGAAGTACGAGGCACGTGCCACCGGCGCCGCGATCGCCGCACGTGCCAAGGGAGAGCTGCAAGGAACCCCCGAGCCGTGGAGCCGCTATGCCCAGACCGCCGACGAGCACGCCGTTCCCAGTGTGGTGTTCACCGACCCCGAGGTGGCTAGCGTCGGCCGCTCCGTCGAGCAGGCGCGGAAGGACGGCTACAGCGTCGCGTCGGTGGAACTGCCCATCGCCGTCGCGGGCTCGTCCCTGCACGCGGACAACTACGACGGCTGGGCACAGCTCGTCATCGACGAGGAACGGAAGGTACTCTTGGGCGCCACCTTTGCAGGCCCCGACGTCGCGGAGATGCTGCACGCGGCAACCATAGCCATTGTGGGCCAGGTGCCGGTGGGCCGCCTCTGGCATGCGGTCCCCTCCTACCCCACGATCAGTGAGGTGTGGCTGCGGCTGCTTGAAAAATACGGCCTCTGA	MSPQAVEREFDVVVIGAGASGENVADRVVQGGLTAVLIEAELVGGECSYWACMPSKALLRPGSALHGAQAVPGASEAVTQTLDAAAVLKRRDSFAANWQDDSQVAWVDGAGIELIRGKARIAAPRSVKVAGLDGIAHTLAARHAVVLASGSTPNTPPVEGLSDVRFWGTREATSAKEVPERLAVLGGGVSGTELAQAFARLGSAVTLVARAGLLGNLPAEAAQLVAAGLRADGVEIRLHTTTERVRQNDDGSLTLTLDDGSTVTADRLLVSTGRRPALDGLGLENAGLAARDGKPLTLSTDSTGLVNAAAGNEQGPWLYAVGDAAGKALLTHQGKYEARATGAAIAARAKGELQGTPEPWSRYAQTADEHAVPSVVFTDPEVASVGRSVEQARKDGYSVASVELPIAVAGSSLHADNYDGWAQLVIDEERKVLLGATFAGPDVAEMLHAATIAIVGQVPVGRLWHAVPSYPTISEVWLRLLEKYGL				NA	NA	NA	NA	NA
D1-17_03291	621			hypothetical protein	ATGAGCCACATGGGTAGGAGCGGAAAGACAGCGGTCGGAGCGTTTTTCGCCGCCCTCGGCATGCTGGTGCTGACTGCCATCACGCTGGAAGAAGCCGTGCTGTTCACCTTCCTTGGGCTCCTGGCTGTGGGCTATGTGGCGTCCGTAGCGGAAGCGTTTGCCCGCCGCCGCTATCTTGCCCTGCTGGTCGGCGCCGCCGGGACGAGCCTTTTCATCGGGTGCGGCATGGCGTTCCTGCGGATGTGGGGGCTGGCGTTCACTGATACTCCTTCCACTCTGGGCAGGGCGGTATCTACGACAGACCCGGATATCTACTTCTATCTGGCTGCCGCCGCGGGAACAGTCACGCTGCTCGTGCTGTTTGGCGCCGCGACGTGGCCGGGACGCCGCCGCGCGGCCCGCCCTTCACGCGCCACTGTGGGGCAACGGCGCGCGGCGCCGTCTTCTGCCGCCCGGTCACCCGCTGCACGGCGTCCGGCTCCACAGCGGCAGGCCACACAACGTCAAACGCCGCAGCGCCAAGCCACGCAACGTCAACCGCGACAGCGCCAGGCCACGCAACGTCAACCGTCCCAGCATCAGGTGCAGCGGACCCAGCGGCCTCAGCGGAAGACGCTGTAG	MSHMGRSGKTAVGAFFAALGMLVLTAITLEEAVLFTFLGLLAVGYVASVAEAFARRRYLALLVGAAGTSLFIGCGMAFLRMWGLAFTDTPSTLGRAVSTTDPDIYFYLAAAAGTVTLLVLFGAATWPGRRRAARPSRATVGQRRAAPSSAARSPAARRPAPQRQATQRQTPQRQATQRQPRQRQATQRQPSQHQVQRTQRPQRKTL				NA	NA	NA	NA	NA
D1-17_03292	1431			hypothetical protein	ATGCTTGATTCTGTTTTGTTACGGTGGCGGGCGGATGCGCGGCGGTTCGCCGCCGTCGTCGTGGTTTTGGCTCTCTTCCTGGCAGGCGCACCGGGTGCCCAAGCTGCGCCCGCAGGCGAGCAGCTGTCCACCAGTGTGGTGACCACGCCCACCCATCCCTGGGTGCTTGTGAACAAGTCCCGGCCCCTGAACCCGATTCAGTTCGTTCCGTCGGATCTGGTGTATTGGAACGGCACCGGCCACCGGCTCAGGAGGAGTGTTTCGGCCGCGGCGAATCAGATGTTCACCGGTGCGCGCGCTGCCGGGCACTCGCTGGAAGTGATCAGCGGTTACCGTTCCTATGCCACGCAGCGGGACCTGTACAACTACTATGTCCAGACTTATGGCCAGGCCTACGCTGACCAGATCTCCGCCCGCCCTGGCCACAGCGAGCACCAGACCGGCCTCGCCATGGATGTCGGCAACGTGGGCGGAGGCTGCGGCCTGACCGCCTGTTTTGGGGACACGGCCGGCGGCCGCTGGGTTGCGGCAAACGCACACCGCTACGGTTTCATCGTCCGGTACCCGCAGGGCTACACGCACATCACGGGATACGCGTACGAGCCGTGGCACCTGCGCTATGTAGGGGTCGCGCTCGCCACCGATATGAAAGTCCGCAGCATTCCGACCATGGAGCAGTTCTTCTCGCTTCGACCCACGATCAAGAGCGCAGCGGACGTGCTCGCGGCCGATTCAAGCGGAGCACTCTGGAACTACCCGGCCAACGGCCGGGGCGGATACGGTCCGCGGGTGAAGATCGCCAGCGCCGGATGGACCGGGCTGAAAGCAGGCTTTGTGGCGGACTGGAACTCAGACGGAATCAACGACATTGTGGCCCAATGGAACAGCGGCCGGCTTGCGGTCTACCGCGGCAAGGGTGCCGGCGGTTTCCTCAGCCCGATCATCGTCGGAGCGACCGGCTGGCAGCCCATGAACATCACTGTCGGCAAGTGGCACAACGGTCACCGTTACCCGGGCGTCGTGGGCACCGGCGCCGGCGGCGTCCTGGTCTACTACAGGAACACCGCCGGCGGCGCCCTGAGCACGCCCCAGCGCGTGGGTTTCGGTTTCGAGGGGACGAAACTGACTATGGCGGATTTCGATAACGACCGCCGGCAGGATCTCCTGGTCACTAAGCCAACGGGCGAACTCCTGCTCTACCGGTCCGACGGGTCCGCCCGGCTCCTGCCCGAGGCGCGGCGGAAGCTGGGGAATGGCTGGCACGTCATCGCGCAGTCACACGCCTCCTTTGGATTCCTGGGCACAGAAACACGGGGCCTCGCCGCGAAAACCACGGACGGACGGCTGTTCTACTACGGCCTCCGAACCAACCAGTTCACGTCAACCCGCCAAGTGGGCAACGGATGGGGCGCCTACAGCGTCTTCCGCTGA	MLDSVLLRWRADARRFAAVVVVLALFLAGAPGAQAAPAGEQLSTSVVTTPTHPWVLVNKSRPLNPIQFVPSDLVYWNGTGHRLRRSVSAAANQMFTGARAAGHSLEVISGYRSYATQRDLYNYYVQTYGQAYADQISARPGHSEHQTGLAMDVGNVGGGCGLTACFGDTAGGRWVAANAHRYGFIVRYPQGYTHITGYAYEPWHLRYVGVALATDMKVRSIPTMEQFFSLRPTIKSAADVLAADSSGALWNYPANGRGGYGPRVKIASAGWTGLKAGFVADWNSDGINDIVAQWNSGRLAVYRGKGAGGFLSPIIVGATGWQPMNITVGKWHNGHRYPGVVGTGAGGVLVYYRNTAGGALSTPQRVGFGFEGTKLTMADFDNDRRQDLLVTKPTGELLLYRSDGSARLLPEARRKLGNGWHVIAQSHASFGFLGTETRGLAAKTTDGRLFYYGLRTNQFTSTRQVGNGWGAYSVFR	PGPT0024055_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024055-vanY|yodJ-K07260	NA	NA
D1-17_03293	528		COG2062	putative protein	ATGAGTGCTCACCATAAGAAGCGACTGGTCATTATGCGCCATGCGAAGGCCGACTGGCCGGGCGGCGTGGCTGACCACGACCGTCCCCTGGAAGCACGGGGTCACCGGGAGGCCCCCTTGGCTGGCAAATGGCTGCTGAAGCACAACATTGTCCCCGACTTCATCCTGTGTTCGAGCGCGTTGCGGACCCGCCAGACCTGCACCTGGGTGTGCAGCGAGCTGGGCGACAAGGCTCCGACGCCGAAACTGGAGGACGGCCTCTACGGCGCCACCGCGCTCCGCATGTTGTCCGTCATCAACCATGTGCCGGACACAGTGACCACCCTCATGGTGATCTCGCACATGCCCGGGGTCCAGGACCTGGCCATGCACCTGGCCTCGCGGGACTCGAATCACGACGCCTACATGGACGCCGCCACCCGCTTTCCCACCAGCGGACTCACAGTCCTGGAAACCGAGAAATCCTGGGCAGAGCTGGACGGGCAGGACGCACGGATCACCCACTTCAAAGTGCCCCGGGCGCACTAG	MSAHHKKRLVIMRHAKADWPGGVADHDRPLEARGHREAPLAGKWLLKHNIVPDFILCSSALRTRQTCTWVCSELGDKAPTPKLEDGLYGATALRMLSVINHVPDTVTTLMVISHMPGVQDLAMHLASRDSNHDAYMDAATRFPTSGLTVLETEKSWAELDGQDARITHFKVPRAH				NA	NA	NA	NA	NA
D1-17_03294	873			hypothetical protein	ATGTCAGTTGCATCTGGATACGTCCACATCTCCGTCCGTAACGCCAATAAGGCAGGCCAGGCGCAGGGACTGCGCCAAGGCTTCGGGGCCCGCCCGGCGTTCCCCGGCAGCCAGGTCAGCAGCGCCCCTGCACCCGGCTATGCGCCGCAGGGTTACAACCCTAATTCCTATGGCCAGCTGCGCGCTGTGCCGACCGAGGAAGCTGCCCCGCTGACGGCCCCGACCCCCGTCCTGGCTCCCGGAGCCGGCGCCGCAGTCCGGCCCGTGCAGAACGACAACGTTGCGCGTGGCTTCGTCCTCTACATGGGCATCGATGAGGAGACCGCCGCGGCCGCGGGGACCTCGATCGCAAAGCTGGCCCAGGAGATCCGGGCGTACGCGCAGTCGCTCGTTACCGGCGCAGAAAGCTATGCAGCCGTCGCAGTAGCGCCGGCCAGCGCTCCCGGGTCCGCGCTCGACGTCGTCCGCTCCACCTTCGGTGACCCCACCGTCAACACAAGACAGCAGCGCCCCGAAACCACTCGCCTACAGCCTGCCCAGGATCCCCGCCCTTCCGGCGTCCTGATCGACCTCGCCCGGCGTGAGGTGCACCTCGACGGCGAATCGCTGAACCTGACTTTCAAGGAGTTCGAACTGCTGAACTACCTCGTCGAGAACGGAACGCGCACGGTGGGCCGCGATGAGCTGCTGGAAGGCCTGTGGCGCAATGCGGAGGAAGTGCCGAATGAGCGCACCATCGACGTTCATATCCGCCGCCTCCGTTCGAAGCTGGGCCGACTGGCCAACACCGTCCGGACTGTCCGCGGCCAGGGATACCGCTTTTATGAGCACCCCGAAGTGGTTGTTTGGGCCGCTCCGGAATACTCGATCTAG	MSVASGYVHISVRNANKAGQAQGLRQGFGARPAFPGSQVSSAPAPGYAPQGYNPNSYGQLRAVPTEEAAPLTAPTPVLAPGAGAAVRPVQNDNVARGFVLYMGIDEETAAAAGTSIAKLAQEIRAYAQSLVTGAESYAAVAVAPASAPGSALDVVRSTFGDPTVNTRQQRPETTRLQPAQDPRPSGVLIDLARREVHLDGESLNLTFKEFELLNYLVENGTRTVGRDELLEGLWRNAEEVPNERTIDVHIRRLRSKLGRLANTVRTVRGQGYRFYEHPEVVVWAAPEYSI				NA	NA	NA	NA	NA
D1-17_03296	852			hypothetical protein	ATGTCTGAATTCAAGGCACAGTCGCGCCCTGATCGCGCTTCCCAGCAGTCCAGCCGTAAGATTTCACGCCACCGCGCCGAGTCCGCCCGCCCCGCATCTGCCTGGGGCCGGCTCACCGCGAACATCCCGTCATTGGGCCGCCGCACGGCAGTGCTGGCCACCGCCTGCACGGTCCTCGTAGGGGTCGGCGCCGCAGGGCAGGCGGCCGAGCAGACCACTCCCCAAGCGACGTCCGAGGCGGCTCCGGCCGCAGCCGACGCCATTGAAACGCTCAGCTTCGACAAGACGCTGATTTCCGCTTTGCCGTCCCCGACGGCAGCCTCGGTTGCACCGCAGTCCGTCACCAAGCCTGCACCCAAGGCCACGCAGAAGGCCGCACCGGCACCGGCCAAGGCTGCACCGGCCAAGGCCGCTCCCAAGCAGGCTGTGAAGGCTGCCCCCGCACCGAAGCCGGCCGCTGCTCCGGCAGCGAAGGTCGTTCCCGCCAAGGTTGCACCAACTAAGCCTGCCCCGGCCCGCAAGCCCGCAGCTCCGGTCGCTGTCAACGACCCGGCCGGCGCCCAAGCCTACGCCGCCGGAAAGCTGTCATCCTACGGCTGGGCTCCGGACCAGATGCAGTGCCTGAAGAAGCTCTGGACCAAGGAGTCCGAATGGCGCACCACCGCCACAAACCCCAGCAGCGGGGCCTACGGCATTGTGCAGTCCCTGCCCGCTGAAAAGATGGCCAGCTCCGGGGCCGACTACCGCACCAACTACCGCACCCAGATCAACTGGGGCCTGGGCTACATCGAGGAGCGGTACGGTTCTCCCTGCCAGGCGCTGAACTTCCACTACGCCAACAACTGGTACTAA	MSEFKAQSRPDRASQQSSRKISRHRAESARPASAWGRLTANIPSLGRRTAVLATACTVLVGVGAAGQAAEQTTPQATSEAAPAAADAIETLSFDKTLISALPSPTAASVAPQSVTKPAPKATQKAAPAPAKAAPAKAAPKQAVKAAPAPKPAAAPAAKVVPAKVAPTKPAPARKPAAPVAVNDPAGAQAYAAGKLSSYGWAPDQMQCLKKLWTKESEWRTTATNPSSGAYGIVQSLPAEKMASSGADYRTNYRTQINWGLGYIEERYGSPCQALNFHYANNWY				NA	NA	NA	NA	NA
D1-17_03297	681	gph_3		Phosphoglycolate phosphatase	ATGAGACTTCCCGCTGAATCCACCACCATCACGCTGACTGCCCGTGCTGTCCTGTTTGACATGGATGGCACACTGGTGGACTCCACTGCGGTGGTGGAACAGGTCTGGGGCGACTTTGCAGCACGTTACGGACTGGACATCGCCGAGATCCTGCGGACATCCCATGGGATCCAGGCCGGGGACACCGTGCGGCGTTTTGCCCCGGAGGGATCGGACGTAGTGGCATTGACCGCCGAGCTGGGCGCCATGGAGCGGGTCCGCACGGAGGGCATTGTTGCCTTGCCGGGTGCTGCTGACCTGTTGCGGAGCCTGCCTGCCGACGCCGTGGCACTCGTGACGTCCGCGGACCGCGTCCTAGCTGACATCCGGATGGAAGCAGCGGGACTGGGCATGCCGGCCACGGCCGTCACCGCGGAGCTTGTCACCCGGGGCAAGCCCCACCCCGAAGGATACCTGCGGGCCGCCGAACTGCTGGGCGTGGATCCTGCGGACGCTGTGATTTTCGAAGACGCCCCCGCCGGCATTGCGGCTGGACGGGCCGCAGGCATCCGGACCATAGCGGTAGGCATGAACACCGGTGAAGTGCCCGACGACGTGCTCCGCATAGCCGACTACGCCTCGGTCAGGGCGTCCGTGGCAGCGGACAGCCACGGCAGCAGGGTCATTTCCCTCAGCCTCTAA	MRLPAESTTITLTARAVLFDMDGTLVDSTAVVEQVWGDFAARYGLDIAEILRTSHGIQAGDTVRRFAPEGSDVVALTAELGAMERVRTEGIVALPGAADLLRSLPADAVALVTSADRVLADIRMEAAGLGMPATAVTAELVTRGKPHPEGYLRAAELLGVDPADAVIFEDAPAGIAAGRAAGIRTIAVGMNTGEVPDDVLRIADYASVRASVAADSHGSRVISLSL	PGPT0018405_69	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018405-hxpB-K19270	NA	NA
D1-17_03298	183			hypothetical protein	ATGGACCGGAAACTTGAACTCGTTTTCGTCCCGGTATCCGATGTGGACCGCGCCAGGAACTTCTATGTCAACAAGGTGGGCTTCAATGCGGACTATGACGGGCGGGCAGTAAAAGGAATCCTTTTCGTCCAGTTGACCCCGCCGGGCGAAGTCAGGGCTGATGAGGCAGGATGGAAGCCATGA	MDRKLELVFVPVSDVDRARNFYVNKVGFNADYDGRAVKGILFVQLTPPGEVRADEAGWKP				NA	NA	NA	NA	NA
D1-17_03299	636	upp	COG0035	Uracil phosphoribosyltransferase	ATGCGCACACTCGTCGTGGATCATCCCCTGGTCGCCCACAAGCTCACCGTCCTGCGGGATAAGCGCACTTCCTCGCCGGGATTCCGCCAGCTGACGGAGGAGCTCGTTACGCTCCTCGCCTATGAGGCCACCCGGGATGTCCGGACCGAGCCTGTCACCATCGAAACCCCGGTTGCCAGCACCGTGGGAACTGCCTTTACCAAGCCCACCCCGCTGGTTGTTCCGATTCTCCGGGCAGGCCTGGGCATGCTCGAAGGCATGACCAAGCTGGTTCCCACCGCCGAGGTCGGCTTCCTGGGTATGGCCCGCGATGAGGAAACCCTCGACATCATCACCTACGCGGAGCGGCTGCCGGAGGACCTCACGGGCCGGCAGATCTTCGTGCTGGACCCCATGCTTGCCACCGGCGGCACCCTGCGCGAAGCCATCAAGTTCCTCTTCAAGCGCGGAGCGTCCGACGTGACGTGCATCTGCCTGCTGGCAGCCCCGGAAGGCCTGGCGAAACTTGAAGAAGAACTTTCCGGCGCAAACGTAACGATCGTGCTTGCCTCGATCGACGAGAAACTGAACGAGAAGTCGTACATCGTGCCCGGCCTCGGTGACGCCGGCGACCGCCTGTACGGCCCCGCGCATTAG	MRTLVVDHPLVAHKLTVLRDKRTSSPGFRQLTEELVTLLAYEATRDVRTEPVTIETPVASTVGTAFTKPTPLVVPILRAGLGMLEGMTKLVPTAEVGFLGMARDEETLDIITYAERLPEDLTGRQIFVLDPMLATGGTLREAIKFLFKRGASDVTCICLLAAPEGLAKLEEELSGANVTIVLASIDEKLNEKSYIVPGLGDAGDRLYGPAH	PGPT0021240_2153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
D1-17_03300	906			hypothetical protein	ATGAAATCTCTGACAGATCGATTTGGCCGGTGGCTGGGACCGTACGCCGCTTTGTGGATCACGCTCATCGTGGGCGGTTTCCTGGTGATCACGCTGGCGCTGCTCGGGGCGGAGGTCTACCAGGACGTTGTGGCCAAGGATGGGGTTTCCGGCCTGGACCGGCCCGCCCTTGAATTGGCCAAGCAGTACCGGAACCCGGGGGTGGATGCCGCAGTCACGGCGTTCACCAATATAGGTGGCGGCATCGGCATGCCCATTCTCGCGAGCATCCTTGTCGCGTGGCTGACCTACGTGAGCCGCAGCTGGCGTCCCCTCATTCTTGTCGGCGGCGCGGCGGCGGTTTCAGTCACCGCAACTACCGTGGGCAAAACCCTGATGGGCCGGGTGCGTCCCGACCACCTGGACGCTGTTCCGCCTTTCGAATTCTCGCCCTCGTTCCCCAGCGGACACACCCTGAACACCACGGTGGTGATCGGTGTTGTGGTGTATCTGATGTGCCTGCAGATGGACAGAGCCAGGGTCCGGGCCGCCGTCATCACCGTAGGAACGCTGTTCATCATCGCCATGGGCCTGAGCAGGGTCTTTCTTGGACATCACTGGCTTACCGACGTTATGGCGGCGTGGTTGCTGGGACTGGCTTGGGTGGGCATCGTCATTCTCGCCCACCGGCTGTTCCACATGATCCGGCGGCGCGAGCATGCCGGGCCGGCACCGACCTTCGAGCATCCTGCACACCTCACCCCTGAGCCCGAGGGCGGCGGCGCCGGGGCAGAGGCTGCAGCTCCGGAGACGTCCGGCGTTCGCCATGGCAACGAGGCTGACAGGGAGGATCCGCGCGGCGGCGGCGATGGCGGCGGCGGCTCCCATGGCAGCCGAAGCCGGGGTGGGGAGCCATTGTCCGGGTGA	MKSLTDRFGRWLGPYAALWITLIVGGFLVITLALLGAEVYQDVVAKDGVSGLDRPALELAKQYRNPGVDAAVTAFTNIGGGIGMPILASILVAWLTYVSRSWRPLILVGGAAAVSVTATTVGKTLMGRVRPDHLDAVPPFEFSPSFPSGHTLNTTVVIGVVVYLMCLQMDRARVRAAVITVGTLFIIAMGLSRVFLGHHWLTDVMAAWLLGLAWVGIVILAHRLFHMIRRREHAGPAPTFEHPAHLTPEPEGGGAGAEAAAPETSGVRHGNEADREDPRGGGDGGGGSHGSRSRGGEPLSG	PGPT0024170_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
D1-17_03301	546	tadA	COG0590	tRNA-specific adenosine deaminase	ATGGGCCCGGCAGATCCGCAACACCTCGCATGGATGGGCCTCGCCCTCGAAGAAGCCCGGCGGGCGCTGGCCACCGAAGACGTGCCCATCGGCGCCGTCGTTATCGGCCCGAACGGCGCAGTCCTGGCAAGCGGCCGCAACGAACGGGAGGCGCTTGGGGATCCCACCGCCCATGCTGAGGTGGTGGCCATCCGAAGGGCCGCGGCAATGCTTCGGGAGCGCTCTGAGCTTCAGGGTGGGCGGAGTGACGGCTGGCGGCTCGAGGACTGCACCCTGGTGGTGACGCTGGAACCCTGCGCGATGTGCGCCGGGGCGATCGTGCTGGCACGGATCCACCGCGTGGTGTTCGGTGCCTGGGATGAAAAGGCTGGAGCTGCCGGGTCGGTGTTCGACATCCTCCGTGAGCGCCGCCTCAACCACTGGGTGGAGGTGTATGCAGGCGTGCAGGAAGAGGAATGCGGCGCGGTGCTGCGCGAGTTCTTCGCCGCGCATCGCAGGGTCGAACCCGCAAGAATCCAAGGTGCAGGTGATCCCCCGGGGACGTGA	MGPADPQHLAWMGLALEEARRALATEDVPIGAVVIGPNGAVLASGRNEREALGDPTAHAEVVAIRRAAAMLRERSELQGGRSDGWRLEDCTLVVTLEPCAMCAGAIVLARIHRVVFGAWDEKAGAAGSVFDILRERRLNHWVEVYAGVQEEECGAVLREFFAAHRRVEPARIQGAGDPPGT	PGPT0006855_74	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
D1-17_03302	1104	mshA_7		D-inositol-3-phosphate glycosyltransferase	ATGCAGTTCCGGCCGGCAGCCGTCCGCCTCCTCGTTCCCGGCAACATCCAGCACAACTCCGGCGGCAACGTCTACAACGCGTCCCTGATGGATGGGCTCGCCCGGTTGGGGGTCAGCGTGGCCAGCGAACCGGTGGAGGGTGAGTGGCCGGTCGCCTCCCCGGAAGACCGACGGCGGCTGGCTGGTCTGCTGGTGGCCGGCGCCGTCGGGCCCGGGACCGAGTCCCACGACGATTCCGACGGCGGAACGGTCACCGTTGTTGACGGGCTCGTCGCCTCCGGCGCGCCCGAGGCGTTGGAGGAAGCGGCGGCGGCCGGCCAGCGGCCCTGGATCCTGCTGCATATGCCGCTGCTTGACCATCCTGAGTTGGAGAGCCGATCGCTCCGCGCCGCTGCCGGGGTGATTTGCACGAGCAGTTCCGTGGCGGCGGAGATCACTCAGCGGCACAGCGCAACCCGAGTCCATGTCGCGCTGCCGGGAACCGAACCCGCTGGGCCGGCCGGAGGCTCGGATCCCCGCCACTTGATCTCCGTGGCGGCGTTGCTCCCGAACAAGGACCAGCTGACCCTCCTGCATGCCCTTGCGCTGGTGAAGGACCTGCCGTGGACTGCCGCCCTCGTCGGTTCCCAGGAGGCGGACCCGGACTACGCCGGGGCTGTCCGGGCGGCATGCAAGGAACTCGGGCTGCAGGACCGGGTGCGGATCGCCGGGGAAGTGACGGGCCAGGCGCTGGATAAGGAATGGCATGCCGCCGACCTCAGCCTGCTCGTTTCCAAGGTGGAAGCCTTCGGCATGGCCGTCACGGAGTCCCTGGCGCGCGGCCTTCCGGTTGTGGTCCGGTCCGGCACCGGGGCAGTGGAGGCCCTGAGCCTGGGGGCCGTGGAGAGTACAGCAGCGGGAGGCGGCACCACTGCATTGCCAGGGGCCGTCGTCGTCCTTGGCTCAGACCCCGCCCCGCTCGCGGCTGTACTCCGCGACTGGCTTACGTCACCTGAGCTGCAGGCGACGTGGCGCCGCGCGGCGCTCGCTGGAAGGGAACGGCTGCCCGGCTGGGACGCAACCGCCCGCGGTGTCCTTGACATCATCAGCCGCGAAGAGCTTTAG	MQFRPAAVRLLVPGNIQHNSGGNVYNASLMDGLARLGVSVASEPVEGEWPVASPEDRRRLAGLLVAGAVGPGTESHDDSDGGTVTVVDGLVASGAPEALEEAAAAGQRPWILLHMPLLDHPELESRSLRAAAGVICTSSSVAAEITQRHSATRVHVALPGTEPAGPAGGSDPRHLISVAALLPNKDQLTLLHALALVKDLPWTAALVGSQEADPDYAGAVRAACKELGLQDRVRIAGEVTGQALDKEWHAADLSLLVSKVEAFGMAVTESLARGLPVVVRSGTGAVEALSLGAVESTAAGGGTTALPGAVVVLGSDPAPLAAVLRDWLTSPELQATWRRAALAGRERLPGWDATARGVLDIISREEL				NA	NA	NA	NA	NA
D1-17_03303	393			hypothetical protein	GTGTTCAGCCTGACCGTCCGACGCCACTTCATGATCGCCCACAGCCTGCCCCGGGAAGCTTTCGGGCCGGCCCAAGCCCTGCACGGGGCGACCTTCGTGGCCGAGGTGGCCTTCCGCCGTCGTGCACTCAACGATGAGGCCATCGTCCTGGACATCGGCGCGGCCGGCGGGATCCTCGAAGAGGTGCTCGCCGGGCTCAACTACCGCAACCTGGACGAGCACCCGGACTTTGCGGGGAAACTGACCACTACGGAAGCCCTGGCGCAGTACATCGCCGAGGCGGTGGCCGAGCGGCTGCGGAACGACGAGGACGGCCGCGAACTGTCCGGCCTGGACGTCACCTTGCGGGAGAACCCGGACGCCTGGGCATCCTATGCCCTCGACTTGTCCTAG	MFSLTVRRHFMIAHSLPREAFGPAQALHGATFVAEVAFRRRALNDEAIVLDIGAAGGILEEVLAGLNYRNLDEHPDFAGKLTTTEALAQYIAEAVAERLRNDEDGRELSGLDVTLRENPDAWASYALDLS				NA	NA	NA	NA	NA
D1-17_03304	1149			hypothetical protein	ATGGCGCCCAACCCCAAAACGTCCCCTCAGAACCGGGGGGTTAGCCATCAGCACTGGAACAGGAGGCCGCGCCGTGAGTCTGCTTTCGCCCGCGGGCAGCCGGGCGTTAGATTCATAAGCAAGATGACTACTTCCCAGCAGCACGCAGAAGCAATCGCATATTGGACCACAGGCCCGAACCAAGGCGAGATCCGCGCCGAGGAGCTCCAGCGCCCCGGTCCGGATGAGGCCCTCGTCCGAACGCTGTATTCCGGCATCAGCAAAGGCACGGAGCTCGTGGTGCATCGCGCTGCGGTGCCGCCGTGCGTCGCCGGGCGGATGCGTGCCCCATACCAGGAAGGTTCTTTCCCTGCCCCCGTAAAGTTCGGCTATCTCTCGGTGGGAATCGTTGAGGAGGGTCCGGGGGACTGGCCAGGCCAGGCCGTGTTTTGCCTGCATCCGCACCAAGACCGGTACGTCGTCCCCGTCTCGGCGCTGACCCGCATTCCCGACAACGTCCCTCTCCGCCGGGCCGTGCTCACCGGCACCGTGGAAACCGCCGTGAACGCGTTGTGGGAGGCAGGGCCGCGGCTGGGGGACCGTATCGCCGTGATCGGTGCAGGCCTGGTCGGCGGGATGGTGGCGACTCTGCTGCGCACCTTCCCGCTGGCCAGGCTCCAGCTCGTGGACGTGGACCCGGCCCGCAAGGACCTTGCCGACGCCCTCGGCGTGGAGTTCGCCCATCCGGATAACGCCCTGCCCGACTGCGACATCGTGTTCCACTGCTCGGCGTCCGAAAGCGGCCTGGAACGCAGCCTGAACCTCGTCGGCGACGAGGGCGAAATCATCGAGATGTCCTGGTACGCCGACCGCAAGGTGACGCTGCCCCTGGGAGAGGACTTCCACGCCCGCAGGCTCTCCATCCGGGCGAGCCAGGTTAGCGAGGTGGCGCGGGCACGGCGCCACCGCCGCACCAACGCCCAGCGCCTCGAAACGGCGGTGGCGCTGCTGACGGACCCGGTTTTCGACGCTTTCCTCACCGGCACATCTGCGTTCAAGGAACTGCCCGACGTCGTCCAGCGGCTGTCGGACGGGACGTTGCCGGCGCTGTGCCATGTCATCGAATACCCGGCAGACATCGAATATCCAACTACAGAAACCACGAGGTAA	MAPNPKTSPQNRGVSHQHWNRRPRRESAFARGQPGVRFISKMTTSQQHAEAIAYWTTGPNQGEIRAEELQRPGPDEALVRTLYSGISKGTELVVHRAAVPPCVAGRMRAPYQEGSFPAPVKFGYLSVGIVEEGPGDWPGQAVFCLHPHQDRYVVPVSALTRIPDNVPLRRAVLTGTVETAVNALWEAGPRLGDRIAVIGAGLVGGMVATLLRTFPLARLQLVDVDPARKDLADALGVEFAHPDNALPDCDIVFHCSASESGLERSLNLVGDEGEIIEMSWYADRKVTLPLGEDFHARRLSIRASQVSEVARARRHRRTNAQRLETAVALLTDPVFDAFLTGTSAFKELPDVVQRLSDGTLPALCHVIEYPADIEYPTTETTR				NA	NA	NA	NA	NA
D1-17_03306	552			hypothetical protein	GTGAGCAGCAGTGACTATGAGTTCCGGACAGTATGGCGGGTGGCCGCTACGCCGGATGAGGTCGTAGCCGTCCTCAGAGACGCCACCGCACTTCCGGAGTGGTGGCCTTCGGTCTACCTATCCGTGGAGCCCCTACACCGCGGGCGGGACGGCGGAGTGGGAGGAATGGCCAAGCTTCACACCAAAGGCTGGCTGCCCTATACGCTGCGATGGACGCTGACCGTCACCTCCCCAGTCACCAGCACAGGCTTCAGTATCCGGGCTACCGGGGATCTCAACGGCACCGGCCACTGGACTTTCGAGCAGGACGGCCCGGAAACCGTCATCACCTACGACTGGCAGGTCAGTGCAGCCAAGCCACTGCTCCGGCGCCTGGGCTTGCTCCTGAAACCCGCCTTCGCGGCGAACCACCGATGGGCCATGGAACGGGGGCACGAAAGCCTCGCCCTGGAACTACGCCGGCGGCGCAGCGGCGTTGATCTGCAGGGCGTCCCCACGCCACCGCCGCCCACGTTCCCGCGGTTGGCGGGGCGTGGGCGGCGGAAGGCCTAG	MSSSDYEFRTVWRVAATPDEVVAVLRDATALPEWWPSVYLSVEPLHRGRDGGVGGMAKLHTKGWLPYTLRWTLTVTSPVTSTGFSIRATGDLNGTGHWTFEQDGPETVITYDWQVSAAKPLLRRLGLLLKPAFAANHRWAMERGHESLALELRRRRSGVDLQGVPTPPPPTFPRLAGRGRRKA				NA	NA	NA	NA	NA
D1-17_03307	3141	czcA_2		Cobalt-zinc-cadmium resistance protein CzcA	ATGCGCGGGATTGTCGGGTTCAGCCTGAAGTTCCGCGCCTTGGTGGTGGCCATCGCGGTGGCAATGATGGCGTTCGGCGGCGTTCAGCTCAGCACGGCCTCTGTGGATGTCTTTCCAGAGTTTGCGCCGCCGAAGGTGGAGATCCAGACCATTGCCATTGGTCTGACCGCTGCCGAGGTGGAGCAGTTGGTAAGCGTTCCGCTCGAAGACGCCCTCACCGGTGTCGAGGGGCTGGACGAGATCCGCTCCAAGTCCGTGGAGCAGTTGTCCTCGATTGTGCTGATTTTCGCCCCGGGGGCGGACCTGCTCAAGGCCCGCCAGCTGGTCTCGGAGCGCATCGCCACCATCACGCCGTCGTTGCCCACCTGGGCGTCGCCGCCGATGATGCTGCAGCCGCTGTCATCCACAAGCCGGGTCATGAAGATCGGCCTGACGTCGGATGAACGTTCGCTGATTGAAATGTCCATGATCTCCTACTGGAAGATCCGGCAGCACCTGTTGCGTGTTCCGGGCGTGGCTAACGTCGCCATCTGGGGCGAGCGTCTGCAAATGCTGCAGGTGCAGGCGGTTCCGGAGAAGATGAAGGCCCACGATGTCAGTATCAACCAGGTCATGGATGTCACCGCTAATGCCCTGGACGCCGGCCTGCTGCAATACACGCCTGGGGCCGTCATCGGCACCGGTGGCCACATTGAGACGCCGAACCAGCGGCTGAGCATCCAGCACGTGCTGCCCATCGCCACCCCCGAGGATCTCGCGGAGGTCGTCATCGAGGAACGGAACGGCAAGCCGCTTCGCCTAGGTGACGTGGCCAATGTGGTCGAAGACCACCAGCCGCTCATTGGCGACGCCGTGATCAATCAGGGCCCAGGGCTGATGCTCATTGTTGAGAAACTTCCGTGGGGCAACACCCTGGAGGTCACCAAGGGCGTGGAGGCAGCGCTTGAACAGATGAAGCCCGGACTCAGCGGCATCACCATCGACACGGAGATTTTCCGTCCGGCGACCTTCATCGAGGAGTCCATTGACAACCTCAGCCGGGCGCTGCTGTTGGGCTGTCTCTTCGTGGTGCTGGTGCTGGGAGCGTTTCTCTTCCAGTGGCGGACCGCGCTGATCAGCCTGATCGCCATCCCGCTGTCGCTGGTGACGGCGGCGTCCATTCTCTATATGACCGGCACGGCGGTGAACACCATGGTCCTGGCCGGGTTGGTGATTGCCGTCGGGGTGGTGGTCGATGATGCCATCATCGACATTGAAAACATCATCCGAAGACTCCGGCAGAACCGGGCGGAGGGCGGAACACGTTCCACCACCTCGGTGGTGCTGGAGGCCTCCCTGGAGGTCCGCGGACCGATCGTCTATGCCACGCTGATCATTATCGCCGCGGCTGTGCCGATCTTCTTCCTTCAAGGGTTGACCGGCGCGTTCTTCAGGCCGCTGGCCATTTCCTACACCGTTGCGGTGCTGGCATCGATGGTTGTGGCCTTGACAGTGACCCCTGCCCTGGCGCTGATCTTTATGCGCAAGGTCCCGCTCAAGGAGCAGGAGCCGCCCCTGGTCCGGGTGCTCAAGGGTGGCTATCAGCGGATCCTGCGCAAGATCGTCCGGCGCCCGGCGGCAGGTTACGCGACCTTCGGCGCGATGGCGGCCGTCGGGGCCATCACCGCACCGCTGTTGGGGCAGTCGCTGCTGCCCGACTTCAAGGAGCGCGACTTCCTGATGCACTGGCTGACCCAGCCGGGCACATCGGTCCAGGAAGAATATCGGATTAGTCAAAAGGCGTGCACTGAGCTCATGACCATCCCGGGAGTGCGGAACTGCGGCGCCCACATCGGGCAGGCTTTCAACGCCGACGAAGTGGTGGGTGTGTATTTCGGTGAGAACTGGATCAGCATCGACCCTGCAGTGGACTATGACGAAACCTTGGCCAAGGTCCAGGAAGTTGTCGAGGGCTATCCCGGCATCGTGCGCGATGTTCAAACATATCTGAAGGAGAGAATCCGCGAGGTGCTGACGGGCGCCAGCACAGCCGTCGTCGTAAGGCTTTACGGGGACGACCTGGCGCTCCTGCGCTCAGAGGCCGCAGAAATCCAGGCGATCTTTGACAGCACCGAGGGGGCCATCGACGTCCACACAGAGCTGCAGAAGGACATACCACAGATCGATATTGAGGTAGATCTGGAAAAGGCCCAGCAACACGGGCTGAAGCCGGGCGACGTGCGGCGGCAAGCGGCATGGCTGGTCGCCGGTGAGGAAGCCGGCGACGTCTACCGTGGCGGCAAGGCCTATGACGTCCAGGTCTGGAGCCCGGTAGAGGTCCGTTCTGACCTCACCAGCATCAGGAATCTCCCCATTGATACTCCCAACGGAGAGAAAATCCTGTTGTCCGACGTGGCAAGCGTGCAGGTGAAACCAACACCCAACGTCATCGAGCGTGATGCTCACTCAAGGCGCATCGACATCGAGGCAAACGTGACAGAAGGATCCCTGGGCACGGTTGTTGCGGCCATGGAGGAAGGGCTCAAGAACGTGGAGCTGCCCCCGGGCTTCCGAACGGAAATCCTGGGCGAGTTCAAGGAGCGCCAAGAGGCGACCAACACGCTGCTGACCCTCTCCACCGTGGCGCTGGCCGTGATTTACCTGCTGCTGCAGGTAGCCTTCGGAAGCTGGCGTCTTGCGACGTTGGTCATCCTCACGCTGCCAATTGCCCTCGTCGGCGGTGTGTTCGCCGCCTTCCTCGGAGGGGGGGTGCTGTCACTGGGCTCCATTGTGGGCTTCCTGACAGTCATGGGCATCGCGGCCAGGAACGGCATTCTGCTCATCAACCACTGCCAGCACCTGGAGAAAAATGAGGGCATGAAGTTCGGGCCCGATCTCGTGCTGCGCGGTGCTGCAGAGCGGCTCTCGCCGATCCTGATGACCACGCTCTCCACCGGGCTGGCCCTCGTTCCTCTGGTGGTCCTGGGCGACCTTCCAGGTCACGAGATTGAACACCCCATGGCGCTCGTGATCCTTGGCGGGCTGGTGACGTCCACACTGGTTAACCTCTTCGTGGTGCCGTCGCTCTACCTGAGGTTCGCCAAGTCCCGGAAACAGCGGGACGAGGCGCCGCCACGGGAACCGGAGCTCGCCAACGCCTGA	MRGIVGFSLKFRALVVAIAVAMMAFGGVQLSTASVDVFPEFAPPKVEIQTIAIGLTAAEVEQLVSVPLEDALTGVEGLDEIRSKSVEQLSSIVLIFAPGADLLKARQLVSERIATITPSLPTWASPPMMLQPLSSTSRVMKIGLTSDERSLIEMSMISYWKIRQHLLRVPGVANVAIWGERLQMLQVQAVPEKMKAHDVSINQVMDVTANALDAGLLQYTPGAVIGTGGHIETPNQRLSIQHVLPIATPEDLAEVVIEERNGKPLRLGDVANVVEDHQPLIGDAVINQGPGLMLIVEKLPWGNTLEVTKGVEAALEQMKPGLSGITIDTEIFRPATFIEESIDNLSRALLLGCLFVVLVLGAFLFQWRTALISLIAIPLSLVTAASILYMTGTAVNTMVLAGLVIAVGVVVDDAIIDIENIIRRLRQNRAEGGTRSTTSVVLEASLEVRGPIVYATLIIIAAAVPIFFLQGLTGAFFRPLAISYTVAVLASMVVALTVTPALALIFMRKVPLKEQEPPLVRVLKGGYQRILRKIVRRPAAGYATFGAMAAVGAITAPLLGQSLLPDFKERDFLMHWLTQPGTSVQEEYRISQKACTELMTIPGVRNCGAHIGQAFNADEVVGVYFGENWISIDPAVDYDETLAKVQEVVEGYPGIVRDVQTYLKERIREVLTGASTAVVVRLYGDDLALLRSEAAEIQAIFDSTEGAIDVHTELQKDIPQIDIEVDLEKAQQHGLKPGDVRRQAAWLVAGEEAGDVYRGGKAYDVQVWSPVEVRSDLTSIRNLPIDTPNGEKILLSDVASVQVKPTPNVIERDAHSRRIDIEANVTEGSLGTVVAAMEEGLKNVELPPGFRTEILGEFKERQEATNTLLTLSTVALAVIYLLLQVAFGSWRLATLVILTLPIALVGGVFAAFLGGGVLSLGSIVGFLTVMGIAARNGILLINHCQHLEKNEGMKFGPDLVLRGAAERLSPILMTTLSTGLALVPLVVLGDLPGHEIEHPMALVILGGLVTSTLVNLFVVPSLYLRFAKSRKQRDEAPPREPELANA				NA	NA	NA	NA	NA
D1-17_03308	450			hypothetical protein	ATGAAAAGCAACAGTGGTTTTGGGGGCTGGCGTTCTGTTCTCGTGCTGGCCTGCGCGGCGTCAATGAGCCTTGCCGGCTGCGCGGCAGTGAAATCCGAGTCTGCGCCTGCCGGGGAGGCTCCGGCCAGCCTGGAGAAGGTGGGCTCGGATCTGAACCGGCTGACGCTGACAGAGAAGGCGGTGGAACGGCTGGGACTGACCACGGAGAAGGTCACGAAGGGCAAAGCCGGCCTGGAGGTCCCGTACGCCGCACTGATGTACGACGGCGCCGGCAAGACCTGGGTCTACACCAGCCCGGAGCCGCGGACGTACATTCGGGCCGCGGTGGCGGTGGAGCGAATCAGCGGCGACAGGGTCGAGCTCCGGTCCGGTCCGCCGGCCGGAACAGAGGTAGTCACCTTCGGTGCTGCGGAGCTGTTCGGGGCCGAATTCGGCACGAAGGGGCATTGA	MKSNSGFGGWRSVLVLACAASMSLAGCAAVKSESAPAGEAPASLEKVGSDLNRLTLTEKAVERLGLTTEKVTKGKAGLEVPYAALMYDGAGKTWVYTSPEPRTYIRAAVAVERISGDRVELRSGPPAGTEVVTFGAAELFGAEFGTKGH				NA	NA	NA	NA	NA
D1-17_03309	3156	czcA_3		Cobalt-zinc-cadmium resistance protein CzcA	ATGACCGGTTGGCTTGTCCGCTGGAGTCTTAAGTTTCGTTTGATCGTTTTGGCCGTTGCGGCCGGCATTCTAGGGTTCGGACTAACGAGCCTGCCGTCCATGCCAATGGATAATCTTCCTGAATTTTCTCCACCGCATGTGGAAATTCAGACCGAGGCGTTGGGTCTGTCGGCCGTCGAGGTCGAGCAGCTCATCACCTCTCCCATGGAGGCGGATCTGCTGAACGGGGTCGCTTGGCTCGATGAAATCCGTTCAGTGTCGGTTCCTGGCCTGTCGTCCATTGAGATGGTCTTTGAGCCGGGAACGGATGTTTTGCGTGCACGGCAACTGGTGGCCGAACGCCTGACGCAGGCCCACGCTCTGCCCAACGTCTCGTCTCCGCCAGTGCTGATGCAGCCGCTGTCTTCGACGAGCCGGGTGATGATGGTCGAAATGACGTCAGAGGACGTCTCGCCAATCGACATGTCAGTGCTGGCCCGCTGGGACATCAAGCCCGCACTCATGGGCGTTCCCGGGGTAGCCAACGTTTCTATCTTCGGCCAGCGTGAGCAGCAGTTGCAGGTCCAGGTGGACCCCGCAAAGCTGCGGGCCCAGGATGTAACCCTGAACCAGGTGGTGGAGACTGCAGGCAACGCCGTCTGGGTTTCGCCGCTGAGCTTCCTCGAGGCGTCAACCCCGGGAACCGGCGGCTTCCTGGAATCCGCCAACCAGCGGATCGGTATCCAGCACGTTCTTCCCATCCGCACACCGGAGGATTTGGGCAAGATCAGCGTCGAGGGCAACAACAAGTCCCTGAAGCTGTCCGATGTAACCACCCTGGTCGAGGACCACCAGCCGCTGATCGGGGACGCAGTGACCGGAAAGTCTCCGGGCCTGCTGCTGGTCATCGAGAAATTCCCAGACACCAGCGTCGCCGAGGTCACCGCGGGGGTTGAGGCGATTCTGGACGGCCTGCGACCTGGCCTGTCAGGGATCACGGTGGATTCGACCGTCTTCCGTCCGGCGTCCTTCCTCGAGTCCGCCGCGAGCGGGCTTGGTGTGGCGTTGCTGGTGAGCCTATTGGTCGTGACGGCCGCCATTGGTCTGGCCTTCCGGTCCTGGCGGTACGCGCTGCTGGCACTTGTGGCCATTTCCGTGGCCGCAATGGGCGCAGCCTTGGTGCTGCAGTTCCAGGGAGCCGTGCTGAACACCATGGCGTTCGCTGGCCTCACGTTGGCGCTCATCGTGGTGGTGGGCGACATCATCCTGGACCTGCACAGCTTCCGAAAGGATGCCGCGAATGAAGGGCTGTCCCGGGAGGCTCTGCTGGCCCACGGGCTGCAGCGATCGCGGGTGCCCGTCCTGTTCGCAGGCCTGATAGCGCTGCTGGCGCTCGCTCCTGCACTGTTTGTCCCGGGCGTGGACGGAGCATTCCTGAAGCCGCTGGTGCTGTCGTACCTGCTAGCAACGGCGGTGGCAATGCTGGTCGCCCTTACGGTCACTCCGGCGCTAGGGAGTCTGCTGTTGCGCGGCCGCCAGCGGCCGCAGACGAAGCCGTCCTTTTTCCACAAGCTCGGAGAGCGCTACCGCAGGTCAACAGGGTCCTTCACCAAGGGCGTGGCCGTTCTGGTCGCATCGGTCGCAGCCGTGCTGGCCATAGTCGCCGTGGCACTGGTGCCGGGGCTGACCAGGCAATCGCCGATCGTAAGCGCCGTTCCGGACCGCACGCTCCTCGTTGAATTGGACGCCTCCAGCGGTACAGGACCGGACGTGATGAACCGGCTAATGACCAAAGCCGGCGAGGAGCTGACACAAATCGAAGGAGTAGCACGGGTCGGCGGCCACGTAGGACGCGCCATCACCTCGGACCTGTCATCCGATGTGAACTCCGGAGAGCTCTGGATCACCATGCAAGACGGCGCGAACATCGCGAACGTCCGGGCCGATGCCCAGTCCATCGTGCAGGGCTACCCGGGAGTGACGGCCAAGGTCACCACCTACCCGGAGCAGCAAGTGGCCGCAGCCAGCGCTCGTGACGACCAGCAGTTCAGGGTCCGCGTCTATGGCATCGAACTGCCCATCCTGCAGGAGAAAGCCAACGAAATCCGCGACATCCTGTCACGTACCGCGGGGGTCGTTAACCCCACCGTGGAGGCCACCCCGTCCCAACCTGTAGCCGAGATTGAAGTGGACCTCGCCAAGGCGCAACAGCAAGGCGTCAAGCCCGGTGACGTGCGGCGCGCCGCTGCCACTGTCCTCCAAGGTATTGAGGTGGGCTACCTCTTCGAGCAGCAAAAGGTGTTCCAGGTCGTCGTCAAAGGCGTCCCAGAGACGCGTCACAGCATGAGCAATGTCCGGAACCTGCTGATTGACAAGCCGGAAGGCGGGCAGATCCGGCTCGGCGACGTCGCCGACGTCAGGCTCAGCCCCAACCAGACAGTGATCAACCACGATGACACCTCCAGGAGGATCGACGTGGTGGCTGACATCGAAGGCAGGAGCCTCAGTGACGTGACCGCAGACATACAAAGCGCAATCAAGGGCATGCAGTTCCCCGTTGAATACCACGCCGAGATCCCCAAGAAGTTCGGCGAGCAGCAGGCAGCCGGTGACATGATGGTGTGGCTGGCGGCGGCCGCGGCGGCGGGTATTCTGGTGCTGCTGCTGACCGTCCTGGGCAGTTGGCGGCTCGCAGCGCTCGTGTTCGTGCTGCTGCCTGTCGCATTACTGGGCGGTGTCATTGCTGCCTGGTTGAGCGGGGGCTTCGGTTCCCTGTACGTGCTGGTAGCCCTGGCGGCTGTGCTTGCCGTCGCAGTCCGTGACGCAGTCATGCTCATGGGCACCTATCAATCCATCCAGGCCCAGGATCCGACGGCGTCCCCGGCCGAGCAGATGAAGCGTGCGGTATCCGAGCGGCTGCAGCCAACAGTGCTGACGGCCATCATCACCGCCCTGGCGCTGGTGCCACTGGTGCTGCTGGGCGGGCCCGTCGCCATGGCCATGCTGCTTCCGATGGCGCTCATCCTGTGGGGCGGCCTGATCACGTCCGCCCTGCTGACCCTGTATATCCTGCCGATCCTCTTCCTGCGTTTTGGTCCGGCCGCCAACACGGACTGGGGGAGCTCATTGGTGATTAACAACGGACCGGTTCTGTCAGAGAGGTCGGAATTGTCATGA	MTGWLVRWSLKFRLIVLAVAAGILGFGLTSLPSMPMDNLPEFSPPHVEIQTEALGLSAVEVEQLITSPMEADLLNGVAWLDEIRSVSVPGLSSIEMVFEPGTDVLRARQLVAERLTQAHALPNVSSPPVLMQPLSSTSRVMMVEMTSEDVSPIDMSVLARWDIKPALMGVPGVANVSIFGQREQQLQVQVDPAKLRAQDVTLNQVVETAGNAVWVSPLSFLEASTPGTGGFLESANQRIGIQHVLPIRTPEDLGKISVEGNNKSLKLSDVTTLVEDHQPLIGDAVTGKSPGLLLVIEKFPDTSVAEVTAGVEAILDGLRPGLSGITVDSTVFRPASFLESAASGLGVALLVSLLVVTAAIGLAFRSWRYALLALVAISVAAMGAALVLQFQGAVLNTMAFAGLTLALIVVVGDIILDLHSFRKDAANEGLSREALLAHGLQRSRVPVLFAGLIALLALAPALFVPGVDGAFLKPLVLSYLLATAVAMLVALTVTPALGSLLLRGRQRPQTKPSFFHKLGERYRRSTGSFTKGVAVLVASVAAVLAIVAVALVPGLTRQSPIVSAVPDRTLLVELDASSGTGPDVMNRLMTKAGEELTQIEGVARVGGHVGRAITSDLSSDVNSGELWITMQDGANIANVRADAQSIVQGYPGVTAKVTTYPEQQVAAASARDDQQFRVRVYGIELPILQEKANEIRDILSRTAGVVNPTVEATPSQPVAEIEVDLAKAQQQGVKPGDVRRAAATVLQGIEVGYLFEQQKVFQVVVKGVPETRHSMSNVRNLLIDKPEGGQIRLGDVADVRLSPNQTVINHDDTSRRIDVVADIEGRSLSDVTADIQSAIKGMQFPVEYHAEIPKKFGEQQAAGDMMVWLAAAAAAGILVLLLTVLGSWRLAALVFVLLPVALLGGVIAAWLSGGFGSLYVLVALAAVLAVAVRDAVMLMGTYQSIQAQDPTASPAEQMKRAVSERLQPTVLTAIITALALVPLVLLGGPVAMAMLLPMALILWGGLITSALLTLYILPILFLRFGPAANTDWGSSLVINNGPVLSERSELS				NA	NA	NA	NA	NA
D1-17_03310	879			hypothetical protein	TTGGACGCGGAGGTCCGCCCGTTAGCCGTCAGCCGCAAGCCGCATGGCAAGGAAATCATCGCGGTAAGAAACAGACCGGGCAGATTGTTTGCCGGCATCACAATCCGGCCACCAATTCCTCATGCCGGCTGCGCCTTCGTTGACTATGGCGGCGCTGCCCGCAAGGTTAGGACCATGAGGCTTCAGCGCATCCCCACCGGACTGACGTCCGCTTCAGCAACCGGCGCGCTCGTGCTGCTGCTGACGGCGTGCGGGGCAGGCGGGCAAGCCGGCCCGCAACCGACTACGAGCACAGCGTCGGAAACCAGCCCGAGCGCAAGCCCGGCGGACCCGGCAACTCCCGTCCCGCCGTCGGCCTGGTCCTCGGCATCCGCTTCGGCTGACCCGGCGCCGGCTGAAACGCCGTCCCAAGCGCCGGCAAGCACTGGGCCACCACCTCATGAGGCAACGGGCACCGCCGTCGCTCGTTGCAGGGCCTCGGCGCTGGAGGCCAGTACCAACGCCTCGGGCGGCGGCGCGGCCGGCAGTGTTTATATGCAGCTGATCCTGACCAACAGCGGCTCCGTCCCCTGTCATCTCAATGGCTTCGCCGGCGTCTCCCTGACCAACGGCCGCGCCGGCGAGCCGATCGGCGCGCCGGCGCGGCGCGACACATCGACGCCGGCCGTCAACGTGCTGCTGGCTCCCGGGCGGGCCGGGTCCGCCGTGCTGCGCTACACCCAGGCCCGCAACCACAGTGACTGCGTCTTGGTTCCGGCGGCCGGGTTCAGGATTTACCCGCCCGAGGAAACAGCGTCCCTCTTCGTGGCCCAGCCTTCGGATGCGTGCAGCAACGCCTCCATAGAACTCCTGGCCATCGGGCCGTTCCAGGCGCAGTGA	MDAEVRPLAVSRKPHGKEIIAVRNRPGRLFAGITIRPPIPHAGCAFVDYGGAARKVRTMRLQRIPTGLTSASATGALVLLLTACGAGGQAGPQPTTSTASETSPSASPADPATPVPPSAWSSASASADPAPAETPSQAPASTGPPPHEATGTAVARCRASALEASTNASGGGAAGSVYMQLILTNSGSVPCHLNGFAGVSLTNGRAGEPIGAPARRDTSTPAVNVLLAPGRAGSAVLRYTQARNHSDCVLVPAAGFRIYPPEETASLFVAQPSDACSNASIELLAIGPFQAQ				NA	NA	NA	NA	NA
D1-17_03311	1512	petC		Cytochrome b6-f complex iron-sulfur subunit	ATGACGTCGCTCTGGTTGGACCGCACTGATACCTTCAGCGGAGATGAGTTCCGCCCGGATGAGGCGTATGACACGGTGGTGGTTGGCGCCGGCCTCACCGGCTTGGTGACGGCGTTGCTCCTCGCTCGCTCCGGCCAGAATGTCCTGGTTCTTGAGGCCCGGTACCTTGGCGCCGTCACCACGGGGCACACCACTGCCAAAGTCACCTTGCTGCAGGGAACAGCCCTGTCGGCGCTCAGGAGCCAATACTCGGCGAAGGTTGTCGAAGCGTATGTCACAGCCAACCGTGAGGGGCAGGCCTGGTTGCTGCGCTACTTGGATTCCGCCAGTCTCCCCCACCAGGAACGCGACGCCTACACCTACGCAACCACGCCGAAGGGTGCCGAGACGCTCCGTAAGGAGCTGGCCGCGGCGCTCGCCGCCGGCGTCGAGGTGGATTATGTCCGGGACGCAGGCCTTCCGTTCCCCATCCACGGGGCAGTACGTCTCCGCGGCCAGGCACAGATCAATCCCATGGATGCCGTGCTGGCCCTGGCCAAGGATGTGCGTTCACATGGCGGGACCGTCGTTACCGGCGTCCGTGTACGGGATGTGAGCGGAACCGGTCCGGCCGTGGTTGAAACCGACCAGGGGTCGGTGCGCGCCAACACGGTGGTGCTCGCCACCGGGACGCCCATCCTGAACCGGGGCATGTATTTTGCGAAGCTCAAGCCCAACCGCTCCTACGCCGCGGCCTTGGAGCTCGCCGGCTCCCTGACGCCGCCGGACGGCATGTACCTGTCCGTGGAGCACCCCACCCGGTCGCTGCGTGACTACCCGCTCGACGGGCGCCGTCTGCTGCTGGTGGGCGGCAACGGGCATCCTGTGGGAAGGGCTGAATCGGAACAGGCCCACTTGGATGAGATGCTGGCCTGGGCAGAATCCCACTTCCCCGGCGCCGCCGTGACACACATGTGGTCTGCGCAGGACTACCAGTCGATCAACCTCATGCCCTTCTTCGGGAAGCTTCCCCGCGGCCGCGGCCGGATCTTCCTGGGTACCGGCTACAACAAATGGGGAATGACGAACGCGGTTGCCGCCGCCCTCGGCATCGCCGCGGACATCCTTGGCGGCCACCTGGAATGGGCCAACACGATCCACCGCAGGGTGACATCCCCTCCAGGTGCTGCCTCCGCCGTTTCGCTCAACGCCGGCGTGGCCGCCACCCTCGCCAAGGACTGGTCGCAGGCCGCGCTGAGGAAGCTTCCCCAGGACAAGGGCACTGTGCCCGCTGAAGGAACGGGCGTTGTGGCAGTTCGGGGGCGCAAGCCCGTGGCGACGTCCACGGTGAACGGGAAAACCTGCTCCCTGTCTGCTGTCTGCACCCACCTCGGCGGGATCGTCCACTGGAACGACCACGAAAAATCCTGGGACTGCCCCCTGCACGGTTCCCGGTTCAACAGCGACGGGACCCTGCTCGAGGGACCGGCCACGCGCAACCTTCCGGCGGCCGGGGAACGGGGACAGAAGTAA	MTSLWLDRTDTFSGDEFRPDEAYDTVVVGAGLTGLVTALLLARSGQNVLVLEARYLGAVTTGHTTAKVTLLQGTALSALRSQYSAKVVEAYVTANREGQAWLLRYLDSASLPHQERDAYTYATTPKGAETLRKELAAALAAGVEVDYVRDAGLPFPIHGAVRLRGQAQINPMDAVLALAKDVRSHGGTVVTGVRVRDVSGTGPAVVETDQGSVRANTVVLATGTPILNRGMYFAKLKPNRSYAAALELAGSLTPPDGMYLSVEHPTRSLRDYPLDGRRLLLVGGNGHPVGRAESEQAHLDEMLAWAESHFPGAAVTHMWSAQDYQSINLMPFFGKLPRGRGRIFLGTGYNKWGMTNAVAAALGIAADILGGHLEWANTIHRRVTSPPGAASAVSLNAGVAATLAKDWSQAALRKLPQDKGTVPAEGTGVVAVRGRKPVATSTVNGKTCSLSAVCTHLGGIVHWNDHEKSWDCPLHGSRFNSDGTLLEGPATRNLPAAGERGQK				NA	NA	NA	NA	NA
D1-17_03312	5148	rhlE_3		ATP-dependent RNA helicase RhlE	ATGCAGTCGCAGGGGCCCGCCGGCACGACCGGCGGCACATCTTCGGTGGACTCCATGGGCCAGTTCAGCCGGCCTACCCGGGAGTGGTTCCTCGGCGCCTTCTCCGAACCGACCCCTGCGCAGCAAGGCGCCTGGAACGCTATTTCCTCCGGATCCCATGCCCTTGTTGTCGCGCCGACCGGTTCCGGAAAAACCCTCGCCGCCTTCCTGTGGGCCCTGGACCGGCTGCTGGTCTCCGAGGCGACCGGGCCGGCAGCGCTTCCGGGATTGGCAGCAGCAGACGGGGAGGAAGCAGACGGAACGGCAAAGGGCAGCGGGAAACGGGCGGCGGCCAACAGCCGCAGAGCGAAAACGCCGAAGCGGAAAACCCGTGTACTGTACATTTCCCCGCTAAAGGCGCTTGGCGTCGACGTCGAACGCAACCTCCGCTCGCCGCTCATCGGCATCACCCAAACAGCCAAGCGCCTGGACATGCCTGCCCCGTTGATCACTGTAGGCGTCAGGTCCGGAGATACCCCTGCCTCCGACCGCCGCACCCTGCTCAGCAATCCGCCGGACATTCTCATCACCACTCCGGAGTCGCTGTTCCTTATGCTGACGTCGCGGGCACGGGAAACGCTCAGCGAAGTGGGTACCGTCATCGTGGATGAGGTGCACGCCGTGGCCGGCACTAAGCGCGGCGCCCATCTGGCCGTCTCCCTCGAACGGCTTGACGCGCTGCTGCCCAAGCCCGCGCAGCGGATCGGGCTGTCTGCCACCGTGGAGCCGAAGGAACTGGTGGCCCAGTTCCTGGCCGGGTCCGCGCCCGTGGAGATCGTGGCGCCGCCCTCGCGGAAGAACTGGGACCTCACTGTGTCGGTTCCTGTGGAGGACATGTCGGATCTGCAGGGGGCGGCAGGAGCCTTCGATTCCGGCCCGGCGTCCGGGCTGCAGCCGCAGGCCTCCATCTGGCCGCATGTGGAGGAAAAGATTGTTGACCTGGTGCTGGCCAACCAGTCCACCATCGTATTCGCCAACTCCCGCCGGCTGGCTGAACGGCTCACCGCAAGGCTGAACGAGATCCACGCAGACCGGCAGCTGCTCGCGGTCGGAGGCGGCTGGGACGAACCGGCTCCGGTTCCTCCCGGTTCCCCCCCGGCGTCCACCGCCACTCCCGCGCACATGATGGCCCAGGCTGGGAGCACGTCCGGGGCCGAGCCGCTGCTTGCCAGGGCACACCACGGCTCCGTCTCCAAGGACCAAAGGGCCCTCATCGAAGATGACTTGAAATCGGGACGGCTCCGCTGCGTGGTGGCCACCTCATCCCTGGAGCTTGGCATCGACATGGGCGCTGTGGACCTTGTGGTGCAGGTCGAATCTCCACCGTCCGTGGCGAGCGGACTGCAGCGCGTGGGACGGGCCGGACACCAGGTGGGCGAGATTTCCCAGGGCTACCTGTTTCCCAAGCACCGGGCTGATCTCGTCCACACCGCCATCACGGTGGAGCGGATGCTGGCCGGCAAAATCGAGAGGTTGAGCATTCCGGCCAACCCGCTGGACATCCTGGCACAACAGACTGTCGCGGCCACCGCCCTGGGCAGCATCGATGTGGAGGAGTGGTTCGCAACGGTACGGCGCTCGGCGCCCTTCGCCTCGCTCCCACGCTCCGCGTTCGAGGCCACGCTGGACCTCCTGGCCGGCCGCTACCCGTCCGATGAATTCGCTGAACTCCGCCCGCGCATCATCTGGGACCGGAATGCAGGAACCATCGAGGGACGGCCCGGAGCGCAGCGTCTCGCCGTCACCTCCGGAGGAACCATCCCGGACAGGGGGCTCTTTGGCGTCTATATCATCGGGACCGAAACGGAAGGATCAGCGTCTCGGGCCGGGGGAAGTGCCGATGGCAAGGGCTCCGGCGGCGCCGCCCCCGCGAAGGGCGGCCGCCGCGTGGGTGAACTGGACGAGGAGATGGTCTATGAATCCCGGGTTGGCGACATCTTCGCCCTCGGTGCCACCAGCTGGAAAATTGAGGACATCACCCATGATCGTGTCCTTGTTTCACCCGCTTTTGGCCAGCCCGGGAAACTGCCGTTCTGGAAGGGGGACTCGCTTGGCCGGCCGGTGGATCTCGGCCGCGCCCTCGGCGCCTTCATCCGGGAACTGTCAGCGTCCGGCGTCGGCCCTGCCGCCGAACGCTGCAAGGCCAGCGGACTGGACGGCTTTGCCGCCAACAACCTGCTCCAGTACCTGGACGAGCAGAAGCAGGCCACAGAAGTCGTTCCCAGCGATACAACGCTTGTCGTGGAGCGCTTCCATGACGAGCTCGGGGACTGGCGGGTGATCCTGCACAGCCCGTTCGGGATGCCCGTCCATGCCCCCTGGGCGCTGGCCGTGGGCCAGCGGCTGCACCAGCGCTACGGCTTGGACGGCTCCGCCATGGCTGCCGACGACGGCATCGTGCTCCGCGTTCCCATGATGGAGGACGATCCGCCCGGCGCTGAGCTGTTCCTGTTCGACCCAGAGGAGCTGGAACAGATTGTCACTGCCGAGGTCGGCGGCAGTGCACTGTTCGCCTCCCGTTTCCGCGAATGCGCGGCCCGTGCGCTGCTGCTCCCGCGGCAGACTCCTGGCAAGCGGCAGCCGCTATGGCAGCAGCGCCAGCGCTCCGCCCAGTTGCTCGACGTCGCCCGAAAGTACCCCACGTTCCCCATCGTGCTCGAGACGGTGCGTGAATGCCTGCAGGACGTCTATGACCTGCCAGCGCTAAAGGACATCGCTTCCTCCGTGGAACGCCGAGAGCTGCGGATCGTGGAGACCACCACGCAGCAGCCCTCTCCGTTCGCCAAGTCGCTCCTCTTCGGGTACGTGGCCCAGTTCCTGTACGAGGGCGATTCGCCGCTTGCCGAACGCCGAGCCGCCGCTCTCGCCCTTGATTCCACGCTGCTCAACGAACTGCTCGGCCGGGTGGAGCTGCGGGAACTGCTGGATGTCAGAGTGATCGAGTCAACGGAGCGCGAGCTGCAGCGCCTTGCTCCCGACCGCAGGGTCCGCGGGGTCGAAGGCGTGGCCGACCTGCTGCGCCTCCTGGGTCCGCTCGCGCCGGACGAGGTCGCGGCCAGGCTTGAGCCTGCCCCGCTGGTTGAGCCTGCTCCCCTGGTTGAGCCTGCTCCCCTGGTTGAGCCTGCTGAAACCGAGCCGCTTGCTGAGCCTGTCCAACTGGCTGAGCCCGTCGGAACCGATCCGCCCACTACCACCCCGCCCTCCGAAGTCACAATGGCCGACGCCGCAGCCCATCTTGCAGCCCTCCAACGGGCGAACCGCGCCATCAGGGTGAGCATCGGCGGCGTCGAAAGGTATGCGGCTGTGGAAGATGCCGCCCGCCTGCGGGACGCCATCGGGGTTCCCCTTCCCATGGGCGTCCCCCTGGCGTTCATCGAACCCGTGGCGGACCCGTTGGGCGACCTTGTCTCACGCTACGCGCGCACCCACGGTCCATTCACGGCTGCGGAGACCGCGGCCAGGCTGGGACTCGGCGTTGCGGTGGTCAGCGCTGCGCTGAAACGCCTCGCCGCCGACGGGCGGGTGGTCGAAGGCGAGTTCCGCCCCCATGTGGAACCGGCCGCGGAAGCCGGCGAGGCTGCGGCACAGGAAGGGCAGCCCGTAACGGAAGGGCACGCACGCGAAGCGGAGGGGCGTGGCGCCGCAACCACCACCATCGTTACCGGCAGCGAGTGGTGCGACGCGGAGGTGCTCCGGAAGCTGCGCCGTCGTTCCCTTGCCGCGCTGCGCGCCGAAGTGGAACCCGTGGATACGTCCACCTATGGGCGGTTCCTGCCGGCCTGGCAGAACGTCCGCACCCAGGGCAACCGGCGCGGCCAGCCCGCGCTGCGGGGTCTGGACGGCATCCTTACGGCTGTCGACCAGCTGTCCGGCGTCCCCGTTCCGGCGTCGGCCTGGGAGCCCCTTGTCCTGGCCAGCCGCGTGTCCAACTACCAGCCAGCCATGCTCGACGAGCTGATGGCAGCAGGCGAAGTCCTCTGGTCCGGAGCCGGCGCCCTCCCCGGCAACGATGGCTGGATCAGCCTCCATCTTGCCGAATCCGCGGAACTGACGCTGAACCCCTCCATCGACTTTGAGCCCGGGGATGCGCAGCGGCGGCTGCTGGAGCACCTGCAGTCCGACGGCGGGGGCTACTTTTTCCGGCAGCTCACCGACATTGCCGGCGGCATGGATGCGGTACTCGGCGACCAGGATGTAGTGTCCGCGCTGTGGGACCTGGTGTGGGCCGGCCGGATTACCGGGGACACATTCGCCCCGGTGCGTTCCCTCATCGCCGGCGGACACACGGCGCATCGCCAGGTTGCCCGGGCACCGCGCGCCCGCGCTCCCCGGATGAGCAGGCTGGGCCGTTCACACGGAACCGGCTTGCTAGGGTCACCCGGCCTAGCTGGCGCGCGCTACGGATCCGCCAGTGGGTCCGCCCCGACGCCGCCGCTGGCCGCCGGGCGGTGGTCCGCCCTCCCCGCACCGGAGCTCGACCCCACGATCCATGCCCGGGCAATGGCCGAACTGCTCCTGGACAGGTACGGGATCGTCACCCGCGGCTCGGTCATGGCAGAGAACATCCTGGGCGGCTTCGGACTCATGTACAAGGTGCTCGCCCGGCTGGAGGAAGCCGGGCGTTGCCGGCGCGGCTACTTCATCGAGCATCTTGGTGCAGCCCAGTTCGCCGTCCCTGCGACGGTGGACCGGCTGCGTTCCTATTCCGAGGACACTCAGATTGCCAAGCCGGAACCCGTAGCGCTGGCCCTTGCCGCGACGGACCCCGCCAACCCGTATGGGGCTGCTCTGTCCTGGCCCGCGCTGGGCGAAGATGCCGGCAGCGGACACCGTCCGGGCAGGAAAGCTGGGGCGCTGGTGGTACTGGTGGACGGCGCATTGACACTGTACGTGGAGCGCGGCGGCAAGACGCTCCTCGTCTTCTCGGACGATGAGCCGGTCCTGGCCGCTGCGGCCTCGGCACTGGTCGATGTCGTGAAACGCGGCGCGGTGGACAAGCTCGTCATGGAAAAGGTCAACGGCCACGCCATCCTGGACACCCCGGCTGCAGCGGCTTTGACGGCAGCAGGAGCCTACTCCACCCCGAAGGGACTGAGGATCCGTGCCTGA	MQSQGPAGTTGGTSSVDSMGQFSRPTREWFLGAFSEPTPAQQGAWNAISSGSHALVVAPTGSGKTLAAFLWALDRLLVSEATGPAALPGLAAADGEEADGTAKGSGKRAAANSRRAKTPKRKTRVLYISPLKALGVDVERNLRSPLIGITQTAKRLDMPAPLITVGVRSGDTPASDRRTLLSNPPDILITTPESLFLMLTSRARETLSEVGTVIVDEVHAVAGTKRGAHLAVSLERLDALLPKPAQRIGLSATVEPKELVAQFLAGSAPVEIVAPPSRKNWDLTVSVPVEDMSDLQGAAGAFDSGPASGLQPQASIWPHVEEKIVDLVLANQSTIVFANSRRLAERLTARLNEIHADRQLLAVGGGWDEPAPVPPGSPPASTATPAHMMAQAGSTSGAEPLLARAHHGSVSKDQRALIEDDLKSGRLRCVVATSSLELGIDMGAVDLVVQVESPPSVASGLQRVGRAGHQVGEISQGYLFPKHRADLVHTAITVERMLAGKIERLSIPANPLDILAQQTVAATALGSIDVEEWFATVRRSAPFASLPRSAFEATLDLLAGRYPSDEFAELRPRIIWDRNAGTIEGRPGAQRLAVTSGGTIPDRGLFGVYIIGTETEGSASRAGGSADGKGSGGAAPAKGGRRVGELDEEMVYESRVGDIFALGATSWKIEDITHDRVLVSPAFGQPGKLPFWKGDSLGRPVDLGRALGAFIRELSASGVGPAAERCKASGLDGFAANNLLQYLDEQKQATEVVPSDTTLVVERFHDELGDWRVILHSPFGMPVHAPWALAVGQRLHQRYGLDGSAMAADDGIVLRVPMMEDDPPGAELFLFDPEELEQIVTAEVGGSALFASRFRECAARALLLPRQTPGKRQPLWQQRQRSAQLLDVARKYPTFPIVLETVRECLQDVYDLPALKDIASSVERRELRIVETTTQQPSPFAKSLLFGYVAQFLYEGDSPLAERRAAALALDSTLLNELLGRVELRELLDVRVIESTERELQRLAPDRRVRGVEGVADLLRLLGPLAPDEVAARLEPAPLVEPAPLVEPAPLVEPAETEPLAEPVQLAEPVGTDPPTTTPPSEVTMADAAAHLAALQRANRAIRVSIGGVERYAAVEDAARLRDAIGVPLPMGVPLAFIEPVADPLGDLVSRYARTHGPFTAAETAARLGLGVAVVSAALKRLAADGRVVEGEFRPHVEPAAEAGEAAAQEGQPVTEGHAREAEGRGAATTTIVTGSEWCDAEVLRKLRRRSLAALRAEVEPVDTSTYGRFLPAWQNVRTQGNRRGQPALRGLDGILTAVDQLSGVPVPASAWEPLVLASRVSNYQPAMLDELMAAGEVLWSGAGALPGNDGWISLHLAESAELTLNPSIDFEPGDAQRRLLEHLQSDGGGYFFRQLTDIAGGMDAVLGDQDVVSALWDLVWAGRITGDTFAPVRSLIAGGHTAHRQVARAPRARAPRMSRLGRSHGTGLLGSPGLAGARYGSASGSAPTPPLAAGRWSALPAPELDPTIHARAMAELLLDRYGIVTRGSVMAENILGGFGLMYKVLARLEEAGRCRRGYFIEHLGAAQFAVPATVDRLRSYSEDTQIAKPEPVALALAATDPANPYGAALSWPALGEDAGSGHRPGRKAGALVVLVDGALTLYVERGGKTLLVFSDDEPVLAAAASALVDVVKRGAVDKLVMEKVNGHAILDTPAAAALTAAGAYSTPKGLRIRA				NA	NA	NA	NA	NA
D1-17_03313	858	nei1_2	COG0266	Endonuclease 8 1	GTGCCTGAGGGTGATTCCATCTGGCGCGCCGCCCATCAGCTGCACGGCGCCCTGGCCGGCCAGACACTCACCGCTTCAGACTTCCGGGTGCCCCGTTTCGCCACCCTGGACCTTCGCGGCTGGACTGTTGAGGGGGTGGTCCCGCGCGGCAAGCACCTCCTGATGCGGCTGGTAAGCCAGGCCGATGAAAGGGTGACCATTCATTCCCATCTTAAAATGGAGGGCAGCTGGCAGGTCTATGCGCCAGGTGGACGTTGGCGGAAACCAGGTTTCACCGCGCGGTGCGTGCTCCGCACACCGGTGGCGGACGTCGTCGGCTTTTCCCTGGGACAGCTCGAGGTCATCAAGACCTCCGACGAGGACAAAGTCGTAGGCCACCTCGGCCCCGACTTGCTCGGGCCTGATTGGGATCCTGTTGAAGCCGAACGGCGGATGGCGTCCGCGCCGAACGTGCCCATCGGCGTGGCGTTGCTGGATCAGCGAAACCTTGCCGGCATCGGCAACATCTACCGCTGCGAGGTGTGCTTCCTTGCGGGACTGCACCCGGCCTCGCCGGTAGCGGCAGCCACGGATCTGCCCGCAATGTTTGCTGACGCCAAACAGCTCTTGGAGGCCAACCTCGGCCCCGGACGCCGCACCACCCTGCTCAATGCGCGGGGAATGCCTGTGGGCAGGGCAGCCGGCCGGCCTGGATACTGGGTTTACCGCCGCGAACATCAGCCCTGCCTCCGCTGCCGCACGCCCATCCGGCACGCAATCTTGGGCAAAGCGGGCAGGGGCAATCCCGAACTCGTCATTGAGGAGAGGGACATCTACTTCTGCCCCACTTGTCAGCCGCTTTTGGGCGCCAGGGAGTAG	MPEGDSIWRAAHQLHGALAGQTLTASDFRVPRFATLDLRGWTVEGVVPRGKHLLMRLVSQADERVTIHSHLKMEGSWQVYAPGGRWRKPGFTARCVLRTPVADVVGFSLGQLEVIKTSDEDKVVGHLGPDLLGPDWDPVEAERRMASAPNVPIGVALLDQRNLAGIGNIYRCEVCFLAGLHPASPVAAATDLPAMFADAKQLLEANLGPGRRTTLLNARGMPVGRAAGRPGYWVYRREHQPCLRCRTPIRHAILGKAGRGNPELVIEERDIYFCPTCQPLLGARE	PGPT0004020_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-AEROBIC_RESPIRATION|OXIDATIVE_PHOSPHORYLATION,PGPT0004020-ndh-K03885	NA	NA
D1-17_03314	978			hypothetical protein	ATGCAATCCCCCCTCCCCGTGCGCGACGGCGTGAACGCGACCCGTCTTCGCCTGCCGGATGAGGGGCCGTGGGACACTGCGATGGACTATATGATGCACCGTTGGGGACATATTGATCCGCAGGGCATCGAGGACCGGTTCGACGCCGGGGAAATCGTCGGCGAAGGCGGCGTTCCACTGGACCGGCGCACCAGGCTCGAGGACCACACCTTCATCTGGTACTACCGCACCCTGCCCCCGGAGAAGCGCCTGCCGGTGGAGCTGAACATCCTGCACCAGGACGACCACATCCTCGTCGTGGACAAGCCGCACTTCCTGCCCACCACGCCAGGCGGCACCTACATCCAGGAATCCGCGCTGGTGCGGCTGCGGAACCAGCTGAATCTGCCCGACCTGATTCCCATGCACCGGCTCGACCGCATGACCGCGGGCATCCTGCTCCTGTCCACAAACCCCGAAACCCGCGGCAAGTACCAGGTCCTGTTTGAGAAGCGGCAGGTGCAGAAGGAATACGAGTGCGTGGCCGCAGCGGAACCTGCTGCCGGATACCCCACCTTCGACTTCCCCGTGGTGGTGCGGAACCGGATGACCAAATCGCGCAGCTACCTCCTCGCGGAGGTCGTCGAAGGTGAGCCGAATGCGGAGACCAGGATTGACCTGCTGAAAACGTTCGACGCCGGGACTTCCGACGGTGGCCGTCCCGCCGCAGGTTCCGCTGCCGGTTCCGCTCCAAGGCAGCGCCGCGGCCTGTACCGGCTTGAGCCGCACTCCGGCAAGACCCACCAGCTGAGGGTTCACATGGCGTCGCTGGGGCTGGGCATCCTGCACGATGCCTTCTACCCGGAGCTGCTGGACAAAGCGCCGGACGACTACACCAAGCCGCTGCAGCTCCTGGCTCGGGGTATCCGCTTCGTTGATCCCATCACGGGAAATCCGGTGGAATACCGCAGCAGGCTGGAGCTGAGCGAAGCCCGTTAG	MQSPLPVRDGVNATRLRLPDEGPWDTAMDYMMHRWGHIDPQGIEDRFDAGEIVGEGGVPLDRRTRLEDHTFIWYYRTLPPEKRLPVELNILHQDDHILVVDKPHFLPTTPGGTYIQESALVRLRNQLNLPDLIPMHRLDRMTAGILLLSTNPETRGKYQVLFEKRQVQKEYECVAAAEPAAGYPTFDFPVVVRNRMTKSRSYLLAEVVEGEPNAETRIDLLKTFDAGTSDGGRPAAGSAAGSAPRQRRGLYRLEPHSGKTHQLRVHMASLGLGILHDAFYPELLDKAPDDYTKPLQLLARGIRFVDPITGNPVEYRSRLELSEAR				NA	NA	NA	NA	NA
D1-17_03315	630			hypothetical protein	ATGGACTTCGGCAACGCGGACAGCTGGGGGGCCGCGATCTATTTCTGGATCATTCCGGCTGTGCTTGGTGACGCCATCTTCCCGCCCGTCCCGTCCGAGATGGTTCTCATCACGGGAGGGGCGCTTTCCGCCGAGGGCCGCGCGAACCTGGCCCTGGTTGGCCTGCTGGCAGCATCGGCTTCCTGGGCCGGGGACATGGTGGTCTTCCAGCTGTTCAAGCGCCGGCTCAGCCATGTCCTTGACCGCTGGCGGTGGGGGCGGAAACTGCACCACGGGATCCATGACGCCATCGCGAAAGCGGGCCGCTCCTCCACCTATGGCACCATCATTGGTGCCCGCTTCATCCCCGGCGGCCGGCTCGCAACCTCCGCTGCGGCCGGTATCGCCGAGGTCTCAACCGGCGGCTTCAACCTCTGCGCCGGGCTGGGGGCTGTCCTCTGGGCGACGTGGCTCGTCGGGCTCGGCTACTTCACCGGTTCAGCCACAGGGCTGCCGTTCTGGGCGAGCTCACTCATCGGGGTGGCCGCAGGCCTGGTGATCGGGGCCGTCGTCGGAGTGATTGCTACGCGGCGCCGCGGCAGCCGGTCTCCTGTTGATGAACCCGACGGAACTGCCGGCTCCGCTTCCTGA	MDFGNADSWGAAIYFWIIPAVLGDAIFPPVPSEMVLITGGALSAEGRANLALVGLLAASASWAGDMVVFQLFKRRLSHVLDRWRWGRKLHHGIHDAIAKAGRSSTYGTIIGARFIPGGRLATSAAAGIAEVSTGGFNLCAGLGAVLWATWLVGLGYFTGSATGLPFWASSLIGVAAGLVIGAVVGVIATRRRGSRSPVDEPDGTAGSAS	PGPT0004890_2765	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-17_03316	306			hypothetical protein	ATGCCGTCATTTCAGACCAGACTCAAGATCACCGGGCTGAAGCCCGGCCATCCTCCCGAGGCGGTGATGGCAGCAGCCGTCGAAGCGCTGGGCACGCGGCATCACGTGGAATCGAACCAGCTGGACATCGCCGGGGGCGTGCCCCAGCTGAACCTCCGCTTCCTGGTGGAGCCCACCGAATACAGCGGCGAGAACAACCAGGCGCTGGAGTCGGCCGCTTTGATGCGTGACGCCGTCGAACGCGTTGCCGTGACAGGCGCGCTGTCGGTGCTCCGCCGCAGCCGCGGCAGGTGGGCCCCCGTCTGA	MPSFQTRLKITGLKPGHPPEAVMAAAVEALGTRHHVESNQLDIAGGVPQLNLRFLVEPTEYSGENNQALESAALMRDAVERVAVTGALSVLRRSRGRWAPV				NA	NA	NA	NA	NA
D1-17_03317	1152			hypothetical protein	ATGCCTGGTGAAGACAGGCCGCTCCAGCATGACGACAAGATAGACCTTCTCCTCCAGACCGGCGGCATTGAGCGCGCGGCGGCCCCAGGCAGTGCAGGGGATCTGGTGCGGCAAGTGGCGGACCTCTACGGATCCGGGCTGCGCCGGATCATGGAGATCCTGCGCGATCAGGGAAAGCTTGACGACGCCACGGTAGTAGCACTGACGGGTGACCGCCTGGTGTCGGGCCTCCTGGTGCTTCACGGGCTGGATCCCCGCCCGCTGGAGGCGAGGGTCGCCGTGGCAGTGGACCGGCTCCGGCCCTACCTTGGCTCGCAGGGCCGTGACGTGGAGCTGGAAGGCACCAGCCAGGACGGTGTGGTGCGGCTCAAACTTTTCCGCACGCATCCCGGGGGCCCGCCGTCGTCCGCTTCGCTCAAGTCCGAGGTAGAAGCGGCGATCAAGGCTGCGGCACCGGAAGTGACCGCCATAGACGTCGCGGAAGTGGCAAAACAGGCCGGAGCGCCCGAACTCATCCCCGTGGACTCGTTCCCTGTCCGGGCGAACAATCCTGCGGTCGCAACACCCGCAGGGCCTTGGCAAGACATGTCCGGCGGCACATGGGAACCGATACCGGAAATCGCGGGTCTTGAATCCGGCGAGGTCGCGGCGTTCCTGGTTGGCGGCTACCCGGTACTGGCCTGCCGCACTGGCCAGGACCTGTACGCGTATCGCGACTATTGCCCGCGCTGCACCGGCTCCCTGGCAGGCGCATCCCTGCACAGGTCTGCCGGCACAGAGGCCGGCGGCAGCCTCCTCGGCTGCCCCACCTGCCGGGGCCACTTTGATGTGCGGCGTGGTGGCGCCTGCCTCGAGGACAGGGACCTCCACTTGGATCCGCTTCCGCTGCTGGCCCAGGGTGGAGTGCTGTGTGTAGCTATTCCGGGGGGTCCGGAGCATGCCGGACCCCTGCCAGCCGTCCCGCCTGCTCCAGGTCCGACAGAGGCCACGCCCGTACAGGCCATTCCGCTGGTCGCACCCGCAGGATTCAACACCGCCCCCGTACTGGCACCCGGGCCCGCGTCACCGGCTGTTGCTGCACCGGCTGTGGCCCCGCCGGAACTTCCTGTGACGGCGGCGGACTTGCCGGCAGCTGCAGCGCAAGACAGGTGA	MPGEDRPLQHDDKIDLLLQTGGIERAAAPGSAGDLVRQVADLYGSGLRRIMEILRDQGKLDDATVVALTGDRLVSGLLVLHGLDPRPLEARVAVAVDRLRPYLGSQGRDVELEGTSQDGVVRLKLFRTHPGGPPSSASLKSEVEAAIKAAAPEVTAIDVAEVAKQAGAPELIPVDSFPVRANNPAVATPAGPWQDMSGGTWEPIPEIAGLESGEVAAFLVGGYPVLACRTGQDLYAYRDYCPRCTGSLAGASLHRSAGTEAGGSLLGCPTCRGHFDVRRGGACLEDRDLHLDPLPLLAQGGVLCVAIPGGPEHAGPLPAVPPAPGPTEATPVQAIPLVAPAGFNTAPVLAPGPASPAVAAPAVAPPELPVTAADLPAAAAQDR				NA	NA	NA	NA	NA
D1-17_03318	2820	ppc	COG2352	Phosphoenolpyruvate carboxylase	ATGGCTGACACTGCAACCAATCCTGAAACAGATCTCGCCGCCGAACTCCGCGCCGACGTGCGCCGCATCTCCACCCTGCTGGGCGAATCGCTGGTCCGCCAGCATGGCCCCGAACTCCTGGATCTCGTGGAGCAGGTGCGTCTGCTCACCAAGGAGTCCAAGGAAGCCGCCCGCGGCGGGGCGGACGCCACGGGTCCGTGGAGCGCCCACGACGTCGTTGCCCAGGTCCGGGAGCTCCTCGCCTCCCTGCCGCTTGAGCAGGCGACCGACCTGGTCCGCGCCTTCGCCTTTTACTTTCACCTCGCCAACGCCGCCGAGCAGGTCCACCGCGTGCGCGGCCTGCGCACGCGGCAGGAGAAGGACGGCTGGCTTGCCAAGGCCGTGGAGGACATCGCCGGGCAGGCCGGCTCCGCGGTGCTCCAGGACGTGGTCAACGAACTGGACGTGCGTCCGGTCTTCACCGCCCACCCCACCGAGGCCTCGCGGCGTTCCGTACTGGACAAGATCCGCAAGCTGTCCGATGTGCTGGCCCAGCCCACCGCTGAAGGCACCACCGCCCGCCGCCGCCAGGACCGCCAGCTGTCCGAAATGATCGATCAGATGTGGCAGACGGATGAGCTGCGCCAGGTACGCCCCACCCCCGTGGATGAGGCGCGGAACGCTATCTACTACCTCAACAGCATCCTCACCGACGCCCTGCCGGAGATGCTCACGGACCTGTCCGCGCTTCTGGAAGAGCACGGTGTCACGCTTCCCGCACAGAGCGCGCCCATCAAGTTCGGGTCGTGGATCGGCGGTGACAGGGACGGCAACCCGAACGTCACCGCGGCCGTGACGCACGAAATCCTGCAGCTGCAGAACCAAAACGCCGTGCGGATCAGCATCGGGATGATCGACGAGCTCATCTCGGTCCTGTCTAACTCCACCGCGCTCGCCGGCGCGGACCAGGCTTTGCTTGATTCGATCGACGCCGACCTTGCCAAACTCCCTGGACTGGACAAGCGCATCCTCGAGCTCAACGCGCAGGAGCCCTACCGGCTCAAACTTACGTGCATCAAGGCCAAGCTCATGAACACCGCCAAGCGGGTTACTGCGAACTCAGCCCACCAGCCGGGCCGTGACTACACCTCCACAGAGGAGCTCATTTCCGAGCTCGAGCTGCTGGAGCTCTCGCTGCGCAACCATTCGGCATCCCTCGTCGCCGACGGTGCCCTGGCGCGCGTCCGGCGCGCCATCGCCTCGTTCGGCCTGCACCTGGCCACCCTGGACATCCGCGAACACGCCGACCACCACCATGACGCCGTCGGTCAGCTCATGGACCGCCTCGGCGGACCCGGCATCCGGTACGCCGAGCTGACGCGTGAGCAGCGGCTTGAGGTGCTGAGTGCGGAACTGGGCTCCCGCCGGCCGCTGTCCGGCCACCCCATCAGGCTCGACGGCGTCGCTGACGGCACGTACGACGTCTTCCGCGAGATCCGGCGCGCCCTGCGCACCTATGGCCCGAAGGTCATCGAGACCTACATCATCTCCATGACCCGCGGCGCCGACGACGTCCTTGCCGCTGCCGTCCTGGCCCGCGAGGCCGGCCTGGTCAGCCTCTTCGGGGACGCCCCGTACGCCAAGATCGGTTTCGCCCCGCTGCTGGAAACCGTGGAGGAGCTGCGCGCCTCCGCCGAGATCGTGGACCAGCTGCTGTCCGATTCCTCCTACCGTGAGCTGGTCCGGCTGCGCGGCGACATCCAGGAAGTCATGCTCGGCTACTCGGACTCCAACAAGGAATCCGGCGTCATGACCAGCCAGTGGGAGATCCACAAGACCCAGCGGAAGCTGCGCGACGTCGCCGCAAAGCATGGCGTACGCGTCCGCCTCTTCCATGGCCGCGGCGGTTCCGTGGGCCGCGGCGGCGGGCCGACGTATGACGCCATCATGGCCCAGCCCAACGGCGTCCTGGAAGGCGAAATCAAGTTCACCGAACAGGGCGAGGTCATCTCCGACAAGTATTCCCTCCCGGAGCTGGCCCGGGAGAACCTGGAGCTTTCGCTCGCGGCCGTTATGCAGGGTTCCGCGCTGCACCGAACCCCCCGTACATCCGATGACCAGCGCGAGCGCTTCGGCCACGTCATGGAGATCATCTCCGACGCTGCCTTCGCCCGTTACCGCAGCCTGATAGACCACCCGGACCTGCCCGCCTACTTCATGGCGTCCACCCCGGTGGAGCAGCTGGGCTCGCTGAACATCGGCTCCCGGCCCTCCAAGCGCCCGGACTCCGGCGCCGGACTGGGAGGCCTGCGGGCCATCCCGTGGGTGTTCGGCTGGACGCAGTCCCGGCAGATCGTGCCCGGCTGGTTCGGTGTGGGTTCTGGTCTGAGGGCTGCCCGAGAGGCAGGAAACTCGGCCCAACTGGTGGAGATGATGGACGGCTGGCACTTCTTCCGCTCTGTCCTCTCCAATGTGGAGATGACCCTGGCAAAGACGGACCTGGACATTGCGGGCTATTACGTGGACACCCTGGTTCCCAAGGAACTGCACCACCTTTTCCGCGCCATCCGCGAGGAGTATGAGCTGACCGTCGCCGAGGTCCAGAACCTCACCGGCGAAAACGTGCTCCTGGATGCCCAGCCTACGCTGAAGCGCTCACTGGAAATCCGGGATCAGTACCTCGACCCCATCAGCTACCTCCAAGTGGAGCTGCTGCGCCGTGTTCGCACTGAAGCCGCGAAGGGCAAGACTGTGTCAGGAGCAGAGATTGACGAGCGCCTTCAACGCGCCATGCTGATCACGGTCAACGGAGTCGCAGCGGGCCTGCGGAACACGGGATAA	MADTATNPETDLAAELRADVRRISTLLGESLVRQHGPELLDLVEQVRLLTKESKEAARGGADATGPWSAHDVVAQVRELLASLPLEQATDLVRAFAFYFHLANAAEQVHRVRGLRTRQEKDGWLAKAVEDIAGQAGSAVLQDVVNELDVRPVFTAHPTEASRRSVLDKIRKLSDVLAQPTAEGTTARRRQDRQLSEMIDQMWQTDELRQVRPTPVDEARNAIYYLNSILTDALPEMLTDLSALLEEHGVTLPAQSAPIKFGSWIGGDRDGNPNVTAAVTHEILQLQNQNAVRISIGMIDELISVLSNSTALAGADQALLDSIDADLAKLPGLDKRILELNAQEPYRLKLTCIKAKLMNTAKRVTANSAHQPGRDYTSTEELISELELLELSLRNHSASLVADGALARVRRAIASFGLHLATLDIREHADHHHDAVGQLMDRLGGPGIRYAELTREQRLEVLSAELGSRRPLSGHPIRLDGVADGTYDVFREIRRALRTYGPKVIETYIISMTRGADDVLAAAVLAREAGLVSLFGDAPYAKIGFAPLLETVEELRASAEIVDQLLSDSSYRELVRLRGDIQEVMLGYSDSNKESGVMTSQWEIHKTQRKLRDVAAKHGVRVRLFHGRGGSVGRGGGPTYDAIMAQPNGVLEGEIKFTEQGEVISDKYSLPELARENLELSLAAVMQGSALHRTPRTSDDQRERFGHVMEIISDAAFARYRSLIDHPDLPAYFMASTPVEQLGSLNIGSRPSKRPDSGAGLGGLRAIPWVFGWTQSRQIVPGWFGVGSGLRAAREAGNSAQLVEMMDGWHFFRSVLSNVEMTLAKTDLDIAGYYVDTLVPKELHHLFRAIREEYELTVAEVQNLTGENVLLDAQPTLKRSLEIRDQYLDPISYLQVELLRRVRTEAAKGKTVSGAEIDERLQRAMLITVNGVAAGLRNTG	PGPT0001165_1116	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
D1-17_03319	831			hypothetical protein	ATGAGCACCGCACCCGACGCCCAACTGCAGCGCTGGCAGCGTTTCCGCGCCAACCGCAACGCCGCGCTCGCAGCCGAGCACGGCTGGCTTACACTCACCTCGTTCCAGTGGCTCGACGGCCAGCCGTCCGCCGTCGACCTCGTCCCGGGCCTGTGGTCGGCGGACAGCACGTCGGCGGTCCTCACCGCGTCCGCGGCTGACGGGCTCACACTCGTATCCACCGGGGAACCGGTGGACGGGACCATCTCGGCGCGGCTCGCCAATGAGGAGTCGCTCATGTGGGTGCAGTTCGGCGGCCCGGACGGCCGGCAGGTTGTGATGGAACTGGCCATGCGCGCCGACAGGTATGCCATCCGCACCAGGGATTCCCAGTCGCCGGTACTCACAGAGTTCGACGGCGTGCCCACCTTCGAGTACCGGCCCGACTTTGTGGTGGAGGCCAGGTTCGAGCCCTATCCGGAGCCGGTGGACATCCCGATCGCCACCGCCAATCCCCTGGTGGACGGCGTGCACCGCAGCGTCGGCGAGCTGGTCTTCCGGCTGCCCGGGAAGGACCATGAGTACCGGCTCCATGCCGAGGAGGAGAAGCTCGGGGCCCTGACCGTCACATTCCACGACGAGACGAATGGAGACAGCACTGACGAGTGGCGGAAAGTCTCCACGGCCCGCCCCCGCGTCGACGCGTCAGGCCAGGCAACCGTGGTCCTGGACTTCAACCGCGCCATCAACTACCCCAGCGCCTTCACGCCCTACGGCACCTGCCCGATGCCCGTACCGAACAACAGCCTGGACGCCAGGATCGAAGCAGGCGAAAAGCGCTCCACCGCCTGA	MSTAPDAQLQRWQRFRANRNAALAAEHGWLTLTSFQWLDGQPSAVDLVPGLWSADSTSAVLTASAADGLTLVSTGEPVDGTISARLANEESLMWVQFGGPDGRQVVMELAMRADRYAIRTRDSQSPVLTEFDGVPTFEYRPDFVVEARFEPYPEPVDIPIATANPLVDGVHRSVGELVFRLPGKDHEYRLHAEEEKLGALTVTFHDETNGDSTDEWRKVSTARPRVDASGQATVVLDFNRAINYPSAFTPYGTCPMPVPNNSLDARIEAGEKRSTA				NA	NA	NA	NA	NA
D1-17_03320	1197	acdA_3	COG1960	Acyl-CoA dehydrogenase	ATGATGCCCTCTGCCATCGAAGCTCTGCCCGCGGCAGACTTCTACGAGTACGAAACGCTGCTCAGCGAGACGGAACGGCACAAGCTCAAAGAGCTGCGTGGGTTCCTTGCGGCAGAGGTCGCGCCGTACGCGGAAGACTGGTGGAACAAGGCCGAATTCCCGGCGCATCTCCTGCCGAAGCTTGCCGCGCTGGAGCTCAGTACCCCCACCCGGCGCGGCTACAGCAACCTCTTCGCCGGGCTGGTGATCGCCGAAATGACCAGGGTGGACACCTCGATCGCCACGTTCTTTTTGGTACATCACGATCTCTTCGTGGAGGCACTGCACGGGTTCGGTTCCGAAGACCAGCGGAGCCGGCTGCTCGCCGACGCCTCGAACCTGCGCACCACCGGTGCATTCGCGCTTACCGAACCGGGGCACGGTTCGGACGTTGCCGGGGGAATGGAAACCCGGGTGCGCCGAGTTGCGGGAGGTGACGCCGGCGGTGCCGACTGCTGGGTGCTGAACGGCGCCAAGCGCTGGATCGGCAACGGGACGTTCTGCGACTACATGCTTGTCTGGGCGCGTGACGAGGCGGACGGTGCGGTGCGCGGATTCATCGTCGACGCCGCTCTGCCCGGCGTGAGCCGCCGGCGGATCGACAACAAGATCGCCCTGAGGACCGTGCAGAACGCCGACATCCTGTTCGAGGACGTCCGCATCCCCGAGGCCGACCGGTTTGCCGGCATCAGCAGTTTCGAGGACACGAATGAACTGCTGCGGGGGTCGCGGATCATGGTGGCGTGGCAGGCAGTGGGGCAGCAGCTGGCCGCGTTCGACGTCGCCAGGCAGTACGCGGTTGAACGCGAGCAGTTTGGGCAGCCGCTGGCGAAGTTCCAGCTCGTCCAGCAGCAGCTCGTGGCGATGCTGGGCAATGCGGTGGCGAGCATGGGCATGATGGTGCGGATCGGGCAGCTGCAGGACAGCGGCGGCGCGGATATGGCACAGGTGGCGCTGGCGAAGTCTTACACCTCGGCGCGGATGCGCGAAACAGTGGCAGCCGGCCGGTCCCTGCTGGGCGGCAACGGCATCGTCACGGACTACCGGATGGCCAAGATCTTCGCCGACGCCGAGGCCATCTACACTTACGAGGGCTCCTACGAGATCAACACGCTCATCGTGGGCCGCGCCGTCACCGGGGTTTCTGCGTTCACGTGA	MMPSAIEALPAADFYEYETLLSETERHKLKELRGFLAAEVAPYAEDWWNKAEFPAHLLPKLAALELSTPTRRGYSNLFAGLVIAEMTRVDTSIATFFLVHHDLFVEALHGFGSEDQRSRLLADASNLRTTGAFALTEPGHGSDVAGGMETRVRRVAGGDAGGADCWVLNGAKRWIGNGTFCDYMLVWARDEADGAVRGFIVDAALPGVSRRRIDNKIALRTVQNADILFEDVRIPEADRFAGISSFEDTNELLRGSRIMVAWQAVGQQLAAFDVARQYAVEREQFGQPLAKFQLVQQQLVAMLGNAVASMGMMVRIGQLQDSGGADMAQVALAKSYTSARMRETVAAGRSLLGGNGIVTDYRMAKIFADAEAIYTYEGSYEINTLIVGRAVTGVSAFT	PGPT0021815_583	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
D1-17_03321	795			putative oxidoreductase	ATGGACATCAAAGGTTGTGTCGCGCTGATCACCGGTGGGGCGTCCGGACTGGGCGCGGCCACTGCCCGGCGGCTGTTCGGAGCCGGCGCGTCAGTGGTGCTCGTGGACCTCGATTCTTCCGCAGGCGCCGGGTTGGCCGACGAGCTGAACTCCCAGGCGTCCGCCGGAAACAAGGCCATCTTCGTTCCCGCCGACGTCACCGTCGAGGACCAGGTGCAGGCCGCCGTCGACGCCGCATCCGCGCTCGGTGCGCTGCGGATTGTGGTGAACTGCGCCGGGATCGCCACCCCCGGGAAGGTGCTGGGCCGGGACGGTGTGCTGCCGCTGGATACCTTCAACCGCGTCATCCAGATCAACCTTGTGGGCACCTTTAATGTGGTCCGCCTGGCCGCTGCCGCTATGAGCACCACTAAAACGGCGTTCACCGAACTGGGCGGGGAGGAGCGCGGCGTCATTGTCAACACAGCCTCTGTTGCCGCATTCGACGGCCAGATCGGCCAGCCCGCCTATGCCGCGTCGAAGGGGGCCGTGGCGGCCATGACCCTGCCGCTGGCCCGCGAGCTCGCCCGGTCGTTGATCCGGGTGGTGACCATCGCCCCCGGCATCTTCGAAACACCCATGATGGCCGGCCTTCCGCCGGAGGCCCAGGACTCACTGGGCAAGCAGGTGCCGCATCCGTCCCGCCTCGGAAGGCCTGCCGAGTACGCCAACCTCGTAGCGCACATTGTGGACAACGCCATGCTCAACGGGGAAACGATCCGCCTCGATGGCGCCATCCGAATGGGTCCAAAATGA	MDIKGCVALITGGASGLGAATARRLFGAGASVVLVDLDSSAGAGLADELNSQASAGNKAIFVPADVTVEDQVQAAVDAASALGALRIVVNCAGIATPGKVLGRDGVLPLDTFNRVIQINLVGTFNVVRLAAAAMSTTKTAFTELGGEERGVIVNTASVAAFDGQIGQPAYAASKGAVAAMTLPLARELARSLIRVVTIAPGIFETPMMAGLPPEAQDSLGKQVPHPSRLGRPAEYANLVAHIVDNAMLNGETIRLDGAIRMGPK	PGPT0002265_65	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-17_03322	1293			hypothetical protein	ATGGACCAGCCTGGCGCGTCACCCACCCCTGCGGCCCGGCCGCTCCCCGGCGAGGCAACCACCCCCCACGACTGGGCCGACCGTGCCAATGAAGCCGCCCGCTCGGTCACCCGCATGTTCGGCCAGCGCCTGTTCTTCCTCCCGGGAACGCACCTTGCCGCCACCGTCCGGCCAACCGGTTGCTTCGGGAACCTCACCCGCCCCTGGCACTACTGGTGGCAGGCGCACTACCTGGATTGCCTCGTGGATGCGGTCCGCCGCGAGCTCGGGCAGCCAGGCCAGCAGCCCGCAGCGTTCGACGGCGACGCGCGCCTGAGCGCCGGCACGCTCGCCTCCCGCCTGGTCACCGGCATCCGGCTGCGCAATTTCTTCACCTTCGTCAACAACTACTACGACGATATGGCCTGGCTGGCCCTCTCCACCCTCCGGCTCGAGAAGCTGGCGGAGGAGGAAAGCCGGCGCCCGGTCTCCCGCCGATACGCCCGCATCCGCAAGAGCCTGACGCTCCAGTTTGATTCCGCCTCCACGGACCACCTTGGCGGCGGCACCTTCTGGAGCACGAAGCGGGACTTCAAGAACACCCCGGCGACAGCCCCGGTGGCGCTGTACTACGCCCGCACGGGCAACCCCGGCAAGGCGCAGGCGCTGCTGGACTGGCTCGATGCCAGGCTCTTCGATGCCGGCCGGGGACTGTACCTGGACGGGCTTCGGATCGGCCCGGGCGGCGAAACCACGCTGGAGAATGCGGTCTACACCTATAACCAGGGCCCGGTGCTCGGTGCCCTGCTGGAACTTGGCGGCGGGAGGAATGTGGAGCGCGCGGCCGTGCTGGTCGATGCCGTCGCACGGCACCTCACGCTGGCGGGCACGGGCACCGGAACGGGCAGCGCAGCGGGCACGGGCGGGGGGACGGGCCCGGCGAAAGGCATGGTCCTTCGGTGCGACGGAACCGGCGACGGCGGGCTGTTCACCGGAATCCTCGGCCGGTACCTTGCGCTCGCCGCCCGTGACGCGCGCCTGCCCGGGGCGACGCGCGCCACAGCCACTCGGCTGGTCACGGGCACGGCGGAGGCGCTGTGGTCCGGCCGGAGGTCCGTGGCAACCGGCGAAGCCCTCGCCCGGCACGGCGGACCGGGACGCCTGGTTTTCTCCCACGATCCGTGGCGGCCGGCGACGGACACGTATCCGCCGGGGGCCGCCGTCGAGCTTTCCACGCAACTCCAGGCCTGGATGGTCCTGGAGGCCGCAGCGGCGGTGACGGCGGCGCGGCAGCCGGGGATGCCAGTCCGCTAG	MDQPGASPTPAARPLPGEATTPHDWADRANEAARSVTRMFGQRLFFLPGTHLAATVRPTGCFGNLTRPWHYWWQAHYLDCLVDAVRRELGQPGQQPAAFDGDARLSAGTLASRLVTGIRLRNFFTFVNNYYDDMAWLALSTLRLEKLAEEESRRPVSRRYARIRKSLTLQFDSASTDHLGGGTFWSTKRDFKNTPATAPVALYYARTGNPGKAQALLDWLDARLFDAGRGLYLDGLRIGPGGETTLENAVYTYNQGPVLGALLELGGGRNVERAAVLVDAVARHLTLAGTGTGTGSAAGTGGGTGPAKGMVLRCDGTGDGGLFTGILGRYLALAARDARLPGATRATATRLVTGTAEALWSGRRSVATGEALARHGGPGRLVFSHDPWRPATDTYPPGAAVELSTQLQAWMVLEAAAAVTAARQPGMPVR				NA	NA	NA	NA	NA
D1-17_03323	612			hypothetical protein	ATGGCCGTTGAACTCGAGGAGCTCTTAGTCAAGGACGCTGCGGAGTGGCGCGCGTGGCTGGAACAGAACCATGCCAGCAGCCCGGGGGTGTGGCTGGTGCTCCACAAAAAGGGCGGCGGCGTCACCGAACTGGACTATGAGGCCGCGCTCAATGAGGCGTTGTGCTTTGGCTGGATTGACGGCCAGGGCAGACGGCGGAACGATGAAAGCTCCTTCCAGAGAATGACCCGGCGCGGTCCGAAGAGCGTGTGGTCGGCACGGAACGTGGACCGGGTCGGCCGCCTTGAAGCTGCCGGCCGCATGACAGAAGCAGGGCAGGCCGCCGTCGCAGCGGCGAAAGCTGACGGCCGATGGGAAGCCGCCTATGCAGGCCAGGCAGTTGCCGAAGTGCCCGAAGATCTCGCTGCTGCCATTGCCGCGAATCCCGCCGCCCAGGCGATGTTTGACGTGCTGAGCTCGGTTAATCGGTACGCCCTGATCTACCGCACCAACTCGGTGAAGCAGGCCTCCACCCGTGCCCGCAAAATAGCCGGCTTCGTGGAGATGCTGGCCCGGGGTGATACGCCCTATCCCCAGAAGAGGCGTCCCGGCGGGCAAGCCAGCAAATCCTGA	MAVELEELLVKDAAEWRAWLEQNHASSPGVWLVLHKKGGGVTELDYEAALNEALCFGWIDGQGRRRNDESSFQRMTRRGPKSVWSARNVDRVGRLEAAGRMTEAGQAAVAAAKADGRWEAAYAGQAVAEVPEDLAAAIAANPAAQAMFDVLSSVNRYALIYRTNSVKQASTRARKIAGFVEMLARGDTPYPQKRRPGGQASKS	PGPT0006365_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
D1-17_03324	765			hypothetical protein	ATGTTGCGTGTCCGCCCCATCCACTTCACGTCCCGGATCGAAGAGTGGGAGCGGCTTCTCACCGACCTGGGCATGGTTAAGACGCTGGAAGACGGCACCTGGCGTGAGTTCGACGCCGCTTCCGGCCGGCTCGCCCTGCAGCACACACCCGCCGAGGCGGAGAACGACGGCACCACGTCCCTCGCCGTAGAGGTGGGTGACGTGGAGGAATTCGCCCGCCGCACCAACCTCGCGGCGTCGGAGACGGGAGCCACCCCGGCAGAGCTCATCCCTGCGGATATCGGTGACTCCTGCAGGATCACGGGCGAGGACGGTTTCAGTTTCATGGCGGACAAGGCGACCCACTGGTCGCAGTGTGCCGACGCAGATACGGGGTTGTCCGTCGTCGGGGTTTGGTTCACGGAAGACACTGCTGCAGCTGCTGCAACACTCAGCAGCATCGGGGCCAGGTTCCGGCCCGTGCCGGATGACTTCGAGACCGCAGAGTTTACGGCCAAGAATGGCGGGATGCTGGTGGTCCGCCCCGGTTCCGGCCCTGCACGCTCCGGCTTTGGTTTCGAGTACGACGGCGACCTGGACGCCTTGCGCAACCGCCTCACCTCGGCGGGGCACAAGGTCACCCTGACCGAGGAGGAGTTCGCCCGTTCCCTGCACGTTGCCAATCCAGACCACACTGCCCACCCGAACGCTGCCGGCGATGGTCGGCCCGGCCCTCACGTTCCGCCAACGATCTGGATCTCAAAGCGAGCTCCCTTGGAACAGTGA	MLRVRPIHFTSRIEEWERLLTDLGMVKTLEDGTWREFDAASGRLALQHTPAEAENDGTTSLAVEVGDVEEFARRTNLAASETGATPAELIPADIGDSCRITGEDGFSFMADKATHWSQCADADTGLSVVGVWFTEDTAAAAATLSSIGARFRPVPDDFETAEFTAKNGGMLVVRPGSGPARSGFGFEYDGDLDALRNRLTSAGHKVTLTEEEFARSLHVANPDHTAHPNAAGDGRPGPHVPPTIWISKRAPLEQ				NA	NA	NA	NA	NA
D1-17_03325	540			hypothetical protein	ATGAACGTGCGCACCCCCGACCCCAATCCTGGCTGGCTCTCCGACGAGGACCTCTTCGAGGCCCGCGGACGGCTCCCGATGGTCTATGTCGAGGCCGTGCCGGTCCGGCTCGATCCGCTGGGTTTTGTGAACGAGGTGGGCACACTCCTGCAGGCAGATGCAGACGGCACCATGGTGCGTTCGCTCGTTTCCGGCCGCGTGCTCTACCGCGAAACCATCCGCGCCGCGCTCCTGCGCCACATGGAAAAGGACCTCGGCCCGCTCGCCTTCCCGCAGCTGCCCATCAGCCCCGTCCCGTTCACCGTGGCCGAATACTTCCCCGCCCCGTCCCACACGGGCTTCACGGACGACCGCCAGCACGCCGTGTCACTGGCCTACGTCATTCCCGTGACCGGCGAGTGCGATCCCCGCCAGGATGCCTTGGAACTGACCTGGATGACACCGCACGAAGTCCTGAGCGAAGGCGTGCAGCTGGAGTTCAGCGGCGGCCGCGGAGCACTCGTGCGCCAGGCCCTGGCCTACGCCGGCGTCGGCGTCTGA	MNVRTPDPNPGWLSDEDLFEARGRLPMVYVEAVPVRLDPLGFVNEVGTLLQADADGTMVRSLVSGRVLYRETIRAALLRHMEKDLGPLAFPQLPISPVPFTVAEYFPAPSHTGFTDDRQHAVSLAYVIPVTGECDPRQDALELTWMTPHEVLSEGVQLEFSGGRGALVRQALAYAGVGV				NA	NA	NA	NA	NA
D1-17_03326	1050			hypothetical protein	ATGAACCACCTTCCAGCTGCCCAGACCTACCGCGAACAGCAGGCTGGGTCTCTGCAGGCGGGCGACCATCTTCTCCTGCCGGATGGCCTGCGGCCAGCCGAAATCCACTCTGTGCACATTGAAAATGATGACTTTGGCGTGCCTGCCCTCGTCCTGGCGACGCTGACCGGGGGCGGAATGCTGCGTATCGCGGCCGGCTCCTCCGTCCGGGTTACAGATGCGGCCGGAGCTGAACCCGAAGTTGCCGCGGACACCGCCGATGCTCTGGCCGACGAGCAACTGGAAGCTGCCGACGCCGAAGCGTCCAAGGCTGCTGCCCCGCTTCAGGTGGCCGGGAACCAGGAGGCGGGGGCGGCGCTGCCCCCGGCGCCTTCCGCCGTCGTCGTACCTCCCCTGCCGGCCACCACTCCGGCGGTCATCGGCCCCAGCGCCGAAGACCTAGCCCTCATCCCGCAGCCCAGCGGAACTCCCGAATCCGTGGTGGAGGCGGTGGCCGAGGCGCATCCGGATTCCGTCGGCGTGCAGCTGCTGGCGGACAAGCTGGTGAAGGGCATCAACACGAAGTCCGGCAGTTGCCTGAAGGACCTCAGCGATCTTGCCCACGAGCTGTTCATCATGCTCAAGGATGCGGACGGCGCGCTGGCCGTGGCCGACCTGCTGAATGTGCTGCCGTTTGACGGCAATCCCGGCAGGTGGTCGTCGGTGGAGGCGGCGCTCGCACTGTCGACGTACATCTGCCGCCAGACCGGCCAGAAGGAACGCGCGGCGGTCTACGAAAAGCTGCTCCGCGCCCCCGACAACCAGGAGACCGACCCGTTCAAAGCCCGCATGCAGGCGCGGGTGCGCCAGCGGTCGCTGAACGAACCTAACCTGTACGACAAAGAGATCTTCCGTTCCATCGACAACTCGAATCACGAAGCTGAACGGGAGTGGCGGCTGCTGCGCCTGGAGTCGCTGCTGTTCCTGCGCGCCCACGGCGGATCCCAGACCATCAGCGCCAGTGAGCTGGAGCGGCGCATCGCCAACGAGCTGGAGTCGGTCCGGGCCTAG	MNHLPAAQTYREQQAGSLQAGDHLLLPDGLRPAEIHSVHIENDDFGVPALVLATLTGGGMLRIAAGSSVRVTDAAGAEPEVAADTADALADEQLEAADAEASKAAAPLQVAGNQEAGAALPPAPSAVVVPPLPATTPAVIGPSAEDLALIPQPSGTPESVVEAVAEAHPDSVGVQLLADKLVKGINTKSGSCLKDLSDLAHELFIMLKDADGALAVADLLNVLPFDGNPGRWSSVEAALALSTYICRQTGQKERAAVYEKLLRAPDNQETDPFKARMQARVRQRSLNEPNLYDKEIFRSIDNSNHEAEREWRLLRLESLLFLRAHGGSQTISASELERRIANELESVRA				NA	NA	NA	NA	NA
D1-17_03327	672			hypothetical protein	ATGCTTCGTGAACCCGCAAAAGTTGCCGAATGGCATGGCTGGCAGGCCGACGACCTGGCCTCGGAAATCAAAGAGATCTACTTCAACAGCACCGTAGTGGAAAGCCCTGACCACACGTCCCTGACCGTGGACGGCGGCGACGAGTTCACGCTCAAACCGGTGCCCACAGGAACTGAAGTCAGCGTGACGCGCGCGGCCCTGGACCACAACTCGGAGTGGGCCGCCTGGGACGAGGACATCACCCAGGGATGGCTCACCTTCCTGCAGCAGCTGCGATTCGCCTTGGAGCGACACCCCCACGCAAAGCGGCGCACCATCTTCTTCTCGGTACCCGGCTCAGGCGGTTCTGCCATTGAAAAACTCGGACTCAAGGATGTCCCCGCGCCTGGCGAGGAGTATTCGCTGACCCTGGGAACAGGCGAGGAGATCGCCGGCAGGGTCTGGTACAAGTCCAACCACCAGGTGGGACTCACCGTGCACAGTTATGCCGAGCACGGTGACGGCCTGCTGATCGTGGCGGACCAGCCCGTCATCCCGGACGTTCGGCCCGACGGGGGATCCATGGTGATCATTTCGACCTACGAGCTGGGGGCCCACGCCCTGGAAACCATCCGCACCCTCTGGGACGACTGGCGTGCTGAAAACTACCCCACATCGGAGCCGATCCACTGA	MLREPAKVAEWHGWQADDLASEIKEIYFNSTVVESPDHTSLTVDGGDEFTLKPVPTGTEVSVTRAALDHNSEWAAWDEDITQGWLTFLQQLRFALERHPHAKRRTIFFSVPGSGGSAIEKLGLKDVPAPGEEYSLTLGTGEEIAGRVWYKSNHQVGLTVHSYAEHGDGLLIVADQPVIPDVRPDGGSMVIISTYELGAHALETIRTLWDDWRAENYPTSEPIH				NA	NA	NA	NA	NA
D1-17_03328	1266	tgt		Queuine tRNA-ribosyltransferase	GTGCCGCCCGCCCGGCAGTCTGAATTTTCCTTCCGCGTGGGCAAACGCCTTATTGAAACCTGCCGACCCACCGCTGAGCAGGTGTCCGGCAACGGCGGCGGGTTCCTGGGCCGCACCGGCACCATCACCACGCCCCACGGCGAGATCCAGACACCGGCCTTCATCGCCGTCGGAACCAAGGCAACGGTGAAGTCCGTGCTGCCGGAATCCATGGCTGAGTTGGGGGCCCAGGCGCTCCTGGCCAACGCCTACCATTTGTACCTGCAGCCAGGACCGGACGTCCTGGACGAGGCGGGCGGGCTAGGCGCCTTCATGAACTGGCCCGGGCCCACCTTCACCGATTCCGGCGGCTTCCAGGTGATGAGCCTGGGCTCGGGGTTCAAGAAGGTCATTGACATGAAATCCGTTGACCAATCAGGGCCGGATGATGCTGTCGCAGCGGGCAAGGAGCGGCTTGCCCACGTGGATGATGACGGCGTGTGGTTCAAGAGCCACCTCAACGGGGACCGCCACCGCTTCTCGCCTGAGATCTCGATGCAGGTGCAGCACCAGATCGGCGCGGACATCATGTTTGCCTTCGACGAGCTCACCACGCTCCAGAACTCCCGCGGGTACCAGGTGGAGTCGCTGGAACGGACACGGCGGTGGGCGCTGCGCTGCCTTGAGGAGCATTTCCGGCTCACCGCGTCCCGGACGGGGAAACCGTACCAGGCACTGTTTGGCGTGATCCAGGGGGCCCAGTACGAGGACCTGCGCCGCAAAGCCTGCCGGGATCTCGGCGCCATGCCGTTCGACGGTTACGGGATCGGCGGGGCGCTGGAGAAGGAGAACCTCGGCACGATTGTCCGCTGGTGCAACGAGGAACTCCCGGAGAACAAGCCGCGGCACCTGTTGGGGATCTCCGAGCCGGACGATATCTTCACCGCCATTGAAAACGGGGCCGACACCTTCGACTGTGTCTCCCCTACCCGGGTGGCCCGTAACTCGGCGTTCTATACACCGACCGGCCGGTACAACCTTTCCGGGGCCAAGTACAAGCGCGACTTCGGTCCGTTGCAGGAAGGCTGCGACTGCTACGCCTGCCGGAACTACTCCCGCGCCTACATCCACCACCTGTTTAAGGCCAAGGAGATGCTCTCGGCCACGCTCATCTCCATCCACAACGAGCGCTTCGTGGTGAAGATGGTGGACGACGCCCGGCTTGCCATCGAGGACGGCTCTTTCTTCGAGTTCAAGGCCGAGACCCTCGGCCGCTACTACTCGTAG	MPPARQSEFSFRVGKRLIETCRPTAEQVSGNGGGFLGRTGTITTPHGEIQTPAFIAVGTKATVKSVLPESMAELGAQALLANAYHLYLQPGPDVLDEAGGLGAFMNWPGPTFTDSGGFQVMSLGSGFKKVIDMKSVDQSGPDDAVAAGKERLAHVDDDGVWFKSHLNGDRHRFSPEISMQVQHQIGADIMFAFDELTTLQNSRGYQVESLERTRRWALRCLEEHFRLTASRTGKPYQALFGVIQGAQYEDLRRKACRDLGAMPFDGYGIGGALEKENLGTIVRWCNEELPENKPRHLLGISEPDDIFTAIENGADTFDCVSPTRVARNSAFYTPTGRYNLSGAKYKRDFGPLQEGCDCYACRNYSRAYIHHLFKAKEMLSATLISIHNERFVVKMVDDARLAIEDGSFFEFKAETLGRYYS				NA	NA	NA	NA	NA
D1-17_03329	930			hypothetical protein	ATGACACGGCCTTCGCTTCCCAGTGGCTCAATCTGGCGCACCCAGGAACTGATCAGCGCCGGCCTTCATGCGCGTGCCATCGCCGCCTTGTTGCGCAGCGGGGAGCTAGTGCGTCCCCGTAGGGGCTGCTACGTTCGCGGCAGCTGGTGGAACGGCCTGAAATCCGGCACGCGCAGCCGCTACCTGGTTCACGCGCACGCCCACGGAACGCTTACGACGTCGGCGGGCGGCTTCGTTTACAGCCACACCTCCAGTGCCCGCCTGCACCGGCTGCACCTGTGGAATGTCGACGACAGGATCCACCTGACACAGCCGACGTGCCCGTCCCGAATATCGCACGGGCGCGACGTTGTTGCCCACACCAGTGCCCTGCGCCCGGGCGAGATCAGTTTCGTGGACGGACTCCCCTGCACGTCGCTGGAACGAACTGTTGTAGATTGCTGCCTGATGTTCACCCTTCGGCAATCCCTCATCCTTATGGACCACGCCTGCCGGCTTGGCGCGGACTTTGAGCTTCTGCGATCCCGCTGTGCTGAACTGACTGGACGCAACGGAGTCGTTGCACTGCGCGGGGCGCTCGAACTGGCAGATGGGCGGTCAGAGTCGCCGGGCGAAACACTGACCAGGGAGCTGCTCCGCAGGCTCGGAATCGAACCGCCCGAACTCCAGCATGTTGTGCAGACGGCACTGGGCGAGCATCGGCTCGACTTCGCCTGGCGCAAGAAGAAAGTGGCGCTCGAATTCGACGGCAAGGTCAAGTACTTCGACTATGCGCCTACCGGCGAAGTCCTGTTCGCGGAGCGCCGGCGCGAAAAGGCGCTGATGAAGCAAGGCTGGACATTCCTCCGCATCGAATGGAAGGACCTTTTCAACGAGGCGCATTTCAAGTACCGGGTGCTCCAGGCACTTGGCCGCGGCCCGGGCGGCTAG	MTRPSLPSGSIWRTQELISAGLHARAIAALLRSGELVRPRRGCYVRGSWWNGLKSGTRSRYLVHAHAHGTLTTSAGGFVYSHTSSARLHRLHLWNVDDRIHLTQPTCPSRISHGRDVVAHTSALRPGEISFVDGLPCTSLERTVVDCCLMFTLRQSLILMDHACRLGADFELLRSRCAELTGRNGVVALRGALELADGRSESPGETLTRELLRRLGIEPPELQHVVQTALGEHRLDFAWRKKKVALEFDGKVKYFDYAPTGEVLFAERRREKALMKQGWTFLRIEWKDLFNEAHFKYRVLQALGRGPGG				NA	NA	NA	NA	NA
D1-17_03330	729			hypothetical protein	ATGGGCCAGGAGGGCATCAGCGCCTCGGGACACCCTCGTCGCCTTATGGCCTGCGGAGACCACGGCTGCATCAAGAGCACCCGCCATGGCGTCGTCGTCCTCGACGATGAGCACATCCATGGCCTGGTTCCTTTGTCGCTGATCGGGGGCGCACATCCGTCTGCCCGCTTTGGACACTACCCCTTCTTCCGCTTTTTTGCTTTGCGTCCTCGAGGGCTCAAGCGCTGGCGGACGGGACGATCCGGCACCGGTTGCGGGCTCCCCACCCTGGCCGGCACCAAGGACCCATTCACCGCGTTCCTGCTCATGATGGGCGGACTGCTGATCGTTGGCGGCTACACATCCATCAACGCACTCGTGAAGGCCGAGCTGTTCCCGGCGTCGATCCGCGCGCTGGGTCTCGGACTTGGCTATGCAATTGCCAACTCACTCTTTGGCGGCACGGTTCCGCTGATCGGTGCTGCCCTGCAGAAGGCCGGCCAGGTGGATCTCTTCTTCACCTACGTCACGGTGGCGATCAGCCTGTCCCTGCTGGTCTACATCTTCGCGCTGAAGAACAAGAAGGCCACGCACCTGGACCGCGAACAGGGCGACGCCTGGTCGCGCGCTGCCACGGCCACGGACGCAGGTGCCACCACGGAAGCAGGGGCCAGGGACGACGCAGGTGCCACCACGGAAGCAGGGGCCAGGGACGACGACAAGGACCTCATCGGCGTCTCGCGGCGCTAG	MGQEGISASGHPRRLMACGDHGCIKSTRHGVVVLDDEHIHGLVPLSLIGGAHPSARFGHYPFFRFFALRPRGLKRWRTGRSGTGCGLPTLAGTKDPFTAFLLMMGGLLIVGGYTSINALVKAELFPASIRALGLGLGYAIANSLFGGTVPLIGAALQKAGQVDLFFTYVTVAISLSLLVYIFALKNKKATHLDREQGDAWSRAATATDAGATTEAGARDDAGATTEAGARDDDKDLIGVSRR				NA	NA	NA	NA	NA
D1-17_03331	537	regX3_3	COG0745	Sensory transduction protein regX3	GTGATCCTGCTGGATCTGGGGCTTCCGGACATGGACGGCCTGGAAGTGCTGCGGAAACTTCGCCAAGTCACCCCGTGCCCCATTCTGATCCTCACGGCCCGCGACGACGAGAGGAGTGTGGTGCTGGGACTGCGGTCCGGGGCAGACGACTATCTCGTCAAACCGGTAAAGCTAGTCGAACTGCTTGCGCGCATCGAGGCCGTCACCCGGCGGACGGGCCGCAGCGGCAGTCAGAGACAGCAAAGCATTGTGCTCGGGGACCTCGAGGTCGACGTCGACCGTCGTGTGGCGGCGCTGGGTTCGCGCGTGCTGCCGTTGACTGCCACCGAGTTCGATCTGCTGGCGCTGCTGGCCCGCCATGCAGGTTCAGTGGTCACCCGGGAGCAGATCCTGGACGCCTTGTGGGGTGATGCGTTCCTCGCATCCTCACGATCACTGGACGTTCACCTGACCGGCCTAAGGGCGAAGCTGCAACTTCCAGGCTTCATCATCAATGTGCGCGGGGTGGGTTACCGGATAGAGGCCGATCCAGCGTGA	MILLDLGLPDMDGLEVLRKLRQVTPCPILILTARDDERSVVLGLRSGADDYLVKPVKLVELLARIEAVTRRTGRSGSQRQQSIVLGDLEVDVDRRVAALGSRVLPLTATEFDLLALLARHAGSVVTREQILDALWGDAFLASSRSLDVHLTGLRAKLQLPGFIINVRGVGYRIEADPA	PGPT0015100_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015100-cpxR-K07662	NA	NA
D1-17_03332	1428	sasA_10		Adaptive-response sensory-kinase SasA	GTGAAACTGCGTGTCTTGGGCGTCCTCAGCCTGCTGGCCGTCCTCATGGTCATCCTCGTCTCCAGCACCATCCTGACATCCGCCAGCCGGGAGCTTACGCAGGAGCTCCAAATCAACCGGGTGGCAGCGCTCAACCGGTTCGCACAGGTTGCCTATGACGCCGCGCTGGACGGCGATTCCACTCAGCTGCAACGGGAGATGGACAGGTATTCCGAGCTTTACGAAGAGGGGCTTCTGATCCGCCTTCAGGAGCGGACCCTGCGCTCCGGCGGCCTCAGCGAAGAGAGGACAGATGTCCGGAACGCGGTGGCGAGGGCGAACCTGAACCTTAGCGACACGGTACTGGCCCCTTTGCAGCCGTTCGGAAACAGCTCCGAGGTGATCTCCCGGTCCTTTGGCAGTGCCAGCCAGGTGCTTGGCGAAGCCGTCCTGGAAGTCAACCTGGACGCGGCCCGACAGAAACTGCGGGACCGGTGGCTCGCCGTCGGGCTTGCGGCGTCCGCCCTCGTGGCAGTGCTCATCCTGGGCGCGGCGCGCGTGACCCGCTGGGTGCTGCGTCCTGTCCATCGCCTGAACGCGGCCGTGACCGAACTCGAAACGACGGGGCGGACCAGCCACCTTCCCGAGGACGGCCCGCCAGAGCTGAGGCAGTTGAGCCGTTCCTTCAGCGCGATGGCGCAGACCGTTAGTGAAAGCATCGATTCACAACGCCAACTGATAGCCGACACGTCCCATCAGCTGCGCAATCCCGTGGGCGCCCTGCGGTTGAGGATTGATCTGCTGCAGCTGGAATTGCAGACAGCCCGCGAACATACCGCCGCGGCGGGGGTACTGGCGGAACTCGAGCGGGTGGAGGAGATCCTGGACGGGGTACTGAAACTGGCGGCGGCTGAGCATCGGGCCTTCGAGGACTCCGCACGTGGCGGCGCTTCCGGCGGGACGAAGGACCCCATCGATCCCTACCCTGTACTGCAGGAAGAAGCCGAACGGGCAGAACCTGCCGCCCGCCGCGCCGGAGCCTCAATCCTCCTCCAGGGGCCACCGGACCGCCCTGCGTCACTGCGCTGCAACGCCGCCGAGCTCGCCCATATGGTGGGGGAACTCCTGAACAACGCGATCAAGTACGCCCCCGGCGCCCGCATTTCCGTTGCCCTCCGCGAGCGCCCAGGGGCAGCGGTAATCGAGGTTTCCGACGACGGTCCAGGACTTACGGAGGACGAGAGGGCCGCTGCGACCACCCGCTTCTGGCGGTCACGACGGAATCGGGAGGTTCCCGGAAACGGCCTGGGCATGACCATCGTCGACAAACTGGCGGGAGCCAATGGCGGCCGTCTGCTGCTGGCAGAAAATCCACCGCACGGCCTGATTGCCCGCCTCGAATTTCCCTCCTCGGCAGCCCATGTCGGCCAGGAGCAGCCGCATGGTTGA	MKLRVLGVLSLLAVLMVILVSSTILTSASRELTQELQINRVAALNRFAQVAYDAALDGDSTQLQREMDRYSELYEEGLLIRLQERTLRSGGLSEERTDVRNAVARANLNLSDTVLAPLQPFGNSSEVISRSFGSASQVLGEAVLEVNLDAARQKLRDRWLAVGLAASALVAVLILGAARVTRWVLRPVHRLNAAVTELETTGRTSHLPEDGPPELRQLSRSFSAMAQTVSESIDSQRQLIADTSHQLRNPVGALRLRIDLLQLELQTAREHTAAAGVLAELERVEEILDGVLKLAAAEHRAFEDSARGGASGGTKDPIDPYPVLQEEAERAEPAARRAGASILLQGPPDRPASLRCNAAELAHMVGELLNNAIKYAPGARISVALRERPGAAVIEVSDDGPGLTEDERAAATTRFWRSRRNREVPGNGLGMTIVDKLAGANGGRLLLAENPPHGLIARLEFPSSAAHVGQEQPHG				NA	NA	NA	NA	NA
D1-17_03333	1023			hypothetical protein	ATGGTTGATGTGATTCCGCAGGGAGGACTTCCACCGCGAAGGACGGCTCTTACGATCGGGTTGGCGGCGGGCTTGGCAGGGGCGCTGTTGCCGGTTCTGAGTGCGTGTACTCCGGAGAACCGTCCCGCCACCGTCACCGTGGCGGGGGGTGAACCTGGAGGCTTCTACCTGGAGTTTTCGACGCTGCTCGCAGAGTCGCTCCAGCGTCACGGGGTGGCGGACCATGCTGTGGCCCTGACCACCGGGGGCAGCCTGGACAATCTGGAAAGTCTTCTCACCGGCGAAGCGACCTTCGCCGTCGCACTCGCGGACGCAGCGGCGCAGCTGGCAGCCCAACCTAGGTCAGGCCTCGAAATTGCCGCCCTCGGAAAGGTCTATGAAAACTACGTCCACTGCGTCGTGCGCAGGAACAGCGGCATCCGGCACTTCACCCAGCTTGCCGGCAGGATTGTCGCTGTGGGCCAGCCCGGCTCCGGTACATCGCTCATCACTCCCCGCCTCATTCAGGCTGCCGGACTAAAGTCCTCGCCAGCGGGCGGCTCTACCAGCGGCTCGAGCCGTGCGAACACGGTAACCATCAGGAATCTTGGGCTGAATGATGGGCTCAAGGCACTCCAGAAGGGAGCAGTGGATGCCTTGTTCTGGTCCGGAGGAGTGCCCACTGCGGCCATCTCAGCCGCCAACAAGGAAACCGGGCTCGGGTTCCTCGACCTCTCTGCGCTGATCCCGGCGATGCGGACGCGTTACGGCATCTTCTATGACCGCGTCCTGATCCCTGAGGACGGCTATGAAGGCACTCCGGCAGTGTGGACCGTGGGGGTTGCCAACCTGCTCCTGTGCCGAAACGACCTGGATGAGCGCACGGTTAGGCGGACGGTCGAACTGCTGGTGAACCATGCCCAGGAGCTCGTTCCGCGATCCAGTCTCGGCGTCCAGTTCCTGAGCCCGGAATCGCTCATCAACACCGCCGGGCTGCCGCTGCATCCCGCGGCCGCGGCTGCCTACAAGGACCTGCACGGGTAG	MVDVIPQGGLPPRRTALTIGLAAGLAGALLPVLSACTPENRPATVTVAGGEPGGFYLEFSTLLAESLQRHGVADHAVALTTGGSLDNLESLLTGEATFAVALADAAAQLAAQPRSGLEIAALGKVYENYVHCVVRRNSGIRHFTQLAGRIVAVGQPGSGTSLITPRLIQAAGLKSSPAGGSTSGSSRANTVTIRNLGLNDGLKALQKGAVDALFWSGGVPTAAISAANKETGLGFLDLSALIPAMRTRYGIFYDRVLIPEDGYEGTPAVWTVGVANLLLCRNDLDERTVRRTVELLVNHAQELVPRSSLGVQFLSPESLINTAGLPLHPAAAAAYKDLHG				NA	NA	NA	NA	NA
D1-17_03334	1272			hypothetical protein	ATGAAAAGGATACGAGTGGCAAAATTCGTGGCAGCAGCGGCCATGGCGGCCCTGGCCGCATGCTCCGCGTCGCAACCCGGGCTCCTGAAAGCCGACGGCGTGCAACGCGAGTCCGCGGACCGGGCTGCATATTCCCCCGGACTGATAGCCCTCCGGGACTCCGCGCTGAAGCTGGGGGAGGCGCTGCTGGCTGACGGCGGCGACAGCGCCAGCGGCAATGCGGTTTCCTCGCCGGGCAGTCTGCTGATTGCCCTGGCGATGCTCCGCGCCGGGGCCGCTGGCGGGACGGCGGCTGAGATGGATGCAGTGCTGAAGCTTCCCGGGCTCAAACGGGACGAGGCAATGAACGCGCTGCTTGCTTCGCTGGAGCAGTTCGACGGCGACCCTGGCTCCGTTGACGAAGGGAACCCGCCGCGGAAGCCGGTAATGCACCCGGCAAACGGCCTCTTTGTGGACCAGGGGGTGGAGACCGGCGCCTCCTACCTCAACACACTGGCCCGGCTTTACGGCACGGGCGTGTATCCCGTGGACTTCAGCGACGAGGCGGTCACGAAGCCTGCGATCGACGCCTGGGTGGGGAAGAACACCGGTGGCCGGATCACGAACGCGCCGGCTGAATACGACCGCCGGAACACCTTCAGTCTCCTGAACACCCTGTATTTCGCGGCCGCATGGGGCTCGCCGTTCGATCCTGGCAGTACGTTCGATGCGCCGTTCACCACGGCGGCCGGTGAAGAAATCAATTCCCCCGCCATGCACACTCTCCTGTACCTGGATTACGCCGAGGGGCCGGGCTGGCGGGGCGTTGACCTTCCCTATGCCGAGGGCTTCGTCATGAGACTGGTCCTGCCGGACGCAGGAGTCGGAAGGGACACGCTGACCGCCCAGGAGTTGGGGAGCATCGCCGGCATTGTGGATTCGGCGCAGCGGCAAACGGTGCAGATCCAGCTGCCAAAGTGGGACCACAGGTGCAGCTTCGACCTGCGGAAGGTTCTCCAAGCCATGGGACTGAACAACACCCTCAACACCACAGTTGATTTCAACTCCATCCAGCCGGACTTTGCCATCACGCAGGCTGCGCAGGCAGTCAACATCACCGTCGCCGAGAAAGGTACCGTCGCTGCCGCCGCAACTCAGTTCAACGGCATGGTCACCAGCGCCCCGCCGCAGCCGGACCGGACCATCGAATTCGACAGGCCGTTCCACTATCAGATCGTCCACGTTGAGACGGGTCTGCCGCTGTTCATGGGCACGGTGGCGGATCCTCGTTGA	MKRIRVAKFVAAAAMAALAACSASQPGLLKADGVQRESADRAAYSPGLIALRDSALKLGEALLADGGDSASGNAVSSPGSLLIALAMLRAGAAGGTAAEMDAVLKLPGLKRDEAMNALLASLEQFDGDPGSVDEGNPPRKPVMHPANGLFVDQGVETGASYLNTLARLYGTGVYPVDFSDEAVTKPAIDAWVGKNTGGRITNAPAEYDRRNTFSLLNTLYFAAAWGSPFDPGSTFDAPFTTAAGEEINSPAMHTLLYLDYAEGPGWRGVDLPYAEGFVMRLVLPDAGVGRDTLTAQELGSIAGIVDSAQRQTVQIQLPKWDHRCSFDLRKVLQAMGLNNTLNTTVDFNSIQPDFAITQAAQAVNITVAEKGTVAAAATQFNGMVTSAPPQPDRTIEFDRPFHYQIVHVETGLPLFMGTVADPR				NA	NA	NA	NA	NA
D1-17_03335	1515			hypothetical protein	ATGCGTTTCTTCGCGTATTCTTCAGAAATGTCACCTACGAGCTGGAACCGCAAAGCCGTCGCCCCGCCGTCGTCCTCCTCCGCCCCCGAACTGGACGCAATCAGCCTGGGCCGCCGCATCCGCCACCTGCGTAAAGCGGCAGGGATGACGCTCGATACCTTGAGTGCCGCCGTCGGGACCGCTCCGAGCCAACTGAGCCTGATTGAGAACGGCAAGCGCGAACCCAAACTCGGGCTGCTGCAGCAGCTCGCAGCGGCACTGGATGTGACCATTGACCAGCTGCTGGGGGCCGAGCCGCCCAGCCGCCGGGCCGCGCTGGAAATCGAGCTGGAACGGTACCAGCGCAGCCCGCTGTACGAGTCGCTGAACCTGCCGAAAATCCGCATCAGCTCGCGGTTGCCGATGGATGTGCTGGAGTCCATGGTGGGGCTGCAGCATGAGCTGGAACGAAGGCTGAACGAGCAGACTGCCACACCGGAAGAGGCCCGCCGGGCCAACGCCGAACTGCGCGCGATGATGCGGGAACGGAACAACTACTTTCCCGAGTATGAGGCGGAGGCGCAGAAGGTCCTGGCCTCCGTGGGGCACACCAGCGGCCCGCTGTCCCACCACGTCATCGCAGACATCGCCGCGCACCTCGGATTCAGCCTGCACCACGTGGGCGACCTGCCCCATTCCACCCGTTCGGTGACCGATCTTAAGAACCGCCGAATTTATCTGACGCAGAACCAGCGCACCGACCATGACCCCCGCTCGGTGCTGCTGCAGGCGCTGGGACACTACGTCCTGGGCCACCAGACCCCCGGCAACTACGGGGACTTCCTGATGCAGCGCGTGGCGACGAACTATTTTGCTGCGGCCCTGATGCTGCCTGAGCAGGCGACGGTCGAATTTTTGCAAAAAGCCAAGCAGGCCAAGGAGATTGCCGTCGAGGACATCCGTGACGCCTTCGCCGTCTCCTACGAGACCGCGGCGCACCGCTTCACCAACCTTGCCACCCAGCATCTGGACATCCGCACACACTTCCAGAAGACGCACAAGAGCGGCATCATCTACAAGGCCTACGAGAACGACGGCGTGACGTTCCCGCAAGACCACACCGGCGCCATCGAGGGCCAGCCGTCGTGCAAGAGCTGGACGTCACGGGTCGTCTTCGACGTGCCGGACAAGTTCAGCGCCTACAACCAGTACACCGACACTCCGGCCGGAACCTACTGGTGCACCGCCCGGACGGAGCGTTCAGCCACCGGGGAGTTTTCGCTGTCCGTGGGCGTTCCTTATGCCCAGGTGAAGTGGTTCCGCGGCCGGGAAACCACCGAGCGCTCCAAGTCCACGTGCCCGGACGAGAACTGCTGCCGCCGCCCGCCGTCCGCCCTGACTGACGAGTGGGCCGGCAATGCCTGGCCATCCGCCCGGGCCCACTCGCACCTGCTCGCCGCCATGCCCCCCGGCGCATTCCCCGGCGTGGACGAGACTGAGGTGTACAGCTTCCTGCAGGCGCACTCGGGCAGCTGA	MRFFAYSSEMSPTSWNRKAVAPPSSSSAPELDAISLGRRIRHLRKAAGMTLDTLSAAVGTAPSQLSLIENGKREPKLGLLQQLAAALDVTIDQLLGAEPPSRRAALEIELERYQRSPLYESLNLPKIRISSRLPMDVLESMVGLQHELERRLNEQTATPEEARRANAELRAMMRERNNYFPEYEAEAQKVLASVGHTSGPLSHHVIADIAAHLGFSLHHVGDLPHSTRSVTDLKNRRIYLTQNQRTDHDPRSVLLQALGHYVLGHQTPGNYGDFLMQRVATNYFAAALMLPEQATVEFLQKAKQAKEIAVEDIRDAFAVSYETAAHRFTNLATQHLDIRTHFQKTHKSGIIYKAYENDGVTFPQDHTGAIEGQPSCKSWTSRVVFDVPDKFSAYNQYTDTPAGTYWCTARTERSATGEFSLSVGVPYAQVKWFRGRETTERSKSTCPDENCCRRPPSALTDEWAGNAWPSARAHSHLLAAMPPGAFPGVDETEVYSFLQAHSGS				NA	NA	NA	NA	NA
D1-17_03336	1317	icl_3	COG2224	Isocitrate lyase	ATGACTGCAGCATTTGAGCCCACCCAGCAGACGCCCGAACAGCAGGCTGCCGCCCTGGAGCTCGAGTGGGCTGCCGACCCGCGTTGGGAAGGCGTCACCCGGGACTACTCAGCGGCCGACGTCGTCCGCCTCCGCGGCCGCGTTTCCGAAGAGCACACGCTGGCCCGCCGGGGTTCGGAGAAGCTGTGGAAGCAGCTCACCGAGGAGCACGCCAGCGGCCAGTACACCAACGCCCTCGGTGCCCTGACCGGCAACCAGGCCGTGCAGCAGGTCAAGGCAGGGCTGCGCGCCATCTACCTTTCCGGCTGGCAGGTGGCAGCGGATGCCAACAACTCCGGCCACACCTACCCGGACCAGTCCCTCTACCCGGGCAACTCCGTCCCCACCGTGGTGCGCCGGATCAACAACGCCCTGCTCCGGGCGGACCAGATCGAGTTCGCCGAGGGCGTCCAGAGCGTTGAGGACTGGCTGGTCCCGATCGTCGCCGACGCCGAAGCCGGCTTCGGCGGCCCGCTGAACGCCTACGAGCTGATGAAGTGCATGATCGCCGCCGGCGCCTCCGGCGTTCACTGGGAGGACCAGCTCGCCTCGGAGAAGAAGTGCGGCCACCTCGGCGGCAAGGTCCTGATCCCCACCCAGCAGCACATCCGGACCCTCAACGCCGCCCGCCTGGCCGCCGACGTCGCCGGCACCCCCTCCGTCATCATCGCCCGCACCGACGCCGAGGCCGCCACCCTGATCACCTCCGACGTCGATGAGCGGGACCAGGAATTCATCACCGGCGAGCGTACGGCCGAGGGCTTCTACAAGGTCCGCAACGGCATCGAACCCTGCATCGCCCGCGCCAAGGCCTACGCCCCGTACTCCGACCTGATCTGGATGGAAACCGGCACCCCGGACCTGGAACTCGCCCGCAAGTTCGCCGAAGCCGTCAAGGCCGAGTTCCCGGACCAGATGCTCTCCTACAACTGCTCCCCGTCGTTCAACTGGAAGAAGCACCTCGACGACGCCACCATCGCCAAGTTCCAGCGCGAACTCGGCGCCATGGGCTTCACCTTCCAGTTCATCACCCTGGCCGGCTTCCACGCCCTGAACTACTCGATGTTCGACCTCGCCCACGGCTACGCCCGTGAAGGCATGAGCGCCTACGTCGAACTCCAGGAAAAGGAATTCGCCTCCGAATCCCGCGGCTACACCGCCACAAAGCACCAGCGCGAAGTCGGCACCGGCTACTTCGACGACATTGCAACCGCGCTCAACCCGAACGCATCCACCCTGGCGCTGGTGGGATCCACCGAAGAAGGCCAGTTCCACTAG	MTAAFEPTQQTPEQQAAALELEWAADPRWEGVTRDYSAADVVRLRGRVSEEHTLARRGSEKLWKQLTEEHASGQYTNALGALTGNQAVQQVKAGLRAIYLSGWQVAADANNSGHTYPDQSLYPGNSVPTVVRRINNALLRADQIEFAEGVQSVEDWLVPIVADAEAGFGGPLNAYELMKCMIAAGASGVHWEDQLASEKKCGHLGGKVLIPTQQHIRTLNAARLAADVAGTPSVIIARTDAEAATLITSDVDERDQEFITGERTAEGFYKVRNGIEPCIARAKAYAPYSDLIWMETGTPDLELARKFAEAVKAEFPDQMLSYNCSPSFNWKKHLDDATIAKFQRELGAMGFTFQFITLAGFHALNYSMFDLAHGYAREGMSAYVELQEKEFASESRGYTATKHQREVGTGYFDDIATALNPNASTLALVGSTEEGQFH	PGPT0001550_1297	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
D1-17_03337	1671	aceB_4		Malate synthase	ATGAACAGCTTCACCGATAACTTCACGATCAACGGGATCACTTTGACCGCGCAGCCGATTTGCCGGCAGGGCGAGGTGCTGACGCCGGACGCTCTGGCGTTTGTGGCCAAGCTGCACAAGGCAACGGCCGGGCGGCGCGAGGAGCTGCTTCGGGCACGCCGGGCCCGGCGGGACCAGATCGCCGGCGGCCAGGATCCCCGGTTCCTCCGCGAGACAGAGTCCGTGCGCAACGACCCGAACTGGCGCGTCGCTCCCCCGGCCCCCGGTCTGGAGGACCGCCGTGTGGAAATCACCGGCCCTGTGGATAAGAAGATGACCGTCAACGCCCTGAACTCCGGGGCGAAGGTCTGGCTCGCGGACATGGAAGACTCCTCCACCCCCAATTGGCGCAACGTCATCCAGGGCCAGCTGAACCTCACCGATGCTTTGGAGCGCCGGATCGATTTCACCTCGCCAGAGGGCAAGGAATACAGGCTCCGTCCCGCCGAGGAGCTGCCTACCATCGTGGTCCGGCCCCGCGGCTGGCACCTGCCCGAGAAGCACATGCTCGTCAACGGCGAACCCATCGCCGGCGGCATCGTGGATTTCGGCCTGTACTTCTTCCATAACGCCCGCCGGCTGCTGGCCCAGGGCAAGGGCCCCTACTTCTACCTGCCCAAGATCGAGAACCACCTCGAAGCCCGGCTGTGGAACGACATCTTCATCCTGGCCCAGGACCTGCTCGGCATCCCGCAGGGCACCATCCGCGCCACGGTGCTGATCGAAACCATCACCGCCGCCTTCGAGATGGAAGAAATCCTGTACGAACTGCGCGACCACGCCTCGGGACTGAACGCCGGCCGCTGGGATTACATCTTCTCCCTGATCAAGAACTTCCGCACCCGCGGACCCCGGTTCGTCCTGCCGGACCGCGGCCAGGTCACCATGACCCAGCCCTTCATGCGGGCCTACACCGAACAGCTCGTGCGCGCCTGCCACAAGCGCGGCGCCATGGCTATTGGGGGCATGGCCGCCGCCGTTCCCAACCGCAAGGATCCCGAAGCCAACGCCAACGCCTTCGAAAAGGTCCGTGCGGACAAGACCCGTGAAGCCGGCGACGGTTTCGACGGCTCCTGGGTGGCCCACCCGGACTTGGTTCCGGTGTGCCGCGAGGTGTTCGACGGCGTCCTCGGCGACCGGCCCAACCAGCTGGACCGCCTGCGCGAGGACGTCACCCCGGACGACCGCGCCCTGATCAACGTCGCCGCGACCGTGGGCACCATTACCGATCAGGGGATCCGGAACAACATCGAGGTCGGCATCCGGTACATCGAATCCTGGCTCCGGGGCAACGGCGCGGTTGCCATCCATAACCTGATGGAGGACGCCGCCACCGCGGAAATTTCCCGCTCCCAGCTGTGGCAGTGGATCTACTCCCGCGCCATCACCGACCACGGCGAAATCATCACCAGGGAATGGGTGGAGGACATGCTGGATGAGGAGTTCGCCCGGCTGGAGCGCTTCGACGGTGACCGTTTCGCCGATGCCCGTGACATCTTCGAGGAAGTTACGCTCAGCGACAAATTCCCGAGCTTCCTGACGGTTCCTGCCTACGCCCGGTACCTGCACGAGGCCCGTGCGGGTATCGGCGCCACGGCCGAAGCCATCGAAGACGAGCTCGTCGCCGCCTAG	MNSFTDNFTINGITLTAQPICRQGEVLTPDALAFVAKLHKATAGRREELLRARRARRDQIAGGQDPRFLRETESVRNDPNWRVAPPAPGLEDRRVEITGPVDKKMTVNALNSGAKVWLADMEDSSTPNWRNVIQGQLNLTDALERRIDFTSPEGKEYRLRPAEELPTIVVRPRGWHLPEKHMLVNGEPIAGGIVDFGLYFFHNARRLLAQGKGPYFYLPKIENHLEARLWNDIFILAQDLLGIPQGTIRATVLIETITAAFEMEEILYELRDHASGLNAGRWDYIFSLIKNFRTRGPRFVLPDRGQVTMTQPFMRAYTEQLVRACHKRGAMAIGGMAAAVPNRKDPEANANAFEKVRADKTREAGDGFDGSWVAHPDLVPVCREVFDGVLGDRPNQLDRLREDVTPDDRALINVAATVGTITDQGIRNNIEVGIRYIESWLRGNGAVAIHNLMEDAATAEISRSQLWQWIYSRAITDHGEIITREWVEDMLDEEFARLERFDGDRFADARDIFEEVTLSDKFPSFLTVPAYARYLHEARAGIGATAEAIEDELVAA	PGPT0001445_1615	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-17_03338	1194	yycB_3	COG2807	putative transporter YycB	ATGAGGGACCGTGTCGGCTCCAGAATTCCCGGCAGCTGGATTCTCCTCGCCTGCATCGGGCTCATAGCCCTCAACATGCGCGGCCCTTTCGTGGCCGTGGCCCCCGTGGTGGGCCCGATGCAGCTGGACCTCGGTTTCACACCCGTGGAGCTCGGCTTGCTCACGGGCATTCCGGTGCTGTGCTTTTCCCTCGCGGCACCGCTTGCGTCGCTGGCGACGCGACGGCTGGGGGCCGAGGTGGCCATAACGCTGACACTCCTCGGGGTCCTGGCGGGCGTGGTGGTGCGTTCTGCCGGTGGCCCTGCCCTGGTCATGCTGGGCACAGCCATCCTGGGCGTGGCCATCACCATCGGCAACATCGCTGTGCCTTTGATCATCAGGCGGGACTTCTCCTTCCGCCGCCAAGGCGCCGCACTGGGAATTTACACCGCTGCCCTGAACATCGGTTCCACCATCACCTCCGTGGCTGTAGCGCCGTTGGCTGAACTCGCGGGCTGGCAGCCTGCGCTGGCGGCAACCGCACTGTTCGCTGTTGCCGCCATCGCGCTGTGGGTTCCGGCGGCCGGCCGCGGGGCGTTCGTCGCCGCCCCGGATGACGGTACCGGTGGGCGGCGTGCCGCGGGCGGCCCGGTGTCCCCGTGGATCACGGTGGGTCTTACGGCCGGGTTCACCGGGCAGGCCATCTCCTATTACGGCGTGACGGCATGGCTGCCCACCCTGCTGGCGGATGAGCTCGGTATGGCGCCGGCCGCCGCCGGCGCCGGATCCTCCCTCTTCCAGATCCTGGCGATCGCGGGCGCCCTCGGAGTTCCGCTGGCGGCTCGGTTCACGAGCACGACGGCGGTGGCCCTCACCTTGGGTGCGATGTGGCTGACGGTTCCGCTGGGCCTGCTGCTGGCCCCCGAGCTGTGGTGGCTCTGGTCCTCACTTGGCGGCGTGGCCCAGGGCGGCGGCATCACCCTGATCTTCACCGCCATCATCAGGATTGCCCGGGACCAGGCCTCGGCCGGGCGGATGTCGGCAGTGGTCCAGGGTGTGGGCTACTGCTTCGCTGCAGCCGCCCCGACATTTGTGGGCTATGTCAACAGCGTCACCGGCGGCTGGACCATGCCTCTGCTGGTGATCCTCGCCGCAGTCCTGGCCTTCATTCTGGGAACAGCCCTTTCCGTGCGGACGGTGCCTAAACAACGCTGA	MRDRVGSRIPGSWILLACIGLIALNMRGPFVAVAPVVGPMQLDLGFTPVELGLLTGIPVLCFSLAAPLASLATRRLGAEVAITLTLLGVLAGVVVRSAGGPALVMLGTAILGVAITIGNIAVPLIIRRDFSFRRQGAALGIYTAALNIGSTITSVAVAPLAELAGWQPALAATALFAVAAIALWVPAAGRGAFVAAPDDGTGGRRAAGGPVSPWITVGLTAGFTGQAISYYGVTAWLPTLLADELGMAPAAAGAGSSLFQILAIAGALGVPLAARFTSTTAVALTLGAMWLTVPLGLLLAPELWWLWSSLGGVAQGGGITLIFTAIIRIARDQASAGRMSAVVQGVGYCFAAAAPTFVGYVNSVTGGWTMPLLVILAAVLAFILGTALSVRTVPKQR	PGPT0005211_1844	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-17_03339	741			hypothetical protein	ATGGCTGAAAAACTGAACATCCGGGTCTGGAATGAAGGCGTCCACGAGGCTCGGAACCAGCCTGAGACCATGGCTGAGATGTATCCGAAGGGCATGCATGGTGCCATTGCCGACGGGTTGAAGGGTTTCTACCCGGACTCCAGCATCACCACCGCCACCCTGGCCGATCCGGAGCACGGCCTCTCCGAGGAGGCCCTTGCCGCCACCGACGTGCTCCTCTGGTGGGGTCACTGGGCGCATGACGAGGTCAGCGATCAAGTGGTGGACCGTGTTCAGCGGCACGTTCTGGGCGGAATGGGGCTGATCGTCCTTCACTCCGGGCATTTCGCCAAGATCTTCACCCGGCTCCTTGGCACCACCTGCTCACTGAAGTGGCGCAACGAGGGTGAGCGCGAGCTGGTCTGGACCGTCAAGCCGTCACATCCGATCGCGGCGGGCGTGGAGAGCCCCATTGTGATCCCCCAGCAGGAGATGTACGGCGAACTCTTCGACATTCCTGAGCCCGATGACCTGATCTTTATCAGCTCCTTTGAAGGCGGCGAAGTCTTCCGCTCAGGCGTGACCTTCTCCCGCGGAAAGGGCCGGATTTTCTACTTCAGCCCGGGCGACCAGGAGTACCCCGTCTACCACCACCCCCAGATCCAGCAGGTCATTGCGAACGGCGTGGGATGGGTTGCCCAGCCCGCGCGGTTCCGTGAAGCGCCGGGCGTGGCCAACGCCCAGCGTGACTGGTTCCTGTAG	MAEKLNIRVWNEGVHEARNQPETMAEMYPKGMHGAIADGLKGFYPDSSITTATLADPEHGLSEEALAATDVLLWWGHWAHDEVSDQVVDRVQRHVLGGMGLIVLHSGHFAKIFTRLLGTTCSLKWRNEGERELVWTVKPSHPIAAGVESPIVIPQQEMYGELFDIPEPDDLIFISSFEGGEVFRSGVTFSRGKGRIFYFSPGDQEYPVYHHPQIQQVIANGVGWVAQPARFREAPGVANAQRDWFL				NA	NA	NA	NA	NA
D1-17_03340	1113	iolG_5		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	GTGAGTGATTATCAGCCATTAACCCGCGCTGGTTCCCGGCCCCTCAAGGTCGGCGTCGTCGGCATCGGCTGGGCCGGCCAGCAGCACATCAAGGCGTACAAGAACATTGACGGTGTGGAGCTTGTGGCCGTGGCTGCCATGGAGGCGGATCTTCTGGCGGGCATCAAAGATGAGTACAGCGTCCCCCACACGTTTGCCCGGTGGGAGGACCTGATCGAACTTGAAGGGCTGGACGCCGTCAGCGTCGCGGTCCCGACGTTCCTGCACGCGCCGATTGCCGTGGCGGCACTCGAGCGCGGGCTCCACGTCCTGAGCGAAAAGCCACTCGCCCGCAACGGCGAGGAGGGCAGGCAGATGGTCGAGGCTGCCCGAAAGGCCGGCCGGGTCCTGGACGTGGCGTTCAATCACCGCCGCCGCGGCGACATCCAGAAGCTGAAGAGCATCATGGACGACGGCGAGCTGGGCCGCCCGTACTACGCCAAGGCCTCCTGGCTCCGCCGCCAAGGCATCCCCATGCTGGGCAGCTGGTTCACCAACCCTGCGCTGGCAGGCGGCGGCCCACTGGCTGACATCGGAGTCCACGTCCTGGACTACGCGCTGCACCTGCTGGGCGAGCCCAAGGTCCTCTCGGTCTCGGCATCAACTCATTCAGAGCTCGGCCCGCGCGGCCTCGGCGGCAACGCCAGGTATACGGCCATGAAGTCGGCTCACAAGTTCGAGGTGGAGGACTTCGCCACGGCCTTCATCCGCCTTGAAGGCGGGGGCACCCTGATCCTTGAGGCCGGCTGGGCGGCCTACCGGGAGGAAAAGGACCTGATGGACTTCACCGTTTACGGCACCGACGGCGGCGCGGACCTGCGCGCCGTCGGCGCTTCCGACGCTCCGGTCGCAGACCTCCGGATCTTCAAGGAGAAGGACGGTGAGAACGCCGACTACACCGTGGTGGCAGAGCCCGGCAGGGCACATCAGGCCGTTGTGGAGGACTTCATTGAAGCTGTCCGCGGCGGGGCGTCCGTGTGGGGCGCCCACGACGGTTCACTCGCGTTGACCCGTGCCCTGGTGCTCGACGCTTGCTACAAATCTGCCCTCGAACAGCGCGAAGTGAGGCTCTGA	MSDYQPLTRAGSRPLKVGVVGIGWAGQQHIKAYKNIDGVELVAVAAMEADLLAGIKDEYSVPHTFARWEDLIELEGLDAVSVAVPTFLHAPIAVAALERGLHVLSEKPLARNGEEGRQMVEAARKAGRVLDVAFNHRRRGDIQKLKSIMDDGELGRPYYAKASWLRRQGIPMLGSWFTNPALAGGGPLADIGVHVLDYALHLLGEPKVLSVSASTHSELGPRGLGGNARYTAMKSAHKFEVEDFATAFIRLEGGGTLILEAGWAAYREEKDLMDFTVYGTDGGADLRAVGASDAPVADLRIFKEKDGENADYTVVAEPGRAHQAVVEDFIEAVRGGASVWGAHDGSLALTRALVLDACYKSALEQREVRL				NA	NA	NA	NA	NA
D1-17_03341	1221	nagC_2	COG1940	N-acetylglucosamine repressor	ATGCAGACATCCCCCGCACCCGAGCGGCCCTTCGGGGACACCGGACTATTTGCCCGTGCCGGGGATCTGTTTCAGCTGCTCCGCGATGGCAGAGCACGCACCCGCTCTGAACTGATTGCCGTCACCGGCCTCGCACGCACCACTCTGGGGGCACGGATTGATGCGCTCACGGCACTGGGCTACATCGGTCCTGCCGGTGAGGCAGCCTCCTCCGGGGGCCGGCCGCCGTCGAGGTTTGTCTTCAATGCCCGCAGGAAAGTTGTCCTGGCAGCAGATGTTGGTGCCTCGCATGCCTCGGTTGCCGTGACCGACCTCGACGGAGTCATTCTGGCCCGTCACTCGGGCGCGCTGGACATCTCCACGGGGCCGGATGATGTCCTGGCGTGGGTGGTGCGGCACTGCAGGTCGCTTCTGGAGGGCATCGGCCGGCCGGAAGGGGACATTGCGGGAGTGGGCCTGGGCCTGCCCGGCCCGGTAGAGCACCACAGCGGACGACCAGTGAAACCTCCCATCATGCCCGGGTGGGACGGATTCGACGTGGCAGGCTACATCCGCGCCGAGCTCGGAAGCGAGGTCCTCGTGGATAACGACGTCAATATCATGGCCGTCGGCGAGCGGCACGCCTTCTGGCAGGACCACCAGAATTTGCTCTTCATTAAGGCCGCCACGGGCATTGGAGCGGGCATCATCAGCAGCGGCCAGCTGCAGCGGGGAGCGGACGGCGCGTCGGGCGACCTGGGGCATATCCGCGTTCCTGGCGGCGAGGACGTCCTCTGCCGCTGCGGGAACCACGGCTGCCTTGAAGCGCTGGCCTCCGGCCCGGCGTTGGCAGCGAAACTCCGATCCCGTGGCATCGATGCCGAATCCGGTACCGCCGTCGTCGACCTGGCAGCAGCGGGAGATGTGCAGGCCGCTCTTGCGCTGCGGCAGTCCGGAAGGGACATGGGCGAGGTGCTGGCGATGTGCGTCAACCTCCTCAACCCGTCCGTCATTGTGGTGGGCGGCAGTCTCTCGCGGGCCGGGGACCAGCTCCTGGCAGGCATCCGGGAGACCGTCTACCGCCGGTCTCAGGCGCTTGCAACTTCCAAGCTGCGCATTGAACAGTCCAGGGCACCCATCGATGCTGCCATCTGGGGAGCGAGCCGGATGGTCATTGAGCACATCCTTTCGCCCGAGGCCGTCGAGTCGGCCGTCCGGGATGCCAGCCTTCAACATGCCTAG	MQTSPAPERPFGDTGLFARAGDLFQLLRDGRARTRSELIAVTGLARTTLGARIDALTALGYIGPAGEAASSGGRPPSRFVFNARRKVVLAADVGASHASVAVTDLDGVILARHSGALDISTGPDDVLAWVVRHCRSLLEGIGRPEGDIAGVGLGLPGPVEHHSGRPVKPPIMPGWDGFDVAGYIRAELGSEVLVDNDVNIMAVGERHAFWQDHQNLLFIKAATGIGAGIISSGQLQRGADGASGDLGHIRVPGGEDVLCRCGNHGCLEALASGPALAAKLRSRGIDAESGTAVVDLAAAGDVQAALALRQSGRDMGEVLAMCVNLLNPSVIVVGGSLSRAGDQLLAGIRETVYRRSQALATSKLRIEQSRAPIDAAIWGASRMVIEHILSPEAVESAVRDASLQHA				NA	NA	NA	NA	NA
D1-17_03342	792			hypothetical protein	ATGGTGGTTGCCCGGACGGTCAGCAACGAGGTTTGGAGAACCATGACCTACTCACTTCAGCTCTACACTCTCCGCGACGCCCTTGAGAAGGACCTTGCCGGAACCATCCAAAGAGTGGCCGAGATCGGCTTCGCCCAGGTGGAGCCCTACAACTTCGTGGCAACGGCCAAAGAACTGGCAGAGGCGCTGCAGGCCAACCGCCTCACCGCCCCTTCCGGCCACGCTCCCCTGCTCAGCCAGGATCAGGACCGGATTTTTGCGGCAGCACGGGACCTGGGGATGGAAACAGTCATCGAACCCTACATTCCAGCGGAACACTGGCAGTCCGCCGGGGACATCCAGGCCACGGCGGAGAAGTTGAACGAGGCCGCCCGGAAGGCGGCCGTTTACGGCCTCCGGGTCGGCTACCACAACCACGCGTGGGAGCTGGAGTCCGTCATCGACGGCCAGACTGCCCTGGAGTACTTCGCCGGACTGCTGGACCCTGAGGTGGTCCTGGAGGTGGACACGTACTGGGTTGCCGTTGGCGGCCAGGATCCCGTGGACATCCTCACCCGGCTGGGCGACAGAGTGCGGCTCATCCACATCAAGGACGGTCCGCTGACAACGGACACCAAGGCCCAGCTGCCCGCCGGCAAGGGCCAGGTGCCGGTGCTGGACGTTATCGTGGCTGCTAAGTCCTTGGAAGTAGGAGTGGTCGAGTTCGATGACTACTCCGGGGACATTTTCGACGGCATCGCCCAGAGCCTGGCTTTCCTGCAGAAGGCAGCAACCGGGCAGATCCGCTCGTGA	MVVARTVSNEVWRTMTYSLQLYTLRDALEKDLAGTIQRVAEIGFAQVEPYNFVATAKELAEALQANRLTAPSGHAPLLSQDQDRIFAAARDLGMETVIEPYIPAEHWQSAGDIQATAEKLNEAARKAAVYGLRVGYHNHAWELESVIDGQTALEYFAGLLDPEVVLEVDTYWVAVGGQDPVDILTRLGDRVRLIHIKDGPLTTDTKAQLPAGKGQVPVLDVIVAAKSLEVGVVEFDDYSGDIFDGIAQSLAFLQKAATGQIRS				NA	NA	NA	NA	NA
D1-17_03343	1128	iolG_6		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	GTGAGCGCCGTGCAGACGCCTGCCAGCGGACGCGGCCCGGTCGGCGTCGCCGTCATCGGCGCCGGCACCATCAGCAAGCAGTACCTGGACAACCTCACGATCTTCCCCGACCTGAAGGTCCACGTCATTGCGGACCTCTTCGAGGACGCCGCGGAGGCGCGGGCGAAGGAGTACGGCGTTCCCGAGTGGGGCGGGGCGGAAAAGGCACTGCACCATCCCGACGTCGAAATCATCGTCAACCTGACCATCCCGGCGGCGCACGTGGAGGTGGCTACGGCCGCCGTCACCGCGGGCAAGCATGTCTGGACAGAAAAGCCCTTCTCGCTGGACCGTGAATCCGGGCTCGGCCTGCTCAAGACGGCCGACACCGCCGGGATCCGCCTCGGCTGCGCCCCTGACACCTTCCTCGGTGCAGGGCTGCAGACCGCACGCCGGCTGATCGAACGCGGCGACATAGGCACCCCGCTCACGGCCATGACCACGTTTCAGACGCCAGGGCCCGAGTCCTGGCACCCCAACCCGGCATTCCTGTTCCAATACGGCGCCGGCCCGCTGTTCGACATGGGCCCCTACTATCTCACCGCGTTGGTGCAGACATTCGGTTCCGTCAGGAAAGTGGCCGCGATGGGCTCCAAGTCCAAGGACGTCCGCGTGATCGGCTCCGGCCCCAGGCTTGGCGAGGAATTCGCCGTCGAAGTCCCCACCCACGTCTCCGCGATGGCTCAGTTCGAGGGCGGCCAGTCCTCGCACAGCGTGTTCTCCTTCGAGTCCCCCCGCCAGCGGATGGGCTTCGTTGAAATCACGGGTACCGAGGCCACCCTCTCCCTCCCGGACCCCAACTTCTTCGACGGCGATATTCGGCTGTGGCGCGCCGGCGACGAGGACTGGACCACCGTCCCTGCCAGCGGCCCGGCGAATGGCCGCGGCATGGGCGTGCTGGACATGGCCCGCTCCATCCGCGCCGGCGTACCGCACCGTGCCACCGGCAGCCTCGCCTACCACGTCCTGGACACGATGGTCTCCATCTCCGAGTCCGTGGAATCCGGCATCTTCGTTGACGTGGAAAGCTCCGCACCGGACTCCCCGGTCCTCCCCGAGGACTGGAACCCCACAGCCGCCACTCTCTAG	MSAVQTPASGRGPVGVAVIGAGTISKQYLDNLTIFPDLKVHVIADLFEDAAEARAKEYGVPEWGGAEKALHHPDVEIIVNLTIPAAHVEVATAAVTAGKHVWTEKPFSLDRESGLGLLKTADTAGIRLGCAPDTFLGAGLQTARRLIERGDIGTPLTAMTTFQTPGPESWHPNPAFLFQYGAGPLFDMGPYYLTALVQTFGSVRKVAAMGSKSKDVRVIGSGPRLGEEFAVEVPTHVSAMAQFEGGQSSHSVFSFESPRQRMGFVEITGTEATLSLPDPNFFDGDIRLWRAGDEDWTTVPASGPANGRGMGVLDMARSIRAGVPHRATGSLAYHVLDTMVSISESVESGIFVDVESSAPDSPVLPEDWNPTAATL				NA	NA	NA	NA	NA
D1-17_03344	1221	gfo		Glucose--fructose oxidoreductase	ATGACTTCCCAAGAAACCGGGCAGCCGCACCCCGTAACCGGCCAGCAGCAGCCCGCCCCATTGGGTGTGGCCATGATCGGCTATGCGTTCATGGGCAAGGCGCATTCAAATGCCTGGCGGAACGTGTCGTCCTTCTTCGACGTCCCTGCACTGGAGCAGAAAGTTCTCGTGGGCAGGAACGCAGACGAGGTCGCCGCAGCCGCTGCCAGGTACGGATGGGCCGAGTCCGCCACAGACTGGCGCTCCGTGATTTCCAGAGACGATATCGACATCGTGGATATCTGCACCCCGGGATGGATGCATGCCGAGATAGCCATTGCCGCCCTGGAAGCGGGGAAGCATGTGTTGGTCGAGAAGCCGCTGGCTAACTCCCTGGCTGAGGCGGAAGCCATGGTCCAGGCTGCCCAAGCCGCCCGGACCAGGGGTGTGGCGTCGATGATCGGCTTCAACTACCGCCGTGTCCCGGCTTTGGCACTGGCCAGGGAACTCATCGCCGAAGGCAGGCTCGGCGCCGTCCGCCACGTCCGCGCCGCCTACCTGCAGGACTGGCTGGCAGACGAAACCACCCCGATGACCTGGCGGCTGCGCAAGGAGACTGCCGGTTCCGGCGCCCTCGGGGACATTGCCTCCCACGCCATCGACCAGATCCTGTTCCTCCTGGGCGAGGCTGTGACGGAGGTGTCCGGGCGGCTGCACACCTTTGTCGGCCGCCGGCCGGGCCCGGAGGGCCAGGAGGATGTCACGGTCGACGACGCGGCCTGGGTCACGCTGTCCCTCGCCTCCGGGGCCATCGCCTCGGTCGAGGTTTCACGGGTCGCCACAGGGCGCAAGAACGCCCTGACGCTGGAAATCTACGGCGACAAGGGCACGCTCCTCTTCAATCTCGAAAACCTGAACGAGCTTAGTTTCCTCGACGCCACCGTTCCGGTGCGCGAACAGGGGTTCCGGCGCATCCTGGTGAACGAACCCGAACATCCCTACCTCGACGCGTGGTGGCCGCAGGGACACATCATTGGCTGGGAACACACCTTTACCCACCAGATACGCGACTTCCTCCTGGCGCTCAGCGAGGGGTCAGCCCCGTCGCCGTCCTTCGAAGAGGGCCTGGCGGTCCAGCGCATCCTGGACGCCGTCGAGGAGTCCGCCAACGCCAAATCCTCCACCATCCAGCTCACCGGGCCCGCCGGCGCCGCAGCTGCCGCCCCTACCAAAGGAGCCTGA	MTSQETGQPHPVTGQQQPAPLGVAMIGYAFMGKAHSNAWRNVSSFFDVPALEQKVLVGRNADEVAAAAARYGWAESATDWRSVISRDDIDIVDICTPGWMHAEIAIAALEAGKHVLVEKPLANSLAEAEAMVQAAQAARTRGVASMIGFNYRRVPALALARELIAEGRLGAVRHVRAAYLQDWLADETTPMTWRLRKETAGSGALGDIASHAIDQILFLLGEAVTEVSGRLHTFVGRRPGPEGQEDVTVDDAAWVTLSLASGAIASVEVSRVATGRKNALTLEIYGDKGTLLFNLENLNELSFLDATVPVREQGFRRILVNEPEHPYLDAWWPQGHIIGWEHTFTHQIRDFLLALSEGSAPSPSFEEGLAVQRILDAVEESANAKSSTIQLTGPAGAAAAAPTKGA				NA	NA	NA	NA	NA
D1-17_03345	996			hypothetical protein	ATGTCCCGCCCCTACACCCTGTTCACCGGCCAGTGGGCCGACCTGCCCTTCGAGGAAGTAGCGAAGCTCGCCTCAGGCTGGGGCTACGACGGACTGGAAATCGCCGTCTCCGGAGACCACCTGGACGCCTGGCGCTGGGATGAACCCGGCTACGTCGACTCCAAGCTCGCAGTCCTCGAGAAGTACAACCTGAAGGTCTGGGCCATTTCCAACCACCTCAAGGGCCAGGCCGTGTGCGATGACCCCATCGATTTTCGCCACGAAGGCATCGTCGGCCCCCGGGTCTGGGGCGACGGGGACGCTGAAGGCGTCCGGCAGCGCGCAGCCGAGGAAATGAAGCACACCGCACGGCTCGCCAAAGCCCTCGGCGTGGACACCGTCGTCGGTTTCACCGGCTCGTCCATCTGGCAGTACGTCGCGATGTTCCCGCCCGTCCCGGAGAAGGTGATCGACGCCGGCTACCAGGACTTCGCCGACCGGTGGAACCCCATCCTCGACGTTTTCGACGAATGCGGCGTCCGGTTCGCCCACGAAGTCCACCCCAGTGAGATCGCCTACGACTACTGGACCACCGTCCGCACCCTCGAAGCGATCGGCCACCGCGAGGCGTTCGGCCTGAACTGGGACCCCTCCCACATGATGTGGCAGGGCATCGACCCCGTCTCCTTCATCTGGGACTTTAAGGACCGGATCTACCACGTGGACTGCAAGGACACCAAGCTGCGCCCCACCGGCCGCAACACCGTGATGGGCTCTCACCTGCCTTGGGGTGATCCGCGGCGCGGCTGGGACTTTGTTTCCGCCGGGCGCGGCGACGTACCCTGGGAATCCTCCTTCCGCGCGCTCACCGCCATCGGCTACACCGGCCCCATTTCCATTGAATGGGAGGACGCAGGCATGGACCGCCTCCACGGCGCCCCCGAAGCCCTCGCCGCCCTGAAGAAGTTCGACTTCCCCGCGTCGCAGACCTCTTTCGACGCAGCCTTCAAACAGTAG	MSRPYTLFTGQWADLPFEEVAKLASGWGYDGLEIAVSGDHLDAWRWDEPGYVDSKLAVLEKYNLKVWAISNHLKGQAVCDDPIDFRHEGIVGPRVWGDGDAEGVRQRAAEEMKHTARLAKALGVDTVVGFTGSSIWQYVAMFPPVPEKVIDAGYQDFADRWNPILDVFDECGVRFAHEVHPSEIAYDYWTTVRTLEAIGHREAFGLNWDPSHMMWQGIDPVSFIWDFKDRIYHVDCKDTKLRPTGRNTVMGSHLPWGDPRRGWDFVSAGRGDVPWESSFRALTAIGYTGPISIEWEDAGMDRLHGAPEALAALKKFDFPASQTSFDAAFKQ				NA	NA	NA	NA	NA
D1-17_03346	534		COG0454	putative N-acetyltransferase	ATGACGCACGCCATCCGCAAGGCAACAGCGGACGACGCCGGGCCCCTGGCCGCCCTGGCCGAGGTTACGTTTCCGCTGGCCTGCCCGCCCGGATCATCTCCCGGCGATATCGCTGCCCATCTCGCCAATACCCTCAGCGAGCGCCACTTCCGGTTGTATCTGGCGGATCCGGAGGTGACAGTTCTGGTCATTGATGCCGACGGCGGCCTGCGGGGCTACAGCCTGCTGGTGAACCGTCCCCCACAGGACCCGGACGTTGCCGCCGTGCTCACGGCCCTGCCGTCGGTAGAGCTCAGCAAGTGCTATGTGCACCCCGACCATCACGGACTGGGAGCCGCAGTCGAACTCATGCGCGCCAGCATCGGGGAAGCTGCGGCGGCCGGCGCGGGCGGGATCTGGCTCGGCGTGAACAGCGCGAATGCCAAGGCGATCCGGTTCTACGAAAAGTCCGGATTCCACAAGGTGGGGACGAAATCCTTCCAGCTCGGCAACACCGTGGAACATGATTTCGTGCTGGAGCGCGGGCTGGGCTAG	MTHAIRKATADDAGPLAALAEVTFPLACPPGSSPGDIAAHLANTLSERHFRLYLADPEVTVLVIDADGGLRGYSLLVNRPPQDPDVAAVLTALPSVELSKCYVHPDHHGLGAAVELMRASIGEAAAAGAGGIWLGVNSANAKAIRFYEKSGFHKVGTKSFQLGNTVEHDFVLERGLG	PGPT0007785_370	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007785-paiA-K22441	NA	NA
D1-17_03347	2163			hypothetical protein	ATGAATGCCTGGAATGCCGACACGGAAGCAGGCCCCGCAGACGCCGGTGCTGTCACCGTAGTTGAGGGGTCATCGTTCTGCATCTCGTCCCAGTGCGGCGACATCATCCCGGGAGGTTCGCAGGGAGTCTTCTACCAGGACACGCGCGTCGTGTCAGAGTGGGTCCTGAAGATCAACGGGGCCCAACGGGAACCGCTCGGAACCCGCACTCCCACTGCCTTCCAGGCTATGTTCGTTGGCCGGGCGCGGTGGGCGGACGGGAGGTTCGACAGCCCGCTGGTCGTCCGGCACCAGCGGCATGTGGGGCCAGGCCTCCGCGACGACGTCACTATCCGTAACTACTCTGCCGAGCCGGCAGTCTGTGACATCGAGCTGAAGGTGGACGCCGACCTGGCGGACCTCTTCGACGTCAAGGGTGGCAGGGTGGCGCCGGGAACTGTTGTCCGGCGGACTGTCCGCGGGACGGAACTGCTCATCGAAGCCGAACGCGGCGGCGAGACACGGGGGACGGTGATTCGGGCAGCGGGCGGGCAGGCCGGGGACGAGGGGCTGACCTTCAGGGTGGTGATTCCACCCAGGGAAGAGTGGTCCACCACCGTCATCGTGGTTCCGCTGATCAACGGGAAGGGGCCGGATGAGCCGTTCACCGAAGCCGCGGCTCCGCATCACCGCACCGGCGTCAAGCGCCACCTGGCGTGGGAGGAGCATGTACCCCGGGTGACCGTCACGGACCGGAATGTCCAGAACGTCCTGAACCGCAGCCAAAGCGATCTTGGGTCCCTGCGTATTTTCGACGACGAACACGCGAACCGGGTCGCCGTCGCCGCCGGAGCGCCCTGGTTCATGGCCCTCTTCGGCCGGGACTCGCTGTTGTCCTCCTACATGTCCCTGTTGGTCGATCCCAACCTGGCCGCCGGAACGCTGCAGACACTTGCCGGAATGCAGGGAACCAAGGTGGACCCGGACTCGGAGGAAGAACCCGGCCGGATCCCGCATGAAGTGAGGCTCGGCGTCACGGCCGGCATGGCTTTGGGCGGCAAGGCCTACTACGGCACCGCTGACGCGACCCCTCTGTTTGTCGCCACGCTGGGTGAACTCAGCCGCTGGGGACTCGGCGACGACATCATCGAGTCGCTGCTGCCCCACGCAGACCGTGCCTTGGAATGGATCGAGCACTTCGGGGACCGCGACGGCGACGGGTTTGTGGAGTACATGCGGCCGAACCCCCACGGCCTGCTGAACCAGGGGTGGAAGGACTCGTGGGACGGCATCAACTTTGCTGATGGCCGAATGGCTGAGCCGCCCATAGCCCTCTGCGAGGTACAGGGCTACGTGTACGCAGCCTACGTGGGGCGGTCGCTGCTGGCCCGATGGTCCGGTGACAGCACACTGGAACGCCACTGGGCCGAGCGGGCTGCTGTCTTAAAGAAGCTGTTCAACGAGCGGTTCTGGCTGCCGGACAAGGGGTACTTTGCGATCGCCTTGGACAAGGACAAGCAGCCCGTGGACTCCTGTGCATCAAATATGGGGCACTGTCTCTGGGTCGGAATCGTCGATGAAGACAAGGCGCCTATGGTCGCCAAGCACCTCATGTCCCCGGAAATGTTCACCGGCTGGGGCATCAGGACGCTGGCGTCGGACATGGGCGCCTACAACCCCGTCAGCTACCACAACGGCTCGGTCTGGCCACACGATACCGCACTGGTGGCCACGGGACTGATGCGGTATGGCTTTGTGGACGAGGCCAGCCAAGTCGCAAGCGGACTCTTCGACGCGGCGGCATACTTCGGCGGACAGCTGCCGGAGCTGTTTTGCGGGTTTGACCGGGCCGATTTCCCGGAGCCCGTGCCGTATCCTACCGCGTGCTCGCCGCAGGCGTGGGCCGCAGCCGCTCCGATCCAGCTGGCGCGGATTGTCCTGCGCTTTGACCCGGACTTCACGCGCGGCGTGCTTCATTTGGCCCCCATCCTGCCGGACGGTGTTGGCGACTTCCGGGCGGACAACGTCCTCCTGGGGCGTTCGCGGATCACCATCCGTGCCAGCGGCGGCGAGGGGACCGTCGAAGGCCTGCCTCCCGGGCTGCAGCTCAGGCACGAGCCCCGTCCGCCCCTGGACAGCGACCTTCCCGGCCACAATTCCCGGATAGGCCTGTCCGGCAGCTGA	MNAWNADTEAGPADAGAVTVVEGSSFCISSQCGDIIPGGSQGVFYQDTRVVSEWVLKINGAQREPLGTRTPTAFQAMFVGRARWADGRFDSPLVVRHQRHVGPGLRDDVTIRNYSAEPAVCDIELKVDADLADLFDVKGGRVAPGTVVRRTVRGTELLIEAERGGETRGTVIRAAGGQAGDEGLTFRVVIPPREEWSTTVIVVPLINGKGPDEPFTEAAAPHHRTGVKRHLAWEEHVPRVTVTDRNVQNVLNRSQSDLGSLRIFDDEHANRVAVAAGAPWFMALFGRDSLLSSYMSLLVDPNLAAGTLQTLAGMQGTKVDPDSEEEPGRIPHEVRLGVTAGMALGGKAYYGTADATPLFVATLGELSRWGLGDDIIESLLPHADRALEWIEHFGDRDGDGFVEYMRPNPHGLLNQGWKDSWDGINFADGRMAEPPIALCEVQGYVYAAYVGRSLLARWSGDSTLERHWAERAAVLKKLFNERFWLPDKGYFAIALDKDKQPVDSCASNMGHCLWVGIVDEDKAPMVAKHLMSPEMFTGWGIRTLASDMGAYNPVSYHNGSVWPHDTALVATGLMRYGFVDEASQVASGLFDAAAYFGGQLPELFCGFDRADFPEPVPYPTACSPQAWAAAAPIQLARIVLRFDPDFTRGVLHLAPILPDGVGDFRADNVLLGRSRITIRASGGEGTVEGLPPGLQLRHEPRPPLDSDLPGHNSRIGLSGS				NA	NA	NA	NA	NA
D1-17_03348	1080			hypothetical protein	ATGCGTATAGGGCTTATAGCAGGACCATGGATCACCGTTCCGCCGGCCGCTTACGGCGGCACTGAGAGGGTAGTGGACAGCCTCGCCCGGGGCTTTGCCGCCGCCGGGCACGACGTCGTCCTGGCCGCCCCCTCGGACAGTGAATGTCCAGTGCCTTTGGCTCCGGACATGAGGAACTCGGAGCCGGCCGAACTGGGATTCACGCTCTCGGAACTGAGCCACGTGATACGCGCGTACCGGGGGATGGGCGGAGTGGACATCATCCACGATCACACCTTGGCGGGTCCGCTCTACAGGAACCGCCCGCCCTCCGTGCCGGTGGTAACCACCATTCACTGCCAACTGACCCCCTCGGCAGCAGATATTTACCGCGCGGCCGGAGAAACTGCCAGCATCGTCGCCATCTCCCGGGACCAGGTCAGCCGCGTACCGGACGTGCCGGTCGCACGCGTCATCCACCACGGAATGGACCTTGCGGCCGTCCCTCGGGGCACGGGCCGAGGCGGCTACGCCTGTTTCGTTGGACGGATGTGCCCTGACAAGGGGCCTGCCGAGGCCATCGCGATTGCCCGGAAAGCAGGGATCCCGCTGAAAATCGCAGCGAAAATCCGTGAAGCGGAGGAGCTGCGCTATTTCAAGGACGTGGTACAGCCTCTGTTGGGAAGCAACGAGGAATTTATCGGAGAGATCGGAAATGATGACAAATACGCGCTGATGGGCGAGGCGAGCGTCTTTTTGAACCCGATACAGTGGGCCGAGCCTTTCGGGCTCGTGATGATCGAGGCGTTGGCCACAGGGACGCCTGTACTTGGCACGCCGGTTGGCGCGGCGCCGGAAATCGTGGCGGAAGGCGTTACGGGATATCTGGGCCCGCTGGATGAACTGCCGGCGCTGCTGCCCCGGGCCGCAGCGCTCAACCGGGACGCCTGCCGCGCCTCTGTGGAAGAGAAGTTTAGTTCAGAACGCATGGTTGCTGACCATTTGAGCCTGTACAGACAGATTGTGGAAAAGCGGGCGCCCGGCGGGGTTTCCGATTCGGGCGCCGTGCATAAGAATCGAATAACGGCGCCGGGTATCTGA	MRIGLIAGPWITVPPAAYGGTERVVDSLARGFAAAGHDVVLAAPSDSECPVPLAPDMRNSEPAELGFTLSELSHVIRAYRGMGGVDIIHDHTLAGPLYRNRPPSVPVVTTIHCQLTPSAADIYRAAGETASIVAISRDQVSRVPDVPVARVIHHGMDLAAVPRGTGRGGYACFVGRMCPDKGPAEAIAIARKAGIPLKIAAKIREAEELRYFKDVVQPLLGSNEEFIGEIGNDDKYALMGEASVFLNPIQWAEPFGLVMIEALATGTPVLGTPVGAAPEIVAEGVTGYLGPLDELPALLPRAAALNRDACRASVEEKFSSERMVADHLSLYRQIVEKRAPGGVSDSGAVHKNRITAPGI				NA	NA	NA	NA	NA
D1-17_03349	720			hypothetical protein	ATGAAGATTGAGATTTGGTCCGACGTCGCGTGCCCCTGGTGCTACATCGGCAAGCGCCGGTTTGAGGCCGCGCTGGCCGAGTTCCCGCACCGCGATGCCGTGGACGTGCAGTGGCGCAGCTACCAGCTGGACCCTTCCGTGCCTGAACACTACAACGGCACTGAGCTCGATTACCTGAGCAGCCGCAAGGGCCTTGCCCCCGAGCAGGTTGAACAGATGTTTGAGCATGTGGCCGCGCAGGCCAAAGCCGAGGGGCTCGACTATCGGTTCGACGCCGTCGTCGTTGCCAACAGCTTCACAGCACACCGTCTCATCCACTTGGCTGCCACCCACGGAAAGCAGGACGCCGCCAAAGAGCGGCTCCTCAGCGATCATTTCGAGCACGGCAAGGACATTGGCAGCCGAGATTACCTCACAGCTCTCGCCGCCCAGCTTGGCATCGAGGCCGCCGCAGCCGCTGAGCTGTTCACCTCGGACGTATACGCCGACGATGTCCGGCAGGACATTGCCGAAGCCCGGGCCCTCGGCATCAGCGGCGTCCCGTTCTTCGTGATCGACAGGAAGTATGGCCTGTCCGGCGCGCAGCCTGCCGCGACATTCAGCATGGCCCTCAAGCAGGCCTGGGAGGACGCCCACCCGCTGGTGATGGTCAACGCCGGCAAGGACGGCACCAAAGCAGGCGACGGGGAGACCTGCGGCCCGGACGGCTGCTCCGTCTGA	MKIEIWSDVACPWCYIGKRRFEAALAEFPHRDAVDVQWRSYQLDPSVPEHYNGTELDYLSSRKGLAPEQVEQMFEHVAAQAKAEGLDYRFDAVVVANSFTAHRLIHLAATHGKQDAAKERLLSDHFEHGKDIGSRDYLTALAAQLGIEAAAAAELFTSDVYADDVRQDIAEARALGISGVPFFVIDRKYGLSGAQPAATFSMALKQAWEDAHPLVMVNAGKDGTKAGDGETCGPDGCSV				NA	NA	NA	NA	NA
D1-17_03350	651			hypothetical protein	ATGCCACGGATTTCGGCCCCCAGCAACGCTGCGCAGCGCGCCGAGACCCAGCGCCGCATCCTGAACGCCTTTGGGGAGCTGCTCTTCACTCACGGGCTGCCGGGGCTGACCATGACGGACGTTGCCAGGCGCGCCGGGATCGGCCGGACAGCCGTGTACAACTACTACGCGGACATTGAAGAGCTGCTGATTTCCTACGCCCTCGTCGAAACGGAGCGCTTCCTCGCGGAGCTCAAGGAGTCCCTGAACCGTCTAGACAACCCGGTGGACCGGCTGGCGCTGTATGTGCGTGCCCAGGTGGAGGACCTCAGCCGCCGGCACCTGCCGCCCGGGCCGGCTATGGGAGCTGTGCTTTCGCCGGCGTCCTTCGCCAAGCTCGCGGACCATGTGGGCGGCCTCAGCGATCTTCTTCAGGACATCCTCTGCGAGGGGATGGAGCAGGGGTACTTTCCAGTGGCGGATGTCCGGCAGCAGGCACAACTGATCCATGGGACGCTCTCCTCCAGCGCCGCACGCGGCAACGAGGAGGCGGACGACCTGGAGGACCGCATTTCCAGGACGGTGCGGTTCATCCAGTTGGGTGCCGGGGCAAGGTTCGACGACGGCGGCCGCCCGGTCAAACTGGCCGGCCCGCCGACCGCAGGGGGCTAG	MPRISAPSNAAQRAETQRRILNAFGELLFTHGLPGLTMTDVARRAGIGRTAVYNYYADIEELLISYALVETERFLAELKESLNRLDNPVDRLALYVRAQVEDLSRRHLPPGPAMGAVLSPASFAKLADHVGGLSDLLQDILCEGMEQGYFPVADVRQQAQLIHGTLSSSAARGNEEADDLEDRISRTVRFIQLGAGARFDDGGRPVKLAGPPTAGG				NA	NA	NA	NA	NA
D1-17_03351	672			hypothetical protein	ATGGCTAGGAAACCCAAGGATGTCACAAAGCTGCACGGGCACCGGGTCATCACAGGCCCTGAGCTCCGGGCCACATTCGTGGACGATGACACGTCGGGCAATTCCGGCAGGTTGCGGCGCAAGATCCTGCACGGCGCGGTGCTCTTCGTGCTCCTTGGCCTTATTGTGGCTGCCATTTTAGGTGCGCTGGCGGTGATGAACGGGCAGATAAAGTTCCCCGGAAGCGAGGACAGCCAAGCTGATTCCTCGGCGTGCCCCGCAACCACGTTCGACTACACGTCGCCCGCCAAGGTGAAGGTCAACGTCTTCAACGCGACACCCCGTGCCGGCCTTGCGCGGTCGGCAGCCAACGAGTTCAAGGCACGGAAGTTCGAGGTGGGCCAGGTGGGCAACAGGGAAACGGGCTATCGGGGAGTGGCGGCCATTGTGTCAGGCACGGCGGGGCAGGCTGCTGCCTTTACCGTTCAACGGAACCTGCCGGGTTCTGACTACTTCCAGGACGGGCGCCAGGACGCCACCGTGGATGTGATCCTGACCGGCGACTACCGCGGCCTGGCCAAACCCGAACTGGTGGACCAGACCCCGGGCACGCTGAGCTGCCCCCGTGAAAGCCGCCGCATTGCCGATGACGTGCAGGTGCCGGTGGCCCCCAGCACGGGCGCCAAGGGCTGA	MARKPKDVTKLHGHRVITGPELRATFVDDDTSGNSGRLRRKILHGAVLFVLLGLIVAAILGALAVMNGQIKFPGSEDSQADSSACPATTFDYTSPAKVKVNVFNATPRAGLARSAANEFKARKFEVGQVGNRETGYRGVAAIVSGTAGQAAAFTVQRNLPGSDYFQDGRQDATVDVILTGDYRGLAKPELVDQTPGTLSCPRESRRIADDVQVPVAPSTGAKG				NA	NA	NA	NA	NA
D1-17_03352	300			hypothetical protein	GTGATATTCAAAGCTGTGGGCGAGGGACGCCCTTACCCCGACCATGGTTACAGCACTCCGAAGGACTGGGCGGCGCTGCCGCCGCGGCCCGTGCGGCTGGATGAGCTGGTGACAACGAAACGGACTCTCGATCTCGAGGCGCTGCTGGCTGAAGACTCCACGTTCTTTGGCGACCTGTTCCCCCACGTAGTGCAGTACAAGGGAACTCTTTACCTCGAGGACGGCTTGCACCGGGCGGTCCGGACCGCGCTTCACCAGCGCACCGCGATTCATGCCAGAGTGTTGGTGATCGATGGCTAG	MIFKAVGEGRPYPDHGYSTPKDWAALPPRPVRLDELVTTKRTLDLEALLAEDSTFFGDLFPHVVQYKGTLYLEDGLHRAVRTALHQRTAIHARVLVIDG				NA	NA	NA	NA	NA
D1-17_03353	1002			hypothetical protein	ATGAGTCACATCCACGGCGCAGGGGAGCAGCAGAGCCGCCAGACAGCGGCCGGCTGTCAGAATGGAGGCATGACTGCACCTCCCGCGAACGATGCCTCCGCAACCTTCGGCGTCCACACGCCGTCGACTCCTGCCCTTGCACTGCTCCTGGACGTCGACGGGCCGGTGGCCAGCCCCGTCACAAGAGACGTGAAGCCGGCCATCATCGCTGATCTCGTGGCGCTGGCAACCGCCGGGATCCCCGTCATCTTCAACACCGGCCGGTCGGACGCCTTCATCCGGGAGCAGGTGATGGAGCCCATGATCGCCGCGGGCATGCCTTCCGGCACGCTGATTCACGCTATCTGCGAAAAGGGAGCTGTCTGGTTCAGTTTTACCGCCGCTGGGCCTGGACCAATCCATGTGGACCACGAGCTGGCTGTTCCGGCCGCCTATGGAGACGACATCAGGCGCTTGGTAGCCGAGGACTACTCCTCACACATGTTCTTTGACGAAACCAAACGGGCCATGGTGTCCGTGGAGCAGCACATCGAAGTGCGCAACAGCGAGTATCTCGCCGAGCAGGCGCTGTTCGACGCGGAAGCCATGGAGCTGATGCAGCGGCACGGCCTCGGCGTGGTCCGCCTCGACCATCACGAGCCGAACTCGGAAGACGGGATCGACTACCGGGTGGACCCGACCATCATTTCCACCGACATTGAATCGGTCCGCCTCGGCAAGGACCTCGGCGCCAGCAGGGCTGTTGAGCTGCTCGCAGCGCAGGGAATCACGCCGCAGGCCTGGCGCACAGTCGGCGATTCCCGCACCGACTACGCGATGGCCGACTGGCTGCACCACAACGACCACGTGGTCAAGCACATCGACGTCCGGCCGGCTGACGGCGTCCCGGTGAAGCCTTACGCTGTCCTCACCGCCGCGGACCTCGGCTTGGAGGAGTCGGTGATCCACGACGACGCCGGAGCGGCTTTCCTGCGTAAATGGCTCGATGCGCTGGTTCGCTAA	MSHIHGAGEQQSRQTAAGCQNGGMTAPPANDASATFGVHTPSTPALALLLDVDGPVASPVTRDVKPAIIADLVALATAGIPVIFNTGRSDAFIREQVMEPMIAAGMPSGTLIHAICEKGAVWFSFTAAGPGPIHVDHELAVPAAYGDDIRRLVAEDYSSHMFFDETKRAMVSVEQHIEVRNSEYLAEQALFDAEAMELMQRHGLGVVRLDHHEPNSEDGIDYRVDPTIISTDIESVRLGKDLGASRAVELLAAQGITPQAWRTVGDSRTDYAMADWLHHNDHVVKHIDVRPADGVPVKPYAVLTAADLGLEESVIHDDAGAAFLRKWLDALVR				NA	NA	NA	NA	NA
D1-17_03354	1476	cpsY		Exopolysaccharide phosphotransferase CpsY	GTGGTCCGCACATCAGGGCGGTACGCGCTGATCAACAAGAACCGGACGCCGTACCAGGCCATGGTGGAGGACCTGCTCTTCCTGCGGAACGTGCTGGCGCAGGCTGGCCTGGACTACCTCCTGGTCCGCGGGAACAACGACCGACCCGTCATCGCCCTGGACTGGAAAAAGCGCAAGAAGCTGCGCGCTGCCCTTGTGGAGGCCTGCCGGGACGAGCCTTTCTACTCCATGACCGTGGACGCCAAGAAGAAGACGTCGGTGCTCGTTGCCGACGGCGAGCTCTCCACCAACAAGCAGTCCAGGATTTTCCGGCTGTACAGGCCCCGCGTGGAACCCAACGGGGGCTTCGAGTTCGGCGCTTCCGCAGGGGTCCAGGTGGAGCTCTGGAGCTTCGAAGGCGACCAGGTGATCCTGCCGATTGAAAATTCACTGACGCGCCGTACCATGCTGGCCCAGGACGCCGTGCGCGGCACCGTCGAGCGATACGGCCACAGCTGGCCGACCATCGAGAACATGTTCGCGGACCACGCAAGCGACATCAACTTCGACGTCGACCTGATTTTCTCCTGGGTGGATGGCAGCTCTCCCGAGTACATCGCCGCCCGCCGAGCACGGCAGGCCGGCACGGTACTCGGCGAGGGCGACGACCACGAAGCGCGCTACCGCCAGATCAACGAGCTTAAGTACGCGCTCCGGTCGGTCTATATGTTTGCGCCATGGATACGCCGCATCTTCATCGCAACGGACTCCCCCGCTCCGGAATGGCTGGCGGACCACCCAGCGGTAACGATTCTCCGGAGCGAGGAGTTCTTCGCCGATCCCTCCGTGCTGCCCACCCACAATTCCCAAGCTGTGGAATGCCAGCTGCACCACATCGAGGGACTGTCGGAGCATTTCCTGTACTCCAACGACGACATGTTCTTCGGCCGGCCCGTAGGACCGGACATCTTCTTCACGCCCGGCGGCATCACGAAATTCATCGAAGCAGAGACCCGCATCGGGCTGGGAGAGAATGCAGTGGAACGGAGCGGCTTCGAGAACGCCGCCCGGGTGAACCGCAAGCTGCTATGGAACCGTTTCGGCCGGATCACCACCCGGCACCTGGAACACTGCGCTGCGCCGCTGCGGCGGAGCGTCGTTGCCCAGATGGAGGAAGAGTTCCCGAACGAGTTCGCCAAGACGGCGGCGAGCACCTTCCGAGCGGCGGACAACATCTCCGTTACCAACTCGTTCTACCACTATTACGCCTTGCTCACCGGCCGCGCCGTGACGCAGACGGCGGCGAAGGTCAGGTACGTCGACACCACCCTGAGGTCGGGGCTGAACTATCTCCCGAAACTGCTGGCCAAGCGCAACATGGACTTCTTCTGCCTCAATGACGGCAGCTTCCCGGAAGTGCCGGCCGACGAGCGGGCGGAACTGGTGACTGACTTCCTGGAGAAGTACTTCCCCATCAAAGCGCCCTGGGAGAAGTAG	MVRTSGRYALINKNRTPYQAMVEDLLFLRNVLAQAGLDYLLVRGNNDRPVIALDWKKRKKLRAALVEACRDEPFYSMTVDAKKKTSVLVADGELSTNKQSRIFRLYRPRVEPNGGFEFGASAGVQVELWSFEGDQVILPIENSLTRRTMLAQDAVRGTVERYGHSWPTIENMFADHASDINFDVDLIFSWVDGSSPEYIAARRARQAGTVLGEGDDHEARYRQINELKYALRSVYMFAPWIRRIFIATDSPAPEWLADHPAVTILRSEEFFADPSVLPTHNSQAVECQLHHIEGLSEHFLYSNDDMFFGRPVGPDIFFTPGGITKFIEAETRIGLGENAVERSGFENAARVNRKLLWNRFGRITTRHLEHCAAPLRRSVVAQMEEEFPNEFAKTAASTFRAADNISVTNSFYHYYALLTGRAVTQTAAKVRYVDTTLRSGLNYLPKLLAKRNMDFFCLNDGSFPEVPADERAELVTDFLEKYFPIKAPWEK				NA	NA	NA	NA	NA
D1-17_03355	912	cpdA_3	COG1409	3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGGAGCTCATCGAGGCCGAGCACCCAAGGCCACGTCATTTTCTACTCCACCTAAGCGACCCCCACCTGCTGGGAGGTCCGGACCCCCTCTACGGAGCTGTGGACAGCGAAGCCCGCCTGATCCAGCTCTTCGAAGAGGTCCGAGCGTCAGGGGCCCGCCCCGAAGCCGTGATTTTTACCGGCGACCTGGCTGACAAGGGAGACCCTGAGGCTTACGCCAAGCTCCGCGCGATCGTCGAGCCAGCGTGCGGGGATCTCGGCGCCAAAGTCATCTGGGCCATGGGAAACCACGACAACCGGGCCAACTTCCGGGCAGGTCTGCTCGACCAGCCAGGCAATGACGCCCCTGTGGATCACAGCTACTACGTCAACGGCCTGCGCGTCATCACTATGGACACCTCGGTGCCGGGTTTCCATCATGGGGAACTCAGTGACGACCAGCTGGACTGGCTGGCATCGCAGCTGGAAACCCCCGCTCCTGACGGGACCATCCTGGCGTTGCATCATCCGCCGGTGCCCTCAGTGCTGGACCTGTCCATGCTCGTAGAGCTCCGCGACCAGGCCGCGCTGGAATCCGTCGTCCGGGACTCGGACGTGCGCACCATTCTGGCAGGTCACCTCCACTACTCGACGACGGCAAGCTTCGCCGGCATTCCGGTGTCTGTCGCATCCGCCACCTGCTACACCCAGGATCTCAACGTCCCTGTTGGAGGAACCCGCGGCCGTGACGGCGGACAGGCTTTCAACCTCGTGCACGTCTACGAGCACACCATCGTGCACTCGGTGGTGCCGCTGGGAAACACGCCGACCGTGGGGGAGTACGTCAGCCCCGAGGAAACGGAACGGCGACTGGCAGCAGCCGGGATCCGCATCCCCGAGAAGGTAAACAGGCCCGTCCTTACTCGGAACTAG	MELIEAEHPRPRHFLLHLSDPHLLGGPDPLYGAVDSEARLIQLFEEVRASGARPEAVIFTGDLADKGDPEAYAKLRAIVEPACGDLGAKVIWAMGNHDNRANFRAGLLDQPGNDAPVDHSYYVNGLRVITMDTSVPGFHHGELSDDQLDWLASQLETPAPDGTILALHHPPVPSVLDLSMLVELRDQAALESVVRDSDVRTILAGHLHYSTTASFAGIPVSVASATCYTQDLNVPVGGTRGRDGGQAFNLVHVYEHTIVHSVVPLGNTPTVGEYVSPEETERRLAAAGIRIPEKVNRPVLTRN	PGPT0021595_541	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
D1-17_03356	435			hypothetical protein	TTGGACCAGGGACAACCGCTGACGAAACGGTTGCTGACGGGACGGGCACGGGATCGGTCGGTGCGGGGGCCGGTGCAGGTGCCGGAGCGGGAGCAGGTGCCGGAGCGGGAGCGGGAGCAGGTGCAGGTGCCGGAGCGGGAGCAGGTGCCGGAGCGGGAGCAGGTGCCGGCGCGACAATCCCAGAGCTCGGTGTGGGCACGGGGGCCGGAGCAGGCGCCGGCGCCGGAGCAGGTGCCGGGGCGGGTGCTGGTGCCGGGGCGGGTGCTGGCGCCGGGGCGGGTGCTGGCGCCGGGGCGGGTGCTGTGTGTGGCTCCGGATCAGGCGTTGGATCTGGAGGCGGCGGACCAGGGGCGGGTGCCGGGGTGGGAACTTCAGGTGCAGGAGGATCCGTCGGCAGCTCAGGCGCGGGCTCCGGATCAGGCGCGGGCTCCGTAG	MDQGQPLTKRLLTGRARDRSVRGPVQVPEREQVPEREREQVQVPEREQVPEREQVPARQSQSSVWARGPEQAPAPEQVPGRVLVPGRVLAPGRVLAPGRVLCVAPDQALDLEAADQGRVPGWELQVQEDPSAAQARAPDQARAP				NA	NA	NA	NA	NA
D1-17_03357	348			hypothetical protein	TTGGCCAACCAATACGGGAGGAGCCACCAGCAGCCCGTTGCAGACGGTTGCACCCGACCCGTCGACCACTACTACGTCGAAGTCGCCGACGGCGCCCGGCAAGACGGCACCACCTACCACGAGCTCACCGACAACCACGGCACCGACAACGACGGCACCGACAACCACGGCACCGACAACGACCTCCCCCACGCCAACGCCTCCAGGAACAACAACGCCTCCGCCTGCGGACACAGCAACGCCTCCGCCCGCGGACACAACAACGCCTCCACCATCGGGGACGCCACCAGCTACGGGCACGCCCGTGCCGACGCCAGATCCCGGGGTGCCTACGGAGCCCGCGCCTGA	MANQYGRSHQQPVADGCTRPVDHYYVEVADGARQDGTTYHELTDNHGTDNDGTDNHGTDNDLPHANASRNNNASACGHSNASARGHNNASTIGDATSYGHARADARSRGAYGARA				NA	NA	NA	NA	NA
D1-17_03358	909			hypothetical protein	ATGCGGAACTTCCCCAGGGAATTGCAGGCGGAGATCCGGCGGACGTTAAGCGGCAGCCCTGATGCGCCACCGGATTGGGCGGAAAAGTTCGCCCAGGGAAAGGATCCGGGCCTTTACCGCCCCGGTTCCGCCGTATGGGCTGTCCATCGTGGAATGCCCACCCTTGTTGCCGGCATCCGTGCCCTTCTGATGCAGACGCTGCACCCCGGAGTCCTCGCTGGCGTCCATGACCATTCGAACTTCCAGGAAGACACCCTCGGCCGGCTGGTCAGGACCACCCGCTGGATCCATGCAGTGACGTACGGCTCTACGGCCGATGCCCGTGCCGCGACCAACGCAGTGCTCCGAATTCACGAGTCCGTGCGCGGACAGTACGTTGACGGAGCGGGTGTCGCCCGGGATTACTCGGCCAACGATCCGGAGCTGCTCCGATGGGTGCACGTTGCATTCACGGACTCATTCCTGGCGGTGCACCGCAGGTGGGGAGGACGCATTCCCGGAGGACCGGACGCCTATGTCCGTGAATGGGCCGAGGCTGGCCGCCTGATGGGCATAGAATCGCCACCGCTCCGGGAAGCCGATCTGGCCCAGGAACTGGAGGCCTGGTATGCAGCTGGGGCCTTGCGTGCGGACGAAAGGGTGGCCGAGACGGTAGCCTTTATCCGCAATCCGCCGCTGCATCCATGGCTGTTGCCCGGCTACCGGATCCTTTTTGCCGCCGCGGTGCGGAGTCTGGAGCCCAAGTACCGGGAGATGCTGGGGCTGCGGAATGCGCACATTGGCCCATTACCGCTTCCCGTGGGGCTGGCAACAAGGGCAACACTCGCCGTCGTACGTCTTGCCTTGGGCCCGATGGGGCCGAGCGAGCGCGCCGCGCGGAAACGGCTCCGGAGGTTGGGAGTGGCCTGA	MRNFPRELQAEIRRTLSGSPDAPPDWAEKFAQGKDPGLYRPGSAVWAVHRGMPTLVAGIRALLMQTLHPGVLAGVHDHSNFQEDTLGRLVRTTRWIHAVTYGSTADARAATNAVLRIHESVRGQYVDGAGVARDYSANDPELLRWVHVAFTDSFLAVHRRWGGRIPGGPDAYVREWAEAGRLMGIESPPLREADLAQELEAWYAAGALRADERVAETVAFIRNPPLHPWLLPGYRILFAAAVRSLEPKYREMLGLRNAHIGPLPLPVGLATRATLAVVRLALGPMGPSERAARKRLRRLGVA				NA	NA	NA	NA	NA
D1-17_03360	345		COG0327	GTP cyclohydrolase 1 type 2	ATGCCGCAGCTGCACGCCCTGGTCGTCTATGTTCCCGAGTCACACCTGGACCCCGTTCTTGCCGCGATGGGAGACGCCGGTGCAGGGCGGGTGGGTGAATACTCACACTGTTCCTTCACCTCGTCGGGCACCGGCCGGTTCACTCCCCTGGCTGGCTCCAACCCATTCATCGGCGCACAGGATGTTCCCGAGCAGGTGGCTGAAGTGCGTGTTGAGTGCGTGGTTGAGGATGAGCTGCTCGATGCCGTGGTCCGCGCCCTCCGGGCCGTCCACCCGTACGAAGAACCCGCCTTCATGAGCTGGCCGGTGAACGGGCACCGGCAGCAGCCAGAGAGCATGGTCTGA	MPQLHALVVYVPESHLDPVLAAMGDAGAGRVGEYSHCSFTSSGTGRFTPLAGSNPFIGAQDVPEQVAEVRVECVVEDELLDAVVRALRAVHPYEEPAFMSWPVNGHRQQPESMV				NA	NA	NA	NA	NA
D1-17_03362	3366			hypothetical protein	GTGACTGTTACTACCGCCCTGTACCGCAGATACCGCCCCGATTCGTTCGCGGACGTTATCGGGCAGGAACATGTCACCGAGCCGCTGATGACCGCCCTGCGCAAGAATCGCGTGAACCACGCGTACTTGTTTTCCGGCCCCCGCGGCTGTGGCAAGACCACCTCTGCCCGCATCCTTGCGCGCTGCCTCAACTGCGCAAAAGGCCCCACGGACACCCCCTGCGGTGTGTGCCTGAGCTGCATTGAGCTCGCCCGCGGCGGCGCCGGTTCCCTCGATGTCATCGAGATTGACGCCGCCAGCCACGGCGGCGTGGACGATGCCCGTGACCTCCGCGAACGCGCCACTTACGCCCCGGTCCGGGACCGCTACAAGATCTTCATTATTGACGAGGCCCATATGGTCACCTCGGCAGGCTTCAACGCCCTTCTGAAGATCGTCGAAGAACCGCCGGAACACATCAAGTTCATCTTTGCCACCACGGAGCCAGACAAGGTCATCGGGACGATCCGGTCCCGCACGCATCACTACCCATTCCGGCTGGTGCCGCCCGAGCCGCTCATGGCCTACCTTCAGCTTCTGTGCCAGCAGGAGAATGTCCCCGTTGCCCCGGGCGTGCTGTCGCTCGTCATCCGCGCCGGTGCAGGTTCCGTTCGTGATTCGCTGTCGGTGCTCGATCAGCTCATGGCGGGCGCCGGGCCGAACGGCCTGGACTACGAACTGGCCGTTGCGCTGCTTGGCTACACCCACGCTTCACTGCTGGATGATGTTGTTGAAGCGATCGCCGCATCCGACTCCGCCACCGTCTTCCGGGCAGTGGACAGGGTCATCCAGACTGGACATGATCCCCGCCGTTTCGTGGAGGACCTCCTCGAACGGTTCCGGGACCTCATCATCGTTCAGGCCATGCCCGAGAGTGCCCAATCGATCCTTCGGGGCATGCCGGCCGACCAAATCGCGCGGATGCAGAACCAGGCGCACAATCTGGGTGCCGCCGAGCTGTCCCGCGCTGCTGACGTCACCAACACCGCGCTCACGGAGATGACAGGCGCAACCTCTCCCCGGCTGCACCTTGAGCTGCTCTGTGCCCGCATCCTGCTGCCCAGCGCTGAACAGACCGAGCGGGGCATTGCCGCACGCATCGACCGCGTGGAGCGGAGACTGAATTACGCAGGGAACGACGTCGGCGCTCCGGCGGCCGCTGCTGCCGCACCCGTCGCTGCCCGCCCCGCCGCAGTTGCACCGTCTGATGCTGCGGCGGCTGTTGCCCCGCCCGCCACTGCTGCACCTGCCGCCCCAGCACCCGTTATCCCGGCACCTGTTGCCCCGGCGCCTGTTAACTCCGGGCAGCCCAGCTCCGTGCCGGACACCTCGATGCCAGATGCTTCAGGTCCAGCTCCAGCTGTCAGCGCACCGGTTGCCGGACCCCCAGCTGCCGTTCCGGCGGGCGTTCCGATGCAGCGGCCAGCCATGGCAGCGCCGCGGATCAGCACCAGTGACTGGCCTGTGGACGAACGGCAGCCGGGCGCAGGCAGGCCTGCGCCCGAGCCCGTCGTCGGCAGCGGCCGGGAGTCCACACCGCCCCTCCACGCCGGCACGCAAGGACAGTCGGAGCGGCCGGCTGAAGCGACGCAGCGGCCAGCCGCGGAATCGGCACCCCGCCAGGCCCAGCCTGATCAGCCTGCTTCTGCACAGCCGGAAGGCCGCTCCGCTTCCACCGGCGCACCTGCCCCTGTCCCCGCCGCCCCTCCCGCGCATGCTGGAGGAGGCGACGTGGAGGTGATGCGCCGTGCATGGCCGGAGATCCTGCAGACCCTGGCGAAGATCAAGCGCAGCACGTGGGCTCTCGTGGAACCGAACGCCCAGGTTGGCCAGTTCGACGGCCAGGTGCTGACACTGGTCTTCACCACCTCGGGGCTGGCCGGTGCCTTCGGCCGGGCTGATCACTCCGAGAACCTGCGCCAGGCGATCCACAAGACCATCGGCATCGATTGCCAGATCACTGCGAAGGCAAGCGCTTCCAACACCCCCGCGAGCTCTGACCCAAACCCAAAAGGCCCTACTAGCCGGGACATTCCCGCGCCCACCACGGACGCGGACTGGGGACTGGCCCCGGCCGTCACTGGCTCCACAGGGGGAAGTGCTTCCGGGCCCCAAAGGGACGACGTACCTCCTCCCCCAGGACCCCGCCCTGCCCGAGAGCCCGCGACAGCACGGGAACACAGAGCAGGTTCCTCTGCTGTGGCTGCTTCCCGCCCCGCGTCTGCTTCGGTGGCGGCGGCTGAGCCGCGTCGTGCACTTGCAGGTGAACCTCCCGCGTATGCAGGTGAACCGGCCCATATTAGCCATGGCGGTTCCTACTCCTACCCTGACGACGATTGGGGCCCGCCCCTCGACGAGGACGCACCCCCGCTGGATGAAGAACCGCCTATGGACTGGGAACCGCGCCCCCGTCAGGAAGCCCGCACTGTCTCCCAGCCCGCTGATGCATCCCGCCCCGTCCCTGCCTCCGCCCGGGATAGCGGATTAGCCAGGCCGGCAACGGATGCCTCCGCTGACCCCTGGTCGCGGGCTGTGGAGCAGGCTCCGGGCGTGTGGCTCCTGGGTTCCGAAAGCAACGTGGGCAAGTACGGGGGCCACCCTGAACTAGAGCCGCAAACCCCGGCCGCTCCGAGATATGAACCCGCAACGGCCCAGCTTCCGCCTGAGACCGGACCGGCGGGTACTGGGTCGCCGGCCCTGGGGCGTCCTGCTGCCGCCCCGGCCACGGGCACTCAGCACATGCCGGCCCCAGTCCAGCTTGGGGAGCCAGTCCAGCTTGGGGAGCCAGTCCAGCCTGGGGAGCCCGTCCAGCCTGGGGAGCCCGTCCAGCCTGTGGAGCCGGCATGGGAAACCCGGGAGTTCGCGCCCGCCTATGCAATGGCATCCGCACCTGCCCCTGGGCCGGGTGAAGCGGCGCTCGTACCCAGTGCAGCGCCGTCCGGCCGCCCGCACCTTGCACCCACCAAGGTGACGGCTGTTGGAGCTGCACCGGCGGGGGCCCCGACAGCCGCCACGGACACTGCCGCGGCCACCAGGACCGCTCCAGGCACGGGTACTGCGGCCCTCGCGGCGCCGGCCGCAGGCAAGGAAAAACTGAGCCTTTACCAGCGGCTGTCCAACAGCGCCGAGGCTGAAGCAGGGCGGGCCAAAGCGCCCAGCCGTCAAGCGGAGTCTGCCGTCCCGCATCCCCAGGACATTCCCAGCGCCGATGACGAGACCATCGAGGAATCGGGCGTGTTTGGGAGGGCTGCTGTTGAGCGTATTCTGGGCGGAAAGCTGATCGACGAGCGGTCGCTGGACGGAAGCCCGCTTGTGCCCCGCTACTAG	MTVTTALYRRYRPDSFADVIGQEHVTEPLMTALRKNRVNHAYLFSGPRGCGKTTSARILARCLNCAKGPTDTPCGVCLSCIELARGGAGSLDVIEIDAASHGGVDDARDLRERATYAPVRDRYKIFIIDEAHMVTSAGFNALLKIVEEPPEHIKFIFATTEPDKVIGTIRSRTHHYPFRLVPPEPLMAYLQLLCQQENVPVAPGVLSLVIRAGAGSVRDSLSVLDQLMAGAGPNGLDYELAVALLGYTHASLLDDVVEAIAASDSATVFRAVDRVIQTGHDPRRFVEDLLERFRDLIIVQAMPESAQSILRGMPADQIARMQNQAHNLGAAELSRAADVTNTALTEMTGATSPRLHLELLCARILLPSAEQTERGIAARIDRVERRLNYAGNDVGAPAAAAAAPVAARPAAVAPSDAAAAVAPPATAAPAAPAPVIPAPVAPAPVNSGQPSSVPDTSMPDASGPAPAVSAPVAGPPAAVPAGVPMQRPAMAAPRISTSDWPVDERQPGAGRPAPEPVVGSGRESTPPLHAGTQGQSERPAEATQRPAAESAPRQAQPDQPASAQPEGRSASTGAPAPVPAAPPAHAGGGDVEVMRRAWPEILQTLAKIKRSTWALVEPNAQVGQFDGQVLTLVFTTSGLAGAFGRADHSENLRQAIHKTIGIDCQITAKASASNTPASSDPNPKGPTSRDIPAPTTDADWGLAPAVTGSTGGSASGPQRDDVPPPPGPRPAREPATAREHRAGSSAVAASRPASASVAAAEPRRALAGEPPAYAGEPAHISHGGSYSYPDDDWGPPLDEDAPPLDEEPPMDWEPRPRQEARTVSQPADASRPVPASARDSGLARPATDASADPWSRAVEQAPGVWLLGSESNVGKYGGHPELEPQTPAAPRYEPATAQLPPETGPAGTGSPALGRPAAAPATGTQHMPAPVQLGEPVQLGEPVQPGEPVQPGEPVQPVEPAWETREFAPAYAMASAPAPGPGEAALVPSAAPSGRPHLAPTKVTAVGAAPAGAPTAATDTAAATRTAPGTGTAALAAPAAGKEKLSLYQRLSNSAEAEAGRAKAPSRQAESAVPHPQDIPSADDETIEESGVFGRAAVERILGGKLIDERSLDGSPLVPRY				NA	NA	NA	NA	NA
D1-17_03363	600	recR	COG0353	Recombination protein RecR	GTGTACGAGGGTGCAGTTCAAGAGCTGATCGACGAGCTCGGACGCCTGCCGGGTGTCGGGCCGAAGTCAGCCCAGAGGCTGGCCTTCCACATCCTGGAGGCCGACCCGCAGGATATGAGGCGGCTTGTTGACGCCATCACCACCGTCAAGGACCGCGTGAAGTTCTGTACTGTATGCGGCAACGTTACGGAGCAGGAACTCTGCAACATTTGCCGGGATGCCCGCCGGGACCCTTCCGTCATCTGCGTGGTGGAGGAGTCGAAGGACGTTCTTGCGGTGGAGCGTACCCGTTCGTTCCGCGGCCGATACCACGTGCTTGGCGGCGCCATAAACCCCATTGCGGGCATAGGCCCTGAGCAGCTGCGGATCCGCGAGCTGCTGACAAGGCTCAACGACGGCGCCATCCAGGAAATCATCATCGCCACGGACCCGAACCTGGAGGGTGAGGCGACGGCCACATACCTGGCCCGGATGCTGAAGTCCATCGGCATTACCGTGACGCGGCTGGCGTCCGGACTCCCGGTCGGCGGAGACCTCGAGTACGCCGACGAAGTCACGCTCGGCCGTGCTTTCGAGGGCCGGCGCAACGCCTTGGGCTGA	MYEGAVQELIDELGRLPGVGPKSAQRLAFHILEADPQDMRRLVDAITTVKDRVKFCTVCGNVTEQELCNICRDARRDPSVICVVEESKDVLAVERTRSFRGRYHVLGGAINPIAGIGPEQLRIRELLTRLNDGAIQEIIIATDPNLEGEATATYLARMLKSIGITVTRLASGLPVGGDLEYADEVTLGRAFEGRRNALG				NA	NA	NA	NA	NA
D1-17_03364	1359	ask	COG0527	Aspartokinase	ATGAGTATGCCCAGTACCGATGTGAAGACTGAACAGCAGCCGCAGGAGCTTGCCGTTAACCCGGCCTCCACCGCCCAGCTCATTGTGCAGAAGTTTGGTGGTTCCTCGGTAGCCGATGCTGAAGGTATCAGGCGTGTTGCCAGACGTGTTGTGGACGCCCAGAAAGCCGGCAACGAGGTTGTTGTTGTGGTCTCGGCGATGGGTGACACCACCGACGAACTGCTGGACCTCGCCGCGCAGGTCACCAATTCCGCCCCGGCACGCGAGATGGACATGCTTCTGTCCGCCGGCGAACGCATTTCCATGGCCCTGCTGGCCATGGCGATCAACAAGTTCGGCGCCTCCGCCCAGTCCTTCACCGGTTCCCAGGCCGGCATGATCACTGACGGCATCCACGGCAAGGCCCGCATCATCGACGTGGACCCGCACCGGATCCGGACGGCTCTGGACAAGGGCCACATCGCCATCGTCGCCGGCTTCCAGGGCATGAGCCGCACCACCAACGAGATCACCACCCTGGGCCGCGGCGGTTCTGACACCACGGCAGTGGCCTTGGCCGCAGCGCTGGACGCCGATGTGTGCGAGATCTACACAGACGTGGACGGCATCTTCACCGCCGATCCGCGTGTGGTTCCCTCGGCGCAGAAAATCGACCGTATCTCCAGCGAGGAAATGCTGGAACTTGCTGCGTCCGGCGCCAAGATCCTTCACCTGCGCTGCGTCGAGTACGCCCGCCGGTTTGGTGTGCCGCTGCACGTCCGTTCTTCATTCAGCCAGCACGAAGGCACCTGGGTCATCCCCGGCGCCGACGACAAGATCAAGACTCAAGAGGGAGTTGCCTTGGAGCAGCCAATCATCTCCGGCGTTGCACACGACCGTTCCGAAGCGAAGGTGACCGTTGTCGGCGTTCCCGACATCCCCGGTAAGGCTGCCGCCATCTTCCAGGTCATCGCCGATGCGCACTCGAACATCGACATGATCGTGCAGAACGTCTCGACGCACGGGACCGGCCGTACGGACATCTCCTTCACCCTGCCCATCGTCGAAGGCGCCGACGCACTCGCTGCCCTCCGTGCCGCTGAGGCCGAGATCGGCTTCGAAAGCATCGAATACAACGAGCAGATCGGCAAGCTGTCCCTGATCGGCGCCGGAATGAGGTCACACCCCGGTGTATCGGCAACGTTCTTCAAGGCGCTTTCCGACGCCGGCATTAACATCAACATGATTTCCACCTCGGAGATCCGCATCTCTGTCGTCACCCACGCGGACCTGCTGGACGAGGCGGTGCGCGTCATCCACAAAGCGTTTGACCTGGACAGCGAAGCAGAGGCCACCGTTTACGGCGGCACGGGCCGCTAA	MSMPSTDVKTEQQPQELAVNPASTAQLIVQKFGGSSVADAEGIRRVARRVVDAQKAGNEVVVVVSAMGDTTDELLDLAAQVTNSAPAREMDMLLSAGERISMALLAMAINKFGASAQSFTGSQAGMITDGIHGKARIIDVDPHRIRTALDKGHIAIVAGFQGMSRTTNEITTLGRGGSDTTAVALAAALDADVCEIYTDVDGIFTADPRVVPSAQKIDRISSEEMLELAASGAKILHLRCVEYARRFGVPLHVRSSFSQHEGTWVIPGADDKIKTQEGVALEQPIISGVAHDRSEAKVTVVGVPDIPGKAAAIFQVIADAHSNIDMIVQNVSTHGTGRTDISFTLPIVEGADALAALRAAEAEIGFESIEYNEQIGKLSLIGAGMRSHPGVSATFFKALSDAGININMISTSEIRISVVTHADLLDEAVRVIHKAFDLDSEAEATVYGGTGR	PGPT0014040_1572	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
D1-17_03365	216			hypothetical protein	GTGGCACATGTAGTTTCTGGCTTCATGAACCTGACCGACAGGCTGCGGTTCATCTTCGGCCCGGCCGCGGTGGGTGACTCTTCTACGCCTGTGGTTCACTTGCACGATGACTTCGAGCATGCCTCGGAGGAAGAGCTGGCGCAGTTCGAAGTCGAGACTGACTCCGAAGGCCACCACTACGCAATACGCAAGAGCGACCTGAAGTATCTCGAGTAG	MAHVVSGFMNLTDRLRFIFGPAAVGDSSTPVVHLHDDFEHASEEELAQFEVETDSEGHHYAIRKSDLKYLE				NA	NA	NA	NA	NA
D1-17_03366	234			hypothetical protein	GTGGACACCTTGGCAAAAGAGAATGCAGCACAGCGCTTCATGCGCACTACGGGCAAGCTGAGGGCGATTTTCGGCCCGGCAAACCGGAGCGCACTGGGACACGACATGACCGAAGAAAACCGCCGGCTGCTCGCCCAGCGCCAGGCGGAAACCCGCCAGTGGGAAACGGTCCAGCGCCCGGACGGCAGCACCTACGTAGTGCCCCGTGACCCGGACGATAAATCCCTTCGCTAG	MDTLAKENAAQRFMRTTGKLRAIFGPANRSALGHDMTEENRRLLAQRQAETRQWETVQRPDGSTYVVPRDPDDKSLR				NA	NA	NA	NA	NA
D1-17_03367	585			hypothetical protein	ATGAATGCCCCCACAGACCAGGCAACGAAGCAGGCAGTGACTGTCCAAGCAGTGACGGCCCACGCCACAAGTGAACCTGGTGCAAGGGAACCTGACGCAACTGAACCCGGCGCATCGGCTGCCAGCGGCAACGCCGACGCTTCTGCGGCCGACAGCGACCTCCTGCTGGAGCGGCAGCTTTGTTTTGCACTGACCGTGGCTTCGCGCAGCGTCGTGGGTGCCTACAAGCCTGTGCTGGAACGGATGGGCCTCACACATCCGCAGTACCTGGTCATGCTGTGCCTGTGGGAAAACAGCCCCCGCACCGTGCGGGAGATCAGCGAAGCGCTCGCCCAGGAGCCCGCCACCATCTCCCCGCTGCTTCGAAGGCTGGAAAGTGCCGGACTCATCACGCGGCGCCGCGTGGAAGGGAACGAACGAGCCCTGGCTGTAGCCCTCACCCCTGCTGGAGCATCACTCCGTCAGCAGGCGACATCGGTGCCGGGCACGATGATGGCCAGGCTCGGCCTGACCCGGAAACAGGTGGAGGACCTGCACCGCACAATGATGGACCTCATCGCCGCCACGACCGACCGCCCCAACTGA	MNAPTDQATKQAVTVQAVTAHATSEPGAREPDATEPGASAASGNADASAADSDLLLERQLCFALTVASRSVVGAYKPVLERMGLTHPQYLVMLCLWENSPRTVREISEALAQEPATISPLLRRLESAGLITRRRVEGNERALAVALTPAGASLRQQATSVPGTMMARLGLTRKQVEDLHRTMMDLIAATTDRPN	PGPT0013155_429	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-17_03368	2412			hypothetical protein	ATGACCACCCAGCAAACATCCTCCCGCCCGAAAACCCGCCGCCGGCTGCCCGCCGTCCTCGCTGTCGGCCTTGCCTTGGTTATTGGTCAGGGGCTGGCTGCTCCGGCGCCAGCAGCACCTGGACCATCCGCCGGCCAAACCGCCTTCGACGACGGCCGGTACATCGTGATGCTCAAGGATAAGCCGCTGGCCACCTACTCAGGAGGTGTTCCCGGCATTCCCGGCACCGCCGCTCCGAAGGGAAAGAAGCTGGACCCGTCCGGGCCCAACTCCCGCAAATACGACGCGCACCTTAAAACGAAGCAGCGGCAGGCGGCAACCGCAAAGGGCGTGAAGATCGACCGGAGCTTCACACTGGCTCTCAACGGGTTCAGCGCCGCCCTCTCGGGCGAACAGGCGAAGCAACTCGCCGGGGACCGGGGAGTGCTCGCCGTGGTTCCGGACAGGCTGCTCAAGCCGGACTACTCCAGTACCGATTTTCTTGGGCTCCCAGGGCGGCAAGGGGTCTGGAGGGATCAGTTCGACGGCAAGGAGGGCGCCGGCAGGGGCGTTGTTGTCGGTGTCCTGGATACCGGGTATTCCCCGAACAATCCGTTCTTCACCGGCGATACCGTTCCGCCGCTCTCGGGCACCCCAAAGATCGGCAGGCCGTACCACCTGCAGGGCAACGTCATCGCCATGCGCAAGGCCGACGGCGGGACGTTCGTTGGGGACTGCGTCAAGGGTGAAGGGTTCGAGGGGACTGAGTGCAACAGCAAGGTGATCGGTGCCCGTTATTACGGTGAGGGCTACAAGGCCATCGTCCCGCCGGACCAGAGGTCACCGCTCGAGCTGTTCTCGCCGGTGGACATTCACGGGCACGGTTCCCACACGGCCAGCACCGCAGCCGGAAACAGCGACATAGCCCAGACGGCGGGCGGACGCGACTTTGGCATCAGTTCCGGCGTAGCGCCGGCAGCCAAGATCGCCGTGTACAAGGTTTGCTGGGAGGGCGCCACCCCGGCGACCACCGGGTGCCTGGAATCGGACATCATGCAGGCGATTCAGGATGCCGTCCTGGACGGGGTGGACGTGATCAATTTCTCCATCTCAGGGAACACCAAGACCACCGTCGATCCGGTCTCCCTCGCCTTCCTCAATGCAGCAGCGGCAGGCGTTTTCGTTTCAGCGTCCGCCGGCAATGAAGGCCCCGGCGCCAGCACCGTGAACCACGCCGGCCCCTGGGTCACCAGCGTCGCAGCTTCGACGTTCGACAGTACGCTCCGTGGCACAGTTGAGCTGTCCGACGGCAAGAAGTTCGCCGGAGCGAGCGTGATGAGCCAAGAGGTGACCGCGAAGCCGATCGTTCTGGCGCTGGCCGTCAAGGCGGCGGCAGCCGCTGATGCGGACGCTGCCCTCTGTGTCCCGAACTCGCTTGATCCGGCCAAGGCTGCAGGCAAGATCGTCGTGTGTGATCGCGGCATAATTCCCCGGGTCGACAAGAGCGCCGAGGTGCAGCGCGCCGGTGGCGTGGGCATGGTGCTCGTCAACGTGGTGCCAGGCTCGCTTGATACCGACATGCACAGCGTCCCCACTGTCCATGTAGGGGATCCCAGCGTCAAGGAAGCTGTGGCAGCCACCCCCGGGCTGACAGCGAACCTGAGAATGAAGGACACCACCGGCGCCGCGCTTCCCCCGGTGCCGCAGATCGCTGCATTCTCATCCCGGGGCCCGACTCTGGCGGCCGGCGGCGACCTGCTGAAGCCCGATGTTACGGCACCGGGCGTCGCTGTCCTTGCTGCTGTTTCGCCGATCGGCTTCAAGGGCGAGAAGTTTGGCTTCATGTCCGGAACCTCCATGGCCGCGCCGCATGTGGCAGGATCCGGAGCCCTGCTGCTGGGCAAGTTCCCGCAGTGGTCTCCGGCTGCGGTTAAGTCGGCGATCATGACCACCGCGTACGACCTCGTGAATGCGGATGGAGCGAAGGTTCACGACGTCTTTGCCCAAGGCGCAGGCCATGTGAATCCCACCAGGTTCGCGACACCAGGCCTGGTGTACGATGCCGGCCCCGGCGACTGGCTCGCCTTCCTTCAGGGCCAGGGGGTTGACCTGGGAATCGAGCCGCTGGCTGCCAAGGACGTCAACGTGCCGTCGATCGCCCTGGGCTCCCTGGTCCGCAGCCAGGTGGTTACCCGGGCCGTCACGGCGGTGGAGGCCGGGACCTACCGGGCCACCGTTGACGTTCCCGGTGTCCAGACCACCGTCAGCCCGGCCGAGCTGACCCTGAAGGCGGGGGAGAGCGCCGTCTTCACCGTCACCTTCACAACCGCGGGAGCTCCACTAAACACCTACGCAACGGGCTCGCTGACGTGGACTTCATCCGAAAACAGCGTGCGCTCGCCGGTTGCGGTGCGGCCTGTGGCCGCCCCGTAG	MTTQQTSSRPKTRRRLPAVLAVGLALVIGQGLAAPAPAAPGPSAGQTAFDDGRYIVMLKDKPLATYSGGVPGIPGTAAPKGKKLDPSGPNSRKYDAHLKTKQRQAATAKGVKIDRSFTLALNGFSAALSGEQAKQLAGDRGVLAVVPDRLLKPDYSSTDFLGLPGRQGVWRDQFDGKEGAGRGVVVGVLDTGYSPNNPFFTGDTVPPLSGTPKIGRPYHLQGNVIAMRKADGGTFVGDCVKGEGFEGTECNSKVIGARYYGEGYKAIVPPDQRSPLELFSPVDIHGHGSHTASTAAGNSDIAQTAGGRDFGISSGVAPAAKIAVYKVCWEGATPATTGCLESDIMQAIQDAVLDGVDVINFSISGNTKTTVDPVSLAFLNAAAAGVFVSASAGNEGPGASTVNHAGPWVTSVAASTFDSTLRGTVELSDGKKFAGASVMSQEVTAKPIVLALAVKAAAAADADAALCVPNSLDPAKAAGKIVVCDRGIIPRVDKSAEVQRAGGVGMVLVNVVPGSLDTDMHSVPTVHVGDPSVKEAVAATPGLTANLRMKDTTGAALPPVPQIAAFSSRGPTLAAGGDLLKPDVTAPGVAVLAAVSPIGFKGEKFGFMSGTSMAAPHVAGSGALLLGKFPQWSPAAVKSAIMTTAYDLVNADGAKVHDVFAQGAGHVNPTRFATPGLVYDAGPGDWLAFLQGQGVDLGIEPLAAKDVNVPSIALGSLVRSQVVTRAVTAVEAGTYRATVDVPGVQTTVSPAELTLKAGESAVFTVTFTTAGAPLNTYATGSLTWTSSENSVRSPVAVRPVAAP				NA	NA	NA	NA	NA
D1-17_03369	630			hypothetical protein	ATGCGTAAGCAATTCCTTTCTGTGCTGCTCGCCCTCGGAGCGATGGGCGGACTGGCCGCGTGCACGCCCGGCACCGGGACCGGTGAGCCCACCGCCACGACCGGAACCGCCAGTGAATCCCCCGCATCCCCGGGTTCAGCCACCACCCCGGCAGAACCGGAGAACACGCAGCCCGGCACTGCGGCCCCGGCCACCACAACATCTGGCACCACGCCCCCGGACGCGGAGACAACTGATCCCGCCCCGGCACCGCCGGCGCCGGCACCGCTGCCATCCGGGCCAGGGAAGGGTGATGCCGAGCTCGCCATCACCGTCAAACCCACCCAGGACGGTACCGCTGTCAATTACACACTCGTCTGCAAGGACGGTGCCCCGGCTGCAGAAAGCCAGCACCCCGGTGCCGCCGCCGCATGCGCTGCACTGAAGGAGAACGCCGCGATCCTCAACGTACCCGGACCCCGCAAGGACGTCTCGTGCACCCAGCAGTACGGCGGACCCCAGGTTGCCACAGTCACCGGCCTGGTCGACGGCATTCCTGTCGAGACAACCTTCATGTTGCGCAACGGCTGCGAAATCGGCGCCTGGAATGCGGCGAAGGATGTCCTTGGCTCTGCCAGTGGGGCCGTCTAA	MRKQFLSVLLALGAMGGLAACTPGTGTGEPTATTGTASESPASPGSATTPAEPENTQPGTAAPATTTSGTTPPDAETTDPAPAPPAPAPLPSGPGKGDAELAITVKPTQDGTAVNYTLVCKDGAPAAESQHPGAAAACAALKENAAILNVPGPRKDVSCTQQYGGPQVATVTGLVDGIPVETTFMLRNGCEIGAWNAAKDVLGSASGAV				NA	NA	NA	NA	NA
D1-17_03370	1002			hypothetical protein	TTGGCTCTGCCAGTGGGGCCGTCTAAGCCCGTGCCCGTTGAAAGGCCCATGATGCACACCCGGCCCCTGGTGCTGCCCGCCGCCGCCTGGCAGGAGCGGGAACGCGCGCATGCGGACCGCGTACGGCGCTACAGCGATCCCTACCTGGCGCGCCGGTCCGCGGGCCGGAAGCATCCGGTGGAGGACTTCCTCTTCACTTACTACACCCAGAAGCCCGGCCAGCTGTTGCGTTGGCATCCGGGCGACGGCGTTGTGCTCACCGGAGCGGAGGCGGGACAGCGCAGTGGCTGGAAGTACTACCGCATGCTCGACGGCGACGAACTCGCCTCATGCGAGGTTCCGCACGGCGGCACCGCCGTGACCCTCGACCGGGAGGCTTTTCTTGACGCACGCCGTGCGGCACTCGTTTTTGCCCAGGTCATCCTGGCGGGTACTGCCGCACGTCCGGCGCAGTTCGGCTGCTTCGGCCTGCACGAGTGGGCGATGGTGTACCGCCAGGACAAGTTTGAGCTCCGGCATGAATACCTGAAGCTGCGGCTGGGTGGAGCCGGCACGGACAAGGTTGTCGAGGATAACCGGATCCGCTGCTCGCACTTTGACGCCTTCCGCTTCTACACCCCGGATGCGGTTCCACTCAATGAGCTCTCCCCCAGCCGGGAGAACCAGCGCAGCCTTGAGCAGCCGGGCTGCCTGCATGCGAACATGGACCTGTACAAGTGGGCCTATAAGCTTTCCCCGGCCCTGCCGAGTGAATTGGTCATGGACTGCTTTGAACTTTCGTGGCGTGTCCGGGCCATGGACATGCAGGCCTCTCCCTATGACCTTGAGGACTGGGGGTACCCGCCACTCAGGATCGAGACCGCCGAGGGCAAGGCCGCCTATGTTGAGCAACAGCGGGCCTTCTCCGCTGAAGCCCAGGTACTGCGCGGCAGGCTGCTGGCGGCGCTCGCTCCGCTCTTTGAGTCGTCGGGTGCTGACGGAGCCATAACGGAGCCCCCATGA	MALPVGPSKPVPVERPMMHTRPLVLPAAAWQERERAHADRVRRYSDPYLARRSAGRKHPVEDFLFTYYTQKPGQLLRWHPGDGVVLTGAEAGQRSGWKYYRMLDGDELASCEVPHGGTAVTLDREAFLDARRAALVFAQVILAGTAARPAQFGCFGLHEWAMVYRQDKFELRHEYLKLRLGGAGTDKVVEDNRIRCSHFDAFRFYTPDAVPLNELSPSRENQRSLEQPGCLHANMDLYKWAYKLSPALPSELVMDCFELSWRVRAMDMQASPYDLEDWGYPPLRIETAEGKAAYVEQQRAFSAEAQVLRGRLLAALAPLFESSGADGAITEPP				NA	NA	NA	NA	NA
D1-17_03371	378			hypothetical protein	ATGACACCTGCCGAGCACGCCGCCCCTGACCGTGAACTCGATCTGACGGTCTCCCTGACGGAGGCGCCGGGCGCACCCGAGCGTGTCTTCCGGCTGACGCGTCATGCCGGCGGGCCGGTTGAATCAGACCTGCCGGATCCCGCGGGTGCCGTTGCCGCCGTCGAGCGCTTCGGGGAGGGGATCTTCTTTCCCGCACCGGGACCTCCTATGCTCTGCACCCAGCAATATGGCGGCCCGCAGGTTGCCGTGGTGACCGGAACGTTCGGCGCCAGGCAGGTACATTGCCGGTTCTCGCTGACGGACGGCTGCGAAATAGCCCGGTGGCACGCCCTTTCTCCGCTGCTCGGTGGCATTTCCGGATCAACCGGCGCCATCTGA	MTPAEHAAPDRELDLTVSLTEAPGAPERVFRLTRHAGGPVESDLPDPAGAVAAVERFGEGIFFPAPGPPMLCTQQYGGPQVAVVTGTFGARQVHCRFSLTDGCEIARWHALSPLLGGISGSTGAI				NA	NA	NA	NA	NA
D1-17_03372	3174			hypothetical protein	GTGAAATCAGCAGGAAAGAGCTTCTTCCGAAGCCGGGGGGCCCGGAAAGCAGCCGCACTTTGTGTTGGTTTGCCTTTGCTCCTTTCATCCGGCGCCGCGTCGCCGGCCGCTGCCACCCAGGGCATGGCTCCGGACAGTGCGTTTGGCATCGCTCAAGCCGCCCGGCAAAAAACCGTTGATCCAAAGGAATTCCCGGCGGGGCGCTACATCATTGTCCTGGCCGACCAGCCCGCAGCCACCTACGAGGGCGGTAAGCCGGGCTTTGCAGCCACCAAACCGGAGTTGGGCCGGAAGCTGGACGCGACCCGGAGCGACGTGCAGAAATACCAGGCGCACCTCGAAGCCAAACAGACAGCGCTGGCCGAGAGGGAGAACGTACAGATCCGCACGAGGTACACCGCGGCGCTGAACGGATTCAGTGCCGCACTGACGCCGGACCAGGCCGCCAACCTCGCGAAGGATCCGGGCGTACTGACGGTGGCGCCGGACACGCAGCGGGCACCGGACTACTCCACCACCGATTTCCTCAAGCTCAGCGGTCCCGGCGGCACCTGGAACACGCAGTTCGGCGGGCAGGAAGGTGCCGGCAGGGGCGTCGTGGTCGGAGTCATTGATTCGGGGTACACACCCTCAAGCGCCTTCTTCGCGGGACAGGAGGTGCAGCCACTCAAGGGGGAACCGCAGGTCGGCGTTCCCTACCGCAGCGGAAAAAGTATTGCCATGCTGAAGTCCGACGGCAGCACCTTCGAGGGTGAGTGCCAAAAAGGCGAGGGGTTCGACGGCAAGGCCTGCAATTCGAAGGTCCTGAGCGCCCGCTACTTCTCCGATGCCTTTGAAGACACTGTTGACAAGGCAGACCGGGCGCCGGAAGAGCTGATTTCCCCGGTGGACGTGGGCAGCCACGGAACCCACACCGCCAGCACCGCTGCCGGTAACCCCAGTGTGGAGACCTTCGTCGATGGCCGGAACTTCGGCCTCACCAGCGGCATCGCGCCTGCCGCCAAGCTCTCCATTTACAAGATCTGCTGGGAGGACAACGATCCGGCCACCGGGGGCTGCTACACCTCCGCGGCAATCGATGCGATCAACCAGGCCGTGCTCGACGGCGTCGACGTCCTGAACTACTCCATCTCGGGAACCACATCGACCACGACGGATCCGGTATCCCTGGCGTTCCTTTCCGCAGCCTCGGCAGGGATCTTTGTTGCGGCTTCCGCAGGCAACTCCGGCCCCGCCGCCAGCACCGTGAACCACGGAGAACCCTGGGTCACCACCGTTGCCGCCAGCACCTTCTCCCAAGAGCTGCAGGGCACCGCCGAATTCTCCGACGGGAGCAAGTTCCGCGGCGCCAGTATCATGAACCGCGAAGTCACCGGCGCCGGTGCGGTCCTGGCCGGGGATGCAGGCTCCGGGCAGGACCCGGCACCGCGGCTGTGCGGCCCCGGCTCGCTGGACCCGGCAAAAATCTCCGGCAAGGTTGTGGTTTGTGACCGCGGCACATACGACCGTGTGGCTAAAAGTGCGGAAGTGGCACGTGGTGGCGGTGCCGGAATGATTCTGGTCAATGTGACCAGTTCGTCCCTCGACGCCGACAAGCACTCCGTCCCCACCGTGCATGTCAATCCGCCCGCGACGGAGCAGATCAAGGCCAAGGTGGCAGCGAATCCCGCCATCACAGTTTCTCTCGTCGCCAAGGACACCACCGGACTGCCGGTTGAAGCGCAGCCCCAGATCGCCGGCTTCTCTTCCCGGGGGCCGCTGATCGCCACCGACTCAGACCTCCTCAAGCCCGACCTTGCAGCTCCTGGCGTGGCAGTCCTGGCCGGCGTTTCGCCGATCGGTGCCGGCGGTGACACCTTCGGGTTCATGTCCGGAACATCCATGGCGGCCCCCCACGTTGCCGGCTTCGGCGCGCTGATTCTGGGCAAGAACCCGGTTTGGTCCCCGGCTGCCGTGAAGTCGGCCATGATGACCACTGCTGGTGCTGTAAAGCTTGCTGACGGCACGAAGAACACGGATGTCCACGCCACCGGCGCAGGGCAGGCTGATCCCGCCCGGATCCTGAATCCGGGCCTTGTCTATGATGCCGACGGCGACGACTACCTCCGGTTTATCCAGGGAACCGGGGTTGACCTGGGTATTCCGGGCCTTGGCAGCACCAGGCCGCGGGACATGAACGCTCCTTCGTTCTCCCTCGGAAACCTTGCAGGCAGGATCGAGGTGACACGCACAGTGACAGCACTGAACCCGGGCGTGTACCGGGCCACTGCCAAAGTACCCGGCGTGAAGGTTACCGTGACTCCGTCCATCCTGTCCTTCAATGCGGCCGGAGAAAAGCGCACGTTCAAGGTCTCCTTCGAGAACCAAAGCGCAACCTTAGGACAGTTCGCCATGGGATCGTTGACCTGGCAGGGGGCGAACAAGACCGTTGCCTCCCCGATTGCGGTGCGGCCGCAATCAGTTGTGGCACCCAAGAACGTCACGTTCACGTCTGAAGGAGGCAACGGGTCCGGAAACGTCAGCATCGTTTCCGGCTCAGGCTCACCGACCGACGTGACACTCGACGGGCTGTCCAAGGCGGATTCCTCTTCCATTGAACTGGTTCCGGGGCCGTTCCGGTATGAGCCCGACGCCTCCAACTTCGTCAAGACGGTGCAGGTGCCGGCAGGGTCCCCGCTGGCAAAACTTTCCGTGTTTTCCGCAGACGAAAGCGCTGACTTCGACATGGTGGTCATCACCCCGAGCGGACAGGGAATAGTCGCGGCAACGGCCGCGGCCAGCGAATCGGTCTCCATCCCGAACCCGGCCCCGGGAACGTACCGGATGTTCGTGAATCTGTACGACAGCCCCAACGGCCAAGCCACCGGCGCGTCAGTTGACGCCGCTGTCCTTGGCGCAAACGTAGGCAACGCCACGGTCAGTCCGGACCCCGTCCGCCTGGCCAACGGCGCTGCCGGCGCGCTTACCTTGACATGGAGCAACCTCGCCCCGGGTTCCTACATCGGCAGGATCACGTTCGCCGGTGCCAGCGCGCCTACGTTCGTGAATGTGGTGGTGGCCCCCGCCGGCACGCCTGGAGTTCCGCCGGCTTCTTCGGCGGATCCGAAGAATCAGGAGAACCAGGGGAAGGTCCAGAATGAGGACCTGAAAAGGTCTCCGGATAACTCCATTTAG	MKSAGKSFFRSRGARKAAALCVGLPLLLSSGAASPAAATQGMAPDSAFGIAQAARQKTVDPKEFPAGRYIIVLADQPAATYEGGKPGFAATKPELGRKLDATRSDVQKYQAHLEAKQTALAERENVQIRTRYTAALNGFSAALTPDQAANLAKDPGVLTVAPDTQRAPDYSTTDFLKLSGPGGTWNTQFGGQEGAGRGVVVGVIDSGYTPSSAFFAGQEVQPLKGEPQVGVPYRSGKSIAMLKSDGSTFEGECQKGEGFDGKACNSKVLSARYFSDAFEDTVDKADRAPEELISPVDVGSHGTHTASTAAGNPSVETFVDGRNFGLTSGIAPAAKLSIYKICWEDNDPATGGCYTSAAIDAINQAVLDGVDVLNYSISGTTSTTTDPVSLAFLSAASAGIFVAASAGNSGPAASTVNHGEPWVTTVAASTFSQELQGTAEFSDGSKFRGASIMNREVTGAGAVLAGDAGSGQDPAPRLCGPGSLDPAKISGKVVVCDRGTYDRVAKSAEVARGGGAGMILVNVTSSSLDADKHSVPTVHVNPPATEQIKAKVAANPAITVSLVAKDTTGLPVEAQPQIAGFSSRGPLIATDSDLLKPDLAAPGVAVLAGVSPIGAGGDTFGFMSGTSMAAPHVAGFGALILGKNPVWSPAAVKSAMMTTAGAVKLADGTKNTDVHATGAGQADPARILNPGLVYDADGDDYLRFIQGTGVDLGIPGLGSTRPRDMNAPSFSLGNLAGRIEVTRTVTALNPGVYRATAKVPGVKVTVTPSILSFNAAGEKRTFKVSFENQSATLGQFAMGSLTWQGANKTVASPIAVRPQSVVAPKNVTFTSEGGNGSGNVSIVSGSGSPTDVTLDGLSKADSSSIELVPGPFRYEPDASNFVKTVQVPAGSPLAKLSVFSADESADFDMVVITPSGQGIVAATAAASESVSIPNPAPGTYRMFVNLYDSPNGQATGASVDAAVLGANVGNATVSPDPVRLANGAAGALTLTWSNLAPGSYIGRITFAGASAPTFVNVVVAPAGTPGVPPASSADPKNQENQGKVQNEDLKRSPDNSI				NA	NA	NA	NA	NA
D1-17_03373	186			hypothetical protein	ATGGCTGAGAAACCGAGATCCGTCCTGTTGCCAGTGCTTGCCGCCGCCGTCTTTGCGGGGCTCGGGAGGATGGTTCTCCAGAAGATCAGGGCCGACCGCGAGGCAAGTCGCAGCCGCCTCGCGGGGCCGGTTGACGAGAAGACCCGCCAGTGGATCAGTGAAGTGGTCCGTACTCCCCGGCAGTAG	MAEKPRSVLLPVLAAAVFAGLGRMVLQKIRADREASRSRLAGPVDEKTRQWISEVVRTPRQ				NA	NA	NA	NA	NA
D1-17_03374	252	purS	COG1828	Phosphoribosylformylglycinamidine synthase subunit PurS	ATGCCCCGGATCGTTGTCGACGTCATGCCCAAGCCCGAGATTCTGGACCCGCAGGGGAAGGCCATCGTGGGAGCACTTCCCCGTCTGGGTTTCACCAGCTTTAGCGCTGTCCGCCAGGGCAAGCGCTTCGAACTGACCGTCGACGGCGAGGTGACCGAAGACATCCTGACCGAGGCCCGGGAAGCCGCCGAGACCCTGCTGTCCAACCCGGTGATCGAGGACGTTGTCAACGTCGAGGTCGTCGAGGCCTGA	MPRIVVDVMPKPEILDPQGKAIVGALPRLGFTSFSAVRQGKRFELTVDGEVTEDILTEAREAAETLLSNPVIEDVVNVEVVEA	PGPT0021725_938	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264	NA	NA
D1-17_03375	789	purQ	COG0047	Phosphoribosylformylglycinamidine synthase subunit PurQ	ATGACTGAACTCCCCCTGATCGGTGAGGCCGTAGCCGCCGACACGCCTACTGCCGGCGGACTCACCGGCGCGAAGATCGGCGTCATCACCTTCCCCGGCACGCTCGATGACCGCGACGCCGCGCGCGCAGTCCAGCTCGCCGGCGGCACGCCCGTTCCGCTGTGGCACGCCGATACCTCCCTCGGCGACGTGGACGCAGTCATTCTCCCGGGCGGCTTCTCGTACGGCGACTACCTCCGGGCAGGCGCCATCGCGCGTTTCGCACCGCTGATGTCCAAGGTCATCGACGCCGCCAACTCCGAAGCCAAGCTGCCGGTGCTGGGCATCTGCAACGGCTTCCAGATCCTCACCGAGTCGCACCTGCTGCCAGGATCGATGATCAAGAATGACCACCTGAAATTTATGTGCCGCGACCAGGTGCTGCGCGTCGAGAACAGCAACACCGACTGGACTCTCGATTACGCCGAGGGCCAGGAGATTACGGTGCCACTGAAGAACCAGGACGGCCAGTACATTGCCGATGAAAAGACCCTGGACGCACTCGAGGCCGAAGGCCGCGTGGTGTTCCGCTACGTGGGCTTCAACCCGAACGGCTCGCGCCGCGATATCGCCGGCATCTCCAATGCCGCCGGCAACGTCGTAGGCCTCATGCCGCACCCGGAGCACGCGGTGGAACAGGGCTTCGGCCCCGAGACGAATCTGTCCGGCACGGCCGGTGTCGGCGGGACCGACACGGACGGCTTGGGCTTCTTCACTTCCGTACTGACCAAAATTGTGGGAGGCAAGTAA	MTELPLIGEAVAADTPTAGGLTGAKIGVITFPGTLDDRDAARAVQLAGGTPVPLWHADTSLGDVDAVILPGGFSYGDYLRAGAIARFAPLMSKVIDAANSEAKLPVLGICNGFQILTESHLLPGSMIKNDHLKFMCRDQVLRVENSNTDWTLDYAEGQEITVPLKNQDGQYIADEKTLDALEAEGRVVFRYVGFNPNGSRRDIAGISNAAGNVVGLMPHPEHAVEQGFGPETNLSGTAGVGGTDTDGLGFFTSVLTKIVGGK	PGPT0020220_211	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265	NA	NA
D1-17_03376	2388	purL	COG0046	Phosphoribosylformylglycinamidine synthase subunit PurL	ATGACCGAGATCTCGACAGGCTCGATCACCGACGGCACAGGCGCGGCCACCGCTGCCGCCTCGCCCACCGCTGCCCCGGGAGCGATCACCCAGGTGCCGAAGTTCAACATCGACACCGTCGAGAACGCAGCCAAGACGCCGGACACCGAACTTCCCTGGGCCGAGCTCGGCCTGAAGCAGAACGAGTTCGACGAGGTCGTGAAGGTTCTGGGCCGCCGCCCCACGGGCGCCGAACTGGCCATGTACTCCGTCATGTGGAGCGAGCACTGCTCCTACAAGTCCTCTAAGAACCACCTTCGCCAGTTCGGCGAAAAGGTGACGGACGAAATGAAGAAGGACATGCTGGTGGGCATCGGCGAAAATGCCGGCGTCACCAACCTGGGCGACGGCTGGGCCGTGACGTTCAAGATCGAGTCCCACAACTCGCCGTCGTTCGTTGAGCCCTACCAAGGTGCCGCAACCGGCATCGGCGGCATTGTCCGCGACATCATTTCCATGGGCGCCCGCCCTGTCGCTGTGATGGATCCGCTGCGTTTCGGTGCGATCGACCACCCCGACACGGCCCGCGTCATCCACGGCGCCGTCGCCGGCATTGGCGGCTACGGCAACTCACTCGGCCTGCCCAACATCGGCGGCGAAATGGTCTTTGACTCCGTGTACCAAGGCAACCCCCTGGTCAACGCGCTGGCCGTCGGCGTGATGCGCCATGAGGACATCCGCCTCGCCAACGCTTCCGGCAAGGGCAACAAGGTAGTCCTGTTCGGCGCCCGCACCGGCGGCGACGGCATCGGCGGCGCCTCCGTGCTGGCCTCCGAGTCCTTCGACGACACCAAGCCGTCCAAGCGCCCCGCCGTCCAGGTAGGCGACCCGTTCGCCGAAAAGGTCCTGATCGAGTGCTGCCTTGAACTGTTCAAGGGTTCACTCGTCGAGGGCATCCAGGACCTGGGCGCCGCCGGCATCTCCTGTGCCACCTCCGAGCTCGCCTCCAACGGCGACGGTGGCATGCAGGTTGAGCTGACCTCCGTACTGCTGCGCGACCCCACCCTGACCCCGGGCGAGATCCTCATGTCCGAGTCCCAGGAACGCATGATGGCGGTCGTCACCCCCGAGAACGTGGCCGCCTTTGAAGCAGTCATGGACAAGTGGGCCGTTGAGTACTCCTGGCTGGGCGAGGTGACCGACACAGGCCGCCTCATCATCACCTGGGACGGCGAAGTCATCGTCGACGTGGACCCACGCACCGTGGCCCACGACGGCCCGGTCTATGACCGCCCCTATGCCCGTCCGGACTGGCAGGACTCAGTGCAGGCCGACGCCTTCACCGGTTCTGTCCAGGATGCCGGCCGGCCGTCCGCCCCCGCGGAGCTGGCTGCCGCCGTCACCGAACTCATTTCCTCGCCGAACATGTGCTCCAAGTCCTGGATCACTGACCAGTACGACCGCTACGTTGGCGGCAACACCTCCATGGCATTCCCCGATGACGCCGGCGTGGTCCGCGTTGACGAGGAGAGCGGCCTGGGCGTGGCCCTCGCCACCGACGCCAACGGCCGCTACACCTACCTGGATCCGTACCAGGGTGCGCAGCTGGCCCTCGCGGAGGCGTACCGCAACGTTGCCACGTCGGGTGCCGTCCCAATGGCCGTCAGCGACTGCCTCAACTTCGGTTCCCCGGAGGACCCCGATGTGATGTGGCAGCTGGCTGAGGCCATCCGCGGCCTGTCCGACGCCTGCATGGAGCTCGGCATCCCGGTCACTGGCGGCAACGTCTCGCTGTACAACCAGACCGGCACCACCCCGATCCACCCGTCCCCCGTGGTCGCTGTCCTGGGCAAGCTGGACGACGTCGCACGGCGTACGCCCTCAGGCTGGCGGGAGGACGGTCAGGCCATCTACCTGCTCGGCACCACCGCAGCCGAGCTGGACGGGTCGGAGTGGTCCAACCTGCGCGGGCACCTCGGCGGGCTCCCGCCCAAGGTTGACCTCGCAGCCGAGCGCGCGCTGGGTGAAATCCTGATCAACGCATCCCGCGACGGCATGGTGGACTCCGCGCACGACCTCTCCGAAGGCGGCCTCGCGGCGGCCCTCGTGGAATCCTCGTTGCGGTACGGCGTGGGCGCCCGGATTGCCCTGCAGGATGTTCTGGACCGCGACGGCGTGGACCTGTTCACCGCACTGTTCTCCGAGTCCCAGGGCCGTGCCGTGGTGTCCGTCCCGCGTTCGGAGGAAGTCCGCTTCACGGACATGTGCACCGCCCGCGGCTTCGCCCATATCCGCATCGGTGTTGTGGACGCTGCCAGCGGCCAGCTGGAGATCAACGGCGTGGACGCACTCCCGCTCGACACCCTCGGCGAAGCCCACGAGGCCACCCTGCCGAAGTACTTCGGCTAA	MTEISTGSITDGTGAATAAASPTAAPGAITQVPKFNIDTVENAAKTPDTELPWAELGLKQNEFDEVVKVLGRRPTGAELAMYSVMWSEHCSYKSSKNHLRQFGEKVTDEMKKDMLVGIGENAGVTNLGDGWAVTFKIESHNSPSFVEPYQGAATGIGGIVRDIISMGARPVAVMDPLRFGAIDHPDTARVIHGAVAGIGGYGNSLGLPNIGGEMVFDSVYQGNPLVNALAVGVMRHEDIRLANASGKGNKVVLFGARTGGDGIGGASVLASESFDDTKPSKRPAVQVGDPFAEKVLIECCLELFKGSLVEGIQDLGAAGISCATSELASNGDGGMQVELTSVLLRDPTLTPGEILMSESQERMMAVVTPENVAAFEAVMDKWAVEYSWLGEVTDTGRLIITWDGEVIVDVDPRTVAHDGPVYDRPYARPDWQDSVQADAFTGSVQDAGRPSAPAELAAAVTELISSPNMCSKSWITDQYDRYVGGNTSMAFPDDAGVVRVDEESGLGVALATDANGRYTYLDPYQGAQLALAEAYRNVATSGAVPMAVSDCLNFGSPEDPDVMWQLAEAIRGLSDACMELGIPVTGGNVSLYNQTGTTPIHPSPVVAVLGKLDDVARRTPSGWREDGQAIYLLGTTAAELDGSEWSNLRGHLGGLPPKVDLAAERALGEILINASRDGMVDSAHDLSEGGLAAALVESSLRYGVGARIALQDVLDRDGVDLFTALFSESQGRAVVSVPRSEEVRFTDMCTARGFAHIRIGVVDAASGQLEINGVDALPLDTLGEAHEATLPKYFG	PGPT0021730_277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
D1-17_03377	294			hypothetical protein	ATGTGGATCGGATGGATTGAATTCGACATCCTCCTGGGCGACGTGCACAGCCTGAAGGAGAAACGCTCCGTGGTCCGTCCGCTGCTCGCCGAAGTGAAACGTCGCTTCGACGTTTCTGTAGCCGAGGTGGGGGACCAGGACCAGTACCGGCGCACTCAGGTCGGGGCCGGACTCGTCGCCGCGGACCGGGGCCACCTCATCGAGGTGCTTGACGCCGTCGAACGCTTCGTAGCTGCGCGGCCGGAACTGGAACTGTTGAGCGCCCGCCAGCGCGAACACCACAGCGAAGACTAA	MWIGWIEFDILLGDVHSLKEKRSVVRPLLAEVKRRFDVSVAEVGDQDQYRRTQVGAGLVAADRGHLIEVLDAVERFVAARPELELLSARQREHHSED	PGPT0014535_366	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014535-ylxP-K09764	NA	NA
D1-17_03378	318			hypothetical protein	GTGATCTTCATCGTCGTCAAATTCAAGGTCAAGCCAGATTGGTCCGACAAGTGGCTCGGCCTTGTGGCGGACTTTACCGAGGCTACGCGCCAGGAGCCCGGCAACCTGTGGTTCGACTGGTCCCGCAGCGTGGATGACCCCGACGAGTTTGTCCTTGTCGAAGCCTTCAAAGACGACGCCGCCGGTGATCACGTCAACAGCGAGCACTTCAAGAAGGCCATGGCGGAGATGCCGCAGGCCCTCGCGGAGACGCCCCGCATCATTAGCCGCCAGCTCGACGGCGAGGGATGGGACCGGATGGGCGAGCTCAGTATCTGA	MIFIVVKFKVKPDWSDKWLGLVADFTEATRQEPGNLWFDWSRSVDDPDEFVLVEAFKDDAAGDHVNSEHFKKAMAEMPQALAETPRIISRQLDGEGWDRMGELSI	PGPT0002045_54	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0002045-sseA-K01011	NA	NA
D1-17_03379	624			hypothetical protein	ATGCTTGACCAAAAGACCCTCGACCGCCTGTGGGACTTCGACAACCCCGCACTGTCCGAACAGCGCTTCCGCGAAGCGATGGCCGACGGGAAGTACGACGCCGACGAACGGGCGGAGCTCGCCACGCAGCTGGGAAGGGCCATCGGCCTGCAGGGCCGCTTCGAGGAGGCAGATGAGCTCCTGGATTCAATAGACGGCGAAGACGAACTCACCGTCGGCATCCGCATCGTTCTGGAAAGGGGCCGCATCCTGAACTCGAGCGGCCACCCGCAGATGGCCGTGCCGCTGTTCGAACAGGCCGCGGAGCTCGGCGATCACCTGGGCGAGGAGCTCCTCGCCGTGGACGCCCTGCACATGCTGGCCATCGCCGACGCAGACCACGCGGAGCTCTGGACGCGCAGTGCCCTGGAGTACGCCTCAACGGCGCACGACGCCAACACCAGGCGGTGGATGATCGCCCTGCACAACAATCTCGGCTGGATCCTGCAGCGTTCCGGCCGACTCACCGAGGCCCTCGTCGAGTTTCAGCTCGCTGAGCAGTGGGCTGAACGCGTGGGAACCCCCGCCCAGCAGCAGTACGCCCGTGAAGCAATCGCCGAATGCGAGCACGCCCTTGCCGGCTAG	MLDQKTLDRLWDFDNPALSEQRFREAMADGKYDADERAELATQLGRAIGLQGRFEEADELLDSIDGEDELTVGIRIVLERGRILNSSGHPQMAVPLFEQAAELGDHLGEELLAVDALHMLAIADADHAELWTRSALEYASTAHDANTRRWMIALHNNLGWILQRSGRLTEALVEFQLAEQWAERVGTPAQQQYAREAIAECEHALAG				NA	NA	NA	NA	NA
D1-17_03380	549			hypothetical protein	ATGACTGAAAAGCGCCTGGCGCGGGGTGGCCTTAATTACCCTGGGATCGGCTCGACGCAGGACGGCTCGCCGCCCGAGGGCTTCCCTTGCCTTGTCATGCAGGCGTATTTGGGGGAAGGGGCGGCGACGTTCCACAAGGTTGCCCGGGGGATTCTGGCCTGGGAGCTGCAGCGCCGTTCCGGCCTGCGGGTCCGCGCCGAGTCCGACGCCGTTGTTCCCGGCGCACGCGTGGTGAGCGGCTTCGGCGTCGGGCCGTTCCGGATCAACGCGCCCTGCGAGGTGGTGTGGGTGCGGCACCCGGCCCCGGGGGCGGGTGCGCAATCAGCCGGCTTCGGTTACGGAACGCTGCCGGGCCACCCCGCCCGCGGTGAGGAATCCTTCGAAGTGACGATTGACGACGGGGGCAGAGTGTTCCTCAGAATCACGGCCTTCAGCAAACCCTCCAACTGGTTTTACGCTGCCGGCGGCCTGCTGACGAGGGCGGCGCAACGGCACGTCACTTCCCGATACATTGAAGGGGCACGCCAGCTCGCAACCGGCGAAAGCTGA	MTEKRLARGGLNYPGIGSTQDGSPPEGFPCLVMQAYLGEGAATFHKVARGILAWELQRRSGLRVRAESDAVVPGARVVSGFGVGPFRINAPCEVVWVRHPAPGAGAQSAGFGYGTLPGHPARGEESFEVTIDDGGRVFLRITAFSKPSNWFYAAGGLLTRAAQRHVTSRYIEGARQLATGES				NA	NA	NA	NA	NA
D1-17_03381	405	yjbR	COG2315	putative protein YjbR	ATGGATCCAGGCGAATTGCGAAGAATCTGCCTCTCGTTTCCGGGGGCCTTCGAAGACTTTCCGTTCGGCCCTGAAATATCGGTCTTCAAAGTCCGCGCGGACGTGGCGGGAGGGGGCCGGCACGAGGCCAGGATGTTCGCGCTGTCCGCCATGGACACGGAAAACTGGTCCGTGAGCCTGAAATGCGAACCGGTGCTCGCCGAACAGCTGCGGGCAGTGCATCCGGAGATCGCCGGGGCGTGGCACATGAACAAGACGCACTGGAACGGCGTCCGGTTGGATGGCTCCTTGCCGGACGACATGATCCGGGACATGGTGGAGGACTCCTACGACCTCGTCGTGGCATCGCTGAACCGGAAACAGCGGGAGCAGCTCGGATGGGCCAGGCTGGCGGGCAATGACTGA	MDPGELRRICLSFPGAFEDFPFGPEISVFKVRADVAGGGRHEARMFALSAMDTENWSVSLKCEPVLAEQLRAVHPEIAGAWHMNKTHWNGVRLDGSLPDDMIRDMVEDSYDLVVASLNRKQREQLGWARLAGND				NA	NA	NA	NA	NA
D1-17_03382	1002	vldW		Validamycin A dioxygenase	GTGTTGAACCTGGGCACCGCACGCCAGGCAGACGGGTCGTTCAGTCCGGAATTCATCGAGCAGCTGCGCTATGCCACGCACCGGGTCGGCTTCTTCCAGGTCATCGGCTATGGCGGTTCCCCCGGGCAGGCGAAGGAGCTGCTGGCGACCATCAAGCGCTTCTTTGACCTGCCACTCGAGGAGCGGATGAAGCTCGACAACCGTCTTTCCCCGCATTTCCGCGGCTACACGCGGATGGGCACGGAGGTCACCCAGGGAAGAGCGGACGCCCGCGAACAGATCGACTATTCGCCGGAGCGTGAACCGGTCAAGGATTACCCGGCCGATCAGCCCTACTGGCTCCTGCAGGGCCCCAACATGTGGCCCAATGATGCGCTGCCGGAACTGAAGCCGGCAGCGATGGCCTGGGCGGCACTGATGTCCGAGGTGGGAGCGGAACTGATGCGGGCCATCGCCGTAACCCTCCGGCTGCCGGAAGACTACTTTGACGAGCCCTTCCGGGACTCACCGGCCTGGATGGGCAAACTGGTGCACTACGTCGGCGGCGTCGTTGAGGAGGCCGGCGACCAGGGCGTTGGTACGCACGCAGACTACGGTTTTGTCACCCTTCTCCTGCAGGACGAGGTGGGGGGACTGGAAGTACTGCCGCCCGGTGCGGATGACTGGGTACCCGTGGAACCCAATCCCGAAGCCCTGGTGGTGAACCTTGGCGAGATGCTGGAGGTGGCCACGGAGGGCTACCTCGCCGCCACCATCCACCGTGTGAAGGCGCCGCCGCCGGGCGTGGACCGCTATTCGGTGCCGTTCTTCTGGTCACCGCGGCTTGATGCCGTGATCGAGCCCGTGCCGCTCCCGGAAGACCTTAAGGCGCAGTCCCGCGGCATCTCCGACGACCCGTCCAACCCGCTGCTCGCCTCGTTCGGCCTGAACATGCTCAAGGGCCGGATGCGCGCCCACCCGGATGTCACGGAGCGCCACTACCCGGAGCTGATGAAGCGCTGA	MLNLGTARQADGSFSPEFIEQLRYATHRVGFFQVIGYGGSPGQAKELLATIKRFFDLPLEERMKLDNRLSPHFRGYTRMGTEVTQGRADAREQIDYSPEREPVKDYPADQPYWLLQGPNMWPNDALPELKPAAMAWAALMSEVGAELMRAIAVTLRLPEDYFDEPFRDSPAWMGKLVHYVGGVVEEAGDQGVGTHADYGFVTLLLQDEVGGLEVLPPGADDWVPVEPNPEALVVNLGEMLEVATEGYLAATIHRVKAPPPGVDRYSVPFFWSPRLDAVIEPVPLPEDLKAQSRGISDDPSNPLLASFGLNMLKGRMRAHPDVTERHYPELMKR				NA	NA	NA	NA	NA
D1-17_03383	426	yccU	COG1832	putative protein YccU	ATGGCACACGTGAACGATCCAGCGGTCATCGAACGCCTCATGCGAACCAAAGGTACCTGGGCGATCGTTGGGCTGACCACCAATCAATGGCGGTCGGCATACGACGTTGCACTTTATGTCCGCGACCGTATGGGCATGGAAATCATTCCGGTAAATCTTCCGGGGGACGATGTCCACGGTGAAAAGGGATACCGTTCGCTGGCGGAGATTCCGCAGGAAAAGCACCCGATTGACGTTGTGGATTGCTTCGTGAACTCCCAAAAAGTCGGGGCGGTCATCGACCAGGCGATCGCTGTGGGAGCCAAGGCCGTGTGGCTGCAGCTGGGCGTCTTCGACGACGCCGCCGTAGAGCGGGCGAAGGCAGCCGGGCTGGACGTCGTGGTGAACTCTTGCCCCGCGCGGGAGGGCTGGCACTACGGGCTCTGA	MAHVNDPAVIERLMRTKGTWAIVGLTTNQWRSAYDVALYVRDRMGMEIIPVNLPGDDVHGEKGYRSLAEIPQEKHPIDVVDCFVNSQKVGAVIDQAIAVGAKAVWLQLGVFDDAAVERAKAAGLDVVVNSCPAREGWHYGL				NA	NA	NA	NA	NA
D1-17_03384	2250	acsA_5	COG0365	Acetyl-coenzyme A synthetase	ATGACCCCTGACTTTTCCCCTGCACTGTCTTCACCTGCCCGGACTTCCCCTGCGGAAAACCGGGCCAGCGGAGACCTCACAACCACTTCGAACGCGACGGCGATCGAAGCAGGGCTGCGTGACGCGCCCGGCTCCCTTCGCGGCCCTTCGGGATGGTCCTCGACCGAGCCGCCGGATGGCACAGTGCACGGTGCCTCCAAAGGCGGGCCGGCGCGTCACAGCAGCACATTCCCCGTACGGGCATCCGGCCCCGCCGCCGGTACCGATGCAGGCCGTGCCGCGGACACCCTTGCCGCCAGCCACGCAGAGGACACCGTGGCTTTTTGGGAACAGCAGGCGCTGCGGCTCGACTGGGCACCCTCCACCTCGCCGGGCGGCCAGCCCTGGCACACCGCCCACCGGAAAGTACCGGCAAATCCTGAAGCCGGAACCGGCCCCGAGATCACCTGGTTCGAAGGTGGCCGGCTCAATGTTGCCTACAACTGCGTGGACCGCCATGTTGCGGCGGGGCGCGGGGACAAGGTGGCCCTCCATTTCGAGGGCGAACCGGGCGACCGCCGGAGCATCACCTATGCAGAGCTTCAGCGGGAGGTGGCCAAGGCCGCTAACGCGCTTCTCGCCCTGGGCATCACCAAGGGTGACCGTGTGGTCATCTATCTACCGGTCATTCCGGAAACGGTGATCATCACCCTGGCCGTAGCCCGCATCGGCGCCATCCACTCGCTCGTTTTCGGCGGCTTCTCCGCTGAAGCCCTGCGCTTCCGCGTCGAGGACACCCGCGCGAAACTCCTCGTGACCACCGACGGCCAGTTCCGCCGCGGCGTGGCCGTTCCTGTGAAGGACAACGCCGACGCCGCCGTCGCGGGCGACAATGAGATCGAACATGTGCTCGTCATCAACCGCACCACGCCCGCCGGGAAGCTGGCGGAGGTAGCGATGACGGAGGGCCGGGACGTGTGGTGGCACGACGCCGTCGAGCCCGCCTCCGACGTTCACGAGGCGGAAGCGTTCGACGCCGAGACCCCCCTGTTCATCATGTACACCTCCGGGACCACCGGAAAGCCCAAGGGGCTGGTGCACACCTCGGGCGGCTACCTGACGCAGGCATCGTGGAGCTTCGAGCACCTCTTCAGCAACCCCGACCCCGAGCTCCGGGACCAGGACGTGCACTGGTGCACCGCCGACCTCGCCTGGGTCACCGCGCACACATACGAAATCTACGGGCCGCTTTCCAACGGAGTCACCCAGGTCATTTTCGAGGGAACGCCCAACACACCCCACCCTGGACGGCATTTCGAAATCATCGAACGCTACGGCGTCACGCAGTACTACACGGCGCCCACCCTGGTCCGCTCCCTCATGGGCTGGTTCCCCGACGGCGTCCCGGGCAGCTATGACCTCTCGTCCATCCGGCTGCTCGGCACCGTCGGGGAGGCCGTCAACCCCGAAGCGTGGCGCTGGCTGCGGCACAACGTCGGCCGCGGCACCGTCCCCGTGGTCGATACCTGGTGGCAGTCTGAGACCGGAGCCACGATCCTCTCCCCCGCACCTACGGACACCGAGTTCAAGCCCGGCTGCGCGGCCCGCCCGCTTCCCGGGGTCAGCGCGAGGATCGTGGACGAAGCCGGCAACACCGTGCCGCCCGGAGTCCAGGGATACATTGTGGTGGATACTCCAGGCCCCGCCATCGCGCGGACTGTCTGGGGCAACCCGCAGCGCTACTTTGATTCGTATTGGCGCAAGTATGCGGAGCAGGGCTGGTTCCTTGCCGGCGACGGCGCCAAGTACGACGACGACGGCGACATCTGGATCCTCGGGCGGGTGGATGACACCCTCAACGTCTCAGGGCACCTGCTCTCCACGATTGAGATCGAATCGGCCCTCGTCTCGCATCCGGACGTTGTGGAGGCCGGCGTCTGTCCGGTCGCAGATCCGAAGACCGGCCATGCCGTCGTCGCGTTCGTAGTACTGAAGGGCGGGGCTTCGGCGGTTTCGGCAAGCACAACCAGCGCCGACCTCCGCAACCACGTGGCCAAGGCGATCGGCCCGATCGCCAAGCCACGCGACGTCGTCGTTGTTCCCGACGTCCCCAAGACCCGCAGCGGCAAGATCATGCGCCGGCTGCTCACCCAGCTTTTCGAGGGCACCGCCCTGGGCGACACCACCTCCCTCCAGAACGAACCGGCGATTGCCGGAATCCAGGACGCGCTCCGCGATTACGCCGCCGTCACCGCAGCAAGGCTCAACTGA	MTPDFSPALSSPARTSPAENRASGDLTTTSNATAIEAGLRDAPGSLRGPSGWSSTEPPDGTVHGASKGGPARHSSTFPVRASGPAAGTDAGRAADTLAASHAEDTVAFWEQQALRLDWAPSTSPGGQPWHTAHRKVPANPEAGTGPEITWFEGGRLNVAYNCVDRHVAAGRGDKVALHFEGEPGDRRSITYAELQREVAKAANALLALGITKGDRVVIYLPVIPETVIITLAVARIGAIHSLVFGGFSAEALRFRVEDTRAKLLVTTDGQFRRGVAVPVKDNADAAVAGDNEIEHVLVINRTTPAGKLAEVAMTEGRDVWWHDAVEPASDVHEAEAFDAETPLFIMYTSGTTGKPKGLVHTSGGYLTQASWSFEHLFSNPDPELRDQDVHWCTADLAWVTAHTYEIYGPLSNGVTQVIFEGTPNTPHPGRHFEIIERYGVTQYYTAPTLVRSLMGWFPDGVPGSYDLSSIRLLGTVGEAVNPEAWRWLRHNVGRGTVPVVDTWWQSETGATILSPAPTDTEFKPGCAARPLPGVSARIVDEAGNTVPPGVQGYIVVDTPGPAIARTVWGNPQRYFDSYWRKYAEQGWFLAGDGAKYDDDGDIWILGRVDDTLNVSGHLLSTIEIESALVSHPDVVEAGVCPVADPKTGHAVVAFVVLKGGASAVSASTTSADLRNHVAKAIGPIAKPRDVVVVPDVPKTRSGKIMRRLLTQLFEGTALGDTTSLQNEPAIAGIQDALRDYAAVTAARLN	PGPT0002265_178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-17_03385	1221	sfnG		FMNH(2)-dependent dimethylsulfone monooxygenase	ATGAACGACATCAGCAACGTGGCCCGTCTTTCCGAACCGCTCAAGTTCGCCTATTGGGTGCCCAACGTATCCGGCGGGCTGGTGGTCTCCACCATTGAACAGCGCACCGGCTGGGACTTCGACTACAACAAGAAGCTGGCACGGATCGCGGAGAACTCCGGCTTTGAGTACGCCCTCACGCAGACCCGCTACGCCGCTTCCTACGGGGCGGACAAGCAGCACGAGGCAACGTCCTTCAGCCTGGCCCTTCTGGCGGCCACCGAGCGCCTCAAAGTTATTGCCGCCGTGCACCCGGGCATGTGGCACCCCGGCGTGCTCGCCAAGTACGTCATCACGGCCGACCACATCTCCAACGGCCGCGCCGCAGTCAACATCGTCTCCGGCTGGCTGAAGAACGAATTCACGAACTTCGGCCTCGAATGGCTCGAGCACGACGAGCGCTACGTCCGCACCGAGGAGTTCATTAAGGTGCTGCGCGGGCTGTGGACCGAGAAGGAGTTCAGCCAGTCCGGCAAGTACTACAACATCACCGATTTCACGCTCAACCCCGCCCCGGTGGACGTTCCGGGACGCGCCCACCCGGAGATCTTCTTCGGCGGAAACTCGACGGCGGCGCAGGCCACTGCGGGGCGCGTCGCCGACTGGTACTTCTCCAACGGCAAGGACCTTGAAGGCTTCAAGGAGAACATCGCCGGTGTGGTCGCGGCTGCGGGCGAGACCGGGCGCGGCGCCGAGGGCCAGCTGCCTTCACTGTCGTTCCCAAAGTTCGGCCTCAACGGCTTCGTCATCGCCCGCGACTCGGAGAAGGAGGCCCGCGACACCCTCCGCGAAATCGTGGCGAAGGCCCACAAGCCGGCCGTCCAGGGCTTCCGCGACGCCGTGCAGGAAGCAGGGCCCTCCACGAAGGACGGCAAGGGCATGTGGGCGGACTCCTCCTTCGAGGATCTCATCCAGTACAACGACGGCTTCAAGACCCAGCTGATCGGCACCCCGGAGCAGATCGCCGAGCGGATCGTGGAGTACAAGAAGATCGGCGTGAACCTGCTGCTGACCTGCTACCTGCACTTTCAGGAGGAGGTGGAGTCCTTTGGCAAGGACATCCTGCCGATCGTCCGCGAACTCGAGGCCGACCTGGCCCGCAAGAACGGCACCGAGCTGGACTTGTCCGGCACTCCGGTAGCTTCCGGCGCCGGTGCAGCCAGCGAACTGGCGGCAGTCTGA	MNDISNVARLSEPLKFAYWVPNVSGGLVVSTIEQRTGWDFDYNKKLARIAENSGFEYALTQTRYAASYGADKQHEATSFSLALLAATERLKVIAAVHPGMWHPGVLAKYVITADHISNGRAAVNIVSGWLKNEFTNFGLEWLEHDERYVRTEEFIKVLRGLWTEKEFSQSGKYYNITDFTLNPAPVDVPGRAHPEIFFGGNSTAAQATAGRVADWYFSNGKDLEGFKENIAGVVAAAGETGRGAEGQLPSLSFPKFGLNGFVIARDSEKEARDTLREIVAKAHKPAVQGFRDAVQEAGPSTKDGKGMWADSSFEDLIQYNDGFKTQLIGTPEQIAERIVEYKKIGVNLLLTCYLHFQEEVESFGKDILPIVRELEADLARKNGTELDLSGTPVASGAGAASELAAV	PGPT0002830_24	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-SULFONE_DEGRADATION,PGPT0002830-sfnG-K17228	NA	NA
D1-17_03386	1353		COG2873	O-acetyl-L-homoserine sulfhydrylase	ATGGCTGAGCGCACTTTCGGCTTCCGCACGCGTGCCCTGCACGCCGGCGGCACCCCCGACGCCGAGCACGGCGCCCGCGCGGTTCCCATTTACCAGACGACGTCGTTCGTGTTCAAGGACACCCAGGACGCTGCCAACCTCTTCGCACTGCAGAAGTACGGCAACATCTACTCGCGCATCGGCAATCCGACGGTGGCCGCATTTGAGGAGCGCATCGCCTCGCTGGAAGGCGGCATCGGCGCCGTTGCCACCTCCTCAGGCATGGCCGCAGAGTTCATCACCTTCGCAGCGCTCACGCAGGCCGGCGACCACATCGTCGCAGCCTCGCAGCTGTACGGCGGCACCGTCACCCAGCTTGATGTGACGCTGCGCCGCTTCGGCGTGGACACCACCTTCGTTCCCGGCACCGACCCTGCAGATTATGCTGCGGCTGTGCAGGAGAACACGAAGGCCATCTTCGTCGAGGTGGTGGCCAACCCGTCGTCGGAGGTCCAGGACCTTGCGGCCCTGGCAAAAGTGGCGCACGACGCCGGCATCCCCTTGGTGGTCGACGCCACGTTGAGCACGCCGTACCTCGTGCGGCCGATCGAACACGGCGCCGATATCGTGATCCACTCGGCCACGAAGTTCATCGGCGGGCACGGCACCACCCTGGGCGGCGTCATCGTCGAGAGCGGCACGTTCAACTGGGGCAACGGTAAGTTCCCCACGATGACCGAGCCGGTGCCCTCGTACGGCAACGTCTCCTGGTGGGGCAACTTTGGCGAATACGGGTTCCTGACCAAACTGCGCTGCGAACAGCTGCGCGACATCGGCCCGGCCCTGACGCCCTTGGCTGCCTTCCAGCTGCTGCAGGGCGTGGAGACACTCCCCCAGCGCCTTGATGAGCACCTGAAGAACGCCAAGGCTGTGGCCGAGTGGCTCGAAGCCGATCCCCGCGTGGCGTACGTGAACTACTCCGGGCTGCCGTCCCACCCGCACTACGAGCGCGCGCGGCAGTACCTGCCCCTGGGCCCGGGATCGGTATTCTCCTTCGGAGTGAAGGGCGGACGGGCAGCCGGGCAGAAGTTCATTGAATCCCTGCAGCTGGCCTCCCACCTCGCGAACGTCGGTGACTCACGCACCCTCGTAATCCACCCCGGTTCCACCACCCACCAGCAGCTGAGCCCGCTTCAGCTCGAATCTGCCGGAGTTCCTGAGGACCTGGTCCGGATCTCCGTGGGGCTCGAGGACATCGAGGACATCCTGTGGGACCTGGACCAGGCGCTGACGGAAGCTCAAAGCGCGACGGCGGATGACGCCGTCGGGCTCGAAGAACCGGCCGACACCTGCACGATCGGAGCACGGGCATGA	MAERTFGFRTRALHAGGTPDAEHGARAVPIYQTTSFVFKDTQDAANLFALQKYGNIYSRIGNPTVAAFEERIASLEGGIGAVATSSGMAAEFITFAALTQAGDHIVAASQLYGGTVTQLDVTLRRFGVDTTFVPGTDPADYAAAVQENTKAIFVEVVANPSSEVQDLAALAKVAHDAGIPLVVDATLSTPYLVRPIEHGADIVIHSATKFIGGHGTTLGGVIVESGTFNWGNGKFPTMTEPVPSYGNVSWWGNFGEYGFLTKLRCEQLRDIGPALTPLAAFQLLQGVETLPQRLDEHLKNAKAVAEWLEADPRVAYVNYSGLPSHPHYERARQYLPLGPGSVFSFGVKGGRAAGQKFIESLQLASHLANVGDSRTLVIHPGSTTHQQLSPLQLESAGVPEDLVRISVGLEDIEDILWDLDQALTEAQSATADDAVGLEEPADTCTIGARA	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
D1-17_03387	495			hypothetical protein	ATGAGCACCACAGAAAGAACCTGGCAAGGACCCACCGCCCCGGAGCGCCTGAACCTGCTCCGGAGTGCCAAGTCCATTGCGATCGTCGGCGCTTCGGACAAGCCGTCCCGGGCAAGCTACTTTGTTGCCACCTACCTGCAGTCCTCGACGCGCTACAAGGTGTATTTCGTGAACCCGGTGGTCAAGGAGATCCTGGGCCAGCCGACGTACGCCTCGCTGGCCGATCTTCCCGAGAGCCCGGACATTGTGGACGTCTTCCGCAAGCACGAGGACCTTCCCGGCGTCCTGGACGAGGCCGTTGCCGCGGGCGCGAAGACCCTGTGGCTGCAGCTGGGCTCCTGGCATGAAGGCGTCGCCCTTGAGGCTGAGGCTGCCGGGCTGAACATCGTGATGGATCGCTGCGTGAAGATCGAGCACGCACGCTTCCATGGCGGCCTGCACCTCGCCGGCTTCGATACCGGCGTCATCTCCTCCAAGCGGCAGGTGCTCGCTTAG	MSTTERTWQGPTAPERLNLLRSAKSIAIVGASDKPSRASYFVATYLQSSTRYKVYFVNPVVKEILGQPTYASLADLPESPDIVDVFRKHEDLPGVLDEAVAAGAKTLWLQLGSWHEGVALEAEAAGLNIVMDRCVKIEHARFHGGLHLAGFDTGVISSKRQVLA	PGPT0013060_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-17_03388	699			hypothetical protein	ATGAGTGCCACGCTCAAAGGCCCGGAGGACCGGGAGATCCAGGCGGTTCTTCGTGATGCCGGGCTGGAAGGGGACGCGGATCTGGCCGCAGCCCTGGGCGGGATGCGCGCGCTGGCACTGGATGCGCCGCCAGCGCCCCGGCCCGACCTCGCCGCTCTGCTGGCCCCTGGCGTGTCCAGCCTTGACGTTCGGCGCCGCAACAGGCAGCGCAGAATGGGCGCCGTGATCGGGGCCGTAGTTGTTGGCACTATGGGCCTCGGCGCAGGTGCCGTCGCCGCCTCAAGCGAGGACTTCCGGCGAAGCGTCGGTCATAACGTGGAAAGGATTTTTACGCCGGTTCCGCCTGCCCCTGCCCCCGCACCCGCCAGCGGCACGGCAAGCCCGTCACCAGCCAACGTTCCGGCCAGGACTGCGGTACCCGCTGCCCCGTCCGGCGGAACAGCTCCGGCAGCGCCGGCACCTGGTTCCCCGGAGGCGGTCCCCGCGTCCCCGTCCAAGGACGCCGACCCCGTCCGCCGGCCCCCCGCGGCTGGCGAGAAGCCGGACAAAGCCCCGGTGCCGGCGGTACGGCCCTCGCAACTGCCCACGTTGCCTGGCGCGGGTGAAGCCCCGGAGCTTCCGGTCAAACCGTCCCCGCCGCGGCCCGCGGTTCCCGCCCTCCCGGGCGCCGTCTCCGACCATGGCCACGACAAGCCCTGA	MSATLKGPEDREIQAVLRDAGLEGDADLAAALGGMRALALDAPPAPRPDLAALLAPGVSSLDVRRRNRQRRMGAVIGAVVVGTMGLGAGAVAASSEDFRRSVGHNVERIFTPVPPAPAPAPASGTASPSPANVPARTAVPAAPSGGTAPAAPAPGSPEAVPASPSKDADPVRRPPAAGEKPDKAPVPAVRPSQLPTLPGAGEAPELPVKPSPPRPAVPALPGAVSDHGHDKP				NA	NA	NA	NA	NA
D1-17_03389	549	sigD		ECF RNA polymerase sigma factor SigD	TTGGCAGCCCAGCTGAGCGACGACGAACTGTCAGCCGCCCTTGCTGGCGACCCTTCCGGTTTCAGCGCCGTTTACAGCACCATTTCCCCCGCCGTTCTAGGATATTTCCGGGCCCGCGGGGTTGATGATCCGGAAGCGCTGACACAGGACGTGTTCGTGGACGTACTGCCCAAGCTGCAGGGCGTCAGAGGCGGCCACGCCGGTCTGAGGACCTTCATCTTCTCCATTGCGCATGCCCGGCTCGTTGACTACCGCCGCCGGTCCTCACGCACCCCCCAGCTGAGCGAATACGACCCGCAGCAGGACGGACGGTATACGAACTCTGCCGAGGACGACGTCATCGGCTCACTGGGCGGCATTTCATCAACCCTCTCCATGCTCAACGACGAGCAGCGCGAGGTCCTGATCCTGAGGATCGTCGCGGACCTCTCCGTGGAACAGGTGGCCGGGATCATGAACAAGACCCCCGGCGCCATCAAACAGCTTCAGCGGCGCGGGCTCATTGCCCTCCGCGAACTCGTCAAGGAAAAGGACCACATTCCATCATGA	MAAQLSDDELSAALAGDPSGFSAVYSTISPAVLGYFRARGVDDPEALTQDVFVDVLPKLQGVRGGHAGLRTFIFSIAHARLVDYRRRSSRTPQLSEYDPQQDGRYTNSAEDDVIGSLGGISSTLSMLNDEQREVLILRIVADLSVEQVAGIMNKTPGAIKQLQRRGLIALRELVKEKDHIPS	PGPT0014960_8730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-17_03390	519			hypothetical protein	ATGAAGAGTGTTAGCAAGTCCACCAAGATTGCTGTCGGTGCCGCCATCATCGCTGTCGGAGGTTTCTCCAGCATCGGCCTGGCCAACGCGGCTCAGGTCGCAAGCTCGCAGCACGCAGAGGTGACCCCCGCTACGCCCGCCACCCCGGCCGCTCCCGCAACTCCTGAGCTTCCGTCCGCACCTGCAGTTCCGGCCACCCCGGCCGTTCCCGCCACTCCGGAGGCCAAGGCCAAGGCGGCCGCCGAGGCTGCGGACGTTAATGCTGACGTCGATGTGGAGAAGGACTCCGCCAAGGCCAACGTCGCCGGCCCCAACGGCGCCGCTGCTGACGTAGCCGCTGCGGTCCCGGCCACTCCCGCCATTCCGAACGGCCCCGGTGTCCCCGCCATCCCGGCCAAGCCCGCCACTCCGGCCGTCCCGAGCGTTGCCGAGAAGGTTGGCCAGCCGTCGGTCTCCGCCGATGCTGAGGTCCGCGCTGAGGCTGACGCTTCCGCTGACCTGCCGAAGGCCGGCAAGTAA	MKSVSKSTKIAVGAAIIAVGGFSSIGLANAAQVASSQHAEVTPATPATPAAPATPELPSAPAVPATPAVPATPEAKAKAAAEAADVNADVDVEKDSAKANVAGPNGAAADVAAAVPATPAIPNGPGVPAIPAKPATPAVPSVAEKVGQPSVSADAEVRAEADASADLPKAGK				NA	NA	NA	NA	NA
D1-17_03391	1290	purA	COG0104	Adenylosuccinate synthetase	ATGCCAGCAATCGTGATCGTCGGAGCCCAGTGGGGCGACGAAGGCAAAGGTAAGGCCACTGACCTGCTCGGCGGCCGTGTCGACTACGTGGTCAAGCCGAACGGCGGAAACAACGCCGGCCACACCGTCGTCGTGGGCGGTGAGAAGTACGAGCTCAAGCTCCTTCCCGCCGGCATCCTCAGCCCGAACGCTGTTCCGATTATCGGCAACGGCTGTGTGGTGAACCTCGAAGCCCTGTTCCAGGAGATCGACGGGCTTGAAGCCCGCGGCGCGGACACCTCCAAGCTGCGCGTTTCGGCCAACGCCCACCTCGTCGCCCCCTACCACCAGGTGCTGGACAAGGTCACCGAGCGCTTCCTCGGCAGCCGCGCCATCGGCACCACCGGCCGCGGCATCGGCCCGGCCTACATGGACAAGGTGGCCCGCCTCGGCATCCGCGTCCAGGACGTTTTCGACGAGTCCATCCTCCGGCAAAAGGTGGAGGGCTCGCTGCGCCAGAAGAACGAGCTCCTCGTCAAGGTCTACAACCGCCGGGGCATCCTGGTGGACGAGATCGTCGACTACTTCCTGTCCTTCGCGGAACGGCTGCGCCCCCTGGTCATTGACAGCACCCTGGTACTGAACACGGCGCTGGACGAGGGCAAGGTTGTGCTCATGGAGGGCGGCCAGGCCACGTTCCTGGACGTTGACCACGGCACGTACCCGTTTGTCACCTCCTCCAACCCCACCGCCGGCGGTGCTTCCGTAGGTTCCGGCATCGGTCCCACCCGCATTTCGCGTTCCATCGGCATCATTAAGGCTTACACCACACGTGTGGGCGCCGGTCCTTTCCCCACCGAACTGTTCGATGAGATGGGCGTGTACCTGCAGAAGACCGGCGGAGAGTTCGGCGTCAACACCGGCCGCCCGCGCCGCTGCGGCTGGTACGACGCCGTCCTGGCCCGCCACGCCTCGCGGGTGAACGGATTCACCGACTACTTCGTCACGAAGCTCGACGTGCTGACGGGCATCGAACAGATTCCGGTCTGCGTTGCTTACGACGTCGACGGCGTCCGGCATGACGAGATGCCCATGACGCAGACGGAGTTCCACCACGCCAAGCCCATCTTCGAGTTCTTCGACGGCTGGACAGAGGACATCACCGGAGCACGCACACTGGCGGACCTGCCGGAAAACGCCCGCAACTACGTCCTGGCGCTGGAAAAGCTCTCCGGTACACGCTTCTCGGCCATTGGTGTGGGCCCGGACCGCGACCAGACCATCGTGCTGAACGACCTCATCAACGACTGA	MPAIVIVGAQWGDEGKGKATDLLGGRVDYVVKPNGGNNAGHTVVVGGEKYELKLLPAGILSPNAVPIIGNGCVVNLEALFQEIDGLEARGADTSKLRVSANAHLVAPYHQVLDKVTERFLGSRAIGTTGRGIGPAYMDKVARLGIRVQDVFDESILRQKVEGSLRQKNELLVKVYNRRGILVDEIVDYFLSFAERLRPLVIDSTLVLNTALDEGKVVLMEGGQATFLDVDHGTYPFVTSSNPTAGGASVGSGIGPTRISRSIGIIKAYTTRVGAGPFPTELFDEMGVYLQKTGGEFGVNTGRPRRCGWYDAVLARHASRVNGFTDYFVTKLDVLTGIEQIPVCVAYDVDGVRHDEMPMTQTEFHHAKPIFEFFDGWTEDITGARTLADLPENARNYVLALEKLSGTRFSAIGVGPDRDQTIVLNDLIND	PGPT0020140_3546	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
D1-17_03392	1149			hypothetical protein	GTGTGGGGCGCATCGTTTGTGCTGGCGGCGTCGGTCCTGTGGGGGACAACGGGCACAGCGGCGACCTTCGCTCCGGACGTCAGCCCGCTCGCCATCGGCGCCGCGGCCATGGGTCTGGGCGGCCTGCTCCAGGCGGCTCTTGCGGCAGGACCGGTCCGGGCCTTCGCCGGTGCTCTGCGCCGCCAGTGGCAACCGGCTGCACTGGGAGCGCTGGCCGTGGCCACGTACCCGCTGGCGTTCTACTCCTCAATGCACCTGGCGGGAGTGGCGGTGGGAACCGTTGTCTCCATCGGTTCAGCCCCTCTTGCCTCCGCCGTGATCGAACGCATTGTGGACAAAAGGGGCTTCACGCGGCGCTGGTCCGTGGGCGCGGTGCTGGGTCTTTCGGGCGCCGCCCTGTTGTGCTTTGCGGATCCGGCAGCGGGACACGGGGCGCCGGGCGCCGCCGTCGCAAGCTGGTCCGCGCCGGCCGGCATCGGCCTCGGGCTGGTCGCCGGACTTACCTACGCGCTCTACTCCTGGGCAGCGCACCGCCTGATGAACACCGGTGTTCCCTCCTCTGCAGTGATGGGAACGGTCTTCGGCCTGGGCGGGCTCCTGCTCATGCCCGTGCTGGCCATCACCGGAGCGCCCCTCATCGCCTCCTGGCAGAACATTGCCGTCGGCGCGTACATGGCGCTTGTCCCGATGTTCGCTGGCTACGTCCTCTTTGGCTGGGGGCTGGCCCGTGTCCGCGCCAGTACGGCAACCGCGCTCTCCCTCGCCGAGACCGTGGTGGCCGCCGTCCTGGCGGTGCTGGTTGTCGGTGAACGCCTGCCGGCACTGGCCTGGGTGGGGGCCGCGCTCGTCACCGGGAGCCTGTTCGTTTTCACGCTCCCCGCTGTGGGCAAACGAGCTGTTGGCAAACGAGCCGTGGGCCAACGGGCTGTTGGCAAACGGGCTGGGGGCCAATGCGCTGCGGGGATGCGTTACGGACAGGCAGGGCAGGCGGGGCAGCCTGACGGCACTTCTGCTGCCCATCCGCTAAACTTGGGTGGTAAGAGCCCCGGAACTCTTGCGCTGAGCCCTGCGGTCAACACCGCGGAAGCCGGCGATGATATTCGGGGCATTCTCATGAACGGCGCTGACCCCGGCGAGTCACCACGGTGA	MWGASFVLAASVLWGTTGTAATFAPDVSPLAIGAAAMGLGGLLQAALAAGPVRAFAGALRRQWQPAALGALAVATYPLAFYSSMHLAGVAVGTVVSIGSAPLASAVIERIVDKRGFTRRWSVGAVLGLSGAALLCFADPAAGHGAPGAAVASWSAPAGIGLGLVAGLTYALYSWAAHRLMNTGVPSSAVMGTVFGLGGLLLMPVLAITGAPLIASWQNIAVGAYMALVPMFAGYVLFGWGLARVRASTATALSLAETVVAAVLAVLVVGERLPALAWVGAALVTGSLFVFTLPAVGKRAVGKRAVGQRAVGKRAGGQCAAGMRYGQAGQAGQPDGTSAAHPLNLGGKSPGTLALSPAVNTAEAGDDIRGILMNGADPGESPR				NA	NA	NA	NA	NA
D1-17_03393	609			hypothetical protein	ATGGCCGGACAGCAGCAGTCAGCGCCCAAGAGCCGTCCCGGCAGGGGGCATGCGCGTCAGGCGCTGATCGACGCGGCCTCGCGGCGCTTCTATGCAGACGGACTGGCCGGAACGGGCGTTGACGCCATCACTGCCGAGGCGGGCGTGGCGAAGAAGAGCCTTTACAACAACTTCTCTTCGAAGGCTGAGCTGGTGACGGCGTACCTGAATGCCCGCCACGAGGAGTGGCTGGGGCTATACCGGAAGCGGCTGGAAAAAGCGGCGGGTGCGAAGGATCGGGTCCTGGCTGTCTTCGACGCATATGCAGACCACGCCGACCTCGCCTACGAGCGCGGCTTCAGGGGCTGCGGGCTGCTGAACGCTGCAGCCGAGCTGCCGGCGGGGGATTCGGGCAGGGAGGTGGTCCGGCGCCACAAGGAAGAAGTTGAAGCGCTGCTGTCCGGGCATCTGAGCGAGATGCTTGCAGACACGCCAGAGCGGGCGGTCCCTCTTGCCCGGCACCTGGCCTACCTGCTGGAGGGGGCCATGGTCCGTGCAGGCCTTGAGGGCAATGACAGCTGTGTCAAGGAAGCCCGCACCCTCGCATCCGGCCTGATCGGCAGCCTGTGA	MAGQQQSAPKSRPGRGHARQALIDAASRRFYADGLAGTGVDAITAEAGVAKKSLYNNFSSKAELVTAYLNARHEEWLGLYRKRLEKAAGAKDRVLAVFDAYADHADLAYERGFRGCGLLNAAAELPAGDSGREVVRRHKEEVEALLSGHLSEMLADTPERAVPLARHLAYLLEGAMVRAGLEGNDSCVKEARTLASGLIGSL				NA	NA	NA	NA	NA
D1-17_03394	702			hypothetical protein	ATGTGGCGTGCGCCCACCTCCCGGTGCGGCAGCGTGACCGATCCCCGCAGGAGATACCGCACTTATATGACAGCCATGGCTACTGAATCTTTTCGTGAACAACTCCTGGGCCGCCGTTACGAGCCCAATGTCGCAGCTGTCAATGAACTGTGCGACTCCCTCCAGAGCGCAAAGCCTGGCACGCAGGTCCCCTACGTCGACCCCATGCACGACGTCGACGAGTGCCGCATCATCAGCCTGTTCTCCAACATCGGCGCCGCATCGCCGTCCGGCTTCATCACCGCCGGCGATGACGATGCCGCCGCGCGCATGCTCGGCCTGCAGTGGAAGCTGGGGCTGCGGCCGGAGTTTGTCATGCCGTGGAATGTGCATCCCTGGCACGTTTCGGGTGAACTCAACGGCAAGTTCACCCCGGACCAGATTTCGGCTGGCCTAAAGCCGCTGCTGAAGTTCCTGGCCCTTGTCCCCCGCGCGTCCGTCATCGTGGCCCACGGCACCGAGGCGAACCGGCTTGCCATCATGCTGCTCAAGACCGAAGTTCCGCTGCTGTGGCGCCGCGGCCTGAAGACCTACAAGGTCCGCTCCCTCAGCGGCCGCGCCTTCGCCGGCACGCCTGCCCGCCAGCAGCAGTACCTCGACGAGATGCACGTCGTCTACACGGACGCCATGGCCCGGACCGGACTGGCGAAAGCCGCCAGCTAG	MWRAPTSRCGSVTDPRRRYRTYMTAMATESFREQLLGRRYEPNVAAVNELCDSLQSAKPGTQVPYVDPMHDVDECRIISLFSNIGAASPSGFITAGDDDAAARMLGLQWKLGLRPEFVMPWNVHPWHVSGELNGKFTPDQISAGLKPLLKFLALVPRASVIVAHGTEANRLAIMLLKTEVPLLWRRGLKTYKVRSLSGRAFAGTPARQQQYLDEMHVVYTDAMARTGLAKAAS				NA	NA	NA	NA	NA
D1-17_03395	432			hypothetical protein	ATGTCTGACGAGTTCCGCAAGAACCTGATGGGCCCTGAGCCCACTCTCCTGCCTGCCGAGACCGAGGTCTACGAACAGCTGGAGGCAGGCCAGGAGGCACTGGACATCGTGGAAAAGCACCCCACGTCCTCGCTGCTTTGGGCCGTCCTGGCTGAGGAAGCGTGGGCTGAGGGCCGCACCATTGACTCCTACGCCTACGCCCGGGTCGGCTACCACCGGGGCCTGGACTCGCTGCGGCGCAACGGGTGGCGCGGCGTCGGTCCCATTCCTTGGGAGCATGAACCCAACCGCGGCTTCCTTCGCGCCCTGTACTCGCTCGGCCGCGCCGCAGCAGCCATCAACGAGGCCGAGGAACCCGAGCGCATTGAGAAGTTCCTCAATGACTCGGACCCGAAGGCCAAGGCAGCCATCGAGGCCAAGCAGTACAAGTGA	MSDEFRKNLMGPEPTLLPAETEVYEQLEAGQEALDIVEKHPTSSLLWAVLAEEAWAEGRTIDSYAYARVGYHRGLDSLRRNGWRGVGPIPWEHEPNRGFLRALYSLGRAAAAINEAEEPERIEKFLNDSDPKAKAAIEAKQYK				NA	NA	NA	NA	NA
D1-17_03396	1020	fba		Fructose-bisphosphate aldolase	ATGCCCATTGCAACCCCAGACGTCTACGCCGACATGATCGACCGCGCAAAAAAGGGCGGCTTCGCATTCCCGGCGGTCAACGTCACCTCCTCCCAGACGCTGAACGCAGCCCTGCGGGGCTTCGCCGAGGCCGAGTCTGACGGTATCGTCCAGGTCTCCACCGGCGGTGCCGCCTACTGGTCCGGCGCCTCCACGAAGGACATGGTTGCCGGTTCCCTGGGCTTCGCGGCGTTTGCCCGTGAAGTAGCCAAGAACTACAACGTCAACATCGCCCTGCACACGGACCACTGCCCCAAGGACAAGCTCGACGGCTTCGTCCTGCCGCTGCTGGCAGCCTCCGAAGAGGCAGTCAAGGCCGGCAAGGACCCCATCTTCAACTCGCACATGTGGGACGGCTCCGCCGAGACCCTGGACGAGAACCTGCGCATCGGCCGCGAGCTGCTGGAACGCGCCGCTGCCGCCAGGATCATTCTTGAAGTCGAAATCGGCACTGTCGGCGGCGAGGAAGACGGCGTCGAAAACGAGATCAACGAGAAGCTGTACACCACCGTGGACGACGCCCTCGCCACCATCGAGGCCCTCGGCGCCGGCGAGAACGGCCGCTACATCACCGCCCTGACCTTCGGCAACGTGCACGGCGTGTACAAGCCCGGCGGCGTGAAGCTGCGCCCGGAAATCCTCAAGGACATCCAGGCCCAGGTCGGTGCCCGCATTGGCAAGGACAACCCGTTCGACCTCGTGTTCCACGGCGGCTCCGGCTCCTCCGACCAGGAGATCGCGGACGCCGTGTCCTATGGCGTGATCAAGATGAACATCGACACCGACACCCAGTACGCCTACACCCGCCCGGTTGCGGACCACATGTTCAAGAACTACGACGGCGTGCTCAAGGTTGACGGCGAAGTCGGCAACAAGAAGACCTACGACCCCCGCGTCTGGGGCGCCTCCGCCGAAGCCGGCCTCGCGGCCCGCGTCGTGGAAGCAACGCAGCAGCTCGGTTCCGCTGGCAAGACCTTCTAA	MPIATPDVYADMIDRAKKGGFAFPAVNVTSSQTLNAALRGFAEAESDGIVQVSTGGAAYWSGASTKDMVAGSLGFAAFAREVAKNYNVNIALHTDHCPKDKLDGFVLPLLAASEEAVKAGKDPIFNSHMWDGSAETLDENLRIGRELLERAAAARIILEVEIGTVGGEEDGVENEINEKLYTTVDDALATIEALGAGENGRYITALTFGNVHGVYKPGGVKLRPEILKDIQAQVGARIGKDNPFDLVFHGGSGSSDQEIADAVSYGVIKMNIDTDTQYAYTRPVADHMFKNYDGVLKVDGEVGNKKTYDPRVWGASAEAGLAARVVEATQQLGSAGKTF	PGPT0017615_2993	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017615-fbaA|cbbA-K01624	NA	NA
D1-17_03397	675	trmH		tRNA (guanosine(18)-2'-O)-methyltransferase	GTGACTGAAACGCCCGGTACCCCGCCCGAACCGCAACCGCCCACCGAGGAAACTCCGGACCCGAAGGCGGAGGTCGGCGTCGGGCCCTGGGAAGGCGAGTGGCCCGAAGGTGGCCACTGGGACCCTGACCTCCTCGCCGACGGTGACCGGCGCAACGTGGTGGACAGGTACCGCTACTGGAAGCACGAGGCGATCGTCGCGGACTTGGACTCCAAGCGGCACGACTTCCACATCGCCATCGAAAACTGGCAGCACGACCTCAACATCGGAACCGTGGTGCGCACCGCCAACGCGTTCCTCGCCAAGGAGGTGCACATCATCGGACGACGGCGGTGGAACCGCCGCGGGGCGATGGTCACCGACCGCTACCAGCACGTCCGCCACCACCCCACGGTGGAGGATTTCGTGGCATGGGCGCAGGGGGAGGGGCTGACGATCATCGGCATCGACATCTTTCCCGATTCGGTGCCGCTGGAAACGTACGAGCTGCCGCGCAGATGCGTGCTGGTCTTCGGCCAGGAGGGGCCGGGCCTGACGCCGGAGGTGCACGAGGCCGCGGAAGCGACGCTGTCGATCGAACAGTTCGGCTCCACCCGCTCCATCAACGCGGGCTCCGCGGCGGCGATTGCAATGCACGCCTGGGTGCGCCGGCATGTGTTCGGTCAGCGCGTCTAA	MTETPGTPPEPQPPTEETPDPKAEVGVGPWEGEWPEGGHWDPDLLADGDRRNVVDRYRYWKHEAIVADLDSKRHDFHIAIENWQHDLNIGTVVRTANAFLAKEVHIIGRRRWNRRGAMVTDRYQHVRHHPTVEDFVAWAQGEGLTIIGIDIFPDSVPLETYELPRRCVLVFGQEGPGLTPEVHEAAEATLSIEQFGSTRSINAGSAAAIAMHAWVRRHVFGQRV				NA	NA	NA	NA	NA
D1-17_03398	831	hdpA		Dihydroxyacetone phosphatase	ATGGCAGAAGCGGACCAGGTAAAGGAATCGGCAGCGGTATACCGAAGCGGGCAGGACATCGAGTGCTGGCTGACCGACATGGACGGCGTCCTGGTGCACGAAAACCACGCGGTCCCCGGCGCCGCGGAACTGATCCAGCGCTGGGTGGACACGTCCAAGCGCTTCCTGGTGCTGACCAACAACTCCATCTTCACTCCCCGGGACCTTGCCGCCCGGCTCCGTGCCTCCGGCCTTGAGATCCCGGAAGAAAACATCTGGACCTCCGCCCTCGCCACGGCGCAGTTCCTCAAGGACCAGGTGCACGGCTCCGATTCCGGCAATCGCGCCTACACCATTGGTGAAGCGGGATTGACGACGGCGCTGCACGAGGCCGGCTTCATCCTTACCGACCAGAACCCTGACTTCGTAGTGCTCGGCGAGACCCGCACCTACTCGTTCGAGGCGATTACCATGGCGATCCGCCTGATCCTCGCCGGGGCCCGCTTCATCGCCACGAACCCGGATGCCACCGGCCCCTCCAAGGATGGCCCCATGCCGGCCACCGGAGCCATCGCGGCGCTGATCACGAAGGCCACCGGCCGCGAACCGTACATCGTGGGCAAGCCGAACCCCATGATGTTCCGCTCCGCCATGAACCAGATCGATGCCCACTCCGAAACCACTGCCATGATCGGCGATCGGATGGACACGGACATCGTGGCAGGCATGGAAGCGGGCCTGCACACGGTGCTGGTGCTCAGCGGCATCACTCAACGAGAGGAAATCGCCGGCTACCCCTTCCGGCCCAACCAGGTTCTGGACTCCGTGGCGGACCTCAAGAGCCAGATCTGA	MAEADQVKESAAVYRSGQDIECWLTDMDGVLVHENHAVPGAAELIQRWVDTSKRFLVLTNNSIFTPRDLAARLRASGLEIPEENIWTSALATAQFLKDQVHGSDSGNRAYTIGEAGLTTALHEAGFILTDQNPDFVVLGETRTYSFEAITMAIRLILAGARFIATNPDATGPSKDGPMPATGAIAALITKATGREPYIVGKPNPMMFRSAMNQIDAHSETTAMIGDRMDTDIVAGMEAGLHTVLVLSGITQREEIAGYPFRPNQVLDSVADLKSQI	PGPT0021435_81	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021435-nagD-K02566	NA	NA
D1-17_03399	1041			hypothetical protein	GTGCCGTATGAAGGATCCCCAGGTCCGGAGCTGCAGCCGGGTTCTGACACGACCCGGCTCATCCGCCATGCCTCCGACCTGAAACAGTTTTCCCGCAGGGCCTTCCTCACCAGTGCGGGGGCGGCATCGGTTCTGGCCGCGGACATGCTGCTGACCCAGCAGGTCCAGGCGCAGCGCCAGGTGCACAAGATCCTCGTGGTGGAGGACGATTTCGCGGCCCGTTATTTCCCGAATGCCAGCTGGTTTCTGTTCCCCGGCTACAAGACCAGCTGGGAAGAGGCGCAGTGGATCCTGAACTCGCTGCGGGGAACGCTGAACCAGCGAGGCCAGTTGGCCGCCGTCGGCTATTCAAACCTCGGTCTGGACATCGACCAGATCGTCATCGCTGTGATCGAGCACGTCCGGGCCCGTAACCTGACCACGCTCTACTTTTATGGCCACAGTTTCGGCGGGATGGTGGCCACGCAGGTGGCGGCCCGCCTGCTCGAACTGCATGGCGTGGAAGTGGCCCTCATCGTCCTGGACTCCAGTCCGTACAGCAAGTACGACGTGCTGGACCAAAGCTGGTTCGACGGTGTGGTCTTCCTGTACGAGCGCGGGTTCCGGGTGCCGTCGGTGCTGCGGGGCGGCTACGAGCTGGGAGAGCGGGTGGTGCACAAGAACGAGCGCACGTGGCGTCAGATCCTTGACCAGACCCTCGAGCAGCTGTCTCCGATCGCACCCTCCAGCGTGCTGATCCAGTCAGAATCCGCGTATATCTACCACTTCGATGCCACCCGGTTCGCCGGCGGTATCGGAAATGCCCGGATGGCCTACATCGGAAATCCCCGGGACCAGACCGTCAACTACCAGACGGCACACCAGTCCTGGGCGCGCACGTTTTCGGCGAACATGGCCTCTGCGGAACTCCGCACCGAGGGGGCGCTTCCCGCCCACGCCAGCCCGGGCTGGAACCCGTTCGTCTACAGGCCCATCCTGGCCAGCCTGCAGGACGAAGTCCTGCCCCAGCCGGCAGGCGGAGGGAAAATGACGCCGTTCTAG	MPYEGSPGPELQPGSDTTRLIRHASDLKQFSRRAFLTSAGAASVLAADMLLTQQVQAQRQVHKILVVEDDFAARYFPNASWFLFPGYKTSWEEAQWILNSLRGTLNQRGQLAAVGYSNLGLDIDQIVIAVIEHVRARNLTTLYFYGHSFGGMVATQVAARLLELHGVEVALIVLDSSPYSKYDVLDQSWFDGVVFLYERGFRVPSVLRGGYELGERVVHKNERTWRQILDQTLEQLSPIAPSSVLIQSESAYIYHFDATRFAGGIGNARMAYIGNPRDQTVNYQTAHQSWARTFSANMASAELRTEGALPAHASPGWNPFVYRPILASLQDEVLPQPAGGGKMTPF				NA	NA	NA	NA	NA
D1-17_03400	564			hypothetical protein	ATGGACAACCATCTTGATTCCCATGTTAACGTCGACCCCTCGGCCAAGACCGTCCGGATCGCCGTGCGCGGCAGTCTCGCCCGGGCATCCCGGCCGGACCTTCTGCAGGAAATCCAGCGGATCCGCGGCCTGGGCATAACGTATCCCATCACGGTGGACCTTTCCCGCGCCGCCTTCGTGGAATCATCCGCGCTCGCTGGCCTGCGCATAGACCTGAACGCCCAGGACTGCTGCCTGCAGGCACCGTCATCTGCGGCCGGGCCAGGGGTCTCCCTGGTGGTCATGGCCGGCAGCGGCCAGGACATGGCGCAAAGCGGGACAAACCTGGCCGTCTTGCCGGATTCCTCCCAGCAGGCCATTGCTCCGGTCTCCACGGCGTTTTCCCCGCTCACCAGTTACTCCTCTCCGGAACTGCTCGCAGCCAGCGATGCCGTTTTCGGGCTGCTGGACGATCCCGCAGGGCGCTGCGGGAATGAACTCCTCGCACAGTACGAAGCCATCTGCGAGGAACTCAGCCGGCGTGAGCTCTTTGAGGCGGCGGGGAAGCAGGCAGCCGGAAGCTGA	MDNHLDSHVNVDPSAKTVRIAVRGSLARASRPDLLQEIQRIRGLGITYPITVDLSRAAFVESSALAGLRIDLNAQDCCLQAPSSAAGPGVSLVVMAGSGQDMAQSGTNLAVLPDSSQQAIAPVSTAFSPLTSYSSPELLAASDAVFGLLDDPAGRCGNELLAQYEAICEELSRRELFEAAGKQAAGS				NA	NA	NA	NA	NA
D1-17_03401	780			hypothetical protein	ATGCGCATGCCCGATCAAAACCGGACCAGTACTCCCCGCGCCCTGACCAGTGTCGAGCAAATCCAGAACCTTATCCTGGAGAGCGCCGACTTTGAGGCCTTCCTGAACGGGCTTGCGCGGTACTCCGCGCACCAGATGGCCGGCGAAGGCGACGACGCCCTGTGCGGCATCACCCTGCTGCGCGACCGCAAGGCTGCCACCATCGGCTGGAGCAGCGACTCTGCCCGGGAAGTGGACGAAATTCAGTACTCGCTGTCCCAGGGCCCGTGCCTCACAGCGGCGGAGGAAGAACGGGAGGTCCACGTCCCGGACCTTCTCAAGGAGAACCGGTGGGGCCCCGACTATGCCAATGCCGTGGCATCCCACGGGCTGCGCTCCGTACTCTCGCTGCCCTTCAGCCTCCAGGGTGAAGCCAAGGCGGCACTGAACCTGTACTCCGAGGCCCCGCGCAAGTTCGACGACGCTGCCATCGCCCACGCCCGCGGCTACACCCGTGAAATCTCGGAGGCCCTTCGGCTTGCGGTCAGGTTTTCACTGCACTCGGACAGGGCCGCAAACCTGCGCGCAACGCTCGAGTCGCGGACCGTGATCGACATCGCCATCGGCATCGTCATGGCCCAAAACAGGTGCAGCCAGGAAACAGCGGTGCGCATCCTCACTGACGCCTCGAGCAACAGCAACGTCAAGCTCCGGGACATTGCCGCGTCCCTGGTGAACTCGGTGGGCGGCGCCGACGCGCGGACTCACTTCCAGGAGCCGGGACAGGTGCAGGCAGGCTAG	MRMPDQNRTSTPRALTSVEQIQNLILESADFEAFLNGLARYSAHQMAGEGDDALCGITLLRDRKAATIGWSSDSAREVDEIQYSLSQGPCLTAAEEEREVHVPDLLKENRWGPDYANAVASHGLRSVLSLPFSLQGEAKAALNLYSEAPRKFDDAAIAHARGYTREISEALRLAVRFSLHSDRAANLRATLESRTVIDIAIGIVMAQNRCSQETAVRILTDASSNSNVKLRDIAASLVNSVGGADARTHFQEPGQVQAG				NA	NA	NA	NA	NA
D1-17_03402	585	pyrE_2	COG0461	Orotate phosphoribosyltransferase	ATGACTGCCACCAGTGTTCCTGCAGCAGATGCTGCTGCTGCCCGTGCCCGCCTTCTTGAACTGATCAAGGAACTCGCGGTGGTCCGCGGCAAGGTGATCCTGTCCAGCGGGGCGGAAGCGGATTACTACATCGACCTGCGCCGTATCACCCTTCACCACGAGGCCTCCAAACTTGTTGGCCAGGTCATGCTTGCACTGGCGGACGACGCCGGGATCGACTTTGAGTGCGCGGGTGGACTCACTATGGGGGCCGACCCCGTCGGCACAGCGGTGATGCACGCAGCTGCGGACGCGGGCCGCGCCGTGGACGCCTTCGTTGTCCGCAAGGCGCAAAAGTCCTACGGCATGGGCCGCCAGGTGGAGGGCCCGTCCGTCGAGGGCCGCAAGGTTTTGGTCCTGGAGGATACGTCCACGACCGGCGGCTCCGCCTTGACGGCCGTTGAAGGTGTCCGGAAAGCCGGCGGCAACGTCGTCGCCGTCGCCGTGATCGTCGACCGCGACACCGGGGCCAAGGAAAAGATTGAGGCGGAGACCGGCGTCCCTTATCTGTTTGCGTTTGGCAAGGACGAGCTCGGGCTGAACTGA	MTATSVPAADAAAARARLLELIKELAVVRGKVILSSGAEADYYIDLRRITLHHEASKLVGQVMLALADDAGIDFECAGGLTMGADPVGTAVMHAAADAGRAVDAFVVRKAQKSYGMGRQVEGPSVEGRKVLVLEDTSTTGGSALTAVEGVRKAGGNVVAVAVIVDRDTGAKEKIEAETGVPYLFAFGKDELGLN	PGPT0021200_3698	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
D1-17_03403	1203	oxyE		6-methylpretetramide 4-monooxygenase	ATGATGCTGGGCCTGCTGCTGGCCAGGGCCGGCGTGAAAGTCACCGTGCTTGAAAAACATCGCGATTTCCTCCGGGATTTCCGTGGCGACACCGTGCATGCAGCCACCATCCGGCTCATTGACGAACTGGGTTTAGGGAGCGCCTTCCGGGCGCTGCCCCAAAGCCGCCTGCGCAACGTCGCCTTCCCCGTGCCCGGCGCCGGCCTGGTGACCCTGGGTGATTTTGCATCCCTGCGCCCGCCCTACAACTACATCGCCATGATGCCGCAGTGGGACTTCCTGAACTTCCTGGCCGAAGCGGCCGCGGAAGAACCCACCTTCACACTGCGGATGGAGCATAAGGCAACGTCCTTGGTGTACGACGGCGGGCGGGTCGCCGGAGTGCGGTACGGAACCACGGCGGGGGCCGAGGGCGAGATCCGAGCGGACCTGGTGGTGGCCGCGGACGGGCGGCACTCCGCTCTGCGGCAGGCTGCAGGCCTCGTGCCCACGGAATTCCCGGTGCCGTTCGACACCTGGTGGTTCAAGCTGCCACGCTATCCCTCGGAAAAAGGGGAAGTGGCCGGGATCGTGCCTGCCTTCCGGGAGGGTGAAGCCATGATCGCCCTGTTCAGGACCGACTACTACCAGATGGGCTATCTGGGACCCAAAGGTGCGGACGCCCGGCTCCGCCGTGAGGGCGTGGAACGGTTCAGGGAACGGGTCGCCGGTCTGCGGCCAGACCTTGCGGACCGTGTAGATGCGATTCGCTCCATGGATGACCTGCACTGGCTCGACGTGCGGCTCAACCGGCTGCGGCGGTGGTACGTCGACGGGATGCTGTGCATCGGAGATGCGGCCCACGCGATGTCGCCCGCCGGGGGAGTTGGAATAAACCTCGCCATTCAGGACGCCGTGGCGGCAGCAGCGCAGCTTGCCCCGGCGCTTCTGCGCGGGCAGGTCACCCTGAAGGAGCTCGCGGCGGTGCAGCGCCGCCGGTGGATGCCCACCGTTGTTGTGCAGACGGCGCAGCGCGCCATGCACCGCGCCGTCTTTGTGCCGCTGTTTACAGGAAGAAGGGCAGGGGCGCCGGCTCTGCCGCTGTTCGTGGCGCAGCACGTGCCGGCCGCCCGCAAGATCATGCCCCGCCTGATCGCCTTTGGTCCCAGGCCCGAGCATGCGCCGGGGTTCGCCCGCCGGCAGGACCCACGGGCGGTGGCATAG	MMLGLLLARAGVKVTVLEKHRDFLRDFRGDTVHAATIRLIDELGLGSAFRALPQSRLRNVAFPVPGAGLVTLGDFASLRPPYNYIAMMPQWDFLNFLAEAAAEEPTFTLRMEHKATSLVYDGGRVAGVRYGTTAGAEGEIRADLVVAADGRHSALRQAAGLVPTEFPVPFDTWWFKLPRYPSEKGEVAGIVPAFREGEAMIALFRTDYYQMGYLGPKGADARLRREGVERFRERVAGLRPDLADRVDAIRSMDDLHWLDVRLNRLRRWYVDGMLCIGDAAHAMSPAGGVGINLAIQDAVAAAAQLAPALLRGQVTLKELAAVQRRRWMPTVVVQTAQRAMHRAVFVPLFTGRRAGAPALPLFVAQHVPAARKIMPRLIAFGPRPEHAPGFARRQDPRAVA				NA	NA	NA	NA	NA
D1-17_03404	873	nadE_2	COG0171	NH(3)-dependent NAD(+) synthetase	ATGCGCGAACTCCAGGCCAGGATCATCGAAGAAATGGGCGTCCAGCCCCGGATCGACCCCGCAGAGGAGGTGCGCAAACGAGTCACTTTCCTTAAGGAATACCTGAAAGCCACCGGCACCAAGGGCTTCGTCCTGGGCATTTCGGGGGGCCTCGACTCTTCCCTGGCCGGAAAGCTCGCCCAACTGGCGGTCGAGGAGCTTGCCTCCGAGGGTGTTGACGCAAACTTTGTTGCTGTCCGCCTTCCCTACGGCGTGCAGCACGATGAGGACGACGCTCGGGCGGCCCTGGACTTCATCCAGGCGAAGACAGAGTGGACCTTTAACATCTCCGCCGCAGTGGACGGCTTCGAGGAGGAATTCGAGAAGACCGTAGGCAACGGAATCTCGGACTTCCACAAGGGCAACACCAAGGCCCGCACCCGCATGATCGCCCAGTACGCTTTGGCCGGCGAGCACAACTACCTCGTGATCGGCACCGACCACGGCGCAGAGTCCGTGACCGGATTTTTCACGAAATACGGCGACGGCGGTGCCGACATTCTGCCGCTGTTTGGCCTGAACAAGCGGCAGAACCGCGCTCTCCTGGAGCACCTCCGCGCTCCGGAACGGGTCTGGAAGAAGGTGCCCACCGCGGATCTGCTGGACGACAAGCCCGGCCGGACGGATGAGGACGAGCTGGGCCTGACGTACGACCAGATCGACGATTACCTCGAGGGCCGCGACGTGGAGGAGAACGTCGCGGAGCTGATCGAGGAAAAGTACCTCCGCACGCGGCACAAGCGCACCGTTCCTGTCTCTATCTTCGACACCTGGTGGAAGCATAAGGACCGGAAGAACCGCGGGTGGGGATCTGACCTGAGCCGGCTGGGCTGA	MRELQARIIEEMGVQPRIDPAEEVRKRVTFLKEYLKATGTKGFVLGISGGLDSSLAGKLAQLAVEELASEGVDANFVAVRLPYGVQHDEDDARAALDFIQAKTEWTFNISAAVDGFEEEFEKTVGNGISDFHKGNTKARTRMIAQYALAGEHNYLVIGTDHGAESVTGFFTKYGDGGADILPLFGLNKRQNRALLEHLRAPERVWKKVPTADLLDDKPGRTDEDELGLTYDQIDDYLEGRDVEENVAELIEEKYLRTRHKRTVPVSIFDTWWKHKDRKNRGWGSDLSRLG	PGPT0013445_2121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
D1-17_03405	903	qorA	COG0604	Quinone oxidoreductase 1	GTGAGCACCAGGATCTACTTCGAGGAATATGGCAGCCCGCAGGTGCTGAAGGTAGGGGCCGAAGAGCTGCAGGATCCGGGCGACGGGCAAGTCCGGGTGGAATTCCGAGCCGTGAGTGTCAATCCCGCGGACTGGAAGCTCGTGGCCGGATACCTGAAACAGTGGTTTCCGCTTGCGTTCCCGGCGGTGCCAGGATGCGAGGCGGCGGGCGTGGTGACGGCCGTGGGTCCCGCCTTCGAGGGCTTTACCCCAGGCGATGAAGTCATCTGGAACGGGATCATGGGCGGCTACCGCACCGAAGCGCTGGTGCCGGCGGATGAACTGACACCCCTGCCCATCGGTGTCGACTTCGAGCAGGCAGCCTGCATTCCTGTCGCCGGGGGCGCGGCCTACTCGGCACTTAAACAGCTTGACGTCGGCGAGGGAGACACGCTCCTGATCCATGGGGCAGCAGGCGGGGTGGGCTCAGCCGCTATCCAAATGGCCCAGTTCTTCGGAGCTACAGTCATAGGCACTGCGTCTGAGGGCAATCATGAGTTCCTGGAGCAACTGGGAGCGCTTCCGGTGGCGTACGGCAGCGGCCTGGCCGAACGCGTCCAGGGGCAGGGGGAGGTGACCGCCGTCCTTGACACAGTGGGAACTGAGGAAACGGTGGCGGCTACGCTGGCCATGCTTCAGGACCGGAGCAGGGCAGTGACCACGGTTCCCGGCCAACTGTCAACGGACGCAGGAATCGCACCGCTCCGGCTGCAGGGAGGACGCGTCCAGGATGCAGCCACGCTGGCCGCGGACGGCCAGGTCACGTTCCCGGTCTCCCAGCGAATGCCGCTGATTGAAGCGGTGGACGCACTGGAGATCAGCCGCTCGGGACACGCCCGCGGCAAGATCGTGCTGCTGCCGTAA	MSTRIYFEEYGSPQVLKVGAEELQDPGDGQVRVEFRAVSVNPADWKLVAGYLKQWFPLAFPAVPGCEAAGVVTAVGPAFEGFTPGDEVIWNGIMGGYRTEALVPADELTPLPIGVDFEQAACIPVAGGAAYSALKQLDVGEGDTLLIHGAAGGVGSAAIQMAQFFGATVIGTASEGNHEFLEQLGALPVAYGSGLAERVQGQGEVTAVLDTVGTEETVAATLAMLQDRSRAVTTVPGQLSTDAGIAPLRLQGGRVQDAATLAADGQVTFPVSQRMPLIEAVDALEISRSGHARGKIVLLP	PGPT0013255_9527	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-17_03406	774	kipR	COG1414	HTH-type transcriptional regulator KipR	ATGAACCAGATGCCCATCCAGGGAGCGCAGGTGGTGAGCCGTATAGCCGCGCTCCTGCGCATTGTCGGACGCAAGCCTGAGGGGAACCCGCTCGTGGAGCTGGTGCGGGAGTCCGGGCTGACCCGCCCCACCGTTCACCGGCTGCTGACCTCCTTGGCCGCGGAGGGGCTCCTGGATCATGATGCCCGCACCGGAAACTGGGTGTTGGGACCGGAAATCCTGCTGCTGGGATCCGTGGCATCAGCCCGTTTCCCGCTGGAAGACGTCGCGAGGCCCAGCCTTCGACGGCTTGCCGAGGAAACCGGCGAAAGCTCCTTCTTTTCAATACGCCGGGGCCACGAGACTGTGTGCCTGCTGCGCGAGGAAGGCAGCTTCCCCGTGCGCTCGTTCGTGCTGCACGAGGGCGTCCGGTTTCCGCTGGGGGTCGCTTCCGCCGGAACCGCCATCATGGCCTTCCTGCCTGAGGACGAACAGGAGCAGATCCTCGCGACGTGGGAGGACCATGCCGGCCGCTTCGCGGACGCTCACACTGAAACCGTGGTCAGGGCCAACCTGAAACGCACCCGGGAGACCGGCTACTCAGTCAACCCAGGTCTAGTGCTTGAAGGCAGCTGGGGCATGGGTGCAGCGGTCTTTGACAAGGCGGGCCGGCCCGCGTGGGCTCTGTCCCTGACAGGTATCGAGCCGCGCTTCCGCCCCGAACGGCAGGAGTTGCTGGGCAGGCTGCTGATGGAGGAGGCCCACCGGATCAGCCTCCAGCTGGGTGCGCCGTAG	MNQMPIQGAQVVSRIAALLRIVGRKPEGNPLVELVRESGLTRPTVHRLLTSLAAEGLLDHDARTGNWVLGPEILLLGSVASARFPLEDVARPSLRRLAEETGESSFFSIRRGHETVCLLREEGSFPVRSFVLHEGVRFPLGVASAGTAIMAFLPEDEQEQILATWEDHAGRFADAHTETVVRANLKRTRETGYSVNPGLVLEGSWGMGAAVFDKAGRPAWALSLTGIEPRFRPERQELLGRLLMEEAHRISLQLGAP				NA	NA	NA	NA	NA
D1-17_03407	720	scoA_3	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGTCCAAACTGGAATCCGGCGCCGCTGAGGCCCTGCACGGTGTGCTGCAGGACGGCGTGACGCTCGCTGTCGGCGGTTTCGGCCTGAGCGGCATTCCGGCCGACCTGATTGAAGCAGTGCGCGACTCCGGCGTGCGGGACCTGACGGTGGTCTCGAACAACATGGGCGTGGACGGCAAGGGCCTGGGCATCCTCATCGAAGCCGGCCAGGTCCGCAAGGTCATCGCCTCCTATGTGGGTGAAAACAAGCTGTTCGCTGAGCAGTACCTCGCCGGGCAGCTCGAGGTGGAGTTCACGCCGCAGGGCACCCTCGCTGAACGCCTCCGGGCCGGCGGCGCAGGAATCCCGGCGTTTTATACAAAGACAGGAGTGGGCACTCTGGTTGCCGAGGGCAAGCCGCTGGCAGAGTTCGACGGCGAAACATACATTCAGGAGCGCGCCATCCGTGCGGACGTCGCACTGGTCCACGCGCACACCGCCGATACTGACGGCAACCTGATCTACCGCTACACCGCGCGGAACTTCAACCCCGTGGTGGCCTCGGCAGGAGCAGTGACTGTTGCGGAGGCCGAGCTGATCGTAAAACCGGGTGAGCTGGACCCGAACCACATCGTGACGCCCGGCGTGTACGTTCAGCACCTGGTCCGCGCCAGCAACCGCATCAAGGACATCGAGCAGCGCACGGTCCGTCCGCGCACTGCAACTGCAGTACCCGCCTGA	MSKLESGAAEALHGVLQDGVTLAVGGFGLSGIPADLIEAVRDSGVRDLTVVSNNMGVDGKGLGILIEAGQVRKVIASYVGENKLFAEQYLAGQLEVEFTPQGTLAERLRAGGAGIPAFYTKTGVGTLVAEGKPLAEFDGETYIQERAIRADVALVHAHTADTDGNLIYRYTARNFNPVVASAGAVTVAEAELIVKPGELDPNHIVTPGVYVQHLVRASNRIKDIEQRTVRPRTATAVPA	PGPT0008325_421	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
D1-17_03408	681	scoB_3	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGCCTGGACCAGGGATGAAATGGCTGCCATCGCGGCGGAAGAACTGAACGACGGCGACTACGTCAACCTCGGCATCGGCATCCCGACGCTCGTCGCTAACAATTTGCCCGACGGCGTCCGCGTGGTGCTGCAAAGCGAGAATGGCCTGCTTGGCATGGGCCCCTTCCCGTTCGAGGGCGAGGAAGACGCCGACCTCATCAACGCCGGCAAGCAGACCGTCACGGTCCTGCCCGGCGGCAGCATTTTCGACTCCGCCACCTCCTTCGGCATGATTCGCGGCGGGCACGTAAAGGTGGCCATCCTGGGCGCCATGCAGGTGTCCGGCGACGGCGACCTCGCCAACTGGACCATCCCGGGAAAGATGGTCAAGGGCATGGGCGGCGCAATGGACCTCGTCGCCGGGACCCCGCGCGTGGTGGTGCTCACCGAGCACAATGCCAAGGACGGCAGCCCCAAGATAGTCGCCCAATGCAGGCTCCCGCTCACCGGCGTCGCCGTGGTGGACCGGATCATCAGTGACCTGGCGGTCTTTGATCTTGTGCGGAACGAACAGGAAGCAGGCGGCGGCCGGCGGCTCACGCTCACCCGCCTCGCACCCGGCGTCAGCCTTGTGGACATTCACAAAAAGACGGAAGCGGCATTCGACATCGCCCTCGAATTTGAAGGAGCCACCGCATGA	MAWTRDEMAAIAAEELNDGDYVNLGIGIPTLVANNLPDGVRVVLQSENGLLGMGPFPFEGEEDADLINAGKQTVTVLPGGSIFDSATSFGMIRGGHVKVAILGAMQVSGDGDLANWTIPGKMVKGMGGAMDLVAGTPRVVVLTEHNAKDGSPKIVAQCRLPLTGVAVVDRIISDLAVFDLVRNEQEAGGGRRLTLTRLAPGVSLVDIHKKTEAAFDIALEFEGATA	PGPT0008330_52	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
D1-17_03409	1191	fadA_2		3-ketoacyl-CoA thiolase	ATGAGTTTGAAGGAACAGTTCGGCAAGGATGTCCTGCTCACAGGATGGGGCCACAGCCGCTTCGGCAAACTCACCGACGAGACGCTTGAGTCCCTGATCGTCCAGGTTGCCACGGAAGCGATCAGCAATGCAGGTATCGAAGCCGGCCAGATCGATGAAATCTACCTTGGCCAGTTCAACTCCGGCATGATGCCGCTGGCCTTCCCGTCCTCCCTGGCCCTGCAGGTCTCGGACCAGCTCGCCAATGTTCCCGCTACGCGCGTCGAAAACGCCTGCGCCTCCGGCTCGGCCGCATTCCAGCAGGGCACCAAATCACTGCTGGCGGGAACCGCGAAGACCGTCCTTGTCATCGGTGCCGAAAAGATGACGCATGCAGGGGCCGACGTGGTGGGGTCTGCTCTTCTCGGAGCTGACTATGACATGGCCGGTCAGGCATCCACGACCGGCTTCACCGGGCTCTTCGCAGACGTCGCCAAACACTACGAGAAGCGCTACGGCCGGGTTTCCGACGTCCTAGGCACCATCGCCGCGAAAAACCACCGCAACGGTGTAGACAACCCCTACGCCCAGCTGCGCAAGGACCTCGGCGAAGAGTTCTGCCGCACCGTCTCAGACAAAAACCCCATGGTGGCCGATCCCCTGCGGCGTACCGACTGCTCCCCCGTGTCCGATGGCGCTGCCGCCGTCGTTCTCTCCACCTCGCCCGGCGCCGGCCCCGGCGCCACCTTCCCCGTCCGGCTCACCGGCTTCGGGCAGGCGAATGACTTCTTTCCAGCGGCACGCCGCGACCCCACGGCCTTCGCTGCCACGCGCGTCTCCTGGCAGCGGGCGCTGGGGATGGCGGGCGTCGGACTGGAAGACCTGGACTTCGCCGAGGTTCACGACTGCTTCACCATCGCCGAGCTCCTGATGTACGAGGCCATGGGCCTGGTCGGTCCCGGCCAGGGCGCACGGGCAGTGGAGGAAGGCTGGGTGTTCAAGGACGGCAAACTGCCCGTCAACGTCTCGGGCGGGCTCAAGGCGAAGGGCCATCCCGTGGGCGCCACGGGTGTGTCCCAGCACGTTATCGCCGCCATGCAGCTCACCGGGACCGCCGGCGGCATGCAGCTTGCCAGCCCCCGCCGCGCGGCGGTGCAGAACATGGGCGGAGTGGGGATCGCCAACTACGTCAGCATCCTTGAGGCCGTCTAA	MSLKEQFGKDVLLTGWGHSRFGKLTDETLESLIVQVATEAISNAGIEAGQIDEIYLGQFNSGMMPLAFPSSLALQVSDQLANVPATRVENACASGSAAFQQGTKSLLAGTAKTVLVIGAEKMTHAGADVVGSALLGADYDMAGQASTTGFTGLFADVAKHYEKRYGRVSDVLGTIAAKNHRNGVDNPYAQLRKDLGEEFCRTVSDKNPMVADPLRRTDCSPVSDGAAAVVLSTSPGAGPGATFPVRLTGFGQANDFFPAARRDPTAFAATRVSWQRALGMAGVGLEDLDFAEVHDCFTIAELLMYEAMGLVGPGQGARAVEEGWVFKDGKLPVNVSGGLKAKGHPVGATGVSQHVIAAMQLTGTAGGMQLASPRRAAVQNMGGVGIANYVSILEAV	PGPT0008320_8068	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-17_03410	807			hypothetical protein	ATGGCGCGGATGCAGCGTGGCAGGCAGGCAACACTCCCGATGGCGGCCTTGGGCCTGGCCGTGGCGGTGCTGGCGGGCTGCAGTTCCGGGGATGCAGGGGGCGGGGCAAGCGAAAGCACTGCAGACAGCAGTGCCTCGGGCAGCGCCGCTGCCGGATCCGCTGCGGACAACCCTGCCTCGGGCAGTGCCGCTGCCGGGGAGTCGCCGGCCGCCGTTTCCGCCCCGCCACAGCCAAAGCCGGACGCGACCAAGACAAAGCCGCCGGCAGGGCAGCCTGCCGTTTCTTCCCGCCCCCCGTTGTCGCCAGAAGCCCAGGCAGAGCTGGACCAGCGGCTAATCCGTGCGGCGAAGGCCAACGACGTGCCGCTGGTCAAGGAGCTGATCCGGGCCGGCGGGAACGTCAATGCCAAGGACGCCGTCCAGGACTCGGCCTTCCTGTATGCCGGTGCCGAAGGTTTTAACGAGGTCCTCCGGCTGACCCTGGCCAACGGTGCGGACGTGACGAGCACCAATCGCTTTGGCGGGACGGCCCTCATTCCGGCCAGCGAACATGGCCATGTGGAGACCGTCCGGATCCTGATTGCCGCCGGCGTCCCGGTCAACCACGTTAACAACCTAGGCTGGACGGCAATGCAGGAGGCCATCCTCCTGATTGACGGCGGCCCAAGGCAGCAGGAGGTTGTCCGGCTGCTGCTTGCTGCCGGTGCGGACCCCGACATCCGCGATCCCCAGGGACGGACGGCCTTGGAGAACGCCGAACGCCTGGGCTTCGTGGCGATTGCAGCGCTTATCCGCGGCCGCGGCTAG	MARMQRGRQATLPMAALGLAVAVLAGCSSGDAGGGASESTADSSASGSAAAGSAADNPASGSAAAGESPAAVSAPPQPKPDATKTKPPAGQPAVSSRPPLSPEAQAELDQRLIRAAKANDVPLVKELIRAGGNVNAKDAVQDSAFLYAGAEGFNEVLRLTLANGADVTSTNRFGGTALIPASEHGHVETVRILIAAGVPVNHVNNLGWTAMQEAILLIDGGPRQQEVVRLLLAAGADPDIRDPQGRTALENAERLGFVAIAALIRGRG				NA	NA	NA	NA	NA
D1-17_03411	603			hypothetical protein	GTGAAGAAGTCCAACAAGGTTTTTGCCGTCGCCGCCGCAGGGGCACTCGTCCTGACCGCCGGAGCCTCGGTCGCCGCAAACGCCGGAAATGCCTCCTCGGCGCAGGCGGCAGCACCGGCAGCAGTGCCGGTTGCAGCGCCGGCCGTTGTGCCGGCCGCAGACGTCCAGCCCGGCCAGAACAACGTCGTGTCGCAAAATCGCATCACTGTAGGGGCATCGGCCAAGGCTGTGGGGGCGGCGCTGGCCAAGTGCCAGGCGGACAAGCTGCCCTTCGTTACCGTGGCGCTTGTCGACCGTTTTGGCACCGTTCAGGCGCTCCTCAGGGGAGACAACGCAGCCGAGCACACCATCGAATCAGCCAAGCAGAAGGCCTACACCGCAGCCGCCTTCGGTGCCCCCACCAGCGAGCTGGCCAAGCGGATCACAGGCACCGGATCGAGCATCGCCGACCTGCCCGGCACCCTGTTCCTGCCCGGCGGCGTTCCGCTGAAGGTCAATGGTGTGTCTGTGGCGGGGATCGGCGTCGGCGGCGCTCCTGACGGCAAGCTCGACGAGGCCTGCGCCAATGCCGGGGCTACTGTTCTCGCCGGCGCTGCTGGGTAG	MKKSNKVFAVAAAGALVLTAGASVAANAGNASSAQAAAPAAVPVAAPAVVPAADVQPGQNNVVSQNRITVGASAKAVGAALAKCQADKLPFVTVALVDRFGTVQALLRGDNAAEHTIESAKQKAYTAAAFGAPTSELAKRITGTGSSIADLPGTLFLPGGVPLKVNGVSVAGIGVGGAPDGKLDEACANAGATVLAGAAG				NA	NA	NA	NA	NA
D1-17_03412	1245			hypothetical protein	ATGCCTGCCCCAGCCTCCGCACCTGTCCCGGCACCTGACGCTGAAAAATCGGCACCCGCAGCCGCCGAAGCACCTGCAAGCCTTGGCCGCATTGATGCCGCCGTCCACCTTGGCTTTGCTGTCCTGATGGTGGCATCCGTGGTCCGCTACGTGATGCGCCACAGCCCCGCAGACAACCTTGTAGTCCTGGGCCTGGCCGCGGCCTCGTGTTTTCTCTACGCGGTCATAGCGGTACTAGCCCAGCGGCGGCGGCCGTGGGCGGTCTGGATGTTCGCCCTCGTGGCGCTCTGGGCCGTGCTGGTCATCGCAGCTCCCAGCTTCGCCTGGTGCTCCTTTGCACCCTTCTTCCTTTGCCGCACTGCGTTTACGGGAACCGTGGCATACGTGGCCGCGGGAGCGACGGCGGCCGCAACCGCCGTCGGGCTGTTCCGCCTCAGCAACGGCTCTGACCTCGCCATGTTGCTCGGGCCGCTCGCCGTAGGTGCCATGCTGACGCTGATCTATGACCGCATAGAGCACGACGCCGCCGAGCAGCGCCGCCTGCACGCGGAAGTCTCGCGCACCCAAGGAGAATTGGCCGCCAGTGAGCGGCGGGCGGGGACCATCGCTGAACGCGAGCGGGTATCCCGGGAGATCCACGACACCGTTACGCAGGGGCTCGCCAGCAGTCTGCTTCTGCTGGAGGCGGCGCACCGTGCCTGGCCCGCGGAAGCATCCCGGCACGACCTCCGGGACGCGACTGAACTGCTCCGCCGGAACCTCGCCGAAACCCGCAGCCTGGTTCATGAATTGGCCTCCCCCGGCCTCGAGGCCTCCCCCCTGCCCGACGCGTTGCTGCAGGCCGCGATGCAGTACGTGCCGGAAGCCCGGTTGCTGGTGACGGGAGAGCCCCGGACCGTCCCCGCCGAAGTCCGGCATGCCCTCCTGCGGGTCGTCCAGAGCGCTGTGGCCAACATCAAGCTCCACGCTTCGGCCACCAGCACCACGCTCACGCTCGGTTTCCTGCCGTCGTCCGTCACCCTGGACATTTACGACGACGGAGCCGGCTTTGATCCCGCGGCGGCAGCACCGCCGTCGGACGCCGGAGGCTACGGGCTCCGGGCCATGCGGCAGCGCGTGGAGCAGCTGGGAGGCGTATTCTCGGTGGAAAGCACCCCAGGGGAAGGCACAATTGTGGCGGCGCAGTTGCCTGTGCATCCGACGGTCCACCAGGTCATTCACAGCGCGGGTCAGGAGGACACATGA	MPAPASAPVPAPDAEKSAPAAAEAPASLGRIDAAVHLGFAVLMVASVVRYVMRHSPADNLVVLGLAAASCFLYAVIAVLAQRRRPWAVWMFALVALWAVLVIAAPSFAWCSFAPFFLCRTAFTGTVAYVAAGATAAATAVGLFRLSNGSDLAMLLGPLAVGAMLTLIYDRIEHDAAEQRRLHAEVSRTQGELAASERRAGTIAERERVSREIHDTVTQGLASSLLLLEAAHRAWPAEASRHDLRDATELLRRNLAETRSLVHELASPGLEASPLPDALLQAAMQYVPEARLLVTGEPRTVPAEVRHALLRVVQSAVANIKLHASATSTTLTLGFLPSSVTLDIYDDGAGFDPAAAAPPSDAGGYGLRAMRQRVEQLGGVFSVESTPGEGTIVAAQLPVHPTVHQVIHSAGQEDT				NA	NA	NA	NA	NA
D1-17_03413	627	liaR	COG2197	Transcriptional regulatory protein LiaR	ATGAACGCCATTACCGTGCTCCTTGTGGATGACCACCTCGTGGTCCGCAGCGGGCTCAAGTCTCTGCTGGGAACCCAGCCCGACATCACTGTCATTGCCGAGGCCGCCTCGGGTGAAGAAGCCTTGGACAAGGTGGACCAGCACCACCCGGCCGTAGTGGTGATGGACCTTGCCATGGGCGCCGGAATGGACGGCATCGAGGCGATCCGGAAGATCCGCAAGCGCAACAGCAAGCAGGCAGTGCTCGTCTTCACCACTTATGATTCGGACGCCGACATCGTGCGGGCCGTCGATGCCGGGGCCATGGGCTACCTCCTGAAAGACGCCGCACCGGAGGAGATCTTCGCCGCCGTCCGGGGGGCGGTCCAGGGAAAGAGTGTGATGAGCGCCCCGGTGGCCTCGCGGTTGTTCCAGCAGCTGCGGAACCCGGACGAAGTCCTCACGCCGCGCGAGGCGGAACTGCTCAGCCTCCTTATCGAGGGCCTCAGCAACCGCGAGCTCGGGCAGCGCCTTTTCATCTCGGAGGCCACGGTCAAGACACACCTGGCTCACATTTACGCGAAGCTCGGCGTGGAAACCAGGGCCGCCGCCATCGCCACTGCCATCAGGCGCGAAGGAATGCGCTGA	MNAITVLLVDDHLVVRSGLKSLLGTQPDITVIAEAASGEEALDKVDQHHPAVVVMDLAMGAGMDGIEAIRKIRKRNSKQAVLVFTTYDSDADIVRAVDAGAMGYLLKDAAPEEIFAAVRGAVQGKSVMSAPVASRLFQQLRNPDEVLTPREAELLSLLIEGLSNRELGQRLFISEATVKTHLAHIYAKLGVETRAAAIATAIRREGMR	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
D1-17_03414	1056		COG1063	putative zinc-binding alcohol dehydrogenase	ATGCGCGCAACGATCATCCACGGCCCCGGAGACATCAGGGTGGAAGACCGGGACTACCCTGCGGTCCAGCTGCCCACCGACGCAGTGGTTAGGGTAGCGGCGGCCTGCGTGTGCGGCTCCGACCTCTGGCCGTACCGGGGCGTGAAGCCCATCCACCGGCCCACAGCCATCGGCCATGAGTTTATCGGAGTGGTGGAGAGCGTCGGCAACGACGTGCAGGGCATCAGGGAAGGCGACTTCGTGGTCGCGCCCTTCGTGGTCAGCTGCGGCGAGTGCCCGCAGTGCCGCAACGGCGTCACCGTGGCCTGCGACAGGCTCGCTGGCTGGGGCGGACACGACGACTCGGGGCATGGGATCGACGGCGGGCAGGGCGAGGCGGTGCGTGTCCCGATGGCCGGGTCCACGCTCGTTCCGGTGCCCGGCGTCAGGGACCCGGATGACGCACTCCGCAAAAACCTGCTCACGCTGTCCGATGTGATGGCCACCGGCCACCACGCCGCGCTCAGCGCCCAGGTCTCCGCGGGCAGGACTGTGGTGGTTGTCGGCGACGGCGCAGTGGGTCTCTGCGGGGTGTTGGCAGCGAAGCGGCTCGGGGCAGAGCGCGTTATCGCGATGTCCCGCCACGCCGACCGGCAGGCTCTTGCGAAGGAATTTGGCGCCACGGACATAGTTGCGGAACGCGGGGATGCGGGTGTGGCGAAGGTCCGTGAGCTGCTGGGCGGCGTGCTGGCCGATTCAGTGCTGGAGTGCGTGGGGACCAAGGAGTCCATGGAGCAGGCGCTGCACTCGGTCCGCCCAGGAGGGGTGCTCGGCTACGTCGGCGTTCCGACCGGGGGCGCGGAGATCCCGCTGCGCTACCTGTTCGACAAAAACATCACCGTCTCCGGCGGCATGGCTCCGGCACGCACCTATATACCGGAACTGCTGGCCGACGTGCTCGCGGGCAAGATCAACCCCGGCCGGGTATTCGACGTGGAAATGTCTTTGGAAGAGGCGCCTGAGGCGTACAAAGCGATGGACCAGCGCCGGGCCATCAAGGTGCTGCTGGCGCCCTGA	MRATIIHGPGDIRVEDRDYPAVQLPTDAVVRVAAACVCGSDLWPYRGVKPIHRPTAIGHEFIGVVESVGNDVQGIREGDFVVAPFVVSCGECPQCRNGVTVACDRLAGWGGHDDSGHGIDGGQGEAVRVPMAGSTLVPVPGVRDPDDALRKNLLTLSDVMATGHHAALSAQVSAGRTVVVVGDGAVGLCGVLAAKRLGAERVIAMSRHADRQALAKEFGATDIVAERGDAGVAKVRELLGGVLADSVLECVGTKESMEQALHSVRPGGVLGYVGVPTGGAEIPLRYLFDKNITVSGGMAPARTYIPELLADVLAGKINPGRVFDVEMSLEEAPEAYKAMDQRRAIKVLLAP	PGPT0006375_898	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
D1-17_03415	204	cspA_3	COG1278	putative cold shock protein A	ATGGCAACAGGCACAGTTAAATGGTTCAACGCCGAAAAGGGCTTCGGATTCATCGCTCCGGATGACGGATCTGCAGATGTTTTCGCACACTACTCGGCAATTGCCAGCAGCGGCTACCGCTCCCTGGATGAAAACCAGAAGGTCGAATTCGAGGTGACCCAGGGCCCCAAGGGTCCGCAGGCAGAGAACATTCGCCCACTCTAA	MATGTVKWFNAEKGFGFIAPDDGSADVFAHYSAIASSGYRSLDENQKVEFEVTQGPKGPQAENIRPL	PGPT0014675_6883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-17_03416	1251	mmgC_3	COG1960	Acyl-CoA dehydrogenase	GTGGAGGCCCAAGCCGGGACGGCTCCCGGGTGTGAAGGGGAGGATGGGCCGGCTGTTCCCGGTCCTGAAGCAGGGGAACTCGGCTGGCCGCTCCCGCCTTTCCCCGACGCCGACCTTCTGTACATTGCCGATCTGCTGGCTGCGGACGAACGGAAGCGGTACATGGAGATCCGGGAGTTTCTCCAGTCCAGGGTCAGGGCGCAGTCCATTGACTACTGGAACAGGGAGGAGTTTCCCTTCGGGCTGCTGGCCGAGATGGGGAAACGGGGGCTCGGAGGGCTGCAGACTGACGGTACGTCCCGGCTGTTCAAAGGCCTCATGTACGTCGAAGTGGCCAGGGCCGACGTGTCTCTTTCCGCCCTCGTGGGCATCCATAATGAGCTTATTGTCGGCATGGTCCATGCGCTGGGTTCCGAGGAACAGAAGCGGCGCTGGCTGCCGGGCCTGACGGCGTTCACCCAATTGGGCGCCTTCGCCCTGACGGAGCCGGACCACGGCTCGGATATCGCGGGGGGCCTGGCAACCACGGCCCGCCTCGAGGATGGGGAGTGGGTGATTAGCGGCTGCAAGCGGTGGATCGGCGCAGGCACGATCGCGGATTTCGCCCTTGTATGGGCACGTGATGAGGCCGATCAGCAGATTAAGGGCTTCATTGTTGAAACCGATCGCCCCGGGTACACCGCCACCAAGATCTCCAACAAGATCGGCCTGCGCATCATGCAGAACGCAGACATCGTGCTGGATGATGTCCGTATCCCGGAAGCCAACCTGCTTCCCGGAGCGACGGACTTTTCCACAGCCAACGAGCTGCTGCGGGACTCGCGTGCCTGGGTGGGGTGGCAGGGGGCAGGGATCCAGCTGGCGGCCTTTGACGTCGCGCGCTCCTATTCCCTGCAGCGCCGGCAGTTCGGCAGGGAGCTGGCCCGTTTCCAGCTGATTCAGCAGCAACTGGCCGAAATTCTGGGCAACGCATCGGCGTCACTGGCGTTGATGGCGCAGGTCGCCCGGATTCAGGAGGAGGGCAGGCTGGAGATGGCACAGGCTGCGATGGCCAAGTCCACCACCACCCGGCTCGCCCGCTCGTCTGTGGCGATGGGGCGCTCGCTGCTCGGCGGCAACGGCATCAGCAGCGATTTCGAGATGGGCAAGCTGTTCGGGGATGCCGAAATCCTCTACACGTACGAGGGCAGCTACGAGATCAACTCGCTGATCGTGGCCCGGGCCGTCACCGGGAAGTCAGCCTTCGTCTAG	MEAQAGTAPGCEGEDGPAVPGPEAGELGWPLPPFPDADLLYIADLLAADERKRYMEIREFLQSRVRAQSIDYWNREEFPFGLLAEMGKRGLGGLQTDGTSRLFKGLMYVEVARADVSLSALVGIHNELIVGMVHALGSEEQKRRWLPGLTAFTQLGAFALTEPDHGSDIAGGLATTARLEDGEWVISGCKRWIGAGTIADFALVWARDEADQQIKGFIVETDRPGYTATKISNKIGLRIMQNADIVLDDVRIPEANLLPGATDFSTANELLRDSRAWVGWQGAGIQLAAFDVARSYSLQRRQFGRELARFQLIQQQLAEILGNASASLALMAQVARIQEEGRLEMAQAAMAKSTTTRLARSSVAMGRSLLGGNGISSDFEMGKLFGDAEILYTYEGSYEINSLIVARAVTGKSAFV	PGPT0021815_1420	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021815-GCDH|gcdH-K00252	NA	NA
D1-17_03417	1746	acsA_6	COG0365	Acetyl-coenzyme A synthetase	ATGACAGTCACTGACGACTTCCGCACAGCCCGCGACCAGCTGCTGGCCCTGCGCAATGACTACGGGCAGGCCAGGGACAGCTTCCAGTGGCCGCGTTTCAAGGAGTTTAACTTCGCCCTGGACTGGTTCGACTCGCTGGCAGCGGATCCGGCAACAGGTGCCAAGCCCGCACTGGTGATTGTGGAACAGGACGGCTCAGCCACCCGCCGCAGCTTCGCCGACCTGTCGGCAAGCTCCAACAGGGCCGCTAACTGGTTGCGGAGCCAGGGCGTGCGGCGAGGCGACCGGATGATCATCATGCTCGGCAACCAGGTGGAGCTCTGGGAGCTCATGCTGGCCGGCATCAAGCTCGGCATCGTGCTCATCCCCACCACCACGCTGATGGGTCCGGCGGACCTCAAGGACCGTGTCGAGCGCGGCGAGGCGGCCTGGGCCGCCGTCGGAAGTTCCAACATCGACAAATTCACCGACGTTCCGGGCGCCTACCGGCTTATAGAAGTCGGCGCTGCGGGGACCGGCCGGCCTGGCACCCTGCAGTATTCGGACTCCGGGGCGGCATCGGAGGATTTCACTCCGGATGCGCCCACCAGGGCCGACGAGACCCTGCTGCTGTACTTCACCTCCGGCACCACATCCAAGGCCAAGCTCGTGGAGCACACGCACACGTCCTACCCCGTGGGCCACCTCTCCACGATGTACTGGATCGGCCTCGAGCCCGGCGACGTTCACCTGAACGTGGCCTCCCCCGGATGGGCCAAGCACGCATGGTCCAACGTGTTCACCCCGTGGATCGCCGAGGCCTGCGTCTTCATCTACAACTACGAACGGTTTGACGCCCGCGCCCTGATGGAACAGATGGAGCGTGAGAAGGTGACGAGTTTCTGCGCACCGCCCACAGTATGGCGCATGCTCATCCAGGCAGACCTGACCCTCCTGAAAAATCCACCCGTCAAGGTGGTTTCGGCCGGCGAGCCGCTCAACGCCGAGGTAATCGGGCAGGTCTACCGGGCCTGGGGACAGACCATCCGCGACGGCTTCGGCCAGACCGAGACCACCGTGCAGGTGGCCAACACCCCGGGCCAGCCCGTCAAGGTCGGCGCCATGGGTCAGCCCCTGCCCGGGTACGACGTGGTGCTTGTGGACCCTGCGACGGGAAAAGAAGGGGACGACGGCGAGCTGTGCCTGCGCCTGGACCCCCGTCCCGTCGGGCTGATGAAGGCGTACTACGGTGACCCGGAAAAGACGGCCGATGCCTTCCGCGACGGTTATTACCACACCGGGGACATGGCCAGCAGGGATGAGAACGGGGTCATCACCTATGTTGGCCGCGGCGACGATGTGTTCAAGTCCTCCGACTACCGCCTGTCCCCGTTCGAGCTGGAAAGCGTGCTGATCGAGCATCCAGCGGTGGCGGAGGCCGCCGTCGTGCCGTCCCCCGATCCGGTCAAACTGTCCGTGCCCAAGGCGTTCGTGGTCCTTGCCGCAGGGCACCAGCCCGGTCCCGAACTCGCCGAGGAGATCCTGCGCTACTGCCGGGACCACCTGGCGCCCTTCAAGCGCATCCGCCGGATTGAATTTGCTGAACTGCCTAAGACCATCTCCGGCAAGATCCGCCGAGTGGAGTTGCGGCACAGCGAAGAACTACGGCACGGCGGCGGCTTTGAGCCCAGCGGGCCGTCGCTCCCCTACGGCCTGGGCACGGAATATTCGGAAGCGGACTTTCCGGGCCTCAAAAGCAAGGGATGA	MTVTDDFRTARDQLLALRNDYGQARDSFQWPRFKEFNFALDWFDSLAADPATGAKPALVIVEQDGSATRRSFADLSASSNRAANWLRSQGVRRGDRMIIMLGNQVELWELMLAGIKLGIVLIPTTTLMGPADLKDRVERGEAAWAAVGSSNIDKFTDVPGAYRLIEVGAAGTGRPGTLQYSDSGAASEDFTPDAPTRADETLLLYFTSGTTSKAKLVEHTHTSYPVGHLSTMYWIGLEPGDVHLNVASPGWAKHAWSNVFTPWIAEACVFIYNYERFDARALMEQMEREKVTSFCAPPTVWRMLIQADLTLLKNPPVKVVSAGEPLNAEVIGQVYRAWGQTIRDGFGQTETTVQVANTPGQPVKVGAMGQPLPGYDVVLVDPATGKEGDDGELCLRLDPRPVGLMKAYYGDPEKTADAFRDGYYHTGDMASRDENGVITYVGRGDDVFKSSDYRLSPFELESVLIEHPAVAEAAVVPSPDPVKLSVPKAFVVLAAGHQPGPELAEEILRYCRDHLAPFKRIRRIEFAELPKTISGKIRRVELRHSEELRHGGGFEPSGPSLPYGLGTEYSEADFPGLKSKG	PGPT0002265_5586	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-17_03418	507			hypothetical protein	ATGGCAACGCCTCTGCCCCGCGACCCGATCGCCGACGCCCAGCGGAACTGGGAACGTCACGGCTGGGGCAATGTTGCCGCGCCCATGGCCGCGATCACTGCCATTATGCGCACGCAGCAGATCCTGCTGGCGCGCATCGAGGGCGCCCTGAAGCCCTTCGGCCTGACATTCGCCAGGTATGAGCTGCTGGCCCTGCTCAGTTTCGCCCGCAGTGGTGCGCTGCCGATGAACAAGGCAAGTGCCCTGCTCCAAGTCCATCCGACCTCCGTGACCAACGCCGTAGACCGTCTTGAAAAAGCGGGACTCGTGGCCCGGTCCCCACACCCCACCGATGGCCGCACTACGCTGATAGAGCTCACCGCCGAGGGGCGCACCCTGGCCAAACGTGCGACGGCGGTTCTCAATACTGAGGTTTTCAGCAACTCCGGCTTCGCTGACGGGGACGTGGACCAGCTGATCCGTATCCTTGGGGAATTCCGCCGCCAGGCCGGAGACTTCTCGAAGTGA	MATPLPRDPIADAQRNWERHGWGNVAAPMAAITAIMRTQQILLARIEGALKPFGLTFARYELLALLSFARSGALPMNKASALLQVHPTSVTNAVDRLEKAGLVARSPHPTDGRTTLIELTAEGRTLAKRATAVLNTEVFSNSGFADGDVDQLIRILGEFRRQAGDFSK				NA	NA	NA	NA	NA
D1-17_03419	708			hypothetical protein	ATGGACGGACCGGAGGCGGCCGAAGGGGACGCGATCCTGCAACCGAAAAGCCTCAGAACGTACTCCAGCGCCCTTGGCGGCGCAGACTGCCTCGCCGGGACGTTCCATTACGATGTATCAACCCAGGAGCTGCAGTGGTCCGACGAGGTCTATGTCCTCCATGGCTACCAGCGCGGCGAGATCGTACCGAGCATCGAGCTGGTGTACTCCCATAAACACCCGGACGACCGGGACCGCTGCCATGAAGCCTTTGCCGCGGCTTGCGTCTCGGGCGGCTATTTCGCCAGCTACCACCGCCTCATTGATTCCCGGCTGCGCGAACACCGGGTCCTCACCGCAGGAGAAGCGGTGGTTGGCTCGGGTGCGCTGAAAAGGGTGGACGGCTTTATTCTCGATCTCACCGCCACGCTGCATTCAGAAACAGAGCGGGCGGCCCGGGAGGCGGTGGAGGGAGCGCTGGGGACGAGAAGCACTATTGAGCAGGCCAAGGGGATTCTGATGGGTTTCCTGCGGATTGGCTCGGAGGCCGCATTTGATCTTCTCGCGACCCACAGTCAACAGACCAACATCAAGGTAGCCAGTACTGCCGCTGACCTGGTGCAACTTGCCAACAACCCGCACCAAATCGCCCTGCTGGACACCTTTATCGGGGAGCTGCAACGCTGCATGGACCGCCGCGCGCAAAGGGGAGCGGCGCAGGGCGGCTAA	MDGPEAAEGDAILQPKSLRTYSSALGGADCLAGTFHYDVSTQELQWSDEVYVLHGYQRGEIVPSIELVYSHKHPDDRDRCHEAFAAACVSGGYFASYHRLIDSRLREHRVLTAGEAVVGSGALKRVDGFILDLTATLHSETERAAREAVEGALGTRSTIEQAKGILMGFLRIGSEAAFDLLATHSQQTNIKVASTAADLVQLANNPHQIALLDTFIGELQRCMDRRAQRGAAQGG				NA	NA	NA	NA	NA
D1-17_03420	348			hypothetical protein	GTGGCCGGCATGTTCGAAATTTTCCTTGACGCCGATGCGGCGTTCAGATTCCAGCTCACAGCCCCGGATGGCTCGGTGCTGGCTGTTTCGCGGGCCTTTCCCGATAAAGAAGCTGTGATAAAGGGCATCGCCGCAGCCCGCGAGTATGCAGGCACGGGGCATGTAAGGGAGCTGCCGCGACCTGGCCGTGAACGCCCATCGCCCCGCCAGGCCGCTGTGCCGGTAGCGGCCATGCCGGACAAGCGACGCAGCCACACAGGACATTCCGATCTGTGGCCGGTGCGCAGGGCCTCCGGTTCGGCCCGCCCGCGGGTTTCCACCTCCGCCAACCAGTCGCCCGGCGCCTGA	MAGMFEIFLDADAAFRFQLTAPDGSVLAVSRAFPDKEAVIKGIAAAREYAGTGHVRELPRPGRERPSPRQAAVPVAAMPDKRRSHTGHSDLWPVRRASGSARPRVSTSANQSPGA				NA	NA	NA	NA	NA
D1-17_03421	336		COG0640	putative HTH-type transcriptional regulator	ATGATGGATGACATGTCAGGTGACCTGATCCTGAGCGACACGAAGGCAGACCTTTTCAAGTCCATGGGGCACCCGGCGCGGATTCTCATTCTCGAGATGCTGGCTGACGGCCCTGTCGCCGTGAGCCGCCTGCGGGATGCTACCGGCCTCGAAGCCTCCAATCTTTCCCAGCATCTGGGCATTCTGCGGCGCCAGCACCTCATCATCCCCTCACGCAAGGACGGCCGGCTCTTCTATGAGCTCTCCTGCTCCAATGTCAGGGGCGTGCTGGAAGCGGCTGGCGGGCTGCTCGGCTCCGTCCGGCAACCCTCCGCAAATCTCCAGACGGCGGGCTGA	MMDDMSGDLILSDTKADLFKSMGHPARILILEMLADGPVAVSRLRDATGLEASNLSQHLGILRRQHLIIPSRKDGRLFYELSCSNVRGVLEAAGGLLGSVRQPSANLQTAG				NA	NA	NA	NA	NA
D1-17_03422	267			hypothetical protein	ATGGCCGACATTGCCGCTGTTCTGGGGCGTCTCGCTCCGCATGAACTCGAGGAGCTCCGGGCCACAGGGCCGCAGGGCCACCTGAGCCGACAGCTGATCCAGGCTCTGGACCGTGCCGCCGGAGGTGCCGGGGCAGGGCGAGGCTACTACGTGCCCACCGGAAGCGTGAGCGCCACGGGCAGCCCCCATCAGGTCCTGCGGAGCGACGTCGCGGCGTGGCTTTTCGGCGCACCCGCCCAAGTGGCCGCCACCCAGCCGGCCCAGTAG	MADIAAVLGRLAPHELEELRATGPQGHLSRQLIQALDRAAGGAGAGRGYYVPTGSVSATGSPHQVLRSDVAAWLFGAPAQVAATQPAQ				NA	NA	NA	NA	NA
D1-17_03423	822			hypothetical protein	GTGAACATTCCCGTGACCGAACAGCGTGCGGCTCAGAGGACGTCCTTGCGTGTGGCCCCCGCGGCCATGCTGTCGCTGTCCGGCTTTCTCCTCTTTGCCCTGCACCAGCAGCTCTTGGGCTACACGCTGCTGGCCGCCGCACTGGCAGGTGCCGCGCTGGTGGACCGTGCGCTGCTCCGTGACCTCATGCTTATCGCCGTCGGCATCCTGGTGATCAGCGCGGTTCCCATCACCACCGATGTCAGCACGGAACACATGATCGTCATGGGTTCGGCGATGGTCGCGGCCGTGGGCATTCCGTATGCGGTGTCCCGCTGGGTGACCAAGGAGCACGCCATTGTCTTCCCGGTGATGACCGGGAACAAATGGACCCGCGGTGAAAAGCTGTATCTGCCCGTGGTGGTGGTGCTGGGGTACGCAGTGCTGCCCTTCTATATGATCCGGACCGGCGTCTACAACAACTGGCCGGCCGTCCACGATCCCGACGGCATCGCGCGGCTTTTCATAGGAACCAACGCCTTGGGGATCTGGGACGAGCTGTTCTTCATCTGCACCACGTTCGCCCTGCTGCGTCGCCATCTGCCCGACTGGCAGGCCAACGTCCTGCAGGCGGTCCTGTTCACATCGTTCCTGTGGGAGCTGGGGTTCAAGGCGTGGGCGCCGTTTTTCATTTTCCCGTTCGCGCTCCTGCAGGCACGCATTTTCACCGTGACCAAGTCCCTGTCCTACATCGTGGCGGTCCACCTGCTGTTCGATTTCGTGCTGTTCCTCGTCCTGCTGCACGCCCACAACCGGGAATGGTTCGACATATTCCTCTACTGA	MNIPVTEQRAAQRTSLRVAPAAMLSLSGFLLFALHQQLLGYTLLAAALAGAALVDRALLRDLMLIAVGILVISAVPITTDVSTEHMIVMGSAMVAAVGIPYAVSRWVTKEHAIVFPVMTGNKWTRGEKLYLPVVVVLGYAVLPFYMIRTGVYNNWPAVHDPDGIARLFIGTNALGIWDELFFICTTFALLRRHLPDWQANVLQAVLFTSFLWELGFKAWAPFFIFPFALLQARIFTVTKSLSYIVAVHLLFDFVLFLVLLHAHNREWFDIFLY				NA	NA	NA	NA	NA
D1-17_03424	780	echA8_2	COG1024	putative enoyl-CoA hydratase echA8	ATGACGCAGGAGTACGGGAACATTCTGGTGGAGCGCCGCGGGCGTGTGGGACTTGTGACCCTCAACCGGCCCGAGGCGCTGAACGCCCTGAACAAGGCGACGCTGGATGAGCTCGTAGCCGCGGTATCCGGGATGGACTCGGATCCCGGCGTGGGCGCGGTCGTCCTCACCGGGTCGGGGAAGGCCTTCGCCGCCGGTGCCGACATCAAGGAAATGGCATCCAAGGGGTACATGGAGATGTACGACGCCGACTGGTTCCGTGGCTGGGAAGACCTCACCAGACTGCGGATTCCGCTGGTCGCGGCGGTCTCTGGCTTCGCCCTGGGCGGCGGCTGCGAACTGGCGATGATGTGCGACATCCTCATTGCCGGGGACAATGCCAAGTTCGGCCAGCCTGAAATCAATCTCGGAGTGGTCCCGGGAATGGGCGGCTCGCAGCGGCTCACCCGGGCAGTGGGCAAGGCCAAGGCGATGGACATGATCCTCACCGGCCGGTTTATCGGGGCCGAAGAGGCAGAACGGTCCGGGCTGGTCTCCAGGGTGGTGCCGGCAGAGGACACGGTCGAGGAGGCACTGAAGGCGGCCGAAATCATTGCCTCCAAGTCCAAACCCGCCGCCATGCTGGCCAAAGAGGCAGTGAATGCGGCCTTCGAGACGGGGCTGGCCCAGGGCGTGCTGTTCGAGCGCCGCTTGTTTCATTCGCTCTTTGCCACTGAGGACCAGAAAGAAGGCATGGCGGCATTCACCGAGAAGCGCCAGCCGGAGTTCAGGCACCGGTGA	MTQEYGNILVERRGRVGLVTLNRPEALNALNKATLDELVAAVSGMDSDPGVGAVVLTGSGKAFAAGADIKEMASKGYMEMYDADWFRGWEDLTRLRIPLVAAVSGFALGGGCELAMMCDILIAGDNAKFGQPEINLGVVPGMGGSQRLTRAVGKAKAMDMILTGRFIGAEEAERSGLVSRVVPAEDTVEEALKAAEIIASKSKPAAMLAKEAVNAAFETGLAQGVLFERRLFHSLFATEDQKEGMAAFTEKRQPEFRHR	PGPT0001860_5325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
D1-17_03425	975	mmsB_2	COG2084	putative 3-hydroxyisobutyrate dehydrogenase	ATGCCTGAGCATGCGGGAGAGGAAGTTACCGGAGAGGCGGAGGGTCCGGCGGACGGTTCGGCGGGCCCGAAGGAGCACATTGCCTTCCTGGGGCTCGGCCACATGGGCGGACCAATGGCGGTCAACCTTGTCAGGGCGGGCTACTCGGTAGTGGGATACGATGTGGTGCCCGCGGCTCTTGAAGCTGCCCGCGAGCACGGCGTCCCCACGGTTGGCAGCGCGGCGGATGCCGTGGCGGGAGCGGACGTCGTTCTCACCATGTTCCCCAGCGGCCAGCATGTGCTGGAGGCGTACCGCGGTGCGGACGCGCAGCTGGGACTGCTCGCCGCGGCCGCTCCGGGCACGATGTTCCTGGACTGCTCCACCATCAATGTGGACGAAGCGCGGGAAGCAGCACGGCTCGCGGTCGAAGCCGGTCACCGGGCTGTGGACGCGCCGGTTTCAGGCGGAGTGGTGGGAGCGGAGGCGGGGACGCTGACGTTCATGGTGGGGGCGCTGCCGGAGGACTTTGAAGCGGTGCGGCCGATACTGGAAGTGATGGGCAAGCGTGTTGTGCACTGCGGGGACCATGGTGCCGGACAAGCCGCGAAGGTTTGTAACAACCTGATTTTGGGGGTGTCCATGATCGCTGTCAGCGAGGCCTTTGTCCTCGGCGAGAAGCTGGGGCTGACGCACCAGGCCCTGTTTGATGTCGCTTCCGCGGCCTCAGGCCAGTGCTGGGCCCTGACCACGAACTGCCCGGTTCCGGGGCCGGTGCCCACCAGCCCTGCCAACCGCGACTACCAGCCGGGGTTCGCCGGGGCCCTGATGGCGAAGGACCTGAAGCTGGCCCTGAACGCCATCCAGAACACCGGAGTTGCGGCCCGTATGGGACCGCTGGCCTCTGAAATCTATGACGCCTTCGCCGCGGAAGGCGGGGCCGGACGCGATTTCTCCGGCATCATCACGGACATCAGGGACAAGTCCGGTAAGTAG	MPEHAGEEVTGEAEGPADGSAGPKEHIAFLGLGHMGGPMAVNLVRAGYSVVGYDVVPAALEAAREHGVPTVGSAADAVAGADVVLTMFPSGQHVLEAYRGADAQLGLLAAAAPGTMFLDCSTINVDEAREAARLAVEAGHRAVDAPVSGGVVGAEAGTLTFMVGALPEDFEAVRPILEVMGKRVVHCGDHGAGQAAKVCNNLILGVSMIAVSEAFVLGEKLGLTHQALFDVASAASGQCWALTTNCPVPGPVPTSPANRDYQPGFAGALMAKDLKLALNAIQNTGVAARMGPLASEIYDAFAAEGGAGRDFSGIITDIRDKSGK				NA	NA	NA	NA	NA
D1-17_03426	1074	menB_2		1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGACTGCTGAACAGGCGGAGGGCCCCGCAGACGAGGTCTTGTTTGACCGGCGGGGCCACCTTGGCGTCATCACGCTAAACCGACCCAAAGCGGTTAATGCGCTTACTGCAGGAATGGTGGCGGCCATCATGGAGTGTCTGGCCGCCTGGGAAAACGACGACGGCGTTGCCTCCGTTTTGGTACAGGGCGCCGGTGAGCGGGGCTTGTGTGCCGGCGGCGACATCGTCGCCATTTACCGGGACATCCTCACCGGAGGCGAGGAAACGGCCCGCTTCTGGGAGGCGGAATACCGGCTGAATTCATTCATCTCCCGCTACTCCAAGCCCTACGTCGCGCTGATGGACGGCCTTGTATTGGGTGGCGGCGTGGGAATCTCCGCCCACGGTTCCGTCCGCATCGTGACCGAACGGACCAGGACCGGTATGCCCGAAACCACCATCGGTTTCGTTCCCGACGTCGGCGGCACACTGCTGCTTGCACGGGCACCGGGGGAGGCGGGCACTCACGCGGCCCTGACCGGTGCCCACCTGGACGCAGCCGACGCCCTGTTCCTCGGCCTGGCGGACCACTTCATTCCGTCCACCAAGCTCGACGGTCTCCAGGCGGCGCTGGAAAACGAAACTGCGGAAGACGCCGTCGGGCGCTTCACGGAACAGCCGCCGCCCTCTGCCCTGGAGGCCCAGCGGGACTGGATCGACACCTGCTACGCCACGGACGACGCGGAGGAGATCGTGCGGAGGCTGCGCGCGGCTGGCGGGGAAGCAGCCAAGGCGGCCGAAACGATTGAATCGAAGTCACCAACCTCTGTGAAGGTGACCCTCGCAGCACTGCGCAGGGCCCGCGGACTGAGCCTGGATGAAGTCCTCGCGGAGGAGTACCGTGTGGGTCTTCGCTGCCTGGCCGGACCGGACTTCCGTGAAGGCATCCGCGCCCAGGTAGTGGACAAGGACCGCAACCCGCAATGGCAGCCGCCCACCCTGTCGGAGGTGCAGGCGCACGACGTCGAGCGGTACTTTGCGCCGTTGGGGGAGAGGGAACTGGTTTTGTTGGAAAGGGAGAGCGACCATGCCTGA	MTAEQAEGPADEVLFDRRGHLGVITLNRPKAVNALTAGMVAAIMECLAAWENDDGVASVLVQGAGERGLCAGGDIVAIYRDILTGGEETARFWEAEYRLNSFISRYSKPYVALMDGLVLGGGVGISAHGSVRIVTERTRTGMPETTIGFVPDVGGTLLLARAPGEAGTHAALTGAHLDAADALFLGLADHFIPSTKLDGLQAALENETAEDAVGRFTEQPPPSALEAQRDWIDTCYATDDAEEIVRRLRAAGGEAAKAAETIESKSPTSVKVTLAALRRARGLSLDEVLAEEYRVGLRCLAGPDFREGIRAQVVDKDRNPQWQPPTLSEVQAHDVERYFAPLGERELVLLERESDHA	PGPT0001860_562	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0001860-paaF|echA-K01692	NA	NA
D1-17_03427	1500	bauC_3	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGGTGCGCGAACTGTCCCACTACGTTGACGGCCACAGGAAAGAAGGCAGTTCCGGCCGCTTCAGCGACGTCTACGATCCCTGCACCGGCGAGGTGCAGGCCAAGCTCCCGCTGGCCAGCCGGGAGGAAGTCAGCACCGTCATTGCCAGTGCTGAGAAGGCCCAGGAGGAGTGGGGAGCCATGAACCCGCAGCGGCGGGCGCGGATCCTGCTCCGGTTCGTGGACCTCGTCAATGACAACCTGGAAGAACTGGCGAGGCTGCTTTCCTCTGAGCACGGCAAGACCATTGCCGACGCGAAAGGTGACATTATGCGCGGCATTGAAGTGGTGGAATTCTCTGCCGCCGCACCGCACCTGCTCAAGGGCGAGTTCTCGGACAATGCAGCCACCGGCATCGACATCCATTCCATGCGCCAGCCCTTGGGTGTGGTCGCGGGCATCACCCCGTTCAACTTCCCCGCGATGATTCCGCTGTGGAAGTCCGGGCCGGCCCTTGCGGCGGGCAACGCCTTCATCCTCAAGCCCTCCGAGCGCGATCCGTCCGTGCCCCTGCGGCTGGCTGAGCTGTACACGGAGGCCGGCATCCCGGACGGCGTGTTCAACGTTGTCAACGGGGACAAGGAAGCAGTGGACGCGCTGCTGGAGGACGACCGCGTCAAGGCGATCGGCTTCGTCGGGTCCACGCCCATCGCGCAGTACATCTACGCTACGGCGGCCGCCCACGGTAAGCGCGCGCAGTGCTTTGGGGGCGCCAAGAACCATATGGTGGTCATGCCGGACGCGGACCTCGACATGGCAGCCGATGCTCTGATCGGCGCAGGATACGGCTCCGCAGGTGAGCGCTGCATGGCCATTTCCGTGGCCGTTCCCGTGGGCAGGGAAACGGCCGACGCCCTGGTCTCCAAGCTGGAGGAAAGGGTCAAGCACCTGAAAGTCGGCCACAGCCTCGACAAGGACTCGGACTTCGGCCCCGTGGTGGCGGGAGCAGCCAAAGAACGGATTGAAGGCTACATCCAGTCCGGTGTGGACGCCGGCGCCACGCTCGTCGCCGACGGACGAGGACTTACGGTGGAAGGCTACGAGGGCGGGTTCTGGATTGGTCCCACACTCTTCGACAACGTCACCAAAGACATGAAGATCTACAAGGAGGAGATTTTCGGGCCCGTGCTCAGTGTGCTTCGGGCCTCCGACTACGACGAAGCCCTGCGCCTCTGCAGTGAGCATGAGTTCGGCAACGGCGTGGCCATCTTCACCCGCGACGGCGATGCTGCCCGCGACTTTGCCAGCCGGGTGCAGGTGGGCATGGTGGGCGTCAATGTGCCCATTCCGGTTCCCCTGGCCTACTACACCTTCGGTGGCTGGAAGGCATCAGGCTTTGGCGACCTCAACCAGCACGGCCCCGACGCCTTCCGTTTCTACACCAAGACCAAGACCGTGACCTCCCGCTGGCCCTCCGGTATCCGCCAGGGCGCCAGTTTCACCATGCCGGAAGGAAGCTAA	MVRELSHYVDGHRKEGSSGRFSDVYDPCTGEVQAKLPLASREEVSTVIASAEKAQEEWGAMNPQRRARILLRFVDLVNDNLEELARLLSSEHGKTIADAKGDIMRGIEVVEFSAAAPHLLKGEFSDNAATGIDIHSMRQPLGVVAGITPFNFPAMIPLWKSGPALAAGNAFILKPSERDPSVPLRLAELYTEAGIPDGVFNVVNGDKEAVDALLEDDRVKAIGFVGSTPIAQYIYATAAAHGKRAQCFGGAKNHMVVMPDADLDMAADALIGAGYGSAGERCMAISVAVPVGRETADALVSKLEERVKHLKVGHSLDKDSDFGPVVAGAAKERIEGYIQSGVDAGATLVADGRGLTVEGYEGGFWIGPTLFDNVTKDMKIYKEEIFGPVLSVLRASDYDEALRLCSEHEFGNGVAIFTRDGDAARDFASRVQVGMVGVNVPIPVPLAYYTFGGWKASGFGDLNQHGPDAFRFYTKTKTVTSRWPSGIRQGASFTMPEGS	PGPT0002295_2382	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
D1-17_03428	807	xthA	COG0708	Exodeoxyribonuclease III	GTGAAGATAGCTACCTGGAATGTGAACTCGCTCCGTGCCCGTGCCGACCGCGTGGAGGCGTGGCTGCAGCGGTCTGACTGCGACGTCCTTGCCATCCAGGAGACCAAGTGCAAGGACGACAATTTTCCCTGGGAGCTCTTCGAACGGATGGGCTACGAGGTGGCGCACTTCGGCGTCAACCAATGGAACGGCGTGGCCATCGCTTCCCGCGTAGGGATCGAGGACGTGGAGCGCGGTTTCGTGGATCAGCCCGTGTTCGGCAAGGACGGCAAAGACCCTGTCCAGGAAGCCCGCGCCATGGCGGCGACGTGCGGCGGAGTCCGGATCTGGAGCCTGTACGTGCCGAACGGCCGGGCGCTGAACGATGAGCACATGCCCTACAAGCTCAAGTGGCTGGACAGCCTCAAGAACCAGGCAGCAGGCTGGATCGCTGACAACCCGGAGGCGCAGGTGGCGCTGATGGGCGACTGGAACATCGCGCCCACCGACGACGACGTCTGGGACATCGACCTGTTCCTCACCCAGGGCTACACTCACGTCAGCGAACCCGAGCGGGCCGCCTTCCACGCGTTCGAACAGGTCGGCTACACGGATGTGGTGCGCCCGCACACTCCGGGCCCGGGGGTGTACACCTACTGGGACTACACGCAGCTGCGCTTCCCCAAAAAGGAGGGCATGCGCATCGACTTCATCCTGGCTTCGCCGGCCCTCGCGTCACGGGTCACCGGCGCATCGATCGACCGTGAGGAACGCAAAGGCAAGGGCGCCTCTGACCATGCGCCCGTGGTTTTGGAGCTGGCCGGCTGA	MKIATWNVNSLRARADRVEAWLQRSDCDVLAIQETKCKDDNFPWELFERMGYEVAHFGVNQWNGVAIASRVGIEDVERGFVDQPVFGKDGKDPVQEARAMAATCGGVRIWSLYVPNGRALNDEHMPYKLKWLDSLKNQAAGWIADNPEAQVALMGDWNIAPTDDDVWDIDLFLTQGYTHVSEPERAAFHAFEQVGYTDVVRPHTPGPGVYTYWDYTQLRFPKKEGMRIDFILASPALASRVTGASIDREERKGKGASDHAPVVLELAG				NA	NA	NA	NA	NA
D1-17_03429	900			hypothetical protein	ATGACCGGAAGCCTTTACCGGGGACAGGCGGGGCTGCCGTTCTCGTCCACGCTGCGCGTTTATGAGCCTCTGGAAGCTTTTCCTGAGGACCAACGCGCAGCGCTCAAGGCTGCCGGCGACCGGGCAGCGTCACGGGCCGCCGTCGAAAATGCCGAACTGCTGGCCTCCCTCGGACGGATTACGCGGCCGGGCGGCGATCCCTTCCCTACCGGCCGGACCGACCTGGTCCGTGTTACGCGCGCCCCCGGGCTGCCTGTCGAGGACGAGTCCAAGGATGAAGAAGACGCTGCACAGGCGAACGGCGGCGGCCTCCTTTACTGCCCCAGCCAGCTCGTGCTGCGGGCCGGATTGGCCGCCAACGCGCTGATGGAGGGCATTCATGGGCCGCTGGCTGAACTCCTCATTCCGGAGGAACAGCGTGACCGGCACCAGGAGCGGATCGATCTGGTCAGTGCCCGCGAAGGCGCCACGCGGGTGCATACCCGGGCTTCCACATGGGGCATTCCCTTCAGCTGGTTCTCCCTGTTCCTTGAGTCAGATCCGCAGGATGTGGTGGAGGCAGGCGGCCGGATCCTCACCGTCCGAGTCTGGGCTCCAATCACCGAGGCGCTCGATCGGGTGCGCTACGCCGTAGCCAACCTGGCGCTGGCAGCACCGGACCTCGACATGCTCGATGACCTGACCCAGCTCACCGAGTGGCTGGAGCTCTTCCATGCGGAGTCCATGGTGGAGCTGGACTACGGTGCAGTGGCAGACAAGGTTTACCCGGACGACTCCCCCATGGATGTGCGCCTCGGCATCGAGTGCCTCGCGGAGGGCGACATGACAGGTGCCGCGGCCGCCTACCGGCGGTTGGCATCACGCTGGATCCCGATCCGCCAGCTGGCACGGGCGTCCTAA	MTGSLYRGQAGLPFSSTLRVYEPLEAFPEDQRAALKAAGDRAASRAAVENAELLASLGRITRPGGDPFPTGRTDLVRVTRAPGLPVEDESKDEEDAAQANGGGLLYCPSQLVLRAGLAANALMEGIHGPLAELLIPEEQRDRHQERIDLVSAREGATRVHTRASTWGIPFSWFSLFLESDPQDVVEAGGRILTVRVWAPITEALDRVRYAVANLALAAPDLDMLDDLTQLTEWLELFHAESMVELDYGAVADKVYPDDSPMDVRLGIECLAEGDMTGAAAAYRRLASRWIPIRQLARAS				NA	NA	NA	NA	NA
D1-17_03430	1065	ccpA_4	COG1609	Catabolite control protein A	GTGGCGCGCACAACTGACCGGGCCCAGCGCGGCGGCCACTCGGGTGTAAGCATCGAGGATGTGGCTGCCGCCGCAGGGGTATCCACTGCCACAGTGTCCCGTGCCGTCCGGGGTCTCCCCCGGGTGTCGCCTGCCACCCGCGAAAAGATCCTCGAAGTTGCCGGCGCCTTGGGCTACGTTGCATCATCCTCCGCGTCCGGTCTGGCGACCGGCCGGACCAAGACCATTGGGGTGCTCGCGCCATTCGTCAGCCGCTGGTTCTTCTCGAAAGCCATCGAAGGGGCCGACCGCGAACTTCACGCGCGGCAGTACAACCTGTCCCTGTTCAACCTGGGGGGCCACGGCAGCCATCGCGAGCGGCTGTTCAGCAAGACCATGGTCTACAAGCAGATCGATGCACTCCTGGTGCTATGTATGGCGCTGTCCCATGAGGAGCTTGACCATCTGCAGAAAATCGACATCCCTTTGGTGGTGGTGGGCGGGCACGTCGAGGAATGCGCCTACATCGGCATAGACGACTATGCCGCCGCGTCCACAGCGGTGAAGCACTTGATCGGCCTGGGGCACCGTGATATCGCCCTGCTCCACGGCGACGATGAGACCGACCTGAATTTTGATGTCCCGCGTGTCCGGATCCTGGCGTTCCAGGATGTGATGACGGCGGCAGGGCTGGAAGTCCGCCCTGAATGGGACGAGTGGGGAGACTTCACCGTACGCAGCGGCCAGGAGGCTTTCCGGCGGCTCTGGGGGCAGTCCGGGCCGAAGCCCACCGCCATTTTCTGTGCCTCTGACGAGATGGCCATGGGCGTGATCTTCGAAGCCAACAGGCTGGGCGTCAGAGTCCCCGAGGACCTCTCTGTCATTGGCATCGATGACCACGACTTCTCAGACGCCGTCGGCCTCACCACGGTTGGCCAGCGGCCCGATGAGCAGGCCGAGCTGGGCACCAAGATGCTTCTCGACGAACTCCTCGGCATCACGGGCTCCGTGCGCTCCGCCGTCGCACCCCACCAGCTGATCGTCAGGCACACAACGGCGCCGCCCCGTCCCGGGGCCGGCCGCTGA	MARTTDRAQRGGHSGVSIEDVAAAAGVSTATVSRAVRGLPRVSPATREKILEVAGALGYVASSSASGLATGRTKTIGVLAPFVSRWFFSKAIEGADRELHARQYNLSLFNLGGHGSHRERLFSKTMVYKQIDALLVLCMALSHEELDHLQKIDIPLVVVGGHVEECAYIGIDDYAAASTAVKHLIGLGHRDIALLHGDDETDLNFDVPRVRILAFQDVMTAAGLEVRPEWDEWGDFTVRSGQEAFRRLWGQSGPKPTAIFCASDEMAMGVIFEANRLGVRVPEDLSVIGIDDHDFSDAVGLTTVGQRPDEQAELGTKMLLDELLGITGSVRSAVAPHQLIVRHTTAPPRPGAGR	PGPT0021075_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-17_03431	264			hypothetical protein	ATGCGTGGGGCAGCACCGCAGCGCAAGGAGCAGGCAACCGGGTCCGGCGACAAACGGGTCAGGTCCGGCGAGGACTTCGACATCATCATCGGATTCCTGGGTTTCTGGGCTGTGGTGCTGCTCGTCGTTACCGTCTGGATGGAGCTGACAGCCCAGCCTGCCTTGGGCTGGGCACTGGGCCTGCTCGCCATCCTGCTGGCACTGTACGGGATGATCAGGCTCCGCCGGCGCCTTCCTGCGCCCACTGCCACCCGGCGGCGCTGA	MRGAAPQRKEQATGSGDKRVRSGEDFDIIIGFLGFWAVVLLVVTVWMELTAQPALGWALGLLAILLALYGMIRLRRRLPAPTATRRR				NA	NA	NA	NA	NA
D1-17_03432	888	sugB	COG0395	Trehalose transport system permease protein SugB	ATGAGCACCGGAACAGCCCTCCGGGCACAACAGGACAAAGGCCGCCGCATGGCCCAGAACAAGGAGAAGTGGGCGCAGGGCCGCACGTACATCAGCGCGGCCGTGATCCTCATCTGGTGCCTGGCGCCCGCCTACTGGATGGTCGTCGTGGCGTTCCGCGAGGTCGGCTTCACGTACGACACATCCTTCTTCCCGACGCACGTCACGCTGGACAACTTCATAACCGCATTCGACACGTCCTTCGGCAACAGGTTCGGCCAGGCACTGCTGAACAGCATTTTCATCGGCGTCGTGGTGACCGCCATCTCGCTGCTGATCGGTGTTTTCGCGGCCTACGCCTTGGCGCGGTTGAATTTCCGTGGCAAGTTCCTGGTGCTGGGCTTCATTCTGGGGGCGTCCATGTTCCCGGGCGTCGCACTGATCACCCCGCTGTTCCAGCTCTTCACCAACATCGGCTGGATGGGCACCTACCAGGCGCTGATCATTCCGAACATTTCGTTCGTCCTGCCGCTGACCGTCTACACGATGACGTCATTCTTCCGCGAAATGCCGTGGGAGCTGGAAGAGTCGGCACGTGTCGACGGCTGCACCCAGGGCCAGGCGTTCCGGAAGGTCATCATGCCGCTGGCGGCTCCGGCCATCTTCACCACGGCCATCCTGGCATTCATCTCCTCGTGGAATGAGTTCCTCATCGCCAGCCAGCTCTCCAGCGATGCCACCCAGCCTGTGACCGTGGCCATCGCAAACTTTGCCGGCGCCCAGCCCCAGCAGATCCCCTACACGGCGATCATGGCGGCCGGCACCATCGTCACCATTCCGCTGGTGATCCTGGTGCTCGTGTTCCAGCGCAAGATCGTCGCCGGCCTTACGGCGGGTGCAGTCAAGTGA	MSTGTALRAQQDKGRRMAQNKEKWAQGRTYISAAVILIWCLAPAYWMVVVAFREVGFTYDTSFFPTHVTLDNFITAFDTSFGNRFGQALLNSIFIGVVVTAISLLIGVFAAYALARLNFRGKFLVLGFILGASMFPGVALITPLFQLFTNIGWMGTYQALIIPNISFVLPLTVYTMTSFFREMPWELEESARVDGCTQGQAFRKVIMPLAAPAIFTTAILAFISSWNEFLIASQLSSDATQPVTVAIANFAGAQPQQIPYTAIMAAGTIVTIPLVILVLVFQRKIVAGLTAGAVK	PGPT0014155_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014155-thuG|sugB-K10238	NA	NA
D1-17_03433	1038	sugA_3	COG1175	Trehalose transport system permease protein SugA	ATGGCAACTGAAGTAGGCCCGACGCCGGTCAAGTCACCGGCGTCGGGCGGTACCCCGATCCACCACGGGCCCAAGGGCGTGGGTGAGGACAACAAGATCCTCAGCCAGGGTAAATGGGCCGCCTGGCTCCTGGCCCCCACCATCATCGCGCTGGCCGTGGTGATCGTTTACCCGATCATCAGCGCCATTGTGATGTCCTTCCAGAAGGACGCCGGGCTCGACCCCGCCACCGGGCTGTTCACGGCCGGCGGCCCGGCCGGCATCCAGAACTATGTGAACTGGATCGCGCAGCAGTGCGCCGCCCCTGCCGGCGGAACCGTCGCCTGCCCGCCGGGAACTTTGGGATCCCAGTTCTGGTCAGCTACGCAGACCACCTTCATCTTCACCATCATCACGGTGACCCTGGAGACTATTCTTGGCTTCTGGATGGCCATGATCATGGCCCGCTCCTTTAAGGGCCGGAGCCTTGTCCGCGCCGCTGTGCTCGTGCCGTGGGCCATCCCCACCGCCGTGACGGCCCAGCTGTGGCTGTTCATCTTCGATTTCCAGGGCATTGCCAACAAGCTGTTCAACGCCTCCATCCTCTGGACCGGAAGCGAGTGGCCGGCCAAGTGGGCTGTCATCATCGCGGACACCTGGAAGACCACACCGTTTATGGCGCTGCTGATCCTGGCAGGCCTGCAGATGATCCCTGCCGAAGTGTATGAGGCGGCGAAAGTTGACGGAGCCTCGGCCTGGCAGCGGTTCCGCATGATTACCCTGCCGCTGGTAAAGCCGGCGCTGATGGTGGCCATCCTCTTCCGCACGCTGGATGCACTGCGCATGTTCGACCTGCCGTACATCCTTACGGGCGGTGCGAACAACACCACCACGCTGTCCATCCTCGTCATTAACCAGATCAGGCAAGGGTTCAATTCAGCCGCGGCGCTGTCCACCATCACCTTCATCATCATCTTTTTGGTCGCTTTCATCTTTGTCCGCTTCCTTGGGGCGAATGTGGTGGAACAAAGCGGCGCCACCGGTAAGGGGAAGAAATGA	MATEVGPTPVKSPASGGTPIHHGPKGVGEDNKILSQGKWAAWLLAPTIIALAVVIVYPIISAIVMSFQKDAGLDPATGLFTAGGPAGIQNYVNWIAQQCAAPAGGTVACPPGTLGSQFWSATQTTFIFTIITVTLETILGFWMAMIMARSFKGRSLVRAAVLVPWAIPTAVTAQLWLFIFDFQGIANKLFNASILWTGSEWPAKWAVIIADTWKTTPFMALLILAGLQMIPAEVYEAAKVDGASAWQRFRMITLPLVKPALMVAILFRTLDALRMFDLPYILTGGANNTTTLSILVINQIRQGFNSAAALSTITFIIIFLVAFIFVRFLGANVVEQSGATGKGKK	PGPT0014150_171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014150-thuF|sugA-K10237	NA	NA
D1-17_03434	1290			hypothetical protein	ATGAAAACGCGCAAGTTCTTACTGCCGGCAGCCACTGCCGGCGTTCTCGCCCTGACGCTCTCCGCCTGTGGCGGCGGTGGCGGGGGCGGCGGCACCACCGCCGGTGGCGGTGACGCAGCCAACGGTCTCGACGGCCGCGGTCCCATCACCTACGTGCAGGGCAAGGACAACAGCAACGTGGTCCGACCGCTAATCGAAAAGTGGAACGCCGCACACCCGGATGAGAAGGTCACCTTCAAGGAGCAGACCGACCAGGCCGACCAGCAGCACGACGACCTGGTGCAGCACTTCCAGGCCAAGGACCCCAACTATGACGTGGCGAGCGTGGATGTTGTCTGGACTGCGGAATTTGCTGCAAAGGGTTGGCTGCAGCCGCTGAAGGACAAGATGGCGCTGGATACCTCCGCAATGCTGAAGCCCACGGTTGACAGCGCATCCTACAAGGACACGCTATATGCAGCGCCCGTATCCTCCGACGGAGGCATGCTGTACTACCGCAAGGACCTGGTGCCCACCCCGCCCAAAACCTGGGACGAGATGATGCAGATGTGCTCCATCGCCAAGGAGAACAGGATCGGCTGCTTCTCCGGACAGTACAAGCAGTACGAAGGCCTCACGGTCAACGCCTCTGAGGCGATCAACTCCGCGGGCGGCTCCGTGCTGGATAAGGACGGCAAGCCGAACCTGAACACCCCGGAGGCCAAGGAAGGCCTAAACAACCTCGTCGAAGCCTTCAAGAATGGCAACATTCCTAAGGAAGCCATCACTTACCAGGAAGAGGAAAGCCGCCGGGCCTTCCAGTCCGGCAACCTGCTCTTCCACCGCAACTGGCCGTACGTGTACAACCTGGCCACGACCGAAGGCTCGTCCAAGGTAAAGGACAAGCTGGGCTTGGCCCCGCTTCCGGGCAAGGACGGCCCGGGTGCATCTTCCCTGGGCGGTCACAGCGCGGCCATCAGCGTGTACTCCAAGAACAAGGCCACCGCCCTTGACTTCGTGAAGTTCCTGGTCGAAGAAGAACAGCAGAAGTTCTTCGCCACCCAGGGTTCCCTCGCTCCGGTGCTGACTGCTCTCTATGACGACGCTGAACTCGTGAAGAAGCTTCCGTACCTGCCGGTCCTGAAGACCTCCATCGAGAACGCCGTGCCGCGTCCGGTCACCCCGTTCTACCCGGCTGTAACCAAAGCCATCCAGGACAACGCTTACGCTGCGCTGAAGGGCGAGAAGCCGGTGGACACGGCGTTGTCTGACATGCAAAAGTCCATCGAAGCCGCCGGTGCAGGATCGTAG	MKTRKFLLPAATAGVLALTLSACGGGGGGGGTTAGGGDAANGLDGRGPITYVQGKDNSNVVRPLIEKWNAAHPDEKVTFKEQTDQADQQHDDLVQHFQAKDPNYDVASVDVVWTAEFAAKGWLQPLKDKMALDTSAMLKPTVDSASYKDTLYAAPVSSDGGMLYYRKDLVPTPPKTWDEMMQMCSIAKENRIGCFSGQYKQYEGLTVNASEAINSAGGSVLDKDGKPNLNTPEAKEGLNNLVEAFKNGNIPKEAITYQEEESRRAFQSGNLLFHRNWPYVYNLATTEGSSKVKDKLGLAPLPGKDGPGASSLGGHSAAISVYSKNKATALDFVKFLVEEEQQKFFATQGSLAPVLTALYDDAELVKKLPYLPVLKTSIENAVPRPVTPFYPAVTKAIQDNAYAALKGEKPVDTALSDMQKSIEAAGAGS	PGPT0014145_535	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014145-thuE-K10236	NA	NA
D1-17_03435	1962	malL_4	COG0366	Oligo-1,6-glucosidase 1	ATGACCCACACCCCGATTTCCACGCCCGGGTCCGAAATAGGAACGTGGTGGGCAGACGCCGTCGTCTACCAGATTTATCCCCGCTCCTTCGCTGACGCGAACGGGGATGGCATGGGCGACCTGCGCGGGGTTACCGGCCGGTTGCGCTACCTGAAGGAACTCGGCGTCGACGCCGTCTGGCTGTCGCCGTTCTACAAGTCGCCGCAGGCGGACGCAGGATACGACGTAGCCGACTACCGGCAGGTCGACCCGATGTTCGGCACTCTGGCTGACTTTGACGAGATGCTGCAGAAGGCTCACGGCCTGGGGATGAAAGTCATCGTGGACCTGGTCCCAAACCACACGTCGGACGAGCATGCGTGGTTCCAGGAGGCCTTGGCCTCGGAACCGGGCTCAGCAGCCAGGGAACGATACATGTTCAGGCCCGGGAAGGACGAGGTTCCCGGCTCAGGGGACGGAAATCTCGCCCCCAACAACTGGAATTCCATTTTTGGCGGCCCGGCCTGGACGCGCATCACCAATGCGGACGGAACCCCCGGCGAGTGGTACCTGCACCTCTTTGACACCAAGCAACCGGACCTTAACTGGGAGAACCCCGAGGTGTGGGAGGAAATGAGCTCCGTGCTCCGCTTCTGGCTGAACCGCGGAGTGGACGGCTTTCGGGTGGACGTGGCGCACGGCATGGTTAAGGAGGCCGGGCTGCCCGACTGGGACGGCGCAGCAGCCATGGTGGAAGGCACGGCAGAGGTTCGCCACCTTCCGGACGCACCCGGGGCTCATTCAGAATCAGCGGAGCCGCACACCGCCCATCGCGCCAGTATCGCGGCCGGAAGTGCAGGGGCAGAGGACGCTGCCGGCACCATAGCTGTCGCGGAGCAGGACTTCGGCCACGAGCCGGTGTCGCCGCTGTACCCGCCGTCGCCATTCTTTGACCAGGACGGCGTCCACGAGATCTACCGGGACTGGAACCGGGTGCTGGCCGAGTATGACGGTGACCGGATGCTCGTGGCCGAGGCCTGGGTGGAACCGGCGGAACGCCTGGCACGGTATATCCGCAAGGACGAGATGCAGCAGGCCTTCAACTTCGACTTCCTGCTGGCCGGCTGGGATGCAGGACGCATGGCAGTGGCCATCGAGGACTCGCTTGAGGCATCAGCCTCGGTGGGGGCGCCCACCACCTGGGTGCTGAGCAACCATGACACCGTGCGCCATGCCACGCGCTTCGGACTCTCCGACCCCACCACGTTCCCCAAGGGCATTGCCGCAGAGGACGAGCAGCCGGATGCGGCACTGGGCCTGGCCCGCGCCCGGGCGGCCACGCTGGTGTCCCTCGCCTTGCCCGGCTCCGCCTACCTTTACCAGGGTGAGGAACTGGGTCTCCCGGAACACACCTCTGTGCCCGCGGGTGCCCGCCAGGACCCCGCTTTTTTTCGTACGAACGGGGTTGAGCGTGGCCGGGACGGCTGCCGCGTCCCGCTGCCGTGGGTGTCCAGTGAGCCGGGGTACGGTTTCGCTGAGGCGTACACAACGGCCGACGGCGGTGCTGGCCGCCGCCGGCCAGCCGATCCTTGGCTGCCCCAGCCGGCGTCGTTCGGCGAACTCGCCGCGGACCTGCAGGACGGGGTCCAGGGTTCCACGCTCGAGCTGTACCGGTCCACGCTGTTGCTGCGGAAGAGCCACGGACTGGGCTCCGGAACGTTCTGCTGGGCAAATGCGCATGATCCCGAACGGGGTGTCCTGGCCTTCCAGAACCGGGATGTCCTCGTGGTAGCCAATACGGGATCCGAGCCAGCGCCTATTCCGGACGGCTACCGTGTGATTCTTTCGAGCGACGGTGCGCCTTCATCGGATGCCGCGGCACCCGCCGGCGCCGCTGCAAGAGGAGCGGGCGGCGACGGGACCGCAGGTACACGCATGGAAGTCATCGCCCCGAACAGTGCGGCCTATCTGGTGGCCGGCTAG	MTHTPISTPGSEIGTWWADAVVYQIYPRSFADANGDGMGDLRGVTGRLRYLKELGVDAVWLSPFYKSPQADAGYDVADYRQVDPMFGTLADFDEMLQKAHGLGMKVIVDLVPNHTSDEHAWFQEALASEPGSAARERYMFRPGKDEVPGSGDGNLAPNNWNSIFGGPAWTRITNADGTPGEWYLHLFDTKQPDLNWENPEVWEEMSSVLRFWLNRGVDGFRVDVAHGMVKEAGLPDWDGAAAMVEGTAEVRHLPDAPGAHSESAEPHTAHRASIAAGSAGAEDAAGTIAVAEQDFGHEPVSPLYPPSPFFDQDGVHEIYRDWNRVLAEYDGDRMLVAEAWVEPAERLARYIRKDEMQQAFNFDFLLAGWDAGRMAVAIEDSLEASASVGAPTTWVLSNHDTVRHATRFGLSDPTTFPKGIAAEDEQPDAALGLARARAATLVSLALPGSAYLYQGEELGLPEHTSVPAGARQDPAFFRTNGVERGRDGCRVPLPWVSSEPGYGFAEAYTTADGGAGRRRPADPWLPQPASFGELAADLQDGVQGSTLELYRSTLLLRKSHGLGSGTFCWANAHDPERGVLAFQNRDVLVVANTGSEPAPIPDGYRVILSSDGAPSSDAAAPAGAAARGAGGDGTAGTRMEVIAPNSAAYLVAG	PGPT0018560_2405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-17_03436	612			hypothetical protein	ATGAACAGCACTCCCCGGATGCTGAACAGGGTTCTCATTGGAATCCTCGGACTCGCCCTCCTGGCCGCCGGCATCCTTCTCATGCTGCTGGCCACAGTTCCTGCCGTCGGAGCCTGGTGGCAGGCATGGTCAGGCGGCGTCTGGACCAGCGCCAGCCAGCTGCTCGGGGCCACGAGGTTCCCGGGCCGCCAGGAAAGCTGGCTCTGGATCGTCCTGGCCCTTGTCCTCATCCTGCTGATTGGACTGATGGTGGCTTGGATCGCCCAGCAGGGTAAGGGGCGCTCGGACCTTCTGCTGGCCGCCGAGGATCCCGGCGGAGTGCCCGGTGACGTGCGTATTGGCAGCGGAGTGGCTGAACAGGCCCTCAAGGAGGCCTTCGCTGAACGCCCCGATCTAGCTGGCACGTCTGTCGCTACATTCGACATCCACGGTGAACCCGCGCTCAGGATCCGGCTTCACCCGCGCCCCGGAGTGGCCCCGCACCTCCTCGTGGAGGACGCTGCCGCCCTGGTTTCGGCGTTGGACAAGGTTGTGGGCCGCGAGACACCGGTACTGGTGCACGTAGCGGCCGGGGCGCGCACCCGCTTCAGCAGAGCGGAGCGCGTCCGCTGA	MNSTPRMLNRVLIGILGLALLAAGILLMLLATVPAVGAWWQAWSGGVWTSASQLLGATRFPGRQESWLWIVLALVLILLIGLMVAWIAQQGKGRSDLLLAAEDPGGVPGDVRIGSGVAEQALKEAFAERPDLAGTSVATFDIHGEPALRIRLHPRPGVAPHLLVEDAAALVSALDKVVGRETPVLVHVAAGARTRFSRAERVR				NA	NA	NA	NA	NA
D1-17_03437	648			hypothetical protein	GTGAGCTCCGTCATCGAACGCGAGAACCCGGCCGAGGGCCACCAGAGGGACGCCGGCCCCGTCGGCCGCGACGGGCCCGTTGATATGGACAGGATTCTGCACCGGGAAACACACTCCTCACGGGCTACCGCAGCCTGCATCGCAGCCGTCCTTGTCATCCTCCTGTCCCTCTACGCCCTGCTGGAAGCGGCAGTCCGGTCCATCGGCCAGCCGCCCTGGCTCATTGATCCCCAGACCGCGGCCGAGCGGATCGTCGCGTTGCCTCACGGCATGCCGCCTTTGCTGCTCGGCGTGACAGGCGCCGTGGTTGCCGCGGCCGGCCTGTTCTTTTTTCTCAGCGCCATACTTCCCGGACGCAGGGCAAAGCATCTGCTCAACGTAACCCGCGTAGCTGTCGTGGTGGACGACGAGGTCATAGCGTCCGCACTCGCCCGACGGGCACGGCTGGCTGCCAACGTCACCCCCGAGCAGGTGATGGTGGTGGTTTCCCAGCGCCAGGCGATAGTCAATGTCCGCCCCACATCCGGGGTTCCGGTGAGCGAAAACGCAGTCCGTGAAGCCGTGGAGGACGAACTCCGCTCCATGTCACCGGTCCCGCTGCCCGTTGTCCGCGTCAACCTGGCTGAGACGGGGGTGATCGGGGCATGA	MSSVIERENPAEGHQRDAGPVGRDGPVDMDRILHRETHSSRATAACIAAVLVILLSLYALLEAAVRSIGQPPWLIDPQTAAERIVALPHGMPPLLLGVTGAVVAAAGLFFFLSAILPGRRAKHLLNVTRVAVVVDDEVIASALARRARLAANVTPEQVMVVVSQRQAIVNVRPTSGVPVSENAVREAVEDELRSMSPVPLPVVRVNLAETGVIGA				NA	NA	NA	NA	NA
D1-17_03438	381			hypothetical protein	ATGACCCTGAACGCCGACACAACCCCGGTCCGGCTCTACAGCGGACACAACCGGATAAGTACCCAGGCGCTGACGAGCCTCGCGAAAGCCGCAGCCGGGGATGCGCTGGGCATTCCGCCGCACGATGTCCGGGCCGACTGGTCGGACGACGGCGGCCTGCTGGCTTTATCCCTCGTCACACCGATCAAGATCCCGGCCCTGACGGGCGTCGTGCGGGACCCCGGCCGGATCGCTGCCTTCGGCGGCTCTATCTGGGAGCGTGCGGTTGCGGCCAAAGAGGAGATCCTCACGAGGGTCACAGAGCTCAGCGGCGCCCGCCTGAGCAGGGTGGACATCCGGGTCAGCGGCGCGCACGTCACGGAAAGGGGGCGCGTGCGGTGA	MTLNADTTPVRLYSGHNRISTQALTSLAKAAAGDALGIPPHDVRADWSDDGGLLALSLVTPIKIPALTGVVRDPGRIAAFGGSIWERAVAAKEEILTRVTELSGARLSRVDIRVSGAHVTERGRVR				NA	NA	NA	NA	NA
D1-17_03439	192			hypothetical protein	GTGAGCCTGACGGTAGTGGGAACAGCACTGGGGGCCTTTGTGGCGTTCATGTCGCTGCAGTTCGGCTTGTGGGGCTTCCTGATTTCCCTCCTTTTCATGGGGATAGGTGCCCTGCTGGGCCGCGCGGCAGAAGGGAAACTGGACCTGCGCAGCGTCATGGATGCCCTGAGCGGCCGGCGCTCGTCGTCATGA	MSLTVVGTALGAFVAFMSLQFGLWGFLISLLFMGIGALLGRAAEGKLDLRSVMDALSGRRSSS				NA	NA	NA	NA	NA
D1-17_03440	453			hypothetical protein	ATGGAATACCAGAATCCGGACCCTGCCGTCATCGGCACGCAGCCGGCCCTGCGCGGGACCGGCGGCGGGCGGACAGTCATCTCGGAAACAGCGGTCGCCAAGGTGGCCGGCATAGCAGCGCGAGCCGTCCCCGGTGTCTACTCCCTGGGCACCGGTTCATCCAGGGCGCTGGGAGCCATCCGTGACGCCGTCGGAAGTTCGGACCACGCGGCTGGGGTCCATGCGGAGGTGGGCGAGACGCAGGTCGCCGTCGACATCACCCTCGTCGCAACGTACGGGACTCCGCTGCACTCCTTGGCCAACCAGGTGCGCGCCGCCGTCTACTCGGCGGTTGAGAAGCTGGTGGGCCTTCAGGTCATCGAGGTCAACGTCGAAATCAACGACGTCTATATTGCACCGCCGGTGAAGCCTGCGGGGCAGGCGGCAGCTTCTGAGAGGGAGGCGATCCTGTGA	MEYQNPDPAVIGTQPALRGTGGGRTVISETAVAKVAGIAARAVPGVYSLGTGSSRALGAIRDAVGSSDHAAGVHAEVGETQVAVDITLVATYGTPLHSLANQVRAAVYSAVEKLVGLQVIEVNVEINDVYIAPPVKPAGQAAASEREAIL				NA	NA	NA	NA	NA
D1-17_03441	459			hypothetical protein	GTGAAGAATCTTGCCCGTACGCTGACCGTCACCGCACTTGCCGCCGGAGCGGCGCTCACCGCCTGTTCTGCCCCCACAACCGGCGGCGCTCAACCGTCAACCTCCAGCAGTTCCCGGCCGGTCACCAGCCCCGGCGCGGAACCGGCCGATAGCACACCGACGGGTCCCTTCGGAGGGTTTGCGTCAGCGGCGGAGGCATGTGCGGCCATCTCGGAACAGGCAACCGGCGCGTCACTGCTGCCGATGGCCGCGGCGCAGGGCAAGACCGCGGAACTCGAGCAGAAGAAGGCGCAGCTTAGCCAGACGGCGCAGCTCGTTCCGGAGGCGCTTAAGGCCGACTTCACCAAGCTCCATGAGGTGGCCGTGGCGGGACTCAGCGATCAGTCCGTCTATTCCAGCGGCAAGTTCCAGCAAGCCATGGCTCCGGTGAACCAGTGGCTGGCCAGCAACTGCGGCTAG	MKNLARTLTVTALAAGAALTACSAPTTGGAQPSTSSSSRPVTSPGAEPADSTPTGPFGGFASAAEACAAISEQATGASLLPMAAAQGKTAELEQKKAQLSQTAQLVPEALKADFTKLHEVAVAGLSDQSVYSSGKFQQAMAPVNQWLASNCG				NA	NA	NA	NA	NA
D1-17_03445	1044			hypothetical protein	ATGGCAACCAACCCCGGCACCAGCCCTCCCCCGCCTGCCGATCCCTCCGGGCGGCCAAGTGCCCCTCATACAGCCACAACGCCCCCGGGCTCAACGGAACCGACCACAACGCAACCGGGCACAGAGCAATTCGGCACAAAGCATTCCGGCACAAAGCAACCCCGTGCGCGCATCAGCAACCTGGGGGTCGCAGCCGTCCTCACCACAGTGGTGCTGTGGGCCTCTGCCTTCGTCGGCATCCGCGCTGTCGGCCCCAGTTTTTCGCCCGGCCCCCTGACGCTGGGGCGGTTGGTGATTGCCGCCGCCGTTCTTGGCGCTGTGGTGCTGCCCAAGCTCAGCAGAATGCCGCGAGGACGGGATTGGTGGCCCATCATCGCTTATGGAGTTATGTGGTTCGGCGGCTACAACATCGCCCTGAACGCTGCAGAACATGTGCTCGACGCCGGAACCGCCGCACTGCTGATCAACGTCAACCCGATTTTGGTCGCGGTCCTGGCGGGTGTGCTGCTCAAGGAGGGATTCCCGCGCTGGCTCATCATCGGCAGCCTGGTGGCGTTCAGCGGCGTCGCCGTGATCGCGCTGGGCTCCGGCCAGCGGTCGACGGCGGATGTGGGCGGCGTGCTGCTGTGCCTCCTGGCGGCTGCGCTTGCCGCCGTCAGCGTGATCATCCAGAAGCCGGTGCTGCGGAAGTACCCGGCAGGGCAGGCAACCTGGTACGGCGTCATGGTGGGGCTCCTGTGCTGCCTGCCGTTCAGCGGCCAGCTGGTGGCGGAGCTGCAGGCGGCTCCGCTGCCGGCCACGGCGGGCCTGGTCTACCTCGGCATCTTTCCCACCGCGATAGCGTTCACCACCTGGGCGTACGCCCTTTCCCTGATCGACGCTGGAAAGCTGGCCGCCACGACCTACCTGGTGCCCGCGACCACAGTGGTGATCTCCTGGTTCGTGCTCGGCGAAATACCGACGGTCTGGGGCCTCGTAGGCGGGGCCATCTGCCTGGCGGGTGTGGGGCTTACAAGGCGCCAGGCAAGGCGCCGCTCCCGCTAG	MATNPGTSPPPPADPSGRPSAPHTATTPPGSTEPTTTQPGTEQFGTKHSGTKQPRARISNLGVAAVLTTVVLWASAFVGIRAVGPSFSPGPLTLGRLVIAAAVLGAVVLPKLSRMPRGRDWWPIIAYGVMWFGGYNIALNAAEHVLDAGTAALLINVNPILVAVLAGVLLKEGFPRWLIIGSLVAFSGVAVIALGSGQRSTADVGGVLLCLLAAALAAVSVIIQKPVLRKYPAGQATWYGVMVGLLCCLPFSGQLVAELQAAPLPATAGLVYLGIFPTAIAFTTWAYALSLIDAGKLAATTYLVPATTVVISWFVLGEIPTVWGLVGGAICLAGVGLTRRQARRRSR				NA	NA	NA	NA	NA
D1-17_03446	429			hypothetical protein	ATGCCCGCTAACCTGCCGCCTGGACTTCCCATCGTTCCTGACGGATCTGGCGACTCCTCCGGTTTTGAGATGTCCGAGAACGATTTCGAGGCAGCAGTCAGCGACGCCCTGGACCTGATTCCTGCTGACATCGCACGGACAATGGACAACGTGGCGGTTTTCATCGAGGACGACTACACGCCCCGGCCCGGAGAAGACCCCGACACCGTGCTCCTGGGGCTTTATGAGGGCGTGCCCCTGACAGAGCGGGACTCCTGGTGGGACGCAGGCTCCCTCCCGGACCGCATCACCATCTACCGCCAGCCCATTCTGGACATCTGTTCCTCCCGCGAGGACGTGGTGGAGGAAGTCGCCGTCACGGTGGTGCACGAAATCGCCCACCATTTCGGTATCGACGACGACAGGCTCCACGAACTCGGTTGGGACTAG	MPANLPPGLPIVPDGSGDSSGFEMSENDFEAAVSDALDLIPADIARTMDNVAVFIEDDYTPRPGEDPDTVLLGLYEGVPLTERDSWWDAGSLPDRITIYRQPILDICSSREDVVEEVAVTVVHEIAHHFGIDDDRLHELGWD				NA	NA	NA	NA	NA
D1-17_03447	921	czcD	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGGGACACGACCACAGCCCTGCCCTGGCCCCAACAGCCACAGGCAAGCACCGCCGCCGGTTGATCGCCGTGCTGGCGATCACCCTGGGCGTGGTCCTGGTCCAGGCGGCAGGGGCAGCCCTGTCAGGCTCGCTGGCACTGCTGGCCGATGCCGGGCACATGCTCTCGGACGCCGCCGGGGTCTTCATCGCCCTGGTGGCGGCATGGATTGCCTCCCGGCCGGCGAGCGATGCGCGAACCTACGGCTATCAGCGCGCCGAAGTCCTGGCGGCCCTGGCCAATGCCCTGATCCTCGTGGTGATTGCCGTGGTGGTTTTCATCGAGGCGATCCGCCGGATCGGGTCGGCCCCCGAGATCCAGACCGGTATCATGCTCTACGCGGCCTTCGTCGGCGCCGCGGCCAACCTGGTGTCCCTCCTGATTTTGCGCCGCGGCCAGAAGGAAAGCCTGAATGTACGGGGAGCCTACCTCGAAGTTCTGGGCGACCTTGTGGGGTCGGTCGCGGTCATCGCCGCAGCTGTGGTGATTCTGTTCACCGGGTTCAATACCGCTGACGCGATAGCCTCCATGCTCATTGCCGTCATGATCCTGCCGCGCGCCTGGCACCTGCTGCGCGACGTGGTGGATGTCCTGCTGGAGGCGACGCCCAAGGGCGTGCAGGTGCAGATCATCCGGGACCACATTCTCTCCGTGGCCGGAGTAGTGGCCGTCCACGACATCCACATCTGGACCATCACCTCGGGCGTTCCCGTCTTCTCGGCACATGTGGTGGTGGAGGACGAGGCCCTCAGCGCCCGGGGAGCGGACCAGGTTCTGGATAGGCTCACCAACTGCCTCGGCGCCCACTTCGACACGGCCCACTGCACCTTCCAGCTGGAACCAGCCAGCCACGCCGAGCACGAATCGCACCAGCACGCGTAG	MGHDHSPALAPTATGKHRRRLIAVLAITLGVVLVQAAGAALSGSLALLADAGHMLSDAAGVFIALVAAWIASRPASDARTYGYQRAEVLAALANALILVVIAVVVFIEAIRRIGSAPEIQTGIMLYAAFVGAAANLVSLLILRRGQKESLNVRGAYLEVLGDLVGSVAVIAAAVVILFTGFNTADAIASMLIAVMILPRAWHLLRDVVDVLLEATPKGVQVQIIRDHILSVAGVVAVHDIHIWTITSGVPVFSAHVVVEDEALSARGADQVLDRLTNCLGAHFDTAHCTFQLEPASHAEHESHQHA	PGPT0004255_2127	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
D1-17_03448	960			hypothetical protein	ATGTCGCACAGTGAACCTCACAGTGGACCGCACAGTGAACGGCCTGGTCGTATGACGCACAGTCCGAGGGGACACAGTGAGAGGGCACGCAGTGAGGACTTGGGGACCCGGGAAGCGCCACCCACGGCTGGTGCGGCCCGCCCGGCGTCGAGCTCTGCACTGTTTGCTTCGGAACTGAAGCTGCTGTTCCGGCGGCGCAGGACGCAGGCGCTGCTGTTGGCGCTGGCGGCTATTCCGGTGCTGATCGCCGTCGTCGTCCGCATGTCCTCTGCGGTACCACCGGGTCGCGGGCCTGCCTTCCTGGACCGCATCACGCAGAACGGTCTGTTCGTGGGAGTCACGGCGCTGATCGTCGCCGTGCCGCTGTTCCTGCCGCTGACCATAGGAGTGGTGGCCGGGGATACCATTGCCGGGGAAGCCGGCCACGGCACTCTCCGGTACCTGCTCGTTGCCCCCGCCGGCCGTGTGCGGCTGCTCGTGGTGAAGTATGTGGGAGCCGCGGCTTTCTGCGTTGCCGCGCCGCTGTCGGTTGCGCTCGCGGGGGCCGGCATCGGGGCAGCGCTGTTCCCTGTGGGACCGGTTCCGCTGCTGTCCGGAGACGTGGTCGAGCCGGGTGAAGCGCTGGGCCGGATGCTGCTGATCGGTGCCTACCAGACGGTTTCGCTGCTGGGTCTGGCGGCGATCGGGCTGTTTCTGTCCACGCTCACGGACGTCCCCGTGGGGGCTATGGCCGCAACGATTGTCCTGTCCGTCGCCTCCCAGGTGCTGGACCAACTGCCGCAGCTGGAATGGCTGCATCCCTGGCTTTTCAGCCATTACTGGTTCGGTTTCGCGGATCTGCTGCGCCAGCCGATTGGATGGGAATCGTTCAGCAGCAACGCCATGCTGCAGGCGGGATACATCGCAGTATTTGGCGCTTTGGCCTACGGCAGGTTCGTCAGCAAGGACGTGCTGTCCTAG	MSHSEPHSGPHSERPGRMTHSPRGHSERARSEDLGTREAPPTAGAARPASSSALFASELKLLFRRRRTQALLLALAAIPVLIAVVVRMSSAVPPGRGPAFLDRITQNGLFVGVTALIVAVPLFLPLTIGVVAGDTIAGEAGHGTLRYLLVAPAGRVRLLVVKYVGAAAFCVAAPLSVALAGAGIGAALFPVGPVPLLSGDVVEPGEALGRMLLIGAYQTVSLLGLAAIGLFLSTLTDVPVGAMAATIVLSVASQVLDQLPQLEWLHPWLFSHYWFGFADLLRQPIGWESFSSNAMLQAGYIAVFGALAYGRFVSKDVLS	PGPT0006730_11095	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-17_03449	1122	btuD_7		Vitamin B12 import ATP-binding protein BtuD	GTGACGTCCCCTGGCAGCGGTCCGGGGCGCGCAGCTTTCGGGGCCGGAGCCTCCGGGCTCGCCATTGAGACCCGGGGGCTGACCAAGCGCTTCGGCCACCAGCTCGCCGTCAACAGCATCAATCTGGCCGTACCCAGGGGCTCCGTCTTCGGCTTCCTGGGTCCCAATGGTTCGGGGAAAACAACCACCATCCGGATGATGCTGGGCCTGGCAGCGGCCACGGCCGGGACAGTCAGCGTGCTCGGGCTGGAAATGCCCCGGCGGCTGGATGACGTGCTGCCACGGGTCGGCGCCCTGGTGGAGGGCCCAGCTTTCTATCCGTACCTGTCCGGCGCGGCCAACCTCAGCCGGTTTGATGCCGCGGACCGTCACGCGGTTCCCCGTACACGCCGTGCCCGCGTCGCGGAAGCACTTGAGCGGGTGGGGCTCTCACATGCTGCGAAGAAGAAGGTCCGGGCCTACTCGCTGGGAATGAAGCAGCGGCTGGGCATCGCCAATGCCCTGCTCTCCGACAGGGAACTGCTGGTGCTGGACGAACCGACCAATGGGCTGGACCCGCAGGGCACCCGAGAGGTCCGCAGCCTTGTGCGGTCCCTGGCGGCGGACGGGGCCACCGTCTTCGTGTCAAGCCACCTGCTCGCCGAAGTTGAACAGATCTGCACCCACGCGGCGGTCATGAGCGTTGGCCGCCTCGTAGCCCAAGGGACGTTGTCCGAGCTCCGCCAGGCCGGCACAGCTCAACTGCGGCTGCTGACTCCCGATGCCGGCCTGGCATCGGAGGTGCTGGCCAGACTGGGCATGACTCCGGTTCCGGATCATCGTGACGGGCAGGGTGCGGTCATCACGGCAGTGCTTCCCGAGGCGGGGCCGCTGGAAGATCCGGCGCTGTTAGATGACCCGGCGGTATGGGAAGACCCGGCGGTGCTGTCGAAAACTGCAGGACGGACCGGGGCGGGACCAACAGCAGGCGGGCAGCTCATGGCAGGGGTAACCGCTCCGGAGACGATCGTTGCTGCCCTGGTGGCTGGCGGCGTGCGCGTCCGCGGCTTCACCGTGGAGAGGGGAAGCCTGGAGGACCGTTTTGTAGCGCTGACGGGGGAGGGTTTCGATGTCGCACAGTGA	MTSPGSGPGRAAFGAGASGLAIETRGLTKRFGHQLAVNSINLAVPRGSVFGFLGPNGSGKTTTIRMMLGLAAATAGTVSVLGLEMPRRLDDVLPRVGALVEGPAFYPYLSGAANLSRFDAADRHAVPRTRRARVAEALERVGLSHAAKKKVRAYSLGMKQRLGIANALLSDRELLVLDEPTNGLDPQGTREVRSLVRSLAADGATVFVSSHLLAEVEQICTHAAVMSVGRLVAQGTLSELRQAGTAQLRLLTPDAGLASEVLARLGMTPVPDHRDGQGAVITAVLPEAGPLEDPALLDDPAVWEDPAVLSKTAGRTGAGPTAGGQLMAGVTAPETIVAALVAGGVRVRGFTVERGSLEDRFVALTGEGFDVAQ	PGPT0006725_3477	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-17_03450	1185			hypothetical protein	ATGACCTCCCAGTGGCTGCGGTGGATCCCCGCCGCAGCAGTCCCTGCTGCGATCGCTGCCGGATTCCTGGCAGGATCCGTTCCAGCCAGCGCCCGGGACCCTCTGCCGGAGAAGACGCCCGCGCAGGTCCTCGCCATGATTGCACAGCACTCCACGAAGTCGCTGTCCGGAACGCTGGAACAGACCTCCGAACTGGGCCTGCCCGACGTTCCGCAGATTGGTCCGAGCTCCGGCGCGGGAGCAGGCTCGGCGGTTGAACTGTTGACAGGGCCGCACACCGCACGGGTCTTCGTCGACGGGCCCGCCAAGGTCCGGATCCAGGTCTTGGACCGGCTCGCCGAACGCGATGCGGTGCGCAACGGGAACGAAGTCTGGCTGTACAACTCCAGGGACAACACGGCCACCCATGTGACGCTTCCGGATTCGCTCACGAAGCCGGACACGCTCAGGAAGAAGGGGGACGCCAGCACGCCGCCTGCCTCCCGGGTGCCGGGATCCCTGTCCACACCGGAGGAACTGGCAGCACGGGTGCTTGCGAAGATCGATGCCTCCACCGAAGTGACGGTGGGTGATGACGTGGAGGTTGCCGGCCGGGCCGCGTACAACCTGAAGGTGGCCCCACGGTCACAGGGAACGCTGGTGGAGTCCGTGGCCATTGCTGTAGACGGGGAAAAAGGCCTTCCCCTCAGTGTTGAGGTGCGGGCCTCCGGACAGGCCGAGCCCGCCTTCCGTACCGCTTTCACCAGCCTGACCCTGGAGACACCCGACGCGGGACTCTTCAGCTTCACTCCGCCGCCGGGTGCCACCATTAGGGAACGGGTGCTTCCCCCGCACCGCCACGGCGCACTGCCGCCTGACGCCGGAGTCCCGGGCAGGCATCATGCAGGGGACGGCAAGGCAGCGGCCGCAGAGAAGACGTCGTGGCGGGTGACCGGCTCGGGCTGGGAGTCCATCATGGAACTCCCGGCGCGGAACATCTCGCCTGATGCAGCTGCTCCTGGTGCCGGAGTTCCTTCCATTGACACTCTGTTGGCGGATCCGCTGCTGCGGCAGGCAACAGTCACCGTTACCGGCGGCCGGGCGATCTCGACATCTCTGCTTACTGTCCTGTTCACCGACGACGGCCGCGTCTTTGCCGGATCAGTTCCCCTCGAGCGGCTCCAGGCAGCCGCCGCCGCGAGGTGA	MTSQWLRWIPAAAVPAAIAAGFLAGSVPASARDPLPEKTPAQVLAMIAQHSTKSLSGTLEQTSELGLPDVPQIGPSSGAGAGSAVELLTGPHTARVFVDGPAKVRIQVLDRLAERDAVRNGNEVWLYNSRDNTATHVTLPDSLTKPDTLRKKGDASTPPASRVPGSLSTPEELAARVLAKIDASTEVTVGDDVEVAGRAAYNLKVAPRSQGTLVESVAIAVDGEKGLPLSVEVRASGQAEPAFRTAFTSLTLETPDAGLFSFTPPPGATIRERVLPPHRHGALPPDAGVPGRHHAGDGKAAAAEKTSWRVTGSGWESIMELPARNISPDAAAPGAGVPSIDTLLADPLLRQATVTVTGGRAISTSLLTVLFTDDGRVFAGSVPLERLQAAAAAR				NA	NA	NA	NA	NA
D1-17_03451	660			hypothetical protein	ATGCCTACCCTTACGGCCCCCTCCAGTCCTGCGGATGAAATGACGGGAATCGTCGGATTTGCAGCCCGGTCCATCGAGGCACTGGGCGAATGGGGCGTCGGGCTGTTCACCCTGGCCGAGACGGTGTTTCCCCCGATCCCCAGTGAGGTCATTCTGCCCCTCGCCGGTTTCCTGACCCGGCAAGGAACCATGAACCTCGGCCTCGTCTTCGTCACGAGCACGCTCGGGGCGTATCTGGGAGCTCTTGCCCTCTACTTCCTCGGAGCAAAAGTGGGGCTCGAGCGCTCGATCCGACTGCTCTCCAAACTGCCGCTCGTGGACCGCAGCGACTTTGAATCCGCCAACGACTGGTTCCGGCGCCACGGTAAGTCCGCCATCTTCTTTGGCCGCCTGCTTCCGGGCGTGCGCAGCCTCATCTCGCTGCCCGCCGGGGCGCAACGCATGCACCTGGGCACGTTCAGCCTCTTCACCATCGCCGGAAGCGGCATCTGGAACGGGGCACTGCTAAGCCTCGGCGCCCTGCTCGGAAGGCAGTACACGATGGTGGAGCAGTATTCGCGCTACCTCAATTACGCGGTGTACGCCGGGCTCGGGCTTTTCGTTGCCTGGCTCGTGGTGCGGTACGTCCGGCGCAAGAGGACGGCCGGGCAGAAGCAGTAG	MPTLTAPSSPADEMTGIVGFAARSIEALGEWGVGLFTLAETVFPPIPSEVILPLAGFLTRQGTMNLGLVFVTSTLGAYLGALALYFLGAKVGLERSIRLLSKLPLVDRSDFESANDWFRRHGKSAIFFGRLLPGVRSLISLPAGAQRMHLGTFSLFTIAGSGIWNGALLSLGALLGRQYTMVEQYSRYLNYAVYAGLGLFVAWLVVRYVRRKRTAGQKQ				NA	NA	NA	NA	NA
D1-17_03452	282	pigC		Prodigiosin synthesizing transferase PigC	GTGACCGCTGCGGCGCGGGTCATTCTGGACCCGGTGGGCGCGCACCTGGAACCTGGCGAAATCCTCGTTGCCCCCTCCACTGATCCAGGCTGGACCCCGCTGTTCCTCACCGCCGGGGGACTGGTGATGGAAATGGGCGGACCGAACTCGCACGGGGCCGTCGTGGCGCGGGAGTACGGCATACCCGCCGTCGTCGGAGTCCCGGACGCAACTACCCGTCTCCGGACGGGACAGAAGGTAATCGTCGACGGCGGCGCCGGCACCGTCGTGCCCGCCGTCTAG	MTAAARVILDPVGAHLEPGEILVAPSTDPGWTPLFLTAGGLVMEMGGPNSHGAVVAREYGIPAVVGVPDATTRLRTGQKVIVDGGAGTVVPAV	PGPT0011590_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-PRODIGIOSIN_METABOLISM,PGPT0011590-pigC|redH-K21787	NA	NA
D1-17_03453	2445			hypothetical protein	ATGAACGCCCTGGTTCTCGGCCTGGACGCTGTCAGCGCCGGGATGCTTGCCCGCGTGGGCGGCAAGGCCGCGAACCTCGGTGAACTGCTGTCGGCCGGATTTCCCGTGCCGGACGGCTTCTGCCTTACTACGGATGCATACCTCCAGGCAGTGGCTCCGCTCGGACTTGATGGAGTGTACCGCGCCCTGCAAGCCACCCCCGCGGACGACGTCGCCACCCTCGCCGGACTGGCTGGCGACGCCCGCGCGCTGATTACCTCCGCGGAACTGCCGCCCGTCATCGCGGAGGCAGTGCGCTCAGCATATGAGGAGCTGGGCGTGGACCTGCCGCACGTTCCGGTGGCCGTGAGGTCCTCGGCCACCGCGGAGGACCTGCCGCTGGCCAGTTTTGCCGGGCAGCAGGACACGTACTTGAATGTGGCCGGCCCGGAGGCAGTGCTTGACGCAGTGCGCAACTGCTGGGCATCGTTGTGGACCGATCGGGCGGTGGCGTACCGCGCGGACCGCCGCATCGACCCGTCCGCGGTGGCTCTCGCCGTCGTCGTCCAGCGCATGGTGGATGCCGCAGTGGCGGGCGTGATGTTCACGGCCAACCCGGTGACCGGCCGCCGCCGGGAGGCAGTAATTGACGCCAGCCCCGGCCTTGGGGAGGCAGTTGTGTCCGGCGCGGTGAATCCGGACCACTTCGTGGTGGAGATTGCCTCGGGGCAAATCCTGCAGCGGCGGCTGGGGGACAAGCGCATCCTCGTCCGGCCGCTGCCCGAAGGCGGCACCGAGCGGGTGGACCGGACCGGGGCCGGGGCCGGACAAGAATCCTCGTTGACTGACGCGCAGCTCCGCGGGCTGGCGGCATTGGGTGGCAGGGCCGAAGACCACTTTGGATCGCCGCAGGACACCGAATGGGCTATCGACCCTGCAGGCAAGGCCTGGCTGACTCAGTCCCGCCCCATCACCACGCTGTATCCCCTGCCGGAAAGGGCCCCTTCAACCGGTAAGGCCCCAGCAGAGGAAGGCCCCCGGGTCTTCCTCTGCTTCAGCCTCGCCCAAGGGCTGACGCGGCCGTTGACGCCGATGGGCATCGCAGCCTTCCGGCTCTTCGGCTCCTCGGTGGCCCGTGCCGCGTCATTCGACGTGCCCAACGCCAGGGCCGGGCCGCCGCCTTTCGCCGAAGCTGGCCAGCGGATATTCATCGACCTGACCGCCGCCGCCCGCAGCTCCGTGGGGCGCAGGGTCGTGCCCAAGGCCCTTGACCTCATGGAGGCGCGGTCCGCCGCTGTGCTGCGCAGCGTGTTCGAGGACCCGCGGTTCTGGGTGACCCGCCGCACTCCCTGGGCCCTTGTACGGCGCGTGGGACCGCTGGCAGTGCGGGCACGGGTGCCGGAGTCCCTGCTGCGCGCACTGCTGTTGCCGGAGGCTGCACTGCGGCGGGTGGACCGCTTCACCCGGGACTTCAGCAGGGCTCTGGAACTTCCCGCCGGTGCGTCTTCCCGGCATCGCCTCGAGCACGCAGAGAAGGTGCTCGCCGGGGCCTTTCTGATCGCTCCGTCCATTCTTCCGCTCCCGGCAGTGGGCTTTGCCCTGCTTGCGCTCGCCGGAAAGCTGCTGGGCGGGCGCGAACGGCGGGGCGACCTGCAGCCCATTCTCCGCGGACTCCCAAACAACATCACCACGGAGATGGATCTGGATCTCTGGCAACTTGCTACAGAGCTGCGCGCAGACAGCGAAGCCCGCAGGATGTTTGAGGAGCAGCCGCCCGCCGTGCTCGCACGGAAATTTACCGCGGGCGGGCTGCCTGCCACAGCTGAGTCGGGGCTTGCCCGCTTCCTGGAACGATATGGACACCGGGCAGTTGCGGAGATCGACGTCGGCATGCCTCGGTGGAGGGACGATCCCACCCACATTCTGGGTGTCCTGGCCAACTACCTGCGCCTTGAGGACCCTGACCTCGCGCCGGACCGGCAGTTTCGCCGGGCTGAGGCCGAGGCCGAGGCCCAGATTGCCCGGTTTGTGGCGGAGGCCGCCTCGAAAGGGCATTTCCGCGGCGCCGTAGTCCGGGCCGCGCTGAGACGGGCGCGGCTCTTTATCGGCCTGCGGGAGCGGCCCAAGTACCAGATTGTGCTGGCACTGGCGGAGGTCCGCCGGCAGATGGCCGAGGTGGGGAAAGAGCTGGCAGGGCTCGGGCGGCTCGCGCGGGCTGAAGACGTCTTCTTCCTCACCTTCGCCGATGTGGAGCGTGCACTCGACGGCAGCGGCATGCAGGACCTCGTGGCGCGGCGGCAGGGCGCCTACTACCTCGAACTGGAGCGGCGCCACATCCCGCGGATGCTGCTCTCGGACGGCACCGAACCCGAAACGCTGCTTTCCCCCACAGCGGGGGGACAGCAGCCGCCGGGGCCGCAGCGGACGGTACCCTCGCCGGAAGCCCCGCTTCCGCCGGCACCGTGA	MNALVLGLDAVSAGMLARVGGKAANLGELLSAGFPVPDGFCLTTDAYLQAVAPLGLDGVYRALQATPADDVATLAGLAGDARALITSAELPPVIAEAVRSAYEELGVDLPHVPVAVRSSATAEDLPLASFAGQQDTYLNVAGPEAVLDAVRNCWASLWTDRAVAYRADRRIDPSAVALAVVVQRMVDAAVAGVMFTANPVTGRRREAVIDASPGLGEAVVSGAVNPDHFVVEIASGQILQRRLGDKRILVRPLPEGGTERVDRTGAGAGQESSLTDAQLRGLAALGGRAEDHFGSPQDTEWAIDPAGKAWLTQSRPITTLYPLPERAPSTGKAPAEEGPRVFLCFSLAQGLTRPLTPMGIAAFRLFGSSVARAASFDVPNARAGPPPFAEAGQRIFIDLTAAARSSVGRRVVPKALDLMEARSAAVLRSVFEDPRFWVTRRTPWALVRRVGPLAVRARVPESLLRALLLPEAALRRVDRFTRDFSRALELPAGASSRHRLEHAEKVLAGAFLIAPSILPLPAVGFALLALAGKLLGGRERRGDLQPILRGLPNNITTEMDLDLWQLATELRADSEARRMFEEQPPAVLARKFTAGGLPATAESGLARFLERYGHRAVAEIDVGMPRWRDDPTHILGVLANYLRLEDPDLAPDRQFRRAEAEAEAQIARFVAEAASKGHFRGAVVRAALRRARLFIGLRERPKYQIVLALAEVRRQMAEVGKELAGLGRLARAEDVFFLTFADVERALDGSGMQDLVARRQGAYYLELERRHIPRMLLSDGTEPETLLSPTAGGQQPPGPQRTVPSPEAPLPPAP				NA	NA	NA	NA	NA
D1-17_03454	1038		COG0589	Universal stress protein	ATGGGCGCACACGAGTTGCATCCGGACCCGGCACGGGATGGCGGCGGCAGGTCCGTCAGACCCGAGGGGATAGTGGTGGGCGTCGACGGCTCTGAGCACGGGCAGTGCGCCCTGGTATGGGCCGCCCGGGAAGCCGAGCGCCGCCGTCGTCCTCTCCATATCGTCACTGCCTATTCCGTTCCCATTTTTGCAGCGTCCGGCCTCGACGGCGGCTACGCCACAGTGGACGACTCCGTGATCCGTGAAGGAGCCGAGGCCATCCTGAAACATGCGGTGGACAAGGTGGCTCCCTACAGCATCGACGTCACCGCCTCCGTCGAGAACGGTGACGCTTCGGGTGTGCTGCTTGAGATGTCGGAAACGGCCGAGCTTCTGGTCGTCGGGACCAGGGGGCGCGGCGGCTTCGTGGGGCGGCTCCTCGGCTCGGTGAGCAGCGCCCTGCCGGCGCATGCCAAGTGCACCACCGTGACCGTTCCACTCGTTTGCGCCGATCGGCTGGGCGAGACCACCCAGGACAAGCACATCAAGGCGGAACAGGCCAAAGCAGGCCGCCCTCCCGTGGAGAACGTCGTGGTGGTCGGTGTGGACGGGTCGGAGCACGCCCGGGTGGCGGTGCTTGAAGCTGCGGAGCAGGCGGGACGCCTCGGGGCACCCCTTCGGGTGATCTGTGCCGTTCCCCAGTACAGCGGCTCGCTGGCATGGGTGCCCGCGCCGATGGACCGGGAGGCGCTCTTCGCGGACATCCAGGTTCAGCTGAAGGCCGGCGTCGCCTGGCTGCAGCACCACTTCCCCCGGCTCACCATCGAGACCCGGCTCCTGGACGGTTCCCCGGTGGACGTGTTGGTGGACGCCAGCCGCCACGTGGAGCTCGTGGTTGTCGGCACCCGCGGCCGCGGCGGATTCACCGGGATGCTCCTGGGCTCCACTTCCGACGGCGTGCTGCACCACGCGAAGAGCCCCGTCATGGTGGTTCCTGACAGGGCAGACCCGCGGCTTGCCGACCGCGCCAGCTTCGGTCCAATGCTGGGTGCCGCGTAA	MGAHELHPDPARDGGGRSVRPEGIVVGVDGSEHGQCALVWAAREAERRRRPLHIVTAYSVPIFAASGLDGGYATVDDSVIREGAEAILKHAVDKVAPYSIDVTASVENGDASGVLLEMSETAELLVVGTRGRGGFVGRLLGSVSSALPAHAKCTTVTVPLVCADRLGETTQDKHIKAEQAKAGRPPVENVVVVGVDGSEHARVAVLEAAEQAGRLGAPLRVICAVPQYSGSLAWVPAPMDREALFADIQVQLKAGVAWLQHHFPRLTIETRLLDGSPVDVLVDASRHVELVVVGTRGRGGFTGMLLGSTSDGVLHHAKSPVMVVPDRADPRLADRASFGPMLGAA				NA	NA	NA	NA	NA
D1-17_03455	633			hypothetical protein	GTGTCAAGCACGCCTGGTCTCAGCGGGGCAGAACGGACCACCACCGTGGTCATTGGTACAGGCCTTCCCGGCCTGGCCATCGCCACGGAACTGCGCCGGCGGGGTGTGGACGCCATCATCGTCAGCGGCCTCGAAGCCCCCAGTAGCGGCAACACTCCCCAGACCGCACCCCTGCAACGATGTGATGCTCCCGGCACGCCTTCCCGGGAAGAGCGCAACGAGATCCTGCGCCAGCTCCGCAACTATGCCTCAAGCCATCAGCTCGACATCCGCAAGGACACCTCAGCCGTACTGCTCGACAAGATGGGGGCCGATGCGTCCCTCCACCGCTGGGCAGTCCACACCCCCGACGGTGTCCTGCTGGCAGACCACATCGTCCTCACCCGCTGCGCCAACAGCCAGCTCCGCCGCATGCTTACCGATCTGGGCATCTCCGTGGGCCAAAACCTCGTGGCCGCCATGCGCGCCATCGGCATCTACCTCGTGGGCGTGGGCGAACTGATCACGCCCACGCCCCGGGAAGTCCTCCGGCAGGCCAAGGCCGTGGGACAGGCGATCTCGGCCAAGGTCCACCCTGACAGCGTCCCGTCCGTGCTGACGGGCAGCTTCGCCGCCTTGCCTGCCCCGCTGTAG	MSSTPGLSGAERTTTVVIGTGLPGLAIATELRRRGVDAIIVSGLEAPSSGNTPQTAPLQRCDAPGTPSREERNEILRQLRNYASSHQLDIRKDTSAVLLDKMGADASLHRWAVHTPDGVLLADHIVLTRCANSQLRRMLTDLGISVGQNLVAAMRAIGIYLVGVGELITPTPREVLRQAKAVGQAISAKVHPDSVPSVLTGSFAALPAPL				NA	NA	NA	NA	NA
D1-17_03456	597			hypothetical protein	ATGCCTTCCATCCGCCAGCTGCTGACCGCCGTCCTGGCGGCCGTCACCTTTGCCGCGCTGCTTTTCGCCGCCGGTCCGGCCTCTGCGCACGACGCCGCCGAGGCAAGCAGCCCGTCCGACGGCGCCACTGTTGCGACCCCGCCCGCAGAGGTATCCATCACGTTCAACCAGGCCCCGCTCGGCCTGGGCTCACAGGTCAGGATCAGCGATCCGGCCGGAACCGACTGGGCTGACGGCAAGGTGGAGATCGTGGACAACGTGGCCACCCAGAAGCTCCGGGAGGGTGCCCCGGCGGGCAAATACACGGTGCAGTGGCGCGTGGTCAGTTCGGACTCGCATCCCATTGAGGGGACGTTCTCGTTCACTGCCACCGCCGGGGCGGCGGGTCCGACGGCGGCCGCGCCGGTTCCCACGGTCGGCACGCCGCAGCCGGGCCTCACCCCGGCGCCCGAGAAGGCGCCGGACGCCTCGGAACCTTTCCCATGGAGCCTGGTGGTGTTTGCCGCGGTTGCGGTGGGGCTGCTGGTGGCCCTTGGAGTCCTGGCGCGGCGAAGGCTCGCGGGGAACGACGACACGGCCGACGGCACGGGGCCGTAG	MPSIRQLLTAVLAAVTFAALLFAAGPASAHDAAEASSPSDGATVATPPAEVSITFNQAPLGLGSQVRISDPAGTDWADGKVEIVDNVATQKLREGAPAGKYTVQWRVVSSDSHPIEGTFSFTATAGAAGPTAAAPVPTVGTPQPGLTPAPEKAPDASEPFPWSLVVFAAVAVGLLVALGVLARRRLAGNDDTADGTGP	PGPT0004115_175	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004115-pcoC|copC-K07156	NA	NA
D1-17_03457	1443	pbuG_2	COG2252	Guanine/hypoxanthine permease PbuG	ATGCTTAAGCAGGGCTCTGCACTGGACCGGTATTTCAAAATATCCGAGCGGGGGTCAAACGTTTCCCGTGAGATCCGCGGAGGTTTCGCCACGTTCTTCGCCATGAGCTACATCGTGGTGCTGAACCCCCTGATCCTGTCCGGTCCGGACTCCACCGGAGCCACCCTTGGCTTCCCCGCCGTGGCGGCGGTCACCGCGTTCGCGGCGGGCATCCTGACCATTTTGATGGGTGCCTGGGCGAAGCATCCCTTCGCGATGGCCACGGGCCTGGGCGTCAACGCCTTCGTGGCAGTCACGGTTGCCACCAGCCCTGGCCTGACCTGGCCGGACATGATGGGCCTGGTGGTCCTCTCCGGCATCACCATGCTGATCCTGGTGCTGACCGGTTTTCGGACCGCGGTGTTCAAGGCGGTGCCGGACGGGCTCAAGACCGCGATCGTGGTGGGGATCGGCCTGTTCATCGCCCTGATTGGCCTGGTGAACGCCGGTTTTGTGCGGCGCATACCGGACGTTGCCGGCACCACAGTGCCCGTCGGGCTCGGGTTTGACGGCAAGCTCCTGGGCTGGCCGACGCTGGTGTTCATCTTCGGCCTGATCCTGACCATCGCCCTGCTGGTCCGCAACGTCAAGGGCGCCATTCTGATCGGCATCATCGCCTCCACCATTCTCGCGGTGATCCTGGAGTCCACGCTGCGCATCGGCCCCAGCTTCGACGGCGAGAACTACAACCCCGAGGGCTGGTCCCTGGTTGCCCCCAGGTTCACCGAATGGGCCGCCCCCGACCTCTCCCTCATCGGCAAGGCCAACCCCGCCGGCGCCTTCGAGCATCTGGGCTTTGTCGCGGCAACCCTGCTGGCGTTCGTGATCCTGCTCAGCATCTTCTTCGACGCGATGGGCACCATGGTGGGCCTGGCCAATGAGGCCGGAACGGTGGACAAGGACGGCAACATCCCCAACGTGGACCGTGTGCTGCAGGTGGACGCGCTTGGTGCGATCGTCGGCGGCGGGGCATCCGTGTCCTCCAACCAGATCTACGTCGAATCCGGCGCCGGCATCGGCGAAGGCGCGCGGACCGGTCTGGCCTCGATCGTGACGGGCCTGCTGTTCCTGGTGGCCATGTTCTTCACCCCGCTCATTAATCTGGTGCCGTTTGAGGCAGTGGCTCCCGCCCTCGTGGTGGTCGGCTTCATGATGGTGGCCCAGGTGGGCAAGATCCACTGGCAGGACTGGGGCATCGCCCTCCCCGCGTTCCTCACGTTTACGCTGATGCCGTTCACCTACTCGATCGCCAACGGACTGGGCGCCGGTTTCATCTCCTACGTTCTTATCCGCGCTTTCCAGGGCCGGGCGAAGGAAGTGCACCCGCTCATGTGGGCAGTGGCGGCCGCGTTCGTACTGTTTTTTGCAATCGGCCCCATCGAGCAGGCCCTCGGCATGGAATAG	MLKQGSALDRYFKISERGSNVSREIRGGFATFFAMSYIVVLNPLILSGPDSTGATLGFPAVAAVTAFAAGILTILMGAWAKHPFAMATGLGVNAFVAVTVATSPGLTWPDMMGLVVLSGITMLILVLTGFRTAVFKAVPDGLKTAIVVGIGLFIALIGLVNAGFVRRIPDVAGTTVPVGLGFDGKLLGWPTLVFIFGLILTIALLVRNVKGAILIGIIASTILAVILESTLRIGPSFDGENYNPEGWSLVAPRFTEWAAPDLSLIGKANPAGAFEHLGFVAATLLAFVILLSIFFDAMGTMVGLANEAGTVDKDGNIPNVDRVLQVDALGAIVGGGASVSSNQIYVESGAGIGEGARTGLASIVTGLLFLVAMFFTPLINLVPFEAVAPALVVVGFMMVAQVGKIHWQDWGIALPAFLTFTLMPFTYSIANGLGAGFISYVLIRAFQGRAKEVHPLMWAVAAAFVLFFAIGPIEQALGME	PGPT0007325_1528	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007325-pbuG|azgA|ghxP|ghxQ|adeQ-K06901	NA	NA
D1-17_03458	1014	hutG	COG0010	Formimidoylglutamase	ATGGACTTTCCTGCACTCTCGGTTGATGTTCCGCCCCATGCCTGGACGGGACGTTTCGACGGCGACGGCGCAGCCCATCGCCGCTGGTGGCAGGCCGTAACGCGTTACGCCGAAGCCCGGCAGGACCGCAGTCCCCTGCTTGCCGATCCGCCCGTCCGGGTCACCCCTGCCGGGACGGGCAGTCCCTCTTCAGCGGGCCGTCCCGCCGTAGTCCTCGGTTTCTGCAGCGACGAGGGCGTACGGCGCAACAAGGGACGCACCGGTGCCGCCAAGGCTCCGGCCGCCATCCGCAGCGCACTCGGCCCGCTCGCGTTCCATCTGGACCGGCCGGTTCTCGACGCCGGTGACGTCACCATCCGGAGCGGCGAACTGGAGGCCGCCCAGGCCCGCGCCGGACTTGCAGTCTCGACTCTCCTCGATGCCGGCAACCTGACTGTACTCCTGGGCGGAGGCCATGAGACGGCCTTCGCCAGCTACCTTGGCGTCGCCGGCGCGGAGGCTGTTCGCGGCGGGAAACGGTGGGGCGTTCTCAACCTGGACGCCCACTTCGACCTCCGGGATGAGGCCGCAGCGAGCTCCGGCACGCCGTTCCTCCAGATGGCCCGGGCGGAAGCTGCCGCCGGCCGTGCGCTGAAGTACGCCGTCGTCGGCATCTCCGAACCAAACAACACGGGTGCGCTCTTTGCCACGGCTGATCGCCTGGGCGTGAAATACCTGCTGGATGAGGAGAGCACACCGGACACCGCACAGGCGTTCGTGGCGGACTTCCTGGCGGACATCGACGCGCTGTACCTGACCATCGACCTCGATGTGCTGCCGGCCGCGGTAGCGCCCGGAGTGAGCGCGCCTGCGGCGTTCGGGGTCCCGCTGCCCGTGATTACCGCGGTGTGCCGCCAGGCGGCTGCCAGCGGCAAACTGCTGCATGTCGACGTGGCGGAGCTGAACCCCGCGTTCGACGTCGACAACAGGACCGCCCGGGTGGCGGCACGGCTGATCAATACACTGCTGGCCTAG	MDFPALSVDVPPHAWTGRFDGDGAAHRRWWQAVTRYAEARQDRSPLLADPPVRVTPAGTGSPSSAGRPAVVLGFCSDEGVRRNKGRTGAAKAPAAIRSALGPLAFHLDRPVLDAGDVTIRSGELEAAQARAGLAVSTLLDAGNLTVLLGGGHETAFASYLGVAGAEAVRGGKRWGVLNLDAHFDLRDEAAASSGTPFLQMARAEAAAGRALKYAVVGISEPNNTGALFATADRLGVKYLLDEESTPDTAQAFVADFLADIDALYLTIDLDVLPAAVAPGVSAPAAFGVPLPVITAVCRQAAASGKLLHVDVAELNPAFDVDNRTARVAARLINTLLA	PGPT0020240_285	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479	NA	NA
D1-17_03459	2205	pbpF	COG0744	Penicillin-binding protein 1F	ATGGCAGTGAAGAGGTTTTTATCCCGGGCTGGTCGGGCCTTGGCGGCAATGGTGGGTTTCCTGCTTGTCAGCGGCATCTGCGGTGTCCTCGTAGCCGGCTTCCTGGTCCCGGGCGCGGCCCTTGCCGGGACCACCGTCAGCCGGTCCATCGACTACTTCAACAGCCTGCCCACGGAGCTTGCCGTCCAGCCACCGGCCCAGACCACGCGGATGGTGACGGCGGACGGAAAGCCGATCGCGACGTTCTACGCGGAAAACCGGGTGCGTGTCCCGCTCAGCAAAATGTCGCCGTTCATCAAGAACGCCGTGATCGCCATTGAGGACACCCGCTTCTACGAGCACAGCGGCGTGGACACCCAGGGCGTCCTGCGTGCACTGACCAGCAACCTTACCCGCGGTGAGCGGCAGGGCGCGTCGACGCTGACCCAGCAATACGTGACCAACATCGTCAACGAGGCTTTGATCTCCACAGGGCGCGAGGAGCAGGTGATCCTCAGCGGGCAGAAGAACATGGGGGACAAGCTGCGTGAGATGCGCCTTGCCATGGCCTTGGAAAAGAAATTCACCAAGGACCAAATCCTTGAGGGCTACCTCAACATCGTCTTCTTCAACCGCAACGCCTACGGCATTGAGGCAGCCTCCCAGTACTTCTTCAGCGTTCCTGCGAGCAAGCTGACGCTGCCCCAGGCAGCCCTGCTGGCCGGGCTGGTTAACAGCCCCAGCTTCTATGACCCGGTAGCCAACCCGAAGAACTCCATCCAGCGGCGCAACCAGGTGCTGGACGCGATGCTTAGCGAGCGCATGATCAGCCGCAAGCAGCACACCGCCGCCAAGGCGGCGGGCATTGGCCTCAAGGTAAAGCCCTCGAAGCAGGGCTGCGCCGCCGCGGCAATGGCGCCTTATTTCTGCGACTATGTCACCCGCCTGATCCTCAATGATCCCGCCTATGGCCCCGATACCGAAGCCCGCGAGCAAAAGCTGTACCGAGGCGGGCTGACCATCACCACGACCCTCGATACCCGGCTTCAGGCAGCGGCCCAGTCACAGGTGAACTCGACTGCCGGACCGAACCCGGGCAAGTGGGGGGCCGCCCTGGTCTCGGTGCAGCCGGGGACGGGCAAGATCCTTTCCATGGCCCAGAACACGGTGTACCTGCCTAAACCCGGGCAGTTCGATACCCAGCTGAATTTCAACGTGGACGCCACGGACCCCAACGGCAATGAGCTTAACGGCGCGGGCGGCTTCCAGCCCGGGTCCACCATGAAGCCCCTGACGTTCGCGCAGTGGTTGAACGAGGGCAAGACCATCACCGAAACCGTGGATGGCTCCAAGCGGGAGTACCCGCTCGGGTTCCGCTGGCGGTCCTCCTGCGGCAAGGTGGCCGGCGCCTACAGCACGAAGCAGAACAGGGCGGGGCTTGAGGCGGCGGAGGATCTGCAGAACGCCGACGCCGGCTACTACCGGAAGATGCCGGTCAACTACGGGCTGTACAACTCCATCAACACCGCCACGTTCGCCTCCGCCGCGCAGCTGGATTTCTGCGGCATCCAGAAGATGGTCAACGCGGTGGGTGTCCACAACGGGCTGGACGGCACGCCCGTCAATATGCACCAGCTGGGCAACCTGCTGGGTGGCACAGGAGTTGCGCCGCTGACCATGGCGAACGCCTTCGCCACCTTCGCCGCGGACGGCCGCTACTGCTCTCCGGTAGCCATCCTGCGGATCGCTGACCGGGCAGGGAAACCCCTTCCTGTGCAGTCACCGGGATGCCGCGACGCAGTGGACCGCGACGTTGCCCGCGGTGTGAACGCAGTCCTGCAGGACGTGCTCAAGGTGGGGTCGGGAATCCACATCAACCCCAAGGTTTCGCGCGGACTCCCCGTGGCTGCCAAGACCGGCACGAACAACAACAACGGGGCCAGCTGGGTGGTGGGCTACACCACCGGACTTTCCACGGCCTCCTTCTTCGGCGACGCCCTGGAAGGCCAGCAGCGGCCCGGCCGGAACCTGACGATCAACGGGAAGTTCTATTCGCGGGTTGACGGGTACATGATCGCTGGCCCGCAATGGGCCAACTACACGAACAACGTGGCCAGGCTGTACCCGGCCGAATCATTTGCGAAGCCGCCGGCCTCCATGGTCAAGAAGCCGGCTCCGAAACCCAAGCCCGCGGCCCCGCCCAACCGCAAGCCAGGCAGCCGCTAG	MAVKRFLSRAGRALAAMVGFLLVSGICGVLVAGFLVPGAALAGTTVSRSIDYFNSLPTELAVQPPAQTTRMVTADGKPIATFYAENRVRVPLSKMSPFIKNAVIAIEDTRFYEHSGVDTQGVLRALTSNLTRGERQGASTLTQQYVTNIVNEALISTGREEQVILSGQKNMGDKLREMRLAMALEKKFTKDQILEGYLNIVFFNRNAYGIEAASQYFFSVPASKLTLPQAALLAGLVNSPSFYDPVANPKNSIQRRNQVLDAMLSERMISRKQHTAAKAAGIGLKVKPSKQGCAAAAMAPYFCDYVTRLILNDPAYGPDTEAREQKLYRGGLTITTTLDTRLQAAAQSQVNSTAGPNPGKWGAALVSVQPGTGKILSMAQNTVYLPKPGQFDTQLNFNVDATDPNGNELNGAGGFQPGSTMKPLTFAQWLNEGKTITETVDGSKREYPLGFRWRSSCGKVAGAYSTKQNRAGLEAAEDLQNADAGYYRKMPVNYGLYNSINTATFASAAQLDFCGIQKMVNAVGVHNGLDGTPVNMHQLGNLLGGTGVAPLTMANAFATFAADGRYCSPVAILRIADRAGKPLPVQSPGCRDAVDRDVARGVNAVLQDVLKVGSGIHINPKVSRGLPVAAKTGTNNNNGASWVVGYTTGLSTASFFGDALEGQQRPGRNLTINGKFYSRVDGYMIAGPQWANYTNNVARLYPAESFAKPPASMVKKPAPKPKPAAPPNRKPGSR				NA	NA	NA	NA	NA
D1-17_03460	1305	nhaP2		K(+)/H(+) antiporter NhaP2	ATGTTTGAAGCCCCGAGCATCCTTTTCGCTGCAGCCGGTGCCGCCGTCTTCTTCGCCGCCGTCCTGCCCAAACTCCTGCGCAACATGCCGTTGTCCATGCCCATGGTGTTTCTCGCGTCCGGATTTGCCGTCTTCTCGCTGCTGGGCGACCTCCCGGACCCCGACCCGACGACGCACTCTGACTTCACGATGCACCTGACGGAAGTCTGCGTCATTATCTCACTCATGGGCGCCGGGCTGGCCCTTGACCGCCCCCTCGGACGCCTCCGCTGGGCCACCACGTGGCGGATGCTGGGGATTGCGATGCCGGCGTGCATCCTCCTGCTGACGCTGCTGGGACTGTGGGTGCTTGGACTGGGGCTGGCAGCCGCTGTGCTGGTTGCGGCCACACTGGCGCCCACGGACCCTGTGCTGGCGTCCGAGGTGCAGGTGGGCGAGCCTGCCGACGAGGAAGAGGAAACCGACAAGGAGGATGAAGTCAGGTTCGGGCTGACCTCCGAAGCCGGGCTCAATGACGGCCTCGCTTTCCCCTTCGTGTACCTGGCCATCGCCATGAGCGTGGCGGGGACGTCGCCCTCCGCCTGGTTCCCCGAGTGGTTCGCCGTGGACGTGCTGTGGCGCATCGGCGTGGGCCTGCTGCTGGGCTTCGGAACCGGCAAGCTGCTGGCCCGGATCTTCTTCTCCGCCCGGCATGACAGCATCAGGCTGTCCAACCACTCTGAGGGCTTCGTGGCGCTGGCGGCCACCTTCTTGGCCTACGGCGTGACGGAGATGATTGAGGGCTACGGCTTCATTGCGGTGTTCGTCTGCGCCGTGACCATCCGGGCCGCAGAGCACACCCACGGTTACCATAAGGTGCTGCACTCCTACGTGGAACAGCTCGAGCGGCTCATGACGGTGGTGATCCTGGTCCTGCTCGGCGGTGCCATAGGCAGGGGCCTGCTGGCCGGTGTCGGCTGGGCCGAAGTAGCCGTGGCCCTGATTTTCCTGGTGCTGGTCCGGCCACTGTCCGGCTGGCTGGCCCTCGCGCGGGGAAAGACCGGTCCCCGGGAAAGGATCGCCATCTCCTTCTTCGGTATCCGGGGCATCGGCTCGCTGTACTATCTGGCCTACGCCCTCGGCAAGGGCGACTTCAGCGACCAGGCGGACTACCTGTGGGCAGTTGTGGGGCTGGTGGTGGCAATGTCCGTGGTGCTGCACGGTGCCACCACGGCACCTGTCATGCAGCGGCTGGACCGGCTCCGTGAACGCCGGGCAGCCGAGAAGTTCGGAGACGAGGGCAAGGCGCCGCAAACCCCTGTGTGA	MFEAPSILFAAAGAAVFFAAVLPKLLRNMPLSMPMVFLASGFAVFSLLGDLPDPDPTTHSDFTMHLTEVCVIISLMGAGLALDRPLGRLRWATTWRMLGIAMPACILLLTLLGLWVLGLGLAAAVLVAATLAPTDPVLASEVQVGEPADEEEETDKEDEVRFGLTSEAGLNDGLAFPFVYLAIAMSVAGTSPSAWFPEWFAVDVLWRIGVGLLLGFGTGKLLARIFFSARHDSIRLSNHSEGFVALAATFLAYGVTEMIEGYGFIAVFVCAVTIRAAEHTHGYHKVLHSYVEQLERLMTVVILVLLGGAIGRGLLAGVGWAEVAVALIFLVLVRPLSGWLALARGKTGPRERIAISFFGIRGIGSLYYLAYALGKGDFSDQADYLWAVVGLVVAMSVVLHGATTAPVMQRLDRLRERRAAEKFGDEGKAPQTPV	PGPT0013856_588	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013856-NHA1_like|SOD2_like-K24160	NA	NA
D1-17_03461	246			hypothetical protein	ATGGAGCGCCCAGCCGCTTCGTCGCCCGCGTTTGGCTCGACGGATACCCGGTCAATACATCTGGCATTCACCAGTGCAGACCAGGTCCACGAGGGCCTGGACACAGCAGTCGAAGCACTCATTCAGACAGCCGCCCAGGAAGGCCAGTGCGGCATCAGGGTGACCCGCATTGAACCGGGCCGCTACACCGTCGCCCTCGATGAGTCCGTTCCCTTCGGCGAGACGCACGAGGACATCGCAGCCTAG	MERPAASSPAFGSTDTRSIHLAFTSADQVHEGLDTAVEALIQTAAQEGQCGIRVTRIEPGRYTVALDESVPFGETHEDIAA				NA	NA	NA	NA	NA
D1-17_03462	237			hypothetical protein	ATGAAAGCACGCGGGGCAGTCCTGTCCAGGCGCATCGCACATGCTGCCACGGTTCCCGACTGGGGATCGTTGCATCAGGGTGAGCGTGTCGAGATCCTCAAACATGCGCATGTCATTGCGTCCGGCGAGGTAGAGGAAATCTCACGAAGCGGAAACGTCCTCTGGCTTGTGGGCAGTGGCCATTCCGAGTCTCAGCCCTTCATGAAGTCGGACGGCGTGCAGGTCCGGCGGGCCTAG	MKARGAVLSRRIAHAATVPDWGSLHQGERVEILKHAHVIASGEVEEISRSGNVLWLVGSGHSESQPFMKSDGVQVRRA				NA	NA	NA	NA	NA
D1-17_03463	1593	hutH_2	COG2986	Histidine ammonia-lyase	ATGACACTTACGACCCACGAACAGCTGACCGTCACCCTCGGCTCCAGCGGCACCACCCCCGAGGACGTGGTCGCCGTCGCGCGCCATGACGCGAAGGTGACCATTTCGGCCGAAGCCCTGGACGCCGTGGCCAAGGTCCGTGCGCACATCGACAGCCTTGCCTCCAGTGACGTTCCCGCCTACGGAATCTCCACCGGCTTCGGCGCGCTCGCCAACCGGCACATCCCCAACGAACTGCGCACGCAGTTGCAGAAGTCGCTCATCCGCAGCCACGCTGCAGGCATGGGTCCGGCAGTGGAGCGTGAGGTAGTCCGCGCGATTATGTTCCTGCGCGCAAAAACCCTCGCCTCAGGCCGCACCGGCGTCCGGCCCGTCGTGCTGCAGACCATGGTGGACGTGCTCAACGCCGGCATCACGCCGGTGGTGCGGGAATTCGGTTCACTCGGCTGCTCCGGCGACCTCGCACCCCTCTCCCATTGTGCCCTGGTGCTCATGGGCGAAGGTGAGGCCACCGGACCTGATGGCGAGCTTTATGGCGGCAAGGACGGGCGGCCGGTGGCTCAACTCCTTGCCCTGCACGGCATTGAACCGGTGGTTCTTGCGGAAAAGGAGGGCCTGGCGCTGGTCAACGGCACCGAGGGCATGCTGGGCATGCTGCTCATGGCCATCGCAGACATCCGGCAACTGCTGACGACGGCGGACATCACCGCAGCGCTCAGCGTCGAGGCGCTGCTGGGCACCGACCAGGTGTTCCTGCCCGAGCTGCACGCGGCGCTGCGCCCGCACCCGGGACAGGCCGCCAGTGCAGAGAACATGCTGCGGGTCCTGTCGAACTCCCCGATCGTGGCCTCACACCGTGTGGGGGATTCCAAGGTGCAGGACGCCTACTCGCTGCGCTGCGCTCCCCAAGTGGCCGGAGCCGTCCGCGACACCGTGGACCATGCTGCCCTCGTGGCCTCACGCGAACTGGCAGCCGCCATCGACAATCCCGTGGTCCTTCCGGATGGCCGGGTTTCCTCGAACGGCAACTTCCATGGAGCTCCAGTGGCGTATGTCCTGGACTTCCTGGCCATTGCCGTCGCAGACCTCAGCTCCATAGCGGAGCGGCGCACAGACCGCATGCTCGACCCTGCCCGTTCTCACGGGTTGCCGGCGTTCCTGGCCGGTGACCCCGGTGTGGACTCGGGACTGATGATCGCCCAGTACACCCAGGCCGGGCTGGTCTCGGACAACAAGAGGCTCGCCGTTCCTGCATCCGTGGACTCCATTCCCAGTTCCGCGATGCAGGAGGACCACGTGTCCATGGGCTGGCACGCTGCGCGCAAGCTGAGAAAGGCTGTGGAGAATCTGCGCCGTGTTCTGGCGGTGGAGCTCGTGACGTCCGCCCGTGCCATCGACATGCGCATGCAGCTCTCCGATGGCGTCCTGACCCCAGGGCCTGCCGGCGCCGCAGTCATCGCCGCGCTGCGCGCTGTCGTCGACGGCCCCGGCACGGACAGGTTCCTGTCACCGGAGCTGGAGGCGGCTGACCGGCTGGTGGCATCCGGGGATGTGCGGGCGGCTGCCGAATCAGCAGTGGGCGTTCTCGCCTAG	MTLTTHEQLTVTLGSSGTTPEDVVAVARHDAKVTISAEALDAVAKVRAHIDSLASSDVPAYGISTGFGALANRHIPNELRTQLQKSLIRSHAAGMGPAVEREVVRAIMFLRAKTLASGRTGVRPVVLQTMVDVLNAGITPVVREFGSLGCSGDLAPLSHCALVLMGEGEATGPDGELYGGKDGRPVAQLLALHGIEPVVLAEKEGLALVNGTEGMLGMLLMAIADIRQLLTTADITAALSVEALLGTDQVFLPELHAALRPHPGQAASAENMLRVLSNSPIVASHRVGDSKVQDAYSLRCAPQVAGAVRDTVDHAALVASRELAAAIDNPVVLPDGRVSSNGNFHGAPVAYVLDFLAIAVADLSSIAERRTDRMLDPARSHGLPAFLAGDPGVDSGLMIAQYTQAGLVSDNKRLAVPASVDSIPSSAMQEDHVSMGWHAARKLRKAVENLRRVLAVELVTSARAIDMRMQLSDGVLTPGPAGAAVIAALRAVVDGPGTDRFLSPELEAADRLVASGDVRAAAESAVGVLA	PGPT0020230_593	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
D1-17_03464	1704	hutU	COG2987	Urocanate hydratase	ATGGCACCCGCCGATTTCACCACCGGTGCCCGCCCGGTCAAAGCAGCCCGCGGCACCGAGCTGACGGCCAAATCCTGGCAGACGGAAGCCCCACTGCGCATGCTCATGAACAACCTGGATCCTGAAGTCGCCGAGCGTCCGGATGACCTGGTGGTCTACGGCGGCACCGGCCGGGCGGTCCGGAGCTGGGCCGCGTTCGATGCCATCACCCGCACCCTCGAGACCATGGACAAGGACGAGACCCTGCTGGTCCAGTCCGGCAAGCCCGTAGGCGTCTTCCGCACCAACGAATGGGCGCCGCGCGTGCTGCTGGCCAACTCCAACCTCGTGGGTGACTGGGCCACCTGGCCCGAATTCCGCCGCCTCGAAGCCGAAGGCCTGATGATGTACGGCCAGATGACCGCGGGGTCCTGGATCTACATCGGCACCCAGGGCATCCTGCAGGGGACCTTCGAGACGTTCGCCGCGATCGGCCGTAAGCTTACCGGCGACGAGAACGGCACGCTCGCCGGGACACTGACCCTCACCGGCGGCTGCGGCGGCATGGGCGGGGCCCAGCCTCTCGCCGTCACCCTGAACGAGGGCGCCTGCCTGATTGTCGACGTTGATGAGACCCGCCTGCGCCGCCGCGCCGGCAAGCGCTACCTCGACGAGGTCGAACCGGACCTCGACGCCGCCATCGCCAAAGTGCTCAAGGCCAAGGAAGAGCGCCGCGGCTGGTCGGTCGGCTACGTGGGCAACGCTGCCGAGGTGTTCCCGGAAATACTGCGGCGGCACCGCGCCGGTGAGCTCACCGTGGATATCGTCACCGACCAGACCTCCGCCCACGATCCCCTGTCCTACCTCCCCGAGGGCATCTCCGTGCAGGAATGGCACCGCGAAGCAGAGGCTGATCCGGAAGGCTTCACCAAGAAGGCCCAGGCATCCATGGCCCGGCACGTCCAGGCCATGGTGGAGTTCCAGGACGCCGGCGCCGAGGTCTTCGACTACGGCAACTCCATCCGGGACGAAGCCCGCAAGGGCGGTTACAGCCGCGCGTTCGAATTCCCCGGCTTCGTCCCGGCCTACATCCGCCCGCTGTTCTGCGAAGGGCTGGGCCCCTTCCGCTGGGTCGCCCTCTCCGGAGATCCCGAGGACATCGCCGTCACCGACGCCGCGATCAAGGAGCTCTTCCCTGAGAACAAGCACCTCCACCGCTGGATCGACGCGGCCGGTGAGCGCGTGGAGTTCGAGGGGCTGCCCGCCCGGATCTGCTGGCTGGGTTACGGCGAACGCGCCAAGGCCGGTTTGCTGTTCAACCAGCTCGTGAAGGAGGGCAAGGTTAAGGCACCCATCGTGATCGGCCGCGACCACCTCGACTCCGGCTCCGTCGCCTCGCCCTACCGCGAGACCGAAGCCATGGCGGACGGTTCGGACGCGATCGCAGACTGGCCGCTGCTCAACGCCCTGCTGAACACCGCATCTGGCGCCACCTGGGTTTCGATCCATCACGGCGGGGGAGTGGGCATCGGCCGCTCCATCCACGCCGGCCAGGTCTCCGTTGCCGACGGTACCGACCTTGCCGGCCAAAAGCTGGAGCGGCTCCTGACCAACGATCCGGGCATGGGCGTCATCCGCCACGTTGACGCCGGATATGACCGCGCCGCCGACGTCGCCAAAGAGCGCGGCGTCCGTATCCCCATGAACGAATCCACCCCCAACTAG	MAPADFTTGARPVKAARGTELTAKSWQTEAPLRMLMNNLDPEVAERPDDLVVYGGTGRAVRSWAAFDAITRTLETMDKDETLLVQSGKPVGVFRTNEWAPRVLLANSNLVGDWATWPEFRRLEAEGLMMYGQMTAGSWIYIGTQGILQGTFETFAAIGRKLTGDENGTLAGTLTLTGGCGGMGGAQPLAVTLNEGACLIVDVDETRLRRRAGKRYLDEVEPDLDAAIAKVLKAKEERRGWSVGYVGNAAEVFPEILRRHRAGELTVDIVTDQTSAHDPLSYLPEGISVQEWHREAEADPEGFTKKAQASMARHVQAMVEFQDAGAEVFDYGNSIRDEARKGGYSRAFEFPGFVPAYIRPLFCEGLGPFRWVALSGDPEDIAVTDAAIKELFPENKHLHRWIDAAGERVEFEGLPARICWLGYGERAKAGLLFNQLVKEGKVKAPIVIGRDHLDSGSVASPYRETEAMADGSDAIADWPLLNALLNTASGATWVSIHHGGGVGIGRSIHAGQVSVADGTDLAGQKLERLLTNDPGMGVIRHVDAGYDRAADVAKERGVRIPMNESTPN	PGPT0020250_825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
D1-17_03465	1533	proY	COG1113	Proline-specific permease ProY	ATGCAGCAAGCTCCCTTTGACAACAAGATCCGCACGGACGGCACAGCCTCCAACAGCCTCGGCACTGCTGTTGAAAAGACCACGGAAGCCATCCTGAACCGCGGCCTCAACGTGCGGCACATCCGCTTCATGGCCCTGGGATCGGCGATTGGAACAGGCCTGTTCTACGGCTCGGCGTCGGCCATCCAGAAAGCCGGTCCGGCAGTACTGCTGGCCTACATCATCGGCGGCGCGGCCGTCTTCATGGTGATGCGCGCACTGGGCGAGATGGCCGTGCGCCACCCTGTCTCCGGCTCCTTCGGACAGTACGCCAGCCGCTACCTCGGGCCTCGGGCCGGCTTCGTCACCGGATGGACCTACGTCTTCGAAATGGCCATCGTGGCCATCGCCGACGTGACAGCCTTCAGCATCTATATGGGTTTTTGGTTCCCCAATGTTGAGCGCTGGATCTGGATCCTCGCCATCATCTTCTTCCTGGCAGCGCTGAACCTGCTCAGCGTCAAAGTCTTCGGCGAGCTCGAGTTCTGGTTCTCCCTCATCAAGGTGGCTGCCATCATCGCCATGATCGCCGGCGGGGCCGCCCTCATTGTCTTCGGCTTCCAAGCCGGCGGGTCCGCTGCCGCTCCCGGACTGGGCAACCTCGTCGAGCACGGGGGCTTCTTCCCCAGCGGCTTTGAAGGGCTCCTGGCCTCGTTCGCCGTCGTGATGTTCGCGTTCGGCGGGATCGAGACAATCGGCATCACGGCCGGCGAGGCCGCGGACCCCAAGAAGGTCCTCCCCAAGGCCGTCAACACGGTCCCGGTCCGGGTGCTGCTGTTTTACGTACTGACGCTGGGCGTGCTGATGAGTTTGTTCCCATGGAATGAAATAGGCACCAACGGCAGCCCGTTCGTGCAGATTTTCAGCGGGCTTGGGATTCCTGCGGCACCGCACATCCTCAATGCCGTGGTCATCACTGCCGCCCTGTCCGCCATCAACAGCGACATCTTCGGCGCCGGACGCATCCTGTTCGGCCTGGCCCGGCAGGGCCAGGCTCCGCAGAGCTTCGGGAAAGTGTCCCGCCATGGCGTGCCCTGGATGACAGTGATCATGATGGCCGCGATCCTGCTCGCCGGCGTGCTCCTGAACGCGCTCATCCCAAAGGACGTTTTCGTTCTGATCGCGTCGATCGCCACCTTCGCCACCGTATGGGTCTGGGTGATGATCCTTGCCTCGCACGTGGCCATGAAGCGTGAAATAGCACGGACCGGCCTCCCAGCCTCCGAATTCCCGTCCCCGTGGTGGCCCACGGCTTCCATCCTGACCATCTCTTTCATGGCCCTGGTCATCACCGTTCTGGGAGTCTTCGAGGAGACACGCGTGGCTCTCTACGTCGGCGCGGCGTGGCTGGCCGTGCTGCTGCTGGCCTACCAATTCAAGGTCAAAGGCGCAGGCCGGCTCCGCGCCGAGCTCGTCGATGAGACTGCCTCGCTTCCGATGGTGAAGAACGTGGTGGAGAACACCTCGGCGGACATCCGGGGCCACCGGCTGTAG	MQQAPFDNKIRTDGTASNSLGTAVEKTTEAILNRGLNVRHIRFMALGSAIGTGLFYGSASAIQKAGPAVLLAYIIGGAAVFMVMRALGEMAVRHPVSGSFGQYASRYLGPRAGFVTGWTYVFEMAIVAIADVTAFSIYMGFWFPNVERWIWILAIIFFLAALNLLSVKVFGELEFWFSLIKVAAIIAMIAGGAALIVFGFQAGGSAAAPGLGNLVEHGGFFPSGFEGLLASFAVVMFAFGGIETIGITAGEAADPKKVLPKAVNTVPVRVLLFYVLTLGVLMSLFPWNEIGTNGSPFVQIFSGLGIPAAPHILNAVVITAALSAINSDIFGAGRILFGLARQGQAPQSFGKVSRHGVPWMTVIMMAAILLAGVLLNALIPKDVFVLIASIATFATVWVWVMILASHVAMKREIARTGLPASEFPSPWWPTASILTISFMALVITVLGVFEETRVALYVGAAWLAVLLLAYQFKVKGAGRLRAELVDETASLPMVKNVVENTSADIRGHRL	PGPT0000815_843	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
D1-17_03466	846	iclR_5	COG1414	Transcriptional repressor IclR	ATGCCCTATGCCGCGCCAGTCGGGCAGGAAGCGCCGGTGCCGGTGAAAGCCGGGAAACCGGCCACGAAGGTGACGTCGAAAGTTCCGGCGGCAGAAAATACTCTTCGCATCCTCAAACTGCTGGCCTCCAAGCGGGGACCGATGGCGGCGTCGAGCATTGCCACGGCGCTGGGACTGCCGCGTTCAAGCGTCTACCACCTCCTGGGGGTGATGGAATCCAATGGCTTCGTCCTGCACCTGCACGAGGAACAGCGGTACGGCCTTGGCATCAGTGCCTTCGAGCTCAGCTCGGCATACTCCCGGCAGGAACCGCTGTCCCGCCTCGGCCGGCCCGTGCTGGCCTCGCTCGTGGATGCGATCGGTGAAAGCGCACATCTTGCCGTCCTGCACGGGCGCGACGTGCTGTACATCGTGGAGGAACGCGCCAAGAACCGGCCGTCCCTCGTGACCGACGTCGGCGTCCGGCTGCCGAGCCACCTCACCGCCAGCGGCCGGGCCATTCTTGCTGCCCTGCCCAAGTCGCAGGTCCGGGCACTGTATCCCAATGCGGCCGCCTTCTCTGCCCGGCACGAGGTGGAAGGCGCCATTATGAAGTACTCCGCGCTGTCCTCGCACCTGGACCAGGTCCGCCAGCGCGGCTACGCCACTGAGCACGGCGAGGTGACGCCGGGATTCGGTTCGATCGCCGCCGCCGTCACCGATCACCTGGGGTGGCCGACGGCGGCAGTTGCCGTGACATTCCTTGAGGACAAACTGCCGGCGGACCAGTGGCCCGCCCTGGCGGCCCGCGTCCAAAAGGTGGCGAACGAACTGTCCGCCCGCATCCACGGACGCCCGGTGCAGTAG	MPYAAPVGQEAPVPVKAGKPATKVTSKVPAAENTLRILKLLASKRGPMAASSIATALGLPRSSVYHLLGVMESNGFVLHLHEEQRYGLGISAFELSSAYSRQEPLSRLGRPVLASLVDAIGESAHLAVLHGRDVLYIVEERAKNRPSLVTDVGVRLPSHLTASGRAILAALPKSQVRALYPNAAAFSARHEVEGAIMKYSALSSHLDQVRQRGYATEHGEVTPGFGSIAAAVTDHLGWPTAAVAVTFLEDKLPADQWPALAARVQKVANELSARIHGRPVQ				NA	NA	NA	NA	NA
D1-17_03467	246			hypothetical protein	ATGATCCAATTCACCACCGAAGCCCCGGGGCGAACAGGACGCCTGGCACGGCTGCTAAGCAAAACCCTGAGCCGCGCACGGACGGCCGCCATTCCCTACAGGATCGGCGAAGCCGTCGTCGGGGATGACCCTTTTAACGGCCGCCGGGAAGGCATTGTGGAATCCCGCAACGGCACATCCGTTGGCCTCCGGTCCGCGGGGCGCGTCTTTTACTACGACTTCCGGTACCTCAGACGGCCGGAGTAA	MIQFTTEAPGRTGRLARLLSKTLSRARTAAIPYRIGEAVVGDDPFNGRREGIVESRNGTSVGLRSAGRVFYYDFRYLRRPE				NA	NA	NA	NA	NA
D1-17_03468	195			hypothetical protein	ATGTCCATTGCAAACCTGCCCACGGCCTACATGACCATCGCCGAAGTCGCGGCGGCGCTGCGGGTGTCCAAGATGACTGTGTACCGGCTGGTTAAGTCCCACGCCCTGGCTTCGGTCCGCTTCGGGAAGTCCTACCGGATTCCGGAATCGGCCGTCGAGGAGTACATCAGGCAGGCCGGCAGTCCCGCTGACTAG	MSIANLPTAYMTIAEVAAALRVSKMTVYRLVKSHALASVRFGKSYRIPESAVEEYIRQAGSPAD				NA	NA	NA	NA	NA
D1-17_03469	753	bdhA		D-beta-hydroxybutyrate dehydrogenase	TTGAGTGTAAAGAACCTGAACGGACGTAAGGCGGTGGTGACCGGCGCTGCCAGCGGCATCGGGGCTGCATGTGCCCGGGAGCTGGCGGCGCGAGGGGCAAAGGTAGTGCTGGCAGACGTGGACGAGCCCGGCGCGGCGGCGCTGGCTGACGAGCTGGGGGGAACGGTATGGGCGGTGGATCTCCTGGACGTCGACGGCCTTGCCGGGCTGAGCCTGGACTGCGACATTCTGGTCAACAACGCCGGGATCCAGCACGTCAGTCCCATCGAGGACTTTGATCCGCAGGCCTTCCGCCGGATCTTGACGCTCATGCTCGAGGCGCCGTTCCTCCTGGTGAGGGCGGCGCTGCCCAACATGTACGCCAACAGCTTCGGCCGCATCATCAACATCTCGTCCGTCCACGGGATCCGCGCCTCGCCGTTCAAGAGCGCCTACGTCTCGGCGAAACACGGCATGGAGGGGCTGAGCAAGGTGACGGCGTTGGAGGGCGGAGCGCATGGGGTGACGTCCAACTGTGTCAATCCCGGCTACGTCCGGACGCCGCTCGTGGAAAAGCAGATCGCGGACCAGGCGCGGGTTCACGGCATCCCCGAATCCGAGGTCCTCGCCAAGGTCATGCTGACGGAGTCGGCAGTGAAGCGCCTGGTAGAGCCGGCGGAAGTTGCCTCGCTGGTGGCGTGGCTGGTGTCCGACGACGCCGGCATGGTGACGGGCGCGAGCTACACCATGGACGGCGGCTGGTCGGCGCGGTAG	MSVKNLNGRKAVVTGAASGIGAACARELAARGAKVVLADVDEPGAAALADELGGTVWAVDLLDVDGLAGLSLDCDILVNNAGIQHVSPIEDFDPQAFRRILTLMLEAPFLLVRAALPNMYANSFGRIINISSVHGIRASPFKSAYVSAKHGMEGLSKVTALEGGAHGVTSNCVNPGYVRTPLVEKQIADQARVHGIPESEVLAKVMLTESAVKRLVEPAEVASLVAWLVSDDAGMVTGASYTMDGGWSAR	PGPT0008310_2740	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
D1-17_03470	918	argP_2		HTH-type transcriptional regulator ArgP	ATGGAAGCCAACCCCGATGATTTGCTGGTGCTGCTCGCGGTATCTCGCTCAGCAAAATTCACGACGGCGGCCCAGTCTCTAGGACTCAACCACACCACCGTTTCGCGCAGGATTGCAGCCCTTGAAAAAGCTCTCGGTGGACGGGTCCTGTCGCGGGCGGCAGGCGGCTGGGAGTTGACCGAACTCGGGGCGCAGGCGGTCATAGTCGCGGAGCAGGTGGAGGCGGCGGTGCGCACGCTCGGCCCGGCGGGCCGCCCGCCTGACCCGGTTACCGGCGTCGTTCGCATGACGGCGACCGACGGTTTCAGCGCGTACATCGCCGCCCCGGCCGTGGCTAAGCTGCGGCGGGACCACCCCGGCCTCAGCGTGGAGATAGTGACGGTAACGAGACGTGCCCTGCAGCAGCGCTCGGGGCTCGACATTGAGGTGGTGGTGGGTGAACCGCAGGTGCACCGGGCGGAAGCATTCCGCCTGGGCGAATACGTGCTCGGCATGTACGCCTCCCGCTCCTATCTGGCGGAAAACGGAATCCCGGATTCAGTGGAGGCCCTGGCCGCGCACCCTCTCGTGTATTTCGTGGACTCCATGCTGCAGGTGGATGACCTCGATGCGCCGCGGCGGCTTGTGCCTGCCATGCGGGACGGAGTGAGCTCGACCAACGTGTTCGTCCATGTGGAAGCGACGCGGGCCGGGGCAGGCATTGGCTTCCTGCCCTGCTTCATGGGCGACCGGCACGAGGACCTGGTGCGCCTGCTGCCCGGGAATTTCGCAGAACGGCTCCCCTACTGGATGGTGCTGCGGCCGGATTCCATGCGCCGTCCGGCCGTCGCAGCGGTGGTGCAGGCCGTCCAGGACGAGGTCGCAGCCCGCCGTGCCATGCTGCTGGGCCGCCCGGGAACCCCGTCCGTTGCTGGGTAA	MEANPDDLLVLLAVSRSAKFTTAAQSLGLNHTTVSRRIAALEKALGGRVLSRAAGGWELTELGAQAVIVAEQVEAAVRTLGPAGRPPDPVTGVVRMTATDGFSAYIAAPAVAKLRRDHPGLSVEIVTVTRRALQQRSGLDIEVVVGEPQVHRAEAFRLGEYVLGMYASRSYLAENGIPDSVEALAAHPLVYFVDSMLQVDDLDAPRRLVPAMRDGVSSTNVFVHVEATRAGAGIGFLPCFMGDRHEDLVRLLPGNFAERLPYWMVLRPDSMRRPAVAAVVQAVQDEVAARRAMLLGRPGTPSVAG				NA	NA	NA	NA	NA
D1-17_03471	990	speE		Polyamine aminopropyltransferase	ATGGCGAGGCGCGGTAAACAAGGCGGTAAGACAGGTGGGAATTCCGGCAGCAAGGCGGGCGGTGCCAGCGGCCGGGGCGTGATGGAGCTTTCCAAGGGCGGCCGTACGGACGGGCCTGTCGAGGGTGTCTACTACATCGATACCGGGGACTGCGAACTCATCGCGGACCAGGACAACTCCACGGGCTGGCTGTTGCGCATTAACGGAGTCATGAGCTCACACATCGACCTCGCCGACCCGCTGTTCCTCGACTTCGAATACATGCGCTGGATTGCTGCCCTCGTTGAGTCACGCTGGCCGCCGGAGTCCCGGGCAAAGCTGCGTGGACTTCACCTGGGCGGAGGCGCCTGCTCGCTTGCCCGTTACTTCTCCGCCGCCTACCCGGATGCCCGGCAGGTCGTGGTGGAACTGGACGGGAAGCTGGCAGAGTACGTCCGCGGGTGGTTCGACCTCCCGAAGGCCCCGCTGCTCCGCATCCGCGTAGGCGAAGCCCGGGCTGTCACCGAAACGCTGACGCCAGACACCCGCGACTTCATCATCAGGGATGTTTTTGCAGGGGCGCGTACGCCACGGTCCCTTACGACCAGCGAGTTTACTAAGCATGTTAAGCGGGTGCTGGCTCCGGGCGGCGTCTATGTCATGAACTCCGGGGACGGACCGGACCTCAAGAATGCGCGAGAGGACGCCGCCACACTCGCGGTTTCCTTCAAGCACACCGTGATCATCGCTGATCCGGCCATGCTGAAGGGACGCCGCTACGGCAACATGGTCATGGCAGGCAGTGACCTGCCCTTCGACGACGACCCCCGCCTGGCGCGCAGGCTCTTGGGCGGGGCTGTTCCCGCGCACATCTGGGATGACGCCAAGGTACGGGCCTTCGCAGCCGGCGCGTCAGTCCGCCACGACCCTTCCACTCCAGCCCCCGAGCCGTCAAGCCCCGGTCTCAAGCCTTCATCGACTGCTGAGGAGCGCCCTAATAAGGCAGATTAA	MARRGKQGGKTGGNSGSKAGGASGRGVMELSKGGRTDGPVEGVYYIDTGDCELIADQDNSTGWLLRINGVMSSHIDLADPLFLDFEYMRWIAALVESRWPPESRAKLRGLHLGGGACSLARYFSAAYPDARQVVVELDGKLAEYVRGWFDLPKAPLLRIRVGEARAVTETLTPDTRDFIIRDVFAGARTPRSLTTSEFTKHVKRVLAPGGVYVMNSGDGPDLKNAREDAATLAVSFKHTVIIADPAMLKGRRYGNMVMAGSDLPFDDDPRLARRLLGGAVPAHIWDDAKVRAFAAGASVRHDPSTPAPEPSSPGLKPSSTAEERPNKAD				NA	NA	NA	NA	NA
D1-17_03472	1524	hldE_1	COG2870	Bifunctional protein HldE	ATGAGCGGCGAGGAGAAGCCGGATCTGTCGGAGCAGCGCGGGCTCGCCGCCTGGCTGCCGCGGCGGCTCGCGGAGGCGAGTCCCTCAATCCTGGTGGTGGGGGACCTGATTCTTGACGGCTGGTGGAGCGGCCCGAGCGACAGGATGTGCCGCGAAGCGCCGGCTCCTGTGGTGGACATCAACCGCCGTGAGTTCTCGCCGGGCGGCGCGGCAAACACAGCCATGAACCTGGCCTCCCTGGGTGCCCGGGTGGGCGTCGCAGGGCTCATCGGAACGGACGACGCCGGCGCGGAGCTTATGCGCCAGCTGCTTGCGGCAGGCGTCGACACCCGATTCCTGACGCAGGATCCGGAGATGGTCACCACCACCAAGATCCGGATCAGCAGCGGGGGGCAGGTTCTGCTCCGCTTCGATGACGCTGCCGCGACTATCCCGGAGGCCGCCTCCGCGGCGCTCGCAGCGGCGGTGCCGGCCGCCGTCCAAGCACCTGACGCCGTCGTGATCTGTGACTACGGCACAGGGACGCTGGCCGAGCCGGTCCGCGGCCGGCTGATTGAGGCGCTCTCCCGGCGGGGCCAGGACCAGCTCGTCGTCGTGGATGCCCATGACCCGCGTCCCTGGGCAGCACTGCACCCCGACCTCGTCACGCCCAATGCACAGGAGACGGCAAGACTGCTGGACCGGCGCCTGGCCGGAGGTGCCGAGCGCGCCTCAGTGGTCTCCGAGCACGGGCAGCAACTGCTGGAGGCCACAGGTGCAGGGGCGGTGGTGGTCACCCTGGACCGCGACGGAACTGTCCTGATTCCCGCCAACGGCAAACCACACCGGACCTGGGCAAGGCCGGCAACCGAGAAGCAGGCGTCCGGAGCGGGGGACACGTTCGTGGCCGCGCTGACCCTCGCCCGTGCAGTGTCCCTTCCGCTGACCACCAGCCTTGACTTTGCCCAGGCTGCTGCGGACGTCGTCGTCCATCATCCCGGGACCTCCGTCTGCGCCACAGGCGAGCTGGAACGCTACCTCGAAAGCTTCGCCGACACCGCCCTGACGGCAGATGAACTGGAACGCCACATCCGTGCGCACCGCAGCGACGGCCAGAGCGTTGTCCTGACCAACGGCTGCTTCGACGTGCTGCACCGCGGACACACCCGCTACCTCAACCAGGCCAAGCAGCTGGGTGACATCCTGGTGGTCGCCCTCAACAGCGATGATTCCGTGCGCGCATTGAAGGGACCGGACCGTCCCATCAACAGCGTGGCGGACAGGGCTGCCGTGATCGCCGCGTTGAGCTGCGTGGACTACGTGACGGTCTTTGACACTCCCACGCCCATTCCGCTGCTTGAGCAGTTGCGCCCGGAGATCTACGCCAAGGGTGGTGACTACACCCCGGAAATGCTTGCCGAAACCGCGACCGTGGAGGGCTATGGTGGCCGGGTCTGCATTTTGGACTATGTGGCGGAACGTTCCACCACGGCCATGGTCCAGCGGATCCGCGACGGAAAAGGCGCGGCGGTCTCGGAGGCATAG	MSGEEKPDLSEQRGLAAWLPRRLAEASPSILVVGDLILDGWWSGPSDRMCREAPAPVVDINRREFSPGGAANTAMNLASLGARVGVAGLIGTDDAGAELMRQLLAAGVDTRFLTQDPEMVTTTKIRISSGGQVLLRFDDAAATIPEAASAALAAAVPAAVQAPDAVVICDYGTGTLAEPVRGRLIEALSRRGQDQLVVVDAHDPRPWAALHPDLVTPNAQETARLLDRRLAGGAERASVVSEHGQQLLEATGAGAVVVTLDRDGTVLIPANGKPHRTWARPATEKQASGAGDTFVAALTLARAVSLPLTTSLDFAQAAADVVVHHPGTSVCATGELERYLESFADTALTADELERHIRAHRSDGQSVVLTNGCFDVLHRGHTRYLNQAKQLGDILVVALNSDDSVRALKGPDRPINSVADRAAVIAALSCVDYVTVFDTPTPIPLLEQLRPEIYAKGGDYTPEMLAETATVEGYGGRVCILDYVAERSTTAMVQRIRDGKGAAVSEA	PGPT0023040_79	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023040-gmhC|hldE|waaE|rfaE-K03272	NA	NA
D1-17_03473	1470	betB	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGCACACCGCAACCGAGACTTTCCAGGCCACGGAAGAGGACCTGCTCATCATCAGGGATCCGCGCACCGGAGAGGTCGTGGGAGAATTTTCCTCCGCCCGGACCGGGGACGTGGCCCGGGCAGTGGAGGCTTCCCGTGCGGCACAGCCCGCCTGGGCCGCCACGCCGCCCGCTGAGCGGGGAAAGCTCTTACGCGCGGCGGCCGCCGCTTTGAACGAAGCCGCGGCGCAGCTGGCGGACATCAATGCGCGGGAAACCGGCCGCCCGGTGCAGGAAGCCTTGGCAGGCGTTGCCGCCGGTGTTTCCACGCTGGAGCAGTATGCGGAGCTCGGCCCGGTACACCGGGGCCACAGCCTGCGCGGCAACGCGCTCGCGGCCGATTACACCATCGCCGAGCCCCGCGGGGTAGCCGTCCTGCTGACGCCGTGGAATGATCCCGTCGCAGTGGCCTGCGGCCTCATCGGCGCGGCGCTGGTCACCGGAAACACTGTGATCCACAAGCCCAGCGAGCGCTGCCCGGGAGTCGGGGAACGCCTCGGTCAGGTGCTGGCGTCGGTTTTCCCGCCGGACGTGCTGCAGACCCTCACAGGAGGGCCCGACGCCGGAACTTTCCTTACGCAGCACATGGACGTCGACGTTTTCGCGCACGTGGGGTCCAGTGACACCGGGGCCCGCATCGCCCGGGCTGCCGTACTGACGGGTGCGCATGTGCTCCGCGAAAACGGCGGCAACGACCCCCTGCTGGTCGACGCGGACGTCGATCCCGCATGGGCAGCCGAGCAGGCCGCCATCGGGGCCTTCAGCAACAGCGGCCAGATCTGCACCTCGGTGGAGCGGATCTATGTCCACAAGGCGGTGGCGGAACAGTTCTGCGCGGCGCTCGCCGCCGAAGCCCGGAACCGCAACCGGAAGGGGATCGCACCGCTGGTGGACACGCGCCTGCGGGAGACCGTCCACCGGCACGTCTCGGAAGCGCTTCAGCTTGGCGCACGCGCCGTGGAAGGCGGGGAAGTCCCGGACGGCCCCGGCGCCTTTTACCCGGCCACAGTACTGGTCGACTGCGCTGACAGCATGGACGTCATGTCGGAGGAGACCTTCGGACCGGTGGCGCCGGTGCGCGTCGTGGACAGCTTCGAGGAGGGGTTGCAGCTCGCCGCCGCCGGACGCTACGGCCTGGCCGCAACTGTGCTCACAGGAAACATCGCCCATGCCCAGCAGGCAGTCGCGGCCCTCCCGGTGGGCACGGTGAAGGTTAATGAAGTATTCGGCGGAGCGCCGGGTGGTTCCGCCCAACCCCGAGGTGAAAGCGGCCATGGGTTCGGTTACGGTCCGGAACTCCTGGACGAATTCACGCAGGTCAAGGTGGTGCACATCGCAGCGGCACCGCAACGCGCCCCTGGCGGCGGCTCCGCATCAGCAGCGGAAGGAACCGGTTTGGAAGGCACTGGTCCGGAAGGTGCGGGAGCATGA	MHTATETFQATEEDLLIIRDPRTGEVVGEFSSARTGDVARAVEASRAAQPAWAATPPAERGKLLRAAAAALNEAAAQLADINARETGRPVQEALAGVAAGVSTLEQYAELGPVHRGHSLRGNALAADYTIAEPRGVAVLLTPWNDPVAVACGLIGAALVTGNTVIHKPSERCPGVGERLGQVLASVFPPDVLQTLTGGPDAGTFLTQHMDVDVFAHVGSSDTGARIARAAVLTGAHVLRENGGNDPLLVDADVDPAWAAEQAAIGAFSNSGQICTSVERIYVHKAVAEQFCAALAAEARNRNRKGIAPLVDTRLRETVHRHVSEALQLGARAVEGGEVPDGPGAFYPATVLVDCADSMDVMSEETFGPVAPVRVVDSFEEGLQLAAAGRYGLAATVLTGNIAHAQQAVAALPVGTVKVNEVFGGAPGGSAQPRGESGHGFGYGPELLDEFTQVKVVHIAAAPQRAPGGGSASAAEGTGLEGTGPEGAGA	PGPT0007165_2841	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-17_03474	1191			hypothetical protein	ATGGAAGACTCCAACGCCGACTTCGGCGGAGCACGCATCATCAGCCAGGGAGTGGGTCCCATCCTGGAAAGGTTCACGGGCGTCTCGCGGATCGCCGTGCTCCGCGGCGGCGGCTTGGGTGACCTGATGTTCGCGCTGCCGGCGATGTCGGCGCTGAAGGCCGCCTACCCTGAGGCCTCCCTGACTCTGCTGGGCACACCCATGCACGCCGAACTGCTCTCGCAGACCTGCGGACCCGTGGACGAAACCGTCATCCTGCCGTTTTCCGAAGGCGTCCGGCCGGGAGCCGAGGACAAGGATGAACTGGAGAACTTCTTCAGCACAATGCGCGGGCGGAAGTTCGACCTCGCCGTGCAGCTGCACGGGGGCGGGCGCTACTCAAATCCGTTCCTGCTACGGCTCGGGGCACGCCACACCGTGGGCACCAGGACGCCGGACGCTGCCCGCCTCGAGCGGACCGTGCCCTACCTGTACTACCAGCACGAGCCGATGCGGGCCCTGGAAGTGGCCGGATTCGCCGGCGCTGCACCGGTGGAACTCGAGGCCAGGATGCGGACGCTGCCGGAATTCAGGCAGCGCCTCACCTCCCGGCTGGAGAGGCTGGACTCCTCGCCTGAGCGCGGCAGGGTGGTGATCCATCCGGGCGCCACGGATCCACGCCGGCGGTGGCCTGCGGAACGGTTCGGGGCAGTGGCCCGTATGGCGGCCGATGACGGCTTCCGGGTTTTGGTGATCGGCGACCACAGCGAAAAGGAGCTGGCCGAGGCAGTGGTGGAGCACGCCGTCGGACACGGCTCCGCCGGCACCCCCACGCCGGCCAGTCCGCAGGTGGAGTCACTGGCCGGCCAGCTTGAACTGGGCGAGCTCGCTGCCCTCTTGGCTGACTGCAGCGTCGTCGTGGCAAATGACAGCGGTCCCCGCCATCTGGCCCAGGCGCTGGGCTCACCCACAGTGGGTGTTTTCTGGACCGGCAACGCCATCAATGCCGGCCCCTTGGGGCGGAGCCTCCACCGGATCCACCTCGGCTGGACCACGCGCTGCGGTGTTTGTGGCGTGGACATGACCCAGGTGGGCTGGACAGCGCCGAGGTGCCCCCACGACGAGTCCACGGTGGAGGCGGTCGCCCCCGATGCCGTCTACGAAGACGTCCTGCAGCTTACGGCCATGAGCCTTCCTCCTCGTGGCAGATGA	MEDSNADFGGARIISQGVGPILERFTGVSRIAVLRGGGLGDLMFALPAMSALKAAYPEASLTLLGTPMHAELLSQTCGPVDETVILPFSEGVRPGAEDKDELENFFSTMRGRKFDLAVQLHGGGRYSNPFLLRLGARHTVGTRTPDAARLERTVPYLYYQHEPMRALEVAGFAGAAPVELEARMRTLPEFRQRLTSRLERLDSSPERGRVVIHPGATDPRRRWPAERFGAVARMAADDGFRVLVIGDHSEKELAEAVVEHAVGHGSAGTPTPASPQVESLAGQLELGELAALLADCSVVVANDSGPRHLAQALGSPTVGVFWTGNAINAGPLGRSLHRIHLGWTTRCGVCGVDMTQVGWTAPRCPHDESTVEAVAPDAVYEDVLQLTAMSLPPRGR				NA	NA	NA	NA	NA
D1-17_03475	702			putative oxidoreductase	ATGTATGAATCGACCTTCCGGCCCGGCCGGGTGCTGGTCACCGGGGGAGCCTCAGGCCTGGGGGCCGCCGTCGTCGACGCCGTTCTGAAGGCGGGCGGTACGCCCGTAGTGCTGGACCGGGACATCCGGAACGTCGCTGCTGCGAAGGCTTTTGAGGTCGATGTTTCGGACCGTGCCGCGGTGACCGAAGCCGTCCGGCAGGCGGCTGAGACGCTGGACGGCCTGGACGCAGTGGTCACCGCAGCCGGGATCGACCGCTGCGGCAAGCTGGAGGACGTGGACGCCGATGAGTGGGAACGCGTGATTGGGGTCAACCTGATGGGGACGGTGTCCGTGGTCCGCGCCGCCCTCCCGTACCTGAAGGAATCCCGCGGGCGCGTAGTAACCATCGCCTCCACGCTGGGGAAGCGCGCACTTCCGGAGGCGACGGCCTACTGCGCCTCCAAGTTCGGGGTGGTCGGCTTCAGCCACTCCCTCGCCGCCGAGACGGGAGGCGAGATCGGCGTGACCACCATGATCCCGGGCGGTATGAAGACGCGCTTCTTCGACGACCGGGCGGAGCAGTACAAGCCCCAGGACGACTCCCGCCTCAACGATCCCGCCAACGTGGCCCAGGCCATCCTGTTCGTGCTCTCACAGCCGGCAGGGTGCGAGGTGCGCGAAATGCTCATCTGCCACGAGGAGGAAGGCTCATGGCCGTAA	MYESTFRPGRVLVTGGASGLGAAVVDAVLKAGGTPVVLDRDIRNVAAAKAFEVDVSDRAAVTEAVRQAAETLDGLDAVVTAAGIDRCGKLEDVDADEWERVIGVNLMGTVSVVRAALPYLKESRGRVVTIASTLGKRALPEATAYCASKFGVVGFSHSLAAETGGEIGVTTMIPGGMKTRFFDDRAEQYKPQDDSRLNDPANVAQAILFVLSQPAGCEVREMLICHEEEGSWP				NA	NA	NA	NA	NA
D1-17_03476	1365	hldE_2	COG2870	Bifunctional protein HldE	ATGAGAATCACTGTGGTTGGAGATGTCCTGCTTGACGTGGACCTGGCCGGTGAAGCCACGAGGCTGTGCCCCGACGCGCCGGTCCCTGTGGTGGATATTGCGGAAGTCCGACGGCGTGCAGGCGGCGCGGGGCTCGTTGCCCGGATGCTTGCCCAGGATGGACACCGGGTCACCCTGGTGACTGTGCTGTCCGATGACGACGCCTCCCTGGAGCTCGAAGGGGCACTCGCCGGGATACGGGTGGTAGCAGGTAGTTCAGGTGTCCGGACCCCGGTGAAAACGCGGGTACGGGCGGGTCGCCAGCCCGTGGTCCGGGTGGATGAGGACTGCGCCAGGCCCGCCGTGCCCGCCGCAACGGCAGCGATGCTGAAAGCGATCGAACATGCGGAGGCGATCGTCGTTGCCGACTATGGCCGCGGTGTTGCGGCCAATCCTGAAATCCGGTCGCTCCTCACGGCCCTGGCCAACGACGTGCCGATCGTGTGGGACCCGCACCCGGCAGGTGCGGATCCGGTACCCGGGGTTGCCGTGGCCACGCCCAATCTCGCCGAGGCAACTAAGGCGGCGGGCAGGGCGGCCGAGACGCCGAATGAGGTCGCAGAAGTGGGCAACGCGCTGCTGGACCGCTGGCAGGGCAAAGCGGTGCTCGTGACCATGGGGGAGGACGGCGGGCTCCTGCTCCGACAGGAGGACCGCCGTCCGCGGACCATTCCCGCTCCCGCCACCGACGTCACTGACCCCTGCGGAGCGGGTGACCGGCTGGCAGCCAGTCTGGTGGCGCACCTTGCGGAAGGCCGCACCCTGGACGACGCCGCCGAACTCGCTATCCATGCGGCAGCTGACTTCCTGGGTGCCGGGGGAGTTGCCTCCCTGCCGGACCGCCACCGTCCCGTCTGGCAGCATCGGCGCGACGAGGACGCGATGGCGCTGGCCCGACGGGTCCGGGCGAACGGCGGAACCGTGGTCGCAACGGGCGGCTGCTTCGACCTGCTGCATGCAGGACATGCCCGCACACTCGCGGCTGCCCGGGACCTCGGCGACTGCCTGATCGTCTGCCTGAACTCGGACGCCTCGGTGCACCGGATCAAAGGTGAGCAGCGGCCCATCGTCAGCGAGCAGGACAGGGCGGAACTTCTCCTGGCGCTGGAGTGCGTGGACGCCGTGATGATCTTCGAGGAGGACACCCCGGAGGCCTGCCTGGATGAGCTGCGGCCGGACATCTGGGTGAAGGGCGGCGACTATCAGGCGTCACAGCTGCCCGAAGCCAGCCTTGTTGAAAGCTGGGGCGGGCGCTGCATGACGGTGCCCTTCCACCCCGCCAGGTCCACGTCCATCCTGGCTGATGCGCTGGCCAAGGTCAGCTGA	MRITVVGDVLLDVDLAGEATRLCPDAPVPVVDIAEVRRRAGGAGLVARMLAQDGHRVTLVTVLSDDDASLELEGALAGIRVVAGSSGVRTPVKTRVRAGRQPVVRVDEDCARPAVPAATAAMLKAIEHAEAIVVADYGRGVAANPEIRSLLTALANDVPIVWDPHPAGADPVPGVAVATPNLAEATKAAGRAAETPNEVAEVGNALLDRWQGKAVLVTMGEDGGLLLRQEDRRPRTIPAPATDVTDPCGAGDRLAASLVAHLAEGRTLDDAAELAIHAAADFLGAGGVASLPDRHRPVWQHRRDEDAMALARRVRANGGTVVATGGCFDLLHAGHARTLAAARDLGDCLIVCLNSDASVHRIKGEQRPIVSEQDRAELLLALECVDAVMIFEEDTPEACLDELRPDIWVKGGDYQASQLPEASLVESWGGRCMTVPFHPARSTSILADALAKVS	PGPT0023040_1387	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023040-gmhC|hldE|waaE|rfaE-K03272	NA	NA
D1-17_03477	765	gmhA		Phosphoheptose isomerase	GTGACAACGGAATGGTCCCTGCAGGAGGCTGAGCTTCCAGCCCTGCCGCCGGTCGCCGGCCGCGCAGTATTTGAAAAGCCCCGCGCGCAGTCCCTGGCGCAGCCCCTCGGGCAGTCCCTGGCGCAGCCGGAAGCGGGGCAGGATACGGCGATTCCCGAGGCGTCCCGGGACGCCGTCCGGATCCATCTGGAGAATGTTCTTCCGGCTCTGCGCTCGCTGGAGAGCCAGGCCGGTCAACTGGCGGCGTGGGGCGTCGAACTGGCTAACCGGCTTCTGGGCGGCCAGCGGTTGCTGGCAGCGGGCAACGGAGGCTCCGCTGCCGAGGCGCAGCATCTGACCGCTGAGCTTGTGGGCAGGTTCGACGGCGAGCGCGTGCCTTTCTCGGCCATCTCGCTGCACGCCGAGAGTTCGGCGGTGACCGCCATTGCCAATGACTATGGCTACGATGAGCTCTTCGCCAGGCAGGTGCGGGCCCACGGCCGCTCCGGTGACATCCTCCTGCTGCTGTCTACCAGCGGAAAGAGCCCCAACCTGCTGCGCGCCGCCGAAGCAGCTGCCCGCCTGAACGTGACCACGTGGGCGCTCACGGGCCCCGCACCGAACCCGCTGGCAGAATGCTGCGACGAGGTGGTGGCCATCGACGCCCTGTCAGCCAACGCGCAGGAGGGGCACCTCATCGCCCTGCACGCCCTGTGCCGGTCATTTGAAGCCGAGATAGCCCGCAAGGGCAGGACTCCCGCCGGGCAGGGGGCTGATCTCGGATGA	MTTEWSLQEAELPALPPVAGRAVFEKPRAQSLAQPLGQSLAQPEAGQDTAIPEASRDAVRIHLENVLPALRSLESQAGQLAAWGVELANRLLGGQRLLAAGNGGSAAEAQHLTAELVGRFDGERVPFSAISLHAESSAVTAIANDYGYDELFARQVRAHGRSGDILLLLSTSGKSPNLLRAAEAAARLNVTTWALTGPAPNPLAECCDEVVAIDALSANAQEGHLIALHALCRSFEAEIARKGRTPAGQGADLG	PGPT0023030_89	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023030-gmhA|lpcA-K03271	NA	NA
D1-17_03478	1251	mshA_8	COG0438	D-inositol 3-phosphate glycosyltransferase	TTGAAGATCTCAATGATTTCGGAGCACGCGAGTCCGTTGGCCGCGCTCGGCGGGGTGGATGCGGGCGGCCAGAATGTGCATGTGGCTGCGCTTTCCACGGCACTGGCCCGCCGGGGCCACGCTGTCACGGTCTATACCAGGCGCGATGCCCCGGATCTGCCCGCAAAGGTGCGGGTACAGCCGAGACTCGAGGTGGTGCACGTCGACGCCGGACCTGCCGCCCATGTTCCGAAGGACGAGCTGCTGCCGTTCATGGAGGCGCTCGCTGACGGGGTGGTCCGGGACTGGGGCCGCACGCCTCCAGACATCGTCCACGGCCACTTCTGGATGTCCGGCATCGCAGCGCTCAATGCCGCACGCCGTGATCCTTCGGGCTTCCGTGTGCCCGTAGTCCAGACGTTCCATGCCCTTGGCACCGTCAAGCGCCGGCACCAGGGCACCGACGACACCAGTCCAGCAGAGCGCCGGTTCCTGGAACCGTCCGTGGGGCGGTCGGTCGACCGGATCATTGCCACCTGCTCGGATGAGGTTTTCGAACTGAAGGCGATGGGCATCGATACGGGAAAAATCTCCATTGCGCCCTGCGGTGTGGATCTGGAGCTGTTTTCCGGTACGGGACCGGTGGATTCCCGGCCCCGCCGGCATCGCATCCTGTCTGTTGGGCGGCTGGTGCCGCGAAAAGGGGTGGACTTGGTGATCCGCGCCCTCGCGCGCCTGAAGGAGGCGGGGTTCGACGACGTCGAACTCCTCATCGTTGGCGGCGGCGGAACCGCAGGGAACCAGGATCCTGAAGCACGGAGGCTTCTCGGGCTCGCCGGGGATTTGGGCGTGGCGGATCAGGTGGTGCTCCGCGGACAGGTGTCCCGCGAGGAGATGCCTGCGATTTTCCGCAGCGCCGACGCCGTGGCCTGCACACCCTGGTATGAGCCGTTCGGCATCGTTCCGCTTGAAGCTATGGCATGCGGTGTACCGGTGGTGGCCGCGGCAGTGGGGGGTTTGACGGATTCAGTGGTGAATCACGGAACCGGCCTGCACGTGCCCCCAAGGGACCCGGAAGCGATAGCCGATGCGTTGGCCACGCTGCTGGCCTCACCGGAACTCCGGGGCAAGCTGGGCCGGGCCGGTGAAAGGCGTGCAAAGGCGCGGTTCTCCTGGAGCCGGATCGCGGCGGAAACCGAAAAGGCGTACCAGTTGGCGGTCGCTGAAACGGCAACGGCCACCAGCCTCCCCATGGAAGGAGCGGCACTGTGA	MKISMISEHASPLAALGGVDAGGQNVHVAALSTALARRGHAVTVYTRRDAPDLPAKVRVQPRLEVVHVDAGPAAHVPKDELLPFMEALADGVVRDWGRTPPDIVHGHFWMSGIAALNAARRDPSGFRVPVVQTFHALGTVKRRHQGTDDTSPAERRFLEPSVGRSVDRIIATCSDEVFELKAMGIDTGKISIAPCGVDLELFSGTGPVDSRPRRHRILSVGRLVPRKGVDLVIRALARLKEAGFDDVELLIVGGGGTAGNQDPEARRLLGLAGDLGVADQVVLRGQVSREEMPAIFRSADAVACTPWYEPFGIVPLEAMACGVPVVAAAVGGLTDSVVNHGTGLHVPPRDPEAIADALATLLASPELRGKLGRAGERRAKARFSWSRIAAETEKAYQLAVAETATATSLPMEGAAL	PGPT0024580_813	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521	NA	NA
D1-17_03479	1035			hypothetical protein	ATGAGAATTCTCCTCTGGCACGTACACGGATCCTGGACGGATGCGTTTGTCCGCGGACGGCACGAGTATCTCCTGCCGGTTCTGGCTGAAGGAGGCGCGTGGGGCCTGGGCCGGGCCGGGAGGGATTGGCCGGCGTCCGTCCAGGAGGTGTCCCTGGCGACGTTGGATGCCGACAGCATCGACGCCGTCGTGCTCCAGCGGCCTGAGGAGGCCGCAGAGGTGGCCAGGCTGCTGGGGCGCCGTCCCGGCGTCGATCTTCCAGCCGTTTTCGTTGAACACAACACGCCCAAGGGGAACGTTCCCTTCAGCCGGCACCCGCTCGCGGACCAGCACGAAATTCCGGTGGTGCACGTAACCCACTTCAACGAACTCTTTTGGGACAGCGGCCAGGCGCCCACCACTGTTATCGAGCACGGGATCCACGACCCCGGCTACCTTTACACAGGCGAACTGCCTGAACTGGGGGTAGTGGTGAATGAACCGGTCCGCCGCGGGCGCGTGACAGGAACGGACCTGCTGCCCCGTTTCGCCGAGGCCGCACCGCTGCAGGTTTTTGGAATGGGCGGTGGCGAGCTTCATGCAGCAACGGGAATTGGGCCGTCAAGGCTGACGGTCCGCGGGGACCTGAAGACCGCAGAGCTCCATCGCGAACTGGCCCACTGCCGGGTTTACCTGCACCCCCTGCGCTGGACATCCCTGGGACTCGCGCTGCTGGAGGCGATGCATCTCGGGATGCCAGTCCTGGCCCTTGACACGACTGAAGCAGCGCGGGCCGTACCGGCCGAAGCGGGAGCTGTTTCCACCAGCGTGAGTGAGCTGCTGCGGACTGCCAGGCGGCTCATCAACGACCCCGAGGAGGCGCGGCGACGGGGTAAAGCAGCACGGGAAGCGGTTCTGGAGCGTTACGGCCTTGACCGCTTCCTGGCTGACTGGGACACGGTCCTGGCGGATCTCAAGCCCTCGCCAGGCCACCGTACCTTGATGGGGCCCGGAACCGGGCCCTCTATCCCGGCGCGAGAAAGGACTACCCATTGA	MRILLWHVHGSWTDAFVRGRHEYLLPVLAEGGAWGLGRAGRDWPASVQEVSLATLDADSIDAVVLQRPEEAAEVARLLGRRPGVDLPAVFVEHNTPKGNVPFSRHPLADQHEIPVVHVTHFNELFWDSGQAPTTVIEHGIHDPGYLYTGELPELGVVVNEPVRRGRVTGTDLLPRFAEAAPLQVFGMGGGELHAATGIGPSRLTVRGDLKTAELHRELAHCRVYLHPLRWTSLGLALLEAMHLGMPVLALDTTEAARAVPAEAGAVSTSVSELLRTARRLINDPEEARRRGKAAREAVLERYGLDRFLADWDTVLADLKPSPGHRTLMGPGTGPSIPARERTTH				NA	NA	NA	NA	NA
D1-17_03480	1074			hypothetical protein	ATGAGCAGGGTCCTGGTGGCCCGGCTCGACAGCGTGGGCGACGTGCTGCTGGCCGGTCCTGCCGTCAGGGCTGTGGCCAACGGCAGGCGGGCCGACGGCGGCGCCCCCAATGACGTCGTCGTGCTGTGCGGACCCCAAGGGCAGCCTGCCGCGTCACTGCTGCCGTTTGTTTCCGACGTTTTCGCTTGGGACAGCCCGTGGATTACCAATCCCGCCCCTCCTGTAACGGGACCGCACCTGGACGTGCTGGTGGACTTCGTCCGTAATTCCCGCATCGCCGAAGCAGTCATCCTCACCTCCTTCCACCAGTCACCCCTGCCGCTGGCGATGCTCCTGCGGCTGGCCGGGGTTTCTCGCATCACGGGCGCATCGACCGACTACGCAGGGTCGTTGCTGGACGTCCGGTTGCGGCCCGGCGAGGATTTCCCTGAAGACCAGCCGGAGGCAGTCCGGGCGCTGGGAATTGCCAAGGCAGCAGGTTTCCGGCTGAGGGACGGCGACGACGGGAAGCTGATGGTGAAGGAGCCGCCGGACGTCCGGAACCTCGTCGGAGAAGAGCCCTACGTCGTGGTCCATCCAGGGGCAACGGTGCCGGCGCGGGCTTGGCCCCCGCTCCACCATGCTGCCGCCGTGGAGCTGCTGGAGGGTTCAGGCCACCGCGTGGTGGTGACCGGCGGGCCCGGGGAGACAGAGCTGACGGCAACCGTGGCCGGCCCGTCAGCCCTGGACCTTGGCGGGCAGACCGATCTCCGGACCCTATCGGGGGTCCTGGCAAGGGCTCAGGTGGTCGTCACCGGGAATACGGGTCCAGCCCACTTGGCGGCCGCGGTAGGAACCCCGGTGGTTAGCCTGTTCTCGCCGGTCGTTCCGGCGATCCGGTGGGCGCCGTACGGGGTGCCGCTGGAACTGCTCGGTGACCAGAATGCAAGGTGCAAAGGGAGCCGGGCCCGGATTTGTCCGGTTCCCGGCCACCCCTGCCTGAGCTCGGTATCGCCCGAGCAGGTGGTGGAGGCCGTTGAACGGCTGATGCGCGGGATTTCCTCTCTCAGCACTCGAAGAAAGGTGCGCAGGTAA	MSRVLVARLDSVGDVLLAGPAVRAVANGRRADGGAPNDVVVLCGPQGQPAASLLPFVSDVFAWDSPWITNPAPPVTGPHLDVLVDFVRNSRIAEAVILTSFHQSPLPLAMLLRLAGVSRITGASTDYAGSLLDVRLRPGEDFPEDQPEAVRALGIAKAAGFRLRDGDDGKLMVKEPPDVRNLVGEEPYVVVHPGATVPARAWPPLHHAAAVELLEGSGHRVVVTGGPGETELTATVAGPSALDLGGQTDLRTLSGVLARAQVVVTGNTGPAHLAAAVGTPVVSLFSPVVPAIRWAPYGVPLELLGDQNARCKGSRARICPVPGHPCLSSVSPEQVVEAVERLMRGISSLSTRRKVRR	PGPT0022550_428	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_CORE_OLIGOSACCHARIDE_METABOLISM,PGPT0022550-waaQ|rfaQ-K02849	NA	NA
D1-17_03481	537	gmhB	COG0241	D-glycero-beta-D-manno-heptose-1,7-bisphosphate 7-phosphatase	ATGGCAAGCAACGCTTCTCGACTTAAAGCTGTGCTGTTCGACCGGGACGGCACTCTCGTCATTGACGTGCCCTACAACGGCGACCCCTCAAAGGTCAGGCCCTTCCCTGGCGCACGCAGGGTCCTTGACGAGCTGCGCGGCCTGGGTCTGGCCACCGGTGTGTTGAGCAACCAGTCGGGCGTGGCCCGGGGCATACTGACGATGGACCAGGTCGACAGCGTGAACAATCGCGTAGAGGAACTGTTGGGACCCTTTGATGTATGGGAAGTGTGCCCGCATTCAGCCGAGGACTCCTGCAGCTGCCGCAAGCCGGCCCCCGGCATGATTCACAGCGCGTGCGACAGACTCGGGATTAAGGCGTCGGAGGCCGCATTCATCGGTGACATCGGCAGCGACGTGCAGGCCGCCCGGGCTGCGGGTGCCCGGGGTGTGCTGGTTCCCACACCGGTGACACGCGAGGAGGAGGTGGCAGCGGCCCCGGAAGTCGCAGCGGACCTTGAGCAGGCCGTGGCCCTGCTCCTCAAGGGACCGGCATGA	MASNASRLKAVLFDRDGTLVIDVPYNGDPSKVRPFPGARRVLDELRGLGLATGVLSNQSGVARGILTMDQVDSVNNRVEELLGPFDVWEVCPHSAEDSCSCRKPAPGMIHSACDRLGIKASEAAFIGDIGSDVQAARAAGARGVLVPTPVTREEEVAAAPEVAADLEQAVALLLKGPA	PGPT0023035_454	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-MANNO-HEPTOSE|-PHOSPHATE_MODIFICATION,PGPT0023035-gmhB|yaeD-K03273	NA	NA
D1-17_03482	945			hypothetical protein	ATGGAACAACCTGATGGCGGACGCGAACAGCCCGTCCTCTTGGTTCTGCGGGCACTGAAACTTGGTGACATGCTGGTCGCCGTTCCGGCGCTGCGTGCGCTGCGCCGTGCATATCCCCGTCACCGCCTGCTTTACGCGGCCCAGGGATGGCTGGCTGAGGCACTCGAGCTTGTCGGGGGGTACGAGCTGCTCCCCACGCACGGCCTCGACGTTCCGATTCCGATCGCACCCGGAACGGTGGACGTGGCGGTCAACCTCCACGGCAGTGGGCCGGAAAGCGATGACCGGCTGGCGGACATCAGGCCACGGACAATAATTGGGCACCGCAGTGCCACCAGGAACGGGCCTGAGTGGGTACATGACATTCACGAACGGACCCGGTGGACACGGCTGCTGGAGTGGCACGGCATCGCGGCCGAGCCCGAGGATTTCCGGCTGCTGCAGCCCTCCGTAGCCAGTCCCTGCCCGGGTGCCACGGTGCTTCATGTAGGCGCCGCATACGGCAGCCGGCTGTGGCCTGTGGAGAGGTTCGCCCGCGTGGCCCGGGAGCTTTCCAGGCAGGGGCACCACGTGGTCTTTACCGGCAGCTCCGGAGAACGTCCGCGTGCCCTGGACGTGGCCAAGGCCGCGGGACTGGCCGAGTGCCACGTCCTGGCCGGGACGCTCGGACTGTCGGCCTTCGCAGCAACAGTGGCAGACGCGCGGCTGGTAGTCTCGGCCGACACAGGCGCGGCCCATCTCGCATCAGCCTATGCCCGGCCGTCTGTGGTCCTTTTCGGGCCTGCGCCCGCTGAAGTGTGGGGGCCTCCGCCCGGGCCGCACGTGGTGCTGACCCACGCTCAGCTGCGGCGCGGCGACACGTTCGCCGCCACGCCGGACCCTGCTCTCCTGGCCGTTTCTGCAGAGGACGTGCTCGCCGCCGTCCGCGGGCTCTCGCTCTCGTGA	MEQPDGGREQPVLLVLRALKLGDMLVAVPALRALRRAYPRHRLLYAAQGWLAEALELVGGYELLPTHGLDVPIPIAPGTVDVAVNLHGSGPESDDRLADIRPRTIIGHRSATRNGPEWVHDIHERTRWTRLLEWHGIAAEPEDFRLLQPSVASPCPGATVLHVGAAYGSRLWPVERFARVARELSRQGHHVVFTGSSGERPRALDVAKAAGLAECHVLAGTLGLSAFAATVADARLVVSADTGAAHLASAYARPSVVLFGPAPAEVWGPPPGPHVVLTHAQLRRGDTFAATPDPALLAVSAEDVLAAVRGLSLS				NA	NA	NA	NA	NA
D1-17_03483	918	fliA		RNA polymerase sigma factor FliA	ATGCCCGAGAAAATTGCCTTATCCGCTGTCAACGAATCAGCCGAATGCGACGGGGAGTCCTTAGTCGAATCCGCCCGGCCTGAATGGGCCGCGCGGTGCTCCACTCGTGCACTTCACCAGTCAGGGCGGCTTCACGAGGCCTTCCAGAACCAGCTGGTGCTCAACTACCTTGACCTCGCTGAGTCCCTAGCCGCGCGCTATGCCGCCAGGGGCAGGGACCGCGCCGATCTTGTACAGGTGGCGTACCTCGGGTTGGTGAAGGCTGCCAGGGGCTTTGACGAGAAAAAGGGCGAGAGTTTTCCGGCCTACGCTGCACCGACGATCAGCGGGGAGCTGAAGCGGTTCCTCCGGGACCGGTGTTGGACCGTGCGGCCCCCGCGCAGGGTCCAGGACGTCCGGACGCAGATGCTCCGCACAGCTCCTGATCTGGCACAGTCCCTGGGACGCGTGCCCACCGAGCAGGAACTGGCCGCGGAAATGGCTGTCCCGGTTGAGGAAGTCAGGGAGGCCCAGGCCGCGGGAAGCAGCATGCATCCCGATTCGCTCGACAACACCGATCCGTGGGGCGGCCCGCCGATGGCGGAAACCCTGATGTCGCCGGATACCCCCATAGAGCACCTTGAAGAACTGGTGTGCCTGAACGAAGCAATCCAGGAGCTGGATCCGGATGACCGCGAGATGCTGTACCGCCGGTATTTCCGGGAGGAGACTCAGTCCGAACTCGGCCAGCGGTTCGGCATCTCGCAGATGCAGGTGTCGCGGCGGCTGTCACGCATTCTTGTCTGCCTCCAGCACCGCCTGCTGGCCGAGGATCACGAGAGCGAGAGCCCGCGGACGGCGGCGAGCACGTCCTCTGCAGAAACGGCCAGGAGAGCAGGGTCCGGCGTGGCGGCGAACGTGTCGCCGCGCCGCAGCTGA	MPEKIALSAVNESAECDGESLVESARPEWAARCSTRALHQSGRLHEAFQNQLVLNYLDLAESLAARYAARGRDRADLVQVAYLGLVKAARGFDEKKGESFPAYAAPTISGELKRFLRDRCWTVRPPRRVQDVRTQMLRTAPDLAQSLGRVPTEQELAAEMAVPVEEVREAQAAGSSMHPDSLDNTDPWGGPPMAETLMSPDTPIEHLEELVCLNEAIQELDPDDREMLYRRYFREETQSELGQRFGISQMQVSRRLSRILVCLQHRLLAEDHESESPRTAASTSSAETARRAGSGVAANVSPRRS	PGPT0015025_1390	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	OTHER_MOTILITY_REGULATION,PGPT0015025-sigM|rpoE-K03090	NA	NA
D1-17_03484	1083			hypothetical protein	ATGCGCATCGTCATTACAGGAGCCAGCGGAAACGCCGGCACGGCACTGTTGCGCAGGCTCCAACGCGCCGCCGCAGAAGAGGTGCACGGTCTGGAACTGGTGGGCATCAGCCGCCGGATGCCGGATATTTCGCAAGACCCCTACCGGGGAGTGGAATGGCACACTTTGGACGTGGGTGTGAGCGCCAGCCAGGGAAGTCTTGGTGTTGCGCTGGCCGGGGCAGACGCCGTGGTGCATCTTGCGTGGCAGATCCAGCCAAACCGGGATCTCTCCCTGCTGCACCGCACCAACGTGACCGGCACGGAGAACGTCCTGGCCGCCGCCAGGGACGCGGGGGTCGGGCATGTGGTGTGCGCTTCGTCAGTCGGCGCCTACAGCCCAGGCCCGAAGGACCGCCGGGTGGACGAGGGCTGGCCTACCCAGGGTATGGAGGGGTCGCACTACAGCCGGGATAAAGCCGACCAGGAGGCCGTGCTGGACCGGTTCGCCGCGGACAATCCTTCCATCATCGTGGCCAGGCTGCGCCCGGGGCTGATCTTCCAAGGCGACGCCGGAAGCGAGATCGGCCGGTACTTCCTCGGCATGGTGCACCCCAGGCTGGTACCCCGCCGCCCGGCCCTGCCGATCCTGCCCATCCCCAACGAATTCATCTTTCAGGCCCTGCACGCGGATGACGTGGCAGATGCTTATTGGCGGGTTGTCCGGAACAAAGCGTCCGGGCCCTTCAACGTCGCAGCAGAACCGGTGGTCACGCCGCAAAACCTGGCCCGGCTCTTCTCAGCCCGCCGGGTGCTGCCTATTCCGGTCCGGTTCCTGCACACCCTCGTCGACTTGACCTGGCGGCTAAGGCTGCAGCAGACGGACTCCGGTTGGGTGGACATGGCAGCAGGAGCGCCCATTATGGACACCGCCCGCGCCCGGACGGAACTCGGCTGGGAGCCCCGGACATCGTCCCTGGATGCCATCCAGGAAGTCATTGAAGGCATGGCGACAGGCGCCGGGCTTGCCCCGTCGCCGCCGCTGAAACCGCGACGCCCACTGTGGGCAACCGCGGGGGAATTGGTCCGGCGGAGACGGGCATAA	MRIVITGASGNAGTALLRRLQRAAAEEVHGLELVGISRRMPDISQDPYRGVEWHTLDVGVSASQGSLGVALAGADAVVHLAWQIQPNRDLSLLHRTNVTGTENVLAAARDAGVGHVVCASSVGAYSPGPKDRRVDEGWPTQGMEGSHYSRDKADQEAVLDRFAADNPSIIVARLRPGLIFQGDAGSEIGRYFLGMVHPRLVPRRPALPILPIPNEFIFQALHADDVADAYWRVVRNKASGPFNVAAEPVVTPQNLARLFSARRVLPIPVRFLHTLVDLTWRLRLQQTDSGWVDMAAGAPIMDTARARTELGWEPRTSSLDAIQEVIEGMATGAGLAPSPPLKPRRPLWATAGELVRRRRA				NA	NA	NA	NA	NA
D1-17_03485	432			hypothetical protein	GTGGATACAGCTACCTGGGTATGGATCATTGTTGCAATTGTTGTTATCGCGCTGATCATTTTGCTGTTGGTGACCGGCCGCAAGCGCAAGGAGGCGTTTAAGCGGAAAAGGGATGAAACCAATCGCCAGCATGCTGCCGACATCCGCAGAAAGGCCGAGGATGCCGAGCTTGAGGCCCGGGAGAACGAAGCGCAGGCACTTCGGGCCAAGGCCGACGCCGAGAAGGCCCAGGTTGAGGCTGCCCGGTTGAGCCAGGAAGCCGAACAGCGGCAGTCCGAGGCGCAGGGCTTCAGGAGTGATTCCGAAAAGCACCTGCACAAAGCGAACGCGCTGGATCCGGACGCCGATGAGAAGCGTGAACAGCCCAAGGGGGCCATCGTCAACCCTGATCAGCGGCCTGACGCGACCCGCCCGAACAACTCGCGCGAGTAA	MDTATWVWIIVAIVVIALIILLLVTGRKRKEAFKRKRDETNRQHAADIRRKAEDAELEARENEAQALRAKADAEKAQVEAARLSQEAEQRQSEAQGFRSDSEKHLHKANALDPDADEKREQPKGAIVNPDQRPDATRPNNSRE				NA	NA	NA	NA	NA
D1-17_03486	942			hypothetical protein	ATGACACAGAACGAATGGCCGCAGCGCGCAAGTTACCCCGAGGCCGGAGCGGCTACATCCAAGAAGGAGGCTGCCAAGGAAGGGGCACTGGATTCGGCGCAGCAGGCCTCGGACTCAGCCGGTGCCCTCGCCCAGGCAGCAAAAACCGAGGTTGCCGGCGTCGCAGCCGGAGCCAGGTCAGCGGCTGCGGATTTGCTCAGCGAAACAAGGTCGCGACTTAGCGGCCAGGCCTCCAGCCAGCAACAAAAGGCAGCATCTGGCCTGCGTTCCGTTTCGGACCAGCTGCATGCGATGTCGCGGGCATCCGACCAGCCGGGGGCCGCCGCCGATCTGATACGGCAAGCCGCGGAACGGTCCGAGGCCGCGGCGGCCTGGCTCGGCAGAGGCGATCCCGCCGCGCTGCTGGACGACGTGGCCTCCTTTGCCCGGAGGCGTCCCGGGACGTTCCTCCTCCTGGCCGCCGGCGCGGGCGTCCTGGCCGGAAGGCTCAGCCGGGGCCTTAGTGTCGGGGCGGGCCAGCAAGACGGCGGCCGCCACCGGGCGGAGATGCCCCCTGCAGCATACGGACAAGCAGGGATTGAACCGGCAGGGCTCGAACGGCCTTCCCGGGCTCCTGTGCCGCCACCCCAAGTGGACCTGCCCGGTGCGGAGACGGCGTCGGGGAGCTACGCCCCGCCGGCAGGCACGCCCGTACCCCCGCCGCCTGTCGGCCTGCCCGGTCCTAACGCCACCACCGCCGGATTCGCCGGTGCCGCGGGATTCGGCGGTGCCGCCGCAGCCAGGGCCGGACGCCCCGATCCGCTCGATTCCCCCCAGCTGGCAGAGGATCCCCGGTCCCCGACACATATCGCGGACGACCCCCTGGCCGGGAAGGAGTTGGCCGATGACCCGATGGGCAGCGACCCGCTCACGCGCGATAGACGGGGCCCGGGCCTGGGTTGA	MTQNEWPQRASYPEAGAATSKKEAAKEGALDSAQQASDSAGALAQAAKTEVAGVAAGARSAAADLLSETRSRLSGQASSQQQKAASGLRSVSDQLHAMSRASDQPGAAADLIRQAAERSEAAAAWLGRGDPAALLDDVASFARRRPGTFLLLAAGAGVLAGRLSRGLSVGAGQQDGGRHRAEMPPAAYGQAGIEPAGLERPSRAPVPPPQVDLPGAETASGSYAPPAGTPVPPPPVGLPGPNATTAGFAGAAGFGGAAAARAGRPDPLDSPQLAEDPRSPTHIADDPLAGKELADDPMGSDPLTRDRRGPGLG				NA	NA	NA	NA	NA
D1-17_03487	204			hypothetical protein	ATGACCCGATGGGCAGCGACCCGCTCACGCGCGATAGACGGGGCCCGGGCCTGGGTTGACCGGGCCCGGATGCGGTACCCCGCAGAAGCCAAGGACAGCGTCCACAACCTGACCCAATGTGATTGCAGGGTGGCAGCAGCATTCCCCTTTCGAATCCTGCCGAACTGCAAGCCCCCGAAAGGATGGTCCAATGGCCACGAATGA	MTRWAATRSRAIDGARAWVDRARMRYPAEAKDSVHNLTQCDCRVAAAFPFRILPNCKPPKGWSNGHE				NA	NA	NA	NA	NA
D1-17_03488	1131			hypothetical protein	ATGGCCACGAATGAAGCTCAAGAGACCAGCAAGGCCAAGGCGTCAGCGGCGCCTGCCCCCGACGACGAACGCAAGCCCGACAGCCCCACAGATGTCACCAAGCCCGCCTGGAAATACATCTTCAAAAAAACCCTGCGGGAGTTCACGCAGGACCAGTGCCCCGACCTCGCCGCCGGTCTGACGTACTACGCCGTCCTCTCGCTTTTCCCGGCACTGCTGGCCCTGGTTTCCCTCCTCGGCATCTTCGGTGATGCACAAAGCACGACGGCGGCACTCCTCCAGATCGCGCAGGGCGTCGCCCCCGGCGCAGCCATGGACACTATCAGAGGTCCCATCGAGGAACTCACCGCGTCCCCGGCCGCCGGCTTCACCCTCATCATCGGTCTCGCCACCGCCCTCTGGTCCGCTTCCGGCTACGTGACCGGGTTTGGCCGGGCCATGAACCGCGTTTACGAGATTGATGAAGGCCGCGGTTTCGTCAAGCTCCGCGGCACGATGTTTGGCGTGACCCTGCTTTCCGTGGTCATCGTGGCTCTGCTGGCCGCGATGCTCGTCCTCAGCGGGCCGGTGGCAGAAGCCGTAGGCGGTGCCATCGGACTGGGCGGGGCCTTCCTGACCGTGTGGAACATCGCCAAGTGGCCGGTCATAGTCCTGCTGGTCATCGTGATCATCGCGGTACTCTACTACGCCACGCCCAACGTGAAACAGCCGAAATTCCGCTGGATGAGCCTCGGCTCGTTCATCGCGCTGGTGGTCTTCGTCCTGGCCTCGCTGGGCTTTGGCTTCTACGTGGCCAATTTCGGGAACTACAACAAGACCTACGGCGCAATCGGCGGCGTGATCGTCATGCTGCTGTGGCTCTGGATCATGAACATGTCGCTGCTGTTCGGCGCGGAATTCGACGCTGAAATGGAGCGCGGCCGCCAGCTGCAGGCCGGCATCGAGGCTGAGGAAACCATCCAGTTGCCGCCGCGGGACACCAAGAAGAGCGACAAGCTGCAGGCCCAGGAGGAGGAAGACATCCGCCACGGCCGGGAGCTCCGCGAGCAGCACTCCAATGGAAAAAACGGCGAACAGAACGGCACTCACAAGGCGGGACGCAACGGACAGGACCCCGCAGAGAGGAAGTAG	MATNEAQETSKAKASAAPAPDDERKPDSPTDVTKPAWKYIFKKTLREFTQDQCPDLAAGLTYYAVLSLFPALLALVSLLGIFGDAQSTTAALLQIAQGVAPGAAMDTIRGPIEELTASPAAGFTLIIGLATALWSASGYVTGFGRAMNRVYEIDEGRGFVKLRGTMFGVTLLSVVIVALLAAMLVLSGPVAEAVGGAIGLGGAFLTVWNIAKWPVIVLLVIVIIAVLYYATPNVKQPKFRWMSLGSFIALVVFVLASLGFGFYVANFGNYNKTYGAIGGVIVMLLWLWIMNMSLLFGAEFDAEMERGRQLQAGIEAEETIQLPPRDTKKSDKLQAQEEEDIRHGRELREQHSNGKNGEQNGTHKAGRNGQDPAERK	PGPT0014525_1507	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-17_03489	387			hypothetical protein	GTGAACCTCCTGCGAGTAATGGCCTCGGGTGACCCGCCGGGCCTGTTTATTGCCCGCGTCCATGGTGTCTTCAACGTGCTCAACGGGCTGTGGCCCTTGGTCCATATGTCCAGCTTCGAAACAGTCTTCGGTCCCAAGACGGACAAATGGCTGGTCCGAACTGTCGGAGGGCTCCTGCTCGTCAACGGCATCGCTCAGCTTCGCACCGGCAAAGGCAAAGCGGAGGTGCAGCAGGCGAGACGCATCGGTATGGGTACCGCTGCCACCCTCACAACCATTGACCTGGTCTATGTCGGAAACGGCACCCTCAGCAGGATGTATCTGCTTGATGCTGCGGCTGAAGTCCTGTGGATCACCCTTTGGCACCGGAGCCAGTCCAAGCCTTAG	MNLLRVMASGDPPGLFIARVHGVFNVLNGLWPLVHMSSFETVFGPKTDKWLVRTVGGLLLVNGIAQLRTGKGKAEVQQARRIGMGTAATLTTIDLVYVGNGTLSRMYLLDAAAEVLWITLWHRSQSKP				NA	NA	NA	NA	NA
D1-17_03490	429			hypothetical protein	ATGTCTCTCGGTTTCCACGGCTTCCGTTCTGACGGTGCAGGCCGGCGCCGGGCACTGCCGGTCACGTGCGGCAACTGCGGCAGCGACCACTACCTCACCATCCGATCCGTCACCGATCTGCAGGGCCAGCCGCCCGACGTCGTCATGGTTTCCTACACGTGCAGCCGGTGCGGGACCTTCAGCGAGCACCCTGCCCAGGTTGCCGACCTTTCGCTGGTCCTGGCCCGTCCGGAACAGACGGGGGACGTGCTGATATTCGGCAGCCACTACATGCACTGCGGGCAGCCGATGAAGAAAGCCGGTTCGGAACTGCGCAAGCTCTCGGCGCCTCTGTCTACTGAAGATGAGGGCGAAGACGCCCTGGGCGTCTACCTGTCTACCAGGGTTCTCAGATGCGGCTGCGGCTTCCAGATGGAACTGCCCGAGTGA	MSLGFHGFRSDGAGRRRALPVTCGNCGSDHYLTIRSVTDLQGQPPDVVMVSYTCSRCGTFSEHPAQVADLSLVLARPEQTGDVLIFGSHYMHCGQPMKKAGSELRKLSAPLSTEDEGEDALGVYLSTRVLRCGCGFQMELPE				NA	NA	NA	NA	NA
D1-17_03491	258			hypothetical protein	ATGGCCACCTCCCATTTCCGCCAGTTCCTATCCGACGCCACTGCTCCTGCCCCAGACACAGACAGTCCGTTGGGGCCGGACTGCCTCTACGGCTTGTACACCAGCTGGTGCTTGCTCCAGGGGATCACGCCCAAGCCCGACGCGTCCTTCCGGAAGGGCATGCGGCTGTGCCGCATCAATGTCCACAACGGCAGGCTGAGAATGAAAGGCCGCGCGGCAGCGGACTACATACTCACCAGCTACCCGCACGCCGCCTGA	MATSHFRQFLSDATAPAPDTDSPLGPDCLYGLYTSWCLLQGITPKPDASFRKGMRLCRINVHNGRLRMKGRAAADYILTSYPHAA				NA	NA	NA	NA	NA
D1-17_03492	285			hypothetical protein	ATGACAACGCACGTCGCAGACTGCAGCGTAACGAACTGTTCCTTCAACGACCACACCAACTGCAACGCCGCCGCCATCACCGTCGGCGGAGACGAAAACCACGCTCACTGCGCCACCTTCATCGACACCGGCTCCCACGGCGGACTCTCCAAAGTCCTCGCCGACGTCGGAGCCTGCCAGCGCTCCGAATGCGTCCACAACGACCACCTCATGTGCGGAGCCTCCGAGGTACACGTGGGCCCCGGCCGCGACAACGCCGACTGCCTCACCTACGCCCACCGCTAA	MTTHVADCSVTNCSFNDHTNCNAAAITVGGDENHAHCATFIDTGSHGGLSKVLADVGACQRSECVHNDHLMCGASEVHVGPGRDNADCLTYAHR				NA	NA	NA	NA	NA
D1-17_03493	1245	pknD_3		Serine/threonine-protein kinase PknD	ATGAATTCGGACAAACTAGGCGCAGAATCCCTGGCTGGCCGGTACAGACTGCTTGAGGTCCTGGGCAGCGGCGGCATGTCCACTGTTTACCGAGCGCAGGACGAAGTGCTGGGCCGGGACGTGGCCGTAAAACTCTTCCGCCACGACGATCCGGATCCCGCAGACCTCCAGCGGCGGCGGACTGAAATGCGCCTGCTTGCAGGACTGAGCCACCCCGGCCTCGTCGCGCTCTATGACGCGACGTTCGACGGCGCCGGCGACCTCGGGACGCTTGAGTACCTGGTCATGGAGTATGTCCCCGGAATCGATCTGCACCGGAGGCTCCGGGCCGGCCCCCTCTCAGATAGAGATACGCGCCGTGTGGGAGCCGAGACCGCCGCGGCACTGGACTTCATCCATGCCCGCGGCGTGGTGCACCGTGATGTGAAGCCCGCCAACATCCTTTTGCCAGAAGGCTGGTCAGAAGGGCGTGCGACTTCGAAACTGGCCGACTTCGGGATCGCCCGCACCTCGGGCAGCGACCGTCTCACCCTTTCCGACACAACCATCGGCACAGCCGCCTACCTCAGCCCGGAACAGGCAACAGGACATGAAGGACAGCCGGCTGCAGACATCTACGCCCTCGGGCTGGTCCTCCTGGAATGCCTGACCGGAACCCAGGAATATCCCGGCTCTCCCTTTGCATCAGCAGCAGCCCGCCTCTCCAGAGACCCCGTCGTCCCGGAACACCTGGGGCCCTTCTGGGGCGGCCTGCTCAGCCGGATGACCCGACGCGAGCCTCAGGCACGTCCTGCAGCCGCCGAAGTCGCTGCTACCCTCACCGGCCAAGCTGCGAACCCCACCCTGCGTCTGCCCTCTGCGGGGAAGCCCGGCACCGCAGCTTCGGCCGGCACCCCGGCAGAACGCCGATCGGCCAAGGGATTCCTGCCACAACCCGTGCCCGGCCAGCAGACAAACTCGACGATGTCCCGCCTCCCCGTTCCTCCGTCCAGGGCTCCCCGAACACCTCCCGTTACTCGGACACCACGAACACCCAACATCCAGGGCAAGGGGCGGGCAACGAAGGCCGCGCGGCGCACCTGGATCCCAGCCGCCGCAACGGCCGCCGCGGCCGGCATTGTCCTTGCGGTCCTGCTCTCGTCCGGTGTCCTGGCTTCAGGCCGCCCCGCTCCCGCCCCCTCCCCCGCACTGACCGGCCTCGTCGAGGACCATATGAGGGAACTAGAAGAAAGCGTGCGGCCATGA	MNSDKLGAESLAGRYRLLEVLGSGGMSTVYRAQDEVLGRDVAVKLFRHDDPDPADLQRRRTEMRLLAGLSHPGLVALYDATFDGAGDLGTLEYLVMEYVPGIDLHRRLRAGPLSDRDTRRVGAETAAALDFIHARGVVHRDVKPANILLPEGWSEGRATSKLADFGIARTSGSDRLTLSDTTIGTAAYLSPEQATGHEGQPAADIYALGLVLLECLTGTQEYPGSPFASAAARLSRDPVVPEHLGPFWGGLLSRMTRREPQARPAAAEVAATLTGQAANPTLRLPSAGKPGTAASAGTPAERRSAKGFLPQPVPGQQTNSTMSRLPVPPSRAPRTPPVTRTPRTPNIQGKGRATKAARRTWIPAAATAAAAGIVLAVLLSSGVLASGRPAPAPSPALTGLVEDHMRELEESVRP				NA	NA	NA	NA	NA
D1-17_03494	495			hypothetical protein	ATGACCGTCGGCCGGTCCATGAACCTGGCTCGCCTCCGACCCGTCCGCGTCCTGATCCTTGCGGCCGCCCTCGCCGTCCCGGGATGCGCCGCCCCTTTGGACCTGGACACCGGTACAGGCGCCGCCTTGCAGGAGCAGGTAGTAGCCGTCCGCGCAGCCCTGGCCGCCGGCGACTACGCTGGTGCCCTGACAGGGCTGGACACCCTTGCAGCTGACGTGCAACGGGCAGCATCGGAAGGCAAAATCAGCACGGAACGCAAGGCCCGCATCCTCCACGCCGTCACCCTCGTCCGCAGCGACGCGCTGGCCGCGATTCCGCCAGGGCCTGCCGCCCCTGCCCCGACTGAAGTACCCGGTCCGCTGCCGTCACAGTCGCAGCAGGACGGCGAAGAAGACAAGCCCCAAGACGACAAGCCACAGGACGAGGGTAAAAAGAAGGACGGGGAACCCGGCAAGGGCAAAGCCGAAGAAGAGAAGGCCAAGGGGAAGGACTAG	MTVGRSMNLARLRPVRVLILAAALAVPGCAAPLDLDTGTGAALQEQVVAVRAALAAGDYAGALTGLDTLAADVQRAASEGKISTERKARILHAVTLVRSDALAAIPPGPAAPAPTEVPGPLPSQSQQDGEEDKPQDDKPQDEGKKKDGEPGKGKAEEEKAKGKD				NA	NA	NA	NA	NA
D1-17_03495	1995			hypothetical protein	ATGGCAGCCAGCCCACCCAACGGTTCCGTGCATCACCCACACGGGCGACGCAGAGCCTCAGCAACTCGTCTTGGCCGCAGCCTGTTCGAACGCCGAAATGTGGCGGCGGCAGTCGCCGTCCTGCTGACGGCCACCGGCGTCGGGTCCGCGGTTGCGGCTACCCAGGTAACGCAAACTAATCCCGGCGGTATCATCGCCGTCGGCCCCGTCAACTCGGCCTACGGCTTCCCCTCCTGGTACGAAGACAAGAACCACACGCGCCTCGAACTGTGCCTGGAGGCCCAAAACCCGCTCTGTGGCTTCCTCCCCGGCGATGTTCCAAACGAAGCGGCAGAAATCTCATTCCCGGACAACTTCCCCGACGAGGCCTTCTACATGCTGGCCGGATCCGAACTGGAGCTGCCAAACGGTGGCCAGGCGGTCCTGGTGCTCGGCCTGGAAGCCGCGTTCTCGAATTCTGTGACGGACGGCGACCAAGTCGTGTTCGGGCGCCAGCGCATCGTCGTCAAGGGCGGTCCGGCCAACCAGACCCTGACCTTCCAGCATCCGTACGGCACCATCACCATAGATACCGACGGAGCCGGCGACGGAAAACTTGTGGAAGACATCTCGCCGGCCATTGGAAACTTCACCACCGCTTTGAAGAGCAACATCGGGCCCTTCCTCAAATGGGACACCGGCGCTCCTGAGGGGTACCTGGGCGACCCAAACCAGGACCACACGGTGACGGGCAGCCCCTTCGGCTACAACAAGTTCTCCGTCAGTGGCGGCGGGCTGAACGTTGAGACTGACCAGTTCTCACTGATGGGCAAGATCGCCACGAACAGTGGTGTCAGCGCGGATTCGGCAGTGCTCAACGGCGGCATGATAGACGTCTTCGCCAGCAGCAGCAATTCCGCACAGCTGCAGGTTGAGGGCCAGGACGGGAAGTTCAAGCTGACCCCGATGGTCACGGACCCGGACTCGGGACGCTACTACGCCCGGATCCAGTTCACCGGGGACGCTCCGACGTCCGTCAAGATCACCAACATCGCGGATAAGCCGGCCAGCAGCAGCACCATCAACGTGAGCAAGCCAAGCGGCATCTCCATCACCAAAGCTGTCTTCGACGGCTCGAAGCTGGAGGTCGCGGCAACGTCATCGGTCGGATACCCGCTCGAGGTCGTCGGTCTGGGCACGCTCGAGGCTCCGGCGACGGAGGGCGCACCTGCTGAAGCATCGATCCCGGTGAAGGCGCCACCGGCGACCATTACCGTGAAGCATGATGCAGGCAACGCCGCAACTCTTGCTGTCACTGTAGCCGGCGGCAGTGCTACGGAGCCCGGGCTCGATCCCCTGACTCCGGCACCGGATTCGGGACCCGTCACCGAGACCGGGCCAGGCGGCGGCTCCACGGGAGGTACGGAACCGTTGACCGCAGCGGTCACCGCATCATCGACCACTGCGGCCCGCGGCACGAGCGTCCAGCTCGACGGGAGCTCGTCCACAGGCGAGGTGGGGTATCAGTGGAGCCAGGTAACCGGGCCAACAGTAACGCTCTCCAGCACCACCGCACCCAACCCCACAGTCGCTGTTCCATTGTGGGCCAGCACCCAAGATTCGGCGCCGAAGGCTCCCCCGACGCAAGGCCCAGCCCGAATCAAGCTGGTGACCACAGGGGCAGATGGCACTACCAAGGAAGCTTGGGTTGACCTGACGATTCAGAATGACTCAGTAACCATTGACGCCGGCTCACGCCACCGCAGGGGCAGCGAACTCCGGATATCGGGAACCTCCACCCTGGCGGGCAATACCGCCATCCTGACTCCCGCAACGTCCATCGTGGTCTGGGACGTCTCCAACGCCGCCACGCCGGTGAAGATCGGCACCGCTCAGGTGGACACCCTGGGTGCCTGGTCCTACAAGATCAAACCGGGCCCCGCCCAGCAGGTTACCCGCGTCATGGTCCAGTCCAGCAGGGGAGGTAGCGCGACGGCGTCCATCGCCAGCCGCTGA	MAASPPNGSVHHPHGRRRASATRLGRSLFERRNVAAAVAVLLTATGVGSAVAATQVTQTNPGGIIAVGPVNSAYGFPSWYEDKNHTRLELCLEAQNPLCGFLPGDVPNEAAEISFPDNFPDEAFYMLAGSELELPNGGQAVLVLGLEAAFSNSVTDGDQVVFGRQRIVVKGGPANQTLTFQHPYGTITIDTDGAGDGKLVEDISPAIGNFTTALKSNIGPFLKWDTGAPEGYLGDPNQDHTVTGSPFGYNKFSVSGGGLNVETDQFSLMGKIATNSGVSADSAVLNGGMIDVFASSSNSAQLQVEGQDGKFKLTPMVTDPDSGRYYARIQFTGDAPTSVKITNIADKPASSSTINVSKPSGISITKAVFDGSKLEVAATSSVGYPLEVVGLGTLEAPATEGAPAEASIPVKAPPATITVKHDAGNAATLAVTVAGGSATEPGLDPLTPAPDSGPVTETGPGGGSTGGTEPLTAAVTASSTTAARGTSVQLDGSSSTGEVGYQWSQVTGPTVTLSSTTAPNPTVAVPLWASTQDSAPKAPPTQGPARIKLVTTGADGTTKEAWVDLTIQNDSVTIDAGSRHRRGSELRISGTSTLAGNTAILTPATSIVVWDVSNAATPVKIGTAQVDTLGAWSYKIKPGPAQQVTRVMVQSSRGGSATASIASR				NA	NA	NA	NA	NA
D1-17_03496	612			hypothetical protein	GTGTCCGTTTTCCGGCGGCAAATCCTCCTTACCGGTGGCCCACTCAAAACAGCTCCTGGAGGCGGTGCGTTCCTGACGCGACGGGAAGCCCGCGCGGCAAGGGGACTAGGCCATGCCGGAGGGCCCCGGAAGGGCTTCTGGAACAGGAAAACCACGGCGGCGGCGGTTCTGGCCGGGGGTTTGCTCGTCACCCGTTTGTGGGTCCTTGAGCCCATGACGGTCAGCTCCGAAAGCATGGAACCCTCTGTCCCGCGTGGCAGCATCATCCTGCTCTACAAACCCGGGCCCCAGTTGGCCGGCGTCCCAGCTGGGGGACTGGTCGTCTTCAGCAGTCCCGAGGATGGACGCCCCACGCTGAAGCGTGCCGTGGCGCTGGAGGGGCAGACTGTCGCCATTGAAGACTCCGTCCTTGTGGTGGACGGCGCCCCGCAGCCTGAACCGGGCATCGATCACAGCCGCATCGACGGCACGTACTTTGGCCCGGTCACCGTGCCGTCCGGTCACGTCTTCGTCCTTGGTGACAATCGTTCGGGCTCCATCGATTCCCGCAGCTACGGCAGTGTCCCGCTGGAAAACGTACAGGCTACAGTGGTGTGGCCGTTGGGGAGGTAG	MSVFRRQILLTGGPLKTAPGGGAFLTRREARAARGLGHAGGPRKGFWNRKTTAAAVLAGGLLVTRLWVLEPMTVSSESMEPSVPRGSIILLYKPGPQLAGVPAGGLVVFSSPEDGRPTLKRAVALEGQTVAIEDSVLVVDGAPQPEPGIDHSRIDGTYFGPVTVPSGHVFVLGDNRSGSIDSRSYGSVPLENVQATVVWPLGR				NA	NA	NA	NA	NA
D1-17_03497	2151			hypothetical protein	ATGTTTTCCAAGTCTGCTAACCGGCCCGAGATGCCCGATGGAGCGCGCCGCGCCCGTCGGGCAACCCGTCAGCCGATGACGACAACCTCCCGCCGTCTTGCCGCCGTTGTCTCCGGCGCACTGCTGGCCGCCTCGCTGGCGCCGCTCGCTGCCATCCCCGGGAGCGCCGCAACCGCCGGTATGGGTCCCGTGGATCCGGCCAACGGCTTTCCCGCCTGGTATTCGGACGGCACGGTCCGGCTGCAGCTCTGCTACGAGGCAGGGAAGGGCTGCCTTTCCGAACCGCCCAACCCGGAGGCGCCCGTTTCCTACCCCGACAACTTCCCTGATGAAGCGTTCTGGTTCGCGGCGGCGGCCGATGTCGGCACTATTGGCTCCTACGAAGCCGCCCTCGAGGCAGCACACGCCAACGAAGCAGTAGTCAACGGCGACCAGATGGGCTTCGGCCGGCTGCGGTTCCGGTTTGACGGGCTGCAGGCCGGCGCCTCCTACACCATTACGCACCCGTACGGGGTCCACACCTTCGAGGCCGACGCCACCGGCGTGATCAACGAGACCCTGGACGAGGGTTGCGAGCCGGGCGCGGCGACCGCCTGCGACTGGGCAGGAGTCGGCGCCGCCTTCCTGGGCGATTATGCGACCGGTTCTACAGCAACATTCCTCCGCCAGAACGGCGCAGAGGCCGGAACCATCGGGTCCATCGACACGGCACGGACTGTCACGGGAGCCCCCTCAGGCAATAACTTCGTCCGGGTGGTCGGACCGAACGCCGGCGGTCCCGGTGTCAACACGGTGACGACGAACCTGTTCACGGTGCAGGGCCTGATCTCCACGGCCACGGACGGTGCGCCTTCGACGCCGGACCTGGCAGCCGCTAGTGACAGCGGCCGCTCCTCCGCGGACAACGTAACGAATGTGACCACCCCCACTCTTACCGGCACGCTGCCGGCCGGTACGACCGGACCAGTCCAACTGGTCGTCGACGGCGCACCGCGCGCTGCCACGGTCACGGGTTCCACATACTCCCTGAAGCTGGCGCCGCTGGCCCAGGGCCGCCACACGGTCCAGGCGCGCGCAGGTGCGCTGACCTCCGCTGAGCTCACGTTCACCGTAGACACCACGGCACCGACTGTTTCCGTCACTGCACCGTTCCCGTCCACACCCAGCCTGGACAACACGCCCACGCTGAACTTCAGCAGCGCCGACGCGCAGGCACAGTACGAATGCCGGCTGCTTCCCACCAACGGCGCGTGGGATCCGACGTGCGCCTCACCGAAGACCTGGGACGCGCAGACCAACGGCTACCACACCTTCAGTGTCCGAGCCACGGACATGGCCGGAAACATCGGTGTCGTTGCCAACCGGAACATCCGCATCGGCACGGGCACGGGAGTCACCAGCGTCATGCAGGACTTCAATGGTGACGGACGTGCTGACATCGTGGCACGCGACTCCAGTGGCGTGCTGTGGACGTACCTCGGTAACGGCTCAGGCAGTTTCCCGAACCGGATCAGGGTTGGTGCAGGCTGGAACGTCATGAACTCCATCAGCGGGACCGGAGACCTCACCGGAGACGGCCGCGCTGACATCGTGGCCCGTGACTCCGCCGGAGTCCTCTGGACCTATCGCGGCAACGGCTCCGGCGCCTTTCCCACCCGGGTCCGGGTTGGGGCAGGCTGGAACACGATGAAGAGCATCAGCGCTGCCAGCGATGTCACCGGCGACGGACGGAGTGACCTGCTCGCCGTTGACTCCCAGGGCGTCCTGTGGAGCTACGCCGGCAACAACACCGGCACCTTCCCAAGCCGGGTCCGCGTCGGCGCAGGCTGGGGCACCATGGCCATCAGCGCAGCCGGTGACATCAACCGCGACGGCAAGGCCGACCTGGTCGCACGGGATGCCAGCGGAGTCCTGTGGTCATACATGGGCAACGCCGCTGGCGCCTTCCCCACCAGGGTCAGGGCAGGCGCAGGCTGGAATGCCATGAACGCCATAAGCGGCGCCGCAGACCTGAACAGCGACGGACGTGATGACCTCGTGGCACGCGACCGCAGCGGTGTTCTCTGGTCCTACCTGGGCAGCGGCACAGGCACCTTCCCGAACAGGGTCCGGGTTGGCGGAGGCTGGAACATCATGAACGTCCTCGGCTAA	MFSKSANRPEMPDGARRARRATRQPMTTTSRRLAAVVSGALLAASLAPLAAIPGSAATAGMGPVDPANGFPAWYSDGTVRLQLCYEAGKGCLSEPPNPEAPVSYPDNFPDEAFWFAAAADVGTIGSYEAALEAAHANEAVVNGDQMGFGRLRFRFDGLQAGASYTITHPYGVHTFEADATGVINETLDEGCEPGAATACDWAGVGAAFLGDYATGSTATFLRQNGAEAGTIGSIDTARTVTGAPSGNNFVRVVGPNAGGPGVNTVTTNLFTVQGLISTATDGAPSTPDLAAASDSGRSSADNVTNVTTPTLTGTLPAGTTGPVQLVVDGAPRAATVTGSTYSLKLAPLAQGRHTVQARAGALTSAELTFTVDTTAPTVSVTAPFPSTPSLDNTPTLNFSSADAQAQYECRLLPTNGAWDPTCASPKTWDAQTNGYHTFSVRATDMAGNIGVVANRNIRIGTGTGVTSVMQDFNGDGRADIVARDSSGVLWTYLGNGSGSFPNRIRVGAGWNVMNSISGTGDLTGDGRADIVARDSAGVLWTYRGNGSGAFPTRVRVGAGWNTMKSISAASDVTGDGRSDLLAVDSQGVLWSYAGNNTGTFPSRVRVGAGWGTMAISAAGDINRDGKADLVARDASGVLWSYMGNAAGAFPTRVRAGAGWNAMNAISGAADLNSDGRDDLVARDRSGVLWSYLGSGTGTFPNRVRVGGGWNIMNVLG				NA	NA	NA	NA	NA
D1-17_03498	678		COG4122	Catechol O-methyltransferase	ATGATCGAGCACAAGTCCCGGCCGGAGTGGGTGGCCGTAGAAAAGTTTCTGTCGGACGCCGTCGTGCATCAGGGGACCGACCTGCAGCGCGCGCTGCAGTCCGCCGCCGACGCAGGGATGCCGGCCATCGAGGTGACCCCGAACGCCGGCAAGCTGCTGAAGTTGCTGGTCAGAGCATCGGGCGCGAAACGGGTGCTGGAAATCGGCACCCTGGCCGGGTTCAGCACCATTTGGATCGCTCAGGGGCTTCCCGACGACGGCCGGCTGGTGACGTGCGAATACCTGACCAAGCATGCCGACGTTGCCCGGAAGAATGTGGACGCCGCCGGAGTCGGCCACAAAGTGGAAATCCGGATCGGTGCTGCGCTCGATACACTGCCCGCATTGGAAGACGAGGACGCGGGTCCCTTCGATTTTGTCTTTATTGACGCGGACAAGGAGAACGACCCCCAGTACTTGCAGTGGGCCGTTCGCCTGGGCCGGCCAGGTACCACCATCGTCATGGACAACGTGGTGTGGGAGGGTGCGGTGCTGGACCCTGCCCTGGACGAGGTCAACGCGCCGGGGATTATCAGTGCCCTGAAAATGATGGGGGAAGACAGCCGTTTGGACGCCACTGTCATCCAGACGGTGGGGTCCAAGGGCTGGGACGGTTTCGCGCTGGCTGTGGTCCGCTAG	MIEHKSRPEWVAVEKFLSDAVVHQGTDLQRALQSAADAGMPAIEVTPNAGKLLKLLVRASGAKRVLEIGTLAGFSTIWIAQGLPDDGRLVTCEYLTKHADVARKNVDAAGVGHKVEIRIGAALDTLPALEDEDAGPFDFVFIDADKENDPQYLQWAVRLGRPGTTIVMDNVVWEGAVLDPALDEVNAPGIISALKMMGEDSRLDATVIQTVGSKGWDGFALAVVR	PGPT0011950_22	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-ANSAMITOCIN_P-3_METABOLISM,PGPT0011950-asm17-K16028	NA	NA
D1-17_03499	324			hypothetical protein	GTGATCGTAGCGTTTTCAGTAGCTCCCTCGGGTACCGTCGGCGACTCGGTTCATGACGCCGTTGCGGCGGCAGTCAAGGTCGTGAGGGAGTCGGGCCTGCCGAACCGGACCAGTTCCATGTTCACAGAGATAGAAGGTGACTGGGACGAGGTGATGGATGTCGTCAAGCGGGCAACTGAAGCTGTGGGTGAGTATGGGCCCCGCGTGTCCCTCGTGCTAAAGGCAGACATTCGGCCAGGCCATGAGGGCGAGCTGACGGGGAAGGTCGAGCGCCTGGAGCGGGCGCTCGAAGGAGCGGGTGTCAGGCTCGACGAGGAGGCATGA	MIVAFSVAPSGTVGDSVHDAVAAAVKVVRESGLPNRTSSMFTEIEGDWDEVMDVVKRATEAVGEYGPRVSLVLKADIRPGHEGELTGKVERLERALEGAGVRLDEEA				NA	NA	NA	NA	NA
D1-17_03500	621			hypothetical protein	ATGAACCTCGCAGTAGAGCGCAAGCCCCTTCGTGCCGACGCTGCCCGCAATGTGGACAAGATCATCAATGCGGCCCGCGAGTGTTTCAGGGAGTATGGCCCGGAGGTTCCCCTGCAGACCATCGCTGCTACTGCAGGAGTAGGGCCGGCAACACTCTTCCGCAACTTCTCGGACAAGGAGCAGCTGGTCTTGGCTGCGCTGAACCGCCAACTCCGGCTGACCGTCGACCCGGTCATCGATATCGCATTGGCCGGCCAGGACGCCGCCGACGGCCTTTTCCGCGTCATCGATTCCGTGATGGCCGCGGCAAGCGAGAATGCCAATTTGCTCGGCGCCGTGGCGGGGCGCCGCGATCTCCTGACAGGCATCACCGGGAGCCTCATCGAATCCGTTGGGATCCTCCTCGGCCGGGGCCAAGGGCAAGGCACGCTCCGCACAGACATCTCACTGACCGACATGGTGCGACTGCTTGCCATGCTCATCGGAGTGGTGGACACGATGGAGCCGGGCTCTGATGCCTGGCGCCGTCCTGCTGCCCTGGTGGAGGACGCCATACGCTCCGAGCGGCCGGAGCGGTCACTGCCGCCGCAGGTGCCGATGCCTGGAATGCAGCTCGACTAG	MNLAVERKPLRADAARNVDKIINAARECFREYGPEVPLQTIAATAGVGPATLFRNFSDKEQLVLAALNRQLRLTVDPVIDIALAGQDAADGLFRVIDSVMAAASENANLLGAVAGRRDLLTGITGSLIESVGILLGRGQGQGTLRTDISLTDMVRLLAMLIGVVDTMEPGSDAWRRPAALVEDAIRSERPERSLPPQVPMPGMQLD				NA	NA	NA	NA	NA
D1-17_03501	225			hypothetical protein	ATGAACCGCTCCCAACTCGCCCATTTCATGAAAAGTTCCGGTGATCCGGAAGAGACCCTCACTGCGGCCACCACAGATGAGCTGGGAATTATCGTGGATGCGCTCTACCGCAACCTGGACACTCCCAAGCCCGTGTTCGGAGCCCAGGACTGGTATGACCTCGCCACCGAGGAACTGGCCAGGCGCTCCGCACCGTCCTCGCCGGACGCCTACGGAGCGGCTTAA	MNRSQLAHFMKSSGDPEETLTAATTDELGIIVDALYRNLDTPKPVFGAQDWYDLATEELARRSAPSSPDAYGAA				NA	NA	NA	NA	NA
D1-17_03502	312			hypothetical protein	ATGAATCTTTGGTTGTGGCTGCTGCTGTCCTGCCTGCTTGCCTACGCATGGAAGCTTGTGGGTTACCTCGTCCCCGCCACGCTGCTGAAAAATGCGAGGACGTCGCGCATAGCCGGAACAATGACCATCGGCCTGCTTGCCTCCCTGACGGTAGTCAACGCCGCAGCATCGGGCCAGGAGCTCCTTTTGGACGCCCGGCTCGGAGCGCTCGCGGCGGCCGGTGTCGCGCTGCTGTTCCGCGCTCCATTCCTGGTGGTTGTCCTGGCGGGCGCTGGAACCGCGGCTCTGCTCCGGCTCGCGGGCTGGAACTGA	MNLWLWLLLSCLLAYAWKLVGYLVPATLLKNARTSRIAGTMTIGLLASLTVVNAAASGQELLLDARLGALAAAGVALLFRAPFLVVVLAGAGTAALLRLAGWN				NA	NA	NA	NA	NA
D1-17_03503	780			hypothetical protein	ATGCCCCTCACCTTTCCTTCCCACCTCCTGCAGTCCCCGGCGGTGCGGGTGGGCCTGTCCATCAGCGTGGCAACTGGCCTCTACGGCGTTTCCTTTGGTGCCCTCTCCGTGACGTCCGGACTGGATTTCTGGCAGACGATGGCACTGAGCCTGCTGCTTTTCAGCGGCGGCTCGCAGTTTGCCTTCATTGGCGTGGTTGCCGGAGGAGGATCGGGACTTGCCGCGATGGGAGCCGCTACTCTGCTGGGGATGCGCAACGGCATATACGGCATGCAGCTCAATGTGCTGCTGCATCCGAAAGGCTGGCGCAAGTACGCGGCCGCCCAGCTGACCATTGATGAATCCACCGCCACGAGCACGGGACAGACCGATCCTCTGGAACAGCAGCGCGGATTCTGGACCGCGGGGCTTGGCATCTTCATCCTGTGGAACGTCTTCACGGCCGTAGGGGCGCTCGCGGGCAGCGCCTTGGGCGATCCCAAACAGTGGGGGCTCGACGGCGCCGCAGTGGCGGCGTTCTTGGCGCTGCTCTGGCCAAGACTCAAAGGCAAGGAGCCGGTGGCCATCGCGATCTTGTGCGCGCTTGCCACCGTCTTGGCGGTTCCGTTCGTTCCGGCAGGTGTGCCGATCCTGGTGGCTGCGGCTGTTGCGGCGCTCTTTGGCTGGTTCAGCCACGGGCCCAGGGATGAAGGGCTGGAGCCCGACATCAATCCCTACGATGAACGCAGGCAGCACGGATCCCATCCGGGAGGCGGAAGTACAGCCAGTGATTCCGCATGA	MPLTFPSHLLQSPAVRVGLSISVATGLYGVSFGALSVTSGLDFWQTMALSLLLFSGGSQFAFIGVVAGGGSGLAAMGAATLLGMRNGIYGMQLNVLLHPKGWRKYAAAQLTIDESTATSTGQTDPLEQQRGFWTAGLGIFILWNVFTAVGALAGSALGDPKQWGLDGAAVAAFLALLWPRLKGKEPVAIAILCALATVLAVPFVPAGVPILVAAAVAALFGWFSHGPRDEGLEPDINPYDERRQHGSHPGGGSTASDSA				NA	NA	NA	NA	NA
D1-17_03504	885	glpQ1	COG0584	putative glycerophosphodiester phosphodiesterase 1	ATGACAACCGACGCGTCCGCTTCAGTCCGTCCCTTGGTGTATGCCCATCGGGGCGCCAGCGCGGATTTCGCGGAGCACACCAGGGCGGCGTATCTTCAGGCCCTCGCCGACGGTGCCGACGGTGTGGAGTGCGATGTGCAGCTAAGCCGGGACCAGCACGTGGTGCTGCTGCACGATGCCAATCTCGACCGCACCTCGGATGGTACAGGTCCCGTGGCCGAGCGGACCCTCAAGGAGCTGCGCCAGCTGGATTTCTCGTCGTGGAAGGGCGTCCGGATTCCGGAAGCCTTCGGCCCGCGCTCGGACCAGTTTCTGACTCTGACCGATCTGTTGGGTCTGCTCCGTGGCGCAGGGCGCGAGATCGGCCTGGCCATCGAGCTGAAACACCCCAGCCCCTATCAGCTCAAACTCGAAGACCGCGTGCTGGATGTCCTCCGGGCGCAGGGATGGAACCTGCGGACGTCCCGGCTGGACAACATCAGGGTCACTTTCATGAGCTTCAGTCCCGATGCCGTGCGGCACTTGCGTAAGTCCGTCCCTGCTGAGTTCATTTGCCAGCTTGTGGACGACATCAACGTGGTGGAAATCCGCCGGGACCTTGGCCTTGGTCCACTGACCGGCGGTGCCGTTGCCAACGTTATGAAGGCTGCCCAGCTTGAGGGCGAGCGGATCCTCAACGCCTGCGATGTGGGGATGGCAGGTCCCGGCATCGCCTATGTCCGGGAGCACGCCGCCACTGTCCGCCGCTGGCTGGATTCCGGCCGCAGGTTCAGGGTGTGGACGGTGGACACGGCCGAGGACGTGGCGTTGTGCCTGGGGATGGGGTTCCAGGAGATCACCACCAACCGGCCGGCGCAGGTGTTGGCCCAACTGCAGCCTGTGTAA	MTTDASASVRPLVYAHRGASADFAEHTRAAYLQALADGADGVECDVQLSRDQHVVLLHDANLDRTSDGTGPVAERTLKELRQLDFSSWKGVRIPEAFGPRSDQFLTLTDLLGLLRGAGREIGLAIELKHPSPYQLKLEDRVLDVLRAQGWNLRTSRLDNIRVTFMSFSPDAVRHLRKSVPAEFICQLVDDINVVEIRRDLGLGPLTGGAVANVMKAAQLEGERILNACDVGMAGPGIAYVREHAATVRRWLDSGRRFRVWTVDTAEDVALCLGMGFQEITTNRPAQVLAQLQPV	PGPT0018470_3424	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-17_03505	1338			hypothetical protein	ATGCAGGTGAACTCTGAGACAACCACCAAGCCCGCCGCCCCCCACGCCGGCCCGCTCCGCCGGACGCCGCCGGCTGCCACGCCAAACCAGTTCCCAGAGGGTGATGCTGAGAAGGCCGCTGCGCTTCGGAAGATGAAGCTCCTGGCGCTCTCCCTGCTGATCGCCATGGCTGTTGTGTTCACCATCGCCTTTGCCCTGCAAAAGCAGTACCCCTGGCTGGAATACGTGCGGGCTGCTGCAGAGGGCGGGATGGTGGGGGCACTCGCTGACTGGTTTGCGGTAACTGCACTGTTCAAGTATCCGATGGGCGTGAAAATCCCGCACACCGCCATCATTCCCCGGCGCAAGGACCAAATCGGAGCATCACTGGGCGAGTTCGTGGAGACCAATTTCCTCTCCGAGCAGGTGGTTCAGGACAAACTGGCCAGCATCAACATCGCCGGCAAGGCGGGCCAGTGGCTGTCCGCCCCGGGTGGTGCCGAGCGCGTAGCGAAGGAGGGCGGTGCTGCCATCCGCGGTGCGTTCAAGGTCCTCAATGACGACGACGTCCAGGCAGTAATCGAGGGCATGGTCCGCCGGCATCTGCTGGCTCCCCCGTGGGGACCACCGGTAGGTCGGATGGCCGAACGTATCTTCGCCGAAGGCCACCACCACACGCTGGTTGACCTCTTGGTGGACCGCGCCGCGGACTGGGTGGCAGCCAACCACGAGACGGTCAGCCGCCTGGTCACGGACCGCTCCCCGCAGTGGGTGCCCAAGATCGTGGACGGCCTCGTGGGCGACAAGGTCTACCTCGAAATCCTCAAGTTCACGAGGGCCGTCCAGGCAGACCAGAACCACGAGGTGCGCCGGTCGATCGACAAGTACCTCACAGACCTGGCCCACGATCTGCAGTACGATCCTGCGATGATCGCCCGTGCAGAAGGCATGAAAGCCCAGATCCTGGGAGACCCCGAAGTCCGTGAACTCGCCTCGCGGACCTGGTCGACCATCAAGAGTGCGCTGCTGACCGCCGTCGACGATCCCGACAGCGAACTGACGGTCAGGTTCAAGGCGGCCGTGCGTGACTTCGGAGCACGGCTGGTCAATGACGAAGAACTGGCGGGCAAGGTGAACACCTGGATCGGTGACGCAGCGGGCTATCTTGTCCGCACGTACCGTTCCGACATTGCCGGCGTCATCACCGATACGGTGGCCCGCTGGGATGCGGAAGAGACCTCGCGGAAGATTGAACTGCAGGTGGGCAAGGACCTTCAGTTCATCCGGATCAATGGCACCGTGGTGGGTTCGATGGCCGGCCTGGCGATCTTCACCGTTGCGCATCTGGCCTTCGGCTGA	MQVNSETTTKPAAPHAGPLRRTPPAATPNQFPEGDAEKAAALRKMKLLALSLLIAMAVVFTIAFALQKQYPWLEYVRAAAEGGMVGALADWFAVTALFKYPMGVKIPHTAIIPRRKDQIGASLGEFVETNFLSEQVVQDKLASINIAGKAGQWLSAPGGAERVAKEGGAAIRGAFKVLNDDDVQAVIEGMVRRHLLAPPWGPPVGRMAERIFAEGHHHTLVDLLVDRAADWVAANHETVSRLVTDRSPQWVPKIVDGLVGDKVYLEILKFTRAVQADQNHEVRRSIDKYLTDLAHDLQYDPAMIARAEGMKAQILGDPEVRELASRTWSTIKSALLTAVDDPDSELTVRFKAAVRDFGARLVNDEELAGKVNTWIGDAAGYLVRTYRSDIAGVITDTVARWDAEETSRKIELQVGKDLQFIRINGTVVGSMAGLAIFTVAHLAFG				NA	NA	NA	NA	NA
D1-17_03506	2202			hypothetical protein	ATGGATTCCCTACCCTCGATCTCTGCAGCGGGCCGGCAGGCCCGTCCAGGCCGGGCGTTCCCACGCACCGGCCTTTTGCTTGTCTGCCTGCTTGCCGTGGCAGCCCTCTCTGCTCCTGCCACGATAGCCAGCCCGGTGAATTTGGCAGCTGTGGGCGATAACTTCCAGCCAGGTGCGCCGGGCCTGGGCGATCCGTACTATCCTCTCGACGGCAACGGCGGCTACGACGTGGCTCGCTACATCCTGGACCTCAGCTATCACCCCGCCACTGATGTCTTGGCCGGCACCGCCACTATCCGTGCCCAGGCAACCCACAGTCTTTCGTCCTTCAATCTGGATCTGGTCGGCCTGAACGTACGTTCCGTCACCGTCGACGGTGAGAAGGCCTCCTTTATCCGTAGTGGTAAGGAGCTCACAGTCACGCCGGAGAACGGCGTCACAAACGGAACGGTCTTCGAGACCAAGGTGAAGTACGACGGCGTGCCCATCCTTTTGAACGAACAGCTCGGCCCGCTGGGCTTCTTCCATACAGACGATGGGTCGCTGGTGATCGGGCAGCCGCACGTTGCCGCCACCTGGTTCCCGGTGAATGACCACCCACTGGACAAGGCCGCGTTCACGTTCCGGATCACGGTGCCGGAGGGCCTGGAAGCGGTTGCCAACGGATTGCTGGAGGAACACGGCTCGAAGGACGGCAAGGCCACCTGGACGTGGCGGGCGGACGAACCGATGCCCGCCTATCTCGCGACGGCGAGCGTGGGGCAGTTTGAACTGAACAAATACAAAAAGAACGGGATCAGTTACATCGATGTGATCGATCCCGACCTCTTCACCCCCGTGGTGCAGGCGAAAACAGGTAAGAACTTTGCCTGGTCCCACAACAGCCTGAACTCCTATACGCGGCTCAAGAGGACAATAAGCGTCCCGAAGGAAGGGGCCGCTCTTTCCTTCTGGCTTCAGCGGAACATCGAAACCAACTTCGACTTCACGTTCGTGGAAGCACGTGCCGCAGGCTCGGGCAACTGGACCACCCTGAAGGACGAAACGGGCCACACCAGTGCCAGTCCGGGTGCGGCCTGCCCCAACCTGTTGAGGCTGCATCCCTTCCTAGCGCATTACCTCACACACAAGGGAGATGGGACGTGCACACCAACCGGCAGCACGGGACACTGGTGGGCAGCTACCGGGGCTAGTGCCGGCTGGGAATCGTGGGGGGTTAGTCTGAGCGGCTTCGCGGGAAAGGACGTGGAAATAGCCATCACGTACGTGAGCGACGGCGTAGGACGCTTCGACGGCGTCTCCGTTGATGACGTCACAGTTTCGACAGGGGAAGGCACCACGTCCTTTGAAGACGACGGAAACACATTCGATGGCTGGCATGCTTCCGGACCGCCTGAGGGAAGTCCGGAAAGCAAGGTCCGCTGGAGTGCGGGCACTGAGGGCCCTCCGTCCCTGGGCGACCGGGTCAAGGCCTCCTTCGAGAGGCAGCCCGAGATTATTGGCTTCCTCTCGGGATACTTAGGGCCCTATCCGTTTGAGGCAGCCGGTGGGATTGTTGATGATCTCGCCAGCCTGGGATTTGCGCTCGAGAACCAGACCCGCCCCATCTACTCCAAGTATTTCTTTGTCGATGAGCAGGCAGGCGAGTCAGTTGTAGTCCATGAACTGGCGCACCAGTGGGTGGGGGACGACGTTGCCGTGAAATCCTGGCGCGACATCTGGTTGAACGAGGGCTTCGCGGTGTATTTGGAGTGGCTGTGGAGCGAGCACGAGGGGCGGGAAACACCGCAGCAGATCTTCGGCTTCTACGCCAGCGTCATTCCCGCTGACGCCCCTTTCTGGACTGTAACCATCGGCGATCCCGGAACTGAAGCCCTCTTTGACGCTGCCGTATACGTGCGTGGCGCCATGACGCTGCACGCACTCCGCACGCTGGTGGGAACCGAGGTCTTTCTCGACATCCTCAGGGAGTGGACAGTCTCCAATGCTGGTGGCAACGTGTCCACGGCCGACTTCATCGAACTGTCCGAACGATCCTCCGGCCGGGACCTGACAGCCTTCTTCACCAGCTGGCTGTATACGCCCTCAAAGCCAGGCGGCATCGGCCCATTGAACCGCCAGGCCCTTCCGCAGCAGGCCGGGGTCCCGGACGCAGTCCGGCAGCTGGAGCGGTGGGTCGGTTCCGGGGGCCAGCGCCGGTAG	MDSLPSISAAGRQARPGRAFPRTGLLLVCLLAVAALSAPATIASPVNLAAVGDNFQPGAPGLGDPYYPLDGNGGYDVARYILDLSYHPATDVLAGTATIRAQATHSLSSFNLDLVGLNVRSVTVDGEKASFIRSGKELTVTPENGVTNGTVFETKVKYDGVPILLNEQLGPLGFFHTDDGSLVIGQPHVAATWFPVNDHPLDKAAFTFRITVPEGLEAVANGLLEEHGSKDGKATWTWRADEPMPAYLATASVGQFELNKYKKNGISYIDVIDPDLFTPVVQAKTGKNFAWSHNSLNSYTRLKRTISVPKEGAALSFWLQRNIETNFDFTFVEARAAGSGNWTTLKDETGHTSASPGAACPNLLRLHPFLAHYLTHKGDGTCTPTGSTGHWWAATGASAGWESWGVSLSGFAGKDVEIAITYVSDGVGRFDGVSVDDVTVSTGEGTTSFEDDGNTFDGWHASGPPEGSPESKVRWSAGTEGPPSLGDRVKASFERQPEIIGFLSGYLGPYPFEAAGGIVDDLASLGFALENQTRPIYSKYFFVDEQAGESVVVHELAHQWVGDDVAVKSWRDIWLNEGFAVYLEWLWSEHEGRETPQQIFGFYASVIPADAPFWTVTIGDPGTEALFDAAVYVRGAMTLHALRTLVGTEVFLDILREWTVSNAGGNVSTADFIELSERSSGRDLTAFFTSWLYTPSKPGGIGPLNRQALPQQAGVPDAVRQLERWVGSGGQRR				NA	NA	NA	NA	NA
D1-17_03507	750	pxpA_1		5-oxoprolinase subunit A	GTGGATCTGAACGCTGATCTCGGCGAATCCTTCGGCTCGTGGAGCATGGGTGATGATGCAGCCATGTTCCAGCTGGTCACCAGCGCCAATGTGGCGTGCGGCTTCCACGCCGGGGACCCTGTCACCATGTTGGACAGCTGCCGGGCGGCCTTCGAACTTGACGTCACCGTCGGTGCCCACGTCGGCTACCGCGATCTTGCGGGGTTCGGACGGCGCTTTCTGGACATGTCCTTCGACGAGCTGTTTGGCGATGTCCTGTACCAGCTCGGCGCGCTGGATGGCGTGGCGCACGCGGTAGGTGCGTCTGTGGACTACGTGAAACCTCACGGTGCGCTCTACAACCGGATATTCCACGATGCCGAGCAGGCAGCTGCCGTCCTCGCCGCGGTCCACGCCTACGACGAGAGCCTGCCAGTTCTCGGACTGCCGGGCTCTGAGCTGCTGAAACAGGCCGAGGAGGCGGGGCACCCCGTTTTCCGTGAAGCCTTCGTTGACCGTGCCTACCTGCCGGACGGCACCCTGGTGCCGCGTTCCAGGGAGGGGGCGGTCCTGAACGACGTCCGTTCTATCGTTGACCGCGCCGTGCGCCTGGCACAGAAAGGCGAGGTACTGGCCGTGGACGGCACAGTGGTCCGGGTCGAGCCGGACTCGCTGTGCATCCACGGCGACACCCCAGGTGCGGTGGGCATGGCTGCCGCCGTCCGCGCAGGTCTTGAGGAGGCCGGCGTGGAGCTTCAGCCCTTCGCCTGA	MDLNADLGESFGSWSMGDDAAMFQLVTSANVACGFHAGDPVTMLDSCRAAFELDVTVGAHVGYRDLAGFGRRFLDMSFDELFGDVLYQLGALDGVAHAVGASVDYVKPHGALYNRIFHDAEQAAAVLAAVHAYDESLPVLGLPGSELLKQAEEAGHPVFREAFVDRAYLPDGTLVPRSREGAVLNDVRSIVDRAVRLAQKGEVLAVDGTVVRVEPDSLCIHGDTPGAVGMAAAVRAGLEEAGVELQPFA				NA	NA	NA	NA	NA
D1-17_03508	795			hypothetical protein	ATGGCAATGCGAAGCAACCCGGCAATGAAAATCGCCCAAGAGGCCGCGCAGAAAGCGGTGTTCGATTCAGAGGGAAAACCTAAACCTGGGGTCCATAATTTCCTCCTTCGAGCAATCGACGTGCAGCGTCCGCTGGTCCTTGTGAACCTGAAGCGCCTGCAGCGGCAGAATCCCAAGGCTACAGCGGCCCAGCTGGCTGACATTTTGGAGCGTGATTACCTGCGGGCCGTTACTGGCGGAGGAGCGGCGGTGGGTGCCACGGCGCTGGTCCCCGGGATTGGTACTGTCGCATCCCTGGGCCTGTCCGCGGCAGCTACTATCGGTTTCCTGTCAGCAACGGCGTTATACGCGTCCTCGCTCGCCGAGCTGCACGGGATCCGCATGGTGGATCCAAACAAAGCCAAAACGCTGGTGATGGCCATCATGCTCGGCGAGGAAGGCACTTCGCTTCTGGGGACCCTGACCGGGCAGGCGGTGGCGCACGGGGCCAAAGGAGGCCAGCCGCTCGGCGACATCATTGCCCGCAGCGGGTCAGCCTCCGGCTTCATCCGTAGCCGCATCCAGAAAGCGTTCCTGAAAAGCCTGCTGCGTCGGCAGGGTTCGATGCTCCTCGGCCGCGCGCTGCCCTTCGGCATCGGCGCAGTGGTCGGGGGGGCCGGCAACCTCGCCATGGGCAAGGTGGTGGTGGCCAACGCCAAGGAAGCGTTCGGGCCGATGCCGGACACCATCCCCGGAGAAGTAGCAGCAGGGTCGGACGCTTCGCTGGAAGGCGGCACGGGTGGATCTGAACGCTGA	MAMRSNPAMKIAQEAAQKAVFDSEGKPKPGVHNFLLRAIDVQRPLVLVNLKRLQRQNPKATAAQLADILERDYLRAVTGGGAAVGATALVPGIGTVASLGLSAAATIGFLSATALYASSLAELHGIRMVDPNKAKTLVMAIMLGEEGTSLLGTLTGQAVAHGAKGGQPLGDIIARSGSASGFIRSRIQKAFLKSLLRRQGSMLLGRALPFGIGAVVGGAGNLAMGKVVVANAKEAFGPMPDTIPGEVAAGSDASLEGGTGGSER				NA	NA	NA	NA	NA
D1-17_03509	618			hypothetical protein	ATGGGGATCGGAATTGCCGCAACGGCGCGGCGCAACGTGGCACTGATCGGCGCCAACTATGGCCTTGCATTGCATCCATTGGACCGGGACGGAGTCCACGTCCCAGGTGAACCCGCCAGTTGCTTTGCCACTTTTTGGGTTGCCGACTGGTCCAAATGGGGGACCGGGACGGCGTTGCTGGTGGCCACGCTCCAAGGGTGGCGCAGCTACGGTCCGGATGAGCTTTTCGCCTCTACCCTCGCCGGTGAACTGACGCGGTACTTCCCCGAGGCTGCCCGTTTTCCCTTCACTGCCCTCAGCCACACCGAGGATGATTTCCGCGTGCAGCTGAACCTTGAGCGGGGGTTCAAGGCCGTTGGGCGCCGCGCCGCACTCGAAATCTCCGGCGTGCTGGACAGGCGGCAGTTTGCAGCGCCCGACTTTCAGCTCGGGCCCGCCAGCGCGTCGATGAGTAATGTCTACCTGCCGTGCAGCGCAGGCCGGCTGTCTGAATTCGGCATCGACTGGCCGGGCGCCCCCATGGTCTATCCCGGTCCGCGGGGGCCGTCATCATCGGCGTATCTCGCCGTGGCAGAATCCTGGACGGTCCAGGCGGCCGGTGAATCATCAGCAGGGTGA	MGIGIAATARRNVALIGANYGLALHPLDRDGVHVPGEPASCFATFWVADWSKWGTGTALLVATLQGWRSYGPDELFASTLAGELTRYFPEAARFPFTALSHTEDDFRVQLNLERGFKAVGRRAALEISGVLDRRQFAAPDFQLGPASASMSNVYLPCSAGRLSEFGIDWPGAPMVYPGPRGPSSSAYLAVAESWTVQAAGESSAG				NA	NA	NA	NA	NA
D1-17_03510	1317	entS_4		Enterobactin exporter EntS	GTGCCACTCCCGAAAGCGCTCCGCCCCTTTGTCCACCGCGAATACCGTGTTCTGATTGCCGCCTTGGCCGTGTCCATTTTTGGTTCCGGGATGTGGGCAGTTGCCATGGTGTACCAGGTCATCCAACTCGGCGGCGGGCCTCTCGAGCTTTCGGTGGTCGCCGCCGCGGGAAGTATGGGGCTGGTGGCCTTTGTCCTGGCCGGCGGCATTGCCGCGGACCGTTTTCCGCAGCGGTTCCTCATCATCGCCGTCGAAGGCGTCAACCTGGCGGTGATTGCCACCATCAGCGGACTGGCCCTCGCCGGCTGGCTGCAGCTGTGGCATCTGGCAGTGGGGGCCTTCGTGCTCGGCGTGGGCGCGGCGTTCTTCTTTCCTGCCTATTCCGCGATTCTGCCCCGGATCCTGCCTCCGGGAGACCTGCTGGCGGCCAACGGAATGGAAGGGACCCTGCGGCCGATGCTGCAGCAGGCGGCGGGCCCGGCGGCGGCCGGCATCATTGTTGCTGCACTTTCACCATCACACGCGGTGACGGGCGTGGCCGCCTGCCATCTGCTGGCCTTTGTCATTCTGAACTTCCTTCGTCCCGCGGCAGTGGAGGCTCCCGCTGCGGTAGTGGCTCCCGGCATCGGGGAAGGGAAACCGGAGAAATCCTCCTTCTTCCGCGACCTCCGGGAGGGCATCAGCTATACCGTCCGGACCCCCTGGCTGCTCTGGACCCTGCTGTGGGCGTGCATTTCGGTCCTTTTCCTTATCGGCCCCATCGAGGTGCTGCTGCCGTTCGTTATCCGGGACCAGCTCAACGGTGACTCACGGATGTTCGGCTTCCTGCTGGCCGTTATGGGGGTGGGCAGCGCGATCGCTTCCCTCGTCACAGCCTCCTTCCGGCTGCCGCGCCGGTACCTGACAGTGATGATGGTTTCGTGGGGCATGGGCAGCCTGCCGCTGGCCGCGGTGGGCATCATCGACAGTTTCTGGGTGCTGGCGTTGGCTGTCTTCATCTTCGGCGCCACCGGCAGCGTGGGCATGGTCATCTGGGGCACTTTGCTGCAGCGGCGCGTTCCGCCGCACCTGCTGGGCAGGGTCTCCAGCCTGGATTTCTTTGTTTCCCTGGCGCTGATGCCGGTGTCCATGGCGCTCGCGGGACCCGCCGCAGAAGTGTTCCCCATCTGGGCCATCTTCCTCGTCGCCGGCGGCGTCTGCCCCGTCATGGCCGTTGTGGCAGTGGTGGCCGCCCGCATGCCGGCCGACGAGACGGCCCACCCCCTGGACCGGCGCCACGATGTTCCCGCAGACGCAGACGCAGACGCCAGACCCTGA	MPLPKALRPFVHREYRVLIAALAVSIFGSGMWAVAMVYQVIQLGGGPLELSVVAAAGSMGLVAFVLAGGIAADRFPQRFLIIAVEGVNLAVIATISGLALAGWLQLWHLAVGAFVLGVGAAFFFPAYSAILPRILPPGDLLAANGMEGTLRPMLQQAAGPAAAGIIVAALSPSHAVTGVAACHLLAFVILNFLRPAAVEAPAAVVAPGIGEGKPEKSSFFRDLREGISYTVRTPWLLWTLLWACISVLFLIGPIEVLLPFVIRDQLNGDSRMFGFLLAVMGVGSAIASLVTASFRLPRRYLTVMMVSWGMGSLPLAAVGIIDSFWVLALAVFIFGATGSVGMVIWGTLLQRRVPPHLLGRVSSLDFFVSLALMPVSMALAGPAAEVFPIWAIFLVAGGVCPVMAVVAVVAARMPADETAHPLDRRHDVPADADADARP	PGPT0027890_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027890-tetV-K18215	NA	NA
D1-17_03511	2370	treP		Alpha,alpha-trehalose phosphorylase	ATGGCACTCATCACCGCTGATCGCATCCGCTTCCCCAACGACCCCTGGAAGCTCGTGGAGACAAGCCATGTCTCCGGCACCGCCGGCGCTCTGGAAACGTTATTCGCCCTCGGTAATGGCCACCTGGGCATCCGCGGTGCCCACTGGGCCCCCGCAGATGCGGAGCTTCCCGGCAGCTTCATTAATGGGTTGCACGAAATCTGGGACATCAAGCATGCTGAAAATGCGTTTGGTTTCGCCCGCACCGGCCAGCGGATCCTCTACATCCCGGACGTCAACAACTTCGGTGTGACCATCGACGGCGAAGCGCTTAGCCTGGCCGAGTCCACCGTGCTGGATTACCGCCGCACGCTCGACTTTGGCACTGGAATCTATGAATGCCGGGTCGTCTGGCAGTGCCGCTCCGGCGCCACCGTCACCACCGTGGAGCGCCGCGCCGTGGGCTTCGAGTCGCGCGGCTGCCTTGGCATCTCGCTGGAACTCTCCGCGGACCGTCCTGTTTCCGCTGACGTTACATCGTCGGTGGTCAACCGGCAGGACCAGCCGGTGGACGACCACTCGGCGCATGACCCCCGGCGTGCCGGCCGGCACGCCGGCCGAGTCCTGCTGCCGGTGAAGCTCGACGGCGGTGACGGTTCGCTTCGTCTTTCCTGGGAAGCCGCGGAGTCCAAGCAGCGTGTGGGAATCGCCGTCGACCACTGGACCTCCGCCGGACACCAGCCGTTCGACACCCAGGTGGACCAGGACGAGAGCAGCGTCCGGTATGTGCTGGCTGTCGGAGCAGACGAAAGCTTCACGCTCGAAAAGAGTGTCAGCTACGCGGTGGCCGCCAGTACCAGGGAGTTCCTGCCGGGCACGGCAGATGTGCAGGCCGGGGAGGACCCGTCGGAGGCCGCCGGGGCAGCCCTCAAAACCGTCTCGGAGGTCTTCGCTGAAAGCGAGGCGCACTACCGCGGCTACTGGGCCACCGCGGACATCAAGGTGGGAGGCCAGCCGGAACTGCAGCAGGCGGTCCGCTGGAACCTTTTCCAGCTCGCCCAGGCCACCGCGCGTGCAGGCGTTGCCGGCATTCCCGCCAAGGGTGTCAGTGGATCGGGCTATGACGGGCACTATTTCTGGGACCAGGAGGTCTACCTCCTGCCGTACATGACGTACATAAATCCCGACGGCGCCCGTCAGGTGCTGGAGTTCCGGCATGGCATGCTGCCCGAGGCAAAGATCAGAGCCAAAGAGCTCAGCGTGGATGGGGCGCTGTTTCCCTGGCGCACCATCAACGGGCTCGAGGCCAGCGCCTATTACGCCGCCGGCACGGCCCAGTTCCACATTGCCGCTGCCATCGCCTTTGCCGCCAACAGGTATGTATGGGCCAGCGGTGACGCCGAATTCCGCGGCGGCATGGGGGCGGACCTGCTCATCGAAACCGCACGCATGTGGGCGTCGCTGGGGTTCTTTGGCAAGGACGGCCAGTTCCACATCCATGGCGTGACCGGACCGGACGAGTACACGGCCGTGGTGAACGACAACCTGTACACCAACGTCATGGCGCGGTTTAATCTGCGCGCGGCGGCAGCGCTGGACCATCCGGCGGTCGACGACGCCGAGCGGCAGCTATGGCAGGCGGCGGCGGACCGGATCCAGTTGCCCTTCGATGAGCGGTTCCAGGTCTACTCCCAAGACAACGACTTCATGACCCTGGAGGCGTGGGACTGGACGACCCCCCGCTCCAAGTACCCCCTGCTCCTGCACTTCCACCCGCTAGTGATTTACCGCCACCAGGTGCTCAAGCAGGCGGACACGGTCCTGGCCATGTTCCTGCAGTGGCAGGAGTTCTCGGCCGAAGAGAAGCGCCGCGCGTTTGACTTCTACGACCCCATCACCACCGGCGATTCCACGCTTTCCGCGTGCGTTCAAGGCATTATGGCCGCCGAGGTTGGCTACCGGGGGGCAGCCCTGGAGCACTTCACGAATGCCGCCTTCATCGACCTCGACGATACCCACGGCAACACGATCGACGGTGTTCACATCGCCTCGACGGGCGGCGTGTGGAGCTCGCTGGTGTGCGGCTTCGCCGGCCTTCGTGACCAGGGCCCTGTGCCGTATTTCGATCCGCGACTGCCGGAGGAATGGGACAGCCTATCGTTCCACCTGAAGATCCAGGGACGGCTCCTCCTGGTAGACCTCGACCCGGCCGGCATCACCCTGCGCGTCCTGGAGGGGGAGCCGCTGGACGTCGATGTTCGCGGAGGTGTGCACTCCGTGGGCGCCCACCCAGTGCGCGTGGCACTCGATCCGGTTGAAGCGCCCGAGCCTTCAGCGTTCCCGAGCGGACCGCCCACGGCCAGCATCCCGGTGGTACGCGCCCGGTCCTGA	MALITADRIRFPNDPWKLVETSHVSGTAGALETLFALGNGHLGIRGAHWAPADAELPGSFINGLHEIWDIKHAENAFGFARTGQRILYIPDVNNFGVTIDGEALSLAESTVLDYRRTLDFGTGIYECRVVWQCRSGATVTTVERRAVGFESRGCLGISLELSADRPVSADVTSSVVNRQDQPVDDHSAHDPRRAGRHAGRVLLPVKLDGGDGSLRLSWEAAESKQRVGIAVDHWTSAGHQPFDTQVDQDESSVRYVLAVGADESFTLEKSVSYAVAASTREFLPGTADVQAGEDPSEAAGAALKTVSEVFAESEAHYRGYWATADIKVGGQPELQQAVRWNLFQLAQATARAGVAGIPAKGVSGSGYDGHYFWDQEVYLLPYMTYINPDGARQVLEFRHGMLPEAKIRAKELSVDGALFPWRTINGLEASAYYAAGTAQFHIAAAIAFAANRYVWASGDAEFRGGMGADLLIETARMWASLGFFGKDGQFHIHGVTGPDEYTAVVNDNLYTNVMARFNLRAAAALDHPAVDDAERQLWQAAADRIQLPFDERFQVYSQDNDFMTLEAWDWTTPRSKYPLLLHFHPLVIYRHQVLKQADTVLAMFLQWQEFSAEEKRRAFDFYDPITTGDSTLSACVQGIMAAEVGYRGAALEHFTNAAFIDLDDTHGNTIDGVHIASTGGVWSSLVCGFAGLRDQGPVPYFDPRLPEEWDSLSFHLKIQGRLLLVDLDPAGITLRVLEGEPLDVDVRGGVHSVGAHPVRVALDPVEAPEPSAFPSGPPTASIPVVRARS	PGPT0014080_319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-TREHALOSE_METABOLISM,PGPT0014080-treP-K05342	NA	NA
D1-17_03512	765		COG0637	putative protein	ATGACTGACCTACCCAACGCCAGCGGCCATGCCTGCGCCAACTCCGGCAGCACCCTGCCCAGCTGGACCACAGCCTCAGCCATCCTGTTCGACCTCGACGGCGTCCTGACGCCTACTGCTGTAGTGCATGAGCGCGCTTGGCAGGAGCTTTTTGACGGGTACCTCGCCTCCGTGCCGGGGAAGCCGGGCTACCGCGAGAGCGACTACTTCGACCACATCGACGGCAAGCCCAGGTTCGACGGCGTCCGTGACTTCCTGACCTCCCGCGGCATTGAACTTCCGGAGGGGCCGACGGATGACCACCCGGACAACGAGACGGTCCAGGGGCTGGGCAACCGGAAGAACGAAATCTTCAACGACATTGTCAGCGCTGGTGTAGATGCCTACAAGGGCTCGGTACGGTTCCTGGAAGCTGCCCTGTCCCGGGGGCTCAAGGTCGCCGTTGTCTCATCCTCGCGCAACGCACCATCTGTGCTGCGCGCCGCCGGCCTCGATGCCCACTTCACGGTGGTGGTGGACGGCGTGGTGGCAGCGGCGGAAGGTATTCCCGGAAAGCCCAGCCCCGCCACATACGAATACGCTGCCCGGCTTCTGGAGCTGCCCAGCGAGGAGTGCGTGGTTGTCGAAGACGCAGTGTCCGGCGTTCAGGCCGGCAAAGCAGGCAACTTCCACTCAGTGATCGGGGTGGACCGCGGTGCAGGCCGGCAGACCCTGCTCAATGCCGGCGCTACGCTCGTGGTCAATGATCTGGATGAACTGCTCTAG	MTDLPNASGHACANSGSTLPSWTTASAILFDLDGVLTPTAVVHERAWQELFDGYLASVPGKPGYRESDYFDHIDGKPRFDGVRDFLTSRGIELPEGPTDDHPDNETVQGLGNRKNEIFNDIVSAGVDAYKGSVRFLEAALSRGLKVAVVSSSRNAPSVLRAAGLDAHFTVVVDGVVAAAEGIPGKPSPATYEYAARLLELPSEECVVVEDAVSGVQAGKAGNFHSVIGVDRGAGRQTLLNAGATLVVNDLDELL	PGPT0014080_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-TREHALOSE_METABOLISM,PGPT0014080-treP-K05342	NA	NA
D1-17_03513	627			hypothetical protein	ATGGAAACGGTGGTGTGGTCGAAGCCGGCCAGCGAACGTGCGGGGACGCCCTTGCTGGTCATGATGCATGGCTATGGCAGGGACGAATCGCGGATGGTGAACCTGTTCGACCATCTCCCCTCTGAATTCACCTGCGCTGCGTTGCGGGCACCCATGCCAATCGCGGACGGGTATGGCTGGTTTTTGCTCGACTACTTCCTGACGAACGACTTCGCTGATGTCATCGCTGCTGCAAATTCTGTCCTGACCTGGATTGACTCCGTCAAGGACGGGCATAGCAGTGTGAGCCTGCTGGGATATTCGCAGGGAATGGCGATGGCAAGCACGTTACTGAGGCTGCGTCCGCGGGATTTTCCGGCCGTGGTGGGTCTGTCCGGCTTTGTGCTGAACAATGACTTGTTGGGGCTGGGGGAGTCCTTCGACGTCCGGCCGCCGTTTTTCTGGGGGAGGGACAAGGCGGATCTGGTGATCAACGATGATGCCATCGAGTACACCGCGGAGTGGCTGGAGGCCCATACCCGGCTGACCGCGCGCACTTACCCGGGAATGGGCCACGGGATGTGCAAGGCCGAAATGGTGGACGTCAGCGCCTTCCTGAGGCACTACGTGCGCGAGGCAGAAAGTTAA	METVVWSKPASERAGTPLLVMMHGYGRDESRMVNLFDHLPSEFTCAALRAPMPIADGYGWFLLDYFLTNDFADVIAAANSVLTWIDSVKDGHSSVSLLGYSQGMAMASTLLRLRPRDFPAVVGLSGFVLNNDLLGLGESFDVRPPFFWGRDKADLVINDDAIEYTAEWLEAHTRLTARTYPGMGHGMCKAEMVDVSAFLRHYVREAES	PGPT0028515_3138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028515-mhqD-K06999	NA	NA
D1-17_03514	258			hypothetical protein	ATGAGAATCGGTTCCGCTATTTTCCTTATCGCACTGGGTGCCATCCTGGCTTGGGCCGTCACCCCGGGCCTCATCCCCAATGTCGACCAGACACTGATCGGGTACATCCTGATGGCCGTTGGCGTCATCGGGCTGGTCGCGTCCCTCATCCTGGCCAACCCCGGCAGGAGCCGCCGCGTCAGCGAGACCCGTTCGGTGGTTGATCCAAGCACGGGCGAGCGCATCACGCGCAATGAAAGCCGTGACGGAAACCTGTAG	MRIGSAIFLIALGAILAWAVTPGLIPNVDQTLIGYILMAVGVIGLVASLILANPGRSRRVSETRSVVDPSTGERITRNESRDGNL				NA	NA	NA	NA	NA
D1-17_03515	819	srlR_2	COG1349	Glucitol operon repressor	GTGTTCGCCGAGGAGCGTCAGCAGCAGATCGCAGGGCTCGTTGCAGCCAGCGGCCGCGCCAGCGTCACCGACCTCGCCGAGCGCTTCCGCATCACCACCGAAACCGTCCGGCGTGATCTCGCCGCTTTGGAAGCGGTTGGCACCGTCCGCCGCGTCCACGGAGGGGCGGTCTCCGCTGACCGTTTCAGCACAACCGAAGAAAGCATCCTCGAGCGAACGGTCCAGCGCCAAGCGCAAAAGCTCCGCATTGCGGAGGCCGCCCTCGCCTTCCTGCCCAAAGGGCCCTCAAGCAGCATCGTGCTCGATGCAGGCTCCACCACCGAGGTGCTGGCGGACATCCTGGCCCGGCGCAGCCCCGCACCCTCCGCGGGAAAGGGGGCAGCCGCAAAGTCGGACAACCAAGAACTGGTGGTCATCACCCACGCCGTCCCCATCGCCGCCAAACTCGCCAGCACCAACGGCATCGCGCTGCAGCTCCTGGGCGGCCGGGTCCGTGGACTGACACAGGCCGCCGTAGGCCAGTCCACCGTTGATGCGGCCTGCCGGCTGCGCCCTGACATCGCCTTCCTGGGCACCAACGGCATCCACCCAAGCTTCGGCCTCAGCACGCCCGACCCCGAAGAGGCGGCCGTCAAAGCCGCGTTCGTCCATTCGGCCCGCCGCATTGTGGTGCTGGCCGATTCATCCAAGCTGGACGCGGAAACGCTGGTCCAGTTCGCCTCGTTGAAAGATCTGGACACAGTGATCACTGACCGCAAACCCAGCCGAGAACTAGCCGCGGCGCTTGCAGATGCCGGCGTGGAGGTGGTCGTCGCATGA	MFAEERQQQIAGLVAASGRASVTDLAERFRITTETVRRDLAALEAVGTVRRVHGGAVSADRFSTTEESILERTVQRQAQKLRIAEAALAFLPKGPSSSIVLDAGSTTEVLADILARRSPAPSAGKGAAAKSDNQELVVITHAVPIAAKLASTNGIALQLLGGRVRGLTQAAVGQSTVDAACRLRPDIAFLGTNGIHPSFGLSTPDPEEAAVKAAFVHSARRIVVLADSSKLDAETLVQFASLKDLDTVITDRKPSRELAAALADAGVEVVVA	PGPT0017590_98	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
D1-17_03516	999	lacC_2		Tagatose-6-phosphate kinase	ATGATCGTCACGCTCACGGCCAATCCCAGCCTTGACCGCACCGTGGCTCTGCCAGGGCCCCTTGAACGCGGTGAAGTGCAGCGCGCCGTGTCCGTCAGCCAGGAGTCCGGCGGCAAAGGAGTCAATGTTTCACGCGCCCTCGTAGCCTCCGGGCTTGAAACGGTTGCTGTCCTCCCGGGTGGAGACTCTGACCCCGTCATTGCCGGATTGCGCGACGCCAAGGTGCCCTTCGCAGCCCTCTCCATCCACGAGCCGCTGCGGACCAACGTGGCACTCACGGAGCCGGGCGGGGTCACCACCAAGATCAACGAGCCCGGTCCGATGCTCGGTGAAGAAGCCCAGGAGGCCCTCATCGGGCTGCTGCTGGAACATGCCAGGGGTGCCAGCTGGGTTGTCCTTGCGGGGTCTCTCCCGCCGGGGGTTCCCGCCGGTTTCTATGCCACCGTTGCCCGGCGGATCAGGTCAGGGGACGCCGAAACCGGAGTTCCGCAGATCGCGGTTGACTCTTCCGGGGCGCCGCTCGCCGCGGCCGTCGCGGACGAGCCGGAAGGAGCGGTCTCCGGGAAACCAGACCTGCTCAAACCCAACGCCGAGGAACTGGCGGAACTTGCTGCTGCAGCAGGCTTCGCCCCGGTGATCACGGCCGAGGAGCTCGAAGCGGATCCGGAGGCTGCCGCGGCGGCCGCCGCCGCCGTCGTGCGTTCCGGTGTGGGAGCCGTGTTGGCAACGCTCGGTTCCAAGGGCGCTGTTCTTGTGACGGCCGACGGCGCGTGGCTGGCCACGCATCCGCCGGTCACCGCGGTCAGTACGGTCGGCGCAGGCGATTCCTCGCTGGCCGGCTATCTGCTCGCCGCAGGCCAGGGTGCCGCCCCGGCTGACTGCCTCCGTCAGGCTGTGGCGCATGGTGCCGCAGCCGCTTCCCTGCCGGGCTCCACTGTCCCGGCAGTCCACCAAACCACCCCCGATGCCGTAACCATCACGGCTCTCCGGAAGGATTGA	MIVTLTANPSLDRTVALPGPLERGEVQRAVSVSQESGGKGVNVSRALVASGLETVAVLPGGDSDPVIAGLRDAKVPFAALSIHEPLRTNVALTEPGGVTTKINEPGPMLGEEAQEALIGLLLEHARGASWVVLAGSLPPGVPAGFYATVARRIRSGDAETGVPQIAVDSSGAPLAAAVADEPEGAVSGKPDLLKPNAEELAELAAAAGFAPVITAEELEADPEAAAAAAAAVVRSGVGAVLATLGSKGAVLVTADGAWLATHPPVTAVSTVGAGDSSLAGYLLAAGQGAAPADCLRQAVAHGAAAASLPGSTVPAVHQTTPDAVTITALRKD	PGPT0017580_102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017580-fruK|fpk-K00882	NA	NA
D1-17_03517	2079	fruA_2	COG1299	PTS system fructose-specific EIIABC component	GTGACTCAGCTCATTACCACCGACCTGGTCGAGCTCGACCAGAACCTGGGCAATTCGCCCGAGGACGTGATCCGGCATCTCGCAGGCCGGGTTGCCGCCGTTGGCCGCGCAAGCGAAGTTGAAGGCCTCTTCGCCGATGCCTTCGCCCGTGAGCAGAAAACCGCCACCGGCGTTCCCGGCGGCATTGCCATCCCCCACTGCCGCTCGGCGGCAGTGACCGAGCCGACACTGGCCATGGCCCGGCTGTCGCAGAAGGTCGATTTCGGTGCGAAGGATGGTCCTGCGGACCTCATCTTCTTCATCGCTGCTCCCTCAGGAGCAGACCAGGAACACCTCAAGCTCCTCTCGAAGCTCGCCCGGTCCCTGATCAAAAAGGACTTCACCGCCAGCCTGCGCGCCGCATCCTCCGAGGCCGAGATCGTTGAACTCGTGGAGAACGCCCTGGCGGACAAGCCGGCAGCACACGCTGCCACTGTCCCCGCAGGTGCCTCGGCAGCCGGTGCCTCGGCAGCCGGTGGCGCAGGAACATCAGCAGCCGCGATGCCGGGGGCTACCGGTGGCGCTACGGCAAAGAGCGGACCCAAGCGCCTCGTGGCCGTCACGGCCTGCCCCACCGGCATCGCCCACACTTACATGGCGGCCGACTCGCTCGTGGCAGCAGCCCAGGAAGCGGGCGTTGACCTGCAGGTGGAAACCCAGGGTTCTTCGGGCGCCAAGCCGCTGGACCCAGCCGTTATCGCCGCCGCCGACGCCGTGATCTTCGCCGTGGACGTTGACGTGCGCGGCAAGGAGCGCTTCGCCGGTAAGCCCGTCATCAATGCCCCGGTCAAGCGCGGCATCGACGAGCCCGCCAAGATGGTGCAGGAAGCGCTGGACGCCGCGGACAACCCCAACGCCCGCCGCGTTCCACACTTCGGCGCTGAAGAGCAGGCCGAGCAGGAAGCTGCTGAGAAGGGCGAGCACATCGGCCAGAAGCTGAAGAGGGCACTGCTCACCGGCGTCAGTTACATGATTCCGTTCGTTGCGGGCGGCGGTCTGCTGATCGCCCTGGGCTTCCTGCTCGCCGGCTTCGACATCGCTTTGGGCACCAAGGCTGATGACATCCTGGCGAACAACACGCTCTTCAACCTGCCTGACGGAAACCTCGCACTGTACCTGGGCACGGTTGCCTTCAAGATCGGCGCCCTGTCCATGGGCTTCCTGGTCCCGGCCCTGGCCGGGTACATCGCCTACGCCATAGCGGACCGGCCAGGCATCGCACCAGGCTTCGTTGCCGGCGCTGTGGCCGGGTTCATGGGTGCCGGCTTCCTCGGCGGTATCGTCGGCGGCCTGCTGGCCGGCTACATCGCGCACCTGATCGGGACCTGGGCCGTACCCCGCTGGCTCCGCGGCCTGATGCCCGTGGTGATCATTCCGCTGCTGGCTTCCATCGTCGCCTCCGGCGCCATGTTCCTGTTCTTGGGCGGGCCTATCGCCGGCCTCACCGCCGGGCTGAACGGCTGGCTCTCGGGCATGACCGGGGCTTCCGCCGTGGTGCTCGGAATCATCCTCGGCCTCATGATGTGCTTCGACCTCGGGGGCCCGGTCAACAAGGTGGCCTATGCCTTCGCCGTTGCCGGCCTGGGCGCCGGCAGCGCGACCAATCAGGCGCCGTGGCAGATCATGGCGACCGTCATGGCTGCGGGCATGGTCCCGCCGCTCGCAATGGCCCTGGCAACGGTTTTGGACAAGAAGCTCTTCAGCCTGGCTGAGCGCGAGAACGGCAAAGCAGCCTGGCTGCTCGGTGCTTCGTTCATTTCAGAGGGCGCCATTCCGTTCGCTGCCGCCGATCCCCTCCGCGTCATTCCCGCCAGCATGGCCGGCGGTGCCGTGACCGGTGCGCTCAGCATGGCCTTTGGCGTGACGTCACAGGCACCCCATGGCGGGTTCTTCGTGTTCTTCGCCATTGGCAATCTCCTGATGTTCGCCCTTTCCATCGTGGCCGGCATGGTGGTGACAGCGCTCATCGTGCTCGCCCTCAAGCGCTGGGCTGTCCGCAAGCCCGTTGATACGGTGGAGAGCGTCCCTGTTTCTGTCTGA	MTQLITTDLVELDQNLGNSPEDVIRHLAGRVAAVGRASEVEGLFADAFAREQKTATGVPGGIAIPHCRSAAVTEPTLAMARLSQKVDFGAKDGPADLIFFIAAPSGADQEHLKLLSKLARSLIKKDFTASLRAASSEAEIVELVENALADKPAAHAATVPAGASAAGASAAGGAGTSAAAMPGATGGATAKSGPKRLVAVTACPTGIAHTYMAADSLVAAAQEAGVDLQVETQGSSGAKPLDPAVIAAADAVIFAVDVDVRGKERFAGKPVINAPVKRGIDEPAKMVQEALDAADNPNARRVPHFGAEEQAEQEAAEKGEHIGQKLKRALLTGVSYMIPFVAGGGLLIALGFLLAGFDIALGTKADDILANNTLFNLPDGNLALYLGTVAFKIGALSMGFLVPALAGYIAYAIADRPGIAPGFVAGAVAGFMGAGFLGGIVGGLLAGYIAHLIGTWAVPRWLRGLMPVVIIPLLASIVASGAMFLFLGGPIAGLTAGLNGWLSGMTGASAVVLGIILGLMMCFDLGGPVNKVAYAFAVAGLGAGSATNQAPWQIMATVMAAGMVPPLAMALATVLDKKLFSLAERENGKAAWLLGASFISEGAIPFAAADPLRVIPASMAGGAVTGALSMAFGVTSQAPHGGFFVFFAIGNLLMFALSIVAGMVVTALIVLALKRWAVRKPVDTVESVPVSV	PGPT0017120_389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017120-fruA-K02770	NA	NA
D1-17_03518	279	ptsH_2		Phosphocarrier protein HPr	ATGTCCGAACGTACCGCAACCGTCGCCAGCCGAGTAGGCCTGCACGCACGCCCGGCCGCTATCTTCGCCGAAGCAGCCGGCGAGTTTGACCTCGACATCACCATCGCCCGTGAAGGTGAGCCGGCAGACGAGGCAATGGACGCCGCCAGTATCCTGTCCCTGATGAGCCTCGGTGCTTCACACGGCGATGTTGTAGTGCTCCGGGCGGAGGGCGAGGGTGCAGACGCAGCACTCGACCGCCTCGTTCAGATCCTCGAGACGGACCACGACGCCGAGTAG	MSERTATVASRVGLHARPAAIFAEAAGEFDLDITIAREGEPADEAMDAASILSLMSLGASHGDVVVLRAEGEGADAALDRLVQILETDHDAE	PGPT0016875_882	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
D1-17_03519	471			hypothetical protein	GTGGCAACCCTGCACGAAAGCATTGAGGTCCGGGTTCCCGTCAGCACGGCCTACAACCAGTGGACGCAGTTCGAGTCCTTCCCCCAGTTCATGAAGGGTGTCGAGTCCGTGGAACAGATCGACGAGACGTCCCTGCATTTCCGCACCAAGGTGGCAGGCATCAAGCGGGAGTATGACGCGCAGATCTTGGAGCAGACGCCGGACAAATGCATTGCGTGGGTCAGCAGGGACAAACCGCGCAACGCCGGGCGCGTGACGTTCGACAGCCTCGGCGAGGACCTGTGCCGGGTCAGCGTGGAGCTGGATTGGGAGCCCGAGGGGCTGCTGGAGCGCACAGGAGCCGCGGCGCACGTGGATGAAAGCCAGGTGGAATCGGACCTTCTGCGCTTCAAGGAGTTCATCGAGTCACGCGGAATCGAGACCGGCGCCTGGCGGGCCTCAGTGGACCGCGGAGAAGTCGACGCCCCGTAG	MATLHESIEVRVPVSTAYNQWTQFESFPQFMKGVESVEQIDETSLHFRTKVAGIKREYDAQILEQTPDKCIAWVSRDKPRNAGRVTFDSLGEDLCRVSVELDWEPEGLLERTGAAAHVDESQVESDLLRFKEFIESRGIETGAWRASVDRGEVDAP				NA	NA	NA	NA	NA
D1-17_03520	1260	ku		Non-homologous end joining protein Ku	ATGAGAGCGATCTGGAAAGGCGCCATTGCGTTCGGGCTGGTCAACGTCCCGGTCAAGGTGTACAGCGCCACCGAGGACCATGACATCAGCCTCCATCAGGTGCACAACGCCGACGGCGGCAGGATCCGCTACCAGCGCCGGTGCGAGGTCTGCAGCAAAGTGGTGGACTACGCGGACATCGAGAAGGCCTACGAGGAGGACGGGCGCACGGTGATCCTGACCCGTGACGAACTGAAGGCCATCCCGGCGGAAAACAGCCACGAGATCGAAGTGGTGCAATTTGTGCCGTCCGAGCAGCTCGACCCCATCATGTTCGAGAAGAGCTACTACCTCGAACCCGATTCGAAATCGCCCAAGGCATACATGCTGCTGCGCCGGGCGCTCGAGGACACCGACCGCGTGGCCATCGTGCAGTTCGCGCTGCGCGACAAGACGCGGCTGGGCGCCCTGCGGATTCGGGACGACGTCCTGATGCTGCAGGCCCTGCTGTGGGCGGACGAGGTGCGCGAGGCGGAGTTTCCCTCGCTGGACACGTCCATTCGAATCTCCGCCCAGGAGCGCGAGATGTCGGCAGCCCTCGTGGAATCCATGGCTTCCGACTTTGAACCGGAGCAGTTCACGGACGACTACCAGGCCCAGCTGCGCCACCTGATCGAGGCCAAGCTGGAGAAGGGCGATGCCCTGGACACCGAAGAGACCTTTGGTGCCGAGGCCGGGGAAGGGGGCACCGGCGAAGTTATCGACCTCATGGAGGCGCTCAAGCGGAGCCTGGACCGCAAGCGCGGAGCGGGAAAGCGGGCGGCCGGCGGCGCTGAGGACTCTGAGGAGTCCGATTCTGAGGAAGACGAGACCGAAGAAGCTGAGGAAACCGGGACTGACAGCAGCACCGGCTCCGGCAAGGGCACCTCGCGCAGCAGCTCGTCCGGCAGGAGTGCGGCGGGCAAGGGAACATCCGGCAGACGGACTGGGACCAAGGCCGGCAGCGCCGCGACAGATGGTGACGGGAAGACTGGAACGGCCAAGACATCGGCTGCTAAATCCGGCACCGCCGCTAAATCGGGGGCAGCGAAGTCCGCCGGCAGCAGGGCAGCAAGCGCCAAGGGCGGGGAAAGTGCCCCCTCGAAGTCCGCTGCCAAGACCGGTTCCAAGACTGGAACGGCCGCCAAGGCAGGGAAGTCGACGGCCGCGAAGACGGCCACTAAGACGGCGGCTTCCAGCAAGACGGCGGCGTCCACCAAGACAGCGAGGAAGGGCGCCTAA	MRAIWKGAIAFGLVNVPVKVYSATEDHDISLHQVHNADGGRIRYQRRCEVCSKVVDYADIEKAYEEDGRTVILTRDELKAIPAENSHEIEVVQFVPSEQLDPIMFEKSYYLEPDSKSPKAYMLLRRALEDTDRVAIVQFALRDKTRLGALRIRDDVLMLQALLWADEVREAEFPSLDTSIRISAQEREMSAALVESMASDFEPEQFTDDYQAQLRHLIEAKLEKGDALDTEETFGAEAGEGGTGEVIDLMEALKRSLDRKRGAGKRAAGGAEDSEESDSEEDETEEAEETGTDSSTGSGKGTSRSSSSGRSAAGKGTSGRRTGTKAGSAATDGDGKTGTAKTSAAKSGTAAKSGAAKSAGSRAASAKGGESAPSKSAAKTGSKTGTAAKAGKSTAAKTATKTAASSKTAASTKTARKGA				NA	NA	NA	NA	NA
D1-17_03521	2694	lig		DNA ligase	GTGGCCGGCAGTAAGGAGCGGGTCCGCGTCGGAGGGCGTGAACTGACACTGACAAACCTGGACAAGATCCTCTACCCGGCAACGGGCACAACCAAGGCCGATGTCCTGGCTTACTACGCCGCAGTGGCGCCTGTTCTCATCCCGGCCGCGGCGGACCGGCCGGCGACGCGCAAGAGGTGGGTCCACGGCGTCGGAACGGCGGAAGAGCCGGGGCAGATGTTCTTTCAGAAAAACCTGGACCATTCCACCCCCGGCTGGGTGCCCAGGGCGGCCATCACCCACAAGACCAGCACCAACTACTACCCCCTGGTCAACGATCCCGCAACCCTGGCGTGGCTGGCGCAGATCGCCTCGCTGGAAATCCACGTCCCGCAGTGGCGGGTGGACTCGCACGGAAATGTCCTCAACCCCGACCGGATCGTGCTTGACCTTGACCCCGGCGAAGGCGCGGGGCTGCAGGAATGCGCCGAGGTGGCACGGCTGGCCCGGGCCATCCTGCAGGATGTGGGGCTGGACCCGATGCCCGTGACCAGCGGGAGCAAGGGCATCCACCTGTACGCGGCACTGGACGGCACGCAAACATCGGATCAGATTTCCGATTTCGCGCACGAACTCGCACGGGCCCTCGAAGCCGACCAACCCGACCTGGCCGTGAGCGACATGAAGAAGTCGCTGAGGACGGGCAAGGTGCTCGTGGACTGGAGCCAGAACAATGCCGCCAAGACCACAATCGTTCCGTACTCACTGCGGGGCCTGCCCTCCCCCACCGTGGCCGCCCCACGCACTTGGCGCGAGCTGTCATCCGCCTCCCTCAGGCACCTTCACTATGGGGAGGTCATGCGACGGGTCCGTAGCGGCAAGGACCCGTTCGCCGCCGTCGATGAGGCCAGCAGCCGTGCCGCCAGAAGTACCGCCGGGGACGGCGGGCACGGGGGCGGCGGCGCCGCGCACGGCGTCGGCGGAAAGTCCGACGGCGGTGCGCGCCGTGGCGGGGGCCACGACGACCCGAGGCTGAACAAGTACCGGTCCCTGCGGGACCAAAATGAAACTCCTGAACCCTTCACTGCCGAAAAGCACCACAGGACCCGGTCCGGGAGGGGCAAGGGGCCACAGCAGGACAAGGCCGGCAGGGACGGCAAGGAAGTCTTCGTGATTCAGGAGCACCATGCAAGCAGGCTCCACTATGACCTCCGCCTGGAGCACGAGGGTGTGCTGGTGTCGTGGGCGTTGCCCAAGGGCGTACCGGAAACGGGTACCAAGAACCATCTGGCCGTACAGACCGAAGACCACCCGATGGACTACGCCGATTTCGAGGGCACCATCCCCAAGGGCCAGTACGGCGCCGGAACGATGACCATCTGGGATAAGGGCGTTTATGACTTGGAAAAGTGGGTCAACGGCAAGGAAGTAATCGTCACGCTGACCGGCCAGGAAGGCGGCGGCCTCGGGGGAACCAAGAAGTTTGCGCTGATCCACACCGGGGAAGGCCAGGGTGATCAGGGGCAGTGGCTTATTCACCTCATGGACAAGTCCCACAGCGTGCGCGGCAAGCGCGGAAGTCTGTCCTCCGCTGCCACGGCGGGGATCGGCACGTCCGGAACAGCGAAGCCCGGAGCCGGCACGGCGGAACCAGGCAAGTCTGAAGCTGCCAAGGCAGAGGCCGGCACGTCCCCTGCAGGGAATACCGGAGCCAGCCGCAGCACCGCCGCAAGCAAAAGCAGCATCATCGTCGAGGACCCGACGCCCATGCTGGCAACAGCCGGGACGCCGGCAGACCTTCACGGCAGCGACTGGTCCTTTGAGCTGAAGTGGGACGGCATCCGGGCCCTCGTGGTGGCGGACAGCGGGAAGGTGCGGCTTCTCAGCCGCAACGGCAACGACATGTCTGCCAGCTACCCCGAGCTGACCGACCGGAACTGCTGGCCGCCACAGGATTTCATCGCCGACGGTGAGATCGTGGCCCTTGGGCCCAGGGGAACGCCCGACTTCGGCCTCCTGCAGGGCCGGATGAAACTGACCAAGCCCGGCGACGTGAAACGGGCCCGTACGAACATCCCTGTGCAGCTCATGCTTTTCGATCTGCTGTCCGAGGGCGGCGAAGACCTGCGCAGGCGCACCCTCGAGGAACGAAGGGCGAGGCTGCAGGGCTTCTACCGCCCCTCGGACTGCCCGGTGCTGCTCTCCGAAACGCTGGATGAGCCGCTAGAGCTCATTCTGGAAAGCGCGCGCGAGCTCGGTCTTGAAGGAGTCATGGCCAAACGCACTGACAGTCGCTACGTCAGCGGGCAACGGAGCCGCCTGTGGATCAAGCTCAAGATCGAACAGACCCAGGAAGTCGTGGTGGGGGGCTGGCGGCCCGGCAAGGGTGAGCGGTCGGACAGCGTGGGCGCTCTGCTGCTGGGCATCCCCGACGGCGGGAAGCTGCGCTACGTGGGCCGCGTGGGCACGGGTTTCAGCACCCGTGAACTGATGGAACTGCGCCAGACCATGAACGGGTTGAGCCGGACAACGTCGCCCTTTGACCAGGTCCCCGCCCTGGACGCCGCCGGTGCCCACTGGGTGAAACCCGACCTCGTGGGCGAGGTGGCCTTTGGCGAATGGACCGGCGCGGGAAAGCTGCGGCACCCGGTCTGGCGCGGCTGGCGGCTGGACAAGAAGCCGGAGGACGTCGTCACTGAGACCGCCCGGCCCTGA	MAGSKERVRVGGRELTLTNLDKILYPATGTTKADVLAYYAAVAPVLIPAAADRPATRKRWVHGVGTAEEPGQMFFQKNLDHSTPGWVPRAAITHKTSTNYYPLVNDPATLAWLAQIASLEIHVPQWRVDSHGNVLNPDRIVLDLDPGEGAGLQECAEVARLARAILQDVGLDPMPVTSGSKGIHLYAALDGTQTSDQISDFAHELARALEADQPDLAVSDMKKSLRTGKVLVDWSQNNAAKTTIVPYSLRGLPSPTVAAPRTWRELSSASLRHLHYGEVMRRVRSGKDPFAAVDEASSRAARSTAGDGGHGGGGAAHGVGGKSDGGARRGGGHDDPRLNKYRSLRDQNETPEPFTAEKHHRTRSGRGKGPQQDKAGRDGKEVFVIQEHHASRLHYDLRLEHEGVLVSWALPKGVPETGTKNHLAVQTEDHPMDYADFEGTIPKGQYGAGTMTIWDKGVYDLEKWVNGKEVIVTLTGQEGGGLGGTKKFALIHTGEGQGDQGQWLIHLMDKSHSVRGKRGSLSSAATAGIGTSGTAKPGAGTAEPGKSEAAKAEAGTSPAGNTGASRSTAASKSSIIVEDPTPMLATAGTPADLHGSDWSFELKWDGIRALVVADSGKVRLLSRNGNDMSASYPELTDRNCWPPQDFIADGEIVALGPRGTPDFGLLQGRMKLTKPGDVKRARTNIPVQLMLFDLLSEGGEDLRRRTLEERRARLQGFYRPSDCPVLLSETLDEPLELILESARELGLEGVMAKRTDSRYVSGQRSRLWIKLKIEQTQEVVVGGWRPGKGERSDSVGALLLGIPDGGKLRYVGRVGTGFSTRELMELRQTMNGLSRTTSPFDQVPALDAAGAHWVKPDLVGEVAFGEWTGAGKLRHPVWRGWRLDKKPEDVVTETARP	PGPT0014910_419	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-17_03522	261			hypothetical protein	ATGGCTGATAAGAGCAAAGGGCACTCCCTTAAACCGGAGGTGGCCGCACACCTGTTCGAGTCCATGGACAGGCCCCCGCTGCCCACTCCCGAAACCATCGCCGTCGCCGCGGCCATGGCCACCGGGCACCGCTGGCCCGACGGAAATGGCAAGCACCGCCACCCAAAGGACCGAGGGTCGAACCACGGCCGCATGGGGCAGGGAGCCGCAGTGACTGCAATCCACCGGACAAGCCGGCCCCAGCTGCCGCACTCGTCCTAG	MADKSKGHSLKPEVAAHLFESMDRPPLPTPETIAVAAAMATGHRWPDGNGKHRHPKDRGSNHGRMGQGAAVTAIHRTSRPQLPHSS				NA	NA	NA	NA	NA
D1-17_03523	594			hypothetical protein	GTGCCGGTGATCGTCTGTTCGGATAAGCGGATCCGGCAGCGCGGGCTGCGGGCCGTGAACTGGGACAGAAACGGGTCGGGGGTGTTCGTCGTGGACTACGTGGTGAACGGTCTGCCACTGCACATTCTGGTGGTGCACGGCACGGTGGTCCTCGTGCCGCTCGCTGCCTTGTGCACGCTCCTGAGCACGGCATGGCCGGAGGCCCGGAGGCGGCTGGGTATCGTGACTCCGCTCCTTGCCCTGGTGGCACTGATCATCGTCCCTATCACGCAGCAGTCCGGCGAGTGGCTTATGCAGCGCGTGGACACAACCCCCGCCATCACAACGCACTCCAACCTCGGGGGCACGCTGCTTCCCTGGGTCATCGGGGTGTTCATTGTGGCCGTGGCGCAGTGGCTGTGGTTCCGGTACGGGACCGCACAGGTTGAAGGACTCCGGAGGAAGCTCGGAACTGCAGGCTCCCGCGCTGCGGGAGCCGCCGTCGTCGTGCTGGTCCTTGTCCTCTGCGGTGGAACCGTCTACCGGGTGATAGAGATCGGGGAGGCCGGTTCCCGTGCTGTCTGGGAGGGTTCCTTCACTACGGGGCAGGACTGA	MPVIVCSDKRIRQRGLRAVNWDRNGSGVFVVDYVVNGLPLHILVVHGTVVLVPLAALCTLLSTAWPEARRRLGIVTPLLALVALIIVPITQQSGEWLMQRVDTTPAITTHSNLGGTLLPWVIGVFIVAVAQWLWFRYGTAQVEGLRRKLGTAGSRAAGAAVVVLVLVLCGGTVYRVIEIGEAGSRAVWEGSFTTGQD				NA	NA	NA	NA	NA
D1-17_03524	1593	proP_4		Ectoine/proline transporter ProP	ATGCCCACAGACCGAAGCACGACCGACTCTTCAGCAGGCGTTACTGATGCCGGCGGAACCGACCAAGCGGCACCTCAGGGTGTGAAAAAACCAAGGCTACTCGCACGTCGCAGGCTCAAGGAGTCCGACGTCAATGTTGTTGACCAGCCCATGCTGAAAAAGGCCCTCGGCGGCACCATCGTGGGCAACACCATGGAATGGTACGACGTCGGTGTGTTCGGTTACCTGATCACCACTATGGGGCCGGTGTTCCTGCCCGAGGCCGATGCAAAAGTCCAGACCCTCTTTCTGCTGGGGACCTTCGCCGCGACCTTTATCGCCCGCCCGCTCGGCGGCGTGATCTTTGGCTGGCTCGGAGACAAAATCGGCCGCCAAAAGGTCCTCGCTGCGACCCTGATGCTGATGGCCGCGAGCACCTTCGCTATTGGTCTGCTCCCCGGCTACGCCCAGATCGGGATGTGGGCGGCCGGCCTGCTGGTGCTGCTGAAGATCGTCCAGGGTTTCTCCACGGGCGGCGAATATGCAGGCGCTACGACGTTCGTCAGCGAGTATGCCCCTGACAAGCGCCGCGGTTTCTTCGCGAGCTTCCTGGACCTCGGCAGCTACCTTGGCTTTGCCCTCGGTGCCGCGCTGGTTTCGGGGCTGCAGCTGACGCTGGGCCAGTCCGCAATGGAGGAGTGGGGCTGGCGCCTGCCGTTCCTTCTCGCCGGCCCGCTCGGCCTGATTGCCGTGTATTTCCGGAGCAAGATCGAAGAATCCCCCCAGTTCCAGGCAACCCTTGATGCCCAGGAAGAGCAGGCCCGGGACGCTGCTGCCGGAGACGTTGCCGCTGCGAAGGGCCCGGTTGGCATTGTAAAGGCGTACTGGCGTTCGATCATCGTGGCAATGGTCCTCGTGGCCGCGGCAAACACCGCCGGTTACGCGCTGACCTCCTACATGCCCACGTACCTCACCGAGTCCAAGGGCTACGATCCTGTTCACGGCACGCTGCTGACAATCCCGGTCCTGGTGATCATGAGCCTGTGCATCCCCCTGACCGGCAAGCTGTCCGACCGCATCGGCCGCCGTCCCGTGCTGTGGATCGGAGCAGCGAGCACCATCGTGCTGGCAGCCCCGGCGTTCATGCTGATCGGCATCGGCAGCGTCTGGTCTACCCTGGCAGGGCTCTCCCTCGTGGCCTTCCCGGTGACGTTCTATGTTGCCAACCTGGCGTCGGCTTTGCCTGCCCAGTTCCCCACATCCAGCCGGTACGGCGCCATGGGTATCGCCTACAACTTCTCCGTGGCCATCTTCGGCGGCACCACGCCGTTCATCGTTGCCGCGCTGATCTCGGCGACAGGCAACGACATGATGCCGGCCTACTACCTGATGGCCACTTCGGCCATCGGCGCGGTCGCCATCTACTTCCTTAAGGAGTCGGCGCAGCGCCCGCTGCCTGGCTCCATGCCCAGCGTGGACACCGCCGCGGAGGCCCGTGAGCTGGTTGCAGGCCAAGACGAGAACCCGCTGATTGACCTCGACGAACTGCCGTTCGAGACCGTGGACGCGGCGAAGGCGGATAGTGAAGAGGCTAAGGTTCCTGCCAACGCCTGA	MPTDRSTTDSSAGVTDAGGTDQAAPQGVKKPRLLARRRLKESDVNVVDQPMLKKALGGTIVGNTMEWYDVGVFGYLITTMGPVFLPEADAKVQTLFLLGTFAATFIARPLGGVIFGWLGDKIGRQKVLAATLMLMAASTFAIGLLPGYAQIGMWAAGLLVLLKIVQGFSTGGEYAGATTFVSEYAPDKRRGFFASFLDLGSYLGFALGAALVSGLQLTLGQSAMEEWGWRLPFLLAGPLGLIAVYFRSKIEESPQFQATLDAQEEQARDAAAGDVAAAKGPVGIVKAYWRSIIVAMVLVAAANTAGYALTSYMPTYLTESKGYDPVHGTLLTIPVLVIMSLCIPLTGKLSDRIGRRPVLWIGAASTIVLAAPAFMLIGIGSVWSTLAGLSLVAFPVTFYVANLASALPAQFPTSSRYGAMGIAYNFSVAIFGGTTPFIVAALISATGNDMMPAYYLMATSAIGAVAIYFLKESAQRPLPGSMPSVDTAAEARELVAGQDENPLIDLDELPFETVDAAKADSEEAKVPANA	PGPT0013645_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-17_03525	786			hypothetical protein	ATGACCACAGCCCTCATCACCGGTGCCACCGCCGGACTCGGAGCGGAATTCGCCCGCCAGCTGGCGGAACAGGGCCACGACCTGGTGCTCGTCGCCCGCGACGAGTCCCGCCTGCAGGCCACCGCCGCGGACCTCTCACGCCGGTACGGGACCACCGCAGAGGTGCTGCCCGCGGACCTGACCGACGACGCCGGAGTGGCCGCCGTCGTCGAACGCCTTTCCGATACGTCCCGGCCCGTGGAGGTGCTGGTGAACAATGCCGGCATGGGGCTGCTGGAGGACTTTGACCGGAACAGCATCGAGGACGAGAAGAAGCACCTGAAGCTCCATGTCCAGACGGCAATGGAGCTCAGCCACGCCGTACTGCAGGGGATGCTGACGCGCGGTTCCGGCCGCATCGTCAACGTTGCAAGCGTGGCCGCATTCCTGCCGCGGGGAACGTATTCGGCTGCAAAGGCATGGCTGGTGAGCTTCAGCCGCTGGGCAAACCTCGCCTACAGTCCGCGGGGAGTGAACGTTACGGCGCTCTGCCCCGGGTTCGTCCACACCGAATTCCACGACAGGATGGGAATGGACAAATCCGTGGCCCCGGGCTGGACCTGGCTGCGCCCGGCCAGAGTGGTCCGCGAAGGTTTGGCAGACAATGCGAAGGGCAAGGCTGTTTCCGTTCCGACCAAGCGCTACAAGGTCCTCGCCGCCGTGGCGCGGGTCCTTCCGGACCGCGTCACAGCCGGGCCGCCAAGGAAGCCCAAGGAACCACAGCAGGGTTCCGGCGTGACCGGATAA	MTTALITGATAGLGAEFARQLAEQGHDLVLVARDESRLQATAADLSRRYGTTAEVLPADLTDDAGVAAVVERLSDTSRPVEVLVNNAGMGLLEDFDRNSIEDEKKHLKLHVQTAMELSHAVLQGMLTRGSGRIVNVASVAAFLPRGTYSAAKAWLVSFSRWANLAYSPRGVNVTALCPGFVHTEFHDRMGMDKSVAPGWTWLRPARVVREGLADNAKGKAVSVPTKRYKVLAAVARVLPDRVTAGPPRKPKEPQQGSGVTG	PGPT0030485_1320	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
D1-17_03526	576			hypothetical protein	GTGACCGAAACCAATGCTGACGGGACAAGGGTGGATGTCGTTGACATCCTCACCGCCGACCACCGCGAGATGATTGAGCTGATAGGCCAGATCGGCCTGACGTCCGATGCCAGCGAGCGCCGGGACCTGGCCGACACTTTGATCGCGGAAGTGATGCGTCACGCCGTCGCCGAGGAAATGTTCGTCTACCCCGCGATGGAAGACCATGTGCCAAACGGTGCGGAGGAGGTCGAACACGACAAGAAAGAGCACGACGACATCGTCAAGCTGATGAAGCGGATTGAACGCGTCGATCCTGCGGACCAGACTTTCATGGAACTGGTCAGGGAACTGGAGTCGCAGCTGTCCCACCATGCCGGCGACGAAGAATCTGAACAGTTCCCGAAGCTGCGCTCCCACATCCCGGAGGAGAAACTCGTCGATTTAGGCGAAAAGGTGCAGAAGGCCAAGAAACTGGCACCGACCCGGCCGCACCCCACTGCGCCGCACTCTGAACTGTTCCATAAGACTGTGGGAGCAGGCGTTGGGATGGTCGATCGGCTCCGGGACAAACTGACGGGACGGCACACCGGGTAA	MTETNADGTRVDVVDILTADHREMIELIGQIGLTSDASERRDLADTLIAEVMRHAVAEEMFVYPAMEDHVPNGAEEVEHDKKEHDDIVKLMKRIERVDPADQTFMELVRELESQLSHHAGDEESEQFPKLRSHIPEEKLVDLGEKVQKAKKLAPTRPHPTAPHSELFHKTVGAGVGMVDRLRDKLTGRHTG				NA	NA	NA	NA	NA
D1-17_03527	1791	iucC	COG4264	Aerobactin synthase	GTGACCCTGCCATCCGCAAAACTGCTGGCCAAGCTGATCGGGGCCCTGCTCTCCGAGGAGCTGCTGCTTGCCGACCCCGTCAAGCCCGGCCCATCTGCAGACCTGGCAGGGGAGCCGAGCTCCATGCCGTTCCGGCTCGACCTCGAGACGGTTTCCTACCTGTTCACCGCAAGCCGCACGGGTTTCGGTGCCTACAGCGTTGACCCCGGAAGCACCCGCCGGGTCAGCCGCGGAGTGCTGGGCGACGACGAGAGCGAGCCGGCGGATGACCCGGGACGGTTTGTCGTGGACGCGGCGGGCGCCCTGGGACTGACCGGGACCACCGTCGCAAACTACCTCGCCGAGCTCTCCGCGACGCTTGCCGCCGATATGCGGTTGGAGGCGGCAGGAGTACCTGTAAAAGAACTGGTCCGCCTCCCGCACGCCCGCATGGAAGGACACCTGACCGGGCACCCCTTGCTGGTGGCCAACAAAGGGCGGCTGGGATTCTCGGCGTCCGACTGCGAACAGTATGCCCCGGAGGCACGCAAGCCGCTGCGCCCGGTGTGGCTGGCCGTTTCACGGCGCCTGGCGGAGTTCCGCGCCGTCCCGTCGATGTCGGAGCAGGACCTGCTTGACCGGGAACTCGCACCGGTGGAGCAGGATCGCTTCAAGGCGGTGCTTTGCGACAGCGGGGCCGACCCCTCCGGCTATGTGCTGGTGCCGGCACATCCCTGGCAGGTGGATCATGTGGTGCGGCAGTTGTGGTCCGGCAGCATGCTGTCCGGACAGATCATCGTCCTCGGAGAGTCGGAGGACGAGTATCTGCCGACACAGTCGATCCGGACCCTGGTGAACATCGACGCGCCCGGAAGGCTCCAGATCAAGCTGCCCTTGAAGATCCTCAACACGTCTGTGTACCGGGGCATTCCGCGGCACTGCACACTCGCGGCGCCGGTAACCACGCACTGGATGCGCTCCCTCTGGGACGCGGATGCGTTTCTTGGCCGGCACACGGTGCTGCTTGGCGAGGTCGCCTCGGTTACTGTCCGGCACCCGCACCTGGCGGACTATCCGGGCATCCCGTATCAGTGGGACGAGACCCTGGGCTGCATTTGGCGGGAACCGGTGGACCCCGCGCTGGGTGAAGGCGAGACGGTGTGGCCCCTGGCGATGGTGCTGCATGAGGACTCCGCGGGGGATCTCGCCGTTGCGGCCCTGGCGGAGCTCTCCGGGCGGGATCTTCGGGAATGGCTGGAGGCGCTGGTGTCCGTGACCGTGGGCCCCCTGCTGCACCTCCTGCACACCTATGGAGTCAGCGTAAACCCGCACGGAGAGAACCTGATGATCATTTGCGACGCCGGGGGAATGCCGAGCCGGCTGGTGATCAAAGACCTCGTCGACGACGTCTGCGTCAGCACGGATCCTGTGCCGGAGCGTTCCTGGGAACCGGACGGGCCCGTGCGGGTCCTGCCGCGCAAGCCTTGGCACGTGCTGCGGCAGTACATCGTGGACGCGCTGTTCCTTGGTGTTTGGGGACCCCTGGGCGACCTGCTGGACTCCCGCGGATTGGCCGGGACCTCCGCTGACTTGTGGAACCTGACCCGGAAAATTATCACCGAATACGCGGACACGCACCCCGGGCAGGCTGCCCGCCTCGCAGCCACAGGGTTCCTGGGGCAGGAGTTTGGACGCTACCCGCTCAACGGCTACCGCCTGCGCCTGGGCTACACGGACCTGGATACGCGGCCGCCGGTGCCGAAAGCAGGCACCATGCCCAATCCCATGTACAGCCCGGGTCTGCCTGTATAG	MTLPSAKLLAKLIGALLSEELLLADPVKPGPSADLAGEPSSMPFRLDLETVSYLFTASRTGFGAYSVDPGSTRRVSRGVLGDDESEPADDPGRFVVDAAGALGLTGTTVANYLAELSATLAADMRLEAAGVPVKELVRLPHARMEGHLTGHPLLVANKGRLGFSASDCEQYAPEARKPLRPVWLAVSRRLAEFRAVPSMSEQDLLDRELAPVEQDRFKAVLCDSGADPSGYVLVPAHPWQVDHVVRQLWSGSMLSGQIIVLGESEDEYLPTQSIRTLVNIDAPGRLQIKLPLKILNTSVYRGIPRHCTLAAPVTTHWMRSLWDADAFLGRHTVLLGEVASVTVRHPHLADYPGIPYQWDETLGCIWREPVDPALGEGETVWPLAMVLHEDSAGDLAVAALAELSGRDLREWLEALVSVTVGPLLHLLHTYGVSVNPHGENLMIICDAGGMPSRLVIKDLVDDVCVSTDPVPERSWEPDGPVRVLPRKPWHVLRQYIVDALFLGVWGPLGDLLDSRGLAGTSADLWNLTRKIITEYADTHPGQAARLAATGFLGQEFGRYPLNGYRLRLGYTDLDTRPPVPKAGTMPNPMYSPGLPV				NA	NA	NA	NA	NA
D1-17_03528	636			hypothetical protein	ATGACGGCGCTGAGGTGGAGCCGGGAGGTGCCGCTGGAAGGACTGGTCCTGCGGCAGGCCACACCTGCTGACGCCCAGGACCTCGCCACCCTGATGGGCGAGCCGGATGTGGAGCAGTGGTGGCACCAGGCATGGGAGCCGGAGAAGTGGGCTGCCTATATTGCCGGTCTGGTGCAGGATCCTGACAGCCTGCCTCTGACACTTGCCGATAACGTGCCTGATGGGCAGACGGTGGGGTACGTCGAGGTCTACAGGGTGGCAACCGACACCCTTGGCCGGCACATCGCCCACAGCCCGACAGATCTCGGAATGCACCTCGCCCTGGGCGAGCTCGCGCGCGGACGGGGACTGGGCACACACCTGATCCGCAGTGTCCTGGACGCCGCCCCCGCAATCCTGGAAGGCTGCGGGCGCCTGGTGGCCGAACCGGACACCCGGAATACCAGGTCCCACCGGGCATTTGAGGCTGCCGGCTTCGCTGCCGCCGGTACCGTGCAACTTCCGGACAAGAGTGCCTTGCTTGTTGTTGCGGCACCTAATGCCGTGTCCATCCAGGAAACGGCGTCCATCCAGGCAGCTGGGTCCCTGCAGCAAGCCGTGTCCCCGCACCACATGAATGAAGGAGTCCTGTTGTGA	MTALRWSREVPLEGLVLRQATPADAQDLATLMGEPDVEQWWHQAWEPEKWAAYIAGLVQDPDSLPLTLADNVPDGQTVGYVEVYRVATDTLGRHIAHSPTDLGMHLALGELARGRGLGTHLIRSVLDAAPAILEGCGRLVAEPDTRNTRSHRAFEAAGFAAAGTVQLPDKSALLVVAAPNAVSIQETASIQAAGSLQQAVSPHHMNEGVLL	PGPT0003375_124	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MYCOBACTIN_BIOSYNTHESIS,PGPT0003375-mbtK-K21992	NA	NA
D1-17_03529	1719	iucA	COG4264	N(2)-citryl-N(6)-acetyl-N(6)-hydroxylysine synthase	ATGAGCATGTCAGCAGCCATCGATCTGCAGGTCCTGTCGGACGCGGCCCACGTGGACGCGGTGCTGCGCTGCTGGGTCCGTGAGCGCAACGTGACGGTGGGCGCGGACGGAATCTTCACCGCTGTCCCCGGCACGGCGCTTAACGTGAGCGCCCGCTGTACGCATGTCTCCCGGACAGGCCTGCACAGCTTCACGGACGTGGCCGTGGTGCACCCGGACGGCAGCCGCCAGGAAGTGGGCGCCGAGGAGCTGCTCGCCCTCCTGACCACTGGAGCAGAACCGCAGGAACGTTCGCTGTTGCTGCAGCGGACCAGGGAGTCCATCGGCAACATCAGCATCTTTGCAGGACGGGACCAGCGTGCGTCCGGGCCCATGGACGGGCCGCTGTCCCTGGACGGGCCGCTGTTTCTGGCCGCGGAGCGGTCCCTGCTCCTCGGCCACCTCCAGCACCCTGCTCCAAAAAGCAGGGACAACCTCAGCGCGGCGGAACTCGAGGCATATTCACCTGAGCTTGGCGGCCAGTTCCAGATGCACTGGTTTGAAGCGGACCGTTCCGTCGTCACCGAGGTCCAGGCAGCAGGTGCCCCTTCGCTGGGCGGAAAGGATGTGCACCAGTTGCTGGCGGACATCGCCGGACACCGCCCCGCTCCCGGCCACGTACTGATCCCGGCACACCCCTGGCAGGCGGAGGCTGTGCAGCAACGCGGGGCGGTCGGCGAACTCATGGCTGCGGGACTGCTCCGGCCGCTGGGTCCGCTGGGGGATGAATGGTGGGCCACCTCGAGCCTTCGCACCCTCTACCACCCCGAGCACCCGGTCATGCTGAAGCTGTCGCTGGGCCTGAAGATCACCAACTCCGTCCGGGAGGCCACGGCTACCGAACTCAAGCGCGGCGTCGAAGTAAACCGCCTGATCGATGCAGGTTACATCACCCACAGCGACCCTGGCTTCACCATCGTTCGGGATCCTGCTTCGGCCGCCGTCATCGACCCTTCCGACCCCACCGGCGGAACACTGACCGGGCTCGACGTTTCCCTTCGGGAGGTACCGGAGGCAGTGGACCGGATGGTGTGCCTGGCCGGACTGATCGCCCCCTCGGCACCAGCCGGCCCTGACACGTGGGGACCCAGCCTCCTGGCCCGCTGGTGCGGGGACCCCCTTGCATGGCTGGGCAGCTATGTCGACCGCGTCCTCGTGCCGATGCTCAGCCTGTACGCCGGCACCGGCATCGGCCTTGAAGGACACCAGCAGAACACCCTCGTCCGGCTGGACTCTGAAGGCCGCATCACCGGAGGCGCCTACCGGGACAACCAGGGCTACTATCTTGCCGCCTCCCGGCTCCGCGACGTCCTGGCCCGCACCGGCGGGGAAAGCAGCACCCTTGCCGTTGTTGACGACGCCATCGTGGATGACCGGCTCACGTACTACCTCCTGCACAACCAGACACTGTCTTTGGTTGGAGCAATGGCGGCGGAAGGTATGGCAAACGAGGGACTGCTGCTGGCGGTGGTCCGGGAGAGGCTGCAGGCGGCGCTCCCGGACCTTGCCGAAGCAGGCCCGGCCGGACCGCGGCTGGTGAACCGGTGGCTGACGGCCGCCTCCCTGCCCTGCAAGGCACATCTTGCCACGCGTCTCGCCGGCATTGACGAGGTGGTGGCGCCGCTGGATGCGCAGTCCGTTTACCTTGACGTGCCCAACCCGCTGGTGGTGGGTGCATGA	MSMSAAIDLQVLSDAAHVDAVLRCWVRERNVTVGADGIFTAVPGTALNVSARCTHVSRTGLHSFTDVAVVHPDGSRQEVGAEELLALLTTGAEPQERSLLLQRTRESIGNISIFAGRDQRASGPMDGPLSLDGPLFLAAERSLLLGHLQHPAPKSRDNLSAAELEAYSPELGGQFQMHWFEADRSVVTEVQAAGAPSLGGKDVHQLLADIAGHRPAPGHVLIPAHPWQAEAVQQRGAVGELMAAGLLRPLGPLGDEWWATSSLRTLYHPEHPVMLKLSLGLKITNSVREATATELKRGVEVNRLIDAGYITHSDPGFTIVRDPASAAVIDPSDPTGGTLTGLDVSLREVPEAVDRMVCLAGLIAPSAPAGPDTWGPSLLARWCGDPLAWLGSYVDRVLVPMLSLYAGTGIGLEGHQQNTLVRLDSEGRITGGAYRDNQGYYLAASRLRDVLARTGGESSTLAVVDDAIVDDRLTYYLLHNQTLSLVGAMAAEGMANEGLLLAVVRERLQAALPDLAEAGPAGPRLVNRWLTAASLPCKAHLATRLAGIDEVVAPLDAQSVYLDVPNPLVVGA	PGPT0003119_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ACHROMOBACTIN_METABOLISM,PGPT0003119-alcaligin_achromobactin_synthetase_like-NA	NA	NA
D1-17_03530	1446	iucD	COG3486	L-lysine N6-monooxygenase	GTGAACACACCTTCTTCCACGTCCCCTGATACTTTGGGCAGCGGGCGCATCTACGACTTCGCCGGAATCGGCGTAGGCCCCTTCAACCTGGGGCTCGCTGCCCTGACCGAGCCCATCGAGGGCGTGGACGCCGTGTTCCTTGAGCGGCGGCCGTCCTTCGATTGGCATCCGGGCATGCTGCTGGAGCCCGCGCACCTGCAGGTACCCTTTATGGCCGACCTCGTGACGCTCGCGGATCCGACGTCGCGCTTTTCCTTCCTGAACTTCCTCAAGCAGACCGGGCGCCTCTACCGGTTTTACATCCGCGAGAACTTCTATCCGCTGCGCGCCGAGTACAACCAGTACTGCCAGTGGGTGGCAGGGCAGCTGGACTCCGTGCGTTTTGGCACGGACGTCAGGGGGATAACGTACGACGACGGCGTGTACCGGCTCGCTGTTGACGGCCCGGACGGTCCTGACATCGTGCTTGCCCGCAGGCTGGTGCTCGGCACGGGAACATCGCCGTACATTCCGGACGTTTGCGCTGGGGTGATGGATGCCGGCGGGCTTGTCCTGCACAATGCTGAATACCTGCCACGGAAAGCCGAACTCCAGCAGCAGCGGAGCATCACGATCGTCGGCAGCGGCCAGAGCGCCGCGGAGATCTACTACGAGCTGCTGCAGGAAATTGACGTGCACGGGTACCAGCTGAACTGGGTCACGCGCTCCGGCCGCTTCTTCCCGCTGGAGTACACCAAGCTCACGCTGGAAATGACGTCCCCGGACTACGTGGACTATTTCCACAGTCTCCCGCAGGAGCGGCGGGACGGGCTGATCAGGAGCCAAAAGAACCTGTACAAGGGCATCAACTCCGAACTCATCGACGCCATCTACGACCTGCTGTACACCAAGAGCCTCACAGGCCTGACCGACACCAGACTGCTGACCCATTCGGCCCTGACGGGTGCGGCGTGGGATCCGGCAACCGGAACGCACACCCTGGAGCTGCGGCACGAGGAACAGGACTCCCCCTACAGCATCGAGAGCGAGGCGGTGGTGCTGGCCACCGGTTACTCCTACCGCGAGCCGGCTTTCCTCGCCGGAATCCACCGCCGCATCTCCCGCGACAACAGCGGCAGGTTCGCGGTGCAGCGCAACTACTCCACCGGCGTCGAACCCGGAGAGATCTTTGTCCAAAACGCGGAGCTGCACACCCACGGCTTCGTCACGCCGGACCTCGGCATGGCCGCCTACCGGAATTCGTGCATCCTGCGCGAGATCACCGGACGGGAGGCCTACCCCGTGGAACGCAGCATCGCGTTCCAGGACTTCGGCGCACCGGGCGCCGTTCACCAACAGGATGACATTCAACACCTACCCGAGCAGATGGAGCTTTCCATGTCCCAGTCCCACTTCCAGACCCAGGCGCCCGGCCAGGCGGCCTCCCAGATCGGAGAAAGCGCATGA	MNTPSSTSPDTLGSGRIYDFAGIGVGPFNLGLAALTEPIEGVDAVFLERRPSFDWHPGMLLEPAHLQVPFMADLVTLADPTSRFSFLNFLKQTGRLYRFYIRENFYPLRAEYNQYCQWVAGQLDSVRFGTDVRGITYDDGVYRLAVDGPDGPDIVLARRLVLGTGTSPYIPDVCAGVMDAGGLVLHNAEYLPRKAELQQQRSITIVGSGQSAAEIYYELLQEIDVHGYQLNWVTRSGRFFPLEYTKLTLEMTSPDYVDYFHSLPQERRDGLIRSQKNLYKGINSELIDAIYDLLYTKSLTGLTDTRLLTHSALTGAAWDPATGTHTLELRHEEQDSPYSIESEAVVLATGYSYREPAFLAGIHRRISRDNSGRFAVQRNYSTGVEPGEIFVQNAELHTHGFVTPDLGMAAYRNSCILREITGREAYPVERSIAFQDFGAPGAVHQQDDIQHLPEQMELSMSQSHFQTQAPGQAASQIGESA	PGPT0031170_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BISUCABERIN__BIOSYNTHESIS,PGPT0031170-bsbB-NA	NA	NA
D1-17_03531	1647	ddc	COG0076	L-2,4-diaminobutyrate decarboxylase	ATGACCACTGTGACGCTGCAGCCCCCTGTCCGTGAGAGACCAGCGCAGGAGATACCCGCTGAAGAAGATGCCGGTGATCAAACAGCCGGGGACAAGGGCCAACAGGAACAGGCGTATCCCGATTTTGGATCCCGTGTAGAGCTGGCCTTGTCCGCCAGCAACCACCTCTTGAATTCCCGGAACGCACCCCGATACGTGGCGCAGGTGCTGCAGGGGGTCAACGCCGTTGCCACCAAACTCGAGCGGACCGCGCGGCCGTTCACTGGAGTCGGGCCCGCGGAGATGAAGCGCCGCATCGGGGAGGTCGACCTGGCACAGCCACTGCCGGATACAGCGGCGGCGCTGGAGGAGCTCGAAGACGTGTACCTGCGCGACGCCATCTACTTCCACGATCCCAAATACGCCGCCCACCTGAACTGTCCGGTCGTGATTCCGGCGCTCGTGGGGGAGACCATCCTCTCCGCGGTCAACTCGTCCATGGACACCTGGGACCAAAGCGCCGGCGGCACCATGATCGAACGGCGCCTCATTGCATGGACGGCGCAGCGGCTGGAACTCGGCACCGACGCTGACGGCGTCTTCACCTCCGGGGGAAGCCAGTCGAACTTCCAGGCACTCCTGATTGCGCGTAACCATGCCGTGGCCACCCTGCGGCAGCACCCGGCGGCGGCAGGGCTGAGGCTCCCGGCACTGCTGGACAAGCTGCGAATCTTCACGTCGGAGGACAGCCACTTCAGCATCAGGAAATCCGCGTCAATGCTGGGACTCGGCTATGACGCCGTGGTCCCCGTCCGATGCGGCAGCGACCACAGGATGGACCCGGCCTCCCTGGCAGAGGCTTTGGCCGACGCCAACGGGAACGGTCTGGTGCCCATGGCGGTGGTTGCAACCGCCGGCACCACGGACTTCGGCGCTGTGGATCCGCTTGCCGAAGCGTCCGCCCTGGCCCGCGCCTACGGATCCTGGTTCCATGTGGATGCCGCCTATGGCGGTGGACTGATGGTGTCCGGCCGCTACGGTCACCTTCTGAAAGGCATCGGGCTCGCGGATTCCGTCACGGTCGACTTCCATAAGACGTTCTTCCAGCCCGTCAGCTCCAGCGCCTTGCTCGTCCGGGACGGGGCCATGCTTCGCCACGTGACATACTACGCGGACTACCTGAACCCGGAAGCCGCGGCACGTGCCGACATTCCCAACCAGGTGGACAAGAGCATTCAGACCACGCGCCGCTTTGATGCGCTCAAGCTGTGGCTGACGCTGCGGATTATGGGCGCTGACGCCATCGGTGCCCTTTTCGACGAGGCCATTGATCTCGCCGCCCGGGTGGGCGGCCTGCTGGCGGCGGACCCGGATTTCGAACTGGCTGCCGGACCCCAGCTCAGCACTCTTGTCTTCCGCTACCGTCCGCTGCTCGACGACGGCACCCGGCTTTCCGATGACGCCGCCGACTGTGTGAACCCAGCCATCCGAGCCCACGTCTTTGCCTCGGGCGAGGCCGTGGTGGCAGGCACCAAGGTGGCCGGACGCCACTTCCTCAAATTCACCCTCCTCAATGCCGAGGCCACGCTGGAGGACATCAGCCAAATTGTCGAACTGCTCCGTGAAGCGGGTGCAGGGCTGCTGAAGAGCCAGGAGGTGGCGGTGTGA	MTTVTLQPPVRERPAQEIPAEEDAGDQTAGDKGQQEQAYPDFGSRVELALSASNHLLNSRNAPRYVAQVLQGVNAVATKLERTARPFTGVGPAEMKRRIGEVDLAQPLPDTAAALEELEDVYLRDAIYFHDPKYAAHLNCPVVIPALVGETILSAVNSSMDTWDQSAGGTMIERRLIAWTAQRLELGTDADGVFTSGGSQSNFQALLIARNHAVATLRQHPAAAGLRLPALLDKLRIFTSEDSHFSIRKSASMLGLGYDAVVPVRCGSDHRMDPASLAEALADANGNGLVPMAVVATAGTTDFGAVDPLAEASALARAYGSWFHVDAAYGGGLMVSGRYGHLLKGIGLADSVTVDFHKTFFQPVSSSALLVRDGAMLRHVTYYADYLNPEAAARADIPNQVDKSIQTTRRFDALKLWLTLRIMGADAIGALFDEAIDLAARVGGLLAADPDFELAAGPQLSTLVFRYRPLLDDGTRLSDDAADCVNPAIRAHVFASGEAVVAGTKVAGRHFLKFTLLNAEATLEDISQIVELLREAGAGLLKSQEVAV	PGPT0013725_68	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745	NA	NA
D1-17_03532	438			hypothetical protein	ATGTCCGACGCAGGCGCTGACCCGCTGAGCTTCCGCGAAATCGATGCGCGGGGCAACCCGACCCGCTACGGCCGGGCCGACGTCGGGCCTGGCCTTGGTACCAACGGCCCCGGAAACCCGGCTGGATCCGCAGCCGGGAGTTTGACCCCTGCAGGTCTGGAGAGCTCGGGCCAGGCGGCCCGAATACCGATCAACCCGTTTATCGTGGCACTCTGGGCGGTCGCAGCAGGCCTGATTCTGTCCGCCTTCGGGGCGTTCACCGTTGCCCAGGAGATGCTCAATACGCCGGGCACAGCCGACTCAACACCCACCGGTTACATGTGGATGACGTTCGCGCCCTTCCTCTTGTTTGCAGGGCTGCTGGGCATCATGGGGCTGCTCTTCTGGCATGCGGGCCAGTGGCGCCGCAACCACGAAAGGAAGGTTCCGCCGTCATAA	MSDAGADPLSFREIDARGNPTRYGRADVGPGLGTNGPGNPAGSAAGSLTPAGLESSGQAARIPINPFIVALWAVAAGLILSAFGAFTVAQEMLNTPGTADSTPTGYMWMTFAPFLLFAGLLGIMGLLFWHAGQWRRNHERKVPPS				NA	NA	NA	NA	NA
D1-17_03533	285			hypothetical protein	GTGAACGAGGAAGATCTTGCCCGGTACCTGACGGAAACCGTCGACCCGGCCGTGGCCGTCGCTGCTCTGCCCGAGCGGTCCCTGGCTGAACTGGCCGATGCCCTGTACCGCCACCTTGATACACCCAACCCCGCGTTCGGCGCCCATTCCTGGTACGCGCAGGTCGCAGAGGAGTTGCAGTTGCGGCGGACAACAGGGGAGGGCCAACTGGCCGGGGATTCAGCGGCGCAGCCCGAAGACCATGGGCCTGCCGGGCCCGCGGGCCAGGAAGTGCCGGCACGCTAG	MNEEDLARYLTETVDPAVAVAALPERSLAELADALYRHLDTPNPAFGAHSWYAQVAEELQLRRTTGEGQLAGDSAAQPEDHGPAGPAGQEVPAR				NA	NA	NA	NA	NA
D1-17_03534	183			hypothetical protein	GTGAATCATAAACTGCGTGTCCTCGTTCAGCTCGATCTGGATCCCGGCTGCGTCACCGTTGAAGCCGGTGGCTGCCTCGCCGCCCAGGCGAACTTCCCCTTACTGCTCCCCCTGATGCTCCGCGCCCAGCATGCGTCCACGGGCCATCCTGCCGGACTCGCCGACGTGAGGAGCACCGCGTGA	MNHKLRVLVQLDLDPGCVTVEAGGCLAAQANFPLLLPLMLRAQHASTGHPAGLADVRSTA				NA	NA	NA	NA	NA
D1-17_03535	354			hypothetical protein	ATGACGGAGAACACGGTATCCACCGAGGACCAATTCACCCCGGATGTCACCACCTTCCGGAACGATAAGCTCCACCGCTATGAGCTGCACGTTGGGGGAAAGCTTGCGGTGCATATCCGGTTCATGGACAAGCCCGGCCATGTTGACTTCATCCATACCGAAACGGCGGCAGAATTCCAAGGCCAAGGCCTCGCCAACGTGCTGGTGCACTTCGCACTGGACGATGTGGTTGCCGCAGGAAAGCGGATCATTCCGCACTGCCCGTTCACGGCGCGATACCTCCGAAAGCATGATGTGTACAACCAGTGCATCGATTGGCCCGAGGAGGCAGCGCCTAAGCTCCTGGGAACCTGA	MTENTVSTEDQFTPDVTTFRNDKLHRYELHVGGKLAVHIRFMDKPGHVDFIHTETAAEFQGQGLANVLVHFALDDVVAAGKRIIPHCPFTARYLRKHDVYNQCIDWPEEAAPKLLGT				NA	NA	NA	NA	NA
D1-17_03536	1317			hypothetical protein	ATGGAGTGTTCACCGCAGCGGCCCGGGGCGGGGGATGGCGCGCCAGGACCGGAACGCGACCTGACCATAGACTTGGCACGTTTCGTCTGCCTTGCACTGGTGGTGGTGGGGCATTCGATGATGGCCAGCCCCGTGCTCCACCCCGATGGCAAGGTGACCACGGAAAACACCCTGGCCGAACAGGACTGGTTCGAACTGGTCATCTGGATTTTCATGGTGATGCCGCTGTTCTTCGTGGTGGGCGGCATTACCGGCCTGCAGTCATGGCGCCGTATGCAGGCCCGCGGAGGAAACGGCTATGAGTTCGCCCGGGTGCGGCTGCTTCGACTCATCCAGCCGGCGTCGGCGCTGCTCGCGGTGATGTTCGTCGGGCTGTGGTGCGCCTTGCTCCTAGGGGTCGACCCGCAGGTGGTGGGGCTCATGGCCACAGGCGCCGGCATGCCGCTCTGGTTCCTCGCCGCTTACCTGGCCGCGCAATTGAACATCCCGCTGCTGGCCCGGCTTCATCGGCGCGCGCCGTGGACTACGCTCGGTACACTTGCAGCGCTGGTGGTAGCCGTCGACTGTCTGCGCGGCGCCATGCCGCTGCTGGCCTACGTCAACATGCTCTTCCTGTGGTGCGCAGTGCAGCAGCTCGGCTTCTTCATGGCCGACGGGTTTCCCGCGCGGCGGAGCATCTCGTGGTTCGTGGGGCTGATCGCGGCCAGCAACCTGCTCCTGCTCGTCCTCACCGGCCTGCGCCTCTACCGCGACAATATGCTGGTCAACCTCAACCCGCCCAATTTCTGCCTGTTGCTCCTCGGCGTTTCACAGGCCGCAGCGCTCCAGCTCTTCCGCCCGACGCTCGACCGGGTTGCCTCGATCACCCGGGTCCGGAGTGTGGTGGCGCTTGTGGGACGCCACGCCATGACGATCTACCTCTGGCACCTGCCCCTGCTCGCTGCGATGACTGGCCTGCTGCTGCTCACGGACTTCCCCAAGCCGGCTTCCGCCACCACCGCCTGGTGGTGGTCCCGGCCGCTGGTGATCCTCGCTGTCGCCGCACTGCTCCTGCCCGTCATCGCCCTGTTCGGGCGGCTGGAGGAACGGCCGACGGCGGCAGTCCACTCACGCGGCCGGCACCCCGCCGCCGTGGTGGCGGCTGCCGTCGTCGTGTTCATCCCTGTGGCGGACGCTGCGGTCAATGGCCTCACGCTGCCCCTGCTGGGCGGCGGTGCCGCCTGCTTCGCCTTGGCGGTCCTGCTGCTGGGCCGCGTCCCGGCCAGGACAAAGGAAGCATTGCCAGTAAACCCATTAAGTGCCAATGTCGAACCATGA	MECSPQRPGAGDGAPGPERDLTIDLARFVCLALVVVGHSMMASPVLHPDGKVTTENTLAEQDWFELVIWIFMVMPLFFVVGGITGLQSWRRMQARGGNGYEFARVRLLRLIQPASALLAVMFVGLWCALLLGVDPQVVGLMATGAGMPLWFLAAYLAAQLNIPLLARLHRRAPWTTLGTLAALVVAVDCLRGAMPLLAYVNMLFLWCAVQQLGFFMADGFPARRSISWFVGLIAASNLLLLVLTGLRLYRDNMLVNLNPPNFCLLLLGVSQAAALQLFRPTLDRVASITRVRSVVALVGRHAMTIYLWHLPLLAAMTGLLLLTDFPKPASATTAWWWSRPLVILAVAALLLPVIALFGRLEERPTAAVHSRGRHPAAVVAAAVVVFIPVADAAVNGLTLPLLGGGAACFALAVLLLGRVPARTKEALPVNPLSANVEP				NA	NA	NA	NA	NA
D1-17_03537	876	gatY		D-tagatose-1,6-bisphosphate aldolase subunit GatY	GTGCGCGCGCGGCTGGACGATATTGTCGGTTCCGCCCTCCAGCAGGGCTCGGCCGTGCCGGCCTTCACCTGCTACGACTTCACCACGGCCATGGCCGTTGTCAGCGCGGCGGAGGAAGAAGGCCGCGGCGTCATCCTGCTCGTCGCCCCAAAGACCGCCGCCACGACGAACGGGCTAAGGCTGATCACGGCACTCAGGGGCCTGGCTGATGCCGCTGCCGTACCTGTGTCGGTGCAGCTGGACCACGCCTCCGACCTTGCTGTCATCCTGGCTGCCGTTGCAGCCGGTGCCGACTCCGTCCTGGCAGACGGGTCCTCGCTGGCCTACGAGGACAACGTCGCCCTGGTTCGCCAGGTTCGTGCGGAGCTGACCGCCCGGGGGAGGGCCGACGTTGTGCTTGAAGCGGAACTTGGCGGCCTTGCCGGAGACGAAGACCGTGCCTTCGGGGCAGGAGCTAAAGATGAGGCCGTCGGAAACGATTCCGCCGGCCTTACCGATTCTGCCCAGGTGGAAGACTTCGTGGCGCGGACCGGGGCGCAGCTGCTCGCGGTCGCGGTGGGCAACGTGCACGGCCGGTACACGGGCAAGCCTGAACTCCGGTGGGACGTATTGCAGGATATTGCCGTTCGCACACACATCCCGCTGGTGCTCCACGGGGCGTCCGGCATTCCGGGGGAGGAGTTGGTCAAGGCTCCAGCCATGAATGTTGGCAAGGTCAACTTCAACACTGAGCTGCGCACCGGAGTCCTGTCCATGCTGGAGGCGGAGACTGCCGTGCACCGTGCCGACGGCGAGAACCTCCAGGGCCTGCTGGCCTCCTGGAATGAATCCGCCAAAGATTTTGCTGCCTCGGCGCTGGTGATGCTTACCCGCTGA	MRARLDDIVGSALQQGSAVPAFTCYDFTTAMAVVSAAEEEGRGVILLVAPKTAATTNGLRLITALRGLADAAAVPVSVQLDHASDLAVILAAVAAGADSVLADGSSLAYEDNVALVRQVRAELTARGRADVVLEAELGGLAGDEDRAFGAGAKDEAVGNDSAGLTDSAQVEDFVARTGAQLLAVAVGNVHGRYTGKPELRWDVLQDIAVRTHIPLVLHGASGIPGEELVKAPAMNVGKVNFNTELRTGVLSMLEAETAVHRADGENLQGLLASWNESAKDFAASALVMLTR	PGPT0017920_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017920-gatY_kbaY-K08302	NA	NA
D1-17_03538	903	ltnD	COG2084	L-threonate dehydrogenase	ATGCCCTCGAATTACACCGTCACCGTCCTTGGCCTCGGCGCCATGGGCCTGCCGATGGCCACGCGCCTGGCCACCCAGCTCACCGTCCACGGCTTCGACATCGCCGAACCCCGCCTGCGCCTCGCTGAAGACGCCGGAATCCGCACCTTCGGCTCGGCCCAAGAGGCTACGGAAGGCACGGACGCCCTGCTGCTGGCGGTCCGGAATACCGAACAGCTCAACGACGTCCTCTTCGGTGAAAACGGCGTTGCCCCCGTCCTTAAGCAGGGCGCCGTGGTCATCCTCACGAGCACGGTGGGCACGGAAGCCATTCCCGCTACCGTTGCGCGGCTGGCCGAAGCGGGAGTCTCCCTCATTGACGCGCCGCTCTCCGGCGGCCCGAAGCGCGCCGGCGAAGGCGACCTGCTGATCGTGGTCGGCGCAGAGCCGACCGCCCTCGAATCCGCCCGCCCCGTCCTGGAACTGCTCGCTTCCACCCTGACCGTTGTAGGGGACAAGCCGGGGGACGGCCAGGCGCTGAAAACCGTAAACCAGCTGCTGTGTGGCATCCACATCGCGGCCGCCGCCGAGGCCATGGCACTCGCCGATGCCCTCGGCCTGGACCAGGCGAAGACCCTCGCCGCCCTCGAAGCAGGCGCCGCGGGATCCTTCATGCTTTCCAACCGTGGCCCGCGCATCCTGGAGGCCTACACCGAGGACGGTGCCGAGGTGCTCAGCCGCCTTGACATCTTCGTCAAGGACATGGGGATCGTGGGCAAGGCCACCCGCTCCGCCGGCCTCGCAACCCCTGTTGCCGCCGCGGCAGAGCAGCTCTACCTGCTCGGCCAGGCCCACGGCCTCGCCGCCGCCGACGATTCCGCCGTTATCAAGGTCGTGGCCCCCACCAAGCGGACGGCGGGCTAG	MPSNYTVTVLGLGAMGLPMATRLATQLTVHGFDIAEPRLRLAEDAGIRTFGSAQEATEGTDALLLAVRNTEQLNDVLFGENGVAPVLKQGAVVILTSTVGTEAIPATVARLAEAGVSLIDAPLSGGPKRAGEGDLLIVVGAEPTALESARPVLELLASTLTVVGDKPGDGQALKTVNQLLCGIHIAAAAEAMALADALGLDQAKTLAALEAGAAGSFMLSNRGPRILEAYTEDGAEVLSRLDIFVKDMGIVGKATRSAGLATPVAAAAEQLYLLGQAHGLAAADDSAVIKVVAPTKRTAG	PGPT0018135_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_THREONATE_DEGRADATION,PGPT0018135-ltnD|ygbJ-K08319	NA	NA
D1-17_03539	1497			hypothetical protein	GTGCCCCTTGAAGCAGACATCCTGGCCGCCTTTCCCGCGGAGCTTATGATCCCAGCGCAACAGGTGGCCGATGCGGTCACCGCTTCAGCTGCTACCTCCCCCCGCGTCCTGGTTGTCCTCGACGACGACCCCACCGGTACGCAGTCGGTTTCTGATCTGCCCGTGCTCACCCAGTGGGAAATCGAGGACTTTACCTGGGCTTTGCATCAGGGCAAGGCAGCGGTGTACGTCCTCACCAACACGCGCAGCCTGGACCCGTCAGAAGCGGCAGCCAGGAACGAGGAAATCGTGCGGAACGCCCTCGCCGCCGCCCGGAAGGGCGATGAAAATCTCCGCCTCGGCTTCGTCAGCCGCAGCGACTCGACGCTGCGGGGCCACTTCCCGCTCGAACCCGACGTCATTGCCGCCACCGTCGCCGCCGAGAGCGGCGAAACGACCGACGGCGTCGTAATGGTCCCAGCCTTCCCGGACGCCGGGCGGGTCACTATCGGGGGCGTCCACTACATGCGTGGCACCGGCGATCATGCGGGCCGGCTCATTCCCGTTGCGGAGACCGAGTTCGCCAAGGATGCAACGTTCGGGTTCAGCAGTTCGACAATGGCCAAGTACGTCGAGGAGAAATCGCAGGGCCGCTACACCGCGGACTCGGTGATCGTGCTGGACCTCCACATCATCCGTGCCGGCGCCGCCACCGGTGACGCCCAGGTTTCCGCCAAGGCCATCGCTGATGCGATCGCGCCCGCCACTGCTTCCACCCCGATCGTCGTGGATATCGTGACTGAGAATGACATGCGCGCCCTGGCCCTTGGCCTCGAAGAGGCAGAACGCCGCGGCAAGAAGCTCCTCTACCGCGTGGGTCCGCCCTTCATGCGCGCCCGCATCGGCCAGGACATCCGCCGCGAGCTCACCCGCGAGGAAGCATATGCCGGCAATACTCCGTCCGAGGCCGGAGGCCTGATCGTCGTCGGCTCGCATGTAGGCGTCACCACGCGCCAGCTGAAGGTGCTGACGGATCGGCACAGTTCTGCCCGCATCGTGGAGATTGACGTTGAAAGGCTGCTCGGGGACGATGCGGACGCCCACCTCGACCAGACGGTGGATGCCGTCGTCGAAGCACTCCACAGCGGTGACGTCATCGTGCACACAAGCCGCCTGCTCATCAAGACCAATGACCCGGCCGAAAGCCTCCGGATCGCCCGCACGGTGTCCGCCGCCGTCGTGGCAGTAGTGAACCGCACGCTCAAGACCTTCCCGCCGCGGTTCGTTATCGCCAAGGGCGGCATCACGTCTTCGGATGTGGCCGCCCACGGCCTGGAGATCCGGCACGCGATCGTTCGCGGGCCCATGCTTCCGGGCATTGTCAGTCTCTGGGAACCGGTGGATGGTCCTGCAAAGGGCATTCCGTACATCGTTTTCGCCGGCAACGTGGGCGACGACCAGTCCCTGGCCCAGGTCACCCGCAAGCTCAGCAACAGCTTCTCCCCAAGTACCGCCTGA	MPLEADILAAFPAELMIPAQQVADAVTASAATSPRVLVVLDDDPTGTQSVSDLPVLTQWEIEDFTWALHQGKAAVYVLTNTRSLDPSEAAARNEEIVRNALAAARKGDENLRLGFVSRSDSTLRGHFPLEPDVIAATVAAESGETTDGVVMVPAFPDAGRVTIGGVHYMRGTGDHAGRLIPVAETEFAKDATFGFSSSTMAKYVEEKSQGRYTADSVIVLDLHIIRAGAATGDAQVSAKAIADAIAPATASTPIVVDIVTENDMRALALGLEEAERRGKKLLYRVGPPFMRARIGQDIRRELTREEAYAGNTPSEAGGLIVVGSHVGVTTRQLKVLTDRHSSARIVEIDVERLLGDDADAHLDQTVDAVVEALHSGDVIVHTSRLLIKTNDPAESLRIARTVSAAVVAVVNRTLKTFPPRFVIAKGGITSSDVAAHGLEIRHAIVRGPMLPGIVSLWEPVDGPAKGIPYIVFAGNVGDDQSLAQVTRKLSNSFSPSTA				NA	NA	NA	NA	NA
D1-17_03540	717	lutR_4	COG2186	HTH-type transcriptional regulator LutR	ATGGCACGGAAATCACTGGTGGGCGTCGTCGCTGACGAACTGCTGGATCGCATCATTGCCGGCGAGTTCCCGCCGGGCGCCAGCGTTCCCGGTGAACTTGAACTTAGCGCCCGGCACGAGGTCAGCCGAATGACTGTCCGGGAGGCCATGAAGACCCTTGAGGCTCAGCGGATCCTCAGCGTGGAGCGGGGCCGGGGCACGTTCGTGAACCCCCTCAACCGGTGGTCGTCATTGGAGGCTGTACTCCGGGCCGCCTCCGAGGGCCAGAACGGCCCGGCTGCCGCCGTACAGCTGATCGAGCTGCGCAGGATGCTGGAAACCGGCGCCTGCGAACTTGCGGCACAGCGTATTACCGACGGCGAACTTGAGGACGTGCAGGCCCGTGTGCAGGACATGCGCGAAGCTCATGAGGCCAACGACCTAGCCCGTTTCGTGACGGCCGACCTCGCTTTCCACGACCTGATCCTGCAGGCATCGGAGAACGTGTTTGTCGCGGTCCTTTTCGAGCCGCTCCACCGGGTGCTGGAGAAGCGCCGCACGGAAACGTCCCAGGTTCCCCAGATCCAGGAGCATGCGATCGGCCACCACCAGAACATCGCCGATGCCCTGGCTGCCCGGGATCCCCACCGTGCGCGGGAAGCGATGGACTCCCACATGCAGCAAACCCTGGACGACCTGAGAAGCTACGTGCTCGAAGCCGGGCAGGCGAACACCTAG	MARKSLVGVVADELLDRIIAGEFPPGASVPGELELSARHEVSRMTVREAMKTLEAQRILSVERGRGTFVNPLNRWSSLEAVLRAASEGQNGPAAAVQLIELRRMLETGACELAAQRITDGELEDVQARVQDMREAHEANDLARFVTADLAFHDLILQASENVFVAVLFEPLHRVLEKRRTETSQVPQIQEHAIGHHQNIADALAARDPHRAREAMDSHMQQTLDDLRSYVLEAGQANT	PGPT0018085_147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776	NA	NA
D1-17_03541	210		COG3360	Dodecin	TTGCCTAACCACACGTACAGCATTTCCGAAATTGTCGGCACCTCAACGGAAGGCGTGGACGCTGCAGTCCGCAACGGCGTAGCTGAGGCGGCGAAAACGCTCCGCAACCTGGACTGGTTCGAAGTCAAGGAAATCCGTGGCCACCTTGAGGACGGCCAGATTGCGGACTGGCAGGTAACCATCAAGCTCGGCTTCCGACTAGAGCGCTGA	MPNHTYSISEIVGTSTEGVDAAVRNGVAEAAKTLRNLDWFEVKEIRGHLEDGQIADWQVTIKLGFRLER				NA	NA	NA	NA	NA
D1-17_03542	195			hypothetical protein	ATGAAACGCATCGCACTGCTCAAGGCACGTCAGGCCGCGTCGGCGCCAACCGGAACGCACTGCCCGGCCTCCGGTTCATGGATTCCGGAAGGCGCGCCGCAGGAAACCCACACTTTCTTCGAAGGGCAGGTCCTGCCCGCCTACCTGGGTGAACCGATCATGTGGCGGCGTTTGCCCCCGGCTAAGGACTCATGA	MKRIALLKARQAASAPTGTHCPASGSWIPEGAPQETHTFFEGQVLPAYLGEPIMWRRLPPAKDS				NA	NA	NA	NA	NA
D1-17_03543	831		COG0656	putative oxidoreductase/MSMEI_2347	GTGTCCCAGGTTCCACACCTCACGCTGAATAACGGCGTCACCATTCCGCAACTGGGTTTCGGTGTCTTCCAGGTGCCGCCGGAGGAAACCCAGAGGATCGTCGAACAGGCGCTTGAAGTCGGCTACCGGCACATCGACACGGCGGCGGCCTATCGCAACGAGGCCGGCGTAGGTGCCGCGATCGCCGCCTCCGGCATTCCCCGCGAGGAACTGTTCATCACCACGAAGCTCCGCAACGGTGAGCAAGGGAACGCCCACGAGGCTTTCCAGAACAGCCTGAAGGCGCTGGGTCTCGATTATGTCGACCTCTACCTGATCCACTGGCCGGTGCCTTCCCAGGGACTGTATATCGAGGCATGGAAGGCCTTGGAAAATATCTATGGCAGAAAGGAATCTCGGGCCATCGGTGTATCCAACTTCCTGGAAAGCCATGTGGACTCCCTGATCGGAGACACCGATGTTGTGCCGGCTGTGAACCAGCTCGAGGTCCACCCGACGTTTCAGCAGGCGGCATTGACCGAAAAGAACCGCGCACTCGGAATCGCCGTCGAGGCCTACAGCCCGTTGGGCCAGGGAACGGACCTCCACGCCAGCGCGGTCACGACCTTGGCTGAGGAGCGGAACGCTACCCCTGCCCAGATCATCCTGGCGTGGCACCTCGCCACAGGCACCATCGCGATTCCCAAATCGTCCACACGGGAACGGATGCAGGAGAACCTCGCGGCCGCGTCCATCGCCCTTGACGAGGCCGCCGTCTCGTCGATCAATGCGCTGGAGGACGGTTCCCGCGTGGGAGGCGACCCCGCCACCGCGGCACACAGCCAGCTTTAG	MSQVPHLTLNNGVTIPQLGFGVFQVPPEETQRIVEQALEVGYRHIDTAAAYRNEAGVGAAIAASGIPREELFITTKLRNGEQGNAHEAFQNSLKALGLDYVDLYLIHWPVPSQGLYIEAWKALENIYGRKESRAIGVSNFLESHVDSLIGDTDVVPAVNQLEVHPTFQQAALTEKNRALGIAVEAYSPLGQGTDLHASAVTTLAEERNATPAQIILAWHLATGTIAIPKSSTRERMQENLAAASIALDEAAVSSINALEDGSRVGGDPATAAHSQL	PGPT0001320_2196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001320-dkgA-K06221	NA	NA
D1-17_03544	210			hypothetical protein	ATGAGTCAAGCTTCCGACGATTCCAGGCAGGACTCCCCGGAGGATCCCCAGCAGAGCACTCCGCAGGGGTTCCCCTTTGACCCGGAACAGGATCCGCCGTCGGAGGAGCCCCCAATTCCCCCGCAGGACTCACCGGGGCCGCCCACCCAGCCCAACGGTGATCCTGATGAGCCTGCCTTGGAGGACCCGCAGCGCCCGCCGACACGCTGA	MSQASDDSRQDSPEDPQQSTPQGFPFDPEQDPPSEEPPIPPQDSPGPPTQPNGDPDEPALEDPQRPPTR				NA	NA	NA	NA	NA
D1-17_03545	555	purR_3		HTH-type transcriptional repressor PurR	GTGGTCACCGGACCGTCCTTCACGTCCAGCGGGATTGCCCGCCTCGCCGGTGCCCGTGCAGCCATAGATGAGGCAGGAATTGAAACCCCGGAACCTTGGCTCCTTGCAGCGGGCTACGGCATTGAAGACAGCTTCACAGCCGGAAGCGCACTCCTGGCCGGCTACACGAAAAAAACGCCAACCGCCGTTTTTGCCGCCAACGGCAACATCGCCATGGGAATCATGGCAGCAGCCCACCGCCACAACCTCAGGACAGGCGCCGACTTGGCACTCGTCGGCTACAACAACACAGCGCTCTCCTCCAGGCTCCCCACCCGTCTCACCCCGAGCCACGTCCACTTGGGCGAGTCCTCCAGATCACCCATCGACCTGATCATTGACCCCCACAATGAACCCCGCGTCGGGAAGCCCATCCCCACGCCCATTCCCCGCGCATCAAGCGGGACTCCAAACGGCAACGCCCTTAATCAACTCCAGGGCTCTGTGCAAATGGGAGTTGATGGGAAAGACTTTTGGAATGGCACTCACACCGCTGATCGAGCTGAACGATGGTAA	MVTGPSFTSSGIARLAGARAAIDEAGIETPEPWLLAAGYGIEDSFTAGSALLAGYTKKTPTAVFAANGNIAMGIMAAAHRHNLRTGADLALVGYNNTALSSRLPTRLTPSHVHLGESSRSPIDLIIDPHNEPRVGKPIPTPIPRASSGTPNGNALNQLQGSVQMGVDGKDFWNGTHTADRAERW	PGPT0017992_8951	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03546	831		COG0656	putative oxidoreductase/MSMEI_2347	ATGGCACTCACACCGCTGATCGAGCTGAACGATGGTAACCGGATTCCACAAATCGGTCTCGGCACCTGGCCGCTGGACGACCGCCAGGTGACGGATGCCGTCGTACAAGCAATAGAGGCCGGTTACCGTCACATTGATACCGCGGTGAAATACGGAAACGAAGCGGGAGTTGGGGAAGGGCTTCGCAGGAGTGCACTCGCACGTGAAGAGTTCTTCGTCACCACTAAACTGGACGGCGAATTCCAGGGCGGGGATAGGGCTATTGCCGGCCTCGAAGGTTCGCTGAGACGGCTGCAGATGGAGTATGTGGACCTGCTGCTCATCCATTGGCCGCTGCCCCGCAGAGGTGAATTCATCTCCACGTGGAAGACATTTGAGCAGTTGCAGGCCGATGGCAAGGCCCGCTCAATCGGCGTTTCGAACTTCAAGCCCTCACATCTTGAGCAGCTCATGCGGGCAACGGAGGTGGTTCCCGCCGTCAATCAAATTCAGCTCAACCCCTCAATCACCCGCACGGCCGATTGCGCCTACAACGAGCACCACGGCATTGTCACCGAATCGTACAGCCCACTGGGGGCAGGCTCGGGCCTGCTGTCAGCGCCGGTGGTGGGCCGGATTGCGAAGAAACATGGGAAAACGGAAGGTCAGGTGGTGCTGCGCTGGCACGTTCAACAGGGTCTGGTGACCGTCCCCAAGTCCGCAGATCCTCAAAGACTCCGGGAAAATATTGACGTCTTTGGATTCGCCTTGGACGCGGAGGATTTGATTGCCATGGAGACGCTGGATGAAGGGCCCGAGGCAGGAGTTAACTCGGATGTTCAAGGGCACTGA	MALTPLIELNDGNRIPQIGLGTWPLDDRQVTDAVVQAIEAGYRHIDTAVKYGNEAGVGEGLRRSALAREEFFVTTKLDGEFQGGDRAIAGLEGSLRRLQMEYVDLLLIHWPLPRRGEFISTWKTFEQLQADGKARSIGVSNFKPSHLEQLMRATEVVPAVNQIQLNPSITRTADCAYNEHHGIVTESYSPLGAGSGLLSAPVVGRIAKKHGKTEGQVVLRWHVQQGLVTVPKSADPQRLRENIDVFGFALDAEDLIAMETLDEGPEAGVNSDVQGH	PGPT0001320_1639	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001320-dkgA-K06221	NA	NA
D1-17_03547	264			hypothetical protein	ATGGGTTTTCTCGCATTTCTGATTCTGGGCCTGATTGCTGGAGCCATCGCTAAGGCGATCCTCCCCGGACGGCAGGGCGGTGGCATTTTGATCACGCTTGTGCTCGGTGTAGTCGGAGCTCTTCTCGGCGGCTGGATCGGCAGCGCACTCTTCGGCGTGGGAATCAACGAATTCTTCTCACTGTCCACTTGGCTGCTGGCCATCGGCGGGGCGATCATCGTCCTGCTGATCTACGGCATGGTCACCCGTCGCAGTGTCCGCTAG	MGFLAFLILGLIAGAIAKAILPGRQGGGILITLVLGVVGALLGGWIGSALFGVGINEFFSLSTWLLAIGGAIIVLLIYGMVTRRSVR				NA	NA	NA	NA	NA
D1-17_03548	444			hypothetical protein	ATGAAATCCAAACTTCTCTTCGGCGCCGGAATTGCCGCAGGCTACGTCCTCGGATCGAGGTCCGGCCGGGCAGCGTACGACAAGATCAAAGCCCGTGCCACGAGCATCTGGGACAGCAAGCCCGTCCAGGACAAAGTTACGGCGGCCACCGAAGTCGTTAAGGAAAAGGCGCCCGAGGTGGGCGACCAGCTTTCTGAGGCGGCGCGTCGGGCAGGAACCGTCCTGAGTTCGGCGATGCACCGCGACTCGTCCAAGTCCGGCAGCACGCCAGAAAGCGCTTCCAGCAGTGTGGAAGCCGACGGCGATGCCTCCGAGAGCGAGCATATCCCCGCTCACAGCACCCACCCGGAGACAGTGAATCTTGGGACTTCGGATGTTCCGTCCGGTGACGAGGGTGCCGCTGGTGCTGGTTCCGGAGCGCACACCGAAGGCAAGAGGCTCTAA	MKSKLLFGAGIAAGYVLGSRSGRAAYDKIKARATSIWDSKPVQDKVTAATEVVKEKAPEVGDQLSEAARRAGTVLSSAMHRDSSKSGSTPESASSSVEADGDASESEHIPAHSTHPETVNLGTSDVPSGDEGAAGAGSGAHTEGKRL	PGPT0015027_142	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA	NA	NA
D1-17_03549	555			hypothetical protein	ATGAAAACGAACTGGGGGACGCGGTACAAGTGCAGCGGGGCAGGGCGCAATGCCGCCCCGCTCATCCGTGCCTTGAGCAGCGTTACTGCTTCAGGAAATTCTTGTCCTGAAGCAGATTCCAGCACCGCCGTTGAGGACACTCCTTCGTCCGACGGCGGTGCTTTCGTTAATTTGCGGCGTTGCCTTGAGGCCGTGGAGGCCGCTGTTGATTCCGCTCCTGCTGCTTTGGCGCTGGAGGGTTCGGTAAAGGGTTTCGGTAAGGGCCCCGGCAGCGAACCCGGCACCGAAGTCGCGGCAGCATCCGGAACCGCGGCAACTGGAGCGCCTGAGGCAACGGACGTGGATCCGGCCGACGGCGGACCCGCCAACACCGACAACGGCGTCCGGCTCTGCATCCACAAGGAACACTGGCAAATCCACTGCCAAACAGACTTCACGGGCCAAGCTGCCTATGGCCGAAGCCCCACAACCACAGTGGCGTCGAGGTCCTCCGACTGCACGATCCGGGGTATGAGCCCACCGCTTACGACGGCCGCCGCGGTCCGCCTGGCCTGA	MKTNWGTRYKCSGAGRNAAPLIRALSSVTASGNSCPEADSSTAVEDTPSSDGGAFVNLRRCLEAVEAAVDSAPAALALEGSVKGFGKGPGSEPGTEVAAASGTAATGAPEATDVDPADGGPANTDNGVRLCIHKEHWQIHCQTDFTGQAAYGRSPTTTVASRSSDCTIRGMSPPLTTAAAVRLA				NA	NA	NA	NA	NA
D1-17_03550	897	prmC_3	COG2890	Release factor glutamine methyltransferase	ATGCCACCTGATTCCCCGTCCCTTTCCGCCGTGATTACCCGGTTACGTACCGCAGGCTGCGTGTATGCGGAAGAGGAAGCAGTGCTCCTTATCGCCGCTGAGTTCACCGCTGAGCAGCTGGCCGATGCCGTTGAGCAGCGCAGTGCGGGTTTTCCCTTGGAGCACATTCTCGGCTGGGCCGAGTTCTGCGGTCTCCGGATTGCTGTCGAGCCAGGGGTCTTCGTTCCCCGGCGCCGCAGCGGGCTCCTGGTGAGTGAGGCCGCCCGGATCCTTGGGATATCAATGGCGGCAGTGCAGGCTTCAGCCGCGAAGGCTTCGACCGCGGAAGTTTCCGTGCCGGCCGCCTCCGGTGCGAGTGGACCAAGTGTGGGGGCAGCCGGTGCACGTACATCCGGTGCGCTAGTAGTGGACCTTTGCTGCGGATCCGGGGCGGTGGGGCTGGCACTGGCAAGGCTTGCGCCGGGAATCGAGCTGCACGCCTCCGATATTGACACCGCTGCAGTGCGGTGTGCCCGGCGCAATGTTCTTCCCGCTGGCGGCGATGTTTATGAAGGGGATCTGTACTCCGCCCTGCCTGGCCGGCTTAGGGGACATGCGGACATCCTGGCCGTCAACGCGCCCTACGTTCCCACCGGGTCCATCGGCTGCATGCCTTTTGAGGCCCGGGTCCACGAACCCCGGGTTTCCCTGGATGGTGGACCTGAAGGGCTTGACATTCAGCGAAGAGTGGCCGGCGATGCCCGCTCCTGGCTTCGCCGAGGTGGTCATCTGCACATAGAGACGAGCCGGCATCAGGCCAGGCGGACCGCGGCGGCCGTCGTAAGCGGTGGGCTCATACCCCGGATCGTGCAGTCGGAGGACCTCGACGCCACTGTGGTTGTGGGGCTTCGGCCATAG	MPPDSPSLSAVITRLRTAGCVYAEEEAVLLIAAEFTAEQLADAVEQRSAGFPLEHILGWAEFCGLRIAVEPGVFVPRRRSGLLVSEAARILGISMAAVQASAAKASTAEVSVPAASGASGPSVGAAGARTSGALVVDLCCGSGAVGLALARLAPGIELHASDIDTAAVRCARRNVLPAGGDVYEGDLYSALPGRLRGHADILAVNAPYVPTGSIGCMPFEARVHEPRVSLDGGPEGLDIQRRVAGDARSWLRRGGHLHIETSRHQARRTAAAVVSGGLIPRIVQSEDLDATVVVGLRP				NA	NA	NA	NA	NA
D1-17_03551	420			hypothetical protein	ATGGAAAACCACCCGCTTATCTGGACTGGCTCCTACACATCCGACAGTGGCGGACACGGTGCCGGAATAGGAGCCATCTCGGCCACTCCGGACGGAACCCTCATCTGGCGCGGCACCGCCGTGAAGGCTGACTCGCCGTCGTTCCTTGCCGTCCATCCGTCCCTGCCCCTCGTTTACGCCGTCGGTGAGAGCACGCAGTCCGTACAGGCCTACCGCCGGCGCGGCGAGTACGGGCTGGAGGCGATCGGTGAGCCATGGCCTGCGGGCGAAGCTGCCTGTCACGTTGCCGTCAGCCCCGAAGGAAAGTTCCTCATCGTCGCGTGCTGGGGTGACGGCCAGGTGCTGCTTTTCGAACTGGACGCCGACGGGCGCGATCAGCTCGCGCTTTTCGGCGGCGCCCTCGGCGGATCCCCACGGTAG	MENHPLIWTGSYTSDSGGHGAGIGAISATPDGTLIWRGTAVKADSPSFLAVHPSLPLVYAVGESTQSVQAYRRRGEYGLEAIGEPWPAGEAACHVAVSPEGKFLIVACWGDGQVLLFELDADGRDQLALFGGALGGSPR	PGPT0014975_2127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014975-ykgB|pgl-K07404	NA	NA
D1-17_03552	579	pgl_2	COG2706	6-phosphogluconolactonase	ATGCTCGCAGACGGCCGGGTCATGACCACAGACCTGGGCCACGACCTGCTGCGCGTCTGGACGTATACAGCAGGAGCCGGCCTCACAGTGGATCACGAAGTAGTGTTGCCCAAGGACAGCGGCCCCCGGCACCTGGTGCAGCGTGCGGATGGCACCGTACTCGTCGTCACCGAATATTCAATCGAGGTGTTCGCGGTGGGGACTGATCCAGAATCCGGACACTTCGAATTCGTCGGCCGATCACCGGCCACGGCTGGCGGGGCAAAGGAAGGCGACTCAGCCGCTGAAATTGCCCTGTCTGCTGACGGGAAGCGCGCATATGTGGGGGTCCGCGGTTCCAACCGGATCTCTGTGCTCGATGTGGACGGCGCCCCCGAGATCGTGCGTCCTCTCATGGACTGTGCCAGTGGCGGCGACTGGCCGCGCCATCACCTGGTCCGTGAAGGATGGCTGCACGTCGCCCATGAGCGTTCTCATGACGTAACCACCTCCCGTCTGGACCCAGACACTGGCCAGCCCGGGGAAGTTCAATACCGGCTGATTACGGGTTCCCCTACAGCGCTTGTTATGGCAGGCTAA	MLADGRVMTTDLGHDLLRVWTYTAGAGLTVDHEVVLPKDSGPRHLVQRADGTVLVVTEYSIEVFAVGTDPESGHFEFVGRSPATAGGAKEGDSAAEIALSADGKRAYVGVRGSNRISVLDVDGAPEIVRPLMDCASGGDWPRHHLVREGWLHVAHERSHDVTTSRLDPDTGQPGEVQYRLITGSPTALVMAG	PGPT0014975_2127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014975-ykgB|pgl-K07404	NA	NA
D1-17_03553	2892			hypothetical protein	ATGTTCTCCTACCCTGCCCACGGATACTCGCGACCACGGGCGGTTGGCCCTGAGGGCCGGGCCTTCACCACGATGTCCCGCACGCTCGCGGTGGCTGCTTCCGCCGCCGTGCTGGCGGGATCCGGACTACCTGCCCAGGCGGCCCCGGATGGCCGGTCGGCTCCTGAGATGCAGACGGTGCAGGGTAAGTCGGCCTCGTCGGGGACAAAGAACGCCGGGTCAGCCGGCGAGCCGCCGTCGGGCCTGCAGTCCCTGCGAGCGCCGGTGAGCAATGAGAACTTCTACTTCGTCATGGCCGACAGGTTCAGCAACGGAAGCACCGCCAATGACGACGGAGGTCTGGGAGCTGATCCGAACGTGTCCGGCTTCGACCCGACACGCAAAGGATTCTTCAATGGCGGTGACCTGAACGGGCTACTGAACAAGATCGACTACATCCAGGGCCTGGGCACCACCTCCATCTGGCTGACACCCAGCTTCAAGAACAAGGCCATGCAGCCGGAGGACAAATCTGCTGGGTATCACGGCTACTGGGTCACCGACTTCACCCAGATCGACCCGCACCTGGGAACGAACGCCGAGCTGAAGAAGCTCATCGACGAAGCCCACTCGCGCGGCATGAAGGTGTACTTCGACATCATCACCAATCACACGGCAGACGTGATCGGGTACGAGGAGGGTGCCCGTGCCAGCTATGTGTCTAAGGACCAGGTCCCGTACCGTACCGACGATGGAGTCGCCTTCGATGACCGGGACTACGCCGGGGCGGCAAACTTCCCGAAGCTGGATGCAAAAACCTCGTTCCCGTACAAGCCAGTTCTGCAACCCGGAGAGGAAAACCTTAAGGTGCCCTCCTGGCTCAACGATCCCAGGCTCTATCACAACCGCGGGGACACCACCTTTGCAGGGGAGAACGCTCTCTACGGCGATTTTTTCGGTCTGGATGACCTCTTCACCGAGCATCCCGCCGTCGTAAAGGGCATGACTGATGTCTACAAGATGTGGATCAAAGACTTCGGCATCGACGGCTTCCGGATCGACACCATGAAGCACGTCAATGACGAGTTCTGGCAGAAGTTTGGCCCTGAGGTCCTCGGCTACGCCAGCGAACAGGGCAAGGACGAGTTCTTCATGTTCGGCGAGGTCTTTGATACGACAAAGAGCTTCACGTCCCAGTTCACCACCCGGAACAAGATGCAGGCGGTGCTGGACTTCCCGTTCCAGGACGCGGCGCGAAACTTTGCCTCCCGCAGCCAGCACGCGGGTCAGCTGGAGACGTTCTTCGCCGGGGATGACTGGTACACCGATGCCGACTCCAACGTCTACCAGTTGCCTACCTTCCTCGGGAACCACGACATGGGCCGCATCGGCAGCTTCATCACCACGGACAACCCGGATGCGGACGACGCCGAACGGGTTGCCCGCGATGAGCTCGCTCACGAGCTCATGTACTTCTCACGGGGAAACCCCGTGATCTACTACGGCGACGAGCAGGGCTTCACCGGCCCCGGCGGCGACCAGGATGCGCGGCAGACGCTGTTCGCCAGCCGGGTACCCGAATACCTCGACGACGATCTGCTGGGCACTGACGCAACGCACAAAATTGACAACTTCAACACCGGGCACCCGCTCTACCGCAAAATCAGTGAGCTGGCTAAGCTGACGAAGGAGCACCCCGCCCTGCGCACTGGCGCACACCAGCACCGCTACGCCTCCAACGGCCCGGGCATTTACGCTTTCTCCCGTACCGATGCCAAGGACCAGCGGGAGTACGTGGTGGCACTGAACAACAGTGAACAGCCTCAGACTGCGGCCATCCCCACCTTCATCACCAAGCGCAACTACAGCCTTGTCTACGGTGACGCTGCTGCTGAGGCCAAGACGTCAGTGGACGGCAAGCTGAACGTTACGGTTCCGCCGCTGTCCGCCGTCGTCTACAAATCCTCGGGCAGGATCCCACACTCCACGTCAGCCCCCGCCGTGTCACTGCAGGCGCCTGCCCCGGCAACGGCCACAGCCAGCACGCCCGGTGACAACGGCCGCATGCAGGTAACGGCCGACGTCGGCGGTACTTCGTTCTACCAGGTCACTTTCCAAGCGAAGGCACCGGGCGGACGATGGGAGTCCGTCGGCACGGACGACTCCGCTCCCTACCGGGTCTTCCATGATGTTGCCTCGCTGCAGCCGGGAACACCCCTCGAGTACCGCGCAGTCGTCCTCGATAACGGCGGCCACAGGGCCACCAGCGGCGTCCGCAGCGCAAGGGTCCCCGCGCCGGTGCTGACTATTCAGGAGCCGAAGGAAGGCGCCTCTGCCAGCGGCAAGGTGAAGGTGACAGCCGCCGCGGATCCGGAAAAGGCCAGCCACGTAGTGCGCTTCGAGCGGCGCGTCGCAGAGGGGGAATGGACGGTGATCGGCGCGCCGGATACATCCTCTCCCGAGTACACCGTGGTGGACGATCTCACAGATACCCCTCATGGCACCGCAGTCAGCTATCGGGCGAGGCTGAGCGGACCCGGATACACCACGACCAGCAGCGTCCGGACTGTGACGGTGGGAACCCTTGCCGTGCAGCAGCCTCGATCCGTTACCGTCGCAGGTGACTTCAACAAAGTGATGGGCTGTCCAGAGGACTGGCAGCCCGATTGCGAATCCGCGTTCATGGCGCTGGATCCGGCAGACAACATCTGGAAGCTGACAGCCGGGCTGCCCGCAGGCAAGTACCACTTCAAGGCCGCCATCAACGGTACCTGGGATGAGAACTACGGCCAGGGAGGAGCCCGCGGCGGCACGGACATCCCGCTGGATCACGACGGCGGACAGGTCACCTTCCGCTACGACCACAGCACGCACCTGTTACAGCGGGCTGAGACCGCCCTTACACCTGACTAA	MFSYPAHGYSRPRAVGPEGRAFTTMSRTLAVAASAAVLAGSGLPAQAAPDGRSAPEMQTVQGKSASSGTKNAGSAGEPPSGLQSLRAPVSNENFYFVMADRFSNGSTANDDGGLGADPNVSGFDPTRKGFFNGGDLNGLLNKIDYIQGLGTTSIWLTPSFKNKAMQPEDKSAGYHGYWVTDFTQIDPHLGTNAELKKLIDEAHSRGMKVYFDIITNHTADVIGYEEGARASYVSKDQVPYRTDDGVAFDDRDYAGAANFPKLDAKTSFPYKPVLQPGEENLKVPSWLNDPRLYHNRGDTTFAGENALYGDFFGLDDLFTEHPAVVKGMTDVYKMWIKDFGIDGFRIDTMKHVNDEFWQKFGPEVLGYASEQGKDEFFMFGEVFDTTKSFTSQFTTRNKMQAVLDFPFQDAARNFASRSQHAGQLETFFAGDDWYTDADSNVYQLPTFLGNHDMGRIGSFITTDNPDADDAERVARDELAHELMYFSRGNPVIYYGDEQGFTGPGGDQDARQTLFASRVPEYLDDDLLGTDATHKIDNFNTGHPLYRKISELAKLTKEHPALRTGAHQHRYASNGPGIYAFSRTDAKDQREYVVALNNSEQPQTAAIPTFITKRNYSLVYGDAAAEAKTSVDGKLNVTVPPLSAVVYKSSGRIPHSTSAPAVSLQAPAPATATASTPGDNGRMQVTADVGGTSFYQVTFQAKAPGGRWESVGTDDSAPYRVFHDVASLQPGTPLEYRAVVLDNGGHRATSGVRSARVPAPVLTIQEPKEGASASGKVKVTAAADPEKASHVVRFERRVAEGEWTVIGAPDTSSPEYTVVDDLTDTPHGTAVSYRARLSGPGYTTTSSVRTVTVGTLAVQQPRSVTVAGDFNKVMGCPEDWQPDCESAFMALDPADNIWKLTAGLPAGKYHFKAAINGTWDENYGQGGARGGTDIPLDHDGGQVTFRYDHSTHLLQRAETALTPD	PGPT0018575_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
D1-17_03554	2211	malQ	COG1640	4-alpha-glucanotransferase	ATGAAGGCTTCCAGCCAGCAGTACGAGCCCGCTTCGGGAGCGGCGGCACCACTTTCCGAAGCTTCAGTATCTTCCGGTGCTCCCGTGAACCGCGAGCTGCTGCACTGGCTCGCAGACGCGCACGGCGTGGGAACCACCTACCAGGGCTGGGACGGGCTGCCGCACGAGGTTGCCCCGGACACCCTGATCCGGGTCCTGGCGGCGCTGGGAGTGCAGGCGGGGACCGATGAGCTGATCGAGAAAGCCCTCGCTGATGCCGAACTGGCGCCCTGGCGGCGGGTGCTGCCTCCCGCCGTCGTGATGCAGGAAGGGGAGCCGGCGCAAGTGCCGGTCCACATCCCGGCCAGCTCCACCGCCCGGGTGACTGTGATGACCGAGGACGGGCGCAAGCTCGACGCCGTGCAGCAGGAGCACTTGACGGAGCCCCGTGACGTGGATGGCATCACGGTGACCCGCTCCATATTCCAGCTTCCGGGAAGCATGGGCCTGGGCTGGCACACTGTACGGGCGGAATCGGAGGGCCAGGTTTCCGAAGCTACCCTCGTGGTGGTGCCCTCGCGGCTCACCACAGCGGCGCAGCTCGAGGAGCGCCGGGGATGGGGCCTGGCCACGCAGCTGTATTCCGTGCGGTCAGAGCGCTCCTGGGGGGTTGGCGACTTTGCAGACCTGGCCGACCTCACCGCTCTTGCCGGCGCCCGCGGCGCTGACTACGTGCTCGTGAACCCCCTGCACGCTGCCGATCCCGTGCCGCCCGTGGAGCCTTCGCCGTATTCACCCTCCACCCGGCGTTTTTTCAACCCCCTATACCTGCGGATCGAGGCAGTGCCGGAGCTGGCATACCTGAAGCCAAAGAAGCAGCTCGCCATTCACGACCTCATGAAACAGGCGCGGAAGCTCAACGAGGACGGCTCGCGAATCGACAGGGATGCCGCCTATGCCGCGAAACTGGCGGCGCTGGAGCTGCTGTACGGAGTCAAGCGCTCGCCGGCCCGCCAGCGCGCCTATGAGGACTTTTGCCGGACGGCCGGCCCGGGACTGAATGACTTCGCCCTGTGGTGCGCGATCCGTGAGGACATCGACGCCGACGATCCGTTCTGGACGGATCCTGCCGCCGCACCGGGATCCCCGCTGGTGGAAAAGCTGCGGGTGGAGCTTGACCACCGGATCGGCTTCCACCGCTGGCTGCAGTGGCTGTGCGACGAGCAGCTGGAATCCGCGCAGACTGCTGCCACCCGCGCCGGAATGCGCCTCGGCGTGGTGCACGACCTTGCCGTGGGCGTGGACCTGCAGAGCTCCGATGCGTGGACGCTGCAGGGTGTTCTCGCTCCCGGCGTGAGCGTCGGCGCCCCCCCGGACATGTACAACCAGCTGGGACAGGACTGGCACCAGCCGCCGTGGCATCCCACCCGCCTGGCAGAGGCCGGCTACCGTCCGTTCCGGGAAATGTTGGCAACGATTCTGCGGCATTCCGGCGGGATCCGGGTGGACCACATCCTGGGCTTCTTCCGGCTCTGGTGGATACCGGCCGGCAATACGCCGGGGAACGGCGCTTACGTCCGTTTCGACCATGACGCCATGATCGGAATCCTGGCACTCGAGGCCCAGCGCGCGGGCGCGGTGGTGATTGGCGAGGATCTGGGCACCTTCGAGCCGTGGGTCCGTGACTACCTTGCTGCCCGCGGCGTCCTCGGCACCTCCATCCTCTGGTTCGAGAACGACGGCGATGTCCCCCTTCCGCCGGAAAAGTACCGCGTACAGGCTCTTTCGAGCGTGAACACGCACGACCTTCCCCCGACGGCGGGCTATCTGGCGGGCGACCACGTGACGCTGCGCAGCGGGCTGGGCCTGCTGCAGCGGCCGGCCGAGGAAGAGCGCCTCGAACACAATGCCAAGCTCGACAAGATGATGCACCTGCTGCAGGAGCGGGGACTGCTTCCGGCCGGCGATACCGGCAGTGAGGAGGAGAGGATCGAGGCGCTGCACCGCCTGCTGGCGCAGACGCCGTCCGTCCTGCTGGGCGTGGCCCTCGTTGACGCCATTGGGGAGCGCAGGGTTCAGAACCAACCGGGAACAACCTCGGCGCAGTACCCCAACTGGCAGGTGCCCTTGGCGGATTCGGACGGTGACCCGGTGCTGCTGGACAGCCTTGACAGCAACGAAAGGTTCAACTCGCTCCTTGCTGCCGTGGAGGAGTCGGTCCGGGCCCACTAG	MKASSQQYEPASGAAAPLSEASVSSGAPVNRELLHWLADAHGVGTTYQGWDGLPHEVAPDTLIRVLAALGVQAGTDELIEKALADAELAPWRRVLPPAVVMQEGEPAQVPVHIPASSTARVTVMTEDGRKLDAVQQEHLTEPRDVDGITVTRSIFQLPGSMGLGWHTVRAESEGQVSEATLVVVPSRLTTAAQLEERRGWGLATQLYSVRSERSWGVGDFADLADLTALAGARGADYVLVNPLHAADPVPPVEPSPYSPSTRRFFNPLYLRIEAVPELAYLKPKKQLAIHDLMKQARKLNEDGSRIDRDAAYAAKLAALELLYGVKRSPARQRAYEDFCRTAGPGLNDFALWCAIREDIDADDPFWTDPAAAPGSPLVEKLRVELDHRIGFHRWLQWLCDEQLESAQTAATRAGMRLGVVHDLAVGVDLQSSDAWTLQGVLAPGVSVGAPPDMYNQLGQDWHQPPWHPTRLAEAGYRPFREMLATILRHSGGIRVDHILGFFRLWWIPAGNTPGNGAYVRFDHDAMIGILALEAQRAGAVVIGEDLGTFEPWVRDYLAARGVLGTSILWFENDGDVPLPPEKYRVQALSSVNTHDLPPTAGYLAGDHVTLRSGLGLLQRPAEEERLEHNAKLDKMMHLLQERGLLPAGDTGSEEERIEALHRLLAQTPSVLLGVALVDAIGERRVQNQPGTTSAQYPNWQVPLADSDGDPVLLDSLDSNERFNSLLAAVEESVRAH	PGPT0018570_476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
D1-17_03555	381			hypothetical protein	GTGAAGCCCACACTCTCAGAACCAGTTGCTAGTGTGGGGGATATGAAATTTCGCCTTCCCGCCGTTGTCCTGGTTCCTGCACTGCTTTTGGTGGCTGGTTGCAGCCAGGCGGAGGAAGCGGTACAGAACGCTGCGAGTTCAGCCGCATCGGGCGTTGCCAACGCGGCGGCAGAGCAGGTGAAGGGCCAAATCTGCACGTTGCTGGAGGACGGCGTGGTCAGCGCCTCGGACAAGGCGGTGCTCAGCGGACTGGTAGCCGGCGCGGAAACCGCAGGTCTCCCGTCGGAGATCACCAACCCCCTGAAGGAGATCGCCGAAGCCGGCGATGCCGTGCCGGGTGAGTCCGTGAAGCAGCTGCAGGAGGCCTGCGCGCCGGCCTAA	MKPTLSEPVASVGDMKFRLPAVVLVPALLLVAGCSQAEEAVQNAASSAASGVANAAAEQVKGQICTLLEDGVVSASDKAVLSGLVAGAETAGLPSEITNPLKEIAEAGDAVPGESVKQLQEACAPA				NA	NA	NA	NA	NA
D1-17_03556	744	kdgR_2	COG1609	HTH-type transcriptional regulator KdgR	ATGGCCCGCGGCATTGCAGTCTTCGCCGCCAGCCTCGACGACGACCCGGAGCGTGAGAAGGCCCTGGTGGCCGCGTTCCTGGGCCGGCGCGTCGATGGCCTGGTCCTGACGCCTATCGCCAAAAGCCAGTCCTACGTTGTCCCAGAGCATTCCCGGGATCTGCCCATGGTGTTTATCGACCGCGAACCGGTGGGTATCGAGGCGGACGCTGTGGTGACGGACAACGCTGTCGGAGCAGCCAAAGCCGCCGCGCACCTGATCGCCCGCGGCCACACAAAACTTGCCTACCTGGGAGACCGGGTGGACATCCAGACCGCCCGCGAACGCAGGCGCGGCTTCGTGGAAGAGCTCGGACGCGCCGGCATACCGACCTCAGCGGTCCCTGTTATTGAAGGGCTCCATGGTGAGGAATCTGCGCGCCTGGCTGCCTTGGAGTTGCTCCGCTCCGGGAACCCGCCGACGGCCATCTTCTCGAGTCAGAACCTTGTCACGTTCGGCGTGATGCGCGCCTTAAAGGAGCTGGGCGTCAGCAGAGACGTAGCGCTCGTCGGATTCGATGACTTCACCCTCGCCGACATGATGGACCCGGGCATCACCGTTATTGCGCAACATCCCGGGCGGATCGGCAAACTCGCCGCCGAGCGGCTCCTGGCCAGGATCGACGGCGACACCCAGGCCCCGCAGACGTATGTGGTTCCGTCAGAGCTGATAGCACGCGGATCAGGAGAGCTGCCGCCCCGCTGA	MARGIAVFAASLDDDPEREKALVAAFLGRRVDGLVLTPIAKSQSYVVPEHSRDLPMVFIDREPVGIEADAVVTDNAVGAAKAAAHLIARGHTKLAYLGDRVDIQTARERRRGFVEELGRAGIPTSAVPVIEGLHGEESARLAALELLRSGNPPTAIFSSQNLVTFGVMRALKELGVSRDVALVGFDDFTLADMMDPGITVIAQHPGRIGKLAAERLLARIDGDTQAPQTYVVPSELIARGSGELPPR	PGPT0017992_13026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03557	363	purR_4		HTH-type transcriptional repressor PurR	ATGGCAACGATGTCTAGTGCTGCCCGAACGGATGCGCCTAAAACTCGGCCCACCATGCGCCACGTAGCTGCCCTCGCCGGCGTGGGCATTAAGACCGTCTCCCGCGTGATGAATGATGAGCCGGGCGTCTCCGAGGCTATGCGGAAGCGGGTCCTGGGCGCGTCCCGGCAGCTTAACTACCAGCTGGACACGGCCGCAGGCAGCCTTCGCCGTGCCGGCCGGCAGACTCTCTCCATCGGGCTTCTGCTGCCGAGCGTGGCGAACCCGTTCAGCTCCGGAATCCACCGGGGCCCTCGAAGATACGCTGATGGCCCGCGGCATTGCAGTCTTCGCCGCCAGCCTCGACGACGACCCGGAGCGTGA	MATMSSAARTDAPKTRPTMRHVAALAGVGIKTVSRVMNDEPGVSEAMRKRVLGASRQLNYQLDTAAGSLRRAGRQTLSIGLLLPSVANPFSSGIHRGPRRYADGPRHCSLRRQPRRRPGA				NA	NA	NA	NA	NA
D1-17_03558	957	RBKS_5		Ribokinase	GTGCTCAAGACCCACCCCGGCACTCCCGCGGCAAACCCGGACGTCATCGTCATTGGTGAAGCACTCATTGACGTCGTGACCTCCCCCGCCGGCACCATCGAGCACCCCGGCGGCTCACCCGCAAACGTCGCCTATGGGCTGGGCCGCCTCGGTGTTCCCACGGCCCTCCTCACGTCAATCGGCGACGACGACCGTGGGGCGGCGATTTCAGCCCACCTGGCCGGCGCCGGCGTCGAGCTTCTTCCCGGTTCCAGATCCGAAGGCCGCACTGCCTCCGCCACAGCCACCCTCGCCGCCGACGGATCCGCACGCTACGACTTCGACATCAGCTGGGAACTCCAGCCGGTGGCTCCCGCTTTCCTTCCCAAGGTCCTCCACACCGGCTCGATCGCCACCTTCCTGGCACCCGGCGCCGCAGCCGTCAAAACGCTCCTGGAGCAGTCCCACCGGGAATGCACCGTCACCTACGACCCCAACGTCCGCCCCGCGCTCCTGGGCAGCCACGCCGAAGCACTCACCATCTTCGAGGGCCTGGTCCCGCTGACCGACGTGGTCAAACTCAGCGATGAGGACGCCCGGTGGCTCTACCCTGGGCTGGCCCTCGAGGACGCCGCCGCCAGGATCCTCGAACTCGGCGCCGGACTCGCCGTCGTCACCCGGGGCGCGGAAGGCTCCCTGCTGGCAACGCCCGCCACCAAGCTGCACATCCCTTCCATCACCTCCGTAGTGGCCGACACCATCGGAGCCGGCGACTCATACATGGCGGCGCTGATTTACGGGTTGCTGGCCCGAGGGGCCGACGGCCTGGCACCCGCAGTGCTGGAAACCCTCGGACGGACGGCGTCGAAGGCCGCCGCGATCACGGTCCGGCGGCCCGGCGCCAACCCGCCGACAGTTGGCGAGCTGCTCGCGGATCTACCGGAGGGAATCTCAGCCCCTGCTTCTGTGGTTGGGTGA	MLKTHPGTPAANPDVIVIGEALIDVVTSPAGTIEHPGGSPANVAYGLGRLGVPTALLTSIGDDDRGAAISAHLAGAGVELLPGSRSEGRTASATATLAADGSARYDFDISWELQPVAPAFLPKVLHTGSIATFLAPGAAAVKTLLEQSHRECTVTYDPNVRPALLGSHAEALTIFEGLVPLTDVVKLSDEDARWLYPGLALEDAAARILELGAGLAVVTRGAEGSLLATPATKLHIPSITSVVADTIGAGDSYMAALIYGLLARGADGLAPAVLETLGRTASKAAAITVRRPGANPPTVGELLADLPEGISAPASVVG	PGPT0017625_2706	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017625-scrK-K00847	NA	NA
D1-17_03559	555	rutB		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGATCGCACTTCTGATCATCGACATGCAGAACGCCTATTTCGAGGATCCCGGGCTGGCTCCTCGGCAGGATGAGCTGGTCCGGGCCTGCAATCGGCTTATCAGTGACTTTACCGGGAAGGGGGCGAAAATTCTGCTGGTGGGCACCGAGCACGAACGGGACAAGTCCACCTGGTCACTGAACATGCTGGAGGACGATCAGGGTTTCATCTTCCGGGGGTCCGAGCAGGCAAAGTTCGTCCCCGGCCTGGAAGCAGACGGGCTGCCCCGGATGATCAAAACGCGCGACAGCGCCTTCACCGGGACCGACCTCATTGCCCGGCTGCGGAACTGGGGTGCCGAGGAACTGGTGCTCGCGGGTGTCGCGACGCATAACTGCATCGCCCACACCGCGGCCGATGCCTTCGCACACAACTTCCGCGTCATCTACGCCGAGGAAGCCATGGCATCGGGCAACGAGCAGGCGGCGGCGGACATGCTGCGCATTCTGACCGACGAATACCGCCAGCCCGTGCTGTCGACGGACGATATAGGGAAACGCCTGGACGGCATCTGA	MIALLIIDMQNAYFEDPGLAPRQDELVRACNRLISDFTGKGAKILLVGTEHERDKSTWSLNMLEDDQGFIFRGSEQAKFVPGLEADGLPRMIKTRDSAFTGTDLIARLRNWGAEELVLAGVATHNCIAHTAADAFAHNFRVIYAEEAMASGNEQAAADMLRILTDEYRQPVLSTDDIGKRLDGI	PGPT0013445_453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
D1-17_03560	1422	hemA_2	COG0373	Glutamyl-tRNA reductase	GTGTCAAAAGGTCTTAAAGGCGCGCGTCCGGAAGGGCGTGCGGGCGGGCAGGCTGCTCCGGCCGGCCAATTGTTTGCGCTCGTGGCGTCCCATCGTTCCACCGGTCTGAACTTCCTTGCCCGGCTGGGCTCCGGCTCCCGGCGAATCACGTCCACAGCCCTGGCCGCCTTACCGGATGTATCCGGGGCCGTGGTGCTCTCGACCTGCAACCGCTTTGAGGTCTACCTTGAGACCGCAGCGGGATCTGCCCCGGGTGCTGCGTGCGACGGCGTCATTTCAGTCATCAGCAGCTGCTCAGGCCTTCCCGAAGGCGAACTCAGCGGATCCCTGGAGTTCCTGGCCGGCCACGACATGACCGAGCACCTCTTTGCAGTGGGGGCCGGCCTCGATTCGGCGGTCGTCGGCGAGCGTGAAATCGCGGGCCAAATCCGGCGGGCCCTGGCGGCGGCACAAGAGACGGGTACCGCAGGCGGCGGGCTGATCCGGCTGTTCCAAGCGGCATCCCGCGCGTCACGGGAAGTTGGTGCTTTGACGAAACTGGGCGACGCCGGCCGCTCCATGGTTTCAGTGGCCTTGGACCTGGCCGCAGCCAAGCTGGGCTGCGGCGGCACGGCCGGGCTGTCGGTGGTGGTGGTCGGCACGGGTGCCTACGCCGGATCCACCCTGGCGCTGCTGGCCGCCGGGCACTGCTCCAACGTGTCCGTTTTCTCCTGGTCCGGCCGTGCCGAGGCCTTCGCTGAGGCCCGCGGTGCTGCTGCCCTGTCACAGGCGGACCTGCCGGCCGCCATCCGGAACGCGGACCTGGTGGTCGGCTGCAGCGGACGCGGACCGCGTCTGGGAACGGGCGAGTTCAGGCGCTGGCGGAAGGGCGCGCAAGGGCGCCTCGTCGTCGTCGATCTGGCCTTGAGCCGGGACTTCGATCCGGAGACCGGGAACATTCCGGGGATCGACCTGATCACGCTCGACGACGTGCGGCTGGCAGCACCGAGCGAGCACTCCGCCGTGGTTCAGCAGGCCACTGTGCTGGTCCGGCAGGCATCCCTTCGGTTCGAGGAGGAGCGGCGGGCCCGCCAGATGGATTCCGCGATTGTGGCCCTGCGGGGTCACATGCAGCAGGTGCTCGCGGGCGAGATGGAGCGGATCCGGAACCAGCACGCCTGCCCGGCCACGGCCGAAGCCGTGGAGTTCGCGGTGCGCCGCGTGGTTCGCCAGCTCATGCACGTGCCCACGGCGCGGGCGCGGGAACTGGCAGCCGCGGGCCGACATGGTGACTACACTGCAGCGCTTGAAGCGCTCTATGGCCTGAATATAAAACCGGCAGACTCCGTTGATCCGGCAGACCCGGATGTGCTCGGGCGGCAAACGCTCACGGACTCCGCCCCGGGCTCCGCGAGGGAAAGCCTCGCAGCGCGTGCGAGCTGA	MSKGLKGARPEGRAGGQAAPAGQLFALVASHRSTGLNFLARLGSGSRRITSTALAALPDVSGAVVLSTCNRFEVYLETAAGSAPGAACDGVISVISSCSGLPEGELSGSLEFLAGHDMTEHLFAVGAGLDSAVVGEREIAGQIRRALAAAQETGTAGGGLIRLFQAASRASREVGALTKLGDAGRSMVSVALDLAAAKLGCGGTAGLSVVVVGTGAYAGSTLALLAAGHCSNVSVFSWSGRAEAFAEARGAAALSQADLPAAIRNADLVVGCSGRGPRLGTGEFRRWRKGAQGRLVVVDLALSRDFDPETGNIPGIDLITLDDVRLAAPSEHSAVVQQATVLVRQASLRFEEERRARQMDSAIVALRGHMQQVLAGEMERIRNQHACPATAEAVEFAVRRVVRQLMHVPTARARELAAAGRHGDYTAALEALYGLNIKPADSVDPADPDVLGRQTLTDSAPGSARESLAARAS	PGPT0003650_241	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
D1-17_03561	1137			hypothetical protein	ATGGACTCCAGGCAAGATCGAACCCACCGTCCCTTCCGCCTCCTCGGGGTGATCGCAGCCGCAGCGGTGCTCGCCGCGGCCACCGGATGCACAGGCTCCAGCCAAGGCCCGGAGCCCGGTGCCGCCCAGCCTCCCGCCGCGCAGTCCCCCGGCGGCACTCCACCGGGCGGGACGCCGGCAGGCGGAACGCAGGGGCACCCCGGGCCGGCGGCTTCCGCCCAGGCGATTCCGCAGGGTCCTGCGGATATCCCCTCGATCGTCACCAATGTGCAGCCTTCGGTGGTGACTGTGTTTACGGGCCGCGGCGGTCTGGGCAGCGGCGTGGTGTATTCAGAGGACGGACTGATCCTGACCAACGAGCATGTGGTGCGCGGGAGCCGGAACGTCGAGGTGGGCTTCGCGGATGGCCGGAGGGTGGCCGGCAAGGTGCGGGCCACGGACGAGATCTCGGACCTTGCGCTCGTGGAGGCCGAGCGGACAGGCCTCCCGGCCGCCAAGTTCCAGACCGACCTGCCCCGGATAGGCGAACTCGCCATCGTCATAGGGTCGCCGCTGGGGTTCGAAAACACAGTCACGTCCGGCATCATCTCGGGACTCCACCGCGAAATCCCCGGCTCGGCGTCGAGCAGCCAATCCCTTGTGGACCTGATCCAGACCGATGCTGCGATCAGCCCCGGTAACTCCGGTGGAGCGGTCGTCAACGGCCGCGGTGAGGTGATCGGAATCAGCGAGGCCTACATCCCGCCCTCAGCTGGCGCCGTTGCCCTTGGCTTTGCGATTCCGGCAGCCACGGCGGTGAAAGTCGCGGACCAGCTCCGCGAGGACGGCACGGCCGATCACGCTTTCATCGGCTTGGGGCTGGCGGAAATTACCGAACCGATCGCTAATGAACTCGGCCTGCCGGACACCCGCGGGGCGCTGGCACTCACCGTCCAGGAGGGCGGTCCGGCAGCGAAAGCAGGCATGCGTGCCGGTGATGTGATCGTAAGGCTCGACGGCGACGAGGTCGCGTCGCCGGAGGACCTGCTGGCAGCGCTGCGGAGCAAGAGCCCCGGCCAGACCGTGACCGTGGAATTCCGCCGGGGAACGGAGACGCAGGAGGTCAAGGTTGAGCTCGTGGCGCGCCCGGCGTCCTAG	MDSRQDRTHRPFRLLGVIAAAAVLAAATGCTGSSQGPEPGAAQPPAAQSPGGTPPGGTPAGGTQGHPGPAASAQAIPQGPADIPSIVTNVQPSVVTVFTGRGGLGSGVVYSEDGLILTNEHVVRGSRNVEVGFADGRRVAGKVRATDEISDLALVEAERTGLPAAKFQTDLPRIGELAIVIGSPLGFENTVTSGIISGLHREIPGSASSSQSLVDLIQTDAAISPGNSGGAVVNGRGEVIGISEAYIPPSAGAVALGFAIPAATAVKVADQLREDGTADHAFIGLGLAEITEPIANELGLPDTRGALALTVQEGGPAAKAGMRAGDVIVRLDGDEVASPEDLLAALRSKSPGQTVTVEFRRGTETQEVKVELVARPAS	PGPT0014286_996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014286-degQ|hhoA-K04772	NA	NA
D1-17_03562	2262			hypothetical protein	ATGCTCCCTCCACACGTACGTGCCCGCACGGGTCCGGCACTCACTACTACTGCAGGTGCAGTCGCCACTGCCGCCGCGCTGGTACTCGGCGGGCTCACCGCCGGCGCACCCGCCTCCGCCGCTGTCGACGACGGGCTGGTCCTGAAATACAGCCTGACGGAACCTGCGGGGACCATCGTGGAAGACAGCTCCGGGAACGGCCGCAACGGCGAGATCAGCGGTGATGCCACCCGACTGGGCAGCGAGGGCCTCCAGCTCGGCGGTACAAACGGACACGTCCGCCTCCCTAACGACGTCATGCGCGGGCTGACCTCGATCACCGTCTCAACGGACGTCAAAATCGCATCGGACCAGGGTGCCCCCTACTTCATCTGGGGGATGGGCAACACCACCAACGGCGCCGGCAACGGCTACCTCTTCACCACCGGCAACTCCTACCGGACCTCCATCGCCAGCGGCAACTGGTCAACCGAGCAGACCATCAGCGCGAACCGGGACCTGGCGCGCGAAGCGTGGAAGACCCTTACGTACACCCTCAACGGCGGTACGGCCGTCCTCTACGAGGACGGAACGGAAGTCGCCCGCAAGAGCGGCGTCACCATCACGCCTGGAAGCATCGGGGGAGGAACCACGACGGCGAACTACCTCGGGAGGTCCGTCTACAGTGGCGACAAGTACCTCAAGGGCCAGGTCCGCGACTTCCGCATCTATAACCGAGCCCTGTCAGCCAGCGAAGTCCGAGAGCTCGGGTACATTTCCCCTGAGCAGCGGGTCACCCTCGACCTGCAGGAGCTCTCACTCGGCGACACCTCCGCAGTGACCGTGAATCTGAAGCTGCCCGTTACCGGACCCAACGGCTCCGCCTACACCTGGTCCTCCTCGGACCCCACCGTCGTCTCTGCGCAAGGAGCCGTAACCCGTCCCGCCCACGGAACAGGAAACGCAGCTGTGACACTGACGGCCAGGGCCACTTCGGGTGGGGCATCTGCGTCGAAAGCTTTCACCGTCACGGTGCTGGAAGACATCAGCGACGAGCAGAAGGTCAGCGAGGCCGCCGCGGCCCTGAACATCTGGGACGCGGAGGCGATCCGCGGGAACATCACCCTTCCCGCAGCTGGGCTGCACGGCACCGACGTTGACTGGCAGTCAAGCGACGAGCCGGTCATCACGGCCACCGGCGAGGTCACGCGCCCCGCATACGGCAGCGAGCCGGCCAAGCTCAACCTGCATGCAACGGTCAGCATCGGCAAGACGAAGATCAGGAAGAAATTCCGCGTGACCGTGCTGCCGCTGCCGAAAGCGGAGGCCAAGGAGGGCTACGCGTTCGCCTACTTCACCGGCAACGACCTCGCCGGGGAAAACATCTTCATGGCCGCCAGCCGCGGCAATGACGCGCTCAAGTGGGACGAGCTGAACGGCGGAAAGCCCGTCCTTAAGTCCGGTCTCGGCACCAAGGGGCTTCGCGATCCCTTCATCATCCGCTCTCCGGAGGGCGACAAGTTCTACATGATCGCCACGGACCTCTCCATCGGCGGCGGCACCAGCTGGGACTCCTCGCAGCGCCAGGGAAGTCAGTACATCGAGGTCTGGGAGTCAACCGATCTGGTGAACTGGTCCGAGCAGCGGCACGTGAAGGTTTCGCCCGATACGGCAGGGAACACGTGGGCTCCGGAAGCGCACTACGACGAGAAGATCGGCGCGTACGTCGTGTACTGGGCCTCCAAGATCTACAACGCTAACGATCCCGCCCACGCCGGCGGCACGCACAACAAAATGATGTACTCCACCACGCGCGACTTCCGCACCTTTACCGAGGCCAAGGTGTGGAACGATCCCGGCAACTCTGTCATTGACTCCACGGTCATCAAGGAAGGCGACACCTTCTACCGGTTCACCAAGGACGAAGGCCGTGTTTCCGGATGCCTGGACATCATGCAGGAAAAGTCTGACGACCTGCTCGCCGTTGATCTGCCCGCAACGAATCCGCGAAACTGGGCGCTGATGGGCAACTGCATAGGCAAGAAGGCCGGGACCGGCGGAGTGGAAGGGCCCACCATCGTCAAATCCAACACGGAAGAGAAGTACTACCTGTTCGTCGACGAATTCGGCGGCCGAGGCTACATACCGCTGGAAAGCACCAGCCTCGAAAACCCTGACTGGAAGCTCTCCACCGACTACGAGCTGCCGCGCGCGCCTCGCCATGGAACCGTTCTTCCCGTCACGAAGGCCGAGTTGGAACGCCTGCGCAGCCAGCTCGGCTGA	MLPPHVRARTGPALTTTAGAVATAAALVLGGLTAGAPASAAVDDGLVLKYSLTEPAGTIVEDSSGNGRNGEISGDATRLGSEGLQLGGTNGHVRLPNDVMRGLTSITVSTDVKIASDQGAPYFIWGMGNTTNGAGNGYLFTTGNSYRTSIASGNWSTEQTISANRDLAREAWKTLTYTLNGGTAVLYEDGTEVARKSGVTITPGSIGGGTTTANYLGRSVYSGDKYLKGQVRDFRIYNRALSASEVRELGYISPEQRVTLDLQELSLGDTSAVTVNLKLPVTGPNGSAYTWSSSDPTVVSAQGAVTRPAHGTGNAAVTLTARATSGGASASKAFTVTVLEDISDEQKVSEAAAALNIWDAEAIRGNITLPAAGLHGTDVDWQSSDEPVITATGEVTRPAYGSEPAKLNLHATVSIGKTKIRKKFRVTVLPLPKAEAKEGYAFAYFTGNDLAGENIFMAASRGNDALKWDELNGGKPVLKSGLGTKGLRDPFIIRSPEGDKFYMIATDLSIGGGTSWDSSQRQGSQYIEVWESTDLVNWSEQRHVKVSPDTAGNTWAPEAHYDEKIGAYVVYWASKIYNANDPAHAGGTHNKMMYSTTRDFRTFTEAKVWNDPGNSVIDSTVIKEGDTFYRFTKDEGRVSGCLDIMQEKSDDLLAVDLPATNPRNWALMGNCIGKKAGTGGVEGPTIVKSNTEEKYYLFVDEFGGRGYIPLESTSLENPDWKLSTDYELPRAPRHGTVLPVTKAELERLRSQLG				NA	NA	NA	NA	NA
D1-17_03563	2496			Extracellular exo-alpha-L-arabinofuranosidase	ATGGTGCTTGCGGGTTCACTGGCGGCGGCGCTGCTGTCGTTGGCACCGGCCTTGGGCGCGAATGCCGAGGCCGGTGAGAACCGGACCATCAGCATCAACGCCGCCGGGACCGGGCCGTCGATCGACTCAACCATGTATGGAGCCTTTTACGAGGACATCAACCAGGGCGCCGACGGCGGCATATACGCGGAACTTGTCCAGAACAGGTCCTTTGAATTCAACTCCGCCGACAACCGCACCTATACACCCATGACAGCCTGGGAAACCCTGCGGCGGGGCAGTGACGGAACAGTCGCCGTCGTCAATGACACCAACCGGCTGAACGAAAAAAACCGGAACTACCTGCAGATTGATGCCACTGCCGCCGGCGCGGGCAGTGGCGCCGGAGTGGGGGTGCGCAACGGCGGCTGGAATGCAGGGCAGAAGCTCGAGGCGCACAAAAAGTACAGCTATTCGGTGTGGGCCCGCACTTCCAATCCTGCCGGGTCCACGCTTGCCGTGACCCTGGAGACCCCGGAAGGCTCCCGCCTGGACATCGCCAGCATCAAGATCAAGGGTGACCGCTGGGCCAAATACGATGTGACCCTGTCACCGAAGTCCTCCACCGGGGCCGGCCGGCTGGCAACGGTGATCCAGGGGACCGGCACTGTCCGGCTCGACATGATCTCCCTCTTCCCCAAAGACACCTGGAACGGCAGGGAAAACGGCCTCCGCAAGGACCTGGCCGAGAAGATTGCCGACCTGACCCCCGGATTCCTGCGCTTCCCAGGCGGCTGCATCGTCAACACCGGAAGCTACGACACGTACTCAGCCCCCAACTACACGCGGGCCCGGACTTACCAGTGGAAGGACACCATTGGGCCGGTGGAGCAGCGCCCGGCAAACCGTAACTTCTGGGGCTACAACCAGACCTACGGCCTGGGCTACATGGAGTACTTCCAATGGGCCGAAGACCTGGGGGCCGTCCCTGTGCCGGTGGTTCCGGTAGGCGTAACCGGCTGCGGCGACACCAAGCAGGCGCCGGACCAGGCAACCCTTGACCGCTACATCCAGGACACGCTTGACCTGATCGAGTTCGCCAACGGTGATGCCAGCACGGAGTGGGGCGCCAAGCGCATCGCCTACGGCCATCCGGAACCCTACAACCTGGACCGCATCGGACTGGGCAACGAGGAGTACAAGCCGGAGTTCAAGGAATACTTCACCCAGTTCTACAACGCCGTCCGAAAGGCGCATCCCGAGATCAAAATCATCGGGAACACCGGGCCGTTCAGCCAGGGCCCCGAATTCGACGATCTCTCCGAATTCAACGCAGAGACGGGCGTCGACTTCGTCGATGAGCATTACTACAACGAACCGTCCTGGTTCCTGAACAACAATGACCGCTACGACTACTACGACCGCAACAGCTACAAAGTTTTCCTCGGTGAGTATGCATCGCGCGGGAACAAGCCGGACAATGCCCTCGCGGAAGCCTCCTACATGACCGGCCTCGAACGGAACGCCGACGTGGTCAAGATGGCCTCCTACGCGCCGCTGATCGCGAATGAAGCCAACATCCAGTGGAGCCCGGACCTGATGTTCTTCAACGGCACGTCTGTCCGGACCACTCCTAACTACGAGGTCCAGAAGCTGTTCATGAACAACGTCGGCACCCAGGTGGTGCCGAGCACGCAGGACAACCCGGCCTCAACCGTGGCGCCAATTGCCGGAAAGATCGGGCTGTCCACGTGGGCAACTTCCGCACGGTATGACGACGTCAAGGTGACCGGCCAGGACGGCACCACCCTGTTCAGTGACGACTTCTCCGGAACGGCTGCGGCGTGGACCGGCAACGGCACCGGTTCCTGGTCCATCCAGGACGGCGGCTACGTCCAGTCCAGCACCACCGCGCAGAACACCATGGTGACCGCCGGGAGCGCGGACTGGAGCAACTACACGCTCAGCACCAAGGCAACCAAGCTGGCCGGCTCGGAAGGCTTCCTCGTATCCTTCGGCGTCAAGGACACCGGAAACTACTTCTGGTGGAACCTGGGCGGCTGGAACAACTCCAAGTCCGTCGTCGAAAAGGCCGTCAACGGCGGCAAGACGAACGTCATCGAAAAGAACACGGTGATCCAGACCGGACATGAATACGACATCAGGATCGAGGTCACCGGCCGTATCGCGAAGCTGTACCTGGACAACGTCCTGTGGGGCACCGTGGACGATACGCAAGCCGACCCTGTCTACTCCGTTGTCACGAAGGACGCCGGGTCGGGGGACACGATCGTGAAGGTGGTCAACACCTCGTCCGCCCGGACCCCTGTTGACGTCAAGGTCACCGGTGCATCCAAACTCAGCACCAATGCCGCGGTAACCACTCTCACACAGACCGCGGACGGGCAGAACCTCGCCCCGGCCGCCAGCACCTTCAGCGGAGCCGGGGCCGAGTTCACCTACGAGTTTGAACCGAAGTCCGTGACCTTCATCCGGCTTGCAGAAGCCCGGAAGTAG	MVLAGSLAAALLSLAPALGANAEAGENRTISINAAGTGPSIDSTMYGAFYEDINQGADGGIYAELVQNRSFEFNSADNRTYTPMTAWETLRRGSDGTVAVVNDTNRLNEKNRNYLQIDATAAGAGSGAGVGVRNGGWNAGQKLEAHKKYSYSVWARTSNPAGSTLAVTLETPEGSRLDIASIKIKGDRWAKYDVTLSPKSSTGAGRLATVIQGTGTVRLDMISLFPKDTWNGRENGLRKDLAEKIADLTPGFLRFPGGCIVNTGSYDTYSAPNYTRARTYQWKDTIGPVEQRPANRNFWGYNQTYGLGYMEYFQWAEDLGAVPVPVVPVGVTGCGDTKQAPDQATLDRYIQDTLDLIEFANGDASTEWGAKRIAYGHPEPYNLDRIGLGNEEYKPEFKEYFTQFYNAVRKAHPEIKIIGNTGPFSQGPEFDDLSEFNAETGVDFVDEHYYNEPSWFLNNNDRYDYYDRNSYKVFLGEYASRGNKPDNALAEASYMTGLERNADVVKMASYAPLIANEANIQWSPDLMFFNGTSVRTTPNYEVQKLFMNNVGTQVVPSTQDNPASTVAPIAGKIGLSTWATSARYDDVKVTGQDGTTLFSDDFSGTAAAWTGNGTGSWSIQDGGYVQSSTTAQNTMVTAGSADWSNYTLSTKATKLAGSEGFLVSFGVKDTGNYFWWNLGGWNNSKSVVEKAVNGGKTNVIEKNTVIQTGHEYDIRIEVTGRIAKLYLDNVLWGTVDDTQADPVYSVVTKDAGSGDTIVKVVNTSSARTPVDVKVTGASKLSTNAAVTTLTQTADGQNLAPAASTFSGAGAEFTYEFEPKSVTFIRLAEARK	PGPT0019091_72	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019091-putative_arabinofuranosidase-NA	NA	NA
D1-17_03564	981	ytfQ		ABC transporter periplasmic-binding protein YtfQ	GTGTTTAAGAAATCCCTGCTTGCGGTGGCCGCCGCATCAATGCTTACCCTCACTGCCTGCGGTGGAACCGCAGATGCCGGCAGCGCTGCCGGCAACTCCGGCGGTGACAAGATCACGATGGGCTTCGCCCAGGTCGGTGCCGAAAGCGGCTGGCGGACAGCCAATACGAAGTCAGTCCAGGACTCGGCCAAGAAGGCCGGGATCGACCTGAAGTTCTCCGACGCCCAGCAGAAGCAGGAGAACCAGATCAAGGCTATCCGCTCCTATATCCAGCAGAAGGTCGATGTCATCGCTTTCTCCCCCGTGGTGGAGTCCGGCTGGGACACGGTGCTGAAGGAAGCCAAGAACGCGAAGATTCCCGTCATCCTGACGGACCGGGCAGTGGACTCCTCCGACAAGTCCCTCTACAAGACCTTCCTTGGATCTGACTTCGTGGAGGAAGGCAGGAAAGCCGGGGCGTGGCTCGTTGAGCAGTCCAAGGCGAGCGAACCGGTAAACATCGTGGAGATCCAGGGCACCACGGGATCCGCTCCCGCGAATGACCGCAAGGAAGGGTTCGAGGAAGCTATCAAGGCTGATCCTGATCTGAAGATCATCGCCTCCCAGAGCGGCGACTTCACCCGCAGCGGCGGCAAGCAGGTCATGGAGGCCTTCCTCAAGAACAACGAGGACATTGACGTCGTTTTCGCCCACAACGATGACGAGGGCCTGGGCGCTATCGAGGCGATCGAAGCGGCTGGCAAGATTCCGGGCCAGGACATCAAGATCATCACCATTGACGCCGTGAAGGACGGCATGACCGCGCTGAGCAACGGCAAGATCAACTACATCGTGGAGTGCAGCCCGATGCTTGGCGACCAGCTCATGGATCTCGCCAAGAAGGTTGTCGCCGGGGAGAGCGTGCCCGAACGCGTCGTCACCGAGGAGACGACCTTCACCCAGGAGCAGGCCAAGCAGGTTCTCGCCAGCCGCCCGTACTAA	MFKKSLLAVAAASMLTLTACGGTADAGSAAGNSGGDKITMGFAQVGAESGWRTANTKSVQDSAKKAGIDLKFSDAQQKQENQIKAIRSYIQQKVDVIAFSPVVESGWDTVLKEAKNAKIPVILTDRAVDSSDKSLYKTFLGSDFVEEGRKAGAWLVEQSKASEPVNIVEIQGTTGSAPANDRKEGFEEAIKADPDLKIIASQSGDFTRSGGKQVMEAFLKNNEDIDVVFAHNDDEGLGAIEAIEAAGKIPGQDIKIITIDAVKDGMTALSNGKINYIVECSPMLGDQLMDLAKKVVAGESVPERVVTEETTFTQEQAKQVLASRPY	PGPT0016625_363	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016625-ytfQ-K23508	NA	NA
D1-17_03565	1533	fruK	COG1129	Fructose import ATP-binding protein FruK	ATGAGGATGAACGAGATCGTTCCGGTCGTCGAGATGACCGAGATAGCTATTGGATTCCCAGGAGTTAAGGCGCTCGACGGCGTCGATTTCCGCCTCTTTCAAGGTGAAGTCCACGCCCTGATGGGAGAAAACGGCGCCGGCAAGTCAACGCTGATCAAGGCCCTGACAGGCGTGTACACCATTGACTCCGGCACCATCACGGTACTCGGCGAACCGCAGCGGTTCTCAGCGCCCGCTGAATCCCAGGCTGCCGGCATCAGCACCGTCTACCAGGAAGTTAACCTCTGCCCCAACCTCACCATTGAAGAAAACGTCCTGCTGGGCCGCGAACCGCGCCGCCGCGGCTCCATTGACTGGAAGGGCGTGCGGTCCCGGGCCCGTGAGGTCATGGCCGAGCTGCAGCTGGACCACATTGATCCAGGATCGCTGCTGTCCACCCATTCCATCGCGGTCCAGCAGCTGATCGCTATCGCCCGCTCAGTGGAAATCAACGCGAAAGTCCTCATCCTGGATGAACCGACGTCGAGCCTGGACGCTGACGAGGTCAACCAGCTTTTCCGCGTCATCAGGGACCTCCGCGACCGCGGCGTCGCCATCCTGTTCGTCTCGCACTTCCTGGAACAGGTCTACGAAATCTCAGACCGCATGACTGTCCTTCGCAACGGCAAGCTCGTGGGCGAATACATGACCCGGGATCTTTCCCGCATGAGCCTCATCTCCAAGATGATCGGCAAGGACATGGAGGCCCTCGCCGAACTGGACCAGGCCCCTGCCCGGGCACGTGCCAGTAACGGCGCCGACGCAACGCCTTTCCTCCAGGCCCGCGGTCTGGGTAGAAAAGGGTCGGTTTCCAACGTGGACCTGTCCATCTATCCTGGCGAGGTGGTAGGCCTGGCAGGCCTCCTCGGGGCCGGCCGGACAGAGATTGCCCGGCTCATCTTCGGCGCCGACAAGGCGGACGAAGGCACCATCAAGATCAAGGGCGCGGGCCAGAAGGTCCGTTCCCCGCGCGCCGCCATCGACAAGCGCATCGGATTTTGCTCGGAGGACCGCAAGGAGGAAGGCCTCGTCGGAGACCTGACGGTCCGCGATAACCTGGTGCTGGCAATGCAGGCCAGCAAGGGCTGGGCGCGCCGCATCCCCCGCCGCATCCAGGACGAACTGGTGGCCGAATACATCGAGGCTCTCGACATCCGGCCGGCAAACCCGGACGCACTCATCCGCAACCTGAGCGGCGGAAACCAGCAGAAGGTGCTTCTGGCCCGATGGCTGGTGACGCATCCGGAACTCCTGATCCTCGACGAGCCCACCCGCGGCATCGACATCGGAGCCAAGACCCAGATCCAGAAGCTTGTCAACAAACTCGCGGCCGACGGGATGTCCATTCTCTTCATCTCCTCTGAGCTCGAGGAAGTGCTGCGCGTAAGCGACCGCCTCGCGGTCATCAAGGACAGGGCGATGGTCGCCGAAATCAACAACGACGGCGTCTCCGTAGAAGACGTTATGACGGTCATCGCCGGGGGCGCCCAGTGA	MRMNEIVPVVEMTEIAIGFPGVKALDGVDFRLFQGEVHALMGENGAGKSTLIKALTGVYTIDSGTITVLGEPQRFSAPAESQAAGISTVYQEVNLCPNLTIEENVLLGREPRRRGSIDWKGVRSRAREVMAELQLDHIDPGSLLSTHSIAVQQLIAIARSVEINAKVLILDEPTSSLDADEVNQLFRVIRDLRDRGVAILFVSHFLEQVYEISDRMTVLRNGKLVGEYMTRDLSRMSLISKMIGKDMEALAELDQAPARARASNGADATPFLQARGLGRKGSVSNVDLSIYPGEVVGLAGLLGAGRTEIARLIFGADKADEGTIKIKGAGQKVRSPRAAIDKRIGFCSEDRKEEGLVGDLTVRDNLVLAMQASKGWARRIPRRIQDELVAEYIEALDIRPANPDALIRNLSGGNQQKVLLARWLVTHPELLILDEPTRGIDIGAKTQIQKLVNKLAADGMSILFISSELEEVLRVSDRLAVIKDRAMVAEINNDGVSVEDVMTVIAGGAQ	PGPT0016635_271	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016635-ytfR-K10820	NA	NA
D1-17_03566	1044	ytfT		Inner membrane ABC transporter permease protein YtfT	GTGAAATCCCTTCTCAAACACCGCCTAGCGTGGCCGGTCATCGCCCTCGCAGCGCTGCTGCTGCTGAACCAGGTATTCCGGCCCGACTTCCTGAGCCTCAGGATGCAGGACGGGCACCTGTACGGCAGCCTCATCGATATCATGCGCAACGGCGCTCCGACCATCCTCATCGCCTTGGGCATGACCATGGTCATCGCCACCCGGGGCATCGACCTGTCGGTAGGCGCCGTGGTGGCGATCGCCGGCGCGGCCTCGTGCGCGTACATTGCAGCCTCGCCCGATCCCGGTTCGCCAGTGACAGCCGCCATGGCGGTTCTCATCGCAGTGATCGCCGGCCTTGTCCTCGGCGCATGGAACGGCTTCCTGGTCTCCACCATCGGCGTGCAGCCAATCATTGCCACGCTGGTGCTTATGACGGCCGGGCGCGGCATCGCCCAGCTCATCACCGGCGGCCAGATCATTTCCGTCTCGAATGACCACTACAAGTCAATCGGCGCCGGGTACCTCTTCACGCTTCCCATTTCCATCCTGATCACCGCCGCTGTCTTCGCCCTGGCGGCGGTCCTCACCCGCCGCACGGCATTGGGAACCCTGATCGAAGCCGTCGGCATCAATCCCGTCGCCAGCCGCCTGGCCGGACTCCGCTCACGGAACATCATCTGGATCGTCTACGTCTTCAGCGCCGTCTGCGCTGCCATCGCCGGCCTCATGATCAGCTCCAACGTCACGGCGGCCGACGCCAACAACGCCGGCCTCTACATCGAAATGGACGCCATCCTCGCAGTTGTCATCGGCGGCACCTCGCTGGCAGGCGGGCGGTACACACTGGTGGGGACCGTCGTCGGGGCTTTCATCATCCAGACACTGACCACCACGGTCTATACGCTTGGGATTCCGCCGGAGGTGACCCTGGTGTTCAAAGCCCTCGTCGTCATCACCGTCTGCCTCCTGCAGGCGCCCAAGGCGCGGAACCTGCTCAGCCGCCTCAAGGCAGCACCCAAGCCCGCCGCAAAGGAAGCCGCCAAGGAAAAGGTCGCCATCTAA	MKSLLKHRLAWPVIALAALLLLNQVFRPDFLSLRMQDGHLYGSLIDIMRNGAPTILIALGMTMVIATRGIDLSVGAVVAIAGAASCAYIAASPDPGSPVTAAMAVLIAVIAGLVLGAWNGFLVSTIGVQPIIATLVLMTAGRGIAQLITGGQIISVSNDHYKSIGAGYLFTLPISILITAAVFALAAVLTRRTALGTLIEAVGINPVASRLAGLRSRNIIWIVYVFSAVCAAIAGLMISSNVTAADANNAGLYIEMDAILAVVIGGTSLAGGRYTLVGTVVGAFIIQTLTTTVYTLGIPPEVTLVFKALVVITVCLLQAPKARNLLSRLKAAPKPAAKEAAKEKVAI	PGPT0016630_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
D1-17_03567	1017	yjfF		Inner membrane ABC transporter permease protein YjfF	ATGTCCCCCCTGTCCACGCTTACGCCCCTGGCCGTCAAGAAACCGTCACCGGCGCGCAGCCGCCTCCACGGAGCTGCGCGCTACGCACCGACGCTTGCCACGGTGGGCCTGTTCATCGCCATGTTCGCCGTCGGGGCCGGAATGTACCCGAGCTTCCTTTCCGGCCAGGTCTTCCTGAACATCTTCATCGACAACACCTTCCTCATTGTGCTCGCCGTCGGCATGACCTTTGTGATTCTTACCGGCGGCATCGACCTTTCGGTGGGAGCCGTCGTCGCACTGTCCATGATGGTGAGCGCCACGCTCCTGCAGCAGGGCTGGAACCCAGGGGCCGTCATCGTCCTGGTGCTGCTCATCGGCGGCGGGCTGGGACTCCTGATGGGCCTGATCATCCAGTACTTCGACATCCAGCCTTTCATAGTCACCCTGGCTGGCATGTTCCTGGCCCGCGGCCTCTGCTACGTCATCAGCCTCGACTCCATCCCCGTTAATGAGCCGTTCTTCACGGGCATGGCCCAGGCGCAGATTCCCCTGCCCGGGGACCTCTTCGTCTCGCCGGGCGTCCTCCTGGCGCTTGGAATTGTGGCCGCGGCCTTCTTCGTCCTGCACCACACGCGCTTCGGCCGTACGGTCTACGCGGTCGGCGGCAACGAGCACTCCGCCATGCTGATGGGCCTGCCCGTGAAGACCACCAAGATCCTGGTCTACGCCTTGAGCGGCCTCTGCTCCGCCATTGCCGGCATTCTGTTCTCCTTCTACAGCCTCTCCGGCTACAGCCTCGCGGCCCAGGGCATGGAGCTGGACGCCATCGCGGCGGTTGTCATCGGCGGCACGCTTCTGACCGGCGGCACCGGCTATGTCCTGGGATCAGTGGTAGGCGTGCTTGTGCTGGGAATCGTCCAGACTTTCATCGCTTACGACGGGACCCTCAGCTCCTGGTGGACAAAGATCGTCATCGGCGGCCTGCTCCTCGTTTTCATCCTGCTGCAGCGGCTCTTCGGCAGGAAAACACGTTGA	MSPLSTLTPLAVKKPSPARSRLHGAARYAPTLATVGLFIAMFAVGAGMYPSFLSGQVFLNIFIDNTFLIVLAVGMTFVILTGGIDLSVGAVVALSMMVSATLLQQGWNPGAVIVLVLLIGGGLGLLMGLIIQYFDIQPFIVTLAGMFLARGLCYVISLDSIPVNEPFFTGMAQAQIPLPGDLFVSPGVLLALGIVAAAFFVLHHTRFGRTVYAVGGNEHSAMLMGLPVKTTKILVYALSGLCSAIAGILFSFYSLSGYSLAAQGMELDAIAAVVIGGTLLTGGTGYVLGSVVGVLVLGIVQTFIAYDGTLSSWWTKIVIGGLLLVFILLQRLFGRKTR	PGPT0016630_872	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
D1-17_03568	1449		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGAATGTTCCCGTTACCCGCCCCTTTTCCCGCCGCGCACTCCTCGGCTCCGGCACAGCCGCAGCCGCAGTACTTGCCGCGGCCGGAGCCGGTTCCCTCGTTGCGGCGCCGGCCGCAGCCGCAGCGGCCGGCTCAGATCCGCTGAACAACCCGGTAGTTCCGCAGCGTGCCGATCCTTGGCTCATGAAGCACACGGACGGCAAATACTACTTCACCGGCTCCGTCCCTGAGTATGACCGGATCATCGTGCGCTCCTCCTCCACCATCTCCGGACTGGGCAGCTCCCCGGAAGCAGTCGTCTGGACACGGCCGACCAGCGGAACAATGGGCGGCCACATCTGGGCGCCGGAGCTGCACCACTTCGACGGGAAATGGCACATCTACTTTGCCGCCGGCGACAGCAGCGATGTCTTCCGTGTGCGCATCTACGTCATTTCCACTGCCGCAGCTGACCCAACCACCGCCGTGTGGGAGCCGCCGGTTCGCGTGTTTACCCATGCAGACACCTTCTCGCTGGACGCCACCACCTTCGAACATGCCGGCACGCGCTACCTGCTCTGGGCCCAGAGCGATACCGGCGTGAACTCCAGCCTGTACATCGCCTCCATGTCGTCGCCCTCCACTCTTTCCAGTACTCCCGTCCGCATTGCGGTCCCGACGATGGACTGGGAGACGCGCGGATTCAAAGTCAACGAAGGGGCTGCGGTGATCAAGCGGAACGGCCGTATCTTCGTCACCTTCTCCGCCAGCGCCACCGATGCCAATTACTGCATGGGACTCCTGACCGCGGACGAAAATGCCGACCTGCTGGACGTCGCTTCCTGGACAAAAACCCCAACCCCGGTTTTCACCACCAACGAGGGGTCAAAGCAGTACGGTCCGGGACACAACTCCTTCACAACGGATGAAGCAGGCAACGACGTGCTCGTGTACCACGCGCGGTCCTACCGCGCCATCGTCGGCGACCCCCTCTACGACCCCAACCGGCACGCGCGCGTCCAGCGGCTGCACTGGAACGCCGACGGCACACCAAATTTCGGTGTTCCAGTCGGGGATGGAGAGCTTCCGGTGCGGCTGGAACCTGCCGCCGCTCGGGGCACCTACCTGGCCCACGACGGTACGGTGGTCACGGCCGCCCCTTCCCCCTCCCTGGGAGCATCCCAATTCCGGATTGCCCCAGGCTACGCCAAGAAGAACTCGGTGGTCATCGAACCGGTCCTGACCAAAGGGCGCTATCTCCGGGTGCAGGGGTCAGCCGTCTCCATCGCTGCCACCGAGGGATCATCGTCGGGCTTCCTCGAACGGGCCGGCCTCTCCGACCGGGCAGGCGTGTCCTTTGAGGCTGTCGACTTCCCGGGCTCCTATTTGGTTCTTCGCGAGGGGGCTTTGGCTCTGGCAAAGGTCGGCAAGAGTGAGCGGCTGGCGGCCACGTTCTTCCTGAGCTCATAG	MNVPVTRPFSRRALLGSGTAAAAVLAAAGAGSLVAAPAAAAAAGSDPLNNPVVPQRADPWLMKHTDGKYYFTGSVPEYDRIIVRSSSTISGLGSSPEAVVWTRPTSGTMGGHIWAPELHHFDGKWHIYFAAGDSSDVFRVRIYVISTAAADPTTAVWEPPVRVFTHADTFSLDATTFEHAGTRYLLWAQSDTGVNSSLYIASMSSPSTLSSTPVRIAVPTMDWETRGFKVNEGAAVIKRNGRIFVTFSASATDANYCMGLLTADENADLLDVASWTKTPTPVFTTNEGSKQYGPGHNSFTTDEAGNDVLVYHARSYRAIVGDPLYDPNRHARVQRLHWNADGTPNFGVPVGDGELPVRLEPAAARGTYLAHDGTVVTAAPSPSLGASQFRIAPGYAKKNSVVIEPVLTKGRYLRVQGSAVSIAATEGSSSGFLERAGLSDRAGVSFEAVDFPGSYLVLREGALALAKVGKSERLAATFFLSS	PGPT0019091_348	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019091-putative_arabinofuranosidase-NA	NA	NA
D1-17_03569	1125	chvE_2	COG4213	Multiple sugar-binding periplasmic receptor ChvE	GTGAGAATTAAGAAGCTCCTGGGCGCCGTCGCCGTCGTCCTGGCTGTTACGGTAGGCGCCACCGGCTGCGGCAGCCGGCCCGGCGCCGCCGCTGCAACCGGCAGCGCCGACGCTGCCGGTGCACTGGTGGGGATCTCGATGCCGACGCAGACGTCTGAGCGGTGGATTGCCGACGGCAAGAACGTCTCGGAATCCCTGACCAAGCTTGGCTACAAGACGGACCTCCAGTACGCCAACGACGACATCCCTACCCAGGTCTCGCAGATTGAGAACATGCTGACCAAGGGTGCCAAGTCCCTGATCATCGCTGCGATCGACGGCACCACACTGACGGATGTCCTGGCCAAGGCGAAGGAGCAGAACGTCAAGGTCATCGCCTATGACCGCCTGATCAACGGAACGCCCAACGTGGATTACTACACCACCTTCGACAATTACGAGGTAGGTGTTCAGCAGGCAACGTCCCTGCTGACAGGCCTGGGCCTGATCGATGCTTCCGGCAAGAAGGTGGATGGCAAGGGCCCGTTCAACGTGGAGCTGTTCGCCGGCAGCCCGGACGACAACAACGCCAACTTCTTCTGGACCGGCGCCATGGACACCCTCAAGCCGTATCTGGACGCCGGCACTATCAAGGTACCCAGCGGCCAGACGAAGTTTGAGCAGGCCGCCATTCTGCGCTGGCAGGCTGCCACCGCCCAGAAGAGAATGGAAGACATCCTCACCGCTGCATACGGGTCCGGCAAGAAGCTCGACGGCGTGCTGTCTCCTTACGACGGGCTCTCCATCGGCATCATCTCCGCACTGACCAGCACCGGCGGCTACTCCAAGGGCGCCCTTCCGGTTGTGACCGGCCAGGACGCAGAAAAGGGCTCGGTGAAGTCCATCGTTGCCGGGGAACAGTACTCCACGATCTTCAAGGACACCCGCAAACTCGGCGAGCAGGCCGTGAAGATGGTGGACGCGGTCCTGAAGGACGAGGAGCCGGAGACCAACGACACCGAGACCTACAACAACAAGGTCAAGGTGGTTCCGTCCTACCTGCTGAAGTCTGTCATCGTCACCAAGGACAACCACAAGCAGGAACTGATCGATTCCGGTTACTACACAGTCGCCGACATTAAGTAG	MRIKKLLGAVAVVLAVTVGATGCGSRPGAAAATGSADAAGALVGISMPTQTSERWIADGKNVSESLTKLGYKTDLQYANDDIPTQVSQIENMLTKGAKSLIIAAIDGTTLTDVLAKAKEQNVKVIAYDRLINGTPNVDYYTTFDNYEVGVQQATSLLTGLGLIDASGKKVDGKGPFNVELFAGSPDDNNANFFWTGAMDTLKPYLDAGTIKVPSGQTKFEQAAILRWQAATAQKRMEDILTAAYGSGKKLDGVLSPYDGLSIGIISALTSTGGYSKGALPVVTGQDAEKGSVKSIVAGEQYSTIFKDTRKLGEQAVKMVDAVLKDEEPETNDTETYNNKVKVVPSYLLKSVIVTKDNHKQELIDSGYYTVADIK	PGPT0015735_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0015735-sbpA-K10546	NA	NA
D1-17_03570	1530	xylG_2	COG1129	Xylose import ATP-binding protein XylG	ATGAACGTACCCATTCTTCAGATGCGGGGGATCACCAAGACCTTCCCTGGCGTCAAGGCGCTTCAGGACGTCACCCTGGCCGTGAACCGCGGCGAGGTCCATGCCATCTGCGGCGAAAACGGGGCCGGCAAATCCACCCTGATGAAAGTGCTGTCGGGCGTGTACGCGCACAGCACCTTCGACGGCGACATCCTCTTTGAGAACGAACCCTGCGACTTCACATCCATCAGTGACAGCGAGAAGCGCGGGATCGTGATCATCCACCAGGAACTGGCCCTGAGCCCGTACCTTTCCGTCGCGGAGAACATCTTTCTCGGCAATGAACTGGCCTCCCGGGGCTGGGTGGACTGGCGCAAAACCAACCTTGAAGCGGCAAAGCTGCTTGCCCGCGTGGGCTTGGACGAAAACCCGGCCACGCCGGTCCAGCACATCAGCGTGGGCAAGCAGCAGCTCGTCGAAATCGCCAAGGCACTGTCCAAGGAGGTGAAACTGCTGATCCTGGACGAGCCCACCGCAGCGCTTAACGACGAGGACTCCGACCACCTGCTGAACCTCATCCTGCACCTGAAGGGCCAGGGCGTTACCAGCATCATCATCAGCCACAAACTGAACGAGATCCGCAAGGTCGCCGACGCCGTCACCATCATCCGGGATGGCAAATCCATCGAGACCCTGCGCCTGGACCAGGGCGAGATTACCCAGGAGCGGATCATCCGCGGCATGGTCGGCCGGGATCTGGACAGCCTCTACCCCGAGCGTGAACCGCAGATCGGCGAGGAAGTCCTCCGCATCGAAGACTGGACGGTCCAGCATCCGCAGGACCACACCCGCACCGTGGTGCACAACGCCAGCCTGAACGTCCGCAAGGGCGAAGTCGTCGGGCTCGCCGGGCTGATGGGTGCAGGTCGCACGGAACTGGCCATGAGCGTTTTCGGTCGCACTTACGGCCGGGCGGTCTCCGGAAAAGTGTTCAAATACGGCCAGGAAATCAACACGTCAACCGTTCCGGAGGCCATCCGCCATGGCATCGCCTACGCCACTGAGGACCGGAAGCACTACGGCCTGAATCTCATCGAGGACATCAAACGGAATATCTCCATGGCAGCCCTGCCCAAGATCGCCAAACGCGGCTGGGTGGATAAGAACCAGGAGACGACGGTGGCCAACAGCTACCGGAAGAGCATGAACATCAAGGCTCCCTCGGTCGCTTCCATCACGGGCAAACTATCGGGCGGCAACCAGCAAAAAGTAGTCCTGAGCAAGTGGATGTTCTCGGACCCCGACGTGCTGATCCTGGACGAACCCACCCGCGGTATCGACGTCGGTGCGAAGTACGAGATCTACACGATCATCGCCGAGCTCGCCGCGCAGGGTAAAGCCGTCATCGTGATCTCCTCCGAACTCCCCGAACTCCTGGGCATCTGCGACCGGATCTACACCCTGTCGGCCGGTCACGTCACGGGTGAAGTCCCCATCGCCGAAGCCTCCCAGGAAACCCTCATGCACTACATGACACAAGAGAAGGAATAA	MNVPILQMRGITKTFPGVKALQDVTLAVNRGEVHAICGENGAGKSTLMKVLSGVYAHSTFDGDILFENEPCDFTSISDSEKRGIVIIHQELALSPYLSVAENIFLGNELASRGWVDWRKTNLEAAKLLARVGLDENPATPVQHISVGKQQLVEIAKALSKEVKLLILDEPTAALNDEDSDHLLNLILHLKGQGVTSIIISHKLNEIRKVADAVTIIRDGKSIETLRLDQGEITQERIIRGMVGRDLDSLYPEREPQIGEEVLRIEDWTVQHPQDHTRTVVHNASLNVRKGEVVGLAGLMGAGRTELAMSVFGRTYGRAVSGKVFKYGQEINTSTVPEAIRHGIAYATEDRKHYGLNLIEDIKRNISMAALPKIAKRGWVDKNQETTVANSYRKSMNIKAPSVASITGKLSGGNQQKVVLSKWMFSDPDVLILDEPTRGIDVGAKYEIYTIIAELAAQGKAVIVISSELPELLGICDRIYTLSAGHVTGEVPIAEASQETLMHYMTQEKE	PGPT0016530_602	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016530-gguA|ABC_GGU_A-K10548	NA	NA
D1-17_03571	1299	xylH_2	COG4214	Xylose transport system permease protein XylH	ATGTCCGCCCTACGAGAATCCCTCGGCTTCCTGGCAAGCCGCCTCCGCCAGGTCGGCATCTTCGTCGCCCTGATACTGATTGTCCTGCTGTTCCAGGTCCTCACCGACGGCATCCTGCTACAGCCGCAGAACGTCACCAACCTCGTCGTTCAGAACAGCTACATCCTCATCCTCGCCATCGGCATGGTCATGGTGATCATCGCCGGGCACATCGACCTATCCGTCGGTTCCATCGCCGGCTTCATTGGTGCCGTCGCCGGTGTCATGATTGTCCACTGGGGCTGGGCCTGGTGGGCCGCTATCCCTGCGTGCCTGCTCGTCGGCGCGCTAGTGGGCGCCTGGCAGGGATATTGGATCGCGTACGTCGGCATCCCCGCGTTCATCGTCACCCTGGCCGGCATGCTCATTTTCCGCGGGCTGACCCTGATCACACTGAAGAACCAGCAGATCACCCCCTTCCCTGATGAACTCCGGGCCTTGGGCGGCGGCTTCCTCCCGGATATCTCGGGCGGCACGTCCGTGCTCGAGTGGCTGACCGTCATCCTTGGCGTTGGCGGCACCGCCGCCTTGCTTTTCCAAGCCATCAAGGAGCGCCGGATCCGGAGCAAGTTCAACCTGGAAAACGAACCCATGGCCTGGTTCGCCACGAAGACCGCATTCATTGCCCTGCTGATGCTGGCCATTACCTTCCTCCTCGCCAGCTACCGGGGCACCCCGATCGTGCTGCTCGTCCTCGCGGGACTGGTGATCGCATATTCCGCGCTGATGAACAACAGCATCTTCGGCCGGCACACCTACGCCATCGGCGGGAACCTGCACGCCGCTGAGCTCTCCGGCATCAAGACCAAGGCCGTCACGTTCCGGCTCTTCGTGAACATGGGCGTCCTCGCCGCCCTCGCAGGCCTGATCTTCACAGCCCGCCTCAACTCCGCCCAGCCCGCCGGCGGCACTGGCTTTGAACTCGACTCGATCGCCGCGGCCTTCATCGGCGGAGCAGCCGTCCAGGGCGGTATCGGCACGGTCGCCGGGGCCATGATCGGCGGCCTCATCATGGGCGTCCTGAACAACGGCATGTCCATCCTCGGCCTTGGAACCGACTACCAGCAGCTGATCAAGGGCCTGGTGCTCCTGCTCGCAGTCGGTTTCGACATCTTCAACAAGAACCGTGCCGGGGGTGGGTCCTCCGTCGGCAAGCGATTCAGGCTGAAGACCACCCCGCCCGCCACCGAAGAGACCAAGGCCACGGCCGAACCGGTCCCGGGGGTCGGTACGGGCGCTCGCGAATCGAGCAACGCCTAG	MSALRESLGFLASRLRQVGIFVALILIVLLFQVLTDGILLQPQNVTNLVVQNSYILILAIGMVMVIIAGHIDLSVGSIAGFIGAVAGVMIVHWGWAWWAAIPACLLVGALVGAWQGYWIAYVGIPAFIVTLAGMLIFRGLTLITLKNQQITPFPDELRALGGGFLPDISGGTSVLEWLTVILGVGGTAALLFQAIKERRIRSKFNLENEPMAWFATKTAFIALLMLAITFLLASYRGTPIVLLVLAGLVIAYSALMNNSIFGRHTYAIGGNLHAAELSGIKTKAVTFRLFVNMGVLAALAGLIFTARLNSAQPAGGTGFELDSIAAAFIGGAAVQGGIGTVAGAMIGGLIMGVLNNGMSILGLGTDYQQLIKGLVLLLAVGFDIFNKNRAGGGSSVGKRFRLKTTPPATEETKATAEPVPGVGTGARESSNA	PGPT0016525_49	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016525-gguB|ABC_GGU_P-K10547	NA	NA
D1-17_03572	972	yihR_2	COG2017	putative protein YihR	GTGACTGAATACAGCATCCGCTCGGGGGAATACGCCGCCGTTGTAACGGCGCAGGCAGGCGCACTGCGGGAGCTGCGCCACCGGGATCGGGACCTCATTGTTCCGTTCCCGGAAGGCGGGCCAATCCCTGATTTCAGGGGCATCATCGCCGCGCCCTGGCCAAACCGGATCGCGGACGGCAGCTACATGTTCGACGGGACAGAGTATGTCGTTCCCATTAACGAGCCTGAACGCGGCTGCGCCCTCCACGGACTGGTGTTTCCCCTCGACTGGACCCTGGAGTCGCACGACGGGTCCTCGGTACGGCTCTCCTGCACGCCGGACCCTACGGCGGGCTACCCTCACGCACTGCGCATCGACGTCGACTACCGGCTGTCGGACGACGGCCTGCACAGCAGGGTCACGGCGGCGAACCTCGGCCGCAGCGCGGCGCCCTACGGAGTCTGCCCCCACCCCTACCTCGTAGCGGGTCCATCACCCCTCGATGACTGGACCCTGGAAATCCCCGCGGATTCCTTCCTGGAGGTTACTGCGGACAGGCTGCTGCCGAAGGACCCCCGACCCGTGGCAGGCCACGAGTTCGACTTCCGCGTGCCCCGCGCCATCGGCGCCAGCGAAATCGACCACGCGTTCACCGACATAGCGTTCGGCGGAGTCCCCTTCGGCGGGGCCGCGTCCGCCGGCGTTGGAGCCGACGGCGCCGGTAGCGACGGCTACGCCTCCGACCGCTCCGGGCAGGCACGTGTGCTGGTCCGGGACCCGGGCGGAACCGGCGTCGGAATGTCGTGGGACCGTACCTGCCAGTGGCTCCAGATCCACACAGCGGACAAGCTGCCCCCCGCACTCAACAGGCTGGGCCTCGCCGTGGAGCCCATGACCTGCCCGCCCGATGCCTTCAACAGCGGCGTGGACCTGATCCGGCTGGAGCCGGGCGCCACCCACGAGGCGTCCTGGAGCATTTTCGCCACGTGA	MTEYSIRSGEYAAVVTAQAGALRELRHRDRDLIVPFPEGGPIPDFRGIIAAPWPNRIADGSYMFDGTEYVVPINEPERGCALHGLVFPLDWTLESHDGSSVRLSCTPDPTAGYPHALRIDVDYRLSDDGLHSRVTAANLGRSAAPYGVCPHPYLVAGPSPLDDWTLEIPADSFLEVTADRLLPKDPRPVAGHEFDFRVPRAIGASEIDHAFTDIAFGGVPFGGAASAGVGADGAGSDGYASDRSGQARVLVRDPGGTGVGMSWDRTCQWLQIHTADKLPPALNRLGLAVEPMTCPPDAFNSGVDLIRLEPGATHEASWSIFAT	PGPT0017825_5088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
D1-17_03573	1521	araA		L-arabinose isomerase	ATGTCCAGCGCCAACAACACCTCCCTCGAGCACTACGAGGTCTGGTTCCTCACCGGCAGCCAGCACCTATACGGCGAGGACGTGCTGAAGCAGGTTGCCGCCCAGTCCCAGGAGATCGCCGCGGCCCTGAACGAGTCTTCGGACGTCCCGGTCCGGTTGGTCTGGAAGCCCGTGCTGACGGACTCGGAGGCGATCCGCCGCACGGCGCTGGAGGCGAACTCGGATGACGCGGTGATCGGCGTGACGGCGTGGATGCACACGTTCTCCCCGGCCAAGATGTGGATCCAGGGCCTGGACCTGCTCCGCAAGCCCCTGCTGCATCTGCACACCCAGGCCAACGTGGAACTGCCCTGGGCGGACATCGACTTCGACTTCATGAACCTGAACCAGGCCGCGCACGGCGACCGCGAGTTCGGCTACATCCAGTCCCGGCTCGGGGTGCCGCGCAAAACCGTCGTCGGGCACGTCTCCAACCCCGAGGTTGCCCGCCAAGTCGGGGTCTGGCAGCGCGCCTCCGCCGGGTGGGCCGCCGTCCGGACCCTGAAGCTGACCCGCTTCGGGGACAACATGCGCAACGTTGCCGTTACTGAAGGTGACAAGACCGAGGCGGAGCTGCGCTTCGGCGTCTCGGTCAACACCTGGTCCGTGAACGAGCTCGCCGACGCCGTGCACGGCGCCGCGGAGTCCGGTGTCGACGCCCTCATTTCCGAGTACGAGCGGCTTTACGACGTGGCGCCGGAGCTGCGCTCCGGCGGAGCCCGCCACGAATCCCTCCGCTACAGCGCCCGCATTGAGCTCGGACTGCGCAGCTTCCTTGAAGCCAATGGCTCCGCCGCCTTCACCACCTCGTTCGAGGACCTTGGTGAACTGCGTCAGCTGCCGGGCATGGCCGTCCAGCGGCTCATGGCCGACGGCTACGGCTTCGGCGCGGAGGGCGACTGGAAAACCGCCATCCTGGTCCGTGCTGCCAAGGTCATGGGCGCGGGGCTTCCCGGCGGCGCTTCCCTGATGGAGGACTACACATACCACCTGGCACCCGGCCAGGAGAAGATCCTCGGCGCACACATGCTCGAGGTCTGCCCCTCCCTGACGGCAGCCAAACCGCGCGTTGAAATCCACCCGCTGGGCATCGGCGGCAAGGAAGACCCGGTCCGCATGGTCTTCGACACCGACGCCGGGCCCGGCGTCGTCGTCGCCCTGTCCGACATGCGCGACCGCTTCCGCCTCGTCGCGAACGCCGTGGACGTCGTCGACCTTGACGAGCCGCTGCCAAACCTTCCGGTGGCCCGGGCGCTGTGGTCCCCGAAGCCCGACTTCGCCACCTCCGCTGCGGCCTGGCTCACGGCGGGCGCGGCGCACCACACCGTCCTGTCCACCCAGGTGGGTATGGACGTGTTCGAAGACTTCGCCGAGATCGCCCGGACGGAGCTTCTGAGCATCGATGAAGGCACCACGATCAGGCAGTTCAAGAAGGAACTGGCCTGGAACGCCGCCTACTACAAGCTGGCCGGCGGGCTGTGA	MSSANNTSLEHYEVWFLTGSQHLYGEDVLKQVAAQSQEIAAALNESSDVPVRLVWKPVLTDSEAIRRTALEANSDDAVIGVTAWMHTFSPAKMWIQGLDLLRKPLLHLHTQANVELPWADIDFDFMNLNQAAHGDREFGYIQSRLGVPRKTVVGHVSNPEVARQVGVWQRASAGWAAVRTLKLTRFGDNMRNVAVTEGDKTEAELRFGVSVNTWSVNELADAVHGAAESGVDALISEYERLYDVAPELRSGGARHESLRYSARIELGLRSFLEANGSAAFTTSFEDLGELRQLPGMAVQRLMADGYGFGAEGDWKTAILVRAAKVMGAGLPGGASLMEDYTYHLAPGQEKILGAHMLEVCPSLTAAKPRVEIHPLGIGGKEDPVRMVFDTDAGPGVVVALSDMRDRFRLVANAVDVVDLDEPLPNLPVARALWSPKPDFATSAAAWLTAGAAHHTVLSTQVGMDVFEDFAEIARTELLSIDEGTTIRQFKKELAWNAAYYKLAGGL	PGPT0017450_70	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017450-araA-K01804	NA	NA
D1-17_03574	711	ulaF	COG0235	L-ribulose-5-phosphate 4-epimerase UlaF	ATGAGCGGGTTGCTGGAAATCATTGCCCGTGTCCGCCGCGAAGTCTGTGAGCTCCACGCGGAGCTGACCCGGTACGAACTGGTGGTCTGGACGGCCGGGAACGTGTCCGGCCGGATCCCCGGCTACGACCTCATGGTCATCAAGCCTTCCGGCGTCTCCTATGACGACCTGGTTCCCGAGCTCATGGTGGTCACCGACCTCTACGGCACCCCGGTCAGCAGCCTGAGCGCCGACACCGATGGAGTCCCGGCCGCCTGGGACAATCCGGACCTCTCGCCGTCCTCGGATACTGCTGCCCACGCCTACGTTTACCGAAACATGCCCGACGTCGGCGGCGTGGTCCACACCCACTCCACCTATGCCACCGCCTGGGCCGCGCGCGGCGAAGAAATACCGTGCGTTCTGACCATGATGGGCGATGAATTCGGCGGACCCATCCCGGTGGGCCCGTTCGCGCTGATCGGCGACGACTCGATCGGCCGGGGCATCGTGGAGACCCTGCGGGGATCAAATTCCCCCGCGGTCCTGATGCAGAATCACGGGCCGTTCACCATCGGCAAGGATGCCCGCTCCGCCGTCAAGGCCGCCGTGATGTGCGAGGAAGTTGCCCGCACCGTCCACGTCTCCCGGCAGCTCGGCGAACCGCTGCCCATCGACCCCGGCCAGATCGAATCGCTCTACGACCGCTACCAGAACGTCTACGGGCGCTAA	MSGLLEIIARVRREVCELHAELTRYELVVWTAGNVSGRIPGYDLMVIKPSGVSYDDLVPELMVVTDLYGTPVSSLSADTDGVPAAWDNPDLSPSSDTAAHAYVYRNMPDVGGVVHTHSTYATAWAARGEEIPCVLTMMGDEFGGPIPVGPFALIGDDSIGRGIVETLRGSNSPAVLMQNHGPFTIGKDARSAVKAAVMCEEVARTVHVSRQLGEPLPIDPGQIESLYDRYQNVYGR	PGPT0017420_389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017420-araD|ulaF|sgaE|sgbE-K03077	NA	NA
D1-17_03575	1800	araB	COG1069	Ribulokinase	ATGGACGTCACAGCAGGCGGCAGCGAAAACTATGTCATCGGGGTGGACTATGGCACCCTCTCCGGCCGGGCCGTGGTTGTGCGGGTCCGCGACGGCAAGGAACTCGGCAGCGGTGTGTTCGACTACCCGCATGCGGTGGTCACTGAAGCGCTCCCGGAGGATGTGGCCGGCGTGGCAGACGGAACAGCTGCCCGCCTTCCCGGCGAATGGGCGCTGCAGGTGCCGAATGACTACCGCGACGTGCTCCGGCACGCTGTTCCCGCCGCCGTGGCCGACGCAGGCATCGACCCGGCAGCCGTCGTCGGTATAGCCACAGACTTCACCGCCTGCACCATGGTGCCGGCCAAAGCTGACGGCACCCCGCTGAACGAGGTGCCGGGCTTCGCAAACCGCCCGCACGCCTACGTGAAGCTGTGGCGCCACCACGCTGCGCAGGGTCAGGCAGACCGCATCAACGCCCTCGCCGCCGAACTCGGCGAATCCTGGCTGCCGCGCTACGGCGGGCTGATCTCGTCCGAGTGGGAGTTTGCCAAGGGGCTGCAGCTGCTGGAAGAGGATCCGGAGGCGTATGCGGAAATGGACCACTGGGTGGAGGCCGCCGACTGGATCGTCTGGCAGCTCTGCGGCAACTACGTCCGCAACGCCTGCACTGCCGGCTACAAGGGCATCTATCAGGATGGGCGTTACCCGTCCGATGACTTCCTTGCTGCCCTCAACCCGGAGTTCAGAAACTTTGTTAGCGCTAAACTGGCGCACGCCATCGGACGCCTTGGCGACGCGGCCGGCTATCTGACGGCCGAGGCAGCAGCCTGGACCGGGCTGCCGGAGGGAATCGCCGTGGCCGTGGGCAACGTGGACGCGCATGTCACGGCCCCCGCGGCCAAGGCTGTGGAGCCCGGCCAGCTGGTGGCGATCATGGGCACCTCCACCTGCCACGTCATGAACGGCGACGCACTGCGTGAAGTTCCGGGCATGTGCGGTGTGGTGGATGGTGGCATTGTCGAGGGGCTCTGGGGCTATGAGGCCGGGCAGTCCGGGGTGGGCGACATCTTTGGCTGGTTCACTAAGTACGGGGTTCCGCCGGAATACCACCAGGCCGCCGCCGCGGCGGGGCAGGGCATCCACGAATACCTCACCGATTTGGCCTCGGGGCAGGCGATCGGCCAGCACGGCCTGATCGCCCTCGACTGGCACTCCGGCAACCGCTCCGTGCTCGTGGACCACGAGCTTTCCGGTGTGGTTGTCGGCCAAACCCTCGCGACCCGCCCGGAGGACATCTACCGCGCACTGCTCGAGGCCACGGCATTTGGCACCCGGACCATCGTCGATGCCTTCCGGAATTCAGGTGTTCCGGTCAAGGAGTTCATCGTCGCTGGCGGCCTGCTTAAGAACAGGCTCCTCATGCAGATCTATGCCGACGTGACCGGCCTCCAGCTCTCCACGATCGGCTCGGCCCAGGGCCCGGCCCTGGGGTCCGCTATCCACGCGGCTGTGGCCGCCGGACGATATACGGACGTGCGTACCGCGTCGGAGGCGATGGGGGCGGCACCCGGCGCCATCTACACGCCCATCCCTGAGAACGTCGAAGCCTACGAGGAACTGTTCCGCGAATACCGCACCCTGCACGACTACTTCGGCCGGGGAACCAACGACGTCATGCACCGGCTCAAGGCCATCCAGCGCAACGCCGCCAAGCAGTTGGAGGCCCAGTCGCTGCAGGCCCAGTCGATGAAGTCCAAGGTGATGCCGGGCCAGGCGCTGCAGGCCGAGTCCACACTCGCCGGGGCGGTGTCAGCATGA	MDVTAGGSENYVIGVDYGTLSGRAVVVRVRDGKELGSGVFDYPHAVVTEALPEDVAGVADGTAARLPGEWALQVPNDYRDVLRHAVPAAVADAGIDPAAVVGIATDFTACTMVPAKADGTPLNEVPGFANRPHAYVKLWRHHAAQGQADRINALAAELGESWLPRYGGLISSEWEFAKGLQLLEEDPEAYAEMDHWVEAADWIVWQLCGNYVRNACTAGYKGIYQDGRYPSDDFLAALNPEFRNFVSAKLAHAIGRLGDAAGYLTAEAAAWTGLPEGIAVAVGNVDAHVTAPAAKAVEPGQLVAIMGTSTCHVMNGDALREVPGMCGVVDGGIVEGLWGYEAGQSGVGDIFGWFTKYGVPPEYHQAAAAAGQGIHEYLTDLASGQAIGQHGLIALDWHSGNRSVLVDHELSGVVVGQTLATRPEDIYRALLEATAFGTRTIVDAFRNSGVPVKEFIVAGGLLKNRLLMQIYADVTGLQLSTIGSAQGPALGSAIHAAVAAGRYTDVRTASEAMGAAPGAIYTPIPENVEAYEELFREYRTLHDYFGRGTNDVMHRLKAIQRNAAKQLEAQSLQAQSMKSKVMPGQALQAESTLAGAVSA	PGPT0017410_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017410-araB|L_ribulokinase-K00853	NA	NA
D1-17_03576	1011	lacI	COG1609	Lactose operon repressor	ATGACAAAGAGCAACGCGCGGATGCCGCGGCTTGAGGATGTGGCCGGCCGCGCCGGAGTCTCCCACCAGACTGTGTCCCGCGTGATCAACAACCATCCCAACGTGAGCAAGTCCACCCGGGAGAGGGTGGAGGCGGCCATCGCCGAGCTGGGGTACCGCCGCAATACTGCCGCCCGCAGCCTTGTCACCCGGCGGTCCCAGACCATTGGCGTTCTCGGCAGTGAGCTTGCCCAGTACGGCCCGGCAAACACCCTGCTCGGAGTCGAGCAGGCCGCCAGGGATGCGGGGTATTTCGTCAGCATTGCGGCATTGAGGACCGTGAGCCGTGAGGCTATATCCGATGCGGTCCGGCATTTCATGGACCAGTCCGTCGACGGCATCGTGGTGATCGTGCCGCACTCCGAAACCCTGCTTGCCCTGGCTGAACTGAAACCCGGCGTTCCCGTGGTGGCCGTGGGTTCCCTGGGCAGCGAGGCGGTAAGCGGCGCGATGGTGGACCAGAAGCGCGGGGCCGAGATCGCCGTCGGGCATCTCATTGAGCAGGGCCACCGCATGATCGGACACATTGCCGGTCCGCAGGACTGGATTGATGCAGTGGCGCGTGCCGAGGGCTGGAGCGAGGCCCTGCGCGCGGCGGGACTGGACGACAGCCTCGTGGTCGAGGGGGACTGGAGTGCGGGCAGCGGCTACGAGATTGGCCGCAGGTTCGCCAGGGACAGGAACGCTACTGCGCTGTTCGTGGGCAATGACCAGATGTCCCTAGGTTTGCTGCGGGCCTTCAGCGAGGCGGGTGTCCGCGTGCCTGAGGATGTTTCCGTCGTGGGTTTCGATGACCAGCCGGAGTCGGGCTACTTTACGCCGCCGCTCACCACGGTACGCCAGGACTTCGAGGAGCTGGGACGGCGCTGCATGGATCTCATGCTCAGGGCCATCGGGAACGCCGAGAGCGTAAGCACCACTGTGGTCGAGCCGGAACTCGTGGTGCGGCGAAGCACTGCACCACCCGCCTGA	MTKSNARMPRLEDVAGRAGVSHQTVSRVINNHPNVSKSTRERVEAAIAELGYRRNTAARSLVTRRSQTIGVLGSELAQYGPANTLLGVEQAARDAGYFVSIAALRTVSREAISDAVRHFMDQSVDGIVVIVPHSETLLALAELKPGVPVVAVGSLGSEAVSGAMVDQKRGAEIAVGHLIEQGHRMIGHIAGPQDWIDAVARAEGWSEALRAAGLDDSLVVEGDWSAGSGYEIGRRFARDRNATALFVGNDQMSLGLLRAFSEAGVRVPEDVSVVGFDDQPESGYFTPPLTTVRQDFEELGRRCMDLMLRAIGNAESVSTTVVEPELVVRRSTAPPA	PGPT0017992_8402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03578	669			hypothetical protein	GTGGGGACCATGAGCGACGAAGCAGGAACCGGCGGTCCGGGCGGGGCGGAACGGCACCACAAGCCCAAGCCTTTTGCGCCCATCGATTTTGAGCCCTTTGCCGGCGGGGCGGACCCGGCCCGGGTTTCCGAGGCAGCCCATCTGGCCGCGCAGGCCCTGGTGCGCCACGGCCGCGACAGCGACGATCCTGTCGTTACCAGGCGGCTGGTCAAGCTTGCCGACGAACAGGGACTGGAGGCTATCGCCGAGATGTGGGCCGAGAGCCCCGCGCGCTCCCTGCCGGGTGCCCTGTGGCGGCTGTATGCCCTGCGTGCGGCGACAGTCCAGGACCCCGAGCGCATCTCCGTCTATTTCAAGGCGGGTAAGGACACCGCACAGGTTTCCAACGTTGTGGCCGGAGCGGCCGAACCGCCTGGGGCGGACGAAATGAAGACCATGGCGGACGCTATCTTGTCCGGCGCGTTCGACGGAGATTTCGACGTCGCGCTGGAACGGTCCGCGGCATTCTGCAGGGTTGTGGCCCTCGGGCAGGCAACCATAGCCGACGGCGCAGACCACAGCAATGAAGGCCACGCGCGCAAGCTGACACGCAACTCTCACCTGCTGGTGAAGACCGCCGAAGACCTCGAACATGCCGCCAACGCATGGCGGTTGGGCGAACTCGACTGA	MGTMSDEAGTGGPGGAERHHKPKPFAPIDFEPFAGGADPARVSEAAHLAAQALVRHGRDSDDPVVTRRLVKLADEQGLEAIAEMWAESPARSLPGALWRLYALRAATVQDPERISVYFKAGKDTAQVSNVVAGAAEPPGADEMKTMADAILSGAFDGDFDVALERSAAFCRVVALGQATIADGADHSNEGHARKLTRNSHLLVKTAEDLEHAANAWRLGELD				NA	NA	NA	NA	NA
D1-17_03579	618			hypothetical protein	ATGAAGCTGCGCCTTTTTCCCCAGGAGCCCGCGGGGCTGAACCTCCTGTCGCAGCAGGCCCATCAGATCGTCCTGGCGAGCGGTACCCTGGCGGAGCTCCTGGGCGCCCCGTCCTCCGAACATGACCGGCTCGTGGAGGACATGCACAACCACGAAGCCAGGTCGGGCGAACTGCAGTTCGCCCTGCTGACGCACATGCGGACCAGTTTTGTGAACCCTCTTCCCCGCGAGGACATGTACGGGATGTCCCTCTGCCTCAACGCGGCCATGGAGAAACTGGACGGCGCCGCCGAGCTTGTTGCCCTCTACAAGCTGGATCGGCTGCCGAAGCGCGCAGCCGACCAGCTGGAGATCATCACCCGCCAGGCCGAGCTCACGGCGGATGCCATGCGCCGGCTGAACAACCTGGATGACCTTGAGGACTACTGGATTGAGATCCTCCGCCTGGCCAAGCGGGCTGAACGGACGCACCGGGTCTGGGTCGCAGACATGCTCAAGGACATGAAGGCCACGCAGTACGCCCGGAACAGGGACGTCGCCAACCAGCTGGTGGATGTCACGAAGGACATGCGGCGTGTTGCCACCCAGGTGGGCAGCATCATCGTCAAGGAATCATGA	MKLRLFPQEPAGLNLLSQQAHQIVLASGTLAELLGAPSSEHDRLVEDMHNHEARSGELQFALLTHMRTSFVNPLPREDMYGMSLCLNAAMEKLDGAAELVALYKLDRLPKRAADQLEIITRQAELTADAMRRLNNLDDLEDYWIEILRLAKRAERTHRVWVADMLKDMKATQYARNRDVANQLVDVTKDMRRVATQVGSIIVKES				NA	NA	NA	NA	NA
D1-17_03580	1017			hypothetical protein	GTGACGCCGTTCATCTTCCCGCTGGTGGTGGCACTCGCCGCCGCGTTTGCCTTCATCAACGGTTTCCGGGACGTCTCCAACTCCGTTGCACTGGCCGTCCGGACCCGGGCACTGACTCCCACCATTGCGGTACTGCTGGCGGCGGTCTTCAACTTCATCGGCGCCCTCCTGAGTTCCGGTTTCGCTGTCGCCGTCAGCCAAAACTGGGTCACCCTCCCCCAAGGCGACAGCGGGCTGAATATCCTCGTTGCCGGTCTGGCCAGCGCCTGCATCTGGGGGCTGCTCCTGTGGTGGCGCGGCGTTCCGTCCTCGTCCACGCACGCTCTGGTGGGCGGCCTGGCCGGGGCCGGAACGGCCAGTGTTCTGGTGAGCGGCAATGCGGTGGGAGGTGTGGACCAGTCACTCCTGTTCCAGGTGGTGCTGCCCCTGGCCCTGTCCCCGGTCATAGCCTTTGCCGGGGCCTACCTTCTCGTGTATCCCGTGACCTGGGCTGCCCGCTACGCGCAGCCAAACGTCATCAACCGGCGATTCCGGGCAGCACAGTCCATCACGGCGGGGGCCGTCGCCTTCGGCCATGGGCTGCAGGACGGCCAGCGCATCGGTGCAGTTCTGCTTTTGGCGGTCCTGGCTGCGGGATACAGCGACGGCGGCTCTGTCCCCCTGTGGGTCGCGATGCTCTCCGCCGTCATGATCACAGTGGGAACCCTGTTCGGGGGCTGGCGCATCTCCCACACGATGGGGCACAGGCTCATCCGGATTGACCCGCTCCGCGGTGTGGTGGCCCAGTCCGTCAGCGCGGCCCTGCTCTTCATTGGTGCCATCGGCCTCCACTGGCCCATGTCCACCACCCACACAGTGACCTCCGGGGTGCTGGGCGCCGGGGAAAACCAGCCGGTCCCCGGGACGCACCGCAGGGTCGTGGCGCGGATCCTGTCGCTGTGGCTCCTGACCCCTGTGATTACCGCCGCGGGCGCCTTCGTGCTGGCCTTGGCCCTCTCCCCCCTGGCCGGAACATAA	MTPFIFPLVVALAAAFAFINGFRDVSNSVALAVRTRALTPTIAVLLAAVFNFIGALLSSGFAVAVSQNWVTLPQGDSGLNILVAGLASACIWGLLLWWRGVPSSSTHALVGGLAGAGTASVLVSGNAVGGVDQSLLFQVVLPLALSPVIAFAGAYLLVYPVTWAARYAQPNVINRRFRAAQSITAGAVAFGHGLQDGQRIGAVLLLAVLAAGYSDGGSVPLWVAMLSAVMITVGTLFGGWRISHTMGHRLIRIDPLRGVVAQSVSAALLFIGAIGLHWPMSTTHTVTSGVLGAGENQPVPGTHRRVVARILSLWLLTPVITAAGAFVLALALSPLAGT	PGPT0002655_2817	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
D1-17_03581	780	pstB1	COG1117	Phosphate import ATP-binding protein PstB 1	ATGTCCAAGCGCATCGACGTCAAAGACCTGAACGTGTACTACGGCAATTTCCTGGCCGTCGAGGACGTCAGCATCAACATCGAGGCCAAGTCCGTCACGGCGTTCATTGGCCCCTCCGGCTGCGGCAAGTCGACCTTCCTCCGCACCCTGAACCGAATGCATGAGGTTCTGCCGGGCGCCCGCGTCGAGGGCGAGGTGCTGCTTGACGGTGACAACCTCTACGGCCCCGGCGTGGACCCCGTGACCGTGCGCTCCCAGATCGGCATGGTGTTCCAGCGGCCCAACCCGTTCCCCACGATGTCCATCCGCGACAACGTGCTGGCGGGCGTGAAGCTGAACAACCAGAAGATATCCAAGGGCGAAGCCGATGCCCTAGTGGAACGCTCCCTGCAGGGCGCCAATCTGTGGAACGAAGTCAAGGACCGGCTGGACAAGCCCGGTTCCGGCCTGTCCGGCGGCCAGCAGCAGCGCCTGTGCATCGCGCGCGCGATTGCCGTGGAACCCCAGGTGATCCTTATGGACGAGCCCTGCTCCGCGCTGGACCCGATCTCCACCCTGGCTGTTGAGGACCTTATCAACGAGCTCAAGGACCAGTACACCGTGGTGATCGTGACCCACAACATGCAGCAGGCCGCCCGCGTTTCGGACAAGACGGCGTTCTTCAACATCGCCGGCACCGGCAAGCCGGGCAAGCTCATTGAGTACGCCGAGACCAGCACCATCTTCAACAACCCGGGGCAGAAGGCCACGGAAGACTACGTCTCCGGCCGCTTCGGATAG	MSKRIDVKDLNVYYGNFLAVEDVSINIEAKSVTAFIGPSGCGKSTFLRTLNRMHEVLPGARVEGEVLLDGDNLYGPGVDPVTVRSQIGMVFQRPNPFPTMSIRDNVLAGVKLNNQKISKGEADALVERSLQGANLWNEVKDRLDKPGSGLSGGQQQRLCIARAIAVEPQVILMDEPCSALDPISTLAVEDLINELKDQYTVVIVTHNMQQAARVSDKTAFFNIAGTGKPGKLIEYAETSTIFNNPGQKATEDYVSGRFG	PGPT0002615_3190	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002615-pstB|phoT-K02036	NA	NA
D1-17_03582	1110	pstA1	COG0581	Phosphate transport system permease protein PstA 1	ATGACCTCCACCCTCACCCCGGTCCGCAAGCGGTCCGCCCTGACCAAAGGCCAGTTGCCTAAGTACGCCCCGTATGTCGTGCTGGGCGTCGCGCTCGTCCTCGGCGCCGCTCTGCTGGCCCTGATCGGCTTCAATGCGTTTGGCTGGGGAATCGTCTCCGCGATCCTCTTCGCCGCCGGCCTGGTCGGCTGGAGCGCCGCCGTCGAAGGCTCCCGCAAGGCCAAGGACAAACTGGCCACCTGCCTTGTGGTGGGATCTTTCCTCGTGGCGCTGCTGCCGCTCATCTCCGTGATCTGGACGGTCATGGCCAACGGCATTCCGGGCCTCCTCACGCCGGGATTCCTGAGCACCTCCATGAATGGTGTCACCGGCGTCTTTGACAACAGGGCAGCCGAAGGGGAGGGGCCGGTTGTGGGCGGCATCTACCACGCGCTCCTCGGCACGGTACAGATCACCCTGCTGGCCACCCTGATCTCCGTACCGGTTGGCCTGCTTACCGCCATCTACCTGGTGGAGTACGGAAATGACCGTCCCCTGGCCCGAGCCATCACCTTCTTCGTGGACGTCATGACCGGCATCCCGTCCATCGTGGCCGGCCTCTTCGCCGCCGCCTTCTTCTTCGCCATTGTGGGTCCGGGCACCAAAACCGGTGCCGTCGCCGCCGTTGCGCTGTCCGTACTGATGATCCCGGTGGTCGTGCGCTCCAGCGAGGAAATGCTAAAGATCGTGCCCAACGAGCTGCGCGAAGCGGCCTACGCCTTGGGCGTCCGCAAGTGGCGCACCATCCTCAAGGTGGTTATTCCGACGGCGATCTCCGGCATCGCGTCCGGCGTTACACTCGCAATCGCCCGCGTCATCGGCGAGACGGCGCCCATCCTGGTCACCGCCGGCTTTGCCACAAGCATCAACAGCAATGTGTTCAGCGGCTGGATGGCCTCGCTGCCTACGTTCATCTACACGCAGATCCTGAACCCCACGTCGCCGTCCAGCCCCGATGCATCCTCGCAGCGGGCCTGGGGCGCGGCATTGGTGCTCATCATCCTCGTGATGCTGCTCAACCTCGGAGCCCGCCTGATCGCCAGGGTCTTTGCTCCGAGGGCCGGCCGCTAA	MTSTLTPVRKRSALTKGQLPKYAPYVVLGVALVLGAALLALIGFNAFGWGIVSAILFAAGLVGWSAAVEGSRKAKDKLATCLVVGSFLVALLPLISVIWTVMANGIPGLLTPGFLSTSMNGVTGVFDNRAAEGEGPVVGGIYHALLGTVQITLLATLISVPVGLLTAIYLVEYGNDRPLARAITFFVDVMTGIPSIVAGLFAAAFFFAIVGPGTKTGAVAAVALSVLMIPVVVRSSEEMLKIVPNELREAAYALGVRKWRTILKVVIPTAISGIASGVTLAIARVIGETAPILVTAGFATSINSNVFSGWMASLPTFIYTQILNPTSPSSPDASSQRAWGAALVLIILVMLLNLGARLIARVFAPRAGR	PGPT0002610_1596	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
D1-17_03583	933	pstC2	COG0573	Phosphate transport system permease protein PstC 2	ATGACCGCCACCTCCCTGACCAGCTCCCAAAGCGCAGGCCGCGCCGGGGACAAAGTCTTCTCCGGAGCCGCCCTGGCAGCAGGGTGCCTGATCCTTGCCGTGCTGTTTGGCGTGGCGCTCTTCCTCGTCATCCAGGCACTCCCGGCATTCTCCGCCCCGGCCGAGGACATTCAGGGCGGCGAGGGATTCTTCGCCTACATCTGGCCGATCGTCATCGGTACCCTGATCGCCGCAGTTATCGCACTCGCGATCGCCACGCCCGTAGCCATCGGAGTTGCGCTCTTCATCTCCCACTACGCCCCCCGCGGCCTCGCATCCGGCCTCGGTTACGTGATCGACCTGCTGGCAGCCATCCCCTCGGTTATATACGGCGCCTGGGGTGCCGCTTTTCTCGCCCCGCAGATTTCGCCCGCCTACGGCTGGCTCGCAGCCAACATGGGCTGGCTGCCCATCTTCCAGGGACCGGCGTCAGCCACCGGCAAAACCATCCTGACCGCCGGAATCGTCCTGTCCGTCATGGTGCTGCCGATCATCACCTCCCTGTCCCGCGAGATCTTCCTGCAGACCCCCAAACTGCACGAAGAGGCGGCCCTTGCCCTGGGCGCCACACGCTGGGAAATGATCAAGATGTCGGTCCTGCCCTTCGCCCGGCCGGGCATCATCAGCGCCGTCATGCTCGGTCTCGGCCGGGCCCTCGGCGAAACCATGGCCGTTGCGCTGGTGCTCTCCTCGGGAGCCCTGACCGCCAGCCTGATCCAGTCCGGCAACCAGACCATCGCTGCTGAAATCGCCCTTAACTTCCCTGAAGCAAGCGGTCTGAAGGTCAGCACCCTCATCGCAGCCGGCCTCATCCTGTTCGTGATCACGCTCGCCGTCAACATGGTTGCACGGTGGATCATCAGCCGGCACAAAGAATTCTCGGGAGCCAACTAA	MTATSLTSSQSAGRAGDKVFSGAALAAGCLILAVLFGVALFLVIQALPAFSAPAEDIQGGEGFFAYIWPIVIGTLIAAVIALAIATPVAIGVALFISHYAPRGLASGLGYVIDLLAAIPSVIYGAWGAAFLAPQISPAYGWLAANMGWLPIFQGPASATGKTILTAGIVLSVMVLPIITSLSREIFLQTPKLHEEAALALGATRWEMIKMSVLPFARPGIISAVMLGLGRALGETMAVALVLSSGALTASLIQSGNQTIAAEIALNFPEASGLKVSTLIAAGLILFVITLAVNMVARWIISRHKEFSGAN	PGPT0002620_3773	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002620-pstC|phoW-K02037	NA	NA
D1-17_03584	1122	pstS3	COG0226	Phosphate-binding protein PstS 3	GTGAAGGCACTCCGCTTCGGCCGCCATGCGGCTATCGCTGTCATCGCCGCTGGCTCTCTCGCGCTCACCGCTTGTGGTTCCGACAATGCCACCAACACTCCCGGAGGGACCGGAGGTGCCGCCACCGGTGCCCAGGTCACCGGGACCCTCACGGGCATCGGTTCCTCCGCGCAGGGCGCAGCCATGGATGTGTGGAAGACCAATTTCGCGTCCGCAAACCAGGGCGTCACCGTGCAGTACTCCCCGGACGGTTCCGGTGCCGGGCGCAAGGCGCTCCTCGACGGTTCGGCACAGTTCGCCGGCTCGGATGCCTACCTGAAGGACGAGGAACTGGCTTCGTCCAAGAAGGTCTGCGGCCCTGAAGGCGCCATTGATGTCCCCGTCTACATTTCGCCGATCGCCATAGCGTTCAACCTTCCTGATGTCAAGGAATTGAACCTTGACGCCCCGACCGCTGCCAAGATCTTCCGCGGGGAGATCGCCAAGTGGAATGACCCGGCCATTGCTGCCCTGAACCCGGACGCCACGCTCCCGGATCTGAAGGTCACCCCGGTCAGCCGTTCCGATGACTCCGGCACCACCGACAACTTCACCGAGTACCTCGCGGCCGCCGCCCCCGAGGTCTGGAAAGACAAGGCCGACGGCGTTTGGCCCGCCTCCCTGAAGGGCGAGAACGCCAAGGGAACGTCCGGCGTCGTCAAGACCGTTACGGACACCCCGGGTGCCGTGACGTACGCTGACGATTCCGCCGTCGGAGGCACTCTTGGCAAGGCCAAGATCAAGGTCGGCTCCGAGTTCGTCGCGATTTCCCCTGAGGCTGCCGCCAAGGCCGTCGACGCCGGAAAGCCTGTCGAAGGCCGCGCGGAGAACGACACCGCTATCGACCTGGACCGCACCACCACGGAGTCCGGTGCCTACCCTGTCGTCCTGGTGTCCTACCACGTCGTCTGCTCCGCTTACGACAAGCAGGAGACCGCTGACCTCGTCAAGGCTTTCGAGAAGTACGTCGTCTCTGAAGAAGGCCAGAAGGCCGCTGCCGAGTCCGCAAAGTCGGCTCCGCTGTCTGCCGCGCTGACCGAAAAGGCCACCAAGGCCATCGAATCCATCAAGGTCAAGTCGTAA	MKALRFGRHAAIAVIAAGSLALTACGSDNATNTPGGTGGAATGAQVTGTLTGIGSSAQGAAMDVWKTNFASANQGVTVQYSPDGSGAGRKALLDGSAQFAGSDAYLKDEELASSKKVCGPEGAIDVPVYISPIAIAFNLPDVKELNLDAPTAAKIFRGEIAKWNDPAIAALNPDATLPDLKVTPVSRSDDSGTTDNFTEYLAAAAPEVWKDKADGVWPASLKGENAKGTSGVVKTVTDTPGAVTYADDSAVGGTLGKAKIKVGSEFVAISPEAAAKAVDAGKPVEGRAENDTAIDLDRTTTESGAYPVVLVSYHVVCSAYDKQETADLVKAFEKYVVSEEGQKAAAESAKSAPLSAALTEKATKAIESIKVKS	PGPT0002625_1329	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002625-pstS|phoS-K02040	NA	NA
D1-17_03585	552	hsaB	COG1853	Flavin-dependent monooxygenase, reductase subunit HsaB	ATGGAGAGCCCTGGGAACCTGGCCGCCCACCGTCTGGCGGGCAGACCGCCGTCGGATGCCGACGTCGATCTGTACCGCAGGCTGAGTGCCGACATCGCGGCCGGGGTAGCGGTGGTGTCCACTTCCCTGCGCAACCGCGACTACGCAGCGACCGTCACCGGGTTCCTGTCCGTTTCCTACGATCCACCCACGATGCTGGTTAGTCTCTACGCTGAATCACGGATCGGCGAGGCTGTGGAGGAGGCAGGCGTCTGGGCGCTGAGCCTGCTCTCGGGCAGGCATCAGGGTTCGGCCAACTGGCTGGCCAGCCCGGGGACGCCACTGCAGGGACTGCTGGCACAGGTCCCGTTCAGGAGGGGCCCAGTCACCGGCTCGGCCATCCTCGACGGCGCCCTCGCCTATTTCGAGCTGCGCACCGTGTCGGTTCATCAGGCCGCCACCCACCTGCTCATCGTCGGTGAAGTTCTTTCCATGGGCAGCGATGCTCCGCCGGGCGAGGCGCCAGACCCTCTGATCCATTTCGGTTCCCGCTATCACCATCTGGCGCCGTAA	MESPGNLAAHRLAGRPPSDADVDLYRRLSADIAAGVAVVSTSLRNRDYAATVTGFLSVSYDPPTMLVSLYAESRIGEAVEEAGVWALSLLSGRHQGSANWLASPGTPLQGLLAQVPFRRGPVTGSAILDGALAYFELRTVSVHQAATHLLIVGEVLSMGSDAPPGEAPDPLIHFGSRYHHLAP				NA	NA	NA	NA	NA
D1-17_03586	420			hypothetical protein	ATGGTTCCTGAGATCAACATCTGGGCAGTTCTGGTTGCGACGTTGTCCACGATGATCGTGGGGTCGGTCTGGTACACGCCCAAGGTCTTCGGCAACTACTGGAAGCGCGTGGCCAAGGTCTCGCCAAGCGGCGAGGCGAAGGATGCAGTCAAGCCCATCCTGATCACGCTCGCAGTCAGCTTCGTCAGCGCCTTGGTCCTGGCCGGATCCGTGGCCATCGCCCAGGACTTTTACGGCGGCAGCTTCCTCGCTAATTCCGTGATTACGGCCGTCATCCTCTGGGCAGGCTTCACGGCGGCGCGCTTCATCACCCACGATGCTTTTGAGGCCCGCCCCGCTGGACTCACGGCGCTGAACTGTGCCCACGAACTCGTGACCTACCTGGTGATGGCACTGGTCATCGGACTGTTCGGCATCTGA	MVPEINIWAVLVATLSTMIVGSVWYTPKVFGNYWKRVAKVSPSGEAKDAVKPILITLAVSFVSALVLAGSVAIAQDFYGGSFLANSVITAVILWAGFTAARFITHDAFEARPAGLTALNCAHELVTYLVMALVIGLFGI				NA	NA	NA	NA	NA
D1-17_03587	561			hypothetical protein	ATGACTCCGCCGACCGTGGCCACGGCAGCAGTTGCTCCAGCAGCCGTTACCACAGCAGGAGTTGCCAGGGCAGCAGCTGCGAGTGCAGCGCCGGCCGGCCGCGTTGCTTGGGGACGCGCCGGGGGAGCGGGCAGCCGGACGACCGGCACTCCGCTCCACTCCCGGGCCTGTGCTGCGGTGACCGCCGCGTCCTGCCTGGCCCACGTGTGGCTCGCCGCCGGCAGCGAGCATGGCCCGTGGCTCAGCGCGCTGATGCTGGCGATGGCGGCGGTCTGCCTGCCGTGTGCAGTCCACGTTTGGCGCCACAGCAGTGTCTCCGCCCTGCGCCGGATCATGGCTTCGGGGGTCGCGATGGCGGTGCTCCACGCTTTCCTGCTGCTCGCCCCGGCCGGCTCAGCCCATCACCATGCAGGGTCAGGTCCGGCGGCCGCGACGGCTATGGCGGGAGAACCGGAGGGGTCCGCTGCTGCCGCATTGCTTGCGGTCATTGCTTTGGAAATTACGACGGCGCTCCTCGCCTCAACGCTTGTGGCCCGCCTCCGCCCGCGCCCCCGCCGCTAG	MTPPTVATAAVAPAAVTTAGVARAAAASAAPAGRVAWGRAGGAGSRTTGTPLHSRACAAVTAASCLAHVWLAAGSEHGPWLSALMLAMAAVCLPCAVHVWRHSSVSALRRIMASGVAMAVLHAFLLLAPAGSAHHHAGSGPAAATAMAGEPEGSAAAALLAVIALEITTALLASTLVARLRPRPRR				NA	NA	NA	NA	NA
D1-17_03588	1935			Phenylethylamine oxidase	ATGACGCCCTCACTCACAGATGTAGCCACCCCTTTCAGGCTGGCCGCGGCCGCAGAAATCACCGAAGTGCAGGGCATTCTTCGCTCCGAAGGGCTCCTCGGCGCGGAGAAGCGCATCGCATACCTGGGCCTGCTCGATCCTGCCCGAGGAGGCGGCAGAGATGCGGAGGACCGCCGCTTCCGGGTCTTCATTCACGACATTTCCGGTGCCCGGCCGCACGACGTCACAGTTTCCGTCACCAGCGGCTCTGTTGTCTCCGCCGTCGAGCTCGACACTGCAGTTGCCGGCGAACTGCCGGTCCTCGAGGAGGAATTCGAGGTCGTGGAGGAGCTTTTGGCCGCGGATGAGCGGTGGCTGAAGGCCTTGGCGGTTCGCGACCTGGACGTCGCCAAGGTGCGTGTTGCTCCGTTGTCTGCTGGTGTCTTCGAATACCCGGAGGAACGGGGCCGCAGGATTCTTCGTGGCCTGGCTTTCGTGCAGGATTTTCCTGAAGACAGCGCCTGGGCCCACCCGGTGGACGGGCTGGTGGCCTACGTGGACGTGGTCAACAAGGAAGTCACCCAGGTGATCGACACGGGGATCTTCCCGGTTCCGGCCGAACACGGCAACTACACCGACCCCGAACTCACCGGCCCGCTGCGCACCACCCAGAAGCCCATCTCGATCACCCAGCCCGAAGGCCCCAGCTTCACCGTCACCGGCGGCAACCACGTGGAATGGGAGAAGTGGAGCCTGGACGTTGGCTTCGACGTCCGCGAGGGCGTGGTGCTGCACAACATCGGATTCCGGGACGGGGACCGGCTGCGGCCCATCATCAACAGGGCCTCCATCGCCGAGATGGTGGTCCCGTACGGCGACCCTTCCCCCATCCGGTCCTGGCAGAACTACTTCGACACTGGCGAATACCTCGTCGGCCAGTACGCCAACTCCCTTGAACTGGGCTGCGACTGCCTGGGCGACATCACCTACCTCAGCCCGGTCATTTCCGATGCCTTCGGCAACCCCCGGGAGATCCGCAACGGCATCTGCATGCACGAGGAGGACTGGGGCATCCTGGCCAAACACTCCGACCTCTGGTCCGGCATCAACTACACCCGCCGCAACCGCCGCCTGGTGATCTCCTTCTTCACCACCATCGGCAACTACGACTACGGCTTCTACTGGTACCTCTACCTCGACGGCACCATCGAATTCGAGGCCAAGGCCACCGGCGTCGTGTTCACCTCCGCCTTCCCTGAAGGCGGCTCGGACAACATCTCCCAGCTCGCCCCCGGACTCGGGGCACCGTTCCACCAGCACATCTTCAGCGCCCGTCTGGACATGGCAGTTGACGGCTTCACGAACAGGGTGGAGGAAGAGGACGTGGTCCGCCAGCCCATGGGGGAGGGCAACCCCCGCGGCAACGCCTTCTCCCGCCGGCGCACTGTGCTGGCACGGGAGTCCGCGGCGGCCCGCGAGGGCAATCCCCGCAGCGGCCGGACCTGGATCATCTCCAACCCCGAATCCCGCAACCGGCTGGGCGAGCCGGTGGGCTACAAGCTCCATTCCGAGGGCCAGCCCACGCTGCTGGCCGACCCCGAATCGTCGATCGCGCGCCGGGCCGCGTTCGCGACCAAGGACCTCTGGGTCACCCGGTATGCCGAAGACGAGCGCTACCCCACCGGCGACTTCGTAAACCAGCACGCCGGCGGTGCAGGCCTGCCCGCCTACATGGCACAGGACCGGGACATCGACGGCCAGGACATCGTCGTGTGGCACACCTTCGGGCTCACCCACTTCCCCCGCGTCGAGGACTGGCCCATCATGCCCGTGGACACCGTGGGCTTCAAGCTCCGCCCCGAAGGGTTCTTCGACCGCAGCCCTGTCCTCGACGTCCCCGCGTCCGCTCAGGCCTCCAGCCACTGCCAACCGTCCGCCGACCACTGCCATGGCTGA	MTPSLTDVATPFRLAAAAEITEVQGILRSEGLLGAEKRIAYLGLLDPARGGGRDAEDRRFRVFIHDISGARPHDVTVSVTSGSVVSAVELDTAVAGELPVLEEEFEVVEELLAADERWLKALAVRDLDVAKVRVAPLSAGVFEYPEERGRRILRGLAFVQDFPEDSAWAHPVDGLVAYVDVVNKEVTQVIDTGIFPVPAEHGNYTDPELTGPLRTTQKPISITQPEGPSFTVTGGNHVEWEKWSLDVGFDVREGVVLHNIGFRDGDRLRPIINRASIAEMVVPYGDPSPIRSWQNYFDTGEYLVGQYANSLELGCDCLGDITYLSPVISDAFGNPREIRNGICMHEEDWGILAKHSDLWSGINYTRRNRRLVISFFTTIGNYDYGFYWYLYLDGTIEFEAKATGVVFTSAFPEGGSDNISQLAPGLGAPFHQHIFSARLDMAVDGFTNRVEEEDVVRQPMGEGNPRGNAFSRRRTVLARESAAAREGNPRSGRTWIISNPESRNRLGEPVGYKLHSEGQPTLLADPESSIARRAAFATKDLWVTRYAEDERYPTGDFVNQHAGGAGLPAYMAQDRDIDGQDIVVWHTFGLTHFPRVEDWPIMPVDTVGFKLRPEGFFDRSPVLDVPASAQASSHCQPSADHCHG				NA	NA	NA	NA	NA
D1-17_03589	591	betI_4		HTH-type transcriptional regulator BetI	GTGCCAAAGATTGTCGATCACGATGAGCGTCGGCTGGAACTGGTCGGAGCGACCTGGCGGATCATTGCGCGGCTGGGAATCGAGAGTGCAACCATGCGTGAGATCGCCACGGAAGCCGGCTTCGCCAACGGGGCCCTCAAGCCCTACTTCCCCACCAAGGACACCCTGCTGACTTTCGCCTTCAGCCACGTCTTCAACAGGACGAATGAACGCATCGCAGAGGTCACCGCCGGAAAGTCCGGCATAGCCGCCCTGCGGGCTTTCTGCCTGGAGGTACTGCCGCTGGATGAGGAGCGGGTCAGCGAAGCGCGGATTGTCATCCCCTTCTGGCAAAAGGCCATCAACGATCCCGAAAAGGCCGCCATTCACCAGGAATCCATGGAGCAGTGGCAGGCAGCCATCGTCCGCCACCTCGGCGAGGCAAGGAAGAGCGGCGACGTGAGCGCCGCGACAGACGACGGGGTCGTCGCCGGGCACCTGCTTAACATGCTGCTCGGGGCCCAGATAACGGCAGCACTCGCCCCCGGGAGCCAGGACGACCTCAGGCTGGGGGACCAACTCGAGTCGTTCCTGGGCCTGCTGGCCAAGTAG	MPKIVDHDERRLELVGATWRIIARLGIESATMREIATEAGFANGALKPYFPTKDTLLTFAFSHVFNRTNERIAEVTAGKSGIAALRAFCLEVLPLDEERVSEARIVIPFWQKAINDPEKAAIHQESMEQWQAAIVRHLGEARKSGDVSAATDDGVVAGHLLNMLLGAQITAALAPGSQDDLRLGDQLESFLGLLAK				NA	NA	NA	NA	NA
D1-17_03590	957	nphR_2		Transcriptional activator NphR	ATGCGAACAGCCACAGCCCGGCCCGCCAGTCAGGAACTGACGGCCAGCATTGCCACTTCGTTCGACCACTGGAAGCATCTGGTTGCAGAATCCTTCGTTCCGCTCGCTGCCCGAACAGTTGACGCGGATGGTTTCCGCGGGCAGATGCGCTCGCGCGTGCTGGACCGAATGTGCATTGTTGAAGTTTCCGCGACCTCCCACGAGGTTCACCGGACCCCTACATTGATTGCCCAGGCCGGCGAGCGTTACTTCAAGCTCAACCTCCAACTGGAGGGGACGGGCCTCCTGGTCCAGGACAACCGCGAGGCACTGCTCCGTCCCGGCGATCTGGCCATCTACGACACCAGCCGCCCTTACACCCTGGCCTTCGAGGGAGCAGCGCGGATGATAGTGATGATGTTCCCGTGTGATGCCCTGTCACTGCCCGCCGACTACGTCGGCCAGCTCGCGGCCGTCCGTATGGGAACCGCAGGCCTCAGTGGCCTGGTGGGGCAGTTCATCCGGCAGCTCTCCGAAAACCTCGAGGTTCTGGGCGGCGCCAGCGGGTCACGGCTGGCCGTCAACGCCCTGGACCTGGTGTCCACGATGCTGCACGCGGAAATGGACATCACCCCGGACCGCATGAAGCCGCAGGCCCTCCTGGCGGTTGCCGTTCGTGAATATATTGAGGCCAACCTGGCCGACCCCCTGCTGTCACCGGCCAGCATTGCCGCAGCCCATTTCATTTCCACACGCCACCTGCACAATGTCTTCCACGAGTCCGGCACAACCGTCGCCAGCTGGATCAGGAGCCAGCGCCTTGAGGGCGCACGCCGCGAACTGCGGGATCCCCTGCATGCCGGCAAGTCGGTGAGCGCCGTGGCTGCACGCTGGGGTTTCCTCGACGCCGCGCACTTCAGCCGAACGTTCCGCGATGCCTTCGGCCTTTCACCCAGCGACTGGCGCCGCGGGGCGTGA	MRTATARPASQELTASIATSFDHWKHLVAESFVPLAARTVDADGFRGQMRSRVLDRMCIVEVSATSHEVHRTPTLIAQAGERYFKLNLQLEGTGLLVQDNREALLRPGDLAIYDTSRPYTLAFEGAARMIVMMFPCDALSLPADYVGQLAAVRMGTAGLSGLVGQFIRQLSENLEVLGGASGSRLAVNALDLVSTMLHAEMDITPDRMKPQALLAVAVREYIEANLADPLLSPASIAAAHFISTRHLHNVFHESGTTVASWIRSQRLEGARRELRDPLHAGKSVSAVAARWGFLDAAHFSRTFRDAFGLSPSDWRRGA				NA	NA	NA	NA	NA
D1-17_03591	672			hypothetical protein	GTGACGCTCGTCTGCCTGCTCCTTTCCGGTGCAGCGCTCTTGATCAACGGTCTCGCAGCCCTGAATGTGGTCCCCAGCCGGGATGCCGCCGTGTTCAGCCTCGCGATCGGCAGCGCACAGCTGGTCCTTGGCGTGACCTATGTGGCTGGAACTGACGGCGCCGGCGACACCGGAACGCAGGTCCTGCTCAGCGGGGCCGGGATGTTCCTCTTCGGGATGACCTACCTCTATGTGGGCCTGGATTTCCTGCTCGGACTGGGCTCCAAGGGCCTCGGCTGGTTCTGCGGCATGGTGGCCGCGTTCGGGCCGCTGCTCGCCGCGGCCTGGCTTCGTGATGATCCGCTGCTGGCGGTCCTCTGGCTGTGCTGGTCCGTACTGTGGGCCCTGCTCTTCACGTCCCTGGCCCTGGGGGCGCACCGCATCAAGCCCTTCACAGGCTGGGCGCTTGTGCTCACGAGCCAGGCAACGGCCACCGTCCCGGCATTTCTAGGAATCACCGGGCTCTGGCCCTACCGGGCGGATGCCGCGGCGCTGGCAGCGGCTGTTCTGGCCATTCTTTTCCTGGCGGCAGGCGTGTTGGCCCGGCGCGGATCATCCGACCCGCACCGGGCCAACAATGGGGCACTCCCTTCCGCGCCCCTCGCTTCCCCACCCAGGGAGGCTGCGCGTTAG	MTLVCLLLSGAALLINGLAALNVVPSRDAAVFSLAIGSAQLVLGVTYVAGTDGAGDTGTQVLLSGAGMFLFGMTYLYVGLDFLLGLGSKGLGWFCGMVAAFGPLLAAAWLRDDPLLAVLWLCWSVLWALLFTSLALGAHRIKPFTGWALVLTSQATATVPAFLGITGLWPYRADAAALAAAVLAILFLAAGVLARRGSSDPHRANNGALPSAPLASPPREAAR				NA	NA	NA	NA	NA
D1-17_03592	1473			hypothetical protein	ATGAGTATTTCGAATTCCGAGTCCCGGACCACCGATGCAGCCCCGGCGACGGAGCATTCCACCGCTCTCCGCGCCGGGAGCATCGGTGTGCTGGGCATTCTCTTCTTTGTCCTGTCCGCCCAGGCGCCCCTGACAGGCATCGTAGGTGCTTCACCCCTTGCAGCAGCGCTCGGCAACGGTGCCGGCGCTCCGGGCGCGTACCTCATCGTGGGCATCGTCATCGTGATTTTCGCGGTGGGGTTTGTGGCCATGAGCCGGAAGGTACAGGGCAACGGCGCCTTCTATGCCTACGTGACAGCAGCATTCGGCAGGAAGACCGGCGCCGGTGCCGCCTGGCTGGCGCTCCTGGCCTACAACACGGTCCAGGCTGCAATGTACGGGCTGTACGGCGCCGTATTCGCGGGCCTTCTGGCCTCTTCCTTAGGCCTGGACGTGCCCTGGTGGCTGCTGGCCCTGGTCACCATGGCCGGAGTGCAGGTGCTGGGCTCAATGAACATCGAACTGGGAGCCAGGGTCCTCGCGTTCCTGGTTGGACTCGAAGTTGCGATACTTCTGTTGTTTGGCTTCACAGTGCTGCTCCGCGGCGGCGGGCCGGAAGGCCTCAGCCTCGCGGCCTCCTTCTCGCCCGGAGCCATCGCCGCCGGCGCACCAGGCGTGGCCATCATGTTCGCCGTTGCCTCCATGTTCGGCTTCGAATCCACCGCAATCTATTCGGCCGAAGCCAAAGACGCGCACCGCACCGTGGCGCGGGCAACCTACCTCTCTGTGGGCGTCATTGCCGTCTTCTTCTCCTTCATCTCCTGGATGCTGGTCAGCTACTACGGCCCTACCCAGGTCATGGATGCAGCCGGCGCCGCCCTTGAATCGGGGGACGCCACCACGTTTGTCCTGGGCCCCATGGTGGAGCTTTTTGGGCCTTGGGCGGGCACCGTCACCGGCGTCCTGCTGGTCACATCACTGCTGGCCGGCATCATCGCCTTCCACAACGGGATCAACCGCTACCTTCACTCGCTGGCGCTGCGCGGCTCCATGCCCGCCGTGGTGGCCCGGACCAACCGGCACCGTGCCCCGGCTGTAGCGGCCTGGATCCAGACAGTTACCGCCGTCGTACTGGTTGCCCCGTTCGCCGTCCTGGGCGCGGATCCGGTCCTGAGCCTGTTCTCCTGGTTCAGCGGCCTGGCTGTGGCAGCCCTGCTGGTGCTGTATATCCTCTGCTCCATCGCCGTCGTCGGCTACTTCCGCCGTCGGGGCAACGACGGCCAGCTGTGGCAGACCCTGGTAGCGCCGGCGCTCGCGGCCCTGCTGCTGGCATGGATCCTCTTCCTCGTGGTCAGCAACTTCACCTCGCTGATCGGCGGCAGTGCCGAGACCGCTGGCGTCCTGCTGGTGGCCGTCCCCGCGGTCTTCATCGTCGGTGTGGTTGTGGAAGTGCTGATCGCCCGGCGGGCCGCCGGCATGGTGCGCATCTACTAA	MSISNSESRTTDAAPATEHSTALRAGSIGVLGILFFVLSAQAPLTGIVGASPLAAALGNGAGAPGAYLIVGIVIVIFAVGFVAMSRKVQGNGAFYAYVTAAFGRKTGAGAAWLALLAYNTVQAAMYGLYGAVFAGLLASSLGLDVPWWLLALVTMAGVQVLGSMNIELGARVLAFLVGLEVAILLLFGFTVLLRGGGPEGLSLAASFSPGAIAAGAPGVAIMFAVASMFGFESTAIYSAEAKDAHRTVARATYLSVGVIAVFFSFISWMLVSYYGPTQVMDAAGAALESGDATTFVLGPMVELFGPWAGTVTGVLLVTSLLAGIIAFHNGINRYLHSLALRGSMPAVVARTNRHRAPAVAAWIQTVTAVVLVAPFAVLGADPVLSLFSWFSGLAVAALLVLYILCSIAVVGYFRRRGNDGQLWQTLVAPALAALLLAWILFLVVSNFTSLIGGSAETAGVLLVAVPAVFIVGVVVEVLIARRAAGMVRIY				NA	NA	NA	NA	NA
D1-17_03593	867	nagB_2	COG0363	Glucosamine-6-phosphate deaminase	ATGCCCGTGCAGATTATTCTGTGTGAGTCCGCAGAGCACGTCGGGAACAGGGCCGCCGACATCATCGAAGCCCGCGTCCGTCGGGGCCCGGCCGTGCTGGGCCTGGCCACGGGCGGTTCCCCGAAATCAACGTATGAGGAGCTCATCCGGCGGCATCGCGAAGAACAGCTCAGCTTCGGCCAGGTCCGTGCATTCACCTTGGACGAGTATGCCGGGCTGCCGCCGGAGCACGAACAGAGCTACCACTCCACCATCCGGCGCGAATTCACGGACCATGTAGACCTGCCGCTGGAGCAGCTCATCACACCGCAGGGGAATGCCCCGGACCTTGTCGCCGAGGCTGACCGCTACGACGCCGCTATCGCAGCGGCCGGCGGAGTGGACATCCAGATCCTCGGTATCGGAGCGAACGGCCACATCGGGTTCAACGAGCCAACGTCGTCGCTGGTGTCCCGCACCCGGGTGAAGACGCTGGCCGGAGCCACGCGGGCGGATAACGCCCGGTTCTTTCCTGACGGCGACGTTCCCCGGCTCTGCCTGACCCAGGGGCTCGGGACCATCCGTGAAGCCAGGCTCGCCGTGCTCGTGGCGATGGGGGAGAACAAGGCCAGCGCCGTCCAGGCGATGGTGGAAGGGCCGGTCAGCGCACACTGCCCCGCGTCTGTTCTGCAATTGCACCGCCGCGCCGTCGTCATTCTTGACCCCGCGGCCGCGTCCCGCCTGAGCCTGCTGGACTACTATCGGGACGCCCAGGAATTCAACGACCAGCTGGGGCAAACACCGACGCGTCCCTGGATGGAGCAAGGACAGACGGGGCAAGCGGCGGTCCGGCAGACGCACATACAGCATACGGGCAGCGGCGCCTAG	MPVQIILCESAEHVGNRAADIIEARVRRGPAVLGLATGGSPKSTYEELIRRHREEQLSFGQVRAFTLDEYAGLPPEHEQSYHSTIRREFTDHVDLPLEQLITPQGNAPDLVAEADRYDAAIAAAGGVDIQILGIGANGHIGFNEPTSSLVSRTRVKTLAGATRADNARFFPDGDVPRLCLTQGLGTIREARLAVLVAMGENKASAVQAMVEGPVSAHCPASVLQLHRRAVVILDPAAASRLSLLDYYRDAQEFNDQLGQTPTRPWMEQGQTGQAAVRQTHIQHTGSGA	PGPT0018865_1024	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018865-nagB-K02564	NA	NA
D1-17_03594	1329	nagA	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGCGAGCTGACCTGACCTCGCCGGAATCCGCCGGCACCGTGCGGGGGCTGCGCGGGCGCCTCATTACGGGCCGGCCCGGCGAAAAGGTGATCGATGACGGCACCGTGGTGATCGCCGGGGAGCGCATCCTCTGGTGCGGTCCGACGGCGGAGCTGCCCGCCGGGGTCGGCGTCGAGACGGAGCCGGTGCCGGTCATCCTGCCCGGACTCGTGGACGTCCACTGCCACGGCGCCGTGGGACACACCTTCGGCGCGGATGCGGACGGTGCGCGGCGTGCGGCGGCCTTTCACGCCGCCCAGGGAACGACGTCGGTACTCGCCTCGCTCGTCTCGGTCCCTTCCAGCGTGCTGCTGGAGCAGATCTCGGTGCTGCGGGAGCTGGTGCAGGACGGCACACTGGCCGGCCTGCACCTGGAGGGACCGTTCATCACCAAGAGCATGTGCGGGGCGCAGGACCCCGACGCCATCATCGACGGGGACCCGGTGCTCCTGCGGCAGTGGCTTGAGGCAGGCCAGGGCGCGGTGCGTTCCCTCACGCTCGCCCCGGAAACGGCGCACTTTGCCGAGCTCATTGAGCTGTGCCGGAACTACGGCGTGGTTCCGTCGCTCGGCCACACCGACGCCTCAGCCGCGCTGACGCGGAAGGCGCTGGCGGGCGCCTTTACCGGCGTTTCCGGTGAGGACGCGGGCGGCGGTCGGGGTGGCAACCGTGACGCTCGCCCTTGGTCCGCCACGCACTTGTTCAACCGGATGCCTCCGCTGGGCCACCGCGCACCGGGACCCATCCCGGTCCTGCTGCAGGCCGCGCAGCAGGCGCCCGAACGGATGGTCCTGGAACTCGTGGCCGACGGCGTGCACCTGGACCCCGAAATTGTCCGCATGGTCTTCGGGCTTGTGGGATCTCGCGCGGTTGCCTTGGTCACCGATGCCATGGCCGCGACCGGGATGTCCGACGGCCACTACACGCTCGGCCGGCTCGACGTGCTCGTCCAGGACGGGGTGGCCCGCCTGGTTCCGGCAGGGGACCAGGAGCACCTCGGGGCGATCGCCGGGGCCACCAGCCTGCTGCTGGACAACGTCCGCCACTGCATGGAGTGGGGAGTGCCGCTGGCCGATGCCGTTGCAGCGGCTTCGGCGACCCCGGCGCGGCTCATGGGACTGGACCGCCCCGGCCCCGCACAGCTTGGCGCGACTCCGGTCGGTTCCATTGCCGAGGGATACCGTGCCGACGTGCTGGTCGCCAGCGAAAAATGTGAACTTCTGCAGGCTTATCGGGCCGGCAGGCAGATAAGCCAGGAAAGGAATGCCCGTGCAGATTATTCTGTGTGA	MRADLTSPESAGTVRGLRGRLITGRPGEKVIDDGTVVIAGERILWCGPTAELPAGVGVETEPVPVILPGLVDVHCHGAVGHTFGADADGARRAAAFHAAQGTTSVLASLVSVPSSVLLEQISVLRELVQDGTLAGLHLEGPFITKSMCGAQDPDAIIDGDPVLLRQWLEAGQGAVRSLTLAPETAHFAELIELCRNYGVVPSLGHTDASAALTRKALAGAFTGVSGEDAGGGRGGNRDARPWSATHLFNRMPPLGHRAPGPIPVLLQAAQQAPERMVLELVADGVHLDPEIVRMVFGLVGSRAVALVTDAMAATGMSDGHYTLGRLDVLVQDGVARLVPAGDQEHLGAIAGATSLLLDNVRHCMEWGVPLADAVAAASATPARLMGLDRPGPAQLGATPVGSIAEGYRADVLVASEKCELLQAYRAGRQISQERNARADYSV	PGPT0018860_175	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018860-nagA-K01443	NA	NA
D1-17_03595	1389	nagE2	COG1263	PTS system N-acetylglucosamine-specific EIIC component	ATGTCCACGGAAAACCCGTCCGCCTCCTCCGGAGGCGCGTCGCCGACGCCAGCCCCGGACAATGCCGCAGGCAACGTCCCTGGCGAGCTCCCTGGCAAGACCGCAGGAAATGCCACGGGAAAACCCGCAGGGAACGCAACAGGCACGGCCGAAAAGGCCCCTGACAAGGCTCCTGGCAAGGACAAGGGGAGCGGTAAAGCGCTGCAGAACATGCAGCGGTTCGGACGCAGTCTCATGCTCCCCATCGCAGCGCTTCCAGCGGCGGCACTCCTTCTGCGCCTCGGCCAGGACGATCTGCTGGGCCGGTTCGAATCCCTGGCCACCGTTGCCCAGGTGATCGGAGCCGCCGGCGGGGCCCTGTTTGAAAACCTTCCGCTGCTTTTCGCCGTCGGCATCTCTTTCGGGTTCGCCAAGAAGGGTGACGGATCAACGGCACTGGCCGCCGTTGTCGGCTATCTCGTCCTGATCAACGTCTTCAAAGTCATGGCACCGCTGGTCCTGGGTCCCGCCCCGGAGGGCGGCGAGGATCCGGTCATTAACTACGGGGTGCTGGCCGGCATCGTGATGGGCCTGACCACGGCCTGGCTGTGGCAGAAGTTCCACCGGACAACCCTCCCGGACTGGCTCGGATTCTTTGCCGGCCGCCGGCTGGTGCCTATCCTGACGTCTTTCGCCGCGATCGTGATCGGCGTGGTCATGGCCCTCCTGTACCCCTTCTTCAACACCGGCCTGACGGCAGTGGGGAACGCCGTCGCGGACAACACCGTGGTGGGCGGCGGCATCTACGGCACCCTCAACCGGCTGCTCATCCCGCTGGGCCTGCACCACATCCTGAACTCCATCGTCTGGTTCATCATCGGTGACTACAACGGCACGCACGGCGACTTGAACCGCTTCTTCGCCGGTGACCCCTCAGCGGGCGTCTTCATGGCCGGTTTCTTCCCCATCATGATGTTCGCCCTCCCCGCAGCGGCGCTGGCCATCTGGCATGAGGCCAAGCCCTCCCAGAAGAAGGTCGTCGGCGGCGTCATGCTCTCCACAGGCCTCACCGCCTTCCTCACCGGCATCACCGAACCGCTGGAGTTCTCCTTCATGTTCGTTGCCTGGCCGCTTTACCTCGTCCACGCCCTCCTGACCGGAACGTCCATGATGCTGGTCAACTTTCTGGGCATCCACCACGGGTTCGGTTTTTCCGCCGGAGCCATCGACTACCTGCTCAACTTCGGCATCGCCCAGAACCCGCTCCTGCTGGTGCCCATCGGCCTGGGCTACGCAGCGATCTACTACGTGGTGTTCCGCTTCGTGATCCGGCGCTGGAACCTGCGCACCATGGGCCGCGAAGATGAAACCGACGAGAACGGTTCCATGGCCAAGGCCGATGCGAGCTGA	MSTENPSASSGGASPTPAPDNAAGNVPGELPGKTAGNATGKPAGNATGTAEKAPDKAPGKDKGSGKALQNMQRFGRSLMLPIAALPAAALLLRLGQDDLLGRFESLATVAQVIGAAGGALFENLPLLFAVGISFGFAKKGDGSTALAAVVGYLVLINVFKVMAPLVLGPAPEGGEDPVINYGVLAGIVMGLTTAWLWQKFHRTTLPDWLGFFAGRRLVPILTSFAAIVIGVVMALLYPFFNTGLTAVGNAVADNTVVGGGIYGTLNRLLIPLGLHHILNSIVWFIIGDYNGTHGDLNRFFAGDPSAGVFMAGFFPIMMFALPAAALAIWHEAKPSQKKVVGGVMLSTGLTAFLTGITEPLEFSFMFVAWPLYLVHALLTGTSMMLVNFLGIHHGFGFSAGAIDYLLNFGIAQNPLLLVPIGLGYAAIYYVVFRFVIRRWNLRTMGREDETDENGSMAKADAS	PGPT0016860_1457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_PTS_SYSTEM,PGPT0016860-nagE|nagP-K02804	NA	NA
D1-17_03596	231	nagF	COG1264	PTS system N-acetylglucosamine-specific EIIB component	ATGTCCAAAGCAGAAACAATCCTCGCCGCCTTGGGCGGGGCCGATAACGTCGAAGAGATCGAAGGCTGCATCACCCGCCTCCGCACCGAAGTGGTGGATGCCGGCCGCGTGGACCAGGTTGCACTCAAGGCGGCCGGTGCCCACGGCGTCATGGTCGCCGGCAGCGTAGTCCAGGTGGTTGTGGGCCCCGAAGCTGAGAGCCTGGCAGAAGACATTCAGGACCTCATGTGA	MSKAETILAALGGADNVEEIEGCITRLRTEVVDAGRVDQVALKAAGAHGVMVAGSVVQVVVGPEAESLAEDIQDLM	PGPT0016860_699	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_PTS_SYSTEM,PGPT0016860-nagE|nagP-K02804	NA	NA
D1-17_03597	516			hypothetical protein	GTGAGCAGGCCTGACGCGACCACGCCTGATATGGGTGCAGCAGTACCCGCCGCAGCCATCAGCGTGGCCTCTCCCCTGCCCGGCAGGCTCATCCCGCTGAGCGAAGTCCCGGACCCCGTGTTCGCCAAAGGGCTGGTTGGCGGCGGAGCCGCCGTCGTTCCCGATGATGACGCAGGGGTGTTGACCGCCGTCGCTCCCCTGGATGGACGCGTCATCAAGGTGATGCCGCACGCGTACATCGTCCAGCATGCCTCCGGACCGGCTGTGCTGGTCCACGTGGGCATTGACACGGTGAACCTGAAAGGGGAGGGCTTCAGTGTGCTCGCGCAGAAGGGCGACCAAGTCAGCGCCGGTGACCCCATGATCACCGTTGACGTCACGGTGGTCCGCTCGAAAAACCTCAGCATGTGCAGCCCGGTGGTGATCCTCGATACCCCAGCGGACGCCGTCGGTACTCTGGAGAGCGGAGCACGCGTCGAAGCCGGCGGGCACCTGTTTAATCTGCCCGGACAATAG	MSRPDATTPDMGAAVPAAAISVASPLPGRLIPLSEVPDPVFAKGLVGGGAAVVPDDDAGVLTAVAPLDGRVIKVMPHAYIVQHASGPAVLVHVGIDTVNLKGEGFSVLAQKGDQVSAGDPMITVDVTVVRSKNLSMCSPVVILDTPADAVGTLESGARVEAGGHLFNLPGQ	PGPT0014090_172	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0014090-crr-K02777	NA	NA
D1-17_03598	732	nagR	COG2188	HTH-type transcriptional repressor NagR	ATGGACAAAGCAGGGGAACTGAAACACGTCTGGGTGCGCAAGCAGCTCCAGGACCTGGTGGCCAGGACCCTGCGCCCCGGGGACGCCCTGCTCGGGGAACGCCAGCTGGAGGAGCAGTTCGGAGTCTCCCGGATTACCGTGCGCAGGGCGATTTCCGACCTCGTGCAGGACGGCGCCCTGGTGCGGATCAAGGGCAAGGGGACCTTCGTCTCACACGGGCTGGTGCGTTCAACCCTGCACCTGGCCTCCTTCAACGAGGACATGCGGGCCGCCGGTTTTGAACCCAGCACTCGGGTTATAAAAGCCGCCATCGCGGAGCCGCCGGTGGCTGCCGCCGAGCACTTGGGGCTGCTTGGGGGACAGGAGGCGTACCAGGTGCGGCGGTTGCGGCTGGCGAACGGGGCACCCGTCAGCGTGGACGAATCCTGGCTGCCGCCCGGGCCGCTTCCCGATCTGCTCTCGGAGGACCTGACCGGGTCCCTCTACCGGATTCTCTCCGTCTCCGGGCATCCGGTGGAGCACGTCGAACAGACCGTCGAGGCCGCGGCCGCATCGGAGGAAACTGCCGCCCTGCTGGAAATCGAAGCGGGCACGCCGGTCCTCCTCTTTAGGCGCCGCTCGTTTACAGGCCAGGAGGATCCGGGCACGCCCATCGAGTACTCCATCTCGACCTACCGCTCGGACCGGTACCAGGTGTCCATGCGGCTGGCTCTCGGCTCATCCGCCCGCTAA	MDKAGELKHVWVRKQLQDLVARTLRPGDALLGERQLEEQFGVSRITVRRAISDLVQDGALVRIKGKGTFVSHGLVRSTLHLASFNEDMRAAGFEPSTRVIKAAIAEPPVAAAEHLGLLGGQEAYQVRRLRLANGAPVSVDESWLPPGPLPDLLSEDLTGSLYRILSVSGHPVEHVEQTVEAAAASEETAALLEIEAGTPVLLFRRRSFTGQEDPGTPIEYSISTYRSDRYQVSMRLALGSSAR				NA	NA	NA	NA	NA
D1-17_03599	864	pheA_1		Bifunctional chorismate mutase/prephenate dehydratase	ATGGCCCAGAAGATTGCGTACCAGGGTGAGCCTGGCGCCAACTCCAATATCGCGTGCAAGCAGATGTTCCCCGAGCTGGAAAGCGTGCCGTGCGCCAGCTTCGAGGACGCCTTCGAACTGGTGTCGGGCGGCGAGGCCGACCTGGCCATGATTCCCATCGAGAACTCGATTGCCGGGCGGGTGGCAGATATCCACATCCTCCTGCCGCAGTCCAAGCTTCAGATCGTAGGCGAATACTTCCTGCCCATCCACTTTGATCTGTTGGGCATCCCCGGCAGCACCCTCGAAGCCGCAACCGAGGTCCACAGCCATATCCATGCCCTGGGCCAGTGCCGCCGACTGATCCGCGAGGCCGGATTGCGGCCTGTCATTGCAGGGGATACGGCAGGGTCTGCCCGCGAGGTCAGCGAGTGGAACGATCCCCGCAAACTGTCCCTCGCTCCCCCGCTGGCCGCCCGGATTTACGGACTGGAGGTGCTGGCCTCACGGGTCGAGGACGATCCCTCCAACACCACCCGATTTGTGGTCCTGGCCCGGGAAAAGCCACTGCCGGCCCGGGATGAACTTCCCGGACCGGCAGTCACCAGCTTTGTGTTCCGCGTCCGGAACGTCCCGTCCGCGCTGTACAAGGCGCTGGGCGGCTTTGCCACGAATGGCGTGAACATGACACGGCTGGAAAGCTACATGGTGGGCAACGAGTTTGCCGCCACCATGTTTATGGCCGACGTCGAGGGCCACCCTGAAGACCTGCCCCTGAAGCTCGCGCTGGAGGAGCTGGACTTCTTCACCACGGAGGTGCGGATCCTGGGTGTGTACCCTGCCGCGGAATACAGGTCCGGGCAGGCTGACCGTCCAGCTGGATAG	MAQKIAYQGEPGANSNIACKQMFPELESVPCASFEDAFELVSGGEADLAMIPIENSIAGRVADIHILLPQSKLQIVGEYFLPIHFDLLGIPGSTLEAATEVHSHIHALGQCRRLIREAGLRPVIAGDTAGSAREVSEWNDPRKLSLAPPLAARIYGLEVLASRVEDDPSNTTRFVVLAREKPLPARDELPGPAVTSFVFRVRNVPSALYKALGGFATNGVNMTRLESYMVGNEFAATMFMADVEGHPEDLPLKLALEELDFFTTEVRILGVYPAAEYRSGQADRPAG				NA	NA	NA	NA	NA
D1-17_03600	1395	abaF_9		Fosfomycin resistance protein AbaF	ATGGCATCGCCCCGAACTACAGGCGCGCCTGCGGCCCGCCAGCGCATGAGCCAGGCGGACCGCCGCGTGGTTGCCGGCACCATGATCGGCACCACCATCGAATGGTACGACTTCTTCATCTTCGCCCAGGCCGCCGGCGTCGTCTTTGCCAGCCTCTACTTCAAACCCCTGGACACGGACAGCCCCGGACTCGCACAGCTGGTCTCGTGGGCAACGATCGGCGTGAGCTTCTTCTTCCGGCCCCTCGGTGCTGTGATCGCCGGGCGGCTCGGTGACCGGGTGGGGCGCAAGGCCATGCTCGTCTTCACCCTGGTCATGATGGGAGCGGCCACCGCCCTGATCGGGCTCCTCCCGACATACGCCCAGATCGGTGTCTGGGCCCCCATCCTGCTGATGGTCCTGCGCATTCTGCAGGGCTTCTCTGCAGGCGGGGAGTGGGGCGGGGCCGCACTGATGGCAGTGGAGCACGCGCCCCGCGACAGGCGGGGATTCTGGGGGGCCTACCCCCAGATCGGCGTGCCCGTCGGCATGATCATCGCAACCCTGGTGCTGTTCCTGCTCCGGCTCTCCATGTCCGAGGAACAGTTCCTCGAATGGGGCTGGCGTGTTCCCTTCCTGCTATCAGTAGCCCTGATCGTCGTGGGTTACTTCATCCGTGCTGCCGTTTCAGAGAGCCCCGTGTTCAAGGAAATGGTGGAGCGCAAACGGGAGTCGGCCACGCCGCTGAAGCAGCTGCTGGAGACGAACAAAAAGCAGGTCCTGCTGGCCGCTGTCATCTTCATCGGCAACAACGCCGCCGGCTACCTCGTGATCGCGTTCCTGTCCTCGTACGCCCAAAAGACACTGAAGATGGACGCCTCCCCGGTGCTGCTGGCCACCCTCCTCGCCTCGTTCGGCTGGCTCATCTTCACCCTCTTCGGGGGAGCCCTTTCGGACAGGATCGGCCGGGTGCGCACCTTCCAGCTTGGCTACGTCCTCATCTTCGCGTGGGTGATTCCGATGTTCCTGCTGGTCGACACCCGCAATATCTGGGCCTACGGCGTGGGCATCTTCGTCTTGACGATAGGACTGGGGCTCTCCTACGGGCCCATGTCCGCTATGTACGCAGAGATGTTCCCGGCGAGCGTCCGCTACTCGGGAATCGGCATCGGGTACGCCCTGGGTTCCATCCTTGGCGGAGCCTTCGCACCGCTCATAGCCGAAGCGCTGCTGAAGGACACCGGCTGGTCCGTCTCCATCGGGATCTACATCATGGCCCTGTGCGTCATCTCCATCATCGGCGTCAGCCTGGTGAAGGAAACGAAGGGAGTTCCGTTGGGAGCAGCGGACTCCGATGCCGCTGATGCTGCTGACGCACAGCCCGTCCCGTCCCTCAAAGCAGGGCCGTCGGCCTAA	MASPRTTGAPAARQRMSQADRRVVAGTMIGTTIEWYDFFIFAQAAGVVFASLYFKPLDTDSPGLAQLVSWATIGVSFFFRPLGAVIAGRLGDRVGRKAMLVFTLVMMGAATALIGLLPTYAQIGVWAPILLMVLRILQGFSAGGEWGGAALMAVEHAPRDRRGFWGAYPQIGVPVGMIIATLVLFLLRLSMSEEQFLEWGWRVPFLLSVALIVVGYFIRAAVSESPVFKEMVERKRESATPLKQLLETNKKQVLLAAVIFIGNNAAGYLVIAFLSSYAQKTLKMDASPVLLATLLASFGWLIFTLFGGALSDRIGRVRTFQLGYVLIFAWVIPMFLLVDTRNIWAYGVGIFVLTIGLGLSYGPMSAMYAEMFPASVRYSGIGIGYALGSILGGAFAPLIAEALLKDTGWSVSIGIYIMALCVISIIGVSLVKETKGVPLGAADSDAADAADAQPVPSLKAGPSA	PGPT0002956_607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_03601	1971	mobA_3	COG0654	3-hydroxybenzoate 4-monooxygenase	GTGCAGTTCCACCACCACGGTTACGTATCCGGTGACCCGCGAGTACAGCCCGCCGCCGGCGTCGGTATTGACAGGCCTGCAGAGCTCCCGGACGAGGTCGATGTTCTCATCGTCGGTTCCGGACCAGCCGGCATGCTCGCCGCCGCGCAGCTGTCCCAGTTTCCCGGGGTCAACACACGCATCATCGAGCGCCGCCCCGGGCGTCTTGCGATCGGCCAGGCAGACGGCATCCAGGCACGCAGCGTCGAGACGTTCCAGGCCTTCGGATTTGCGGAACGCATCATCGCCGAGGCGTACCGGATCACCGAAATGGCGTTTTGGAAGCCGAGCCCTGAGGACCCCTCGAGGATCTACCGCGCGGCGCGCGCCCTCGACGACGCCGCCGGCATCAGTGAGTTCCCGCACCTCATCGTCAACCAGGCCCGTGTGCTGGACTACTTCGCCGAGGTCGCAGCCATGTCGCCAACCCGCCTGACGCCGGACTATGGCTACGAGTTCCGCAGCCTCAAGGTCACCGGCGAGGGCGAGTACCCCGTCACCGTCACGCTCCTCCACACCGCCGGGCCGAACGAGGGCCAGGAACGCATTGTTAAAGCCAAATACGTTGTCGGCTCCGATGGCGCCCGCAGCAAGGTCCGCGAATCGATCGGCTGCACCCTTGCCGGTGACCAGGCCAACCATGCGTGGGGCGTCATGGACGTCCTGGCCGAGACGGACTTCCCGGACATCCGCACCAAGTGCGCCATCCAGTCGCATGACGGTGGCTCCATCCTGCTGATCCCCCGCGAGGGCGGCTACCTTTTCCGCATGTACGTGGACCTCGGTGTCGTCCCTGAGGGGGACAAGGGTGCGGTGCGAAAGACCACCATCGAGCAGATCATCGCCAAGGCGAACGATATTCTCCACCCCTACACCCTGGATGTACGCAACGTCGCGTGGCACAGCGTCTATGAGGTGGGCCACCGTCTCACGGACCGGTTCGACGACGTCCTGCCGCAGGACCGCGGCACACGCAGCCCCCGCGTGTTCATCACAGGCGACGCCTGCCATACCCACAGCGCCAAGGCTGGCCAGGGCATGAACGTATCCATGCAGGACGGCTTCAACATCGCGTGGAAACTCGGGCACGTGCTCGAGGGCCGGAGCCCAGAGTCCCTGCTGGACACCTACTCGGCCGAGCGCCAGGTTGTCGCGAAGAACCTCATCGACTTCGACAAGGAGTGGTCCACACTCATGGCGAAGAAGCCCGAGGAGTTCGAGGACCCCACGGAGCTGGAGAACTTCTACGTGTCCACAGCTGAATTCCCCGCCGGATTCATGACGCAGTACACGCCGTCGATGCTCATCGCTGAGCCCGCCCACCAAAACCTGGCCGCCGGCTTCCCCATCGGCAAACGTTTCAAGTCCGCACCCGTTCTGCGTGTTGCCGACACCAACCCGCTGCATCTGGGCCATCAGGCTAAGGCGGACGGCCGCTGGCGCATCTACGTGTTCGCAGATCCTGCGCAGGCAGGGGCGCCGTCGCCAACCGCGGACCTGGCGGAATGGCTCGCGAACTCTGCGGACTCGCCGCTGGCCGCCACGCCGGAAGGCGCCGACCGCAATGCGTGGTTCGATGTGAAGGTCATCTACCAGCAGGACCACACGGGCATCGACATGGGCGCGGTCCCGGCAGCGTTCAAGCCCCAGGTCGGTCCGTTCAGGCTCACGGACTACGAGAACGTGTTCGGCGCCGACCCGCAGGCCGATATCTTCGAGCAGCGCGGCCTGGACCGCGACGGTGCCATTGTCGTGGTGCGCCCCGACCAGTACGTGGCCAACGTCCTGCCGCTGACCGCGACGGCGGAGCTCGCCGCATTCTTTGCGAAGCTCCAGCCGGGCGGGCACGCGGAGGCAGGACGTCCCGCGGCCCAGCCGTCAGCCACGATCGCCGGCACAATCATCCCGACCCTCGTCAGCAACGGAGCATAA	MQFHHHGYVSGDPRVQPAAGVGIDRPAELPDEVDVLIVGSGPAGMLAAAQLSQFPGVNTRIIERRPGRLAIGQADGIQARSVETFQAFGFAERIIAEAYRITEMAFWKPSPEDPSRIYRAARALDDAAGISEFPHLIVNQARVLDYFAEVAAMSPTRLTPDYGYEFRSLKVTGEGEYPVTVTLLHTAGPNEGQERIVKAKYVVGSDGARSKVRESIGCTLAGDQANHAWGVMDVLAETDFPDIRTKCAIQSHDGGSILLIPREGGYLFRMYVDLGVVPEGDKGAVRKTTIEQIIAKANDILHPYTLDVRNVAWHSVYEVGHRLTDRFDDVLPQDRGTRSPRVFITGDACHTHSAKAGQGMNVSMQDGFNIAWKLGHVLEGRSPESLLDTYSAERQVVAKNLIDFDKEWSTLMAKKPEEFEDPTELENFYVSTAEFPAGFMTQYTPSMLIAEPAHQNLAAGFPIGKRFKSAPVLRVADTNPLHLGHQAKADGRWRIYVFADPAQAGAPSPTADLAEWLANSADSPLAATPEGADRNAWFDVKVIYQQDHTGIDMGAVPAAFKPQVGPFRLTDYENVFGADPQADIFEQRGLDRDGAIVVVRPDQYVANVLPLTATAELAAFFAKLQPGGHAEAGRPAAQPSATIAGTIIPTLVSNGA	PGPT0005430_182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZENE|PHENOL_DEGRADATION,PGPT0005430-mobA|pcpB|mhpA-K03380	NA	NA
D1-17_03602	1491			hypothetical protein	TTGGAGCAGGTCAACGACGACACCCTGGCAGCAGCACGCAAGGTGATCGCTGTGCACATCAACTACCCCAGCCGCGCAACACAGCGCGGCCGGACGCCGGCCCAGCCCTCCTACTTCCTCAAGCCCTCGTCCTCCCTGTCCCTGAGCGGCAGCGTCGTCGAGCGCCCGGCGGGCTGCGAACTGCTCGGCTACGAAGGCGAGATCGCGCTGGTCATTGGCAAGGCAGCCCGGCGCGTCGGGATCGACGACGCCTGGAGCCACGTCGCCGCCGTCACGGCCAGCAATGACCTTGGTGTTTACGACCTCCGCTACGCAGACAAGGGCTCGAACCTCCGGTCCAAGGGCGGCGACGGCTTCACCCCGGTTGGTCCGGCACTTATTCCGGCAGACGCCGTCGACCCCGCCAAGCTGCGCATCCGCACCTGGCACAACGGCGAGCTCGTCCAGGATGACAGCACCGAAGACCTGCTCTTCCCGTTCGCCCGGCTGGTGGCGGACCTGTCCCAGCTGCTCACCCTTGAAGAGGGTGACATCATCCTGACCGGCACTCCCGCCGGCGCGTCCGTGGCCAAACCCGGCGACGTGCTGGAGGTCGAGGTCAGCACCGCAGGCTCAGGGGACGGCGGGCTAAGCACCGGTCGCCTGGTTACCAGGGTGGAGGAAGGCACGACGGCATTCGCTGGCTTTGGTGCCGGGCCCAAGGTTGATGACCTGCAGCGGGAAGAGGCGTACGGTTCCCGCGAGGCGGCAGGCCTTCCGGCCGAATCTTCAGAGGCAGCCGCGGCGGCCGTTTTGACCCCGGAACTGAAGGCAAAGCTGGAGAGCGTCTGCACCGCCACGCTGTCCTCCCAGCTGCGCAAGCGCGGCCTGAACAATGTCAGCATCGACGGCCTGCAGGCCACCCGCCCGGACCGCCGCGTGGTGGGCCTGGCCCGCACCTTGCGCTACGTGCCCAACCGCGAGGACCTCTTTAAGACCCACGGCGGCGGCTTCAACGCCCAGAAACGCGCCATCGACTCCGTCAACGAGGGCGAGATCCTGGTCATGGAAGCCCGCGGGGAGAAGGGCACCGGCACCATCGGTGACATCCTGGCCCTGCGCGCCCAGGTCCGTGGCGCCGCGGCCATCATCACCGACGGCGGGGTCCGCGACTTCGCCGCCGTGGCCGCCATGGAACTGCCCACCTACTACTCCAACCCCCACCCTGCCGTGCTGGGCCGCCGCCACATCCCGTGGGACACCGACATCACGATCGCCTGCGGCGGCACCACCGTGCAGCCCGGCGACATCATCGTGGCCGATTCCGACGGCATTCTCGTGATCCCGCCGGCACTGGCCGAGGAAGTCGCCGACGACTCCATCGTCCAGGAGCGCGAAGAGGTCTTCATCGCCGAGATGGTGGAGCAGGGCCACAACGTGGACGGGCTCTACCCGATGAACGCTGAGTGGCGCGCTAAGTACAAGCAATGGGAGGCCGGGAAGGATGACTGA	MEQVNDDTLAAARKVIAVHINYPSRATQRGRTPAQPSYFLKPSSSLSLSGSVVERPAGCELLGYEGEIALVIGKAARRVGIDDAWSHVAAVTASNDLGVYDLRYADKGSNLRSKGGDGFTPVGPALIPADAVDPAKLRIRTWHNGELVQDDSTEDLLFPFARLVADLSQLLTLEEGDIILTGTPAGASVAKPGDVLEVEVSTAGSGDGGLSTGRLVTRVEEGTTAFAGFGAGPKVDDLQREEAYGSREAAGLPAESSEAAAAAVLTPELKAKLESVCTATLSSQLRKRGLNNVSIDGLQATRPDRRVVGLARTLRYVPNREDLFKTHGGGFNAQKRAIDSVNEGEILVMEARGEKGTGTIGDILALRAQVRGAAAIITDGGVRDFAAVAAMELPTYYSNPHPAVLGRRHIPWDTDITIACGGTTVQPGDIIVADSDGILVIPPALAEEVADDSIVQEREEVFIAEMVEQGHNVDGLYPMNAEWRAKYKQWEAGKDD				NA	NA	NA	NA	NA
D1-17_03603	699			hypothetical protein	ATGACTGAAACAGTCGCCGCATCCGCCGGCACTGCCGACACAGCGGGCAGCAAGGCCGAGCAGGCTTACCGGGCCGTCAAGGCGCGGATTGTGGAGGGTACCTACACCCCCGGCTACCGTCTGGTCCTGGCTTCGATTGCCAAGGATCTCGGTTTCAGCGTGGTGCCGGTCCGTGAAGCGATCCGCCGTCTCGAGGCCGAAGGCCTGGTGAAGTTTGAACGCAATGTCGGGGCGACCGTCGCCGGGATTGACCCCACGGAATACCTCTACACCATGCAGACGCTGAGCATCGTGGAAGGTGCGGCGACCGCGCTGTCCGCACCCCTGATCGGGGCGGCGGATATTGCCCGGGCCCGCGCTGTGAACACGGAGATGCGGGAGTGCCTGAAGCACTTTGATCCCGTCCGCTTCACCCGGCTCAACCAGGATTTCCACAGCGTCCTCTTTGAACACTGCCCCAACCCGCACATCCTGGACCTGGTTCACCGCGGCTGGAACCGGCTGGCGTCATTGCGGTCCTCCACGTTCCGCTTTGTCCCCGGCCGGGCCCACCGCTCCGTGGACGAACACGAGGCGCTGCTCCGGCTCATCGAGACCGGCGCCGACGCCGACACCATTGAAAAAGCAGCACGGCTCCACCGCTCCGCCACCCTGGACGCTTACCTCTCCCAAACCAGCCCTCAAGACCCCAACTTTTAA	MTETVAASAGTADTAGSKAEQAYRAVKARIVEGTYTPGYRLVLASIAKDLGFSVVPVREAIRRLEAEGLVKFERNVGATVAGIDPTEYLYTMQTLSIVEGAATALSAPLIGAADIARARAVNTEMRECLKHFDPVRFTRLNQDFHSVLFEHCPNPHILDLVHRGWNRLASLRSSTFRFVPGRAHRSVDEHEALLRLIETGADADTIEKAARLHRSATLDAYLSQTSPQDPNF				NA	NA	NA	NA	NA
D1-17_03604	1542	amnC_2		2-aminomuconic 6-semialdehyde dehydrogenase	ATGACGACTCCTGTAGAAACAGCAGCAAAGCACTACATCCCTGAGAATCTGCCCACGCACATCCAGCACTACATCAACGGCGAGTTCGTTGATTCCGTGGGCGGCAAGACCTTCGACGTGCTGGATCCTGTGTCCAACCAGAACTACGCCACCGCCGCAGCCGGCCAGAAGGAAGACATCGACCTGGCTGTGGCCGCCGCCCGCGAAGCGTTCATCAACGGACCGTGGCCGAAGATGAAGCCCCGCGAACGCGCCCGCGTCTTGAACAGGATCGCTGACGCTGTCGAGGCCCAGGAAGCCCGCCTCGCCGAACTCGAAACCTTCGACACCGGACTGCCCATCACGCAGGCCAAGGGCCAGGCCCTCCGCGCCGCCGAGAACTTCCGGTTCTTCGCGGACCTGATCGTGGCCCAGTTCGACGATGCCATGAAGGTCCCGGGCTCGCAGATCAACTACGTGAACCGCAAGCCGATCGGCGTCGCCGGGCTCATCACGCCGTGGAACACGCCGTTCATGCTGGAATCCTGGAAGCTCGCCCCGGCACTGGCCACCGGCAACACGGTTGTCCTCAAGCCCGCCGAGTTCACTCCGCTGTCCGCCTCGCTCTGGGCCACCATCTTCAAGGAAGCCGGCCTGCCGGACGGCGTCTTCAACCTGATCAACGGCCTGGGCGAGGAAGCCGGCGACGCGCTGGTCAAGCACCCGAATGTCCCGCTGATCTCCTTCACCGGCGAGACCACCACGGGCCAGACCATCTTCCGCAACGCCGCGGCCAACCTCAAGGGCCTGTCCATGGAACTCGGGGGCAAGTCCCCCTGCGTCATCTTCGCGGATGCAGACCTGGACGCCGCGATCGACTCCGCCCTGTTCGGTGTGTTCTCCCTCAACGGCGAACGCTGCACCGCCGGCTCCCGCATTCTGGTGGAACGCGCCATTTACGACGAGTTCTGCGAGAAGTACGCCGCCCGCGCCAAGAACATCGTGGTCGGGGACCCCCACGATCCGAAGACCCAGGTGGGCGCCCTGGTCCACCCGGAGCACTACGAAAAGGTTGCCACCTACGTGGAGATCGGCAAGTCCGAAGGCCGGCTGCTCGCCGGCGGCGGACGGCCGGAAGGCCTTCCGGAGGGCAACTACATCGCTCCCACCGTGTTCGCCGACGTCTCCCCCGACGCCCGGATCTTCCAGGAGGAGATCTTCGGTCCCGTCGTCGCCATCACACCGTTCGAGAACGACGACGAGGCCCTCGCCCTGGCGAACAACACCAAGTACGGCCTGGCGGCCTACATCTGGACCCAGAACCTGACCCGTGCACACAACTTCTCGCAGAATGTCGAGGCCGGCATGGTGTGGCTGAACAGCCACAACGTCCGCGACTTGCGCACTCCCTTCGGCGGCGTCAAGGCCTCCGGCCTGGGCCACGAGGGCGGCTACCGCTCCATCGACTTCTACACGGACCAGCAGGCCGTGCACATCACGCTCGGTTCCGTCCACACCCCGAAATTCGGCAGCATCCAAGCCTCCGCCGCCAACGAGGGCTAA	MTTPVETAAKHYIPENLPTHIQHYINGEFVDSVGGKTFDVLDPVSNQNYATAAAGQKEDIDLAVAAAREAFINGPWPKMKPRERARVLNRIADAVEAQEARLAELETFDTGLPITQAKGQALRAAENFRFFADLIVAQFDDAMKVPGSQINYVNRKPIGVAGLITPWNTPFMLESWKLAPALATGNTVVLKPAEFTPLSASLWATIFKEAGLPDGVFNLINGLGEEAGDALVKHPNVPLISFTGETTTGQTIFRNAAANLKGLSMELGGKSPCVIFADADLDAAIDSALFGVFSLNGERCTAGSRILVERAIYDEFCEKYAARAKNIVVGDPHDPKTQVGALVHPEHYEKVATYVEIGKSEGRLLAGGGRPEGLPEGNYIAPTVFADVSPDARIFQEEIFGPVVAITPFENDDEALALANNTKYGLAAYIWTQNLTRAHNFSQNVEAGMVWLNSHNVRDLRTPFGGVKASGLGHEGGYRSIDFYTDQQAVHITLGSVHTPKFGSIQASAANEG	PGPT0005060_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005060-dmpC|xylG|praB-K10217	NA	NA
D1-17_03605	1083			hypothetical protein	ATGACCAACTTCGTTCCCACCCCCACCGTTCCTGCCCCGGATATCGTCCGCTGCGCCTACATGGAGATTGTGGTCACGGACCTCGCCAAGTCGCGCGAGTTCTACGTCGACGTGCTCGGCCTGCACGTCACCGAAGAGGACGAGAACACCATCTACCTGCGTTCCCTGGAGGAGTTCATCCACCACAACCTGGTACTCCGCCAGGGGCCCATCGCCGCCGTGGCAGCGTTCGCCTACCGGGTGAAGTCTCCCGCCGAGGTGGACGCCGCCGAGGCCTATTACAAGGAACTGGGGTGCCGGACCGAGCGCCGCAAGGAAGGCTTCACCAAGGGCATCGGGGACTCCGTCCGCGTCGAGGACCCGCTGGGCTTCCCCTACGAGTTCTTCTACGAGACCGAGCACGTGGAGCGCCTCACCCAGCGCTACGACCTCTACTCCGCCGGTGAGCTGGTGCGCCTGGACCACTTCAACCAGGTCACCCCGGACGTTCCCCGCGGCCGGGCGTACCTCGAGGACCTGGGCTTCCGCGTCTCCGAAGACATCAAGGACTCCGACGGCGTCACGTACGCCGCGTGGATGCACCGCAAGCAGACGGTCCACGACACCGCCCTGACCGGCGGCAACGGCCCGCGCATGCACCACGTCGCGTTCGCCACGCACGAGAAGCACAACATCATCCAGATCTGCGACAAGATGGGCGCCCTGCGCATCAGCGACCGGATCGAGCGCGGCCCCGGACGGCACGGCGTGTCCAACGCGTTCTACCTCTACATCCTGGACCCGGACGGCCACCGCATCGAGATCTACACCCAGGACTACTACACCGGCGACCCGGACAACCCCACCATCACCTGGGACGTCCACGACAACCAGCGCCGCGACTGGTGGGGCAACCCCGTCGTTCCGTCCTGGTACACCGAGGCCTCCCTGGTCCTGGACCTGGACGGCAACCCGCAGCCGGTCATCGAACGCGAGGAAAAGAGCGAGATGGCTGTCACCGTCGGCGCCGACGGGTTCTCCTACACCCGCAAGGACGAGACGTCTGCGGCAGTGGAGGGCTTCAAGCTCGGAGCCCAGGTCTAA	MTNFVPTPTVPAPDIVRCAYMEIVVTDLAKSREFYVDVLGLHVTEEDENTIYLRSLEEFIHHNLVLRQGPIAAVAAFAYRVKSPAEVDAAEAYYKELGCRTERRKEGFTKGIGDSVRVEDPLGFPYEFFYETEHVERLTQRYDLYSAGELVRLDHFNQVTPDVPRGRAYLEDLGFRVSEDIKDSDGVTYAAWMHRKQTVHDTALTGGNGPRMHHVAFATHEKHNIIQICDKMGALRISDRIERGPGRHGVSNAFYLYILDPDGHRIEIYTQDYYTGDPDNPTITWDVHDNQRRDWWGNPVVPSWYTEASLVLDLDGNPQPVIEREEKSEMAVTVGADGFSYTRKDETSAAVEGFKLGAQV	PGPT0005055_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446	NA	NA
D1-17_03606	786	hpcG_2		2-oxo-hept-4-ene-1,7-dioate hydratase	ATGCTGGACGCGAAGACGATTGAGGCCATTGCGGATGAGCTGGTGGAGGCCGGCCGGACCCGTACGCCTGTGCCGCGCCTGACGGCCCGTTATCCGGAGATGACGGTGGAGGACTCCTACGCGGTGCAGCAGCTGTGGCGGCGCCGCAACGAGGACGCAGGCCGGACTCTGGTGGGGCGGAAGATCGGCCTCACGTCCAAGGCCATGCAGGCCGCCACCGGCATCACCGAACCCGATTACGGTGCCATCTTCGATGACATGGTGCTGGAAACCGGATGCTCGGTGGAGTGGGACAAGTACACCCACCCGCGGGTGGAGGTGGAGCTTGCCTTCGTCTTGAAGGACAGCCTCAAGGGCCCGGGCTGCACCATCTTCGACGTCCTGAACGCCACGGACTACGTGGTTCCGGCCCTGGAAATCCTCGATTCGCGGATCGAGATGGAGGGCCGGACCATCGTGGACACCATCTCCGACAACGCCGCGATGGGCGCCATGGTTGTGGGCGGACGCCCGGTGAAGCCGGACGCCGTCGACCTCCGCTGGGTTTCTGCCATCCTGTACAAGAACCAGACCGTGGAGGAGACCGGCGTCGCCGCGGGCGTCCTGGACCACCCGGCCAACGGCGTGCACTGGCTCGCCAACAAGATCGCGGCGCACGGGGACAGCATGAAGGCCGGCGACATCATCCTCGCCGGGTCCTTCACCCGTCCCCTCTGGGTCTACAAGGGCGACACAGTCCACGCCGACTACGGACCGCTGGGGGCTGTGACATGCCGCTTCGTCTAG	MLDAKTIEAIADELVEAGRTRTPVPRLTARYPEMTVEDSYAVQQLWRRRNEDAGRTLVGRKIGLTSKAMQAATGITEPDYGAIFDDMVLETGCSVEWDKYTHPRVEVELAFVLKDSLKGPGCTIFDVLNATDYVVPALEILDSRIEMEGRTIVDTISDNAAMGAMVVGGRPVKPDAVDLRWVSAILYKNQTVEETGVAAGVLDHPANGVHWLANKIAAHGDSMKAGDIILAGSFTRPLWVYKGDTVHADYGPLGAVTCRFV	PGPT0005055_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005055-dmpB|xylE-K00446	NA	NA
D1-17_03607	810	hpcH_2	COG3836	4-hydroxy-2-oxo-heptane-1,7-dioate aldolase	ATGCCGCTTCGTCTAGAACCGGGCGACACCTTCCAGGACGCCCTGGCCGCCTCGAACCGGCCGCTGGCCGGGATGTGGGTGTGCTCCGGCAGCCCGCTCATCGCCGAACTCTGCGCCGGGTCCGGCCTGGACTGGCTCCTGGTCGACGCCGAACACAGCCCCAACGGGCTCGAATCCATCCTTGCCCAGCTCCAGGCCATCCACGGCTACCCGGTCCACACCCTGGTCCGGCCGCCCGTGAACGACGTGGTGGTGATCAAGCAGTACCTGGACCTGGGCGTGCAGAACCTCCTCATCCCCATGGTCAACTCCGTCGCTGAAGCAGAAGCCGCGGTGGCCGCCACCCGCTACCCGCCCCAGGGGGTGCGGGGGGTCGGTTCCGCATTGGCCCGCGCAGCCCGCTGGAATCGGGTCCCCGACTACCTCGTCCGTGCCGCGGAGACTATCAGCGTCACCGTCCAGATCGAATCGACCGCGGCCGTTGAAGCGGTGGAGGACATCCTTAAGGTCGATGGCGTGGACGCCATCTTCGTGGGCCCCTCCGACCTCGCCGCCTCGATGGGGCTGCTGGGCCAGCAGGAACACCCAGAGGTGCGCGCCGCCGTCGAACACTGCCTCGCCGCCGCCAAAGCAGCCGGCAAGCCTGCCGGCGTCAACGCCTTCGCCCCCGCCACGGCACGTGCCTATCTCGACACCGGTGCCGCCTTCATCCTGGTGGGCGCCGACGTCGCCCTCCTCGCCCGCGGCTCGGAGGCACTCGCCGCCCAGTACGTCCAGCCACCCGACGGCGGCACGCCAACCTCTTACTAG	MPLRLEPGDTFQDALAASNRPLAGMWVCSGSPLIAELCAGSGLDWLLVDAEHSPNGLESILAQLQAIHGYPVHTLVRPPVNDVVVIKQYLDLGVQNLLIPMVNSVAEAEAAVAATRYPPQGVRGVGSALARAARWNRVPDYLVRAAETISVTVQIESTAAVEAVEDILKVDGVDAIFVGPSDLAASMGLLGQQEHPEVRAAVEHCLAAAKAAGKPAGVNAFAPATARAYLDTGAAFILVGADVALLARGSEALAAQYVQPPDGGTPTSY	PGPT0001575_546	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
D1-17_03608	1506	sad_4		Succinate-semialdehyde dehydrogenase	ATGACTGCTTCGCCCGTAATCTCCCCTGCCATTTCCCCCGCCCGCGAGGCTGAGCTTCTCGCGTCCGTGCCTACGGGCCTGCTGATTGGCGGGCAGTGGCGGGACGCTTCCGACGGCGGCACGTTCGACGTCCACGACCCCGCCACCGGGGACGTACTCGCCACCCTGGCCTCGGCCACCAGCAAAGACGCCCTAGCCGCTTTGGATGCGGCCGACGCCGCTCAAGCCTCCTGGGCCCGCACCGCCCCAAGGGTGCGGGCCGAGATCCTGCGCCGCGCCTTCGACCTGGTCACCGAACGCGCCGAGGACTTCGCGCTGCTGATGACCCTGGAAATGGGCAAGCCCCTGGCCGAAGCCCGCGGCGAAGTCACGTACGGCGCGGAGTTCCTGCGCTGGTTCTCCGAAGAAACCGTCCGCGACTACGGCCGCTACCTCACCACCCCCGAGGGCAAAAACAAGATCCTCGTCCAACACAAACCCGTCGGCCCGTGCCTGCTCATCACCCCTTGGAACTTCCCGCTGGCCATGGCCACCCGCAAAGTCGCCCCCGCCGTCGCCGCCGGATGCACCATGGTCCTGAAACCCGCCAAACTCACCCCGCTCACCGCCCAGTACTTCGCGCAGACCATGCTCGACGCCGGCCTGCCCGCCGGGGTCCTGAACGTGGTGCCCTCCTCCTCAGCGTCCGGGATCTCCGGTCCCCTGCTGAAGGATTCCCGGCTGCGGAAGGTCTCCTTCACCGGCTCCACCCCCGTCGGCAAGCACCTCATCGCCGACGCCGCTCAGAACGTCCTGCGCACCTCGATGGAGCTCGGCGGCAACGCACCCTTCATTGTCTTCGAAGACGCAGACCTCGATGCCGCCGTCGAAGGTGCCATGGCCGCGAAGATGCGGAACATGGGTGAGGCCTGCACCGCCGCTAACCGCTTCCTCGTCCACGAGTCCGTCGCCCAGGAGTTCACCGCCAAGTTCGCCGCCGCCATGGGCGCCCTGAACACCGGCCGCGGCACCGACCCCGCCACCCAGGTCGGCCCCCTGATCGACGCCGGCGCCCGCGACGACGTCCACGCCCTCGTCACGGCCGCCGTCGACGCCGGAGCAGTGGCCCTCACCGGCGGGGCACCGGTGGAGGGCGCCGGGTACTTCTACCAGCCCACCGTCCTGGCCGGCGTCCGCAACGACGCAGAAATCCTCCGCCAGGAAATCTTCGGCCCCGTCGCCCCGGTCACCACCTTCAGCACCGAAGCAGATGCGGTCCGCCTAGCCAACGCCACCGAATACGGCTTGGCCTCCTACCTCTACAGCCGCGACTTCAACCGCCTGCTGCGCGTCGCCGAACAGATCGAATTCGGCATGGTCGGTTTCAACGCCGGCGTCATCTCCAACGCCGCCGCACCCTTCGGCGGCGTCAAACAATCAGGACTCGGCCGCGAAGGCGGCACCGAAGGCATCGCCGAATACACCACCACCCAATACATCGGCATCGCCGACCCCTACGCCGGCTAG	MTASPVISPAISPAREAELLASVPTGLLIGGQWRDASDGGTFDVHDPATGDVLATLASATSKDALAALDAADAAQASWARTAPRVRAEILRRAFDLVTERAEDFALLMTLEMGKPLAEARGEVTYGAEFLRWFSEETVRDYGRYLTTPEGKNKILVQHKPVGPCLLITPWNFPLAMATRKVAPAVAAGCTMVLKPAKLTPLTAQYFAQTMLDAGLPAGVLNVVPSSSASGISGPLLKDSRLRKVSFTGSTPVGKHLIADAAQNVLRTSMELGGNAPFIVFEDADLDAAVEGAMAAKMRNMGEACTAANRFLVHESVAQEFTAKFAAAMGALNTGRGTDPATQVGPLIDAGARDDVHALVTAAVDAGAVALTGGAPVEGAGYFYQPTVLAGVRNDAEILRQEIFGPVAPVTTFSTEADAVRLANATEYGLASYLYSRDFNRLLRVAEQIEFGMVGFNAGVISNAAAPFGGVKQSGLGREGGTEGIAEYTTTQYIGIADPYAG	PGPT0001580_741	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-17_03609	423	yedI	COG2354	Inner membrane protein YedI	GTGAGCGGCGGTCTCGTCGCCCTGCTGGACGACGTCGCAGCCTTGGCCCGGATAGCGGCCGCCTCGGTAGACGATGTCGCCGCCGGGGCCGCCAAAGCGGGGGCCAAGGCCGCCGGCGTGGTGATTGACGACGCCGCCGTTACCCCGCAGTACGTATCCGGGGCCGACCCGTCCCGCGAGCTGCCAATGATCAAGAAGATCTTCTGGGGCTCACTCCGGAATAAGCTGTTGATCATCCTGCCGGCACTGCTGCTCGTCAGCGCCTTCATCCCAGGAGCCATCCCCTTCATCCTCATGCTGGGGGGCACCTACCTCTGCTACGAGGGTGCAGAGAAGGTATGGCACAAGCTCCGCGGCCATCACGAGGCCGAAAAAAACGCCGGCGGTCGAGCGTGGCCCGAAGGCGGAGGCCAAGGTCATTAA	MSGGLVALLDDVAALARIAAASVDDVAAGAAKAGAKAAGVVIDDAAVTPQYVSGADPSRELPMIKKIFWGSLRNKLLIILPALLLVSAFIPGAIPFILMLGGTYLCYEGAEKVWHKLRGHHEAEKNAGGRAWPEGGGQGH				NA	NA	NA	NA	NA
D1-17_03610	549			hypothetical protein	ATGAACGAGGTGGCCGAAGGTTCCTTGTTGTCCAGAGCCGTTATCCTGGTCGTCGTGGCGCTCGCGATCACGGTGCTCGTGTACGGCGCCGTCGCACTGATCGTCAAAATGGACGACATCGGCCTGCATCTGGCCGCTAAGAACTCCGCGGGTTCCAAGCGCGTCGGCGAGTTGCTTGTCAAGGGAATGCCCGCCGTGCTGGCCGCGATAACCTTCATCGGGACGATCGCCATGCTTTGGGTTGGTGGTCACATCATGCTCCAGGGAGCATATGACCTCGGCTGGCATGCCCCGTATGACCTGGTCCATGTCCTTGAGAAGCCATTCATCGGGCTCCCGGCCGTGGGCGGCTTCCTGGCCTGGCTCGTCAACACCTTGTGCTCGGCCGTCATCGGACTCGCGTGGGGCATCGGCGTCATGGCTGTCGTACATCCGCTGCTCAAAGTGTTGCCGTTCGGCAAGGGGAAGAGCGGGCACGAGGAGGGCGACCTCCGCGCCGCAGTCGCCGGCTACCGCCCGACGAAACGAAACGACGATCCCGCCTCTTAG	MNEVAEGSLLSRAVILVVVALAITVLVYGAVALIVKMDDIGLHLAAKNSAGSKRVGELLVKGMPAVLAAITFIGTIAMLWVGGHIMLQGAYDLGWHAPYDLVHVLEKPFIGLPAVGGFLAWLVNTLCSAVIGLAWGIGVMAVVHPLLKVLPFGKGKSGHEEGDLRAAVAGYRPTKRNDDPAS				NA	NA	NA	NA	NA
D1-17_03611	213			hypothetical protein	ATGGGCCGTGACCTGGGTCCGTTGTTTGTTGGTGTCGGGGTGCTGGTAGTCCTGGTGGGAGTGCTGGCATGGAACGGCTGGCTGTCGTGGTTCGGCCATCTGCCAGGAGATGTCCGAATCGATCGCGGAAACCTCCGGGTTTACTTCCCTTGGGTGTCCATGATCGTGGTTTCGGTGGTCGTCAGCATCGTCATTTCCCTGTTCCGCCGTTGA	MGRDLGPLFVGVGVLVVLVGVLAWNGWLSWFGHLPGDVRIDRGNLRVYFPWVSMIVVSVVVSIVISLFRR				NA	NA	NA	NA	NA
D1-17_03612	279			hypothetical protein	ATGTGGACCGTGGACTCGAAGCTGCAAGGATGCGCCTCGAACCCAGCAGCCTGGGTCGGGACCAGGGCGAGACAGAGAAGCATTCCCGAGCCATGGTGGAACATATTCTCTCTGGAGCCAGAACGTGTCACTGCCGTTACGGCCGAACTGTTCGCCGAGGCGCTTGCCGTCGCGAATGCCGTCCGGCGAGCCCAAGGGCGGGGACCGGTTACCTCCATTCGAGCCCGGGACTTCCGGGAAATCCTGAAGGACATGGTCGACTGCGTCGTGGAGCAGTGA	MWTVDSKLQGCASNPAAWVGTRARQRSIPEPWWNIFSLEPERVTAVTAELFAEALAVANAVRRAQGRGPVTSIRARDFREILKDMVDCVVEQ				NA	NA	NA	NA	NA
D1-17_03613	276			hypothetical protein	ATGGACCGTATCTCCTTTCTCTCCTATCCCGGAGGAAGGCTGCCTCTGCCCAGGTCCCGCCTGTGCGAAGGCAGGACCTGGTTTGGCATCCGCCCCTGTCTGCTAGGCGTTGATCTGTTGCTGCGCGCCAGCCCCGGAGCTGATCTCGATCTTTCGCGGCCGCGCTTTCTCCGCGACCGGGATGCGCAGCGTCAGGACGCCGGCCTCGTAAACGGCTCTGACGTTGTCCGTATCGAGCGTGTCGCCCAGGATCAGCTCGGATCAGCTGGCGGCTAA	MDRISFLSYPGGRLPLPRSRLCEGRTWFGIRPCLLGVDLLLRASPGADLDLSRPRFLRDRDAQRQDAGLVNGSDVVRIERVAQDQLGSAGG				NA	NA	NA	NA	NA
D1-17_03614	141			hypothetical protein	GTGTGCAAGCACGAGAAACTGCGTTTGAGGTTCTGTGACTTCTACTCGTTCATGTCGTATTCGGATTTCACTGCCTGGGTACAGGCCGATGATGAGGCTGCCCCGGAGATGTCGTTTTCCGATACTGTCACTTCCGATTAA	MCKHEKLRLRFCDFYSFMSYSDFTAWVQADDEAAPEMSFSDTVTSD				NA	NA	NA	NA	NA
D1-17_03615	207			hypothetical protein	ATGACAGAAGAAAAACCAACAATCCCGCTCCTGGGCTACGCCGATCTGGCCCGGGAGACCGGCCATGACGTCGGCCTTATCCGCGTCTGGCTGAACAGAGGGAAGCTGCCCACTCCTGACTACAGGCTCGGCCAGTCACCCGGCTGGCTCCAAGAAACCATCAGCCCATGGATTCAGGCCAACAGAACGCAGTCCCCCGGCGTGTAG	MTEEKPTIPLLGYADLARETGHDVGLIRVWLNRGKLPTPDYRLGQSPGWLQETISPWIQANRTQSPGV				NA	NA	NA	NA	NA
D1-17_03616	303			hypothetical protein	GTGAATGATGAGGCCCGGCCCGTTGCCTACACGGCCGTGGAGAGGGGGACGCCGGTTACCTCCCAGTCCGGACAAACGTTTGGAACCCTGGAACGCGTCCTGGATGACGGCAAAGGGAATATTCTGCACGGCATCGTTGTCAAGACCCGCCGGGGCCTGAGGTTCGTGGCCAGGGACTCCATCGAGCTGATGACAACCAGGCAAATCCGATGCCTGCTGACCGACGAACAGGCCGGTGAACTGCCGCCGGCCTCAGCCGCCCGCCGGATGAGGACCAGGCAGTGGTTACGGCGGCGGGCGTAG	MNDEARPVAYTAVERGTPVTSQSGQTFGTLERVLDDGKGNILHGIVVKTRRGLRFVARDSIELMTTRQIRCLLTDEQAGELPPASAARRMRTRQWLRRRA				NA	NA	NA	NA	NA
D1-17_03618	471			hypothetical protein	ATGAAGGCAATCCGCTTCTACCACCTCAGCGACCCGAAGATCGATAATGTTCCGTATCAGATGATGTTCGGTATCGACAGCCAGAACATGGTGCAGGAGACAGGGTGCGTTCGCCATCGTGGCAGGTTTGGAGCGTTCCGGGCGCTCACCCCCCGATGCATTTCCCCGCGCATGAAGGTTCCCATGGCGCTGTCCGATGAAGAACGCCGCCGCCTTGAAAGGCTGGAAAAAGAACTGGCGGCAGAACACCCTGATCTGGCCCGGAAACTGCAGTCAGGATTCACCAGCAGCAGGTCCAGAGCCCGCATCATCTACGGCGTCATGGGCGCTTTAGCCGGGTTTGCGGTAGTCGTCGCCGGCATCATCACAAAGCTCACCCTCATCGGAGTCATCGGCTTCCTCCTGATGGTTGCATCCGGTTACTGGTTCCTCAGCGGCATCTTCCCGTACCAAGACGAAGAGCCGCCATGA	MKAIRFYHLSDPKIDNVPYQMMFGIDSQNMVQETGCVRHRGRFGAFRALTPRCISPRMKVPMALSDEERRRLERLEKELAAEHPDLARKLQSGFTSSRSRARIIYGVMGALAGFAVVVAGIITKLTLIGVIGFLLMVASGYWFLSGIFPYQDEEPP				NA	NA	NA	NA	NA
D1-17_03619	1410	feaB_2	COG1012	Phenylacetaldehyde dehydrogenase	TTGGAAACCTACGATGCGCTGCTTGCGTCCATCACCCCCGCGTCCGGCCCCACCCGGACCATCCTTGATCCGGCAACCGGGCAAGCGGTGGGAGAAGCGCCCGTCCACAATCTTGAATACCTGGAGGAGGCCGTCGCCGCTGCCGTAGCTGCCCAGCCGGCGTGGGCAGCCCTGGGCCACGGCGCCCGGTCCGCTGCGCTGCTCAAGGCGGCCGACGCCGTCGAACGCTCTGCGAAAGAGCTCGCCCAGCTGCTCTCCCGCGAGCAGGGCAAGCCGTTGAACGGTCCCAACGCCCGCTTTGAGGTCGGCGCGTGTGTTGCGTGGCTCCGTGCGACCGCCACACTACCCTTGGAACCGGAGACCCTGGTGGACGACGGCGAGACCCGCGCCGAGCTGCACTACAGGCCCATCGGTGTTGTGGGCGCCATCGGTCCATGGAACTGGCCCATGATGATCGCCGTCTGGCAGATCGCCCCGGCACTGCGAATGGGCAACGCCGTCGTGGTCAAGCCCTCCGGAAACACCCCGCTGTCCGTCCTTGCCCTGGTCAAGGTCCTGAACGAGGAGCTGCCCGAAGGCATCCTCGCCGCTGTGTCCTGCGGCCGAGAGGTCGGTTCCCGGCTGACCGAGCACCCCGCGATCGGCAAGATCATGTTCACCGGCTCCACCGCCGCGGGCCGGGCCATCATCAAGTCCTCCGCGGACACTGTCAAGCGCCTCACTCTGGAGCTGGGCGGCAACGATGCCGGCATCGTCCTGCCCGACGCCGACCCCAAGGCCATCGCCCAAGACATCTTCTGGGGCGCATTCCTCAACACCGGCCAGACCTGCGCGGCCCTGAAACGCCTCTACGTCCACGACGACATCTACGACGCAGTCTGCGAAGAACTCACGGCCGTTGCCGCGGCGATGCCGATGGGCAACGGGCTCGACGAAAACAACGTCCTCGGCCCGCTGCAGAACAAAGCCCAGTTCGACGTCGTGGCCAACCTCGTGGACGCCGCCCGCGCCGGCGGCGCACGCATCCTGCTCGGCGGCAACCCCGACGCCGACCAGCCCGGCTTCTTCTACCCCACCACGCTCGTCGCGGACATCGACAACGACAACCCGCTGGTGGCCGAGGAGCAGTTCGGCCCGGCGCTGCCGATCATCCGCTACAGCACCATCGACGAGGCAGTGGAAATGGCCAACGCCCTCGAGGTAGGGCTCGGCGCGTCGGTCTGGTCCTCCAACCTCTCTACCGCACGCGAGGTCGCCGCCAGGATCGAAGCCGGCACGGTCTGGATCAACAGACACGGCGCCGTGGACCCCCGCATCCCCTTCGGTGGAGCCAAGCAGTCCGGCTACGGCCTGGAATTCGGCGTTGAAGGCCTGAAGGCCCTGGGCGTCCCGCAGGTCATCAACGGCTGA	METYDALLASITPASGPTRTILDPATGQAVGEAPVHNLEYLEEAVAAAVAAQPAWAALGHGARSAALLKAADAVERSAKELAQLLSREQGKPLNGPNARFEVGACVAWLRATATLPLEPETLVDDGETRAELHYRPIGVVGAIGPWNWPMMIAVWQIAPALRMGNAVVVKPSGNTPLSVLALVKVLNEELPEGILAAVSCGREVGSRLTEHPAIGKIMFTGSTAAGRAIIKSSADTVKRLTLELGGNDAGIVLPDADPKAIAQDIFWGAFLNTGQTCAALKRLYVHDDIYDAVCEELTAVAAAMPMGNGLDENNVLGPLQNKAQFDVVANLVDAARAGGARILLGGNPDADQPGFFYPTTLVADIDNDNPLVAEEQFGPALPIIRYSTIDEAVEMANALEVGLGASVWSSNLSTAREVAARIEAGTVWINRHGAVDPRIPFGGAKQSGYGLEFGVEGLKALGVPQVING				NA	NA	NA	NA	NA
D1-17_03620	1074			hypothetical protein	TTGCTCAATAAGAAACTCGCCACAGTACTTACCCTCGGCGCGCTCTCCCTCACGGGATGCAGCCTCGCCCCGACGGGCGGCGGAGCCGGCCCGGAGGCGGCGGCAGCGGGACTTTCGGCCGCAACCGCCCCTGCGGCGCCCACTAAGGCGGCAGCAGCCCCGAAGGCTGCCGCGCCGGCACCGAAAGCAGCCGCAACAAAGTCCGCGGTTAAGGCCACTGACAAGGCCGCTGCCGCACCTGTGGCGAAGCCGGCCGCGCCGGCTGCGGCCCCGGCGCCTGCCCCGGCCGTTCTGCCCGTAACCGCACCGAAGCCGGCCCCAGCACCCAAACCCGCCGCGGCGAAGACCTCAGTCGCACAACAGGCCAAGGCCGTTCCTGCTGCCAATGTTGCCCCCGCAGCTGCGAGCGGCAGCGGAAACCAGGCCGCGACCATGCTGGGATGGGGCCCCGTCGTTGCGGGTGACGAGTTCTCCAACACGGGTGTGCCGGACCGCGCCAAGTGGAGTGTCTACAACGGCAAAGGCCATGCCGGCAAGGGCCTGCGTTCCCGCGATGCCGTCACCGTTGGCGGCGGCGCGCTGACCATCAAGGGCGACGCGGCGGGCAAGACCGGCGGCATGTCGGCCAAGTTCGCGCGGCAGAAGTACGGCAAGTGGGAGACCCGCATGAGGGTCGCCCACAACGACCCGCAGTACCATCCGGTGCTTATCCTTTGGCCGGACAACTCCGCTGACGCCTACAACGGCAAATGCTGGGAAATTGACTACGCCGAGGGCAACAACGGCCCGGGCCGGATGAGTTTCTTCAACCACATCGCCTGCCCTGGCAACGGCAAGGTCCAAACCTACGCCAAGAAGGCGATCGACACCCGGCAGTGGCACAACTACGCCGTGGAGTGGTCTCCGACGAAGATCACCGGCTATATCGACGGCGTGAAGTGGTACGAGGACACGACCCCGGCGAACATCGCCAACGTCTCCATGCACCAGACGATCCAGCTGGACTGGTTCCCCAACGGCGGCGCCACAACACCCTCTCATATGGACGTCGACTGGGTGCGCGTTTACAAGTAG	MLNKKLATVLTLGALSLTGCSLAPTGGGAGPEAAAAGLSAATAPAAPTKAAAAPKAAAPAPKAAATKSAVKATDKAAAAPVAKPAAPAAAPAPAPAVLPVTAPKPAPAPKPAAAKTSVAQQAKAVPAANVAPAAASGSGNQAATMLGWGPVVAGDEFSNTGVPDRAKWSVYNGKGHAGKGLRSRDAVTVGGGALTIKGDAAGKTGGMSAKFARQKYGKWETRMRVAHNDPQYHPVLILWPDNSADAYNGKCWEIDYAEGNNGPGRMSFFNHIACPGNGKVQTYAKKAIDTRQWHNYAVEWSPTKITGYIDGVKWYEDTTPANIANVSMHQTIQLDWFPNGGATTPSHMDVDWVRVYK				NA	NA	NA	NA	NA
D1-17_03621	1125			hypothetical protein	ATGGCCCAGACTGGACTTTCCGCAAGCAAGCGCTTCCTGCGGGGACGGATCCGATCGGGAATAGTCCGCAGCCGCAACTCGCTTGTGCCTGCCATTCAAATGACGGTCTGCGCCGTGGGGGCCTACGCGTTCGCGGAGTACGTCCTGGGACATTCGGGGCCGCTGTTCGCGGCCACGTCGTCCCTGATCGCCCTCGGGTTTTCCCGGGACCCGCGGCTGCGCAGGGTCATGGAGGTAGGCCTGGGCTGCACCATCGGGATCGCGGTGGGTGACCTCCTGCTGCATTGGCTGGGGGCCGGGATCTGGCAGGCCGCCGTCGTTCTTTTCTTTTCCATCCTGCTGGCACGGTTCCTGGACAGCGGCACCATCTTCACCACGCAGCTGGGCCTGCAGTCCCTGCTCGTGGTGCTGCTGCCGGCGCCGCCCGGCGGGCCATTCACGCGCAGCATCGATGCGGTTGTGGGCGGCCTGTTTGCCCTGCTCGTGACCATCCTGATGCCCAAGGATCCGCGGCAGGAGCCGCGCAAGGACGTCAGGAAGCTGCTTCACGAACTGGCGGAGGTGCTGCGTGAATGCTCCTCTGCCCTGACAAACAGTGATTCCACCGAGGCCTGGCACGCCCTGGTCCGCGGCCGGAACTGCCAGTCGCTCGTGGACAGGATGCGGCAGTCGCTGAGGGCATCGGGGGAAGTGGCCACGCTTGCGCCGGCGTACCGCAGGCACCGCGACGAGCTCGACCGGCTGGAGCAATCGCTGGACTTCATCGACCTGGCGCTTCGCAACAGCCGGGTCTTTGCGCGCCGGCTGACCAGCGCCATCAATCACGCCGCCCTCTCGGATGAAGCAGTAGAGAACATTGCTGAGGTGCTGCAGGAGACCGCTGCCGCCATCGATGAGCTCTCGCTCGGGCTGGCCGAAGTGCACGACGGCGTCCGGCGCACGCATCTGCGCACCGCAAGGGTTGAGCTGAGCGCCATTGCGGGCCGGCTGCATCCGCGGATGCTGAAAGTGGAGCGGTTGGAGGGCGAGACCGTGGTCATGCTGTTCCGGCCGCTGATGGTGGACCTGCTCGAGGCCACCGGCGTCGATTCCCGCGAGGCACGTGACATCCTGCCCCCGCTGTAG	MAQTGLSASKRFLRGRIRSGIVRSRNSLVPAIQMTVCAVGAYAFAEYVLGHSGPLFAATSSLIALGFSRDPRLRRVMEVGLGCTIGIAVGDLLLHWLGAGIWQAAVVLFFSILLARFLDSGTIFTTQLGLQSLLVVLLPAPPGGPFTRSIDAVVGGLFALLVTILMPKDPRQEPRKDVRKLLHELAEVLRECSSALTNSDSTEAWHALVRGRNCQSLVDRMRQSLRASGEVATLAPAYRRHRDELDRLEQSLDFIDLALRNSRVFARRLTSAINHAALSDEAVENIAEVLQETAAAIDELSLGLAEVHDGVRRTHLRTARVELSAIAGRLHPRMLKVERLEGETVVMLFRPLMVDLLEATGVDSREARDILPPL				NA	NA	NA	NA	NA
D1-17_03622	1374	radA	COG1066	DNA repair protein RadA	ATGGCTACAAAGACATCCCGGACCGCCAAAGCTCCGGGCTATAAGTGCGCGGAATGCGGCTGGACCACAGTCAAATGGGTGGGCCGTTGCGGGGAGTGCCAGGCGTGGGGCACTGTTGAGGAAACGGGCACGGCAGTGGCACGCACGACGGCGGCAACCACAGTCTTGGAGGCTGCCCGCCCCATCGCTGAGGTGGACGCCACCACGGCCGCCTTCCTGCCCACCGGCGTGGCCGAGCTGGACCGCGTCCTTGGCGGCGGTGTGGTGCCCGGCGCCGTCATCCTGCTGGCCGGGGAGCCGGGCGTAGGCAAGTCCACCCTGCTACTGGACGTAGCCGCCAAATTTGCCCGCACGGGCCAGAGCGTCCTGTACGTCAGCGGAGAGGAATCTGCCGCCCAGGTGAAGCTGCGGGCAGAGCGCATTGACGCGATCGCGGACACCCTTTACCTGTCCGCCGAGACCGACCTTGGCCAGGCCCTGGGCCAGGTGGAAAAGGTGGAGCCCAAACTCCTCATCGTGGACTCGGTCCAGACCCTGAGCAGTGCAGACGTCGAAGGCAGCTCCGGCGGCGTCTCCCAGGTGCGGGAAGTTGCGGCTTCCATCATCGCCGCCGCTAAGCGCCGCAACATGACAACCCTGCTGGTGGGGCACGTAACCAAGGACGGCTCCATCGCCGGCCCCCGGCTGCTCGAACACCTCGTCGACGTCGTCTGCCAGTTCGAGGGCGAACGCCACTCGCGGCTGCGGCTGCTGCGGGCGGTGAAGAACCGCTACGGGCCCACGGACGACGTCGGCTGCTTCGACCTGAACGAAGACGGCATCGTCGGACTCGCCGATCCCAGCGGGCTGTTCGTTACCCGGACCAAGGATCCGGTCTCAGGCACGTGCATCACCGTGACCATGGAAGGCCGGCGCCCGCTGCTGGCCGAGGTCCAGTCGCTGCTGGCCGAAAGCCCCAACTCACAGCCCCGGCGGGCCACGAGCGGCCTGGACAGCTCCCGCGTTGCCATGCTGCTGGCCGTTCTCCAACAGCGGGCCGGCTGCCTGCTGCACAAGGACGATTCCTACGTGGCCACGGTCGGCGGCGTGAAGCTCAGCGAGCCGGCCACGGACCTCGCTGTTGCCCTCGCTGTTGCCTCAGCGAAGGCCAAGAAGCCCCTGCCGCAGCGCCTCATAGCGTTTGGCGAGGTGGGCCTGGCCGGCGAGGTGCGCCCGGTGCCCGGCATCAACCAGCGCATTCAGGAAGCCCACCGGCTGGGCTTTACCCATGCCGTCGTGCCGTCCAGCCACAACGGCCCGGGCCCCGTTCCCCCCGGGTTCTCAGTGCGGGAGGTCGGCCACCTGGCCGAGGCGCTTAGCCTGCTGATCAACTAG	MATKTSRTAKAPGYKCAECGWTTVKWVGRCGECQAWGTVEETGTAVARTTAATTVLEAARPIAEVDATTAAFLPTGVAELDRVLGGGVVPGAVILLAGEPGVGKSTLLLDVAAKFARTGQSVLYVSGEESAAQVKLRAERIDAIADTLYLSAETDLGQALGQVEKVEPKLLIVDSVQTLSSADVEGSSGGVSQVREVAASIIAAAKRRNMTTLLVGHVTKDGSIAGPRLLEHLVDVVCQFEGERHSRLRLLRAVKNRYGPTDDVGCFDLNEDGIVGLADPSGLFVTRTKDPVSGTCITVTMEGRRPLLAEVQSLLAESPNSQPRRATSGLDSSRVAMLLAVLQQRAGCLLHKDDSYVATVGGVKLSEPATDLAVALAVASAKAKKPLPQRLIAFGEVGLAGEVRPVPGINQRIQEAHRLGFTHAVVPSSHNGPGPVPPGFSVREVGHLAEALSLLIN	PGPT0014905_2607	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
D1-17_03623	1221	kasA	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGTCTGCTGTATCCCGCCGCGCGGTCGTAACCGGAGCGGGCACACTGAACCCGCTCGGGTCCACTGTTGCCGAGACGTGGGCGGCCATGCTCGCCGGCACCTCAGGCATCGCCGCGCTCGAAGAAGACTGGGCGCAACTGCTTCCGGTACGGATCGCAGGGCGGGTCACGGCCGACCTGTCGAAACTGCTCACCACCCGTGAGTTCAAGCGGATGGACCGCTGCGGGCAGCTGGCCCTCGTCGCCGCGCGGGAAGCCTGGACCCAGGCCGGAACCCCCGGCGTCGACCCCGAACGGCTCGCCGTCGTCATCGGCTCCGGTTACGGCGGCGTGGACACCATGCTCGCCCAGACCCGGGAACTGGACACAGGCGGCCCGCGGAAGGTCTCGCCGCATACTCTCACCCGGCTCATGGTCAATGGACCGTCCGCCTGGGTCTCGATCGACCTGGGTGCCCGCGGCGGGGCACGCACCCCAGTCAGCGCCTGCGCGTCAGGCGCAGAAGCGATTGCCCAGGGCGCCGAAATGATCCGCTCCGGTGCGGCCGACGTCGTGATTGCCGGAGGCGTTGACGCCTGTGTCAATGACCTGTTCATCAGCGGCTTCGCCCAGATCCGCGCCCTTTCCACACGCAATGACGATCCGCAGGGCGCGTCGCGTCCCTTCGACCGGGAGCGCGACGGCTTCGTCCTCGCCGAAGGCGCCGCCATTGTGGTGCTGGAGAGCGAGGAGCACGCGCGCTCCCGCGGTGCGGAAATCCTCGGCGCGGTGGCAGGCGCGGCCGTCACCTCGGACGCGAACGACATCGTGGCCGCTGATCCGGACATGCAGCGCCGCGTTATGGAAAAAGCCCTTGCCTCGGCCGGCCTCAGCGGCGCCGACATCGGATTCGTGCACGCGCACGCCACCTCCACGCCCGTGGGTGACCGGCTCGAGGCGCAGGCCATCAAAGCTGTGGCCGCGGAAGGCGTGCCGGTGACCTCGACCAAGTCCCTGACCGGCCACCTGCTCGGCGGCGCAGGCGCCCTCGGCGCCATCGCTACCCTGCAGGCCCTGCAGACCGGCGATCTGCCCGGCACCTGCAACACCAGTGACGTCGACCCCGAGGTGGACCTCAATGTTCTTACCGGGACGCAGCACGGCAGCACGGCGACGGCCGGACTCGTCAATGCGTTCGGCTTCGGCGGCCACAGCGCGGCGCTGGTGATCACCCGCGACTGA	MSAVSRRAVVTGAGTLNPLGSTVAETWAAMLAGTSGIAALEEDWAQLLPVRIAGRVTADLSKLLTTREFKRMDRCGQLALVAAREAWTQAGTPGVDPERLAVVIGSGYGGVDTMLAQTRELDTGGPRKVSPHTLTRLMVNGPSAWVSIDLGARGGARTPVSACASGAEAIAQGAEMIRSGAADVVIAGGVDACVNDLFISGFAQIRALSTRNDDPQGASRPFDRERDGFVLAEGAAIVVLESEEHARSRGAEILGAVAGAAVTSDANDIVAADPDMQRRVMEKALASAGLSGADIGFVHAHATSTPVGDRLEAQAIKAVAAEGVPVTSTKSLTGHLLGGAGALGAIATLQALQTGDLPGTCNTSDVDPEVDLNVLTGTQHGSTATAGLVNAFGFGGHSAALVITRD	PGPT0008360_8130	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
D1-17_03624	1614	prfC	COG4108	Peptide chain release factor 3	GTGTCCCAAGAAGTCCTCAGCCCCGCCCGGGTCCAAGAGATCCACAAGCAGGCGTCCCGGCGCCGGACCTTCGCTGTCATCTCGCACCCCGATGCCGGCAAGTCCACGCTGACCGAGGCCCTGGCCCTGCACGCCAAGGTCATCGGCACGGCCGGTGCCTCCAGTGGCAAGTCCAACCGCAAAGAGACGGTGTCGGACTGGATGCAGATGGAAAAGGACCGCGGCATTTCCATCAGCTCCGCGGCGCTGCAGTTTTCCTACCGCGACACCGTCATCAACCTGCTGGATACCCCCGGCCACGCGGACTTCTCCGAGGACACCTACCGTGTGCTCGCCGCCGTCGACTGCGCCGTCATGCTCGTGGACGCCGCCAAGGGCCTTGAAACGCAGACCATGAAACTGTTCGAGGTCTGCAAGCAGCGCAACCTGCCCATCATCACGGTCATCAACAAGTGGGACCGGCCGGGCCTGGACGCGCTGGCCCTCATGGACGAAATTACCGAGCGCACCGGGCTGCTGCCCATGCCCCTGACCTGGGCCGTGGGCATCTCCGGCGACTTCCGCGGAGTTTGGGACCTGCGCAACGACAGGTTCGCGCGTTTCCAGCGGAACAACGCCGGCGCCAGCATCGCCCTTACCGAGTACTTCACGCCCGAAGAGGCCGCCGAAAGCCAGGGCGACAACTGGACGGACGCCGTCGACGAAGCCGGTCTGGTCATCGAATCCAACCTTGCCTTCGACGTGGAGAGCTTCCACGCCGGTAAAGCCACTCCCATCCTGTTCAGCTCCGCTGCACTGAACTTCGGCGTGAAGGAACTCCTTGACGCCCTCGTGGACTTCGCCCCGCCCGCCGCGCCCCGGCCCGACATCGCTGGCAGCCCGAGGCCCGTCGAGTCGCCCTTTTCCGGTTTCGTCTTCAAGGTCCAGGCGGGAATGAACAAGGCGCATCGGGACCACGTCGCCTTTATCAGGGTCTGCTCCGGTGTGTTTGAGCGCGGCATGGTGGTCACCCAGACGCGCACCGGCAAATCCTTCGCCACCAAATACGCCCAGCAGGTGTTTGGCCGTGAGCGGGAAGTGATTGACGAGGCCTTCCCGGGCGACGTCGTGGGCCTCGTGAACGCCTCATCACTGCGGGTGGGGGACAGCCTCTTCCTCGATGAACCGGTGGAATTCCCGGCCATCCCGCTGTTCGCGCCCGAGCATTTCCAAGTGGCCCGTTCGAAGGACCCCAGCCGGTTCAAGCAGTTCCGCCGCGGCATCGAGCAGCTCGAACACGAGGGCGTCATCCAGGTGCTGCGCTCCGACCTGCGCGGAGACCAGGCGCCGGTGCTTGCCGCCGTCGGCCCCATGCAGTTCGAAGTGGTCGAGGACCGCATGGCGCATGACTTCAGCGCACCTATGCGGCTGGAACGACTGCCGTACTCCATGGCACGGATTACGACGGCGGACGCCATGCCGGCACTGGCAAACGTGGTTGGCGCTGAAGTGCTGCTGCGGTCGGACGGCGAGTACCTTGCCCTGTTCAACGACGTCTGGGCGCTGCGCCGCATCGAGAAGAACCACCCTGATCTCACCCTGGTGCCGATCGGAACGCACAACCCCGCCAAATAG	MSQEVLSPARVQEIHKQASRRRTFAVISHPDAGKSTLTEALALHAKVIGTAGASSGKSNRKETVSDWMQMEKDRGISISSAALQFSYRDTVINLLDTPGHADFSEDTYRVLAAVDCAVMLVDAAKGLETQTMKLFEVCKQRNLPIITVINKWDRPGLDALALMDEITERTGLLPMPLTWAVGISGDFRGVWDLRNDRFARFQRNNAGASIALTEYFTPEEAAESQGDNWTDAVDEAGLVIESNLAFDVESFHAGKATPILFSSAALNFGVKELLDALVDFAPPAAPRPDIAGSPRPVESPFSGFVFKVQAGMNKAHRDHVAFIRVCSGVFERGMVVTQTRTGKSFATKYAQQVFGREREVIDEAFPGDVVGLVNASSLRVGDSLFLDEPVEFPAIPLFAPEHFQVARSKDPSRFKQFRRGIEQLEHEGVIQVLRSDLRGDQAPVLAAVGPMQFEVVEDRMAHDFSAPMRLERLPYSMARITTADAMPALANVVGAEVLLRSDGEYLALFNDVWALRRIEKNHPDLTLVPIGTHNPAK				NA	NA	NA	NA	NA
D1-17_03625	1077	disA	COG1623	DNA integrity scanning protein DisA	ATGGCTCGGAGCCCGGAAGAATCGCTGAAGGCGACTCTGGGGAGGGTGGCCCCGGGAACACCGCTGCGGGACGGGCTGGAACGCATTCTCCGAGGCCGCACCGGCGCACTGATCGTCCTGGGTTCGGACCGGACCATCGACTCGATCTGCTCCGGCGGCTTTGACATCGGCATCGATTTCTCCCCCACAAGGCTGCGCGAACTGGCCAAGATGGACGGTGCCATTATCTGCGACAAAGATGCCGGCAACATCCTCCGCGCCGCTGTGCAGTTGGTTCCTGACCCCAGCATCGAAACTCAGGAATCCGGCACGCGCCACCGGACCGCCGAGCGCGTAGCCATCCAGACCGGCGTTCCCGTCATCTCGGTGAGCCAGTCCATGCAGATCATCGCCCTCTACGTGAATGGGCTGCGCCACGTGCTGGAGGGCTCCGAAAAGGTCCTTGCACGCGCCAACCAGGCTCTCGCAACGCTGGAACGCTACCGGTCACGGCTGGACCAGGTGACCAGCTCCCTGTCCGCGCTCGAGATCGAGGCCATGGTCACGGTCCGGGACGTTGCCGTAACGCTGCAGCGCCAGGAGATGGTACGGCGTATCTCCGAGGAGATTTCCCAGTATGTGCTCGAGCTCGGCGAGGACGGCCGCCTGCTGTCCCTCCAGCTGGACGAACTCACCGTGGGCCGCGGTCCGGGCAGCGACATCATCATCCGCGACTACGCGGGCCCCAACGCCTCGCCGGAGGACATCGAGGGCGCCGTGAACGCCCTCCTGAGCCTCGGGCCCACCGAGCTGATCGACCTGAGCAAGATTGCGGGCATCATCGGCTTCGCCGGCGGCGTGGAAACCCTCGACGCCGTGGTGCAGCCCAGGGGCTACCGCCTGCTGTCCGGACTTAAGGCCGTTCCCAAGGCTGTGGCCGACCGGCTCGTGGACCACTTCGGCGGCCTGCAGCACCTGATGGCAGCTACTATCGATGACCTCATGACCGTAGACGGCATCGGCGATCAGCGCGCCCGGACCGTCCGCGAAGGGCTCAGCCGGATGGCCGAGGCCAGCCTCCTGGACCGCTTCCTCTAA	MARSPEESLKATLGRVAPGTPLRDGLERILRGRTGALIVLGSDRTIDSICSGGFDIGIDFSPTRLRELAKMDGAIICDKDAGNILRAAVQLVPDPSIETQESGTRHRTAERVAIQTGVPVISVSQSMQIIALYVNGLRHVLEGSEKVLARANQALATLERYRSRLDQVTSSLSALEIEAMVTVRDVAVTLQRQEMVRRISEEISQYVLELGEDGRLLSLQLDELTVGRGPGSDIIIRDYAGPNASPEDIEGAVNALLSLGPTELIDLSKIAGIIGFAGGVETLDAVVQPRGYRLLSGLKAVPKAVADRLVDHFGGLQHLMAATIDDLMTVDGIGDQRARTVREGLSRMAEASLLDRFL	PGPT0014770_414	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
D1-17_03626	702			hypothetical protein	GTGCAAACACCGCCAGGCAAGAAGCAGCCAAGCAAGCAGCAACCGGGCAAAAAGCCAGCCGGCAACGTCAAGCCAAGCGGCGCCAGGCCCGGCGCGGCGCGCAAGCCGAGCGCCGCAGTCTATCGCCGCCGTCGGCTGTTCGCCGGCGGGGCACTCCTGCTCGTCGTGGCGCTTACGGCAGGCGGTGTTGCCACGGTCTCGGGTGCGATGAACGCGAAGAGCGAGCAAGCCTCCTCAACCCCGCCAGAAGGCGCCGGAGCGACCGGGGGCCAGGCGGCTCCCTCGGCTACTCCCGCCGCAACGCCGTCGGTATCACCAAGCTGCGACCAGAAGCTCGTGACCGTCACCGCTGCTACCAACAAGACCGCTTATGGCGCGGGCGAGAAGCCTCTGCTCACCTTGAAGGTGGCCAACGGCGGGAAGCTGCCGTGCAAGGTGAACCTCGGGACGTCGCAGATGGAGTTCCTCGTCACCAGCGGGTCTGACCGCGTTTTCTCGTCCAAGGACTGCCAGGCCGAGAGCGAGGACCTCATCAAAACCATCGCGCCGGGCAAAAGCGAGACTGCGAATTTCCCCTGGCCCCGCAACCGCTCAGTGCAGGGCTGCGAGGAGATTGCGGATGATGTTGGTGCCGGCTACTACGTCTTCATTGCCAAGCTCGGTCCCAAAGTGAGCCCGCCGGCGGTTTTCCAGCTGGGCTGA	MQTPPGKKQPSKQQPGKKPAGNVKPSGARPGAARKPSAAVYRRRRLFAGGALLLVVALTAGGVATVSGAMNAKSEQASSTPPEGAGATGGQAAPSATPAATPSVSPSCDQKLVTVTAATNKTAYGAGEKPLLTLKVANGGKLPCKVNLGTSQMEFLVTSGSDRVFSSKDCQAESEDLIKTIAPGKSETANFPWPRNRSVQGCEEIADDVGAGYYVFIAKLGPKVSPPAVFQLG				NA	NA	NA	NA	NA
D1-17_03627	453			hypothetical protein	ATGGTCGAGCATCTGTCTGGCGGCCACCTTGAACGGGTCCTGCTGCCCCTGACCTTTGGAAAGCATCAGAGCCAGGGAACGGCATTCACGGTACTGGCCGTGGAAATCTGGAACACGGGCATCGTGGTAAACCTGCATCTGCATCTTGCATCGAAGAAAGGGACCAAGCCGAAAACACCGGACATCGTCGTCCATGACCATTTCGGTACGGAGTACAAGCTGGACGAGGTTGCCACGGTGGGTTCCCGGCAGCTTCAGTTCTTTGCGCCTTCCATTCCGGAAGGGACACGCAGCCTGACCATCAGGTCCGTGGATCCGGAAGGTGCCAGCTTCGTGGTTGCCCTTGCCGTGCCGGCTCCGAACGGCCGGGGCGGTGAGACCGTTCATGGACACGTGAAACGCCTCCGCCCGCGGGTGGAGACGGGTCCGGACGTCCGGCAGGAGGCCAGCTAA	MVEHLSGGHLERVLLPLTFGKHQSQGTAFTVLAVEIWNTGIVVNLHLHLASKKGTKPKTPDIVVHDHFGTEYKLDEVATVGSRQLQFFAPSIPEGTRSLTIRSVDPEGASFVVALAVPAPNGRGGETVHGHVKRLRPRVETGPDVRQEAS				NA	NA	NA	NA	NA
D1-17_03628	1002	mutY	COG1194	Adenine DNA glycosylase	GTGCTGACTGAAGGCTCTGTGCTGACTGAAAGCGCTGTGCTGACTGAAGGCTCTGTGCTGACTGAAAGCTCTGCGCTGGCCGACGTCCACAAGTCCCTGGCGAAGTGGTTCGCAGCCGTCGCCCGTGACCTGCCATGGCGGTCGCCGGACTGCTCGCCTTGGGGCGTTCTGGTCAGTGAAATCATGCTCCAGCAGACTCCCGTAGTGCGCGTTCTGCCCATTTGGGAAGAGTGGCTCCGCCGCTGGCCGGAACCGGCTGACCTGGCACGCGAGCCTGCGGGGGAAGCCGTCCGCGCCTGGGGCCGCCTCGGGTACCCCCGGCGCGCCCTCCGGCTCCATGCTGCGGCAGTTGCCATCGGCGAGCTCCACGGCGGGAAGGTCCCGGCGGACTACAAGGAACTCCTTGGCCTTCCAGGCGTTGGCAGCTACACGGCAGCGGCCGTCGCCGCCTTTGCCTTTGGCCGGCGCGAAACGGTGGTGGACACCAACATCCGGCGCGTTCATGCCCGTCTCTTCACTGGCGCGGCTCTCCCCGCTCCCGCCTTGACAGCCGCGGAAATGCGCCTTGCCGCCGGGCTGCTGCCGGACGACGACGGCGCTTCCGTGCGGTGGAACGCTTCTGTCATGGAGCTGGGAGCCCTGGTTTGCACCGCCCGCGCGCCGAAGTGTTCCGTGTGTCCGGTGCGCGGCAGGTGCGCCTGGCGGGCGGCCGGCGAGCCGCCGCCGTCGTACAGGCCGAAAGGACAGGCGTGGCACGGGACCGACCGGCAGGTCCGGGGAGCTGTGGTGGCCGTGCTCAGGCTTGCCGATGCGCCTGTGCCGCCGGAAATGTTCCAGCGGCCCGCCGCCGACCTCGGCTTCGAACCCTCCGGGATCGCGGTTCCGCTGGCAGCACTGCACCGGTTGAGTACGGCCCCCGAACAGCTCGAACGGGCACTGTCCGGGCTTCTGGAGGACGGTCTCGCCGAGCTCCACCAGGGCGGGTACAGGCTGCCGGCATAA	MLTEGSVLTESAVLTEGSVLTESSALADVHKSLAKWFAAVARDLPWRSPDCSPWGVLVSEIMLQQTPVVRVLPIWEEWLRRWPEPADLAREPAGEAVRAWGRLGYPRRALRLHAAAVAIGELHGGKVPADYKELLGLPGVGSYTAAAVAAFAFGRRETVVDTNIRRVHARLFTGAALPAPALTAAEMRLAAGLLPDDDGASVRWNASVMELGALVCTARAPKCSVCPVRGRCAWRAAGEPPPSYRPKGQAWHGTDRQVRGAVVAVLRLADAPVPPEMFQRPAADLGFEPSGIAVPLAALHRLSTAPEQLERALSGLLEDGLAELHQGGYRLPA	PGPT0014770_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
D1-17_03629	531			hypothetical protein	ATGCGCAAAGCAGGGGTACTCTTGGCCGCATTCTCAGCATCAGCCCTTCTTTCCGGCTGCGGGGCGTTCGAGGCGGCCTGCCCCTCGATTGCGCAGGCGCCAGGGGTGTCCCTGACGGTCGCCGCCGGCTATGCCAGTGCCGTGCAGAGGCTCAGCATGACGGCTTGCCAGGACGGCGCCTGCAAGGCCGGGAAGCTCGAGTTGGTTCCGGGCACCACAAGTGTCGACCAAGGCTGCTCCCCCGCAGCTGAGGCACCCGGCGGCTACGGTTACGGCCCTGACAGTGTCTGCTCCGCCACCTCCAAGCCCGACGGTACCAAGAGGGGAGTCCTGCACCTTCCGGCGCTGAGCGAGTCCCCGATGAACATCACGGTCAGCGGCACTCTTAGCAACGGCAGATCCCTCCCTGCCCGCACATTGCGCTTCACTCCCGACGGTAACTATCCGTTCGGTGAGCAGTGCGGCCGGTTCATCACCGCGTCGGTGGTCCTGGACGGGAGCGGCCTGCGGGAGGACGCCGCGGCGAGCTAG	MRKAGVLLAAFSASALLSGCGAFEAACPSIAQAPGVSLTVAAGYASAVQRLSMTACQDGACKAGKLELVPGTTSVDQGCSPAAEAPGGYGYGPDSVCSATSKPDGTKRGVLHLPALSESPMNITVSGTLSNGRSLPARTLRFTPDGNYPFGEQCGRFITASVVLDGSGLREDAAAS				NA	NA	NA	NA	NA
D1-17_03630	687	dhaM	COG1080	PEP-dependent dihydroxyacetone kinase, phosphoryl donor subunit DhaM	GTGAACGTGGGGATCGTCGTGGTGTCCCACAGCGGGAAGATCGCTGAGGGAGCCGTGGAACTGGCCGCCCAGATGGCCCCCGATGTGAGGATTATTCCGGCCGGCGGCACCTCGGACGGCAGGATCGGCACAAGCCTCGAGAAGGTGATGGCTGCCCTTGAACAGGCCGGCGGCAGCGACGGCGTCGTCATGCTGGCCGATCTGGGATCTGCCGTTATGACCGCTGAATCCGCTTTGGAATTCGCCGGCAATCCGTCCAGCATCCTCCTGGCTGACGCGCCACTCGTCGAGGGCCTGGTGGCCGCGGCTGTGGCTGCCCAAAGCGGAGCCGGCGTCCACGACGTTCGAAGCGCAGCCGAGGCGACACAGGGGGCCGCGGGCAGCAAGGGAGCCGCGGCCCGCGCTGACGAAGATGCGGGCATGCGGGCACCCGATGCCACCGGTGATTTTGAGCTTGTCAACGAGGCCGGCATGCACGCCCGTCCCGCTGCCAAGATCGCCGGAGGAGTAGCCAGCATGGACGTCGAGATGACCGTGAACGGGGTGGATGGTGCCTCGATGACAGGGCTCATGACCCTTGGAGCAGGAAAAGGCTCTGTCCTTCACGTTGAGGCATCGGGTCCCGACGCTGAACGCGCCGTCGAGTATGTGGGGAGCCTAGTGCGGGCAGGGTTCGGGGAGCCGTGA	MNVGIVVVSHSGKIAEGAVELAAQMAPDVRIIPAGGTSDGRIGTSLEKVMAALEQAGGSDGVVMLADLGSAVMTAESALEFAGNPSSILLADAPLVEGLVAAAVAAQSGAGVHDVRSAAEATQGAAGSKGAAARADEDAGMRAPDATGDFELVNEAGMHARPAAKIAGGVASMDVEMTVNGVDGASMTGLMTLGAGKGSVLHVEASGPDAERAVEYVGSLVRAGFGEP	PGPT0018450_309	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018450-dhaM-K05881	NA	NA
D1-17_03631	630	dhaL	COG2376	PEP-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL	ATGGCGGCACTGGACGTCACCTGGGCCGTGAAGTGGCTGACGCTGTCCGCGCAGGCGATGGCTGAACACCGCGTTGAGCTCATCGAATTGGACAGGGCCATCGGCGACTCTGATCACGGAGAGAACATGGACCGCGGTTTCCAGGCTGTCCTGGACAAACTCGCGGAGAACCCGCCGGAAACCCCGGGCGCAGCGCTCAAGCTGACAGCCATGGCGCTGATGTCCAAGGTGGGCGGAGCTGCCGGCCCTCTCTACGGTACGGCGTTTCTTCGTGCCGCCACTGTCCTTGGTGACAGCGCCTACATCGACGCGCAGGCGCTTGCTGCGGCGCTTGCAGCGGCACGGGACGGCATCGTTGCGCGCGGCAAAGCTGAACCCGGCGACAAGACGATGGTGGACGCGTGGACACCGGCAGTTGAAGCGGCGACGGCGGCAGTATCCGCAGGGGATGCGCTGTCCGTGCTCATAGCGGCTGCTGAGGCGGCAGAAGCCGGTGCCGTGGCCACCGAGCCGCTCGTGGCCCGGAAGGGCCGTGCCAGCTACCTTGGCGAGAGGAGCGCCGGCCACCGTGATCCCGGCGCGGCCTCCAGTGCCCTGATTCTCCGGGCAGCTGCCGGAGCCGCCGCGTGA	MAALDVTWAVKWLTLSAQAMAEHRVELIELDRAIGDSDHGENMDRGFQAVLDKLAENPPETPGAALKLTAMALMSKVGGAAGPLYGTAFLRAATVLGDSAYIDAQALAAALAAARDGIVARGKAEPGDKTMVDAWTPAVEAATAAVSAGDALSVLIAAAEAAEAGAVATEPLVARKGRASYLGERSAGHRDPGAASSALILRAAAGAAA	PGPT0018455_984	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879	NA	NA
D1-17_03632	1002	dhaK	COG2376	PEP-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK	GTGAAAAAGCTCATCAATGACCCGCGAGCGGTGGTGGACGAATCAGTGGAAGGATTTGGGCTTGCCCATGCCGACCTCGTCACCATCAGCTCAGACCCCAAGTACGTGGTGCGCCGGGATGCGCCGGTGGCGGGCAAGGTAGGCCTGGTTTCGGGCGGTGGCAGCGGGCACGAACCGCTGCACGCCGGCTTTGTAGGCCGGGGGATGCTCGACGCCGCTGTGCCCGGCGCCGTTTTCACCTCACCGACGCCGGACCAGATCATCCCCGCCACGCTCGCCGTCAACTCAGGAGCCGGCGTGCTCCACATCGTCAAGAACTACACCGGTGACGTCCTGAACTTCGAAACTGCGGCCGAGATGGCGCAGGCGGAAGGGGCCGAGGTCCGCACAGTGCTCGTCAATGATGACGTCGCCGTGGAGGACTCGCTGTACACCGCCGGCCGGCGAGGGGTGGGCGGCACCGTGCTGGTCGAGAAGATAGCCGGAGCAGCGGCGGAACGCGGTGACGACCTTGACTCGGTGGCGGCAATCGGCGACCGCGTGAACCGGAACGTCCGGAGCATGGGGGTGGCCCTGACGGCATGCACAGTTCCGCATGCCGGCTCGCCCAGCTTCGACCTTGACGACACGGAAATCGAGATCGGCATCGGCATCCACGGTGAACCGGGGCGGCACCGGATTGCCATGGAACCCGCCGATGCAATCACCGACCGCCTGCTGGAACCGATACTGGAGGACCTTGGCCTCGTCTCCGGCGACAGGACCCTCCTGTTCGTCAACGGCATGGGCGGCACCCCCCTGAGCGAGCTCTACATCGTGTACCGGCGCGCTGCCCGGGTGCTGGCCGACCGCGGCGCCGTTGTGGAACGGTCACTCGTGGGCAACTACATCACCTCCCTGGAGATGCAGGGCTGCTCGATCTCGGTGCTCCGTCTGGATGACGAACTGACGGAGCTCTGGGACGCGCCCGTGCACACGCCTGCACTGCGCTGGGGGGTGTGA	MKKLINDPRAVVDESVEGFGLAHADLVTISSDPKYVVRRDAPVAGKVGLVSGGGSGHEPLHAGFVGRGMLDAAVPGAVFTSPTPDQIIPATLAVNSGAGVLHIVKNYTGDVLNFETAAEMAQAEGAEVRTVLVNDDVAVEDSLYTAGRRGVGGTVLVEKIAGAAAERGDDLDSVAAIGDRVNRNVRSMGVALTACTVPHAGSPSFDLDDTEIEIGIGIHGEPGRHRIAMEPADAITDRLLEPILEDLGLVSGDRTLLFVNGMGGTPLSELYIVYRRAARVLADRGAVVERSLVGNYITSLEMQGCSISVLRLDDELTELWDAPVHTPALRWGV	PGPT0018460_759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878	NA	NA
D1-17_03633	510	argA	COG1246	Amino-acid acetyltransferase	GTGACTGACTCCTTCACCATCCGCCCCGCCCGCACCAGCGACGTCGCCTCCATCAAGAGACTCGTGGCGCCCCTCGCAGAACAGCGGATCCTGATGGCCAAGGAAACGGTGGCCTACTACGAAAGCCTCCAGGAGTTCCGCATCGCCGAGTCCGCCGACGGCGAGGTCATCGGCTGCGGCGCCCTGCACGTCATGTGGGAGGACCTCGCAGAAGTACGCACGCTGGCTGCCTCTGAGGCGTGGCGCGGCAAGGGCGTGGGCCACGTTCTGGTGGAAAGCCTCCTCGAGGAAGCGGAGGCACTCGGTGTTTCACGCGTCTTCTGCCTGACGTTTGAGGTGGACTTCTTCAAACGGCACGGTTTCGAGGTGATGGCCGATCAGTCCGCCCTGGACCCCGAGGTCTACTCGGAACTGCTGCGCTCCCATGACGAAGGTGTCGCAGAGTTTCTGGACCTGGCCCGGGTGAAGCCGAACACGCTGGGTAACACACGGATGATCAAAACGCTCTAA	MTDSFTIRPARTSDVASIKRLVAPLAEQRILMAKETVAYYESLQEFRIAESADGEVIGCGALHVMWEDLAEVRTLAASEAWRGKGVGHVLVESLLEEAEALGVSRVFCLTFEVDFFKRHGFEVMADQSALDPEVYSELLRSHDEGVAEFLDLARVKPNTLGNTRMIKTL	PGPT0014241_387	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014241-argA-K00619	NA	NA
D1-17_03634	2493	clpC1	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpC1	ATGTTTGAGCGATTTACGGACCGTGCCCGTCGCGTAGTTGTGCTTGCCCAAGAAGAGGCACGCATGCTGAACCACAATTACATTGGTACCGAACACATCCTCTTGGGTCTGATCCACGAGGGTGAGGGCGTTGCCGCCAAAGCTCTTGAGTCCTTGAGCATTTCGCTCGACGGCGTCCGCGAGCAGGTGCAGGAGATCATCGGCCAGGGCCAGCAGGCCCCTTCCGGCCACATCCCCTTTACCCCCCGGGCCAAGAAGGTGCTGGAGCTCTCGCTGCGCGAGGCTCTGCAGCTCGGCCACAACTACATCGGCACGGAGCACATCCTGCTGGGACTCATCCGGGAGGGTGAGGGCGTTGCGGCGCAGGTACTGGTGAAGCTCGGGGCTGACCTCAACCGCGTCCGCCAGCAGGTCATCCAGCTGCTGTCCGGCTACCAGGGCAAGGAGAGCACCGGTGCCGGCGTCGGCCAGAGCCAGGCGGAGGGCACTCCTGCAGGGTCGGTTGTCCTGGACCAGTTCGGGCGCAACCTGACGCAGGCTGCCCGCGAAAACAAGCTGGACCCTGTGATTGGCCGCGAGCAGGAAATGGAACGCGTCATGCAGGTCCTTTCCCGCCGCACCAAGAACAACCCTGTTCTTATCGGTGAGCCCGGCGTCGGCAAGACCGCTGTCGTCGAAGGCCTTGCCCAGTCGATCGTCCGTGGTGACGTCCCCGAGACCATCAAGGACAAGCAGCTGTACACGCTGGACCTCGGTTCCCTCGTGGCCGGGTCCCGCTACCGTGGCGACTTCGAAGAGCGGCTGAAAAAGGTCCTTAAGGAGATCCGCACCCGCGGCGACATCATCCTCTTCATTGACGAGATCCACACTCTGGTGGGTGCCGGCGCAGCTGAAGGTGCCATCGATGCGGCTTCCATCCTGAAGCCGATGCTGGCCCGCGGTGAGCTGCAGACGATCGGTGCCACCACGCTGGATGAGTACCGCAAACACATCGAGAAGGACGCCGCGCTTGAGCGCCGCTTCCAGCCGATCCAGGTCAAGGAGCCTTCGGTTGCCCACGCGATCGAGATCCTCAAGGGCCTGCGTGACCGCTACGAGGCGCACCACCGCGTGACGATCACCGACGGCGCCCTCGCCTCGGCAGCGAATCTCTCCGAGCGCTACATTTCGGACCGCTTCCTGCCGGACAAGGCCATCGACCTCATCGATGAAGCCGGTGCCCGGCTGCGTATCCGCCGCATGACCGCTCCGCCGGAGCTGAAGGAGATGGACGAGCGCATCTCCCAGCTGAAGATGGAGAAGGAGTCTGCGATCGATGCGCAGGACTTCGAGGGCGCCGCGGCGCTGCGTGACAAGGAGCAGAAGCTCATCGCCGAGCGCTCGGAGAAGGAGCGCCACTGGAAGACCGGCGGGATGGATGACATCTCTGAGGTTGACGAGGATCTGATTGCTGAGGTCCTGGCGAACTCCACGGGTATCCCGGTGTTCAAGCTGACGGAGGAAGAGTCCTCGCGCCTGCTGAAGATGGAAGACGAACTGCACAAGCGCGTCGTCGGCCAGAACGAGGCCATCAAGGCGCTGTCCCAGGCCATCCGCCGCACCCGGGCAGGCCTGAAGGACCCGAAGCGTCCGGGCGGCTCGTTCATCTTCGCCGGCCCCACCGGCGTCGGCAAGACCGAGCTGGCCAAGGCTCTCGCCGAGTTCCTGTTCGGTGAAGAGGACGCCCTGATCACCTTGGACATGTCGGAATACTCCGAAAAGCACACGGTTTCGCGCCTCTTCGGTGCCCCTCCGGGCTATGTCGGCTACGAAGAGGGCGGGCAGCTGACCGAGAAGGTCCGCCGCCGTCCGTTCTCCGTGGTTCTCTTCGACGAAGTGGAAAAGGCCCACGCGGACCTCTTCAACTCGCTGCTGCAGATTCTGGAAGACGGCCGCCTCACCGACTCCCAGGGCCGCGTGGTGGACTTCAAGAACACCGTGATTATCATGACGACCAACCTCGGCACCCGGGACATCTCCAAGAGCGTCGCCACGGGCTTCCAGTCCGGCACGGACACCCAGACAGGCTACAACCGGATGCGTGCCCGGGTCACGGAGGAGCTCAAGCAGCACTTCCGCCCCGAGTTCCTGAACCGTGTTGACGACGTGGTGGTGTTCCCGCAGCTGACGCAGGACGAGATCATCGAGATCGTGGACATGTTCGTGACGCGCCTCGAGAAGCGCCTCAAGGACAAGGACATGGGCATCGAGCTGACCAAGGCGGCCAAGGTTCTCCTGGCCACCCGCGGTTACGATCCCGCCATGGGTGCCCGGCCGCTGCGCCGCACCATCCAGCGCGAGATCGAGGATCAGCTGTCGGAGAAGATCCTCTTCGGCGAGCTGCATGCCGGCGACATCGTGGTGGTGGACGTGGACGGCGAAGGCGACGACGCCAAGTTCACCTTCGCAGGCAACGCCAAGCCGCGGATCCCCGAGATCGCTCCGAGCGCCTAG	MFERFTDRARRVVVLAQEEARMLNHNYIGTEHILLGLIHEGEGVAAKALESLSISLDGVREQVQEIIGQGQQAPSGHIPFTPRAKKVLELSLREALQLGHNYIGTEHILLGLIREGEGVAAQVLVKLGADLNRVRQQVIQLLSGYQGKESTGAGVGQSQAEGTPAGSVVLDQFGRNLTQAARENKLDPVIGREQEMERVMQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQSIVRGDVPETIKDKQLYTLDLGSLVAGSRYRGDFEERLKKVLKEIRTRGDIILFIDEIHTLVGAGAAEGAIDAASILKPMLARGELQTIGATTLDEYRKHIEKDAALERRFQPIQVKEPSVAHAIEILKGLRDRYEAHHRVTITDGALASAANLSERYISDRFLPDKAIDLIDEAGARLRIRRMTAPPELKEMDERISQLKMEKESAIDAQDFEGAAALRDKEQKLIAERSEKERHWKTGGMDDISEVDEDLIAEVLANSTGIPVFKLTEEESSRLLKMEDELHKRVVGQNEAIKALSQAIRRTRAGLKDPKRPGGSFIFAGPTGVGKTELAKALAEFLFGEEDALITLDMSEYSEKHTVSRLFGAPPGYVGYEEGGQLTEKVRRRPFSVVLFDEVEKAHADLFNSLLQILEDGRLTDSQGRVVDFKNTVIIMTTNLGTRDISKSVATGFQSGTDTQTGYNRMRARVTEELKQHFRPEFLNRVDDVVVFPQLTQDEIIEIVDMFVTRLEKRLKDKDMGIELTKAAKVLLATRGYDPAMGARPLRRTIQREIEDQLSEKILFGELHAGDIVVVDVDGEGDDAKFTFAGNAKPRIPEIAPSA	PGPT0014585_2042	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696	NA	NA
D1-17_03635	327	lsr2_2		Nucleoid-associated protein Lsr2	ATGGCACAGAAAGTAAATATCGTCCTCGTGGACGATCTGGATGGGGGATCGGCGGACGAAACCGTCCGTTTTGGGCTCGATGGCGTCGGTTACGAAATTGACCTGTCATCTGCCAACGCTGCAGAACTAAGGTCTGCTTTGGAGCGCTTTGTTTCAGCAGCCCGCAAGACGTCCGGTGGACGCCCTGCCCGCGGCAAGGCTGCAGGCGGACGCAACCAGGACTCTGCCCAGATACGCCAGTGGGCCAGGGAGCACGGTTACACGGTTAATAGCCGGGGCCGTATCCAGGCGGAAATACAGGAAGCGTACCAAAAGGCAAATGCCTAG	MAQKVNIVLVDDLDGGSADETVRFGLDGVGYEIDLSSANAAELRSALERFVSAARKTSGGRPARGKAAGGRNQDSAQIRQWAREHGYTVNSRGRIQAEIQEAYQKANA				NA	NA	NA	NA	NA
D1-17_03636	303			hypothetical protein	ATGGAGTACGTCGCGGTCCTGCTGCCCTCCCTGGTGGTGGGCCTGCTCTTTTGGTTCGCCATGCGGGCAATCTTCAACGCCGACAAGTCCGAACGCCAGGCCGAGGCGAAAGCACAGGCGGAGGCGGATGCCAAGGCTGCGCGTGCCGCGGACCAGGCTCAGCAGCCAGGTCAGCCGTCATCCCGGTCTTCCGTGGCGTCCGCCGATAAGCGGCCTGAAAAGCCGGATGTTTCCCCGAAGGGGAACCCGGCAGCTATTCCGCCGGCGGACCCATCACGTTCTTCCAACGAATCGGACAAATAG	MEYVAVLLPSLVVGLLFWFAMRAIFNADKSERQAEAKAQAEADAKAARAADQAQQPGQPSSRSSVASADKRPEKPDVSPKGNPAAIPPADPSRSSNESDK				NA	NA	NA	NA	NA
D1-17_03637	1539	lysS1	COG1190	Lysine--tRNA ligase 1	ATGCTTGTGACTTCCCAAAACACCCCCGCCCCCAAAAACGCCCCAGAGCCGCTCGATGCGAGCGAGCAGATGCGTATCCGCATGGAAAAGCGCGCCAAGCTGCTCGAGCGCGGCACCGAGGCGTACCCCGTGGGTGTTGAGCGCACGCATTCCCTGAGCGAGATCCGCGAGAAGTACGCGCACCTGCAGGCCGACGACACCACGGGTGACATCGTGGGCGTTACCGGACGGGTCGTGTTTATCCGGAACACCGGCAAGCTCTGCTTCGCCACCCTGCAGGAAGGCGGCGCCGACGGCAAGGGAACCCGCCTGCAGGCCATGCTCAGCCTGGCCAACGTGGGCGAGGAAGCCCTCGCCGACTGGAAGGCTCTGGTGGACCTGGGTGACCACGTCTTCATTAAGGGCGAGGTCATCTCCTCCCGTCGCGGCGAGCTCTCGGTCATGGCGGAATCCTGGTCCATGGCGTCCAAGGCGCTGCGCCCGCTGCCCGTGCTGCACGCGGAGCTGAACGAAGAAACCCGCGTCCGCCAGCGCTACGTCGATCTGATGGTGCGTGACGAGGCCCGCGAGATGGTCTACACGCGCGCCGCCATCACCCGTTCCATCCGCGAAACCCTCTTCCGGCACAACTACGTTGAGGTGGAAACCCCCATCCTGCAGCTCGTGCACGGCGGCGCCCTGGCCCGGCCGTTCGAGACGCACATGAACGCGTTCGACCAAAAGATGACCCTCCGCATCGCCACAGAGCTGTACCTCAAGCGCGCCGTGGTGGGTGGCATCGACCGCGTCTACGACATGGGGCGCGTGTTCCGCAACGAGGGCGTGGACTCCACCCACAGCCCGGAGTTCACCACCCTCGAGTGCTATGAAGCCTGGGCGGACCAGTTCATCATGGCTGAGCGCATCAAGGAGATCATCCTGGACGCCGCTGACGCCGTGGGCGCCGGACGCACCCTGCAGACTGAAGCCGGTGAGATCAACCTCGACGGCGACTGGGCCTGGGTATCCGTGTACCCCGGCCTTTCCGGGGCCATTGGCCAGGAGATCACCCCGGACACCCCGTTGGAGGAACTGCAGGCCGTGGCGGAGAAGCACGAGGTGAAGGTTGACCCCAAGTGGGACGCCGAGAAGCTCGCGGTGGAGCTGTTCGGTGAAATCGTGGAGCCAACACTGCTAAACCCGACGTTTGTTTACGACTACCCGCCCTCGGCCCAGCCCCTGGCCCGGCCGCACCGCGAGGACGGCCGGCTGATCGAGGCCTGGGACCTGATTATCGGCGGCATGGAACGCGGCACTGCCTTCTCCGAGCTCATTGACCCCGTCATCCAGCGCGAGCGCCTCACCGAGCAGTCCAGGCACGCTGCCGCCGGCGATGTCGAAGCCATGCAGCTGGATGAGGACTTCCTCCGCGCCCTTGAGTACGGCGCGCCTCCCATGGGCGGCATCGGACTCGGCATCGACCGTCTGGTCATGCTGTTCACCGGCGCCGGTATCCGCGAAACCATCCTGTTCCCGCTCCTGAAGCCCGAGGGCCACTGA	MLVTSQNTPAPKNAPEPLDASEQMRIRMEKRAKLLERGTEAYPVGVERTHSLSEIREKYAHLQADDTTGDIVGVTGRVVFIRNTGKLCFATLQEGGADGKGTRLQAMLSLANVGEEALADWKALVDLGDHVFIKGEVISSRRGELSVMAESWSMASKALRPLPVLHAELNEETRVRQRYVDLMVRDEAREMVYTRAAITRSIRETLFRHNYVEVETPILQLVHGGALARPFETHMNAFDQKMTLRIATELYLKRAVVGGIDRVYDMGRVFRNEGVDSTHSPEFTTLECYEAWADQFIMAERIKEIILDAADAVGAGRTLQTEAGEINLDGDWAWVSVYPGLSGAIGQEITPDTPLEELQAVAEKHEVKVDPKWDAEKLAVELFGEIVEPTLLNPTFVYDYPPSAQPLARPHREDGRLIEAWDLIIGGMERGTAFSELIDPVIQRERLTEQSRHAAAGDVEAMQLDEDFLRALEYGAPPMGGIGLGIDRLVMLFTGAGIRETILFPLLKPEGH	PGPT0012225_2465	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
D1-17_03638	939			hypothetical protein	GTGGAGACCTGGACTGTTGAGGCGGACGACGACGGCGGCCGGCTCGAGGTGCATTCCTTCCGGCCCGCGGCCCTCACCACAGCGGATGGCGGCACTGCCGACGGGAGCACGGCGCAAGGGGGACCTCCCCCGTCGGCGGTTCCCGGCGTCGTCGTTATCCACGGCACCCTGGTGACCGACGCGCTGTACCGGCCGTTCGCGCGCAAACTCAGCCTCCTGTTGAGCCGCCCCGTGCATTGCTACAACCGCCGGGGCAGGGCTGGGTCCGCTGCTCAACCCGAGGGCTATACGGCCGCCACTGAGGTGCGCGATCTGGCTGCCGTCATGCGGGCAACCGGCTCGGAGGATGTGGTGGCCCACAGTTACGGCGGGTTCGTAGCGCTGCAGGCGGCCCGGAGCATGCCCATCCGGCGGCTGGTTACCTACGATGCAGCAGTGTCCCTCTCTGGCAATCTCCACGACCGTTGGCGTCCCGAGCTGGAACAGGCCGTCAGCGACGGGCAGCTCAACCATGCCTGGGCGCACCTGGTCCAAGGGCTGGCTACCGCGGGGCCGGTCTCGTACCTGCCCTTGGGGGCGCTGCGGATGCTGAGCATTATGTCCGCCCGGACAAACCTGGGTGCGGAGATGCGCGAATTGCTGCCCACCGCGGTCAAGGAAATGCGGGCCGTGCTGGAAGCCGATGCGGAGATCGCGGACTTCGTGGACCTGTCCACCCCCACGCTCATGCTCAGCGGCGGCTGGAGCCCCGGGTACTTCGCCGAAACGGGCCGCCAGCTGGCAGCTGCCGTTCCGGCCATCGAGTTCGCCGTGGTGCCGGGTCAGCTGCACGAAGGCCCCATCCGTCCAGGGAAACGCCTCGCCGTCCGGATGGCACGCTTCCTCAACGGCACGGACGGGAGCCTGCCATCCCTGAGCAGGCGCGGACGGCGCGGGTAG	METWTVEADDDGGRLEVHSFRPAALTTADGGTADGSTAQGGPPPSAVPGVVVIHGTLVTDALYRPFARKLSLLLSRPVHCYNRRGRAGSAAQPEGYTAATEVRDLAAVMRATGSEDVVAHSYGGFVALQAARSMPIRRLVTYDAAVSLSGNLHDRWRPELEQAVSDGQLNHAWAHLVQGLATAGPVSYLPLGALRMLSIMSARTNLGAEMRELLPTAVKEMRAVLEADAEIADFVDLSTPTLMLSGGWSPGYFAETGRQLAAAVPAIEFAVVPGQLHEGPIRPGKRLAVRMARFLNGTDGSLPSLSRRGRRG				NA	NA	NA	NA	NA
D1-17_03639	837			hypothetical protein	ATGACGCGCGAGATCATCAGCACACCGGACGGCGGCAAACTTGAGCTGTTCAGCACGGGCACGGAACTCGCATCGGCAGGTTCCGGCGTCGTAGTCGTCATCTCCTCCATGGTCACGGCCTCCGACTACACCCGGTTCGCCCAGAAACTCAGCGCCGAACTCGGCCGGCCGGTCCATACGTTCAACCGCCGCGGCCGCGGAGCATCCTCCGAGCAGCAGGGCGACTACACCCTGGACGTCGACATCCGCGACCTCGACACCGTCATGAAGCACACGTCCAGCACGGACGTTTTCGGGCACAGCTTCGGCGGGGCCGTAGCCCTTCACGCCGCCCGGACCCTCCCTGTAGAACGGCTTGCCGTTTATGACCCCGCAGTGTCCGTAAACCACAGCGTCAAGGCCGACTGGACTCTCGAGTACGAGCGGGCGACGGCCGCCGGGGACGACGACCGTGCCCTCGCCGTCCTGCAGCGCGGCCTCGAAGCCGCGGGTCCGTTTTCGTCGCGTATGCCGCTGTCCATGTTGACGCTGGCCAACAAGCTCACGGCAGCCACCTCGATGGGCAAGCAGCAGCGCGAGATGATGCGCACCGGCGTTCGGGAAATCAAGGCGATCATTGCGGCAGACATGCCCGCCGAGCCGTTCCTCCAACTGCCGCTGGAGACCCTGATCATCGTCGGCGAGAAGAGCCCGGCCTACTTTGGCGTGGCCTGCGGACAGATCCACGACGTCCTCTCCGGATCCAGCTACACCATTCTGCCGGGCTTCGGGCACGACGGCGTCATCCGCGCGCCGGACAGGCTTATCACCGACCTGGCCGAGTTCTTCGCCGGCTGA	MTREIISTPDGGKLELFSTGTELASAGSGVVVVISSMVTASDYTRFAQKLSAELGRPVHTFNRRGRGASSEQQGDYTLDVDIRDLDTVMKHTSSTDVFGHSFGGAVALHAARTLPVERLAVYDPAVSVNHSVKADWTLEYERATAAGDDDRALAVLQRGLEAAGPFSSRMPLSMLTLANKLTAATSMGKQQREMMRTGVREIKAIIAADMPAEPFLQLPLETLIIVGEKSPAYFGVACGQIHDVLSGSSYTILPGFGHDGVIRAPDRLITDLAEFFAG				NA	NA	NA	NA	NA
D1-17_03640	1524	ribZ_2		Riboflavin transporter RibZ	ATGTCTAGCAAAGTCACGTTAAATTCCCATGGCGAGCCGGGGCAGGAGCCTGCCGCAGCCCAGCCCGCGCCGGCGGCGGTTCAGCCAGCCGGGGAGCCGGCCGAAGCCTCCGATGACAAGATGTCCCGCGAATCAGTGACCGTCATCGTCACGCTGCTGGTGGCGACCTTCGTGGTCATCCTCAACGAGACCATCATGAATGTGGCCCTTCAGCGGCTCATGGTGGACCTCAGTGTGGATGCGCCCACGGTGCAGTGGCTGTCCACAGGCTTCATGCTCACCATGGCGGTTGTGATTCCGACCACCGGCTTCATCCTGCAACGCCTGTCCACACGGGCCGTTTTCCTGCTGGCCATGGGACTCTTCTCCGGCGGCACCGCGCTGGCGGCAGTGGCCCCCGGCTTCGGGATCCTCCTGCTGGCCCGCGTCATCCAGGCCGGAGGCACAGCGATCATGCTGCCTCTGCTGATGACAACGATCCTTACCCTTGTCCCGCTGGCCCGCCGCGGCGCCGTCATGGGCAACGTCAGCATCGCCATCTCCGTGGCACCCGCCATGGGCCCGACCGTTTCCGGCCTGATTCTCCAGCATTTCTCATGGCGCTTCATGTTCGTCTTCGTCCTGCCAATTGCGCTGGCAGCGCTGGCGATCGGTGCCCGCTACCTGACGAACGTCGGCGAGACCGAAAAATCCAGGCTCGACTTCCTGTCCGTTGCCCTGACCGTTCCCGCATTCGGCGGCCTGGTGTACGGTCTCAGCCAGATCGGCGGAGGCCACGGTGCCGGCGGTGGCCCGGGTGCTGCCGCACTGACTGCGCTGGCGGTGGGAGTTGCCGGGCTCGTCGTGTTCGTGCTGCGCCAACTCCGGCTGCAGAAGTCAGAGGCGCCGCTGCTGGACCTGCGGGCGTTCAACTTCAGGATGTTCACGGTGTCTGTGCTGCTGCTTGTGGTGGCCATGATCGCCCTGTTCGGCGCCGTGATCCTGCTGCCCCTGTACCTGCAGGAAATCCGCGGCCTGAAGTCCCTCGAGACCGGCCTCGCGCTGCTGCCGGGAGGCCTCGCCATGGGTCTGCTCGGCCCGTTTATCGGCCGGCTGTTCGACAAACTTGGGCCCCTGCCGCTCACTGTGACCGGATCTTCCCTCCTGGTCCTGTCGCTGTGGCAGTTTTCGATGCTCGACGCCGACACCGCGGTCTGGTGGATCGTCACCCTGCACGTGGTGCTGAGTTTGGGGCTCGCGCTGCTGTTCACCCCGGCGTTCACCACAGGGTTGAACCCGCTGCCGCCGCACCTCTACTCCCATGGTTCGGCCATCATGAGCACCTTGCAGCAGGTGGCAGGCGCGGCAGGCACGGCACTGCTCGTGTCGATTTTCGCTGTGGTCTCCGCAGGCTCCGGCCTCGTCGCCGGGATGAGCGCCGCGTTCCTGGCCGCGACAGCGATAGCCGTTGCCGCCGTCGTCCTGGCCGCGATGATGCGCAAGACGGCTGGCGCCGAAGCACCCCAAGGCGCCCCCGCCCATTAA	MSSKVTLNSHGEPGQEPAAAQPAPAAVQPAGEPAEASDDKMSRESVTVIVTLLVATFVVILNETIMNVALQRLMVDLSVDAPTVQWLSTGFMLTMAVVIPTTGFILQRLSTRAVFLLAMGLFSGGTALAAVAPGFGILLLARVIQAGGTAIMLPLLMTTILTLVPLARRGAVMGNVSIAISVAPAMGPTVSGLILQHFSWRFMFVFVLPIALAALAIGARYLTNVGETEKSRLDFLSVALTVPAFGGLVYGLSQIGGGHGAGGGPGAAALTALAVGVAGLVVFVLRQLRLQKSEAPLLDLRAFNFRMFTVSVLLLVVAMIALFGAVILLPLYLQEIRGLKSLETGLALLPGGLAMGLLGPFIGRLFDKLGPLPLTVTGSSLLVLSLWQFSMLDADTAVWWIVTLHVVLSLGLALLFTPAFTTGLNPLPPHLYSHGSAIMSTLQQVAGAAGTALLVSIFAVVSAGSGLVAGMSAAFLAATAIAVAAVVLAAMMRKTAGAEAPQGAPAH	PGPT0028570_90	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028570-lmrB-K18926	NA	NA
D1-17_03641	930	panC	COG0414	Pantothenate synthetase	ATGGCAATCCGAATCGTTACCACCGCAGCCTCCCTTCGTGCCCAAAGCCGCCTGCTGCTGACCCAAAAGCAGGGTTCTTCCCTGGGGCTGGTGCCCACGATGGGGGCCCTGCACGAGGGCCACGCGCGGCTGGCAGGGACCGCCGTCGAGCAGAACGACGTGGTTGTGGCCTCCATCTTCGTGAATCCGCTGCAGTTCGGCGAGGCGGCAGACCTCGACCGGTATCCGCGGACCCTCGAGGCAGACGCGGAACTGCTCGAGGCCCAGGGTGTCGACCTGGTTTTCGCGCCTTCCGTCGAGGAGATGTACCCGGGCGGGCAGCCGACGGTGCGGATCGCGTCCGGCAGGCTCGGGGAAAAGTGGGAGGGCGCCTCACGTCCCGGCCACTTCGACGGCGCCCTTACGGTGGTCGCCAAATTGCTGCATCTCGGAACCCCGGCCACCGGGCTGCCGGGAGCGCGCGCCTTCGCCGCCGGCTCCGGAGGTGGACTGCCGGACTACCGCGCCTACTTCGGGCAGAAAGACGCCCAGCAACTCGCGCTCGTTCGGCAGATGGTCGCCGACCTGAACTTCCCGGTGGAGATCGTCGCCGTCCCCACAGTCCGGGAGGCCGACGGGCTGGCCCTGTCCAGCCGCAACCGGTTCCTGTCCGCCGAGCAGCGCGACGCCGCGCTGGTCCTGTCCCGGGCGCTGCGGTTCCTCGAGGAGCGGGCCGTCGCCCGCAAGCCGCTCGAGGTTGAATCGGCCCAGGCACTCATCGAGTCGCAGCCCCTCGTGGAGCTGGACTACCTTGACGTGGTGGATCCCCGGACCCTGGAGCCGCTGGCGGAGAACTGCCGCGAGACTCCGTTCCGCGGCGAGGCGCTCGCGCTCGTGGCGGCCAAGGTGGGCCCGGTGCGGCTGATCGACAACCTTCCGCTGGTTTCGTAG	MAIRIVTTAASLRAQSRLLLTQKQGSSLGLVPTMGALHEGHARLAGTAVEQNDVVVASIFVNPLQFGEAADLDRYPRTLEADAELLEAQGVDLVFAPSVEEMYPGGQPTVRIASGRLGEKWEGASRPGHFDGALTVVAKLLHLGTPATGLPGARAFAAGSGGGLPDYRAYFGQKDAQQLALVRQMVADLNFPVEIVAVPTVREADGLALSSRNRFLSAEQRDAALVLSRALRFLEERAVARKPLEVESAQALIESQPLVELDYLDVVDPRTLEPLAENCRETPFRGEALALVAAKVGPVRLIDNLPLVS	PGPT0008750_481	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008750-panC-K01918	NA	NA
D1-17_03642	957			hypothetical protein	GTGGTTAAGCCCGGACGCCTCGGTGTCGGAATCATCGGTGCCGGCAAGGTGGGTGCCGTGCTGGGTGCTGCGCTGCGCGCGGCCGAGCACGCCGTCGTCGGGGTTTCCGCGGTGTCCGACGCGAGCCGGGAACGGGCCGAAACGCTCTTGCCCGGGGTTCCCATCCTCGGCGTGCAGGACATCGTGGAGCGTTCGGAGCTGGTGCTGCTGGCCGTACCGGACGACGCGCTTGGCGGTCTCGTGGAGGGGCTGGCGAAGCTCGGGGCCTGGCAGCCGGGGCAGCTTGTGGCCCACACCTCCGGGCGTTTCGGTGCCGGTATCCTGCATCCAGTCCGAACAGCCGGCGCCGTGCCGCTGGCCCTGCATCCGGCCATGACCTTCACGGGTATGAGCCTGGACCTGACGCGGCTGCTGGACTGCACGTTCGGTGTCACGGCCGACGCCGCCATGCTGCCGATCGCGCAGGCGCTGGTGGTCGAGATGGGGGCGGAACCGGTGGTGATCGCCGAAGCCGACAGGGTCATCTATCACGCCGCCCTCGCACACGGCTCCAACCACATGGCCACCCTCGTGGCGCAGGCTGCGCAGTTGCTCGGCGAAGTCGGCGTTGAAGCTCCTGAGCGCATGCTTGGGCCGCTGCTGCGGGCTACCCTTGAAAATGCCCTCGCTTCCGGGGAATCAGCCCTGACCGGGCCGGTGGCGCGGGGCGACGCAGGGACAGTAGGCGCCCATGTACGGGCGCTGCGGGAGCACGACGGCGGTGCTGCCGGCGACATCCTCGAGGCGTACCTGGCTATGGCTTGGGCGACGGCACACAGGGCCGAAAGCAGGGGGCTGCTGAAGGCGGACCAGGTCGGAGGGATCACCGATGCCCTGGCCCACGGCGATCCAGACTCAGACGGTACAAATGAAGGCGGCCCGGACGACGATGGTCCGGCGGCAAAGGGAGGACACTGA	MVKPGRLGVGIIGAGKVGAVLGAALRAAEHAVVGVSAVSDASRERAETLLPGVPILGVQDIVERSELVLLAVPDDALGGLVEGLAKLGAWQPGQLVAHTSGRFGAGILHPVRTAGAVPLALHPAMTFTGMSLDLTRLLDCTFGVTADAAMLPIAQALVVEMGAEPVVIAEADRVIYHAALAHGSNHMATLVAQAAQLLGEVGVEAPERMLGPLLRATLENALASGESALTGPVARGDAGTVGAHVRALREHDGGAAGDILEAYLAMAWATAHRAESRGLLKADQVGGITDALAHGDPDSDGTNEGGPDDDGPAAKGGH				NA	NA	NA	NA	NA
D1-17_03643	1617			hypothetical protein	GTGACCGCCGGGCCCCCTCCCGTGCAGCCCGAGGGGGCCCCGTTCCCTCCCGTGCAGCCCGCCGACGCACCGCCTCTTCCCGTGCAGCCAGCCGGCCCCCAGCCCGCTGGCCCCCAGCCCGACAGCCCATGGCTCCGCGTGCATCCAGCGACACCATTCGTGCGGGGCTGGGTGGCGCTGCTGGCCATCGCTTACTTCTTCGGGCGCGATTCCTTCGAACGGATGCTGCGGGGCGAGCCACTCGTCGACGACCTCATAGCAGGCCGCGCCCCGTGGCTCCTCGCCGGCGGGGCCTTCATGTTGCTGCTCGCGGTCTCCGGGTTCATCATGTCGTGGTACTTCACCCGCTACCAGGTGGCGGAAGGGTACGTCCGCGTCAACACCGGCTTCCTGTTCAGGCAGCAGCGCCAGGCCCGCCTTGACCGGGTCCAGGCGATCGATATCGTGCAGCCCCTGCTTGCGAGGATCTTCGGGCTGGCGGAGTTGAAGTTTGAAGTGGCCGATGCAGGGGAGTCGGCCGTCCGGCTCGCCTACCTCCGCATGGAGGACGCCCGGCAGTTGCGGGCCACGATCCTCGCCCGTGCGGCGGGAGTCCGGCTGGAACCCGGGCAGGCCGAAGTAGCCGTGCCGGAAGCCCCCGAGCAGCAGGTGCTGCGCGTCCCGCCGTCGCGCCTGATCGGGTCCCTGCTGCTCAGCGAGCAGAGCCTCGTCATCGTGCTGGGCGGGGTGGTGTCCGTGGTCCTGTCCGCGGTCACTGAAAACCGGGGCTTTTTCCTTTACCTGATTCCTGCGGTGCTGGGCCTGTTCGCCTCATACTGGGGATCCTTCCACAAGGGCTACAACTTCACCGCTGCTATTTCCCCGGACGGCATCAGGCTCCGCTACGGCCTGCTCGACACCCAGGCGCAGACCCTTCCGCCTGGACGGGTGCAGGCTCTGCGGGTGGTCCAGCCGCCGCTGTGGCGCCTGTTCGGCTGGTATCGGATCCAGGTCAACGTGGCAGGATACGGGGTTGCGGGAGCCAATGGCGAAGCGGGGCCGCGGACCACGCTGCTGCCGGTCGGCGGTGTCGATGACGTGCTGAACGTGCTGGCGATGGTCCTTCCGGACCCAGGAACACCTGATCCCCTTGGTGTTTTTCGCGCCGGCCTGGAGGGCCTGGATTCCGACGGCGGCTTTGTCACGTCGCCGCAGCGGGCCCGCGTCCTGGCGCCGCTCGCGTGGCGGCGGAACGGCTTCACCGCCACGGACACAGCCCTGCTGATCCGTTCAGGGCGCTGGTGGCGGGAGCTCGTTGTGGTCCCGCACCAGCGAACGCAGTCGATGGCTCTCCACCAAGGGCCGCTGGCGCGCAGGTTCGAGGTCGCGGATCTGGTGCTGCACACCACCGCCGGCCCGGTAACGCCGAGGGTGGTCCAGGCCGGAGTGGACGAGGCACAGACACTGTTCGATGCGCAGGCTGCCCGGGCCAGGGCTGCCCGCCGTCGGCAGACCAGCGAACAGTGGCTGGCCCAGGTCGCGCCGCAGTTGCTGGAGCAAAGTCCGCCCGATCAGCAGGGTTTCAGTCCCCAGCAAAGTCCCCATTCCCAGCAGCAGGAAGGCCCGCAACGTGGTTAA	MTAGPPPVQPEGAPFPPVQPADAPPLPVQPAGPQPAGPQPDSPWLRVHPATPFVRGWVALLAIAYFFGRDSFERMLRGEPLVDDLIAGRAPWLLAGGAFMLLLAVSGFIMSWYFTRYQVAEGYVRVNTGFLFRQQRQARLDRVQAIDIVQPLLARIFGLAELKFEVADAGESAVRLAYLRMEDARQLRATILARAAGVRLEPGQAEVAVPEAPEQQVLRVPPSRLIGSLLLSEQSLVIVLGGVVSVVLSAVTENRGFFLYLIPAVLGLFASYWGSFHKGYNFTAAISPDGIRLRYGLLDTQAQTLPPGRVQALRVVQPPLWRLFGWYRIQVNVAGYGVAGANGEAGPRTTLLPVGGVDDVLNVLAMVLPDPGTPDPLGVFRAGLEGLDSDGGFVTSPQRARVLAPLAWRRNGFTATDTALLIRSGRWWRELVVVPHQRTQSMALHQGPLARRFEVADLVLHTTAGPVTPRVVQAGVDEAQTLFDAQAARARAARRRQTSEQWLAQVAPQLLEQSPPDQQGFSPQQSPHSQQQEGPQRG				NA	NA	NA	NA	NA
D1-17_03644	513			hypothetical protein	ATGCCTACCGCGGCGATTGATCCGCCGGGCATCACCTGGCTCCGCGTTTCCCCGAAATACGTCACCGTCCGGCTGGTGGAGTGGGCGGTCGGGAACCTGATCACCGTCGGGGTGCTCAGCCTGCCCCTGGTCTTTGTGCTGCTCGGCTGGTGGCGCTGGCCGCCGCTCTGGCTGGCCGTCGCCGTACCCGCGTTCATGCTGGTCCTCGCACTGTGGCGCCTGCTGCTGATTCCGCGCCAGGTCCGCGCGATCGGCTACGCCGAGCGTGACGACGACCTGTTGATCCGCGGCGGGATCTTCTTCCAGCGCGTCTTGGTGGTGCCTTACGGCCGGATGCAGTACGTGGACATCAGTGTGGGGCCGGTGGAGCGCAGCCTTGGACTGTGCACACTGAAGCTGCACACCGCCTCACCCGGAACGAATGCGTCCATTCCCGGGTTGCCCGCCGAGGAAGGGGCCCGCCTGCGGGAACAGCTTTCGGCTCGCGGCGAAGCCAGGCTGGCCGGGCTGTGA	MPTAAIDPPGITWLRVSPKYVTVRLVEWAVGNLITVGVLSLPLVFVLLGWWRWPPLWLAVAVPAFMLVLALWRLLLIPRQVRAIGYAERDDDLLIRGGIFFQRVLVVPYGRMQYVDISVGPVERSLGLCTLKLHTASPGTNASIPGLPAEEGARLREQLSARGEARLAGL				NA	NA	NA	NA	NA
D1-17_03645	528			hypothetical protein	GTGAAGCCCCTGAACCCGCTGCTGCTCGCGGCGGTCGGACTGGCCTTGGCCGTTGCGGGCTGGTCCGCGGCCGTGCTTGGGAGCCGATACGGCATGGCCACACCGGTACTGCCTCCCACCGGGCTCGTCACCATGGGCGTGATTGTTGTCCTGACCCTCGTCATGGGCATCCGCGTCCTGCGCTGGCGCAACGGCAAAAAGAAGAAAATGCTCAACCCGTTCCTGGCTGCCTGGACCCTGGTCCTGGCGCAGGCTTGTGCCTACACCGGGGCGATGCTGCTTGGCTGGCACGCGGGCATCTTCGTGCAGCTGCTGCAGATCTGGAGCCTGCGGAACAGCCAGGAGCTGACCTGGCTGGCCCTTGGCATGGCCGGCGGCGGGCTGGTCATGATCATTGTGGGGTTCGTCGTCGAACGCTTCTGCAGGATTCCACCGGAAGACGGCGACGCTGACTCCACGAAGGGGCTCCCGGGGCCGCGTCCCGGTAAAGCCAAAGGGGAAGGCGAATATGCCTACCGCGGCGATTGA	MKPLNPLLLAAVGLALAVAGWSAAVLGSRYGMATPVLPPTGLVTMGVIVVLTLVMGIRVLRWRNGKKKKMLNPFLAAWTLVLAQACAYTGAMLLGWHAGIFVQLLQIWSLRNSQELTWLALGMAGGGLVMIIVGFVVERFCRIPPEDGDADSTKGLPGPRPGKAKGEGEYAYRGD				NA	NA	NA	NA	NA
D1-17_03646	555	folK	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGAGCCCGTCGCAGCTGAGGTATACCCGGGCTGTCCTGGCCCTCGGCAGCAACCTGGGGGCGCGTAACGACACGCTCACCGAAGCGGTCGCCGACCTCGTGGACCGCCCGGAGGTCCGGCTGCTCGCCGTCTCCCCGGTGGTGCAGACCAAAGCAGTCGGCGGACCGGAAGGCCAGCCCGATTTCCTCAACATGGTCATCACCGTGGAGACCTCCCTCGAGCCGCTCGAACTCCTCAGGCATTGCCAGTCAGTGGAGAACAAGCACCACCGGGTCCGGGAAGTCCGGTGGGGGCCGCGCACCCTTGACGTGGACATCATTGTTTACGGTGACGTCGAGAGCCAGGACCCGGAACTGACCCTCCCGCACCCGCGCGCGGCCGAGCGGGCCTTCGTGCTCTACCCCTGGTCACTGATCGAACCGGCAGCGACCCTGAACGGCCAGCGGATCGGCGAGCTGGCAGCCAGGGCCGCCGACTTCCCGGATCTCAGTCCATTTGACGGCTTTGGCGACTTCAACGGAGCCTCCACAGCGGGAGCGGTGGAGCAACGGTGA	MSPSQLRYTRAVLALGSNLGARNDTLTEAVADLVDRPEVRLLAVSPVVQTKAVGGPEGQPDFLNMVITVETSLEPLELLRHCQSVENKHHRVREVRWGPRTLDVDIIVYGDVESQDPELTLPHPRAAERAFVLYPWSLIEPAATLNGQRIGELAARAADFPDLSPFDGFGDFNGASTAGAVEQR	PGPT0007910_510	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
D1-17_03647	360	folB	COG1539	Dihydroneopterin aldolase	ATGGACAGGATCTCACTGAGCGGTGTCACAGCCACCGGCTACCACGGGGTGTTCGATTTCGAGCGCCGCGAGGGCCAGCCGTTCGTGGTGGACGCCGTGCTGCACCTGGATTTCAGCCAGGCCGCAGCGTCCGACGATGTCAGGGATACCGCCCACTATGGCGAGGTGGCCGGGCGCATCAAGGACTGGATCACCGGTGAGCCGCTGAACCTCATCGAAGCCCTGGCCGTCAGAATGGCCGAGGGGCTGCTCAAGGAATTCAGGATCAATGCTGTGGAGGTCACCGTGCACAAGCCGAAAGCGCCCATAGAGGTGCCGTTCGGCGATGTTGCCGTGAGCGTGTTCCGGGAGCGCACATGA	MDRISLSGVTATGYHGVFDFERREGQPFVVDAVLHLDFSQAAASDDVRDTAHYGEVAGRIKDWITGEPLNLIEALAVRMAEGLLKEFRINAVEVTVHKPKAPIEVPFGDVAVSVFRERT	PGPT0007905_2751	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
D1-17_03648	921	folP1	COG0294	Dihydropteroate synthase	ATGGATTCCCTAGCTGCAGCACCTGGAACCGGACCCGCAACTTCCCCGCTGCCCGTTCTGCGCAAACCGCGGCCGGCGGCCAAATTCGAAGACCTGCCCACCGGCCGCACCCTGGTGATGGGCGTTCTGAACGTCACGCCGGACTCATTTAGCGACGGCGGCAAACACCCGACCGCGGATACCGCCATCGCAGCGGGCCTGCGGATGTTTTACGCCGGGGCAGACATCGTCGACGTCGGAGGCGAATCCACCCGCCCGGGCGCAGAGGAAGTCAGCCCTGAAGAGGAGCAGCGACGGGTCCTGCCAGTCATTGGGGCGCTGGTCAAGGCCGGTGCCTTGGTCAGCATCGACACCACCCACGCGTCCACCGCGGAAGCCGCCCTCGAAGCCGGGGCATCCATCATCAACGACGTCTCGGGCCTCAGCATCGAGCCGGGGATGGCTGAGCTGGTCGCCAGGAGCAAGGCGCCCTACGTGCTGACCCACCGCCGCGGCGACGCAAAGACCATGACGTCCCTAACCGAATACCAGGACGTTGCCGACGACGTCGTCGCCGAGCTCAGCGGCGTCCGGGACAAGCTGTACGCCGCCGGTGTCCTCCCCGAACAGATCATCATCGACCCGGGCATCGGCTTCTCCAAGACGGACGAGCAGAACTGGGAGCTTCTGCGGAACCTTGACCGGCTCGAGGCCATGGGCCACAAGGTGCTCGTCGGGGTGTCGCGCAAGCGCTTCCTGGGCACGCTTCTCACCGTCTCGGGCAAGGCAGCCCTCCCCGAGGAACGTGACGCGGCCACCGCAGCCGTCACGGCGATCACCGCTGCCCGCGGCGTCTGGGCTGTCCGCGTGCACGACGTCGGCCCCAGCCTGGACGCCGTAAAGGTCGCGGCCCGCTTGGCCGCTCCGCACTCCGGCAAATAA	MDSLAAAPGTGPATSPLPVLRKPRPAAKFEDLPTGRTLVMGVLNVTPDSFSDGGKHPTADTAIAAGLRMFYAGADIVDVGGESTRPGAEEVSPEEEQRRVLPVIGALVKAGALVSIDTTHASTAEAALEAGASIINDVSGLSIEPGMAELVARSKAPYVLTHRRGDAKTMTSLTEYQDVADDVVAELSGVRDKLYAAGVLPEQIIIDPGIGFSKTDEQNWELLRNLDRLEAMGHKVLVGVSRKRFLGTLLTVSGKAALPEERDAATAAVTAITAARGVWAVRVHDVGPSLDAVKVAARLAAPHSGK	PGPT0007915_1046	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
D1-17_03649	636	folE_2	COG0302	GTP cyclohydrolase 1	GTGACTCACTTCGACGACAACGATTCTGCCGCCTCCTCCGACCACTCGGCGGCGGGCGGATCCGGCAAGCACAAGGTGGACAGGCCGCGCATTGAAGCGGCCGTGCGGGAGATCCTGCTGGCCATCGGAGAGGACCCGGACCGAGGGGGCCTGCAGGATACGCCCAAGCGCGTCGCCAAGGCATACGCGGAGATGTTCGCGGGCCTGCACCAGGACCCCGCCGCAATTCTTGCAACGACCTTCGACCTGGACCACGAAGAGCTGGTCCTGGTTAAGGACATTCCGTTCTATTCAACGTGCGAGCACCACCTGGTGCCGTTCCACGGCGTGGCCCATGTTGGGTACATCCCCTCGCACGACGGCAAGGTGACAGGTTTGAGCAAGCTGGCACGCCTGGTGGACATTTACGCCCGCCGTCCACAGGTCCAGGAGCGGCTCACTACGGAGATCGTCGAAGCTCTGGTCACATTCCTTAAGCCGCGCGGAGCCATCGTGGTGGTGGAATGCGAACACATGTGCATGTCCATGCGCGGCATCCGCAAGCCCGGGGCCAAAACCGTCACAAGCGCGGTCCGCGGGCAACTTCATGACCCGGCCACCCGTGCCGAAGCCATGAGCCTCATCATCGGAAGGTAA	MTHFDDNDSAASSDHSAAGGSGKHKVDRPRIEAAVREILLAIGEDPDRGGLQDTPKRVAKAYAEMFAGLHQDPAAILATTFDLDHEELVLVKDIPFYSTCEHHLVPFHGVAHVGYIPSHDGKVTGLSKLARLVDIYARRPQVQERLTTEIVEALVTFLKPRGAIVVVECEHMCMSMRGIRKPGAKTVTSAVRGQLHDPATRAEAMSLIIGR	PGPT0007875_2073	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
D1-17_03650	2154	ftsH_4	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGCTAGAACTGACGCAGCACCACACGTGCGCGCAGACCACGCGCCGTGCAGCACTACCAGGAGGGACGGGGCCAGCCCCCGAACAGATGAAAGCTAAGAGTTTCTTCAAGGGCCCGGGCATCTGGATCATCGTTGTGGTCGGCATGCTCCTGCTGGCCTTTGCAACATTGGCTCCGGGCGGTGCGACGCGAATCGACACGCAGCCCGGCCTCGAGCTGCTTGCCGAAAGCGGCAAGGTTGAACAGGCAAAGATCTTTGACGGCGAGAACCGTGTGGACCTGGTCCTGAAGGACAACCTCGTCATCGACGGAGAGGACAAGGGCAAGAACGTCCAGTTCTTCTTCGTCAATGACCGTGGACCGGACGTGGTCAAGGCTGTCACTGACGCCAACCCCTCCAAGGGCTACACAGACCAGCCGGTTGAGAGCAACTGGCTGTCCGGGCTGTTCTCCCTGCTGATTCCGGTGCTGCTGCTCGGTCTCCTGTTCTGGTTCCTCCTCTCGCGCATGCAGGGCGGCGGATCCAAGGTCATGCAGTTCGGCAAGTCCAAGGCCAAGATGGTCAACAAGGACATGCCGCAGGTGACGTTCGCGGACGTCGCTGGTGCCGATGAAGCCGTCGAAGAGCTCCAGGAGATCAAGGAATTCCTCGCAGAGCCGGCCAAATTCCAGGCCGTGGGCGCCAAGATCCCCAAGGGCGTGCTGCTGTACGGCCCGCCGGGCACCGGCAAGACCCTCCTGGCCCGCGCCGTCGCGGGCGAAGCCGGCGTGCCGTTCTTCTCCATCTCGGGCTCGGACTTCGTCGAAATGTTCGTCGGTGTGGGTGCTTCCCGCGTCCGTGACCTCTTTGAGCAGGCCAAGGCCAACTCGCCCGCCATCATCTTCGTCGACGAGATCGACGCCGTCGGCCGCCACCGCGGTGCCGGCATCGGCGGCGGCAACGACGAGCGCGAGCAGACCCTCAACCAGCTGCTCGTCGAAATGGACGGCTTCGACGTCAAGACCAACGTCATCCTGATCGCCGCCACCAACCGTCCTGATGTCCTGGACCCGGCACTGCTCCGTCCGGGGCGGTTCGACCGGCAGGTTTCCGTGGAGGCCCCCGACCTGATCGGGCGCGACCAGATCCTCCAGGTGCACGCCAAGGGCAAGCCGATCGCGCAGGGCGTGGACCTCAAAGCCGTCGCCAAGAAGACCCCCGGCTACACGGGCGCAGACCTGGCAAACGTGCTCAACGAGGCCGCGCTGCTCACCGCCCGTTCCAACGCCAACCTGATCGATGATCGTGCCCTGGACGAGGCGATCGACCGCGTCATGGCGGGCCCGCAGAAGCGCAGCCGCGTCATGAAGGAACACGAGCGCAAGATCACCGCCTACCACGAAGGCGGCCACGCCCTCGTCGCGGCGGCGCTGCGCAACTCGGCACCGGTCACCAAGATCACCATCCTGCCCCGCGGCCGTGCGCTCGGCTACACCATGGTGGTCCCGGAGAACGACAAGTACTCCATCACCCGCAACGAGCTCCTGGACCAGATGGCCTACGCCATGGGCGGCCGCGTTGCTGAAGAGATTGTCTTCCACGATCCTTCCACCGGCGCCTCGAACGACATCGAGAAAGCCACAGCCACGGCGCGCCAGATGGTCACCCAGTACGGCATGAGCGAGCGTGTCGGTGCTGTGCGCCTCGGCCAGGGCGGCGGCGAGCCGTTCCTCGGCCGCGACGCCAGCCACGAGCGCAACTACTCGGACCAGATTGCCTACATCGTGGATGAGGAAGTCCGCCGCCTGATCGACCAGGCCCACGACGAGGCCTACGCCATCCTCACGGAGAACCGCGACGTCCTGGACCGGCTGGCCCTGGAACTGCTGGAACGCGAAACCCTGAACCAGGCCGAGATTGCCGACGTCTTCCGCGACATCCGCAAGCGCGACTTCCGCGAAGTGTGGCTATCCAAGGAGACGCGTCCGGTCCAGAAGTCCGGTCCCGTGGAGTCCCGCCAGGAGCGCGCTGAGCGCGAGGCCCAGGAGGAAGCCAAGGAGGCCCGCCTGGAGGAACCGCTGGACGCTCTGCCGCCGCATCCGCAGGGAGTTCCTGAGGACGCCACCTTCCAGGGCGAAGTCACCGAAGCGGGTCCTGACGGCCACCACGGCTAA	MLELTQHHTCAQTTRRAALPGGTGPAPEQMKAKSFFKGPGIWIIVVVGMLLLAFATLAPGGATRIDTQPGLELLAESGKVEQAKIFDGENRVDLVLKDNLVIDGEDKGKNVQFFFVNDRGPDVVKAVTDANPSKGYTDQPVESNWLSGLFSLLIPVLLLGLLFWFLLSRMQGGGSKVMQFGKSKAKMVNKDMPQVTFADVAGADEAVEELQEIKEFLAEPAKFQAVGAKIPKGVLLYGPPGTGKTLLARAVAGEAGVPFFSISGSDFVEMFVGVGASRVRDLFEQAKANSPAIIFVDEIDAVGRHRGAGIGGGNDEREQTLNQLLVEMDGFDVKTNVILIAATNRPDVLDPALLRPGRFDRQVSVEAPDLIGRDQILQVHAKGKPIAQGVDLKAVAKKTPGYTGADLANVLNEAALLTARSNANLIDDRALDEAIDRVMAGPQKRSRVMKEHERKITAYHEGGHALVAAALRNSAPVTKITILPRGRALGYTMVVPENDKYSITRNELLDQMAYAMGGRVAEEIVFHDPSTGASNDIEKATATARQMVTQYGMSERVGAVRLGQGGGEPFLGRDASHERNYSDQIAYIVDEEVRRLIDQAHDEAYAILTENRDVLDRLALELLERETLNQAEIADVFRDIRKRDFREVWLSKETRPVQKSGPVESRQERAEREAQEEAKEARLEEPLDALPPHPQGVPEDATFQGEVTEAGPDGHHG				NA	NA	NA	NA	NA
D1-17_03651	552	hpt	COG0634	Hypoxanthine-guanine phosphoribosyltransferase	GTGGATTCATCCGACGTCCAGGCAGACCTCAAGCATGTTCTCTACTCCAAGGAACAGATCCAGCAGCGCATCACTGAGCTCGCGGCGCAGATTGACAAGGACTACGAGGGCCGCGAAATCCTGATCGTCGGCGTGCTCAAGGGCGCCGTCATGGTTATGGCGGACCTGGCCCGGGCCCTGCACTCGCACATTTCCATGGACTGGATGGCCGTATCCTCGTACGGCTCGGGTACGCAGTCCTCCGGCGTGGTGCGCATCCTCAAGGACCTGGACACCGACCTGATGGGCAAGGACGTACTCATCGTCGAGGACATCATCGATTCCGGTCTCACCCTGTCCTGGCTCAAAACCAACCTCGAATCCCGCGGCACGGCGTCAGTGGAAATCTGCACGGCTTTCCGCAAGCCGACGGCGGCCAAGGTGGAAATCGACGTCAAGTACGTGGGCTTCGACATCCCTAATGAGTTTGTGGTGGGCTACGGCCTCGATTATGCGGAAAAGTACCGCAACCTGGACTTCGTGGGCACCCTGGCGCCCCACGTTTACGAATAA	MDSSDVQADLKHVLYSKEQIQQRITELAAQIDKDYEGREILIVGVLKGAVMVMADLARALHSHISMDWMAVSSYGSGTQSSGVVRILKDLDTDLMGKDVLIVEDIIDSGLTLSWLKTNLESRGTASVEICTAFRKPTAAKVEIDVKYVGFDIPNEFVVGYGLDYAEKYRNLDFVGTLAPHVYE	PGPT0007295_1818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
D1-17_03652	1116	tilS		tRNA(Ile)-lysidine synthase	GTGCCGGTCGTCGGCACAGCGCGGAAAATGCTGCAGAATTCCCTCGCCCAGGCAGGCTACCCTGAGCGGATTCTGGTCGCATGCAGCGGCGGACCTGATTCGCTGGCCCTTGCCGCCGTAGCTGCCTACTTCGCCCGCCGGGGGCATGTGGACGGGCATCCGGTGGCCGTAGGTGCAGTGGTGGTGGACCACCAACTGCAGGAGGGGTCTGCGGAGGTGGCCTCCCGAACGGCCGAAACACTCATCGAGCTCGGCCTCCACCCGGTACTGGTGCTTGCTGTGGACGTTGCCGCCGGCGGATTCGGCCCGGAGGCTGCGGCCCGGGACGCCCGCCATGCAGCGCTGGAAGCCGCGGCGGAGGAATGGGATGCAGGTGCCGTTTTGCTGGGCCACACCCTCGATGATCAGGCGGAACAGGTGCTGCTGGGACTGGCCCGCGGTTCCGGCACCCGTTCCCTGGCCGGCATGCGGCCTGTCCGCGGCAAGTTGCTGCGGCCCTTCCTTGGGCTGCGCAGAACGGAGACCCTCGAGATCTGCCGGGCCGAGGAACTGGATCCCTGGCATGACCCCAGCAACGCGGACTCTTCCTTCGCCCGCTCGCGGACCCGGGTGGAGGTCATGCCCGTGCTGGAGGAAAAGCTCGGACCCGGAGTCGCCGAATCGTTGGCCCGGACAGCGGCCATACTGCAGCAGGATGCGGACTATCTGGACGAGGTGGCGGACAGCACGTTCGCCGCACTCGCCGAGCGTTCCGGCCAGGACATCAGCCTGCCGGAAGAGGCCCTGAACGATCTCGCCCCGGCCATCAGGTCCCGGGTGATTGCCAGGGCAGCGGCCGACGTCGGGGGTCAACAGCCCAGCTACCGGCGGCTCCAGGCAGCAGAGGCGTTGCTGCTGCGGAAGGGATCGGCTGGTCCGGTCGAGTTGCCGGGCGGCGTGAGCGTCTACCGGCTTTCACTGGCGCAGCTGGAGGCGGAGGCCCGGGAGGGGGCGGAAAGCGGGAAGCAGGCCGGCGGGGGAGCGCAGGAGGCGGCCGCCCGAGCCGCAGGTGTTCCCCGAGGAGGCGCGCGCTGTGGGAAGCTAGTATTCCGGCTTTCCAAACCGACCCGGTTATAG	MPVVGTARKMLQNSLAQAGYPERILVACSGGPDSLALAAVAAYFARRGHVDGHPVAVGAVVVDHQLQEGSAEVASRTAETLIELGLHPVLVLAVDVAAGGFGPEAAARDARHAALEAAAEEWDAGAVLLGHTLDDQAEQVLLGLARGSGTRSLAGMRPVRGKLLRPFLGLRRTETLEICRAEELDPWHDPSNADSSFARSRTRVEVMPVLEEKLGPGVAESLARTAAILQQDADYLDEVADSTFAALAERSGQDISLPEEALNDLAPAIRSRVIARAAADVGGQQPSYRRLQAAEALLLRKGSAGPVELPGGVSVYRLSLAQLEAEAREGAESGKQAGGGAQEAAARAAGVPRGGARCGKLVFRLSKPTRL				NA	NA	NA	NA	NA
D1-17_03653	1140			hypothetical protein	ATGGATCGTATGGAGTCAACAGCAGGCCAGACATCGGCCGCGGGCCAGACCTCTGCCCCAGCCCTGATCAATTGGGAACTCGCCGCGTCCGCCGCCGCCCGGCTGGCTCCGCCTGGTCCCTCCCTGAACGCACGGGAAATCGGCGACGCCGTCGACCAGCTCCGTGCGGCAGCCGATGCTTCCGTCCCGCACGTGCATCACATCACCGGACTGGAAGCCGCCCGCGATCTTCGCGACTCCTCCGTCCTCGTGGTGGACCGGGCGTCCTGGTCGAGGGCAAACACCCAAAGCTTCGCGGTCATGCTCAAGCCCGCCATCGACCGGATGGTGGAGAACCGCAAGGGAACCATCAGCCCCGGCGCGGCGAGCGTCAGCGGCGCCATCACCGGCAGCCAGCTCGGCGCCGTGCTGGCGTTCCTTTCCAGCAAGGTGCTGGGACAGTACGATCCCTTCGCGGCGCTCGCGGAAGGTTCCGCCGCCCCATCCGGCGGCCGGCTGCTTCTGGTGGCTCCCAACATCATTGCCGTGGAGCGCGAGCTCAACGTGACGCCGGAGGACTTCCGGCTCTGGGTCTGCCTGCACGAACAGACCCACAGGGTGCAGTTCGCCGCGGCGCCCTGGCTGCGGCACCACATGCTGAATGAGATTGACAATCTCAGCAGCCACCTCCTCGGCAACGTCGACTCCCTGATGGAGCGTGCCTCAGCGGCAGCCCGTTCCCTGAAGGATCGGTCCATCTCCGGTGACACTCCGGGCAGGGGGGCCATTCTGGACCTTCTGCAGAAGCCCGAGGAGAAAGCAGCGCTGTCCCGTCTCACAGCCGTGATGAGCCTGCTCGAGGGACATGCCAACGTGGTGATGGACGCGGTCGACGCGAGCATCGTGCCGTCGGTGAAGACCATCCGGCAGCGCTTCAACGAGCGCGGCAAGGACCGGGGCGTCATCGAGAAGTTCATCCGCAACCTGCTGGGCCTGGACGCCAAGATGCGCCAGTACACCGACGGTGCCAAGTTCGTACGCGCCGTGGTGGACGTCGTCGGGATGGAGGGCTTCAACCGGGTCTGGGGTTCCGCCGCGAATCTGCCCAGTGAGCCCGAAATCCACGACGCCAAGATCTGGCTGGACAGGATGGGGTTCTAA	MDRMESTAGQTSAAGQTSAPALINWELAASAAARLAPPGPSLNAREIGDAVDQLRAAADASVPHVHHITGLEAARDLRDSSVLVVDRASWSRANTQSFAVMLKPAIDRMVENRKGTISPGAASVSGAITGSQLGAVLAFLSSKVLGQYDPFAALAEGSAAPSGGRLLLVAPNIIAVERELNVTPEDFRLWVCLHEQTHRVQFAAAPWLRHHMLNEIDNLSSHLLGNVDSLMERASAAARSLKDRSISGDTPGRGAILDLLQKPEEKAALSRLTAVMSLLEGHANVVMDAVDASIVPSVKTIRQRFNERGKDRGVIEKFIRNLLGLDAKMRQYTDGAKFVRAVVDVVGMEGFNRVWGSAANLPSEPEIHDAKIWLDRMGF				NA	NA	NA	NA	NA
D1-17_03654	1551		COG2027	Carboxypeptidase	ATGAGGGGCACCACAGGCAAGGCAACCGGCCGCGCCCCGTTCAGCAGAAGCAGTGAACGGCCCCGTGCCAGCATCGGAGCGCTGCTCCGGGCCTGGCCCACCCTGCTCCTTACGGTCCTGCTCGCCGTTCTGGCCTTTCCCGCCGGAATGCTGATTGCCCCCGCGCTCACCGGCCAAGGCCCTTCAGCGGCAGCTCCGGTCCACACTCCGGCCTGGCAGCTTGTGCCCAGGCAACTGTCGGTTCCGCAAGGGATTGATCCCCTCAGCACCTCAGCGCCCGTCCCGTCGCCTGCACAGCTCGCGGCCAAGCTGGACCCGGTTCTTAGGACCGACGGCGGCGGCACCTTTACGGGAGTGGTCCAGGACGCCGTCACGGGCGAGGTGCTGTTCGACAGGAACAGTGCGGCCAGCAGGATCCCGGCCTCCAACATGAAGCTGCTCACCGCAGCGGCGGCGCTCAGGGCCATCGGGCCGGAGTCGCGGTTCAGCACCAAGGCAGTCGCAGGCCCGCCCGGCACAGGCCCGACCGGCACAGGGCCGGGCGCGGCGGATACCGCGCGGACGGTGGTGCTCGTGGGCGGCGGGGATGTCCTCCTCGCGGCAGGCGAGTCCGACAAGGACAAGGTGCTGGGCCATGCCGGGCTGGCAACTCTCGCCAAGCTGACCGTGGAGTCCCTGCGCAAGGACCGGTTCCGCGGCCGGGTGGACGTCCTGGTCGACGATTCCCTGTTTACCGGCCCGTCCCTCAATCCTTTCTGGAGCCCGGACGACGTCGCCGCCGGCGAGGTGGCCCCGCTCTTTCCGCTCGCCCTGAACTCAGCACGCTTCGGTCCGTCCATCACCACCGGGCCCCGCCCGCAGGACCCGGCTCTGGCCGCAGGTGAGGCGTTCGCCGCCCAGCTCAAGGCGGCAGGTGCCGCCGCGGGACTCCAGGTGGCGCCCGCCGTCGGACGTCTGGAGGGGCAAGCTGCGCCGGACGCCGCCGTATTGGGTGAAGTGGAATCTGCGACCGTCAGTCGGCAGGTGGATCTCATGCTTCAGACTTCAGACAACTACCTGGCTGAGACCCTGGGCAGGATGGCTGCTGCCGCCGCAGGCCAACCGGCCAGCAACGAAGGTGCCGCGGCGGCCGTGCTGCAGCAGCTCGCGGGCCTCGGCGTCCCCACCGGCGGCATGACTGTGGCTGATGTTTCAGGGCTGGCGTTGGCAAACCAGGTATCGGCCCGCCAGTTCTCAGAAGTCGTGCGGGCCATCGCGGCCGGCAAGGATGCCCGGCTGCGGGCGGCCTTGACGGGATTCCCTGTCGCAGGCCTCACGGGAACGCTGGGGGACCGGTACGTGGACGAGTCCAGTGCCGAGGGCGCCGGGCTGGTCCGCGCCAAAACCGGAACGCTGAACACCGTGATCGCGCTCAGCGGGTACGTTGTGGACGCCGACGGCCGGCTCCTGGTGTTCTCCTTCATCGGCAACGGCCTGACGCCGGGAGCTGCAGGCAACAAGCTGGCGCTGGACGCGTCAGCAACGGTGCTGGCCGCCTGCGGCTGCCGCTAA	MRGTTGKATGRAPFSRSSERPRASIGALLRAWPTLLLTVLLAVLAFPAGMLIAPALTGQGPSAAAPVHTPAWQLVPRQLSVPQGIDPLSTSAPVPSPAQLAAKLDPVLRTDGGGTFTGVVQDAVTGEVLFDRNSAASRIPASNMKLLTAAAALRAIGPESRFSTKAVAGPPGTGPTGTGPGAADTARTVVLVGGGDVLLAAGESDKDKVLGHAGLATLAKLTVESLRKDRFRGRVDVLVDDSLFTGPSLNPFWSPDDVAAGEVAPLFPLALNSARFGPSITTGPRPQDPALAAGEAFAAQLKAAGAAAGLQVAPAVGRLEGQAAPDAAVLGEVESATVSRQVDLMLQTSDNYLAETLGRMAAAAAGQPASNEGAAAAVLQQLAGLGVPTGGMTVADVSGLALANQVSARQFSEVVRAIAAGKDARLRAALTGFPVAGLTGTLGDRYVDESSAEGAGLVRAKTGTLNTVIALSGYVVDADGRLLVFSFIGNGLTPGAAGNKLALDASATVLAACGCR	PGPT0024035_383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
D1-17_03655	489	ppa	COG0221	Inorganic pyrophosphatase	ATGAAGCATGACGTGACCATCGAGATTCCCAAGGGATCGCGCGTCAAGTACGAAGTCGACCACGAGACCGGCCGCGTCCGCCTGGACCGCGTCCTCTTCACTTCCATGCAGTACCCCACGCACTACGGTTTCTTCGAGAACACCCTCGGCGAAGACGGCGACCCGCTGGACGCCCTTGTGCTCCTGCAGGACTTCGACCTCCTCCCGGGCGTCATCGTCGAAGCCCGCCCCATCGGCGTCTTCAACATGACGGACGACGGCGGCGGGGACGCCAAGGTCCTCTGCGTGCCCGCCGACCCCCGGTTCGACCACATCCAGGAAGTCAGCGACGTCAACGAATTCCTGATCAAGGAAATTGAGCACTTCTTCACCCGCTACAAGGACCTGGAGCCCGGCAAGTGGGTCAAGGCTGAAGGCTGGGCGGACCGTGCCGCTGCCGAGGCAGAGCTCGAGGCCTCCATCAAGCGTTACGTACCTGCAGCCCACTGA	MKHDVTIEIPKGSRVKYEVDHETGRVRLDRVLFTSMQYPTHYGFFENTLGEDGDPLDALVLLQDFDLLPGVIVEARPIGVFNMTDDGGGDAKVLCVPADPRFDHIQEVSDVNEFLIKEIEHFFTRYKDLEPGKWVKAEGWADRAAAEAELEASIKRYVPAAH	PGPT0002600_4653	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
D1-17_03657	903			hypothetical protein	ATGTCACGTAAGTCCATGTCCGCGCGCCATCGCGCCACCCCGACACAGTCCATCGCTTTGGAGGGACTGTCCCATTCCCTAAAGTCCAACGCAGCATCCCTGGCCCGGCCGGCTGCCGCCGTTGCCGCCGCCTCGGGCCTTGTCTTCGGCGTGGGAGCACCTGCCATGGCCGGCGCCAACGCCCCGGAGACCTCGGGCAGCGCCGGCGTTCAGGCTCAGGCAGCAACTCACGCTCCGGCACCTGCTGCGCCTGCCGCCTCAGGCGCAACCCACACGGTTGTGCCTGGCGACACCCTCGGTGCGATCGCTGCAAAGCACGGCGTTGCCTTGAACGCGGTCCTGTCAGCGAACGGTCTTTCCCTGTCCTCGGTGATCTACCCGGGTGACCAGATCGTGATTCCGGGTGCCGCTCACGCTGCACCGGCTCCGCAGGCGGCCGCCCCGGCAGCACCCCACGCTGCCCCTGCCGCCCCGGCAGCACCCCACGCTGCCCCTGCCGCCCCCCAGCAGCAGGCCGGCATGGGCATCTACCACGCTTCCGCCTCGATCAAGCCGGCGTCCGCCACCACGGCGGCTTCCAGCACCCCCGCCAGCGGAGTTGGCGGCGCCCTTGTGGCTTCCGCCCGTGCACAGCTGGGAGCCACCCAGGACTGCACCATCCTGGTGGAGCAGGCGCTGCGGTCCGTCGGCAAGCAGGTCGGCGATCTTGCCCCCACGCAGTTCCACCAGTACGGGACTCCGGTTTCCAACCCCCAGCCCGGTGACCTGATGATCAGCTCCGGCCATGTTGCCATCTACATCGGCGACGGGCAGGCCATCAGCAGCGGCATGAACGGCGTCAACGAAACCATCGTCCACCCGGCCTCCTGGCTGGGCGGTTCGAGCTACGTGCGCGTGGCCTAA	MSRKSMSARHRATPTQSIALEGLSHSLKSNAASLARPAAAVAAASGLVFGVGAPAMAGANAPETSGSAGVQAQAATHAPAPAAPAASGATHTVVPGDTLGAIAAKHGVALNAVLSANGLSLSSVIYPGDQIVIPGAAHAAPAPQAAAPAAPHAAPAAPAAPHAAPAAPQQQAGMGIYHASASIKPASATTAASSTPASGVGGALVASARAQLGATQDCTILVEQALRSVGKQVGDLAPTQFHQYGTPVSNPQPGDLMISSGHVAIYIGDGQAISSGMNGVNETIVHPASWLGGSSYVRVA	PGPT0023995_3147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-17_03658	600			hypothetical protein	ATGTTCACGCTGACTATCAACCAAACAGACAGCCGACGCGACGGCGACCGGGTTCCGCAGCTACTCAAGGACCTCCGGCATATTCCCGCGCGTCTCGACTTCGACCGGTCGGTCGAAGACGAGGTTCAGGGGATAGTGGACTGTCCCCACCAGGCTGTGGACGCGGCCCTGATCGCGCTTCGGTGCGGCAGCTGGTATGTGGGACTGGGCGTGGGTCCGGTGAACGAACCGCTGCCGAACCAGATCAAGGATGCCGACGGTCACGGCCTCATCTATGCCCGCAGGGCGGTGGACCGGCTGCGGAACAGCAAGGACCGGATTCCTGTGGCCGTCGAGGGGCCGTACGCCGACCTGGCCACCGAGTGCGAAGCGGTTCTTCGGCTGCTGGGCTATATTGTGCGCGACCGCAGCCAAGCCGAGTGGCGGGTCTTGGATCTCATGACCCCGGGGGTGCGCGGCCAACAGAAGGCCGTGGCCGCCGCGCTTGGCATCACTTCACAGGCGGTCAGCAAGGCGGTGGCCCGGTCCCAGTGGAACGAGGAGCACGCCGCCCGGCCCGCAGCAGCACGGCTGCTCGCGCTCATCCTGGAGGTGCGGTAG	MFTLTINQTDSRRDGDRVPQLLKDLRHIPARLDFDRSVEDEVQGIVDCPHQAVDAALIALRCGSWYVGLGVGPVNEPLPNQIKDADGHGLIYARRAVDRLRNSKDRIPVAVEGPYADLATECEAVLRLLGYIVRDRSQAEWRVLDLMTPGVRGQQKAVAAALGITSQAVSKAVARSQWNEEHAARPAAARLLALILEVR				NA	NA	NA	NA	NA
D1-17_03659	780			Putative phosphatase	ATGATTGCCCTGGACGTAGACGGCACGCTCGTGGACCACGACGGCCACATGTCCCAGCAAGTCCGGCAGGCAGCCCAGGCCGTGGTCGAGGCAGGCCACGAGGTGCTGATCGCAACGGGACGATCCCTCAACGCCGCCCTGCCCGTCATCGAGCAGATCGGCATTGACCGCGGCTATGCCGTCTGCTGCAACGGCGGCGTCACCCTTCGCCTGCACCCGGAGCTGACCGACGGCTACGAGATCATCCACAAGGCCACGTTCGATCCCGGGCCGGCCCTTCGCGCGCTGCGTCAGCGGCTCCCCACTGCCAAGTACGCCCTCGAGGACGAGGACGGCAACTTCCTGTCGACGGAGCGTTTCCAGGACGCGAGTTTCGGGGTCGAAGCCATCGGTGTCGACTTCCAGACCATGCTGGAGGCTACCGCGGTGCGCGTCGTGGTGTTCAGTGCCGAGAACACCCCCGAAGAATTCAACGAGGCCATCGAGCATATCGGCCTCGCCGGCGTCACGTACTCCGTGGGCTGGACGGCCTGGCTGGACATCGCCGCGGCCGGCGTCACCAAGGCCAGCGCCCTGGAAAACCTCCGCACGCGGATTGGCGTCGATGCGTCCCGGACGGTGGCGATCGGCGACGGCCGCAACGATATCGAGATGCTCGCCTGGGCGAACCGCGGAGTCGCGATGGGGCAGGCTCCGGAAGAGGTGGTCGCCGCCGCGGATGAGGTGACAAAGTCCGTGTACGACGACGGCGCTGCCCACGTTCTGCGCAGCCTCCTGTAA	MIALDVDGTLVDHDGHMSQQVRQAAQAVVEAGHEVLIATGRSLNAALPVIEQIGIDRGYAVCCNGGVTLRLHPELTDGYEIIHKATFDPGPALRALRQRLPTAKYALEDEDGNFLSTERFQDASFGVEAIGVDFQTMLEATAVRVVVFSAENTPEEFNEAIEHIGLAGVTYSVGWTAWLDIAAAGVTKASALENLRTRIGVDASRTVAIGDGRNDIEMLAWANRGVAMGQAPEEVVAAADEVTKSVYDDGAAHVLRSLL	PGPT0008595_600	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
D1-17_03660	1347	serS	COG0172	Serine--tRNA ligase	GTGCTTCAACACTATCCCGCCGCGCTCCGCCTCCGGGATGCCCGGCACATTCGATACTCTTGTCTGGTGATCGACGTAAAAGACCTCAGCGAAAACCCGGACAAGTACCGTGCCAGCCAGCGTGCCCGCGGTGCGGACGAAACCGTGGTGGACGCGATCATCGATGCCGACACCGCCCGCCGATCCGCGCTGATCCGCTACGAGAGCCTCCGGGCGGAGCAGAATGTCTTCGGCAAGAAGGTGGCCCAGGCCAAGGGCGAGGAAAAGCAGGCGTTGCTCGCCGAGGTCCGTGAGCTGGCGGGGGCGGTCAAGGCCGCGTCGGCCGAAGCTGATGCCGCGCAGGCCAAGCAGGAAGAACTGTTGCGCACCATCCCCAACCTCATTGAGGACGGTGTACCCGAGGGCGGCGAGGATGACTACATCGTGGTCAAGACTGTCGGTGCCCCGCGCGAGTTCCCCGACTTCGAACCGCGGGACCATCTGGAGATCGGTGAGCTCATTGGCGCCATCGACATGGAACGCGGCGCCAAGGTCTCCGGCTCACGCTTCTACTTCCTGCGCGGCGTCGGCGCCCGTCTGGAAATGGCTTTGCTGCAGATGGCCATGGACCAGGCCATCGAGGCGGGCTTCATTCCCATGATCACGCCGACCCTGGTGCGGCCCGAGACGATGCAGGGCACCGGTTTCGACGTGAAGCACGACGCCGAGATCTACCGTCTTGCCGAAGATGACCTCTACCTTGTGGGCACCTCGGAAGTGCCGCTGGCCGGCTACCACGCCGACGAAATCCTGGACCTGAGCGCCGGACCGATCCGGTTCGCGGGCCAAAGCTCCTGCTATCGGCGCGAAGCGGGATCGCATGGCAAGGACACCCGCGGCATTATCCGCGTCCACCAGTTCAACAAGGTGGAGATGTTCATTTACACGACTGTCGAGGAAGCAGCAGCCGAGCATGAGCGCCTGCTGGCCTGGGAAGAGCAGATGCTGGGCAAGTGCGAGCTGCCGTACCGCGTGATCGATACGGCGGCCGGGGACCTCGGAATGTCGGCCGCCCGCAAGTTCGACTGCGAAGCCTGGGTCCCCACCCAGGCCGCCTATCGCGAGCTCACCTCCACGTCCAACTGCACCACGTTCCAGGCCCGCCGCCTCAACGTCCGCGAACGCGTGTTCAGCGAGGACGGCACGCCGAAGGGAACGCGAGCGGTGGCCACGCTCAACGGCACCCTCGCCACAACCCGCTGGATCGTGGCGATCCTTGAGCACCACCAGAACCCGGACGGCTCAGTCAACGTTCCCGAGGCGCTGCAGAGATACCTCGGCGGACTGCAGGTCCTGCCTGTCCTGTAG	MLQHYPAALRLRDARHIRYSCLVIDVKDLSENPDKYRASQRARGADETVVDAIIDADTARRSALIRYESLRAEQNVFGKKVAQAKGEEKQALLAEVRELAGAVKAASAEADAAQAKQEELLRTIPNLIEDGVPEGGEDDYIVVKTVGAPREFPDFEPRDHLEIGELIGAIDMERGAKVSGSRFYFLRGVGARLEMALLQMAMDQAIEAGFIPMITPTLVRPETMQGTGFDVKHDAEIYRLAEDDLYLVGTSEVPLAGYHADEILDLSAGPIRFAGQSSCYRREAGSHGKDTRGIIRVHQFNKVEMFIYTTVEEAAAEHERLLAWEEQMLGKCELPYRVIDTAAGDLGMSAARKFDCEAWVPTQAAYRELTSTSNCTTFQARRLNVRERVFSEDGTPKGTRAVATLNGTLATTRWIVAILEHHQNPDGSVNVPEALQRYLGGLQVLPVL				NA	NA	NA	NA	NA
D1-17_03661	1083	yegS_3		lipid kinase YegS	ATGAGCGACCTGTTTCTTTACATCCTGATTGCCGGGGCACTGGCCTTTGCCATCTCCAGCTGGTGGGGTGTGCGCAGCCTCAAGACTCTGCATGCGCGGAGCCCGGTGCGCGAGGATCCCCACGCCCATGGTCTGGAGCGCCAGCGCGTAGCGGTGGTGCTGAACCCGGTCAAGGCGAAGGCGGCCGAGGCCCGCGCGACCATCCAGCGCGCCTGCCTCACGGCAGGCTGGGAGGCGCCGCTGTTTTATGAGACGACGGTGGAGGACCCGGGTCACTCACAGGTGCGGGCCGCACTTGCGTACGGTGCCGACGTCGTCCTCGTGGGCGGCGGTGACGGCACGGTGCGCGTGGTGGCTGAGTCAATGGCGCATACCGGCGTGGCGATGGGCATCATTCCGCTCGGTACCGGCAACCTGCTGGCGCGCAACGTGCATCTGGACCTGTACGACCTCCACGGCAACGTCCAGACGGCCCTCTTCGGTCATCAGCGGTTCATTGATACTGCCCGCATGGGGATCGAAAACTCCCAGACGGGCCGGTCATCGAACCATGCTTTCCTGGTGATTGCGGGCATCGGCATGGATGCTGAGGTGGTGGGCGACACCAATGACGGGCTGAAGCGGGCCGTCGGATGGCTCGCCTACACTGAAGCAGGAGTGCGGCACCTGACGGGACGCCGGAAGAAAGTATCGATTTCGCTCGATGACCAGCCCGAACAGACCCGCAAGATTCGCAGTGTCCTGTTCGCCAACTGCGGACTGGTTCCCGGCGGCATCGACCTCATTCCCCAAGCCATGATTGACGACGGGATGCTGGACGTGGTGGTCATGAGCCCGCGCAGTGCGGTGGGGTGGCTGGCGATGTACGCCAAAATCGTGTTCAAGCACAAGCGCCACCTGCCCGTGATGAGCGTGTACCGCTCCGGGAAGGTTGTGATCAAGTGCCCGGAACCGATGCCGACACAACTGGACGGCGACATCACCGGTGAGGCCACCAAGGTAACAGTGCAGGTGGATCCGAGATCCCTGCTCATCAGGGTCAGAGCAGCACCCGGCATCGTCCAAGGCGGCGGTCCAGCCTAG	MSDLFLYILIAGALAFAISSWWGVRSLKTLHARSPVREDPHAHGLERQRVAVVLNPVKAKAAEARATIQRACLTAGWEAPLFYETTVEDPGHSQVRAALAYGADVVLVGGGDGTVRVVAESMAHTGVAMGIIPLGTGNLLARNVHLDLYDLHGNVQTALFGHQRFIDTARMGIENSQTGRSSNHAFLVIAGIGMDAEVVGDTNDGLKRAVGWLAYTEAGVRHLTGRRKKVSISLDDQPEQTRKIRSVLFANCGLVPGGIDLIPQAMIDDGMLDVVVMSPRSAVGWLAMYAKIVFKHKRHLPVMSVYRSGKVVIKCPEPMPTQLDGDITGEATKVTVQVDPRSLLIRVRAAPGIVQGGGPA	PGPT0024345_223	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-17_03662	219			hypothetical protein	ATGTCAGATAACACCAGGACCGACAACGACGGCCAAGGGATGATCGTCAACCCCAAGCCGACCTCGGAAAACCAGGACTGGGACGGGGACGACGCGGACCGCGCTGACCGCCTGCGCTTCGAAGAAGAGCAGGCAATGATCCGCGAACAGTCGGAGGCCCGCGCAGCCGCCCGGGCCGCAGAAGCCGCCAAGAAAGCAGGCACCGCCAAGTCCGCCTAG	MSDNTRTDNDGQGMIVNPKPTSENQDWDGDDADRADRLRFEEEQAMIREQSEARAAARAAEAAKKAGTAKSA				NA	NA	NA	NA	NA
D1-17_03663	978	pheA_2	COG0077	Prephenate dehydratase	GTGATCTACACCTTCCTCGGCCCGGAGGGTACATTTACCGAGGCTGCCCTGCTGCAGGTTCCGGACGCCGCTGAGGCTGTGCGCGTTCCATCCTCGAACGTGAACAGCGCACTGGACAAGGTCCGCGAGGGTTCCGCAGATGCGGCCATGGTGCCCATCGAGAACTCGGTTGAGGGCGGTGTGACTGCCACCCTTGATGCCATCGCCACCGGCCAGGAATTGCGGATCATCCGGGAGGCGCTCGTTCCCATCAGCTTCGTGCTGGTGGCCCGCCCGGGCTTGGACGTCACGCAGATTCGGCGCATCTCCACCCACGGCCACGCCTGGGCGCAGTGCCGCCTGTGGGCCGGCGCCCATATTCCGGGAGCTGAATACATTCCCGCGTCCTCCACTGCGGCTGCGGCACTGGGTCTGCTTGAGGACGGCGCCCACTACGATGCCGCGATCTGCGCGCCGATCGTGGCGGCCGAACAGCCCGGGCTCCGCGTCCTGGCCGAGAACATCGGGGACAACCCCGGTGCCGTGACACGGTTTATTCTGGTCAGCCGGCCCTCTGTCCTGCCTGCCCGTACCGGTGCGGACAAGACCACCGTCGTGGTGCCGCTGCCGGAAGACCGTCCGGGCGCCCTCATGGAGATCCTGGACCAGTTCGCCACCAGGGGTGTAAACCTGAGCCGGATCGAATCACGGCCCACCGGGCAGTACCTCGGGCACTATTTCTTCAGCATCGATGCGGACGGCCACGTGGCAGATGCCCGGGTGGCCGACGCCCTCGCCGGTCTGCACCGTATCAGCCCCGCCACCCGCTTTCTGGGCTCCTATGGACGGGCCGATGGGCAGAGCCCGGTAGTGGCTCCCCACACCTCCGATGAAGCATTCCGAGCCGCGCATGCTTGGGTGGGACAAATTCTGACTGCGGAAACTGTGAATGCCGGCATGGCCCAAAACATGACCCAAAACGCTTCGCCAACAGCGTAG	MIYTFLGPEGTFTEAALLQVPDAAEAVRVPSSNVNSALDKVREGSADAAMVPIENSVEGGVTATLDAIATGQELRIIREALVPISFVLVARPGLDVTQIRRISTHGHAWAQCRLWAGAHIPGAEYIPASSTAAAALGLLEDGAHYDAAICAPIVAAEQPGLRVLAENIGDNPGAVTRFILVSRPSVLPARTGADKTTVVVPLPEDRPGALMEILDQFATRGVNLSRIESRPTGQYLGHYFFSIDADGHVADARVADALAGLHRISPATRFLGSYGRADGQSPVVAPHTSDEAFRAAHAWVGQILTAETVNAGMAQNMTQNASPTA				NA	NA	NA	NA	NA
D1-17_03664	327		COG0607	Sulfurtransferase	ATGAGCGACTTCGACACTGTTACTGTCAACGACGTTCCGGCAGACGCTGCCATTCTGGATGTGCGCGAAGACTATGAGTGGGTGGCGGGGCACGCCGAAGGCGCCGTCCATATTCCGCTCGACCAGCTCCCCGGGCGCCTCGATGATTTGGATCCGGACCAGGACCTGTACGTCATCTGCCGCACCGGCGGACGGTCCTTCCGCGCCGCCCAATGGCTGGTCGGGCAGGGGTACTCGGCCATCAATGTGGCCGGGGGCATGGATCAGTGGCTTGAGTCAGGGAAGCCGCTGGTCTCGGACAACGGCCTGAAACCCGTCGTTCTGTGA	MSDFDTVTVNDVPADAAILDVREDYEWVAGHAEGAVHIPLDQLPGRLDDLDPDQDLYVICRTGGRSFRAAQWLVGQGYSAINVAGGMDQWLESGKPLVSDNGLKPVVL	PGPT0014648_501	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
D1-17_03665	1443	gatA_2	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGAGGGCCGCCTTGACTGAGATCCATGATCTTTCTGCCGTCCAGCTCAGGGACGCCCTGCGGTCCGGGGAGCTCTCGGCGCGGGAAGCCGCCGTTCACTTCCTTGGAAGAATCGCGGCCAACAACCCCAGATTGGGTGCCTTCATAACGGTCACTGAGGAGATGGCACTGGCGGAAGCCGCCGCCGCTGATGCGCTGCGGGCATGCCGGGCTCGCGAAGAGCTTGCCCCGCTGCACGGTATGCCAGTGGCCTTCAAGGACCTGACCGATGTGGCCGGCGTGGTCACTACCCACGGCAGCGCTGCCCTCGAGCGTCGTCCTGCTCCGGTCGACGGCCCCCTCGCCTCAGTCCTTAGGACTGCCGGAACCATCTGCCTGGGCAAAACCCAGGTGTCGGAATTCGGGCTCACGGCCTACAGCGAGAACAGGATCGCGCCGCCGTCGCGCAATCCGCATGCGCTGAGCCGCAGCTCAGGCGGCTCCTCGGGCGGCAGTGCCGCAGCCGTGGCCGCGAAGCTGCTCCCGTTCGCACCGGGATCCGACGGCGGCGGTTCAGTCCGGATCCCGGCCGCCGCCTGCGGCCTGGTGGGCCTCAAGCCCGGGCGCGGGCTGATCCCCGCCGGCGAAAACACCGGGGATCCGGGCCGCCTGGTGGTTGCCGGGCCACTCGCCCGCTCTGCTGCGGACGCAGCGCTCCTGCTGGATGCACTCGTTCCGGACGGCCCCGGGTACCTGCGGGCATTGGGCGAAGAGCCTCCGCCGCTGCGGATCGGCGTCAGCATGGACAGCCCATGGTCCGGCATTTTTCCCTTCACGGCGGAAACCGAAGCGATGGAAGCACTGGGGACCGGCGTCCGCATGCTGACGGCCGCGGGGCATGACGTCGTCGAAGCGGCCATCCGCTATGACAACCGCTATCCGGCCGCCTTCACCACAGCTTGGACGGCCGGCGTGGGAGCTGCCCGGATTGCGCCTCAGCGCGAAGCGCTGCTGGCGCCGCTCACCCGAACGTTCCGGCGCCGCGCCCAGCAGCGCAGCGCCGCCAAGCTGGACGAGTCGCTGGCCTTCCTGCGGCAGTTCCAGCGGGACACGGTGGCGCAGTACGCCGTTTGGGACCTGATTCTGACGCCGTCGCTGGCCCAGACTCCGCGGCCGGTGGGGTGGTTTACGGGTTCCGCGCACGGGGACGGGCATTGGCCGGTGTCCGAGTGGTCCCGGGACGCGGACGACGACTACCGGAAGCAGTGCGAGTTCGCGCCGTGGTCCTCCATGGTCAACGTCTGCGGCCTTCCGGCAGTGAGCATCCCGGTGCACTGGACGGGCGGAAACACCGGTTCGGGAGAAGGCGCCGGTGCACACGGGCTACCCATGGGGATCCAGCTCATCGGCAGGACGGGCTCGGAGAAACTGCTCCTGCAGGTCGCGGCACAGCTGGGCCTCTAG	MRAALTEIHDLSAVQLRDALRSGELSAREAAVHFLGRIAANNPRLGAFITVTEEMALAEAAAADALRACRAREELAPLHGMPVAFKDLTDVAGVVTTHGSAALERRPAPVDGPLASVLRTAGTICLGKTQVSEFGLTAYSENRIAPPSRNPHALSRSSGGSSGGSAAAVAAKLLPFAPGSDGGGSVRIPAAACGLVGLKPGRGLIPAGENTGDPGRLVVAGPLARSAADAALLLDALVPDGPGYLRALGEEPPPLRIGVSMDSPWSGIFPFTAETEAMEALGTGVRMLTAAGHDVVEAAIRYDNRYPAAFTTAWTAGVGAARIAPQREALLAPLTRTFRRRAQQRSAAKLDESLAFLRQFQRDTVAQYAVWDLILTPSLAQTPRPVGWFTGSAHGDGHWPVSEWSRDADDDYRKQCEFAPWSSMVNVCGLPAVSIPVHWTGGNTGSGEGAGAHGLPMGIQLIGRTGSEKLLLQVAAQLGL	PGPT0006115_4729	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426	NA	NA
D1-17_03666	498			hypothetical protein	ATGACAGAGCAACGCCACAATGGGCCCGACGGCGACCCGGCAGCAAGCGGCGACCAGCCGCCGTCGTACATTCCCCCGCGTGATATTCCGGCACCGCCGCCTTATCCCTCCCATGGCCAGCAGTACAGCCAGCAGTACTCCGGGCCCTACGGCCAGCAACCTTATTACGGCCGGCAGTACGGGCAGCAGTACAACCCGCAGTATTCCGGGCCCTACGGCCAGCCCTACGCCGGAATGCCAGTCCAGCGAAAGAGCCTGAGTATCGCCAGCCTGTGTTGCGGCATTGCTGTGTATGTAGGCTTTGGCTTCATCCTGCTGCCGCAGATCGCGGCCGTCATCCTGGGCCATATGGCCTTGCGGCGTGAGCCGTCGGGCCGTGCACTCGCCATTGCCGGGCTGGTGATGGGGTACGTCGGGATCGCCCTCACTGTGCTGGCGCTCGTGGCCCTGGCGATGCTCTTCAGCGTTGCAGCCACGAGCTCCTACACCAGTGCATGA	MTEQRHNGPDGDPAASGDQPPSYIPPRDIPAPPPYPSHGQQYSQQYSGPYGQQPYYGRQYGQQYNPQYSGPYGQPYAGMPVQRKSLSIASLCCGIAVYVGFGFILLPQIAAVILGHMALRREPSGRALAIAGLVMGYVGIALTVLALVALAMLFSVAATSSYTSA				NA	NA	NA	NA	NA
D1-17_03667	1698	pgm	COG0033	Phosphoglucomutase	ATGTTGCCTCCCGCCCTCGTCTGGCATGCTGGTGCCATGGCTAGCCGCGCGGGCACAGTTGCCCAACCCCACGACCTTGTTGACCTGACCGCTCTTCTGGACGCGTACTACGACGTCAAACCCGACCTTGCCGATCCCGGCCAGCGCGTCGCCTTCGGCACCTCCGGACATCGGGGATCCAGCCTGAAGGCGTCCTTCAATGAGGCGCACATCGTGGCCATCACGCAGGCGATCGTGGAATACCGGGCAGGCCAGGGCATCACCGGGCCGCTGTTCCTCGCCAAGGACACGCATGGGCTGAGCGAGCCGGCGCAGAATTCGGCACTGGAAGTCCTGGCCGCGAACGGCGTGAAGGTCCTGATTGACGCCCGTCACGGCTACACCCCCACTCCTGCCCTCAGCCACGCAATCCTTACCCACAACCGCAACGCCCCCGCCGGTGCCCCGCAGGCAGACGGCATCGTCGTCACCCCAAGCCACAATCCGCCGGCTGACGGCGGCTTCAAGTACAACCCGCCGCACGGCGGACCCGCCGATACGGACGCCACCGGGTGGATCGCCAACCGCGCCAACGAACTGTTGGAGAACGGCCTCCGCGGGGTGAAGCGGATTCCCGTGGCCGAAGCCCTGGGGGCCGAGACTACGGGCAAGTTCGACTTCCTCAGCAGCTACGTGGACGACCTGCCCTCGGTACTGGACCTGAACGCCATCCGCGAGGCGGGCGTCCGCATCGGCGCCGATCCGATGGGCGGGGCCTCTGTGGACTACTGGGGCGAGATCGGCGAACGCCACCACCTGAACCTCACCGTGGTCAATCCCACTGTCGACCCGCAGTGGGCGTTCATGACGCTGGACTGGGACGAAAAGATCCGCATGGACTGCTCCTCGCCGTCCGCGATGGCATCGCTCATCAACCGCATGTCGGACTCCGGTTCCGGCAACACAGCGTTCGACGTCGCCACCGGGAACGACGCGGACGCCGACCGGCACGGCATCGTCACGCCGGACGGCGGGCTGATGAACCCGAACCACTACCTCGCGGTCGCCATCGACTACCTGTACCGCCACCGCACCGGCTGGAACCCCAGCTCAGTGATCGGCAAGACCCTGGTGTCCTCCTCCATCATCGACCGCGTCGCCGACAGCCTGGGCCGCAAGCTCGTCGAGGTGCCGGTGGGCTTCAAGTGGTTCGTTCCCGGTCTGCTGTCCGGCGAAGGCGCCTTCGGCGGTGAGGAATCCGCCGGGGCCTCCTTCAACAAGATGGACGGCAGTGTCTGGACCACCGACAAGGACGGCATCCTGCTGGCGCTGCTCGCCTCGGAGATCACCGCCGTCACCGGCAAGTCGCCGTCGGAGCTGTACAAGGGCCTCACGGACCAGTTCGGGGACCCGGTGTACGCCCGGATCGATGCGGCAGCCACGCGGGAGCAGAAGGCGGCACTCGGCAAGCTGTCGCCGTCGGACGTCACCGCTACCGAACTGGCCGGCGAGACAATCACCGCGAAGCTGACCGAGGCCCCTGGAAACGGGGCGTCCATCGGCGGGCTGAAGGTGGTCACGGAAAACGCCTGGTTCGCCGCGCGCCCTTCCGGCACCGAGGACGTTTACAAGATCTACGCTGAATCCTTCAAGGGCGCCGACCACCTGAAGCAGGTCCAGGCGGAGGCCAAGGCCCTGGTGGACGGGGTTATCTCCTAA	MLPPALVWHAGAMASRAGTVAQPHDLVDLTALLDAYYDVKPDLADPGQRVAFGTSGHRGSSLKASFNEAHIVAITQAIVEYRAGQGITGPLFLAKDTHGLSEPAQNSALEVLAANGVKVLIDARHGYTPTPALSHAILTHNRNAPAGAPQADGIVVTPSHNPPADGGFKYNPPHGGPADTDATGWIANRANELLENGLRGVKRIPVAEALGAETTGKFDFLSSYVDDLPSVLDLNAIREAGVRIGADPMGGASVDYWGEIGERHHLNLTVVNPTVDPQWAFMTLDWDEKIRMDCSSPSAMASLINRMSDSGSGNTAFDVATGNDADADRHGIVTPDGGLMNPNHYLAVAIDYLYRHRTGWNPSSVIGKTLVSSSIIDRVADSLGRKLVEVPVGFKWFVPGLLSGEGAFGGEESAGASFNKMDGSVWTTDKDGILLALLASEITAVTGKSPSELYKGLTDQFGDPVYARIDAAATREQKAALGKLSPSDVTATELAGETITAKLTEAPGNGASIGGLKVVTENAWFAARPSGTEDVYKIYAESFKGADHLKQVQAEAKALVDGVIS	PGPT0017710_2838	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
D1-17_03668	795	rutE		malonic semialdehyde reductase RutE	ATGGGCGGTGGGATCTGTCGGAGCAACAATACCGGAGTCAGCGCCGCAGGGGCGGGGGTGATGTGCCGGAACTCACGTTTTAGAACGGGCTATTCCGGGAAGAGGATGCAGCCGCCTGCGGTTGAACCCATGGAAAGCAGGAGCGTCGCCGGCCCTTGGGGAACGGCGGCTCAGCGAAAGGTAAGCCAAATGACAATTGCCCACGAAGAAGCCGTCATCGATTCCGCCGCCGTAGACGCGATTTTCGCTGAAGCCCGCACGGCCAACGCCTTCACCGGCGAGGTTACGGAGCAGCAGGCCCGCGCCATCTACGAACTGACCAAGTTCGGCCCCACCGCCTTCAACTCCCAGCCGCTGCGCGTGACCTACGTCCGCTCGGACGAGGCCCGAGCCAAACTGGTGGAGAAGCTCTCAAGCGGCAACCGTGCCAAGACTGCTTCCGCGCCGTTGGTTGCCATCCTCAGCTACGACACCTCGTGGCAGGAACAGTGGGACAGCTTCCTCCCGGGCTACATCGCCCCGAAGGCAATGTACGACGCCTCCGAGGACCTGGCCGCCTCGACGGGCAACAACAACGCCCACCTGCAGGCGGGCTACTTCATTCTTGCCGTGCGTTCACTCGGCTTCGCCGCCGGACCCATGACGGGGGCTGACTTCGCAGCTATCGACGCCGAATTCTTCCCGGCCGGGGACCAGAAGAGCTTCCTCGTGGTCAACATTGGCCAGCCCGGCCCTGATGCCTGGGGTGAAGCAAAGCCCAAGTTCGCGTACGAGGACGTCGTCCGCACAGTGTGA	MGGGICRSNNTGVSAAGAGVMCRNSRFRTGYSGKRMQPPAVEPMESRSVAGPWGTAAQRKVSQMTIAHEEAVIDSAAVDAIFAEARTANAFTGEVTEQQARAIYELTKFGPTAFNSQPLRVTYVRSDEARAKLVEKLSSGNRAKTASAPLVAILSYDTSWQEQWDSFLPGYIAPKAMYDASEDLAASTGNNNAHLQAGYFILAVRSLGFAAGPMTGADFAAIDAEFFPAGDQKSFLVVNIGQPGPDAWGEAKPKFAYEDVVRTV	PGPT0021290_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021290-rutE|ycdI-K09019	NA	NA
D1-17_03669	1353	rutG	COG2233	Putative pyrimidine permease RutG	ATGAGCTTGCTCGGAACCAAATGGAAGCTGCACGGCAACGGCAAGTCGGTCCGCCCAGGAGAAGTGGTGGCCCCGGGAGAGCGGCTCACCTGGCCCATCACGATAGGTGTGGGCATGCAGCATGTGGTGGCCATGTTCGGCGCCACGTTCCTGGTGCCCATCATCACGGGAATGCCGCCTGCGACCACCCTGTTTTTCTCCGGCATCGGAACACTGCTCTTCCTGGTGATCACGCAGGGCCGTGTGCCGAGCTACCTCGGTTCCAGCTTTGCGTTCATAGCGCCGATCATGGCGTCCCAGCAGCAATACGGCGTTCCCGGTGCCCTCGGCGGCGTGGTCATGGCCGGCGTCGGGCTGGCCGTCATCGGCGCCATCGTGCAGAAGTTCGGAGCCGGCTGGATCAACCGGCTCATGCCCCCGATTGTCACCGGCGCCATCGTGGCGCTGATCGGCCTGAACCTCGCGCCTGCGGCCAAGAACAACTTCGACGCCGCACCCATGACGGCGCTCATCACCCTGGCCACCATCATCCTGGTCAGCGTCCTCTTCCGCGGGATCATCGGCCGCCTGAGCATCCTCGTGGGCGTTGTTGTGGGTTACCTCGCCGCCATGATCCGCGGCGAAGTCGACTTTTCAAAGATGGAGGCAGCAGCCTGGGTGGGCCTGCCGCACTTCCAGACACCCGAATTCCACCTCGGCGTAGTAGGCCTCTTCGTTCCGGTGGTGCTGGTGCTGGCGGCGGAGAACATCGGGCACGTGAAGTCCGTTTCAGCCATGACCGGGCAGAACCTCGACGGCGTCTCCGGACGCGCGCTCATGGCCGACGGTGCCGCAACCGTGCTGGCAGGGGCCGGCGGCGGATCGGGCACCACCACCTATGCCGAGAACATCGGCGTCATGGCAGCCACGAAGGTCTACTCCACCGCCGCGTACTGGGTGGCCGGCACCTTCGCCATCCTGCTGAGCTTCTCTCCTAAATTCGGCGAGCTGATCGCCACCGTCCCACCAGGAGTGCTGGGCGGGGCTGCGACCATGCTGTACGGCATGATCGGCATCCTCGGCGTCAAGATCTGGGTCCAGAACAAGGTCAACTTCTCCAACCCCGTAAACCTGACCACTGCCGCAGTGGCGCTCATTATCGGCATCGCAGACTACACATGGACGATCGGGGACCTGAAGTTCACCGGCATTGCGCTGGGATCTGCGGCGGCCTTGGTGATCTACCACGGCATGAAGGCCATTGCGAAGGCCCGGGGCACCGCGGCCGAGCCTGAGACCGAGCAGGCCGGTCTTCCTCCCGCAGCCAAGGCAGCCATTAATGCCGCGGCCAAGCGGTCCCCGAAGAAGCGGTAG	MSLLGTKWKLHGNGKSVRPGEVVAPGERLTWPITIGVGMQHVVAMFGATFLVPIITGMPPATTLFFSGIGTLLFLVITQGRVPSYLGSSFAFIAPIMASQQQYGVPGALGGVVMAGVGLAVIGAIVQKFGAGWINRLMPPIVTGAIVALIGLNLAPAAKNNFDAAPMTALITLATIILVSVLFRGIIGRLSILVGVVVGYLAAMIRGEVDFSKMEAAAWVGLPHFQTPEFHLGVVGLFVPVVLVLAAENIGHVKSVSAMTGQNLDGVSGRALMADGAATVLAGAGGGSGTTTYAENIGVMAATKVYSTAAYWVAGTFAILLSFSPKFGELIATVPPGVLGGAATMLYGMIGILGVKIWVQNKVNFSNPVNLTTAAVALIIGIADYTWTIGDLKFTGIALGSAAALVIYHGMKAIAKARGTAAEPETEQAGLPPAAKAAINAAAKRSPKKR				NA	NA	NA	NA	NA
D1-17_03670	552			hypothetical protein	ATGAGCCAGGAAAACCAGCAGCCGGCCCCGGAAGAGGAAGCCGGAGGCTACGGCACCCCGACAGTGGAGCAAGAGATGGGCGGCAAGCAGTTCGGCCAGCCCCGTGAGGAGGAGGACTTCGAGGAGGCCGGCCTGAACCAGGACAGCGCCGAGGGGGAGTTCCCCACCGGCACTCCGAACCTCAGCCACTTCGCTGAAGAGGACCAGGATTCCGCCGGTGAACCTGGTGCAGGCCGCTTCGGCGGAACCGACGAACAGCTCCACGCCGAGGGGGACATCTCCCGAGCCGGCTTCGACCCCGCCCCCGGCGAGGTTCCGGTCCCGCGGGACGCCGACGGCCTGAGCGGCGATGCGGCTGTGGAGGTCGCCGGTGATTCGGCAGTGCCGTCGTCGGAGGCCGAGATCGATGAGGGTAACGCCGACGAGCAGGGCGGGGGCCAGTTCTCCTCCGAGCCAGGACAAGAGGCTGCGGGAATACCGGACGGCAGCGGCAATGACCTCCCGCAGGGAAAATCACCTAATGACGAGGACGAAACTTTCGACGCCGGATAG	MSQENQQPAPEEEAGGYGTPTVEQEMGGKQFGQPREEEDFEEAGLNQDSAEGEFPTGTPNLSHFAEEDQDSAGEPGAGRFGGTDEQLHAEGDISRAGFDPAPGEVPVPRDADGLSGDAAVEVAGDSAVPSSEAEIDEGNADEQGGGQFSSEPGQEAAGIPDGSGNDLPQGKSPNDEDETFDAG				NA	NA	NA	NA	NA
D1-17_03671	900	yghA_2		putative oxidoreductase YghA	ATGACTGAATCAGTAAAACAGCCTGACCAGCCCAGGGATCCCCGCGGAACGTACCATTCAGGCCCTTTCCCGGAGCAGGAACAGAAACAGCCCGGCCTGACCGCGCCGATGGACCCGCAGCCGGACCACGGCGAGCTGAGCTACGAGGGCAGCGACAAGCTCGAGGGCAAGGCCGCGCTCATCACGGGAGGCGATTCGGGCATCGGGAAAGCCGTCGCCATTGCCTTCGCCCGTGAAGGCGCAGACGTTGCCATCTCCTACCTCCCTGAGGAGGAGCAGGACGCACAGGACACGGCGGAATGGATCCGCAAGACGGGACGGCGTGCCCTTCTTCTTCCCGGTGACGGCCGCAGCGAGGACTTCAGTACGAAGATCGTCGAAGACACTGTCGCGGAGTTTGGGCGGCTCGACGTCGTGGTGCTTAACGCGGCCTACCAGAAAAACCGGGACAGCTTCGATGCGCTGCCCACTGAGGAATTCGACCGGGTTTTCCAGACCAACCTTTACTCGCTGATGTGGACCGCACGTGCCGCGGTGCCGCACCTCAATGCCGGGGCGTCCATCATCACCACGTCCTCCATCCAGGCCTTTAACCCCTCACCTGGCTTGATCGACTACGCCATGACCAAGGCGGCCCAGGTGGCCTTCACCAAGGCGCTGGCCCAGGAACTCGGACCCAAGGGGATCCGTGTCAACGCCGTGGCTCCCGGTCCCATCTGGACGCCGCTCATTCCCGCGACGGAGTGGCCGGACAAGCTGCCCAAATTCGGGCAGGACACCCCGTTGCAGCGCGCCGGCCAGCCCGCCGAGCTCGCCGCCGCATACGTCCTGCTGGCGTCCGACGCCGGCTCGTACATCTCCGGCGCCGTGCTGCCCGTCACCGGGGGCAAAGGACTGTAA	MTESVKQPDQPRDPRGTYHSGPFPEQEQKQPGLTAPMDPQPDHGELSYEGSDKLEGKAALITGGDSGIGKAVAIAFAREGADVAISYLPEEEQDAQDTAEWIRKTGRRALLLPGDGRSEDFSTKIVEDTVAEFGRLDVVVLNAAYQKNRDSFDALPTEEFDRVFQTNLYSLMWTARAAVPHLNAGASIITTSSIQAFNPSPGLIDYAMTKAAQVAFTKALAQELGPKGIRVNAVAPGPIWTPLIPATEWPDKLPKFGQDTPLQRAGQPAELAAAYVLLASDAGSYISGAVLPVTGGKGL	PGPT0003180_12566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_03672	522			hypothetical protein	ATGACTGATCCGGATGCCCCAGCGCGGAGCGGCCGAAACGAGACCCGGGAAGAGCAGCTCGACCGGAACTGGATGGAGCTGATCCAGGAACTTCGCGTCCTGCAGACGGGTGTGCAGATCCTCGCAGGCTTTCTGCTGACGCTGCCGTTCCAGTCCCGCTTCGAAGAGCTGGACGATTTCCAGACCAACCTTTACCTGGTGAATGTGGCCCTGGCGGCTTTGACCACCGCCTTCATTCTCCTTCCGGTCAGCGTGCACCGCCGCCTCTTCCGCAAGCGGCTCAAGGAAACTCTCGTCAGCAGCGCAGACAACATCACCAAGATCGCCTTGAGCGGCGTAGCGGCTCTCAGTGTGGGAACGGCTGCTCTCGTTTTCGACGTGACAGCCGGCCGCAGCGCAGGCCTTATCGCCGGCGCTGTCCTGCTGTCAGTGCTCGTGCTCCTCCTGGCCTACGTTCCCATGCACCTGCACCGGAGCGCCCGGAAGCAGGGCGCGGAAGCAGGCGAAGAGGCAGGCGAGTAG	MTDPDAPARSGRNETREEQLDRNWMELIQELRVLQTGVQILAGFLLTLPFQSRFEELDDFQTNLYLVNVALAALTTAFILLPVSVHRRLFRKRLKETLVSSADNITKIALSGVAALSVGTAALVFDVTAGRSAGLIAGAVLLSVLVLLLAYVPMHLHRSARKQGAEAGEEAGE				NA	NA	NA	NA	NA
D1-17_03673	1122	garK_1	COG1929	Glycerate 2-kinase	ATGCGCATCCTCATCGCCCCGGACAAGTTCAAGGGCTCCCTGACCGCCATCGAAGCCGCGGCCGCCATCGCCGAAGGCGCCCTCCGGGTATACCCGGATGCCGTAGCGACGCAGTTCCCGATCGCCGACGGGGGTGAGGGGACTCTGGAAGCGGCGGTCGCCGCGGGCTACGAAGAGAGACTCAACGCCGTCGTCGGTCCCATCCTGGCGCCGATCGCTGCCGCCTGGGGGCTGCGAAAGGATGGCGCCAGCACCACGGCCGTCATCGAAACCGCCCAGGCTTCCGGGCTCGCCCACATGGAACCGACGCCGGAGAACGCGCTGAGGGCCCACAGCTACGGCTGTGGACAGCTCATCGCGGCGGCGCTGGAAGCCGGTGCCACCGAGATTGTGCTGGGCGTCGGCGGCTCGGCCATGACCGACGGCGGCAGCGGCGCCCTGCGCGCCCTGGGTTTGAAGCCGCTGGACTCGGCCGGCAACGTGGTGCCTCTCGGCGGCGGATCCCTCACCGACGTCGTGGCCCTTGATACCTCCAGCCTCGACCCCCGGCTCTCCACCGTGAAGTTCCGGATCGCCGTCGACGTCCAGAACCCTCTGTTCGGCAGCTCCGGCGCGGCCGCCGTCTTCGGCCCGCAGAAGGGGGCGGACGAGGATTCCGTGGAGAAGCTGGACGCAGGCCTGCGCAACTGGGCTTCCATCCTCCGGGAGGCCACCGGCCGGGACGTCAACGTTCCGGGAGCCGGCGCGGCGGGCGGGTTCCCGGCATCATTCCTTGCCTTCACCCAGGCCACGCTGGAAGGCGGCTTCTCGCTCGTCGCAGGGCTGACCGGACTCGCCGAACAGCTCCAGGGCGCCGACCTGGTGATCACCGGCGAGGGTTCCATGGATTCGCAGTCGCTGACGGGAAAAGCGCCGATCGCCCTGGCGCAGGCTGCCCGTGAGCGCGGAATCCCCGTGGTGGTGGTGGCCGGGCGCATCCTCGTCACTCCCGAGGAACTGGCGGAACACGGCGTGGTGGCCGCGGCCCAACTGCTCGATGTCGCGCCCAGCCCAGCGGAGGCAATCGCGAACGCGGGGCCCTACCTGACGCGGGCCACCAGTCAGGTACTCGAGGGCGCCTGA	MRILIAPDKFKGSLTAIEAAAAIAEGALRVYPDAVATQFPIADGGEGTLEAAVAAGYEERLNAVVGPILAPIAAAWGLRKDGASTTAVIETAQASGLAHMEPTPENALRAHSYGCGQLIAAALEAGATEIVLGVGGSAMTDGGSGALRALGLKPLDSAGNVVPLGGGSLTDVVALDTSSLDPRLSTVKFRIAVDVQNPLFGSSGAAAVFGPQKGADEDSVEKLDAGLRNWASILREATGRDVNVPGAGAAGGFPASFLAFTQATLEGGFSLVAGLTGLAEQLQGADLVITGEGSMDSQSLTGKAPIALAQAARERGIPVVVVAGRILVTPEELAEHGVVAAAQLLDVAPSPAEAIANAGPYLTRATSQVLEGA	PGPT0018175_2732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-17_03674	1827	ydaP	COG0028	Putative thiamine pyrophosphate-containing protein YdaP	ATGGCAGAACGGCTCGTTGCGGACGTCATGGTGGAACGCCTTAGAGCTTGGGGGGTCAACAGGGTTTTCGGCTACAGCGGCGACGGGATCAACGGCTTCATGGGAGCCCTCCGCCGCGCCGGGGACAGCATGCAGTTTGTCCAGGCGCGGCACGAGGAGACAGCCGCATTCATGGCTGTAGGCCACGCCAAATACACGGGCGGGGTTGGCGTCGTGACCTCCACGCAGGGGCCGGGTGCTGTGCACTTGCTGAACGGTCTCTACGACGCCAAGCTGGACAGCGTTCCCGTGGTGGCCATCATCGGGCAGCAGAGCCGCAGCGTGCTGGGATCGGCCTACATGCAGGAGATTGACCTCCTGACGCTTTTCAAGGATGTGGCCGCGCAGTTTGCCCAGATGGTCAGCACGCCGGAGCAGCTTCCCATGGTGCTGGACCGCGCTTTCAGAACGGCACTGGAGACCCGGACACCCTGCGTGGTGATCGTGCCGCATGACATCCAGAAAGCTCCGGCGCCGGAACTTGAGCAGCAGCACGGCATCATCGTGACCGCGCCGGAATGGCAGCCGGCACGTGTGCTGCCCCACGGGGACAACCTGGCAAAAGCGGCGGAGGTCCTAAATGCCGGCAGCAAGGTGGCGCTCCTGGTGGGACAGGGGGCGAAGCATGCACGGGAAGAAGTGGTCGCCATTGCGGAAAGGCTTGGCGCGGGAATCACCACCAGCCTGCTGGGCAAGCCCTACATGGATGAAACGCTGCCTTTTGCCGCCGGTACCATGGGCCACCTCGGTTCAACGGCCAGCGCCCACCTGCTTGGTAACTGTGACACCCTGCTGATTGTCGGCTCGAACGATCCCTGGACCGAGTTCTACCCCAAGCCGGGAGCTGCCCGCGCCGTCCAAATCGACATTGACGGCCGGAAAGTGGGAAACCGTTACCCCGTGGAGGTGGGCCTCGTGGGCGACGCCGCGGAGACGCTCCGGGAGCTCGCCGGCAGGCTCGACGGCGGAACTGAGGGTGCTGATGCCAGCGCGGACGGCCGTGCTGATGCCCGCAGGCAGTGGCGTGCCGAGGTGCAGGAGCAGGTCAGGAGCTGGCGCGCGCTTTCGGAGGAGCGTTCCCGCATCCCCGCCAAGCCCGTGAACCCTGAACTCGTGGTCCGTGAACTCAGCGGGAGGCTGCCAGGTAACGCCCAGGTGAGTGTTGACGTCGGAAGCTGCGTTTACTGGTACGCCCGCCAGCTCACCCTCCCGCCGGGAGTGCCGGCTCACCTGTCCGGCACCCTAGCCAGCATGGGCTGCTCCATCCCCTACGGGATAGCGGCCAAGCTGGCGCGGCCGGACCGGCCGCTGGTGGCGCTCGCCGGAGACGGCGCGATGCAGATGGCGGGTGTTGCGGAGCTCGTGACCGTGGCCCACCGCTGGCAGGGATGGGCCGATCCGCGGTTTGTGGTCTGTGTCTTCAATAACCGCGAGCTTGCCGAAGTCACCTGGGAGCAGCGGGAAACCGAGACCGAACCCCGCTTCGAAGCCAGCCAGGAGATTCCGGACTTTCCCTACGCGGGATACGCGGAACTCCTCGGCCTCACGGGGATCCGGGTGGATGCGCCGGAGCAACTGCCTGGGGCCTGGGATCGGGCCTTCGCCGCCGACCGGCCCGTGGTCATCGAAGTCCTGACCGATCCGGACATCCCGCTCCTGCCGCCGTTTCCCGCCGGCGCCGAAAAGCTGGACGGCATGCGGAGCGCAATCGCCGCCGAAGGGGAGGATGGCCAGGGTGCCGGTGAGCTCCTGGACACCTACGCCGCCCAGGAGGAGGCCCGAGGCTGA	MAERLVADVMVERLRAWGVNRVFGYSGDGINGFMGALRRAGDSMQFVQARHEETAAFMAVGHAKYTGGVGVVTSTQGPGAVHLLNGLYDAKLDSVPVVAIIGQQSRSVLGSAYMQEIDLLTLFKDVAAQFAQMVSTPEQLPMVLDRAFRTALETRTPCVVIVPHDIQKAPAPELEQQHGIIVTAPEWQPARVLPHGDNLAKAAEVLNAGSKVALLVGQGAKHAREEVVAIAERLGAGITTSLLGKPYMDETLPFAAGTMGHLGSTASAHLLGNCDTLLIVGSNDPWTEFYPKPGAARAVQIDIDGRKVGNRYPVEVGLVGDAAETLRELAGRLDGGTEGADASADGRADARRQWRAEVQEQVRSWRALSEERSRIPAKPVNPELVVRELSGRLPGNAQVSVDVGSCVYWYARQLTLPPGVPAHLSGTLASMGCSIPYGIAAKLARPDRPLVALAGDGAMQMAGVAELVTVAHRWQGWADPRFVVCVFNNRELAEVTWEQRETETEPRFEASQEIPDFPYAGYAELLGLTGIRVDAPEQLPGAWDRAFAADRPVVIEVLTDPDIPLLPPFPAGAEKLDGMRSAIAAEGEDGQGAGELLDTYAAQEEARG	PGPT0001371_13	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001371-poxB-K00156	NA	NA
D1-17_03675	243			hypothetical protein	ATGATGAGCAGCTACCATCCGGAGAATGACCCCGCGAACCCCGACCGCCCCGGCGCCGCTGGCGGCCAGCAGAACCGCGGGAGCGAACGAAGCGAAACGGAACGGGAAGACAGGGGGGCCTCGCCCAACCCCGATCCCCTGAACGGCAACATCACCGGCCTCGAGCCCGGCGGTGGAGTGCCGCCGGGAGAAACCCCGCCGGCCGAGGACCAGATGAGCGGGGACCAGGGGCACGACGAGTAA	MMSSYHPENDPANPDRPGAAGGQQNRGSERSETEREDRGASPNPDPLNGNITGLEPGGGVPPGETPPAEDQMSGDQGHDE				NA	NA	NA	NA	NA
D1-17_03676	471			hypothetical protein	ATGGGAATCGGCGACAGCATTGGGAAAGCAGCGGAAAACGCCATGGAGGATTTGGCGGGGACGTCCGAGCCAACGGACGACGCGCACGCGCCGGAACCCGGCGCAAAGGACGAGGACATCCAAGTCCACTCCTCCATCAGCGAAGGTTCCAACGCAATGGACGATGACGATACCTCGCCTGGCACTGGAACCCGCCGGACAGCTCACACCCCGCAGGAAACCGGCACGGGGGCAAGCGGCGGAGCAGGAGCCAGCGAAGCAGCGGGAAGCATAGCAGAAGTGGGCGCCGAAGGCGGCACGGGAACCGGAACGGACACTCAGGACGCCGGAGGCAGCGGCGCAGCAGAAGGCTCCGGCGCCCCCGGACACGTCGCGGGATCCGCCGGACTTCCCGACCCCGATCCGGACGAGCTCAGGGCCGACCCCTCCGAAGCCGACCAGGACCCCACCACCGGCAGGGGCCGCTCGTAA	MGIGDSIGKAAENAMEDLAGTSEPTDDAHAPEPGAKDEDIQVHSSISEGSNAMDDDDTSPGTGTRRTAHTPQETGTGASGGAGASEAAGSIAEVGAEGGTGTGTDTQDAGGSGAAEGSGAPGHVAGSAGLPDPDPDELRADPSEADQDPTTGRGRS				NA	NA	NA	NA	NA
D1-17_03677	753			hypothetical protein	ATGGCGCACCGCGGCTTTTCCCTGGACGGCCTGGAGAACTCCATGACGGCCTTCCGGGCTGCTGTCGGCCTGGGCTTCCGCTACCTTGAAACAGACGTGCACACCACTGCGGACGGCGTGGTGCTCCTCTTCCACGACGCCGTCCTGGACCGGGTCACAGACCATACCGGTAGGATCGCGGAGCTGACGGCCGGCGAGGTGGCCAAGGCCCTGATCCGGGGGCAGGAAACGGTTCCCACCTTCGAGCAGCTCGTGGCGGAGTTCCCCAACACCCGCTTCAACCTTGATGTCAAAGACTGGAACTCCGTCCGCAGCCTGGCAAAAGCGATAGAGAAACACGCAGTCCATGACCGTGTGCTGATCGCCAGTTTTTCGGACCGCCGACGGCGGGCGGTACTGCGGCTGCTCAGCCGGCGCACCGCCGCCTCCGCCGGAACCCTGGCCAACGCCGCCTTTGCGGCGGTGTCGCCGCTGCTGTCCGTCCCCGGCCTGCATTTTTTCGCCCGCGCGTTCCTCAGGCGCGCGCTGCGGGACGTTGACGCGCTGCAGGTGCCGATCGAGTACCGGGGTCTCCCCGTGGTGACGCCCGGCTTCGTCCGCCGGGCGCACTCACTGGGGCTTTACGTCCACGTGTGGACAATCAATGATCCGGGCGAGATGCACCTGCTCCTGGACATGGGCGTGGACGGCATCGTCTCCGACCGGGCCGACCTGCTCAAGGAAGTCCTCGAGAGCCGCGGCCTTTGGTCGTGA	MAHRGFSLDGLENSMTAFRAAVGLGFRYLETDVHTTADGVVLLFHDAVLDRVTDHTGRIAELTAGEVAKALIRGQETVPTFEQLVAEFPNTRFNLDVKDWNSVRSLAKAIEKHAVHDRVLIASFSDRRRRAVLRLLSRRTAASAGTLANAAFAAVSPLLSVPGLHFFARAFLRRALRDVDALQVPIEYRGLPVVTPGFVRRAHSLGLYVHVWTINDPGEMHLLLDMGVDGIVSDRADLLKEVLESRGLWS	PGPT0018470_4743	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-17_03678	819	yitU	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YitU	ATGCGGTTGGTAGCGAGTGACATAGACGGAACAATCCTGGGGCATGACGGCAGAATCAGCGACCGCACTGTCCGCGCCTTCCACGCATGCCGTGAAGCCGGCGTCGAACTCGTCTTTGTGACAGGCCGTCCTCCGCGCTGGCTGCACCCCCTCGAAGAGCAGCTGGGCCACACAGGAACGGTCATTTGCTCCAATGGAGCAGTGGTGTGGGACCTCGAGGCGGACAGGTTGGTTTCCGCCCGGACCATGGCACTAGCTGACATGTTCGAAGCCCGCCGGATCATCAAGAGACTGCGCCCCACCGCCCTCTTTGCCGCCGAGACCCTCACCGGCTTCCACCTGGAGCCCGGCTTTATCGAAAACGACACGAGCGAGATCCTCTCCGAATTCACCCCGGCTCCCCTGGCCGACACGCTTACAGCGGATGACGCAGTCGTGAAGTTCCTGGCAATCGTGCGCGAAGGGACTGCGGACGACTTCCTTGCGGAGGTTGCTCCTGCTGTCGGCAGCCTCGCCAACGTCACGCACTCGGCGCCCACGGTGGCCATGCTGGAGCTCTCGGTGCCGGGCATCAACAAGGCTGTGACGCTCGCGGAATATGCGCGCTCGCTGGGCGTCGGCGCCGCGGACGTCGTGGCATTCGGCGACATGCCCAACGACATCGAAATGCTCCGCTGGGCCGGACATGGTTATGCAATGGCCAGCGGCCATCCGGAAGCGATCCGCGCTGCCGGCCAACAGGCACCGCATTTTGATGACGACGGCGTGGCCCAGATTCTCGAGGAAAAGCTCGCAGAGCTCGGCGTCAGCCTGCAGTAA	MRLVASDIDGTILGHDGRISDRTVRAFHACREAGVELVFVTGRPPRWLHPLEEQLGHTGTVICSNGAVVWDLEADRLVSARTMALADMFEARRIIKRLRPTALFAAETLTGFHLEPGFIENDTSEILSEFTPAPLADTLTADDAVVKFLAIVREGTADDFLAEVAPAVGSLANVTHSAPTVAMLELSVPGINKAVTLAEYARSLGVGAADVVAFGDMPNDIEMLRWAGHGYAMASGHPEAIRAAGQQAPHFDDDGVAQILEEKLAELGVSLQ	PGPT0017727_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
D1-17_03679	525			hypothetical protein	ATGAATAAGGAACTGCGCGTCAGCGCCTCTGTGGTGGCCCTGGCAGCGGCGCTTGCCGGCTGCGGCGGCGACCCGGGGTCCACCAGTCCCACGACAGGAACACCACCGGCCTCGGCCACCGCTCCGGCGCCGGGAGTATCCACGTCAGCTGCGGCTGGTGTTGAGCTCAAGACTGCCACTTCCGCGGCAGGCCCCATCGTGGTGGACAAGGACGGAAAGAGCGTCTACTTCTTCACGAAGGACGTAAAGGATTCATCAAGCAGTGCCTGCAAGGATGCCTGCGCGGCTGCTTGGCCCGCTGTCACGACGACCTCCGAGACGCCCGCCGCGGAAGGCGTCAGCGGCGCCATCGGCACCATCAGCACCGCTGACGGTTCAAAGCAGATCACCATCAACGGCATGCCAATTTACTACTACGCCAAGGACGCGAAGGCCGGGGACATCCTGGGCCAGGGGGTGAACAACGCCTGGTACCTCATCAGCCCGTCGGGTCAGATGCTGAAATCAGCAGGCAGCGGATACTAG	MNKELRVSASVVALAAALAGCGGDPGSTSPTTGTPPASATAPAPGVSTSAAAGVELKTATSAAGPIVVDKDGKSVYFFTKDVKDSSSSACKDACAAAWPAVTTTSETPAAEGVSGAIGTISTADGSKQITINGMPIYYYAKDAKAGDILGQGVNNAWYLISPSGQMLKSAGSGY				NA	NA	NA	NA	NA
D1-17_03680	1056	tagU_3		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAGTGATGCGCAACGACGCGTGCAACCCAGACTGTTGGCGTTCCTGGTAGCGCTGGGGCTTCTCGTCCCGCTGTTTGCAGCGTGCAACTTCTGGTCGGCGGGCAGCAGCAACACCCCCGGTGCTACGTCTGCCGCGCCGCCCCCTGCGACTTCCGCAGCTGCCACGCCAAAGAAAAGCATTCCTGCGCCGAAGCCGAAACCGGTACCCCCTGTTGACGCGCTCCGGGGGCGGGCTGTCAACATCCTGCTCATCGGCAGCGACACGAGGGGGACCAACGCGAAGGACACGGTGCGGAGGGTTGATACCGACCAACGGGCGGACGCCCTTTTCCTGGTGCATGTCTCGGCCGACCGCAAGAGTGTCCACGGCATCTCCGTCATGCGCGACCTCTGGGCTGACATCCCCGGCTACGGCTACTCAAAGATCAACGACGGCCTTGCCTGGGGCGGCGTACCAGCCATGCGGGACGCCGTGGGTGCGCTATTCAGCCAGCGCATTGACCACGCGATCGTGATCGATTTCGGCAGGTTTGTGGAACTGGTGGATGCCCTTGGCGGAGTGCGGGTTGACGTACGGACGCCTTTCACGTCGACCCACGACAGCCGGCACACGTTCCCGCAGGGCGTGCAGAATCTCAACGGCGCCCATGCTCTGGAGTTCGTCCGGGAACGCTACGCCTTCAGCGACGGCGACTACCAGCGGGTGCGGAACCAGCAGACCTTCCTCAAGGCACTGGTCGCCGAACTCCTCCAGCCCAGGATCCTGACCAACCCCGAGACCCTCCGCAAGACCGTAGCCTCCCTCTCACGGACCGTCGCCGTCAGTACAGGGCTCAACCAGGAAACCCTGGCAGGGCTGGCGTACAGCCTGCGGAACCTGCAGCTAAAGAACACTGCGTTCTTCGCCCTGCCCACAGCAGGTGTGGGCACCTCCTTCGACGGCCGGTCGATTGTCCTGCAGAATCCCGCGGCGCTGGCCGGGATCCGGACGGCCCTGGCCCGCGACCGCGTGGGCCAGTACATCAGGGAAGCAGGAATCAGGGATATCCGCTGA	MSDAQRRVQPRLLAFLVALGLLVPLFAACNFWSAGSSNTPGATSAAPPPATSAAATPKKSIPAPKPKPVPPVDALRGRAVNILLIGSDTRGTNAKDTVRRVDTDQRADALFLVHVSADRKSVHGISVMRDLWADIPGYGYSKINDGLAWGGVPAMRDAVGALFSQRIDHAIVIDFGRFVELVDALGGVRVDVRTPFTSTHDSRHTFPQGVQNLNGAHALEFVRERYAFSDGDYQRVRNQQTFLKALVAELLQPRILTNPETLRKTVASLSRTVAVSTGLNQETLAGLAYSLRNLQLKNTAFFALPTAGVGTSFDGRSIVLQNPAALAGIRTALARDRVGQYIREAGIRDIR	PGPT0023440_1506	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
D1-17_03681	780	mmgB_1	COG1250	putative 3-hydroxybutyryl-CoA dehydrogenase	ATGCCCGCGGGTGCCGCTGGCACCATTGAAAAGAACGTCGCCGCTGCCGGCAGCATCGAGGAGGCTGTGGCGGACGCGGATTACATTGCCGAGGCGGTTCCGGAGGACCCCGGCCTCAAGGCCGCCATCCTCGGCCGTGTTTCCGGCGCGGCGCCGGCCGGCGCTGTCATCAACACGAACACCTCGGCGATCCCCATCGGGCAGTTGGCCGGCGCGGTGAGCCGTCCCGAGAGGTTCCTCGGCGTCCACTGGATGAATCCGGCCCCCTTTATCCCCGGCGTCGAACTGATCCCCGGTCCGGATACCGCGCCCGCAGTACTGGATCTCGCTGAGACACTTATCCGCGGACTGGGCAAGACGCCGGCACAGGTTGCGGACACCCCTGGATTCGTAGCCAACCGGCTGCAGTTCGCGCTATACAAGGAAGCCGTGCGGATCGTTGAGGAGGGGGTTGCCACTCCCTCACAGATCTTCGCGGTAGTGAGCAACACCTTCGGGTTCCGGCTGGCGCTTTTCGGGCCGTTTGCGATCGGCGACATGGCGGGACTGGATGTCTACGAATCATCGTTCCGCACTTTGGCGAAGGCCTATGGTGACCGGTTTGCTGCTCCGGACGCACTGTCCGCTGCTGTCGCGCAAGGCAACCTTGGGCTCAAGAGCGGGCGGGGTTTCCTGGACATTGATCCGAAAGACAAAACCGCACTGCTGGCCTACCGCGACGCTGCTTATGGGCGGCTCTCACAGCTGCGTGCTGAACCTGGTGAGGCGCCCGGGCTTTAA	MPAGAAGTIEKNVAAAGSIEEAVADADYIAEAVPEDPGLKAAILGRVSGAAPAGAVINTNTSAIPIGQLAGAVSRPERFLGVHWMNPAPFIPGVELIPGPDTAPAVLDLAETLIRGLGKTPAQVADTPGFVANRLQFALYKEAVRIVEEGVATPSQIFAVVSNTFGFRLALFGPFAIGDMAGLDVYESSFRTLAKAYGDRFAAPDALSAAVAQGNLGLKSGRGFLDIDPKDKTALLAYRDAAYGRLSQLRAEPGEAPGL	PGPT0006075_1401	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
D1-17_03682	777			hypothetical protein	GTGGACGAGTCCCCCGCCTTCGAGGAGGTCAAGCGCCGGGGTGACATCGAGAAGCTGCCGGTGGTCAAGGTCATCAAGACACGGCCGCTGACCATTCTCAAGGTCATCATGATGCGGTTTGCGGAGAACGCGAACTACTACAGCATCCTGCTGGCAACGATGATCATGGCCGGACTCGGCATCTTCTCCATCCCGTTCTGGGGCTGGGTATCTGACCGCTGGGGCCGCCGCTACACCGTGATCGCGGGCGCCGGAACCATGCTCGTAATGGCCTTCGCGTTCTTCTGGGGCGTCCAGACCGGCGACTTCCTCATGGTCCTGCTGGTCCTGGTCCTGACCTGCAACGTGGGACGCGACCTGTGCTACTCGGTGGAACCTGCCTACTTCACCGAACTCTTCGAGCCCAAGCTCCGTTACTCAGGCGCCTCCGTGGGCCCGCAGGTTGCCGCTGTCTTCGCCGGAGGCTTCGCTCCGCTGATCGCCACAGCACTGATCGGCCCCGACTTCGACCGGTACTGGCTCGTGGCCCTGTACATGGTGTTCACCTCTGCCATCACGATCGTTGGGGCACTGTGGTCACCCGAGACCGCTCCGCAGGTCCGCCTGCGCCGCGGCCTCAGCGCAGAACGATCCGACGACGGGCCGTTGAGCGACGCCCCGGCCGCTGCGGCAGGACCGGCCGGTCGACGGTGTCACACCGGCAACGGTCTCCTGCCGGCATCCGCCTCTCCGGAGCGGACGCCGGCAGGTGCGCTACCGGAAGTTTGGCTACTCTGA	MDESPAFEEVKRRGDIEKLPVVKVIKTRPLTILKVIMMRFAENANYYSILLATMIMAGLGIFSIPFWGWVSDRWGRRYTVIAGAGTMLVMAFAFFWGVQTGDFLMVLLVLVLTCNVGRDLCYSVEPAYFTELFEPKLRYSGASVGPQVAAVFAGGFAPLIATALIGPDFDRYWLVALYMVFTSAITIVGALWSPETAPQVRLRRGLSAERSDDGPLSDAPAAAAGPAGRRCHTGNGLLPASASPERTPAGALPEVWLL	PGPT0002956_143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_03683	999	rbsR_1	COG1609	Ribose operon repressor	ATGGTAACGAGCCGTGACGTGGCGGAACTCGCCGGGGTCTCACAGGCCACGGTCTCGCGGGTCATGTCCTCATCCACGAAGCTGTCCCCTGCCACCAGGGCCCGCGTGCAGGCGGCCATGGAAACCCTCGGATACGTGCCGCACGCTGGCGCCCAAGCCATGAAAACCAGGCGGACCAATACCATCGGCGTTGTGGTGGCAGACCTGACCAATCCGTTCTACCCGGAAGTCCTCGACGAGCTGAGCCGGGAGCTGGACGCCGCCGGATTCCGGGTCGTGATCTGGAACGCCGGTGGCGGAAGCCACCATGACGCCCTGAAGGCCATCCGGGAACACGCCGTCGACGGCGTCATCTTCACCACCGCCACCGAAGACTCCCTGGAACTCCAGGCCGCCATCGAAAAGGACAGCCCGATCGTCCTGATAAACCGAGTCGTCGAAGGGCTGGACTGCGACCAAGTGACCAGCAGCAACACCGAAGGCGGCGCCGCCGTCGCCGACTACCTGCTGCAGCACGGCAAGACCCGGGTGGCCTTCATTGGCGGCGCGGAAAACGCCAGCACCTCCCGCGAGCGCGCGCAGGGGTTTCTCGGCAGGATGTCGGAAAAGGGCCATGCAGTCCCCGAACACTTCCGCTTCCAAGGCGGGTTTTCCCACGACATCAGCGCCCAGGTCATGGGCAGGCTGCTGTCCCGCGCTGACCGTCCCGAGGCCGTCTTCTGCGCCAACGACCTCATGGCCTTCGGCGCCCTGGACGCACTGCGTGCCCACCGCATCCAGCCCGAGGACTGCTGGATCATCGGCTATGACGACGTCGACATGGCCGCCTGGGACTCCTTCAGCCTCACCACCGTCCGGCAACCCAGCCGCGAAATGGCGCGCGTGGGCGCAAAAATGCTGCTCGACCGGATCCACGCCCCCGGCAGTCCCGCCCGCAGGGTCAACTTTCCGTGCGACCTTATTGTCCGCGGCAGCACCCGGGCCAACGGCGCCGCCTAA	MVTSRDVAELAGVSQATVSRVMSSSTKLSPATRARVQAAMETLGYVPHAGAQAMKTRRTNTIGVVVADLTNPFYPEVLDELSRELDAAGFRVVIWNAGGGSHHDALKAIREHAVDGVIFTTATEDSLELQAAIEKDSPIVLINRVVEGLDCDQVTSSNTEGGAAVADYLLQHGKTRVAFIGGAENASTSRERAQGFLGRMSEKGHAVPEHFRFQGGFSHDISAQVMGRLLSRADRPEAVFCANDLMAFGALDALRAHRIQPEDCWIIGYDDVDMAAWDSFSLTTVRQPSREMARVGAKMLLDRIHAPGSPARRVNFPCDLIVRGSTRANGAA	PGPT0017992_13868	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03684	1590			hypothetical protein	ATGACCAGGGCGCCGGCGCGGCGGGTCCTGACGGCCATACTCGCCTTCCTTACACTCCTGCTCGGCTTCGTTCCCGGCGCACCTGCAGCCCAGGCTGTATCCCTGCGCGGCCACGACATCTCTTGGCCGCAATGCCCGACGGCGGCCGGCGGCTTTGGCCTGCCCATGCCGCCCGCGTCGTCCCAGTTCGTCATCATCGGCCTGACGAAGGGGCTCCCCTTCACCGAGAACCCGTGCCTGGCCAGCCAAGTCAACTGGGCCAAGACCAACAAGAAGCCCGCCCAGGCGTACACCATGGCCGCCTTCCCCACGGCCGCCCAGCTCACGACATACCGGGCGCGGGGGCCCTGGTCGTCAGCAACCCGTGCCGGGCAGCTGTCCAATGTGGGCTACGCTCAGGCCCGCTTCGCCGTTGCAAGCCTCGTCAAGACCGGCTTCGCACCGCGCGTGGTCTGGATTGACGTCGAGCCGCGGCCTGCTCAGCCCTGGCCCACCGCAACCGCCGCGCAGCAGCGCGAGAACCGGTTCCTCATCGAGGGCCTGATGCGCGGCCTGCGCGAAGCGCGGTACTCGTACGGCCTCTACTCCTTTGCGTCCGGATGGCAAAGCATCACCGGCTCCTGGCGACTCCCGGCCGTGCCCGTCTGGGCCACCGCCGGGCGGCTGGACTATCCCGGTGAGGCGCTGGACCGCTGCCGCCCGCCGAGCTTTTCCGGAGGCCGCGTTTACATTTCCCAGTGGTATGACGACACCCGGGACTACGACCTGACCTGCGATCCGTACGCATTCACGCCGCTGCCCTTCCCGGCGCCCACACTCTCCGGTTCAACCGGCGACTTCAGCGGGGACTGGAACAACGACGTCCTGGCCCGCTACCCGGCCCGGGCAGAGCTATGGATGTATGCCGGCACAGGGAAGGGCGGCAGGCAGCCCGGCGTGAGGATCGGAAACAGCTGGAACGGCTTCAACGCTCTCGAAACGCCCGGCGACTTCAACGGAGACGGCCCCCAGGACGTGCTGGCGCGGGAAGCTGCGACAGGCACTCTATGGCTTTACCGCGGCAACGGCGCCAACGGGTTCCTCGCACGCCTGCGGCTCGGCGGCGGCTGGAACATCATGAGCGCCATTTTGGGCCCGGGTGACTTCAATGGCGACCAACGGGTCGACGTCCTCGCGAGGGAAGCTGCCACCAGCCACCTGTGGCTGTACCCGGGCAACGGCGCCGGCGGATTCCTGCCGCGTGTCCGTGTGGGCACCGGGTGGCAGGTGTTCAATGCCTTCGCCTGCCCAGGTGATTTCACCGGTGATGGCGCCGCGGACGTCTTGGCCAGGGAAGGCGCTACGGGCATCCTGTGGCTCTACCGGGGGAACGGCGCCGGCGGCTTCCTGCCCCGCACGAGGGTAGGCGGCGGCTGGAACGTCATGACCGCCGTCGTTAGCCCTGGAGACTTCAATGGCGACCGCCGTCCAGACCTGCTGGCTCGCGACCGTGCCGGCGTGCTGTGGCTCTACCCCGGCAACGGCGCCGGCGGCTTCCTCCCGCGGGTCCAGGTGGGTCCCGGCTGGAACGCGCTCGCGCCGCTCTTCTAA	MTRAPARRVLTAILAFLTLLLGFVPGAPAAQAVSLRGHDISWPQCPTAAGGFGLPMPPASSQFVIIGLTKGLPFTENPCLASQVNWAKTNKKPAQAYTMAAFPTAAQLTTYRARGPWSSATRAGQLSNVGYAQARFAVASLVKTGFAPRVVWIDVEPRPAQPWPTATAAQQRENRFLIEGLMRGLREARYSYGLYSFASGWQSITGSWRLPAVPVWATAGRLDYPGEALDRCRPPSFSGGRVYISQWYDDTRDYDLTCDPYAFTPLPFPAPTLSGSTGDFSGDWNNDVLARYPARAELWMYAGTGKGGRQPGVRIGNSWNGFNALETPGDFNGDGPQDVLAREAATGTLWLYRGNGANGFLARLRLGGGWNIMSAILGPGDFNGDQRVDVLAREAATSHLWLYPGNGAGGFLPRVRVGTGWQVFNAFACPGDFTGDGAADVLAREGATGILWLYRGNGAGGFLPRTRVGGGWNVMTAVVSPGDFNGDRRPDLLARDRAGVLWLYPGNGAGGFLPRVQVGPGWNALAPLF				NA	NA	NA	NA	NA
D1-17_03685	615			hypothetical protein	ATGAATGATCGCTTCACGGACGAACGGGACAGTTATGGCCGGCTGCTGGTGGACCGGGAGGTATGGCGCCAAGCAACCACCCTTGCCGCTGCAGGCGAGCTGACAGCGCGCTGGCTGGAGGGCAAGAGCGAGTACCAGGCGGGAACGCTGGCGCCCCGGTTCGACGACGAGACTGGTCCGATCGCAGGCCTGCTCACCAACATCAACCGCAGCGGGCTCTTCACCAGGGAGTCCCAGCCCGGTCTCGCCGCCGAGGACCACCTCCAGCAGCGGGAGTACGTGACGGGGTTCTGCTCGGCGGAGTCGGCGCGGCAGCTGCTGCAGCTCTCGACGCTGACGGAGTTCATCACTGTGGCCCACGCCCCGGGGGAGACGAGCAGTGCCTCGATTCCCGTAACGTTCGACGGCGGCGAGGTGATCACAGTGCTGGGGACCAGCGAGACTCCGGTCGAGTCCGGCCAGATCCGGGACTGGGCGGAGGAAAGCAACGAGGCATTGTCCCTCCTCCTCGCCGACTCCTGGTACGTCGAGGTGCTCGACCCGGTATGGGGACGCAACCAGCACCTCCTTACCGCGGTCCTCGATGCCCTCGATTCAGGACAGGAGGGTTTTTGA	MNDRFTDERDSYGRLLVDREVWRQATTLAAAGELTARWLEGKSEYQAGTLAPRFDDETGPIAGLLTNINRSGLFTRESQPGLAAEDHLQQREYVTGFCSAESARQLLQLSTLTEFITVAHAPGETSSASIPVTFDGGEVITVLGTSETPVESGQIRDWAEESNEALSLLLADSWYVEVLDPVWGRNQHLLTAVLDALDSGQEGF				NA	NA	NA	NA	NA
D1-17_03686	324			hypothetical protein	ATGCGCAAGAGAACGTGGATCATCGGGGCCGCAGCAGCCGGGCTGGTGCTGGGAGGCGCAACGGTTGCCGCAGCTGCCGTGAACCCCTTTGACGACGACGGGAGCGTGGGTGAAAGCACGCAGAGCCCTCTAAGCCCGGCCGACCGTGACAAGGCGGTCCAGGCCGCGCTGGCTAAAGTGGGTCAGGGTACGGTGACCGAAGTGGAGCGGGACGAGAACCCGAACTCCGCCTATGAAGTCGAGGTGCGCCTCGCCAACGGTTCGGAAGTGGAAGTGGCCGTCGGCAAGGACTTCCAAGTTCTCAGCCAGAGCCCGGACGACTGA	MRKRTWIIGAAAAGLVLGGATVAAAAVNPFDDDGSVGESTQSPLSPADRDKAVQAALAKVGQGTVTEVERDENPNSAYEVEVRLANGSEVEVAVGKDFQVLSQSPDD				NA	NA	NA	NA	NA
D1-17_03687	531			hypothetical protein	ATGACATCCGACGGTCCCTTTTCAAACCTTCCCGACGTTCCCTCCTTCGAGCTCTCCAGCAGGTCCTTCGAGGACGGCGCCACCCTGGCGCCGCCGCAGCGCAGCGGCAGGCTGCACGCGGGCGGATCGGACAGCTCACCGCAGCTGAGCTGGAGCGGGGCACCAGCGGAAACCAGGAGCTTTGCGATCACCGTTTTCGATCCCGATGCACCCGGAGCCCGCGGCTACTGGCACTGGGCGGTAACCAACATTCCCGCTGATGTCACGTCCCTGCCGGAGGGGGCAGGTGCTGAGTCCGGCTCGCAGCTCCCGCAGGGAGCCGTGCAGCTGCCGAACGACGCCGGCTTCCGCGGCTATGTGGGCGCCGCGCCGCCGCCCGGCCACGGCCGGCACCGGTACTTCATGACGGTCTACGCGCTGGATGTTGAGGATCTTGGAACCCGGCCGGACACGGACCCGGCGAGCCTGGGACAACAGCTTTCCCAGCACCTGCTCGGAACCGCCACAATAACCGGGATCTACGAACGCTGA	MTSDGPFSNLPDVPSFELSSRSFEDGATLAPPQRSGRLHAGGSDSSPQLSWSGAPAETRSFAITVFDPDAPGARGYWHWAVTNIPADVTSLPEGAGAESGSQLPQGAVQLPNDAGFRGYVGAAPPPGHGRHRYFMTVYALDVEDLGTRPDTDPASLGQQLSQHLLGTATITGIYER				NA	NA	NA	NA	NA
D1-17_03688	966	scrK	COG0524	Fructokinase	ATGCTCACAGTTATTGGCGAGGGCCTCGTCGACGTGGTCCAGCGGACATCCGGAATCGAAGCGCATGTGGGCGGCAGCCCGCTCAACGTCGCCGTGGGCCTCGCCCGCCTGGGCCATCCCGTCCAGTTCATCGGGCGCTACGGCCGTGACGCCTACGGCGACTCGATCGCGGCGCACTTGAGGGCAAGTTCGGTGATGCTCCCGCTGGCCCCGGACGGCCTGCCAACCAGCGTGGCCACGGCGCTGATTGACGACGGCGGCGCCGCCACCTACACGTTCGATCTCACCTGGGAACTCCCCGGCCTCGCCGAACGCCTGCCGTTCATGCTGCAGGGCACCACCCTGCTGCACACGGGCTCCATAGCCACTATGCTGGCGCCGGGTGCGGGGGAGGTGCTGGCCGCCGTCGAGCATTCTCATCCGGCAGCGATCATCAGCTTCGACCCCAACTGCAGGCCGAGCATCATCAGCGACGCCGGCTACGCCCGCCGCCAGGCGGAAAAGTTCGTGACCCTCTCCGACATCGTTAAAGCCTCAGATGAGGACCTCGAGTGGCTGTACCCGGGCGCTGACCCGCTCGAATCGGCCCGCCGCTGGTTCTCCCTGGGCGGTTCCGAAGGGCCGGCCCTTGTGGTGGTCACGCGCGGCGCCCGGGGCCCCTGGGGCATCACCGCTGCCGGGGAGGCCGAGTTCCCCGCGCCCGAGGTCGAGGTGGCGGACACTGTCGGCGCGGGTGACTCATTCATGGCAGCGCTGCTCTCCGGCGTCGTTGACCGCGGCCTGGATGGAGCCCAGAACCGGGCGGACCTACGAGCCCTGCCCGCCGAAGGCCTCACCGCGCTCCTGGCGCACGCCGGCCGGGCTGCCGCTGTCACCGTCTCCCGGGCCGGTGCCAACCCGCCCACCAGGGCCGAACTCAACCACACGGAAGAAGCGGCAGAGGAAGCAGAAGTACCCACTACCTGA	MLTVIGEGLVDVVQRTSGIEAHVGGSPLNVAVGLARLGHPVQFIGRYGRDAYGDSIAAHLRASSVMLPLAPDGLPTSVATALIDDGGAATYTFDLTWELPGLAERLPFMLQGTTLLHTGSIATMLAPGAGEVLAAVEHSHPAAIISFDPNCRPSIISDAGYARRQAEKFVTLSDIVKASDEDLEWLYPGADPLESARRWFSLGGSEGPALVVVTRGARGPWGITAAGEAEFPAPEVEVADTVGAGDSFMAALLSGVVDRGLDGAQNRADLRALPAEGLTALLAHAGRAAAVTVSRAGANPPTRAELNHTEEAAEEAEVPTT	PGPT0017625_1260	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017625-scrK-K00847	NA	NA
D1-17_03689	1182	desA3	COG3239	NADPH-dependent stearoyl-CoA 9-desaturase	ATGACAGCAATATCCGACCGCACAGCAGTGAAATCGACGTCGATCAGCACGCCGGCGGCGAAACCCCGCCCGGGTGCGCTGGCCACGTCCGGCAGCCCGTTGGTGCGCCCGCCGGCGGCCGCGCACCTCACCGACGAGCAGGTGGCCGAGCTCGGCCGTGAACTGGATGCCATCAAGGACGACATCCTCGCAAAGCGCGGCGCATCCGACGCCGCCTATATCCGCCGTGTCATCAAGGTCCAGCGCGGCTTGGAAATCTCCGGCCGTGCAGCGCTCCTGATGGGCCGCAACAAGGCAGCCTGGGTTACCGGCACCACCCTGCTGAGCCTGGCCAAGATCCTGGAAAACATGGAGATCGGCCACAACATCCTGCACGGACAGTGGGACTGGATGCGCGACCCGGACATCCACTCCACCACCTGGGAATGGGACTTCGTCACGCCGGCCCGCTCGTGGCAGCACACCCACAACGACCTGCACCACCGCTGGACTAACGTCGTCGGCAAGGACAACGACGTCGGATACAACCTGCTGCGCATGGACGGCGACCAGCCGTGGAAGCCGTTCAACCTCGGCAACCCGCTGTACAACGCCATCCTCGCTCCCATCTTCGAGTGGGGCATCGCCGTCTACGACCTGGAGCTTGCGGAATTCCAGGAGGGCAAGAAGAGCAAAGAGGCCCTGATGAAGGACCTCAAGGCATTGGGCAAGAAGGCGGTCAAGCAGTTCACCAAGGACTACGCCGCCACCCCTGCTGTGGCCATGCTGACCGGTTCCGGCAAGCAGGCCCTCTACGGCACGCTCACCGCCAATGCCGTGCGCAACGTGTGGGCCCACGCCGTCATTTTCTGCGGCCACTTCCCGGAGGGCGCTGACACCTTCACGGAGGAAATGGTGGAAGGCGAAACGCGCGGTGACTGGTATGTCCGCCAGATGATCGGTTCGGCCAACATCTCAGGCTCCAAGTTCATGCACCTGATGACCGGGAACCTGTCCCACCAGATCGAGCACCACCTCTTCCCGGACCTTCCGTCCAACCGGTATGGCGAGGTGGCGCCGAAGGTGCAGGAAATCTGCAAGCGCTACGGCTTGCCGTACACCACGGGTCCGCTGCTCAAGCAGGTGGGCTCCTCGTGGGGCAAGGTCTTCAAGCTCGCACTGCCGGGTAAGAAGAAGGCGTAG	MTAISDRTAVKSTSISTPAAKPRPGALATSGSPLVRPPAAAHLTDEQVAELGRELDAIKDDILAKRGASDAAYIRRVIKVQRGLEISGRAALLMGRNKAAWVTGTTLLSLAKILENMEIGHNILHGQWDWMRDPDIHSTTWEWDFVTPARSWQHTHNDLHHRWTNVVGKDNDVGYNLLRMDGDQPWKPFNLGNPLYNAILAPIFEWGIAVYDLELAEFQEGKKSKEALMKDLKALGKKAVKQFTKDYAATPAVAMLTGSGKQALYGTLTANAVRNVWAHAVIFCGHFPEGADTFTEEMVEGETRGDWYVRQMIGSANISGSKFMHLMTGNLSHQIEHHLFPDLPSNRYGEVAPKVQEICKRYGLPYTTGPLLKQVGSSWGKVFKLALPGKKKA				NA	NA	NA	NA	NA
D1-17_03690	1089		COG1018	NADPH oxidoreductase	ATGATTCGGCTCCGCAAGTTGGCGCGCGCCACGACGGTCTTGACAACCCCGTTGGCGCCGGAGGATATCCTCGCGCTTTTCAACCCCGTCTTTTCGGCCCGCCAGCTTCGCGGCGTGGTCACCAAGGTAGTCCCCGAAACTGCGGACTCCGCCACCATCTACTTCCGTCCGGGCCGCGGCTGGAAGGCGCACAAGGCCGGCCAGTGGGCCCGGATCGGCGTCGAGCTCGACGGCGTGCGCCACTGGCGTTCCTACTCGCTAAGTGCTCCTGCCGGCCAGGACCCTGCCATCACGGTCAGCGACGTCGGAGCGGTCTCGAGTGTCCTCGTCCGGGAGACCAAGCCCGGTGACGTGCTCTTCCTGGCTCCGCCGCAGGGTGACTTCGTCCTGCCGGAACATCCGCGGCCTCTGCTCATGCTCACCGCAGGGAGTGGCATCACGCCGGTCATGTCGATGATCCGCACCTTGGTGCCGCACCGACCAGATGCGGACGTGGTCCTTATCCACTCGGCGCGTGCGCCCGAGGACAGCATCTTTCATGGCGAGCTGTCCGAGCTCGCGGACCAGTTCCCCAACTTCCGGGTCACTCACTGGTATACGGGCGAACGTGGACGGCTGGACTTCAGCTCCACAGCGCGGCTGGACGAGCTCTGCCCGGACTGGCGCCAGCGTGCTGCCTACGCCTGTGGCCCTGAAGGATTCCTGGACGATGCGGAGGCCCTTTGGTCCGCGGAGGCCGCTGCCCACAAGAAGGCGGGACCGTTTGCGGCCGATGAAATCAACCTCATCATCGAACGTTTCAATACCAGCCTCGTCGGCGGAGCAGGGCACGACGGCGGACTGGTCACCTTTGAAGCCTCCGACCGGGAGGTCGAGGCGGACGGGAACACCCCGTTGCTTGATGTCGGCGAGGACGCCGGGGTCCTGATGCCCAGCGGCTGCCGCATGGGCATCTGCCACAGCTGCCTGACGCCGCTGCGGGCCGGGCAGGTCCGCGACCTTCGCACCGGCGAGGTCCACGGCGAGCCAGGCCAACTAATCCAGACGTGTGTTTCGGCAGCCGCCGGGCCCGTTAACCTCGAGATCTGA	MIRLRKLARATTVLTTPLAPEDILALFNPVFSARQLRGVVTKVVPETADSATIYFRPGRGWKAHKAGQWARIGVELDGVRHWRSYSLSAPAGQDPAITVSDVGAVSSVLVRETKPGDVLFLAPPQGDFVLPEHPRPLLMLTAGSGITPVMSMIRTLVPHRPDADVVLIHSARAPEDSIFHGELSELADQFPNFRVTHWYTGERGRLDFSSTARLDELCPDWRQRAAYACGPEGFLDDAEALWSAEAAAHKKAGPFAADEINLIIERFNTSLVGGAGHDGGLVTFEASDREVEADGNTPLLDVGEDAGVLMPSGCRMGICHSCLTPLRAGQVRDLRTGEVHGEPGQLIQTCVSAAAGPVNLEI				NA	NA	NA	NA	NA
D1-17_03691	831			hypothetical protein	GTGAAGCGGCAGAAGTACCAGTACGGCGACCACCCCAGCCAGTGGGGCGAGCTCTTTCTGCCGGAGGCGCCGCCCGCATCCTCGTCCCGCAACGGCAAGCGCCCGCCCGCCCGCGGCGTCGTGGTGGTCATACACGGCGGCTACTGGCGCTCGCAGTATGGAGCTGAATTGGGCGAACCGCTGGCGAAGGACCTGGCAGCGCACGGTATGCCGGCCTGGAACCTGGAGTACCGCCGGGCGGGTAACGGCGGCGGGTGGCCGCATACCTTCGAGGACGTGCTGGCTGGGATCGACCGGCTGCGCGGGGTGGCTGAAGAACATGGGCTGAACCTCACCAATGTCGTCGCGCTGGGGCACTCCGCCGGCGGCCATCTCGCCGTCTGGGCAGCCGGCCGCGACCGCCTGGCGGAGCTGGGCACACCGGACGCGGACAGGCAGGTCGAGCGGAACCTCAACGGACAGGCCGTGCGCCTGACGGGAGTGGTCAGCCAGTCCGGGCTGCTCAATCTCGCCCAGGCTGACTGGCTCGATCTCAGCAACGGGGCGGTGAGCAACCTGATGGGCGGCTCCGCGGGAAAGTACCCCAAGCGGCACAAGTATGCAGACCCCATGAGCGCGGTCCCGCTGAACATTCCCGTCTATGCCGTCCACGGGCTGGAGGACACCACCGTACCGATCAGCCAGTCCGAGGCTTACGCCGCGGCGGCCCGCGCCGCCGGCGCCCCCGTCCAGGTGGTCAAGGTTCCCGGCGATCACTTTGCCCTGATCGACCCAAAGGCCTCGTCCTACCGGAAGTGCCGAGAGCTTGTGCAGGAGTTGCTGACTACGTAG	MKRQKYQYGDHPSQWGELFLPEAPPASSSRNGKRPPARGVVVVIHGGYWRSQYGAELGEPLAKDLAAHGMPAWNLEYRRAGNGGGWPHTFEDVLAGIDRLRGVAEEHGLNLTNVVALGHSAGGHLAVWAAGRDRLAELGTPDADRQVERNLNGQAVRLTGVVSQSGLLNLAQADWLDLSNGAVSNLMGGSAGKYPKRHKYADPMSAVPLNIPVYAVHGLEDTTVPISQSEAYAAAARAAGAPVQVVKVPGDHFALIDPKASSYRKCRELVQELLTT				NA	NA	NA	NA	NA
D1-17_03692	1107			hypothetical protein	ATGGCAAGCAACTGGGACCGGCTGGACGTCAGCCAGCGCGAGTCCGTCCAGGAGAACGTGGAGCTCTATGAGCGCGTCCGCCCTGCCCTGAAGCTTGTCACCCGGGAAGTCCTGCTGATGCTGCGGACTATGCTCAAGGACACTGAGGTCACCCCCCTGTTCGTCACCGGCCGGACCAAAACAGTGGAATCGTTCCGGGAGAAGATCTCCAGGACCGAGGAGCCGCTGGAACCGGAGGGACCCCGGGTGCTGAAATTCCCTGACCCCTTCCGCACCCTCAATGACATGGTGGGGGTCCGTGTCATCACCAAACTCCCGGCTGAGAACGCTGCAGTAGCCAACCTGATCAAGCGACAGCGCCAGCTCTTCGACTGCCGGGGGGACCGTGAGAAGGACATCGGCTCGATCGAATCCGGGACCTATGGCTACTCCAGCCGTCACCTGATCCTGCGGACTATCCAGAACGACGTGGTCAAGGACTACCAGCAGGTCTTCAACCCCGAGGTCCAGCCGAACGGCAGCTATTTCTTCGAGTGCCAGATCCGCACCGTGTTTGCACACGCATGGAGCGAGATCGAACACGACATCCGCTTCAAGGCGGAGGACCCGCGTGCGTGGACGCCTCATTTCGACCGGCAGTTCACCGCCACGGCCGCCATGCTGGAGACGGTAGAGACCGCCTTCGCTGACCTGCATGAGCGTTATGAGGAGGTCCGCAGCTACTGGGACATGGACGGCGAAGGCGCCGCGCCTCTCACGCCCAACCGCATCCGGGACGTGTGGCGGGCCCTGCTGCCGCACGTTGACCGCAAAGTGGATGATGACTGGGGCTGGGCGGCCGAGCTCATGGCGGCCCATGGACTTAACCAGACCGTGCAGCTGGCCGGCCTGCTCAGCGCCAACCGGATCACCGAGGTCCGCAAGGCCCTGGACCACCGCTACTCCCCCGGTCCGGACCGGCTGCTGGATGACCTGCTGCTGTGGCAGTACGGCACCAAGCACATCGACCTCACTGCCGAAGCGCCCGACGCCGTTCCGCACCCGCGGCGCGACAGCCTCCTGCGGCGGCTCAAACAGATCGAGCGCTACCGCCAGACCAAGAAATAG	MASNWDRLDVSQRESVQENVELYERVRPALKLVTREVLLMLRTMLKDTEVTPLFVTGRTKTVESFREKISRTEEPLEPEGPRVLKFPDPFRTLNDMVGVRVITKLPAENAAVANLIKRQRQLFDCRGDREKDIGSIESGTYGYSSRHLILRTIQNDVVKDYQQVFNPEVQPNGSYFFECQIRTVFAHAWSEIEHDIRFKAEDPRAWTPHFDRQFTATAAMLETVETAFADLHERYEEVRSYWDMDGEGAAPLTPNRIRDVWRALLPHVDRKVDDDWGWAAELMAAHGLNQTVQLAGLLSANRITEVRKALDHRYSPGPDRLLDDLLLWQYGTKHIDLTAEAPDAVPHPRRDSLLRRLKQIERYRQTKK	PGPT0014825_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
D1-17_03694	831			hypothetical protein	ATGTCGTCACGCACTACCCCTGCCCGCCGCGCAGCGGCCGGCCGTTCTAACCCGTTCGCTTCCGCATCGCGCGCAGTTACGGCCAATGCCGGAGGACTGGGACGCAAGGCAGCCGTGGTCCTCGCCGCATCGGGCCTCGCTTTCACCGGGACCATGGCCGCTAACGCTGCCAATGCCCCGGCCCAGAAGGCCGCCGCCCCCGCCTTAGCTCCCGAAGCTGCCAGCCCGGCCCAGGCCCCGCTGAACGCCAGCTCCAGCGTCTCCATCGCCTACGAGCGTCCCGCTGTGAAGTCCGCCCCGGCTCCCGTGGTGGAGGAACCCGTCATTGTGGAGAAGCCGGCTGTGCCTGCCGCTCCCAAGGTCGCCGCAGCCAAGGCTCCGGCTGCAGCCCCCGTTGCTCCCCCGGCACCGGTTGCTGCCCACGCACCTGCCGCCCAGGCACCTGCCGCCGCGCCGGCCCCCAAAATCACGGTCAAGTCGGCACCGGCTCCCGCTCCGGCAGCGGCCGGCAGCGTCAACGCCTCGATGGTCTCCGCTGCCTACGCCCAGATCGGCATCACCCAGGACTGCACCGCCATGGTGGAGAAGGCACTGGGCGCCTCAGGCATCAAGGTTGGTGACCTCGCCCCCATGCAGTTCATGAACTACGGCAAGGTCGTCTCCACGCCCCAGCCCGGCGACATGATTGTCCAGTCCGGCCACGTTGCCATCTTCGTCGGCAACGGCCAGGCGCTCAGCGGCGGCATGAACGGCGTGAACGAGACCATCGTTCACCCGCTGTCTTGGCTGAACGCTACCGGTCCGGTCACCTTTGTTAGGCCCGCAGCCTAG	MSSRTTPARRAAAGRSNPFASASRAVTANAGGLGRKAAVVLAASGLAFTGTMAANAANAPAQKAAAPALAPEAASPAQAPLNASSSVSIAYERPAVKSAPAPVVEEPVIVEKPAVPAAPKVAAAKAPAAAPVAPPAPVAAHAPAAQAPAAAPAPKITVKSAPAPAPAAAGSVNASMVSAAYAQIGITQDCTAMVEKALGASGIKVGDLAPMQFMNYGKVVSTPQPGDMIVQSGHVAIFVGNGQALSGGMNGVNETIVHPLSWLNATGPVTFVRPAA	PGPT0023995_3455	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-17_03695	1026	bioB	COG0502	Biotin synthase	ATGACGATTCAGGCAGGCCCGCCGGTAACCCGGTACGCAATTCTCGAGGCAGCGAGGCAACAGGTTCTCGAGGAGGGCGTGGGGCTCAGCGAAAGCCAGCTCGTGGATGTTCTTCGGCTTCCCGATGAGGCGCTTCCCGCCGCCCTCCAACTGGCACACGAAGTGCGCCTGAAGCACTGCGGCGAGGACGTCGAGGTGGAAGGTATCATCTCGATCAAGACCGGCGGCTGTCCCGAGGACTGCCATTTCTGCAGCCAGTCCGGCCTCTTCGACTCCCCTGTCCGCGGCGTCTGGCTCGACATCCCCGAACTCGTCAAAGCAGCCAAGGAAACGGCAGCCACCGGCGCCACCGAGTTCTGCATCGTCGCCGCGGTCCGCGGTCCCGACATCAAACTCATGAACCAAATCAAGTTCGCCATCGACCGCATCAACGAAGCTGTGGACATCAACATCGCCTGTTCCCTCGGCATGCTCACCCAGCGGCAGGTCGACCAGCTCGCCGAATGGGGCGTACACCGGTACAACCACAACCTGGAAACCGCCCGCAGCTACTTCCCGGAAGTTGTCACAACCCACACATACGAAGAGCGCCTTGAAACCTGCAACATGGTCAAGGACGCCGGCATGGAACTGTGCTGCGGCGCCCTCATCGGCATGGGTGAAACCCTTGAACAGCGGGCCGAACTCGCCGCCCAGCTCGCCGCCCTGGAACCCCACGAAGTGCCGCTGAACTTCCTGAACCCGCGGCCCGGAACCCCGCTGGAAAGCCAGGAGATCATGGACGGCAAGGACGCCCTGCGCGCCATCGCCGCATTCCGGCTCGCCATGCCCCGCACCGTGCTCCGTTACGCCGGCGGACGCGAACTGACCCTCGGCGACCTTGGCACCAGGGACGGACTCCTCGGCGGGATCAACGCCGTCATCGTGGGCAACTACCTCACCACCCTTGGCCGCCCCGCCACGGCAGACCTCAACCTGCTCGTGGAGCTAAACATGCCCATCAAGGAACTCCAGAAGTCGCTGTGA	MTIQAGPPVTRYAILEAARQQVLEEGVGLSESQLVDVLRLPDEALPAALQLAHEVRLKHCGEDVEVEGIISIKTGGCPEDCHFCSQSGLFDSPVRGVWLDIPELVKAAKETAATGATEFCIVAAVRGPDIKLMNQIKFAIDRINEAVDINIACSLGMLTQRQVDQLAEWGVHRYNHNLETARSYFPEVVTTHTYEERLETCNMVKDAGMELCCGALIGMGETLEQRAELAAQLAALEPHEVPLNFLNPRPGTPLESQEIMDGKDALRAIAAFRLAMPRTVLRYAGGRELTLGDLGTRDGLLGGINAVIVGNYLTTLGRPATADLNLLVELNMPIKELQKSL	PGPT0022120_2248	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
D1-17_03696	246			putative protein	GTGAACGAGATTGCGGCTGCCTCGGCCAGCGGGGCAGGCTCAACCAGCGGGAAGTTTTGTGGGCACTGCGGGGAGCCGTCCGACGGCGGCAGCCTCCCGCCGTCGGACGGTCACCGCCGCTGCGGTGAGCTGCTGATGCTGGAGCCGCCGCGGTACTGCCCCGACTGCCGCAGGCGGATGAAGGTCCAGGTGATGCCGCTGGGCTGGCAGGCGGAGTGCTCGCGGCACGGGGCGCTGATCCCGTGA	MNEIAAASASGAGSTSGKFCGHCGEPSDGGSLPPSDGHRRCGELLMLEPPRYCPDCRRRMKVQVMPLGWQAECSRHGALIP				NA	NA	NA	NA	NA
D1-17_03697	1272	bcr_2		Bicyclomycin resistance protein	GTGACGGACACCCCACGATTCCCAACCCCTGGTACGCGGTCCCGAAGCGTCAAGTATGTCCTGATGCTTGGCGCGCTGGCCGCGCTTCCGGCCGTGACAACCGACATGTACCTGCCGTCTTTGCCTGCTGTGGTGGATAATCTCGAAACTACCCAGGCAGCCGCGCAGCTCACGCTGTCCGGAATGCTCGTCGGCGGCGGGATAGGCCAGCTGGTCATCGGCCCGTTCTCCGACCGGTTCGGACGGCGGCTGCCGCTGATCCTCGGCATCTCGCTGCATGTCGTGGCCTCGCTGCTATGCTCCATCACCCCAAACATCGAAACGCTTATTGGGCTCCGCGTCCTGCAGGGCTTCTTCAACGCAGCGGCATCGGTGGTGGCAATCGCCGTCATCCGTGACCGTTTTGTGGGCTCGGCAGCCGCCCGGCTGCTGTCCCGCCTGATGCTGGTGATCGGGGTTGCGCCCCTGTTTGCCCCAACCGTGGGTCAGGCCATCGCCGGTTTTTGGCACTGGCGGGCCGTCTTCTACGCGCTGGCGCTCATCGGCGTGGTCCTGGTGGCCATCGTGGGGAAGTTCATGCCCGAAACGTTGCCGGAGGACAGGCGCAGCACTGGCCGGCCCCGGCACGTTGTCGGCGCATACTGGTCGCTCCTGAGGGACAAACACTTCATGGCCCTGGCCATGATCCCGGGGCTGGGGCTGGGGTTGATCATGAGCTACGTAGTGGGCTCGCCCTTCGTCTTACAGAACCAGTACGGCTTCACTGAGCAGCAGTTCGCCCTCGCTTTCGCACTCAACGGTGCCGCGCTGGTGCTCTCCGCGCAGCTGAACGCGGCGCTGGTCCGCACAATTCCGCCGGTCCGCCTCCTGCGCGCCGCCGTCCTTGTCCAGCTGGTTCTTGCCCTACTGCTGCTGGCGGCGGTGGCCACGGGTGTCGGGGGTGTTTTCGGCCTGGCGGCCGGCCTCTGGCTTGTTCTGGGAGCCCAGGGAATGATTCCCGCCAACGCCTCCGTGCTGGCCCTGCGCAACTACGGACACATGGCGGGAACCGCGGCAGCGGTCATCGGAGCCCTACAGTCGGGGGTGGCTGGACTCGTAAGTCCTTTGGTGGGGCTGCTGGGCGGAAACGCGCTGTCGATGGTCACCGTCATGGTCGGCTGCTGTGTCCTGACGGCGACAGTGCTTGTCGTCGGGACTCCCGCCTACCGAAAGGGTGGCTGGCCCGAGCACGCAGAACGCAGCGGCGACGAGCGGGTCGCTGCAGACGACTAG	MTDTPRFPTPGTRSRSVKYVLMLGALAALPAVTTDMYLPSLPAVVDNLETTQAAAQLTLSGMLVGGGIGQLVIGPFSDRFGRRLPLILGISLHVVASLLCSITPNIETLIGLRVLQGFFNAAASVVAIAVIRDRFVGSAAARLLSRLMLVIGVAPLFAPTVGQAIAGFWHWRAVFYALALIGVVLVAIVGKFMPETLPEDRRSTGRPRHVVGAYWSLLRDKHFMALAMIPGLGLGLIMSYVVGSPFVLQNQYGFTEQQFALAFALNGAALVLSAQLNAALVRTIPPVRLLRAAVLVQLVLALLLLAAVATGVGGVFGLAAGLWLVLGAQGMIPANASVLALRNYGHMAGTAAAVIGALQSGVAGLVSPLVGLLGGNALSMVTVMVGCCVLTATVLVVGTPAYRKGGWPEHAERSGDERVAADD	PGPT0029005_509	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029005-bcr|tcaB-K07552	NA	NA
D1-17_03698	966	yihR_3	COG2017	putative protein YihR	ATGACCACCTCCACAGTAAAAGGCACGCCCGCCACCAAGACCGCGGCGCAGGGCAGAACGGAGTTTGAACTGCGGCACGGCGGCTACGTTGCCGCGGTCACCCTCCGAGGCGCCGCGCTGCGCAGCCTTCGCCACGGGGGACGGAACCTGGTGGTGCCCTTCGAGCCCGGGATCGCAATCCCTGACTACCGGGGAGTCATTTGCGCGCCCTGGCCCAACCGCCTGGCTGGCGGGCGTTACTCCTGGAAGGGCGCTGACATCCAGGTTCCCATCAATGAACCCGGGCGCAACACTGCTTTGCATGGACTCGTGTTCGACAAGGTGTGGTCTGTGGCTGAACGGGACGAATCCTCAGTGACCCTGGCAATGTCGCTCACCCCGGGGGAGGGCTATCCGTTCCCGCTGGAACTGAGGGTGCGCTACTGCCTCAGCGCCGCGGGACTTCAGGGAACTGTCACCGCTGCCAACCCTGGTTCGGCAACAGTCCCCTACGGGGTATGCCCTCATCCCTACCTCATCGCGGGAAGCGCTCCTCTCGACGACTGGTCCCTTGTGGTCCCAGCTGACAGGTTCCTGCGGGTCACCCCTGACAGGTTGCTGCCCGTCGAGGAAGTATCGGTGGAAGGGCACAACTTCGACTTCCGAAAGGAGAAAGTGCTTGGCGGCGTGAAGATCGACCACGCCTTCACCGGCATCAGCAGGGATACTCACGGGACCGCCAGAGTGTGCGTTTACGATCCGTCCGGAACCGGTGTTGAACTGGCGTGGGGAAGAGAGTGGCCTTGGGTCCAGGTCCATACCGGCGACAAGCCATCCGGCCCTGACCGCCTCGGCGTGGCAGTCGAACCTATGACCTGTCCACCCGACGCTTTCAACAGCGGAAGGGACGTGGTGCAGCTGGCGCCGGGCCAGGAGCACGCGGCGAGCTGGTCGATCCGTACGCTGCAGCGCCTCCAGACGAGTTAG	MTTSTVKGTPATKTAAQGRTEFELRHGGYVAAVTLRGAALRSLRHGGRNLVVPFEPGIAIPDYRGVICAPWPNRLAGGRYSWKGADIQVPINEPGRNTALHGLVFDKVWSVAERDESSVTLAMSLTPGEGYPFPLELRVRYCLSAAGLQGTVTAANPGSATVPYGVCPHPYLIAGSAPLDDWSLVVPADRFLRVTPDRLLPVEEVSVEGHNFDFRKEKVLGGVKIDHAFTGISRDTHGTARVCVYDPSGTGVELAWGREWPWVQVHTGDKPSGPDRLGVAVEPMTCPPDAFNSGRDVVQLAPGQEHAASWSIRTLQRLQTS	PGPT0017825_4949	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017825-galK-K01785	NA	NA
D1-17_03699	1470	xylB_2	COG1070	Xylulose kinase	ATGCCACTCGTCGCGGGAATCGACAGCTCCACCCAGTCATGCAAGGTGGTCATCAGGGACGCAGTGACCGGAACGCTCGTCCGCCAAGGCAAGGCGTCCCACCCCTCGGGCACCGAGGTGCATCCCGAGCACTGGTGGAGGGCACTTCAGGAAGCAGTGACTGCGGCGGGCGGCCTCGATGACGTCGCTGCCCTCTCCATCGGCGGGCAGCAGCACGGCATGGTCTGCCTTGATTCCACCGGCGACGTTGTCCGGCCCGCGTTGCTCTGGAACGACACGAGGTCCGCAGACGACGCCCGGGAGCTGATCCTTGAAGCAGGTGCAGGGGATGGGGACCGCGGGGCAGGGTACTGGGCCGAAACCACCGGGACCGTGCCCGTCGCGTCGCTGACCGCCACGAAACTGCGCTGGCTCGCCCGCACGGAACCGCACAACGCCAAGCGTGTCGCCGCCGTTTGCCTCCCGCACGACTGGCTGTCCTGGCGCCTTGCCGGCCACGGGCCCGGATCCGGACCGGATTCCCTCGACGAACTTCGCACCGACCGCTCCGACGCCTCCGGCACCGGCTACTACTCCGCCGCCCGCGGCACCTATCTGCCCCATGTCCTGGAGCAGACGCTCGGGCACGTCCCTGTCCTGCCTGTAGTCGCGGCTCCGCTGGAAGCTGCAGGAAAGACCAGGGGAGGGTCGCTGATCGGCCCGGGCGCCGGGGATAACGCGGCCGCGGCCCTCGGCGTCGGCGCCGGACCGGGCGACGTCGTGATCTCCCTGGGCACCTCGGGCGTAGTGCTGGCCGTGTCGTCGGCCCCGTCCGCCGATGCTTCGGGACTCGTTGCCGGTTTCGCGGATGCCACCGGCAACTTCCTGCCCCTCGCCTGCACGCTGAACGCGACACGCGTTTTCGACGTGACCGCACAGCTCCTGGGCACTGATCTGCCCGGCCTGGGGCAACTCGCCCTTTCTGCCCCGGCAGGTGCGGGAGGGCTGACGCTCATCCCGTACCTCGAGGGCGAACGGACCCCGAACCTGCCCGACGCCAGCGGCTCCCTGCACGGAATGACCTTGACCAACTACACACCGGCAAACCTCGCACGCGCCGCCTTCGAGGGCGTCCTCTGTTCCCTGGCAGACGGCCTTGCAGCACTCCAGGCGCAGGGAGTGGAAGCGGAAAGGATCATCCTCGTCGGCGGCGGAGCGCAGTCTCCAGCGGTGCAGCAGATAGCGGCCGAAGTCTTAGCCCGGCCGATCATCATTCCCACTCCCGGCGAGTACGTGGCGAACGGCGCCGCGCGTCAGGCCGCTGCTGTCCTCACCGGCGAATTCCCGGACTGGATCTTGGACGCAACAAAGATTTCCCTGCCCGCCGCGCACCGGCCAGCAGGCAAGCACGGGCAAGGGGACAAGCAGACAGGGGAGGTGCTCGCCCGCTACCGCCGGTGGACGAAAGCGGCCCACCCTTCCCTCCGTTAG	MPLVAGIDSSTQSCKVVIRDAVTGTLVRQGKASHPSGTEVHPEHWWRALQEAVTAAGGLDDVAALSIGGQQHGMVCLDSTGDVVRPALLWNDTRSADDARELILEAGAGDGDRGAGYWAETTGTVPVASLTATKLRWLARTEPHNAKRVAAVCLPHDWLSWRLAGHGPGSGPDSLDELRTDRSDASGTGYYSAARGTYLPHVLEQTLGHVPVLPVVAAPLEAAGKTRGGSLIGPGAGDNAAAALGVGAGPGDVVISLGTSGVVLAVSSAPSADASGLVAGFADATGNFLPLACTLNATRVFDVTAQLLGTDLPGLGQLALSAPAGAGGLTLIPYLEGERTPNLPDASGSLHGMTLTNYTPANLARAAFEGVLCSLADGLAALQAQGVEAERIILVGGGAQSPAVQQIAAEVLARPIIIPTPGEYVANGAARQAAAVLTGEFPDWILDATKISLPAAHRPAGKHGQGDKQTGEVLARYRRWTKAAHPSLR	PGPT0017535_3676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017535-xylB-K00854	NA	NA
D1-17_03700	1188	xylA_2		Xylose isomerase	ATGAACCTCACCCCCACTCCCGAAGACCGCTTTACTTTTGGCCTGTGGACCGTCGGCTGGACCGGCGCGGACCCCTTCGGCGTCGCTACCCGTGCCGCGCTTGACCCGGTTGAAGCCGTCCACAGGCTTAGTGAAATCGGCGCATACGGCATCACGTTCCACGACAACGACCTGATTCCGTTCGACGCCACGGCCTCAGAGCGCGAGCTGATCCTGAAGAACTTCACCGCGGCGCTGGCCGAGACCGGCCTGAAGGTCCCGATGGTCACCACGAACCTCTTCAGCCACCCGGTGTTCAAGGACGGCGGCTTCACCTCCAACGACCGTTCCATCCGCCGCTACGCATTGAGCAAGGTGCTGCGCAATATCGACCTCGCCGCCGAGCTCGGCGCCGAGACGTTCGTGATGTGGGGCGGACGCGAAGGCAGCGAATACGACGGGTCCAAGGACCTCTCCGCCGCCCTGGACCGGATGAAGGAAGGCGTCGACACCGCAGCGGCATACATCAAGGACAAGGGCTACGGCCTGCGCATCGCCCTGGAGCCCAAGCCGAACGAGCCCCGCGGTGACATCTTCCTCCCCACCGTCGGACACGGGCTGGCCTTCATCGCCCAGCTCGAACACGGCGACATCGTGGGCCTGAACCCCGAGACAGGCCATGAACAGATGGCCGGGCTCAACTTCACGCATGGCATCGCGCAGGCGCTGTGGGCCGGCAAGCTCTTCCACATCGACCTCAACGGCCAGCGCGGCATCAAGTACGACCAGGACCTCGTTTTCGGCCACGGCGACCTCACCAGCGCCTTCTTCACGGTGGACCTGCTGGAGAACGGCTTCCCCAACGGCGGACCCAGGTACGACGGCCCGCGCCACTTCGACTACAAGCCCTCCCGCACCGACGGCTACGACGGGGTCTGGGAATCGGCGAAGGCCAACATGGCCATGTACCTGCTGCTGAAGGAGCGCGCCCTCGCCTTCCGCGCCGACGCGGAGGTGCAGGAGGCCCTCAAGACCTCGGGCGTGATCGAACTCGGCGAGCCGACCCTCGCTGCAGGCGAATCGGCCGCGGACCTGCTGGCGGACGCCAGCGCCTTCGAAAACTTCGACGCCGACAAGGCCGCCGAGCGCTCGTTCGCCTTCGTCCGCCTCAACCAGCTCGCCGTCGAGCACGTGCTCGGCGCGCGCTGA	MNLTPTPEDRFTFGLWTVGWTGADPFGVATRAALDPVEAVHRLSEIGAYGITFHDNDLIPFDATASERELILKNFTAALAETGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRYALSKVLRNIDLAAELGAETFVMWGGREGSEYDGSKDLSAALDRMKEGVDTAAAYIKDKGYGLRIALEPKPNEPRGDIFLPTVGHGLAFIAQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAGKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPRYDGPRHFDYKPSRTDGYDGVWESAKANMAMYLLLKERALAFRADAEVQEALKTSGVIELGEPTLAAGESAADLLADASAFENFDADKAAERSFAFVRLNQLAVEHVLGAR	PGPT0017550_1626	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017550-xylA-K01805	NA	NA
D1-17_03701	1140			dTDP-3,4-didehydro-2,6-dideoxy-alpha-D-glucose 3-reductase	GTGGGCAAGCCGCTAAACGTAGGAATCATCGGCTGCGGGGCGATCATTGCCCAGTACCTCGCCAGCCTCCGCCGGCTCCAGGACAACAACCTCATCAACCTCGTGGCGGTCGCAGACCTCGACCACACCCGCGCCCAGGCGGTCGCGGAGGGCTATGAGGGCGTCTGTGCCCTCAGCGTCGACGGGCTCCTGGCCGCGAACGACGTCGAGCTCGTGCTGAACCTGACCATTCCGGCCGCGCACGCCGAGGTCGCGCTCAAGGCGATCGCCGCCGGAAAACATGTCTACGGCGAAAAGCCGCTGGCGGCGACCACCGCCGAAGCACGGGAGGTGCTGGACGCCGCCACGGCAGCCGGCGTCCTCGTCGGCTGCGCCCCGGACACGGTGCTGGGCACCGGCATCCAGACGGCCCGCAAGGCCATCGACGACGGTTTGATCGGGCGGCCGATCTCCGCCACCGCCACCATGGTCACGCCAGGGCATGAACGCTGGCACCCGAACCCCGACTTCTACTACCGGCCCGGCGGCGGCCCCCTGCTGGACATGGGCCCCTACTACGTTTCGGCCCTGGTCACACTGCTCGGCCCCGTCATTTCGGTGATGGGCGCCGCCAGCCACACCCGGACGGAACGGACCATCGGTTCGGGACCCCGCGAGGGCGAGACCATTCCGGTGACCACTGACACCCACGTCACCGGCGTGCTGGTACACGCCTCCGGCGCCCTGTCCACGCTGGTGATGAGCTTCGACGCCGTGAAGACCAAGAGCTCCAACATCGAGATCCACGGGGATCGTGGCTCCCTGGCCGTGCCCGACCCCAACCATTTCGACGGCGACGTGCAGCTGTTTCCGCTCGGCGGCACCGAGTGGCAGACCTTGCCTGTATCTGCCGGATATGTTGACTCCGGAAGGGGCTTCGGCATCGCCGACCTCGCCGGTACTCCCAAGGGACAGGAACCCCGGGCCGGTGGCATGCTGGCCTTCCACGCCCTCGACATCATGGAAGGCGTCCTTAAATCGGCGCACAGCGGGCACACGGTGCCCATTACCAGCAGCGCAGACCGGCCAGCCGCCGTCGAACTCGCCACCATCGCCCGGGAAGTCCAGACAACGGCCACAAACTACGCGGCAAGGCAGTAA	MGKPLNVGIIGCGAIIAQYLASLRRLQDNNLINLVAVADLDHTRAQAVAEGYEGVCALSVDGLLAANDVELVLNLTIPAAHAEVALKAIAAGKHVYGEKPLAATTAEAREVLDAATAAGVLVGCAPDTVLGTGIQTARKAIDDGLIGRPISATATMVTPGHERWHPNPDFYYRPGGGPLLDMGPYYVSALVTLLGPVISVMGAASHTRTERTIGSGPREGETIPVTTDTHVTGVLVHASGALSTLVMSFDAVKTKSSNIEIHGDRGSLAVPDPNHFDGDVQLFPLGGTEWQTLPVSAGYVDSGRGFGIADLAGTPKGQEPRAGGMLAFHALDIMEGVLKSAHSGHTVPITSSADRPAAVELATIAREVQTTATNYAARQ				NA	NA	NA	NA	NA
D1-17_03702	735			hypothetical protein	TTGAGCATCACCTACACAACCAACAAGGAAACCATGACACGCGAGAACAAGACTGCTTTGGTGGTGCGCGGCGGCTGGGACGGACACCAGCCCATCGAAGCCACCGAGCTGTTCATCCCCTACCTGAAAGAGCAAGGCTACAGCGTCAGGGTGGAGGAATCACCCAAAATCTATGCCGACGCCGGATACATGGCGGGCGTGGACCTGATCGTCCAGTGCATGACCATGTCCACCATCGAGAAGGACGAATTCGAGGGACTGCGGACCGCTGTTGAGAACGGCACGGGACTGGCCGGCTGGCACGGCGGGATTGCCGACTCCTACCGCAACACCTCCGATTACCTGCACCTTATCGGCGGACAGTTCGCCTGCCATCCAGGCAAGCACCCGGACGAATGCAAGGGCGAGCAGGCGGACAACTACGTCCCCTACACCGTCACCATGCTCCCGGCCGCCGCCGCGCATCCCATCACCGCAGGCATCGACGACTTCGACCTCGTCAGCGAACAGTACTGGGTGCTGGCGGACGACTACATCGACGTCCTGGCCACCACCACACAAAAGGTCCGCGAATGGGACCCGTGGAACCGCGAAGTGACCTCGCCCGCCATCTGGACCCGCCAATGGGGCAGCGGCCGCATCTTCGTGGCCACCCCCGGACACCGCGTGGAAATCCTCCAGAACACCAACGTCCGCACCATCATCGAAAGGGGCATGCTGTGGGCAAGCCGCTAA	MSITYTTNKETMTRENKTALVVRGGWDGHQPIEATELFIPYLKEQGYSVRVEESPKIYADAGYMAGVDLIVQCMTMSTIEKDEFEGLRTAVENGTGLAGWHGGIADSYRNTSDYLHLIGGQFACHPGKHPDECKGEQADNYVPYTVTMLPAAAAHPITAGIDDFDLVSEQYWVLADDYIDVLATTTQKVREWDPWNREVTSPAIWTRQWGSGRIFVATPGHRVEILQNTNVRTIIERGMLWASR				NA	NA	NA	NA	NA
D1-17_03703	1005			hypothetical protein	ATGACCCGTCCCATCACCCTGTTCACCGGCCAGTGGGCCGACCTGCCCTTCGAAGAAGTGGCCCGCCTCGCCGGCGAGTGGGGCTTCGACGGCCTGGAAATTGCCTGCTGGGGCGACCATCTTGACCCGGAGCGCGCCGTCCAGGATGACGCCTACCTCCAGGGCAGGCTCGACATCCTGGACAAGCACAACCTTAAGGTCCACGCCATTGCCAACCACCTCACCGGGCAGGCGGTCTGCGATGATCCGATCGACGATCGGCACCGTGGCATCCTCTCCCCGGCCATCTGGGGCGACGGCGATCCCGAAGGGGTGCGCGCACGTGCCGCCGAATCCATGAAAGCCACCGCGAGGGCAGCGGCCCGGCTGGGCGTCAAGACCGTCACGGGCTTCACCGGGTCATCGATCTGGAAATGCGTTGCCATGTTCCCGCCGGCTTCCGACGCCATGATCGAGCGGGGCTATACCGACTTCGCGGACCGCTGGAATCCCATTCTGGACGTTTTCGAGGAGACCGGGGTTCGGTTCGCCCTTGAAGTGCACCCTTCCGAGATCGCCTACGACTACTGGACCGCGAAGCGCACCTTGGAGGCAATCGGACACCGGGAAAGCTTTGGCCTGAACTTCGACCCCTCCCACTTCATCTGGCAGGACCTGGACCCGGTGATGTTCCTGCAGGACTTCGCGGACAAGATTTTCCACGTCCACGTCAAAGAATCCGTGCGGCAGCTCAACGGACGCAACGGCCGGCTTGGCTCCCACCTGCCGTGGGCGGACCCGCGCCGGGGCTGGGACTTCGTCACCGCAGGCCACGGCGACGTGAACTGGGAGCCAATCTTCCGCACACTGAACGCCATCGGCTACCAGGGCCCCACCAGCATCGAATGGGAAGACGCCGGCATGGACCGCCTGGTAGGCGCACCGCAGGCGCTGCGCATGGTGAAAGAGCTGGCTGCCATCAGCCCGCCCGCCGCTGCCTTCGACGCCGCCTTCAACACCCGTTGA	MTRPITLFTGQWADLPFEEVARLAGEWGFDGLEIACWGDHLDPERAVQDDAYLQGRLDILDKHNLKVHAIANHLTGQAVCDDPIDDRHRGILSPAIWGDGDPEGVRARAAESMKATARAAARLGVKTVTGFTGSSIWKCVAMFPPASDAMIERGYTDFADRWNPILDVFEETGVRFALEVHPSEIAYDYWTAKRTLEAIGHRESFGLNFDPSHFIWQDLDPVMFLQDFADKIFHVHVKESVRQLNGRNGRLGSHLPWADPRRGWDFVTAGHGDVNWEPIFRTLNAIGYQGPTSIEWEDAGMDRLVGAPQALRMVKELAAISPPAAAFDAAFNTR				NA	NA	NA	NA	NA
D1-17_03704	1224	iolG_7		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAGTGACCGTAAGCCCCTGCGCGTGGGCATGGTGGGCTACGCCTTCATGGGCGCCGCCCACTCCCACGCCTGGCGGACGGCCCCGCGCTTCTTCGACCTGCCGCTGCAGCCGCAGCTGGCTGCCCTCGCCGGCAGGAACGCCGAGGGAGTAAGCGCCGCCGCCGACACATTCGGCTGGGACAGTGCCGAAACCGATTGGCGCCGCTTAATCGAACGGGACGACATCGACCTGATCGACATCTGCACCCCAGGAAATACCCACGCCGAGATCGCCATCGCCGCACTGGAGGCAGGCAAGCACGTTCTGTGCGAAAAGCCACTGGCCAACTCGGTGGAGGAGGCTGAATGGATGACGGCGGCCGCCGATGCCGCAGCGGCCCGCGGTGTTTATTCCATGTGCGGCTTCAGCTACCGCCGTACGCCGGCGCTGGCCCTCGCCAAACGCATGGTCAATGCCGGTCGGCTGGGACAGATCCGCCACGTCCGGGCCCAGTACCTTCAGGACTGGCTCTCCGACCCCCTGGCTCCGCTCACATGGCGGCTGGACAAGGAAAAGTCAGGCTCGGGCTCGCTCGGGGACATCGGTGCACACAGCATCGACGCCGCGCAGTGGATCACTGGCCGTCGTATCACTGGCGTCTCGGCCATGCTCGAAACCTTCGTCAAGGAACGCCCTGTCGGCGGAGAGTTCGTGGGCCTCGGCGGACAGGGCGCGACGGGCGAGCAGCTGGGCCCCGTCACCGTGGACGACGCCGCCATTTTCAGCGCCCGCTTCGAAGGCGGCACCTCAGACGGCGGAACACCCGATGCCGGAGCTTGTGACAGCGGGCCGATTGGTGTCTTCGAAGCCACCCGTTTCGCCCTGGGCAGGAAGAACGCCATGCGGCTCGAGCTCAACGGCACCAAGGGCTCCCTCGCCTTCGACTTCGAGGACATGAATACCCTGTCCTTCTACGACGCAGCCGAAGAACCCGACGCCGGCTTCCGCCGGATCCAGGTCACCGAACCGCAGCATCCCTATACCGGGAACTGGTGGCCGGCCGGCCACGGCCTGGGCTACGAGCACGCCTTTACCCATCAGGTGGTGGACCTCGTGACCGCGATCAACGAGGGCCGCCAGCCATCGCCATCGTTCGCCGACGCGCTGCAGGTGCAAAAGGTCCTCGCCGCTGTCGAAGCCAGTGCCTCAGACGACAGCCGTTGGCAGAAAGTTCCGTCATGA	MSDRKPLRVGMVGYAFMGAAHSHAWRTAPRFFDLPLQPQLAALAGRNAEGVSAAADTFGWDSAETDWRRLIERDDIDLIDICTPGNTHAEIAIAALEAGKHVLCEKPLANSVEEAEWMTAAADAAAARGVYSMCGFSYRRTPALALAKRMVNAGRLGQIRHVRAQYLQDWLSDPLAPLTWRLDKEKSGSGSLGDIGAHSIDAAQWITGRRITGVSAMLETFVKERPVGGEFVGLGGQGATGEQLGPVTVDDAAIFSARFEGGTSDGGTPDAGACDSGPIGVFEATRFALGRKNAMRLELNGTKGSLAFDFEDMNTLSFYDAAEEPDAGFRRIQVTEPQHPYTGNWWPAGHGLGYEHAFTHQVVDLVTAINEGRQPSPSFADALQVQKVLAAVEASASDDSRWQKVPS				NA	NA	NA	NA	NA
D1-17_03705	900	dasC_2	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGGCCGCAACCACACAGCTCGCCGCTCCTCCCGCCGAGCCGGTCACCAGCAGCGAGCGCGTCACGCGCCGCGGCAAGGGTCCCGGAATGCGGCCCAACATTATCGGTTCGTTGGGCGGTTGGTTCTGGCTCGCCGTCATCATCCTGCCCGTCTACTACGTCGTCATTACGAGCCTGAAAGACCAGGCTGGGTTTTTCACAACCAACCCGATGATGCCGCCCACCGAACCCACGCTGGGCAATTACAAACTGGTTCTTGAGCAGGACTTCGTCAAGTATTTCGCCAACAGCCTGATCGTCACCGTTGGCAGCGTGATCCCCGCCCTGCTGGTGTCCTTCATGGCTGCGTACGCGATCGTTCGCGGCAGCGGCTGGTTCATCAACTCCACGAACAAGCTTTTTCTGCTGGGGCTGGCGATCCCGCTGCACGCCACGATCATCCCGATTTACTGGATGATTACACGCGCCCAGATGTACGACACCCTCCTGGCCCTAATTTTGCCCTCGATTGCTTTCGCCATTCCGATCTCAGTGCTGATCCTGTCCAACTTCATGCGGGATGTCCCCAACGAACTGTTCGAATCAATGCGGCTGGACGGATGCAGCGACTGGACCATGATGTGGCGGCTCGCGCTGCCGCTGATGCGCCCGGCGGTGGTGACTGTGGGAATCTACAACGCCCTGCACGTCTGGAACGGCTTCCTCTTCCCGCTCATCCTCACCCAAAGCCCCGCCACCCGCGTGCTGCCGCTTTCGCTGTGGACGTTCCAAGACGAATTCACCGCCAACATCCCGGCCGTGCTGGCCTCGGTGGTCCTGGCCACCCTGCCGCTGCTGGTGCTCTACGTCGTTGCCCGCCGCCAGCTGCTTAGCGGCCTGACCGCGGGGTTCAGCAAGTGA	MAATTQLAAPPAEPVTSSERVTRRGKGPGMRPNIIGSLGGWFWLAVIILPVYYVVITSLKDQAGFFTTNPMMPPTEPTLGNYKLVLEQDFVKYFANSLIVTVGSVIPALLVSFMAAYAIVRGSGWFINSTNKLFLLGLAIPLHATIIPIYWMITRAQMYDTLLALILPSIAFAIPISVLILSNFMRDVPNELFESMRLDGCSDWTMMWRLALPLMRPAVVTVGIYNALHVWNGFLFPLILTQSPATRVLPLSLWTFQDEFTANIPAVLASVVLATLPLLVLYVVARRQLLSGLTAGFSK	PGPT0016340_238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
D1-17_03706	903	araP	COG1175	L-arabinose transport system permease protein AraP	GTGGCTTCAATGACAAGCACCCGCCGGCGGGCCCTGAGCAAGGGCCCGTCGGGGTGGCTGGCCGCCCCGGCGCTCGTGTTCTTCCTGGTCTTCGCCGTGATCCCGCTCGCCGGGGTTCTCTTCCTCAGCTTCACCAGCTGGGACGGCTTGGGTGAAATCAGGCTGGACGGCATGAGCAGCTGGGCCGCAGTCCTGACCGATCCCGTGACGGGGAACGCGTTAGTGGTAACTGCCAAAATCATCGTTTTCTCTTTCATTGTCCAGGCGCCCATCAGTTTGCTGCTCGGAGTCTTCACCTCGGGGGCGCAGAAGTACCGCGCTGCCCTTGCCGTGCTGTACTTCGTTCCGCTGCTGCTCTCGTCTGCAGCTGTGGCGATCGCCTTCAAGGCCCTCCTGGATCCCAACTTCGGGATGGGGCCCGGGCTCGGTGTCCCCGCCCTTACCCAAGACTGGCTTGGCAATTCGGATTTGGTGCTGTTCGTGGTGGTGTTCGTGATCGCCTGGCAGTTCGTGCCCTTCCACACGCTCATCTACCAAGGCGGCGTCCGGCAGATCCCCACCTCCTTGTATGAGGCTGCGCAAATTGACGGGGCGGGCCGCATCAAGCAGTTCTTCCACGTCACGCTGCCGCAGCTGAAGTACACGATGATCACCTCCTCCACACTCATGGTGGTTGGCTCCCTTGCCTACTTCGACCTGGTCTTCGTCCTGACAGCCGGTGGCCCCGGTTATTCCACCCGCCTGCTTCCGCTGCATATGTACCTCACGGGTTTCAAGGCCAACGACATGGGCGCGGCCAGCGCCCTGGGCGTCATCCTGGTCGTGATCGGCCTCGTCCTGGCCCTCCTTCTGCAGCGGATCGGCGGACGCAACCGTAGTGCAAGCCAACTCGAAGGAGCCTGA	MASMTSTRRRALSKGPSGWLAAPALVFFLVFAVIPLAGVLFLSFTSWDGLGEIRLDGMSSWAAVLTDPVTGNALVVTAKIIVFSFIVQAPISLLLGVFTSGAQKYRAALAVLYFVPLLLSSAAVAIAFKALLDPNFGMGPGLGVPALTQDWLGNSDLVLFVVVFVIAWQFVPFHTLIYQGGVRQIPTSLYEAAQIDGAGRIKQFFHVTLPQLKYTMITSSTLMVVGSLAYFDLVFVLTAGGPGYSTRLLPLHMYLTGFKANDMGAASALGVILVVIGLVLALLLQRIGGRNRSASQLEGA	PGPT0016335_1596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
D1-17_03707	1320			hypothetical protein	ATGAAATTTCGGAGACTGCACACCGCAGCTACGGCCCTCACAGCCGGTGCCCTTGTTCTTTCCCTCGCCGCCTGCGGTTCGAGCGGGCCGTCCGGCGGTTCCGTCAGCGCCGACTCTGCCACCATGTGGGGACTCACGGGAGGCAACCAGGCGTCCCTGCAGAATTCTGTTGACGCATGGAACAGTGCCCACAGTGATCAGAGCATCAAGTTGGAGTTCTTTGCCAACGATGCCTACAAGACCAAGGTCCGCACCGCAGTCGGTGCCGGACAAGGCCCGACCTTCATCTACGGATGGGGCGGCGGCGTGCTCAAGTCCTACGTCGACGCCGGGCAGGTTGAGGACCTCAGCGCCTTCCTTGAGCAGAATCCGCAGGTGAGGGACCGTTACCTGCCGTCGGTGCTGAAGAATGGCGAGATCGACGGCAAGACGTACGCCCTCCCCAACAACAACGCCCAGCCAGTGGTGCTCTACTACAACAAGGAAGTGTTCGACAAGGTCGGAGCCCAGCCGCCAAAGACCTGGGACGAGCTGATGGCACTGGTGCCGAAGTTCAAGGCGGCAGGCATTGCCCCGTTTTCGCTGGCCGGCCAGTCTAAATGGCCGAACCTGATGTGGCTTGAGTACCTGGTTGAGCGCATCGGCGGGCCCGAAGTCTTCGCAAACATTGCTGCGAACAAGCCCGGCGCATGGTCTGATCCGGCCGTCGTGGAGGCGTTGACCAAGATTCAGGAACTGGTCGATGCGGGCGGGTTCGTCAACGGTTTCTCCTCCATCGCCGCCGACAGCAGTGCCGACCAGGCTCTTATGTACACGGGCAAAGCCGCCATGATCCTGCAGGGCGGCTGGATCTACCAGGGCATGAAGAAGGACGCTCCGGACTTCGTGAGCAGCGGCAAGCTCGGTTTCACCGCGTTTCCCACCGTATCCGGTGGCAAGGGTCATCCGGCGAATGTCGTTGGCAATCCGTCGAACTTCTGGTCCGTTTCCTCCAAGGCCACGGAGTCCCAGAAAGAAGCGGCATTGAACTACATCAAGGACGGCATGTTCACTGAAAAGAACACCCAGGACCTGATCGACTCCGGTGCTGTGCCGGTGATCAAGGGCATCGAGTCCAAACTCGAAGCATCCCCGGACAAGGACTTCCTGACCTTCGCCTATGGCCTGGCGAAGAACGCGCCCGACTTCACCATGTCCTGGGACCAGGCACTTAGCCCCGCCCAGGGAGACGCCATGCTGTCGAACCTGGACCAGATCTTCCTGAAGAAGATCACCCCCCAGCAGTTCGTCGACACGATGAACGCGACCGTGGAGAAGTAA	MKFRRLHTAATALTAGALVLSLAACGSSGPSGGSVSADSATMWGLTGGNQASLQNSVDAWNSAHSDQSIKLEFFANDAYKTKVRTAVGAGQGPTFIYGWGGGVLKSYVDAGQVEDLSAFLEQNPQVRDRYLPSVLKNGEIDGKTYALPNNNAQPVVLYYNKEVFDKVGAQPPKTWDELMALVPKFKAAGIAPFSLAGQSKWPNLMWLEYLVERIGGPEVFANIAANKPGAWSDPAVVEALTKIQELVDAGGFVNGFSSIAADSSADQALMYTGKAAMILQGGWIYQGMKKDAPDFVSSGKLGFTAFPTVSGGKGHPANVVGNPSNFWSVSSKATESQKEAALNYIKDGMFTEKNTQDLIDSGAVPVIKGIESKLEASPDKDFLTFAYGLAKNAPDFTMSWDQALSPAQGDAMLSNLDQIFLKKITPQQFVDTMNATVEK	PGPT0016330_1182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
D1-17_03708	1038	ccpA_5	COG1609	Catabolite control protein A	GTGTCCCTCTCGACACCTCCCAAGAAGATGACCCTGGCGGCTATTGCCAGGCTCACGGGAGTCTCCACGCCTACCGTCTCGAAAGTCGTGAACGGCCGTGAGGATGTGGCGGAGGAAACCCGCGCAAAAGTCCTGGCCGCACTCGTGGATGCCGGCTACCAGTCCCCTATGCAGCGGCGGGTCGTCTCTCCCGAGCCCTCAATCGTCGAAGTCACTTTCGATGCCTTCACGCCGGCCTACTCGACAGCCGTCCTCAACGGGATCCTGGAATACGCGGCATCCGTGGGCGTGGAGATCCTCATGAGCACCACCAGCAGCGGGCCAGTACCCGGATTGACCCCGGAACGGCGGGCGGAGCGAATGATTGCCCACGGCAGGATAGGGCTCATCCTCGTAACTTCCGACTTCAGTGAGGCGCAGCTGACAGCCCTCCGGCGGCGGAACATCCCGGTGGCCGTAGTTGACCCCCTCAATCCTCCGCCACCGGATGTTGTCAGTGTTGGCGCCACCAACTGGGCAGGAGGCAAGGCCGCCGCGGAGCATCTGGTCAGGCTGGGACACAGGGACATTGCCTATCTGGGCGGGCACGAGACGGCCGAGTGCAACCAGGCCCGCCTCCACGGCTACATGTCCGCTCTGGCGTCCGGGGGCGTGCAAGTAAACGCTGACTACATCATTCATGGAAAATTCAGGACCCATCACGGCATAGAAGGGCTCCGGCGGCTGCTTGCGCTGCCGAAACGCCCGACGGCGATCTTTGCCGGCAGCGACAGCGTTGCTGTTGGTGTGCTCCGGGAAGCCCGCCAACACGGCATTCGCGTACCGGAAGACCTCAGCCTGGTAGGTTTCGACGGGACGGCGTTGGCTGAGGACGCAGTGCCGTCCCTGACCTCCGTTTCCCAACCCCTGCACGAAATGGGACGGGCAGCCTTGCGCGCCGTCCTGAGCCAGGCCCGGGGGGAAGTGCTTGACTCCCACCGCGTTGAACTTGCTACCCAACTCGTGGTTCGCGAATCCACTGCCGCCCCGCCGGCCTGA	MSLSTPPKKMTLAAIARLTGVSTPTVSKVVNGREDVAEETRAKVLAALVDAGYQSPMQRRVVSPEPSIVEVTFDAFTPAYSTAVLNGILEYAASVGVEILMSTTSSGPVPGLTPERRAERMIAHGRIGLILVTSDFSEAQLTALRRRNIPVAVVDPLNPPPPDVVSVGATNWAGGKAAAEHLVRLGHRDIAYLGGHETAECNQARLHGYMSALASGGVQVNADYIIHGKFRTHHGIEGLRRLLALPKRPTAIFAGSDSVAVGVLREARQHGIRVPEDLSLVGFDGTALAEDAVPSLTSVSQPLHEMGRAALRAVLSQARGEVLDSHRVELATQLVVRESTAAPPA	PGPT0017992_4356	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03709	594	gpmB		phosphoglycerate mutase GpmB	ATGGAAGGCGTGACCCTTACGACGTTTGCCCTCATCCGCCATGGCCAGACCGACTGGAATGCGCAGCGCCGCCTGCAAGGCTCCACCGATATTCCGCTGAACGCCGTCGGCCGCCAGCAGGCGCGCGACGCCGTCGCCGTCCTGTCCGGGTACGAGTGGGACGCGATCGTCTCCTCACCCCTGAGCCGCGCCGCGGAAACTGCAGACCTGATTGCCGAGGGGCTGGGACTTAGCGTTACCCGCCGGATTCCGGAGCTCACCGAGCGCAGCTTCGGACCGGCGGAGGGGATGCAGGACGGTCCCGAGCTGGATGCCCTGCGTATTCCTGGCGGTTTCCGCGGTGCTGAGAGTGAGGACGAGGCCGCCACCCGCGGGCTCGCCGCACTGGAGGCACTGGCCGAAGAGTTCCACGGGCGCCGCCTCCTGGTCGTAGCCCACGGCACGCTCCTCCGGGTGAGCCTCAGCCGCGCCGTGGGCCGGACCCTCCAAAGCGTCGATAATGCCGTGCTCAACCTTGCCCATCATCACGCCATTGAGGGCTGGCAGCTCGAGTACTTCAACGGGGAACCTGTCCTGGCAGCCGCCCACGACTGA	MEGVTLTTFALIRHGQTDWNAQRRLQGSTDIPLNAVGRQQARDAVAVLSGYEWDAIVSSPLSRAAETADLIAEGLGLSVTRRIPELTERSFGPAEGMQDGPELDALRIPGGFRGAESEDEAATRGLAALEALAEEFHGRRLLVVAHGTLLRVSLSRAVGRTLQSVDNAVLNLAHHHAIEGWQLEYFNGEPVLAAAHD	PGPT0002590_60	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-UNCHARACTERIZED_PHOSPHATASE,PGPT0002590-phoE-K15640	NA	NA
D1-17_03710	735			hypothetical protein	ATGCTGCGTCTGAAGCGCCTTGCAGTTCTGATCATTTTCGCCTTCTGCGTCATCACCGGGTTCTCCTTCTGGATTCTGGCCAAGCACCGCGTTCAGTCCGCGCCCCCACAGGCGACAGCCGTGTTTGCGGCGCTTGCGGCCGACAGCGCCCATGCCGTGAATATCAGTAAGAGCACCATCAACCGCCGGTGGCTTACGAGGACTGCGGAGCAGACCGGCATACCGCCGCGGGCGCTTCAGGCCTACGCCGCCGGAGCCGCCTTGGCCAACGCCACCGCCCCGGCCTGCAGGATTGGCTGGAACACGGTCGCCGCCGTCGGATTTATCGAAACTGCCCACGGCACTCATGGCGGCGGACAGCTCACTGCCTCCGGGCACCCGAGCCGGTCCATCATCGGCCCCAGCCTGAACGGTGATGGGTTCGCCGCCATCGCGGACTCGGACGCCGGCGCCCTGGACGGCGACGCAGTCTGGGACCGCGCCGTCGGGCCCATGCAGTTCATCCCCGGCACCTGGCGGCAGGCAGGGCGGGACGCGAACGGGGACGGGACGGCCGATCCCCACAACATCGACGACGCCGCCCTCAGTGCTGCCTCGTACCTGTGCGCCGGCGGCCGTGATCTCACCACGGACCAAGGGTGGGCGGACGCCATTTACTCCTACAACCAGTCCGAGTCTTATCTTGGAAAGGTGCGCGAGCAGGCCCGGGAGTACGCCGAGGCTGCCGCGGGCTGA	MLRLKRLAVLIIFAFCVITGFSFWILAKHRVQSAPPQATAVFAALAADSAHAVNISKSTINRRWLTRTAEQTGIPPRALQAYAAGAALANATAPACRIGWNTVAAVGFIETAHGTHGGGQLTASGHPSRSIIGPSLNGDGFAAIADSDAGALDGDAVWDRAVGPMQFIPGTWRQAGRDANGDGTADPHNIDDAALSAASYLCAGGRDLTTDQGWADAIYSYNQSESYLGKVREQAREYAEAAAG				NA	NA	NA	NA	NA
D1-17_03711	303			hypothetical protein	GTGGCAACCGATTACGACGAAGTACGCTCCGACGTCAAAGAATCACAGGAAAACTCCCTTGAGGCCCTGCAATCAGCGAACGCTCCGGATGCCCGCAGCGTAGTCCGCGAACTGGATGAAGCGGATGCCTTGGATGATGCAGTCATCCCCGGCGGCGAGTTCGTCGCCGAGGAACTCGTTGTTCAGGTAATCCCGCAGGGGCAGGACGAATTCACCTGCTACTCCTGTTTCCTGGTCAGGCACCGCTCGCAGATTGCACGTGAAAAGAACGGCCACGCTTACTGCGTGGAGTGCGAGGGCTAA	MATDYDEVRSDVKESQENSLEALQSANAPDARSVVRELDEADALDDAVIPGGEFVAEELVVQVIPQGQDEFTCYSCFLVRHRSQIAREKNGHAYCVECEG				NA	NA	NA	NA	NA
D1-17_03712	639			hypothetical protein	GTGAAGCAAGGAACGGCCGGCAGCAATGGGCGGGCTGACAGCATACGGATAGTGCCGGCAAACGAAGCGCTCTGGGATGACCTGCAGGCTGTCATGGGAACGCGGGGGGAGGCGTCCCGCTGCCAGTGCCAGTGGTTCAAGATCCGGGACAAGGATTGGGCTTCCGTTCCCGTCCAGGAACGGGCGGCGCGGCTCCGCACTCAGGCAGGCTGTGGAAACCCAGCCGCCCGCACTACCAGCGGCCTAGTCGCCTATGCTGACGGCGAGCCCGCGGGCTGGTGTGCCGTGGAACCCCGCACTGCCTACGTGCGGCTGCTGCACGCCCGCGTCCCCTGGGCCGGGCGGGACGAGGACATAACCGATGACACCGTCTGGGCAGTGACCTGCTTCGTCACCCGCACCGGCTTCCGGCGGCGCGGCATCAGCCGCGCCCTGGTGCGTGCCGCCGTCGGATTTGCCCGTGACCGCGGTGCCCGTGCGGTTGAAGGCTACCCGCTCGTGAACCGGCCGGGACAGCAATTCCAGTGGGGCGAGTTGTACGTGGGCAGCCGCAGCACCTTTGCGGATGCCGGCTTCTCCGAGGTCAGCAGGCCCACGCCGCGGCGCGCGGTGATGCGCATCGACTTCCAGGCTGGCTAA	MKQGTAGSNGRADSIRIVPANEALWDDLQAVMGTRGEASRCQCQWFKIRDKDWASVPVQERAARLRTQAGCGNPAARTTSGLVAYADGEPAGWCAVEPRTAYVRLLHARVPWAGRDEDITDDTVWAVTCFVTRTGFRRRGISRALVRAAVGFARDRGARAVEGYPLVNRPGQQFQWGELYVGSRSTFADAGFSEVSRPTPRRAVMRIDFQAG				NA	NA	NA	NA	NA
D1-17_03713	363			hypothetical protein	ATGATTACCCTCGAAGGACGCCAGACCGCTACACCGAGCGCCGCTACCTCTAAGGCCGTCACATCAAACACAGTCCGTGCACTCCGGACCGGCGCAGTCACCGGCCCCGCGGACGAGACCTTTTCGGCAGTGGATATCGGACTGATGGCCACTTTCAGCAGCCGCCTGCACTGCCGCCGGCCCATGCAGATGGTCGATCCTAACGAAGTGTCGCCACGCGAGCCCCTGCAGGTGGGCGGGCTTTCCGATTTTGCCGAGCTTACCGAGCCCGCTCCTGCCGAGCGTCCGGTCACTTACCGCTGCCAGTGCGGCTTCACCATGGACGAGGCCGCCGTCGTGAGCAACTACGCCGTAGCCAGCTAG	MITLEGRQTATPSAATSKAVTSNTVRALRTGAVTGPADETFSAVDIGLMATFSSRLHCRRPMQMVDPNEVSPREPLQVGGLSDFAELTEPAPAERPVTYRCQCGFTMDEAAVVSNYAVAS				NA	NA	NA	NA	NA
D1-17_03714	702			hypothetical protein	ATGAAACATGGATCGAACCCTACTATTCGCGACGTTGCCACCAGGGCACGCGTGTCACTGACCACGGTCTCCTACGTGCTGTCCGGCCGGCATGGCGGCACCACCAGGATCAGCCAGGCTACCCAGGACCGGGTGTTGGCCGCGGCCGCCGAGCTCGGCTATGTGGCCAACCAGGCAGCCCGCGGCATGCGCCTCGGCCGTACAGACAGGATCGCCATCGCCATCAGCGATCTTGATTGGCCGCCCGACCGCGCCATGGCCGCAGCTGCCGCGTCTATTCTGCCGAGGCACGGTTATCAGGCTGTCATCATCCTGGGCCAAGCCTGGCGCCAGTTCATGCTGTCCGGAGGAGCGGACGGGATCATCGTAGGAGTTATTCCGCCGGACATCACCGAGGACGGCACCATCACGGAGCTGGCTAAGCGCGGTGTTGCCCAACTGGTCATCTCGGCGGGCATGCAGCCCGCCGGCTTCGACGTGCTGGTTCCTGGCGTGGCCGATCCGGCCTCATCTGCAGCCGGGGCCGAATCCATCTCGGAACTCGCGGTGGGGATGCTCGTGGACCGGCTGGCCGGAAATGCTCCCTCCGAGGGCGTACGCGTGCCTGCGCCGAGGAGGCTGACGCTGCGGGGATCCTCGCTTAACGTGTACCGCGAGACGCAGCCGGGTGTGGGCGCCTTCACCCGGATCGAACGCACCTAG	MKHGSNPTIRDVATRARVSLTTVSYVLSGRHGGTTRISQATQDRVLAAAAELGYVANQAARGMRLGRTDRIAIAISDLDWPPDRAMAAAAASILPRHGYQAVIILGQAWRQFMLSGGADGIIVGVIPPDITEDGTITELAKRGVAQLVISAGMQPAGFDVLVPGVADPASSAAGAESISELAVGMLVDRLAGNAPSEGVRVPAPRRLTLRGSSLNVYRETQPGVGAFTRIERT	PGPT0014091_278	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|GLUCOSE_PTS_SYSTEM,PGPT0014091-malI-K16136	NA	NA
D1-17_03715	741			hypothetical protein	GTGCCCGCTGAAGAAGATCCCACGTTAGCCCCCGCCCCGCCGGAACCTGAGCAGCGGTCGCTGACCTTTGCGTACGTTGCCGGCGTTACGCCGGGCAAATGGATCCGGCGCTGGGAAGAGCGGATGCCCCACGTCCCGTTGCGCTCCTTCATGTCCGACGTCGGCACGCAGCTTTCCGTCCTCCGCGACGGTTCCGCCGACCTGAGTTTCGTCCGGCTGCCCGTGGACCGGGCCGGCCTAAACGTCATCCCTCTGTACGAGGAACAGCCCGTGGTGGTGGCCCCCAAGGGCCATGAGATCTCGGTTTTCGAGGAAGTGGCCCTTGAGGATCTCGCGGCGGAGACCTTCCTGGACGCCGATGAACTGGGCGGCCCGGAAACCGCCCTGCAGGTGGTGGCTTCGGGGGCGGGCCTGCTGATTCTTCCCATGTCCGTGGCCCGGCACTTCAATGCCAAGGACACTGTGGCCCGGCGGCTCACCGGAGCGCCCGGCACCCGGATCGCGCTCGCCTGGCCCACCGACGCCACGGACGAGGTGATCGAGGAGTTCATCGGCATCGTCCGCGGCAGGACGGCGCAGAGTTCCCGCCAGCCGTCCGCCAAGGTGGAAAAGCCCAGAAAGGAGCCGAAACCGGACCGTCGGGGGAGTGGTGGCGCCAAGAAGCCCAAGGTTGCCCAGCGCTACGCACCGAACCCGGACAAGGGCCGCGGCAAGGGCTCACGAAAAAAGGGAAAGCGCTAA	MPAEEDPTLAPAPPEPEQRSLTFAYVAGVTPGKWIRRWEERMPHVPLRSFMSDVGTQLSVLRDGSADLSFVRLPVDRAGLNVIPLYEEQPVVVAPKGHEISVFEEVALEDLAAETFLDADELGGPETALQVVASGAGLLILPMSVARHFNAKDTVARRLTGAPGTRIALAWPTDATDEVIEEFIGIVRGRTAQSSRQPSAKVEKPRKEPKPDRRGSGGAKKPKVAQRYAPNPDKGRGKGSRKKGKR				NA	NA	NA	NA	NA
D1-17_03716	405			hypothetical protein	ATGACCTCTGCTAACTCCCAGTCCATGAAGCCGGCCACCGTTGCCAAGAAGCTTGGCATCTACCTGCCCGCAACGCCCCAGGAGTTCCAGGATTCAACCATCACGCGCGCTGAGTTCGCGGAGCTGCAGGCCAATCCGCCGGAGTGGCTCGCCGAACTGCGCCGCAACGGCCCGCACCCCCGCCCGGTAGTAGCCCAGAAACTGAACGTCTCCATCAGCGGCCTGGCCCGCGGCGGCGTCGAAGAAGCGCTGACGACGGCGGAAATCACCGCGCTGCTGCAGGCTCCCCCGCAGTGGCTGGTCACCGAGCGCGCCACGCACGCGGCTGTCCGGGCCGAGGCGAAGCGCGTGAAGGAAGATGCGGCCAAGAAGGAAGCCAAAAAATCCCGCGCCAAGGCGGAGTGA	MTSANSQSMKPATVAKKLGIYLPATPQEFQDSTITRAEFAELQANPPEWLAELRRNGPHPRPVVAQKLNVSISGLARGGVEEALTTAEITALLQAPPQWLVTERATHAAVRAEAKRVKEDAAKKEAKKSRAKAE				NA	NA	NA	NA	NA
D1-17_03717	777	fabG_9		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACCCACTACGAAACCTTCCCTGCCCAGCGGACCGCCGTGCTCACCGGTGCCGCCTCCCCACGCGGTATTGGGCGGGCGACGGCGGAAATGCTCGCCAGCGCCGGTTGGTCCGTTGCGATCCTGGACATTGACGGCGACGCGGCGGCGAAGGCGGCGGAGGAAATTGCCGACGTTTACGGCGTCAAGGCTATGGGGGCCGGCGCGGACGTCTCTGACCAAGCGACCGTCAACGCGGCCGTTGACGAAGTCGAAAGGACAATGCCGCCGATCGTCGCGTTGGCCAATCTGGCAGGCATCAGCTCGCCGACAGAGTTCATGGATGAAACGGTGGAGGGCTGGGATCGGGTCTTCAAGATCAATATGACTGGGACGTTCCTGGTGACGCAGCGCGTGCTCAGGGGCATGATTGAGCGAAAACTCGGCCGGGTGGTCAGTGTCTCGTCCATCTCCGCCCAGCGCGGCGGCGGGACCTACTCAAAGGTGGCGTACAGCGCGTCCAAGGCTGCCATTATCGGGTTCACCCGCGCCCTCGCCCGGGAAATGGGCCAGCACGGGATCACGGTTAACTGTGTGGCGCCCGGACCGGTAGACACCGACATCATGGGAGGCACCCTCACGGAGGAGCGCAAGACAGCGATGGCCGCGGACATCCTGGTGGGCAGGGTGGGAACAGTGCGCGACATCGCCGCGCTGATGGTCTTCCTGATGGGCGAGGACGCCGGTTACATCACCGCTGCAACCTACGACATCAATGGAGGCCTGCAAATTTCCTGA	MTHYETFPAQRTAVLTGAASPRGIGRATAEMLASAGWSVAILDIDGDAAAKAAEEIADVYGVKAMGAGADVSDQATVNAAVDEVERTMPPIVALANLAGISSPTEFMDETVEGWDRVFKINMTGTFLVTQRVLRGMIERKLGRVVSVSSISAQRGGGTYSKVAYSASKAAIIGFTRALAREMGQHGITVNCVAPGPVDTDIMGGTLTEERKTAMAADILVGRVGTVRDIAALMVFLMGEDAGYITAATYDINGGLQIS	PGPT0005315_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CYCLOHEXANECARBOXYLIC_ACID_DEGRADATION,PGPT0005315-badH-K07535	NA	NA
D1-17_03718	1380	ttuB_2		Putative tartrate transporter	ATGTCTTCCATGAACCCTGCTAACCAGCTGGATGAGCTTGGCCAGAGGACGTTGCGGCGGGTCCGCGGACGCCTCATGCCGCTGATCGTCCTGCTCTACTTCATCGCGTACCTGGACCGGAACAACGTCGGTTTCGCCAAGCTGACCATGAGCGAGGACATCGGCCTCAGCGCCGCCGCGTACGGCCTGGGCGCCGGCATCTTCTTCCTCGGCTACGCACTCCTCGAGGTGCCCAGCAACGCCGGCATGTATAAGTTCGGAGCGCGGAAGTGGATCGCCCGCATCCTGATCTCCTGGGGCATCTTTGCCACGGCCATGGCGCTGGTCAACGGAGAAGTCACGTTCTACATCATCCGGTTCCTGCTCGGTGCCGCCGAAGCCGGCTTCTTCCCGGCCATGCTGTTCTACCTCACGCTGTGGTTCCCGGCCGCGCAGCGCGTCACCGTCCTGGGTATTTTTATCCTGGCCCAGCCCGTCTCCAATGCCTTGGGCGCACCGGTCTCCGGCCTGCTGCTGCAGATGGACGGCATCTGGGGCCTCCACGGCTGGCAGTGGCTGTACATCATCGAGGGTCTCCCCGCCATCGTCCTCGGCCTGCTCACGCCGGTCCTGATGACCGACCGCCCAAGCCATGCCCACTGGCTGAAGGACGATGAGCGCGAATGGCTGACCAGGACCATGGACGAGGAGCTGGCGCACAAGCAGAAGGGCCAGCCGCACCACTTCCTCGCTGGCCTCAAGGACTCCCGGACCATCGCGTACTCGGCTCTCTACTTCGGTTTGGTCTGCGGAATCTACGGTCTGGGCCTCTGGATGCCGACCATCGTGGCGGCCCTTGGCGAGTTCAGCACTACGGAGGTCGGCTTCATCGTTGCCATCCCGTACACCATCGCAGCGGTCTTCGTGTACTTCTGGGGCAGGCGTTCGGACCGCACGGGCAACCGTGTCATGCATGCCAGCATCAGTATGGTGATGGCGGCCGTTGGCCTGCTGGCCGCCGGTTATCTGGTGCAGGTCAGTGCGGTCCTTTCGATGGTCGCCCTGACCCTTGCGGCCATGGGCATCTACTCCGCCATTGCGCCGTTCCTCGCGATGCCAGCAACCGCCCTGGTGGGTGCTGCGGCGGCAGCGGGCCTGGCCATGGTGAACTCACTGGGTAACCTCGGCGGCTTCGTGGCTCCCTATGCAGTGGGATTGCTCAATGACGCCACGGGCGATAACCGGTCCGGCCTGGTGTTCTTGGCCGCCTGCCTTGGCATTACGGCCATCGCCACGTTCCTTTACGCCCGCAAGCGCCCGGAGGGGCACGTCAAACCCGGTACCCCCGCCACCGTGGGCGAGGAAGCCGTGGCCGCTGACGAGTTCGACATCAGGAGCTGA	MSSMNPANQLDELGQRTLRRVRGRLMPLIVLLYFIAYLDRNNVGFAKLTMSEDIGLSAAAYGLGAGIFFLGYALLEVPSNAGMYKFGARKWIARILISWGIFATAMALVNGEVTFYIIRFLLGAAEAGFFPAMLFYLTLWFPAAQRVTVLGIFILAQPVSNALGAPVSGLLLQMDGIWGLHGWQWLYIIEGLPAIVLGLLTPVLMTDRPSHAHWLKDDEREWLTRTMDEELAHKQKGQPHHFLAGLKDSRTIAYSALYFGLVCGIYGLGLWMPTIVAALGEFSTTEVGFIVAIPYTIAAVFVYFWGRRSDRTGNRVMHASISMVMAAVGLLAAGYLVQVSAVLSMVALTLAAMGIYSAIAPFLAMPATALVGAAAAAGLAMVNSLGNLGGFVAPYAVGLLNDATGDNRSGLVFLAACLGITAIATFLYARKRPEGHVKPGTPATVGEEAVAADEFDIRS	PGPT0002325_27	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-17_03719	1041	ycdX		phosphatase YcdX	ATGGACGCCGTTGACGCACTGAATGAGATTGCGTTCTGGTTGGAACGCAGCGGCGCGCCCACGTTCAAGGTGCAGGCGTTCCGGAAGGCGGCCGGCGTTATAGCGGACATAGAGCCCGATGAACTGGCGGAGCGTGCACGCGACGGCAGGCTGAAGCGGACCAAGGGCATCGGGGACACCACTTTCCAGGTCATCCGGCAGGCAGTCGACGGCGCCGTTCCGGACTATCTCGAGAAGCTCCGGCAGGGCGGCGCCAAACCGTTGGCCACGGGCGGAGACGGACTCCGGGGCCAGCTCCGGGGAGACCTGCACAGCCACAGCAACTGGTCCGACGGTGGATCTACCATCGACCTCATGGCAGACGCAGCACGGCACCTGGGCCGCGAATACCTCGCCCTGACCGACCATTCCCCGAACCTCAAGATCGCCAACGGGCTGAGTGCCGAACGCCTGAACAGCCAGCTTGAGGCGGTGGCGGCAGTCAATGAGGCCTACGCGGGCTCTGGGTATGACGGCCGAGACTTTAGGCTGCTGCGCGGCATCGAGGTGGACATCCTCGAGAACGGCGAGCTGGACCAGACGCCGGAGATGCTGGAGAAGCTCGATGTCGTGGTGGCCAGTGTCCACTCGAAGCTCCGCTCGGACCGCCGCACCATGACGGAACGGATGCTTGCCGGCGTCAGGAATCCTCACACCAACGTACTCGGGCACTGCACCGGCCGTTTGCTGCAGGGCTCCCGCGGAACCCGGCCGGAATCCGAGTTCGACGCCAAGCGGGTGTTCGCCGCGTGCGCGGAGGCGGGGGTCGCCGTCGAGATCAATTCCCGACCGGAACGCCAGGACCCGCCGGACAACCTCATGAAACTCGCCCTTGACGCGGGGTGCCTGTTCAGCATTGACAGTGACGCGCATGCTCCGGGCCAGCTGGACTTCCTGCAGTACGGTGCCGAACGGGCGGAACGCGTCGGGGTGCCGGCGGAACGGATCATCACCACCTGGCCGCTGGAAAGGCTTCTGGAGTGGCTTCGGTCCCGCAATTAG	MDAVDALNEIAFWLERSGAPTFKVQAFRKAAGVIADIEPDELAERARDGRLKRTKGIGDTTFQVIRQAVDGAVPDYLEKLRQGGAKPLATGGDGLRGQLRGDLHSHSNWSDGGSTIDLMADAARHLGREYLALTDHSPNLKIANGLSAERLNSQLEAVAAVNEAYAGSGYDGRDFRLLRGIEVDILENGELDQTPEMLEKLDVVVASVHSKLRSDRRTMTERMLAGVRNPHTNVLGHCTGRLLQGSRGTRPESEFDAKRVFAACAEAGVAVEINSRPERQDPPDNLMKLALDAGCLFSIDSDAHAPGQLDFLQYGAERAERVGVPAERIITTWPLERLLEWLRSRN	PGPT0016200_194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016200-ycdX-K04477	NA	NA
D1-17_03720	486			hypothetical protein	ATGGGACTCGGCCTGCTGAAACGGTTTGCAGCAGGCGGCCCGCGGCGTAGCGTTGGCGGCATGCGACTCAAAATGTGCAGCATCCACGTCAAGGATCCCGCGGCCGCCCACTCGTTTTACACCGGGACTCTCGGCTTCGAGACACTTATGGCGATGCCGGAATATAACCTCTACATCATCAAGGACCCCGGCTCGCGGGGCTCCGGCCAATCGAACCCCGGCCCACAAAACAATGGCGCCGCCGACAGCAGCGTGGGGTTGCTGCTGGAGCCGAGCGACAACCCCATCGCGGCTGCCTACATGAACGGGCTGTACGGGTCCGGTCTCCCGGCCATCGTTTTCGGCGTCCCCGACGTCCGGGCCGAGCATGAACGCCTCACCGCCGCAGGAGTCCGCTTCCAGGGCGAACCCTCGGAGGACCCCTCCGGTATCTCCGCCGTGTTTGATGACGGCTGCGGCAACTACATTCAGCTGCACCAGGACTGA	MGLGLLKRFAAGGPRRSVGGMRLKMCSIHVKDPAAAHSFYTGTLGFETLMAMPEYNLYIIKDPGSRGSGQSNPGPQNNGAADSSVGLLLEPSDNPIAAAYMNGLYGSGLPAIVFGVPDVRAEHERLTAAGVRFQGEPSEDPSGISAVFDDGCGNYIQLHQD				NA	NA	NA	NA	NA
D1-17_03721	678			hypothetical protein	GTGCCCGCCGTGACTGAAGCCGCCCCGTTCGGGGTGCTGACGCTGATCCTCTGGGGTGCCATGCTGGCCGCCGCCGCCGCCTGCACCGTCTTGGCGGTGCGGCATCATGCCGCCACGTCCGACGGCGACCCTTCTGACCCGCTGTTCTGGGACCTTTTCGGAGGGGCGGCCGTTATTGTCCCGGCGCTCCTCATCCCGGCGGTGGCTTCTCCCCCGGCAGGCTTTGCCTTGGCCGCGCTCACCTGCGCAAGCGGCGTCGCCGCTTACAGGTCCAGCCCCAGGGTGCTCAGCTGGTACTCGTCCCGGCGTCAGAGGCGTCAGGAGCTGCGGGACGAACTGCCTGCCCGGCAGGCCGCCGCCATGGTGTTTCACGACGCAGTCCTGCTTCACGATGCAGTGCTGAAACGCTGGCAGCGCTACGAACTGGACCCGGCACTCGCCATCGATTACCCGGACATGTCGGACGTTGCCCGGCCCCAAACCGCAGAGTTCGTGAAGGCGATGCGGGTGGCGGAGCTGCTGCGGACGTCTGGGGCATCCGGGTATCCCTCCGCTGTCGCACAACTTGAGCGGGCGCTCGAGTGCGCCGAGGCAGCGGCGGGCGTGGCACCTGCTGTCTGCCGCGAAACAGCCGCGGGCACCTCAGCCGCGATCCCTTCCGGCCAGCAGAAATGGTAG	MPAVTEAAPFGVLTLILWGAMLAAAAACTVLAVRHHAATSDGDPSDPLFWDLFGGAAVIVPALLIPAVASPPAGFALAALTCASGVAAYRSSPRVLSWYSSRRQRRQELRDELPARQAAAMVFHDAVLLHDAVLKRWQRYELDPALAIDYPDMSDVARPQTAEFVKAMRVAELLRTSGASGYPSAVAQLERALECAEAAAGVAPAVCRETAAGTSAAIPSGQQKW				NA	NA	NA	NA	NA
D1-17_03722	906			hypothetical protein	ATGCGCACCCTTGGAAAACTGCGTGCCGGACTCGGTGCGATGGCCGCAGCGGCGGTGCTGGTCATCACGACGGCGGTTCCGGCCGGCGCGATCACCGGTGATTACGTCGAGGACACCGAACATCCGTTCGTTGGGCTCGTCGTTTTCTACGACAACAAGGGCGCGTTCCACCACCGGTGTTCGGGCGCGCTGCTGACGCCCACCGTGTTCCTGACCGCCGGCCACTGTACTGCCGGCGCCTCCTCAGCGCGCGTGTACTTCCAGCAAGACGCCGGTGCGGGCTGGAGTCCTACGGCAGGGATGGACCCGGATACCGGATACCCGAGCGCCTGCGCACCGGGAACAGAAGGAACTTTGTGCGCGACATCCGACAAGATGTACAACTACGGCTTTACCGGGCTGGACGCGGTTCCCGAGACCAAGGATGCCGGGCTTGTGATCCTGAAGCAGCCCATCGCGCTCAAAGAGTACGGGCGCCTGGCGGCACCGGGAACTCTGGACATGCTGGCCGCCCGACGAGGACAGCAGGAAACGACGTTCACGGCCAGCGGCTACGGGGTTACCGAGGTCAACCCGGTATCCACGACCTCATTTCGGGAACGGCTCATGGCCGAGTCCAAGCTGACAAATCTGACCAGTGCAAGTAACGACGGCTACAACGTCCAAACCAACGGCAACGGCAAGGACCGCGGCGGCACCTGCACAGCTGACTCCGGCGGGCCCCTGTTCTACGGCCCATCTGAGTCAAACATCATCACCGGTATCACCTCGTTCGGACACAACCGTTACTGCAAGGGCACCGGGTTCTCCTACCGCACTGACCGGCAGGAAGTGATCGACTGGATCGCCTCGTCCATGACGGAAAATGAGTTCAGCGAGATCAAGATCGAGCGCATAGCCGGCTAG	MRTLGKLRAGLGAMAAAAVLVITTAVPAGAITGDYVEDTEHPFVGLVVFYDNKGAFHHRCSGALLTPTVFLTAGHCTAGASSARVYFQQDAGAGWSPTAGMDPDTGYPSACAPGTEGTLCATSDKMYNYGFTGLDAVPETKDAGLVILKQPIALKEYGRLAAPGTLDMLAARRGQQETTFTASGYGVTEVNPVSTTSFRERLMAESKLTNLTSASNDGYNVQTNGNGKDRGGTCTADSGGPLFYGPSESNIITGITSFGHNRYCKGTGFSYRTDRQEVIDWIASSMTENEFSEIKIERIAG				NA	NA	NA	NA	NA
D1-17_03723	1788			hypothetical protein	ATGGATAAGGCGGCAGTTGCGGGGACGTTGGAGGGCATCGCGGCATCCTTGGCTGCGTTGGCTGATGTTGTCCGCCGCGGCGGTTTTGGCGCCAGCGCCAGCGCCAGCGCCAGCGCCAGCGCCAGCGCCAGCACCAGCACCAGCGTCGGCGTCGGTGATGCCGCCGCGAACGGTTCGGCCAGGGAGGCTGCTTCGGCTGATCCTGACCCTCTTACGTCTCGGGATCCTTTGCGGAGCCTGGCGGATGCGTGCTTGGACGGGTTGGCGGGGCTGGCCGGGGTGGAAGCACGGATGGCCGCATTGAAGGTTCATTTGACGGACGGGTACGCAGCCGCTGCCGAGGCGCTGGCCGTAGGGGCCGGTTCGGCGCAGGAGCGCAGGGCCCGGGAGATGGCGGTGAGGGCCGAGGTTGCCTGTGCTTTGACGGTGAGTGAACGCAGCGCCGATGCGCTGCTGGGCGAGGCCCGGACCTTGGCGAGGGGGTTGCCGTTGACGCTGGCCGCGCTGGGCGCCGGGAGCATTTCGTGGCAGCACGCGCGGATCCTGTGTGATGAAACAGCCAACCTGGACCCGGTGGCCGCGGCGGCCCTGGAAGCCCATTTCCTGGAGCCCTATTTCCCGGGCCCCTCCGCGCCGGACGCGCCGGGGGCTGGGCGGGGTTGCCTGGCGGGGGATGTGGTGCCGGGCAGGTTCCGGGCCAGGGCGCGTGCCTGGCGGGAGCGGCACCATCCGGTGAGCATCGAAACCCGCCACCGTCGAAGCGCCAGGGACCGCCGGGTGGAGTACCTCCCGGACCGGGACGGGATGGCGTGGCTGTCGGCGTACCTGCCCGCGGACACCGCGGCCGGGATCTGGAACCGGACCAGCGCAGCAGCACGCGGCCTGCAGGGCCCGAAGGAGCCGCGGACGCTGGCACAGCTGCGCGCGGACCTCGCCGCCGGCTGGCTCCTGGCAGGCACCGCCGACGGAATCCCCGCACCCAAAGCCCAGGTCCTGGTCACGGTTCCGGTGCTCTCACTGCTGGGCGCCGGTGAGGAACCGGCCGTGCTGGACGGCTACGGGCCGGTCCCGGCGTCGATGGCCCGGAAGCTGACCGCCGAAGGGGCCACGTCGTTCCTGCGGGTGCTGACCGATCCCCGGGACGGGGCGCCGCTGGAAATCGGGCGCACCGGCTACCGGCTCACGACCCCGATGCGTCAATGGCTGCGGCTCCGGGATGCGCGGTGTTCCTTTCCCGGGTGCAACAACCACTCCCTGGATAACGAAGCGGACCATGTCCTGGCCTGGTCCAACGGCGGCGGCACGGATGTCAGCAACCTCGGCCAGGCATGCCCACGCCACCACCGCCTCAAACACAGCTCGGCGTGGAGGCCGGTCAACGCGGCCCGGGACAGCCCGCCCGGCTGGATCTCACCGGCAGGGCGCTACTACCCCGGCGAACAACAGGACCGGGAACCACCCCACTGGCCCGGTACAGGGCCCGAGGACCTTGGGCGCCTCGAGTGGCCCGACAGCCTCCGACCCGACAACCCGGACTGCCTAAACAGCCTTGAGGAGCCGGACAGGCTTGGCTGGGCGGACAACCCAGACTGGCCAAACGGGCTCGAGGAACCGGACGACCCCGGCTGGCCCCAGGCCCTCGAACCGGACAGAAGTGCCTGGCCGGACAACGGCGGTTGCCCCCAGGTCCCCGAGCCGGACAACATCGAGGGCCTTGACCCACCACCACCGGTGGATCTCCTGCCTGGGGATCCCTTCCCAGAGTGGGCACAATTCACAGCAGCGTAG	MDKAAVAGTLEGIAASLAALADVVRRGGFGASASASASASASASTSTSVGVGDAAANGSAREAASADPDPLTSRDPLRSLADACLDGLAGLAGVEARMAALKVHLTDGYAAAAEALAVGAGSAQERRAREMAVRAEVACALTVSERSADALLGEARTLARGLPLTLAALGAGSISWQHARILCDETANLDPVAAAALEAHFLEPYFPGPSAPDAPGAGRGCLAGDVVPGRFRARARAWRERHHPVSIETRHRRSARDRRVEYLPDRDGMAWLSAYLPADTAAGIWNRTSAAARGLQGPKEPRTLAQLRADLAAGWLLAGTADGIPAPKAQVLVTVPVLSLLGAGEEPAVLDGYGPVPASMARKLTAEGATSFLRVLTDPRDGAPLEIGRTGYRLTTPMRQWLRLRDARCSFPGCNNHSLDNEADHVLAWSNGGGTDVSNLGQACPRHHRLKHSSAWRPVNAARDSPPGWISPAGRYYPGEQQDREPPHWPGTGPEDLGRLEWPDSLRPDNPDCLNSLEEPDRLGWADNPDWPNGLEEPDDPGWPQALEPDRSAWPDNGGCPQVPEPDNIEGLDPPPPVDLLPGDPFPEWAQFTAA				NA	NA	NA	NA	NA
D1-17_03724	1191			hypothetical protein	ATGCTGATCGCGTCCGCTGTCCTCTGCCAGATAGCGCTGAACCTTGCCCGGCCGTTGATTTCCTACAAAGTCCTGGCCTTGGGCGGGGACTCGCTCATCGTCGGCCTGACGTCGGCGTCCTATGCGCTCGTCCCGGTAGCGGCCGCGCTATGGCTGGGCAGGGTATCGGACAGGCGGAGTTCCCTCCGGGGGATCGTCGTCGTGGGGACGTTACTCCTGGCGGCCGGGCCCGTCCTGCTTTCTGCTTCTCCATCACTGCCTGTTGTTGCAGCAGCCAGTGCGGTGCTGGGTCTGGGGCATCTCTGTTTCACGATCGCGGGTCAATCCGCGATCGCCAGGTTCGTCCCCCTCGCCCGTATGGACGCCGCCTTTGGATGGTTTACGGCTTCCTTCTCCGTGGGACAGATGGCCGGGCCGCTGCTGGCGGGCCTCGCTATGGGTGCCGCCGAAGGAGTTGCTTCCGGAGTGAGGCTGGCTGACTCGAATACCGGTCTTCTCATTGCCGGCGCCATCGCCGCCCTCGCCGTTCCCTTCGGATTCGGAACTGGCGTAAAACGGAGACCTCCACACAAGGAGGATGGGAAGCTGCCACCGAGGCCCGGTCGGGACTCGGTGACCTCGCTGCTGCGCTATCCCACCGTGAAGACCAACATGGTGGCAAGCCTGGCACTTTTGGCGACGACGGACATCCTGGTTGCATTCCTCCCTCTGTTGGGCGAGGAGAAAGGGGTTTCCCCTGTTGTCGTCGGCATTTTGCTGGCCACGCGGGCAGCAGCGTCCATCACATCCCGCCTGCTCCTGCCCGTTCTCCTCGTCCGTTGGAGCCGGTCAGGGCTCGTCATCGCAAGCCTTGCCGGCGCAGGAACTACTCTCGCCCTCCTGCCATGGCTGTTCGAACTTCCTTGGACCGCCGGTGGTCTGCTGGTTCTCTGCGGATTCTTCCTGGGCCTCGGGCAGCCGATTACGATGACCCTCATTACCCAGGCTGTTCCACCTGCATCTAGAGGAGCGGCGCTCGCCCTCCGACTGCTGGGCAACCGCGCAGGCCAAGTCACCTTGCCGGCCGCAGCAGGCCTGCTGGCCGCACCCGTCGGGCCCAGCGGAGCACTATGGATGTCCTGCGCCGTGCTAGGCATAGCGTGCCTTCGCCGACCACCCGGCAGGCGTAGAGGGACAAAGGCCGGAGACTAA	MLIASAVLCQIALNLARPLISYKVLALGGDSLIVGLTSASYALVPVAAALWLGRVSDRRSSLRGIVVVGTLLLAAGPVLLSASPSLPVVAAASAVLGLGHLCFTIAGQSAIARFVPLARMDAAFGWFTASFSVGQMAGPLLAGLAMGAAEGVASGVRLADSNTGLLIAGAIAALAVPFGFGTGVKRRPPHKEDGKLPPRPGRDSVTSLLRYPTVKTNMVASLALLATTDILVAFLPLLGEEKGVSPVVVGILLATRAAASITSRLLLPVLLVRWSRSGLVIASLAGAGTTLALLPWLFELPWTAGGLLVLCGFFLGLGQPITMTLITQAVPPASRGAALALRLLGNRAGQVTLPAAAGLLAAPVGPSGALWMSCAVLGIACLRRPPGRRRGTKAGD				NA	NA	NA	NA	NA
D1-17_03725	915	gltC_3		HTH-type transcriptional regulator GltC	GTGCTGAACGTCAGAAGACTCGAACTGCTGCTGGACGTCGTGGAGCTCGGTTCAATAACCGCAGCCGCGGAAAAACACGTGTATTCCCCGTCAGGGGTCTCCCAGCAACTCCGGCGCCTGGAAGCGGAAGTTGGCCAGCCGCTGCTGCAGCGGCAGGCGCGCGGAATGGTGCCGACCGATGCCGGGCACGTCCTCACGGCGCACACCCGGAGAATCCTGCGCCAGATGGCCGCCGCGGAGGCTGATCTAGCTGAAATCGCAGGGCTCAACCGCGGCAGCCTCACCATGGGAACCTTCCCTACCCTCGGGGGTTCCTTTCTGCCGCTCGTCATCAGCAGGTTCAAAGGGCAATACCCGGCGATCGAGTTGCATGTCCGCAGCAGCCGGTTTGATGACCTGATCGAAATGCTCGAAAACGGCCAGGTGGGTATGTCTCTGCTCTGGGATTACGAATGGAACAGAATCAACCCGGAAGACTTCGCACTCACCACCGTCTTTGAAGACGCCACTGCCCTCATCGTGGGCAAGAATCACAAGCTCGCCCGCCGGAAACAGGTGGATATGGCGGATCTTGCCAACGAGGAATGGATTGTTCGGGAAGAGGAACACCCTGTTGTTGAAGTGCTTCACAGGAGTGCGAAGGCGGCAGGATTCGTGCCCCGGATTGCGTTCCATGCCAATGACTACCAAGAGGCCCAGGCCATGGTCAGCGTGGGACTCGGCATTGCACTTGCGCCGCGAACGGCTGTGGTGAACAAGCATCCCGGCGTCAGCATTGTGTCGCTGGGTGCCAGCGCACCTTCCCGCCGGGTACTCCTGGCGCATCGGCATGACCGGGTGCGGGCAGCGGCAGAAATAGCCTTCCAGGCAACGCTGCTGGAGGTAGCGAAAGATAACAGCGCGGACTTCAAATGA	MLNVRRLELLLDVVELGSITAAAEKHVYSPSGVSQQLRRLEAEVGQPLLQRQARGMVPTDAGHVLTAHTRRILRQMAAAEADLAEIAGLNRGSLTMGTFPTLGGSFLPLVISRFKGQYPAIELHVRSSRFDDLIEMLENGQVGMSLLWDYEWNRINPEDFALTTVFEDATALIVGKNHKLARRKQVDMADLANEEWIVREEEHPVVEVLHRSAKAAGFVPRIAFHANDYQEAQAMVSVGLGIALAPRTAVVNKHPGVSIVSLGASAPSRRVLLAHRHDRVRAAAEIAFQATLLEVAKDNSADFK				NA	NA	NA	NA	NA
D1-17_03726	1080	mii		3-methylitaconate isomerase	ATGTTCAGAATTCCGGCCACGTGGATGCGCGGGGGAACCAGCAAGTGCTGGGTCTTCGAATGGGACCATCTGCAGGTCCCCGGGAAGACGGTGGATGAAGTCCTGCTGCGGCTGTTCGGCAGTCCCGACCACCGACAGATAGACGGCGTTGGCGGCGGCACGTCCACGACGAGCAAGGCCGTTATCCTCGCCCGCTCCCTCAGCGAGGACGCCGACGTCGATTACACCTTCGCCCAAGTGGGCATCGACGAACAGCGGGTTGACTGGGGCAGCAACTGCGGCAACTGTTCCGCCGTCGTCGCACCGTACGCCATCGAGCGCGGTTGGGTGGATGCCGGGCAGGAAAGCACGGCGGTCAGGACCCTCAACACGAACACCAATCAGCTCATTCTGCAGAGGGTGGATACACCCCACGGTGCACTGGGAGACGCCGGAACCCAGATGATCCCGGGCGTTCCGTTCCCCGGCATGCCGGTGGGTATGGGCTTCTTTGACCCGGCCGGAAGGACCACCGGCGCGCTCTTCCCTTCGGGGGAACCAGCCGAAAAGCTGGGCTTCGACGGCCGGCAGGTGACTGTGACGCTCATCGATGCCGGCGCTCCCGTCGTCATCGTGGAAGCCGATGCAGTGGGCCTGACCGGACACGAGACCGCCGCCGAAATCGACACGCGGAAGGAACTGCTGGTGCACCTGGATGACCTGCGGCGTGACGCGGCCGTGCAGATGGGGATTGCCACCAGCCGAGCCGGCGCCGAGCGCGCCATCCCCAAGTTGGCACTGGTGGCCAGGCCAGAGCCCGGCGACAAGGCCGACATCGTCGTCAGGATGCTCTCCATGGGCCGGCTGCATCCCGCCCTCGCCATCACGGGCAGCGTGGCCTTGACGATGGCTGCCCAACACAAGGGGACCGTACTGGCCAACCTGATATCGAGCGACGTTTCTGCAGGGGTGACCATGCGGACGCCGGCAGGGCTCGTGCAGACGTGGTCGGAAATCAACGACGGCGTCACCGTGGTGGGCGCCCTCCGCAGTGCGCGCCGGATTGCCGACGCCGAACTCCTGCTTCCCGACACCTGGTAA	MFRIPATWMRGGTSKCWVFEWDHLQVPGKTVDEVLLRLFGSPDHRQIDGVGGGTSTTSKAVILARSLSEDADVDYTFAQVGIDEQRVDWGSNCGNCSAVVAPYAIERGWVDAGQESTAVRTLNTNTNQLILQRVDTPHGALGDAGTQMIPGVPFPGMPVGMGFFDPAGRTTGALFPSGEPAEKLGFDGRQVTVTLIDAGAPVVIVEADAVGLTGHETAAEIDTRKELLVHLDDLRRDAAVQMGIATSRAGAERAIPKLALVARPEPGDKADIVVRMLSMGRLHPALAITGSVALTMAAQHKGTVLANLISSDVSAGVTMRTPAGLVQTWSEINDGVTVVGALRSARRIADAELLLPDTW	PGPT0001520_822	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001520-prpF-K09788	NA	NA
D1-17_03727	1194			hypothetical protein	ATGACGAGTCAGAAGTCAGCCTTGGAACCCCCCGGCATCATCCAAGATTCCGCACCCACCGAGCAGCCTGATCCGCCGCAGCACTCACGGCGCACGGTCTTGGCCGTTGTTGCATCTTTCGCCGCACTCGGCGTCGCCACCACTGTCCTGGGCGGGGGCCTCCTCAACCCGCCCTCCAGCACCGAAGACGGTAACTTCGGCGGTGAAACTCTGGAATTCCTCATTCCGCTGGCGTCCGGAGGCGGCACCGACACCTGGGCCCGCTTCATCGGCACTGAACTGACTAACTACGTTCCCGGCCGTCCGGGCTTTGCCCCCGTAAACGAACCTGGCGGCGAAGGCATCTCCGGCACCAACAAGTTTGCCCGCTCCGCCAAGATCGACGGTACTGAAATCCTGGTAGGGACAGCCTCCACGGTGGTGCCCTGGGTCCTCGGACGCTCGGCCGTGAAGTACTCATTCGAGGACCTTAAGCCCCTGGTGGTCAACGGCACGGGCGGCGTGATTTATGCCCGCACCGGAGCAGGCGTCAAGAACGTCAACGACCTCCGCAACAGGGACAGGCCCCTCGAGTTCGGTGGCATCAGCGCCACCGGCCTGGATATCACGACGTTGGTGGCCTTCGACCTGCTCGAGGCAGACGTGACGTCGACCTTCGGCTTTGAAGGCCGGGGCCCTGTCAATCTGGCCCTGCAACGCGGCGAGATCGACCTGGACTACCAAACCACCTCCGCCTACGGCTCCGCCGTCGAAGGCATCGCCAAGGAAGGCAAGGCAACAGTGCTGATGTCCTTCGGCCAGCTGAATGAATCCGGCGAGGTCGTCCGGGACCCCAACTTCCCCGACGTCCCCACCGTTCCCGAGGCCTACGAACAGCTGCACGGCAAAAAACCCACCGGCCAGAAGTTCGAGGCCTACAAGACCCTCCTCGGCTTGACCTATACCTACCAGAAAGGCCTCTGGGTACCGAAGGAAACGCCGGACAAGGCGGTCACCCTGCTGCGTGAATCCAGCGAAAAGCTCGGCACCGACCAAGATTTCCAGAACAAGGCCGCCAAAGTCCTCGGCGGCTACCCCCTCGTAGCGGATGCCGGCATGGCCGACCGCGTCAGGGAAGCGTACACCGTCAGCAGCTCCGTCAGGTCCTACGTCAAGGAACTGCTCGAGAGCAAATACGACATCCACGTTGAATAA	MTSQKSALEPPGIIQDSAPTEQPDPPQHSRRTVLAVVASFAALGVATTVLGGGLLNPPSSTEDGNFGGETLEFLIPLASGGGTDTWARFIGTELTNYVPGRPGFAPVNEPGGEGISGTNKFARSAKIDGTEILVGTASTVVPWVLGRSAVKYSFEDLKPLVVNGTGGVIYARTGAGVKNVNDLRNRDRPLEFGGISATGLDITTLVAFDLLEADVTSTFGFEGRGPVNLALQRGEIDLDYQTTSAYGSAVEGIAKEGKATVLMSFGQLNESGEVVRDPNFPDVPTVPEAYEQLHGKKPTGQKFEAYKTLLGLTYTYQKGLWVPKETPDKAVTLLRESSEKLGTDQDFQNKAAKVLGGYPLVADAGMADRVREAYTVSSSVRSYVKELLESKYDIHVE				NA	NA	NA	NA	NA
D1-17_03728	1971			hypothetical protein	ATGCTTGATTCCGCTATGGCAGCGCTGGCGTCACTCGCTGACCCTTCCCTGCTCCTCATGCTCCTTATCGGCACCGTTGCCGGTCTGGTCATGGGCCTCATACCCGGCTTGGGCGGCACGGGCGCCGTTGCCATTCTCTTGCCGATCACCTTCGGCATGGAACCGCCACAGGCCCTAGCGCTCCTCATCGGCGCACTGGCAGTCGTCCACACCTCCGACACTGTCTCCGCAGTACTTCTTGGCGCCCCCGGTTCCGCATCGGCCAGCGTGACGATGCTCGACGGCTACTCAATGGCGAAGAAGGGCCAGGCGGCGAGAGCCCTGACGCTCGCGTTCCTTTCTTCCATGGCCGGCGGCATTATCGGCGCCATCGGCCTGACCCTGGCCATTCCACTGGCACGGCCCCTGGTGCTGTCCTTTGCCAGCCCGGAACTCTTCATGCTGACCGTCCTCGGTGTTGCCCTGGCCGCAGTCCTGTCCCGCGGCAACATCATCAAAGGTGTCTCCGCCGGGCTGCTGGGTCTTGTTCTGGGCATGGTGGGCACCTCGCCGACAACGGCCGAGGAACGCTTCACCTTCGGCAGCCTCTTTCTCGGTGACGGGCTCTCGCTCGTTGCCGTTGCCTTGGGCATCTTCGGCCTCGCCGAAATCGCCTCGCGAGCCAGCCAGCGGCGCGGCCAGAAGGAAAACATAAGCCTTGGCGGCGGCTGGGGCAGGGGTATCCGCGAATGGCTGTCCCACTGGACCCAGGTGATCCGCGGTGCACTCATTGGCATCTGGGCAGGCGTCCTGCCCGGCGTCGGCGCCACAGCCGGAACCTGGCTGGCGTACGGCCAGGCGGTGGCCACGGCGAAGGACAAGCGCCAGTTCGGCAAGGGAGACCCCCGCGGCATTGTTGGCCCGGAAAGCGCCAATAACTCCGTCGAAGCCGGCGACCTTATCCCCACGCTCCTGTTCGGCATCCCCGGCGGCGTCCCCTCGGCCATGCTCCTCGGCATGCTGCTGACGTACGGCATCCAGCCCGGCCCGTCCATCATCACCGAGCACCTGGACCTGATGTACCTCATCGTGTGGTCCTTCGCGATTGCTTCCATCCTCGGCGCCCTGTTCTGCTTCCTCAGCGTCAAGCAGCTCGCGAAACTCACCAAGGTCCCCTTCGCCGTCCTGGCCGCCGGTCTGGTGGCGATCATGCTCCTCGGGTCCTTCCAAGAGGGCGGCCAGCTCGGCGACCTCTGGGTGATGATTATCCTCGGCGTGTTCGGCTGGCTGCTGAAGTCAACCGGGTTCCCGCGGGCCCCGTTCCTCATCGGGTTCGTCCTGGCGATCCCGCTCGAGCGCTACTACTTCCTCACGGACAGCCTCTACAACGGCCTGGACTGGATGGCACGCCCGGGCGTGCTCGTGTTCCTCGCCATCCTGATCCTGCCCATCGTCTGGGCCTTCATCAAGTTCCTCCGCGCCCGCCGCCACTCTAACGTCGACGACGGTCACCGTGACGAACGGCCCGAGGACGACGAGAGCCAGCTCAAGAACTCGACCTGGTCCCTGACCGCAGCGGGCATTTTCGCCGCAGCCTTCTCCGCAGCCCTGATCTCCTCTGCGTCATTCTCGCCGGAGGCGCGGCTTGTGCCACAGCTGGTGAGCATCGGCGGCCTGATCTTCTCCGGCATCCTGCTCTTCACCGAAATTAGGACCTGGCTCAGGACCAGAACGGCACGGGTGGGCTGGACGCTCGATGCGGGGTTCGCGCTTAAAACCTTTGTATGGATGACAGGCTTCCTGGCTCTCACGGCTGCCTTCGGATACCTGGTCGCGGTAACGATCTTCATCCCCGCGTTCCTGCTGGTGGTGGCCAGGGCACGCCTGAAGACAACCGTGGTCTACACGCTGGTCCTGTACGTTGTGCTGCTGGCCCTGCCGTCCCTGCTGCCGATAGATCTGCCGCAGGGCTGGCTCAACACGCTCGTCTAA	MLDSAMAALASLADPSLLLMLLIGTVAGLVMGLIPGLGGTGAVAILLPITFGMEPPQALALLIGALAVVHTSDTVSAVLLGAPGSASASVTMLDGYSMAKKGQAARALTLAFLSSMAGGIIGAIGLTLAIPLARPLVLSFASPELFMLTVLGVALAAVLSRGNIIKGVSAGLLGLVLGMVGTSPTTAEERFTFGSLFLGDGLSLVAVALGIFGLAEIASRASQRRGQKENISLGGGWGRGIREWLSHWTQVIRGALIGIWAGVLPGVGATAGTWLAYGQAVATAKDKRQFGKGDPRGIVGPESANNSVEAGDLIPTLLFGIPGGVPSAMLLGMLLTYGIQPGPSIITEHLDLMYLIVWSFAIASILGALFCFLSVKQLAKLTKVPFAVLAAGLVAIMLLGSFQEGGQLGDLWVMIILGVFGWLLKSTGFPRAPFLIGFVLAIPLERYYFLTDSLYNGLDWMARPGVLVFLAILILPIVWAFIKFLRARRHSNVDDGHRDERPEDDESQLKNSTWSLTAAGIFAAAFSAALISSASFSPEARLVPQLVSIGGLIFSGILLFTEIRTWLRTRTARVGWTLDAGFALKTFVWMTGFLALTAAFGYLVAVTIFIPAFLLVVARARLKTTVVYTLVLYVVLLALPSLLPIDLPQGWLNTLV	PGPT0017350_35	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-17_03729	381			Universal stress protein	ATGACGGTTCTCGTTGCCTATTCCCCCGCCGCCGAAGGCAGGGAGGCCCTGACCACAGGGATCACGGAAGCACTGCTCAGAAAAACAGACCTGCTGATCGTGAACGTGGGGCGCGGCCACCACGACCTGGACCCTGCGGAAATGCAAGAGCTTGAGGCGCAGCTCCACGCGGCCGGCCTGACCCTGATGATTGAGTCCTCCGTCCTTTCCGATCCCGGTGACGCCGTGATTCAGATAGCGCAGGACCGGAACGTGGACATGATCGTCGTCGGACTCCGACACCGGTCCATGGTTGGCAAGCTCATTCTGGGCAGCACCGTCCAGCGCATTCTGCTCGACGCCACCTGCCCCGTCCTGGCGGTCCGCGCCGACAGGCTCTAG	MTVLVAYSPAAEGREALTTGITEALLRKTDLLIVNVGRGHHDLDPAEMQELEAQLHAAGLTLMIESSVLSDPGDAVIQIAQDRNVDMIVVGLRHRSMVGKLILGSTVQRILLDATCPVLAVRADRL				NA	NA	NA	NA	NA
D1-17_03730	495			hypothetical protein	ATGACCGCGACCCAGTCGGACCGCGGACCTCAGTTCCTGCGCCGCGCGGGCTTGCTCGCCGGGCTGCTGGCGATCATCGCCGGGATCGTCGGAATGCATGTCCTGACCGGGCCCCACACCATCCACATGGCAGGTTCCACCGCTGCGGTGCAGACCCACCACGTGGTCACGAACCAGATGGCGACGGAGAGCGCCGGCCATGGGGGCCACGACAGCCACCACAATCCACGCACGATCGCCGCCGGTGCGAGCACTGCCAATTTCCCTGCGCCGACGTCGGACACTTTCAGCTGCATAGGCGGGGATCCCTGTGCCGGCATGTCGGCCATGGGCGGGTCCTGCATCCCGTCCGGCAGCACCGGTTCCCTTGCCGCGCCGCCGCCGGCAACCGTCGCATTCGCCGCTGACAGCCAGGCACCCGAGGCGGCCGTCTCCGGCTACGCCTACCTTCCGGAAAGCCGGTCACCGGCCGACCTTTGCATCAGCAGGACGTAA	MTATQSDRGPQFLRRAGLLAGLLAIIAGIVGMHVLTGPHTIHMAGSTAAVQTHHVVTNQMATESAGHGGHDSHHNPRTIAAGASTANFPAPTSDTFSCIGGDPCAGMSAMGGSCIPSGSTGSLAAPPPATVAFAADSQAPEAAVSGYAYLPESRSPADLCISRT				NA	NA	NA	NA	NA
D1-17_03731	642			hypothetical protein	ATGAACAAGAACAAGAACTTTTCCATCCTTTCCGTTACCGCCGTCGCCGCAGCCATCGTCCTTGCCGGCTGCGCCAACGGGGGCGGCAGCACGTCGGGGTCAGGCGCAAGCCCCGCCGAGACGTCGGCTGCGGCCGCGTCGGCCGCTGCCACAACAGGTGCAGCCGCAGAGCACAACGCGGCAGACACGATGTTCGCGCAGATGATGATCCCCCATCATGCCCAGGCCGTGGAGATGAGCGACATGATCCTCAAAAAACAGGACATCCCCGCCGAGGTGACCGCGCTGGCGACGCAGATCAAGGCCGCGCAGGCGCCGGAAATCGAAAAAATGGCCGGCTGGCTCAAGAGCTGGAACGAATCAGCAACACCGTCCGCGGGCGCCCACTCTGGTCATGGGTCGGTCGGCATGAGCGGCATGATGAGCGCCGAGGACATGTCCAAGCTCGATGCTGCCCGGGGCACCGATGCAGCCAGGCTGTTCCTGACCCAGATGATCGCCCATCACGAGGGTGCCATCATGATGGCCAAGACCGAGGAAAGCGGCGGGAAGAATCCCGAAGCCATCGAGCTGAGCAAGACCATCATCAGGGCGCAGGAGAAGGAAATTCAGGAGATGAAGGACCTGCTGGCCAAGCTCTGA	MNKNKNFSILSVTAVAAAIVLAGCANGGGSTSGSGASPAETSAAAASAAATTGAAAEHNAADTMFAQMMIPHHAQAVEMSDMILKKQDIPAEVTALATQIKAAQAPEIEKMAGWLKSWNESATPSAGAHSGHGSVGMSGMMSAEDMSKLDAARGTDAARLFLTQMIAHHEGAIMMAKTEESGGKNPEAIELSKTIIRAQEKEIQEMKDLLAKL				NA	NA	NA	NA	NA
D1-17_03732	927			hypothetical protein	TTGCGTTTTCCCGCCCTACATCGCCTCAGCGCTGCCGCGGCAGCCGCCGCTCTTCTCCTTGCCCTCTCGGCCTGTGCATCCTCGCCTGCCCCCTCCGGAACAACCGAGTCGGGAACAGCCACGTCGGCAGCAACCGGGTCCGGAGCAGCAGGGACGCACGGCTCCGGAGCCAGCGCGGGCAGCCTGCCCAGCGCACACGTCCACGGCCTGGCCGTTGACGCCACAACGGGCCGCGTGCTCCTGGCCACACACGAGGGACTGTTCGACATGTCCACCAGGCCCGCCACGAAAATCGGCCCGACCAATGACCTGATGGGCTTCACGGCCGCCCCCGGCACCGGCGTGTTCTACGCCTCCGGCCACCCGGGCAAAGACTCGACAATGTCTAACCCGATGGGCCTGATCAGAAGCAGCGACGGCGGCAAAACCTGGGCGGAGATCTCCCGCCAGGGCGAGTCTGATTTCCATGCCCTGACCGTCACCAAGTCCGGCATTGTCGCCTTCGACGGGCAACTGTGGGTAAGTCCGGACGAAAAAACATGGACGACGGCGGCTGCCGGATTTGCGCCGGCGGTACTGGCCGGCAACCCGGGCACCAACACTGTCCTTGCGACCCTGCCGGAAGGTCTCCAACGTTCCACTGACGGCGGACGCACCTGGAAAGCGGTTCCGTCTTCCCCGGTAATTCAGTTCGCAACCTTTGCCAGCGATAAGGAAGCAGTCGGCGTCGAACCCAACGGCACGGTCCACTACTCCTCCGATAGCGGAATCACCTGGACATCGAAGGGCAAAATCACTGCGGACGTCCAGGCAGTGGCAGCAGCAAAAGACTCAGCCGGGAAGCTGCAGGTCTGGGCTGCAACGGCCGATGAGCTGATCGTGTCCAGCGACGGCGGCGCGACGTTCCACCCTGCGGCGGCGGACTAG	MRFPALHRLSAAAAAAALLLALSACASSPAPSGTTESGTATSAATGSGAAGTHGSGASAGSLPSAHVHGLAVDATTGRVLLATHEGLFDMSTRPATKIGPTNDLMGFTAAPGTGVFYASGHPGKDSTMSNPMGLIRSSDGGKTWAEISRQGESDFHALTVTKSGIVAFDGQLWVSPDEKTWTTAAAGFAPAVLAGNPGTNTVLATLPEGLQRSTDGGRTWKAVPSSPVIQFATFASDKEAVGVEPNGTVHYSSDSGITWTSKGKITADVQAVAAAKDSAGKLQVWAATADELIVSSDGGATFHPAAAD				NA	NA	NA	NA	NA
D1-17_03733	1059			hypothetical protein	ATGAAGATCCCTGAACCGCGCGGATGCGTCAGCGCCAGGCTACTCGACGTCCTCTCCGGAAAACCCGACGTTGGCCGTGCGGCACTGGCGGACCTGCACGAGCTGGTAACAGCGCAACTGCGCGCCGCCGACGGGGACATCATCGAGGACGAAGACCTCCAGCTGACCCTGTTCTGCCTGTATGAGCTTCACTACGGGGGCCTGGACCATGTGGATGACCGCTGGGAATGGAACCCCGGACTGCTCGGGATCCGCCAACTGCTCGAGGCCCCGTTTGAAGAGTCCCTCCGGGCGGCAGCACAGAGGTGCGCCCCGCAGACCAGCTTGCCCCCGGCGGTAACGCTGAGCAGCGACGACGTGGCGGCCATCCTGTTCGAGCTCGCCGCCCAGGATAACGGGCCCAGCATGTCCCGCCACGTCGCCAAGAGGGCGACCCTTGAACAACTCCGTGAGTTCCTCATCCACAAGTCCATCTATCAGCTCAAGGAGGCCGACCCGCACACGTGGGCGATACCCCGGCTGACTGGGCGGGCCAAGGCAGCGCTGGTGGAGATTCAGGCGGACGAATACGGCGGCGGCCGCCCGGACCGGATGCACAGCACACTGTTTGCCCGGTCAATGAGGGGGCTGGGGCTCATGGACCACTTCGGCGCGTATGTGGATTCCGTCCCGGCAATCTCCCTGGCCGCTGTGAACATGATGTCCCTGTTCGGACTGAACCGCCAGCTCCGTGGCGCCATCGCCGGACATCTGGCGATCTATGAAATGACATCCTCAAGGCCCAACCAGCTCTACGGCCAGGGATTTCGGCGCCACGGATTTGGGGCAGAGGTGACCGGCTACTTCGACGAGCACGTGGAAGCGGACGCGGTCCACGAGCAGATCGCGGGACGTGATCTCGCCGGCGGCCTTGTGGAGGCGGAACCGGGTCTCCTCGGGGACGTCATTTTCGGTGCCACGGCTGTCCTCGCCATCGACGGGCGGCTGGCCTCACTGATCATGGAGGCCTGGGACAACGGCAGGTCCTCCTTGCGGGCAACTGTCCCGGCCGGCCTGTGA	MKIPEPRGCVSARLLDVLSGKPDVGRAALADLHELVTAQLRAADGDIIEDEDLQLTLFCLYELHYGGLDHVDDRWEWNPGLLGIRQLLEAPFEESLRAAAQRCAPQTSLPPAVTLSSDDVAAILFELAAQDNGPSMSRHVAKRATLEQLREFLIHKSIYQLKEADPHTWAIPRLTGRAKAALVEIQADEYGGGRPDRMHSTLFARSMRGLGLMDHFGAYVDSVPAISLAAVNMMSLFGLNRQLRGAIAGHLAIYEMTSSRPNQLYGQGFRRHGFGAEVTGYFDEHVEADAVHEQIAGRDLAGGLVEAEPGLLGDVIFGATAVLAIDGRLASLIMEAWDNGRSSLRATVPAGL				NA	NA	NA	NA	NA
D1-17_03734	1032			hypothetical protein	GTGACCGTTCCAGAACCTCTGCAGGCGGAGTACATCCTCCCGCTGCGCTGGACGGAGGATTCGGGACTGGACGAGCTGGTGCCCTATTTGGAGCAATTGTGCTCGTGGATCCGGGTGACCGTTGTTGACGGATCAGCGCCGGATCTCTTTGACTGCCACCGGGCGCGCTTTCCGGGCTCCGTCAACCACATCCGGCCGGAGCCGGGCGCAGGAGGCAACGGCAAAGTATCCGCCGTGATGACTGCGGTGCGCCTCAGCTGCGCGGATAGGCTTGTGATCGCCGACGACGACGTTCGCTTCACTCGCGAGGGGCTCGATTCCGTCATCGCGGCCTTGAATCATGCCCATGTGGTGCGGCCGCAGAATTTTTTCAGCCCGCTGCCGTGGCACGCGTGCTGGGACACCGCCCGTACGTTGATCAACCGGGCCCTCGCCGATGACTTTCCTGGGACGCTGGCCGTCCGGCGTGACGCACTGGTCGCTACCGGCGGATACGACGGAGTACTCTTCGAGAACCTTGAGCTCATCCGGACCGTCACAGCGGCCGGCGGATCGGAAAAGCGGCTGCCTGCACTTTTCATTGCGCGCCGGCCTCCAACGTCCCGGCACTTCCTCAGGCAGCGGATCCGGCAGGCCTACGACAGTTTCGCCCAGCCCGGCCGCCTCTGTGCGGAGCTGGCCCTGGCGCCCCTGCTGACCGGCGTGCTTGTCCGGGCACCGCGGCTGACCATCCCCGCCGTCCTGGGATCCGCCGTCGCTGCCGTGGCTCTGGCGGAAGTCGGGCGCAGACGCAACCACGGTCGGCGCGTCTTTCCCGCGCGGACCATACTCTTTGCCCCTCTGTGGCTAGCCGAACGCGCTCTCTGCAGCTGGGCCGCATTGGTGCTGCGGGTGGGAGGAGGCGTTCCCTACGCCGGGGCCCGGCTCAAGACAGCCGCGCATTCCCCCGCCGAATTGCGAAACAGGCACGGCGGCAAGATCGGCACCGCACCCACTCCCCACCCTTCATTCCCTGCCCAACCAGATCGGTAG	MTVPEPLQAEYILPLRWTEDSGLDELVPYLEQLCSWIRVTVVDGSAPDLFDCHRARFPGSVNHIRPEPGAGGNGKVSAVMTAVRLSCADRLVIADDDVRFTREGLDSVIAALNHAHVVRPQNFFSPLPWHACWDTARTLINRALADDFPGTLAVRRDALVATGGYDGVLFENLELIRTVTAAGGSEKRLPALFIARRPPTSRHFLRQRIRQAYDSFAQPGRLCAELALAPLLTGVLVRAPRLTIPAVLGSAVAAVALAEVGRRRNHGRRVFPARTILFAPLWLAERALCSWAALVLRVGGGVPYAGARLKTAAHSPAELRNRHGGKIGTAPTPHPSFPAQPDR				NA	NA	NA	NA	NA
D1-17_03735	246			hypothetical protein	ATGAATCAGGACCAGCAGCAGAACCCCGGCAACGGCTCAATCGTGATTTGTCCCGACGGCCCGATCCTGGTCCGCGGTGACTTCGATATTGTCACCCCATCAGGAGCACCAGTCCCGCGGCAAAGGCGAACGGTAGCCCTGTGCCGCTGCGGGGCCTCCGCGATAAAGCCCTATTGTGACGGCACACACAAGCTCATCAAGTTTCGCACCGAGTACCCAGCCGCTCAGGAGGATTCAGATCAATGA	MNQDQQQNPGNGSIVICPDGPILVRGDFDIVTPSGAPVPRQRRTVALCRCGASAIKPYCDGTHKLIKFRTEYPAAQEDSDQ	PGPT0019745_2	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,PGPT0019745-hcaC-K05710	NA	NA
D1-17_03736	180			hypothetical protein	ATGGCTGCAATCAACGACTTCGTCGACTCCGCACATGAGCCCGTGCCCGGGCTTCCTCCTACCTCGTATCATCAGGCCATGGCTGCCCCAGGTATCTGGTCGCTGCCTGCGGATGTGGCACCAAGCTCGCGCCATGTCGGCTCCATCTACCTGTTCATCATGGGCAAGATCGAACGCTGA	MAAINDFVDSAHEPVPGLPPTSYHQAMAAPGIWSLPADVAPSSRHVGSIYLFIMGKIER				NA	NA	NA	NA	NA
D1-17_03737	483			hypothetical protein	ATGACGGAAACCGCAGGCATCAGCAAGGTCACGGACATCATCAATGATTCCCACATCGGAATGTTCACCACCATCAATGAAAAAGGCGCGCTGGTGAGCCGGCCGCTGGCCGTCCAGGACGTGAAGGACGACGGCGACATGTGGTTCTTCACGGGGGAGGGCACCTCCCAGGTGGCCCACGTCGGCGCCGACCCGCGCGTCAATGTCTCCTTCGGCAAGGGCACCGAATGGGTTTCGGTCGCCGGAACTGCTGAAGTGGTCCGGGACCGGGCGAAGATCCGTGAACTGTGGAACCAGGCCGTCGAGGCATGGTTCCCGGACGGGCCGGACACCCCCGAGGTGGTCCTGCTGCATGTGGACTCCGACTCCGCCGAATACTGGACGAGCCCCGGCGGCACCGCGGCCACCGTGCTGCAGTGGGTGAAGTCCAAGGTCAGCCACAGCCGCATGAGGGTCGGCGAAAGCGGCACCGTGGAGCTGTAA	MTETAGISKVTDIINDSHIGMFTTINEKGALVSRPLAVQDVKDDGDMWFFTGEGTSQVAHVGADPRVNVSFGKGTEWVSVAGTAEVVRDRAKIRELWNQAVEAWFPDGPDTPEVVLLHVDSDSAEYWTSPGGTAATVLQWVKSKVSHSRMRVGESGTVEL				NA	NA	NA	NA	NA
D1-17_03738	1437	puo		Putrescine oxidase	ATGCTGAATCTTGACCGCGACGTTGTGATCGTCGGGGCCGGCCCCTCCGGCCTCACGGCTGCCCGCGAACTGAAGAAAGCCGGCCTCACCGTGGCCGTGCTGGAAGCCCGCGACCGCGTGGGCGGCCGCACCTGGACCGACACTGTCGACGGCGCCATGCTCGAAATCGGCGGCCAGTGGGTTTCGCCGGACCAGACAGCCCTGCTCGCTCTCCTTGACGAACTCGGCCTGAAAACCTACTCCCGCTACCGCGAGGGCGATTCCGTTTACATCGGCAGCGACGGCAGGAGAGTCCGCTACTCGGGCGACTCCTTCCCCGTCAGCGCAGCCACGGCCGCCGAGATGGACAGGCTCACCGCGCTGCTTGACGCCCTGGCCGCAGAAATCGGTCCCACCGAACCGTGGTCCCACCCAAAGGCCCGGGAGCTGGATATCATTTCCTTCCACCACTGGCTCCGTCTGCACTCCAGCGACGAGGAAGCCTGCAATAACATCGGCCTTTTCATCGCGGGCGGAATGCTGACCAAGCCCGCCCATGCCTTCTCCGCCCTGCAGGCAGTGCTCATGGCCGCGTCCGCCGGCTCCTTCACCCACCTGACGGACGAGGACTTCATCCTCGACAAGCGGGTTGTCGGCGGCCTGCAGCAGGTCTCGCTGCTGCAGGCAGCGGAACTGGGAGACGACGTCGTCCTTAACAGCCCGGTGCGCACCATTCACTGGGAGGCCGACGGCGGCAACGGTCACCGCGCGACCGTAGTGGCCGACAGCGCCACGGTCAACGCACGCTTTGTCATCATGGCTGTACCGCCAAACCTGTACTCGCGCGTTTCCTTCAACCCGCCGCTGCCGCGCCGCCAGCATCAGATGCACCAGCACCAGTCACTCGGCCTGGTCATCAAGGTCCACGCGGTCTACAGCACGCCGTTCTGGCGCCAGGAGGGCCTCTCCGGAACCGGATTCAGTGCCGGCTCCCTCGTCCAGGAGGTCTACGACAACACCAATTACGGGGACGCGCGGGGCGCCCTCGTCGGCTTCGTCTCGGACGAGAAGGCCGACGCCGTCTTCGGCCTGGACCCGGCGGCGCGCAGGCAGGCGATCCTGGAATCCATCGCCGGGTTCCTGGGGGACAAGGCCCTCATGCCCGAGGTCTACTACGAATCCGACTGGGGCTCCGAGGAATGGACCCGCGGCGCCTACGCCTCCAGCTACGACCTCGGCGGACTGCACCGCTACGGCAAAGACCAGCACACCCCCGTGGGCCCCGTCTACTGGTGCTCCTCCGACCTCGCCGCCGAGGGATACCAGCACGTCGACGGTGCAGTGCGAATGGGCCAGGCAACTGCGGCCCGCATTGCGGCAGCGGCTGCCGCCGCGCCCGAAGCAGCCGGAAGGCCCGGTGGCCGGGCGCTGGTAGCGGCCGAGGCCGCCGCCGGCTAA	MLNLDRDVVIVGAGPSGLTAARELKKAGLTVAVLEARDRVGGRTWTDTVDGAMLEIGGQWVSPDQTALLALLDELGLKTYSRYREGDSVYIGSDGRRVRYSGDSFPVSAATAAEMDRLTALLDALAAEIGPTEPWSHPKARELDIISFHHWLRLHSSDEEACNNIGLFIAGGMLTKPAHAFSALQAVLMAASAGSFTHLTDEDFILDKRVVGGLQQVSLLQAAELGDDVVLNSPVRTIHWEADGGNGHRATVVADSATVNARFVIMAVPPNLYSRVSFNPPLPRRQHQMHQHQSLGLVIKVHAVYSTPFWRQEGLSGTGFSAGSLVQEVYDNTNYGDARGALVGFVSDEKADAVFGLDPAARRQAILESIAGFLGDKALMPEVYYESDWGSEEWTRGAYASSYDLGGLHRYGKDQHTPVGPVYWCSSDLAAEGYQHVDGAVRMGQATAARIAAAAAAAPEAAGRPGGRALVAAEAAAG	PGPT0007642_50	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007642-puo-K03343	NA	NA
D1-17_03739	744			hypothetical protein	ATGCCGGCATCACCCGCCCAGGGAACCACCAAAACCGAAGACGTGGTGGCCGCCGGCGTGCAGCCGGAGCCCCGCCCTTCGGATCGGCCGGCGGCCCGCGCTGCCGAGCGGCGCCGGGCTGGCCGACCCATAGGCGGAGTGCTGGACAAGGCACGCATTACCGGCGCTGCACTGGGGCTTGTTGAAAAAATGGGCTACGAAGGCCTCACCATGGCCGCGCTTGCCAGGGCGCTGAATGTTGCGCCGTCCGCGCTGTACAACCATGTGAAGTCCAAGCACGATGTGCTGCTTCTGGTGGAGGACCACCTCGCCGCGCTCGTGGATGTGTCGGCGTTTGGCACCGAATCATGGGAAGACTCGGTACGTCAATGGGCATGGAGCTACCGGGATGTTTTTTCCCGGCATACCCCCCTGATCCCGGTCATCGCCGTGCTGCCCGTGACCGATGCCCCCCAGACGCTGGCCATGTACGAGACGGTAAGCGCGGCGTTCCGCGACGCCGGCTTTCCTGAGGAGCGGATCGTTTCTTCCATCGTGGCACTGGAGTCATTCATCTTCGGCTCCGCCTACGACGTGACCGCGCCGGCAGACATCTTCGATCCCGGATCCATGGCTGATGCGACCCCCAGCTTTACCGGTGCCGTCCGCAGCCTGGCCGGGCAGGGCCACGAGAAGCCCGCCGATGTCGCCTTCACCCTGGGGCTTGAAGCGCTGATTGCAGGGCTTGGGGCGCTGCGGGAGTAG	MPASPAQGTTKTEDVVAAGVQPEPRPSDRPAARAAERRRAGRPIGGVLDKARITGAALGLVEKMGYEGLTMAALARALNVAPSALYNHVKSKHDVLLLVEDHLAALVDVSAFGTESWEDSVRQWAWSYRDVFSRHTPLIPVIAVLPVTDAPQTLAMYETVSAAFRDAGFPEERIVSSIVALESFIFGSAYDVTAPADIFDPGSMADATPSFTGAVRSLAGQGHEKPADVAFTLGLEALIAGLGALRE				NA	NA	NA	NA	NA
D1-17_03740	1029			hypothetical protein	ATGGCAGGGCGGCGGGCCGGCTCCGGAGGGAGAGGGCCCGCCGTCGTTCTTTCCGTCTGGGGCGCGGTACCGGGACATGCAGTGTACTTTGAGGGGATGGAGGTCCTTGGCTGGCTGCTCGACTCTGACCCCTCGATCCGCTGGCAGGTGATGCGGGACCTGGCGGACGCACCGCCGGAGGATGTGCGTGCTGAACGCGGCCGTGTGGCCAGCCACGGCTGGGGCGCCCGGCTGCTCTCGCTGCAGGGCCCCGACGGGCAGTGGGACGGCGGCACGTACTACCCGGCCTCGTGGGACGAAACAGCGCCAGGACAACCCTGGACGGCCACGACCTACAGCTTGCTGCTGCTGCGTGAGTTCGGCCTCGAACCGGGCAGTGCGGAAGCCCGGCGGGCCGTTTCCCTGGTGCGGGAGAACAGCCGGTGGGAGGAAGGCGGCCAGCCGTTCTTCGAGGGTGAAGTGGAACCCTGCATCAACGGCATGACCGTCGCCCTCGGAGCCTGTTTCGGCGAAAACGTTGAAGGCGTGGTGGAGCGGTTACTCGGTGACCAGCTCGACGACGGCGGTTGGAACTGCGAGGCTGAAAACGGCTCAACCCGGTCCTCCTTCCACAGTACGATCAGCGTGCTGGAAGGCCTGCTGGCATATGAGCGGGCCACAGGCGGGTCGCCGGCACTTGCCGGGGGAAGGAAGCGCGGCGAGGAGTACCTGCTCGAGCGCATGCTCTTCAGGCGGAAATCCACCGGTGCCGTGGTTGACGAGGACTGGCTCAAGTTCTCCTACCCCACGCGCTGGTTCTATGACGTGCTCCGCGGCTTGGAGTACTTCCGGGCTGTCGGCGGCAGGCCGGATGGGCGCCTGAACGAAGCGGTTGAACTCGTCCGCTCCAAGCAGCAGCCGGACGGCACGTGGCTGCTGGAGAACACGCACCCCGGACGGATCCACTTCGCCATGGAGGACGGCGACGGAACCCCGAGCCGGTGGAACACCCTCAGGGCGCTGCGCGTGCTCAGGTGGTACGGGGACTGA	MAGRRAGSGGRGPAVVLSVWGAVPGHAVYFEGMEVLGWLLDSDPSIRWQVMRDLADAPPEDVRAERGRVASHGWGARLLSLQGPDGQWDGGTYYPASWDETAPGQPWTATTYSLLLLREFGLEPGSAEARRAVSLVRENSRWEEGGQPFFEGEVEPCINGMTVALGACFGENVEGVVERLLGDQLDDGGWNCEAENGSTRSSFHSTISVLEGLLAYERATGGSPALAGGRKRGEEYLLERMLFRRKSTGAVVDEDWLKFSYPTRWFYDVLRGLEYFRAVGGRPDGRLNEAVELVRSKQQPDGTWLLENTHPGRIHFAMEDGDGTPSRWNTLRALRVLRWYGD				NA	NA	NA	NA	NA
D1-17_03741	1041	adhC2	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGACTACTGTCAAGGCTTACGCATCCCCGTCCGCCACTGAGGACTTGATCCCCACCACCATCGAACGCCGGACCGTGGGCCCGTACGATGTCCTGATCGAGATCAGGTTCGCCGGCATTTGCCACTCCGACATCCACACGGTCCGCGGCGACTGGGGCCCCCAACAGTATCCGCTGGTCCCCGGCCATGAGATCGCCGGCATCGTCGCCGGGATTGGCTCGCAGGTCACCAGGCACAAGATCGGCGACCGGGTCGGCGTCGGCTGCATGGTCAACTCCTGCAAAGAGTGCGCCAACTGCCAGGCCGGCGAAGAGCAGTACTGCCTCAAAGGGATGATCGGCACGTACGGCGCCGTCGACCGGGACGGGACTATCACCCAAGGCGGCTACTCCACTCACGTTGTGGTGACCGAGGACTTCGTGGTCAGCATCCCCGAAGGCATCGAGCTGGACGTCGCCGCGCCGCTGCTGTGTGCCGGCATCACCACCTTTTCGCCGCTGCGCCGTTGGGGCGCCGGCCCCGGTAAGAAGGTCGCCGTCGTCGGCCTCGGCGGGCTGGGACACATGGCCGTCAAGCTCGCATCCGCCATGGGCGCCGAGGTCACCGTGCTGTCCCAGTCGCTAAAGAAGCAGGAGGACGGGCTGCGTTTAGGCGCGGACCACTACTACGCCACGTCCGACGCCGGTACTTTCGAGACGCTCGCCGGGACCTTTGATCTGATCATCAACACGGTCAGCGCCTCGATCGATATCAGCTCCTACCTGCAGCTGCTGACCCTCGACGGAGCCCTGGTCAATGTGGGTGCCCCGGCCGAACCGCTTCCCGTGAACGCGTTCGCGCTCATCACGGGACGCAGGTCCTTTGCCGGCTCCATGATTGGCGGCGTACGCGAAACCCAGGAAATGCTCGATTTTTGCGGCGAGCAGGGCATCGGCGCGGAGATCGAGGTCATCCCGGCGGAGAAGATCAACGAGGCGTACGAGCGTGTCCTGGCGTCGGATGTGCGGTACCGCTTCGTCATTGACACCGCAACGCTTTAA	MTTVKAYASPSATEDLIPTTIERRTVGPYDVLIEIRFAGICHSDIHTVRGDWGPQQYPLVPGHEIAGIVAGIGSQVTRHKIGDRVGVGCMVNSCKECANCQAGEEQYCLKGMIGTYGAVDRDGTITQGGYSTHVVVTEDFVVSIPEGIELDVAAPLLCAGITTFSPLRRWGAGPGKKVAVVGLGGLGHMAVKLASAMGAEVTVLSQSLKKQEDGLRLGADHYYATSDAGTFETLAGTFDLIINTVSASIDISSYLQLLTLDGALVNVGAPAEPLPVNAFALITGRRSFAGSMIGGVRETQEMLDFCGEQGIGAEIEVIPAEKINEAYERVLASDVRYRFVIDTATL	PGPT0024430_2032	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
D1-17_03742	885			hypothetical protein	ATGGATAACAGAGCCGAGGTGCGGCAGTTCCTCTCCACCCGCCGTGGCCGCATCACACCCGAACAGGCGGGCCTCGAGCCGTACGGCGGCCGGCGCCGTGTGCCGGGACTTCGAAGGGAAGAAGTGGCCCGTCTTGCCGGGGTAAGCGTGGACTATTACACCCGCCTGGAACGCGGCAACCTCAGCGGCGTATCGGACTGTGTGCTCGACGCCATAGCGCGCGCACTGGAACTCGACCGTGCGGAACATGACCACCTCTACGATCTCGCACGCACGGCCAACACCTCCGGCCGGAAGCGTGCCGTGGGCGCCGTGCCCTCGGGGGTGCGCCCCGAGCTGCAGCACCTTCTAGGCGCAATCACCGGAGCGCCGGCATTCATCGGGAACAACCGGATGGACATCCTCGCTGCCAACACCCTGGGCTACGCCCTCTACTCCGACATGTACCGCAGCACCGCCCGCCCCGCGAACCATTCGCGGTTTATCTTCCTGGATCCGCGGTCGCACGATTTCTATACAGACTGGGACCGGGCAGCAAACGTCAACGTCGCGATCCTGCGCCGTGAAGCCGGCCGCAACCCGCATGACAAGGGCATCGCCGAGCTCGTGGGCGAGCTCTCCATGCGCAGCGACGAATTCAGAACCCGCTGGGCAGCGCACAACGTCCGGCGCCACTATGCCGGCACAAAGGTTTTTCGGCACCCCGTGGTCGGGCTGCTCGAACTCAACTATCAGGTCCTCGAACTGGAGGAGGACCCCGGGCACAGCCTAACTGTTTACCCGGCCGTACCCGGCAGCCCCTCGGACGAAGCGCTCAAGCTCCTCGCCTCCTGGGCGGCAACCGAGAACATCGTTGAGTCCGCGAAGGCTTCCCTTCGAGGCTAG	MDNRAEVRQFLSTRRGRITPEQAGLEPYGGRRRVPGLRREEVARLAGVSVDYYTRLERGNLSGVSDCVLDAIARALELDRAEHDHLYDLARTANTSGRKRAVGAVPSGVRPELQHLLGAITGAPAFIGNNRMDILAANTLGYALYSDMYRSTARPANHSRFIFLDPRSHDFYTDWDRAANVNVAILRREAGRNPHDKGIAELVGELSMRSDEFRTRWAAHNVRRHYAGTKVFRHPVVGLLELNYQVLELEEDPGHSLTVYPAVPGSPSDEALKLLASWAATENIVESAKASLRG				NA	NA	NA	NA	NA
D1-17_03743	1044	rbsR_2	COG1609	Ribose operon repressor	ATGTACAACATGACGGCATCAACCACGCAAGCTCCCCGCAGCCCGGTAACCCGTAAGGATGTTGCCAGGTACGCCGGCGTGAGCACCGCCGTCGTCAGCTACGTAGTAAACAAAGGACCGAAGAAAGTCGCCCCGGCCACCGAAGCTAAGGTTCAGGACGCCATCCGCGTCCTGGGCTACCGGCCCAACGCTGCAGCCAGGGCGCTCAAGCTTGGATCCACTGAAACCATCGGACTTGTCATTCCCGACAACGGCAACCCGTTTTTTTCGCTGCTCGCCCATGCTGTGGAGGACGCCGCTGCAGAACTCGGCTATGCGCTGCTCCTGACCAACTCAGACGGAAACCTCGGCAAGGAGCGAAGGAACATCCGCAACCTTGCCGCCCGTCAGGTGGACGGCGTAATCCTATCGAGCGTGCTGATGGAACCTGACCTCGCAGACCTTGAGTCGGCAGACATCCCCGCAGTCCTCCTCAATCACAGTGCCGATGCTCCCGGCTTCAACAGCGTCGGAGTGGACCTGGCAGCAGGCGCACAATCCGCAGTTGAACACCTCATCGGCCACGGACACACCAACATTGCCCTTGCAATGGGAACGAATACAGGGAATTTCCTCGACGGTCGCGAACAGGGCTGGCTGCAGGCCCTCACCAAAGCAGATCTCCCCGAGGGGCCGATCGTCCGCAGCGCCTTCACCCGTGAGGGCGGATACGCCGCCGGTCGACGCCTGCTCGCCTCAGCAAGCCGACCAACTGCAATTTTTGCCAGCTCCGACTTGCAAGCGGTCGGCATCCTCCGGGCACTCCATGAAGCTGGTCGATCGATCCCCGACGACATTGCCCTGGCCTCATTCGATGGGTCGGCAGAGGCGGAGTACAGCTGGCCGCCACTGACCACAGTTAAGCAACCCGCAAAGGCCATGGCAGAAGCCGCTGTCAGCGCCCTTATTGGAGCACGCCGGACCCGTGAGGCCGAACACCTCATCTTTCCAACCGAGTTGCAGGTACGGAGTTCCTGCGGGTGCCAGGAACCCAACCCCAACTAA	MYNMTASTTQAPRSPVTRKDVARYAGVSTAVVSYVVNKGPKKVAPATEAKVQDAIRVLGYRPNAAARALKLGSTETIGLVIPDNGNPFFSLLAHAVEDAAAELGYALLLTNSDGNLGKERRNIRNLAARQVDGVILSSVLMEPDLADLESADIPAVLLNHSADAPGFNSVGVDLAAGAQSAVEHLIGHGHTNIALAMGTNTGNFLDGREQGWLQALTKADLPEGPIVRSAFTREGGYAAGRRLLASASRPTAIFASSDLQAVGILRALHEAGRSIPDDIALASFDGSAEAEYSWPPLTTVKQPAKAMAEAAVSALIGARRTREAEHLIFPTELQVRSSCGCQEPNPN	PGPT0017992_8860	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03744	1203	iolG_8		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACGTTTTCCATCGGCGTGGTGGGGGTCGGCCAGTTCGGCAGCCAGTTCGCCCATTTGTTCAATCTCCATCCCGGCGTAGAGGACGTCTTTGCGGTGGACGAACGGCCGGAGCGGGCCACTGAAGCTGTTGAGCGGTTTGGGCTGGCAGGATCGAAGGCGAGCTTTGAAGACCTCCTGGTGTCGGACGTCGAAGCCGTCGCCATCTTTACTCAGCGCTGGACGCACGGGCCGCTGGTCGAGCAGGCGCTCCGGGCTGGTAAGCACGTGTACTCGGCTGTTCCCATGGCAATTTCCGAGGAAGAAATCGCCCGCATCATCGAAGCTGTCCGCGAAACCGGTCTGACCTACATGATGGGGGAGACCAGCTACTACAACCCCGCCACCGTGTATGCCCGCCAGCAGCACGCTGCCGGCAAGTTCGGCCGGATCTTCTACTCCGAGGGCGACTATGTCCACGATATGGATCTGGGCTTCTACGAGGCGTACCAGTACAGCGGCGGAGAAAGCTGGAAGGAAACCGCCAGCTACCCGCCCATGCTCTATCCCACGCATGCTGTTGGCGGGGTCCTTGGTGCCGTCCCTGTCCATGCCGTCAGCGTCAGCTGCATTGGAGTCAAGGATGACCGCAAGGACGGAGTCTTTAACAAGGAGGTCAGTAAGTTCGGCAACGACTTCTCCAATGCGACAGCCCTTTTCGAACTCAACGACGGTGGTGTCATGCGCACCAACGAGATGCGCCGGGTGGGCTACCCTTCCCATATCAGGGAGTCCCGGTTCCGGTTCTTTGGGACGGAAGCCAGCCTTGAACAGCTAGCACATGTCACTGTCTGGCAGGACAAGGTGAACTTCCACGACATTTCCGAGCAGCTGGAAACGCAGCCGAGCATGCCCCTGGATGACCCGTCGCTCACCAACGTTGCGCCGGAACTGAAGAACGCCTTTGTCTCCGGACTCTCGCCGGTCCATGACCCCGAGCGGCTCCCGGAGGAGTTCCGTGGCGCACCGAACGGCCACGAGGGAAGCCATCACTTCCTGGTTGATGACTTCGTAACTGCCGTCAACGCGGGCACCCTGCCTCCGGTCAACGCCTGGGTTGCCGCCAGGTTCACGCTGCCCGGCATCGTGGCTCATGAGTCCGCGCTGCGCGGTGGTGAGCGGCTCCCGATCCGCGACTTTGGCGATGCGCCCCGGTCCCGTTAA	MTFSIGVVGVGQFGSQFAHLFNLHPGVEDVFAVDERPERATEAVERFGLAGSKASFEDLLVSDVEAVAIFTQRWTHGPLVEQALRAGKHVYSAVPMAISEEEIARIIEAVRETGLTYMMGETSYYNPATVYARQQHAAGKFGRIFYSEGDYVHDMDLGFYEAYQYSGGESWKETASYPPMLYPTHAVGGVLGAVPVHAVSVSCIGVKDDRKDGVFNKEVSKFGNDFSNATALFELNDGGVMRTNEMRRVGYPSHIRESRFRFFGTEASLEQLAHVTVWQDKVNFHDISEQLETQPSMPLDDPSLTNVAPELKNAFVSGLSPVHDPERLPEEFRGAPNGHEGSHHFLVDDFVTAVNAGTLPPVNAWVAARFTLPGIVAHESALRGGERLPIRDFGDAPRSR				NA	NA	NA	NA	NA
D1-17_03745	945	melD_2	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGATGACCACCCTTGCCAAACACGTCAGATCCGCCCCGCTCCAACCCGACGCTCCGAAGCCCAGCGGCAGTTACCGCCAGCTCGGCGACCTCAGGATCGCCCTCCTCTTTATCGCTCCGGCCATGATCGGCTTCATCTTCTTCTACGTGGTGCCCACCATCCGCGGCGTGTACTTGAGCTTCACGGAGTACAGCATCCTCGGGGAGCCGGAGTGGATCGGCCTGGATAACTACACGGCGATTACCAAGGATCCGCTGTTCTGGAATTCCCTGGCCGTCACCGGGCAGTACGTCTTCCTCAACATCGTCCTCCAGACGGCGCTGGCCCTCGGTATTGCTCTCCTGATGCACCAGGTTGCCAAGTCAACGATTGTCCGCGGCGCCCTGCTTTTGCCCTACCTGATGTCCAACGTCATCGCCGCGTTGCTGTGGTTCTGGATGCTGGACTACCAGATCGGAGTGGTGAACCAGTTCATTGAGTGGACCGGAATGTCCCGGGTTGCGTTCTTCGGCAGCGAGGAGTGGGCCATTCCCACTCAGGCGCTGATCAACACCTGGCGCCACATGGGCTATACCGCACTGCTGATCTTCGCCGGCCTGCAGGCCATACCCGGCCATGTCTATGAGGTGGCCAAGCTGGACGGCGCGTCACCGTGGCAGACCTTCGGCAAGATCACCATCCCGCTGCTGCGTCCGGTGCTGGTCCTGGTTCTGGTGGTGACGGTGATCGGTTCTTTCCAGGTCTTCGACACCGTGGCCGTGACCACAGGCGGTGGGCCGGTTAACGCCACCCGGGTTATCCAGTACTACATCTACCAGCGGGCCTTCACCGAGTCGGATTTCGGCTACGGATCCGCCATCGCCGTCATTCTCTTCCTCATCCTCGCCCTGGTGGCCTTCATCCAGATGAAGTTCCTCAAGGGCAACGAGTCGGACCTGGACTAA	MMTTLAKHVRSAPLQPDAPKPSGSYRQLGDLRIALLFIAPAMIGFIFFYVVPTIRGVYLSFTEYSILGEPEWIGLDNYTAITKDPLFWNSLAVTGQYVFLNIVLQTALALGIALLMHQVAKSTIVRGALLLPYLMSNVIAALLWFWMLDYQIGVVNQFIEWTGMSRVAFFGSEEWAIPTQALINTWRHMGYTALLIFAGLQAIPGHVYEVAKLDGASPWQTFGKITIPLLRPVLVLVLVVTVIGSFQVFDTVAVTTGGGPVNATRVIQYYIYQRAFTESDFGYGSAIAVILFLILALVAFIQMKFLKGNESDLD	PGPT0016535_3439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
D1-17_03746	927	ngcG	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACCACAACTGCCAGCCGCGCGCCGCTGCCGTCGGCTACCCGCCGCCGCCGTCCTTTCAACGCCCGCCGCGCAGGCGCGTGGGCCCTTTTGGTCCTCGCCATCGCCGTCTCAGTATTGCCCTTTCTCTGGGTCCTGCGCACGGCACTGTCCACCAACAACGCCCTGGCCGCCAACGCAACCAACCTGTTGCCGGCGGAGTTCACTTTCGGTGCTTTCAAACGGGTCTTCGGGCTGCAAAGCCCGGCTGAAGCCATCGCCGAAGGCGGTTCCGGTGCAGCCATTGACTTCTGGCTCTACCTGCGCAACTCGATCATCTTTTCCTCCATCACCACCGCAGGCGCTGTCTTCTTCAGCGCGATGGCCGCCTACGCCTTCGCCCGGCTCCGCTGGAAGGGCCGCAACGCAGTCTTCAGCCTGTTCCTGGGCACCATGCTGGTCCCGCCGATCTTCACCGCACTGCCCAACTTCCTGCTCATCAAGAACCTTGACCTGCTCAACACGATGCTCGGCATGGTCCTGCCGTACGTGTTCATGACCCCGTTCGCCATTTTCTTCCTTCGGCAGTTCTTCCTGAACATGTCCCGTGAAGTTGAAGAGGCAGCCATGCTCGACGGCGCCAAGCACCTGCGGATCTTCTTCCAGATCGTGCTGCCCAACGCCGCGGCACCGCTGGCCACGCTGGCCCTGCTGACCTTCATCGGGCAGTGGAACGAATACTTCTGGCCACTGCTCGTCGGCTCCCAGGAGGACGTCCGTGTTCTGCAGGTCGGACTTGGTGTCTTCAAGTCCCAGTCCCCGCAGGGCGCACCCGACTGGTCCGGGCTCATGGCAGCGACCCTCATCTCGGCCTTGCCGGTGCTGATCCTCTTCGCCGCCTTCGGCAAGAAAATCGTCAACTCCATCGGCTTCTCCGGCATCAAATAA	MTTTASRAPLPSATRRRRPFNARRAGAWALLVLAIAVSVLPFLWVLRTALSTNNALAANATNLLPAEFTFGAFKRVFGLQSPAEAIAEGGSGAAIDFWLYLRNSIIFSSITTAGAVFFSAMAAYAFARLRWKGRNAVFSLFLGTMLVPPIFTALPNFLLIKNLDLLNTMLGMVLPYVFMTPFAIFFLRQFFLNMSREVEEAAMLDGAKHLRIFFQIVLPNAAAPLATLALLTFIGQWNEYFWPLLVGSQEDVRVLQVGLGVFKSQSPQGAPDWSGLMAATLISALPVLILFAAFGKKIVNSIGFSGIK	PGPT0016540_1266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
D1-17_03747	1341			hypothetical protein	ATGAAGAAATCCCTCGGCGCCGTTGCCGTCGCCGCAGCTGTGGCCCTCTCCCTCTCCGCCTGCAGCGGATCCTCCTCCTCCGAAGAAGCCGCCAAGGGCGAGATCAGCTACTGGCTCTGGGACGCCAACCAGCTCCCCGCCTACCAGCAGTGCGCCGACGACTTTACCAAGGCCAACCCGGACATCACCGTCAAGATCACCCAGCGCGGCTGGGATGACTACTGGTCCACCCTGACCAACGGCTTCGTCGGCGGCACCGCCCCCGACGTCTTCACCAACCACTTGGGACGCTACGGCGAACTCGCGGAAAACAACCAGTTGCTGGCCATCGATGACGCCGTCGAAAAGGACAGCGTTGACCTGTCCGCCTACAACGAGGGCCTGACGGACCTCTGGGTCGGCCAGGACGGCAAACGATACGGCCTGCCCAAGGACTGGGACACCATCGGACTGTTCTACAACAAGGCAATGCTGGCCAGCGCCGGCATCACAGAGGACCAGATGAAAAATCTCACCTGGAACCCGGAAGACGGAGGCAGCTACGAAAAAGTCATCGCACACCTCACCGTTGACAAGAACGGCAAGCGCGGCGACGAGCCCGGCTTCGACAAGAACAACGTCAAGGTCTACGGGCTGGGCCTGAACGGCGGCGGCGACTCCTCCGGCCAGACAGAATGGAGCTACCTCACCAACACCACCGGCTGGTCACACACGGACAAGAACCCGTGGGGCACCAAGTACAACTACGACGACCCCAGGTTCCAGGCCTCGATGGAATGGTTCGCCGGTCTGGCGGACAAGGGCTACATGCCCAAACTCGAGGCCACCGTTGGCGCGGCAATGGCCGACACCTTCGCGGCAGGCAAGTCCGCCATCAACGCACACGGTTCCTGGATGATCGGTCAATACACCGGGTACAAGGGCATCGACGTGGGCATCGCTCCCACCCCCGCAGGGCCTGAAGGAAAGCGTGCCTCAATGTTCAACGGCCTGGCCGATTCCATCTGGGCCGGAACGAAGAAAAAGGACGCGTCGATCAAGTGGGTTGAGTACCTCGCCTCTGCGGAGTGCCAGGACGTGGTCGCAGCCAAGGCCGTGGTCTTCCCGGCGCTGAAGACGTCCTCGGACAAGGCTGCCGAGGCGTTCAAGGCCAAGGGCGTGGACGTCACCGCCTTCACTGAGCACGTCAAGAACGGAACGACGTTCCTGTACCCCATCACGGATAACACCGCCAAGGTCAAGGGCATCATGGAACCGGCCATGGACGCAGTTGTCTCCGGCAAGGCGCCCGCCAGCTCGCTGACCCAGGCCAACGAACAGGTCAATGCCCTCTTCAAGTAG	MKKSLGAVAVAAAVALSLSACSGSSSSEEAAKGEISYWLWDANQLPAYQQCADDFTKANPDITVKITQRGWDDYWSTLTNGFVGGTAPDVFTNHLGRYGELAENNQLLAIDDAVEKDSVDLSAYNEGLTDLWVGQDGKRYGLPKDWDTIGLFYNKAMLASAGITEDQMKNLTWNPEDGGSYEKVIAHLTVDKNGKRGDEPGFDKNNVKVYGLGLNGGGDSSGQTEWSYLTNTTGWSHTDKNPWGTKYNYDDPRFQASMEWFAGLADKGYMPKLEATVGAAMADTFAAGKSAINAHGSWMIGQYTGYKGIDVGIAPTPAGPEGKRASMFNGLADSIWAGTKKKDASIKWVEYLASAECQDVVAAKAVVFPALKTSSDKAAEAFKAKGVDVTAFTEHVKNGTTFLYPITDNTAKVKGIMEPAMDAVVSGKAPASSLTQANEQVNALFK	PGPT0016545_3342	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
D1-17_03748	2193	rafA		Alpha-galactosidase	ATGGATCCCCTCCACCTCCGTTCCGCCGGCACCAGCCTGGTGATCAGCTTCAACAGCGGGGAGGCCGAGATCATCCATTGGGGCGCGGACCTCGGCAACACCCTGCCGGACCTCGCCATCCTCGGTGAACCTGTCCCCCACTCCGCTATTGACGCCACTGTTCCCGCAGGCCTGTTGCCCCAGGCGTCCTCCAGCTGGCGGGGCCGGCCGGGCTTGCGTGGGCACCGCATCGCCGACGGGATTTCCGGGCTGGATTTCTCCGCCCGCCTACGCACAGTTGCAGCTCGCGCCGTGGGCAACACCGCGCTGATCGGCCAGTCCGATCCGGACGCCAGTATTTCCGTCGAATCCACCCTCACCCTGCACGACGGCGGGCTGCTGGAACTGCGGCACACAGTCACCAATGACGGCACCACTCCTTACCAGCTGGATGAACTGGCAACGGTCCTCCCGGTGGCCCCGGACGCCGTTGAACTTCTTGACCTGACCGGCCGCTGGTGCCGTGAGAACCACCCGCAGCGCCGCGCCATCCAGCAGGGTACGTGGGTGCGATCGGGCCGCCATGGACGCACAGGCCACGATTCCTCCCTCCTGCTGGCCGCCGGCACCGCCGGGTTCGGCAACCGCCACGGAAAGGTCTGGGCCACGCACCTTGCCTGGAGCGGTAACCACGAACAGTTCACCGACACCCTTGGCGACGGCCGTACCATGATCGGTGGATCAGAACTCCTGGGACCGGCCGAGGTCATCCTCGAACCACAGGGCACGTACACCACACCCTCCCTGTTTGCCGCCTACTCCGACCGCGGCCTGGACGGCATCAGCGAGGCCTTTTACAGCTGGTTCCGGTCCCGCCCCCACCATGTGCTGCCCGCAGCTTCCACCGGCCTGCCTGCAGGAAAACCGCGCCCGGTGGTGCTCAATACCTGGGAAGCGGTCTACTTCGACCACAACCTGTCCACACTGATCGAACTCGCGGACTCCGCAGCGGAGCTCGGCGTCGAACGCTTCGTACTGGACGACGGCTGGTTCCGCGGACGCCGCGACGACCACGCCGGCCTCGGTGACTGGTACGTCGACGAGTCCCTCTGGCCAGACGGGCTCACACCGCTGATCGACGCCGTCACTTCCCGGGGCATGGAGTTCGGTCTGTGGGTGGAGCCGGAAATGGTAAACCTCGACTCCGACGTCGCCCGGGCCCACCCCGACTGGATCGCCGGTCCATCCGCCCTGTCCCACAAGGACGGCGGCCGCCTGCCCCTGGAGTGGCGCAACCAACACATCCTCGACCTGGTCAACCCCGAAGCGTGGCAGTACATCTACGACCGCATTGACGCCCTCCTGCGCGGAAACAACATCAGCTATCTCAAGTGGGACCAGAACCGGGACCTGCTGGAGCACGGCCACGCCGGCCGCTCCTCCGTGCACGAGCAGACCCTCGCCGCCTACCGGCTGTTCGACGAGCTAAGGAAAGCCCACCCAGGCGTCGAAATAGAAAGTTGCTCCTCCGGCGGGGCGAGGGTGGATCTGGGCATCCTTGAGCGGACGGACCGGATCTGGGCCTCGGACTGCAATGACGCTTTGGAACGCCAGACCATCCAGCGCTGGACCGGGATTGTGGTTCCCCCGGAACTCGTTGGCGGGCACATCGGACCCACCACCTCACACACCACGGCACGCACCCACGACCTGTCTTTCCGGGCCATTACAGCCCTCTTCGGACACTTCGGCATGGAGTGGGACGTCCGGCAAGTCAGGGACGCCGAGCGTGAGGAACTCAAGCGCTTCATCGCACTGTTCAAGGAACACCGGAACCTCATCCACAGCGGTCGGATGGTCCGCGCAGACGTTCCAGACGAGGCGCTGATGCTGCACGGCACGGTGGCGGCTGCGCCACCTGAGCCAGGCACGACGGCGGCACTGTTCTCCCTGGTCAGCACCCGCACCGCCTTCGCTGAGCAGCCCGGCAAAATCACCATCCCGGGGCTTGAGCAGGACCGTAACTACCGGGTAGAGGTCATCTCCCCGGCCCCGCGCAACGGGGACTACGGCCATGCCTTCACCCAGGTCCAGCCGCCGGCCTGGCTGGCGGACGGGGCGGTGGCCAATGGGCGCTTCCTGGCCGAGGTAGGCCTGCCCATGCCGATCCTCAACCCCGAACAGGCGCTACTGCTGGGCTTTACAGCCCTCTAA	MDPLHLRSAGTSLVISFNSGEAEIIHWGADLGNTLPDLAILGEPVPHSAIDATVPAGLLPQASSSWRGRPGLRGHRIADGISGLDFSARLRTVAARAVGNTALIGQSDPDASISVESTLTLHDGGLLELRHTVTNDGTTPYQLDELATVLPVAPDAVELLDLTGRWCRENHPQRRAIQQGTWVRSGRHGRTGHDSSLLLAAGTAGFGNRHGKVWATHLAWSGNHEQFTDTLGDGRTMIGGSELLGPAEVILEPQGTYTTPSLFAAYSDRGLDGISEAFYSWFRSRPHHVLPAASTGLPAGKPRPVVLNTWEAVYFDHNLSTLIELADSAAELGVERFVLDDGWFRGRRDDHAGLGDWYVDESLWPDGLTPLIDAVTSRGMEFGLWVEPEMVNLDSDVARAHPDWIAGPSALSHKDGGRLPLEWRNQHILDLVNPEAWQYIYDRIDALLRGNNISYLKWDQNRDLLEHGHAGRSSVHEQTLAAYRLFDELRKAHPGVEIESCSSGGARVDLGILERTDRIWASDCNDALERQTIQRWTGIVVPPELVGGHIGPTTSHTTARTHDLSFRAITALFGHFGMEWDVRQVRDAEREELKRFIALFKEHRNLIHSGRMVRADVPDEALMLHGTVAAAPPEPGTTAALFSLVSTRTAFAEQPGKITIPGLEQDRNYRVEVISPAPRNGDYGHAFTQVQPPAWLADGAVANGRFLAEVGLPMPILNPEQALLLGFTAL	PGPT0018835_930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
D1-17_03749	1119	dadA		D-amino acid dehydrogenase	ATGTCCTCCACCGCTACCAAGAACGTCGCCGTCCTCGGCGGCGGCATCCTGGGCGTCTCCACCGCTGTCCACCTGCTGCGCGAAGGCGCGTCGGTCACGCTGCTGACCGAGAGCGGCCTGGCCAGCGAAGCCACCGGACGCTCGCTCTCCTGGCTCAACTCCGCCGGTGAACGGTCCACGCCGTACCACCAGCTCCGCCTTGCTGGCGTGGACCGGTACCGCACGCTTTTCGCCGCGGACCCCAGCCGGGAGTGGCTGCAGTTCGGCGGCGGCCTGATGTGGAACGCCGGCGGGGAGCGGGCCGTCACCGAGGCACGCCACGCCTACGAGAAGTCGGTGGGCTACGACTCCAAGCTCCTGGCCCCCGGGGACATCGCCGCTGTGACGCCGGGCATCGACTCCGCCGCCGTCCCTGAGAACGCCATCTTCAACCCGGGCGAGGGCTGGGTCAGCCTGCCGGACCTCGTGGAATTCCTCATGAAGGAGTTCCATGAGCGCGGCGGCCGCCTCGTTCTGAACGCCGGCAAGGCGTCCGTGGTGGTCGACGGCGGCCGGGCCGTCGGCGTCGAGACAACGGCGGGGGAGACGTACGATGCCGATGCGGTACTGGTGGCATGCGGGGCAGCGACACCCGCCGTCGTTGCTCCTTTGGGAGTGGAGATCCCCAACGGTTCCCCGGTGTCCATGCTGGTGGTGACCAAGCCGGTGGAGCACGACGTCAAGGCCGTGATGAACACGCCCCGCGCAGCCGTGCGCCCCAACCCCGGCAACACCTTTGCCCTGGACCACGACTGGTACGAGGAGCAGATCACCGAGCACGCGGACGGATCCTTCAGCATCCCGGATGAGGTGGTCCAGGAGCTCGCGGATGAAGCGTCAAGGCTCATAGCAGGCAACCCCGAGCTCAAGCCTGCGAGCTGGAAGATGGGCTACAAGCCGATCCCGGGCGACGGCGAACCGGTGCTCGGCGAACTGGGGCAAGTTCCTGGGTGCTTCGTGGCCTTCACCCACTCCGGGGCGACGCTGGGCCTGATCGCCGGCGAGCTGCTCGCGGGGGAGATCCTGACCGGCGACAAGCACCCCATGCTGGCCACGTTCCGTCCGGCCCGATTCTCCTGA	MSSTATKNVAVLGGGILGVSTAVHLLREGASVTLLTESGLASEATGRSLSWLNSAGERSTPYHQLRLAGVDRYRTLFAADPSREWLQFGGGLMWNAGGERAVTEARHAYEKSVGYDSKLLAPGDIAAVTPGIDSAAVPENAIFNPGEGWVSLPDLVEFLMKEFHERGGRLVLNAGKASVVVDGGRAVGVETTAGETYDADAVLVACGAATPAVVAPLGVEIPNGSPVSMLVVTKPVEHDVKAVMNTPRAAVRPNPGNTFALDHDWYEEQITEHADGSFSIPDEVVQELADEASRLIAGNPELKPASWKMGYKPIPGDGEPVLGELGQVPGCFVAFTHSGATLGLIAGELLAGEILTGDKHPMLATFRPARFS				NA	NA	NA	NA	NA
D1-17_03750	1044	iolW	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	ATGCGGAAGGTTACAGCGGCTCCCATCCGAACCGCCGTCGTCGGCTTTGGGATCTCGGGCCGGGTTTTCCACGCGCCGCTGATTGCCGCGGATCCCGCCTACTCCTTGGACGTAATCGTCACGGCGGACCCGACACGGGCCGCCGACGCTGCCCGGCTGTACCCGCAGGCGCACATCGTTCCGACGCCGGAGGCGGTGTTCGCACTCGCCGGGGAGCTCGACCTCGTCATCCTCGGCACCCCGCCGCACACGCACTTCGACCTCGCAGCCGCCGCCATTAAGCACGGCCTCCACCTCGTGGTGGACAAGCCCTTCGTGCCGACATCCGTGCAGGGGGAAGAACTGATCGGCCTCGCAGCCGACGGCGGTGTGCAGCTCACGGTGTTCCAAAACCGCCGGTGGGATGCCGACTTCCTGACACTGCAGAAGCTGCTTTCGGAGCAGGCCGTTGGCGAGGTTCGCACCTTTGAATCACGGTTTGAATGGTGGCGGCCCGAGGGCTTCGGGAACTGGCGCGACAGCGTTTCCCTCGCGGAGGGCGGCGGGATCCTGCACGACCTTGGCGCGCACCTGATCGACCAGGCCGTCCAGCTGTTCGGCCCGGTGGCACAGAGCTACGGCGAGACGGCCAACCGCGGATCCCACTCGGGGGCCGCCGACACCGAAGCCTTCGTGTCCTTAGTCCACGAATCCGGCGTCTGCAGCAGGCTCTGGATGAACGGCATGGCGGCCCAGGTGGGCCCGCGCTTCCACGTCCTCGGCTCGGAGGCCGGCTACACCAAGTGGGGCCTGGACGGCCAGGAGCCCGCGCTGGCGGCCGGCGTGACGCCGTCGGATCCCGGCTACGGCGTCGACCCCCAGGAGTCTTGGGGGATTCTGGGAGTGGACGGTTCCGCAACGCCCGTGCCCGCCGAACGTGGCGCCTACCCCGAGTTCTACGTTCGGCTTGCCGCCGCGCTGCGGGGAGAAGGACCCCTTCCCGTTGACGCTGCCGGTCCGCTCGAGGTTCTGAAGGTCATCGAAGGCATCCACGCCCTGGCTTAG	MRKVTAAPIRTAVVGFGISGRVFHAPLIAADPAYSLDVIVTADPTRAADAARLYPQAHIVPTPEAVFALAGELDLVILGTPPHTHFDLAAAAIKHGLHLVVDKPFVPTSVQGEELIGLAADGGVQLTVFQNRRWDADFLTLQKLLSEQAVGEVRTFESRFEWWRPEGFGNWRDSVSLAEGGGILHDLGAHLIDQAVQLFGPVAQSYGETANRGSHSGAADTEAFVSLVHESGVCSRLWMNGMAAQVGPRFHVLGSEAGYTKWGLDGQEPALAAGVTPSDPGYGVDPQESWGILGVDGSATPVPAERGAYPEFYVRLAAALRGEGPLPVDAAGPLEVLKVIEGIHALA	PGPT0018530_422	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018530-iolW-K16044	NA	NA
D1-17_03751	810	glnQ_4		Glutamine transport ATP-binding protein GlnQ	ATGAGCCTCGCCAGCAGCAGCACCAGCAATCCCACTGCAGACAAGAAACCCTCGGGCAAGAGGGCCGCAGACATTGAGACCTTCCACGGTTCCAGCCTCGAACTGCGGAACCTGACCATGGCCTACGGCGACATGGAGGTCCTCCGCAACGTCAGCCTCACCGTCGCGCCCGGAACCACCACCTGCATCATCGGCCCCTCCGGCTCGGGCAAGTCCACGCTGCTGCGCGGGGTCAACCGGCTGCATGAACCCAAAAGCGGTGACGTGCTGCTGGCCGGCGAAAGCGCCCTGAAAGTCAAGCCAGACACCCTGCGCCGCCGCATCGGCATGGTGTTCCAGCACTTCAACCTCTTCCCGGACCACACCGCACTGGAAAACGTCGCCCTGGCGCTGTGGAGCGTGAAGGGCATGCCCAAGGCCGAGGCCATGGAACGCGCACGCCGCCGGCTCGCCGAAGTGGGACTGGCCGAACGCGCCGACCACCGCCCCCGGGACCTCTCCGGCGGCCAGCAGCAGCGCGTGGCCATCGCCCGGGCCCTCGCGATGGAACCGGAAGTGATGCTCTTCGACGAAGCCACCAGCGCCCTGGACCCCGAACTGGTCAAGGGCGTCCTGAACCTCATGGCCGGACTCGGCCGCCGCGGCATGACCATGCTCGTGGTCACCCACGAAATGGGCTTCGCCCGCAAAGTCGCAGACCAGGTGGTCTTCATGGACGAAGGCGAAGTCGTCGAGTCCGGCACCCCCGCCGACCTCTTCGATAACCCTCAAAGCGAACGCCTCCAGCGCTTCCTCTCCGAGGTGCTGTGA	MSLASSSTSNPTADKKPSGKRAADIETFHGSSLELRNLTMAYGDMEVLRNVSLTVAPGTTTCIIGPSGSGKSTLLRGVNRLHEPKSGDVLLAGESALKVKPDTLRRRIGMVFQHFNLFPDHTALENVALALWSVKGMPKAEAMERARRRLAEVGLAERADHRPRDLSGGQQQRVAIARALAMEPEVMLFDEATSALDPELVKGVLNLMAGLGRRGMTMLVVTHEMGFARKVADQVVFMDEGEVVESGTPADLFDNPQSERLQRFLSEVL	PGPT0020790_1313	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
D1-17_03752	789	yecS	COG0765	L-cystine transport system permease protein YecS	ATGGACTGGCTCAACATCATCAGCCGCACCTTCTTCGACATTGACGCGATGATCGAAGTGCTGCCCCAGCTCCTCGGGGTCGGCCTCATGAACACCCTGATCATCTCCATCGCAGCGACCGTCCTGGGCGTGGTGCTGGGCATGGTGGTGGCGGTCATGGGCATTTCCCGGTCGCGGTGGCTGCGGATTCCCGCCCGCATCTACACCGACCTTTTCCGCGGCTTGCCCGCCATCCTCACCATCCTGCTGATCGGCCAGGGCTTCGCCCGGTTCAGCCAGTCCGTCTTCGGACCATCCCCCTACCCTCTGGGCATCATCGCGCTGAGCCTGATCGCCAGCGCCTACATCGGTGAGATCTTCCGCGCCGGCATCCTCAGCGTGGACAAGGGCCAGGGCGAGGCCTGCCGGGCACTGGGCATGAGCTACGCCAAGTCCATGGCCCTGGTCGTGATCCCGCAGGGCATCCGCCGGGTCCTGCCGGCCCTGGTGAACCAGTTCATCGCCATCGTCAAGGACTCCTCACTGGTCTACTTCCTGGGCCTGCTGGTGACCGAACGTGAACTCTTCCGCGTCGGCCAGGACGCCGCCGTCCTCTCCGGCAACCTCTCCCCGTTGGTCATGGCCGGCATCTTCTACCTGATCATCACCGTGCCCCTGACCCATCTGGTCAACTACTTCGACAACAGGTTCCGCACCGGCCGTCGCCGCCCCACCGCGCCCACGTCCGGCCTGAACGAAGTCAAAGAACTCGATGCGGCATCGCCGCTCACCACCGGGAGCAACACATGA	MDWLNIISRTFFDIDAMIEVLPQLLGVGLMNTLIISIAATVLGVVLGMVVAVMGISRSRWLRIPARIYTDLFRGLPAILTILLIGQGFARFSQSVFGPSPYPLGIIALSLIASAYIGEIFRAGILSVDKGQGEACRALGMSYAKSMALVVIPQGIRRVLPALVNQFIAIVKDSSLVYFLGLLVTERELFRVGQDAAVLSGNLSPLVMAGIFYLIITVPLTHLVNYFDNRFRTGRRRPTAPTSGLNEVKELDAASPLTTGSNT	PGPT0020795_3442	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
D1-17_03753	870	hisJ		putative histidine-binding protein	GTGATCAAAATGAACTTTCGCCCTGCAGCAGTGGCCGCGGCAGCCCTGGCGGCAGTCCTCGCGCTCTCCGGCTGCGGCGGCTCCTCCTCGGCCAACTCCACCAGCACGCAGGAAAACCCTTACGGCCTGATTCAGCCGGGTACCATCCGGGTGGCCAGCCTGGGTGACTCCAAGCCGTACGCCTTCACTGACGCCCAGGGTAACTTCACGGGCTTCGATGTCGAACTCTTCAAGGACGTGGCCCACCGCGCCGGCGTAGACAACGTGGTCTTCACCGGACAGGATTTCTCGGGCCTGCTCTCGGCCGTAGCCAACGGCCAGTTCGACGTCGGCGTAGCCGCCATCGGCATCACGGACAAGCGCAAGGAAACCGTCGACTTCTCCAACGGCTACCTCGCCGGGTACCTGACGGTCATCACCACCAAGACCTCGGGCATCAAGGACGCCGACGGCCTGTCAGGCAAACGCCTGGGTGTGGTCCAGGGAACGCTTCAGGAGGCCTATGCCGTGAAGAACTTCACCTCGGCCAACCTGGTCCGCTTCCCGGACAACAACACCGCCATCGCCGCAGTCAACAGCGGCTCGGCGGACGCACACTTCCTGGATTACGAGGCAGCTAAGGCTTACCAGGAGCAGCACGGCCTGGTCAGCGCCGCGGACATCCCGTCCTTCGACGCCCCGGCAGGGTTCGCCATCGCCAAGGACAAGCCCGCCTTCAAGGAGGCGCTGAACAAGGGCCTCGCGGAAGCGATGGAGGACGGCACCTGGAAGAAGCTGTACCAGAAGTGGTTCCCGGGCTCCCCGATGCCGGAGCAGTACCTGCCCAAGGCAGAGCAGAAGGCAACCCCCGCCCCGACGGCAAGCAAGTAA	MIKMNFRPAAVAAAALAAVLALSGCGGSSSANSTSTQENPYGLIQPGTIRVASLGDSKPYAFTDAQGNFTGFDVELFKDVAHRAGVDNVVFTGQDFSGLLSAVANGQFDVGVAAIGITDKRKETVDFSNGYLAGYLTVITTKTSGIKDADGLSGKRLGVVQGTLQEAYAVKNFTSANLVRFPDNNTAIAAVNSGSADAHFLDYEAAKAYQEQHGLVSAADIPSFDAPAGFAIAKDKPAFKEALNKGLAEAMEDGTWKKLYQKWFPGSPMPEQYLPKAEQKATPAPTASK	PGPT0020800_4242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
D1-17_03754	1101	ccpA_6	COG1609	Catabolite control protein A	ATGAGCAGTGAAGGAAACAGGCGGCGCGACGTAACCGTTGCCGACGTCGCAAAAGCTGCCCAGGTGTCAAAAGCCCAAGCCGCCCGGGCCTTGGGAAACTACGGCGCGGTCAGCGAGGATGTGCGTGAACGGGTACTGGCGGCGGCGGAGGACCTTGCCTACCGGCCCAACGAACTCGCCCGCAGCATGAACACGGGAAAGTCCTACACCATCGGCGTGGTGGTGGGGGACATCGAGAACCCCCACTTCGGCCTCGCGACGAGGGGCATCACGGATGTCGCGAAGAAAAGCGGCTACAACGTCATCCTGATCAACACGGACGAGAACACCGCGGCCGAAGTGGATGCGGTACGCGTGTTGCTGGACAAACGCGCGGACGGGCTGATCGTCGCGCCGGCCTCCTCCGTTGATACCGGGCACCTGCAGCGGGTCCGGGATTCCGGCCGCCCGCTGGTCCTGCTGGACCGGACGGCGGGAGGACTCGACGTCGCCACCGTGGCCGTGGACATGGAACGGATCTCCTACGAGTCCACGCTCTATCTCCTCGGCGCAGGGCACCGGCGGATCGCCTTCATCTCCACTTTGAAGACCGATGCTGCCTACAGCGAGGGAATGCGCCTGGATTCCTCCCAGATCGAGGACCGGCTGGAGGGCATGCGGCGCGCCTTCCTGGAGGCTGAGGTGCCGTTCCCCGCCGACCTCGTAAGGCTCAACGCCGGCGACGCGGGTTCCATCCGGCACATCACCCGCGAGGTTCTTCAGTCGCAGGACCGGGCGACCGCCGTCGTCGCTTCTGACGGACTCATAGCCCTCAGCGTGGTGGAAGCCATCCAGGAACTGGGCCTTGAGATCCCTGCCGGCGTCTCATTCCTGATGTATGACGACCTGGCCTGGACGCGACTCACCACTCCGCCCCTCACGGTGATTGCACAGCCCGTGTACGACATGGGCGCAGCTGCTGCGAGCGCCCTCATCCGGCAGATCGAGGGCCGGCCGCCGCTGGCCACCGCCCCCGAGTTCACCGCAACGCTGGTGCGGCGCGGGTCGGTGGGCATTGTGCCTGTCGACTCCCAAGAGTCCGCCGCGGTGCCGGCGCTTTAG	MSSEGNRRRDVTVADVAKAAQVSKAQAARALGNYGAVSEDVRERVLAAAEDLAYRPNELARSMNTGKSYTIGVVVGDIENPHFGLATRGITDVAKKSGYNVILINTDENTAAEVDAVRVLLDKRADGLIVAPASSVDTGHLQRVRDSGRPLVLLDRTAGGLDVATVAVDMERISYESTLYLLGAGHRRIAFISTLKTDAAYSEGMRLDSSQIEDRLEGMRRAFLEAEVPFPADLVRLNAGDAGSIRHITREVLQSQDRATAVVASDGLIALSVVEAIQELGLEIPAGVSFLMYDDLAWTRLTTPPLTVIAQPVYDMGAAAASALIRQIEGRPPLATAPEFTATLVRRGSVGIVPVDSQESAAVPAL	PGPT0017992_1222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03755	429			hypothetical protein	ATGAAGTACATGTTCATCATGCGTTCCACCGATGAAGCCCTTGAAGCATCGAAGAAGATGCCGTTCGAGGAGATCATCAACAAGATGGGGGCCTACAACGAGTCCATGATGAAGGCCGGTGTGATGCTGGGCGGCGAAGGCCTCGCTGACGTGACGGAGGGCAACGCCTTCGTGGTCGACTTCTCCGAGGAGCCGCCTGTGGTGACCGACGGTCCGTACGGCGAGACGCATGAGCTGTTCAACGGGTTCTGGCTCGTCCAGGTGTCGTCCAAGGAAGAAGCGAAGGAATGGGCCAGCCGCTGCCCTCTCGGCCCCTGTTCGAAGCTGGAGGTCCGGCGGGTGACCGAGGCCGAGGACTTCGCCGACTTCGCCGACAACGAATACATCCAGAAAGAGGAAGGGTGGCGCCAGGAGCTGGGACAGCCCTGA	MKYMFIMRSTDEALEASKKMPFEEIINKMGAYNESMMKAGVMLGGEGLADVTEGNAFVVDFSEEPPVVTDGPYGETHELFNGFWLVQVSSKEEAKEWASRCPLGPCSKLEVRRVTEAEDFADFADNEYIQKEEGWRQELGQP	PGPT0030505_36	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
D1-17_03756	1272			hypothetical protein	ATGACCGGGGAAGCAGCGGCGGCCGCCGCACCGGATGCAGCCGTGCGGCGGCGCATCGAAGCGCTCTGGCGCATCGATGGACCGCACATCGTCGCAGCGCTGGCGAGGGTGACTCGGGATTTGGGCCTCGCGGAGGACCTGGCCCAGGAGGCTGTGGCGGATGCCCTGACCCAGTGGCCGGATGCCGGCGTCCCCCGGAACCCGGCCGCCTGGCTTACCACCGTCGCAAAACGCAAGGCGATCGACTCGTGGCGGCGGGCGGAGCTGCTCGAGGAGAAGTACCGCACCATCGCGCACGCACTCGCTGATGAGGACGGCGTGGCGTGGGAGCCTCTGGAGGACGACGTGCTCCGGCTGGTGTTCACGGCCTGCCACCCCGTCCTCTCACGCGAGGCCCAGATGGCCTTGACGCTGAGGGTAGTGGGCGGCCTTACGGCGGAGGAGATCGCGCGCCTGTTCCTCGTCCCGGTGGCCACCGTGCAGCAGCGGATCATGCGGGCCAAGAAATCCCTCGCGGCCGCACGGGTCCCGTTCGAGGTGCCCGAACCACAGGAGTGGGGTGAACGGCTCGGCGCCGTTCTCGGCGTCGTGTATCTCATGTTCTCGGAAGGCTACTCCGCCACCTCTGGGGACCGCTGGATCCGCCCGGACCTCGCCAACGAGGCACTGCGGATCGGACGCGTGCTGGCGGGGCTCGTCCCCCGCGAACCCGAGGCTCACGCACTCGTGGCCCTCATGGAATTCCAGGCGTCGCGCTTCGCTGCCCGCACAAAGGCCGACGGCACGCCCGTTCTGCTGGCTGACCAGGACCGTACCCGCTGGGACTGGGCCCAGATCCACCGCGGCCGGATCGCACTGGCCCGCGCCGATTCGCTTGCGGAGGCCCTGGGGCGTGGCAGGCGGAGCTACGCCCTGCAGGCGGCCATCGCCGAATGCCACGCGCTTGCCCCCAGCGTTGAGGAGACGGACTGGCAGCGCATTGTCCTGCTCTATGAGGTGCTGGGCCGCGTGGGACCAAGCCCCGTGGTCGAGCTCAACCGCGCCGTGGCCGTGTCCATGGCCACGGGTCCAGCCGCAGCACTCGCCATCGTGGACCGTCTCGTCTCAGACGGCGCCCTCCGGGGAGGTCACCTGCTGCCCAGCGTCCGCGCCGAACTGCTGGCGCAGCTGGGACGGGCCAAGGAGGCGCGCGCAGAATTTACGACGGCGGCCGGCCTCGCCAGGAACAGCCGCACCCGGGCCGTCCTGGAAGCCAGGGCGGCGGGGTTGTGA	MTGEAAAAAAPDAAVRRRIEALWRIDGPHIVAALARVTRDLGLAEDLAQEAVADALTQWPDAGVPRNPAAWLTTVAKRKAIDSWRRAELLEEKYRTIAHALADEDGVAWEPLEDDVLRLVFTACHPVLSREAQMALTLRVVGGLTAEEIARLFLVPVATVQQRIMRAKKSLAAARVPFEVPEPQEWGERLGAVLGVVYLMFSEGYSATSGDRWIRPDLANEALRIGRVLAGLVPREPEAHALVALMEFQASRFAARTKADGTPVLLADQDRTRWDWAQIHRGRIALARADSLAEALGRGRRSYALQAAIAECHALAPSVEETDWQRIVLLYEVLGRVGPSPVVELNRAVAVSMATGPAAALAIVDRLVSDGALRGGHLLPSVRAELLAQLGRAKEARAEFTTAAGLARNSRTRAVLEARAAGL	PGPT0014960_87	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-17_03757	339			hypothetical protein	ATGAAGAAACTCACTACTGCCGTGCTGGCCGCCGGGCTCCTGCTGTCCGCCTCCGCCTGCTCCTCCCCGCAGCTTTCAACTGCGGAAACCTGCGACCGGGTCAGGACTGTCGTGTCCAGCCCCACCGGAAACATGGGCAAGACGGGAATGATCAAGCTTGCCAACCAGATCCGGCCCATCGAGGCCGTGTCCTCGGACGATCTCAAGCCTGCCCTGCGGGCCATCCTGGACTACGCGGACGAATCCGTGAAGGAGCACCCGGACTCCGCAAAGCTCCAGCAGCTGTCGACCGCCTACCAGGATGCCGGCAGCACCTACAGCAAGTTCTGCGCCCAGTAG	MKKLTTAVLAAGLLLSASACSSPQLSTAETCDRVRTVVSSPTGNMGKTGMIKLANQIRPIEAVSSDDLKPALRAILDYADESVKEHPDSAKLQQLSTAYQDAGSTYSKFCAQ				NA	NA	NA	NA	NA
D1-17_03758	573			hypothetical protein	ATGACGTCAAGCTTCAGGTATGAGGTCGAGGTCCTGCATCTGCTGGTGTCACCGACACACGCCTACTTCGGCCGGGCCCGTGAAGGCGCCGCTGACGTCCCGGGTGCAGAGGCCGGCTCAGTCGAGTTGGTGGCCGGCAAAGGAATTGTGGGTGACAGGTTCTTCGGCAAGGCCGCCCACATGGATGCCGCAGTCACCCTGATCGCTGTGGAGGCGCTCGAAGCCATGGCTGCCGAACTGGGAGCGGGCCCGTTCAACCCGCTGCTCACGCGGCGGAACATCGTGCTCAGAGGAGCCCACCTTCCCCCGCTGCTGGGCAAAGAATTCGCCTTGGAATCACGCGGGGAACTTCTGCAGCTCAAGGCCGGTCGGCCTGCCCATCCCTGTGCGTGGATGGACCAGATGCTCGCCCCGGGCGCCCATAAAGCAATGCGCGGATGCGGAGGCATACGTTGCCAGTCACTCTCGAGCGGAGCCCTGCATCGAGGCCCGGCTGTGCTGGTCAGTCCCGTGCCCCTGGAACCGGGTGCCGCCGGCACGCCCGCGGTGCTGCGGCCCACGCGCCTTCCGTAG	MTSSFRYEVEVLHLLVSPTHAYFGRAREGAADVPGAEAGSVELVAGKGIVGDRFFGKAAHMDAAVTLIAVEALEAMAAELGAGPFNPLLTRRNIVLRGAHLPPLLGKEFALESRGELLQLKAGRPAHPCAWMDQMLAPGAHKAMRGCGGIRCQSLSSGALHRGPAVLVSPVPLEPGAAGTPAVLRPTRLP				NA	NA	NA	NA	NA
D1-17_03759	405			hypothetical protein	ATGGCGCGGCGCGGCTGGATCTGGCTGATCGTCGCCGGATTCGCTGTTTCCATTGCGGGTATTATCGTTGGCCTGCAGAAGGTTGGCCCCCTTTGCGGCAGCCCGCTGCTTCCGCAAAGCCGTGAAGCCGAGATCTTCGATGCCCTGCGGACAGGGTCGCGGGCGGCGGGTGAGTGCTACCGGAACATCGATGCCGCCTCGGTTCCGACGTGGGTCCTGATCGCGCTGGGCATCGTGGTGGTTTTGATCGGCGTCGTCATCCGCGTTGTCGCCATCAACCGCTTCTCCACACCGGTCCCGTCCGTTGCTGCGCAGTTGGATGAGCTGGCGCGCCGGCACACGCAGGGCCTGATCAGCACGGAGGAGTTCAAAGCCAGGCGGGCTGAGTTGCTCAACGGCCTGTAG	MARRGWIWLIVAGFAVSIAGIIVGLQKVGPLCGSPLLPQSREAEIFDALRTGSRAAGECYRNIDAASVPTWVLIALGIVVVLIGVVIRVVAINRFSTPVPSVAAQLDELARRHTQGLISTEEFKARRAELLNGL				NA	NA	NA	NA	NA
D1-17_03760	123			hypothetical protein	ATGAAAGTACGGAACTCCCTGCGCGCGCTGAAAAAAATTCCCGGCGCCCAGATTGTCCGGCGGCGGGGCAGGACCTTTGTCATCAACAAGAAAAATCCGCGCATGAAGGCGCGCCAAGGCTGA	MKVRNSLRALKKIPGAQIVRRRGRTFVINKKNPRMKARQG				NA	NA	NA	NA	NA
D1-17_03761	1128	yciC	COG0523	Putative metal chaperone YciC	ATGAACGTGACTGTTGTTAGTTCCCTGGATGTGTTCAGTCGTCAAAGAGCTTGCGCCGCTCTGGCTGCGGAGGAGGCAGGTTCAAGTGTTGTCTTCCACGACCTGCTGGAAGACGGCGTGGTTATCGGAAGGATTTTCCAGGAAGGGCGGCTCCTTGAGCGGGAAGAGTCCACATTGGAACATGGCTGCCTGAGCTACACGGTCCGCCTCGACGTCGTTCCCGCGGTCGCGAAGATGCTGAGGAAAAATTCCAGGATTGTGCTGGGGCTGCCGGCGGCGGTCTCCGCAACAACAGCGGTCCAGGCCCTTCTGAAAGGCCTCGGGGACGCCCTCACCATTGACTCCGTCGTGCTGGCGTGCGCACCGGACGCCGTTGAGGACCAGGTGTGGGACCACCACACGCTTTTTGAGTCGGGCTTCACTCCTGTACCGGAGGATGAGCGGACGCCGGGGGAGTTCCTGATGGGCGAGTTCGCGTTCAGTGACACGGTCGTGCTGGCCGATCCGGCGCTGGTGCCGGTGGATCCTGTGGCGCGTAACCGCGGCGTCCGGCTCATCCGGGAACTGGCTCCGCACGCTGTGGTGACGGAAAGCGGCGGTGAGGTCCGGACGGGCCGCCACCACCTGGCTGAGGCCACGGCACGTACCGTGCCCGGTTCAGTCCGGCTTCCCGAACAGTCCTCCTTGCCCTTCCGGACGGTTGTCCAGCGACTCGGGCGACCCTTGCACCCGGAACGCTTCCGGCATGCCTTGGCAGCCCTCGCCGAGGGGAGTTGCTGGGTGCGGGGCCGCCTATGGGTCGCCTCAGCACCCGACTGCAGGATTGCCATCCAGGGCATTGGGCCGCGGATCTGGCTGGAAGACACGGGGTCTTGGCGGCTCCGTCAGGATCCGCCTCCCGCCGACGTGCTCAGCGGCCAGAACGCCGGTCCCGAAACGGTTCCAGCTTCCTGTGACCGCGAAACGGTTCTTGCTGTCACAGGCGACGACGTCGACCCGGCCGAGATCGCCGCCCTCCTCAGCGCCTGCGAACTCACCGAAGCCGAGATGGCGGCCGGGCCGGGCGCAATCAACGATCCATTCGGCCTGAAACAGAACGCCGAACCAACTAAAAGGAGCACATCATGA	MNVTVVSSLDVFSRQRACAALAAEEAGSSVVFHDLLEDGVVIGRIFQEGRLLEREESTLEHGCLSYTVRLDVVPAVAKMLRKNSRIVLGLPAAVSATTAVQALLKGLGDALTIDSVVLACAPDAVEDQVWDHHTLFESGFTPVPEDERTPGEFLMGEFAFSDTVVLADPALVPVDPVARNRGVRLIRELAPHAVVTESGGEVRTGRHHLAEATARTVPGSVRLPEQSSLPFRTVVQRLGRPLHPERFRHALAALAEGSCWVRGRLWVASAPDCRIAIQGIGPRIWLEDTGSWRLRQDPPPADVLSGQNAGPETVPASCDRETVLAVTGDDVDPAEIAALLSACELTEAEMAAGPGAINDPFGLKQNAEPTKRSTS				NA	NA	NA	NA	NA
D1-17_03762	1017	znuA	COG0803	High-affinity zinc uptake system binding-protein ZnuA	ATGAATCCCCATCTACGCGCCGCGCTTGTTGTGCCTTTTTTGTCCGCTTTTGCCCTGACGGCCTGCTCAACCGGCAGCCCTTCCGGCTCTGAGGGCACTGCCGGTGATGGGGAATCCCTGAAGGTCATGGCTTCGTTCTATCCCCTGCAGTACGTCACGGAGCAGGTGGGCGGCGACCTTGTCCAGGTCGAATCGCTCACTCCGCCCGGCACCGAGCCTCATGACCTTGAGCTGTCCCCCGCCTCCGTGGCAGCCGTGGAGAAGTCTGCGGTCGTCGTTTACCTTTCGGGTTTCCAGCCCGCCGTGGACGAAGCCATCAAGCAGGCAGCCCCCGCCCATGCCCTTGATGTGTCAGCGGAGGCCGCCCTGCCCGCCGGCCACTCTGAAGAAGAGCACGCCAGTGAGGGTGCCACGTCCGGGACCGAGGCAGCCCACTCTGAAGCAGAGTCTTCGGAAGCAGCGCACAGCGAGGAAGCCGGGCACACCGGCGAAGCGCACGCAGGCGAGGACCTGCACTTCTGGCTCGACCCCGAGCGGCTTGCCCACACGGCCAGTGCCGTTGCAGGGCAGTTGGGTGAGGCCGATCCTGGCAACGCAGCCACCTACAAGGCCAACGCGGAAGCCCTTGCCACGAAGCTGACCACCCTGGACAAGGACTTCAGCCAGGGCCTCGCCACATGCAAGACCCGCACCATGGTCGTCTCCCACGAGGCCTACGGCTACCTCGCGGAGAAGTACAAGCTGAAGCAAGTCGGCATCTCGGGCCTGTCGCCGGATACGGAGCCGTCACCGGCAAGGCTGGCGGAAATCGGCAAGGTGGTCAAGGATGAAGGAGTGAGCACCATCTTCACCGAAACCCTCGTCAACCCCAAGGTCGCCCAAACCCTGGCTGCAGACCTTGGCGCCAAGACGGCCGTCCTTGACCCGCTTGAGGGCCTGACTGACGAGAGCTCGGACTACGAGAAGATCATGCGCAAGAATCTTGGGGCGCTGCGCTCGGCCCTGAGCTGCGCCTAA	MNPHLRAALVVPFLSAFALTACSTGSPSGSEGTAGDGESLKVMASFYPLQYVTEQVGGDLVQVESLTPPGTEPHDLELSPASVAAVEKSAVVVYLSGFQPAVDEAIKQAAPAHALDVSAEAALPAGHSEEEHASEGATSGTEAAHSEAESSEAAHSEEAGHTGEAHAGEDLHFWLDPERLAHTASAVAGQLGEADPGNAATYKANAEALATKLTTLDKDFSQGLATCKTRTMVVSHEAYGYLAEKYKLKQVGISGLSPDTEPSPARLAEIGKVVKDEGVSTIFTETLVNPKVAQTLAADLGAKTAVLDPLEGLTDESSDYEKIMRKNLGALRSALSCA	PGPT0004220_856	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
D1-17_03763	747	mntB_3	COG1121	Manganese transport system ATP-binding protein MntB	GTGTCGGTTGAAACCGGCACCATACTGCATGGAATCGACCTCACCGTCACGGACGGTGAGGTCGTTGCCCTGCTTGGGGCCAATGGGTCCGGCAAATCAACGCTGGTTAAAGCCCTGACAGGGATCGTGCCGATCACTTCCGGTCATGCAGAAGTCTATGGTGCGGACGTTACAGCAGCCCGCCGGTCCGTACCCTGGTCCCGGGTCGGCTACGTACCCCAGCGGATGGGGCCGAGCTCCGGAGTGCCGGCCACCGCCGTCGAAGTCGTGGCCTCCGGGCTGCTTGACGGCAGGCGCCTGCGCCCCGGCCGCGGTGCCCGCCGGAAATCGCTGGAGGCCCTCGATCAAGTGGGCCTGCTGGACCGGGCCCACGACAGCGTCCAGGTGTTCTCCGGAGGCCAGCAGCAGCGCGTCCTGATTGCCCGCGCGCTTGTCCGGGACCCCGACCTGATCATCCTGGACGAGCCCCTCGCAGGGATCGACCGGGCCTCCAAGGAAGCGCTGGCCCTCACCCTCGGGCAGATGCAGACGAAAGGCACCACCATACTCGTCGTCCTGCACGAGCTTGGAGAACTCCACGGTCTCATCGGCCGTGCCGTGGTGCTGCGCCACGGCCGGATTGTCTTTGACGGTCCACCGCCCTCAGCGGCCCCCGGTCATGACCACCCGGACCATGACCACGTTCACGCGCACGGGGACACACCGCCACCCGGACACAAAGTCCCCGACCTTCGTTCGGAATGGTGA	MSVETGTILHGIDLTVTDGEVVALLGANGSGKSTLVKALTGIVPITSGHAEVYGADVTAARRSVPWSRVGYVPQRMGPSSGVPATAVEVVASGLLDGRRLRPGRGARRKSLEALDQVGLLDRAHDSVQVFSGGQQQRVLIARALVRDPDLIILDEPLAGIDRASKEALALTLGQMQTKGTTILVVLHELGELHGLIGRAVVLRHGRIVFDGPPPSAAPGHDHPDHDHVHAHGDTPPPGHKVPDLRSEW	PGPT0004230_295	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
D1-17_03764	909	znuB	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGCTCGACGCTTTGTTGTTGATGCTGTCCAGCCCGCTCATGCAGCGGGGCCTGGTGGTTGCCGTCCTCGTGGGCATCTCGGCGCCTGTCATGGGGACGTACCTCGTGCAACGCCGGCTCGCTCTCCTCGGCGACGGCATCGGGCACGTGGCGCTGACCGGCGTGGCGATGGGCTGGCTCGCCGGCAGCGCCGCGGGCCTCACCCCGCACGACCTGCTGGCCATACCGGGCGCCGTCATTGCAGCGATCATCGGTGCCGTACTCATTGAAATTGTCAGGGAGAAGGGCCGGACCAGCGGTGATGTCGCCCTCGCGCTGCTCTTCTATGGCGGCATTGCCGGCGGCGTCCTGCTGATCGGCCTGGCCGGGGGCACTGCGGCAAACCTCACGGGTTATCTGTTCGGATCCATTTCCACCGTCACCACCCTGGACGTCTGGCTAACGGCAGGCCTGGCCCTCGTTATCCTCGGCATCGGCCTGGGCCTCCGCCCGGCACTGTTCGCCCTGTGCCACGATGAGGACTTCGCCCGTTCCACCGGCCTCCCCACCCGCGCGCTGAACATCATGGTGGCCGTGCTGGCTGCCCTGACCGTCTCGGTGTCGATGCGCGTCGTCGGGGTCCTCCTCGTCTCTGCCCTGATGATCGTGCCGGTAGCCATCGCACAACTCGGCGCCCGTTCGTTCCGTGCAACCATGACGACGGCGATGGGCATAGGTGCCGCTGTGTGCGTCACCGGCCTGTCCATCACCTACTTCCAGGAGCTCTCGCCGGGTGCGACTATCGTCATCCTTGCCATCGGCCTGTACGCCGTAGTCGCCGTCCTCCGGCCGCTGCTCAGGCGTCCGGCACGGGCCAAGGATCCGCACCTCGATGCGGAGGACGATGTCCAGGTGGCCGCGAGAACCTGA	MLDALLLMLSSPLMQRGLVVAVLVGISAPVMGTYLVQRRLALLGDGIGHVALTGVAMGWLAGSAAGLTPHDLLAIPGAVIAAIIGAVLIEIVREKGRTSGDVALALLFYGGIAGGVLLIGLAGGTAANLTGYLFGSISTVTTLDVWLTAGLALVILGIGLGLRPALFALCHDEDFARSTGLPTRALNIMVAVLAALTVSVSMRVVGVLLVSALMIVPVAIAQLGARSFRATMTTAMGIGAAVCVTGLSITYFQELSPGATIVILAIGLYAVVAVLRPLLRRPARAKDPHLDAEDDVQVAART	PGPT0004225_199	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
D1-17_03765	1554	cntA_3	COG0747	Metal-staphylopine-binding protein CntA	ATGATGTGGCGGAAAATAAGTGCAGCGGGAGCGTCGGTGGCCGCACTGTTGCTGGTGGCGGCGTGCGCCGGAGAGGGTGCAAACAGCACCTCCAACCCGGAGCGGCCGCTGAAGGTGGTGGGGCAGTTCGAGCTTCACAGCTTGGACCCGTCCAACGGCGGGGGCTTTTTTACCCGTCTGCAGGTGGCGGAAACCCTCGTTGATGCGGACATCCATGGTGCGCTGCAGCCCGGCCTGGCCACCCGCTGGGACGTAGACCCCGGAGGACTCACCTGGCGCTTCAATCTCCGCGCCGGCGCTTCGTTCCATGACGGCACGCCCGTCACCGCTGCTGCTGTAGCCGCTGCCCTGCAGACCGCCAAGGCCAAGGCCGGAACCCCCTTGTCCACAGTGCCGGTGAAGGCCATCGCAGCAGACGGCGGAGCTGTGCGCGTCGATCTGGTGCAGCCCTACGCTCCCCTGCCGGCGGTTCTTGCCCACACCAGCACCCAAATCCTGGCACCGAGTTCCTACAGCTCCGACCGCAGGGTGACGTCAGTGGTGGGATCCGGCCCCTACCGGGTCAAGCGGCTGGAACAGCCGGCCGACGTCGATCTCGTGGCCTTTGACCAGTGGCAAGGCAAAAAACCCGCGATTACGGAAGTGAGCTACCAGGCGGTGGGCCGAGCCGAAAGCCGGGCCCTGATGGCCGAAAGCGGCCAGGCCGACGTGGTCTTCGGCATGGATCCGACCAGCCTGCAGCGCCTCAAGCAGGGCGGAAAGCTGACCATCAAGGACGTCACCCTGCCCCGCACCATCCTGCTCAAGGTCAACGCCAAACACCACATTCTCGGTGACACCCGCGTCAGGCAGGCGCTGAGCATGGCGCTGGACCGGCAGTCGATGGCCACTGCACTGCTGAGGGATCCAGAGATGGCAGCCACGCAACTGTTCCCGCCATCGCTCCCGGAATGGCACCAGGATTCGGTGGCGCCCCTAAGCCATGACCCCGACGCAGCCAAGGAACTGCTGGCGAGGGCCGGCTGGCGGGAAGGCAGGGATGGCATGCTCGAGCGCGGCGGCCAAAAGTTCTTCGTCACCCTGCGCACCTTCCCCGACCGTCCCGAACTGCCGGTCCTGGCCACAGCCATCCAGGCGAAGCTGAAGGAGCTGGGGATTACCGTGAACGTCAAGGTGGGCAACTCCAGCGAAATCCCGGCCGGGCACCAGGACGGTTCACTCGAGCTTGGCTTGTACGCCCGCAACTATGCCCTCGTGCCCGATGCACTGGTCACGCTCGCGGGTGACTTCGGAGCGGGCGGCGGGGACTACGGCGCGATGGGCTGGAACAGCCCGGCGCTCACATCGACCCTCAACACCATGGCCAGCGGCAGTGATCCCGACGGCCTGAAGGAAGGCCGGCGGCAGGTGAGCGAGATCCTGCAGCGCGACCTGCCTGTCATACCTGTCGCCTGGTACCGGCAGAGCGCGGTGGTGAGTAAGCGCGTCGGGGGACTTGAACTTGATCCGCTGGAACGTTCCTGGCGGCTCACCGAACTCACCTGGGCGAAGTAG	MMWRKISAAGASVAALLLVAACAGEGANSTSNPERPLKVVGQFELHSLDPSNGGGFFTRLQVAETLVDADIHGALQPGLATRWDVDPGGLTWRFNLRAGASFHDGTPVTAAAVAAALQTAKAKAGTPLSTVPVKAIAADGGAVRVDLVQPYAPLPAVLAHTSTQILAPSSYSSDRRVTSVVGSGPYRVKRLEQPADVDLVAFDQWQGKKPAITEVSYQAVGRAESRALMAESGQADVVFGMDPTSLQRLKQGGKLTIKDVTLPRTILLKVNAKHHILGDTRVRQALSMALDRQSMATALLRDPEMAATQLFPPSLPEWHQDSVAPLSHDPDAAKELLARAGWREGRDGMLERGGQKFFVTLRTFPDRPELPVLATAIQAKLKELGITVNVKVGNSSEIPAGHQDGSLELGLYARNYALVPDALVTLAGDFGAGGGDYGAMGWNSPALTSTLNTMASGSDPDGLKEGRRQVSEILQRDLPVIPVAWYRQSAVVSKRVGGLELDPLERSWRLTELTWAK	PGPT0004430_15137	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
D1-17_03766	993	gsiC	COG0601	Glutathione transport system permease protein GsiC	GTGCAGATTTCGACATCACCGGCCACGCAGCGGACTGCCGGACCGGTCGTCCGGGTACTCCGCGAGCGGGCCGTCCAGGCCATCACAGTGGTGCTGCTCGTCTCTACCGCCTGCTTCGCCATCGTTCAAAGCCTGCCGGGCGACATCGGCTTCCGCATCGCTGCAGGACGTTACGGCTACGACCAGGTCACAGCAGCGTCGGCCGACGCCGTCCGCCATGAGCTCGGACTGGACCGCCCCGCATGGCAGCAGCTCCTCGACTGGCTCGGCGAACTGCTCTCCCTCAACCTGGGAACCTCTCTGGTCACCGGGGCCAGCGTCCGCACAGAAGTAGGGCTTTATCTCTCAAGCAGCATCCAGCTCGCGGTGGCGGCGCTGGTTGCCGGGCTGGCTGTCGGCGCCACTGTCGGAACCTTCGCCGCAGCGAGGCCGGGCGGCCTGCTGGACCGGCTCACCACACTGTGGGTTTCCGCAGCGAGGGCGCTGCCGCCGTTCCTGCTGGGCCTGGTGCTCATCCTGGTTTTCTCCGTCCAACTCGGCGCCCTGCCCGCTGCAGGACACGGGGAAACCGGCAACATCGTGCTGCCGGCCGCGACGCTCGCCGTCGGACTTTCCGGGCTTTTTGCCCGGGTTACCAGGGACGCCGTGGTGCAGGTCCGGCAGTCCGACTATGTCCGCTTCGCCGCCACCAAGGGACTGGGCGAACGGCTCGTGTTCTTTCGGCACGTCCTAAGGAACACCGGCGTGACGCTGATTGCGTATGTCGGCGTGCAGCTGCTGATCCTCATCGAAGGCGTGGTCGTCGTCGAGAGCCTCTTCGCCTGGCCAGGCCTGGGCCACGCCCTGGTGCATGCCATCTTTTGGCGGGACATCCCCGTGATCCAAGCGGCGGCGCTGGCCCTCGCCCTCCTCGTCGTCGTACTGAATACTGTGGTCGACCTGGGGTCGCTCGCGCTTGATCCCCGCCCCCGCCGCCGGGAGGCAGTGCGATGA	MQISTSPATQRTAGPVVRVLRERAVQAITVVLLVSTACFAIVQSLPGDIGFRIAAGRYGYDQVTAASADAVRHELGLDRPAWQQLLDWLGELLSLNLGTSLVTGASVRTEVGLYLSSSIQLAVAALVAGLAVGATVGTFAAARPGGLLDRLTTLWVSAARALPPFLLGLVLILVFSVQLGALPAAGHGETGNIVLPAATLAVGLSGLFARVTRDAVVQVRQSDYVRFAATKGLGERLVFFRHVLRNTGVTLIAYVGVQLLILIEGVVVVESLFAWPGLGHALVHAIFWRDIPVIQAAALALALLVVVLNTVVDLGSLALDPRPRRREAVR	PGPT0004445_4955	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
D1-17_03767	825	nikC	COG1173	Nickel import system permease protein NikC	ATGACGACGCCAACCATCCTTCGCCGCCCTGTAGAGACGGCAACCGGGCAAGGCATCCGACACGCTGCCGCTGCTGCCCTCACCCTTCTCCTGCTGTTCGCTCTCCTTGGCCCGCTTGCCTGGCCGGACCACTCGGCCCAGGACCTGTCGCGCTTCCTTGAGGCACCCAGCCTGGCTGAACCGCTCGGGCGGGACCATCTGGGCCGGAGCGTCATCGCCCGCCTGGCTCACGCGACGCAACTGTCGACGGTGATGGCCGTGCTGTGCGTGGCGACTGCCCTGGTGGTGGGAACCTTGGCCGGGATTATTGCGGCCTGGCGCGGAGGATGGGCCGATGCCCTGCTGCACGGCCTGTCAGAGGCATTTATTGCCGTGCCGGCCCTACTGGTGGTCCTCATGTTCTCGGCTGTCGCGAATGGCGACCTGTGGACCCTCTACGTCGGGCTGGCCCTGGCACAGTGGGTGGAGTACTTCCGCGTGGTGCGCGCCCGCAGCGGCCTTGTGCTTGCCGGACCTGCCGTCGAGGCCGCGGGACTGCTCAAACTGGGCCGGGTCCACATGCTGCGCCGGCACCTCTGGCCTGAACTGCGGCCGCTGCTGACCACGATGGCCACCTTCGGTGTCGGAACTTCCATTATCGCCCTGTCGACCCTGGGCTTCGTGGGAGTAGGAATCCAGCCTCCTACTCCGGAACTGGGACTGATGATCACCGAGGCCTTCCCGTACTACCACGAGGCCCCCTGGATGTCCCTGGCGCCCGTCCTGATCCTCACCACTGTACTGATGGGGCTTCTGGCCCTGCGAAGCAAGGAATCCAGCTCATGA	MTTPTILRRPVETATGQGIRHAAAAALTLLLLFALLGPLAWPDHSAQDLSRFLEAPSLAEPLGRDHLGRSVIARLAHATQLSTVMAVLCVATALVVGTLAGIIAAWRGGWADALLHGLSEAFIAVPALLVVLMFSAVANGDLWTLYVGLALAQWVEYFRVVRARSGLVLAGPAVEAAGLLKLGRVHMLRRHLWPELRPLLTTMATFGVGTSIIALSTLGFVGVGIQPPTPELGLMITEAFPYYHEAPWMSLAPVLILTTVLMGLLALRSKESSS	PGPT0004450_15045	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
D1-17_03768	1452	yejF	COG4172	putative ABC transporter ATP-binding protein YejF	ATGACCATGCGCCTCAACCACCTCGCCGTCACCTCCGGCGGCACCACCCTTGTCGACGTCGAAAATCTGCACTTCGCGCCCGGACAGGCCGTCACGATCGTGGGTGAAAGCGGCTCAGGGAAGTCGCTGCTGGCCCACGCGATCATGGGAACGCTGCCGGCCAACCTAACCGTGCGGGGATCCCTGACCGTGAACGACAAGGCGTACGACCTGGCTGACCGGACCAACCGGCAGGCGCTGTGGGGCAGTGTCATGTCCCTGCTGCCCCAGGAACCGGTGCTGTCCCTCGATCCCACGATGCGGGTGCAGGAACAGGTCGCCGAGGGGGCCCGCTCCTTTCCCTCCGATAAGGGGGGCGCGCGCAGGACTGCCCTGACGCTGCTCGGCTCGCTTGGCTTGGGCCACGCGTCCCGCGCCTACCCGCATACCTTGTCTGGCGGTATGGCGCAGCGCGTCGCGTTCGCCGCTGCCACCATCGGCAATGCCCGGGTACTCATCGCCGACGAGCCGTCGAAGGGCCTGGACGAGGCCGCCCGCGGGGAGCTGGCCTCGCTACTCAAACGCCACCTCGAGGCCGGCGGCATCCTCCTGACCATCACCCATGACCTAAGCCTTGCCCGCGACATCGGCGGCACCGTCCTGGTGATGAAGGACGCCCACGTCGTTGAACAGGGCTTAGCCGGACGTGTCCTCACAGAACCAGGCCACCCGTACACCCGACGGCTGCTTAGCGCCGAACCGGTCAACTGGGGCTATTCCTGGGCAGCCAGCGTGACAGCTGGCCAGCCGGCAGGACAGCCGGTCATCACGGGAGAAGGACTTAGCAAGTCCTACAACGGGCAAGAACTCTTTGCCGATCTCTCCGTCACCGTAAGGCAGGGGGAACGGATCGCGCTCAGCGGCCCCAGCGGCAGCGGCAAGACAACGCTCGGCAATATTCTGCTGCGCCTGCTGCCGCCGGACAGCGGGAAGGTGTCCCATGCGGACGTGCTCGACGGCGGGCGGCTGCAGAAGCTCTACCAGGACCCCACGTTGGCATTCGCTCCCCGCGCCACCCTGAAAGACTCCTTCGGCGACGTGATGAGACGCCATCGGCTGGACCGCGACCGCCTCGACGAACTGATGGCTTTGCTCCGCCTTGCCCCCGGGCTGCTGGAGCGGATGCCGGGGCAGGTGTCCGGCGGGGAGCTGCAGCGCCTGGCCATCATTCGGGCCATGCTGCTCCGGCCGGCCCTCGTCTTTGCCGACGAGCCGACCTCACGCTTGGACCTCATCACGCAGCAGGAAACAATGAGCTGCCTGATGGACCAGGTGGGCAGCCACGGCTGTGCCCTGATGCTGGTGACCCATGACCAGAGCCTCGCAGACGCCGTTACTCACCGCAGTATCCAGCTCGATAGTGTCGCCAACAACTTGCGGGGACGGGAACTTCGGCCCGTTTCCGCGGAATAA	MTMRLNHLAVTSGGTTLVDVENLHFAPGQAVTIVGESGSGKSLLAHAIMGTLPANLTVRGSLTVNDKAYDLADRTNRQALWGSVMSLLPQEPVLSLDPTMRVQEQVAEGARSFPSDKGGARRTALTLLGSLGLGHASRAYPHTLSGGMAQRVAFAAATIGNARVLIADEPSKGLDEAARGELASLLKRHLEAGGILLTITHDLSLARDIGGTVLVMKDAHVVEQGLAGRVLTEPGHPYTRRLLSAEPVNWGYSWAASVTAGQPAGQPVITGEGLSKSYNGQELFADLSVTVRQGERIALSGPSGSGKTTLGNILLRLLPPDSGKVSHADVLDGGRLQKLYQDPTLAFAPRATLKDSFGDVMRRHRLDRDRLDELMALLRLAPGLLERMPGQVSGGELQRLAIIRAMLLRPALVFADEPTSRLDLITQQETMSCLMDQVGSHGCALMLVTHDQSLADAVTHRSIQLDSVANNLRGRELRPVSAE	PGPT0004435_6368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
D1-17_03769	219			hypothetical protein	GTGGCTGGCAGCAATGTTGAGACCTACTACGAAGACCTGCTGTGGAAGACCCGGCGGGAGGGGGCCGGGCCGTCGCTCGTGGTGAGCACGAGCCAGTCTGAGGCCCTGGATGCCGGCAGGCGGGCTGCGGTGCGGGACCGTGTGGACCACATTATTCGCGACATTGACGGCAGGCTCCTATGCCGGAACAGCTACAGGGACCTCCCCAACATCCGCTAG	MAGSNVETYYEDLLWKTRREGAGPSLVVSTSQSEALDAGRRAAVRDRVDHIIRDIDGRLLCRNSYRDLPNIR				NA	NA	NA	NA	NA
D1-17_03770	222			hypothetical protein	GTGGAGCTGGGGGATCGGACAGTATCCACGTGTTCGCGCTGGCTCGCCCTGGCCGAGGCCGCGGCCACGCAGAGCGTTCTGGCTGCCAACGCGATCGCAGTGGCGGTAGCCGGGATTTTGGTGCTTCCATCACTGTGGTGGCTTTACATCACCTTCCAGCGGGACCAGTTTCCCCGGACCGACGAGCCCAGCGAGTTACAGAAGGACGAGCCCCGCCAGTAA	MELGDRTVSTCSRWLALAEAAATQSVLAANAIAVAVAGILVLPSLWWLYITFQRDQFPRTDEPSELQKDEPRQ				NA	NA	NA	NA	NA
D1-17_03771	1233	garK_2	COG1929	Glycerate 2-kinase	ATGCTTGAACAGAGTCTGCGCGAGGTTATTGGCCCGCCGGCCGGCACGTCCGGTAGTGCTGCAGCAGCAGGGGCTCTGAAGACTGCCGGGTCGCCCCTCCGCATCCTGATAGCGCCTGACAAATTCAAGGGATGCCTCACAGCTGCGGATGTTGCCGGCGCCCTCCGGGCGGGAATCGCGTCTGGTGCGGTTGGTCCCAAGCCGCAGGTAACTCTGTTGCCGCTCGCAGACGGCGGGGACGGCAGCGTGGAGGCCGCGCTCTCCGCAGGTTTCCGCTTGGTGGCCATCCTCGTGCAGGGTGCTGACGGGCTCGTCCGCTCTGCCGGGATAGCATTCGACGGGACAACGGCCGTGGTGGAGGTTGCCGGGACCTGCGGGCTGGCAACCCTGCGCGGGCAACTGCGGCCGCTGGATGCCTCCAGCCGTGGCATCGGGGAGGCCATGCTCACCGCGGCGCTTTTGAAGCCCAAGCGTCTGGTGGTGGCCCTCGGCGGCAGCGCCAGTACCGACGGCGGCGCCGGCATGCTTGCCGCACTCGGCGCGCAGTTCAAGGATGCCGACGGCGATCTAGTGGAGCCCAATGGTGGTGAACTGGAACGCATTGCCGACGTCGATCTCAGCAACGTCTTCGACTTCACGGGCATCGAACTTGTCGGCGCCAGTGACGTAACGAATCCGCTCCGTGGGCATGAGGGCGCAGCCCACGTCTTCGGCCCCCAGAAGGGAGCCGATGCAGCAACAGTGGCTCGCCTCGACGCGGGGCTCTCAGCTTTGATCAGGGCCTGCAGGGGCGTTCCCAGCCTCGATCCGGAAAGGCTGGCAGACCGTCCGGGTGCCGGCAGCGCCGGTGGAATCGGCTTCGGACTCCTCCTCCTGGGCGGATCGCTCGTCTCGGGAGCGGACTACTTCCTGGACCTTCTCGGATTCGACGGGCATGTGCAAAAATCCGATCTGCTCATTACAGGCGAAGGGCGCCTTGACGCCCAAACGGCGGACGGGAAGCTTATTTCGGCGGTCTGCGCGCGGGCGGCAGGAACTCCCGTACGGGCGGTCGTGGGAAGCTCTGCCCTAGACGAAGCAGCGGCACAGGAACTGGGCCTGGAAGACGTCATTGCACTCCAGGACCTCAGCGCGCTCGATACGTCAAAGGACCCGGTCGCCGCCACAACCCTGCTTCAGCAGGCCGGCCGGAACGTGATCGATGCGTTCTCTGCACGGCAGCCAGCGGGTTAG	MLEQSLREVIGPPAGTSGSAAAAGALKTAGSPLRILIAPDKFKGCLTAADVAGALRAGIASGAVGPKPQVTLLPLADGGDGSVEAALSAGFRLVAILVQGADGLVRSAGIAFDGTTAVVEVAGTCGLATLRGQLRPLDASSRGIGEAMLTAALLKPKRLVVALGGSASTDGGAGMLAALGAQFKDADGDLVEPNGGELERIADVDLSNVFDFTGIELVGASDVTNPLRGHEGAAHVFGPQKGADAATVARLDAGLSALIRACRGVPSLDPERLADRPGAGSAGGIGFGLLLLGGSLVSGADYFLDLLGFDGHVQKSDLLITGEGRLDAQTADGKLISAVCARAAGTPVRAVVGSSALDEAAAQELGLEDVIALQDLSALDTSKDPVAATTLLQQAGRNVIDAFSARQPAG	PGPT0018175_425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-17_03772	687			hypothetical protein	GTGACCAGACTGATGACGGTTTCCCTTGTCGAGGCCATCGCGGCAGACATCAGATCGCGGATCCTCCGGGGCGACTACCCGGCCGACGCCTCCTTCAAGGAAGTGGAAGTAGCCGCCGAGTATGAGGTGGCCCGCCCCACCGCGAAGGCCGCCATTGAAAAACTCGTATCCGAGTCACTTCTGGTACGGCGATCCAACAAGACCGCACGCATAGTCACACTCACCCCGGATGACGTCCGGGACATCTACAAGACAAGGGCTCTGCTCGAAAAGGCGGCGCTCCTGCAGCTCGCCGGAGCCCGGTCCGTCCCGGCCAGCGCCCTTTCAGCGCAGGAGGAACTTGAGCGCCTCGGCGGCAGATCGGGCCTGGACATCATCGACCCTGACATGCGGTTTCACATGGCACTGGTAGACAGCCTGGAGAGCCCGAGAACCAGCCGGATGTACGACTCCCTGATCTCGCAGGTCAAACTCTGCATGGCCCAGGTTCAGGGCCTGCACCTTGTCCAGCCGGGGCGCATCATCAAGGAACACCGGCATCTCCTCGACCTGATCGAGGCCGGCCACGGAGGTGCTGCGGCGGAGTTTCTGGAGGAGCACCTCGCGAGACCCCGGGAACTGCTGGTCGCGGCTATCGGCGGGGAAGCAGGGTCCGAAGCCGATCTTGATTCAGTCACGGAGGGGTAG	MTRLMTVSLVEAIAADIRSRILRGDYPADASFKEVEVAAEYEVARPTAKAAIEKLVSESLLVRRSNKTARIVTLTPDDVRDIYKTRALLEKAALLQLAGARSVPASALSAQEELERLGGRSGLDIIDPDMRFHMALVDSLESPRTSRMYDSLISQVKLCMAQVQGLHLVQPGRIIKEHRHLLDLIEAGHGGAAAEFLEEHLARPRELLVAAIGGEAGSEADLDSVTEG				NA	NA	NA	NA	NA
D1-17_03773	210			hypothetical protein	ATGTGCCCTGGCCTGATCTTCGCCCTTCGGTCGAATTTCTACTCTATGACCGTTCGTGAAGTTGCAGGCCACATACTTGTTGGGCAGCGTAGTGGGTCAGAGAAAGTTGAACCTTTGGCTCTGGTGACCCGGCACGGAGCCGACAAGTTCAGTGTGGTGCTCAGTGATACTGTCCCCTTCGGCATTACCCGCGAGCTCCGCGCCTGGTAA	MCPGLIFALRSNFYSMTVREVAGHILVGQRSGSEKVEPLALVTRHGADKFSVVLSDTVPFGITRELRAW				NA	NA	NA	NA	NA
D1-17_03774	120			hypothetical protein	GTGAAAAAGCTGCTCTTGGCACTGGCCCCGGCAATCCTCAGCCGCATTCTTCGCGCACGCAGGGAAAAGCAGGCGCGCACCACGCAGACCCGGGGCCGAGACCGCCGCGACCGGCACTGA	MKKLLLALAPAILSRILRARREKQARTTQTRGRDRRDRH				NA	NA	NA	NA	NA
D1-17_03775	405			Universal stress protein	ATGAGCATCATTGTCGGATTCGTTCCCACGCCGGCCGGTGAGGCGGCCCTGACCGCCGGCATCGCCGAAGCGCAGCTGCGGAAGCAGAACCTGGTGATCGTCAATTCGGCCCGGGAGGGGGCGCTCGTGGACAAGGCTGTTGCGCCGGAGGACGTGCTGGAACGTGCGGCGCGCCGTGCCGCCGACGCCGGCGTCACCGCGTCGGTCATCCAGCCGCCCTACCAGCACGACCTCGCGGACGAATTCCTTGATGTGGCCCGCGAAGCCAACGCCTCCCTCATCGTGATCGGGCTGCGGCACAGGTCGCAGGTGGGCAAGTTCATTCTCGGCAGCCACGCCCAACGGATTCTCATGCAGGCGGACCGCCCCGTGCTCGCCGTCAAGGCCGATGGAGCGCACTTTTGA	MSIIVGFVPTPAGEAALTAGIAEAQLRKQNLVIVNSAREGALVDKAVAPEDVLERAARRAADAGVTASVIQPPYQHDLADEFLDVAREANASLIVIGLRHRSQVGKFILGSHAQRILMQADRPVLAVKADGAHF				NA	NA	NA	NA	NA
D1-17_03776	1533			hypothetical protein	GTGGATTTTCTGAATCCCGTGCTCAACGGATTTGCGGTTGTCCTGGAGCCCACCAATCTTCTGTACTGCCTGATCGGCGTCGTCATAGGCATGCTGATCGGTGTGCTGCCTGGGCTGGGCCCGGCCGCCACCATTGCCATCCTTCTTCCGCTGACATACAACGTGGAGCCCGTCACCGCCATCATCATGCTGGCCGGCATCTTCTATGGCGCCCAGTACGGCGGCACCATCACCTCTGTGCTGCTCCGCCTGCCCGGTGAGGCTTCCTCCGTGGTCACCGTCTTTGACGGCTACCAGCTGGCAAGGCAAGGCAAGGCCGGCACGGCGCTCGGCCTTGCCTCGATCGGTTCCTTCGTAGGCGGCACCGCGGCCATCATCGGCCTGACCTTCCTGGCCCCGGTGGTAGCCAGCTTCGCGCTCGACTTCGGACCCGCGGAATACTCCGCGCTCGCACTGCTCGGCATCCTTTTGGTGGCGACCATTAGCAGCGGCTCGAAGACCAAGGCCCTTATCGCCGCCGCGCTGGGACTGTTGCTCGCCACGGTAGGGCGCGATGCGTTCACCGGCGAGACCCGTTACACCTTCGGCAGCCTGCAGCTGGCAGACGGCATCGACTTCGTGCCCATCGCCATGGGCATCTTCGGCCTCGGCGAGATCCTCTACAACCTCGAGGAACGCCACCGCGCCGCGAAGGCGCCGTCCAAGGTCGCCAACGTGTGGCCCTCCCGCAGCGACCTGAAGCAGGCGTCCGGCTCTATCGGCCGCGGCTCCATTCTGGGTTTCTTCCTCGGCATCCTGCCGGGCGGCGGCGCCACCATCGCATCCATGGCCTCCTACGCCATGGAGAAGAAGCGGGCCAAGCAGCCCGAACGCTTCGGCAAGGGAGCCCCGGAGGGCGTGGCCGGACCGGAAACGGCAAACAACGCCGCAGCCACCTCTTCATTTATTCCGCTGCTTACCCTCGGCATTCCCGCCAACGCCACCATGGCACTGATGTTCGGCGCACTGCTGATCCAGGGCGTCACCCCCGGCCCCCAGCTGGTGGAGGAAAACCCGGACCTCTTCTGGGGTGTGGTGAACTCGATGTACATCGGGAACATCCTGCTGCTGATCATGAGCCTGCCGCTCGTGGGGCTGTTCGTGAAGATCCTCCGCGTCAGGGCAGCAATCCTCGCCCCGATCACGGCCCTGATCACTCTGCTGGGTGCCTACACGATCAACAACAGCATGTTCGACGTCACCCTCGTTGTGGTCTTCGGCGTGATCGGCTACCTGATGAAGAAGTTCGGCTTCGAGCCCGGTCCGCTCGTCCTGGCCTTCGTGCTCGGTGAACTACTCGAAAGCTCGCTGCGGCGCTCACTGCTCGTATTCGGCGGCGACCCCACGGGCTTCTTCGGGCGTCCGATCTCCGCCACACTGCTCCTCGTGTTCGTCCTGGTGGCCCTGTTGCCGGCGATCAAGACCACGGTGGCCAAGCGCAGGGCGGCTGCCATTCAGGTGCCCGAGACAGAACAGTTGAAGGAGAAGGTATGA	MDFLNPVLNGFAVVLEPTNLLYCLIGVVIGMLIGVLPGLGPAATIAILLPLTYNVEPVTAIIMLAGIFYGAQYGGTITSVLLRLPGEASSVVTVFDGYQLARQGKAGTALGLASIGSFVGGTAAIIGLTFLAPVVASFALDFGPAEYSALALLGILLVATISSGSKTKALIAAALGLLLATVGRDAFTGETRYTFGSLQLADGIDFVPIAMGIFGLGEILYNLEERHRAAKAPSKVANVWPSRSDLKQASGSIGRGSILGFFLGILPGGGATIASMASYAMEKKRAKQPERFGKGAPEGVAGPETANNAAATSSFIPLLTLGIPANATMALMFGALLIQGVTPGPQLVEENPDLFWGVVNSMYIGNILLLIMSLPLVGLFVKILRVRAAILAPITALITLLGAYTINNSMFDVTLVVVFGVIGYLMKKFGFEPGPLVLAFVLGELLESSLRRSLLVFGGDPTGFFGRPISATLLLVFVLVALLPAIKTTVAKRRAAAIQVPETEQLKEKV	PGPT0017350_676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-17_03777	624			hypothetical protein	GTGATCCAAGTGCAGGCAACACCCCCAGTGCCCGCCGGAGGGGGCAGCCACGTCGCTGCCCCCTCCGGCGGGGACGCCGCCCTTCCCGGCACCCCCGTTATCGACGGCGGCGCGCTCCCTTCGGGTGATTTGGACGGCTTCACGCCCGAACAGCTGGCCGCGCAGTGGGAAGAGGAAAAACCGCCCGCAGCAGGCCCTTTGGCGAACGCTGCCTCCTCCCTGGTGGTCCTCTGCCTGGGCGTCAGTGCCCTTGTCCTGTCCGTGGTGATGGGACTGGGAACCCCTGCAGCGCCCCAGCCCGGACTCTGGCCATTCCTGATCAGCTGCGTGATGGTGGCGCTGGGGCTTTACCAGCTGATCATCGGGCACCGTAACCGCGATGCCGAGAAGTTCACCCGCATGTCGATGGCGCCCCTGACCGGCCTGGTGACCCTGGCCCTCATGGTGGCGCTGATGCCCGCAGTCGGCTTCGAACTGCCAGCACTGGCACTCTGCATCGTCTGGATGCGGTTCCTGGGCAGCGAAACCTGGCGCTCCACGCTCGTGGTGAGCGCCGCCGTCGTCGGAGCGTTTTACGGGCTGTTTGTCCTGGCGCTCAACACCTCCATCCCCCATCTCTTCTAG	MIQVQATPPVPAGGGSHVAAPSGGDAALPGTPVIDGGALPSGDLDGFTPEQLAAQWEEEKPPAAGPLANAASSLVVLCLGVSALVLSVVMGLGTPAAPQPGLWPFLISCVMVALGLYQLIIGHRNRDAEKFTRMSMAPLTGLVTLALMVALMPAVGFELPALALCIVWMRFLGSETWRSTLVVSAAVVGAFYGLFVLALNTSIPHLF	PGPT0017355_234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
D1-17_03778	1002			hypothetical protein	ATGACGCGCTTCCCTTCCCGCCGTTCCATTCTCGGAACCGCTTCCGCCGTGGCCCTTCTGGCCCTGACCGCTTGCGGCAACGTTGCCGGCGGCAGCACCGATTCATCGAAGTACCCCAACGGACCCGTAAACCTCACCGTGGGGCAGGCCCCGGGCGGCAGCACGGACCTGATTGCGCGTGCTGTCTCCGAAGGTGCCGCCAAGACCCTCGGTGCCCCAATGCCCGTGGTGAACAAGCCGGGTGCCAATGGTGCCCTGGCCTCCAAGGAAGTTGCAGGCAAGCCCGCCGACGGGCAGAACCTGGTCCTGCTCAACGCCTCCCTGATCACCATCACTCCGCTTGCGGTGACTCCGGACGAGGCCGTGAACATCGACGATTTCGATGTGATCGGCGGCCTGTCCCAGGATGATTACGTCCTGGTGGCCAGCGGGAAGTCGGGTTTCAAGACCATCAAGGATGTCACCGGCGCCGGCCGCAACGTCACGTTCGGCACCACCGGCGTGGGCACCGGAAGCCAGCTCGCCCAGACCGTGCTGTTCAAGCAGGCCAACGTCAAGGGCACCGATGTTCCCTTCGACAGCGGCAAGCCCGCACTGACCGCCGTCCTCGGCAACCAGGTTGAACTGGCCACCATCCAGCTCGGCGAGGCAATGCCGCAGATCAAGGCAGGCAAGGTCGCCCCGCTGCTGGTGTTCTCCGAGGAGCGCAACACCTTCCTGCCTGATACGCCCACCGCCAAGGAGTCGGGCTACGACGTTCCGGTCGCCCAGTACCGGGCGGTCGCAGCACCGAAGGGCACCCCCCAAGAGGTCAAGGACAAGCTCGCCGCAGCTCTCCAGGAGACCTTTAAGTCGGATGCCTACAAGCAGTTCAACGAGCAGAACCTGCTGACGCCGAAGGAAATCTCCGGCGAGGAAGTCGTGGCCCAGTGGAAGGACTACGCCGCAAAGTACAAGTCCCTGGTGGAGAAGTACGACATCAGCCTCAGCGGAACGAAGTGA	MTRFPSRRSILGTASAVALLALTACGNVAGGSTDSSKYPNGPVNLTVGQAPGGSTDLIARAVSEGAAKTLGAPMPVVNKPGANGALASKEVAGKPADGQNLVLLNASLITITPLAVTPDEAVNIDDFDVIGGLSQDDYVLVASGKSGFKTIKDVTGAGRNVTFGTTGVGTGSQLAQTVLFKQANVKGTDVPFDSGKPALTAVLGNQVELATIQLGEAMPQIKAGKVAPLLVFSEERNTFLPDTPTAKESGYDVPVAQYRAVAAPKGTPQEVKDKLAAALQETFKSDAYKQFNEQNLLTPKEISGEEVVAQWKDYAAKYKSLVEKYDISLSGTK	PGPT0017360_676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-17_03779	885	hcaR_2		Hca operon transcriptional activator HcaR	ATGTTCACTTTCGACCAACTGGCAGGCTTCATCGCCGTGGCTGAGGAACTTCACTTCGGCCGGGCAGCAGAGCGGCTCAACATGACGCAGCCCCCGCTTAGCCGTCAAATCCAGAAGCTGGAAAAGGCAGTGGGCGCGGAACTGCTGGAGCGGGACAACCGGAAGGTCGAACTGACGCCGGCCGGCCGCGCCTTCCTGGACGAGGCCCGGCGGCTGATCGCCCTCGCCGAACGGGCGCCTGCTACGGCCCGGCGGATTGCCTCAGGGCGCTCCGGCCACCTGCGGATCGGCTTCACCGCCGCCAGCGGCTTCAGCATCCTCGGGCCTCTGCTCGAGGAGATCGCTGAGATCCTCCCGGACGTGGACATCGACCTCCAGGAACTCGTGACGGGCGAACAAATCATGGGCCTGCAGACCGGCGAACTGGACCTCGGCCTTGCACGGCCGCCGTTCGACAAGGAGACCTTCGATTCCCACCTCCTGTACCGCGAGGCCATGGTGCTGGCCGTCCCGTCCGGGCACCCGCTGGCCGAACTGGACCGGGACATTACCGACGAAGACCTCGGGAACGAACCCCTGATCATGCATTCACCCACCCAGGCCCAGTACTTCTACGACCTCGTGATCCGGATGATCCCCATCCAGCACGCAAACGTGGTTCACACGGTCAGCCAGATCCTCACCATGGTCTCCCTGGTTGCCGCCAAGCGCGGCGTGGCGTTCGTCCCGCACTCGGCGACCCTGCTGGGCATCCGCGACGTGGAGTTCCTGCCCCTCAAAAGCAGCGCCGGGGATCCGGTGGAACTCCACGCGATCTGGAACCGCAGCAACCGCAACCCCGCGCTGTCCCGTCTGCTGCACTCGCTCGAGTTCCCGGAGAACTGA	MFTFDQLAGFIAVAEELHFGRAAERLNMTQPPLSRQIQKLEKAVGAELLERDNRKVELTPAGRAFLDEARRLIALAERAPATARRIASGRSGHLRIGFTAASGFSILGPLLEEIAEILPDVDIDLQELVTGEQIMGLQTGELDLGLARPPFDKETFDSHLLYREAMVLAVPSGHPLAELDRDITDEDLGNEPLIMHSPTQAQYFYDLVIRMIPIQHANVVHTVSQILTMVSLVAAKRGVAFVPHSATLLGIRDVEFLPLKSSAGDPVELHAIWNRSNRNPALSRLLHSLEFPEN				NA	NA	NA	NA	NA
D1-17_03780	915		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	GTGGCCAGATACTCGCCCCAGGAACTTGCCGACACACTCAAGAACGGGCTGCTCTCATTCCCCGTGACGTCCTTCGATGCCCAGCTGCAGTTTGACGAGGAGAACTATCGCAAGCACCTGGCGTGGCAGGCCAGCTTCCCGGTCGCCGGGCTCTTCGCCGCAGGCGGCACCGGCGAGGGTTTCTCCCTGACTCCGGCCGAGTCGGAGCGTGTGGTGCGGGCCGCCGTCGACGAGGTGGGCGGCATTGTTCCGGTCCTTGCCTCTGCGGGCGGCTCCACCGCCCAGGCCATTGAAAACGCGCAGGCAGCCGAAGCCGCAGGCGCCGAGGGCATCCTGCTCCTGCCGCCGTACCTGACGGAAGCCGACCAGGGAGGCCTGATCGACCACGTCAGCGCCGTGTGCAGCGCCACGTCACTCGGCGTCATCATCTACAATCGCGCCAACGCCATCTACAAGGACACCACGGTGGCCGCCCTGGCGGACAAGCACGAGAACCTGATCGGCTTCAAGGACGGAGTGGGCGACCTCGAGCATGACGCCCGCGTGTACGCCAAGCTCGGCGACCGGCTGTTCTACCTCGGCGGGCTCCCCACGGCAGAGACGTTCGCGCTGCCGCTGCTGCAGCTGGGCATGAGCACCTACTCCAGCGCCATGTACAACTTCGTTCCGCAGTTCGCGCTCGACTTCTACCAGGACGTCCGCAACAACGACCGCATTGCGGTCAACCAGAAGCTCAACGACTTCGTCATCCCCTACCTGGACATCCGCGACCGCGTGAAGGGCTACGCCGTCTCCATCGTCAAGGGCGGCCTCGACGCCATCGGCCGTTCCGCCGGCGGTGTCCGTCCGCCGCTGCAGAACATGGCGGCGCAGGACCTGGCCGACCTCAGGGCGCTCATCGCGACCGTCTCCTAA	MARYSPQELADTLKNGLLSFPVTSFDAQLQFDEENYRKHLAWQASFPVAGLFAAGGTGEGFSLTPAESERVVRAAVDEVGGIVPVLASAGGSTAQAIENAQAAEAAGAEGILLLPPYLTEADQGGLIDHVSAVCSATSLGVIIYNRANAIYKDTTVAALADKHENLIGFKDGVGDLEHDARVYAKLGDRLFYLGGLPTAETFALPLLQLGMSTYSSAMYNFVPQFALDFYQDVRNNDRIAVNQKLNDFVIPYLDIRDRVKGYAVSIVKGGLDAIGRSAGGVRPPLQNMAAQDLADLRALIATVS	PGPT0018160_416	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018160-kdgD|ycbC-K01707	NA	NA
D1-17_03781	1629	LhpG		Alpha-ketoglutaric semialdehyde dehydrogenase 3	ATGACCCTCACAGGGCACTCACTGATTGCCGGACGCCCCGTCGCCGGCGAAGGCAAGAACGCCTTCGCCTACAACCCCGCCACGAACGAACAGCTCGAACCGGCCTACACCCTGATCACCGAGGACCAGCTCAAGGCCGCCACGTCGGCGGCCGCCGAGGCTTTCGAGTCATTCAGCAGGCTTGACCCCGAAACCCATGCCGCATTCCTGGACGGCGTCGCGGACAACATCGAGGCCATCGGCGAGGAACTCATTGTCCGCGCCAGGCAGGAAACAGGACTGCCCGCCGCCCGGCTGCAGGGCGAACGTGCCCGCACCACCGGGCAGTTGCGCCTGTTCGCGAACGTCGTGCGCCAGGGCGACTTCCGCGGTGTGCGCATTGACCCGGCCATCCCCGAGCGCTCTCCCCTGCCGCGCGCCGACATCCGCCAGCGCCAGATTCCGCTGGGCCCTGTCGCCGTCTTCGGCGCCAGCAACTTCCCGCTGGCCTTCTCGACGGCGGGAGGAGACACCGCCTCCGCCCTCGCCGCGGGCTGCCCGGTGGTTTTCAAGGCACACAACGCCCACCCCGGCACCAGCGAGCTTGTCGGCCAGGCCATTGCCAAGGCCGTCAGGGATGCCGGCCTGCACCCCGGTGTCTTCTCCCTGATCTACGGTCCGGGCAGCAGCATCGGGCAGGCACTGGTCGCGGACCCGGCCATCAAGGCCGTCGGTTTCACCGGCTCGCAGAGCGCCGGCATTGCCCTGATGCGCACCGCCGCCGCACGGCCGGAACCAATCCCGGTCTACGCCGAGATGTCCTCGCTCAACCCCGTCTTCATTTTCCCGGGCGCGCTGAGCGCTTCCCCCGAACAGATCGATGCGCTGGCACAGCAGTACATCACCGCCGTCACCGGCAGCTCCGGCCAGCTCTGCACGTCCCCCGGCCTCCTCTTCGCCCCCGCCGGTGAGGCGGGCGACAAACTAGCTGCCGCCGTCGGACGCGCTGTGTCCGCCTGCGCCGGACAGACCATGCTGACCGAGGGCATCGCCGGCTCCTGGAACTCCGGGACCGAGGCGCTCAGCGCCGCGGGGAACGTGACCGTCGTCGGGACCGGAACCCCCGGCCCCACCGAGAACGCTCCGGCGCCGGCCATTTTCGGCACGAACATCAGCAACTTCATCAGCAACGAGGTGCTGCATGCGGAGATCTTCGGCGCGGCCAGCCTGGTGATCCGCTACTCCTCCATAGAGGAACTCGTCGAGGCGGCCAACCGGATTGAGGGGCAGCTCACCGCGTCCCTGCAGCTGACGGAAGAGGATTACCCGACGGCGGCACGCCTGATTCCGGTGCTGGAGCAGAAGGTGGGTCGCATCATCGTGAACGGCTGGCCCACCGGCGTCGAAGTCGGCCACGCCATGGTCCATGGTGGCCCGTTCCCGGCAACATCCGATACCCGCACGACATCGGTGGGTACGCTGGCCATCAACCGTTTCCTGCGCCCGGTCGCGTACCAGAACCTGCCCCAGGAGCTGTTGCCCGCACCGCTTAAGGACGCCAATCCGTGGCAGCTGAACCGCCGCATCGACGGAGAAGTCGTTCCTGCCGGCGTAGTCCCTGCAGTACAGAAAGAGGAGGTCAACGCATGA	MTLTGHSLIAGRPVAGEGKNAFAYNPATNEQLEPAYTLITEDQLKAATSAAAEAFESFSRLDPETHAAFLDGVADNIEAIGEELIVRARQETGLPAARLQGERARTTGQLRLFANVVRQGDFRGVRIDPAIPERSPLPRADIRQRQIPLGPVAVFGASNFPLAFSTAGGDTASALAAGCPVVFKAHNAHPGTSELVGQAIAKAVRDAGLHPGVFSLIYGPGSSIGQALVADPAIKAVGFTGSQSAGIALMRTAAARPEPIPVYAEMSSLNPVFIFPGALSASPEQIDALAQQYITAVTGSSGQLCTSPGLLFAPAGEAGDKLAAAVGRAVSACAGQTMLTEGIAGSWNSGTEALSAAGNVTVVGTGTPGPTENAPAPAIFGTNISNFISNEVLHAEIFGAASLVIRYSSIEELVEAANRIEGQLTASLQLTEEDYPTAARLIPVLEQKVGRIIVNGWPTGVEVGHAMVHGGPFPATSDTRTTSVGTLAINRFLRPVAYQNLPQELLPAPLKDANPWQLNRRIDGEVVPAGVVPAVQKEEVNA	PGPT0018165_67	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018165-aldH-K13877	NA	NA
D1-17_03782	1329	gudD	COG4948	Glucarate dehydratase	ATGACCGCCCAGCCCACAGTTGCCCGCGTGGAAGTGGTCCCGGTCGCAGGCCACGACAGCATGCTGATGAACCTCAGCGGTGCCCACGGTCCGTTCTTCACCCGGAACGTGGTCATCGTGACCGACTCCGATGGAAGGACCGGCCTCGGCGAGGTCCCGGGCGGCGAGAAGATCCGCACCACGATCGAGGAAGCCGGCGCCCTGATCGCCGGCAAGCCGGTGGCCCGCTACCGTTCCCTGCTGAGGGAGATCGCGGCAGAGTTCGCCGACCGTGACGCCGGCGGGCGGGGGCTGCAGACCTTCGACCTGCGTACCACGGTCCACGCAGTGACTGCCGTCGAATCCGCACTGCTGGACCTCCACGGCCAGTTCCTCGGCGTCCCGGTGGCCGAACTGCTGGGCGACGGGCAGCAGCGCACGTCAGTGCCCATGCTCGGTTACCTGTTCTTTGTGGGCGACCACAAGCGCACTGATCTGCCGTACCTCGTGGAGGACGCGCCGTCGGACCGCTGGGAAGAACTGCGCCGCCAGGAAGCCATGACGCCCGAGGCTGTCGTGGCACTGGCCGAAGCCGCGCAGCAGCGCTACGGCTTCAGCGACTTCAAGCTCAAGGGCGGCGTGCTGTCCGGCCACGACGAAGTGGACGTGGTCACGGCGCTGGCCAAACGCTTCCCCGACGCGCGGGTCACCCTGGATCCGAACGGCGGATGGCTGCTCGAGGAGGCCATCCGGCTGGGCAAGCGGATGCAGGGCGTGGTGGCCTATGCCGAGGATCCCTGCGGGGCCGAAGGCCGTTTCTCCGGACGCGAGGTCATGGCCGAGTTCCGCCGCGCGACGGGGCTGCGGACGGCCACCAACATGATCGCCACGGACTGGCGGGAGATGGCCCACGCTGTCCGCAGCAACGCCGTGGACATCCCCCTGGCCGACCCGCACTTCTGGACGATGCACGGCTCAGTACGGGTGGCGCAACTGTGCAACGAATTCGGTCTCACCTGGGGCTCGCACTCGAACAACCACTTCGACATCTCGCTGGCCATGTTCACGCACACAGGTGCGGCCGCCCCGGGCGAGATCACCGCGCTGGACACGCACTGGATCTGGCAGGACGGGCAGGGCCTCACTAAGAACCCGCTGCAGATCAAGGGCGGCGCCATCGAAGTTCCCGCCGCCGCCGGGCTGGGCATCGAACTGGACCGCCAGGCCTTGGACAAGGCACACCAGCTGTACCTGGAGCACGGGCTGGATGCCCGGGATGACAGCATCGGCATGCAGTACTACATCGAGGGTTGGTCCTTCGATCCGAAGCGGCCGTGCCTCGTTCGTTGA	MTAQPTVARVEVVPVAGHDSMLMNLSGAHGPFFTRNVVIVTDSDGRTGLGEVPGGEKIRTTIEEAGALIAGKPVARYRSLLREIAAEFADRDAGGRGLQTFDLRTTVHAVTAVESALLDLHGQFLGVPVAELLGDGQQRTSVPMLGYLFFVGDHKRTDLPYLVEDAPSDRWEELRRQEAMTPEAVVALAEAAQQRYGFSDFKLKGGVLSGHDEVDVVTALAKRFPDARVTLDPNGGWLLEEAIRLGKRMQGVVAYAEDPCGAEGRFSGREVMAEFRRATGLRTATNMIATDWREMAHAVRSNAVDIPLADPHFWTMHGSVRVAQLCNEFGLTWGSHSNNHFDISLAMFTHTGAAAPGEITALDTHWIWQDGQGLTKNPLQIKGGAIEVPAAAGLGIELDRQALDKAHQLYLEHGLDARDDSIGMQYYIEGWSFDPKRPCLVR	PGPT0018180_694	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018180-gudD-K01706	NA	NA
D1-17_03783	927			hypothetical protein	GTGCTCGGCGTCGTCTCCGGAATACTTATCGTTTCTGCAGTCATCGCCGTCGGATACCTCGCTGCCAGGCTCCGCGTTCTGGGGCCGGAGGTCCAGAACGCACTCACCCGCACCGCCTTCTACATCACCAATCCGGCCCTGCTTTACACCGTGGTGGCGGGCTCCGATATCAGGGCCGCCCTCGGAACAGATGCCCCGCTGGCGCTGCTGTCCGCAGCGATAGTGGGGCTTCTATATTGCCTGCTGAGTTTCCTGTTCTTCCGCAGGCCAGTAGCGGAGACGGCGGTTGGTGCCATGGCTAGCAGCTATGCCAACGCCAACAACATCGGCATCCCGGTCTCCCTCTATGCCGTGGGGACGGCACAGCACGTGGCACCAGTGCTGCTGGTGCAGATCCTGGTTCTTGCCCCCTTCTACCTGACGGTGCTGGGCATTTCCGGCGGCGCCAGAATTTCGTGGAAAAGGATACTGATCCAGCCGTTCGCAAATCCCATGATTATCGCCTCCGGCCTTGGCGCCGCCGTAGCGCTGACCGGCTGGCACGCCCCGGACCTGCTGCAGAAGCCCATCGATATGCTGGCCGGGGGTGCCGTGCCCATGGTGTTGCTGGCCTTCGGGCTGTCGCTGGCTGGCCGGGCGCCGCTGCAAAAGGATGACGGCCGCACCGAGACGCTCGTTGCCACTTTCCTCAAAATCGCCGGCATGCCGCTCATCGTGTGGGCACTGGGCCGGTTCGTCTTCGGGCTTGAAGGCCAGCACCTCCTCGCGAGCGTCATCATGGCCGCCCTACCCACTGCGCAGAACGTCTTCCTGTTCGCCTCCCCATACGGGCGGGGCATGAGCGTGGCCCGGGACGTGATTCTCTGTACCACCCTGCTCAGCGCCGGCGCGCTGCTTGTCGTGGCATGGGCGAGTTCCCTTCCGTAA	MLGVVSGILIVSAVIAVGYLAARLRVLGPEVQNALTRTAFYITNPALLYTVVAGSDIRAALGTDAPLALLSAAIVGLLYCLLSFLFFRRPVAETAVGAMASSYANANNIGIPVSLYAVGTAQHVAPVLLVQILVLAPFYLTVLGISGGARISWKRILIQPFANPMIIASGLGAAVALTGWHAPDLLQKPIDMLAGGAVPMVLLAFGLSLAGRAPLQKDDGRTETLVATFLKIAGMPLIVWALGRFVFGLEGQHLLASVIMAALPTAQNVFLFASPYGRGMSVARDVILCTTLLSAGALLVVAWASSLP	PGPT0001720_2516	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0001720-mdcF-K13936	NA	NA
D1-17_03784	2133	betT	COG1292	High-affinity choline transport protein	ATGAGTCAGGTAGCCGACGCTCCGCCCGTAACACTTACTGGAGGCGGTAACACGACCCCCGCGGCTCGAACCCGCGTCAATTGGACCGTCTTTATCGGATCGGCCACCGGGATCCTCGCGATCGCCATCTGGGCCATCAGCGACGCCGTAGGCGCCGAGGCCCTGATCGGGTCCATGGTTACCTGGGTATCCACCAACATGGGCTGGTACTACTTCCTGATCGTTACCGTCGTGGTGGTGTTCGTCCTGGTCCTCGCCCTGACCCGGGTGGGCAAGACGAAGCTTGGCCCGGACCATTCGAAGCCGCAGTTCAGCATGTTCACCTGGGCGTCAATGCTCTTCGCAGCCGGCATCGGCATCGACCTGATGTTCTTCTCGGTGTCCGAGCCCGTGACCCAGTACCTGGCTCCCCCGCAGGGTGATGGCAGCACCGTCGAGGCCGCCCGTCAGGCCATGGTCCTCACCCTGTTCCACTACGGAATCACGGGCTGGGCCCTGTATGCGCTCATGGGACTGGCCCTGGGCTATTTCGCCTACCGGCACAATCTGCCCCTGAGTATCCGCAGCGCGCTGTACCCCATCTTCGGCAAAAAAATCAACGGTCCGCTCGGCGACGGCGTGGACATCGCAGCCCTCCTCGGGACCATCTTCGGCATCGCCACCTCCCTGGGCATCGGCGTCGTGCAGCTTAACTACGGGCTCAGCCTCATGTTCGGCTTGCCCGAGAACGTCGCCGTGCAGATCGGCCTGATCGTCGTGGCCGTTGTCATGGCCACCGCGTCCGTGCTCTCCGGCGTCGAAAAAGGAATCCGCCGGCTCGCCGAGCTGAACGTGATCCTCGCCCTCGCCCTCATGGTGTTCATCCTCCTGACCGGCAAGACCAACTTCCTGCTGGACGCGATCATCCAGAACACCGGCGACGTGCTCAGCCGGTTCCCGGCCATGACGCTGGATGCCTTCGCCTATGACCGGCCCGGTGACTGGCTGCAGGGCTGGACACTCTTCTTCTGGGCATGGTGGATTGCCTGGGCTCCCTTCGTAGGGCTCTTCCTCGCGCGCATCTCCCGCGGCCGCACCATCCGACAGTTCGTGCTGGGCACCCTCATGGTCCCCTTCGCGTTCATCCTGGTGTTCATCTCGATCTTCGGCAACAGCGCCCTCGACATCGTGATGAACGGTAATGCTGCCTTCGGGGAGACGGCGATGGCCCAGCCGGAGCGGGCGTTCTACGGCCTCCTCGAGCAGTACCCCGCCGCGCCGCTGATCATCGGTGTGGCCACCTTCACCGGACTGCTCTTCTACGTCACCTCCGCCGATTCAGGTGCCCTCGTCATGGCCAACTTCACGAGCCACCTGAAGGACGCCAACGCCGACGGACCCAAGTGGCTGCGCGTCTTCTGGGCCCTGGTGACCGGTCTCCTGACGCTCGCCATGCTGACCGTCGGCGGCGTGACGACGCTGCAGAACGCGACGATCATCATGGGTCTACCGCTCTCGATCCTGCTGCTGTTCATCATGCTAGGCCTCTTCAAGGCGCTGCGCGTGGAAAACTCGCTGGCCGACAGCTACCGCGCGAGCCTGCCGGGAATCATCTCCGGCCACAGCGCAGACGGATCGTCGTCCCGCACGTGGCGGCAGCGCCTCAACCGGGCCATGACCTACCCGGGGCCGAAGCAGGCGGACCGCTTCGTGGACACCGTGGCGCTGCCCGCGTTGCAGGAGGTGTACGACGAGCTCAAGGCGCAGGACGCCAACGTGAGCCTGACGACGGGCATCGTTGAGACCTGCGGCATCCGCCACGTCGACCTGCTGGTGAGGCTCTGCGATGAGCGCCCGTTCAAGTACCAGATCTACCCGGTCCAGTACGACACCCCGTCTTATGCCCCGGGCAATGCCGCGCTCGAACCGAAGTACTACCGGATGGAGGTTTTCTCCCTCGAGGGGAGCCACAGCTATGACCTCGCCGGTTACAGCAAGGAACAGGTCATCACCGATGTACTGGACCACTATGAGACACATCTCGAATTCCTGCACCTGAACCGGGCGGTGCCAGGTACCACGGCCGTCACCGAGGACCAGGCGGCCAAGGACAACTGGGAATCCGACTTCGTGCACCAGGAGGAGACAAAGTGA	MSQVADAPPVTLTGGGNTTPAARTRVNWTVFIGSATGILAIAIWAISDAVGAEALIGSMVTWVSTNMGWYYFLIVTVVVVFVLVLALTRVGKTKLGPDHSKPQFSMFTWASMLFAAGIGIDLMFFSVSEPVTQYLAPPQGDGSTVEAARQAMVLTLFHYGITGWALYALMGLALGYFAYRHNLPLSIRSALYPIFGKKINGPLGDGVDIAALLGTIFGIATSLGIGVVQLNYGLSLMFGLPENVAVQIGLIVVAVVMATASVLSGVEKGIRRLAELNVILALALMVFILLTGKTNFLLDAIIQNTGDVLSRFPAMTLDAFAYDRPGDWLQGWTLFFWAWWIAWAPFVGLFLARISRGRTIRQFVLGTLMVPFAFILVFISIFGNSALDIVMNGNAAFGETAMAQPERAFYGLLEQYPAAPLIIGVATFTGLLFYVTSADSGALVMANFTSHLKDANADGPKWLRVFWALVTGLLTLAMLTVGGVTTLQNATIIMGLPLSILLLFIMLGLFKALRVENSLADSYRASLPGIISGHSADGSSSRTWRQRLNRAMTYPGPKQADRFVDTVALPALQEVYDELKAQDANVSLTTGIVETCGIRHVDLLVRLCDERPFKYQIYPVQYDTPSYAPGNAALEPKYYRMEVFSLEGSHSYDLAGYSKEQVITDVLDHYETHLEFLHLNRAVPGTTAVTEDQAAKDNWESDFVHQEETK	PGPT0003251_1	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMSP_DEGRADATION,PGPT0003251-dddT-NA	NA	NA
D1-17_03785	1641	codA		Choline oxidase	ATGCATACCGACAACGTCGAGAACCTCAACGACCGGGAATTCGACTACATCGTCATCGGCGGCGGATCCGCTGGAGCTGCAGTCGCCGCGCGGCTGAGCGAAGACCCGGCCCTGTCCGTGGCGCTGGTGGAGGCCGGACCCGACGACCGCGGCCTGCCCGAGATCCTGCAGCTGGACCGCTGGATGGAGCTGCTGGAATCCGGCTACGACTGGGACTACCCGGTCGAACCGCAGGAGAACGGCAACTCCTTCATGCGGCACGCCCGTGCCAAGGTCATGGGCGGCTGCTCCAGCCACAACTCGTGCATCGCCTTCTGGGCCCCCCGCGAAGACCTGGACGAGTGGGAGTCCAAGTACGGCGCCACCGGCTGGAACGCAGACGCCGCCTGGCCACTGTACCAGCGGCTGGAAACCAACGAGGACGCCGGCCCGGACGCGCCGCACCACGGCGACTCAGGCCCCGTGCACCTGATGAACGTGCCCCCGGCGGATCCCGCGGGGGTCGCACTCCTGGACGCCTGCGAACAGGCCGGCATACCGCGGGCGAAGTTCAACACCGGCACCACCGTGATCAACGGCGCGAACTTTTTTCAGATCAACCGCCGCGCGGACGGCACGCGTTCCTCCAGCTCGGTCTCCTACATCCACCCGATCATTGAGCGCGCGAACTTCACCCTGCTGACCGGCCTGCGCGCCCGCCAACTGGTGTTTGACGCGGACAAGCGCTGCACGGGCGTCGACGTCGTGGACTCGGCATTCGGCCGGACCCACCGGCTCTCCGCCCGTTGCGAGGTCGTGCTGTCCACCGGCGCCATCGACTCGCCCAAGCTGCTCATGCTTTCCGGCATCGGCCCCGCCGCGCACCTCGCCGGACACGGAATCGACGTCCTCGTCGATTCCCCCGGCGTGGGCGAGCACCTGCAGGACCACCCCGAAGGCGTCGTGCAGTTCGAGGCCAAGCAGCCGATGGTGCAGACGTCGACGCAGTGGTGGGAGATCGGCATCTTCACCCCCACCGAGGAAGGCCTGGACCGCCCGGACCTGATGATGCACTACGGCTCCGTCCCCTTCGACATGAACACGCTGCGCTACGGGTACCCAACCACGGAGAACGGCTTCAGCCTCACCCCGAACGTCACGCACGCGCGCTCCCGCGGCACGGTCCGGCTGCGCAGCCGGGACTTCCGCGACAAGCCCGCGGTCGATCCGCGGTACTTCACCGATCCGGAGGGCCACGACATGCGCGTGATGGTCGCCGGTATCCGCAAGGCCCGCGAAATCGCCGCGCAGCCTGCCATGGCCGAATGGGCCGGGCGCGAGCTCTCGCCTGGTATCGAGGCGCAGACGGATGAGGAACTGCAGGACTACATCCGCAAGACGCACAACACCGTTTACCACCCCGTCGGCACCGTCCGCATGGGGCCGGCGGACGACGACACGTCGCCGCTCGACTCCGAGTTGCGGGTCAAGGGAGTCACCGGCCTGCGCGTCGCCGATGCCTCCGTCATGCCAGAACACGTCACGGTCAATCCCAACATCACCGTCATGATGATCGGGGAGCGCTGCGCGGACCTCATCCGCGCCAGCCGGAGGGGCGAAACAACGACGGCGGAGGCGCAGCTCAGCGTGTCCCTCGCCTGA	MHTDNVENLNDREFDYIVIGGGSAGAAVAARLSEDPALSVALVEAGPDDRGLPEILQLDRWMELLESGYDWDYPVEPQENGNSFMRHARAKVMGGCSSHNSCIAFWAPREDLDEWESKYGATGWNADAAWPLYQRLETNEDAGPDAPHHGDSGPVHLMNVPPADPAGVALLDACEQAGIPRAKFNTGTTVINGANFFQINRRADGTRSSSSVSYIHPIIERANFTLLTGLRARQLVFDADKRCTGVDVVDSAFGRTHRLSARCEVVLSTGAIDSPKLLMLSGIGPAAHLAGHGIDVLVDSPGVGEHLQDHPEGVVQFEAKQPMVQTSTQWWEIGIFTPTEEGLDRPDLMMHYGSVPFDMNTLRYGYPTTENGFSLTPNVTHARSRGTVRLRSRDFRDKPAVDPRYFTDPEGHDMRVMVAGIRKAREIAAQPAMAEWAGRELSPGIEAQTDEELQDYIRKTHNTVYHPVGTVRMGPADDDTSPLDSELRVKGVTGLRVADASVMPEHVTVNPNITVMMIGERCADLIRASRRGETTTAEAQLSVSLA	PGPT0013605_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013605-codA-K17755	NA	NA
D1-17_03786	1527	gbsA_2	COG1012	Betaine aldehyde dehydrogenase	ATGACCCACGACACACCAGCTCACCTGTTACTGACCGATGCCGCTTCCACCCTGTTCATCAGCGGCCGGTGGGAGCCGGCCGCGTCCGGTGCGGTACGCAAAATCCACAATCCGGCCGACGGCGAACTGGTCGCCACCGTGTCCGAGGCCGGCCGGGACGACGCGGAGCGCGCCATCGCTGCTGCCCGGGCCGCCTTCGACTCCGGCGTCTGGGCCTCGGTCCCGGCACCAGAGCGAGGCGCCTTCCTTCTCAAGGTCGCCGCTGAACTGCGGGAACGCCGCGAGAAATTCGCCCGCGCCGAATCGCTGGACACCGGAAAGCGGATCGTCGAAAGCCGGATCGACATCGACGACATTGCCGCCTGCTTCGAATATTTCGGCCGGCTCGCCGGGCAGCAGGCGGGCCGCGTTGTCGATGCCGGGGATCCCGCCGTCGTCAGCAAGATCGTCTACGAGCCGGTGGGTGTCTGCGGCCTGATCACGCCGTGGAACTACCCGCTGCTCCAGGCCGCGTGGAAGATCGCGCCCGCCCTGGCCGCCGGCTGCACTTTCGTGCTCAAGCCCTCCGAGCTGACGCCGTCGACCGCCATCCTGGCCATGCAGCTCCTGCAGGACCTGGGCCTGCCGGACGGCGTCGCCAATCTCGTGACGGGCCCCGGCGCGGAGGCGGGTGCACCGCTCTCGGAACATCCCGCCGTCGACCTTGTCTCTTTTACCGGCGGACTGGAGACCGGAAAGCGCATCGCCGCGGCCGCTGCCGGCACCGTGAAGAAGGTGGCGCTGGAACTCGGCGGCAAGAACCCCAACGTGGTGTTCGCCGACGCGGACTTCGACGCCGCCGTCGACAATGCCCTGAACGGGGCATTCGTGCACTCCGGGCAGGTCTGCTCCGCCGGGGCGCGGCTGGTGGTCGAGGAATCGATCGCCGACCGTTTCGTGGACGAGCTGGTCCGCCGCGCGCAGGGCATCTGCCTCGGGGGCCCCTTCGATGAGGCTGCCGAAACCGGGCCGCTGATTTCCGCTGCCCACCGCGAGAAGGTGCACGCCTATGTCCAGCGCGGAGTGGGGGAGGGTGCGCGGCTGCGGTGCGGTGGAGCGCCCCCTGAAGGGGAGAAGTACGACGCCGGTTTCTACTACCAGCCAACCGTCCTGGACCGCGTCTGCAAAGGGATGTCCGTCGTCGAGGACGAAGCCTTCGGCCCGGTGGTGACCGTCGAGACGTTCCGCACCGAGGACGAGGCCGTGGAGATCGCCAACGACACGATTTACGGGCTGGCCGGTGCGGTCTGGACCCAGGACGCCGGCAAGGCACAGCGTGTGGCCGCCCGGCTGCGGCACGGCACCGTCTGGATCAACGACTACCACCCCTACCTTCCGCAGGCCGAGTGGGGCGGCTTCGGCCAGTCAGGAGTCGGACGCGAGCTCGGCCCGACAGGTCTGGCCGAATACCAGGAAGCCAAGCACATCTACCAGAACACCGACCCGCAGGTAACGGGCTGGTTCGCTGACCACGGCAAGGAGAACTAG	MTHDTPAHLLLTDAASTLFISGRWEPAASGAVRKIHNPADGELVATVSEAGRDDAERAIAAARAAFDSGVWASVPAPERGAFLLKVAAELRERREKFARAESLDTGKRIVESRIDIDDIAACFEYFGRLAGQQAGRVVDAGDPAVVSKIVYEPVGVCGLITPWNYPLLQAAWKIAPALAAGCTFVLKPSELTPSTAILAMQLLQDLGLPDGVANLVTGPGAEAGAPLSEHPAVDLVSFTGGLETGKRIAAAAAGTVKKVALELGGKNPNVVFADADFDAAVDNALNGAFVHSGQVCSAGARLVVEESIADRFVDELVRRAQGICLGGPFDEAAETGPLISAAHREKVHAYVQRGVGEGARLRCGGAPPEGEKYDAGFYYQPTVLDRVCKGMSVVEDEAFGPVVTVETFRTEDEAVEIANDTIYGLAGAVWTQDAGKAQRVAARLRHGTVWINDYHPYLPQAEWGGFGQSGVGRELGPTGLAEYQEAKHIYQNTDPQVTGWFADHGKEN	PGPT0007165_732	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-17_03787	609	betI_5		HTH-type transcriptional regulator BetI	GTGAACTCCGGCGAACAGGTTGACAGGCAGTCGCGCATTCTCGAAGCGGCGCTGGATCTGCTGTCGCGCCATGGGATCTCAGGCGTGAATATGCGTGCCGTGGCGCGCGAAGCCGGCGTTGCACTGGGGCTAGTGAACTACTACTACGAAGACAAGTCCAGCCTGATCCGCGCGGCCCTGCGCCGCATCGACGAGCACGACCTCATGCTGGTCGCGCCGGACCCGACGTCGCCCCCGGACGAACAGCTCCGCGCGGCCCTCCGGCGCGTTGCGGGCCCGGAACTCCTGACCACGCGCTATCTGTCCCTGCGTCTCCACCTTTGGGCTCTCGCTCAGGCCCATGAAGACTTTGCGGTGATTAATGCCGCGGCGTTCGAGCGGTACCTCGATGGGCTTGCAGCGCTGATCGCCAACGCCAAGCCCGAACTTTCCCGCGATGAGTGCAGGGAACGGGCAGCCGACATTGTCGTTGTCCAAAACGGCATGTGGTTGACGGCACTCCTTGGCGTAGACAAGGCATCTATCCAGCGAAACCTCGCCCGGACGGAGCAGATCGCCTTCGCCGGTCCGCGGGAAAGCCAGCAAGGCCCGGGCGCCGCGTCCCTGTAG	MNSGEQVDRQSRILEAALDLLSRHGISGVNMRAVAREAGVALGLVNYYYEDKSSLIRAALRRIDEHDLMLVAPDPTSPPDEQLRAALRRVAGPELLTTRYLSLRLHLWALAQAHEDFAVINAAAFERYLDGLAALIANAKPELSRDECRERAADIVVVQNGMWLTALLGVDKASIQRNLARTEQIAFAGPRESQQGPGAASL				NA	NA	NA	NA	NA
D1-17_03788	2049			hypothetical protein	ATGAAGAAGACCGTCCGCTGGCTTAGCCACATTGTTGTCCTCTCCCTTGTCGTCGCCGGCGGTTTGTTGGGTGTCAACAGCGCCGCGCAGGCGGCCACTGTCGGAACTCCGAGCCTCACATATTCCGGCGTGCAGAACCCTCCGACGGCGGATAAGCCGCAGAGCAAGTTGTGGTGGAATGACGGTTCGTGGTGGGCGAGCATGTGGAAGACCGGCAGCGGATGGAGCATTTACCGCCTAAACCGGGGCACGGCCACCTGGGTGGACACCGGGGTGCGGACCGACCCGAGGGCCAGCACGTCATCGGATACCTTGTGGGACGGAACGCACTTGTACATCGCCCACAATGTCGTGACGACGGGGAATTCTGCGTCCGGACAACCGGCCAGGTTGTTCCGCTACAGCTATTTTGGCGGGAAATACACGCTAAGCAGTGGTTTCCCAGTCGCGATCTCGAACAACAGCAGCGAGTCACTGAGCATCGCGAAGGACTCCAAGGGGGCCATCTGGGCCACTTGGACCCAGGTCTCCGGCAGCACCAGCAGGGTCTATGTGAACCATTCACTGCCCGGCGGGGCGGGCTGGGGGAGGCCGTTTGTGGTTCCCGCAGCCCAGGACCCGAGCCCGACACCTGATGACCTTTCCGCAATTGTCGCTTATGACGGCGACGAAATCGGGATCATGTGGACCGATCAGGCCACCGGGACGGCGTGGTGGGCCACGCATGAGGACGACGAAAGTCCGAGAAGCGCCTCATCGTGGAAGGTGAAACAGGCCATCAAGGGCAACAAACGTGTGGATGACCACCTGAACATTAAGACTTTGCAGGCCGATGCCAGCGGCCGGGTATTCGCCGCTGTGAAGACGAGCCTCGATGATGGCTCTTCCGATCCGGCGCTGGCCCAGTTGCTGCTGGTGGTGTTCAAACCGGCCACAGGCTCCTTCAGCCAGACCACCATCGCCAGGACTGGGGATTGTGTCAGCCGCCCGCAAATCATGCTTGATACCGCGAACAACCTGGTCCGTGCGTTCTACACCGCGCCCTCGACCTCTGTCAGGGGCTGCGCCTTCCCGGGAGTAGCGGGAAGTATCTACGAAAAAACAGCGTCAATGGATAACCCGGTCTTTGGCTCTGGCCGGGGGAAAGCTGTTATTGAAGATGCAGCGTCACCCCATATGAATAATGTGACCAGCTCCAAGCAGAGCGTGAACGCTACGACCGGGATCGTCGTCATGGCCAGCAACCATGTCACCAAGCGCTACTGGTTCTCCGACCGCCGGCTCGGCACCACCAGCGCACCCGCCGGCCCGGCTCCCGTGAATTCCATCGGGGCTGCTGACACCGTGGCCGCCGGCGCTGACGGAGTGTTGTGGAGCTATCGGTCCAACGGCAGGGGCGGCCTGCAGCCCCGGATTAAGATCGGTTCGGGCTGGACCGGGCTGAAAAACGGCTTCACCACTGACTGGAATCAGGACGGTGTTTTCGACCTGGTTGCCCAGTGGAAAGACGGCCGCCTGAGCTACCACCAGGGAAACCCAGCGGGAGGATTCGCCCCGGGTCAGGTCATCGGCTCCGGATGGGGCGGCTACCACGTCACCGTGGGCCGCTGGCGCAAAGCTGATAGATATCCAGGCGTCGTGGCCTACGACGCAGCCGGTGCTCTCTGGCACTATCCCAACCGCACAGGAAAGACCCTCGGAAGCCGCACCAGGATCGGTAACGGCTGGAACGGCCTGTACATCACCATGGCCGATTATGACCGGGACGGCTCGCAGGACCTTCTGGTTAAGCGCAATGACGGGGCCATGCTGCTGTACCGTTCCAACGGAACAGGCACGTTCCACCCCGGGCCTCGACCGTCAACCGGCGGGAACTGGAGCGGCATCAACAGCGTCACCAAAGTCGAAGGATTCCGGGGTTCCGGCACGCATGGGCTGATTGCCCGGCTCACCGACGGCAGGCTCGCCTACTACCCCATGCGGAATGGAACCTGGGGAACCCGCGTTCTCCTCAGCGGCGGTTGGGGGCCCTACAGCATCTTCCGGTAA	MKKTVRWLSHIVVLSLVVAGGLLGVNSAAQAATVGTPSLTYSGVQNPPTADKPQSKLWWNDGSWWASMWKTGSGWSIYRLNRGTATWVDTGVRTDPRASTSSDTLWDGTHLYIAHNVVTTGNSASGQPARLFRYSYFGGKYTLSSGFPVAISNNSSESLSIAKDSKGAIWATWTQVSGSTSRVYVNHSLPGGAGWGRPFVVPAAQDPSPTPDDLSAIVAYDGDEIGIMWTDQATGTAWWATHEDDESPRSASSWKVKQAIKGNKRVDDHLNIKTLQADASGRVFAAVKTSLDDGSSDPALAQLLLVVFKPATGSFSQTTIARTGDCVSRPQIMLDTANNLVRAFYTAPSTSVRGCAFPGVAGSIYEKTASMDNPVFGSGRGKAVIEDAASPHMNNVTSSKQSVNATTGIVVMASNHVTKRYWFSDRRLGTTSAPAGPAPVNSIGAADTVAAGADGVLWSYRSNGRGGLQPRIKIGSGWTGLKNGFTTDWNQDGVFDLVAQWKDGRLSYHQGNPAGGFAPGQVIGSGWGGYHVTVGRWRKADRYPGVVAYDAAGALWHYPNRTGKTLGSRTRIGNGWNGLYITMADYDRDGSQDLLVKRNDGAMLLYRSNGTGTFHPGPRPSTGGNWSGINSVTKVEGFRGSGTHGLIARLTDGRLAYYPMRNGTWGTRVLLSGGWGPYSIFR				NA	NA	NA	NA	NA
D1-17_03789	1008	galS	COG1609	HTH-type transcriptional regulator GalS	ATGACGTCCCGATCCCGTGAGCCGCTCGGCCAGCGTGCCACCATCCTGGATGTTGCAGCCGCCGCCGGCGTCTCCCGCCAAACTGTCACCCGCGCCATGAATGACATGGCCGGTATCAGCCCGGCAACACGGGAGCGTGTCCGGACGTTGGCGGCCGAACTCGGATACACCCCAAGCCGTTTCGCGAAAGGCCTGGTTCAGGGTGCCCACGTCTCCGTCGGCCTGGCCGTTCCTGACCTGACAAACCCGTACTTCCCCGCATTCGCCTCAAGTGTGGTGGAGGCTGCCACTCAGCGAAGCTGGAATGTGGTGGTGGACGACTACGGTCATGGCACCGGAAGTTCTTTGGACGCCGTCGCGCGGCTGGCGCCCCAGGTGGACGCCTTGATCGGCTATCTGGATGAGCAGTCCGACGGTGCGCAAACCCTCATGGGCCGGCGCCCGGTAGTAATTCTGGACCATCCGGCAGGCCAGGCCGCGGGCGCCATTTCGTTCGACTATCCCCACGCAGCCCGGCTTGCTCTAAACCACCTGACAGCCCGTGGCTGCCGTAGCATCGCCTATCTGGACTCGAACCAGGGCGGCACCGCTGCCGGCCGTGGCGCTGCAGTAGCTGCAGTGGCGGCCGAAGCCGGTGTTGACCTGAAGTGCTGCAGTGCTGCCCCCACTGCCCGTGCGGCACGGGACGTCATCGCCGGTCTGTTATCGCGCCAGGAGCAGATTGACGGGCTCCTGGCGTTCAACGATCTGATGGCAGCAGGGGCCCTCAAGGCCCTGCAGGACTCCGGCAAGTCCGTACCTGCGGACTGTGCCGTGGTTGGCATGGACGGGATACCCCTGGGAGAGCTGCTAACTCCCGAGCTGACCACGCTCTCCCTGGACCTTCGCGCGGTTGGCAGGACCGCCGTCGACCTCCTCGAAGGACTGCTGTCCGGCTCTGTCCCGGCGGGAAGTGCGGAGGCGTCTTTGACCCTCCGGCACGAACTGATTGTCCGCCAGTCGGCCTGA	MTSRSREPLGQRATILDVAAAAGVSRQTVTRAMNDMAGISPATRERVRTLAAELGYTPSRFAKGLVQGAHVSVGLAVPDLTNPYFPAFASSVVEAATQRSWNVVVDDYGHGTGSSLDAVARLAPQVDALIGYLDEQSDGAQTLMGRRPVVILDHPAGQAAGAISFDYPHAARLALNHLTARGCRSIAYLDSNQGGTAAGRGAAVAAVAAEAGVDLKCCSAAPTARAARDVIAGLLSRQEQIDGLLAFNDLMAAGALKALQDSGKSVPADCAVVGMDGIPLGELLTPELTTLSLDLRAVGRTAVDLLEGLLSGSVPAGSAEASLTLRHELIVRQSA	PGPT0017992_15580	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03790	3030	lacZ		Beta-galactosidase	ATGTCAGTTCAGTCACGCTCCGCAGCGGCCGGCCTTGCCCCGGCTGCGGTCCCCGTCGGCACATCCCGCAGTCTCGAGCTCGGCGCTGAGGACGGGCGGGAGCTGTCCTCCGTGGCTCCGGGCAGGGGCTCCCTCCCTGCCCGGGCCTACCTCTCCAGCGACGCCCCAAGGCTCTCGCTCAACGGGGACTGGCGGTTCCGCCTGAGTGCCGGGGTACGCTCGGCACCGGCCGACGGATGGCAGCTGGGGAAGGATTTGGCCGGATTCGAAACCCTGCCCGTCCCCTCCAGCTGGCCCATGCACGGCCACGGCTCCCCCGCGTACACGAACATCCAGTTCCCCTTTGCCGTGGAACCTCCGCACGTTCCCGAGGCAAACCCCATCGGCGATCACGTGGTGAGCTTCACAGCCGGGCCGGAATTTTTGCCAAAGGCCCTGCTGCGGTTTGACGGCGTCGAGTCTGCGGGAACGGTGTGGCTGAACGAGGTGGAGCTCGGAACCACCCGCGGAAGCAGGCTTCCTCATGAATTCGACGTCTCGGGCATTCTGGTTGAGGGAACCAATACCCTCGCCGTCCGGGTGGCCCAATTCTCAGCTGCCAGCTACGTGGAGGACCAGGACATGTGGTGGCTGCCCGGCATCTTTCGTGACGTCACGTTGCAGGCCCGGCCCGCTGGCGGCATTGATGACGTGTTCGTCCACGCCGGGTATGACCATGTCAGTGGCGAAGGCATCCTCAAGGTAGAGGTGAGCCGGAACGGCCAGGCGATTGACGCCGTCGTCCGCGTTCCGGAGCTGGACCTGGAACTGGCCGCCGGCACGGAGCTGCGTATGCCGGGAGTGGAACCATGGTCAGCCGAAGTCCCGCGGCTTTACGACGCGACCGCCAGCACGCCTGGCGAGTCCGTGGCGCTGCGGCTGGGCTTCCGCAGCATCACCATTGACGACGCGCAATTCAAGGTCAACGGCAGGCGCATCCTTTTGCGCGGCGTCAACCGCCACGAACACCATCCCCGTCTGGGCCGCGTCGTGCCGCGGGACATGGTGGAGGCGGAGCTGCGGCTCATGAAGCAGCACAACATCAACGCCATCCGTACCTCGCACTATCCGCCGCACCCGGAATTCCTCGCCTTGGCAGACCGGCTAGGTTTCTACGTGGTTCTCGAGTGTGACCTGGAGACTCACGGCTTTGAGAGCGCCGGCTGGGCCCAGAATCCGAGTGATGATCCGCAATGGCAGACAGCACTGCTGGACCGGATGCGCCGGACGGTTGAGAGGGACAAAAACCACCCGTCCGTGATCATGTGGTCACTGGGTAACGAGGCAGGCACCGGGAGGAATCTTGCAGCCATGTCGCGCTGGACAAAGGACCGCGACCCGTCACGCCCCATCCACTATGAAGGCGACTGGTCCTGCGCCTACGTGGACGTGTACTCGCGGATGTACGCAAGCCAGGCGGAAACCGAGCTGATTGGCCAGGGCATTGAGCCGGCAGTGGAGGATGCGGAGCTGGATGCGCGACGGCGGGCCATGCCGTTTGTGCTCTGCGAATACGTGCACGCCATGGGGAACGGCCCCGGCGGCATGAGCGAATACCAAGACCTGTTTGACCGGTATCCACGACTGATGGGCGGGTTCGTCTGGGAATGGCTGGAGCACGGTATCACAGCTTCCTCCGCGGACGGCAGCGAATACTTCGCCTACGGTGGGGATTTCGGTGAGGAGGTCCACGACGGGAACTTCGTGACCGATGGCCTTGTCGACGCAAACCGCAAACCCCGCCCCGGGCTCCTCGATTTCAAGAAGGTCATCGAGCCGCTCCGCATTCACGTCATGGAGGACTGGTCCGGATTCCGACTCCGCAACGGCCACGACTTTGCGGACACCTCGATGTTCAGCTTCCGTTACAGCGTGGAGGCCGACGGTGTCACGCTCAAGGCCGGGACAGTGGACGTTGCACCGTTGACACCTCAAGCCGAGACGTTTGTCCCGTTGCCTGCCGAAGTCGGCCGGCTGGCTGCCGAACGGCTGCCCGGCAGGGGGCCCGCAGTGCTCACCGTCAGCGCTGTTCTTGCCGCTGATTCACCCTGGGCTGCCCGGGGTCATGAGGTCGCCTGGGGCCAGGCCGTCCATGAACCGGCCCAGACTCTCCTTCCGGGCGCGTTTGAACGCGTCACGGCCTTAGATCATGAACTACGGCTGGGCCCCGCGGTGTTCAGCCGGACCACCGGCATGCCCACCCGAATCGGCGGCATCCCGGTCGAGAAGATGGGGCTGGCGCTGTGGTGGCCGCCCACGGACAACGACCTGGGCAGTGAGTGGGGAGACGCGCGTCCGCTTGCCATGCACTGGAAGGACGCCGGACTTCACCGGCTCCACACCCGGCTGCTGGGCATCAGTGCAGAAACCGCTCCTGAGGGAGGAGAAATTCTGTCCGTCCGAACCCGGATGGGAGCTGCGGGCAAGCAGTTCGGGGTGCTCGTGGACTACTCATGGACCAGCGACGGCGAATCCCTGGCCCTCAGGACCCGGGTCCGGCCCGAGGGCACATGGGTGAACGCCGGTTTCGAGGTGGAGTGGGCGCGGATAGGCCTGGAGCTTGTGCTGGCCAGCCAAACCAGGTCGGTGAGCTGGTATGGGCAGGGCCCGCACCAGAGCTACCCGGACACCGGCCACGGGAACCGTAGAGGATGGTTTGCGCTGCCGCTCGCCGAGATGGACGTGGACTACGTGCGGCCGCAGGAATGCGGAGCGCGGTCCGGGGTAAGGTCAGCGGCTCTCGACCTTGAAGGCAGCACCCTGAATATATCCGGGCAGCCGTTTGCCCTTACTGTGCGCCCCTACAGCCTGGAAACCCTCGACGCGGCCCCGCACCGCCCTGACCTGCTCGCTGACGGGAGGAGCTATGTGTACGTGGACCACGTCCTGCGAGGGGTCGGAACTGCCGCCTGCGGACCCGGTGTCCTCGAACCGTATCGGTTGAGGCCCAGGGAGGCTGACTTTACCCTGGCCTTGCGCGTGAAGGGCTGA	MSVQSRSAAAGLAPAAVPVGTSRSLELGAEDGRELSSVAPGRGSLPARAYLSSDAPRLSLNGDWRFRLSAGVRSAPADGWQLGKDLAGFETLPVPSSWPMHGHGSPAYTNIQFPFAVEPPHVPEANPIGDHVVSFTAGPEFLPKALLRFDGVESAGTVWLNEVELGTTRGSRLPHEFDVSGILVEGTNTLAVRVAQFSAASYVEDQDMWWLPGIFRDVTLQARPAGGIDDVFVHAGYDHVSGEGILKVEVSRNGQAIDAVVRVPELDLELAAGTELRMPGVEPWSAEVPRLYDATASTPGESVALRLGFRSITIDDAQFKVNGRRILLRGVNRHEHHPRLGRVVPRDMVEAELRLMKQHNINAIRTSHYPPHPEFLALADRLGFYVVLECDLETHGFESAGWAQNPSDDPQWQTALLDRMRRTVERDKNHPSVIMWSLGNEAGTGRNLAAMSRWTKDRDPSRPIHYEGDWSCAYVDVYSRMYASQAETELIGQGIEPAVEDAELDARRRAMPFVLCEYVHAMGNGPGGMSEYQDLFDRYPRLMGGFVWEWLEHGITASSADGSEYFAYGGDFGEEVHDGNFVTDGLVDANRKPRPGLLDFKKVIEPLRIHVMEDWSGFRLRNGHDFADTSMFSFRYSVEADGVTLKAGTVDVAPLTPQAETFVPLPAEVGRLAAERLPGRGPAVLTVSAVLAADSPWAARGHEVAWGQAVHEPAQTLLPGAFERVTALDHELRLGPAVFSRTTGMPTRIGGIPVEKMGLALWWPPTDNDLGSEWGDARPLAMHWKDAGLHRLHTRLLGISAETAPEGGEILSVRTRMGAAGKQFGVLVDYSWTSDGESLALRTRVRPEGTWVNAGFEVEWARIGLELVLASQTRSVSWYGQGPHQSYPDTGHGNRRGWFALPLAEMDVDYVRPQECGARSGVRSAALDLEGSTLNISGQPFALTVRPYSLETLDAAPHRPDLLADGRSYVYVDHVLRGVGTAACGPGVLEPYRLRPREADFTLALRVKG	PGPT0017810_1560	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
D1-17_03791	2577	menE_3		2-succinylbenzoate--CoA ligase	TTGACCGCGCAGCCAGATCTCGCCCGGGTCGCCTTCGCCGACCTCGCCCGCCACGGCGACCGCCCCGCCGTCCTCACATCAGACGGAGTCCTGACGTACCGGGAGCTTGCATGCCGTGTTGACGACCTTGCCGCCCGGCTGGGGACCGGCCGCCGGCTGGTGGTGCTGGCGGCACGCAATGACCTGGACTCGCTCGTCAGCTATCTCGCGGCCCTGTCAGCGGGGCATGTGCTTTTGCTGGCCCCGGCGGACAAGCCCGAGGCCCTGGCCTCCCTGCTGGGCGCCTACGATCCGGACGTGCTGCTGCGCCCGGGCGACGGCGGCGGGACACCTCTGCTTGAGGAGCGGCGTACCGGGTCCCGGCATGAGCTGCATCCCGAATTGGCGCTGCTCCTGAGCACCTCGGGTTCGACAGGCTCCCCGAAACTGGTGCGGCTCTCGCACACCAACCTCACCGCCAACGCCGAGGCCATTGCCGAGTACCTGCACATCGGACCCGAGGACCGCGCCGCCACCACGTTACCCCTGCACTATTGCTACGGCCTGTCGGTGATCAACAGCCACCTCATCCGCGGGGCAGGGCTGGTACTCACCGACCTTTCGGTGGTGGACCCCTGCTTCTGGGACCTGTTCCGGAACCGGCAGGCCACCTCCTTCGCTGCCGTTCCCTACACCTTCGAGCTTCTCGAACGGGTGGGTTTCGCGGAGGCGGATCTGCCGCACCTGCGTTACGTCACCCAGGCGGGCGGGAGGCTGGCGCCGAAGAACGTCCGTTCCTGGGCGGAGACCGGGCAGCGCCGCGGCTGGGACCTCTTCGTCATGTACGGGGCAACAGAGGCAACGGCACGCATGGCTTACCTGCCACCGGATCTGGCCGCCGACCACCCAGAGACCATCGGCGTCCCGGTGCCGGGCGGAGCCTTCCGCATTGACCCGGTGGAGGACCTGGCGGACGGGGAGCTGGTCTACACCGGCCCCAACGTCATGCTCGGCTACGCCGAGAGCCCGGAGGACCTCGCGCTGGGCCGGAACGTGCACGAACTGCGCACCGGTGACCTCGCGCGCCGGCACCCGAACGGACTGTACGAGGTCGTCGGCCGCCGCAGCCGGTTTGTAAAAATCGTAGGCTTGCGCGTGGACCTCGGCCAGGTGGAGCGCATCTTCGCCGACATGGGGATCAGCGCGGCCGCCGCCGGTTCCGATGACCTCCTTGTGGTTGCCGTCGAGGGCGACCACGACGCCGGAATGCTCACCAAGGTCCTGTCCGGCACCGTCGGGTTGCCCCGCACCGCCGTCGCGGTGCACCCGGTAGAGTCCCTGCCGCGCCTGGCCACCGGCAAGCTGGACTACCCTGCGGTCCGCCGGCTTGCCGTATCTGATTCGGCCGCTGCTCCGACCGTCTCCAGCGCGCCGGCAACGGAGGGGCCGGCCGACATCCGGCGCATCTTCGCAGAGGTCCTGGAATGTTCCCAGGTCGCTGACAATGACACGTTCGTGTCCCTGGACGGCGATTCCCTGTCCTATGTCGCGATTTCCGTGCGGCTGGAACAGGCACTGGGACAGCTGCCACCCGATTGGCACCTCGTACCCGTGAAGGAGCTGGAACGGCGCCGGAAGCCCAAGCGGCTCCGCATCGTGTCCTTCCTGGAGACGTCCATTGTGCTCAGGGCGGCCGCCATCGTGTGCATAGTGGCCACGCACGTTGGACTCTTCACGTTCCAAATCGCCCACCTGCTCTTCGTGGTGGCGGGCTACAACTTCGCGCGGTTCCAGCTGGCCGGCGAGAGAGCACCACGGTTGCGCCGCCAGCTCCGCGGCCTGGCACGGATAGCAGTGCCCTCCATGGCGTTCATCGCTGTCGCCTATCTGCTCACAGACCACTACACCATCGCCAACATCTTCCTGCTCAACGCCATGCTGGGGCCCGAGGAGCTGACGACCCAGTGGCACTTCTGGTTTGTGGAAATGCTCGTCTACGTCCTCCTGGCCGTGACAGCGCTCCTGGCCATTCCCTGGGCCGAGCGCTGTGAGCGACGTGCGCCCTTCTGCTTTGCGCTGGGCCTGGTGGCCCTTGCCTTGCTGAGCCGCTACGACATTGTGGATCCCGGCCTGCCCAAGCCTGCGCCGGTGTTTTGGCTCTTCGCGTTGGGCTGGGCACTGGCACGCGCCCGCACGGGCCTCCAACGCTGGACGGTCTCGATCATCACGCTGCTGACCCTGCCGGGTTTCTTCCACAACACGGTGCGGGAGGCGGCCGTGGCCGCTGGCGTCCTGCTTCTGGTGTGGGTGCCGGCGCTGCCGGTTCCTGCCGTGCTGCGCCGGGCAATCGGCTGGCTGGCCGCAGCTTCGCTGTTCATCTACCTCACCCACTGGTTGGTCTACCCCGTACTGCTTTCGATCAATCCGTTCCTGGCTGTGTTAGCTTCACTCGTACTCGGGGTCGGTTACTGGAGCCTGTGCCGGTGGCTGCCCGGCACAGCAGCAAGCAAAAGGGCCGGATGGCACATCAAGTCGTTGCTTCGCTCACCGGCCGGCCGCCCGCAACAGCCAGAACCAGCCTCCAGGCTCCAAGCGTGA	MTAQPDLARVAFADLARHGDRPAVLTSDGVLTYRELACRVDDLAARLGTGRRLVVLAARNDLDSLVSYLAALSAGHVLLLAPADKPEALASLLGAYDPDVLLRPGDGGGTPLLEERRTGSRHELHPELALLLSTSGSTGSPKLVRLSHTNLTANAEAIAEYLHIGPEDRAATTLPLHYCYGLSVINSHLIRGAGLVLTDLSVVDPCFWDLFRNRQATSFAAVPYTFELLERVGFAEADLPHLRYVTQAGGRLAPKNVRSWAETGQRRGWDLFVMYGATEATARMAYLPPDLAADHPETIGVPVPGGAFRIDPVEDLADGELVYTGPNVMLGYAESPEDLALGRNVHELRTGDLARRHPNGLYEVVGRRSRFVKIVGLRVDLGQVERIFADMGISAAAAGSDDLLVVAVEGDHDAGMLTKVLSGTVGLPRTAVAVHPVESLPRLATGKLDYPAVRRLAVSDSAAAPTVSSAPATEGPADIRRIFAEVLECSQVADNDTFVSLDGDSLSYVAISVRLEQALGQLPPDWHLVPVKELERRRKPKRLRIVSFLETSIVLRAAAIVCIVATHVGLFTFQIAHLLFVVAGYNFARFQLAGERAPRLRRQLRGLARIAVPSMAFIAVAYLLTDHYTIANIFLLNAMLGPEELTTQWHFWFVEMLVYVLLAVTALLAIPWAERCERRAPFCFALGLVALALLSRYDIVDPGLPKPAPVFWLFALGWALARARTGLQRWTVSIITLLTLPGFFHNTVREAAVAAGVLLLVWVPALPVPAVLRRAIGWLAAASLFIYLTHWLVYPVLLSINPFLAVLASLVLGVGYWSLCRWLPGTAASKRAGWHIKSLLRSPAGRPQQPEPASRLQA				NA	NA	NA	NA	NA
D1-17_03792	1182	btuD_8		Vitamin B12 import ATP-binding protein BtuD	ATGACCATACGGGTGGCAAGCGGGCGGCGTCCCGCCGGCAGGGAGAGCGCCCCGGAAGCTTTGGTCTTCGAGGGTGTCAGCAAGTACTACGGCCCCGCCGTGGGCGTGGGCACGCTGGACCTGGCGATTCAGGCCGGCGAGCTGGTGACTCTGATTGGCCCTTCGGGCTGCGGCAAGTCGACAACCCTGCGCCTGGCGGCAGGCCTGGAACGCCCGGACCGGGGCACCATCAGGGTTGCCGGGGACGTGGTGGCGGATAAGCGCCGGTTTGTGCAACCTGAACGGCGCCGCGTGGGCCTGGTGTTCCAGGACTACGCACTGTTCCCGCACATGACCGTGGCCCAGAACGTCGAGTTCGGCCTGGACCGGCTGAACCGCAAGGAACGCCGGGCACGCACCGGGGAGGTACTCGACCTCGTGCGGCTCGCCCACCTCGCCGGGCGGTACCCGCACGAATTGTCCGGCGGCGAACAACAGCGCGTGGCGCTTGCCCGCGCGCTGGCGCCGCGCCCCGCCGTCGTGCTCCTTGATGAACCGTTCTCGAGCCTGGACGAATCCCTGCGCGCCCAGGTGCGCCGGGATACGGTGGCAACGCTGCGTGAGGCCGGCACCACCGGGGTGCTCGTCACCCATGACCAGACCGAGGCCCTCTCCGTGGGCACACGTGTGGTGGTCATGCACGGCGGGGTCATTGAACAGGCGGACACACCGGAGAAGGTCTTCGAGCAGCCGGCCACCCGCTTCGTCGCCTCCTTCATGGGTGACGCCGACTTCCTCCCGGCCCGTGTGCACCGCGCCCTGCTGACCTGCGAGATCGGCGTCGTATCAACCGTCCCCGGCTGGGCCAACAGCGAAGCGGACGTCGACGTGGTGCTGCGGCCCCATGAAGTGGCGCTGCAGCCGGACCCGCGCTCTCCGGCACGCGTGTCCGCCATTGAGTACCACGGCGCCTTCGTGCTGCACTATGTGACGCTGGCCTCCGGACGCACTGTCCGCTCCTGGCAGCCCCACACGGTGCGCCACCCGGTGGGAACGGCGGTCGCTGTGACGGTGGCGGCGGGCACCACGCCCACGCTGCTGCTGGGCGACCGTGCGGTTACGTCTCCACCCCCGGGCAGCGCGCTGCAGCAACCCCTGCCCGCGCCGATCAAGCCGGGCGCCCAGCCCGCCAGTAAAAGTTAG	MTIRVASGRRPAGRESAPEALVFEGVSKYYGPAVGVGTLDLAIQAGELVTLIGPSGCGKSTTLRLAAGLERPDRGTIRVAGDVVADKRRFVQPERRRVGLVFQDYALFPHMTVAQNVEFGLDRLNRKERRARTGEVLDLVRLAHLAGRYPHELSGGEQQRVALARALAPRPAVVLLDEPFSSLDESLRAQVRRDTVATLREAGTTGVLVTHDQTEALSVGTRVVVMHGGVIEQADTPEKVFEQPATRFVASFMGDADFLPARVHRALLTCEIGVVSTVPGWANSEADVDVVLRPHEVALQPDPRSPARVSAIEYHGAFVLHYVTLASGRTVRSWQPHTVRHPVGTAVAVTVAAGTTPTLLLGDRAVTSPPPGSALQQPLPAPIKPGAQPASKS	PGPT0003735_266	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
D1-17_03793	1692			hypothetical protein	GTGACCGAAACGGCTGTCCTCGCAGAGGCGGGGAAGGCGAAGCGCCGTCCACTCCGGACGGCCGGTGCCGGCCGCCCGGCATGGTCGGCCCTGGTCCTTGTGGTGGCAGCGGTGGTTGCCACTCCCGTGCTCGCCGTCATCCTCGACGGGCTCGGGAGCCTGGGCGGCACGACCCCGCCGCGGGACCTTGCCGGGATGGTGCTCACGACCCTGCTCCTGATGTTCGGCGTGGCGGCGGGTTCGCTCGTGGTGGGCGGGGGATTGGCGTGGCTTGTCACCGCGTACCGTTTTCCTTTGCGGAATGTCTTCGTCTGGCTGCTGGTCCTGCCCTTGGCCGTGCCCGCCTACATTCTGGGGTTCGTCTTCCTGTCCGTTTTCGACGTCTCCGGGCCGGTGCAGACAGCCCTGCGCGCGACATTTGGTGCCGACGTGTGGGTGCCTGAGGTCCGTTCGCTGCCGGCTGCGATTCTGGTGATGTCGCTGTCCCTGTACCCCTATGTCTACCTCCTGGCGCGCACTGCGCTTCTTGAGCACACGGCCGGCACGTACGATGCGGCCCGAACTCTGGGCGCAGGGCGTGGCCGGGCGCTGCGGCGCGTCCTGCTCCCGCTGGCCCGACCGTCGCTGGCGGCGGGCATGTCCCTGGTGATGATGGAGACGCTGACCGACTTCGCCACGGTGCAGTACTTCAACGTCCAGACCGTTTCCGTGGGCGTGTATCTGGTCTGGAAGGGCACCTTCAATTTCCACGCCGCAACCCAACTGGCGGTTCTGGTGCTGCTGTTCGCCGTCGCAGTGCTGGCGGGCGAGCGGGCGCTGCGGGGCCGTGCCCGCTTCCACCGGCAAGGCGGGCGCGGCCAGGGCCTGCAGCCACAACGGCTTGACGGCGGCCGCGGCTGGGGAGCAGCTGCCCTCTGTACGGCGGCTGTCAGCACCGGCTTCCTGATCCCGGTGCTCCAACTGCTGGGGTGGGCCGTCGCCGGGGCGGTCAAGAGCCCCGGTTTCCTTCAGGACCCGAGGTTCGGCGGGTACATCGTCAACACGCTGCTCGTCGCCGCTGTCACGGCCGCTGCCTGCGTGATCCTCTCCGTAACGGTGGGGCACGGCGTGCGCATCAGTGGAGGCAGGTTTGTCTCCTCTGCAGCGCAGGTGACGACCTTCGGGTATGCAGTCCCGGGCGCGGTGGTGGGGATCGGGGTGCTCATCTCCTTTGCAGCGCTGGATAACGCCCTGGAGGCAGCCGGCGTTCCGGGCGGCACCGGGCTGCTCATCACCGGTTCTGTCCTGGGCATCCTGTACGCCTACGTAATCCGCTTCCTCGCACCGGCCTACCAGGCGGTGGACGCCAGCTTCGCGAAAATCCCGTCAACCCTCACCTTCTCCGCCCTCAGCCTGGGCGCCGCCCCCCGGCGCATCCTGACGCGTGTGCATGTTCCCCTGGCACGGTCCGGGATAGCCGTTGCTCTGATGCTGGTGGCGATTGACGCCGTCAAGGAGCTGCCCATCGTGCTGCTGCTGCGGCCTTTTGGATTTACGACGGCGGCCGTCTGGGTTTACGAGCTTGCCCGCGAGAACTTCTGGGAAAAGGCATCACTGCCGGCGTTGGTGATCGTCGCCGCAGCCGTCCTCCCCGTCCTGGTCCTGGTGCGGCAGGCCCGCGGCAGTGAAACCCGAGGAGAGGCCCCAGCATGA	MTETAVLAEAGKAKRRPLRTAGAGRPAWSALVLVVAAVVATPVLAVILDGLGSLGGTTPPRDLAGMVLTTLLLMFGVAAGSLVVGGGLAWLVTAYRFPLRNVFVWLLVLPLAVPAYILGFVFLSVFDVSGPVQTALRATFGADVWVPEVRSLPAAILVMSLSLYPYVYLLARTALLEHTAGTYDAARTLGAGRGRALRRVLLPLARPSLAAGMSLVMMETLTDFATVQYFNVQTVSVGVYLVWKGTFNFHAATQLAVLVLLFAVAVLAGERALRGRARFHRQGGRGQGLQPQRLDGGRGWGAAALCTAAVSTGFLIPVLQLLGWAVAGAVKSPGFLQDPRFGGYIVNTLLVAAVTAAACVILSVTVGHGVRISGGRFVSSAAQVTTFGYAVPGAVVGIGVLISFAALDNALEAAGVPGGTGLLITGSVLGILYAYVIRFLAPAYQAVDASFAKIPSTLTFSALSLGAAPRRILTRVHVPLARSGIAVALMLVAIDAVKELPIVLLLRPFGFTTAAVWVYELARENFWEKASLPALVIVAAAVLPVLVLVRQARGSETRGEAPA	PGPT0003730_1187	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
D1-17_03794	1026		COG1840	putative binding protein component of ABC iron transporter	GTGCCCCGTCTACGCATGATTACTGCCACCGCAGGCCTTGCAGTCATCGCCTCCGCCTTGGCTGGTTGCGGCGTGGTCGGCGGGCAGCAGCCTGCCGACCTTCAGATCTACTCCGCCCGTCACTATGACCTTGAGGGTGCCTTTGGGCAGTTCACGGAGGAAACCGGCATCTCCGTGGAGTTCATCAGCGGTGGCGACGCCGAGCTCCTCGAGCGACTCAAAGCGGAAGGGGAGGATAGCCCGGCGGATGTATTCATGACCGTGGACGCCGGCAACCTGTGGAACGCCGCGCGCCAGGATGAACTTGCAAGCATCGACTCCTCAGTTCTTAATGACGCGGTGCCCAAGGACCTCCGGGACCCTCAGGGCCGCTGGTACGGCCTTGCCATGAGGGCCCGCACCGTCACCTACAATCCCACCACCGTGGATCCTGAAGAGTTCGACCCCGCGGACACGTATGCGGGCCTGAGCGACGCCAAGTGGAAGGGGCGTCTGTGCATGCGGGACGCCACCTCTTCCTACACGCAGTCCCTGGTGGCCAGCCTGATAGACCTGCACGGCCGGGAGAAAGCCCTGGCAATCGCCAAGGGCTGGGTAGCCAACGGCGTGCAGATCATGAGCAACGACGTCCTGCTGCTTGAAGCCATCGACGCGGGAACCTGCGACGTGGGAATCAACAACCACTACTATCTGGCCCGTACCCTGAAGGAAAAGCCTGACTTCAAGGTGGACCTTTACTGGGCCAGCCAGAAGGGCGCGGGCACGCACGTCAACATCTCCGGCGCCGGTGTCGTGGCTGGCGCGGACAACGCCGGAGACGCGCAGCGGCTCATCGAATGGCTCGCCACCAAAGGGCAGAACCCCTTCGTGGACGCGAACCACGAGTTCCCGGTCAACCCGACCGTGAAACCCGAGCCTGTCATCGCGGACTTCGGCAAGTTCAAACGAATGCCGCTGAACGCCGAAGCCTACGGCGACCTCAACACCGAGGCCGTCGATCTGCTCGCCGAGGCCGGATACAAGTGA	MPRLRMITATAGLAVIASALAGCGVVGGQQPADLQIYSARHYDLEGAFGQFTEETGISVEFISGGDAELLERLKAEGEDSPADVFMTVDAGNLWNAARQDELASIDSSVLNDAVPKDLRDPQGRWYGLAMRARTVTYNPTTVDPEEFDPADTYAGLSDAKWKGRLCMRDATSSYTQSLVASLIDLHGREKALAIAKGWVANGVQIMSNDVLLLEAIDAGTCDVGINNHYYLARTLKEKPDFKVDLYWASQKGAGTHVNISGAGVVAGADNAGDAQRLIEWLATKGQNPFVDANHEFPVNPTVKPEPVIADFGKFKRMPLNAEAYGDLNTEAVDLLAEAGYK	PGPT0003725_2854	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
D1-17_03795	777			hypothetical protein	ATGGTCTTGGTTGCCGCGGCAGGCATCCCCTACATTAGGGCCATGGACAGCCCGGGGCATGCAAAGGATGTTGAACGGTTGCAGGATCTGGTCGCCGGCATGGACGACATCAAGGAGTTTCTTGATGGGATGACGGCCCTGGGAGCGGCAGCAGTCAGCCGGGCCTCGAGCGCCAGGATTGAATGCGCCGTCACCCTGCGCCGGCGCAAACGCTGCGCGACGATCGCCGGCAGCAGCGATGACGCTATCCTCCTGGACGGCATGGAACAGCGCCTGGGCGAGGGACCATGTGCTGAAGCGGTCAAAACCGGGGAGCCGGTGCTGCTGGCAGATGTGTCAGGTGACGTGCGGTGGCCGCAGTACCGGCAGGAACTGGCGGACCTGGGCTGCCGGAGTGTTCTGGGGGTGCCGCTGGATCTGGGCGAGGACGCCGCTGCCGTGTTGAGCTTTTTCGCCTCCGCCACCGGTGTCTTCACCCAGGAGACGATCGCAGAAGCTGCCGCCTTCGCCAGCGGCGCCGGGCGCGCCCTGCGGCTGGGCATCAGGATCACCGCCGCCGACCTGCGCGCTGGCGACCTTGCCGCGGCCATGGCACGCAGAACCCCTATAGACCTGGCCTGCGGCATCATCATGGCGCAGAGCCGCTGCCCGCAATCCGAGGCCTTCGAAATACTGCGAAAGCTCTCCAGCAACCGCCACCAGAAACTGCATGACGTCGCACAAGCCATCGTTTCCCGGTCCTCAGGAGCAATCGCTACAACACACTTCGAGGCCTAA	MVLVAAAGIPYIRAMDSPGHAKDVERLQDLVAGMDDIKEFLDGMTALGAAAVSRASSARIECAVTLRRRKRCATIAGSSDDAILLDGMEQRLGEGPCAEAVKTGEPVLLADVSGDVRWPQYRQELADLGCRSVLGVPLDLGEDAAAVLSFFASATGVFTQETIAEAAAFASGAGRALRLGIRITAADLRAGDLAAAMARRTPIDLACGIIMAQSRCPQSEAFEILRKLSSNRHQKLHDVAQAIVSRSSGAIATTHFEA				NA	NA	NA	NA	NA
D1-17_03796	1404	dapE_5		Succinyl-diaminopimelate desuccinylase	ATGAACAAGGATGACGACGTACGGCGCTTTCTGGATGCCGACCTGCCTACGCTGCTGGACCGGCTGGGCGATTGGGTCCGGATACCCTCCGTTGCCGGGGTTCCGGAACGGAAACACCACCTGACCCGGTCCGCCAAGTGGTTGGCCGGTGAACTGCGCGACGTCGGGTTTCCCACCACCGAAATATGGCAGGGGGCAGAAGGGCCCGCGGTCTTTGCTGAATGGTCGGCTGCCCCCGGCGCGCCCACCATTTTGGTGTACAGCCACCATGATGTCCGCGCCGTCAAACAGGAGAACTGGGACGAGACCGCCCCGTTCGACCCCGTGTTTCGCGACGGGAGGCTGTACGGGCGGGGAAGCTCCGACGCCAAGGGCCAGGTGATGGCCCACATCTGGGGAATCCGCGCTCACCTCCAGGCCACGGGGCGCAGCACGCCGGCAGTAAACCTCAAATTTTTAGTCGAGGGGGAGGAAGAGGCCGGCTCGCCGGGACTGCGGGACCTTCTGGAGGCCCACCGGCCCCGTCTGGACGCCGACGCAGTGATCTTCTCCGACACCCTGCTGTGGCGCGCAGACCACCCAGCGCTGTGCACCAGCGTCCGGGGCATGCTCGGAGTAAGCATCGAGGTCTACGGCCCGTTAACCGACATTCACAGCGGCGCCGTGTCCGGCACCGCCCCTAACCCTGCCCTTGAGCTCAGCAGACTGCTCGCGCAACTGCACGATCAAAAGGGCTGCATCACGTTCCCAGGCTTCTACGACGAGGTCGAGGAAATCTCCGCCCGCCGCCGGGATGAACTGGCAGCCCTTCCCTACGACCCCGAGGACTGGCTGGAACGCTCCCATACACGCAGCATCGGCGGCGAGAACAGCTACACCGTCCTTGAACGCCTCTGGGAGCGTCCCGCGCTTGAGGTCATTGCGCTGGAGGCCGGGGATCCGGTCGGCGTTCCCCGGGCGGCCGTCCCCTCCATGGCATCGGCCGAGCTAAGCATCCGCACCGTGGCCGGCCAGAAAGTCAAGGATGTGGCCGACCAAGTGCGTCGTTTTGTCGACGAAGCCATCAGCGACCACTATGCGTACAAGCTGTCCTTGGACACCGAGACCGCCCAGGAGTTCTACCGCACTCCAGAGAGCCCGCTCGTGGATGCCCTCTCAACAGCAATGGCCAAGGGCTTCGCGGTGCCGGAAGTTGGAAGGATGGGAAACGCCGGCGGCGGCCCGGCAGATCTGCTGTCCACCGCATTGGATGTCCCGGTGGTCTTCTTTGGGACCGGGCTGGTGGAAGACAACTGGCACGACAGCGACGAAAGCGTCCGAGCCGATCTCCTAAAGTCCGGGGCAGCGACTCTTGCGTTCCTGTGGGAGGAACTCGGCCGCCTCGCCTATCTTCCCCGCCCGTAA	MNKDDDVRRFLDADLPTLLDRLGDWVRIPSVAGVPERKHHLTRSAKWLAGELRDVGFPTTEIWQGAEGPAVFAEWSAAPGAPTILVYSHHDVRAVKQENWDETAPFDPVFRDGRLYGRGSSDAKGQVMAHIWGIRAHLQATGRSTPAVNLKFLVEGEEEAGSPGLRDLLEAHRPRLDADAVIFSDTLLWRADHPALCTSVRGMLGVSIEVYGPLTDIHSGAVSGTAPNPALELSRLLAQLHDQKGCITFPGFYDEVEEISARRRDELAALPYDPEDWLERSHTRSIGGENSYTVLERLWERPALEVIALEAGDPVGVPRAAVPSMASAELSIRTVAGQKVKDVADQVRRFVDEAISDHYAYKLSLDTETAQEFYRTPESPLVDALSTAMAKGFAVPEVGRMGNAGGGPADLLSTALDVPVVFFGTGLVEDNWHDSDESVRADLLKSGAATLAFLWEELGRLAYLPRP				NA	NA	NA	NA	NA
D1-17_03797	798	pcaR_2	COG1414	Pca regulon regulatory protein	ATGGAGGAGCAGCCGCCCTACTTTGTGAAGTCAGTGGAGAAGGCCTTTGATGTCCTGCTCGCCTTTACCCCCGAACAACCGCGACTCACGGTCTCGCAGATCGCATCACAAACGGACATGACTCGGGCATCCGCCCGGCGTTTCCTGATGACCCTCACGGACCTCGGTTACCTTCGAGCGGATGGTTCCACATACGAACTCACGGCGCGCTCCCTTGATGTTGGCAGATCCTTCCTGGCTGGCCTGACCCTGCCTAAGGTGGCCGAACCGCACCTAAGGGCCCTTGCCAAAACCTTGAACGAGACAACAACCCTGTGCATCCTCGACGGTTCGGACGTGGTGTACGTGGCATGCGTGCCGTCCCCGAGGTTGCTTAGCGTCTCGATAACCGTCGGCACCAGATTTCCGGCCTGGGCAACATCCATGGGCAGAGTACTCCTCGGCGGATTGCCGGATCCGGAACTGGAGAAGTATCTTCAGGAGGTGCAGCTGCAGCGGTTCACCGATCGCACGGTGGGCACTGCTGACCAACTCCGGGCCGAGGTGGAAACAGCACGCTCCAAGGGCTGGTCCATGGTTTCGGAGGAGTTGGAGGAGGGCCTGCGCGGAGTAGCAGTTCCCGTGTGGCGCGGCAACGGCATGGTCGCGGCGGCCAACGTCTCCCTACAGACACATCGGACCTCTGCCAAGGCCATCGAAAAGATTGTAGTTCCCAAATTGCAGGAAACGGCTCGAGCGATAGCTCTCGATTTCGGTGGACCCGGCGCTACAGTTCCGCTGTCCAGGCGTAACGCCTGA	MEEQPPYFVKSVEKAFDVLLAFTPEQPRLTVSQIASQTDMTRASARRFLMTLTDLGYLRADGSTYELTARSLDVGRSFLAGLTLPKVAEPHLRALAKTLNETTTLCILDGSDVVYVACVPSPRLLSVSITVGTRFPAWATSMGRVLLGGLPDPELEKYLQEVQLQRFTDRTVGTADQLRAEVETARSKGWSMVSEELEEGLRGVAVPVWRGNGMVAAANVSLQTHRTSAKAIEKIVVPKLQETARAIALDFGGPGATVPLSRRNA				NA	NA	NA	NA	NA
D1-17_03798	615	aroE_3		Shikimate dehydrogenase (NADP(+))	ATGATGGGGGCAGGCGGGGCCGCCAGGGCTGCACTAGTAGCCCTCAAAGGAAAAACGGGCAGCGTCACCATCACCGACAGGGATACCCGAGCGTCAGAAGATTTGCTAGGTGTTGCCCGTAGCCTTGGCATGGACGCCCACGGCGTGACGTGGGAACAGGCCCAAACCGATGCTTCGGATGCTTCCCTCATTGTGAATGCCACTCCCATCGGAAAGAACCGTTCCGATCGACCCGTTTGGGGCGACGGCACACTTGCTGACGATGCCGTCGTTTATGACTTTGTCTATGCTGGCCACGTTACTGCGACCATTGCCCGCGCCAGGGAACTGGGAGCGGGCGGCATCGACGGATGGGATCGTCTGCGCGAGCAGGCTGCGGAAATGATTCCCGTACTGGGACTTGACCAGCGGACAGGTTCCCTGCTGAAGGACACCCTGAGCCTCCTGGAACGGGCAGCCCATTCTGGGAACGCGGCCGTGATGCGCTCTGCGACTTCGAGGTATAGGCCGGATATGATCGAGAAGGCTCTGAAACCCGGCACGCCCGCGCCGGCGGGCCACTGCATTCAGAGAGGAACGCAAGGTTCATGGAGGAGCAGCCGCCCTACTTTGTGA	MMGAGGAARAALVALKGKTGSVTITDRDTRASEDLLGVARSLGMDAHGVTWEQAQTDASDASLIVNATPIGKNRSDRPVWGDGTLADDAVVYDFVYAGHVTATIARARELGAGGIDGWDRLREQAAEMIPVLGLDQRTGSLLKDTLSLLERAAHSGNAAVMRSATSRYRPDMIEKALKPGTPAPAGHCIQRGTQGSWRSSRPTL	PGPT0012890_3020	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012890-aroE-K00014	NA	NA
D1-17_03799	1338	abaF_10		Fosfomycin resistance protein AbaF	ATGACAAACATTGCAGCAGGGGCCGAGGCCGAATCGCCGGCAGACTCGCAAAGGCAGCTCAAACGCGCCAGGAAAGCGGCGCTGGCCGCATTCCTTGGCGGAGCGCTGGAGTACTACGACTTCTTCATTTACGCCACCGCTGCGTCGCTGGTGTTCTCGAAGATCTTCTTTCCGGCCGGCGACCCAACCGTTGCCCTGCTGGCTTCCTTCGCCACTTTCGGCGTCGCCTACGTCGCGCGACCCTTCGGCGCTGTCGTCTTCGGGCACCTCGGTGACAGGATCGGCCGGAAGAACACCCTGGTGCTGACCCTGGTCCTGATGGGAGCCGCCACGTTCCTCATCGGCGTCCTGCCCGACTTCAACACCGCTGGCTACTGGGCGCCTGCCCTGCTGGTGGTCCTGCGACTGATGCAGGGACTCTCCGCGGGCGCGGAAACAGCAGGGGCCTCCGCCCTCTCCACAGAAGAGGCCCCAACGGGACGCCGCGGCTTCTTCGCCAGCTTCGCCATGAGCGGCATCTCCGCCGGCATCGTCCTGGCCTCCCTCGCCTTCCTGCCCGTGGCAGCCATGAGCGAAGCAGACCGCCTGTCCTGGGGCTGGCGGATTCCCTTCTGGGGCTCAATCCTCGTGCTGATCGTCGCCTACCTCGTCCGCCGCTCACTGGACGAACCGGAAGTCTTCGAAGAAAAGCACGATCACGGCGAACTCGTGAAACTCCCCTTCGCAAAGATGTTCAAGACCCACCCGGCCCAGTTCTTCCAGGTGGCGCTGATGTCCTTCGAGACCGTCACCAACACCTTCATGCAGGCCTTCGGACTCGCCTACGCCGTCAGCGTCGGCGTGCCGGCATCCACCATGCTCTGGGTCAGCATCGCCGGCAACGTCCTGGCCATCGCCACCCAGCCCCTGATGGCGCACTTGTCGGACCGTTTTGGACGACGCCCGGTCTTCATCGCCGGCGTCCTGGGCTCCGGCATCATGATTTTCGTGTACTTCTCAGTCATTTCCACCGGCAACATCCCGATGATCTTCCTCACCAGCACTCTGATCACCGCCGGCACGTACGCAATGTCCAACGCGATCTACCCTGCATGGTTCTCCGAACTCTTCAACGTCAAAGTCCGCTACTCCGGCATGGCCATCGGCCTGCAGATCGGCATCCTCTGCGCCGGCTTCACCCCACTGCTCGGCACCGCCCTTGTCGGCGCGGACAAAGCCAACTGGGGACCTGCCGCCTGGATCGTAGCCGCCTCCTCCGTCCTTGCCGTCGCCGGCGCGCTATGGGCCAAAGAGACCAGCAAGACCCCCCTCCGGGAACTGGGAAACCCCGTCGGCTGA	MTNIAAGAEAESPADSQRQLKRARKAALAAFLGGALEYYDFFIYATAASLVFSKIFFPAGDPTVALLASFATFGVAYVARPFGAVVFGHLGDRIGRKNTLVLTLVLMGAATFLIGVLPDFNTAGYWAPALLVVLRLMQGLSAGAETAGASALSTEEAPTGRRGFFASFAMSGISAGIVLASLAFLPVAAMSEADRLSWGWRIPFWGSILVLIVAYLVRRSLDEPEVFEEKHDHGELVKLPFAKMFKTHPAQFFQVALMSFETVTNTFMQAFGLAYAVSVGVPASTMLWVSIAGNVLAIATQPLMAHLSDRFGRRPVFIAGVLGSGIMIFVYFSVISTGNIPMIFLTSTLITAGTYAMSNAIYPAWFSELFNVKVRYSGMAIGLQIGILCAGFTPLLGTALVGADKANWGPAAWIVAASSVLAVAGALWAKETSKTPLRELGNPVG	PGPT0002956_293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-17_03800	1434	mntH_1		Divalent metal cation transporter MntH	ATGTGGCGGCAGACACACATAGTTTGGCTGGAGTCCTCTTTTACCAGGGGGACCATCAACGTCGAGGAGGAAGCCATGAGCAATGATGCCCTGGGCAGCACACCCCCAAAGAACGAACCGGTGATGAAAGCGAATCAGCAGCTTCCGTCCAGAGTAAGTCACGCTGACCGGATTGACGACGACGGCGGCCGCCCCGCGAAATGGCGCATCATCGGACCCGGCCTGGTGGTCGCAGCAACCGGCGTGGGCGCCGCCGACATGGTGGCAACCCTGGTGGCCGGCTCCCGCTACGGCTACGGCCTGTTTTGGGCCGTCATCGTCGGTGTCGTCCTGAAGATCATTCTCGTTGAAGGGGCCGGGCGGTACACGCTGGCCACCGGAAAGACGATCTTCGAGGGATGGCGCTCCCTCGGCAAATGGACGACCTGGTATTTCGGGCCCTACATCATGATCTGGGGCTTCGTCTACGGAGCCACGGCCATGTCCTCGGCAGCGTTGCCGCTGGCGGCCGTGTTCCCCATTCTGCCGCTGTGGGGATGGGCCATCCTGATGGGCCTGGCCGGTTTCGCGATGGTCTGGTGGGGCAAATACGCCACGTTCGAGAAAATCACAGCGGCCCTGGTGGGCATGATGTTCGTGACCGTGGTGGGCCTTGCCGTCATAGCCGCCCCAAACATTCCGGAGATGCTGACCGGGCTGATCCCGATGATTCCCTCAACCGACGGGGGCATCTTCTACACACTCGCCCTGGCCGGCGGAGTGGGCGGCACCATAACCCTCGCCGCCTACGGATACTGGCTGCGCGAGAAGGGCTGGTACACGCCCAAGTGGATGAAGGTCATGCGGATCGACAACTCGATGGCCTACGTGATGACCGGGATCTTTGTCATAGCCATGCTCATTGTGGGCGCCGAGGTTGTCCGGTCCGCAGGTGTTTCCCTCAGCGCCAGCGACGAAGGGCTGCTGGATCTCTACGATGTGCTGAAGGCGGAGTACGGCGACGTCGTCGGAACCGGGTTCCTCATCGGTTTCTGGGCTGCTTCCTTCTCCTCCATCATCGGCGTCTGGAATGGTGTTTCCCTCATGTTCGCTGACTTCTGGGGCAACATGCGGGGCAAGGAATCAGGACATCCCGACACCCGTGTGGGTGGAAAGTACTTCAAGTTCTACATCCTTTGGCTCACCTTCCCGCCCATGGCCCTCTTTGCCCTGGGCCAGCCCATCGGCCTGATCCTGCTCTATGGTGCCCTGGGCTCGCTGTTCATGCCGTTCCTGGCACTGACCCTGCTCGGCCTGCTCAACGGCAGGCGGATCCCGAAGGCCTGGGCCAACAAACCGCACAGCAACATTGCGCTGGGACTGTGTGCATTGCTGTTCGTTGTCCTTGGCGTCCGGCAGTTCTGGACTTCCCTCTCGCCGCTCTTCGCCGGCTAG	MWRQTHIVWLESSFTRGTINVEEEAMSNDALGSTPPKNEPVMKANQQLPSRVSHADRIDDDGGRPAKWRIIGPGLVVAATGVGAADMVATLVAGSRYGYGLFWAVIVGVVLKIILVEGAGRYTLATGKTIFEGWRSLGKWTTWYFGPYIMIWGFVYGATAMSSAALPLAAVFPILPLWGWAILMGLAGFAMVWWGKYATFEKITAALVGMMFVTVVGLAVIAAPNIPEMLTGLIPMIPSTDGGIFYTLALAGGVGGTITLAAYGYWLREKGWYTPKWMKVMRIDNSMAYVMTGIFVIAMLIVGAEVVRSAGVSLSASDEGLLDLYDVLKAEYGDVVGTGFLIGFWAASFSSIIGVWNGVSLMFADFWGNMRGKESGHPDTRVGGKYFKFYILWLTFPPMALFALGQPIGLILLYGALGSLFMPFLALTLLGLLNGRRIPKAWANKPHSNIALGLCALLFVVLGVRQFWTSLSPLFAG				NA	NA	NA	NA	NA
D1-17_03801	1038	rbsR_3	COG1609	Ribose operon repressor	ATGGAACCCGGCAGGTTAGGGACACCCGTCACCCTCAAGGAGGTTGCCGCGGCCAGTGGTGTCAGTGTTTCCACCGCCAGCCGTGCCCTGGATGAGCGGGGAACTGCATCAAAGTCTGCTGCGGCAGCACATGTGAGGAAGATTGCCGAAGAGCTCGGCTACCGCCGGAACTCCTTCGCCTCCAACCTGCGCAGAGGCGAGACCCGGACCCTCGGCGTGCTCGTGCCCCGGCTCAGCGACACCGTCATGGCCCTCATGTTCGAGGAACTGGAACGCGCCGCCTCAGGCCGCGGCTACTTCGCCATGGTCGCCACCAGCGGCGATGACCCCGACGACGAACGCCGGGCAGCCGAAACACTCCTCGACCGCAATGTTGACGGGCTGATCCTCGCCACTGCCCGACTTGACGATGAGCTGCCCCGGCATCTGCGCGAGCGGGGTGTGGCGCACGCGTTGGTGCTGCGTACCGACGGCGTCAGTCCCTCCGCACTTGGCGACGATGAGGTGGGCGGATATTTCGCGGTCAGGCACCTCATTGACCTTGGGCACCGTGATATCGCCGTTGTGACCGGGCCTTCATTCACGTCCACCGGGACAGCCCGCCTCGCTGGCGCCCGAAAAGCCCTGGAAGAAGCAGGCATCAAGCCCCGGGAAGACTGGCTGATAGCCGCCGGGTATGGCATCGAAAGCGGTTTCTCCGCCGCGCAAGATCTATTGGCCAGCAACACCGGAGCACGTCCCAGCGCGGTGTTTGCCGCCAACGACAACCTGGCCATGGGGGTCATCGCGGCCGCCCACCGCCTCGGTATCACCGTAGGAGAAGACCTAGCCCTGGTCGGCTACAACGACATACCCCTCTCGTCCCGCCTTTCAACCCCACTCTCTTCCGTGCGGGTGCCCCTGGACCAGATCGCAAGCAACGCGATCGACCTCATCGTGAACCCCGGCAGGGAACCCAAAATCCGAAAATCCATGCCCACCCTCATGCCCCGCCAATCGAGCGGTAGACCTTTGCACTCCGCACCACACAATTCGTAG	MEPGRLGTPVTLKEVAAASGVSVSTASRALDERGTASKSAAAAHVRKIAEELGYRRNSFASNLRRGETRTLGVLVPRLSDTVMALMFEELERAASGRGYFAMVATSGDDPDDERRAAETLLDRNVDGLILATARLDDELPRHLRERGVAHALVLRTDGVSPSALGDDEVGGYFAVRHLIDLGHRDIAVVTGPSFTSTGTARLAGARKALEEAGIKPREDWLIAAGYGIESGFSAAQDLLASNTGARPSAVFAANDNLAMGVIAAAHRLGITVGEDLALVGYNDIPLSSRLSTPLSSVRVPLDQIASNAIDLIVNPGREPKIRKSMPTLMPRQSSGRPLHSAPHNS	PGPT0017992_6728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017992-lacI|galR-K02529	NA	NA
D1-17_03802	936	yjhH	COG0329	putative 2-dehydro-3-deoxy-D-pentonate aldolase YjhH	ATGACCATGGATCTTCGCGGGCTTGTCCCCGCACCTGTAACGCCGTTCAACCGTGACGGCAGCGTCGACGTCGACGCGATCCACCGCTTGGGCGGCTGGCTGGCCAGCGTGGAGGGCGTCAAGGGCCTCGTGGTTCTCGGACACGCCGGCGAAGGCACCTTCCTCACCCAGGACGAGCAGGCCCTCGTCATTCGTGAGTTCAAGAACGCCGTCAACGGCGAGATCCCGATCATCGCCGGCATCACCGCTGAGGGCAACACCGTCGCCGCACTGGAAGCCAAGCGTGCCGTTGAGGCCGGCGCCGAGGCCGGTCTGGTCTACCCCTCCCACGGCTGGCTCCGCTTCGGTTACCAGAAGGGTGCCCCGCAGACCCGGTACCAGGAAATCTACGAAACCAGTGGCCTGCCGCTGATCCTCTTCCAGTACCCGGATGCCACCAAGGCAACCTACGACCTGGACACCCAGCTGGAGATCGCCGGCATGGAAGGCGTGTTTGCCACCAAGAACGGCGTGCGGAACATGAAGCGCTGGGACACCGAAATCCCCGTCCTGCGTGCAACCTACCCGGACCTGCAGATCCTCACCTGCCACGACGAGTACCTGCTGCACACCATGTTCGACGTCGACGGCGCCCTGGTCGGCTACGGCGGACTCGCCCCCGAGCCGCTGGTGGAACTCATCGCAGCGGGCAAGGCCAAGGACTACGCCGCCGCCCGCGCCATCCACGACCGCCTCCTGCCCGTGACCAAGAACGTCTACCACCGCGGCTCACACATGGAAGGCACCGTCGCCCTCAAGGAAGGCCTCATCGCCCGCGGCATCCTCGAGCACTCCACCGTCCGACCGCCGCTGCTTCCCCTGGCCGAAGGTGCAGGAAACGAGATCGCGAAGGCCCTGCAGTCCGCCAACCTGGGCAACGTCACCGTACCTGCGTAA	MTMDLRGLVPAPVTPFNRDGSVDVDAIHRLGGWLASVEGVKGLVVLGHAGEGTFLTQDEQALVIREFKNAVNGEIPIIAGITAEGNTVAALEAKRAVEAGAEAGLVYPSHGWLRFGYQKGAPQTRYQEIYETSGLPLILFQYPDATKATYDLDTQLEIAGMEGVFATKNGVRNMKRWDTEIPVLRATYPDLQILTCHDEYLLHTMFDVDGALVGYGGLAPEPLVELIAAGKAKDYAAARAIHDRLLPVTKNVYHRGSHMEGTVALKEGLIARGILEHSTVRPPLLPLAEGAGNEIAKALQSANLGNVTVPA	PGPT0002080_1339	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-17_03803	1314	mntH_2	COG1914	Divalent metal cation transporter MntH	ATGCGCGAGCACAACAAGACCGCCCACGCAGTAAAGGTCCAGGCAGGGCATGCGGTCGGCAACGAACATACTTCACCTGCGTCCGGTTCACTTACAACCGATGCTCCCAAGCGCCGGACCTTCCTTGGCTACCTCGCCCTCATGGGGCCGGCGTTCGTCGTCGGAGCCTGGCAATTCGGCCCCGGAAACCTCACCACCGCCGTACAGGCCGGCAGCCGCTTCGACTACAGCCTCGTCTGGGTCATCGCCGTCTCCACCATCCTGATGATCTTCTTCACCGACATGAGCGTCCGGCTCGGCATCGCCACACCCACCTCACTGATCACCTCCATCAAGGACCACCTCGGCAAATGGGTGGGCGTCCTGGCAGGCTTCGGCGTCTTTGGCATCACGCTGATGTTCTCCGTTGGCAACGCCGTCGGATCCGGCCTGGGCCTGTCCCTGGTCTTCGGCGGCTCCCCAGTCCTCTGGACAGTGGTCTGCACCGCCGCCGTCGGCTTCGTCCTGGCCTTCAAAAACGTTTACGGGATCGTGGAAAGGGCCCTGCTGGTCATCGTTGTCCTCATGGGCCTGGCCTTCATCGCCAGCACCGTCGTCGCCCAACCCGACTGGTACCGCTCCATGGAAGGCATGCTCCCGACACTTCCGCCCGGAAGCGAAATCCTCATCGTCGCCCTCGTCGGAACCAACTTCTCCATCAACGCCGCGTTCTACACCTCCTACGGCATCAAGGAACACCGCCGCACCCGCGCCGACTACCGCGACATCACCCTCGTCGACACCATCCCCGGCATCGTCGCGCCCGGCATCATGACCGCCCTCGTCATCATGGTCGCCGCCGCAGTCCTCGGGAAGACAGGCGCCGAAGCCGGGACCATCAACGCCCTCGCTTCCGTCTTCGCACCTCTGGCAGGCCCCGTCGGAGCCAAGCTCTTCGCCCTCGGCCTCTCTGGAGCCGCCTTCTCATCGATGATCGCCAACGCCACCGCCGGCGGCACCATGCTCTCCGACGGCCTGGGCCGCGGCGCCAAAGCAGGATCACCTACCGCCCGCATCATCACCGGCACGATCCTAGCCTTCGGCCTGATCATCACCCTTACCTTCCAGTCCTCACCCGTGGCGCTGATCGTCATCGCCCAATCCCTCACCGTACTCATCGCCCCCATGCTCGGCGTCCTGATTGTCATCATGGCCAACAGGCGCTCCATCATGGGAGAGCTCCGCAACAAATGGTGGCAGAACCTCTTCGGCGCCATCGGCCTCATCGCCATCATCGCCTCCTCCATCAGACTCATCACCACCCTGCTCGGCTGA	MREHNKTAHAVKVQAGHAVGNEHTSPASGSLTTDAPKRRTFLGYLALMGPAFVVGAWQFGPGNLTTAVQAGSRFDYSLVWVIAVSTILMIFFTDMSVRLGIATPTSLITSIKDHLGKWVGVLAGFGVFGITLMFSVGNAVGSGLGLSLVFGGSPVLWTVVCTAAVGFVLAFKNVYGIVERALLVIVVLMGLAFIASTVVAQPDWYRSMEGMLPTLPPGSEILIVALVGTNFSINAAFYTSYGIKEHRRTRADYRDITLVDTIPGIVAPGIMTALVIMVAAAVLGKTGAEAGTINALASVFAPLAGPVGAKLFALGLSGAAFSSMIANATAGGTMLSDGLGRGAKAGSPTARIITGTILAFGLIITLTFQSSPVALIVIAQSLTVLIAPMLGVLIVIMANRRSIMGELRNKWWQNLFGAIGLIAIIASSIRLITTLLG	PGPT0004370_1430	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
D1-17_03804	1050	phoA		Alkaline phosphatase	ATGCGCCACAATCGTGTTATCGCTGGAACGTCCGCTTTCCTCTTGGCCGTCACTGAGCTTTTGGCCGCGTCCCTGGGTAGCGGCGGTGGGAACACCGCTGAGGGAGTGCCGCAGCCAATTAAGACTCTCGCTGCGCCGGCCCCGCCATCACCGAAGGCCGCTTCACCTGCGCGGGAGGTGCGGATCGCTGCTGTCGGTGACATGAACGGCCCGAGGACGTACGCACGGAATGGCCCGTCCGGTCGGAACGGTGCGGCGATCACCAGGCTGGTGCAGAAGAACGAAATTGATGCGTTCCTGGGGCTCGGGGACTTCCAGTACGACGTTGCGTACTGTGCTGACTACGTGAAGTACTGGACGCGGCTGTGGGGTGGCACGAAGCCCAAGTTGTACTGGGTGTCCGCGCCCAACCACGACTGGAAACCCGGCCGGAACGAAGACCTCGACAACTTCATGAACGGCCAATGCCCGGGGTCTCGGGCGAAGGCTGCGATCAATCAGCAGCGTGGGTTCATCGGGAACGGGAAACCATACTCGAAGGACTTCGGGAAATGGCACTTCGCGTTCCTGTCCTCCGCGCACTGGCGGTACAACCCTGAGGAGGCCCGGGCGCTGACGACGTGGCTGGACAAAGACCTCGCTGCTGCCAAGGCGGCAGGTAAACACCTGGCCGTCGTGCACCACGAACCGTACTTCACCTCGAACACGAAAGAACATAAGCGGGCCCGTGACCACAAGCCGTGGATCGACGTGATGTGGAAGCACCGGGTCCGTCTGACCCTGTCAGGGTCACAACACAACTACGAACGCTCATGTCCGGTGAACAACGCTGACCGGTGCGTCAGTGACGGGATGACAGCGTTCCAGGTTTCCACAGGAGGTATCGGGCTCCGCTCCTTCACCAGCAGTCCGCCGTACATCGTGAAGCGATTCAGCAACACCCACGGCTTCCTGCGGATGACACTCCGAGACAACGGGTCGTTCAACTGGGAATTCATCCCAACGACAGGGAAGGGCACGGACGCAGGTACGCGTCCCGCACCAAAATGA	MRHNRVIAGTSAFLLAVTELLAASLGSGGGNTAEGVPQPIKTLAAPAPPSPKAASPAREVRIAAVGDMNGPRTYARNGPSGRNGAAITRLVQKNEIDAFLGLGDFQYDVAYCADYVKYWTRLWGGTKPKLYWVSAPNHDWKPGRNEDLDNFMNGQCPGSRAKAAINQQRGFIGNGKPYSKDFGKWHFAFLSSAHWRYNPEEARALTTWLDKDLAAAKAAGKHLAVVHHEPYFTSNTKEHKRARDHKPWIDVMWKHRVRLTLSGSQHNYERSCPVNNADRCVSDGMTAFQVSTGGIGLRSFTSSPPYIVKRFSNTHGFLRMTLRDNGSFNWEFIPTTGKGTDAGTRPAPK				NA	NA	NA	NA	NA
D1-17_03805	846	yisK_2	COG0179	putative protein YisK	ATGGAACTGGCAACGCTTCGAACATCCCGAGGGGTCACGGCGGCTGTACGCCGCGGCGGCCACTGGCTGGCGCTTCCCGCCGAGAACCTCAGCCAGTTCCTGCTTAGCTCCTCCTGGCGGACGGACGCCGAATCAGTGCTCGCGTCGGCGGCTCCTGGAGCCGGCGTCAGCGAAGCCGAAGCGGAACTTGAACTTCCCCTGCCGGCTCCGGGCAAGGTGATCTGTTGCGGCCTGAACTACTCCGACCACATCCTGGAAATGGGGCGCGATCTTCCCCGATACCCGACTCTTTTCGCGAAGTTCGCGGACACCTTGATCGGCCCAGGCCGGGACGTCACGATACCACCGACGGCGCAAGGCGCTCTCGACTGGGAAGCGGAACTCGCCGTGGTCATTGGGACCGAACTGCTGGGTGCCTCAGTGGAGGAGGCACGCGAGGGAATTGCCGGATATACATTGGCGAACGACCTGTCGATGCGCGACTGGCAGAAGCGGACTCTGCAGTGGTTCCAAGGCAAGGCCTGGGACTCCACGACCCCGTTGGGTCCGACACTCATCACAGCTGACGCGGTGGACCCCGAGGACGGTATCGAGATCTCGTGCGAGATCAACGGCGTCCGCCGCCAGCATGGGTCCACAAAAAACCTCGTGTTCAGCGCGGCCGCCCTCGTATCGTACGTTTCCACCTTTACCGTTCTCCGCCCGGGAGACATCATCCTCACGGGTACCCCGGGAGGTGTGGGCATGGGCATGGATCCGGCGCTCTACCTCACCGACGGCGATACAGCCACCGTAAGCGCGCCGGGCCTCGGCGAACTCACCAACGCCATCCGCTTCAGCAAGTAA	MELATLRTSRGVTAAVRRGGHWLALPAENLSQFLLSSSWRTDAESVLASAAPGAGVSEAEAELELPLPAPGKVICCGLNYSDHILEMGRDLPRYPTLFAKFADTLIGPGRDVTIPPTAQGALDWEAELAVVIGTELLGASVEEAREGIAGYTLANDLSMRDWQKRTLQWFQGKAWDSTTPLGPTLITADAVDPEDGIEISCEINGVRRQHGSTKNLVFSAAALVSYVSTFTVLRPGDIILTGTPGGVGMGMDPALYLTDGDTATVSAPGLGELTNAIRFSK	PGPT0001630_272	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164	NA	NA
D1-17_03806	1512	bauC_4	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGAACACGACGACCGTCACCTCCACCATCAACCACTTCATCAACGGCGCCGAGGCCGCAGGTACAGGCACCGCCTCCAAGCCCGTCTACAACCCGGCCACCGGCCAGATCAGCGCAGAGCTGCGGCTGGCCAACCGCGAGGATCTCGACGCGACCGTCGCCGCGGCCAAGGCCGCGGCACTCACGTGGGGCGACATCTCGCTGGCCAAGCGCACCGCCGTGCTGTTCAAGTTCCGCGAACTCGTCGCTTCCCACGTGGACGAACTCGCCGAACTGATCACGGCCGAGCACGGCAAGGTCCTCTCTGACGCCAAGGGCGAGATCGGCCGCGGCCTGGAGGTCATAGAGTTTGCCTGCGGCATCCCGCAGCTGCTCAAGGGAGAGTACTCGGACCAGGTCTCCACCGGCATCGACGTGTTCTCGTTCCGCGAGCCAATCGGTGTGGTTGCCGGCATCACCCCGTTCAACTTCCCCGTCATGGTGCCGCTGTGGATGGCCCCGATGGCGATCGCCACCGGCAACGCCTTCATCCTCAAGCCTTCCCACCGGGTCCCTTCAGCAGCGATGCTGCTGGCCAGGCTCTGGAAGCAGGCAGGCCTGCCCGACGGCGTGTTCCAGGTCCTGCACGGGGACCGGGAGGTCGTCTCCGGTCTCCTGACCCACCCGGACGTGGACGGCATCTCCTTCGTCGGTTCCACCCCTGTCGCCAAGCACATCATGGAGATCGCCACCGCGCACGGCAAGCGCGTCCAGGCCCTGGGTGGCGCGAAGAACCACGCCATAGTGATGCCCGACGCGGACCTCGACAACGCCGCCGACCACCTCGCCGCCGCCGCCTTCGGTTCCGCCGGGCAGCGCTGCATGGCCATCTCCGTCGCCGTCGCCGTCGGGAACGCCGCCGACCTGCTGGTCAAGAAGGTCCGAGAGCGCGCTCTGGACGTCAAGGTCAAGAACGGCATGGAGCCCGACGCCGACATGGGCCCCGTCATCAGCACTGACTCCCGGCACTTCGTCGTCCGAACCATTACCGAAGCAGAAGCCGCCGGCGCCGCCATGGTGGTGGACGGTCGCGACCTGGTGGTCCCCGGCCATGAGGAAGGCTTCTGGGTTGGTCCCACCGTGCTGGATCACGTCAGGACCGAGATGTCCGCCTACACCGAGGAAATCTTCGGCCCCGTCCTCGTGGTGGTCCGCGTCGCGGACCTGGAGGAGGGCATCAAGCTGATCAACGCCAACCCGTACGGCAACGGCACCGCGATCTTTACCTCCTCCGGTGCCGCGGCGCGGAAGTTCCAGCGCTCCGTCGATGTGGGCATGATCGGCATCAACGTGCCGCTGCCCGTGCCGGTGGCCTACTACTCCTTCGGCGGGTGGAAGGCCTCGCTGTTCGGCGACAAGCACATCTACGGCCCGGAAGGGGTCTCGTTCTACACCCGAGGCAAGGTCATCACCTCACGCTGGCCCGAAGCTGAGCACGCGTCCGGCGCCTCCTACAACTTCCCCTCCAACTAG	MNTTTVTSTINHFINGAEAAGTGTASKPVYNPATGQISAELRLANREDLDATVAAAKAAALTWGDISLAKRTAVLFKFRELVASHVDELAELITAEHGKVLSDAKGEIGRGLEVIEFACGIPQLLKGEYSDQVSTGIDVFSFREPIGVVAGITPFNFPVMVPLWMAPMAIATGNAFILKPSHRVPSAAMLLARLWKQAGLPDGVFQVLHGDREVVSGLLTHPDVDGISFVGSTPVAKHIMEIATAHGKRVQALGGAKNHAIVMPDADLDNAADHLAAAAFGSAGQRCMAISVAVAVGNAADLLVKKVRERALDVKVKNGMEPDADMGPVISTDSRHFVVRTITEAEAAGAAMVVDGRDLVVPGHEEGFWVGPTVLDHVRTEMSAYTEEIFGPVLVVVRVADLEEGIKLINANPYGNGTAIFTSSGAAARKFQRSVDVGMIGINVPLPVPVAYYSFGGWKASLFGDKHIYGPEGVSFYTRGKVITSRWPEAEHASGASYNFPSN	PGPT0002295_1542	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0002295-mmsA|iolA-K00140	NA	NA
D1-17_03807	1161	adhB		Alcohol dehydrogenase 2	ATGGTTGCCAGCATTGCACTTCCCCGCCTCATGCGAGTAGGCGGGGGGGCCATCCACGAGACGGGCTCCCTAGTCAGCGACCTCGGGGGGCACCGTCCGCTTGTAGTCACCGACGCCTATATGGTTGCTTGCGGCGTGGTTGGCATCTTGACCGACACTCTCCGGAAGTCCGGGCTGAGTGTCGCCGTATTCTCCGGAACGGTTCCCGATCCCACCACCGGTTCCCTGAGTGACGGCGTGAGAGCGGTTCAAGAACACCAGGCTGACATCATTATCGGTCTCGGCGGCGGCAGCGCAATCGATACAGCCAAAGCTCTTGGAATTCTGAGCCGGCAAGGTGGCGAAATGCGGGACTACAAGGCACCGAGGAACAACACTGGCCCTGCGCTTCCCGTTGTCGCAATTCCCACCACAGCAGGAAGTGGCTCCGAAGCCACGCAGTTTACGATCATCAGCGACTCGGAGACCAGCGAAAAGATGTTGTGCGCCGGCGCAGCATTCCTGCCTGTTGCTGCTGTTATCGACCACACGCTTACCTTGTCTATGCCCCCCCGGCTGACTGCTGATACAGGCATCGATGCACTGACCCACGCCATTGAAGCCTTTGTCAGCAAGAAGGCCAGTCCCTTCTCAGACGCATTTGCGTTGTCAGCTATCAGGACCATTGGGACGAACCTCAGAAAAGTTTACGAAGACGGCTCGAACCAGGCCGCCCGGGAGGCCATGATGTTGGCCGCCACCCAGGCAGGTATCGCATTTTCCAACTCCAGCGTCGCTTTGGTTCACGGCATGAGCAGGCCGATCGGCGCTCATTTCCATGTGGCACATGGGCTGGCGAACGCCATGCTGTTCCCGGCTGTAACCGAGTTTTCAGTAACTGCCGCGGAGTCACGATACGCCGAATGCGCACGTGCTCTGGGCGTCGCCTCCGCAGCAGCGACTGACAGGGAAGCTTCGGTAGCACTCGTGACCGAACTCCATGCGATCAATGCCGACCTAAACGTTCCCACCCCGGAGGCCTTCGGCATCGACCGGAATGCTTGGGAATCCAAGCTTCCGCTTATGGCCGAACAGGCGCTGTCCTCCGGTTCACCCGCCAACAACCCCGTCATTCCGGACGCACAGCAAATCCAGGACATTTACGCCGGCATCTACGCCTAG	MVASIALPRLMRVGGGAIHETGSLVSDLGGHRPLVVTDAYMVACGVVGILTDTLRKSGLSVAVFSGTVPDPTTGSLSDGVRAVQEHQADIIIGLGGGSAIDTAKALGILSRQGGEMRDYKAPRNNTGPALPVVAIPTTAGSGSEATQFTIISDSETSEKMLCAGAAFLPVAAVIDHTLTLSMPPRLTADTGIDALTHAIEAFVSKKASPFSDAFALSAIRTIGTNLRKVYEDGSNQAAREAMMLAATQAGIAFSNSSVALVHGMSRPIGAHFHVAHGLANAMLFPAVTEFSVTAAESRYAECARALGVASAAATDREASVALVTELHAINADLNVPTPEAFGIDRNAWESKLPLMAEQALSSGSPANNPVIPDAQQIQDIYAGIYA	PGPT0003253_1	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-DMSP_DEGRADATION,PGPT0003253-dddB-NA	NA	NA
D1-17_03808	906	hdfR		HTH-type transcriptional regulator HdfR	ATGATCTCTGCCGATGACCTGCGTTTCTTCTTGGAGGTATCACGTACGGGCAAGCTGGTGGCAGCGGCGCGTGGACTGGGCGTTGACCACACGACGGTGGGTCGCCGCATCACCCAACTTGAAAAGGCAAGCGGCGCGAGGTTGTTCGTGCGCTCCCCGGGAGCGTGGGAGCTCACGGAAGCCGGAGAACGCCTGGCCATCCATGCTGAGGCTGTGGAATCATCGCTGCTGGCCGCCGCCGAGGAACTCGGGTCCTCGCCAGGGCGGCTATCTGGCACCTTGCGGATTGCCGCCCCTGATGGATTCGGGGCTTTTGTACTCACCCCGGGACTGGGTAGATTACGAGCACGGTATCCCGACCTCAAAGTGGAAGTAGTTACGGCGACGCGCCTTAATCTGCTGGCCTCAAAGGAATTCGATGTCGGGATTTCGCTGACCCAGCCGACGACCCGGGGGGTTGAGTCTTTCGAACTGGCAGAGTATCCGCTCGGCTTATATGCCAGCACACAGTACCTTCAACGTCACGGACCCATATCTACCGTGGATGAGCTCCTCGAGCACTCCGTGATTGGCTACGTCGATTCGCTTCTGGACATTCCTGCGCTGCGATTTCTGGACGCAGCACTCCCTGGAGTCGGCCCGGCCATCCAAACGAACAACATCACGGGGCAATGGATGGCTGCAGTTGCGGGGCTGGGTGTTGCAGTCCTTCCCTTTTTTATTGCTGAGCCTGATCGCCGGCTCGTTCATATCCTAGATGAATCGGTAGCTATTCGGAGGAAATACTGGCTGGCTGTGCCGCGTGAGCTGCAGCGGCTGGCCAGGATCCGAGCCGCCCATCAGGAACTCAGGGAGCTGGTCCTCGCCCATCCATATCTTGAGGCAACGTCTTCCACCGGGCGCTAA	MISADDLRFFLEVSRTGKLVAAARGLGVDHTTVGRRITQLEKASGARLFVRSPGAWELTEAGERLAIHAEAVESSLLAAAEELGSSPGRLSGTLRIAAPDGFGAFVLTPGLGRLRARYPDLKVEVVTATRLNLLASKEFDVGISLTQPTTRGVESFELAEYPLGLYASTQYLQRHGPISTVDELLEHSVIGYVDSLLDIPALRFLDAALPGVGPAIQTNNITGQWMAAVAGLGVAVLPFFIAEPDRRLVHILDESVAIRRKYWLAVPRELQRLARIRAAHQELRELVLAHPYLEATSSTGR				NA	NA	NA	NA	NA
D1-17_03809	1434	mdtD_3		Putative multidrug resistance protein MdtD	ATGTGGGTCCTTGCAGCGGTCCGGGCCGCCCCGCCGGGTTGGGCCGTGAGCAGGCAAGAGGGCACATGGCGCATAACAAGACCTCTGCGGCTGCTGGCCGATAAACCCACAAAGCTTGCATATTGGGGGCTGCTGGGATGCTCTACGCTGGCCACGTTATCCAGCAACATACTCAACGCGCCTCTGGGAATTATAAGGGCGGAACTTTCCTCCACTGTCGCTGAGATAGTCCTGATGGTCAGCGCCTTCACGGTCGTCTTGACAGTCGCAGTCCCGGTGGCCGGATGGTGCTGCGACCGTTTCGGTAACCGGCGTATGCTGCTGTGGGCTTTCGGGCTGATGGTAGCCGCGGACATCATGGGTTTCATGGCAGACACGGTGGGCATGCTCGTTTCGGTGCGTGCCGTGCAGGGACTGGCCACCAGTTTCATCGCCCCCGGAGTGCAGAAATCACTAATCGTCATCTGGCCTTCGTTGCGCAGACGCTCGCTCGCCTTGTGGGCTTCGGCCTTGGGTGTCGGTCAGGTCTTGGGGCCTCTGGCCGGCGGGGCCATTAGCCAAACGCTAGGGTGGCGGGCCGTGTTCCTCGTCCATTCTGTACTTTGCGCCTTTATGCTGTGCCTGCTCCTTGCGACGTTGCCGGCAGTTATAGACCGGACGGTTCGGACAAATATTGCTGGCCTGTTTTTGCTGGCAGCGGGAGCCACGGGAGTCGTCGTCGGCTTCACGCTGTTTGCCCAGCGGACTCTGTCGACTCCCGCGATAATCAGCGGACTCTTAGGCAGCGTCCTGCTCGTGGGCTTCGTGTGGGTGGCCCGTCAGAAACCGGATGCGCTCATTGACCCTCGCCATCTGATCGATCGCCGTTTTGCCGGGAGTGCAGCCGGAGCAGCGGCGGCGATGTTTGCGATGGGATCTTTCCTTGTAGCCACGCCGTTGTTCCTGTCGGCGCATCTTGACACCCGCCCGGACGTCATCGGCGCCGTGCTGTGTTGCCTTGCGATCGCCATGAGCCTGGGTGGTCCACTGGCGGGCGTTCTGTGCCGCTGGTTGACGATTAATGGAGTAATATTGCTCGGTTTGCTGGCCAACGTGGTCGCTGCAATCGGCATGGGAGCGGTGTATCTGCTGCCAGCACCGGAGACGATCGTCGTGGCTACGACTCTTCTGCTCACCCTTGCAGGCTTTGGGATTTCAGTTGTTCAGAGCATGTCTGCGGAGACGCTTGCGGCCTCGCCTTCGGGAGCCTCCGGCTTAGGGATCGGGATTCACAACATGCTCAAGTTTTCCGGCATGGCCGTTGCCTATGCATGGATCGCAGCTTTTCCGCCCGGGGACAACCCGCTGCTTTCTTTCGCAGGCGTCGCATTCGGGGTCACCAGCGCGTTCGTTTTGGTTTGGTGGACGGGGCGACGGGCCGTTGGCATCCGTTGA	MWVLAAVRAAPPGWAVSRQEGTWRITRPLRLLADKPTKLAYWGLLGCSTLATLSSNILNAPLGIIRAELSSTVAEIVLMVSAFTVVLTVAVPVAGWCCDRFGNRRMLLWAFGLMVAADIMGFMADTVGMLVSVRAVQGLATSFIAPGVQKSLIVIWPSLRRRSLALWASALGVGQVLGPLAGGAISQTLGWRAVFLVHSVLCAFMLCLLLATLPAVIDRTVRTNIAGLFLLAAGATGVVVGFTLFAQRTLSTPAIISGLLGSVLLVGFVWVARQKPDALIDPRHLIDRRFAGSAAGAAAAMFAMGSFLVATPLFLSAHLDTRPDVIGAVLCCLAIAMSLGGPLAGVLCRWLTINGVILLGLLANVVAAIGMGAVYLLPAPETIVVATTLLLTLAGFGISVVQSMSAETLAASPSGASGLGIGIHNMLKFSGMAVAYAWIAAFPPGDNPLLSFAGVAFGVTSAFVLVWWTGRRAVGIR				NA	NA	NA	NA	NA
D1-17_03810	684			hypothetical protein	GTGAGCCAAAAGCAAGGTACAGCAGTGATTGGCAAGACGCAGCAGCTGAGCCTTCGGGAACGGTCCAAACTGGGGAAGGCCGAGCGGATCAAGGCGGCTGCCGAGCAGCTCCTCAGTGAACGGAGCATCGAACAAATCACAACCCGGGAGGTCGCAGAGCTTGCGGGCATCGGTGAAGCCACGCTGTTCCGCTACATCGGAAGCAAACGCGAACTCCTGATGATGGTGTACGGGGATCAGATGGACGCCATTCTGACCAAGATCGAGAGGGAGGATGCCGTGCTGGCATCCTCCGGATCCCTGAAGCGTGATGACGGGGAGGCCTACTGCGGCCGTATTTACAGCATCTACCGTGCTCGCTGCGAGTTCTACCGGCGTAATCCTGATAACGCCGCACTCTATATGCGGGAAGGTTTCCAGGTCGGCAGTGTGACCGGAGCGCGGAATATCGCCCAGGGCGACCGGTCGATCCGTATGGTCGGAGCCATCCTTGCCGAAGGCCAAAGCCACGGGGCCCTTATCGCGACTGTCGATCCCTACCTCGTCGCCCAAAACTGCCACGGTATTTTTATCCACGAAATTGACCGCACACCGGTTCGAGGCTTTACGCCAGAGACTATCTGGGACAGGACAAGCGCCCGGTTGTCGGTGCAGTTGTCTCCTCTGATAATTCGTGCAGCCTAA	MSQKQGTAVIGKTQQLSLRERSKLGKAERIKAAAEQLLSERSIEQITTREVAELAGIGEATLFRYIGSKRELLMMVYGDQMDAILTKIEREDAVLASSGSLKRDDGEAYCGRIYSIYRARCEFYRRNPDNAALYMREGFQVGSVTGARNIAQGDRSIRMVGAILAEGQSHGALIATVDPYLVAQNCHGIFIHEIDRTPVRGFTPETIWDRTSARLSVQLSPLIIRAA				NA	NA	NA	NA	NA
D1-17_03811	1074	yjmC	COG2055	putative oxidoreductase YjmC	ATGTCAGCAGACTTGGTTTCAGTTGAGGAGGCCTGGCTTCGGTCGACAGTCGAGTGCATCTTCGGCTCGCTGGGCTACTCTCCGGCTTCGGCGACAAGCGTCACTGATTCGCTGGTTGAGGCGGACCTCCGCGGTGTCCGGTCCCACGGCACGATGCGTGTGCCTATGTACGTTGAGCGCATCCGGGCCGGCTCAGTCTCTCAGCACGAGCGGGCGGAGGTAGTGCGGGAGCAGGGCGCGGTTTGTGTTCTGGATGCCCGCCACGCCCTTGGTTCGCTGACCTCTGATCAGGCCATGGCGCTAGCCATGGAGAAAGCTGCAGCGTTCGGCGTGGGTGCCGTGTCAGTCAGGCACGGCTTTCACTTCGGTGCCGCATCCCGGTATGTACTGCAGGCAGCAAACGCCGGCTACGTGGGCATAGCCGCTGCAAACACGCGCCCGCTCATGGCCGCCATCGGCGGTGCAGAAGCGGTCGTCGGCAACAATCCGCTGGCAATCGGCGCGCCGAGCGCCGACGGACTCCACCTTGTTCTGGATATGGCCCTCTCAGAAGCAGCGTTCGGCAAGATTAAATCAGCCGAGCAGAATGGGACTCCCATCCCAGAGTCCTGGGCGACAGGGCCGGACGGGTCCGCAACGACGGACCCCTCCGAAGCGATCCGAGGACTCTTGCTTCCCATGGGCGGTCCCAAGGGCTTTGGCCTGGCCATGATGGTGGACGTCCTCACCGGAATGCTCAGCGGTGGCGCCTGGGGTGATACGGTTCAAGGCCTGTATACCGGGCCCGAAAAGCCAAACGACTGTTCCCACTTTTTCCTCGCCCTGAATATCGAGGCTTTCACGGACCCGGACGAGTTCCGCCAGCAGGTGGCCGCCATGGCCGATCGGGTGCGCAGCTCGCGTCGCGCCCCCGGTGTCAGCGCCCTGTTCACTCCAGGAGAGCCTGAATGGAACACCCGGAGCGCGGCAGGAGAAGGCGTGGTTTTCATTGACGCAGCCGTTGTCCACGAGCTCGCAAAGTTGGAGCGATCTCTCGATAAAGCCAGATCCAGTGCTAGGGAGACGATGGCCTGA	MSADLVSVEEAWLRSTVECIFGSLGYSPASATSVTDSLVEADLRGVRSHGTMRVPMYVERIRAGSVSQHERAEVVREQGAVCVLDARHALGSLTSDQAMALAMEKAAAFGVGAVSVRHGFHFGAASRYVLQAANAGYVGIAAANTRPLMAAIGGAEAVVGNNPLAIGAPSADGLHLVLDMALSEAAFGKIKSAEQNGTPIPESWATGPDGSATTDPSEAIRGLLLPMGGPKGFGLAMMVDVLTGMLSGGAWGDTVQGLYTGPEKPNDCSHFFLALNIEAFTDPDEFRQQVAAMADRVRSSRRAPGVSALFTPGEPEWNTRSAAGEGVVFIDAAVVHELAKLERSLDKARSSARETMA				NA	NA	NA	NA	NA
D1-17_03812	1551		COG2072	Baeyer-Villiger monooxygenase	ATGAAAACGCCTGATACTGCAGTAACCGCCGAAGCCGGCCACCGCCATGAAAATGATCCGTTGAACAGCGTCGATGTGATCATCGTCGGCACCGGTTTCTCCGGTCTTGGCATGGGCATCCAGCTGATTCGTGAAAAAAACCAATCATTCGTCATGCTTGAGCGCGCTGCCGATGTCGGCGGGACATGGCGTGACAACACCTATCCGGGCGCGGCGTGTGACATTCAGTCACATCTATATTCCTACTCCTTTCGCCCTAACCCGGACTGGTCAAGGGTCTACGCCACCCAGCCCGAGATTCTTCAGTATCTGCAGGCTGCCGCCCGCGAGGAAGGACTCATCCCGCATATCCGTTTTGGGGCTGAAGTGCTTGACGCCCGCTGGGACGAGACCCAGGAACGCTGGATCGTCTCCACACCCCGGGGAACCTTTGTCGGCAAGTCTCTGGTCACGGCGTCCGGCCACCTCTCGGATCCAAAGTTCCCTAACATCGACGGAATCGACAGCTTTAAAGGCGAGATCTTCCATTCGGCGCAGTGGGATCACAGTGTCGAGCTGGAGGGCAAACGCATCGGAGTGGTCGGTTCGGGCGCGTCCGCGATCCAGATTGTTCCGGAAATCGCGGAAACCGCCACTCATCTGACCGTCTTTCAGCGCTCCGCTCCCTACGTCATACCCCGCTTGGATTACTTCTATACCGACGCCGAACGCGGAATGTTCCGCAAGTTCCCCCACACAGCGCAGGCGATTCGAGATGAGCTTTTCTGGGGCAACGAGGCACGTTTCCCCCAGCGCAGGGGTGTCCCTGCTTTCATCGACCAGATCACCGAAGTTGCCGACAACCACCGCAAATCACAGGTTACCGACCCGGGCCTGTACAAAAAGCTCACCCCGGACTACGCGATCGGCTGCAAGCGGATCCTGATTTCGAACGATTACTACCCCGCGCTGGGCCGGTCCAACGTCACCTTGGAAACGGACGGAATCAGCCACATCGAAGGGAATGCGGTCATCACCCGCACCGGTGAACGCCACGAGTTGGACGTCCTCATCCTGAGCACCGGCTTCGAGGCAAGTGACCTTCCGATTTCCCACCGGATCTACGGCAAGGCCGGAGCCTTGCTCGCAGACCATTGGAGCAACGGCGGACAGGCCTACGCGTGCACCACGGTCAGCGGCTTTCCGAATCTTTTTGTGATGCTTGGACCGAACACCGGCCTGGGCGCAGGATCGATCATCTACATGGCCGAAACACAGATTTCCTACATAGCTGGGGCCCTAACGTACATGAGGGAGAACTCCGTCTCCTCCCTCGAGGTAACCGCCGAGGCTGAGGAGGAGTACGTGAAAACCATTGATGAACGCGCCCAAGGTACCGTCTGGCTCTCAGGAGGCTGCCAAAGCTGGTACGTTGACCCCCGGAACGGCCGGCTGACCACGCTTTGGCCGGATTTCATGAGCCAGTTCCGGAAGGAAAACGGGACCTTCAAGGATGCCGGCTACATTGTGAAGACCAACCAAGGCCAGCCGATGTTCGCCGGCGGACGATGA	MKTPDTAVTAEAGHRHENDPLNSVDVIIVGTGFSGLGMGIQLIREKNQSFVMLERAADVGGTWRDNTYPGAACDIQSHLYSYSFRPNPDWSRVYATQPEILQYLQAAAREEGLIPHIRFGAEVLDARWDETQERWIVSTPRGTFVGKSLVTASGHLSDPKFPNIDGIDSFKGEIFHSAQWDHSVELEGKRIGVVGSGASAIQIVPEIAETATHLTVFQRSAPYVIPRLDYFYTDAERGMFRKFPHTAQAIRDELFWGNEARFPQRRGVPAFIDQITEVADNHRKSQVTDPGLYKKLTPDYAIGCKRILISNDYYPALGRSNVTLETDGISHIEGNAVITRTGERHELDVLILSTGFEASDLPISHRIYGKAGALLADHWSNGGQAYACTTVSGFPNLFVMLGPNTGLGAGSIIYMAETQISYIAGALTYMRENSVSSLEVTAEAEEEYVKTIDERAQGTVWLSGGCQSWYVDPRNGRLTTLWPDFMSQFRKENGTFKDAGYIVKTNQGQPMFAGGR				NA	NA	NA	NA	NA
D1-17_03813	855	rutD_2		Putative aminoacrylate hydrolase RutD	GTGAGTTTTTATCCGGGCATAATCGAGGGCACCGTCAGAGCCGACGGCGTCGAGGTCAGGTATTACGACTCTGGCGAGAAGCCCGGAGGTGGGGCGCCCATCGTCCTGCTGCACGGGACAGGAGGAAGTGCAGAAAACAACTTCGCCGCCCTGCTGCCCATGTTGTCGTTCCGGCACCGCGTGATCGCCCTCGATTTCGTCGATGAAATTCCGGAAGGAAACGGGCCGCTGGCCCTGGACCACTTTGTCGGTCAGGCGTCAGCAGTTATCAACAAGCTTTCGCCGGGCAGGCCGGTGACCCTGGTGGGCTATTCCCTTGGAGCTGTCGTCGCCGCTGTGGCGGCAGCTGAACAGCCCGAACTGGTCCGGAACCTTGTTCTGGTCGCGGGGTGGATGAAAACGGACGCGCAGCAGAAGCTGAGGAACACCGTCTGGCAGCAGCTTCACGATTCGGAATCCGAGGCATTGGCCGAGTTCATGCTTCTCACCGCTTTCAGCTCCCGGTTCCTGGCCACACGTCCGCCGGCCGAGCTCCAAAAGCTCATTGCGGGCATTAAGGCCGGGCCCAGCCGGGCACGCAAGATGCGCCTCAACAGAACCGTCGACATATCCGCCAAACTCTCAGCTGTCCGGGCACGGACCCTGGTCATCGGATGCTCCGATGACCAGATGGCACCTATTCGGCACAGCCACGCACTGTTCGGAGCGATTGACGACTCGCGCTTTGTTGAAATTTCCAGTGGGCACGCAGTGGTCCATGAGCGGCCTGCCGAACTTTTCACCCGGATCGACAATTTCGTCCAAGGACATGCTTCCGATGATGCCGGGGCCGTCCTGGCTCCCGTCCACGCTTGA	MSFYPGIIEGTVRADGVEVRYYDSGEKPGGGAPIVLLHGTGGSAENNFAALLPMLSFRHRVIALDFVDEIPEGNGPLALDHFVGQASAVINKLSPGRPVTLVGYSLGAVVAAVAAAEQPELVRNLVLVAGWMKTDAQQKLRNTVWQQLHDSESEALAEFMLLTAFSSRFLATRPPAELQKLIAGIKAGPSRARKMRLNRTVDISAKLSAVRARTLVIGCSDDQMAPIRHSHALFGAIDDSRFVEISSGHAVVHERPAELFTRIDNFVQGHASDDAGAVLAPVHA				NA	NA	NA	NA	NA
D1-17_03814	957			2-haloacrylate reductase	ATGAGCGTAGAAAACCAGCCACGAATGCGCGCGGTAAGCCCCGCCAGTTGGGGGCCGCCCGAAGTGCTCCGCGAAGTCGAGGTGGACCGGCCCTCGCCGCAGCCGGGCGAAGTGCTGGTTCGAGTCAAAGCGATCGGGGTGAACCCCACCGATTGGAAGAGCCGCGCTACCGGTGGCAGGAAGCTGTGGAAGAACCCGCCGATCCTGGGGTTCGATGTCTCCGGTGTTGTTGAGGACGTGGCCGAAGGCTCGGTTCTCTTCCGTCCCGGCGATGAAGTCTTCGGAATGCCCTTATTTCCTCAACAGGCCGGTGCCTACGCTGAGTATGTTGCCGGGCCGGCCCGGCAATTCGCCCGCAAACCCGCCGGCCTGGATCATGTCCACGCTGCTGCGCTTCCCCTGGCCGGTCTTACCGCCTGGCAGTCCTTGGTTGATGCCGCCGGAGTGCAGGCCGGCCAGCGCGTCCTCATCCATGCGGCGGCCGGCGGCGTGGGGCATCTGGCGGTACAGAGTGCGAAAGCGTTGGGAGCCTACGTCATCGGCACTGCCCGACGATCCAAACACGAGTTCGTGCGCGGTCTTGGCGCCGATGAAGTGCTGGACTACACCGAAATTGATGTCGCAGAAAGCCTGGACAAGGTAGACATTGTCATTGATCCAATAGGCGCCGAAACCGGACAGCACTCCATCGGTGCTCTGCGCCCCGGCGGAATTCTCGTCTCTTTAATTCCGCGCGGGCACGGCCCCACGGCTGCAGCGGCTTCCGCTGCCGGCGTCCAATACACCTTGGTGGTCGTCGAACCCGACCGCGAAGGGCTGAAAGCGCTGGCCCGACTGGTTGAATCGGGAGAGCTCCGCCCCCACGTCTCGGCCGTCCTGCCTTTGAAGGACGCCCGGGCCGCCCACGAAATGGGCGAGACCGGACGCACGATTGGCAAGATCGTCCTGACGCCGTAG	MSVENQPRMRAVSPASWGPPEVLREVEVDRPSPQPGEVLVRVKAIGVNPTDWKSRATGGRKLWKNPPILGFDVSGVVEDVAEGSVLFRPGDEVFGMPLFPQQAGAYAEYVAGPARQFARKPAGLDHVHAAALPLAGLTAWQSLVDAAGVQAGQRVLIHAAAGGVGHLAVQSAKALGAYVIGTARRSKHEFVRGLGADEVLDYTEIDVAESLDKVDIVIDPIGAETGQHSIGALRPGGILVSLIPRGHGPTAAAASAAGVQYTLVVVEPDREGLKALARLVESGELRPHVSAVLPLKDARAAHEMGETGRTIGKIVLTP	PGPT0013255_9624	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-17_03815	1431			hypothetical protein	GTGATCGCTGAAGGCAAACCATCTATCATCGCCGGGCTGGCGGAGTATCTTGACGGCCTGTCCTATGAGCAGTTGCCACCGACAGTTGTCGAACAGGCCAAGACCGTTCTCTGCCATAATCTCGTTGTTGCCCTCGGGGCGCGTAACCTCAGCATCCCCGGGCAAGACCGGGTGGCTTGGCCAGATGGTGCGCCCTCCGCGGCGACAGCGACCCGTTTGACCGATGGCGTGCGCGGTCCGAATGAGGCGAGCGTTTACACGAACTCATTGCTTATGGGAGCGCGTGCCCAGCACGATGAGCACCCCGGTTCGGTAAGTCACTTTGGCAGTTGCGTGATACCGCCGCTGTTGGCCGCGGCGGAGAACCGATCCTTGGATGGCCAGGCATTCCTTGTCGCCATGATTGCAGGCTACCAAGTGGGCGCCGCCATCGGCCGGAGTTCGGTAGCGGCTACCACGCGGCGGGGGTTCCGACCCACGGGACTATACGGTCCTTTTGCCGGCGCGGGCGCCGTCGCAAAAGCGCGCGGGGGAGGAGCGGACCAGATCGCCAATGCACTTGCCGTAGCGGCCAGCTCCTCAGCAGGCATCACGCAAATGTGGAAACGCGGAACGGACGAATGGCGTTATCAAACGGCTGCAGCCGCCAGGAACGGATTCAACGCAGCAATGCTCGCAGAGGCCGGAGCGATAGGCGCCCCGGATGCATTGGAAGGAACCGCGGGTTTTTACAGGGCCTTTGCAGATAAAGAATGCGTGGACCGGGAGACGATCCTGGGAGGGTTAAGGAGCTGGGCGGTCAGCGAAGTGATCCTCAAGCCATTCCCCGTTTGCGCAATCAATCAGGCGGCCGTTCAAAGAGTTCTCGAGCTCAAAAGAACCCACGGTTTCTTGGCCGCGGATGTCGTTGAAGTCTTCGTCACCGTGGCCCAGAGCGACAGGAGCTACCCGGGCGTCGATGCCCCAGGCTGTCCGTCCACGCCTACGGCCGCAATGATGAGCATGCAGTTCTCCCTGGGGGTGGCGCTCGTCCACGGAAGCGTCGATGTCAGCCATCTGGCGGATCACGGAGATCCGGTCGTACTGAGGGCTGCCGCAAAAGTTAAATTTGAGACTGGGCCCGAACAAGCGCTGGATGCGAGGCCAGCCCAATGGGCGGATCATCGGGCAGCAGTGCGCATCCGCTTGCTTGACGGCCGCAGCCTCAGTTCGGGCCCTGCCCGTGCAGTCGAGTACGACCGGGGTGGTGTTCTCGACCTGGCCCGCGATGTCCTGCCGGCCTCCGGACTTTCGTGGGAGGCCATGGAGGCCTTGGCGGATTCTGTATTCACCTTGGAGAATCACGCCGACGCGGCACAGCTTTTGGCACTGTGCAGTCCTTCCCGGATGCCGGACGGGACGGGGACCCCATTGCAGGGTTCGTTGTCGTAA	MIAEGKPSIIAGLAEYLDGLSYEQLPPTVVEQAKTVLCHNLVVALGARNLSIPGQDRVAWPDGAPSAATATRLTDGVRGPNEASVYTNSLLMGARAQHDEHPGSVSHFGSCVIPPLLAAAENRSLDGQAFLVAMIAGYQVGAAIGRSSVAATTRRGFRPTGLYGPFAGAGAVAKARGGGADQIANALAVAASSSAGITQMWKRGTDEWRYQTAAAARNGFNAAMLAEAGAIGAPDALEGTAGFYRAFADKECVDRETILGGLRSWAVSEVILKPFPVCAINQAAVQRVLELKRTHGFLAADVVEVFVTVAQSDRSYPGVDAPGCPSTPTAAMMSMQFSLGVALVHGSVDVSHLADHGDPVVLRAAAKVKFETGPEQALDARPAQWADHRAAVRIRLLDGRSLSSGPARAVEYDRGGVLDLARDVLPASGLSWEAMEALADSVFTLENHADAAQLLALCSPSRMPDGTGTPLQGSLS				NA	NA	NA	NA	NA
D1-17_03816	1527			hypothetical protein	ATGGACGCGTTGAACAACCTGGCCCTGGGGTTCTCGGTGGCATTTGACCCCATGAACCTGTTGTATGTATTCATCGGCGTGGCATTGGGTACTGCCATCGGCGTCCTGCCCGGACTCGGGCCGACGGCCACAATCGCGCTCCTTCTGCCTGTGACGCTCACCCTTGACCCCACTGCTGCCGTCATCCTGCTGGCCGGCATCTATTACGGTTCCATGTACGGGGGAACAATAACTTCCGTGCTTCTAAGGCTGCCGGGTGAAGCCGCCTCCGTAGTGACGACCTTTGACGGTTATCAGATGGCCAGGCAAGGTCGTGCAGGCCCGGCTCTCGGAATCTCCGCGATTGGTTCGTTCGTCGGCGGTACAGTGTCCGTCATCGGCTTGGTTTTACTGGCTCCGGTGCTTGCCGATGCGGCGCTTGCTTTCGGCCCGCCGGCTTTCGTGGCGCTCATGGTATTGGGGCTCTTCCTCGTGACCTCCCTTGGCACAGGATCCACGATCAAGGCGCTGTGTATGGCTGCGGTGGGGCTCCTGCTTTCAGCCACCGGCCAGGATTTGGTGACGGGCAAGCCTCGTTTCACCTTCGGCCAGACGTCGCTGCTCGACGGACTGGACTTTGTGGCCGTTGCCATGGGTCTGTTCGGTGTTGGTGAGATTCTGTATAACTTGGAGCAGACGGAAAAAGTCCAGGCCTTCACCTCGAAGATCAAAAATATCTGGCCTTCCCGAAAGGATATTAAGGACTCGTCCGGCGCCATTGCACGTGGTTCTGTACTTGGCTTTTTCATCGGAATCCTCCCGGGCGGCGGCGGTGTCCTTTCCTCACTGGCGTCCTATGCCATGGAGAAACGTCGGGCCAAAGATCCCAGCAGGTTCGGGCATGGCGCTATCCAAGGAGTCGCCGGACCCGAAACCGCTAATAATGCCTCCTCGACCTCAGCCTTCATCCCGCTGCTCGTGCTTGGAATCCCATCGAACGTCGTTCTTGCCCTGCTGTTCGGGGCCTTGCTGGTCCACGGCATTACGCCCGGACCACAGATGATGACCAACAACCCCGAGGTTTTCTGGGGCGTTATTGCCTCCATGTTCATCGGCAACCTGATGTTGCTTGCGCTGAACATTCCCTTGGTCGGGGTCTTCGTCCAGATGCTCCGGATCCGTGCCGGCATCCTCGTCACCTTTGCCCTGCTGGTGGTCATGGTCGGCGTATTCTCCATCAGCAACGACCCGTTCGATATGTGGGTGGTGCTCGTGTTCGGCGTGATCGGTTGGCTCATGAAAAAGACCGGGTTTGACCCGGGCCCCCTGGTCCTTGCCTTCGTTCTTGGACCGATCCTGGAGAGCTCCGTGCGGCAGTCGCTCCTGCTCTCTGGGGGCAGTTTTACCATCTTCGTTACGGACCCGATATCACTGACTATCTTCATAGCACTTGGCGCTGGCGTGATTCTGGGATTTGTCGGCAAACGCCGCCGGCGCCTGGCGGCACGGCTTGGTGCCGACAAACAGGAGAAGGTGGCCGCTGAATAG	MDALNNLALGFSVAFDPMNLLYVFIGVALGTAIGVLPGLGPTATIALLLPVTLTLDPTAAVILLAGIYYGSMYGGTITSVLLRLPGEAASVVTTFDGYQMARQGRAGPALGISAIGSFVGGTVSVIGLVLLAPVLADAALAFGPPAFVALMVLGLFLVTSLGTGSTIKALCMAAVGLLLSATGQDLVTGKPRFTFGQTSLLDGLDFVAVAMGLFGVGEILYNLEQTEKVQAFTSKIKNIWPSRKDIKDSSGAIARGSVLGFFIGILPGGGGVLSSLASYAMEKRRAKDPSRFGHGAIQGVAGPETANNASSTSAFIPLLVLGIPSNVVLALLFGALLVHGITPGPQMMTNNPEVFWGVIASMFIGNLMLLALNIPLVGVFVQMLRIRAGILVTFALLVVMVGVFSISNDPFDMWVVLVFGVIGWLMKKTGFDPGPLVLAFVLGPILESSVRQSLLLSGGSFTIFVTDPISLTIFIALGAGVILGFVGKRRRRLAARLGADKQEKVAAE	PGPT0017350_881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-17_03817	531			hypothetical protein	ATGCAGAGCATCATGACTTCCACAGCAGGGAGCAAGGCGCCACAGGAGGTCACGGTGCTTGCGAAGCCCACCCGCTCGCAATGGCCACGTGTCATTCCGATCATCTTAGTATTGGTCGGTGTTGCCGCGATGGTTGGCGCATACCAGCTGTCATTGGGGGAGCTGAATAATCCGGGAGCCGGCTTGTGGCCCTTCATTGTCGGAGTGTTTCTGACGGTAACGGCGGCCGTTCTCTTCTTTGTCCAGGACCCGTCGGAATGCGAGCAGTGGAACCGCCGCGCCCTGGGAATTGCGGGGGGTTTGGCGAGCCTGGGACTGTTCATCCTACTTTTCCAGATGATCGGTTTCCTCATCCCGGCGTTTCTGATGCTCGCGCTGTGGCTGAAGACTTTTGGTGAGGAACCATGGCGGCTGGCGGTGCCGCTCGCCGTGGCCGGAGCGGTGGTCATGCATTTTCTTTTCGTAGTGGCGTTGGGCGTTCCTTTCCCTAGGGATGTCGTCGTTACACTCTTCTCGGCTTTGGGAGTCTGA	MQSIMTSTAGSKAPQEVTVLAKPTRSQWPRVIPIILVLVGVAAMVGAYQLSLGELNNPGAGLWPFIVGVFLTVTAAVLFFVQDPSECEQWNRRALGIAGGLASLGLFILLFQMIGFLIPAFLMLALWLKTFGEEPWRLAVPLAVAGAVVMHFLFVVALGVPFPRDVVVTLFSALGV	PGPT0017355_690	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
D1-17_03818	987			hypothetical protein	ATGAATAAGAAAATCGCCCGCACGGCTGGTGTACTTGCCAGCGTTGGAATTATGTCGGTTGTAGTCGTGGGCTGCGGCAATACTGCCGGCGCGCAATCGGGCGGCGGGTATCCGAGCGAGAAGATCCGCTTCATCATTCCTTATGCCGCCGGGGGCCCGACCGATGTTACGGCCCGCGCTCTTGCTCCGTGTCTGGGCAAGGAGCTTGGGCAGTCAGTGGTCGCCGAGAACGTAGCGGGCGGTTCCGGGGCGCTGGGAATGCAGAAGCTGATCGGTTCGAAAGCTGACGGGCACACGGTGGCGATTGTGTCGACCGGAATGACTGTCCTGACGCCGCTGGTCAATGGTCTCGATTATTCGAAGGACGACATCACCCCGATCGGGGTCATTTCCCATGTACCGATGAATCTGGTGGTCGGGAAGGACTCGCCCTACAAGGACGCTGAGGCGTTCATCGCTGCAGCCAAGGCTAATCCTGGCAAGCTCAACGTCGGTGTATCCGGGGCGTCTACACCCCAGGCCGTAGAGCTGCAGCGGCTCGAGGAACAGTATGGAGTGGACATCACGGTCGTTCCCTTCGATGGCAGCGCGGGAGCGACGACAGCACTGTTGGGCGGCCACGCGGATGCGGCTTTCATCAACGATGCCCCCGAGGTCTCTGACCGGATCGAGGACGGTTCGTTTAAGGCGCTTGCTGTCTCCTCTGAAGAGCGGCAGAAGCACCTGCCGGACACTCCCACCCTCGTCGAGCTCGGCTACCCTGACCTGACCCTGGCTGTAACCACGTACGCACTGGCCGGCCCTGCCGGGCTGCCGGAGGAGGCGACATCCAAGCTTGCCGGGAGCTTGGAGACGTGCCTCAAGGACTCTAAAACGGTCGAGATTATCGGGGAACGCTTTGTCCCGGAGAAGTTCGATGACGCCGAAGCTCTCAAGGGGATCCTCGACGAGGGCGCGACCGTTTACAAGACCATGTTGAAGAAGTAA	MNKKIARTAGVLASVGIMSVVVVGCGNTAGAQSGGGYPSEKIRFIIPYAAGGPTDVTARALAPCLGKELGQSVVAENVAGGSGALGMQKLIGSKADGHTVAIVSTGMTVLTPLVNGLDYSKDDITPIGVISHVPMNLVVGKDSPYKDAEAFIAAAKANPGKLNVGVSGASTPQAVELQRLEEQYGVDITVVPFDGSAGATTALLGGHADAAFINDAPEVSDRIEDGSFKALAVSSEERQKHLPDTPTLVELGYPDLTLAVTTYALAGPAGLPEEATSKLAGSLETCLKDSKTVEIIGERFVPEKFDDAEALKGILDEGATVYKTMLKK	PGPT0017360_1342	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-17_03819	699	butA		Diacetyl reductase [(S)-acetoin forming]	ATGAGAGAACGCGTACTGGTCACAGGTGGAGCGTCGGGAATCGGGGCAGCAATCGCTGACCGTTGTGTCGAAGAGGGGTACGAACCTGTCGTTATCGACCGCGTGGGCTCGGGCCTGAGAGCCGACCTGTCGAACAGTGAGGCCACCGCCGCGGCGCTGCAACAGGCTTTGGATGCCGGACCGATCCACCGCCTCGTCAACAACGTCGGGATGATAAGAGTTGCTTCCATCGAAACAGTCAGCCCGGAGGACCTGGAACTGACATGGTCAGTCAACGTGCGATCAGCGATTCAATGCCTGCAAGCTGTTCTTCCGGCCATGAAGGAACGCGGGTTCGGACGCGTGGTCAACATTTCTTCCCGGGCGGCCTTGGGGAAGGAGGGCCGAACAGCATATGCCTCGTCGAAGGCTGCACTGCTGGGGCTAACCAGAACCTGGGCCCTGGAACTAGGCAAACACGGCGTAACCGTCAATGCAATCGGCCCGGGACCAATCCGGACTGCGATGTTCGACGCGGCAAACCCGCCAGGCGCGCCCGGCACACGCGCGATCATCGATTCCATCCCGGTCCAGCGGATGGGAGAGCCCAAAGACATCGCCAACAGTGTGGTTCATTTCCTCGACGATCGATCCGGTTTTGTTACTGGGCAAACACTATATGTGTGCGGAGGGAAGACGGTGGGCAGTTCGGGAATCTGA	MRERVLVTGGASGIGAAIADRCVEEGYEPVVIDRVGSGLRADLSNSEATAAALQQALDAGPIHRLVNNVGMIRVASIETVSPEDLELTWSVNVRSAIQCLQAVLPAMKERGFGRVVNISSRAALGKEGRTAYASSKAALLGLTRTWALELGKHGVTVNAIGPGPIRTAMFDAANPPGAPGTRAIIDSIPVQRMGEPKDIANSVVHFLDDRSGFVTGQTLYVCGGKTVGSSGI	PGPT0003180_22502	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
D1-17_03820	978			2-haloacrylate reductase	ATGAGGGCAGTGCGCGCAAGTAAACCGGGAGGTCCGGAAGTACTTCAAGTTGACGAGGTCCCCATTCCTGTTCCTGGACCGGGCGAAGTGCTCATCGACGTGGCTGCCGCCGGGCTCAACCGGGCAGATGCACTGCAGCGCCAAGGCAACTACAAGCTGCCTGCCGGTGCCAGCAATATCCTCGGCCTGGAAGTGTCCGGCACGATCTCAGCTCTCGGAGACGGAGTGACACAGTTTTCAGCGGGCGAAGAAGTTGTAGCACTGCTCATCGGTGGCGGCTATGCGGAGCACGTCGCAGTTCCTGCGGGCCAGGTGCTGAAAACGCCGAGCGGCATTGACCTCGTGAGCGCTGCGGCCCTGCCAGAGACAATGGCCACCGTGTATTCCAACCTCTTTATGTCTGCTCGGCTTGTTCGTGGCGAGACAGTACTGATCCATGGCGGAGCAAGCGGCATAGGAACCACCGCCATTCAGCTGGTCAAGGCATTCGGAGGCAACGTAGCCGTCACGGCCGGGTCGCAGGAAAAGCTGGACGCGGCCGCGGACCTTGGCGCCGACATCCTGATCAACTACAAAGAACAGGATTTTGTGGCCGAGGTCAAAAAAGCTACGGCCGGACGGGGCGCCGACGTCATTCTCGACGTGGTCGGTGCAAAGTACCTGTCCCGCAATATCGACGCTCTAAACTTCTCCGGCCGACTTGTCATCATCGGGCTGCAAGGCGGAAACAAGACCGAATTCGACATCCGCTTACTGATGACCAAGCGTGCCAGCGTGATCGGCACGCTGCTGCGACCGAGGCCAGTGGAAGAGAAGACGGCCATCATGACGGCTTTGGCCGAGCACGTCTGGCCGCTGGTGGCTGCAGGTACGGTGAAAGTGCCCGTAAACAAGACCTTTCCCCTTTCGGCGGTGACCGACGCCCACAGCTACTTCGACTCGGGCACGCATATCGGCAAAGTCCTGCTTACCGTCTAG	MRAVRASKPGGPEVLQVDEVPIPVPGPGEVLIDVAAAGLNRADALQRQGNYKLPAGASNILGLEVSGTISALGDGVTQFSAGEEVVALLIGGGYAEHVAVPAGQVLKTPSGIDLVSAAALPETMATVYSNLFMSARLVRGETVLIHGGASGIGTTAIQLVKAFGGNVAVTAGSQEKLDAAADLGADILINYKEQDFVAEVKKATAGRGADVILDVVGAKYLSRNIDALNFSGRLVIIGLQGGNKTEFDIRLLMTKRASVIGTLLRPRPVEEKTAIMTALAEHVWPLVAAGTVKVPVNKTFPLSAVTDAHSYFDSGTHIGKVLLTV	PGPT0013255_4957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-17_03821	966	mmgB_2	COG1250	putative 3-hydroxybutyryl-CoA dehydrogenase	ATGACGAGCATTCACACCGTTACAAGCGCGGCCGTTGTCGGCTCGGGCTACATGGGCGGGGGAATCGCCCAAGTTCTGGCGATGCACGGCTACAAAGTCGCGCTGGGCGACGTCGACGGCGAGACGGCCGAACGCGCACGCTTCAGGCTCGTTGAACAGGCACGGGGGTTCGAGGCCCGCGGGTTGTTTCCGGAAGGGGCCTCCGAGGTCATCGAAGGAAACCTTGCCGCTGCGGACAGCATAGAAGAAACCGTGGCCGCGGCGGACTACATCGCCGAAGCGGTTCCCGAAGAACCCGCATTGAAGGCCGGTATCCTCCGCAGGATCTCGGCGGCCGCTCCGCCCACAGCGGTCATCGCCTCTAACACCTCCGCCATCCCCATCGGAGAACTTGCCCTATCGGTGGCCGGTCCGGAGCGGTTCCTCGGCGTCCACTGGATGAATCCTGCCCCCTTCATCCCGGGGGTTGAACTCATACCCGGCCCGCACACCGCCCCCGATATCGTTGACCTCGCCGAGGAGCTCGTTCGTAGCCTGGGCAAGACACCGGCCCGGGTGGCAGACACGCCAGGATTCGTCGCCAACCGGCTCCAGTTCGCCCTCTACAAGGAAGCAGTCCGGATCGTTGACGACGGCGTCGCCACACCCGAACAGATCGACGCTGTTGTGAGCAACACATTCGGATTCCGCCTCGCCCTCTTCGGCCCCTTCGCCATCGGAGATATGGCCGGACTCGACGTTTACGAATCCGCGTACCGCACCCTCGAAAAAGAATATGGCGACCGCTTCTCCGCGCCGGAGGCGCTTTCCACGACGGTTAAGAACGGAAACCTAGGGCTGAAAAGAGGGCACGGTTTCCTAAACATCGACACCGCAGACCAAGCAGCCCTCCTGGCCTACCGAGACAACGCCTATGCACGCTTGTCACAGCTCCGTACAGACCTCGGCGAGGCCCCCGGGCTCTAA	MTSIHTVTSAAVVGSGYMGGGIAQVLAMHGYKVALGDVDGETAERARFRLVEQARGFEARGLFPEGASEVIEGNLAAADSIEETVAAADYIAEAVPEEPALKAGILRRISAAAPPTAVIASNTSAIPIGELALSVAGPERFLGVHWMNPAPFIPGVELIPGPHTAPDIVDLAEELVRSLGKTPARVADTPGFVANRLQFALYKEAVRIVDDGVATPEQIDAVVSNTFGFRLALFGPFAIGDMAGLDVYESAYRTLEKEYGDRFSAPEALSTTVKNGNLGLKRGHGFLNIDTADQAALLAYRDNAYARLSQLRTDLGEAPGL	PGPT0006075_1407	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
D1-17_03822	492	ppsR_2	COG1806	Phosphoenolpyruvate synthase regulatory protein	TTGCTGACGCAGTTCTCTGCCAACCATTTTGACCGCATCACGGTTCCCTTCATCACCACAGCCGAACAAGCCACGTCCGTCGTGAAGTCCATCGATGACGCCGCTGCCAAGGGGCCGCAGCCAATCATCTTTTCCACCGCAGTCAGCAACGACATCCGGCAGATCCTCTCGACCTGCAAGGGAATCGTCGTTGATCTGATCGGTACCCATGTGGGGCAGTTGGAGCCGGCAATGGGTATCCCCGCCAGCGGGGAACCGGGGCGGGCGCACGGGCTGGGGAATGCAGCGCGTTACCGATCCAGGACAGGATGGCCGCCGTCGAATACGCCATGGAACACGATGACGGCCAGAGCCTGCGTGCAAAAAGCGCAGGTGATTCTGGTGGCTCCGTCCAGGTGCGGCAAAACGCCCACCACCATGTACTTGGCGCTGCAACACGGCATCTGCAGGGGCGGGAACCGGGGTGAGGTAGCCCGAGAATCATCGAAATAG	MLTQFSANHFDRITVPFITTAEQATSVVKSIDDAAAKGPQPIIFSTAVSNDIRQILSTCKGIVVDLIGTHVGQLEPAMGIPASGEPGRAHGLGNAARYRSRTGWPPSNTPWNTMTARACVQKAQVILVAPSRCGKTPTTMYLALQHGICRGGNRGEVARESSK				NA	NA	NA	NA	NA
D1-17_03823	1443			hypothetical protein	ATGGGAGTTCCCGGTATCGTTTTCTTCGTGGTGGCAGCCGCCGCTCCCATCGCCGGCATGACCGGCCTCGTCCCAAGCACCATCGTCCTGGGCAACGGAGCGGCCGCCCCCGGAGCGTTCCTTATCGCAGGCATCATGCTGCTGTTCTTCGCCGTCGGCTATGCGACCATGAGCCATCACGTAACCCATGCCGGGGCTTTCTTTGCCTACGTCGGCCGCGGCCTGGGCGCGCCCTGGGGCGTGGCCTCAGCCTTTGTCTCTGTTTTGTCCTACTGCCTGGTCCAAACAGCCATCTACGGATTCCTCGGTGCGACCGTCTCCCAAAAGATGGCATCCCTCGGGCTGGACGTGCCGTGGTGGGTCTGGTGCCTCCTGTGCATCGGGATCGTCCAGGTCTTCGGCATTCTCAACGTTAACCTCGGTGCCAAAGTCCTCGGCGTCCTGCTCACACTGGAGTTGGCGTCGATGATCCTCACCGGCGTTGCGGTCATCCTCCAGGGCGGTGGCCCGGACGGACTGGACTTCGCAGCATCATTCAACCCCGTCAACATCTTCCAAGGTGCACCCGGTATTGCCTTTGCCTTCGCTTTCGCGGCATTCATCGGCTTCGAAGCCACTGCCATCTACGGGGAGGAATCCCGCGACCCCAAACGGACCGTTCCCCGGGCAACGTACGCCGCCGTCATCATCATCACCATGGTCTTTGCCCTGACGTCTTTCGCGATCATCTCCGGCGCCGGCTCCTCGGATATCGTCAACAAGACACTTGAGGTAACAGCCCTAGAAGGGACCCCTCTGGCTGATCCCGCCCAACTGCTCTTCTCGGTGTCAGCCCAATACGTAGGACCTTGGCTGCCGGAAGTCATGAGCTGGTTGCTCATTACGAGCATGTTCGCCGGCGTTCTTGCCTTCCACAACTCCGCGGCGAGATACTTCTACTCCATGGGCCGCTCCGGGCTGCTGCCTTCCGGCCTCGCCGTTACCGGCCGCTATAAGACACCCGTCCGCGCATCCGTGCTTCAGACACTCATCGGCGTGGTGACTATCGTGGCCTTTGCCCTTGCAGGCCTCGACCCGGTTGTGACTCTTTTTTACTGGTTCTCAATCACCGCCATTCTTGGGCTGACCTTCATCCAGGGACTTGTCTGCGTCGCAGTCATCCGTTTCTTCAGGCAAACCCGGGCAGACACCCGCCTCTGGAACACACTGATTGCACCCCTGCTGGGGTTGGTGTCCATCATCGTCGCCGAGTACCTCTTGCTGGCACGTTTCGGCCTGATCAGCGGAACCGCGGGTGCGGACAGCCCGGCATGGGAAATGAACGCCACAGGGTGGGCCCTGGTCGCACTGCCCTTCGGCACATTCCTGATCGCACTGATCTACGGCTTCATCCTGGAGCGTAAGAAGAGCGACGACGAGGTCTTGAAGGAGTTCGTTTCCTGA	MGVPGIVFFVVAAAAPIAGMTGLVPSTIVLGNGAAAPGAFLIAGIMLLFFAVGYATMSHHVTHAGAFFAYVGRGLGAPWGVASAFVSVLSYCLVQTAIYGFLGATVSQKMASLGLDVPWWVWCLLCIGIVQVFGILNVNLGAKVLGVLLTLELASMILTGVAVILQGGGPDGLDFAASFNPVNIFQGAPGIAFAFAFAAFIGFEATAIYGEESRDPKRTVPRATYAAVIIITMVFALTSFAIISGAGSSDIVNKTLEVTALEGTPLADPAQLLFSVSAQYVGPWLPEVMSWLLITSMFAGVLAFHNSAARYFYSMGRSGLLPSGLAVTGRYKTPVRASVLQTLIGVVTIVAFALAGLDPVVTLFYWFSITAILGLTFIQGLVCVAVIRFFRQTRADTRLWNTLIAPLLGLVSIIVAEYLLLARFGLISGTAGADSPAWEMNATGWALVALPFGTFLIALIYGFILERKKSDDEVLKEFVS				NA	NA	NA	NA	NA
D1-17_03824	966	adh		Alcohol dehydrogenase	GTGAAATCAATAGCCGTCAGCAAGCCGCACGCTCCGCTCGAACTCGTGGAGCGGGAGATCCCGGAGCCGCTCGCCCCGGGGGAGGAAGTGATACGGGTTTTGGCCTGCGGCGTCTGCCACTCTGACCTCCATGTAGCGGACGGTGATTTCGGCGGACCCTATCCGGTGGTTCTGGGACACGAAGTAGTGGGTGAACACCACGAACTGGGACGCGTTCTCCTCTACGCGCCCTGGGGGTGCGGCCAGGCGGAGTGCCGCCAGTGTTCTTCCGGCCTGGAGATGATCTGCCCTAACGGCCGCGAAGCAGGCATCGTCTCCGACGGCGGCTACAGCGAGTACATGCGTGTTCCCAAGCGGGACTACCTCGTTCCCATCGGGGACCTGGATCCGGTGTCCACAGCGCCGCTGGCCTGCGGTGGGCTGACAGCCTTCCGCGCGGTCAAGCGCGTACTGCCCCACCTGCAGGGCATGAACTCAAGGGCGATTGTCATAGGAGCAGGCGGTCTGGGACAGTTCGCCATCCAGTTCCTCAAAACCCTGACGAATGCTGAGCTCACCGTTGTCGACACCTCGGCCGAGAAACTGACCGCCGCCAGCAGCCTGGGCGCCGACGTCACCTGCGGCGCGGACGAGCTCACCGGCAAATATGACGCAGTTATCGACTTCGTCGGAGCTGACGCGACCATGGCCGCTGCTGCATCCAGCATCAACCGGCAGGGCATCATTGTCGTCGTCGGCCTCTGGGGTGGCCGCATCCAATTCGGGGTCGGAGCTGTGCCGAGCGAAGCCGTTCTCACCACGAGCATCTGGGGAAGCCTGGATGAACTCAAGGAACTTCTGGAATTCGCCCAAAACCATCCACTGCAACACTCCGTCGAGCCCATCCCGTTCGAAAAAGCCCAACACGCACACGACCTCCTTCGCGCCGGCAGCATCAAGGGCCGCGCCGTTCTGGTCATGGACTAG	MKSIAVSKPHAPLELVEREIPEPLAPGEEVIRVLACGVCHSDLHVADGDFGGPYPVVLGHEVVGEHHELGRVLLYAPWGCGQAECRQCSSGLEMICPNGREAGIVSDGGYSEYMRVPKRDYLVPIGDLDPVSTAPLACGGLTAFRAVKRVLPHLQGMNSRAIVIGAGGLGQFAIQFLKTLTNAELTVVDTSAEKLTAASSLGADVTCGADELTGKYDAVIDFVGADATMAAAASSINRQGIIVVVGLWGGRIQFGVGAVPSEAVLTTSIWGSLDELKELLEFAQNHPLQHSVEPIPFEKAQHAHDLLRAGSIKGRAVLVMD	PGPT0006365_3082	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
D1-17_03825	1344	ipuC		Glutamate--isopropylamine ligase	ATGAGCCACACCGTTTTGACACCGCCGTCAAGCTTGGAGGACTGCGCGAGGATCGCGCAGGAGCACGGCGTGCACACTGTTGAATGCGTCTTCACGGATACGTGGGGGATGCCGCGCGGAAAGATGCTGCCGATGGAGCAGTTCCTGAGTGGGGCAGGCTTTTCCATCGCGAACGTGGCCTTCTCCTGGGACATGCGCAGCGACATCCACCCCACGCCGTGGTCGCCGGAGGACAGTGAATATCCGGACATGCACGCCGTTCCTGACCTTTCCACATTCCGCATCGCAGGCTGGACGACCGGCATGGCGACGGTGATGTGCGACATGCGCGACCCCAAGACCCACGAGCGCATCCCGATGGACGGCCGGGGCATGGTAAAAGACACGCTCAAGGAGTTTGAGGCGCTCGGTTACCGCGTGGACATGGCCACTGAGCTGGAATTCCATCTCTTCACCAGCGACTGGAAGCCCATTTCCGACAAGTCGTACTGCTACTCCCTGGACCGCGCAAACGAACTGGAACCGGTCATCGGCGCCATCCGTGCCGCGCTCACTGCCTCCGGGATCACCGTTGAGGCCAGCAACGTCGAATACGGCCAGTCCCAGGTGGAGATCAACCTGAAATACGGCGACGCCCTCACCATGCTGGATAACACAATCCTCTTCCGTCACATCGTGCGCCTGGTGGCACGGCAGCACGGGATGAACGCCACGTTCATGGCCAAGCCCATCAATGGCGGCGCCGGCAGCGGACTCCACGTCCACCAGAGTCTCTGGAACAGCGACGGAGTGAACGTCTTCTCAACGAAGGACACCACGGACCCGGTGCACTCGGACGTCATGCGCCGCTACCTCAGTGGGCTTGTCACGCACCAGCTGGACCTGCAGGCGATCGCGCTTCCCACCGTGAATGACTACAAGCGCATTGTGGATTACTCCTTCTCCCCCACCCAGGTGTGCTGGGGCCTGGACAACCGCCTGGTGGGCGTCCGCTGCGTCACAGACGCCGGACCGGGAACGCGCCTTGAAGTGCGCTGGGCAGCTGCGGACGCAAACCCATACCTGGTCGCCCAGGGCTACCTTCAGGCCGGCCTGGATGGCCTGAAGAATGACCTGCCGCTGCAGCCCATGTCCACGGGTGATCCCCATAAGGACCCCAGCCTCCGCAGGGTAGCTCCCACCTTGTCTGATGCGGTAAACACCTTCGCCGGCAGTCCGTTCGCCAAGGCCGCATTCGGTGAGATCTTCGTGGACACGTACACGGCGATGCAGAGGGTTGAGCTGGCTGCGTTCGCTGCCCACGTCACCGACTGGGAGTTCAACCGCTACCACGACGTCCTCTGA	MSHTVLTPPSSLEDCARIAQEHGVHTVECVFTDTWGMPRGKMLPMEQFLSGAGFSIANVAFSWDMRSDIHPTPWSPEDSEYPDMHAVPDLSTFRIAGWTTGMATVMCDMRDPKTHERIPMDGRGMVKDTLKEFEALGYRVDMATELEFHLFTSDWKPISDKSYCYSLDRANELEPVIGAIRAALTASGITVEASNVEYGQSQVEINLKYGDALTMLDNTILFRHIVRLVARQHGMNATFMAKPINGGAGSGLHVHQSLWNSDGVNVFSTKDTTDPVHSDVMRRYLSGLVTHQLDLQAIALPTVNDYKRIVDYSFSPTQVCWGLDNRLVGVRCVTDAGPGTRLEVRWAAADANPYLVAQGYLQAGLDGLKNDLPLQPMSTGDPHKDPSLRRVAPTLSDAVNTFAGSPFAKAAFGEIFVDTYTAMQRVELAAFAAHVTDWEFNRYHDVL	PGPT0000645_7389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0000645-glnA-K01915	NA	NA
D1-17_03826	714			hypothetical protein	ATGGAAGGAACGGACTCCAGGGCAAAGACCGTCCTGCTCATCACGCACGAACAAACGTCCTCCACCGACACCGGCATCGTAGGCCAAGCCCTGCTGGACGCCGGCCACATCATCAAAACCCACGAAGTGTTCTCCACCGGCCCCGACGGCACCCGGACAATCAACGCCAACTTTCCGCACCCCGCGGAATTTGATGCCGTCATCGCCTTCGGCTCCTTCGGCCACATCTACGAGATCACCGATGACTGGCTCACCCGAGAAATCCAGTACATCGCAATGCTGCACCAGCACGGCACCCCGTACCTGGGCATTTGCTTCGGCGCCCAACTGCTGGCCGAAAGCGTAGGCGGCCGTACTGTCCGCGCCGACAGGATGGAAGCAGGACTGATCACCTTTGAACCCGGCCACACCTGTCCGATCCCGTCCGGGCCGTGGTTCTCCTGGCACAGCGACAAAGTCGAACTCCCCGAACACGTTGAGGTGCTGGCCACCACCGACGTCGCCCCGCAGGTCTTCCGCACCGGTAGGTCCATCGGGGTGCAGTTCCACCCGGAGGCCGATGGGGAACTCATGGAGGAATGGATCAGAATCGGCGGCCACGAGTTGGAGGGCGTCCTCTCCATCGAAGACTTCCGACGCCAATGGGCCGCGCACGAGCCCGCCGCAGAACGCAACACCAAGGAGCTGCTGGACTGGTTTCTGAACTCGCCGTGA	MEGTDSRAKTVLLITHEQTSSTDTGIVGQALLDAGHIIKTHEVFSTGPDGTRTINANFPHPAEFDAVIAFGSFGHIYEITDDWLTREIQYIAMLHQHGTPYLGICFGAQLLAESVGGRTVRADRMEAGLITFEPGHTCPIPSGPWFSWHSDKVELPEHVEVLATTDVAPQVFRTGRSIGVQFHPEADGELMEEWIRIGGHELEGVLSIEDFRRQWAAHEPAAERNTKELLDWFLNSP	PGPT0021580_7083	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
D1-17_03827	726			hypothetical protein	GTGCAGACACCACGTCGCAGACCCCTCATCGCCCTACCCGGCAGATTCTCCGACAGCGCCTCCGCACTGAGATACAAGGCAGTGGTCAACGCCCATGCACTCATCAAGGGTGTATATGACGCCGGCGGCGAGCCGGTCACCATACTTCCGGTCGCGGAGCCGGGAACGCCGGAGGACACACTCTATGAAGAAGTCGCGCAGCGGCTGGCTTTCGCCGATGCTGTACTGCTTCCCGGCGGTGCCGATATGTCCGCCTGGCGCTACGGCCAGGAAACCCACGCCGAATCCGACGCCGGGGATGACCTGCAGGACGCATTTGATCTCGCCGTTGCCCGGTACGTCGTGGAAAACAAGGTTCCCACTCTTGCCGTCTGCCGAGGAATGCAGATTTTGAACGTGTCCCTGGGCGGCGATCTGGAACAACACCTTCCCACTCCCCACATGAATCAGATCCACACAATCACCCTGGACGCCAACAGTTCTCTGATTCCATCCATCGCCCGAAACCCTCGGGTTTCCTGCTACCACCACCAGGCGGTGAGGAATCTCGGCAAAGGGCTGGTAGCCACTGCCTGGGCTGAAGACGGCACAGTTGAAGCACTGGAACTCCAGGACGCGGAATTCTGGATCCACGGGGTGCAGTGGCACCCCGAGGACACGGTCGCTTCCGACCTTGCCCAACAGGCGCTCCTCAAGGAATTCATCGCAAACATCCCCGTGGATTAG	MQTPRRRPLIALPGRFSDSASALRYKAVVNAHALIKGVYDAGGEPVTILPVAEPGTPEDTLYEEVAQRLAFADAVLLPGGADMSAWRYGQETHAESDAGDDLQDAFDLAVARYVVENKVPTLAVCRGMQILNVSLGGDLEQHLPTPHMNQIHTITLDANSSLIPSIARNPRVSCYHHQAVRNLGKGLVATAWAEDGTVEALELQDAEFWIHGVQWHPEDTVASDLAQQALLKEFIANIPVD				NA	NA	NA	NA	NA
D1-17_03828	1260			Steroid C26-monooxygenase	ATGAGCCAAACCCACGTGCACACCCACGACGCTCTATCAGACCTCGCTTTCGAGGACGGAGTGCCCTACGAGTACTTCGATCAGGCCAGGCGGGAAGACCCGGTCCGCTGGGTTGAGGAAGAAGACGGCCCTGGCTACTGGTCCGTCACCCGCTATTCGGACGTCGTCGCTGTTACGCGGAACTTCCAGCAGTTCTCGTCCGAGACCGGTGGAACCACGCGAGAAGACATCGAACATGATGACCTGCTGGCACGGCAGACCCTCATCGACACGGATCCGCCGCTGCACACAGCAATGAGGCGCGTCCTTTCCGCCCGTTTCACCCCCGGCACCGTCCACAAGGAATGGGTCGGCTTCGTCGAGGAACTGGTGGAAAAGACGCTGGACCAGGCATTCACCCGACCCAGCTTCGACTGGGTAGCCGACGTCGCTGCCGTCATCCCCATGATCGTTCTTGGCGAGCTGCTGGGGGTCCCGACCGAGGACCGTGCCTACCTCAAGGCACTTGGCGACGAAATGATTGCCGGAGCTGACCCTGACCACGCTCCCCGCACCGCTGACTCCCCCGAAAGCGTCAAGGAAAACAGCGGCTACCCGTTCTCCAGCCCCGCAGGAAGGGACATTTGGAAGTATGCAGATGCCCTGCGTGACCGCAGGAACGGGAACCTGGGTCATGACGTGTTTTCACTGCTCATGACCGGAAACATCAACGGACGCAAGCTCACCACCCGCGAGCTTGATAACTTCTTCTCCCTCCTGGTGGTGGCCGGCAACGAGACAACGCGCATGGCCCTGTCCCATGGCCTCCTGGCCTTCGCCCAGAACCCCGACCAGTTCCGCCGGCTCAAGGAAGACCCTTCCCTGCTGAACACTGCCGTGGAGGAAGTGCTCCGCTGGGCTACACCCATCCACCACTTCCGCCGGACCGCGCTGGTTGACACCAAAATCGGCGAAACACCGATCAAGGCTGGAGACAAGGTCCTCATCTGGTACGCGTCCGCGAACCGGGACGAAACCGTCTTCGACGCACCCTACTCCTTTGATATTGCGCGCAAGCCCAATCCCCACGTGGCCTTCGGTGGCGGCGGCCCCCACATCTGCCTGGGCAACAGCCTGGCGCGCCTGGAACTGCAGATTGTTTTCCGCGAACTGGCCAAGCGGGTAGAAACCATCGAAATTGACGGACCCGTGCACCGGCTTCGCTCCAACCTCACGCACGGCATCAAGGAACTGCCGGTCCGTCTGACGTACGCCGCCTGA	MSQTHVHTHDALSDLAFEDGVPYEYFDQARREDPVRWVEEEDGPGYWSVTRYSDVVAVTRNFQQFSSETGGTTREDIEHDDLLARQTLIDTDPPLHTAMRRVLSARFTPGTVHKEWVGFVEELVEKTLDQAFTRPSFDWVADVAAVIPMIVLGELLGVPTEDRAYLKALGDEMIAGADPDHAPRTADSPESVKENSGYPFSSPAGRDIWKYADALRDRRNGNLGHDVFSLLMTGNINGRKLTTRELDNFFSLLVVAGNETTRMALSHGLLAFAQNPDQFRRLKEDPSLLNTAVEEVLRWATPIHHFRRTALVDTKIGETPIKAGDKVLIWYASANRDETVFDAPYSFDIARKPNPHVAFGGGGPHICLGNSLARLELQIVFRELAKRVETIEIDGPVHRLRSNLTHGIKELPVRLTYAA	PGPT0006655_445	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_CHOLESTEROL_DEGRADATION_,PGPT0006655-cyp125A-K15981	NA	NA
D1-17_03829	1506	puuC	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGACATACGACGCAGTGATTTCGGAAACCTCGCATGAGGTTTCACTTGCCACCCAAGCCTTCATCCAACGGACCCAAGGGCTTCGGATCGGCACCGACACGGAGCGGGAAGCCAAATCGGGGGCCACGTTCCAGTCCATCAACCCCGCCACCGAGAACGTTCTTGGTTCCATCGCTTCCGGCTCAGCAGAGGACGTCGACTCCGCCGTTGCCGCCGCCAGCGCCGCCCTGTCCTCCAGTGACTGGGGCACAGCGAGCCCTGCCACCCGCGCCCAGTACCTGTTCGATCTGGCTGACGCGGTCGATGCCAACCGTGAGCAGCTTGCCGAACTGGAAACACTGGATATGGGCAAACCGATCTCCCAGGCACTTGACGACGTCGGAGGCGTGGCGGCCGTCTTCCGGTACTACGGCGGCTGGCCCACGAAGCTCGAGGGCTCCATCAACCCCGTCCGGCAGCCCTATTTCGGCATGACCCAAATAGAGCCTCTGGGTGTCTGCGGCGCCATCACGCCCTGGAACTTCCCGCTCGTAATGGCCTCGCACAAGATCGGCCCCGCTCTGGCAGGCGGCAACACGATGGTCATCAAACCCGCCGAGGTCAGCAGCTACTCAACGTTGCTTTTGGCCGATCTCGCCCGCCAGGTGGGCCTGCCCCCGGGAGTGCTCAACGTCGTCACCGGGCCCGGGCGCACGGTGGGACAGGCGATCGTTGACCACCCCGACGTCGTAAAGATCTCCTTTACCGGGTCCACTCCCGTTGGCCGGCGCATACTCGAGGCGGGCAGCCGGCAGATGAAGAAGGTCAGCGTGGAGCTGGGCGGAAAGAGCGCCAACATCGTCTTCCCTGACGCCGACATCCAGGCCGCCGCCAAAGGCTCCGCCGAAGCCATGTGGGAAAACGCCGGCCAGGTATGTGTCGCCCCCACCAGAATGTTTGTCCACGAGGACGTCTACGACGAACTCGTCGAAGCGCTGTCCCGCGAAACCCAGGCCCTGCGAATCGGTGACCCGCTCCGTCCGGACACAGAAGTGGGCCCACTGGTCTCCAAGGACCAATACGTCTCAGTCCAGGAGTACATCGACATCGCACGTTCCGAAGGGGCACGCCTCAGCGTTGGAGGGCGCGCCCTGGACCAGGCAGGATACTTCGTTGAGCCGACCATCTTCACTGACGTCCGCAATGACATGCGCATCGCCCAGGAAGAGGTTTTCGGACCGGTACTTTCCGTGCTTCGTTTCCGCACAGAAGAGGAAGCCATCAGGCTCGCGAACGATTCAGCATACGACCTGGCGGCCGCCGTATGGACCCGTGACGTCGCCAGAGCACTGCGCATGAGCAAGGCACTTAAGGCCGGAACGGTATGGGTGAACACGCACGGCCGGCTCGATCCCGCCCAGAGCTTCGGGGGCTACAGCAAGTCCGGCAACAGCCGTGAACTTGGCCGCGAGAGCGTACTGTCCTACACCCGGTCCAAGGCAGTCATGATCGACATGTCCGCCTGA	MTYDAVISETSHEVSLATQAFIQRTQGLRIGTDTEREAKSGATFQSINPATENVLGSIASGSAEDVDSAVAAASAALSSSDWGTASPATRAQYLFDLADAVDANREQLAELETLDMGKPISQALDDVGGVAAVFRYYGGWPTKLEGSINPVRQPYFGMTQIEPLGVCGAITPWNFPLVMASHKIGPALAGGNTMVIKPAEVSSYSTLLLADLARQVGLPPGVLNVVTGPGRTVGQAIVDHPDVVKISFTGSTPVGRRILEAGSRQMKKVSVELGGKSANIVFPDADIQAAAKGSAEAMWENAGQVCVAPTRMFVHEDVYDELVEALSRETQALRIGDPLRPDTEVGPLVSKDQYVSVQEYIDIARSEGARLSVGGRALDQAGYFVEPTIFTDVRNDMRIAQEEVFGPVLSVLRFRTEEEAIRLANDSAYDLAAAVWTRDVARALRMSKALKAGTVWVNTHGRLDPAQSFGGYSKSGNSRELGRESVLSYTRSKAVMIDMSA	PGPT0006875_3002	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-17_03830	663	gntR_2		putative D-xylose utilization operon transcriptional repressor	ATGAAGAAGATTGAGTTCGCTCGGGAGACGCTTGCTGATGCCGCGTATGCGCAGATTGCCGAGGGCATCCTGACACATGATCTGGGTCCCGGCGCCAGGCTGCTGATGGATGATCTGGCAGCGCAAATGGGCATCAGCCGGACACCCGTGCGGGAAGCCTTGCATCGTCTTGAGATGGAGCGCGTGATCGAACCCGGCGGTCGCCGTGGCTACATTGTTCGTAAGCTCACTGATGTCGAGCTGGATAAGCAGTATGCTGCCCGGGGAGCCATTGAGCCGTTCGCTCTTGCGGAGGTTGCACGCCTGGGCGGCGCGGCCGCTCAGTACGTGAGGTCCACGTACGAGGAGCTGGTATCGGCCCCGCAGACCACGGCCATGGAGGTCTTCCTGGTCAACAAGGCCATTCACCGCTGCACTGTGGAGGCTCTGGACAACGAGTACCTCCTGAGCATGTTCGATGTCATCTGGCAGACGGCCATGGCCACCCACGTGTGGGCCGATATCCTGGAAAGCCGTACTGCTGTTGACTTCCCGGAGATGCACCGGCCCATCGTGGAGGCTGCCGAGTCCGGGGACCCCGAGCTGGCGCGCAAGGTCGCTTTCGAGCACATCCATGCCGGCCGCGGACTGCACGTGGACCACGGCGAACAGCCCGCCCCCTAG	MKKIEFARETLADAAYAQIAEGILTHDLGPGARLLMDDLAAQMGISRTPVREALHRLEMERVIEPGGRRGYIVRKLTDVELDKQYAARGAIEPFALAEVARLGGAAAQYVRSTYEELVSAPQTTAMEVFLVNKAIHRCTVEALDNEYLLSMFDVIWQTAMATHVWADILESRTAVDFPEMHRPIVEAAESGDPELARKVAFEHIHAGRGLHVDHGEQPAP				NA	NA	NA	NA	NA
D1-17_03831	1347	gabT_2	COG0160	4-aminobutyrate aminotransferase	ATGACCGCACAGATCACCGTCGGCGGCCCTGAGCTCACCCAGGAGCGCAGGATCATCACTGAGATCCCGGGCCCCCGCTCGCGCGAAATTCTTGAGCGCAAGGCATCCGCAGTCGCCCGGTCCGTTGGCCACACCCTGCCCATCATCGCCGATGCAGCAGGCGGCGGAACGCTCCTGGACGTGGACGGCAACTCGTTCATTGACCTGGGCTCGGGTATCGCCGTTACCAGCGTCGGCAACTCCAATCCCCGTGTGGTCCGCGCAGTTCGTGATCAGCTGGATCGATTCACGCACACGGCCTTCACCGTGGTGCCCTACGAGAGCTACATTGCCGTGGCGGAGAAGCTGAACGAGATCACGCCTGGAAGCTTCGCCAAGCGCACCGCCCTCTTCAACTCAGGTTCGGAGGCCGTGGAGAACGCCGTCAAGGTCGCCCGGCGCGCGACCGGCCGCCAGGCCATCGTGGCCTTCGAGCACTCCTTCCATGGCCGCACAAACCTTGCCATGGCCCTCACCGCAAAGAGCGCGCCCTACAAGCAGGGTTTCGGCCCGTTCGCCCCGGAAATCTACCGGGTTCCAGCCTCCTACCCCTACCGTGACGGTGGCCTCACCGGGCCCGAAGCTGCCCGCCAGACGATCGAACAAATCGAAAACGAGCTCGGGGCCGAATCCGTGGCAGGCATCATCATTGAGCCGATTCAGGGCGAGGGCGGCTTCATCGTTCCCGCAGAGGGCTTCCTGTCGACCCTGAAGGAATGGACAGAACGCAACGGCATTGTCTTCATCGCCGACGAGATTCAGTCCGGCTTCGCCCGTACGGGCAAATGGTTCGCCGTTGACCATGAAGGAGTTGCCCCTGACCTCATCACCATGGCCAAGGGCATCGCCGGGGGATTACCCCTGTCGGCACTGACGGGACGGGCGGAGCTGATGGACGCCGCCCAGGTTGGGGGCCTTGGAGGCACCTACAGCGGCAACCCCATCGCCTGCGCCGCAGCCCTCGCGGCTCTGGAAGCCTACGAGGAGGACGGACTCCTCGACCGCGCACAGCAGATCGGGACCATCCTCACCCGCCGCTTCACCGAACTGCAGGAAACAGATCCCCGCATCGGCCAGGTGCGCGGACGCGGAGCGATGTTCGCCATCGAGCTCGTCGACCCGGAGACCCTGAACCCGGATCCGGCACTGACTGCACTTGTCGTGAAGCACGCCCACGAAAACGGAGTCATCCTCCTCGCCTGCGGCACCTACGGCAATGTCATCCGGTTCCTCCCCCCGCTGTCGATTGACAATCAGCTGCTTGAGGAAGGCATCGGAGTCGTCGTGGAGGGACTGGCCCGTTTATGA	MTAQITVGGPELTQERRIITEIPGPRSREILERKASAVARSVGHTLPIIADAAGGGTLLDVDGNSFIDLGSGIAVTSVGNSNPRVVRAVRDQLDRFTHTAFTVVPYESYIAVAEKLNEITPGSFAKRTALFNSGSEAVENAVKVARRATGRQAIVAFEHSFHGRTNLAMALTAKSAPYKQGFGPFAPEIYRVPASYPYRDGGLTGPEAARQTIEQIENELGAESVAGIIIEPIQGEGGFIVPAEGFLSTLKEWTERNGIVFIADEIQSGFARTGKWFAVDHEGVAPDLITMAKGIAGGLPLSALTGRAELMDAAQVGGLGGTYSGNPIACAAALAALEAYEEDGLLDRAQQIGTILTRRFTELQETDPRIGQVRGRGAMFAIELVDPETLNPDPALTALVVKHAHENGVILLACGTYGNVIRFLPPLSIDNQLLEEGIGVVVEGLARL	PGPT0007660_556	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
D1-17_03832	1524	tgnC	COG1012	(Z)-2-((N-methylformamido)methylene)-5-hydroxybutyrolactone dehydrogenase	ATGACAGCACAAAGCAGTGATCTGGTCACACGCCCCGAGGACCGCGACGGGCTGACGCACTACGACCACTACATCGGAGGCACCTTTACGCCCCCCGAAAACGGCGAGTACTTCGACACCGTTAACCCGTACACCGGAGAAGTCTGGGCCAAAGTTGCTCACGGCGGCCCCGCAGACGTAGCCCGCGCAGTAGCTGCGGCCACAGAGGCGTTCAAGAGCTGGGGCAGGACCAAGCCCCAGTACCGCGGCAAGCTTCTCATGGATCTTGCCGATCTCATCGAGGCCAACAGCGCCCACCTTGCCCGGATTGAGGTAAGCGACAACGGCAAGCTGTACGCCGAAATGTCCGCCCAAACCCGGTACATGGCCGGGTGGTACCGCTACTACGGCGGCCTGGCAGACAAGATCGAGGGTGCAGTCATCCCCAGTGACAAACCGAACATCCTCAACTACACCCGGCTTGAGCCCCTCGGGCCGATCGCAATGATCACGCCCTGGAACTCTCCTTTGCTCCTGCTGGCATGGAAACTGCCGGCGGCTCTGGCAGCAGGCAACACGGTCGTCATCAAGCCCTCGGAGTTCACCTCGACCTCGACCCTGGAATTCATGAAGCTTTTTGAGGAGGCAGGGTTCCCGCCCGGCGTCGTCAACACCGTCACCGGTTTCGGCCAGGAGGTGGGCGCCCCGCTCGTCAGCCATCCGGACATCGCCAAGGTGGCTTTCACAGGTTCCGAGATGGCCGGGCAGAAGATCTACGAGAACGCCGCGAGCCAGTTCAAGCACGTCTCCCTCGAATTGGGCGGCAAGTCCCCGAATATCGTTTTCGAGGACGCCGACCTGGACGCCGCCGCCACCGGTGTAATTTCCGGGATCTTCGCCGCAACCGGCCAGACCTGCATCGCCGGATCACGCCTGCTGGTCCAGCGCTCCATTCACGACGAGTTCGTCCAGCGGGTTGTGGCGCTGGCCGAACAAGCCAATATCGGTGACCCCATGCTGCCCGGCACGCACGTCGGACCGATAACGACCCGGCTGCAGTTCGAGAAGGTGCTCGACTACATCGATATCGCCCAGCGCGAGGGGGCAAAGTGCGTCCTCGGAGGCGCGGGCTACACCGGGGAAGGCGCATCCGGCGGGCAGTTCGTCCAGCCAACGATCTTTACCAACGTCCGCAACGAGATGCGCATCGCCCAGGAAGAAGTCTTCGGGCCCGTCCTGGCCGTCATCCCGTTCGAGGACGAAGACGACGCCCTGGCTATCGCTAACGACATCAACTACGGCCTGGCCGCCGGAGTCTGGACACGCGACATCGGCAGGGCGGTGCGTATGTCGGAAAACCTGCAGGCCGGCACAGTATGGGTCAACACCTACCGCGCCGTCAGCTTCACGTCCCCCTTCGGCGGATACAAGCGCAGCGGCCTCGGCCGGGAAAGCGGAATCGACGCCATCAAGGAATACCTTCAGGTCAAGTCCGTCTGGATCTCCACAGCACCGGACACGTCAAACCCCTTCATCATCAAATAG	MTAQSSDLVTRPEDRDGLTHYDHYIGGTFTPPENGEYFDTVNPYTGEVWAKVAHGGPADVARAVAAATEAFKSWGRTKPQYRGKLLMDLADLIEANSAHLARIEVSDNGKLYAEMSAQTRYMAGWYRYYGGLADKIEGAVIPSDKPNILNYTRLEPLGPIAMITPWNSPLLLLAWKLPAALAAGNTVVIKPSEFTSTSTLEFMKLFEEAGFPPGVVNTVTGFGQEVGAPLVSHPDIAKVAFTGSEMAGQKIYENAASQFKHVSLELGGKSPNIVFEDADLDAAATGVISGIFAATGQTCIAGSRLLVQRSIHDEFVQRVVALAEQANIGDPMLPGTHVGPITTRLQFEKVLDYIDIAQREGAKCVLGGAGYTGEGASGGQFVQPTIFTNVRNEMRIAQEEVFGPVLAVIPFEDEDDALAIANDINYGLAAGVWTRDIGRAVRMSENLQAGTVWVNTYRAVSFTSPFGGYKRSGLGRESGIDAIKEYLQVKSVWISTAPDTSNPFIIK	PGPT0000915_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0000915-tgnC-K23463	NA	NA
D1-17_03833	459	cinC		Cindoxin	ATGAAGATCCAAGTTCTTTTCGGGACGGAATCCGGCAATGCAGAGATTGCGGCCGAAGACCTCGCTGAATCGATCAGGAACGACAGCCAGGAAGTCCACGTGCACGACCTGTCCGCGTTCTCAATCTCTGAACTGCAGCATGACACCATGTACGTATTTCTGTGCTCCACCTACGGTGAAGGGGACCTGCCCAACACGGCACTGCCGTTCTACGCAGACCTTTCCGTCGTCCGCCCCGACCTGACCGGCGTACGGTACGCCATGTTCGGCCTTGGCGATACGTTCTACACGGAAACCTACGGACAGGGCGCCACGAAGCTCGACGACAAGCTCTCGGAGCTGGGGGCTGAGCGGGTAGGAGAAATTGGCCGCTACGACGCCTCGTCCTGGGAGCCGGTGGGCGAAGCCGCTGTAGCCTGGTTCGCCGGCGTGCTCGATGGGGTAGCCGCTGCCCGCTAG	MKIQVLFGTESGNAEIAAEDLAESIRNDSQEVHVHDLSAFSISELQHDTMYVFLCSTYGEGDLPNTALPFYADLSVVRPDLTGVRYAMFGLGDTFYTETYGQGATKLDDKLSELGAERVGEIGRYDASSWEPVGEAAVAWFAGVLDGVAAAR				NA	NA	NA	NA	NA
D1-17_03834	1296	fprB	COG0493	putative ferredoxin/ferredoxin--NADP reductase	ATGGATACGCCTCTGTCCATCGCGGTCATCGGAAGCGGGCCTTCGGGCTGCTACCTTGCCCAGAGCCTGCGGCGGTCATTTCCACAGGCGGAGATCACGATCTACGACCGGCTTGCCTCTCCATTCGGCCTGGTCCGTTACGGCGTCGCCCCCGACCACCAAAGCACCAAGTCGATCCAGGCACAGTTTGCTCGGTTGTTTGAACGCGACAATGTCCGCTTCGCCGGCAACATTGAGGTCGGCGCCGACGTCTCCCTGGACGAACTGCGCAGCCTCCACCACATTGTCGTGCTGGCTGCAGGCCTTGCCGAGGACCGGGCCGTCGGAGTGCCGGGGGAGGACCTTCCGGGGGTCTATCGCGCTGGCCGTATCACGAGGCTCTTTAACGCCCACCCGCTTGAGCAGACTGAGGTCCCGAAGTTCGGCGAATCCGTGGCAATTATCGGCGGCGGCAACGTCTCCATCGACATCCTGCGGCTGCTGATCAAGCGGCCCGAGGACTTCCTCAACAGTGACATCGACGACGACGTGCTGGCAGCATACATTCAGGCTCCCGTGAGCCACATCGACCTCATCTGCCGGTCGACCGTCACACACGCTCCCTCTGATCCCGTCATGCTCGCTGAGCTCGGACGCGTAAAGGGCGTGAAATTCTCCTGCGCAGACCCGATTGAAGTAGCGGACGACGCTCCGCGTACCGCCGTCGCGAGGGCCAAAGCCATTGAGGAGCTCCTCCACGTCGATCCGGGAAACGAGGCCCGTGTCGAGGTGGCTTTGCACTTTGGGTGGGCCCCGGTGAGCATCAACGGGGACGGGCACGTCCAGAACCTGGAACTGCGGTCCCTCAATGATGACCGGCCGAACATACTTCTGGACACAGACTCTGTCGTTACAGCCATTGGTTTCGATTTCGACGCCGGCGACTGGCACGGTCTCGGTGCCCTCAAGGCCAACCTAGAAAGCGGGATGCTGGATTACGGACTGTACCGCACAGGCTGGATCAAGCGCGGTTCCCGTGGAACGATCGCCGAAAACAGGTCCTGTGCAAAGGCCGTAGCTGAAGAGATCGTCGCTGGCGTCGGTTCGCTCCAGCACCAGCCGAAGCCGGGATACGCCGGCCTGCCCGAAGAGGTCCGGGCCAAGGCTGTGGATTATTCGGCGTGGAAGCGCGTGGACGCCGCCGAGACCGATGCCGCCGCTGCCGATCGGTCCCGCCGAAAGATCCCCAGCCATGAACAGATGGTCGCCATCGCACACAACAAACTCGTTCAAACCGCCGCCCCCGGCACCAACTAA	MDTPLSIAVIGSGPSGCYLAQSLRRSFPQAEITIYDRLASPFGLVRYGVAPDHQSTKSIQAQFARLFERDNVRFAGNIEVGADVSLDELRSLHHIVVLAAGLAEDRAVGVPGEDLPGVYRAGRITRLFNAHPLEQTEVPKFGESVAIIGGGNVSIDILRLLIKRPEDFLNSDIDDDVLAAYIQAPVSHIDLICRSTVTHAPSDPVMLAELGRVKGVKFSCADPIEVADDAPRTAVARAKAIEELLHVDPGNEARVEVALHFGWAPVSINGDGHVQNLELRSLNDDRPNILLDTDSVVTAIGFDFDAGDWHGLGALKANLESGMLDYGLYRTGWIKRGSRGTIAENRSCAKAVAEEIVAGVGSLQHQPKPGYAGLPEEVRAKAVDYSAWKRVDAAETDAAAADRSRRKIPSHEQMVAIAHNKLVQTAAPGTN	PGPT0013215_1218	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-17_03835	519			hypothetical protein	GTGAAAAAGCTCAGGCGAGCCCCCGCCGGTACCCACTCTTTGCAATGGCGCATTGACCCGGCATTCGATGATTACGTCCGCAACCGCACCGGCGATGGCACGGTCACGCTTTCAGGCGGTGCCACGCGTGATGACGATGGCTACTACCATTTCCCCAGAATCGTCACTTCGGGGGATCACGAGAACCTGCACTTCGGCGGCTCGGTTGAATTCCGCGCCTATCTGGGTGTTCTTTCGCTTCGCATCGCCGACCCGAGCCTGCATGTCGCCCGCGGCACGGTCCACTTGTACATCGCGGATGACTCCGCCCCCGCAGGGACCCGGCTGGAGCTTGCAACGGCAGCCACTGAGCCAGGGGCAACCGGCAACATCCTGCTGGACCTTCGCCTGACCGAACGCGGCGCTGAGCTGTTCCTCGACAAATATCCTGTCGGCACCCCCTTGGCACCGTTGAACATCGTCCTCGGCGCCCCTGGCGCCCCTGCTGCCAGGGCATTTTCCGTCGGAGGAGCTTTCTGA	MKKLRRAPAGTHSLQWRIDPAFDDYVRNRTGDGTVTLSGGATRDDDGYYHFPRIVTSGDHENLHFGGSVEFRAYLGVLSLRIADPSLHVARGTVHLYIADDSAPAGTRLELATAATEPGATGNILLDLRLTERGAELFLDKYPVGTPLAPLNIVLGAPGAPAARAFSVGGAF				NA	NA	NA	NA	NA
D1-17_03836	756			hypothetical protein	ATGAGTAACCGCAGCAGTGATGACCGTGGCCGCAGGCAGCTCAGTGATGAAGCGGCCGCCTATGTCCGAGGGCTCATCATGTCAGGCGAACTCAGGCCGGGGACAACCGTCAGGCCCGAGACGGTCGGACAAGCCCTGAGCATTTCGACCACCCCTGCCCGGGAGGCCCTGCAGGCACTGCGGGTGGAAGGCTTCCTGGACCTGCTCCCGCGCCGGGGCTTTCAGGTCGCACCACTCACCGGACAAGACATCCGGGACCTCTTCCACGTGCAGGCACTCATAGCCGGTGAACTGGCAGCGAGAGCAGCAGACGGCCCCACACCCGATGAGCTGGCGGAACTGGAAGCACTTCATCACGAACTGATCGCGGCCGCACGCCGGAATGACCTTGATCTCCTCGAAGAGAAAAACCACGCCTTCCATCGCCAGATCAACACCATGGCCGGCTCCCGGAAGATCCTCTGGGCACTGAGCCTGATTACACGCTACGTACCACGGCAGTTCTATTCGTCGATTCCAGGATGGCCGGCGGCCACCGTGACCGATCATGAGGAAGTCCTTGAGGGAATACGTTCAAAAGACACGGCAAAAACACGCGCCGCAATGACGTCCCACATCATCCATTCAGGGGAACTGCTCGCAGCCAACTTCGACAAACGAGTGGTCGCCCCGGCGCTTCCAGCAACAGACACCGAAACAAGCACAGCAACAGCCGGAACGGACCCGCAAAGGGCTTCGCTGCACGCCGCAAGTTAG	MSNRSSDDRGRRQLSDEAAAYVRGLIMSGELRPGTTVRPETVGQALSISTTPAREALQALRVEGFLDLLPRRGFQVAPLTGQDIRDLFHVQALIAGELAARAADGPTPDELAELEALHHELIAAARRNDLDLLEEKNHAFHRQINTMAGSRKILWALSLITRYVPRQFYSSIPGWPAATVTDHEEVLEGIRSKDTAKTRAAMTSHIIHSGELLAANFDKRVVAPALPATDTETSTATAGTDPQRASLHAAS				NA	NA	NA	NA	NA
D1-17_03837	1158	yfdE_3	COG1804	Acetyl-CoA:oxalate CoA-transferase	ATGGGCCGGTTACCTCTTGAAGGAATCACGGTTGTCTCACTGGAGCAGGCCGTCGCCGCCCCGTTTGCCACCCGGCAACTCGCGGATCTGGGGGCCAGGGTCATCAAGATTGAGCGGGACACAGGAGACTTCGCCCGCGGCTATGACAGCAAAGTCAACGGCATGGCGAGTTACTTTGTGTGGCTGAACCGGGGTAAGGAGAGCATCGTCCTGGATCTTAAATCCGCCCACGGCCTCGAAGCCCTGAAGCAGCTTGTGGCCAAGGCAGATGTCCTGGTCCAAAACCTCGCCCCAGGCGCAGTGGAACGGTTGGGCTTCGGTCCGGACGACGCCCTGGCGCTCAATCCCAAGCTTATCCACGTCTCCGTTTCCGGGTACGGGAAGGGCGGCCCGTATGAGCAAAAGAAGGCCTACGACCTCCTCGTCCAGTGCGAATCGGGGCTCTTGAGCGTTACCGGAACAGAAGACTCCCCTGCCAAGGTGGGGGTCTCAATCGCCGACATCTGCGCCGGAATGTACGCCTATTCAGGGATACTCACCTCCCTGCTGCAAAGGGCTTCAACCGGCAAAGGCGACGTCCTGGAAATCTCGATGCTGGAGGCACTGGGGGAGTGGGTCAGCCAACCCTATTTCTTCGCCGAATACGGCGGAGCTCCGCCTGCACGCAGCGGGGCGCAGCATGCCAGCATCGCCCCCTACGGGCCATTCGACACCGCCGACGGGACCGTCTTCTTTGGCATCCAAAATGAGCGCGAATGGGAAAAGTTTTGCCGGGAAATTCTCCAGAAACCAGAACTGGCCGACGAGTCACGATTCCTGGGGAATGACGCCAGGGTTCACAACCGTGACGATCTCCACAGCGAAATCAACGACGTACTGCGGTCCCTTTCAACTCAACTGGTCGTTGAACGGCTCGACGCGGCATCCATCGCCAATGCTGAACTGCGCGACATGCACGGATTCTCCGCCCACCCGCAGTTGTCCGCAAGGAACCGATGGCGGGATGTGCAGTCTTCTGTCGGTAGCGTCCGCAGCCTGATCCCGCCGGTCACCTCCAGGGAGGCAGGATTCTCCATGGGATCGGTGCCAGAGTTGGGGGAGCACACCGAGCAGGTTCTTGCCGAGCTGGGACTGCCACTTACTGCTGCTGAGCGCTGA	MGRLPLEGITVVSLEQAVAAPFATRQLADLGARVIKIERDTGDFARGYDSKVNGMASYFVWLNRGKESIVLDLKSAHGLEALKQLVAKADVLVQNLAPGAVERLGFGPDDALALNPKLIHVSVSGYGKGGPYEQKKAYDLLVQCESGLLSVTGTEDSPAKVGVSIADICAGMYAYSGILTSLLQRASTGKGDVLEISMLEALGEWVSQPYFFAEYGGAPPARSGAQHASIAPYGPFDTADGTVFFGIQNEREWEKFCREILQKPELADESRFLGNDARVHNRDDLHSEINDVLRSLSTQLVVERLDAASIANAELRDMHGFSAHPQLSARNRWRDVQSSVGSVRSLIPPVTSREAGFSMGSVPELGEHTEQVLAELGLPLTAAER	PGPT0002130_657	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749	NA	NA
D1-17_03838	870	citE_3	COG2301	Citrate lyase subunit beta-like protein	GTGACCGGTACCGGGAATGTGCTGTTGGAAACGCAGGGACAGGAACTGGTTGCCGCAGCGGTGACGGCACTGTTCGTCCCGGGCGACCGGCCGGAACGCTTCGCCAAGGCTGCAGGCTCAGGTGCCGACGTCGTCATAGTCGATCTTGAGGATGCTGTGGCAGCGGAGAATAAAGAGCAGGCGCTGGCTGCTGCTGTCGATGCTCTGAACCGCGCTGACCTTCATGCATTGGTCAGGATCAATCCACTGGGAACAGCGAGCAGCAAGGCCGACATTGCTGCTCTTCTCAACGTCGCCCGGCAGCCCGGGCACGGCCTGCTGGGGCTCGTTATCCCCAAAGCCGAAGACAGCATGGCCCTGAGAAACCTCTCCAGCCGTTGCGACATGCTCGATCTGGCAGTCGTACCCCTCATTGAGAGCGCTGTTGGCGTGCTCGGCGCGGCGGAGATCGCCGGCATATCCGGCGTCACCCGGCTGTCCTTTGGCGCCATCGACTACGCCCTGGACATCGATGCCGGAAGCGATGACAGGTTCTTGGACCATGCCAGGAGCGCCCTGGTGGTCTCATCACGGGCGGCCGGAATACCTGCGCCCCTGGACTCACCGGCCATCCACATCAAGGAAACCGGCAAAGTCCAGGCATCCGCAAAGCTTGCACGAGGTTTCGGATTCGGCGGCAAGCTGTGCATCCACCCCTCCCAGGTCCCTGTGGTGAACCAAGCCTTCCGGCCGGCCCCGGATGAAGTCGAATGGGCCGAGTCCGTGGTTTCTGCTGCCGGCGGGGCCAGCCAGATCGAGGGACAAATGATCGACCGTCCTGTCATCGAACGGGCGCAACGCATTCTCGCCCGAGCGCGAGAGGAGAAGTAA	MTGTGNVLLETQGQELVAAAVTALFVPGDRPERFAKAAGSGADVVIVDLEDAVAAENKEQALAAAVDALNRADLHALVRINPLGTASSKADIAALLNVARQPGHGLLGLVIPKAEDSMALRNLSSRCDMLDLAVVPLIESAVGVLGAAEIAGISGVTRLSFGAIDYALDIDAGSDDRFLDHARSALVVSSRAAGIPAPLDSPAIHIKETGKVQASAKLARGFGFGGKLCIHPSQVPVVNQAFRPAPDEVEWAESVVSAAGGASQIEGQMIDRPVIERAQRILARAREEK	PGPT0019480_3403	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_CITRATE_SENSING|UTILIZATION,PGPT0019480-citE-K01644	NA	NA
D1-17_03839	558	mch	COG2030	Beta-methylmalyl-CoA dehydratase	ATGACGTCAGAACTTACGACGGGGCAAACCCGTGTAGTACCGGGATGGACTGGGCGCCTGTTTGAAGATTTTTCGGTCGGTGACATCTACTACCATCCTTTTGGTAAGACGGTCACAGAGGCTGACAACCAGAACTTCACCTTGGTTACGCAGAACGTGGCCAAGACCCACGTGGACCGCAACTTCGCTGCGGGTACGGAGTTTGGCCGGCCTTTGGTGAATTCGACGTTTACTCTCGCGCTGGTGACCGGTCAGTCCACGATTGACCTGTCCATGAACGTCTTCGCGAACATGGGATGGGATGAAGTGCGGATGCCTAACCCTGTCTATGAGGGCGACACCATCTACTCGCGGTCCAAGGTCCTCGCCCTCCGCGAGTCCAAGTCCCGCCCGAACCTCGGCCTCGTAACTGTGGCCACCGAAGGGTTCAACCAGGACGCAAAAATCGTGATCAGCTATCGGCGGACCTTCATGGTCTACCGCCACGGCCACTTGCCAAGCGTCGAGTCGGCCAGGCCGGACGAATCATCATTGCCGGACCAGGGGGATTTCCAGTGA	MTSELTTGQTRVVPGWTGRLFEDFSVGDIYYHPFGKTVTEADNQNFTLVTQNVAKTHVDRNFAAGTEFGRPLVNSTFTLALVTGQSTIDLSMNVFANMGWDEVRMPNPVYEGDTIYSRSKVLALRESKSRPNLGLVTVATEGFNQDAKIVISYRRTFMVYRHGHLPSVESARPDESSLPDQGDFQ				NA	NA	NA	NA	NA
D1-17_03840	129			hypothetical protein	ATGTCGGTGCGTCCGGCCGGAAGGCTTGGTGCGGCCGAGTACACAGCGAAGTTAAAGGCCAAGGCCGCCAATTTTCTTGGTCTAAATATATTTTATTTTGAGCGCTTGCTGGCTTCCGACGATGCCTAG	MSVRPAGRLGAAEYTAKLKAKAANFLGLNIFYFERLLASDDA				NA	NA	NA	NA	NA
D1-17_03841	1164		COG1960	Acyl-CoA dehydrogenase fadE12	GTGACTGTCCATACTTCTGTTGACGAGCTGAGGGTAAAGACCCGTACTCTCTGCGCCCTGTTTCCTGACACGTACTGGCGCGAAACTGATCGCAACCGCCGTTACCCCCAGGAGTTCGTCGACCGACTGACCAAAGAAGGACTCCTTGCTGCGCTGATCCCTACTGAGTACGGCGGCCTGGGGGTGGGTCTTACCGAGGCAAGCGTAATCATGGAGGAAATCAACAAGTCCGGCGGCCATTCCGCCGCGTGCCACGCCCAGATGTACACCATGGGCGCGCTGCTTCGCCATGGCAACGAAGACCAGAAGAACGCCTACCTCCCGGCAATCGCTTCCGGCGACCTTCGTCTGCAGGCATTTTCAATAACAGAAGATGCAGCCGGCTCCGACACAACCAGCATCGAAACGGCGGCCGTTAAGGACGGGGACGACTACGTCATCACCGGCCACAAGAGCTGGACCAGCCGAATCGATGAATCAGACCTCGCATTCGTGCTCGCGCGGACGTCAAAGAAGGGCGACGAGGACCGGACACACGGACTCACGCTCTTCCTGGTGGACCTGCGTCAGGTACGTGCCGAACAGCCGGAGACCTTGGAAGTAGTTAAGGTCCGCACCATGTTCAATTACGCCACCAACCAGATCTTCTACAAAGGCATGCGCGTACCGCAGTCTGCCGTCATAGGCGAAGTAGGCAAGGGGTTCCGCTACGTCATCGACGGATGGAACGCCGAGCGAATTCTGCTGGCCTCCGAAGCAATCGGCGACGGGTACTGGTTCACAACGCGGGCAGTCGAATACGCCAACAACCGAACCGTTTTCGGCCGCCAGATCGGGGCTAACCAAGGCGTGCAATTCCCCATCACGGACGCCTACATGAAGGTCCGGGCCGCGGACATGATGCGATACGAAGCTGCACGGCTGTTCGACGCCGGAGAGCCCTGCGGGGCAGAAGCGAACATGGCAAAACACTTGGCCTCAGAAGCGAGCTGGGCTGCAGCGAACGCATGCCTGGACACACATGGCGGCTATGGCTTTGTGGATGAATACGACGTCGAACGCAAATTCCGGGAAACCCGCATGTTCCAGGTCGCACCAGTAAACAACAACATGATCAAGTCCTTTGTCGCTACCAAGGTCCTAGGTCTCCCCCGGTCCTACTGA	MTVHTSVDELRVKTRTLCALFPDTYWRETDRNRRYPQEFVDRLTKEGLLAALIPTEYGGLGVGLTEASVIMEEINKSGGHSAACHAQMYTMGALLRHGNEDQKNAYLPAIASGDLRLQAFSITEDAAGSDTTSIETAAVKDGDDYVITGHKSWTSRIDESDLAFVLARTSKKGDEDRTHGLTLFLVDLRQVRAEQPETLEVVKVRTMFNYATNQIFYKGMRVPQSAVIGEVGKGFRYVIDGWNAERILLASEAIGDGYWFTTRAVEYANNRTVFGRQIGANQGVQFPITDAYMKVRAADMMRYEAARLFDAGEPCGAEANMAKHLASEASWAAANACLDTHGGYGFVDEYDVERKFRETRMFQVAPVNNNMIKSFVATKVLGLPRSY	PGPT0008385_6528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-17_03842	312			hypothetical protein	ATGGCGCGCAACGTACGCTCGCTATCTCTGGAGCGCACCGTGGTCCTGTTTTCGCCTACCTTCACCGTGGTGAACGCCGGCCAAAACGCCGTGCGTGCAATAGTCAGCGGCGCCAACAAGGTCGCGGTCCGAAAACGCGTACAAGCCTTGGCAGAAATGCTAGGCACGTACGACGTCCCGGGCCGCGGCCGTCTGGTGGCGACCAACGATTCGCTTCTTGTCGAGTTCGACCCCTCTCTGATCGAGGCTTCTGCTCTGAAGCGACTAATCCGGCTGGCCGACGCATCCGCTTCCCCGACTGATTCCATCTAG	MARNVRSLSLERTVVLFSPTFTVVNAGQNAVRAIVSGANKVAVRKRVQALAEMLGTYDVPGRGRLVATNDSLLVEFDPSLIEASALKRLIRLADASASPTDSI				NA	NA	NA	NA	NA
D1-17_03843	831			hypothetical protein	ATGACTGAACAGCCGGCATACAGTCCAGTGAACGAACTCGTACTTGCCCAGGGCAGCCTTACCGGAGTGACCTTTGAGCAACGCGTCGCGGCAGCGGCTGCAGGCGGATTCACCGCAATAGGCTTGTCCTTATACGAATACGATCGGCTCCGCGCGGCGGGCACCACTGACGAAGAAATGCTCTGCATCCTCGCCGTCTACGGCATCAGAGTCGCAGAACTGGACGGCTTGCACGGCTTTGCAGCCGCTAAAAATCAACCAGGGGTGAGAGTTGGCTCAAGCAAAGCGCAGGACGACCAAACGCTGGAGCGCCTACTGGACCTGGCTGATCTCTTCCACGCCCGGCTCCTGCAGGTATTCGGCACCTCACACACCGACAAGCTTGAAGATGATGCGGTCGAGAAATTCCAGGACATCTGCGACCAGGCAGCGCAACGCCGCCTGGAAGTCAGTCTAGAACCCAGAATCAACACAAACATCGCCTCCATCAGGACTGCAGCAATGATCGTCTCGCGCGCTCAGCGCAGGAATGCTGGGCTCTGCATCACCACCGGGCCACATTTCCGGGCGAAAAACGCAGCCGCGGACCTGCTTGCCGTTCCAGTCGATCTTGTATCGGCAATCCGGCTCTCACATGAAGTGACCGCACCGGGGGCTTTGGACTTTACCAGCAGCGCTGTAGAAGATGGTCGAGGCGCCGTCGAAGAGGATCTTGAGCTGGTTACGTTCCTGCAGACCATCGTTCAACACGGCGTAAGTGTGACTTTCAGTGAACGCCACCTCATACCGTCCGAACCAAACGGATCCCTTTGCCTTCTGTGCCCTACTTGA	MTEQPAYSPVNELVLAQGSLTGVTFEQRVAAAAAGGFTAIGLSLYEYDRLRAAGTTDEEMLCILAVYGIRVAELDGLHGFAAAKNQPGVRVGSSKAQDDQTLERLLDLADLFHARLLQVFGTSHTDKLEDDAVEKFQDICDQAAQRRLEVSLEPRINTNIASIRTAAMIVSRAQRRNAGLCITTGPHFRAKNAAADLLAVPVDLVSAIRLSHEVTAPGALDFTSSAVEDGRGAVEEDLELVTFLQTIVQHGVSVTFSERHLIPSEPNGSLCLLCPT				NA	NA	NA	NA	NA
D1-17_03844	603			hypothetical protein	ATGTCTCGCGCCTCAGTACGCGTGGCCATTCGGGTCCTGGAGGTCATTGGTGTATTGCGCCGCTCCGTGGGATCCGGCTCCACCTCCGGAGCGATCGTGAGCTCTGATCCCTCAGCCGGTCTGTCGTCCGCACTGCGGCTGCATGCCGCTAGTCGGCTGCCGGTTGAGGACATCCTGAAGACGCGCATCCTGCTCGAGGCCCGGTCCGTCCACCTGGCAGCGGCCCCGGACGGGAGGGGATCGAGATTTGGAGCAGGCCGCAAGCTGCTCCACGCCACGGACGATCCGGACATGGACAGCGCGACCTTCCACGAGCTGGATGCCCGGTTCCATATGGCGCTCAGCTCGCTCACCGAAACGCGGTGGTGGCGAGACCATGATGAGCTCCCTGAGGGGCTCCGGCCTCGGCTACCTCAAGGATGCGATGGACGTCATGGATTCATGGCCCGCGACGTGATCTCCACGCTTCGAACCCAGCACCACGGATCTCCGATGCCGTCCAAGCTGGGGACCGCCAATGCGCGCAGGCGATGTTGGGCCAGGCCGTCGGAAAGCCGGTGTGCACGCTTATCGGCGTCGGCGCCCGACGAGCCCAGATTGTGA	MSRASVRVAIRVLEVIGVLRRSVGSGSTSGAIVSSDPSAGLSSALRLHAASRLPVEDILKTRILLEARSVHLAAAPDGRGSRFGAGRKLLHATDDPDMDSATFHELDARFHMALSSLTETRWWRDHDELPEGLRPRLPQGCDGRHGFMARDVISTLRTQHHGSPMPSKLGTANARRRCWARPSESRCARLSASAPDEPRL				NA	NA	NA	NA	NA
D1-17_03845	1221			hypothetical protein	ATGGAAACCACGGAACCGCACATCCAAATCAAGGCAAGCACCGGCAGGCGCTCCGCCCTGCTCGGCGCCATGTTCCTCATGGCCACCAGCGCCATCGGCCCCGGGTTCATCACCCAGACAGCCGCCTTCACAGTCCAGCTGGGGGCAGCGTTCGCATTCGCCATCCTCGTCTCAATCCTTGTGGACATCGCAGTGCAGACCAACGTCTGGCGGGTCATCGGCATCTCCGGAATGCGTGCCCAAGAGCTCGGCAACCGCGTGCTTCCCGGGATCGGCTGGTTCCTCGCCGGACTGGTTTTCATCGGAGGCCTGGTGTTCAACGTCGGCAACATCGCCGGCACCGGCCTGGGCACCAATGCGATGATGGGCCTTGATCCCAAGATCGGCGGCGCCATCTCCGCCGTCATCGCCATCCTCATCTTCCTCAGCAAGAAGGCAGGCCTGGCGCTGGACAAGATCGTGGTGCTCCTGGGCGCGGTCATGATCCTCATGACCTTGTACGTGGCCATCGTCTCCGCACCTCCGCTCGGTGAAGCGCTGAAGAACACGGTCCTGCCGGAGGAAGTCGACTTCCTGGTGATCACCACCCTGATCGGCGGCACCATCGGCGGCTACATCACCTATGCCGGCGCCCACCGCATGCTGGATTCAGGTGCTACCGGCGTGCGCCACGTCAAGGAAATCACCCGCAGTTCCATCATCGGCATCATCATCACCGCCATCATGCGCGTCCTGCTCTTCCTCGCCATCCTGGGCGTCGTGGCGGGCGGCGTAACCCTCGCCCAAAACAACCTTGCGGCTTCCGCATTCCAAGCAGCTGCGGGGGAAATCGGCCTGCGCATCTTCGGGATCATCCTGTGGGCAGCCTCCATCACCTCCGTGATCGGCGCCGCATTCACGTCGGTGTCCTTCGTGACCACATCCACCACGCCGGAACGCAAGCGCAATCTCATCACGATCGCATTCATCGCGTTCTGCGCCGTCGCCTACCTCCTGATCGGCCAGCCGCCCCAGCAACTGCTGATTTTCGCCGGCGCGTTCAATGGACTCATCCTCCCCGTGGGGTTTGCCGTCGTGCTGTGGGTTGCCTGGCGCCGCCGCGACCTCCTGCACGGCTACGCCTACCCGAAGTCACTGCTGATCATCGGGGCCCTGGCCTGGCTGCTGACCCTGTTCCTCGGCTGGAACTCCCTCACCGGCCTGTCCAAGCTCTGGGTTTAG	METTEPHIQIKASTGRRSALLGAMFLMATSAIGPGFITQTAAFTVQLGAAFAFAILVSILVDIAVQTNVWRVIGISGMRAQELGNRVLPGIGWFLAGLVFIGGLVFNVGNIAGTGLGTNAMMGLDPKIGGAISAVIAILIFLSKKAGLALDKIVVLLGAVMILMTLYVAIVSAPPLGEALKNTVLPEEVDFLVITTLIGGTIGGYITYAGAHRMLDSGATGVRHVKEITRSSIIGIIITAIMRVLLFLAILGVVAGGVTLAQNNLAASAFQAAAGEIGLRIFGIILWAASITSVIGAAFTSVSFVTTSTTPERKRNLITIAFIAFCAVAYLLIGQPPQQLLIFAGAFNGLILPVGFAVVLWVAWRRRDLLHGYAYPKSLLIIGALAWLLTLFLGWNSLTGLSKLWV	PGPT0020786_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0020786-ycsG-NA	NA	NA
D1-17_03846	834		COG4336	Putative hydro-lyase	ATGACCGTCCCCGCAAACCGCGCAACTGCCACAGCAGCAACAGTTCTTCCCGAAAACCCTGCAGCACTTTCCCCGGCCGAGGCCCGCGCCCTCTTCCGCGCAGGACTGGTGGCGCCCACCTCCGGGTGGAGCGCCGGCTACGCGCAGGGCAACTTGATCATCGTGCCGAAGGCACAGGCTTACGACGTGCTGCTGTTCGCGCAGCGGAACCCCAAGCCGTGCCCCATCCTCGGCGTGCTCGACGCCGGTGAAACCAGCGGCGTGCTGCTCGCCGGCGGCGACGTTCGAACCGACGTGCCCAAGTACGCCGTGTACGAGAACGGTGTAAAGGTGGATGAACCCACGGACATCAGCGGCTATTGGCGCGACGACCTGGTCACCTTCATCGTCGGCTGCAGCTTCACCTTCGAGGCGGCGCTGCAGGAAGGGGGCATCCACATCGCCCACATCGATCAGGGCGTGAACGTGCCGATGTACCGCACCTCCGTCCGCTGCGAACCGGCCGGCGCCATGGCCGGGCCGCTGGTGGTCTCGATGCGGCCTGTCCCGGCGTCGCAGGTGGCGGACGCGGTCCGCATCACCTCCCGCTACCCGGCGGTTCATGGTGCGCCTGTCCATATCGGCAACCCGTCCGAGCTGGGCATTTCGGACCTGTCCCGCCCTGATTTCGGCGACCCTGTTCACGTCCCGGACGGGCACATTCCCGTGTTTTGGGCCTGCGGCGTAACGCCGCAGGCCGCCGTGATGGAGTCCCGGCCCGCCTTGGCCATCGGCCACGCGCCGGGCCATATGCTGGTTACTGATGCCCGGGACAGCTCCTACCTCGTGCCCTAG	MTVPANRATATAATVLPENPAALSPAEARALFRAGLVAPTSGWSAGYAQGNLIIVPKAQAYDVLLFAQRNPKPCPILGVLDAGETSGVLLAGGDVRTDVPKYAVYENGVKVDEPTDISGYWRDDLVTFIVGCSFTFEAALQEGGIHIAHIDQGVNVPMYRTSVRCEPAGAMAGPLVVSMRPVPASQVADAVRITSRYPAVHGAPVHIGNPSELGISDLSRPDFGDPVHVPDGHIPVFWACGVTPQAAVMESRPALAIGHAPGHMLVTDARDSSYLVP				NA	NA	NA	NA	NA
D1-17_03847	747			hypothetical protein	ATGAACGCAGCACTACAAGGGATCGCCGACGGCGGCCAGGCAACCCACGCCCACACCGGGGCGTGGGTTGCCGGCGTGCTCCGGTCCCGCATCTCGGCCGGACAGCTTCCGCCCGGAACCAAACTCTCCGAGCAGAAGCTGTCCGAGGCGCTGGGCGTCTCCCGAAACACCCTGCGTGAAGCTTTTACCGTGCTCGCGGGCGAGTCCGTGGTGCAGCGCATACCCAACCGGGGTGTCTACGTAGCCGCGCCCGGAGCAGAGGACGTGCGGGAGATTTACCGCGTCCGGCGGCTGATTGAGCCCGCAGCCGTGCTCTGGGGAGACATTCCTGACCGAGCCCTTGAGAACTTTGAAGCCATCATTGCCAAGGCCCGCGATGCCAAGGCCGCAGGTTCGGTGCAGCGCATGGCTGACGCCAACCAGGAGCTGCATAAGGCCCTGGTTGCCCTGTCCGGCAGCGGCTCCCTGCAGGAATTGATGGACAAAGTGCTGGCCGAGATGCGCCTGGTGTTCCATGCCATGGCCACCACTCCGGACTTCCACAGCCACTACGTGGAGCGCAACGCCGCCCTGGTGGAGCAGATCCGCGCCGGGCAGCGCCTCGAGGCCGCCGAAGAGCTCCGCCGCTATCTCGACACCGCCGAGCATGAGCTGCTGGTGCACATCGGGGCCGTGCCCATGGAGGATCCAAGCGACACCGTACGGGACGGTTCAAACACTGGCAACGAACCTACGCATCCCAACTAG	MNAALQGIADGGQATHAHTGAWVAGVLRSRISAGQLPPGTKLSEQKLSEALGVSRNTLREAFTVLAGESVVQRIPNRGVYVAAPGAEDVREIYRVRRLIEPAAVLWGDIPDRALENFEAIIAKARDAKAAGSVQRMADANQELHKALVALSGSGSLQELMDKVLAEMRLVFHAMATTPDFHSHYVERNAALVEQIRAGQRLEAAEELRRYLDTAEHELLVHIGAVPMEDPSDTVRDGSNTGNEPTHPN				NA	NA	NA	NA	NA
D1-17_03848	1737	carB_3		Carbamoyl-phosphate synthase large chain	ATGAAAAAAGTCCTGATTGCCAACCGCGGTGAGATCGCGGTGCGGATTGCCCGGGCCTGCTCCGATGCGGGGCTGCAGTCGGTCGCCGTCTACTCCGATCCCGACGCCGGTTCCCTGCACGTGCGGCTCGCGGACGAGGCGTACGCCCTCGGCGGGAGCTCCAGCGCCGAGACCTATCTCGACATCGCGAAGCTGTTGGGCGTGGCCCGCCGCTCAGGCGCCGACGCCGTACACCCCGGCTACGGATTTCTCTCCGAAAACGCTGACTTCGCCGAGGCGGTCGTCACCGCCGGCCTGACCTGGATCGGCCCTTCCGCCCAGTCCATTCGGGATCTCGGCAACAAGGTGACCGCCCGCGAGATCGCCGTCCGGGCAGGGGCCCCGCTGGTACCCGGCAGCGATGGCCCGGTGGCGAACGCCGAGGAAGTGCTGGCGTTCGCGCGCGACTACGGCCTCCCGGTTGCCATCAAGGCGGCATTCGGCGGTGGCGGGCGCGGACTGAAGGTGGCCCGGCGCATGGAGGACGTGGAAGACGCGTTCGAATCGGCGGTCCGGGAGTCCACCGTGGCATTCGGCCGCGGCGAGTGCTTCGTGGAGCGGTTCCTGGACCAGCCGCGGCACGTGGAAGCCCAGGTCTTGGCGGACACCCACGGGAACGTGGTGGTGATGGGAACCCGCGACTGTTCGCTCCAGCGGCGCAACCAGAAGCTCGTCGAGGAAGCTCCAGCGCCGTTCCTCACGCCGGAGCAGCGTTCCCTGATCCACGAATCCGCCAAGGCCATCTGCCGGGAGGCGGACTACCACGGGGCCGGAACCGTCGAGTTCCTCGTCGGCAAGGACGGGATCATCTCCTTCCTGGAGGTCAACACCCGCCTGCAGGTGGAGCATCCGGTGACCGAGGAAACCTCGGGCGTGGACCTGGTCCGCGAGCAGTTCCGGATCGCCGCCGGCCAGGCGCTGGAGCTGACGTCGGACCCCCAGCCCCGGGGGCACGCGATCGAGTTCCGGCTCAATGCCGAGGACCCGGCCCGCGGCTTCCTGCCAGGCCCGGGGACCGTTGCGGTCTTTGAGCCCCCCACCGGCGCCGGTATCCGCGTGGACTCCGGCGTCCGGTCCGGTTCCGTGGTTCCGGGAGAGTACGATTCCCTCCTGGCCAAGCTGATCGTCCACGGCGAGGACCGTCCGCAGGCCCTCCGCCGTGCCGCGGCAGCACTTACGGAAATGCGGATCGAGGGGCTGCCGACTGTCCTGCCGTTCCACCGTGCAGTGGTGCGCCACCCGGCATTCACGGCCGAGGAGGGCCTCGGCGTTCACACGACGTGGATTGAGAATGACTTCGCCGAGCAGCTGGCCGCCTCTCCGGAGATTGCCCGCACCCAGCCGGGTGCCGCCCGGAAGACCTTCACCGTGGAGCTGGACGGCAAGGCCGTGCAGCTCGGGCTGCCGTCCAGGCTCTACGAAGCCCTCCTCAGCGGGGGCGGCGGCACATCCGGCCACCACGCCGCCGGGGACGAGGAAGAGGACGACGCCGAACTTGCCTCGCCGATGGCGGGCTCGCTTGTGAAGTGGGTCGCCAAGACCGGGGACACCGTCGAGGCCGGCCAGCCGGTGGCTGTGCTTGAGGCGATGAAAATGGAGACAGTGGTTACCGCCCACCGTGCCGGCGTTCTGACGCGCGGACAGCAGGAGCCCGGTAACGCCGTCGGACGCGGTGAGGTCCTGGCCAGCATCGGGTAG	MKKVLIANRGEIAVRIARACSDAGLQSVAVYSDPDAGSLHVRLADEAYALGGSSSAETYLDIAKLLGVARRSGADAVHPGYGFLSENADFAEAVVTAGLTWIGPSAQSIRDLGNKVTAREIAVRAGAPLVPGSDGPVANAEEVLAFARDYGLPVAIKAAFGGGGRGLKVARRMEDVEDAFESAVRESTVAFGRGECFVERFLDQPRHVEAQVLADTHGNVVVMGTRDCSLQRRNQKLVEEAPAPFLTPEQRSLIHESAKAICREADYHGAGTVEFLVGKDGIISFLEVNTRLQVEHPVTEETSGVDLVREQFRIAAGQALELTSDPQPRGHAIEFRLNAEDPARGFLPGPGTVAVFEPPTGAGIRVDSGVRSGSVVPGEYDSLLAKLIVHGEDRPQALRRAAAALTEMRIEGLPTVLPFHRAVVRHPAFTAEEGLGVHTTWIENDFAEQLAASPEIARTQPGAARKTFTVELDGKAVQLGLPSRLYEALLSGGGGTSGHHAAGDEEEDDAELASPMAGSLVKWVAKTGDTVEAGQPVAVLEAMKMETVVTAHRAGVLTRGQQEPGNAVGRGEVLASIG	PGPT0001705_464	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-VOLATILE_RELATED_FATTY_ACID_METABOLISM,PGPT0001705-accC-K01961	NA	NA
D1-17_03849	1689			hypothetical protein	GTGAGCGTCACCGGCCTCCGCTGGGCCGGTCCCCGTGCCGTGCTCGTGGAGATGAGCGACCTCGGTTCCGTGCTGGCCCTGCACCACCGGCTGCAGGCGGAACCCCTTCCCGGGCAGCTCGACGCCGTCGCCGGTGCCGCCACCGTCCTCGTTAAATTCGCCTCCCGGTTCCACACAGCAGCCGCGCGGGATCTCATCCGGCACCTTGACCTCAACCAGAGGGTTCAGGACGCCGGCAATGAAGTCACCATCGAGGTGGTGTACGACGGCGAAGACCTCGCTGAAGTGGGCCGGCTCACCGGCCTGGGTGCCGGCGGCGTCATTGACGCGCACACGGGCCAGGTATGGACAGGTGCCTTCGGCGGCTTTGCCCCCGGATTCACGTACCTGGTGGGGGAGAACGACTCCCTGAACGTGCCGCGCCGCAGCTCACCCCGGACGGCTGTCCCTGCGGGATCCGTGGCGCTGGGCGGGGCCTTCTCCGCCGTGTACCCGCGGCAGTCGCCCGGCGGCTGGCAGCTCCTGGGCCACACCAGCGCCGTGATGTGGGACCTTGACCGGGAATCCCCGGCGCTCGTGCGGCCCGGCGACACCGTCCGCTATGTCGCTGTCCGGGAGTCCGTGGCTGTGCTGGCAGGCACAGCAGCGGAGCACGCGGGCACAGAATCCGGCGCCGCAAACGCGGCGCAAACGGCTGACGAACCCGCCGGGCCGGGCCTGATCATCGAGGCACCCGGTCTCCAGTCCCTGGTGCAGGACTTGGGCCGCCCCGGCCTCGGAGACCTCGGAGTGTCCCCTTCCGGTGCTGCCGACCAGCGTTCGGCACGCCAGGCGAACCGGCTCGTGGGCAACGAGCCGGGGGCAGCCGTCGTCGAAAATCTCCTGGGCGGGCTGTCCGTGCGTGCCCGGGGCGACCAGGTGCTCGCCGTATCCGGTGCGCCGGCGGGCCTTGAAATCCGGAACTCCTTCCGGGCGCTCCTGCGCCGTCCGGCCCTGCACGCGCCCTTTGCCCTGCTCGACGGCGAGACCCTCACCATCGATGCGCCGTCGGCCGGGCTCCGAAACTATGTGGGCCTGCGCGGCGGGCTCGATGTGCCGCCCGTACTCGGCAGCAGGTCCAGCGATTCGATGTCCGGAATCGGACCCGCCCCGCTGGCGCCGGGAACGTTCCTGCCCGTCGGCGCGGTGACAGGGGTGCGGCCGGTAGGGATTCCCGAGGAAGCCATGCCGAACCATGGCGCCTCGCCCGTCCTGCGGGTGACACTGGGACCGCGGGATGACTGGTTCGGCCGCGATGCCATCGATATCCTGGCCAGCCAGCCGTGGCTTGTCACCGAACAGTCCAACCGCATCGGCGTCCGGCTCGCACCACCGGGAGCAGGTTCCGCCGAGAAGGGCCGCGCCCTGGAACGCACCCGCGAAGGGGAGCTGCCCAGCGAGGGTACTGTCGCCGGGGCACTGCAGGTGCCGCCAAACGGACAACCGGTGCTGTTCCTCGCCGACCACCCGGTGACCGGCGGATACCCGGTGATCGCCGTCGTCGTGCCGGAGGACCTCCCGGTGGCGGCGCAGCTGCCTCCGGGGCAGCACGTGCGGTTCTCCATCGTGGACCCCCACACCTTGGCACCGATTGACCACACTTCCCCTGAATTTGCCGTGAGCACCGCGTCCGAAGGAACCCAGCCATGA	MSVTGLRWAGPRAVLVEMSDLGSVLALHHRLQAEPLPGQLDAVAGAATVLVKFASRFHTAAARDLIRHLDLNQRVQDAGNEVTIEVVYDGEDLAEVGRLTGLGAGGVIDAHTGQVWTGAFGGFAPGFTYLVGENDSLNVPRRSSPRTAVPAGSVALGGAFSAVYPRQSPGGWQLLGHTSAVMWDLDRESPALVRPGDTVRYVAVRESVAVLAGTAAEHAGTESGAANAAQTADEPAGPGLIIEAPGLQSLVQDLGRPGLGDLGVSPSGAADQRSARQANRLVGNEPGAAVVENLLGGLSVRARGDQVLAVSGAPAGLEIRNSFRALLRRPALHAPFALLDGETLTIDAPSAGLRNYVGLRGGLDVPPVLGSRSSDSMSGIGPAPLAPGTFLPVGAVTGVRPVGIPEEAMPNHGASPVLRVTLGPRDDWFGRDAIDILASQPWLVTEQSNRIGVRLAPPGAGSAEKGRALERTREGELPSEGTVAGALQVPPNGQPVLFLADHPVTGGYPVIAVVVPEDLPVAAQLPPGQHVRFSIVDPHTLAPIDHTSPEFAVSTASEGTQP	PGPT0001010_841	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
D1-17_03850	759	pxpA_2		5-oxoprolinase subunit A	ATGCCTTTCATCGATCTGAACAGCGACGTCGGCGAATCATTCGGCAACTGGACCATGGGGGACGACGCTGCTGTCTTCCGCCACGTCACCAGCGCCAATGTGGCCTGCGGCTTCCATGCAGGGGACCCGAGCACCATCGCCCGCACGTGCCGCGATGCGGTGGCCGCCGGGGTGACTATTGGAGCGCACGTGGGATACCGGGACCTCGCCGGGTTCGGGCGCCGCTTCCTCGACTGCTCCGCGACCGAACTGGCCGACGACGTCCTGTACCAGCTCGGCGCACTGCAGGCACTCGCCCGCAGGGCCGGCGCCGAGGTCAAGTACGTCAAACCCCACGGCGCCCTCTACAACACGATCGTGCACCACGAGGTCCACGCCCAGGCCGTCGTGGATGCCGTATCCGCGTTCAGCCCGGACCTGCCACTGCTGCTCCTTCCCGGATCCGTGGCCCTGAAGAAGGCCGAGGCCCGGGGACTGCGCGCGTTGTCTGAAGCGTTCGCAGATCGCGCGTACAACCCGGACGGAACGCTGGTGTCCCGCCGCGAGGAGGGGGCCGTGCTGCACGACCACAAGGCCATCACCGAGAACATGGTCCGGCTAGCCACCGAGGGAAAGATCATCGCCCGTGACGGGTCGGTGGTGAACGTCCGGCCGGACAGCATCTGTGTGCACGGCGATACGCCGGGGGCTGTGGCCATGGCCAGCGCCGTGCGTGCCGGGCTCGAGGATGCCGGAGTCACTGTGCGGAGCTTCGCGTGA	MPFIDLNSDVGESFGNWTMGDDAAVFRHVTSANVACGFHAGDPSTIARTCRDAVAAGVTIGAHVGYRDLAGFGRRFLDCSATELADDVLYQLGALQALARRAGAEVKYVKPHGALYNTIVHHEVHAQAVVDAVSAFSPDLPLLLLPGSVALKKAEARGLRALSEAFADRAYNPDGTLVSRREEGAVLHDHKAITENMVRLATEGKIIARDGSVVNVRPDSICVHGDTPGAVAMASAVRAGLEDAGVTVRSFA				NA	NA	NA	NA	NA
D1-17_03851	1017			hypothetical protein	ATGAAACTTGGCGTCTATAACGCAATCCTGCACGACCGTCCGCTGCCCGAGGCCCTCAAAGTCATCGCCAATCTGGGACTGACCGGCATCGAGATTAACACCGGCGGATTCCTTCCCCCGGTTCACGTGCCGAACATGGATGAGATCCTCACCAGCGATGCCGCTCGTGACGACTACCTGGCGATCTTCGAGGGAACCGGCGTCTCCATCGCCGGGCTGAACTGCAACGGAAACCCCCTGCACCCCAACCGCAAGATTGGCGACAAGCACGCCGAAGACGTGCGCAGGTCGATCCGCCTGGCGCACCGCCTGGGGCAGAACCGGGTAGTCACCATGTCCGGCCTTCCCGGGGGTGAGCCCGGGGCCACCCGGACGAACTGGGTGGTCAACGCCTGGAACTCGGGAGCCCTCGACGTTCTGGACTACCAGTGGGAGATCGCTGCGGAGTTCTGGAAGGAGACGGACCAGTTGGCACGTGAGCTCGACGTGAAAGTCGCCCTGGAACTCCATCCGCAGAACCTGGTGTTCAATACCGCTGACGTCTACAAGCTGATTGAGCTGACCCGCGCCACCCACATCGGCGTCGAGCTGGACGCCTCGCACCTGTTCTGGCAGCAGATGGATCCGGTCGCGGTGGTCCGCGAGCTCGGTCCGCTGGTCTTCCAGGCTGCTGCCAAGGACGTCCGAGTCAATCAGGAAACGGCAGCCCTGTATGGCGTGCTGGACAACCGCTTCCGCCGGCTTTCCCCCGACGAGACCCGCACCAACCTCGGCGGCGATGAGTGGGCGAATGAGTGGCCCAAGAATGCTGCCTGGGACTTCGTTGCGCTGGGCCGCGGCCATGACACGTCCTACTGGACCGAGTTCCTGCGTGCACTCCACGAAGTGGACCCGGAGATGCTGGTCAACATCGAACACGAAGATGTGTCGCTGGGACGGATCGAAGGCCTGGAAGTGGCGTCGAAGGTGCTGCGTGATGCCGACGCCGCGCTGCGCGCGTCACTGGTCACGAACTAG	MKLGVYNAILHDRPLPEALKVIANLGLTGIEINTGGFLPPVHVPNMDEILTSDAARDDYLAIFEGTGVSIAGLNCNGNPLHPNRKIGDKHAEDVRRSIRLAHRLGQNRVVTMSGLPGGEPGATRTNWVVNAWNSGALDVLDYQWEIAAEFWKETDQLARELDVKVALELHPQNLVFNTADVYKLIELTRATHIGVELDASHLFWQQMDPVAVVRELGPLVFQAAAKDVRVNQETAALYGVLDNRFRRLSPDETRTNLGGDEWANEWPKNAAWDFVALGRGHDTSYWTEFLRALHEVDPEMLVNIEHEDVSLGRIEGLEVASKVLRDADAALRASLVTN				NA	NA	NA	NA	NA
D1-17_03852	1197	iolG_9		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAGCAAGTCACTTGGCGTCGCAGTTATTGGTGCCGGCATGGCGGGCAAGGCGCACGCAGCGGCCTACCGGACAGCTTCCACCCTGTACTCCCCGGATCTGCCGGAAATCCGGCTCGTGTCCATCGGAGACGTCAATCCCGAGTTTGGCTCCGCCGCAGCCAGGCGCTTCGGATACGAGCGGTGGGACAGCTCTTGGCAGGCAATAGCCGAAGCGGACGACATTGACGTGGTCAGCGTGGTCATTGCCAACAAGCTACACCGCGAGGTTGTTGAAGGCCTCCTGGACGCAGGAAAGCACGTCCTCTGCGAGAAGCCGATGAGCGACACCATGGAGGACGCCCGCGCCATGGCGGAAGCCGCCCGCAACGCATCTTCCCTGGCCCGGATCGGCTTCACCTTCCGCCGCACACCCGGCATCGCCTATATCCGCGACCTCATCCGTTCCGGCACCCTTGGCAAGGTATTTCACTTCAGCGGCCGGTACTGGACTGACTACGGCTGCAGCCCCCAGGCTCCCATGAGCTGGCGCTACAAGGGCGGCGCTGGCAGCGGTGCGCTTGCCGACGTCGGCAGCCACCTCGCCTACGTTGCCGAATTTCTGTGCGGCGACATCCAGTCCGTCAGCGGCGGCCAGCTGAGCACCGTCATTCCGCAGCGTCCGCTGCCCCTCGGCGCGGTCATGGGTCACGACCACTCGGCGGTGAGCGATGTTTTCGAACCTGTAGAGAACGACGACGTTGCCGCCTTCTCCGCGGCGTTCACCTCCGGAGTGGGCAGTCTCGCCGTCTCCCGCGTCGCCGCCGGGCACGCCAACACCCTGACCTTCGAGGTGTTTTGTGAAAACGGCGCCGCGCTGTTCGACCAGCGCCGCCCGGCGGAAATCGGGCTCTTCCTGAATGAAGGCGCCCTGGCCCAGAACGGCTACCGCCAGGTGGTCCTCGGGCCCGAGCATCCTTACATTGCCGGCGGCCTGGCCATGGACGCCCCCAGCGTGGGCTTCGGCCAGAACGAGGCATTCGCCTACCAGGCCCGCGCCTTCCTCGAAGAGGTGGCAGGGCTGCCCGCCGAATCCTCGCTCCCGCGTTGCGCCAGCTTCGACGAAGGCGTCCGCAACATGGAGATCCTTGCCGCCGTCACAGAATCCGCCCAGCAGGGCGGCCGCAGCGTGACGATCCCGGAACTGGCGTTCGCGTAA	MSKSLGVAVIGAGMAGKAHAAAYRTASTLYSPDLPEIRLVSIGDVNPEFGSAAARRFGYERWDSSWQAIAEADDIDVVSVVIANKLHREVVEGLLDAGKHVLCEKPMSDTMEDARAMAEAARNASSLARIGFTFRRTPGIAYIRDLIRSGTLGKVFHFSGRYWTDYGCSPQAPMSWRYKGGAGSGALADVGSHLAYVAEFLCGDIQSVSGGQLSTVIPQRPLPLGAVMGHDHSAVSDVFEPVENDDVAAFSAAFTSGVGSLAVSRVAAGHANTLTFEVFCENGAALFDQRRPAEIGLFLNEGALAQNGYRQVVLGPEHPYIAGGLAMDAPSVGFGQNEAFAYQARAFLEEVAGLPAESSLPRCASFDEGVRNMEILAAVTESAQQGGRSVTIPELAFA				NA	NA	NA	NA	NA
D1-17_03853	1020	rbsR_4	COG1609	Ribose operon repressor	GTGAAAGTTTCAGCCGCCCCCGGCTCCACCCGGCCGACGATCTACGACGTCGCCAAGCGCGCCGGCGTTTCCAAGTCGCTGGTGTCCTTGGTACTTCGGGGATCCCCGAATGTCAGCGGTGCACGGCGCAAGGCGGTGCAAGCAGCCATCGACGAACTCGGCTACAGGCCGAGCAGGGCGGCCAGTGCTTTGGCGGCCCACAGGACCCGGAGCATCGGGCTGCTGATTGATGATTTCCACAACCCCTGGTTTGTCGAGGCCCTCCGGGGCGTGCGGTCCGTCCTGGATTCATCGGGATGGAACGTCACGGTGGCAGACCTGCAGCTTGAAGCACTGTCCGGACGCAATCCCCTGGATGGTTTCCTGGCGATGCACGTGGACGGACTGATCATCGCGGCCGAGCCCCACGCTGCGCCTCCCTTGCGGAAGCTGGATGTTCCCTTCGTCATCGCCGGCGTCCGCGAGCTGGATGCAGGCACCGCGGACGTCGTTGCCAGCGACGAAGTGCAGGGCGCACGGCTGGCGGTGGAGCACCTGATCCAGCTCGGACATACCCGCATTGCCCATGTCACCGGGCAAGGGGGCTCCGCCAAGGCCCGGCGGGACGGCTACCTCGGTGGCATCGACGCTGCCGGCCTGCAGACGTTCATGGCAGGCGAGTCCGGTGAAACCACGGAAGAGGCCGGTTATGTCGCAGCCAGCGCGTTGCTGGACCGCCATCCGGGCGTGACAGCTGTTTTTGCTGCCAATGACACCATGGCACTGGGCACCTTAGCGGCCCTCAAAGAGCGGGGACTGAAGACACCCGAGGACGTTTCCGTCGTCGGCTATGACAACACGGCGCTGGCCTCGTCGCGCTTCCTCGACCTGACCTCGATCGACAGCCACAACGCCTCCCTCGGCGCCGAGGCGGCCCACGCGCTGCTGGCGCGCATCGCCGAGCCGGAGGGCCCGCGCCGGCAGCTTCTCCTTGCCCCGTCCCTCATTGCCAGGGGCTCATCCGCGCCGTCCCCGGACTGA	MKVSAAPGSTRPTIYDVAKRAGVSKSLVSLVLRGSPNVSGARRKAVQAAIDELGYRPSRAASALAAHRTRSIGLLIDDFHNPWFVEALRGVRSVLDSSGWNVTVADLQLEALSGRNPLDGFLAMHVDGLIIAAEPHAAPPLRKLDVPFVIAGVRELDAGTADVVASDEVQGARLAVEHLIQLGHTRIAHVTGQGGSAKARRDGYLGGIDAAGLQTFMAGESGETTEEAGYVAASALLDRHPGVTAVFAANDTMALGTLAALKERGLKTPEDVSVVGYDNTALASSRFLDLTSIDSHNASLGAEAAHALLARIAEPEGPRRQLLLAPSLIARGSSAPSPD	PGPT0014791_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
D1-17_03854	993			hypothetical protein	GTGAACAAGTTTGCCTGGCGCCGCGCGGCTGTTGCCGCCATCGCCGTTCCCATGCTGGCCCTGACTGCCTGCTCCAGCCAGGGCGGCCGTACAGACACCGGCGGTAATGCGGCTGCCGGCCAGGTACCAACAACCGACCGCATGAAAATTGCCCTGATCACCCACGCCCCCGCCGGGGACACCTTTTGGGACATCGTCCGCAAGGGCGCTGAGGAAGCTGCCGCCAAGGACAACGTTGAGCTCCAGTACCTGAATGATCCGGAAGCAGGCCGGCAGTCGCAGCTGATTGAGCAGGCCATCAATCTGAAGGTGGACGGCATCGCCGTCACCCTCGCCACCCCCGATGCCTTAGAGGATGCGATAAAGAAGGCGACTGACGCCGGCATTCAGGTCGTCAGCCTCAACGCCGGCGAAAGCGTCTCAAAGCAGCTGGGTGCGTTTACCCACTTTGGCTCGGACGACAAGCTTGCCGGGGAGGCAGTAGGCCAAAAGCTTGCGGACCAGGGGTTCAAGCGACCCATTTGCGTCATTCAGGTCCAGGGTCACGTCGGCCTCGAAAACCGCTGCGCGGGCGTCAAAGCCAAGGTGCCCGGGACCGAAACTCTTTACGTAGCGGGCACGGACATGACTGCGGTCGCTTCCACGGCCACGGCCAAGCTGCAGGCATCAAAGGACGCCGACGCCATTATCGGACTCGGTGCCCCGATCACCCTGACCCTGATGAAATCCGTTTCGGAGTCCGGCAGCAAGGCGAAGGTCGCCAGCTTCGACCTCAACAAGGAGCTCGCACAGAAAATTGCGGACGGCTCCCTGCTGTTCACTGTGGACCAGCAGCCGTGGCTGCAGGGATACGGCGCGATCGACGCGCTGTGGCAGTTCAAGCGCGGCGGCTTCCTGATAGGCGGCGGCCAGCCCGTGCTGACCGGTCCCACCATCGTTGACAAGGAGAACGTGGCTGCCGTCCAGAAATTTGCGGACGAGGGCATACGCTAG	MNKFAWRRAAVAAIAVPMLALTACSSQGGRTDTGGNAAAGQVPTTDRMKIALITHAPAGDTFWDIVRKGAEEAAAKDNVELQYLNDPEAGRQSQLIEQAINLKVDGIAVTLATPDALEDAIKKATDAGIQVVSLNAGESVSKQLGAFTHFGSDDKLAGEAVGQKLADQGFKRPICVIQVQGHVGLENRCAGVKAKVPGTETLYVAGTDMTAVASTATAKLQASKDADAIIGLGAPITLTLMKSVSESGSKAKVASFDLNKELAQKIADGSLLFTVDQQPWLQGYGAIDALWQFKRGGFLIGGGQPVLTGPTIVDKENVAAVQKFADEGIR	PGPT0017165_1142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017165-ABC_SS_S-K02058	NA	NA
D1-17_03855	660	lutR_5	COG2186	HTH-type transcriptional regulator LutR	ATGAACTGGGTGACCGGAGAGCTCTCGAGTGGCCGCCTGCGCATAGGTGACCACCTTCCGAGCGAACGGGCACTCGCCGAGACGCTGGGAGTGTCCCGTAGCTCGCTGCGTGAGGCCTTGAAGGTTCTTGAGGCACTTGGAACAATTCAGGCCGCCACTGGTTCCGGGCCACGTTCAGGTACGGTTGTCACCGCCGCGCCCGAGCAGGCGTTGGCGCTGGCGCTCAACCTGCAGTTGGCCACGAGCCATGTCGAGCACTCGCACGTGTACGAGGTGCGCCTGCTGCTCGAAACATGGGCCGCCAAAAACTCGGATCCCGGCCGGGGAGACTGGGATAGCGCCGGGCGGCTTCTGAAACTCATGGACGACCCCGGAACTCCCGTCGCAGATTTCCTTCATCTCGACGCCGAGTTCCACGTGACTGTTTCGCGGGCCGCCGGAAATCCCCTGATCAGCACTCTCATGGAGGCCCTGCGCACTTCCATCGCAGACCACACCCTTACTCGTGCCCAGGCACTTCCCGACTGGGAGGCGACTGCGGCACGCCTGCGTTCTGAGCATTATGCAATTTTCGATGCCCTGCGCCGCGGCGATCGCGATGAAGCAGCAGAACTTGTGCACCAACACATTCACGGGTACTACACAGAGACAGCGGGTTAG	MNWVTGELSSGRLRIGDHLPSERALAETLGVSRSSLREALKVLEALGTIQAATGSGPRSGTVVTAAPEQALALALNLQLATSHVEHSHVYEVRLLLETWAAKNSDPGRGDWDSAGRLLKLMDDPGTPVADFLHLDAEFHVTVSRAAGNPLISTLMEALRTSIADHTLTRAQALPDWEATAARLRSEHYAIFDALRRGDRDEAAELVHQHIHGYYTETAG				NA	NA	NA	NA	NA
D1-17_03856	1128		COG4948	L-talarate/galactarate dehydratase	ATGAGCACCGTCGACCTGATCCGGCACGTCAAACTTTCTACCGCGCGACTCCCCCTGTCCGTCCCGATCAGCGACGCCAAAGTGTTCACAGGCCGCCAGAAGCCCATGACCGAGGTGGTCTTCCTCTTTGCCGAGATCACTACCGAGCAGGGCCACACGGGCCTCGGCTTCAGCTACTCCAAACGTGCAGGCGGCCCAGCCCAATACGCCCACGCCAAGGAAGTGGCCGAAGGCATCATCGGCGAGGACCCCAACGACATCGGCAGGATCTACACCAAGCTGCTGTGGGCCGGCGCGTCCGTGGGCCGCTCCGGCGTCGCCACCCAGGCCCTCGCTGCCATCGACATCGCGCTCTACGACCTTAAGGCGAAACGCGCCGGACTCCCTCTCGCCAAGCTCCTGGGCTCCTACCGCGACTCCGTCCAGACCTACAACACCTCCGGCGGATTCCTCAACGCCACCCTGGATGAGGTCAAGGCACGCGCTACCCAGTCCATCGCTGAGGGCATCGGCGGCATCAAGATCAAGGTGGGTCTTCCGGACAGCAAGGAGGACCTGCGCCGCGTGGCCGGCATCCGGGAGCACATCGGCTTGGACGTACCGCTCATGGTGGACGCCAACCAGCAGTGGGACCGGGCCACCGCCCTGCGCATGGGGCGCCAGCTGGAGGAGTTCAACCTCATCTGGATCGAGGAACCCCTCGACGCCTACGACTTCGAGGGCCATGCCCACCTCGCCCAACTTCTGGATACCCCCATCGCCACCGGCGAAATGCTCGCGTCGGTTGCCGAACATAAGGGACTCATCAGCGCCAACGGCTGCGATATCATCCAGCCGGACGCCCCGCGCGTCGGCGGCATCACCCAGTTCCTGCGCCTGGCCGCACTGGCGGACGAACGGGGCCTGGGCCTTGCCCCGCACTTCGCCATGGAGATCCACCTGCACCTGGCCGCGGCGTACCCGCGCGAGCCGTGGGTGGAACACTTCGACTGGTTGGACCCGCTGTTCAACGAGCGCCTCGAAACCAAGAACGGCCGCATGATCGTTCCGGATCGTCCCGGCCTGGGCGTGACGCTCAGCGACCAGGCCCGCGCCTGGACCACCGAAACCGTGGAATTCGGCGCGTAA	MSTVDLIRHVKLSTARLPLSVPISDAKVFTGRQKPMTEVVFLFAEITTEQGHTGLGFSYSKRAGGPAQYAHAKEVAEGIIGEDPNDIGRIYTKLLWAGASVGRSGVATQALAAIDIALYDLKAKRAGLPLAKLLGSYRDSVQTYNTSGGFLNATLDEVKARATQSIAEGIGGIKIKVGLPDSKEDLRRVAGIREHIGLDVPLMVDANQQWDRATALRMGRQLEEFNLIWIEEPLDAYDFEGHAHLAQLLDTPIATGEMLASVAEHKGLISANGCDIIQPDAPRVGGITQFLRLAALADERGLGLAPHFAMEIHLHLAAAYPREPWVEHFDWLDPLFNERLETKNGRMIVPDRPGLGVTLSDQARAWTTETVEFGA	PGPT0018185_167	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_TALARATE_DEGRADATION,PGPT0018185-talrD_galrD-K20023	NA	NA
D1-17_03857	690	lutR_6	COG2186	HTH-type transcriptional regulator LutR	ATGAGCCGGAACCTGACTGCGGACCTCGCCGCCGACCTTCGCAACCGCATCGTCGACGGCGACATCCAGCCCGGGGAGAAGCTTCCGAGCGAAAACACCCTGATCAGTGAGTTCGGCGTGAGCCGCACCGTGGTGCGTGCCGCGCTGACGCGCCTCCAGGCCGAAGGGCTCGTGGAAACCGAAAGGGGGCGTGGCAGCTTTGCGCTGACCCCGCCCCAAGAAGGTACGACGGCGGGTGCGCGGCCGGTGGTCAGCACCGAGGACCGCCTGCACCTGCTGGAGTTCCGGATGGGCGTGGAAGCCGAAGCTGCAGCCCTGGCTGCACGGAATCATACCGGGCGGCAGCTCAGGGCACTGCAGAAAGCGCTGGCGGACTTCACCGCCAGCGTGGAACATCCTGCCCATGCCATGAAATCCGACTACGCCTTCCACCGGGCCGTAGCCTCCGCCTCTGGAAACCCCTTCTACTCCGATTGCCTGGCTTCCCTGGGCCAGACGATGATCGCCATGCCGCGTACGCGGCTGATGACCGGCGTCGAACATTACGCCCGGGACCACTTCGATCAGGTGGTTCATGAGCACGGGTCGATCTATGCCGCCATCGCCGAAGGCGACGGCGCCACAGCTGCCGCTGCGATGCGAACCCACCTTGCCAACTCCCGACGCCGGCTCCGCGCTGGCCGCGAATAA	MSRNLTADLAADLRNRIVDGDIQPGEKLPSENTLISEFGVSRTVVRAALTRLQAEGLVETERGRGSFALTPPQEGTTAGARPVVSTEDRLHLLEFRMGVEAEAAALAARNHTGRQLRALQKALADFTASVEHPAHAMKSDYAFHRAVASASGNPFYSDCLASLGQTMIAMPRTRLMTGVEHYARDHFDQVVHEHGSIYAAIAEGDGATAAAAMRTHLANSRRRLRAGRE				NA	NA	NA	NA	NA
D1-17_03858	1374	abaQ		Quinolone resistance transporter	ATGCAGCCTGTAGACAGCGGTGTCACGGATCTGGCTTCGGCCACGAAGAAGTTTTTCCGGCGGGTGCTGCCCATCATGCTGGTCATGCTGGTCTGCAACCAGCTAAACCGGTCCAACATCGGGTACGCCCAGGACCACCTGCAGGCTGACGTGGGGATCGGCGCCGCGGCCTACGGCTTCGGAGCCGGGCTGTTCTTCATCGCCTACGCCATCTTCGAACTTCCCAGCAACGTGATGATGGAGAAGTACGGCGCCAAGGTCTGGCTGACCAGGATCATGGTCAGCTGGGGCATCGTGTCGTTCCTGATGTCGTTTGTTCAGAACGAGGTGATGTTCTACGTTCTGCGTTTCCTGCTCGGCGCTGCTGAAGCCGGTTTCTTCCCCGCCGTCATCTTCTACTTCGCCCGCTGGGTCCCGGGAGGCCAGCGCGGCAAGGCCACGGCCATCTTCATTGCAGGCTCATCGGTGGCGGCGGCGCTGTCCGGCCCCATCGCCGGCCTGCTCCTGAGCCTTCATGACGTCCTGGGGCTGCGTGGCTGGCAGTGGCTGTTCGGTTTTGAAGGACTGCTCTCCGTCGCCGTCGGCATCACGGTGTTCTTCTTTCTCGACGCAAAAATCCACGACGCCACGTGGCTCACGGCTGCCGAGAAGACTGCCCTGACACAGGCGATAGACCAGGAGGATGCCGGGCACGCCAAGGCCCACGGCGGCACCATCAACCGCTGGAAGATGCTCCTTAACCCCCAGATCCTCCTGCTTTGCGGCATCTACTTCTCCGTACAGCTCTCGATCTATGCGAACACCTTCTGGCTGCCCACCATCGTCAGGCAAATCCCGGGCACCACCGATCTGAGCGTCGGCTTCCTCTCCTCCATCCCGTGGGTGTGTGCCGTCTTCGCCATGTACTTCGCCGCCAAGTGGCAGGACAAGGCAAGGTCCAAGCGCCCGCTGCTGGTGGCCGCGCTCCTCGTGGCCGCTGTCGGAACCTTCGCGGCAGCGGTCGCCTCCCCCGTCCTCGCCCTCGTCTTCCTGGCCATCGCAGCGATGGGTTTCAAGAGCGCCTCACCGCTGTTCTGGACGATCCCCCAGTCCGCGCTCCACCCGCTGGTCCTGGCCCCGGCCATCGCCATCATCAACTCTCTAGGCAACCTCGGCGGCTTCGTGGCCCCGTTTGGATTCGGGATCATCAAGGAACAGACCGGCAGCGTGGTTCCTGGACTCTTCGCACTCGCCGCGGCATCCACTCTGGCGGCCGGTCTCGTGTACTTCCTGAGGGAGCACAAGGGTCCCGGGTCACCCGAAGCCGCAGATGCCACGCACGGGGCGATGGACTCCGCCGACGAACGCAGCGGTTTGCCTGCGGCAGCGAAATAG	MQPVDSGVTDLASATKKFFRRVLPIMLVMLVCNQLNRSNIGYAQDHLQADVGIGAAAYGFGAGLFFIAYAIFELPSNVMMEKYGAKVWLTRIMVSWGIVSFLMSFVQNEVMFYVLRFLLGAAEAGFFPAVIFYFARWVPGGQRGKATAIFIAGSSVAAALSGPIAGLLLSLHDVLGLRGWQWLFGFEGLLSVAVGITVFFFLDAKIHDATWLTAAEKTALTQAIDQEDAGHAKAHGGTINRWKMLLNPQILLLCGIYFSVQLSIYANTFWLPTIVRQIPGTTDLSVGFLSSIPWVCAVFAMYFAAKWQDKARSKRPLLVAALLVAAVGTFAAAVASPVLALVFLAIAAMGFKSASPLFWTIPQSALHPLVLAPAIAIINSLGNLGGFVAPFGFGIIKEQTGSVVPGLFALAAASTLAAGLVYFLREHKGPGSPEAADATHGAMDSADERSGLPAAAK				NA	NA	NA	NA	NA
D1-17_03860	741			hypothetical protein	ATGGGTTTGCTGGACAAAGTCGAGCGCGGCATCGAAAAGGCCGTCCGCGGCGTCTTCTCCACCGGTTCCAAGGCGCAGGTCGAGCCGGTGGAAATCGCCAGCCGGCTCCGCCGCGAAGTCGACCACAAGGCCATCACCATCGCCGCCGGCCGCACCCTGACGCCCAACGTTTTTGATGTGCTGCTCAGCGACGAGGACTTCCAGCGGGCCCAGGAATGGGGAACACCGCTTGCCGAAGAGCTCTGCGATGTAGTGATCAACCACGTCCGCAGCCAGGGCTACACGCTGCAGGGCCCGGTCCGCATCTCCTTCCGGCGCGACGACGCCGGCCGTCCCGGCGACTTCGAAATCGCCTCCAAGACCGAGAAGGCGGACGGTCCTGCTACGCCAGCGCCCCGCTCCAACCTTCCAGCGGCTCCGAGCCGCCAGCCCACCCGCCTGCAGCCGGTTCTCGACATCGACGGCCAGCGGTATTCACTCAACGCGCCCTCAATCGTCCTGGGCCGTTCATCAGAAGCGGACATTTTGGTGGATGACACCGGCGTTTCCCGCCGTCACCTGGAAATCAGGACCGGGGGCGGCACCACGACCGCGGTGGATCTCGGTTCCACCAACGGCAGTTACGTCAACGGACACAAGGTAGCCGGCAGCATGGAGCTCACCGACGGCTCCACCATCACGATGGGACGGACCAAAATCATTTTCCGCCTCCTGCCCGCCAACAACGGCGGCCGCCCATGA	MGLLDKVERGIEKAVRGVFSTGSKAQVEPVEIASRLRREVDHKAITIAAGRTLTPNVFDVLLSDEDFQRAQEWGTPLAEELCDVVINHVRSQGYTLQGPVRISFRRDDAGRPGDFEIASKTEKADGPATPAPRSNLPAAPSRQPTRLQPVLDIDGQRYSLNAPSIVLGRSSEADILVDDTGVSRRHLEIRTGGGTTTAVDLGSTNGSYVNGHKVAGSMELTDGSTITMGRTKIIFRLLPANNGGRP				NA	NA	NA	NA	NA
D1-17_03861	483	fhaB	COG1716	FHA domain-containing protein FhaB	ATGAGCGAACTGACCATCACCGCGCTCCGCTTCGGTTTCCTCCTGCTGCTGTGGGTCCTGATCTTCAGCATTGTTTCGGCCATGCGCCGGGACCTCATGATCGGCCGGAAGGCCGCCACCGGCGCACCCACGGCACGGCAGGTGCGTAAGAACCCCGAACTCGCCGAACCGGCGCCAGCCCCCGTCAAACAGCAGGCCCGGCAGTTGGTCGTCACGGAAGGCCCGCTCAAGGGGCGGACCGTTCCGCTGGCCGCCAGTCCCATCCTGCTCGGCAGGGCCCAGGAAGCCACCCTTGTGCTGGAGGACGACTATGCCTCCGGCCGGCATGCACGGCTGTTCCCGCAGGGAAGCCGCTGGTTCATTGAGGATCTCGGCTCCACCAACGGCACCTACCTGGCCGACCAGCAGCTCACCCGGGCCCATCCTGTGGACCTCGGCGTACCCGTGAGAATCGGCAAGACGGTCATCGAATTGAGGCCATAG	MSELTITALRFGFLLLLWVLIFSIVSAMRRDLMIGRKAATGAPTARQVRKNPELAEPAPAPVKQQARQLVVTEGPLKGRTVPLAASPILLGRAQEATLVLEDDYASGRHARLFPQGSRWFIEDLGSTNGTYLADQQLTRAHPVDLGVPVRIGKTVIELRP				NA	NA	NA	NA	NA
D1-17_03862	1797			hypothetical protein	ATGGCCGCTCCGGACACTCCCGCAGAGAAGGCGACCGACTCCCTGCGTCCCCTGATAATGCGCTATGCGGCGCGCTCCGATGTCGGGCGTGTCAGGGCCAAGAATGACGACTCTGCCTACGTCGGGCGCCATCTCGCCGTCGTTGCCGACGGCATGGGCGGCCACGCAGGCGGGGACGTGGCCTCCGCCGCCACAGTCCTGGACATGATCCACCTGGACACCGACGACTACGACGGCGACGCCGGAACCGTTCTCGCCGACGAAATCCAGACCGCTAACTCGCTGCTGTCCGAACTGGTGCACATCAACCCCAAGCTCGCCGGCATGGGCACCACGGTGACCGCCCTGCTGCTCGCCGAGGGCAAGCTGCACTTTGCACACATCGGCGATTCCCGGGCGTACCGGCTGCGCAACGGCGAATTCGAGCAGATCAGCGTAGACCACACCTTCGTCCAGCGCCTGATCGACGAGGGCCGGCTCCGGCCGGAGGAAGCCGAAACCCACCCTCACAAGAACGTCCTCATGCGGGTCCTGGGGGACGTCGACGCCAGCCCGGAGCTGGACCTGGCCACCCTGGACGTCGAACCCGGCGAACGCTGGCTGCTGTGTTCCGACGGTCTGAACTACGTGGCCGGGCACGTGGTGGAGCGGACCGTCCGGGAAACCCAGGACATACGCGAATGCGTTGAAACTCTTGTCGACCTGACGCTCGAAGCCGGCGCTCCGGATAACGTCACCGTCATCATGCTGGAAATCGCGGAAGAGACGGTCGACGACGTCCAGACGGCCGCCGTGGAAGTAGTTCCGTCACCGGAATCCTCCGAACCGGAACCTCCGAAGGAAAAGCCCGGCACGGCCGCAGGCACGTCACACGCGCTGCCCGAAGGGCAGGACCGGGCGGCAGGACTGACAGCGGCCGCAGCTGCAGCATCAGCCACGGGCCGAGGACCTGACGGGAGCCAGCCTGACGGCCAGAAGGGGCAGGATGTGGTCTCCCCCGCCGGCGCCGACGCAGATCAGGGCCAAGGCAAGGAACCAACGGCGACCACCGATCCCCATCTGGGCGAGCATCTGTCCGCCGAAGTATTGCGCGAGGAACTGGCTTCGCGCCCCCACCTCCTGGTTGGGGCGGCCGTCGCCGCAGCTGAAACGGGCTCCATTCCCACCATCGCTGGCCGCACTGTCGCACGCCGCGCCGCAACACTACTCACTCACAAAGCCGAGCCGGTGCGTGACGAGGCGGAGTACCTCGGCCAGGAACGGCGGCCGCGGCACTGGATCACCATCGGCGTCGCTGCCGCAGCCCTCGTGGTCCTTGCAGTGGGCCTGTGGCTGGGTTACGCGTGGACGCAGACCCGTTACTACATCGGAGAGTTCGACCAGCGGGTGGCGATCTTCAACGGCGTCTCGCAGCGCCTCGGCCCCATTCAGCTCTCCACGCTGGAGGCCGTCACCGACATCCGGATGGAATCCCTGCCGCAGTTCTCACAGCAGCGCGTCCGCCAGACGGTGCCCGCTCGGGACCTCTACGACGCCCAGCGCATCGTGAAAAATCTGGAACGCACAGGCAGCACCGCGCCGCAGGATGAGTGCATCACCGCCTCGCCCACTCCTACGGCGACAGCGTCACCATCACCGCGGTCCACCAAGGCGACGGCTACCCCGAAACCAACGGGATCCGTGGCCGCAAAGGCTCCGGCCGCGAAAGCGAGCCCCACGCCGACGCCGTCGCGGACGGCGACCGTAGGGGCAGCCGCCTCACCATCCCCGACCGCAACCTGTGAGGGGGGCCAATGA	MAAPDTPAEKATDSLRPLIMRYAARSDVGRVRAKNDDSAYVGRHLAVVADGMGGHAGGDVASAATVLDMIHLDTDDYDGDAGTVLADEIQTANSLLSELVHINPKLAGMGTTVTALLLAEGKLHFAHIGDSRAYRLRNGEFEQISVDHTFVQRLIDEGRLRPEEAETHPHKNVLMRVLGDVDASPELDLATLDVEPGERWLLCSDGLNYVAGHVVERTVRETQDIRECVETLVDLTLEAGAPDNVTVIMLEIAEETVDDVQTAAVEVVPSPESSEPEPPKEKPGTAAGTSHALPEGQDRAAGLTAAAAAASATGRGPDGSQPDGQKGQDVVSPAGADADQGQGKEPTATTDPHLGEHLSAEVLREELASRPHLLVGAAVAAAETGSIPTIAGRTVARRAATLLTHKAEPVRDEAEYLGQERRPRHWITIGVAAAALVVLAVGLWLGYAWTQTRYYIGEFDQRVAIFNGVSQRLGPIQLSTLEAVTDIRMESLPQFSQQRVRQTVPARDLYDAQRIVKNLERTGSTAPQDECITASPTPTATASPSPRSTKATATPKPTGSVAAKAPAAKASPTPTPSRTATVGAAASPSPTATCEGGQ				NA	NA	NA	NA	NA
D1-17_03863	1461	rodA	COG0772	putative FtsW-like protein	ATGACCCACGTTGACACAATGCCCAAGCCTCGGCGCAACGTCGAGCTCGCCCTGCTGATGCTGGCCCTGACGGTCGGTATCGGCGCCAACGCGCTGATCAGCATCGACGATCAAAACTCTTTCGACACCGACTTCTGGTTCCAGTCCAGCCTCCTCGCGGTTGCGGCCCTGGTCTTCCACGTAGTTCTCCGCCTCCGAGCGAAATATGCCGATCCGGTGATACTTCCGATCGTGGTCGCCCTCAACGGTCTCGGGCTCGCGATGATCCACCGCCTGGACGCTCCGGGAGACGATACAGGGAACAACCAGCTGCGTTGGACACTGATCGCCATGGCCGTTGCCATCGCCGTCATCTGGCTCCTCAAGGACCACCGCATCCTGCGCCGCTTCACCTTTATTTCACTGGCGGCCAGTGCGCTCCTGCTCATCCTGCCCCTTGTGCCGGGCATCACCGCCGGTGAAATCCTCGGCGCACGCGTCTGGATCAGGCTTGGCCCCATGACGTTCCAGCCCGGTGAGGTCGCGAAGATCACGCTGGCTATATTCTTTGCCGGATACCTATCGTCCAACCGCGACCTGATCATGCTCGCCGGCAGGAAGATCGGCCCCATGCAGTTCCCGCGCTTCAAGGACATGGGTCCGATGATCACTGCATGGCTCGTCAGCATTGGGGTCCTCATCTTCCAGCGTGACCTTGGCTCGTCCATCCTGTTCTTCGGCCTGTTCATCGTCATGATCTACGTGGCCACCAGCCGAATCAGCTGGGTCGTTATCGGTGTGTCCCTGATTCTGGGCGGTGGCTTCATCGCTTCCCAGGTCTTCTCCCACGTTGCCCTCCGCATCGACTCCTGGCTTAACGCCTTCACTGAAGAGGTCTTCGGCCGCTCGCCCGGCGGCAGTGGCCAGATCGTCGAGGGCCTCTTCGGGATGGCCAGCGGCGGGCTCGTAGGGACGGGACTGGGACAGGGACGGCCCAATCTCGTGCCGTTCGCGAACAGTGACATGATCATCGCTTCCTTCGGCGAGGAACTTGGCCTCATCGGGCTGTTCGCGATCGTGATGATGTACCTGCTGCTCTTCACCCGCGGTTTCCGGGCCGCCCTCGGCACGAGGGATGCCTTCGGCAAGCTGCTGGCCTGCGGGCTGTCCTTCGCCGTGGCACTGCAGTGCTTCGTGGTCATTGGCGGCGTCACCCGTCTGATTCCGCTGACAGGCTTGACCACGCCCTTCCTTGCAGCCGGAGGGTCCTCCCTGCTGGCGAACTGGATCATCGTGGGCCTGCTCCTGATGATTTCGCACACCGCACGCGGACCGGTTGACACCACGCCGATGAAGCCGGGCAGGACTCCTGAGGCAGAGAAAACCGCTGCACGCACTCCGGCCGTCGCCGGCGGCCCGAGCGGTAAGAATTCGACCCAGACCCTTCCGGACGCTCCCACCGAGGCGGTGAAACAACTGTGA	MTHVDTMPKPRRNVELALLMLALTVGIGANALISIDDQNSFDTDFWFQSSLLAVAALVFHVVLRLRAKYADPVILPIVVALNGLGLAMIHRLDAPGDDTGNNQLRWTLIAMAVAIAVIWLLKDHRILRRFTFISLAASALLLILPLVPGITAGEILGARVWIRLGPMTFQPGEVAKITLAIFFAGYLSSNRDLIMLAGRKIGPMQFPRFKDMGPMITAWLVSIGVLIFQRDLGSSILFFGLFIVMIYVATSRISWVVIGVSLILGGGFIASQVFSHVALRIDSWLNAFTEEVFGRSPGGSGQIVEGLFGMASGGLVGTGLGQGRPNLVPFANSDMIIASFGEELGLIGLFAIVMMYLLLFTRGFRAALGTRDAFGKLLACGLSFAVALQCFVVIGGVTRLIPLTGLTTPFLAAGGSSLLANWIIVGLLLMISHTARGPVDTTPMKPGRTPEAEKTAARTPAVAGGPSGKNSTQTLPDAPTEAVKQL				NA	NA	NA	NA	NA
D1-17_03864	1458	pbpA	COG0768	Penicillin-binding protein A	GTGAACCAGGCAATACGACATTCATGGGTTGCTGCAATCGCCATGTTCGCCCTGATCTTTGGCGCGATCAGCTACGTCCAGGTGGTCGGCGCCGACGAGCTGAAGGCCAACGCCTGGAACAAGCGCGCCATTCTGCAGAACTACTGCAATGACCGCGGCGCCATTCTGGTCGGCGGCGCCCCTATTGCTGAATCCGTCGAGGGCACCGAGGCCTGCAAGTTCCAGCGCACCTACACCCAGCCCGAGCTGTACGCCGGCATCACCGGATACTTCTCCAAGAACTACGGCGTGACCGGGCTGGAACGCGCAATGGACTCGCAACTCGCCGGAAGCTCGGACCAGCTGTTCCTGGACCGCATCGGACAGCTGTTCCTGGGGAACCAGCCCAAGGGTGCATCGGTGGAACTGACCATTGATCCGGAAATCCAAAAGCTGGCGTATGACCTCATCCCGGACGGGCAGCGGGGCTCGATCGTCGTCACGGAGCCCAAGACAGGCAACATCCTGGCCATGGTCAGCAAGCCGTCCTACGATCCCAACCTCATCGCCAGCCAGGATGCAGCCAAGGAACAGGCCAGCTACAACGAGATCATCAAGGTTCCCGGCATCAACCTGAACCCGTCCGTCAGTGGTCCCACCGGGGCGCTGCTGGCTCCGGGATCGGTCTTCAAGATCGTGGATACCGCGGCAGCACTGCGCTCCGGGAAATACAACGCGGACAGCCAGCTGCCCAACCCGGCGGAGATGTCCTTCCCTGGCATCCAGTACCGGCTGCCGAACTACGCCGGCGGCAACTGTTACACGCGGACCACTGCGGACTTCGCCTTCGCGCTGCAACAGTCCTGCAACACTCCATTCGCAAGCATCGCGCAGAAGCTCGGCGAGGAAGCCATCGCGGAGCAGGCAGCGAAGTTCGGATGGGGCCAGGAGCTCGGCGACCAGCTCAAGCTGGACTACGCCATAAGCACCTTCCCGCGGGATCTCGACGCAGCCGGGCTGGCGCAGTCCGCCATCGGGCAGCGCGATGTACGCGCCACACCGCTGCAGGTCGCGCTGATGACGTCCGCGGTTGCCAACGGTGGAGTGCAGATGGCGCCGAATCTGATCAAGGCCGTCCGGTCACCCGATCTGCGCGTCATCGACGAACCGAAGCCGGTTCCCCTGCGGACCTCCACCACACCGGAGATCGCCAGCCAAATCACCGAATGGATGACCAGCGTTGTCAGTCAGGGCATCGGGGCCGGGGCTGCCGTGCCCGGAGTGGAAGTTGCGGGCAAGACCGGCACTGCCGAACTCGGCACCGAGGGTCTGAACAATTCCTGGTTCACCGGATTCGCGCCGGCGAACGACCCTCAGGTTTCCGTCACGGTCGTCATGCAGGGCGTGGACATCACCGCCGGTGCACAGCTAACCAGTCCGAACGCAAGAAAGATTTTTGAGGCGGTGTTGAATAAGTGA	MNQAIRHSWVAAIAMFALIFGAISYVQVVGADELKANAWNKRAILQNYCNDRGAILVGGAPIAESVEGTEACKFQRTYTQPELYAGITGYFSKNYGVTGLERAMDSQLAGSSDQLFLDRIGQLFLGNQPKGASVELTIDPEIQKLAYDLIPDGQRGSIVVTEPKTGNILAMVSKPSYDPNLIASQDAAKEQASYNEIIKVPGINLNPSVSGPTGALLAPGSVFKIVDTAAALRSGKYNADSQLPNPAEMSFPGIQYRLPNYAGGNCYTRTTADFAFALQQSCNTPFASIAQKLGEEAIAEQAAKFGWGQELGDQLKLDYAISTFPRDLDAAGLAQSAIGQRDVRATPLQVALMTSAVANGGVQMAPNLIKAVRSPDLRVIDEPKPVPLRTSTTPEIASQITEWMTSVVSQGIGAGAAVPGVEVAGKTGTAELGTEGLNNSWFTGFAPANDPQVSVTVVMQGVDITAGAQLTSPNARKIFEAVLNK	PGPT0023920_774	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023920-pbpA-K05364	NA	NA
D1-17_03865	1839	pknD_4		Serine/threonine-protein kinase PknD	GTGAGGCCTACATCGGGAATCACGCTCGGCGGCAGGTTCCAGCTGACCACGCGCATTGCAATCGGCGGCATGGGTGAAGTCTGGAAAGCCAAGGACCTTATCCTCGGGCGGATCGTAGCCATCAAGGTGCTCAAGGAGGAGTACACAGGCGACCCTGGATTCCTCCAGCGTTTCCGCGCCGAGGCCCGACACACTGCCCTGCTGAACCACGTGGGCATCGCCAACGTTTTTGACTATGGCGAAGAAGAAGGTTCCGCCTACCTCGTCATGGAGCTGGTGCCGGGCCAGCCGCTGAGCAGCATCATCGAGCACGAGCAGGTCCTCTCGCCGGACCGTACGCTCTCGATCATCGCCCAGACGGCCCGTGCCCTTTCCGTCGCGCACGCCCAGGGGCTGGTCCACCGTGACGTCAAGCCCGGCAACCTGCTGATCATGCCTGACGGCCGGGTCAAGGTGACTGACTTCGGCATTGCACGCCTTGCCGACCAAGTCCCGCTGACGCAGACCGGCCAAGTGATGGGAACCGCCCAATATCTCGCTCCTGAACAGGCTACCGGCCAGACAGCGACCGGCGCTTCTGACATCTACTCCCTGGGTGTCATCGGCTACGAGTGCCTTGCAGGGCACCGGCCGTTCTCCGGCGAGTCGCAGATCGCCATAGCCCTTGCCCAGGTGAACGACGCCCCGCCGCCGCTGCCGGAGACCCTGCCAAAGCCGGTCCGGGCGCTTTTGATGTCCATGCTCGCCAAGGACCCGAAGAACCGCCCGGCCAACGCCATCAAGCTTGCGGAAGCCGCCGAGGCGATCCGCAACGGGAACATTCAGGCAGCCCATGCCGCCGTTCCGGGCATGCTGCTTTATGAAGGAGCCACCGGTCCCATTACGGCCCCGGTGAAAATGCACACCGCGCCCACCGGCGTCATCGGATCCGACAGGAGTAGCACGACGACCTCCGCGCTCCCGGTGCTTGGTGCCGCTGCTGCCGGTGCCGCTGCGGCCGGCGCTGCCGGCGGGGACGGCACGCCCACACGCGCAGGCAGCACGCTCTCGCGCGCGGACGCCCTCGCAGCCGAGCGCAGCTGGGTGCAGGACGAAGAACGATACGACGACGAACCGACCGATGAACCGGAGCGGCGCGGCCGCAGCCCGTGGACGTGGCCCCTCATTGCGCTGATCCTGCTGGTGCTGTTTGCCCTGGCCGGCATTTTCCTGAACCAGGCGGGCTTCCTGTTCCCGTCGCAGGCGCCGGCGACCACGTCGGCTGCCGCCAGCAGTCCGCCGGCAACCACGGCCAGCCCCACGCCCACCACCACGTCGGCAACCCCTACGCCGACTCCCACCCCGACGCAGAACACACCGGAAACGTTTAACGTCATTGCGGATGCCTACCTGGGAAGACAGTTCACAGAGGTACGGGACGAGCTGAACGCACAAGGTTTCCGTGTGGACGGGGAGCAGGTGTTTAACGCTGCACCCCCCGGCACCGTCACGGGAATCAACCCGACGGGCCCGGTCCAGCCGGGAGAAACGATCAGAGTCACCTATTCCAAGGGGCCCGAAAGGGTTGCGGTTCCAGAGCTCAACACGGGTGACACTGAGGCTGAGGTGCGGGCAGCAATCGAAGCAGCGGGACTGCGCTGGGTCAAGGGCGCCGACGTTGAGGGTGAACCGGGGCAGGAGCCCAGGACTTTCGTCCGTTCGGACCCGCCCAGTGGCAGCCAGGCCAATGCCGGATCAGTGGTGACCTATCACCTCGCCAAGGTTCCCACTCCCACTCCCACTCCCACCCCCACCGCAACGCCCAGCGTCATTCCGACCACGCCTTTGGGTCAGGGATAA	MRPTSGITLGGRFQLTTRIAIGGMGEVWKAKDLILGRIVAIKVLKEEYTGDPGFLQRFRAEARHTALLNHVGIANVFDYGEEEGSAYLVMELVPGQPLSSIIEHEQVLSPDRTLSIIAQTARALSVAHAQGLVHRDVKPGNLLIMPDGRVKVTDFGIARLADQVPLTQTGQVMGTAQYLAPEQATGQTATGASDIYSLGVIGYECLAGHRPFSGESQIAIALAQVNDAPPPLPETLPKPVRALLMSMLAKDPKNRPANAIKLAEAAEAIRNGNIQAAHAAVPGMLLYEGATGPITAPVKMHTAPTGVIGSDRSSTTTSALPVLGAAAAGAAAAGAAGGDGTPTRAGSTLSRADALAAERSWVQDEERYDDEPTDEPERRGRSPWTWPLIALILLVLFALAGIFLNQAGFLFPSQAPATTSAAASSPPATTASPTPTTTSATPTPTPTPTQNTPETFNVIADAYLGRQFTEVRDELNAQGFRVDGEQVFNAAPPGTVTGINPTGPVQPGETIRVTYSKGPERVAVPELNTGDTEAEVRAAIEAAGLRWVKGADVEGEPGQEPRTFVRSDPPSGSQANAGSVVTYHLAKVPTPTPTPTPTATPSVIPTTPLGQG				NA	NA	NA	NA	NA
D1-17_03866	138			hypothetical protein	ATGGGCGTCACCGGGAACAGCGTGCTCGCCGGTGTCGTAGATGGCCACGATGGAGGGGTGGTTCAGGGCCGCGACGGCCTGTGCCTCGCGCTTGAACCGGGCCTGGAACTGTGGATCCCTGGCCAGATCCGGGCGTAG	MGVTGNSVLAGVVDGHDGGVVQGRDGLCLALEPGLELWIPGQIRA				NA	NA	NA	NA	NA
D1-17_03867	954			hypothetical protein	ATGTTCCACGCGTTTGATCTGCGGCCGCAGCTTCGCATCGTAAAGCACCTGCAGGGCTTCGGACTCCGTGCGGGACTCAACCGACGGGACGGCCACCTGCATCGGCTCAGCCGGTGGCTGGTTTATGAAGTTGTACAGCCACAGTCCGCCGCCTGCCAGGACCAGAAGCGCGAAGATCACAAAGATGGTGGTCCAGGCACGACGGCGGGACTTCTGCATGCGCGTGCGCTCCCTTTCGCGGGAAAGCCCCAAGGGAAGAACGTCCTGCTCTGCCGTTTCATACACCTCGGCGGCTTCCGTTGGAAGCACGGGGTCGCCGTCGCGGGATTCGTAGGCCGGCCGAAAACGGCCCGCCGGTGCATCATCGAGAAAACTCGCGCCCGTGAGGGAAAAGGCGGCGGTCGGTGGGGTGCGCTGTGGCTCCGGAACCTGGTCGTTCGGGTCTGTGGGCGCTTCGCTGGCCGAGACCGGGGGCACCGGAATGCCGTTCTGGGCAGCACGGAGCGCACGACGGAAGGCTGCCGCGTCCTGGAACCGGTCTTCCCGGTTCTTCTGCAGAGCCTTCGCCAGGACAGTGTCCAGTGCCTCCGATACTTCAGGGTTTACGCTGCTGGCGGGCTCCGGGATCTCCCGAACGTGCTGGTACGCCACGGAAACAGGGCTTTCACCGATGAACGGCGGGCGTCCGGTCAACATTTCATACATAAGGCACGCCGCGGAATAGAGGTCGCTGCGGGCGTCCACGGTCTCGCCGCGCGCCTGCTCCGGCGAAAGGTATTGGGCCGTGCCCACCACTGCCTGCGTCTGGGTCATGGTGGCGGCCGAGTCAGCCATGGCACGGGCGATGCCGAAGTCCATGACCTTGATCATGTCCGAATTCTTGCAGAACATCACATTCGCCGGCTTGATGTCGCGGTGCACGATTCCGGCCTTGTGGCTGTACTCCAGGGCTGA	MFHAFDLRPQLRIVKHLQGFGLRAGLNRRDGHLHRLSRWLVYEVVQPQSAACQDQKREDHKDGGPGTTAGLLHARALPFAGKPQGKNVLLCRFIHLGGFRWKHGVAVAGFVGRPKTARRCIIEKTRAREGKGGGRWGALWLRNLVVRVCGRFAGRDRGHRNAVLGSTERTTEGCRVLEPVFPVLLQSLRQDSVQCLRYFRVYAAGGLRDLPNVLVRHGNRAFTDERRASGQHFIHKARRGIEVAAGVHGLAARLLRRKVLGRAHHCLRLGHGGGRVSHGTGDAEVHDLDHVRILAEHHIRRLDVAVHDSGLVAVLQG				NA	NA	NA	NA	NA